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Uk³ady steruj¹ce
w zasilaczach i przetwornicach
Aplikacje, dane techniczne
Czêœæ 2
Gdañsk 2003
Materia³y zebra³ i opracowa³: Zespó³ Redakcyjny „Serwisu Elektroniki”
Opracowanie graficzne: Dariusz Skulski
Rysunki: Rafa³ Pawlak, Micha³ Kwaœniewski
Korekta: Edmund Tess
Wydawca:
Wies³aw Haligowski
ul. Gen. Hallera 169/17
80-416 Gdañsk
� (058) 344-32-57
email: [email protected]
www.serwis-elektroniki.com.pl
© Wies³aw Haligowski 2003
ISBN 83-912757-9-5
Druk i oprawa:
Gdañskie Zak³ady Graficzne Spó³ka z o.o.
Opracowanie zawiera aplikacje i dane techniczne uk³adów steruj¹cych stosowanych w
zasilaczach i przetwornicach. Przedstawiona grupa uk³adów zosta³a tak dobrana, aby
stanowiæ jak najlepsz¹ reprezentacjê dla tego typu uk³adów. Wyboru dokonano sugeruj¹c
siê popularnoœci¹ uk³adów i problemami serwisowymi wystêpuj¹cymi w sprzêcie, w którym
zosta³y u¿yte.
Spis treœci I
ADP3000 .............................................. 1 - I
ADP3050 .............................................. 3 - I
ADP3410 ............................................ 1 - II
ADP3610 ............................................ 3 - II
AH1201 .............................................. 5 - II
AN5900 .............................................. 7 - II
AN6540 ................................................ 5 - I
AN8011S ............................................ 9 - II
AN8018SA ....................................... 12 - II
AN8021L .............................................. 6 - I
AN8021SB ........................................... 6 - I
AN8022L .............................................. 8 - I
AN8022SB ........................................... 8 - I
AN8026 .............................................. 10 - I
AN8027 .............................................. 12 - I
AN8028 .............................................. 14 - I
AN8029 .............................................. 16 - I
AN8037 .............................................. 12 - I
AN8038 ............................................ 15 - II
AN8038S .......................................... 15 - II
AN8041S .......................................... 18 - II
AN8083S .......................................... 21 - II
AN8086S ............................................ 18 - I
BA3906V1.......................................... 19 - I
BA3910B ............................................ 22 - I
BA3932 ............................................ 23 - II
BA3933 ............................................ 24 - II
BA3935 ............................................ 26 - II
BA3938 ............................................ 27 - II
BA3940A.......................................... 29 - II
BA3950A.......................................... 31 - II
BA3960 .............................................. 20 - I
BA3963 .............................................. 20 - I
BA4900 ............................................ 33 - II
BA6121 ............................................ 36 - II
BA6161F .......................................... 37 - II
BA6161N.......................................... 37 - II
BA9707KV ...................................... 38 - II
BA9708K ......................................... 42 - II
BA9710KV ...................................... 44 - II
BA9736KV ...................................... 46 - II
BA9737KV ...................................... 49 - II
BA9741F .......................................... 51 - II
BA9741FS ........................................ 51 - II
BA9743AFV .................................... 52 - II
BA9744FV ....................................... 53 - II
CS3972 ............................................... 23 - I
CS51021 ............................................. 25 - I
CS51023 ............................................. 25 - I
CS51031 ........................................... 55 - II
CS51033 ........................................... 57 - II
CS5111 ............................................. 58 - II
CS5120 ............................................. 60 - II
CS5155 ............................................. 62 - II
CS52845 ........................................... 64 - II
DM38 ............................................... 65 - II
DM48 ............................................... 67 - II
DP104C ............................................ 69 - II
DPM001T1A ................................... 71 - II
FA13842 ........................................... 73 - II
FA13843 ........................................... 73 - II
FA13844 ........................................... 73 - II
FA13845 ........................................... 73 - II
FA5301BP(N) .................................. 75 - II
FA5304AP(S) ................................... 77 - II
FA5305AP(S) ................................... 77 - II
FA5331P(M) .................................... 83 - II
FA5332P(M) .................................... 83 - II
FA7610CP(N) ................... 86 - II, 266 - II
FA7611CP(E) .................................. 92 - II
FA7612CP(N) .................................. 86 - II
FA7613CP(E) .................................. 95 - II
FA7615CP(E) .................................. 97 - II
FA7616CP(E)(V) ............................. 99 - II
FA7617CP(N) .................................. 86 - II
FA7622CP(E) ................................ 101 - II
HA17384HPS/HRP....................... 103 - II
HA17384SPS/SRP ........................ 103 - II
HA17385HPS/HRP....................... 103 - II
HIC1015 ........................................... 222 - I
HIS0169 ......................................... 194 - II
IX1487BM ..................................... 105 - II
KA2S0680B ....................................... 27 - I
KA2S0880B ....................................... 27 - I
KA3842B............................................ 28 - I
KA3882 .............................................. 30 - I
II Spis treœci
KA3883 .............................................. 30 - I
KA3884 .............................................. 30 - I
KA3885 .............................................. 30 - I
KA5M0765RQC ........................... 106 - II
KA5Q0765RT ............................... 107 - II
KA5Q12656RT ............................. 107 - II
KA5Q1265RF................................ 107 - II
KA5Q1565RF................................ 107 - II
KA5S0765C ................................... 108 - II
KA5S0965 ...................................... 108 - II
KA5S09654QT .............................. 108 - II
KA5S1265 ...................................... 108 - II
KA5S12656 .................................... 108 - II
KA7500B............................................ 31 - I
KA7552 .............................................. 32 - I
KA7553 .............................................. 32 - I
L4959 .................................................. 33 - I
L4960 .................................................. 35 - I
L4964 .................................................. 36 - I
L4990 .................................................. 38 - I
L5991/A.............................................. 40 - I
L5993/D.............................................. 42 - I
LA0059 ............................................... 44 - I
LA5613 .......................................... 109 - II
LA5616 .......................................... 112 - II
LF0070 ............................................... 46 - I
LM1578A ....................................... 114 - II
LM2578A ....................................... 114 - II
LM2621 .............................................. 50 - I
LM2631 .............................................. 52 - I
LM2641 .......................................... 116 - II
LM2651 .......................................... 118 - II
LM2653 .......................................... 120 - II
LM2674 .......................................... 122 - II
LM2675 .......................................... 124 - II
LM2685 .......................................... 125 - II
LM2686 .......................................... 126 - II
LM3578A ....................................... 114 - II
LT1304................................................ 53 - I
LT1304-3.3 ......................................... 53 - I
LT1304-5 ............................................ 53 - I
LT1307................................................ 56 - I
LT1509 ........................................... 127 - II
LT1511 ........................................... 130 - II
LTC1435 ........................................ 132 - II
LTC1436 ........................................ 135 - II
LTC1436PLL ................................ 135 - II
LTC1437 ........................................ 135 - II
LTC1438 ........................................ 137 - II
LTC1439 ........................................ 137 - II
M51995AFP ....................................... 58 - I
M51995AP ......................................... 58 - I
M51996AFP ....................................... 61 - I
M51996AP ......................................... 61 - I
M51997FP ..................................... 140 - II
M51997P ........................................ 140 - II
M67209 .......................................... 143 - II
MA1545 ......................................... 145 - II
MA2820 ......................................... 147 - II
MA2830.............................................. 64 - I
MA2831.............................................. 66 - I
MAX1610 ........................................... 67 - I
MAX1611 ........................................... 67 - I
MAX1626 ........................................... 68 - I
MAX1627 ........................................... 68 - I
MAX1649 ........................................... 69 - I
MAX1651 ........................................... 69 - I
MAX1652 ........................................... 70 - I
MAX1653 ........................................... 70 - I
MAX1654 ........................................... 70 - I
MAX1655 ........................................... 70 - I
MAX1682 ........................................... 71 - I
MAX1683 ........................................... 71 - I
MAX1719 ........................................... 72 - I
MAX1720 ........................................... 72 - I
MAX1721 ........................................... 72 - I
MAX5003 ........................................... 73 - I
MAX608 ........................................ 149 - II
MAX796 ........................................ 151 - II
MAX797 ........................................ 151 - II
MAX799 ........................................ 151 - II
MB3794 .......................................... 156 - II
MC33063A .................................... 158 - II
MC33262 ....................................... 160 - II
MC33340 ....................................... 163 - II
MC33463 ....................................... 164 - II
Spis treœci III
MC34025P.......................................... 75 - I
MC34060 ............................................ 79 - I
MC34063A .................................... 158 - II
MC34262 ....................................... 160 - II
MC44603 ............................................ 82 - I
MIC18C42 ..................................... 174 - II
MIC18C43 ..................................... 174 - II
MIC18C44 ..................................... 174 - II
MIC18C45 ..................................... 174 - II
MIC2177 ............................................ 84 - I
MIC2178 ............................................ 85 - I
MIC2570 ........................................ 166 - II
MIC2571 ........................................ 169 - II
MIC3832 ........................................ 172 - II
MIC3833 ........................................ 172 - II
MIC38C42 ..................................... 174 - II
MIC38C43 ..................................... 174 - II
MIC38C44 ..................................... 174 - II
MIC38C45 ..................................... 174 - II
MIC38HC42 .................................. 174 - II
MIC38HC43 .................................. 174 - II
MIC38HC44 .................................. 174 - II
MIC38HC45 .................................. 174 - II
MIC4574 ........................................ 176 - II
MIC4680 ........................................ 178 - II
MIP0221SY ................................... 180 - II
MIP0222SY ................................... 180 - II
MIP0223SY ................................... 180 - II
MIP0224SY ................................... 180 - II
MIP0225SY ................................... 180 - II
MIP0226SY ................................... 180 - II
MIP0227SY ................................... 180 - II
ML4850 .............................................. 86 - I
ML4890 .............................................. 87 - I
ML4894.......................................... 183 - II
ML4896.......................................... 184 - II
ML4950.......................................... 185 - II
NE5562 ............................................... 88 - I
NJM2352 ............................................ 90 - I
PQ1CG1 ............................................. 93 - I
PQ1CZ1 .............................................. 93 - I
PQ1PF1 .............................................. 93 - I
SC1101 ............................................... 95 - I
SC113X .............................................. 96 - I
SE5562 ............................................... 88 - I
SG3842 ............................................... 97 - I
SI-8020 ........................................... 248 - II
SI-8021 ........................................... 248 - II
SI-8022 ........................................... 248 - II
SI-8023 ........................................... 248 - II
SI-8033S ......................................... 186 - II
SI-8050E ........................................ 187 - II
SI-8050S ......................................... 186 - II
SI-8090E ........................................ 187 - II
SI-8090S ......................................... 186 - II
SI-8120E ........................................ 187 - II
SI-8120S ......................................... 186 - II
SI-8150S ......................................... 186 - II
SI-8201L ........................................ 188 - II
SI-8203L ........................................ 188 - II
SI-8211L ........................................ 188 - II
SI-8213L ........................................ 188 - II
SI-8301L ........................................ 188 - II
SI-8401L ........................................ 190 - II
SI-8402L ........................................ 190 - II
SI-8403L ........................................ 190 - II
SI-8405L ........................................ 190 - II
SI-8501L ........................................ 190 - II
SI-8502L ........................................ 190 - II
SI-8503L ........................................ 190 - II
SI-8504L ........................................ 190 - II
SI-8505L ........................................ 190 - II
SI-8811L ........................................ 192 - II
SI-8911L ........................................ 192 - II
SI-8921L ........................................ 192 - II
SI-8922L ........................................ 192 - II
SMR40200 ..................................... 194 - II
SPH4690 ............................................. 98 - I
SPH4692 ........................................ 198 - II
SPI-8010A...................................... 200 - II
SPI-8050A...................................... 200 - II
STK50322 ...................................... 202 - II
STK5331 ............................................ 99 - I
STK5332 .......................................... 100 - I
STK5333 .......................................... 101 - I
STK5335 .......................................... 102 - I
IV Spis treœci
STK5337 .......................................... 103 - I
STK5338 ............................. 144 - I, 147 - I
STK5339 .......................................... 148 - I
STK5339B ........................................ 182 - I
STK5340 .......................................... 104 - I
STK5342 .......................................... 106 - I
STK5352 ........................................ 204 - II
STK5361L ........................................ 107 - I
STK5362 ........................................ 205 - II
STK5363 .......................................... 108 - I
STK5372H........................................ 109 - I
STK5383 ........................................ 206 - II
STK5391 .......................................... 183 - I
STK5392 ............................. 110 - I, 186 - I
STK5422 .......................................... 112 - I
STK5434 ........................................ 208 - II
STK5446 .......................................... 111 - I
STK5451 .......................................... 114 - I
STK5461ST ................................... 210 - II
STK5464 .......................................... 108 - I
STK5466T ........................................ 115 - I
STK5468 .......................................... 116 - I
STK5471 .......................................... 116 - I
STK5473 .......................................... 117 - I
STK5477 .......................................... 118 - I
STK5478 .......................................... 118 - I
STK5479 .......................................... 119 - I
STK5481 .......................................... 119 - I
STK5482 ........................................ 211 - II
STK5486 ........................................ 212 - II
STK5487 .......................................... 120 - I
STK5490 .......................................... 121 - I
STK561 ............................................ 122 - I
STK5661 .......................................... 123 - I
STK571 ............................................ 122 - I
STK581 ............................................ 123 - I
STK7216S ........................................ 124 - I
STK7225 .......................................... 120 - I
STK7226 .......................................... 125 - I
STK7231 .......................................... 127 - I
STK7233 .......................................... 127 - I
STK7253 .......................................... 128 - I
STK730-060 ..................................... 129 - I
STK73012 ........................................ 130 - I
STK7302 .......................................... 130 - I
STK7308 .......................................... 131 - I
STK7309 .......................................... 132 - I
STK730C ....................................... 214 - II
STK7310 .......................................... 130 - I
STK731B ....................................... 216 - II
STK732C ....................................... 218 - II
STK733C ....................................... 220 - II
STK73405II ...................................... 133 - I
STK73408II ...................................... 133 - I
STK73410 ........................................ 130 - I
STK73410II ......................... 133 - I, 158 - I
STK7344 .......................................... 130 - I
STK7348 .......................................... 135 - I
STK7356 .......................................... 136 - I
STK7358 .......................................... 127 - I
STK7360 .......................................... 127 - I
STK73605 ........................................ 137 - I
STK73606 ........................................ 138 - I
STK73902 ........................................ 139 - I
STK73903 ........................................ 139 - I
STK73904 ........................................ 139 - I
STK73905 ........................................ 139 - I
STK73906 ........................................ 139 - I
STK73907 ........................................ 139 - I
STK73908 ........................................ 139 - I
STK73909 ........................................ 139 - I
STK7404-105 ................................... 142 - I
STK750-010 ................................... 222 - II
STK7561G ..................................... 224 - II
STK7561J ...................................... 224 - II
STK7563A ..................................... 226 - II
STK7576 .......................................... 141 - I
STK791 .......................................... 206 - II
STR10006 ......................................... 146 - I
STR11006 ......................................... 144 - I
STR11006C ...................................... 147 - I
STR1229 ........................................ 228 - II
STR16006C ...................................... 148 - I
STR17006 ......................................... 150 - I
STR20005 ...................................... 230 - II
STR20012 ...................................... 230 - II
Spis treœci V
STR20013 ...................................... 230 - II
STR30125 ...................................... 231 - II
STR30130 ...................................... 232 - II
STR3105 ........................................ 233 - II
STR3125 ........................................ 234 - II
STR371 .......................................... 235 - II
STR40090 ......................................... 151 - I
STR40115 ...................................... 237 - II
STR41090 ......................................... 152 - I
STR4211 ........................................ 238 - II
STR440 .......................................... 239 - II
STR441 .......................................... 239 - II
STR44115 ...................................... 244 - II
STR442 .......................................... 239 - II
STR450 .......................................... 239 - II
STR451 ............................. 153 - I, 239 - II
STR452 .......................................... 239 - II
STR453 .......................................... 239 - II
STR455 .............................................. 7 - II
STR50020 ...................................... 245 - II
STR50103A ...................................... 155 - I
STR50115B ...................................... 156 - I
STR50330 ......................................... 158 - I
STR51203 ......................................... 160 - I
STR51424M ..................................... 157 - I
STR53041 ......................................... 162 - I
STR54041 ......................................... 163 - I
STR54041M ..................................... 164 - I
STR5412 ........................................... 165 - I
STR56041M ..................................... 166 - I
STR5717 ........................................... 167 - I
STR5718 ........................................... 168 - I
STR58041 ......................................... 169 - I
STR59041 ......................................... 172 - I
STR6020 ........................................... 173 - I
STR6707 ........................................ 247 - II
STR7001 ........................................ 248 - II
STR7002 ........................................ 248 - II
STR7003 ........................................ 248 - II
STR7101 ........................................ 248 - II
STR7102 ........................................ 248 - II
STR7103 ........................................ 248 - II
STR73410 ...................................... 249 - II
STR80145 ........................................... 28 - I
STR80145A ...................................... 174 - I
STR81145 ......................................... 176 - I
STR81159A.................................... 251 - II
STR83145A ...................................... 178 - I
STR84145 ...................................... 252 - II
STR9005 ........................................ 254 - II
STR9012 ........................................ 254 - II
STR90120 ...................................... 256 - II
STR9015 ........................................ 254 - II
STRD1706 ........................................ 180 - I
STRD1806E ..................................... 104 - I
STRD1816 ........................................ 181 - I
STRD1906 ..................................... 202 - II
STRD1906E ..................................... 182 - I
STRD3035 ..................................... 257 - II
STRD5095A .................................. 258 - II
STRD6008X ..................................... 183 - I
STRD6009E ..................................... 184 - I
STRD6108E ..................................... 186 - I
STRD6202 ........................................ 185 - I
STRD6601 ..................................... 259 - II
STRD6602 ........................................ 188 - I
STRD6802 ........................................ 189 - I
STRF6523LF................................. 260 - II
STRF6524 ........................................ 190 - I
STRF6535 ...................................... 262 - II
STRF6552LF................................. 264 - II
STRF6653 ........................................ 191 - I
STRF6654 ........................................ 193 - I
STRF6707 ...................................... 266 - II
STRG6153T .................................. 268 - II
STRG6551 ..................................... 270 - II
STRM6511 ....................................... 195 - I
STRM6523 ....................................... 196 - I
STRM6529 ....................................... 197 - I
STRM6545LF ............................... 272 - II
STRM6547LF .................................. 198 - I
STRM6549 ....................................... 200 - I
STRM6559LF .................................. 202 - I
STRS3100 ........................................ 204 - I
STRS5703 ........................................ 206 - I
STRS5706 ........................................ 207 - I
VI Spis treœci
STRS5707 ........................................ 208 - I
STRS5708 ...................................... 274 - II
STRS5741 ........................................ 209 - I
STRS5841 ...................................... 276 - II
STRS5941 ........................................ 210 - I
STRS6307 ...................................... 278 - II
STRS6309 ........................................ 178 - I
STRS6401 ........................................ 212 - I
STRS6401F ...................................... 212 - I
STRS6525 ........................................ 213 - I
STRS6533 ........................................ 204 - I
STRS6545LF .................................... 214 - I
STRS6703 ........................................ 215 - I
STRS6704 ........................................ 215 - I
STRS6707 ........................................ 216 - I
STRS6708 ........................................ 218 - I
STRS6709 ........................................ 221 - I
STRZ2152 ........................................ 222 - I
TCA750 ............................................ 224 - I
TCA785.......................................... 280 - II
TDA16822 ........................................ 227 - I
TDA16831 ........................................ 228 - I
TDA16831G ..................................... 228 - I
TDA16832 ........................................ 228 - I
TDA16832G ..................................... 228 - I
TDA16833 ........................................ 228 - I
TDA16833G ..................................... 228 - I
TDA16834 ........................................ 228 - I
TDA16846 ........................................ 229 - I
TDA16847 ........................................ 233 - I
TDA2580 .......................................... 236 - I
TDA2581 .......................................... 237 - I
TDA2582 .......................................... 237 - I
TDA2640 .......................................... 240 - I
TDA3640 .......................................... 242 - I
TDA4600 .......................................... 248 - I
TDA4601 .......................................... 252 - I
TDA4605 .......................................... 259 - I
TDA4605-2 ...................................... 259 - I
TDA4605-3 ...................................... 259 - I
TDA4646 .......................................... 264 - I
TDA4718A ....................................... 267 - I
TDA4916GG .................................... 268 - I
TDA8134 .......................................... 270 - I
TDA8135 .......................................... 270 - I
TDA8136 .......................................... 270 - I
TDA8137 .......................................... 270 - I
TDA8138 .......................................... 270 - I
TDA8139 .......................................... 270 - I
TDA8380 .......................................... 272 - I
TDA8385 .......................................... 278 - I
TEA1039 .......................................... 283 - I
TEA1102 ........................................ 282 - II
TEA1102T ..................................... 282 - II
TEA1103 ........................................ 284 - II
TEA1204T ........................................ 284 - I
TEA1205AT................................... 286 - II
TEA1206T ..................................... 287 - II
TEA1207T ..................................... 288 - II
TEA1504 ........................................ 290 - II
TEA2018A ..................................... 295 - II
TEA2019 .......................................... 285 - I
TEA2029 .......................................... 286 - I
TEA2164 .......................................... 290 - I
TEA2165A ..................................... 299 - II
TEA2260 .......................................... 291 - I
TEA2261 .......................................... 291 - I
TEA2262 .......................................... 291 - I
TEA5170 .......................................... 290 - I
TPS2830 ........................................... 295 - I
TPS2831 ........................................... 295 - I
TPS2832 ......................................... 301 - II
TPS2833 ......................................... 301 - II
TPS6735 ......................................... 302 - II
TPS6755 ......................................... 303 - II
U4614B .......................................... 304 - II
UC2909 .......................................... 306 - II
UC3842A.......................................... 296 - I
UC3843A.......................................... 296 - I
VEFH24A ...................................... 309 - II
μPC1394C ........................................ 298 - I
Od autorów
Oddajemy do r¹k Czytelników drug¹ czêœæ publikacji „Uk³ady steruj¹ce w zasilaczach i
przetwornicach”, w której kontynuujemy przegl¹d praktycznych zastosowañ uk³adów sca-
lonych w zasilaczach i przetwornicach.
Podobnie jak w pierwszej czêœci, tak i w tej, zebrane zosta³y aplikacje, a w niektórych
przypadkach równie¿ dane katalogowe uk³adów, które stosowane s¹ w zasilaczach i prze-
twornicach. Nie ograniczaliœmy siê tylko do przetwornic sieciowych, wystêpuj¹cych w od-
biornikach telewizyjnych, monitorach, magnetowidach, czy te¿ w sprzêcie audio. Sporo miej-
sca poœwiêciliœmy uk³adom pracuj¹cym w niskonapiêciowych przetwornicach DC-DC, któ-
re coraz czêœciej pojawiaj¹ siê na rynku, na przyk³ad w najró¿niejszych „³adowarkach”, a
tak¿e sprzêcie montowanym w samochodach.
Wœród uk³adów steruj¹cych prac¹ przetwornic impulsowych zasilanych napiêciem sie-
ciowym daje siê zauwa¿yæ tendencjê do integracji wysokonapiêciowego tranzystora kluczu-
j¹cego i rozbudowanego uk³adu steruj¹cego w strukturze jednego uk³adu scalonego. Dosko-
na³ym przyk³adem takiego rozwi¹zania s¹ uk³ady z serii MIP… firmy Panasonic, w których
ca³oœæ - uk³ad steruj¹cy i klucz - uda³o siê wcisn¹æ w trójkoñcówkow¹ obudowê TO220.
Podobnie jest z uk³adami firmy Fairchild, które z regu³y upakowane s¹ w piêciokoñcówko-
wej obudowie TO220-5, np. seria KA5Q…, KA5S… Oprócz tych nowinek wœród podze-
spo³ów znajdziecie Pañstwo swoich „starych znajomych” z popularnych serii STR… i STK…
Prezentowana ksi¹¿ka nie aspiruje do rangi katalogu, mimo zamieszczenia dla czêœci
uk³adów podstawowych parametrów elektrycznych. Nie jest ona zatem adresowana do pro-
jektanta, czy te¿ konstruktora sprzêtu. Przy doborze materia³ów g³ówny nacisk po³o¿ono na
stronê praktyczn¹, a wiêc: schemat blokowy, aplikacjê zalecan¹ przez producenta i co naj-
wa¿niejsze - praktyczne zastosowanie, czyli fragment schematu urz¹dzenia, w którym dany
uk³ad scalony zosta³ zastosowany. Liczne opinie jakie otrzymaliœmy od Czytelników zajmu-
j¹cych siê serwisowaniem elektronicznego sprzêtu powszechnego u¿ytku po wydaniu pierw-
szego tomu „Uk³adów steruj¹cych …” potwierdzi³y przyjêt¹ przez nas formu³ê tej ksi¹¿ki.
W sytuacji, gdy na warsztat trafia urz¹dzenie, do którego brak schematu, przyk³adowa apli-
kacja uk³adu pozwala na zdiagnozowanie uszkodzenia zasilacza i niejednokrotnie stanowi
nieocenion¹ pomoc w naprawie.
W czêœci 1 „Uk³adów steruj¹cych w zasilaczach i przetwornicach” zamieœciliœmy infor-
macje dotycz¹ce 260 uk³adów, w tomie 2 jest ich 251. W celu szybkiego wyszukania ¿¹da-
nego uk³adu, wzorem naszych poprzednich publikacji zamieœciliœmy spis treœci obu tomów,
przy czym uk³ady wystêpuj¹ce w czêœci drugiej zosta³y wyt³uszczone.
Licz¹c na przychylne przyjêcie prezentowanej publikacji podajemy nasz adres interneto-
wy: [email protected], na który prosimy przesy³aæ wszelkie uwagi doty-
cz¹ce zarówno tomów ju¿ wydanych, jak równie¿ propozycji uk³adów, które powinny zna-
leŸæ siê w kolejnej czêœci „Uk³adów steruj¹cych …”.
Zespó³ Redakcyjny „Serwisu Elektroniki”
ADP3410 1
ADP3410 - sterownik zasilaczy impulsowych
2
3
5678
13
-+
- +
+ -
DR
VLS
D
SD
Vcc
BIA
SE
NA
BLE
UV
LO
VC
C
4.4
V
DLY
CD
LY
VC
C
VC
CG
D
DR
VL
10%
Vcc
DE
LA
Y
4
- +
1
1.2
V
1V
IN
OV
PS
ET
VO
UT
Ra
Rb
5V
14
12 9 10
11
SR
MO
N
PG
ND
DR
VL
Q2
Q1
SW
DR
VH
VC
C
CB
STV
BA
TT
D1 G
ND
BS
T
AD
P3
41
0
Sc
he
ma
t b
lok
ow
y
2 ADP3410
1 2 3 4 5 6 7 8 9 10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
AD
P3421
AD
P3410
VH
YS
CLS
ET
LT
O
LT
I
LT
B
VID
4
VID
3
VID
2
VID
1
VID
0
CLK
DR
V
CLK
FB
IOD
RV
IOF
BS
D
PW
RG
D
UV
LO
SS
L
SS
C
CO
RE
DA
CO
UT
GN
D
OU
T
VC
C
RA
MP
RE
G
CS
+
CS
-
C3
68
C14
100
Q2
2N
3906
Q1
MJD
210
C20
10
FR
OM
CP
U
C2
100n
R1
51.1
k
R2
160k
R10
10k
VR
ON
R11
220k
R12
470k
C22
1n
C21
1.5
n
C1
100n
C31
1p
R16
3.3
kC
25
22n
R19
2k
R21
10k
R17
75k
C41
1p C
29
100p
R18
576k
C23
1n
R6
7.5
k
3.3
V
R15
332
1 2 3 4 5 6 7
OV
PS
ET
GN
D
DR
VL
VC
C
SR
MO
N
SW
DR
VH
BS
T
R5
10k
R22
100k
C18
10p
8910
11
12
13
14
C28
10
C17
100n
R8
2.2
C10
10
C15
10
C16
10
R9
2.2
M1
3×
IRF
7811
M2
M3
D2
10B
Q040
D1
10B
Q040
L1
1µ
5V
VIN
VC
CO
NC
OR
ES
EN
SE
VG
AT
E
VC
CC
PU
IO
VC
CC
PU
CLK
GN
D
C32
15n
RC
S
5m
R20
10
VC
CC
PU
CO
RE
C4-C
6,
C11,C
12
C26,C
27
220
×7
SD
IN DR
VLS
D
DLY
VC
CG
D
PG
ND
Sc
he
ma
t a
plik
ac
yjn
y
ADP3610 3
ADP3610 - podwajacz i regulator napiêcia
VIN
SD
CM1 CM2CP1
VOUT
GND
CP2
DRV DRV
DRIVE LOGIC
OVER-VOLTAGE
PROTECTION
1MHzOSC
ADP3610
Schemat blokowy
Schemat aplikacyjny dla nieregulowanego napiêcia wyjœciowego
1
2
3
4
5
6
7
8 9
10
11
12
13
14
15
16VIN VIN
VINVIN
VIN VIN
CM2 CP2
GND
GND
GND GND
VOUT
VOUT
SD
CM1 CP1
CP12.2µ
CP22.2µ
V0=6.2V
@320mA
OUTPUT
1.0µC0
1.0µCIN2
1.0µCIN1
+-
VIN=3.3VINPUT
ADP3610
4 ADP3610
1
2
3
4
5
6
7
8 9
10
11
12
13
14
15
16
ADP3610
ADP3605
VIN VIN
VINVIN
VIN VIN
CM2 CP2
GND
GND
GND GND
VOUT
VOUT
SD
CM1 CP1
CP12.2µ
1.0µ
1.0µ
1.0µ
CP22.2µ
+
-
VIN=3.0V TO 3.6V
1k
470
0.1µ25.5k
24.9kTL431
1.0µ
2.2µ 2.2µ
2. .2µ
2.2µ
1.0µ
VGH=17V @
3mA
VMAIN=5V@
150mA
CP+
GND
CP-
SD
VIN
VOUT
NCVSNS
VGL= -5V@
30mA
1.0µ1.0µ1.0µ
1.0µ
Schemat uk³adu zasilania wyœwietlacza LCD
AH1201 5
AH1201 - sterownik zasilaczy impulsowych
Zasilacz chassis P69SA firmy Samsung
+
-
6 5789
A2V
A1IC801AH-1201
VR5015K
R8132.7K1/2
R810561/4
R8146201/4
1
82K 1/2
R816 10 1/2 D805TVR10G+
C80822uF 16V
C8132.2uF16V(T)
R80830K1/4
R803220K1/2W
R804220K1/2W
DZ8016.2Vz
+
R8071001/4
R8060.22 2W (R-P)
Q802 C815-Y
C888271
R1
Q801TCM80A
R80510 2W (RS)
R80910 2W (RS)
+
C812220uF400V
C806
C803C804
C805
D804ER812-06
D801ER812-06
D803ER812-06
D802ER812-06
C803-806222 AC250V
R8023.3
10W(RW)
L80127mH
!C801224AC250V(MP)
!
L80239mH
!
!C802474AC250V(MP)
R8013.3M (R-C)
!
P8012C14R
POSISTOR
!
GI-PINJP*2
CN80215.5AT70L2500D-COIL
!
SW801ESB-99832V
MASTER-SWITCH
D800SVC471D-10A
ZNR
F8013.15A AC250V !BAN
BLU
GT-PIN 1P
GT-PIN 1P
CN801AC INPUT
AC230V
!
SPEC NON-SPEC
L801
L802
C801
C802
27mH
39mH
224 AC250V
474 AC250V
JUMPER
39mH
154
DELETE
6 AH1201
!
! !
15 4 3 2
+
-
2V
VDD
Vref
R840471/4
R82812 2W(RS)
101
L803RS107
-Y
881
R88810 1/2
0180A
09(RS)
C807102 2KV
C830472 4KV
C831472 4KV
R8303.3M1/2W(RC)
R8313.3M1/2W(RC)
! !
HOT COLD
4
7
2
1
9
11
D806RU3AM
L804F.B
C810 271 2KVL805
100uH
+
C853100uF160V
DZ805R2KN
R8207.5K 2W (RS)
R82210K 2W (RS)
+
C85710uF50V
DZ804KA33V574J
12
13
D807RU3AM
C811 271 2KVR81822 3W(RW)
+
C8551000uF25V
L807F.B
R8170.47 1W
(RF)
C809104(P)
IN OUT
+
C858220uF
10V
R83210K
Q805A614
R8171K
1/2W R821 390
Q806C2331-Y
+
C837470uF16V
DZ8038.2Vz
D8101N4148
Q803C815-Y
POWER
B7-8V
B3-5V
B2-33V
B1-125V
B5-15.5V
T801TRANS-SWITCHING
A1206-0036!
+
MC8014.7uH
50V
MR8012K
MR8003.3K
MQ802A928A-Y
MQ801C815-Y
MQ800C815-Y
5V
GN
D
PO
WE
R
8V
MCN801PIN-HEADER
OPTIONPARTS(SIM135:ADD)
AN5900, STR455 7
AN5900 - sterownik zasilaczy impulsowych
STR455 - regulator napiêcia
~
~
MAINPOWER SW
SW01
50/60Hz(7255ME)
50Hz(7255EE)
AC100V~260V
L1
L3
L4
L2
T02POWER TRANSF. D11
1B4B42
F030,4A
+
-
~
~
C11220100
LF01LINE FILTERF01 T3,15A
C010,047MM
AC250V C020,047MM/AC250V
R191K 1/4W
R201K D20
1S2473H
R21 1K 1/4
C2110/50
C2247/16
TP-99T03
SW TRANSF.CE40562-00B
C250,0022
D121SS81
D131SS83
500V
-28V
12V
61V
12V
60V
Q02
R111K 1/4
Q06
0V
59V
R123,9K
1W
Q0361V 10,8V
D14RD11E
(B)
11,2V
R23 10K
C134716
R1
31
0K
1/4
0,7V
Q07
C1210/16
4,9V 10,8V 0,7V 6V 6V 6V
TP-98
R154,7K1/4
C200,0047MY
R143,9K1/4
D15RD6,2E
(B2)
FR
ON
TIN
EX
TT
RG
G
SO
FT
STA
RT
Vcc
GN
D
OU
T
OS
C
Vin
Vre
f
PROTE-CTOR
OSCPULSEWIDTH
MODULATOR
ERRORAMP
123456789
G5 G4 G2 G1
10,8V10,8V
Q04
10,2V
R174,7K1/4
R1810K1/4
R255,6K1/4
0,3
V
0,7V
Q05
D161S2473H
D181S2473H
LY01RELAY
R22
D171S2473H
Q02 2SA1013(0)SUB POWER OUT
Q03 2SD866B(P,Q)12V START
Q04 2SA1013(0)MAIN START
Q05 2SC1815(Y,GR)RELAY DRIVE
Q06, Q07
2SC1815(Y,GR)SUB POWER DRIVE
IC02
AN5900SUB POWER
I1
12V ADJ
CE40511-00B
CE40134-001
2.8Vp-p (5µs/div)39
39
0.7Vp-p (50µs/div)42
42
100/1W
Schemat zasilacza OTVC JVC 7255EE i 7255ME
8 AN5900, STR455
~
L01DEG. COIL
TH01W POSISTORA76038
D05GU3-SY
C040,0047
AC400V
D01÷D04TVR4N
C23D02
D01D03
D04
C230,0047
AC400V
C030,0047
AC400V
C05220/400
R0110
3WUNFR
D21SF5J42 R03
220 1/4
R024,7K1/4
D061SR124-
400
C06100/10
T01 SW TRANSF.CJ39592-00C
R27
33/2W
IC01 STR455REGULATOR
118V÷
357V
110V 0V
C0710/160
R042W/270MR
D19V19E
C262200500V
D07RU-3A
R05220K 1/2
C244,750
R0656/2W
D081SR124-400
R26 22K 1/2
F02T1A
C08100/160
D10SF5J42
C090,01 MY
R082,2K1/4
D09RD20EV3
R109,1K1/4
R0941 21/2
K
TP-91
110V
K3
K2
K1
G3
C170,0047
AC400V
R)
I1 I2
SX - 9002A
POWER SUPPLYPCB ASS'Y
16Vp-p (H)16Vp-p (H) 38
38
41
41
AN8011S 9
AN8011S - dwuwyjœciowy regulator napiêcia
-
-
--
-
--
-
-+
+
+
+
+
++
+
1
CT
VREF
On/Off
Unlatch pro.
Unlatch pro.
OSC
U.V.L.O.
VREF
Error amp.
Error amp.
PWM2
PWM1
Short pro.
Latch
2
15
3
14
4
13
5
12
6
11
7
10 9
8
RT
Latch
On/Off
IN+
IN-2
IN-1
FB2
FB1
DTC2
DTC1
Out2
Out1 VCC
GND
16
AN8011S
Schemat blokowy
Opis wyprowadzeñ uk³adu AN8011S
Pin No. Symbol Description
1 CT
Pin for connecting the oscillation frequency setting capacitor for triangular oscillation
circuit. Frequecy of triangular oscillation is set by connecting a capacitor between this
terminal and GND
2 RT
Resistor connection pin for setting the oscillation frequency of triangular oscillation
circuit. Frequecy of triangular oscillation is set by connecting resistance between the
pin and GND
3 On/Off "On/Off' pin for turning on/off IC. "Low" stops IC (output off) and "High" operates IC.
4 IN-2 Inverted input pin for channel 2 error amplifier
5 F/B 2
Output pin for channel 2 error amplifier. Gain setting or phase compensation is per-
formed by connecting resistor or capacitor between the pin and IN-2. It is alsoconnected to PWM short-circuit protection
6 DTC2 2
Pin for setting dead-time period of channel 2. The dead-time of channel 2 is set by
connecting external resistor. Soft start function can be also given by connectingcapacitor in parallel with the external resistor. In addition, only channel 2 output can beturned off by decreasing the pin voltage to below 0.12 V. (short-circuit protectionfunction stop circuit)
7 Out 2 Channel 2 open-collector type output pin. Io = 100 mA maximum
8 GND Grounding pin of signal system
9 Vcc Power supply voltage application pin. It detects start voltage and stop voltages
10 Out 1 Channel 1 open-collector type output pin. Io = 100 mA maximum
11 DTC1 1
Pin for setting dead-time period of channel 1. The dead-time period of channel 1 is set
by connecting external resistor. Soft start function can be also given by connectingcapacitor in parallel with the external resistor. In addition, only channel 1 output can beturned off by decreasing the pin voltage to below 0.12 V. (short-circuit protectionfunction stop circuit)
10 AN8011S
Opis wyprowadzeñ uk³adu AN8011S cd.
Pin No. Symbol Description
12 F/B 1
Output pin for channel 1 error amplifier. Gain setting or phase compensation is per
formed by connecting resistor or capacitor between the pin and IN-1. It is also con
nected to PWM short-circuit protection
13 IN-1 Inverted input pin for channel 1 error amplifier
14 IN+ Pin for noninverted input of channel 1 error amplifier
15 Latch
Pin for connecting the time constant setting capacitor for timer latch type short-circuit
protection circuit. The time constant for short-circuit protection is set by connecting
a capacitor between this terminal and GND
16 VREF
Internal reference voltage output pin (2.5 V(allowance: ±3%)). If a load of 20 mAtypical or more is applied, the overcurrent protection operates to reduce VREF andswitching operation stops
-
-
-
-
-
-
-
-
-
+
+
+
+
+
++
+
CT
VR
EF
On/Off
Unlatch pro.
Unlatch pro.
OSC
U.V.L.O.
VREF
Erroramp.
Erroramp.
PWM2
PWM1
Short pro.
Latch
2
15
3
14
4
13
5
12
6
11
7
10 9
8
RT
La
tch
On
/Off
IN+
IN-2
IN-1
FB
2F
B1
DT
C2
DT
C1
Ou
t2O
ut1
VC
CVCC =7V
VCC =7V
GN
D
VIN = 7V
0.01µ
0.1
µ
33
k
120k
3.3V
1
25k5
4k5
5V
0.01µ
0.1
µ
33
k 10
0
20
k
15
0p
120k
500
500
100
16
2.5V
10µ
R
0.75V
AN8011S
Schemat aplikacyjny
AN8011S 11
-
-
-
-
-
-
-
-
-
+
+
+
+
+
++
+
CT
VR
EF
On/Off
Unlatch pro.
Unlatch pro.
OSC
U.V.L.O.
VREF
Erroramp.
Erroramp.
PWM2
PWM1
Short pro.
Latch
2
15
3
14
4
13
5
12
6
11
7
10 9
8
RT
La
tch
On
/Off
IN+
IN-2
IN-1
FB
2F
B1
DT
C2
DT
C1
Ou
t2O
ut1
VC
C
VCC
GN
D
16
6k
14k
7k
23k 3V
0.01µ
0.1
µ
33
k
120k
SBD
-5V
1
25k5
4k5
5VSBD3V
0.01µ
0.1
µ
33
k
20
k
15
0p
120k
7
3V
25k5
4k5
SBD5V
To pin4
f = 200kHzDuty = 75%
AN8011S
Schemat aplikacyjny
12 AN8018SA
AN8018SA - dwuwyjœciowy regulator napiêcia
-
-
-
-
-
-
-
-
-
--
+
+
+
+
+
+
+
+
++
+
Unlatch10.2V
VREF
VREF
VREF
0.9V
Triangular waveoscillation
Latch
R
SQ
Vcc
PWM1
Referencevoltage source
VREF
1.19VOn/offcontrol
S.C.P.comp.
HL
U.V.L.O.4
5
15
3
9 16 1 6
7
11
10
13
IN-1
FB1
On/off
IN+1
Vcc VREF OSC DT1
Out1
RB2
Out2
FB2
IN+2
S.C.P. DT2
14
2 12
1.19V
Error amp.2 0.22V
0.9V0.9V
Unlatch2
PWM2
Error amp.1
8 GND
0.9V
AN8018SA
Opis wyprowadzeñ uk³adu AN8018SA
Pin No. Symbol Description Pin No. Symbol Description
8 GND Grounding pin1 OSC
Pin for oscillation timingresistor and capacitorconnection 9 Vcc Power supply voltage application pin
10 Out2 Out2 block push-pull type output pin2 S.C.P.
Pin for connecting the timeconstant setting capacitor forshort-circuit protection 11 RB2
Out2 block output source current
setting resistor connection pin
3 IN+1Error amplifier 1 blocknoninverting input pin 12 DT2 PWM2 block dead-time setting pin
4 IN-1Error amplifier 1 block invertinginput pin
13 FB2 Output pin of error amplifier 2 block
5 FB1Output pin of error amplifier 1block
6 DT1PWM1 block dead-time settingpin
14 IN+2Error amplifier 2 block inverting input
pin
15 Off On/off control pin7 Out1
Out1 block open-collector type
output pin 16 VREF Reference voltage output pin
Schemat blokowy
AN8018SA 13
VR
EF
Off
IN+
2
DT
2
FB
2
Ou
t2
RB
2
VC
C
OS
C
S.C
.P.
IN+
1
IN-1
GN
D
Ou
t1
DT
1
FB
1
16
15
14
13
12
11 10 9
7 8654321
10μ
10μ
MA3X720(MA720*)
MA3X720(MA720*)
200μH
100μH
510200
0.1μ
12k330p 0.01μ 0.01μ
6k2
82k 51k
51k
68k
68k
1k
GND
GND
Output1-8V, 10mA
Output2+15V, 50mA
0.1μ
0.01μto 0.1μ 0.1μ
0.01μ
10μ
1k
Input 5V
22k68k
SW
AN8018SA
2SD0602
150k
13k
VR
EF
Off
IN+
2
DT
2
FB
2
Ou
t2
RB
2
VC
C
OS
C
S.C
.P.
IN+
1
IN-1
GN
D
Out1
DT
1
FB
1
16
15
14
13
12
11
10 9
7 8654321
100μ
200μ
10μH
10μH
750560
0.1μ
12k330p 0.01μ 0.01μ
50k
39k
9k1
82k
68k
68k
1k
Output1
Output2+12V
0.1μ0.01μto 0.1μ 0.1μ
0.01μ
10μ
1k
Input
51k68k
AN8018SA
110k
12k
+5V
1kL
H
Schemat aplikacyjny dla napiêcia wejœciowego 5V i napiêæ wyjœcio-
wych 15V/-8V
Schemat aplikacyjny dla napiêcia wejœciowego 2.5÷6.5V i napiêæ
wyjœciowych 5V/12V
14 AN8018SA
VR
EF
VR
EF
Off
Off
IN+
2IN
+2
DT
2D
T2
FB
2F
B2
Ou
t2O
ut2
RB
2R
B2
VC
CV
CC
OS
CO
SC
S.C
.P.
S.C
.P.
IN+
1IN
-1
IN-1
FB
1
GN
DG
ND
Ou
t1O
ut1
DT
1R
B1
FB
1D
T11
16
16
15
15
14
14
13
13
12
12
11
11
10
10
99
77
88
66
55
44
33
22
11
10μ
10μ
10μ
10μ
68μ
H
18μ
H10μ
H10μ
H300
820
0.1
μ
5k1
330p
0.1
μ0.1
μ
0.1
μ
1k5
22k
3k9
56k
68k
56k
47k
75k
75k
68k
10k
10k
5V
(ST
BY
)3
00
mA
(ma
x.)
5V
14
0m
A
(ma
x.)
0.1
μ0.1
μ
0.1
μ0.1
μ
0.1
μ0.1
μ
820
820
22k
68k
68k
AN8018SA
AN8017SA
39k
51k
12k
15k
10k
10k
MA
2Q
738
(MA
738*)
MA
2Q
738
(MA
738*)
-10
V1
0m
A
(ma
x.)
2S
B1440
1.1
9V
1.1
9V
Re
mo
teo
n/o
ffc
on
tro
lp
in-1
0V
,5
V,1
8V
sto
pw
ith
hig
h-l
ev
el
inp
ut.
MA
2Q
738
(MA
738*)
MA
2Q
738
(MA
738*)
2S
D0602
2S
D0602
2S
D0874
22k
Inp
ut
1.8
Vto
3.2
V
18
V3
5m
A
(ma
x.)
Inp
ut
vo
lta
ge
ran
ge
:1
.8V
to3
.2V
Oscill
atio
nfr
equ
en
cy:
45
0kH
z
Sc
he
ma
t w
sp
ó³p
rac
y u
k³a
du
AN
80
18
SA
z u
k³a
de
m A
N8
01
7S
A
AN8038, AN8038S 15
AN8038, AN8038S - sterowniki zasilaczy impulsowych
-
-
-
- -
In
In
-
-
-
+
+
+
+
+
++
+
7V
OVP
OVP
Q
Q
Q
Q
Q
Q
S
R R
S (SD latch)
R
Q
INITStart
StopVREF
7V
Currentreviser(IFB)
Currentreviser(ITR)
High-sideclamp
I/Vconv.
Low-sideclamp 0.25V
4.2V
S
R Q
(TR latch)
1.0V
TON
TOFF
-0.2V
CF
latch
Out
drive
VFB
17k5
17k5
2
4
1
3
5
6
7
8
RSTB
IFB
TR
CF
CLM
GND
Out
VCC
AN8038
AN8038S
Schemat blokowy
Uk³ady AN8038 i AN8038S ró¿ni¹ siê obudowami:
• AN8038 - 8-pin DIP
• AN8038S - 8-pin SOP
16 AN8038, AN8038S
Opis wyprowadzeñ uk³adów AN8038 i AN8038S
Pin No. Symbol Description
1 TR
Transformer reset. When a transformer reset is detected, i.e., a low level is input to thispin, the IC output goes high.
However, the transformer reset signal is ignored during the minimum off-period determinedby the CF pin. The maximum on-period is also corrected according to the current flowingout of this pin.
2 RSTB
Adjusts the light-load detection level that determines the when the IC switches from RCCto discontinuous operation. When the voltage (VFB) which is I-V conversion of currentfeedback signal from IFB pin goes up higher than this pin, minimum off-period current atCF pin decreases, and operating frequency decreases.
The detection level can be adjusted arbitrarily using an external pull-down resistor.
3 CF Connection for the capacitor that determines the on and off periods for the IC output (Out).
4 IFB Input for the current feedback signal from the power supply output photocoupler
5 CLMInput of the pulse-by-pulse overcurrent protection circuit. Normally, it will be necessary toadd an external filter for this input.
6 GND Ground.
7 VOUT Output to drive a power MOSFET directly.
8 VccPower supply. This pin watches Vcc and has operating threshold voltages for the start,stop, OVP and OVP reset levels.
PC
AN1432MS
VOUT
PC
TR
CF
CLM
CC
IFB
RSTB
GND
Out2
4
1
3
5
6
7
8
AN8038AN8038S
EIN+
EIN-
Schemat aplikacyjny
AN8038, AN8038S 17
6.0
V/0
.6A
R10
750
R12
50
0
R14
1k8
R11
51
0
C15
1μ
5
C17
1000
μ
C18
47
μ
PC
1
Q3
AN
14
31
M/T
R13
1k5 G
ND
D8
C16
10
00
μ
MA
3F
75
0(M
A7
50
)
MA
3D
79
8(M
A10
798)
D7
D9
MA
3D
76
0(M
A7D
60
)
-28V
/30m
A
FB
I
R4
47Q
2
2S
K1
611
C6
C7
22
00
p
R7
82
0
R6
0.2
2R
15
51
PC
1
R8
15
k
C9
0.0
33
μ
R1
68
k
R1
68
k
C5
18
0μ
~ ~
+ -~
C1
L1
C2
C3
C4
C12
L2
C10
10
0μ
S2
C11
10
00
p
MA
2C
70
0(M
A7
00
)
MA
2C
70
0(M
A7
00
)
0.0
15
μ
S168
k
AN
80
38
,A
N8
03
8S
8 1
7 2
6 3
5 4
CLM
FB
GN
D
CF
Ou
t
RS
TB
Vcc
TR
R5
47
R3
75
R20
5k1
D3
MA
2C
16
6(M
A1
66
)D11
MA
2C
16
6(M
A1
66
)
D2
MA
2C
16
6(M
A1
66
)R
16
0
15V
/0.4
A
Ro
zs
ze
rzo
ny
sc
he
ma
t a
plik
ac
yjn
y
18 AN8041S
AN8041S - uk³ad sterowania podœwietleniem w wyœwietlaczach LCD
--+
PWM comp
OSC
-
--
+
+
+
S.C.P.comp.
Error amp. 2
Error amp. 1
BootstrapConstant
current source
R
R
S
S
Q
Q
QU.V.L.O.
Latch
On/offactive-high
V2.57V
REF
1 4 3 2 15
14
13
8
6
7
9
11
10
12
5
16
VREF DTC CT RT VCC
CB
Out
FB1
IN+1
IN-1
FB2
IN+2
IN-2
GND
S.C.P.
Off
AN8041S
Schemat blokowy
Opis wyprowadzeñ uk³adu AN8041S
Pin No. Symbol Description Pin No. Symbol Description
1 VREF Reference voltage output pin 7 IN-1 Error amplifier 1 inverted input pin
8 FB 1 Error amplifier 1 output pin2 RT
Pin for connecting oscillator
timing resistor 9 FB2 Error amplifier 2 output pin
10 IN-2 Error amplifier 2 inverted input pin
3 CTPin for connecting oscillator
timing capacitor 11 IN+2Error amplifier 2 noninverted inputpin
4 DTC Dead-time control pin 12 GND Grounding pin
13 Out Output pin
14 CB Bootstrap output circuit5 S.C.P.
Pin for connecting the timeconstant
setting capacitor for short-circuit
protection15 Vcc Power supply voltage application pin
6 IN+1Error amplifier 1 noninvertedinput pin
16 Off On/off control pin
AN8041S 19
- -+
PW
Mcom
p
OS
C
- -
-
+ +
+
S.C
.P.
com
p.
Err
or
am
p.2
Err
or
am
p.1
Boots
trap
Consta
nt
curr
entso
urc
e
R RS S
Q QQU
.V.L
.O.
Latc
h
On/o
ffactive-h
igh
V 2.5
7V
RE
F
14
32
15
14 13 8 6 7 9 11 10
12
516
VR
EF
DT
CC
TR
TV
CC
CB
Out
FB
1
IN+
1
IN-1
FB
2
IN+
2
IN-2
GN
D
S.C
.P.
Off
SB
D
L A M P
SB
DIn
120p
15k
V 0.7
2V
1
3k3
8k2
0.1
µ
0.0
1µ
91k
18k
3k
V1
104p
1.8
2V
AN
8041S
Sc
he
ma
t a
plik
ac
yjn
y p
od
œw
ietl
en
ia w
yœ
wie
tla
cza
LC
D
20 AN8041S
- -+
PW
Mco
mp
OS
C
- -
-
+ +
+
S.C
.P.
co
mp
.
Err
or
am
p.
2
Err
or
am
p.
1
Bo
ots
tra
pC
on
sta
nt
cu
rre
nt
so
urc
e
R RS S
Q QQU
.V.L
.O.
La
tch
On
/off
active
-hig
h
V 2.5
7V
RE
F
14
32
15
14 13 8 6 7 9 11 10
12
516
VR
EF
DT
CC
TR
TV
CC
CB
Ou
t
FB
1
IN+
1
IN-1
FB
2
IN+
2
IN-2
GN
D
S.C
.P.
Off
SB
D
In
V1
V1
Out
1.8
2V
AN
8041S
Sc
he
ma
t a
plik
ac
yjn
y k
on
we
rte
ra D
C-D
C
AN8083S 21
AN8083S - sterownik niskonapiêciowych zasilaczy impulsowych
TriangularWave
Starter
SwitchingCircuit
VREF
Starter SW
Early Value Set.
IN FB SPRO DED OUT
GND
POWER
PVcc
CLK
VREFCTSTARTVSENEMPVccRESET
2.15V
4.2
V
1.25V
0.85V
0.25V
PowerOFF
63K
0.725V
0.9V
30K
2.0V0.7V 1.25V
4.8V
3.0 - 2.5V
1 2 3 4 5
6
11
8
9
15 16 13 14 10 7 12
AN8083S
RESET
EMP
START 330pF 33k
33k 0.01µF
0.01µF47µF
0.01µF
100R
CLK
4.8V ±0.3V
TriangularWave
Starter
SwitchingCircuit
VREF
Starter SW
Early Value Set.
2.15V
4.2
V
1.25V
0.85V
0.25V
PowerOFF
63K
0.725V
0.9V
30K
2.0V0.7V 1.25V
4.8V3.0 - 2.5V
1 2 3 4 5
6
11
8
9
15 16 13 14 10 7 12
AN8083S
Start oscylatora: n.11 pod³¹czona do strony wtórnej, n.10 pod³¹czona do masy(n.10 jest niepod³¹czona podczas pracy uk³adu)
Schemat blokowy
Przyk³adowy schemat aplikacyjny
22 AN8083S
Opis wyprowadzeñ uk³adu AN8083S
Nr nó¿ki Symbol Funkcja
1 IN Wejœcie wzmacniacza b³êdu
2 FB Wyjœcie wzmacniacza b³êdu
3 SPRO Wejœcie uk³adu zabezpieczaj¹cego w przypadku zwarcia
4 DEDWejœcie sterowania czasem zw³oki. Maksymalne obci¹¿enie jestustawione na 85%. Obci¹¿alnoœæ mo¿e byæ zmieniana przez do³¹czeniezewnêtrznego rezystora pomiêdzy nó¿kê 12 i 4
5 OUTWyjœcie do sterowania tranzystorem wykonawczym (kluczem).Maksymalny pr¹d wyjœciowy wynosi 20mA
6 GND Masa
7 CT Kondensator przebiegu pi³okszta³tnego
8 PVCC Wejœcie napiêcia sta³ego, które powinno wynosiæ 1.2V lub wiêcej
9 CLK Wejœcie zegara do synchronizacji przebiegu pi³okszta³tnego
10 START Wejœcie uk³adu inicjuj¹cego pracê uk³adu
11 POWERW³¹czanie/wy³¹czanie impulsów wyjœciowych. Wyjœcie jest wy³¹czoneprzy stanie niskim (L) na n.11
12 VREF Napiêcie odniesienia
13 EMP Wyjœcie uk³adu wykrywaj¹cego malenie napiêcia
14 VSEN Wejœcie uk³adu detekcji zmniejszania napiêcia
15 Reset Wyjœcie resetu
16 VCC Napiêcie zasilania, którego wartoœæ powinna byæ wiêksza od 1.8V
Podstawowe parametry:
- napiêcie zasilania VCC 1.8 ÷ 12V
PVCC 1.1 ÷ 12V
- pobór pr¹du IPVCC 1.2mA (Vcc = 3.1V, PVcc = 3V)
- napiêcie wyjœciowe VO 4.8V
- czêstotliwoœæ oscylatora fOSC1 60 ÷ 80kHz (CT = 330pF, RREF = 33k)
AN8083S
obudowa: SOP-16
BA3932 23
BA3932 - uk³ad systemu zasilania poszczególnych bloków zestawu audio
1 2 3 4 5 6 7 8 9 10 11 12
AU
DIO
9V C
PR
EG
ND
RA
DIO
5V
CO
M5
V
CD
5V
CD
8V
MO
DE
SW
Vcc
RE
FS
TB
MO
TO
R1
4.7
V
GN
D
Vcc VccVcc Vcc Vcc Vcc
- - - - - -+
+ + +
+ +
REGULATOR
BA3932
Opis wyprowadzeñ uk³adu BA3932
Pin No. Pin name Function
1 AUDIO 9V AUDIO 9V output
2 C Capacitor for regulating AUDIO 9V
3 PRE GND AUDIO system GND
4 RADIO 5V RADIO 5V output pin; output when MODE SW is 1.4V (typical)
5 COM 5V Microcontroller 5V output
6 CD 5V CD 5V output pin; output when MODE SW is 3.2V (typical)
7 CD 8V CD 8V output pin; output when MODE SW is 3.2V (typical)
8 MODE SW Pin to select CD 5V, CD 8V, or RADIO 5V output
9 Vcc Power supply
10 REF STB Reference voltage 5V output pin; also a standby SW
11MOTOR
14.7VMOTOR 14.7V output
12 GND Large current GND, connected to the IC substrate
Schemat blokowy
24 BA3933
BA3933 - uk³ad systemu zasilania poszczególnych bloków zestawu audio
1 2 3 4 5 6 7 8 9 10 11 12
AU
DIO
7.5
V C
PR
EG
ND
RA
DIO
5V
CO
M5V
CD
5V
CD
7.5
V
MO
DE
SW
Vcc
RE
FS
TB
MO
TO
R9V
GN
D
Vcc VccVcc Vcc Vcc Vcc
- - - - - -+
+ + +
+ +
REGULATOR
BA3933
Opis wyprowadzeñ uk³adu BA3933
Pin No. Pin name Function
1 AUDIO 7.5V AUDIO 7.5V output
2 C Pin to connect a capacitor that regulates AUDIO 7.5V
3 PRE GND AUDIO system GND
4 RADIO 5V RADIO 5V output ; output when MODE SW is 1.4V (typical)
5 COM 5V Microcontroller 5V output
6 CD 5V CD 5V output ; output when MODE SW is 3.2V (typical)
7 CD 7.5V CD 7.5V output
8 MODE SW Pin to select CD 5V, CD 7.5V, or RADIO 5V
9 Vcc Power supply voltage.
10 REF STB Reference voltage 5V output ; also a standby SW
11 MOTOR 9V MOTOR 9V output
12 GND Large current GND, connected to the IC substrate
Schemat blokowy
BA3933 25
12
34
56
78
91
011
12
AUDIO
C
PRE GND
RADIO
COM
CD CONT
CD Dr
MODE SW
Vcc
REF STB
MOTOR
GND
Vcc
Vcc
Vcc
Vcc
Vcc
Vcc
-
--
-
-
-
+
++
+
+
+
RE
GU
LA
TO
R
10µ
10µ
10µ
10µ
10
0µ
220µ
M
CO
NT
RE
FV
cc
5V
BA
CK
UP
Syste
mcontr
ol
Rem
ote
contr
ol
5V
Lin
e R/P
AM
P
TU
NE
R
LIN
EIN
CD
MO
TO
RD
RIV
ER
MM
PO
WE
RA
MP
GE
QLIN
EA
MP
BA
39
33
Sc
he
ma
t a
plik
ac
yjn
y
26 BA3935
BA3935 - uk³ad systemu zasilania poszczególnych bloków zestawu audio
1 2 3 4 5 6 7 8 9 10 11 12
AU
DIO
9V C
PR
EG
ND
RA
DIO
5V
CO
M5
V
CD
5V
CD
7.5
V
MO
DE
SW
Vcc
RE
FS
TB
MO
TO
R9
.5V
GN
D
Vcc VccVcc Vcc Vcc Vcc
-
- - -
- -
+
+ + +
+ +
REGULATOR
BA3935
Schemat blokowy
Opis wyprowadzeñ uk³adu BA3935
Pin No. Pin name Function
1 AUDIO 9V AUDIO 9V output
2 C Capacitor pin for regulating AUDIO 9V
3 PRE GND AUDIO system GND
4 RADIO 5V RADIO 5V output ; output when MODE SW is 1.4V (typ)
5 COM 5V Microcontroller 5V output
6 CD 5V CD 5V output ; output when MODE SW is 3.2V (typ)
7 CD 7.5V CD 7.5V output ; output when MODE SW is 3.2V (typ)
8 MODE SW Pin to select CD 5V, CD 7.5V, or RADIO 5V
9 Vcc Power supply
10 REF STB Reference voltage 5V output ; also a standby SW
11 MOTOR 9.5V MOTOR 9.5V output
12 GND Large current GND, connected to the IC substrate
BA3938 27
Vob-
-
-
-
+
+
+
+
Vcc
STB22k
22k
Vref
Vo1
C
Vo5
Vo4
NPN
Vo3
Vo2
PRE GND
GND
BA3938
BA3938 - uk³ad systemu zasilania poszczególnych bloków zestawu audio
Schemat blokowy
OUT 9V
OUT 8.5V
OUT 5V
OUT 11V
Vcc +B
STANDBY voltage
Vcc
Timing chart
Przebiegi czasowe
28 BA3938
LINE IN
M M
MOTOR DRIVE
CD
100µ220µ
R/P AMPLINE AMP GEQ POWER
10µ
10µ
10µ
CD 5V
C AUDIO 9V
GNDPREGND
Vcc +B
MOTOR 11V
OUT 8.5V
BA3938
System control
M
CONT
Schemat aplikacyjny
Opis wyprowadzeñ uk³adu BA3938
Pin No. Pin name Function
1 Vcc + B output 60mA output current interlocked with Vcc
2 Vcc DC supply input
3 External transistor collector Output pin for external transistors
4 External transistor base Base pin for external transistors
5 5 V output 220mA power supply output current
6 8.5 V output 20mA power supply output current
7 9 V output 300mA power supply output current
8 C Capacitor pin for improving the 9V output ripple rejection
9 N.C. -
10 STAND BY Pin for ON/OFF control of each output
11 PRE GND Small current GND
12 GND Large current GND
BA3940A 29
BA3940A - uk³ad systemu zasilania poszczególnych bloków zestawu audio
2
3
7
8
1
4
+
1�
+
1�
+
10�
+
10�
+
10�
+
10�
OUT 9V300mA
OUT 7V1A
OUT 7V400mA
OUT 5V250mA
C1
C2
+
-
+
-
+
-
+
-
6
VCC
10
ST
Vref
9
MODE
2.5V 5V
12
GND
BA3940A
Schemat blokowy
Opis wyprowadzeñ uk³adu BA3940A
Pin No. Pin name Function
1 C1 Capacitor pin for improving the 9V output ripple rejection
2 OUT9V 9V output
3 OUT7V 7V output (current capacity = 1A)
4 C2 Capacitor pin for improving the 7V (1A) output ripple rejection
5 N. C. Not used
6 VCC VCC input
7 OUT7V 7V output (current capacity = 400mA)
8 OUT5V 5V output
9 MODE Switch pin for 7V outputs
10 ST Standby switch
11 N. C. Not used
12 GND GND
30 BA3940A
LINE AMP GEQ
LINE IN
+
10�
+
1�
R/P AMP
+
10�
+
1�
+
10�
System control
CD +
10�
MM
MOTORDRIVE
OUT5V OUT9V C1
BA3940A
VCC
ST
C2
OUT7V(1A)
OUT7V(400mA)
GNDMODE
POWER
MM
MOTORDRIVE
+
100�
Blokowy schemat aplikacyjny
Podstawowe parametry
- maksymalne napiêcie zasilania VCC 23V
- maksymalna moc rozproszenia 3000mW
(P = P1 {(VCC - 7V) × IOUT} + P2 {(VCC - 5V) × IOUT} + P3 {(VCC - 9V) × IOUT} + P4 {VCC × Izasilania})
BA3950A 31
BA3950A - uk³ad systemu zasilania poszczególnych bloków zestawu audio
-
-
-
-
+
+
+
+
GND
10µ
1µ
VccVref
10µ
1µ
10µ
10µ
µ - COM 5.6V400mA
8
7
1
2
5
4
312
9
10
6
CDP 10V0.8A
MOTOR13.3V
MAINSIGNAL 12V0.8A
ST
MODESELECT
BA3950A
µ - COM
CDP
MOTOR
MAINSIGNAL
MODE
ST
Vcc
Timing chart
The MAIN, MOTOR, and µ-COM outputs rise when ST is 1.4V (Typ.).The CDP output rises when MODE is 1.4V (Typ.) and ST is 1.4V (Typ.).
Schemat blokowy
Przebiegi czasowe
32 BA3950A
LINE IN
M MM M
MOTOR DRIVE MOTOR DRIVE
CD
10µ
1µ
10µ
R/P AMPLINE AMP GEQ POWER
100µ
10µ
1µ
10µ
CDP
C1
µ-COM MAIN C2
GNDMODEST
Vcc
MOTORB
MOTORC
BA3950A
System control
Schemat aplikacyjny
Opis wyprowadzeñ uk³adu BA3950A
Pin No. Pin name Function
1 MOTORB Pin for external transistor base
2 MOTORC Pin for external transistor collector
3 � - COM 5.6V output
4 C1 Capacitor pin for improving the 10V output ripple rejection
5 CDP 10V output
6 Vcc Vcc input
7 C2 Capacitor pin for improving the 12V output ripple rejection
8 MAIN 12V output
9 MODE Mode switching
10 ST Standby switching
11 N. C. Not used
12 GND GND
BA4900 33
BA4900 - uk³ad systemu zasilania poszczególnych bloków zestawu audio
Schemat blokowy
-
-
-
-
-
+
+
+
+
+
12
34
56
78
910
11
12
VA
R10.0
VM
OD
E2
MO
DE
1S
TB
VD
D5.8
VA
MP
Vcc
AN
TC
OM
8.0
VR
AD
IO8.0
VF
M8.0
VG
ND
OVERVOLTAGEPROTECTION
RE
GU
LA
TO
R
BA4900
34 BA4900
Schemat aplikacyjny
GND
FM
RADIO
COM
ANT
Vcc
AMP
VDD
STB
MODE1
MODE2
VAR
STB
MODE1
MODE2
VD
D
IGN
10
µ1
0µ
10
µ1
0µ
10
µ1
0µ
IGN
AC
CK
EY
BA
TT
MA
UT
O
AN
T
BA
4900
MA
IN
AM
PB
/T
CS
RA
DIO
CP
U
BA4900 35
Opis wyprowadzeñ uk³adu BA4900
Pin No. Pin name Function
1 VAR output10.0V power supply for variable capacitor; maximum output is
12.5mA.
2 MODE2 SW RADIO, ANT, and VAR outputs are turned ON when this pin is 5V.
3 MODE1 SW FM output is turned ON when this pin is 5V.
4 STAND BYCOM and AMP outputs are turned on when this pin is 5V; only VDD is output instandby mode (0V).
5 VDD output5.8 V Power supply for a microcontroller; maximum output is 100mA;
output is always available if BACKUP power supply is connected.
6 AMP outputPower supply to drive a remote amplifier; a voltage of about 1 V (typical) lowerthan the Vcc pin voltage is provided with a maximum output of 500mA.
7 Vcc Connected to car BACKUP and ACC power supplies.
8 ANT outputPower supply to drive an antenna; a voltage of about 1 V (typical) lower than theVcc pin voltage is provided with a maximum output of 500mA.
9 COM output
8.0V power supply with a maximum output of 150mA; this can be used assystem common power supply (such as tone, volume, and balance control) aswell as power supply for cassette player equalizers and electronic tuning variablecapacitors.
10 RADIO output 8.0V main power supply with a maximum output of 250mA for radio
11 FM output 8.0V power supply with a maximum output of 250mA for FM receiver
12 GND Connected to the IC substrate.
BACK UP(Vcc)
VDD output
STAND BY
COM output
AMP output
MODE SW2
MODE SW1
FM output
RADIO output
ANT output
VAR output
Input/output timing chart
Przebiegi czasowe
36 BA6121
BA6121 - regulator napiêcia
VOLTAGEDETECT
&PROTCTION
TR3D12
HZ16-3 D13
15VREG
10VREG
6VREG
13VREG
VOLTAGE MONITER
15V REG CONTROL
11
9
8
7
14
16
15
1
2
4
5
10
3
6
13
12
V REG
POWER SAVE
VCC
TRIANGLEOSC
-
-
-
-
-
-
+
+
+
+
+
+
PRE (D)DRIVER
PRE (C)DRIVER
PRE (B)DRIVER
PRE (A)DRIVER
-+
+40V VOLTAGE MONITER
AMP
TR4
SW DRIVE
3.1V
NC
D17
D16
C8 C9
C7
AC3.8VTO FLD
-28VTO OPERATIONFLD DRIVE
C10
D18
+40VTO TUNERVT CIRCUIT
UNR 13VTO IDL9V,AL9V
6VTO DIGITALCIRCUIT
IDL5V
MOTOR 15V
IDL5VREG
TR8
TR PCB
+6V
+15VTR7
TR2
TR5
TR1
D15
D14 13V REG CONTROL
6V REG CONTROL
13V VOLTAGE MONITER
6V VOLTAGE MONITER
+13V
10V
AC3.8V
D5 to D8
D1 to D4
13V REGCONTROL
6V REGCONTROL
VOLT MONITER
VOLTMONITER
3.1V
3.1V
GND
C11
IC1 BA6121
SWITCHING REGULATORAC3.8V
Fragment zasilacza magnetowidu VS-38EOG MK II firmy Akai
BA6161N, BA6161F 37
BA6161N, BA6161F - sterownik przetwornicy
1 2 3 4 5
BLOCKINGOSCILLATOR
FB
DR
IVE
NC
Vin
GN
D
BA6161N
BLOCKINGOSCILLATOR
4
3
2
1
5
6
7
8DRIVE
NC
NC
Vin
FB
NC
NC
GND
BA6161F
Schemat blokowy
4
3
2
1
5
6
7
8DRIVE
NC
NC
Vin
FB
NC
NC
GND
Vin
C133µ
L 4.7mH
C24.7µ
C34.7µ
Rc 1k2
100k
RL
BA6161F
Schemat aplikacyjny
Opis wyprowadzeñ uk³adów BA6161N, BA6161F
Nr nó¿ki
BA6161N BA6161FFunkcja
1 8 Sprzê¿enie zwrotne
2 1 Wyjœcie oscylatora
4 4 Zasilanie
5 5 Masa
3 2, 3, 6, 7 Niepod³¹czone
38 BA9707KV
BA9707KV - czterowyjœciowy sterownik zasilaczy impulsowych
37 24
36
1
DT3
DT2
38 23
35
2
FB3
FB2
39 22
34
3
INV3
INV2
40 21
33
4
NON3
NON2
41 20
32
5
STB2
STB1
42 19
31
6
NON4
NON1
43 18
30
7
INV4
INV1
44 17
29
8
FB4
FB1
45 16
28
9
DT4
DT1
46 15
27
10
VE4
VE1
47 14
26
11
OUT4
OUT1
48 13
25
12
OY4
OY1
VDD OX1
VREF VCC
GND OX2
SCP OY2
SYNC OUT2
CTLS VE2
RTC VE3
RT1 OUT3
CT1 OY3
RT2 OX3
CT2 VCC2
CTLB OX4
VREF
VREFVREF
1/2 VREF
U.V.L.O.
VREF
VREF
PWMCOMP
SCPCOMP
ERRAMP
ERRAMP
ERRAMP
ERRAMP
PWMCOMP
PWMCOMP
PWMCOMP
REFERENCEREGULATOR
TIMERLATCHS R
Q
1/4
DIV
IDE
R1/2
DIV
IDE
R
TR
IAN
GLE
OS
CIL
AT
OR
TR
IAN
GLE
OS
CIL
AT
OR
BA9707KV
Schemat blokowy
BA9707KV 39
Opis wyprowadzeñ uk³adu BA9707KV
Nr nó¿ki Funkcja
1, 9, 28, 35(odpowiednio dlaka¿dego kana³u)
Ustawienie czasu resetu. Okres resetu ustawiany jest przez dzielenie, na zewnêtrznymrezystorze, napiêcia VREF. £agodny start realizuje siê przez do³¹czenie do tych nó¿ek iVREF kondensatora
2, 8, 29, 34(odpowiednio dlaka¿dego kana³u)
Wyjœcie wzmacniacza b³êdu. Wzmocnienie i faza regulowane s¹ przez rezystor ikondensator do³¹czone do tej nó¿ki i INV
3, 7, 30, 33(odpowiednio dlaka¿dego kana³u)
Wejœcie odwracaj¹ce wzmacniacza b³êdu
4, 6, 31, 32(odpowiednio dlaka¿dego kana³u)
Wejœcie nieodwracaj¹ce wzmacniacza b³êdu
5 ON/OFF dla kana³u 4. Kana³ 4 pracuje, gdy na nó¿ce tej jest stan wysoki
10, 18, 19, 27(odpowiednio dlaka¿dego kana³u)
Ustawianie wartoœci pr¹du wyjœciowego. Ustawianie to odbywa siê przez do³¹czenie dotej nó¿ki masê rezystora o odpowiedniej wartoœci
11, 17, 20, 26(odpowiednio dlaka¿dego kana³u)
Wyjœcie
12, 13, 15, 16, 21,22, 24, 25
(odpowiednio dlaka¿dego kana³u)
Ustawianie wy³¹czenia pr¹du wyjœciowego, odbywa siê to przez do³¹czenie miêdzy OX iOY kondensatora
14, 23 Wyjœcie napiêcia zasilania
36ON/OFF dla wszystkich kana³ów. Je¿eli na nó¿ce tej jest stan wysoki nastêpujezatrzymanie pracy wszystkich kana³ów
37 Zasilanie
38 Wyjœcie napiêcia odniesienia
39 Masa
40Kondensator sta³ej czasowej uk³adu zabezpieczenia przed zwarciem. Kondensator tendo³¹czony jest miêdzy t¹ nó¿k¹ a mas¹
41 Wejœcie zewnêtrznych, trójk¹tnych impulsów synchronizacji
42Wejœcie ON/OFF dla zewnêtrznej synchronizacji impulsami trójk¹tnymi. Obwódzewnêtrznej synchronizacji pracuje, gdy na tej nó¿ce jest stan wysoki
43 Kondensator stabilizuj¹cy czêstotliwoœæ przebiegu pi³okszta³tnego
44 Rezystor ustalaj¹cy czêstotliwoœæ przebiegu pi³okszta³tnego
45 Kondensator ustalaj¹cy czêstotliwoœæ przebiegu pi³okszta³tnego
46 Rezystor ustalaj¹cy czêstotliwoœæ przebiegu pi³okszta³tnego dla silników
47 Kondensator ustalaj¹cy czêstotliwoœæ przebiegu pi³okszta³tnego dla silników
48ON/OFF dla przebiegu pi³okszta³tnego dla silników. Generator tego przebiegu pracuje,gdy na nó¿ce tej jest stan wysoki
Podstawowe parametry:
- napiêcie zasilania 3.5 ÷ 12V
- maksymalna, dopuszczalna moc 400mW
40 BA9707KV
Fragment schematu DVD L10 firmy Panasonic
R10044k7
OPR P-SW
NP
R100310k
R10024k7
C100110μ16V
R1001100k
A OUT SWM+8,4V
OPR OPRONHQR1002
UN5214
Q1001
2SB970X
HOLD
P-SW
4
3
2
1
L1013VLQ0849
TC1001
C10660,1
C10671000p
E GND
J1001VJJ0605
DC IN
GND
(NC)
2
3
4
L1012 VLQ0837M4R7T
L1001VLQ0837M4R7T
C10023,3
C10036μ816V
C10046μ816V
C10633,3
313233343536
37
38
39
40
41
42
43
44
45
46
47
48
1 2 3 4 5 6
IN4
+
ST
B2
IN3
+
IN3
-
FB
3
DT
C3CTLB
CT2
RT2
CT1
RT1
RTC
CTLS
SYNC
SCP
GND
VREF
VDD
R10201k
R1022150
C10208200p
C10238200
C10220,047
C1021 0,068
R1023150
R1021470
K1001K1002
ONLY P10
2-A8
2-A8
10-C1
ORP
ORP
A OUT
LCDON-H
PONH
+8,4V
R101810k
R10194k7
QR1006
UN5214
Q1005
2SB970X
QR1004
UN5214
QR1003
UN5114
C10131
D1001MA3130-LTX
2-A8
2-B1
10-A1
R1014180k
R101591k
C10151
R10051k8
C10051μ16V
C10068200p
C10070,047
R1008750
R1007750
R1009150
R10061k8
IN1
+
IN2
+
IN2
-
FB
2
DT
2
ST
B1
C1019220p
R101712k
C1018180p
R10163k9
C10170,01
C10160 4725Vμ
C10140,1
BA9707KV 41
R1010150
C10098200pC1008
0,047
29 28 27 26 253031
24
23
22
21
20
19
18
17
16
15
14
13
6 7 8 9 10 11 12
DT
C4
VE
4
OU
T4
DY
4
FB
4
IN4-
IN4+
ONLY L10
1001
IC1001
BA9707KV
FB
1
DT
1
VE
1
OU
T1
DY
1
OX1
VCC1
OX2
OY2
OUT2
VE2
VE3
OUT3
OY3
OX3
VCC2
OX4
IN1-
IN1+
R101168
C10100,1
C1011820p
C10122μ210V
R101347k
R101227k
C102822p
C102722p
C1029820p
R102568
R102639
C10301500p
C102622p
C102522p
R102447
C1024820p
7
6
5 4
3
2
18Q1007
2SB978
SW
R10461/8W100
C1052330p
CP1001
5 4
1 2 3
5 4
1 2 3
C10310,1
C10323 3μ
C1040330p
L1005VLQ837M330T
R104822
C10571μ
C10531μ
C10561μ
C10553μ3
D1006MA111-TX
D1005SB05-05CP-TB
T1001VLT0914 R1047
82
D1004MA111-TX
R104368
R10441k8
L1009VLQ0319K220
L1011VLQ0319K220
L1010VLQ0319K100
R104210k
C10441μ D1002
SB20-03P-TD
L1007VLQ836M150T
C10453μ3
C10463μ3
Q1010
2SA1898S-TD
REG
R104582
C10510,047
C1047330p
R10374k7
R10380
R10392k7
L1008VLQ837M4R7T
C10393μ3
C10380,1
R1034330
R10336k8
R1036330
C10414700p
L1006VLQ838M4R7T
L1004VLQ838M4R7T
C10340,01
R1030330
R10276k8
L1003VLQ838M4R7T
C1033330p
R1028330
R10291k8
L1002
VLQ837M330TQ1008
FR106-TL
Q1009
FP106-TL
REG
REG
R10351k8
42 BA9708K
BA9708K - trójwyjœciowy sterownik zasilaczy impulsowych
REFERENCEREGULATOR
TRIANGLEOSCILLA-
TOR
-
-
-
-
-
-
-
+
+
+
+
+
+
+
+
++
+
+
PWMCOMP
SCP COMP
PWM COMP
PWM COMP
ERR AMP
ERR AMP
ERR AMP
VREF
VREF
VREF
SQ
RTIMERLATCH U.V.L.O.
VREF
9
10
11
12
13
14
15
16
1718192021222324
25
26
27
28
29
30
31
32
1 2 3 4 5 6 7 8
OUT2
DT1
OUT1
VE1
STB1
Vcc
OUT3
VE3
BUFSCPDT3FB3INV3NON3STB2SYNC
VDD
VREF
CT
RT
GND
NON1
INV1
FB1
NON2 INV2 FB2 OY2 OX2 OY1 OX1 VE2
BA9708K
Schemat blokowy
Opis wyprowadzeñ uk³adu BA9708K
Pin No. Pin name Function
1 NON2 Channel 2 error amplifier non-inverted input
2 INV2 Channel 2 error amplifier inverted input
3 FB2Channel 2 error amplifier output pin; gain setting and phase compensation arecontrolled by connecting a resistor and capacitor between this pin and the INV2
4 OY2
5 OX2
Channel 2 output transistor off current setting pin; output transistor off current is setby connecting a capacitor between the OX2 and OY2
BA9708K 43
Opis wyprowadzeñ uk³adu BA9708K cd.
Pin No. Pin name Function
6 OY1
7 OX1
Channel 1 output transistor off current setting pin; output transistor off current is setby connecting a resistor and capacitor
8 VE2Channel 2 output current setting pin; output current of OUT2 is set by connecting aresistor between this pin and GND
9 OUT2 Channel 2 output
10 DT1Channel 1 rest period setting pin; the rest period of Channel 3 is set by dividing theVREF voltage with external resistors; a soft start is possible by connecting acapacitor between this pin and VREF
11 OUT1 Channel 1 output
12 VE1Channel 1 output current setting pin; output current of OUT1 is set by connecting aresistor between this pin and GND
13 STB1ON/OFF pin for all Channels; stops the reference voltage and all Channel operationswhen the pin is HIGH level
14 VCC Output power supply
15 OUT3 Channel 3 output
16 VE3Channel 3 output current setting pin; output current of OUT3 is set by connecting aresistor between this pin and GND
17 BUFTriangular wave external output pin, which makes triangular waves available tooutside the IC
18 SCPPin for connecting a time-constant setting capacitor in the short-circuit protectioncircuit; time constant for the timer-latched, short-circuit protection circuit is set byconnecting a capacitor between this pin and GND
19 DT3Channel 3 rest period setting pin; the rest period of Channel 3 is set by dividing theVREF pin voltage with external resistors; a soft start is possible by connecting acapacitor between this pin and VREF
20 FB3Channel 3 error amplifier output pin; gain setting and phase compensation arecontrolled by connecting a resistor and capacitor between this pin and the INV3
21 INV3 Channel 3 error amplifier inverted input
22 NON3 Channel 3 error amplifier non-inverted input
23 STB2Channel 3 ON / OFF pin; Channel 3 operates when the pin is HIGH level, andceases operation at LOW level; this pin is valid when CTL1 is LOW level
24 SYNCPin for triangular wave external synchronization input; capacitor-coupled AC wave isinput, and the triangular wave is synchronized with the input frequency; the GND pinis used in the case of self-oscillation
25 VDD Power supply
26 VREF Reference voltage output ; 2.4 V (typical)
27 CTPin for connecting a frequency setting capacitor in the triangular wave oscillationcircuit; triangular wave oscillation frequency is set by connecting a capacitorbetween this pin and GND
28 RTPin for connecting a frequency setting resistor in the triangular wave oscillationcircuit; triangular wave oscillation frequency is set by connecting a resistor betweenthis pin and GND
29 GND Ground
30 NON1 Channel 1 error amplifier non-inverted input
31 INV1 Channel 1 error amplifier inverted input
32 FB1Channel 1 error amplifier output pin; gain setting and phase compensation arecontrolled by connecting a resistor and capacitor between this pin and the INV1
44 BA9710KV
BA9710KV - czterowyjœciowy sterownik zasilaczy impulsowych
- -
-
-
-
-
--
+ +
+
+
+
+++
+
+
+
+
1/4DIVIDER
TRIANGLEOSCILATOR
TIMERLATCHS
QR
�SCP COMP
++++
- Vref
U.V.L.O.
VREF
VREF
VREF
VREF
PWM COMP
PWM COMP
PWMCOMP
PWMCOMP
REFERENCEREGULATOR
ERR AMP
ERR AMP
ERR AMP
ERR AMP
36 35 34 33 32 31 30 29 28 27 26 25
24
23
22
21
20
19
18
17
16
15
14
13
121110987654321
48
47
46
45
44
43
42
41
40
39
38
37
STB1 DT2 FB2 INV2 NON2 NON1 INV1 FB1 DT1 VE1 OUT1 OY1
OX1
VCC1
OX2
OY2
OUT2
VE2
VE3
OUT3
OY3
OX3
VCC2
OX4
OY4OUT4VE4DT4FB4INV4NON4STB4NON3INV3FB3DT3
STB3
PRO3
PRO2
CT1
RT1
RTC
CTLS
SYNC
SCP
GND
VREF
VDD
BA9710KV
Schemat blokowy
BA9710KV 45
Opis wyprowadzeñ uk³adu BA9710KV
Pin No. Pin name Functions
1, 9, 28, 35 DTRest period setting pin; the rest period is set by dividing the VREF pin voltagewith external resistors; a soft start is possible by connecting a capacitor betweenthis pin and VREF.
2, 8, 29, 34 FBError amplifier output pin; gain setting and phase compensation are controlled byconnecting a resistor and capacitor between this pin and the INV.
3, 7, 30, 33 INV Error amplifier inverted input
4, 6, 31, 32 NON Error amplifier non-inverted input
5 STB4Channel 4 ON/OFF pin; Channel 4 operates when the pin is HIGH level; this pinis valid when STB1 is LOW level.
10, 18, 19, 27VE Output current setting pin; output current is set by connecting a resistor between
this pin and GND.
11, 17, 20, 26 OUT Output
12, 13, 15, 16,21, 22, 24, 25
OX, OY Output off current setting pin; output off current is set by connecting a capacitorbetween the OX and OY.
14, 23 VCC Output power supply
36 STB1ON/OFF pin for all Channels; stops the reference voltage and all Channeloperations when the pin is HIGH level.
37 VDD Power supply
38 VREF Reference voltage output
39 GND Ground
40 SCPPin for connecting a time-constant setting capacitor in the short-circuit protectioncircuit; time constant for the timer-latched, short-circuit protection circuit is set byconnecting a capacitor between this pin and GND.
41 SYNCPin for triangular wave external synchronization input; capacitor-coupled ACwave is input, and the triangular wave is synchronized with the 1/4 subharmonicoscillation of the input.
42 CTLSON/OFF pin for triangular wave external synchronization input; externalsynchronization circuit operates when the pin is HIGH level.
43 RTCPin for connecting a capacitor to stabilize the triangular wave oscillator constantcurrent; noise of the constant current is reduced by connecting a capacitorbetween this pin and GND.
44 RT1Pin for connecting a resistor to set the triangular wave oscillator frequency;oscillation frequency is set by connecting a resistor between this pin and GND.
45 CT1Pin for connecting a capacitor to set the triangular wave oscillator frequency;oscillation frequency is set by connecting a capacitor between this pin and GND.
46 PRO2Pin to set short-circuit protection in an arbitrary way; connected to VREF whennot used.
47 PRO3Pin to set short-circuit protection in an arbitrary way; connected to VREF whennot used.
48 STB3Channel 3 ON/OFF; Channel 3 operates when this pin is HIGH level; this pin isvalid when STB1 is LOW level.
46 BA9736KV
BA9736KV - szeœciowyjœciowy sterownik zasilaczy impulsowych
Opis wyprowadzeñ uk³adu BA9736KV
Pin No. Pin name Function
1, 5, 45, 49, 55, 58 CAPL 5, 6, 1, 2, 3, 4 L connection for off transistor current setting capacitor
2, 6, 44, 48, 54, 59 CAPH 5, 6, 1, 2, 3, 4 H connection for off transistor current-setting capacitor
3, 7, 42, 47, 52, 62 BIAS 5, 6, 1, 2, 3, 4 Output current setting
4, 46, 50, 56, 57, 64 OUT 6, 1, 2, 3, 4, 5 Power transistor base connection
9, 14, 18, 34, 35, 41 SCP 6, 5, 4, 3, 2, 1 Output voltage monitor for ch1 to ch6 protection
11, 16, 19, 33, 37, 40 INV6, 5, 4, 3, 2, 1 Inverting input for error amplifier
12, 17, 20, 32, 36, 39 FB 6, 5, 4, 3, 2, 1 Error amplifier output
13 COMP Timer latch external trigger input
21 RT Connection for resistor for triangular-wave timing
22 CT Connection for capacitor for triangular-wave timing
23 SCP Connection for capacitor for setting timing latch delay
24 DUTY MOSFET duty control
25 GND Ground
26 SOFT Connection for capacitor for setting soft start
27 Vref Reference voltage output
28 Vcc Power supply input
29 STB3 Channel 3 on / off switch
30 STB All Channel on / off switches
8, 31 DTC 2, 3 Dead time control
38, 60 GATE1, 4 MOSFET gate connection
43 Vcc13 Power supply input for Channels 1 and 3 output stages
51 Vcc24 Power supply input for Channels 2 and 4 output stages
63 Vcc56 Power supply input for Channels 5 and 6 output stages
53 GND123 Ground connection for Channels 1, 2, and 3 output stages
61 GND456 Ground connection for Channels 4, 5, and 6 output stages
10, 15 NON6, 5 Non-inverting input for error amplifier
Podstawowe parametry
- napiêcie zasilania 2.8÷13.5V
- maksymalny pr¹d wyjœciowy 100mA
- czêstotliwoœæ wewnêtrznego oscylatora 10÷800kHz
- rezystor ustalaj¹cy czêstotliwoœæ oscylatora 12k
- kondensator ustalaj¹cy czêstotliwoœæ oscylatora 100÷10000pF
BA9736KV 47
55
56
57
61
58
62
59
4
2
63
60
48
1
64
54
53
52
51
50
49
470p
470p
470p
7 6 5 4
S3
3 2 1
V+
10kV2
Ffosc1fosc2
300p
Vcc
200
7 6 5 4
S4
3 2 1
F
Schemat aplikacyjny
48 BA9736KV
BA9736KV
39
10
26
40
9
25
41
8
24
45
4
20
42
7
23
46
3
19
43
6
22
47
2
18
44
5
21
48
1
17
38
11
27
37
12
28
36
13
29
35
14
30
34
15
31
33
16
32
470p
Ffosc
300p
7
6
5
4
S2
3
2
1
VFBVO3
1
2
S1
3
SV
47k
100p 25k5k
470p
470p
A
A
+
A2+
VO2
BA9737KV 49
BA9737KV - czterowyjœciowy sterownik zasilaczy impulsowych
-
-
-
-
- -
-
-
-
-
-
-
-
+
+
+
+
+ +
+
+
+
+
+
+
+
+
+
+
+
ON/OFFLOGIC
OSCBUFFER
TRIANGLEFROMOSC
STBCTRT STB1 STB2 STB3 STB4
OUT4
CAP-L4CAP-H4
BIAS4
Vcc34OUT3
CAP-L3CAP-H3
BIAS3
PGND
OUT2
CAP-L2CAP-H2
BIAS2
Vcc12
OUT1
CAP-L1CAP-H1
BIAS1
SCPVcc
Vref
GND
DTC1
INV1
NON1
FB1
SCP1
DTC2
INV2
FB2
SCP
DTC3
INV3
FB3
SCP3
DTC4
INV4
NON4
FB4
SCP4
SQ
RTIMERLATCH
VOLTAGEREFERENCE
BA9737KV
Schemat blokowy
50 BA9737KV
Opis wyprowadzeñ uk³adu BA9737KV
Pin No. Pin name Function
2, 34, 39, 44 CAP-H4, 1, 2, 3 H connection for off transistor current-setting capacitor
1, 35, 40, 45 CAP-L4, 1, 2, 3 L connection for off transistor current-setting capacitor
3, 36, 41, 46 OUT-4, 1, 2, 3 Power transistor base connection
4, 9, 24, 32 DTC-4, 3, 2, 1 Dead time control
5, 10, 27, 31 SCP-4, 3, 2, 1 Output voltage monitor for Channels 1 to 4 protection
6, 30 NON-4, 1 Non-inverting input for error amplifier
7, 11, 26, 29 INV-4, 3, 2, 1 Inverting input for error amplifier
8, 12, 25, 28 FB-4, 3, 2, 1 Error amplifier output
13, 14, 22, 23 STB-4, 3, 2, 1 Channel 1 to Channel 4 on / off switches
15 RT Connection for resistor for triangular-wave timing
16 CT Connection for capacitor for triangular-wave timing
17 SCP Connection for capacitor for setting timing latch delay
18 GND Ground
19 Vref Reference voltage output
20 Vcc Power supply input
21 STB All Channel on / off switches
33, 38, 43, 48 BIAS-1, 2, 3, 4 Output current setting
37 Vcc-12 Power supply input for Channels 1 and 2 output stages
42 P-GND Ground connection for all output stages
47 Vcc-34 Power supply input for Channels 3 and 4 output stages
Podstawowe parametry
- napiêcie zasilania 2.5÷12V
- czêstotliwoœæ oscylatora 10÷700kHz
- pr¹d wyjœciowy 30mA
BA9741F, BA9741FS 51
BA9741F, BA9741FS - dwuwyjœciowy sterownik zasilaczy impulsowych
-
-
-
--
+
++
+
++
+
+
S R RTimerLatch
UVLO
Vref
Vref
TriangleOscillator
PWM Comp 1
PWM Comp 2
8116
15
12
13
14
5
4
3
16
9 1 2
7
10
GNDDT 2DT 1
SCP
FB 2
INV 2
NON 2
FB 1
INV 1
NON 1
Vref
Vcc CT RT
OUT 1
OUT 2
ReferenceVoltage
Vref
ErrAmp 2
ErrAmp 1
Vref
SCP Comp
BA9741F/FS
Schemat blokowy
Opis wyprowadzeñ uk³adów BA9741F / BA9741FS
Pin No. Pin name Function
1 CT External timing capacitor
2 RT External timing resistor
3 NON1 Positive input for error amplifier 1
4 INV1 Negative input for error amplifier 1
5 FB1 Error amplifier 1 output
6 DT1 Output 1 dead time / soft start setting
7 OUT1 Output 1
8 GND Ground
9 Vcc Power supply
10 OUT2 Output 2
11 DT2 Output 2 dead time / soft start setting
12 FB2 Error amplifier 2 output
13 INV2 Negative input for error amplifier 2
14 NON2 Positive input for error amplifier 2
15 SCP Time latch setting
16 Vref Reference voltage output (2.5V)
Podstawowe parametry
- napiêcie zasilania VCC 3.6÷35V
- pr¹d wyjœciowy IO 100mA
- moc rozproszenia Pd 500mW dla BA9741F
650mW dla BA9741FS
52 BA9743AFV
BA9743AFV - dwuwyjœciowy sterownik zasilaczy impulsowych
-
-
-
--
+
++
+
++
+
+
S R RTimerLatch
UVLO
Vref
Vref
TriangleOscillator
PWM Comp 1
PWM Comp 2
8116
15
12
13
14
5
4
3
16
9 1 2
7
10
GNDDT 2DT 1
SCP
FB 2
INV 2
NON 2
FB 1
INV 1
NON 1
Vref
Vcc CT RT
OUT 1
OUT 2
ReferenceVoltage
Vref
ErrAmp 2
ErrAmp 1
Vref
SCP Comp
BA9743AFV
Schemat blokowy
Opis wyprowadzeñ uk³adu BA9743AFV
Pin No. Pin name Function
1 CT External timing capacitance
2 RT External timing resistance
3 NON1 Positive input for error amplifier 1
4 INV1 Negative input for error amplifier 1
5 FB1 Output for error amplifier 1
6 DT1 Output 1 dead time / soft start setting
7 OUT1 Output 1
8 GND Ground
9 Vcc Power supply
10 OUT2 Output 2
11 DT2 Output 2 dead time / soft start setting
12 FB2 Output for error amplifier 2
13 INV2 Negative input for error amplifier 2
14 NON2 Positive input for error amplifier 2
15 SCP Timer latch setting
16 Vref Reference voltage (2.505V) output
Podstawowe parametry
- napiêcie zasilania VCC 3.6÷35V
- pr¹d wyjœciowy IO 100mA
- czêstotliwoœæ oscylatora FOSC 10÷800kHz
- napiêcie wyjœciowe VO 35V
BA9744FV 53
BA9744FV - dwuwyjœciowy sterownik zasilaczy impulsowych
-
-
- -
-+
+
+ +
+
+ +
+
SR
RT
ime
rL
atc
hU
VL
O
Vcc
Vcc
Tria
ngle
Oscill
ato
r
PW
MC
om
p1
PW
MC
om
p2
811
6
1512131454316
91
2
7 10
GN
DD
T2
DT
1
SC
P
FB
2
INV
2
NO
N2
FB
1
INV
1
NO
N1
Vre
f
Vcc
CT
RT
OU
T1
OU
T2
Re
fere
nce
Vo
lta
ge
Err
Am
p2
Err
Am
p1
Vre
f
SC
PC
om
p
BA
9744F
V
Sc
he
ma
t b
lok
ow
y
54 BA9744FV
Opis wyprowadzeñ uk³adu BA9744FV
Pin No. Pin name Function
1 CT External timing capacitor
2 RT External timing resistor
3 NON1 Positive input for error amplifier 1
4 INV1 Negative input for error amplifier 1
5 FB1 Output for error amplifier 1
6 DT1 Output 1 dead time/soft start setting
7 OUT1 Output 1
8 GND Ground
9 Vcc Power supply
10 OUT2 Output 2
11 DT2 Output 2 dead time / soft start setting
12 FB2 Output for error amplifier 2
13 INV2 Negative input for error amplifier 2
14 NON2 Positive input for error amplifier 2
15 SCP Timer latch setting
16 Vref Reference voltage output (1.222V)
Podstawowe parametry
- napiêcie zasilania 2.5÷35V
- pr¹d wyjœciowy 30mA
- maksymalne napiêcie wyjœciowe 35V
- czêstotliwoœæ oscylatora 10÷800kHz
- kondensator ustalaj¹cy czêstotliwoœæ oscylatora 100÷15000pF
- rezystor ustalaj¹cy czêstotliwoœæ oscylatora 3÷15k
CS51031 55
CS51031 - regulator napiêcia
CS51031
COSC
VC
VCC
VFB
8
1 VGATE
RG
2 PGnd
R
S
QN
F2
Q
VGATE
Flip-Flop
G1
G2
+
-A6
VFB
Comparator
5
4 Gnd
+-
1.25V
+
-
Holdoff
Comp
+-
-
+A1
OscillatorComparator
3
VREF
IC
IC
+-
+-
VCCOKVCC
3.3V6
VCC
VREF=3.3V
0.7V
+
-+-
1.15V+
A4-
+-
2.3V
CS ChargeSenseComparator
G4
R
S
QN
F1
QG5
Flip-FlopSlow Discharge
-
+A2
CSComparator
+-
+-1.5V 2.5V
-
+A3
+-2.4V
Slow DischargeComparator
7CS
IT55
IT5
IT
1.5V 2.5V
G3CompFault
Schemat blokowy
Opis wyprowadzeñ uk³adu CS51031
Nr wyprowadzenia Symbol Funkcja
1 VGATE Sterowanie bramk¹ zewnêtrznego tranzystora
2 PGnd Masa
3 COSC Kondensator ustalaj¹cy czêstotliwoœæ generatora
4 Gnd Masa
5 VFB Wejœcie napiêcia sprzê¿enia zwrotnego
6 VCC Zasilanie czêœci logicznej
7 CS Wyprowadzenie ³agodnego startu
8 VC Zasilanie stopnia steruj¹cego
56 CS51031
VGATE
PGnd
COSC
Gnd VFB
VCC
CS
VC
1
2
3
4 5
6
7
8
8 Lead SO Narrow & PDIP
VGATE
PGnd
COSC
Gnd
VC
CS
VCC
VFB
CS51031
CS51031
COSC
150p
5V-12V CIN
47
VGATE
20MP1IRF7416
RVCC
10
CVCC
100100 RB
MBRS360D1 L
4.7µH
CRR
0.1
0.1
RA
1.5kCO
100 × 2
VO
3.3V@3A
0.1CS
Schemat aplikacyjny
CS51033 57
CS51033 - regulator napiêcia
VGATE
PGnd
COSC
Gnd VFB
VCC
CS
VC
CS51033
1
2
3
4 5
6
7
8
8 Lead SO Narrow & PDIP
VGATE
PGnd
COSC
Gnd
VC
CS
VCC
VFB
CS51033
COSC
MP1
CVCC
RB
CRR
D1
L1
RA CO
VOUT
VIN3.3V ±5%
RG
D3
D2D4
C2
Short CircuitTiming Cap
RC
1.25 reference
C1
Schemat aplikacyjny
58 CS5111
CS5111 - regulator napiêcia
CS
5111
-+
Multi
ple
xer
- +
CO
MP
Sw
itcher
Err
or
Am
plif
ier
Logic
Base
Drive
1.8
A
+ -
Curr
entS
ense
Am
plif
ier
-+
Sw
itcher
Shutd
ow
n
Osci
llato
r
Curr
ent
Lim
it
Over
Tem
pera
ture
RE
SE
T&
Watc
hdog
Tim
er
Bandgap
Refe
rence
1.2
5V
Lin
ear
Err
or
Am
plif
ier
Over
Volta
ge
VF
B1
VF
B2
SE
LE
KT
CO
MP
CO
SC
WD
I
Cd
ela
y
VR
EG
I BIA
S
9 10
1211
21
13
32
14
15
1V
IN
4V
SW
20
Gnd
24
EN
AB
LE
22
VL
IN
16
RE
SE
T
5,6,7,8,17,18,19
Sc
he
ma
t b
lok
ow
y
CS5111 59
1
2
3
4
5
6
7
8
9
10
11
12 13
14
15
16
17
18
19
20
21
22
23
24
CS5111VIN
NC
NC
VSW
Gnd
Gnd
Gnd
Gnd
VFB1
VFB2
SELEKT
COMP COSC
WDI
Cdelay
RESET
Gnd
Gnd
Gnd
Gnd
ENABLE
VREG
IBIAS
VLIN
RIBIAS=64.9k
C2470p
C147n
R4=3.9k
R2
R3 7.5k
946 (1)
R1 100k
VIN
VOUT=18V, Select > 2V
VOUT=16V, Select < 0.8V
COUT
88(2)
L=33µH
100
ESR<8
5V
MICROPROCESSOR
Cdelay
0.1
COSC
390p
1
2
3
4
5
6
7
8
9
10
11
12 13
14
15
16
17
18
19
20
21
22
23
24VIN
NC
NC
VSW
Gnd
Gnd
Gnd
Gnd
VFB1
VFB2
SELEKT
COMP COSC
WDI
Cdelay
RESET
Gnd
Gnd
Gnd
Gnd
ENABLE
VREG
IBIAS
VLIN
24L SO Wide
CS5111
Schemat aplikacyjny
60 CS5120
CS5120 - regulator napiêcia
-+- +0.7
V
CS
SLO
W
CS
SH
IGH
R S
Q
QB
-+1V
FA
ULT
Latc
h
FA
ULT
VF
FB
Low
Dete
ct
VC
C
CS
5120
5
9 10
11
12
14
VF
B
VC
C1
VC
C2
SS
VG
AT
E(H
)
PG
nd
VG
AT
E(L
)
LG
nd
CO
MP
VF
FB
Outp
ut
Low
- +Err
or
Am
plif
ier
15
-+
1V
16
5V
PR
PN
PD
iode
Off
Tim
eE
xte
nsio
n
Pull
Dow
nI=
180µ
A
30µ
sT
ime
Out
- ++
PW
MC
OM
P
6H
YS
T
7C
OF
F
+
CO
FF
-DIS
AB
LE
OO
B
R S
Q
SE
T(ifC
OF
F
atV
CC)
5V
PR
813
5V
PR
1V
5V
PR
2µ
60µRefe
rence
Slo
wF
eedback
Outp
ut
Cla
mp=1V
FastF
eedback
2.5
V
One
Shot
Sc
he
ma
t b
lok
ow
y
CS5120 61
CS5120
1
2
3
4
5
6
7
8 9
10
11
12
13
14
15
16 VFBNC
VCC1
VCC2
16 Lead SO Narrow & PDIP
SS
VGATE(H)
PGnd
VGATE(L)
LGnd
COMPNC
NC
NC
HYST
COFF
VFFB
VFB
CS5120
SS
VFFB
VCC1 VCC2
VGATE(H)
PGnd
VGATE(L)
LGnd
COMP
IRL3103
IRL3103
5V
2.8V@10A
2µH
1200/10V×2AIEI
1200/10V×2AIEI
100p
1.3k
270p
12V
0.1
0.1
0.1
HYST
3.3k
1.5k
COFF
Schemat aplikacyjny
62 CS5155
CS5155 - regulator napiêcia
-+
- +V
FB
VC
C1
CS
5155
VID
0
VID
1
VID
2
VID
3
SS
VF
FB
LG
nd
CO
MP
13 1 2 3 4 16
15 8 14
9V
CC
2
10
VG
AT
E(H
)
12
VG
AT
E(L
)
- +
VC
C1
Monito
r
Com
para
tor
3.9
0V
3.8
5V
5
4B
ITD
AC
Slo
wF
eedback
Err
or
Am
plif
ier
- +
PW
MC
om
para
tor
FastF
eedback
1V
VF
FB
Low
Com
para
tor
PW
MC
OM
P
Maxim
um
On-T
ime
Tim
eout
Norm
al
Off-T
ime
Tim
eout
Exte
ndend
On-T
ime
Tim
eout
- + -+
5V
60
µA
2µ
A
0.7
V
2.5
V
SS
Hig
hC
om
para
tor
SS
Low
Com
para
tor
R SQQ
FA
ULT
FA
ULT
PG
nd
VC
C1
11
PG
nd
R S
Q Q
R SQ
PW
MLatc
h
Off-T
ime
Tim
eout
7C
OF
F
GA
TE
(H)=
ON
GA
TE
(H)=
OF
F
CO
FF
One
Shot
Edge
Triggere
dT
ime
Out
Tim
er
(25
µs)F
AU
LT
Latc
h
VID
46
Sc
he
ma
t b
lok
ow
y
CS5155 63
CS5155
1
2
3
4
5
6
7
8 9
10
11
12
13
14
15
16 VFB
VCC1
VCC2
16 Lead SO Narrow & PDIP
VID0
VID1
VID2
VID3
SS
COFF
VFFB
VGATE(H)
PGnd
VGATE(L)
LGnd
COMP
VID4
VFB
CS5155
VID0
VID1
VID2
VID3
SS
COFF
VFFB
VCC1 VCC2
VGATE(H)
PGnd
VGATE(L)
LGnd
COMP
IRL3103
IRL3103
5V
1.3V to 3.5V @ 13A
2µH
1200/16V×3AIEI
1200/16V×3AIEI
100p
3.3k0.33µ
0.1µ
330p
VID0
VID1
VID2
VID3
12V
0.1µ
VID4VID4
Schemat aplikacyjny
64 CS52845
CS52845 - sterownik zasilaczy impulsowych
-
+
+
-
34V
8.4V/7.6V
VCC Undervoltage Lock-out
Set/Reset
5.0 VoltReference
InternalBias
VREF
UndervoltageLockout
ErrorAmplifier
R
R
2.50V
Oscillator ToggleFlip-Flop
S
R
PWMLatchCurrent
SensingComparator
2R
1V
NOR
8
10
14
11
12
9
3
1
7
5
VCC Pwr
VREF
VOUT
Pwr Gnd
Sense
OSC
COMP
VFB
Gnd
VCC
CS52845
R
1
2
3
4 5
6
7
8
VFB VCC
8L SO Narrow
VOUT
VREF
Gnd
COMP
OSC
Sense
1
2
3
4
5
6
7
10
11
12
13
14
VCC Pwr
14L SO Narrow
Gnd
NC
COMP
VFB
NC
NC
Sense
NC
OSC
VOUT
VREF
VCC
9
8 Pwr Gnd
Schemat blokowy
DM38 65
DM38 - regulator napiêcia
Fragment schematu OTVC Sony KVFX29TD z chassis FX
66 DM38
DM48 67
DM48 - regulator napiêcia
Fragment schematu OTVC Sony KVS2941A/B/D/K i KVS2943E z chas-
sis AE2F
68 DM48
DP104C 69
EY601EYE2.2
EY602EYE2.2
13V_1
!
! !
!
!
!!
!
!
!
!
!
1
2
3
1
2
3
CN602slcan3p
CN601slcan3p
JP1
1
4
2
3
+~
-~
TH
D601D2SBA60
GT602
GT601
D-COIL
PFC BOARD
AC INPUTAC 90V~AC 264V
DEGAUSS
21
4
3
RL601G5PA-1
3 2
4 1
FH1FUSE
R600330k1/2W
R601330k1/2W
C601150n275V AC
C602150n275V AC
L601
C6042n2125V
C6032n2125V
--
THTH601 GT604 GT603
TH602SCK-083
D6021N4148
Q601KSC945-Y
R60310k1/8W
R602471/4W
EY604EYE2.2
C608180μ400V
EY603EYE2.2
12
3SW601
JPS-1258
R6054k71/8W
R611151/2W
C60922μ50V
R609180k1/2W
R610180k1/2W
1
2
12345
pin
#
285V0.8mV18.1V1.51V4.98V
1024x768/85Hz 640x480/60Hz
286V0.6mV18.0V2.01V4.98V
MODES
Table 10-1. IC601 (DP104C)
Unit: Vrms
DP104C - sterownik zasilaczy impulsowych
Fragment schematu zasilacza monitora DP15HS firmy Samsung
70 DP104C
!
!
!
!
!
C616125V17" : 2n215" : 4n7
C617125V17" : 2n215" : 4n7
!
1
2
3
5
4
T602BH26-30302S
13V_1R6151k1/2W
EYE1.5EY608
T601EER39*42MM
C63047μ35V
C631100n50V MQ
ZD601UZ6.2BSB
EY605 EY606
HS601BH62-00004A
C6151n500V
C61410n500V
R61256k2W MQ
D605UF4007
1
5
4
2
3
DRAIN
SYNCVcc
GND
F_B
IC601DP104C
R6081001/6W
Q6022N3904
R6045601/8W
C61047n100VP
9 C607100n50VMQ
C6111μ50V
R60615k1W MQ
R60715k1W MQ
D604UF4007
D606TVR10G
EY607EYE1.5
C613220p1kV
1 2,
BD6011.2μH
B
D614TVR10G
0
1
2
8
9
6
7
3
4
5
5
4
6
7
8
3
2
1
R6142201/2W
D6071N4148
C6121μ50V
DC
1 100V (IC601, #1)
CH1 P-P=100V CH1 RMS=350.2V
DC
2 100V (IC601, #1)
CH1 P-P=100V CH1 RMS=325.8V
AFC
DPM001T1A 71
DPM001T1A - sterownik zasilaczy impulsowych
Zasilacz chassis CP-005 firmy Daewoo
54321 6
!
!
!
!
!
D51N4148
D61N4148
D1
1N41
48
Q1
KT
C3
87
5
R3330
C147n
R1 33
Q2
KTC3875C23n3
R2 1k
C4 100n
C6100n C5 220p
D31N4148
C3 22n
PC2LTV819
PC1LTV819
R5330
D21N4148
R6 330
CAUTION “LIVE MAINS”
STBY-5V
!
RC7320 J046
100
Q704
KTC3198
RC73110 D820
1N4148CC8010.1μ
COLD
HOTRLY1RY-SS112GM
D83
9R802
3.3 7W
D83
8D
837
D84
0C8044700p1kV
C8034700p1kV
L802HC-3550
R804510k
R803510k
R81033k
!!
!
!!
!
!
!
P802
P801
L801
D/G
SW801
R801DJ140M290L
LF-24A3
F80
1
AC
250V
4A
R8903.3M1/2W
C801
0.47μ AC250VP/CORDAC 230V
50Hz
I802DPM001T1A
R834
3.9kL800
RS208
R8190.272W
CC8410.01μ50V
C8072200p(M)1.6kV #7
#3
#5
T801TSM-4042A5
#6
Q801
2SK2671
C805100μ400V
C8421000p1kV
D837÷D8404 × LT2A05G
72 DPM001T1A
10 11 12 13 14
1 3
2
STBY-5V
12V
16V
45V
133V
!
OCP
POWER
R1256
R10 470
R111k
D46.2V
PC1
PC2
R13
1k C8470n M
R14470k
Q4
KTC3875Q5 KRC1019
4.7k
4.7k
D3TL431A
R82.2k
C722n
R719.3k
R9100k
C8121000p4kV(AC)
R8128.2M 1/2W
GND
16V
12V
GND
45V
133V
#9
#8
#10
#14
#13
#11
L803HC-3550
C8091000p4kV(AC)
D816 R809
RC822
R805 Q802
KSA1013Y
R80636k
C825 22μ
R8080.82 2W
0
C8264.7μ
D835R2M
C815100μ180V
D806RGP30J
C814470p 1kV(HR)
D810D4937G
C81910μ100VC816
470p 1kV
D812D4937G
C8272200μ
16VC824470p 1kV
C8201000μ
25V
C823470p 1kV
D808D4937G
R823100
R824100
D704JUMPER
L70110μH
C7041000μ
16VI703
KA7805
I805STV8131
RC8281k
RC8291k
C828100μ16V
3
6
4
21
5
7
OUTPUT2
OUTPUT1REFERENCE
PROTECTION DISABLE
DISABLE
8V
5V
C82910μ50V
C50347μ16V
C850182W
C85047μ16V
C830470μ16V
CC8300.1μ
L80639μH
FA13842, FA13843, FA13844, FA13845 73
FA13842, FA13843, FA13844, FA13845 - sterowniki zasilaczy impul-
sowych
Schematy blokowe
Opis wyprowadzeñ uk³adów: FA13842, 13843, 13844,13845
Pin No. Symbol Function Description
1 COMP Compensating Error amplifier output, available for loop compensation circuit
2 FB Feedback Inverting input of the error amplifier
3 ISNS Current sensing Input voltage proportional to inductor current
4 RT/CT Oscillator controlSetting oscillation frequency and maximum duty-cycle withresistor RT and capacitor CT
5 GND Ground Ground
6 OUT Output Output for driving a power MOSFET
7 VCC Power supply Power supply
8 VREF Reference voltageReference voltage and current source charging capacitor CT
through resistor RT
2
1
4
3
7
8
6
5
30V
UVLO
UVLO
+
+
+
VCC
ENB 2.5V
5V REF
OUTPUT
ENB
OSC
S
R QB
QFF
2
1 1V
ER AMP
+
GND
OUT
VREF
VCC
RT/CT
FB
COMP
ISNS
5V Controlled block
FA13842, 13843
2
1
4
3
7
8
6
5
30V
UVLO
UVLO
+
+
+
VCC
ENB 2.5V
5V REF
OUTPUT
ENB
OSC
S
R QB
QFF
2
1 1V
ER AMP
+
GND
OUT
VREF
VCC
RT/CT
FB
COMP
ISNS
5V Controlled block
FA13844, 13845
TFF
QB
QCLK
74 FA13842, FA13843, FA13844, FA13845
+
+
+
+
7 1 4 2 3
8 6 5
+
+
++
+C
7C
17
16
V0
~4
A
GN
D
L1
3.3
µH
C1
81
00
0µ
F
47
00
µF
×2
D6
YG
90
2C
T1
C1
54
70
pF
R2
71
00
k
C1
60
.02
2µ
F
D6
ER
A2
2-1
0
C1
22
0µ
F4
00
V
R1
56
0k
DB
AC
80
~2
64
V
+ -
~ ~
RT
8.2
k
VC
C
CO
MP
30
V
CT
22
00
pF
10
00
pF
C11R
T/C
T
FB
ISN
SR
19
1k
PC
2
C1
01
00
pF
R1
81
k
1
2
1V
S
RQ
B
QF
F
OS
C
UV
LO
UV
LO
VC
C5V
RE
F
EN
B2.
5V
OUTPUT
EN
B
F11
38
42
R3
03
3
R3
11
00
D11
ER
A9
1-0
2
VR
EF
OU
T
GN
D
C1
40
.1µ
F
C2
22
µF
D1
ER
A9
1-0
2
R2
94
.7k
R0
.33S
R2
81
kD
10
ER
A2
2-1
0
MO
SF
ET
2S
K2
10
1R
20
1.2
k
PC
2
IC
R2
25
60 C
12
0.1
µF
VR
15
k
R3
22
.2k
R2
11
0k
Sc
he
ma
t a
plik
ac
yjn
y
Ró
¿n
ice
miê
dzy
uk³a
dam
iFA
seri
i1384X
Typ
uk³a
du
Pró
gsta
rtu
Pró
gsto
pu
Maksym
aln
yw
sp
ó³c
zyn
nik
wyp
e³n
ien
iaO
bu
do
wa
FA
13842P
DIP
FA
13842N
16.5
V±1V
9V
±1V
96%
SO
P
FA
13843P
DIP
FA
13843N
9.6
V±1V
9V
±1V
96%
SO
P
FA
13844P
DIP
FA
13844N
16.5
V±1V
9V
±1V
48%
SO
P
FA
13845P
DIP
FA
13845N
9.6
V±1V
9V
±1V
48%
SO
P
Pod
staw
ow
e p
aram
etr
y:
- nap
iêci
e za
sila
nia
VCC
10
÷2
5V
FA5301BP(N) 75
FA5301BP(N) - sterownik zasilaczy impulsowych
++
+
+
+
OSC
VREF
R
S
Q
FF
OFF
OFF
PWM
O.C.P. 450µA
0.6V
5V
BIAS
ER.AMP2.5V
L.O
ON/OFF
15
4
14
2
1
+
3 7 5 6 8
9
1011121316
REF
FB
CSO
IN (+)
IN (-)
ER.OUT GND IS CD ON/OFF
VCC SYNC CSY CT DT
OUT
FA5301BP(N)
Schemat blokowy
Opis wyprowadzeñ uk³adu FA5301BP(N)
Pin No. Pin Symbol Description
1 IN (-) Inverting input to error amplifier
2 IN (+) Non-inverting input to error amplifier
3 ER.OUT Error amplifier output
4 FB Feedback input
5 IS Overcurrent detection
6 CD Overcurrent cutoff delay capacitor
7 GND Ground
8 ON/OFF Output ON/OFF control
9 OUT Output
10 DT Dead time adjustment
11 CT Oscillator timing capacitor
12 CSY External synchronizing signal detection capacitor
13 SYNC External synchronization input
14 CSO PWM soft-start capacitor
15 REF Reference voltage output (5V)
16 VCC Power supply
76 FA5301BP(N)
16
VC
C
1
IN(-
)
15
RE
F
2
IN(+
)
14
CS
O
3
ER
.OU
T
13
SY
NC
4FB
12
CS
Y
5IS
11
CT 6CD
10
DT 7
GN
D
9
OU
T
8
ON
/OF
F
+
+
+
++
+ +
R1
AC
IN
C1
R2
Q1
6.8
V
33
0
C2
R7
TR
D1
D2C
4
C5
R1
0
R1
20V
C6
R11
PC
1
Q3
TR
R8
R3
Q2
C3
R6
56
k
47
k 1000
p10
µ3
3k
6.8
V1
µ
10
k
10
0p
47
µ1
0V
PC
1
2.2
k
10
00
p
1k
10
0k
4.7
µ
R5
R9
R4
R1
3IC
1
fHS
YN
CP
UL
SE
~4
VP
P
FA
53
01
BP
/N
Sc
he
ma
t a
plik
ac
yjn
y
FA5304AP(S), FA5305AP(S) 77
FA5304AP(S), FA5305AP(S) - sterowniki zasilaczy impulsowych
+
+
+
++
OSC U.V.L.O
R
S
Q
FF
BIAS
+
OFF
2.7V
0.56V
7.0V
ZnQ
2.0V
ER.AMP
3.6V
PWM
O.C.P
0.24V
10µA
8 7
6
5
43
2
1
CS CT
VCC
OUT
GNDIS(+)
FB
IN(-)
FA5304AP(S)
Schemat blokowy
Opis wyprowadzeñ uk³adu FA5304AP(S)
Pin No. Pin Symbol Description
1 IN (-) Inverting input to error amplifier
2 FB Error amplifier output
3 IS (+) Overcurrent (+) detection
4 GND Ground
5 OUT Output
6 VCC Power supply
7 CT Oscillator timing capacitor
8 CS Soft-start and ON/OFF control
78 FA5304AP(S), FA5305AP(S)
+
+
+
++
OSC U.V.L.O
R
S
Q
FF
BIAS
+
OFF
2.7V
0.56V
7.0V
ZnQ
2.0V
ER.AMP
3.6V
PWM
O.C.P
-0.17V
10µA
8 7
6
5
43
2
1
CS CT
VCC
OUT
GNDIS(-)
FB
IN(-)
FA5305AP(S)
Opis wyprowadzeñ uk³adu FA5305AP(S)
Pin No. Pin Symbol Description
1 IN (-) Inverting input to error amplifier
2 FB Error amplifier output
3 IS (-) Overcurrent (-) detection
4 GND Ground
5 OUT Output
6 VCC Power supply
7 CT Oscillator timing capacitor
8 CS Soft-start and ON/OFF control
Schemat blokowy
FA5304AP(S), FA5305AP(S) 79
+ +
BIA
S
+
+
OS
CU
.V.L
.O
OC
P
8 1
76
5
23
4
+
+
+
10
0V
AC
~240
V
33
0p
51
k
EQ
A0
3-2
3
CS
CT
VC
C
0.1
µ
IN(-
)F
BIS
(+)
0.0
47
µ
2.2
kP
C1
GN
D
68
00
p
18
0
0.3
3
OU
T2
2
22
µ
47
µ1
0k
0.0
1µ
ER
A9
1-0
2
ERB44-10
TR
ER
C8
4-0
09
22
00
µ
1k
1k
PC
1P
C8
17
68
0µ
H
2S
K9
03
TL
43
1C
68
0
0V
3k
8.2
k
33
0k
0.1
µ
68
00
p1
6k
6.5
V2
.5A
FA
53
04
AP
(S)
Sc
he
ma
t a
plik
ac
yjn
y u
k³a
du
FA
53
04
80 FA5304AP(S), FA5305AP(S)
+ +
BIA
S
+
+
OS
CU
.V.L
.O
OC
P
8 1
76
5
23
4
+
100V
AC
330p
51k
EQ
A03-2
3
CS
CT
VC
C
0.1
µ
IN(-
)F
BIS
(-)
0.0
47µ
2.2
kP
C1
GN
D
6800p
180
0.3
3
OU
T22
22µ
47µ
0.01µ
ER
A91-0
2
TR
ER
C84-0
09
2200µ
1k
PC
1P
C817
680µ
H
TL431C
680
0V
3k
8.2
k
330k
0.1
µ
6800p
16k
6.5
V2.5
A
1k
2S
K1008
10k
+
+
ER
A15-0
4*4
FA
5305A
P(S
)
Sc
he
ma
t a
plik
ac
yjn
y u
k³a
du
FA
53
05
FA5304AP(S), FA5305AP(S) 81
Fragment schematu zasilacza kamery VP-J50 firmy Samsung
7
CS
7
CT
6
VCC
5
OUT
1 2 3 4
RT FB IS(+) GND
R1121.5M
R11133
R11033
R108220
R11482k
R10582k
R10482k
R1023.32W
R10382k R106
47k2W
R1012.7M1/2W
R1071
1/2W
R1090.471W
R
R1138.2kC113
0.12
C112390p
C1141000p
C1032200p
C1022200p
C101224
C1070.01
C1100.1
C1500.01
+
C1112.250
+ +C1083335
C10910050
+
C10647
400(GA)
D1061N4148
D102AU01A
ERA22-10
D101S1WBA 60
D104AU01A/
ERA22-10
D105AU01A/
ERA22-10
IC102PC113PHOTO
COUPLER
D107MTZ 4.7B
D108UZ 24BH
D103MTZ 20B
IC101FA5304
CONTROLLER
F101250V 1.25A
T101EE-25
Q1012SK904
SWITCHING
L101BSF-2123
20MH
#1
#2 #3
#4
#5
82 FA5304AP(S), FA5305AP(S)
8 7 6 5
1 2 3 4
R15110
1/4W
R152680
R16212k
R161220
VR1525k
R164100k
R1502.7k
R1639101%
R1656201%
R15910
R1584.7k
R1574.7kR156 100k
VR1511k
R1549101%
R1552.2k
R1532.7k
R16810k
R167 100 1W
R1664.7 1/2W
R169150
1/4W
R17010k
R1600.11W
15001
C1511000p
C1521000p
C1560.1
C1042200p
C1052200p
+
C1571
50
+C1552.250
+ +C1531000
16(GA)
C15447016
(SG)
D151ESAC85M/
FMB29L
D1541N4148
0
D1551N4148
D152ER881-004
D153MTZ5.1B
Q153DTC114-ESSWITCHING
Q154DTC114-ESSWITCHING
IC151LM358NOP AMP
Q152D1207
SWITCHING
Q151B1127
SWITCHING
F151125 V 2A
L15110µH
+
+
VCC
GND
T101EE-2519
G
1
#6
#8
#7
#9
#7
#3
#8
#4
#5
#1
#6
FA5331P(M), FA5332P(M) 83
FA5331P(M), FA5332P(M) - sterowniki zasilaczy impulsowych
OSC UVLO BIAS
ON/OFF
MUL
+
+
RSS
Q
14
SYNC
15
CT
11
CS
13
REF
10
VCC
12
ON/OFF
9 VC
8 OUT
7 GND
6 VIN
5 VFB
4 OVP
15
VDET
2
IIN-
1
IFB
16
IDET
10µA
BIAS
5V
15k
5k
CURR. AMP
PWMCOMP
10k
OVP
ER.AMP
OCP Vp
Vp
Dmax
Vocp
FA5331P(M)/FA5332P(M)
Opis wyprowadzeñ uk³adu FA5331P(M) i FA5332P(M)
Pin No. Pin Symbol Description
1 IFB Current error amplifier output
2 IIN- Inverting input to current error amplifier
3 VDET Multiplier input
4 OVP Overvoltage protection input
5 VFB Voltage error amplifier output
6 VIN- Inverting input to voltage error amplifier
7 GND Ground
8 OUT Output
9 VC Power supply to output circuit
10 VCC Power supply
11 CS Soft-start
12 ON/OFF Output ON/OFF control input
13 REF Reference voltage
14 SYNC Oscillator synchronization input
15 CT Oscillator timing capacitor and resistor
16 IDET Non-inverting input to current error amplifier
Schemat blokowy
Ró¿nice miêdzy uk³adem FA5331P(M) a FA5332P(M)
Parametr FA5331P(M) FA5332P(M)
Napiêcie odniesienia Vr 1.48 ÷ 1.6V 1.519 ÷ 1.581V
Napiêcie wejœciowe sekcji zabezpieczenia nadnapiêciowego 1.56 ÷ 1.72V 1.617 ÷ 1.683V
Próg napiêciowy wyjœcia uk³adu ON/OFF przy 25°C 2 ÷ 3.5V 2.8 ÷ 3.4V
Próg przejœcia ze stanu OFF / ON 14.3 ÷ 16.3V 14.6 ÷ 16V
84 FA5331P(M), FA5332P(M)
IFB
IIN-
VD
ET
OV
PV
FB
VIN
-G
ND
OU
T
+
+
F1
5A
L2
AC
IN8
5~
26
4V
C11
0.1
µ
D2~
D5
ER
D03-0
6
R8
24
0k
R7
24
0k
C12
0.4
7µ
L1
1.2
mH
C10
0.2
2µ
R26
10
D9
ER
A91-0
2
D8
ER
A91-0
2 D6
ER
A82-0
04
R25
82
k
R 0.2
7s
R2
4.7
gQ
12
SK
19
82
C13
22
0µ
D1
YG
912S
63
85
V2
00
W
Vout 0
VD
7E
RA
15-0
6
R24
33
kV
CC
18
V(
)
ON
/OF
F
C
0.0
1µ
nR 1
0nR 22
kT
C
33
0p
T
R 82g1
C40.15µ
C10.15µ
R4
68
0k
R3
33
kR
51
0k
C2
68
pR
62
.7k
C3
47
0p
R 91
0k
OF
ST
C
10
0µ
v
R9
180k
R16
27
0k
R2
18
0k
R17
270k
R1
1k
R18
2.2
kV
R1
1k
GN
D
IDE
TC
TS
YN
CR
EF
ON
/OF
FC
SV
CC
VC
FA
5331
Sc
he
ma
t a
plik
ac
yjn
y u
k³a
du
FA
53
31
FA5331P(M), FA5332P(M) 85
IFB
IIN-
VD
ET
OV
PV
FB
VIN
-G
ND
OU
T
+
+
F1
5A
L2
AC
IN85~
264V
C11
0.1
µ
D2~
D5
ER
D03-0
6
R8
240k
R7
240k
C12
0.4
7µ
L1
1.2
mH
C10
0.2
2µ
R26
10
D9
ER
A91-0
2
D8
ER
A91-0
2 D6
ER
A82-0
04
R25
82k
R 0.2
7s
R2
4.7
gQ
12S
K1982
C13
220µ
D1
YG
912S
6385V
200W
Vout 0
VD
7E
RA
15-0
6
R24
33k
VC
C18V
()
ON
/OF
F
C
0.0
1µ
nR 2
7nR 22kT
C
330p
T
R 82g1
C40.15µ
C10.15µ
R4
680k
R3
33k
R5
10k
C2
68p
R6
2.7
kC
3470p
C
100µ
v
R9
220k
R16
270k
R2
150k
R17
270k
R1
1.5
kR
18
2.2
k
GN
D
IDE
TC
TS
YN
CR
EF
ON
/OF
FC
SV
CC
VC
FA
5332
Sc
he
ma
t a
plik
ac
yjn
y u
k³a
du
FA
53
32
86 FA7610CP(N)/12CP(N)/17CP(N)
FA7610CP(N)/12CP(N)/17CP(N) - sterowniki zasilaczy impulsowych
FA7610CP(N)
VREF OSC
U.V.L.O
+
+
++
+
+
BIAS
0.52V
ER.AMP
PWM
OFF
OFF
500
S.C.P.
1.5V
30µAL.O
8
REF
7
CT
6
CS
5
VCC
4
OUT
3
GND
2
FB
1
IN (-)
Schematy blokowe
VREF OSC
U.V.L.O
+
+
+
+
+
BIAS
0.52V
ER.AMP
PWM
OFF
OFF
S.C.P.
1.5V
30µAL.O
8
REF
7
CT
6
CS
5
VCC
4
OUT
3
GND
2
FB
1
IN (-)
FA7612CP(N)
FA7610CP(N)/12CP(N)/17CP(N) 87
VREF OSC
U.V.L.O
+
+
++
+
+
BIAS
0.52V
ER.AMP
PWM
OFF
OFF
S.C.P.
1.5V
30µAL.O
8
REF
7
CT
6
CS
5
VCC
4
OUT
3
GND
2
FB
1
IN (-)
FA7617CP(N)
Opis wyprowadzeñ uk³adów: FA7610CP(N), FA7612CP(N), FA7617CP(N)
Pin No. Pin symbol Description
1 IN (-) Inverting input to error amplifier
2 FB Error amplifier output
3 GND Ground
4 OUT Output
5 VCC Power supply
6 CS Capacitor for soft-start, short circuit protection and delay
7 CT Oscillator timing capacitor
8 REF Reference voltage output (2.5V)
Ró¿nice miêdzy uk³adami FA7610CP, FA7612CP i FA7617CP
Parametr FA7610 FA7612 FA7617
Maksymalny wspó³czynnik wype³nienia(n.2 = 1.2V)
58 ÷ 75% 100% 63 ÷ 71%
Stan niski na n.4 0.25 ÷ 0.65V 0.9 ÷ 1.5V 0.9 ÷ 1.5V
Pobór pr¹du 1.6 ÷ 2.2mA 1.5 ÷ 2.2mA 1.5 ÷ 2.2mA
88 FA7610CP(N)/12CP(N)/17CP(N)
FA
7610C
P(N
)
++ + +
+
+V
RE
FO
SC
.
U.V
.L.O
0.5
2V
ER
.A
MP
PW
M
S.C
.P
OF
F
OF
F
50
0
L.O
30
µA
+
D1
C2
12
V
+
D2
C3
5V
+
C4
-5V
C1
10
00
p
0.0
1µ
0.0
1µ
18
0k
33
0k
36
k
22
00
pF
18
.75
k1k
2.2
k
+T
R
Vcc
4.7
µ
VC
C
87
65
12
34
2.5
V
Q1
Sc
he
ma
t a
plik
ac
yjn
y u
k³a
du
FA
76
10
CP
(N)
FA7610CP(N)/12CP(N)/17CP(N) 89
FA
7612C
P(N
)
++ +
+
+V
RE
FO
SC
.
U.V
.L.O
0.5
2V
ER
.A
MP
PW
M
S.C
.P
OF
F
OF
F
L.O
30
µA
10
00
p
0.0
1µ
0.0
1µ
18
0k
33
0k
36
k
4.7
µ
VC
C
VC
C
87
65
12
34
2.5
V
2.2
k1
8.7
5k
1k
C1
R2
Q1
22
00
pF
R1
+
+
D1
5V
C2
L1
Sc
he
ma
t a
plik
ac
yjn
y u
k³a
du
FA
76
12
CP
(N)
90 FA7610CP(N)/12CP(N)/17CP(N)
FA
7617C
P(N
)
++ + +
+
+V
RE
FO
SC
.
U.V
.L.O
0.5
2V
ER
.A
MP
PW
M
S.C
.P
OF
F
OF
F
L.O
30
µA
10
00
p
0.0
1µ
0.0
1µ
18
0k
33
0k
36
k+
TR
VC
C
+
+5
V
4.7
µ
VC
C
87
65
12
34
2.5
V
2.2
k1
8.7
5k
1k
R3
R2
Q1
+
-5V
Sc
he
ma
t a
plik
ac
yjn
y u
k³a
du
FA
76
17
CP
(N)
FA7610CP(N)/12CP(N)/17CP(N) 91
R708680k
VREF OSC
++
+
+
+ + +
+
2
1
+
+
IC702FA7610NPOWER
PWM
R705180k
R7070
C75410µ(M)(16V)
C70347µ
(16V)
C753
0.0022(G)C-FZ0069CE
R70939k(F)
CS VCC
OUTPWMFBVIN
R7061M
+
C7080.01
R7035.6k
R71022k R704
6.8k
C7070.022
(25V)Q702
2SC3518(K)POWER OUT PUT
+
C7520.068(25V) R711
1k(B)
R7122.2k
M7793TA+B ADJ.
REGOL.+B
C76947µ
(10V)C-EZ0153TA
C70447µ
(10V)C-EZ0153TA
C7400.01
(100V)F7011.25A
FS-H1221CEFUSE
D701DX0274CE
F7021AFS-H1022CEFUSE
L704100µH
CILC0033CE
C730470p
(100V)
D7071SS250
C736100p
(100V)
D706IS2836
C729330p
D705DX0274CE
C711330p
D704 IS2836
C706270p
T701TRNZ0395CE D703
IS2836
L70710µHVP-1M 100KIR6N
C728330p
C7480.1
(25V)C714100µ(10V)
C-E Z00 95GE
L703 100µHCILC0034CE
C70210µ(M)(25V)(TA)
C712100µ(M)(6.3V)
C701100µ(6.3V)
L701100µH
CILC0033CE
C7131µ(M)(50V)
C7220.1
(25V)
C7151µ(M)(50V)
L70633µH
VP-1M330K4R 2N
L70533µH
VP-1M330K4R2N
+
S701SW-S0109CE
ON
OFF
(CHARGE)
R70115
(1/8W)
R70215
(1/8W)
R70315
(1/8W)
+
C72547µ
(10V)C-EZ0153TA
C72447µ
(10V)C-EZ0153TA
C71082µ(M)(10V)
C7091µ(M)(50V)
5.9
4
5
6 3
2
1
1 2 3 4
5678
0.6 1.2 0.3
5.90.50.42.6
18
3
4
5
1
2
3
2
1
3+
DRY CELL
CHARGER
J752JAKE0047CEEXT.DC(6.5V)
(E.S)
9
10
1
6
8
7
3
2
BACKLIGHT
-21V
-8V
5V
13V
35V
Fragment schematu OTVC 03LC1000 firmy Philips
92 FA7611CP(E)
FA7611CP(E) - sterownik zasilaczy impulsowych
+
+
+
+++
++
VREF OSC
U.V.L.O
BIAS
2.5V
VCC
0.5V
ER.AMP1
ER.AMP2 PWM2
OFF
1.5V
1.5V
S.C.P
PWM1
+++
30µA
OFF
L.O
16 1 2
9
10
11
8
7153
6
5
4
13
12
REF CT CS
VCC
OUT1R
OUT1
OUT2
GNDDT1DT2
FB2
IN2(-)
IN2(+)
IN1(-)
FB1
14IN1(+)
FA7611CP(E)
Schemat blokowy
Opis wyprowadzeñ uk³adu FA7611CP(E)
Pin No. Pin Symbol Description
1 CT Oscillator timing capacitor
2 CS Capacitor for soft-start, short-circuit protection and delay
3 DT2 Dead time adjustment
4 IN2 (+) Non-inverting input to error amplifier
5 IN2 (-) Inverting input to error amplifier
6 FB2 Error amplifier output
7 GND Ground
8 OUT2 CH. 2 Output
9 VCC Power supply
10 OUT1R CH. 1 Current limiting resistor
11 OUT1 CH. 1 Output
12 FB1 Error amplifier output
13 IN1 (-) Inverting input to error amplifier
14 IN1 (+)Non-inverting input to error amplifier
Reference voltage (0.5V)
15 DT1 Dead time adjustment
16 REF Reference voltage output (2.5V)
Podstawowe parametry:
- napiêcie zasilania VCC 3.6÷20V
FA7611CP(E) 93
16
RE
F
1CT
15
DT
1
2CS
14
IN1
(+)
3
DT
2
13
IN1
(-)
4
IN2
(+)
12
FB
1
5
IN2
(-)
11
OU
T1
6
FB
2
10
OU
T1
R
7
GN
D
9
VC
C
8
OU
T2
+
C1
3
+ C1
2
+ C11
+ C1
+
+
+
C2
0
L2
D1
0
D11
D1
2
Q1
TR
10
V
-10
V
24
VF
lyb
ack
63
.5k
1k
0.0
1µ
1M
C2
RO
UT
1
R2
0R
21
Q2
0.0
1µ
1M
4.7
µ
33
0k
1k
20
.07
k2
.2k
82
0k
56
k
10
00
p
Bu
ck
5V
10
0k
22
k
22
00
0p
VC
C
3.3
k
VC
C
FA
76
11C
P(E
)
-
D2
0
Ap
lik
ac
ja w
prz
etw
orn
icy
ty
pu
flyback
94 FA7611CP(E)
16 1
RE
F
CT
15 2
DT
1
CS
14 3
IN1
(+)
DT
2
13 4
IN1(-
)
IN2
(+)
12 5
FB
1
IN2(-
)
11 6
OU
T1
FB
2
10 7
OU
T1
R
GN
D
9 8
VC
C
OU
T2
+
+
+
+
+
VC
C22
00
0p
3.3
k3
0.1
k 1k
0.0
1µ
R11
C1
C1
0
RO
UT
1
L1
D1
0
5V
Bu
ck
C2
VC
C
Q2Q
1
Inve
rtin
g-5
V
D2
0
R2
1
R2
0
C2
0L
2
47
00
0p
1k
2.2
k5
.02
k
10
0k
22
k
82
0k
4.7
µ
33
0k
56
k
10
00
p
FA
7611C
P(E
)
-
Ap
lik
ac
ja w
prz
etw
orn
icy
ty
pu
buck
FA7613CP(E) 95
FA7613CP(E) - sterownik zasilaczy impulsowych
VREF OSC
+
+
+++
16
1
15
2
14
3
13
4
12
5
11
6
10
7
9
8
Vcc
BIAS
Vcc
30µA
1.25V
S.C.P
PWM
L.O
OFFER.AMP
NC REF IN(+) IN(-) FB DT GND NC
NC ON/OFF RT CT SCP VCC OUT NC
FA7613CP(E)
Opis wyprowadzeñ uk³adu FA7613CP(E)
Pin No. Pin Symbol Description
1 NC -
2 REF Reference voltage output (1.25V)
3 IN (+) Non-inverting input to error amplifier
4 IN (-) Inverting input to error amplifier
5 FB Error amplifier output
6 DT Dead time adjustment
7 GND Ground
8 NC -
9 NC -
10 OUT Output
11 VCC Power supply
12 SCP Capacitor for short-circuit protection and delay
13 CT Oscillator timing capacitor
14 RT Oscillator timing resistance
15 ON/OFF Output ON/OFF control
16 NC -
Schemat blokowy
Podstawowe parametry:
- napiêcie zasilania VCC 2.5÷20V
96 FA7613CP(E)
16
NC 1NC
15
ON
/OF
F
2
RE
F
14
RT 3
IN(+
)
13
CT 4
IN(-
)
12
SC
P
5FB
11
VC
C
6DT
10
OU
T
7
GN
D
9 NC 8NC
+
+
+ +
+5
V
-5V
Vcc
6.8
k
4.7
µ
10
00
p
10
0k
R3
R2
TR
0.0
1µ
1µ
12
0k
10
0k
1k
6.7
1k
VC
C0.0
1µ
2.2
k
[H
i[
Lo
w:O
N:O
FF
ON
OF
F
FA
76
13
CP
(E)
Q1
-
Sc
he
ma
t a
plik
ac
yjn
y
FA7615CP(E) 97
FA7615CP(E) - sterownik zasilaczy impulsowych
+
+
+
+++
++
VREF OSC
U.V.L.O
BIAS
2.5V
VCC
0.5V
ER.AMP1
ER.AMP2 PWM2
OFF
500
1.8V
1.8V
S.C.P
PWM1
+++
30µA
OFF
L.O
16 1 15 2
9
10
11
8
7143
6
5
4
13
12
REF CT SYNC CS
VCC
OUT1R
OUT1
OUT2
GNDDT1DT2
FB2
IN2(-)
IN2(+)
IN1(-)
FB1
FA7615CP(E)
Opis wyprowadzeñ uk³adu FA7615CP(E)
Pin No. Pin Symbol Description
1 CT Oscillator timing capacitor
2 CS Capacitor for soft-start, short-circuit protection and delay
3 DT2 Dead time adjustment
4 IN2 (+) Non-inverting input to error amplifier
5 IN2 (-) Inverting input to error amplifier
6 FB2 Error amplifier output
7 GND Ground
8 OUT2 CH. 2 Output
9 VCC Power supply
10 OUT1R CH. 1 Current limiting resistor
11 OUT1 CH. 1 Output
12 FB1 Error amplifier output
13 IN1 (-) Inverting input to error amplifier
14 DT1 Dead time adjustment
15 SYNC External synchronization input
16 REF Reference voltage output (2.5V)
Schemat blokowy
Podstawowe parametry:
- napiêcie zasilania VCC 3.6÷20V
98 FA7615CP(E)
16
RE
F
1CT
15
SY
NC
2CS
14
DT
1
3
DT
2
12
FB
1
5
IN2(-
)
13
IN1(-
)
4
IN2(+
)
11
OU
T1
6
FB
2
10
OU
T1R
7
GN
D
9
VC
C
8
OU
T2
+
+
C20
+
C13
+
C12
+C11
+
C1
+
D1
D2
D3
C10 D20
4.7
k
2.2
k
33p
22k
68k
1k
0.1
µ VC
C
5V
fHS
YN
CP
ULS
E15.7
5kH
z
20.0
7k 2
200pF
VC
C
RO
UT
1
0.0
22µ
TR
Q1
5V
Fly
back
Q2
L2
Boost
12V
0.0
22µ
2200P
1k
54.4
3k
3.3
k4.7
µ
470k
330k
1500p
47k
22k
56k
FA
76
15
P(M
)
-
Sc
he
ma
t a
plik
ac
yjn
y
FA7616CP(E)(V) 99
FA7616CP(E)(V) - sterownik zasilaczy impulsowych
VREFON OFF
OSC BIAS
START
+
+
++
++
+
PWM2
PWM1ER.AMP1
ER.AMP2
1.2V
1 16 14 13
9
7
8610
5
4
3
11
12
2
15ON/OFF
CT
IN1(-)
FB1
IN2(+)
IN2(-)
FB2
DT1 DT2 GND
OUT2
OUT1
CSTVCC1REFVCC2FA7616CP(E)(V)
Schemat blokowy
Opis wyprowadzeñ uk³adu FA7616CP(E(V)
Pin No. Pin Symbol Description
1 VCC2 IC main power supply
2 CT Oscillator timing capacitor
3 IN2 (+) Non-inverting input to error amplifier
4 IN2 (-) Inverting input to error amplifier
5 FB2 Error amplifier output
6 DT2 Dead time adjustment
7 OUT2 CH. 2 Output
8 GND Ground
9 OUT1 CH. 1 Output
10 DT1 Dead time adjustment
11 FB1 Error amplifier output
12 IN1 (-) Inverting input to error amplifier
13 CST Start-up circuit timing capacitor
14 VCC1 Power supply 1
15 ON/OFF Output ON/OFF control
16 REF Reference voltage output (1.20V)
100 FA7616CP(E)(V)
RE
F
16 1
VC
C2
ON
/OF
F
15 2CT
VC
C1
14 3
IN2(+
)
CS
T
13 4
IN2(-
)
IN1(-
)
12 5
FB
2
FB
1
11 6
DT
2
DT
1
10 7
OU
T2
OU
T1
9 8
GN
D
+
+
+
+
+
VC
C1C4
3.3
k
100k
100k 1000p
C6
0.3
3µ
5.6
k
17.3
5k
100µ
1.2
k
VC
C
1.4
~3.6
V
47
Q1
D1
L1
6.8
k56
p
Q2
Q3
10k
330µ
100µ
L2
5V
Boost
TR
D2
Fly
back
3V
100µ
47
Q4
Q6
Q5
6.8
k
1.2
k
56p
10k
31k
10k
33k
0.3
3µ
100k 1
00k
22k
10k
1500p
C3
FA
76
16
+
Sc
he
ma
t a
plik
ac
yjn
y
Podstawowe parametry:
- napiêcie zasilania 1 VCC1 1.4÷12V
- napiêcie zasilania 2 VCC2 2.5÷12V
- czêstotliwoœæ oscylatora fOSC 10÷500kHz
FA7622CP(E) 101
FA7622CP(E) - sterownik zasilaczy impulsowych
+
OSC
Dutylimit
UVLO
SW
OCP
Timer&
latch
BIAS
+
+
+
Dutylimit
OCP
ER.AMP1
ER.AMP2
PWM2
PWM1VB
20 16 1 2 14 13
12
15
11
10
8
97
6
5
4
3
18
17
19
REF DT1 CT RT VCC1 SW
OCL2
OUT2
OUT1
OCL1
VCC2
GNDDT2
FB2
IN2-
IN2+
CP
IN1+
FB1
ON/OFF
FA7622CP(E)
Schemat blokowy
Opis wyprowadzeñ uk³adu FA7622CP(E)
Pin No. Pin Symbol Description
1 CT Oscillator timing capacitor
2 RT Oscillator timing resistor
3 CP Timer and latch circuit
4 IN2+ Non-inverting input to error amplifier
5 IN2- Inverting input to error amplifier
6 FB2 Error amplifier output
7 DT2 Dead time adjustment
8 OCL2 Overcurrent limiting circuit 2
9 GND Ground
10 OUT2 CH. 2 output
11 OUT1 CH. 1 output
12 VCC2 Power supply 2
13 SW Switch for boost circuit
14 VCC1 Power supply 1
15 OCL1 Overcurrent limiting circuit 1
16 DT1 Dead time adjustment
17 FB1 Error amplifier output
18 IN1+ Non-inverting input to error amplifier
19 ON/OFF Output ON/OFF control
20 REF Reference voltage output
102 FA7622CP(E)
20
RE
F
1CT
19
ON
/OF
F
2RT
18
IN1+
3CP
17
FB
1
4
IN2+
16
DT
1
5
IN2-
15
OC
L1
6
FB
2
14
VC
C1
7
DT
2
13
SW 8
OC
L2
12
VC
C2
9
GN
D
11
OU
T1
10
OU
T2
+
+
+
+
2.2
k
684
683
ON
/OF
F
470k
10.6
k
683
330
472
683
330µ
1µ
10
0.3
3100µ
33µ
47k
VIN
5.5
~9V
5V
47µ
180p
36k
1µ
102
472
0.3
3
12V
100µ 33µ
10
330
3.3
k
120k
360k
100k
510k
470k
683
64k
3.3
k
47k
FA
7622P
(M)
Sc
he
ma
t a
plik
ac
yjn
y
HA17384SPS/SRP/HPS/HRP/17385HPS/HRP 103
HA17384SPS/SRP, HA17384HPS/HRP, HA17385HPS/HRP - sterowni-
ki zasilaczy impulsowych
5V bandgap
referenceregultor
UVL1
VL VH
H
L
UVL2
Vref > 4.7V
TSDsense
160°C
CSlatch
R
S Q
OVPlatch
S
R Q
Latch setpulse
EA
OVP
CS
OR
OUT
0.8mA
6.5V1
2Vref
(2.5V)
7.0V 2VF
*1
2R
R
1V
PWM LOGIC
Oscillator
Vref
2.8V
1.2V
8.4mA
34V
NOR
Totem poleoutput circuit
1COMP
2FB
(OVP input)
3CS
4RT/CT 5 GND
6 OUT
7 VIN
8 VREF
HA17384SPS/SRP, HA17384HPS/HRP, HA17385HPS/HRP
Schemat blokowy
Ró¿nice pomiêdzy uk³adami: HA17384SPS/SRP, HA17384HPS/HRP,HA17385HPS/HRP
DILP (DP-8)SOP8
(FP-8DC)
TSD (thermalshutdownprotection)
OVP (overvoltage
protection)VTH UVL (V) typ. VTL UVL (V) typ.
HA17384SPS HA17384SRP - - 16 10
HA17384HPS HA17384HRP X X
HA17385HPS HA17385HRP X X 8.4 7.6
104 HA17384SPS/SRP/HPS/HRP/17385HPS/HRP
10k
10k
47k
2SA1029
150k
R10k
T
1k1k 1
2W
51
2SK15674.7k
1.8k 330
3.3k
B4.7k
100µ200V
+ 220k1/4W
+10µ50V
+3.3µ
+
1000µ10V
100p
0.1µ
C3300p
T
470p
HRP32
SBDHRP24
HA17431
HA17431
When the error amplifier is used
Rectifier bridge diode
141V+
CommercialAC 100V Line filter
V16.4V
IN
HA17384H,HA17385H
Photocoupler(for output control)
P SB
DC5V, 3AOUTPUT
+
COMP
FB
CS
R /CT T
Vref
VIN
OUT
GND
Schemat aplikacyjny
Opis wyprowadzeñ uk³adów: HA17384SPS/SRP, HA17384HPS/HRP,HA17385HPS/HRP
Pin No. Symbol Function Note
1 COMP Error amplifier output pin 1
2 FB Inverting input of error amp./OVP input pin
3 CS Current sensing signal input pin
4 RT/CT Timing resistance, timing capacitance connect pin
5 GND Ground pin
6 OUT PWM Pulse output pin
7 VIN Power supply voltage input pin
8 Vref Reference voltage 5V output pin
Note: 1. Overvoltage protection (OVP) input is usable only for the HA17384H and HA17385H.
IX1487BM 105
IX1487BM - sterownik zasilaczy impulsowych
Fragment schematu OTVC DV6340S z chassis 4BS-C firmy Sharp
106 KA5M0765RQC
KA5M0765RQC - sterownik zasilaczy impulsowych
2.5R
R
4
7.5V
TSD (T =150 C)J °
Power-on Reset/Auto-restart
R
S
OSC
OVP-out
Q
LEB
Vref
Rsense
2
+
- OLP
1mA5uA
VREFVCC
55V
+
-
OVP-out (V =27V)CC
OCL (V =1.4V)S
ShutdownLatch
27V
+
-OVP
15V/9V UVLO
3
VCC
Feedback
Soft Start
INTERNAL BIAS
Good Logic
CLK
R
S Q 14V
VOLTAGELIMIT
CIRCUIT
1
Drain
GND
VS
VOFFSET
SenseFET
* LEB: Leading Edge Blanking*OCL: Over Current Limit
+
-
KA5M0765RQC
Schemat blokowy
Podstawowe parametry
- maksymalne napiêcie drenu 650V
- zakres napiêcia wejœciowego -0.3V÷VSD
- czas opóŸnienia po w³¹czeniu zasilania 25÷60ns
- czas opóŸnienia po wy³¹czeniu 105÷220ns
KA5Q - seria 107
KA5Q0765RT, KA5Q12656RT, KA5Q1265RF, KA5Q1565RF - sterow-
niki zasilaczy impulsowych
1.7R
R
4
IfbIds
Vz
+Vds
REF.
TSD 150 C° Power-on Reset
OVP
+
+
PWM
R
S
Sync.REF.
+5
3
OSC
Q
R
S Q
LEB
Burst modecontroller
+
PSRREF.
InternalBias
Vref +
UVLO
Vfb offset
Roff
Delay500nS OCL
REF.
Rsens
Ron
1
2
KA5Q0765RT, KA5Q12656RT, KA5Q1265RF, KA5Q1565RF
Schemat blokowy
Ró¿nice miêdzy uk³adami serii KA5Qxxxx
Uk³ad Obudowa Wartoœæ znamionowa IOVER
KA5Q0765RT-TU TO-220F-5L
KA5Q0765RT-YDTU TO-220F-5L (forming)650V, 7A 5A
KA5Q12656RT-TU TO-220F-5L
KA5Q12656RT-YDTU TO-220F-5L (forming)650V, 12A 6A
KA5Q1265RF-TU TO-3PF-5L
KA5Q1265RF-YDTU TO-3PF-5L (forming)650V, 12A 8A
KA5Q1565RF-TU TO-3PF-5L
KA5Q1565RF-YDTU TO-3PF-5L (forming)650V, 15A 11.5A
108 KA5S - seria
KA5S0765C, KA5S09654QT, KA5S0965, KA5S12656, KA5S1265 -
sterowniki zasilaczy impulsowych
OSC
2
Vth.sy
15/9VV UVLOCC
3
VCC
Bias
CLK
R
S Q
1
Drain
GND
VOFFSET
SenseFET
+
-
4Feedback
5Soft Start
& Sync
0.95mA4 A�
VREF
2.5R
R
+
-
OLP (Vfb=7.5V)
Power-on Reset (VCC=6.5V)
R
S
Q
Rsense
OVP (V =25V)CC
VS
TSD (T =160 C)J °
OCP (V =1.1V)S
1 s WindowOpen Circuit
� ShutdownLatch
VREFVCC
+
-
7V6V
2.5V
Vref+
-VREF UVLO
KA5S0765C, KA5S09654QT, KA5S0965, KA5S12656, KA5S1265
Schemat blokowy
Ró¿nice pomiêdzy uk³adami serii KA5Sxxxx
Uk³ad Obudowa BVdss Rds(on)
KA5S0765C-TU TO-220-5L
KA5S0765C-YDTU TO-220-5L (forming)650V 1.6R
KA5S09654QT-TU TO-220F-5F
KA5S09654QT-YDTU TO-220F-5L (forming)
650V 1.1R
KA5S0965-TU TO-3P-5L
KA5S0965-YDTU TO-3P-5L (forming)
650V 1.2R
KA5S12656-TU TO-3P-5L
KA5S12656-YDTU TO-3P-5L (forming)
650V 0.9R
KA5S1265-TU TO-3P-5L
KA5S1265-YDTU TO-3P-5L (forming)
650V 0.9R
Zalecane zamienniki:KA5S0765C - FS6S0765RCB
KA5S0965 - FS6S0965RCB
KA5S1265 - FS6S1265RE
KA5S12656 - FS6S1265RE
LA5613 109
LA5613 - regulator napiêcia
Schemat blokowy z elementami aplikacji
Opis wyprowadzeñ uk³adu LA5613
Nr nó¿ki Funkcja
1 Napiêcie wejœciowe Vcc2 o mniejszej wartoœci od napiêcia na n.7
2 Wyjœcie 5.1V/0.7A (Vo2)
3 Wejœcie w³¹czania/wy³¹czania napiêæ wyjœciowych (aktywne w stanie wysokim)
4 Masa
5 Filtr napiêcia Vo1
6 Wyjœcie napiêcia Vo1
7 Napiêcie wejœciowe Vcc1 o wiêkszej wartoœci od napiêcia na n.1 (Vcc1 � Vcc2)
8 Próbka napiêcia wejœciowego podanego na n.7
9 Filtr kompensacji fazy i regulacja napiêcia Vcc1
10 Rejestr prze³¹czania
Referenceregulator
Thermalshutdownprotector
Motor etc.
Vcc112.3 ±0.4V
AC
REC
SW.REGACTIVE
(H)
Vcc26V
+
CPU etc
Photo coupler
R1
R2
RRR. AMP. for SW. REG
ERR. AMP+
-
+
-
HVPROTECTOR
On / Offcontrol
Currentlimiter
+
Vo1 0.3A
Tuner etc.+
+
Currentlimiter
Vo2 5.1V/0.7A
+ AUDIOAMP etc.
+
-
LA56137
3
1
4
8
2
10
9
6
5
Podstawowe parametry:
- napiêcia wejœciowe Vcc1 12.3 ±0.4V
Vcc2 6 ±0.5V
- napiêcia wyjœciowe Vo1 >10.9V, typ. 11.3V
Vo2 4.9 ÷ 5.3V, typ. 5.1V
- pr¹dy wyjœciowe Io1 0 ÷ 0.3A
Io2 0 ÷ 0.7Aobudowa: SIP 10H (2.54mm)
LA5613
110 LA5613
14
13
7
8
10
9
11
12
3
5
2
1
T901QQS0011-001
!
PC901PC123F2
!
1
2
4
3
1 2 3 4 5
5.9 5.1 5.0 0 12.3
VC
C2
VD
2
ST
B
GN
D
VO
1-F
IL
IC901
D956 21DQ04
D973OPEN
D953RL2Z-LFB2
D952RL2Z-LFB2
D972OPEN
+ C953680/10
R951470
D951AU01Z
# + C955
#
+ C954820/16
L95133µ
+ C971220/10
CP
CP901N25!
L95333µ
+C972220/16
D955RD15ES-T1B1
D96411ES2
#
13.2 12.2
13.1
Q9562SB1256#
R967#
R968#
#Q957UN5215
0
0
RO
R977OPEN
D957OPEN
D9601N4148M
D958RD30ES-T1B1
+ C963220/6.3
+
C1/
D969AU01Z
+ C951220/6.3
R97024 1W
D966SHORT
D965AUO1Z
D968AUO1Z
R9552k2
R957100 1/4W
FR
!
+
+
C95922/63
C96022/50
GROUND POINTFOR SECONDARY
VOLTAGE
Strona wtórna zasilacza magnetowidu JVC HR-J245EK/J249EK
LA5613 111
5 6 7 8 9 10
12.3 11.6 12.3 12.3 1.3 11.0
VO
1-F
IL
VO
1
VC
C1
SE
NS
E
NF
VO
EA
A
01 LA5613
+
42
B951
R978OPEN
Q960OPEN
R979OPEN
Q961OPEN
R9735.6k
R97422k
R977OPEN
+
C96610/16
+
C967100/16
MY
MY
R97522k
C9730.018
/50
C974OPEN
D975
UZ
6.8
8S
A
C9610.01/50
B952
Q959OPEN
R972OPEN
R976OPEN
+
+C970OPEN
C968OPEN
D971OPEN
L954
150
Q9552SD2144S(UVW)
5.9 5.1
5.8
R963510
R964470
+
+
C96422/16
C965100/10
TP GND
DC (+)
DC (-)
SW5V
P.CTL(H)
SW12V
SW5V
SW12V
GND
TP901SW5V
GND (C)
GND (M)
AL5.8V
M12V
M12V/17V
V_UP(H)
-28V
SW5V
GND (C)
GND (M)
DRUM_12V
SW5V
GND
AL12V
RF5V
BT2
GND
AL12V
RF5V
AUDIO(-)
CP
CP902N25!
TO
SY
SC
ON
TO
SE
RV
OT
OT
UN
ER
TO
TE
RM
INA
LT
OV
IDE
O/
AU
DIO
TO
SY
SC
ON
GND (M)
112 LA5616
LA5616 - uk³ad umo¿liwiaj¹cy regulacjê przez mikroprocesor napiêcia
zasilania urz¹dzeñ audio
VREF
CURRENTLIMITER
RESETGENERATOR
THERMALPROTECTION
ON / OFF
ON / OFF
10k
10k
Erroramplifier
Erroramplifier
22k
22k
EN2EN1 CD GND
VIN1
VO1
RES
CN
VIN2
VO2
1
2
6
10
3
9
5784
LA5616
Schemat blokowy
1 2 3 4 5 6 7 8 9 10
VIN
1
VO
1
CN
EN
1
GN
D
RE
S
CD
EN
2
VO
2
VIN
2
LA5616
obudowa: SIP 10F (2.54mm)
LA5616
Podstawowe parametry:
- napiêcie wejœciowe VIN 5.6 ÷ 17V
- napiêcie wyjœciowe VOUT1 4.75 ÷ 5.25V dla VIN1=12V, IOUT1=400mA
VOUT2 6.5 ÷ 7.5V dla VIN2=12V, IOUT2=1A
- pr¹d wyjœciowy IOUT1 0 ÷ 400mA
IOUT2 0 ÷ 1.0A
LA5616 113
Vin2
Vin1
En1
En2
10µF
GND
Cin
Cin
10µF
+
+Cd1µF
Cn1µF
Vo1
RESRES
+
+C1µF
RES
Co330µF
VDD
Vss
CPULA5616
1000µFDriver
Vo2
5.0
4.3
4.2
Vo1 [V]
T
VRES
[V]
td tdT
Reset Operation
Schemat aplikacyjny
114 LM1578A, LM2578A, LM3578A
LM1578A, LM2578A, LM3578A - sterowniki zasilaczy impulsowych
-
--
-
+
+
+
+
VA
R2 R1
1.00V
1.6VINTERNALSUPPLIES
REFERENCEREGULATOR V
+
+
-
-
110mV
110mV
PIN8
VIN
ANDGATE
V
CURRENTLIMIT
PIN7
LATCHGATES
AND DRIVER
TERMALLIMITOSCILATOR
PIN6
PIN5
EMITTER
COLLECTOR
GROUND
PIN4TIMING CAPACITOR
PIN3
��
5µA 5µA
COMPARATORPIN1
PIN2
INPUTS
Schemat blokowy
Podstawowe parametry
- maksymalne napêcie zasilania 50V
- pr¹d wyjœciowy 750mA
- zakres temperatury pracy -55 ÷ +125°C dla LM1578A
-40 ÷ +85°C dla LM2578A
0 ÷ +70°C dla LM3578A
LM1578A, LM2578A, LM3578A 115
1 8
7
6
5
2
3
4
R140k
C320p
R210k
C11820p
R3
R5
15VLM1578A
R4
Q1D45
1N5819
D1
C2330µ
L1220µH
5V0.05
330
200
1 8
7
6
5
2
3
4
R140k
C320p
R210k
C11820p
R3
15VLM1578A
0.15
L1
D11N5818
470µH5V
C2220µ
1 8
7
6
5
2
3
4
5VLM1578A
L1
D11N5818
330µH
15V
C2470µ
R30.15
R1140k
C40.0022µ
C320p
C11820p
R210k
R4200k
1 8
7
6
5
2
3
4
5V
LM1578A Q1TIP 32
L1
D11N5818
150µH
-15V
R30.01
R1160k
C40.0022µ
C320p
C11820p
R210k
220k
R6
C21000µ
R4
190
R582
Uk³ad aplikacyjny typu buck
Uk³ad aplikacyjny typu buck lub regulator step-down
Uk³ad aplikacyjny typu boost lub regulator step-up
Uk³ad aplikacyjny typu inverting
116 LM2641
LM2641 - dwuwyjœciowy regulator napiêcia
-
+
AMP
shutdown1.238V
REF
BG ref
-
+
COMP4.1V
UVLO
5V LDO
-
+BGgm
error amplifier
gmAMP -
+COMP
PWMcomparator
PWMLOGIC
0.4Vclamp
10µA
5µA
-
+COMP
-
+COMP
-
+COMP
-3%/-1%
lowregulation
150%
SS
CONT
+
70% under/overvoltage
TSDOSC
300 kHz
SSTIMER SHUTDOWN
PROTECTIONLATCH
±ILIMIT&
SKIPCONTROL
SKIP/FPWM(TTL level logic)
shoot throughprotection
SYNC
SS1
COMP1
FB1
CBOOT1
HDRV1
CSH1
CSL1
SW1
correctiveramp
operate
C3
C7
R6I BIASCH1
-
+
COMP
2.5V2NDFBCONTROL
CH1only
2NDFB/FPWM
X4currentsense
amplifier
CH1only
ShowsCH1only
R1
R2
C1
R4
LDRV1
Q2
D1
L1
Q1
C8
LIN
C17
IN
C6
5V
-
+
COMP
4.7Vat
CSL1
VLIN-CSL1switch FET
comparator
off
Internal Supply
ON/OFF2
SD
ON/OFF1
SDSTANDBYON/OFF
CONTROL
-
+
AMPREF
2.5V
CH1 off
LM2641
Schemat blokowy
LM2641 117
1 345 69
10
11
23
28
17
26
25
27
LM
26
41
VIN
HD
RV
2
SW
2
CB
OO
T2
SS
2
SD
CO
MP
2
FB
2
CS
L2
CS
H2
LD
RV
2
VIN
0.1Q3
C9
Q4
D2
R13
R15
16
.5k
1% R16
10k,1%
20
PG
ND
19
L2
6.1
µH
SU
MID
AC
DG
H127
20M
18
24
MB
RS
14O
T3
16
2
C14
100
10V
(2P
L.)
C16
OU
TP
UT
#2
3.3
V,4A P
WR
GN
D
C11
VL
IN
2N
DF
B/F
PW
M
ON
/OF
F2
ON
/OF
F1
13
CO
MP
1
12
SS
1
7S
YN
C
HD
RV
1
CB
OO
T1
SW
1
LD
RV
1
15
21
14
CS
H1
CS
L1
FB
1
22
RE
F
LIN
8
GN
D
22
/35
V2
2/3
5V
C6
VL
IN
C8
1.0
Q1
SU
MID
AC
DG
H127
6.1
µH
L2
25M
R4
10V
100
(2P
L.)
C1
C2
R1
30
.1k
1%
R2
10k
1%
OU
TP
UT
#1
5V
,3A
PW
RG
ND
Q4
MB
RS
14O
T3
D1
C7
1000p
1000p
C10
R6
10k
R11
6.2
k
C5
C12
C3
0.0
47
C15
0.0
47
FP
WM
ON
/OF
F2
SD
ON
/OF
F1
2MR17
R21
2M
OU
TP
UT
5V
,25A
2.5
V
SY
NC
4.7
C17
ND
S8410A
(2P
L.)
ND
S8410A
(2P
L.)
Sc
he
ma
t a
plik
ac
yjn
y
118 LM2651
LM2651 - regulator napiêcia
- +
Inte
rnal S
upply
Wave
Trim
min
gU
nderv
olta
ge
Lockout
Oscill
ato
r95%
Duty
Cycle
Lim
it
Load
Curr
ent
Measure
ment
Hig
hS
ide
Driver
Low
Sid
eD
river
Over
Tem
p.
Sense
Shutd
ow
nC
om
para
tor
Softsta
rt
Bandgap
Volta
ge
Refe
rence
Set
Reset
HM
SD
Therm
al
SD
LD
HD
Rese
tU
VLO
Logic
PW
MC
om
para
tor
S
Com
pensatio
nR
am
p
VIN
- +H
yste
retic
Com
para
tor
- +
Err
or
Am
p
CO
MP
AV
IN
PG
ND
SW
SD
(SS
)
FB
CB
OO
TSchemat blokowy
LM2651 119
LM2651-ADJ
VBC
SW
FB
VIN
AVIN
COMP
SD(SS) AGND PGND
CIN20.1
CC12.2n
RC15k
CIN100
VIN (4V to 12V)
CSS4.7n
D1
0.1CB
L122µH
R1
20kR219.6k
D2COUT120
VOUT=2.5V
Schemat aplikacyjny
Opis wyprowadzeñ uk³adu LM2651
Nr wyprowadzenia Symbol Funkcja
1, 2 SW Wyjœcie prze³¹czaj¹ce
3÷5 VIN Zasilanie
6 VCB Kondensator bootstrapu
7 AVIN Wejœcie steruj¹ce
8 SD (SS) Wejœcie uk³adu zabezpieczenia
9 FB Wejœcie sprzê¿enia zwrotnego
10 COMP Uk³ad kompensacji
11 NC Niepod³¹czone
12, 13 AGND Niskoszumowa, analogowa masa
14÷16 PGND Masa zasilania
Podstawowe parametry
- napiêcie wejœciowe 4÷14V
- napiêcie wyjœciowe 1.8V dla LM2651MTC(MTCX)-1.8
2.5V dla LM2651MTC(MTCX)-2.5
3.3V dla LM2651MTC(MTCX)-3.3
120 LM2653
LM2653 - regulator napiêcia
- +
Inte
rnal S
upply
Wave
Trim
min
gU
nderv
olta
ge
Lockout
Oscill
ato
r95%
Duty
Cycl
eLim
it
Load
Curr
ent
Measure
ment
Hig
hS
ide
Driver
Low
Sid
eD
river
Over
Tem
p.
Sense
Shutd
ow
nC
om
para
tor
Shutd
ow
nP
rote
ctio
n
Softsta
rt
Bandgap
Volta
ge
Refe
rence
Set
Reset
HM
LO
CK
SD
Therm
al
LD
HD
Reset
UV
LO
Lo
gic
PW
MC
om
para
tor
S
Com
pensatio
nR
am
p
VIN
- +H
yste
retic
Com
para
tor
- +
Err
or
Am
p
-
+
Co
mp
.C
om
p.
-
+
110%
BG
Ref
80%
BG
Ref
CO
MP
AV
IN
PG
ND
SW
SD
(SS
)
FB
LD
ELA
Y
PG
OO
D
CB
OO
T
Schemat blokowy
1
2
3
4
5
6
7
8 9
10
11
12
13
14
15
16
AVIN COMP
SD(SS)
AGND
PGND
FB
SW
VCB PGOOD
LDELAY
SW
VIN
VIN
VIN
PGND
PGND
16-Lead TSSOP (MTC)
Top View
Order Number LM2653MTC-ADJSee NS Package Number MTC16
LM2653
LM2653 121
LDELAY PGOOD VCB
SW
FB
VIN
AVIN
COMP
SD(SS) AGND PGND
CDELAY
100nRP30k
CIN20.1
CC12.2n
RC30k
CC2100p
CIN100
VIN (4V to 12V)
CSS4.7n
D1
0.1CB
L122µH
R1
20k
19.6kR2
D2COUT120
VOUT=2.5V
LM2653
Schemat aplikacyjny
Opis wyprowadzeñ uk³adu LM2653
Nr wyprowadzenia Symbol Funkcja
1, 2 SW Wyjœcie prze³¹czaj¹ce
3÷5 VIN Zasilanie
6 VCB Kondensator bootstrapu
7 AVIN Wejœcie steruj¹ce
8 SD (SS) Wejœcie uk³adu zabezpieczenia
9 FB Wejœcie sprzê¿enia zwrotnego
10 COMP Uk³ad kompensacji
11 PGOOD
Uk³ad monitorowania napiêcia wyjœciowego. Je¿eli napiêciewyjœciowe przekroczy 110% lub spadnie poni¿ej 80% swojejnominalnej wartoœci na wyprowadzeniu tym pojawia siê stanniski
12 LDELAY Kondensator opóŸnienia narastania napiêcia wyjœciowego
13 AGND Analogowa, niskoszumowa masa
14÷16 PGND Masa zasilania
Podstawowe parametry
- napiêcie wejœciowe 4÷14V
- napiêcie wyjœciowe (regulowane) 1.5÷5V
- czêstotliwoœæ wewnêtrznego generatora 300kHz
122 LM2674
LM2674 - regulator napiêcia
6
8
LM
2674
-+
Gain
Com
pensatio
nB
ias
Genera
tor
1.2
1V
Refe
rence
5V
Inte
rna
lR
egula
tor
Sta
rtU
p
Bia
s1
.21
V5
VE
nable
7
7V
5
Driver
Contr
ol
Logic
Enable
-+
1.2
1V
R2
R1
=2
.5k
GM
1- +G
M2
2k
10k 20m
H*
15k
10n
PW
MC
om
para
tor
4
ON
/OF
F
1C
BO
OT
ST
RA
P
VS
WIT
CH
500m
AS
witc
h
Therm
al
Shutd
ow
n
260
kH
zO
sci
llato
rC
urr
ent
Lim
itF
reg.S
hift
RS
EN
SE
Reset
VR
AM
P3.2
V
0.6
V
*A
ctiv
eIn
ducto
rP
ate
ntN
um
ber
5,5
14,9
47
Activ
eC
apacito
rP
ate
ntN
um
ber
5,3
82,9
18
FE
ED
BA
CK
GN
D
Sc
he
ma
t b
lok
ow
y
LM2674 123
LM2674-5.0
GND
VIN
L1 VOUT
1
4
5
7
8
VIN
8V to 40V
CIN
100
ON/OFF
6
FBCB
VSW
CB
10n
D1
100µH
COUT
100
5V500mA
+VIN L
14
5
7 8
CIN ON/OFF6
GND
FEEDBACK CB
CB
D1 COUT
+
UnregulatedDC Input
-
OUTPUT
L
O
A
D
Regulated Output
Keep Feedback Wiring AwayFrom Inductor Flux
fixed output
LM2674
LM2674+VIN L
14
5
7 8
CIN ON/OFF6
GND
FEEDBACK CB
CB
D1 COUT
+
UnregulatedDC Input
-
OUTPUT
L
O
A
D
Regulated Output
Keep Feedback Wiring AwayFrom Inductor Flux
adjustable
R1 R2
VOUT=VREF (1+ )R2R1
VREF =1.21V
R2=R1 (1+ )VOUT
VREF
Schematy aplikacyjne
124 LM2675
LM2675 - regulator napiêcia
Schemat blokowy
1
4
5 6
7
8
LM2675-5.0
FBCB
VSW
GNDON/OFF
VINVIN
100
CIN
8V to 40V
10
CB
D1
47µH
L1
COUT
68
VOUT
5V1A
6
8
LM2675
-
+
GainCompensation
BiasGenerator
1.21VReference
5V InternalRegulator
StartUp
Bias 1.21V 5V Enable
7
7V
5
DriverControlLogic
Enable
-
+
1.21V
R2
R1=2.5k
GM 1 -
+
GM 22k
10k20mH*
15k
10n
PWMComparator
4
ON/OFF
1 CBOOTSTRAP
VSWITCH
1ASwitch
ThermalShutdown
260 kHzOscillator
CurrentLimit
Freq. ShiftRSENSE
Reset
VRAMP3.2V
0.6V
* Active Inductor Patent Number 5,514,947Active Capacitor Patent Number 5,382,918
FEEDBACK
GND
VIN
Schemat aplikacyjny z ustalon¹ wartoœci¹ napiêcia wyjœciowego (5V)
Schemat aplikacyjny z regulowanym napiêciem wyjœciowym
LM2675+VIN L
14
5
7 8
CIN ON/OFF6
GND
FEEDBACK CB CB
D1 COUT
+
UnregulatedDC Input
-
OUTPUT
L
O
A
D
Regulated Output
Keep Feedback Wiring AwayFrom Inductor Flux
adjustable
R1 R2
VOUT =VREF (1+ )R2R1
VREF=1.21V R2=R1 ( -1)VOUT
VREF
LM2685 125
LM2685 - regulator napiêcia
LM2685
VIN
SDP
CE
VDBL
V05
VPSW
OSCILLATOR130kHz
POWER MOSSWITCHESDOUBLE V IN
+5V LDO
BANDGAPREFERENCE
THERMALSHUTDOWN
GND
C1P C1N
SDN05
POWER MOSSWITCHESINTER V
C2P C2N
VNEG
VNSW
Schemat blokowy
LM2685
VIN
GND
CE
SDN
V05
VPSW
VDBL
C1-
C1+
VIN
(2.85V to 6.5V)
C1
2.2
2VIN
2.2C3
+5V
+5V
C4 4.7
SDP
-5V
-5V2.2
C5
C2+
C2-
C2
2.2
10
CIN
D1
VNEG
VNSW
1
2
3
4
5
6
7 8
9
10
11
12
13
14VIN
GND
CE
SDP
V05
VPSW
VDBL
C1-
C1+
LM2685
14-Pin TSSOP
VNEG
VNSW
SDN
C2+
C2-
Schemat aplikacyjny
126 LM2686
LM2686 - regulator napiêcia
LM2686
VIN
SD
CE
VDBL
V05
VPSW
OSCILLATOR130kHz
POWER MOSSWITCHESDOUBLE V IN
+5V LDO
BANDGAPREFERENCE
THERMALSHUTDOWN
GND
C1P C1N
Schemat aplikacyjny
1
2
3
4
5
6
7 8
9
10
11
12
13
14VIN
GND
GND
GND
CE
SD
VIN N.C.
N.C.
V05
VPSW
VDBL
C1-
C1+
LM2686
14-Pin TSSOP
LM2686
VIN
GND
CE
SD
V05
VPSW
VDBL
C1-
C1+
VIN
(2.85V to 6.5V)
C1
2.2
2VIN
2.2 C3
+5V
+5V
C2 4.7
Schemat aplikacyjny
LT1509 127
LT1509 - sterownik zasilaczy impulsowych
-+
+--+
- +
+
VC
C
16V
TO
10V
EA
-+
7.5
V 7.9
V
25k
I A I BI M
=I A
2I B
2
I M
2.2
VM
1
- +CA
- +
0.7
VO
SC
RU
NRR S
Q
RR SQ
55%
DE
LA
Y
200ns
BLA
NK
ING
16V
-+
50
µA
14
µA
14
µA
7µ
A
20
0µ
A
- +CL
+1V
+
1.2
V
+-
7V
to4.7
v
PW
MO
K
7.5
VV
RE
F
17
5
1 2 20
415
18
19
36
78
12
9 11
13
14
16
10
GT
DR
1
GN
D2
GT
DR
2
RA
MP
VC
CS
ET
RS
ET
VA
OU
TV
RE
FM
OU
TI S
EN
SE
CA
OU
TG
ND
1P
KL
IMV
CC
SS
2
SS
1
OV
P
I AC
VS
EN
SE
NO
TE
:P
WM
PU
LS
EIS
DE
LA
YE
DB
Y55%
DU
TY
CY
CLE
AF
TE
RP
FC
PU
LS
E
RU
N
16V
LT
1509
Schemat blokowy
128 LT1509
-
+
90VAC TO264CAC
6AFAST
1M1/2W 0.1
"X"0.1"X"
0.1"X"
4700p"Y"
4700p"Y"
RT1
BR1
1k8
R10.155W
0.001
0.1
VREF
10k
4k021%
4k021%
0.001
300p
20k
T1
91k2W
ERA82-004
ERA82-004
T1
2.250V
2.250V
1
20
1N5819
1
10
2N
2k
VREF
0.01
CNY17-3
VIN
167851210330k
0.047
0.47
20k1%
499k1%
499k1%
382VBUS
VIN
499k1%
499k1%
0.0047m
20k1%
14
11
9
OVP
VSENSE
VAOUTVREF
PKLIM
MOUT ISENSE CAOUT
GND2GND1
CSET SS2 RSET SS1 VCC VC
0.001 1 0.047
200 1
15V
+
-
-
+
GTDR1 20
GTDR2
1.2V
RAMP
15k2 3 4 13 15 16 17 18
19
Danger!! Lethal Voltages PresentIn This Section
IAC
LT1509
Schemat aplikacyjny
LT1509 129
+
-
2.250V
2.250V 330
35V
15V
FUJIERA82-0040.6A/40VR
20k
IRFP450
MURH860CT(DUAL)
C11
400V 470450V
382VBUS
10
1 FILMT3
10:15TURNS
10
15V1N965
(×2)
20k
IRF840
MUR150
MUR150
17 TURNS26AWG
TRI-FILAR
26AWGTRI-FILAR
17 TURNS T2
IRF840
0.51, 2WRG ALLEN
RPS2x2
19
20
20k
2200p"Y"
1N5819 100p
220470
100p
2N2222A
330
2k2
220
2N2222A
20k 2N2907
VREF
24k9
10k1%
1%
01
Y17-3
2k2
5GND-S
RMID
REFRTOP
V+
26
COMPGND-F
LT1431
1
COLL
1k
3 4
7
8
0.1 100
0.002230k11%
3k41%
163V
FILM
OUTPUT COM
470/50V(x3)
4700p"Y"
67m
39T
T150-52
2000p
102W G1
FEP30DP
(DUAL)
T2 7 TURNSLPR1=3.1mH12AWG
101W
1000p
24VOUT
12.5A
20
19
130 LT1511
LT1511 - uk³ad ³adowania baterii
+-
-+- +
+ -
- +
+
-
+
+
UV
VC
C
+
6.7
V
0.7
V
VS
W VB
AT
SH
UT
DO
WN
PW
MC
1
RRRS
200kH
zO
SC
ILLA
TO
R
UV
OU
T
QS
W
VC
C
BO
OS
T
SW
GN
D
VC
75k
+-
B1
CA
2V
RE
F
R1
1k
R2
R3
SLO
PE
CO
MP
EN
SA
TIO
N
+ - + -
VC
C
CA
1
VA
CL1
gm
=0.6
4
VR
EF
2.4
65V
+
100m
V
SP
IN
SE
NS
E
BA
T
OV
P
CLP
CLN
PR
OG
RP
RO
G
I PR
OG
CP
RO
G
CO
MP
1
CO
MP
2
RS
2
RS
3
RS
1I BA
T
+B
AT
I PR
OG
I BA
T=
(IP
RO
G)(
)R
S2
RS
1
=(
)()
2.4
65V
RP
RO
G
RS
2
RS
1
(RS
3=
RS
2)
1.5
V
LT
1511
Schemat blokowy
LT1511 131
GN
D
SW
CO
MP
1
SP
IN
0V
PS
EN
SE
BA
TVC
PR
OG
VC
C
CLN
CLP
BO
OS
TL1**
20µ
D2
MB
R0540T
200p
D1
MB
RD
340
RS
1
RS
3
200
1%
RS
2
200
1%
0.0
33
BA
TT
ER
YC
UR
RE
NT
SE
NS
E
R3
390k
0.2
5%
BA
TT
ER
YV
OLT
AG
ES
EN
SE
162k
0.2
5%
R4
50p
CO
UT
22
TA
NT
+ +
4.2
V
4.2
V2
Li-lo
n
VB
AT
1k 0.3
3
300 1
RP
RO
G
4k93
1%
CP
RO
G
UV
10
CIN
*
10
C1
1
500
R7
RS
4
CU
RR
EN
TS
EN
SE
AD
AP
TE
R
D3
MB
RD
340
R5
UN
DE
RV
OLT
AG
ELO
CK
OU
T
R6
5k
VIN
(AD
AP
TE
RIN
PU
T)
11V
TO
28V
TO
MA
INS
YS
TE
MP
OW
ER
NO
TE
:C
OM
PLE
TE
LIT
HIU
M-I
ON
CH
AR
GE
R,
NO
TE
RM
INA
TIO
NR
EQ
UIR
ED
RS
4,R
7A
ND
C1
AR
EO
PT
ION
AL
FO
RI I
NLIM
ITIN
G*
TO
KIN
OR
UN
ITE
DC
HE
MI-
CO
N/M
AR
CO
NC
ER
AM
ICS
UR
FA
CE
MO
UN
T**
20µ
HC
OIL
TR
ON
ICS
CT
X20-4
SE
EA
PP
LIC
AT
ION
SIN
FO
RM
AT
ION
FO
R
INP
UT
CU
RR
EN
TLIM
ITA
ND
UN
DE
RV
OLT
AG
ELO
CK
OU
T
C2
0.4
7
LT
15
11
Sc
he
ma
t a
plik
ac
yjn
y
132 LTC1435
LTC1435 - regulator napiêcia
- +
SW
ITC
HLO
GIC
1.1
9V
1µ
A
SF
B SH
UT
DO
WN
DR
OP
OU
TD
ET -+ - +
0.6
V
I2
S RQ
OS
C
CO
SC
CO
SC
1.1
9V
RE
F
VIN
SG
ND
SW
TG
L
BO
OS
TVIN
CIN
CB
DB
INT
VC
C
- +4k
I1
-+
8k
INT
VC
C
180k
30k
- +1.1
9V
EA
RU
NS
OF
TS
TA
RT
SH
UT
DO
WN
3µ
A
6V
RU
N/S
S
CS
SC
C
RC
I TH
DF
B*
R1
-+
1.2
8V
0V
VF
B
VO
SE
NS
E
R2
*F
OLD
BA
CK
CU
RR
EN
TLIM
ITIN
GO
PT
ION
SE
NS
E+
SE
NS
E-
-+4.8
V
5V
LD
OR
EG
EX
TV
CC
VIN
INT
VC
C
BG
PG
ND
RS
EN
SE
D1
CO
UT
VO
UT
CS
EC
VS
ES
gm
=1m
LT
C1435
1 2 3 4 5 6 7 8910
11
12
13
14
15
16
CO
SC
RU
N/S
S I TH
SG
ND
VO
SE
NS
E
SE
NS
E-
SE
NS
E+
TG
BO
OS
T
SW
VIN
INT
VC
C
BG
PG
ND
EX
TV
CC
SF
B
LT
C1435C
GLT
C1435C
S
TO
PV
IEW
Sc
he
ma
t b
lok
ow
y
LTC1435 133
CO
SC
RU
N/S
S
I TH
SG
ND
VO
SE
NS
E
SE
NS
E-
SE
NS
E+
PG
ND
BG
BO
OS
T
INT
VC
C
SWTG
VIN
CO
SC
68p
0.1
M1
IRF
7403
CIN
22
35V
x2
10
µH
VIN
5.4
VT
O28V
M2
CM
DS
H-3
0.1
4.7
MB
RS
140T
3
RS
EN
SE
0.0
33
VO
UT
5V
/3.5
A
R1
R2
35
.7k
20k
CO
UT
100
10V
x2
CS
S
1 2 3 4 5 6 7 8910
11
12
131415
16
SF
B
EX
TV
CC
1000p
100p
CC
1
510p
CC
2
51p
RC
10k
1% 1%
SG
ND
IRF
7403
T1M
BR
1100T
3
24V
CS
EC
22
25V
100
100
10k
90
.9k
VO
UT
2
12V
LT
C1435
Sc
he
ma
t a
plik
ac
yjn
y d
la n
ap
iêæ
wy
jœc
iow
yc
h 5
V i
12
V
134 LTC1435
CO
SC
RU
N/S
S
I TH
SG
ND
VO
SE
NS
E
SE
NS
E-
SE
NS
E+
PG
ND
BG
BO
OS
T
INT
VC
C
SWTG
VIN
CO
SC
68p
0.1
M1
Si4
410D
Y
CIN
22
35V
×2
L1
10µ
H
VIN
4.5
VT
O28V
M2
Si4
410D
Y
CM
DS
H-3
0.1
4.7
MB
RS
140T
3
RS
EN
SE
0.0
25
VO
UT
3.3
V/4
.5A
R1
R2
35.7
k
20k
CO
UT
100
10V
×2
CS
S
1 2 3 4 5 6 7 8910
11
12
13
14
15
16
SF
B
EX
TV
CC
INT
VC
C
1000p
100p
CC
1
330p
CC
2
51p
RC
10k
1% 1%
I TH
PIN
3
100p
SG
ND
(PIN
5)
IN4148
OP
TIM
AL
CO
NN
EC
TT
O5V
LT
C1435
LTC1438, LTC1439 137
LTC1438, LTC1439 - dwuwyjœciowe regulatory napiêcia
-+
+-
+ -
+-
PH
AS
ED
ET
EC
TO
R50k
2.4
V
0S
CIL
LA
TO
R
PO
WE
R-O
NR
ES
ET
1.1
1V
VF
B2
9V
90
.8k
10k
-+S
FB
1µ
A
3µ
A
1.1
9V
RE
F
VR
EF
-+5V
LD
OR
EG
ULA
TO
R
INT
ER
NA
LS
UP
PLY
4.8
V
INT
VC
C
+-12
SW
ITC
HLO
GIC
INT
VC
C
4k
DR
OP
OU
TD
ET
EC
TO
RS
FB
S R
Q Q
-+0.6
VS
HU
TD
OW
N
+-
-+
30k
8k
180k
I1
EA
gm
=1m
VF
B
+ -0V
1.2
8V
1.1
9V
RU
NS
OF
TS
TA
RT
SH
UT
DO
WN
6V
DU
PLIC
AT
EF
OR
SE
CO
ND
CO
NT
RO
LLE
RC
HA
NN
EL
BO
OS
T
TG
L
TG
S**
SW
BG
PG
ND
SE
NS
E-
SE
NS
E+
VO
SE
NS
E*
VP
RO
G*
I TH
RU
N/S
S
PLL
IN**
PLL
LP
F**
CO
SC
PO
R2
LB
I
LB
O
AU
XD
R**
AU
XF
B**
SF
B1*
VIN
EX
TV
CC
INT
VC
C
*N
OT
AV
AIL
AB
LE
ON
BO
TH
CH
AN
NE
LS
**N
OT
AV
AIL
AB
LE
ON
LT
C1438
SG
ND
AU
XO
N**
f IN
LT
C1
43
9
Sc
he
ma
t b
lok
ow
y
138 LTC1438, LTC1439
BG
1
INT
VC
C
VIN
TG
S1
SW
1
TG
L1
BO
OS
T1
PLL
IN
SG
ND
VP
RO
G1
CO
SC
I TH
1
SE
NS
E- 1
LB
O
LB
I
SF
B1
EX
TV
CC
TG
S2
SE
NS
E+1
PO
R2
I TH
2
VP
RO
G2
SE
NS
E- 2
SE
NS
E+2
PLL
LP
F
PG
ND
BG
2
SW
2
TG
L2
BO
OS
T2
AU
XO
N
AU
XF
B
RU
N/S
S1
VO
SE
NS
E2
RU
N/S
S2
AU
XD
R
LT
C1
43
9
RL
P
10k
CL
P
0.0
1
1000p
CS
S1
0.1
1000p
1 2 3
INT
VC
C4
1000p
CC
1R
C1
10k
220p
CC
1A
5
PO
R2
6
100k
756p
CO
SC
8 9
LB
O
100k
110k,1%
390k,1%
100p
10
11 12
1000p
CC
2
RC
10k
CC
2A
560p
13
14
0.1
1000p
15
16
0.1
CS
S2
17
18
36E
XT
CLO
CK
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21 20
19
AU
XO
NV
OU
T1
0.1
M4
M6
D4
CM
DS
H-3
D2
CM
DS
H-3
M5
M2
D1
MB
R140T
3
D3
MB
R140T
3
M3
4.7
16V
M1
0.1
CIN
1
22
35V
×2
T1*
10
µH
10
µH
1:2
.2
RS
EN
SE
1
0.0
3
CO
UT
1
100
10V
× ×
×
2
VO
UT
1
5V
/3A
3.3 25V
MB
RS
1100T
3
L2
CO
UT
2
100
10V 2
RS
EN
SE
2
0.0
3
VO
UT
2
3.3
V3.5
A CIN
2
22
35V 2
VIN
6V
TO
28V
24V
R6
1M
R5
100k
47k
MM
BT
2907
4.7 25V
VO
UT
2
12V
200A
*T
1=
DA
LE
LP
E-6
562-A
092
M1,M
2,M
4,M
5=
IRF
7403
M3,M
6=
IRLM
L2803
L2=
SU
MID
AC
DR
H125-1
00M
CA
LL
INP
UT
OU
TP
UT
CA
PA
CIT
OR
SA
RE
AV
X-T
PS
SE
RIE
S
Sc
he
ma
t a
plik
ac
yjn
y
LTC1438, LTC1439 139
1
2
3
4
5
6
7
8
9
10
11
12
13
14 15
16
17
18
19
20
21
22
23
24
SGND
VPROG1
28
27
26
25
COSC
RUN/SS1
ITH1
SENSE-1
LBO
LBI
SFB1 EXT VCC
BG2
INT VCC
VIN
SW1
TGL1
BOOST1
G PACKAGE28-LED PLASTIC SSOP
TOP VIEW
SENSE+1
POR2
ITH2
VOSENSE2
SENSE-2
SENSE+2
BG1
PGND
RUN/SS2
BOOST2
TGL2
SW2
BG1
INT VCC
VIN
TGS1
SW1
TGL1
BOOST1
PLL IN
1
2
3
4
5
6
7
8
9
10
11
12
13
14
19
20
21
22
23
24
SGND
VPROG1
28
27
26
25
COSC
ITH1
SENSE-1
LBO
LBI
SFB1
EXT VCC
TGS2
G PACKAGE36-LED PLASTIC SSOP
TOP VIEW
SENSE+1
POR2
ITH2
VPROG2
SENSE-2
SENSE+2
15
16
17
18
29
30
31
32
33
36
35
34
PLL LPF
PGND
BG2
SW2
TGL2
BOOST2
AUX ON
AUX FB
RUN/SS1
VOSENSE 2
RUN/SS2
AUX DR
Podstawowe parametry
- napiêcie wyjœciowe VOUT1, 2 1.19V (VPROG1, VPROG2 pins open)
3.3V (VPROG1, VPROG2 = 0)
5V (VPROG1, VPROG2 = INT VCC)
140 M51997P, M51997FP
M51997P, M51997FP - sterowniki zasilaczy impulsowych
VOLTAGEREGULATOR
UNDERVOLTAGELOCKOUT
LATCHOVP
REG (7.4V)
7.1V
5004k
15.2k
5.8V
CF
T-ON
T-OFF
SOFT CLM-
OSCILLATOR(TRIANGLE)
PWMCOMP
PWMLATCH
CURRENTLIMIT
DETECTION
GND
EMITTER
VOUT
COLLECTOR
DET
2.5V
-
+
OP AMP
F/B Vcc
7 5
6
1
2
3
12138
9
11
10
4
M51997P
14
VOLTAGEREGULATOR
UNDERVOLTAGELOCKOUT
LATCHOVP
REG (7.4V)
7.1V
5004k
15.2k
5.8V
CF
T-ON
T-OFF
SOFT CLM-
OSCILLATOR(TRIANGLE)
PWMCOMP
PWMLATCH
CURRENTLIMIT
DETECTION
GND
EMITTER
VOUT
COLLECTOR
DET
2.5V
-
+
OP AMP
F/B Vcc
6
7
1
2
3
14159
10
12
11
5
168
M51997FP
Schematy blokowe
M51997P, M51997FP 141
Vcc
CO
LLE
CT
OR
VO
UT
CLM
-
EM
ITT
ER
GN
D
DE
T
RE
G
SO
FT
M51997P
/FP
R2 CVCC
+
+
R1
R
+D
CO
UT
PU
T
RC
LM
CN
F
RN
F
TL431
OV
P
FE
ED
BA
CK
RO
FF
CF
RON
OV
PF
/BT
-ON
CF
T-O
FF
+ CFIN
AC
INP
UT
LINE FILTER
RUSHCURRENT
PREVENTIONCIRCUIT
Schemat aplikacyjny - uk³ad typu forward
Pod
staw
ow
e p
aram
etr
y:
- nap
iêci
e pra
cyV
CC
VC
C(S
TO
P) ÷
30V
- nap
iêci
e „s
tart
u”
VC
C(S
TA
RT
)15.2
÷ 1
7.2
V
- nap
iêci
e „s
topu”
VC
C(S
TO
P)
9.0
÷ 1
0.9
V
- pobór
pr¹
du
I CC
7.3
÷ 1
7m
A (
Vcc
=15V
, f=
188kH
z)
8.0
÷ 1
9m
A (
Vcc
=30V
, f=
188kH
z)
- za
kre
s cz
êsto
tliw
oœc
i pra
cyf o
sc170 ÷
207kH
z (R
ON=
20k,
RO
FF=
17k,
CF=
220p)
- nap
iêci
e w
ewnêt
rzneg
o r
egula
tora
Vre
g6.8
÷ 8
.8V
(ty
p.
7.8
V)
- m
aks.
pr¹
d w
yjœ
ciow
yI O
±1
A
- za
kre
s re
zyst
ancj
i R
ON
TO
N10k ÷
75k
- za
kre
s re
zyst
ancj
i R
OF
FT
OF
F2k ÷
30k
142 M51997P, M51997FP
Schemat aplikacyjny - uk³ad typu flyback
Vcc
CO
LLE
CT
OR VO
UT
CLM
-
EM
ITT
ER
GN
D
DE
T
RE
G
SO
FT
M51997P
/FP
R21
R22
CVCC+
R1
+D
CO
UT
PU
T
RO
FF
CF
RO
N
OV
P
F/B
T-O
NC
FT
-OF
F
+
CF
IN
AC
INP
UT
LINE FILTER
RUSHCURRENT
PREVENTIONCIRCUIT
OV
P
CF
BR
FB
CN
F
RN
F
RC
LM
-
1COLLECTOR
VOUT
EMITTER
OVP
F/B
DET
REG
7
6
5
4
3
2
14
13
12
11
10
98
Vcc
CLM-
GND
T-OFF
CF
T-ON
SOFT
M51997F
P(o
budow
a:16P
2N
-A)
HEAT SINK PIN HEAT SINK PIN
15
16
1COLLECTOR
VOUT
EMITTER
OVP
F/B
DET
REG 7
6
5
4
3
2
14
13
12
11
10
9
8
Vcc
CLM-
GND
T-OFF
CF
T-ON
SOFT
M5
19
97
P(o
bu
do
wa
:1
4P
4)
M67209 143
M67209 - sterownik zasilaczy impulsowych
Strona pierwotna zasilacza magnetowidu VC-H87G firmy Sharp
6 5
78 4
3 2
1
IC901
M67209
12V D.C.1.5V. D.C.
1.5Vp-p
0V
D9191S1555
1.2V
-7.5V
1.6V
0V D.C.
0V100mVP-P0.56V
0V
0.3VD.C.
C9170.068µ(ML) C916
0.047µ(ML)
R9225.6k(1/4W)
C9151000p R921
180k(1/4W)
R92014k(1/4W)
C9062200p
C9072200p
!
D901
D903
R9035.6(5W)
R9026.8M(1/2W)
R9346.8M(1/2W)
C9032200p
C9042200p
C9020.1µ
L90633mHELF-18D290H
C931220p
C932220p
C9010.47µ
R9331M(1/2W)
R9011M(1/2W)
FB904
FB905
L901820µHELF-18D290B
F901T2A250V
AC IN
NOTE: THE VOLTAGE VALUES MARKED AREMEASURED BETWEEN POINTSAND POLARITY OF C908
144 M67209
1
Vp-p
R916470(1/2W)
D9081SS178
1.0V
0V0V
Q9022SC4408
R92410k(1/4W)
3 2 1
IC902TA76431S
0V
Q9012SC3866
-5.8V-5.4V
R93947k(1/4W)
C9141000p(ML)
R928500
R9271.2k(1/4W)
1.4V
0V
R9194.7k(1/4W)
D9061S1555
R9261.2k(1/4W)
R925390(1/4W)
+-C91347µ(16V)
R92310(1/4W)
D9091SS178
R917270(1/2W)
C9120.01µ(ML)
R91518(1/4W)
D9075ELS2
1
3
2NC
4
6
5NC
460V
0V
0.6V0V
-0.6V
R90556k(1/2W)
R90756k(1/2W)
R90456k(1/2W)
R90656k(1/2W)
C909
0.01µ(400V)
C910
100p
D90505NU42
R90833k(1W)
R90933k(1W)
R91227k(1W)
R913820k(1/2W)
R914820k(1/2W)
C933100p+
-
C90847µ(400V)
D902
D904
D901 - D904ERA15-06 x4
3
16
15
14
13
12
11
10
9
8
T901PTTP42
MA1545 145
MA1545 - regulator napiêcia
1 2 3 4
5.6V
(5.6V)
10V
(10V)
13V
(13V)
1k
1k
1k
+-
5.6V
2.7k
330
2.2k
1k 1k
500
1k
IC952
+
-
+
-
C96347μ C964
220μ(25V)
R963220
R962330
R
R922
Q9582SC945A
D9651SS55
-22.1V
(-22.1V)
Q9512SD471
-22.6V
(-22.6V)
R9531k
D963RD22EB
2
R953
470
R952
470
+ -
C952100μ (50V)
D9601SS55
D961MC931
!
+-
C95447μ (100V)
+
-
C954100μ(50V)
D9595.6EB
R961
8.2k
+
-
C9552.2μ(50V)
+
-
C9613300μ(35V)
D962 MC921!
+
-
C9623300μ(25V)
!
F952T 2A
R9760.1
R9770.1
C959
0.047
C958
0.047
!
D951-D954ERA81
D955-D958ERA81
T901 POWER TRANS
F9
51
T6
30
mA
L9
51
F0
07
0C
E
C951
0.1
K1
K2
K3
K4
!
!A
C220V
(50H
z)
R95133k
Zasilacz magnetowidu VC-481GS, GB, N
146 MA1545
1
2
3
4
5
6
7
8
9
10
11
12
GND (MOTOR)
AT 13V
P. FAIL
P. CON
AT 9.3V
9V
GND (SIG)
GND (TIMER)
CLOCK
-20V
AC 2.7V
AC 2.7V
PA PWB-A, T
AJ8
AJ6
AJ5
AJ4
AJ3
AJ2
AJ1
TA2
TA3
TA4
TA11
TA10
1
2
3
4
AT 9.3V
GND
33V
12V
PB PWB-I
IA1
IA2
IA3
IA4
4 5 6 7 8 9 10 11 12 13 14
14.5V
(14.5V)
12.3V
(12.3V)
14.3V
(4.4V)
11.2V
(11.2V)
9V
(9V)
12V
(12V)
k2.2k
+-
+-
2.2k+-
1k 1k
2.2k
+-
2.2k
1k 1k
952 MA1545
13V
(13V)
17.2V
(17.2V)
R9702.7k
14.5V
(14.5V)
Q9572SD1308
+
-
+
-
+
-
+
-
C96522μ(50V)
C96722μ
(50V)
C96622μ
(50V)
C96822μ
(50V)
9.3V
(9.3V)
R96610k Q955
2SD1308
14.2V
(14.2V)11.3V
(11.3V)
R96733k
R97133k
Q9562SD1308
12V
(12V)
17.2V
(17.2V)
R96810k
13.3V
(13.3V)
9V
(9V)
14.2V
(14.2V)
Q9542SD1308
R96410k
10.3V
(10.3V)
R96922k
R97422k
R96533k
R97522k
0.7V
(0.7V)0V
(0V)
0V
(0V)
Q9532SC1841
R95718k
R97818k
R9604.7k
63.4V
(63.4V)64V
(64V)
64V
(64V)D
964
1S
S55
R972
18k
R973
18k
C9570.01
IC951μPC574J
+
-
R9591k
R9582.7k
C95922μ
(50V)
R955100k
C9560.01
R95618k
+ -
C9552.2μ (50V)
0V
(0V)
-22.1V
22.1V)
71
Q9522SA988
MA2820 147
MA2820 - sterownik zasilaczy impulsowych
R224.7k
R140 1k
R412200
R1056
0.1 PET
C14100016V
+
330 1C18
+
+C11100016V
+C1547025V
D7ERA85-009
D2D5S4M
D8D5S4M
D9ERA82-004
C10.47250VMF
C524700p400V
C514700p400V
C44700p400V
C34700p400V
C20.1
250VMF
+
R24.7:RT
D1S2YB60-03L10
C7100
400V
C54700p 400VC534700p 400V
C544700p 400V
R24100
R+
8
7
6
11
14
13
1 8
2 7
3 6
4 5
6 1
5 2
4 3
1 2 3 4 5 6 7
AC IN220 - 230V
AC~INPUT
F11.6A250V
L120mH
C2422016V
D16RD7.5
ES-T2B
D17MC931-TP
R5680k
C80.068 630V
R347k 3W :M R32 47k
3W :M
C9100p2kV
R37332W1M
C410.01PET
R747 2W
R9472W
R
R3
R213.3 1/4
R8180 1/4
:FP
IC001MA2820
300 59 -52 -61 -63 -61 -61
0.1
IC002
PCIIILS
-61
-61
5.4
4.3
4.3
T1
IC001
SW REG
IC002
REG CONTROL
IC003
LIMITER
Q4SW REG
3
12
15
16
17
20
4
19
18
C10
PS-310 BOARD
Zasilacz magnetowidu EV-C770E/S880E
148 MA2820
10
R122200
:M
PET
C42100016V
+
330 16VC18
C1910
50V
+
C1647010V
+
+10
V
+C1233016
+C1547025V
L210μH
9
4
D3TF341S R13
100
R25150
R23680
+++
+
8
7
6
5
2 3
1
4
1 2
3
+
C2622010V
CL10
D16D7.5-T2B
931-TP
C2147001B
C600.001
1B
Q52SC2655Y
Q42SC2785 TP-F
T2
D12
ERA82-004
C2522010V
L5 22μ
C2747
50V
D13 1SS82 EV-S880E ONLY
C2922035V
R30100
C310.022
1X
D15RD9.1ES-T2B
R39
EV-C770 5.6k
EV-S880E 10k
3
4
5
2
1
GND (E)
UN-30V
POWERCONT
HEATER (+)
HEATER (-)
D141SS82
D18HZS30-2L
27001M
100:M
R1
R35
IC006
M5F79M05
L3 10μH
D4R015ES-T2B3
R3847k1/4
C2047
10V
IC005
PQ05RF21
CL11
CL12
CL8
CL9
CL7
CL6
PS1
CL5
CL4
CL3
CL2
CL1
10.5
0.1
8.2
0.1
IC003
IR9431
2.5
-5.1-7.0
5.6 5.0
5.0
IC006
UN -5V REG
IC005
SW 5V REG
Q4, 5REG CONTROL
CN2 5P
CN1 12P
8
7
24
5
9
1
C10
1
2
3
4
5
6
7
8
9
11
12
UN 40V
UN 12V
NC
UN 11V
GND (M)
UN 5.6V
SW 5V
SW 5V
UN -5V
NC
GND
GND
6
MAX608 149
MAX608 - regulator napiêcia
MA
X6
08
-+
1.5
VR
EF
ER
EN
CE
+ -
ER
RO
RC
OM
PA
RA
TO
R
RE
F
MIN
OF
F-T
IME
ON
E-S
HO
T
Q
F/F R
Q
TR
IG
S
MA
XO
N-T
IME
ON
E-S
HO
T QT
RIG 16μ
s
2.3
μs
FB
+-
+ -50m
V
N
DU
AL-M
OD
EC
OM
PA
RA
TO
R
BIA
SC
IRC
UIT
RY
SH
DN
OU
T
LO
W-V
OLT
AG
ES
TA
RT
-UP
CO
MP
AR
AT
OR
+ -
EX
T
LO
W-V
OLT
AG
EO
SC
ILLA
TO
R
+-
+ -0.1
V
2.5
V
CU
RR
EN
T-S
EN
SE
AM
PLIF
IER
CS
Sc
he
ma
t b
lok
ow
y
150 MAX608
1
2
3
4
5
6
7
8
OUTREF
SHDN
FB
AGNDGND
CS
EXT
C2
0.1
C30.1
RSENSE
50M
NMMFT3055EL
L122μH
VIN=2V
C1
150D1
1N5817
C4200
VOUT=5V
@ 0.5AMAX608
Schemat aplikacyjny dla napiêcia wyjœciowego 5V
22μH
1
2
3
4
5
6
7
8
OUTREF
SHDN
FBAGND
GND
CS
EXT
C2
0.1
C30.1
RSENSE
50M
NMMFT3055EL
L1
VIN=2V
C1
150
D1
1N5817
C4200
VOUT=12V
@ 0.3A
R158k
R2402k
VREF=1.5V
R2=R1 ( -1)VOUT
VREF
MAX608
Schemat aplikacyjny dla napiêcia wyjœciowego 12V
Opis wyprowadzeñ uk³adu MAX608
Nr wyprowadzenia Symbol Funkcja
1 EXT Sterowanie bramk¹ zewnêtrznego tranzystora
2 OUT Wejœcie pod³¹czone do napiêcia wyjœciowego
3 FB Wejœcie sprzê¿enia zwrotnego
4 SHDN Wejœcie uk³adu zabezpieczenia, aktywnym stanem jest stan wysoki
5 REF Wyjœcie napiêcia odniesienia 1.5V
6 AGND Masa analogowa
7 GND Masa uk³adów wyjœciowych
8 CS Wejœcie wzmacniacza próbki pr¹du wyjœciowego
MAX796, MAX797, MAX799 151
MAX796, MAX797, MAX799 - sterowniki zasilaczy impulsowych
++
+
-
-
-
REF
SLOPE COMP
-
+
30mV
R
SQ
OSC
LEVELSHIFT
BST
DH
LX
-
+
1XCSH
CSL
FROMFEEDBACKDIVIDER
-
+VL
4μ
1μs
24R
1R2.5V
CURRENTLIMIT
SKIP
(MAX797 ONLY)
SS
SHDN N
-
+
SYNCHRONOUSRECTIFIER CONTROL
R
S
Q
SHOOT-THROUGHCONTROL
LEVELSHIFT
VL
DL
PGND
-
+
-
+ SIGLE-SHOT
REF(MAX796)
NOTE 1SECFB
MAX796, MAX799 ONLY
-100mV
NOTE 1: COMPARATOR INPUT POLARITIESARE REVERSED FOR THE MAX799GND (MAX799)
MAIN PWMCOMPARATOR
MAX796
Schemat blokowy
Ró¿nice miêdzy uk³adami MAX796/797/799
Uk³ad Napiêcie wyjœciowe Cechy charakterystyczne
MAX796 3.3V/5V lub regulowane Regulowane jest dodatnie napiêcie strony wtórnej
MAX797 3.3V/5V lub regulowane Sterowanie cyfrowe
MAX799 3.3V/5V lub regulowane Regulowane jest ujemne napiêcie strony wtórnej
152 MAX796, MAX797, MAX799
MAX796
-
+
TOCSL
+5V LINEARREGULATORSHDN
-
+ PWM
LOGIC
- + +-
PWMCOMPARATOR
-
+
+2.505VREF
1XLPF
60kHz
-
+
-
+
1V
4V
BATTERY VOLTAGE
+V
4.5V
OUT
VL
BST
DH
SYNC
ADJ FB
5V FB
3.3V FB
FB
CSL
CSH
PGND
DL
LX
+5V AT 5mA
AUXILIARYOUTPUT
MAINOUTPUT
SS
SHDNON/OFF
GND
REF
SECFB
+2.505VAT 100μA
Schemat blokowy z elementami aplikacji
MAX796, MAX797, MAX799 153
Schemat aplikacyjny dla napiêæ wyjœciowych +5V i +15V
Schemat aplikacyjny dla napiêæ wyjœciowych +5V i +15V
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
V+
DH
BST
LX
DL
PGND
CSH
CSLREFSYNC
VLFBSECFB
SHDN
SS
GND
0.01
(OPTIONAL)
ON/OFF
0.33
4700p* 22*
0.1
22
35V
4.7C2
D1CMPSH-3A
Si9410
Si9410
C24.7
1N5819
VIN (6.5V TO 18V)
D2EC11FS1
C3152.5V
210k, 1%
0.0149.9k, 1%
18V1/4W
+15VAT
250mA
T115μH
20M
2.2:12206.3V
+5VAT 3A
T1=TRANSPOWER TT15870*=OPTIONAL, MAY NOT BE NEEDED
MAX796
1
2
34 5
6
7
8
9
10 11
12
13
14
15
16
V+
DH
BST
LX
DL
PGND
CSH
CSL
REF SYNC
VL
FB
SECFB
SHDN
SS
GND
0.01
(OPTIONAL)
ON/OFF
0.33
0.1
33
35V
4.7
1N5819
VIN (8V TO 18V AS SHOWN)
+3.3V
AT500mA
T1
10μH 25m
1:1.5
330
+5V
AT 2A
1N4148
Q1
Q2
MBR0502L
47
102k, 1%
100k, 1%
Q3
1N5817
102k
33.2k
49.9k
1%
1%
1%
MAX796
154 MAX796, MAX797, MAX799
1
23
4
5
6
7
8
9
10
11
12
13
14
15
16
V+
DH
BST
LX
DL
PGND
CSH
CSL
REF
SYNC
VL
FB
SECFB
SHDN
SSGND
0.01
(OPTIONAL)
ON/OFF
0.1
22
35V
4.7
1N5819
VIN (9V TO 18V)
+5V OUT
T1
15μH
50M1:1.3 220
(+5V AT 1A)
1N4148
107k, 1%
221, 1%
1000p
EQ11FS1 10V22
10V
-5.5V OUT(-5.5V AT 200mA)
1/2 Si9936
1/2 Si9936
1
MAX799
Schemat aplikacyjny dla napiêæ wyjœciowych ±5V
MAX796, MAX797, MAX799 155
V+
DH
BST
LX
PGND
CSH CSL
REF
SYNC
VL FB
SHDN
SS
GND
4.7
VIN
4.75V TO 6V
SKIP
0.33
0.01
Q1D1
C2
150
C3
150
+12V AT 2A
L15μH
C1
220
191k
49.9k
0.01
MAX797
V+
DHBST
LX
PGND
CSH CSL
REFSYNC
VL
FB
SHDN
GND
3V TO 6.5V
SKIP
4.7
0.33
Q1
220
+5V AT 500mA
100
200k
200k
DL
220
OUTPUT
T1
LOW IQHI EFF
33M
CMPSH-3A
INPUT
MAX797
Schemat aplikacyjny w uk³adzie typu PWM boost converter
Schemat aplikacyjny w uk³adzie typu PWM flyback converter
156 MB3794
MB3794 - uk³ad zasilania segmentów radia samochodowego
1
3
8
-
+
8V REGULATOR
8V REGULATOR
8V REGULATOR
8V REGULATOR
5
7
9
12
REFERENCE VOLTAGECONTROL CIRCUIT AT
LOW VOLTAGE CIRCUIT12
9V REGULATOR
5V REGULATOR
5V REGULATOR
13
15
5
16
BIAS CIRCUIT
14
12
ACC SYSTEM
REFERENCE VOLTAGEPOWER SUPPLY CIRCUIT
BU STSTEM
5V REGULATOR 2
44V
IN-CS
IN-AM
IN-FM
CHK
ACC POWER
BU POWERSUPPLY
SUPPLY
OUT - V DD
RST
OUT-START(5V OUTPUT)
OUT-STBT(5V OUTPUT)
T-B (9.15V OUTPUT)
BP
OUT-COM(8.4V OUTPUT)
OUT-FM(8.4V OUTPUT)
OUT-AM(8.4V OUTPUT)
OUT-CS(8.4V OUTPUT)
MB3794
Schemat blokowy
MB3794 157
MB3794
AMTUNER
FMTUNER
CASSETTECIRCUIT
CASSETTE
OUT-AM OUT-FM OUT-CS
DEMODULATIONCIRCUIT
T-B COM
PRAMPEQUALIZER
AMP
STBY
BP
GND
CHK
ACC
BU BACKUPPOWER SUPPLY
POWER SUPPLYACCESSORY
10
SEVERALCONTROLSIGNALS
IN-FM
IN-AM
IN-CS
START
RST
VDD
MICRO-COMPUTER
RAM
CO
NT
RO
LP
AN
EL
ANTENA
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
BUVDD
CHK
RST
OUT-CS
START
OUT-COM
ACC
OUT-FM
GND
OUT-AM
IN-FM
T-B
IN-AM
STBY
IN-CS
SP
PIN ASSIGNMENT(TOP VIEW)
MB3794
Blokowy schemat aplikacyjny
158 MC33063A, MC34063A
MC33063A, MC34063A - konwertery napiêcia
1.25VREFVTG
4
5
GND
COMP
COMPARATORINVERTINGINPUT
7
8
2OSCILLATOR
3
I SENSEpk
TIMINGCAPACITOR
*V (6)CC
S
R
DRIVECOLLECTOR
1
Q2
Q1
SWITCHCOLLECTOR
SWITCHEMITTER
RD
Q
MC33063A, MC34063A
Schemat blokowy
Podstawowe parametry
- maksymalne napiêcie zasilania VCC 40V
- maksymalny pobór pr¹du ICC 4mA dla MC34063
5mA dla MC33063
Ró¿nice pomiêdzy uk³adami serii MC33063 i MC34063
Oznaczenie uk³adu Obudowa Temperatura pracy
MC34063AP 8-DIP
MC34063AD 8-SOP0 ÷ +70°C
MC33063AP 8-DIP
MC33063AD 8-SOP-40 ÷ +85°C
MC33063A, MC34063A 159
Fragment schematu chassis MG2.1E AA
160 MC33262, MC34262
MC33262, MC34262 - sterownik zasilaczy impulsowych
+
+
+
+
+
+2.5VReference
Timer R
Delay
+
+
++Multiplier
Quickstart
+
+
RFIFilter
92 to138 Vac
D4D2
D3D1
1 C5
Zero CurrentDetector
1.2V36V
R6100k
8
D61N4934
6.7V
C4100
5 R422k T1.6V/
1.4V
UVLO
13V/8.0V
16V
107
D5MUR130 V0
C3220
230V/0.35A
Q1MTP
8N50E
10
DriveOutput
RSLatch
R52.2M
Current SenseComparator
1.5VOvervoltageComparator
420k
10pF R70.1
R21.0M
1
R111k
1.08Vref
refV
10μAError Amp
3C20.01
R37.5k
6 2C1
0.68
MC34262MC33262
Schemat blokowy
Schemat aplikacyjny
+
+
2.5VReference
UndervoltageLockout
Multiplier,Latch,PWM,Timer,
&Logic
+
+
+
Multiplier+
Quickstart
OvervoltageComparator
Error Amp
1.08 Vref
Vref
Zero Current Detector
MC34262MC33262
Zero CurrentDetect Input
CurrentSenseInput
VoltageFeedback
Input
CompensationGND
MultipierInput 3
6 2
1
4
7
8
5
DriveOutput
VCCRó¿nice pomiêdzy uk³adamiMC33262 i MC34262
Uk³adTemperatura
pracyObudowa
MC34262D SO-8
MC34262P0 ÷ +85°C
Plastic DIP
MC33262D SO-8
MC33262P-40 ÷ +105°C
Plastic DIP
MC33262, MC34262 161
Fragment schematu chassis GP2D firmy Panasonic
8 7 6 5
1 2 3 4
+
START2
VCC3
BACKUP4
GATE5
NC6
H.GND7
I.DET
8MLT PLY
9PEC.DET
10F.B.
11STOP
1 2 3
C
D736MA152K
R72447
D735D1FL40
+25V
D1FL40
D741
19A
D730D1FL40
R72168
R72368
C741880
C742220p
R717 390
R7004.7k
R71610k C731
0.001
C74416V0.22
S701
EV
QR
DS
L12
AC100V : 3AC200V : 1
R71822k
D738MA3300L
C73050V220
C7320.1
D740D1FL40
VC
C
OU
T
GN
D
01A
NA
SE
NC
E1
MLT
PLY
CO
NT
VF
/E0VP
0CP
R703 240
R704 100
R7021.5M
C7341000p
R719560
R7201.8k
C7330.33
D737MA152K
R7061.5k
1%R7051.5k
D731D1FL4
R70722k
D
D739MA330
1
IC735MC33262P
MOTOROLA
TOP1-BOARD
(P19)
1%
P6-BOARD TNPA1313
162 MC33262, MC34262
1 3 4 5 6 7 8 92
+ +
2 1
3
+
7065k
1%7055k
C7351000p
D7311FL40
70722k
D732D1FL40
Q7302SB1030ATA
R70847k
R709
22k
NHG
C74350V 22
D739A3300L
C7401000p
OVP-SOS
GNDVCC
R71110k
1%
R7106.2k
C73650V0.01
C73750V0.01
R71210k
C73850V0.1
D733MA3039H
INOUT
COMMON
VCC
R7135.1k
R7225.1k
PFC-DET
R71422k
D734MA152K
R715100
C73950V0.1
IC736AN6913
IC737AN78L05
PFC OSCILLATOR
1%
MC33340 163
MC33340 - uk³ad ³adowania baterii
4
567
-+
-+
+ -+
DC
Input
Regula
tor
Reg
Contr
ol
Charg
eS
tatu
s
R2
R1
1V
sen
Volta
ge
toF
req
uency
Convert
er
-+
+
2.0
V
1.0
V
Battery
Dete
ct
Low
Hig
h
Ck
F/V
R
Over
-V
Dete
ct
Counte
rT
imer
2 3
Vsen
Gate
Fast/
Trickle
Gate
Vsen
F/T
Gnd
Inte
rnal B
ias
+
Underv
ol ta
ge
Lockout
VC
C
+ 2.9
V
8V
CC
QR S
Over
Tem
pLatc
h
-+
Under
Tem
pD
ete
ct
t3t2t1
-+ + +
t/T
+
VC
C
0.7
V
Tim
e/
Tem
pS
ele
ct
+ + +
30μ
A
30μ
A
30μ
At1
/Tre
fH
igh
t2/T
sen
t3/T
refLow
SW
1R
3
SW
3R
4SW
2
+ -
TR
NT
C
Battery
Pack
R2=
R1(
-1)
VB
att
Vsen
MC
33
34
0
Sc
he
ma
t b
lok
ow
y z
uk
³ad
em
ap
lik
ac
yjn
ym
164 MC33463
MC33463 - regulator napiêcia
2
+
-
L
Vin
Cin
D
3
Drive
VFMController
100kHzOscillator Vref
1
VO
CO
Gnd
Output
MC33463H-XXKT1
LxVLx Limitier
Schematy blokowe
2
+
-
L
Vin
Cin
D
QRb
Cb3 Drive
VFMController
100kHzOscillator Vref
1
VO
CO
Gnd
Output
XX Denotes Output Voltage
This device contains 100 active transistors
MC33463H-XXLT1
EXT
MC33463H-XXKT1
1
2
3
H SUFFIXPLASTIC PACKAGE
CASE 1213(SOT-89)
(Top View)
Ground
Output
Lx
Tab(Tab is connected
to Pin 2)
MC33463H-XXLT1
1
2
3
H SUFFIXPLASTIC PACKAGE
CASE 1213(SOT-89)
(Top View)
Tab(Tab is connected
to Pin 2)
Ground
Output
EXT
MC33463 165
MC33463H-33KT1
2
+
-
Vin
3
Drive
VFMController
100kHzOscillator Vref
1Gnd
OutputLx
VLx Limitier
100μ
1k
MMBT2907ALT1
100
MBRD0520LT1
47μH
100
VO
3.3V
3.3V
BZX84C3V3LT1
MMBT2222ALT1
1.5k
Startup Circuit
Rodzaje uk³adów MC33463H-xxxx
Uk³ad Napiêcie wyjœciowe Typ Obudowa
MC33463H-30KT1 3.0V
MC33463H-33KT1 3.3V
MC33463H-50KT1 5.0V
Wewnêtrznyprze³¹cznik
SOT-89
(tape)
MC33463H-30LT1 3.0V
MC33463H-33LT1 3.3V
MC33463H-50LT1 5.0V
Zewnêtrznyprze³¹cznik
SOT-89
(tape)
Schemat aplikacyjny uk³adu MC33463H-33KT1 w uk³adzie typu step-
down
166 MIC2570
MIC2570 - regulator napiêcia
MIC2570-1
-
+Driver
Oscillator
0.22VReference
VBATT
IN SYNC
VOUT
SW
GND5V 3.3V 2.85V
MIC2570-2
-
+Driver
Oscillator
0.22VReference
VBATT
IN SYNC
VOUT
SW
GNDFB
MIC2570-1
SYNCGND
INSW
2.85V
3.3V5V
1
2
3
4 5
6
7
8
NC
Selectable Voltage20kHz Frequency
MIC2570-2
SYNCGND
INSW 1
2
3
4 5
6
7
8
NC
NC NC
FB
Adjustable Voltage20kHz Frequency
Schematy blokowe
MIC2570 167
MIC2570
8
1
5
INSW
3.3V
27
SYNC GND
C110010V
2.5V to 4.2V21Li Cell
+
50μH
L1
D1
MBRA140
3.3V/80mA
C33306.3V
C210010V
VOUT
L1
1 2
3
4
U1
MIC2570-1
8
1
6
4
5
INSW
2.85V
3.3V
5V
27
SYNC GND
C110010V
2.0V-3.1V2 AA Cells
+
47L1 D1
MBRA140
5V/100mA
C222010V
Schemat regulatora 5V
Schemat regulatora 3.3V/80mA
MIC2570
47μH
8
1
6
INSW
FB
27
SYNC GND
C133016V
2.0V to 3.1V2 Cells
+
L1D1
1N5819 50V/10mA
C368
35V
+VOUT
D2
1N5819
D2
1N5819
C48263V
R22.2M1%
R110k1%
C268/35V
VOUT = 0.22V × (1+R2/R1)
U1
Podwajacz napiêcia
168 MIC2570
Schemat regulatora ±5V
MIC2570
8
1
4
INSW
5V
27
SYNC GND
C110016V
2.0V to 3.1V2 Cells
+
L1
D1
MBRA140
5V/50mA
C222010V
C322010V
+VOUT47μH
D2MBRA140
C422010V
-4.5V/ to -5V/50mA
-VOUT
D3MBRA140
-IOUT < +IOUT
U1
MBRA140
MIC2570
47μH
8
1
6
INSW
3.3V
27
SYNC GND
C110010V
L1D3
1N4148
C3
0.1
C122
35V
D1MBRA140
C222
35V-24V/20mA
-VOUT
D2
R2549k
R14.99k
1%
1%
R3220k
2.0V to 3.1V2 Cells
-VOUT=-0.22V × (1+R2/R1)+0.6V
U1
Schemat regulatora -24V/20mA
MIC2571 169
MIC2571 - regulator napiêcia
-
+Driver
Oscillator
0.22VReference
VBATT
IN SYNC
VOUT
SW
GND5V 3.3V 2.85V
MIC2571-1
Schemat blokowy z wyborem napiêcia wyjœciowego przez podanie
napiêcia sprzê¿enia zwrotnego na wybrane wejœcie
-
+Driver
Oscillator
0.22VReference
VBATT
IN SYNC
VOUT
SW
GNDFB
MIC2571-2
Schemat blokowy z regulowanym napiêciem wyjœciowym przez poda-
nie odpowiedniej wartoœci napiêcia sprzê¿enia zwrotnego
SYNCGND
INSW
2.85V
3.3V5V
1
2
3
4 5
6
7
8
NC
Selectable Voltage20kHz Frequency
MIC2571-1
SYNCGND
INSW 1
2
3
4 5
6
7
8
NC
NC NC
FB
Adjustable Voltage20kHz Frequency
MIC2571-2
170 MIC2571
MIC2571
8
1
6
INSW
FB
27
SYNC GND
C110010V
L1D1
MBRA140
C233
25V
47µH
R21M
R118.7k
1%
1%
2V to 3.1V2 Cells
VOUT =0.22V × (1+R2/R1)
12V/40mA
VOUT
+
Schemat aplikacyjny dla napiêcia wyjœciowego 12V/40mA
8
1
6
INSW
FB
27
SYNC GND
C14716V
L1D3
1N4148
C2
0.1
C11525V
D1MBR0530
C21525V
-12V/2mA
-VOUT
D2
R21.1M
R120k
1.1%
1%
R3220k
1V to 1.5V1 Cell
-VOUT=-0.22V × (1+R2/R1)+0.6V
MBR0530
MIC2571
150µH
Schemat aplikacyjny dla napiêcia wyjœciowego -12V/2mA
MIC2571 171
150µH
8
1
4
INSW
5V
27
SYNC GND
C1*4716V
L1D1
MBR0530
C24716V
1V to 1.5V1 Cell
5V/5mA
VOUT
+
* Needed if battery is more than 4" away from MIC2571
MIC2571
Schemat aplikacyjny dla napiêcia wyjœciowego 5V/5mA
8
1
5
INSW
3.3V
27
SYNC GND
C1*4716V
L1D1
MBR0530
C24716V
150µH
1V to 1.5V1 Cell
3.3V/8mA
VOUT
+
* Needed if battery is more than 4" away from MIC2571
MIC2571
Schemat aplikacyjny dla napiêcia wyjœciowego 3.3V/8mA
Podstawowe parametry
- napiêcie zasilania 0.9÷15V
- napiêcia wyjœciowe 2.85V, 3.3V, 5V dla MIC2571-1
regulowane do 36V dla MIC2571-2
- czêstotliwoœæ pracy 20kHz
172 MIC3832, MIC3833
MIC3832, MIC3833 - sterowniki zasilaczy impulsowych
MIC3832/3833
-
+
PWM
Q
Q
S
R
UVLOLATCH
TO
GG
LE
+2
S
R
LATCHPWM
OSC
1-SHOT
PWM
-
+
MDC
-
+
-
+
+-+-
+-
1.25V
1.0V
1.5V
REF
-
+
EA
VDD
5V REFSYNC
RT
CT
FRONTEDGEBLANKING
EA+
EA-
EA OUT
CMR
MDC/SS
SHDN
GND
VDD
VDD
VDD
UVLO21V
Schemat blokowy
Podstawowe parametry
- napiêcie zasilania VDD 16÷21V dla MIC3832
VDD 7.6÷21V dla MIC3833
- pobór pr¹du ID 17mA
- zakres pracy oscylatora 10÷500kHz
MIC3832, MIC3833 173
MIC2951
1
2
3
4
5
6
7
8 9
10
11
12
13
14
15
16GND
PWM
QVDD
5V REFEA-
EA+
EA OUT NC
SHDN
MDC/SS
CMR
QCT
RT
SYNC
1
2
3
4 5
6
7
8V OUT
SENSE
SHDN
GDN
VIN
FB
5V TAPERROR
MBR2535CT1/2
1/2 MBR2535CT
T22:1
39k
39k 22016V
22016V
0.01CER
0.1MYLAR
100
+5V20A
1N6291A
1N6291A
IRF540
IRF540
0.25W
L120µH
MUR 1605CT
20V1N968
IRF540
2000
+
14-32V
T1
1:13.3
102k1%
887k1% 3.3100p
12V
0.1
0.1200k
2.2n5.1k
5.1k
0.1
10k
470k
2n
10k
68k 68k1
10
MIC3833
Schemat aplikacyjny
Opis wyprowadzeñ uk³adów MIC3832 i MIC3833
Nr wyprowadzenia Symbol Funkcja
1 GND Masa
2 PWM Wyjœcie PWM
3 Q Wyjœcie nieodwracaj¹ce
4 VDD Zasilanie
5 5V REF Wyjœcie napiêcia odniesienia 5V
6 EA- Wejœcie odwracaj¹ce wzmacniacza b³êdu
7 EA+ Wejœcie nieodwracaj¹ce wzmacniacza b³êdu
8 EA OUT Wyjœcie wzmacniacza b³êdu
9 NC Niepod³¹czone
10 SHDN Wejœcie zabezpieczenia nadpr¹dowego
11 MDC/SSWejœcie uk³adu ³agodnego startu oraz regulacji stopnia wype³nieniaimpulsów wyjœciowych
12 CMR Próbka pr¹du uzwojenia pierwotnego transformatora przetwornicy
13 SYNC Wejœcie impulsów synchronizacji
14 RT Rezystor oscylatora (minimum 4k)
15 CT Kondensator oscylatora
16 Q Wyjœcie odwracaj¹ce
174 MIC38C/HC42/3/4/5, MIC18C42/3/4/5
MIC38C/HC42/3/4/5, MIC18C42/3/4/5 - sterowniki zasilaczy impulsowych
8
6
11
-
+
5VReference
Oscillator
UVLO
35V
+-
2.5V2R
R
-
+
T Q
QSR
8
4
2
1 35
FB(3)
RT/CT(7)
VREF(14)
7VDD(12) *
*
(VD)
OUT(10)
(PGND)
ISNS(5)(9)
GND*(AGND)(1)
COMP
() pins are on MIC38C/HC4x-1 (14-lead) versions only
MICx8C/HC42, MICx8C/HC43 (96% max. duty cycle) versions onlyMICx8C/HC44, MICx8C/HC45 (50% max. duty cycle) versions only
* MICx8C/HC4x (8-lead) versions only
Schemat blokowy
1
2
3
4 5
6
7
8COMP
FB
ISNS
RT/CT
VREF
OUT
VDD
GND
MICx8C4xMICx8HC4x
8-Pin DIP (N,J)8-Lead SOIC (M)
1
2
3
4
5
6
7 8
FB
9
10
11
12
13
14
NC NC
COMP
RT/CT
NC
ISNS
NC
VREF
VDD
VD
OUT
AGND
PGND
MICx8C4x-1MIC38HC4x-1
14-Pin DIP (-1xN))14-Lead SOIC (-1xM)
Próg UVLO dla poszczególnych grup uk³adów
Wspó³czynnik wype³nienia Napiêcie startu 8.4V Napiêcie startu 14.5V
0% do 96% MIC18C43, MIC38C43/HC43 MIC18C42, MIC38C42/HC42
0% do 50% MIC18C45, MIC38C45/HC45 MIC18C44, MIC38C44/HC44
MIC38C/HC42/3/4/5, MIC18C42/3/4/5 175
CO
MP
FB
ISN
S
RT
/CT
VR
EF
OU
T
VD
D
GN
D
1 2 3 45678
MIC
38
C4
2
C8
0.1
R5
16k
C7
200p
0.1
R4
18
100k
6k8
0.2
2
D3
MB
R030
D2
M17Z
105
1/4
W
MK
S2
C5
4.7
0.1
*
R2
68k
VIN
26V
to40
VC
T1
0.1
4.7
Q1
IRF
820
D4
1N
765B
R1
10
1/2
W3.3
31D
Q10
D1
L1
48µ
C3
C4
0.1
VO
UT
12V
,2A
1k62
1%
6k19
1%
D5
1N
4001
*Locate
near
MIC
38C
42supp
lypi
ns
C2
1000p
T1
Sc
he
ma
t a
plik
ac
yjn
y
176 MIC4574
MIC4574 - regulator napiêcia
MIC4574-x.x+
-ErrorAmp.
Driver
+
-
Comp-parator
200kHzOscillator
InternalRegulator
ThermalShutdown
CurrentLimit
1.23VBandgap
ShutdownEnable SHDN
R1
R2
GND
FB
0.5ASwitch
SW
D1
L1
VIN CIN
+7V to +24V
COUT
VOUT
Schematy blokowe
MIC4574[Adj.]
+
-ErrorAmp.
Driver
+
-
Comp-parator
200kHzOscillator
InternalRegulator
ThermalShutdown
CurrentLimit
1.23VBandgap
ShutdownEnable SHDN
R1
R2
GND
FB
0.5ASwitch
SW
D1
L1
VIN CIN
+7V to +24V
COUT
VOUT
VOUT = VREF (R1/R2+1)
R1 = R2(VOUT /VREF-1)
Podstawowe parametry
- napiêcie wejœciowe 4÷24V
- napiêcie wyjœciowe 3.3V lub 5V dla uk³adu z ustalon¹ wartoœci¹ napiêcia wyjœciowego
1.23÷18V dla uk³adu z regulowan¹ wartoœci¹ napiêcia wyjœciowego
- czêstotliwoœæ pracy 200kHz
MIC4574 177
SHDN
PGND SGND
SW
FBVIN
ShutdownEnable
+8V to +24V
CIN
47
1N5819 COUT
220
+5V, 0.5A
MIC4574-5.0100μH
MIC4574
SHDN
GND
SW
FBVIN
ShutdownEnable
+4.75V to +24V
CIN47
1N5819COUT
220
+3V, 0.5A
1.43k
1k
1%
1%
100μH
1
2
3
4 5
6
7
8FB
SGND
SHDN
PGND
NC
NC
SW
VIN
8-Pin DIP (N)
1
2
3
4
5
6
7 8
FB
SGND
SHDN
PGND
NC
SW
9
10
11
12
13
14
NC
NC NC
NC
VIN
NC
NC
NC
14-Lead Wide SOIC (WM)
Schemat aplikacyjny dla ustalonej wartoœci napiêcia wyjœciowego
Schemat aplikacyjny dla regulowanej wartoœci napiêcia wyjœciowego
178 MIC4680
MIC4680 - regulator napiêcia
MIC4680-x.x+
-
Amp.
+ -
Error
+
-
Com-parator
InternalRegulator
200kHzOscylator
ThermalShutdown
CurrentLimit
IN
VIN
SHDN
Reset
SW
FB
1.23VBandgapReference
1ASwitch
Driver VOUT
COUT
Schemat blokowy
MIC4680-3.3BM
SHUTDOWNENABLE
+6V to +34V
C115µ35V
PowerSOP-8
2
1
IN
SHDN
GND
5 6 7 8
4FB
3SW
L1
68µH
3.3V/1A
C2220µF16V
D1GISS26
Schemat aplikacyjny
1
2
4
6
5
3
7
8 GDN
GDN
GDN
GDN
SHDN
IN
SW
FB
SOP-8 (M)
MIC4680 179
MIC4680[Adj.]
+
-
Amp.
+ -
Error
+
-
Com-parator
InternalRegulator
200kHzOscylator
ThermalShutdown
CurrentLimit
IN
VIN
SHDN
Reset
SW
FB
1.23VBandgapReference
1ASwitch
Driver VOUT
COUT
R1
R2
VOUT=VREF( +1)R1R2
R1=R2( -1)VOUT
VREF
VREF=1.23V
Schemat blokowy w uk³adzie regulowanego napiêcia wyjœciowego
MIC4680BM
SHUTDOWNENABLE
R22.94k
+5V to +34V
C115µF35V
2 IN
1 SHDN
PowerSOP-8
GND
5 6 7 8
FB 4
D1GISS26
R13.01k
C2220µF16V
L1
68µH3SW
2.5V/1A
Schemat aplikacyjny z regulowanym napiêciem wyjœciowym
Wartoœci napiêæ wyjœciowych w zale¿noœci od elementów aplikacyjnych
Napiêcie wyjœciowe VOUT R1 R2 CIN D1 L1 COUT
1.8V 3.01k 6.49k
2.5V 3.01k 2.94k
3.3V 3.01k 1.78k
5.0V 3.01k 976R
6.0V 3.01k 787R
15μF/35V
2A 60VSchottkygeneral
semiconductorSS26
68μH 1.5A 220μF 10V
180 MIP0221SY ÷ MIP0227SY
MIP0221SY, MIP0222SY, MIP0223SY, MIP0224SY, MIP0225SY,
MIP0226SY, MIP0227SY - sterowniki zasilaczy impulsowych
Uk³ady MIP0221SY ÷ MIP0227SY produk-
cji firmy Panasonic przeznaczone s¹ do stero-
wania prac¹ przetwornicy impulsowej zasilanej
napiêciem sieciowym od 85VAC do 274VAC w
urz¹dzeniach o poborze mocy poni¿ej 100W, ta-
kich jak magnetowidy, monitory, urz¹dzenia stu-
dyjnej techniki wizyjnej, odbiorniki satelitarne,
zasilacze, ³adowarki akumulatorów, itp. Elementy
MIP… do z³udzenia przypominaj¹ pod wzglê-
dem pe³nionych funkcji opisywane na ³amach
„Serwisu Elektroniki” elementy TOPSwitch. Fir-
ma Panasonic nazwa³a te uk³ady jako Intelligent
Power Devices (w skrócie IPDs). Uk³ady MIP…
zawieraj¹ w swej strukturze wysokonapiêciowy
tranzystor kluczuj¹cy oraz rozbudowany uk³ad
steruj¹cy wykonany w technice CMOS. Uk³ady
MIP… „wciœniête” zosta³y w obudowê TO-220,
wiêc posiadaj¹ jedynie trzy wyprowadzenia: D -
dren tranzystora kluczuj¹cego, S - Ÿród³o tran-
zystora kluczuj¹cego i C - wyprowadzenie ste-
ruj¹ce. Schemat blokowy uk³adów MIP0221SY
÷ MIP0227SY pokazano na rysunku 1. Zasadni-
cz¹ cech¹ ró¿ni¹c¹ opisywane uk³ady jest wiel-
koœæ pr¹du wyjœciowego. Maksymalne parame-
try uk³adów MIP0221SY ÷ MIP0227SY zesta-
wiono w tabeli 1, a w tabeli 2 - wybrane parame-
try charakterystyczne. Przyk³ad zastosowania
uk³adu MIP0224SY w zasilaczu multiplekserów
sygna³ów wizyjnych WJ-FS109 i WJ-FS116 fir-
my Panasonic pokazano na rysunku 3.
PWMcontrol current
Control Shutdown/Auto-restartAuto-restart
Auto-restart current-source
Drain
Source
Minimum ON-timedelay circuit
Leading edgeblanking
Low pass filter
Max DutyClock
Sawtooth
Thermalshutdown
circuit Restartingtrigger circuit
Power supplyfor internal circuit
Timer auto-restart circuit
PowerMOS FET
Shuntregulator
5.7V4.7V
S
R
Q
Q+-
+
-
+-
+-
S
R
Q
Q
RonX ID
1/2 1/2 1/2
RE
Rys.1. Schemat blokowy uk³adów MIP0221SY ÷ MIP0227SY.
MIP0221SY ÷ MIP0227SY 181
Tabela 2. Parametry charakterystyczne
Funkcje Parametr Symbol Jedn. Warunki min. typ. maks.
Czêstotliwoœæ pracy fOSC kHz IC = 2mA 90 100 110
Maksymalne obci¹¿enie cyklu MAXDC % IC = 2mA 64 67 70Sterowanie
Minimalne obci¹¿enie cyklu MINDC % IC = 10mA 3
Wartoœæ pr¹du podlegaj¹capowoduj¹ca zadzia³anie uk³adówochrony
MIP0221SY ILIMIT A 0.23 0.25 0.28
MIP0222SY ILIMIT A 0.45 0.5 0.55
MIP0223SY ILIMIT A 0.9 1 1.1
MIP0224SY ILIMIT A 1.35 1.5 1.65
MIP0225SY ILIMIT A 1.8 2 2.2
MIP0226SY ILIMIT A 2.25 2.5 2.75
MIP0227SY ILIMIT A 2.7 3 3.3
Protekcja
Czas opóŸnienia zadzia³aniaogranicznika pr¹du
td(OCL) μS 0.1
Rezystancja w stanie w³¹czenia
MIP0221SY RDS(on) ohm ID = 0.025A 31.2 36
MIP0222SY RDS(on) ohm ID = 0.1A 15 18
MIP0223SY RDS(on) ohm ID = 0.2A 8.5 10
MIP0224SY RDS(on) ohm ID = 0.3A 5.8 6.7
MIP0225SY RDS(on) ohm ID = 0.3A 4 5
MIP0226SY RDS(on) ohm ID = 0.3A 3.3 4
Wyjœcie
MIP0227SY RDS(on) ohm ID = 0.3A 2.6 3
Tabela 1. Parametry maksymalne
Parametr Symbol Jedn. WartoϾ
Maksymalne napiêcie na drenie VD V 700
Maksymalne napiêcie steruj¹ce VC V 8
Maksymalny pr¹d steruj¹cy IC mA 8
Maksymalny pr¹d wyjœciowy
MIP0221SY ID 0.3 A
MIP0222SY ID 0.585 A
MIP0223SY ID 1.15 A
MIP0224SY ID 1.72 A
MIP0225SY ID 2.4 A
MIP0226SY ID 2.9 A
MIP0227SY ID 3.5 A
Maksymalna temperaturastruktury
Tch 150 °C
1: Control2: Source3: Drain
TO-22010.5±0.5
4.5±0.2
15.4
±0.3 6.
8±0.
1
2.8±
0.2
4.2±
0.3
2.8±
0.2
1.5±
0.2
9.3
13.5
±0.5
9.5±0.2
1.4±0.1 2.5±0.2
1.4±0.1
0.6±0.1
0.8±0.1
� 3.7±0.1
8.0±0.2
5.08±0.5
2.54±0.3
Sol
der
Dip
1 2 3
Rys.2.
182 MIP0221SY ÷ MIP0227SY
AC
IN
CN
1
AC
L
AC
N
F1
2A/2
50V
R1OPEN
C1
0,05
6µF
/100
V
C3
2200
pF
C2
2200
pF
C4
0,03
3µF
100V
C5
2200
pF
C6
220µ
F20
0V
R4
330K
R5
330K
C7
220µ
F20
0V
C8
0,1µ
F
IC1
MIP
0224S
Y R10
180C13
100p
F
R6
22R
747
Q1
YWPC123FY2
R8
47R
94,
7C
910
0µF
10V
C11
2200
pFC
1222
00pF
C22
470µ
F10
V
C24
220µ
F10
V
R28
3,3K
R26
6,8K
Q2
2S
C
24
1K
T4
6
IC2
YW
TA
76431S
R27
3,3K
C23
470µ/10V
R25
390
C25
0,1µ
F
R24
6,8K
R22
3,3K
R21 47
Q1
YWPC123FY2R
23 1KC26 OPEN
C21
2700
µF
10V
R30
100
C30
100p
F
CF
1
YW
0R3A
333F
20
YW
0R3A
333F
20C
F2
D1
YW
DB
155G
T1
G4
D2
C0
00
00
01
D2
YW
P6K
E1
80A
D3
YW
ER
B37
10
D4
YW
SC
2012
D21
B0J
BQ
G00
0001
L21
YW
SL8
1033
0
L22
YW
SL6
7533
0D
22B
0JC
MG
0000
03
VS
1Y
WJ0
7N47
1KP
Sch
emat
zasi
lacz
a m
ult
iple
kse
rów
sygn
a³ó
w w
izyjn
ych
Pan
aso
nic
WJ-F
S109 i
WJ-F
S11
6
Rys.3
.
ML4894 183
ML4894 - regulator napiêcia
Schemat blokowy
Schemat aplikacyjny
Opis wyprowadzeñ uk³adu ML4894
Nr wyprowadzenia Symbol Funkcja
1 VREG Kondensator wewnêtrznego napiêcia odniesienia
2 VFB Napiêcie sprzê¿enia zwrotnego dla regulacji napiêcia wyjœciowego 5V
3 ISENSE Wejœcie próbki pr¹du
4 SHDNJe¿eli na nó¿ce tej jest stan niski, to zostaj¹ wy³¹czone wewnêtrznenapiêcia polaryzuj¹ce i uk³ad pobiera minimaln¹ moc
5 GND Masa
6 N DRV Wyjœcie sterowania tranzystora NMOS
7 P NDRV Wyjœcie sterowania tranzystora PMOS
8 VIN Wejœcie napiêcia baterii
184 ML4896
ML4896 - dwuwyjœciowy sterownik zasilaczy impulsowych
Schemat blokowy
VREG
GND BU
CK
RE
GU
LA
TO
RA
BIASCIRCUITS
SLEEPLOGIC
1
10
9
VIN
SHDN A
VFB A
ISENSE A
N DRV A
P DRV A
BU
CK
RE
GU
LA
TO
RB
11
6
3VFB B
ISENSE B
N DRV B
P DRV B
8
4
7
2
13
14
PWR GND
12SHDN B
5
ML4896
Schemat aplikacyjny
1
2
3
4
5
6
7 8
VIN
VOUT B
1
22C1
22C2
22C3
C4
+
R425M
100
C9 C10 C11100 100
+
-
Q3IRF7406
Q4IRF7403
L239µH
R125M
100
C6 C7 C8100 100
+
-
Q1IRF7406
Q2IRF7403
L120µH
VFB A
ISENSE A
VFB B
ISENSE B
SHDN A
SHDN B
GND PWR GND
N DRV A
P DRV A
N DRV B
P DRV B
VIN
VREG 14
13
12
11
10
9
5V
VOUT A
3.3V
C5
10nR2
154k
R3453k
ML4896
ML4950 185
ML4950 - regulator napiêcia
1
2
3
4 5
6
7
8VIN
GND
VOUT
VL
PWR GNDVIN
100
IOUT
27µH(Sumida CD75)
DETECT
RESET
SENSE
100464k0.1%
0.1%40.2k
ML4950
Schemat blokowy
Schemat aplikacyjny
Opis wyprowadzeñ uk³adu ML4950
Nr wyprowadzenia Symbol Funkcja
1 VIN Napiêcie wejœciowe z baterii
2 GND Masa
3 SENSE Wejœcie programowania dla ustawienia wartoœci napiêcia wyjœciowego
4 DETECTW przypadku spadku napiêcia na tej nó¿ce poni¿ej 200mV nawyprowadzeniu resetu pojawia siê stan niski
5 VOUT Wyjœcie
6 VL Cewka uk³adu boost
7 RESETNa nó¿ce tej wystêpuje stan niski, gdy niemo¿liwe jest osi¹gniêcieustalonego napiêcia wyjœciowego lub gdy na n.4 napiêcie spada poni¿ej200mV
8 PWR GND Masa tranzystora NMOS
2
3
8
6
BOOSTCONTROL
1
4
5
VREF
GND PWRGND
VLVIN
-
+DETECT
7RESET
UVLO
VOUT
SENSE
ML4950
186 SI-8033S/8050S/8090S/8120S/8150S
SI-8033S/8050S/8090S/8120S/8150S - sterowniki zasilaczy impulsowych
OCPReg.
OCS Reset
TSD
Drive
Comp.
Amp.
VREF
2 SWOUT
4 VOS
VIN 1
5 S.S. 3 GND
SI-8000S
Schemat blokowy
1VIN
2SWOUT
4VOS
GNDGND
GND
3
S.S.
5
VIN
+ +D1C2
C1
L1 VO
SI-8000S
C1, C2: 1000µFL1: 150µHD1: RK46 (Sanken)
Schemat aplikacyjny
Zalecane parametry pracy
RatingsParameter Symbol
SI-8033S SI-8050S SI-8090S SI-8120S SI-8150SUnit
DC Input Voltage Range VIN 5.5 to 28 7 to 40 12 to 40 15 to 40 18 to 40 V
Output Voltage VO 3.3 5.0 9.0 12.0 15.0 V
Output Current Range IO 0 to 3.0 A
SI-8050E/8090E/8120E 187
SI-8050E/8090E/8120E - sterowniki zasilaczy impulsowych
OCPReg.
OCS Reset TSD
Drive
Comp.
Amp.
VREF
2 SWOUT
4 VOS
VIN 1
3 GND
SI-8000E
5 NC
Schemat blokowy
1VIN
2SWOUT
4VOS
GNDGND
GND
3
NC
5
VIN
+ +D1
AK06(Sanken)
C1100µF
L1 VO
SI-8000E
C2330µF
5V: 200µH9V, 12V: 300µH
Schemat aplikacyjny
Zalecane warunki pracy
RatingsParameter Symbol
SI-8050E SI-8090E SI-8120EUnit
DC Input Voltage Range VIN 7 to 40 11 to 40 14 to 40 VOutput Voltage Vo 5.0 9.0 12.0 VOutput Current Voltage Io 0 to 0.6 A
188 SI-8201L/8203L/8211L/8213L/8301L
SI-8201L/8203L/8211L/8213L/8301L - przetwornice wraz
z indukcyjnoœci¹
Drive
Vref
Amp.
GND
VO
L1LIN
DI
VIN
Tr1
SI-8201L, SI-8203L, SI-8301L
Schemat blokowy
VIN VO
LINGND+ +
VIN
GND
DC Input
C220µF
1 C470µF
2
GND
VOSI-8200L
Schemat aplikacyjny
SI-8201L/8203L/8211L/8213L/8301L 189
DriveAmp.
Vref
VO
L1VIN
DI
Tr1
Tr2
LIN
GND
SI-8211L, SI-8213L
Schemat blokowy
VIN VO
LINGND+ +
VIN
GND
DC Input
C470µF
1 C470µF
2
GND
VOSI-8300L
NC
Schemat aplikacyjny
Parametry pracy uk³adów SI-82xxL i SI-8301L
RatingsParameter Symbol
SI-8201L SI-8203L SI-8211L SI-8213L SI-8301LUnit
DC Input Voltage Range VIN 10 to 40 16 to 40 15 to 55 22 to 55 8 to 40 V
Output Voltage VO 5 12 5 12 5 V
Output Current Range IO 0 to 0.4 0 to 0.35 0 to 0.3 0 to 0.28 0 to 1.0 A
190 SI-8400L - seria, SI-8500L - seria
SI-8401L, SI-8402L, SI-8403L, SI-8405L, SI-8501L, SI-8502L, SI-8503L,
SI-8504L, SI-8505L - przetwornice wraz z indukcyjnoœci¹
Reg. OCP
OSC Reset
TSD
VREF
Latch&
Drive
Comp.
Amp.
1
VO
4
VIN
MIC1
3 LIN
2 GND
L1
Di1
SI-8400L
VIN VOUT
LINGND+ +
VIN
GND
C220µF
1 C470µF
2
GND
VO
SI-8400L
4 1
2 3
NC
Schemat blokowy
Schemat aplikacyjny
Zalecane parametry pracy uk³adów SI-840xL
RatingsParameter Symbol
SI-8401L SI-8402L SI-8403L SI-8405LUnit
DC Input Voltage Range VIN 7 to 33 15 to 33 5.3 to 33 18 to 33 V
Output Current Range IO 0 to 0.5 0 to 0.4 0 to 0.5 0 to 0.4 A
SI-8400L - seria, SI-8500L - seria 191
Schemat blokowy
Reg. OCP
OSC Reset
TSD
VREF
Latch&
Drive
Comp.
Amp.
1
VO
6
VIN
MIC1
4 LIN
3 GND
L1
Di1
SI-8500L
2 S.S.
VIN VOUT
LINGND
+ +
VIN
GND
C470µF
1 C470µF
2
GND
VO
SI-8500L
6 1
3 4
NC
S.S.
2
C3
Schemat aplikacyjny
Zalecane parametry pracy uk³adów SI-850xL
RatingsParameter Symbol
SI-8501L SI-8502L SI-8503L SI-8504L SI-8505LUnit
DC Input Voltage Range VIN 7 to 33 15 to 33 5.3 to 33 12 to 33 18 to 33 V
Output Current Range IO 0 to 1.0 A
Parametry wyjœciowe uk³adów SI-840xL i SI-850xL
Part NumberSI-
8401LSI-
8402LSI-
8403LSI-
8405LSI-
8501LSI-
8502LSI-
8503LSI-
8504LSI-
8505L
VO(V) 5.0 12.0 3.3 15.0 5.0 12.0 3.3 9.0 15.0
IO(A) 0.5 0.4 0.5 0.4 1.0
192 SI-8811L/8911L/8921L/8922L
SI-8811L/8911L/8921L/8922L - przetwornice wraz z transformatorem
Schemat blokowy i aplikacyjny
OSC Drive
Start OCP Reg.
VrefAmp.
PWM
9
3
8
7
1
4
2 5 6
V(+)
IN
V(-)IN
S.S
Tr1T1
VO1
VO2
GND
SI-8811L
2 9
1
3 8
4 7
5 6
+C1
470µ/35V +
C210µ/16V
C41200µ/16V
+
+ C547µ/10V
+
C3220µ/10V
VO1
VO2
GND
VIN(+)
VIN(-)
SI-8811L
OSC Drive
Start OCP Reg.
VrefAmp.
PWM
2 5 4S.S
Tr1
SI-8911L
9
1
VIN
3T1
8
6
VO1
VO2
7
GND
2 9
1
3 8
4 7
5 6
+C1
220µ/63V +
C2
33µ
/10V
C41200µ/16V
+
+
VO1
GND
VIN
SI-8911L
GND
+
C3220µ/10V
C5100µ/10V
VO2
Schemat blokowy i aplikacyjny
SI-8811L/8911L/8921L/8922L 193
Schemat blokowy i aplikacyjny
OSC Drive
Start OCP
VrefAmp.
PWM
2 S.S
Tr1
SI-8921L/SI-8922L
7
1
VIN
3T1
6
5
VO
GND
2 7
1
3 6
4 5
+C1
180µ/63V +
C2
22
µ/1
0V
C31200µ/10V
+VO
GND
VIN
SI-8921L
GND
SI-8922L
Zalecane parametry pracy uk³adów: SI-8811L, SI-8911L, SI-8921L, SI8922L
Ratings
SI-8811L SI-8911L SI-8921L SI8922LParameter Symbol
min. typ. max. min. typ. max. min. typ. max. min. typ. max.
Unit
DC InputVoltage Range
VIN 12 20 30 24 40 55 24 40 55 20 40 55 V
Output CurrentRange 1
IO1 50 250 450 20 150 300*2 0 300 600 0 300 600 mA
Output CurrentRange 2
IO2 0 -20 -50*1 0 -50 -100 ----------- ----------- mA
*1: Output current 2 depends on the input/output conditions
*2: If Io2 = 50mA or more, the condition Io1 > Io2 is recommended.
Ró¿nice miêdzy uk³adami: SI-8811L, SI-8911L, SI-8921L/8922L
Ch1 Ch2Part Number
Vo(V) Io(A) Vo(V) Io(A)
SI-8811L +5 0.45 -5 0.05
SI-8911L +5 0.3 -5 0.1
SI-8921L/8922L +5 0.6 -----------
194 HIS0169 i SMR40200
HIS0169 i SMR40200 - sterowniki zasilaczy impulsowych
„S³odka para” - taki przydomek otrzyma³y
dwa uk³ady steruj¹ce prac¹ przetwornicy OTVC
Samsung z chassis SCT11. Wbrew tak sympa-
tycznej nazwie wyró¿niaj¹ siê one nisk¹ nieza-
wodnoœci¹ i tym, ¿e s¹ one wyj¹tkowo unikato-
we. Schemat zasilacza OTVC Samsung
CB5320T1SHV2CX z tymi uk³adami pokazano
na rysunku 1.
G³ównym podzespo³em przetwornicy jest
uk³ad SMR40200, zawieraj¹cy wszystkie pod-
stawowe elementy wykonawcze zasilacza impul-
sowego, w tym wysokonapiêciowy tranzystor po-
lowy pe³ni¹cy funkcjê tranzystora kluczuj¹cego.
Ten wewnêtrzny klucz zaczyna pracowaæ przy
przekroczeniu przez napiêcie zasilaj¹ce dopro-
wadzane do wyprowadzenia 5 uk³adu wartoœci
9.5V - jest to podstawowy warunek poprawnej
pracy przetwornicy. SMR40200 zawiera równie¿
uk³ad (szeregowo po³aczony rezystor 1k8 i kon-
densator 0.1μF), którego zadaniem jest formo-
wanie pi³okszta³tnego przebiegu na bazie kom-
paratora (zbudowanego na jednym tranzystorze),
do której doprowadzane jest napiêcie b³êdu. W
celu zmniejszenia rozpraszanej mocy, napiêcie
b³êdu ma równie¿ charakter przebiegu impulso-
wego.
Uk³ad HIS0169 w stosunku do SMR40200
pe³ni rolê steruj¹c¹, s³u¿y on mianowicie do „wy-
startowania” - rozpoczêcia pracy tranzystorowe-
go klucza wbudowanego w SMR40200. Oprócz
tego zawiera on czêœæ uk³adu formuj¹cego im-
pulsy startowe. Wbudowany tranzystor s³u¿y od
ograniczenia pr¹du przep³ywaj¹cego przez tran-
zystor kluczuj¹cy w SMR40200 na poziomie 2A.
HIS0169 zawiera równie¿ prostownik napiêcia
pomiarowego.
Analizuj¹c przyczyny uszkodzenia siê tej
pary uk³adów (lub jednego z nich) warto spoj-
rzeæ na ich wewnêtrzne schematy ideowe, poka-
zane na rysunku 2 i wzi¹æ pod uwagê ich nastê-
puj¹ce s³abe punkty:
1. Tranzystor kluczuj¹cy, aczkolwiek jest tran-
zystorem wysokonapiêciowym, to jednak jego
maksymalna wartoœæ 600V okazuje siê w
praktyce byæ za ma³a. W przypadku przebicia
tego tranzystora stuprocentowo spaleniu ule-
ga rezystor 0.33R, a nierzadko i pozosta³e.
2. W przypadku uszkodzenia (przerwy) uzwoje-
nia uk³adu startowego, otwarcie tranzystora
kluczuj¹cego nastêpuje pod wp³ywem napiê-
cia sta³ego i nastêpuje ci¹g uszkodzeñ wymie-
nionych w punkcie 1.
3. Przy utracie pojemnoœci kondensatora 22μF/
50V zerwana zostaje stabilna praca przetwor-
nicy, w szczególnoœci przesuniêty zostaje
moment w³¹czenia/wy³¹czenia klucza. Praca
przetwornicy zostaje zak³ócona skutkuj¹c nie-
ograniczonym wzrostem napiêæ wyjœciowych.
Przez jakiœ czas g³ówne napiêcie wyjœciowe
jest ograniczane przez diodê Zenera (lub ra-
czej poprawniej by³oby nazwaæ w tym mo-
mencie diodê R2K diod¹ lawinow¹). W koñ-
cu nastêpuje przebicie tej diody i oscylacje
przetwornicy zostaj¹ zerwane. A poniewa¿
tranzystor kluczuj¹cy przewodzi, wszystko co
mo¿e zaczyna siê paliæ.
Przy przekroczeniu napiêcia po wtórnej stro-
nie przetwornicy nale¿y tak¿e skontrolowaæ na-
piêcie na 5. wyprowadzeniu uk³adu SMR40200
za pomoc¹ oscyloskopu. Przy napiêciu sta³ym na
tym wyprowadzeniu wiêkszym ni¿ 10V (bardzo
wa¿ne) z regu³y mamy do czynienia z uszkodze-
niem uk³adów stabilizacji samego SMR-a.
Wœród zaleceñ zmierzaj¹cych do zwiêksze-
nia niezawodnoœci obu uk³adów znajduje siê za-
lecenie aby napiêcie zasilaj¹ce doprowadzane do
wyprowadzenia 1 uk³adu HIS0169 podawaæ po-
przez kondensator 0.33μF/400V.
Najczêœciej powtarzaj¹cym siê objawem
uszkodzenia pary uk³adów HIS i SMR jest pod-
wy¿szenie napiêcia odchylania poziomego w try-
bie standby do 160V ÷ 170V, zamiast 140V. W
trybie normalnej pracy (pod obci¹¿eniem) powin-
no byæ 125V ÷ 127V. Wymieniaj¹c HIS0169 i
SMR40200 warto zamieniæ je na uk³ady z liter-
k¹ C (HIS0169C i SMR40200) - wed³ug czêœci
serwisantów s¹ one bardziej niezawodne (wed³ug
pozosta³ych nie ró¿ni¹ siê zbyt wiele).
HIS0169 i SMR40200 195
Jeœli po wymianie uk³adów napiêcie linii po-
zostaje nadal zbyt wysokie, prawie na pewno
uszkodzony jest d³awik L803, w³¹czony pomiê-
dzy n.3 i 4 HIS0169. Niestety konstrukcja tego
d³awika jest nietypowa, brak danych nie pozwa-
la wykonaæ go samodzielnie, nale¿y wiêc „zdo-
byæ” element oryginalny.
D³awik ten „jest bohaterem” wielu napraw,
szczególnie tych, gdy po wymianie obu uk³adów
HIS i SMR uleg³y one prawie natychmiastowe-
mu uszkodzeniu, a przyczyn¹ by³ ów nieszczê-
sny d³awik L803 (a przynajmniej po jego wy-
mianie uk³ady nie uszkodzi³y siê).
Opisy napraw przetwornic chassis SCT11
przynosz¹ ró¿ne sposoby na zwiêkszenie nieza-
wodnoœci uk³adów HIS i SMR, a równie¿ zwi¹-
zanych z d³awikiem L803. Otó¿ podpatrzono w
odbiorniku, który wczeœniej by³ naprawiany w
innym warsztacie, ¿e pomiêdzy wyprowadze-
niem 3 HIS0169 a d³awikiem L803 zosta³a prze-
ciêta œcie¿ka i w szereg z d³awikiem L803 zosta³
zamontowany rezystor 130R/0.25W. Gdy do na-
prawy trafi³ odbiornik z chassis SCT11 i uszko-
dzonym zasilaczem zbudowanym na bazie HIS-
a i SMR-a, postanowiono sprawdziæ „podgl¹d-
niêt¹ przeróbkê”. W odbiorniku tym spaleniu
uleg³y: dioda R2K i tranzystor linii (o dziwo SMR
i HIS nie uleg³y uszkodzeniu), które wymienio-
no na nowe egzemplarze. Po w³¹czeniu odbior-
nika w tryb standby pomiar napiêcia linii poka-
zuje wartoœæ 150V ÷ 160V. Natychmiast wy³¹-
czono odbiornik i wprowadzono wy¿ej opisan¹
przeróbkê. Kolejny pomiar napiêcia w trybie
standby daje wartoœæ oko³o 135 ÷ 140V, a w try-
bie pracy 130V, co jest zgodne z wartoœciami
nominalnymi. Próba wygrzewania potwierdzi³a
prawid³owoœæ wykonanej naprawy.
Wœród zmyœlnych elektroników zdarzaj¹ siê
równie¿ próby „napraw” tych uk³adów hybrydo-
wych. Oto przypadek opisany przez jednego z nich.
Wed³ug wszelkich oznak uszkodzeniu uleg³ uk³ad
SMR40200, w zwi¹zku z czym zosta³ wymienio-
ny na nowy. Sprawdzeniu poddano diodê R2K -
okazuje siê, ¿e jest sprawna. Od³¹czona zosta³a li-
nia napiêcia 125V doprowadzana do trafopowie-
lacza. W miejsce bezpiecznika sieciowego pod³¹-
czono ¿arówkê, która po pod³¹czeniu napiêcia sie-
ciowego jaskrawo zaœwieci³a siê. Autor opisywa-
nej naprawy wyci¹gn¹³ na tej podstawie wniosek,
¿e gdyby w³¹czy³ bez ¿arówki, to uszkodzeniu
uleg³by SMR40200 i ¿e w zwi¹zku z tym uszko-
dzony jest uk³ad HIS0169. Nie maj¹c „pod rêk¹”
nowego HIS-a wzi¹³ tward¹ ig³ê i roz³upa³ masê
¿ywiczn¹ tego uk³adu w celu wymiany znajduj¹-
cego siê tam tranzystora - bo co mia³o w nim
„paœæ”, jak nie tranzystor. W jego miejsce wstawi³
tranzystor KT3117A (60V, 0.4A, 0.5W). Telewi-
zor po tej naprawie rozpocz¹³ poprawna pracê.
Absolutnie nie polecamy takiego sposobu na-
prawy, a nawet przestrzegamy przed nieostro¿ny-
mi eksperymentami w tych rejonach odbiornika.
196 HIS0169 i SMR40200
RX
801
3,3M
C81
447
0n25
0V
D80
056
0V
F80
1A
C25
0V3,
15A
SW
801
JPW
2104
B5A
/250
V
to tune
rG
ND
PD
801
KK
J-10
04A
AC
230V
GT
031P G
T02
1P
L801
39m
HG
T05
1P GT
041P
P80
1P
TC
2C14
R(D
)
CN
802
3 2 14
RB
Y-6
06B
RID
GE
DIO
DE
D80
160
0VD
2506
0-41
04
NT
801
NT
CK
L-11
L4R
7
34
56
78
PO
WE
RC
ON
TR
OL
HC
801
HIS
-0169
IC801
SM
R40200
12
34
5
C85
21n
816
V
R85
210
7 6
9 11
1
4 1
12 13
T801
EE
R36/4
1
A1206-0
090
A2
-12
5V
A3
-13
,5V
A1
-33
VR
807
R80
6
10k/
2W7k
5/2W
R40
6R
416
47/2
W47
/2W
L402
L809
100µ
H
100µ
H
C80
556
0pF
/2kV
R80
84k
3
L806
1mH
(AL0
3)
R81
1 22
R80
310 2W
R80
210 2W
C80
32n
2/80
0V
R81
4 43
R80
10,
33R
5W C81
156
0pF
2kV
C81
156
0pF
2kV
L803
500µ
H
C80
122
0µF
400V
C80
810
00µ
F25
V
C81
910
00µ
F25
V
C80
610
0µF
200V
C85
310
0µF
200V
C85
122
µF
50V
L805
BL0
2RN
2-R
62T
4
L802BL02RN2-R62T4
L807
BL0
2RN
2--R
62T
4
HO
T
C80
756
0pF
2kV
D80
3F
ML-
G02
S20
0V
D80
2R
U20
A
DZ
801
R2K
Sch
emat
zasi
lacz
a O
TV
C S
am
sun
g C
B5320T
1S
HV
2C
X
Rys.1
.
HIS0169 i SMR40200 197
41
3
6 7 8
5
1
3
2 4 5
n2
2
2n
2
10
k
390
33
0
10 10
0,1
µ
1k8
2k2
2k2
5k6
6V
243
4k3
0,3
3R
1n
810
7V5
10
0
2k2
100
16
01
02
20
k
22
0k
22
k
47k
HIS
01
69
SM
R4
02
00
22
µ5
0V
Rys.2
.
Sch
ematy
blo
kow
e u
k³a
dów
HIS
0169 i
SM
R40200
198 SPH4692
SPH4692 - sterownik zasilaczy impulsowych
2 15
3 17 4 18
1
VREF
Stopieñ wyj.i
ogr. pr¹du
uk³ady
logiki
steruj¹cejStop
komparator
Generatorimpulsu
steruj¹cego
Uk³ad
pr¹dusymulacji
drenu
Wzmacniacz
regulacyjnyV
R
VST
V2B
VVKorekcja
punktuprzeci¹¿enia
Uk³ad zab.przed niskim
nap. sieci
V V V V6min 6A 6E 6max
Napiêciereferencyjne
typ. 3V
Uk³ad zasil.i
monitorowania
Detektorprzejœcia
przez zero
16
�ród³opr¹dowe
14
13
11
6
G D
S
SPH4692
Opis wyprowadzeñ uk³adu SPH4692
Nr wyprowadzenia Funkcja
1 Wejœcie napiêcia regulacyjnego
2 Wejœcie uk³adu symulacji pr¹du pierwotnego (klucza)
3 Wejœcie uk³adu monitoruj¹cego napiêcie pierwotne
4 Masa
5 NC
6, 11 Dren (MOSFET)
7, 8, 9, 10 NC
12 NC
13 �ród³o (MOSFET)
14 Bramka (MOSFET)
15 Wyjœcie impulsów steruj¹cych kluczem
16 Wejœcie napiêcia zasilania
17 Wejœcie uk³adu miêkkiego startu
18 Wejœcie kontrolne sprzê¿enia zwrotnego (detektor zera)
Schemat blokowy
SPH4692 199
F1.25
GR1
R3
4.7180...264V�
4x1N4007
R175k
C1*)
47µ/385V
R4300k
C53n9
R11820k
R104k7
R222k4W
C433n630V D2
BYT52M
T1
C3220p
D4
D5
D6
C15 220p
BYW72 C12100µ
+8.5V
Masse
C91000µ
n4
n3
BYW32
BYW32
+21V
C16 220p
R13
2k2
D733V
+33V
C1147µn5
C13100µC10
470µ
C14 220pn2
C2
47µ
�1V
7.5...15.5V
13
6-11
18
3216
17
15 141
4
Commande
C8
220n
Osc.
Compar R7
2k
D3
1N4148C61µ
C74n7
D1
R9
10kR6
4k7R5
220
BUZ
SPH4692
Courantprimaire
Tensionprimaire
R174.7
R8100
n1
Schemat aplikacyjny
Uk³ad SPH4692 jest sterownikiem zasilaczy
SMPS w wersji hybrydowej. W sk³ad takiej hy-
brydy wchodzi chip uk³adu TDA4605-3 oraz
tranzystor-klucz MOSFET z kana³em typu N. Pa-
rametry wewnêtrznego tranzystora w uk³adzie
SPH4692 odpowiadaj¹ parametrom BUZ92. Z
uwagi na problemy z odprowadzaniem ciep³a
(uk³ad wystêpuje w obudowie P-DIP-18-1),
uk³ad SPH4692 przeznaczony jest do stosowa-
nia w zasilaczach ma³ej mocy oraz w w¹skim
zakresie zmian napiêæ wejœciowych 180 ÷ 264V.
200 SPI-8000A - seria
SPI-8010A, SPI-8050A - sterowniki zasilaczy impulsowych
-
-
+
+Amp
1V
PWMLOGIC
UVLO
CE/SSCE/SS
TSD
P.REG
RegOSC
Comp
GND
VREF
VIN
DRIVE
Boot REG
OCP
SPI-8010A
BS
SWOUT
Schemat blokowy
15
7
12
31145
4
11 VIN
CE/SS
Reg Comp AGND DGNDVREF
SWOUT
B.S
SPI-8010A
R147
C30.1µ
L1
47µH
D1SPB-G56S
R2
R3 IREF
C96800p
C2470µ25V
C80.1µ
Vo
GNDC60.047µ
C50.1µ
C41000p
C70.1µ
C1220µ63V
GND
VIN
Schemat aplikacyjny
Zalecane warunki pracy
RatingsParameter Symbol
SPI-8010A SPI-8050A
DC Input Voltage Range VIN (8 or Vo+3) to 50 8 to 50
Output Voltage Range Vo 1 to 24 -
Output Current Range Io 0.02 to 3.0
SPI-8000A - seria 201
-
-
+
+Amp
1V
PWMLOGIC
UVLO
CE/SSCE/SS
TSD
P.REG
RegOSC
Comp
GND
VS
VIN
DRIVE
Boot REG
OCP
SPI-8050A
BS
SWOUT
Opis wyprowadzeñ:
1. AGND
2. N.C
3. DGND
4. CE/SS
5. Reg
6. N.C
7. SWOUT
8. N.C
9. N.C
10. N.C
11. VI N
12. B.S
13. N.C
14. Comp
15. VREF(SPI-8010A)
VOS(SPI-8050A)
16. N.C
Schemat blokowy
15
7
12
31145
4
11 VIN
CE/SS
Reg Comp AGND DGNDVOS
SWOUT
B.S
SPI-8050A
R147
C30.1µ
L1
47µH
D1SPB-G56S
C2470µ25V
C80.1µ
Vo
GNDC60.047µ
C50.1µ
C41000p
C70.1µ
C1220µ63V
GND
VIN
Schemat aplikacyjny
202 STK50322
STK50322 - regulator napiêcia
C9040.0022
!
ST
5
D906AU01
R9111k
Q9012SC4016P.O.R
0.6V-1.2V
0.1V
R9060.47 2W
D903ERA18-04
C906100/400
D901S1WB(A)60 !
C9020.068
!
R9022.2 2W
C9200.0022
!
C9210.0022
!
C9050.0022
!
POINT A
J903
J904
J901
J902
J905
J906
C9030.0022
!
FL901ELF18D
270H
!
C9010.047
!
F901T2.5A/250V !
1
2
!!
AC110-240V50/60Hz
POWER SUPPLY
0V
Zasilacz magnetowidu HR-P7A firmy JVC
STK50322 203
1 2 3 4 5 6 7 8 9 10
8.9V 5.2V 9.1V 10.3V 12.4V 12.3V 13.4V 15.3V
5.2VREG
9.1VREG
12.3VREG
IC902 STK-50322
R9162.2k
C91947/16 C918
47/25R915750
C9121000/25
R9120.22 !
D907RU3YX
C913470/25
C914680/16
R9130.22
R9140.33
!
!
D908RU2YX
D909RU3YX
GND
M16V
IDL9V
IDL5V
M12V
C91747/25
C91
547
/6.3 C916
47/10
T9016F13460A1
!
C9070.047
/630V(K)
D902EP01C
R90547k5W
C908220p
R903240k1/2W
R904240k1/2W
2
IC901STR-D1906 0.1V
3
255V
4
1
5
0V
-6.2V
R9091.5
D904ERA18-02
C90947/16D906
AU01Z
R9101k R908
56 2W
C91147/35
D905AU01Z
1P.O.R
0.6V
0.1V
R90727 2W
C9100.01
PLY PCB
P901
204 STK5352
STK5352 - regulator napiêcia
7
6
8
5 4
1
2
TR1
R6
R5
R4
R3
C1
TR2
I 2O I 1O
R2
R1
IC-1
Schemat blokowy
+C4
+C3
+ +
C1 C2
7
4
6 1 8
2
5
STK5352
+VB820
V02
V01
GND
Schemat aplikacyjny
Podstawowe parametry:
- napiêcie wyjœcia 1 VO1 6V
- pr¹d wyjœcia 1 IO1 0.5A
- napiêcie wyjœcia 2 VO2 12V
- pr¹d wyjœcia 2 IO2 1A
STK5362 205
STK5362 - regulator napiêcia
Schemat blokowy
Schemat aplikacyjny
Podstawowe parametry:
- napiêcie wyjœcia 1 VO1 5.1V
- pr¹d wyjœcia 1 IO1 1A
- napiêcie wyjœcia 2 VO2 9V
- pr¹d wyjœcia 2 IO2 0.5A
7
6
2
Q2
R5R3
R4
C1
Q3
R1
IC-1
R2
18
Q135 4
+C5
+C4
+ +
C1 C2
7
4
6 1 8
2
5
STK5362
910
V02
V01
GND
3
+VB+
C3
1k
206 STK5383, STK791
STK5383, STK791 - regulatory napiêcia
10 9 8 7 6 5
S WERROR
AMP
V-REF
BU5.6VREG
IC802 STKE5V ON/OFF 5V
8 7 6 5 4 3
V-REF EVER6.6VREG
IC801 STK79E6.6V
R8021/2W 0.8224321828
!
L80120μH
+C81325V/1000μD805
ER004-02FL
ER004-02FLD807 D810
EK04
D809EK04
D808RK34
23118096!
23118096
D806RK34
!
C8030.022μ
F802250V/T1.6A23144970
!
+ C80725V/4700μ24795472
!
D805, D80723118485!
D802
C8020.022μ
Z810SSFR 1.6A23144776!
P
D804
D801
D803
23118485D801 - D804
ERC04-02FL ×4
!
+ C80625V/4700μ24795472
!
R80347k 1/6P
C817400V/220p24094653
!
C818400V/220p24094653
!
C816250V/0.1μ70416068
!
4
3
2
1
T801TRF3004H23211983
!
23217134TPW1531AZ
T802
!
24094916!C801
! 23144127
400V/0.0047μ
F801 250V/T1A
P803
BLUBRN
1
2
3
4
5
6
BASE
ON/OFF 9V
COLLECTOR
E12V
E16V
GND
W810 (WHT)
1
2
3
4
5
6
V: 5V/divH: 5μs/divU802 POWER TR
R821
1/6P 300
Q8112SC3852
ON/OFF 9V
OUT
GND
IN
Q810AN7812F
E 12V
+
+C82050V/0.33μ C821
35V/22μ
+
C80825V/330μ
L802F.B
L20
C16
STAND-BY
EE
PLAY
REC
16.80 0 0 21.10 0 11.80 6.79 6.79 0 0 -
-
-
-
NC 0 21.10
C B
Q811
E IN GND
Q810
OUT 1 2 3 4 5 6 7 8
14.40 9.52 8.85 20.30 0 11.80 6.74 6.74 0 0 NC 0 20.00
14.80 9.50 8.85 20.30 0 11.80 6.74 6.74 0 0 NC 0 19.50
13.00 9.59 8.85 19.30 0 11.80 6.74 6.74 0 0 NC 0 18.85
IC801
(V)
STAN
EE (C
PLAY
REC
P801AC220V 50Hz
23176620
Zasilacz magnetowidu V711G firmy Toshiba
STK5383, STK791 207
5 4 3 2 1
5.6VEG
EVER5VREG
ON/OFF5V SW
STK5383FF 5V BU5.6V
3 2 1
6V ERRORAMP
K791
1
2
3
4
5
6
7
8
9
MOTOR +B
MOTOR GND
F2 (AC4.8V)
F1 (AC4.8V)
AC CLOCK
BACK UP 5.6V
DC/DC GND
EVER6.6V
HEATER ON
WHT
ORG
ORG
ORG
ORG
ORG
ORG
ORG
ORG
1
2
3
4
5
6
ON/OFF 9V
GND
N.C.
ON/OFF5V
EVER5V
PO ON/OFF SIG
WHT
ORG
ORG
ORG
ORG
ORG
1
2
3
4
5
6
7
E13V
E12V
AV GND
ON/OFF 9V
ON/OFF 5V
ON/OFF 9V
GND
WHT
ORG
ORG
ORG
ORG
ORG
ORG
P805 (WHT)
P806 (WHT)
P807 (WHT)
TO W201AU002 VIDEO
TO W201BU002 VIDEO
TO W602U601 LOGIC/SERVO
TO W602U601 LOGIC/SERVO
1
2
DEW HEATER
DEW HEATER
YEL
YEL
P804 (WHT)
TODEW HEATER
+ C80916V/1000μ
L803200μH
C8121000p
ERC04-02FD820
+
C81016V/22μ
Q8032SD1198A-Q2SD1198A-R
or
DEW SWITCH
+C81516V/22μ
R80410k 1/6P
STAND-BY
EE (CASSETTE IN)
PLAY
REC
0 1.38 0 0 6.13 5.21 0 5.84 0 0 16.80 3.56
C B
Q803
E 1 2 3 4 5 6 7 8 9 10
20.00 0 0 0 6.06 5.21 5.18 5.88 8.83 9.45 14.40 0
19.84 0 0 0 6.06 5.21 5.17 5.88 8.83 9.45 14.80 0
19.14 0 0 0 6.04 5.21 5.17 5.88 8.831 9.40 13.00 0
IC802
(V)
5.48
5.52
5.53
5.52
+ C81116V/22μ
208 STK5434
STK5434 - regulator napiêcia
UNA 20
HT SW
2
2
2
3
3
4
1
1
1
TO
DR
UM
HE
AT
ER
p104
!R11W 0.22
22.7 R31k
22.4V
0.1VR268k
TR12SA1115(D,E,F)
C2710/16(M)
C14220/80
(M)
1 12 23 34 45 6 7 8
AL
9
IDL
5
IDL5
PD
OW
N
PD
OW
N
BU
S
BU
S
DG
ND
DG
ND
UN
R50
AG
ND
IDL
12
TO DEMODU. PCBP109
p105
C320.01(Z)
C1
80.0
1(Z
)
3 6 721
R1
41k5
R1
52
k4
Q7
R13 1k
Q3
C3R121k
R11
2k
R20100k
0V
0.1V
0.6V
TR102SC2603( D,E,F )
R231/4W 10k
R22100k
11.5V
12.1V
12.1V
! TR92SA1286( G,H,J )
TO
RF
CO
NV
.P
102
A GND
AL 12
IDL 12
P103
C1
7100/2
5(M
)
C1
60.0
1(Z
)
C3
3100/6
.3
C1
910/2
5(M
)
4
16.4
V
UN
RE
G21
5
22.5
V
R668k
0.1V13.3V
TR22SA1115 ( D,E,F )
R5 1k
IDL
55.1
V
0V
R16100
IC-1
13.2
VU
NR
EG
12
R175k
ICSTK5
!
D2
D2
!
!
C11
0.0
1(Z
)C
12
0.0
1(Z
)
C9
0.0
1(Z
)C
10
0.0
1(Z
)
D2484B41
! F2 T2A
AC 12V
TO
PO
WE
RT
RA
NS p101
AC 12V
AC 12V
AC 16V
AC 16V
0V4.9VTR4
C3
10000
/25(M
)
D13DS135E
!
!
!
D4DS135E
C30
D1DBA30
C8
0.0
1(Z
)
C7
0.0
1(Z
)
C5
0.0
1(Z
)
C6
0.0
1(Z
)
! F1 T2A
AC16V
TH 13.3M
C28100/25(M)
C4
0.0
1(Z
)
C30
10/2
5(M
)
C13100/50(M)
! D3DS135E
! R41W 0.2213.5V
D6
HZ
7A
-2
R7680
R81k5
R9680
R2110k
C1
6800/3
5(M
)
C2
0.0
1(Z
)
R10100k
TR3,42SC2603( D,E,F )
TR3
0.7V
D1
5H
Z5A
-2
R11680
D7GMA - 01
TO OPERATION PCBP129
p174
C2
0220/2
5(M
)
C2
10
01(Z
)
IDL
12
12.1
V
STK5434 209
2
2
3
3
4
4
5
5
6
7
1
1
R1
2100k
R1
3100k
TR6
0.4V
0.7V
TR62SC2236(O.Y)
22.8V
TR7
TR72SC2603(D,E,F)
GM
A-0
1
M GND
M GND
A GND
UNR 20
D GND
IDL 5
B DOWN
P DOWN
AL 16
AL 16
AL 9
TO
ME
CH
AD
RIV
EP
CB
P136
p108
1
2
TO SERVO
(SERVO)
1
2
A GND
AL 9
p106
TO
VID
EO
PC
BP
122
AL
TO
SE
RV
OP
CB
P147
p107
TR8
4.1V
0.1V
0V
TR82SC2603(D,E,F)
7 8 9 11 12 13 14 15
R32k
R44k7
C1
5.1V
11.4V
TR112SC2236
( O,Y )!
5.7V
D20DS448
D21GMA-01
R301k54.0V
0.3V
TR
52S
C2603
(D
,E,F
)
R26200k
R16100k
R1410k
Q4Q5
R5
2k
Q3 22k
22k
3.5
V
0.6
V
D8
MC
911
R22k
R13k
9.4V
C2
42.2
/50(M
)
C2
547
/25(M
)
R1933k
R1833k
ZD1
R7
2k2
R6
1k4
AL
16
13.2
V
16.1
V
9.1V
10.3
V
R103k9
R91k2
10
LA
9
C2
30.0
1(Z
)
Q6
R8
600
C2Q2
UN
RE
G12
R281k
IC 1STK5434
!
R2410k C26
470/6.3(M)
R15100k
C310.01(Z)
()
C2
10.0
1(Z
)
C2
2330/1
6(M
)
R272k
C2
9100/1
6(M
)D
14
GM
A-
01
Q1 D9
MC
911
210 STK5461ST
STK5461ST - regulator napiêcia
Opis wyprowadzeñ uk³adu STK5461ST
Nr nó¿ki Funkcja
1 Wyjœcie napiêcia +5.1V (Vo3)
2 Niepod³¹czone
3 Niepod³¹czone
4 Niepod³¹czone
5 Niepod³¹czone
6 Napiêcie wejœciowe 2
7 Napiêcie wejœciowe 1
8 Po³¹czona z n.7
9 Wyjœcie napiêcia +12V (Vo1)
10 Wyjœcie napiêcia +12V (Vo2)
11 Regulacja napiêcia na n.10
12 Masa
13 Wy³¹czanie napiêcia Vo1
14 Wy³¹czanie napiêcia Vo2
15 Regulacja napiêcia na n.9
12345678
12345678
PW
RC
TL
DC
15V
GN
D
SW
12V
SW
12V
DC
18V
DC
9V
AL
L5
V367891112131415 2 14510
(4.2)(4.2) (21.6)
20.0V
(21.6)20.0V
12V 12V
12.0V 12.0V
C91210µ/16
(9.5)8.9V
(PB903)
(1.6)14.2V
(1.5)14.2V
5V
5.1V
C91410µ/16
C91310µ/25
(PA903)
R91315k
1
2
GND
SW 12V
PA902
IC901 STK5461ST
STK5482 211
STK5482 - regulator napiêcia
Opis wyprowadzeñ uk³adu STK5482
Nr nó¿ki Funkcja
1 Masa
2 Napiêcie wejœciowe 1 (maks. +30V)
3 Wyjœcie napiêcia +5.1V
4 Wyjœcie napiêcia +12V
5 Wyjœcie prze³¹czanego napiêcia 12V
6 Napiêcie wejœciowe 2 (maks. +30V)
7 Wyjœcie napiêcia 5.8V
8 Wyjœcie prze³¹czanego napiêcia z n.7
9 Po³¹czenie z n.2
10 Rezystor obci¹¿enia
11 Wyjœcie napiêcia +13/+15V
12 Prze³¹czanie napiêæ na n.11
13 Po³¹czenie z n.6
14 Prze³¹czanie napiêæ na n.11
15 Masa
1 2 3 4 6 7 8 9 10 11 12 13 14 15
GN
D2
1
23456789
SWD 12V
SWD 5VGND
ALWAYS 5V
ALWAYS 12V
ALWAYS 13VGND (MOTOR)
ALWAYS 13V
GND (MOTOR)
CN5003
TO VD - 1CN1003
12.0V
11.2V
5.1
5.8
R5004
620 R5005
270 1W
D5011DS442
Q50012SC3070SWITCH
SWD 5V
GND
GND (MOTOR)
SWD 12V
ALWAYS 5V
ALWAYS 13V
ALWAYS 12V
POWER UP
10.5
5.1
12.0
13.3
23.4
5.8
7.1
10.5
17.1
13.1
23.4 0.6
GN
D1
13V
SW
IN13V
13V
/15V
SW
OU
T13V
RE
FB
IAS
IN5.8
V
5.8
VB
OU
T5.8
V
IN12V
12V
B
OU
T12V
OU
T5.1
V
IN5.1
V
D5010
1
234567
ALWAYS 12V
ALWAYS 33V
ALWAYS 5.6VALWAYS -30V
GND
AC 4.5V
AC 4.5V
CN5002
TO TN - 2CN6206
60.140.7
41.3D5004DS446
D5005GZA9.1Z
R50126k8 1/2W
Q50042SD415Q
or 2SD600FREG
D5001DSF10Cor EM01Z
R5011820 1W
1
2345678
GND
AC 4.5V
AC 4.5V
V IN 1
GND
GND
V IN 2
AC 48V
D5002DSF10Cor EM01Z
-58.2 -30.8
-31.4
Q50062SB631F
or 2SB549QREG
R50158k2 1/2W
D5006DS446
D5007GZA30Z
C50124.7/35
R501847k
D5008
GZ
A4.
3Y
R5022150
R5023150
C501022/100
C5009100/100
R500102k7 2W
D5003GZA22Y
C5011100/25
R5003
4k7
5C
5004
47/1
6
R5002
620
C5001
3300/3
5C5013
3300/3
5
F5001T1.6A 250V
!
C500647/16
0.1
R5007560 1W
R500647k
Q50022SB985S,T
SWITCH
SWITCH
Q50032SC536
E,F
C5003
47/1
0
R5001
3k9
C500547/10
C5002
2200/1
6
JW5002TO MECHANISM
GND
D5010DSF10Cor EM01Z
CN5001
R501647 1/4W
!
C50074.7/50
IC5001STK5482
R5008
R5009
8k2
VOLTAGE: STOP MODE
212 STK5486
STK5486 - regulator napiêcia
2
1
4
5
6
7
8
3
GND
GND
POWER FAIL
UNREG 19V
AC 40V
AC 5.1V
AC 5.1V
UNREG 14V
FROM POWERCD2501
!
!
!
IC2501STK5486
POWER IC
15 14 11 60 19.4 14.3 13.1 19.4 13.5 12.3 16.5 7.3 6.1
0
CD2503DECK
D2502
11E2C250247µ100V
C250310µ50V
D2503
LTZ-MR15
R2504100 1/4W
C250147µ100V
Q25512SR964REGULATOR
D2501
11E2
REG
REG12V
REG13V
(I
D2505GZB30B
R2501
R2502
R2503
3k3 1/2W
3k3 1/2W
3k3 1/2W
R251147k
C2504
100p
31.656.4
56.4
IC2502UPC2574J
30V ZENER
C25051µ50V(K)
C2508100µ35V
C2512100µ35V
R25143k91/2W
R25053k91/2W
R25165k6
R25175k6
R25203k3
R25181k51/4W
D
D2503DTC114E
PO
POWERCONTROL0
14.2
6.
C251047µ35V
C251147µ35V
C250947µ16V(K)
D2511
1SS132
1SS132
R25193k91/4W
4510 9 8 713 12
NC
D2510
Fragment zasilacza magnetowidu VH2308HS firmy Orion
STK5486 213
!
!
!
015.5 5.2
0 5.2
DTC114EDTC124EDTC144E
10k22k47k
10k22k47k
R1 R2
CAUTION: DIGITAL TRANSISTOR
DTC
R1
R2
REG5V
REG5V
(I)
(II)
R25133k9 1/4W
D2504DTC114E
POWER(H) ON
6.62
6.62
5.2
0
R251610k
D250611E1
R2506
1k51/4W
R2507100
D2507GZR13T
C250610µ
16V (K)
C2507100µ16V(K)
14.6
19.5
7.4
12.7
6.1
12.8
Q25852SD1825
Q25022SD16665
Q25062SD734
6V REGULATOR
REGULATOR
CD2502
CD2504
5V SW6.0
5.25.3
D250911E1
C251447µ35V
0
C2513100µ35V
4 3 12
NC
( GND )
( P.CON 12V A )
( P.CON 5V A )
( P.CON 12V C )
( P.CON 12V A )
( MOTOR GND )
( GND )
( AC 5.1V )
( AC 5.1V)
( AT -30V )
( POWER FAIL )
( AT 30V )
( POWER ON (H) )
( AT 6V )
( P.CON 5V B )
( P.CON 13V )
( UNREG. 14V)
( UNREG. 19V )
( GND )
( MOTOR GND )
(P.CON 5V B )
( GND )
( AT 12V )
( AT 30V )
( AT 5V )
( HI-FI AGC CONT.)( GND )
(AT 12V )
(GND)
(P.CON 12V C)
(P.CON 5V C)
(AT 12V)
TO T/C
TO I/O BLOCK
TO TUNER
CD701TO VPSBLOCK
TO SERVO
FROM/TD SYSCDN
214 STK730C
STK730C - sterownik zasilaczy impulsowych
Vin 10
7
9
NC
NC
REG GATE DRIVE
SW.CONTROL
OCP
ERROR
5 GND
C31
2
3
4
6
8
SBD
SW. OUT
F. WHEEL
Io SENSE2
Io SENSE1
Vo SENSE
SUBSTK730C
Schemat blokowy
STK730C
1 102.54
41.2
12.7
Parametry graniczne przy Ta = 25°C
Parametr Symbol WartoϾ Jednostka
Maksymalne napiêcie wejœciowe Vin (DC)max 40 V
Maksymalny pr¹d wyjœciowy Iomax 5 A
STK730C 215
1 2 3 4 5 6 7 8 9
GND
Vin (DC)
STK730C
OUTPUT
GND
+
+
+
10
0,05R
220µH
1000µF/10V
1µF/10V
200µF/50V
Schemat aplikacyjny
Parametry elektryczne przy Ta = 25°C dla okreœlonych warunków uk³adu pomiarowego
Parametr Symbol Warunki pomiaru WartoϾ
Napiêcie wyjœciowe Vo Vin (DC) = 24V, Io = 1A 4.95÷5.15V
Têtnienia napiêcia wyj. Vrp Vin (DC) = 24V, Io = 1A 10mVrms
Zmiana napiêcia wyj.
w zale¿noœci od zmian
napiêcia wejœciowego Reg-IN Vin (DC) = 10 to 40V, Io = 1A 10mV/V
Zmiana napiêcia wyj.
w zale¿noœci od zmian
obci¹¿enia Reg-L Vin (DC) = 24V, Io = 0.5 to 5A 30mV/A
Próg zadzia³ania zab.
przeci¹¿eniowego Iocp Vin (DC) = 24V 5A
SprawnoϾ h Vin (DC) = 24V, Io = 2.5A 80%
Czêstotliwoœæ pracy f Vin (DC) = 24V, Io = 1A 125kHz
Temperaturowy wspó³.
zmian napiêcia wyj. Tcvo 0.02%/°C
216 STK731B
STK731B - sterownik zasilaczy impulsowych
Vin
Vin
10
REG GATE DRIVE
SW.CONTROL
OCP
ERROR
5 GND
C31
2
3
4
6
8 SW. OUT
SW. OUT
F. WHEEL
Io SENSE2
Io SENSE1
Vo SENSE
SUBSTK731B
REG
9
CUT OFF 12 CUT OFF
7
11
Schemat blokowy
STK731B
1 12
2.54
52
16
Parametry graniczne przy Ta = 25°C
Parametr Symbol WartoϾ
Maksymalne napiêcie wejœciowe Vin (DC) max 50V
Maksymalny pr¹d wyjœciowy Io max 3/6A
STK731B 217
+
++
200µH
0.05R220µF63V
1000µF16V
0.1µF16V
1µF50V
1nF
10R
Vo
GND GND
Vin
CUT OFF
STK731B
1 2 3 4 5 6 7 8 9 10 11 12
Schemat aplikacyjny
Parametry elektryczne przy Ta = 25°C dla okreœlonych warunków uk³adu pomiarowego
Parametr Symbol Warunki pomiaru WartoϾ
Napiêcie wyjœciowe Vo Vin (DC) = 25V, Io = 1A 11.8÷12.2V
Têtnienia napiêcia wyj. Vrp Vin (DC) = 25V, Io = 1A 30mVrms
Zmiana napiêcia wyj.
w zale¿noœci od zmian
napiêcia wejœciowego Reg-IN Vin (DC) = 20 to 30V, Io = 1A 20mV/V
Zmiana napiêcia wyj.
w zale¿noœci od zmian
obci¹¿enia Reg-L Vin (DC) = 25V, Io = 0.5 to 3A 40mV/A
Próg zadzia³ania zab.
przeci¹¿eniowego Iocp Vin (DC) = 25V 6A
SprawnoϾ h Vin (DC) = 25V, Io = 1.5A 90%
Czêstotliowoœæ pracy f Vin (DC) = 25V, Io = 1A 85kHz
Napiêcie odciêcia Voff wyjœcie w³¹czone 3÷20V
(n.12) wyjœcie wy³¹czone 0÷0.8V
218 STK732C
STK732C - sterownik zasilaczy impulsowych
Vin
Vin
10
REG GATE DRIVE
SW.CONTROL
OCP
ERROR
5 GND
C31
2
3
4
6
8 SW. OUT
SW. OUT
F. WHEEL
Io SENSE2
Io SENSE1
Vo SENSE
SUBSTK732C
REG
9
CUT OFF 12 CUT OFF
7
11
9
Schemat blokowy
STK732C
1 12
2.54
52
16
Parametry graniczne przy Ta = 25°C
Parametr Symbol WartoϾ
Maksymalne napiêcie wejœciowe Vin (DC) max 60V
Maksymalny pr¹d wyjœciowy Io max 5/10A
STK732C 219
+
+
+200µH
0.05R220µF63V
1000µF16V
0.1µF16V
1µF50V
1nF
10R
Vo
GND GND
Vin
CUT OFF
STK732C
1 2 3 4 5 6 7 8 9 10 11 12
Schemat aplikacyjny
Parametry elektryczne Ta = 25°C dla okreœlonych warunków uk³adu pomiarowego
Parametr Symbol Warunki pomiaru WartoϾ
Napiêcie wyjœciowe Vo Vin (DC) = 35V, Io = 1A 14.7÷15.3V
Têtnienia napiêcia wyj. Vrp Vin (DC) = 35V, Io = 1A 25mVrms
Zmiana napiêcia wyj.
w zale¿noœci od zmian
napiêcia wejœciowego Reg-IN Vin (DC) = 20 to 45V, Io = 1A 20mV/V
Zmiana napiêcia wyj.
w zale¿noœci od zmian
obci¹¿enia Reg-L Vin (DC) = 35V, Io = 0.5 to 5A 40mV/A
Próg zadzia³ania zab.
przeci¹¿eniowego Iocp Vin (DC) = 35V 6A
SprawnoϾ h Vin (DC) = 35V, Io = 2.5A 90%
Czêstotliwoœæ pracy f Vin (DC) = 35V, Io = 1A 85kHz
Napiêcie odciêcia Voff wyjœcie w³¹czone 3÷20V
(n.12) wyjœcie wy³¹czone 0÷0.8V
220 STK733C
STK733C - sterownik zasilaczy impulsowych
Vin
Vin
10
REG GATE DRIVE
SW.CONTROL
OCP
ERROR
5 GND
C31
2
3
4
6
8 SW. OUT
SW. OUT
F. WHEEL
Io SENSE2
Io SENSE1
Vo SENSE
SUBSTK733C
REG
9
CUT OFF 12 CUT OFF
7
11
Schemat blokowy
STK733C
1 12
2.54
52
16
Parametry graniczne Ta = 25°C
Parametr Symbol WartoϾ
Maksymalne napiêcie wejœciowe Vin (DC) max 60V
Maksymalny pr¹d wyjœciowy Io max 5/10A
STK733C 221
+
+
+200µH
0.05R220µF63V
1000µF16V
0.1µF16V
1µF50V
1nF
10R
Vo
GND GND
Vin
CUT OFF
STK733C
1 2 3 4 5 6 7 8 9 10 11 12
Schemat aplikacyjny
Parametry elektryczne przy Ta = 25°C dla okreœlonych warunków uk³adu pomiarowego
Parametr Symbol Warunki pomiaru WartoϾ
Napiêcie wyjœciowe Vo Vin (DC) = 35V, Io = 1A 23.6÷24.4V
Têtnienia napiêcia wyj. Vrp Vin (DC) = 35V, Io = 1A 20mVrms
Zmiana napiêcia wyj.
w zale¿noœci od zmian
napiêcia wejœciowego Reg-IN Vin (DC) = 28 to 40V, Io = 1A 20mV/V
Zmiana napiêcia wyj.
w zale¿noœci od zmian
obci¹¿enia Reg-L Vin (DC) = 35V, Io = 0.5 to 5A 40mV/A
Próg zadzia³ania zab.
przeci¹¿eniowego Iocp Vin (DC) = 35V 10A
SprawnoϾ h Vin (DC) = 35V, Io = 2.5A 93%
Czêstotliwoœæ pracy f Vin (DC) = 35V, Io = 1A 85kHz
Napiêcie odciêcia Voff wyjœcie w³¹czone 3÷20V
(n.12) wyjœcie wy³¹czone 0÷0.8V
222 STK750-010
STK750-010 - regulator napiêcia
Vin
Vcc
CT
RT
VREF
DEAD TIMECONTROL
SWCONTROL
GATE DRIVE
ERROR
SUB
GND
SW OUT
F WHEEL
Vo SENSE
Vo CONTROL
15
3
2
1
4
5
6
7
9
13
11
STK750-010
Schemat blokowy
STK750-010
2.0
1 15
12.7
41.2
STK750-010 223
SWREG
Vin=170V
15
5
DRIVE
CONTROL
OSC
4 3 2
fH SYNCHRONIZECIRCUIT
50kHz - 100kHzor 20kHz - 55kHz
fH
ERRORAMP
9
7
Vcont
Vo CONTROLCIRCUITVcc=12V
STK750-010
H-OUT
11
Vo=130V - 50V
FBT
HV
++
Schemat aplikacyjny
Podstawowe parametry
- maksymalne napiêcie wejœciowe 190V
- maksymalny pr¹d wyjœciowy 1A
- napiêcie zasilania 11÷13V
224 STK7561G, STK7561J
STK7561G, STK7561J - dwuwyjœciowe regulatory napiêcia
STK7561G, J
IC1
D1ZD1
R2
R3
C2R6
TR3
R4
16
17
18
13
R1C1
C3
R7
R8 C4
TR4
D2
R10
R9
R5
TR2
TR1
D3R11
TR5
R12
6
7
5
4
8
9
SUB
TR11
TR10
R21
C5
1
R15
TR8
R14
TR7
R17
R18R16
ZD2
C6
12
R20
TR9
D4 R19
2
3
10
11
TR6
R1314
15
Schemat blokowy
1 18
2.54
18.7
55.6
STK7561G, J
STK7561G, STK7561J 225
+
+
++++
Output1
Output2
Gnd
ZD11000µ10V
1000µ16V
100µ16V
0.22R
0.22R
10µH
220µ10V
200µH
200µH
FerritrBeadsCore
2.2n 2.2n
2k1W
1µ16V
220µ50V
Vin DC
Gnd
181716151413121110987654321
STK7561G, J
Cut off SW
Schemat aplikacyjny
Podstawowe parametry
- maksymalne napiêcie wejœciowe 50V
- napiêcie na wyjœciu 1 4.9÷5.1V
- napiêcie na wyjœciu 2 11.8÷12.2V
- maksymalny pr¹d na wyjœciu 1 3A dla STK7561G
- maksymalny pr¹d na wyjœciu 2 5A dla STK7561G
- maksymalny pr¹d na wyjœciu 1 5A dla STK7561J
- maksymalny pr¹d na wyjœciu 2 2A dla STK7561J
226 STK7563A
STK7563A - dwuwyjœciowy regulator napiêcia
STK7563A
IC1
D1ZD1
R2
R3
C2R6
TR3
R4
16
17
18
13
R1C1
C3
R7
R8 C4
TR4
D2
R10
R9
R5
TR2
TR1
D3R11
TR5
R12
6
7
5
4
8
9
SUB
TR11
TR10
R21
C5
1
R15
TR8
R14
TR7
R17
R18R16
ZD2
C6
12
R20
TR9
D4 R19
2
3
10
11
TR6
R1314
15
Schemat blokowy
55.6
21.0
1 18
2.54
STK7563A
STK7563A 227
+
+
++++
Output1
Output2
Gnd
ZD11000µ10V
1000µ16V
100µ16V
0.22R
0.22R
10µH
220µ10V
200µH
200µH
FerritrBeadsCore
2.2n 2.2n
4k71W
1µ16V
220µ50V
Vin DC
Gnd
181716151413121110987654321
STK7563A
Cut off SW
Schemat aplikacyjny
Podstawowe parametry
- maksymalne napiêcie wejœciowe 50V
- maksymalny pr¹d wyjœciowy 2A dla ka¿dego wyjœcia
- napiêcie na wyjœciu 1 4.9÷5.1V
- napiêcie na wyjœciu 2 23.6÷24.4V
228 STR1229
STR1229 - regulator napiêcia
RED AC14V
RED AC14V
1
2
CN407 (BLK)
D401
S5VB20
RECTFIER
F4023.15A!
ORG AC7V
ORG
BRN
BRN
YEL
YEL
AC7V
AC35V
AC35V
AC3.2V
AC3.2V
1
2
3
4
5
6
CN308 (WHT)
+C4061000025V
16.6
D302
S1VB10-S
RECTFIER
F306500mA !
+C308220016V
7.0
2.6
5.2
Q301
2SD1310
REGULATOR
R3041k
R3023k
Q303
5.9
3.2
R301330
R3054.7k
R30612k
R30320k
Q302
5.2
2.6
3.2+
C21
+C4144716V
2
109
1
12VREG 9VREG
12.2
IC401 STR1229 REG
240V
220V
0V
POWERTRANSFORMER
T901
!
AC 220V50/60Hz
C4050.0022400V
C4020.0022400V
C4040.0022400V
C4030.0022400V
!
!
BRN
BLU
F401T2A !
C4010.1
250V
GRY
BLU
WHT
!
C30947063V
+
+C31122063V
Q301
D313
D315
D313, D315
10E2
RECTFIER
42
Q302
2SC2785
ERROR AMP
Q303
2SC2785
REFERENCE
Q
2SC2
SWIT
R
-43
Zasilacz magnetowidu SL-C30PS firmy Sony
STR1229 229
5.2
.6
+C3162216V
C3192216V
R411470
41476V
43
16.8
5
10
REGULATOR
+C4154716V
F304500mA
!
!
16.8
12.4
Q307
R31333 (1/2W)
R31427k
6.6
13.0
Q309
7.3
D317
R31547k
R3167.5k
6.6
Q3086.016.8
D318
+
+C320
2216V
02
785
AMP
Q307
2SD1310
REGULATOR
Q309
2SC2785
SWITCH
Q308
2SD1310
REMOCON
AMP
D317
RD6.8EB2
ZENER
D318
RD7.5EB2
1
2
3
CN306 (RED)
SW9V
GND
UN12V
----TO TUNER AUDIOBLOCK RFUCN001
1
2
CN405 (WHT)
SW12V
GND
---- TO TUNER AUDIO BLOCKAM-3BOARDCN505
1
2
3
4
CN302 (BLK)
SW5V
UN42V
UN-42V
GND
----TO TUNERAUDIO BLOCKTU-39BOARDCN001
1
2
3
CN403 (WHT)
SW12V
SW9V
GND
----TO VIDEO BLOCKYC-25BOARDCN003
1
2
3
4
5
CN301 (WHT)
SW5V
GND (E)
SW12V (M)
GND (M)
----TO SERVOSYTEM CONTROLBLOCKSS-16BOARDCN609
SW12V (E)
1
2
3
4
5
6
7
CN304 (WHT)
UN-19V
AC3.2V
AC3.2V
UN6.2V
PWR.ON
GND
UN12V
----
----
R3081.2k (1W)
R31010k
Q306
10.0
0
Q306
2SC2785
SWITCH
PS-23 BOARD
PS-22 BOARD
no mark: E - E mode
230 STR20005, STR20012, STR20013
STR20005, STR20012, STR20013 - sterowniki zasilaczy impulsowych
StartCircuit
ReferenceVoltage
MIC1
5
1
2
3
R4R3R2
R1
Tr14
C1 R5
Schemat blokowy
4 3
2
15
VR1
VR2DiRU3M
1000µ
Vout
DC Output
GND
L=200µH
1000μ
GND
Vin
DC Input
Use VR1 and VR2 only when adjusting the output voltages.
VR1 : Vout downVR2 : Vout up
RU3M forward voltage : 0.7V
Schemat aplikacyjny
Podstawowe parametry:
- napiêcie wejœciowe VIN 8÷40V
- pr¹d wyjœciowy IO 2A
- napiêcie wyjœciowe VO 5V dla STR20005
- napiêcie wyjœciowe VO 12V dla STR20012
- napiêcie wyjœciowe VO 13V dla STR20013
STR30125 231
STR30125 - regulator napiêcia
P2
525251
P1
512
20
V
12
0V
0V
0V
13
V
0V
FB
80
1T
1.2
5A
25
0V
INC
C
LP
01
LIN
EF
ILT
ER
CP
01
0.2
2C
-MP
OU
T
RP
13
90
k1
/2W
F8
01
PO
WE
RC
OR
DIN
PU
T2
20
VSW
80
1P
OW
ER
SW
PW
B-P
OW
ER
FIL
TE
R
T8
01
PO
WE
RT
RA
NS
81 80
AC
12
0V
INP
UT
TO
CN
P8
01
OF
RE
MO
CO
NB
OA
RD
51 51 52 52
CN
80
1
C8
05
0.2
2
C-M
P
D8
01
-D8
04
ER
B1
2-0
6x4
C8
01
-C8
04
22
00
p2
50
VA
C
R8
01
PO
SIS
TO
R
CN
80
288
89
L8
02
DE
GA
US
SIN
GC
OIL
GB
CC
EE
15
0V
12
5V
B G
12
6V
Q801
ST
R30125
(12
5V
)
LR
R-C
R-C
R8
08
D8
05
1N
40
03
RF
R8
06
47
R8
07
22
0k
C8
52
33
μ1
60
V
R8
04
1.2
3W
R4
29
10
0k
D4
06
EQ
A0
2-1
2A
R4
27
1k
1/2
W
R4
28
39
01
W
D4
01
1N
41
48
Q4
03
2S
C2
22
9
KS
C2
31
0
STA
RT
ER
F8
02
F1
.25
A2
50
VR
80
31
50
k
C8
51
47
02
00
Vμ
M R8
05
10
k2
W
Fra
gm
en
t s
ch
em
atu
OT
VC
Te
ns
ai
TC
T3
64
5
232 STR30130
STR30130 - regulator napiêcia
C905
10/1
60
R905
!
21
34
5
ER
RO
RA
MP
BA
SE
VO
LTA
GE
CO
NT
RO
L
SH
AR
E
IC901
ST
R30130-A
PO
WE
RR
EG
UL
AT
OR
131V
140V
130V D905
IS1007A
-T3
!
R909
!
!
TP
-9I
R905,R
909
330/1
5W
UN
FR
QR
F154J-3
31
!
TP
-E
R908
390
1/4
W
R906
220K
1/4
W
R907
4.7
5W
UN
FR
QR
F054K
-4R
7
!
R904
10K
1/2
WQ
RD
123J-1
03S
X
R907
!
+ PO
WE
RP
CB
AS
S'Y
SG
X-9
004A
C902
R2
R1
R4
R3
T01
CE
30147-0
01
PO
WE
RT
RA
NS
F(A
UD
IO)
!R
Y901
RE
LA
YC
ES
K002
-001
!
!D
903
!
D901
D904
D902
R901
1.8
7W
UN
FR
QR
F074K
-1R
8
!C
903
I2 I1
TH
901
CE
40595-0
01
!
C901-C
903
0.0
047
AC
125V
QC
Z9034-4
72A
!D
901-D
904
ISI8
87A
-T3
C901
!
!!!
!
+
C904
560/2
00
QE
70145-5
6JR
!
F902
1.2
5A
QM
F53U
I-I
R25S
!140V
C907
!
F901
5A
QM
F66U
I-5R
0S
!
P1
P2
C908
!
LF
901
CE
40247
-00A
!
0.1
μC
907,C
908
AC
125V
MF
QF
Z9025
-104M
!
D1
D2
Opis wyprowadzeñ uk³adu STR30130
Nr wyprowadzenia Symbol Funkcja
1 Common Masa
2 Base Sterowanie
3 +DC input Wejœcie
4 Output Wyjœcie
5 NC Niepod³¹czone
STR3105 233
STR3105 - regulator napiêcia
1 2
4 3
TP
10
C8
09
33
μ1
60
V
R8
07
22
02
0W
CE
ME
NT
2R
80
41
0k(M
)
R8
06
22
0k
R8
05
47
(M)
C8
08
33
μ1
60
V
12
7V
D8
03
D8
01
D8
02
C8
05
C8
06
D8
04
D8
01
-D8
04
1S
18
87
FA
C8
07
47
0μ
20
0V
C8
03
C8
04
F8
02
25
0V
T1
.0A
P8
04
DE
GA
US
SIN
GC
OIL
SP
P8
01
P8
02
T8
02
PO
WE
RT
RA
NS
TP
W-2
21
4A
T8
01
LIN
EF
ILT
ER
F8
01
25
0V
T1
.0A
C8
02
AC
25
0V
47
00 P8
03
C8
01
AC
25
0V
0.1
PR
80
11
80
M2
90
C8
03
-C8
06
22
0(5
00
V)
IC8
01
ST
R3
10
5
PO
WE
RC
OR
D
SW
01
ME
5A
Fragment zasilacza OTVC Tecco R2050VR
234 STR3125
STR3125 - regulator napiêcia
P2
5252
P1
51 51
22
0V
12
0V 0V
13
V
0V
FB
80
1T
1.2
5A
25
0V
INC
LP
01
LIN
EF
ILT
ER
CP
01
0.2
2C
-MP
OU
T
RP
13
30
k1
/2W
F8
01
PO
WE
RC
OR
DIN
PU
T2
20
VSW
80
1P
OW
ER
S/W
PW
B-P
OW
ER
FIL
TE
R
T8
01
PO
WE
RT
RA
NS
81 80
AC
12
0V
INP
UT
TO
CN
P8
01
OF
RE
MO
CO
NB
OA
RD
51 51 52 52
CN
02
C8
06
0.2
2
C-M
P
D8
01
-D8
04
15
18
88
(FA
-1)x
4C
80
1-C
804
22
00
p2
50
VA
C
R8
01
PO
SIS
TO
R
CN
03
8889
L8
02
DE
GA
US
SIN
GC
OIL
GB
CC
EE
15
0V
12
5V
B G
12
6V
Q8
01
ST
R31
25
(12
5V
)
LR
R-C
R-C
R8
08
RF
R8
06
47
R8
07
22
0k
C8
52
33
μ1
80
V
R804
1.2
3W
F8
02
F1
.25
A2
50
VR
80
31
50
k
C8
51
47
02
00
Vμ
M R8
05
10
k2
W
Fra
gm
en
t s
ch
em
atu
OT
VC
Sa
ms
un
g C
M5
51
6/5
0 z
ch
as
sis
P5
0
STR371 235
STR371 - regulator napiêcia
2 1
5
4
6
2 1
5
4
6
2 1
5
4
6
CAR BATTERY CORDTSX1304-2
B18
B19
B17-0.05
11.5
0
C881560p500V
Q852
2SC2199
CONVERTER OUT
L L
L
L
L
L
L
L
L
M
M
L L
D861RD18EB2
R8852k7
2.2
00
0
Q854
2SD636-R.S.T
2SC1685-Q
Q8532SD636-R.S.T2SC1685-Q
Q82S
+24VADDPADJ
R886560
R887500B
R88218k
-
+1113
10
+12VADDP
S1
S2 P1
P2
DRIVE TRANS
T851TLP159D3
R884 33
C8
58
56
00
p
0
5.2R87633k
R874 500BR875820
+12V ADDPADJ
1.5 0.05
C8750.01
D859 MA165
D860 MA165
R8805k6
D863 RD22EB1
R869220
R8813k9
C868220μ10V
IC851μPC339C 1/4
ADDP
NP
C87922μ10V
96
95
R8782k2
R87910k
R8774k7
C871180p
D8RG
C8631000p500V
R861472W
R891330
R8735k61/2W
R8832k21/2W
C877330μ35V
C859470μ35V
P2
S1
S2
S3
S4
SC1
P1
CONVERTERTRANS
SW801
POWER SUPPLY CORDTSX1174
B20
B5
B22
POWER SOCKETTJS29780-1PS
POWER SW
E6899577V
B1
B2
B21
B4
B3
DEGAUSSIN
C8800.01
F8515A-125V
XBA1F50NU100
F8013A-125VXBA1F30NU100
28Vp-p[H]
1.
T852TLP1570G
L854TSC909
LT
R8011.0 3W
C810470p
EL
C8080.1 125V AC
C47
125V
L8525.6μH
L856 5.6μH
L8535.6μH
C861
L801TLP6506P
0.1
POWER SUPPLY CIRCUIT
TNP52598ZAB
LIVE CIRCUIT
Zasilacz OTVC Panasonic CTG-713 z chassis NMX-K82D
236 STR371
L L
L
L
LL L
L
LL
L
M
L
L
L
L
LL
LL
M
L
L
M
M
Q8512SC1383-R.S
-
-
-
+
+
+
7
9
1
14
6
4
5
8
3
12
R85818kR
86
01
k5
R8
68
10
k
R8
92
4k7
D851MA165
SQUAREWAVEOSC.AMP.
C8660.01
C8650.1
R869220
IC851μPC339C 1/4
IC851μPC339C
1/4
91
R87018k
D855RD5.1EB1
R8774k7
ERROR DETECTOR
R8711M
R8
57
12
kR
85
91
2k
R872 4k7
D856MA165
+8V
C864220μ25V
C87180p
D857RGP10J
1
B61 2
L802TLK159016N
USSING COIL
D852MA27WA
1.1Vp-p[H]
54C909
L857TSC909
L858TSC909
L855 TSC909
C8094700p
125V AC
μH
C861 1000p 1kV
D854UF2B
D862 RGP10J
C873 220p 1kV
01506P
C8070.01500V
C8040.01500V
C8020.01500V
C8030.01
500V
C8010.01
500V
D8
03
ER
C0
50
8
D802ERC0508
D804ERC0508
D801ERC0508
D805ERPF5B0M08F
+12V
R8101M1/2W
C862100μ160V
C87447μ50V
10
μ1
6V
C8
55
R88918k
R888120k1/2W
R809120k1/2W
C805220200V
μ
B9
B7
B8
1 2
34
115
150
117 0.3
B10
B11
B14
B13
B12R81156 10W
R807 330 10W
R80410k
R864100k1/2W
C8703μ3/160V
R8901001/2W
R8663k9
R8672kB+B ADJ
R865 1k8
R806220k
R80547
C80622μ 160V
IC801STR371
IC851μPC339C 1/4
IC851μPC339C
AVR
R80856
D808RGP10J
F8020.5A 125V
XBR1C05NU100
+114V
3.8Vp-p[H]
2.0Vp-p[H]
3.4Vp-p[H]
2
C8560.1
C8780.01
R8564k7
C8542200p100V
C853100p
C851390p
B15
-
-
-
-
+
+
+
+
7
8
6
9
5
10
4
11
3
12
2
13
1
142.60.05
0.9
0
1.9
1.4
7.6
1.6
2.4
4.8
2.3
4.4
2.1 2.0
R852100k
R853 100k
R85447k
R855 18kC852100p
R851100k
SAWTOOTHOSC.
C8670.22
1.9Vp-p[H]
STR40115 237
STR40115 - sterownik zasilaczy impulsowych
VCC GNDIN C1 C2 T C3 OUT
ZD651RD3EB
R6582k2
1
32
C6530.1
R657680
!
R65610k
TR6512SA733P.Q.
TR6572SC945TR655
2SC945
TR6562SC945
TR6532SC945
C65610µ50V
C65410µ50V
ZD652RD30EB
R6551k5
R6544k7
C655100µ
R6641801W
TR6522SC945P.Q.
TR6542SD471K.L.M
D651RB-151
R6532.21/4W
RL650
D6531SS132
D650RB-150
R6522.21/2W
C651330µ35V
!
!
!
!
!
!!
!
!
Z2
Z1
FROMPWC2287A
“AC”
AC1
AC2
AC3
C6162200pAC 500V
C6172200pAC 500V
R6502.2 1/4WFUSIBLE
T651
T602
D607TVR-06G
R605122W
C6014700pAC500V
R6014.75W
D603RM-11B
D602RM-11B
C6024700pAC500V
IC601STR-40115
ERRORAMP
5
2
43
1
C6052200p 400V
T601
D606TVR-06G
C610560p
ZD6015R-2M
C609100µ160V
C6060.47250V
R606101/4W
C6060.047D606
RU-2
C6072200p400V
R60482
PWC 2286MAIN PWB
R6511201W
C6520.01
IC651µPC78M05H
IC4101µPC1473H
C6034700p
AC500VC604100AC400V
µ
R6021M1/2W
R66310k
R6622k2
-29.5V
1.7V
2.3V
2.3V
-29V
-30V
25V
+5V
231V
TH601
310Vp-p
300Vp-p
L6015.6µH
8 7 6 5 4 3 2 1C41050.01
R41052k2
R6651k8
R66110k1.3V 3.1V
R666560
R667390 R668
4k7
R6731k
R67210k
C65847µ
R669390
R670100
R671100k
1.1V
2.4V
2.8VR65933k
C6570.1 R660
10k
5V
C410722µ16V
R4106220
T4101C410310µ16V
C41043300p
R4104100k
R410239
C41024µ725V
C410110µ16V
R41011k
PD4101PH302
0.8Vp-p V
300Vp-p
Fragment zasilacza OTVC Nec FS1502SBGW
238 STR4211
STR4211 - regulator napiêcia
SW
DR
IVE
ER
RO
RA
MP
12
34
5
!
!
!
!
!
!!
!
!!
!
!
!
!
!
IC901
ST
R4211
C9
17
15
n C9
08
4µ
71
60
V D9
05
ES
IA
C9
11
1n
05
00
V
R9
14
10
1/2
W
T9
01
L2
L1
C9
09
22
0µ
16
0V
C9
18
47
n
R9
06
56
1/2
W
R9
02
82
k1
/2W
R9
03
82
k1
/2W
ZD
91
0R
D2
V7
EB
3D
90
6E
SIA
C9
19
10
µ2
5V
C9
10
10
µ2
5V
L9
05
C9
05
10
n4
00
VA
C
+t°
TH
90
12
PIN
MA
INS
PL
UG
NO
NR
EW
IRA
BL
E.
22
0V
~5
0H
z
S9
01
L9
02
L9
03
L9
01
R9
50
6M
8
FS
90
1T
2.5
A
C9
01
10
0n
25
0V
AC
R9
01
6.0
8W
C9
06
18
0µ
40
0V
C9
02
4n
74
00
VA
C
D9
01
RM
11
C
C9
13
33
0p
50
0V
Fra
gm
en
t s
ch
em
atu
OT
VC
Hit
ac
hi
CP
T1
45
5-3
41
STR440/441/442/450/451/452/453 239
STR440/441/442/450/451/452/453 - sterowniki zasilaczy impulsowych
Z dnia na dzieñ coraz trudniej zdobyæ wiele
przestarza³ych elementów, które uleg³y uszko-
dzeniu w sprzêcie spe³niaj¹cym jeszcze swoje
zadania, i do którego z regu³y jesteœmy bardzo
przywi¹zani. Ceny tych uk³adów – je¿eli w koñ-
cu uda nam siê je zdobyæ – s¹ tak zawrotnie wy-
sokie, ¿e stawiaj¹ pod znakiem zapytania sens
ca³ej naprawy. Czasami okazuje siê, ¿e proœciej i
taniej jest zbudowaæ uk³ad zastêpczy ni¿ poszu-
kiwaæ elementu oryginalnego.
Uk³ady firmy Sanken z serii STR4xx s¹ sto-
sowane w przetwornicach wielu odbiorników
telewizyjnych. S¹ to czterokoñcówkowe uk³ady
steruj¹ce, które dostarczaj¹ napiêæ w zakresie od
102V do 130V. Wartoœci napiêæ wyjœciowych dla
poszczególnych uk³adów rodziny STR4xx przed-
stawione s¹ w tabeli 1.
Tabela 1
STR440 107V
STR441 111V
STR442 102V
STR450 115V
STR451 103V
STR452 123V
STR453 130V
Schemat prostego uk³adu zastêpczego dla
uk³adów rodziny STR4xx przedstawiony jest
na rysunku 1. Tranzystor T1 pracuje jako klucz
sterowany ze wzmacniacza b³êdu z³o¿onego z
tranzystorów T2 i T3. Po zamontowaniu uk³a-
du zastêpczego nale¿y od³¹czyæ sterowanie
stopnia koñcowego linii i obci¹¿yæ przetworni-
cê ¿arówk¹ 60W. W³¹czamy odbiornik i usta-
wiamy ¿¹dan¹ wartoœæ napiêcia. Je¿eli prze-
twornica pracuje poprawnie, usuwamy ¿arów-
kê, pod³¹czamy sterowanie stopnia koñcowe-
go linii i w warunkach rzeczywistego obci¹¿e-
nia ustawiamy wymagane napiêcie.
Typowy uk³ad aplikacyjny uk³adów serii
STR4xx przedstawiono na rysunku 2, a rozk³ad
wyprowadzeñ na rysunku 3.
T1
T2
T32SC1815
2
R247k
R13k9
R339k
R44k7
R73k3
R622k
R52k7
D16.8V/400mW
3
1
4
BUT56A
2SA1015
Rys.1. Uk³ad zastêpczy regulatorów
napiêcia z rodziny STR4xx.
3 4 1
2STR4xx
Rys.2. Typowy uk³ad aplikacyjny regulatorów napiêcia
z serii STR4xx.
2
3
4
1
STR4xx
widokod spodu
Rys.3. Rozk³ad wyprowadzeñ
uk³adu STR4xx.
240 STR440/441/442/450/451/452/453
1
2
21
DEGAUSSING COIL
L301CN301
TH301180G
1 2 1 2 1 12
AC 220V50Hz
4 43
CN302
S301
2 3
CN303
R3082.25W
MP
MP
C3180.033/1kV
F301
T3.1
5A
LINE FILTER
EF 18D3L04
AC FILTER0046 TA22 L303
L302
C3060.033/1kV
C3050.0033400V
C3040.0033
400V
R3023M31/2W
R3013M31/2W
C302 C309
D304D302
R390100k2W
F.B.301
D306RH2F
D307RH1
C3200.0047400V
FOR REMOTECONNECT TOCN601. FORMANUAL SHORT
& INSIDEOF MAIN BOARD.
3 4 1
2
64 13
15
10
112
7
8
HEAT SINKTO GROUND
IC301STR442
M
R307
22 2W
R306331W
GND
C3220.0027
2kV
C324100µ160V
C3230.0022400V
CN304CN305
C308220µ400V
R303100k
R304100k
C310
C3140.0047400V
D303D301C301
10D6x40.0047/500Vx4
R305820
C3170.022
D305RH1
C31610µ160V
C3150.0022
400V
T302 FB302
D308RU2
F302T1A250V
110V
Fragment schematu OTVC Tec 5161VR
STR440/441/442/450/451/452/453 241
~!
!
!
!
!
!
!
!
DE
GA
US
SIN
GC
OIL
Z2
Z1
126 5
AC
22
0V
50
Hz
S6
01
MA
INS
WIT
CH
AZ
1
AZ
2A
Z3
C6
01
0,1
AC
25
0V
F6
01
2A
T
TH
60
1
L6
01
C6
15
B4
70
PA
C4
00
V
C6
01
B0
,1A
C2
50
V
R6
01
4,7
5W
C6
15
47
0P
AC
40
0V
C6
02
47
00
PA
C4
00
V
C6
03
47
00
PA
C4
00
V
-+
~ ~
D6
01
RB
-40
C
33
2V
C6
04
47
00
PA
C4
00
V
C6
08
10
00
P1
KV
C6
07
10
00
P1
KV
D6
02
RU
-2
R6
04
1M
1/2
W
L6
02
5,6
µH
T6
01
C6
16
47
0P
AC
40
0V
33
2V
1
C6
06
10
0µ
R6
02
82
FU
SIB
LE
11
4,5
V4
C6
12
47
00
P5
00
V
D6
03
TV
R-0
6G
R6
03
33
2W
C6
09
0,4
74
00
V
D6
04
TV
R-0
6G
3
J1
J2 J3
C6
10
10
0µ
16
0V
C6
17
56
0P
ZD
60
1S
R-2
M
C6
12
47
00
P5
00
V
2
C6
13
22
00
PA
C4
00
V
IC6
01
ST
R-
45
0A
PW
C1
84
5
AU
TO
PS
PW
B
C6
05
10
0µ
40
0V
Fra
gm
en
t s
ch
em
atu
OT
VC
Ne
c C
T-1
40
8P
G
242 STR440/441/442/450/451/452/453
REMOTE
CONTROL
INFRA RED
RAY
RECEIVER
(CRE800) REMOTE
CONTROL
CRE 800
TH
SW O
C
R
P
L
FROMCONTROLS
T991
P996 P995
P993
L991
C9910.1(AC 250V)
F991T2.5A
P992 P991
S902
S901MAINS SW. !
AC220V50Hz
FILTERBOARD
I1
I2
TS3
TS1
F901T2.5A
TH901
C9160.0047250V(AC)
BC!
P994
96ºC
L905
D.G.C
O1
O3
!
TOC-TEAMINAL
D905EH-1ZSM-1-02FRA
R9041k2
C9070.27/100V
L90912µH
R9331k2
C9190.2250V
C9120.027/20
R90282k(1/2W)
R93182k(1/2W)
R93282k(1/2W)
C0
T901
Fragment schematu OTVC Hitachi CPT1655
STR440/441/442/450/451/452/453 243
D901-D910SM-1.5-20ZR0-3C
BEADCORE
BEADCORE
BEADCORE
BEADCORE
D910
D901
R9080.5(1W)
!!
! !
C9020.01(AC 250V)
R9017.7(8W)
C906220µ/400V
!
!!
!
!
!
!
R90556(3W)
R90682(2W)
9092µH
C9190.2250V
12027/200V
R9112k2(3W)
R9102k2(3W)
D909RH-1SSM-1-02FRA
-0.21V
-0.23V
0.1V
R9091k
R7201k5(1/2W)
R7211k5(1/2W)
R912
D906RF-1B/SM-1.5-08FRH
C913330p/2.5kV
D907RH-1S
L90312µH
L90212µH
L90622µH
C911470µ25V
+107V
+19V
C909220µ160V
C70122µ16V
C9171µ160V
R7033k9(1W)
R7023k9(1W)
R91382k
ZD901RD2.7EB1
IC901STR440
Q901
2SD787
2SD788
E
E
L9040.35µH
C915180p/2.5kV
ERROR AMP DRIVE
SW
4 3 2 1
ZD902RD33EB
R932220
C9080.1
C914330p500V
T901
C7250.0022
C7260.0033
R7225k-BH-HOLD
R7085k-BH-OSC
D7091S20761S2473H
D7081S20761S2473H
R70712k
!
R72322k
244 STR44115
STR44115 - regulator napiêcia
!
DE
GA
US
ING
CO
IL
TH
60
1!
!!
!
!!
!!
Z2
Z1
AC
22
0V
50
Hz
AC
1A
C1
AC
1
AC
2A
C2
AC
2
AC
3A
C3
AC
3
S6
01
PO
WE
RS
WIT
CH
!!
!
F6
01
T2
A
C6
11
0,1
25
0V
C6
13
0,1
25
0V
L6
11
L6
12
C6
15
2n
2
C6
14
2n
2
40
0V
400V
R6
01
4.7
C6
01
C6
02
4n
75
00
V4
n7
50
0V
4n
75
00
V4
n7
50
0V
ER
RO
RA
MP
3 2
1
54R
60
21
M
C6
04
10
0µ
40
0V
C6
03
AC
60
3
D6
01
D6
02
D6
04
D6
034x
RM
-11B
IC801
ST
R-4
4115
C6
05
47
00
/40
0V
..
..
T6
01
FB
60
2
D605RU-2
C6
06
0.2
22
50
V
R6
06
10
C6
07 2n
2
40
0V
40
0V
C6
66
56
0p
....
TR
60
2R
60
5
22
D6
07
TU
R-0
6G
D6
06
TU
R-0
6G
C6
10
56
0p
55
0V
R6
04
82
C6
08
0.0
47
C6
09
10
0µ
38
5V
ZD
60
1
SA
-2M
(+B
11
5V
)
TP
91
R11
01
k
C1
06
10
µ/2
5V
Fra
gm
en
t s
ch
em
atu
OT
VC
Ne
c C
T1
41
4S
K
STR50020 245
3
2
5
114
300
C8
R8
D805BYD33J
(
C8010.1
(AC250V)
R890PTC!
!
!
!T801
TRF3130
S801MAINS SW.
!P801
BRN
BLUE
1
4
2
3
P811(2P)
P803(2P)
L901TSB2229
!
!F801T2.0A
R8111/2P110k
R8121/2P110k
R8371/2S22k
C817B1000(500V)
D809BYD33J
1 R8331P220k
R835P10k
R836P10k
RA51P33k
RA52P33k
RA54P10k
RA53P10k
POWER ON/OFF
POWER ON/OFF
POWER ON/OFF
QA11BC557B
Q802BC547B
Q8032SC3425
5.0
4.9
4.3
0
0
0
290
0.7
0
(H)
0
300
(
0
-20
300
Q801STR500
POWER R
STR50020 - uk³ad prze³¹czaj¹cy przetwornicy
Fragment schematu OTVC Toshiba 1400
246 STR50020
4
193
114
L811PL-2.2
D806RG2
D807BYD33J
R8161/2FR10
R8201/2R3k9
C8141000R1(2kV)
C81347μ
5 4 3 2
128910
5
R8475W5k1!
!
!
R842P6k8
R843P6k8
R844P6k8
D808R2M
F803500mA
R845P1
C818B390 (500V)
C81210μ
~ - + ~
D810LB-156
1
R8151/2R130
C811 M0.22μ
R814 1R430
J
C810120μ450V
C8044700(AC250V)
C8054700(AC250V)
C8054700
(AC250V)
C8034700
(AC250V)
C8020.1
(AC250V)5
!R8015W6.2
(H)
0
300
(H)
300
Q801R50020ER REGU.
T802TPW3185
CONVERTER TRANS
STR6707 247
STR6707 - sterownik zasilaczy impulsowych
C8010.47u 250V
!
L805150-982A
LINE-FILTER
!
C8020.47u 250V!
C808100u35V
D802RGP15J
R8012.2 5W CEM
IC801
STR6707
+
-
OCP
REF
OSC
8INH
7FB
LATCHOVP
START-UP
PRE-REG
THERMAL
PROPORTIONALDRIVE 5
DR
IVE
4SIN
3
1
2
B
C
E
6
OC
P
9V-IN
8.0
1.5
281.0
D803EU1AV
D804EU1AV
+
R80320 1W(RS)
R8040.332W
C811560p
ZD8016.8V
R805 27K 0.5W
Q801C3852A
!
+
C812220u 35V
C81310u 100V
D806EU1AV
D807 EU1AV
R8064.7K
D805EU1AV
D824RGP-
15JC831470p1KV
+
C832470u35V
FR824125V 3A!
L82350uH
D823FML-G12S
D828RGP-
15J
C827470p1KV105C
+
C8281000u25V
FR823125V 3A
!
L822150-
235A
D825RGP-
15J C835470p500V
+
C836330u50V
FR8251/1W
!
INH3.1Vp-p
L8031uH125-022K
L8011uH125-022K
+
C8104700p4KV
L8021uH125-022K
4 3
1 2
IC802
TLP721
R8091K
VR82110KFORHOSPITAL
FORSATELITTE
R8265.1K
+C833 470u 35V
+C830 1000u 16V
+C829 470u 35V
D822RGP-
15J
+
C82510u
100V
FR822125V3A
!
9 7 64 1
1312
24V
1514
12V
1110
22V
T801 SMPS
TRANS!
1716 18
B
D821RU3AMV
C821470p 1KV105C
+
C822100u160VKME
L821150-
235A
*
R823 47 1W
Q821KTA968A
R82910K
PBO1366-009D!
R80216K 2W
C8031000p 1KV
C8061000p 1KV
D801PB156
C8041000p 1KV
C8051000p 1KV
!
PBO2366-009D
R81016K 2W
!
TH801 163-012A
Q822KTC3198Y
Q823KTC3198Y
OFF/ON
R82836K
R825 47K
ZD82612V
C823100u 160V KME
+
R824 1.2K
Q824 C1026Y
D829EU1AV
+
C8240.1u100VMYL
IC803
SE110N
1
2
3
R821 3K 0.25W1
2
PBO4(ST-BY)(HOSPITAL)
C8160.0047u4KV
C8170.0047u4KV
!
!R8114.7MO.5WCOMP.
!
+
C807120u 400V !
R807330K0.5W
R808330K0.5W
248 STR7000+SI-8020 - seria
STR7001, STR7002, STR7003, STR7101, STR7102, STR7103 - uk³ady
prze³¹czaj¹ce przetwornicy
SI-8020, SI-8021, SI-8022, SI8023 - sterowniki uk³adów STR7x0x
5
GND
2
F.WHEEL
DRIVE3
Vin
4 1SW. OUT
STR7000/7100 Series
SI-8020 Series
VOLTAGE
REFERENCE
and
REGULATOR DEAD TIMECONTROLLEDRAMPGENERATOR
-
--
+
++
OSC.OUT SHUT DOWN
PWM COMP
Vo AMP
684COMPENSATION.A COMPENSATION.B
3 Vo.SENSE
1 GND
2VoADJ
5 DRIVE
7 Vref
9
Vin 10
Io AMP
CURR.SENSE
Schematy blokowe
5
10
8
6
7
1
4
9
2
3
VrefGND
C.B
C.A
Vin Vo.s
C.S
C2330p
C310μ
C12200μ
C41500μ x2(paraller)
*Cs STR7100 Series only
Vo.ADJ
OSC.OUTSHUT DOWN
L
5V ...200μH12V15V24V ...300μH
...250μH
Vo4 1
3
52
Vin SW
DRIVE
GNDF/W*C5330p
DRIVE
STR7000STR7100
SI-8020
SERIES
SERIES
GNDRs
12A... 0.01�
6A... 0.02�
Vin
Schemat aplikacyjny
Pary uk³adów STR7x0x i SI802x
Parametr Napiêcie wyjœciowe Vo [V]
Pr¹d wyjœciowy Io [A] 5 12 15 24
6 STR7001+SI-8020 STR7002+SI-8021 STR7002+SI-8022 STR7003+SI-8023
12 STR7101+SI-8020 STR7102+SI-8021 STR7102+SI-8022 STR7103+SI-8023
STR73410 249
STR73410 - sterownik zasilaczy impulsowych
C01220200
+
R00220 7W
+
-
D001B-156276
C007 4700PF
C008 4700pF
ZD1NI
SH02
SH01JUMPER
FERRITE
CORE
C004560pF400V
C003560pF400V
L002TLF-10
C00122μF/250V
FERRITE
CORE
L001TLF-10
R0011M1/2W
F0014A 125V
ACPLUS
RP01BROM20
R007NI
DP
DEGAUSSINGCOIL
8
10
2
1
++
C04702KV
R001M3W
5
3
4
NC
NC
R07
L004CH101
GND
6
IC0
01
ST
R7
34
10
Fragment zasilacza monitora IBM 6312VGA
250 STR73410
C013470pF2KV
R01033R3W 11
104
T001TSH-4250
58M0000036
R0031M
+130V
C010220μF200V
++
C012470pF2KV
R0081M3W
C0112.2μF100V
C0092.2μF100V
C
C
R005120K1W
R004120K1W
+130V
R001 47R
R01268R/3W
L004H101
+
C0281μF50V
2
13
14
7
6
5
12
R020220 1W
D007BH5
C033470pF2KV
+
C024470μF35V
+
C023470μF35V
+23VL006L-60
R16722R3W
R16522R3W
+C12647μF35V
1
2
INGND
OUT3
IC801
7812
+
C125220μF16V
+12V
C1240.1μF
D008T34
C027470pF2KV
+
C025330μF100V
+60V
8
D002TSH5
+C0141000μF16V
HTR8.3V
R01375R3W
9
D003TSH5
1
2
INGND
OUT3
IC701
7815
C10510μF50V
+16V
+23V
+
R1051.8K
R106
18�YR107
10016V ADJ
�
STR81159A 251
STR81159A - prze³¹cznik napiêcia 110/240V
12
34
5
-14
8
0.5
00
14
8
C9
12
2μ
24
00
V
C9
11
10
0μ
50
V
D9
02
RM
11
CV
OLTA
GE
-RE
CT
R9
05
2.2
1/4
W
R9
06
4.7
C9
15
0.0
047
25
0V F
C9
15
0.0
047
25
0V F
C9
13
0.1
!D
90
1D
45
B6
0L
-FA
C-R
EC
T
C9
17
50
0μ
25
0V
C9
18
56
0μ
25
0V
R9
07
39
0k
1/2
W
C9
16
0.0
47
20
0V
JW
90
4O
FF
JW
90
3O
FF
C9
10
0.1
R9
03
3.3
10
W:R
B
R9
01
1M
1/2
W
C9
03
0.2
22
50
V:M
PS
R9
02
8M
21
W
C9
04
0.0
047
40
0V F
C9
06
0.0
047
40
0V
F
C9
09
0.0
047
40
0V
FC
90
80.0
047
40
0V
FC
90
50.0
047
40
0V
F
C9
07
0.0
047
40
0V
F
22
11
44
33
T9
02
LF
T
T9
01
JW
90
2O
FF
JW
90
5O
FF
JW
90
6O
FF
JW
90
1O
FF
!
!
!
!R
Y9
01
D9
03
1S
S11
9P
RO
TE
CT
OR
TH
P9
01
AC
IN
AC
10
0V
to240
V
TO
AC
INLE
T
CN
90
12
PW
HT
:VH
CN
90
32
PW
HT
:MIN
I
1 2
AC
AC
NE
UT
GN
D
TO
MA
2B
OA
RD
CN
90
61
P
1
TO
CH
AS
SIS
GN
D
D6
37
1S
S11
9C
LA
MP
D6
36
1S
S11
9C
LA
MP
F9
01
25
0V
4A
C9
01
0.2
22
50
V:M
PS
TO
DG
C
DG
C
DG
C
1 2
CN
90
4Z
PW
HT
:MIN
I
CH
EC
KC
N
1 2
CH
EC
K
CH
EC
K
IC901
ST
R81159A
VO
LTA
GE
-SW
Fra
gm
en
t s
ch
em
atu
za
sila
cza
OT
VC
KV
14
20
K z
ch
as
sis
BC
-2 f
irm
y S
on
y
252 STR84145
STR84145 - prze³¹cznik napiêcia sieci (110/220V)
2 3
LATCH
REG.
+
-
OSC.
+
-
7V
+
-
1
MT1
DELAY
5
COMMON
MT2
4
GATE
STR84145
Schemat blokowy
Podstawowe parametry
- maksymalny pr¹d 12A
- niepowtarzalny, maksymalny pr¹d 120A
+
+
246-373 V peak
17
4-2
65
Vrm
s
+
+
240-373 V peak
85
-13
2V
rms
Uk³ad wykorzystuj¹cy wszystkie
diody mostka
Podwajacz napiêcia (wykorzystane s¹
tylko dwie diody mostka)
STR84145 253
Typ
ica
la
pp
lica
tio
n
23
+-
+-
7V
+ -
1
5
4
+
C2
C1+
C3
C4
R1
RB
VS
ER
IES
RM
11C
-t°
85-265 V rms
+
240-3
73
Vpeak
+
ST
R8
41
45
Sc
he
ma
t a
plik
ac
yjn
y
254 STR9005, STR9012, STR9015
STR9005, STR9012, STR9015 - regulatory napiêcia
Tr1
R2R1
Drive
Am
p.
Vre
f
Pro
tectio
nReg.
R3R5
3
5
R7
R6
R8
Tr2
2
M
1
R4
4
Terminal Connections
1
2
3
4
5
Output (backside of case)
Output Fine Adjustment
Output ON/OFF Control
Input
Ground
Schemat blokowy
5
3
4 1
2
C2
Vo
DC output
D1
Vin
C1
DC input STR9000series
Schemat aplikacyjny
Parametr STR9005 STR9012 STR9015
Napiêcie wejœciowe 6 ÷ 15V 13 ÷ 25V 16 ÷ 25V
Napiêcie wyjœciowe 4.9 ÷ 5.1V 11.8 ÷ 12.2V 14.8 ÷ 15.2V
Pr¹d wyjœciowy 4A 4A 4A
STR9005, STR9012, STR9015 255
1
253
4Vin
GND
STR9000
series Rexfor Vo down
Rexfor Vo up GND
Vo
Zmiana napiêcia wyjœciowego
Do³¹czenie pomiêdzy nó¿ki 1 i 2 rezystora powoduje zmniejszenie napiêcia wyjœciowego. Natomiast
w³¹czenie rezystora pomiêdzy nó¿ki 2 i 5 powoduje wzrost napiêcia wyjœciowego.
1
253
4Vin
GND
STR9000
series R1
R2
GND
Vo
VR
Precyzyjne ustawienie wartoœci napiêcia wyjœciowego
Regulacja napiêcia wyjœciowego dokonywana jest przez do³¹czenie rezystorów do wyprowadzeñ 1,
2 i 5.
Wy³¹czenie napiêcia wyjœciowego nastêpuje wtedy, gdy napiêcie miêdzy nó¿kami 3 i 5 jest wiêksze
ni¿ 2V. Wyjœcie zostanie odblokowane, je¿eli miêdzy tymi nó¿kami jest mniej ni¿ 0.6V.
256 STR90120
STR90120 - regulator napiêcia
Fragment schematu OTVC Sony KVD3431D z chassis DE2
3
4
2
1
ST.BY
12V OUT
GND
15V IN
K-20TO K BOARD
D-204PWHT-H:MINI
1
2
3
4
5C5502330μ16V
R511368k1/4W
2.6
12V
15V
IC503STR90120
12V REG
STRD3035 257
STRD3035 - regulator napiêcia
12
34
5
RE
GO
UT
RE
F
133.7
142.0
134.3
!
IC6
01
ST
RD
30
35
135V
.RE
G
R415
12k
2W
R616
3k3
R603
100k
1/2
W
F602
1.2
5A
C616
10μ
160V
R617
47
C617
10μ
160V
R618
470k
C602
330μ
200V
L602
3.3
μH
L601
3.3
μH
R601
1M
1/2
WD
603
TV
R4J
+B
.RE
CT
D601
TV
R4J
+B
.RE
CT
D602
TV
R4J
+B
.RE
CT
D602
TV
R4J
+B
.RE
CT
R602
2.2
10W
T601
LF
T
C601
0.2
2125V
!
F601
6.3
A
WH
T
1 2 3
A-1
3P
WH
T
2 1
A-2
2P
WH
TL901
DG
CT
HP
601
135V R61
020
020
W
AC
120V
60H
z
!
135V
Fra
gm
ent
sch
ematu
OT
VC
Son
y K
V-1
3T
R14 i
KV
-13T
R24
258 STRD5095A
STRD5095A - sterownik zasilaczy impulsowych
Sch
emat
zasi
lacz
a O
TV
C H
itach
i C
MT
2179 c
hass
is S
2-M
3
~!!
! ! !
!!
!!
!
!
!!
!!
!
!
!
!
!
!
!
E9
04
L9
05
E9
03
AC
20
0/2
20
V5
0H
zS
90
1
F9
01
T3
,15
AC
90
10,1
L9
01
TH
90
1
R9
01
1,5
7W
R9
01
A1,8
7W
FB
90
10,8
C9
03
0,0
047
1
2
4
3C
90
40,0
1
C9
02
0,0
047
D9
01
-D9
04
EM
2A
FB
90
20,8
C9
06
33
03
50
C9
21
33
P5
00
ZD
90
6H
ZS
30
1L
ZD905HZS301L
FB
90
50,8 C9
18
39
0P
2 5
R9
02
47K
1/2
W
R9
03
47K
1/2
WC
90
52
2/1
60
R92682K 1/2W
143
IC901
ST
RD
5095A
C9
98
10
00
P
C9
99
22
00
PR
99
81
0M
/1W
S1
S2
T9
01
P1
P2
FB
90
8C
91
71
80
P
D9
08
RU
2M
FB
90
9
C9
16
22
00
/16
ZD
90
3H
ZS
20
-1
Q90
2
2S
A1
390
R9
18
15
0
R9
15
1,5
K1
/4W
Q90
3
2S
C3
41
3
R9
23
4,7
K
R9
22
10
K
Q90
5
2S
C1
21
3
C/DR
91
43
90
1W
Q90
4
2S
B1
54
8A
P/Q
S. OUT
+B
ZD
90
4H
ZS
6C
1
R9
16
4,7
K
R9
17
10
K
R9
19
3,3
K1
/8W
ON
/OF
F
12
3
45
6
IC902
TL
P631
!
FB
90
30,8
6
FB
90
7
D905FMG-G2CS
C9071000P
C920 470P/1KF
B9
06
FB
90
40,8
D9
09
R2
G
C9
14
22
01
00
Q9
01
CR
5A
S-8
C9
15
10
/16
R9081R/2W
R8
12
1K
D9
10
EM
2A
C9
08
18
0P
R9
08
10
1/2
W
R9
25
10
R1
/2W
ZD
902
HZ
7B
1
D9
07
MP
G0
6D
C912 470P/2KV
10
R9
05
82
01
/8W
C9
10
0,2
2
F2
F1
B1
ZD
90
7H
ZS
7A
1
C9
19
47
0P
/1K
V
R9
21
27
0K
1/8
W
R9
20
22
0K
1/8
W
R9
10
18
K2
W
R9
11
1,5
K
R9
24
18
K2
W R9
13
82
0
FB
P
PR
O
+9
5V
LIV
E
CO
LD
6IC
901
3pin
360V
1H
p-p
R930
STRD6601 259
STRD6601 - sterownik zasilaczy impulsowych
Sch
emat
zasi
lacz
a O
TV
C H
itach
i C
L1709R
~!!
!
~
E9
00
P1
P2
F9
01
T3
,15
A
L9
01
L9
00
A8
2μ
H
L9
00
B8
2μ
HR
99
91
0M
/(1
/8W
)
S9
01
C9
01
0,2
2A
C2
50
V
L9
02
FB
99
8
C9
98
10
00
PA
C2
50
V
C9
02
0,0
1A
C2
50
V
FB
92
4
C9
03
47
00
PA
C2
50
V
C9
04
47
00
PA
C2
50
V
D9
04
D9
01
D9
03
D9
02
D9
01
÷D
90
4E
M2
A×
4
R9
01
82
K/
(1/2
W)
R9
09
6,8
K(1
/8W
)
D9
08
1N
4148
ZD
90
2B
ZX
79
C4V
7
FB
91
3C
90
547
/38
5 PC
T
R9
03
15
0(1
W)
R9
07
10
K D9
07
MP
G0
6J
R9
04
3,3
K
R9
05
5,6
K
C9
10
10
/16
D9
05
MP
G0
6J
L9
03
47
0μ
H
R9
02
82
0/(
1/8
W)
C9
07
0,0
1/5
0D
90
6M
PG
06
J
C9
06
22
00
P/2
K
FB
90
1C
911
10
0P
/50
C9
09
0, 0
02
2/5
0C
90
80,4
7/5
0
ZD
90
1B
ZX
79
C2
V7
R9
08
15
0/(
1/8
W)
FB
902
12
34
5IC
901
ST
R-
D6601
TH
90
1
L9
10
FB
99
9
C9
99
22
00
PA
V2
50
V
B2
B1
P2
S3
S4
S1
S2
P1
T90
1
C9
51
33
0P
/2K
FB
95
1
D9
51
RG
P1
5J
C9
52
18
0/1
601
10
V
D9
52
RU
3A
M1
5V
L9
51
82
μH
FB
95
2F
95
1T
2A
C9
55
47
/25
C9
57
33
0P
/50
0C
95
43
30
/50
4 5 6
3 2 1
R9
54
8,2
K/(
1/2
W)
C9
56
22
00
P5
00
VR
95
11K
-B
R9
51
39
K(1
/2W
)
R9
53
47K
(1/2
W)
ZD
95
1B
ZX
79
C6
V8
R9
52
2,4
K(1
/8W
)
ZD
95
2P
6K
E1
30
A
C7
01
10
0/1
60
KM
E
C9
53
0,0
47
50
R9
58
6,8
K
R0
70
10
K
ZD
00
32
V7
C9
58
10
0/1
6
R9
56
2,4
K(1
/8W
)
R9
55
9,1
K
12
V4
31
2
5
R9
59
33K
Q95
2
BC
45
8B
L7
01
Q95
1
BF
42
3
IC902
CN
X82X
IC903
LM
2941C
S2
+B
AD
J.
<2
4>
<2
5>
<3
4>
47μ
H
260 STRF6523LF
STRF6523LF - sterownik zasilaczy impulsowych
Schemat zasilacza OTVC Panasonic TX25CK1P
!
!
!!
~!
!
!
!
!
!
!
DEGCOIL
D80159209T80B110
E3
L801ELF15N005A
E2 F80119181/8,16
C8050,47250V
R8023,3M
C803500V1,5N
C8022KV3,3N
C1210100μ16V
R120268
D12051SS133T
R120956
1/2W
C12020,33
C1201470μ16V Q1201
BC847B
D12021SS133T
RL801DJ5D1-OM
C8164,7N500V
C8064,7N500V
R8032,77W
C8074,7N500V
C8084,7N500V
L802EXCELSA35T
C809400V100 R
80
41
00
K
1 1
2 2
3 3
IC1202
BA05T - M1 TP8
C120316V100μ
C1205330N16V
IC1201
BA033T
TP1
R12051,5K
C1210016
R2
Q1204
BC847B
4
3
2
1
5
START
REG
T.S.D.
O.V.P.
LATCH
O.S.C.
C2 C1 R1
R2DRIVE
R3
IC801
STRF6523LF51
D8101SS133T
R81433
D813
AC8121,8N1KV
C810100μ50V
R8063,3K
D8121SS133T-7
L.F.
S801ESB92S11B
R8128,2M
D1201TVSS1WBS20
P1
S1
P2
S2
T801ETP35KAN619U
JS
E2
8
D802RBV-408
MTZJT-7720D
STRF6523LF 261
!
!
!
!
TP1
C1204100μ16V
R115010K
R120622K
R8090,33
L803EXCELDR35V
D803AUO1
R80510K
D8111SR124
D8061SR124
D812133T-77
C81868N
!
D804SFH617A
R81310K
D805
1
2
3
IC802
SE140NLF4
D814MTZJT-773.9A
1
2
3
4
5
6
7
8
10
11
12
13
14
15
16
17
18
R81110
R8101,5K
C813220P2KV
C8141N
1KV
D808RU3LFA1
D809R2KNLFA1
C815160V220
F853TR5-T500
F852TR5-T1000
L853EXCELSA35T
L852EXCELSA35T
D852
C854500V470P
TP14
C85950V470
D8531SR124-4AT82
C86035V330
R8531503W
R854150
TP15
R8572K
R85810K
Q852
2SA684R
Q851
BC557B
/126
R856100
R8554,7
C7020,1
C85635V470
D851TVSRU3AM
L851EXCELSA35T
F851TR5-T500
P1
S1
S2
S4
S5
S3
B1
B2
P2
TVSRU3AMJSE19
T802ETS003EUR
262 STRF6535
!
!
!
!
!! !
!
!
!
!
!!
!
!
R52612WX
W802
C523220p1kV R
C512470pB
R525680
1 2 3 4 5
-32.6 16.9 001.7
GN
D
Vin
DSO.C
.P/F
.B
IC503STR-F6535
SWITCHING
B502
D523
1S
S133
BF
400TA
-3.5
X6
X1
C506
0.0033 250V KX
11
22
BLUE BLUE
BROWN
BROWN
CD50106655806
AC230V, 50Hz
1 2
43
C5040.1250VECQ-U
FH502EYF-52BC
FH501EYF-52BC
F501T1.6A 250V
Z1801-6
CP5012-173270-3
L501ELF15N003A
C5050.0033250VKH
D504
D502
D503
D507
1N4005E
1N4005E
1N4005E
1N4005E
C50868μ400VUSW
R51582k2WX
R508220k1/2W
R511270k1/2W
D5181SS133
D5101SS133
D5111SS133
C509
0.0039 M
R513
1k2
1k2
R512
R5144k71/4W
C5010.01500VE
VB52
D522EG-01C
R520
15
7
8
9
10
11
6
5
4
3
12
13
141
NC
T5018129009
4
3
1
2
4.1 4.1
5.216.9R506
1k
PHOTO COUPLERQ511
ON3171R
C5100.022F
D5201SS133
R522
3k31/2W
C50747μ35VV2
STRF6535 - sterownik zasilaczy impulsowych
Zasilacz magnetowidu VH2898 firmy Orion
STRF6535 263
!
!
! !
!
!
!
!
!
!
7
8
9
10
11
12
13
14
09
R506
1k
C5130.01F
R5373.9 1/4W
D513
GMA-02
1
1
3
2
2
3
R534
11k±1%
7k5±1%
R5163k3±1%
2.5
10.1
0
0
4.9
12.8
IC501NJM4311
IC502TA7810S
(L852DEC2)
VOLTAGE CTL
AT 10V REG
OU
T
IN
GN
D
GN
D
IN
OU
T
C515
0.0047 B
R509
W814
W808
R5101k
W834L505
22μH
D506MTZJ30B
B504BF400TA-3.5X6X1 !
!!
!
D514
RUZYX-V1
C5330.0056 B
C519220μ25VHFO
C522_11000μ16VYK
C52110μ50VKA
+
F
F
F
R531
100 1/4WR538
10k
D521
1SS133B505BF400TA-3.5X6X1
D51611ESIN
D512
AC04
C5340.001 B
L504
22μHELC0607
D522MTZJ33B
C52410μ50VKA
R53210k1/4W
R529
470 1W
C51810μ50VKA
D515
1N4005E
5.1
5.1
5.2
5.95.9
9.3
1010
0
0
0
0.2
P. ON SWQ504
DTC143EKA
Q505DTC143EKA
Q5092SB926
Q5012SB926
D5011N4005E
R505_11k4W
C52847μ16VKA
C51147μ16VKA
R504
1k
P. ON SW
C5260.01 B
C5270.01 B
R528100k
P. CON 5V SW
R5231k
R521470
1/4WC5360.1 F
R53947k
W812 W857
C5201000μ
6.3VYK
C514390μ16V
HFO
C517100μ6.3VHFO
W823
D525
1N4005E
D524
1SS133
D513
11EQSD4N
C5031000μ6.3VYK
TO HEAD AMP
TO Y/C/AUDIO
TO OPERATION
FROM/TO SYSCON/SERVO
TO TUNER/HIFI
TO 21PIN/OSD
AT+10V
P.CON+5V
AT+5V
+32V
P.CON+5V.B
P.CON+9V
P.CON+5V
AT+5V
AT+12V
AT+5V (MICON)
POWER_FAIL
LED+5V
AT+5V
P.CON+5V
POWER_ON-H_A
HEATER_DC+
-30V
AT+5V
HEATER_DC-
P.CON+5V
P.CON+9V
P.CON+5V
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
(AUDIO)
(TUNER)
(HIFI)
(CYL)
(CAP)
(LDM)
(LED)
(Y/C)
(AUDIO)
D526MTZJ62B
!CAUTION: SINCE THESE PARTS MARKED BY ARECRITICAL FOR SAFETY, USE ONESDESCRIBED IN PARTS LIST ONLY.
CAUTION: DIGITAL TRANSISTOR
NOTE: THE DC VOLTAGE AT EACH PART WASMEASURED WITH THE DIGITAL TESTERDURING PLAYBACK.
264 STRF6552LF
STRF6552LF - sterownik zasilaczy impulsowych
START
-+
4
3
2
1
IC1150STRF6552LF
IC1150-4 STOP2.0Vp-p (10μsec. div.) IC1150-3 STOP
450Vp-p (10μsec. div.)
IC1152Vp-p
16.7
REG
T.S.D
0.V.P LATCH
DRIVE
381
0
0.4
C4
R110412k
R110512k
R110612k
R110312k
R110212k
R110112k
4
3
~
~ +
-
D1101S1WBA80
4 3
1 2
!!
!
!
!
!
!
!L1121ELF17N004A
R1120330k
C11210.1
C11200.1
C1123330p
2 1
3 4
L1120ELF15N005A
C1122330p
P1101VJS3306
AC INLET
F1180XBA2C16TB0
5
O.S.C
Fragment zasilacza magnetowidu NV-SD435FF firmy Panasonic
STRF6552LF 265
T1150-7 STOP100Vp-p (10μsec. div.)
T1150-3 STOP40Vp-p (5msec. div.)
C1150-1 STOP2Vp-p (10μsec. div.)
IC1150-2 STOP15Vp-p (10μsec. div.)
81
4
D1150MA723
R11530.39
LB1150VLP0056
C114147μ 35V
1
2
+
-
C114082μ400V
!
LB1126VLP0056
C11241000p
C11520.01
D1151AP01CV2
R115022k
R115122k
R1107560k
R1108470k
R1152330
C1150150p
R1154100
D12011SS254
D12021SS254
C11511000p
R12022200
3
4
P1
P2
7
D1180MA7300B
D1200MA185 R1200
22
6V1
V2
13
12
11
18
17
16
15
14
S3
S4
S6
S1
S2
10S5
S8
S7
!
C12008200p
4
3
1
2
16.7
4.8
Q1200PC123FY2
!
T1150ETE28K112AZ:435
VLT0917:235
266 STRF6707, FA7610CP
STRF6707, FA7610CP - sterowniki zasilaczy impulsowych
Schemat zasilacza OTVC + VCR Combi 2610 firmy Orion
CONT
DRIVER
GN
D
VCC D S FB
/OC
P
+
+
+
UVLO
VREF OSC
BIAS+-
+
-
++
+-+
-
100.5
+
+
2
3
1
3 2
14
ICP502
251007
7A125V
DC JACK
J503
HEC0824-010010
ICP501
251007
7A125V
12.0
0
0 D513
1SS133
D516
1SS133
RY503 ALKS329 D522 MTZJ16B
12.0
12.0
6.0
0
0
0
0.7DC POWER SW.
Q5112SC2120Y
0
0
0
11.3
11.3
4.1
DC POWER
CONTROL
Q510DTC114ES
DC POWER SW
DRIVER
Q504DTA114ES
R5
23
3.3
k R527
3.3k R537
2.2k
C544
0.068
M
R521
1k
PROTECTOR
Q514DTC114ES 4.1
0
0
+ +
+
TV.POWER.H AT+103VS804Y
S804X
C534 2K
5 4 3 2 1
R504
4.7k
R536
100kVR501
4.7k
DC +B ADJ0
0
5.2
5V SWITCHING
Q513
DTC114ES
R554
47k
R5
53
47
k
R532
330
D5
28
MT
ZJ5
.6B
R533
1.5k6.8
0
0R513
470
R516
330
5V SWITCHING
Q506
DTC114TS
D523
1SS133
D529
1SS133
6.0
5.4
6.3
FE
ED
BA
CK
SW
ITC
HIN
G
Q5
07
2S
C1
74
0S
P
C554
0.01 M
C549
0.01 M
R552
10k
R529
5.6k
R514
560
VR502
470
C546
250V
470P KX
D503
RM11C
C503
2KV
0.0022
B
C502
2KV
0.0022
B
D504
RM11C
1
2
D536
RM11C
CP
TS-80P-02V1
BLUE
BROWN
00
0.5
SWITCHING
Q517
DTC114ES
R5
34
3.3
k
R509
560 R539
1k
0.1
TF
C5
09
R508
12k
C506
0.0033 M
1 2 3 4
0.5 0.8 3.10
FROM/TO
POWER
POWER
CONTROL
IC504
FA7610CP
8 7 6 5
2.6 0.4 0.9 11.9
R515
68kR5
07
33
0k
C504
50V
2.2
YK
C551
25V
1500
ZL
C515
25V
1500
ZL
R522
180k C5
08
0.0
01
2
M
L503
10μH
0
0
0.9
PO
WE
RFA
IL
Q5
15
DT
C1
14
ES
C512
0.01
B
R518
100
11.5
3.0
3.1
0
12.0D
G
S
3.0
REG DRIVER
Q509
2SC1740SP
R524
2.2
0
3.0
3.1REG DRIVER
Q512
2SA952 HS502
POWER REG
Q505
2SK2903-
01MR
D535
RM11CC550
500V
0.0022
B
C507
400V
100
USP
R505
68k 3W
D525
1SS244
R525
4.7k
R506
2.2k
C514
0.0033
B
R528
2.2k
D526
1SS133
R503
5.6k 1/4W
NC
HS501
C511
100V
0.01
TF
W829
B503
BL02RN1-R62
D518
10ELS6
D506
HZ27-1L
AC POWER SENSOR
Q508DTC114ES
0.70
0
SWITCHING
POWER IC
IC501
STR-F6707
0 18.0 335.0 0.7 2.1
C5
22
50
V2
2Y
K
R511
680
1/4W
D514
EU2VX
C5
10
35
V1
00
YK
D5
05
10
EL
S6
R510
0.39
1W
C5
13
47
0P
B
R544
22 1/2W
C529
250V
220P
KX
GND1
N
19
N
C5
47
2K
V5
60
PB
P
D5
31
EG
-01
C
329
330
B5
02
BL
02
RN
1-R
62
C52
2
820B505
BL02RN1-R62
D52
RU
ICP504
251005
5A125V
D520_1 2
D538 2
C540_1
160V
22 YK
C5
41
16
0V
10
VZ
R526
10k
101.2
101.1
+B 103V
Q50
2SC41
-OEC-YA
811.9
711.9
511.9
411.9
211.9
111.9
110.46
100
90
130
120
140
16100,0
150
NC
NC
NC
NC
1 4
322.1
14.9
6.3
7.3
CAUTION: IS THE LIVE CONNECTION
T502 8135033W
FEED BACK
IC506
ON3171R
AC
+B
AD
J
110
500
OHM
STRF6707, FA7610CP 267
+ ++
+
R535
4.7k
R519
100k
1/2W
+
+
C535
1
TF
C534 2KV 470P B
++
+
+
6
8
7
5
4
3
1 16
14
15
13
12
11
10
9
C5
43 10V
1000
YK
1
GND1 0
0
NC
0
19.7
NC
D5
31
EG
-01
C
329.0
330.0
C546
250V
0.001
KX
C525_1
2KV
820P BP
D521_1
RU2AM
D520_1 21DO09N
D538 21DO09N
C540_1
160V
22 YK
101.1
B 103V DRIVE
Q503
2SC4160
-OEC-YAC11
103V DRIVE
Q502
2SA1371
101.2
101.1
100.5
R520
10k
R531
10k
0
0
0.6103V SWITCHING
Q501
2SC2909
B504
BL01RN1-A63
D527
1SS133
C518
500V 470P B
ICP505
251004
4A125V
D512
21DO04N
S802Y S802X
ICP506
251005
C527
500V 470P
B
D508
21DO09N
W828
2 3 4
R545
2.2 3W
13.5 9.0 0 4.1
IN OUT GND STOP
IC507
PQ09RD089V REG
IC503
BA12T12V
REG
1 2 3
D519
21DO09N
C519
500V 470P B
25V
220
ZLC5
24
_1 16V
470
YK
+
C5
32
S806X
S806Y
IN GND OUT
C5
37
10
V3
30
YK
D524
21DO04N
C536
35V 470
VZ
D534
1SS133
1SS133
D532
1 2 3
13.0 0 12.0
IN GND OUT
13.0 0 6.0
C531
16V
1000 ZL
C526
10V
1000
MHE
IC505
NJM7806FA6V
REG
C5
45
50
V
0.4
7Y
K
1 2 3
IN GND OUT
8.8 0.6 5.6
IC502
NJM7805FD5V POWER
REG
HS503
C542
16V
100
YK
763WAA0109
D5
17
11E
0S
04
N
W816
C521
160V
100
PR
C5
28
MT
ZJ3
0B
R512
10k 1W
C520
10V
1000
YK
R517
10 3W
D509_1
RU2AM
C517_2
2KV 100P
BP
EYF-52BC
FH503
EYF-52BC
FH504
21802.5
T2.5A_L_250V
F502
SWITCHING
TRANS
8135034W
0.0
22
F
D5
15
P.CON +9V
+6V
POWER FAIL
AT +30V
AT +5.6V
GND
AT +12V
AT +12V
P.CON +9V
AT 5.6V
MOTOR GND
AT +30V
POWER FAIL (DC)
AT +21V
+6V
1
2
3
4
5
6
7
8
9
10
W824
+6V
W825TO POWER
(1TURN)
CP810
8283_1012_00_000
FROM/TO CHROMA/IF
GND 1
CD601 CH1010A
+13V
TO DEFLECTIONPOWER FAIL
AT +30V
GND
P.CON +9V
FROM/TO
DEFLECTION
P.CON +100V
SOUND +B
TV.POWER_H
AT +5.6V
+6V
SOUND_GND
AT +5.6V
SOUND +B
AT +103V
R540 1.2k
P.CON +100V
TV.POWER_H
+6V
VCR.POWER_H
FROM/TO DEFLECTION
T501
ICP503
251005
5A125V
9
CAUTION: DIGITAL TRANSISTOR
117.5
117.5
3.2
117.5
NC
0
NC
0
118.0
118.0
PCB070TM9415
268 STRG6153T
STRG6153T - sterownik zasilaczy impulsowych
9
10
11
D109RU4YX
D108EU01
8
7!
F103ICP-N
12
13
15
D106ERC81
004L
D105EU01W
!
14
23
R
IC103KA431AZ or
KIA431
2
D104EU01W
R1038.2
1
+ C10933/25
C1110.022
IC102PC123Y
orLTV-817B
C1123300P/400V
!
C113220P/400V!
6
4
C1050.01/630
C106100P/1K !
!
T101EER2828!
BC102BEAD CORE
D102ERA22-10EG01CW
R10456K2W
!
MirrorFB CurentDetector
Drive
R
S Q
Reg1(9.4V)
+
-
1
+
-
FB OCP
4
Reg2(7.2V)
Reg3(7.2V)
OSC
FB
BufferAmp.
DROIN
2
OCP
3
GND
Counter
TSD
OVPStart
5VCC
Latch
IC101STRG6153T
R1090.352W
!
HOT CIRCUITPOWER CORDAC200-240V
50Hz
!
PW101
!
FH01
FH02
!
!
F101T1.6A/250V
!
C1010.1/275V!
L10233m
!
BD101S1WBA60
C1020.1/275V!
!
R102100K2W
BC101
BEAD CORE
R1012.7 2W !
+ C10368/400!
C1220.022
MAIN (POWER SECTION)C.B
Schemat zasilacza magnetowidu HV-FX5200 firmy Aiwa
STRG6153T 269
+ +
+
D109RU4YXLF
L10422MH
C120470/25
C121470/25
C11947/50
D108EU01W
FR024.7 1/4W
+ C118220/10
D107ERA18!
F103CP-N10
D106RC81-
004L
D105U01W
+ C11547/50
R1172.2K
R116 330
+C117470/16
+
C1161000/16
L10322MH
C1140.047
R1181K
R1193.3K
R1202.7K1%
R121180
R114100K
Q154KTC3198BL
R16412K
R16512K
Q155KRA103M
R1672.2K
R1662.2K
Q156KTC3203Y Q157
KRA103M
R
R
R169 1K
R1701K
Q164 KTA1273Y
Q158KTA1268BL or
KSA709CY
R154 1K
R155 27K
R161270
R162330
Q162 KTA1273Y
D1511SS133
Q160KRC101M
R
R15610K
R158270
R159330
Q159 KTA1273Y
+
C12347/6.3
R1571K
Q161KTC3199BL
+
C12422/16
R172 12K
ZD104MTZ5.6B
C1550.1
L105100M
1A
2A
+ C1514.7/50
ZD151MTZ13A
R1511.2K
Q151KTC3203Y
+ C15710/16 + C153
4.7/50ZD152
MTZ10C
R1521.2K
Q152 KTC3203Y
+ C15610/16
Q165KRC101M
R
+
C1524.7/50
ZD153MTZ13A
Q153 KTC2804Y
+
C15910/16
R1713.9K
3A
12VA
5V
GND
ToHi-FiSECTION
1B
2B
3B
4B
5B
6B
5.3VA
9V
5VT
33VT
5V
GND
ToTUNER/IFSECTION
1B 6B
1A 3A
1C
2C
3C
4C
5C
12.3V(CAP)
12V(DRUM)
-27VG
-21VG(F-)
-15VG(F+)
To/FromSYSCON/SERVOSECTION
1C 13C
5VG7C
6C STAND-BY''H''
8C TIMER ''H''
5VT9C
5V10C
11C PWR CTL''H''
5.3VA
GND
5VT
5V
GND
12C
13C
1D
2D
3D
ToA/VSECTION
1D 3D
D1521N4003A
D1551N4003A
D1541N4003A
270 STRG6551
STRG6551 - sterownik zasilaczy impulsowych
PQL52
KTC3203
PQL51
KSR2101
PRL51
PRL53
PR
L52
10k
PD
L52
1N
4148
PD
L51
1N
4148
PR
L54
10k
PR
S34
2k2(F
)
2k2
2k2
PQL53
KSR2101
PQL54
KTC3203
FBCPWR
CTL
OUT
GND
IN4
3
1
2
PRS321k
PR
S33
3k(F
)
PCS32100n
FBCPWR
CTL
OUT
GND
IN4
3
1
2
PDL551N4148
PRL5510k
PR
L56
2k2
PE
S51
47μ
/16V
PE
S31
100
μ/2
5V
PQL56
KSR2101
PES521μ/50V
PICS4
78R08
PQS56
KSR1103
PQS58
C2328
PQS57
C2328
PQS55
KSR2101
PQL57
KSR1101
PQL55
KTC3203
2
1
3 OUT IN
GND
PICS3
7908
AGND
PES331000μ/10V
PE
S32
100
μ/2
5V
PES341000μ/10V
PES3547μ/50V
PR
D31
1k
PC
S31
10p
PE
S36
470
μ/1
0V
PDS36F1T4
P1
PDSSG4
U
PDS31F1T4
IMPORTA
COMPONENTS IDEHAVE THE SPECIASAFETY. WHEN RECOMPONENTS, US
PES37220μ/10V
PE
S54
47μ
/16V
PRS55470(1/4W)
PLS3110μH(choke coil)
PDS52 1N4004
PZS51MTZJ5.1B
PDS511N4148
PICS5PQ3RF23
Fragment zasilacza odtwarzacza DVD DVD511, DVD611, DVD611B,
DVD615 firmy Samsung
STRG6551 271
PICS2431
PRD32
1k
470
6
PDD35F1T4
PRS311
-28V
3.3V
VF+
VF-
PDS34SG45
PDS33SG45
UG2D
8V
5.8V
A
K E
C
PICS1
PC123 !
PE
F12
33μ
/35V
PRIMARY
GND
PRECISIONREFERENCE
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!PLF01400μH
PCF01100n
PVA1SVC471D
PF
DO
11.6
A250V
PC
DO
1100p
PC
DO
3100p
PB
SO
1B
EA
D
PB
F11
BE
AD
PB
D11
BE
AD
PC
D12
101(1
kV
)
PC
D11
103(6
30V
)
PD
S11
UF
4007
PCNS2YW396-02V
PCDO22n2
PCDO32n2
DGND
PDF13F1T4
PD
F12
F1T
4
PRF1668 VCC GND
S F/B
D
PICF1STRG6551
PRF1347k(1/4W)
PRF1247k(1/4W)
PRF1447k(1/4W)
PR
F11
47k(1
/4W
)
PRS1233k(2W)
PRS1133k(2W)
PRF151M(1/2W)
PRF102.7(2W)
PE
F10
82μ
/400V PDSO1
1T5PDSO21T5
PDSO41T5
PDSO31T5
PDFO11T5
PCFO2100n
PLS0125mH
PRF173k3
PR
F19
1k
PR
F20
0.3
3(2
W)
PCF13221
HOT
NOTE: WHEN YOU CHECK THE VOLTAGEOF THE PARTS IN HOT CIRCUIT.CONNECT PRIMARY GND TO THE GNDTERMINAL.
S314
RTANT SAFETY NOTICE
S IDENTIFIED WITH THE MARK,ECIAL CHARACTERISTICS FORN REPLACING ANY OF THESES, USE ONLY THE SAME TYPE.
PTD1S5-38
15
14
11
10
9
8
7
1
2
3
4
5
6
13
12
272 STRM6545LF
STRM6545LF - sterownik zasilaczy impulsowych
1 2
34
1 2
34
~
! ! !
!
!
! ! !
! !
! ! !
! !
C1001VCC0024
C1004VCC0024
C1002VCK0046
C1005VCK0046
C1006VCK0046
C1003VCK0046
J1003
F1001XBA2C16TH15
L1005ELF18D221F1
J1004
R1002ERC12GM334
C1007ECQU2A104MN
C1008ECQU2A154MN
1
23
4
+
-~
~
L1006ELF18D290AP
D1001S1WBA60
R1004ERF2TK2R2
C1009ECEC2GC680BB
L1009EXCELSA35
C1012VCK0046
C1011VCK0046
C1010VCC0024
R100110K (FR)
D1004MA4200HTA
5
7
6
3
4
2
1
IC1001
STRM6545LF!
START D.V.P.
Reg
T.S.D.
Triger
Latch
D.S.C.
Drive
D.C.P.
C1026ECAOGXLV331V
R1018100 (FR)
R1017220K(FR)
C1027ECKZ1H102KB
C1028ECKZ1H102KB
D1008MA723-TAVT R1019
1500
(FR)
R1020ERX1SJR
82E
R1021470(FR)
R1023ERDS1VJ395T
R1024ERDS1VJ475T
R1022470 (FR)
L1014VLP0074
C1015ECA1VXLV4708
R1008
220
(FR
)
D1003MA178TAS
R1
00
6E
RD
S2
FJ2
24
T
D1002AP01CV2
C1013VCKO106K121T
R1007
220K
(FR
)
R1005ERG35J
393HC1014
ECQE6473KF
Schemat zasilacza magnetowidu Panasonic AG-6124E/B
STRM6545LF 273
!
R1016270
Q1001PS2561L1V1
!
1
23
4
F
5P1
6PT
7P2
12S6
S511
S213
15S1
3V2
S416
14S3V1
2
T1001VLT0692
C1016*
D1005*
L1010*
L1011VLQ0410
C1017100P (500V)
D1006RL4ZP
C101920V680(FZX)
C101820V680(FZX)
C1020100P (500V)
L1012VLQ0579 L
1013
VLP
0083
D100731DQ04
C102110V680(FZX)
C102210V680(FZX)
R1012560 C1025
ECQ81H103JF4
R10112700 (F)
R10132700
K A R1 3 2
R10142700 (F)
R101515K (G)
IC1003
TL431CPL - Z
R10103000 (G)
R100962 (G)5
2
1
4
3
IC1002
SI3120CA
C1024100P
10230,12 (V)
P1001
1
2
3
4
5
6
7
8
9
10
11
POWER OFF (L')
REG 12V
GND
GND
GND
M_GND
M_GND
UNREG 14V
UNREG -9V
S_NONSW_5V
V_NONSW_5V
274 STRS5708
STRS5708 - sterownik zasilaczy impulsowych
+ -
9
R SQ
6
8
+ - + - + -
7
4 3 1 2 5
1500pF
Rto
n
INH
IBIT
Vin
RE
F.
TS
D
3300pF
OV
ER
-VO
LT.
PR
OT
EC
TFA
ULT
LA
TC
H
OS
C.
Rtoff
0.7
5V
1.4
V
-1V
5.1
V
SE
NS
E
PR
OP
OR
-T
ION
AL
DR
IVE
UV
LO
1k
DR
IVE
SIN
K
BA
SE
CO
LLE
CT
OR
CO
MM
ON
OV
ER
-CU
RR
EN
TP
RO
TE
CT
ION
ST
RS
5708
Sc
he
ma
t b
lok
ow
y
STRS5708 275
+ -
9
R
6
8
+ - + - + -
7
+
FULL-BRIDGERECTIFIER
AC INPUT
4 3 1 2 5
+
+
+
+
+ OUTPUT - OUTPUT
SQ
ST
RS
5708
Sc
he
ma
t a
plik
ac
yjn
y
276 STRS5841
STRS5841 - sterownik zasilaczy impulsowych
3
1
R9452701/2W
R9445601/2W
C9441000p50V
at100V
RY901
12V
D9611S2076A
RY902
P
P
3
C
2
1
R9731k
R97056
Q955KSC1008C-Y.G
Q905TM166IS-L
R97110k
120T12�
C94722μ250V
D943RM-1B
R94282
Q904C3676
Q906C2274 Q907
K611
D945RM-1C
R94315k 2W
R9401M
R941100k
R94768k
C9424μ7100V
2
5 1
4
3
1
2
3
TH90116�
TH9028�
RP901 5�
RP902 18�
C904 C905
C903
3 2
1
4
+
C903~C905VAI 2200P
D901RBV-608
C901680μ250V
C902680μ250V
R918150k1/2W
R919150k1/2W
R9120.275W
R9130.275W
R9110.275WR9100.275W
D914R4KL
D915R4KL
C9450.047μ
630V
R9484.7
C9460.1μ50V
C940100μ25V
C4412μ2450V
IC90181145A
IC991
STRS5841
6
9
7
8
2
5
4
3
1
Q4
Q5
Q3
Q2Q1
D2 D1
D3
R905180k1/2W
R909180k1/2W
C0
R90310
R94982k
D941RM-1C
D940RM-1C
F
L902 L901
C9142200p
C9152200p
C921C-M-P-AC0.82μ
C919C-M-P-AC0.68μ
C918C-M-P-AC1μ
L
N
F901
A
S
S
C
2
1
W
W
R917R-COMP390k
R916R-COMP390k
R915R-COMP390k
Zasilacz monitora Mitsubishi HL6945, HL6955, HL7955
STRS5841 277
12
10
8
6
1
13
12
11
10
9
8
7
5
3
1
5
W
2
1
6
9
7
8
2
5
4
3
1
C9324700p
C9344700p
R90580k/2W
R90980k/2W
C9080.033μ
C92247μ 50V
D902PZ127
R9080.223W
R9225.63W
4 13
95
10
16
11
1
2
3
12
15
7
6
14
8
R9011.2
R914100k3W
R906100k3W
D908RU-2B
C910120p1kV
C9090.047
630Vμ
R90427 2W
D909TVRIG/ES-I
R9235.63W
C90710μ100V
D905EUIZ
R90239
4
568
1
T931
C9434μ750V
R94610
D944RU-2B
T951
D956HZ6C1
R96022k
C9721000p 500V
R961220
R95956k 1W
D958EU-1Z
D957EU-1Z
C96910μ50V
R9551802W
R956101W
C9700.047
R9745.61W
C9871000p500V
Q9522SA1408-0
Q9542SC3332-S
Q9532SC3332-S
Q9512SC3310
R962150k
L95622μ
C9790μ47200V
C9681000p500V
R97533k
R957270k
C967150μ250V
R986100k
R9643k3
R954220k
D959RU-3AM
C9711000p500V
R95847
2W
F9513A
D951RU-3AM
C9511000μ10V
C9521000μ10V
C9530.01μ
D9681S2076A
L95127μH
L95227μH
L9532mH
L954100μH
L95527μH
3
1
1
1
2
2
2
3
3
IC951S13122V
IC952
M5F7805LL7805ML/MPC7805HF
L7824ML/MPC7824HF/M5F7824L
IC953
C974100μ160V
C962470μ50V
C961470μ50V
C973100μ160V
C9542200μ25V
C9561000μ25V
C965220μ250V
C966220μ250V
C957100μ25V
C959100μ25V
C975100μ35V
D967R2KN
R9850.685WR-CEM
C9630.01μ
C9840.01μ C960
0.01μ
C9830.47μ
C9580.01μ
C964470p
2kV
D955RU-4AM
D953RU-4AM
D952RU-3AM
D954RU-3AM
R953
15 2W
28V
15V
80V
165V
-6.3V
GND
12V
165V
24V
28V
5V
12V
165V
-6.3V
80V
R9842.7 2W
GND
P2
P1
+B
F/B(TV)
278 STRS6307
STRS6307 - sterownik zasilaczy impulsowych
1
2
3
4
5
6
7
8
9
-76.7
81.7
-76.5
-76.2
-76.2
-76.2
-76.2
-76.7
-78.6
R6090.152W
C6060.00221kV B
C60.:C
C619
47μ 1
R6058M21W:RQ
D601RBV-406HAC-RECT
!
C6010.0047500V E
C6010.0047500V E
R6011.810W:RB
R6211.810W:RB
JW13OFF
T605LFT
C6210.1250V :MPS
S601
F6013.15A
POWER
AC IN
DGT
DGC
AC IN
DGT
DGC
DGC
1
2
1
2
1
2
3
CN6012P
WHI:VH
!
AC IN
110V-240V50/60Hz
CN6023P
WHT:MINI
CN6032P
WHT:MINI
!
DGC
JW1410MM
1
3
2
JW15 7.5MM
THP601
R6204703W:RS
JW127.5MM
C60470400
R602100k
2W:RS R6
472W:R
IC601STR-S6307
-77.5-7
R2:
Q6
2SA11A
R606471/2W:FPRD
C611470p400V
C628
C6270.001
1000p:SL
:CHIP
Fragment schematu OTVC Sony KV2185MT, KV2185MTJ z chassis G3E
STRS6307 279
C6260.001:CHIP
C6070.33:MPSC619
μ 16V
C605470p400V
R61747k2W:RS
R615680k1/2W
C604330μ400V
T601SRT
2
3
4
12
11
5
7
16
15
13
814
!
115V
15V
D608R2M0VP
2
3
1
IC602SE115NIC603
PC111LSERROR-AMP
FEEDBACK
34
25
16
-78.619.1
20.1
-77.5-78.6-78.7
-77.5
.5-77.3
C6220.047:PT
R61410k3W:RS
R6162k21W:RS
!
C6180.047
:PT
C617100p:CHIP
D6031SS119
D6071SS119
R6220.47:FPRD
D602
RGP10G
R60412 3W:RS
R6230.47
R60368 3W :RS
:FPRD
R607680:CHIP
R608220:FPRD
R6101k:FPRD
R61122k:CHIP
Q603
2SC2712
Q601
SA1162
R625470:CHIP
AMPC6200.0022:PT
C608470p1kVR
C609100μ160V
R6120.471/4W:FPRD
D605RGP15J
15V-RECT
D604RU-3AM
115V-RECT
C612470p500V
3
FB2511.1μH
FB6021.1μH
FB6011.1μH
C610220μ25V
C6030.0047500VE
C624470p400V
280 TCA785
5
ZeroDetector
Synchron.Register
Logic
Q1
Q2
Q1
Q2
QU
QZ
14
12
4
15
2
3
7
PulseExtention
C12
16
==
R9
9 8 10 11
V
C10
+
-
8
8-
+
DischargeMonitor
V11
ControlVoltage
DischargeTransistor
ControlComparator
T 68
6 13
Inhibit Long-PulseCommutation
GND1
VSYNC
VS
I
stab
TCA785
TCA785 - regulator fazy stosowany do sterowania tyrystorów, triaków i
tranzystorów
Schemat blokowy
Pin Symbol Function
1 GND Ground
2
3
4
Q2
Q U
Q1
Output 2 inverted
Output U
Output 1 inverted
5 VSYNC Synchronous voltage
6
7
I
Q Z
Inhibit
Output Z
8 VREF Stabilized voltage
9
10
R9
C10
Ramp resistance
Ramp capacitance
11 V11 Control voltage
12 C12 Pulse extension
13 L Long pulse
14
15
Q 1
Q 2
Output 1
Output 2
16 VS Supply voltage
Opis wyprowadzeñ uk³adu TCA785
TCA785 281
1
2
3
4
5
6
7
8 9
10
11
12
13
14
15
16
BAY 61
BAY 61 150
TXC10M 60
TC
Load
0μ22250V~
470μ16V
1N4005
4k79W
2k2
4k7
15V
0μ47
BAY61
BAY61
RSYNC
220k
10k
R
Mp
220 V~ 2μ2 (MKH)
0μ1C10
47p100k
22k
C12
150p
TC
A785
10k
L
Schemat aplikacyjny
Uwaga serwisowa:
Uk³ad TCA785 zastêpuje TCA780 i TCA780D
282 TEA1102, TEA1102T
TEA1102, TEA1102T - uk³ad ³adowania baterii
LS
1
2 4 5 6 7
9
10
15
18
20
- + -+ -+ - + - +- +
- + - + -+ -+
3.3
V
NT
C
Tm
in2.8
V4
.25V
15
6k
Tm
ax
1V
12
kT
cu
t-off
0.7
5V
36k
PR
OT
EC
TIO
N
ba
tte
ry
en
d
no
-batt
ery
0.3
V
1V
1.9
V
- +
-+ -+-+ -+
1.3
25
V/V
stb
NiC
dN
IMH
1.3
7V
Lio
n1
.63V
SLA
1.9
Vno
-ba
tte
ry
Vre
g
Vb
at
fast
charg
e1
.25
/Rre
f
top
off
3μ
A10μ
A40μ
A
sta
ndby
curr
ent
4.2
5V
loa
dcurr
ent
CH
AR
GE
CO
NT
RO
L
AN
D
OU
TP
UT
DR
IVE
RS
A1
A2
A3
- +A4
100
mV+
-
refr
esh
4×
R S
Q
SE
T
PW
MO
SC
LS
14
Vb
at
DA
/AD
CO
NV
ER
TE
R
CO
NT
RO
LLO
GIC
SU
PP
LY
BLO
CK
TIM
ER
AN
D
CH
AR
GE
ST
AT
US
IND
ICA
TIO
N
8N
TC
MT
V
11
FC
T
12
13
16
3
Vp
Vsi
Vs
GN
D
PT
D
PO
D
LE
D
PS
D
IB
RF
SH
AO
17
PW
M
OS
CV
ref
Vstb
19
Vb
at
low
refr
esh
pre
sent
TE
A11
02
Sc
he
ma
t b
lok
ow
y
TEA1102, TEA1102T 283
1
2 3
4
5
6
7
8
9
10
11
1213
14
15
16
17
18 19
20
Vp C3
100n
Vs
NTC
MTV
FCT
4.25V
R610kW
R7
SLA=0
Lilion=4.3kNiCd/NiMH =
Vstb
Vbat
Vref
GND
OSC
C4220p
(fosc=75kHz)
R8
62k (0.5 A
fast charge)
R9
100k
(0.1%)
NiCd
NiMH
3 cells
SLA
2 cells
Lilon
1 cell
C5
470
- battery
+ battery
R10
200k(1%)
(Rsupply=270 for more than 3 NiCD cells)
Rsense
R5 0.22
R45.1k
(75 mA top 0ff)
IB
LS
RFSH
AO
PWM
C2 1.5n
R3180
TR2
BC337
C1
100
Vsi
LEDD1
R2
1.5k
(D2 for more than 3 NiCD cells)TR1 BD231
R11k
VI (DC)
7 to 11.5V
POD
PTD
Vs:4
GND:1
Vs:4
GND:1
PSDVs:4
GND:1
(Rb)
-
+
TEA1102
Schemat aplikacyjny
TEA1102 produkowany jest w obudowie SOT 146-1
TEA1102T produkowany jest w obudowie SOT 163-1
284 TEA1103
TEA1103 - uk³ad ³adowania bateriiS
ch
em
at
blo
ko
wy
LS
1
2 4 5 6 7
9
10
15
18
20
- + -+ -+ - + - +- +
- + - + -+ -+
3.3
V
NT
C
Tm
in2.8
V4.2
5V
156k
Tm
ax
1V
12k
Tcut-
off
0.7
5V
36k
PR
OT
EC
TIO
N
no-b
attery
0.3
V
1V
1.9
V
- +
-+ -+-+ -+
1.3
25
V/V
stb
NiC
dN
IMH
1.9
Vno
-batte
ry
Vre
g
Vb
at
fast
ch
arg
e1.2
5/R
ref
top
off
3µ
A4.2
5V
40µ
A
load
cu
rrent
sta
ndby
cu
rrent
10µ
AC
HA
RG
EC
ON
TR
OL
AN
D
OU
TP
UT
DR
IVE
RS
A1
A2
A3
- +A4
10
0m
V+
-
refr
esh
4×
R S
Q
SE
T
PW
MO
SC
LS
14
Vb
at
DA
/AD
CO
NV
ER
TE
R
CO
NT
RO
LL
OG
IC
SU
PP
LY
BL
OC
K
TIM
ER
AN
D
CH
AR
GE
ST
AT
US
IND
ICA
TIO
N
8
NT
C
MT
V
11
FC
T
12
13
16
3
Vp
Vsi
Vs
GN
D
PT
D
PO
D
LE
D
PS
D
IB
RF
SH
AO
17
PW
M
OS
CR
ref
Vstb
19
Vb
at
batte
rylo
w
end
refr
esh
pre
se
nt
TE
A1103
TEA1103 285
1
2 3
4
5
6
7
8
9
1 0
1 1
1 21 3
1 4
1 5
1 6
1 7
1 8 1 9
2 0
VpC3
100n
Vs
NTC
MTV
FCT
4.25V
R6
10k
R7
Vstb
Vbat
Rref
GND
OSC
C4220p
(fosc=75kHz)
NiCd/NiMH =
R862k (0.5Afast charge)
R9100k
(0.1%)
NiCd
NiMH
3 cells
C5
470µ
- battery
+ battery
R10200k
(1%)
(Rsupply =270 for more than 3 NiCd cells)
Rsense
R5 0.22
R4
5.1k
(75 mA top 0ff)
IB
LS
RFSH
AO
PWM
C2 1.5n
R3
180
TR2
BC337
C1
100µ
Vsi
LEDD1
1
R2
.5k
(D2 for more than 3 NiCd cells)TR1 BD231
R1
1k
VI (DC)
7 to 11.5V
POD
PTD
Vs:4
GND:1
Vs:4
GND:1
PSDVs:4
GND:1
(Rb)
-
+
TEA1103
Schemat aplikacyjny
286 TEA1205AT
TEA1205AT - regulator napiêcia
TE
A1
20
5A
T
1
3
68
N-t
ype
PO
WE
RF
ET
sense
FE
T
20
MH
zO
SC
ILLA
TO
R
TE
MP
ER
AT
UR
EP
RO
TE
CT
ION
I/V
CO
NV
ER
TE
R
P-t
ype
PO
WE
RF
ET
ST
AR
T-U
PC
IRC
UIT
CO
NT
RO
LLO
GIC
AN
DM
OD
EG
EA
RB
OX
TIM
EC
OU
NT
ER
DIG
ITA
LC
ON
TR
OLLE
RB
AN
DG
AP
RE
FE
RE
NC
E
LX
I lim
N
GN
DS
YN
CS
HD
WN
OU
T
7IL
IM
2
VS
EL
4
5
SE
NS
E
RO
M
GN
DS
YN
CS
HD
WN
VI
L1
LX
D1
OU
TV
O
C1
ILIM
Rlim
C2
VS
EL
SE
NS
ET
EA
12
05
AT
Sc
he
ma
t b
lok
ow
y i
ap
lik
ac
yjn
y
TEA1206T 287
TEA1206T - regulator napiêcia
U/D1
3
56
8
N-t
ype
PO
WE
RF
ET
sense
FE
T
I/V
CO
NV
ER
TE
R
13
MH
zO
SC
ILLA
TO
RS
YN
CG
AT
E
TE
MP
ER
AT
UR
EP
RO
TE
CT
ION
CU
RR
EN
TLIM
ITC
OM
PA
RA
TO
RS
I/V
CO
NV
ER
TE
R
P-t
ype
PO
WE
RF
ET
sense
FE
T
ST
AR
T-U
PC
IRC
UIT
INT
ER
NA
LS
UP
PLY
CO
NT
RO
LLO
GIC
AN
DM
OD
EG
EA
RB
OX
TIM
EC
OU
NT
ER
DIG
ITA
LC
ON
TR
OLLE
R
BA
ND
GA
PR
EF
ER
EN
CE
7
24LX
ILIM
GN
DS
YN
CS
HD
WN
FB
UP
OU
T/D
NIN
TE
A1206T
Sc
he
ma
t b
lok
ow
y
288 TEA1207T
TEA1207T - regulator napiêcia
U/D1
3
56
8
N-t
ype
PO
WE
RF
ET
sense
FE
T
I/V
CO
NV
ER
TE
R
13
MH
zO
SC
ILLA
TO
RS
YN
CG
AT
E
TE
MP
ER
AT
UR
EP
RO
TE
CT
ION
CU
RR
EN
TLIM
ITC
OM
PA
RA
TO
RS
I/V
CO
NV
ER
TE
R
P-t
ype
PO
WE
RF
ET
sense
FE
TS
TA
RT
-UP
CIR
CU
IT
INT
ER
NA
LS
UP
PLY
CO
NT
RO
LLO
GIC
AN
DM
OD
EG
EA
RB
OX
TIM
EC
OU
NT
ER
DIG
ITA
LC
ON
TR
OLLE
R
BA
ND
GA
PR
EF
ER
EN
CE
7
24LX
ILIM
GN
DS
YN
CS
HD
WN
FB
UP
OU
T/D
NIN
TE
A1
20
7T
Sc
he
ma
t b
lok
ow
y
TEA1207T 289
1 2
3
4
56
7
8U/D GND
SYNCSHDWN
VI
L1 LX
D1
UPOUT/DNIN
FBR1
R2
VO
C1
ILIM
Rlim
C2
TEA1207T
Schemat aplikacyjny dla uk³adu upconversion
1 2
3 4
5 6
7
8U/D GND
SYNC SHDWN
VIL1LX
D1
UPOUT/DNIN
FBR1
R2
VO
C1
ILIMRlim
C2
TEA1207T
Schemat aplikacyjny dla uk³adu downconversion
290 TEA1504
TEA1504 - sterownik zasilaczy impulsowych
-
-
-
+
+ +
comparator
invertingerror
amplifier
duty cycle limitingsignal
driverstage
burst modestand-by
5.5V
OVERTEMPERATUREPROTECTION
SAMPLEAND
HOLD1
SAMPLEAND
HOLD2
1k
on/off
VMANAGEMENT
aux START-UPCURRENT SOURCE
PULSE WIDTHMODULATOR
OSCILLATOR
OVER CURRENTPROTECTION
LEADING EDGEBLANKING
FREQUENCYCONTROL
DEMAGNETIZATIONMANAGEMENT
NEGATIVECLAMP
R
S
Q
6R
6R
7
4
5
12103211
13
9
14
8 6 1
DS
DRIVER
Isense
n.c.n.c.n.c.HVSGND
DEM
CTRL
OOB
REF Vaux VI
TEA1504
Schemat blokowy
Opis wyprowadzeñ uk³adu TEA1504
SYMBOL PIN DESCRIPTION
Vi 1 start-up current source input; connects to MOSFET Drain supply
HVS 2 high voltage safety spacer
n.c. 3 not connected
DRIVER 4 driver output; connects to Gate of power MOSFET
Isense 5 current sense input; connects to current sense resistor
Vaux 6 IC supply; connects to supply capacitor
DS 7 internal driver supply
REF 8reference input; connects to reference resistor for setting internalreference currents
CTRL 9 duty cycle control input
n.c. 10 not connected
GND 11 ground
n.c. 12 not connected
DEM 13 demagnetization signal input
OOB 14 burst mode standby on/off control signal input
TEA1504 291
Przetwornica, w której sygna³ sprzê¿enia zwrotnego pochodzi ze
strony wtórnej transformatora
RCTRL
Vo
Co
8 7
10 5
11 4
12 3
13 2
14 1
9 6
REF DS
n.c. Isense
GND DRIVER
n.c. n.c.
DEM HVS
OOB Vi
VauxCTRL
Caux RsenseRREFRDEM
S1
output on/offmode switch
Vmains
powerMOSFETTEA1504
RCTRL
Vo
Co
8 7
10 5
11 4
12 3
13 2
14 1
9 6
REF DS
n.c. Isense
GND DRIVER
n.c. n.c.
DEM HVS
OOB Vi
VauxCTRL
Caux Rsense auxiliarywinding
RREFRDEM
S1
output on/offmode switch
Vmains
powerMOSFETTEA1504
Przetwornica typu buck
292 TEA1504
(1)
(1)
Vo
Co
8 7
10 5
11 4
12 3
13 2
14 1
9 6
REF DS
n.c. Isense
GND DRIVER
n.c. n.c.
DEM HVS
OOB Vi
VauxCTRL
Caux Rsense auxiliarywinding
RREFRDEM
S1
output on/offmode switch
Vmains
powerMOSFETTEA1504
S3
CµC
VµC
S2
R1
R2
R3
R4
RCTRL
CCTRLburst-mode
stand-by on/offfrom
microcontroller
Przetwornica wykorzystuj¹ca burst mode standby and on/off feature
Vo
Co
8 7
10 5
11 4
12 3
13 2
14 1
9 6
REF DS
n.c. Isense
GND DRIVER
n.c. n.c.
DEM HVS
OOB Vi
VauxCTRL
Caux RsenseRREF
RDEM
S1
output on/offmode switch
Vmains
powerMOSFETTEA1504
CCTRL
Przetwornica typu buck ze sprzê¿eniem po stronie pierwotnej
TEA1504 293
! ! !
!
!
3
2
1F101
F102
F103
21
04
21
06
1101
T4A250VH
L
GND
N5105
31
01
68
0k
21
01
1µ
5104
1 2
34
510214mH
91061 2
8101
9104
91013108
3107
220
220
5106
5107
7µ5
7µ5
3106
91
03
91
02
�-5
5103
21
03
21
02
4n
74
n7
1 4
32
12.8V
1104SDT112DM
+1323
1
3137
31
38
611
3
22
k
31
30
211
5
10
0µ
1N
41
48
Rp
Rs�+t
+tº
3139
10k
DEGAUSS
3
1
9107F104
F105
F106
1113-A
DE
GA
US
SIN
GC
OIL
1113-B
AC-INLET1111
4.4V
F115
3121
31
22
4M7VR37
4M
7V
R3
7
31
313
12
6
3125
31
293
12
4
31
23
61
21
31
27
10
0
21
20
10
0n
1N
41
48 3
30
k
10
0k
1k
1k
10
0n
21
22
31
32
2.4V
2.9V
0.
F114
F113
1N
41
48
1N
41
48
1N
41
48
61
23
61
24
61
25
91
09
1 4
2 5
3 6
1106
7102BC338-40
MAIN BOARDSB: 53741
C1 5101-2
100 V/div AC5 µS/div
10 V/div AC5 µS/div
C2 5101-8
Fragment zasilacza monitora 109B2 firmy Philips
294 TEA1504
!
!
!
!
108
107
20
20
06
07
µ5
µ5
- +6102
F108 F107
GBU4K264V AC
F109
F110
5112
6116
21
05
22
0µ
311
03
11
9
311
4
3111
2111
15
n
311
8
31
33
311
7
311
6
311
5
31
20 61
09
21
28
47
0p
2kV
311
2
61
03
61
08
RG
P1
0J
RG
P1
0J
10
k
22
k3
W
0.4
7
33
0
0.4
7 0.4
7
0.4
7
0.8
2
RG
P1
0D
82
0
6165
BZ
X7
9-C
15
!
!
311310
7105MTP6N60
4101U
480V
380V
15
8
6
5
C2
C12
3
1
13
174
9
10
11
7
4 1
23
136.4V
3128
211
2
31
31
10
0k
24
k
10
0n
31
32
91
08
21
23
61
07
BA
V2
1
33
µ
22
3134
6115
1N4148
1N4148 1N4148
6117 6118 21
09
47
µ
12.1V
13.3V2.4V
2.9V
0.8V
2.9V
7
6
5
4
3
1
2
14
13
12
11
10
9
8 DS
VAUX
ISENSE
DRIVER
GND1
VIN
NC1
OOB
DEM
NC3
GND2
NC2
VCTRL
IREF
7106TEA1504
1
2
3
1114-1
2114
4n7
7103TCET1101G
510154A-7042
TEA2018A 295
TEA2018A - sterownik zasilaczy impulsowych
7
1
8
3 2 4
5
6
TEA2018A
+
-
DEMAGNETIZATIONSENSINGIs
0.1V
Rt × Ct OSCILLATOR
MAXIMUMDUTY CYCLE
70%
COMPARATOR
+
+- -G 50~
2.4V
-1VVOLTAGE
LIMITATION
THERMALSHUTDOWN
&
&
FLIP-FLOP
>1
>1
IcRECOPY
DELAY500ns
INTERNALBIAS
Vcc
"Good"
Vcc
MONITORING
Undervoltage
2.4V
VREF
Vcc+
ISENSE GROUND Vcc-
OUTPUT
Schemat ideowy
TEA2018A
8
1
7
2
6
3
5
4
4×1N4007 47µF385V
0.1nF
RF Filter2 × 12mH
0.1µF
0.5A
220 VAC
47k
1k
1.2nF
22k
- Maximum Power 30W- Operating Frequancy 30kHz
~~
100 3.9V
10µF
47µF
Re1
1nF1kV
150
Primary Ground
Secondary Ground
BUV46A BA
159 1k
3W
4k7RB8.2
BA159
2k23W
+5V
4700µF
BYW98-50
+12VBYW98-50
1000µF
1N4148 68
15 1N4148
220µF16V4.7µF4k7
Schemat aplikacyjny
296 TEA2018A
Opis wyprowadzeñ uk³adu TEA2018A
Nr nó¿ki Funkcja
1 Generator
2 Masa
3 Wejœcie sprzê¿enia zwrotnego
4 Minus napiêcia zasilania
5 Wyjœcie
6 Plus napiêcia zasilania
7 Wejœcie uk³adu demagnetyzacji
8 Nieodwracaj¹ce wejœcie wzmacniacza b³êdu
Podstawowe parametry:
- napiêcie zasilania VCC+ 6.6÷15V
VCC- -1÷-5V
- minimalne napiêcie umo¿liwiaj¹ce start uk³adu VCC+rising 6÷6.6V
- minimalne napiêcie, poni¿ej którego nastepuje
zatrzymanie pracy uk³adu VCC+falling 4.2÷5.6V
- amplituda pr¹du wyjœciowego IO ±1A
Schemat ideowy tego uk³adu przedstawiono
na rysunku 1.
W sk³ad zasilacza wchodzi przetwornica, pra-
cuj¹ca z czêstotliwoœci¹ oko³o 26kHz. Zapew-
nia ona izolacjê od napiêcia sieci. Jej dzia³anie
jest prawid³owe dla napiêæ wejœciowych w za-
kresie 198÷264V. Maksymalny pobór mocy wy-
nosi 35W. W uk³adzie przetwornicy wykorzy-
stano uk³ad scalony TEA2018 firmy Thomson.
Napiêcie zasilania poprzez filtr T1, C1 usu-
waj¹cy zak³ócenia pochodz¹ce z przetwornicy,
które mog³yby przedostawaæ siê do sieci zasila-
j¹cej, podawane jest do uk³adu prostownika D1,
D2, D3, D4 i C2. Na kondensatorze C2 uzyskuje
siê wyprostowane napiêcie równe oko³o 330V.
Rezystor R1 ogranicza pr¹d ³adowania konden-
satora C2 w momencie w³¹czenia odbiornika.
Napiêcie z kondensatora C2 zasila uzwojenie
pierwotne 7-13 transformatora przetwornicy T2.
Poprzez rezystor R2 podawane jest na wej-
œcie 6 uk³adu U1 napiêcie startowe. W momen-
cie w³¹czenia odbiornika kondensator C6 ³ado-
wany jest przez rezystor R2. Napiêcie na wej-
œciu 6 U1 narasta i uk³ad scalony zaczyna wy-
twarzaæ impulsy steruj¹ce baz¹ tranzystora klu-
czuj¹cego Q1 BUT11A. Pojemnoœæ kondensa-
tora C6 jest wystarczaj¹co du¿a, aby dostarczyæ
napiêcia zasilaj¹cego pozwalaj¹cego na rozpo-
czêcie pracy przetwornicy. W czasie normalnej
pracy uk³ad scalony U1 zasilany jest napiêciem
z uzwojenia 9-11 transformatora T2, prostowa-
nym przez diodê D8.
Elementy R13 i C4 przy³¹czone do wejœcia 1
U1 okreœlaj¹ czêstotliwoœæ pracy przetwornicy.
Do uzwojenia 9-11 przy³¹czone s¹ tak¿e dwa
inne prostowniki. Kondensator C5 jest ³adowa-
ny przez diodê D9. Napiêcie z tego kondensato-
ra poprzez dzielnik R10, R11, R12 podawane jest
do wejœcia 8 uk³adu U1. Wejœcie to jest wejœciem
napiêcia regulacyjnego. W czasie normalnej pra-
cy z maksymaln¹ moc¹ wyjœciow¹ napiêcie na
tym wejœciu powinno wynosiæ oko³o 2.4V.
Tranzystor przetwornicy jest wy³¹czany przez
ujemne napiêcie generowane w uk³adzie pro-
stownika D10, C8 i D11. Napiêcie to podawane
jest do wejœcia 4 uk³adu U1.
Zasilacz odbiornika satelitarnego PRD800
TEA2018A 297
D3
R2
2W10
0k
R1
347k
C2
47
µR
8
0.5
W1
R
C4
1n2
D2
D4
D1
T1
C1
0.1
µ
R1
4R
7F
S1
1A
U1TEA2018C
6
1000µ
R14
100
R6
15
D11
3V
9
C8
10
µD
86
8
D9
68
C5
4µ
7
R12
22k
R11
2k
R10
1k
D10
4R
7
Q1
BU
T11
A
4k7
10k
220
D6
22k
D5
2W2k2
5W1k
2kV
1n
T2
D12
BY
V9
5A
C11
100µ
0.2
2µ
D13330p
C15
22
00
µ
0.2
2µ
L1
10µ
0.2
2µ
L2
0.2
2µ
C2
1
2200µ
330p
D14
0.2
2µ
0.2
2µ
D16
D17
RE
G1
LM
78
12
10µ
0.2
2µ
4k7
Q2
FT
X749
D15330p
C23
1000µ
0.2
2µ
4k7
L3
1k5
2X
270
Q3
FT
X749
LE
D6
R24
D19
LE
D1
10K
560
560
2W68
D7
85
V1
10µ
0.2
2µ
470
470
10µ
22
0V
AC
18
V
W.1
6U
3
14
V/1
8V
12
V
5V
STA
ND
BY
W.1
5
U3
5V
27V
911
137
8 7 6 54321
Rys.1
. S
ch
em
at
ide
ow
y z
asila
cza
od
bio
rnik
a P
RD
80
0.
298 TEA2018A
Baza tranzystora Q1 sterowana jest z wyjœcia
5 uk³adu poprzez rezystor R6.
Przez rezystor R8 o ma³ej wartoœci przep³y-
wa pr¹d tranzystora Q1. Na rezystorze tym po-
wstaje napiêcie proporcjonalne do tego pr¹du.
Napiêcie to poprzez rezystor R14 podawane jest
do wejœcia 3 uk³adu U1 - jest to wejœcie uk³adu
ograniczania pr¹du przetwornicy. W przypadku
przekroczenia pr¹du p³yn¹cego przez R8, Q1 i
uzwojenie pierwotne transformatora T2, ujem-
ne napiêcie na wejœciu 3 uk³adu U1 narasta po-
woduj¹c skracanie czasu przewodzenia tranzy-
stora Q1.
Po stronie wtórnej transformatora znajduj¹ siê
cztery prostowniki.
1. W uk³adzie prostownika D13, C15 wytwa-
rzane jest napiêcie 5V.
2. W uk³adzie D14, C21 wytwarzane jest napiê-
cie wejœciowe dla stabilizatora REG1. Na
wyjœciu tego stabilizatora uzyskuje siê napiê-
cie 12V.
3. W uk³adzie stabilizatora z tranzystorem Q3
wytwarzane jest wy³¹czane w stanie standby
napiêcie 5V, dla zasilania modulatora. W sta-
nie czuwania napiêcie na wyjœciu 15 uk³adu
steruj¹cego U3 przyjmuje stan wysoki. Na-
piêcie to podawane jest do bazy tranzystora
Q3 i powoduje jego wy³¹czenie. Dioda D19
tak¿e nie przewodzi, a to powoduje w³¹cze-
nie diod LED1 i LED6. Diody te wskazuj¹
pracê odbiornika w stanie standby. W czasie
normalnej pracy tranzystor Q3 przewodzi i
dioda Zenera D78 stabilizuje napiêcie wyj-
œciowe na jego kolektorze na poziomie 5V.
4. Napiêcie zasilaj¹ce konwerter 14V/18V po-
dawane jest poprzez diody D16, D17 lub po-
chodzi ze stabilizatora z tranzystorem Q2 w
zale¿noœci od tego, czy tranzystor Q2 jest w³¹-
czony, czy te¿ wy³¹czony. W³¹czanie tego
tranzystora sterowane jest napiêciem z wyj-
œcia 16 uk³adu sterowania U3. W czasie gdy
tranzystor Q2 jest za³¹czony, napiêcie zasila-
j¹ce konwerter jest równe 18V.
Uk³ad przetwornicy nie zawiera regulacji na-
piêæ wyjœciowych. Wartoœci rezystorów R10, R11,
R12 decyduj¹ o wartoœci napiêæ wyjœciowych.
TEA2165A 299
TEA2165A - sterownik zasilaczy impulsowych
12
1I
5
ATTEN
-2.1V
I
C70910n
I
D702ZPY11
C70110µ
L701
C658
220µ385V
R701
R6552.7k
+-
D65
5
D65
6 D657
D654C
6541.5n
C65
61.
5n
R6525.1
!
R6531k
C6520.1µ
D2 D1
DEGAUSSINGCOIL!
!
C6511n
!
POWER SUPPLY
M3
M1
220/2
40V
R651
Attention!When exchanging T701, IC701must likewise be exchanged.
OP
ER
AT
ING
UN
IT
Hor. imp.
4x 1N4007
R70515
Fragment schematu zasilacza OTVC Nokia Stereo Color 29, 3570, 3760
300 TEA2165A
Tr. 702
!
Tr. 701!
CONTROLTRANSFORMER
o
p
d
e
f
g
q
r
ca
i
l
k
n
m
I
I
R718
100
I
C717330
L702
I
R723150
!
C718680
R7191M
T701BU908
C7191n
R7152.7
14
R71433k
1516
D7171N4148
R73018k
D707BA157
C7131n
C7072.2µ
I
D711 BA157
C712 1n
C71147µ
I
8.5V
11.5V
6
I
R703680
R709680
300VFe701
SWITCHED - MODED POWER SUPPLY
1312
IC701 TEA2165ASWITCH - MODE - CONTROL
11278109345
I
C705820
I
!
R7211
R7071.2k
II
R7
06
4.7
k
R7
04
11
3kC7
03
1n
IIII
C7
02
0.4
7µ
C7
00
10
µ
C7
04
47
µ
R7
02
12
k
TTENTION! NEVER CONNECT TO OR I
I
D7011N4148702
Y11
MAINS CONNECTED
I !
R7248.2M
I !C7232.2n
OUTPUT STAGE
055
TPS2832, TPS2833 301
TPS2832, TPS2833 - sterowniki zasilaczy impulsowych
4VCC
8BOOT
7HIGHDR
6BOOTLO
3
DT
1IN
(TPS2832 Only)
(TPS2833 Only)5
2
LOWDR
PGND
VCC
TPS2832
1
2
3
4 5
6
7
IN
DT
PGND HIGHDR
BOOT
BOOTLO
LOWDRVCC
1 3
4
5
6
GND
VCC
7
OUT
DTC
SCP
COMP
FB
RT
8R11k
C151µ
R61M
R50
R11
4.7C14
1µ
GND
C8
0.1µ
R8121k
C9
0.22µ C11µ
8R9
90.9k
R101k
C20.033µ
C30.0022µ
R21.6k
C40.0022µ
R3180
R42.32k
R73.3
C61000p
Q1Si4410
Q2Si4410
C1310µ
L127µ
C12100µ
100µC7
3.3V
RTN
C10100µ
C5100µ
C110.47µ
VIN
2
TPS2833
TL5001A
302 TPS6735
TPS6735 - regulator napiêcia
Schemat blokowy
Opis wyprowadzeñ uk³adu TPS6735
Nr wyprowadzenia Symbol Funkcja
1 ENWejœcie uk³adu wy³¹czania. Napiêcie mniejsze od 0.4V powodujewy³¹czenie uk³adu
2 REF Wyjœcie napiêcia odniesienia 1.22V
3 SS Wejœcie ustalaj¹ce ³agodne narastanie napiêcia wyjœciowego
4 COMP Kondensator stabilizacji pêtli sprzê¿enia zwrotnego
5 FB Wejœcie sprzê¿enia zwrotnego
6 GND Masa
7 OUT Wyjœcie
8 VCC Zasilanie
TPS6735
1
2
3
4 5
6
7
8EN
REF
SS
COMP
VCC
OUT
GND
FB
ENABLE
10
82p
47
VI
4V to 6.2V
1µ
10µH
1N5817
100µ
-5V
Not required for loads of 100mA or less
TPS6735
-
+
EN
ENENEN 1
4
5
6
COMP
FB
GNDError
Amplifier
2
3
VoltageReference
REF
1.2M
SS×3
×3
R
SQ
Drive Latch
Current-Sense Amplifier
PWMComparator
160-kHzOscillator
S
SS Clamp
REF
UVLO
VCC
FB
Driver
OvercurrentComparator
8 VCC
7 OUTPower Switch PMOS
Schemat aplikacyjny
TPS6755 303
TPS6755 - regulator napiêcia
-
+
EN
ENENEN 1
4
5
6
COMP
FB
GNDError
Amplifier
2
3
VoltageReference
REF
1.2M
SS×3
×3
R
SQ
Drive Latch
Current-Sense Amplifier
PWMComparator
160-kHzOscillator
S
SS Clamp
FB
Driver
OvercurrentComparator
8 VCC
7 OUTPower Switch PMOS
TPS6755
Schemat blokowy
Schemat aplikacyjny
Opis wyprowadzeñ jest taki sam jak dla uk³adu TPS6735
R4(k )
42.2
16.7
75.2
R5(k )
10.2
10.2
10.2
Vo(V)
-5
-2
-9
1
2
3
4 5
6
7
8EN
REF
SS
COMP
VCC
OUT
GND
FB
ENABLE
1082p
47
VI
1
10µH
1N5817
10010V
C1
R310k
C4
R5
0.1C6 R2
C3300k
R1
130k
R4
C2
Vo
1A, 20VL1
C5
22
22µH
OptionalLow-Pass Output Filter
D1
TPS6755ID
304 U4614B
U4614B - sterownik zasilaczy impulsowych
1
2
3
4
5
6
7
1.7V
(1.7V)
1.8V
2.9V
V)2.9
2.9V
0V
(0V)
0.1V
2.3V
(2.3V)
1.8V
3.4V
(3.5V)
3.5V
0V
(0V)
0V
0V
(0V)
0V
OVER
FMIN
PRSEC
REC T
IREF
IC GND
P GND
14
13
12
11
10
9
8
1.7V
(1.7V)
1.7V
0.6V
(0.6V)
0.6V
-0.1V
(-0.1V)
-0.1V
9.7V
(9.6V)
9.3V
-3.3V
(-3.3V)
-4.4V
1.8V
(1.7V)
0.9V
2.2V
(2.2V)
1.5V
FMAX
SETDELAY
ISENS
VCC
OUT H
OUT L
REG F
IP001 U4614BSWITCHING CONTROL
1
3
2
6
5
DP005BA158
RP00110k
282V
(282V)
282V
0V
(0V)
0V
CP004100p
TP001BUL310XI
SWITCHBUL310XT,TEO2537F
-4.4V
(-4.4V)
-4.8V
RP0191.8k
RP0181.5
70041078
!
DP0091N4148
RP01710
RP01633
RP02027
+
CP00710µ 50V
DP0081N4148
70041673RP021
2.2k
!
CP0064700p
CP020330p
+ CP008100µ25V
RP00847k
CP00510p
RP008100k
RP00522k
RP00722k
RP00422k
RP00622k
CP015470p
RP0327.5k
RP03139k
RP00382k
RP0142.2k
CP009 330p
RP02647k
RP0136.8k
RP022100k
RP0153.9
DP007BA157
RP01215k
RP01115k
RP00215k
RP02815k
BP001
! 70011176
70010445FP001
T1A250V
!
W2
W1
LP0012x 47mH70011950!
W2
W1
LP0022x 33mH70011949!
CP0010.1µ
275V70040056
!
DP0041N4007
DP0021N4007
DP0031N4007
DP0011N4007
RP02715k
CP0032200p 400V
70041646!
RP024330k
RP024330k
RP025330k
+CP00247µ 385V70041047!
Zasilacz magnetowidu V226G firmy Toshiba
U4614B 305
814.6V
(14.7V)
14.6V
7 6 59.1V
(9.1V)
12.6V
5V
(5V)
5.2V
5.7V
(5.7V)
5.7V
1
5.1V
(5.1V)
5 1. V
2 3 4
6.3V
(6.3V)
6.2V
8.8V
(8.9V)
7.9V
0V
(0V)
0V
+-
+-
IP0
02
LM
393
ND
UA
LV
OLTA
GE
CO
MP
AR
AT
OR
DP094ZPD5.6
CP0940.1µ
RP0971.5k CP095
100p
RP094820
14.6V
(14.7V)
14.6V
RP0900
RP0910.1
70041081!
RP092
12070041670
!
-9.4V
(-9.4V)
-14.7V
TP0912SA1020-Y
REVERSECURRENT
BIAS
14.4V
(14.4V)
14.5V
RP0891.5k
RP09539k
RP0961k
RP0936.8k
DP0931N4148
DP095MUR115
DP090FUF5404
LP09122µ
+ + CP09347µ50V
CP092470µ25V
17
13
7T
11
15
3T
8
12
16T
10
10
7
16
14
9
16T
9T
3T
RP0521k
RP05139
70041116
!
DP051BAV20
DP0801N5822
CP055470p
+
CP05410µ 50V
DP052BAV20
CP0560.01µ
RP0548.2k
RP05347k
6.3V
(6.3V)
6.2V
+ CP0811000µ16V
LP0816.8µ
+ CP08247µ50V
RP057
33k
RP07147
70040125
!
DP071BAV20
CP073 470p
+
CP07147µ 50V
34.1V
(34.2V)
35.1V
LP07133µ
RP07215k
CP0720.1µ
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
UH+
UH-
U5 -32VE
U3 +33VE
POWER GOOD
VM +20VE
VM +20VE
GND
GND
GND
GND
+14VE
+14VE
+14VE
+6VE
+6VE
TO
BW
00
10
00
5M
MA
IN(P
IF)
RP0410.1
70041081
! DP041BA157
+CP041220µ 10V
RP04210
70040456
!
DP061BA157 RP063
6.8k
RP0626.8k
RP0616.8k
+
24.8V
(25V)
21.5V
CP061470µ 25V
1
31T
3
2
31T
LP02070011948!
6
5T
5
1
04
V : REC(V) : PLAY
: EEV
BP002
306 UC2909
UC2909 - regulator napiêcia
2 6 7 8
9 10
11
12
13
14
16
-+
1×
0.7
5×
0.0
5×
5V
18
2.3
V
20
RS
ET
R10
1R
TH
M
7.5
V
4V
cc
OS
CU
VC
OM
P
19
RE
F2.3
V
-+20k
20k
20k
20k
A/V
T
2.3
VT
P
TP
VR
EF(2
.3V
@-3
.9m
V/°
C)
-+5V
OS
C
CS
+
2.3
V
7k
35k
-+
7k
35k
17
15
CS
-
CS
O
-+
2.3
V
CA
-
CA
O
-+
2.5
V
2
3
PW
MC
OM
P
S R
4.6
V
5 3
VLO
GIC
OU
T
GN
D
ST
AT
1
ST
AT
0
ST
AT
LV
R SQQ
R SQ
HIG
H=0.9
5×V
RE
FLO
W=
0.9
×V
RE
F
VO
LT
AG
ES
EN
SE
CO
MP
AR
AT
OR
VA
O
VA
-
OV
CT
AP
CH
GE
NB
-+V
RE
F-+
5V
OV
ER
CH
AR
GE
TA
PE
RC
OM
P
2.3
V
VR
EF
VO
LT
AG
EE
A
UC
2909
Sc
he
ma
t b
lok
ow
y
UC2909 307
VAO
2
6
7
8
9
10
12
13
14
16
18
20
RSET
R10
1RTHM
4Vcc
19OSC
CS+
17
15
CS
CSO
CA
CAO
5
3
VLOGIC
OUT
GND
STAT1
STAT0
STATLVVA
OVCTAP
CHGENB
-
-
-
+
TBATT 10k
11.5k
10k
VIN
1
330p
RG1
RG2
ROVC1
11
ROVC2
5V
10k
10k
RS4
RS1
RS2
RS3
CT
Rs
300k
0.1
UC2909
Schemat aplikacyjny
308 UC2909
PGND
NC
VCC
OUT
OVCTAP
CHGENB
STAT1
STAT0
STATLV
NC
RTHM
VLOGIC
NC
GND
R10
OSC
RSET
NC
NC
NC
CS-
CS+
CSO
CAO
CA-
VA-
VAO
NC
5
6
7
8
9
10
1112 13 14 15 16 17 18
19
20
21
22
23
24
25
2627281234
LCC-28, PLCC-28 (Top View)L,Q Packages
1
2
3
4
5
6
7
8
9
10 11
12
13
14
15
16
17
18
19
20
RSET
R10RTHM
Vcc
OSC
CS+
CS-
CSO
CA-
CAO
VAO
VA-OVCTAP
CHGENB
VLOGIC
OUT
GND
STAT1
STAT0
STATLV
DIL-20, (Top View)
J or N, DW Packages
UC2909
UC2909
VEFH24A 309
VEFH24A - regulator napiêcia
D1109ERA22-02
D1110RL2ZPLF-C4
C1155100p
+
+
+
+
+
++
+
C112463V47S5
C1123100p
C112520V680
D1111
MA
2160B
L1109VLQ0410TS2
S1
D1112MA185
S6
C112650V10
S4
D111311EQS04
D111411EQS04
C112710V330
C11276V330
S3
S8
S7
C11320.01
C11330.01
C11340.01
C11350.01
1 2 3 4 5 6 7 8 942.6 14.213.6 12.3 38.1 6.1 5.4 5.1
R11151800
C1130
20V
680
L1108
VLP
0085
C1128
0.0
1
UNREG 45V
UNREG 14V
UNREG -29V
POWER OFF
REG 12.3V
R1116
10k
C1129
50V
10
C11531000p
NON SW 5.3V
+
+
+
C113710V100
C1136
10V
100
C113816V47
REG 5V
HEATER (-)
HEATER (+)
C11450.1
NON SW 12V
C114016V10
R11185600
+
C11390.01
D1115MA4130L
Q11042SD1996
POWERTR
POWERTR
POWERTR
ERRORAMP
ERRORAMP
ERRORAMP
IC1103VEFH24A
T1101ETE28K61 AY
TransoptorQ1103
Fragment schematu zasilacza magnetowidu NVJ40 firmy Panasonic
