A-1 · 2019. 10. 29. · 1014-a * 750073 33-rer10267-rohs dio 200v 1a er102 do41 panit er102 rd-ap0503018a 0.00000 1014-b * 721975 33-rsf10dg13-rohs dio 200v 1a sf10dg do41 liton

conniechen文字方塊A-1

LENOVO DOC. NO： A607544

PS-5281-7VR-ROHS ISSUE DATE： 07/28/2006

REF. NO. REV. NO. PAGE ISS. DATE.

1.0 FIELD TEST CONFIRMATION

1.1 NPPR FROM SALES DEPARTMENT N-0607017 - 1 07/27/2006

2.0N DOCUMENT

2.1 DESIGN CHANGE LIST - - 1 同5281-7VW-ROHS

2.2 DESIGN REVIEW DOCUMENTS - - 1 同5281-7VW-ROHS

2.3 SCHEMATIC EPS311501 A-1 6 07/28/2006

2.4 PARTS LIST - 01 11 07/27/2006

2.4.1 CRITICAL COMPONENT LIST - 0E 3 07/19/2006

2.4.2 VENDOR LIST - 0E 4 07/19/2006

2.5 PRODUCT SPECIFICATION - 1.1 29 07/19/2006

2.6 PCB ARTWORK S5281-7VW A 8 07/27/2006

2.7 OUTLINE DRAWING 3OSS01478 A 1 07/19/2006

2.8 PACKING DRAWING 3PSS01103 A 1 07/19/2006

3.0 CUSTOM PARTS' DRAWING

3.1 LABEL (MAIN/BAR CODE/REV)

3.1.1 LBL-SPS 493-601946 A 1 07/19/2006

3.1.2 LBL-CAUT 493-719794 A 1 12/08/2004

3.1.3 BAR CODE 493-736462A-3 H 1 07/19/2006

3.1.4 BAR CODE 493-736462A-4 H 1 07/19/2006

3.1.5 BAR CODE 493-716090A-57 C 1 07/19/2006

3.1.6 BAR CODE 493-752580 A 1 07/19/2006

3.2 MANUAL 353-756135 X1 1 07/19/2006

4.0 DFQ REPORT

4.1 EMI TEST REPORT - X02 5 同5281-7VW-ROHS

4.2 PHASE / GAIN PLOT - X02 5 同5281-7VW-ROHS

4.3 COMPONENT STRESS REPORT CT-06P0107 A 14 07/07/2006

4.4 BETA TEST QUALIFICATION D-06P134 - 75 07/25/2006

4.5 QUALITY INSPECTION CRITERIA QN-06P118 A/A 6 07/12/2006

5.0 DFM REPORT

5.1 MTR - X2 4 同5281-7VW-ROHS

5.2 ASSEMBLING DRAWING 3ASS01092 A 1 07/19/2006

5.3 SPECIAL ASSEMBLING INSTRUCTION - 03 2 07/21/2006

5.4 Cpk DATA REPORT / FMEA SHEET / DVT-0607012 - 65 07/13/2006

PCB SOLDERING ABILITY REPORT

5.5 PROCESS MANAGEMENT PLAN - 01 10 07/14/2006

DESCRIPTION

CUSTOMER：

MODEL NO：

CONTENTS OF TECHNICAL DOCUMENT

conniechen文字方塊A-1

Parts List

Lite-On Technology Corporation.Peripherals & Components SBG.MODEL: PS-5281-7VR-ROHS_MBUPDATE: 2006/7/27REV: 01

DATE: 2006/7/27PAGE: 1PILOT RUN

ITEM U F R C PARTNO OLDPARTNO DESCRIPTION MAKER MAKERPN FILENO LOCATION QTY

1001 * 723508 32-L7912CV19-ROHS IC REG 3P-12V1.5A L7912CVTO220 STM 7912CV RD-AP0408393A IC240 1.00000

1001-A * 723506 32-MC7912CT11-ROHS IC REG 3P -12V 1AMC7912CTTO220 ON MC7912CT RD-AP0408357A 0.00000

1001-B * 720770 32-L7912ACV19-ROHS IC REG-12V 1.5A 7912ACV TO220 STM 7912ACV RD-AP0408392A 0.00000

1003 * 756249 32-TNY277P41-ROHS IC PWM SW 8P TNY277P DIP IC600 1.00000

1004 723617 33-EHZ15-215-ROHS Z.D 1/2W 14.5-15.1V HZ15-2 HITAH HZ15-2 RD-AP0510367C ZD650 1.00000

1004-A 731267 33-ETZX15B24-ROHS Z.D 1/2W 14.5-15.1V TZX15B VISHY TZX15B RD-AP0506232C 0.00000

1005 728566 34-SKN2222AS49-ROHS TRX NPN40V0.6A KN2222AS SOT23 KEC KN2222AS RD-AP0503249A Q301 1.00000

1005-A 732779 34-SMMBT2222A47-ROHS TRX NPN 40V 0.6AMMBT2222ASOT23 DII MMBT2222A RD-AP0503250A 0.00000

1005-B 733726 34-SPMBT2222A18-ROHS TRX NPN 40V 0.6A PMBT2222A SOT23 0.00000

1006 728568 34-SKTN2907AS49-ROHS TRX PNP60V0.6A KTN2907ASSOT23 KEC KTN2907AS RD-AP0506533A Q302,Q303,Q900 3.00000

1006-A 732780 34-SMMBT2907A47-ROHS TRX PNP 60V0.6AMMBT2907ASOT23 DII MMBT2907A RD-AP0506507A 0.00000

1006-B 733723 34-SPMBT2907AT/R18-ROHS TRX PNP 60V0.6APMBT2907AT/RSOT23 PHLIP PMBT2907AT/R RD-AP0512414A 0.00000

1009 723600 33-EHZ11C315-ROHS Z.D 1/2W 11.40-11.90V HZ11C3 HITAH HZ11C3 RD-AP0510367C ZD910 1.00000

1009-A 731256 33-ETZX12A24-ROHS Z.D 1/2W 11.4-11.9V TZX12A VISHY TZX12A RD-AP0408472A 0.00000

1010 * 751082 34-FTK07H90A31-ROHS MFET N 900V 7A 2 TK07H90A Q120,Q121 2.00000

1010-A * 753160 34-FFMH06N90G42-ROHS MFET N 900V 6A 2.5 FMH06N90G 0.00000

1010-B * 727504 34-F2SK2850-5342-ROHS MFET N 900V 6A 2.5 2SK2850-53 FUJI 2SK2850-53 RD-AP0506134A 0.00000

1010-C * 738334 34-F2SK274931-ROHS MFET N 900V 7A 1.6 2SK2749 TOSHB 2SK2749 RD-AP0604015A 0.00000

1011 * 730494 33-RMBR2045CTS13-ROHS DIO 45V 20A MBR2045CTS TO220 LITON MBR2045CTS RD-AP0408477A D210 1.00000

1011-A * 723749 33-RMBR2045CT24-ROHS DIO 45V 20A MBR2045CT TO220 VISHY MBR2045CT RD-AP0408398A 0.00000

1011-B * 716738 33-RSTPS2045CT19-ROHS DIO 45V 20A STPS2045CT TO220 STM STPS2045CT RD-AP0408403A 0.00000

1012 * 723562 33-RMBR3045PT13-ROHS DIO 45V 30A MBR3045PT TO3P LITON MBR3045PT RD-AP0408367A D230 1.00000

1012-A * 741111 33-RSTPS30S45CW19-ROHS DIO 45V 30ASTPS30S45CWTO247 STM STPS30S45CW RD-AP0408481A 0.00000

1012-B * 738265 33-RESAD83-004V42-ROHS DIO 45V 30A ESAD83-004V TO3P FUJI ESAD83-004V RD-AP0408480A 0.00000

1013 * 730469 33-RMBR20H100CTG24-ROHS DIO 100V20AMBR20H100CTGTO220AB VISHY MBR20H100CTG RD-AP0503033A D220 1.00000

1013-A * 741499 33-RSTPS20S100CT19-ROHS DIO100V20ASTPS20S100CTTO220 STM STPS20S100CT RD-AP0408482A 0.00000

1013-B * 752781 33-RMBR20100CTL13-ROHS DIO 100V 20A MBR20100CTL TO220 0.00000

1014 * 709864 33-RERB91-0242-ROHS DIO 200V 1A ERB91-02 DO41 FUJI ERB91-02 RD-AP0408302A D170,D240,D380 3.00000

1014-A * 750073 33-RER10267-ROHS DIO 200V 1A ER102 DO41 PANIT ER102 RD-AP0503018A 0.00000

1014-B * 721975 33-RSF10DG13-ROHS DIO 200V 1A SF10DG DO41 LITON SF10DG RD-AP0408373A 0.00000

1015 750309 33-E1N581767-LF DIO 20V 1A 1N5817 DO41 D231 1.00000

1015-A 724051 33-R1N581724-ROHS DIO 20V 1A 1N5817 DO-204AL VISHY 1N5817 RD-AP0507266A 0.00000

1015-B 724050 33-R1N581713-ROHS DIO 20V 1A 1N5817 DO41 LITON 1N5817 RD-AP0507448A 0.00000

Parts List




1017 * 741646 33-RSTPS30S45CT19-ROHS DIO 45V 30ASTPS30S45CTTO220AB STM STPS30S45CT RD-AP0408483A D211 1.00000

1017-A * 736491 33-RMBR3045CT13-ROHS DIO 45V 30A MBR3045CT TO220 LITON MBR3045CT RD-AP0408474A 0.00000

1017-B * 738473 33-RMBRP3045N26-ROHS DIO 45V 30A MBRP3045N TO220 FAIRC MBRP3045N RD-AP0503035A 0.00000

1018 723315 34-GTIP11726-ROHS TRX PNP 2A 100V TIP117 TO220 FAIRC TIP117 RD-AP0503101A Q910 1.00000

1018-A 723314 34-GTIP11719-ROHS TRX PNP 2A 100V TIP117 TO220 STM TIP117 RD-AP0506364A 0.00000

1018-B 723312 34-GTIP11711-ROHS TRX PNP 2A 100V TIP117 TO220 ON TIP117 RD-AP0506363A 0.00000

1019 * 714700 34-GKSA916Y26-ROHS TRX PNP 120V 0.8A KSA916YTO92L FAIRC KSA916Y RD-AP0408268A Q400 1.00000

1019-A * 700547 34-G2SA965Y31-ROHS TRX PNP 120V0.8A 2SA965Y TO92M TOSHB 2SA965Y RD-AP0408315A 0.00000

1019-B 728565 34-GKTA1023Y49-ROHS TRX PNP120V0.8A KTA1023YTO92L KEC KTA1023Y RD-AP0408316A 0.00000

1020 717645 33-R1N400713-ROHS DIO 1000V 1A 1N4007 DO41 LITON 1N4007 RD-AP0412081B D128,D129 2.00000

1020-A 750141 33-R1N400767-ROHS DIO 1000V 1A 1N4007 DO41 PANIT 1N4007 RD-AP0503017A 0.00000

1020-B 724389 33-R1N400724-ROHS DIO 1000V 1A 1N4007 DO41 VISHY 1N4007 RD-AP0408366A 0.00000

1021 * 723570 33-RSB56024-ROHS DIO 60V 5A SB560 DO201AD D600 1.00000

1021-A * 723569 33-RSB56013-ROHS DIO 60V 5A SB560 DO201AD LITON SB560 RD-AP0506044A 0.00000

1022 * 731373 32-TL431ACZ19-ROHS IC REF 3P 2.5V 1%TL431ACZTO92 STM TL431ACZ RD-AP0408395A IC310,IC330,IC650 3.00000

1022-A * 726574 32-KIA431A49-ROHS IC REF 3P 2.495V KIA431A1%TO92 KEC KIA431A RD-AP0408358A 0.00000

1022-B * 756737 32-AZ431BZ-ATRE190-ROHS IC REF 3P 2.5V AZ431BZ-ATRE1TO92 BCD AZ431BZ RD-AP0607247A 0.00000

1022-C * 723323 32-A431LP25-ROHS IC REF 3P A431LP(+-1%) ASTEC A431LP(+-%) RD-AP0506037A 0.00000

1023 * 751366 32-PS224U74-ROHS IC PG 16P PS224U DIP16 SITI PS224U RD-AP0503247A IC800 1.00000

1025 723322 34-G2N440126-ROHS TRX NPN 40V 0.6A 2N4401 TO92 FAIRC 2N4401 RD-AP0504240A Q901 1.00000

1025-A 723318 34-G2N440111-ROHS TRX NPN 40V 0.6A 2N4401 TO92 ON 2N4401 RD-AP0504239A 0.00000

1025-B 728562 34-GKN440149-ROHS TRX NPN 40V 0.6A KN4401 TO92 KEC KN4401 RD-AP0603337A 0.00000

1026 728411 33-RBYV-26EGP24-ROHS DIO 1000V 1A BYV-26EGP VISHY BYV-26EGP RD-AP0510471B D120,D160 2.00000

1026-A 717087 33-RMUR1100E11-ROHS DIO 1100V 1A MUR1100E DO15 ON MUR1100E RD-AP0503077A 0.00000

1026-B 700495 33-R1NU4131-ROHS DIO 1000V 1A 1NU41 DO15 TOSHB 1NU41 RD-AP0510467B 0.00000

1026-C 734985 33-RUF100713-ROHS DIO 1000V 1A UF1007 DO41 LITON UF1007 RD-AP0408473A 0.00000

1027 * 730176 33-BGBU60613-ROHS BRG 600V 6A GBU606 LITON LITON GBU606 RD-AP0509276A BD001 1.00000

1027-A * 703688 33-BGBU6J24-ROHS BRG 600V 6A GBU6J VISHY GBU6J RD-AP0509177A 0.00000

1027-B * 733049 33-BU6KBA80R52-ROHS BRG 800V 6A U6KBA80R SHGEN U6KBA80R RD-AP0408311A 0.00000

1028 738628 33-ETVR10271KS-ROHS ABSORBER 175V 2500A TVR10271KS WELKIN TVR10271KSY RD-AP0504275A RV120,RV121 2.00000

1028-A 738921 33-EV10K175-ROHS ABSORBER 175V 2500A V10K175 0.00000

1028-B 754630 33-ES10K175-ROHS ABSORBER 175V 2500A S10K175 0.00000

1030 * 728636 33-EP6KE200A13-ROHS TVS 600W 200V 5% P6KE200A LITON P6KE200A RD-AP0510466C ZD161 1.00000

Parts List




1030-A * 728637 33-EP6KE200A24-ROHS TVS 600W 200V 5% P6KE200A VISHY P6KE200A RD-AP0503086B 0.00000

1031 723257 34-G2N440326-ROHS TRX PNP 40V 0.6A 2N4403 TO92 FAIRC 2N4403 RD-AP0503283A Q902,Q410 2.00000

1031-A 723252 34-G2N440311-ROHS TRX PNP 40V 0.6A 2N4403 TO92 ON 2N4403 RD-AP0503282A 0.00000

1031-B 728563 34-GKN440349-ROHS TRX PNP 40V 0.6A KN4403 TO92 KEC KN4403 RD-AP0503284A 0.00000

1032 723574 33-EHZ4B215-ROHS Z.D 1/2W 3.80-4.0V HZ4B2 HITAH HZ4B2 RD-AP0510367C ZD901 1.00000

1032-A 731207 33-ETZX3V9B24-ROHS Z.D 1/2W 3.8-4.0V TZX3V9B VISHY TZX3V9B RD-AP0506232C 0.00000

1033 726927 33-E1N4749A24-ROHS Z.D 1W 22.8-25.2V 1N4749A VISHY 1N4749A RD-AP0507343B ZD300 1.00000

1033-A 723725 33-E1N4749A18-ROHS Z.D 1W 22.8-25.2V 1N4749A PHLIP 1N4749A RD-AP0507345B 0.00000

1033-B 741647 33-E1N4749A67-ROHS Z.D 1W 22.8-25.2V 1N4749A PANIT 1N4749A RD-AP0510368C 0.00000

1035 731217 33-ETZX5V1B24-ROHS Z.D 1/2W 4.9-5.1V TZX5V1B VISHY TZX5V1B RD-AP0506232C ZD381 1.00000

1035-A 725733 33-EHZ5C115-ROHS Z.D 1/2W 4.9-5.1V HZ5C1 HITAH HZ5C1 RD-AP0510367C 0.00000

1036 753893 33-S1N4148W-7-F47-ROHS DIO 75V 0.3A 1N4148W-7-F SOD123 DII 1N4148W-7-F RD-AP0601325A D301,D302,D306,D307,D900,D901,D303,D

905

8.00000

1036-A 754479 33-S1N4148W-V24-ROHS DIO 75V 0.15A 1N4148W-V SOD123 VISHY 1N4148W-V RD-AP0601383A 0.00000

1036-B 754480 33-S1N4148W67-ROHS DIO 75V 0.15A 1N4148W SOD123 PANIT 1N4148W RD-AP0512232A 0.00000

1037 723802 33-R1N414818-ROHS DIO 75V 0.2A 1N4148 DO35 PHLIP 1N4148 RD-AP0408264A D400,D401 2.00000

1037-A 734778 33-R1N414826-ROHS DIO 75V 0.2A 1N4148 DO35 FAIRC 1N4148 RD-AP0408313A 0.00000

1037-B 723799 33-R1N414814-ROHS DIO 75V 0.2A 1N4148 DO35 ROHM 1N4148 RD-AP0408261A 0.00000

1038 * 720887 32-UC3843BN11-ROHS IC PWM 8P UC3843BN ON ON UC3843BN RD-AP0408354A IC300 1.00000

1038-A 720411 32-UC3843BN19-ROHS IC PWM 8P UC3843BN STM STM UC3843BN RD-AP0408391A 0.00000

1039 * * 715571 LTV-817-PRB-ROHS IC PHO 4P LTV-817-PRB 130-260 LITON LTV-817-PRB RD-AP0408339A PC650,PC600 2.00000

1039-A * 716910 32-PS25611VW16-ROHS IC PHO 4P PS2561-1-VW 130-260 NEC PS2561-1-VW RD-AP0408353A 0.00000

1039-B * 728095 32-TLP621GRH31-ROHS IC PHO 4P TLP621GRH 150-300 TOSHB TLP621GRH RD-AP0504085A 0.00000

1040 * * 752134 LTV-817-PRB1-ROHS IC PHO 4P LTV-817-PRB1 170-260 LITON LTV-817M-PRB1 RD-AP0504183A PC300 1.00000

1040-A * 728095 32-TLP621GRH31-ROHS IC PHO 4P TLP621GRH 150-300 TOSHB TLP621GRH RD-AP0504085A 0.00000

2001 727063 30-FV914J2SS5-ROHS R.HV 910K 1/2W(S) J RMS 1KVFTABT FTABT RMS-1/2W(S)910K RD-AP0511084B R001 1.00000

2002 718183 30-S753J4SA-ROHS R.CF 75K 1/4W J 1206 KOA RD-AP0606185D R101,R102,R103,R104 4.00000

2003 720990 30-FG13BJBSS-ROHS R.MO 0.13 2W(S) J QUMAO RD-AP0603432C R125 1.00000

2004 721424 30-S354F4SA7-ROHS R.MF 357.0K 1/4W F 1206 KOA RD-AP0606185D R164,R164-1 2.00000

2005 730284 30-S432J10SA-ROHS R.CF 4.3K 1/10W J 0603 TAI RD-AP0606185D R316 1.00000

2006 728405 30-S542F10SA9-ROHS R.MF 5.49K 1/10W F 0603 TAI RD-AP0606185D R319 1.00000


2008 721053 30-FG200J2M63S-ROHS R.MO 20 1/2W(S) J QUMAO RD-AP0603432C R230 1.00000

Parts List




2009 727780 30-S300J10SA-ROHS R.CF 30 1/10W J 0603 TAI RD-AP0606185D R165 1.00000

2010 707696 30-FA101J8SA-ROHS R.CF 100 1/8W J 3.3 QUMAO RD-AP0412120B R403 1.00000

2011 712820 30-S102J8SA-ROHS R.CF 1K 1/8W J 0805 KOA RD-AP0606185D R402 1.00000


2014 727431 30-S513J10SA-ROHS R.CF 51K 1/10W J 0603 TAI RD-AP0606185D R905 1.00000


2016 727426 30-S101J10SA-ROHS R.CF 100 1/10W J 0603 TAI RD-AP0606185D R311,R320,R820 3.00000

2017 717661 30-S51AJ4SA-ROHS R.CF 5.1 1/4W J 1206 KOA RD-AP0606185D R160,R160-1 2.00000

2018 717707 30-S122J4SA-ROHS R.CF 1.2K 1/4W J 1206 KOA RD-AP0606185D R221,R221-1,R221-2,R221-3 4.00000

2019 713445 30-S101J4SA-ROHS R.CF 100 1/4W J 1206 KOA RD-AP0606185D R239 1.00000

2020 717388 30-FG100JASS-ROHS R.MO 10 1W(S) J QUMAO RD-AP0603432C R210 1.00000

2021 718631 30-FG100JBSS-ROHS R.MO 10 2W(S) J QUMAO RD-AP0603432C R220 1.00000



2024 727419 30-S102J10SA-ROHS R.CF 1K 1/10W J 0603 TAI RD-AP0606185D R213,R650,R601,R900,R906 5.00000


2026 741199 30-SA10409-ROHS R.VR 100K 0.1W M SIDE TAIVO TB069E-OD-104 RD-AP0605177B VR310 1.00000

2028 727433 30-S104J10SA-ROHS R.CF 100K 1/10W J 0603 TAI RD-AP0606185D R312,R379 2.00000

2029 727432 30-S105J10SA-ROHS R.CF 1M 1/10W J 0603 TAI RD-AP0606185D R301 1.00000

2030 732297 30-FG473JESS-ROHS R.MO 47K 5W(S) J QUMAO RD-AP0603432C R128 1.00000

2031 716736 30-S112F4SA5-ROHS R.MF 1.15K 1/4W F 1206 KOA RD-AP0606185D R302 1.00000

2032 727446 30-S103J10SA-ROHS R.CF 10K 1/10W J 0603 TAI RD-AP0606185D R303,R313,R333,R909,R902 5.00000

2033 727424 30-S103F10SA-ROHS R.MF 10K 1/10W F 0603 TAI RD-AP0606185D R315,R657 2.00000











Parts List







2047 713306 30-S221J4SA-ROHS R.CF 220 1/4W J 1206 KOA RD-AP0606185D R217,R218,R219 3.00000




2052 728018 30-S881F10SA7-ROHS R.MF 887.0 1/10W F 0603 TAI RD-AP0606185D R330 1.00000





2058 728051 30-S213F10SA-ROHS R.MF 21.00K 1/10W F 0603 TAI RD-AP0606185D R655 1.00000





2066 741635 30-SA20103-ROHS R.VR 200 0.1W M SIDE HDK VZ067TL7-B201 PB(F) RD-AP0507365B VR822 1.00000


2071 728529 30-S201F10SA-ROHS R.MF 200.0 1/10W F 0603 TAI RD-AP0606185D R824 1.00000


2073 732564 30-FZ30DJ20-ROHS R.ZW 0.0030 2.0D J 5.0 CN30W SH220 1.00000

2074 713745 30-FJ103K01-ROHS R.TH TTC 10K K 5D 22MA THINK TTC-103KJEY RD-AP0408323A RT910 1.00000

2076 716717 30-S225J4SA-ROHS R.CF 2.2M 1/4W J 1206 KOA RD-AP0606185D R162,R161,R163 3.00000

2077 753891 30-FT10BJBS-ROHS R.TF 0.1 2W J QUMAO RFS2WT52J0.1R RD-AP0605149A R129 1.00000

2078 728603 30-S352F10SA7-ROHS R.MF 3.57K 1/10W F 0603 TAI RD-AP0606185D R921,R903 2.00000

2079 753592 30-S472F10SA-ROHS R.MF 4.7K 1/10W F 0603 TAI 30-S472F10SA-ROHS RD-AP0606185D R920,R904 2.00000


2082 740527 30-FV165F4AK-ROHS R.HV 1.6M 1/4W F RMU 1KV FTABT FTABT RD-AP0511080A R121 1.00000



2085 714645 30-S302F4SA1-ROHS R.MF 3.01K 1/4W F 1206 KOA RD-AP0606185D R381 1.00000

2086 718978 30-S100F4SA-ROHS R.MF 10 1/4W F 1206 KOA RD-AP0606185D R620,R621 2.00000

Parts List




2100 733965 04-J21C02-ROHS JUMPER 0.8D BT TAPING LITON 04-J21C02-ROHS RD-AP0501109A JP3, C001 LEAD (10MM*2) 2.00000

2101 733965 04-J21C02-ROHS JUMPER 0.8D BT TAPING LITON 04-J21C02-ROHS RD-AP0501109A C200(5MM*1) 1.00000

2102 733965 04-J21C02-ROHS JUMPER 0.8D BT TAPING LITON 04-J21C02-ROHS RD-AP0501109A JP17(7.5MM) 1.00000

2103 733965 04-J21C02-ROHS JUMPER 0.8D BT TAPING LITON 04-J21C02-ROHS RD-AP0501109A JP1(12.5MM) 1.00000

2104 733965 04-J21C02-ROHS JUMPER 0.8D BT TAPING LITON 04-J21C02-ROHS RD-AP0501109A JP21,JP22,JP25(15MM*3) 3.00000

2105 707939 04-J21E01-ROHS JUMPER 0.5D BT RUCH HUIHU 04-J21E01-ROHS RD-AP0606114C JP12,JP18,JP30(7.5MM*3) 0.00027

2106 707939 04-J21E01-ROHS JUMPER 0.5D BT RUCH HUIHU 04-J21E01-ROHS RD-AP0606114C JP24,JP19(6MM) 0.00018

2107 707939 04-J21E01-ROHS JUMPER 0.5D BT RUCH HUIHU 04-J21E01-ROHS RD-AP0606114C JP7,JP16,JP23(10MM*3) 0.00027

2108 707939 04-J21E01-ROHS JUMPER 0.5D BT RUCH HUIHU 04-J21E01-ROHS RD-AP0606114C JP27(15MM) 0.00009

2109 727436 30-S000J10SA-ROHS R.CF 0 1/10W J 0603 TAI RD-AP0606185D JP4,JP10,JP28,JP31,R830,R612,C612,JP34,J

P11,JP36,JP37

11.00000

2110 713769 30-S000J4SA-ROHS R.CF 0 1/4W J 1206 KOA RD-AP0606185D R654,R810,R842,JP5,JP13,JP20,JP29,JP33,J

P32,JP35

10.00000

2111 727436 30-S000J10SA-ROHS R.CF 0 1/10W J 0603 TAI RD-AP0606185D JP8,JP14 2.00000

3001 737813 31-F7100M5052B-ROHS C.ELE 10UF 50V M 5*11 KME 5T NCC KME50VB10M5*11F E0 RD-AP0507042B C129, ,C820 2.00000

3001-A 720741 31-F7100M50581-ROHS C.ELE 10UF 50V M 5*11 YXF ROBYCON 50YXF10M5*11 RD-AP0510068D 0.00000

3001-B 733410 31-F7100M50671-ROHS C.ELE 10UF 50V M 5*11 VT 5T TACON TVT1H100ML05110 RD-AP0511600C 0.00000

3002 731442 31-FE684KB560-ROHS C.MEX 0.68UF 275V K 22.5 LE OKAYA LE684-L35 RD-AP0408516A C001(INLET) 1.00000

3002-A 731441 31-FE684KB5501-ROHS C.MEX 0.68UF 275V K22.5KNB1560 ISKRA KNB1560-0.68UF RD-AP0408515A 0.00000

3002-B 726062 31-FE684MB5542-ROHS C.MEX 0.68UF 275V M 22.5 R46 ARCO R46KN368045M1M RD-AP0602060D 0.00000

3002-C 726053 31-FE684KB551-LF C.MEX 0.68UF 275V K 27.5 MKP HJC MKP684K275AB127J RD-AP0606198B 0.00000

3003 736282 31-S1104K506-ROHS C.MON 0.1UF 50V K X7R 0603 MURAT RD-AP0603465C C903,C850,C822,C823,C831,C902 6.00000

3005 704923 31-F1221KAK-ROHS C.DIS 220PF 1KV K Y5P 5T JETO N6Y5P4B221K RD-AP0508177C C125 1.00000

3006 702032 31-F1472K50-ROHS C.MON 4700PF 50V K X7R 5T VISHY K472K15X7RF5UH5 RD-AP0503096A C210,C230 2.00000

3007 * 713809 31-F1332MD0581-ROHS C.DIS 3300PF 400V M E 10 CD TDK CD14-E2GA332MYGS RD-AP0508357C C003(INLET:N-FG),C007,C002 3.00000

3007-A * 750702 31-F1332MD0543-ROHS C.DIS 3300PF 400V M E 10 KX-S MURTA DE1B3KX471KA4BL01 RD-AP0505118C 0.00000

3008 714652 31-F1222MD0581-ROHS C.DIS 2200PF 400V M E 10 CD TDK CD12-E2GA222MYHS RD-AP0508357C C005,C006 2.00000

3008-A 750701 31-F1222MD0543-ROHS C.DIS 2200PF 400V M E 10 KX-S MURTA DE1B3KX331KA4BL01 RD-AP0505118C 0.00000

3009 * 730977 31-F7222M06525-ROHS C.ELE 2200UF 6.3V M 10*25 KZE NCC KZE6.3VB2200MJ25 RD-AP0607184I C231,C602 2.00000

3009-A * 730091 31-F7222M06582-ROHS C.ELE 2200UF 6.3V M 10*23 ZL RUBCO 6.3ZL222M10*23 RD-AP0602557E 0.00000

3009-B * 730978 31-F7222M06671-ROHS C.ELE 2200UF 6.3V M 10*25 HD TAICON THD0J222M10*250LL3 RD-AP0606164F 0.00000

3010 * 734118 31-F7332M06522-ROHS C.ELE 3300UF 6.3V M 10*25 KY NCC KY6.3VB3300M RD-AP0604118F C232 1.00000

3010-A * 740920 31-F7332M06674-ROHS C.ELE 3300UF 6.3V M 10*25 PW TAICON TPW0J332MK10250LL3 RD-AP0605179G 0.00000

Parts List




3011 * 727575 31-F7102M1066-ROHS C.ELE 1000UF 10V M 8*20 RLS 5T OST RLS108010M08201W RD-AP0607167G C212 1.00000

3011-A * 732686 31-F7102M10702-ROHS C.ELE 1000UF 10V M 8*20 LZG 5T LTEC ZGD1AM102F20O RD-AP0601316G 0.00000

3011-B 727404 31-F7102M1067-ROHS C.ELE 1000UF 10V M 8*20 PW TAICON TPW1A102ML08200L RD-AP0605179G 0.00000

3013 714660 31-S1104K502-ROHS C.MON 0.1UF 50V K X7R 1206 TDK RD-AP0603465C C380,C811 2.00000

3014 726057 31-FE224MB5542-ROHS C.MEX 0.22UF 275V M 15 R46 ARCO R46KI322045M2M RD-AP0602060D C004 1.00000

3014-A 733291 31-FE224KB560-ROHS C.MEX 0.22UF 275V K 15 LE OKAYA LE224-L35 RD-AP0408516A 0.00000

3014-B 726049 31-FE224KB5512-ROHS C.MEX 0.22UF 275V K 15 MKP HJC MKP224K275AB115J RD-AP0606198B 0.00000

3014-C 730323 31-FE224KB550-ROHS C.MEX 0.22UF 275V K 15 KNB1560 ISKRA KNB1560-0.22UF RD-AP0408515A 0.00000

3015 731111 31-S1332K506-ROHS C.MON 3300PF 50V K X7R 0603 MURAT RD-AP0603465C C317 1.00000

3016 * 751049 31-F7222M16667-ROHS C.ELE 2200UF 16V M 10*25 RLS OST RLS228010M1025P1 RD-AP0607167G C221 1.00000

3016-A * 740944 31-F7222M16704-ROHS C.ELE 2200UF 16V M 10*28 LZG LTEC ZGD1CM222G28O RD-AP0601316G 0.00000

3016-B 751643 31-F7222M16676-ROHS C.ELE 2200UF 16V M 10*25 HD TAICON THD1C222M10250 RD-AP0606164F 0.00000

3017 * 754269 31-F7681MB5661-ROHS C.ELE 680UF 250V M 22*50 SPS OST SPS687250M2250P3 RD-AP0606162D C120,C121 2.00000

3017-A * 754270 31-F7681MB5601-ROHS C.ELE 680UF 250V M 22*51 GM ELITE GM2E681MNC2251P9 RD-AP0603199D 0.00000

3018 723135 31-F1102KA0-ROHS C.MON 1000PF 100V K X7R 5T VISHY K102K15X7RH5UH5 RD-AP0503096A C304 1.00000

3019 728378 31-S1224K161-ROHS C.MON 0.22UF 16V K X7R 0805 TDK RD-AP0603465C C316 1.00000

3020 727883 31-S1473K166-ROHS C.MON 0.047UF 16V K X7R 0603 MURAT RD-AP0603465C C320 1.00000

3021 * 751480 31-F7470M25528-ROHS C.ELE 47UF 25V M 5*11 KY 5T NCC KY25VB47ME11 RD-AP0604118F C242 1.00000

3021-A * 732702 31-F7470M2570-ROHS C.ELE 47UF 25V M 5*11 LZG 5T LTEC ZGD1EM470D11A RD-AP0601316G 0.00000

3021-B * 729472 31-F7470M2567-ROHS C.ELE 47UF 25V M 5*11 PW 5T TAICON TPW1E470ML05110TC3 RD-AP0605179G 0.00000


3023 727659 31-S1104K166-ROHS C.MON 0.1UF 16V K X7R 0603 MURAT RD-AP0603465C C333,C656,C904,C165 4.00000

3025 700281 31-F1102K50-ROHS C.MON 1000PF 50V K X7R 5T VISHY K102K15X7RF5UH5 RD-AP0503096A C213 1.00000

3026 * 731834 31-F7152M1052-ROHS C.ELE 1500UF 10V M 10*25 KZE NCC KZE10VB1500MJ25 RD-AP0607184I C211,C600 2.00000

3026-A * 731836 31-F7152M1058-ROHS C.ELE 1500UF 10V M 10*23 ZL RUBCO 10ZL152M10*23 RD-AP0602557E 0.00000

3026-B * 750942 31-F7152M10621-ROHS C.ELE 1500UF 10V M 10*25 HD NIHCO UHD1A152MPD RD-AP0504094B 0.00000

3026-D 731835 31-F7152M1067-ROHS C.ELE 1500UF 10V M 10*25 HD TAICON THD1A152M10250LL3 RD-AP0606164F 0.00000

3027 715533 31-S1473K502-ROHS C.MON 0.047UF 50V K X7R 1206 TDK RD-AP0603465C C241 1.00000

3028 710300 31-FM103JA060B-ROHS C.PEI 0.01UF 100V J 5T EUR PEI103J2AT RD-AP0603377B C306 1.00000


3030 742527 31-S1106K1621-ROHS C.MON 10UF 16V K X7R 1206 TDK C3216X7R1C106KT RD-AP0601393C C171 1.00000

3031 731391 31-F7221M3552A-ROHS C.ELE 220UF 35V M 8*15 KY 5T NCC KY35VB220MH15 RD-AP0604118F C170 1.00000

3031-A 732482 31-F7221M35701-ROHS C.ELE 220UF 35V M 8*15 LZG 5T LTEC ZGF1VM221F15A RD-AP0601316G 0.00000

Parts List




3031-B 729476 31-F7221M35671-ROHS C.ELE 220UF 35V M 8*15 PW 5T TAICON TPW1C332MK1231MLL5 RD-AP0605179G 0.00000

3032 * 728982 31-F7101M25526-ROHS C.ELE 100UF 25V M 6.3*11 KY 5T NCC KY25VB100MF11 RD-AP0604118F C240 1.00000

3032-A * 729470 31-F7101M2567-ROHS C.ELE 100UF 25V M 6.3*11 PW 5T TAICON TPW1E101MK06110TC3 RD-AP0605179G 0.00000

3032-B * 732485 31-F7101M2570-ROHS C.ELE 100UF 25V M 6.3*11 LZG5T LTEC ZGF1EM101E11A RD-AP0601316G 0.00000

3033 737816 31-F747AM5052G-ROHS C.ELE 4.7UF 50V M 5*11 KME 5T NCC KME50VB4R7M5*11F RD-AP0507042B C307 1.00000

3033-A 722894 31-F747AM5058-ROHS C.ELE 4.7UF 50V M 5*11 YXF 5T ROBYCON 50YXF4.7M5*11 RD-AP0510068D 0.00000

3033-B 729288 31-F747AM5066-ROHS C.ELE 4.7UF 50V M 5*11 RLS 5T OST RLS475050M0511P1 RD-AP0607167G 0.00000

3034 727795 31-S1103K506-ROHS C.MON 0.01UF 50V K X7R 0603 MURAT RD-AP0603465C C381,C821,C901 3.00000

3035 712827 31-S1104K501-ROHS C.MON 0.1UF 50V K X7R 0805 TDK RD-AP0603465C C302,C331 2.00000

3036 * 714343 31-F722AMD552-ROHS C.ELE 2.2UF 450V M 10*12.5 KMG NCC KMG450VB2R2M RD-AP0601310E C126 1.00000

3036-A * 732165 31-F722AMD5521-ROHS C.ELE 2.2UF 450V M 10*16 KMF NCC KMF451VB2R2M10*16F50 RD-AP0601313D 0.00000

3036-B * 731327 31-F722AMD5581-ROHS C.ELE 2.2UF 450VM10*12.5YXA5T RUBCO 450YXA2A2M10*12.5 RD-AP0510119B 0.00000

3037 718314 31-F722AM50528-ROHS C.ELE 2.2UF 50V M 5*11 5T KMF NCC KMF50VB2R2M5*11FT50E0 RD-AP0601313D C650 1.00000

3037-A 724361 31-F722AM5058-ROHS C.ELE 2.2UF 50V M 5*11 YXF 5T ROBYCON 506YXF2.2M5*11 RD-AP0510068D 0.00000

3037-B 729286 31-F722AM5066-ROHS C.ELE 2.2UF 50V M 5*11 RLS 5T OST RLS225050M05111W RD-AP0607167G 0.00000


3039 741143 31-F7101M10524-ROHS C.ELE 100UF 10V M 5*11 KME 5T NCC KME10VB100M5*11 E0 RD-AP0507042B C900 1.00000

3039-A 741162 31-F7101M10581-ROHS C.ELE 100UF 10V M 5*11 YXA 5T RUBCO 10YXA100MTA5*11 RD-AP0510119B 0.00000

3039-B 742731 31-F7101M1066-ROHS C.ELE 100UF 10V M 5*11 RLS 5T OST RLS107010M0511WS RD-AP0607167G 0.00000

3040 716435 31-S1472KA02-ROHS C.MON 4700PF 100V K X7R 1206 TDK C3126X7R2A472K RD-AP0510381C C220 1.00000


3043 738430 31-S1105K251-ROHS C.MON 1UF 25V K X7R 0805 TDK RD-AP0603465C C300 1.00000

3045 724765 31-S1103ME02-ROHS C.MON 0.01UF 500V M X7R 1206 AVX 12067C103M RD-AP0510261A C128,C128-1,C128-2,C128-3 4.00000

3047 718785 31-S1222K502-ROHS C.MON 2200PF 50V K X7R 1206 TDK RD-AP0603465C C620 1.00000

4003 738783 37-C6311104-ROHS CHOKE TR18*10*10 7.5MH(MIN)A07 LITON 37-C6311104-ROHS RD-AP0603092C L002,L001 2.00000

4004 * 739724 37-C53010802-ROHS PFC CHOKE UUH3250S S5301-08HP LITON 37-C53010802-ROHS RD-AP0510241A L100 1.00000

4005 * 739420 42-M53113P01-ROHS XFMR S5311-3M ERL-35 PC40 LITON 42-M53113P01-ROHS RD-AP0508484C T121 1.00000

4006 * 756331 42-M52817P01-ROHS XFMR S5281-7VW EEL19 PC40 T600 1.00000

4007 * 751512 37-C5311702-ROHS CHOKE T106-52 S5311-7M LITON 37-C5311702-ROHS RD-AP0504134A L200 1.00000

4008 730443 37-C5251109-ROHS CHOKE R5*25 1.8UH +-20% LITON 37-C5251109-ROHS RD-AP0503358A L220 1.00000

4009 * 732112 37-C5251202-ROHS CHOKE MAG AMP W760 LITON 37-C5251202-ROHS RD-AP0603177D L400 1.00000

4010 * 751513 37-C5311703-ROHS CHOKE T68-52D 23UH +-20%S5311-7M LITON 37-C5311703-ROHS RD-AP0509050B L230 1.00000

4011 * 717572 37-C8081104-ROHS CHOKE R4*10 0.43UH+-20% 10.2 LITON 37-C8081104-ROHS RD-AP0509137B L210 1.00000

Parts List




4011-A 741466 37-C8081104A-ROHS CHOKE R4*10 0.43UH +-20% 10.2 LITON 37-C8081104A-LF RD-AP0508520B 0.00000

4012 756438 37-C5281701-ROHS CHOKE DR6*8.3 0.9UH +-20% LITON 37-C5281701-ROHS RD-AP0607221A L600 1.00000

4014 752132 37-C5311706-ROHS CHOKE R4*10 0.1UH +-20% LITON 37-C5311706-ROHS RD-AP0506194A L231 1.00000

4015 719280 37-C4022404C-ROHS BEAD CORE RH3.5*3.2*1.6C W5 HORNGYIH RH3.5*3.2*1.6C W5 RD-AP0408382A PIN1 OF Q120,Q121 2.00000

5001 755972 45-M52817CR1-ROHS CNTR ASSY 1007 P1-P2 S5281-7VW YIYI 45-M52817CR1-ROHS RD-AP0607175A CABLE HARNESS(P1-P2) 1.00000

5002 756056 45-M52817CR2-ROHS CNTR ASSY 1007 P3-P8 S5281-7VW YIYI 45-M52817CR2-ROHS RD-AP0607176A CABLE HARNESS(P3-P8) 1.00000

5004 * 726410 04-AM5111101-ROHS WIRE+H 1007 #24 50 L CAROL 04-AM5111101-ROHS RD-AP0606115B RT910 LEADS 2.00000

5005 * 718133 04-AM5201103-ROHS WIRE+H+TUB 1430 #18 125 B INLET-L 1.00000

5006 * 718132 04-AM5201102-ROHS WIRE+H+TUB 1430 #18 125 W INLET-N 1.00000

5007 * 740376 04-LM3601101-ROHS WIRE+T 1015 #16 50 G/Y LITON 04-LM3601101-ROHS RD-AP0511146C INLET(FG) 1.00000

6001 754292 46-M53117CS3-ROHS CASE-TOP 150*140*84.5*0.7 SECC AVL 46-M53117CS3-ROHS RD-AP0511569A CASE-TOP 1.00000

6002 755971 46-M52817CS1-ROHS CASE-BTM 150*140*86 SECC GIN LI 46-M52817CS1-ROHS RD-AP0607100A CASE-BTM 1.00000

6003 751348 52-M52313HS4-ROHS HEAT SINK 66*63.6*4 AL SHM 52-M52313HS4-ROHS RD-AP0504136A HS1 1.00000

6004 751022 52-M53117HS1-ROHS HEAT SINK 80.8*68*12.5*5 AL SHM 52-M53117HS1-ROHS RD-AP0504285B HS2 1.00000

6006 703668 50-S23300801-ROHS SCREW+T PH 3*1.06*8 ZC WIEN 50-S23300801-ROHS RD-AP0505220B TTC-HOLDER 1.00000

6007 * 741264 28-M63112PL2-ROHS ISL-PLT+T 85*65(2L) #1350F EVERF 28-M63112PL2-ROHS RD-AP0601082C CASE-TOP 1.00000

6008 722011 50-S1A301804-ROHS SCREW+M PW 3*0.5*18 ZB WIEN 50-S1A301804-ROHS RD-AP0502039C Q120 1.00000

6009 734865 28-M11512GM1-ROHS ISL-SHEET 24*20*0.15 MICA L&D 28-M11512GM1-ROHS RD-AP0606161B Q120,Q121,D230 3.00000

6010 * 721791 28-M62312GM2-ROHS ISL-SHEET 12*18*0.15 MICA L&D 28-M62312GM2-ROHS RD-AP0606025B D220,D210,D211,IC240 4.00000

6011 742734 50-S2A3000801-ROHS SCRWE+T PW 3*1.05*8 ZC WIEN 50-S2A3000801-ROHS RD-AP0503029B PCB&CASE ASSY 4.00000

6012 734100 50-S25306002-ROHS SCREW+T TF 3*0.5*6 NI WIEN 50-S25306002-ROHS RD-AP0603521C CASE ASSY 6.00000

6013 601946 93-M52817DL2-ROHS LBL-SPS 63*50 HPE-5281-7VR CHMAY 93-M52817DL2-ROHS RD-AP0607211A CASE-TOP 1.00000

6014 726812 44-M98011ST1-ROHS SNAP RIVET 10.5*3*18.4 VO PIN 44-M98011ST1-ROHS RD-AP0606210B FAN 4.00000

6015 * 724153 50-S2D350701-ROHS SCREW+T PH+GW #6-32X7 UNC WIEN 50-S2D350701-ROHS RD-AP0601083D F.G. 1.00000

6016 720377 50-S1B301202-ROHS SCREW+M PH+SP 3*0.5*12 NI WIEN 50-S1B301202-ROHS RD-AP0605250A IC240 D211 D220 D210 4.00000

6018 729956 44-M52211BK2-ROHS TTC-HOLDER 16*7.5*4 PBT V0 KANGY 44-M52211BK2-LF RD-AP0408437A HS2 1.00000

6021 * 722885 28-M52014WS1-ROHS ISL-WASHER 6.15*2.5 PPS 94V0A KANGY 28-M52014WS1-ROHS RD-AP0508028C D220,D210,D211,IC240 4.00000

6022 701490 50-N124301-ROHS NUT 3*0.5*2.4 ZC WIEN 50-N1243021-ROHS RD-AP0603427E D220,D211,D210,IC240,INLTE&CASE 6.00000

6023 714434 44-M41411GB1-ROHS GND BAND INLET 49*14*20 SPTE CUTAW 44-M41411GB1-LF RD-AP0408434A INLTE 1.00000

6023-A 754807 44-M63112GB1-ROHS GND BAND INLET 48*14*17.7 SPTE TECX 44-M63112GB1-ROHS RD-AP0601335A INLTE 0.00000

6024 727672 44-M61516SR1-ROHS SPACER SUPPORT 10*3 NY V2 KANGY 44-M61516SR1-LF RD-AP0408447A PCB(MB) 1.00000

6025 708239 50-AM420112-ROHS NUT+W 3*0.5*3.4 NI WIEN 50-AM420112-ROHS RD-AP0607239B Q121 D230 2.00000

6026 * 719794 93-M41519CL3-ROHS LBL-CAUT 22*12 PA-4151-9I CHMAY 93-M41519CL3-ROHS RD-AP0412035B CASE-TOP 1.00000

Parts List




6029 736462 93-M50223BC1-ROHS BAR CODE 76*20 CHMAY 93-M50223BC1-ROHS RD-AP0504091A CASE-TOP 1.00000

6031 741348 50-S1A301504-ROHS SCREW+M PW 3*0.5*15 ZB WIEN 50-S1A301504-ROHS RD-AP0502039C D230 1.00000

6032 739828 44-M53113SR1-ROHS SPACE SUPPORT 9*8.2 NY V2 KANGY 44-M53113SR1-ROHS RD-AP0504086A HS1 1.00000

6034 751779 28-M52313RB1-ROHS RUBBER 8*16*9 RB B L&D 28-M52313RB1-ROHS RD-AP0602325B PFC 1.00000

6035 740390 28-M525108PL3-ROHS ISL-PLT+T 80*30(2L) #1350F 3M EVERF 28-M525108PL3-ROHS RD-AP0601082C C001 1.00000

6039 * 705033 43-M41316PG1-ROHS INLET 250V 15A 0707-1 IAW 0707-1 RD-AP0408419A INLET 1.00000

6039-A 754056 43-M52813PG1-ROHS INLET 250V 10A TU-301-A-A0-Y1 TECX 43-M52813PG1-ROHS RD-AP0603450B INLTE 0.00000

6040 741996 50-S183008021-ROHS SCRWE+M CH 3*0.5*8 NI+NL WIEN 50-S183008021-ROHS RD-AP0502085C INLTE&CASE,PFC 6.00000

6041 752580 93-M42911BC2-ROHS BAR CODE 50*12 CHMAY 93-M42911BC2-ROHS RD-AP0506452A BTM-CASE 1.00000

7002 * 753346 61-M126A-ROHS FAN 08S 12V 0.24A8025H12SND9120P T&T 8025H12S ND9 RD-AP0511872A FAN910 1.00000

7004 * 727814 38-T80A523-ROHS FUSE HSB 250V 8A 5*20 215(P) LITTL 215008-PGT RD-AP0408385A F001 1.00000

7004-A * 730015 38-T80A062-ROHS FUSE HSB 250V 8A 5*20 SPT(P) SCHER 0001.2513 RD-AP0504133A 0.00000

7004-B * 730395 38-T80A012-ROHS FUSE HSB 250V 8A 5*20 5HT(P) BEL 5HT(P)-8A RD-AP0603416B 0.00000

7005 756454 01-M5281712VW-ROHS PCB S5281-7VW 145*110*1.6 2/0 X2 PCB 1.00000

8001 730042 91-MNC10-ROHS IN CTN 1156*1126*900 1L EASY 91-MNC10-ROHS RD-AP0501243D 0.00417

8002 730039 91-MNC7-ROHS IN CTN 366*546*167 5L EASY 91-MNC7-ROHS RD-AP0501243D 0.12500

8003 731837 91-M62515PL1-ROHS PA PLT LAY 543*365*175 HASIN 91-M62515PL1-ROHS RD-AP0605130B OUT-CTN 0.12500

8004 756135 53-M52817MN1-ROHS MANUAL 297*210 PS-5281-7VR 0.12500

8005 729792 55-MPA1-ROHS PALLET 1170*1140*131 SHEND 55-MPA1-ROHS RD-AP0408444A 0.00417

8006 736833 07-W251361D-ROHS WRAP 250*360*0.01 PW32 MPI ARMOR MPI RD-AP0606207C 0.12500

8007 718366 90-M51515PG1-ROHS PE BAG 550*374*550 S5151-5XX TAISI 90-M51515PG1-ROHS RD-AP0603184C OUT-CTN 0.12500

8008 736462 93-M50223BC1-ROHS BAR CODE 76*20 CHMAY 93-M50223BC1-ROHS RD-AP0504091A 0.12500

8009 716090 93-M42213BC2-ROHS BAR CODE 165*102*0.05 CHMAY 93-M42213BC2-ROHS RD-AP0504090A PALLET 0.00417

9001 * 707509 04-T14B20020-ROHS TUBE-HST 0.20*2.0 125C 600V B LITON 04-T14B20020-ROHS RD-AP0604234F RT910(50MM*2) 0.10000

9002 * 703847 04-T14B25080-ROHS TUBE-HST 0.25*8.0 125C 600V B LITON 04-T14B25080-LF RD-AP0408421A RV120,RV121(17MM*2),C129(12MM) 0.04600

9003 700267 04-T14B25050-ROHS TUBE-HST 0.25*5.0 125C 600V B LITON 04-T14B25050-LF RD-AP0408421A D129,R129,(15MM*2) 0.03000

9008 707509 04-T14B20020-ROHS TUBE-HST 0.20*2.0 125C 600V B LITON 04-T14B20020-ROHS RD-AP0604234F C001 LEAD(30MM) 0.03000

9010 * 716377 04-T14B20010-ROHS TUBE-HST 0.20*1.0 125C 600V B LITON 04-T14B20010-ROHS RD-AP0604234F F001 LEAD(27MM), C001 LEAD(20MM) 0.04700

9011 * 700662 04-T14B25100-ROHS TUBE-HST 0.25*10 125C 600V B LITON 04-T14B25100-LF RD-AP0408421A F001(28MM),R128(28MM) 0.05600

9012 703301 04-T14B25120-ROHS TUBE-HST 0.25*12.0 125C 600V B LITON 04-T14B25120-ROHS RD-AP0604234F L220(30MM) 0.03000

9013 700918 43-CT02W-ROHS CABLE TIE 142*2.5 V2 110C KANGY 43-CT02W-LF RD-AP0408417A OUTPUT CABLE&CASE, FAN WIRE&LN, PFC

LEAD WIRES&HS1, +3.3V,+5VS&GND

4.00000

Parts List




TOTAL: 11 PAGES

REMARK: U(*)-If cUstom parts F(*)-If saFety parts R(*)-cRitical C(*)-If Consign parts ITEM(-numeric)-If subcontract parts ITEM(-character)-If substitution partsNote: This part list is prepared by Design department for cost estimation.

All of indirect material as solder, flux, glue, thinner, cleaner etc. are not listed on this part list.

LENOVO INTERNAL USE ONLY LENOVO ENGINEERING SPECIFICATION

280 WATT CUSTOMER REPLACEABLE

POWER SUPPLY FOR THE

TOMER MECHANICAL PACKAGE

Revision 1.1

MAR 17, 2006

This specification defines the performance characteristics of a grounded single-phase (3-wire), 250 watt, 5 output level power supply. This specification also defines the worldwide safety requirements and manufacturer’s process test requirements.

1


Contents 1.0 INPUT REQUIREMENTS 5 1.1 Input Voltage 5 1.1.1 Sinusoidal 5 1.2 Frequency 5 1.3 Power Supply Efficiency 5 1.4 Inrush Current 5 1.5 Harmonic Current (Option 1: IEC 10o00-3-2 Harmonics) {Japan Market} 5 1.6 IEC 555-2 Harmonic Current Compliance 5 2.0 OUTPUT REQUIREMENTS 2.1 DC Load Requirements 2.1.1 Minimum Cross-Loading 2.1.2 Residual Voltage6 2.2 DC Load Distribution 2.2.1 Planar Connector (P1) 2.2.2 Floppy Drive Connector 2.2.3 Connector 2.2.4 DC Return 2.3 DC Return to Frame Connection 2.4 Regulation 2.4.1 Voltage 2.4.2 Frequency 2.4.3 Static Load 2.4.4 Temperature 2.4.5 Warm-up Drift 2.4.6 Dynamic Load 2.5 Ripple Voltage 2.5.1 Definition 2.5.2 Specification 2.6 +12V Requirements 2.6.1 Surge Current 2.6.2 Hardfile Specification 2.6.3 Reverse EMF 2.6.4 Capacitive Load 2.6.5 Step Load 2.7 +5V Step Load 2.7.1 +5V Step Load 2.8 +3.3V Step Load 2.8.1 +3.3V Step Load 2.9 Overshoot 2.10 Common Mode Voltage 2.11 Stability 2.12 No Load Operation 3.0 PROTECTION 3.1 Primary (Input) 3.2 Secondary (Output) 3.2.1 Shutdown Definition 3.2.2 Over Current (OC) Protection 3.2.3 Over Voltage (OV) Single Point Fault Protection 3.2.4 Short Circuit 3.2.5 Reset After Shutdown 4.0 POWER GOOD SIGNAL

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LENOVO INTERNAL USE ONLY LENOVO ENGINEERING SPECIFICATION 4.1 Power Good Signal 4.1.1 Turn-on Delay 4.1.2 Turn-off 4.1.3 Voltage Level 4.1.4 Sink/Source Capability 4.1.5 Rise Time 4.1.6 PLD 4.1.7 AC Line Outage Holdup 5.0 POWER SUPPLY SEQUENCING 5.1 AC Power On 5.2 Monotonic Slope 5.3 3.3V/ + 5V Rise Time 5.4 +5V/ + 3.3V Tracking 6.0 POWER LINE DISTURBANCE (PLD) REQUIREMENTS 6.1 Undervoltage/Overvoltage 6.2 Input Line Disturbance 6.3 Lightning Simulation Test 6.4 Power Outage 7.0 ELECTROMAGNETIC COMPATIBILITY 7.1 FCC Requirements 7.2 VDE Requirements 7.3 CISPR Requirements 8.0 ENVIRONMENT 8.1 Operating 8.2 Shipping and Storage 8.3 Altitude 8.4 Cooling and Acoustics 8.4.1 Fan Speed Control 8.4.2 Airflow 8.5 Minimum Acoustic Requirement 8.5.1 Octave Band Sound Power Levels 8.6 Shock and Vibration 8.6.1 Shock Non-Operating 8.6.2 Vibration Non-Operating 8.6.3 Operational Vibration 9.0 SAFETY 9.1 Standards 9.1.1 Underwriters Laboratory (UL) Recognition 9.1.2 CANADIAN STANDARDS ASSOCIATION (CSA) CERTIFICATION 9.1.3 EN60 950 Certification 9.1.4 IECEE CB Certificate and Report 9.1.5 People’s Republic of China Requirements 9.2 ADDITIONAL REQUIREMENTS 9.2.1 Secondary Overload 9.2.2 Additional Secondary Overload 9.2.3 Ground Leakage Current 9.2.4 Secondary Outputs 9.2.5 Dielectric Strength (Hi-Pot) 9.2.6 Flammability of Materials 9.2.7 CONNECTORS 9.2.8 COMPONENTS 10.0 RELIABILITY 10.1 Failure Rate

3

LENOVO INTERNAL USE ONLY LENOVO ENGINEERING SPECIFICATION 10.1.1 MIL-HDBK 217E Verification 10.1.2 Empirical Verification 10.2 Operational Life 10.3 AC Cycles 10.4 Component Derating 11.0 Auxiliary +5V and Remote On/Off Requirements 11.1 External On/Off Control 11.1.1 Requirements 11.1.2 External Control Signal Definitions 11.1.3 Auxiliary +5V 11.1.4 +5V Aux 11.1.5 +5V Aux Hold Up Time 12.0 DESIGN VERIFICATION AND APPROVAL 13.0 PRODUCTION TESTING 13.1 Functional Verification 13.2 Burn In 13.3 Hi-Pot/Ground Continuity

4


1.0 INPUT REQUIREMENTS

1.1 Input Voltage 1.1.1 Sinusoidal

MINIMUM MAXIMUM NORMAL Low Range 90 VAC 137 VAC 100 - 127 VAC High Range 180 VAC 265 VAC 200 - 240 VAC

For china，the PS needn’t have switch

1.2 Frequency The input frequency range will be 50+3Hz/60+3Hz. The power supply must operate on a sinusoidal input voltage defined in Section 1.1.1. “Sinusoidal”.

1.3 Power Supply Efficiency The power supply shall not draw more than 3.0 watt, input, when output is 1.5 watts or less. The Efficiency at full load shall be a minimum of 65%. Measurements are performed at nominal AC input, as specified in Section 1.1.1. “Sinusoidal”.

1.4 Inrush Current Power supply inrush current shall be less than the ratings of its critical components (including bulk rectifiers, fuses, and surge limiting device) for all conditions of line voltage of Section 1.1.1. “sinusoidal” and during the power line disturbances specified in Section 6.0, “POWER LINE DISTURBANCE (PLD) REQUIREMENTS” on page 18. 1.5 China Requirement（optional） For China, the Input Bulk Capacitors must be rated at 250V. In addition, the MOVs across these Bulk Capacitor shall be rated at 175V. The supply must have Power Factor Correction, in order to acquire CCC approval. .

1.6 Harmonic Current ( IEC 1000-3-2 Harmonics) { WW} The harmonics of the power line and neutral currents shall not exceed the limits of the table below when measured from 75W (input) to full load (output) in the low voltage range. Harmonic Number (n) Maximum Permissible

Harmonic Current per Watt (mA/W)

Absolute Maximum Permissible Harmonic Current (A)

5

LENOVO INTERNAL USE ONLY LENOVO ENGINEERING SPECIFICATION 3 3.4 2.3 5 1.9 1.14 7 1 0.77 9 0.5 0.4 11 0.35 0.33 >13 3.85/n 0.15 x 15/n

Notes: 1. The applicable limit is the lower of the two figures derived from columns 2 and 3. 2. Measurements may be made at the 200V range Voltage (200-240 Vrms). 3. For china, only tested under 220V/50HZ 4. Reference document: IEC 61000-3-2

2.0 OUTPUT REQUIREMENTS

2.1 DC Load Requirements

NOMINAL OUTPUT VOLTAGE RESISTIVE LOAD CURRENT

+5.0V 0.3A min 16.0A max.

+12.0V 1.0A min； 18.0A max.

-12.0V 0 A min； 0.30A max

+3.3V 0.3A min.； 16.7A max.

+5V AUX 5mA min. 2.5A max 3.75A surge(10ms)

*See Section 2.6.1, “Surge Current” on page 10 for surge current requirements. Notes: At 25C 1. The total combined 3.3V/5V power shall not exceed 135W, steady state 2. The total combined 3.3V/5V/+12V power shall not exceed 264W 3. The maximum total power shall not exceed 280W - Note; The maximum output power is derated at 1.2W/oC, to 250W at 50oC.. At 50C 1. The total combined 3.3V/5V power should not exceed 120W steady state. 2. The total combined 3.3V/5V/+12V power should not exceed 240W 2.1.1 ‘Sleep State’ Cross-Loading

6

LENOVO INTERNAL USE ONLY LENOVO ENGINEERING SPECIFICATION When the +5V and +12V are at 0.2A, the maximum current on the 3.3V can range from 0.3A to 2A. 2.1.2 Residual Voltage All output levels (except the 5V AUX) may not exceed 70 mv when AC voltage is applied to the power supply and the unit is in the DC “Off” condition. All outputs should be at no load. This requirement shall be met when the 5V AUX is at either minimum or maximum load. 2.2 DC Load Distribution 2.2.1 Planar Connector (P1)

OUTPUT

REGULATION TOLERANCE (FROM

NOMINAL)

CONNECTOR PINS

WIRE COLOR

+3.3V * +5%, -5% 1, 2, 13 ORANGE

DC Return

3, 5, 7, 15, 17, 18, 19, 24

BLACK

+5V * +5%, -5% 4, 6, 21,22 RED Power Good 8 GRAY

+5V AUX +5%, -5% 9 PURPLE +12V * +5%, -5% 10, 11 YELLOW -12V +10%, -10% 14 BLUE

On/Off 16 GREEN 12

Rsvd 20, 23

* See Section 2.6 thru 2.8 for the +12V, +5V and +3.3V step load requirements. 2.2.2 Floppy Drive Connector ( P8)

OUTPUT


NOMINAL)

CONNECTOR PINS

WIRE COLOR +5V +5%, -5% 1 RED

DC Return 2, 3 BLACK +12V +5%, -5% 4 YELLOW

2.2.3 Connector (P3 and P4 and P5 and P7)

OUTPUT


NOMINAL)

CONNECTOR PINS

WIRE COLOR +5V +5%, -5% 4 RED

DC Return 2, 3 BLACK +12V +5%, -5% 1 YELLOW

7

LENOVO INTERNAL USE ONLY LENOVO ENGINEERING SPECIFICATION 2.2.4 Connector (P2)

OUTPUT


NOMINAL)

CONNECTOR PINS

WIRE COLOR DC Return 1, 2 BLACK

+12V +5%, -5% 3, 4 YELLOW 2.2.5 Connector (P6) Serial ATA

OUTPUT


NOMINAL)

CONNECTOR PINS

WIRE COLOR

+5V +5%, -5% 3 RED

DC Return 2, 4 BLACK

+12V +5%, -5% 5 YELLOW

+3.3V +5%, -5% 1 ORANGE 2.2.7 DC Return All DC returns shall be connected to a single point internal to the power supply.

2.3 DC Return to Frame Connection DC Return shall be tied directly to frame ground in the power supply. Provision to isolate the DC return shall be made. The PCB shall have provision for a capacitor and/or a resistor (with a minimum resistance of 10 ohms) from DC return to frame ground.

2.4 Regulation Regulation shall be measured at the pins of the mating output connector. A high frequency .01 micro-farad capacitor and a 10 micro-farad tantalum capacitor shall be used to terminate each output at the measurement point. The instantaneous output voltages, bandwidth limited to 20MHz, shall remain within the regulation limits of Section 2.2, “DC Load Distribution” on page 6 for any combination of the following: 2.4.1 Voltage Any change in input voltage within the range specified in Section 1.1.1, “Sinusoidal” on page 5. 2.4.2 Frequency Any change in input frequency within the limits of Section 1.2, “Frequency” on page 5.

8

LENOVO INTERNAL USE ONLY LENOVO ENGINEERING SPECIFICATION 2.4.3 Static Load Any static load change on any or all levels within the limits of Section 2.1, “DC Load Requirements” on page 6. 2.4.4 Temperature Any temperature change within the limits of Section 8.1, “Operating” on page 17 including the effects of altitude specified in Section 8.3, “Altitude” on page 17. 2.4.5 Warm-up Drift Any change in output voltage due to warm-up drift. 2.4.6 Dynamic Load A sinusoidal dynamic load with a peak-to-peak value equal to 20% of the applied static load such that static load plus dynamic load does not exceed any of the maximums or minimums of Section 2.1, “DC Load Requirements” on page 6. This dynamic load change shall be applied to a single output at any frequency up to 1kHz.

2.5 Ripple Voltage 2.5.1 Definition The ripple voltage of the outputs shall be measured at the pins of the mating output connector, using a differential technique. Conformance to this requirement will be verified by IBM using a Tektronix 7A22 differential amplifier, or its equivalent. Ripple frequencies greater than 20MHz shall be attenuated by the measurement system. Ripple shall be measured under any condition of line voltage specified in Section 1.1.1, “Sinusoidal” on page 5, frequency specified in Section 1.2, “Frequency” on page 5, operating temperature specified in Section 8.1, “Operating” on page 17, and loading specified in Sections 2.1, “DC Load Requirements” on page 7 and 2.2, “DC Load Distribution” on page 6. A high frequency .01 micro-farad capacitor and 10 micro-farad tantalum capacitor shall be used to terminate each output at the measurement point. 2.5.2 Specification

+ 5V 50 mV (P-P)+12V 120 mV (P-P)-12V 120 mV (P-P)+5V AUX 50 mV (P-P)+3.3V 50 mV (P-P)

2.5.3 Output Capacitive Load (uF)

+ 5V 10,000 uF +12V 10,000 uF -12V 350 uF +5V AUX 350 uF +3.3V 6,000 uF

9


2.6 +12V Requirements 2.6.1 Turn On Surge Current The +12V output shall withstand a total current of 19.0A at turn-on with the current ramping down to normal loading within 15 seconds. During this time period, the +12V regulation tolerance shall be +7, -6%. Additionally, the +5V minimum current shall be 4.0A with a regulation tolerance of +5%, -4%. 2.6.2 Hardfile Specification This supply shall support a hard file spin up current of 2.7A/ hard file for any duty cycle, such that the average current does not exceed 1.5A During turn-on, the supply shall support a dl/ dT of 0.65A/ uS, max. 2.6.3 Reverse EMF The power supply shall be able to start if there is a Reverse EMF of 3.0 volts on the any output, after the power supply is turned off using the DC On/Off or if the AC is removed and reapplied. 2.6.4 Capactive Load The +12V output shall have 10,000 micro-farad aluminum electrolytic capacitor, minimum, at the load. 2.6.5 Step Load All outputs shall remain in regulation per Section 2.2, “DC Load Distribution” on page 6 during step load. The maximum peak to peak voltage deviation on the +12V output for the complete step load cycle shall be less than 400 mV. The step load may be applied to any static load combination defined in Section 2.1, “DC Load Requirements” on page 6 such that the peak +12V current does not exceed 18.0A. Amplitude The step load will have a peak value of 7.5 A. Step Load Slew Rate The step load slew rate (when measured from the 10% to 90% points on the wave form) shall be 1.0A/uS. Step Load Duration/Period The duration of the load shall not exceed 750uS with a period of 1.0mS 2.6.6 Surge Load Dynamic surges with a maximum amplitude of 20.0A may occur for a duration of 10mS, and a period of 100mS, during normal operation.

2.7 +5V Load 2.7.1 +5V Step Load All outputs shall remain in regulation per Section 2.2, “DC Load Distribution” on page 6 during the step load. The maximum peak to peak voltage deviation shall be less than 200mV. The step load may be applied to

10

LENOVO INTERNAL USE ONLY LENOVO ENGINEERING SPECIFICATION any static load combination defined in Section 2.1, “DC Load Requirements” on page 6 such that the peak +5V current does not exceed 16.0A. The +5V output shall have 10,000 micro-farad aluminum electrolytic capacitor, minimum, at the load Amplitude The step load will have a peak value of 4.0A. Step Load Slew Rate The step load slew rate (when measured from the 10% to 90% points on the wave form) shall be 1.0A/uS. Step Load Duration/Period The duration of the step load shall not exceed 20mS with a period of 40mS. 2.7.2 Surge Load Dynamic surges with a maximum amplitude of 18.0A may occur for a duration of 10mS, and a period of 100mS, during normal operation.

2.8 +3.3V Step Load 2.8.1 +3.3V Step Load All outputs shall remain in regulation per Section 2.2, “DC Load Distribution” on page 6 during the step load. The maximum peak to peak voltage deviation shall be less than 100mV. The step load may be applied to any static load combination defined in Section 2.1, “”DC Load Requirements” on page 6 such that the peak +3.3V current does not exceed 16.8A. The +3.3V output shall have 6,000 micro-farad aluminum electrolytic capacitor, minimum, at the load. Amplitude The step load will have a peak value of 6.0A. Step Load Slew Rate The step load slew rate (when measured from the 10% to 90% points on the wave form) shall be 1.0A/uS. Step Load Duration/Period The duration of the step load shall not exceed 750uS with a period of 1 mS. 2.8.2 Surge Load Dynamic surges with a maximum amplitude of 18.0A may occur for a duration of 2mS, and a period of 10mS, during normal operation.

2.9 Overshoot Any overshoot at turn on or turn off shall be less than nominal value and must decay to within the regulation

11

LENOVO INTERNAL USE ONLY LENOVO ENGINEERING SPECIFICATION Any overshoot at turn on or turn off shall be less than 10% of the nominal value and must decay to within the regulation band in less than 50msec.

2.10 Common Mode Voltage Common mode noise, measured from the DC common under test to chassis ground shall not exceed 1500 mV peak-to-peak when measured with a technique having a bandwidth of at least 70 MHz. This measurement shall be made between the DC return pins of connectors P1 through P4, and the case of the power supply, with the power supply operating at the maximum load specified in section 2.1, “DC Load Requirements” on page 7 and input line voltages specified in section 1.1.1, “Sinusoidal” on page 5.

2.11 Stability All power supply outputs must be unconditionally stable (i.e. 45 degree phase margin minimum) for all DC and dynamic loads as defined in 2.1, “DC Load Requirements” on page 7, all input conditions as defined in 1.1.1, “Sinusoidal” on page 5, all environmental conditions as defined in 8/1, “Operating” on page 21. The power supply must be stable when powering a negative impedance loads (i.e., VrM Regulators).

2.12 No Load Operation The power supply shall operate with no load on all output levels. Output regulation tolerance shall be +/- 25% during this condition. Power Good may be an up or down level. This condition shall cause no damage to the power supply. The power supply fan should rotate under this condition.

12


3.0 PROTECTION The power supply must protect itself for all abnormal conditions, even when operating in conditions ‘out of spec’. 3.1 Primary (Input) The input power line must be fused in accordance with the safety requirements of Section 9.0, “SAFETY” on page 24.

3.2 Secondary (Output) 3.2.1 Shutdown Definition Shutdown shall be defined as a condition where all the outputs identified in 2.1, “DC Load Requirements” on page 7, drop and latch off. The shutdown shall be reset by removal of the AC input power or changing the state of the on/off signal. 3.2.2 Over Current (OC) Protection The power supply shall provide over current protection such that when a 10 ampere/second current ramp is applied to any output, the power supply shall shutdown before any output exceeds the allowed maximum “SELV” limit of 240VA. If three terminal regulators are used in the design, the power supply does not have to shutdown but must not sustain any damage or create a hazardous condition if the short circuit is present for an extended length of time. DC output currents shall be limited in accordance with Table 2 in IBM Standard CB 3-0501-070, Cl. 8.4.1.1 ‘Combustion Protection’, or, No DC output shall exceed 45A, after a period of one minute, when loaded to the impedance of maximum current draw before foldback. 3.2.3 Over Voltage (OV)/ Single Point Fault Protection If a single point fault occurs (internal to the power supply), the power supply shall shutdown before any output (+5V, +12V, +3.3V) exceeds 130% of its nominal value. The OV shut down circuits must be designed such that the supply meets IEC 950 Safety requirements for No Hazardous Conditions under a Single Fault Failure. 3.2.4 Short Circuit A short circuit placed between DC return and an output shall cause no damage and the power supply shall shutdown. For test purposes, a short circuit is defined as ten milli-ohms. 3.2.5 Reset After Shutdown When the power supply latches into shutdown condition due to a fault on on output (over curent, over voltage or short circuit), the protection latch shall reset within 30 seconds after the fault has been removed and the On/Off signal has switched state. Also, the latch shall reset within 30 seconds when AC power has been removed. 3.2.6 Diagnostic LEDs

13

LENOVO INTERNAL USE ONLY LENOVO ENGINEERING SPECIFICATION Two diagnostic LEDs, one green and one yellow, shall be placed near the AC Input Voltage Receptacle, per the mechanical drawing. These LED’s will provide the ‘state’ of the power supply: Green LED; The green LED shall be ‘on’ whennever the +5Vaux is present Yellow LED;

Output Voltage PS-On Signal Output Present OC Yellow LED +5V On Yes Yes Off Yes No Off No Yes Off No No On +12V On Yes Yes Off Yes No Off No Yes Off No No On +3.3V On Yes Yes Off Yes No Off No Yes Off No No On

Note; The brightness of the LEDs can be minimized to reduce the effect on overall effieciency of the power supply. For china， needn’t have LEDS

4.0 POWER GOOD SIGNAL

4.1 Power Good Signal The power supply shall provide a “Power Good” signal to reset system logic, indicate proper operation of the power supply, and give advance warning of impending loss of regulation at turn off. The Power Good signal shall be an up level during normal operation, or a down level when a fault condition occurs or during turn off.

********** FOR TEST PURPOSE ONLY ********** To simulate typical system application, the Power supply unit level testing should include a pull up resistor (typical 1K) to the +5V output. 4.1.1 Turn-on Delay The Power Good signal shall have a turn-on delay of at least 100mS but not greater than 500 mS from the time the 3.3V and +5V output has reached their minimum regulation level. 4.1.2 Turn-Off At turn-off (with AC or DC on/off) Power Good shall go to a down level when the 3.3V or +5V reach their minimum regulation level. 4.1.3 Voltage Level

14

LENOVO INTERNAL USE ONLY LENOVO ENGINEERING SPECIFICATION Power Good up or high level is defined as 2.40V to 5V. Down or low level Power Good signal is defined as 0.00V to 0.40V. When the Power Good signal is in the down level, turn on or turn off glitches, or steps above 0.4V are not acceptable. 4.1.4 Sink/Source Capability The Power Good signal shall be capable of sourcing 200 microamps and sinking 4.0 milliamps. 4.1.5 Rise Time The Power Good signal shall have a rise time (measured from the 10% point to the 90% point) of less than 1.0 milliseconds. 4.1.6 PLD The Power Good signal shall remain an up level throughout all Power Line Disturbances (PLDs) defined in Section 6.0, “POWER LINE DISTURBANCE (PLD) REQUIREMENTS” on page 18. 4.1.7 AC Line Outage Holdup The Power Good Signal shall remain an up level for at least 16msec after AC power is removed and shall go to a down level before the 3.3V or +5V falls below their regulation limit. This test will be performed at the AC Nominal voltages (100 -125 Vac and 200 - 240 Vac). The PG signal should go low a minimum of 1 mS before the outputs go out of regulation.

5.0 POWER SUPPLY SEQUENCING

5.1 AC Power On When proper AC power is applied, and the on/off signal is in the “ON-STATE”, all outputs shall reach their regulation limits within 500 mS.

5.2 Monotonic Slope When proper AC power is applied, and the on/off signal is in the “ON-STATE”, +5V and +5V Aux must have Monotonic (positive slope) rise.

5.3 3.3V/+5V Rise Time The 3.3V and +5V rise time (measure from the 10% point to the 90% point on the waveform) shall be greater than 0.1 msec and less than 20msec with a maximum slope of 0.75 volts/msec for voltages above 1.5 volts.

5.4 +5V/+3.3V Tracking 1. When AC power is applied, the +5V auxiliary shall be in regulation prior to the remaining outputs.

15

LENOVO INTERNAL USE ONLY LENOVO ENGINEERING SPECIFICATION 2. At turn on, the +5V shall be equal to or greater than the 3.3V. 3. At Turn off, if +5V falls below 3.3V, the 3.3V must track +5V within 1.5V. 4. At AC or DC turn on, the 3.3V and +5V should track each other within 20 msec, when measured at their

minimum regulation level.

6.0 POWER LINE DISTURBANCE (PLD) REQUIREMENTS

6.1 Undervoltage/Overvoltage

The power supply shall meet the regulation and ripple voltage requirements of Sections 2.4, “Regulation” on page 9 and 2.5, “Ripple Voltage” on page 10 under the following conditions: Note: For Japan PFC supplies, only, the LOW Nominal Voltage shall be 100Vac 1. A line input undervoltage of 20% below the LOW NOMINAL for two seconds, repeated ten (10) times with a

10% duty cycle. 2. A line input undervoltage of 30% below the LOW NOMINAL for 10 mS. 3. A line input overvoltage of 30% above the High NOMINAL for one second, repeated 10 times with a 10%

duty cycle. 4. A line input undervoltage of 60% below the LOW NOMINAL for 100 mS shall cause no damage to the power

supply. 5. A line input undervoltage of 95% below the LOW NOMINAL for 5 seconds shall cause no damage to the

power supply.

6.3 Lightning Simulation Test The power supply shall be error free when subjected to three positive and three negative surges, applied between phase and neutral. The surge shall have a peak amplitude of 1000 volts. The power supply shall be error free when subjected to three positive and three negative surges, applied between phase or neutral, and ground. The surge shall have a peak amplitude of 2000 volts. The surges shall have a rise time (Tr) of 1.2 microsecond maximum from 10% to 90%. The pulse width between 10% of Tr and 50% of decay time (Tf) shall not exceed 50 microseconds. The surge generator shall have an output impedance of 2(+.5) ohms.

6.4 Power Outage The power supply shall experience “no physical damage” and “not latch” (except Condition 7, which requires no physical damage, only) due to the following outages. The percentages below are reference to the static line voltage before the disturbance occurs, and must cover those ranges defined in Section 1.1.1 “Sinusoidal” on page 5. 1. (Condition D1) 100% outage for 0.1 second, 5 times.

16

LENOVO INTERNAL USE ONLY LENOVO ENGINEERING SPECIFICATION 2. (Condition D2) 65% undervoltage for 0.5 second, 5 times. 3. (Condition D4) 100% outage for 0.5, 1.5, and 3.3 seconds, 5 times. 4 (Condition D5) 100% outage for 60 seconds. 5. (Condition D6) All combinations of:

40%, 50%, 60%, 70%, 80%, 90%, 100% undervoltages. 25ms, 40ms, 60ms, 90ms, 130ms, 200ms, 280ms, 400ms, 600ms, 900ms, 1.3s, 2s durations.

6. (Condition D7) Input voltage decrease from nominal to 25% of nominal at a rate 2V per 40 seconds, then

increase back to nominal voltage at the same rate. The power supply may turn off during these tests.

7.0 ELECTROMAGNETIC COMPATIBILITY Tests for conformance to these requirements will be performed with the power supply properly mounted in the IBM host machine, and with a resistive load box. Connection to the appropriate power line voltage for each test will be made through a grounded, unshielded line cord. The contractor should also be aware that EMI suppression requirements with digital and analog circuits as loads may be greater than when using resistive loads. A statistical assessment will be performed to determine if the production supplies consistently comply with the EMC requirements. Compliance is achieved when it is shown that with an 80% confidence level, 80% of the products are 3dB below the limit using the non-central T distribution. It is recommended that a 6dB margin be used as a design goal in order to minimize compliance problems.

7.1 FCC Requirements The power supply shall comply with the United States Federal Communication Commission (FCC) Rules and Regulations, Part 15, Sub-part J, Computing Devices “Class B Limits.”

7.2 VDE Requirements The power supply shall conform to the Class “B” (General Operating Permit) requirements of VDE VFG 243/1991.

7.3 CISPR Requirements The power supply shall conform to the Class “B” requirements of CISPR 22 for both the low and high voltage ranges.

8.0 ENVIRONMENT

8.1 Operating

17


Air Temperature 0 to 50 degrees centigrade *

Relative Humidity 5 to 95 percent, non-condensing *See Section 13.2, “Burn in” on page 30 for required burn-in temperature.

8.2 Shipping and Storage

Air Temperature -40 to 70 degrees centigrade

Relative Humidity 5 to 100 percent, including condensation

8.3 Altitude The power supply must operate to an altitude of 3050 meters (10,000 feet).

8.4 Cooling and Acoustics The power supply shall provide forced air cooling for the host system. 8.4.1 Fan Speed Control The power supply shall have a variable speed fan control circuit. The fan speed shall be 1000 rpm(max) at 25 degree （inlet power supply temp） and 80W input power. At full load and 50C, the fan speed shall be adequate to cool all components. The fan shall be the only component in the power supply that contributes to it’s noise. 8.4.2 Airflow Approval of the power supply with regard to proper cooling will be based on actual system temperature measurements. The power supply will be designed using a 80mm by 25mm sleeve bearing fan. The power supply should able to remove ~20CFM at max fan speed.

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Impedance Curve: Bradley/Logan Power Supply

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Volumetric Flow (CFM)

"H2O Impedance Curve

8.5 Minimum Acoustic Requirement Approval of the power supply with regard to acoustic requirements will be based on system acoustic measurements. The following acoustic requirement is provided as a design target in lieu of system hardware and system acoustic limits. The following shall be the minimum acoustic requirement: The sound power level of the power supply shall be measured according to ANSI S12.10-1985. The supply shall be mounted or positioned in a way that will minimize any attenuation or amplification. The supply will be tested in the worst case loading condition. The supply shall be tested at an ambient air temperature of 25C measured outside the power supply. 8.5.1 Octave Band Sound Power Levels The overall A-weighted sound power level of the system shall not exceed 4.0 B. There shall be no tone penalties. The system budget for the power supply is targeted to be 3.3B. Note: 1. Large components should not be mounted directly in front of the fan.

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LENOVO INTERNAL USE ONLY LENOVO ENGINEERING SPECIFICATION 2. The fan should be mounted using Rubber Vibration Isolation.

8.6 Shock and Vibration The acceptance criteria for the following tests is that the power supply shall meet all electrical and mechanical requirements with no internal mechanical damage. In addition, the power supply must meet its electrical requirements while operating during the test in Section 8.6.3, “Operational Vibration” on page 23. 8.6.1 Shock Non-Operating The power supply shall be subjected to a series of six (6) shocks, one (1) on each side, top and bottom. Each shock shall consist of a 50G squarewave (or equivalent trapezoid) pulse with a velocity change of 167 in/sec. 8.6.2 Vibration Non-Operating A constant 1.0G acceleration shall be applied with a frequency swept from 2Hz to 200Hz and back to 2Hz at 0.3 decades/minute, dwelling at resonant frequencies for 15 minutes at a constant acceleration of 2Gs. Resonant frequencies are defined as frequencies where one to one or higher input/output response is generated. This test shall be conducted on all three axes of the power supply. The minimum test time shall be 30 minutes per axis. 8.6.3 Operational Vibration Vibration Levels: 5 to 17 Hz 0.048 inch double amplitude displacement 17 to 199 Hz 0.73Gs acceleration. 200 to 500 Hz 0.33Gs acceleration. Frequency to be swept at a rate of 0.067 decades/minute (4 decades/hour). Dwell at resonant frequencies for 30 minutes. This test shall be conducted on all three axis of the power supply.

9.0 SAFETY

9.1 Standards This specification is for a UL Listed Field Installed Modular Power Supply. For the pupose of these requirements, a Filed Installed Modular power supply is defined as a power supply that is designed to be field installed within a Listed ITE system and, when installed in accordance with its Installation Instructions, is designed to be added to the equipment without introducing a risk of fire, electric shock, injury to persons, or electric energy - high current levels, as defined in UL 60950-1; 1st Edition. Note- In order to meet these requirements, such modular power supply typically will need to be the enclosure type, with an integral fire and electric enclosure, such as typically designed for personal computers (PCs). 9.1.1 Mark for Underwriters Laboratory The Listing Mark for this product includes the name and/or symbol of Underwriters Laboratories Inc., together with the words ‘Listed Accessory’, a Control Number, and one of the following category identifiers: ‘Information Technology Equipment Power Supply”. ‘I.T.E. Power Supply’, or ‘QQGQ Power Supply’.The Accessory Listing Mark for the Modular Power Supply shall be located on an external surface that will be enclosed with in the product.

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LENOVO INTERNAL USE ONLY LENOVO ENGINEERING SPECIFICATION Construction A field installed modular power supply shall be constructed such that it can be added to the equipment without presenting a risk of fire, electric shock, injury to persons or electrical energy-high current levels. It is a UL ‘Listed’, not ‘Recognized’ product. The installation of a modular power supply by an operator or by qualified service personnel shall be such that: a) The mechanical positioning can be accomplished by means of regular tools normally available at installation or by means of special tools provided as a part of the insallation kit by the organization responsible for the product. b) The electrical connections can be readily accomplished by marking use of existing terminals and connections (including plug-in connectors to receptacles) in the basic equipment or as part of the building wiring whenever possible; and c) The mechanical mounting arrangements and types of plugs provided with operator-installed modular power supplies shall be such that the equipment can be properly positioned and the plug-in connections cannot be interchanged in a manor that presents a risk of fire, electric shock, injury to persons or electrical energy-high currents. Performance Each modular power supply shall be evaluated and tested by following instruction provided by the manufacturer of the power supply. Although end-product test programs are often based on maximum load of the end-product and any related information submitted to UL by the manufacturer, the maximum load that is specified by the ratings on the power supply label will be used in all applicable performance tests required of UL 60950. With the power supply installed and operating, it shall be subjected to each of the tests specified on UL60950 necessary to determine that its performance is not altered in any unacceptable manner, including heating per 5.1 and overload abnormal operation per 5.4.6. When determining compliance with sub-clause 5.4.7 of UL60950. Covering groups of ventilation openings that are likely to be covered simultaneously (for example, groups of openings situated on one side or top of the power supply) is considered a condition of foreseeable misuse. For such testing, groups of ventilations openings will be individually covered. Markings and Installation Instructions Each modular power supply shall be marked with the manufacurers name, trademark, or other descriptive marking by means of which the organization responsible for the product can be readily identified. The marking shall also include a distinctive catalog number or equivalent identification. The modular power supply shall be marked with its input and output ratings and related information in compliance with UL60950. A modular accesory power supplyt intended to be installed by an operator or qualified service personnel shall be provided with instructions which detail the sequence of mechanical amd electrical steps that are necessary for proper installation and operation of the power supply. These instructions should include information on determining the maximum electrical load for the power supply, positioning and mounting of the power supply, proper interconnection of the connectors, and other information that is needed to supplort compliance to UL60950. The Installation Instructions will be provided by IBM. 9.1.2 CANADIAN STANDARDS ASSOCIATION (CSA) CERTIFICATION: The supplier shall obtain certification of this product for use in Information Processing and Business Equipment according to CAN/CSA C22.2 No. 60950-1; 1st Edition. The certification may be obtained from the Canadian Standards Association (CSA) or from Underwriters' Laboratories (UL). The supplier shall have

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LENOVO INTERNAL USE ONLY LENOVO ENGINEERING SPECIFICATION CSA/UL evaluate all voltages and signals supplied to output connectors accessible for external connection as limited power source circuits per CAN/CSA C22.2No. 60950 Clause 2.5. The supplier shall also have CSA/UL evaluate the ...... voltage outputs for energy limited to less than 240VA and 20J stored energy since these voltages are customer accessible in the system application. Compliance to these requirements must be identified in the Conditions of Acceptability. A copy ofthe certification report and the supporting test data must be provided to IBM Product Safety. 9.1.3 EN60950 CERTIFICATION The supplier shall obtain certification for the product to IEC 60950-1/EN60950-1 covering all European Country Deviations from a European based Certified Body test agency. Acceptable test agencies include TUV or an IBM approved alternative. 9.1.4 IECEE CB Certificate and Report The supplier shall obtain a Certification Body (CB) Test Certificate and a CB Test Report for the product to IEC 60950-1 including all National Differences, from an International Electrotechnical Commission IECEE program CB Scheme National Certification Body. The CB Certificate must indicatecompliance to National Differences for all countries. The supplier must update the CB Report as necessary to reflect changes in construction. Circuit diagrams, component layouts, and isolation transformer construction drawings or prints (8-1/2" by 11" format preferred) must be provided with the CB Certificate and CB Report. These documents will be used for reference for obtaining system level safety agency approvals required by some countries. The supplier must notify IBM, and must provide updated documentation to IBM each time the CB Certificate or CB Report is updated or modified. PDF format is preferred for all test reports, certificates, diagrams and documentation. 9.1.5 People’s Republic of China Requirements 9.1.5.1 CCC Safety and EMC The supplier shall obtain certification of this product from the CNCA (China National regulatory commission for Certification and Accreditation) for the CCC (China Compulsory Certification) mark, for Product Safety and EMC, for the high nominal voltage range. Copies of the SACI license of Import Commodities for this power supply, authorizing the use of the CCC safety mark, shall be provided to IBM United States (RTP) and the IBM China/Hong Kong Ltd. IPO. Compliance shall be indicated by the CCC mark. 9.1.6 PRODUCT MARKINGS Markings on the product must include company name or trademark, safety agency referenced model number, the UL Listed Component mark, the Canadian standards certification mark (CSA or c-UL), the European based Certified Body test agency certification mark and the China CCC mark. The model number referenced by the safety agency reports must not be changed without authorization from IBM. The input voltage range, frequency and associated current must be printed on the unit. Printed ranges must be 100-127, 200-240, Vac, 50-60 Hz. The maximum current for each voltage range must be printed adjacent to the voltage range. 9.1.7 TAIWAN CERTIFICATION The supplier shall obtain certification of this product from BSMI (Taiwan Certification agency) and the product must be marked with the BSMI certification mark. The product must be evaluated for both safety and EMC requirements. A copy of the certification report and the supporting test data must be provided to IBM Product Safety. The certification report must call out the vendor's model number, the IBM assembly part number and, if different from the assembly part number, the IBM FRU number for the power supply assembly. EMC testing on the power supply may require the use of an EMC enclosure chassis to be provided by IBM.

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9.2 Additional Requirements 9.2.1 Secondary Overload The power supply shall be tested by UL and VDE so that the end product can be certified to IEC-950 per option (c) of CI. 5.4.4. Short circuit, or overload, of secondary circuits shall not subject supplementary or reinforced insulation to thermal stress beyond its ratings. Transformers shall be tested to Appendix C. Successful completion of these tests shall be so indicated as part of the UL and VDE Certification Reports in the UL “Conditions of Acceptability” and VDE “Installation Instructions”. These tests cannot be waived by compliance with CI. 5.4.4, Options (a) Spacings, or (b) Hipot. 9.2.2. Additional Secondary Overload When applying 1A/sec current ramp to any output, the output must not be capable of delivering current of 46A or greater when output voltage is above 2 volts. Damage to supply is allowed, but no hazardous conditions can occur. 9.2.3 Ground Leakage Current The power supply ground leakage current, when measured per the test configuration indicated in IEC-950, shall not exceed 450uA at input voltages of 120 VAC 60 Hz and 750uA at 240 VAC 50 Hz. If there are two capacitors connected in series between line or neutral and ground, the ground leakage current shall not exceed 5.0 milliamps, when one of the capacitors is shorted, and the test is performed at 250V, 60 Hz/ 9.2.4 Enclosure Requirements 9.2.4.1- Hazardous Voltage/Energy Hazardous voltage or energy must not be able to be contacted using the IEC Test Pin in any customer/operator accessible location in the end product. All surfaces accessible to the customer/operator in the end product must meet the requirements for a safety enclosure as defined in section 1.2.6, 4.4.2, 4.6 and 4.7.3 of IEC 60950. An area is customer/operator accessible as long as no tool is used to gain access. If the customer/operator is provided with a tool, that tool must not be able to be used to gain access to hazardous energy or voltage. 9.2.4.2 Seconday Circuits All secondary outputs shall be “safety extra low voltage” (SELV), Method 1, as defined in IEC-950, and shall not be capable of providing energy levels in excess of 240VA or 20 Joules under normal or overload conditions. This shall be so indicated as part of the UL and VDE Certification Reports in the UL “Conditions of Acceptability” and VDE “Installation Instructions”. 9.2.4.2 Vent Openings The internal circuit subassemblies of the power supply shall be so constructed as to prevent contact of all hazardous live parts by the IEC60950-1 test pin as indicated in Sub-clause 2.1.1.1 Figure 2B. Parts that can source more than 20J or 240 VA for more than 1 second shall not be accessible to the unjointed standard test finger, reference Figure 3 of Sub-clause 2.1.1.1.. 9.2.5 Flammability of Materials 9.2.5.1 (Printed Circuit Boards)

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LENOVO INTERNAL USE ONLY LENOVO ENGINEERING SPECIFICATION Printed Circuit board materials must have a UL recognized flame class of V-1 or better and must also meet the requirements of UL796. Boards must be manufactured by a UL recognized printed wiring board manufacturer and must be marked with the manufacturer's company name or trademark and type designation. 9.2.5.2 (Magnetic Assemblies) Custom magnetic assemblies must be constructed of materials with a UL recognized flame class of VW-1, V-1 or better, or must meet the flammability requirements of V-1 or better when tested per the procedures as specified in Appendix A6 of IEC 950 with the following exceptions: The test is to be applied to the magnetic assembly (not a material sample) without the assembly being pre-conditioned prior to the test. The test is conducted with the flame applied to two or three locations that are most likely to sustain flames. 9.2.5.3 (Plastic Parts) Plastic fabricated parts must be made of material with a UL recognized flame class of V-1 or better. However, small mechanical parts such as cableties, washers, screws, and PC board mounts may be made of material with a UL recognized flame class of V-2. Structural materials within the power supply and printed circuit boards must be rated V-1 or better. Electrical components need only meet the appropriate testhouse ignition requirements 9.2.6CONNECTORS 9.2.6.1 Hazardous Voltage/Energy Voltage on any of the connector pins or in any area accessible by the IEC test pin or test finger must not exceed 42VAC or 60VDC 200 milliseconds after removal of the power supply from its power source. Energy present on any of the connector pins or in any area accessible by the straight IEC test finger must not exceed 20 joules two seconds after removal of the power supply from its power source. 9.2.6.2 Output Connector Requirements Voltages and signals supplied to output connectors accessible for external connection must be supplied by a limited power source per section 2.5 of UL 60950. Compliance to this requirement must be identified in the UL Conditions of Acceptability 9.2.7 Restriction of the Use of Certain Hazardous Substances (RoHS) The power supply shall be compliant with the European Union Directive on the restriction of the use of hazardos substances in electrical and electronic equipment. The following reference documents apply: 97P3864; Engineering Specification - Compliance Requirements for the European Union Directive on the Restriction of the Use of Certain Hazardous Substances (RoHS) in Electrical and Electronic Equipment for IBM Products 46G3772; Lenovo(IBM) Environmental Requirements for Materials, Parts and Products

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LENOVO INTERNAL USE ONLY LENOVO ENGINEERING SPECIFICATION Acquisition of thes documents can be found in the Statement Of Work for this power supply. .

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LENOVO INTERNAL USE ONLY LENOVO ENGINEERING SPECIFICATION 9.2.8 COMPONENTS 9.2.8.1 Capacitors Line-to-line capacitors must be certified by a European safety agency and marked type X-1 or be certified by SEV and either SETI or SEMKO and marked typeX-2. Line-to-ground capacitors must be rated at least 240 VAC and must be certified by a European safety agency and marked type Y,using two capacitors inseries) or marked type Y1 (double insulated). 9.2.8.2 Line Voltage Fuse(s) Fuses in line voltage or mains applications must meet all requirements necessary for obtaining UL, CSA, and IEC approvals as stated above. Marking near the fuse must indicate fuse current, voltage and type. There must not be any safety agency conditions of acceptability that require any labeling indicating a caution for doublepole/neutral fusing (units that are riveted shut are not serviced in the field). 9.2.8.3 Metal Oxide Varistors (MOVs) Any Metal Oxide Varistors (MOVs) used in the product must be UL recognized components. MOVs must be properly placed or shielded to prevent a compromise of safety insulation in the event of a failure. MOVs installed line-to-ground must be in series with a gas discharge tube or other inherently low leakage current component. 10.0 RELIABILITY

10.1 Failure Rate The failure rate shall be defined at 35 degrees centigrade ambient temperature, sea level, 110VAC, and 100% of maximum load as specified in Section 2.1, “DC Load Requirements” on page 7. The failure rate shall be maintained throughout the operational life of the power supply as specified in Section 10.2, “Operational Life.” The failure rate shall be less than 0.5% per 1000 hours. 10.1.1 MIL-HDBK 217E Verification The MIL-HDBM 217E theoretical failure rate shall be calculated by the contractor at 40 degrees centigrade. All other conditions shall be as defined in Section 10.1, “Failure Rate.” The calculation shall be made in strict accordance with MIL-HDBK-217E using an environmental factor of 1 (ground benign). Any deviations to the PI factors or methodology shall be indicated in the calculations and justified with appropriate data. 10.1.2 Empirical Verific

Documents

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