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01081-1
PRELIMINARY OPERATING MANUAL
MODEL S62A
DIGITAL RECORDER
Serials Prefixed: 134-
Copy.l,h, HfWUTJ.PAClCARD CO"'PANY 19611501 PAGf "" L ROAD. PALO ALTO. CALIFORNIA. USA.
Printed: 9/61
Model 562A
TABLE OF CONTENTS
Section
GENERAL DESCRIPTIONI
1-1.1-2.1-3.1-4.1- 5.1-6.
DescriptionData EntryStandard InstrumentOptions AvailablePower RequirementsUses
. . . .. .
Page
1-1
1-11-11-11-21-21-2
2-12-12 ... 1
2-12-12-12-1
· .
· .
. .. .INSTALLATION.2- • Gene ral Inforn1ation2-2. Rack Mounting •2-3. Connection to the ~TransistorizedCounters2-4. Connection to ~ Counters and Digital Voltmeter2-5. Operation from Two Data Sources2-6. Cable Fabrication
II
III OPERATION 3 -1
3-1. Ope rating Controls • · • 3 -13-2. Paper Tape 3-13-3. Inked Ribbon · · 3-23-4. Taped Duplicates • • 3-33-5. Programming the Recorder · · 3-33 -6. Prograrnming th.e Control Board (AI3) 3-33-7. Data Source Connections 3-43-8. Programming the Column Boards 3-43-9. Reference Voltages 3-53 -1 O. Reference Voltages Adjustment 3-63-11. Power Supply and Internal Reference Voltages 3-63-12. Printing a Minus (-) · · 3-63-13. Setting the Analog Controls (optional) • 3-73-14. Recording with Galvanometer Graphic Recorders 3-73-15. Using Graphic Recorders Having Different
Input Sensitivities 3-8
ii,
Model 562A
TABLE OF CONTENTS (Cont'd)
Section
IV THEOR Y OF OPERATION •
TROUB LESHOOTINGV
4-1.4-2.4-3.4-4.
5-1.5-2.5-3.
Introduc tion • •Control Board Operation •Column Board Operation.Analog Circuitry Operation
•
IntroductionLocalizing the TroubleSemi-Conductor Replacement
Page
4-1
4-14 .. 1
• • 4-2• • 4-3
• • • • 5-1
• 5-1
• 5-25-2
iii
Section I Model 562A
Table 1 -1. Specifications
Accuracy:
Printing Rate:
Column Capacity:
Print Wheels:
Dri ving Source:
Print Command Signal:
Transfer Time:
Paper Required:
Power Requirements:
Dimensions:
Identical to input device used
5 lines per second, nlaximum
To 11 columns (12 available on specialorder)
12 positions, numerals 0 through 9, a minussign, and a blank, Other symbolsavailable. *
Para 11e 1 entry 4 -Iine BCD, 1 - 2 - 2 - 4. athercodes available. Source reference voltageestablishes "0" state. "0" or "1" statem'..lst not be nlore than 150 volts above orbelow ground. The binary swing should bebetween 4 and 75 volts.
Positive or negative pulse, 20 \J.s or greaterin width, 6 to 20 volts.
Approximately 2 rns
Standard 3 -inch roll or folded paper
115/230 volts ± 10%, 50/60 cps (4 prints persecond maximum at 50 cps)
Cabinet Mount: 20-3/4 in. wide, 12-1/2 in.high, 18-1/2 in. deep
Rack Mount: 19 in. wide, 10-1/2 in. high,16-7/8 in. deep behind panel
Weight: Cabinet Mount: Net 35 lbs, shipping 70 lbs(app roximat el y)
Rack Mount: Net 30 Ibs, shipping 63 lbs(app roxilna LeI y)
1-0
*See 0j) A p p Iicat ion Not e #32 for i nf 0 r mat ion 0 n s pee i a I p r i n t w h eel s .
01081-1
Model 562A
1-1. DESCRIPTION.
SECTION I
GENERAL DESCRIPTION
Section I
The Hewlett-Packard Model 562A Digital Recorder is a transistorized electroIT!echanical device providing a printed record of digital inforrnation. Paralleldata entry and low-inertia moving parts allow printing rates as high as 5 linesper second, each line containing up to 11 digits; 12 digit capacity is availableon special order.
Throughout this nlanual the Model 562A will be referred to as the recorder.
1-2. DATA ENTRY.
Standard input for the recorder is parallel-entry 4-line BCD code, either 1224or 1248. Input to the recorder is through rear-l1'.lounted connectors. Internalconnectors route the inforn1ation to any desired sequence of columns. Eachcolumn has binary storage for one decimal nunlber.
When a print COITlmand is supplied, each storage unit assumes the condition ofthe decade counting unit (or other driving source) connected to it. The datatransfer takes place in approximately 2 milliseconds, after which tinle thed riving source is free to gather more infornlation.
1-3 . STANDARD INSTRUMENT.
Each storage unit is mounted on a plug-in board (column board) with a de-codingmatrix. The nlatrix converts the stored data into positioning inforIT!ation forthe print wheels. The recorder is supplied to translate 1224 BCD codes, butother 4-line codes are accoIYlmodated by substituting plug-in boards. Unlessotherwise specified, the recorder is supplied from the factory with the following:
a. Six +1224 coluIYln boards.
b. Printer nlechanism, 11 print wheels and associated components, fiveprints/second with 60 cps power line frequency.
c. One input connector at rear of recorder JI01.
d. One input cable.
e. One control board.
f. One power supply board.
01081-1 1-1
Section I
1-4. OPTIONS AVAILABLE.
The following options are available:
a. + or -1224 column boards.
b. + or -1248 column boards.
c. Analog circuitry.
d. Pinion gear, allows 5 prints per second with 50 cps power.
Model 562A
e. Input connector (J201) and associated connectors (for dual input operationor over 9 -column capacity).
f. Data input cable.
1-5. POWER REQUIREMENTS.
The recorder has been designed to operate frorr! 115/230 volt, 50/60 cps power.A switch, located at the rear of the recorder selects operation for either 115 or230 volts.
The three-conductor power cable supplied with the instrument is terminated ina three-prong polarized male connector recommended by the Electrical Manufacturers' Association (NEMA). The third contact is an offset round pin, addedto a standard two-blade ac plug which grounds the recorder chassis when usedwith the proper receptacle. An adapter should be used to connect the NEMAplug to a standard two-contact receptacle. When the adapter is used, the groundconnector becomes a short green lead. The green lead should be connected toa suitable ground for protection of the operating personnel.
1-6. USES.
Because of the extreme flexibility of the recorder, it can be used with electroniccounters, digital voltmeters etc. or a wide variety of individual and systemapplications. The recorder will operate with + or -1224, + or -1228 BCD, and10 -line code information depending on column boa rd s installed. Two separatesources, unsynchronized, can be used to provide data if option e is installed.The recorder supplies the synchronization. When the analog circuitry, option c,is installed, the operator may select analog voltage of columns 1 through 9 in3 -column groups.
1 -2 01081-1
Model 562A
SECTION II
INSTALLATION
2-1. GENERAL INFORMATION.
Section II
Section II contains information relating to installation and input connections.
2-2. RACK MOUNTING.
If the recorder is to be rack mounted, be certain to allow sufficient open spacefor cooling air to enter and exhaust. Do not rnount the recorder next to equipment which will discharge hot air into the recorder air intake.
2-3. CONNECTION TO THE $p TRANSISTORIZED COUNTERS.
The recorder may be directly connected to the ~ transistorized counters bymeans of the input cable supplied with the recorder. The transistorizedcounters have the correct connector installed. Recorder connector J101 isconnected to the counter recorder connector. If a second transistorizedcounter is to be connected to the recorder, connection is made froIn the secondcounter to recorder connector, J201. The transistorized counter output is+1224 BCD.
2-4. CONNECTION TO rfiJ COUNTERS AND DIGITAL VOLTMETER.
If the recorder is to be connected to the above tube type instruments a modification kit can be installed. The kit provides a +1224 BCD output.
2-5. OPERATION FROM TWO DATA SOURCES.
The recorder can be operated fronl two data sources, synchronized or unsynchronized, by connecting the data inputs to connectors J101 and J201. The twodata inputs can be ±1224 or ±1248 code. The appropriate coluInn boards Inustbe installed in the proper connectors in the recorder.
2-6. CABLE FABRICATION.
Connection of the recorder to data sources other than the above Inay requireconstruction of a cable terminated with a connector that will mate with therecorder connectors. Use small gage telephone-type wire. Number 26 gagewire meeting MIL-B -76A, with 7 strands #34 gage wire, tinned after stranding,with 10 SoC plastic insulation has been found satisfactory. Select a sy stematiccolor code for wires to avoid errors. Use care in soldering. Repairing faultyconnections after all wires are soldered is very difficult. A length of # 14 gage
wire makes an excellent soldering tip for use on closely-spaced connector terrninals.
01081-1 2 -1/2-2
Model 562A
SECTION III
OPERATION
3-1. OPERATING CONTROLS.
The operating controls consist of the following:
POWER ON,supplies power to the recorder when in the ON position.
Section III
RECORD ON,allows the printer mechanism to operate when in the ON position. When theswitch is in the spring-loaded position(down), the recorder prints at maximumrate. The middle p osition is a standby position(allows analog to be taken).
SPACE SELECTOR,selects the number of spaces between readout prints.
PAPER ADVANCE,manually advances paper.
ANALOG CONTROLS,(optional) refer to text.
3-2. PAPER TAPE.
Special ~folded tape is recommended for use with the recorder. High-qualitystandard 3 -inch rolled adding machine type may also be used.
Folded tape permits convenient take -up in the paper drawer and allows easyinspection of any portion of the type. It is perforated at each fold to allow neatseparation of portions of recorded data. Folded tape may be reversed and rerun to use both sides. With single spacing, about 15, 000 prints can be madeon one side of a folded pad. One pad will last about 40 minutes at maximumprint rate.
To install the paper tape proceed as follows:
a. Open front panel.
b. Load paper in compartment.
c. Fold paper back one inch and crease. Insert paper between roller andguide plate.
01081-1 3-1
Section III Model 562A
d. Manually advance paper. Paper will feed easier and can be reversed withSPACE SELECTOR set to "0".
e. Feed paper under inked ribbon.
f. Feed paper through slot. Close front panel.
g. Collect printed paper in drawer.
Follow these additional instructions if roll tape is used:
a. Insert spindle through roll. Spindle is taped to bottom of paper compartment when instrument is shipped from the factory.
b. Hang roll by ends of spindle from ledges on both sides of paper compartment.
c. Paper must feed out from the bottom of the roll.
d. Continue with loading.
To feed paper rapidly use the PAPER ADVANCE thumb wheel. To manually feedpaper backward, set the SPACE SELECTOR to "0" and roll the PAPER ADVANCEwheel in the reverse (up) direction. Paper feed may be reversed on!l. with theSPACE SELECTOR set to "0".
Be sure paper is inserted squarely in the paper feed mechanism to preventjamming. If paper doe s not feed smoothly, place the RE CORD switch in thecente r position, and re move all paper from the feed mechanism. Use tweezersto pick out torn bits of paper.
3-3. INKED RIBBON.
The printer mechanism uses a special heavily-inked silk ribbon available fromthe Hewlett-Packard Company. Standard typewriter ribbon on an Underwoodspool, with reversing rivets near the ribbon ends, may also be used; however,impressions will be lighter than with the Hewlett-Packard ribbon.
To install new ribbon, proceed as follows:
a. Open the hinged front panel to gain access to the printer mechanism.
b. Loosen the two printer mechanism retaining screws located on the lowerfront corners of the mechanism by turning 1/4 turn counterclockwise.
c .. Slide mechanism out of cabinet until ribbon spools are readily accessible.
d. Wind all the ribbon onto one spool.
3-2 01081-1
Model 562A Section III
01081-1
e. Shift the two ribbon spool retaining springs away from the spools, andremove spools.
f. Take the ribbon out of the mechanism. Save the empty spool.
g. Hook end of new ribbon on empty spool. Wind about 10 inches ofribbon on the spool so that the rever sing rivet is on the spool.
h. Install new ribbon by feeding it over the ribbon rollers and between theprint wheels and paper tape.
i. Feed ribbon through the slots in the reversing arms and around thelower guides. Ribbon must be twisted 900 between the ribbon roller and theslot in the rever sing arm.
j. Place ribbon spools on their shafts. Fasten spools in place with thespool retaining springs. Ribbon must feed out from the bottom of each spool.
k. Replace printer mechanism in cabinet and tighten retaining screws.
3-4. TAPE DUPLICATES.
Transparent paper, ~stock no. 9251-0052 is recommended for use in therecorder. This paper produces much less paper dust and copies can beeasily made with duplication machines. If duplicate tape records arerequired from standard paper, contact print duplicating methods, suchas the ozalid process, can be used by printing directly from the originaltape records.
3-5. PROGRAMMING THE RECORDER.
The recorder can be programmed to accept different codes if the propercolumn boards are installed. The column boards may be inter-mixed if desired.
The standard recorder is supplied with six +1224 BCD column boards, withconnectors installed to accept a total of nine column boards. If more thannine column operation is desired, J201 must be installed with the connectorsthat attach to the rear of the column boards (PIIO-PIl5).
Normally JIOl supplies data to column boards Al-A9, but connectors PIOlPI09 can be connected to supply data to any of the column boards the operatordesires. J201 can supply data to any of the remaining column boards. Connectors PIIO-Pll5 can be connected to supply data to six column boards.
3-6. PROGRAMMING THE CONTROL BOARD (AI3).
Connectors P20l and P202 supply control signals to the data sources, andreturn data source signals to the control board. Connector P20l is con-
3-3
Section III Model 562A
nected to one data source through JI01. and P202 to a second data sourcethrough J201. The control board senses when commands from both sourceshave been received, then starts the printing cycle. If only 'one data source isused, the control board connector that is not being used must be disconnected,otherwise the recorder will not operate but will wait until the control boarqreceives a second print command signal. When the control board connectorthat is not being used is disconnected, the associated print command binaryremains in the proper state of unbalance. Thus a print command is requiredfrom only one data source to start the printing cycle.
3-7. DATA SOURCE CONNECTIONS.
Data can be supplied continuously from two data sources. If six column readout is desired for one data source and five column readout is desired for thesecond data source, then one data source is connected to JI01 and the otherdata source to J201. The column board connectors can be connected as theoperator desires. Other combinations the operator may want can be had bychanging the connectors at the rear of the column boards.
3-8. PROGRAMMING THE COLUMN BOARDS.
The following tables are for 1224 and 1248 BCD code.
Table 3 -1. 1224 Column Board
Character Binary Inputto be D C B A
Printed
Weight4 2 2 1
0 0 0 0 01 0 0 0 12 0 0 1 03 0 0 1 14 0 1 1 05 0 1 1 16 1 1 0 07 1 1 0 18 1 1 1 0
9 1 1 1 1
- 1 0 0 1blank 1 0 0 0
3-4
Table 3 -2. 1248 Column Board
Character Binary Inputto be D C B A
Printed
Weight8 4 2 1
0 0 0 0 01 0 0 0 12 0 0 1 03 0 0 1 14 0 1 0 05 0 1 0 16 0 1 1 07 0 1 1 18 1 0 0 0
9 1 0 0 1
- 1 0 1 1blank 1 0 1 0
01081-1
Model 562A
The following notes refer to tables 3 -1 and 3 -2:
1 and 0 definitions
1) 1 indicates "1" level binary input.
2) 0 indicates "0" level binary input.
Section III
"1" and "0" levels (BCD input)
1) In a +1224 code, the" 1" level is positive with respect to the "0" level.
2) In a -1224 code, the" 1" level is negative with respect to the "0" level.The + or - prefix is deterrnined by the polarity of the" 1" level with respectto the "0" level.
3-9. REFERENCE VOLTAGES.
Input to the binaries is through gates which are controlled by two dc -biasingsignals which control the passage of transfer pulses. One of the biasing signalsis the BCD data input and the other is a reference voltage. The transfer pulsesare internally-generated within the recorder. The inputs to the binaries arecapacitively-coupled and may be floating with respect to chassis ground. Thereference voltage is thus required to establish a point to which the BCD sig'nalis referred. Two reference voltages are required in the data storage systemand should generally be the steady dc values of the 0 and 1 states of the BCDinput signal. This relationship of reference to BCD signal is shown in figure3-1 for a negative-going signal equal to the 1 level.
"0"
"1"
SIGNAL TO BE WITHIN± 150V TO GND.
POS. OR "0" REFERENCE
NEG. OR"1" REFERENCE
It I" EQUALSNEGATIVE-GOING
RO
Figure 3 -1. Reference Levels.
01081-1 3-5
Section III
3-10. REFERENCE VOLTAGE ADJUSTMENT.
Model 562A
The input voltage applied for any column board must not exceed 150 volts. Thatis the refe renee voltage plus the B CD It 1It level should not be greater than 150 volts.For instance, if the BCD swing is from 100 volts (tiD" level) to 160 volts (til" level)then attenuation must be introduced to reduce the "0" level to 94 volts and the"1" level to 150 volts. The minus reference voltage can then be adjusted for94 volts. The plus reference level must then be adjusted to 150 volts.
Before a reference voltage can be chosen, the "0" and" I" levels of the equipment supplying the BCD signals must be known. For instance if the recorderis connected to a binary counter with a -1248 code, each column board will bedriven by a decade in the counter. Sometimes binaries in the decades havedifferent" 1" and" 0" levels, thus a proper reference voltage must be chosen.If the column board is a -1248 code, then the -reference voltage must be chosenthat includes the "1" levels applied to the A, B, C, and D binaries. A +referencevoltage must be chosen that will include the "0" levels for the A, B, C, andD binaries.
If high impedance reference levels are used (above 5000 ohms), suitable bypassing, providing a time constant of 150 ~s, should be used. If the BCD driveis derived from an unregulated supply, then it is desirable to obtain the referencevoltage from the same unregulated supply.
3-11. POWER SUPPLY AND INTERNAL REFERENCE VOLTAGES.
The power supply board, A16, supplies the de voltages required by the recorder.The power supply also has provisions for providing reference voltages of -9 to+17 volts. The operator can select a value of resistors or breakdown diodesneeded to provide the proper reference voltages. Connectors P301 and P302(optional) supply the reference voltages to the column boards. When using anexternal reference voltage, connectors P30l and P302 must be disconnected fromthe power supply board if resistors are installed. Unless specified by thecustomer, resistors are not installed. The proper mounting holes are in thepower supply board and the operator can install the resistors or break-down diodes required to give the desired voltage.
3 -12. PRINTING A MINUS (- ).
The recorder will normally print a blank with no BCD input. If the operatorwishes to print a -(minus) for a 1224 code, in place of a blank, proceed as follows:In table 3-1 under the column headed "character to be printed", find -(minus).Under the "Binary Input" column, the - charac ter must have a "l" input forthe A and D binaries. If the column board is a +1224 code, then the externalvoltage applied to the A binary input must be at least 4 volts more positivethan the negative reference voltage. Since the D binary has a 11 I" supplied
3-6 01081-1
Model 562A Section III
01081-1
by the transfer pulse when the nOll level is not present, no external voltage isrequired for the D binary. A -1224 code req uire s the same voltage s but ofdiffe re nt polarity.
If the column board is a +1248 code, in table 3-2 find -(minus). Under the"Binary Input" column, the - character must have a "l" input for the A, B,and D binaries. An external voltage applied to the A binary must be at least4 volts more positive than the negative reference voltage. The Band D binariesdo not require an external voltage as the transfer pulse supplies the" 1" levelwhen "0" level is not present. A -1248 code requires the same externalvoltages, but of different polarity.
3-13. SETTING THE ANALOG CONTROLS (ortional).
The POTENTIOMETER RECORDER binding posts on the 562A are designedto operate potentiometer type (voltage operated) recorders having lOO-millivoltfull-scale sensitivity, and greater than 50K ohm input resistance. The 562Acan also drive recorders having other values of input sensitivity and resistanceby making minor addiqons or modification to the POTENTIOMETER RECORDER ANALOG OUTPUT.
To use the 562A on a potentiometer recorder, proceed as follows:
a. Set the COLUMN SELECTOR to include the three number columns tobe recorded gr aphically.
b. Connect the potentiometer recorder to the POTENTIOMETER RECORDERbinding pos ts on the 56 2A.
c. Set the OPERATE lever switch to the G8.LV. ZERO position (the GALV.ZERO control has no effect on the POTENTIOMETER RECORDER output) butdoes supply zero output at potentiometer jack.
d. Zero set the potentiometer recorder with its own controls.
e. Set the OPERATE lever switch to the CALIBRATE position.
f. Adjust the CALIBRATE control to obtain full-scale deflection of therecorder pen.
g. Repeat steps c, d, e, and f.
h. Set the OPERATE lever switch to OPERATE. The graphic recorderwill now plot the number columns indicated by the COLUMN SELECTOR.
3-14. RECORDING WITH GALVANOMETER GRAPHIC RECORDERS.
The GALVANOMETER RECORDER output jack on the 562A is designed tooperate galvanometer type (current operated) recorders having I-milliampere-
3-7
Section III Model 562A
3-8
full-scale se nsitivity and Ie s s than 5000 ohnlS input re sis tance. The 562A canalso drive recorders having other values of input sensitivity and resistance bymaking minor additions or modifications to the GALVANOMETER RECORDER
ANALOG OUTPUT.
To use the 562A with a galvanometer recorder, proceed as follows:
a. Before connecting the recorder to the 562A, deternline which three of thenumber columns are to be plotted. Then set the COLUMN SELECTOR to include these three number columns.
b. Zero set the galvanometer recorder with its own controls.
c. Connect the recorder to the GALVANOMETER RECORDER jack usinga standard, 1/4-inch diameter three-circuit phone plug. The positive recorderterminal is connected to the ring contact on the plug, and the negative terminalto the tip on the plug.
d. Set the OPERATE lever switch to the GALV. ZERO position.
e. If necessary, zero set the recorder with the GALV. ZERO set controlon the 562A.
f. Set the OPERATE lever switch to the CALIBRATE position.
g. Adjust the CALIBRA TE control to obtain full-scale deflection of therecorder pen.
h. Set the OPERATE lever switch to the OPERATE position. The recorderwill now plot the number columns indicated by the COLUMN SELECTOR.
3-15. USING GRAPHIC RECORDERS HAVING DIFFERENTINPUT SENSITIVITIES.
To use a potentiometer recorder having greater than specified voltage sensitivity, shunt the recorder with a value of resistance which results in full-scaledeflection of the recorder pen while the 562A is set to CALIBRATE and theCALIBRATE control is cente red.
Potentiometer recorders having less than 50K ohm input resistance may beused, but the POTENTIOMETER RECORDER output will than provide lessthan 100 millivolts for full-scale deflection. The internal resistance at thePOTENTIOMETER RECORDER output is approximately 2500 ohms and whenloaded with this value, provides only 50 millivolts for full scale deflection.If the potentiometer recorder has sufficient sensitivity to operate with thelower input level, no modification is required to use the recorder. However,as the external resistance on the POTENTIOMETER RECORDER binding postsis decreased, so is the range of the CALIBRATE control, until at sonle low
resistance it may be necessary to provide an external calibrating control
01081-1
Model 562A Section III
01081-1
consisting of a potentiometer connected as a variable shunt for the signalwhich is fed to the graphic recorder.
If a potentiometer or galvanometer recorder is to be used which requiresslightly greater output voltage or current, it is possible to increase the562A ANALOG OUTPUT by changing the values of certain resistors inthe analog circ ufts.
3-9/3-10
Model 562A
SECTION IV
THEOR Y OF OPERATION
4-1. INTRODUCTION.
Section IV
Operation of the 562A is dependent upon a series of timing and reference voltages. The timing voltages are supplied by the control board (Al3). Referencevoltages can be supplied by the power supply (A14) or by an external source.The following paragraphs will describe the functions of various circuits in therecorder.
4-2. CONTROL BOARD OPERATION.
Operation of the recorder is dependent upon a series of timing voltagesdeveloped by the control board. Refer to the functional diagram, figure 5-2.Assume the data source initiates a print command. Print Command BinaryNumber 1 changes state and immediately supplies the data source with a disablevoltage. Assume Print Command Binary Number 2 has its input connectorarranged so only one print is required. The Print Scan Schmitt is in theproper state because the shutter is open. The Print Scan Schmitt applies theproper signal to the "And" Gate. The "And" Gate conducts and causes theClutch Binary to change state. The clutch solenoid starts to energize. Whenthe Clutch Binary changes state, a signal is applied to the Delay Multivi-brator (2MS). The output of the 2 ms delay multivibrator produces a reset pulsewhich is applied to the storage binaries. This removes stored information andsets the storage binaries in the proper state to receive new information. Theoutput of the 2 ms delay multivibrator is also applied to a 60 J-Ls delay multivibrator. The output of the 60 J-LS multivibrator is applied to the storage binarygate diodes by way of the + and - Transfer Amplifiers, then data transfer takesplace. The output of the 60 f.LS multivibrator is also applied to thePrint Command Binaries and resets them. While this action is occurring, theclutch solenoid is completing its pull-in cycle. When the clutch solenoid hasengaged the clutch, the clutch will remain engaged for one complete revolutionof the clutch assembly because of mechanical action. As the clutch assemblyrotates, the shutter closes, de-energizing the photo conductor. This causesthe schmitt to change state, initiating the scan signal. The scan signal thenresets the clutch binary and opens the Inhibit Gate circuits which can allow thepawl magnets to energize. When the brush senses the correct voltage, the pawlmagnets de -energize and lock the print wheels at the proper position. Then thecharacter is printed as the clutch assembly finishes its one revolution, disengages,and opens the shutter. The photo conductor is energized and the system is readyfor the next print command.
01081-1 4-1
Section IV
4-3. GOLUMN BOARD OPERATION.
Model S62A
4-2
The following theory is for operation of a -1248 code column board. Assumea data source has initiated a print command, the AND GATE in the controlboard conducts, and the clutch solenoid starts to energize. A signal is thenapplied to the 2 MS DELA Y lY1ULTIVIBRA TOR by the clutch binary. After2 ms, the nlultivibrator applies a positive reset pulse to the column boards.The binaries reset as follows:
A BINARY: Q 101, on; 0102, off
B BINARY: a 103, off; 0104, on
G BINAR Y: a 105, on; a 106, off
D BINARY: Q 107, off; a 108, on
The data source is supplying bcd information to the four binarie s. Supposethe bcd information supplied is for the decimal number 8. According totable 3-1, "0" level information will be supplied to the G, B, and A binaries.The D binary will have "l" level information supplied. The "0" or "l'" do notchange the state of the binaries. The - and + transfer pulses cause the binariesto change state if the 1t0" or II lit levels needed are present. At the D binary,if the "1" level is pre sent GR 104 is forward biased and - transfer pulse will gothrough diode gate GR 104. Since a 107 is off, the D binary will change state,a107 on and a108 off.
The G binary has "0" level information applied to diode gate GRI03. A + transfer pulse is applied to GRI03. Since the "a" level information applied to GRI03is equal to the + reference voltage, the diode will pass the + transfer pulse.Thus QIOS is off and al06 is on.
The B binary has" 0" level information applied to diode gate GR 102. Since the"Olt level information is (at least 4 volts) more positive than the -referencevoltage, diode GRl02 is reverse biased and will not pass the - transfer pulse. Thebinary will not change state. Transis tor a 103 re mains off and a 104 re nlains on.
The A binary has "a" level information applied to diode gate GRIOI. The "0"level mllst be equal to the positive reference voltage. This causes GRlOI tobe forward biased and pass the + transfp.r pulse. The A binary changes state,QIOI off and QI02 on.
Three of the halves of the binaries that are "on" will return, through matrixresistors, to pin 11 of connectors XAl-l to XA12 -1. This is the line whichcorresponds to the decimal number 8. In this case, R161, R175, and Rl99return to the line for the decimal number 8. These resistors make the linefor the number 8 go to app roximately +15 volts. Diode gate G Rl a5 and G Rl Ohsense when the line gets to approximately +15 volts and cause amplifiers al09»a 110, and Q III to de -energize the pawl magnet. The pawl then locks the
01081-1
Model S62A Section IV
print wheel at that position. The number is then printed. When the data sourceinitiates another print command, the scan signal occurs a short time later andcauses amplifiers 0109,0110, and 0111 to energize the pawl magnet if thedata input has changed. The print wheel rotates. The magnet remains energizeduntil diode CRI0S has +lS volts applied from the matrix.
4-4. ANALOG CIRCUITRY OPERATION.
Sinc e the column board s contain stored binary information, an analog functioncan be derived to drive a strip chart recorder. The analog circuitry providesthe following:
a. A graphic presentation whereby the trend of recorded data can be seen ata glance.
b. Three digits of analog information where full scale on the recorder maybe a few parts per million of the original printed reading.
c. A recording where an increasing numerical count is always an upwarddirection on the strip chart recording.
d. An analog recording which is always on scale.
To derive the analog voltage a switching arrrangement is used which utilIzesthe stored binary data from three consecutive columns of the printed data.Any three of the first nine columns may be used as well as the first two righthand digits.
The binary output data is weighted according to the code required by thestorage units. Four resistors are used to develop a staircase function fromthe four storage binaries. The four weighting resistors are in the ratio 4221.Refer to the analog circuitry schematic. Each of the three storage decadesthen produces a staircase function with a level proportional to the numericalvalue of its stored binary data.
The three staircase voltages are then mixed in proportion to their decadevalue or in the ratio of 1, 10, 100, to produce a single staircase function1000 part in amplitude. Each discrete step then represents. 10/0 of full scaleand for practical purposes is an analog function. This output voltage is thenattenuated and applied directly to a potentiometer type strip chart recorder.
The analog signal is also applied to an amplifier whose output can be used todrive a 1 rna type galvanometer recorder.
Diode clamps insure accurate voltage levels before mIXIng. Compensationelements maintain constant output over wide temperature extremes.
01081 -1 4-3/4-4
Model 562A
5-1. INTRODUCTION.
SECTION V
TROUBLESHOOTING
Section V
Section V contains information relating to symptom, trouble, and localizationof troubles which may occur in the recorder. Table 5-1 lists the symptom,then a possible cause. It must be remembered that troubles other than thoselisted could cause a malfunction. The table lists the most possible cause.
01081-1
Table 5-1.
Symptom
No printer action when onlyone data source is used
No printer action when twodata sources are used
All columns print incorrectcharacter
One particular column printsan incorrect character
Printer mechanism will notoperate
Incorrect analog voltage
Trouble shooting
Possible Cause
See that the unused connector at the rear ofthe control board (AI3) is disconnected.Make sure print command is proper polarity.
Check power supply voltages, check printcommand binarie s, check if both datasources are initiating print commands andof proper polarity.
Check power supply voltages, check thecontrol board for proper reset, transfer,and scan signals (listed in timing voltagetable). Make sure reference voltages arecorrect.
Check the column board as sociated with theparticular print wheel. Interchange columnboards" if operation is restored, trouble isin column board. Make sure referencevoltages to column board are correct.
Press the RECORD ON switch to the downposition. Recorder should print at maximumrate. 1£ not, check fuses and power supply.
Make sure recorder is zeroed. ChecktIl volt power supply on analog board.Check clamp diodes.
5-1
Section V
5-2. LOCALIZING THE TROUBLE.
Model 562A
5-2
When a trouble has been traced to a specific board, make voltagp. meas urements on base, emitter, and collector of transistors. On the column boardbinaries, transistors that are "turned on" will have approximately t15 voltson the collector, transistors that are "turned off" will have approximately-5 volts on the collectors. Binary tables 5-2 to 5-5 list the states of thecolumn board binary transistors for various numbers and inputs. Binaries inthe control board can be checked for switching action with a dc coupled oscilloscope. When a binary changes state, the dc coupled oscilloscope will show adefinite change of dc level. A vac uum tube voltme ter can be used also.Figure 5-1 shows the timing voltages and sequence. Resistance measurementsmade between various sockets and connectors may be helpful. For this, usethe wiring and power supply diagram.
5-3. SEMI-CONDUCTOR REPLACEMENT.
Table 5-3 lists the various transistors and diodes. When a commercialreplacement type is not listed, the semi-conductor should be ordered fromthe Hewlett Packard Company. When two rfiJ stock numbers are listed, thesecond number IS the correct replacement.
01081-1
J
Model 562A
PRINTCOMMAND
+
+HOLDOFF
CLUTCHBINARY
2MSDELAY MV
GOUSDELAY MV
RESET
- TRANSFER
+ TRANSFER
SCAN-----------
01081-1
Section V
PRINT COMMAND
Changes state of PRINT COMMAND BINARY.Minimum amplitude for + and - print commandsis 6 volts.
HOLDOFF VOLTAGE
Supplied to data source when PRINT COMMANDBINAR.IES change state. The + holdoff is15 volts in amplitude, - holdoff is 6 volts.
CLUTCH BINARY
State is changed by leading edge of holdoff voltage,clutch solenoid becomes energized. Amplitude ofchange is 35 volts.
2 MS DELAY MV
State is changed by leading edge of clutch bi.narysignal. Amplitude of change is approximatnly12 volts.
60 IJ.S DELAY MV
State is changed by trailing edge of 2 MS MY.60 IJ.S delay is for data storage in storage binaries. 15 volts amplitude, resets PRINT COMMAND BINARIES.
RESET
Initiated by leading edge of 60 IJ.S MV pulse.Amplitude 12 volts, width 10 IJ.S.
+ and - TRANSFER PULSES
Initiated by trailing edge of 60 /lS MV. - transferpulse is 5 volts, + is 3 volls, width 10 IJ.S.
SCAN
Initiated when shutter blocks light to photo conductor. Amplitude 25 volts, width approximately160 IJ.S. Resets clutch binary.
Figure 5-1. Timing Voltages
5-3
Section V
Table 5 -2. -1248 Code
Model 562A
- 8 4 2 1
D BINARY C BINARY B BINARY A BINARYCharacter
BCD INPUT BCD INPt.JT BCD INPUT BCD INPUT
0107 0108 0105 0106 0103 0104 0101 0102
1 0 off on 0 off on 0 off on 1 on off3 0 off on 0 off on 1 on off 1 on off5 0 off on 1 on off 0 off on 1 on off7 0 off on 1 on off 1 on off 1 on off9 1 on off 0 off on 0 off on 1 on off- 1 on off 0 off on 1 on off 1 on off
Blank 1 on off 0 off on 1 on off 0 off on8 1 on off 0 off on 0 off on 0 off on6 0 off on 1 on off 1 on off 0 off on4 0 off on 1 on off 0 off on 0 off on2 0 off on 0 off on 1 on off 0 off on0 0 off on 0 off on 0 off on 0 off on
BCD INPUT: "0" is zero level input, "1" is one level input
TabIe 5 - 3 . +1248 Cod e -+ 8 4 2 1
D BINARY C BINARY B BINARY A BINARYCharacter
BCD INPUT BCD INPUT BCD INPUT BCD INPUT
0107 0108 0105 0106 I 0103 0104 0101 0102
1 0 on off 0 on off 0 on off 1 off on3 0 on off 0 on off 1 off on 1 off on
5 0 on off 1 off on 0 on off 1 off on7 0 on off 1 off on 1 off on 1 off. on
9 1 off on 0 on off 0 on off 1 off on
- 1 off on 0 on off 1 off on 1 off onBlank 1 off on 0 on off 1 off on 0 on off
8 1 off on 0 on off 0 on off 0 on off
6 0 on off 1 off on 1 off on 0 on off4 0 on off 1 off on 0 on off 0 on off2 0 on off 0 on off 1 off on 0 on off0 0 on off 0 on off 0 on off 0 on off
BCD INPUT: "0" is zero level input; "1" is one level input
5-4 01081-1
Model 562A Section V
Table 5 -4. -1224 Code
- 4 2 2 1
D BINARY C BINARY B BINARY A BINARYCharacter
BCD INPUT BCD INPUT BCD INPUT BCD INPUT
0107 Q108 0105 Q106 Q103 QI04 QI01 QI02
1 0 off on 0 off on 0 off on 1 on off3 0 off on 0 off on 1 on off 1 on off5 0 off on 1 on off 1 on off 1 on off7 1 on off 1 on off 0 off on 1 on off9 1 on off 1 on off 1 on off 1 on off- 1 on off 0 off on 0 off on 1 on off
Blank 1 on off 0 off on 0 off on 0 off on8 1 on off 1 on off 1 on off 0 off on6 1 on off 1 on off 0 off on 0 off on4 0 off on 1 on off 1 on off 0 off on2 0 off on 0 off on 1 on off 0 off on0 0 off on 0 off on 0 off on 0 off on
BCD INP UT: "0" is zero level input; "1" is one level input
Tab1e 5 - 5. +1224 Cod e
+ 4 2 2 1
D BINARY C BINARY B BINARY A BINARYCharacter
BCD INPUT BCD INPUT BCD INPUT BCD INPUT
Q107 Q108 Q105 QI06 QI03 QI04 QI01 QI02
1 0 on off 0 on off 0 off on 1 off on3 0 on off 0 on off 1 on off 1 off on5 0 on off 1 off on 1 on off 1 off on7 1 off on 1 off on 0 off on 1 off on9 1 off on 1 off on 1 on off 1 off on- 1 off on 0 on off 0 off on 1 off on
Blank 1 off on 0 on off 0 off on 0 on off8 1 off on 1 off on 1 on off 0 on off6 1 off on 1 off on 0 off on 0 on off4 0 on off 1 off on 1 on off 0 on off2 0 on off 0 on off 1 on off 0 on off0 0 on off 0 on off 0 off on 0 on off
BCD INPUT: "0" is zero level input; "1" is one level input
01081-1 5-5
Section V
Table 5-6. Semi-Conductor Replacement
Model 562A
Assembly Component ~Stock No. CommercialReplacement
AI-A12 0101-0110 1850-0033 or 1850-0062 Philco 2N598
0111 2Nl183B
CR 10 l-CR 106 1901-0024
AI3 0201-206 1850-0033 or 1850-0062 Philco 2N598
0207 2N1672
0208 2N1304
0209 2Nl373
0210-0214, 216 1850-0033 or 1850-0062 Philco 2N 598
0215 2N1672
CR 20 1, 202, 204, 1901-0024205, 217-220
CR203, 206-210 GIlA
CR216 Silicon Diode
A16 CR301-305 lN2069 or IN3293
CR306 G-31G-10H
CR307 G-31G-7L
CR308 G-31G-27L
A14 0401, 403, 1854-0003405-407
0402, 404 2N 1304
CR401-416 GIlA421,425,426
CR423, 424 G-29A-29
CR420 1902-0017
CR422 1902-0022
Power Ql, Q2 2N1136 or 2N301Supply
5-6 01081-1
Model 562A Section VFigure 5-2
r------- +- -19V
+ ...-----....,DISABLE
VOLTAGE - ...-----.,
"A" INPUT --.----,
INHIBITGATE
~ CRI05,CRI06AMPLIFIERS0109,0110
---------,
STORAGE f-+-GATE I--~ BINARYCRIOI 0101,
0102 f--+-
BRUSH
f---...-- DECODI NG 1--1:::::)--0------,STORAGE MATRIX ~
g~ro~ f---+- BINARY R161- H0107, L..........- RI96 L-f"\0108 ~ ~
~ ~~f----o
~
A I - A 12 , 1- 2 - 2 - 4 CODE---------,II
- REF.VOLTAGE
+ REPVOLTAGE
......L...-~-J
"D"INPUT _.--_-J1
+ TRANSFER PULSE
-TRANSFERPULSE
TRANSFERAMPLIFIER
0216
~DELAY
TRANSFER
PRINT SCAN AMPLIFIER"AND" CWTCH MULTIVIBRATOR
DELAY
SCHMITT ~ 0207GATE f-+- BINARY f-+- (2MS) ~ MULTIVIBRATOR
0205,0206 0208 0209,0210 (60 US)
~0211,0212
0213,0214
I SCAN~
....- -19V
L515
V501 ~D I5HU~TER I @05501 .
L __ - - - - - - -----EJ----- ~~T~~A.'l,~o~NOII
PRINTCOMMAND
BINARY NO.10201,0202
PRINTCOMMAND ~.----I
NO.1
DISABLEVOLTAGE - +- ---J
+.--_1
PAWLMAGNET
AMPLIFIER0111
80-E-80
PAWLMAGNET
,IIIIIIII
____ --.J
TRANSFERL..-.- AMPLIFIER I---+-
0215 GATE STORAGE
- REF. ..... CRI02 I--r-. BINARY
VOLTAGE 0103,0104 I---+-
'B'INPur I tSTORAGE RESET
I f--+-GATE STORAGE
...... f-- f-.- BINARY- REF. CRI03 0105,
VOLTAGe: 0106 ---.-
"C"INPUTI ~
ISCAN I
L _________
PRINT COMMAND BINARY RESET
PRINTCOMMAND
BINARY NO.20203,0204
PRINTCOMMAND --1_---1
NO 2
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P3
L504
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L505
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P5 W
L506L507
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I I I I II TO XA7-1 I TO XA6-1 I TO XA5-1 I TO XA4-1 I TO XA3-1
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01081':"1
Section V ~
Figure 5-4
5501
/
rt'l > rt'l > U U..... et ~ et
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). V501
L515
F501
REFERENCE DESIGNATION
8501C501CR501OS 501- 503E501-512, E521F501J5Ql t J502L501-512, L515PI- PI2, P24V501
L ---------1 SHUTTER I
~ I POWER I0()
I 05502<50() IRECORD ON I-J
~0
rt'l 0() ..... (7l a:: N v ID CD~(5 0 0 0 0 = ~ 0 0 0 0 ~ IRECORD ON I 5502
0() 0() 0() 0() 0() 0() 0() 0() 0() 0() 0() 0() ----------J -J -J -J -J -J Z -J -oJ -J -J -J -J
0 05503~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
0 0 0 0 0 0 ~ 0 0 0 0 0 0a:: a:: a:: a:: a:: a:: 0 a:: a:: a:: a:: a:: a::~ ~ ~ ~ ~ ~ u ~ ~ ~ ~ ~ ~
L505 L504 L503 L502 L501
I II
I I II I I I II TO XA4-1 I TO XA3-1 I TO XA2-1 I TO XAI-II I I I II I I I II I I II I II I I II I I I II I I I I
6 D 6 6 Dv N-JW
.Jw J:J:~
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0()
... w PIw
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COPYRIGHT 1961 BY HEWLm·PACKARD COMPANY(7l (7l (7l (7l (7l rt'l U
(7l (7l (7l (7l (7l (7l (7l
~o()et
Thil drawing il intended for the operation Z z ~ z z z z z z z z z ~
and maintenance of Hewlett.Packard equip. ii: ii: n- ii: ii: ii: ll. ii: ii: ii: ii: ii: x_
ment and il not to be uled atherwile or N N N N N N N N N N N N ~z jI I I I I I I I I I 0-
reproduced without written can lent of the I I Q N a::ll.~
rt'l 0() ..... (7l N V ID CD ~
Hewlett·Packard Company. 562A-P.M.-T-12IC et et et et et et et et et et etX X X X X X X X X X X X
-----,- --------T-----------,-----------T----------T---------~-,--~---~----------------I l I II I II I L •
I I I
I I I :I I 1------.---------,I I CR501
I I
Figure 5-4Printer Mechanism
5-11/5-12
Model S62A
P202(OPTIONAL)
P201 R202r- CR201 1000- 5 ~
R203 R215 PRINT COMMAND R227
CR202390K 1200 BINARY NO.1 1200 :::~C211- 4 .... .001
R236R204
R216 R228 l,qK2 M
100012 K 12K
::~~?g~F0201 0202
C201 4~6~~:::~ ,CR207 PRINT SCAN R244 R253 R255 R259 R2.01 CR203 -
SCHMITT 560 j~ CR216 15K 560 CLUTCH 10K,BINARY 101- I
~ CJR201 J'I
1000R205 CR20815K .-
R256 ~R241 R245 "AND"R217 R221 ,I..-C207 R229 8200 4700 56010K 100 ';:~IOO 10K C210 AMPLIFIER GATE R263200PF
10K
II' 0206
o~ o~ ~02113 .,
R242 R2545600 1000
@ R239 0205
~0208
~ c9R230 1000 R251C202 47K15K
2.~I
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1000 R207 15K ,~CR21710K R252- 15K6
>- R208(
... 11000 CR218 A~
+-, 5R240 .. R243 R246 R250 R257 R258 R260 R261 R262 R264
CR204 47 .. 1800 10K 10K 18KI 10K 820 4700 1000 1000II R209 PRINT COMMANDI 390K R218
BINARY NO.2R231
I 1200 1200I
CR204R210
~25VI ... 1000+-1 4 I ....
/II
C2.06 ... L" R219 ~l:2 ::: ~~;g~FI4.70PF'::"'"
:::~.%~1,2I 12K 0203 0204II R211
CR206 CRI~09I 1000" -__ .J
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I R233~5VI 10K
~.II R212I 15K
, CR210I R220 R222 R234I 10K 100 10KII
-,~ 3I I NOTESI I
COPYRIGHT 1961 BY HEWLETT ·PACKARD COMPANYUNLESS OTHERWISE STATED,RESISTANCEI I
This drawing is intended for the operation I... L~ @ R238 IS IN OHMS, CAPACITY IS IN MICRO - FARADS
R235 15K and maintenance of Hewlett·Packard equip·2. PIN NUMBER @OF P207 6 P208 USES THEI 47K ment and is nat to be used otherwise or
FRONT 6 REAR CONTACT. WHEN THE CONNECTORI C204reproduced without written consent of the IS ATTACHED TO THE BOARD, THE BINARY ISI .£>1I Hewlett.Packard Company. 562A CTRL.IlRD.-T-12IB BALANCED.--., 2 II
I R21~I 100II
~--i 6I R214,-- 10K
SCAN
BINARYRETURN
BINARYRETURN
TO C II
+PRINTCOMMAND
TO CI2
SCAN
- PRINTCOMMAND
+PRINTCOMMAND
-PRINTCOMMAND
+DISABL.E
- DISABLE
-DISABLE
+.DISABLE
01081-1
Section VFigure 5-5
\
\
I+15V
.---- DISABLE VOLTAGE15 f--+ FROM PHOTO
CONDUCTOR V501
9 f-- .. -19V
7 - .. -9V
2 f---- +TRANSFER
R2884700
,-y;:sVI f---+ -TRANSFER
6 f-- .. +17V
4 - RESET
II - SCAN
0216
R286680
AMPLIFIERS
+13.5V
C226.0~)5
R2841000
c2251.0047 """
R28222K
R285 : R2872.2K • 680
:::~C222100
60.uS DELAY MV
).R277 R280680. C223
2700 .0~~77r
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4.:7K
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'---+---+---4..---1~-~~,:",:::":,,::,,:,,,,--a
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• R267~ 10K
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.--
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R266 • R268 R270 .... C215 R276 R27910K 1800 33K 'r- 470PF 18K CR220~ 750
L201IMH
.( R265~ 10K
2 MS DELAY MV
0211
R26310K
;CAN R244 R253 R255 R259ITT 560 -;~CR216 15K • 560 CLUTCH 10K
BINARY
.-R245 "AND" R2564700 560
AMPLIFIER GATE
0206O~
0209
~~2 R254 WlO 1000
~ ~0208
~ CJR25115K
R252HCR217
15K
CR218 ~
R246 • R250 R257 R258 R2604700 1000 1000 47 /800
~25V
/
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11'~5Vwo.. -:- ..:.. ... ~------------....J12 _REC.SW.
5 f--++IOV
COPYRIGHT 1961 BY HEWLETT.PACKARD COMPANY
This drawing is intended for the operationand maintenance of Hewlett·Packard equip.ment and is not to be used otherwise orreproduced without written consent of theHewlett.Packard Company. 562A CTRL.BRD.-T-12IB
NOTES
I. UNLESS OTHERWISE STATED,RESISTANCEIS IN OHMS, CAPACITY IS IN MICRO - FARADS
2. PIN NUMBER @OF P207 6 P208 USES THEFRONT 6 REAR CONTACT. WHEN THE CONNECTORIS ATTACHED TO THE BOARD, THE BINARY ISBALANCED.
REFERENCE DESIGNATORS
C201- 212, C214,215,221- 226CR201-210,216-220L201P207- 208JI30201 - 216R201- 222,227-246
250-271,275-288'
~
XAI".I
Figure 5-5Control Board
5-13/5-14
Model 562A Section VFigure 5-6
oI
'0S6 I
>PINI2 r-IC~A-L1~B--R-AT""E"'1 : 0-
10PERATEI -o-l.oIZERol
55A 558 S5C' S5D S5A S5B S5C S5D S5A S5B SSC 5SD
ol 0-1 oJ oJ cr- XAI-2' cr- XAI-2' 0- XAI-2' 0- XAI-2 " cr- XA2-2" cr- XA2-2" 0- XA2-2" 0- XA2-2"
cr- XAI-2 0- XAI-2 I 0- XAI-2 0- XAI-2 0- XA2-2 cr- XA2-2 0- XA2-2 0- XA2-2 0- XA3-2 0- XA3-2 0- XA3-2 0- XA3-20- XA2-2 0- XA2-2 0- XA2-2 0- XA2-2 0- XA3-2 0- XA3-2 0- XA3- 2 0- XA3-2 0- XA4-2 0- XA4-2 cr- XA4-2 0- XA4-2
0- XA3-2 cr-XA3-2 o-XA3-2 o-XA3-2 0- XA4-2 PINIScr- XA4-2 >PINI40-XA4-2 >PINI30-XA4-2 PINI20- XA5-2 PIN ISO- XAS-2 >PINI4cr- XAS-2 >PINI30- XA5-20- XA4-2 PINISo- XA4-2 >PINI40- XA4-2 >PINI30- XA4-2 >PIN 120- XAS-2 0- XAS-2 0- XAS-2 0- XAS-2 0- XA6-2 cr- XA6-2 0- XA6-2 0- XA6-2
0- XAS-2 0- XAS-2J 0- XAS-2 0- XAS-2 0- XA6-2 0- XA6-2 0- XA6-2 0- XA6-2 0- XA7-2 0- XA7-2 0- XA7-2 0- XA7-20- XA6-2 0- XA6-2 0- XA6-2 0- XA6-2 0- XA7-2 0- XA7-2 0- XA7-2 0- XA7-2 ~ XA8-2 0- XA8-2 0- XA8-2 ~ XA8-2
XAI4_~~_XA=2_F:-~_F:7: -F ~A~-~ -F_XA_~-~-F~:-~ -F~A:~F~A:2_-F~:2~ FX:-~ ~F~A:2~-r XA9-2I 9 10 II 12 S 6 7 8 I 2 3 4 IS 13 14 I
IA 15~
13
~. CR426 j~ CR427
7I
+- 9V
ANALOG CKTY 1224 CODE T161A
COPYRIGHT 1961 BY HEWLETT - PACkARD COMPANY
R457IK
R455* R456• 56K
-9V+-...------...
*R453 R45433K
~+17V
~~ CR425
It
+17V
14
)
12
R452lOOK
3
IGALVANOMETER I/ < RECORDER
/ > PART OF t> <;>c/ L--...J J31 J31 /1
~ - - - - - - - - - - - - - _/
BALANCED DC AMPLIFIER
15 10
R445 R4502.7K 2.7K
- 9 V ....- ......-----+---------,
-- .....-----4
0405 Q 406
~ ~r;; ~..... .....~ CJ Q407
CR423 CR424
~+17V
R451
Il10K
R44410K
R492.7K
_ R4402K
R4383.9K
R441 R442 R4432.7K 6.2K 1.2K
'* +17V
II
IGALV. ZERO I
RI22K
DIFFERENTIALAMPLIFIER
R406 R408 R410 R41222K 22K 22K 22K
R427*
* * ,* *R407 R40 R411 R413 : R41S R417 R419 R425
1M 2M 2M 4M • 3K 6.2K 6.2K 12K R428123K
R414 R416 R418 R420 R426 REFERENCE DESIGNATORS900K 300K 600K 600K 1.2M
C401-406
CR402 A~ CR404]r CR406~~ CR408~~ CR410~~ CR412~. CR414 ~~ A~CR416 CR401-416,420-427
'~CR401,~R4IS
J 14, 31,34,35~~CR403 ~[CR40S ~~CR407 ~~CR409 ~'CR411 ~~CR413 ..... ~ 0401- 407
RIIA, IIB,I2, R401-420
.. 42S- 428, 430-445450 - 457
S5A - 50, S6
R40520M
R437560
0403
~
R4044.7M
+II V
R4032.4M
J(CR421
r--... * R436~ \ 3.3K
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1-if--+----+---......--'\II\I'Ir----+-----.
0402 ::!.J
+17V
SERI ES REGULATOR
R4342K
R43133.2K
R43033.2K
R43333.2K
R43233.2K
R42933.2K
2
R4022.4M
4
R4011.2M
R43516M
.,"C401
.05
II'
C~02.05
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C403.05
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If
C~05
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I 9
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01081-1 Figure 5-6. Analog Circuitry 5-15/5-16
Model 562A
,-------------RI66
JIOIOR
J20 I
"I" LEVEL
"0" LEVEL
ALL MATRIX RESISTORS. INSIDE DASHED RI72 RI84 T RI92 TLINES ARE 33K, 1/4W! 5"10 RI67
EXCEPT RI78 T RI85 T RI93 TRI64, RI65, RI66, RI67, R172. RI77, RI78, RI83 RI68RI84, RI85, RI86 ,R187, R192. RI93, R194, RI95
~~7.3 T IWHICH ARE 47K,I/4W ! 5"10 RI88RI69
I I3L7.9 T ':<~t1~ TRI70
RI74~RI71
RI80 T ~RI60.
R18} T ~RI61
RI75 RI'
RI62~
RI82 T RI90 TRI63
RI76 RI91 TRI64
RI83 T RI86 T RI94 TRI65
RI77 RI~7 T RI95 TL ----- ---- --- ---- --- -------------- - --- - ------ -- ---- --- --- ---- -----
RI04 A BINARY RI07 RII3B BINARY
RII6 RI27C BINARY
RI30 RI36 D BINARY RI392.4K 2.4K 2.4K 2.4K 2.4K 2.4K 2.4K 2.4K
RI05 0101 0102 • RI08 RI14 0103 0104 • RII7 RI28 0105 0106 : RI31 RI37 0107 0108 RI4018K 18K18K 18K 18K 18K 8K 18Kr- RIOI CI02 CI04 CI06 CI08
1 22K CRIOI .0,17 CRI02 '~17 CR..!.03 .~'7 CR.!.24 .Oj76
~
1\ 1\ 1\ /,
• • • •;;:,,~gl RI02 RI03 RJ06 RI09 Rill RI12 RII8 RI20 RI26 RI32 RI34 RI35 RI38 RI41270K 10K 10K 10K 270K 10K 10K 270K 10K 10K 270K 10K 10K 10K
2 RII55 .. 10K
RIIO ~;::CI03 RI2922K .001 RI19 10K
4 22K4
< '" ~.'6gI5 RI338 '22K
3
-REF.2
+REF.1 ,~~gr
'--P101-P1I2
IRI42 147
~
COPYRIGHT 1961 BY HEWLETT.PACKARD COMPANY
This drawing is intended for the operationand maintenance of Hewlett.Packard equip·ment and is not to be used otherwise orreproduced without written consent of theHewlett·Packard Company. 562A (-1248 CODE) CLM BRD- T- 121A
01081-1
Section VFigure 5-7
REFERENCEDESIGNATORS
C101-108CRIOI - CRI07JI-~J12.J21-J32
P101-P1120101-111RI01-120. 126 -152
I.
NOTE:
UNLESS OTHERWISE STATEDCAPACITY IN J,JF. RESISTANCEIN OHMS.
2. (.) INDICATES TRANSISTORRESET TO OFF STATE.
TOANALOG SWITCH(OPTIONAL)
- SCAN
_ TO PAWLMAGNET
- -35V
- +TRANSFER
- RESET
- -9V
- +IOV
- -TRANSFER
- +17V
...---1--"
3RI84 T RI92 T
! 4 3RI78 T RI85 T RI93 T
5 5
RI88 T6
7~L7.9 T ~~lt9 T
7 9
RI96 T. -RI80 T RI97 T
8
100 >- TO PI-PI2
R18} T RI98 TII
8RI99 r
126
RI82 T RI90 T13
4
RI91 T
142
RI83 T RI86 T RI94 T15
0
RI~.7 T RI95 T9- --------------- -- ---- -- ---- ---- ------- _...J
RI44 r \AI -I -'TOxA,I2-1 --'220K
RI27C BINARY
RI30 RI36 o BINARY RI39 -3 n2.4K 2.4K 2.4K 2.4K RI45
2.2K RI52
- 820
"'CRI05 9 ~
RI28 0105 0106 RI31 RI37 0107 0108 RI40 010818K 18K8K 18K rv AMPLIFIERCI06 CI08CR.!..03 .q'7 C~.!..04 .Oj7 CR'.27
8 -" J'I
~...
• • 0110
RI20 • ,R126 RI32 RI34 RI35 RI38 RI41 tVAMPLIFIER
270K 10K 10K 270K 10K 10K 10K - 0111,/
~AMPLIFIER..
RI29 rv9 10KK
j~CR106 RI43 RI46~390K 22K RI47
.. ,~gp 1000RI33'22K
5 ~~25V ~
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RI42 RI5147 22K
_......
12RI5022K 13 r--
RI4922K >14 r--
RI4822K
15 r---XAI-2 TO XA12-2
Figure 5-7-1248 Code Column Board
5-17/5-18
Model 562A
rr= --R'i65 -------------- -- -- ---------- -- ------ -- ---------- - ---- ----------------------------------""" T TRI78 RI84RI64
RI72 T RI85 TRI60
RI61RI79 T RI88 i
RI62RI73 T RI89 T
RI80 T RI96 TRI63
RI74 T RI97 TRI71
RI75 T RI98 TRI70 -
ALL MATRIX RESISTORS, INSIDE DASHED RI81 T RI99 TLINE ARE 33 K, 1/4 W. ± 5 % RI69 -EXCEPT:
T TR164,R165,R166,R167, RI72,RI77, RI78, RI83 RI76 RI90RI84,RI85, RI86,RI87, RI92,RI93, R194,R195 RI68WHICH ARE 47K,II4 W,±5%
RI82 T RI91 TRI67
RI77 T RI86 TRI66
L RI83 T RI87 T-._------------------- -------------------------- - ----- ------------------- --------------------------
RI04 RI07 RI13 RII6 RI27 RI30 RI36 RI392.4K A BINARY 2.4K 2.4K B BINARY 2.4K 2.4K C BINARY 2.4K 2.4K D BINARY 2.4K
RI05 0101 0102 RI08 RII4 0103 0104 RI17 RI28 RI31 RI370107 0108
RI4018K 0105 0106 18K 18K 18K
18K 18K 18K 18K,...-
RIOI"I" 22K CR.!.OI
"C'!'02
IICR'33
"CR~4
II6 ... '" ~I
CI04f""" 7f ...
"CI02 • CI06 CI080.047 Rill 0.047 • 0.047 • 0.047 •o?Jgl~~ RI02 RI03 RI06 RI09 270K RII8 RI20 RI32 RI34
270K 10K 10K 10K RI12 10K 270K RI26 10K 270K RI35 RI38 RI41
"2 "RIIO 10K 10K 10K 10K 10K22K
5 RI15
"4 1•
'0 ;; ~8~g~, 10K RII9 RI2922K 10K'4
~" e" ~..,gg61 RI33
22K3
EL -REF "1'gl.gb,2
VE~+ REF
1
'--P101-PII2
HT 1961 BY HEWLETT.PACKARD COMPANY
• drawing i. intended for the operationmaintenance of Hewlett·Packard equip.
nt and i. not to be u.ed otherwi.e orroduced without written con.ent of the RI42 Twlett·Packard Company. 47A, +1248 CODE ClM 8RO T121A
"0" LEV
"I" LE
COPYRIG
ThiandmerepHe562
TO JIOIOR J201
01081-1
Section VFigure 5-8
REFERENCEDESIGNATORS
C101-C108CRIOI - CRI07JI-JI2,J21-J32P101-P1120101-0111RI01-RI20,RI26-RI43,R145-R152, RI60 -R195
TO ANALOG SWITCH (OPTIONAL)
TRANSISTORATE.
E STATED,S,CAPACITY
+--- -35 V
+--- - TRANSFER
----+TO PAWLMAGNET
+---+ TRANSFER
+---SCAN
+--- -9V
+---RESET
+---+ 17 V
~+IOV
---~--------------------------I - ......
T T T :3 ~I
RI78 RI84 RI92NOTES
1 T I4 ~3
UNLESS OTHERWISRI85 RI93 I.RESISTANCE IN OHM
5 ~5 IN UF.RI79 T RI88 T i 6 1---7 2. (.l
TINDICATES
RI89 I RESET TO OFF ST
1 T7 ~9
RI80 RI96
8 1----RI97 T I I 10 -CJ TO PI-PI2RI98 T I :
T T III -8
RI81 RI99
12 -6RI90 T I 13 -4
RI82 T RI91 T IT T
14 -2RI86 RI94
15 -0
RI83 T RI87 T RI95 T I9 ------ ----- --------------- ---- --------------------- ----~~ T -XAI-I TO XAI2-1
RI44RI30 RI36 RI39 R145~ 220K
RI52RI27C BINARY 2.4K 2.4K D BINARY 2.4K 2.2K
2.4K 820 ....-----
- 3~
RI31 RI37 RI40 I.. ,. CRI05
RI28 0107 0108 - AMPLIFIER 9 r---0105 0106 18K 18K 18K18K 0109
C~~3 CR~~4I ....
8 to--
" II ,......I ..... , II""l " ~
CRI07CI06 CI08 AMPLIFIER0.047 • 0.047 •RI20 RI32 RI34 0110
270K RI26 10K 270K RI35 RI38 RI4110K 10K 10K 10K RI43
CRI06~~ 390K
~AMPLIFIER
01113 RI29
I RI46( 10K 22K....-l ..::~gg81 RI33
RI47
22K1000
5 -;~gl.gbl
~25V,II -
I
I7 -
~5V
II -
~3V,2 ~
~12V,4 ~
6 -RI42 I47 RI5122K --.."'"12
RI50t 22KI
13 --..RI49 >-22K
14 ----..RI4822K --..
I15
- ./XAI-2 TO XA12-2
Figure 5-8+1248 Code Column Board
5-19/5-20
Model 562A
~-------------------------------------------I RI66
RI72 I RI88 IRI67
RI76 I RI80 IRI68
RIB4 I RIB9 IRI69
ALL MATRIX RESISTORS,INSIDE DASHED LINESRIB T RIB5 TARE 33K, 1/4W. ±5010
RI70
.. RI77 IRI71
RI81 TRI60
RIB2 IRI61
RI7B TRI62
RI74 T RIB6 TRI63
RIB7 T RI90 IRI64
RI79 T RI83 TRI65
RI75 T RI91 TL 1-------------------- -------~--------------------------- ------------------,- ------ -------------. -
RI04 RI07 RI13 RII6 RI27 RI30 RI362.4K A BI NARY 2.4K 2.4K B BINARY 2.4K 2.4K C BINARY 2.4K 2.4K D BI NARY
0101 0102RI14 0103 0104 RI17
0105 0106RI31
0107 0RI05 RI03 RI28 RI37
18K 18K 18K 18K IBK 18K IBKr- RIOI
C~IOI CRI02 CRI03 CRI04Ill" 22K"
..., ., ... 1 ., I ..... I'6p
CI102
... d04 .. 1\ ~ 1\
• CI06 CIOB •0.047 0.047 • 0.047 • 0.047.,;;~g~gbl
RI02 RI03 RI06 RI09 Rill RI12 RI15 RIIB RI20 RI26 RI32 RI34 RI35 RI3B-. 270K 10K 10K 10K 270K 10K 10K 10K 270K 10K 10K 270K 10K 10K
"2"5
RIIO;; ~g~g51 RI19 RI29"," 22K
22K 10K4
I+<;; ,g~851 RI33
t "4" 22K3
L -REF2
L + REF1 *g~gbl
'--P101-P112
~
R
COPYRIGHT 1961 BY HEWlm·PACKARD COMPANY
This drawing is intended For the operationand maintenance of Hewlett-Packard equip-ment and Is not to be u.ed otherwi.e orreproduced without written con.ent of theHewlett-Packard Company.562A, -1224CODE CLlI!. BRO. T121A
J 10OR
J20
"I"LEVE
"0" LEVE
01081-1
Section VFigure 5-9
REFERENCEDESIGNATORS
STATED,S,CAPACITY
TO ANALOG SWITCH (OPTIONAL)
RANSISTORATE
---+ TO PAWLMAGNET
~-35V
~+IOV
~SCAN CIOI-CloeJI-JI2,J21-J32
~-9V PIOI- PI120101-0111
~ - TRANSFER RIOI- R120, R126-R143R145-R152, RIGO-RI95
~ +TRANSFER CR101-CR107
~RESET
~+17V
----------------------------I--l r---
""\ 3 I
RI88 J I NOTEI 4 3
T I II. UNLESS OTHERWISERI76 RI80
RESISTANCE IN OHM5 5 IN UFo
I I I
I 2.(.) INDICATES TRI84 RI89
6 7RESET TO OFF ST
RI85 I :7 9
RI77 1 RI92 T i8 -
RI81 T RI93 I ! 10 CJ TO PI-PI2
RI82 I RI94 T : II 8RI78 T RI95 T i 12 6
RI86 T I. 13 4RI87 T RI90 I l 14 2
RI79 T RI83 T i 15 0RI91 T I
I 9.-1------- - ----------_.- ------ -----------------_. - 1--'--- I-----' .-"----
XAI-I TO XAI2-1
r---
RI27 RI30 RI36 RI39 3~2.4K C BINARY 2.4K 2.4K D BI NARY 2.4K
RI44 RI512.2K 820-
~'CRI05 9 -0105 0106 0107 0108
RI40 AMPLI FI ERRI28 RI31 RI3718K 18K 18K 18K I
f?0109
CRI03 I CRI04 CR~7... I' .... II' 8 -...d06
~ ",....
CI08 • AMPLIFIER0.047 • 0.047RI20 RI26 RI32 RI34 RI35 RI38 RI41 RI43 0110
270K 10K 10K 270K 10K 10K 10K 390K
CRI06 r- AMPLIFIER~~
t? 01119 RI29K 10K
;~g~8gl RI33 RI4522K RI4622K
1000
5 I---~5V
~ II I---
*g~gbl 7 to--
~VI I---
~V~ 2 ~
4 -~2V
I 6 -RI42 RI5047 22K
~""12
RI4922K
~13
RI48 >22K
f-----.14RI4722K
15 -----. ""'--
XAI-2 TO XA12-2 Figure 5-9
-1224 Code Column Board
5-21/5-22
lY10del 562A
r-------------------------------------------------------.I RI60
RI76 T T RI92RI61
RI72 T RI84 TRI62
RI80 T T RI93,:?163
RI77 T RI81 IRI64
RI73 T RI88 TRI65
RI85 T RI89 TRI66
RI86 T RI90 TRI67
RI74 T RI91 TRI68
ALL MATRIX RESISTORS, INSIDE
T TDASHED LINES ARE 33K, 1/4 ± 5% RI78 RI82RI69 -
RI83 T T RI94RI70
RI75 1 RI87 1RI71
RI79 T T RI95
L ~---------------1-----1-------------------1--------------------------------
RI04 RI07 RI13 RI16 RI27 RI30 RI36 R13!2.4K
A BINARY2.4K 2.4K B BI NARY 2.4K 2.4K C BINARY 2.4K 2.4K D BINARY 2.41
RI05 0101 0102 RI08 0103 0104RII7 0105 0106
RI31 RI37 )- 0107 0108 RI4118K 18K RII4 RI28 18K )- 18K18K 18K 18K 18K
- RIOI CRIOI ~R~02 CRI03 CRI04"I" 22K I ... " " ... , .. , I'6 -. .... 71 T""It 7r f"'IIII /I "'1 1\CI02 CI04
RI20CI06 CIOS
0.047 • Rill 0.047 • RII8 0.047 • 0.047 •~~g~gblRI02 RI03 270K 10K 270K270K 10K RI09 RI26 RI32 RI34 RI35 RI38 RI4110K RII2... RI06 RIIO 10K 10K 10K 270K 10K 10K 10K
tl 2" 10K 22K5 RII5
..... ~CI03 10K RI19 RI29----< "2 " ..;; 0.001 ??K 10K4 I
~~g~g61 RI33"4" 22K
3
EVEL - REF
;;~g~g~12
EVEL + REFI
'---PIOI- PII2
RIGHT 1961 IY HEWLETT.I'ACKARD COMPANY
Thil drawing il intended for the operationand maintenance of Hewlett·Packard equip.ment and il not to be uled otherwile orreproduced without written con lent of the
RI42Hewlett·Packard Company. 47562A,+1224 CODE ClM BRD T121A
COI'Y
J 101OR
J201
01081-1
Section VFigure 5-10
REFERENCEDESIGNATORS
CIOI- cloeJI-JI2,J21-J32P101-P1I2QIOI-OIIIRIOI- R120, RI26-RI43.RI45-RI52, R160-R195CR101-CR107
NSISTORE.
ATED,APACITY
TOALOG SWITCHOPTIONAL)
TO PAWLMAGNET
+IOV
-9V
-TRANSFER
SCAN
-35V
RESET
+TRANSFER
+17V
------------------------------------------l r---- ..... NOTES
T T3 ~I
RI76 RI92II I. UNLESS OTHERWISE ST
" 4 fo-3RESISTANCE IN OHMS,C
T\
T :IN Ufo
RI72 RI842. ( ) INDICATES TRA
T T i5 ------- 5 RESET TO OFF STAT
RI80 RI93
-7
T T !6
RI77 RI81
7 -9RI73 1 RI88 T l
8 --~
T TRI85 RI89 I10 -0 >TOPI-PI2
RI86 1 RI90 1f:
II -8RI74 T RI91 T 'i
T T
"
12 -6RI78 RI82
13 fo-4RI83 T T RI94
II 14~2
RI75 r RI87 1 IT T RI95 J
15~oRI79
9~- ----------------- ---------------------------_.-'--- .."I
RI45XAI-I TO XAI2-1
RI13 ~R116 RI27 RI30 RI36 RI39 2.2K -2.4K B BI NARY >2.4K 2.4K C BINARY 2.4K 2.4K D BINARY 2.4K 3
-4:-RI52820
~~ CRI059
RI140103 0104
RI17 0105 0106RI31 RI37 0107 0108 RI40 AMPLIFIERRI28 18K 18K18K 18K 18K 18K
tV0109
)2 CRI03 CRI04, ... , ~I If ,...81----.II I .... .II .... , 1\
~,.....
CI04R120-
CI06 CI08 AMPLIFIER CRI070.047 • RII8 0.047 • 0.047 •10K 270K
/ fV'0110
RII2 RI26 RI32 RI34 RI35 RI38 RI41 RI4310K '" 10K 10K 270K 10K 10K 10K 390K
CRI06~~ AMPLIFIERRII5 W 011110K RII9 RI29 RI46
22K 10K 22K
'~g~g61 RI33: RI47
22K~ 1000
5 --~5V
" II--;;1r-gg617--
~V1--
~V
" 2 --~2V,
4 --6 --RI42 I47
RI51I 22K ....
I12 r--
RI5013 r---
RI49 22K22K
14 f---- ~ ANRI48 (22K
15 r----XAI-2 TO XA12-2 Figure 5-10
+1224 Code Column Board
5-23/5-24
,..-------------WARRANTY-----------~
All our products are warranted against defects in materials and workmanship for one year fromthe date of shipment. Our obligation is limited to repairing or replacing products (except tubes)which prove to be defective during the warranty period. We are not liable for consequentialdamages.
For assistance of any kind, including help with instruments under warranty, contact your authorized ~
Sales Representative for instructions. Give full details of. the difficulty and include the instrument modeland serial numbers. Service data or shipping instructions will be promptly sent to you. There will be nocharge for repair of instruments under warranty, except transportation charges. Estimates of charges fornon-warranty or other service work will always be supplied, if requested, before work .begins.
CLAIM FOR DAMAGE IN SHIPMENT
Your instrument should be inspected and tested as soon as it is received. The instrument is insured forsafe delivery. If the instrument is damaged in any way or fails to operate properly, file a claim with thecarrier or, if insured separately, with the insurance company.
SHIPPING
On receipt of shipping instructions, forward the instrument prepaid to the destination indicated. You mayuse the original shipping carton or any strong container. Wrap the instrument in heavy paper or a plasticbag and surround it with three or four inches of shock-absorbing material to cushion it firmly and preventmovement inside the container.
GENERAL
Your authorized ~ Sales Representative is ready to assist you in any situation, and you are always welcome to get directly in touch with Hewlett-Packard service departments:
00390-1
CUSTOMER SERVICE
Hewlett-Packard Company395 Page Mill RoadPalo Alto. California, U.S.A.Telephone: DAvenport 6-1755
Direct Dial Area Code 415TWX No. PAL AL 117-UCable: "HEWPACK"
OR (In Western Europe)
Hewlett-Packard S.A.Rue du Vieux Billard No.1Geneva. SwitzerlandTelephone: (022) 26. 43. 36Cable: "HEWPACKSA"
r!jJ MANUAL CHANGESMODEL 562A
DIGITAL RECORDER
Serials Prefixed: 134Manual Printed: 9/61
The following changes adapt this manual to instruments having the serial prefixes listed below:(Ch. =If = Change Number; Sere Pre. = Serial Prefix)
Ch. =If Ser. Pre. New Data
.1
,.
1
2
3
4
134-
134-
134-
134-
On the Column Board schematics,The scan signal should be a negative going 25 volt signal.
Resistors RI06, 109, 115, 118, 129, 132, 138, and 141 have been changed to 4.7K.
Change R142 to 22 ohms.
On the Control Board, (Figure 5-5)R221 should read 68 oluns.
R222 should read 68 oluns.
R279 should read 560 ohms.
Resistor R287 should return to the reset line instead of the + 17 volt line.
On the Wiring and Power Supply diagram (Figure 5-3),Delete Fuse Fl. Fuse Fl should be in the line coming from the upper half of the ACpower plug.
P301 and 302 should have the reference voltages applied to pins 1 and 2 instead of pins3 and 4.
R303 should be changed to 100 ohms.
On the Analog Circuitry schematic (Figure 5-6),C406: Capacitor, 0.05 uf, should be added from the junction of R433-434 to ground.
Change C406 to C407.
The 2. 4V breakdown diode should have the reference designator CR422.
J501: The wires from pins 17 and 18 should be reversed.
Change R40 to R409.
Change R49 to R439.
R349 should be changed to 1. 8K.
R434 should be changed to 2. 5K.
R442 should be changed to 6.8K.
R446: Resistor, 470 ohms, should be added from -9 V to ground on the analog board.
Change R415 to R415A and R416 to R415B.Total resistance of both resistors is factory adjusted to 303K.
Change R417 to R417A and R418 to R417B.Total resistance of both resistors is factory adjusted to 606K.
Change R419 to R419A and R420 to R419B.Total resistance of both resistors is factory adjusted to 606K.
Change R425 to R425A and R426 to R425B.Total resistance of both resistors is factory adjusted to 1.212 megoluns.
On all sections of S5,Change pin 15 to 12, 14 to !.t 13 to !1, and 12 to 15.
11/8/61
~ Manual Changes Model 562A Page 2
Ch. # Sere Pre. New Data
5 134- Addition to text:At the rear of the recorder, an interlock switch, S2, has been installed. When theback of the recorder is removed, fan motor B1 stops.
6 147- This manual applies with the above changes.
•
12/15/61 - 5G2A11/8/61 562A
,OPERATING AND SERVICING MANUAL
FOR
SPECIFIC TION H19-562A/AR
DIGIT L RECORDER
Specific tion H19, >562 I is simi! r to the s nd r odel 562 / ARDigit: I Recor ero This speci 1 instrument has be n nlodifi s followso
10 The twelfth column cover in the Oper ting nd Service M nual forthe 562 / AR has been ed to this instrumento
2 0 Speci I print wheels h ve been ins led in columns eight n nine o
The columns re numbered from ri ht to ef when f cing frontof the instrumen 0 The ch r cters on th print wheel re shown inthe followi ble Ion with s nd r wheel for ref renc purposes o
PRI T WHEEL CHAR CTERS
13579 - 864203579 +86420CEGI KLHFDBJ
13579 - 86420
COLUMN NUMBER ~STOCK NUMB
562 -95B562 -83E -1713562 =83E 1707562 -95B
Encl:562APrinto Mecho
1 c mn
m 362
HEWLETT-PACKARD COMPANY 1501 PAGE M~L ROAD PALO ALTO CALIF. U.S.A.
SP CI L AR S 'OR 12-C LU . I T .t.C I M -
The following chan es ve been made i the t lYe-col nprinter mechanism in this special in rument. These chan esapply to the Re aceable Iarts Tables and their associated 'illustrations in th Operating and Service Manual for thePrinter echanism.
Fa e 5-101
2
3thru10
11
1214
D
Wheel bank, completet, pri t heel shaft
No cha ~e in descriptionor Stock No.; increaseuantity to t elve.
Shaft print wheelas er, shouldered
asher, s ring retaini g
(p STOCK NO.
t Special
561A-57A
561 -37B561 -8aA561A-88B
T *
1
1
12
1
1
1
RS*
1
o
o1
1
Fage 5-1223 o cha ge in description
or Stock 0.; increasequantity to fourteen.
Fa e 5-14 ------14 Print bar 56lA-I07A
14
1
2
2
1
1
o1
o
1
1
1
1
1
12
t Special
t pecial
561 -12A561 -107Bt P cial
2
34
7
5, 6
Fage 5-201 wI agnet assembly,
com leteMa net adjust plate
Iawl- older barawl assembly (rivited
assembly includi g flatspring, 12 armatures,and 12 pa Is).
o change n descriptionor Stock 0.; increasequantity to twelve.agne frame subassembly
(includes yokes and cores)
· t Special items do not have an ~stock number. To obtaireplacements, order by description and instrum nt modelnumber.
• See introduction to SieTrON V in he 0 eratin andService anual for the Prin ec anism.
l,.