HP 8005B Pulse Generator
Contents
1. OUTPUT t4 3 H i i RI Ru RIS 8 2 250 100 595 i i n 7 25 824 R25 I 160 510 i i i i I i A2 DC Otfset 58 A3 Attenuator Vernier 25V 25 8 15 Model 80058 Service AD BD POWER SUPPLY 08005 66512 93 Gta 8 Gd Sly lt 6 9 lt 3 883 Hy e 86 ola 79 ESO di 3 AGC DN o 189 Go 924 924 947 947 e d SH ENI 6H2 8 6 Model 80058 BOARD A5 POWER 9 0 2 POWER CABLE USA WHITE 230 LINE FILTER SELECTOR bs SOCKET 19 0 2 2 25V 25 25V c2 7 25V 49 10 9 I 1 5 Model 80058 Backdating SECTION IX BACKDATING SERIAL NUMBERS 1341G00330 AND BELOW SERIAL NUMBERS 134100331 TO 550 Substitute Service Sheets 1 4 5 and layouts A2 A3 Substitute A3 layout on page 9 8 Delete the following page 9 6 and AG Delete the following components components A2 A1CR23 Service Sheet 2 42 72 Service Sheet 6 A3 C35 Service Sheet 5 3 R125 see 029 A3 C35 A3 C34 fitted SERIAL NUMBERS 1341G 00730 AND BELOW but 82pF Service Sheet 6 A2 C3 A2 C4 Substitute2. a eee ate Bead ON NORM COMPE 28 1 CAE 14 diet Rs e NORM 2 Press the MAN 11 push button Check that only one pulse is generated for each depression of the MAN button Check that no pulse occurs when the button is released Performance Tests Model 8005B PERFORMANCE TESTS 5 12 Pulse Width SPECIFICATION gt 25ns to 3s in five ranges Vernier provides continuous adjustment within each range SAMPLING OSCILLO SCOPE 80058 PULSE GENERATOR TRIG 229 20 EXT TRIG O 1250 7 50N TERMINATION 849tA n 1 1250 0780 3 10503A Fast Ranges PROCEDURE 1 Set the 80058 controls as follows VERNIERG vais eas TRANSITION TIME7 OFFSET VERNIER8 OFFSET SWITCH9 MAN PULSE MODE 12 OPER MODE 13 LEADING EDGE 14 TRAILING EDGE 15 AMPLITUDE VERNIER 16 AMPLITUDE RANGE 17 AMPLITUDE VERNIER 18 INT LOAD ui a OSCILLOSCOPE 80058 PULSE GENERATOR TRIG 7 2 9 XQ 59 500 TERMINATION Slow Ranges 5 4 9 VOR 4 4 9 8 6
3. XD CAPACITOR FXD CAPACITORSF XD CAPACITORSF XD CAPACITOR FXD 39PF 25 3000 0 8 MICA 1UF 10X 35 06 TA 5600PF 10 25001 606 MET 82UF e10 160 8 6 MET 6 8 0 35 TA 220UF 10 1010 TA O1UF 60 20X 00 6 CER 1UF 10 35 0 TA 22PF 500 06 MICA 1UF e10 3SVDC TA IEF 2 50 POLYE CAPACITOReV TRMReCER 9 35PF 200V PCeMTG CAPACITOR FXD CAPACITOR F XD CAPACITOR E XD 11 XD CAPACITOR F XD CAPACITORSF XD CAPACITORSFXO CAPACITORSF XD CAPACTTOR F XD CAPACITOReF XD 100UF 10 10106 YA 3 3UF 10 509 TA gt 0 160 VDC MET 3300PF 10 250wvDC MET 12PF 55 5000 06 MICA 27PF en5 300 06 MICA iUF 20 SOWVDC POLYE JUF f0 35VDC TA OLUF 80 20 1004VDC CER 22PF 5 5000 00 MICA CAPACITOR Y TRMReCER 9 35PF 200 PCeMTG CAPACITORSFXD CAPACITOR FXD CAPACITOR FXD 6 1708 CAPACITOR FXD CAPACITOR FXD CAPACITOR F XD CAPACITOR F XD 61108 0 08 6 CAPACITOR FXD 1108 CAPACITOR FXD CAPACITORSE XD CAPACITORSF XD CAPACITOR F XD 100PF 45 3008 0 MICA 12PF 5 5000 MICA 10 2 508 06 POLYE 508 0 POLYE 201 10 tUFe tO 35 06 TA 100UF 10X 0 6 TA 3 3UF4 10 SOVDC TA UF 160WVDC MET 3300 10 2500 067 1UF w10 55 00 TA 12087 300WVDC MICA 50
4. SS AS GAR RI TE EROS Ste eed te d RW nk or e deor T AA A A VERNIER 2 as ee AE UNS RUN AES A AAA AN Vac PULSE DELAY Qc e VERNIER d ey wa I PULSEWIDTHIS u e E VOR ux UA VERNIER O a attestent Re RENDIR IERANSITIONSEIME Z 2 7 are re CW neue os OFFSET VERNIER B E AN SA OFF OFFSET SWITCH 9 Guau col paint DA Wiebe Sr RR Tag sa cw OFFSET VERNIER 1 ol e a ae Se ete e Sse MAN 11 NORM PULSE MODE TAS nk a nu aqp te ei en a aie i EN eg NORM ak M OPER MODE 15 Dro cine lO lu ANDR e Pepa 7 2 14 BEADING EDGE gg E SE A FRAILINGEDGE 15 isc a 370 CCW AMPLITUDE VERNIER 16 s bee 2 5V 1 25
5. 1 REP RATE Hz Rotary switch selects the upper limit of the repetition rate and selects external triggering or manual triggering See note 1 2 REP RATE VERNIER Provides fine control of internal repe tition rate Counter clockwise rotation of the control reduces the frequency 3 DELAY s Rotary switch selects the lower limit of the range of pulse delays with respect to the trigger output See note 1 4 DELAY VERNIER Provides fine control of the pulse delay Clockwise rotation of the control increases the delay 5 PULSE WIDTH Rotary switch selects the lower limit of the range of pulse widths See note 1 6 PULSE WIDTH VERNIER Provides fine control of the pulse width Clockwise rotation of the control increases the width 7 TRANSITIGN TIME Rotary switch selects the lower limit of the range of both rise and fall times 8 OFFSET vernier For adjustment of the positive pulse output base tine 9 OFFSET ON OFF Two switches one for each output to turn on or off the de baseline offset voltage 10 OFFSET vernier for adjustment of the negative pulse output baseline 11 MAN Push button when pressed causes one pulse to be gene rated when the REP RATE switch is in the EXT MAN position 12 PULSE MODE Three position switch for selecting normal square wave or double pulse operation 13 OPER MODE Three position switch for selecting synchronised gating asynchronised gating or
6. 11 22 5 883 2 gt 9 Y ER 818 e L 66 8 S ZZ en OUTPUT AMPLITUDE 8 10 Model 8005B LEADING EDGE P O A2 08005 66509 1 el js CR14 CR15 2V cm NORM l 0 05us cm 16A 25 COMPL i 25 6 CR14 CR15 SEE SERVICE i SHEET 6 Y 0 054s cm Pl 1V CR 5 TRAILING 946 945 P 0 A3 08005 66510 NOTE THIS PART OF 0558 558 ALSO APPEARS ON 16B mt C5 R26 L2 Ets 200 1 25V R24 17A CR 14 NORM CR9 CR 12063 5 5 11 v 6810 5 R29 CR12 CR13 BO 52 75K 2 ge MR D 0 05usfcm eJ 45 i GENERATOR 1 259 ie C a 10n l PHASE 19 Bp Ze GE SQUARE WAVE SELECTOR 10n 4 5V Q31C Q9C 1V em 2V em NORM COMPL 0 05us em 1V 0 05us em 10V 15 PULSE SQUARER Y OL SOI M a e 0604 0800566511 a a w 376 25V 7 25V 25V 25V R7 Ch 25 121K R26 3 LEVEL CHANGER 87 209 0868 CURRENT 25V 25V SOURCE Non 66 c7 4 SE E E S i a ug s 3 57 S i 200 Re x erp 0 lt SWITCHING TRANSISTOR 7 224 5 I GH 50 E 7 ER gt R33 ox Q 75K Qa y Sen
7. 9 ulate PS CCW TRANSITION TIMET L eR rea V NNUS SII 10n OFFSET VEBRNIER 8 oov HIR TUN Pan p AR Rc A Ze OFFSET SWITCH O A e Wa qen a OE ee OFF 9 5 168510 AS es e eed EE MANU E ARA PRIN CR kt a ede ce a PULSE MODE 12 a SQ WAVE OPER MODE 19 ob a a Genes NORM LEADING EDGE M dla a S vens ed A CCW TRAILING EDGE AD Sous ses a de EST ad ne Gk Y EX WANT alee tie CCW AMPLITUDE VERNIER To eeh e EO wees PECES CW AMPLITUDE RANGET A e oh oe SURE P EURO 5V AMPLITUDE VERNIER 18 uqa yt ei ESSE xs UY HESS o CW INT LOAD 257 e TEASE D ON NORM COMRE 28 ts DA anaes Ree E kayes NORM Adjust the amplitude for a full screen display Expand the display and measure the transition times lt 10ns Repeat the measurements for the negative output
8. F Ke Ee A3 8 AY AMP OUTPUT 08005 66510 Backdeting 2 3 Bla CR38 R87 CR8 w R64 R103 5 SERIAL NUMBERS 1341G00330 AND BELOW Model 80055 Backdating 685 CRI R35 e t R33 R34 Ka Ri8 R17 RI R3 R28 L1 29 8 SERIAL NUMBERS 1341600330 AND BELOW
9. 5 1 6 1 9 0 2 1813 A1CRIS AtCR16 A1CR17 1 16 1 22 3 35 ALLY 12 A1L3 0180 0291 015020291 018020374 01802019 01450 0191 018026291 616043 0140240193 0121 0086 0140 0190 0180090291 016023714 0100 3722 018016 0180 2208 0100 2055 01860 9140 0145 0180 0291 0160 4213 01210046 1 80 2207 0180 21451 0600 010023712 014020201 0160 2306 0160 4213 018020291 0160 2055 0190209155 012120046 0150 2 4 61 01604213 0160 4213 0180 0291 01802207 01850 2141 0160 3720 0160 3712 018020291 0160 2205 0180 0058 0180 0291 601840 01 0160 2150 014900202 190120040 19910040 1901 0040 1901 0040 190140533 1901 0533 1901 0040 190140040 190140040 1901 0040 190120050 1901 0040 1906 191020016 1901 0040 1901 0040 1901 0040 18010179 1991 0535 196120535 9140 0111 914020096 9100 1612 6 61108 XD CAPACITOR FXD CAPACITOR FXD CAPACITOR FXD CAPACITORSFXD CBPACITOR F XD CAPACITOR F XD CAPACITOR FXD 04 35 0 TA 1UF 10 35VDC TA 0 4 20106 TA 56 SX 300 06 MICA 56PF 5 2000006 MICA 3SVDC TA 4 1UE e20 50 POLYE MICA 300 06 5 lt 82 CAPACITOR Y TRMReCER 9 35PF 200V CAPACITOReF XD CAPAC 1 CAPAC CAPACITOR F XO CAPACITOReF XD CAPACITORSF XD
10. a 49 bos 9 4 8 Model 80055 Performance Tests PERFORMANCE TESTS 2 Using test set up fast ranges check the pulse width for each control setting listed below REP RATE 1 PULSE WIDTH 5 VERNIER 6 RESULT 20M 25 COW lt 8 0 3M 3 CCW lt 38 10K 0 1m CCW lt 0 1ms 3 Using test set up slow ranges check the pulse width for each control setting listed below 300 3m ccw lt 3ms 0 3 10 0 1 3 CCW lt 58 Manual 0 1 3 Cw gt 3s switch to EXT and press MAN Performance Tests PERFORMANCE TESTS 5 13 Pulse Width Jitter SPECIFICATION lt 0 1 of any width setting OSCILLOSCOPE 80058 PULSE GENERATOR TRIG 232 24 Model 80058 PROCEDURE 1 Set the 8005B controls as follows HEP RATE Visser FCA AA e EE ANA WES YS 10K VERNER er E i be eg CW PULSE DELAY 32 d uu RA is wes 0 10 MERNIER 4 u as Boh oes Sen Naira a SAUD SS E E CCW 8 lt 2 000 34 VERNIEH 6 Gil emo dr estar quer Die GT EI VI ane i CCW TRANSITION IME Spe ae SA dl 10n OFFSET VERNIER e E wate bo de wise Raw T AS eet E OFFSET
11. DIFFERENTIAL AMPLIFIER 006 DIFFERENTIAL AMPLIEFIER 427 034 d CURRENT SOURCE 030 031 VERNIER ATTENUATOR ATTENUATOR o DC OFFSET OUTPUT e TTL OUTPUT OUTPUTI VERNIER Figure 4 11 Output Stage 4 32 Complementary emitter follower 010 011 func tions as a buffer stage between the transition time defini tion circuit and the output stage The signal from 011 emitter supplies the positive channel via Q12 and com plementary emitter follower Q16 017 and the negative channel via complementary emitter follower Q25 026 CR28 shifts the signal level to the negative stage by 8 25V Voltage source 014 015 sets the position of the positive channel baseline without offset 4 33 The output amplifier comprises two differential amplifiers one in the positive channel Q18 Q20 and one in the negative channel 027 029 and Q34 Each amplifier is supplied from its own current source Q22 023 and 030 031 The switching characteristics of the respective amplifier are improved by means of the diodes CR20 CR24 positive channel and CR29 CR32 in the negative channel The amplifiers feed the attenuators via the AMPLITUDE 4 34 TTL OUTPUT 4 35 The 4 5V TTL output voltage is taken from the collector of Q18 and developed across a 5092 impedance R123 R 124 4 36 DC OFFSET 4 37 The dc offset circuits control the baseline positions of the positive and negativ
12. Replaceable Parts MP29 uu yu 1 cili e T 1 A3 mpg 81 95 MER MP8 SES UNDERSIDE pur ur e cum 2 A A4 9 i 5 3 If 1 A3R12 A3R13 Lc k 0 t H Y X 1 A8R1 1083 MP12 2 MP11 UPPERSIDE Figure 7 1 Mainframe Replaceable Parts Location 7 2 Model 80058 Replaceable Parts Table 7 2 Replaceable Parts Reference HP Part Me Description Mfr Part Number Designation Number 08005 66513 BOARD ASSEMBLY TIMING 080605266515 42 08005 989 BOARD ASSEMBLY MOTHER 0800566509 08005690 BOARD ASSEMBLY AMPLIFIER OUTPUT 080052669510 Ad 05005 6611 BOARD ASSEMBLY INTG 08005e66511 AS 08005 66512 BOARD ASSEMBLY POWER SUPPLY 0800566512 AB 08005261901 SWITCH ASSEMBLY RATE 08005261901 A9 08005261902 SWITCH ASSEMBLY WIDTH 08005261902 A10 08005261903 SWITCH ASSEMBLY DELAY 08095 61903 Ci 0180 1868 CAPACITOR FXD 750 75 1071 75 6 At 3907576075 4 ca 0180 1856 CAPACITOReFXD 490UF 100 10 6SVDC AL 032872 851 214040018 LAMPeGLOW Tw2 BULB 9 F1 21100 5 FUSE 1 64 250V
13. SAMPLING LO EXT Model 80058 10503A PROCEDURE 1 Set 80058 controls as follows REP RATE da a RV TEE 0 20M ER ER CCW PUESEDERA 3 1 aac A ax d e eee d qiie Otu VERNIER V Lou WE Be a Ae ae 2 CCW PUESE WIDTH TEE a Q E pA eased ols 25n VERNIER 6 Asp di aee d uev eee ER nU SAT E ee a CCW TRANSTEION TIME tuky dnte e Wa wt rale E 10n OFFSET VERNIER 8 su eO AD AU Awa E OP e Sa oa RA OFFSET SWITCH O cae Ba wi OFF OFFSET AO cor ase ates eec estet e e MAN use ELS E CN AAA DE SU E PULSEMODE ALTA RNS Ae a aR A SO WAVE OPER MODEMS Shanka ee Shee RAE EN 00 NORM LEADING EDGE 94 2 RA era a aes Beaks a CCW TRAILING EDGE 1b os aS A WEED CCW AMPLITUDE VERNIER 16 2400 ver an est CW AMPEITUDE RANGER ran uomo rr e e aaa a 5V AMPLITUDE VERNIER 18 nas a OA ESO A UP EE ER CW
14. 0858700 0086120 m de A S NORM OPER MODE 13 aan ew OS OR IVA E apa s NORM LEADING EDGE 44 EN E Do rt a CCW TRAILING Ata why RACE CCW AMPLIFUDEMERNIER TO a ne E dus e Rc A cw AMPLITUDE RANGE 17 ee tee A 5V AMPLITUDE VEHNIER 18 REOR RR TUS CW INT TOAD 25 A dd E ae OR NEW aV UU Nd pu RE ON NORM COMPL 26 55 ERU RADO A ee SOR P d oos EE AUS IP SDN NORM 2 Set start point of trace to the left side of graticule and measure distance delay to the first leading edge RATE DELAY VERNIER WIDTH VERNIER RESULT 0 3M 0 1 CW 25n CW gt 36 10K 3u CW 3u CW gt 0 1ms 300 0 1m CW 0 1m CW gt 598 0 3 10 3m CW 3m CW gt 0 15 EXT MAN 0 1 3 CW 0 1 3 CW gt 3s Performance Tests Model 8005B PERFORMANCE TESTS 5 15 Pulse Delay Jitter SPECIFICATION PROCEDURE 1 Switch to MIXED sweep display on 1821A Measure the pulse delay jitter lt 0 1 of any delay setting OSCH LOSCOPE EXT 2 Q 0 TERMINATION 80058 PULSE GENE
15. 61 2 0 390 F 76 2 0 n mmm 06984123 6 8 208 7 075720438 86 07S7w0458 289 9757 0453 80 RESISTOR 499 1X 125 F 6 98 RESISTOR S 11X 1X 1 5 F TCa e100 RESISTOR 5 11K 1 125w F 40 RESISTOR 51 1K 135 s1254 040 RESISTOR 30 1K iX 125W F 40 0 60 8 0 5 8 Chal 1 64 1 6 0 5 2821 0757 0453 APR22 075740283 A2R23 0757 0283 28 204 0761 0014 2 25 078520030 RESISTOR 30016 1 1258 F 0 09 1 8 0 3012 RESISTOR 2K 1 250 F 0 100 Chat 8 10 2001 F RESISTOR iX 125 F 9480 8 78 200 RESISTOR 180 5 tW MO 0 8532 RESISTOR 510 55 25W F 2R26 0761 0014 827 078 RESISTOR 180 5 1 MO 0 RESISTOR 510 SX 25W F 50 100 A2R28 2 25 0 A2R31 A2R32 A2R33 2 34 95 A2R36 A2R37 A2R39 8 9 80 ARRA 8 2883 5 2846 075720431 0698 3492 07570477 0757 0438 0757 0038 0757 0458 0757 0477 0757 0453 0757 0053 075740283 10757 0283 0761 0014 0758 0030 0761 0014 9758 0030 0757 0631 0698 3492 0757 0442 257 02 See introduction to this section for ordering information RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR 2 45 1 125 F
16. 75 105 25YDC AL 1UF 10X 335 56 TA 566 925 3008 06 MICA 33PF a5 X 300NVDC MICA 1588 205 500 06 MICA DICDE SWITCHING 30 SOMA 2NS 35 DIODE SWITCHING 30 SOMA 288 5 DIODE SWITCHING 50 SOMA 2NS 5 0100 5 81 6 30 SOMA 2NS 5 0100 DIODEeSCHOTTKY DIGDE SWITCHING 30V SOMA 2N3 5 DIODE SWITCHING 30V SOMA 2 8 5 DIODE SWITCHING 30 SOMA 2NS 5 160 88111806 30V SOMA 2N 5 DIODE SWITCHING 30V SOMA NS 00 35 DIODE SWITCHING 30V SOMA 2 8 50 55 DIODE GE 60V GONA LUS 20 7 010085 68 60V BONA 1US 7 DIODE SWITCHING 30 SOMA 2NG 00 55 DIODE SWITCHING 30 SOMA 2NG 5 DIODEwSNITOHING 30V SOMA 88 5 DIODE SWITCHING 15V SOMA 75988 7 01005 60 COJL MLO 3 3UH 10 0833 1550X 375LG COIL MLD 1UH 10 0850 55DX 37SLG COIL MLD 330NH 20 0 45 1550X 375LG 1500105x903542 5001 2 2 1500106 902682 1 565604 053 00 6 0 1565601 18 150D105x903542 160 3 0 1 56 62 0 0 6 304322 9 35PF 04 0 5390 180 2 016093714 016023722 1500685690 2 1500 2 0160 2055 1500152 DM1SC220J0500NVICR 150D105X9035A2 0160 4213 304322 9 18PF N650 15001 92 1800335X905082 0160737206 016023712 0 1 506 12010500 8 01692306 205 1 5001 2 01602055 0156 220 4 950 0 8 304322 0 0160 2204 5 1200 1 016092213 0160 4213 300 2 185001 2 13508335 2 016043720 06652 80 2 01602205 005 62 1500105x903542 2815656013 3 016022150 DM15C150J0500NVICR 1901
17. OPER MODE SATE AMPLIFIER R30 169 REP RATE Tn SCHMITT ERS CRE PHAS SPL FER 25V i 5 255 AFET SS 2 5 ee A SE CURRENT SOURCE 2 2 E 554 HR 25 t A FEE 578 EXT INPUT MANUAL tl Q 5V cm 54 3 ius cm wo wei o 071 M ipio Ae 8 ue 2 VERNIER Di RES RATE x a7c 2V cm eto id 0 5V i OV Model 80058 CR14 CR15 2V em 0 056 HV NORM COMPL HIN CR14 CR15 2V em 0 066 OTE THE RE ALSO APPEARS ON i CR12 CR13 m 2V cm 0 05us cm 4 5V E SELECTOR 2V cm 25 005 0 ie d 4 5V 031c NORM COMPL 1 SS 0 00 m 10V 5 asc 2V em Q 05Us cm PO A4 CR12 CR13 SQUARE 6 IE WAVE as naa leben Purse scarce 25 E 2 1 7 at d 35 i en 2 poto IRA E LAN i DX Di Wn Le Bu 88 9 7 TIME 4 R46 R40 111 RA3 818 012 5 8 8 5 683 XG Hui 0 i
18. sse 65 8 dim A REE 88597 96 CCW TRATEINGEDGE 15 vos ei ete eee EE Sexe us Bd a CCW AMPLITUDE VERNIER 16 Y a wee RR 4 CW AMPLTIUDE RANGE 17 RE WR ERO CERE RA 5V AMPLITUDE VERNIER 15 sse RE ARA CW INTAE OAD 26 E u A Stee dee E See wA E ON NORM COMPE 26 A bere AE Yk ean Ret A NORM 2 Check pulse spacing f I le 5Ons Performance Tests Model 80058 PERFORMANCE TESTS 5 19 Transition Times Fast SPECIFICATION lt 10ns to 2s in six ranges Separate verniers provide independent control of leading and trailing edges within each range Ranges are common for leading and trailing edges Max leading edge trailing edge ratio 1 30 or 30 1 SAMPLING 80058 PULSE GENERATOR TRIG 2 Q aF 27 800 TERMINATION 10503 PROCEDURE 1 Set 8005B controls as follows REP RATE T S u eS ca Seg ow eee A Dawe SE ayah ce ach Meg atta tase ha h 20M VERNIER Z UAT OA bak quisi EE doe w S CCW PULSE DELAY S ut a Sa RR QE S Otu VERNIER cL ccw PULSE WED o y eet Susa Sila e e REO Si ma Mei e rer 25n VERNIER G WEN
19. 7 80 208 25 06 CER 6 B0 20 1006VDC CER 220PF 80 208 1000 06 CER 810 80 20 100WVOC CER 10 80 20 1006VDC CER 010 80 20 100WVDC CER 100062 10 1000WVDC CER 1000 20 1008 86 CER 10006 20 100 0 CER 15088 25 3001 06 MICA 1506 SX 300 06 MICA B2PF sept 300WVDC MICA 100PF 425X 300 0 MICA DIODE GE 30V 808 BNS 7 DINOE lt SWITCHING 30V SOMA ZNS 5 01008 55118146 30 SOMA 208 00 5 01096 6 1 6 116 30V SOMA 2N8 5 DIODE SWITCHING SOV BOMA 2NG 5 DIOOE SWITCHING 30V SOMA ZNG 5 0100 DIODES SCHOTTKY DIODE 4 DIODE SCHOTTKY DIODE SWITCHING 61006 6100 010066 61006 DIQDE SCHOTTKY 006 COIL NLO 1UH 10 0350 1550x 375 6 CUILeMLD 0 1 10 0250 1550X 375L6 6011 00 1UH 10 0850 550 57 6 COILeMLD 680NH 10 2850 1550X 375LG COIL MLD 30UH 5 0865 155D0X 37516 COIL MLO 30UH 55 6565 155DX 375LG 601 MOLDED RF CHOKE 1UH 10 COIL FXD MOLDED RF CHOKE 1UH 105 COIL FXD MOLDED RF CHOKE 05UH 20 COIL FXO MOLDED RF CHOKE 05UH 20 COtL FxXD MOLDED RF CHOKE 22UH 10 TRANSISTOR NPN SI 0 52 POz360MW TRANSISTOR PNP TO 18 TRANSISTOR NPN 81 5 47 TRANSISTOR NPN 81 TOe52 TRANSISTOR PNP SI 0 18 PDa360MW See introduction to this section for ordering information Model 80058 Mfr Part Number 08008 66510 5000769 62 01602055 016022055 0160 2055 0160 4213 0
20. 20 100 2 67 1 1258 F 332 1 125 F 580 100 5 11 1 1258 F 4 4 S 11K 1 1258 F 040 51 1X 1 ieSe F 0 332K 1 125 F 40 30 1K 1 125 F 0 30 1K iX 1258 F 50 100 2K 1X 125 F 0 100 2K 1 125wW F 80 100 180 SX iw MO 40 510 55 25W F TCa0 100 180 5 18 MO 0 10 5 85W F 40 2 03K 1X 1258 F 4 2 67K 1X 1251 F 428 10K iX 1258 F 0 0 10K 1 125 40 6416 0 Choi F 8 0 52 5 el BeT065111 F 8 6 11 C ei BeTOsS1i2eF 41 8 10 3323 Chet 0 7 868 030 02001 8 8 10200178 RG32 C l B T0 23831 lt F 6 1 0 267 Ca s1 8 T0 1002 F 4 1 8 gt 0 13002 Model 80055 Replaceable Parts Table 7 2 Replaceable Parts Reference HP Part Designation Number Y 3101 1596 SWITCHeSL 586 125VAC 3101 1506 3101 1596 8 1768 80 946 2 3 6 3101 1 Be SWITCHeSL 5 310121596 310141595 SWITCH SL OPDT NS 425 3101 1596 81 0 1 1 56 80116018 125 6 f 3101 1596 Description Mfr Part Number 3101 1596 581108 86 DPOTSNS 1aSvac 310121596 1826 0111 IC MC 1458 QP AMP MCiusac 190220025 DIODE ZNR 10 5X 00 7 PDz 4W 8 1902 0025 1902 0025 DIODE ZNR 10V 5X DO 7 PDz 4W TCs 06 19020025 1902 3256 0100 2108 23 7 5 00 7 2 8 4 5 076 82 10939 290 190221256 0160 203 23 7 5 DO 7 PDs WN 0 0762
21. Ad AR Cae er AA ange E ka PULSE MODE 2 a r Sa at SS SQ wAVE OPER MODE 13 van US en 9 ETE NORM BEADING EDGE 14 UP DE CCW TRAILING EDGES SER Pa ia CCW AMPEITUDE VERNIER 16 avia dra e ELEM E SSW ea CW AMPLITUDE RANGE 17 os ae aw eee Ara V 8 AMPLITUDE VERNIER 18 Son Baek be CW INT LOAD 25 et sisa paqana A dE EIN Oke ON NORM COMPE 28 Oa RR wes ae NORM 2 Adjust the amplitude for a full screen display 3 Centre the leading edge of the pulse on the display 4 With reference to the diagram check the transition linearity 90 Deviation to be lt 4 of pulse amplitude s gt Linearity Deviation 5 Centre the trailing edge on the display 6 Repeat steps 2 to 4 for OUTPUT Performance Tests 5 21 Preshoot Overshoot and Ringing PERFORMANCE TESTS SPECIFICATION overshoot preshoot and ringing each less than 5 of pulse amplitude TRIG 80058 PULSE GENERATOR z 20 al 1250 0077 5012 TERMINATION 8491 1250 0780
22. Designation Number Oty Description Mfr Part Number 3101 1740 SwITCHeSL DPDT NS STD 2 250VAC SLOR LUG 31011740 5080 0980 5080 0980 08005251510 CABLE ASSEMBLY MAIN 08005 61610 98605261611 CABLE ASSEMBLY SHIELD 08005 61611 08005 61612 CABLE ASSEMBLY SHIELD 1 08005 61612 98005261613 CABLE ASSEMBLY SHIELD 1 08005 113 08005261614 CABLE ASSEMBLY POWER 08005 61614 08005 61615 CABLE ASSEMBLY IV 68005261615 08005 CARLE ASSEMBLY V 080056 81201689 POWER CORD SET 402 311 211020455 FUSEHOLDER EXTR POST UL IEC 25 1 255 8 2110 0465 2110 0870 FUSERCLDERSEXTR POST 204 200V UL TEC 345003 010 2110 0867 NUT HEX SINGLE CHAMFER 1 2 28 THREAD 903 070 2190 0055 WASHER LK INTL T NO 1 2 505110 19282 1 400 00 WASHER RUBBER 5 8 OD 1200 3 INSULATOReXSTR ALUMINUM 322047 1200 0043 INSULATGRMXSTR ALUMINUM 322047 7 4 See introduction to this section for ordering information Model 8005B Replaceable Parts Table 7 2 Replaceable Parts Reference Designation Description Mfr Part Number Ai 0600566513 BOARD ASSEMBLY TIMING 08005 66513 A1C2 4103 18 1 1 6 AIC aice AICS 10 1 1 1 1612 A1C13 DE 5 1 6 7 ALCL A1C20 1 A1C22 3 124 165 A1026 77 A1C28 A1C29 AtC30 A1C31 A1C32 A1C33 48 5 A1C36 A1C37 8 A1C39 Anton 1 1 2 41043 44 1 5 6 2 8 AtCuR 1 1 AICR 3
23. Ue al PULSE MODE TZ Utils ti a NORM OPER MODE 13 rp X mue NORM LEADING EDGE 14 a aes wa KGa be eS CCW TRAILING EDGE AR occ ata es a hr a es eA SSA aR CCW AMPLITUDE VERNER 16 eg d cw AMPLITUDE RANGE 17 tc nS DA ae wale AE 5V AMPLITUDE VERNIER TE tea ag uA EY E Ed cw INE LOAD 257 da ON NORM COMPL ER e ele NOS NORM 2 Set the test oscillator for 10 kHz at 2 5V p p Observe that each pulse occurs during positive slope of the sine wave 3 Change the REP RATE 1 switch on 80058 to EXT Observe that each pulse occurs during negative slope of the sine wave Performance Tests PERFORMANCE TESTS 5 25 Synchronous Gating SPECIFICATION gate signal turns on repetition rate Time between start of gate and first pulse defined by delay control Last pulse is always completed even if gate ends during generation of last pulse Synchronous trigger pulses occur for duration of gate OSCILLOSCOPE A B EXT Q GENERATOR 500 TERMINATION sl 10603
24. ASROT 0698 5588 RESISTOR 31 6 1 258 F 0 27187 cs A3R98 0696 5888 RESISTOR 31 6 1 25 F TCzO 100 27167 cs RESISTOR 1 1K 1 1258 f 0 24586 4 8 1 0 0757 004 9 RESISTOR TRMA 500 10 C TOP A4DJ ieTRN 73138 72 1040 21009 0554 10 ASR101 0698 1 RESISTOR 7 158 1 125W F 0 24546 6 1 8 A3R102 07570461 RESISTOR 100 1 125W F TCr0 e100 24546 8 0 1017 A3R103 0761 46 RESISTOR 110 5 fw MO 0 11502 RG32 A3R104 0761 0086 RESISTOR 110 5 MO 0 11502 RG32 578 3 8 24586 40 125 RESISTOR 3 57K 1X 0698 3496 05 RESISTOR 15 1 125W 40 19701 MF4C1 8eT0 15R00P 0757 0381 806 RESISTOR 15 15 1258 F 0 19701 19 1 5 0 075720381 87 RESISTOR 110 5 iW MO 90 11502 8932 076120046 8 RESISTOR 110 5X iW MO 40 11502 RG32 0766 9 A3R110 0761 0046 RESISTOR 110 1 MO 11502 RG32 38111 0761 0046 RESISTOR 110 5X IW MO 40 11502 RG32 7 12 See introduction to this section for ordering information Model 80058 Replaceable Parts Table 7 2 Replaceable Parts Description Mfr Part Number esignation rt RESISTOR 110 5 1 MO 0 RG32 6761 6 82 A3R113 076 8 RESISTOR 110 5 MO 90 RG32 A38116 6761 46 RESISTOR 110 5X 1 MO 404 RG32 RESISTOR 110 5X 1 MO 40 RG32 076120046 5 075T 0381 RESISTOR 15 1 12SW F Ca0 w100 MF4C1 B T0 15RO F 82 A3R119 0757 0381 PES
25. D 5 7 a 5 e 3 gt 8 lt 2 2 lu 8 i 1 gt 99H Di ask no 5 Cia OO 3 063 963 49H 88 5 598 Wat ta SEN 989 EN a 9 0 i 2 i 25V ADJUST 1 oii RS RS Model 80058 3 CR4 gt RE 1 m Service o x 1 e l 55 i 0 69 Ola i lt l F a H A1 REP RATE ADJUST C9 C2 PL Al FRONT OF INSTRUMENT C22 DELAY ADJUST Model 8005A SECTION VII REPLACEABLE PARTS 7 INTRODUCTION 7 2 This section contains information for ordering parts Table 6 1 lists abbreviations used in the parts lists and elsewhere in the manual Table 6 2 lists all replace able parts in reference designator order Table 6 3 con tains the names and addresses that correspond to the manufacturer code numbers 7 3 ABBREVIATIONS 7 4 Table 6 1 lists abbreviations used in the parts lists schematics and elsewhere in the manual In some cases two forms of the abbreviation are used one all in capital letters and one partial or no capitals This occurs because the abbreviat
26. petition rate output Two outputs supply the width generator One carries the delayed pulse only whilst the other carries both the in phase and delayed pulses 4 17 initially Schmitt trigger Q16 017 holds Q20 on so that Q23 supplies Q20 with current and the selected ramp capacitor remains discharged On receipt of a pulse from the repetition rate generator via Q15 Schmitt trigger Q16 017 switches and cuts off Q20 The current source now charges the selected capacitor When the ramp reaches the threshold level of Schmitt trigger 019 018 019 018 switch and reset Schmitt trigger 016 017 Thus Q20 is turned on discharging the ramp capacitor and re setting Schmitt trigger 018 019 It is apparent that Schmitt trigger Q16 017 switches first on the in phase pulse and is reset after the required delay Thus the out puts from Q16 017 are complementary pulses of dur ation dependent upon the delay time The delay time range is chosen by selecting different capacitors and fine adjustment is achieved by varying the current defining resistance R3 The output from 016 is differentiated by R41 L7 to give a positive spike coincident with the rep rate generator output and a negative spike on completion Model 8005B of the delay The inverter 025 responds only to the negative spike delayed Both the output from Q16 and the positive spike from Q25 are applied to the width generator BASE 5 xu BASE 6 A AAA BASE 0 COLL
27. yi BB VUE AR NC NS EUR OFF OFFSET VERNIER 10 10 debe AAA a aq I a MAN TN WR dun LP S ese AADAC Bian E Ue e 77 PULSE MODE T2 Coe ERU A re ein Ig e NORM OPER MODE TS ie te ne ESE Te A Ae IS NORM LEADING EDGE TE nse A A ne aide Ne AE E Gia ates CCW TRAILING EDGE 15 coz erue Wa b ec ea E e ie CRT CCW AMPLITUDE VERNIER AG s u ew Rey Rea Na xus AA 5 d e RD CW AMPLITUDE RANGE ITZ ue ee Oe kaka E Baa d P ECT PA EA SW Q 8 AMPLITUDE VERNIER 18 Lu Lee a aie 6 Cw INP LOAD AD Ca are IDA S VR ES Oe te ON NORM COMPIE 20 eh es A NORM ZS S Set the controls of scope as follows MAIN SWEEP 0 1ms div DELAY SWEEP 0 Tus div SWEEP MODE NORM DELAYED TRIGGER AUTO CM DELAY 0 Adjust the PULSE WIDTH VERNIER 6 for a pulse width of 0 1ms on the display Move the trailing edge of the first pulse to the centre of the display using the DELAY VERNIER 4 Adjust the scope d
28. 0757 14 0758 0066 0698 3282 9757 0282 9757 0411 0757 0407 075720410 0757 0510 0757 0280 07570283 07570290 07570280 07570337 0757 0417 0757 0401 0797 0427 07570397 07597 032 0757 0721 0757 0033 0757043 0757 0405 0778 90757 0730 075720827 9757 0354 0757 0280 0757 0437 0095 3242 07570440 0757 0392 9757 0200 0757 0465 0698 34654 0698 4543 Table 7 2 Replaceable Parts Oty RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESTSTOR RESTSTOR RESISTOR RESISTOR RESISTOR RESTSTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR Description 100 EX 125W E 40 150 iX 125 F TCzO 100 1 5K 1 1258 58 1 1 125W F 0 43 2 1 125W 420 100 1 185W F 3 32K 1 1250 F 20 100 3 32K 1 125W 90 274 1 25 40 2 78 1 SW F 4 1 82K 15 25 F TCeO s100 152 1 125w F 49024 750 1 5 F 5 658 15 25 F TCz0 100 100 1 125 F 100 620 2598 F 1 357 125 0 100 221 01 TORO H 106 332 680 0 200 9 20 301 1X 125 TCz049100 301 1 125w TC RO 100 1K 1
29. 125W F 40 2 1X i25W F 0 6 19K 1 125 4240 iK 1 123 40 432 1X 25 F 40 562 1X 125w F 0 100 100 1 125 420 1 5X 1 125 F 40 58 1 1 858 F 0 43 2 1 12SW 40 274 3 28W F TCz0 100 3 32K 1X 125 F 2000 3 32 iX 125 F TCz wi00 162 1 125 F 0 100 1 82K 1 25 8 0494 750 1 5 F 48 2 74 1 DN F 0 100 3 65K 1 25W F 1 1258 F 48 4 75K 1 185W F 4 357 1 125 F 90 20K 1X 125 F 0 100 43 2 1 125w 90 5 62K 1 12SW F 0 RESISTOR 100 K RESISTOR 215 K RESISTOR 487 K MAY BE OMITTED Replaceable Parts Mfr Part Number C s1 68 T0 101 F 6 C 1 8 T0 1501eF of 438 8 641 86 1 01 606 1 8 21 9 1 8 10 2321 MF52C 1 70 2 0 2751 oF MFS2C 1 4 1 6 01 660 2521 MFS2C lt 1 8 1 CS 06 1 8 70 3578 4 8221 C s1 8 T0 332R F Chat Cimi 8 30 RE 8 7 0308 C mi 8mT0mi00ter Cum 8 61 8 0 61 06 MF52C 1 C 1 8 TO SbeR F Cool BeT Cooler Chat But Out 50 Lef 04 6 0 6 5 1 5265 1 6 1 8 0 3321 9 1 8 0 3321 6 1 8 0 16 MFS2C 1 MFS2C 1 MF7C1 2 T0 274 LF Chal 8 T0 1501 lt F 54 1 8 0 47
30. 2 109396290 190223256 DIGDESZNR 23 7 5X DOs PDS Uw 763 2 10939 290 1902 3256 0100 7108 23 7 5 00 7 POR UW TCue 076 2 410939290 See introduction to this section for ordering information Replaceable Parts Reference Designation 43 A3C1 A3C2 4303 A3C5 458 AXCT 8 4369 ACI 2 A3C13 4 3 15 06 43017 A3C18 43019 A3C20 A3C21 A3C22 65 56 24 05 356 d s 7 8 9 30 56 1 A3C32 A3C33 3080 5 4 5 A3CR A3CRU A3CR10 1 1 548 1 5 1 360 1 KEIER 5 5620 A3CR25 A3CR29 0 0 1 2 A3CR33 ABLE A3L2 A3L3 A3La A3L 43L7 AILE ASL A3L10 A3L11 A301 A302 A3U3 4304 4305 7 10 08005 66510 0180 17 6 0160 2055 0100 2055 016092055 016624213 0160 4213 018041706 0160 2055 0160 3556 016042685 01560 21319 0186 0291 0160 5174 0150 6 0160 6 0160901748 016020176 0160 0174 0160 2055 016022055 016022055 0160 4213 0160 6174 016096174 0160 55 0160 2139 0160 2955 046042055 916022055 01606 015022327 016022327 014020196 0140 6196 818020193 0160 2204 1916 0034 19012460420 1901200640 190120040 1901050040 1901 0040 1901 0533 190120533 190100533 1901 0533 190120040 1901 0040 190190533 190120533 190120533 1901 0533 1901 0533 9140 0096 9218020096 9140 0096 9140 0094 910
31. 5 10 Repetition Rate Model 8005B SPECIFICATION 0 3 Hz to 20 MHz in five ranges Vernier provides continuous adjustment within each range 89058 PULSE GENERATOR TRIG 29 COUNTER son TERMINATION 10503A PROCEDURE 1 Set the 80058 controls as follows REP RATE Ta coe a vee Wah Sapa a E VERNIER 2 Zug EE Aene et Pon eae weve dni PUESE DELAY Su uu RAT AEA aX E dei E date 680168 4 os cvs cbe ud vnb X Wo VERNIER e Rois ICI Tee qos TRANSITION TIME T iiv Re ote o d ee dk OFFSET VERNIER 6 4 ous odd RE No MANTE s ege eat SD DEAE DS e oi 2 Check the repetition rate for each of the following control settings listed below REP RATE 1 VERNIER 2 20M CW 0 3M CW 10k CW 3 Set the counter to period measurement and continue checking rep rate 300 CW 0 3 10 CW RESULT gt 20 MHz gt 300 kHz gt 10 kHz lt 3 33ms lt 100ms Model 8005B Performance Tests PERFORMANCE TESTS 5 11 Manual Trigger SPECIFICATION Push button for generating single pulse two in double pulse mode PROCEDURE OSCILLOSCOPE 80058 PULSE GENERATOR TRIG 239 24 279 10503A 1 Set the 8005B controls as follows REPRA
32. Adjust scope sensitivity for full screen pulse display and measure leading and trailing edge between 10 and 90 of amplitude for each of the following control settings Vary Rep rate vernier 2 to get one period on display with best resolution REP RATE TRANS TIME LEADING TRAILING RESULT EDGE VERNIERS 0 3M 3 CCW lt 35 10K 0 1m COW lt 0 1m 300 3m CCW lt 3m 0 3 10 0 1 2 CCW 5 Model 8005B Performance Tests PERFORMANCE TESTS 5 24 External Triggering SPECIFICATION dc to 20 MHz sensitivity 2Vpp sine wave 1Vpk pulse TEST OSCILLATOR 89068 PULSE GENERATOR PROCEDURE 1 Set 8005B controls as follows REP RATE TP as ed A ams ayn EXT 8 2 Eer EE RE Ee E Weta yl OS CCW PULSE DELAYS e id cocina Eae Gawa ad a 0 1 VERNIER sila dl eta Dent CCW PUESE WIDTH a a E SAA 3u VERNIER 6 da A EAS A ERE d EE IUE CCW TRANSITION TIME ata OSs ea oem a aea os ie 10n OFFSET VERNIER ale Ra eS e e eoe OFFSET SWITCH eave ea de re PEG RU ERU AA Y OFF OFFSET VERNIER 107 edt dede 543 MAN TT 20 ated ti Ape MEAD ab AR
33. Consequently two pulses reach TUL PT Schmitt trigger 031 032 first the in phase output from COLLECTOR G31 the delay generator via O25 and then the delayed output via 4 Figure 4 8 Width Generator Timing Sequence 4 22 PULSE DEFINING CIRCUITS NORM Loi TRAILING EDGE COMPL V LEADING EDGE MODE VERNIER CONTROL TRALING Frog SURE EES VERNIER 010 011 0 4 SOURCE K f SWITCH 6 SCHMITT LEVEL UDE V TRIGGER mE a H H SWITCH 07 1 H pil INTEGRATOR 1 t CURRENT VOLTAGE SOURCE H 08 056 06 017018 CONTROL a d u M SOR WAVE NORM T VI LEADING EDGE INPUT EROM COMPL E VJTRAILING EDGE SQUARER FF MCI Figure 4 9 Phase Defining Circuit and Integrator Principles of Operation 4 23 The function of the phase selector is to deter mine whether the leading edge of the output pulses are to be positive going or negative going OPER MODE The purpose of the integrator circuit is in all modes of operation to vary the rise and fall or fall and rise of the pulse LEADING EDGE and TRAILING EDGE within a selected range TRANSITION TIME 4 24 Pulse and Double Pulse Mode 4 25 For each positive pulse input from the width generator a differential amplifier 08 09 produces an in phase and an antip
34. EE MAN TT uu aria 4 de So Nac a 3 ICTU EC PULSE MODE 12 yl e a ose ak NORM OPER MODES i oo phum s Pr ROI e aae WE es Hee a Sas NORM LEADING EDGE n A a gh as PRUE OF RE Sas a CCW TRAILING EDGE 15 seu RR AR A eue CCW AMPLITUDE VERNIER IG ee ue y VERRE eS lS ER pena aue RUN Cw AMPLITUDE 6617 RLW IN AA 5V AMPLITUDE VERNIEH 18 mx aet ane CW INT LOAD 25 RA Wee wed RE DA P aa AUS ON NORM COMPE 20 Bia te obe SRE a NORM 2 Check the amplitude across 502 gt 2 3 Check the width 15ns 7ns 5 15 Performance Tests Model 80058 PERFORMANGE TESTS 5 23 Transition Times slow SPECIFICATION lt 1005 to 2s in six ranges Separate verniers provide independent control of leading and trailing edges within each range Ranges are common for leading and trailing edges Max leading edge trailing edge ratio 1 30 or 30 1 80558 PULSE GENERATOR 86 Q 20 279 23 8065 TERMINATION 10
35. lt 10ns Return the scope to X1 expansion D m Switch the TRANSITION TIME 7 switch to 7 Measure the transition times of both and outputs lt 100ns Model 80058 Performance Tests PERFORMANCE TESTS 5 20 Transition Linearity SPECIFICATION For transition times gt 30ns maximum amplitude deviation from a straight line between the 10 and 90 points is less than 4 of pulse amplitude 80058 PULSE GENERATOR TRIG 23 20 27 5011 TERMINATION BAITA 10503A PROCEDURE 1 Set 8005B controls as follows REP RATE mal ah RR A tha wee 20M VERNIER 2 wayak EA CCW PULSE DEPAY S AERA GC EE E 8 10 VEHNIER A A ee PLS CCW PULSE WIDTH dom ONT at a RO RR CR A KESE E a 25n 68500168707 ok sa aa a a CCW TRANSITION TIME T mn fa ue Y a date eh 0 1 0 VERNER ee ee eer eene OFFSET SWECH baa we Krach OFF OFFSET VERNIER TOSSES xx ru Rx SG eA sw rv ese ea AG AEG MAN ICA she
36. of operation In the pulse mode the delay generator delays with respect to the trigger output the output of the rep rate generator and applies it to the width generator For each output pulse from the delay generator the width generator issues a pulse with a width as defined by the front panel control Each pulse is processed by an inte grator with a time constant which can be varied to achieve the desired rise and fall times In the square wave mode the delay and width generators are not used and the square wave signal is applied directly to the integrator The final operation involves amplifying and scaling to achieve the correct amplitude and source impedance 4 3 REPETITION RATE 4 4 The pulse repetition rate is determined by either one of two possible methods a The free running state of the repetition rate genera tor b The frequency of the input pulses CIRCUIT 4 5 Inthe free running mode the repetition rate genera tor operates as follows The selected ramp capacitor discharges linearly through O at a rate determined by the setting of VERNIER R1 and the value of the capacitor As the voltage at Q7 collector approaches zero CR10 CR11 become forward biased causing Q5 and Q6 to conduct and rapidly recharge the ramp capacitor CR10 CR11 become reverse biased so that 05 and 06 cut off and the discharge cycle resumes 4 6 In the externally triggered mode trigger pulses are applied to the differential amplif
37. s 8 4 For each setting of the REP RATE switch 1 given in the table below turn the VERNIER 2 and check that the pulse width t on equals the pulse off time t off OUTPUT OUTPUT os or AN REP RATE 1 0 3 10 300 10K 0 3 MHz 20 MHz Turn the vernier slowly CW and stop at 1 MHz Turn the vernier fully CW and measure pulse width VERNIER 2 CCW CCW CCW CCW CCW tON t OFF 5 t ON 1 OFF 15 Performance Tests 5 17 Duty Cycle PERFORMANCE TESTS Model 8005B SPECIFICATION gt 80 for repetition rates from 0 3 Hz to 1 MHz gt 50 from 1 MHz to 20 MHz Up to 100 when using pulse complement PROCEDURE 1 OSCILLOSCOPE 80058 PULSE GENERATOR TRG 29 500 TERMINATION fans 10503A Set 80058 controls as follows REP RATE 35 ee ee mp Wa ne ede E eue RA a 20M VERNIER Z dg edes Is alate Mee o a deu aah asthe RI tas Cw PULSE DELAY 3 ses Y dd 0 1u VERNIET A dor ga e CLAUSE Vp ite E E CCW PULSE WIDTH Doa de AAA SERRE ESAS 25n VERNIER6 A AS AAA A CCW TRANSITION TIME dus e drt eng Soe Ee HH NL 10n OFFSET VERNIER See
38. the measurement to detect any intermittent dis continuity Check internal ground connections on boards and frame Also check resistance of any front or rear panel ground terminals marked _ Check resistance from cabinet to line and neutral tied together with the power switch on and the power source disconnected The minimum acceptable resistance is two megohms Replace any component which results in a failure or refer to production Memo or Service Note issued by product division for alter nate action Check line fuse to verify that the proper value is in stalled Check that the plastic safety cover for the line fuse is installed Check that all coaxial and flat cables inside are properly connected Check that all boards and the heatsink on the chassis are properly connected Inform Hewlett Packard internally the responsible product division of any repeated failures in the above tests or any other safety features 5 21 Performance Tests Mode 8005B Table 5 1 Performance Test Record Hewlett Packard Company Model 8005B Tested by Pulse Generator Ser al Number Dat e m Test Description ws Ama T X Repetition Rate Rep Rate Vernier 20 MHz CW 20 MHz 0 3 MHz Cw 300 kHz 10 kHz cw 10 kHz 300 Hz cw 10 Hz CW Manual Trigger Press MAN button Release MAN button Pulse Width REP RATE1 PULSE WIDTH5 VERNIERG 20M 25 CCW 0 3M 3u CCW 10K CCW 300 CCW 0 3 10 CCW Manual CW Pulse Width Jitt
39. 190220556 1902 0556 7 1902 0031 100 208 12 7 5 00 7 PDz W 765 8210939212 8 189020 DIODE ZNR 8 25 2 00 7 TCue 053 82 109392159 435 19020173 100 6 2 8 9 53V SX 00 7 POS AW YCz 059 82 10939176 3 5 19029 DIODE ZNR 8 25 5 00 7 PDs 4w 68 SZ 8 See introduction to this section for ordering information 7 13 Replaceable Parts Model 8005B Table 7 2 Replaceable Parts Mfr Code Reference 3 Mfr Part Number Designation Description HP Part Au 018005 61 310480 ASSEMBLY INTG 08005 66511 Auli 01606 CAPACTTOR FXD 1000PF 10 1000WVOC CER 01603456 EI 0140e0196 CAPACITOR FXD 1508 5X 300WVOC MICA 0 5 51 10 50 0 AUCS 060 5 CAPACITOR FXO 01UF B0e20 100WYDC CER 0160 2055 6 0160 1 3 CAPACITOR FXO fUF 20 50 POLYE 0160 4213 CAPACITOR FXD 1000PF 30 1000WVDC CER 01560 3456 6 066 7 Auca 01 66 1 D CAPACITORSFXD 220PF 5 300 06 MICA 615020134 Auto 901002055 CAPACITOR FXD OLUF 0 100 CER 016022055 CAPACTTORWFXD Q1UF 100WVDC CER 016002055 016092085 41 1 011637 CAPACITORAF XD 1UF 0 50 06 POLYE 0160 4213 CAPACITCReFXO 10008 10 100001706 CER 016023456 2 DISK 91609134 CAPACITOReFXD 220PF 51 001 6 MICA 6160 0135 14 0160 2055 CAPACITOR FXD 8020 100WVDC CER 0160 2055 885 64 0160 C
40. 24546 Cua 7 3012 877 0757 0475 RESISTOR 274K 1 125 F 0 100 24546 8 027 86 07570422 RESISTOR 909 1 125W F 24566 0 909 9 0757 5 RESISTOR 475 1 125 F 00 pasao 1 8 0 575 A3RBO 8757 0401 RESISTOR 100 1 1250 F 906 24546 8 08 4 5881 22 4 8 RESISTOR 7 5K 1X 125W F 9040 24546 Chel 6 7801 oF AiRB2 0757 0429 RESISTOR 1 82k 1X 125W F 1 0 00 24546 Chet 7 6 0 828 ABRAZ 075720366 RESISTOR 10 1X 125 F 0 24546 Chal 8 ORQF AZRAG 8761 141 RESISTOR 56 5X MO 0 11502 RG32 A3RAS 0698236985 RESISTOR 47 5 1 MO 404 11502 R632 AXRB86 0757 0500 RESISTOR 501 1 25 F 060 19701 ei A3R87 975700800 RESISTOR 30 1 1 25W F 0 19701 ME SEC A3RBB 0787 0500 RESISTOR 30 1 15 25W F 19701 5 A3R89 075720500 RESISTOR 30 1 1 2SW F 0000 19701 MF52C 1 5850 0757 0395 RESISTOR 82 5 1 125W 40 24546 8 1 8 10 5285 ASR91 0683 0755 RESISTOR 7 5 5 25W 4 01121 87565 A 2 0757 0401 RESISTOR 100 1 125W 90 24546 Caaf 8 0 01 ASRS 0757209820 RESISTOR 750 1 1250 F 0 100 24546 C a 1 8 T0 751 F A3R94 075720436 RESISTOR 4 32K 1X 1 5 F 220 28546 Cae1 8 T0 4321 F AROS 2100 0556 RESISTOR TRMR 500 10 C 08 0 73138 729104020 A3R96 0757 0435 RESISTOR 392 1 1258 F TCz0e 100 24546 8 39
41. 5ns div to Zei div with sweep delay Dual Channel 1 GHz band width 1 mV div sensitivity sweep speeds 10ns div to 2s div Capable of rep rate of 10 kHz 10 kHz negative output 0 to 5V fast rise and fall times 5ns Digital Voltmeter 34740A with 34702A AC Voltmeter HP 3400A Test Oscillator HP 651B Counter HP 5345A 50Q cable assembly HP 10503A 50Q Tee connector 1250 0781 500 Feed through HP 10100C termination 2 NOTE P Performance Check A Adjustment 1 2 100V range to 4 significant figures Accuracy 0 05 1 digit Sensitivity 1000 to 300V rms Frequency Range 10 Hz to 10 MHz 4 required terminated each end with BNC male connec tors P A P PA PA dB 50 Q N PA 20 BNC male to N female PA BNC male to N male P Model 8 General Information Table 1 2 Specifications PULSE CHARACTERISTICS Internat oe Amplitude Ampiitude 500 Rangs Selected 1 25V 25V 1 26V 2 5V 1 25 2 5 5 10 5V 10V 6 300mV to 7 7 600 2 5V 600mV to 2 5V 1 25 to 5V 25V to 10v 25V to 10v 1 Mr H 1 The maximum output amplitude offset is 10V 2 Offset range with amplitude vernier CCW is t 2V Offset range increases to 4V when amplitude vernier is CW Transition times lt 10ns to 2s in six ranges Separate verniers provide indipandant control of leading and tra
42. A Y nie 17 AMPLITUDE RANGE Cer a edo cda CCW AMPLITUDE VERNIER IS oa INT ERR KEE ON de Vand Heddle NORM COMPLE Cus dudes eA STEP INSTRUCTIONS RESULTS 1 Center trace on screen and set the OFFSET switch 9 to ON gt 2 Turn the VERNIER 8 slowly from fully CW to fully CCW 2V to 2V 3 Reset the VERNIER 8 to the CW position 42V 4 Set the INT LOAD 25 switch to OFF 5 Turn the AMPLITUDE vernier 16 slowly to fully CW gt 6 Turn VERNIER 8 slowly CCW 4V 7 Connect scope to OUTPUT and repeat steps 1 to 6 Model 8005B Performance Tests PERFORMANCE TESTS SAFETY CHECK 5 28 TTL Output SPECIFICATION fixed amplitude 4 6V across open circuit TEST SETUP AND PROCEDURE as 8 5 27 except apply TTL OUTPUT without load to scope input A Verify logic 1 level 4 6V Verify logic 0 level gt 5 29 Safety Check i Disconnect power cord from line Visually inspect in terior for any sign of abnormal internally generated heat such as discolored printed circuit boards or components damaged insulation or evidence of arc ing Determine cause and remedy Check resistance from cabinet to ground pin on power plug with suitable ohmmeter The reading must be less than one ohm Flex the power cord while making
43. AMER PRCN IND INC DELEVAN DIV AURORA NY 14052 Model 8005B Service SECTION SERVICE 8 1 INTRODUCTION Table 8 1 Reference Designators 1 assembly U micro circuit 8 2 85 section contains the component layouts notar P plug and schematic diagrams for the Model Tables listing battery 0 transistor the referance designators and schematic symbols used capacitor R F sistor are also given Refer to Section 6 for the replaceable coupler RT thermistor parts information diode S switch delay line T transformer lamp TB terminal board fuse vacuum tube neon 8 3 RECOMMENDED TEST EQUIPMENT filter bulb photocell etc heater voltage regulator jack cable relay socket inductor crystal meter test point 8 4 Test equipment and test equipment accessories required to maintain the Model 1223A are listed in table 1 1 Equipment other than that listed can be used if it meets the listed critical specifications Service Model 80058 Table 8 2 Schematic Diagram Notes 1 of 2 General Components Units Resistance values are in ohms capacitance vaiues in microtarads and inductance values in microhenries untess otherwise noted Normally open toggle switch Circles O are used for the contacts to indicate a locking type switch Spring return 2 position transfer switch Triangles 4 are used for the contacts to indicate a non locking type switch P O Part of Asterisk denotes a factory selected value The val
44. Br TI 250 1 10 RESISTOR 4546 5 RESISTOR 47 5 18 MO 90940 11502 532 0 868 6 RESISTOR 56 SX tw MO 99 11502 RG32 075141 87 A3RS8 0757 lt 0500 RESISTOR 0 1 1 25W 49 4 19701 MFS2C wtf ARRSO 057 060 RESISTOR 30 1 tX 2SW F 90 19701 MF 5 80 07S7 0500 RESISTOR 30 1 1 25W F 0 19701 o ADRS 0757 0500 RESISTOR 30 1 1 ASW 0 19701 1 5 2 1 AIRS 068320755 RESISTOR 7 5 5 250 FC 001121 t B75GS RESISTOR 110 5 iW MO 40 11502 RG32 0761 64 3863 A3RO4 0761 0646 RESISTOR 110 Sk tw MO TOxOe 200 11502 RG32 RESISTOR 750 1 125 F 24544 04 0737 0 3865 F 48 24546 Cas1 8 T0s3921 F 125 0 5720435 RESISTOR 3 92K 1X RESISTOR 4 02 1 125 F 0 0 24546 Chai sBo TOG C2 oF 0698 3558 7 285 8 8 204 0 A3R68 0757s0399 RESISTOR 82 5 1 125W F RESISTOR 31 6 1 25W F 27167 cs 0698 3828 39 RESISTOR 31 6 1X 250 F 50 00 27167 cs 06968 0 810 1101 24546 A3RT1 0787 0424 RESISTOR 1 1 1 1258 F 0 100 RESTSTOR TRMR 500 10 TOPeADJ 0 73138 72910490 2100 0554 872 178 103578 26546 RESISTOR 3 57K 1 125W F 56983496 873 RESISTOR 7 158 1 125 F 0 24546 6 1 8 10 27151 2 0698 4471 708 RESISTOR Sit 1 125w F 0 24546 8 0 5 18 1 6 008 75 ASR76 0757 0453 RESISTOR 30 1K 1 125W F 10
45. INTE OAD 2 A es OX eS NA DOE Us why ON NORM COMPE 26 Lino vx ador BU a ad TR Ceca TE Pod NORM 2 With reference to the diagram measure the following a Preshoot b Overshoot c Ringing 3 Repeat step 1 for OUTPUT A 5 5 596 Overshooty inging A pm Model 8 Performance Tests PERFORMANCE TESTS 5 22 Trigger Output SPECIFICATION positive pulses gt 2V amplitude across external 50 ohm load SAMPLING OSCILLO SCOPE 80058 PULSE GENERATOR TRIG 23 20 el 1250 0077 5082 TERMINATION BASTA 1250 0780 10803A PROCEDURE 1 Set 80058 controls as follows REB RATE Tuen esr DE a a dius ded 20M VERNIER EE EE EE CCW PUESE DELAY 3 uera vais e eee ten SETAE 0 10 68801684 ear ccw PULSE WID FEEB hd Daw ele Swe dry d AIR as 25n VERNIERG Z Ss Ae ta da a eiue bee don ASA CCW TRANSITION TIME T usus ee er E sh ie ere AN 10n OFFSET VERNIERS ES aa A OFFSET SWITCH9 ce OFF OFFSEF VERNIER TO ia A
46. adjustment maintenance and repair of the opened instrument with voltage applied should be carried out only by a skilled person who is aware of the hazard involved 6 7 Capacitors inside the instrument may still be charged even if the instrurnent has been disconnected from its source of supply 6 8 Mak sure that only fuses with the required rated current and of the specified type normal blow time delay etc are used for replacement The use of repaired fuses and the shortcircuiting of fuseholders must be avoided 6 9 Whenever it is likely that the protection offered by fuses has been impaired the instrument must be made inoperative and secured against any unintended operation WARNING Adjustments described herein are performed with power supplied to the instrument while protective covers are removed Energy available at many points may if contac ted result in personal injury 6 10 EQUIPMENT REQUIRED 6 11 The test equipment required for the adjustment procedures is listed in Table 1 1 Recommended Test Equipment The critical specifications of substitute test instruments must meet or exceed the standards listed in the table if the instrument is to meet the standards set forth in Table 1 2 Specifications 6 12 ADJUSTMENT LOCATIONS 6 13 Figure 6 1 at the end of this section shows the locations of adjustment points 6 14 ADJUSTMENTS 6 15 Power Supply EQUIPMENT Digital Voltmeter ac Voltmeter PR
47. independent of control settings Source impedance 50 ohms 10 shunted by typ 20pF or high impedance switch selectable TTL compatible output fixed amplitude 4 6V across open circuit Source impedance 50 ohms typ Pulse formats normal or complement switch selectable REPETITION RATE AND TRIGGER Repetition rate 0 3 Hz to 20 MHz in five ranges Ver nier provides continuous adjustment within each range Period jitter lt 0 1 of any period setting Double pulse 10 MHz max Simulates 20 MHz Trigger output positive pulses gt 2V amplitude across external 50 ohm load Output Trigger pulse width 15ns 7ns EXTERNALLY CONTROLLED OPERATION External Triggering Repetition rate dc to 20 MHz Delay approximately 35ns between trigger input and trigger output Manual push button for generating single pulse two in double pulse Trigger Input Input impedance approx 1 kohm dc coupled Maximum input Sensitivity sine waves 2Vpp Pulses 1V peak Polarity positive or negative switch selectabie Minimum pulse width 10ns General Information Model 8005B Table 1 2 Specifications continued Gating Gate signal polarity negative 7 Gate amplitude 2 to 20 max Synchronous gate signal turns on repetition rate Time between start of gate and first pulse defined by delay control Last pulse is always completed even if gate ends GENERAL during generation of last pulse Synchronou
48. normal no gating operating modes 14 LEADING EDGE Provides fine control of the transition times for the leading edges of both positive and negative output pulses Clockwise rotation of the control increases the transition time 15 TRAILING EDGE Provides fine control of the transition times for the trailing edges of both positive and negative output pulses Clockwise rotation of the control increases the transition time 16 AMPLITUDE vernier Provides fine control of the amplitude of the positive output pulse Counter clockwise rotation of the control reduces the amplitude Figure 3 1 Front Panels Controls and Connectors 3 0 17 AMPLITUDE range Two switches for selecting the upper limits of the amplitude of the positive and negative output 18 AMPLITUDE vernier Provides fine control of the amplitude of the negative output pulse Clockwise rotation of the control increases the amplitude 19 LINE push for on push for off switch The lamp adjacent to the switch indicates when power is on 20 TRIGGER INPUT BNC connector for applying trigger putses to when the REP RATE switch is in the EXT or EXT position 21 GATE INPUT BNC connector to which the negative gate signal is applied when synchronously or asynchronously gating the repetition rate generator 22 TRIGGER OUTPUT BNC connector supplies positive trigger pulses 23 TTL OUTPUT BNC connector supp
49. ssa sa A ENEE OFFSET SWIECH O rares u YS EINE DR VEU OFF OFFSET VERNIER 10 dc ok C ne te pe MANIP SOGO dais voee uem eaa tta ma c s ege PULSE MODE TZ AA NOR NORM OPER MODE 13 25 xu EA EN ROCK waar ee NORM LEADING EDGE TA na Sie CCW TRAILING EDGE 15 raro A a iat CCW AMPLIFUDE VERNIE RTOS ses heee A CW AMPLITUDE RANGE 17 ise ka a Reo SR 5V AMPLITUDE VERNIER 18 4444444 ehh hm ere CW INT LOAD 2577 oz CERA RE DG neqae aie ha genome 2 ON NORM COMPL 26 aura meer E re E RUN Rm ut NORM Adjust the REP RATE VERNIER 2 for one complete period over the display area Turn the PULSE WIDTH VERNIER 6 slowly CW until the pulse period is affected count down and measure the duty cycle gt 5096 Set the REP RATE 1 and adjust the VERNIER 2 for frequencies under 1 MHz and repeat step 2 gt 80 on time Model 8005B Performance Tests PERFORMANCE TESTS 5 18 Double Pulse SPECIFICATION 10 MHz max simulates 20MH
50. that the resistance between the instrument chassis and the front panels of all modules in the instrument and the ground pin of the power cable plug is zero ohms 2 11 1n accordance with international safety standards this instrument is equipped with a three wire power cable When connected to an appropriate ac power receptacle this cable grounds the instrument cabinet The type of power cable shipped with each instrument depends on the country of destination Refer to Figure 2 1 for the part number of the power cords available 2 12 ifthe plug on the cable supplied does not fit your power outlet then cut the cable at the plug end and connect a suitable plug The plug should meet local safety requirements and include the following features Minimum current rating of 2A Ground connection Cable clamp The colour coding used in the cable will depend on the cable supplied see Figure 2 1 2 1 Installation Model 80058 SCHUKO TYPE HP Part No 8120 1689 NEMA TYPE HP Part No 8120 1348 BRITISH STANDARD TYPE HP Part No 81 20 1 USED IN AUSTRALIA HP Part No 8120 1369 LINE BLACK LINE BROWN NEUTRAL WHITE NEUTRAL BLUE GROUND YELLOW GREEN GROUND YELLOW GREEN LINE BROWN NEUTRAL BLUE GROUND YELLOW GREEN LINE BROWN NEUTRAL BLUE GROUND YELLOW GREEN Figure 2 1 Power Cords 2 13 Operating Environment nal packing is not available nor re usa
51. the table may be substituted for the recommended model s 5 5 TEST RECORD 5 6 Results of the performance tests may be tabula ted on the Test Record at the end of the test procedures The Test Record lists all of the tested specifications and their acceptable limits Test results recorded at incoming inspection can be used for comparison in periodic main tenance troubleshooting and afterrepairs or adjustments 5 7 PERFORMANCE TESTS 5 8 The performance tests given in this section are suitable for incoming inspection troubleshooting or pre ventive maintenance During any performance test all shields and connecting hardware must be in place The tests are designed to verify the published instrument specifications Perform the tests in the order given and record the data on the test card and or in the data spaces provided at the end of each procedure NOTE The instrument must have a 15 min warmup time and the line voltage must be within 10 15 of nominal if the performance tests are to be considered valid 5 9 Each test is arranged so that the specification is written as it appears in Table 1 2 Next a description of the test and any special instructions or problem areas are included Each test that requires test equipment has asetup drawing and a list of the required equipment The initial steps of each procedure give control settings re quired for that particular test Performance Tests PERFORMANCE TESTS
52. this mode the repetition rate of the pulse and trigger outputs is halved GATE INPUT x E OUTPUT p Figure 3 4 Square Wave Mode Typical Output 3 13 Gating of the REP RATE GENERATOR 3 14 A front panel switch 13 OPER MODE selects three modes of operation SYNCH GATED NORM or ASYNCH GATED In the NORM mode the 8005B func tions normally and signals applied to the GATE INPUT 21 have no effect on the instrument In the SYNCH GATED mode the rep rate generator is turned off until a negative signal is applied to the GATE INPUT 21 The first pulse is coincident with the leading edge of the gate and the last pulse is of normal width even if the gate signal ends during the pulse Inthe ASYNCH GATED mode the gate pulse and the output pulses bear no time relationship A trigger output is available continuously Square wave is not available in the gate mode 3 1 Operation 3 15 OUTPUT CONTROLS 3 16 Amplitude and Offset 3 17 The maximum pulse amplitude from OUTPUT 24 and OUTPUT 25 is 10 volts including dc offset Figure 3 7 illustrates which combination of source and external load impedances will provide the desired ampli tude The source impedance for both OUTPUT and OUTPUT can be selected by means of the INT LOAD 25 switch When operating in the 10V range if changes are made to the settings of the AMPLITUDE verniers 16 and 18 it is necessary to reset the appropria
53. with a normal mode duty cycles of gt 80 and 100 in complement mode Transition times pulse rise and fall are variable from lt 10 ns to 2 s with a rise and fall or fall to rise ratio of up to 30 1 Amplitude and base line offset of each channel is independently variable A complete set of specifications is given in Table 1 2 1 14 OPTIONS 1 15 The following options are available Option 908 Rack mount kit Option 910 Additional Copy of the Operating and Service Manual These options will be shipped with the instrument if ordered at the same time 1 1 General Information 1 16 ACCESSORIES SUPPLIED 1 17 The instrument is supplied complete with the following items see Figure 1 1 HP PART NUMBER 800 mA Fuse for 230V operation 2110 0020 1 6 A Fuse for 115V operation Power cable Operating and Service Manual 2110 0005 see Figure 2 1 08005 90004 Model 8005B 1 18 RECOMMENDED TEST EQUIPMENT 1 19 Equipmentrequired to maintain the model 80058 is listed in Table 1 1 Other equipment can be substituted if it meets or exceeds the critical specifications fisted in the table Table 1 1 Recommended Test Equipment INSTRUMENT TYPE RECOMMENDED MODEL Oscilloscope HP 180C with plug ins 1805A and 1825C Sampling Oscilloscope HP 180C with plug in 1810A Square Wave Generator REQUIRED CHARACTERISTICS REQUIRED FOR Dual Channel 50 MHz band width 5 mV div sensitivity sweep speeds
54. 0 1628 9100 1624 9100 2247 9100 2247 9100 0346 9100 0346 9100 2251 185220630 5853 0215 195400630 1854 0630 1853 0034 Table 7 2 Replaceable Parts Description BIARD ASSEMBLY CAPACITOR FXD CAPACITOR FXD CAPACITOR FXD CAPACITOReEXO 1108 5 CAPACITORSF KD CAPACITORSF XD CAPACITORSF XO CAPACITOR FXD CAFACITORSFXD CAPACITORSF XD CAPACITORSF XD CAPACITOR F XD CAPACITOR FXD CAPACITOR F XD 1108 XD CAPACTTORSFXD CAPACITORwFXD CAPACITOR F XD CAPACITORSFXD CAPACITOReFXD CAPACITOR FXO CAPACITOR FXD CAPACITOReFXD CAPACIFOR EXD CAPACITOR FXD CAPACITORSE XD CAPACITOR FXD CAPACITORSF XD CAPACITOR FKD CAPACTTOR F XD CAPACITOR FXO CAPACITOR E XD CAPACITORSE XD CAPACITOR F XD CAPA 1 568 XD AMPLIFIER OUTPUT 47 6 10 6YDC TA 100NVDC CER 8020 10 01UF e80 20 X 100 CER CER 0 480920 01 SOWyDC POLYE 220 20X SOWVDC POLYE amp 7UF 10X VDC TA eOtUF 48020 100WVDC CER 10008 10 10008 0 CER 01 80 201 008 06 CER 2207 60 20 1000WVDC CER 1UF 10 35 04 TA SHTUF 80s20 25 6 CER 1000 e10 1000106 CER 1000 10 1000 CER ATUF 8 0 8 0 250 06 CER 0 47 8020 250 06 CER 80020 25wyDC CER OLUF 80 20 100WVDC CER OLUF 80 0 t00NVOC CER eOLUF 48020 100 08 CER el UF 420 SOWVDC POLYE U7UF 80 20 25 6 CER
55. 00 075700 0757 0250 0787 0337 0757 0417 TRANSISTOR NPN SI 803501 272 TRANSISTOR NPN SI 55 0 7 TRANSISTOR NPN SI 80350848 FTs300MMZ TRANSISTOR NPN SI 50835048 TRANSISTOR NPN SI TOe52 03668 TRANSISTOR PNP 81 TO 18 4 TRANSISTOR NPN 2N2218 81 10 5 PDs800MW TRANSISTOR NPN 2N2218 I 70 5 TRANSISTOR PNP SE 018 7 TRANSISTOR NPN 1 0 52 6 TRANSISTOR PNP SI 10 18 4 TRANSISTOR PNP SI 083101 2 TRANSISTOR PNP SI PDa310Mx 12 TRANSISTOR NPN SI 50 52 TRANSISTOR NPN SI 03350 72 TRANSISTOR PNP TO 18 47 TRANSISTOR PNP St 0168 76 TRANSISTOR NPN SI POz350Mw 72 TRANSISTOR NPN SI PDS3SOMN 27230 42 TRANSISTOR NPN 81 TO 52 TRANSISTOR NPN SI 3501 7 TRANSISTOR PNP SI 808310 572 TRANSISTOR PNP SI TO 18 PD 360MW TRANSISTOR NPN SI PDs350MW 52 TRANSISTOR NPN SI 853504 4272 TRANSISTOR NPN I 20635010 72 TRANSISTOR NPN I PORSSOMW 47 TRANSISTOR NPN I PDs350MW 4652 TRANSISTOR PNP SI 0 18 47 TRANSISTOR NPN SI 10052 7 TRANSISTOR PNP 81 TO 18 TRANSISTOR PNP 81 18 4 TRANSISTOR NPN 81 0 18 TRANSISTOR PNP 213700 81 6 7 TRANSISTOR PNP SY 70 18 47 RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTCR RESISTOR RESISTOR RESISTOR RESTSTOR RESISTOR RESISTOR RESISTOR RESTSTOR RESISTOR RESISTOR RE
56. 0040 1901 0 190120040 1901 0040 190120533 190140533 3190150040 1901 0040 1901 0040 190120040 1901e0040 190120040 191020016 1910 0016 190120040 190120040 19010040 190120179 19010535 190190535 15 331 1537512 1537204 9170 0029 14 AILS 9170 0029 5 590 05 5 59 CORE SHIELDING BEAD CORE SHI LDING BEAD See introduction to this section for ordering information Replaceable Parts Model 8005B Table 7 2 Replaceable Parts Reference Mfr Part Number Designation Description COILeMLD 1 5UM 101 908233 550 375100 157151 COIL MLD 1 SUN 10 0833 1550X 375L6 15 151 CORE SHIELDING BEAD 56 590 5 9100 1616 91001616 91700029 185460215 18540215 6 58 1850 015 16804 080 1853 0034 1858 0053 1864 3 1853 0034 185450630 18853 004 18556 1853 0036 1685 60 18549215 18539357 185320357 18 185420215 508 185400215 1853 0056 1853 9024 1854 0215 16540215 1855 1854 0215 1854 0215 1853400386 18540630 185320357 185320187 185449307 185300052 1853 0034 07 7 0718 075720718 22200 075720390 0758 0033 075820033 0757 0273 0698 4 6157 1 0157 0757 7 0757 0 0797 0424 075720433 07 7 0442 07570404 0692823402 0757 0835 0757 0284 07370735 22 08 757 020 O7S7 0718 07570718 07570730 0696 0757 086 0 7 06 0757 141 0757 0401 8757 0410 0 0757 07575 07570407 0757 46 757
57. 05 MP20 1200 0081 INSULATOR BSMGRFLG NYLON 120090087 MP21 310120126 NUTeBEVO FOR 7 432 THO BUSHINGS 5 310140126 MP22 50000051 TRIM STRIP 5000 0051 MP23 000 8701 60 86 STOE REAR OLIVE GRAY STO 00058701 MP24 S000 8703 COVERERT SIDE FRONTIOLIVE GRAY STD 500028703 MP2S 5000 8908 50008908 MP 26 5040 0234 LAMPHOLDER 5045090234 MP27 50490235 BASE LAMPHOLDER 04090235 MP 28 S0401124 208008 8060 0731 FRAME ASSY S X 11 FM 50600731 MP30 5660 0767 FOOT 8060 7 31 5660 8729 COVER ASSEMBLY BOTTOM 8069 68 9 1854 0063 TRANSISTOR NPR 203058 SI Gei 18540064 02 1854 0063 TRANSISTOR NPN 2N3055 SI TOe3 165450064 RY 210091812 RESISTGR VAR CONTROL CC SK 10 100 RR 2100 1812 RESISTORSVAR CONTROL CC SK 10 RO 210021717 RESISTOReVAR CONTROL CC SOK 20 LIN R10 210091717 RESISTOReVAR CONTROL CC SOK 20 LIN 811 0758 04 RESISTOR 27K 5 254 F 0 R12 21048 RESISTOR VAR 50 OHM 10 Sw CC PART OF A3 AMPLIFIER OUTPUT ASSEMBLY R13 2190 3104 RESISTOR VAR 50 ORM 10 Sw 08D PART OF AX AMPLIFIER OUTPUT ASSEMBLY 81 31900519 310020519 Sa 3101 0124 8 1169 8 SPST NC MOM 962 55 310121720 SWITCHePR DPDT 44 250VAC 31012517206 9 3191 0993 SWITCHe8L DPSTeNS MINTR SA 4756 G128890003A 10 31010903 3501176 8 085 5 MINTR SA 125VAC DC 626800 See introduction to this section for ordering information 7 3 Replaceable Parts Model 8 Table 7 2 Replaceable Parts Reference HP Part
58. 0522 DIODE GEN PRP 200 34 8 1901 0522 0 02 DIODEeGEN PRP 200 34 8 1901 02 ASCRT 190120522 DIODE GEN PRP 200 8 1901 0522 ASCR amp 1901 0522 DICDERGEN PRP 200V 3 PUS 1901 0522 9 190140522 DIODE CEN PRP 200 eus 190120522 468 191 2 DIOGEeGEN PRP 200 34 2US 190190522 2581 185400039 TRANSISTOR NPN 2N3053 SI 10 5 2N3053 4562 1654 0329 TSTRISI NPN 1854 0329 A503 1854 0039 TRANSISTOR NPN 2N3053 SI 10 5 17 2N3053 ASQU 165400329 TSTRISI NPN 1854 0329 ASQS 185480329 TSTR SI NPN 18580329 1 NPN 1854 09 18 8 185490329 6 ARE 075740280 ASR2 075720453 ASRI 90811 0929 ASRA 0757 2 ASRS 975720738 RESISTOR 1 1X 125w F TESO 100 C 1 8 T0 1601eF RESISTOR 3 32K 1 1280 F TCs0 100 C3 1 B sT0 33215F RESISTOR St 5 2 PW 94 BWH2eRS1 J RESISTOR 10K 1 125 09 17 8 1 092 RESISTOR 1 82K 1 2580 F TCs sOe 100 MFS2Cm ASRS 0757 0253 RESISTOR ZK 1 l2SW F 8 201 ASR 0757 0429 RESISTOR 1 82K 1 125 F TCzO 100 8 8 2 ASRA 210040554 RESISTOR TRMR 500 10 C TOP 4DJ 72 104 0 ASR 0757 0280 RESISTOR 1K 1 125W 060 49 1 8 0 1001 A5R10 0757 0280 RESISTOR K 1 5 8 90 Coot sbo Toei ager 5 11 0757 0433 RESISTOR 3 32 1 125w F 90 59 1 8 0 3321 2 0811 1746 RESISTOR 36 SX 2w PW 0 BWH2 36 100 J ASR13 0757 0 42 RESISTOR 10
59. 08512 3100 0512 See introduction to this section for ordering information Model 80058 Replaceable Parts Table 7 2 Replaceable Parts Reference HP Part 3 Qt Description Mfr Part Number Designation Number Y p 08008 61903 SWITCH ASSEMBLY DELAY 08005 61905 ALOR 0757 0385 1 RESISTOR 22 1 1 1239 F 0 1 401 2 1 oF 7 0757 0274 i RESISTOR 1 21 1 125W F 40 011 8 0 11 ALORS 2100 2683 1 RESISTOReVAR CONTROL CC 100K 10 8 J 1051 3100 0512 1 310040512 See introduction to this section for ordering information Replaceable Parts Model 80058 Table 7 3 Manufacturer s Code Numbers AS OF 01 13 77 PAGE 00000 NO M F DESCRIPTION FOR THIS MFG NUMBER KABELMETAL m T 121 ALLEN BRADLEY CO S TEXAS INSTR INC SEMICOND CMPNT DIV DALLAS X CORP RCA CORP SOLID STATE DIV SOMMERVILLE NJ PHOENIX AZ GOWANDA ELECTRONICS CORP GOWANDA NY 14070 24546 CORNING GLASS WORKS BRADFORD BRADFORD PA 16701 167 CORNING GLASS WORK 88480 HEWLETT PACKARD CO CORPOR 56289 SPRAGUE ELECTRIC CL ATE HEN HW ORDRMS MIT 1400 BUSSMAN MFG DIV OF MCGRAWeEDISON CO ST LOUIS MG 63017 T2136 ELECTRO jab Ads CORE 5 WELLIMANTIC CT 06226 276 95600 SEN CETTE USE INC 76530 TRW ELEK CMPNT CINCHeMONADNOCK CITY OF INDUSTRY CA91747 ILLINOIS TOOL WORKS INC ELGIN IL 60126 99800
60. 1 125 F 90 641 51 ef RESISTOR 357 1 125W F 90 C 1 8 T0 357R F 069823242 49 8 8 RESISTOR 180 5 iw MO 0 RG32 9076120014 0 AUVRI 19602 23149 DIODEeZMR 9 091 5X 00 7 0 4 5 82 10939170 190223223 DIODE 2NR 17 4 2X DOm7 PDs 48 TEX 008 2 10939 252 5 1902 328A DICOE ZNR 30 9V 2X 00 7 768 5 1902 3288 DIONE 2MR 15V 5 DOw Pia n 2 1 82 10939 2331 190243205 7 AUVRIO 1902 3092 DIODE ZNR 4 99V 2 DOe7 POR ON TCas 012 2 10939 96 See introduction to this section for ordering information 7 15 Replaceable Parts Model 80058 Table 7 2 Replaceable Parts Reference i HP Part Designation Number Qty Description Mfr Part Number ASSEMBLY POWER SUPPLY 08005 beid 86 80 2 08005 5 ASC 0160 0050 CAPACITOReFXD 4QUFe75e10X SOVOC AL 3004066050002 82 01666 CAPACTTORWEXD Q2UF 80w20 00 08 CER 0150 216 4503 0160 0228 CAPACITOReFXD 22UF 10 15 0 TA 1500226x901582 ASCH 0180 0050 CAPACITOReFXD 4008 75 1078 SOVDC AL 3004066052 ASCS 9160 2146 CAPACITOReFXD O2UF 80 20 0 CER 0160 2146 ASC6 0180 0228 CAPACITOReFXD 22UF e10 15VDC TA 15002262 ASC 0 160 5 374 CAPACITOR FXO QOUTUF 20 50 86 POLYE 01601 ista CAPACITOR FXD 047UF tw20X SORVDC POLYE 0160 4211 190120522 DIODE GEN PRP 200V 34 2US V 1901 0522 ASTRO 1961 0522 1006 60 PRP 200V 34 2US 1901 0522 ASCRS 1901
61. 1 658 y gory e i St che Co o Saas NN t 1 x in i eo ad 2 E S2 5 28 Gor EI t 82 5 i I 0 0 8 3 a 1 ona ss E s Ey e 1 i XU T ut m Ba 189 a Bye 193 5 i als 25 1 Nm Slo a 044 55 Sjo 9 T oun 69y aa 3 zI 6397 gr z o S IER E D of 4 y ely nf Ojo TT 5 dote ARO ER K 0 0 EZY x ST 99 ES 1 151 SE gt 7 ogy o lt ER oL 80 7 S 9 C un euo 8 lt 3 _ EH PHD m m RUE NN 2 lt 8998 Service 7 gt EE ULU Mte gt r A 18005 66510 0 Ol SQUARER d NETWORK Der 2 20Y 1 3 R20 mnl 51 C28 R18 B 20V 20 i n 450 06 D 24 s a C1 27 Li 87 47 10n 1 301 20 RIS RG 15 R2 10 DX PRESET 124v 8 O
62. 160 4213 1500476902 016092055 0160 3656 0 5 016022139 15001 2 016020174 016023456 0160 3456 016020174 0160 0174 01600174 015022055 0160 2033 016022055 916024213 0160 0174 9160 0174 01692055 0160 2139 01605 0 1723 0160 2055 016023456 016022327 0160 2327 015 1510050 0 5 1511 30 0 15682 00 0 0 8 016082204 1910 0034 1901 0040 1901040 1901 0040 190120040 1901 0040 1 3 1901 0533 1901 0533 190120533 1901240040 190120040 190120533 1901 0533 1991240533 1901 0533 190120533 1537 12 1537512 1537 12 15 680 15 302 15 502 10 100 10 100 910020346 910040346 10 220 892077 18530 8 882077 8820677 185320034 Model 8 Replaceabie Parts Table 7 2 Replaceable Parts Reference Designation Mfr Part Number Description 1853 0034 6 A307 1854 0630 A308 1854 0630 A309 185420630 A3G10 1854 0 TRANSISTOR PNP SI 570 18 0 185300034 TRANSISTOR NPN 51 52 47 882077 TRANSISTOR NPN SI TOe52 852977 TRANSISTOR NPN SI TO 52 7 392077 TRANSISTOR NPN SI 50 52 7 82077 185320357 43011 1854 0233 2 1205 0033 A3013 18540630 KEE 185320001 TRANSISTOR PNP SY 50 18 18530357 TRANSISTOR NPN 2N3866 SI 0 39 7 2 66 HEAT SINK 0 5 05 6 120540033 TRANSISTOR NPN 31 10 52 47 832077 TRANSISTOR PNP SI TO 39 185320001 TRANSISTOR NPN 81 TO 18 185420307 TRANSISTOR NPN SY 0 52 4 882077 TRANSISTOR PNP SI 10 18 185300034 T
63. 18530034 8 626 1 8 5 6 1 64 1 8 0100 Cej 80 0 365 cs cs 64 0 0 Eiv1 B T10 787RuF 1 8 10 Chol 8 1 7580 Chm i EaTQo20 oF Choi 8 7 of Cool 6 7 10 4 1 6 0 5 09 16 0 0 4 3 8 0 101 GC s1 8 T0 s2671 F C del 8eT063921 F Cds1 8 T0s151sF et 018601 Chel Bal Gea 328 MF5S2C 1 5 52 MER ZC o 78 0 38578 8 0 Chet 8 7 0 3 ORL oF 8 0 10 Del D oF 21 41 30 06 7 8 Chol 0878 oF 0201 4 8 1 6 10 9 oF 241 6 0 11 0 1001 8 Model 8005B Reference Designation 4 1 2 3 1 4 AIRES 646 47 8 1849 ALRSO 51 2 53 85 6 AIRS 8 0 1864 2 1863 ARGU AIRE 8 aires 09 AIR 1872 873 7 4 ARTS 6 1877 A1R78 A1R79 41881 A1RB2 1885 AIRAS 6 7 1888 1888 8 ATR88 HP Part Number 0757 0401 0757 0284 075720427 975720397 07570392 0757 0401 0757 0453 07570433 97570721 0757 0827 0757 0738 07570405 0757 0730 07570354
64. 3 00 EST 25 Em MAN GATE INPUT ATE AMPUFIER Inthe ASYNCH mode gate amplifier O8 normally 4 10 on disables gate 012 013 so that repetition rate pulses are blocked A negative signal at the GATE INPUT turns 08 off hence gate 012 013 is enabled and repetition rate pulses are applied to the Pulse delay generator for the du ration of the gate signal 4 11 inthe SYNCH operating mode gate amplifier Q8 normally on disables the repetition rate generator A nega tive signal at the GATE INPUT cuts O8 off which enables the repetition rate generator for the duration of the gate signal 4 12 PULSE SQUARE SELECTOR RATE SIGNAL VIA R30 RATE SIGNAL 0 a VE lt ViAG10 20V DOUBLE NORM saw RATE 9 SIGNAL 61 VIA 012 JI INPUT TO wm wm INTEGRATOR CIRCUIT p MODE ONLY LJ i 1 lt TRIGGER GUTPUT 1111 PULSE DOUBLE PULSE MODE ONLY INPUT TO DELAY GENERATOR Figure 4 3 Pulse Square Selector Circuit Model 58 4 13 The purpose of this circuit is in NORM and DOUBLE pulse mode to apply the rep rate generator out put to the delay generator and trigger the out put amplifier Alternatively in 50 WAVE mode the rep rate output is effectively disconnected from the delay generator and the trigger is established by one output from th
65. 5 9 19 503 INDUCTANCE 84510 568173 291 1853 0051 1205e0061 292 18540039 12050033 4203 1853 0051 120520033 TRANSISTOR PNP 2N4037 SY 5 7 2N4037 HEAT SINK 10 5 10 39 EK 120540061 TRANSISTOR NPN 203053 81 5 7 2N3053 HEAT SINK 0 5 12030033 TRANSISTOR PNP 2N4037 SI TheS 5140 2N4037 HEAT SINK 5 0 1205 0033 A2Qa 1854 0039 1205 0061 TRANSISTOR NPN 2N3053 SI 0 5 W 2815053 HEAT SINK TO 5 TO 39ePKG 1205 0061 1 06985536 AZR2 0698 5936 23 059525036 ARRA 0696506 A285 0698 5036 RESISTOR 250 1 RESISTOR 250 1 Se RESISTOR 250 1 5w RESISTOR 250 1 5W RESISTOR 250 1 58 0 100 0 100 50 100 1620 0 15 0 10 0 0 MPE 1 2 10 MFF 1 2 10 2 10 nm 07571141 86 Aan 0757 0198 KARA 9698 4123 0698 5036 4289 A2R10 0598 5036 RESISTOR 392 1X 5W RESISTOR 100 1 58 RESISTOR 499 1 125 RESISTOR 250 1 5W RESISTOR 250 1X 8 TCz04 100 TCs0 100 F 6504 1 0 0 0 TCs0 100 7612 3928 MF7C1 2 T0e101 F C 1 8 TO d99ReF MFF 1 2 10 MFF 1 2 10 mme nn 0695625636 1 0698 6 2 0698 5036 3 8 ABR A 0757 0811 0757 0198 6 RESISTOR 250 1 RESISTOR 250 15 RESISTOR 250 1 5 RESISTOR 392 1 RESISTOR 100 1 5W TCa0 100 TEs0 100 00 08 10 20 0 0 1 8 0 1 2 MFF 1 2 10
66. 503 PROCEDURE 1 Set 8005B controls as follows REP RATE 0009 0 3M ER CCW PULSE DE AY o SN IRE tT aei Banke aN der reatus 0 1u VERNIER M VLL dA Lbe Ee BOE e A aa ea AVEC Y PERRO CCW PUESE WIDT HS a ie Er DS oad AA 25n VERNIERO S Dias ELE su Es CCW TRANSITION TIME 7 EI dan de SA RR AE ep 0 1u OEESET VERNIER S ed a TA an YU Od E EN 1 RURAL OFFSET SWITCEES wine ER Un OFF OFFSET VERNIER osos abe epo EE MANTE E AE ANE Pare PULSE MODE 12 a gee a EE SQ WAVE OPER MODE IS E EE AA Sines here eee DS NORM LEADING EDGETA GR aye Dat E E Cw TRAILING EDGE 15 1 accio ae RENTE ate YR E CW AMPLITUDE VERNIER 16 usur a AS REE eua EY de CW AMPLITUDE RANGE 17 ter SSA E eel Ad fave al 5V AMPLITUDE VERNIER IS sawed Re D Sie A cd De CW INT OAD 25 us he once rou Ata n i d EE e ree EDI apa oll lan ON NORM COMPL 20 o eC RA UR brc bee Oh da e A NORM 2
67. 51 7 991 5 0 3578 9 1 8 10 002 C s1 8 TO 43R2 F 8 56 21 75 190243149 D10DE ZNR 9 09V 5X DO 7 TCr 057 82 109394170 AtVR19 1902 0041 DIODELZNR 5 11 5 00 7 POE Dn 6 009 CO 35622 0 121 01018 2118 5 11V 5 00 7 POE dW 5 35622 1 190240041 OIODE ZNM S 11V 5 DOW POD UW 009 CD 35622 See introduction to this section for ordering information Replaceable Parts Model 80058 Table 7 2 Replaceable Parts Mfr Part Number Description Reference HP Part Ot Designation Number Y A2 08005 65509 BOARD ASSEMBLY MOTHER 98005 66509 200 9150 0174 3202 0160720174 2 3 016042055 AeCa 0160 2055 CAPACITOReFXO 47UF 80 420X 25 8 6 CER CAPACITOR FXD 47UF B80 20 25WVDC CER CAPACITOReFXD O01UF 80 209 00 0 CER CAPACTTOR FXD OLUF 8020 100 6 CER 060 08 01600 06 589 0160 2055 ABCR 190120640 28 190 A2TRY 1908 2 10 1901 0650 11 1901 9059 DIODE SWITCMING 50 SOMA 2NS 5 DIODE SWITCHING 50 SOMA ZNS 5 DIODE SWITCHING 80V 200MA 2N3 7 DIODE SWITCHING 80 200MA 283 7 DIODE SSWITCHING 80 200MA 2N 7 199140040 190190040 19010050 1901 0059 1901 0050 A2CR12 1901 0059 DIODEeSwITCHING 80V 2008 NS 7 1901 0050 41 94 48 A2L2 5081 1973 25 9150 0118 326 S081 1973 COIL MLO 500 5 0865 190X 44LG 197503 INDUCTANCE 39 5081735 0 SOOUH 5X 9 6
68. 511 part number 3101 1234 Backdating 9 2 A1 BD AY TIMING 8005 66513 Model 8005B i P3 5 Ke R 25 9 NU CR5 CRI Pa eae A R e 58 E CR3 CR35 8 c _ Res R2 Lo x Sy RI nm ERD Gup pM RE 8 CUM s R24 R8 gt 7 RIG B 0 se Ri 63 cs S RIT 6468 RET 818 R3i cRi 030 LE R48 cri 610 C20 30 R29 R52 as R29 En pom 0 C44 5 4 R49 cui e OL RB 845 R43 SN 85 R83 R39 5 RSE 80 Cem R38 Ral mia o 847 x Baz 46 023 855 P 9 757 863 Ci6 CR 5 R36 02 065 CIO CR16 R58 ORBI 820 R6 38 R22 CRI3 R70 R66 R22 CRIS 2 532 62 R 69 CR R71 w 8 E R35 gt 833 5 R76 RIZ S a R72 Sie R74 CR20 R73 R75 SERIAL NUMBERS 1341600330 1341G00330 AND BELOW EE Model 8005B
69. 928 RESISTOR 10K RESISTOR 1K 1 RESISTOR 1K 1 RESISTOR 200 1 RESISTOR 200 1 RESISTOR 200 1 ix 125W F 04 125 F 40 0 056 F TCzO 100 i25W F TCz0 100 125 F TCsO 100 F 0 00 25 RESISTOR 1 SK 55 1 MO TCz0 200 RESISTOR 7 5K 1 25 F 0 460 RESISTOR 715 1 i255 F 020 RESISTOR 39 2 1 1285 404 RESISTOR 2K 1 RESISTOR 24 1 123 F 80 100 SN F 0 100 RESISTOR RESISTOF RESISTOR See introduction to this section for ordering information 150K 1 1250 F TCsO 100 22 1 1 125W F 0 150K 1 25 0 F TC O 100 4 1 82 0 1001 9 91 8 70 619 49 1 8 10 101 C4wi BrT0w2019F 8 8 C ast amp T0 2001eF 4 1 8 0 1001 4 1 8 0 39 25 4 3 8 7 03011 Chap 8 0 591 F 15 0 5 0 cs C691 8 T02301R F 24 1 Deia Cust 8sT0 301ReF Cd d BT Ow i Siok 0 198 6 C4e1 B T0 825 ReF 6 Casl BeT0s1002eF C4 i 8 T0 1601 F MFS2C 1 8 64 tar 69 8 86 8632 C4 1 8eT0 7501 F 99 1 8 0 7 58 649 1 6 0 3582 0 00 01 64 1 8 4 0 8 0 1 1 2 8 2 21 69 5 8 7 11 Replaceable Parts Table 7 2 Replaceable Parts Reference HP Part Designa
70. 99 BI oS p pl g x 5 Ze o 83 Bat 5 ne 3 so B A a 9 Sc 5 5 amp EEN gt a 883 8 42 2 t e f 8 qa TEN 80 663 x VW 8 383 3 98 t Sao d 152 A 253 00 017 2 234 NJ 0 Mode 8005B P OA3 08005 66510 Q12b 2 2 25 O 05us cm EE 25 28V 8 2V EE o M SN d 4 St L ALY CR34 5 DC 68 25V RAS 62 9 100 T 12 1K C RE 100 Lu y 6222 INVERTER 7 19 422 36 CR 18 100 5 HV d R120 e d 1 Jar R42 4 AAR20 u 01 ER jaRa CD 0 LE OK 197 Nel 92 R43 1 54 C10 Min R44 200 2 R122 297 5 1 25 EMITTER FOLLOWERS NOTES ALL RESISTANCES IN OHMS AND CAPACITORS IN 7 FARADS UNLESS OTHERWISE SHOWN INDICATES SCREWDRIWER ADJUSTMENT 25V 25V 254 250 SAS POSITIVE 150K BASELINE s ADJ P 016 130 17 5V 3185 2 0 0 051 25 0 0 26603 ca 5 20V 3 105 2 ge C 75K 025 80 dap 100 7625 026 8 Leos 182K CR 27 45 10n 25V 25V Model 60058 Service PIO A2 08005 66509 S 22 267K Es 17 L8 2 25v Zu 72 pum TuDE P 0 A3 FROM 2 RT ELO 7 OUTPUT 4j
71. A A NN ts CW INT EOAD 25 gS sue ane ADU Ud aei i P ad pode ee ON NORM COMPE 20 CURE oc ERIS E eR PNE odio TA NORM Set the controls of scope as follows MAIN SWEEP 0 DELAY TRIGGER 0 SWEEP MODE NORM DELAYED TRIGGER AUTO CM DELAY 0 TRIGGER Adjust the REP RATE VERNIER 2 to obtain a 0 2ms period on the display Move the signal 0 1ms by switching the PULSE DELAY 3 to 3m and adjusting the VERNIER 4 appropriately Adjust the 1821A DELAY DIV until intensified spot coincides with the leading edge of the second pulse on the display Model 80058 PERFORMANCE TESTS Performance Tests 5 16 Square Wave SPECIFICATION PROCEDURE 1 OFFSET VERNIER 8 OFFSET SWITCH 9 MAN 1 0 15 Hz to 10 MHz Duty cycle 50 5 for repetition rates lt 1 MHz increasing to 50 15 at 10 MHz TRIG 2 27 10503A Set 8005B controls as follows REP RATE 1 VERNIER 2 80058 PULSE GENERATOR 505 TERMINATION OSCILLOSCOPE 4 8 9 9 5 HR 4 5 5 mm Fo o gt v 8 8 s 9 X3 O4 6 t 9 9 t t 9 q 8 3 p 4 sq 9 9 e O3 ns
72. A PROCEDURE 1 Set 80058 controls as follows REP RATE a IA 0 3M VERNIER 2 nu sre EE S E Pede CCW PULSE DELAY S DINE WWE CA eee eos e ga VERNIER Dola dork ORI deb A EWR US VEN CCW PULSE WIDTHS E SEES s Y VER NIE RG aaa Led UE a Yee AS SIUE RR TRANSITION TIME T eebe AR A AN A OFFSEFVERNIEH OFF nac eate eie OFFSET SWITCH O eee SES dun OFFSET VERNIER 10 tc wage aed awa ada NORM Wee Seed a eto PULSE MODE SYNCH m e de a ge bn s OPER MODE S V CCW ee rr exa ue eO 14 LEADING EDGE CCW i Se ots ad ate 19 TRAILING EDGE hh 16
73. AMPLITUDE VERNIER isk a AMPLITUDE RANGE TA Te even ong en d AMPLITUDE VERNIER IB eens eru 18 0 725 Y DE E ES NORM Da NORM COMPL 26 deet Set the sq wave generator FREQUENCY 2 kHz WIDTH SQ AMPLITUDE 2V Turn the 80058 REP RATE VERNIER 2 slowly CW Check that the pulses from 8005B occur only during the ON time of the gate Check also that the first pulse is coincident with the start of the gate and the last pulse is of normal width even when the gate ends during the pulse Disconnect the gate signal at the 80058 GATE INPUT 21 Check that no pulses are generated by 80058 Model 8005B Model 80058 5 26 Amplitude Normal Complement Performance Tests PERFORMANCE TESTS SPECIFICATION 5V with internal 50 ohms and external 50 ohms 10V with internal 50 ohms and external high impe dance and external 50 ohms Normal or complement switch selectable 80058 6 zQ 34 10120A PROCEDURE 1 Set 80058 controls as follows MAN11 2 Check the normal mode output from both output channels 3 Set the NORM COMPL switch 26 to COMPL and check both outputs PULSE GENERATOR 180 O
74. APACITOR FXD 2208 5 3000 06 MICA 0160w0134 1LF 10 38 06 1500105 2 1 80 0 01 4 4 17 660689 CAPACITOReFXO OLUF 80 20 00 CER 0160 2055 1 016027 CAPACITUREFXD 10PF 5 300 1068 MICA 016022197 19 016092212 CAPACITOR EXD 5608 7 425 3001 MICA 015092212 14020 016093716 CAPACITOR FXO 022UF 10 2501 06 MET 016023716 DEIER 018090376 CAPACITOR FXD 47UF 10X 35 806 TA 180D474x903542 DIER 0160 3725 CAPACITOR FXD 8 4910X 4QnvOC MET 016023725 HEISER 0180 28 CAPACITOR F XD 22UF 10 15 TA 15002269 2 CAPACITOR FXD 220UF e20 10 626 TA 150D227X001082 0180 0159 0 CAPACITOR F XD 220UF 20 10 06 TA 150D227X001052 01850 40159 9 2 CER 0160 2055 110 80 201 CAPACITGReFXD OLUF 0180 55 6 9 27 016023456 CAPACITORe FXD 1000PF 10 1000WVDC CER 016053456 8 3 101 969 1006 5 1 6 15 SOMA 75688 DO 7 1390190179 AGCRa 199140179 DIODE4SMITCHING 15 SOMA 750PS DOe7 19010179 ALCRO 1901 04 9106068 116 16 5 SOMA 8 190100044 DIODE SWITCHING 15 SOMA 75088 7 1901501789 190120179 68 DIODESSWITCHING 1SV SOMA 75088 7 1901250179 19010179 866 61 190120044 DICDE SHITCRING SOV SOMA ONS 1901 4 22 19010044 1008 61 6 SOV SOMA 8 1901 0044 COILeMLO 47 0 20 6845 1550X 37516 5 479 9100 1613 1 81 CORE SHIELDING BEAD 56590 9170 0029 5 38 7 5 Aal
75. ECTOR 7 Let Le BASE 019 di Z JUNCTION R71 R41 BASE 022 022 COLLECTOR Figure 4 6 Delay Generator Timing Sequence 4 18 WIDTH GENERATOR GATE Q25 026 CLOSED CLOSED DOUBLE SQ WAVE SCHMITT TRIGGER 027 0286 TO PHASE SELECTOR CCT 08 68 SCHMITT TRIGGER 031 032 Figure 4 7 Pulse Width Generator Model 80058 Principles of Operation 4 19 Operation of the width generator is similar to SINGLE PULSE MODE that of the delay generator A Schmitt trigger Q31 032 1 BASE 022 controls the operation of a ramp generator via a switch 030 When the ramp reaches the threshold level of BASE 025 Schmitt trigger 025 026 the resulting change of state resets the first Schmitt trigger This in turn resets the ramp generator which resets the second Schmitt trigger This BASE 031 cycle occurs once for each input pulse to Schmitt trigger 296 qu BASE 028 A AA 4 20 in the SINGLE pulse mode gate 025 026 is COLLECTOR 31 ef mn SSES wi SE closed so that only the delayed output from the delay DOUBLE PULSE MODE generator reaches Schmitt trigger 031 032 via 224 BASE 031 AA we LILr 4 21 Inthe DOUBLE pulse mode 026 is held off so 1 A A 1 4 4 BASE 028 e that Q25 can be turned on by the in phase output from the delay generator
76. ISTOR 15 1X 125W 9806 401 6 0 1 50 0757 6 RESISTOR 10 1X 125 2420 6045 51 Del 0 A3R121 075700346 1 RESISTOR 10 1 125 F 0406 9 1 8 70 10 0 82 07570394 RESISTOR 51 1 1 125W F 454 33 069823693 RESISTOR 30 5 W MO R632 RESISTOR 300 5 25W F 40 cs 0758 4 8 0 4 1 8 02101 1258 A3R125 0757 0401 RESISTOR 100 1X ABUL 1820 65 ICeDIGITAL SN7470N TTL Jek SN7470N DIODE ZNR 5 11V SX 007 502 46 Thee 009 CD 35622 1 64 2 0 1906 64 O10DEeZNR 16 2V 5 gt 7 POsz w 066 82 1693960242 1902 0154 3 85 ASVRS 190223182 DIODE ZNR 2 1 5 DO 0 TCu 064 190223182 190223182 4 65 84 00 lt 7 5 12 1 DIODE ZNR 1902 2 5X 50 7 0 4 08 053 2 10939 158 8 25 208 100 190263139 ASYRT DIODE 2NR 7 5V 5 50 7 0 8 8 05 1902 0064 1962 0664 8 CD 35622 ABYRG 1902 0041 616 0 2808 5 11 5X DOe7 PDs W TC DIODE ZNP 14V 5 DD 7 4 562 69 FZ 1201 1902 00480 ASVR S 196240040 DIODE ZNR 14 SX 7 Pis DN 056 FZ 1201 DIODE ZNR 9 53V 5 DO 7 POR 4 059 SZ 10939 176 190220173 3 TCz 06X 1902 0555 0818 9015 5 13V 1006 2108 1902 0555 7 S 11V SX 0007 POz W TOze 009X CD 35622 21006 2108 1802 1 6 5 1 DIODE ZNR 5 62V 5 00 lt 7 08 4 CD 35634 1902 3104 9 DIQUEeZNP 20V 5 DO 15 PDsiW Thee 073
77. K 15 125 F 0 109 8 178 100 ASRIGS 07570736 RESISTOR 1 82K 1 85 0 F 90 MFS2Cot ASR S 07570283 RESISTOR 2K 1 1259 F TC20 w100 8 78 2001 ASR16 9757 0429 RESISTOR 1 8 4 1 125W F 0 0 Chat 8 182 87 2100 0554 RESISTOR TRMR 500 10 TOPeADJ 1eTRN 72 0 ASRS 0757 0280 RESISTOR iK 1 125 F TCEO 100 64 8 0 0 0757 0280 RESISTOR IK 1 1254 F C491 8e1091001 F ASVRS 1902 0041 0100884288 511 SX 00 7 PDE 1626 CD 35622 1902 3149 DIQDE ZNR 90 9 SX 50 7 PDS 4 68 057 2 10939 170 1902 0031 DIODEeZNR 5 5 00 7 POs W 762 009 CD 35622 ASVR12 190223149 DIODE ZNR 9 09V 5X 00 7 POs GW 68 DEI 2 10939170 See introduction to this section for ordering information 7 6 Model 8 Replaceable Parts Table 7 2 Replaceable Parts Reference HP Part Geer Mir 98005 61901 SWITCH ASSEMBLY RATE 0800561901 210022684 RESISTOReVAR CONTROL CC 100K 10 10CCW 23106014 310020511 See introduction to this section for ordering information 7 17 Replaceable Parts Model 80058 Table 7 2 Replaceable Parts Reference 8 Description Mfr Part Number Designation 680056 2 SWITCH ASSEMBLY WIDTH 08005 61302 1757 9385 RESISTOR 22 1 1 125 F 0 01 8 2281 2100 2683 RESISTOR YAR CONTROL CC 100K 10 7 J 00577 RESISTOR 1 5K 1 1250 F 40 Chat BuT UHL SOL eF 31002
78. N 2N1866 SI 39 7 2N3866 A3Q32 1853 0027 A3033 14530099 23034 1854 0233 A3R1 0761 0052 RESISTOR 270 S 1 MO 0 8632 A3R2 83 ASRA ASRS Ann ASRS ASRS 10 ABRIL 2 A3R13 A3R14a A3R1S AFR1S A3817 A3R18 89 0 A3R21 KSE 83 0 3 25 6 87 A3R2B 389 A3R30 ASRS 82 3 A R3a 43835 834 97570260 075720418 075790401 075720407 6757 0394 0787 0283 075720280 6757 0391 0757 0273 075720435 07570410 0758 0698 07570 0757 0346 07570410 4757 0284 0757 0351 0757 0621 0757240438 9757 0522 90797 0280 0757 0338 47570487 97570407 9787240807 076120015 0767208080 9698 1700 075740381 0757 0283 075720283 0737 0468 0757 0459 0757 0 69 RESISTOR ik 1 RESISTOR 619 1 RESISTOR 100 1 RESISTOR 200 1 RESISTOR Stat RESISTOR 2K 1 RESISTOR 1K 1 RESISTOR 3 Gik 129W F 90 25 F 0 129 F 0 125 F 90 1 125 F 125 F 1258 F 0 00 RESISTOR 39 2 1 1258 F TCz 0 100 1 125 F RESISTOR 3 92K 1 125 F 406 RESISTOR 301 1 125 F 0 8 RESISTOR 62 5 RESISTOR 301 1 RESISTOR 10 RESISTOR 301 1 1 25 F 0 850 F 0 1250 F TCzG 100 125W F 0 100 PESISTOR 150 1 125W F 40 RESISTOR 15 1 RESISTOR 625 1 125 F TCs0 100 125 F RESISTOR 5118 1 125 F
79. OCEDURE Voltages are measured with respect to chassis ADJUST RESULT 1 Connect the digital voltmeter A5R17 25V 200mV to 25V TP 2 Connect the digital voltmeter 25V 200mV to 5 25V TP 3 Connect the digital voltmeter 20V 500mV to AT 20V TP 4 Connect the ac voltmeter to lt 10mV 5 25V TP and measure ripple 5 Connect the ac voltmeter to lt 10mV 25 25V TP and measure ripple Adjustments Model 8005B ADJUSTMENTS 6 16 Timing ADJUST RESULT 2 With the 8005B connected 4109 22 MHz 5 as shown in the upper 80058 COUNTER diagram 1 measure rep rate PULSE GENERATOR TRIG gt a 3 Set Rate Vernier CCW mid 2494 28 TERMINATION 5 4 With the 80058 connected A1C33 22 10 as shown in the lower 105304 diagram 2 measure pulse width at 50 of amplitude 1 REP RATE SET UP 5 Connect trigger output to scope channel A and 80058 output A to scope channel B Set Rep Rate to 0 3M vernier mid position delay 0 1 vernier CW SAMPLING OSCILLO SCOPE E bri 80058 PULSE GENERATOR 20 nk 6 Measure the distance A1C22 3 9 10 between the trigger pulse and the leading edge of the output pulse 50R TERMINATION B491A 10503A 6 17 Pulse Shape 2 PULSE WIDTH SET UP EQUIPMENT Digital Voltmeter PROCEDURE PROCEDURE 1 Set 8005B controls as follows 1 Set 80058 controls as follows REP RATE 1 20M REP RA
80. OPERATING AND SERVICE MANUAL 8005B PULSE GENERATOR SERIAL NUMBERS This manual applies directly to instrument serial number 1627G00731 With changes described in Section IX this manual also applies to all earlier instruments For additional important information about serial numbers see INSTRUMENTS COVERED BY MANUAL in Section O HEWLETT PACKARD GmbH 3 Herrenbergerstr 110 D 703 B blingen Federal Republic of Germany MANUAL PART NO 08005 90004 Microfiche Part No 08005 90504 Printed MAY 1977 General Information Model 8005B Figure 1 1 80058 Instrument and Accessories Figure 1 2 Rack mount Kit Option 908 1 0 i Model 80058 General Information SECTION 1 GENERAL INFORMATION 1 1 INTRODUCTION 1 2 This Operating and Service Manual contains in formation required to install operate test adjust and service the Hewlett Packard Model 80058 Figure 1 1 shows the instrument and accessories supplied Th
81. RANSISTOR PNP 51 TO 39 0711 FTsiGHZ 18530315 HEAT SINK TOeS TO 39 PKG 120820033 185420307 5 A3616 185440630 3917 185340034 5 05 185 43018 120590033 TRANSISTOR PNP SY TOe39 5021 2 HEAT SINK TO 5 TO 39 PKG TRANSISTOR PNP SI 539 PDsiW 7572 185350315 HEAT SINK TOeS TO 39ePKG 120520061 TRANSISTOR NPN 2N2218 SI 0 5 2088 0044 2N2218 155300315 12050061 43919 18530315 12050061 0 1853 0315 12050061 43921 1854820053 1853 0027 2 12050033 A3Q23 185320027 120520033 A3024 1854 0307 TRANSISTOR PNP SI 10 59 PDELW 4527 HEAT SINK 5 0 39 TRANSISTOR PNP I 39 80 727 HEAT SINK TOeS TO 39 PKG TRANSISTOR NPN SI 70 18 7 185320027 12050033 1853 0027 1205 0033 185450307 1854 9019 5 185320034 6 1854 0233 7 1854 0332 43028 1205 0061 TRANSISTOR NPN SI 0 18 60 18540019 TRANSISTOR PNP SI TO 18 POz360MW 189320034 TRANSISTOR NPN 2N3866 SI 89 17 2N3866 TRANSISTOR NPN SI TO 39 POz1W 572 185400332 HEAT SINK 05 039 6 12050061 43629 1884 0332 12050061 43630 1854 0053 120520031 A3031 185490053 1205200323 TRANSISTOR NPN I 10 39 POsiW 57 185400332 HEAT SINK 5 0 39 6 120520061 TRANSISTOR NPN 2N2218 SI 10 5 5 860 2 2 8 HEAT SINK TO 5 T0e39 PKG 120540033 TRANSISTOR NPN 2N2218 SI 10 5 PDz800Mw 282215 HEAT SINK 0 5 0 59 1205 0033 TRANSISTOR PNP SY 0 39 PDs1W 2 185220027 TSTR SI PNP 1853 0090 TRANSISTOR NP
82. RATOR TRIG 10503A Set the 8005B controls as follows REP RATE T Scale emere EN 10K 6 uan A AA RC re CW PULSE DELAYS RG AAA IPEA RATER e eta 0 11 VERNIER sR di Ma Gage EE CCW PULSEWIDTFESS ice ee Nd dere ws 1 EK NR e 3u MERNIER 8 oh bora E A Sate Ee A Eed AAA as Q CW TRANSITION TIME T ye te is 10n OFFSET VERNIER a eec agra lane SEU e bo b alan a OFFSET SWETCH 9 pute Set ds e vie a OFF OFFSET VERNIER Osi evs TSS RADA RAN MAN TI S aa a APO ASA AAA eu EUREN 5 6 0 006 12 7 A Wa S OE S rd das NORM OPER MODE TI NN EN ee NORM LEADING EDGE 14 se se e ws v s AA oe Dre a CCW TRAILING EDGE ii EAE AAS BOWER aca AA a CCW AMPLITUDE VERNIER 16 ES eu e e Saa GG 9 CW AMPLITUDE RANGE 17 RO a 5V AMPLTEUDE VERNIER TIS R
83. RESISTOR 200 1 25W 90 MES 20 1 HEED 0598 0085 RESISTOR 261 1 125 F 4 Chut 261 AUR 075720735 RESISTOR 1 21K 1X 25W F 40 MF58C 61 40 RESISTOR 511 1 25W 0757 0726 8 RESISTOR 22 1 1X 125W F TCz0ee100 MF4C1 8eTQeg2RieF 9757 0385 0 8 4 07570741 RESISTOR 2 438 1 25 F 90 5 2 oi 4 2 07570819 RESISTOR 909 1 SN 9 4 MF7C1 2 T0 909R F AGR13 0757 0401 RESISTOR 100 1X 125W F 060 C4e1 B T00101 f ARIS 0757 0427 RESISTOR 1 5K 1 125W F 0 Chel 8 0 301 RESISTOR 61 9 tx 125W F 0 C8ael 8 T0 6192eF 0757 6 7 0757 0385 RESISTOR 22 1 1 1258 F 040 MF ACY 8 1 02281 RESISTOR 5 1 SX 23 FC TCm 400 500 665 06863 8 7 4 See introduction to this section for ordering information Model 8005B j Replaceable Parts Table 7 2 Replaceable Parts Reference HP Part ot Designation Number Description Mfr Part Number 066320515 RESISTOR 5 1 5X 25 26 0 85165 0 068320515 RESISTOR 5 1 5 2 FC 0 85165 4 21 0698 4 RESISTOR 2 15K 1 125W F 0 Chel Ze 0 2 51 EELER 07S7 0280 RESISTOR 1K 1 l2Sh F TCz0 100 C uet 8 T0 1Q01 F 3 0757 0 RESISTOR 7 5 1 18SW 90 Cas1 8 sT0e7S01 F 6 6698 5 0761 0049 25 07570797 4 07570438 7 AURZB 065827 RESISTOR 3 57K 1 125W F TCs092100 4 1 8 0 357 RESISTOR 200 SK EW MO RG32 RESISTOR 90 9 1 SW F 0 MF7Co1 29T0s90R99F RESISTOR 5111 1
84. SCILLOSCOPE 5082 TERMINATION sr v 4 5 og ov 4 4 o 4 gt 4 4 s p 4 q t vos mors 4 4 y s bog o4 t q 6 0 9 q 0 0 AO o aa s et RN UP OS ee EEN rs a more pos than OUTPUT OV We more OUTPUT neg 5V than A more pos than E n cca eg more 0 neg 5V than OUTPUT OUTPUT ss O NORM 5 19 Performance Tests 58 27 DC Offset SPECIFICATION PROCEDURE Model 80058 PERFORMANCE TESTS the maximum output amplitude offset is 10V Offset range with amplitude vernier CCW is 2V Offset range increases to values shown when amplitude vernier is CW 180C OSCILLOSCOPE 80058 PULSE GENERATOR TRIG zQ aF 279 TERMINATION 10120A 1 Set 80058 controls as follows 5 20 EXT
85. SISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR See introduction to this section for ordering information 200 1 25 F 060 200 1 258 F 0 iK 1 125W 0 9040 36 8 1X 12588 F 404 2K SX 258 F 0 00 2K 5 25W 40 3 01K 1 125W F 0 0 787 1 125W F TCe0 100 100 1 125W F 8 100 75 1 125 F 06 200 1 12SW F 100 750 1 125W 0 1 1 1 125 F 50 5 100 3 32K 1 1258 F 680 10 10K 1X 25 F 0 100 1 25 F 50 100 2 67K 1 125 F 0 3 92k 1 125 F 0 159 1 125 F 0 100 1 3K 1 280 F 0 1K 1 125 F 0 100 432 1X 1250 F 90 200 iX 25 F 0 200 1 2SW F 0 0 759 1X 25W F 0 3 57K 1 125 F 90 1 3K 1 125 F 90 30 1 1X 125W F 0 100 100 1 125w F 0 100 1 125 F 920 301 1X 125 E 2020 IK 1X 125W F 0 100 475 1 125 F TCa0e 100 200 iX 125W F 060 511 1X 1250 00 6 19K 1 125 F 00 406 1K 1 125 F 50 100 1 12SW F TCzO 100 432 1 25 F TC zO 100 562 1 125 F TCz0 100 888 3611 SPS 3611 SPS 3611 888 i611 882077 185320034 DEE 2N2218 185320034 82077 1553 0034 185306 1853 0016 552677 SPS 3611 5853 0357 185300357 SPS 3611 SPS 3611 52077 SES 3611 1853200356 185320034 SPS 5611 985 3611 SPS 3611 SPS 3611 SPS 3611 1853 0034 852077 1853 7 853 7 8 7 2N3740
86. SLO BLO 1 2525 UL 313016 Fi 211040020 FUSE 8A 250 SLO BLO 1 25X 25 UL MDL 8 10 EL 9100 1 FILTERSLINE 6 910023121 Ji 125080118 CONNECTOReRF BNC FEM 8GLeHOLESFR 2881281 J2 125020118 CONNECTOR RE BNE FEM SGLeHOLE FR 8 128 1 33 1250 0118 1 8 ANC FEM SGLeHOLEeFR 0 81812821 J 1250 0118 CONNECTOR RF BNC FEM SGLeHOLE FR 28 81281 J5 125090118 CONNECTOR RF BNC FEM SGL HOLEeFR 281 J 125090118 CONNECTOR RF BNC FEM SGLeHOLEoFR Spa DRM 28 08 28 1 MP1 0340 0128 TERMINALeSTUD FKDeTUR PRESSeMTG 0135930132589 MP2 037094 BEZEL PUSHBUTTON KNOB JADE GREY 037000914 MP3 0370 1097 KNOB sBASEePTR 5 IN JGK SGISDECAL 037051097 MPA 037021099 KNOBeBASESPTR 5 IN JGK SGIeDECAL 9370 1099 MPS 037021107 KNOBeBASESPTR AND BAR S IN JGK 037021107 MP6 037091108 KNOBSBASESCONC PIR AND BAR 5 IN JGK 037091108 MP 0370541125 KNOBeCONC PTR IN JGK 81 0370e1125 MPB 038 08 SPACEReRND SLG 1810 250D BRS NI PL 0380 0008 MP9 08905 09101 DECK MAIN 08005 00101 MP 1 0 08005 00203 PANEL SUB LEFT 800605200203 MPLE 98005 00209 PANEL FRONT 08095490209 MP 12 08005 00210 PANEL SUB SWITCH 08005200210 MP13 08005e00211 PANEL SUBeRIGHT 08005209211 1 4 08005200212 PANEL REAR 0800500212 MP1S 08005204101 COVER 08005204101 MP16 08005 04102 CUVER SWITCH 08905 04102 MP17 08607205103 COVER HANDLE 080072045103 MP18 0807 8 COVER ASSEMBLY 08007294104 020102011025 MEAT SINK 080102011
87. TE SS ETA Wear dye a en b Ne EXT VERNIER EE 2 a de a dure AA A to CCW PULSE DEEAY Luis moine ace Ge 605757 77 Ae Rea 0 1 VERNIER ur ere ghee AN A re Va CS RE UTR CCW BUESEWIDTEH 5S re NT om ate p se Yo ae ma p br e 3 MERIENDA CCW TRANSITION TIMES asas 4 00 a a 10n OFFSET VERNIER SS caida AAA ODS Oe Re RR RAO obe A OFFSET SWITCH 9 A LEE A S OFF OFFSET VERNIER 104 ere se ce eh Ee T bae d a s MANAT un a ete st uiro os RU ars EU RSS d PULSE 12 eee CN TUM NORM OPER MODE 13 ver ES vta UB US E teer e qud OS ees NORM LEADING EDGE Torras nes ry ya DUST CCW TRATEING EDGE 15 Bu ES EA erg CCW AMPLITUDE VERNIER 16 ocio iaa are ek e pau 018 ga xx Cw AMPLITUDE RANGE TZ X IRR Y EE NC Soda or Eo te 5V AMPLITUDE VERNIER 18 a die Dae A ARCA n cw INT LOAD Be
88. TE 1 EXT 2 CW VERNIER 2 CCW PULSE DELAY 3 0 tu PULSE DELAY 3 0 10 VERNIER 4 CCW VERNIER 4 CCW PULSE WIDTH 5 25n PULSE WIDTH 5 25n VERNIER 6 COW VERNIER 6 COW TRANSITION TIME 7 10n TRANSITION TIME 7 10n OFFSET VERNIER 8 5 OFFSET VERNIER 8 OFFSET SWITCH 9 OFF OFFSET SWITCH 9 OFF OFFSET VERNIER 10 OFFSET VERNIER 10 MAN 11 MAN 11 PULSE MODE 12 NORM PULSE MODE 12 NORM OPER MODE 13 NORM OPER MODE 13 NORM LEADING EDGE 14 CCW LEADING EDGE 14 CCW TRAILING EDGE 15 CCW TRAILING EDGE 15 CCW AMPLITUDE VERNIER 16 CW AMPLITUDE VERNIER 16 CCW AMPLITUDE RANGE 17 5V AMPLITUDE RANGE 17 5V AMPLITUDE VERNIER 8 CW AMPLITUDE 8 CCW INT LOAD 25 ON INT LOAD 25 ON NORM COMPL 26 NORM NORM COMPL 26 COMPL 6 2 Model 8005B Adjustments ADJUSTMENTS 2 Reverse voltage adjustment operate with DVM PULSE MODE 12 SO WAVE floating OPER MODE 13 NORM ADJUST RESULT LEADING EDGE 14 CCW TRAILING EDGE 15 CCW a Connect the DVM high A4R31 150mV 7 AMPLITUDE VERNIER 16 CW terminal to TP1 and the AMPLITUDE RANGE 17 5V low terminal to 2 AMPLITUDE VERNIER 18 cw b Connect the DVM high A4R41 150mV 50mV INT LOAD 25 ON terminal to TP3 and the NORM COMPL 26 NORM low terminal to TP4 3 Integrator adjustment ADJUST RESULT ADJUST RESULT 2 Adjust OUTPUT 38100 BBV a Set 80058 Pulse Mode 12 to SO Wave b Using DVM measure across A4R46 9 5V 7 7 chassis and A4 7 Collector if necessary press MAN button o
89. X 125W F 90 8 8 51117 RESISTOR 357 1 125W F 0 14 8 0 3578 n Chai 8 2 01 oF 0 RESISTOR 2K 1 1259 F 0757 0283 49 RESISTOR 6 81K 1X 125w F 0 Ca t 8 T0 6811 F 69 0 0 RESISTOR TRMR 500 10 C TOPeADJ 72210420 3 2100 0554 8833 801 0 RESISTOR 1 5K 1 125W F 80 100 Chul 7 070 82 RESISTOR 7 5K 1 1258 F 20 90 64 0 7501 057 06 5 RESISTOR 2 15K 1X 1258 F 490 4 0 aF 698 0084 30 Chal 8 10 1001 420 1250 1 AGRIS 0757 0280 RESISTOR 1K ASRI 0698 6 RESISTOR 3 574 1X 12548 90 C eif 8 T0 357R F A4R37 0758 0126 RESISTOR 51 5 25H F 0 CS A4R38 075720797 RESISTOR 90 9 1X 5W 0 76 7 RESISTOR 357 1 125 F 96 65 1 0 357 0698 3242 9 lef 1 86 40 RESISTOR 3 01 1 125w 0757 0275 0 4 AURA 2100 0554 8315 08 S00 10 TOPoADJ 2 04 0 AUR42 6695 62 1 RESISTOR 2674 1 125W F 40 F 843 075702 RESISTOR 909 1 1258 F T sO 100 Chet Deg 69 RESISTOR 180 5 fW MO 0 RG32 07610018 ABRAS 075720431 RESISTOR 2 43K 1X 125W F 40 ei BeTOe24S eF 21000554 RESISTOR TRMR 500 10 C TOPeADJ 782 089 HEGER 6757 04141 RESISTOR 2 43K 15 125W F 40 31 2 8 1 81 ARAB 07570 6 RESISTOR 4 32K
90. ble General instruc tions for re packing are as follows 2 14 The 80058 will operate within specifications when the ambient temperature is between 090 and 550C 1 Wrap instrument in heavy paper or plastic 2 Use strong shipping container A double wall carton 2 15 STORAGE AND SHIPMENT made of 350 pound test material is adequate 2 16 The 80058 can be stored or shipped at tempera 3 Use enough shock absorbing material 3 to 4 inch tures between 40 C and 75 C The instrument should layer around all sides of instrument to provide firm be protected from temperature extremes which cause cushion and prevent movement inside container condensation within the instrument Protect control panel with cardboard 2 17 If the instrument is to be shipped to 8 Hewlett 4 Seal shipping container securely Packard Sales Service Office attach a tag showing owner return address model number and full serial number and 5 Mark shipping container FRAGILE to encourage the type of service required The original shipping carton careful handling and packaging material may be re usable but the Hewlett Packard Sales Service office will also provide information 6 In any correspondence refer to instrument by and recommendations on materials to be used if the origi model number and serial number Operation
91. c diagram indicate the signal destination The circte contains the signal number and the square contains the number of the schematic to which that signal goes These reterences on a signat entering Q schematic diagram Indicate the signal origin The circle contains the signal number and the square contains the number of the schematic on which that signal originates Model 8005B R105 613 l e l R90 L6 1 e o ac t OUTPUT ROLL OFF la 5 55 S gt E wee 20 00 2119 2 86y e dg 3 2 22 pui PA 1 ox esu TE 6080 50 8 eF 22 5 o ol 7 674 i Lun 88 ee fu Lu gt gt L S ES 1 LL Qa 5 do AD 55 f 403 5 E 1 eu i 8 Silly 50 ol c I 1 8 8N veo II 1 16Y ven 8 3 x n Ge 82 Sea SE de Ox 18X 954 Dane d i oz aii T ETT A 298 5 9183 CH c BEY GG 2 z 6614 keg en 8 S
92. ction IX of this manual For instruments with higher serial numbers refer to the Manual Change sheets at the end of this manual In addition to change information the Manual Change sheets may contain information for correcting errors in the manual To keep this manual as up to date and accu rate as possible Hewlett Packard recommends that you periodically request the latest Manual Change supplement The supplement for this manual is identified with this manual s print date and part number both of which appear on this manual s title page Complimentary copies of the supplement are available from Hewlett Packard HEWLETT PACKARD GmbH 15366 00062 BOBLINGEN Figure 1 3 Serial Number Plate 1 11 DESCRIPTION 1 12 The Model 80058 is a versatile 20 MHz pulse generator that can deliver up to 10 volts positive and simultaneously 10 volts negative into a 50 ohm load from a selectable source impedance Provision is made for ex ternal and manual triggering synchronous and asynchro nous gating a positive trigger output and TTL output of 4 6 volts across an open circuit for positive or negative logic 1 13 Repetition rate is variable over the range 0 3 Hz to 20 MHz alternatively in double pulse mode 10 MHz simulating 20 MHz or in square wave mode 0 15 Hz to 10 MHz Pulse delay with respect to the trigger output is variable over the range lt 100 ns to 3 s Pulse width is variable over the range 25 ns to 3 s
93. e k 9170 0029 CORESSHIELDING BEAD 56 990 SET OF 5 PERBEADS HEAT SINK TO95 TO 39ePKG 120526011 1205 0941 67 AUMPZO 1205 0011 MEAT SINK TO 5 T0 39 PKG 120820011 A494 185360357 TRANSISTOR PNP SI 8 0 185320357 Adve 185329357 TRANSISTOR PNP ST T0 18 1858 7 TRANSISTOR NPN SI 0 00 2 0 1934 0090 1858 602 893 949 95609 195420019 4486 185320357 TRANSISTOR PNP SI TQ 18 23560 18530357 1205 0037 BEAT SINK TO 36 PKG 120520037 AGG 18540233 TRANSISTOR NPN 2138665 SI TOe39 7 7 2N3866 Auda 1853 0357 TRANSISTOR PNP TO 18 7 1853520357 2409 185320357 TRANSISTOR PNP SI 8 7 185320357 DER 1856040307 TRANSISTOR NPN SI 71018 470 165490307 A4014 1853 0001 TRANSISTOR PNP SI TO 39 1853w0001 4 2 185420039 TRANSISTOR NON 213053 SI 10eS 7 203053 41 5 18550690 TSTRISI PNP 18530090 0 1 4 1854 0329 TSTRISI NPN 185489329 41 5 1853 9090 YSTRISI PNP 1853 0090 AGI 1854 0053 TRANSISTOR NPN 2N2218 81 5 2 0 0 2 8 A4017 18530651 TRANSISTOR PNP 2N4037 51 7095 0 2 9 7 ARTA 1854 0307 TRANSISTOR NPN SY 10 18 47 185420307 44819 185420307 TRANSISTOR NPN SY 8 300 1 7 TRANSISTOR PNP SE TO 39 7 185120001 18535000 90 RESISTOR 1 96 1 125W F 00 C 1 8 T0 1961 F 0698 83 RESISTOR 180 5 25W F TCz O 100 s 07580014 83 Chat But Ori Siar 5100 RESISTOR 150 1 125W F 07 7 04 4 A4RS 0757 0718
94. e flip flop The other output from the flip flop is applied to the integrator circuits for the production of a fixed delay fixed width pulse output The square wave flip flop is disabled in SYNCH gate mode 4 14 When the PULSE MODE switch S9 is set to NORM or DOUBLE pulse the flip flop U1 is disabled The gates O14 and Q2 are open 014 off Q2 on thus the rate signal from 012 is applied to the delay generator and the trigger is established via O2 in setting 99 to SO WAVE Q1 is turned off the flip flop PRESET goes high thus the flip flop is enabled The complementary outputs of the flip flop drive a differential amplifier Q3 04 The output of O3 is differentiated L 1 R 17 and applied to the trigger output amplifier O5 This is turned on only by the nega tive spikes and thus the positive spikes are suppressed Principles of Operation RATE INPUT TO FF ee bw 4 KEE OUTPUT Q3 ea Figure 4 4 Square Wave Mode Timing Sequence 4 15 PULSE DELAY GENERATOR BUFFER 15 CURRENT SOURCE 023 SCHMIT T TRIGGER 09 SWITCH Q20 Sa oe TO BASE 0258 016 017 WIDTH GENERATOR INVERTER Q22 DIFFERENTIATOR Q21 Lb Figure 4 5 Delay Generator Principles of Operation 4 16 The function of the Pulse delay generator is to provide pulses which are delayed with respect to the re
95. e outputs Both circuits operate in identical fashion thus only the positive offset circuit is described With the offset switch in the OFF position the bias potential of U1 is held at OV and the whole cir cuit is thus off With the offset switch in the ON position the bias potential of U1 is dependent on the pasition of the OFFSET VERNIER As the wiper of the OFFSET VERNIER is moved towards the R31 end the output of 03 04 goes positive Similarly as it is moved towards R32 the output of 03 04 goes negative 4 38 POWER SUPPLY 4 39 The 25V and 25V power supplies are identical series regulated types An error amplifier compares a sample of the output with the voltage of a zener diode and the resulting error signal controls the series regulator to compensate for any variations 4 40 The 20V supply is derived from the 25V supply R81 and R82 define the potential of 20V at the emitter of Q3 O3 supplies the current Model 8005B Performance Tests SECTION V PERFORMANCE TESTS 5 1 INTRODUCTION 5 2 The procedures in this section test the electrical performance of the instrument using the specifications of Table 1 2 asperformance standards All tests can be per formed without access to the interior of the instrument 5 3 EQUIPMENT REQUIRED 5 4 Equipment required for the performance tests is listed in Table 1 1 Recommended Test Equipment Any equipment that satisfies the critical specifications given in
96. elay until the intensified spot coincides with the trailing edge of the first pulse Switch scope to DELAYED sweep display Measure the pulse width jitter Model 8005B 5 14 Pulse Delay PERFORMANCE TESTS Performance Tests SPECIFICATION lt 100ns to 3s in five ranges Vernier provide continuous adjustment within each range PROCEDURE OSCILLOSCOPE 80058 PULSE GENERATOR TRIG BY 27 TERMINATION 10503A 1 Set the 80058 controls as follows REP RATE 15a aia a ge S AAA A AAA 0 3M VERNIER Z ESAE dea AAMT ne E aoe Mid travel PULSE DELAY a ee A RU NIA Rien Re VARY e 0 10 VERNIETR rinde uu Sa Cay au ee ara e ARA E RU D CW PULSE WIDEH 5B A UE Qk AA EN RN 25n O Bu weak AS DAI yw CW TRANSIRON TIME Z Osea E ees WO 10n OFFSET VERNIERSS ZA oS Ba edt RR E ert ti dave SNNT CCW OFFSET SWITCH Ce OSLER A ke bats Puce peek QEFSETF VERNIERITO A end dech A OFF MANIT Q uo SERE aD acre AE IU e TRU a le
97. er Pulse Delay RATE 1 DELAY 3 VERNIER4 WIDTHS VERNIER 6 0 3M 0 14 cw 25n Cw 10K 3u cw 3 cw 300 Dim cw S CW 0 3 10 3m cw cw EXT MAN 0 1 3 CW 1 CW 5 22 Model 80058 Performance Tests Table 5 1 Performance Test Record Hewlett Packard Company Model 8005B Tested by Pulse Generator Serial Number Date Para Test Description Pulse Delay Jitter Square Wave 5096 Duty Cycle Pulse Mode Duty Cycle above 1 MHz below 1 MHz Double Pulse Minimum pulse spacing Transition Times Fast TRANSITION7 LDG14 TRLG 15 10n CCW CCW positive negative 0 1u CCW CCW positive negative Transition Linearity Positive output leading edge trailing edge Negative output leading edge trailing edge Preshoot Overshoot and Ringing Positive output preshoot overshoot ringing Negative output preshoot overshoot ringing Performance Tests Model 80058 Table 5 1 Performance Test Record Hewlett Packard Company Model 8005B Tested by Pulse Generator Serial Number Date y Trigger Output Amplitude across 500 Width Transition Times Slow Rep rate 7 Transition 7 leading trailing edge verniers 14 15 0 0 3 CCW 10K CCW 300 3m CCW 0 3 10 CCW External Triggering Pulses on positive trigger slope Pulses on negative trigger slope Synchronous Gating Output pulse only during gate on First pulse coincident with start of gate Last pulse o
98. f correct width No output Amplitude Normal Complement Amplitude Output Normal Amplitude Output Normal Amplitude Output Complement Amplitude Output Complement DC Offset Max positive offset with int 50Q Max negative offset with int 502 Max positive offset without int 5022 Max negative offset without int 4 TTL Gutput Logic 1 Logic 0 Safety Check Interior inspection Resistance cabinet to power plug gnd Resistance cabinet to line Line fuse Line fuse safety cover Heatsinks secure Mode 80058 Adjustments SECTION VI ADJUSTMENTS 6 1 INTRODUCTION 6 2 This section describes the adjustments which will return the instrument to peak operating condition after repairs are completed 6 3 H the adjustments are to be considered valid the instrument must have a 15 min warmup time and the line voltage must be within 10 to 15 of nominal 6 4 SAFETY CONSIDERATIONS 6 5 This manual contains information cautions and warnings which must be followed to ensure safe operation and to retain the instrument in safe condition see Sec tions and IH Service and adjustments should be performed only by qualified service personnel WARNING Any interruption of the protective grounding conductor inside or outside the instrument ar disconnection of the protective earth terminal is likely to make the instru ment dangerous Intentional interruption is prohibited 6 6 Any
99. from 04 06 turns on and Q7 cuts off Thus current flows from O11 into CT at a rate determined by CT and the position of the selected transition time vernier Voltage source Q19 and O20 4 6 Model 8005B limits the voltage to which CT can charge to 8 4 V whilst CR9 limits the discharge potential to 0 7V The charging rate and negative clamp voltage define the pulse risetime whilst the discharge rate and positive clamp vol tage define the pulse fall time 4 30 When the OPER MODE switch S8 is set to NORM the LEADING EDGE vernier is connected to 016 and the TRAILING EDGE vernier to Q11 When this switch is set to COMPL the leading edge vernier is connected to O11 and the trailing edge vernier to 6 TRIGGER TIMING 1 INPUT to Q8 d 1 a NORM OUTPUT OR COMPL Que rr P LF E Y PULSE PHASE SELECTOR 08 09 CRIGICRIS OR 11 1 1 INTEGRATOR INPUT J base 04 OR SE 1508 WAVE 4 oR COMPL ML NORM PULSE OR COMPL NORM SOR WAVE OR COMPL INTEGRATOR OUTPUT OR Figure 4 10 Pulse Defining Sequence Model 58 4 31 OUTPUT STAGE Principles of Operation VOLTAGE SOURCE 04 05 CURRENT SOURCE 022 023 VOLTAGE SOURCE Q24 FROM COMPLEMENTARY INVERTING COMPLEMENTARY Que Fr 7 1 DEFINING GO Q16 017 CC COMPLEMENTARY LEVEL EMITTER Lad CHANGER FOLLOWER 028 025 CR28
100. h the REP RATE 1 switch set to EXT or EXT the repetition rate can be established by an exter nal signal applied to the TRIGGER INPUT 20 The trigger signal may be a sine wave or pulses of either polarity compatible with the position of the REP RATE 1 switch with a repetition frequency up to 20 MHz Sine waves must be of at least 2 volts peak to peak amplitude and pulses must be at least 1V peak and 15ns wide The max imum permissible input signal is 10V peak 3 9 Manual Trigger 3 10 With the REP RATE 1 switch set to the EXT MAN position each depression of the MANUAL 11 push button will produce an output pulse two in the DOUBLE PULSE MODE 3 11 Pulse Modes 3 12 The 80058 is capable of operating in any one of three different pulse modes as dictated by the PULSE MODE 12 switch Norm In this mode pulses are available at the output connectors Their repetition rate delay with respect to trigger output width transition times and amplitude are determined by the front panei control settings a OUTPUT 4 AE Y Figure 3 2 Single Pulse Mode Typical Output Double In this mode the pulse rate is effectively doubled The DELAY control determines by how much the second pulse is delayed with respect to the first ra P OUTPUT A H DELAY Figure 3 3 Double Pulse Mode Typical Output Square Wave In
101. hase output When the OPER MODE switch S8 is set to NORM the output selector passes only the inphase signal via CR14 or when S8 is set to COMPL the antiphase signal via CR15 With the PULSE MODE switch 12 set to NORM or DOUBLE the gate Q7 is open Q7 off and thus the selected signal via CR14 or CR15 is applied to a Schmitt trigger 01 02 4 26 When switched by the in phase signal the Schmitt trigger produces a positive pulse or when switched by the antiphase signal CR15 a negative pulse 4 27 Square Wave Mode 4 28 By setting the PULSE MODE switch to SQ WAVE the gate Q7 is closed 07 turned on thus the signal from the width generator is blocked and the Schmitt trigger disabled The signals appearing at the base of 04 in this mode are derived from the flip flop U1 and differentiated by L1 R4 4 29 In all modes of operation C3 and R10 reduce ringing on all but the 10ns range where they would slow down the transition times O4 and CR2 convert the single pulse train to two each with a different de level These two outputs control the switches Q6 and Q7 Voltage sources 012 013 014 and 016 017 018 define the switching potentials of Q6 and 07 respectively During the positive excursion 06 is off and 07 is on causing 6 to draw current from the transition time capacitor CT at a rate determined by the capacitance of CT and the position of the selected transition time vernier During the negative duration of the output
102. ier 01 02 which in turn switches the Schmitt trigger 03 4 Each trigger pulse produces a positive pulse from 04 which is differ entiated by R11 L1 and inverted by Q35 The positive spikes from Q35 cause the base of Q5 to rise so that Q5 and Q6 turn on to produce an output pulse Each trigger pulse produces an output pulse from Q6 4 7 Inthe MANUAL mode Q3 is normally on and 47 off When the MAN push button is pressed 04 turns on and a negative spike is applied to Q35 which in turn turns Q5 and Q6 on to produce an output pulse An output pulse is produced each time the manual push button is pushed 4 8 Inthe NORM operating mode gate 012 013 is enabled by Q13 being held off Thus the pulses from the repetition rate generator which appear at 112 base are inverted by Q12 and applied to the Pulse delay generator Gating is not possible in SQ WAVE LL TRIGGER OUTPUT PPR TTL OUTPUT JUL ann OUTPUTI j Figure 4 1 Basic Concept 4 1 Principles of Operation CR12 Model 8005B SQUARER FF MC1 REPETITION RATE GENERATOR PHASE INVER SPLITTER 09011 62 0 GEN 1 SS GATE 05 912 013 Figure 4 2 Repetition Rate Generator and Trigger Input Gating 20M 03M 9 o ok o 530 03 0 TRIGGER SCHMITT INTERNAL INPUT DIFFERENTIAL Lo AMPLIFIER TRIGGER EXTERNAL ol BE 030 OGER CONTRO 01 02 6 Mo 89 Oko 63 0 MAN 0 300 9
103. iling edges within each range Ranges are common for leading and trailing edges Max leading edge trailing edge ratio 1 30 or 30 1 Linearity for transition times gt 3089 maximum ampli tude deviation from a straight line between the 1096 and 9096 points is less than 496 of pulse amplitude Overshoot preshoot and ringing each less than 596 of puise amplitude Pulse width lt 25ns to 3s in five ranges Vernier pro vides continuous adjustment within each range Width jitter 0 1 50 ps of any width setting Maximum duty cycle 80 for repetition rates from 0 3 Hz to 1 MHz lt 5096 from 1 MHz to 20 MHz Up to 10096 when using pulse complement Square wave 0 15 Hz to 10 MHz Duty cycle 5096 5 for repetition rates lt 1 MHz increasing to 50 15 at 10 MHz Pulse delay lt 100ns to 3s with respect to trigger out put in five ranges Vernier provides continuous adjust ment within each range Delay is inhibited in Square Wave mode Delay jitter lt 0 1 50 ps of any delay setting Pulse outputs simultaneous positive negative and TTL compatible outputs Maximum pulse amplitude 5V with internal 50 ohms and external 50 ohms 10 with internal 50 ohms and external high impedance or with internal high impe dance and external 50 ohms Maximum output amplitude offset 10V Output protection cannot be damaged by short circuit or application of externa voltages lt 10V at 25 C ambient
104. ions in the parts lists are always all capitals However in the schematics and other parts of the manual the same abbreviations may have upper and lower case letters 7 5 REPLACEABLE PARTS 7 6 Table 6 2 is the list of replaceable parts and is organised as follows a Mainframe chassis parts in alphanumerical order by reference designation b Electrical assemblies and their components in alphanumerical order by reference designation Reference designators are of the form 5819 i e resistor 9 on assembly 5 7 7 The information given for each part consists of the following a The Hewlett Packard part number b The total quantity Qty in the instrument This is given only once for each part at the first appearance of the part in the list c The description of the part d A typical manufacturer of the part in a five digit code e The manufacturer s code number for the part 7 8 ORDERING INFORMATION 7 9 To order a part listed in the replaceable parts table quote the Hewlett Packard part number indicate the quantity required and address the order to the nearest Hewlett Packard office list of Sales Service offices at the rear of this manual 7 10 To order a part that is not listed in the replace able parts table include the instrument model number instrument serial number the description and function of parts required address the order to the nearest Hewlett Packard office Table 7 1
105. is sec tion covers instrument identification description acces sories specifications and other basic information 1 3 A microfiche version of this manual is available on 4 x 6 inch microfilm transparencies order number on title page Each microfilm contains up to 60 photo duplicates of the manual pages The microfiche package also includes the latest Manual Changes supplements as well as all pertinent Service Notes 1 4 SPECIFICATIONS 1 5 Instrument specifications are listed in Table 1 2 These specifications are the performance standards or limits against which the instrument is tested 1 6 SAFETY CONSIDERATIONS 1 7 The Model 80058 is a Safety Class 1 instrument it has an exposed metal chassis that is directly connected to earth via the power supply cable 1 8 This operating and service manual contains infor mation cautions and warnings which must be followed by the user to ensure safe operation and to maintain the instrument in a safe condition 1 9 INSTRUMENTSCOVERED BY MANUAL 1 10 Attached to the rear of this instrument is a serial number plate Figure 1 3 The first four digits of the serial number only change when there is a significant change to the instrument The last five digits are assigned to instruments sequentially The contents of this manual apply directly to the instrument serial number quoted on the title page For instruments with lower serial numbers refer to the backdating information in Se
106. lies TTL compatible voltage 24 OUTPUT BNC connector supplies positive output pulses Maximum external voltage can be applied to this connector is 10V 25 INT LOAD Switch for connecting and disconnecting the in ternal 50 load to both positive and negative output amplifier 26 NORM COMPL provides the following output formats TEL TTL NORM COMP TTL TTL OUTPUT TX UN OV tor offset OUTPUT ENN OV or offset TTL OUTPUT OV or offset 27 OUTPUT BNC connector supplies positive output pulses Maximum external voltage that can be applied to this connector is 10V 1 Note that switch positions indicated by an asterix can be used for a customer selected range Model 80058 Operation SECTION Hi OPERATION 3 1 GENERAL 3 2 Figure 3 1 identifies and gives a brief description of the function of the front panel controls adjustments switches and connectors 3 3 REPETITION RATE 3 4 The repetition rate can be generated internally or established externally by means of an external trigger or the MANUAL 11 push button 3 5 Internal Triggering 3 6 The Model 80058 can establish internally any re petition rate in the range 0 3 Hz to 20 MHz The desired repetition rate is achieved by setting the REP RATE 1 switch to one of the five possible ranges and adjusting the REP RATE VERNIER 2 for the required frequency 3 7 External Triggering 3 8 Wit
107. n R35 015 1 R34 215 R38 25V 25V CURRENT SOURCE TRANSITION TIME Model 8005B Service OUTPUT AMPLITUDE OUTPUT ROLL OFF OUTPUT ROLL OFF e N E gt 30 5 C35 lt C24 t C32 R12 e ka ac 886 883 cR32 Gei 8 fee 169 888 on 94 szuo et _ 83 7682 7 I 8 58 EE 6g 8 K gd ea 778 99 22 6018 DEN y des 55 7 I e ONERE T m Sat El ti 1 ES les ed T 5 WO 2 5 ge S34 E AC Ga 7 r 9 ton 5 1 1 R40 C12 R50 R52 Oly Si 2 ESL EM 198 gu Sen oe x 5 Fi x 5 SE 1 11 N 41 27 Blo 83 g xol oLa SE 8 gt EIERE 7 5 22 8 95 I ogy 69 an TO 6497 zy 5 Mod 2 m ea E 00M20 ol I Ziy a 3 99 8 ni 8 83 a lg 8 1 o EZH mio _ Y EA O o 2
108. nce to get a negative voltage 6 18 Pulse Amplitude and Roll off OSCILLOSCOPE EXT 502 Q TERMINATION 80058 PULSE GENERATOR TRIG 20 1 59 10503A PROCEDURE 1 Set 80058 controls as follows REP RATE 1 20M VERNIER 2 CCW PULSE DELAY 3 0 1u VERNIER 4 CCW PULSE WIDTH 5 25n VERNIER 6 CCW TRANSITION TIME 7 10n OFFSET VERNIER 8 OFFSET SWITCH 9 OFF OFFSET VERNIER 10 MAN 11 3 Adjust leading and trailing edge verniers from CCW to CW for equal roll off on both edges 4 Adjust OUTPUTI roll off A3R95 3009 5 With the TRAILING EDGE vernier turned fully CCW observe the position of the pulse delay point 6 Turn the TRAILING EDGE vernier A4R46 16nst2ns fully CW and measure the difference between the first and second starting points If recessary verify 8 6 17 2 7 Adjust OUTPUT 4 A3R72 amplitude 8 Repeat 3 for OUTPUT 9 Adjust OUTPUT roll off A3R48 30ns 10 Repeat 2 to 7 E Roil off A OUTPUT N N LEADIN EDGE P cad Roll off TRAILING EDGE P OUTPUTI Roll off CCW gt 068 onol uu 55 283 CD 5 TR no 8 eu 93 gt seu CED za 8 73 sty 4 8 Lu
109. r is damaged or the cushioning material shows signs of stress notify the carrier as well as the Hewlett Packard office Keep the shipping materials for carrier s inspection The HP office will arrange for repair or replacement without waiting for settlement 2 5 PREPARATION FOR USE 2 6 Power Requirements 2 7 The 80058 requires a power source of 115 or 230 V ac at a frequency of 48 to 66 Hz 10 1596 single phase The maximum power consumption is 2 8 Line Voltage Selection BEFORE SWITCHING ON THIS INSTRUMENT make sure that the instrument is set to the local line voltage 2 9 The line voltage is selected by setting the voltage selector on the rear panel Use a screwdriver to move the slider to the required position 2 10 Power Cable WARNING To avoid the possibility of injury or death the following precautions must be followed before the instrument is switched on a If this instrument is to be energized via an auto transformer for voltage reduction make sure that ground connection is not interrupted b The power cable plug shall only be inserted into a socket outlet provided with a protective ground con tact The protective action must not be negated by the use of an extension cord without a protective conduc tor c Before switching on the instrument the protective ground terminal of the instrument must be connected to a protective conductor of the power cable This is veritied by checking
110. s cm 8 PIA ULSI 107 7 S 20Y i 1 I 1 SCHMIT T VERNIEF 961 27 36 878 20 420 6 750 I BUFFER f I R76 2 6 6 4 A tis FROM 2 02207853 877 Bei 1 8K 301 E 027 02 5 0220 TV cm 9 i 5 7 M i OUTPUT AMPLITUDE OUTPUT ROLL OFF 7 A3 BD AY AMP OUTPUT 08005 66510 Service C24 et KA e e D R64 R63 lt OG 1 1 ew n sen 01 eng 188 958 d 8 seu e NS 76 gt 183 RELET IGX m 6 lt BEY 01 y es S 683 3 gory o S dui E bay core JE 11 8 e 0 222 5 283 23 amp EO Ca i 82 E 02 9 zohi gt x o 1 zd 1 R40 L11 012 olla 193 Be Ka 01118 INPUT R34 2 o C3 OUTPUT ROLL OFF 0 u ELU e u IO d LU sa doo y EIN PI SH OLE 18 so M gt qd 5 5 9 Ri 9edo stew 5 5
111. s trigger pulses occur for duration of gate Operating temperature range 00C to 55 C Power 115V or 230V 10 15 48 Hz to 440 Hz Asynchronous gate signal controls output of free run 180VA max ning repetition rate generator Weight net 7 kg 16 tbs shipping 9 kg 20 Ibs Gate Input Dimensions 425 mm wide 140 mm high 336 mm deep Input impedance approx 1 kohm dc coupled 16 3 4 in x 5 1 2 in x 13 1 4 in Model 8005B Installation SECTION 1 INSTALLATION 2 1 INTRODUCTION 2 2 This section provides installation instructions for the Model 80058 Pulse Generator and its accessories It also includes information about initial inspection and damage claims preparation for use and packaging stor age and shipment 2 3 INITIAL INSPECTION 2 4 Inspect the shipping container for damage If the container or cushioning material is damaged it should be kept until the contents of the shipment have been checked for completeness and the instrument has been checked mechanically and electrically The contents of the ship ment should be as shown in Figure 1 1 plus any accesso ries that were ordered with the instrument Procedures for checking the electrical operation are given in Section 3 the contents are incomplete if there is mechanical damage or defect or if the instrument does not pass the operator s checks notify the nearest Hewlett Packard Sales Service office If the shipping containe
112. te OF FSET ver nier 8 or 10 3 18 An advantage of the selectable internal load is that it helps overcome the problems of reflections For example using a 200pF capacitor to simulate the capaci tance of an external load Figure 3 7 illustrates which output configuration will produce the best results For amplitudes up to 5 volts reflections are more effectively absorbed when the output is developed across a 5022 ter mination from a 50Q source impedance configuration 1 For amplitudes above 5 volts either the 5043 termination or the internal 502 load must be disconnected In this case reflections are more effectively absorbed by using the internal 50Q load configuration 2 as opposed to using only a 5052 termination as shown in configuration 3 w w w nl i r 1 1 1 1 1 1 1 A 1 1 t i TT 1 E 1 1 zi bou g3 na 1 A 501 25097 Model 8005B GATE INPUT OUTPUT Ns Figure 3 5 Synchronous Gating of Rep Rate Generator DR Fe Pr OUTPUTI TRIGGER O P A rere eden Figure 3 6 Asynchronous Gating of Rep Rate Generator 3 19 TTL Output 3 20 The TTL OUTPUT connector supplies 4 6V open circuit voltage when the selector switch 26 is set to TTL and 4 6V complement
113. tion Number Description Mfr Part Number PESTSTOR 511 1 125W F 24546 691 0 3 075746 7 RESISTOR 100 1X LeSw 490 2 6 1 8 0 01 075720401 3828 0 0 0 81 24546 8 0 RESISTOR 10K 1 125W F 2 0 0757 39 38 RESISTOR 189 7 25 25 0 100 24546 NAS 0688 7 086 2 0 19701 4984 RESISTOR 200 1 SW F 0737 0604 1 RESISTOR 945 1 125W F TCs0 100 24546 8 8 958 0757 197 2 RESISTOR 1 54K 1 1250 F 0 100 24546 E4 1 B 10 101 25 DK 383 RESISTOR 100 1 5 6 420 19701 71 2 70 1 07570195 8 RESISTOR 100 1 5 F 49040 19701 MF7C1 2 T0 1015F 0757 585 RESISTOR 357 1 25 F 906 24546 Chel 8 0 3578 52 98 6 47 0 6985 2 RESISTOR 2 67 1 1256 F 0 100 24546 Chat 8 10 2077 8 2100 3252 RESISTOReTEMR Sk 10 C TOP ADJ 4 73138 1221070 09 0757 6 RESISTOR 12 1 1 1258 F 40 24546 Chat 0 1212 8757 069 RESISTOR 150 1 25 F 40 24546 C ei 8 1 50 3 A3R51 275720453 RESISTOR 30 1K 1 125 f 0 100 24546 8 1 6 0 3 12 A3R52 6757 0438 RESISTOR S 11K 1 125 F 0 24546 09 7 8 11 6757 0401 EESISTOR 100 1 1258 F 0 0 28546 1 8 0 101 3 58 0757 0496 RESISTOR 130 1 150 f 90 24546 44 8 0 1 80 1 F TCz0 100 24546 C4o1
114. ue shown is the nominal value position 2 8018 slide switch 2 Enctoses front panel nomenclature Enctoses rear panel nomenclature 5 Air cored inductor Heavy line indicates signal path ia Indi e e Heavy dashed line indicates primary feedback path Air cored transformer The dot 9 is used when e necessary to indicate instantaneous polarity Wire colour code Same as resistor colour code First nurnber is wire body colour ps Wire or plug used as fink Iron core Test point in a circuit Point may may not be identi Ferrite core fied on P C board Used with trimmer potentiometers or capacitors to Ferrite bead indicate screwdriver adjustment bead ses Direct connection to earth Varactor diode Ground connection to instrument chassis or frame Multi junction diode Used when a number of commorrreturn connections are at the same potential if there is more than one such system in the same circuit numbers are written in the triangles so that atl connections with the same potentiat have the same number Specific potential difference with respect to a poten tial reference level eg Diode Zener diode Schottky diode 10V Light Emitting Diode LED Photodiode Schematic Referencing Fuse Signal Schematic Signat Neon number number number e 9 Filament lamp 3 Schematic number These references on a signal leaving a schemati
115. when set to TT L When termina ted by 5062 the TTL voltage is 2 6 volts 3 21 In order to minimize pulse distortion caused by interaction from unused outp ts it is necessary to termin ate all unused outputs with 502 and where possible re duce the amplitude to a minimum OFFSET AMPLITUDE OUTPUT 1 24 OUTPUT i 127 RANGE AMPLITUDE 122 3006 1 25 r 2 5 2 5 10 1 25 5 5 4 25 2 5 800 0 25V 3 4V 4 5 10 25 ave av 1 25V 2 5V 600 2 5 2 ta x 4 2 to 4 5 10 2 5 4 2 to OV 2 16 4V The maximum output lamplitude offset is 10V 2 Offset range with ampihuae vernier cew is t 2 Offsat range ncreases to values shown when ampli tude vernier is cw Figure 3 7 Output Configurations Model 8005B Principles of Operation SECTION IV PRINCIPLES OF OPERATION 4 1 GENERAL DESCRIPTION 4 2 The basic concept of the Model 80058 pulse generator is shown in Figure 4 1 The pulse repetition rate is generated either internally or by an external trigger ing source Gating can be effected either synchronously by using the gate signal to start and stop the repetition rate generator or asynchronously by using the gate signal to control the output from the repetition rate generator The selector circuit determines the shape and destination of the rate signal used in the pulse and square wave modes
116. x Eere DIFFERENTIA SOUARER AMPLIFIER 5 E 6 aC 3 RE h SOR WAVE 62 MODE 8 0v y PULSE DOUBLE PULSE MODES 20 CRBS 8 25V a2 TRIGGER P AMPLIFIER A CR OV c33 5 PULSE SQUARE e NQ SELECTOR CIRCUIT 2K 240 392 c29 Mim SEE SERVICE SHEET 5 z Ed 2 3 77 bi PU l NORM DOUBLE REPEATED 51 1 P O A1 P O Rate Generator 85 E i 1 E Y Et Seen d Model 8005B P 0 A1 08005 66513 80 FROM K yas 012 0146 860 C47 200 P O PULSE DE R2 d 20V 3m SCHMITT im 20V Ex D E 20V R53 750 27 120 R52 L 0 1 162 3 R51 25 SS P O 0 C23 SES 927 100 C26 3 EF 33 C25 i 015 925 01 626 3 gaa 306 H in o Model 8005B P O A1 08005 66513 1 1 79 1 38 5 2 74K 6 1 1 GATE 32 20V l R65 1 KK 6 19K FROM 77 9 7925 025 Q16 R71 9 O R63 864 C31 iK e inF 6V R41 R42 016 Es i 2 70 E 0 05Us cm NT 10240 025C 9 Vien 3 0 05A
117. z spacing lt 100ns to 3s with respect to trigger output in five ranges PROCEDURE Vernier provides continuous adjustment within each range OSCILLOSCOPE 80058 PULSE GENERATOR TRIG 2352 aF 7 500 TERMINATION 10503A 1 Set 8005B controls as follows REPR RATE Tinimeene et aes A 20M WERNIERZ hu ease su a s deg dad as ao ede Ga CCW PULSE DELAY uu man tn BM RA ne Ee Ea 011 Rave SA EE et E ee e Ae E EE ees CCW PUESE WIDE Oo as A aasan aa m eR EE qun ef ae ES 25n VERNIERO sb te RS RS din ie da CCW TRANSIFIONTIME Z Dora aw ERREUR RE GU et UR er 10 OFFSET VERNIER S uae dan Ra OFFSET SWITCH D i iuo tA AER EG CE VERE Ses Be OFF OFFSET VERNIER 10 Dae AAA axe SI WIE o MAN TT sacas Le AM eee ione aka ex SS SA qia awe e a PULSE MODE 12 2 nee RUN De Fu E e DOUBLE OPER MODE 13 a gis E are an e A e NORM LEADING EDGE 14
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