HP 5100A User's Manual
Contents
1. 5 w IN FROM SITOA 35 MC OUT MULTIPLIER Ai 12 6V OR 6 3 RA s du LARI BOARD ASSY 65100 65033 IZ v OR 6 3v 85 4 n iva 35 MC IN FROM E BOARD ASSY csioo 2033 RIA 23 CUT MULTIPLIER Ai8 ir CH BOARD ASSY lt lt 00 6233 m AISA9 SWITCH BOARD ASSY cs 00 6033 0 1 C tl i SWITCH BOARD ASSY 05 00 6033 Ch iw Li to 22 22 CI C4 Qi n2 der OUTPUT AMPLIFIER Ae DILF a Sa AT 1 t R3 R4 620 42 2 M REFERENCE DESIGNATIONS WITHIN THIS ASSEMSLY ARE ABBREVIATED ADD J s ASSE MSLY DESIGNATION AS PREFIX TO FORM CCMPLETE DESIGNATION NOTES UNLESS OTHERWISE INDICATES RESISTANCE IN GHMS CAPACITANCE IN FICOFARAIS INCUCTANCE IN MICRCH ENRIES m T a m IA a 11 T Y n 20 350 390MC SWITCH MODULE 05100 2 6011 SERIES 3301 12 6 OR 6 3Y 4 350 MC FROM FILTER BNC 14 12 6V FROM pus AIPI9 14 CRI R2 Le 1000 47 REFERENCE DESIGNATIONS WITHIN THIS ASSEMBLY ARE ABBREVIATED ADD 12 6V OR 6 3v YE AA 5 ASSEMBLY DESIGNATION AS PREFIX TO MH NC c2 FORM COMPLETE DESIGNATION QIUF il 360 MC2. ai 05100 0 8 t FAR T D 189 7 ij 8 211 sE 7812 072 1D d 687292 ZZ 613 Y n 2 93 014 98 n MW cape TR 2800 i Zo in a del j 4 ied CN 81 uily sida 12 Y 0 997 691 91 api Ua ISU 197 bi 042 89 88 93 A5 A12A1 A5 AMA2 02279 1 05100 31 05100 A 52 GMC SWITCH SEARCH va lt Ia 1 o Coerenza s UO D PI e Oe AE einem ae FOLLOWER rm AME EN El d 22 Qi a aq m e w eee C38 c39 L37 i 2 136 12 248 c49 534 12 al AS THRU All L2 15 22 22 c5 tur C16 2 2 Tor 1 ES 46 L 4 10 o gt 22 AP 10 2V N LH 2N2360 10 Tue AG 27 MC gt AMPLIFIER 4 m 3000 P C42 RIO T owe L32 3000 L33 22 22 Cat TL owe R22 P F U MIXER DIVIDER MODULE 05100 6c GM 0 A M eo HAM s 0 c TO MIXER AS THRU A2 DIVIDER BOARD ASSEMBLY osioo L51 152 22 22 C sl R53 C53 R57 1000 C52 C54
3. Section Figure 5 1 12 6V 100 6023 M FROM FILTER L4 L5 22 22 Cre T or E i 2 779 27 EMITTER FOLLOWER L20 Lal 150 C34 C35 C36 i 600 300 2 2 FOLLOWER 27 12 i l 242360 27MC R23 AMPLIFIER 150 3 TO 4MC gt C37 tm Rig 2 2 22 3500 3900 I E 35 22 C43 Cas C47 QIUF OLUF i 6 3V FROM FILTER 0500 6047 L53 12 6V FROM 22 DECADE 4 CONNECTOR E SEG C56 BLOCK A4J12 9 1000 T eur x o t i 2 1 7 C78 30 TO 055 i TO MIXER 2N2360 ASSY 1ST AMPLIFIER 5 UHF SECTION LIMITER 10 5 t THRU DECADE CONNECTOR BLOCK A4JI2 282360 30 TO 31 MC AMPLIFIER REI i 3 60 6 3V FROM 22 Ns DECADE CONNECTOR 295 C96 BLOCK A4J12 r _ _ _ ES a X _ r c rr rr ACKARL COMPANY Mixer Filter A 5 Figure 5 18 Section V Model 5100 Figure 5 19 1 17 5 42 02219 1 05100 A 36 Model 5100 co JE e 1 1 02279 1 05100 A 34 Lante WHT WHT m DI 59 390MC MULTIPLIER B
4. x is 8 x is not 8 3 8 Mc Cable from 425110 to 3 4 Mc Switch No 3 9 Mc Cable from p5110A to 3 4 Mc Switch xis 9 x is not 9 No output for any frequency No 33 24 Cable from 25110 or defective A18 or 3 Mc 33 330 Multiplier Assembly Overloading in Remote circuit or in pushbutton switch Assembly A1 Fuse on rear panel has to be replaced No output for any frequency ALL FREQUENCIES IN MEGACYCLES TROUBLE ASTERISK INDICATES SPURIOUS FREQUENCIES TEST NO 1 CALIBRATION TEST FREQ 22 000 SPURIOUS 22 001 NOTE USE FIGURE 5 3 AS A TEST SET UP WHEN SETTING UP REFERENCE AND LOOKING FOR SPURIOUS FREQUENCIES Al2 FINAL MIXER OUTPUT TUNING TEST NO 2 274 HARMONIC OF 3 09MC ADDS TO TEST FREQ 16 99 24MC TO GIVE 30 18MC SPURIOUS 16 18 TEST NO 3 21 HARMONIC OF 30 03MC IS 360 36 MC TEST FREQ 11 03 AND APPEARS IN OUTPUT OF FIRST MIXER SPURIOUS 11 36 LOW BIAS HIGH MIXER DRIVE 02279 1 5 9 05100 B 36 Section V Table 5 3 cont d TEST NO 4 TEST FREQ 11 30 SPURIOUS 10 60 TEST NO 5 TEST FREQ 19 70 SPURIOUS 10 00 p la TEST NO 6 TEST FREQ 16 95 SPURIOUS 16 00 TEST NO 7 TEST FREQ 11 11 SPURIOUS 42 11 TEST 8 TEST FREQ 49 50 Table 5 3 Troubleshooting cont d 274 HARMONIC OF 30 3MC 005 TO 330MC AND APPEARS SECOND MIXER OUTPUT 013 HARMONIC 39MC APPEARS
5. AIRI 0727 0036 RIFXD DEPC 71 16 OHM 1 1 2W AIRE 0685 1525 RIFXD COMP 156 OHM 5 1 4w A1RJ 0683 1525 RIFXD COMP 150 OHM 5 1 4W A1R4 0683 7515 RIFXD COMP 750 OHM 5 1 48 1 5 0685 7515 RIFXD COMP 750 OHM 5 1 4W AIRG 0683 1325 RIFXD COMP 1300 OHM 5 1 W A1RT7 0683 6215 RIFXD COMP 620 OHM 5 1 W ALRB 0683 5115 RIFXD COMP 510 OHM 5 1 4W AIR9 THRU AJR10 NOT ASSIGNED A1R11 0683 1815 RIFXD COMP 180 OHM 5 1 4 A1R12 0683 5105 RIFXD COMP 51 OHM 5 1 4w AIR13 0757 0076 RIFXD MET 560 OHM 2 172 AIRIU 0685 2225 RIFXD COMP 2 2 OHM 5 1 4w 1815 2100 0941 RIVAR Ww 1000 OHM 5 AIR16 0758 0003 RIFXD FLM 1000 OHM 5 1 2W A1R17 0758 0003 RIEXD MET FLM 1000 OHM 5 1 2W A1R18 0683 2235 RtFXD COMP 22K OHM 5 1 4W AIR19 0683 1035 RIFXD COMP 10K OHM 5 1 4 W A1R20 0685 2225 RIFXD COMP 2 2 OHM 5 1 4W 1 2 1 0683 3325 RIFXO COMP 3300 OHM 5 1 W ALTI 05100 6163 TRANSFORMER INPUT DOUBLER Ci 0160 0345 CER 1 80 20 SOOVDCW FEED THRU C2 0160 0345 CIFXD CER LOOOPF 80 20 5OOVDCW FEED THRU C3 0160 0345 C3FXD CER 1000PF 80 20 500VDCW FEEO THRU 0140 0192 CIFXO MICA 68PF 5 300VDCW Ji 1250 0083 CONNECTOR de 1250 0083 CONNECTOR 8 BNC MISCELLANEOUS 05100 6164 CHASSIS ASSY MULTIPLIER 05100 0080 MULTIPLIER 35 350 See list of abbreviations in introduction to this section 02279 1 Section VI Table 6 12 Note 6 33 Section VI Model
6. s Q rr n ee ee 4 p Model 5100A KILOCYCLES porre CYCLES 5 108 44 MI REED eee GENRE eee Q ew ee re ee s GENERO V Q Ges x ee 104 103 2 IO 9 to 10 2 PUSH BUTTONS P 1 I s B X l EH d d 1 l i i l l I l 5 THRU 3 TO 4 MC DIODE SWITCH MATRIX FROM 510A PF PE PE a Gy 12 131 G 3 0 4 567890 MC 3 0 7890mC 5 0 90 mc 3 0 67890 MC 3 5 HF SECTION UHF SECTION 330 MC 50 31 55 33 34 35 36 37 58 39 MC 350 360 370 330 590 MC FROM SIIOA 4567890 uC n 360 34567890MC it 39 2 34567890 12 54567890 MC OUTPUT Figure 4 4 Synthesizer Block Diagram 02279 1 0600 84 94 Model 5100A 4 6 Note that there are elght separate outputs from the switchassembly each of which may be individually selected between 3 0 and 3 9 Mc Seven outputs are connected to mixer divider modules The first seven modules those controlled by the columns 10 2 through 104 are composed of two balanced mixers and one decade divider eighth module is similar to the first seven except that it lacks the divider
7. 1r ee q a RI 200 2 8 QI 1850 0135 AMPLIFIER A FL 360 TO 361 MC 360 TO 361 TO MIXER 22 DESIGNATIONS COPYRIGHT 965 BY HEWLETT PACKARD COMPANY D 9 Figure 5 26 1st UHF Mixer A21 5 57 5 58 Model 5100 A22A2 mil C 6709 00150 22 1 22 02279 1 051007A 48 05100 49 05100 A 50 Model 5100A A23A2 A23A1 02279 1 05100 A 51 0310074752 05100 53 360 361MC FROM FLT COEM ANA ooo 22 MIXER MODULE 2ND UHF t RA R3 16 RED L I 22 33K 22K 4 1000 i INPUT R2 16K FROM AISJIG 1500 90 MV IJ c2 CI 14 cri le ds 68 0 T 455 I 1 DI HF t i s 1 2N963 5 ed Ta 30 39MC AMPLIFIER 17 t 1 L5 GS 7 4 ram 2 2 QUE R3 U2 L2 1500 ke 22 cw i R7 RB R12 22 5000 3000 I L vw I L AGC FROM 24 y E E A REFERENCE DESIGNATIONS WITHIN Tt ASSEMBLY ARE ABBREVIATED ADO ASSEMBLY DESIGNATION AS PREFIX FORM COMPLETE DESIGNATION REFERENCE DESIGNATIONS NOTES I UNLESS OTHERWISE NDICATED RESISTANCE OHMS CAPACITANCE IN PICOFARADS INDUCTANCE IN MICROHENRIES w 2ND UHF 05100 6013 SERIES 317 m
8. A2L82 9140 0179 COIL FXD 22 UH 10 275 See list of abbreviations in introduction to this section 02279 1 6517 Section VI Tabie 6 6 Reference Designation A2L83 A2L84 2051 2052 42053 2054 42055 2651 A2R52 42653 2654 2655 2656 A2R57 A2R58 A2R59 2 6 A2R61 A2R62 2 63 A2R64 2 65 2 66 A2R67 A2R68 A2R69 A2R7O A2T51 A2752 6 18 Stock No Table 6 6 Mixer Divider Modules 5 11 05100 6001 Cont d Prefix all parts in this table A5 A11 Description 9140 0179 COIL FXO ReFe 22 UH 10 275 9140 0179 COIL FXD 22 UH 10 275 1850 0118 TRANSISTOR PNP GERMANIUM EIA 282260 1850 0118 TRANSISTOR PNP GERMANIUM ELA 2N2360 1850 0118 TRANSISTOR PNP GERMANIUM EIA 2N2360 1850 0138 TRANSISTOR FNP GERMANIUM ELA 2 2560 1850 0091 TRANSISTOR GERMANIUM 2N2048 PNP 0757 0281 RtFXO FLM 2 74 OHM 1 1 8W 0683 1025 RIFXD COMP 1000 OHM 5 1 46 0683 1025 RIFXD COMP 1000 OHM 5 1 4 0685 3025 RtFXD COMP 3000 OHM 5 1 4 0757 0280 RIFXD MET FLM 1000 OHM 1 1 8W 0683 3025 RIFXD COMP 3000 OHM 5 1 44 0685 1025 RIFXD COMP 1000 OHM 5 1 4w 0683 3025 RIFXD COMP 3000 OHM 5 1 4W 0685 2715 RIFXD COMP 270 OHM 5 1 uW 0683 1025 RIFXD COMP 1000 OHM 5 1 W 0685 3025 RIFXD COMP 3000 OHM 5 1 4w 0683 2215 RIFXD COMP 220 OHM 5 1 4W 0683 1025 RIFXD COMP 1000 OHM 5 1 4w 0683 1025 RIFXD COMP 1000 OHM 5 1 4w 0683 1015
9. am de be pa m mo mem RN pr pr w de de w det pe rr 02279 1 Model 5100A tp Stock No 05100 2031 05100 2032 05100 2055 05100 20585 05100 2055 05100 2036 05100 2057 05100 2038 05100 2059 05100 2040 05100 2041 05100 2045 05100 2044 05100 2045 05100 2046 05100 2047 05100 2048 05100 2049 05100 2053 05100 2055 05100 2056 05100 2057 05100 2061 05100 2065 05100 2065 05100 4010 05100 6001 05100 6002 05100 6003 05100 6004 05100 6005 05100 6006 05100 6007 05100 6010 05100 6011 05100 6012 05100 6013 05100 6014 05100 6015 05100 6016 05100 6017 05100 6018 05100 6019 05100 6020 05100 6021 05100 6025 05100 6024 05100 6025 05100 6026 05100 6027 02279 1 Table 6 21 Description HOUSING 350 590 MC SWITCH CONNECTOR DECADE BAR FRONT DECADE BAR REAR DECADE BAR SWITCH ROD SWITCH LOCKING BAR RETAINING SPACER SWITCH STRIP GROUND PLATE SIDE COVER 350 590 MC SWITCH BRACKET REAR MTGe CAPACITOR BOARD ETCHED BAR SUPPORT SWITCH PIN GUIDE PLATE RIGHT END PLATE END BLANK BOARD BUSHING LATCH LATCH DECK BRACKET SWITCH CLAMP FILTER MIXER DIVIDER MODULE 3 0 3 1 FILTER ASSY 30 31 MC MIXER 55 PUSHBUTTON SWITCH CONNECTOR BLOCK MODULE SEARCH OSCILLATOR MODULE 5 4 MC SWITCH MODULE POWER SUPP
10. 9140 0179 COIL FXO 22 UH 10 275 A1L5 9140 0179 22 UH 10 275 A1L6 THRU A1L1O NOT ASSIGNED AlL11 9140 0114 COILIFXD RF 10 UH A1L12 05100 6166 COIL VARIABLE 16 e23UH 9170 0105 CORE ADJUSTABLE TUNING A1L13 05100 6166 COIL VARIABLE 16 23UH 9170 0105 ADJUSTABLE TUNING AlL14 9140 0114 COIL3FXD RF 10 UH A1L15 05100 6166 COIL VARIABLE 16 423UH 9170 0105 COREt ADJUSTABLE TUNING A1Li6 05100 6166 COIL VARIABLE 416 230 9170 0105 CORE ADJUSTABLE TUNING A1L17 05100 6166 COIL VARIABLE 16 2350 9170 0105 CORESADJUSTABLE TUNING 1118 9140 0179 COIL FXD 22 UH 10 275 MA A1L19 9140 0114 COILIFXD RF 10 UH A1L20 9140 0176 UH 58250 MA A1L21 9140 0177 ReFe 8 UH 5 500 A1L22 9140 0096 COIL3FXD RF 1 UH AJL23 THRU A1L30 NOT ASSIGNED A1L31 9140 0179 COIL FXD ReFe 22 UH 10 275 A1L32 9140 0179 COIL FXD ReFe 22 UH 10 275 A1L33 9140 0179 COIL FXO 22 UH 10 275 MA A1L34 9140 0179 COIL FXO 22 UH 10 275 MA AiL35 9140 0179 COIL FXD ReFe 22 UN 10 275 MA A1L36 9140 0178 COILSFXO 12 UH 10 375 AIL37 9140 0178 COILeFXO 12 UH 10 375 MA A101 1850 0119 TRANSISTOR PNP GERMANIUM EIA 2N963 A102 1850 0118 TRANSISTOR PNP GERMANIUM EIA 2N2360 A103 1850 0118 TRANSISTOR PNP GERMANIUM EIA 2N2360 A1QU 1850 0118 TRANSISTOR PNP GERMANIUM EIA 2N2360 A1Q5 1850 0075 TRANSISTORI GERMANIUM 2 779
11. _ r TF 1111 ret M lt ee tie be ai I RI 1 6800 co 2 8 L8 i cri c5 sso T QI o2 1850 0152 1850 0152 gt T AMPLIFIER AMPLIFIER L te i Ja cre T 6 id 2 8 L 590 4 7 GT 390 400MC t 25 I DNS WITHIN THIS VIATED 1 M AS PREFIX TO IGNATIONS COPYRIGHT 1965 BY HEWLETT PACKARD COMPANY carte D 20 Figure 5 27 2nd UHF Mixer 390 400MC INPUT FROM FL8 45 55 wil 550 3 INPUT FROM A20 350MV 2 I A25 MIXER MODULE 3RD osteo 6014 SERIE A 3AI MIXER BOARD ASSEMBLY 6043 A23A2 Fil o 1 I JI re 3 3 CRI LI LI 33 1 0 Y 3 n R4 J2 eo u 5 ETCHED Fu R6 2 BOARD 450 L2 L2 55 1 1 c2 Y CR2 REFERENCE DESIGNATIONS NOTES UNLESS OTHERWISE INDICATED RESISTANCE IN OHMS CAPACITANCE PICOFARADS INDUCTANCE IN MICROHENRIES 6014 SERIES 330 23 2 FILTER BOARD ASSEMBLY 05100 6165 po i i 0 50MC OUTPUT TO A24 27M
12. 100 c2 cs 1125 525 i I 100 ES C4 820 000 Q2 2N963 EMITTER FOLLOWER oe ee y p FP REFERENCE DESIGNATIONS WITHIN THIS ASSEMBLY ARE ABBREVIATED ADD ASSEMBLY DESIGNATION AS PREFIX TO FORM COMPLETE DESIGNATION NOTES 1 UNLESS OTHERWISE INOICATED RESISTANCE OHMS CAPACITANCE PICOFARADS INDUCTANCE MICROHENRIES EWLETT PACKARD COMPANY 2 ASTERISK INDICATES FACTORY SELECTED COMPONENT TYPICAL VALUE GIVEN S5100 2 2 Figure 5 14 Search Oscillator 5 Model 5100A Section V Figure 5 15 e A3 5 34 Model 5100 REFERENCE DESIGNATIONS NOTES REFERENCE DESIGNATIONS WITHIN THIS ASSEMBLY ARE ABBREVIATED ADD ASSEMBLY DESIGNATION AS PREFIX TO FORM COMPLETE DESIGNATION 2 UNLESS OTHERWISE INDICATED RESISTANCE IN OHMS CAPACITANCE IN PICOFARADS 05100 D 4 Y 20 A3A1 A11 02279 1 05100 A 27 NND uti _A3 3 4MC SWITCH _MODL 3 4MC SWITCH BO BO 6 3V i ee 15 2 RI RS RI5 421 49 l i 10K OK I 3 TO 4MC FROM SEARCH OSCILLATOR BNC si C9 OF 56 gt R4 RIA i OWF 3600 cg 1800 1800 CRI2 tJ20 18 36 FRO 12 8007 q ae 500 a 1500 TO A3A 2 L s C O 1 TRU PEN ur pon Que Our 7
13. ET P Me RI 470 36V NO Q1 2N 963 INPUT EMITTER FOLLOWER MBLY RENCE DESIGNATIONS WITHIN THIS ARE ABBREVIATED ADO MBLY DESIGNATION AS PREFIX TO COMPLETE DESIGNATION R5 1000 C 6 2 2 Ti 2N2360 ua 24MC AMPLIFIER 10Y 2 2 LIV Li 10 ei o o R7 2000 32 22 C39 L37 OLE R22 234 Cag 150 wv asa s Was illc n m 12 6 V 6 TO MIXER AI2 MIXER FILTER MODULE 0s100 6002 _ MIXER BOARD ASSEMBLY 05100 60 27 TO 27 1 MC 58 4V AMPLIFIER 3000 RIO C42 A 3000 L33 22 o xi TO MIXER Al2A2 FILTER BOARD ASSEMBLY 105100 L5i L52 22 22 C51 R53 C53 CHF 1000 T our C52 68 C7O C72 1 65 60 6 6 Q 5I 10 mi 22160 30 TO 3MC C66 Si P 276 AMPLIFIER 267 e 5 64 i C7 i i 1 1 552 10 5 t 133 133 1 pee don ida RS2 I COO RS4 C92 3000 O ZF 82 22 SE o 6 y gt 9DS yZ y 9yI com at _ _ m mm w w Q m m mm rc Ae MEWLETT PACKARS COPYRIGHT 1965 BY aa lt s e q eso w VLUA ahD w LF Le s Ft a j n
14. c5 C6 C9 J1 J2 J3 LI L2 L2 6 42 1850 0152 0758 0009 0758 0003 0757 0296 0758 0003 05100 8004 Q5100 8007 05100 8008 05100 8009 0160 0345 0150 0095 0140 0190 0160 0345 0160 0545 0160 0545 0160 0345 0160 0345 0160 0345 1250 0085 1250 0083 1250 0083 9140 0018 9140 0018 9140 0018 05100 0003 05100 0004 05100 0021 05100 2056 0540 0039 0340 0038 2nd UHF Mixer Module A22 05100 6013 Cont d Prefix all parts in this table A22 Description TRANSISTORIGERMANIUM PNP RIFXD RIFXD FLM 6800 OHM 5 1 2W RIFXD FLM 1000 OHM 5 1 2W RIFXD MET FLM 200 OHM 2 1 2 MET FLM 1000 OHM 5 1 2W TRANSFORMER PUMP INPUT TRANSFORMER MIXER OUT TRANSFORMER AMP TRANSFORMER FINAL OUTPUT CIFXD C tF XD C tFxD 1000PF CER 0s01UF MICA 39 PF OUTPUT 80 20 SOCVDCW B0 20 100VDCW 5 300 VDCW CER CER CER CER CER CER LOOOPF 1000FF 1000PF 1000PF 1000PF 1000PF 80 20 80 20 80 20 80 20 80 20 80 20 500VDCW 500VOCW SOOVDCW 500VDCW 500VDCW FEED THRU FEEO THRU FEED THRU FEED THRU FEED THRU FEED THRU FEED THRU CONNECTOR t BNC 1UH COIL1FXO 1UH COILIFXD 1UH MISCELLANEOUS BRACKET COVER FRAME PLATE END INSULATORtBUSH ING TERMINAL
15. I o Pele 30 TO 3 t MC PMC exer 3 8 MC 2 8 3 TO 4MC fa s 3 71 3 0 TO 31MC 24MC MIXER i 3 TO 4MC TOTO AMC 3 0 TO 3 1MC I SWITCH MODULE f 24MC MIXER 1 DU i 3 TO 4MC g 30 TO 3 1MC 24MC 3 TO 4MC a 1 Pel FOLLOWER 50 TO 3 1MC i 24MC BN 3 TO 4MC I r Cu PU m la z z O G 13 0MC EMITTER FOLLOWER 24MC NEA n A2 AMPL 3 0 TO 3 1MC cam i p Z 24 MC IL MIXER SEARCH OSCILLATOR 3 TO MODULE et Imc E VHF SECTION Section V Figures 5 10 amp 5 11 5 MIXER DIVIDER MODULE r f MIXER 27MC MIXER 2 TO 31 MC DECADE 30 TO 3 1MC C E AG MIXER DIVIDER MODULE MC d 7 72 pir mixeri 27 TO 27 1 MC MIXER 2 30 TO 3IMC DECADE 3 0 TO 3 1MC 5 DIVIDER C E NC CREE ap AT MIXER DIVIDER MODULE MC i NEN mixer 27 TO 27 1MC MIXER 2 30 TO 3 MC DECADE 3 0 TO 3 1MC DIVIDER C ME uim ees T MIXER DIVIDER MODULE MC wi mixer 1 27 TO 271 MC MIXER 2 TO 3IMC DECADE 30 TO 3 1MC DIVIDER e PT A9 MIXER DIVIDER MODULE MC XE MIXER 27 TO 27 1MC MIXER 2 30 TO 3I MC DECADE
16. 2 5 5 28480 1910 0022 32 1910 0029 SEMICON DEVICE DIODES GERM MATCHED 95532105177 52 1910 0030 SEMICON DEVICE DIODE GERMANIUM 28480 1910 0030 s 2100 0024 RIVAR COMP 1000 OHM 10 LIN 2W 28480 2100 0024 E 2100 0108 RIVAR COMP LIN 100 OHM 10 1 3 11237 1 2100 0277 RIVAR COMP 100 OHM 20 LIN 5 28480 2100 0277 oi 2100 0325 RtVAR WW 100 OHM 10 LIN 1 4W 28480 2100 0 25 2 2100 0737 RIVAR WW 200 OHM TYPE H CONFIGURATION 28480 2100 0757 1 2100 0741 RIVAR WW SK OHM 5 28480 2100 0781 2 2100 0755 RIVAR WW 1000 OHM 5 28480 2100 0755 1 2100 0806 RIVAR WW SK OHM 5 28480 2100 0806 3 2100 0941 RIVAR WW 1000 OHM 5 28480 2100 0941 6 2100 1429 R VAR WW 2000 OHM 5 1W 28480 2100 1429 Li 2110 0012 FUSE CARTRIDGE 1 2 250V 75915 512500 1 2110 0027 FUSE CARTRIDGE 1 8 AMP 250V SLOW BLOW 75915 5124125 1 2110 0033 FUSE 0 75 250V 79515 FO2GR750A 2 3040 0037 RH SST 3 16 28480 3040 0037 6 3100 0500 SWITCHtROTARY 28480 3100 0500 1 3100 0701 SWITCHIROTARY 2848015100 0701 1 3101 0033 SWITCHISLIDE 42190 4653 1 3101 0038 SWITCH TOG 3 125 V 04009 83054 B 3 3104 0005 SWITCHtPUSHBUT TON 28480 5104 0005 1 3104 0006 SWITCHsPUSHBUTTON 28480 3104 0006 i x 3104 0007 SWITCHsPUSHBUTTON 28480 3104 0007 8 5020 0241 SUPPORT ETCHED CIRCUIT BOARD 28480 5020 0241 2 8120 0078 CABLE POWER37 5FT 70905 KH4 147 1 9100 0175 TRANSFORMER
17. FROM J21 41 3 4MC FROM 12 42 3T0 4MC 1 26 FROM J21 43 3 TO 4MC FROM 21 44 CC S TO J 00 5 TO J2 FROM J21 50 EE S TO J3 FF 5 Es sper A I a ee SRR oe ie 3 9 51 2 3 4MC SWITCH BOA FROM J21 33 3 9MC FROM J21 34 3 9MC 12 6 FROM J21 35 3 9MC FROM J21 36 CC 9 TO JI DO 9 1022 FROM J21 32 9 TO J3 FF 9 FT 63 SE vehe ce ul 3 8 MC so 311 A3A3 3 4MC Edi BOAI FROM J21 231 3 8MC J21 24 5 8MC 12 6V FROM J21 25 3 8MC ROM 221026 1 CC 8 TO J DD 8 TO J2 FROM J21 32 8 TO J3 FF 8 rc A EE mc unc OM 5 7 MC J21 4 5 4MC SWITCH BOAI FROM J21 15 37MC FROM J21 16 3 7MC 12 6 FROM J21 17 37MC FROM J2 I8 CC 7 TO Ji DD 7 TOJ2 FROM J21 14 EE 7 TO J3 FF 7 Cua olent A EU 56 MC 421013 5 3 4MC SWITCH BOAI TROM SHOA FROM J21 5 3 6MC FROM J21 6 5 6MC 12 6 FROM J21 7 3 6MC FROM J21 8 6 TO JI 00 6 TO J2 FROM J21 14 6 TO J3 FF 6 C3 lt Mc VE A A a a a a E Pea A3A6 3 TO 4MC SWITCH BOAI FROM J20 45 3 5MC FROM J20 46 3 5MC i2 6v FROM J20 47 35MC FROM J20 48 CC 5 TO JI DD 5 TO J2 FROM J21 4 5 TO J3 FF 5 EN A AAA teh a 5 4 J2103 3
18. 0 10930 1000 LIA C80 72 350 TO a 7 i OME m DTE phos e NEXT DECADE FES r i 4 3 THRU 00 70 CONNECTOR C76 i BLOCK A4I5 11 15 E C78 i Estos u 2N2360 C82 1 JUMPER DIVIDE BY 2 Q 55 80 5V SEV 48 R66 BY 5 1500 I i S cun Vi We of 270 953 pegno 2N2360 ci AMPLIFIER RES 2 5v LIMITER 100 L69 i ae d RES lt CR54 ACR55 i 3 C77 REI 2000 m 0 AUF 3000 L 6 3V FROM 2 lt gt DECADE 183 CONNECTOR 22 C97 1 BLOCK AG 35 11 3 OF T our lt s i ee eee ee _ PACKARD COMPANY Figure 5 17 Mixer Divider 5 through 5 39 5 Model 5100 5 12 1 02279 1 05100 A 32 05100 A 33 NOTES UNLESS OTHERWISE INDICATED RESISTANCE IN OHMS CAPACITANCE IN PICOFARADS INDUCTANCE IN MICROHENRIES ASTERISK INDICATES FACTORY SELECTED COMPONENT TYPICAL VALUE GIVEN REFERENCE DESIGNATIONS 05100 D 10 FIED SIDA DECADE CTOR 3 1 MC DIN 2 1 4 um mmis me duh UR s s VA GA s w v s
19. 6 22 C24 C26 12 6 ih 0 144F oor DECOUPLED 2 9 OUTPUT LEVEL i MANUAL R57 OPERATION 60 x CW REI 5000 C44 C2uF CH B QIO Ol 1853 COO 1853 0001 RSS cas CGO T aree 7 DESCUPLEO Cw RSE 5500 OUTPUT LEVEL AGT OPERATION AGC awe FIER wee M _ n n r r r 0 ee M X _ Y PACK ARD COMPANY _ wur BLU J27 Low LEVEL BNC OUTPUT y e RED REO dii ca T 29 1 000 i R 3I WHT 7 TO Ae on L METER cs T SK ET mk METER T tour Ta BLU OUTPUT C32 00 LF t LB t 22 vio Lao REFERENCE DESIGNATIONS WITHIN THIS ASSEMBLY ARE AB8REVIATEO ASSEMBLY DESIGNATION AS PREFIX TO FORM COMPLETE DESIGNATION AGC TO 22 Figure 5 29 Output Amplitie icd M L A GY DSi 3 33K x A 54 WHT F 5 BRN GY I 115 7 WHT GY JT2 MR i L eee ii lh e HG om OP A25AI RECTIFIER BOARD ASSEMBLY 05100 6031 iy tee TR TSA 14 WHT ORNM GY t 15 WHT ORN CRI 7 1 O t 280QUF i 1 BLK B TI e N 1 1 x CONTRCL BLK C2 280064F
20. Harrisburg Pa Torrance Calif Ho Hollywood Calif San Francisco Resistance Producls Co Rubbercraft Corp of Calif Shakeproot Division ol Illinois Toal Works Signal Indicator Corp Elgin York N Y Stuthers unn Inc Pitman N J Thompson Bremer 4 Chicago III Tilley Mig Co San Francisco Calif Stackpole Carbon Co St Marys Pa Standard Thomson Corp Tinnetman Products Inc Transformer Engingets Ucinite Ca Watdes Kohinnor Inc Veeder Roal Inc Wenco Mfg Co Conttnental Witt Electronics Cop Philadelphia Pa New Rochelle N Y Waltham Mass Clevetand Ohio San Gabriel Newjonville Mass Long island Cily N Y Hatilord Conn 111 Zierich Mig Corp Division of Sessions Clock Co Morristown NJ Schnitzer Alloy Products Co Elizabeth N J Times Telepholo Equipmeni New York N Y Electronic Indusirtes Associalion Any brand Tube meeting EIA standards W ashington D C Unimax Switch Div Maxon Elecltonics Corp United Transformer Corp Oxford Electric Coup Bourns Laboratories Inc Robestshaw Controls Co All Star Products Inc Avery Adhesive Label Corp Wallingford Coan New York N Y Chicago HI Riverside Calil Hillsboro Ohio Deliance Ohio Monrovia Calif From FSC Handbook Supplements 4 1 Daled DECEMBER 1964 Hi 2 Dated MARCH 1962 6 63 Section VI Table 6 22 Code No Manufocturer Address 656
21. j 66 01 Ji DD 0 FROM 22068 EE O TO J3 FF 0 Jt Ri2 J2 RIA J3 Rig BNC 3600 BNC 3600 BNC 500 109 TO 104 A4P2 103 TO A4P3 92 COPYRIGHT 1965 BY HEWLETT Figure 5 MODULE _ 05100 6006 SERIES 330 NOTE LL _ _ BOARD ASSEMBLY 105100 6030 1 Ris R24 R27 IOK 10 OK ROW Cii cis CI S OIF R23 R26 R29 crig 8 0 cr21 800 CR24 1800 CRI9 R25 L CR22 R28 gd R25 CR20 I5007T Cn23 1500 A C16 CI8 SIME _ ji OF M 4 3 TO 4MC FROM J21 45 3 TO 4MC FROM J21 46 3 TO AMC FROM J21 47 3 TO 4MC FROM J21 48 3T04MC TO J4 66 5 TO J5 HH S TO J6 JJ S TO J7 KK S J8 BOARD ASSEMBLY 05100 6030 TON m wd VS TROIE i COMM MEE NACE CREME Ma 6 39MC FROM J21 37 39MC FROM J21 38 3 9MC FROM J21 39 3 9MC FROM J21 40 3 9MC TO J4 66 9 TO J5 HH 9 TO J6 JJ 9 TO JT KK 9 TO J8 BOARD ASSEMBLY 05 0 6030 con cce e T amp S Teese eee pp rn d MC 5 3 8MC FROM J21 27 38MC FROM J21 28 38MC FROM J21 29 3 8MC FROM 721301 3 8MC TO J4 GG 8 TO J5 HH B 30 J6 JJ 8 TO J7 KK 8 TO J8 BOARD ASSEMBLY tostoo 6030 gi k a o A E N EN M ME CEU placa SERA dc 3 37MC FROM 22114 37MC FROM J21 20 37MC FROM 21
22. 02279 1 08 06 Section IV Paragraphs 4 6 to 4 11 04 TO 39 U UU 5 0 OPS TO 50 MC SECTION A 17945 06 Figure 4 5 Model 5100 Section of these columns a 3 to 4 Mc search oscillator is substituted for the 3 0 through 3 9 Mc signals from the 5110A to the selected module This enables man ualor continuous scanning of the selected digit posi tion For example if an unknown signal is mixed with the Synthesizer output the search oscillator may be used to obtain a pre determined beat note When this beat note 1s obtained for the most significant column the correct digit pushbutton may be substituted for the search position in that column The same procedure may then be followed for the next most significant column Since the search oscillator is voltage controllable it provides a sweep oscillator capability for the Synthesizer with extremely well defined end points the digit buttons in the columns to the left and right of the searched column 4 10 These basic blocks thediode switch matrix the eight mixer modules and the searchoscillator comprise the high frequency section of the 5100A They function to provide a selected frequency between 30 Mc and 31 Mc having the stability of the internal standard or a 1 Mc or 5 Mc external standard 4 11 The 5100 UHF section adds the 1 megacycle and 10 megacycle steps Now that a very accurate signal between 3
23. 1647 0758 0003 RIFXD MET FLM 1000 OHM 5x 1 2W A1RUB 0758 0053 RIFXD MET FLM LOOK OHM 5 1 2W A1Ru9 0758 0071 RIFXD MET FLM 4300 OHM 5 1 2W 1850 0758 0002 RIFXD MET FLM 560 OHM 5 1 2 1851 0758 0018 RIFXO MET FLM 15K OHM 5 1 2W ALR52 0758 0071 RIFXD MET FLM 4300 OHM 5 1 2W 55 0758 0002 RIFXD MET FLM 560 OHM 5 1 2 AIR5A4 0758 0053 RIFXD MET FLM 100K OHM 5 1 2W AIRSS 0758 0003 MET FLM 1000 OHM 5 1 2W A RS6 2100 0806 RIVAR WW SK OHM 5 A1RS7 0758 0002 RIFXD MET FLM 560 OHM 5 1 2W A1R58 0758 0017 RIFXD MET FLM 1500 OHM 5 1 2 1 59 0758 0002 RIFXD MET FLM 560 OHM 5 1 2 A1R60 0758 0057 RIFXO MET FLM 5600 OHM 5 1 2W A1R61 2100 0806 RIVAR We SK OHM 5 x 0160 0345 CtFXD CER 1 80 20 SOOVDCW FEED THRU ca 0160 0345 CIFXO CER 1 80 20 500VDCW FEED THRU C3 0160 0345 CER 1000PF 80 20 SOOVDCW FEED THRU Cu 0160 0345 CER 1000FF 80 20 500VDCW FEED THRU 26 0160 0345 CIFXD CER 1000 80 20 500VDCW FEED THRU C6 0160 0345 CER 1 80 20 500VDCW FEED THRU 07 0160 0345 CER 1000FF 0 20 500VDCW FEED THRU 0160 0345 CER 10 80 20 SOUVDCW FEED THRU J 1250 0118 CONNECTORIBNC 22 1250 0085 CONNECTOR t BNC J3 1250 0083 CONNECTOR H MISCELLANEOUS 05100 0022 COVER AMPLIFIER 05100 0015 FRAME AMPLIFIER 0340 0039 INSULATOR t PUSHING 05100 2027 J PLATE ENDe AMPLIFIER 05100
24. CER 1000PF 80 20 500VDCW FEED THRU Ji 1250 0085 CONNECTORtBNC L1 9140 0179 COIL FXD ReFe 22 UH 10 275 L2 9140 0179 COIL FXD 22 UH 10 275 R1 2100 0024 RIVAR COMP 1000 OHM 10 LIN 2W MISCELLANEOUS 05100 0026 BRACKET SEARCH OSC 05100 0027 COVER SEARCH OSC 05100 0070 PLATE SEARCH 05 05100 2040 PLATE SIDE 0240 0059 INSULATOR SBUSHING 0370 0030 KNOB 3 5020 0241 SUPPORTIETCHED CIRCUIT BOARD 0340 0037 TERMINAL 3 STUD 0340 0038 TERMINAL 1 STUD See list of abbreviations in introduction to this section 6 8 02279 1 Model 5100A Reference Designation 1 A1C1 A1C3 A1C5 1 6 1 7 A1CB 1 9 1 10 1 11 A1C12 A1C 153 A1C14 A1C15 1 16 1 17 1 18 AICRI 1 2 AICRS A1CRA4 AICRS A1CR6 1CR7 1 A1CR9 AICRIO AICRil A1CR12 1 12 1 14 1 15 A1CR16 A1CR17 AICR18 A1CR19 A1CR20 AICR21 A1CR22 A1CR23 A1CR24 A1CR25 A1CR26 A1Q1 A1RI ALR2 02219 1 Table 6 4 3 to 4 Mc Switch Module 05100 6006 Prefix all parts in this table A3 4 Stock 05100 6030 9160 2055 0160 2055 0160 2055 0160 2055 0150 0121 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 1910 0016 1910 0016 1910 0016 1901 0025 1910 0016 1910 0016 1910 0016
25. FROM 42 30 TO 39 MC OUTPUT TO FL MIXER A22 CR2 I2 6V OR 2 370 MC FROM FILTER PLZ R iig 5 350 TO 390MC OUTPUT TO BNC MIXER A23 12 6V jig 000 47 OR 6 3 2 Ca 380 MC I FRCM FILTER FL 2 12 6 OR 6 3 v 1 C 390 M lt FRCM FILTER 195 NRIES CLEYOIGHT 566 BY EWwLETT PACKARD Figure 5 25 30 to 39 Mc Switch 350 to 390 Mc Switch 5 55 5 Model 5100 A21A2 A21A1 x J21 ms men Nnm et igno mmo cae Qu A e men mei I C ct ide w A21 02279 1 05100 45 05100 A 46 05100 A 47 A2 MIXER MODULE IST UHF 05100 AZIAI FILTER BOARD ASSEMBLY IST UHF 0sto0 6040 se ASSE MORE ISI 940 LI R8 3000 ML RI R6 LS 3 22K 41 30 TO INPUT FROM A4P9 I RS c5 GOO TO 165 m R7 L4 4 1006 R3 Cw 22K 5000 REFERENCE DESIGNATIONS WITHIN THIS ASSEMBLY ARE ABBREVIATED ADO ASSEMBLY DESIGNATION AS PREFIX TO FORM COMPLETE DESIGNATION REFERENCE DESIGNATIO NOTES NO PREFIX 1 UNLESS OTHERWISE INDICATED RESISTANCE IN OHMS CAPACITANCE PICOFARAOS INDUCTANCE MICROHENRIES f ii Section V Figure 5 26 0500 6012 Y SERIES 401 gt a s s s m _ r
26. OUTPUT AMPLIFIER ASSY DECADE FILTER BD CABLE 55 5 4 CABLE ASSY amp HI FRE0 ASSY CABLE 3 4 1 ASSY CABLE 3 4 2 CABLE ASSY REMOTE 8 COIL ASSY CABLE ASSY POWER SUPPLY COVER ASSY BOTTOM COVER ASSY TOP STRAP GROUND CABLE ASSY OUTPUT INCLUDES J4 ASSY OUTPUT JUMPER CABLE ASSYe HI LEVEL OUT CABLE ASSY LO LEVEL OUT CABLE ASSY CABLE 30 MC OUT ASSY eCABLE 30 CONNECT ASSY CABLE BUSS FREQ ASSY e CABLE 3 MC OUT ASSY CABLE 12 6 ASSY CABLE 6 5V ASSY CABLE 3 MC amp 24 MC ASSY CLAMP CABLE MIXER 3 INPUT CABLE ASSY DELAY LINE CABLE ASSY 30 MC OUTPUT CABLE TRANSFER 1 CABLE TRANSFER 42 B CABLE TRANSFER 43 C CABLE TRANSFER 4 D CABLE TRANSFER 5 E CABLE TRANSFER 6 CABLE TRANSFER 7 6 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 8480 28480 28480 28480 28480 28480 05100 6028 05100 6029 05100 6050 05100 6031 05100 60352 05100 6033 05100 6034 05100 6056 95100 6037 05100 6038 05100 6059 05100 6040 05100 6041 05100 6042 05100 6045 05100 60u4 05100 6047 05100 6051 05100 6052 05100 6055 05100 6054 05100 6055 05100 6059 05100 606
27. T 22 H 62222600 WHEN EIER ERS GS Ani iia III 128 IERI 58 HEN on Hop EET Figure 1 5 Spectral Lines of Cs133 A E po NE EH HAS B eee I BER HEURE ae ER i ii a m iub pug ign ENTES HEHEH leen in ao E HEH its E pb di s i iii E ic ce le o IEEE i Aisa Ade i B ce a gd d 8 A pur i 22 211 NS 1 e iE iu 11 EAE Hn 12224 H H H H p NE HES 21222112212 12102 221221 1222 2222002221 FREQUENCY Figure 1 6 Spectral Lines of Cs 133 Expanded EHHHHHEE Een nS SERERE EE EE D E 4 c am FIA EGG GE do dd Bis UU Ed d ub s de I T Ho 5 224 Biss EHE cp iN iu 4 10 i ani uuu A IE oo 27 gum gp DID
28. VIDEO AMPLIFIER mri R IOOUF SEO RUE HI FREQ 270 R9 1000 Ju POME 220 SOLF 6800 OlUF 2 2V TO 2 6V O IUF C4 2 2U a Q2 1854 0 9 TO SOMC Q3 I I Rt 5000 5 R 187 TO 2 2V sa 1854 0019 FROM A23 WHT RIO 220 wis Ji GRN Q sour idi o iur WS cis 1854 0019 CIO SOUF RI2 47 20 LO FREQ cw GAIN C a 220UF 1000 IOOUF 16 3V DECOUPLED R45 R49 R52 330 4300 4300 cal O2H F 08 ORAS orn 22 i854 0003 FROM m CI Q9 153 42 CRA CRE _ 1854 0003 amp 2699 G x IO p FROM oe en 1300 R43 CRA QS R46 R48 NEN R54 RSO I 1 t C Tour 1 1 1 d 5600 ICOK gt IOO K Ox O WHT R53 1 REDI CRS Q7 560 560 vini 151 uio 851 0017 am T C43 BL 5000 1000 ud i i26v CECOUP ED S Gs AND CIRCUIT e il A SA AGC Aw F _ r s A e E COPYRIGHT 1965 BY Pa 6 3V DECOUPLED L2 15 1000 22 60 3 3v TO 4 2 1854 0019 CRI R23 3900 R29 a CR2 C22 68 2 Q4 C25 1854 0019 R30 DA HF 68 R24 i 1000 R28 l 270 C I dee
29. p Connect 411A to pin 3 q Sweep signal at pin 1 between 3 0 Me and 4 Mc r Check level of output pin 3 signal when signal at pin 1 is 3 0 Mc 3 5 Mc and 4 0 Mc Levels should be within 12 mv of each other centered from 35 mv to 60 mv 5 54 MIXER FILTER 12 5 55 NORMAL OPERATION Thefirst mixing stage combines the 1V 24 Mc signal at pin 6 and the 60 mv 5 17 Section V Paragraphs 5 56 to 5 61 3 0Mc to 3 1 Mc signal at Pin 2 The sum of these two signals 27 0 Mc to 27 1 Mc is added to the 50 mv 3 to 4 Mc signal at Pin 1 and the sum of these 30 Mc to 31 Mc 1s filtered and amplified to provide an output of 150 mv at Pin 5 5 56 OPERATIONAL CHECKS To quickly check to see if the Mixer Filter is operating properly proceed as follows Remove the Module from the Model 5100A and supply it with power using the fabricated connector as shown in Figure 5 5 b Connect a 24 Mc 1V signal to the input connector for terminal 6 Measure frequency with an electronic counter c Connect a 3 05 Mc 60 mv signal to the input con nector for terminal 2 Measure frequency with an electronic counter Supply 3 05 Mc from 606A d Connect 3 5 Mc at 50 mv to input connector for terminal 1 Measure frequency with an electronic counter Supply 3 5 Mc from Sweep Generator e Observe output at BNC connector for terminal 5 with RF Voltmeter and Electronic Counter The out put level should be 150 mv and the output f
30. then or 7 is defective 3 0 3 1 Mc signal is absent then A5 is defective If signal is normal at socket at A10 then A10 or 11 is defective If 3 0 3 1 Mc signal is absent on socket of A10 then A8 or A9 is defective Note Decade test cable Stock 05100 6180 3 length with mating connectors to socket can sub stitute for A5 Remove A5 and connect test cable between pin 2 and pin 3 of 5 socket No 24 Mc signal at pin 6 on socket for A12 defective amplifier board assembly A4A2 d No 24 Mc signal at pin 6 on socket for All defective A4A3 No 24 Mc signal at pin 6 on socket for A10 to A5 defective A4A4 Table 5 4 Assembly or Module Identifications Pushbutton ssembly 05100 6003 Multiplier 36 360 Mc 05100 6019 Search Oscillator 05100 6005 Multiplier 35 350 Mc 05100 6020 3 4 Mc Switch 05100 6006 Multiplier 33 330 Mc 05100 6021 Connector Block 05100 6004 30 to 39 Mc Switch 05100 6010 350 to 390 Mc Switch 05100 6011 11 Mixer Divider 3 0 3 1 Mc 05100 6001 1st UHF Mixer 05100 6012 A12 Mixer Filter 30 31 Mc 05100 6002 2nd UHF Mixer 05100 6013 A13 Multiplier 39 390 Mc 05100 6016 3rd UHF Mixer 05100 6014 A14 Multiplier 38 380 Mc 05100 6017 Output Amplifier 05100 6015 A15 Multiplier 37 370 Mc 05100 6018 Power Supply 05100 6007 02279 1 9 13 Section V Paragraphs 5 22 to 5 31 5 22 ADJUSTMENTS 5 23 GENERAL 5 24 There is no periodic adjustment necessary for the proper operation of the 5100A int
31. 28480 28480 28480 07115 07115 07115 7115 7115 7115 8480 07115 07115 07115 07115 07115 7115 7115 7115 7115 2115 7115 07115 07115 07115 07115 07115 C 20 C 20 C 20 C 20 CEC T O CEA CEA CEA CEA 0757 0274 CEA 0757 0277 MF 7C T2 MF5C TO MF5C TO 0757 0294 0757 0295 20 0757 0297 C 20 0757 0516 0757 0544 0757 0268 0757 0377 0757 0398 0757 0914 C 20 20 1K 5 1 2W C 20 G 20 021000 000900 0090000 O 20 20 0758 0010 See list of abbreviations in introduction to this section Mfr Part No Model 5100A PEU Murene ON PAYDO 0 05 PPHHH PENNY 02279 1 Model 5100A 0758 0066 0758 0071 0758 0073 0758 0083 0758 0093 0758 0094 0812 0017 0839 0029 0900 0034 1120 0152 1200 0043 1200 0076 1200 0081 1200 0087 1200 0092 1205 0012 1205 0025 1205 0026 1205 0031 1250 0066 1250 0083 1250 0118 1250 0125 1250 0149 1250 0212 1250 0214 1251 0145 1251 0194 1251 0216 1251 0582 1251 0384 1251 0424 1400 0010 1400 0084 1400 0109 1400 0117 1400 0155 1450 0048 1460 0164 1490 0030 1850 0020 1850 0062 185C 0064 1850 0075 1850 0091 1850 0098 1850 0118 1850 0119 1850 0138 1850 0121 1850 0152 1850 0153 1250 0027 1250 0057 1250 0081 02279 1 19 Stock No Table 6 21 Description RIFXD MET FL
32. 62119 63743 64359 65092 66295 6346 20276 70309 70318 10485 70563 20903 70998 71002 7104 71218 71286 71313 71400 71436 11447 71450 71468 71471 71482 11590 71616 71700 71744 11753 71785 71984 72136 21707 72354 12619 12656 72768 Manufacturer Address General Atramics Corp Executone Inc Fansteel Metallurgical Corp The Falnir Bearing Co G E Lamp Division Nela Park Cleveland Orio General Radio Co West Concosd Mass Gres Regroducer Corp New Rochelle N Y Grobet File Co of America lac Cailstadl N J Lancaster Pa Palo Alto Calif Owensboro Ky Chicago 111 Philadelphia Pa New York N Y No Chicago Ill New Britain Conn Hamilton Watch Hewletl Packard Co Recewing Tube Leciiohm inc Stanwyck Corl Products Lid Hawkesbuty Ontario Canada Mallory amp Inc Indianapolis Ind Mechanical industries Prod Co Akron Ghio Miniature Precision Bearings Inc Keene Muler Chicago M Norgren Co Englewood Colo Ohmite Mfg Co Skokie 111 Polaroid Corp Cambridge Mass Precision Thermometer amp Inst Co Southamplon Lexington Mass Westminster Md Wallham Mass Selma N C Raytheon Company Rowan Controller Co Sanborn Co Shallcross Mig Co Simpson Electric Co Chicago Ill Sonotone Corp Elmsford N Y Raytheon Co Commercial Apparatus amp Systems Div So Norwalk Conn Spau
33. 80 20 100 CIFXD CER 1000PF 600 VDCW CIFXD CER OeOLUF 80 20 100VOCW CIVAR CER 8 50 PF 750 CER O OLUF 80 20 100VDCW CIFXD O O1UF 80 20 100VDCW C FXD MICA 2 300VDCW C1 FXD MICA 20PF 5 CtFXD 0 01UF 80 20 100VDCW CIVAR CER 8 50 PF 750 CIVAR CER 1 5 7 500 SEMICON DEVICE DIODE GE 100MA 6PIV 345NS SEMICON DEVICE BOIODE GE 100MA 2 5 5 SEMICON DEVICEtCIODE GE 100MA 6PIV 3 5 5 SEMICON DEVICE IDIODE GE 100MA 6PIV 3 5 5 SEMICON DEVICE ICIODE SILICON STEP RECOVERY SEMICON DEVICE 2DIODE GE 100MA 6PIV 345NS COIL FXD COIL FXD COIL F XD COILIFXD COIL1F XD COIL F XD 22 10 275 MA COIL ASSYe VARIABLE 16 230 ADJUSTABLE TUNING ReF 22 ReFe 22 UH 10 275 UH 10 275 RF 0 27UH O 27UH Ref 22 UH 10 275 MA COIL ASSY VARIABLE 16 23UH ADJUSTABLE TUNING 5 1 TRANSISTOR FNP GERMANIUM EIA 2N2560 HEAT SINK TRANSISTOR TRANSISTORICERMANIUM 2N2402 R GERMANIUM 2N1143 PNP TRANSISTORSGERMANIUM SPL 2N404 TRANSISIO TRANSISTORIGERMANIUM SPL 2N4 O04 TRANSISIOR 2N70B8 NPN SILICON 6 30 i See list of abbreviations in introduction to this section Model 5100A 02279 1 Designation 5 Model 5100A eference Section VI Table 6 11 Table 6 11 36 to 360 Mc Multiplier Module A16 05100 6019 C
34. POWER 28 B0 9100 0175 1 9110 0054 FILTER BANDPASS 330 MC 28480 9110 0054 i 9110 0055 FILTER BANDPASS 350 MC 28480 9110 0055 1 x See list of abbreviations in introduction to this section 6 56 02219 1 Model 5100A 9110 0056 9110 0057 9110 0058 9110 0059 9110 0060 9110 0086 9140 0018 9140 0024 9140 0080 9140 0088 9140 0094 9140 0095 9140 0096 9140 0114 9140 0115 9140 0120 9140 0137 9140 0141 9140 0159 9140 0176 9140 0177 9140 0178 9140 0179 9140 0180 9140 0181 9140 0188 9170 0042 9170 0105 9170 0106 05100 0001 05100 0002 05100 0003 05100 0004 05100 0005 05100 0007 05100 0010 05100 0011 05100 0012 05100 0015 05100 0014 05100 0015 05100 0018 05100 0019 05100 0020 05100 0021 05100 0022 05100 0025 05100 0025 05100 0026 65100 0027 02279 1 Table 6 21 FILTER BANDPASS 60 FILTER BANDPASS 570 MC FILTER BANDPASS 380 MC FILTER BANDPASS 390 MC FILTER BANOPASS 395 MC FILTERIELECTRICAL POWER LINE COIL3FXD 1UH COILIFXD 0 68 UH COILIRF 0 18 MH 10 INDUCTORIRF O433UH 5 COILIFXD RF 0O468UH COIL3FXD O427UH COILIFXD RF 1 UH COIL FXD RF 10 UH COILIFXD RF 22UH 10 COIL FXO O 1 UH COILIFXD RF 100 UH COILIFXD RF 0 68 UH COILIFXD O 47UH 20 COIL FXD ReFa 4 UH 5 250 MA COIL FXD 8 UH 5 500 MA COILIFXD 2 7UH 10 COILiFXD RF 22UH 5 COIL1FXD O 56UH 10 COILIVAR 0 427 0 810 CORE LADUUSTABLE TUNING CORESADUUSTABLE TUNING COVERIMETER AMPLIFIER B
35. STUD AA See list of abbreviations in introduction to this section Model 5100A Note 02279 1 Model 5100A Section VI 6 18 Table 6 18 3rd UHF Mixer Module A23 05100 6014 Prefix all parts in this table A23 Dea t Stock No Description Note Al 05100 6043 BOARD 55 UMF 05100 2017 BLANK BOARD 1400 0117 CLIPIMOUNT ING 1 1 0140 0214 MICA 60PF 5 3OOVDCW A1C2 0150 0058 CER 2 2 PF NPO 600 VDCW A1C3 0150 0059 CER 3 3 PF NPO 600 VOCW A1C4 0150 0058 C FXD CER 2 2 NPO 600 VOCM AICRI 1900 0011 SEMICON DEVICE IDIODE 1N416BM MATCH PAIR A1CR2 1900 0011 SEMICON DEVICE1DIODE 1NA416BM MATCH PAIR A10L1 05100 6102 CABLE ASSYs DELAY LINE ALLI 05100 8018 COIL FILTER 115UH A1L2 9140 0120 COILIFXD 0 1 UH AIRI 0757 0294 RIFXD FLM 17 8 OHM 1 1 8W A1R2 0757 0297 RIFXO OX 300 OHM 2 1 2W AIRS 0757 0297 RIFXD MET OX 300 OHM 2 1 24 A1RG 0757 0295 RtFXD 11 5 OHM 1 1 88 A1RS 0757 0074 RIFXD OX 430 OHM 2 1 2 A1R6 0757 0074 RIFXD MET OX 430 OHM 2 1 2 A2 05100 6165 BOARD 65 FILTER 05100 2057 BLANK BOARD 2 1 0160 0178 CIFXD MICA 27PF 5 2 2 0140 0034 CIFXD MICA 22 PF 5 500 VDCW A2C3 0150 0058 CIFXD CER 2 2 PF NPO 600 VDCk 9140 0018 COILIFXO 1UH 9140 0018 COILIFXD 1UH 9140 0024 0 68 UH 9140 0024 COILtFXD 0 68 UH 1250 0083 CONNECTOR18NC 1250 0083 CONNECTOR 1 8NC
36. Shockley Semm onductor Laboratories Boonton Radio Corp U S Engineering Co Blinn Delbert Co Burgess Battery Co Niagara Falls Ontatio Canada The Bristol Co Waterbury Conn Sloan Company Sun Valley Calif IT T Cannan Electric Inc Phoenix Div Phoenix Arizona CBS Electronics Semiconductor Operations Div of C B S Inc Lowell Mass Mel Rain Indianapolis Ind Babcock Relays Div Cosla Mesa Calif Texas Capacitor Co Houston Texas Atohm Electronics Sun Valley Calif Mountain View Cali Palo Alto Call Rockaway N J Los Angeles Calif Pomona Calil Electro Assemblies Inc Chicago Battery Co of Canada Ltd Toronto Ontario Canada General Transistor Western Corp Los Angeles Calif Ti Tal Inc Berkeley Calif Carborundum Co Niagara Falls CTS of Chicago Telephone of California lac So Pasadena Cali Wallham Mass Berne Ind Bay Slate Electronics Corp Microwave Electronics Coro Palo Alto Call Duncan Electronics Inc Costa Mesa Calif General instrument Corp Semiconductor Div Producls Group Newark H J Imperial Electronic Inc Buena Fark Calif Melabs Inc x Palo Alto Philadelphia Handle Ca Camden Claroslat Mfg Co Dover Nippon Electric Co Lid Tokyo Japan Melex Electronics Corp Clark N J Delta Semiconductor Inc Newport Beach Cali Thermolloy Dallas Texas Telelunken G M B H i Hanover G
37. Table 6 3 Search Oscillator Module 2 05100 6005 Prefix all parts in this table A2 42 Stock No Description 4 Note 05100 6028 OSCILLATOR BOARD ASSYe 05100 2006 BLANK BOARD OSCILLATOR 0140 0202 CIFXD MICA 15 PF 5 500VDCW 0140 0202 CtFXD MICA 15 PF 5 0160 2055 CiFXD CER O O1UF 4980 2058 100VDCW 0160 2055 CIFXD CER 0 010 80 20 100VDCW 0140 0151 CIFXD MICA 820PF 2 300VDCW 0150 0111 CER 220PF 5 300VDCW 0380 0059 SPACERISLEEVE BRS CP 0 2500 0 15210 0 25 0140 0145 MICA 22 5 500 VOCW 0160 2055 CIFXD CER O O01UF 80 20 100VDCW 0160 2055 C1FXD CER O OI1UF 80 20X 100VDCW 0160 2055 CER OeOlUF 80 20 100VDCW 1902 0126 SEMICON DEVICE IDIODE 2 61Y 5 BREAKDOWN 1902 0126 SEMICON DEVICE 1DIODE 2 61 5 BREAKDOWN 1902 0126 SEMICON DEVICE1DIODE 2 61V 5 BREAKDOWN 1902 0126 SEMICON DEVICE1DIODE 2 61 5 BREAKDOWN 0122 0006 CIVAR VOLTAGE 100 PF AT 0122 0006 CIVAR VOLTAGE 100 PF AT 05100 6171 55 05 COIL 26UH 1850 0091 TRANSISTORIGERMANIUM 2N2048 PNP 1850 0119 TRANSISTOR PNP GERMANIUM EIA 2N963 0727 0137 RIFXD DEPC 5 18 OHM 1 1 24 0727 0115 RIFXD DEPC 2000 OHM 1 1 2w 0727 0109 RIFXD DEPC 1470 OHM 1 1 2W 0757 0197 MET FLM 1500 OHM 1 1 2W 0757 0079 RIFXD MET FLM 2700 OHM 2 1 2W 0685 2735 RIFXD COMP 27K OHM 5 1 4 0757 0079 RIFXD MET FLM 2700 OHM 2 1 2W 0758 0009 RIFXO FLM 6800 OHM 5 1 2W 0683 1025 RIFXD COMP 1000 OHM 5
38. are connected by a low inductance path such as adjacent rack mounting 022 19 1 00000 C 1 1 5100 Vh Y a z z 9 lt 2 10 2 Section I Paragraphs 1 13 to 1 15 PROGRAMMER M s FILTER UNDER CONVERTER TEST Loo AMP X Y PLOTTER 2 12 2 13 FREQUENCY IN MEGACYCLES Figure 1 3 Crystal Filter Response Plot front paneldialor remotely by application of a suitable voltage The typical voltage vs frequency character istic is shown in Figure 1 4 The approximate slope is 10 of the selected column s range per volt 1 13 If the search oscillator is used the stability of the Synthesizer output is determined by either that CALIBRATION POINTS 5 o COLUMN RANGE 8 6 4 2 0 6 VOLTS Figure 1 4 Voltage vs Frequency Characteristics of the Search Oscillator 02279 1 05100 4 05102 A 1 of the standard instrument or that of the search oscil lator The search oscillator has a root mean square deviation of approximately 1 cycle one second average if used in the most significant column that can be searched 100 Kc steps This Afrmg is reduced by a factor of 10 for each less significant column that is searched an example consider that the search oscillator is used in the 10 Kc step column at an out put frequency in the 10 Mc region The instability in the output frequency d
39. o o a SERVICE ENG TECH FILE IM S M HEWLETT PACKARD SOUTHERN SALES DIVISION 2112 SPENCER RD RICHMOND VIRGINIA 22230 31004 FREQUENCY SYNTHESIZER OPERATING AND SERVICE MANUAL HEWLETT PACKARD VOOLS dH HEWLETT W PACKARD CERTIFICATION The Hewlett Packard Company certifies that this instrument was thoroughly tested and inspected and found to meet its published specifications when it was shipped from the factory The Hewlett Packard Company further certifies that its calibration measurements are traceable to the U S National Bureau of Standards to the extent allowed by the Bureau s calibration facility WARRANTY AND ASSISTANCE All Hewlett Packard products are warranted against defects in materials and workmanship This warranty applies for one year from the date of delivery or in the case of certain major components listed in the operating manual for the specified period We will repair or replace products which prove to be defective during the warranty period No other warranty is expressed or implied We are not liable for consequential damages For any assistance contact your nearest Hewlett Packard Sales and Service Office Addresses are provided at the back of this manual AND SERVICE MANUAL MODEL 5100A FREQUENCY SYNTHESIZER SERIALS PREFIXED 540 This manual applies directly to Model 5100A Frequency Synthesizers with se
40. 0000M 00002 Q00A A 10048 000 00088 000MM OOONN 00000 00055 GOW 000v Y Malco Tool and Die Los Angeles Cald Western Coil Div of Aulematic Ind Inc Redwood Cily Call Willow Leather Products Corp Newark N J British Radie Electronics Ltd Washington D C England Siemens America Components Div Precision Instrument Components Co White Plains Y Van Nuys Calif Rubber Eng Development Hayward Cali A CN D Mfg Co San Jose Calf Cooltron Dakland Calif Control of Elgin Watch Ca Burbank Cali California Eastern Lab Smith Co Burtington Calif Los Angeles Calif From FSC Handbook Supplements 4 1 Dated DECEMBER 1964 H4 2 Dated MARCH 1962 02219 1 Model 5 02219 1 100 APPENDIX MANUAL CHANGES This manual applies directly to 5100A Frequency Synthesizers having serial number prefix 540 This manual with the following changes also applies to 5100A Frequency Synthesizers having serial prefix numbers 351 401 408 420 427 442 and 520 To adapt this manual to instru ments with serial number prefixes other than 540 note changes as follows Instrument Serial No Prefix Change No Note 1850 0153 is the recommended replacement for Q1 in all P N 05100 6039 Mixer Board Assemblies A21A2 2100 0941 is the recommended replacement for R15 in all Multiplier Board Assemblies A13 A18A1 CHANGE 1 Figure 5 17 Assem
41. 0160 0332 0160 0535 0160 0334 0160 0335 See list of abbreviations in introduction to this section r Q m nd Section Table 6 21 E p AS OD ASR Section VI Table 6 21 t Stock No 0160 0336 0160 0337 0160 0538 0160 0539 0160 0540 0160 0341 0160 0342 0160 0344 0160 C345 0160 0356 0160 0357 0160 0358 0160 0359 0160 0360 0160 0368 0160 0369 0160 0370 0160 0373 0160 0374 0160 0375 0160 2055 0180 0010 0180 0033 0180 0039 0180 0045 0180 0049 0180 0058 0180 0061 0180 0098 0180 0104 0180 0128 0180 0157 0180 0155 0180 0159 0180 0204 0180 0205 0340 0008 0340 0036 0340 0037 0340 0038 0340 0039 0360 0351 0360 0554 0560 0557 0560 0358 0370 0020 0570 0112 0380 0059 0510 0125 0510 0124 0510 0210 C3FXD CrF xD C1FXD CiFXD C tF xD C tF xD C tF XD C tF XD C tF C FXD C3FXD CIFXD C FXO C tF XD C3sFxD C 1F XD C 1F xD C tF XD CtFXD tF XD C 1FXD C tF XD CtFXO C tF XD C tF XD MICA MICA MICA MICA MICA MICA MICA MICA CER 1000FF 80 20 50GVDCW FEED THRU Table 6 21 Description LOOPF 160PF 267 534PF 600PF 640PF BOOPF 220PF MICA 18PF 5 CER 85 5 SOOVDCW CER 5 SOOVDCW CER 103PF CER 120PF MICA 16 MICA 17PF MICA 20PF 1 6PF CER
42. 02279 1 t Stock No CivAR CFR DISK 2PF TO PF 300 VLDCWw NPO 300 Description DISK 5 5 18 PF NFO VOLTAGE 100 PF AT 4V C yCLTAGE VARIABLE CtFXO C 1FXD C3FXD CIFXD CIFXD C1FXD CIFXD CIFXD C tFXD C 31F XD CtFXD C FXD CIFXO CtFXD CIFXD CIFXD CIFXU C 1F XD CIFXD CIEXD C3F XD C F XD CrFXD C FXD CIFXD C FXD Ct FXD CIFXD C tF xD CtFXD CtFXO C1FXD tF XD C tFXD C 1F XD C 1F xD CtFXD CER CER MICA MICA MICA MICA MICA MICA MICA MICA MICA MICA MICA MICA MICA MICA MICA MICA MICA MICA MICA MICA MICA TI CER TI 1 CER CER CER CER CER CER CER CER CER MICA MICA MICA CER MICA MICA MICA PAIR 8 5 PF N750 15 7 PF 500 22 5 500 VDC 550 10 500 VuUCW 22 PF 5 500 VDCw B20PF 2 300VDCW 1000 PF 5 500 VUCW 3000PF 300VDCW 400 1 500 VDCW 560 PF 2 500 VDCW 39 PF 5 300 VOCw 68PF 5 300VDCW 15 PF 5 500VDCW 5 NPO SOOVUCW SPF 10 500VDCW 60PF 5 300VDCW BOPF 2 3OOVDCW 200PF 1 300VDCW 240FF 1 300VDCW 300PF 1 300V0DCW 320PF 1 300VDCW 420PF 1 300VDCW 1 300VDC 7 5 500 vDCW 1000PF 600 VDCW O 5 500 vDCW 2 2 PF NPO 600 VDCW 5 5 PF NPO 600
43. 1617 0683 1825 RIFXD COMP 1800 OHM 5 1 4w AIR18 0683 1035 RIFXD COMP 10K OHM 5 1 4 w 1819 0683 1525 RIFXD COMP 150 OHM 5 1 uw A1R20 0683 1825 RIFXD COMP 1800 OHM 5 1 u w A1R21 0683 1035 RIFXD COMP 10K OHM 5 1 4 A1R22 0683 1525 RIFXD COMP 150 OHM 5 1 50 A1R23 0683 1825 COMP 1800 OHM 5 1 4w 0685 1035 RIFXD COMP 10K OHM 5 1 4 W A1R25 0685 1525 RIFXD COMP 150 OHM 5 1 u W A1R26 0685 1825 RIFXD COMP 1800 OHM 5 1 40 A1R27 0685 1035 RIFXD COMP 10K OHM 5 1 4 W A1R28 0683 1525 RIFXD COMP 150 OHM 5 1 4W A1R29 0683 1825 REFXD COMP 1800 OHM 5 1 uw A2 SAME AS A1 PREFIX 2 AZ SAME AS 1 A4 SAME AS AI PREFIX A4 A5 SAME AS 1 5 AG SAME AS 1 A7 SAME AS Al PREFIX A8 SAME AS A1 PREFIX A9 SAME AS 1 9 A10 SAME AS 1 A10 11 SAME AS 1 All JI THRU J8 1250 0212 CONNECTOR JACK CHASSIS BNC J9 1250 0066 CONNECTOR BNC JACK J10 1250 0212 CONNECTOR JACK CHASSIS BNC Jll 1250 0212 CONNECTOR JACK CHASSIS it See list of abbreviations in introduction to this section 6 10 02219 1 Section VI Table 6 4 Model 5100A Table 6 4 3 to 4 Mc Switch Module A3 05100 6006 Cont d 412 1250 0212 CONNECTOR1JACK CHASSIS BNC 413 1250 0212 CONNECTORIJACK CHASSIS BNC J14 1250 0212 CONNECTORtJACK CHASSIS BNC J15 1250 0212 CONNECTOR1JACK CHASSIS BNC J16 1250 0212 CONNECTORIJ
44. 172 1612 0721 0004 RIFXD DEPC 100K OHM 1 1 8W A2 05100 6027 BOARD ASSEMBLY 24MC AMPLIFIER 05100 2005 BLANK BOARD 24 MC 9170 0105 CORE sADJUSTABLE TUNING 2 1 0160 2055 C3FXD CER O 01UF 80 20 100VDCW A2C2 0160 2055 CIFXD CER O 01UF 80 20 100VDCW A2C3 0160 2055 CER 10 80 20 100VDCW A2CU 0160 2055 CIFXD CER 0 01UF 80 20 100VDCW 2 5 0160 0367 CIFXD CER 85 5 500VDCW A2C6 0160 2055 CIFXD CER O O1UF 80 20 100VDCW A2C7 0160 2055 CER O 01UF 80 20 100VOCW 2 0160 2055 CIFXD CER O O01UF 80 20 100VDCW 2 9 0160 2055 CIFXD CER O O1UF 80 20 100VDCW A2C10 0160 2055 CIFXD CER O O1UF 80 20 100VDCW A2L1 9140 0179 COIL FXD 22 UH 10 275 MA A2L2 9140 0179 COIL FXD 22 UH 10 275 MA A2L3 05100 6174 COIL ASSY VARIABLE 427 35 A2L4 9140 0179 COIL FXD 22 UH 10 275 MA A2L5 9140 0179 COIL FXD 22 UH 10 275 MA A201 1850 0118 TRANSISTOR PNP GERMANIUM EIA 2N2360 202 1850 0119 TRANSISTOR PNP GERMANIUM EIA 2N963 A2R1 0757 0277 RIFXD MET FLM 49 9 OHM 1 1 8W See list of abbreviations in introduction to this section 6 12 022 19 1 Model 5100 Table 6 5 Connector Block Module A4 05100 6004 Cont d Prefix all parts in this table A4 Ref m Designation t Stock No Description A2R2 0653 1025 RIFXD COMP 1000 OHM 5 1 w A2R3 0757 0275 RIFXD FLM 113 OHM 1 1 8W 284 0683 6825 RIFXO COMP 6800 OHM 5
45. 2 9 POWER CONNECTION 2 10 LINE VOLTAGE amp 5100A may be oper ated from either 115 or 230 volt 10 50 to 400 cps power lines slide switch on the rear panel permits quick conversion for operation from either voltage Insert a narrow blade screwdriver in the switch slot and slide the switch to the right for 115 volt operation 115 marking exposed or to the left for 230 volt operation 230 marking exposed Note Before connecting ac power to instrument be sure slide switch is properly positioned 2 11 POWER CABLE The Model 5100A is equipped with a detachable 3 wire power cable Proceed as follows for installation a Connect flat plug 3 socket connector to ac line jack at rear of instrument 2 1 Section II i Model 5100A Section III b Connect plug 2 blade with round grounding pin to 3 wire grounded power outlet Exposed portions of instrument are grounded through the round pin of the plug for safety when only 2 blade outlet is avail able use connector adapter 6p part No 1251 0048 m PEDACITO SI then connect short wire from side of adapter to ground 2 12 INSTRUMENT INTERCONNECTION 2 13 Connect the Model 5110A to the Model 51004 with cable assemblies provided as shown in Figure 2 2 Cables are marked for proper connection If output is desired from the front panel OUTPUT connector connect rear panel HI LEVEL OUTPUT to the TO FRONT PANEL
46. 3 db points referred from 30 5 Mc level should be atleast 1 25 Mc centered on 30 5 Mc Adjust L62 and or L67 slightly as necessary to center bandwidth u Remove 606A and 390 ohm resistor from junction of C61 and C62 v Connect 606A to pin 2 w Set 606A to 3 0 Mc at 60 mv x Connect 3 5 Mc 50 mv signal to Pin 1 from Sweep Generator y Connect 24 Mc 1V signal to Pin 6 z Sweep signal at Pinl from 2 5 Mc to 4 5 Mc The bandwidth 3 db points referred from 3 5 Mc input should be at least 1 2 Mc apart and centered on 3 5 Mc 161 should be readjusted if necessary to im prove centering Level at band center should be more than 120 mv rms Connect with 50 ohm load to 411A input ab Connect 411A to 5 30 31 Mc output 150 mv level ac Set signal at Pin 1 to 3 5 Mc 50 mv ad Adjust R64 to set output level to 150 mv Sweep Pin 1 signal between 2 5 Mc and 4 5 Mc Level between 3 0 Mc and 4 0 Mc should not vary more than 0 5 db If level varies more than 0 5 db re tune L68 with Pin 1 signal at 3 5 Mc and reset R64 for 150 mv output Then repeat the check in this paragraph 3 60 MULTIPLIERS A13 A18 5 61 NORMAL OPERATION Input frequencies are 33 35 Mc 37 Mc 38 Mc and 39 Mc at levels of about 90 mv Output frequencies are 350 360 Mc 370 Mc 380 Mc and 390 Mc at 1 5 volts and 330 Mc at 1 2 volts The on off ratio of A13 thru A17 is greater than 75 db 02219
47. 4MC SWITCH BOA FROM J20 37 54 FROM J20 38 3 4MC 12 6 FROM J20 39 3 4 MC FROM J20 40 1 TO y 00 4 TOJ2 FROM J21 4 EE 4 TO J3 FF 4 re O E ae GOE S ELS 5 3 420456 3 SWITCH BOA USA ice ea SS FROM 2201273 3 3MC FROM J20 28 3 3MC 12 6 FROM J20 29 3 3MC FROM 220130 CC 3 TO J DD 3 TO J2 FROM J20 36 EE 3 TO 43 FF 3 f4 41 PE IEEE C C Dc ia ERRATE 3 2 me J20 35 3 4MC SWITCH BOA FROM 5IICA DON CEU PRSE a gt Sal MA PREND NCC NES SSS Se FROM 22009 32MC FROM J20 20 3 2MC 12 6 FROM 220121 32MC FROM 220122 2 TO J DD 2 TOJ2 FROM J20 36 EE 2 TO J3 FF 2 x 11 7 TEGU E a da CA ME 3 4MC SWITCH BOA FROM 5 4 FROM J20 9 3 1MC FROM J20 10 3 1MC 12 6 FROM 92011 31MC X FROM 92002 CC 1 TO Ji 0 1 TO J2 FROM 20 18 EE 1 TO J3 1 ra TE P rc ies Ex E XR oas SEO S Pi OS ee re NANO EM J207 3 TO SWITCH BOA F RO SITOA uibs lt s s e der I FROM J20 1 3MC FROM J2012 3MC 12 6V FROM J20 3 3MC FROM J2214
48. 5 43 5 44 Model 5100A 02279 1 05100 35 Add module prefix to component A14A1 A17A1 Ai4 38 580MC MULTIPLIER MOL AI4 AI 38 TO 380MC MULTIPLIER BOARD Q6 ES Li 2N708 4 22 22 MET vio c T t 1 our 2200 c3 WHT wHT CONTROL RED RIS HE VOLTAGE M YEL 05 Ti FROM AITAA 1 2N404 ce ON 12 6Y TE N 6 3 V r i i w SWITCH la 28MC FROM AISJI2 RI wTE GRN OIF 7 BNC Qe i 2N2402 Qi RII e 2N2360 180 t FREQUENCY DOUBLER CIO R3 RB 1500 510 L FILTER AMPLIFIER er RED RED C3 L3 Too 1 22 c 1 L E e F n U _ _ gt gt e mm __ L a to on REFERENCE DESIGNATIONS NOTES UNLESS OTHERWISE INDICATED RESISTANCE OHMS CAPACITANCE PICOFARADS INDUCTANCE MICROHENFRIES 14 LY I 22 22 cis WF OIHF 1 1 CRE L6 C20 HARMONIC AMP R AMPLIFIE GENERATOR RIS 560 no s Cm s REFERENCE O SIGNATIONS WITHIN THIS ASSEMBLY ARE ABBREVIATED ADD ASSEMBLY DESIGNATION AS PREFIX TO FORM COMPLETE DESIGNATION JESIGNAT ONS COPYRIGNT 1965 BY HEWLETT PACKARD COMPANY Figur
49. 51104 The meter signal originates inthe 51104 The signalis amplifiedon Meter Board Assembly A4A1 and the meter monitors its output If the meter read ing is in the green section it is an indication that the signal from the S1104 is present and has the proper amplitude 9 8 6 3 VDC AND 12 6 VDC A reading inthe green section in these positions indicates that the power supply of the 5100A is operating properly 9 9 OUTPUT The meter signal is supplied from the OUTPUT AMPLIFIER Module A24 A reading in the green section is an indication that a synthesized signal is present at the OUTPUT jack 5 10 IN CABINET PERFORMANCE CHECK 5 11 GENERAL The In Cabinet Performance Checks Table 5 2 and Performance Check Test Card to be filled out during incoming inspection page 5 244 verify specifications and provide a permanent record of performance of cach instrument The In Cabinet Performance Check verifies proper operation of all circuits Model 5100A Frequency Synthesizer and may be used 02219 1 a As part of an incoming inspection check of in strument specifications b periodically for instruments used in systems where maximum reliability is of utmost importance c as part of a troubleshooting procedure to locate malfunctioning circuits and d after any repairs or adjustments before return ing instrument to regular service 5 12 MODULE DESIGNATIONS 5 13 Table 5 4 gives the reference designations and names o
50. 6 28 02279 1 Section VI Table 6 10 Model 5100A Table 6 10 37 to 370 Mc Multiplier Module A15 05100 6018 Cont d Prefix all parts in this table A15 R To T AJIRI 0727 0036 RIFXD DEPC 71 16 OHM 1 1 26 AIR2 0683 1525 RIFXD COMP 150 OHM 5 1 4W A1R3 0683 1525 RIFXD COMP 150 OHM 5 1 4W AIRY 0683 7515 RIFXO COMP 750 OHM 5 1 4w AIRS 0683 7515 RIFXD COMP 750 OHM 5X 1 4W A1R6 0683 1325 RIFXD COMP 1300 OHM 5 1 4w 187 0683 6215 RIFXD COMP 620 OHM 5 1 4w A1RB 0683 5115 RIFXD COMP 510 OHM 5 1 4W AIRO THRU 1610 NOT ASSIGNED A1R11 0683 1815 RIFXD COMP 180 OHM 5 1 4w A1R12 0683 5105 RIFXD COMP 51 OHM 5 1 4w AJR13 0757 0076 RIFXD MET FLM 560 OHM 2 1 2 1814 0683 2225 RIFXD COMP 2 2 OHM 5 1 4w A1R15 2100 0941 RIVAR Ww 1000 OHM 5 A1R16 0758 0003 RIFXD MET FLM 1000 OHM 5 1 2W AIR17 0758 0003 RIFXD MET FLM 1000 OHM 5 1 2W AIR18 0683 2235 RIFXD COMP 22K OHM 5 1 4W AIRI9 0683 1035 RIFXD COMP 10K OHM 5 1 4 W ALR2O 0683 2225 RIFXD COMP 2e2K OHM 5 1 4W A1R21 0683 3325 RIFXD COMP 3300 OHM 5 1 48 ALTI 05100 6163 TRANSFORMER INPUT DOUBLER C1 0160 0345 CIFXD CER 100UPF 80 20 500VDCW FEED THRU C2 0160 0345 CiFXD CER 1000 80 20 500VDCW FEED THRU 0160 0345 CiFXD CER 1000PF 80 20 500VDCW FEED THRU 0140 0192 CIFXO MICA 68PF 5 300VDCW di 1250 0083 CONNECTOR 1BNC J2 1250 0083 CONNECTOR ENC MISCELLANEOUS 05100 0082 COVER MULTIPLIER 37 370 MC 05100 6164 CHASSIS ASSYe MULTIP
51. 8120 0078 05100 6118 05100 6117 05100 6212 05100 6190 05100 6191 05100 6192 05100 6195 05100 6194 05100 6195 05100 6196 05100 6197 05100 6198 05100 6199 05100 6210 05100 6211 05100 6213 05100 6200 05100 6201 0510026202 05100 6203 05100 6204 05100 6205 05100 6206 05100 6207 05100 6208 05100 6209 05100 6177 05100 6104 05100 6105 05100 6106 05100 6107 05100 6106 05100 6109 05100 6110 05100 6111 0510026175 Q5100 6181 05100 6119 05100 6120 05100 6121 05100 6122 05100 6125 Table SWITCHIROTARY KNOB 6 1 Chassis Parts Cont d Description Note SWITCHITOG DPOT 3 125 V SWITCHITOG DPOT 3 125 V SWITCHtSLIDE CABLE INCLUD ASSY INCLUD CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE 7 5 ASSY 3 MC INPUT CABLE ES J11 28 ES J10 ASSY ASSYe ASSYe ASSY ASSYe ASSY ASSY ASSY ASSYee 55 ASSYe ASSY 55 ASSY ASSYe ASSY e ASSYe ASSY se ASSYe ASSYe ASSYe ASSYe ASSYe ASSY INPUT CABLE LO FREQ INTERCONNECT 3 OMC 3 1MC 342MC 3 3MC 3 UuMC 345MC 34 6MC 5 5 8 5 9 INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT
52. 99 10 000 000 00 and 1 000 000 00 cps The Counter display should be the same as the frequency selected the Model 5100A 1 cps Although the Counter does not display the frequency selected in the tenth and hundredth of a cycle per seconds columns an out put as indicated above is a legitimate check for these columns If no signal were present one of these columns the output frequency would be zero cps Note This is not an accuracy check If the above frequencies can be selected any frequency within the range of the Synthesizer can be created 2 DIGITAL FREQUENCY SELECTION Connect Model 5100A LO LEVEL output to DC Amplifier with 20 db gain and connect to Counter Set Counter FUNCTION control to 1 Period Average TIME BASE gate time to 1 msec Using the Model 5100A front panel pushbuttons select the following frequencies and note the period on the Counter FREQUENCY cps PERIOD 000 000 000 0 counter counts continuously 000 000 000 1 10 000 000 000 000 2 5 000 000 000 000 3 3 333 000 000 000 4 2 500 000 000 000 5 2 000 000 000 000 6 1 666 000 000 000 7 1 429 000 000 000 8 1 250 000 000 000 9 1 111 000 000 001 0 1 000 000 000 002 0 500 000 000 003 0 333 000 000 004 0 250 000 000 005 0 200 000 000 006 0 166 000 000 007 0 143 000 000 008 0 125 000 000 009 0 111 Change Counter FUNCTION control to FREQUENCY TIME
53. ASSEMBLY ABBREVIATED ADD SSSEMBLY DESIGNATION AS PREFIX TO FORM COMPLETE DESIGNATION CESIGNATIONS COPYRIGHT 1965 BY COMPANY Figure 5 23 35 to 350 Mc Multiplier A1 5 5 Section V Model 5100A Figure 5 24 A18 5 52 02279 1 05100 37 Model 5100A CRISE T 05100 6038 gt 1 a e 02279 1 05100 A 38 2 6v 33 MC FROM A 9J7 65 58 33 330MC MULTIPLIER _ AIBAI_33 330MC MULTIPLIER BOAF M kh iT L1 4 vig L 22 22 Ra R7 C17 750 620 OLF C3 Tome r 5 i21 Le EN RI CE 25 q Q 242402 RI RG IBO i 1500 2N2360 1300 FREQUENCY DOUBLER C2 d CIO _QIUF Ole 1500 510 Nu FILTER AMPLIFIER L3 22 ST a _ _ r s F eee s w 1 rErc c cc lt gt REFERENCE DES GNA NOTES t UNLESS OTHERWISE INDICATED RESISTANCE IN OHMS CAPACITANCE IN PICOFARADS INDUCTANCE MICROHENRIES X mE IER BOARD ASSEMBLY 05100 6036
54. ASSY 24 MC INPUT CABLE INPUT CABLE ASSY 3 MC CABLE 33MC MULTIPLIER INPUT CABLE 35MC MULTIPLIER INPUT CABLE 36MC MULTIPLIER INPUT CABLE 37MC MULTIPLIER CABLE 38MC MULTIPLIER INPUT CABLE 39MC MULTIPLIER INPUT CABLE 330 MC OUTPUT CABLE 350 MC OUTPUT CABLE 360 MC OUTPUT B CABLE 370 MC OUTPUT 45 CABLE 380 MC OUTPUT D CABLE 30 MC OUTPUT E CABLE MIXER 2 OUTPUT CABLE MIXER H3 OUTPUT CABLE MIXER H1 OUTPUT ASSY SEARCH OSC OUT CABLE CABLE 390 MC OUTPUT F BOARD ASSY 37 370 BOARD ASSY 35 350 MC TRANSFORMER INPUT DOUBLER CHASSIS ASSY MULTIPLIER BOARD 55 FILTER COIL VARIABLE 16 235UH TRANSFORMER VARIABLE COIL VARIABLE 50 90UH TRANSFORMER F I XED COIL VARIABLE 3 5 5 5UH 55 05 COIL 26UH TRANSFORMER 1 7UH COIL ASSY e VARIABLE 27 35 CABLE OSC PROGRAMMING 1 55 WELDING HI FREQ DECK CABLE BUSS FREQUENCY CABLE ASSY MULTIPLIER OUTPUT TRANSFORMER VARIABLE CABLE 55 DECADE TEST CABLE MULTIPLIER INPUT COUPLER 30MC COIL ASSY VARIABLE CABLE 55 3 A B C 0 E F COIL 55 VARIABLE 416 23UH TRANSISTOR ASSY 12 6 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 2
55. Inc Hast osd Conn George Garrett Co Div MSL Industries Inc calil Philadelphia Pa Federal Screw Products Inc Chicago Ill Fischer Special Mig Co Cincinnati Ohio The General Indusiries Co Elyria Ohio Goshen Stamping amp Too Co Goshen Ind JFD Electronics Corp Jennings Radio Corp Signalite Inc Brooklyn N Y San Jose Calit Neptune H J Winns and Sons Winchestel Mass Industrial Condenser Corp Chicago IIl Products Division of Amphenol Borg Electronics Corp Danbury Conn Johnson Co Waseca Minn International Resistance Co Philadelphia Pa James Knights _ Sandwich Ml Kulka Electric Corporalion Mt Vernon N Y Lenz Electric Mfg Co Chicago IH Litltefuse Inc Des Plaines Lord Mfg Cn Erie Pa C W Marwedel San Francisco Calif General Instrument Corp Micamold Div Newark M J James Millen Mig Co lac Malden Mass J W Miller Co Los Angeles Cali San Leandio Calif Cleveland Ohio Crystal Lake 111 Monadnock Mills Mueller Elgciuc Co Oak Manufacturing Ca The Bendix Carp Bendix Pacific Pacitic Melals Co Phanostran tastrument and Electronic South Pasadena Calil Philadelphia Sleel and Wire Corp Philadelphia Pa American Machine amp Foundry Co Potler amp Brumfield Div Princeton ind TRY Electronic Components Div Camden General Instrument Corp Rectifier Div Brooklyn
56. OHM 5 1 4 1 15 0683 3025 RIFXD COMP 3000 OHM 5 1 4 AIR14 0683 5625 RIFXD COMP 5600 OHM 5 1 4W A1R15 0683 1525 RIFXD COMP 1500 OHM 5 1 4W 1616 x 0683 1025 RIFXD COMP 1000 OHM 5 1 4 A1R17 0683 3015 RiFXD COMP 300 OHM 5 1 4W A1R18 0683 1025 RIFXD COMP 1000 OHM 5 1 4W A1R19 0683 3925 RIFXD COMP 3900 OHM 5 4 4W A1R20 Q683 3905 RIFXD COMP 39 OHM 5 1 4W A1R21 0757 0284 RIFXD MET FLM 150 OHM 1 1 8 A1R22 0757 0284 RIFXD MET FLM 150 OHM 1 1 8 1825 0757 0284 R FXO MET FLM 150 OHM 1 1 8W ALTI 05100 6172 TRANSFORMER A1T2 05100 6172 TRANSFORMER 1 7UH A2 05100 6024 BOARD ASSYe DECADE DIVIDER 05100 2002 BLANK BOARD 051002039 STRIP GROUND A2C51 0160 2055 CtFXD CER O4 O1UF 480 204 100VDCW A2C52 0160 2055 CIFXD CER O O0i1UF 80 20 100VDCW A2C53 0160 2055 CER O O1UF 80 20 JOOVDCW a2C54 0160 2055 CIFXO CER 0 010 80 20 100VDCW A2C55 0160 2055 CIFXD CER O O1UF 80 20 100VDCW A2C56 0160 2055 CIFXD CER O OLLF BO 20 100VDCW 2 57 0160 2055 CIFXD CER O O1UF 80 20 100VDCW A2C58 0150 0121 C FXD CER QelUF 50 VDCW A2C59 0160 2055 CER 0 010 480 208 100VDCW A2C60 NOT ASSIGNED A2C61 0160 0337 CIFXD MICA 160PF 1 2 62 0160 0342 CtFXD MICA 800FF 1 A2C65 0160 0330 CIFXD CER 6 6 1 A2C64 0140 0220 CIFXD MICA 200PF 1 300VDCw A2C65 0140 0177 CIFXD MICA 400 PF 1 300 VDCW A2C66 0160 0358 CiFXD MICA 267PF 1 A2C67 0160 0538 CIFXD MICA 26
57. PNP A1Q6 1850 0091 TRANSISTORS GERMANIUM 2N2048 A1R1 0683 4715 RIFXD COMP 470 OHM 5 1 4w A 1R2 0683 1025 1000 5 1 4 A1R3 0683 7515 RIFXD COMP 750 OHM 5 1 4w A1RY 0757 0283 RIFXD MET FLM 2000 OHM 1 1 8W AIRS 0683 1025 RIFXD COMP 1000 OHM 5 1 4w See list of abbreviations in introduction to this section 6 20 02279 1 Model 5100A Table 6 17 Mixer Filter Module A12 05100 6002 Cont d Prefix all parts in this table A12 Design fp Stock No Description Note Section VI Table 6 7 A1R6 0757 0282 RIFXD MET FLM 221 OHM 1 1 8W AIR7 0683 2025 RIFXD COMP 2000 OHM 5 1 4W A1RB 0683 3025 RIFXD COMP 3000 OHM 5 1 4W A 1R9 0683 1025 RIFXD COMP 1000 OHM 5 1 4W A1R10 0683 3025 RIFXD COMP 3000 OHM 5 1 4 A1R11 0683 3025 RIFXD COMP 3000 OHM 5 14 A1R12 0683 2225 RIFXD COMP 2 2 OHM 5 1 4w A1R13 0683 3025 RIFXD COMP 3000 OHM 5 1 4w AIR14 0683 5625 RIFXD COMP 560 OHM 5 174 1615 0683 1525 RIFXD COMP 1500 OHM 5 1 4W 1 16 0683 1025 RIFXD COMP 1000 OHM 5 1 46 A1R17 0683 3015 RIFXD COMP 300 OHM 5 1 4 w 1 18 0683 1025 RIFXD COMP 1000 OHM 5 1 4W AIR19 0685 3925 RIFXD COMP 3900 OHM 5 1 44 A1R20 0683 3905 x RIFXD COMP 39 OHM 5 1 4W A1R21 0757 0284 FLM 150 OHM 1 1 8 A1R22 0757 0284 RIFXD FLM 150 OHM 1 1 88 A1T1 05100 6172 TRANSFORMER 1 7UH A1T2 05100 6172 TRANSFORMER 1 7UH 2 05100 6047 BOARD ASSY FILTER 05100 2047 BOARD
58. The 12 6 volts is available intwoarrangements continuous and switched present when REMOTE mode is selected at front panel This lends additional versatility since it enables the use of a combination of remote and local programming 02219 1 05190 2l HCP AACA eee AEE EE EEE 29 9 to 30 1 Mc 30 Me subtracted 20 y sec m 100 Kc markers lt Nadal ca ER 29 9t030 1Mc 30 Mc subtracted 20 usec cm Figure 1 2 High Speed Switching 1 9 An actual contact closure such as a reiayis not required for remote control of the Synthesizer required 12 6 volts dc may be applied tothe selected pin electronically 1 10 Figure 1 3is representative of one of the many applications made possible by the Synthesizer s remote programming capability This plot of the response of a single sideband crystal filter was obtained by pro gramming the Synthesizer to generate frequencies in a variety of incremental steps Less than one minute was required for the complete plot 1 11 SEARCH OSCILLATOR 1 12 Continuous tuning and sweep capability adds versatility for a wide variety of applications The search oscillator is an L C oscillator which allows the operator to continuously search any significant column from 100 Kc to 0 01 eps either manually by 1 1 Section I Table 1 1 Table 1 1 OUTPUT FREQUENCY De to 50 Mc DIGITAL FREQUENCY SELECTION 0
59. WHT BLU WHT 2LG GY o gt a w A25 POWER SUPPLY lt x wHT RED 7 QI 1854 0020 REGULATOR C 2 Q2 1851 0017 wa EMITTER ORN FOLLOWER GRN 4 ORN ca 6190 I CRIT CRi8 CRIS e amp 9 i 8 BLK CR20 CRIS 21 t W 22 9 BLU RE 6190 wHT 17 BLU GRN Q3 2N amp OA EM TTER CLLCWER YI 1850 0098 REGULATOR o n n e_1___ r _ r _ _ REFERENCE DESIGNATIONS WIT ASSEMBLY ARE ASGREVIATED ASSEMBLY DESIGNATION AS PR FORM COMPLETE DESIGNAT ON COPYRIGHT 1965 BY HEWLETT PZLC ARD R SUPPLY MODULE tura lt ooo ns T RED i tN 9 1 1 K 61 I U 3 o ATIONS WITHIN THIS BREVIATED ADD AS PREFIX JESIGNAT ON ETT COMPANY 05100 6007 SERIES 442 Q5 1854 0020 REGULATOR 1851 OOIT CURRENT LIMITER 1850 0062 CURRENT LIMITER R6 Ra 9090 o 1850 CO9SB REGULATOR WHT VIC YEL Section Figure 5 3 _ A25A3 REGULATOR FILTER ASSEMBLY t05 6059 WHT RED GY LI RED 25 2 REGULATOR BOARD ASSEMBLY osioo 6032 i851 0017 EMITTER FOLLOWER C5 LO L
60. indication f Remove short from L62 and tune L62 to null 411A indication g Set 606A output level to 60 mv h Connect 411A to junction of C66 and C67 i Short L65 and tune L64 to peak 411A indication 200 mv to 300 mv j Remove short from L65 and short L66 Adjust L65 to null 411A indication 10 mvto 16 mv 1 Remove short from L66 and short 1 67 m Adjust L66 to peak 411A indication 80 mv to 140 mv n Remove short from L67 and tune L67 to null 411A indication 30 mv to 50 mv o Connect 411A through 1 pf capacitor to CR51 cathode p Tune T52 to peak 411A indication Connect 411A to 053 base Voltage should be more than 120 mv rms r Vary 606A from 29 5 Mc to 31 5 Mc Band width 3 db points referred to level at 30 5 Mc must be at least 1 25 Mc apart centered about 30 5 Mc Symmetry is adjusted by L62 and or L67 to center bandwidth s Remove 606A and 390 ohm resistor from junction of C61 and C62 and reconnect cable t Connect 606A to pin 2 u Set 606A to 3 0 Mc at 60 mv level Leave 411A connected to Q53 base v Connect 3 5 Mc 50 mv signal to pin 1 from Sweep Generator w Connect 24 Mc 1V signal to pin 6 x Sweep signal at pin 1 from 2 5 Mc to 4 5 Mc Bandwidth 3 db points referred to level at 3 5 Mc must be at least 1 20 Mc centered on 3 5 Cen 02279 1 Section V Paragraphs 5 53 to 5 55 tering maybe adjusted using L61 Level at band cen ter should be m
61. protecting Q5 4 68 Operation of the 12 6 volt supply is similar to that of the 6 3 volt supply described above 4 1 4 8 Model 5100A Section V Paragraphs 5 1 to 5 21 SECTION V MAINTENANCE 5 1 INTRODUCTION 5 2 This section provides maintenance and service information for the Model 5100A Frequency Synthe Sizer Includedare tables of recommended test equip ment an in cabinet performance check which may be used to verify proper operation of the 5100A trouble shooting aids adjustment procedures and schematic and block diagrams 5 4 Recommended test equipment for performance checking and troubleshooting is listed in Table 5 Other test instruments may be used if their specifi cations equal or exceed the required characteristics The recommended measuring systems must be com posed of a number of standard and special instruments connected together Therefore the performance of the measurement system is being checked as well as the performance of the Frequency Synthesizer following measurement systems will require a con siderable amount of effort to duplicate and also to verify that an out of specification reading is trace able to the instrument under test or to the test equipment 5 5 CIRCUIT CHECK SWITCH 5 6 check of general operation is made by noting the circuit check meter indication as the switch is rotated through its four positions All readings should be in the green area 5 7
62. um A4 UHF SECTION A20 7 FROM AI PUSHBUT TON SWITCH ASSY COL AA 107 350 TO 390MC i 350 TO 390MC SWITCH MODULE A22 8 A23 MIXER 410 2NO TO 361 MC TO 350MV 590 TO 45 TO 55MV BELOW OOKC MIXER 3RD FILTER AGC BIAS A25 MODULE 1 gt 5 TO NO LOAD 24 OUTPUT AMPL MODULE DETECTOR O TO 50 MC 5 DETECTOR e Section Figure 5 mn 6 3V REGULATED i POWER SUPPLY 12 6V Se REGULATED Ga TO METER O TO 50 CPS qM ILO LEVELI OUTPUT TO METER 5 CPS TO 5 Hf LEVEL OUTPUT Figure 5 12 OSICO 2 27 Block Diagram UHF Sect 5 27 5 o PART OF AI ig um Z Ts KILOCYCLES CYCLES 6 3v ace pr ean ROW 5 fs 5 s 5 5 5 5 1 5 5 5 5 81 5 5 9 9 3 F F E F P 7 id P21 31 s 6 s s fe 5 s 6 5 e x P2 3 t 3 5 5 5 5 5 5 5 5 5 1 21 3 811818181814 a E 5 m 1 5 5 9 5 5 E B GJ 5 a TT 4 P20 17 z z 2 E EJ EJ EJ 2 i 0000000000 it t 5 5 5 5 5 5 5 5 5 LUMN BB CC EE GG JJ PS 6 1
63. 01 cps through 10 Mc per step Selection by front panel push button or by remote switch closure Any change in frequency may be ac complished in less than 1 millisecond OUTPUT VOLTAGE 1 volt rms 1 db from 100 Ke to 50 Mc 1 volt rms 2 db 4 db from 50 cps to 100 Kc into a 50 ohm resistive load Nominal source im pedance is 50 ohms 15 millivolts rms mini mum open circuit from 100 Ke down to de at separate rear output connector source impe dance of 10 000 ohms with shunt capacitance approximately 70 pf SEARCH OSCILLATOR search oscillator provides continuously var iable frequency selection with an incremental range of 0 1 cps through 1 Manual or ex ternal voltage 1 to 11 volts control with linearity of 5 SIGNAL TO PHASE NOISE RATIO Greater than 54 db in a 30 Kc band centered on the signal excluding a 1 cps band centered on the signal SIGNAL TO AM NOISE RATIO above 100 Kc Greater than 74 db in a 30 Kc band RMS FRACTIONAL FREQUENCY DEVIATION with a 30 Kc noise bandwidth Averaging Time 3 10 8 6 10 9 13x10 6x 10 10 3x10 6x10 1H 3x 10711 12x 10 11 SPURIOUS SIGNALS Non harmonically related signals are at least 90 db below the selected frequency 10 ms second HARMONIC SIGNALS 30 db below the selected frequency when ter minated in 50 ohms Note When the 5110A Driver utilizes an external fre quency standard this will affect the stabilit
64. 0160 2055 CtFXD CER OsOlUF 80 20 100VDCW A1C21 0140 0215 C3FXD MICA 80PF 2 300VDCW A1C22 0160 0356 CIFXD MICA 18PF 5 A1C23 0160 2055 CIFXD CER O 01UF 80 20 100VDCW AlC24 0150 0017 CIVAR CER 8 50 PF N750 A1C25 0130 0018 C3VAR CER 145 7 500 AICRI 1910 0022 SEMICON DEVICEtDIODE GE 1 6PIV 3 5NS ALCR2 1910 0022 SEMICON DEVICE DIODE GE 100MA 3 5 5 AICR3 1910 0022 SEMICON DEVICE DIODE GE 100MA 3 5NS A1CRY 1910 0022 SEMICON DEVICESDIODE GE 100 6PIV 2 5 5 AICRS 1901 0128 SEMICON 0100 SILICON STEP RECOVERY A1CR6 1910 0022 SEMICON DEVICE DIODE GE 100MA 6PIV 3 5NS A1L1 9140 0179 COIL FXD ReFe 22 UH 10 275 A1L2 05100 6186 ASSY VARIABLE 16 23UH 9170 0105 CORES ADJUSTABLE TUNING A1L3 9140 0179 COIL FXD RaFa 22 UH 10 275 MA 9140 0179 COIL FXO 22 10 275 AiL5 9140 0095 COIL3FXO RFI QO 27UH AiL6 9140 0095 COILIFXD RF t Oe27UH A1L7 9140 0179 22 UH 10 275 A1L8 05100 6186 COIL ASSY VARIABLE 16 23Ut 9170 0105 CORETADJUSTABLE TUNING A1L9 NaSeR PART OF Al 101 1850 0118 TRANSISTOR PNP GERMANIUM EIA 2N2360 1205 0031 HEAT SINK TRANSISTOR A1Q2 1850 0121 TRANSISTOR GERMANIUM 2N2402 A1Q3 1850 0020 TRANSISTOR GERMANIUM 2Ni143 PNP A1QU 1850 0062 TRANSISTOR GERMANIUM SPL 2N404 105 1850 0062 TRANSISTORIGERMANIUM SPL 2N404 A106 1854 0005 TRANSISTOR 2N708 NPN SILICON See list of abbreviations in introduction to this section
65. 05 00 0 Figure 5 13 Pushbutton Switch A1 Sheet 1 of 0 29 5 Model 5100 k Al 02279 1 05100 22 E UN mom m m L n TT T Toss 1 T I ee suse s ma ri a TO FROM SWITCH 3 TO 4MC REMOTE Fc P2i 43 m WHT RED GRN ja P21135 WHT BRN GRN J8 10 4 gt P21 25 WHT BLK GRN J8 91 P2 17 GR BE WHT rem R SN J8 7 NE b HT WHT ORN GY m P20 39 WHT GY nel S 21816 P20 29 WHT BRN R J8 4 2 21 WHT BLK RED ud P2O0 it WHT RED J8 2 Zu i YEL BL WHT YEL BLU Send L9 os T LE I I t i 1 1 T TO FROM SWITCH TO4uc REMOTE sN WHT RED YEL 21 56 EN WHT BRN YEL P21 26 4 WHT BLK YEL P2I 18 zT WHT YEL P21 8 d YEL P20 48 WHT YEL GRN P20 40 WHT RED ORN P20 30 WHT BRN ORN P20 22 d WHT BLK ORN 2 12 WHT P20 4 m LIO 48 22 J8 21 48 20 48 19 48 18 48 17 J8 16 J8 15 J8 14 J8 13 F E P21 45 HT RED GY J8
66. 1 A2RS 0757 0269 RIFXD MET FLM 270 OHM 1 1 BW A2R6 0757 0273 RIFXD MET FLM 3 01K OHM 1 1 8w A2R7 i 0683 1025 RIFXO COMP 1000 OHM 5 1 4W A2RB 0683 1025 RIFXD COMP 1000 OHM 5 1 4W A3 05100 6025 BOARD ASSEMBLY EMITTER FOLLOWER 05100 2003 BLANK BOARD A3C1 0160 2055 CIFXD CER O O01UF 80 20 100VDCW A3C2 0160 2055 CIFXD CER O 01UF 80 20 100VDCW A3C3 0160 2055 C3FXD CER O O01UF 80 20 100 A3L1 9140 0179 COIL FXO 22 UH 10 275 MA A3Q1 1850 0119 TRANSISTOR PNP GERMANIUM EIA 2N963 0685 4715 RIFXD COMP 70 OHM 5 1 4W A3R2 0683 1025 RIFXD COMP 1000 OHM 5 1 W ABR3 0683 7515 RIFXD COMP 750 OHM 5 1 4w 05100 6025 BOARD ASSEMBLY EMITTER FOLLOWER SAME AS A3 PREFIX AA L1 9140 0115 COILIFXO RF 22UH 10 L2 9140 0115 COIL3 FXD RF 22UH 10 L3 91450 0115 COILIFXD RF 22UH 10 4 9140 0115 COIL amp FXD RF 22UH 10 15 9140 0115 COILIFXO RF 22UH 10 L6 9140 0115 COILIFXD RF 22UH 40 L7 9140 0179 COIL FXO 22 UH 10 275 18 9140 0179 COIL FXD ReFe 22 UH 10 275 MISCELLANEOUS 05100 2029 BLOCKIDECADE CONNECTOR 05100 6004 BLOCK ASSY DECADE CONNECTOR 05100 6103 CABLE ASSY 30 MC OUTPUT 05100 6112 CABLE ASSY 6 3 CONNECT 05100 6113 CABLE ASSYe INTERCONNECT 05100 6114 CABLE ASSYe 12 6V CONNECT 05100 6115 CABLE ASSYe 24MC CONNECT 05100 6116 CABLE ASSY 24 BUSS 05100 6184 CABLE ASSYe 3MC 1250 0149 COAXIAL BNC RT ANGLE RECEPT 1251 0424 CONNECTORIMALE SINGLE B
67. 1 2 12 Instrument Interconnection TEE DU HL OPERATION y Roh M UR CE Gb exc wd WS E SU 3 1 3 1 Introduction de is RN 3 1 3 3 5110 E T i 3 1 8 1 Operation 5100A osos HE 3 1 3 15 Remote Programming ea cele de 3 1 IV THEORY OF OPERATION 4 4 r 4 1 4 1 Introduction 4 1 4 13 Pushbutton Switch Al i e O 4 11 Search Oscillator A2 Eos fey ER 4 3 4 20 to 4 Mc Switch pe cono 4 8 4 93 Connector Block AG v ia fa a S E X LEE 47303 Lx dox Lu d 4 26 Mixer Dividers A5 Through All m COP 4 37 Mixer Filter A12 c PONE Cx baa 4 4 4 39 39 to 390 Mc Multiplier A13 sea 4 4 4 41 Multipliers 14 17 TOP 4 5 4 43 33 to 330 Mc Multiplier 18 of 52 2 4 5 4 45 304029 Me Seiten ATIS aa e LS 4 47 350 to 390 Mc Switch A20 UPPER ECT 4 5 4 49 ist UHF Mixer oao CDU LES 4 5 4 52 2nd Mixer A22 PCR ee b Pane ek 4 5 4 55 3rd Mixer A23 ae A 4 57 Output Amplifier 24 4 6 4 61 Power Supply Module 25 4 6 4 62 Rectifier Board As
68. 1 8 5 SOOVDCW 5 SOOVDCW 5 5 5 0 1PF GOUVDCK 0 1 SOUVDCY CER 2 2 1 300vDCW CER 0 01 UF 80 2096 100VDCW SUF 15 20 350VDC ELECT ELECT ELECT ELECT ELECT ELECT ELECT ELECT ELECT ELECT ELECT 50UF 6VDCW 100UF 12VDCW 20 20UF 5 25VDCWw 10 100 25 100UF 100 10 15VYUCWw 100UF 20 20vOCw 20006 15VDCW 3000UF 10 30 30VOCW TA 100 UF 20 LOVDCK 2 20 20 20VDCW ELECT 220UF 10VDCW ALUM 2800 UF 40 100 10 12 UF 10 75 150VDCW INSULATOR STANDOFF TERMINAL t STUD TERMINAL 1 STUD TERMINAL 3 STUD INSULATOR BUSHING TERMINAL LUG 3 TERMINAL TERMINAL 1 STUD TERMINAL tFEED THRU TERMINAL 3 PRESS IN KNOB KNOB SPACERISLEEVE BRS CP 0 2500 0 15210 0 25 FASTENERIPUSH ON NUT CAPTIVE 6 22 ST CP NUT CAPTIVE 8 32 5 32 0 2650 i Model 5100 Replaceable Parts Cont d Mfr M r Part No TQ 28480 0160 0336 28480 0160 0337 28480 0160 0338 28480 0160 0339 28480 0160 0340 28480 0160 034 28480 0160 0342 28480 0160 0344 01121 FB28 102W 28480 0160 6356 71590 T882850JSIG 71590 TB82940JSIG 71590 2 1 62 069 71590 DA165 022J 28480 0160 0368 28480 0160 0369 2828010160 0370 72982 301 000 0 169 72982 501 COK 189B 72982 301 000 020 2298 91418 TA 21520 2 56289 50013341 56289 3001
69. 1 4 W i AIRIO 06B3 1035 RIFXD COMP 10K OHM 5 1 4 W AIR11 0683 1815 RIFXD COMP 180 OHM 5 1 4W 1R12 0683 5105 RIFXD COMP 51 ORM 5 1 A1R13 0757 0076 FLM 560 OHM 2 1 2 AIR14 0683 2225 RIFXD COMP 2e2K OHM 5 1 4W AlR15 2100 0941 RIVAR WW LOCO CHM 5 A1R16 0758 0003 RIFXD FLM 1000 OHM 5 1 2W A1R17 0758 0005 RIFXD MET FLM 1000 OHM 5 1 2W A1IRIB 0683 2255 RIFXD COMP 22K OHM 5 1 48 1 1 05100 6163 TRANSFORMER INPUT DOUBLER C1 0160 0345 CIFXD CER 1000PF 80 20 500VDCW FEED THRU C2 0160 0345 CIFXD CER 1000PF 80 20 500VDCW FEED THRU c3 0160 0345 CER 1000PF B0 20 500VDCW FEED THRU 0140 0192 CIFXD MICA 68PF 5 300VOCW J1 1250 0083 CONNECTOR 18 NC 42 1250 0083 CONNECTOR MISCELLANEOUS 05100 0084 COVER MULTIPLIER 39 390 05100 6164 CHASSIS ASSYe MULTIPLIER it See list of abbreviations in introduction to this section 02279 1 6 25 Section VI Model 5100 Table 6 9 Table 6 9 38 to 380 Mc Multiplier Module A14 05100 6017 Prefix all parts in this table A14 R TH pui 4 Stock No Description Note Al 05100 6036 BOARD ASSYe 38 380 0510022020 BLANK BOARD MULTIPLIER A1C1 0160 2055 CiFXD CER Os01UF 80 20 100VDCW 1 2 0160 2055 CrFxD CER O OIUF 80 20 100VDCW A1C3 0160 2055 CIFXD CER 0 010 80 20 100 0 Aic4 0160 2055 CER Oe01UF 80 20 100VDCW 1 5 0160 0357 CiFXD CER 85PF 5 500VOCW A1C6 0150 0042 CIFXD TI 4 7 5 500 VDCW A1C7 0160 2055 CIFXD C
70. 1000 OHM 1 1 89 0685 3025 RIFXD COMP 3000 OHM 5 1 4 0683 1025 RIFXD COMP 1000 OHM 5 1 UW 0683 2025 RIFXD COMP 3000 OMM 5 1 4w 0683 1515 RIFXD CUMP 150 OHM 5 1 uw 0683 1025 RIFXD CUMP 1000 OHM 5 1 4w 0757 0279 R3FXD MET FLM 3el6K OHM 1 1 BW 0757 0277 R3FXD MET FLM 49 9 OHM 1 1 8W 0757 0274 RIFXD MET FLM 1 21 1 1 8w 2100 1429 RIVAR 2000 OHM 5 1W 05100 6179 TRANSFORMER VARIABLE 9170 0106 CORE ADJUSTABLE TUNING See list of abbreviations in introduction to this section Model 5100A Section Table 6 7 Table 6 7 Mixer Filter Module A12 05100 6002 Cont d Prefix all parts in this table 12 Stock Description Reference Designation MISCELLANEOUS 05100 6025 ASSY DECADE MIXER 05100 6047 ASSY DECADE FILTER 05100 6069 ASSY a CABLE 30 OUT 05100 6070 ASSY seCABLE 50 MC CONNECT 05100 6071 ASSY CABLE BUSS FREQ 05100 6075 ASSYe CABLE 12 6 05100 6074 ASSY CABLE 6e3V 05100 6076 ASSY CABLE MC 05100 6077 ASSY CABLE 24 MC 05100 6078 ASSY e eCLAMP 05100 2034 BAR REAR DECADE 05100 2033 BAR FRONT DECADE 05100 0010 BRACKET DECADE 05100 0018 BRACKET END 05100 0019 COVER DECADE R 1 CONNECTOR DECADE 05100 6002 FILTER ASSY 30 31 MC MIXER 0510 0124 NUTICAPTIVE 6 32 ST 05100 2032 02279 1 See list of abbreviations in introduction to this section Section VI j Model 5100A Table 6 8 Table 6 8 39 to 390 Mc Multiplier Module A13 05100 6016 P
71. 1250 0183 Figure 5 5 Model 5100A 5 26 PUSHBUTTON SWITCH ASSEMBLY 1 9 27 NORMAL OPERATION When the front panel FREQUENCY SELECTION switch is in the LOCAL position the Model 5100 output frequency is selected by pressing one pushbutton in each column connecting 12 6 volt enabling voltage to the appropriate switch matrices inthe 3 to 4 Mc Switch Module A3 Mechani cal interlocking prevents pressing more than one push button in any column 2 28 OPERATIONAL CHECK The Pushbutton Switch Assembly is checked by using the procedure of Item 20f the In cabinet Performance Check Table 5 2 9 29 SEARCH OSCILLATOR MODULE A2 9 30 NORMAL OPERATION Transistor QI is a Colpitts oscillator operating in the 3 to 4 Mc range controlled by a 1to 11 volt dc signal applied between varactors CRS and CR6 The output is amplified by Q2 andafter level adjustment and filtering is available at Ji Output level is nominally 50 mv 5 31 OPERATION CHECKS The tracking charac teristics of the SearchOscillator are checked in Item 4 of the In cabinet Performance Check Table 5 2 Extension Connector Mixer Connector 02279 1 9800848 Model 5100 DIVIDE BY 2 OPERATIVE INOPERATIVE DIVIDE BY 5 OPERATIVE INOPERATIVE SWEEP TIME JJSEC CM VERT SENSITIVITY 500MV CM Figure 5 6 Divider Waveforms 5 32 To measure the output level of the Search Oscil lator disconnect the BNC terminated cab
72. 1PF A1C21 0140 0222 C8FXD MICA 240PF 1 300VDCW x A1C22 0140 0233 MICA 4BOPF 1 3OOVOCW A1C23 0140 0226 MICA 320PF 1 300VDCw A1C24 0140 0226 CIFXD MICA 320PF 1 300VDCW A1C25 0160 0328 CIFXD CER 1 A1C26 0160 0337 CtFXD MICA 160PF 1 A1C27 0160 0327 CER 3 0 1PF A1C28 0160 0344 MICA 2 1 A1C29 0160 0341 C1FXD MICA 640PF 1 AIC3O 0160 2055 C FXD O O1UF 80 20 100VDCW A1C31 NOT ASSIGNED A1C32 0160 2055 CIFXD CER Ce01UF 80 20X 100VDCW A1C33 0160 0141 1500 PF 10 500VDCW A1C34 0160 0540 MICA 600PF 1 A1C35 0140 0225 CIFXD MICA 3OOPF 1 300VDCW A1C36 0160 0326 CER 2 2 A1C37 0160 0326 CIFXD CER 2 2 0 1 A1C38 0160 2055 CIFXD CER Q O1uF 80 20 100VDCW A1C39 0160 2055 CIFXD CER 10 80 20 100VDCW A1CA40 0160 2055 CER 0 010 80 20 100VDCW 1 41 0160 2055 i C3FXD CER CoOlLUF 80 20 LOOVDCW A1C42 0160 2055 CER Cs01UF 80 20 100VOCM A1C43 0160 2055 CtFXO Ges01LF 480 208 100VDCW AICH 0160 2055 CIFXD 1 80 20 100VDCW 1 45 0160 2055 CtFXD CER O O1UF 80 20 100VDCW A1CU6 O160 2055 CER 0 01 80 20 100VDCW 1 47 0160 2055 CIFXO CER 0 010 80 20 100VDCW AICHE 0160 0339 CIFXD MICA S34PF 1 See list of abbreviations in introduction to this section Section VI Table 6 6 Model 510
73. 2028 PLATE END 0340 0038 TERMINALISTUD See list of abbreviations in introduction to this section 6 46 02219 1 Section VI Tabie 6 20 Model 5100A Table 6 20 Power Supply Module A25 05100 6007 Prefix all parts in this table A25 Note t Stock No Reference Designation Description f 1 05100 6031 BOARD ASSY RECTIFIER 05100 2009 BLANK B0ARD 1400 0010 CLIPIELECTRICAL PH BRZ NP 13 32X3 8X1 2 AICI 0180 0205 x ALUM 12 UF 10 75 150VDCW x A1C2 0180 0205 CIFXO ALUM 12 UF 10 75 150VDCW AICRI 1901 0049 SEMICON 0100 SILICON A1CR2 1901 0049 SEMICON DEVICE DIODE SILICON ALCR3 1901 0049 SEMICON DEVICE DIODE SILICON ALCR4 1901 0049 SEMICON DEVICE IDIODE SILICON AICRS 1901 0026 x SEMICON DEVICE1DIODE SILICON 200PIV AICR6 1901 0026 SEMICON DEVICESDIODE SILICON 200FIV x A1CR7 1901 0026 x SEMICON DEVICE DIODE SILICON 200PIV ALCRB 1901 0026 SEMICON OEVICE DIODE SILICON 200PIV 1 89 1901 0049 SEMICON DEVICEtCIODE SILICON i ALCRIO 1901 0049 SEMICON DEVICESDIODE SILICON AICRIA 1901 0049 x SEMICON DEVICEIDIODE SILICON AICRL2 1901 0049 SEMICON SILICON AICRI3 1902 0060 SEMICON SILICON AlCRIA 1902 0061 SEMICON DEVICEtDIODE SILICON 1 15 1902 0058 SEMICON SILICON AICR16 1902 0059 SEMICON DEVICE3DIODE SILICON AICRI 1901 0025 SEMICON OEVICE DIODE JUNCTION 1 18 1
74. 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 0326 0160 0326 0160 0344 0160 0541 0160 0527 0140 0222 0140 0233 0140 0226 0140 0226 0160 0328 0160 0337 0160 0327 0160 0344 0160 0341 0160 2055 0160 2055 0150 0141 0160 0540 0140 0225 0160 0526 0160 0526 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 2055 0160 0339 Prefix all parts in this table A12 o 6 Stock No Description Note BOARD ASSY DECADE MIXER BLANK BOARD STRIP GROUND CIFXO C1F XD CIFXD CIFXD CiFXD CER O O1UF CER OeO1LUF CER OeQ1UF CER O OLUF CER O OIUF CER O OlUF 0 01UF CER 0 01UF CER 0 01UF CER O O1UF CER 0 01UF NOT ASSIGNED CER 2 2PF 0 1PF CER 24 2PF O 1PF CIFXD CIFXD CIFXO CIFXD CIFXD CtFXD CIFXD CIFXD CtFXO CIFXO CIFXD CIFXD C1FXD CIFXD CtFXD CtFXD CIFXD CtFXD CIFXD C tF XD CiFXD CIFXD C3FXD CIF XD CIFXO CtFXD MiCA 220PF MICA 640PF 80 20 80 20 80 20 80 20 80 20 980 208 80 20 80 20 80 20 80 20 80 20 80 20 1 1 3 4PF 0 1PF MICA 2 1 3OOVDCW MICA G80PF 1 300VDCW 100VDCW 100VDCW 100VDCW
75. 3 0 TO 3 MC DIVIDER a AIO MIXER DIVIDER MCDULE MC HM SM MR EE EI UE M MESE E cM AE mixer 27 27 MC MIXER 2 30 TO 31MC DECADE 3 0 TO 3 1MC Voc MEE CE MEE IEEE ME MEM AOSTA a All MIXER DIVICER MODULE MC da mo 7 mixer 1 27 TO 271 MIXER 2 32 TO DECADE 3 0 TO 3 IMC DIVIDER Lx cL EU I ARE E E O ut At2 MIXER FILTER MOCULE MC x TE A MIXER 1 27 TO 27 1 MC MIXER 2 30 TO 3I MC 30 TO 3IMC A ee NE 20 30 TO 3 MC TO 21 MIXER IST UHF SECTION 05100 0 26 Figure 5 11 Block Diagram HF Section 5 25 5 26 15 39MC 86 MULTIPLIER 39 TO 390 MC FILTER Ala FL2 38 MC 86MV MULTIPLIER 5 FILTER 38 TO 380 MC 15 FL3 37 MC BEMV MULTIPLIER 1 5 37 37 370 MC I 3 Kia 250 350MV 16 4 36 MC B6MV MULTIPLIER 5 FILTER 250 TO 350MV 36 TO 360MC oan 17 FLS 35 MC BGMV MULTIPLIER 35 TO 350MC 220 320MY l A19 39 MC ue PUSHBUTTON EN SWITCH ASSY E COL 106 Er Ad 1 E n J 35 M RISS 30 39MC 9OMV 30 TO 39MC C34 SWITCH MODULE 33 mc im i 7 52 MC 4 IY 301 518 Se 33MC MULTIPLIER FILTER BGMV 33 330 MC ET dale A21 FL7 4 12 IOO TO I65MV MIXER 560 TO 3 p ST 480 250 TO 3 SECTION
76. 411A will indicate 350 mv is 4 db and 420 mv is 6 db A 2 db difference in volt age level between 18 and the average of the other 5 Multipliers can be used to set a reference for all 6 Multipliers 5 64 30 TO 39 MC SWITCH MODULE 19 5 65 NORMAL OPERATION The30to39 Mc Switch Module contains 10 diode switch matrices corre sponding to the 10 front panel pushbuttons in the 109 column One switch matrix 1s turned by applying a 12 6 volt enabling voltage from a LOCAL or RE MOTE source as selected by the front panel FRE QUENCY SELECTION switch Each pushbutton in the 106 column represents an input and an output from 19 Insertion loss of the switch matrices is typi cally less than 3 db and the on off ratio greater than 108 db 9 66 OPERATIONAL CHECKS On off switching action and switching time of the 30 to 39 Mc Switch Assemblies are tested using the procedures of Item 2 of theIn cabinet Performance Check Table 5 2 The test below for insertion loss may be helpful in check ing for a switch with marginal performance 5 67 Insertion loss is the measure of switch con duction when the switch is on comparing the output signal to the input signal with the input signalas Odb reference 9 68 The inputstothe 30to 39 Mc Switch Module are J1 thru J10 corresponding to the pushbuttons in the 109 column Output of the 30 to 39 Mc Switch is J18 Jil through J15 and J17 are 100 ohm outputs to the Multipliers 9 6
77. 6 31 section VI Table 6 12 Reference Designation A1 A1C1 Alc2 A1C3 1 4 A1C5 A1C6 A1C7 1 1 9 1 10 1 11 THRU 1 15 A1C16 A1C17 A1C18 A1C19 1 20 A1C21 A1C22 A1C23 A1C24 A1C25 AICRI AICR2 A1CRS AICR4 AlCRS A1CR6 AlL1 A1L2 A1L35 184 A1L5 A1L6 A1L7 A1L8 A1L9 A1Ql A 102 A1Q3 A1QU 6 32 1 i 1 i Table 6 12 f Stock 05100 6162 05100 2020 0160 2055 0160 2055 0160 2055 0160 2055 0160 0359 0150 0042 0160 2055 0160 2055 0130 0017 0160 2055 0150 0050 0160 2055 0150 0017 0160 2055 9159 5272 0140 0145 0190 6017 0130 0018 1910 0022 1910 0022 1910 0022 1910 0022 1901 0127 1910 0022 9140 0179 05100 6186 9170 0105 9140 0179 9140 0179 9140 0095 9140 0095 9140 0179 05100 6186 9170 0105 1850 0118 1205 0031 1850 0121 1850 0020 1850 0062 1850 0062 1854 0005 35 to 350 Mc Multiplier Module A17 05100 6020 Prefix all parts in this table 17 Description Note BOARD BLANK CIFXO C3FXD C1F XD C tFXD CIFXD CIFXD CIFXD CIVAR 55 35 350 MC BOARD MULTIPLIER CER CoQ1UF 80 20 100vDCW CER O 01UF 80 20 100VDCW CER O O1UF 80 20 100VDCW CER 80 20 100VDCW CER 103PF 5 SOOVOCW TI 4 7 PF 5 500 VOCW CER OsOLUF 80 20 100VDCW CER Os01UF 80 20 100VDCW CER 8 50 N750 CER O OlUF 80 20 100VDCW NOT
78. 8 CHANGE 6 Figures 5 17 and 5 18 Assemblies A5 A12A1 05100 6023 Q5 was 2N963 Part No 1850 0119 R15 was 1000 ohms Part 0683 1025 1A 2 02279 1 HEWLETT PACKARD SALES AND SERVICE OFFICES in the United States ALABAMA Huntsville 35802 2003 Byrd Spring Rd S W 205 881 4591 TWX 510 579 2204 ALASKA Bellevue Wash 98004 11656 N E 8th Street 206 454 3971 TWX 910 443 2303 ARIZONA Scottsdale 85251 3009 No Scottsdale Rd 602 945 7601 TWX 602 949 0111 Tucson 85716 232 So Tucson Blvd 602 623 2564 TWX 602 792 2759 CALIFORNIA North Hollywood 91604 3939 Lankershim Blvd 213 877 1282 and 766 3811 TWX 910 499 2170 Sacramento 95821 259 Carlsbad Ave 916 482 1463 TWX 916 444 8683 San Diego 92106 1055 Shafter Street 714 223 8103 TWX 714 276 4263 Palo Alto 94303 1101 Embarcadero Rd 415 327 6500 TWX 910 373 1280 COLORADO Englewood 80110 7965 East Prentice 303 771 3455 TWX 303 771 3056 CONNECTICUT Middletown 06458 589 Saybrook Rd 203 346 6611 TWX 710 428 2036 FLORIDA Miami 33125 2907 Northwest 7th St 305 635 6461 Orlando 32803 621 Commonwealth Ave 305 425 5541 TWX 305 275 1234 St Petersburg 33708 410 150th Ave Madeira Beach 813 391 0211 TWX 813 391 0656 GEORGIA Atlanta 30305 3110 Maple Drive N E 404 233 1141 TWX 810 751 3283 HAWAII North Hollywood Calif 91604 3939 Lankershim
79. 80 20 100VDCW A2C96 0160 2055 CIFXD CER Oe01UF 480 205 100VDCW A2C97 0160 2055 C3FXD CER 0O 01UF B0 20 100VDCW A2CR51 1910 0016 J SEMICON 0100 GERMANIUM A2CR52 1910 0016 SEMICON DEVICE CIODE GERMANIUM A2CR53 1910 0016 SEMICON DEVICE IDIODE GERMANIUM A2CRSA4 CR56 1901 0040 DIODE SILICON 20 MA 1V 20 PIV 2151 9140 0179 COIL FXD 22 UH 10 275 MA A2L52 9140 0179 COIL FXD ReFe 22 UH 10 575 A2L53 9140 0179 COIL FXO 22 UH 10 275 MA A2L54 9140 0179 COIL FXO ReFa 22 UH 10 275 A2L55 THRU AZL6O NOT ASSIGNED A2L61 9170 0105 ADJUSTABLE TUNING A2L62 05100 6166 COIL VARIABLE 16 23UH 9170 0105 ADJUSTABLE TUNING 263 9140 0114 COILIFXD RF 10 UH 05100 6166 x COIL VARIABLE 216 220 A2L64 05100 6166 COIL VARIABLE 6 23UH 9170 0105 ADJUSTABLE TUNING A2L65 05100 6166 COIL VARIABLE 16 422UH 9170 0105 CORES ADJUSTABLE TUNING 266 05100 6166 COIL VARIABLE 16 23UH 9170 0105 CORE TADUUSTABLE TUNING A2L67 05100 6166 COIL VARIABLE 16 23UH 9170 0105 CORE1ADJUSTABLE TUNING A2L6B 05100 6170 COIL VARIABLE 3 5 5 50 A2L69 05100 6214 COILIFXD RF 4 7 UH A2L70 05100 6168 COILeVARIABLE 50 90UH A2L71 9140 0178 COIL FXO 12 UH 10 375 A2L72 9140 0178 COIL FXD ReFe 12 UH 10 375 A2L73 THRU A2LBO A2L81 NOT ASSIGNED 9140 0179 COIL FXD ReFo 22 UH 10 275
80. A 5 20 5 80 2nd UHF Mixer 422 CRETE PER cada EU 02279 1 111 Section I Figure 1 1 Model 5100A model 5100A BODA PREGUENOY SYNTHEDIZER Ld gt DIROUIT CHECK lt id lt i 3 i CONTROL jim gt s 1 SEAACH GRCILLATOA FREQUENCY SELECTION 5 Loor Y di dI di O te de da de le A LJ n 27 i 9 GIL AS dy rack mounting kit Figure 1 1 Model 5100A and Accessories 1 0 02279 1 Model 5100 Section I Paragraphs 1 1 to 1 12 SECTION I GENERAL INFORMATION 1 INTRODUCTION 1 2 The Model 5100A Frequency Synthesizer when driven by the Model 5110A Synthesizer Driver pro vides any output frequency from 0 01 cps to 50 Mc selectable in steps assmall as 0 01 cps The output frequency is selected by ten columns of pushbuttons arranged for rapid frequency selection or by remote contact closures The output frequency is derived from a precision single frequency source through direct synthesis a technique whichtranslates the long term stability and spectral purity of the source to the selected output 1 3 A very clean output signal is provided over the entire frequency range A high order of spectral purity is essentialfor accurate doppler measurements microwave spectroscopy nar
81. A20 Switch Assembiy 350 390 Mc A14 Multiplier Assembly 38 380 Mc or 20 4 diode switch in A20 A15 Multiplier Assembly 37 370 Mc or A20CR3 diode switch in A20 A16 Multiplier Assembly 36 360 Mc or A20CR2 diode switch in A20 A17 Multiplier Assembly 35 350 Mc or A20CRI diode switch in A20 in A19 Switch Assembly 30 39 Mc Cable from amp 5110A or A19A8 A19A diode switch in 19 Cable from Cable from Cable from Cable from Cable from 5110A or A19A6 5110A or A19A5 amp 5110A or A19A4 5110A A19A3 5110A A19A2 19 1 diode switch in A19 Cable from Cable from Cable from Cable from Cable from Cable from 5110 4 5110A A19A20 5110 to A3 3 4 Mc Switch 5110A to 3 4 Mc Switch 15110 to 3 4 Mc Switch 1 5110A to 3 4 Mc Switch Cable from amp 5110A or A19A9 diode switch 02279 1 Model 5100 Section V Table 5 3 cont d Table 5 3 Troubleshooting cont d OUTPUT PRESENT Mc OUTPUT ABSENT Mc 1 444 000 00 1 XXX XXX XX No 3 4 Mc Cable from p5110A to 3 4 Mc Switch x is not 4 1 xxx 000 00 No 3 5 Mc Cable from p5110A to 3 4 Mc Switch xis 5 1 XXX XXX XX x is not 5 xis 6 x is not 6 No 3 6 Mc Cable from p5110A to 3 4 Mc Switch No 3 7 Mc Cable from p5110A to 3 4 Mc Switch xis 7 x is not 7
82. BASE gate time to 1 sec and connect to OUTPUT jack Press the 0 pushbuttons in the right two columns of the Model 5100A Coun ter should indicate directly any other frequency selected by the remaining 8 columns on the Synthe sizer front panel Repeat the above procedure using appropriate programming of the rear panel connections of J7 J8 and 39 SWITCHING TIME Set Model 5100 FREQUENCY SELECT switch to Local and select desired output frequency on push buttons except do not push any buttons in the column s to be switched electrically Switching time test requires two signals alternately turning on two frequencies Be sure the difference between the two frequencies is sufficient to be observable on the Oscilloscope An on signal is 12 6 volts ap plied between the programmed connection and ground off signal is a voltage between 0 and 2 volts applied between the programmed connection and ground the positive voltage ensures that the switch is turned off Pulse width of the switching signals should be at least 20 msec rise time and decay time of the switching signals should be less than 1 usec Connect one of the switching signals to one vertical amplifier input of a dual trace Oscilloscope Connect the Model 5100A OUTPUT s gnal to the other vertical amplifier input Synchronize the Oscilloscope sweep with the trigger or sync output of the pulse generator Set the Oscilloscope sweep speed to 10 for accur
83. COMPLETE DESIGNATION DESIGNATIONS COPYRIGHT 1965 BY HEWLETT PACKARD COMPANY ss Figure 5 22 36 to 360 Mc Multiplier A 5 49 5 T m s iem s Q6 2NTOS 14 it 22 2 pe 22 Ttc 1000 209 2200 C3 WHT WHT 1 C RED RED 19 n CONTROL Ot ur VOLTAGE VEL SA T FROM Al CAA 4 c2 Q5 ON 2 6V 1000 ewes OFF 6 r d t cux 103 4 t SWITCH a 35MC FROM 41915 i RI w78 7i QI 2N2360 FREQUENCY DOUBLER cz OlUF R3 RB 1500 510 L X FILTER AMPLIFIER 6 3y ESE 5 0 C3 55 v 1000 T our L ap i rr gt gt Q s MM 0 n REFERENCE DESIGNATIO NO PREFIX NOTES l UNLESS OTHERWISE INDICATED RESISTANCE IN OHMS CAPACITANCE IN PICOFARADS INDUCTANCE MICROHENPIES LIER MODULE 0500 6020 SERIES 427 in lt a BOARD ASSEMBLY 05100 6162 4 17 22 22 tl CRE 16 C20 03 2 1143 eT DIF C 7 I I 19 ETCHED ON BOARD FLS 350 MC Sa I SN AMPLIFIER GENERATOR 1 8 A20Ji REFERENCE CESIGNATIONS WITHIN THIS
84. CONNECTURIBNC 44 THRU J8 NOT ASSIGNED 49 1250 0085 CONNEC TORSBNC Li 9140 0018 COILtFXD 1UH L2 9140 0080 i COILtRFe 0 18 MH 10 L3 9140 0018 COILSFXO 1UH MISCELLANEOUS 05100 0002 BRACKET 05100 0005 COVER 05100 0014 FRAME 05100 2056 PLATE END 0340 0039 INSULATOR 1 BUSH ING 0340 0038 TERMINAL 3 STUD A SAA z See list of abbreviations in introduction to this section 6 40 02279 1 Model 5100 Section Table 6 17 Table 6 17 2nd UHF Mixer Module A22 05100 6013 Prefix all parts in this table A22 Di p Stock No Description Note 1850 0152 TRANSISTOR GERMANIUM PNP 1 05100 6042 BOARD ASSYe FILTER 2ND MIXER 05100 2016 BLANK BOARD A1C1 0160 2055 CeOLUF 80 20 100VDCW A1C2 0140 0209 CIFXD MICA SPF 10 500VOCW AIC3 0160 2055 CER O OLUF 80 20 100VDCW 1 4 0140 0145 CIFXO MICA 22 PF 5 500 VDCW ALCS 0160 2055 CIFXD CER 0 010 80 20 100vDCW 1 6 0140 0204 C4FXD MICA 47PF 5 NPO SOOVDCW 1 7 0160 2055 CIFXD CER 0 01 8020 100VDCW AIC8 0160 2055 CIFXD CER Ce0lUF 80 20 100VDCW 1 9 0160 2055 CIFXD CER 6 010 0 20 100VDCW A1C10 0150 0058 CIFXD CER 2 2 PF NPO 600 VDCW ALL 9140 0179 COILeFXO 22 UH 10 275 A1L2 9140 0179 COIL FXD ReFe 22 UH 10 275 MA 1 5 05100 8005 COIL VARIABLE 9140 0080 0 18 10 A1L5 05100 8006 COIL VARIABLE A1L6 9140 0120 COIL3FXD 0 1 UH A1L7 9140 0120 COILI
85. ETCHED 05100 2039 STRIP GROUND A2C51 0160 205 CER Oe01UF 80 20 100VDCW A2C52 0160 2055 CER Oe01UF 80 20 100VDCW A2C53 0160 2055 C3FXD CER O4 O1UF 80 20 100VDCW A2C54 0160 2055 CIFXD CER O O1UF 80 20 100VDCW A2C55 0160 2055 CER Oe01UF 80 20 100VDCW A2C56 0160 2055 CER 0s01UF 80 20 100VDCW A2C57 THRU A2C60 NOT ASSIGNED A2C61 0160 0357 CIFXD MICA 160 1 2 62 0160 0342 3 MICA BOOPF 1 A2C63 0160 0330 CIFXD CER 6 O 1PF A2C64 0140 0220 CIFXD MICA 200PF 1 3OOVDCW A2C65 0140 0177 CIFXD MICA 400 PF 1 300 VDCW 0160 0338 MICA 267PF 1 0160 0338 CIFXD MICA 267PF 1 0160 0329 CIFXD CER 6 0PF 0 1PF 0160 0332 MICA 133PF 1 0160 0328 CIFXD CER 44 6PF 0 1PF 0160 0332 CIFXO MICA 133PF 1 0160 0330 CIFXD CER 6 6PF O41PF 0140 0220 CIFXD MICA 200PF 1 300VDCW 0140 0177 CIFXD MICA 400 PF 1 300 VDCW 0150 0055 CiFXD 10 PF 5 500 VDCW 0160 0336 MICA 100 1 0160 0335 MICA 15PF 045PF NeSeRe PART OF 21 02279 1 NOT ASSIGNED See list of abbreviations in introduction to this section 6 21 6 22 05100 6182 COUPLER 30MC Section VI Model 5100A Table 6 1 Table 6 7 Mixer Filter Module A12 05100 6002 Cont d Prefix all parts in this table A12 Add Stock No Description Note A2C91 0160 2055 CIFXD CER 0 010 80 20 100VDCW A2C92 0160 2055 CIFXD
86. INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT 24MC INTER CONNECT INITIAL 5 INTERCONNECT HI FREQ 30 MC 31 MC 52 MC 33 34 MC 35 MC 36 MC 57 MC 58 MC 39 MC INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT BUSS FREQUENCY TRANSFER 1 TRANSFER 82 TRANSFER 3 TRANSFER 4 TRANSFER 5 TRANSFER 6 CABLES TRANSFER 7 TRANSFER 8 OSC PROGRAMM ING MULTIPLIER INPUT 33MC MULTIPLIER INPUT CABLE CABLE CABLE CABLE CABLE CABLE CABLE CABLE 35MC MULTIPLIER INPUT 36MC MULTIPLIER INPUT 37MC MULTIPLIER INPUT 3aMC MULTIPLIER INPUT i See list of abbreviations in introduction to this section INTERCONNECT Section VI Table 6 1 Section VI Table 6 1 i Reference Designation w7 E W8 ws B wa WS D WEE F WO w10 wil 12 13 14 wi5 w16 17 W18 W19 XF1 XF2 6 4 05100 6124 05100 6178 05100 6126 05100 6127 05100 6128 05100 6129 05100 6130 05100 6159 05100 6125 05100 6133 05100 6131 05100 6100 05100 6132 05100 6067 05100 6068 05100 6134 05100 6065 05100 6066 09100 6025 1400 0084 1400 0084 05100 6176 05100 2048 05100 2061 05100 4010 05100 6180 1251 0194 1251 0382 05100 6061 05100 6062 0510 0097 0900 0034 05100 2063 05100 6060 05100 2025 0510 0212 1460 0164 1490 0030 05100 606
87. Multipliers which are more than 1 db from the average level Use the average level as the true voltage for the 411A if the accuracy of the f 411A is un known See step h Remove Muitiplier Module from UHF swing out deck This will require removing two screws dis connecting input cable and output Filter and unsol dering 6 3 volt 12 6 volt and 12 6 volt control leads except for A18 which has no 12 6 volt control b Once the Module is on the bench with tuning holes exposed reconnect and resolder all connections c the Module that is being adjusted is A13 punch the 0 pushbutton in the 107 column on front panel of 9100A This applies 12 6 volt control voltage to A13 and turns the Multiplier circuits on d Remove cable marked 390 Mc which connects output of FL1 and 350t0 390 Mc Switch A20 see Figure 5 9 02219 1 Section V Paragraphs 5 62 to 5 69 e Connect RF Millivoltmeter with Tee Probe 11024A and a 50 ohm termination 908A to output of FL f Use drop of acetone to loosen slug in L8 see Figure 5 19 and tune for maximum g Tune L2 C9 C18 C24 and C25 in this order for maximum output i Remove 12 6 volt control from Multiplier A13 by returning 0 pushbutton in 107 column to its origi nal position Output reading should drop to zero h R15 can be adjusted if output voltage level of one Multiplier is more than 1 db from the average value db scale on the amp
88. RIFXD DEPC 20 CHM 1 1 2W A1R13 0758 0003 RIFXD MET FLM 1000 OHM 5 1 28 AJRIH 0758 0015 RIFXD FLM 220 OHM 5 1 2W AIRIS 0758 0009 RIFXD FLM 6800 OHM 5 1 28 1616 0758 0044 RIFXD FLM 2200 OHM 5 1 28 THRU 1820 NOT ASSIGNED A1R21 0758 0002 RIFXD MET FLM 560 OHM 5 1 24 A1R22 0758 0007 MET FLM 150 OHM 5 1 24 1823 0758 0045 RIFXD FLM 3900 OHM 5 1 28 A1R24 0758 0003 RIFXD FLM 1000 OHM 5 1 2W 1 25 0758 0028 RIFXD FLM 270 OHM 5 1 2W 1526 0758 0094 RIFXO MET OX 62 OHM 5 1 2W A1R27 0758 0028 RIFXD MET FLM 270 OHM 5 1 2 AJR28 0758 0028 RIFXD MET FLM 270 OHM 5 1 2W A1R29 0758 0083 RiFXD MET OX 68 OHM 5 1 24 A1R3O 0758 0085 RIFXD MET OX 68 OHM 5 1 2W A1R31 0727 0189 RIFXD DEPC 41 7 OHM 1 1 28 0727 0189 RIFXD DEPC 1 7 OHM 1 1 2 02279 1 See list of abbreviations in introduction to this section 6 45 Miodel 5100 Section VI Table 6 19 Output Amplifier Module A24 05100 6015 Cont d Prefix all parts in this table A24 Table 6 19 Reference a a Designation Sp Stock No Description Note AIR33 THRU ALRYO NOT ASSIGNED 0758 0057 RIFXD FLM 5600 OHM 5 1 2W i AIR42 0758 0057 RIFXO FLM 5600 OHM 5 1 2W A1R43 0758 0057 RIFXO MET FLM 5600 OHM 5 1 24 AlRUS 0758 0003 RIFXD MET FEM 1000 OHM 5 1 2W ALRYS 0758 0054 RIFXD FLM 330 OHM 5 1 29 AlRU6 0758 0003 RIFXD MET FLM 1000 OHM 5 1 2W
89. RIFXO COMP 100 OHM 5 1 48 0683 1225 RIFXD COMP 1200 OHM 5 1 4w 0683 1025 RIFXD COMP 1000 OHM 5 1 4w 0683 2025 R FXD COMP 2000 OHM 5 1 4w 0757 0298 RIFXD MET FLM 75 OHM 1 1 84 0683 1825 RIFXD COMP 1800 OHM 5 1 4 05100 6169 TRANSFORMER F I XED 05100 6167 TRANSFORME R VAR TABLE 9170 0106 CORE ADJUUSTABLE TUNING MISCELLANEOUS 05100 6072 55 3 MC OUT 05100 6073 ASSY CABLE 1246V 05100 6074 ASSY CABLE 6 3 05100 6076 ASSY CABLE 3 MC 05100 6077 ASSYe CABLE 24 MC 05100 6070 ASSY CABLE 30 MC CONNECT 05100 6071 ASSY CABLE BUSS FREQ 05100 6078 ASSY4 CLAMF 05100 2033 BAR FRONT DECADE 05100 2034 BAR REAR DECADE 05100 0010 05100 0018 BRACKET END 05100 0073 COVER DECADE 05100 2032 i CONNECTOR CECADE 05100 6001 DIVIDER 55 2 0 541 MIXER 0510 0124 NUTICAPTIVE 6 52 ST CP it See list of abbreviations in introduction to this section Model 5100A Note 02279 1 Model 5100A ALICI A1C2 A1C3 AICH 1 5 A1C6 AIC 1 8 1 9 1 10 Aicil AIC12 A1C13 1 15 1 16 1 17 1 18 1 19 1 20 A1C21 A1C22 A1C23 1 24 1 25 A1C26 A1C27 A1C28 A1C29 A1C30 A1C31 A1C32 A1C33 1 34 A1C35 A1C36 A1C37 1 58 A1C39 Al1C4O 1 41 A1C42 A1C43 A1C4G4 1 45 A1C46 A1C47 AIC48 02219 1 Table 6 7 Mixer Filter Module A12 05100 6002 05100 6025 05100 2001 05100 2059 0160 2055 0160
90. SELECTED TRANSISTOR PNP GERMANIUM EIA 2N2360 TRANSISTOR PNP GERMANIUM EIA 2N063 TRANSISTOR PNP GERMANIUM Ela 2N2260 2N2402 PNP PNP PIN FOR BNC CONNECTOR CONNECTOR NUT Replaceable Parts Cont d Section VI Table 6 21 Mfr Mir Part No TQ 07115iC 20 07115 C 20 07115 07115 28480 28480 35434 17109 28480 28480 76530 02735 26365 02735 02735 28480 15103 28480 28480 28480 91737 91757 91757 91737 91737 28480 02660 95354 71468 28480 71785 78947 71400 75915 91506 29578 28480 08747 91260 28480 01295 28480 02735 B7216 87216 28480 82767 04 715 K 28480 28480 91737 91737 91737 i 20 C20 0758 0093 0758 0094 VTA 3 M709 113 0900 0034 1120 0152 294457 OF 14A 97 45 DF 13 A 495334 1 1205 0012 1101A 1 1205 0026 1205 0031 1250 0066 UG 1094 U 8427 UG 1 94 U UG 1174 U 11656 1250 0214 57 40140 SD 615TS DEM 9F 1251 0582 DEMF 9A 1251 0424 4550 342014 7109 1 100 520 5 1400 0155 858 R 080 1490 0030 241143 1850 0062 2 1185 2 779 2 20 8 1850 0098 2 2560 25965 282465126 1850 0152 1850 0153 2521 11960 19 5521 14 i See list of abbreviations in introduction to this section NI RH Ae AD E m p MN UI E SUID ul MUVENDU JI B la or N UA MA FON Oen N D Or un O m Wn Section
91. Switch As semblies are tested using the procedures of Item 201 the In cabinet Performance Check Table 5 2 test below for insertion loss may be helpful in checking for a switch with marginal performance 5 41 Insertion loss is the measure of switch con duction when the switch is on comparing the output signal to the input signal with the input signal as Odb reference 0 42 The inputs to the 3 to 4 Mc Switch Module are 19 and J10 through J19 corresponding to row S and rows 0 through 9 respectively The outputs of the 3 to 4 Mc Switch Module are JI through J8 corre sponding to columns 3 through 10 respectively on front panel with column 3 being the first columnfrom 0 15 Section V Paragraphs 5 43 to 5 52 the left with the S pushbutton and column 10 being the right one There is one switch matrix in the 3 to 4 Mc Switch for eachof the digital frequency selection pushbuttons on the front panel which have S pushbuttons 5 43 To measure insertion loss connect the input of the desired row through a T Connect an other BNC T in the output for the desired column Using the appropriate front panel pushbutton or remote programming turn the switch on Measure the in put on an amp 3400A RMS Voltmeter use db scale Measure the output signal of the switch matrix with the Voltmeter The difference in db readings is the insertion loss of that switch matrix Insertion loss is normally 1 5 db 1 db in
92. VI Model 5100A Table 6 21 Table 6 21 rop Parts Cont d 1851 0017 TRANSISTOR 2N13C4 01295 2N1304 3 1853 0001 TRANSISTORIPNP SILICON 30V 500MW 28480 1853 0001 3 1854 0003 TRANSISTORINPN SILICON 26480 1854 0003 3 1854 0005 TRANSISTOR 2N708 NPN SILICON 07263 2N708 1854 0019 TRANSISTORISILICON NPN 28480 1854 0019 6 1854 0020 TRANSISTORINPN SILICON 28480 1854 0020 2 1900 0011 SEMICON DEVICE DIOOE 1N416BM MATCH PAIR 93332 16 2 1901 0025 SEMICON DEVICE DIODE JUNCTION 28480 1901 0025 114 1901 0026 SEMICON DEVICE DIODE SILICON 200PIv 28480 1901 0026 4 1901 0040 SEMICON DEVICEIDIODE SILICON 28480 1901 0040 1901 0049 SEMICON DEVICE DIODE SILICON 28480 1901 CO49 1901 0127 SEMICON DEVICE DIODE SILICON STEP RECOVERY 28480 1901 0127 3 1901 0128 SEMICON DEVICE DIODE SILICON STEP RECOVERY 28480 1901 0128 3 1902 0058 SEMICON DEVICE IDIODE SILICON 28480 1902 0058 1 1902 0059 SEMICON DEVICE DIODE SILICON 28480 1902 0059 1 1902 0060 SEMICON DEVICE DIODE SILICON 28480 1902 0060 1 1902 0061 SEMICON DEVICE DIODE SILICON 28480 1902 0061 1 i 1902 0079 SEMICON DEVICE DIODE SILICON 28480 1902 0079 1 1902 0080 SEMICON DEVICE DIODE SILICON 28480 1902 080 1 1902 0126 SEMICON BREAKDOWN 2 61 V 28480 1902 0126 L 1902 0769 DIODE BREAKDOWN 5 3 5 7V 28480 1902 0769 2 1910 0016 SEMICON DEVICE 3DIODE GERMANIUM 93332 02561 204 1910 0022 SEMICON DEVICE 0100 GE 100MA
93. again the problems of noise and spurious responses arise Spurious signals are generated by intermodu lation products in the mixers so the first thought is to reduce signal level On the other hand a relatively high signal levelis required to maintain a respectable signal to noise level The optimum compromise be tween spurious performance and signal to noise ratio is achieved in the HF section s modules 4 7 The HF section of the 5100A produces a signal between 30and 31 Mc having 8 synthesizeddigits Fig ure 4 3 shows the basic module arrangement An ex ample explaining the operation of these modules and by extension the operation of the HF section ingeneral follows Figure 4 4 applies directly to this example The pushbuttons are shownfor a selected frequency of 12 345 678 90 cps The digit 0 is selected in the least significant column 10 2 24 Mc and 3 Mc from the 5100A are added in the first mixer of the selected mod ule The resultant 27 Mc signal is then added toa selected 3 0 Mc signal in the second mixer Had we selected the digit 2 in the 102 column 3 2 Mc would have been added to 27 Mc in the second mixer In the original example the addition of 27 Mc and 3 0 Mc signal results in 30 0 Mc This synthesized signal is divided by 10 to give 3 00 Mc A great deal of filter ing iscarried on between successive operations inthis module to minimize spurious signals The resultant signal is now fed tothe 2nd module and a
94. and in the same direction as was observed at 4 000 Mc If the 4 Mc frequency reading was 10 kc higher than 4 000 Mc adjust R16 so 3 Mc output is 3 010 Mc Now adjust Li to return the frequency to exactly 3 000 Mc 5 36 Switch the voltage at the SEARCH connector block to 11 volts and note the output frequency it should be 4 000 Mc 1f it is not 4 000 Mc repeat the procedure of Paragraph 5 35 until tracking is correct 5 37 Switch the voltage at the SEARCH oscillator between 1 and 11 volts in 1 volt steps Each 1 volt change should produce a 100 kc increase in output frequency The output frequency should be within 50 of the correct frequency 0 38 3 TO 4 MC SWITCH MODULE A3 9 39 NORMAL OPERATION The 3 to 4 Mc Switch Module contains 88 diode switch matrices corre sponding to 88 front panel pushbuttons in the columns with the S pushbuttons One switch matrix in each column isturned on by applying a 12 6 volt enabling voltage from a LOCAL or REMOTE source as selected by the front panel FREQUENCY SELECTION switch Each row of pushbuttons is represented by an input to A3 Each column of pushbuttons is represented by an output from A3 Insertion lossof the switch matrices is typically less than 3 db and the on off ratio in column 3 is greater than 105 db in column 4 greater than 93 db and in columns 5 10 greater than 83 db 2 40 OPERATIONAL CHECKS On off switching action and switching time of the 3 to 4 Mc
95. change sheet included with the manual If the change sheet is missing the information can be supplied by your nearest Hewlett Packard field or sales office 1 24 SPECIFICATIONS 1 25 Table 1 1 lists the technical specifications for the Model 5100A Frequency Synthesizer Performance data stated in the table are based on the internal fre quency standard of the p5110A or indicate Synthesizer contribution to overall performance with an external standard Stability and spectral purity of the 5100A Frequency Synthesizer will be partially determined by the characteristics of the external standard if used 1 26 APPLICATIONS 1 27 The Model 5100A when driven by the Model 5110A Synthesizer Driver provides a general purpose source of precisely known spectrally pure easily se lected frequencies It can be remotely programmed for use in a variety of automatic measurement systems such asfilter or transmission line test sets It can be used as the localoscillator in secure communications systems where carrier frequencies must be shifted rapidly and often to avoid compromise of confidential communications The 5100 offers unique advantages for specialized applications in microwave spectroscopy telemetry and radar 1 5 1 6 Model 5100 Section II Paragraphs 2 1 to 2 11 SECTION II INSTALLATION 2 1 INITIAL INSPECTION 2 2 MECHANICAL CHECK If damage to the ship ping carton is evident ask that the carrier s agent be prese
96. ee L4 L7 22 22 Tour CRE 6 C20 237 OF L9 ETCHED ON BOARD GENERATOR i t N AMPLIFIER i MARMONIE 5 RIS n 560 MIXER A21 REFERENCE DESIGNATIONS WITHIN THIS ASSEMBLY ARE ABBREVIATED ASSEMBLY DESIGNATION AS PREFIX TO FORM COMPLETE DESIGNATION DES GNATIONS COPYRIGHT 1965 ar HEWLETT PACKARD COMPANY O3 00 C Figure 5 24 33 to 330 Mc Multiplier A 5 Section V Model 5100A Figure 5 25 A19 9 54 02279 1 05100 40 05100 41 Model 5100 A19A1 A19A10 A20 A19A11 A20 02279 1 05100 A 39 05100 42 05100 A 43 05100 A 44 SWITCH BOARD ASSY tosico 6033 11 22 2 6 OR 6 3 419 88 9 WHT R4 2400 R2 DIUF 1200 39MC iM FROM ROw SHOA CRS 39MC OUT TO MULTIPLIER 413 0 MM AISA2 SWITCH BOARD ASSY 0500 6053 12 6 OR 6 3v 419 DUARL Asst 88 48 9 38MC FROM SITO A RC w 28 MC OUT TO MULTIPLIER A14 BNC i AISA3 SWITCH BOARD ASSY 05100 6033 7 19 ee i gt 37MC IN FROM 0 dii ROw 37 MC OUT TO _ MULTIPLIER 15 RSEN MERECE EE i2 6V OR 46 BB 6 35 MC IN FROM SIOA 36 MC OUT MULTIPLIER AI6 s _ a gt BOARD ASSY tcs100 6033 1 N PRP TIIID
97. h Q4 1854 0003 2 gt AMPLIFIER cha i 291 4 6 3v1 7 CE di 1 3 1 L t 12 6 1853 000 4 1 AMPLIFIER R23 t 1000 l 0500 6107 I t i i I 8 1 i 4 I 9 1 25100 6187 REB 10 Q6 12 78650 0062 EMITTER FOLLOWER 5 x E da CI 20G0u i WHT VI0 GY LI 25 25 4 REGULATOR FILTER ASSEMBLY 08 27 agso GUMTREE SE e pele no Figure 5 30 Power Supply 5 65 5 Model 5100A Section VI Paragraphs 6 1 to 6 6 SECTION VI REPLACEABLE PARTS 6 1 INTRODUCTION 6 9 This section contains information for ordering replacement parts Table6 1 through 6 20 lists parts in alpha numerical order of their reference desig nators and indicates the description and e stock num ber of each part together with any applicable notes Table 6 21 lists parts in alpha numerical order of f stock number and providesthe following information on each part a Description of the part see list of abbreviations below b Typical manufacturer of the part in a five digit code see list of manufacturers in Table 6 22 c Manufacturer s part number d Total quantity used in the instrument TQ column 6 3 Miscellaneous parts are listed at the end of Tables 6 1 througn 6 20 6 4 ORDERING INFORMATION 6 5 obtain replacement parts address order or inquiry to your
98. indicates the desired condition of phase quadrature 5 4 02279 1 Model 5100 Section V Table 5 2 cont d Table 5 2 In Cabinet Performance Check cont d 5 SIGNAL TO PHASE NOISE RATIO cont d 6 Connect the phase control lead to the reference unit This insures phase lock during the measurement 1 Adjust the AC Voltmeter for an on scale reading Note this reading in db and add one db for correction of the average reading meter to rms difference in this sum and the reference reading obtained in Step 5 is the signal to noise ratio Itisina 0 5 cps to 15 kc bandwidth Since a demodulated bandwidth is equal to half the spec trum bandwidth the measurement is of a 30 kc bandwidth centered on the signal ex cluding a one cps band centered on the signal Subtract 3 db assuming equal noise from both generators p o s HP5100A 5T110A HP5100A 5110A J 0 UNDER TEST REFERENCE STD t lt A qi 4 7 1 4040 Gain lt 6db 4 2 15Ke Noise Bandwidth Phase Indication J2 fo Phase Control Variable 1Odb Attenuator HP10514 A Balanced Mixer HP403A HP413A Phase Meter Low Pass Filter Integrator TC gt 1 Sec AC Voltmeter Figure 5 1 Test Setup Signal to Phase Noise Measurements 6 SIGNAL TO AM NOISE RATIO above 100 Connect equipment as shown in Figure 5 2 Select
99. input signal with the input signal as 0 db reference 5 74 The inputs to the 350 to 390 Mc Switch Module areJl thru J5 corresponding tothe pushbuttons in the 107 column Output of the 350 to 390 Mc switch is J6 5 75 Tomeasureinsertionloss swing out UHF deck see Figure 5 9 and connect the input of the desired switchthrough a BNC T Connect another BNC T to J6 Using the appropriate front panel pushbutton or remote programming turnthe switch on Meas ure the input with an 411A RF Millivoltmeter use db scale Measure the output with the RF Millivolt meter The difference in db readings is the insertion loss of that diode switch Insertion is normally less than 1 db 5 76 15 UHF MIXER A21 5 77 NORMAL OPERATION Inputs are 330 Mc at 420 mvfrom FL6 and 30to 31 Mc at 100 165 mvfrom Mixer Filter A12 through Connector Block A4 Out put is 360 to 361 Mc at 450 mv 5 18 OPERATIONAL CHECK The 1st UHF Mixer is indirectly checked by proper operationof the5100A in the In Cabinet Performance Check Table 5 2 5 19 ADJUSTMENTS If adjustments tothe 1st UHF Mixer are necessary proceed as follows Note Adjustments in the Mixer are extremely cri tical particularly the adjustment of R3 which adjusts the bias on the Mixer diodes and CR2 misadjustment here will cause spuri ous signals to exist on the output frequencies of the 51004 Connect 330 Mc from FL6 to J2 b Connect aSweepSignal Generator
100. local Hewlett Packard Field Office see lists at rear of this manual for addresses Identify parts by their Hewlett Packard stock numbers 6 6 To obtain a part that is not listed include a Instrument model number b Instrument serial number c Description of the part d Function and location of the part REFERENCE DESIGNATORS assembly E mise electronic part MP mechanical part TB terminal board B motor F fuse P piug TP test point BT battery FL filter Q transistor V vacuum tube neon capacitor J jack R resistor bulb photocell etc CP coupler K relay RT thermistor w cable CR diode L inductor 5 switch x socket DL delay line M meter T transformer Y crystal DS device sigmaling lamp ABBREVIATIONS amperes GE germanium N C normally closed RMO pack mount only A F C automatic frequency control GL glass NE neon RMS root mean square AMPL amplifier GRD ground ed NI PL nickel plate RWV reverse working N O normally open voltage H henries NPO negative positive zero S B slow blow B F 0 beat frequency oscillator HEX hexagonal zero temperature SCR screw BE CU beryllium copper HG mercury coefficient SE selenium BH binder head HR hour s NRFR not recommended for SECT section s ae bandpass field replacement SEMICON semiconductor B brass M NSR not separately SI gilicon 2 IF intermediate freq BWO backward
101. of signal input to the mixer should be 10 mv or less in order to avoid generation of sizable low order harmonic content within the mixer itself Observe reading on Voltmeter The difference between this reading and the reference reading is the signal to harmonic signal ratio for that harmonic of the Model 5100A under test 02279 1 5 1 Section V Table 5 3 OUTPUT ABSENT Mc 9 19 29 39 or 49 10 1 000 000 00 1 111 000 00 1 222 000 00 1 333 000 00 5 8 OUTPUT PRESENT Mc 19 29 39 amp 49 1 21 31 amp 41 1 11 31 amp 41 1 11 21 amp 41 1 11 21 amp 31 2 3 4 5 6 7 8 amp 9 1 3 4 5 6 1 869 1 2 4 5 6 7 869 1 2 3 5 6 7 8 amp 9 1 2 3 di 6 1 8 amp 9 l 2 3 4 9 1 8 amp 9 1 2 3 4 5 6 8 amp 9 1 2 3 4 5 6 789 1 2 3 4 5 6 788 10 18 28 38 amp 48 1 2 3 4 5 6 7 86 9 1 XXX XX x is not 0 l XXX XXX XX x is not 1 1 XXX XXX XX x is not 2 l XXX XXX XX x is not 3 Table 5 3 REASON No 390 Mc No 380 Mc No 370 Mc No 360 Mc No 350 Mc No 31 Mc No 32 Mc No 33 Mc to 2nd UHF Mixer No 34 Mc No 35 Mc No 36 Mc No 37 Mc No 38 Mc No 39 Mc to 2nd UHF Mixer No 39 Mc No 30 Mc No 3 0 Mc No 3 1 Mc No 3 2 Mc No 3 3 Mc Troubleshooting Model 5100A CHECK A13 Multiplier Assembly 39 390 Mc or A20CR5 diode switch in
102. reading in the green section of CIRCUIT CHECK meter indicates that the ovenhas reached its proper operating temperature b 6 3 VDC AND 12 6 VDC Bothof these positions must give a reading in the green section of CIRCUIT CHECK meter This indicates the power supply of the 5110A is operating properly c 1MC reading in the green section of the CIRCUIT CHECK meter indicates that the 1 Mc sig nal is present and has the proper amplitude 3 6 FREQUENCY STANDARD switch This switch allows useof either the oscillator within the 5110A or an external oscillator 3 7 OPERATION 5100 3 8 TURN ON Plug the power cord into the line and set POWER switch to The POWER light Should light 3 9 CIRCUIT CHECK switch a 5110A A reading in the green section of the CIRCUIT CHECK meter indicates that the 3 Mc signal from the 5110A is present b 6 3 VDC AND 12 6 VDC Bothof these positions must give a reading in the green section of the CIR CUIT CHECK meter This indicatesthe power supply of the 5100 is operating properly c OUTPUT A reading in the green section of the CIRCUIT CHECK meter indicates that a synthesized signal of proper amplitude is present 02219 1 CAUTION Do not connect cable which contains a DCleve to the OUTPUT jack 3 10 FREQUENCY SELECTION switch Inthe LO CAL mode of operationthe switch is set tothe LOCAL KEYBOARD position When using the 5100A from a remote position the switch is set t
103. signal 3 0 to 3 1 Mc at Q55 collector 4 36 Diodes CR54 CR55 and CR56 in series be tween Q55 emitter and ground prevent the transistor base emitter junction from breaking down and causing noise when the transistor is reverse biased The diodes conduct first and once conducting the voltage across the base emitter junction will never be suf ficient to cause it to break down Diodes CR52 and CR53 provide clamping to limit the regenerative di vider output signal to voltages between ground and 6 3 volts 4 37 MIXER FILTER A12 Schematic Diagram Figure 5 18 4 38 Mixer A12A1 operation is identical to that de scribed in Paragraph 4 27 Filter A12A2 operation is similar to that described in Paragraph 4 28 ex cept that the 30 to 31 Mc sigmal is not divided by ten 4 39 39 TO 390 MC MULTIPLIER A13 Schematic Diagram Figure 5 19 4 40 The function of Multiplier A13 is to multiply the 39 Mc signal to 390 Mc 39 Mc from the 5110A 4 5 Section IV Paragraphs 4 41 to 4 56 is connected to A13J1 where it sees an impedance of approximately 100 ohms The signal is amplified by Q1 and appears on the collector of Q1 and sees a hi Q circuit A1C5 and 112 This circuit removes any undesirable 1 Mc sidebands A1C6 and AIR6 look like atransformerand couple the signal to A1Q2 where it 1s again amplified and appears across tuned trans former signal on the secondary is con nected to frequency doubler AICR1 CR4
104. the CIRCUIT CHECK switch is discussed in Paragraphs 5 5 through 5 9 Table 5 3 Troubleshooting Aids lists basic trouble indications and checks for their cause The In Cabinet Performance Check Table 5 2 is a good troubleshooting aid 1 hd Section V Model 5100A Table 5 1 Table 5 1 Test Equipment Required Instrument Type Frequency Synthesizer High Frequency Signal Generator Oscilloscope Electronic Counter Sweep Signal Generator Differential Voltmeter Wave Analyzer Synthesizer Driver RF Millivoltmeter Balanced Mixer Frequency Doubler DC Nuli Voltmeter Frequency Standard DC Voltmeter Low Noise Amplifier AC Voltmeter Variable Delay Line Strip Chart Recorder Tuned Voltmeter Transistor Power Supply Variable ac Voltage Supply Attenuator Attenuator Feed thru Termination Termination Termination Connector RMS Voltmeter Characteristics Precision signal source 01 cps to50 Mc certified spurious down 100 db 100 to 10 606A Specifications Display 500 Mc signal Measure frequency to 40 Mc 1 count 10 500 Mc 0 to 100 vde 01 accuracy Frequency to 1 5 Mc Provides stable 1 Mc signal 1 mv to 500 mv to 50 Mc 3 accuracy Frequency to 50 N F lt 7 db Frequency to 50 Mc Dc null detection 2 1 Mc sine wave 10 megohm input Z 1 accuracy 40 db ampl N F lt 1 db 1 cps to 1 Mc 23 Delay signal over frequency range 0 2 accuracy full scale 1000 cps band
105. the Model 5100A and supply it with power using the fabricated connector shown in Figure 5 5 b Connect 24 Mc 1V signal to the input connector for terminal 6 Measure the frequency with an elec tronic counter c Connect a 3 05 Mc 60 mv signal to the input con nector for terminal 2 Measure frequency with elec tronic counter Supply 3 05 Mc from 606A 5 16 Model 5100 d Connect 3 5 Mc at 50 mv to input connector for terminal 1 Measure frequency with an electronic counter Supply 3 5 Mc from Sweep Generator Observe output at connector for terminal 3 with RF Voltmeterand Electronic Counter Theoutput level should be at least 60 mv open circuit and the output frequency equal to the sum of the input frequencies divided by 10 2 91 MIXER ADJUSTMENTS If Mixer adjustments are necessary proceed as follows a Removethe Mixer Divider Module from the Model 9100A and connect it to its normal input with the ex tension connector diagrammed in Figure 5 5 Remove cover from Mixer Divider Module b Connect 24 Mc 1V to pin 6 Connect 3 05 Mc 60 mv to 2 from Sweep Generator Note The slugs in all the tuning coils have been set with a drop of dope Rather than freeing all these slugs with a drop of acetone it would be wise to compare the outputs of the various stages first to see if the trouble some stage can be localized d Connect 411A to junction of C18 and C19 Short L13 to chassis and tun
106. w Cie m Section VI Table 6 21 Stock No 05100 0041 05100 0042 05100 00405 05100 0044 05100 0045 05100 0046 05100 0047 05100 0048 05100 0058 05100 0059 05100 0060 06100 0067 05100 0068 05100 0070 05100 0073 05100 0080 05100 0081 05100 0082 05100 0083 05100 0084 05100 2001 05100 2002 05100 2005 05100 20045 05100 2005 05100 2006 05100 2007 05100 2008 05100 2009 05100 2010 05100 2011 05100 2012 05100 2013 05100 2014 05100 2015 05100 2016 05100 2017 05100 2018 05100 2019 05100 2020 05100 2021 05100 2022 05100 2023 05100 2024 05100 2025 05100 2026 05100 2027 05100 2028 05100 2029 05100 2050 Table 6 21 Replaceable Parts Cont d Description COVER PWRe SUPPLY BRACKET FRONT DECK POWER SUPPLY BRACKET SHIELD BRACKET YRANSFORMER BRACKET REAR GUIDE BRACKET FRONT GUIDE COVER BOARD GASKET TOP 3 4 MC SWITCH GASKET BOTTOM 3 4 MC SWITCH GASKET TOP CoVER 40 39 MC SWITCH GUARD SWITCH SHIELO FILTER PLATE SEARCH OSC COVER DECADE COVER MULTIPLIER 35 350 COVER MULTIPLIER 36 360 MC MULTIPLIER 37 370 MC COVER MULTIPLIER 38 380 MC COVER MULTIPLIER 39 390 BLANK BOARD BLANK BOARD BLANK BOARD BOARD METER AMP BOARD 24MC BL ANK BLANK BLANK BLANK BLANK BL ANK BL ANK BOARD OSCILL ATOR BOARD OUTPUT BOARD ROARD BOARD BOARD SWITCH BOARD OUTPUT BOARO BLA
107. wave oscillator IMPG impresasted replaceable a DI aq INCD incandescent as CCW counter clockwise INCL include s OBD order by description SPL E e DS CER ceramic INS insulation ed PE CRA SEE SR split ring CMO cabinet mount only INT internal OX oxide COEF coefficient PEL EEE COME K kilo 1000 PC printed circuit TA tantalum composition TOES 7725248 apo efe PF picofarads 10 TD time delay CONN connector LIN linear taper TCL zd oe puc LK WASH lock washer PH BRZ phosphor bronze TI titanium GHI LOG gt doganali taper PHL Phillips TOL tolerance a LPF low pass filter PIV peak inverse voltage TRIM trimmer P O part of traveling wave tube DEPC deposited carbon M milli 10 3 POLY polystyrene M DR drive MEG meg 10 PORC porcelain FLM metal film POS position s VAR variable ELECT electrolytic MET OX metallic oxide POT potentiometer VDCW dc working volts ENCAP encapsulated MFR manufacturer PP peak to peak EXT external MINAT miniature PT point w with MOM momentary PWV peak working voltage w walts F farad mounting RECT rectifier WIV working inverse m r 5 ur t FH flat head MY mylar RF radio frequency voltage FILH fillister head 9 RH round head WW wirewound FXD fixed N nano 10 RIV reverse inverse v
108. with output on 12 db and centered around 30 5 Mc to Ji c Connect a T to output of Filter FL 5 20 Model 5100 d Monitor output signal with a 185B Sampling Oscilloscope Sweep input signal between 30 and 31 Mc f 2 1 A2C4 and A2C6 are adjusted for maxi mum output g 1 2 and AIC are adjusted to provide equal amplitude of response curve at 360 and 361 Mc h A2C6is alsoadjusted to provide equal band edges i AIR3 is adjusted to 2 2 volts at the junction of 1 4 2 80 2ND UHF MIXER A22 5 81 NORMAL OPERATION inputs are 360 to 361 Mc at 250 to 350 mv from FL7 30 to 39 Mc at 90 mv from A19 and Automatic Gain Control from A24 Output is 390 to 400 Mc at 410 mv 5 82 OPERATIONAL CHECK 2nd UHF Mixer is indirectly checked by proper operation of the 5100A in the In Cabinet Performance Check Table 5 2 9 83 ADJUSTMENTS If adjustmentstothe 2nd UHF Mixer are necessary proceed as follows Note Adjustments in theMixer are extremely cri tical particularly adjustment of R8 which adjusts bias on Mixer diodes and CR2 Misadjustment here will cause spurious sig nals to the output frequencies of the 5100A a Connect 360 to 361 Mc from FL to J2 b Connect a Sweep Signal Generator with output on 12 db and centered around 35 Mc to J1 c Connect a BNC to output of Filter FL8 d Monitor output signal with a 185B Sampling Oscilloscope e Sw
109. 0 05100 606 1 05100 6062 05100 6065 05100 6065 05100 6066 05100 6067 05100 6068 05100 6069 05100 6070 05100 6071 05100 6072 05100 6073 05100 6074 05100 6076 H 05100 6078 05100 6100 05100 6102 05100 6103 05100 6104 05100 6105 05100 6106 05100 6107 05100 6108 05100 6109 05100 6110 See list of abbreviations in introduction to this section Model 5100A p De Rem A RIT m pe pa e pas w po cp Mo de pr be jue m m dem 02279 1 Modei 5100A Table 6 21 Replaceable Parts Cont d Section VI Table 6 21 Stock Description M r Part No CABLE TRANSFER 8 H CABLE ASSy 64 5y CONNECT CABLE 65 INTERCONNECT CABLE ASSY 12 6V CONNECT CABLE ASSY 24MC CONNECT 05100 6111 05100 6112 05100 6115 05100 61145 05100 6115 05100 6116 05100 6117 05100 6118 05100 6119 05100 6120 05100 6121 05100 6122 05100 6125 05100 6124 05100 6125 05100 6126 05100 6127 05100 6128 05100 6129 05100 6150 05100 6131 05100 6152 05100 6155 05100 6134 05100 6159 05100 6161 05100 6162 05100 6165 05100 6164 05100 6165 05100 6166 05100 6167 05100 6168 05100 26169 05100 6170 05100 6171 05100 6172 05100 6174 05100 6175 05100 6176 05100 6177 05100 6178 05100 6179 05100 6180 05100 6181 05100 6182 05100 6185 05100 6184 05100 6186 05100 6187 02279 1 CABLE ASSY 24 MC BUSS
110. 0 and 31 Mc is generated the next step is to translate this accuracy to a signal between 0 and 50 Mc This function is performed by the UHF section of the 5100A Figure 4 5 shows the basic blocks involved in this operation The 33 Mc signal generated by the 5110A is fed to a harmonic generator and multiplied by 10 to 330 Mc This signal is mixed with the signal generated in the HF section to obtain a signal between 360 and 361 Mc In the example this would be 360 34567890 Mc at this point This signal is filtered and then mixed with one of ten selected frequencies 30 31 32 39 Mc to obtain frequency in the range of 390 to 400 Mc This 30 to 39 Mc switch employs much the same basic circuit and DC switching arrangement as that found in the 3 to 4 Mc matrix particular frequency selected in this operation is dependent on the particular digit chosen in the 109 column the example 32 Mc would be chosen and would give 392 34567890 Mc A 4 3 Section IV Paragraphs 4 12 to 4 24 frequency has been generated which is selectable in 1 Mc steps and which still retains the original 0 01 cps resolution To add the last or most significant digit the 35 36 37 38 and 39 Mc signals from the 5110A are individually multiplied byten The selected uy which is determined by the digit selected inthe 10 column is then mixed with the synthesized signal The resulting difference frequency is variable through 50 Mc and is the f
111. 00 6165 0160 0545 0160 0345 0140 0192 1250 0083 1250 0083 05100 0012 05100 6164u RIFXD R1FXO RIFXO RIFXD RIFXD RIFXD COMP COMF 150 OHM 5 1 4W 750 OHM 5 17UW 750 OHM 55 1 4W 1300 OHM 5 1 4 620 OHM 5 1 4W 510 OHM 5 1 4W NOT ASSIGNED RIFXD RIFXD RIF XD RIFXD RIVAR RIFXD RIFXO RIFXD 180 OHM 5 1 uW 51 54 1 44 FLM 560 OHM 2 1 2W COMP 2 2 OHM 5 1 4w Ww 1000 OHM 5 1000 OHM 5 1 26 MET FLM 1000 OHM 5 1 2W COMP OHM 5 1 4W TRANSFORMER INPUT DOUBLER CiFXD CER 1000PF 80 20 500VDCW FEED THRU CER 1000PF 480 205 500VDCW FEED THRU CIFXD MICA 68PF 5 300VDCW CONNECTOR BNC CONNECTOR 13 MISCELLANEOUS COVERe MULTIPLIER 33 330 CHASSIS 55 MULTIPLIER See list of abbreviations in introduction to this section 6 35 Section VI Model 5100A Table 6 14 30 to 39 Mc Switch Module A19 05100 6010 Prefix all parts in this table A19 Beare oon 4 Stock No Description Note Table 6 14 A1 05100 6033 BOARD ASSY SWITCH 05100 2011 BLANK BUARDe SWITCH 1 1 0160 2055 CER O Q01UF 50 20 100YDCW A1C2 0150 0050 CiFxO CER 1000PF 600 VDCW A1C3 0160 2055 CIFXD CER Ce0l1UF 80 20 100VDCW 1 ALCH 0160 2055 CIFXD CER O OLUF 80 20 100VDCW 1910 0016 SEMICON DEVICE1CIODE GERMANIUM A1CR2 1901 0025 SEMICON DEVICE DIODE JUNCTI
112. 05 10 5 1072 SWITCH i TO 350 TO FROM MULTIPLIERS REMOTE NOTES NOON Oe 5 RI F o i UNLESS OTHERWISE INDICATED 22K A17 RESISTANCE IN OHMS 35 TO 350 MC e CAPACITANCE IN PICOFARADS wU is INDUCTANCE iN MICROHENRIES LI 22 t 2 h R2 rara H EE 22K 16 36 TO 360MC i WHT RED YEL jj REFERENCE DESIGNATIONS a E 23k 15 I WHT BRN V O eg vA J7 3 22 2 oe R4 WHTOBRWORED Er gt 22K Als i t 38 380MC wHT BLK BLU t 22 I pus NR COPYRiGHT 1965 BY HEWLETT PACKARO COMPANY r 7 39 TO 390MC WHT RED VIO i T J7 1 Si 55 ar a t 3 9 3 i 8 9137 WHT BLU GY AN J7 8 9 24 VIDEO AMPLIFIER TTT Om WHT GRIN VIO 77 8 9 491 A24C3 52 8 925 2 21 P21 21 P20 P20 PIS da WHT BLU GY _ o EHI T Teori cen 50 32 14 14 36 8 14 T OM A25 WHT VIO LOCAL agio CIE Sectio Figure 5 OF Al PUSHBUTTON SWITCH ASSEMBLY_tosi00 6003 wa eee eee lt eee eee m m t ee eee n e s w TO b FROM SWITCH FROM SWITCH FROM SWITCH t 1 m E d WHT z vt NEO CHO J7 36 HIRED BLU JT 46 quam T T R6 H 4700 I J7 22 P21 33 P21 34 WHT VIO G
113. 05100 6023 05100 6024 05100 6025 05100 6026 05100 6027 ME it See list of abbreviations in introduction to this section Section VI Table 6 21 is part no ra p Pe HIJO Em Mp po Aj e e ye P Nm DDD e m P jw 1 1 1 1 i Section VI Table 6 21 4 Stock No 05100 6028 05100 6029 05100 6030 05100 6031 05100 6032 05100 6055 05100 6034 05100 6036 05100 6037 05100 6038 05100 6059 05100 6040 05100 6041 05100 6042 05100 6045 05100 6044 05100 6047 05100 6051 05100 6052 05100 6055 05100 6054 05100 6055 05100 6059 05100 6060 05100 6061 05100 6062 05100 6063 05100 6065 05100 6066 05100 6067 05100 6068 05100 6069 05100 6070 05100 6071 05100 6072 05100 6075 05100 6074 05100 6076 05100 6078 05100 6100 05100 6102 05100 6105 05100 6104 05100 6105 05100 6106 05100 6107 05100 6108 05100 6105 05100 6110 6 60 Table 6 21 Replaceable Parts Cont d Mir M r Part No Description OSCILLATOR BOARD ASSY OUTPUT BOARD ASSY x ASSY 3 4 MC SWITCH BD BOARD ASSY RECTIFIER BOARD 55 REGULATOR BOARD ASSY SWITCH OUTPUT BOARD 30 39 MC SwITCH BOARD 55 38 380 MC BOARD 55 36 360 MC MULTIPLIER BOARD 65 33 330 MC BOARD ASSYe MIXER BOARD BOARD BOARD BOARD BOARD ASSY ASSY ASSY ASSY ASSY lt FILTER 2ND MIXER FILTER 2ND MIXER UHF
114. 0A Tabie 6 6 Mixer Divider Modules A5 A11 05100 6001 Cont d Prefix all parts in this table A5 A11 ip Stock Description Reference Designation x A1C49 0160 0338 CIFXD MICA 267PF 1 AICRI 1910 0029 SEMICON DEVICE 0100 5 GERM MATCHED PAIR AICR2 1910 0029 SEMICON DEVICE CIODES GERM MATCHED PAIR A1CR3 1910 0029 SEMICON DEVICE DIODES GERM MATCHED PAIR AjCRU 1910 0029 SEMICON DEVICE DIODES GERM MATCHED PAIR A1L1 9140 0179 COILeEXu 22 UH 10 275 112 9140 0179 COIL FXu 22 UH 10 275 1 5 9140 0179 COILeFXu 22 UH 10 275 MA A1LG 9140 0179 COILeFXu 22 UH 10 275 MA AILS 9140 0179 x COIL FXu 22 UH 10 275 MA AlL6 THRU A1L10 NOT ASSIGNED AlL11 9140 0114 COILIFXD RF 10 UH A1L12 05100 6166 COIL VARIABLE 16 4235UH 9170 0105 CORE ADJUSTABLE TUNING A1L13 05100 6166 COIL VARIABLE 16 23UH 9170 0105 CORES ADJUSTABLE TUNING AIL14 9140 0114 COILtFXD RF 10 UH A1L15 05100 6166 COIL VARIABLE 169 23UH 9170 0105 CORE1ADJUSTABLE TUNING A1L16 05100 6166 COIL VARIABLE 16 25 9170 0105 CORE SADJUSTABLE TUNING A1L17 05100 6166 COIL VARIABLE 16 250 9170 0105 CORF1ADJUSTABLE TUNING ALLIS 9140 0179 COIL FXD 22 UH 10 275 MA AiL19 9140 0114 COILIFXO RF 10 UH A1L20 9140 0176 COIL FXO ReFe 4 UH 5 250 MA A1L21 9140 0177 COIL FXD 8 UH 5 500 MA A1L22 9140 0096 COILtFXO RF 1 UH AiL
115. 1 Model 5100 5 62 OPERATION CHECK quickly check to see if the multipliers are operating properly proceed as follows For example if Multiplier A13 is being checked swing out UHF deck as indicated in Paragraph 5 16 b Disconnect 39 Mc cable to A13 input see Figure 5 9 and connect 39 Mc from an 5110 c Punch the 0 button in the most significant col umn the first column from the left on the front panel of the 5100A This applies control voltage to Multi plier A13 d Disconnect cable marked 390 whichconnects FL1 to 350 to 390 Switch A20 Connect Electronic Counter and RF Millivoltmeter to output of e Frequency should be 390 Mc at 300 mv x 50 mv f Multipliers A14 A18 may be checked in a similar manner using appropriate input frequencies and front panel pushbuttons A18 is always on so a front panel button need not be pushedto supplyit with power Con nect 3 db pad 6 3550 in 39 Mc cable between 5110A and 2 5100A Output from A13 should drop no more than 2 db Check other Multipliers in a similar manner 5 63 ADJUSTMENTS If Multiplier adjustments are necessary proceed as follows Note The output voltage level of the UHF Multi pliers A13 to 17 is adjusted to 350 mv 1 db Multiplier A18 output is adjusted to 420 mv 1 db Before making any adjustments check output voltage level of all Multipliers to find average level with 411A Only adjust output voltage level on
116. 1 2 W 187 0757 0298 RIFXD FLM 22K OHM 2 1 2 W AIR8 0758 0035 RIFXD MET FLM 3000 OHM 5 1 24 2 05100 6039 BOARD 55 MIXER 05100 2013 BOARD BLANK 05100 0020 SHIELD 0121 0059 CIVAR CER DISK 2PF TO 8 PF 300 VDCW NPO 0160 0375 CIFXD CER 2 2PF 0 1PF 3OOVOCW 0160 0375 CIFXD CER 2 2PF4 O 1PF 3OOVDCW 0121 0059 CIVAR CER DISK 2PF TO B PF 300 VDCw NPO 0140 0069 MICA 550 PF 10 500 0121 0059 CIVAR CER DISK 2PF TO B 300 VDC NPO 0140 0069 CIFXO MICA 550 10 500 VDCW 0122 0009 CIVOLTAGE VARIABLE PAIR 0122 0009 CIVOLTAGE VARIABLE PAIR 1850 0153 TRANSISTORIGERMANIUM PNP 0757 0296 RIFXO MET FLM 200 OHM 2 1 2W 0758 0003 RIFXD FLM 1000 OHM 5 1 2W 05100 8003 TRANSFORMER PUMP INPUT 05100 8010 TRANSFORMER MIXER OUTPUT 05100 8011 TRANSFORMER FINAL OUTPUT 0160 0345 CIFXD CER 1000 80 20 SOOVOCW FEED THRU 0140 0192 CIFXD MICA 68PF 5 300VDCW 0160 0345 CER 1000PF 80 20 SOOVDCW FEED THRU 0160 0345 CIFXD CER 1000PF 80 20 500VDCW FEED THRU 02279 1 0160 0345 CIFXD CER 1000PF 80 20 500VOCW FEED THRU See list of abbreviations in introduction to this section section VI Table 6 16 Note 6 39 Section VI Model 5100A Table 6 16 Table 6 16 1st UHF Mixer Module A21 05100 6012 Cont d Prefix all parts in this table A21 ic t Stock No Description El 9170 0042 COIL3VAR 0 27 08 LUH J1 1250 0083 CONNEC TORS BNC Je NOT ASSIGNED J3 1250 0085
117. 1 4w 0758 0006 RIFXD MET FLM 10K OHM 5 1 2W 0758 0010 RIFXD MET FLM 3300 OHM 5 1 28 0683 1235 RIFXD COMP 2K OHM 5 1 uw 0685 1255 RIFXD COMP 12K OHM 5 1 0683 4716 RIFXD COMP 470 OMM 5 1 4W 0683 1025 RtFXD COMP 1000 OHM 5 1 4w 2100 0737 RtVAR We 200 OHM TYPE H CONFIGURATION 05100 6029 OUTPUT BOARD ASSY 05100 2007 BLANK BOARD 0UTPUT 0160 2055 CIFXO CER O O1UF 80 20 100VDCW 0160 0193 MICA 1125PF 5 0380 0059 SPACER SLEEVE BRS CP 0 2500 0 15210 0 25 0140 0151 MICA B20PF 2 300VDCW 0140 0152 CtFXD MICA 1000 5 300 vDCW 0160 0192 CIFXD MICA 525 5 i See list of abbreviations in introduction to this section 6 1 Section VI Model 5100A Table 6 3 Table 6 3 Search Oscillator Module A2 05100 6005 Cont d Prefix all parts in this table A2 Desi ation fp Stock No Description f Note A2CR1 1901 0025 SEMICON DEVICE 1DIODE JUNCTION A2L1 9140 0141 COILIFXD RF 0 68 UH A2L 2 9140 0180 COILIFXD 2 7UH 10 A2L3 9140 0179 COIL FXO 22 UH 10 275 A2L4 9140 0096 RF 1 UH AZRI 0758 0012 MET FLM 12K OHM 5 1 2W A2R2 0758 0043 RIFXD MET FLM 1800 OHM 5 1 24 2835 0757 0914 RIFXO FLM 390 OHM 2 1 8W A2RU 2100 0277 RIVAR COMP 100 OHM 20 LIN 0 3 A2RS 0758 0024 MET FLM 100 OHM 5X 1 20 C1 0160 0345 CiFxD CER 1000PF 80 20 500VDCW FEED THRU C2 0150 0121 CER O 1UF 50 c3 0150 0121 CIFXD CER O 1LUF 50 VDCW C4 0160 0345
118. 100 6194 28480 05100 6195 28480 05100 6196 28480 05100 6197 28480 05100 6198 28480 05100 6199 28480 05100 6200 28480 05100 6201 28460 05100 6202 28480 05100 6203 28480 05100 6204 28480 05100 6205 28480 05100 6206 28480 05100 6207 28480 05100 6208 28480 05100 6209 28480 05100 6210 28480 05100 6211 28480 05100 6212 28480 05100 6213 28480 05100 6214 28480 05100 8003 28480 05100 8004 28480 05100 8005 28480 05100 8006 28480 05100 8007 28480 05100 8008 28480 05100 8009 28480 05100 8010 28480 05100 8011 28480 05100 8018 i See list of abbreviations in iniroduction to this section Model 5100A gt Re me for de dm A je e f gt pa ya w r p 02279 1 Model 5100A Code No Monvfacturer Address 00202 U S A Common Any supplies of 0 5 20135 McCoy Electronics Holly Springs Pa 00213 Sage Electonres Corp Rochester 00334 Hunidial Colton Cali 09373 Garlock In Electionics Products Camden H J 0656 Aerovox Corp New Bedford Mass 00779 Inr Harrisburg Pa 00781 Aircraft Radio Corp Boontos H J 00815 Northern Engineering Laboriones Inc Burlington Wis 00853 Sangamo Eleclite Co Pitkens Div Pickens S C 00966 Goe Co Las Angeles Calif 0089 Carl E Holmes Corp Los Angeles Calif 01121 Allen Bradley Co Milwaukee
119. 100YDCW 100 LOOVOCW 1OOVDCW 1OO0VDCW 100VDCW 100VOCW 100VDCW 100VDCW MICA 320PF 1 300VDCWw MICA 320PF 1 300VDCW CER 4 6PF 0 MICA 160PF 1 CER 3 4PF4 0 1PF MICA 220PF MICA 1 1 CER O OL1UF 486 204 100VDCW NOT ASSIGNED CER 0 010 80 20 100VDCW CER 1500 PF 10 500VDCW MICA 600FF 1 MICA 1 CER 2 2 0 CER 2 2 0 1 O OlUF CER 0 01UF CER 0 010 CER 0 01UF CER 0 01UF CER C O01UF CER 0s01UF CER O4 O1UF CER 0 01UF MICA 534 80 20 80 20 80 20 8 860 204 80 20 80 205 80 20 80 20 80 20 80 20 1 1oovocw 100VDCW 100VDCW 100VDCW 100VDCW 100VDCW 100VDCW 100VDCW LOOVDCW 100VDCW i See list of abbreviations in introduction to this section Section VI Table 6 7 6 19 Section VI Model 5100A Table 6 7 Table 6 7 Mixer Filter Module A12 05100 6002 Cont d Prefix all parts in this table A12 aggio Stock No Description A1C49 0160 0328 CIFXD MICA 267PF 1 AICRI 1910 0029 SEMICON DEVICE DIODES GERM MATCHED PAIR A CR2 1910 0029 SEMICON DEVICE DIODES GERM MATCHED PAIR AICR3 1910 0029 SEMICON DEVICE DIODES GERM MATCHED PAIR AICR 1910 0029 SEMICON DEVICE DIODES GERM MATCHED PAIR 1 1 9140 0179 COIL FXD 22 UH 10 275 A1L2 9140 0179 COIL FXO 22 UH 10 275 MA 115 9140 0179 COIL FXD 22 UH 10 275
120. 1250 0118 CONNECTOR t BNC 9140 0088 INDUCTORIRF 0 33UH 5 9140 0088 INDUCTORIRF 0633UH 5 MISCELLANEOUS 1400 0109 CLIP amp MOUNTING 05100 0011 COVER 05100 0013 FRAME 05100 2055 PLATE RIGHT END 05100 2026 PLATE RIGHT END 5040 0037 PINSORIVE RH SST 3 16 02279 1 05100 0068 SHIELD F ILTER z See list of abbreviations in introduction to this section 6 43 Section VI Table 6 19 Table 6 19 Output Amplifier Module A24 05100 6015 Prefix all parts in this table A24 Model 5100A Denton Stock No Description Note 1 05100 6044 BOARD ASSYe OUTPUT AMPLIFIER 05100 2018 BLANK BOARD A1C1 0140 0204 CIFXD MICA 47PF 5 NPO 5 A1C2 0180 0137 ELECT TA 100 UF 20 10VDCW A1C3 0180 0010 CIFXD ELECT BUF 15 20 3OVDCH 1 4 0180 0155 CIFXD 2e2UF 20 20VDCW NOT RECOMMENDED FOR FIELD REPLACEMENT A1C5 0150 0121 CIFXD CER 0 1UF 50 VDCW A1C6 0150 0121 CIFXD CER Ce 1UF 50 VDCW A1C7 0180 0035 ELECT 50UF 6VOCW A1C8 0180 0159 C3FXD ELECT 2200 10VDCW 1 9 0150 0121 C3FXD CER O 1UF 50 VDCW ALCLO 0180 0058 C3FXD ELECT SOUF 10 100 25VvDCW A1C11 0180 0039 CIFXD ELECT LOGUF 12VDCW A1C12 0180 0058 CIFXD ELECT SOUF 10 100 25 A1C 13 0150 0121 CER O4 1UF 50 VDCW A1C14 0150 0121 CER O 1UF 50 VDCW A1C15 THRU 1 20 ASSIGNEO A1C21 0180 0159 CIFXD ELECT 220UF 10VDCW A1C22 0180 0045 ELECT 20UF 25VDCW A1C23 0150 0121 CIFXD CER QalUF 50 VDCW A1
121. 1901 0025 1910 0016 1910 0016 1901 0025 1910 0016 1910 0016 1901 0025 1910 0016 1910 0016 1901 0025 1910 0016 1910 0016 1901 0025 1910 0016 1910 0016 1901 0025 1910 0016 1910 0016 1901 0025 1850 0091 0683 1035 0685 3625 Description 55 3 4 MC SWITCH CIFXD CER CiFxD CER CER CIFXD CER CER CER C FXO CER C3 FXD CER CtFxD CER CtFXD CER C FXD CER CER CtFXD CER CiFXD CER CIFXD CER CiFXO CER CIFXD CER CER OsOlUF 480 265 Oe 80 20 Oe01UF 80 20 0 80 20 Os1UF 50 VDCW Oe01UF 80 20 Oe01UF 80 20 0 010 80 20 Os01UF 80 20 O O1LLE 80 20 Oe01UF 80 20 Os0V1UF 80 20 80 20 B0 20 Oe01UF 80 20 Oe01UF 80 20 Oe01UF 80 20 O O1lUF 80 20 100 0 100VDCw 100VDCW 1OOVDCW 100YDCW 100VDCW 100VDCW 100VDCW 100VDCW 100VDCW 100VDCW 100YDCW 100YDCW 100VDCW 100VDCW 100VDCW 100VDCW SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON SEMICON DEVICE 1DIODE DEVICE DIODE DEVICE DIODE DE VICE DI ODE DEVICE 1DIODE DEVICEIDIODE DEVICE DIODE DEVICE sD1 ODE DEVICE sDIODE DEVICE IDIODE DEVICEtDIODE DEVICE IDIODE DEVICE tDIODE DEVICE DI ODE DEVICE IDIODE DEVICE D
122. 1910 0022 SEMICON DEVICE IDIODE GE 100MA 3 5NS A1CR5 1901 0127 SEMICON DEVICESDIODE SILICON STEP RECOVERY A 1CR6 1910 0022 SEMICON DEVICEtOIODE GE 100MA 5 535 A1L1 9140 0179 COIL FXO 22 UH 10 275 MA Ali2 05100 6186 COIL 55 VARIABLE 16 23UH 9170 0105 CORES ADJUSTABLE TUNING AILS 9140 0179 COIL FXD 22 UH 10 275 A 1L 4 9140 0179 COIL FXD 22 UH 10 275 AILS 9140 0095 COIL1FXO RFI O627UH ALLE 9140 0095 COILIFXO RF O 27UH A1L7 9140 0179 COIL FXD 22 UH 10 275 A1L8 05100 6186 COIL ASSY VARIABLE 16 23UH 9170 0105 ADJUSTABLE TUNING NeSeRe PART OF Al 1850 0118 TRANSISTOR FNFP GERMANIUM EIA 2N2560 1205 0031 HEAT SINKt TRANSISTOR 1850 0121 TRANSISTOR GERMANIUM PNP 2N2402 1850 0020 TRANSISTOR GERMANIUM 2N1143 PNP 1850 0062 TRANSISTOR IGERMANTUM SPL 2N404 0727 0036 RIFXD DEPC 71 16 OHM 1 1 2W P 150 OHM 5 1 u4w ii See list of abbreviations in introduction to this section Model 5100A Table 6 13 33 to 330 Mc Multiplier Module A18 05100 6021 Cont d Prefix all parts in this table A18 Section VI Table 6 13 Reference m Le AIRI A IR4 ALRS A1R6 A 1R8 189 A1R10 1 11 AIR12 AIRIS AIRIS A1R15 A1R16 A1R17 AiR18 1 1 C1 Ce c3 Ji 42 02219 1 THRU 0685 1525 0685 7515 0683 7515 0685 1325 0683 6215 0683 5115 0683 1815 0683 5105 0757 0076 0685 2225 2100 0941 0758 0003 0758 0005 0685 2255 051
123. 2 2000 OHM 1 1 2W 5 18 OHM 1 1 2 41 e7k OHM 1 1 2 430 OHM 2 1 2 FLM 560 OHM 2 1 2 Replaceable Parts Cont d d Mfr Mfr Part No TQ 15291 07886 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 01121 28480 28480 28880 28480 28480 28480 28480 28480 28480 28480 07115 6 5 5 3 5 NCN 3 4 5 CB 1005 CB 1015 CB 1025 CB 1035 CB 1225 1235 CB 1525 CB 1515 CB 1525 CB 1815 1825 CB 2025 2215 GB 2225 2255 2425 2715 2735 3045 3025 3315 3325 3625 5905 3925 4715 4725 5105 5115 5625 6215 6805 6825 7515 8215 3905 5321 0698 5122 0727 0012 0727 0036 0727 0109 0727 0112 0727 0115 0727 0157 0727 0189 0757 0074 C 20 See list of abbreviations in introduction to this section Section VI Table 6 21 HM Q Ul Je hi on be a OO D e e NL pr mM N 6 53 Section VI Table 6 21 0757 0079 0757 0086 07757 0091 0757 0092 0757 0197 0757 0269 0757 0270 0757 0271 0777 0275 0757 0278 0757 0275 0727 0277 0757 0279 0757 0280 0757 02
124. 200 mv If voltage is outside this range adjust R14 Since R14 is a wire wound resistor discrete voltage steps of approximately 6 mv will be observed Adjust R14 to a stable setting o these steps within 10 mv of the required voltage c Connect Voltmeter to the 6 terminal red wire on bottom of the Search Oscillator Module A2 Voltmeter should read 6 300V dc 100 mv If volt age is outside this range adjust R12 Discrete volt age steps will beobserved as R14 is adjusted soleave the control set on a stable step within 10 mv of the required voltage The 46 3V dc supply uses the 12 6 vde supply as a reference and so it should be adjusted after the 12 6V dc supply d Varythe line voltage quickly from 103 to 127V dc 207 to 255V dc The instantaneous change in 6 dc or 12 6V dc should be less than 100 microvolts The 740A DC Standard Differential Voltmeter is an ideal instrument for this measurement e The measurement of 60 and 120 cps ripple on the two supplies requires a special amplifier 30 db 50 to 150 cps noise referred to input less than 1 micro volt and an 302A Wave Analyzer Ripple is under 10 microvolt rms However ground loops between the Synthesizer andthe measuring equipment will usu ally make this voltage level difficult to measure Should this measurement be attempted bear in mind that a high ripple voltage will most likely be caused by the method and equipment used rather tha
125. 23 THRU A130 NOT ASSIGNED A1L31 9140 0179 COIL FXD 22 UH 10 275 A1L32 9140 0179 COIL FXD 22 UH 10 275 AIL33 9140 0179 COILeFXD 22 UH 10 275 AIL34 9140 0179 COIL FXD 22 UH 10 275 AIL35 9140 0179 COIL FXD 22 UH 10 275 A1L36 9140 0178 COIL FXO 12 UH 10 375 MA A1L37 9140 0178 COIL FXD 12 UH 10 375 101 1850 0119 TRANSISTOR PNP GERMANIUM EIA 2N963 102 1850 011 x TRANSISTOR FPNP GERMANIUM EIA 2N2360 A1Q3 1850 0118 TRANSISTOR FNP GERMANIUM EIA 2N2360 104 1850 0118 TRANSISTOR PNP GERMANIUM EIA 2N2360 105 1850 0075 TRANSISTORIGERMANIUM 2N7794 PNP A1Q6 1850 0091 TRANSISTORIGERMANIUM 2N2048 PNP AIRS 0683 4715 RSFXD CUMP 470 OHM 5 1 4W A1R2 0683 1025 RBFXD CUMP 1000 OHM 5 l1 uW AIRS 0683 7515 RIFXD COMP 750 OHM 5 1 W 0797 0283 RIFXD MET FLM 2000 OHM 1 1 8W 0683 1025 R FXD COMP 1000 OHM 5 1298 See list of abbreviations in introduction to this section 02279 1 6 15 Section VI Table 6 6 Table 6 6 Mixer Divider Modules A5 A11 05100 6001 Cont d Prefix all parts in this table A5 A11 Reference Stock No Description AIR6 0757 0282 RIFXD MET FLM 221 OHM 1 1 8W AIR 0683 2025 RIFXD COMP 2000 OHM 5 1 4 AIRE 0683 3025 RIFXD COMP 3000 OHM 5 l uw 189 0685 1025 i RIFXAD COMP 1000 OHM 5 1 4W A1R10 0683 3025 RIFXO COMP 3000 OHM 5 1 4w A1R11 0683 3025 RIFXD COMP 3000 OHM 5 1 4W A1R12 0683 2225 COMP 2 2
126. 3 1025 RIFXD COMP 1000 OHM 5 1 48 MISCELLANEOUS 05100 2041 COVER 350 390 MC SWITCH 05100 20351 HOUSING 350 390 MC SWITCH 0340 0039 INSULATOR1BUSHING 0340 0036 TERMINAL ISTUD 0360 0354 TERMINAL 5700 0540 0038 TERMINAL1STUO See list of abbreviations in introduction to this section 02279 1 6 38 Model 5100A Table 6 16 1st UHF Mixer Module A21 05100 6012 Prefix all parts in this table A21 t Stock No Reference Designation Description 05100 6040 05100 2014 BOARD ASSY FILTER BLANK BOARD 0140 0225 CiFXD MICA 300PF 1 300VDCW A1C2 0121 0061 C3VAR DISK 5 5 18 PF NPO 300 VDCW A1C3 0140 0190 MICA 39 5 300 VDCW AICH 0160 2055 CIFXD CER 0 01 80 20 100VDCW A1CS 0160 2055 CER 0 010 80 20 100VDCW A1C6 0140 0178 MICA 560 PF 2 300 VOCW A1C7 0121 0061 CIVAR CER DISK 6 5 18 NPO 300 VOCW A1C8 0160 2055 CER 0e01UF 80 20 100VDCW ALCS 0160 2055 CER O1LUF 80 20 100VDCW ALLA 9140 0094 COILIFXO RF 0e68UH I AIL2 9140 0188 COILIFXD 0056UH 10 A1L3 9140 0120 COILIFXO 0 1 UH ALLY 9140 0120 COIL FXD 021 UH A1R1 0758 0073 RIFXD MET FLM 24K OHM 5 1 2W A1R2 0757 0298 RIFXD MET FLM 22K OHM 2 1 2 W 1 5 2100 0741 RIVAR WW 5K OHM 5 ALRY 0758 0035 RIFXO MET FLM 3000 OHM 5 1 2W AIRS 0757 0091 RIFXO FLM 18K OHM 2 1 24 ALR 0757 0298 RIFXD MET FLM 22K OHM 2
127. 3 2 Remote Current Requirements Column 10 16 ma Column 106 14 ma Columns 10 thru 107 8 ma per column 3 24 Because internal circuits are susceptible to low frequency ripple on the power supply line e g 60 cycles and 120 cycles stringent requirements have been placed on the power supply In order to ensure that ripple induced spurious signals will be 90 db down it is necessary that low frequency ripple present on the supplies be less than 10 microvolts When the internal supply is used externally for re mote programming the maximum allowable low fre quency current that can be injected into the internal supply is 200 microamperes or considering 10 col umns are being programmed 20 microamperes per column This restr ction does not hold if an external 12 6 volt supply is used When this method is em ployed the 12 6 volts may have up to 1 millivolt ripple 3 25 A combination of local and remote program ming may be accomplished with the LOCAL REMOTE switch in the LOCAL position and with no pushbuttons depressed in the columns to be remotely programmed While operating the Synthesizer in its LOCAL mode the voltages appearing on the remote programming connectors may prove useful for remote indications 3 3 3 4 Section IV Figure 4 4 24MC FROM 51 4 2
128. 3 7MC FROM J21 22 3 7MC TO J4 GG 7 TO J5 7 TO J6 JJ 7 TO JT 7 TO J8 BOARD ASSEMBLY t05 00 6030 b 2 Rub uam rt pacem CE dvd xc rd nd cu EM ATE IM ICM 3 6MC FROM J21 9 3 6MC FROM 92 00 36MC FROM J2t 1 3 6MC FROM J21 2 3 64C TO J4 GG 6 TO J5 HH 6 TO J6 JJ TO J7 KK 6 TC 48 BOARD ASSEMBLY tosioo 6030 i 13 per ep peer 18 3 5MC FROM J20 49 3 5MC FROM J20 50 3SMC FROM J21 1 3 5MC FROM 322 2 5 C TO J4 66 5 TO 45 HH 5 J6 24 5 TO J7 KK 5 TC ve BOARD ASSEMBLY 05 00 27 a a PRETESE TREE 10 34MC FROM 20 41 3 4MC FROM J20 42 3 4MC FROM J20143 34MC FROM J20 44 34wc TO J4 GG 4 TO J5 HH 4 J6 09 4 TO J7 KK 4 TC 4B BOARD ASSEMBLY 6030 icu y epos uec gua coo DEI RETTE 0 3 3MC FROM J20 30 3 3MC FROM J2C132 3 MC FROM 720433 33MC FROM J20 34 TO J4 GG 3 TO J5 HH X TO J6 JJ 3 TO J7 KK 3 YC ca pn REUTERS ERU SE Ce EE ROW BOARD ASSEMBLY 5100 6030 2 dia rs UEM CEN s s 2 32MC FROM J20 23 32MC FROM 726124 Z2MC FROM J20 25 32MC FROM J20 26 3 2 TO J4 66 2 TO 45 HH 2 7246 J4 2 TO J7 KK 2 TA me A ROW BO
129. 3 Hammarlund o New York N Y 66510 Stevens Arnold Inc Boston Mass 81230 Inlematfronal Instruments Inc Orange Conn 1673 Grayhill Co LaGrange 1095 Triad Transformer Corp Venice Calit 61312 Winchester Electianics Co Inc Norwalk Calif 21349 Military Speciicalion 51115 Wilkor Products Inc Cleveland Ohio 51163 International Rectifier Corp El Segundo Calif 1521 The Producls Co Cambridge Mass 51589 Barry Controls Div Barry Wright Corp Walerlon Mass 52242 Carer Precision Electric Skokie II 201 Spei Faraday inc Cooper Hewill Electric Dev Hoboken N J 2112 Jeffers Electronics Division of Speer Carbon Co Du Bois Pa 32120 Fauchild Camera amp Inst Corp Defense Prod Division Cliflon N J 82209 Magune Industries Inc Greenwich Conn 52219 Sylvania Electne Prod Inc Electronic Tube Division Emponum Pa 32376 Astron Division Renwell Industries Inc East Newark 82588 Switcheraft Inc Chicago 82647 Melais amp Controls Inc Spencer Products Altleboro Mass 32769 Phillips Advance Control Co Joliet III 82866 Research Products Corp Madison Wis 82877 Ralton Mfg Co Inc Woodstock N Y 82893 Vector Electronic Co Glendale Calif 93053 Western Washer Mig Co Los Angeles Call 83058 Carr Fastener Co Cambridge Mass 82086 Hampshire Ball Bearing Jac Peterborough M H 83125 General Instrument Corp Capacatos Di
130. 345 CIFXD 1000PF 480 205 500VDCW FEED THRU 0140 0192 MICA 68PF 5 3OOVDCW Ji 1250 0083 CONNECTOR 1BNC J2 1250 0083 _ CONNECTORIBNC MISCELLANEOUS 05100 0083 COVER MULTIPLIER 38 380 05100 6164 CHASSIS 55 MULTIPLIER 02279 1 list of abbreviations in introduction to this section Table 6 9 Table 6 9 38 to 380 Mc Multiplier Module A14 05100 6017 Cont d Prefix all parts in this table A14 De sito Description Note 6 21 Section VI Model 5100A Table 6 10 Table 6 10 37 to 370 Mc Multiplier Module A15 05100 6018 Prefix all parts in this table A15 Docs 7 Stock No Description 4 1 05100 76161 BOARD ASSY4 37 570 MC 05100 2020 BLANK BOARDIMULTIPL IER AICH 0160 2055 CER CeOlUF 80 20 100VDCW A1C2 0160 2055 CIFXD CER Ce01UF 80 20 100VDCW A1C3 0160 2055 CIFXD CER O O1lUF 80 20 100VDCW 1 0160 2055 CIFXD CER O O01UF 980 206 100VDCW A1C5 0160 0358 CIFXD CER 94PF 54 500VOCW ALICE 0150 0082 Ti 4 7 5 500 VDCW A1C7 0160 2055 CER QCe01UF 80 20 100 A1C8 0160 2055 CtFXD CER O 01UF 80 20 100YDCW A1C9 0130 0017 CIVAR CER 8 50 PF N750 A1C10 0160 2055 C8FXD CER 0 01 80 208 100VDCW A1C11 THRU A1C15 NOT ASSIGNED A1C16 0150 0050 CER 1000PF 600 VDCW A1C17 0160 2055 CIFXO CER O OLUF 80 20 100VDCW A1C18 0130 00 CtVAR CER 8 50 PF N750 A1C19 0160 2055 CER Os01UF 480 204 100VDCW A1C20
131. 36 P21 37 WHT BRN RED J8 35 WHT BLK RED 48 34 P21 19 WHT RED J8 33 ES cma WHT YEL BLU ali P20 49 WHT GRN BLU J8 31 JN WHT RED GRN En J8 30 P20 31 WHT BRN GRN 2 48 29 2 23 WHT K GR SERSSEN J8 28 P20 13 WHT Tora J8 27 Jp oM R EUN J81 26 Th a ho m m a m um a dos m 4 e I I ey I I TD E as De me rud mh f ir n i m n w a r LL eem arras ie Da em Ez r d a p I 3 TO 4 MC sN 21 46 WHT REO ORN P21 38 WHT BRN ORN reer P21 28 WHT BLK ORN ere P21 20 WHT ORN 2 J8 45 4 P2I O Su SEM J8 44 P20 50 N Y WHT ORN YEL ua i P20 42 B Y SM WHT RED YEL P20 32 HT BRN YEL J8 41 P20 24 E a F 1 WHT BLK YEL Je tab E T Y i Si J8 39 P20 6 J8 38 D e re ae ae et ma ore m mm em am me em o I et Lilli MEE m n t na A AAA ee ee ee a i dond be i FROM SWITCH 3 TO4 MC REMO
132. 5 05100 2049 5100 0701 0570 0112 Table 6 1 Chassis Parts Cont d CABLE 39MC MULTIPLIER INPUT CABLE ASSY MULTIPLIER OUTPUT CABLE 350 MC OUTPUT CABLE 360 MC OUTPUT CABLE 370 OUTPUT CABLE 380 MC OUTPUT CABLE 30 MC OUTPUT CABLE 390 MC OUTPUT CABLE 330 MC OUTPUT CABLE MIXER 1 OUTPUT CABLE MIXER 2 OUTPUT CABLE MIXER 3 INPUT CABLE MIXER 3 OUTPUT ASSY HI LEVEL OUT CABLE INCLUDES J5 ASSY LO LEVEL OUT CABLE INCLUDES J 55 SEARCH OSC OUT CABLE CABLE 55 OUTPUT INCLUDES ASSY OUTPUT JUMPER CABLE CABLE 55 INCLUDES FUSEHOLDER EXTRACTOR POST FUSEHOLOER EXTRACTOR POST TYPE MISCELLANEOUS 55 WELDING HI FREQ DECK BAR MTGe BUSHING LATCH CLAMP FILTER FREQ DECK CABLE ASSYe DECADE TEST CONNECTORIPRINTED CIRCUIT 15 25 1 CONNECTORt12 TERMINAL XA25A2 COVER ASSYe BOTTOM COVER ASSYe TOP FASTENERI1PUSH ON TYPE GASKETISILICONE RUBBER 1 7 1610 1 5 800 LATCH DECK POWER SUPPLY CABLE 55 PIN PIVOT FASTENER HI FREQ DECK SPRINGIHELICAL 0 25 0 20 0 0220 WIRE STANDS TILT STRAP GROUND SUPPORT SWITCH SWI TCH ROTARY LOCK OPERATE KNOB See list of abbreviations in introduction to this section Model 5100A Stock No Description Note 02279 1 Section VI Table 6 2 Model 5100A Table 6 2 Pushbutton Switch Assembly A1 05100 6003 Prefix all parts in this table A1 o
133. 50 TWX 510 252 0890 NORTH CAROLINA High Point 27262 1923 N Main Street 919 882 6873 TWX 510 926 1516 OHIO Cleveland 44129 5579 Pearl Road 216 884 9209 TWX 216 888 0715 Dayton 45409 1250 W Dorothy Lane 513 298 0351 TWX 513 944 0090 OKLAHOMA Oklahoma City 405 235 7062 PENNSYLVANIA Camp Hill 717 737 6791 West Conshohocken 19428 144 Elizabeth Street 215 248 1600 and 828 6200 TWX 215 828 3847 Monroeville 15146 2545 Moss Side Blvd 412 271 5227 TWX 710 797 3650 and Canada TEXAS Dallas 75209 P 0 Box 7166 3605 Inwood Rd 214 357 1881 and 332 6667 TWX 910 861 4081 Houston 77027 Box 22813 4242 Richmond Ave 713 667 2407 TWX 713 571 1353 UTAH Salt Lake City 84115 1482 Major St 801 486 8166 TWX 801 521 2604 VIRGINIA Richmond 23230 2112 Spencer Road 703 282 5451 TWX 710 956 0157 WASHINGTON Bellevue 98004 11656 N E 8th St 206 454 3971 TWX 910 443 2303 GOVERNMENT CONTRACTING OFFICES Middletown Pa 17057 Hewlett Packard Contract Marketing Division Olmsted Plaza 717 944 7401 TWX 717 760 4816 West Conshohocken Pa 19428 Hewlett Packard Contract Marketing Division 144 Elizabeth Street 215 753 1811 TWX 215 820 3847 CANADA Montreal Quehec Hewlett Packard Canada Ltd 8270 Mayrand Street 514 735 2273 TWX 610 421 3484 Ottawa Ontario Hewlett Packard Canada Ltd 1762 Carling A
134. 5100A 6 34 0683 1525 RIFXD COM Table 6 13 Table 6 13 33 to 330 Mc Multiplier Module A18 05100 6021 Prefix all parts in this table A18 F Stock No Description 4 Note 1 05100 6038 BOARD ASSYe 33 330 95100 2021 BLANK BOARD MULTIPLIER 1 1 0160 2055 CtFXD CER C O01UF BO 20 100VDCW A1C2 0160 2055 CER O 01UF 80 205 100VOCW A1C3 0160 2055 CER 0 010 80 20 100 A1C4 0160 2055 Ce0lUF 80 20 100VDCW AICS 0160 0360 CER 120PF 5 500VDCW A1C6 0150 0042 TI 4 7 5 500 VDCW 1 7 0160 2055 CtFXD O OLUF 980 205 100VDCW 1 8 0160 2055 CIFXD CER O OLUF 80 20 100VDCW 1 9 0130 0017 CIVAR CER 8 50 PF 750 1 10 0160 2055 CtFXO O OLUF 80 20 100VDCW A1C11 THRU A1C15 NOT ASSIGNEO A1C16 0150 0050 CIFXD CER LOOOPF 600 VOCW A1C17 0160 2055 CIFXD CER O O1UF 480 208 100VDCW A1C18 0130 0017 CIVAR CER 8 50 PF 750 1 19 0160 2055 CER O O1UF 80 20 100VDCW A1C20 0160 2055 CER 0 010 80 20 100VDCW 1 21 0140 0215 MICA 2 300VDCW A1C22 0140 0145 CIFXD MICA 22 PF 5 500 VDCW A1C25 3100 00 CIFXD CER OeOLUF 80 20 100 AlC24 0130 0017 CIVAR CER 8 50 PF N750 A1C25 0130 0018 CIVAR CER 1 57 PF 500 1 1 1910 0022 SEMICON DEVICEtDIODE GE 100MA 6PIV 3 5NS A1CR2 1910 0022 SEMICON DEVICE DIODE GE 100MA 6PIV 3 5NS AICRI 1910 0022 SEMICON DEVICESDIODE GE 100MA 6PIV 3 5NS AICR
135. 5441 56289 TYPE 300 56289 30019841 TYPE 30018641 300172A1 150D107X002052 30D174A1 505 1010 C2 56289 56289 56289 56289 00855 150D107X0010R2 1500225 0020 2 56289 1500227 001052 05571 4S6430 05571 30012661500 56289 56289 98291 ST 1000 L2 28480 0340 0036 00866 HP 3000M 2 28480 0340 0038 00866 HP 3000T 1 71785 71279 04015 04035 28480 552 14 05 201 2267 1 3FU 5 ASO 13 0370 0030 28480 00866 78555 85524 07886 0270 0112 OBUDN 12008 014 4 RPN 6 32 SC 8 5 5 12 See list of abbreviations in introduction to this section 1 16 31 22 16 wa pa RI iy n3 N RD de AD far m p M pa pa N ul m jra 02279 1 Model 5100A Stock No 0510 0212 0510 0213 0685 1005 0685 1015 0685 1025 0683 1035 0685 1225 0683 1235 0683 1325 0683 1515 0683 1525 0683 1815 0683 1825 0683 2025 0685 2215 0683 2225 0683 2255 0683 2425 0685 2715 0683 2725 0683 3015 0683 3025 0683 3315 0683 3325 0683 3625 0683 3905 0683 3925 0683 4715 0682 4725 0683 5105 0683 5115 0683 5625 0683 6215 0683 6805 0683 6825 0683 7515 0683 8215 0686 2905 0687 3331 0698 3122 0721 0004 0727 0012 0727 0056 0727 0109 0727 0112 0727 0115 0727 0137 0727 0189 0757 0074 0757 0076 02279 1 Table 6 21 Description FASTENER HI FREQ DECK NUTICA
136. 6 95238 95263 95264 95265 95275 95348 95354 95712 95987 96067 96095 96256 96296 96330 9534 9650 97454 97539 97973 97383 98141 98159 98220 93278 98291 38405 Manufacturer Address Robbins and Myers Inc Stevens Mfg Co inc Howard J Smith Inc Controls General Cable Corp Raytheon Co Comp Div Ind Comp Operalions Quincy Mass Scientific Electronics Products inc Loveland Colo Newark N J New York N Y Mansfield Ohio Porl Monmouth N J Livingston N J Bayonne Tung Sol Electric Inc Curtiss Wright Corp Electronics Div South Chester Carp Tru Dhm Products Memcor Components Div Huntinglon Ind Wire Cloth Products Inc Beltwood Worcester Pressed Aluminum Corp Worcester Mass George Philbrick Researchers Inc Boston Mass Miami Fla Woodside N Y Long Island NY Burbank Sheridan Wyo Sridgeport Conn Bloomfield N J Chicago III Franklin Ind Chicago Sunnyvale Calil Olean N Y asl Palerson N J Chester Pa Allies Products Corp Continental Conneclor Corn Leecialt Mfg Co Inc Lerca Eleciromcs Inc National Coil Co Vilramon Inc Gordos Corp Methode Mig Co Dage Electric Go Inc Weckesser Co Huggins Laboratories Hi Q Div Aerovox Corp Thordarson Meissner Div of Maguire Industries Inc Solar Manufacturing Carillon Screw Co Mictowave Associates Inc Excel Transfo
137. 7PF 1 2 68 0160 0529 CIFXD CER 6 0PF 0 1PF A2C69 0160 0332 CIFXD MICA 133PF 1 A2C70 0160 0328 CIFXD CER amp 6FF 0 1PF 2 71 0160 0332 CIFXD MICA 133PF 1 A2C72 0160 0330 CIFXD CER 646PF 0 1PF A2C73 0140 0220 CtFXD MICA 200FF 1 300VDCa 2 74 0140 0177 MICA 400 1 300 VOCW A2C75 NOT ASSIGNED A2C76 0160 0333 CIFXD MICA 15 0 5PF See list of abbreviations in introduction to this section Model 5100A Note 02279 1 Model 5100A section VI Table 6 6 Table 6 6 Mixer Divider Modules A5 A11 05100 6001 Cont d Prefix all parts in this table A5 A11 Fo _ n e T O B Stock No Description A2C77 0160 2055 x CER 0 010 80 20 100VDCW A2C78 0160 2055 C8FXD CER O O1UF 80 20 100VDCW A2C79 i 0140 0230 CUFXD MICA 420PF 1 300VDCW A2CBO 0160 0344 CtFXD MICA 220 1 2 81 0160 0334 CIFXD MICA 47PF 0 5 A2C82 0160 0335 C3FXD MICA SIPF 1 A2C83 0160 2055 CER Os01UF 80 20 100VDCW 2 8 0160 0538 x CIFXD MICA 267PF 1 A2C85 0160 0339 CIFXD MiCA 53uPF 1 A2CB6 0160 0339 CIFXD MICA 534PF 1 2 87 THRU 2 90 NOT ASSIGNED A2C91 0160 2055 CtFXD CER 0 010 80 20 100VDCW A2C92 0160 2055 C3FXD CER GeOlUF 80 20 100VDCW 2 95 0160 2055 0 1 80 20 100VDCW 2 94 0160 2055 CIFXD CER O O1UF 80 20 100VDCW A2C95 0160 2055 CER O4 O01UF
138. 81 0757 0282 0757 0285 0757 0284 0757 0287 0757 0288 0757 0289 0757 0290 0797 0294 0757 0295 0757 0296 0757 0297 0757 0298 0757 0516 0757 0544 0757 0568 0727 0277 0757 0298 0757 0914 0758 0002 0758 0005 0758 0004 0758 0006 0758 0007 0758 0009 0758 0010 0758 0012 0758 0015 0758 0017 0758 0018 0758 0024 0758 0028 0758 0051 0758 0055 07728 0055 0758 0036 0758 0043 0758 0044 0758 0045 0758 0055 0758 0054 0758 0057 6 54 FXD F XD F XD F XD FXD 22 2 R FXD R FXD R FXD RIFXD R FXD R FXD R FXD R FXD R FXD R FXD R FXD R FXD R FXO R FXD R F XD R FXD R FXD R FXD R FXOD R sF XD R FXD R FXD R FXD R FXO R FXD R FXD R FXD R FXD R FXD R FXD R FXD R FXD R FXD R FXD R FXD R FXD R FXD R FXD R FXO R F R FXD R FXD R FXD R FXD R FXD R FXD R FXD R FXD RsFXD R F XD FXD MET MET Table 6 21 Replaceable Parts Cont d FLM FLM F LM F LM FLM FLM FLM FLM FLM FLM
139. 8480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 05100 6111 05100 6112 05100 6113 05100 6114 05100 6115 05100 6116 05100 6117 05100 6118 05100 6119 05100 6120 05100 6121 05100 6122 05100 6125 05100 6124 05100 6125 05100 6126 05100 6127 05100 6128 05100 6129 05100 6130 05100 6151 05100 6132 05100 61335 05100 6134 05100 6159 05100 6161 05100 6162 05100 6163 05100 6164 05100 6165 05100 6166 05100 6167 09100 6168 05100 6169 05100 76170 05100 6171 05100 6172 95100 6174 05100 6175 05100 6176 05100 6177 05100 6178 05100 6179 05100 6180 05100 6181 05100 6182 05100 61835 05100 6184 05100 6186 05100 6187 1 i See list of abbrevictions in introduction to this section pe pme d d pe pab pe in DAD Aj 6 61 Section VI Table 6 21 he Sto 05100 6188 05100 6190 05100 6191 05100 6192 05100 6193 05100 6194 05100 6195 05100 6196 05100 6197 05100 6198 05100 6199 05100 6 00 05100 6201 05100 6202 05100 62035 05100 6204 05100 6205 05100 6206 05100 6207 05100 6208 05100 6209 05100 6210 05100 6211 05100 6212 05100 6213 05100 6214 05100 8003 05100 8004 95100 8005 05100 8006 05100 8007 05100 8008 05100 8009 05100 8010 05100 8011 05100 8018 6 62 ck No Table 6 21 Description TRANSI
140. 9 To measure insertion loss connect the input of the desired switch through a T Connect another BNC to J18 Load appropriate output to Multiplier with 100 ohms Usingthe appropriate front panel pushbutton or remote programming turn the switch on Measure the input on an f 411A RF Millivoltmeter use db scale Measure the output with the RF Millivoltmeter The difference in db readings is the insertion loss of that switch matrix Insertion loss is normally 1 6 db 1 db 9 19 Section V Paragraphs 5 70 to 5 84 5 70 350 TO 390 MC SWITCH A20 5 11 NORMAL OPERATION 350 to 390 Mc Switch contains 5 diode switches corresponding to the 5 front panel pushbuttons inthe 107 column One diode switch isturned on by applying a 12 6 volt enabling voltage froma LOCAL or REMOTE source as selected by the front panel FREQUENCY SELECTION switch Each pushbutton inthe 107 column represents an input and output from A20 Insertion loss of the switches is typically less than 1 db and the on off ratio greater than 25 db 5 12 OPERATIONAL CHECKS On off switching action and switching time of the 350 to 390 Mc Switch aretestedusingthe procedure of Item 2 of the In cabi net Performance Check Table 5 2 The test below for insertion loss may be helpful in checking fora switch with marginal performance 5 73 Insertion loss is the measure of switch con duction when the switch is on comparing the output signal to the
141. 901 0025 SEMICON DEVICE JUNCTION i 1 19 1902 0080 SEMICON SILICON A1CR20 1902 0079 SEMICON SILICON AiCR21 1901 0025 x SEMICON DEVICE3DIODE JUNCTION A1CR22 1901 0025 SEMICON OEVICE 1DIODE JUNCTION A1F1 2110 0035 FUSE 75 250V A F2 2110 0033 FUSE 75 250 A101 1850 0064 TRANSISTORIGERMANIUM 2N1183 PNP AIR1 0757 0290 RIFXD MET FLM 64 19K OHM 1 1 86 162 0757 0290 RIFXD MET FLM 6 19 OHM 1 1 86 A1R3 0757 0289 RIFXD MET FLM 13 3K OHM 1 1 8W ALR 0757 0289 RIFXO MET FLM 13 3K OHM 1 1 8w A1R5 0757 0290 RIFXD MET FLM 6 19 OHM 1 1 8 AIRG 0757 0290 RIFXD FLM 6019K OHM 1 1 BW 2 05100 6032 BOARD 55 REGULATOR 05100 2010 BLANK BOARD 2 1 0180 0049 ELECT 20UF 50VDCW A2C2 0180 0049 CiFXD ELECT 20UF 5OVOCW A2CR1 1902 0769 DIODE BREAKDOWN 5 5 5 7 4OOMW A2CR2 1902 0769 DIODE BREAKDOWN 5 2 5 7V A201 1851 0017 x TRANSISTOR12N1304 A2Q2 1850 0062 TRANSISTORIGERMANIUM SPL 2N40 A2Q3 NOT ASSIGNED A2Q4 1854 0003 TRANSISTORINPN SILICON 02219 1 a See list of abbreviations in introduction to this section 6 47 Section VI Model 5100A Table 6 20 Table 6 20 Power Supply Module A25 05100 6007 Cont d Prefix all parts in this table A25 ES 4 Stock No Reference Description Designation Li 205 206 1850 0062 TRANSISTORSGERMANIUM SPL 2N404 1855 0001 TRANSISTOR FNP SILIC
142. ABBREVIATED ADD ASSEMBLY DESIGNATION AS PREFIX TO FORM COMPLETE DESIGNATION RED BLY 05100 6025 A4A4 24MC EMITTER FOLLOWER ASSEMBLY 05100 6025 LI 12 6 22 T eur T owr QI 2N963 EMITTER FCLLOWER 6 3V 12 MC 4 4 J6 4 4 d 4 J5t bEc BeLE L POR dices 6 4 3 2 I PS 6 4 3 PG T 3 4 P7 7 6 4 3 2 P 3 TO 4MC 3 4 MC 3 TO 4MC 3 TO 4 MC FROM 45 5 TEES FROM A3J6 mere FROM A3J7 Is epi FROM 0120 27 GG tO JJ 107 KK 1072 Figure 5 16 Connector Block 5 3 Section V 1 5100 Figure 5 17 A5 All 9 38 022 19 1 05100 A 30 Model 5100A GE Oa lt XS 92 a a OO lt re 5906 lt Tax 5 gt O wy 22 5 9 Hi 82 5 55 o lt 2 O E s lt E 52 O 2 I gt 3 e 2 c ES RE dre z LJ lt I 107 gt 97 662 O A 9 Og vo sza 15 ce 389 Jh 152 x a 3 8 fJ Hd 99 E Ul SE 1019 h L lo C IZ gh Sia _ 623 2212 63 oro 13 93 ep ud 2 hnc e 51 81 661 81 689 169 952 T LL9 IGM 769 060 184 4 760 868 s zi i p 7542 969 v34 65H 2 A 28 891 a 00 Ld
143. ACK CHASSIS BNC J17 1250 0212 CONNECTOR JACK CHASSIS BNC J18 1250 0212 CONNECTORSJACK CHASSIS BNC 419 4250 0212 CONNECTORIJACK CHASSIS BNC 420 1251 0087 PART 1 3 4 CABLE 05100 6053 J21 1251 0087 PART OF Z2 3 4 MC CABLE O5100 6054 R1 0758 0095 RIFXD MET OX 56 OMM 5 1 2W R2 0758 0093 RIFXD MET OX 56 OHM 5 1 2W R3 0758 0095 RIFXD OX 56 OHM 5 1 2w R4 0758 0093 RIFXO Ox 56 OHM 5 1 24 R5 0758 0093 RIFXD OX 56 OHM 5 1 2W R6 0758 0093 RIFXD OX 56 OHM 5 1 2W i R7 0758 0093 MET OX 56 OHM 5 1 2W R8 0758 0093 RIFXD MET 56 OHM 5 1 2 R9 0758 0093 RIFXD MET OX 56 OHM 5 1 2w R10 0758 0093 RIFXD OX 56 OHM 5 1 2W R11 0758 0093 R FXD MET OX 56 OHM 5 1 2w R12 0758 0036 RIFXD MET FLM 3600 OHM 5 1 2W R13 0758 0036 RIFXO FLM 3600 OHM 5 1 2W R14 0758 0017 RBFXD MET FLM 1500 OHM 5 1 2W R15 0758 0017 RIFXD FLM 1500 OHM 5 1 2W R16 0758 0017 RIFXD MET FLM 1500 OHM 5 1 2W R17 0758 0017 RIFXD MET FLM 1500 OHM 5 1 2W R18 0758 0017 RIFXD FLM 1500 OHM 5 1 2W R19 0758 0017 RIFXD FLM 1500 OHM 5 1 2W MISCELLANEOUS 05100 6055 ASSY CABLE 3 4 7 INCLUDES J20 05100 6054 ASSY CABLE 3 4 40 INCLUDES J21 05100 2008 BLANK BOARD 05100 2044 COVERIBOTTOM 05100 2045 COVER1TOP 05100 0058 GASKET TOP 05100 0059 GASKET BOTTOM 05100 2030 HOUSING 13 4 MC SWITCH 0229 1 Prefix all parts in this table A3 iii Stock No Description Note See list of abb
144. ANANA 05100 0001 COVERIMETER AMPLIFIER 05100 0007 COVERICONNECTOR BLOCK 0510 0213 NUTICAPTIVE SST 4 40 0360 0357 TERMINAL tFEED THRU 0360 0358 TERMINAL IPRESS See list of abbreviations in introduction to this section 02279 1 Section VI Table 6 5 6 13 Section VI Model 5100A Table 6 6 Table 6 6 Mixer Divider Modules A5 A11 05100 6001 Prefix all parts in this table A5 A11 Reference Designation Note f Stock No Description 05100 6023 BOARD 565 MIXER 05100 2001 BLANK BOARD 05100 2039 STRIP GROUND 1 1 0160 2055 CIFXD CER O OlUF 80 20 100VDCW A1C2 0160 2055 CIFXD CER 0 01UF 80 20 100VDCW A1C3 0160 2055 C3FXD CER 0 1 0 80 20 100VDCW A1CU 0160 2055 CtFXD CER O O1UF 80 20 100VDCW A1C5 0160 2055 CtFXD CER O OLUF 80 20 100VDCW A1C6 0160 2055 CER O O01UF 80 20 100VDCW 1 7 0160 2055 CER 0 0140 80 20 100VDCW A1C8 0160 2055 CIFXD CER O 01UF 80 20 100VDCW A1C9 0160 2055 CIFXD CER Ge0lUF 80 20 100 A1C10 0160 2055 CER O OLUF 80 20 100VDCW A1C11 0160 2055 CIFXD CER Qe01UF 80 20 100VDCW A1C12 0160 2055 CIFXD CER 0 010 80 20 100VOCW A1C13 THRU 1 15 ASSIGNED 1 16 0160 0326 CIFXD CER 2 2PF 04 1PF A1C17 0160 0326 CIFXD CER 2 2 1 1 18 0160 0344 MICA 220PF 1 A1C19 0160 0341 MICA 640PF 1 A1C20 0160 0327 CtFXD CER 3e4PF 0 0
145. ARD ASSEMBLY tcs100 6030 SS SS a p pr AAA AA 3 IMC FROM J20113 31MC FROM J20 4 ZiMC FROM 22006 3 tMC FROM 20 16 3 1 MC j TO 34 GG 1 TO J5 iHH 1 TO JE 22 1 TO J7 KK 8 e 7 5 ROW BOARD ASSEMBLY 05 00 6030 een FROM J2015 3MC FROM 220162 2 wc FROM J20 7 3MC FROM J20 8 su I TO J4 66 0 TO J5 HH O 75 7 6 TO J7 XK C TO 8 24 RIS L J5 Rig L Ri 47 L i Rg 28 ig SNC 590 a ISO i ie e 6 DISC BNC T ouis ems a 1590 NT 3 A4P4 io TO 4 5 24956 A4P7 io 72 TO 4658 D ico b4s PACKAZI COMPANY Figure 5 15 3 to 4 Mc Switch Model 5100 E T INI I Se a iz o 18 or 3 18 472 wy e 02279 1 05100 A 28 05100 A 29 je F E E de imbri LU A pate ao L x Ma naw hei La A dnd NTWI I d 72 5 4 5 E sa pr E A4A2 A3 A4 es j A4 CONNECTOR BLOCK MODULE 05100 6004 SERIES 330 o TR nio o Lui cce O 12 6V VIO FROM A25 1 R3 ct RI FROM A 470 T our 10K Ri2 OUTPUT TOOK AMPLIFI R4 C2 Q 1200 T our CB 242048 OHF GR AMPLI
146. ASSIGNED CIFXD CIVAR CIVAR CER 1000PF 600 VDCW CER 0 010 80 20 100VDCW CER 8 50 PF N750 CER O4 O1UF 480 208 100VDCW CER 0 010 80 20 100VDCW MICA 80PF 2 300VDCW MICA 22 PF 5 500 VDCW Os01UF 80 20X 100VDCW CER 8 50 PF 750 CER 1 5 7 PF 500 SEMICON DE SEMICON DE SEMICON DE SEMICON DE SEMICON DE SEMICON DIODE VICE tOI ODE VICE DIODE VICE DIODE VICE IDIODE VICE DIODE GE GE GE GE 6PIV 5 5455 100MA 6PiV 3 5N5 100MA 6PIV 3 5NS 100MA 6PIV 3 6 5 SILICON STEP RECOVERY GE 100MA 6PIV 3 5NS COIL FXD ReFe 22 UH 10 275 ADJUSTABLE TUNING COIL FXO ReFe 22 UH 10 275 MA COIL F XD ReFe 22 UH 10 275 COIL FXD 0 27UH COILIFXD O 27UH COIL FXD 22 UH 10 275 MA COIL ASSY VARIABLE 16 23UH CORE ADJUSTABLE TUNING NeSeRe TRANSISTOR FNP GERMANIUM EIA 2N2560 PART OF Al HEAT SINKITRANSISTOR TRANSISTOR IGERMANIUM PNP 2N2402 TRANSISTOR GERMANIUM 2N1143 PNP TRANSISTORIGERMANIUM SPL 2N404 TRANSISTOR GERMANIUM SPL 2 4 04 TRANSISTOR amp 2N708 NPN SILICON x See list of abbreviations in introduction to this section Model 5100A 02279 1 Model 5100A Table 6 12 35 to 350 Mc Multiplier Module 17 05100 6020 Cont d Prefix all parts in this table A17 t Stock No Reference Designation Description
147. Blvd 213 877 1282 and 766 3811 TWX 910 499 2170 ILLINOIS Skokie 60078 5500 Howard Street 312 677 0400 TWX 910 223 3613 INDIANA Indianapolis 46205 3919 Meadows Dr 317 546 4891 TWX 317 635 4300 LOUISIANA New Orleans 504 522 4359 MARYLAND Baltimore 21207 6660 Security Blvd 301 944 5400 Rockville 20852 12303 Twinbrook Pkwy 301 427 7560 TWX 710 828 9684 MASSACHUSETTS Burlington 01804 Middlesex Turnpike 617 272 9000 TWX 710 332 0382 MICHIGAN Southfield 48076 24315 Northwestern Hwy 313 353 9100 TWX 313 357 4425 MINNESOTA St Paul 55114 2459 University Ave 612 646 7881 TWX 910 563 3734 MISSOURI Kansas City 64131 7916 Paseo Street 816 444 9494 TWX 816 556 2423 St Louis 63144 2814 South Brentwood Blvd 314 647 4350 TWX 314 962 3933 NEW JERSEY Eatontown 201 542 0852 Englewood 07631 391 Grand Avenue 201 567 3933 NEW MEXICO Albuquerque 87108 6501 Lomas Blvd 505 255 5586 TWX 910 989 1655 Las Cruces 88001 114 S Water Street 505 526 2486 TWX 505 524 2671 NEW YORK New York 10021 236 East 75th Street 212 879 2023 TWX 710 581 4376 Rochester 14623 39 Saginaw Drive 716 473 9500 TWX 510 253 5981 Poughkeepsie 12601 82 Washington Street 914 454 7330 TWX 914 452 7425 Syracuse 13211 5858 East Molloy Rd 315 454 2486 TWX 710 541 0482 Endicott 13764 1219 Campville Rd 607 754 00
148. C 47 1250 0212 CONNECTORIVJACK CHASSIS BNC JB 1250 0212 CONNECTOR JACK CHASSIS BNC JS 1250 0212 CONNECTORIJACK CHASSIS BNC 410 1250 0212 CONNECTORtJACK CHASSIS BNC Jil 1250 0212 CHASSIS BNC J12 1250 0212 CONNECTOR CHASSIS BNC 4713 1250 0212 CONNECTORS JACK CHASSIS BNC CONNECTORIVACK CHASSIS BNC J14 1250 0212 1250 0212 x CONNECTORIJACK CHASSIS BNC NOT ASSIGNED See list of abbreviations in introduction to this section 6 36 02279 1 Model 5100A Section VI Table 6 14 Table 6 14 30 to 39 Me Switch Module A19 05100 6010 Cont d Prefix all parts in this table A19 p dol 1 Stock Description Note 05100 2022 HOUSING 30 39 MC SWITCH J17 1250 0212 CONNECTORIJACK CHASSIS BNC J18 1250 0212 CONNECTOR JACK CHASSIS BNC J19 1251 0143 CONNECTORIFEMALE 14 CONTACT JACK ES 9140 0179 COIL FXD 22 UH 10 275 R1 0758 0007 RIFXD FLM 150 OHM 5 1 2W R2 0758 0007 RIFXD MET FLM 150 OHM 5 1 2 R3 0758 0007 R FXD MET FLM 150 OHM 5 1 24 0758 0007 RIFXD MET FLM 150 OHM 5 1 2 R5 0758 0007 RIFXO MET FLM 150 OHM 5 1 2W R6 0758 0094 RIFXD MET CX 62 OHM 5 1 2w R7 0758 0007 RtFXD MET FLM 150 OHM 5 1 2W RB 9758 0094 x RtEXO CX 62 OHM 5 1 2W R9 0758 0094 RtFXD MET 62 OHM 5 1 2W R10 0758 0094 RIFXD MET OX 62 OHM 5 1 2 i MISCELLANEOUS 05100 2025 i COVER SWITCH BOTTOM i 05100 2024 COVER SwITCH TOP 05100 0060 GASKET TOP COVER 0360 0358 TERMINAL 1 PR
149. C24 0150 0121 CIFXD CER O 1UF 50 VOCW A1C25 0180 0039 CIFXD ELECT 100UF 12VDCW A1C26 0180 0061 ELECT LOOUF 100 10 15VDCW A1C27 0150 0121 C3FXD CER OslUF 50 VDCW AIC28 0150 0121 CtFXD CER CelUF 50 VOCW A1C29 0150 0121 CER OelUF 50 VOCW 1C30 0160 0127 CIFXD CER 1UF 20 25VDCW A1C31 0160 0127 CIFXD CER 1UF 20 25VDCW A1C32 0150 0098 CIFXD ELECT 100UF 20 20VDCW A1C33 0150 0121 CER O 1UF 50 VDCW A1C34 THRU ALC4YO NOT ASSIGNED AICHI 0150 0070 CER e02UF 20 500VDCW A1C42 0140 0159 CIFXD MICA 3000PF 300VDCW A1C43 0140 0159 CIFXD MICA 3000PF 300VDCW AIC4 0150 0070 CIFXO CER 02UF 20 500VDCW 1 45 0160 0174 CIFXD CER Ce TUF 80 20 25VUCW AICRI 1910 0022 SEMICON DEVICE3DIODE GE 100MA 6PIV 3 5NS AICR2 1910 0022 SEMICON DEVICE DIODE GE 100MA 2 5 5 A1CR3 1910 0016 SEMICON DEVICEtDIOOE GERMANIUM i ALCRY 1910 0016 SEMICON DEVICE 1DIODE GERMANIUM A1CRS 1510 0016 SEMICON DEVICE3DIOOE GERMANIUM AICRE 1901 0040 SEMICON SILICON 1 87 1910 0016 SEMICON DEVICE30IOOE GERMANIUM AICRE 1901 0040 SEMICON DEVICEIDIODE SILICON AICR9 1910 0016 SEMICON DEVICE DIODE GERMANIUM AILI 05100 6183 ASSY VARIABLE AIL2 9140 0137 COILtFXD RF 100 UH Lu mu See list of abbreviations in introduction to this section 6 44 02279 1 Model 5100A Section VI Table 6 19 Table 6 19 Output Amplifier Module A24 05100 6015 Cont d Prefix all
150. CER 0 01UF 80 20 100VDCW A2C93 0160 2055 CER Oe01UF 80 20 100VDCW A2C9U 0160 2055 CER OsOlUF 80 208 100VDCW A2C95 0160 2055 CER O OLUF B0 20X 100VDCW A2C96 0160 2055 CER O O1UF 480 208 100VDCW A2L51 9140 0179 COIL FXO 22 UH 10 275 MA A2L52 9140 0179 COIL FXO 22 UH 10 275 A2L53 9140 0179 COIL FXD 22 UH 10 275 A2L54 THRU A2L60 NOT ASSIGNED A2L61 05100 6166 COIL VARIABLE 17 22UH 9170 0105 CORESADJUSTABLE TUNING A2L62 05100 6166 COIL VARIABLE 17 22UH 9170 0105 CORES ADJUSTABLE TUNING 2163 9140 0114 COILIFXO RF 10 UH A2L64 05100 6166 COIL VARIABLE 17 22 9170 0105 CORE ADJUSTABLE TUNING A2L65 05100 6166 COIL VARIABLE 17 22UH 9170 0105 CORE ADJUSTABLE TUNING 2166 05100 6166 COIL VARIABLE 17 22UH 9170 0105 CORESADJUSTABLE TUNING A2L67 05100 6166 COIL VARIABLE 17 22UH 9170 0105 CORE ADJUSTABLE TUNING 2168 NeSeRe PART 21 A2L69 THRU A2L8O NOT ASSIGNED A2L81 9140 0179 COIL FXO 22 UH 10 275 MA A2L82 9140 0179 COIL FXD 22 UH 10 275 A2L83 9140 0179 COIL FXD 22 UH 10 275 1860 0118 TRANSISTOR PNP GERMANIUM EIA 2N2360 1850 0118 TRANSISTOR PNP GERMANIUM EIA 2N2360 1850 0118 TRANSISTOR FNP GERMANIUM EIA 2N2360 0757 0281 RIFXD FLM 2 74 OHM 1 1 8W 0683 1025 RIFXO COMP 1000 OHM 5 1 4w 0685 1025 REFXD COMP 1000 OHM 5 1 46 0683 2025 RIFXD COMP 3000 OHM 5 1 44 0757 0280 RIFXD MET FLM
151. COMP 22K OHM 5 1 4W R6 0683 4725 RIFXD COMP 4700 OHM 5 1 4w R7 0683 4725 RIFXD COMP 4700 OHM 5X 1 4 RB 0683 4725 RIFXD COMP 4700 OHM 5 1 4w RO 0683 4725 RIFXD COMP 4700 OHM 5X 1 4w R10 0683 4725 RIFXD COMP 4700 OHM 5X 1 4W R11 0683 4725 RIFXD COMP 4700 OHM 5 1 4w R12 0683 4725 RIFXD COMP 4700 OHM 5 1 4W R13 0683 4725 RIFXD COMP 4700 OHM 5 1 R14 0683 4725 RIFXD COMP 4700 OHM 5 1 u Ww R15 0683 4725 RIFXO COMP 4700 OHM 5X 1 4w 51 3104 0005 SWITCH1PUSHBUTTON 52 3104 0006 SWITCH1PUSHBUTTON 3 3104 0007 SWITCHI PUSHBUTTON su 3104 0007 SWITCH PUSHBUTTON S5 3104 0007 SWITCHIPUSHBUTTON s 3104 0007 SWITCHtPUSHBUTTON S7 3104 0007 SWITCH PUSHBUTTON 58 5104 0007 SWITCHIPUSHBUTTON 02279 1 See list of abbreviations in introduction to this section Section VI Model 5100A Table 6 2 Table 6 2 Pushbutton Switch Assembly Al 05100 6003 Cont d Prefix all parts in this table A1 Di sal 2 Stock No Description Note 59 3104 0007 SWITCHIPUSHBUTTON 510 3104 0007 SWITCH PUSHBUTTON MISCELLANEOUS 05100 0023 BAR LOCK ING 05100 2037 BAR RETAINING 05100 2035 BAR SWITCH 05100 0025 BRACKET CABLE 05100 2065 BRACKET SWITCH 95100 6051 CABLE ASSY 3 4MC 05100 6052 CABLE ASSY 8HI FREQ 05100 6055 CABLE 55 05100 0067 GUARD SWITCH 05100 2036 ROD SWITCH LOCKING 05100 2038 SPACER SWI TCH See list of abbreviations in introduction to this section 6 6 02279 1 section VI Table 6 3 Model 5100
152. E e lt t gt 2 2 z m m e v t ott 3435 109 001 0 P wi THAR CAUTION SCREWS INDICATED BY ARROWS SEFORE SWINGING OUT DEC Figure 5 8 Component Location Bottom View Section V Figure 5 8 9 23 Model 5100 Section V Figure 5 9 6100095 Component Location Deck Swung Out Figure 5 9 02279 1 5 24 PERFORMANCE CHECK TEST CARD Hewlett Packard Model 5100A Tested by Serial Prefix No E EET a sy Date 1 Output frequencies Dc to 50 Mc 2 Digital Frequency Selection 0 01 cps through 10 Mc per step 3 Output Voltage Dc to 100 Kc 215 mv rms open circuit Lo Level Output 50 cps to 100 1 volt rms 2 db 4 db 100 kc to 50 Mc 1 volt rms 1 db 4 db 1 db Search Oscillator Manual Ext 1 to 11V Linearity 5 5 2 02279 1 0 24a Continuously variable 0 1 cps thru 1 Mc Linearity 5 Signal to Phase Noise Ratio 254 db in a 30 kc band 6 Signal to Am Noise Ratio 214 db in a 30 kc band above 100 kc RMS fraction frequency deviations 8 Spurious signals non harmonically related signals below selected frequency gt 90 db Harmonic signals 30 db below selected frequency Model 5100A SYMBOLS SWITCH DESIGNATIONS FRONT PANEL REAR PANEL KNOB CONTROL A3SIBR 2 1 2 SCREWD
153. ER O 0JUF 80 20 100VDCW AIC8 0160 2055 CIFXD CER Os01UF 80 20 100VDCW 1 9 0130 0017 CIVAR CER 8 50 PF N750 1 10 0160 2055 CIFXD CER OsOLUF 80 20 100YDCW AIC11 THRU AiC15 NOT ASSIGNED A1C16 0150 0050 C3FXD CER 1000PF 600 VDCW A1C17 0160 2055 CER 0 01 80 20 100VOCW A1C 18 0150 0017 CtVAR CER 8 50 N750 A1C19 0160 2055 CER 0 80 20 100VOCW A1C20 0160 2055 CIFXD CER O O1UF 480 205 100VDCW A1C21 0140 0215 MICA 2 300VDCW A1C22 0160 0369 CIFXD MICA 17PF 5 A1C23 0160 2055 CIFXD CER O O1UF 80 20 100VDCW ALC24 0130 0017 CtVAR CER 8 50 N750 A1C25 0130 0018 CtVAR 1 5 7 PF 500 AlCRI1 1910 0022 SEMICON DEVICES3DIODE GE 100MA 6PIV 3 5NS AICR2 1910 0022 SEMICON DEVICEtDIODE GE 100MA 6PIV 3 5NS A1CR3 1910 0022 SEMICON DEVICE IDIODE GE 100MA 6PIV 3 5NS A1CR4 1910 0022 SEMICON DEVICE IDIODE GE 100MA 545NS AICRS 1901 0128 SEMICON DEVICE DIODE SILICON STEPeRECOVERY A1CRE 1910 0022 SEMICON DEVICE 0100 GE 100MA 6PIV 3 5NS AILL 9140 0179 COIL FXD 22 UH 10 275 05100 6186 ASSYe VARIABLE 16 23UH A1L2 9170 0105 CORES ADJUSTABLE TUNING A1L3 9140 0179 COIL FXD 22 UH 10 275 A1LY 9140 0179 COIL FXO 22 UH 10 275 ALS 9140 0095 COILIFXD RF 27UH A1L6 9140 0095 COILIFXD RF 0 27UH ALL 9140 0179 COIL FXD 22 UH 10 275 A1L8 05100 6186 COIL ASSYe VARIABLE 16 23UH 9170 0105 CORESADJUSTABLE TUNING A
154. ESS IN See list of abbreviations in introduction to this section 02279 1 6 37 Section VI Model 5100A Table 6 15 Table 6 15 350 to 390 Mc Switch Module A20 05100 6011 Prefix all parts in this table A20 Decl ation 4 Stock Description Note C1 0150 0093 CtFXD CER 0 01UF 4860 2058 100VDCW C2 0150 0093 CER 80 20 100VDCW c3 0150 0093 CER CeOlUF 80 20 1IDOVDCW C4 0150 0093 C FxD CER GeOlLUF 80 20 100VDCW CS 9160 0093 C FXD CER O O1UF 80 208 LOOVDCW CRI 1910 0050 SEMICON DEVICEIDIODE GERMANIUM CR2 1910 0030 SEMICON DEVICE GERMANIUM CRS 1910 0050 SEMICON DEVICE IDIODE GERMANIUM CRY 1910 0050 SEMICON DEVICE DIODE GERMANIUM CRS 1910 0030 SEMICON DEVICE IDIODE GERMANIUM wl 1250 0212 CONNECTORIJACK CHASSIS BNC 2 1250 0212 i CONNECTOR1JACK CHASSIS BNC J3 1250 0212 CONNECTORt1JACK CHASSIS BNC JU 1250 0212 CONNECTOR1 JACK CHASSIS BNC J5 1250 0212 CONNECTORtJACK CHASSIS BNC J6 1250 0212 CONNECTOR JACK CHASSIS BNC J7 THRU 417 NOT ASSIGNED 418 1251201455 CONNECTORIFEMALE 14 CONTACT JACK L1 9140 0159 COIL1FXO O 47UH 20 L2 9140 0159 COILIFXO Oe47UH 20 L3 9140 0159 COILt FXD 47UH 20 14 9140 0159 COILIFXO O 47UH 20 L5 9140 0159 COIL amp tFXO O0 47UH 20 L6 9140 0159 COILIFXO O u7TUH 20 RI 0683 1025 RIFXD COMP 1000 OHM 5 1 4 R2 0683 1025 RIEXD COMP 1000 OHM 5 l Ww R3 0683 1025 RIFXD COMP 1000 OHM 5 L1 uW 0683 1025 RIFXD COMP 1000 OHM 5 1 4w RS 068
155. FIER ji Ss 7 7 OTUF BNC 1850 0062 METER FROM A DRIVER OUTPUT JH RIO BNC 5600 i 3MC 1 Low 4 3MC R FROM e uer dus SIIQA Rae il e ae R9 6 3V RED jov RED FROM A25 T E 22 7 A4A2 AMPLIFIER BOARD ASSEMBLY 05100 6027 4 24 EMITTER FOLLOWER ASSEMBLY 12 6 LI uni LI 12 6 22 22 t 2 R2 RES R99 T owe C3 1 cs C2 85 Lowe i T DIUF QI 2N963 BNC EMITTER R QI FOLLOWER 499 2N2360 J10 R3 AMPLIFIER BNC 113 gu ear 24 MC 1 e mm m C4 Ra 24 our 6800 FROM SIDA i T owe i2 6v Y 3 412 F fF d 4rT Ju E F 4 i F J OEF 4 4 d F J9EF LE 1 4 4 ases PS 7 6 5 4 2 1 27 6 4 3 2 I 5 gt 777 6 3 2 ps 7T 6 2 6 30 TO 31 MC b 3 TO 4MC 3 TO 4MC 3 TO 4MC 3 TO 4MC i AI2PI Pu AN TO SANE TO AREA TO ASPI TC CC 109 DO 104 EE 103 FF 102 Section V Figure 5 16 NOTES i UNLESS OTHERWISE INDICATED RESISTANCE IN OHMS CAPACITANCE PICOFARADS INDUCTANCE MICROHENRIES REFERENCE DESIGNATIONS M A24 UTPUT WHT AMPLIFIER K NO PREFIX nua GO di db dp mp um w N GRIN ROM A24 SUT PUT AMPLIFIER COPYRIGHT 1965 BY HEWLETT PACKARD COMPANY REFERENCE DESIGNATIONS WITHIN THIS ASSEMBLY ARE
156. FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM FLM F LM F LM Description 2700 OHM 2 1 2W 51 OHM 2 1 2W 18K OHM 2 1 2W 33K OHM 2 1 2W 1 5 OHM 1 1 2W 270 OHM 1 1 8W 249K OHM 1 1 8W 124K OHM 1 1 8W 3 01K OHM 1 1 8W 1 21K OHM 1 1 8W 113 OHM 1 1 84 49 9 OHM 1 1 8W 5 16K OHM 1 1 8W 1000 OHM 1 1 8W 2 74K OHM 1 1 8W 221 OHM 1 1 8W 2000 OHM 1 1 8W 150 OHM 1 1 8W 499 OHM 1 1 2W 9 09 OHM 1 1 8W 13 3K OHM 1 1 8W 6 19K OHM 1 1 8W 17 8 OHM 1 1 8W 11 5 OHM 1 1 8W 200 OHM 2 1 2W 300 OHM 2 1 2W 22K OHM 2 1 2W 42 2 OHM 1 1 8W 1 00MEGOHM 1 1 4W 34 0 OHM 1 1 8W 1 62 OHM 1 1 8W 75 OHM 1 1 8W 390 OHM 2 1 8W 560 OHM 5 1 2W 1000 OHM 5 1 2W 2900 OHM 5 1 2W 10K OHM 5 1 2W 150 OHM 5 1 2W 6800 OHM 59 1 2W 3300 OHM 5 1 2W 12K OHM 5 1 2W 220 OHM 5 1 2W 1500 OHM 5 1 2W 15 OHM 5 1 2W 100 OHM 5 1 2W 270 OHM 5 1 2W 680 OHB 5 1 2W 2000 OHM 5 1 2W 3000 OHM 5 1 2W 5600 OHM 5 1 2W 1800 OHM 5 1 2W OX 2200 OHM 5 1 2W FLM FLM FLM FLM 5900 OHM 5 1 2W LOOK OHM 5 1 2W 250 OHM 5 1 2W 2600 5 1 2W 07115 07115 107115 07115 75062 19701 19701 19701 19701 28480 19701 28480 19701 19701 19701 19701 19701 19701 19701 19701 19701 19701 28480 8480 07115 28480 07115 28480 28480 28480
157. FXD Oel UH A101 1850 0119 TRANSISTOR PNP GERMANIUM EIA 2N963 AIR 0683 6805 COMP 68 OHM 5 1 4 A1R2 0758 0017 RIFXD MET FLM 1500 OHM 5 1 2W AIRS 0758 0017 RIFXO MET FLM 1500 OHM 5 1 2W ALRY 0757 0092 RIFXD MET FLM 33K OHM 2 1 24 AIRS 0757 0091 RIFXD FLM 18K OHM 2 1 2W A1R6 0686 2905 RIFXD COMP 39 OHM 5 1 24 A1R7 0757 0298 R FXD FLM 22K OHM 2 1 2 W A1R8 2100 0741 Ww 5K OHM 5 AIRS 0757 0298 R FXD MET FLM 22K OHM 2 1 2 W AIRIO 0686 3905 R3FXD COMP 39 OHM 5 1 2W 0757 0298 RIFXD MET FLM 22K OHM 2 1 2 W 0758 0055 MET FLM 3000 OHM 5 1 2W 05100 6041 BOARD 55 UHFe 2ND MIXER 05100 2015 BLANK BOARD 05100 0020 SHIELO 0121 0059 C VAR CER DISK 2PF TO PF 300 NPO 0160 0574 CIFXD CER 1 O 1PF 500VDCW 0160 0373 CIFXD CER 196 0 1PF 600VDCW 0121 0059 CIVAR DISK 2PF TO 8 PF 300 VDCW NPO 0140 0069 MICA 550 10 500 0121 0059 CIVAR CER DISK 2PF TO 8 PF 300 NPO 0140 0069 CtFXD MICA 550 10 500 VDCW 0140 0069 CIFXD MICA 550 FF 10 500 0121 0059 CIVAR CER DISK 2 TO 8 300 VDCW NPO 0140 0069 CIFXD MICA 550 FF 10 500 VOCW 0122 0009 CIVOLTAGE VARIABLE PAIR 0122 0009 CiVOLTAGE VARIABLE PAIR 02279 1 x See list of abbreviations in introduction to this section section VI Table 6 17 Table 6 17 Reference A2Q2 A2RI A2R2 A2R3 A2RU A2T1 A2T2 A2TS 2 C1 C2 3
158. ILS NeSeRe PART Al 101 1850 0118 TRANSISTOR PNP GERMANIUM EIA 2N2360 1205 0031 HEAT SINK TRANSISTOR A1Q2 1850 0121 TRANSISTOR GERMANIUM PNP 252802 A1Q3 1850 0020 TRANSISTOR GERMANIUM 2N1143 PNP A104 1850 0062 TRANSISTORIGERMANIUM SPL 2N404 A1Q5 1850 0062 TRANSISTORIGERMANIUM SPL 2N4 04 A1Q6 1854 0005 TRANSISTORIZN7O8 NPN SILICON See list of abbreviations in introduction to this section 02279 1 Model 5100A Section VI 0727 0036 RIFXD DEPC 71416 OHM 1 1 2W AIR2 0683 1525 RIFXD COMP 150 OHM 5 1 44 AIRS 0683 1525 RIFXD CUMP 150 OHM 5 1 44 AIRY 0683 7515 RIFXD CUMP 750 OHM 5 1 4W AIRS 0683 7515 RIFXD COMP 750 OHM 5 1 4 AJR 0683 1325 RIFXD COMP 1300 OHM 5 1 4 ART 0683 6215 COMP 620 OHM 5 1 4w AIRS 0683 5115 RIFXD COMP 510 OHM 5 1 4w THRU A RLO NOT ASSIGNED AIRLI 0683 1815 RIFXD COMP 180 OHM 5 1 4 A1R12 0685 5105 RIFXD COMP 5i OHM 5 1 8 A1R13 0757 0076 RIFXD MET FLM 560 OHM 2X 1 2W AIR14 0683 2225 RIFXD COMP 2 2 OHM 5 1 AIRIS 2100 0941 RIVAR WW 1000 OHM 5 A1R16 0758 0005 RIFXD MET FLM 1000 OHM 5 1 2W A1R17 Q758 0003 RIFXD MET FLM 1000 OHM 5 1 2W AJR18 0683 2235 RIFXD COMP 22K OHM 5 1 4W AIR19 0683 1035 RIFXD COMP 10K OHM 5 1 4 W 1R20 0685 2225 RIFXD COMP 2 2 OHM 5 1 4 AIR21 0683 3325 RIFXD COMP 3300 OHM 5 1 4w ALTI 05100 6163 TRANSFORMER INPUT DOUBLER C1 0160 0345 CIFXD CER 1000PF 80 20 500VDCW FEED THRU 2 0160 0345 CER 1000PF 80 20 500VDCW FEED THRU 0160 0
159. IN OUTPUT OF SECOND MIXER HARMONIC OF 36MC APPEARS IN OUTPUT OF SECOND MIXER 274 HARMONIC 3IMC ADOS TO 360 11MC TO GIVE 4221180 6 HARMONIC OF 399 5 MIXES WITH 7 HARMONIC OF 350MC Model 5100A 21 BAD OUTPUT FILTER A22 LOW BIAS BAD 30 39 SWITCH A22 LOW BIAS BAD 30 39 SWITCH 22 OUTPUT TUNING BAD OUTPUT FILTER A23 DIODE UNBALANCE SPURIOUS 53 00 LOCAL OSCILLATOR SET TO 26 5MC AND DOUBLER USED TO OBTAIN 53MC 350 450 5 10 02279 1 0400997 Model 5100A Section V Table 5 3 cont d Table 5 3 Troubleshooting cont d 3 TEST NO 9 IW HARMONIC OF 3TMC 3 DIODE UNBALANCE TEST FREQ 22 00 MIKES WITH 370MC TO SPURIOUS 37 00 GIVE 31 25 COUPLING DECOUPLING CAPACITORS TEST 10 2 4006 OUTPUT MIXES WITH 330MC DUE TO TEST FREQ 31 40 COUPLING OF POWER SUPPLY LEADS SPURIOUS 32 40 T 4 1 EY A25 COUPLING DECOUPLING CAPACITORS TEST NO 11 35140 OUTPUT MIXES WITH 360 1MC DUE TO TEST FREQ 35 70 COUPLING OF POWER SUPPLY LEADS SPURIOUS 36 40 35 35 1 A INPUT TUNING TEST NO 12 SPURIOUS SIGNAL IMC BELOW 390MC TEST FREQ 8 90 SPURIOUS 9 90 390 330 38 389 ae nema mee seed RIZ A21 A22 A23 22 BALANCE ADJUST TEST NO 13 360 1MC MIXES WITH 380MC TEST FREQ 11 11 SPURIOUS 19 89 02279 1 9 11 8 t c Section V Model 5100
160. IN 99 999 99 CPS FROM FL8 2 N0 33MC FROM 5110 OUTPUT FROM DEFECTIVE NO OUTPUT FL FROM 9 45 55MV LDEFECTIVE 19 NO OUTPUT DEFECTIVE A20 FROM A20 OUTPUT FROM 1 DEFECTIVE A23 A20 350MV IDB Fivure 5 4 Troubleshooting Chart 5 12 02279 1 05100 8 35 Model 5100A Section V Tables 5 3 and 5 4 Table 5 3 Troubleshooting cont d Check Mixer Filter A12 and Mixer Dividers A5 A11 as follows remove Mixer Filter A12 and check ac signal level on Connector Block A4 socket PIN 12 SIGNALS AC VOLTAGES 1 3 4 Mc from A3J1 50 mv 2 3 0 3 1 Mc from 11 35 60 mv JO nc 4 Dc Voltage do not short to ground 5 30 31 Mc to A21 6 24 Mc from A4A2 lvrms Toward front Panel 7 Dc Voltage do not short to ground Socket for A5 A11 is same except pin 3 is 3 0 3 1 Mc output to next assembly and pin 5 is blank a No 3 4 Mc signal at pin 1 defective cable from A4 to A3 b No 3 0 3 1 Mc signal at pin 2 remove Mixer Divider A8 and check ac signal level on socket for A8 Acceptable signal level same as before except 24 Mc level canbe 5to1V If signal levels are normal then defective assembly is 8 A9 A10 or All if 3 0 3 1 Mc signal is absent then defective assem bly is 5 or If no 24 Mc at pin 6 see c or d To split the possible defective assemblies in half check signal levels again on socket of either A6 or A10 If signal levels are normal on socket of
161. IODE DEVICE 0100 DEVICE 0100 DEVICE 1DIODE DEVICE sDIODE DEVICE IDIODE DEVICE sDIODE DEVICE tDIODE DEVICEsDIODE DEVICE 1DIODE DEVICE TRANSISTOR 1GERMAN UM RIFXD COMP 10K GERMANIUM GERMANIUM GERMANIUM JUNCTION GERMANIUM GERMANIUM GERMANIUM JUNCTION GERMANIUM GERMANIUM JUNCTION GERMANIUM GERMANIUM JUNCTION GERMANIUM GERMANIUM JUNCTION GERMANIUM GERMANIUM JUNCTION GERMANIUM GERMANIUM JUNCTION GERMANIUM GERMANIUM JUNCTION 2N2048 PNP OHM 5 1 4 Ww RIFXD COMP 3600 OHM 5 1 uWw ii See list of abbreviations in introduction to this section Section VI Table 6 4 Note 6 9 section VI Model 5100A Table 6 4 Table 6 4 3 to 4 Mc Switch Module 05100 6006 Cont d Prefix all parts in this table A3 Ref Designation 4 Stock No Description Note A1R3 0683 1825 RIFXD COMP 1800 OHM 5 1 Qw A IRH 0683 1825 R3FXD COMP 1800 OHM 5 1 4w AIRS 0683 1035 RIFXD COMP 10K OHM 5 1 8 w AIRG 0683 3625 RIFXD COMP 3600 OHM 5 1 4w A1RT7 0685 1825 RIFXD COMP 1800 OHM 5 1 4w AIRS 0683 1825 RIFXD COMP 1800 OHM 5 1 4w AIRO 0683 3315 RIFXD COMP 330 OHM 5 1 4w A1R10 0683 2225 RIFXD COMP 2 2K OHM 5 1 4w AIRII 0683 2225 RIFXD COMP 2 2 OHM 5 1 4w AIR12 0683 1035 RIFXD COMP 10K OMM 5 1 4 W A1R13 0683 1525 RIFXD COMP 150 OHM 5 1 4w A1R14 0683 1825 RIFXD COMP 1800 OHM 5 1 4w A1R15 0683 1055 RIFXD COMP 10K OHM 5 1 4 W 1816 0683 1525 RIFXD COMP 150 OHM 5 1 4W
162. LIER 02279 1 i See list of abbreviations in introduction to this section Section VI Table 6 11 1 AlCl A1C2 A1C3 A1CU 1 5 ALCE 1 7 1 ALCS 1 10 1 11 A1C 15 A1C16 A1C17 1 18 1 19 1 20 1 21 A1C22 A1C23 A1C24 A1C25 A1CR1 A1CR2 1 5 1 A1CRS 1 6 A1L1 A1L2 AIL3 14 8145 16 A1L7 ILB THRU Table 6 11 05100 6037 05100 2020 0160 2055 0160 2055 0160 2055 0160 2055 0160 0358 0150 0082 0160 2055 0160 2055 0130 0017 0160 2055 0150 0050 0160 2055 0130 0017 0160 2055 0160 2055 0140 0215 0160 0370 0160 2055 0130 0017 0150 0018 1910 0022 1910 0022 1910 0022 1910 0022 1901 0127 1910 0022 9140 0179 05100 6186 9170 0105 9140 0179 9140 0179 9140 0095 9140 0095 9140 0179 05100 6186 9170 0105 1850 0118 1205 0051 1850 0121 1850 0020 1850 0062 1850 0062 1854 0005 36 to 360 Mc Multiplier Module A16 05100 6019 Prefix aH parts in this table A16 6 Stock No Description Note BOARD 55 36 360 MC MULTIPLIER BOARD MULTIPLIER CIFXD CER C1FXD CER C FXD CER CIFXO CER CIFXD CER Os01UF Oe01UF O 01UF 80 20 100VDCW 80 20 LOOVOCW 80 20 LOOVDCW 80 20 100VDCW 9uPF 5 500VDCW CIFXD TI 4 7 5 500 VDCW CIFXD CER O OLUF 80 20 100VDCW CIFXD CER Os0luF 480 205 100VDCW C1VAR CER 8 50 FF N750 CIFXD CER NOT ASSIG O O1UF NED
163. LY MODULE 50 TO 29 MC SWITCH MODULE 350 TO 590 MC SWITCH MODULE 15 UHF MIXER MODULE 2ND UHF MIXER MODULE ZRD UHF MIXER MODULE OUTPUT AMPLIFIER MODULE 59 TO 390 MC MULTIPLIER MODULE 58 TO 580 MC MULTIPLIER MODULE 57 TO 570 MC MULTIPLIER MODULE 26 TO 560 MC MULTIPLIER MODULE 55 TO 350 MC MULTIPLIER MODULE 55 TO 550 MC MULTIPLIER MODULE ASSY DECADE MIXER BD BOARD ASSY DECADE DIVIDER BOARD ASSEMBLY EMITTER FOLLOWER BOARD ASSEMBLY METER AMPLIFIER BOARD ASSEMBL Y 24MC AMPLIFIER Replaceable Parts Cont d 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 05100 2031 03100 2032 05100 2035 05100 2034 05100 2035 05100 2056 05100 2057 05100 2038 05100 2059 05100 2040 05100 2041 05100 2043 05100 2044 05100 2045 05100 20456 05100 2047 05100 2048 05100 2049 05100 2055 05100 2055 05100 2056 05100 2057 05100 2061 05100 2063 05100 2065 05100 4010 05100 6001 05100 6002 05100 6005 05100 6004 05100 6005 05100 6006 05100 6007 05100 6010 05100 6011 05100 6012 05100 6013 02100 6014 05100 6015 05100 6016 05100 6017 05100 6018 05100 6019 05100 6020 05100 6021
164. M 2800 UF 40 VOCW 100 10 C3 0160 0127 CER 1UF 20 25VDCW cu 0160 0127 CIFXD CER 1LF 20 25VDCW Pi 1251 0216 CONNECTORIMALE 9 TYPE D P2 1251 0216 9 CONTACT D Gl 1854 0020 TRANSISTORINPN SILICON 1200 0092 BUSHING TRANSISTOR 1200 0087 CLAMP TRANSISTOR 1200 0076 INSULATORS TRANISTOR Q2 1651 0017 TRANSISTOR 2NL304 1205 0026 HEAT 551 8 1205 0025 NUT 1HEAT DISSIPATOR 1850 0062 TRANSISTORIGERMANIUM SPL 2N404 1205 0026 HEAT DISSIFATORIBODY 1205 0025 NUTtHEAT DISSIPATOR See list of abbreviations in introduction to this section 6 48 022 19 1 Model 5100A Section VI Table 6 20 Table 6 20 Power Supply Module 25 05100 6007 Cont d Prefix all parts in this table A25 ue Sock No Description 1850 0098 TRANSISTOR GEKMANIUM PNP SELECTED 1200 0081 BUSHING INSULATOR NYLON 1200 0043 INSULATORS TRANSISTOR ANODIZED ALUMINUM GS 1854 0020 TRANSISTORINPN SILICON 1200 0087 CLAMP t TRANSISTOR 1200 0076 INSULATOR TRANS ISTOR Q6 1850 0098 TRANSISTOR GERMANIUM PNP SELECTED 1200 0081 BUSHINGi INSULATOR NYLON 1200 0043 INSULATOR TRANSISTOR ANODIZED ALUMINUM R1 0812 0017 x RIFXD Ww 0 25 OHM 5 3W R2 0812 0017 RIFXD WW 0 25 OHM 5 3 TI 9100 0175 TRANSFORMER tPOWER MISCELLANEOUS 05100 0042 BRACKET FRONT 05100 0044 BRACKET SHIELD 05100 00u5 BRACKET TRANSFORMER 05100 0047 BRACKET FRONT GUIDE 05100 0046 B
165. M 620 OHM RIFXD MET FLM 4300 RIFXD MET FLM 24K OHM RIFXD MET 68 OHM 5 RIFXD MET 56 OHM 5 RIFXD 62 OHM 5 WW 0 25 OHM 5 RESISTOR TEMPERATURE SENSITIVE 14K OHM GASKETSSILICONE RUBBER 1 7 1610 1 5 800 MICROAMME TER 100 INSULATOR TRANSISTOR ANODIZED ALUMINUM INSULATORI TRANSISTOR BUSHINGSINSULATOR NYL CLAMP TRANSISTOR BUSHING TRANSISTOR HEAT DISSIPATORISEMIC NUT HEAT DISSIPATOR HEAT DISSIPATORI BODY HEAT SINKS TRANSISTOR CONNECTORIBNC JACK CONNECTOR CONNECTOR tBNC CONNECTOR CONNECTORIRF COAXIAL BNC RT ANGLE RECEPT CONNECTORSUACK CHASSI CONNECTOR BNC JACK CONNECTORIFEMALE 14 CONTACT JACK CONNECTORIPRINTED CIRCUIT 15 CONNECTORIMALE 9 CONNECTOR 12 TERMINAL CONNECTORISUBMINAT TYPE D 9 CONTACT FEMALE CONNECTORIMALE SINGLE CLIPIELECTRICAL PH BRZ NP 13 32 5 8 1 2 FUSEHOLDER EXTRACTOR CLIP MOUNTING CLIP MOUNTING SPRING RETAINING LAMPINEON SPRINGIHELICAL 0 25 0 50 0 0220 WIRE STANDITILT TRANSISTORIGERMANI UM TRANSISTORIGERMANI UM TRANSISTOR GERMANIUM TRANSISTORIGERMANIUM TRANSISTOR GERMANIUM TRANSISTOR GERMANIUM TRANSISTORIGERMANI UM TRANSISTOR GERMANIUM TRANSISTOR GERMANIUM CONNECTOR BNC 5 1 2W 5 1 2W 5 1 eW 1 2W 1 29 1 29 5 OAMPERES ON ONDUC TOR 5 BNC ACT TYPE 0 BANANA POST TYPE N1143 PNF SPL 2N404 2N1183 PNP 2 779 PNP 2N2048 PNP PNP
166. MPLETE DESIGNATION Figure 5 13 Pushbutton Switch 1 Sheet 2 Section V Model 5100A Figure 5 14 A2 5 32 02279 1 05100 A 23 Model 5100 Y m TAI sb T Pa A2A1 T gt M 05100 6029 A2A2 02279 1 05100 25 SEARCH OSCILLATOR MODULE rc CE px dcc eM Cc cd I m cL E Ecc dace cd ccnl 2 Al OSCILLATOR BOARD ASSEMBLY 05100 6028 SEARCH enn CEPR NR R12 12 K 57V p S2 REMOTE uri C3 BLK OLUF ill E 70L mz D rad if n Ny lt 95 il a sum 11 22 6 3V AED R2 RI CE c2 1800 390 pim mf SF a H REFERENCE DESIGNATIONS COPYRIGHT 1965 8Y HEWLETT R12 12 Sectio Figure 5 59 M o M a Ln x ee r PP M D A 11 A2 FILTER BOARD ASSEMBLY t05100 6029 MIL N L2 cs 22 Luo iud ca T el ES T our 1 c9 OLF i l LEVEL LI L4 OY 0 68 e L2 I ria AA A3J9 R4 BNC
167. N cun mmm cnp LLLELLLTLLLTIELT En cH E nu 1 BREREBBREEBSERARRARARRARHRRESAS enone SERE mu EH susensunne 2444444442434 42222222 CELE CELTI mama us ae ERES na 1 Enel H Hi 8 H RESPONSE DB r HHAH FILI i Se Be PR eee eee SH 4 LETEI CENE Eu CH nanna ERETTE 1 IRE e DI THE ma HH 44 4 PAE Bac HH HET AEAEE AA EAA AHHH E HE HS C RR FREQUENCY AT 8750 MC Figure 1 10 Narrow Width Indicates High Quality of Original 5110A Signal 1 19 The specified values for RMS fractional fre quency deviation at various averaging times and at various output frequencies represent the standard de viation of the short term frequency instability due to random noise For example the value given for one second averaging at an output
168. NK BLANK BLANK BLANK BLANK BLANK BOARD MULTIPLIER BOARD BOARD BOARD BOARD BOARD BLANK BOARD MULTIPLIER BLANK BOARD MULTIPLIER HOUSING 30 39 MC SWITCH COVER SWITCH COVER SWITCH PIVOT PLATE RIGHT END AMPLIFIER PLATE END PLATE END BLOCK DECADE CONNECTOR HOUSING13 4 SWITCH BOTTOM 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28880 28480 28480 28480 284BO 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 OS100 2012 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 Mfr Part No 05100 0041 05100 0042 05100 0045 05100 9044 05100 0045 05100 0046 05100 0047 05100 0048 05100 0058 05100 0059 05100 0060 05100 0067 05100 0068 05100 0070 05100 0073 i05100 0080 05100 0081 05100 0082 05100 0083 05100 0084 05100 2001 05100 2002 05100 2005 05100 2004 05100 2005 05100 2006 05100 2007 05100 2008 05100 2009 05100 2010 05100 2011 05100 2015 05100 2014 05100 2015 02100 2016 05100 2017 05100 2018 05100 2019 05100 2020 05100 2021 05100 2022 05100 2023 05100 2024 05100 2025 05160 2026 05100 2027 05100 2028 05100 2029 05100 2050 See list of abbreviations in introduction to this section Model 5100A
169. Note the dc path from the junction of AICRi CR2 through A1R11 to 105 path continues through A1Q5 to ground if the 0 pushbutton in the most significant column is pushed applying 12 6 volts to its base turning it on If the 0 pushbutton is not pushed there is no output from this module Assuming the pushbutton is pushed a 18 signal appears at the junction of AICR3 CR4 The signal sees atuned transformer of about 500 ohms and is coupled through A1C20 to grounded base ampli fier A1Q3 1 21 cancels out reactance of 193 The signal on the collector of A1Q3 sees what looks like a transformer 1 22 and A1R16 A1L8 tunes out re actance of 1 22 A1R14 suppresses oscillations of 1 5 A1R15 controls the gain of 193 A1C24 25 are tuned for maximum 390 Mc output A1R17 GM and CR6 are adegenerative feedback loop which stab ilizes the output A1CR5 is step recovery diode used as a harmonic generator The fifth harmonic from A1CRS is the desired output from the multiplier 4 41 MULTIPLIERS 14 17 Schematic Diagrams Figures 5 20thru 5 23 4 42 The operationof these multipliers is similar to that of A13 except that these multipliers have no power supplied to them unless the 1 2 3 or 4 button in the most significant column column of pushbuttons farthest left is pushed For example pushing the 1 button applies 12 6 volts tothe base of A14A1Q5 turn ing it on When A14A1Q5 turns on its collector
170. O 360 MC MULTIPLIER MODULE 55 TO 550 MC MULTIPLIER MODULE 52 TO 550 MC MULTIPLIER MODULE 50 TO 59 MC SWITCH MODULE 250 TO 590 MC SWITCH MODULE 15 UHF MIXER MODULE 2 UHF MIXER MODULE 3RD UHF MIXER MODULE OUTPUT AMPLIFIER MODULE POWER SUPPLY MODULE FUSE CARTRIDGE 1 2 250 v FUSE CARTRIDGE 1 8 AMP 250 V FILTER 55 590 MC FILTER BANDPASS 380 MC FILTER BANDPASS 370 MC FILTER BANDPASS 260 MC FILTER BANDPASS 350 MC FILTER BAMDPASS 330 MC FILTER BANDPASS 360 FILTER BANDPASS 395 CONNECTOR BNC SEARCH OSC PART OF W16 CONNECTOR FRONT PANEL PART OF W17 OUTPUT CABLE PART OF W14 HI LEVEL OUT CABLE PART OF W15 LO LEVEL OUT CABLE PART OF W19 REMOTE CABLE ASSY PART W3 PART W2 3 MC INPUT CABLE FILTER ELECTRICAL POWER LINE CONNECTOR SUBMINIATURE TYPE D CONTACT CONNECTOR SUBMINIATURE TYPE D 9 CONTACT MICROAMMETER 100 MICRO AMPERES R FXD COMP 33K OHM 10 1 2W SWITCH TOGGLE DPDT 3 AMP 125 it See list of abbreviations in introduction to this section 02279 1 Model 5100A Reference Designation 52 55 su 55 wl We 5 w4 Wi A wi B wap wi F W 5 wa wa J wu K wat 5 WSA w5u W5C wsD w5E WSF 5G w5H W5 5 WG WEA w6c WGD WOE w6F w6G W6H wel W7 A 7 7C w7D W7E 022 19 1 Stock No 3101 0038 5100 0500 0570 0112 3101 0038 3101 0033
171. OARI RED j RED UOI VOLTAGE YEL YEL FROM a orca T ooo LI 4 6 3Y o 22 52 VIO t 1000 R4 R7 RIO Ci7 750 620 DIUF E R5 E Tower as NM an 1 2N404 180 ca Tour SWITCH re 3 JN umm das c ee i 8 50 IN qm i CR4 Rees C18 39MC WM FROM I C6 w7F Ji GRN Oe 7 47 TC oe IDOO BNC NS N w Bd 500 UM V y i FREQUENCY 3 DOUBLER 2 CIO RB 1500 510 i FILTER AMPLIFIER RED RED 6 L 1000 I 22 EE t ower EI LI LOTO MEM ERE EET REFERENCE DESIGNATIONS NOTES I UNLESS OTHERWISE INDICATED RESISTANCE IN OHMS CAPACITANCE IN PICOFARADS INDUCTANCE IN MICROMENR ES LIER MODULE 05100 6016 SERIES 427 R BOARD ASSEMBLY SOS BOARD ASSEMBLY 05100 6035 t4 22 22 CI7 CRE Ae p Fh E s 22 BNC ETCHEO ON BOARD Ful 330 MC HARMONIC N AMPLIFIER GENERATOR RIS 560 ISOME TO 20295 REFERENCE DESIGNATIONS WITHIN THIS ASSEMBLY GRE ABSREVIATED ADD ASSEMBLY CESIGNATICN AS PREFIX TO FORM COMPLETE DESIGNATION ESIGNATIONS COPYRIGHT 1965 BY EWLETT PACKARO COMPANY Figure 5 19 39 to 390 Mc Multiplier A13
172. ON A CR3 1910 0016 SEMICON DEVICE DIODE GERMANIUM AICR4 1901 0025 SEMICON DEVICE CIODE JUNCTION A1CRS 1910 0016 SEMICON DEVICE DIODE GERMANIUM 0683 2425 RIFXD COMP 2400 OHM 5 1 A 1R2 0683 1225 RIFXD CUMP 1200 OHM 5 1 W A1R3 0683 2425 RIFXD COMP 2400 OHM 5 1 4w AiR 0682 2425 RIFXD COMP 2400 OHM 5 1 4w A2 05100 6044 SAME AS AL ER FIX 2 05100 60235 SAME AS Al FREFIX amp 05100 6055 SAME AS Al PREFIX A4 AS 05100 6055 SAME AS Al PREFIX 5 AG 25100 60232 SAME AS PREFIX AG A 05100 6033 SAME AS Al PREFIX AB 05100 6044 SAME AS Al PREFIX AG 05100 60535 SAME AS Al PREFIX 49 ALO 05100 60353 SAME AS Al FREFIX Alo 1 05100 6054 OUTPUT BOARD ASSEMBLY 11 1 0160 2055 CIFXD CER 0 01UF 80 20 100VDCW A11C2 0160 2055 CIFXD CER OoOLUF 80 20 100VDCW A11C3 0160 2055 CIFXD CER O OIUF 80 20 100VDCW A11C4 0160 2055 CIFXD CER 0 01UF 80 gt 20 100VDCW ALLL 9140 0159 COILIFXO 0 47UH 20 1112 9140 0181 COILIFXD RF 22UH 5 1101 1850 0075 TRANSISTOR GERMANIUM 2 779 PNP 1181 0685 2425 R3FXD COMP 2400 OHM 5 i W A11R2 0683 3315 i RIFXD COMP 330 OHM 5 1 uw A11R3 06835 8215 RIFXD COMP 820 OHM 5 1 UW Al1R4 0757 0516 RIFXD MET FLM 42 2 OHM 1 1 8W 41 1250 0212 CONNECTOR JACK CHASSIS BNC J2 1250 0212 CONNECTORIJACK CHASSIS BNC J3 1250 0212 CONNECTORSYACK CHASSIS BNC J4 1250 0212 CONNECTORSJACK CHASSIS BNC J5 1250 0212 CONNECTOR JACK CHASSIS BNC J6 1250 0212 CONNECTOR 1 JACK CHASSIS BN
173. ON 3OV 900MW A2Q7 05100 6188 TRANSISTOR 55 623V A2Q8 05100 6187 TRANSISTOR ASSY 12 6 A2R1 0683 2735 RIFXD COMP 27K OHM 5 1 4W A2R2 0683 4715 RIFXD COMP 470 CHM 5 1 4W A2R3 0683 4715 COMP 470 OHM 5 1 4W A2RU 0685 2755 RIFXD COMP 27K OHM 5 1 uW A2R5 0757 0288 RIFXD MET FLM 9 09 OHM 1 1 84 A2R6 0757 0288 RIFXD MET FLM 9 09K OHM 1 1 8w A2R7 0758 0003 RIFXD FLM 1000 OHM 5 1 28 A2RB 0758 0003 RIFXD MET FLM 1000 OHM 5 1 2W A2R9 0757 0086 MET FLM 51 OHM 2 1 26 A2R10 0757 0086 RIFXO MET FLM 51 OHM 2 1 2W A2R11 0698 5122 RIFXD MET FLM 412 OHM 1 1 8W A2R12 2100 0325 RIVAR WW 100 OHM 10 LIN 1 4 A2R13 0757 0287 RIFXD MET FLM 499 OHM 1 1 28 2 148 2100 0325 RIVAR WW 100 OHM 10 LIN 1 4 A2R15 0698 5122 RIFXD FLM 412 OHM 1 1 8W A2R16 0758 0066 R3FXD MET FLM 620 OHM 5 1 2W A2R17 0758 0066 RIFXD MET FLM 620 OHM 5 1 2w A2R18 0758 0004 RIFXD FLM 2700 OHM 5 1 2W A2R19 0758 0066 i RIFXD MET FLM 620 OHM 5 1 2 A2R20 0758 0066 RIFXD MET FLM 620 OHM 5 1 28 A2R21 0758 0004 RIFXO MET FLM 2700 OHM 5 1 2W A2R22 0758 0033 RIFXD MET FLM 2000 OHM 5 1 2W A2R23 0758 0003 RIFXD MET FLM 1000 OHM 5 1 2W A2R24 0683 3025 RIFXD COMP 3000 OHM 5 1 W A3 05100 6059 CAP amp COIL ASSY A3C1 0180 0104 CtFXD ELECT 200UF 15VOCW 05100 6059 COIL ASSY INCLUDES Ci AND LI C1 0180 0128 CIFXD ELECT 3000UF 10 30 3UVDCW C2 0180 0204 ALU
174. PTIVE SST 4 40 RtFxD RsFxD RIFXD RIFXD RIFXD RIFXD RIFXO RtFXO RIFXD RIFXD RIFXD RIFXD RIFXD RIFXD RIFXD RIFXD RIFXD RIFXD RIFXD RIFXD RIFXD RIFXD RIFXD RIFXD RIFXD RIFXD RIFXD RIFXD RtFXD RIFXD RIFXD RIFXD REFXO RIFXD RIFXD RIFXO RIFXD RtF XO R F XD RIFXD RIFXD RIFXD RIFXD RIFXD RIFXD RIFXD RIFXD RIFXD COMP COMP COMP COMP COMP COMP COMP COMP COMP COMP COMP COMP COMP COMP COMP COMP COMP COMP COMP COMP COMP COMP COMP lo OHM 5 174 100 OHM 5 174W 1000 OHM 5 1 48 10K OHM 5 174 W 1200 OHM 5 1 4W 12K OHM 55 1 4W 1300 OHM 5 1 4W 150 OHM 5 1 44 150 OHM 5 1 UW 180 OHM 5X 1 4W 1800 OHM 5 1 4W 2000 OHM 5 1 4W 220 OHM 5 1 4W 2 2K OHM 5 1 48 22K OHM 5 1 4W 2400 OHM 5 1 48 270 OHM 5 1 4W 27K OHM 5 1 4W 300 OHM 5 1 4W 3000 OHM 5 1 4W 330 OHM 5 1 4W 3300 OHM 5 1 4W 3600 OHM 5 1 46 39 OHM 5 1 4UW 3900 OHM 5 1 4W 470 OHM 5 1 4W 700 OHM 5 1 4W 51 OHM 5 1 4 510 OHM 5 1 4W 560 OHM 5 1 4W 620 OHM 5 uW 68 OHM 5 1 4W 6800 OHM 5 1 48 750 OHM 5 1 4W 820 OHM 5 1 4W 39 OHM 5 1 2W 33K OHM 10 124 MET FLM 412 OHM 1 1 8W DEPC 100K OHM 1 1 8W DEPC DEPC DEPC DEPC DEPC 20 OHM 1 1 2W 71 16 OHM 1 17 2 1470 OHM 1 1 28 1800 OHM 1 1
175. RACKET BRACKET COVER COVER COVER CONNECTOR BLOCK BRACKET DECADE COVER COVER MULTIPLIER 33 330 MC FRAME FRAME FRAME AMPLIFIER BRACKET END COVER DECADE 1 SHIELD FRAME COVER AMPLIFIER BAR LOCKING BRACKET CABLE BRACKET SEARCH 05 COVER SEARCH OSCe Replaceable Parts Cont d 28480 28480 28480 28480 28480 28480 28480 28480 95265 95265 99800 28480 28450 28480 99800 28480 28480 28480 99800 99800 99800 99800 99ROO 99A00 78526 99800 95265 95560 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28480 28460 28480 28480 28480 28480 28480 28480 28480 2 BUBU 9110 0056 9110 0057 9110 0058 9110 0059 9110 0060 9110 0086 9140 0018 9140 0024 NB 0 18 P 53 1537 C8 9140 0095 9140 0096 3140 0114 2150 32 9140 0120 9140 0137 9140 0141 1025 SERIES 1537 TYPE 1537 1557 28 1537 44 1557 22 12201 1840 07 NCF 1M Al 464 NO WAX 28480 9170 0106 WAX 05100 0001 05100 0002 05100 0003 05100 0004 05100 0005 05100 0007 05100 0010 05100 0011 05100 0012 02100 0013 05100 0014 03100 0015 05100 0018 05100 0019 05100 0020 05100 0021 05100 0022 05100 0023 05100 0025 02100 0026 05100 0027 See list of abbreviations in introduction to this section section VI Table 6 21 NU ON e Qoo A U Qui MO ______ __ f De Om De pr ja
176. RACKET REAR GUIDE 05100 6060 CABLE ASSY POWER SUPPLY 05100 0041 COVER POWER SUPPLY 05100 0043 DECK POWER SUPPLY 05100 0048 COVER BOARD 0340 0008 INSULATOR STANDOFF 05100 2046 1 0360 0351 TERMINAL 3106 3 TERMINAL See list of abbreviations in introduction to this section 02279 1 6 49 Section VI Model 5100 Figure 6 1 05100 0009 05100 0049 05100 0063 0060 0737 05100 6062 05100 6061 5060 0767 1490 0030 5060 0763 05100 0064 5000 0054 5060 0778 Front Panel Rear Panel Side Cover Frame Assembly Top Cover Bottom Cover Foot Assembly Tilt Stand 0 c c wa N Handle Assembiy O Handle Retainer Fluted Aluminum Plate Rack Mount Adapter Kit E E m 2 Figure 6 1 Modular Cabinet Parts 6 50 02279 1 Model 5100A 0121 0059 0121 0061 0122 0006 0122 0009 0130 0017 0130 0018 0140 0054 0140 0069 0180 0145 0140 0151 0180 0152 0146 0159 0140 0177 0140 0178 0140 0190 0140 0192 0140 0202 0140 0204 0140 0209 0140 0214 0140 0215 0140 0220 0140 0222 0140 0225 0140 0226 0140 0230 0140 0235 0150 0042 0150 0050 0150 0055 0150 0058 0150 0059 0150 0070 0150 0095 0150 0111 0150 0121 0150 0127 0160 0141 0160 0174 0160 0178 0160 0192 0160 192 0160 326 0160 0327 0160 0328 0160 0329 0160 0550 0160 0522 0160 0355 0160 0334 0160 0335
177. RIVER AOJUST MAIN SIGNAL PATH FEEDBACK PATH SWITCH St WITHIN ASSEMBLY CONDUCTING ELEMENT WIPER MOVES TOWARD CW WHEN CONTROL IS ROTATED CLOCKWISE 2ND WAFER FROM FRONT POWER LINE GROUND A 1ST ETC CIRCUIT COMMON GROUND TEST POINT REAR OF WAFER F FRONT HAND GATE INHIBIT GATE TERMINAL LOCATION 21 VIEWED FROM FRONT OR GATE WAVEFORMS SHOWN ARE TYPICAL REFERENCE DESIGNATIONS REFERENCE DESIGNATIONS WITHIN ASSEMBLIES ARE ABBREVIATED ADD ASSEMBLY NUMBER TO ABBREVIATION FOR COMPLETE DESCRIPTION ASSEMBLY ABBREVIATION COMPLETE DESCRIPTION 25 1 25 1 A2SA1 CRI A25A1CR1 NO PREFIX J3 J3 Assembly Stk No Asxemblv Serien No Assembly Assembly includes A2SA used to document Number Name Assembly changes A25 POWER SUPPLY ASSY 05100 6007 SERIES 330 RECTIFIER ASSY J mounted on Rectifier 05100 6031 J not mounted Assembly A25 Assembly on Assembly 25 Numbers indicate Part of 25 Pina 2 N J2 WHT ORN GY RED lus 6 3V ASPI 6 46 1 supplied from Jd to Pin 3 of P1 Transformer Assembly AS Terminal Connector A25X A Numbers 1 Pin Numbers Figure 5 10 Schematic Diagram Notes 02279 1 00000 8 10 A4 CONNECTOR BLOCK MODULE MC TO 13 Imc OETECTOR METER Y 24 MC MIXER S am PUSHBUTTON 3 TO 4MC SWITCH ASSEMBLY He 3 0 TO 3 1MC 3 TO 4MC 5 9 MC EPOD td
178. RY 1 6 1910 0022 SEMICON DEVICESDIODE GE 100MA 6PIV 3 5NS AiL4 9140 0179 COIL FXD ReFe 22 UH 10 275 MA A1L2 05100 6186 COIL 55 VARIABLE 16 23UH 9170 0105 ADJUSTABLE TUNING AIL3 9140 0179 COIL FXD 22 UH 10 275 1 4 9140 0179 COIL FXD 22 UH 10 275 A1LS 9140 0095 COILtFXD RF 0 270 A1L6 9140 0095 RF 0 27UH A1L7 9140 0179 COIL FXD 22 UH 10 275 AILS 05100 6186 COIL ASSYe VARIABLE 16 23UH 9170 0105 CORESADJUSTABLE TUNING A1L9 NeSeRe PART OF Al A101 1850 0118 TRANSISTOR PNP GERMANIUM EIA 2 235360 1205 0031 HEAT SINKITRANSISTOR A1Q2 1850 0121 TRANSISTORIGERMANIUM PNP 2N2402 i 1850 0020 TRANSISTORIGERMANIUM 2N1143 PNP 1850 0062 TRANSISTORIGERMANIUM SPL 2N404 1850 0062 9727 0036 z See list of abbreviations introduction to this section TRANSISTORIGERMANIUM SPL 2N404 R3FXD DEPC 71 16 OHM 1 1 2W Note Model 5100A Section VI Table 6 8 Table 6 8 39 to 390 Mc Multiplier Module A13 05100 6016 Cont d Prefix all parts in this table A13 um fg Stock Description Note A 1R2 0683 1525 RtFXO COMP 150 OHM 55 1 4W A1R3 0683 1525 RIFXD COMP 150 OHM 5 1 48 A1RU 0683 7515 RIFXD COMP 750 OHM 5 1 uW AIRS 0683 7515 RIFXD COMP 750 OnmM 5 174W AIRG 0683 1525 RIFXD COMP 1300 OHM 5 1 4w ART 0683 6215 RIFXO COMP 620 OHM 5 174W A1R8 0683 5115 RIFXD COMP 510 OHM 5 1 4 A 1R9 0683 1055 RIFXD COMP LOK OHM 5
179. STOR ASSYe 6 5V CABLE 55 CABLE ASSY CABLE ASSYe CABLE ASSY CABLE ASSY CABLE ASSY CABLE ASSY CABLE ASSY CABLE ASSY CABLE ASSY CABLE ASSY CABLE ASSY CABLE ASSY CABLE ASSY CABLE ASSY CABLE ASSY CABLE ASSY CABLE 55 CABLE ASSY CABLE ASSY CABLE ASSY CABLE 55 TRANSFORMER COIL VARIABLE COIL VARIABLE OMC 3 IMC 5 2 5 e 3MC 5 4 5 SMC 3e6MC 5 7 3 BMC 5 9 50 51 52 33 MC 54 55 36 57 58 59 INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT INTER CONNECT Replaceable Parts Cont d iz Par A C 0 E F G H 1 J B C D E F G H 1 J 28MC INTER CONNEC T INITIAL 3MC INTERCONNECT 1 LO FREQ INTERCONNECT HI FREGe INTERCONNECT COIL ADSY 4 7 UH PUMP INPUT TRANSFORMER PUMP INPUT TRANSFORMER MIXER OUT TRANSFORMER TRANSFORMER F COIL FILTER OUTPUT INAL OUTPUT TRANSFORMER MIXER OUTPUT TRANSFORMER FINAL OUTPUT 115UH 28480 05100 6188 28480 05100 6190 28480 05100 6191 28480 05100 6192 28480 05100 6193 28480 05
180. TE Fla WHT ORN YEL 49 11 i 21 39 1 DE WHT GY J9 10 1 3 i i P2 29 H WHT BLK GY 99 9 Juss I Hr A WHT BRN Jaisi i H P 21 1 t 9 7 CRM NN 1 si 1 P20 43 t pre da WHT RED BLU 19 5 i t P20 33 1 1 WHT 8RN BLU H na J9 4 i P2O 25 1 1 __ H l WHT BLK BLU J9 3 1 WHT BLU sro gi DE J9 2 4 P2017 1 F EB BLU 491 ag m d mom xr me lt m ee j m mm W n na b lt w m 5 a ee eee lee sv s m P21 48 WHT ORN GRN P21 40 WHT BRN GY P21 30 WHT BL K BRN P21 22 WHT BLK P21 12 WHT GRN BLU 2 2 WHT P20 44 WHT REO P20 34 WHT 8BRN VIO 2 26 wHT BtkK VIO J9 G5 P20 16 WHT VIO 19 14 P20 8 WRT YEL VIO 3903 Sectio Figure 5 TO SWITCH 3 4 FROM REMOTE sea 39123 29 22 49 21 J9 20 49 19 J9 18 49 17 J9 1 REFERENCE CESIGNATICNS WITHIN THIS ASSEMSLY ARE ABBREVIATED ADD ASSEMBLY DESIGNATION AS PREFIX TO FORM CO
181. THIN THIS ASSEMBLY ARE ABBREVIATED ADD ASSEMBLY DESIGNATION AS PREFIX TO FORM COMPLETE DESIGNATION IESIGNAT ONS COPYRIGHT 965 BY HEWLETT PACKARD COMPANY 1 4h 11 11 E Figure 5 21 37 to 370 Mc Multiplier 5 41 5 Q O lt Q6 L 22 2 MS C Z CI i j OOO R20 A Our 2200 Ra 3300 C3 WHT wHT 1 RED RED Ri9 C4 CONTROL yer L ver i our VOLTAGE Q5 pao FROM Al 5 N404 ON 12 6v T ood iis OFF 6 3V r 5 c5 t SWITCH 1 Ri T 71 i 2N2402 RII Qi 180 1 2N2360 1 FREQUENCY DOUBLER CIO HUF RS R8 1500 SiO L NX FILTER AMPLIFIER R 6 3v ED RED C3 i 1 22 1000 Tour L a H lt AA o 0 _ 0 X s m REFERENCE DESIGNATIO NOTES UNLESS OTHERWISE INDICATED RESISTANCE OHMS CAPACITANCE PICOFARADS INDUCTANCE MICROMENRIES j L 1 22 22 CIT AILF DIF i CRE 6 OE C4 4227 ea J2 l 1 L9 mires QN BOARD FLA 360 MC AMPLIFIER HARMONIC GENERATOR s 360 MC TO A20J2 REFERENCE DESIGNATIONS WITHIN THES ASSEMBLY ARE ABBREVIATED ADO ASSEMBLY DESIGNATION AS PREFIX TO FORM
182. TSI TAE OIF aah ha 1 C68 7 Q 52 L63 s a 2N2360 10 TO 31 MC C63 Q SI 6 2 AMPLIFIER 2N2360 64 65 166 30 TO 31 MC C66 12 galt 2 252 AMPLIFIER 267 I 71 i u _ 1 1 1 7V t 3 1 1 i t c69 i t 10 5V i 133 133 y sele pen 267 3000 R52 29V gt 1000 E R54 c92 C94 3665 i 82 22 C93 6 3V TO MIXER lt lt 1111 w s m _ s A mb dd COPYRIGHT 1565 BY HEWLETT PACK 00 6001 SERIES 524 n rr A a rw Sectio Figure 5 12 6v FROM 100 6023 DIVIDER _ L5 22 Ri ct T owe T 1006 FEFERENCE DESIGNATIONS WITHIN THIS R12 L SSEMELY ARE ABBREVIATED ADD rd 2200 ASSEMBLY DESIGNATION AS PREFIX TO xt C32 FORM COMPLETE CESIGNATION T or C28 E A 220 C33 L20 2 eov p 4 i UN 3 TO 4MC E 37V FOLLOWER RI ol gt 2 4 RIS 52573 3900 o 3000 135 22 C43 C47 _ OWF Tour 1 i ec ir ice lr Shi te a 6 3v FROM DIVIDER AA i oaa PES gt 154 12 6 FROM 22 El DECADE 4 CONNECTOR i BLOCK A4J5 11 i R63 RE7 C59
183. Table 5 3 cont d Table 5 3 Troubleshooting Cont d False Spurious Measurements Care should be taken to be sure that spurious signals are true spurious signals and that the levels meas ured are true Certain traps are to be avoided For instance a response will occur if N x fp M x fro ke where fp is the test signal frequency at high level and f o is the local oscillator frequency and N and M are integers This response is created in the mixer and is not a true spurious response M xf Lo is necessarily present N x fp depends non linearly the level of fp If the level of fp is dropped this response will decrease more rapidly than the level This test can be applied as a check on the authenticity of any spurious signal detected it should vary linearly with the input level NO OUTPUT FOR ANY BUTTONS PRESSED METER READS IN GREEN AREA EXCEPT OUTPUT PUNCH IN 100 000CP S DEFECTIVE HIGH FREQ SECTION A5 AI NO SIGNAL AT LO LEVEL OUTPUT OPEN CIRCUIT DEFECTIVE SIGNAL AT CABLE BETWEEN J3 AND J4 LO LEVEL OUTPUT 2 DEFECTIVE A24 I5MV OR MORE NO INPUT SIGNAL TO A21 24MC FROM 91104 NOT PRESENT CHECK SIIOA CABLE OUTPUT FROM 19 90MV 1DB INPUT SIGNAL TO 21 100 165MV OUTPUT FROM FLO 420MV 1DB NO OUTPUT L DEFECTIVE FROM FLT NO OUTPUT OUTPUT FROM FROM FLT 250 350 MV DEFECTIVE I DEFECTIVE A22 MULTIPLIER AU PUNCH
184. V wi REFERENCE DESIGNATIONS WITHIN THIS ASSEMBLY ARE ABBREVIATED ADD ASSEMBLY DESIGNATION AS PREFIX TO FORM COMPLETE OESIGNATION COPYRIGHT 965 BY HEWLETT PACKARD COMPANY 03 0C 2 2 Figure 5 28 3rd Mixer A23 5 51 Model 5100A REAR PANEL 5 I SOCPS UNLESS OTHERWISE INDICATED TO SOMC RESISTANCE IN OHMS pope CAPACITANCE IN PICOFARADS i eur INDUCTANCE IN MICROHENRIES x 4 A24 1 2 ASTERISK w INDICATES ogTeUT lt SELECTED COMPONENT BNC AVERAGE VALUES SHOWN AMPLIFIER i 10 2 i wis ma I I REFERENCE DESIGNATIONS ws ma AP4AI FRONTI PANEL a 17 FRONT PANEL J3 p53iDO D 22 02279 1 Model 5100 02279 1 Section V Figure 5 29 L 1 VU UE mut E PY US 00150 19 La i 5 nona N lt 5 TY ww y le due Ya PE SIE eL 5 62 Section V Model 5100A Figure 5 30 DC Ot M gt po NE E Em To odi i LK 3 m T E i A25A1 A25 n 02279 1 05100 55 06100 56 Model 5100A 02279 1 05100 57 5 I UNLESS OTHERWISE INDICATED RESISTANCE IN OHMS CAPACITANCE IN PICOFARADS REFERENCE DESIGNATIONS ci 2 C NO PREFIX DSI FI J12 13 14 A25A3 25 4 CI CI 05100 0 24 t T 0180 0077
185. VDCW 02UF 20 500VDCW 0 01UF 80 20 LOUVDCY 220PF 5 300vDCW 0 1 UF 50VDCW i UF 20 25VDCW 1500 PF 10 500VDCW O u7UF 80 20 25VDCW 27PF 5 525 PF 5 1125PF 5 2 2 0 1 3 uPF O 1PF 6PF O lPF 6eOPF O 1PF 6 6PF O 1PF 133PF 1 15PF 0 gt 5PF 0 5 91PF 1 Table 6 21 Replaceable Parts i M a DT _ _ _ 72982 72982 28480 28480 28480 72982 76433 00853 04062 04062 04062 04062 04062 04062 04062 04062 28480 04062 04062 04062 04062 04062 04062 04062 04062 04062 04062 78488 ODORR 78488 72982 72982 72982 28480 71590 56289 56289 Mfr Part No NPO 538 006 NPO 538 011 100 0122 0009 0150 0017 557 019 COPO 10R RCM15E220J TYPE M 100 E10 DM15C220J OM15F821G DMI6F1024J DM19F302G DM15F401F 300V DM15F561G 300V DM15E390J 300v DM15 680J 0140 0202 DM15f 470J 15 05 500V DM15E600J 300V DM15E800G 300V DMISF201F 500 15 2 500v DM15F301F 500v OM15F321F 500 OM15F421F DM15FU81F TYPE GA TYPE E TYPE GA 300V 300V 501 000 COJO 229C 301 000 COJO 339 821010X 0150 0093 CB TB6O 221J QJM 5C 50A 5015 91590 CF 152 66289 5 11 6 28480 28480 0160 0178 0160 0192 28480 0160 0193 72982 72982 72982 72982 72982 28480 28480 28480 28480 374000 COKO 229B 374000 COJO 3498 374 469B 374000 6098 37400 6698
186. VT Table 6 22 The following code numbers from the Federal Supply Code for Manufacturers Cataloging Handbooks H4 1 Name to Code and H4 2 Code to Name and their latest supplements The date of revision and the date of the supplements used appear at the bottom of each page Alphabetical codes have been arbitrarily assigned to suppliers not appearing in the H4 handbooks Revised May 1965 02279 1 Code No 07137 07138 07149 07233 02261 07263 07322 07387 07700 07910 07933 07986 07980 08145 08289 08359 08664 08712 08718 08792 08984 09026 19134 09145 13250 03569 10214 10411 10646 11236 11237 11242 11312 11534 11711 11717 11870 12136 12597 12853 12881 12930 13103 13396 13835 14189 14193 14298 14493 14655 14960 15203 15291 15558 15772 15818 15909 15037 16352 16638 15758 17109 17474 18476 18486 18583 18873 13315 19500 19701 Manufacturer Address Transistor Electronics Com Minneapolis Mian Westinghouse Etectric Corp Electronic Tube Div Elmira N Y Filmohm Corp New York NY Cinch Grapmik Co City of industry Calif Avnel Corp Los Angeles Calif Fairchild Camera amp Inst Corp Semiconductor Div Mountain View Gali Minnesota Rubber Co Minneapolis Minn The Birtcher Corp Los Angeles Calif Technical Wire Products Inc Ciantord N J Continental Device Corp Hawibome Calit Raylhean Mig Co Semiconductor Div
187. Wis 01255 Litton Industries Inc Beverly Hills Calif 01281 Senicanductors Inc Lawndale Calif 01295 Texas Instruments Inc Transistor Praducls Div Dallas Texas 01349 The Alliance Mig Co Alliance Ohio 01589 Relays Inc Van Nuys 0811 01930 Amerock Coth Rockford 01961 Pulse Engineering Co Santa Clara Calif 02114 Ferrozcube Corp of America Saugerties N Y 2286 Cole Rubber and Plastics inc Palo Alto Calif 02560 Amphenol Borg Electronics Corp Chicago 02735 Radio Corp of America Semiconductor and Materials Div Somerville N J 02771 Yocaline Co of America Inc 010 Saybtook Conn 02777 Hopkins Engineering Co San Fernando Calif 03508 Semiconductor Prod Syracuse N Y 03705 Apex Machine amp Tool Co Dayton Dio 03797 Eldema Corp Compton Calif 03877 Tiansitron Electric Corp Wakefield Mass 03888 Pyrotilm Resistor Co Inc Cedar Knolls YJ 63854 Singer Diehl Dw Finderne Plant Somerville N J 04009 Arrow Hail and Hegeman Elect Co Hartford Cann 04013 Taurus Corp Lambertville 0405 Elmenco Producls Co New York N Y 04222 HiQ Division of A rovox Myrlle Beach S C 04354 Precision Paper Tube Co Chicago 04404 Dymec Division of Hewlett Packard Co Palo Alto Cali 04651 Sylvama Electric Products Microwave Device Div Mountain View Calif 04713 Motorola me Semiconductor Prod Div Phoenix Arizona 04232 Fitton Co Inc Western Di
188. Y ph i H 4 WHT BRN VIO GN H A WHT BRN BLU aman 4700 i i t 3 J7 21 P21 23 21 24 WHT 8LU GY H eB WHT BLK VIO A WHT BLK BLU H J7 34 J7 46 4700 9 8 4 J7 20 P21 15 P21 16 WHT BLU VIO t WHT V T WHT 8 m e J7 33 H X BLU J7 45 4700 T I 1 1 1 P2 5 P21 6 WHT GRN GyY WUD HT YEL 1 RIO 1 ci gt J7 32 H J7 44 4700 I i p x x 4 I J7 18 2 45 P 20146 WHT GRN VIO ge ORN vi H WHT ORNCOEU J7 31 MU 7 43 4700 i t 27017 2 37 P20 38 WHT GRN BLU i ge 4 A WHT RED GY R12 H Sx J7 30 37142 4700 1 t P2C 27 I P2O 28 WHT YEL GY 6 I en I el HT BRN 3 H NE badali J7 29 H mE J7 41 4700 t I t J705 P20 19 P20 20 WHT YEL VIO i i t H a des R K RIA H E ERN J7 28 E FTN ANTON J7 40 4700 I DIE I I I I P 2 20 9 20 10 i T H WHT BLK WHT BRN does 1 4700 i PI9 1 1 20 1 I P20 2 WHT YEL GRN aa op E A o e EN J7 38 TO E VIDEO AMPLIFIER TO S HUE AGC LT AMPLIFIER La 24 2 AGC d 22 A24C1 22 CRS CR4 12 6V VIO 12 6 A cd 106 152 05 2153 ioa 154
189. ate measurement of switching time there should be a delay Section V Model 5100A Table 5 2 cont d Table 5 2 In Cabinet Performance Check cont d SWITCHING TIME cont d between start of sweep and time when switching signal appears on screen The pattern on the Oscilloscope will show the switching betweenthe two frequencies programmed and one of the switching signals the other switching signal will be complementary Switching time is meas ured from the time the switching signal turns to the time when the signal it controls is stabilized at its peak value 3 OUTPUT VOLTAGE Monitor output frequencies with Counter 0 to 50 cps Connect AC Voltmeter to Model 5100A LO LEVEL OUTPUT connector Select output frequency of 00 000 000 00 Slowly turn the SEARCH OSCILLATOR dial from 0 to 5 observing Voltmeter indication The decrease in voltage near 0 is due to frequency response characteristics of Voltmeter 90 cps to 100 Kc Connect AC Voltmeter to Synthesizer front panel OUTPUT jack Ter minate the Synthesizer output in a 50 ohm resistive load Using appropriate pushbuttons vary output frequency with SEARCH OSCILLATOR dial Observe that the voltage is 1 volt rms 2 db 4 db from 50 cps to 100 Kc 100 Kc to 10 Mc Terminate OUTPUT connector with 50 ohms and connect 4 3400A RMS Voltmeter to OUTPUT connector Observe that the output voltage is 1 volt rms 1 db from 100 Kc to 10 Mc 5 10 Mc to 50 Mc Terminate OUTPUT
190. blies A5 A11A2 05100 6024 C81 was 47 pf Part No 0160 0334 C82 was 80 pf amp Part No 0160 0335 R66 was 1200 ohms Part No 0683 1225 R62 was 220 ohms Part 0683 2215 L69 was 10 uHy amp Part No 05100 6214 CHANGE 2 Figure 5 17 Assemblies 5 05100 6023 C33 was 01 pf Part No 0160 2055 R23 replaces C31 8 50 Part No 0130 0017 Figure 5 18 Assembly 12 1 05100 6023 C33 was 01 uf Part No 0160 2055 R23 replaced C31 8 50 pf amp Part No 0130 0017 Figure 5 17 Assemblies A5 A11A2 05100 6024 RT1 was deleted CR54 CR55 CR56 were added between emitter of Q54 and ground R66 was 1800 ohms Part No 0683 1825 R67 was 150 ohms Part No 0757 0284 C80 was 160 pf Part No 0140 0218 Figure 5 18 Assembly A12A2 05100 6047 R63 was 1620 ohms Part No 0757 0428 R64 was 1000 ohms Part No 2100 0755 Figure 5 29 Assembly A24A1 05100 6044 R16 was 3300 ohms Part No 0758 0010 Figure 5 30 Series Number on A25 module was 330 Assembly 25 2 05100 6032 R11 R15 were 499 ohms Part 0698 0022 CRI CR2 were 6 2V breakdown amp Part No 1902 0081 CHANGE 4 Figure 5 29 A24 Module was series 330 Assembly A24A1 05100 6044 C41 C44 were 02 uf amp Part 0150 0012 C42 C43 were 1000 pf p Part No 0140 0152 Appendix IA Model 5100A APPENDIX cont d CHANGE 5 Table 1 1 Specifications Cable Assembly furnished was Part No 05100 6157 8 05100 6157
191. ch and circuit bandwidths CABLE TO PuSHBUTTONS OR PROGR ANE R Figure 4 3 5100A HF Section 4 1 Model 5100 Table 3 1 Switch Voltages ON DIGIT OFF DIGIT 107 12 6 vdc 46 3 vde 109 12 6 vdc 41 5 vdc 10 thru 10 2 12 6 vdc 41 5 vde 3 19 Anactual contact closure such as a relay is not required for remote programming the Synthe sizer connection the application of 12 6 ydc tothe selected pin may be made electronically through a transistor 3 20 Figure 3 3 shows the basic circuit of the type of switch used in the 3 to 4 Mc matrix In the normal open position a positive 6 3 volts is applied through a resistive network to the anode of the silicon diode The voltage drop across the conducting diode is suf ficient to hold the two germanium diodes cut off When this particular switch s chosen by means of remote control or manual pushbutton a negative 12 6 volts is applied as shown in Figure 3 3 This operation will cause the silicon diode to be reverse biased Conse quently tbe switch will now allow the desired signal to be passed through it These switches are embedded in blocks to achteve minimum coupling from one sec tion of the switch to the other When the switch 1s off attenuation is better than 110 db Figure 3 3 Diode Switch Schematic 3 21 When another digit in this particular column is selected this switch must be turned off and the one corr
192. columns 3 and 4 and 2 0 db 1 2 db in columns 5 through 10 5 44 CONNECTOR BLOCK 4 5 45 NORMAL OPERATION The Connector Block provides power and signal connections for Modules A5 through A12 It provides amplification for the 24 Mc signal from the 5110A before connecting it to Modules A5 through A12 The 3 Mc signal from the 5110A is amplified here before being connected to the front panel CIRCUIT CHECK meter The 12 6 volts and 6 3 volts from Power Supply Module A25 are normalized here before being connected to the front panel meter 5 46 OPERATIONAL CHECK The connector Block is checked indirectly by proper operation of the Model 5100A inthe In cabinet Performance Check Table 5 2 5 47 Aspecialtoolfor removing Coaxicon connectors from the Connector Block is made by AMP Inc The part number is A mp No 305183 8 Type IV 5 48 MIXER DIVIDERS A5 A11 5 49 NORMAL OPERATION The first mixing stage combines the 1V 24 Mc signal at Pin 6 and the 60 mv 3 3 0 Mc to 3 1 Mc signal at Pin 2 The sum of these two signals 27 0 Mc to 27 1 Mc is added to the 50 mv 3 to 4 Mc signal at Pin 1 and the sum of these 30 Mc to 31 Mc is filtered and divided by 10 to pro duce an output signal of 3 0 Mc to 3 1 Mc at 60 mv signal and power connections are made through Connector Block A4 5 50 OPERATIONAL CHECKS To quickly check to see if a Mixer Divider isoperating properly proceed as follows a Remove the Module from
193. connector with cable provided Output may be taken directly from the rear panel output connectors joining bracket kit is available for fastening the 5110A and 5100A to gether The Part No is 5060 0216 CAUTION The joining bracket kit is not intended to Figure 2 2 51004 and 5110A support the weight of either instrument Cable Interconnections RCH OSCILLATOR r KILOCYCLES sura CYGLES FREQUENCY SELECTION nemore Y Loox OPERATE SIOA SYNTHESIZER DRIVER CIRCUIT CHECK Figure 3 1 Operating Controls Front View Model 5100A 5110A 02279 1 Model 5100 Section HI Paragraphs 3 1 to 3 18 SECTION OPERATION 3 1 INTRODUCTION 3 2 This section tells how to operate the 25110A 5100A This is done by describing a turn on circuit check procedure for the two instruments making up the system front panel view of the system is shown in Figure 3 1 The twenty two rear panel cable con nections must be made betweenthe 5110A and the 5100A prior to turning them on as a system See Paragraph 2 13 3 3 OPERATION STIOA 3 4 TURN ON Plug the power cord into the line With the OPERATE STANDBY switch inthe STANDBY position the STANDBY light should light Put the OPERATE STANDBY switch inthe OPERATE position The OPERATE light should light Note The oscillator oven is on anytime that the 5110A power cord is connected to the line 3 5 CIRCUIT CHECK switch a OVEN TEMP In this position a
194. connector with 50 ohms and connect amp 411A RF Millivoltmeter to OUTPUT connector Observe that the output voltage is 1 volt rms 1 db from 10 Mc to 50 Mc 4 SEARCH OSCILLATOR Use same setup and procedure as for Item 2 except select frequency in desired column by pressing S pushbutton in that column and using SEARCH OSCILLATOR dial on front panel set SEARCH toggle switch to Local Switch SEARCH toggle switch to REMOTE and repeat above procedure controlling SEARCH OSCILLATOR with a bias voltage varying between 1 and 11 volts applied at the rear panel SEARCH 1 to 11v jack 9 SIGNAL TO PHASE NOISE RATIO Make the measurements using setup shown in Figure 5 1 and the following general procedure 1 Connect equipment as shown except for the phase control to the reference unit 2 Connect the same frequency fo from the reference unit to the mixer as the frequency to be measured Frequency should be above 200 kc J Calibrate system by off setting frequency of 5100A under test by 1 kc Set attenuator to 50 db Adjust voltmeter range switch for on scale reading Note the range setting and the meter reading in db This is the reference signal level 9 Set the 5100 to the same frequency as the reference unit Set attenuator to 10 db minimum of 10 db must remain between the 5100A and the mixer for linear operation Vary the delay for minimum dc output on the Phase Meter which
195. d 4 Stock No Description 4 Note C1 0150 0121 CIFXO CER Oe1UF 50 0510 0210 NUTICAPTIVE 8 32X15 32X0 2630 CRI 1910 0016 SEMICON DEVICEtDIODE GERMANIUM CR2 1910 0016 SEMICON DEVICE3DIODE GERMANIUM CR3 1910 0016 SEMICON 1 GERMANIUM CRG 1910 0016 SEMICON DEVICEIDIODE GERMANIUM CR5 1910 0016 SEMICON DEVICEtDIODE GERMANIUM i CR6 1910 0016 SEMICON DEVICE DIODE GERMANIUM x 1910 0016 SEMICON DEVICE DIODE GERMANIUM CRB 1910 0016 SEMICON DEVICE 3DIODE GERMANIUM CR9 1910 0016 SEMICON DEVICE DIODE GERMANIUM x CRIO 1910 0016 SEMICON 0100 GERMANIUM L1 9140 0179 COIL FXD 22 UH 10 275 MA L2 9140 0179 COIL FXD 22 UH 10 275 x L3 9140 0179 COIL FXO ReFe 22 UH 10 275 MA L4 9140 0179 COIL FXD 22 UH 10 275 L5 9140 0179 COIL FXO ReFe 22 UH 10 275 MA 6 9140 0179 COIL FXD 22 UH 10 275 MA L7 9140 0179 COIL FXD 22 UH 10 275 L8 9140 0179 COIL FXD ReFe 22 10 275 9 9140 0179 COIL FXD 22 UH 10 275 10 9140 0179 COIL FXD 22 UH 10 275 MA Lil 9140 0179 COIL FXD 22 UH 10 275 MA L12 9140 0179 COIL FXD 22 UH 10 275 MA L13 9140 0179 COIL FXD 22 UH 10 275 MA L14 9140 0179 COIL FXD 22 UH 10 275 MA R1 0683 2255 RIFXD COMP 22K OHM 5 1 UuW R2 0683 2235 RIFXD COMP 22K OHM 5 1 4W R3 0683 2235 RIFXD COMP 22K OHM 5 1 4W R 0685 2235 R FXD COMP 22K OHM 5 1 4W R5 0683 2255 RIFXD
196. dded to 24 Mc to obtain 27 00 Mc If the pushbutton column control ling this second module 107 is now set to digit 9 as shown 3 9 Mc fromthe switch matrix is added to 27 00 Mc in the second mixer to get 30 90 Mc This signal is now divided by 10 to 3 090 Mc Figure 4 4 shows the digit 8 selected in the 1Mcolumn The 3rd module first adds the synthesized 3 090 Mc from the output of the 2nd module to 24 Mc to get 27 090 Mc 3 8Mc is added to this to get 30 890 Mc This is divided by 10 to get 3 0890 Mc 4 8 basic operationof the 5100A high frequency section now becomes clear we successively add digits starting with the least significant and then divide by ten When we have gone through the seven least sig nificant columns 10 2 through 104 the result is a synthesized signal of 3 04567890 Mc Intheeighth module 10 this signal is again added to 24 Mc and the selected 3 3 Mc signal However since there is no divider in this module it provides an output of 30 34567890 Mc Each module receives 24 Mc from the 5110A The least significant module always adds 3 Mc before its selected 3 0 through 3 9 Mc is added All modules after the least significant one utilize the Synthesized frequency of the previous module in place of the fixed 3 Mc signal The output of the HF section of the 5100A will always be between 30Mc and 31 Mc Uni Each of the eight least significant columns has an S pushbutton If this position is selected in any
197. e 1 12 to peak 411A reading 20 mv to 50 mv Remove short from L13 and tune L13 to null 411A reading 18 mv to 40 mv f Connect 411A to junction of C23 and C24 g Short L16 to chassis and tune 1 15 to peak 411A reading 300 mv to 700 mv h Remove short from L16 and short L17 Tune L16 to null 411A reading 50 mv to 120 mv i Remove short from 117 tuneL17 to peak 411A reading 130 mv to 270 mv j Connect 411A to junction of C28 and C29 k Sweep signal at pin 2 between 2 5 Mc and 3 5 Mc Bandwidth between 3db points should be between 300 and 500 centered 3 0 Mc to 3 1 Mc with a level at band center of more than 30 mv rms If band is not well centered try adjusting 1 13 to center the band width If this fails repeat Paragraphs 5 51b through i with signal at pin 2 adjusted to compensate tor band width centering 9 92 30 MC FILTER ALIGNMENT To align the 30 Mc filter at the Divider Board input procecd as follows 02279 1 Model 5100 Remove the Mixer Divider Module from the Model 5100A and connect it to its normal input with the ex tension connector diagrammed in Figure 5 5 Remove cover from Mixer Divider Module b Set 606A to 30 50 Mc and connect through a 390 ohm resistor to junction of C61 and C62 with cable removed from junction c Connect 411A to junction of C61 and C62 d Set 606A output level to 0 5 volt rms e Short L62 to chassis and tune L61 to peak 411A
198. e 5 20 4 38 to 380 Mc Multiplier 14 5 45 5 45 37 STOMC MULTIPLIER MOD AISAI 37 TO 370MC N MULTIPLIER BOARD Q6 4 LI 2 7 L4 22 22 12 6V zg wg 2 Ta Gi oz 458 our 2200 7 Tour _ 1 4 CONTROL VOLTAGE RED 1 RI9 FROM AI AA 2 de IOK 99 Tou ala ON I26V WHT c2 r Orr 6 3V RED 1000 E YEL I I c5 C9 1 94 Nom SWITCH i be J 8 su 7 FROM 419 15 RI wTD 71 Q2 a 2N2402 1 QI RI 2N2360 180 N FREQUENCY DOUBLER CIO OF R3 RB 1500 5 L Mo FILTER AMPLIFIER RED i 22 OCO c7 jour E sa lt a s tt Mt LE Kl i RR RP REFERENCE DESIGNAT NOTES L UNLESS OTHERWISE INDICATED RESISTANCE IN OHMS CAPACITANCE PICOFARADS INDUCTANCE MICROHENRIES w70 WBC JER MODULE 05100 6018 SERIES 427 as wee iX ax Q Q v A w R BOARD ASSEMBLY 05100 6161 L4 L 22 22 I7 C19 Q4 2N404 b EA i CRE Q3 6 C20 2NII43 ca 27 J2 I L9 ON BOARD l FL3 370 T N AMPLIFiER HARMONIC GENERATOR WBC RIS 560 TM A20J3 nH gt x V FV Aus REFERENCE DESIGNATIONS WI
199. e at frequencies of 500 Kc and 49 Mc Adjust OUTPUT LEVEL R56 to obtain an out put reading within 1V 1db at 500 kc and 49Mc Take calibration of f 411A into account e Check output voltage level for 99 kc and 100 kc Adjust R61 OUTPUT LEVEL MANUAL OPERATION control toobtain same output voltage for both frequen cies NOTE 100 kc is below lower limit of 411A since the fixed gain of the amplifier below 100 kc is being adjusted to be the same as at 100 ke 02279 1 Section V Paragraphs 5 85 to 5 95 f Checkthe AGCamplifier section of A24 by selecting a frequency of 100 kc and inserting 10 db pad 355C between the output of FL8 395 Mc Filter output of 2nd UHF Mixer A22 and input to 3rd UHF Mixer A23 Output voltage should be down less than 1 db 5 92 POWER SUPPLY A25 9 93 NORMAL OPERATION Power Supply furnishes 46 3 volts 100 mv and 12 6 volts 200 mv to all circuits in the f 5100A 5 94 OPERATIONAL CHECK The Power Supply circuits are checked indirectly by proper operation of the 5100 the In cabinet Performance Checks Table 5 2 9 95 ADJUSTMENTS If adjustments to the Power Supply are necessary proceed as follows a Remove bottom cover and three screws at rear of instrument Release captive screws to swing UHF deck out b Connect amp 740A DC Voltmeter to the 12 6V ter minal violet wire on the bottom of the Search Oscil lator Module A2 Voltmeter should read 12 600V dc
200. ecks of signal to phase noise signal to am noise signal to spurious signal and signal to harmonic signal ratios if these are within their specifications then the rms fractional frequency deviation of the signal is within its specification 8 SPURIOUS SIGNALS HP355D 10db Attenuator HP10514A Balanced Mixer HP415D Tuned VM 1Kc 2Kc Low Pass Filter 6 M 5110A REFERENCE STD HP5100A 5110A UNDER TEST Figure 5 3 Test Setup Spurious and Harmonic Signals Make the measurements using setup shown in Figure 5 3 and the following procedure 1 Connect the equipment as shown in Figure 5 3 5 6 02279 1 Model 5100 Section V Table 5 2 cont d Table 5 2 In Cabinet Performance Check cont d 2 Set Attenuator to 80 db and range switch on 415D to 30 or 40 3 With reference local oscillator at 22 Mc and the unit under test at 22 001 Mc adjust the tuned voltmeter for an on scale reading Note the meter reading and range switch setting in db This is the reference reading 4 Setthe unit under test to 16 99 Mc and offset reference local oscillator 1 kc example 16 181 Mc Set attenuator to 10 db and adjust the Voltmeter for an on scale reading The difference between this reading and the reference reading is the signal to spurious signal ratio for other spurious checks see Table 5 3 9 Following is e
201. eep input signal between 30 and 35 Mc 2 1 A2C4 2 6 and 2 9 are stagger tuned to provide equal amplitude over the band g 113 A1L5 are adjusted to provide equal amplitude at band edges 390 and 400 Mc h A2C9 isalso adjusted to provide equal amplitude at 390 and 400 Mc i A1R8 is adjusted to 1 8 volts at the junction of A1R11 and 1 7 5 84 The following procedure is recommended as a performance check after the instrument has been in the field for a long time or whenever the 2nd UHF Mixer is replaced a Disconnect AGC lead to 2nd Mixer and connect 6200 ohm 5 1 2W resistor clips on each lead be tween the AGC terminal and the 6 3V terminal This resistor will set the AGC current to about 1 ma b Connect a 2 db pad 355C in 360 361 Mc cable between FL7 360 Mc Filter and J2 of 2nd Mixer c Connect a 3 db pad 355C in 30 Mc cable be tween 5100A 5110A Connect another 3 db pad in 39 Mc cable between 5100 and 5110A 02279 1 Model 5100A d Connect an 411A with Tee Probe 11024A and a 50 ohm termination f 908A to the output of FL8 395 Mc Filter e Using a plastic tuning wand adjust 2nd Mixer out put tuning C9 to make output equal and maximized for two frequencies of 40 000 000 00 and 49 000 000 00 The output from 395 Mc Filter should be greater than 55 mv f Remove pads and current setting resistorand re store to normal Sold
202. el see Figure 3 2 Each connector also supplies a ground connection and a 12 6 volt line from the internal power supply which may be used in remote switching This voltage is only present when the front panel LOCAL REMOTE switch is in the REMOTE position An un switched 12 6 volts is also avail able at each connector When the switch is in the LOCAL position voltages appear at the remote pro gramming connectors as shown in Table 3 1 3 18 When switched to REMOTE the Synthesizer pushbuttons are completely disconnected and all re mote programming leads assume the OFF voltages It is then necessary that a digit or 5 position be re motely selected for each column 3 1 Model 5100 Section III Figure 3 2 2 t Y m O A9 gi 21 8f 9100 0161 NIOLS dH SINAVUOSS 1VNH31X3 03 OIVINOIY 53000 Y 99800 1921 2201 dH SM id 9NLIVW 2 4800 1621 WOOLS dH HOLDINNOI 31vM34 LOVINOD OS 6f ONY 8f SILON 60 06 or 2 06047 e 8b 9 92 6n 6 i o 24 8206 9 zi 9 21 247 lt 9721 01 901 101 NANO 6 er 6y lt er 6 r er Le gr lr lt er er pe r 199071 31 38 Figure 3 2 Remote Control Pin Connections of J7 J8 and J9 02279 1 08 00 0 6 3 2 Model 5100 Sect
203. er AGC lead and replace plug on C9 adjustment hole 5 85 3RD UHF MIXER A23 5 86 NORMAL OPERATION Inputs are 390 to 400 Mc at 55 mv from FL8 and 350 to 390 Mc at 350 mv from A20 Output is 0 to 50 Mc greater than 30 mv 5 87 OPERATIONAL CHECK The 3rd UHF Mixer is indirectly checked by proper operation of the 5100A in the In Cabinet Performance Check Table 5 2 9 88 OUTPUT AMPLIFIER A24 5 89 NORMAL OPERATION Inputs are 0 to 50 Mc at 55 mv from A23 and three AND gate control volt ages from the 0 pushbuttons in the 109 109 and 107 columns on front panel of 51004 Outputs are 0 to 50 cps greater than 55 mv signal for CIRCUIT CHECK meter 50 cps to 50 Mc at 1 volt and Auto matic Gain Control to 2nd UHF Mixer A22 5 90 OPERATIONAL CHECK The output Amplifier circuits are checked indirectly by proper operation of the 5100A in the In cabinet Performance Check Table 9 2 5 91 ADJUSTMENTS The following procedure is recommended when an In cabinet Performance Check indicates the Amplifier A24 requires adjustment or whenever the Amplifier is replaced a Set pushbuttons for a frequency of 00 099 000 00 cps b Check dc voltage level at LO LEVEL OUTPUT jack on rear panel If voltage level is greater than 2 mv then adjust R1 DC ADJ LO LEVEL OUTPUT on A24 to obtain a dc voltage level of OV 2 mv c Connect 411A with Tee Probe and 50 ohm ter mination to OUTPUT jack on front panel d Check output voltag
204. ermany Midland Wrighl Div of Pacilic Industries Inc Kansas City Kansas Newbury Park Calif Santa Monica Calif Conshohacken Pa Laveland Colo Newark N J San Jose Calif New York N Y N Hollywood Calil Sem Tech Calif Resistor Corp American Components Inc Hewlett Packard Company Cornelt Dublier Electric Corp Williams Mfg Co Webster Electronics Co Adjustable Bushing Co Micron Electronics Garden City Long Island N Y Twentielh Century Coil Spring Co Santa Clara Calif Amelco Inc View Calif Daven Div Thomas Edison Ind McGraw Edison Co Long Island City Spruce Pine Mica Co Spruce Pine N Computer Diode Corp Lodi N Ideal Prec Meler Ca Inc De Jur Meter Brooklyn N Y Delco Radio Div of G M Corp Kokomo Ind Thermonelics Inc Canoga Park Calif Tranex Company Mountain View Calif Ty Car Mfg Co Inc Holliston Mass Radia Industries Des Plaines lil Custis Instrument Inc Kisco N Y E l DuPont and Co Inc Wilmington Del The Bendix Corg Eciipse Pioneer Div Thomas Edison Industries Div of McGraw Edison Co West Orange N J Electra Mig Co Independence Kansas Lox Telerboro N J Code No 20183 21226 21520 21335 24455 24655 28365 26462 26992 28450 33173 39434 38196 3794 39543 40920 42190 43990 14655 47904 3620 49956 52090 52883 54294 55026 55933 55938 96137 56289 59446 53730 6074 61775
205. ernal ad justments especially the power supply voltages should not be adjusted until checks prove operation of the Frequency Synthesizer is out of specifications The power supply this instrument is extremely stable for long periods of time If the voltages are essen tially correct 100 mv for 6 3 volts and 200 mv for 12 6 volts and regulate within 100 microvolts be tween low and high line voltage there is no reason to make an adjustment Do not make adjustments with a 1 voltmeter 5 25 Adjustments should not be attempted until it is verified that the module in question is at fault In the following paragraphs normal operationof eachmodule or assembly is described first followed by adjustment procedure The input level frequency power to the module and the measuring technique should all be checked before assuming the module is in needof ad justment or repair See Figures 5 7 through 5 9 for location of modules and assemblies ORILL THRU 7 32 2 AC DRILL 1 2 OP TAP 5 40 ORILL 1 2 TAP 6 32 NC 28 NC 28 1 4 OP DESCRIPTION PART NO QTY M DECADE CONNECTOR 05100 2052 05100 2032 DECADE CONNECTOR MODIFY A D CAP SCREW MODIFY HEAD DIA TO 113 3030 0059 2 BRA E SEI screw 1030 0009 ME 2130 0018 956 068 177 s s CONNECTOR M 4 SET SCREW ee 8120 0 A AA 1299 0184
206. esponding to the newly selected digit must be turned on In order to turn this type of diode switch off the 12 6 volts must be removed and the common node of the diodes must be allowed to rise above the forward positive potential of the silicon diode If the impedance presented by the programmer circuit inthe OFF position is not an effective open circuit there is no assurancethat this potential will be reached Con sequently in the OFF position the programming cuit should present an impedance of at least 100 K ohms to the Synthesizer Figure 3 4 shows a circuit which has been used successfully in remote program ming Theswitchmechanismis atransistor connected tothe 12 6 volt line which is saturated in the ON con dition and open in the OFF condition This method meets the established criterion since the off transistor presents a virtual open circuit to the Synthesizer 02279 1 0 0 09 00 1 Section III Paragraphs 3 19 to 3 25 PROGRAMMER INPUT DRIVER CIRCUIT FREQ SYNTHESIZER Switch ON transistor saturated Switch OFF transistor non conducting Figure 3 4 Remote Programming Driving Circuit 3 22 It is advisable to use diodes inthe programming scheme as indicated in Figure 3 2 to avoid duplicate selection when the Synthesizer is being used in the LOCAL mode while remote programming circuitry 1s connected 3 23 Current requirements for remote program ming are shown in Table 3 2 Table
207. f all modules used in the Synthesizer 5 14 INSTRUMENT COVER REMOVAL 5 15 For access to modules in the Synthesizer re move top and bottom instrument covers Remove the four screws from the cover slide cover toward rear of instrument 5 16 SWING OUT DECK 5 17 Modules A13 through A24 are mounted on a swing out deck For access to these modules re niove three screws indicated by arrows silkscreened on rear panel loosen two fasteners on deck and swing out deck 5 18 TEST CABLE 5 19 A test cable Part No 05100 6180 can be used to substitute for a defective Mixer Divider Moduie A5 through A11 If A5 is defective remove module and connect Pin 2 of A4J5 to Pin 3 of A4J5 with test cable Unit will now operate with resolution of 1 eps right hand column of pushbuttons ineffective the defective mixer divider is one other than 5 remove the defective module replace it with A5 and install Decade Test cable as explained above 5 20 TROUBLESHOOTING 9 21 The best approach to isolating trouble in the Model 5100A is first toobtain all possible information from the controls indicators and connectors then logically apply this information to locate the defective unit or module Figures 3 1 Front Panel 2 2 Rear Panel 5 7 5 Component Location 5 11 5 12 Overall Block Diagrams can be used to help under stand operationand locate modules and parts To fur ther aid in analysis each position of
208. goes positive turning A14A1Q6 which now allows the 12 6 volts at its emitter to be conducted to the rest of the multiplier circuits activating them 4 43 33 TO 330 MC MULTIPLIER A18 Schematic Diagram Figure 5 24 4 44 The operation of this multiplier is similar to the others except that the circuits in this module are always on 4 45 30 TO 39 MC SWITCH 19 Schematic Diagram Figure 5 25 4 46 The operationof this diode switch is similar to that described in Paragraph 4 22 Note CR4 and CR5 which provide additional isolation between on and off conditions of the switch This module is the source of all input frequencies for the multipliers 1101 serves as an impedance transformer and part of its gain as an amplifier offsetsthe insertionloss in the diode switches 4 47 350 TO 390 MC SWITCH 20 Schematic Diagram Figure 5 25 4 48 The operation of this diode switch is similar to that of the other diode switches frequencies 4 6 Model 5100A present at the input are not permitted to pass through unless the appropriate front panel pushbutton is pushed 4 49 1ST MIXER 21 Schematic Diagram Figure 5 20 4 50 The function of the 1st UHF Mixer is to take the 330 Mc and 30 to 31 Mc signals mix them se lect resultant signal which lies between 360 and 361 Mc amplify it and apply it to Filter FLT 4 51 330 Mc from Multiplier 18 is connected to J2 and from here to primar
209. he amount of charge in the transistor base emitter junction is less so the coil conducts until the supply of charges is exhausted This takes less than one half cycle of the input signal Since there are no charges in the base emitter junc tion the transistor shuts off The charge on C 79 leaks off through R65 4 33 The third negative half cycle of input signal sees the same conditions as the first half cycle There is no coil current and the transistor is not conducting Thus the transistor is turned on and off once 15 0 to 15 5 Mc for each two cycles of the in put signal 30 0 to 31 0 Mc 4 34 output of the stored charge divider drives a regenerative divide by five divider consisting of Q55 acting asclass C amplifier driving a tank circuit tuned to the desired output frequency 3 0 to 3 1 Mc The transistor is initially not conducting and is turned on by a negative going signal from the stored charge di vider starting oscillations in the tank circuit The signal from the tank circuit is fed to a low pass filter C84 L71 C85 L72 and C86 to the output at pin 3 of P1 4 35 A portionof the signa in the tank circuit of Q55 is fed to Q55 emitter from the voltage divider C80 and C81 The non linear characteristic of the transistor base emitter junction causes the fourth harmonic of the output frequency to be generated there and mixed with the input signal from the stored charge divider to produce the desired output
210. inal synthesized frequency the example the 380 Mc signal would be chosen This when subtracted from 392 345 678 90 cps gives the final output of 12 345 678 90 cps few points are worth emphasizing All the information leaving the HF section of the 5100A is contained in a band be tween 30 and 31 Mc well within the capabilities of the filters used which effectively remove spurious inter modulation responses which arise in mixing The first two mixers inthe UHF section are parametric This gives a desirable low noise level 4 12 The following paragraphs discuss the principles of operation of the individual assemblies and modules used inthe Frequency Synthesizer in the order of their assembly or module identification 4 13 PUSHBUTTON SWITCH A1 Schematic Diagram Figure 5 13 4 14 A positive 6 3 volts and a negative 12 6 volts is brought tothis assembly from the Power Supply A25 The 6 3 volts is connected by P20 and P21 to J20 and J21 of the 3 to 4 Mc Diode Switch A3 and by P19 and P18 toJ19of the 30 to39 Mc Diode Switch A19 and J18 of the 350 to 390 Mc Diode Switch A20 The 12 6 volts is connected to the proper diode switch or multi plier depending on which frequency is selected by the pushbuttons 4 15 For example if a frequency such as 37 000 000 Mc is selected the individual pushbuttons performthe following functions The 3 pushbutton connects 12 6 volts to multi plier A16 turning it
211. ion IV Paragraphs 4 1 to 4 5 SECTION IV THEORY OF OPERATION 4 1 INTRODUCTION 4 2 The output frequencies from the Frequency Syn thesizerareallderived froma single precise standard signal by the electronic performance of the operations of addition subtraction multiplication and division In order to accomplish the arithmetic operations the Synthesizer uses mixers dividers and multipliers These devices generate certainunwanted signals which tend to degrade the desired signal For the output signal to retain the same cleanliness as the standard some rather sophisticated design techniques have been used in the system Considerable attention has been given to shielding and termination 4 3 The Frequency Synthesizer consists of two mod ular cabinets the 5100A Frequency Synthesizer and the 25100A Synthesizer Driver the basic arrange ment is shown in Figure 4 1 OUOA FIXED FREQ 51004 VAR FREQ UWF tHE l 4 0 31 0 50 OUT Figure 4 1 5100A 5110A Synthesizer System Block Diagram 4 4 The 5100A Frequency Synthesizer provides the means to combine by direct synthesis the signals provided by the 5110A Synthesizer Driver As shown in Figure 4 1 the 5100A is divided into an HF section and a UHF section Figure 4 3 depicts the block dia gram of the HF section This section utilizes the 24 Mc 3 Mc and the 3 0 through 3 9 Mc signals fromthe 5110A The latter 10 signals are fed into a diode switch matri
212. is column is not pushed 6 3 volts back biases CR2 and and permits no signal flow through CRI CR2 and CR3 small signal that might appear at the junction of CR2 and CR3 is routed through CR4 to ground When the 5 button is pushed in this col umn 12 6 volts is appliedat R2 and R4 This voltage forward biases CRI CR2 and back biases CRA Thus any signal at C1 passes through CR1 CR2 and CR3 to J1 Operation of the other diode switches is identical 4 23 CONNECTOR BLOCK A4 Schematic Diagram Figure 16 4 24 The Connector Block is the source of power and signals for Mixer Dividers A5 through A11 and Mixer Filter A12 24 Mc and 3 Mc signals from the 9110A are brought tothe Connector Block and are con nected to the Mixer Dividers and Mixer Filter 02219 1 Model 5100 4 25 3 Mc signal from the 5110A is amplified by 4 101 and 4 102 and connected to Meter 1 for front panel monitoring Part of the 3 Mc signal is tapped off between A4A1R1 and A4A1R2 and con nected to input of Mixer Divider A5 The24 Mc signal ig supplied to Mixer Filter A12 and through A4A4Q1 to Mixer Filter AS through 4 26 MIXER DIVIDERS A5 THROUGH Schematic Diagram Figure 5 17 4 27 A 24 Mc signal is connected to pin 6 of P1 and amplified by 01 and Q2 3 0 to 3 1 Mc signal is connected to pin 2 of goes through low pass filter L36 C48 1 37 and C49 and then to The 24 Mc a
213. l side band power to signal power increases asthe square of the multiplying factor Since the total power in a fre quency modulated wave is constant the increased sideband power must come from the carrier The spectrum of the signal begins to spread since the increased sideband amplitude causes the inter modulation between sidebands to become appreciable It is desirable then that the original signal have the highest possible signal to phase noise ratio Figure 1 9 shows the log plot of phase noise present on the output signal of the 5100A 5110A at 49 Mc Figure 1 10 isa wave analyzer s approximation to the voltage spectrum of 1 Kc beat between two independent syn thesizers individually multiplied from 2 2 Mc to 8 75 Gc Narrow width here of lt 1 cps indicates the high quality of the original synthesizer signal c 140 SSB SIGNAL TO 1 CPS BW NOISE RATIO DB OFFSET FROM SIGNAL CPS Figure 1 9 Log Plot of Phase Noise on Output Signal of 49 Mc 02279 1 05100 B 43 05100 B 39 05100 40 Model 5100A sa EHE SERIE EE 952253 22211151 uisu oes FRASI ERE pup H H ooo HET 1 H HER ma t ee na sai LIAN CEDE E
214. lator is established by A1CRIT A1CR18 and A1CR19 for the 12 6 volt regulator by AICR20 AICR21 22 Breakdown diodes A1CR13 and AICR14 maintain voltages of 101 col lector and base with respect to ground for proper operation of the other diode reference circuits 4 65 Transistors 01 Q2 are a Darlington config uration series voltage regulator for the positive volt age supply They obtain their reference voltages from the supply described above 4 66 REGULATOR BOARD ASSEMBLY A25A2 4 67 The series regulator of the 6 3 volt supply operates on the output of the positive voltage supply already described A reference voltage for the dif ferential amplifier 2 is established by A2CR1 A2R12 is the 6 3 volt adjustment control The dif ference in voltages between A2Q7A and A2Q7B bases establishes a voltage level at A2Q4 base The A2Q4 base emiiter voltage controls collector current through A2R5 and A2R7 to the reference voltage sup ply on 25 1 establishing the voltage at the base of A2Q3 which controls regulator transistor Q5 in the Darlington configuration 6 3 volt regulator Tran sistor A2Q1 is the current limiting transistor for the 6 3 volt supply its conduction is proportional tothe voltage across R1 and the voltage is determined bythe current through R1 As voltage across R1 increases it increases the forward bias across 201 base emitter junction increasing current through A2Q1
215. lding Fibre Inc Tonawanda N Y Sprague Electric Co North Adams Mass Telex Inc St Paul Minn Thomas amp Betts Co Elizabeth N J Triplett Electrical Inst Ca Bluilton Ohio Union Swilch and Signal Div of Westinghouse Ait Brake Co Pittsburgh Universal Electtic Co Owosso Mich Ward Leonard Electric Co Mt Vernon N Y Western Electric 10 New York N Y Weslon Inst Dev of Dayslrom Inc Newark N J Wittek Mfg Chicago Revere Wollansak Div Minn Mining Mie Co St Paul Minn Allen Mfg Co Harlford Conn Allen Mtg Co Hartford Conn Allmetal Screw Product Co Inc Garden Cily N Y Atlantic India Rubber Works Inc Chicago Ill Ampere Co Inc Union Cily N J Belden Mfg Co Chicago HI Bird Electronic Corp Cleveland Ohio Birabach Radio Co New York N Y Boston Gear Works Div of Murray Co of Texas Bud Radio Inc Willoughby Ohio Camloc Fastener Corp Paramus Cardwell Condenser Carp L indenhorst L l N Y Bussmann Mfg Div af McGraw Edison Ca Chicago Condenser Corp Calif Spring Co Inc CTS Corp ITT Cannon lecliic inc Cinema Engineering C P Clare Centralab Div of Globe Union Inc Milwaukee Wis Quincy Mass Si Louis Mo Chicago 111 Picc Rivera Calif Elkhart Ind Los Angeles Calif Burbank Calif Chicago Commercial Plastics Co Chicago 111 The Cornish Wwe Co New York Y Chicago Miniature Lam
216. le labeled Search Oscillator and terminate the Search Oscil lator output with a 50 ohm load Measure the output voltage over the 3 to 4 Mc range of the Search Oscillator using an 4 Model 411A RF Millivoltmeter The output should be 50 mv 1 72 db over the frequency range 9 33 The variation in output level may be centered about 50 mv using the following procedure Set the Search Oscillator frequency to 3 5 Mc SEARCH OSCILLATOR dial 105 Adjust R4so output is 52 mv Repeat procedure of Paragraph 5 32 to check center ingof output voltage variation Readjust R4 as neces sary for optimum centering of output voltage variation 02279 1 09 10 4 75 section V Paragraphs 5 32 to 5 42 9 34 TRACKING ADJUSTMENT Disconnect the BNC terminated Search Oscillator cable from the Search Oscillator output BNC connector Connect an electronic counter to the output connector through a 90 ohm feed thru termination Set SEARCH switch to REMOTE Connect 1 volt dc from a voltage stand ard Model 741A or equivalent to the rear panel SEARCH connector Adjust L1 so frequency observed on the counter is 3 00 Mc 5 35 Change the voltage at the SEARCH oscillator to 11 volts Frequency observed on counter should be 4 000 Mc If not note how many kc and which direction the difference is Change the voltage at the SEARCH connector back to 1 volt Adjust FREQ ADJUST R16 so that the output frequency is exactly the same number of kc from 3 000 Mc
217. mbH Kurhessenstrasse 95 Frankfurt a Main Tel 52 00 36 Hewlett Packard VgmbH Reginfriedstrasse 13 Munich 9 Tel 49 51 21 2 Hewlett Packard VgmbH Technisches Buro Herrenbergerstrasse 110 703 Boblingen Wurttemberg Tel 6971 Hewlett Packard VgmbH Lietzenburger Strasse 30 1000 Berlin 30 Tel 24 92 71 IN EUROPE Hewlett Packard S A 54 Route des Acacias Geneva Switzerland Telephone 022 42 81 50 Telex 2 24 86 Cable HEWPACKSA Instrument Sales GREECE K Karayannis Klaftmonos Square Athens 124 Tel 230 301 INDIA The Scientific Instrument Company Ld 6 Tej Bahadur Sapru Road Allahabad 1 Tel 2451 The Scientific Instrument Company Ld 240 Dr Dadabhai Naoroji Rd Bombay 1 Tel 26 2642 The Scientific Instrument Company Ld 11 Esplanade East Calcutta 1 Tel 23 4129 The Scientific Instrument Company Ld 30 Mount Road Madras 2 Tel 86339 The Scientific Instrument Company Ld B 7 Ajmeri Gate Extn New Delhi 1 Tel 271053 IRAN Telecom Ltd 0 Box 1812 Tehran Tel 43850 ISRAEL Electronics amp Engineering Ltd 16 Kremenetski St Tel Aviv Tel 35021 2 3 ITALY Hewlett Packard Italiana S p A Viale Lunigiana 46 Milan Tel 69 15 84 5 6 Hewlett Packard Italiana S p A Palazzo Italia Piazza Marconi 25 Roma Eur Tel 59 12 544 5 JAPAN Yokogawa Hewlett Packard Ltd 2270 Ishikawa cho Hachioji Tokyo Tel Hachioji 0426 3 1231 19 lines Yokogawa Hewlett Packard L
218. mp Co Pty Ltd Rosella House Buitencingle Street Cape Town Tel 3 3817 SWEDEN H P Instrument AB Centralvagen 28 Solna Centrum Tel 83 08 30 H P Instrument AB Idunagatan 28A Goteborg Tel 27 68 00 and 27 68 01 SWITZERLAND Max Paul Frey Wankdorffeldstrasse 66 Berne Tel 031 42 00 78 TAIWAN FORMOSA Hwa Sheng Electronic Co Ltd 21 Nanking West Road Taipei Tel 4 6076 4 5936 TURKEY TELEKOM Engineering Bureau 0 Box 376 Galata Istanbul Tel 49 40 40 UNITED KINGDOM Hewlett Packard Ltd Dallas Rd Bedford England Tel Bedford 68052 VENEZUELA Citec C A Edif Arisan Of 4 Avda Francisco de Miranda Chacaito Apartado del Este 10 837 Caracas Tel 71 88 05 YUGOSLAVIA Belram S A 83 Avenue des Mimosas Brussels 15 Belgium Tel 35 29 58 For Sales and Service Assistance in Areas Not Listed Contact ELSEWHERE Hewlett Packard Overseas Sales Department 1501 Page Mill Road Palo Alto California 94304 U S A Telephone 415 326 7000 TWX 910 373 1267 Telex 033811 Cable HEWPACK 05100 9033 PRINTED IN
219. n externally supplied 1 to 11 volts at J11 when 4 is set to REMOTE 4 19 Isolation between the Oscillator A1Q1 andamp lifier A1Q2 is increased by A1R9 which also flattens the amplifier frequency response Voltage divider A2R2 A2R3 and 1 16 provides back biasing to A1CR6 The effects of temperature changes on the varactors are compensated by 2 Current through A2CR1 is limited by A2R1 The SearchOscil lator output amplitude is adjusted by A2R4 The output signal is filtered by low pass filter A2L1 21 4 A2L2 A2C3 A2C4 and A2C5 the filter has a high frequency limit of 4 Mc grounds for A1Q1 base and A1CR6 cathode are provided by A1C8 and A1C3 respectively Filtering of the 12 6 and 6 3 volt supplies is pro vided by L1 C2 C3 L2 C4 C1 and L3 4 20 3 TO 4 MC SWITCH A3 Schematic Diagram Figure 5 15 4 21 The 3 to 4 Mc Switch Module has within it 11 switch board assemblies each of which has eight diode switches signals 3 0 through 3 9 from the filter dividers and the output of the Search Oscillator 3 0 to 4 0 Mc are brought to separate inputs on the 3 to 4 Mc Switch Module 4 22 Theoutput fromthe Search Oscillator is brought to A3J9 A3J9 isconnectedtoemitter follower A3A1Q1 which serves as a buffer between 105 and 104 diode switches and the remaining diode switches The diode switch CRI CR2 CR3 and CR4 is controlled by the 5 button in the 105 column If the 5 button in th
220. n the power supply 5 21 Section V 1 5100 Figure 5 7 3 OUT PEMACE 753A FUSES A8 2 tom u Y s n a SL jan Bl 1 y M m m m 33 o o n m e ex sa e a gt a we gt nu e gt gt Qu Ton amp ase 2 p i 0 oi m C Seo o x el x amp pera mira e ot y p e 2 RIA 126v AD 6 3V ADI RI 3 i 9 4 F4 Y sto PUSHBUTTON SWITCH ys 05100 6003 2 SERIES 330 fi Figure 5 7 Component Location Top View 2 22 02219 1 05100 A 60 Model 5100 02279 1 05100 A 58 o 3 19 30 39 MC SWATCH 05100 6010 SERIES 330 SWITCH 350 390 05106 6011 SERIES 330 A20 i gt da em ivt DC ern ah I AOL 4 x Ow ORAS e 52 PEL EM Li gt 8 5 5 gt gt gt S ox 5 aie B w lt des e L3 2 o o wv o 9 m Y ya Tf 25r mu TSE Noa zen Qn a SE zT rix SI o m o E wie gt amp on ot wot I 525 255 Y
221. nd 3 0 to 3 1 Mc signals are mixed ina balanced mixer network CR2 C16 and C17 The resultant 27 to 27 1 Mc signal goes through a band pass filter C18 C19 L12 C20 L13 C21 and C22 and is amplified by Q3 3 to 4 Mc from the 3 to 4 Mc Diode Switch or from the Search Oscillator is con nected to pin 1 of P1 which is connected 006 Emit ter follower Q6 provides a high impedance input for this signal This signal then passes through low pass filter L20 C34 L21 and C35 and onto T2 The 27 to 27 1 Mc and the 3 to 4 Mc signals are mixed in balanced mixer T2 C36 CR3 CR4 and C37 The resultant 30to 31 Mc signal is connected todivider 2 4 28 The signal then goes through bandpass filter C61 C62 L61 C63 R51 L62 C64 and C65 and is amplified by Q51 The 30 to 31 Mc signal passes through a band pass filter and is amplified by Q52 and Q53 CR51 selects onlythe negative peaks of the sig nal and presents them to the base of Q54 and L68 L68 is tuned to providethe properamount of current leak off so that Q54 will function as a stored charge divide by two amplifier R65 and 79 is a self biasing cir cuit which makes Q54 operate in the range of L68 4 29 Divider action begins when the first negative half cycle of sine wave appears at the cathode of CR51 causing that diode to conduct Current flows through 52 secondary CR51 R62 Q54 base emitter junction C79 and R65 turning on the transistor causing min o
222. nt when the instrument is unpacked Inspect the instrument for mechanical damage scratches dents broken knobs etc Also check the cushioning mate rial for signs of severe stress 2 3 PERFORMANCE CHECK The electrical per formance of the Model 5100A should be verified as soon as possible after receipt performance check that is suitable for incoming inspection is given in Paragraph 5 10 2 4 CLAIM FOR DAMAGE If the Model 5100A is mechanically damaged or fails to meet specifications on receipt notify the carrier and the nearest Hewlett Packard field or sales office immediately Field and sales offices are listed at the back of this manual Retain the shipping carton the padding material for the carrier s inspection The field or sales office will arrange for the repair or replacement of your instru ment without waiting for the claim against the carrier to be settled 2 5 STORAGE AND SHIPMENT 2 6 PACKAGING To protect valuable electronic equipment during storage or shipment always use the best packaging methods available Your Hewlett Packard field or sales office can provide packing material such as that used for original factory pack aging Contract packaging companies in many cities can provide dependable custom packaging on short notice Here are two recommended packaging methods a RUBBERIZED HAIR Cover painted surfaces of instrument with protective wrapping paper Pack in strument securely in strong co
223. o connected to the input of amplifier A2Q2 is an automatic gain control linefromthe output amp lifier A24 If the signal in the output amplifier in creases theactionis suchthat the current toamplifier A2Q2 decreases thereby lowering the gain of A2Q2 4 55 3RD UHF MIXER A23 Schematic Diagram Figure 5 28 4 56 Final mixing in the Synthesizer occurs in the 3rd UHF Mixer Both input signals have been syn thesized and are mixed in CR1 and CR2 R1 R2 and R3 form a 3 db pad for the 390 to 400 Mc signal R4 R5 and R6 form a 2 db pad for the 350 to 390 Mc sig nal isa 180 phase line The frequencies lying between 0 and 50 Mc from CRI and CR2 an easy path through the lo pass filter andon toJ3 The other frequencies are either bypassed togroundor rejected by inductances 02279 1 Model 5100A 4 57 OUTPUT AMPLIFIER A24 Schematic Diagram Figure 5 29 4 58 The function of the output amplifier is to take its input frequency 0 to 50 Mc and to supplythis sig nal at the specified levels over the entire frequency range If the signal is below 50 cps it does not get through the video amplifier It is tapped off between R2 and R3 and supplied as low level signal at the rear panel of the 5100A Above 50 cps the signal goes through the video amplifier which consists of Q1 through Q6 and associated circuits R7 is a low fre quency gain adjust and L1 is a high frequency gain adjust portion of the signal at the emi
224. o the REMOTE position 3 11 LOCK OPERATE selector To operate the pushbuttons this switch is placed in the OPERATE position After frequency is selected the switch may be set to the LOCK position This prevents an acci dental frequency change 3 12 THE PUSHBUTTONS With these pushbuttons it is possible to select five billion discrete frequencies A button must be depressed in each column for anout put signal to be present 3 13 THE SEARCH OSCILLATOR The output fre quency of the searchoscillator is controlled by varying the dc voltage to it Turning the SEARCH OSCILLA TOR dial varies the dc voltage tothe searchoscillator and thus varies its output frequency The signal from the searchoscillator is injected intothe decade module corresponding to the column in which the S button is depressed To use the SEARCH OSCILLATOR dial the SEARCH CONTROL LOCAL REMOTE switch must be in the LOCAL position 3 14 If the SEARCH CONTROL REMOTE switch is in the REMOTE position the output of the search oscillator may be controlled by applying dc voltage to the BNC connector labelled 1 to 11V 3 15 REMOTE PROGRAMMING 3 16 Any frequency or search oscillator position that be selected by front panel pushbuttons on the Syn thesizer may be selected remotely 3 17 Three 50 connectors are located on the 5100 rear panel which collectively provide one pin corresponding to each of the pushbutton positions on the front pan
225. od FREQUENCY Figure 1 7 Spectral Lines of cs 133 Expanded Further the Frequency Synthesizer The microwave spectral lines of Cs133 were obtained using the system shown in Figure 1 8 1 16 The frequency translator adds the Synthesizer output to a fixed harmonic of the stable 5 Mc sourceto provide an excitation frequency of 9192 Adesired significant column of the Synthesizer output is contin uously swept by employingthe external voltage control feature of the Synthesizer s search oscillator three plots were obtained by searching successively less significant columns This type of system greatly simplifies the investigation of the homogeneity of the small magnetic field used in the region where Cesium hyperfine transitions occur For further details see the Hewlett Packard Journal Vol 15 No 15 Dec 1 1963 1 4 Model 5100A 9192 MC h eant ata OSCILLATOR TRANSLAT 51004 5110A SYNTHESIZER External Voltage Control POWER SUPPLY X Ads x Y RECORDER Motor Driven Potentiometer for Slow Voltage Sweep Figure 1 8 System Used to Obtain Spectral Lines of Cs133 shown in Figures 1 5 1 6 and 1 7 1 17 SPECTRAL PURIT Y AND SHORT TERM STABILITY 1 18 Many applications require that a signal be multiplied into the microwave region If the frequency multiplying device is broadband the ratio of tota
226. of 50 Mc is 6 x 10 11 This corresponds to an RMS or standard frequency deviation of 0 0030 cps In other words 68 3 of all observed frequency variations for measurement times of one second will differ from the carrier by less than plus or minus that amount 99 7 of all frequency variations will differ from the carrier by less than 0 0090 cps All statistical data are based on one hundred samples 02279 1 05100 8 41 section I Paragraphs 1 19 to 1 27 1 20 MODULAR CONSTRUCTION 1 21 Solid state modular construction has been used throughout the 5100A The modular concept enables the Synthesizer to meet the stringent demands regard ing spurious signals since the isolation that it affords minimizes spurious coupling It also enhances ser viceability Careful design and quality control insure that all modules are interchangeable from one instru ment to another 1 22 INSTRUMENT IDENTIFICATION 1 23 Hewlett Packard uses atwo section eight digit serial number to identify instruments The serial number is located on the rear panel of the instrument The first three digits serial prefix identify a series of instruments the last five digits refer to a specific instrument in that series If the first three digits of your instrument serial number do not appear on the title page of this manual there are differences between the manual and your instrument which are described in Appendix I Serial Prefix 520 and below or in a
227. oltage W O without 01194 11 02279 1 6 1 Section VI Table 6 1 Reference Designation 1 2 AQ A5 A6 7 9 10 11 12 A135 A14 A15 A16 A17 418 A19 A20 A21 A22 A23 AQ4 25 05 F1 F2 FL FL2 FL3 FLA FL FL8 Jl J2 J5 J J5 6 J7 859 JI J11 J12 172 J14 1 R1 S 6 2 05100 6003 05100 6005 05100 6006 05100 6004 05100 6001 05100 6001 05100 6001 05100 6001 05100 6001 05100 6001 05100 6001 05100 6002 05100 6016 05100 6017 05100 6018 05100 6019 0510056020 05100 6021 05100 6010 05100 6011 05100 6012 05100 6015 05100 6014 05100 6015 05100 6007 1450 0048 2110 0012 2110 0004 9110 0059 9110 0058 9110 0057 9110 0056 9110 0055 9110 005 9110 0056 9110 0060 1250 0125 1250 0140 1250 0214 1250 0140 1250 0140 1250 0140 1251 0087 1250 0140 9110 0086 1251 0484 1251 0584 1120 0152 0687 3331 3101 0038 Model 5100 Table 6 1 Chassis Parts t Stock No Description Note ASSY PUSHBUTTON SWITCH SEARCH OSCILLATOR MODULE 3 4 SWITCH MODULE CONNECTOR BLOCK MODULE MIXER DIVIDER MODULE 3 MI XER DIVIDER MODULE 2 MIXER DIVIDER MODULE 3 MIXER DIVIDER MOQULS 3 MIXER DIVIDER MODULE 3 MIXER DIVIDER MODULE 5 0 5 1 MIXER DIVIDER MODULE 2 0 5 1 MC MIXER FILTER MODULE 30 31 M 39 TO 390 MC MULTIPLIER MODULE 38 TO 380 MC MULTIPLIER MODULE 3 TO 370 MC MULTIPLIER MODULE 36 T
228. on and to the 350 to 390 Mc switch module A20 closing the 380 Mc Switch b The 7 pushbutton connects 12 6 volts to the 30 to 39 Mc Switch Module 19 closing the 37 switch c The 5 pushbutton connects 12 6 volts to the 3 to 4 Mc Switch closing the Search Oscillator switch d The 0 pushbuttons in the remaining columns connect 12 6 volts to the 3 to 4 Mc switch A3 closing the 3 Mc switches 1 16 The pushbutton switch assembly provides 103 contact ciosures one for each pushbutton on the front panel Punching a pushbutton in any given column closes a contact and applies a 12 6 volts to the ap propriate diode switch in the 3 to 4 Mc switch A3 30 to39 Mc switch A19 350 to 390 Mc switch A20 to appropriate multiplier A13 through A17 and to con nections on the remote control jacks J7 J8 and J9 on the rear panel 4 4 Model 5100A 4 17 SEARCH OSCILLATOR A2 Schematic Diagram Figure 5 14 4 18 The Search Oscillator s a Colpitts Oscillator 191 A1C1 A1C2 A1L1 AICR5 and A1CR6 oper ating between 3 Mc and 4 Mc oscillator fre quency is controlled by the voltage at the junction of varactors AlCR5 and AICR6 The varactor response is not linear with voltage so compensating network A1CR1 AICR4 A1R1 A1R4 precedes the varactor junction to provide the proper control voltages control voltage is adjusted by front panel SEARCH OSCILLATOR control A2R1 when 54 is set to LOCAL and by a
229. ont d t Stock Prefix all parts in this table A16 Description f A1R1 0727 0036 RIFXU DEPC 71 16 OHM 1 1 28 ALR 0683 1525 RIFXD COMP 150 OHM 5 1 uw A1R3 0683 1525 RIFXD COMP 150 OHM 5 1 uW ALRY 0683 7515 RIFXD COMP 750 CHM 5 1 4W AIRS 0683 7515 RIFXD COMP 750 OHM 5 1 4W A1R6 0683 1325 RIFXD COMP 1500 OHM 5 1 W 4187 0683 6215 RIFXD COMP 620 OHM 5 L 4W A1R8 0683 5115 RIFXD COMP 510 OHM 5 1 4W A1R9 THRU A1R10 NOT ASSIGNED AIR11 x 0683 1815 RIFXD COMP 180 OHM 5 1 4W A1R12 0683 5105 RIFXD COMP 51 5 1 4Ww A1R13 0757 0076 FLM 560 OHM 2 1 2 21814 0683 2225 RIFXD COMP 2 2 OHM 5 1 48 A1R15 2100 0941 RIVAR WW 1000 OHM 5 1 16 0758 0003 RIFXD MET FLM 1000 OHM 5 1 2W A1R17 0758 0003 RIFXD MET FLM 1000 OHM 5 1 2W AIR18 0683 2235 RIFXD COMP 22K OHM 5 1 UuW 19 0683 1035 RIFXD COMP jOK OHM 5 1 4 W A1R20 0683 2225 RIFXD COMP 2 2 OHM 5 1 4W A1R21 0683 3325 RIFXD COMP 3300 OHM 5 1 Uw 1 1 05100 6163 TRANSFORMER INPUT DOUBLER CI 0160 0545 CtFXD CER 1000PF 80 20 500vDCW FEED THRU C2 0160 0345 CER 1000PF 80 20 500VDCW FEED gt THRU C3 0160 0345 CER LOOOPF 80 20 500VDCW FEED THRU Cu 0140 0192 CIFXD MICA 68PF 5 300VDCW Ji 1250 0085 CONNECTORtBNC Ja 1250 0083 CONNECTORIBNC MISCELLANEOUS 05100 0081 COVER MULTIPLIER 36 360 05100 6164 CHASSIS ASSYe MULTIPLIER t See list of abbreviations in introduction to this section 02279 1
230. ore than 120 mv 5 53 DIVIDER ADJUSTMENT If divider adjust ments are necessary proceed as follows a Remove the Mixer Divider Module from the Model 5100 and connect it to its normal input with the ex tension connector diagrammed in Figure 5 5 Remove cover from Mixer Divider Module b Disconnect jumper in Q53 base circuit c Set 606A to 25 Mc at a level providing 200 mv at Q53 base and connect to Q53 base d Clamposcilloscope probe to body of C78 be sure oscilloscopeis not directly connected tocircuit at this point e Adjust L68 until oscilloscope indicates that signal is being divided by two see Figure 5 6 f Vary 606A frequency from 25 Mc to 40 Mc Di vision by two should occur at all frequencies between 25 0 Mc and 35 0 Mc g Connect oscilloscope horizontal input to 3 Mc at A4J5 pin 2 using a BNC T The oscilloscope probe remains clamped around the body of C78 Set oscil loscope controls so a Lissajous pattern may be observed h Set 606A to 28 5 Mc Adjust L70 until a 5 to 1 Lissajous pattern is observed i Sweep 606A frequency from 26 Mc to 34 Mc Di vision by 5 should occur at any frequency between 29 Mc and 32 Mc j Remove oscilloscope probe from C78 k Disconnect 606A from Q53 base and replace jumper in Q53 base circuit 1 Connect 606A to pin 2 m Set 606A to 3 0 Mc at 60 mv n Connect 3 0 Mc 50 mv signal to pin1 from Sweep Generator Connect 24 Mc 1V signal to pin 6
231. output frequency using front panel pushbuttons do not use SEARCH OSCILLATOR Set output frequency of Ref Model 5100A to be same as Model 5100A under test plus 100 cps Turn on amplifier and measure output voltage on db scale of special AC Voltmeter This is the reference signal its level is 60 db down with respect to the carrier Disconnect the signal from the reference Model 5100A Read the new level on the voltmeter This reading referred to the reference level which was 60 db down gives the signal to AM noise measurement 02279 1 9 5 5100 61 Section V Model 5100A Table 5 2 cont d Table 5 2 In Cabinet Performance Check cont d HP355D 10db Attenuator Doubler Detector HP5100A 510A REFERENCE STD 511 UNDER TEST HP403A AC Voltmeter Low Pass Filter 500uf across meter movement 15Kc 9Odb attenuation at 3OKc RC filter with Gain 4440 B W noises 157 1db Dy aO Ims time constant and a notch filter at the input namic range 66db frequency will do Figure 5 2 Test Setup Signal to AM Noise Measurements Rms fractional frequency deviation is a measure of the spectral purity ofa signal To measure rms fractional frequency deviation directly requires considerable engineering effort in the design and construction of appropriate equipment The rms fractional fre quency deviation is checked indirectly in the ch
232. p Works Chicago Ill Smith Coip Crowley Div West Orange N J Cinch Howard B Jones Div Chicago 11 Dow Corning Midland Mich Electio Motive Mfg Co Ine Willimantic Cana Colo Coil Co Inc Providence 1 John E Fast Co Div Victoreen Instr Ca Chicago I Dialight Corp Brooklyn N Y Indiana Genera Corp Electronics Div Keasby Drake Mfg Co Chicago 111 Code No 72825 77928 12364 72982 13061 13076 73138 13293 73445 73506 73559 73682 73734 73743 73793 73845 13898 73905 14276 74455 74861 74968 74970 75042 15378 15382 15818 15915 76005 76210 76433 76487 76493 76530 76545 26854 17068 77075 77221 77252 77342 17630 77638 77764 27963 78188 78233 78290 78452 78471 0488 78493 18553 78790 8917 79136 19142 79251 19727 79963 80031 80120 80130 80131 80207 80223 80248 90294 80411 80486 80509 Manufacturer Address Hugh Eby Inc Philadelpnia Pa Gudeman Co Chicago Ill Rober M Hadley Co Los Angeles Calif Erie Fechaological Products Inc Erie Pa Hansen Mig Co Inc Princeton Ind Harper Chicago Helipot Div ol Beckman Inst Inc Fullerton Calif Hughes Producis Division ol Hughes Aircraft Co Newport Beach Ampesex Electronic Co Div of North American Phillips Co Inc Hicksville Y Bradley Semiconductor Corp Hamden Conn Carling Electric
233. parts in this table A24 Oesenation Stock No Description Note 11 3 9140 0127 COILIFXD RF 100 uH AIL4 9140 0096 COILiFXO RF 1 UR AILS 9140 0179 COIL FXD 22 UH 10 275 A1L6 9140 0179 COILeFXDO 22 UH 10 275 107 9140 0179 COIL FXD ReFe 22 UH 10 275 AILS 9140 0179 COIL FXD 22 UH 10 275 MA ALQI 1854 0019 TRANSISTOR SILICON NPN A1Q2 1854 0019 TRANSISTOR SILICON NPN A1Q3 1854 0019 TRANSISTORISILICON NPN 104 1854 0019 TRANSISTORISILICON NPN 1205 0012 HEAT DISSIPATORISEMICONDUCTOR A1Q5 1854 0019 TRANSISTOR SILICON NPN 1205 0012 HEAT DISSIFATQR1 SEMICONDUCTOR A1Q6 1854 0019 TRANSISTORISILICON NPN 1205 0012 HEAT DISSIPATORISEMICONDUCTOR 4107 1851 0017 TRANSISTOR12N1304 A1Q8 1854 0003 TRANSISTORINPN SILICON 109 1854 0003 TRANSISTORINPN SILICON lt A1Q10 1853 0001 TRANSISTORIPNP SILICON 30Y 900MW 1911 1855 0001 TRANSISTORIPNP SILICON 30V 900MW A1RI 2100 0806 RIVAR WW 5K OHM 5 A1R2 0757 0344 R amp FXD MET FLM 1 00MEGOHM 1 1 4W A1R3 0758 0006 RIFXD MET FLM 10K OHM 5 1 2 ALR4 0758 0015 RIFXD MET FLM 220 OHM 5X 1 2W ALRS 0758 0003 RIFXD FLM 1000 OHM 5 1 2W AIRG 0727 0012 RIFXD DEPC 20 OHM 1 1 2W A1R7 2100 0108 RIVAR COMP LIN 100 OHM 10 1 3 A1RB 0758 0010 RIFXD MET OX FLM 3300 OHM 5 1 28 A1R9 0758 0015 RIFXD MET FLM 220 OHM 5 1 28 A1R10 0758 0010 RIFXD MET FLM 3300 OHM 5 1 2W i A1R11 0758 0028 RIFXD MET FLM 270 OHM 5 1 2W A1R12 0727 0012
234. reases the positive swing is coupled through CR6 to Q8 turning it on The resulting negative swing of Q8 s collector is connected to the base of Q10 turning it on negative swing at the emitter of Q6 is coupled through CR8 to Q9 turning it off The result ing positive swing at Q9 s collector is connected to the base of 011 cutting down the flow of current through Q11 and thus also reducing current to A2Q2 in A22 The result is a decrease in gain If the signalat the emitter of Q6 decreases the action of the AGC cir cuits is such as to increase the gain of A2Q2 in A22 02279 1 Section IV Paragraphs 4 57 to 4 68 4 61 POWER SUPPLY MODULE A25 Schematic Diagram Figure 5 30 4 62 RECTIFIER BOARD ASSEMBLY 25 1 4 63 Rectifier Board A25A1 contains 3 full wave bridge rectifier circuits and a network of voltage ref erence diodes which function as a pre regulation network 4 64 The three secondary windings of Power Trans former are connected to full wave bridge rectifier circuits on 25 1 The Power Supply circuit operat ing from terminals 5 and the Power Transformer provides reference voltages for the positive voltage and negative voltage outputs of 25 1 and bias volt ages for the 6 3 volt and 12 6 volt regulators on A25A2 The reference voltage for the positive voltage supply is established by AICRI5 for the negative voltage supply by A1CR16 bias voltage for the 6 3 volt supply regu
235. refix all parts in this table A13 Reference 9 Stock No Description 1 05100 6035 BOARD 55 9 590 MC MULTIPLIER 05100 2019 BOARD MULTIPLIER A1C1 0160 2055 CIFXO CER 0 01 80 20 100VDCW A1C2 0160 2055 CER 0s01UF 80 20 100VDCW A1C3 0160 2055 CIFXD CER 0 01 80 20 LOOVOCW ALC4 0160 2055 CtFXD CER O O1UF 80 20 100VOCW 1 5 0160 0357 CER 85PF 5 500VDCW A1C6 0150 0042 CIFXO TI Ue PF 5 500 1 7 0160 2055 CIFXD CER O O1UF 80 20 100VDCW A1C8 0160 2055 CER Ce01UF 80 20 100VDCW A1C9 0130 0017 CIVAR CER 8 50 N750 1 10 0160 2055 CER O OLUF 80 20 100VDCW 1 11 THRU A1C15 NOT ASSIGNED A1C16 0150 0050 CIFXD CER 1000PF 600 VOCW 0160 2055 CER Os01UF 480 205 100VDCW A1C18 0130 0017 CIVAR CER 8 50 PF 750 1 19 0160 2055 CIFXD CER O O1UF 80 20 100VOCW A1C20 0160 2055 CER Ce01UF 80 20 100VDCW 1 21 0140 0215 C3IFXD MICA BOPF 2 300VDCW A1C22 0160 0368 CIFXD MICA 16PF 5 A1C23 0160 2055 CER CeOlLUF 80 20 100VDCW A1C24 0130 0017 CER 8 50 PF N750 A1C25 0130 0018 C3VAR CER 1 5 7 PF 500 AICRI 1910 0022 SEMICON DEVICEIDIODE GE 100MA 3 5NS A1CR2 1910 0022 SEMICON DEVICEIDIODE GE 100MA 3 5NS AICR3 1910 0022 SEMICON DEVICEtDIODE GE 100MA 6PIV 2 5 5 A1CR4 1910 0022 SEMICON DEVICE SDIOOE GE 100MA 6PIV 3 5NS AICRS 1901 0128 SEMICON DEVICE DIODE SILICON STEP RECOVE
236. requency equal to the sum of the input frequencies 5 57 MIXER ADJUSTMENTS This Mixer is identi cal to those in A5 A11 Use the procedure of Para graph 5 51 for Mixer adjustments 5 58 30 MC FILTER ALIGNMENT align the 30 Mc filter at the Filter Board input proceed as follows Connect 606A through 390 ohm resistor to junction of 2 61 and A2C62 b Set 606A to 30 50 Mc output level to 0 5V rms c Connect 411A to junction of 2 61 and 2 62 d Short L62 to chassis and tune L61 to peak 411A indication e Remove short from 162 and tune L62 to null ALIA indication f Set 606A output level to 60 mv Connect 411A to junction of C66 and C67 h Short L65 and tune L64 to peak 411A indication 200 mv to 300 mv i Remove short from L65 and short L66 Tune L65 to null 411A indication 10 mv to 16 mv j Remove short from L66 and short L67 Tune L66 to peak 411A indication 80 mv to 140 mv 9 18 Model 5100A Remove short from L67 and tune L67 to null 411A indication 30 mv to 50 mv 1 Connect 411A to Q53 base m Tune T51 to peak 411A reading Level should be more than 130 mv rms o Connect a T with a 50 ohm load to 411A input p Connect 411A to pin 5 30 31 Mc output 150 mv level q Tune L68 to peak 411A reading r Adjust R64 to set output level at 150 mv rms s Connect 411A to Q53 base Remove 50 ohm load t Vary 606A from 29 5 Mc to 31 5 Mc Bandwidth
237. reviations in introduction to this section 6 11 Section Table 6 5 Model 5100A Table 6 5 Connector Block Module 4 05100 6004 Prefix all parts in this table A4 d Stock No Deseription Note BOARD 05100 6026 ASSEMBLY METER AMPLIFIER 3 05100 2004 BLANK BOARD METER AMP A1C1 0160 2055 CIFXD CER O O1UF 80 20 100VDCW 1 2 0160 2055 CIFXD CER 0 010 80 20 100VDCW A1C3 0160 2055 CSFXD O O1UF 80 20 100VDCW AICH 0160 2055 CIFXD CER O O1UF 80 20 100VDCW AICS 0160 2055 CER 0 010 480 203 LOOVOCW A1C6 0160 2055 CIFXD CER 0 010 80 20 100VDCW 1 7 0160 2055 C8FXD CER Q 01UF 80 20 100VDCW A1C8 0160 2055 CIFXD CER O O01UF 80 20 100VDCW AICRI 1901 0025 SEMICON DEVICE 0100 JUNCTION A1L1 9140 0179 COIL FXD 22 UH 10 275 MA A1L2 9140 0179 COIL FXD 22 UH 10 275 MA A1Q1 1850 0091 TRANSISTORIGERMANIUM 2N2048 PNP A1Q2 1850 0062 TRANSISTORIGERMANIUM SPL 2N4 04 AIRI 0757 0368 RIFXO MET FLM 34 0 OHM 1 1 88 A1R2 0757 0368 FLM 34 0 OHM 1 1 8W AIRS 0683 4715 RIFXD COMP 470 OHM 5 1 4W AIRY 0683 1225 RIFXD COMP 1200 OHM 5 1 4w 185 0683 1005 RIFXD COMP 10 OHM 5 1 4w A1R6 0683 3025 RIFXD COMP 3000 OHM 5 174W A1R7 0757 0270 RIFXD MET FLM 249K OHM 1 1 8W A1RB 0758 0031 RIFXD FLM 680 OHM 5 1 2 A1R9 0757 0271 RIFXD MET FLM 124K OHM 1 1 8W AIRIO 0683 5625 RIFXD COMP 560 OHM 5 1 4w A1R11 0758 0006 RiFXD FLM 10K OHM 5
238. rial number prefix 540 OLDER INSTRUMENTS This manual with changes outlined in Appendix I also applies to older Model 5100A instruments with serial number prefix 520 442 421 420 408 401 or 351 see graph 1 22 1965 Copyright HEWLETT PACKARD COMPANY 1501 PAGE MILL ROAD PALO ALTO CALIFORNIA U S A Printed DEC 1965 02219 1 Model 5100A Table of Contents TABLE OF CONTENTS I GENERALANFORMALION de NE LA 1 1 se eee e ER 1 1 15b Operational 5 d EE Ve 1 1 1 1 Een Conr 5 S Su di Dee we ace de Dee CON 1 1 1 11 Seareh Oscillator y puk ew Ae i duas tk 1 11 Spectral Purity and Short Term Stability 1 4 1 20 Modular CONSTRUCTION ue REG uuu Mu 1 22 Instrument Tdentilication gu xwv da Ee gt Je e NL Wee a side Sa 1 5 1 25 APPLICALLONS iu eoe Be we i S Sq ae 1 5 II INSTALLATION aa ox dee ow M Uy dw 2 1 2 1 Initial Inspection de 2 1 2 5 Storage and Shipment LORA dia 2 1 2 7 Rack Installation Soha 2 1 2 9 Power Connection es S S Y 2
239. rity carrier storage in the base emitter junction and charging C79 to provide a bias voltage for Q54 emitter Current through L68 increases exponentially from zero until the diode shuts off at the end of the negative half cycle whenthe input signal goes positive 4 30 When the input signal goes positive diode CR51 shuts off Current through the coil decreases nentially drawing off the minority carriers charges Stored in Q54 base emitter junction The time con stants of the divider circuit are such that the charges in the base emitter junction are not exhausted and the transistor remains turned on so no change is made in the collector circuit or voltage 4 31 During the second negative half cycle more of the input signal current is required to sustain the cur rent through L68 since L68 current now increases exponentially from a value greater thanzero Because Q54 emitter is already negatively biased due to the charge on C79 and current required for the coil is Increased fewer charges are stored in the Q54 base 02279 1 Section IV Parazraphs 4 25 to 4 40 emitter junction as a result of the second negative half cycle 4 32 When the input signal again goes positive diode CR51 shuts off Current through L68 decreases ex ponentially drawing off the charges in the transistor base emitter junction This time the coil current is greater than it was during the first positive half cycle of input signal while t
240. rmer Co Industrial Ring Co Automatic amp Precision Mfg Reon Resislor Corp Litton System ine Adler Weslric Commun Div New Rochelle N Y R Troncis Inc Jamaica N Y Rubber Teck Inc Gardena Calil Francis L Moseley Pasadena Call Microdot fac So Pasadena Calif Sealectro Corp Mamaroneck N Y Carad Corp Redwood City Calif Mt Carmel Ul Los Angeles Chicago 111 Burlinglon Mass Qakland Calif Isvinglon NJ Englewood Yonkers N Y Code No 38731 98821 98925 98978 99109 99313 39515 48207 39800 99848 99934 99942 38357 Model 5100A Manufacturer Address General Mills Int Electronics Div Minneapolis Minn North Hills Electronics inc Glen Cove N Y Semiconductor Div of Clevile Corp Wallham Mass International Electronic Research Corp Columbia Technical Corp New York N Y Varian ssociales Palo Alto Calif Marshall ind Elect Producls Div San Marino Calif Control Switch Division Controls Co of America El Segundo Calif Delevan Electronics Corp East Aurora N Y Wilco Corporation Indianapolis ind Renbrandi Inc Boston Mass Hoffman Electronics Corp Semiconductor Div Technology Instrument Corp of 0811 Newbury Park Call Burbank Calif EI Monte Cali THE FOLLOWING H P VENDORS HAVE NO NUM BER ASSIGNED IN THE LATEST SUPPLEMENT TO THE FEDERAL SUPPLY CODE FOR MANUFAC TURERS HANDBOOK 0000
241. row band telemetry or communications and similar applications It is pos sible to obtain output signals with a spurious content at least 90 db below the selected output 1 4 The5110A Synthesizer Driver generates twenty two spectrally pure signals from the standard signal These twenty two frequencies are then fed to the 5100A Frequency Synthesizer by means of rear panel BNC connectors Figure 2 2 and are continuously avail able The variable output signal is synthesized from these fixed frequencies by a series of arithmetic operations 1 5 Since phase locked loops are involved switch ing from one output frequency to another can be ac complished very rapidly either from the front panel pushbuttons or remotely Less than one millisecond is required to change output frequency Thetwooscil loscope trace reproductions in Figure 1 2 are typical results For applications requiring rapid frequency selection the Model 5100A is arranged for remote control through rear connectors 1 6 OPERATIONAL FEATURES 1 7 REMOTE CONTROL 1 8 Less than one millisecond switching time offers wide control flexibility Any frequency or searchoscil lator position that can be selected by front panel push buttons may also be remotely selected Three fifty pin connectors located on rear panel Figure 3 2 provide pins corresponding to each front panel pushbutton posi tion ground connection and 12 6 volt line for use in remote programming
242. rrugated container 350 lb sq in bursting test with 2 inch rubberized hair pads placed along all surfaces of the instrument In sert fillers between pads and container to ensure snug fit Mark the box Delicate Instrument and seal with strong tape or metal bands b EXCELSIOR Cover painted surfaces of instru ment with protective wrapping paper Pack instrument in strong corrugated container 350 lb sq in bursting test with a layer of excelsior about 6 inches thick packed firmly against all surfaces of the instrument Mark the box Delicate Instrument and seal with strong tape or metal bands 2 7 RACK INSTALLATION 2 8 The Model 5100A is ready for bench operation as shipped from the factory Additional parts neces sary for rack mounting are packaged with the instru ment To convert for rack installation referto Figure 2 1 and proceed as follows 02279 1 00000 C 33 TILT STAND FOOT FOOT RELEASE BUTTON pesi TRIM STRIP ADHESIVE BACKED at FILLER STRIP BOTTOM COVER Figure 2 1 Conversion for Rack Mounting a Remove tilt stand b Remove feet press the foot release button slide foot toward center of instrument and lift off c Remove adhesive backed trim strips at front end of sides d Attach filler strip along bottom edge of front panel e Attach flanges to front end of sides larger cor ner notch toward bottom of instrument Instrument is now ready to mount in standard rack
243. sco Calif Van Waters amp Rogers inc San Francisco Calif Tower Mfg Corp Providence R I CulleicHammer Inc Lincoln Ill Gould Nattonal Balleries Inc St Paul Minn Federal Telephone Radio Corp Clifton N J General Mills ne Buffalo N Y Graybar Electic Co Oakland Calif General Electric Distributing Corp Schenectady N Y United Transformer Co Chicago Hl US Rubber Co Consumer Ind amp Plaslics Prod Div Passaic N J Bearing Engineering San Francisco Galil Connor Spring Mig San Francisco Call Miller Dial amp Nameplate Co El Monte Calif Radio Materials Co Chicago II Fesius Mo Great Neck AY San Francisco Calif Ogallala Neb Bloominglon Ind Boonton N J San Francisco Calif San Francisco Calil Hamden Conn Chicago 111 Inc Attleboro Mass Dale Electronics lac Columbus Nebr Elco Corp Willow Grove Pa Gremar Mfg Co Inc Wakefield Mass K F Development Co Redwood City Calil Honeywell Int Micro Switch Div Freeport 111 Oakland Calf Peabody Mass Rochester N Y Nahm 8tos Spring Co Ttu Cannectar Corp Elgeet Optical Co Inc Universal Industries Inc Cely of Industry Call Tensolite Insulated Wire Co Inc Tarrytown N Y Sylvania Electric Prod Inc Semiconductor Div Woburn Mass Code No 93369 93410 93788 93929 94137 94144 94148 94154 94197 94222 94310 34330 94682 95023 9523
244. sembly 25 1 4 6 4 66 Regulator Board Assembly A25A2 5 4 6 VW MAINTENANCE Z 2 Z x QC A 5 1 hel JH as Z Z A ues ce be o 0 1 Pest pment aussi e Xe C fed 400 del Hah Circuit Check Switch 4 e se s s a Ec XP 5 1 5 10 In Cabinet Performance 5 1 gal Module Desitnations 5422 45 54 D Qh a 5 1 5 14 Instrument Cover 5 1 CADIC A Rl Ra a E a A 5 1 5 20 Troubleshooting pace 4 A adus eee 5 1 242A vob ee i ee pace 5 23 Generali wes S ie OK S I Et SU t Cac ae Oe a ex Q 5 14 5 26 Pushbutton Switch Assembly AL lt s 5 14 5 29 Search Oscillator Module Alo cos o ox Sk X xXx ow Q 5 14 5 38 2104 Me Switch Module g God kw ee 5 15 5 44 oaa Z God owe Eck s CR 5 16 5 48 5 11 5 16 5 57 Mixer Filter A12 be Rt un QE Set aic a ew a 5 17 0 60 Multipliers A13 A18 4 v ko ew a 5 18 5 64 30 to 39 Mc Switch Module 19 5 19 5 70 350 Me Suite A20 a he 5 20 5 76 15 UHF Mixer cod Rok aci
245. td No 3 6 chome Aoyama Kitamachi Akasaka Minato ku Tokyo Tel 403 6511 Yokogawa Hewlett Packard Ltd No 8 Umeda Kita ku Osaka Tel 313 0091 Yokogawa Hewlett Packard Ltd No 4 3 chome Himeikedori Chigusa ku Nagoya Tel 751 8545 KOREA American Trading Company Korea Ltd 112 35 Sokong Dong Jung ku Seoul 0 Box 1103 Seoul Tel 3 7049 3 7613 NETHERLANDS Hewlett Packard Benelux N V 23 Burg Roellstraat Amsterdam W Tel 020 13 28 98 and 13 54 99 NEW ZEALAND Sample Electronics N Z Ltd 8 Matipo Street Onehunga S E 5 Auckland Tel 565 361 NORWAY Morgenstierne amp Co A S Ingeniorfirma 6 Wessels Gate Oslo Tel 20 16 35 IN LATIN AMERICA Hewlett Packard Inter Americas 1501 Page Mill Road Palo Alto California 94304 U S A Telephone 415 326 7000 TWX 910 373 1267 Telex 033811 Cable HEWPACK INTERNATIONAL OFFICES and Service PANAMA Electronico Balboa S A P 0 Box 4929 Panama City 5 Panama Tel 3 0833 PERU Fernando Ezeta B Casilla 3061 Lima Tel 78745 PORTUGAL TELECTRA Rua Rodrigo da Fonseca 103 0 Box 2531 Lisbon 1 Tel 68 60 72 and 68 60 73 and 68 60 74 PUERTO RICO amp VIRGIN ISLANDS San Juan Electronics Inc 150 Ponce de Leon Stop 3 P 0 Box 5167 Pta de Tierra Sta San Juan 00906 Tel 725 3342 724 4406 SPAIN ATAIO Ingenieros Enrique Larreta 12 Madrid 6 Tel 235 43 44 and 235 43 45 SOUTH AFRICA F H Flanter a
246. tter of Q6 is detected and supplied to a front panel meter as an indication that a synthesized signal is available at the output jack of the 5100A The signal at the emitter of Q6 is kept at a constant level At frequencies above 100 kc this is done withan automatic gain control cir cuit This circuit operates as follows 4 59 07 is part of an AND circuit which is used a switch to turn the AGC circuits on and off Below 100 Kc 07 is turned off This is the condition when the 0 buttons in the three most significant columns are pressed When these three buttons are pressed the base current which is supplied to 07 for frequen cies above 100 kc is allowed to leak off through CR3 CR4 and CR5 This turns 07 off and its collector circuit goes to about 6 volts positive This positive potential turns on and pulls the emitters of Q8 and Q9 more positive than their base levels turning them off When Q8 and Q9 turn off Q10 and Q11 turn off and no current flows from 011 to amplifier A2Q2 in Mixer A22 However the positive potential on Q7 alsoturns on CR9 allowing current to flow toamplifier 202 in Mixer A22 R61 is adjusted to supply proper current to A2Q2 in Mixer A22 4 60 For frequencies above 100 kc Q7 is on and the AGC circuits are allowed to assume their operating states Thesignal is sampledat the emitter of Q6 and brought to differential amplifier Q8 Q9 throughdetec tors CR6 and CR8 If the signal at the emitter of Q6 inc
247. ue to the search oscillator is then A nS _ 0 1 _ 8 Af i E mer 6 1 x 10 out 10 x 10 At this output frequency and using one second aver aging the short term stability of the Synthesizer itself is on the order of 3x 10 11 Consequently the search oscillator governs in this case 1 14 The search oscillator maybe frequency modu lated from an external source sinewave at a maxi mum rate of 1 while retaining the voltage control calibration 1 15 The plots displayed in Figures 1 5 1 6 and 1 7 are representative ofthe impressive versatility of 1 3 Section I Paragraphs 1 16 to 1 18 Hn B Bi iN iut 1 2 2 H H 44 22 i 223 2 122230221 HEI Ent THEE EEG EH oppien testo 47 i t 22525222222 iun SEU Bl FESS SESS RES ESSER REE iii Hi T ub mul uibs 2227 1 sorso eurer HE HII ai ij EE DETECTOR CURRENT ii LP t iniu H 11 22241 55222 20551 022255551 i 2222 2228 i WE i IH at si FREQUENCY T TE 2222122211 22382 ETE
248. v Culver City Calif 04771 Automalic Electtic Co Northlake 04796 Sequoia Wire Co Redwood Coly Calif 04811 Precision Coil Spring Co El Monte Calif 04870 P M Motor Company Westchester 05006 Twentieth Century Plastics lac Los Angeles Cali 05277 Westinghouse Electric Corp Semi Conductas Dept Youngwood 05347 Ultroma lac San Mateo Calif 05593 Illimitromie Engineering Co Sunnyvale Calif 05616 Cosmo Plastic Electrical Spec Cleveland Ohio 05624 Barber Colman Co Rockford Ill 05728 Tiffen Optical Co Roslyn Heights Long Island N Y 05729 Metrg Tel Corp Plamview N Y 05783 Stewart Engineering Ca Sanla Cruz Calif 05820 Wakefield Engineering Inc Wakefield Mass 06004 Bassick Co Bridgeport Conn 06175 Bausch and Lomb Optical Rochester N Y 06402 E T A Products Co of America Chicago 06475 Western Devices lnc Burbank Call 06540 Amatom Electronic Hardware Co Inc New Rochelle N Y 06555 Beede Electrical Inskumenl Co Inc Penacook N H 06666 General Devices Co Inc Indianapolis Ind 06751 Nuclear Corp of America U S Semco Div Phoemx Ariz 06412 Torrimglon Mfg Co West Div Van Nuys Calif 06980 Estel McCullough Inc San Carlos Calif 07083 Kelvin Electtic Co Van Nuys Calif 07115 Corning Glass Works Electronic Components Dept Bradford Pa 07126 Dagitran Co Pasadena Calif 00015 4 Table 6 22 Code List of Manufacturers Section
249. v Datlinglon S C 83148 ITT and Cable Div Los Angeles Calif B3186 Victory Engineering Carp Sptinglield B3298 Bendix Corp Red Bank Div Red Bank 83315 Hubbell Corp Mundelein 111 83330 Sm fh Herman H Inc Brooklyn N Y 83185 Central Screw Co Chicago 111 83501 Wire and Cable Co Div of Amerace Corp Brookfield Mass 83594 Burroughs Corp Elecliame Tube Div Plainfield N J B3740 Eveready Div National Carbon Div Uman Carbide New York N Y 83777 Model Eng and Mtg lac Huatimglon Ind 00015 40 Revised 195 6 64 Code No 83821 84171 84395 84411 81970 85454 85471 95474 95660 85311 86197 86579 86684 87716 87473 87664 87930 88140 38220 88421 38698 8923 89473 89655 90179 90970 91260 91345 91418 91506 9163 91662 91737 9182 91929 91961 82180 92367 92196 92607 93332 Table 6 22 Code List of Manufacturers Monufocturer Address Loyd Scruggs Co Atco Electonics Inc A J Glesener Inc TRW Capacitor Div Sarkes Tarzian inc Boonton Molding Company A B Boyd Co R M Bracamonte amp Co Koiled Kords Inc Seamless Rubber Co Clifton Precision Products Co Inc Cliflon Heights Pa Precision Rubber Products Corp Dayton Ohio Radio Corp America Electronic Comp amp Devices Div Harrison Philco Corporation f Lansdale Division Lansdale Western Fibrous Glass Products Co San Franci
250. venue 613 722 4223 TWX 610 562 1952 Toronto Ontario Hewlett Packard Canada Ltd 1415 Lawrence Avenue West 416 249 9196 TWX 610 492 2382 Vancouver B C Hewlett Packard Canada Ltd 2184 W Broadway 604 738 7520 TWX 610 922 5059 11 65 11 65 HEWLETT PACKARD Electronic ARGENTINA Mauricio A Saurez Telecomunicaciones Carlos Calvo 224 Buenos Aires Tel 30 6312 AUSTRALIA Sample Electronics Vic Pty Ltd 9 11 Cremorne Street Richmond E 1 Victoria Tel 42 4757 3 lines Sample Electronics N S W Pty Ltd 4 Grose Street Glebe N S W Tel 69 6338 6 lines AUSTRIA UNILABOR H m b H Wissenschaftliche Instrumente Rummelhardtgasse 6 3 P O Box 33 Vienna 71 Tel 42 61 81 BELGIUM Hewlett Packard Benelux 20 24 Rue de l Hopital Brussels 1 Tel 11 22 20 BRAZIL Ciental Importacao e Comercio Ltda R Des Eliseu Guilherme 62 Sao Paulo 6 Tel 32 4332 CHILE Hector Calcagni Casilla 13942 Santiago Tel 6 42 26 COLOMBIA Instrumentacion Henrik A Langebeck amp Cia Ltda Apartado Aereo 6287 Bogota 1 D E Tel 45 78 06 Cable AARIS Bogota DENMARK Tage Olsen A S Ronnegade 1 Copenhagen 0 Tel 29 48 00 FINLAND INTO 0 0 Box 153 11 Meritullinkatu Helsinki Tel 6 11 33 FRANCE Hewlett Packard France 150 Blvd Massena Paris 13e Tel 707 97 19 GERMANY Hewlett Packard VgmbH Steindamm 35 Hamburg 1 Tel 24 05 51 Hewlett Packard Vg
251. width 13 to 130 cps 0 to 40 volts dc 0 to 300 Vac O to 100 db in 10 db steps coaxial 0 to 12 db in 1 db steps 50 ohm feed thru 50 ohm BNC 90 ohm coaxial BNC Tee 4 required Range to accuracy 2 2 3 2 3 23 2 3 2 3 2 3 2 3 2 3 1 Instrument Recommended fe 5100A 5110A Jerrold 900B fp 140A amp 310A 5110A 411A with f 11025A Probe amp 11024A Type N Tee Probe Tip 10514A 10515A 413A 106A B 412A DER AD e em 403A with 500 uf across meter Moseley 680 415D 723 3550 344C 110488 1250 0207 908A 1250 0072 3400A Amphenol 305183 8 20 IV For removing connectors in Connector Block A4 05100 6004 BNC to N 2 3 Coaxicon Tool Adaptor 1 Performance Check 2 Circuit adjustment 3 Troubleshooting 5 2 02219 1 Model 5100A Section V Table 5 2 Table 5 2 In Cabinet Performance Check 1 OUTPUT FREQUENCY Connect Synthesizer front panel OUTPUT to Counter input Set Counter to measure FREQUENCY 1 sec TIME BASE gate time Set Counter controls for operation from external frequency standard use 1 Mc from FREQUENCY STANDARD output of Model 5102A under test as time base for Counter Using front panel pushbuttons of the Model 5100 select output frequencies of 11 111 111 11 22 222 222 22 33 333 333 33 44 444 444 44 15 555 555 55 16 666 666 66 17 777 777 77 18 888 888 88 19 999 999
252. x which is controlled by dc voltages provided either by means of front panel pushbutton control or by remote programming jacks onrear panel of the 5100A 02279 1 06100 8 16 0890 86 0002 8741 Figure 4 2 3 to 4 Mc Diode Switch Schematic 4 5 TheDiodeSwitch matrix enables rapid frequency selection Figure 4 2 shows the basic circuit of the switch used in this3 to4 Mc matrix In normal open position a positive 6 3 vdc is applied through a resis tive network to the anode of the silicon diode The voltage drop across the conducting diode is sufficient to hold the two germanium diodes cut off When this switch is chosen by means of remote contact closure or manual pushbutton a negative 12 6 vdc is applied see Figure 4 2 This causes the silicon diode to be reverse biased The switch will now allow the desired signal to be passed through it These switches are embedded in blocks to achieve minimum coupling from one section of the switch to the other The 3 to 4 Mc switch assembly contains 11 boards one for eachdigit 0 through 9 and one for the S search position Each board contains 8 diode switches of the type pre viously discussed Each switch corresponds to a sig nificant columnofthe selected frequency The signifi cant columns that control this 3 to 4 Mc matrix are 1072 0 01 cps steps through 109 100 kc steps The limitations on switching speed are the time constants in the filtering circuits on the supply line to swit
253. xample of settings The reference settings are as follows Attenuator at 80 db 80 415D at 30 X2 60 Meter set at 0 0 Total 140 db The spurious readings are as follows Attenuator at 10 db 10 415D at 40 gain of 20 db 40 60 20 Meter reads 3 1 5 db X2 Total 47 db Signal Spurious 140 47 93 db NOTE The tuned voltmeter is calibrated for an input from a square law device output voltage proportional to power input The db reading must be doubled when using the voltmeter in the circuit of Figure 5 3 That is an indication of 1 db is really 2 db in th s application Disconnect Synthesizer under test and note the noise level This level represents the ultimate sensitivity of the measurement test setup 9 HARMONIC SIGNALS Use 310A Wave Analyzer for signals up to 500 Use equipment shown in Figure 5 3 for frequencies of 500 kc and higher and proceed as follows 1 Connect output of Model 5100A under test to 1 input of 10514 2 Offset reference localoscillator 1 kc from frequency of Model 5100 under test and connect to 355D set to 70 db 3 Connect output of 3550 to R input of 10514A The rest of the test setup is shown in Figure 5 3 4 Adjust 415D for an on scale reading Note meter reading and range setting in db This is the reference reading 5 Offset output frequency of reference Synthesizer 1 kc from frequency of desired harmonic of output Set 355D to 40 db Note The level
254. y and spectral purity of the output Performance data stated above are based on internal frequency stan dard or indicate Synthesizer contribution to overall performance with external standard 1 2 Model 5100A Specifications DIMENSIONS NOTE DIMENSIONS IN INCHES AND IMI LIMETERS 2 RACK HEIGHT INCLUDING FILLER STRIP FOR CABINET HEIGHT NCLUDING FEETI ADO TO CIA RACK HEIGHT B REAR APRON RECESS 2 131425 19483 15 5 76 29 A WEIGHT Net 75 lbs 34 kg Shipping 127 lbs 58 kg EQUIPMENT FURNISHED 05100 6180 Decade Test cable 05100 6066 out put cable 05100 6212 13 cable assembly con nects 5100 Synthesizer to 5110A Driver Per mits rack mounting of up to two 5100A1s im mediately above and or below the 51104 Driver special length cable assembly will be required for other mounting arrangements SPECIAL CABLE If a special length cable assembly is required order spec C05 5110A Specify configuration and length max separation 50 feet Cable is supplied in five ft sections only GENERAL OPERATING TEMPERATURE RANGE 0 to 55 C INTERFERENCE Complies with MIL I 26600 Class 1 and 3 MIL 1 6181D SUSCEPTIBILITY Complies with MIL 1 26600 Class 1 and 3 MIL I 6181D POWER 115 or 230 volts 10 50 to 400 cycles 35 watts each unit independent supplies Interference compliance requires that the 5100A and 5110
255. y of 1 tunes T1 s sec ondary for maximum transfer of 330 Mc signal The synthesized 30 to 31 Mc signal from Mixer Filter A12 is connected to J1 The signal is fed to a filter con sisting of a series resonant circuit followed by a pi network C2 and C7 are adjusted to give equal re sponse to band endpoints 30 and 31 Mc R3 adjusts the bias on mixer diode CR2 The 330 Mc signal on the secondary of T1 and the synthesized 30 to 31 Mc signal are heterodyned in CR1 and CR2 and the resul tant products are coupled to the primary of T2 C4 tunes the primary to select a 360 to 361 Mc signal which is coupled to common base amplifier Q1 C6 is tuned for maximum and also for equal amplitude at bandedges T3isanimpedance matching transformer 4 52 2ND UHF MIXER A22 Schematic Diagram Figure 5 27 4 93 The2nd UHF Mixer operates in a manner sim ilar to the 1st UHF Mixer with the following differ ences Due to the broader band of frequencies that must be handled in the 2nd UHF Mixer more ampli fication is necessary to provide the proper level of output signal Amplifier A1Q1 provides initial amp lification of the selected 30 to 39 Mc signal L3 and L5 are adjusted to provide equal response at the filter band limits 30 and 39 Mcs Following the heterodyn ingof the 360 to361 Mc and the 30 to39 Mc signals in CR1 and CR2 are amplifiers A2Q1 and A2Q2 C4 C6 and C9 are tuned to provide equal response over the 390 to 400 Mc band 4 54 Als
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