Wavetek 1060 Series Sweep Signal Generator Instruction Manual Aug81
:1 if I I 11 J :r J 1 l I I 1 I J J I I Serial No. INSTRUCTION MANUAL 1060 SERIES SWEEP/SIGNAL GENERATOR WAVETEK INDIANA INC 5808 CHURCHMAN, P.O. BOX 190 BEECH GROVE, IN 46107 317 787 3332 (TOLL FREE OUTSIDE IN
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Document DEVICE REPORTWavetek 1060 Series Sweep Signal Generator Instruction Manual Aug81:1 Serial No._ _ _ _ _ _ __ if I I 11 J INSTRUCTION MANUAL :r 1060 SERIES SWEEP/SIGNAL J GENERATOR 1 l I I 1 I J J WAVETEK INDIANA INC I 5808 CHURCHMAN, P.O. BOX 190 BEECH GROVE, IN 46107 317-787-3332 I (TOLL FREE OUTSIDE INDIANA) 1-800-428-4424 8/81 Serial No._ _ _ _ _ _ _ _ _ __ INSTRUCTION MANUAL 1060 SERIES SWEEP/SIGNAL GENERATOR 100 / epOWu Trig off t VUNIER ~ WIDTH o SWEEP RATE IATTEN~ATlONI o , 0 ~-: If out DEtECTOR in I , -MARKERS- SIZE f~"E.Q 0 (!) .--.WIDTH WAVETEK INDIANA INC 5808 CHURCHMAN, P.O . BOX 190 BEECH GROVE, IN 46107 317-787-3332 (TOLL FREE OUTSIDE INDIANA) 1-800-428-4424 8/81 INSTRUCTION MANUAL 1060 SERIES SWEEP/ SIGNAL GENERATOR \lv'AVETEK ®INDIANA INC. 66 N. I st AVENUE, P.O. BOX 190 BEECH GROVE, INDIANA 46107 3 17-783-3221 WARRANTY All Wavetek instruments are warranteed against defects in material and workmanship for a .period of one year after date of manufacture. Wavetek agrees to repair or replace any assembly or component (except batteries) found to be defective, under normal use during this period. Transfermatic Switch assemblies, manufactured by Wavetek, are unconditionally warranteed for the life of the instrument. Wavetek's obligation under this warranty is limited solely to repairing any such instrument which in Wavetek's sole opinion proves to be defective within the scope of the warranty when returned to the factory or to an authorized service center. Transportation to the factory or service center is to be prepaid by purchaser. Shipment should not be made without prior authorization by Wavetek. This warranty does not apply to any products repaired or altered by persons not authorized by Wavetek, or not in accordance with instructions furnished by Wavetek. If the instrument is defective as a result of misuse, improper repair, or abnormal conditions or operations, repairs will be billed at cost. Wavetek assumes no responsibility for its product being used in a hazardous or dangerous manner either alone or in conjunction with other equipment. High voltage used in some instruments may be dangerous if misused. Special disclaimers apply to these instruments. Wavetek assumes no liability for secondary charges or consequential damages and, in any event, Wavetek's liability for breach of warranty under any contract or otherwise, shall not exceed the purchase price of the specific instrument shipped and against which a claim is made. Any recommendations made by Wavetek for use of its products are based upon tests believed to be reliable, but Wavetek makes no warranty of the results to be obtained. This warranty is in rieu of all other warranties, expreSsed or implied, and no representative or person is authorized to represent or assume for Wavetek any liability in connection with the sale of our products other than set forth herein. SCOPE OF THIS MANUAL This manual provides descriptive material and instructions for the installation, operation, maintenance, and repair of the Wavetek 1060 Series Sweep/Signal Generator. This document contains information proprietary to Wavetek. The information in this document is not to be used or duplicated in any manner without the prior approval in wr.iting of Wavetek. 1060 SERIES CONTENTS SECTION 1 - GENERAL INFORMATION 1.1 INTRODUCTION 1.2 SPECIFICATIONS 1.3 OPTIONS 1.4 ACCESSORIES SECTION 2 - OPERATING INSTRUCTIONS 2.1 INTRODUCTION 2.2 INSTALLATION 2.3 DESCRIPTION OF FRONT PANEL 2.4 DESCRIPTION OF REAR PANEL 2.5 TYPICAL OPERATING SETUP 2.6 SPECIAL OPERATING NOTES 2.7 EXTERNAL PROGRAMMING SECTION 3 - THEORY OF OPERATION 3.1 INTRODUCTION 3.2 SIMPLIFIED BLOCK DIAGRAM 3.3 POWER SUPPLY 3.4 SWEEP RATE 3.5 SWEEP DRIVE 3.6 OSCILLATOR LEVELER 3.7 SWEEP OSCILLATOR 3.8 LEVEL MODULATOR 3.9 BIRDY AMPLIFIER 3. 10 INTERNAL MARKERS 3.11 EXTERNAL MARKER 3.12 PULSE MARKERS 3.13 PILOT CARRIER NOTCHES AND TILT CONTROL 3.14 TILT CONTROL SECTION 4 - MAINTENANCE 4.1 INTRODUCTION 4.2 SERVICE INFORMATION 4.3 PERFORMANCE CHECKS & CALIBRATION 4.4 TROUBLESHOOTING 4.5 MARKER INSTALLATION 1060 SERIES CONTENTS (continued) SECTION 5 - REPLACEABLE PARTS 5.1 INTRODUCTION 5.2 MANUFACTURERS CODE *** PARTS LISTS SECTION 6 - SCHEMATICS 6. 1 INTRODUCTION 6.2 SCHEMATIC NOTES 6.3 ABBREVIATION CODE 6.4 SCHEMATIC INDEX *** SCHEMATICS CHANGE INFORMATION, IF ANY, IS LOCATED AT THE REAR OF THIS MANUAL. 1060 Series 1 SECTION GENERAL INFORMATION 1.1 INTRODUCTION The Wavetek 1060 Series is a family of rugged, low cost, solid state sweep generators covering the frequency range of I to 400 MHz. The Models 1061 and 1062 are general purpose sweep generators designed for a variety of applications, while the Models 1066 and 1067 are designed primarily for CATV use. Each unit features 20 dB PIN diode leveling and remote programming of center frequency, sweep width, and output level. Up to five crystal controlled marker modules may be plugged into the unit. These modules are controlled by convenient front panel ON/OFF switches. Marker amplitude and width controls enable optimum adjustment of the marker display. Additionally, an external marker option can provide a marker by combining an external CW source with a sample of the sweep oscillator signal. Other optional features include an adjustable Pilot Carrier Notch control, and a sweep display Tilt control for use in CATV applications. The 1060 Series features modular plugin construction, which allows optional features to be factory installed at the time of purchase, or customer installed at a later date. This concept offers protection against obsolescence since updated and additional features can be easily and economically added as new requirements dictate. 1.2 SPECIFICATIONS 1.2.1 RF SPECIFICATIONS Frequency Range Operating Modes · Frequency Dial . . . · 1 to 400 MHz · Sweep and CW calibration · · · · 50 ~1Hz intervals accuracy ·· 20 MHz Sweep Width · · · · · · · 200 kHz to 400 MHz Display Linearity · Spurious Signals · 2% (Fundamental - 10 to 400 MHz) harmonic · 30 dB below the output non-harmonic 30 dB below the output Residual FM · · · Drift · · · · · · · less than 20 kHz · 100 kHz/5 minutes - 2 MHz/8 hours (after ~ heur warmup at constant temperature. and allowing a 5 minute stabilizing period after a frequency change.) Blanking · · · · · · · · · · · · · · Retrace blanking of the RF output pro- vided for sweep operation. Removed for CW operation. 1-1 GENERAL INFORMATION 1060 Series RF Output Amplitude Models 1061 and 1062 · Continuously adjustable from +10 to level calibration -60 dBm. · 50 dB in 10 dB steps; 20 dB vernier with ac(;uracy ···· o to -15 dB calibrated in 1 dB increments · Vernier: ±1 dB RF Output Amplitude Step Attenuator: ±.2 dB/10 dB step Models 1066 and 1067 · Continuously adjustable from +57 to -13 level calibration dBmV. · 50 dB in 10 dB steps: 20 dB vernier with +7 to -7 dBmV calibrated in 1 dB incre- . . . . . . . . . . accuracy ments. Vernier: ±1 dB RF Output Impedance Step Attenuator: ±.2 dB/iO dB step Models 1061 and 1062 Models 1066 and 1067 . . · · son standard (75 n optional) · · 75n only RF Output Flatness DC Blocking · · · · · Internal RF Detector Models 1061 and 1062 Models 1066 and 1067 · · ±.25 dB (measured with Wavetek detector) · Models 1066 and 1067 include a DC block (100 V max.) in the RF output line. · · 50 n standard (75 n optional) · · 75 n only (Each contains a DC block) 1.2.2 SWEEP Models 1062 and 1067 · · · · · · · · Models 1061 and 1066 · · · · · · · · Modes: Repetitive sweep, single sweep, externally triggered sweep, line locked sweep Rates: continuously variable from less than 0.5 Hz to more than 60 Hz. Line locked, 50 or 60 Hz. 1.2.3 SCOPE HORIZONTAL 10 Vpp triangular waveform (symmetrical about ground). 1.2.4 RF MARKERS Pulse and birdy type markers are provided by plug-in "A" options. Six sockets are provided for these options. Birdy marker modules use one socket; pulse markers use two. Marker Modules Birdy Markers Al Option · · · · · · eo · · · · · Single frequency markers at any frequency within the instrument frequency range (Module M6S- ). 1-2 1060 Series GENERAL INFORMATION A2 Option · · · · · · · · · · · · · · Harmonic or comb type markers at 1, 10, 50 MHz and a double .marker which contains markers at .1 and 1 MHz. Other frequencies available on special order (Module M6H- ). A3 Option · · · · · · · · · · · · · · External marker provides a marker by combining a CW source supplied by an external source and a sample of the sweep oscillator signal. A connector mounted on the instrument rear panel requires a signal of .1 V into 50 ohms from an external source to produce a marker. (Uodule M6C). Pulse markers A4 Option · · · · · · · · · · · · · Single frequency markers between 35 and 52 MHz. Up to 5 pulses per module selected by plug-in crystals (ModuleM13J). Marker switching Four front-panel switches control the 6 Marker sockets in the following manner. Marker socket a · · · · · · · · · · · This socket is always "on" and is normally used for option A3. Marker socket b, c, d · · · · · · · · These three sockets are individually turned on by the top three front-panel buttons. . . . . . . . Marker sockets e and f These two sockets are turned on together by the bottom front-panel button and are normally used for option A4. Marker size Adjustable approximately from 2 mVpp to 2 Vpp. Marker Width Pulse · Birdy · . . . . · "'80 llS . . . · adjustable, "'100 to 400 kHz Marker Accuracy . . . . . . Pulse · '. · · · . . . . . Birdy · · · · · · · · · 0.02% (at leading edge) · 0.005% (at center) 1.2.5 Programming The rear-panel REMOTE j ook provides for remote control of center frequency, sweep width, and 20 dB of the output level. The connections can also be used to provide external AM or FM as specified in Table 1-1. 1-3 GENERAL INFORMATION 1060 Series Also provided is access to +18 V (30 mA) , blanking and SCOPE HORIZONTAL signals, plus an input for triggering the sweep rate generator (requires +10 V pulse). Table 1-1. External Modulation AM- Percent · · · · · · · · · · · · 90% max Modulating Frequency · DC to 25 kHz Sensitivity · · · · · · 9% AM per volt Input Impedance · · · · · · · 10 kfl Note: The output level must be reduced by at least 6 dB by the VERNIER control to allow 90% modulation. FM- Input Impedance · · · · · · · · 10 kfl Sensitivity · · · · · · · · · · · · 50 MHz per volt Dev~ation · · · · · entire range of instrument Modulating Frequency · · DC - 4 kHz at above deviation, up to 100 kHz with reduced deviation and linearity 1.2.6 POWER REQUIREMENTS 115 or 230 VAC ±10%, 50 or 60 Hz,. 25 VA max. 1.2.7 MECHANICAL Coaxial Connectors Models 1061 and 1062 Models 1066 and 1067 · · Type BNC · · Type F. 1. 2.8 . . . Width · · · · · · Height · · . · · · · · · · Depth ·· · · · ·· · ·· ·· · ·· ·· Weight · · · · · · · · · 11~" (28.6 cm) 4" (10.2 cm) · 10~" (26.7 cm) 8~ lb. (3.7 kg.) ENVIRONMENTAL · · · · Specifications apply at 250 C ±50 C. The instrument will operate over the range of OOC to 500 C. 1.3 OPTIONS 1. 3.1 "A" Options For specifications of frequency markers see section 1.2.4. 1.3.2 "B" Options The instrument has prov~s~ons for including one of the following "B" options. The options are mounted inside the rear panel through which any required controls are accessible. 1-4 1060 Series GENERAL INFORMATION B2 - Pilot Carrier Notches and Tilt control This option applies to instruments used in CATV applications. The output is blanked at two adjustable frequencies. A single ON/OFF switch is located on the rear panel. Two external controls de- te1;"mine the notch frequency. An internal adjustment determines the notch width between 3 and 10 MHz (this option includes Option B3, Tilt control). . . . . . . . B3 - Tilt Control This option can be used to siIilUlate or compensate for cable losses. Depending on the output VERNIER setting, the high- est frequency of the sweep display can be increased by 6 dB or decreased by 20 dB, referenced to the lowest fre- quency of the sweep display. Rear panel controls include an ON/OFF switch and a variable TILT control. 1.4 ACCESSORIES 1.4.2 Accessories Available: . . . . . Wide Band RF Detectors Model D151 for 50 ohm impedance and Model DI71 for 75 ohm impedance (both have BNC connectors) Rack Mount K~o t · · · · · · · · · K015 enables unit to be mounted in a 19" wide rack. 1-5 1060 Series 2 SECTION OPERATING INSTRUCTIONS 2.1 INTRODUCTION This section covers electrical and mechanical installation, description of front and rear panels, instructions for operation and external programming. 2.2 INSTALLATION 2.2.1 Mechanical Installation INITIAL INSPECTION After being unpacked, the instrument should be inspected for physical damage. A procedure for checking the electrical performance is given in Section 4. The shipping container and packing material should be saved in case it becomes necessary to reship the unit. If the unit is damaged or does not meet its electrical performance specifications, notify the nearest Wavetek area representative or the factory in Indiana. If the shipping container shows damage, notify the carrier. Retain the shipping container and packing material for the carrier's inspection. In either case, the factory or area representative will arrange for immediate repair or replacement of the instrument without waiting for damage claim settlements. RACK MOUNTING The K015 rack mount kit makes it possible to mount the unit in a standard 19" wide instrument rack. The kit includes the parts listed in Table 2-1. To rack mount unit, first fasten both sides (items B,D) to bottom tray (item C) using screws provided with kit (item E) as shown in Figure 2-1. Position instrument on the tray so that the feet TABLE 2-1. K015 Parts List Item A B,D C E F G Description Wavetek P/N TQ Top Tray COOl-384-2 1 Side COOl-3S-3 2 Bottom Tray COOl-384-1 1 Screw, 6-32x3/8" HS101-606 12 Handle HH101-000 2 Screw, 10-32x1/2" HS103-908 4 F Figure 2-1. Rack Mounting 2-1 OPERATING INSTRUCTIONS 1060 Series fit into the provided holes. Fasten top tray with remaining screws. 2.2.2 Electrical Installation This instrument operates from either 115 volt AC or 230 volt AC supply mains as selected by a slide switch located on the rear panel. Before operating the instrument, check that the fuse mounted in the rear-panel fuse holder corresponds to the correct value for the selected voltage; i.e., ~ amp for a 115 volt AC, and !to amp for 230 volt AC. The power supply has been designed to operate from either 50 or 60 Hz supply' mains. Instruments are shipped from the factory for operation at 115 volt AC, 60 Hz unless specified for 230 volt AC, 50 Hz operation. The electrical performance of this instrument should be verified. Performance checks for incoming inspection are given in Section 4, Maintenance. 2.3 DESCRIPTION OF FRONT PANEL Refer to Figure 2-2. f'i\POWER ON/OFF switch applies AC line \.J voltage to instrument powe"t'supply. Red LED light indicates poweL is on. CD .FREQUENCY control adjusts center frequency of output. CD VERNIER control provides fine adjustment of output center frequency. f4\ SWEEP WIDTH control adjusts the \.J range of frequency over which the instrument is sweeping. Full counterclockwise rotation of this control will switch the instrument onto continuous wave operation. CD OUTPUT STEP ATTENUATOR adjusts output in 10 dB steps. 2-2 f6\ OUTPUT VERNIER ATTENUATOR ~ adjusts ~ output continuously over a 20 dB range (first 14 dB calibrated). o MARKER SIZE control adjusts size of marker display. CD MARKER WIDTH control adjusts width of marker display. o MARKER switches turn markers on or off. indicated f~ '::;\ SCOPE HORIZ OUT provides the hor.... izontal signal for an oscilloscope display. I'li:'\ SCOPE VERT OUT provides the detected ~ signal (with markers) for an oscilloscope display. @ DEMOD IN accepts detected RF signal from external detector. @ DETECTOR IN accepts RF signal and feeds it to the instrument's internal detector. @ RF OUT provides the instrument RF sweep output. f~ ,";;'\ SWEEP RATE control adjusts the repetition rate of the instrument sweep (Models 1062 and 1067 only). I'i6\ TRIG / RECUR switch provides ~ either continuous recurring sweep or single sweep operation (Models 1062 and 1067 only). 2.4 DESCRIPTION OF REAR PANEL Refer to Figure 2-3. ~ NOTCH FILTER controls provide ad- \V justment of notch frequency (B2 option). ~ TILT control adjusts degree of ~ tilt of output (B3 option). ~ OPTION ON/OFF switch turns the ~ installed options on or off (H2, B3 option). 1060 Series OPERATING INSTRUCTIONS Figure 2-2. Front Panel o 9 AS lINI VOLTAGE 8(![]@ Figure 2-3. Rear Panel 2-3 OPERATING INSTRUCTIONS 1060 Series ~ ~ EXT nal MARKER input accepts an exterCW signal used to generate a marker at an externally determined fre- quency. f!5\ AC LINE switch selects 115 V or ~ 230 V line operation. f6\ AC LINE FUSE is ~ amp for 115 V op- \.V eration, ~ amp for 230 V operation. ~ AC LINE INPUT connects instrument ~ to AC mains via 3 prong plug. ~ REMOTE jack provides connections ~ for remote control of center frequency, sweep width, and 0 to 20 dB of attenuation. 2.5 TYPICAL OPERATING SETUP When initially setting up instrument, first check rear-panel AC LINE voltage selector switch and fuse to inSure that the instrument is set for operation with the available AC mains. Make connections between the Sweep Generator, the device under test and the oscilloscope as shown in Figure 2-4. Since hum, RF leakage and spurious signal pickup must be kept to a minimum, it is essential that good connections and grounds be maintained throughout the entire setup. Use coaxial cables with appropriate RF connectors wherever possible. The RF OUt!put cable is especially critical. It should match the output impedance of the sweep generator and should be kept as short as practical (under 3 feet). If the input impedance of the device under test is not the same as the sweep generator output impedance, a matching network (Figure 2-4) should be used to insure that a constant amplitude input signal is sent to the device under test. After the RF signal passes through the RF circuit of the devi~e under test, it must be demodulated before being displayed on the scope. If a detector is not part of the device under test, the RF signal can be detected by an external detector or the internal detector provided as part of the sweep generator. External detectors are available from Wavetek for both 50 and 75 ohm applications (BNC connectors only). When using the internal detector, the DEMOD IN connector should have no input connected. If the detector being used is a highimpedance detector or has a DC component, the internal detector must be disconnected from the DEMOD IN connector. Switch POWER on. The red pilot light should light, indicating an operating condition. (NOTE: This instrument does not require a warmup period unless it is to be used at the extreme limits of its specifications.) After completing the setup, adJust the sweep generator controls for the required center frequency, sweep width and output amplitude. Turn the desired markers on, and adjust their size and width. 2.6 SPECIAL OPERATING NOTES ERRORS FROM SWEEP RATE EFFECTS When RF circuits having rapid amplitude changes are swept, errors may occur due to detector delays. Decreasing the detector output time constant will minimize this effect. 2-4 1060 Series OPERATING INSTRUCTIONS MODEL 1060 RF DET DEMOD OUT IN IN 0 I I I MATCHING EXT NETl-lORK RF DET I DEVICE UNDER TEST JI _ _ I- _ _ SCOPE VERT HORIZ 0 0 OSCILLOSCOPE 0 H V Figure 2-4. Typical Operating Setup "..--. ADD "-. 10K MARKER SIZE IC7A -i I- [j] --I t-; lIe7 -; l~ Lev~'i n ~ t- I- It- .01 llF F. p.l===~=~===f - Figure 2-5. Marker Level Modulation Modification 2-5 OPERATING INSTRUCTIONS EFFECT FROM OVERLOADING The use of excessive input signals to the device under test can cause overloading, which yields a distortedresponse. To prevent this, first turn the attenuation controls to minimum output amplitude. Gradually increase the output amplitude until a response is obtained. Further increase of the output amplitude should not change the shape of the response envelope except in amplitude. If the response envelope .does change (e.g., flatten at the top) decrease the signal just far enough to restore the proper shape. MAKING MEASUREMENTS AT LOW LEVELS When making measurements at low leyels, radiation and ground loops are problems. Using double shielded cables for RF signals helps m~n~m~ze the radiation problem. Ground loops causing hum pickup can sometimes be eliminated by completing only one ground connection between each instrument. This applies particularly to the oscilloscope. If the ground connection is made at the vertical input terminal, an additional ground at the horizontal input terminal will often result in hum pickup. MARKER GENERATION BY LEVEL MODULATION Birdy markers may be used to modulate the RF output signal. This .permits viewing frequency markers on the detected response without having to return the detected signal to the marker adder in the sweep generator. This is useful when the detector and scope display are remote to the sweep generator. In order to accomplish this, the instrument should be modified by adding a 43 kn resistor and a .01 uF capacitor in series between the wiper of the MARKER SIZE pot (front panel) and the inverting input (pin 6) of the Leveler IC on the PC Board. Refer to Figure 2-5 for suggested hookup. 2-6 1060 Series ~3 Center Frequency (F. P. FREQUENCY 10 k control set at ~9 200 MHz) ~4 Sweep Width (F.P. SWEEP WIDTH control set at 10 k min) Output Amplitude (F.P. OUTPUT VERNIER ATTENUATOR 10 k set at max) ~10 ~9 ~ll . ?3 ~6 ~4 External FM External AM Figure 2-6. External Programming 1060 Series OPERATING INSTRUCTIONS Figure 2-7. Suggested Active External Programming Circuit 2.7 EXTERNAL PROGRAMMING The rear-panel REMOTE jack is provided for remote control of center frequency, sweep width, and output amplitude. A 10 kilohm pot should be wired as shown in Figure 2-6 in order to control the desired function. Front-panel controls must be set as indicated to allow proper operation of the remote controls. If both center frequency and sweep width are to be remotely controlled, an active circuit, such as is shown in Figure 2-7, will be necessary. NOTE For external AM, the modulating signal is fed into the Level contro1, pi n 6 (pi n 1 is ground). For external FM, the modulating signa1 is fed into the Center Frequency control, pin 9. Refer to Section 1.2.5, Table 1-1 for Externa1Modul ati on speci fi cati ons. 2.8 OPTION B2 - PILOT CARRIER NOTCHES AND TI LT CONTROL This option generates pulses which blank the RF output at two frequencies within the instrument range. These pulses (notches) may be positioned at the pilot carriers for systems with fast AGe, or maybe used as frequency markers at channel or band edges. The option is put into operation by means of the rear-panel ON/OFF switch. The pulse (notch) frequency is set using NOTCH POSITION controls 1 and 2 on the rear pane1. Notch Width can be adjusted from 3 to 10 MHz using internal adjustment R8. This option also includes Option B3, Tilt Control, described in Section 2.9. 2-7 OPERATING INSTRUCTIONS 1060 Series Max. ~---------------- Frequency Max 1- 6dB -.-- __ - __1- Frequency Max~ --------l- 20dB L Frequency Figure 2-8. Instrument Output Using Tilt Control 2-8 2.9 OPTION B3 - TILT CONTROL This option enables the RF output to be tilted in order to compensate for system tilt or to simulate cable losses. The option is turned on with the rearpanel ON/OFF switch. The amount of tilt is determined by the rear-panel TILT control. The highest frequency of the sweep display may be increased by up to 6 dB or decreased by up to 20 dB, referenced to the lowest frequency of the display (See Figure 2-8). The front-panel OUTPUT VERNIER ATTENUATOR must be adjusted such that the 20 dB OUTPUT VERNIER ATTENUATOR range is not exceeded at the high frequency end of the display. EXAMPLES: For a 6 dB increase of output at the high frequency end, the OUTPUT VERNIER ATTENUATOR must be set at +1 or less (Models 1066, 1067), or between 6 and 20 (Models 1061, 1062). For a 20 dB decrease, the OUTPUT VERNIER ATTENUATOR must be set at +7 (Models 1066, 1067), or at 0 (Models 1061, 1062). NOTE If a Model 1075 RF Comparator is being used in conjunction with a 1060 Series Sweep Generator, Option B3 is disabled. 1060 Series 3 SECTION THEORY OF OPERATION 3.1 INTRODUCTION This section includes a brief description of the main blocks of circuitry. This is followed by a more detailed description of each circuit. The physical location of modules and circuits is covered in Section 4 (Figures 4-5 and 4-9). 3.2 SIMPLIFIED BLOCK DIAGRAM The main blocks of circuitry are shown in the Instrument Wiring Diagram in Section 5 of this manual, which also includes the schematic of the Main PC Board. The swept RF output of the instrument originates in the Sweep Oscillator. The ramp voltage necessary to drive the Sweep Oscillator comes from the Sweep Drive circuit. The triangle wave for the SCOPE HORIZONTAL output and for the Sweep Drive circuit comes from the Sweep Rate circuit. The optional M6 marker modules generatebirdy markers which are ultimately added to the demodulated RF signal and sent to the SCOPE VERTICAl,OUTPUT. During the discussion of each circuit it may be helpful to refer to the appropriate schematic in Section 5. 3.3 POWER SUPPLY T201 has two secondary windings to provide AC power to the two full wave rectifiers which supply approximately 30 VDC to the 18 V regulators. lC2 is a 3 terminal voltage regulator, and, with error amplifier lelA, provides the regulated +18 V. This supply is protected against reverse voltage by CR7. IC3 and ICIB supply the regulated -18 V. Reverse voltage protection is furnished by CR8. The +10 V supply is provided by regulator IC4, while -10 V is supplied by IC5, a unity gain inverting amplifier having a +10 V input. The transformer secondary for the -18 V supply provides the line rate input for the Sweep Rate circuit. 3.4 SWEEP RATE In Models 1061 and 1066, a Line Rate Card is provided. This circuit provides a line rate triangle wave and a synchronized square wave. In Models 1062 and 1067, a Rate Generator Card is furnished. This circuit generates variable rate square and~ri angle waveforms. Front-panel switching provides recurring sweep or triggered mode operation. 3.4.1 LINE RATE CARD The voltage from the transformer is clipped by CR1 and 2 and fed into comparator IC1A. A square wave is produced by the op amp alternately saturating at its positive and negative output levels (~±16 V) as the input crosses zero volts. This signal provides blanking for the Oscillator .Lev:elerand Sweep Oscillator circuits. The blanking signal is integrated by lC1B which provides a +5 V to -5 V triangle wave. This signal is applied to the SWEEP WIDTH control as well as the SCOPE HORIZONTAL Output of the instrument. 3-1 THEORY OF OPERATION 3.4.2 RATE GENERATOR CARD a). Line Rate With the SWEEP RATE control in the LINE (detent) position, a trigger. pulse (deve~oped from the 27 VAC secondary of T20I) initiates the comparator/integrator on one cycle of operation. At the end of the cycle there is a delay until the next trigger pulse arrives. Clamp control RIB determines this wait time. b). Variable Rat~ With the TRIG/RECUR control on RECUR, Sweep Rate control RIOI controls the integrator charging time, thus determining the 2 to 60 Hz variable rate. R31 provides for calibration of the sweep rate. c). Trigger When the TRIG/RECUR switch is in the center positiotl , . and the SWEEP RATE control is not detented to LINE, the sweep is held off until a trigger pulse occurs. A pulse occurs when +10 V is momentarily applied to pin 7 of. the rear-panel REMOTE jack or the TRIG/ RECUR switch is manually pushed to the uppermost .(momentary) position. One sweep cycle occurs for each trigger. The output of comparator IC2A is a square wave that is used for blanking. The square wave is integrated by ICI and its associated circuitry, thus providing the triangle wave for the SCOPE HORIZONTAL output and the Sweep Drive. 3.5 SWEEP DRIVE The function of the Sweep Drive circuit is to convert the SWEEP WIDTH and CENTER FREQUENCY programs into the appropriate signal for driving the Sweep Oscillator module. The CENTER FREQUENCY program .and the triangle wave SWEEP WIDTH program are summed at the input of IC6A. The output signal (24Vpp maximum) is applied to a shaping network wh·ich includes QIO and CRIO, 11, 12 and 13. QIO is a constant 1060 Series current source which ultimately determines the level at which the shaping diodes conduct. The potentiometers connected to the diodes are controls for "bending" the otherWise linear Sweep Drive ramp. This compensates for nonlinearity of the varactor diodes in the Sweep Oscillator. IC6B is a buffer which allows for calibration of the maximum amplitude of the Sweep Drive signal. 3.6 OSCILLATOR LEVELER This circuit is an error amplifier for the Sweep Oscillator which keeps the RF amplitude constant over the frequency range. It also includes a VERNIER level control. The inputs to the Leveler are a negative detected RF signal from the monitor diode in the Oscillator module and a DC level from the OUTPUT VERNIER ATTENUATOR. R82 determines the maximum voltage that can be applied from the OUTPUT VERNIER ATTENUATOR to the opamp. The setting of R85 becomes more relevant as the voltage from the OUTPUT VERNIER ATTENUATOR becomes less negative. IC7B compares its two inputs and amplifies any deviation of the monitor signal from a constant level. This provides current for the PIN diode attenuator in the oscillator. QII, driven by the blanking signal, closes the feedback loop around the Leveler causing essentially zero gain. This prevents the Leveler from overdriving the PIN diode attenuator during instrument retrace when the monitor signal should be zero volts. 3.7 SWEEP OSCILLATOR (MODULE M9Y-l/ M9YA-l) The sweep signal on the 1060 series is generated by heterodyning the output of a UHF Sweep Oscillator circuit with the output of a 1 GHz fixed frequency (CW) oscillator in a diode mixer. The difference frequency in the 1 to 400 MHz range is amplified by 3 wide-band amp- 3-2 1060 Series lifier stages. An electronic PIN diode attenuator, providing vernier RF level adjustment, is controlled by the Oscillator Leveler (Section 3.6) which is regulated by a voltage from the monitor diode. The output of oscillator Q1, (approximately 1000 MHz) is coupled through inductor L2 to L3 which is tied to opposite terminals of the double-balanced mixer consisting of diodes CR1, 2, 3, and 4. Ql1 sweeps a frequency of approximately 1000 MHz to 1400 MHz. The sweep drive voltage from pin 9 of the module is applied to the varactor diodes, decreasing their junction capacitance, thereby causing the oscillator frequency to vary from low to high. The Sweep Oscillator output is coupled to the other terminals of the double balanced mixer through inductor L11., The resultant difference frequency is then amplified in the I to 400 MHz range by the wide band preamplifier stage consisting of tran-. sis tor amplifier Q2 and emitter followers Q3 and Q6. Transistor switches Q4 and Q5 provide RF blanking by turning off the wide-band preamplifier during sweep retrace time. Two RF outputs are provided from the wide-band preamplifier. One output from Q6 (designated Sweep Sample) is coupled via R17 and C10 to a wide-band amplifier consisting of Q7, 8, 9,and Q16. Q16 is used as an emitter follower, and the output is provided at J2 as a sourc: for the marker generating circuits. Another module output ( Aux o RF) comes through the same wide-band amplifier, but Q16 is used in the common emitter configuration. This output is thus further amplified and is provided at J4 as a source for Option A4. IC1 and its associated circuitry make up a leveler for both the Sweep Sample and Aux. RF outputs. This circuit works in a manner similar to the Oscillator Leveler. The other RF output signal from Q6 (designated RF Z50 for Models 1061, 1062, or RF Z75 for ~lodels 1066, 1067) THEORY OF OPERATION is coupled through R18 and C8 to the electronic attenuator consisting of PIN diodes CR12 and CR13 which provide variable RF conduction proportional to the positive current supplied from the I Leveler circuit. The monitor diode, CR14, near the RF output jack, provides to the non-inverting input of the Leveler, a negative DC voltage proportional to the RF output level. Three wide-band amplifier stages, Q12, Q13 and Q14 amplify the signal from the electronic attenuator by about 40 dB, with reduced frequency response below I MHz and above 400 ~1Hz. Since the closed loop leveling system establishes zero impedance at the monitor point, R66 determines the output impedance. 3.8 LEVEL MODULATOR The output signal level of the instrument may be externally modulated. The modulation signal is applied to pin 6 of the rear-panel REMOTE jack. This sig- nal is then internally applied to the OUTPUT VERNIER ATTENUATOR control through Level Modulator IC7A, thus accomplishing level modulation of the RF output signal. 3.9 BIRDY AMPLIFIER This circuit amplifies the small birdy signals from the M6 marker modules to a useable level for superimposing on the demodulated RF signal. Q1 and Q3 amplify the small ( 10 mV) signals from the M6 marker modules by about 7.. The two inputs are added and fed to Op Amp Q4, 6, and 7 for further gain. The push-pull output stage then amplifies the signals to produce saturated birdies. R45 and 46 drop the signals to about 2 Vpp at the MARKER SIZE pot. Counterclockwise rotation of the MARKER WIDTH control tends to turn on Q2 and Q5, which respective~ ly shunt and feed back the higher ire..., quencies thus causing the birdies to be narrower. 3.10 INTERNAL MARKERS (OPTIONS Al AND A2) Single frequency markers (M6S) produce 3-3 THEORY OF OPERATION single birdy markers at any desired frequencies of the sweep generator. Harmonic markers (M6H) produce birdy markers at the fundamental and every mUltiple of the fundamental frequency. The M6 receives a sample of the swept RF signal from the sweep os.cillator. When power is applied to the module, the birdy marker is generated and sent to the Birdy Amplifier circuit. Each marker module contains a crystal oscillator, a mixer and a birdy preamp. The M6H also has a harmonic generating stage. The different crystal oscil~ lators used can generate from 1 to 55 MHz CWo The M6S can generate a higher frequency birdy by saking a harmonic of the crystal frequency. The output from the crystal oscillator ( or harmonic generator) is combined with the sweep sample in the mixer stage. In the case of single frequency markers, the mixer includes a tuned circuit which selects the frequency from which the birdy will be generated. In the case of harmonic markers, the mixer is untuned. The mixer circuit is generally a diode mixer, although transistor mix~ ers are sometimes used. A zero beat occurs when the swept signal frequency is the same as that of the CW signal. The difference frequency on either side of the zero beat is a swept low frequency signal. This signal is amplified in a stage having a bandwidth no greater than 800 kHz. 3.11 EXTERNAL MARKER (OPTION A3) This module (M6C) generates a single birdy marker at the frequency of a .CW signal which is provided externally. The external CW signal is mixed with a sample of the swept RF signal from the sweep oscillator module. The resulting signal sweeps .from high to low and a zero beat occurs at the point in .time when the sweep sample frequency is the same as that of the CWo This signal then sweeps high in frequency. The lower frequency around the zero beat is 3-4 1060 Series amplified by Q1 with a bandwidth of less than 800 kHz. This birdy marker is then sent to other circuitry for further amplification. 3.12 PULSE MARKERS (OPTION A4) This module (M13J) generates up to 5 pulses between 35 and 52 MHz. These are generated by sweeping a set of crystal filters with the Aux. RF output from the M9Y-1/M9YA-1, detecting the response, and triggering a comparator to develop pulses. The pulse output is added to the detected RF response by means of the marker adder system. 3.13 PILOT CARRIER NOTCHES AND TILT CONTROL (OPTION 82) The RF output is blanked at two adjustable frequencies. The limit comparators determine the width and location of the notch. The horizontal ramp causes the comparators to switch as they pass through preset limits - one limit being a V, the other determined by the Notch Width control.· Notch position is determined by the rear-panel controls. The positive pulse output is added to the blanking signal through diodes CR 1 and CR 2 , thus effectively blanking the output signal at the preset notch positions. 3.14 TILT CONTROL (OPTION 83) The tilt circuit provides a ramp to the Level Programming input (pin 6 of the rear-panel RIDfOTE jack) causing a linear increase or decrease in .output amplitude with respect to frequency. The amount of tilt (i.e. the actual change of the RF output at the highest frequency of the sweep display) does not change with sweep width. The horizontal ramp is inverted and attenuated by IC1A, and is inverted again by IC1B. The outputs of IC1A and IC1B are summed across the rearpanel TILT control (R6) to determine the tilt circuit ramp. The pivot point of the horizontal ramp is determined by Offset control R2 · 1060 Series 4 SECTION MAINTENANCE 4.1 INTRODUCTION This section provides information for testing, calibrating and troubleshooting the sweep generator. The performance test is designed for incoming inspection and periodic evaluation. If performance is not to specifications, refer to the calibration information in itaZics which immediately follows a performance check. If no such information is given, the unit must be recalibrated at the factory. 4.2 SERVICE INFORMATION 4.2.1 Removal of Cabinet Turn the unit upside down and remove the four screws in the bottom of the unit. Turn the unit right side up and lift off the top. 4.2.2 Module Servicing Module Mounting - Modules are mounted on a side panel which can be lifted out when the two rear-panel screws are removed. This facilitates module checkout and maintenance under operating conditions. (See Figure 4-9). Removal of Module - A module may be removed by removing any cables attached to the top of the module and removing the single hold-down screw from the bottom. Removal of Module Cover-Remove all nuts and washers from the top of the module and slide the cover off. Reinstalling Module - Before reinstalling the module, check the module pins for proper alignment, then carefully seat the module pins into the chassis socket and replace the hold-down screw to ensure a good ground connection between module and chassis. Module Pin Number System - The module pins are numbered as shown in Figure 4-1. The module base mounting screws are located off center and are used as a reference for locat.ing pin No. 1. 4.2.3 Component Lead Configurations Transistor and I.C. lead configurations are shown in Figure 4-2. 4.2.4 Recommended Test Equipment The test equipment recommended for servicing, troubleshooting and calibrating this instrument is shown in Table 4-1. BOTTOM VIEW Figure 4-1. Module Pin Numbering 4-1 MAINTENANCE 1060 Series 2NS179 M30 Cat E SHIELD..! MPS3702 2NS088 E Be MC14S8 IC4558 -I 3 2 741C ~-'-......... 2N3I54A 2N5306 ~I;J: c ~ lD101 2N5458 2N5461 EC · EC · D5 G or 5 DG Figure 4-2. Transistor &IC Le~d Configuration 2N3644 2N4250 C· E TABLE 4-1. RECOMMENDED TEST EQUIPMENT INSTRUMENT Oscilloscope Digital Voltmeter Power Meter Spectrum Analyzer Precision Attenuator Pads CRITICAL REQUIREMENT DC coupled 0.1% accuracy Frequency Range 10 to 1500 MHz Frequency Range 10 MHz to 3 GHz 10 dB 20 dB 40 dB RECOMMENDED Tektronix Series 5100 Weston 1240 HP432A/478A HP8555A/8552A Weinschel 50-10 Weinschel 50-20 Weinschel 50-40 Matching Pad (75 ohm units only) Minimum Loss 75 to 50 ohms Wavetek M175 4-2 1060 Series Harmonic Marker Generators TABLE 4-1. Continued 1 MHz 10 MHz 50 MHz MAINTENANCE Wavetek M6H-1 Wavetek M6H-10 Wavetek M6H-50 CW Signal Generator Tunable to any frequency within the frequency range of the sweep generator. Accuracy ±5 MHz Output 0.1 V 4.3 PERFORMANCE CHECKS AND CALIBRATION 4.3.1 Introduction The following procedure is intended to ensure that the instrument meets its published specifications. If it does not, it can be calibrated according to the instructions in italics. The checks specified assume that the instrument is equipped with A-2 options for markers at 1, 10, and 50 Mllz. While it is possible to check the instrument's performance without the use of harmonic markers by using suitable external CW sources, a complete check by this method is impractical. The required performance is shown in Section 1.2, Specifications. If aalibration becomes necessary~ remove the aabinet as instruated in Section 4.2.1. With the unit cover removed~ all adjustments are aacessible. Refer to Figure 4-6 for adjustments and test points. In general~ calibration must be performed in the sequence given. 4.3.2 Power Supplies The +18 and -18 volt supplies are fixed voltage supplies, no adjustment is required. Check each to ensure that it measures between 17.8 and 18.2 volts. The +10 volt supply is adjustable, with the -10 volt supply following within 30 mV. 4.3.3 Horizontal Output Check Adjust oscilloscope controls for an internally generated, automatic line triggered sweep of approximately Zriisld'iv and a: vertical sensitivity of 2 V/dive Connect scope vertical input to instrument HORIZ output. Triangle wave should be symmetrical about zero with an amplitude of 10 Vpp (See Figure 4-3). -f- -f- " J V \ : . : ,..\1",1' ., I. " " .1'f hut If: ~" " V\ 17 " ./. I ... / 1/1 " "" \.- V / ~---V .: No.... L"A 1<:. <'c ttr Figure 4-3. Horizontal Output 4.3.4 Frequency Program (Sweep Drive) TYPICAL SETUP Connect the sweep generator and scope as shown in Figure 4-4. 'Set the output frequency to 200 MHz. Set RF level to 4-3 MAINTENANCE 1060 Series liODEL 1060 RF DET DEMOD SCOPE OUT IN IN VERT HORIZ 0 0 OSCILLOSCOPE 0 H V 0 Figure 4-4. Typical Test Setup maximum output (both STEP ATTENUATOR and OUTPUT VERNIER ATTENUATOR). Set the SWEEP WIDTH fully clockwise. a vertical line on the scope graticule. This is equivalent to a display linearity of 2%. Adjust the scope to operate in an X-Y mode. Set the vertical sensitivity to 0.2 volt/dive Adjust the vertical position, horizontal position and horizontal sensitivity to obtain a scope pattern as shown in Figure 4-6. MAXIMUM SWEEP WIDTH Maximum sweep width is also read directly from the display of Figure 4-6 and equals «N-l) times the marker frequency)~ where N = number of markers present on the display (incl. Zero Beat). Adjust the sweep generator marker controls as follpws: Turn on 50 MHz harmonic marker. Adjust MARKER WIDTH clockwise and MARKER SIZE to produce a marker amplitude similar to that shown in Figure 4-6. DISPLAY LINEARITY Display l~nearity is read directly from the display shown in Figure 4-6. Each marker must fall within 0.16 div of FREQUENCY RANGE To identify the frequencies shown on the display of Figure 4-6, one frequency marker must be positively id~ntified. The Zero Beat in the swep~ RF output looks distinctly different than a marker, is present when other markers are off, and can be used as a frequency reference. The first 50 MHz birdy to the right of zero marks a frequency of 50 MHz, the second indicates 100 MHz, and so on. The frequency of each marker shown on the display can be identified by referring to the Zero Beat. 4-4 1060 Series MAINTENANCE -18 V ~ "B OPTION PLUG" rPl~ o o o o o +18 V 0° "" - oo TP 2 is located on the wiper (BROWN wire) of the frontpanel FREQUENCY control. TP 3 is located on the wiper (RED wire) of the front-panel FREQUENCY VERNIER control. ICS Freq + Clamp ®J I ~ .I I I () Rate Generator Card L.:..J (Uodels 1062, 1067)* * Models 1061, 1066 use a Line Rate Card with only one control (Size). Lev Max Sweep Width ~ IDl IC6 Centering ~ Lev Min Figure 4-5. 1060 Series Control And Test Point Locations 4-5 MAINTENANCE 1060 Series WITH NO INPUTS TO SCOPE, ADJUST HORIZ. AND o 1. . . v VERT. POSITION TO SET 00T HERE7 -O.2V -O.4V._ -O.6V __ h ~~ -O.8V __ 0 220 ~c 0 ~ If ' / ZERO BEAT ~X f\. "."S CENTER FREQ. MARKER Figure 4-6. Detected RF With Markers The center frequency range of the instrument can be checked by simply turning the FREQUENCY control to its extremes and noting the range of frequencie$ indicated at the exact center of the display. The low and high limit markers should move past the display center line by approximately ~ div before the pot stops. This represents approximately 5% overrange capacity. FREQUENCY DIAL ACCURACY Set the calibrated FREQUENCY dial for zero MHz. Reduce the sweep width to approximately 50 MHz. With the 10 and 50 MHz harmonic markers on, check each of the lines on the dial against the actual center frequency of the output (as determined by the birdy marker display). The dial error is the difference between the actual frequency at the centerline of the scope and the frequency indicated on the dial. The dial accuracy is 5% of full scale or within 20 MHz of the dial setting. MINIMUM SWEEP WIDTH CHECK Turn the 1 MHz harmonic marker on. AdJust the FREQUENCY and SWEEP WIDTH controls to exactly center a 1 MHz harmonic marker on the extreme left scope graticule line and the next higher 1 MHz harmonic marker on the extreme right scope graticule line. See Figure 4-7. The scope horizontal is now calibrated for 1 MHz full scale or 100 kHz per division. Adjust the FREQUENCY VERNIER to center a 1 MHz harmonic marker on the scope display. Adjust the MARKER WIDTH control to produce a Marker Width approximately equal to the minimum Sweep Width specification (200 kHz). Now decrease the Sweep Width to minimum and ensure that the points of the marker set for 200 kHz cover the entire scope display. I I ,-f-, ~ iJal I. ~ l[l. ,,, 1\ b .~ ':~ I ..... ~ f-- i r-..... ~f--- ----- If / M'~ 1 MHz KEiS Figure 4-7. 1 MHz Sweep Width CW MODE CHECK Adjust the sweep width control fully counterclockwise until a "click" is heard.. In this position the retrace blanking and the ramp component of the Sweep Drive signal are removed from the oscillator. The output frequency is determined by the FREQUENCY control and the accuracy is the same as in the above dial accuracy check. The output amplitude is the same as in the sweep mode of operation with the absence of the zero volt .retrace reference. If the instrument does not meet specifications accopding to above checks, the following calibpation should be pepfomzed. Refep to Fi'gupe 4-5 for contpol and test point locations mentioned in the folZowing ppoaedupe. 4-6 1060 Series MAINTENANCE POWER SUPPLY Connect a Dv.M to the +10 V TP. With the +10 V AdJ control, set the voltage to 10.000 V. Measure also the -10 V, +18 V, and -18 V Test Points. The -10 V supply should read within 30 mV of the +10 V supply. The t18 V supplies should read within 0.2 V of the specif~ ied voltage. SWEEP RATE Connect the SCOPE HORIZONTAL output to the vertical input of the oscilloscope (scope set at 2 Vjdiv vertical, 2 ms/div horizontal). Models 1061, 1066 - AdJ"ust the Size control on the Line Rate Card for a 10 Vpp signal. Models 1062, 1067 - Set the SwgEP RATE control to a non-line rate. Positive and negative peak levels should be +5 V and -5 V respec·tively. Set the SWEEP RATE control to LINE. Set the rllcorrp control for -5V. Set the scope for 1 ms/div. AdJust the Freq control such that the wait time betwe~118weeps is 1 ms. The minimum non-line rate sweep time should be <16 ms. The maximum non-line rate sweep time should be ~2 sec. Set the instrument and SGope up as described in the TYpical Setup at the beginning of thi~ section (4.3.4). SWEEP DRIVE Before starting, align the FREQUENCY control dial such that the marks on the dial beyond the 0 to 400 scale coincide with the dial's mechanical stops. Connect a digital voltmeter to TP2 and set the FREQUENCY control for electrical zero. Connect the DVM to TP 3 and set the FREQUENCY VERNIER for zero volts. FREQUENCY PROGRAM AND LINEARITY Connect the s~eep generator and 8c~pe as shown in Figure 4-4. Set the VEW.. tical sensitivity of the soope for .2 V/div. Turn on a 50 MHz harmonic maI'- ker and electmcaUycenterthe scope trace. Using a medium sweep width, adJust the Centering control to center the 200 MHz birdy on the screen. Set the FREQUENCY control to 0 MHz and center the Zero Beat on the screen using the Sweep Width contro l vnthe Main PC BOaPd. Set the tront-panel SWEEP WIDTH control to mawimum. Reset the FREQUENCY control for electrical zero. Set the oscilloscope horizontal sensitivity such that the Zero Beat and the 200 MHz birdy aPe exactly 4 divisions apaPt. Connect the oscilloscope vertical to TP 1. AdJust the Lin Ref control on the Main PC BOaI'd . such that the trace ''knee'' bends exactly 3 divisions beyond the 200 MHz birdy (Figure 4-8). Reconnect the oscilloscope vertical to the SCOPE VERT OUT connector and align the Zero Beat with the second vertical gratiaule line. Adjust Lin AdJ controls 1, 2, 3, 4, in order, so that the 250, 300, 350, 400 MHz bird-u8s, respectively, fallon graticulelines as shown in Figure 4-6. - I '\, Figure 4-8. Linearity Reference Adj. 4.3.5 RF Amplitude OUTPUT LEVEL Set FREQUENCY control to 200 MHZ. Set SWEEP WIDTH control to CW mode. Set OUTPUT STEP and VERNIER ATTENUATORS for maximum output. Connect power meter to the RF OUT connector. NOTE: Before connection to power meter, Models 1066, 1067 require an "F to BNC" adapter (less than 3" cable) and a 75 to 50 0 matching pad. MAINTENANCE 1060 Series OUTPUT LEVEL ADJUSTMENTS Set the front-panel aontrols for maximum output (+57 dBrnV for Models 1066, 1067, +10 dBrn for Models 1061, 1062). Set the SWEEP WIDTH control to CWo Adjust the Lev Max aontrol on the Main PC Board for exaatly +57 dBrnV or +10 dBrn output on the power meter (with the 75Q to 50Q matahing pad, +57 dBmV registers as 2.5 dBm on the power meter). Set the OUTPUT VERNIER ATTENUATOR to -7 on Models 1066, 1067, to +15 on Models 1061, 1062. Adjust the Lev Min aontrol for +43 dBmV on Models 1066, 1067, for -5 dBm on Models 1061, 1062 (with the matahing pad, +43 dBmV registers as -11.5 dBm on the power meter) · NOTE The Lev Max and Lev Min adJustments interaat, therefore, the above proaedure should be repeated until both levels are' aorreat without adjustment. Using the power meter, verify the OUTP'rR VERNIER ATTENUATOR aalibration at every 1 dB marking for the top 14 dB of its range. For power aaZibration in the field, the internal deteator in the instrument may be substituted for a power meter. The proper deteator outputs are: OUTPUT VERNIER ATTEN. at max····· -O.B V OUTPUT VERNIER ATTEN. at min····· -40 mV tuting precision RF attenuator pads for each 10 dB step of the ATTENUATOR. The output through the precision pad is compared to the output through the instrument's corresponding ATTENUATOR pad. An RF detector can be used to recover the signal at levels down to approximately -40 dBm. Below this level an RF amplifier or sensitive receiver (spectrum analyzer) must be used. The difference between the two outputs represente the attenuator error. Maximum allowable error is two percent of the indicated attenuation. The error is that produced by the step attenuator alone and ~does not include the basic flatness or the OUTPUT VERNIER ATTENUATOR error. 4.3.6 Frequency Performance FREQUENCY DRIFT CHECK Return to typical setup of paragraph 4.3.4 and again calibrate the display's sweep width to 1 MHz as in the minimum sweep width check in Section 4.3.4. Position the marker to the exact center of the oscilloscope display and read frequency drift directly from the scope display by noting the change in the marker's position with time. Each d,iVis-ten represents 100 kHz. When reading drift over long periods of time, calibrate the display sweep width to 5 MHz, using the 1 MHz harmonic markers. Next, turn off the 1 MHz marker and turn on the 50 or 10 MHz harmonic markers. Center a marker on the scope display. Read drift as before, except each division now represents 500 kHz. FLATNESS CHECK The sweep generator should be set up as outlined in Section 4.3.4. The RF flatness of ±.25 dB is checked by comparing the minimum amplitude point to the maximum amplitude point. After one-half hour warmup at a constant ambient and allowing a five minute sta,bilizing period after a frequency change, the maximum allowable drift is 100 kHz p.er 5 minutes or 2 MHz per 8 hours. RESIDUAL FM CHECK STEP ATTENUATOR CHECK The accuracy of the STEP ATTE~ruATOR can be measured by using a suitable Attenuation Test Set or by directly substi- Adjust the horizontal gain of the oscilloscope for a full width (10 div) display. Adjust the SWEEP WIDTH and FREQUENCY VERNIER controls to position a 1 MHz birdy marker at each edge of 4-8 .1060 ~er~,e~ MAINTENANCE the display (1 MHz sweep width). Use the FREQUENCY VERNIER to center a birdy on the screen, Set the SWEEP RATE to maximum (Models 1062, 1067). The birdy "wobble" should be less than 0.2 div (20 kHz at 100 kHz/div). SPURIOUS SIGNAL CHECK Checking for spurious signal content is not normally required for periodic calibration, only for incoming inspection. The only practical way to measure spurious signal content is with a high quality spectrum analyzer useable from 10 MHz to at least 800 MHz. The spurious check is made in accordance with the instructions furnished with the . pat:t~ cular spectrum analyzer being used. Spurious signals should be more than 30 dB below the amplitude of the fundamental frequency (10 to 400 MHz.) The heterodyning method of generating the ou~put signal will give non-harmonically related spurious signals in addition to the harmonically related signals. These signals are typically 40 to 50 dB below the output signal and should increase to no more than -30 dB near the high end of the frequency range. 4.3.7 Marker System Specifications, with the exception of spurious markers, are the same for either single frequency or harmonic type markers. The procedure for verification of performance is the same for each type. Single frequency markers should have no spurious markers throughout the swept range. Harmonic type markers mayor may not have small spurious markers at one half or one third the specified marker interval. SWEEP SAMPLE Connect the RF detector (D151) to the sweep sample output jacks of the M9Y-1/ M9YA-1 using 50 ohm coax and appropriate connectors., The detected value should be 30 millivolts and 130 mV at J2 and J4 respectively. Sweep sampZe aan be adjusted by removing the aover from the M9Y-1/M9YA-1 and turning the ZeveZ aontroZ (R30) whiah is loaated at the top of the moduZe on the front. MARKER SIZE Observe the markers and insure they are of equal amplitude throughout the range. Set the oscilloscope vertical gain to 2 V/div and adjust the MARKER SIZE control fully clockwisp. The markers should be approximately 2 V peak-to-peak in amplitude. Adjqst the MARKER SIZE control fully counterclockwise and set the oscilloscope vertical gain to 5 mV/div. The markers should be less than 2 mV peak-to-peak in amplitude. ~RKER SIZE ADJUSTMENT - MODULE M6 Eaah marker modul,e has a Sise Ad.iustment aontroZ whiah is aaaessibZe from the side of the unit next to the marker module hoZd-down sarew (refer to Pigure 4-1).. The aontrol, is adjusted until, a saturated marker is obtained on the saope display when operating the unit as shown in the Typiaal Setup~ Pigure 4-6. A saturated marker is obtained when a further inarease in the marker moduZe Sise Adjustment does not inarease the marker ampl,itude on the saope display. Inareasing the Sise A1Justment beyond this point may resuU in spurious markers on the display. MARKER WIDTH While observing a birdy at a narrow sweep width, rotate the MARKER WIDTH control. There should be 3 distinct positions of the control and 3 distinguishable corresponding marker widths. MARKER ACCURACY Marker accuracy may be verified by one of several methods. The first method requires a signal generator, a frequency counter covering the desired marker frequency and an M6C, External Marker module. First adjust the sweep generator's center frequency to the marker's 4-9 MAINTENANCE 1060 Series frequency and the sweep width to approx- imately 2 MHz. Connect the output from the signal generator to the EXTERNAL MARKER connector located on the rear panel and carefully adjust the signal generator for a zero beat with the internally generated birdy marker. Next, connect the signal generator's output to the counter and read the signal generator frequency which is now identical to the marker frequency. Allowable eJ:ror is 0.005% of the marker frequency. The second method uses ~he counter only but requires the removal of the instrument cover and marker module cover. Probe the marker box with the input lead from the counter until sufficient signal is picked up to provide a counter reading. The highest crystal frequency used is approximately 50 MHz. Markers above this frequency use harmonics of the crystal frequency. Again the allowable error is 0.005% of the marker frequency. Test equipment for the marker accuracy check is not listed in the recommended test equipment chart since the requirements vary with the method and the specific markers installed in the unit. Also, the inherent stability of the quartz crystal makes a marker accuracy check unnecessary in all but the most critical applications. 4.4 TROUBLESHOOTING INTRODUCTION Troubleshooting is, in general, a systematic process of elimination. A thorough understanding of the circuit description located in Section 3 of this manual will enable the trouble symptom to be associated with a particular circuit function. Once this has been accomplished, the ~roblem can be troubleshot with the aid of the schematic. A problem in a power supply often causes many symptoms, and should be checked when the symptom does not clearly indicate a specific problem. 4-10 ·TROUBLESHOOTING HINTS The following is a list of several typical symptoms followed by the probable cause or a troubleshooting procedure. INTERMITTENT OPERATION OF ANY TYPE - Defective module pin sockets or loose RF cables. NO RF OUTPUT - Defective ATTENUATOR or RF cables connecting to the input or output of the ATTENUATOR. RF OUTPUT NOT FLAT - Most common cause is the RF detector being defective. The components in the internal detector circuit are easily accessible for repair. Another is the monitor diode located in the M9Y-l/M9YA-l. This is a point contact diode and can be damaged if the RF output is momentarily connected to a B+ voltage. (This is prevented in Models 1066, 1067 by the DC block in the RF output line.) A good monitor diode will produce a negative detected voltage approximately twice that ·of the external detector. For example, at maximum RF output an RF .detector will read approximately 0.8 V. The internal monitor will read approximately -1.6 V. FREQUENCY UNSTABLE (JITTER) - Check the M9Y-l/M9YA-l module for a loose holddown screw. Check the +10 V and +18 V supplies for excessive ripple. Operating the unit in a strong magnetic field, such as that adjacent to another instrument containing a large power transform-, er, can produce 60 Hz hum modulation. NO RF SWEEP - First check the SCOPE HORIZONTAL connector for the presence of a 10 Vpp ramp. This ramp indicates proper operation of the sweep rate section. Next, check for the ramp at IC6, pin 1. Finally, check the Sweep Drive output of the PC Board at the input of the M9Y-l/M9YA-l (pin 9). It should be similar to the SCOPE HORIZONTAL connector except it will be lower in .amplitude, approximately 8 V 1060 Series peak-to-peak. If the Sweep Drive output is correct, the trouble is probably in the M9Y-1/M9YA-1 sweep oscillator module. MARKER PROBLEMS - A common marker problem is that caused by one of the interconnecting cables between the M6 modules being loose. This causes a notch in the sweep sample input to the module causing uneven harmonics or weak output from the M6. To isolate the cause of a marker problem when the symptom does not clearly indicate a specific circuit or component, first check the sweep sample output at the M9Y-1/M9YA-1 sweep sample output connector (J2) using an RF detector. The detected signal should be approximately 40 mV. If the proper sweep sample signal is not present, it indicates that the trouble is in the Sweep Oscillator module. If signal is correct, connect the detector in place of the terminating plug, P301. A similar· signal at this point indicates all jumper cables and RF jacks on the M6 modules are intact. Then check for the birdy output at pin 3 of the marker module (this is a Low Frequency signal). A 10- -to 15 mV peak-to-peak birdy is sufficient to drive the birdy amplifier and indicates the M6 module is operating properly. With the 15 mV birdy present at the input of the birdyampli..., fier, a 5.5 V peak-to-peak signal should be produced at the output. This indicates proper operation of the hirdy amplifier. The width of the output signal is controllable by the front-panel MARKER WIDTH control. The signal is now routed through the front~panel MARKER SIZE control and to the front - panel SCOPE VERTICAL connector. 4.5 MARKER INSTALLATION Installing marker option involves plugging module into chassis, installing hold-down screw, connecting RF sweep sample, and installing the marker switch button. MAINTENANCE Refer to Figure 4-9 for locations of marker positions b-f. M6S and M6H can be plugged in any of these 5 positions. Markers should be installed starting with position b and continuing in alphabetical order. The M6C should be plugged only in position a. After plugging in modules, install holddown screws as indicated in Figure 4-1. Next, connect the sweep sample cable. This cable connects to the marker (usually an M6C) in position a (if there is no marker in position a, the sweep sample cable connects to the marker in position b). The cable from the rear-panel EXT .MARKER connector (if used) goes to the center connector of the M6C in position a. Install 50 ohm termination on the unused connector of the last marker module. Marker switch buttons are engraved to show the frequencies of the installed markers. Buttons can be replaced by pulling blank buttons off and pushing engraved buttons on the switches which turn on the corresponding marker frequencies. 4-11 .t::" ....I.... N [ 1i 0 0 @ @] 3: :..l..>... ::z -:rznI ::lz> nrn d a ---- ----.·...~ ..@l MI3J / / / END VIEW OF MODULES -o o0'1 reo n Figure 4-9. Top View r.rt.no1.,- 5 SECTION REPLACEABLE PARTS 5.1 INTRODUCTION This section contains lists of all replaceable parts for the instrument. For an assembly containing one or more subassemblies, the assembly list appears first, and is followed by the subassembly lists. The lists appear in the following order. PARTS LIST ASSEMBLY 1010-00-0075 1010-00-0076 1010-00-0077 1010-00-0029 1111-00-0019 1111-00-0020 1111-00-0022 1219-00-0038 1219-00-0072 1212-00-0013 1110-00-0890 1110-00-0900 1110-00-0970 1114-00-0070 1114-00-0151 1110-00-1050 1110-00-1060 1114-00-0050 1114-00-0099 1114-00-0100 1114-00-0045 1114-00-0124 1061 1062 1066 1067 MISC PARTS MAIN FRAME F.P. - 1061, 1062 F.F. - 1066, 1067 INT DET - 50 OHM INT DET - 75 OHM POWER SWITCH MAIN PC BD COOl RATE BD C004 RATE BD M9Y-l/M9YA-1 M13J TILT BD NOTCH/TILT BD . M6H-1 M6H-I0 M6H-50 M6S-3 M6C 5.2 MANUFACTURERS CODE The following code is used on the parts lists to identify the manufacturer. 5-1 ABBRV t.,,!AME ··· c ··········· n ·········· CIT"I . . . . . . . . . . . . . . . . . . . ST A-B ALLEN-BR,.\DLEY NIU~AUKEE WI A-D ANAL.OG DEVICES CAMBRIDGE t1A A-H ARROW HART, INC. KETTERING OH A-I ALAN INDUSTRIES COLUMBUS IN A- t1 AMERICAN MAGNETICS CARTERVILLE IL A-P AMERICAN PLASTICRAFT CO. CHICAGO IL ABAC ABACUS PACKAGING CO. CHICAGO IL ,t~C I ADVANCE COMPONENfS, INC. CENTERBROOi-\ CT AER AV:< CERl\t1ICS MYRTLE BE..\CH SC AERTK AERTECH INDUSTRIES SUNNYVALE CA AH~\t'! AI-l,<\ r-l COMPANY AZUSA CA AH~ ALPHtl INDUSTRIES, INC. l~OBURN t1A ALC ALCO ELECTRONICS PRODUCTS NORTH ANDOVER ME ALLPL ALL PLASTICS, INC. INDIANAPOLIS IN At1D ADVANCED MICRO DEVICES INC. SUNNYVALE CA Al1ELC AMERICAN ELECTRIC CORDSETS BENSENVILLE IL Ai·,P AJ"!P, It~C. HARRISBURG PA ANZAC ADAMS-RUSSELL,ANZAC DIV BURLINGTON MA APl. AMPHENOL CONNECTOR SYSTEMS BROADVIEW IL APP A-P PRODUCTS PAINESVILLE OH APX AMPEREX ELECTRONIC CORP. SLATERSVILLE RI ARC ARCO ELECTRIC PRODUCTS SHELBYVILLE IN ARi-.i ARiWLD Ef~GINEER IWi CO. t1ARENGO IL ARl-i-t1 ARROW-M CORP. CARSON CA ASC ASSOCIATED SPRING BRISTOL CT AIRCO SPEER ELECTRONICS ST. MARYS PA AT/H~ ATLANTIC INDIA RUBBER COMPANY CHICAGO IL ATC Ai/iE-RICAN TECHNICAL CERArlICS HUNTINGTON STATION NY ATR ATR COIL CO. BLOOMINGTON IN AUGAT AUGAT, If~C. ATTLEBORO MA AULT AUL T ItK. MINNEAPOLIS MN AVDEL AVDEL FASTENER SYS. PARSIPPANY NJ A'.,JT AVANTEK, INC. Awe ALPHA \HRE SANTA CLARA CA ELIZABETH NJ B-T 13 EI-\-TEI--\ , INC. READING-" PA BEAR I BEARINGS, INC. CLEVELAND OH BEK BECKMAN INSTRUMENTS, INC. FULLERTON CA BEL BELDEN CORP. GENEVA IL BER BERG ELECTRONICS NEW CUt1BERLAND PA BGH BEECH GROVE HARDWARE BEECH GRO'/E IN BORm~ BORDEN INC. COLUMBUS OH BOU BOURNS, INC. RIVERSIDE CA BREZ BREEZE CORPORATIONS, INC. BUCK BUCKEYE STAMPING co. UNION COLUMBUS NJ OH BUD BUD RADIO, INC. ~HLLOUGHBY OH BURND BURNDY CORP. NORWALK CT BUS BUSSt1AN MFG. ST. LOUIS MO BWC BARON WIRE AND CABLE CORP. NILES IL C-D CORNELL DUB ILlER ELECT. DIV. NEWARK NJ C-E CLINTON ELECTRONICS ROCKFORD IL C-H CUTLER-HAMMER, INC. MILWAUKEE WI C-I COMPONENTS, INC. BIDDEFORD ME C-J TRW/CINCH ELK GROVE VILLAGE IL C-K C ~ K COMPONENTS, INC. WATERTOWN MA C-L CENTRALAB DIV. MILWAUKEE WI C-W c-t~ INDUSTRIES WARMINSTER PA 5-2 ABBRV I\~At1E ····················· '* · · ·· C I rOy ······ a. · · · · · · · · ·· ST CAl CUSTOM ACCESSORIES, INC. S1>\OKIE CAM CAt1BION CAMBRIDGE CAR CARLINO ELECTRIC, H~C. WEST HARTFORD ccr1 CORCOM, INC. CHICAGO CDC COMPONENT DEVELOPMEIH CORP. CARSON CECO CEtHRAL COIL CO. BRAZIL CGW CORNING GLASS WORKS CORNING CHE CHERRY ELECTRICAL PRODUCTS ~~AUKEGAN CHEt11:l CHEt1PLAST, INC. WAYNE CHOt1 CHOt'iER ICS INC. WOBURN CHRY CHRYSLER CORP. DETROIT CIt1CO CIt1CO ~nRE AND CABLE INC. ALLENDALE CKI CTS KNIGHTS, INC. SANDWICH CLA CLAIREX CORP. MT. VERNON CLAR CLAROSTAT MFG. CO DOVER CLFX COLE-FLEX CORP. BABYLON CPKG CREATIVE PACKAGING DIV. INDIANAPOLIS CRTR CORE-TROhIICS ORANGE CTS CHICAGO TELEPHONE SYSTEMS CHICAGO CTS-E CTS OF ELKHART ELKHART CTS-i-\ CTS OF KEENE PASO ROBLES CTSER CTS OF BERNE BERNE CTSBV CTS OF BROWNSVILLE BROWNSVILLE DAL DALE TECHNOLOGY CORP. HARTSDALE DAV HARRY DAVIES MOLDING CO. CHICAGO DAYTN DAYTON ELECTRIC CO. CHICAGO DEL DELEVAN DIV. EAST AURORA DEN DENNISON MFG. CO. FR AM I NGHAt"l DEW DEWIRE FABRICATING CORP. LOWELL DILEC DILECTRON MONROVIA DID DIODES, INC. CHATSWORTH DRA DRAKE MANUFACTURING CO. HARWOOD HEIGHTS E-C ELECTRONIC CRYSTALS KANSAS CITY E-I ELECTRICAL INDUSTRIES, INC. MURRAY HILL E-~1 ELECTRA/MIDLAND CORP. t1 I NER AL ~~ELLS EBY EBY COMPANY PHILADELPHIA ECMC ELECTRI-CQRD MFG. CO. INC. WESTFIELD ELCO ELCO INDUSTRIES ROCKFORD ELFX ELECTRO-FLEX HEAT INC. BLOOMFIELD EI'i'<ON EPITK EPITEK ELECTRONICS KANATA, ONT., CAN. EPOXT EPOXY TECHNOLOGY, INC. BILLERICA ETP ERIE TECHNOLOGICAL PRODUCTS ERIE EXAR EXAR INTEGRATED SYSTEMS SUNNYVALE f-K THERI1WELL PRODUCTS, INC. FRAMINGHAM f-S FEDERAL SCREW CHICAGO FAN FANCOURT & CO. GREENSBORO FASTX FASTEX DIV., ILL. TOOL WORKS DES PLAINES FCD FAIRCHILD MOUNTAIN VIEW FRK FRAKO FRANKFORT, GER. fRTE FAIR RITE PRODUCTS CORP. ~"ALLKILL FRXC FERROXCUBE DIVISION SAUGERTIES G-E GENERAL ELECTRIC INDIANAPOLIS G-H GRAYHILL, INC. LA GRANGE G-I GEN'L INSTRUMENT SEMICONDUCTOR HICKSVILLE G-T GRAND TRANSFORMERS GRAND HAVEN IL MA CT IL CA IN NY IL NJ t1A MI NJ IL NY NH NY IN NJ IL IN CA IN TX NY IL IL NY MA t1A CA CA IL MO NJ TX PA PA IL CT S *M*A PA CA MA IL NC IL CA *NY* NY IN IL NY MI 5-3 ABBRfJ NAME ·························· CITy ················· ST GAL GALILEO ELECTRO-OPTICS CARMEL IN GATES GATES ENERGY PROD. DENVER CO GBN GILBERT ENGINEERING CO. INC. PHOENIX AZ GCE GC ELECTRONICS ROCKFORD IL GNATR GENERAL ATRONICS CORP. PHILADELPHIA PA GOU GOULD, INC. ST. PAUL MN GRIES GRIES REPRODUCER NEW ROCHELLE NY GRIP GRIPMASTER CO. MARLBORO NJ GVOL GUDEBROD BROS. SILK CO. CHICAGO IL H-P HEWLETT-PACKARD INDIANAPOLIS IN HARnJ HARn~ELL CORP. PLACENTIA CA HEL HLIPOT ANAHEIM CA HEY HEYMAN 11FG. CO. WAUKESHA WI HHS HERMAN H. SMITH, INC. BROOKLYN NY HIT HITACHI AMERICA, LTD. SAN FRANCISCO CA HOLGt.J HOLLINGSWORTH SLDRLS TERt1. POTTSTOWN PA HOLUB HOLUB DISTRIBUTING CO. NEWPORT KY HSD HARRIS CORP. SEMICDR. DIV. MELBOURNE FL HUD HUDSON TOOL & DIE CO. NEWARK NJ HY/PL HYDRO PLASTICS INC. GEORGETOl./N KY HYT HYTRONICS PINELLAS PARK FL ICI ILLINOIS CAPACITOR INC. MORTON GROVE IL IERC INT'L ELEC. RESEARCH CORP. BURBANK CA INDEC INDUSTRIAL ELECTRONIC HOWR. NEW YORK NY INLOX INTERLOK/WM J PURDY CO. BURLINGAME CA INT ItHERSIL, INC. CIJPERTINO CA INWEB INTERNATIONAL WEBBING WHITEHALL PA IRC INTERNATIONAL RESISTANCE co. PHILADELPHIA PA IREC INT'L RECTIFIER CORP. LOS ANGELES CA ITRON ISE ELECTRONICS ITT INf'L TELEPHONE & TELEGRAPH ISE,JAPAN W. PALM BEACH F*L* JAN JAN HARDWARE MFG. CO. LONG ISLAND CITY NY JEF JEFFERS DUBOIS PA JEFWC JEFFERSON WIoRE AND CABLE WORCHESTER MA JEW JEWELL ELECTRICAL INSTRUMENTS MANCHESTER NH JFD JFD ELECTRONICS BROOKLYN NY JFW JFW INDUSTRIES BEECH GROVE IN JHSN JOHANSON MFG. CORP. BOONTON NJ JON E.F. JOHNSON CO. WASECA MN JUDD JUDD WIRE DIV. ECC TURNERS FALLS MA K-L KERRIGAN LEWIS MFG. CHICAGO IL K-S K & S ENGINEERING CO. CHICAGO IL KEENE KEENE CORP. NEWARK DE KEM KEMTRON ELECTRON PRODUCTS NEWBURYPORT MA KEMET KEt1ET IUNION CARBIDE GREENVILLE SC KEY KEYSTONE ELECTRONIC CORP. NEW YORK NY KID KIDCO, INC. MEDFORD NJ KIN KINGS ELECTRONICS TUCKAHOE NY Kt1YO KAMAYA OHM KSTR KESTER SOLDER DIV. JAPAN CHICAGO *IL* KSW KSW ELECTRONICS BURLINGTON MA KUL KULKA ELECTRIC CORP. MT. VERNON NY LAURN LAUREN MFG CO. NEW PHILADELPHIA OH LEYSE LEVSE ALUMINUM CO. KEWANEE WI LIT LITTELFUSE, INC. DES PLAINES IL LRC LRC ELECTRONICS, INC. HORNELL NY 5-4 ABBRV "tAME ··········.····.·. II · · · · · ·· CI TV ·. ,. .···· ". · · · · . ·. ST LTRt~X LITRONIX M-A MICROWAVE ASSOCIATES t1-D MILLER DIAL & NAMEPLATE co. t1-E MEPCO ELECTRA. INC. t1-0 ILLUMINATED PRODUCTS INC. t1-P MICRO PLASTICS INC. MAL MALLORY CONTROLS CO. t1AtJD t"!ANDEX t1ARQ J. ~ J. MARGUARDT t1DC MAIDA DEVELOPMENT CO. t1ILN t1ILLEN M~-G. co. t1ILSP MILITARY SPECIFICATION t'iIN-C t1 I Nr·-c I RCU I TS MINOR MINOR RUBBER CO. t1I TEK t1ITEK t1LRJW J. w. tl1LLER t1t,~t1 3M COMPANY Mrm MONSANTO COMM. PROD. DIV. t10L t10LEX PRODUCTS MORAD t'iORGAN ADHESIVES tirOT MOTOROLA SEMI. PROD. DIV. t1RO MICRO SWITCH DIV. t1SN t1ICROSO:--.lICS DIV. t1SP MICRO SEMICONDUCTOR CORP. MULSO MULTICORE SOLDERS LTD. MURGA t'iVR ATA-GEORGI A t'iWS MAGNET WIRE SUPPLY CO. MYERS MV£RS SPRING CO. N-T NATIONAL TEL-TRONICS NAT NATIONAL SEMICONDUCTOR CORP. Nec NATIONAL CERAMIC CO NEe NIPPON ELECTRIC CO. NEL NATIONAL ENGINEERING LABS NEW t~aJARK ELECTRONICS NHWC NEW HAVEN WIRE & CABLE NPC NUCLEONIC PRODUCTS CO. NYLO NYLOMATIC O-G OPT I-GAGE INC. O-S OMNI SPECTRA INC. OAK OAK INDUSTRIES INC. OHi1 OHMITE M!=G. CO. Ot1EGA OMEGA WIRE ~ CABLE OPTRN OPTRON INC. P-B POTTER AND BRUMFIELD F'-C pm.JER COMPONENTS P-K PARKER KALON CORP. P-T PENN TUBE PLASTICS CO. P-U PROJECTS UNLIMITED INC. POLPH POLYPHASE INSTR. CO. PAM PAI'10TOR DIV. PAND PANDUIT CORP. PARA PARAMETRIC INDUSTRIES PCC PANEL COMPONENTS CORP. PEC PACIFIC ELECTRICORD CO. PEM PENN ENGRG & MANUF CO. PHC PHILADELPHIA HANDLE CO. CUPERTINO BURLINGTON EL t10NTE MORR I STOhlN SANTA ANA CHATSWORTH FRANKFORT CHICAGO TIJTTL I NGEt~, GER. HAMPTON NE~~ YORK ~~ASHINGTON BROOKLYN BLOOMFIELD LEXINGTON COMPTON ST. PAUL PALO ALTO LISLE STOW INDIANAPOLIS FREEPORT WEYMOUTH SANTA ANA WESTBURY MARIETTA CHATSWORTH LOGANSPORT LAREDO SANTA CLARA TRENTON TOKYO, JAPAN INDIANAPOLIS INDIANAPOLIS N£t~ HAVEN CANOGA PARK t10RRISVILLE DAYTON FARMINGTON CRYSTAL LAKE SKOKIE HARLEYSVILLE CARROLLTON PRINCETON WOODLAND HILLS CLIFTON CLIFTON HEIGHTS DAYTON BRIDGEPORT BURLINGAME TINLEY PARK NORTHFIELD BERKELEY GARDENA DANBORO CAMDEN CA MA CA NJ CA CA IN IL V*A* NY DC NY NJ t1A CA MN CA IL OH IN IL MA CA NY GA CA IN TX CA NJ *IN* IN IN CA PA OH MI IL IL PA TX IN CA NJ PA OH PA CA IL IL CA CA PA NJ 5-5 ABBRV r~At1E ·. """ ··.·······..···.·.··· CITy·.···..·.·.·.···. 8T PIC PIHER INTERNATIONAL CORP. ARLINGTON HEIGHTS IL PLSSY PLESSEY ENG. SCHILLER PARK IL P/viCL. PERMACEL DIV. NEW BRUNS~H CK NJ PMI PRECISIm-! MONOLITHICS ItK. SANTA CLARA CA POM PO~ONA ELECTRONICS CO., INC. POMONA CA PRt'lD PYRAMID INDUSTRIES, It-.lC. PHOENIX AZ PRSN PRECISION TUBE CO., INC NORTH WALES PA PTN PENN TRA}~ CORP. BELLE FONT PA P~JRt1T POWER-t1ATE CORP. HACJA.ENSACl-<. NJ PYRO PYROFIU1 CORP. l.JHIPPANY NY PYTr PYfTRON!CS INDUSTRIES, INC. MONTGOMERYVILLE PA Q-C QUALITY COMPONENTS ST. MARYS PA R-N ROBINSON-NUGENT NEW ALBANY IN RAl-l8T RAW STOCK RAY RAYTHEON *IN*D**IA*NAPOLIS *IN* RCA RCA CAMDEN NJ REL RELIANCE MICA CO. BROOKLYN NY RGR ROGERS CORP. CHANDLER AZ RICH RICHCO PLASTIC CO. CHICAGO IL R ICllt"'! RICHARDS METAL PRODUCTS LJOLCOTT CT Rt'iC RADIO MATERIALS CORP. CHICAGO IL RMF RMF PRODUCTS INC. BATAVIA IL ROGAN ROCAN CORP. NORTHBROOK IL S-C SPECIALTY CONNECTOR INDIANAPOLIS IN S-G STANDARD GRIGSBY AURORA IL 8-1 SWITCHCRAFT, INC. CHICAGO IL 8-8 SERVICE SUPPLY INDIANAPOLIS IN 8-T S.~RKES TARZIAN BLOOMINGTON IN SCSE SCANBE DIVISION EL MONTE CA SCC STACKPOLE CARBON CO. ST. MARYS PA SCX SILICONIX INC. SANTA CLARA CA SEAST SEASTROM MFG. CO. GLENDALE CA SECR SECOR INC. WESTWOOD NJ SEL SEALECTRD CORP. MAMARONECK NY SEM SEt1TECH NEWBURY PARK CA SEt1T)( SEMTE:< DAYTON OH SGi1 SIGMA INSTRUMENTS BRAINTREE MA SHAM SHAMROCK PLASTICS ~ RUBBER CO. INDIANAPOLIS IN SHKt1N SHACKMAN INSTRUMENTS SIEt'! SIEI"lE:NS CHESHAM, ENGLAND ISELIN ** N') SIG SIGNETICS CORPORATION SUNNYVALE CA SIGPT SIGMA PLASTRONICS DEARBORN MI SINCR SINCLAIR & RUSH, INC. ST. LOUIS MO SLT SOLITRON/MICROWAVE DIV. PORT SALERNO FL SMTC I St~MTEC t~C. NEW ALBANy IN SOUTH SOUTHCO FASTENERS LESTER PA SPE SPECTROL DAYTON OH SPEC SPECTRUM CONTROL. INC. FAIRVIEW PA SPR SPRAGUE ELECTRIC CO. INDIANAPOLIS IN SPRTX SIJPERTEX INC. CUPERTINO CA SPST SPECTRA-STRIP GARDEN GROVE CA SSS SOLID STATE SCIENTIFIC MONTGOMERYVILLE PA STDPS STANDARD PRESSED STEEL JENKINTmJN PA STR STETTNER TRUSH CO. CAZENOVIA NY STSA STEEL SALES INDIANAPOLIS IN SYL GTE SYLVANIA WALTHAM MA 5-6 ABBRV ".!At.;E . . . . . · . "..... II '" · ., · · · · · · · · ·· CI T\(. · · . · . . · · · . · · · · .· ST SYS SYScm~ INTERNATIONAL, INC. T-I TEXAS INSTRUMENTS TCPL TACONIC PLASTIC TElA. TEl-'- TROI~ [ X TE:'\A TEKA PRODUCTS INC. TEKNT TECKNIT TELE TELETYPE CORP. TELRY TELEOYt~E RELAYS TFI T~F INDUSTRIES DIV. THR CO. THF.RMt~LLOY TIMES TIMES WIRE AND CABLE TIN TINNERMAN PRODUCTS, INC. TKN TECHNICAL WIRE TUK TELONIC ALTAIR TORCO TOR CORP. TR-l)T TRIAD-UTRAD DIV. TRU l,J,4LDES TRUARC TRl~ TRW CAPACITOR DIV. TV:.... TEL-VISION LABS n.JAY T~U-tY CO/",PANY U"-C UNIVERSAL COMPONENTS ULSP UNDERWRITERS LAB. SPEC. UNCAR UNION CARBIDE COMPONENTS U;-.!I C UrHCORP UNIT UNITRODE CORP. USECO USECO DIV. UTIA. UNITRACK DIV. VAC VACTEC INC. VACO VACO PRODUCTS CO. VAR VARADYNE CAPACITOR DIV. VARIL 'JARI-L CO. VELCR VELCRO USA HJC VLIER VLIER ENGINEERING CORP. VONGT VONNEGUT HARDWARE VRrJ VERNITRON CORP. W-E WELLS ELECTRONICS W-I WAVETEK INDIANA, INC. t.JAO WAGNER ELECTRIC CORP. WECK WECKESSER CO., INC. WKFLD WAKEFIELD ENGINEERING WNSL. WEINSCHEL ENGINEERING WSD t~A\lETEK WSTN WESTON COMPONENTS ZEN ZENITH RADIO CORP. ZERO ZERO MANUFACTURING CO. ZIE ZIERICK MFG. CORP. ZPT ZIPPERTUBINO, CO. SOUTH BEND IN DALLAS TX PETERSBURG NY INDIANAPOLIS IN COLLEGE POINT NY CRANFORD NJ ELK GROVE VILLAGE IL HAWTHORNE CA ROLL I NG t1EADOWS IL DALLAS TX CINCINNAI OH CLEVELAND OH CRAl..JFORD NJ LAGUNA BEACH CA VAN NUYS CA HUNTINGTON IN LONG ISLAND CITY NY O'dALLALA NB ~,JAUCONDA IL INDIANAPOLIS IN LOS ANGELES CA CHICAGO IL GREENVILLE SC ORANGE NJ WATERTOWN MA VAN NUYS CA UPPER DARBY PA MARYLAND HEIGHTS MO NORTHBROOt', IL SANTA MONICA CA DENVER CO NEW YORK NY BURBA"~K CA INDIANAPOLIS IN GREAT NECK NY SOUTH BEND IN BEECH GROVE IN ST. LOUIS MO CHICAGO IL t.JAKEFIELD MA GAITHERSBURG MD SAN DIEGO CA ARCHBALD PA CHICAGO IL BURBA''''"' CA MOUNT KISCO NY LOS ANGELES CA 5-7 REFERENCE DESIGNATORS 3 1 2 II 7 8 5 WI W2 W3 WII 9 II PART DESCRIPTION ORIG-MFGR-PART-NO MAIN FRAME ASSY FRONT-PANEL ASSY 10111 INT DET ASSY ATTEN, 5050-01 MAIN BO ASSY RUE CARO,COOIl SWP OSC,M9Y-l CABLE ASSY,5 IN CABLE ASSY,7-1/2 IN CABLE ASSY, 11-3/11 IN CABLE ASSYrlO IN SMC TERM,50 1,500-267 HARNESS ASSY A500-39b 4500-3'17 A500-358-1 5050-01 A530-002 AL5110-001l M'IY-l wX2000-A3 1'1)(2000-44 W)(1067-w3 WXI0b7-WII 1.500-2117 WYl Obi MFGR WAVElEt< NO. QTY iii-I 1111-00-0019 1 w-l 1111-00-0018 1 <i-I 121'1-00-0038 1 '11-1 1113-30-0021 1 1'1-1 1110-00-08'10 1 W-I 1110-00-0970 1 w-I 11111-00-0070 I w-l 1217-80-0001 1 w-I 1217-80-0002 1 W-I 1217-01-00bb 1 "'-1 1217-80-001"11 1 W-I 1118-00-0007 I "-I 121'1-00-00115 1 WAVETEK MRTS UST TITLE SWP GEN,IObl ASSEMBLY NO. REV 1010-00-0075 B PAGE: 1 REFERENCE DESIGNATORS II 1 2 8 6 7 5 WI Wi! W3 WII 'I 3 PART DESCRIPTION ORIG-MFGR-PART-NO MAIN FRAME ASSY FRONT PANEL ASSY 10b2 INT OET ASSY AHEN, 5050-01 HAIN 80 ASSY RATE CARD,COOI SWP OSC,M9Y-l CABLE ASSY,5 IN CABLE ASSY,7-1/2 IN CABLE ASSY, 6-3/11 IN CABLE ASSY,10 IN SMe TERM,50 A500-2b7 HARNESS ASSY 1.500-3911 1.500-3<18 1,500-358-1 5050-01 1.530-002 AL5110-001 M9Y-I WX2000-U wX2000-AII WXI0b7-1<13 WXI067-"''' 4500-2b7 wYl0b2 HFGR IlAVETEK NO. QTY W-l 1111-00-0019 1 w-l 1111-00-0020 1 w-I 1219-00-0038 1 1'1-1 1113-30-0021 1 w-I 1110-00-0890 1 1'1-1 1110-00-0900 1 iii-I 111"-00-0070 1 III-I 1217-80-0001 1 1'1-1 1217-80-0002 1 ~-I 1217-01-00b6 1 1'1-1 1217-80-00111 1 1'1-1 1118-00-0007 1 01-1 1219-00-0047 1 WAVETEK MRTS lIST TITLE Swp GENd Ob2 ASSEMBLY NO. REV 1010-00-007b B PAGEl 1 REFERENCE DESIGNATORS 3 1 2 8 & 7 '5 WI w2 W3 1'14 9 4 PART DESCRIPTION ORIG-MFGR-PART-NO MAIN FRAME ASSY FRONT-PANEL ASSY 101>& INT DEl ASSY ATTEIII, 7550-01 MAIN SO ASSY RATE CARI),COOII SWP OSC,M9YA-1 CABLE ASSY, & IN DC BLOCK. 8173-02 CABLE ASSY, &-3/4 IN CABLE ASSY.IO IN SMC TERM,50 A'500-2&7 HARIIIESS ASSY A500-391> 4500-5'19 1219-00-0072 7'5')0-01 A530-002 ALS40-0011 M9'1A-1 WXIO&7-I01 BI73-02 WXIOI>7-W~ wXIOb7-w4 A500-2&7 1'1 VI Ob 1 I'IFGR WAVETEK NO. {,lTV 1'1-1 1111-00-0019 1 1'1-1 1111-00-0021 1 01-1 121'1-00-0072 1 w-I 1113-20-0029 1 1'1-1 1110-00-0890 1 1>1-1 1110-00-0970 1 ,,-I 11111-00-0071 1 w-I 1217-70-0010 1 w-I 1113-80-0009 1 1'1-1 1217-01-001,& I "'-I 1217-80-0014 1 "'-I 1118-00-0007 1 01-1 1219-00-0045 1 WAVETEK PARTS LIST TITLE SWP GEN,10b& ASSEMBLY NO. REV 1010-00-00n c PAGE: 1 REFERENCE DESIGNATORS 3 1 2 8 & 7 5 WI w2 w3 10111 9 " PART DESCRIPTION ORIG-HFGR-PART-NO MAIN FRAME ASSY FRONT-PANEL ASSY 10&7 INT OfT ASSY AnEN. 1550-01 MAIN BO ASSY RATE CARD, COOl SWP OSC,M9YA-l CABLE ASSY, & IN DC BLOCK, S 173~O_2 CABLE ASSY, &-3/4 IN CABLE ASSy,10 IN SMC TERH,50 4500-2&7 HARNESS ASSY A500-391> A500-400 121 '1-00-0072 7550-01 A530-002 AL540-001 M9YA-l 1<1 X101>1-10 1 8173 ..,02 wXI01>1-w3 WXI0b1-W4 1.500-267 WVI0&2 MFGR WAVETEK NO. QTV "'-I 1111-00-0019 1 1'1-1 1111-00-0022 1 1'1-1 1219-00-0072 1 1'1-1 1113-20-002'1 1 "'-I 1110-00-08'10 1 10-1 111 0-00-0900 1 1<1-1 11111-00-0071 1 10-1 1217-70-0010 1 w-l 1113-80-0009 1 1'1-1 1217-01-001>0 1 1'1-1 1217-80-00111 1 .,-1 1118-00-0007 1 101-1 1219-00-0047 1 WAVETEK MR1S LIST TITLE SWP GEN.lO&7 ASSEMBLY NO: REV 1010-00-0029 0 PAGE: 1 REFERENCE DESIGNATORS Jl02 J103 J201 J200? P202 J2G3 J2G4 RPLUG NONE NONE NONE NONE NONE PART DESCRIPTION ORIG-MFGR-P4RT-NO HSG,MINI-LATCH,7-PIN MCOOO-1I3 HSG,MINI-L4TCH,lbPIN MeOOO-115 RECEPTACLE,MCGOO-Olb HSG,MINI-LATCH,5-PIN MCOOO-l11 HSG,MINI-LATCH,4-PIN MeOOO-120 HSG,MINI-LATCH,.-PIN MeOOO-121 PLUG,MCOOO-017 TERMINAL, FEMALE MeOOO-018 TERMINAL, MALE MCOOO-019 TERM,MINI-PV MCOOO-092 TERM,MALE,MCOOO-llb PLUG,POLARIZING I1COOO-I17 b5039-030 b5039-021 03-0b-1151 b5039-032 b5039-031 b5039-028 03-0b-2151 1855 1654 117439 118111> 1>5307-001 MFGR wAVETEK NO. QTY BER 2113-10-0003 1 BER 2113-10-0005 1 MOL 2113-03-0001 1 BER 2113-10-0001 2 BER 2113-10-000b 1 BER 2113-10-0007 1 MOL 2113-011-0001 1 MOL 2113-05-0001 1 MOL 2113-05-0002 1 8ER 2113-20-0001 1 8ER 2113-22-0001 1 BER 2113-23-0001 1 WAVETEK PARTS UST TITLE MISCELLANEOUS PARTS ASSEMBL Y NO. -------- ... --- REV PAGE: 1 REFERENCE DESIGNATORS F201 .J301 P205 9201 T201 5 PART DESCRIPTION OR I G-MFGR-PART-NO FUSE.S.B ··· 5 AMP MFOOO-007 RECEPTACLE CORD SET.1B/3SVT.6FT GRY.MLO.CAP.UL-APPRV MOL 112 19-09-1042 17237SVT SWITCH. DPDT. LOCKING SSOOO-003 XFMR.PWR.TTOOO-035 SWITCH ASSY.5 3/4 IN 46256LFE AM-B055 1212-00-0013 MFGR WAVETEK NO. aTY BUS 2410-05-0004 1 MOL 2113-26-0002 1 BEL bOll-BO-OOOI 1 S-I 5105-00-0003 1 W-I 5610-00-0017 1 W-I 1212-00-0013 1 WAVETEK PARTS UST UA~~ FRAME. 1060 "ff~~!~0'!'60 19 REVE PAGE: 1 REFERF:NCE OESIGNATO~S CIOI CRIOI JI05 JIOb JI07 Rl01 (1062 ONLy) Rl02 RIOS Rl07 RI03 RI04 RIOb RI08 5101 (1062 ONLY) SIO" 7 PART DESCRIPTION CAP,CER,120PF,IKV CDI02-112 lE.D DlOOO-003 CONN,UG'IIIA/U JB109-111 POT/SwITCH Rf'IS2-310 POT,t OK RPI211-310 POT IS~ITCH RPISI-310 POT" OK RP118-310 RES,C,1/4~,SX,33K RC103-333 SWITCH,TOGGlE ST002-00b SWITCH,PB,SZOOO-020 BUTTON,SW,SZOOO-007 ORIG-MFGR-PART-NO bOUI21M 5082-'+955 KC7'1-lllb 70KIGO~OR103M WA2G032S103MA 70K1GOllRI03R JAIN05bSI03MA CF1I4-33K 7107PN-BlK Pt:110-30"fl JS2301l-B MFr.R WAVETEK NO. QTY MDC 1510-10-1121 I H-P 4810-02-0003 I KIN ~IIO-OI-IOI3 3 .4-8 ~bIO-30-4!03 I A-8 IIbI0-l0-7103 3 A-Ii 11610-30-3103 I A-B 4bI0-IO-5103 2 ASE. lI700-IS-B02 1 C-K 510b-OO-001\ I eTl 5110-00-000'1 I eTl 5110-011-0001 4 WAVETEK PARTS LIST TITLE FRONT-PANEL ASSY 1061, 1062 ASSEMBLY NO. REV 1111-00-0020 C PAGE: 1 REFERENCE DESIGNATORS Cl01 CRIOI JIOSA JIObA Jl07A JI05B JIObB Jl07B RIOI (1067 ONLY) Rl02 Rl0S RIO? RI03 Rl04 IHOb Rl08 SIOI (l067 ONLY) S104 8 PART DESCRIPTION eAP,C~R,120PF,IKV CD102-112 lED DlOOO-OO3 HOUSING, AOOI-503 INSERT POT ISO/ITCH RP1S2-310 PDT,! OK RPI211-310 POT /SwlTCH RP1S1-310 PDT,10K RP118-310 RES,C,1/4W,5%,33K RC 103-333. SWITCH, TOGGLE ST002-000 SWITCH,PB,SZOOO-020 BUTTON,SW,SZOOO-OO7 ORIG-MFGR-PART-Nu bOU121M 5082-4955 AOOI-503 1085-3 70KIG040RI03M WA2G032S103MA 70KIGO"RI03R jAIl>i050S103MA CFII11-33K 7107PN-BlK PB10--S04B J52301l-B MFGk ~A"ETEI( NO. (,lTV MDC 1510-10-1121 I H-P 48\0-02-0003 I "'-I 2111-0b-0002 3 PRMD 2111-07-0001 oS A-ti 4bl0-30-1I103 1 .A-ti 4blo-10-7103 3 A-S "bl0-30-3103 I A-d IIbl0-10-5103 2 ASE 11700-1'5-3302 1 C-K 510b-00-001\ 1 CTl 5110-00-0009 1 CTl 5110-04-0001 4 WAVETEK PARTS LIST TITLE FRONT-PAN!L Assr 1066, 1067 ASSEMBLY NO. REV 1111-00-0022 PAGE: 1 REFERENCE DESIGNATORS CI02 CI0! CRI02 JI0S RUO 1n09 PART DESCRIPTION ORIG-MFGR-PART-NO CAP,FT,500PF,20X250V CFI04-150 CAP,CER,.01MF,100V CDI03-310 aIODE OGIOO-821 RECEPTACLE,SNC FROM:2110-01-1013 RES,C,1/4W,5X,51 RCI03-051 Re5.,C,l/4w,5%,HK 4420-500PF 1>8UI03M tN62AG AOOI-228 CFl/4-51 Cfl/4-33K MFGR wA~ErEK NO. QTY AER 1510-50-3501 1 MDC 1510-10-2103 I G-I 41l07-01-0062 I Ill-I 1410-00-3579 1 ASE 4700-15-5109 I ASE 4700-15-3302 1 WAVETEK PARTS usr TITLE INT DET ASSY 50 OHM ASSEMBLY NO. REV 1219-00-0038 B PAGE: 1 REFERENCE DESIGNATORS C102 CI03 CRI02 JI08A Jl0eS RUO RI09 PART DESCRIPTION ORIG-MFGR-PART-NO CAP,FT,500PF,20%250V CFIOIl-1S0· CAP,CER,.OIMF,IOOV CD103-310 DIODE DGIOO-821 I-tOUSING, AOOI-503 INSERT RES,C,I/4W,5X,7S RC103-075 RES,C,I/4W,5%,33K 11I120-S00PF 1>8UI03M IN62AG AOOI-503 1065-3 CFl/4-75 CFl/4-33K MFGR WAVETEK NO. QH AER 1510-30-3501 1 MOC 1510-10-2103 1 G-I 4807-01-00'12 I ri-l i.!lll-01>-OO02 I PRMD i.!111-07-0001 1 ASE 4100-15-7509 I ASE 4700-15-3302 1 WAVETEK PARTS usr TITLE INT DET ASSY 75 OHM ASSEMBLY NO. REV 1219-00-0072 A PAGE: 1 REFERENCE DESIGNATORS PART DESCRIPTION ORIG-MFGR-PART-NO MFOR WAVETEK NO. OTV NONE P301 S202 TERMINAL. MALE PLUG SWITCH. TOGGLE DPDT 02-09-2119 19-09-2042 9201P3HZO MOL 2113-09-0004 4 MOL 2113-26-0001 1 C-K 5106-00-0016 1 WAVETEK ~~~~CH ASSV.5 3/4 IN A1S2SE1M2B-L0Y0N-O0.013 REV PARTS usr PAGE: 1 REFERENCE DESIGNATORS COl ClO C02 C04 C07 C11 C14 C03 C09 C13 C15 C16 Cl8 Cl9 C22 C05 C06 C08 C17 C20 C21 C23 C24 C27 C28 PART DESCRIPTION ORIG-MFOR-PART-NO CAP. ELECT. l500MF.50V CE102-215 CAP.CER·· 005MF.100V CAP.TANT.I0MF.25V CE120-010 CAP. ELECT. 100MF. 12V CE119-110 CAP.CER. 100PF. lKV CDI04-110 CAP. ELECT. 100HF. 25V CEI05-110 CAP.CER.200PF.IKV CDI02-120 CAP.CER ·· OOIMFD.IKV CDI02-210 CAP.CER·· 05MF.I00V CDI03-350 CAP.CER.I0PF.1KV CDI0I-010 CAP.CER.360PF.IKV CD102-136 CAP.CER.120PF.IKV CDI02-112 D76374 TO-D50 162DI06X0025DD2 500DI070012CC7 10TCU-TlO TE1211 5GA-T20 5GADI0 TO-S50 10TCC-GI0 60U361M 60U121M MFOR WAVETEK NO. GTY BPR 1510-20-1152 2 SPR 1510-10-2502 5 SPR 1510-21-7100 8 SPR 1510-21-2101 1 SPR 1510-10-3101 1 SPR 1510-20-4101 2 SPR 1510-10-1201 1 SPR 1510-10-1102 1 BPR 1510-10-2503 1 SPR 1510-10-0100 1 MDC 1510-10-1361 1 MDC 1510-10-1121 1 WAVETEK PARTS usr Ul~~ BD ASSY 1f'irg~'ob~%890 REVE PAGE: 1 REFERENCE DESIQNATORS C29 C30 CR01 CR02 CR03 CR04 CR05 CR06 CRO? CR08 CR09 CRI0 CR11 CR12 CR13 CR14 CR15 ICl IC6 IC7 IC2 IC3 IC4 IC5 IC9 ..1104 Ll L2 L3 POOl PI01 PART DESCRIPTION OR I G-HFGR-PART-NO CAP. MON. IMF.50V.20X CAP.TANT·· 47MF.50V CE113-447 DIODE DROOO-Ooe DIODE DROOO-001 3420-050-EI05M 935 1N5059 1N4004 IC.ICOOO-005 IC. ICOOO-026 IC. IL002-001 IC.ICOOO-OOI IC.ICOOO-002 CONN .JF000-005 CHOKE. 10.0MH. lOX LA005-010 CHOKE.10HILH.10X LA004-310 HEADER. 10-PIN STRT REF:2ll2-07-0000 RC4558NB MC7818CD HC7918CP LH723CH N5741CV 37.JR116-l 08NI00K 15S103K MCOOO-123 MFGR WAVETEK NO. GTY AER 1510-11-3105 1 TRW 1510-21-9470 1 G-E 4806-01-5059 4 P-C 4806-01-4004 11 RAY 7000-14-5800 3 HOT 7000-78-1800 1 HOT 7000-79-1800 1 NAT 7000-17-2300 1 SIG 7000-57-4100 2 S-C 2110-03-0002 1 ABE 1810-03-0100 2 ABE 1810-02-1001 1 W-I 2112-07-0003 2 WAVETEK PARTS lIST J/l~'" BD ABBY Affl~~0~~890 REVE PAgE: 2 REFERENCE DESIGNATORS Pl03 P203 P204 001 003 002 005 004 006 007 009 008 010 on ROl Rl0 R02 Rll R03 R12 R32 RS5 R98 R04 R13 R42 R43 PART DESCRIPTION OR IO-MFGR-PART-NO HEADER. 16-PIN STRT REF: 2112-07-0000 HEADER.4-PIN STRT REF: 2112-07-0000 HEADER.9-PIN STRT REF: 2112-07-0000 TRANS OAOSO-880 TRANS OAOS4-610 TRANS OBOOO-01O TRANS 013000-009 TRANS OA038-S41 TRANS-OA042-500 TRANS OA054-580 RES.MF. 1/8W. 17..8.06K RF212-806 RES.MF. 1/8W. 17.. 10K RF213-100 RES.C. 1/4W.5~.4.7K RC103-247 RES.C. 1/4W.S~.680 RC103-168 MCOOO-124 MCOOO-097 HCOOO-122 2NS088 2NS461 TD101 MPS3702 2N38S4A 2N4250 2N54S8 MF55K-8.06K I1FSSK10K CFl/4-4.7K CFl/4-680 HFOR WAVETEK NO. aTY W-I 2112-07-0004 1 W-I 2112-07-001S 1 W-I 2112-07-0002 1 MOT 4901-0S-0880 2 T-I 4901-0S-4610 2 SPR 4902-00-1010 1 NAT 4902-03-7020 3 SPR 4901-03-8541 1 FCD 4901-04-2S00 1 INT 4901-05-4580 1 ASE 4701-03-8061 2 ASE 4701-03-1002 2 ASE 4700-1S-4701 S ASE 4700-1S-6800 4 WAVETEK PARTS LIST Jll~~ 130 ASSY '"ff\~~o"O'!?;890 REV E PAGE: 3 REFERENCE DESIGNATORS R05 R14 R06 R07 R08 R09 R15 R16 R18 R20 R39 R21 R27 R23 R28 R24 R29 PART DESCRIPTION ORIG-HFGR-PART-NO RES.C.1/4W.S7..330 RC103-133 RES.HF. 1/8W. 1~.2.49K RF.212-249 RES.MF. 1/8W. 17..5. 11K RF212-S11 POT.2K.RP131-220 RES.MF. 1/8W. 17.. 13.0101. RF213-130 RES. SET. 2-10K. 1/8W OTY:2:4701-03-1002 RES.C. 1/4W.5~.3.9M RC103-539 RES.C.1/4W.57..3.3K RC 103-233 RES.C.1/4W.S7..5.6K RC103-2S6 RES.C.1/4W.57..22K RC103-322 RES.C.1/4W.5X.270 RC103-127 CFl/4-330 MF55K-2.49K I1F55K-S. 11K 360T202B MF55K-13.0K RXOOO-003 CB3955 CF1/4-3.3K CFl/4-5.6K CFl/422K CFl/4-270 HFGR WAVETEK NO. OTY ASE 4700-1S-3300 2 ASE 4701-03-2491 1 ASE 4701-03-5111 1 CTS 4610-00-3202 1 ASE 4701-03-1302 1 W-I 4789-00-0004 1 A-B 4700-1S-3904 1 ASE 4700-15-3301 2 ASE 4700-15-S601 2 ASE 4700-15-2202 2 ASE 4700-15-2700 2 WAVETEK PARTS LIST TMITALIEN BD ASSY A1S1SE1M0B-L0V0N-O0.890 PAGE: 4 REVE REFERENCE DESIGNATORS R25 R30 R31 R34 R38 R41 R44 R47 R54 R73 R74 R7b RBO RB3 RB7 R93 R95 R9b R33 R35 R3b R91 R37 R90 R40 R45 R4b R4B R49 R50 R51 R52 R53 RB4 PART DESCRIPTION RES.C. 1/4W.5X. 1.5M RC103-515 RES.C. 1/4W.5X. 10K RC103-310 OR I G-MFGR-PART-NO CFl/4-1.5M CF1I4-10K RES.C. 1/4W. 5X.47K RC 103-347 RES.C. 1/4W.5X. 1.BM RC103-51B RES.C.1/4W.5X.2.2M RC103-522 RES.C. 1/4W.5%. 1M RC103-510 RES.C.1/4W.5X.2.2K RC103-222 RES.C.1/4W.5X.24K RC103-324 RES.MF. l/BW.l%. 17BK RF214-17B RES.C. 1/4W.5X. 15M RC103-b15 RES.C.1/4W.5X.470K RC103-447 CF1I4-47K CF1/4-1.BM CF1/4-2.2M CF1I4-1M CFl/4-2.2K CF1I4-24K MF55K-17BK CB15b5 CFl/4-470K MFGR WAVETEK NO. GTY ASE 4700-15-1504 1 ASE 4700-15-1002 17 ASE 4700-15-4702 1 ASE 4700-15-1B04 1 ASE 4700-15-2204 2 ASE 4700-15-1004 2 ASE 4700-15-2201 1 ASE 4700-15-2402 2 ASE 4701-03-17B3 4 A-B 4700-15-1505 1 ASE 4700-15-4703 2 WAVETEK PARTS LIST T-Il~~ BD ASSY Anl'A~'o"0~'5B90 REVE PAGE: 5 REFERENCE DESIGNATORS R56 R71 RB2 RB5 R57 R7B R5B R59 R60 R92 R94 R61 R62 Rb3 R64 R65 R66 R67 RbB RBb R69 R70 R72 R75 PART DESCRIPTION ORIG-MFGR-PART-NO POT. 20K. RP131-320 RES.C.1/4W.5%.2.7K RC 103-227 RES.C. 1/4W.5X. lK RC103-210 POT.CONT. lOOK RP131-410 RES.C. 1/4W.5X. 120K RC103-412 RES.C.1/4W.5Y..220K RC103-422 RES.C.1/4W.5%.330K RC103-433 RES.C.1/4W.5X.100K RC103-410 - RES.C.1/4W.5%.75K RC103-375 RES.MF.1/BW.1%.36.5K RF213-3b5 RES.C.1/4W.5%.33K RC103:-333 360T2039 CF1/4-2.7K CFl/4-1K 360Tl04B CFl/4-120K CFl/4220K CF1/4-330K CFl/4-100K CF1/4-75K MF55K-3b.5K CF1/4-33K MFGR WAVETEK NO. GTY CTS 4610-00-3203 4 ASE 4700-15-2701 2 ASE 4700-15-1001 5 CTS 4bl0-00-3104 4 ASE 4700-15-1203 1 ASE 4700-15-2203 2 ABE 4700-15-3303 2 ABE 4700-15-1003 1 ABE 4700-15-7502 1 ABE 4701-03-3652 1 ABE 4700-15-3302 1 WAVETEK PARTS LIST T-Il~~ SO ASSY i>ffl'A~'o"0~'5B90 REVE PAGE: 6 REFERENCE DESIQNATORS R17 R79 RBI RB9 R97 PART DESCRIPTION RES.C.1/4W.5X.~OK RC103-320 POT. 10K. RP131-310 RES.C.1/4W.5X.100 RC103-110 RES.C.1/4W.5X.6BOK RC103-46B RES.C. 1/2W.5X. 1.2K RCI05-~1~ OR IO-HFOR-PART-NO CF1/4-~OK 360Tl03B CF1/4-100 CF1/4-6BOK CF1/~-1.2K HFOR WAVETEK NO. GTY ASE 4700-15"':~00~ 1 CTS 4610-00-3103 1 ASE 4700-15-1000 1 ASE 4700-15-6B03 1 ASE 4700-25-1~01 1 WAVETEK PARTS UST U~~l. BD ASSY !fiirg~b'O'!%B90 REVE PAGE: 7 RI'"FI'"RI'"NCE: .",.>T,' lTORS PART OI'"SCRIPTlOIli ORIG-MFGR-PART-NO HFGR WAVETEK 1110, rHY Cl Co2 Cl C4 C5 CRI CR2 CRl CR4 CR5 ICI IC2 Jl01 Pl02 Gil Gil Gill Gl2 Gl8 Gl4 GIS Gl7 Gl9 ROI R02 R05 R21 WAVETEK PARTS UST CAP,HYLAR,.15MF,100V toIMF1P15 CP101-/U5 CwO 1510-00-2154 1 CAP,CER,.02UF,50V TG-S20 SPR 1510-10-2201 2 CAP,CER,470PF,IKV C0102-147 OOU471H MDC 1510-10-1471 1 CAP,CER,.OOIMFO,IKV C0102-210 5GA010 SPR 1~10-10-1102 1 DIODE OG109-140 lN4148 FCD 4807-01-0914 !) OP AHPL TO-5 IL003-004 LFl55H NAT 7000-01-5501 1 IC,ICOOO-005 RC45580N RAY 7000-14-5800 1 CONN,PV CARD MCOOO-119 HEAOER,7-PIN STRT REF:2112-07-0000 05001-000 MCOOO-125 BER 2112-10-0001 1 W-I 2112-07-0005 1 TRANS QA054-580 2"151158 MO.T 4901-05-4580 :5 TRANS QBOOO-009 MPS1702 HOT 4902-03-7020 2 TRANS QA038-541 211138544 G-E 4901-03-8541 3 TRANS QA054-010 2N54111 HOT 4901-05-4010 1 RES,C,1/4W,5%,10K RC101-3l0 TITLE CF1/4-10K .SE 4700-15-1002 4 ASSEMBLY NO. REV RATE CARD,COOI 1110-00-0900 0 PAC"_ · RFFFRI'NCI' DE:SIGNATORS PART DFSCRIPTJON ORIG-MFGR-PART-NO MFGR WAVETFK NO. tHY R03 R22 RES,C,1/4~,SX,4.7K RC103-247 CFII4-4.7K ASE 4700-IS-4701 2 R04 R07 RI3 R2& RES,C,1/4W,SX,10M RCIH-&lO C810&S A-8 4700-15-1005 II RO& R09 IHO RI& R20 R2l RES,C,1/4~,5X,100K RCI03-410 CF1I4-100K ASE 4700-15-1003 & R08 RES,MF,1/8W,IX,3&.5K MF55K-3&.SK ASE 4701-03-3&52 I RF213-3&5 Rll RI2 RES,C,1/4~,5X,22K RCI03-322 CFl/422K ASE 4700-15-2202 2 Rill RES,C,1/4W,SX,47K CFI/4-117K ASE 4700-15-4702 1 RC103-347 RI5 R29 RES,C,1/4W,5%,27K RCI03-327 CFl/4-27K ASE 4700-IS-2702 2 RI7 RES,C,1/4W,SX,20K CF1/4-20K ASE 4700-15-2002 I RC103-320 R18 POT,SOK,RPI29-350 3&055038 CTS 4&10-00-1503 1 RI9 RES,C,1/4W,SX,&8K CFl/lI-b8K ASE 11700-15-&802 I RCI03-3&8 R211 RES,MF,1/8w,IX,13.0K MFS5K-13. OK ASE 11701-03-1302 I RF213-130 R2S" RES,C,1/4W,SX,410K, RCI03-522 CF 114-470K. ASE 4700-15-4703. I WAVETEK :PARTS usr TITLE RATE CARD,COOI ASSEMBLY NO. REV 1110-00-0900 D D .".-. ~ RE:FERFNCE DFSIGNATORS R27 R28 R30 R311 R31 R32 RH PART DESCRIPTION ORIG-MFGR-PART-NO RES,MF,I/8W,IX,44.2K RF213-11112 RES,C,I/IIW,5X,180K RCI03-1118 RES,C,1/4w,5X,IK RCI03-210 POT,20K,RPI29-320 RES,C,I/IIW,5X,12K RC103-312 RES,C,I/4~,SX,75 RC103-075 MF55K-1I4.2K CF1//1-160K CFI/4-IK 3&052038 CF1/1I-12K CRI/II-7S MFGR WAVETEK NO QTY ASE 4701-03-111122 I ASE 11700-15-1803 I ASE 4700-IS-100I 2 CTS 4&10-00-1203 I ASE 11700-1S-1202 I ASf 11700-15-7509 I WAVETEK PARTS LIST TITLE RATE CARD,COOI ASSEMBL VNO. REV 1110-00-0900 D I L l = . _1. REFERENCE DESIGNATORS PART OESCRIPTION ORIG-MFGR-PART-NO MFGR "A~ETE\o( NO. QTY Cl C3 C2 CRI CR2 CR3 ICI JIOI QI ROI Rll RI2 R02 R03 ROil R09 R05 R07 R06 R08 CAP.TANT.10MF,25V CE120-010 CAP,MYLAR,.15MF,100V ePI03-1115 DIODE DG109-1110 IC,ICOOO-005 CONN,PV CARD MCOOO-119 TRANS QA03S-541 RES,C,1/4W,5X,IOK Re103-3l0 RES,C,I/I1W,5%,20K RCI03-320 RES,C,I/II~.5%,IOOK RC103-1I10 RES,C,I/IIW,5%,27K Rel03-327 RES,C,1/4W,5%,1I7K RC103-3117 POT,20K,RP129-320 RES,C,1/4W,5X,220K RCI03-1122 1&2010bX0025002 I14MFIPI5 INilI1I8 RC4558DN 65001-006 2N3854A CFIIII-IOK CF 1/11-20K CFl/lI-l00K CFt 11I-27K CF 1/q-47K 36082038 eF 1I11c!20K SPR 1510-21-7100 2 e-D 1510-bO-21511 1 FCD 4807-01-0914 3 RAY 7000-111-5800 I BER ell2-10-OOOI 1 G-E 4901-03-8541 I ASE 4700-15-1002 3 ASE 4700-15-2002 I ASE 4700-15-1003 1 loSE 11700-15-2702 2 ASE 4700-15-4702 2 eTS 4&10-00-1203 1 ASE 4700-15-2203 1 WAVETEK PARTS LIST TITLE RATE CARD,COOII ASSEMBLY NO. REV 1110-00-0970 PAGE: 1 REFERENCE DESIGNHORS RIO PART DESCRIPTION RES,C,I/IIW,5X. 47 RC103-047 ORIG-MFGR-PART-NO CF1I4-47 MFGR wAVETEK NO. QTY ASE 11700-15-"709 1 WAVETEK PARTS LIST TITLE RATE CA.-o,eoo" ASSEMBLY NO. REV 1110-00-0''170 PAGt::: 2 REFERENCE DESIGNATORS COl C05 C07 C09 C13 C14 C16 C18 C20 C35 C39 C42 C49 C02 C58 C03 C06 C08 C28 C31 C36 C38 C41 C43 C45 C46 C04 C32 C59 CI0 Cll C15 C55 C12 C17 C24 C26 C27 C47 C51 C52 C19 C21 C22 C23 C29 C57 C25 PART DESCRIPTION ORIG-HFGR-PART-NO CAP,FT,500PF,20~~50V CF104-150 ' 4420-500PF CAP,G.C.,.47PF CGI01-147 CAP,TANT,.47HF,50V CE113-447 GC-.47PF 935 CAP,M.C.,3.9PF CG 102-239 CAP,CER,.01MF,100V CDI03-310 CAP,CER, 120PF, 1KV CD102-112 CAP, F.T. , 470PF CFI01-147 CAP,CER, 100PF, 1KV CDI08-110 CAP,FT,CER,100PF,20Y. CFI04-110 CAP,TANT,10MF,25V CE120-010 CAP,F.T.,6.8PF CFI02-R68 HC-3.9PF 68UI03M 60U121M FA5C-4712 CN1500-100PF 4420-100PF 162DI06X0025DD2 54-794-010-6892 HFGR WAVETEK NO. GTY AER 1510-30-3501 13 G-C 1510-40-0478 2 TRW 1510-21-9470 11 G-C 1510-40-1399 3 MDC 1510-10-2103 4 MOC 1510-10-1121 1 A-B 1510-30-0471 7 RMC 1510-10-5101 1 AER 1510-30-3101 2 SPR 1510-21-7100 3 SPEC 1510-30-1689 1 WAVETEK MRTS usr g~pE OSC, M9Y-l Pffi't~~0'!%070 PAGE: 1 REV M REFERENCE DESIGNATORS C30 C33 C37 C40 C50 C56 C44 C48 C53 C54 CR05 CR07 CR06 CR12 CR13 :R08 CR14 CR09 CR10 CRl1 CR15 IC1 PART DESCRIPTION ORIG-MFGR-PART-NO CAP,M-C,4.7PF,10Y. CGI02-247 CAP,CER,.025MF,50V CD103-325 CAP,CER, 10PF, lKV CDI0I-0I0 CAP,ELECT,lMF,25V CE120-001 CAP,CER, 15PF, lKV CDI01-015 CAP,CER,.OOlMFD,lKV CDI02-210 CAP,CER,6.8PF,lKV CDI01-R68 DI ODE DBOOO-O.O1 DIODE DPOOO-050 DIODE DGI00-821 DIODE DCOOO-005 DIODE DROOO-OOl IC,ICOOO-004 GC-4.7PF TG-S25 10TCC-GI0 162DI05X9025BC2 10TCC-(U5 5GADI0 60C0H6R8D HW6.8B 5082-3080 IN82AG BB1.21A IN4004 N5741T MFGR WAVETEK NO. GTY G-C 1510-40-1479 1 SPR 1510-10-2253 1 SPR 1510-10-0100 1 SPR 1510-21-7010 3 SPR 1510-10-0150 1 SPR 1510-10-1102 2 MDC 1510-10-0689 1 MSP 4801-02-0001 2 H-P 4805-02-0002 3 G-I 4807-01-0082 2 ITT 4889-00-0001 3 P-C 4806-01-4004 1 SIG 7000-57-4101 1 WAVETEK MRTS UST mpEOSC, H9Y-l Pfnrtl!.'bYO'!%070 REVH PAGE: 2 REFERENCE DESIGNATORS .11 .J2 .13 .14 (A) LOl L02 L03 L04 LOS LU L16 L19 L21 L05 L06 L12 L14 L15 L17 L19 L20 L23 L24 L07 L09 Ll0 L13 L22 L25 MXl 001 G07 009 009 002 003 006 016 004 005 010 015 011 PART DESC~IPTION CONN .IFOOO-005 RF CHOKE ORIG-MFGR-PART-NO .- 37.1R116-1 CHOKE FERRITE CHOKE LA009-004 TORRID. 10 TURN T1255-1 LA009-010-1 TORRID. 4 TURN CHOKE .22MH lOX LA005-R02 CHOKE.4.7MH. lOX LA005-R47 DIODE.GUAD.BAL MIXER TRANS GA051-790 TRANS OA050-530 TRANS GA038-541 TRANS GBOOO-009 TRANS OA054-580 TRANS 6BOOO-013 LA009-004-1 OSNR22K OSN4R7K 5082-2930 2N5179 2N5053 2N3954A MPS3702 2N5459 A430 MFQR WAVETEK NO. GTY S-C 2110-03-0002 4 W-I 1919-99-9999 9 HYT 1910-05-0001 1 HYT 1910-05-0004 9 HVT 1910-05-0003 1 ABE 1910-03-0229 3 ASE 1910-03-0479 2 H-P 4899-02-0001 1 RCA 4901-05-1790 4 APX 4901-05-0530 4 SPR 4901-03-8541 1 NAT 4902-03-7020 1 INT 4901-05-4580 ::I APX 4902-00-4300 1 (A) J3 FOR M9YA-1 WAVETEK MR1SUST CONN, JFOOO-OOIf lI~~E OSC. M9Y-l 27-21 APt Afntt~'!1cr-'is070 PAGE: 3 2110-03-0001 1 REVM REFERENCE DESIGNATORS 012 013 014 ROI R40 R49 R55 R74 R02 R03 R15R34 R41 R42 R70 R04 R19 R35 R36 R39 R05 R07 R06 R09 R18 R75 R09 R16 R20 R22R29 R33 R47 R64 Rl0* Rl1 R23 R45 R49 R59 R12 R27 R29 R67 R72 R13 R73 PART DESCRIPTION TRANS OBOOO-018 TRANS OBOOO-019 RES.C.1/4W.5X.680 RC103-168 RES.C.1/4W.5X.4.7K RC103-247 RES.C.1/4W.5'X.47 RC103-047 RES.C.1/4W.5X.120 RC103-112 POT.1K.RP129-210 RES.C.1/4W.5X.33 RC103-033 RES.C. 1/4W.5'X. 100 RC103-110 RES.C.1/4W.5X.470 RC103-147 RES.C. 1/4W.5X. 10K RC103-310 RES.C. 1/4W.5X. 1.5101. RC103-215 ORIQ-MFGR-PART-NO SD1006 SD1005 CFl/4-690 CFl/4-4.7K CF1/4-47 CF1/4-120 3608102B CFl/4-33 CFl/4-100 CFl/4-470 CFl/4-10K CFl/4-1.5K MFOR WAVETEK NO. GTY SSS 4902-01-0060 2 SSS 4902-01-0050 1 ABE 4700-15-6900 5 ABE 4700-15-4701 7 ABE 4700-15-4709 5 ABE 4700-15-1200 2 CTS 4610-00-1102 1 ASE 4700-15-3309 3 ASE 4700-15-1000 9 ABE 4700-15-4700 6 ABE 4700-15-1002 5 ABE 4700-15-1501 2 WAVETEK MR1S lIST 'WIsEosc.M9V-l ffitt~~?s070 REVM PAGE: 4 REFERENCE DESIGNATORS R14 R17* R21 R46 R24 R25 R26 R63 R30 R31 R32 R39 R43 PART DESCRIPTION RES,C,1/4W,5X,27K RC103-327 RES,C,1/4W,5X,75 RC103-075 RES,C,1/4W,5X,2.2K RC103-222 RES,C,1/4W,5X,330 RC103-133 RES,C, 1/4W,5X, 1M RC103-510 RES,C, 1/4W,5X, lK RC103-210 POT,20K,RP144-320 FROM: 4610-00-7203 RES,C,1/4W,5X,470K RC103-447 RES,C,1/4W,5X,2.2M RC103-522 RES,C, 1/4W,5X, 10 RC103-010 RES,C,1/4W, lOX, 10M RC104-610 ORIG-MFGR-PART-NO CFl/4-27K CR1/4-75 CF1/4-2.2K CF1/4-330 CFl/4-1M CF1/4-1K 91WR20K CF1I4-470K CF1/4-2.2M CF1/4-10 CB1061 MFGR WAVETEK NO. OTY ASE 4700-15-2702 1 ASE 4700-15-7509 1 ASE 4700.-15-2201 2 ASE 4700-15-3300 1 ASE 4700-15-1004 1 ASE 4700-15-1001 2 BEK 4610-00-4203 1 ASE 4700-15-4703 1 ASE 4700-15-2204 1 ASE 4700-15-1009 1 A-B 4700-16-1005 1 WAVETEK PARTS LIST lI~~E OSC, M9Y-l A1SS1E1M4B-L0v0N-O0.070 PAGE: 5 REVM REFERENCE DESIGNATORS PART DESCRIPTION ORIG-MFGR-PART-NO MFGR WAVETEK NO. OTY R44 R50 R52 R56 R60 R51 R53 R54 R58 R57 R61 R62* R65 R66 (B) R71 R76 (B) Roo FOR M9YA-1 WAVETEK PARTS LIST RES,C, 1/4W,5X, 15M CB1565 A-B RC103-615 RES,C, 1/4W,5X, 1.8K CF1/4-1.8K ASE RC103-218 RES,C, 1/4W,5X, 180 CF1/4-180 ASE RC103-118 RES,C,1/2W,5X, 150 CF1/2-150 ASE RC105-115 RES,C, 1/4W. 5X,4.7 CF1/4-4.7 ASE RC103-R47 RES.C, 1/2W.5X. 100 CF1/2-100 ASE RC105-110 RES.C.1/2W,5X.68 CF1/2-68 ASE RC105-068 RES,C.1/4W,5X.22 CFl/4-22 ASE RC103-022 RES,C.1/4W.5X.82 CF1/4-82 ASE RC103-082 RES,L-A, 1/4W. lX,49.9 SPS-N-347-49.9 IRC RF404-990 RES.C,1/4W.5X,7.5K CF1/4-7.5K ASE RES, c, 1/4W/5%-, 150 CFl/4-150 ASE RES,L-A,1/4W,1%,75.0 SPS-N-347-75 IRe lI~pE OSC, M9Y-l '\Sf~'1'!'o"0~%070 PAGE: 6 4700-15-1505 4700-15-1801 4700-15-1800 4700-25-1500 4700-15-4708 4700-25-1000 4700-25-6809 4700-15-2209 4700-15-8209 4741-49-9007 4700-15-7501 4700-15-1500 4741-75-0007 1 4 1 1 2 1 1 1 1 1 1 1 1 REVM REFERENCE DESIGNATORS COl COS C09 Cl0 Cll C12 C03 C04 C05 C06 C07 C13 C14 C15 C16 C17 C18 C19 C22 C20 C21 C23 CROl CR02 CR03 CR04 CROS CR06 CR07 CROS CR09 CR10 CR11 CR12 CR13 CR14 ICOl IC02 IC03 ,)01 ,)02 ,)03 PART DESCRIPTION OR IO-MFGR-PART-NO MFOR WAVET~ NO. OTY CAP,CER,.OOlMFD,lKV CD102-210 50AD10 SPR 1510-10-1102 6 CAP,VAR,3.5-13PF250V 7S-TRIKO-02-3.5-13PF STR 1510-70-0130 5 CV101-013 CAP,F.T·· 6.8PF CF102-R68 54-794-010-6892 SPEC 1510-30-1689 1 CAP,CER.200PF.1KV CD102-120 5QA-T20 SPR 1510-10-1201 5 CAP. CE.,~ ·· 05HF. l00v CD 10 3 - 3 5 0 TO-S50 SPR 1510-10-2503 2 CAP. CER. F. T. 1000PF CF112-210 54-794-01 0-1 02P SPEC 1510-30-8102 2 CAP,CER,120PF,1KV CD102-112 60U121M MDC 1510-10-1121 1 DIODE DOOOO-009 5082-2835 H-P 4809-02-0002 5 DIODE D0109-140 1N4148 T-I 4807-01-0914 8 DIODE DROOO-OOl IC.ICOOO-OOS CONN .JF000-005 lN4oo4 RC4558NB 37.JR116-1 P-C 4806-01-4004 1 RAY 7000-14-5800 3 S-C 2110-03-0002 3 WAVETEK PARTS LIST TITLE RF HKR.M13,) ASSEMBL V NO. REV 1114-00-0151 0 PAOE: 1 REFERENCE DESIGNATORS QOl 009 002 003 004 005 006 007 008 ROl R02 R03 ROS R06 R07 R08 R09 R04 Rl0 R11 R12 R13 R14 R15 R33 R34 R16 R17 R18 R19 R20 R21 R22 R23 R24 R25 R26 PART DESCRIPTION TRANS OA05O-530 TRANS OBOOO-009 TRANS OA039-040 TRANS OA038-541 POT,1K RES.C.1/4W,5X,47K RC103-347 RES.C,1/4W.5X,lM RC103-210 RES.C.1/4W,5X.56 RC103-056 RES.C, 1/4W. 5X. 270 RC103-127 RES,C.1/4W.5X.l0K RC103-310 RES,C, 1/4W,5X. 1.5M RC103-515 RES.C.1/4W.5X.360K RC 103-436 RES.C,1/4W.SX,51K RC103-351 OR IO-MFOR-PART-NO 2N5053 MPS3702 2N3904 2N3854A WA200329-102MA CFl/4-47K CF1/4-1K CFl/4-56 CFl/4-270 CFl/4-10K CF1I4-1.5M CFl/4-36OK CFl/4-5U\ MFOR WAVETEK NO. OTY APX 4901-05-0530 2 NAT 4902-03-7020 5 NAT 4901-03-9040 1 SPR 4901-03-8541 1 A-B 4610-10-7102 1 ASE 4700-15-4702 1 ASE 4700-15-1001 6 ASE 4700-15-5609 1 ASE 4700-15-2700 5 ASE 4700-15-1002 3 ABE 4700-15-1504 1 ASE 4700-15-3603 5 ASE 4700-15-5102 5 WAVETEK PARTS LIST TITLE RF HKR,M13') ASSEMBL V NO. 1114-00-0151 REV D PAOE: 2 REFERENCE DESIGNATORS R27 R.2S R29 R30 R3l R32 R36 R35 R37 R39 R39 R40 R41 R42 R43 R44 R45 R46 TOI PART DESCRIPTION RES.C.1/4W.5X.24K RC103-324 RES.C.1/4W.5X.22K RC103-322 RES.C.1/4W.5X.56K RC103-356 RES.C.1/4W.5X.1M RC103-510 RES.C.1/4W.5X.5.6K RC103-256 RES.C.1/4W.5X.3.3K RC103-233 RES.C.1/4W.5X.2.7K RC103-227 RES.C.1/4W.5X.920 RC103-192 RES.C.1/4W.5X.l0 RC103-010 RF XFMR FROM: 1913-00-0007 ORIQ-MFQR-PART-NO CF1/4-24K CFl/422K CFl/4-56K CFl/4-1M CFl/4-5.6K CFI/4-3.3K CFl/4-2.7K CFI/4-920 CFl/4-10 1210-40-0017 MFQR WAVETEK NO. GTY ASE 4700-15-2402 I ASE 4700-15-2202 6 ASE 4700-15-5602 1 ASE 4700-15-1004 1 ASE 4700-15-5601 5 ASE 4700-15-3301 1 ASE 4700-15-2701 1 ASE 4700-15-9200 1 ASE 4700-15-1009 1 W-I 1210-40-0017 I WAVETEK PARTS LIST TITLE RF MKR.M13J. ,ASSEMBL V NO. 1114-00-0151 PAGE: 3 REV D REFERENCE DESIONATORS ICOI ROl R03 R06 ROB R02 R04 R07 R09 SOl PART DESCRIPTION OR I G-MFQR-PART-NO IC.ICOOO-005 RES.C. 1/4W.5X. 10K RC103-310 POT.20K.RP129-320 RES. C. 1/4W. 5X. ·9:.1K RC455BNB CFl/4-10K 360S203B CFl/4-'9o.tt<. POT.2OK RES.C.1/4W.5X.4.7K RC103-247 SWITCH. TOGGLE STOOS-006 WAlN032S203l1A CFl/4-4.7K 7101P3NV1ZGE MFGR WAVETEK NO. GTY RAY 7000-14-5900 1 ASE 4700-15-1002 4 CTS 4610-00-1203 1 ASE 4700-15-910.1 1 A-B 4610-11-9203 1 ASE 4700-15-4701 1 C-K 5106-00-0014 1 WAVETEK PARTS UST TITLE TILT ASSY ASSEMBL V NO. REV 1110-00-1050 C PAGE: 1 REFERENCE DESIGNATORS Cl C2 C3 C4 CRl CR2 ICl IC2. Ll L2 QOl R01 R03 R15 R16 R17 R18 R20 R23 R02 R04 R12 R05 R06 R10 Rl1 R22 R07 R08 R09 PART DESCRIPTION CAP.CER·· 005l1F.I00V CAP.TANT.I0I1F.25V CE120-010 DIODE DGI09-140 IC.ICOOO-005 IC. ILOO4-001 CHOI(E. 10.0I1H. lOX LA005-010 TRANS QA038-541 RES.C, 1/4W,5'X, 10K RCI03-310 POT,201(,RP129-320 POT,20K RE9.C, 1/4W. 5'X,4.7K RC103-247 RES,C. 1/4W, 5'X. 1001( RCI03-410 POT,2K,RP129-220 RES,C,1/4W.5'X,330 RC103-133 ORIG-MFGR-PART-NO TQ-D50 162DI06X0025DD2 IN4148 RC4558NB L11339N 08NI00K 2N3854A CFl/4-10K 360S203B 43P203T601 CF1/4-4.71( CF1/4-1001( 36092028 CFl/4-330 I1FGR WAVETEK NO. GTY SPR 1510-10-2502 2 SPR 1510-21-7100 2 T-I 4807-01-0914 2 RAY 7000-14-5800 1 NAT 7000-03-3900 1 ASE 1810-03-0100 2 SPR 4901-03-8541 1 ASE 4700-15-1002 8 CTS 4610-00-1203 1 9PE 4610-00-5203 2 ASE 4700-15-4701 5 ASE 4700-15-1003 1 CTS 4610-00-1202 1 A9E 4700-15-3300 1 WAVETEK PARTS UST 'Ui5~~H/TILT ASSY 1firg'!'o"o~~'060 REV PAGE: 1 B REFERENCE DESIGNATORS R13 R14 R19 R21 R24 R25 R26 Sl PART DESCRIPTION RES.C, 1/4W. 5'X,9. 11( RCI03-291 RES,C,1/4W.5'X,6.8K RC103-268 POT,20K RES,C,1/4W.5'X,3.3K RC103-233 RES,C,1/4W.5'X,1M RC103-510 RES,C, 1/4W, 5X, 470 RC103-147 SWITCH, TOGGLE ST003-006 ORIQ-MFQR-PART-NO CFl/4-9.11( CF1I4-6.8K WAIN032S203MA CF1/4-3.31( CF1/4-1M CF1/4-470 7201P3NYZQ MFOR WAVETEI( NO. GTY ASE 4700-15-9101 1 ASE 4700-15-6801 2 A-B 4610-11-9203 1 ASE 4700-15-3301 1 ASE 4700-15-1004 1 ASE 4700-15-4700 1 C-I( 5106-00-0012 1 WAVETEK PARTS LIST 'UliIr'bH/TI LTASSY i>f~i'g'!~0~~'060 PAGE: 2 REV B REFERENCE DESIQNATORS COl CO2 C03 C14 C04 C05 C06 C07 COB C09 CI0 C13 Cll PART DESCRIPTION OR IO-MFOR-PART-NO MFOR WAVETEK NO. GTY CAP. VALUE DETERMINED CAP. TRIM IN CALIBRATION W-I 1519-99-9999 1 CAP. CER. 33PF. lKV CD 104-033 10TU-G33 SPR 1510-10-3330 1 CAP.CER·· OIMF.I00V CDI03-310 68UI03M MDC 1510-10-2103 2 CAP.CER·· 025MF.50V CDI03-325 TO-S25 SPR 1510-10-2253 1 CAP.CER.68PF.IKV CD 104-068 68U2J680J MDC 1510-10-3680 1 CAP.CER. 100PF. lKV CDI04-110 1OTCU-T1 0 SPR 1510-10-3101 1 CAP. VAR. 3. 5-13PF250V 7S-TRIKO-02-3.5-13PF STR 1510-70-0130 1 CVI0I-013 CAP.CER.15PF.IKV CDI0I-015 10TCC-G15 SPR 1510-10-0150 1 CAP.CER.47PF.IKV CD 104-047 60U2J470J MDC 1510-10-3470 1 CAP.CER·· OOIMFD.IKV CD102-210 50AD10 SPR 1510-10-1102 2 CAP.TANT·· 47MF.50V 935 CE113-447 TRW 1510-21-9470 1 WAVETEK PARTS LIST TITLE HAR MKR.M6H-l ASSEMBLY NO. REV 1114-00-0050 0 PAGE: 1 REFERENCE DESIGNATORS C12 C15 Ct6 C17 C18 CRI CR2 Jl J2 LOI L02 L3 L04 01 03 02 PART DESCRIPTION ORIQ-MFOR-PART-NO CAP. CER. 470PF. lKV CDI02-147 CAP.FT.500PF.20X250V CFI04-150 CAP.F.T·· 6.8PF CFI02-R68 CAP.F.T·· 470PF CFI01-147 CAP.TANT.I0MF.25V CE120-010 DIODE DGI00-821 CONN JFOOO-005 RF XFMR FROM: 1813-00-0001 RF XFMR FROM: 1813-00-0001 RF CHOKE TORRID. 4 TURN TRANS OBooO-009 TRANS OA038-541 60U471M 4420-500PF 54-794-010-6892 FA5C-4712 162DI06X0025DD2 IN82AG 37JR116-1 1210-42-0020 1210-42-0022 CHOKE LA009-004-1 MPS3702 2N3854A MFGR WAVETEK NO. OTY MDC 1510-10-1471 1 AER 1510-30-3501 1 SPEC 1510-30-1689 1 A-B 1510-30-0471 1 SPR 1510-21-7100 1 G-I 4807-01-0082 2 S-C 2110-03-0002 2 W-I 1210-42-0020 1 W-I 1210-42-0022 1 W-I 1819-99-9999 1 HYT 1810-05-0003 1 NAT 4902-03-7020 2 SPR 4901-03-8541 1 WAVETEK PARTS LIST TITLE HAR MKR.M6H-l ASSEMBLY NO. REV 1114-00-0050 Q PAGE: 2 REFERENCE DESIGNATORS PART DESCRIPTION <l4 <l5 <lo!> <l7 ROl R1o!> R02 R05 R12 R03 R04 R06 R07 R09 R13 ROB"R20 R10 R24 Rll R14 TRANS <lA051-790 TRANS <lBOOO-013 TRANS <lA054-5BO TRANS <lA050-BBO RES.C. 1/4W.5X. lK RC103-210 RES.C.1/4W.5X.3.9K RC 103-239 RES.C.1/4W.5X.2.2K RCI0:3-222 RES.C.1/4W.5X.27K RCI03-327 RES.C.1/4W.5X.470 RCI03-147 RES.C.1/4W.5X.I0K RCI03-:310 RES.C.1/4W.5X.I00 RC103-110 RES.C.1/4W.5X.75 RC103-075 RES.C.1/4W.5X.33K RC103-333 WAVETEK FWUS LIST TITLE HAR MKR.M6H-1 ORIG-MFCR-PART-NO 2N5179 A430 2N545B 2N50BB CFl/4-1K CFl/43.9K CFl/4-2.2K CFl/4-27K CF1/4-470 CF1/4-10K CF1/4-100 CR1/4-75 CF1/4-33K MFGR WAVETEK NO. <lTV RCA 4901-05-1790 1 APX 4902-00-4300 1 INT 4901-05-45BO 1 MOT 4901-05-0BBO 1 ASE 4700-15-1001 2 ASE 4700-15-3901 :3 ASE 4700-15-2201 2 ASE 4700-15-2702 1 ASE 4700-15-4700 3 ASE 4700-15-1002 2 ASE 4700-15-1000 2 ASE 4700-15-7509 1 ASE 4700-15-3302 1 ASSEMBLY NO. 1114-00-0050 PAGE: 3 REV G REFERENCE DESIGNATORS R15 R17 RiB R19 R21 R22 R23 Xl PART DESCRIPTION OR IC-MFCR-PART-NO RES.C. 1/4W.5X. 1M RCI03-510 RES.C.1/4W.5X.B.2K RCI03-2B2 RES.C.1/4W.5X.15K RC103-315 RES.C.1/4W.5X.l.5M RC103-515 POT.20K RES.C.1/4W.5'X..4.7K RCI03-247 CRYSTAL X25W XXOOO-251 CF1/4-1M CF1/4-B.2K CF1/4-15K CFl/4-1.5M WA2C032S-203MA CFl/4-4.7K X25W-00.00000 MFGR WAVETEK NO. <lTV ASE 4700-15-1004 1 ASE 4700-15-B201 1 ASE 4700-15-1502 1 ASE 4700-15-1504 1 A-B 4610-10-7203 1 ASE 4700-15-4701 2 W-I 2310-00-0251 1 WAVETEK FWUS LIST TITLE HAR MKR.M6H-1 ASSEMBLY NO. REV 1114-00-0050 C PAGE: 4 REFERENCE DESIGNATORS COl C07 CO2 C03 C04 C05 C06 C08 C09 Cl0 Cll C12 C13 PART DESCRIPTION ORIG-HFGR-PART-NO HFGR WAVETEK NO. GTY CAP.CER.47PF.1KV CD104-047 60U2.J470.J MDC 1510-10-3470 2 CAP. CER. 330PF. lKV CDI04-133 10TCU-T33 SPR 1510-10-3331 1 CAP.CER. 120PF. lKV CDI04-112 10TCU-T12 SPR 1510-10-3121 1 CAP.FT.500PF.20X250V 4420~500PF CF104-150 AER 1510-30-3501 1 CAP.VAR.3. 5-13PF250V 7S-TRIKO-02-3.5-13PF STR 1510-70-0130 1 CV10l-Ol3 CAP.CER.15PF.IKV CD101-0l5 10TCC-G15 SPR 1510-10-0150 1 CAP.CER·· OOIMFD.IKV CDl02-210 5GAD10 SPR 1510-10-1102 2 CAP.CER·· OIHF.I00V CDl03-310 68Ul03H HOC 1510-10-2103 1 CAP.F.T·· 6.8PF CFl02-R68 54-794-010-6892 SPEC 1510-30-1689 1 CAP.F.T·· 470PF CFI0l-l47 FA5C-4712 A-B 1510-30-0471 1 CAP.TANT.10HF.25V CE120-010 162DI06X0025DD2 SPR 1510-21-7100 1 WAVETEK PARIS UST TITLE HAR MKR.M6H-10 ASSEMBL V NO. REV 1114-00-0099 E PAGE: 1 REFERENCE DESIGNATORS CRl .J1 .J2 L01 L02 L3 L04 Gl G2 G3 G4 ROl R02 R03 R04 R17 PART DESCRIPTION DIODE 00100-821 CONN .JFOoo-005 RF XFMR FROM: 1813-00-0001 TORRID. 10 TURN RF CHOKE TORRID. 4 TURN TRANS GA038-541 TRANS GBOOO-013 TRANS GA054-580 TRANS GA050-880 RES.C.1/4W.5X.47K RCI03-347 RES.C.1/4W.5X.56 RCI03-056 RES.C.1/4W.5X.l.5K RC103-215 RES.C. 1/4W.5X. 100 RCI03-110 OR I G-MFGR-PART-NO IN82AO 37.JR116-1 1210-42-0023 LA009-o10-1 CHOKE LA009-004-1 2N3854A A430 2N5458 2N5088 CFl/4-47K CFl/4-56 CFl/4-1.5K CFl/4-1oo MFGR WAVETEK NO. GTY 0-1 4807-01-0082 1 S-C 2110-03-0002 2 W-I 1210-42-0023 1 HYT 1810-05-0004 1 W-I 1819-99-9999 1 HYT 1810-05-0003 1 SPR 4901-03-8541 1 APX 4902-00-4300 1 INT 4901-05-4580 1 MOT 4901-05-0880 1 ASE 4700-15-4702 1 ASE 4700-15-5609 1 ASE 4700-15-1501 1 ASE 4700-15-1000 2 WAVETEK PARIS LIST TITLE HAR MKR.M6H-l0 ASSEMBLY NO. REV 1114-00-0099 E PAGE: 2 REFERENCE DESIQNATORS PART DESCRIPTION R05 RES.C.1/4W.5X.75 RCI03-075 R06 RES.C.1/4W.5X.3.9K RCI03-239 R07 RES.C.1/4W.5X.470 RCI03:"'147 ROS RES.C.1/4W.5X.33K RC103-333 R09 RES.C.1/4W.5X.1M RC103-510 RI0 RES.C.li4W.5X.1K RC103-210 Rtl RES.C. 1/4W. 5X. 8. 2K RC103-2B2 R12 RES.C. 1/4W.5X. 15K RC103-315 R13 RES.C.1/4W.5X.l.5M RCI03-515 R14 RES.C.1/4W.5X.I0K RCI03-310 R15 POT.20K R16 RES.C.1/4W.5X.100K RC103-410 WAVETEK IWUS LIST TITLE HAR MKR.M6H-I0 ORIG-MFGR-PART-NO MFGR WAVETEK NO. OTY CRl/4-75 ASE 4700-15-7509 1 CFl/43.9K CFl/4-470 ASE 4700-15-3901 1 - ASE 4700-15-4700 1 CF1/4-33K ASE 4700-15-3302 1 CF1/4-1M ASE 4700-15-1004 1 CF1/4-1K ASE 4700-15-1001 1 CF1/4-8.2K ASE 4700-15-8201 1 CF1/4-15K ASE 4700-15-1502 1 CFl/4-1.5M ASE 4700-15-1504 1 CF1/4-1OK ASE 4700-15-1002 1 WA2G032S-203MA CFl/4-100K A-B 4610-10-7203 1 ASE 4700-15-1003 1 ASSEMBLY NO. REV 1114-00-0099 E PAGE: 3 REFERENCE DESIQNATORS Xl PART DESCRIPTION CRYSTAL.XXOOO-321 ORIG-MFGR-PART-NO X32W-oO.00000 MFGR WAVETEK NO. OTY W-I 2310-00-0321 1 WAVETEK IWUS LIST TITLE HAR MKR. MisH-10 ASSEMBLY NO. REV 1114-00-0099 E PAGE: 4 REFERENCE DESIGNATORS COl CO2 C03 C07 C04 COS C06 COB C09 CI0 C11 C12 C13 PART DESCRIPTION ~ ORIO-MFOR-PART-NO MFOR WAVETEK NO. GTV CAP.CER.20PF.IKV CDI0I-020 60COO200J MDC 1510-10-0200 1 CAP.CER. 120PF. 1KV CDI04-112 10TCU-T12 SPR 1510-10-3121 1 CAP.CER.47PF.1KV CDI04-047 60U2J470J MDC 1510-10-3470 2 CAP.FT.500PF.20X2S0V 4420-500PF CFI04-150 AER 1510-30-3S01 1 CAP.VAR.3.S-13PF2S0V 7S-TRIKO-02-3.S-13PF STR 1510-70-0130 1 CVI01-013 CAP.CER. 15PF. 1KV CDI0I-015 10TCC-G15 SPR 1510-10-0150 1 CAP.CER·· 001MFD.1KV CDI02-210 50ADI0 SPR 1510-10-1102 2 CAP.CER·· OIMF.I00V CDI03-310 6BUI03M MDC 1510-10-2103 1 CAP.F.T·· 6.BPF CFI02-R68 54-794-010-6B92 SPEC 1510-30-1689 1 CAP.F.T·· 470PF CFIOl-147 FA5C-4712 A-B 1510-30-0471 1 CAP.TANT.I0MF.25V CE120-010 162DI06X0025DD2 SPR 1510-21-7100 1 WAVETEK PARTS LIST TITLE HAR MKR.M6H-50 ASSEMBLY NO. REV 1114-00-0100 F PAGE: 1 REFERENCE DESIGNATORS CRI .11 .12 LOl L02 L3 L04 GOl 02 03 04 ROl R02 R03 R04 R17 PART DE8CRIPTION DIODE DGI00-821 CONN JFOOO-005 RF XFMR FROM: 1813-00-0001 TORRID. 10 TURN RF CHOKE TORRID. 4 TURN TRANS 0A039-040 TRANS 08000-013 TRANS GA054-580 TRANS 0A050-880 RES.C.1/4W.5X.47K RCI03-347 RES.C.1/4W.5X.56 RCI03-056 RES.C. 1/4W.5X. 1.5K RCI03-215 RES.C.1/4W.5X.100 RCI03-110 ORIG-MFGR-PART-NO IN82AQ 37.lR116-1 1210-42-0024 LA009-010-1 CHOKE LA009-004-1 2N3904 A430 2N5458 2N5088 CFl/4-47K CFl/4-56 CFl/4-1.5K CFl/4-100 MFGR WAVETEK NO. GTV G-I 4807-01-0082 1 S-C 2110-03-0002 2 W-I 1210-42-0024 1 HVT 1810-05-0004 1 W-I 1819-99-9999 1 HVT 1810-05-0003 1 NAT 4901-03-9040 1 APX 4902-00-4300 1 INT 4901-05-4580 1 MOT 4901-05-0880 1 ABE 4700-15-4702 1 ABE 4700-15-S609 1 ABE 4700-15-1501 1 ABE 4700-15-1000 2 WAVETEK PARTS LIST TITLE HAR MKR. M6H-5Q ASSEMBLY NO. REV 1114-00-0100 F PAGE: 2 REFERENCE DESIGNATORS PART DESCRIPTION OR I O-MFOR-PART-NO MFOR WAVETEK NO. GTY R05 RES.C.1/4W.5X.75 CR1/4-75 ABE 4700-15-7509 1 RCI03-075 R06 RES.C.1/4W.5X.3.9K CF1/43.9K ABE 4700-15-3901 1 RCI03-239 R07 RES.C.1/4W.5X.470 CFl/4-470 ASE 4700-15-4700 1 RCI03-147 ROB RES.C.1/4W.5Y..33K CF1/4-33K ASE 4700-15-3302 1 RCI03-333 R09 RES.C.1/4W.5X.IM CF1/4-1M ASE 4700-15-1004 1 RCI03-510 RIO RES.C.1/4W.5Y..1K CFl/4-1K ASE 4700-15-1001 1 RCI03-210 Rl1 RES.C, 1/4W, 5Y.. B.2K CF1/4-B.2K ASE 4700-15-B201 1 RC103-2B2 R12 RES.C,1/4W,5X.15K CF1/4-15K ASE 4700-15-1502 1 RCI03-315 R13 RES,C,1/4W,5X,1.5M CFl/4-1.5M ASE 4700-15-1504 1 RCI03-515 R14 RES.C. 1/4W.5Y.. 10K CFl/4-10K ABE 4700-15-1002 1 RCI03-310 R15 POT,2OK WA2Q032S-203MA A-B 4610-10-7203 1 R16 REB.C,1/4W,5Y.. lOOK RC103-410 , CF1/4-100K ABE 4700-15-1003 1 WAVETEK PARTS LIST TITLE HAR MKR.M6H-50 ASSEMBL Y NO. REV 1114-00-0100 F PAGE: 3 REFERENCE DESIGNATORS Xl PART DESCRIPTION CRYSTAL,XXOOO-331 ORIQ-MFOR-PART-NO X33W-00.00000 MFOR WAVETEK NO. CiTY W-I 2310-00-0331 1 WAVETEK PARTS UST TITLE HAR MKR,M6H-SO ASSEMBLY NO. REV 1114-00-0100 F PAOE: 4 REFERENCE DESIONATORS COl CO2 C03 C04 C09 'C05 C08 C10 Cll C12 CR1A CR2 ..11 ,)2 PART DESCRIPTION OR IO-MFOR-PART-NO CAP. CER. 47PF. lKV CDI04-047 ' 60U2J470J CAP. CER. 20PF. lKV CDI0I-020 60COQ200J CAP.CER. 120PF. lKV CDI04-112 10TCU-T12 CAP. FT. 500PF.20Y.250V 4420-500PF CF104-150 CAP.F.T·· 470PF CF101-147 FA5C-4712 CAP. VALUE DETERMINED CAP. TRIM IN CALIBRATION CAP.CER ·· OIMF.I00V CDI03-310 68UI03M CAP.CER·· 05MF.I00V CDI03-350 TG-S50 CAP.F.T·· 6.8PF CFI02-R68 I 54-794-010-6892 DIODE DGOOO,-007 5082-2800 DIODE DGI00-821 IN82AG CONN JFOOO-005 37JR116-1 ",FOR WAVETEK NO. GTV MDC 1510-10-3470 1 MDC 1510-10-0200 1 SPR 1510-'10-3121 1 AER 1510-30-3501 2 A-B 1510-30-0471 1 W-I 1519-99-9999 1 MDC 1510-10-2103 1 SPR 1510-10-2503 1 SPEC 1510-30-1689 1 H-P ~809-02-0001 1 G-I ~807-01-0082 1 S-C ~ 11 0-03-0002, 2 VVAVETEK PARTS LIST TITLE S. F. t1KR. M6S-3 ASSEMBL V NO, REV 1114-00-0045 A PAGE: 1 REFERENCE DESIGNATORS L2 Q1 Q2 Rl R2 R3 R4 R5 R6 R7 R9 R9 Xl PART DESCRIPTION CHOKE.2.2MH.I0Y. LA005-R22 TRANS GA038-541 RES.C.1/4W.5Y..47K RCI03-347 RES.C. 1/4W. 5Y..56 RCI03-056 RES.c. 1/4W.5Y.. 1.5K RCI03-215 RES.C. 1/4W.5Y.. 180K RCI03-418 RES.C.li4W.5Y..470K RCI03-447 RES.C. 1/4W. 5Y.. 10K RCI03-310 POT.20K CRYSTAL.XXOOO-331 ORIG-MFGR-PART-NO 08N2R2K 2N3854A CF1/4-47K CF1/4-56 CF1/4-1.5K CF1/4-180K CFl/4-470K CF1/4-10K WA2G032S-203MA X33W-00.00000 MFGR WAVETEK NO. GTY ASE 1810-03-0229 1 SPR 4901-03-8541 2 ASE 4700-15-4702 1 ASE 4700-15-560'7 1 ASE 4700-15-1501 2 ASE 4700-15-1803 1 ASE 4700-15-4703 1 ASE 4700-15-1002 2 A-B 4610-10-7203 1 W-I 2310-00-0331 1 VVAVETEK PARTS usr TITLE S.F.MKR.M6S-3 ASSEMBL V NO. REV 1114-00-0045 A PAGE: 2 REFERENCE DESIGNATORS Cl C2 C3 C4 C5 CRl .11 .12 .13 L01 01 ROl R02 R03 R05 R04 PART DESCRIPTION ORIG-HFGR-PART-NO CAP.F.T·· 470PF CFI01-147 CAP.FT.500PF.20%250V CF104-150 CAP.CER·· OIHF.100V CD103-310 CAP.CER·· 05MF.I00V CD 103-350 CAP.F.T·· 6.BPF CF102-R6B DIODE 001OO-B21 CONN .IFOOO-005 TORRID. 4 TURN TRANS OA03B-541 RES.C.1/4W.5%.47 RC103-047 RES.C.1/4W.5%.51 RCI03-051 RES.C.1/4W.5%.470 RC103-147 RES.C. 1/4W. 5%. 150 RC103-115 FA5C-4712 4420-5OOPF 6BU103H TQ-S50 FA5C-6B92 1NB2AQ 37.1R116-1 LA009-004-1 2N3B54A CF1/4-47 CF1/451 CFl/4-470 CFl/4-150 HFGR WAVETEK NO. OTY A-B 1510-30-0471 1 AER 1510-30-3501 1 HDC 1510-10-2103 1 SPR 1510-10-2503 1 A-B 1510-30-16B9 1 9-1 4B07-01-00B2 1 S-C 211 0-03-0002 3 HYT 1BI0-05-0003 1 G-E 4901-03-B541 1 ASE 4700-15-4709 1 ASE 4700-15-5109 1 ASE 4700-15-4700 2 ABE 4700-15-1500 1 WAVETEK PARTS LIST TITLE EXT I1KR.H6C ASSEMBLY NO. REV 1114-00-0124 B PAGE: 1 REFERENCE DESIGNATORS R06 R07 ROB R10 R09 PART DESCRIPTION ORIG-MFGR-PART-NO RES.C.1/4W.5%.lBOK RCI03-41B RES.C.1/4W.5%.470K RC103-447 RES.C. 1/4W.5%. 10K RC103-310 POT.20K RP124-320 CF1/4-1BOK CFl/4-470K CFl/4-10K WA29032S-203MA I1FGR WAVETEK NO. CiTY ASE 4700-15-1B03 1 ASE 4700-15-4703 1 ASE 4700-15-1002 2 A-B 4610-10-7203 1 WAVETEK PARTS LIST TITLE EXT MKR.M6C ASSEMBLY NO. REV 1114-00-0124 B PAGE: 2 ~ 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 II 10 9 8 7 6 5 4 3 2 I ITEM SCREW 6-32X 1/8 SCREW4-40X3/16 SCREW 8-32X 2 D-B HOLE PLUG, 3/16 HOLE PLUG, 1/4 HOLE PLUG 1/2 SOCKET CORD SET FEET FUSE HOLDER BODY REAR PANEL STRAIN RELIEF GROMMET LED DL-OOO-OOI KNOB ATTEN 1061.62 KNOB ATTEN IOSl62 KNOB FREQ KNOB BUTTON sw. BOTTOM COVER TOP CASE DESCRIPTION 2810-16-0005 2810-16-0004 5 2810-02-4108 2 2810-23-0013 4 2810-17-6102 9 2810- 17-4103 2 2810-40-8132 4 2810-35-0004 2 2810-35- 0003 2 2810-35-0001 I 21 12-00-0002 22 6011 - 80-0001 I 2810-08-0003 4 24.10-05-0010 I 1410-00-6510 I 2810- 10-0001 2810- 10-0013 4810-02- 0001 2410-01-1028 24JO-OI- 1022 2410-01- 1025 I 2410-01-0009 5 5110-04-0001 4 1410-00-8160 1410-00-6140 I PART NUMBER ToQ, THIS DOCUMENT CONTAINS INFORMATION PROPRIETARY TO WAVETEK. THE INFORMATION IN THIS DOCUMENT IS NOT TO BE USED OR DUPLICATED IN ANY MANNER WITHOUT THE PRIOR APPROVAL IN WRITING OF WAVETEK. MATERIAL: WAVETEKo'.D'"." 1060 SERIES MECH. TOLERANCE: DIM':i'l!64~!2:C==:;~~===::J:::!:~':;;;;;;;;;--1:~::4,:===~I~-~-;~1 DECIMAL DIM.:!: .OOS AHGlES:l:30' UFNRLAEC~T!I~O~N~AIELERDWISE REVISION ARTWORK +t LOR 8:) 0 D-3/ TOLERANCE : DECIMAL OIM. :i .005 * fRACTIONAL DIM %1 64 ANGLES 30' UNLESS OTHERWISE SPECIFIEO REVISION 6 SECTION SCHEMATICS 6.1 INTRODUCTION This section contains all schematics for the instrument. A schematic index is given in Section 6.4. 6.2 SCHEMATIC NOTES The following notes and abbreviations pertain to all schematics. Additional notes pertaining to specific schematics are included on each schematic if required. All values are shown in the following units unless otherwise specified. Components Units Resistor Capacitor Inductor ohms picofarads microhenries Denotes DC voltage reading in volts unless otherwise specified. >Denotes high impedance crystal detector reading in volts unless otherwise specified. Denotes 50 ohm crystal detector reading in volts unless otherwise specified. --""""0ie, Signal or voltage source. ,_ Connects to indicated signal or ---,~. voltage source. H- Arrow indicates clockwise rotation of wiper. ~ Coaxial jack _____:9) Coaxial plug _____:0 Coaxial cable * Factory adjusted part. Denotes a front-panel device. Denotes a rear-panel device. Denotes a PC board adjustment or accessible module adjustment. (U:'v'E!...) Denotes an internal module adjustment not accessible without removing module cover. 6-1 SCHEMATICS 6.3 ABBREVIATION CODE A Assembly IF intermediate frequency 0 ohm A ampere J jack OC opto-coupler AC alternating current K relay P plug C capacitor kHz kilohertz pp peak-to-peak CR diode kO kilohm pF picofarad CW continuous wave cw clockwise kV kilovolt kW kilowatt Q transistor R resistor dB decibel L inductor RF radio frequency dBm decibel referred to 1 mW MHz megahertz RMS root-mean-square dBmV decibel referred to 1 mV MO megohm R.P. rear panel DC direct current pF microfarad S switch DS indicating device, lamp pA microampere T transformer F farad pH microhenry T.P. test point F.P. front panel M meter V volt H henry mA milliampere VA voltampere Har harmonic mH millihenry W watt Hz hertz mV millivolt X crystal IC integrated circuit mW milliwatt 6.4 SCHEMATIC INDEX SCH. NO. 1 2 3 4 5 6 7 8 °9 10 11 ASSY. NAME 1060 COOl C004 M9Y(A)-1 M13J B012 B014 M6H-1 M6H-5-50 M6S M6C WIRING DIAGRAM RATE GENERATOR CARD LINE RATE CARD SWEEP OSCILLATOR PULSE MARKERS TILT NOTCH / TILT HARMONIC MARKER (1 MHz) HARMONIC MARKER (5-50 MHz) SINGLE FREQ. MARKER EXTERNAL MARKER 6-2 1060 SERIES WIRING DIAGRAM 3 ) ~ P301 RE_~W_'1ILJ t1~ rr~ ~ rn--'HT"~Ttt .....---__ 1 fAo· ~ & v P~FOO 10 11p~1----------------------------------~ +10 cc I I FhO,,-(~. IfhEQ. _ _ _C_O_M_B_IN_E_D_ _P_R_O_GR_.A_M_M_I_NG. ~ROGRAMMING --=l---+- I LI 10 MARKER AMF) \ ~-----<!~-----....---<!~--.o+ 18 +18---~mr__<!r----._---._--.--~t---------- I CIS + 10;,-,F RIS 3.9M L35 I.S\tl -__e---<t--.=........---c +10 R21 56 R27 l s.6K 8.HR29 cc R2.22..K.. 270 L---+_ _ _ _~ C22 . 110~'F ,_., I r - ----- yb~~~F~~ - I I S 104 I ,1202 8 I I 8 I I ~ I I ~ I I 4 :1 <l 3 -4 ~ zCf) 3 4 :]r1 ~ Q f- 0. 0 « Cf) c.. w -' =:J 0 4 0 ::> Ct: W e'Lx: 3 <t :2 4 I f,J .;:: 4 (f) I ffi 3: 2~···1 it 0 I- AC LINE INPUT P205 BLU GRN TO J301 ~------., ~II"U r I 2 .) 4 F301 PIOI I POWER I IOFF~ ~ I ~ JIOI · 3202 PI02 J 102 CIO _ I "OOfAF R 13 680 ~"'-"VV'~ *R15 10K +IO-vvv~-+--9I"l I--SI~ '>,,--+----c -10 .005,L\F! I L----~-----~------23~7~§ r2 q 0-18 CRS el7 + iOOf-1F \ _ - - - - - PCWER SUPFLY _ _ _ _ _---'1 _, JrrJITcw ENABLE ·-_L_ y-y2-7 y-4 y-3y6 -y9-y1-0 y LI NE RATE CARD MODELS 1061, ,066 I ~- I R49 178K R53 470K --OR-RATE GENERATOR CARD MODELS 1062, 1067 3 " _ ::J 00 -18 FI03 V 8 fRONT PANEL ASSEMBLY RSI !78K [On1+18 .1.2,( R50 1?8K A ClO ~ ~ ie 15 3 14 16 rYIJ-" _"",~l I rmEQl I()K . HI05 I ~ _. _ ~OK L2 10 L-----t----+---------+----.-~-d+C3~ 0 .471L\F ,1203 ; - - - S W E E P DRIVE \ + 1 8 -.....---~ R54 10K R57 2.7K CR9 (400 MHZ) '165 120K \ R80 ~ R60 I K RG31 ~'__-'Vvv-~>--"j lOOK, 1R0<o04~1 R69 lOOK R70 75K SWEEP . ~ WIDTH R95 10K R71 ~-="'0r-''---< 20K rRy'705,--_C.,.R.'4~!,-4(','v-_~ + 18 133K R72 R76 3G.5K +18--~h---~--~0---~ (LEVEL R73 10K \ I ~ ~----c- LEVELER " . . - - - _ \];4 v MODULATOR r--7> 4 3 _ _~I -18 -CENTERING F204 J204 +18 ----::> 4 > I 1 I-OPDO~A4-A 112 MI3J '01 ~r=±=,;W.;7=~." TO I J 104 © I OCCUR IES I I r:x I MARKER P 104 I I SOCKETS 'V- E-<r=±=-=-=-=-=-=-=W4 -18 ----::> 9 >- --------~--~9 (AND} I "~I·---+----'> ~."M'-"O'-"N'.'.ITo!'O="-R--=Jul_11~ ~": L C 3·- .>I _____ 1·R. 9f;'f OK '8 .Jl----::> 7 > 7 8) 7 6> 2 > CW E~A8LE I I lJ1 ---J~5------«Yj VIS IE L _ I cwee, OSC. ¢ ~T~-~-l: MODEl S 10GI !062 S.,EEP OSC.-M9Y-1 ATTEN-0050 01 RIIO- 51,Q, DC BLOCK - NO MODELS 1066- 1067 SWEEP OSC.-M9YA-1 ACTEN -7550· 01 R 10-75", DC BLOCK - YES ,------._----.-- © O~TION IF A4 IS INSTALLED, W4 IS CONNECTW TO THE i6-J~1~EPS M i3J 1 AND W? IS CONNECTED , TO J 104. IF OPTION A4 IS NOT INSTAL W4 CONNECTS D I- TO J 104 RIOS 33K ellC 103 I WI I I $ I ATTEN W2 6g~LOCK ASS'y TRIG THESE COMROLS ON MODELS 1062,1067 ONLY \ _~. ~ "'(/ / / 1!/!7~ll/!._777TT7u.y ~ORIZ(lNTA[ (JIll, [II JI07 VERT OUT DEMOO IN Ji08 DETECTOR IN F.p. RF OUT 1060 MAIN PC BOARD l~:JI ~IO. [ill · "l:J CRI I · I CR4 1 CR2 I · I CR3 I · · · 5! · · · ;;: · · · : " :~ ~ · · ~~ :~ · B 9:::' EJEiB u u:rr=J eTC] t:J:-"- · C!JLJ ~--;;[)_I CI5 CR6 ... IC4 RI6 CR 5 I R 12 I u . O:::L:J EJ EJ~ 07 R 7 C' · · ........ .. .. .. .. .. ..... I...II I :;Ig 131: .. 3 I :::8 3" .i.iI:3! ~a t!: 3" =~ 1 -1 1 ~L R 4. R 51 R R49 C 30 P 101 PI03 R94 I · R97 I ~1\+5 <:I -so 9 10 cJlOI Iel 6 1.'7~" ~/8 ..,., 1t2~ Cltr ~.1D IK R91 Q£!?t 20K -/I RS2 12K -= lUI R21 -Ifl IOtJl( -= ASI 7S" PI02 2 7 I L-h lIOIC i I SWEEP RATE ~ ~ ,~ :;c l> --I f'T1 (j") f'T1 Zn f'T10 :;Co ::'i ..... 0:;c n :l;>c 0 .,vIOl .,.18 ~ -18 -= 27YAC I C~I ':' RI 10K CW ~ ENABLE -= R4 27K 611 2N 38!i'fA -Iii R8 220K 7 RIO ,R// 10K R/2 -18 R'I 27K n 10 ~/t; .....J I -If; (J(JT 9 AI'S- JIO/ -s- o()r I t--I Z fT1 ;::0 n ):>0 --i 0 fT1 ..j::> n ):> ;::0 C1 /VOTE'I: FORZOF7S-..n. 1166 15C#ANC,&'D TO 75 AN..? rl-lE ~"'SU;:FIK IS ADPt=~ To TRF: MOI>UL£ IVVMB"R. R.3 "'.7K ~7 H-_~C~~--~~---I RI 680 .41' R2 4.7K RS 120 L3 R6 R7 II<. 120 RB 3.:3 ~oo -//3 QIJ A 480 R42 471< R40 ;;>41 680 ~7K LIt:> M9Y(A) /M9Y(AH SWEEP OSC ILLA TOR "--_ _ _ _ _ _ _ _ _----l REV. JL R/9 47 alF} -----'\/\N- ... /6' ell RZ2 .oJur /00 +18 +18 R73 I.SK. +18 R71 7.51:. R72 10K .e74 ~80 RI3 1.51< RI4 Z7K RZI 2.2K ~ 1: --= R2!; 1M Jl R26 IK 6 Iel 741 R3Z 2.2M -18 QIO 2N54SS CIZ 120 +18 + +3 -18 R3J +18 47"OK R30 R29 20K 10K -18 RZ8 --= 100 RZ7 10K --= J4 AUK RF OUTPUT CoS:> .OP.F J2. K3fo 47 5W£E"P SAMPLE OUTPUT eR8 R3B 47 z'---TYP. ",<,v ar 0-- --IV - -- JI ('21 100 R60 /.8K +\ - J3 C~5 .4~F R66 "'9.9 R3!# 9ICI7 s~rEP~~--~--~~~--~/O~------~~~~~~~~----+_----------~ PI?/YE 470 ,1('(0'7K C30 R"'~ ~7 ScW~-E+E/P8v- t-Wl==c-~-/1~0~.+-1 -~-~4~~~ 470 ISM R46 2.21( C-f6 .4~,r ~'J: R6Z* 22. CRI4- R65 841. C5Z -/8 '1-70 CE/VT~/N~ B ~--------~ ~o -IS +18 ~.£uF R64 100 ~"'T'~~~F -T -T .. ~.....4~..7 .7.0K........____________~c~2~~~I~I~~8~~C~2~61 C2.9 + CfD{) ~..- I(h..~ .OffpF 1:~C2711~1~42~70~---~----~-~C~2~4~111~4/~7~O~------__________________-~~~e__________________________________________________~C~4~7~11 ~"'~T<~~~-- ----------------------------------~ 10 ~ II -It) 16SmA +/8 40.,., A FROM LEVELER OUTPUT MONITOR Ot/TPt/T RF Z! Osot/.Tn.P. t/T ( FOR SEE Z 75..J2.) /VOT£ / -I'll II< S.'S.ADI +17.3 1?4-3 :3. 31( SWEEP SAMPLE IN ..JI ~4fo 10 C22 R3 .O~ II< ..17.7 MARKERS OUT 2 MII~/(£IU IN ,)3 fl7.Y L-________________~------~~~~~7~~~-~-~-~=-~-~-~--~-~--~~~~~ 24K I IPs" ~/7.~ clf!n I I R22 CRI2 S'IK r f-.....-"R.;,J'-,...4"-<~RW~S';,.......~__--, Q 8 I r 101( S"~ /(' 21f:f8S'414 : fl7.iI Q7 hlPSs702 CIS" ../7.3 R2S" CR9 511< C/6 2()() .. PLClG IN CRYSTAL TYPE X-·f2 R2(' CRIl S'IK R32 22K 200 /tu 10K CIlI~ L____________________________________________________ I;·...CIs C20 C21 '~Ir IIH~~~n----------------------------_1II~ I~m~n-o------------ .J1... -III .. " -18v I OFFSET R2 20K ""8 R4 9.1K 10K ~~==-t"<... 8 LEYEL PROGIlAMMING -/II" rl6v 3 ~ 10 /\ 6 7 COMIINED I"lfoGlfA.M OFFSET -18 fie 2 2tJK tl9 rl8 -= 1?3 10K RI 10K !tOTCH POSITION 2 R.P. ~., A 20K 8 Rfji -f.7J(. irs - f· . , K A R1' lOOK NorcH :ttIH!i _ R8~ _ _...J 2K 1r10 A _.....,..A};.::'I/l=20K B NOTCH POSITION I I!.I'. 1(13 9.11< fl8 IU~ 10K I /<20 10K -= A TILT R22 (fit) ~.7K IU~ -16 R21 -= 20K 1(2-f s.$K CI A- C~I A .U A .,-16 I~:F ~·p.1 S TOLEYEJ.. PI?OG. 9 ToJl $1 JI B :z o :n-:cI -18 ............... -I OJ ...... 0 -I~ OJ §; :::0 CI r----.~--------~~--~--------~~--+/8 R7 470 I C"'I.025#.F Q.3' -=MPSS' 702 CS 68 SWEEPSAM?L£ IN OUT /?12 3.9K )/< ,R13 "ITO C/?2 IN82AS /('17 8.21< I C/2 470 47 L3 +/8 CIS IOpF +/8V M6H-1 HAR. MARKER (1 MHz) REV_E_ CIS 500 - IS-IZ-E,.--'I v,-_ _BIRL'Y CI6 3 0 (JTPClT ({'·S M6H-5-50 HAR. MARKER (5-50 MHz) REV --=E,"-_ SWEEP S,AtWPLE IN our CI* SEE NOTE (fI1 2,v3854A XI* Ar.--""--'C~ DH--~ !i'2 56 CRI /#6'.2 AS .; BII?OY v--==-6:8 OI/TPtlT . I I I OS'CILLATOR-- -+iEHNAER.MROANTItC'~.MI..vER --t---BIROY AMPLlrlER + CI$ IO",F 470 +/6'V lomA NOTE: FOR MARKER FREQUENCIES 50 MHz AND ABOVE, Q1 IS 2N3904 .sWEEP .s~~ IN om- JI M6S S.F. MARKER REV-A- COS e----a +18 #70 4 -t'18 7MA OM/T ~:5" T05t?A?#z C/i'//I ~CM"CV/T FOR 250 TO /400 MHz ~ C//f'CV/r .l="CJA" ZS" TO eSO A'7'h"~ EXT. MARKER SWEEP SAMPLE /NPVT IN OVT RI ~7 RZ SI R.3 470 +18 R6 1801( M6C EXT. MARKER REV-A- -- C5 6:.8 3 BIRDY LI .q;,ur 1<9 QI ZN38SttlA ZDI<. RID 10K OUTPUT ~/8 ..________C__/~ ~4-74-_~ _----------------------~ -4 +18 V 1060 SERIES ADDENDUM Wavetek's product improvement program incorporates the latest electronic developments into the instruments as rapidly as development and testing permits. Due to the time required to document and print these instruction manuals, it is not always possible to include the changes in the original printing. The following changes should be made to this manual: M13J RS, R6, R7, R8, R9 are now 5.6 kohm; W-I PIN 4700-15-5601. Main Frame S201 is now MARQ 4021.0512, W-I PIN 5105-00-0011 M6H-1 CR2 now H-P 5082-2835, W-I PIN 4809-02-0002 M6H-10 M6H-50 CR1 now H-P 5082-2835. W-I PIN 4809-02-0002 All 2N3854A (W-I PIN 4901-03-8541) are now 2N3904 W-I PIN 4901-03-9040 Rev A 7/23/86 ECN 112479 Figure 2-2 and associated text. The Model 1060 Series 20 dB output vernier attenuator shown in Figure 2-2 (item 6) is calibrated from 0 to 15 dB (in 1 dB increments). Maximum attenuation when set at 20 dB may be between 17 and 20 dB. Rev. B 11/4/86 (E10001) Rate Generator Card Schematic The value shown for reference designator R30 as shown on the Rate Generator Card schematic should read 8.2K not 1K. Rev. C 11/4/86 (E10003) Wiring Diagram The value shown for reference designator R9 as shown on the Wiring Diagram schematic should read 13.0K not 13.5K. Rev. D 1117/86 PIN 3511 Section 6 Schematic, M6S S.F. Marker L1 and L3 have been replaced by a single custom coil matched to each individual marker. 1060 SERIES ADDENDUM (Cont; page 2 of 2) Rev. E 1117 /86 PIN 3468 External Marker, M6C The External Marker, M6C, is no longer an option but is a standard feature in the Models 1062 and 1067 Sweep Generators. In section 5, the parts lists titled "SWP GEN, 1062" and SWP, GEN, 1067" with Assembly numbers "1010-00-0076" and "1010-00-0029", respectively, should have the following additions: PARTS DESCRIPTION WAVETEK PART NO. !IT.r Both 1062 1067 Ext Marker, M6C Cable Assy, 5 in. Cable Assy, 5 in. WI 1114-00-0124 1 WI 1217-80-0024 1 WI 1217-80-0045 1 Both Change quantity of item reference designator 9 from "1" to "2" and change its Wavetek No. entry from "1118-00-0007" to "1118-90-0007" (to correct a typographic error) References to the External Marker as an optional feature should be modified to indicate it is a standard feature (see sections 1.1, 1.2.4, 3.11, and 4.5)Adobe Acrobat 9.0 Paper Capture Plug-in