INSTRUCTION MATERIAL FOR SINGLE SIDEBAND UNIT (SANITIZED)

Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 CONFIDENTIAL INSTRUCTION VATERIAL For SINGLE SIDEBAND UNIT Nay 124,, 1954 Dee -2- REV DATE 24 'NZ By 065/3-540 ORM COMP 40-5-4 DPI -5-4 TYPE PAGES _JO REV CLASS 01110 CLASS JUST .2-2- NEXT REV _liaPLCL AUTH: HA 104 CONFIDENTIAL SECURITY INFORMATION npclassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 50X1 50X1 ? Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-e' - CUNNULN i IAL -CONFIDENTIAL- SINGLE SIDEBAND UNIT SPECIFICATIONS EXCITER UNIT: Chassis: rack mounting 19 in. wide by 12i in, high Finish: grey Input: audio 1 volt 10,000 ohms ext, HFO 3 volts 100 ohms Output: audio 0,5 volts @ 600 ohms 2,5 volts @ 2000 ohms rot, 15 volts G 100 ohms Power Requirements: 115 volts, 60 cps, 135 watts POWER SUPPLY UNIT: (Model P-1) Chassis: rack mounting 19 in, wide by 5i. in, high Finish: grey Type: regulated Power Requirements: 115 volts, 60 cps, 45 watts CONTROLS AND itibIR FUNCTION 1, .R101---Audio gain 2? R102?Vary from square law to sine wave audio output 3, R103---Phase modulator adjust 4, R104---Square law adjust 5, R105---Phase modulator bias control 6, R106---Ba1ance pot to minimize HFO component 7, C101---Main tuning condenser CONFIDENTIAL SECURITY INFORMATION - 1 - -CONFIDENTIAL- Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 . . . _ Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 WIF lino Itib Esmagosx1paa_q11,14,12.4011211 Band - Out ip...E..ty:eync A 125 to 250 250 to 500 500 to 1000 1000 to 2000 2000 to 4000 4000 to 8000 Mixer Frequency is 1/2 Output Frequency. 8, C102-Vernier9 fine tuning 9, Si --Sideband selector 10, 32 To obtain correct sense of envelope when using square law, 11. S3 ---External-Internal HFO switch 12. S4 --Meter Selector 13. S5 ---Range Selector 14, A. Mazer output B. Doubler output C. Ouput plate tank circuit D. RF output 31 ---RF output (output of 15 to 20 volts 6)100 ohms impedance) 15, 32 11F0 (required input of 2 volts min. @ 200 ohms impedance) 16. TB]. ---Audio input and output terminal strip Output Data 2.5 volts @ 2000 ohms 0.5 volts C 600 ohms DESCRIPTION The Single Sideband Unit equipment provides excitation for a class C plate modulated transmitter enabling it to radiate single sideband plus carrier, Switch positions are provided which permit Phase Modulated operation as well as Amplitude Modulated operation. CONFIDENTIAL SECURITY INFORMATION - 2 - ^ nwsl V?MM,VMTAT_ Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 W.11141 A block diagram of the equipment no shown in Figure 5. Theory of Operatioa is outlined in the following Section. The use of a fixed oscillator permits phase modulation at one frequency. This eliminates tuning critical phase modulator circuits in covering the wide range of output frequencies. A balanced mixer balances out the funda- mental beating oscillator component. This prevents the oscillator voltage in the mixer plate circuit from predomineting over the signal voltage. When driving a doubler* it is desirable that the component which is to be doubled should predominate. The doubler stage is incorporated to minimize feedback from the output to earlier stages. The output stage provides 15 to 20 volts rms at 100 ohms impedance for feeding a low level r-f stage in the transmitter. The audio it is amplified* then passed tiarough an audio phaser which has quadrature output voltages as required for phase shift single side band generation. Upper and lower sidebands are selected by reversing phase of one of the outputs as shown. This phaser holds the 90 degree relation- ship between outputs within 1.5 degrees from 100 cps to 3500 cps. Rela- tive audio phase also should be this precise as measured between the phase modulator grid and at the amplitude modulator plate. To insure this con- dition these points are inspected using an oscilloscope and the phase is equalized ahead of the p-m audio amplifier as required. A square law cir- cuit is incorporated in the am line to decrease distortion of the received signal on a single sideband receiver. For minimum receiver distortion using a linear or diode detector on the other hand* nnormal" output is CONFIDENTIAL SECURITY INFORMATION - 3 - -0 ONFIDENTIAL- Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 gleturriwirtritarrit s Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 '11 'X 17 4. maintained as outlined below. The phase inverter and sense switch provide for applying the square law characteristic in the correct sense to the sig- nal envelope. This switch has no effect when the nnormal" output is used. The output amplifier audio provides sufficient output to feed a low imped- ance line. This output feeds the modulation input circuit of the auxiliary transmitter, To obtain a given output frequency from this units a crystal or an external input voltage must be provided for the UFO circuit. The correct IWO fre- quency is (Output Freq. /2 ) 2.5 me. Maximum output frequency available is 8 me. Normally there will be frequency multiplying in the transmitter to cover the higher output frequencies. For adjusting and monitoring trans- mitter output it is desirable to have a single sideband receivers howeverp it is possible to use a communications receiver with selective crystal fil- ter. Initial adjustment sets amplitude modulation level to 80%. It is necessary to use steady tone of about 2000 eps for this adjustment. The receiver then is tuned to the rejected sideband and the phase modulation level control on the back of the chassis is set for minimum output from the receiver. The 'square-law-normaln control should be set in nnormal" posi- tion for maximum rejection. Where a single sideband receiver is available this adjustment ma be made on program material. Adjustment of the vernier tuning control will have some effect upon rejection of the unwanted side- bands, as will transmitter tuning and loading adjustments, THEORY OF OPERATION This system is .basically the well known arrangement of Figure 1. This is a phase shift system method in generation of single sideband signals. The CONFIDENTIAL SECURITY INFORMATION - 4 - nnINT MITnDWMVAT Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 Declassified in Part- Sanitized Copy Approved forRelease2013/08/15 : CIA-RDP78-03424A001300010002-6 CONFIDENTIAL re sent system is shown in basic form in Figure 2 It should be noted that V2 in Figure 2 is not a balanced form of modulator, and that its r-f input consists of the carrier shifted 90 degrees plus the modulation products generated in Vi,. This arrangement of V1 and V2 leads to the generation of higher order sidebands which are not present in the arrangement of Figure 1. In practice, V1 balanced modulator and the reinserted 90 degree r-f compon- ents are replaced by a phase modulator stage which achieves the same end- result and at the same time eliminates two adjustrents (balance control on the modulator and the phase control). Vectors showing various components arising in the process of phase modu- lation (V1) and amplitude nodulation (V2) are shown in Figure 3. The sig- nal at the input to the limiter of Figure 2 is made up of the carrier plus upper p-m (6) and lower p-m (5) components. The resultant scalar magnitude is greater than the value when modulation is not present. This magnitude varies during The modulation cycle, the result being amplitude modulation at twice the modulating frequency. While this amplitude modulation is chiefly second harmonic, small amounts of other even harmonics also are present. Now as this wave is passed through a limiter stage, which removes any amplitude modulation present, the scalar magnitude of the carrier will remain constant. This means that additional sidebands (components 69 79 and some others not shown) have been created to cancel the amplitude eam- ponent. Limiting is not essential to the creation of single sideband sig- nals and the limiter could be left out of Figure 2. However, limiting will occur when passing a signal through class C amplifier stages, therefore an accurate representation of the system must incorporate the limiter. Whem amplitude modulation is applied to a signal consisting of carrier (1) CONFIDENTIAL SECYR1TY IN -5 Declassified in Part - Sanitized Copy Approved fo-r-Release-20-13/0-8/15 : CIA-RDP78-03424A001300010002-6 pnarrinmarrir A 1r Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 -UUNYIDEATIAL- plus phase modulation components (4, 5, 6, sidebands due to the ampli- tude modulation process are generated on all components present. New side- bands 2 and 3 are associated with 1 (carrier: 8 and 9 are associated with 4; 10 and 11 are associated with 5; and lesser sidebands not shown are as- sociated with 6 and 7.) Now when the amplitude modulation is at the same frequency as the phase modulation but removed 90 degrees in phase, relation- ships exist as shwa in Figure 3. Certain of the components are at iden- tical frequency and add or subtract as shown in Figure 4. Laboratory tests indicate that the level of a-m sidebands generated on components other than the carrier is not determined directly by the a-m modulation index, but is reduced in the ratio of the component level to carrier level. This factor was used in arriving at the component levels indicated in Figures 3 and 4. As a result of this reduction factor, single sideband performance becomes better at lower modulation levels. A square law characteristic imposed on the a-m audio will cause cancella- tion of components shown as 6 and 7 in Figure 3. This reduces the second order sideband on the accept side. The db relationship shown in Figure 4 becomes: -9KC -kKC -3KC -46111B -19DB -109DB Carrier 4.3KC o6KC o.9KC 0 -Inf. -19DB -46DB Theoretical rejection at high modulation level as outlined above is 25 db (Intermodulation in this case is 12 db). The optimum performance may be degraded by audio distortion, phase shift of individual r-f sidebands due to Q of tuned circuits, and excessive audio phase shift in amplitude modu- lator stages in the Co SECURITY INFORMATION 6 - Declassified in Part - Sanitized Copy Approved for '''eTease 2013/08/15 : CIA-RDP78-03424A001300010002-6 Declassified in Part - Sanitized Copy Approve'-crro'rlieTewaw-se20170-8/1g : CIA-RDP78-03424A001300010002-6 Detailed function of stages shown in the block diagram is as follows: Bleck 1, Oscillator-Wee-606. This is an oven controlled crystal oscilla- tor which provides a stable frequency for phase modulation, Block 2. Phase Modulator-V2,-6A07. This stage vailles the phase of the r-f Input in accordance with the audio input.1 Bloek 3. Balanced Nixer-V3s V4-6BE6, 6AU6. The balanced mixer combines the phase nodulated wave from 112 with the signal from the high frequency oscillator (HFO) to give a resultant difference fre- quency. Block 4. Doubler-V.5-606. The doubler multiplies the input frequency by twos and amplifies it. Block 5, Power Output0.V6-6AQ5, This stage provides sufficient power to feed a low impedance line (3 watts at 100 ohms). Block 6, High Frequency 0scillator-V7-6A07? This stage is used as a crys- tal controlled oscillators and as an amplifier for an external HFO inputs where that is desired. Block 7. Audio Amplifier4V8-1207. This stage amplifies the audio input to the required level. Block 8. Audio Phaser Unit- (4) 1207's. The audio phaser is a subassembly which gives a 900 phase difference between the two cathode or plate output terminals. (Millen 900 phase shift networks Part/ Dwg. No. Ii7501l) Block 9.3 Audio Anp1ifier4V10-1207. This stage provides the required amount of audio for the phase modulator, Block 10, Phase Equalizer. This is circuitry inserted to insure correct phase between the audio and pm lines compensating for phase shift in the transmitter amplifiers. Block 11,, Square Law circuit-V9-1207. This circuit permits a square law characteristic to be inposed upon the audio signal where desired (see Theory of Operation) Block 120 Phase Splitter4V10-1207. The phase splitter has a gain of about 0,9 at both the cathode and plates which are 1800 out of phase. A switch permits choosing the proper phase when using the square law circuit. This phase depends upon the input to output phase relationship in the transmitter to be used. Block 13. Output Anplifier-Vlls V12-12AU7s 6AQ5. The output amplifier stages employ negative feedback to minimize distortion and provide law output impedance. CONFIDENTIAL SECURITY INFORMATION - 7 - -C ONFIDENTIAL- Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 Aft A.1% rritirina Srin. PONT d W Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 YTS Tic I' PROCEDURE FOR SETTING DP SINGLE SIDEBAND UNIT 1, Connect Power Supply Uhit to the Exciter Unit. 2. Connect the Single Sideband Exciter to the Transmitter. a. The r-f auput (31) is fed to a low level r-f stage of the trans- mitter. b. Audio output is fed to the audio input jack of the transmitter. The 600 ohm output should be used unless the transmitter input is high impedance. 3. Determine HFO Frequency. To determine the 170 frequency, divide the desired output frequency by the number of multiplication stages used in the overall system, includtng the doubler stage in the Exciter, and add 2,5 me to the resultant frequency, Example: desired output frequency is 8 me. The r-f voltage is doubled twice in the transmitter. Divide 8 me by 4 L.: 2 me? Now 2 mc 4. 2.5 me me which is the required HFO input required at the HFO input jack. 4, Set Band Selector on desired frequency. NOTE: Band Selector frequencies are as follows: Band 91.1tEULIE2a. A 125 to 250 ke 250 to 500 kc G 500 to 1000 kc 1000 to 2000 ke 2000 to 4000 ke 4000 to 8000 ice Mixer Frequency is + Output Frequency, 5. Turn on Equipment, 00IN CONFIDENTIAL SECURITY INFORMATION - 8 _ Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 -00NFT11RUTTAT. Declassified in Part - Sanitized Copy Approved for Release 2013/08/15 : CIA-RDP78-03424A001300010002-6 war luta I IAL 60 Tune Exciter. Set the meter selector switch on "Output", then adjust the main tuning mech- anism and vernier for maximum deflection on the meter. 7, Determine Type of Envelope to be Used, "Normal" operation should be used for least intermodulation distortion on a stnndard receiver? "square law" operation should be used for least dis- tortion on a single-sideband receiver. Adjust R102 for the characteristic desired, NOTE: To adjust the Square Lau Ci-cuit, use an oscilloscope to moni- tor the audio output. Turn ',13102 completely to the Square Law end as narked on the chassis, and adjust R104 for best Square Law wave characteristic. This varies with amplitude of audio output. input to the exciter should be set at the opti.num level, nnd that level should correspond to 100% modulation of the transmitter by adjustment of the transmitter audio gain control. When using the Square Law characteristic it is'uecessary to see that the transmitted signal envelope is in the 'orrect sense as shown, S2 may be used to obtain the correct sense. Correct Sense Incorrect Sense 8, Set Audio Gain Control for Desired Degree at Modulaticu. Apply an audio frequency of about 2000 cycles to the audio input terrinsl (TB1-1), then with the meter selector switch on modulation, determine the 100% modulation poiat, and reduce the level as desired, CAUTION: once the audio level is set initially, do not use the gain control of the trans- mitter. Make all audio adjustments with the exciter gain control CONFIDENTIAL SECURITY INFORMATION 9 - - 0 ONFIDENTIAL,... Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 4 CONFIDENTIAL -CONFIDENTIAL- :9A. Adjust for Single Sideband Performance. a. Using the input meter of a monitoring receiver, tune for the first order sideband to be rejected (the receiver should be in Sharp crystal selectivity; keep itput from transmitter below 40 db as indicated on the receiver meter, be sure r-,f coupling is all from transmitter output and none is direct from the Exciter Utit)! b, Set the sideband selector switch of the Exciter for the desired accept sideband. e. Adjust R103 for null. d. Tune the vernier for a null e, Make firm, adjustments using both R103 and the vernier control for optimum null 9B. Using Single Sideband Receiver for NOnitoringt A single sideband receiver has at least three different accept positions0 upper sideband lower sideband normal reception a, Using the normal position, tune to the transmitter frequency. b, Switch to the accept sideband and adjust the gain control of receiver for maximum audio output. c. Switch to the reject sideband and adjust the Exciter for minimum, (a null on the audio output meter of the receiver). NOTE: To tune the Theater for a null adjust R103 and the vernier the same as step 9Ac. CONFIDENTIAL SECURITY INFORMATION - -C ONF IDE N T IAL- Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 %.01U1111-111111.4.1 ars.,LJ C ONFIDENTIAL- ec I R F 0 ALTERNATE PROCEDURE USING A DIODE LINEAR MODULATOR Since a diode modulator approximates an almost perfect device and can be constructed readily and inexpensively9 it becomes a very useful instru- ment for setting up and trouble shooting the Exciter. In using the diode modulator9 the timing of tl.e Exciter becomes simplified since the trans- mitter does not have to be used in the setting up procedure. This elimi- nates possible errors due to slight misadjustments of it. When using a diode modulator9 such as the one shown below, follow the same procedure as outlined for standard transmitters, replacing the trans- mitter with the diode modulator. J1 500 6/IMF CIRCUIT DIAGRAM OF DIODE MODULATOR 1N58 -A 500 MMF 2K TBI-3 AUDIO OUT 0 TBI -4 ???11. ????? F2 CARRIER FREQUENCY . CONFIDENTIAL SECURITY INFORMATION - -CONFIDENTIAL- TO SCOPE TO RECEIVER Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 ? Tblefr`l! - r-f Input audio 1 [Y. 1 90 -- L_J Audio irput 1 Phe, S r ; Raa. Mod ---..--, Single sideband F igu re 1. ha s ,..lh:11.1rt Sys te fr.yr j a a (1/41.1ner t ion t-F4finput Audio Input tAz AudLo Phaser vi ? mod . ',1un9-1 c)d. (not Single sideband plus belano ed. v,arrier 3igna1 Figure 2. Variation of Phase Shift System of Single Sideband Generation. ? 12 ? 4; 0 EF.Z.DgNTIAL-- CONFIDENTIAL Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 errtokTrivrtirusarrir T Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 --UUU.FIDEUTIAL- A 0 Relative and kt. a 4, it. 1 t3) tfrri ?IN 1.0. * '''''''' -- 4r. V m m 4 Figure 3. Vector Relationship for Single Tone Modulation CONFIDENTIAL SECURITY INFORMATION A COMPT RAITTA Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 CO /Tifikt"ELVTI:trAlti? 9kc 7 ? Vector relationship for signal medulated 80'14 AM and .15 radial .PM. Audio input is a. 3 Ice sine wave. Note: All vectors are shown in corr.ict phase except the carrier (1)0 which would-be shown at the same angle as in Figure 3 if space permitted. a 1. t5kc Additivd values .03 1.5 Ratio to carrior 200 Db relationship -46 -l2 4 3 4S4 1 A 0 Figure 4. Addition of vectors shown in Ftgure 3. CONFIDENTIAL SECURITY INFORMATION - -C ONF IDE N T IAL 5 -cro 11 11:c 914 .235 25.5 2C -28 -4 Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 AA.1 AAA I A A.CASLA p????. tra ?0 0 .I ? 0 4 44 i? n CONFIDENTIAL Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 Declassified in Part - Sanitized Copy Approved for Release.20.13/08/15 : CIA-RDP78-03424A001300010002-6 ..? - C 0YrF41;1RitAil ifilita - L. vi ki. '? :2 1 47:- -I:- z . t ? < bt "t* ILL 't z 0 O.. 0 - rcr 6 ? 30 7 ? - ... I N. , \ ? VI . \ . ----i--.. i ) ,,,,,,.., '?,. ,sj 1 \ ''' 1 1 ,,:, --.. *. - k 4 4 / s ' t, -,, , t Fs, 'k / - C'''').--- .% 1. ., i f ' i 1 T ? P ,,< V ''' , ------i,,----. V ii - f i 0 / : / 1 i 1 i 7 V _ . I.,:. ,----.. \ 1 ',------I------- ...;" .,:.?,7 ...---.4 4, ' .." ----ii 1 I N ; t i \ " il- t. #41 -??-----1--- I q iiiI ' 1 A \ --N? ,?? *--. i ------4,11 Its, : \'? e... ? . % k - -V.. --? , ,i- 7,-----,- ' A, '' i 4 II 1 L._,1 \ g - ? i ... \ \ .',.. ? 1. / i toii '''',1/ - ........ -1 ---ii --I ; ' i ' - Vt. ,------- --\ t VaTt- 54?. Fig. 6 solid graph. shows signal amplitude. Dotted graph ShoTss siamal phase. CONFIDENTIAL SECURITY INFORMATION - - -C ONF IDE PI T IAL- ir RADH Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6 9-Z0001-000?1,00V17ZKO-8LdC1I-V10 S/8O/O eseeiej -104 panaiddv Ado paz!l!ueS u! 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CIA-RDP78-03424A001300010002-6 ON-OFF 1801 10 2 V801 5U4G 4 C801 10 p.F 600 V. S801 F801 3 co( 6.3 V. 4x 2.5 A. 12 y 6.3V. L801 C8'35 0.1 630 V. -L- 600 V. 10 ALF C802 +265 V. 185 MA. , 1831 P801 115V, 50-70 3.5 A. J801 rs la: tT2-1 M801 0-300 a VOLTS' V803 5 AJ6 \ 6 C804 p.F 600 V. CONFIDENTIAL VOLTS ADJUST R802 25G0 R803 5600 e 2W R804 5600 2W 34 'f Y 7 R806 'vVVV\-- 470 K R705 20 1 W R809 525K 5W 0803 V804 -1.- --r- 0.1 p F 003/VR - 105 . 1 4C0 V. FIGURE 8 CIRCUIT DIAGRAM POWER SUPPLY UNJT MODEL P-1 R807 5600 2W R808 5100 2W CONFIDENTIAL iSEGURI1Y INFORMATION Declassified in Part - Sanitized Copy Approved for Release 2013/08/15: CIA-RDP78-03424A001300010002-6