(SANITIZED) KEYER MEMORY OPERATIONS MANUAL

Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 e, ( Keyer Memory Submitted by: Project Engineer Approved by: Approved by: :25X1 Project Manager Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 Section Page BATTERY MOUNT . . . . . . . . . . . . . . . . . . . . . . . . . 3 5-POSITION MODE SELECTOR SWITCH . . . . . . . . . . . . . . . . . 3 CABLE. PLUG RECEPTACLE . . . . . . . . . . . . . . . . . . . . . 5 INDICATOR . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 KEYER . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 GO AND CLEAR SWITCHES . . . . . . . . . . . . . . . . . . . . . . 5 BATTERIES . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 ADAPTER CORDS . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Mode Selector Switch Circuit . . . . . . . . . . . . . . . . 6 Power Supply . . . . . . . . . . . . . . . . . . . . . . . . 6 Modified Coincident Current Memory . . . . . . . . . . . . . 6 Driver and Switch Circuits . . . . . . . . . . . . . . . . 7 Address Circuits . . . . . . . . . . . . . . . . . . . . . . 7 Sense Amplifier . . . . . . . . . . . . . . . . . . . . . . 7 Indicator Circuit . . . . . . . . . . . . . . . . . . . . . 7 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 CONTENTS (Cont'd.) Section Page One-Shot Multivibrator. . . . . . . . . . . . . . . . . . . 7 Logic Circuits . . . . . . . . . . . . . . . . . . . . . . . 7 Master Oscillator . . . . . . . . . . . . . . 9 Output Buffer . . . . . . . . . . . . . . . . . . . . . . . 9 DISASSEMBLY . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 III PRINCIPLES Of' OPERATION . . . . . . . . . . . . . . . . . . . . . 11 OFF . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 STANDBY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 RECEIVE . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 IDLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . TRANSMITTED CODE UNITS . . Frequency Shift Keying. . . . . . . . . . . . . . . . . 23 CW Keying . . . . . . . . . . . . . . . . . . . . . . . . . 23 ADAPTER CORD OPERATION . . . . . . . . . . . . . . . . . . . . . 23 FSK Adapter Cord . . . . . . . . . . . . . . . . . . . . . . 23 CW Adapter Cord . . . . . . . . . . . . . . . . . . . . . . 23 INSTRUCTIONS FOR USE . . . . . . . . . . . . . . . . . . . . . . 25 STANDBY . . . . . . . . . . . . . . . . . . . . . . . . . 25 RECEIVE . . . . . . . . . . . . . . . . . . . . . . . . . . 25 IDLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 TRANSMIT . . . . . . . . . . . . . . . . . . . . . . . . . . 26 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 CONTENTS (Cont'd.) Section Page Use of the Keyer Memory with the RT-6 . . . . . . . . . . . 29 IV PARTS LIST . . . . . . . . . . . . . . . . . . . . . . . . . . . 31 Figure 1 NORTHVILLE Keyer Memory . . . . . . . . . . . . . . . . . . . . . 4 2 Arrangement of Assembled Printed Circuit Boards. . . . . . . . . 8 3 Teletype Characters Used in NORTHVILLE . . . . . . . . . . . . . 12 4 NORTHVILLE Logic Symbols . . 5 Keyer Memory Logic Diagram . . . . . . . . . . . . . . . . . . . 16 6 Shift vs. Frequency of Types CR18 and CR27 Crystals. . . . . . . 22 7 Schematic Diagram of FSK Adapter Cord . . . . . . . . . . . . . . 24 8 Schematic Diagram of CW Adapter Cord . . . . . . . . . . . . . . 24 9 Keyer Memory with RT-6 . . Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 Weight and Power Total Weight Less Batteries 3.8 lbs. Case Weight 2.7 lbs. Net Weight 1.1 lbs. Equivalent Case Weight in Aluminum 0.9 lbs. Net Weight 1.1 lbs. Theoretical Total Weight 2.0 lbs. Battery Drain Function Switch Position D-C Current Milliampers Power Milliwatts Standby (S) 218 544 Receive (R) 238 595 Idle (I) 230 575 Transmit (X) Standby 270 675 Transmit (X) Operating 240 600 Battery Source - Sonotone nickel cadium size D rechargeable cells - terminal voltage 1.25 volts each. Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 - This manual covers the operating procedures for the NORTHVILLE Keyer Memory. Included are a complete description of the equipment and types of circuits utilized and an item- ized parts list. Since the equipment has not been designed for maintainence by the operator,maintenance instructions are limited to the procedures for disassembly and reassembly. The NORTHVILLE Keyer Memory is a portable storage device which generates teletype code. It is intended for use with the RT-6 transmitter. The Keyer Memory replaces the KE/B-9P portable automatic keyer. The NORTHVILLE Keyer Memory has the following features: ? battery powered ? asynchronous input ? synchronous teletype-code output ? storage capacity of 2560, 1-bit words ? modified coincident-current memory ? completely portable storage device Although not designed to withstand stringent environment, the Keyer Memory does conform closely to certain military specifications in choice of components. Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 The Keyer Memory is enclosed in a brass case which is 8 inches by 4 inches by 1 5/8 inches with the battery holder closed (figure 1). The complete unit weighs pounds without batteries. On top of the case.are mounted the battery holder, a keyboard, an indicator light and GO and CLEAR pushbuttons and the selector switch lock. A.,5-posi- tion mode selector switch is mounted.on the end of the case and the output cable plug receptacle is mounted on the side. BATTERY MOUNT The battery mount is designed to fold flat against the.cover when batteries are not in place. This fixture holds two D-size batteries. Battery polarity is inscribed on the mount. 5-POSITION MODE SELECTOR SWITCH This switch controls and indicates the mode of the machine. When the shaft is all the way in, the equipment is in the OFF position. Operating, modes are selected by pulling the shaft outward for each of the sequential mode positions until the . appropriate. mode indication is exposed. The operating modes are STANDBY (S), RECEIVE (R), IDLE (I) and TRANSMIT (X). The selector switch lock retains the shaft in the selected position and must be disengaged to move the shaft to another position. Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 CABLE PLUG RECEPTACLE The plug receptacle used with the Keyer Memory is located on the side of the case and is provided with a built-in ground lug. The plug connecting output to receiving,equip- ment can be inserted only in a manner ensuring proper polarity. INDICATOR The indicator consists of a miniature, incandescent, low-voltage lamp housed within a plexiglass body. The body has been designed to provide maximum, illumination through the convex lens on top. A lit condition indicates that battery power is sufficient and in some cases that the equipment is functioning properly. KEYER The keyboard comprises pushbuttons for characters 1 through 0, ERROR (E) and SPACE (S) and is used to provide the information to be stored in the memory. Depression of a pushbutton inserts one character into the memory. GO AND CLEAR SWITCHES These are miniature pushbutton switches. To avoid projection above the top surface of the Keyer Memory, these switches have been recessed in the cover. The pushbuttons are used to commence transmission of characters and to clear the memory. BATTERIES Power for operating the equipment is furnished by two series-connected Nicad batteries. These size D, 2.5-volt batteries provide power for 2 unregulated and 4 regulated voltages. ADAPTER CORDS The two adapter cords provide a choice of either frequency shift keying (FSK) or on-off keying (CW). in either case, a single plug"type connection to the transmitter is required. Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 The Keyer Memory uses a Mode Selector Switch circuit, a power supply, a modified coin- cident current memory, pulse generators, driver and switch circuits, address circuits, a sense amplifier, an indicator circuit, a one-shot multivibrator, logic circuits, a master oscillator, and an output buffer. Mode Selector Switch Circuit This circuit consists of a 3-deck, ganged, 5-position switch and the gating necessary to provide the logical bias outputs. Power Supply The power supply is composed of the Nicad batteries, a dc-to-dc converter and.four trans- istor regulators. This supply provides six rectified output voltages; plus 2.0 volts, minus 2.0 volts, plus 5.0 volts, minus 5.0 volts, plus 7.5 volts and minus 7.5 volts. All voltages except the plus 7.5 and minus 7.5 are regulated. The dc-to-dc converter consists of a free-running multivibrator transformer coupled.to rectifier circuits. The frequency of the power supply oscillator is 30 kilocycles + 10 kilocycles. Modified Coincident Current Memory Ferrite cores are arranged in a.64 by 40 matrix. Bias current is carried by a single line threaded through all of the cores. X and Y currents are delivered through an 8 by 8 driver switch and a 4 by 10 driver switch, respectively. The use of a 1-bit word allows for a switching-to-no switching current ratio of 3 ,to 1. Pulse Generators There are.three pulse generators providing, respectively, X-pulses, Y-pulses, and bias pulses. Each generator consists of two delay multivibrators in tandem followed by two stages of current amplification. Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 Driver and Switch Circuits The purpose of the driver and switch circuits is to steer the current pulses of the X and Y current generators through the proper X and Y memory core lines in the proper direction and to steer the bias current in the proper direction through the bias winding. These circuits consist of 13 complemented flip-flops in tandem... Sense Amplifier The sense amplifier consists of three stages- of .tfferential emp~l.if;icebiot~: fb laai by a single-end output. Associated with the sense amplifier is a 1-transistor multivibrator which generates the strobe pulse and a 5-input AND gate which controls the sense ampli- fier output so that this amplifier core output is fed to other circuitry at the proper time. Indicator Circuit The indicator circuit consists of a series of AND and OR gates followed by a buffer stage. When activated, the light is connected across one of the batteries. One-Shot Multivibrator This is a standard one-shot. A negative pulse of a duration sufficient to permit feed- back action is provided as an input. The output pulse is a function of the RC time constant. Logic Circuits Logic circuits used in the?Reyer Memory consist of AND gates, OR gates, set-reset flip- flops, complemented flip-flops and inverters. Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 SENSE AMPLIFIER OUTPUT BUFFER INDICATOR 4 -ADDRESSING CIRCUIT BOARDS 3 - DIODE MATRIX BOARDS 3 - SWITCH AND DRIVER BOARDS 1 - PULSE GENERATOR & KEYER BOARD I - CORE MATRIX ASSEMBLY Figure 2. Arrangement of Assembled Printed Circuit Boards l 1 1 . 1 . ? 1 1 1 . \ 1 l I I r ' I I ( ' : i t i Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 The master oscillator is a free-running oscillator which produces a 50-~rsec pulse every Output Buffer The output buffer consists of an integrator and three stages of current amplification. DISASSEMBLY Although no operator maintenance is intended, the equipment may be dissassembled when required. The procedure indicated here should be followed in disassembling the keyer Memory. To avoid damage.to components and wiring, caution must be exercised when dis- assembling any of the interconnected assemblies. Figure 2 shows the arrangement of assembled printed circuit boards. The procedure isr 1. Carefully remove the cover. 2. Take the logic boards out of the case, after removing their holding screws, by lifting the boards from their pads. 3. Lift the power supply board out of its slide channels. 4. Lift the assembly of address boards out of the case. 5. Remove the complete memory assembly after first removing the holding screws on the underside of the.case. 6. After the screws which hold together the individual boards of the memory assembly are removed, the pulse generator and X switches and drivers boards can be carefully folded back to inspect the lower board of the assembly (the Y switches and drivers). 7. Lift the Y board from its guide pins and carefully fold it back for inspection of the top of the memory matrix. Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 8. The diode boards are assembled on the same guide pins and must be removed from the pins very carefully to prevent damage to the fine wires between them and the core strips of the.matrix. Because of the method used.to wire the matrix it cannot be disassembled without major rewinding during reassembly and com- plete testing after reassembly. 9. Finally, lift the sense amplifier board out after removing the screws which hold it against the end of the case. The reassembly procedure.is the reverse of the disassembly procedure. Again, caution must be exercised to avoid damage to components and wiring. Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 The code transmitted by the Keyer Memory consists of letters of the alphabet in tele- type (Baudot) code. Under favorable conditions, a standard teletype machine may be used at the receiving station for print-out of the message. The copy printed will be composed of the same alphabetical characters which may be easily converted.into numerical form. The teletype characters utilized in NORTHVILLE are shown in figure 3. All of these characters have marks in the fifth unit. In addition, the.width of the stop pulse is 44 milliseconds rather than the conventional 31 milliseconds. The "letters" function is sent continuously, 56.8 times per minute, while the unit is in the IDLE mode. Key- board button designations are listed below along with the corresponding teletype char- acters utilized. Keyboard Button Teletype Designation Character 1 V 2 0 3 B 4 Q 5 G 6 M Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 START 1 2 3 4 5 STOP 22 22 22 22 22 22 44 FOLLOWING START PULSE IJ IDLING SIGNAL (START PULSES EVERY 176 MILLISEC.) 1 (V) (U 2 (0) (1.2.3.) 3 (B) (2.3) 4 (0) (4.) 5 (G) (1.3) 6 (N) (1.2) 7M (1.3.4) 8 (P) (1.4) 9 (T) (1.23.4 ) o (F4) (1.2.4) E (X) S (W) (3.4) Figure 3. Teletype Characters Used in NORTHVILLE Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 Keyboard Button Teletype Designation Character 9 T 0 H E X The Keyer Memory has four distinct modes of operation. STANDBY (S), RECEIVE (R), IDLE (I) and TRANSMIT (T). These modes, their operational characteristics and the instruc- tions for using them are described here. The logic diagram of the Keyer Memory is shown in figure 4. Logical symbols are explain- ed in figure 5. Operation is described for each mode. In the following discussion the modes of operation are described in the order in which they are selected by the mode selector switch. OFF No battery power is applied to the power converter, and the equipment is inoperative when the selector switch is pushed all the way in. STANDBY Battery voltage is supplied to the power converter through mode selector switch deck W ; all power supply voltages are generated. Ground potential applied to the X and Y current generators through switch deck W2 prevents turnon which might otherwise result from initial transients. The only connection of logical bias through switch deck W3 in this position is logical bias S. This bias holds the GO flip-flop in the ONE state. The master oscillator is started in this switch position although its output is blocked t,ntil the switch is advanced to an active position. Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Output is -2V with 1 or more in- OR Gate puts at -2V. OR gates have 2 to 4 inputs. A -2V input to either side will Set-Reset produce a -2V output at the same side. A -2V input to the other Flip-Flop side will then reverse the state of the flip-flop. Complementing A +2V complement input reverses the state of the flip-flop. The Flip-Flop ZERO input is the reset input. Output is -2V when all inputs are -2V. No output when all inputs are not at -2V. AND gates have 2 to 5 inputs. Output is the complement of the input. -2V input OV output OV input - -2V output. Figure 4. NORTHVZLLE Logic Symbols Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 RECEIVE When the mode selector switch is in the RECEIVE (R) position logical biases, transient pulse output P and the steady-state outputs S', R, and RX are generated. The P pulse triggers a 25-millisecond multivibrator (MV), the output of which: resets the counters to their starting position (000 output of the 5-DECODER), sets the xeset flip-flop to the ONE state, and sets the GO flip-flop to the ONE state. At this point information can be put into the memory. Depressing one of the keys of the keyer will produce an output at the start flip-flop and will also set up a particular combination in the four information flip-flops. The start flip-flop output pulse is applied to the first 11-millisecond multivibrator. A pulse appearing at point A proceeds to generate the read-current pulse. When it arrives at point B it proceeds to generate the.write-current pulse. However, the read pulse can only be applied to the current generators when the output of the 5-DECODER is 000. The write pulse requires the coincidence of information from one of the information flip-flops plus the 5-DECODER 000 output before it is applied to the current generators. The write pulse (at point B) is also applied after a short delay (40 microseconds) to step the address counters to the next count and to set the read-write flip-flop back into the READ state. The two 11-millisecond multivibrators in tandem produce the required 22-millisecond teletype baud-length. This is the read-write cycle time,of the memory (with 11-millisecond separation between read and write). When the START pulse is applied to the first 11-millisecond multivibrator, the pulse will end-around through the two multivibrators as long as the 5-DECODER output is 000 (during the 001, 010, 011, and 100 outputs of the 5-DECODER). The START pulse, Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 4-INFO F F'S START FF LOGICAL BIASES OUTPUT BUFFER OUTPUT FF O II MS MV #2 MASTER OSC. 176 MS RX STROBE Y GEN x GEN BIAS GEN. BIAS DRIVER R W U READ-WRITE FF WRITE SW (8) Y Y READ WRITE DR. (41 SW. (4) QI DR. (el - WRITE M. (10) 0010 011 100 Figure 5. Keyer Memory Logic i I l S i ( i [ J I A i l i f Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 POWER CONVERTER SUPPLY VOLTAGES & REGULATOR H I READ SW (10) ALL READ DRIVERS AND ALL READ SWITCHES MI 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 I  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 arriving at point A does not affect the current generators, because of the 000 output. The pulse arrives at point B, 11 milliseconds later. (This pulse.does not affect the current generators, either.) Shortly after, the address is stepped to the 001 output. Eleven milliseconds after the pulse arrives at B it again ends-around to point A. This time the 000 output is not present and the pulse at point A generates the first read pulse, reading the core in location 001 to the ZERO state and again arrives at point B, 11 milliseconds later. This pulse may or may not write a ONE into location 001, depending upon the output of the 001 information flip-flop. If this output is a ONE, then the pulse at point B produces the write current and a ONE is written. If the out- put is not a ONE, no write currents are generated, leaving a ZERO in location 001. This procedure is continued through the other three addresses. The 000 output then occurs again and stops the end-around process. All activity ceases, awaiting the depression of the next key which will place four more bits of information into the memory. This time the 10-DECODER flip-flops have stepped one count so that four new bits of information are written into four new cores. This process can continue until the entire memory (2560 bits) is filled with information. To permit proper operation in the TRANSMIT (X) mode, the last four bits in the, memory must all be ZEROs. The keys cannot be depressed at a rate faster than once every 5 times 22 (110, plus tolerances) milliseconds, or approximately once.every 0.15 seconds. The start flip-flop pulse is also applied to the indicator, providing visual indication that a key has been depressed and that a START pulse has been generated. IDLE The function in the IDLE,(I) mode is to deliver idling characters (a ONE followed by all ZEROS) to the output buffer. In this position, provision is made for some visual indication of proper machine operation by the lighting of the indicator every time the ONE occurs. Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 When the mode selector switch is in this position the following logical biases are generated: the P pulse, which resets the address counter and sets the reset and GO flip-flops to the ONE state, and the d-c biases S', I, and X1. The absence of logical bias RX prevents stepping of the address counters and the 5- DECODER output remains at 000. The master oscillator, which gives a pulse every 176 milliseconds (for generation of the START baud, 5 information bauds, and a 44 milli- second STOP baud), now generates the START baud. The master oscillator pulse, after appearing at point A and passing through OR gate 9 sets the output flip-flop to the ZERO state. A few microseconds later, this same pulse places the output flip-flop in the ONE state. The pulse arrives 22 milliseconds later at point C to again set the output flip-flop in the ZERO state; it then remains in the ZERO state until the next output from the master oscillator. The output to the output buffer is a 22-millisecond START baud (ONE) occurring every 176 milliseconds. This out- put is the idling character; its presence is indicated visually at the indicator. TRANSMIT With the made-selector switch in the TRANSMIT (X) position, information in the memory is transferred in teletype form to the output buffer. Information consists of a START baud, four information bauds, an unused fifth information baud, and the STOP baud. In the explanation to follow: START baud space = ONE output (22 milliseconds) STOP baud = mark - ZERO output (44 milliseconds). The following logical biases are generated when the mode selector switch is in the TRANSMIT (X) position: pulse P, which resets the address counter and sets the RESET and GO flip-flops to the ONE state, and the d-c biases S', X, XI, and RX. Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Until the GO button is depressed no action takes place and the indicator light remains on, since the GO flip-flop is in the ONE state. Depressing the GO pushbutton causes the GO flip-flop to be reset to the ZERO state. After depression of the GO button the output of the master oscillator (after arriving at point A and appearing as output of OR-gate 9) sets the output flip-flop to the ONE state but does not operate the current generators, because of the 000 address output. Eleven milliseconds later the pulse arrives at point B and after a short delay, steps the address to 001 but does not activate the current generators. Eleven milliseconds after the change of address the pulse arrives at point C and then ends-around to point A (through AND gate 12 and OR gate 7). The pulse then resets the output flip-flop to the ZERO state (through OR gate 9) and also operates the current generators, producing a READ pulse. If the information in the core location addressed is a ONE, an output voltage is produced on the sense line. This output voltage, amplified by the sense amplifier, sets the output flip-flop (through AND gate 20 and OR gate 13) to the ONE state. With a ZERO in the core, no output will be produced and the output flip-flop will remain in the ZERO state. Eleven milliseconds later, when the pulse again arrives at point B, it is desirable to write into the core the same information which was read out during the read cycle (the information which is now in the output flip-flop`. The pulse arriving at point B (now a write pulse) will be applied to the current generators if the output flip-flop is in the ONE state. If this flip-flop is in the ZERO state the pulse is prevented from activating the current generators. If the current generators are turned on, a ONE is written into the core. Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 This process continues for three.more cores. The 000 output then occurs and the-end- around ceases. (The last pulse appearing at point C then serves to reset the output flip-flop to the ZERO state during the unused fifth information baud and during the STOP baud.) Action then ceases until the next pulse from the master oscillator. The process of reading out four more cores and rewriting their information back into the memory is then repeated for four new core locations. This process continues until all of the information in the memory has been read out and restored, at which time the machine shuts down. This shutdown occurs because the remaining information in the memory is all ZEROS (the four remaining.ZEROs after all of the useful information is read out). The machine detects all ZEROS and shuts down by the following procedure: The master oscillator output pulse arriving,at point A proceeds through AND gate 18 to the reset flip-flop, resetting it to the ZERO state. If the information is all ZEROS no write pulse occurs (at the output of AND gate 11) to set the reset flip-flop to the ONE.state. At the and of the four information bauds (all ZEROS in this case) a pulse from the first three address counters steps the next address flip-flop. This pulse also triggers the.25-millisecond multivibrator, resetting the address to the starting position and setting the GO flip-flop to the ONE state. This blocks all master oscillator outputs and causes all action to cease. The GO flip-flop being.set to the ONE state causes the .indicator to light and indicates to the operator that the.message is complete. The entire process may be.repeated by again depressing the GO pushbutton. To clear the memory, the GO and CL pushbuttons must be depressed simultaneously. When this is done the output from AND gate 17 prevents the reset flip-flop from starting shutdown because of an all-ZEROs condition and also opens the line between the sense amplifier and the output flip-flop. The machine now operates through all addresses, Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 reading all cores to the ZERO state, (The output flip-flop remains in the ZERO state, so that only ZEROs are written back into the cores) The memory is then cleared. When the GO and CL pushbuttons are released the machine will detect the reading of all ZEROs (four of them) and shut down. TRANSMITTED CODE UNITS Two types of transmission are provided, frequency shift keying (FSK) and continuous wave (CW). The type keying to be used determines the selection of adapter cords but does not otherwise affect operating procedures of the Keyer Memory itself. Frequency Shift Keying Spaces appear at the higher of the two carrier frequencies and marks at the lower frequency. Figure 6 shows the frequency-shift characteristics of CR-18 and CR-27 crystals. Although the amount of shift varies between different units cut to the same frequency, a given crystal can be expected to retain a given approximate shift permanently. Number CR-18 or CR-27 crystals have been encountered which display frequency shift of two small a value for reception on standard equipment. When doubling or tripling in the trans- mitter the frequency shift transmitted will be correspondingly doubled or tripled and shifts as great as 3000 cps could result. One method for receiving shifts greater than 1000 cps is to zero-beat the receiver BFO on the "mark" carrier frequency and treat the result as if it were CW keying. Another method is to set receiver select- ivity to minimum value and tune in on the mark carrier. Perhaps the best practice is to precheck the desired crystals for shift, and if doubling or tripling-would cause shifts greater than 1000 cps, use the CW ADAPTER CORD for transmitting. Use of CW keying would not provide the 3 db advantage of FSK. Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 O 0 0 0 O 0 0 0 O CD (D Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 The frequency shift of the transmitting crystal does not vary with the battery voltage of the keyer memory, but ? 10 percent voltage fluctuations of the transmitting power source may cause variations of ? 2 percent. CW Keying The transmitter is keyed off only during spaces and remains on during marks. ADAPTER CORD OPERATION Both the FSK and CW adapter cords contain semiconductor circuitry within the black plastic encapsulation and,should be regarded as parts of the keyer memory. FSK Adapter Cord A Varicap semiconductor diode is paralleled through a small capacitor with the trans- mitting crystal (figure 7). During transmission of a space, a d-c voltage, obtained from rectification of rf by the Varicap itself is permitted to appear across the Vari- cap. This voltage, whose magnitude is limited to about 10 volts by a resistor, causes the Varicap to assume minimum capacitance. During a mark, the output amplifier shorts the d-c voltage through an r-f choke, thereby increasing the varicap capacitance and dropping the crystal frequency. cW Adapter Cord When the CW adapter plug is inserted in the KEY JACK of the transmitter, certain cathode returns in the transmitter are broken and placed in series with the silicon power trans- istor in the adapter plug (figure 8). During a mark, this transistor is saturated by current from the output amplifier, keying the carrier on. During,a apace, the trans- istor is cut off. This interrupts the cathode returns in the transmitter, keying the carrier off. Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 L!~ PIA I R29 4K L I C25 1 m h 33?W -LC24 R30 Ot,tyuf 39K t VARICAP J I A I TO TRANSMITTER u P2 Figure 7. Schematic Diagram of FSK Adapter Cord CRYSTAL SOCKET TO TRANSMITTER KEY JACK NOTE: P3 IS A MODIFIED PL-55 TYPE PLUG A= TIP, 8 = SLEEVE Figure 8. Schematic Diagram of CW Adapter Cord Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 INSTRUCTIONS FOR USE Lighting of the indicator (regardless how dim) indicates that the battery voltage is sufficient for proper operation. The unit will operate satisfactorily for a while after the indicator stops functioning and may be so used in an emergency. Normally, the batteries should be replaced or recharged when the indicator stops functioning. With the mode-selector switch in the OFF position, insert the batteries. Battery polarity is inscribed on the battery mount. STANDBY Move the mode selector switch to the STANDBY (S) position. In switching from one position to the next allow one or two seconds in each position to permit stabilization. This is essential in the S position, since the power converter is converting the battery voltage to supply voltages, the oscillator is starting, and transients are being generated. If possible, the.switch should remain in the S position for from 5 to 10 seconds. Switch to the desired operating position, stopping for one to two seconds in each sequential position. RECEIVE To store new information in the memory, switch to the RECEIVE (R) position. Keyer buttons are then depressed to write information into the,memory; a firm depression of each key is required. The time between releasing one key and depressing the next key should be greater than 1/4 second. Each time a key is depressed the indicator will flash. Although the circuits are designed to allow for the effects of switch contact bounce, an unsteady depression of the key may cause.multiple contact with sufficient time between each contact to write the same. information two or more times (indicated by more than one flash of the Indicator light), The same information will be written into successive word locations in the memory as many times as the indicator flashes. Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 Write into the memory no more than 639 characters. The 639-character figure is the maximum storage capacity of the memory. If 640 characters are written, no idling character will be available to initiate automatic shutdown of the unit after trans- mission of information. The unit will continue to transmit information and recycle until the selector switch is moved out of the Transmit (X) position, with a probable loss of some information. If more than 640 characters are written into the memory, characters in excess of 640 will erase the first part of the information and will be written into locations formerly occupied by the first part of the information. Thus, to store character no. 641, character no. 1 will be erased and character no. 641 will be written in its place. The unit may be turned off from this position by switching to STANDBY (S) for a few seconds and then to the OFF position. (Information stored will not be lost when turn- ing the unit off from the RECEIVE position.) IDLE To transmit idling characters from the unit move the mode-selector switch to the (I) position. Transmission is automatic when in this mode of operation. The indicator lights once every character time (176 milliseconds) providing visual evidence that the batteries are good and part of the unit is operating properly. To transmit information from the unit, switch to the Transmit (X) position. The indicator will light immediately. Depress the GO pushbutton momentarily. The indicator will go off and the transmission of information will be started. When all information in the memory has been transmitted and recycling has been completed, the unit will turn it- self off and the indicator will again be lit. Depress the GO pushbutton to again trans- Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9 mit the same information. With the mode-selector switch in this position the indicator is continually lit except when information is being transmitted. Since this is a waste of battery power, the switch should not remain in this position longer than necessary. When the information has been transmitted and the indicator is again lit the unit may be turned off by moving the mode-selector switch to the OFF position (pausing.a second or two in each sequential position). To again transmit information switch to the TRANSMIT (%) position and push the GO pushbutton. CAUTION The unit cannot be switched from the TRANSMIT (S) position while information is being transmitted or while the unit is recycling (indicator off) without probable loss of inf or- mation from the memory. To clear the memory of information the unit must be in the TRANSMIT mode. Hold both the GO and CL pushbuttons in the depressed position for a length of time calculated as follows: Depressed time (seconds) : number of characters stared 5 This time applies only if clearing is started at the beginning of the information cycle (indicator lit). The CL pushbutton must be depressed before the GO pushbutton; other- wise some information may recycle before start of the clearing action. Automatic shutdown, after transmission of information, requires that an idling character be stored after the last information character. Shutdown is initiated upon detection of the idling character. Since idling characters are written into the memory cores during memory clearing, clearing should extend beyond core locations to be used by the Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 next information which will be written into the memory. The safest procedure is to clear the memory completely, which is accomplished in about 2 minutes and 40 seconds. Use of the Keyer Memory with the RT-6 Assemble and tune the RT-6 or 6A transmitter, following.the normal procedure as outlined in Instruction Book, for Radio Station RS-6. Turn off the transmitter when adjustments are complete and connect the keyer memory for use with FSK or CW. When ready to trans- mit turn on the transmitter and allow for warmup. Retuning of the transmitter is not necessary but slight readjustment may be made if desired. Transmission is then accom- plished by the steps outlined under TRANSMISSION in this section. Frequency Shift Keying, Remove the crystal from the transmitter crystal socket and in its place connect the FSK adapter card with the cord leading directly away to the left as in figure 9. Reinsert the transmitting crystal in the best-fitting of the two sockets provided in the top of the FSK ADAPTER. The crystal will normally protrude quite a distance above the adapter. Fold the transmitters attached sending key to the RETRACTED position. Only type CR-18 and CR-27 crystals are recommended for use with the FSK adapter. Continuous Wave Keying. Leaving the crystal in the transmitter crystal socket, connect the CW ADAPTER CORD to the KEY JACK of the RT-6 transmitter being sure that it is fully seated. The transmitters attached sending key should be left in the extended position. Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 This section contains an itemized breakdown of electronic components used in the Keyer Memory. Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. 1 Raytheon 0828 A216 99 1006 Q2 same an Q1 916 1 1006 - 03 -1 -12 Raytheon C826 g tt 80 1006 04-1/-12 Sane as Q3 P 1006 S Gen. Trans. 211358 A218 4 1004 Sane as Q5 A218 1004 7 Same as Q1 A218 1004 Fairchild 211706 A213 13 1039 1.0 Same as A213 1039 11 Same as 09 A213 1039 012 Same as Q1 A213 1039 Q13 Sane as 01 A213 1039 Q14 as Qj A213 1039 15 Same as A21 1039 016 Sam as 91 A213 1039 Q17-1/-4 Sam.. as 1 A212 1007 Q18-1/-4 Sam as 1 A21 1007 Q19 Some as 03 AA220 1002 Q20 Sane as 03 A220 1002 021 01 A22 1002 22 Sane as 01 A220 1002 423-1/-10 Sans as 1 A212 1007 Q24-1/-10 Sash as 1 A212 1007 25 Sam as 03 A213 1039 Component Type - Transistor (Q) Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Assy. Total Schematic Reference Description Manufacturer Type Part No. No Used No. Symbol . Q26 Same as Q3 A213 1039 Q27 Same as 3 A213 1039 Q28 Same as 3 A213 1039 29 Same as 3 A213 1039 Q30 as A21 1039 031 Savo as 1 1039 032 Same as A213 1039 033 Swe as Q3 A21 1039 Q34 Same as Q3 A213 1039 Q35 Same as Q3 A213 1039 Q36 Same as 3 A213 1039 A213 1039 Q37 Sang as Same as Q3 A213 1039 Q39 Same as 3 A213 1039 A220 1002 040 Same as 1 same as A221 1002 042 Sam as 03 A221 1002 A221 1002 043 same as 03 044 Same as 03 A221 1002 045 Saise as 3 A220 1002 046 Sam ga Qj A221 1002 7 Sam as 1 A221 1002 A221 1002 048 Same as 01 049 as 1 -Same A221 1002 .050 Sam " 0 A220 1002 Sheet 2 of 6 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Component Type - Transistor (Q)  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. Q51 Same as 03, A220 1002 052 53 Same as 3. A221 1002 Q54 Q55 Same as Q3 A220 1002 056 Same as 3 A220 1002 Q57 Same as Q3 A220 1002 Q58 Same as Q1 A221 1002 Q59 Same as Q3 A221 1002 0-60-1/-2 Same as Q3 A216 1006 Q61-1/-2 Same as Q3 A216 1006 2-1/-2 Same as Q3 A216 1006 Q63-1/-2 Same as Q3 A216 1006 4 ., Same as A213 1039 Q65 Same as A213 1039 6 Same as Q9 A213 1039 Q67 Same as A213 1039 8 Same as A213 1039 9 Same as Q9 A213 1039 Q70 . Same as 1 A213 1039 Q71 Same as Q1 A213 1039 072 -Sam as Q5 A202 loo4 73 Same as Q5 A202 1004 074 Sam as A22 1002 075 ga~ as 01 AA220 1002 Component Type - Transistors (Q) A, A' : ( l ( 1 I I [ ( [ : i Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 I : I  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. Q76 Same as Q1 A220 1002 Same as 1 A220 1002 078 S&m as 1002 079 Sane 01 A220 1002 0 Same as 1 A220 1002 081 Sam as Q1 AA220 1002 082 Same as 03 A220 1002 083 Same as Q3 A220 1 2 Same as Q3 A220 1002 085 Same as A221 1002 6 Same as 01 A221 1002 Same as 01 A221 1002 088 Same as A221 1002 090 Same as 01 A219 1005 091 Same as 01 A219 1005 Q22 - as QI A219 1005 093 Same as Q3 A219 1005 Q94 Same as Q3 A219 1005 5 Same as Q3 A219 1005 Ogfi a Q3 A219 1005 - 097 Same as A219 1005 8 Same as 3 A219 1005 099 29496 Philco 19 8 1005 Q100 Q29 1005 Component Type - Transistor (Q) w L Sheet 4 of 6 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Sym Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. Q101 Same as Q99 A219 1005 0102 Smw as 0103 Q104 S~ as Q2 A219 1005 0105 Sam as Q2 A2 19 1005 Q106-1/8 Sam 08 Q1 A21Q 1007 0107-1/8 Sam " Q1 1007 0108-1/8 sappe as 1 A210 1007 0109-1/8 1007 0110 San* as 2 1002 Q111 Same as 03 A221 1002 112 Same as 03 A221 1002 113 Same as 03 A221 1002 Q114 Same as 3 A221 1002 Q115 Same as 03 A221 1002 0117 Same as Q3 A221 1002 0118 Same as 1 A220 1002 Q119 Same as 1 A220 1002 120 Same as Q1 A220 1002 121 Sam as Q1 A220 1002 Q122 Same as Q1 A220 1002 123 Same as 1 A220 1002 0124 Sans as 01 A220 1002 125 Sage as Q99 A220 1002 Component Type - Transistors Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol 2126 0127 0128 Description Manufacturer I Type I Part No. Component Type - Transistors w v Assy. I Total I Schematic No. Used No. Sheet 6 of Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Asst'. No. Total Used Schematic No. CR1 lX695 Sylvania A217 673 1006 CR2 same as CIM Same as CRI. 1 Q5 Same as 6 Sane &a CRI A21L 1006 CR7 Sam as C11 - A217 006 cgs Sam as CRI 1 CR9 AA217. 1006 CR10-1 -4 Saw as 1 Q12 1QQ7 CR11-1 -4 Sam as CR1 A212 1007 .C&12-1/-4 Same as CR1 A212 1007 CR13-1 -4 Sane as 1 A212 1007 CR14-1 -4 Sane as CR1 12 1007 CR15-1 -8 Sale as CR1 06 4 --1/ AU(L- 5/8 100 CR16-1/-8 (21 _ A206-1 4 In-r- a -- -AAW-A 06-1 4 A210-5191 1007 08:51111 1007 CIL19-1/_8 cal A2 06-1 8 1007 CR20-1/-g . _&Mma_m cal 100 1CIL21-1/-B Inn7 CR22-1 -8 Sane as CR1 1007 CR24-1 -8 Same as CR1 - 10 1 1007 - A212 1007 Component Type - Diodes (CR) [ I [ ( ( I. ( i l : [ I ( i Sheet 1 of 13 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. CR26-1/-10 Sane as CR1 A212 1007 CR26-1/-10 Sam as Q1 - 1007 12 Sam as CRI 1007 -1 - 11 1007. CR34-1/-8 Sane as CR1 fis i: 1007 5-1/-8 -1 1 as 1 - - ' 4 1007 1007 7-1 -8 Sam as %1 ' -1 -$ Sane as 1 -1/-8 Sme as CR1 1007 CR40-1/-8 Same as CR1 - 1 1007 C241-11-8 Same as 1 0 - 0142-1 ?8 Sane as C11 A2 A2 0 - 09-S181 11 1007 3-1/-8 Sane as 1 AL2 QQ-5 CR44-1 -8 Sane as CR1 -1 - Sans as CR1 7 1 1007 CM-1/10 11 1007 - A211 1007 CPM-1/10 as 1 11 1007 9-1/10 same as CRI A211 1 -1 LO Sams as CRI A211 1007 Component Type - Diodes (Cl) w Sheet 2 of 13 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. CR51-1 -10 Same as CRl A211 1007 CR52-1 -10 Sass as CR1 A211 1007 -1 -10 Ssne as 1 A211 1007 WA Sam as 1 A217 1007 Cal A217 1007 CR56 Sacs as Cal A217 1007 CR57 Sage as CR1 A217 1007 Cass A217 IQQ7 CR59 Sane as Cal A217 1007 S~ an Cal A217 1007 CX61 AUL-M Cal A217 1007 L%fi3 sa~ as Cal A217 1007 ew 4 an Cal k217 1007 C165 Sum " CRI. 1007 as CII 1007 Q67 Sam as CRI A217 1007 CR68 Sam as Cal A217 1007 CR69 Sam as Cal A217 1007 CR71 -&MEL-" Cal A217 1007 CIL74 Cal L6 t 100fi cy -as Cal I - F I i A 217 Component Type - Diodes (Cl) Sheet 3 of 13 L I I. (: I I I? I A I I I , I I I I I [ ( I Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. CR76 Same as CR1 A217 1006 77 Same as CRL A217 1006 CR78 Same as CR1 A217 1006 CR79 Same as A217 1006 0-1/12 M ral SAM*- ti ll 1006 - - 1006 A217 1006 CR83 Same as Cal A217 1006 CR84 Same as CR1 A217 1006 C185 AZIZ- 1006 CR86 an C11 1 1006 A217 1006 17 1006 CR89 Sam An Ca I A217 1006 A217 1006 CR91 A216 1006 Sam as 1 A216 1006 as 1006 A217 1006 CR95 Sam as C&I 1 AZL5--- 1006 M7-1/12 Samin an Cal A214 A 17 1 r. -1006 _ CZ98-1/12 CR1 9fl:j ff 1006 CR99 Sam as 1 A217 1 CR100-1/2 Same as Cal A216 1006 Component Type - Diodes (CR) Sheet 4 of 13 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. CR101-1/2 Sane as CRl A216 1006 A216 1006 AA103 as C11 A217 1006 C1104 Pal AA217 1006 17 1006 -GLIgk-- as CII Sam A217 1006 . A217 1006 A217 1006, CR109 A217 1006 C1110 S~ as CR1 17 1006 Ca111 Son as CRI A217 1006 C1112 2~ as 1 A217 1006 A217 1006 4 A217 1006 CR115 Sane as CR1 A217 1006 CR116 Save as CIL1 A217 1006 117 SAN&-" Cal A217 ionfi 118 Sane as CR1 A217 1006 20 Sane as Cal A217 1006 21 $ as Cal A217 1006 CR122 Same as Cal A217 1006 23 Sass as CR1 A217 1006 CR124 $ar as CR1 A217 1006 125 Sane as CR1 A217 1006 Component Type - Diodes (CR) Sheet 5 of Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. CR126 Same as CRL A217 1006 CR127 Save as 128 Sam as CR1 A219 1004 CR129 Same as CRI A218 1004 CR130 Sam as CRI. A218 1004 CR131 Same as CR1 A218 1004 CR132 as 1 A218 1004 CCR133 Same as CR1 A218 1004 CR134- CIII A218 1004 . CR135 Same a 1 1004 136 Saim as 1 A21 1004 CR137 A218 1004 CR138 Sam as A218 1004 CR139 Same as 1 1006 CR140 Sam as CR141 Same as CR1 A217 1006 CR142 S ame as CR1 A217 1006 143 Same as CR1 A217 1006 CR144 Sam as CR1 A217 1006 CR145 Same as CR1 A217 1006 CR146 Same as CRI A217 CR147 Same as CR1 A217 1006 CR148 Same as CR1 A217 1006 CR149 Saga as CR1 A217 1006 ICR150 Sam as CR1 A217 1006 Component Type - Diodes (CR> Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. CR151 Sane as CRl A217 1006 1 CR153 Same as CRI. A217 1006 CR154 A217 1006 CRI55 Sam as 1 A217 1006 CR156 CRI 1 CR157 Sam as CR1 1 CR158 A217 1006 CR159 A217 1006 CRI60 Sane as 1 A217 1006 CR161 Sane as 1 1 1006 CR162 Same " 1 A217 1006 CR163 A217 1006 CR164 Same as 1 A217 1006 CR165 as 1 A217 1006 CR166 Same as CR1 A217 1006 CR167 Sane as CR1 A217 1006 CR168 Sane as CR1 A217 1006 CR169 Sane as CR1 A217 1006 CR170 Same as CR1 A217 1006 CR171 Same as 1 A217 1006 CR172 Sane as CR1 A217 1006 CIL174 as CR1 A217 1006 CR175 Sane as A217 1006 Component Type - Diodes (CR) . l i l I l I . A, / I I ? i a A ? t 1 I A Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. CR176 Same as CRl A217 1006 CR177 Same as CR1 A217 1006 CR178 Same as CR1 A217 1006 CR179 Save as CR1 A217 1006 CR182 Same as CR1 A217 1006 CR183 Same an CRI A213 1039 CR184 Same as CR1 A213 1039 CR185 Same as CR1 A213 1039 CR186 Sam as CR187 Same as CR1 A213 1039 CR189 CR190 Same as CR1 A213 1039 CR191 Sage as CR192 Same as C R1 A213 InI%Q 1 Same as 1 A211 i n39 CR194 as 1 -- A2IJ 1039 CR195 Same as CR1 -- A213 1039 C1196 Same as CRI A211 1039 CR197 198 Saise as Cal A213 .%1 99 same " CIL1 13 10.39 CR200 fame as CR1 A213 1039 Component Type - Diodes (CR) fi Sheet 8 of 13 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. CR201 Same as CR1 A213 1039 CR203 Same as CR1 A213 1039 CR204 Sane as CR1 A213 1039 CR205 Sam as 1 A213 1039 CR206 Sam as 7 Sam as CRI A21 1039 A21 1039 A21 1039 CR210 as 1 A213 1039 CR211 Sam " 1 1 1039 CR212 CRI A21 1039 CR213 A213 1039 CR214 Sane a 1 A21 1039 CR215 Sam as CR1 A213 1039 CR216 Same as 1 A21 1039 CR217 Same as 1 A213 1039 CR218 S G22 Transitron A220 4 1002 CR219 Sang as CR218 A220 1002 A22 1002 CR221 Sane as 1 A220 1002 CR222 Sane as CR1 A220 1002 C2221 sjs& &A, Cal 20 1002 CR224 Sane as CR1 A220 1002 I CR225 Sane as CR1 A220 1002 Component Type - Diodes (CR) ( I I i I : I A I .e I i ~ I I ( I i I i I S I Z 1 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Assy. Total Schematic Reference Description Manufacturer Type Part No. No. Used No. Symbol A220 1002 CR226 Same as CR1 A220 1002 AL227 Same as CR1 ?220 1002 CR228 Same as CR1 A220 1002 CR229 Same as CA1 -- jam CRI A220 1002 CR230 A220 1002 CR231 Same as Cal A220 1002 CR232 Same as CR1 A220 1002 CR233 Same as CR1 4 gAma an Cal A220 1002 CR23 ?220 1002 CR235 Same as CR1 ?220 1002 CR236 Same as CR1 A220 1002 CR237 Same as C81 A220 1002 C8238 Same as CR1 A220 1002 CR239 Same as CR1 A220 1002 CR240 Same as CR1 22 1002 CR241 Same as CRI 8242 Sam as 1 220 1002 A220 1002 CR243 as CRI, -Sane __ - 44 Sam as 1 A220 1002 1 A220 1002 CR245 same as A220 1002 A220 1002 ARM Sam as CR1 A22 1002 CR248 Same as 1 - ?220 1002 ?220 1002 CR250 Component Type - Diodes (CR) r V Sheet 10 of 13 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Asst'. Total Schematic No. Used No. CR251 Same as CRl A220 1002 as Cal AUt 1065 CR253 Same as CR1 A219 1005 CR254 Same as CR1 A219 100 CR255 Same as 1 1005 CR256 Sam as CiLl Innr CZ257 CRI A219 , inns 8 Sam as CR1 A219 1005 CR259 S~ as Cal A212 1005 CIL260 Sam " Cal -- A219 1005 CR261 Sam as Cal A219 Loos CR262 Same as 1 1005 CR263 Some as 1 A21 1005 CR264 Same as CjL1 A219 1005 CR265 Same as citi A219 1005 CR266 Q267 Same as Cal A219 A719 1005 1005 CR268 Sane as CR1 A219 1005 CR269 Same as CR1 A219 1005 CR270 Same as Cal A219 1005 CR271 Sane as CR1 A21 1005 CR272 Same as CR1 A219 1005 CR273 Same as CR1 A219 1005 CR274 'Same as CR218 I 1221 1002 CR275 Same as CR218 A221 1002 Component Type - Modes (CR) Sheet 11 o 1 I [ [ l f - i ( [ E I [ ( [. f ! ( s [ Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424A002000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part N. Assy. No. Total Used Schematic No. CR276 Same as CRI A221 1002 7CR277 Same as 1 A221 10 CR278 Same as CRI A221 1002 CR279 Same a 1 A221 1002 CR280 Same as CRl A221 1002 CR281 Same 1 A221 1002 CR282 Same as CR1 A221 1002 CR283 Same as 1 A221 1002. CR284 Same as 1 A221 1002 CR285 Same as CR1 A221 1002 CR286 Same as CR1 A221 1002 CR287 Same as CR1 A221 1002 CR288 Same as CRI A221 1002 CR289 Same as CPtI A221 1002 CR290 Same as CR1 A221 1002 ~CR291 Same as CR1 A221 1002 1002 CR293 Same as CR1 A221 1002 CR294 Same as CR1 A221 1002 CR295 Same as CR1 A221 1002 CR296 Same as 1 A221 1002 CR297 Same as CR1 A221 1002 CR298 Same as CR1 A221 1002 OK299 San@ as CR1 A221 1002 CR300 Zaner. 5.2Y .1Y 25OW Hoffman 114705 A218 2 1004 Component Type - Diodes Sheet 12 of 13 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. . No. Total Used Schematic No. C1301 Same as CR300 A218 1004 CR302 Zener 2.2V .1V 2501i Hoffman 1N705 A218 2 1004 CR303 Saas as CR302 A218 1004 Component Type - Diodes Sheet 13 of 13 [ I t I l ( [ '. l C l 3 I A 'I 1 t f ( I Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. Cl. 47 C2 Sam as C3-l/-12 220UF 107 Corning Glass YlOC221Z 14 24 1006 C4-11-12 Same as C3 AM- i nn6 __ CS 1 OF 15 1 ragg" SR 1Z I A218 9 1004 C6 150 Cl 7 ame as A21 C8 Same as 18 1004, C9 - Sam as C5 A218 1004 C10 Same as 18 1004 Cli Same as C5 A218 1004 C12 Sane as C5 A218 1004 C13 Sow as A218 1004 C14 Same as A21 1004 C15 lUF 1 20V Sprague 1 Z A213 2 1039 C16 .05UF 107, Fan Steel STA 5169-1 A213 43 1039 C17 0.11W 107, Fan Steel STA 5173-1 A213 7 1039 CIR SAM An CI 7 1019 C19-1/-4 - .042UF bOV 107. Fan Steel STA 5168-1 A212 30 1007 C20-1/4 Same as C16 ?212 C21-1/-8 Same as C16 -l 1007 C22-4/4 Same as C19 1007 C23-1/-8 Sane as C19 1007 C24-1/-8 Same as C16 1007 A212 1007 Component Type - Capacitor (C) Sheet 1 of Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Asst' No. Total Used Schematic No. C26-1/-40 Sane as C19 A212 1007 C27 Sam as C17 1007 C29 .47UF 10% Fan steel STA 181-1 A213 1 1039 C30 I,OUF, 35V, 10% -AM= -IN-35-10 A213 1 1039 C31 3GOV, 2% a Class a G AZZ(L 7 1002 _C32 220MM. 30OV, 2% Corning Glass 1 221 - A221 C33 C35 C37 IUF, 1 0%. 35V gane as C36 mom 2. 104X A221 A221 3 1002 1002 C38 C39 -AMML_&L C36 Saus as C31 2 A220 1002 1002 C40 1 20% Vitranon OCW102K A22 2 1002 C41-11-2 OIUF 10% Fan Steel STA 161-1 A216 2 1006 C42 IOODUF 107, Cornin Glass YlOC101K A216 2 1006 C43 Sane as C42 A216 1006 C44 1UF 10% Fan Steel STA 185-1 A216 1 1006 C45 Sale as C16 A216 1006 2UF, 10% Fan Steel S 156-1 -1 A216 1 1006 C47 ISOUUF, 1% 360UUF. 1% Corning Glass Corm lass Y10CI81F 15C361F A213 ?213 1 1039 1 9 EA 27000F 1% C2KAIA2 Glass 5C271F 13 1 1039 -AZGUUF. 15C6217 I Component Type - Capacitor (C) Sheet 2 of 5 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Assy. Part No. No. Total Used Schematic No. C51 160UTiF 1% Cornin Glass YlOC1617 A213 1 1039 C52 820Dtw 1% Corning Glass Y15C821F A213 1 1039 ?54 Sans as C54 A213 1039 t55 as C17 1039 C56 C17 10149 C57 m C17 Jng 1039 C58 - _ Same as C15 A213 1039 AZLI- 1039 1 6 C63 27111F, 1OV, 10% 2~ as C40 150D276X OnI012 A202 1 1004 1004 6 C65 C66 C67 IC68 Sam " C31 Saw as C31 Sam an C31 Sam as 1 AM- A220 A220 1002 IL002 1002 1 221 70 Sow as C69 A220 1002 C71 Isom, 50OV, + Glass IOC181G A220 1002 C72 150VW, 500Y. + 1 "s IOC151C 2 C73 500T. 1 + 1% Golan Gl"s A220 1 1002 CC74 "MOW, JOOV, + 1 1002 7 Component Type -4 Capacitor (C) Sheet 3 of 5 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. C76 15 500V + 5% Corning Glass Y20C152J A220 1 1002 C77 01 35V + 10% S ra A220 3 1002 C78 .5 Aerovoz A220 2 1002 C79 Same as C78 __ A220 1002 C80 .1 Aerovox A220 1 1002 C81 Same as C36 A221 1002 C82 1 500V +5% Corning Glass Y10C101J A221 3 1002 C33 Sams an C82 A221 1002 21. 1002 C85 11OLwf, 500V +2% Corning Glass 1OC111G A221 2 1002 C86 J~ as CBS 21 1002 1 1 A221 6 1002 c88 Same as C32 A221 1002 C89 Same as C32 A221 1002 C90 + lass 2 2 2 A221 1 1002 C91 1 2 + rain lass ~ 551 A221 1 1002 C92 Sam as C87 A219 1005 1 Coming Glass Y15C102J A219 4 1005 C94 S as C93 A219 1005 C95 Sam as C93 A219 1005 C% 3~ as C93 A219 1005 7 A219 1005 Cgs am as C77 A219 1005 C99 Sms as C77 A219 1005 C1OO -047uf, 5V 1 S ra a A219 1005 Component Type - Capacitor (C) Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Fc 2700uif, 200V, 107. 3aae as C87 Component Type - Capacitors VI Type Part No. Assy. No. A220 A220 e220 A220 Total Used Schematic No. 1002 Inn2 1!102 1002 Sheet 5 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Description  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description 19, 1/10W, 5% 209, 1/109, 5% 569, 1/IOW, 5% Sale as R4 18-1/-12 Sane as 14 R9-1/-12 IR10-1/-12 *11-11-12 R12 27K, 1/10W, 5% Rl R14 1.510. 1/IOW. 5% Sane as R14 Same as R1 R17-11-12 681, 1110W, 5% R18-1 -6 R19-1/-12 120-1/-2 R21-1/-2 R22-1/-2 1 lea, 1/109, 5% 189, 1110111, 5% 479, 1/IOW. 5% 229, 1/10W. 5% R23-1 -2 91K. 1/101. 5% R24-1/-2 I399. 1/10W, 5% R25-l/-2 ISaaa as R24 Component Type- Resistor (R) Sheet of 13 Manufacturer Type Part No. Assy. No. Total Used Schematic No . Allen Bradley 1025 34 1006 1006 Allen Bradley 2035 31 1006 Allen Bradley 63 1006 1006 A2TZ 1215. WLI 1006 I Allen Bradley 2735 18 Allen Bradley A218 1004 A21 1 1004 Allen Bradley A215 L006 #4 L006 Allen Bradley 1055 A21 L0 Allen Bradley 1835 16 Allen Bradley 473 5 A216 Allen Bradley 22 35 A216 Allen Bradley Allen Bradley 1 j t t l l I I i ( l l ! (: [: [ Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. R26-1/-2 Sam as R21 A216 1006 &27-1/-2 Sane as 117 A216 1006 R28-1/-4 1110W, Allen radls 3 5 A216 30 1007 &29-1/-4 Sane as 15 A211 1007 R30-1/-8 Sane as R5 1007 - 1007 R32-1/-g M 22A - 1007 1 _ l - 134-1/-10 Sane as RS A212. 1007 R35-1/-10 Sane as 128 A212 1007 R36 m in saw J 1006 R37 - - Sane as R1 A21 1006 R38 Sane as R1 A217 1006 139 Same as JR40 Sam as R1 A21Z- 1006 R41 as 1 A217 1006 R42 Sane as R1 A217 1006 143 Same as R1 I 1006 144 Sane as 17 A2 1006 R45 Same as Rl A217 1006 146 Sans 1 1006 147 Sata as 11 17 1006 348 ans as Rl A217 1006 R49 Sane as A217 1006 R50 Sam as R1 IA217 1006 Component Type - Resistor v 2 of 13 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Sym Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. 1 Sa as Rl A217 1006 RR53 Sao " RI A217 154 Sass as ti A217 1006 R55 Sass as R1 17 1006 JR56 Saw " al A217 1006 7 Sass as al 16 1006 15$ 27 1/1011 5% Allen Bradley T& 2705 16 1 1006 30K, 1110W, 5% Al lea Br&dley Tit 3035 1 8 1001 160 Sam as 17 1 1001 Rail Sass as R17 A213 1001 R62 Sass as R59 A21 1001 R63 Sam as 12 13 1001 164 Sass as ItI7 AA213 1039 R65 7.5R 1110111, 5% Allen Bradley TR 7525 A213 1 1001 R66 Sass as R17 A213 1001 R67 Sass as R17 A213 1001 R68 10[ 1110W, 5% Allen Bradley TR 1035 A213 16 1001 R69 Sass as R24 A213 1001 R70 $a as R21 A213 1001 R71 Sass as R24 A213 1001 R72 4,?wK 1/10fi 5% 173 Sass as R17 A220 1002 &74 2~ as R24 ' IQQ2 t R75 Sam as R22 -T ?220 l-002 Component Type - Resistor Sheet 3 of 13 [ I t t ( ( ( ( ; 1 . t . ( i l ( ! ( ( [ Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Assy. Total Schematic Reference Description Manufacturer Type Part No. No. Used No. Symbol R76 A213 1001 R68 R77 Same as A213 1001 8 R78 Sane as A213 1001 R68 R79 Same as A213 1001 R80 Same as 968 A213 1001 R68 181 Sane as A213 1001 R82 Same as R68 A213 1001 R83 Sane as R68 A213 1001 R84 Sane as 8 A213 1001 R85 Same as R68 R86 33K, 1/10W 57. Allen Bradley TI 3335 A221 10 1002 A221 1002 R87 Sane as R86 A221 1002 R88 Same as 6 A221 1002 R89 Sane as R17 930 Sam as R17 A221 1002 A221 1002 R91 Sane as R17 192 Same as R17 A221 100 - A220 1002 RR93 Saw as R94 Some as R12 A220 1002 17 A220 1002 R95 Sane as R96 197 R98 1.8R 1 lOW 5% Allen Bradley TR 1825 A220 2 1002 R99 8.210 1110W. 5% Allen H ad1 TR 8225 A221 2 1002 1100 2410 VIOW, 5% Allen Bradley TR 24 5 A221 6 2 Component Type - Resistor Sheet 4 of 13 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference eferenl Description Manufacturer Type Part No. Asst'. No. Total Used Schematic No. R101 21 1002 1 as 1 1002 R103 Son " R17 A221 1002 1104 See as 117 A221 1002 5 906 saw K" A221 1002 07 220 i 7 I/IOW, 5% A11en. Bradley T1 2215 A221 2 1002 1108 Saar as IL17 A221 1002. 1109 ee as A221 1002 1110 9.1K. 1 low 5% Allen Bradley 1R 9125 A221 1 1002 1111 Sans as 117 A221 1002 9112 Ses as 124 A220 1002 1114 sane as 120 A220 1002 1115 82111101111 5% Allen Bradley T1 8235 A221 4 1002 1116 -AM an R22 A221 1117 See as .1113 A221 1002 1002 - as R19 1 A215 .Rao Sam as R17 16 1006 1006 I 117 SE 16 1006 _ 2 Sam" R113 1 1006 3-1/-2 as 121 6 1006 1124-11-2 &I SAL 2 - __ JLNI-AL NTI I 1045 - -- 16 rA216 - 006 1 LI I Component Type - Resistor Sheet _L - of 13 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. 8126 iaae as RI 17 1 Aw &A 1 Saw A217 1006 8 - 7 low 2RIL29 its 11 A217 1006 lu as 91 A217 1006 131 18: I R . CIA A213 1 1039 8132 24R 1 8i1 1% C . CIA A213 1 1039 301 1/8W, it I.R.C. CIA A213 2 1039. 1134 -Sam- as 1133 A213 1039 Rim SoCj"35 - 1 7 220 Al . 118 I.R . CIA A213 3 1039 1138 471 118W, 1% I.R.C. CIA A213 3 1039 1139 Ia.e as 8138 A213 1039 AM- 1039 2144 I-7K, 1/10 5% ALISA a A213 109 R145 0 - Sam an 1144 13 ion A213 ICw **w " 1141 IL AIL3 IL149 Ing, I./m, IL Alles TR L%45 1 4 -4 all n? 1 Component Type - iasistaw o- Sheet j of 13 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. 8151 Sam as R5 L3 1039 1152 Saws as 15 8153 15 A 1 loft 5% Lan srad1 7Z 1 Ion 0, 111aw 5% A211 8155 50 to 15 l fait 5% 11 radl TR A21 1 1156 R157 R158 Saws as R12 R12 ?213 1 1 8159 saws as R12 A213 1001 A213 innt 1 Sa~ as R12 R163 An A213 Ina R164 Sam as R59 AM l 1001 R165 IL59 - AZL3 1001 8166 Saws as R59 -- 8167 saw M 9 1001 8168 as -Sam 1001 1169 same as A213 l am 1170 17 AU3 1 01 8 1171 I RV 12 1 001 U72 ILL7 A2 3 1 00L 1 7 1 1001 174 1 1175 is 117 1 13 loot Component Type - lasts tars [ i ( ( ( ( ( 1 l t ( . I ( 1 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Sheet 7 of 13  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. 17b Sam as I L17 A213 177 Sam es 1 13 1001 1178 as ItI24 A21 1001 1179 Sam as K137 A213 1039 1180 Baas as 8137 A213 1039 Itial 390 1110111, Allen Bradley T1 3915 A202 1 1004 1182 Sans as R20 A220 1002 183 Sam .s A220 1002 1 R113 A220 1002 1185 Sam as 14 A220 1002 1186 L~ aA 24 1002 187 Sass as 14 A220 1002 Riga Z~ as NA A220 1002 1002 R190 02IJ A220 1002 IL191 R24 AZZQ 1002 R192 Sam a" -- 2 R193 R34 L002 9194 as A220 Rigs A220 IOQ2 19i Sans as 121 A220 1002 MI A220 im- R17 I A220 1002 *A R17 A220 #%Ado Component Type - 1uistors Sheet 8 of 13 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. 1201 Same as R17 A220 1002 02 Sara as R17 A220 1002 R203 are as 117 A22 1002 R204 Sam as A17 A220 1002 8205 Sane as R17 A220 1002 8206 Some as 7 A220 1002 8207 Sane as R17 A220 1002 R208 __M R17 2 1 8209 Sara as R86 A220 1002 8210 !are as R66 ?220 1002 R211 15x1/10y, 5% Allen Bradley, 73L 1 2 4 1002 JM2 A220 1002 8213 Sams as 8115 A220 1002 IL214 SAM 4A g12 A220 1002 L215 Sam as 112 A220 1002 6 75K, 1/109, 5% Al lea _jr&dIMX 1& 7535 A220 1 1002 9917 -Sam as A220 1002 R218 Sam as 1149 A22 1002 19 Some as 49 A220 1002 R220 gems " 1 A220 1002 2755 2 1 1002 R222 44K-,-I/Sff. 1%. T-2 A220 2 1002 R223 1224 Sam *A 1222. - 75K-, 116W. 1%. - IL.R.C. CZA A22 A22 3 1002 1002 25 I MR, IAW- 1%. T-2 A220 1 10, Component Type - Resistors Sheet 9 of 13 [ I ( ( L [ ( ( t [ I [ 1 ( l I I l ( I [ Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. 1226 Save as R99 221 1002 JU27 ISAA 221 1002 P228 Saw as 186 221 1002 2190 221 1002 A230 Same as R17 221 1002 awe as 1 R219 1005 3 1110111, 5% Allen Bradley 1234 Same as 1233 1219 1005 1Z 1236 Same as 1,20 R219 1005 7 Sow as IL238 Sam as R12 1005 R2 9 Sam " 112 IL219 100S 8240 Saar as 7 R219 1005 1241 Same as R17 IL219 1005 R242 IMNLAR 117 2210 100S 1243 Same as R4 1219 005 1244 4.71. 111OW, 5% Allen Bradley 1t 4725 8219 1pos 2"s Isais as RM 221a 1 Mr. 124 Same as 186 R219 Loos 1241 sawn as 161; 19 100 Inn% 1250 some as Ri 1219 1005 Component Type - Resistor (R) o% LA Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No.. Assy. No. Total Used Schematic No. 1251 Same as Rl A219 1005 [252 Seas as R24 A219 1005 6253 560 1 10M 5% Allen Dradloy TR 5615 A219 1 1005 $254 Same as R22 A219 1005 R2 as R5 A219 1005 1256 Saos as $115 A219 1005 IL257 - Sass as 1100 1005 _U58 71~ A219 1005. R250 - IRA- 1 680 - 1/0 W, 5% Allen BraAle 6815 1 1005 61 13K. 118W, 1%. T-2 CRA 19 2 1005 1262 8 as 19 _ $26 I.R.C. CIA A219 2 1005 1005 um- as ZZU A219 1005 IL265 1 1005 $266 $me as R224 19 1005 U67 330 l x A219 4 1005 1268 $am as $267 "19 1 -22" -&am" R267 inns R270 R267 I A219 1005 1271 2.4 Iftit, C CIA A219 2 14105 2 am *a 1 A219 1005 $273 33K R C A219 2 1005 4 Sam as R27 19 1005 1275 R219 Component Type - Resister Sheet 11 of 13 t I ( ( r t i l [ [ ( t 1 ( 1 [ [ 3 C I [ ( ~ [ ? C: l Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Assy. Total Schematic Reference Description Manufacturer Type Part No. No Used No. Symbol . R276 3.6R 1/8W 1%,i-T-2 I.R.C. CEA A219 2 1005 7 T-2 A219 2 R278 1/109, 5% 100 11 Allen BrAdIn TIllt 1015 8279 , sms 186 u A221 1005 8280 aas 06 A221 1 R281 Sams as all A221 IQQ5 IL282 A221 1005 8283 Sam as R5 A221 1005 A221 1005 It285 6235 21 1 1005 86 11 1 1 5% Allen r dls 1145 A221 1 1005 R17 21 1005 12" Sam " IL17 A221 1005 89 ftn as R17 A221 1005 1290 2291 as *17 S " A221 A221-- 1005 inns 8292 _ ao&_ Sam as R17 A221 1005 K293 A"17 fi t A221 100 5 Us& - ma - 217 A221- tons - 5 1 2: R17 A221 100 RZ% 17 Sam 1 1005 97 Same as R17 A221 1005 g2" 2~ " 117 1 1005 am 217 IA221 I 100-S " 1 1 Component Type - Rasistor Sheet of 13 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Reference Symbol Description Manufacturer Type Part No. Assy. No. Total Used Schematic No. 1301 Same as 117 A221 1005 1302 Sage as 7 1005 R303 Sane as R98 A221 1005 04 6.21. 1110W, 5% Allen Bradley TR 6225 A221 1 1005 8305 Sane as 1211 A221 1005 R306 R211 A221 1005 1307 Same as R12 A221 1005 8308 Sane as R12 A221 1005 8309 Save as R12 A221 1005 8310 Same as R12 A221 1005 R311 R12 A221 1005 1312 Sane as R12 --- A221 1005 R313 an R12 A221 1005 R314 212 IOM 1 Sheet 13 of 13 ( I ( ( I I t [( t I I [((Jr ( ( [ l Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Component Type - Resistor  Reference Symbol Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Description -Mar 4093x1004 Component Type - Tr feraers (T) Type Assy. No. Total Used Schematic No. of 1 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9  Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9 Sanitized Copy Approved for Release 2011/09/19: CIA-RDP78-03424AO02000010001-9