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13llcSH 0-OC—SCI 2<-tH	DEPOSITORY
NOV 2 9
UNIVLiv_m i i Ur ILLINOIS
32654B 06 SOI 8411	AT urbana-champaigh
SUPPLEMENTARY MATERIAL CDC 326S4B
Integrated Avionics Computerized Test Station and Component Specialist
(F-15)
(AFSC 32654B)
Volume 6
Foldouts 1-13
WITHDRAWN University of Illinois Library at Ur?;{i»i^*Champaign
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Extension Course Institute
Air UniversityD oc. V,	2-'
OL-Zol-WII
THEODOLITE
J3
SVOC RET
♦5VDC
115VAC.
60HZ.
FROM
LRU
BLOWER
PANEL
2AJA4
LEGEND
PREFIX ALL REFERENCE DESIGNATORS WITH 3A1.
RELAYS SHOWN DEENERGIZEO
)
TO
THEODOLITE
NEUTRAL
115VAC,
MHZ.
GROUND J
♦FEEDBACK FEEDBACK RET ♦ 100VDC lOOVOC RET GROUND
TO
STAND
>ARO
LIGHT
SOURCE
115VAC. V 6OHZ.0C r FAN VOLTAGE
COC 3 W#
Foldout 1. DUTA power distribution panel block diagram.
COORDINATION COPY
iLEGEND
1.	PREFIX ALL REFERENCE DESIGNATIONS WITH 1A3A2.
2.	RELAY SHOWN DEENERGIZED.
[~T> IMPEDANCE UNIT PN 2144341.
DC RETURN
A12	
	<3
RESISTIVE	
CIRCUITS	
A2. A3.A6 A7, A8
VIOEO
RECEIVERS
ANO
BUFFERS
A5
COAXIAL
SWITCHING
SAMPLING
HEAD
DISCRETE LOADS^ FOR UUT
DISCRETE LOADS FOR UUT
DRAWER
STIMULI
UUT INPUT SIGNAL
UUT
RESPONSE TO
MEASUREMENT
DRAWER
STIMULI TO UUT
DISCRETE LOADS FOR UUT VIA FRONT PANEL CONNECTOR
ELO
SIGNAL
SIGNAL GATE-ELD
COINCIDENCE EXT START —
TO DATA COUPLER
TO
MEASUREMENT
DRAWER
FROM UUT
VIA
SWITCHING
COMPLEX
1A3A3LEGEND
PREFIX ALL REFERENCE DESIGNATIONS WITH 2A1 A3.
TO/FROM CCOP 1A1A2 VIA AUXI 1A2AI
TO/FROM OVERTEMP DISPLAY J ON/OPR MONITOR^
2A1A2
TO AUX • 1A2AI
TO DISPLAY MONITOR OR m L MEASUREMENT DRAWER VIA SWITCHING COMPLEX1A3A3
TO/FROM UUT VIA SWITCHING COMPLEX 1A3A3
CQORDIMilGfl COrY+26.5VOC FROM VIOEO UNIT *-2A1A3
1.	PREFIX ALL REFERENCE DESIGNATIONS WITH 2A1A2.
2.	RELAYS SHOWN IN OEENERGIZEO POSITION.
115VAC. 40QHZ RETURN DC RETURN
39614
r100 VAC. 400H2. 0A FROM ACRPS IA3A4
0 A
1SVAC. 400HZ. }<t> FROM JUNCTION BOX NO 2 2 A1A11
-o-t
TO A1A5.
A1A6 ANO A1A7
TO A1A6
OPERATE
STATUS
MONITOR
OPERATE
COMMANO
TO AUX B 1A2A6
TO FROM CCOPIAIA2 J VIA AUX 8 ^ 1A2A6
PINT 12 H/R —
CLOCK
DEVICE
CONTROLLER
SERIAL
TIMING
I.KCiKM)
1	PREFIX ALL REFERENCE DESIGNATIONS WITH 2A3A3
2	RELAYS SHOWN DEENERGIZED \V IISVAC. 400 HZ 30 RTN VV DC RETURN
♦5VOC
PROGRAMMEO
CONTROL
SIGNALS
♦5VDC ♦26 SVOC
OEVICE
CONTROLLER
POWER
SUPPLY
♦SVOC-■ -SVOC
♦26 5VOC-
TO
CIRCUIT
CAROS
•SVOC MONITOR
OEVICE CONTROLLER STORAGE 1
RESET
GENERATOR
a
POWER ON	OPR
' :
o
v
- START/STOP SWEEP
CONTROLLER
INTERFACE
•26 SVOC !
A1A3	-
OEVICE	
CONTROLLER	
STORAGE 2	
	_
FREQUENCY CONTROL
SINGLE/CONTINUOUS SWEEP-MOOE SELECT IFIXEO/SWEEP) VOLTAGE GAIN COMMANO-
5VAC-
TO UUT VIA
SWITCHING
COMPLEX
1A3A3
♦1SV0C
•SVOC
SWEEP
GENERATOR
♦ISVOC ♦4SV0C I ♦SVOC
A1A6
VOLTAGE
CONTROLLEO
OSCILLATOR
-.♦ISVOC MONITOR -
♦ ISVOC I ♦SVOC
OUTPUTSELECT-
REFERENCE
VOLTAGE
GENERATOR
FIXED/SWEEP
OUTPUT
i cl ' jPPER ..*PUT
VCO OUTPUT/AC OUTPUT -
TO UUT VIA SWITCHING COMPLEX 1A3A3
DO-JI t
Foldout 5. Signal generator (SIGS) block diagram.FROM UUT VIA SWITCHING COMPLEX »" 1A3A3
115 VAC. 400 HZ. 34FROM JUNCTION BOX NO. 2 2 AT All
TO
AUX B IA2A6
FROM/TO CCOP 1A1A2 VIA AUX B 1A2A6
•EXTERNAL CURRENT SENSING
DEVICE
CONTROLLER
POWER
SUPPLY
'—PINT 10
-5 VDC -+5VOC -
-DATA
-ADRSS2-
-CLOCK-
♦2IVDC AT 2SA PROGRAMMEO REGULATEO -CURRENT LIMITING
TO UUT VIA
SWITCHING
COMPLEX
1A3A3
CURRENT POWER SUPPLY LIMIT VOLTAGE/CURRENT CONTROL STATUS *
A1/A2
♦26.5 VO C-
0S2 OVER TEMP			SI THERMOSTAT		DEVICE
			-<SC“	~1	CONTROLLER
				V	
				OVERTEMP _	
-5 VDC • +5 VDC ■
-+26.5 VDC-
♦5 VDC
K2 T
■Xi
^ I
jl
TO
------	K3
	RESET
	GENERATOR
-►	
— +5VDC STATUSMONITOR-
APPLICATION 'STATUS MONITOR
-APPLICATION COMMAND-
	LEGEND
1.	PREFIX ALL REFERENCE
	DESIGNATORS WITH 2A2A5.
2.	RELAYS SHOWN IN
	DEENERGIZED POSITION.
$	115VAC, 400HZ.3*, RTN
	OC RTN
39819
COORDINATION COP'/115VAC. 400HZ.
*3
FROM H JUNCTION BOX NO. 2 2A1A11
^ TO UUT
TEST PACKAGE
FROM UUT y VIA SWITCHING COMPLEX 1A3A3
LEGEND
1.	PREFIX ALL REFERENCE DESIGNATORS WITH 2A1A4.
2.	RELAYS SHOWN IN DEENERGIZED POSITION.
\B/ 115VAC, 400HZ, 3 RTN \fl/ DC RTN rr> PN 1992545-3 f4~> PN 19*2545-4 AND UP
fT\	+135VDC TO +195VOC 1
^ 8 AMP OUTPUT (MODE 2A) MO UUT
TO UUT VIA { SWITCHING COMPLEX 1A3A3
_ -M36VDC TO +1I5VDC {T>— 11 AMP OUTPUT (MODE 2B)
}
TO UUT
APPLICATION
RELAY
30815NEUTRAL
115VAC, 400HZ. 3^ FROM JUNCTION BOX NO. 2 -< 2A1A11
♦26.6VOCJ-
LEGEND
1.	PREFIX ALL REFERENCE DESIGNATIONS WITH 2A3A5.
2.	RELAY SHOWN DEENERGIZED.
i/
J/ 115 VAC, 400HZ, 3^ RTN OC RETURN
FROM/TO CCDP1A1A2 VIA AUX 8 1A2AI
TO r
AUX B J PINT 11 1A2A6 1
H/Rf-
AORS 51 <r CLOCK AND DATA
un	urn
OPERATE STATUS
FAULT INDICATION 0S2
*f—o
OVER TEMP
S2
THERMOSTAT
OVER TEMP STATUS MONITOR — OPERATE COMMANO-
♦26.5VOC
A2
OEVICE CONTROLLER STORAGE NO. 1
♦ 5V0C J—►	A1
+ 20 5VDC i—►	DEVICE
	CONTROLLER
	SERIAL
	TIMING
	
£
A3
OEVICE CONTROLLER STORAGE NO. 2
iSVDC (-♦26.SVOC y-
39817
CDC TJK
• '
V11SVAC	
400HZ.	<*>A
3^ FROM <	
JUNCTION	
BOX NO. 2	
2A1A11	
	<t>C
♦5VDC-
, TO CIRCUIT CARDS A6 THRU A12
+26.SVOC
LEGEND
1.	PREFIX ALL REFERENCE DESIGNATIONS WITH 2A1A1.
2.	RELAY SHOWN DEENERGIZED. \D/ DC RETURN
SERIAL DATA (27 BITS)-
GATED 1 MHZ CLOCK AND DATA INITIATE '
A9	
RECEIVER	
VIOEO	
.RECEIVER
VIDEO
A12
♦26.5VOC S-
BITE
V.TO/FRON ' UUT
♦5VOC1-
A10 MODE		
		
		
		UCLL 1 1 C
		
A14	unnr i tiaic ncrnncn uincn_w	
		
COAXIAL RELAYS		
		
		
		—-
Foldout 9. IFFREA block diagram.115VAC, 400HZ.
30 FROM	j
JUNCTION BOX ' NO 22A1A11
NEUTRAL <t
FROM/TO CCDP1A1A2 . VIA	*\
AUX B 1A2A6
LEGEND
1.	PREFIX ALL REFERENCE DESIGNATIONS WITH 2A3A2.
2.	RELAY SHOWN DEENERGIZED.
\d7 DC RETURN.
H/R b
CLOCK b
DATA b
DEVICE CONTROLLER SERIAL TIMING
ADORESS 44 b
FROMUUT b
-FM/NOISE INPUT
DS1 POWER ON	OPR
	
CALIBRATE IN-
LOCAL OSCILLATOR TEST FREQ TEST-
FM DEVIATION
FM RATE OF DEVIATION-FM NOISE-
TO/FROM )» SWITCHING COMPLEX 1A3A3
118
CDC
Foldout 10. FMNA block diagram.
COORDINATION COPY	FOro A2
115VAC.
400HZ.
30 FROM < JUNCTION 80XNO 1 1A1A11
A9			A10
ANALOG			INTERFERENCE
OUTPUT			BLANKER
LOADS			LOAOS
FROM CCDP1A1A2 VIA AUX B 1A2A6 f
TO AUX B 1A2A6>
FROM CCOP 1A1A2 , _		All
VIA AUX B 1A2A6 TO/FROMCCDP1A1A2. CLOCK _„ VIA AUX B 1A2A6 AND DATA		OEVICE CONTROLLER
		IN 1 Cnr L t
		
TO/FROM UUT VIA SWITCHING COMPLEX 1A3A3
TO/FROM UUT VIA SWITCHING COMPLEX 1A3A3
TO/FROM UUT VIA SWITCHING COMPLEX 1A3A3
FROM UUT
TO OMM 1A2A2 VIA SWITCHING COMPLEX1A3A3
MAIN PULSE FROM PULSE GENERATOR 1A3A1
MAIN PULSE NO. 1 TO UUT VIA SWITCHING COMPLEX 1A3A3A
(RECM/E) ■ (XCTR CTWT) X-BANO CHAN 1
Q
PWR SPLIT.	0C2
	B
------	<t>Cl
HY3	
PWR MONITOR M2
SWITCHING
COMPLEX
LEGEND
I(T>APPLICABLE TO 1993202 - 3, -4. AND -5 ONLY. (T>APPLICABLE TO 1993202-« ONLY.
I 1 FIRST OIGIT OF STORAGE » CONTROL 1—1 NO. IS OCWO NO.
EXAMPLE: (T) IS OCWO 4.1
Q BIT POSITION IN OCWO.
SWITCHES SHOWN IN RESET POSITION. APPLICATION OF COOE Q Q REVERSU TRANSFER SWITCHES FROM POSITION SHOWL ATTENUATORS REUT TO MAX. ATTENUATE*.
Foldout 12. MSSU RF section block diagram.Jts
REC 8 f~~}—
TO SWITCHING COMPLEX CHANNEL A
J3INP CHAN
AUX 0
AUX 8 AUX F
t--	<*>C2 i—	-l&o . ®.„
	MW 02 f-	r ®*o
		
RESET
m	SIG POS	SIS POS
	1	«
	2	1
	1	2
©	«	3
0	SI POS	ss POS
©	1 2	s
(*)	3	3
©	4	4
O	S	S
a	SI POS	S6 POS
©	6	6
©	7	
©	1	1
©		2
©		7
□
o
1 SWITCHES SHOWN IN UNENERGIZED POSITION. APPLICATION OF CODE dO CLOSES OR REVERSES TRANSFER SWITCH.
2. (Ofl) CONTACTS IN OPEN POSITION ARE SHORTEO TO GNO.
| J. (S03) CONTACTS IN OPEN POSITION TERMINATED IN 50flT0 GNO.
FIRST DIGIT OF STORAGE AND CONTROL NO. IS OCWO NO.
EXAMPLE: [T|lSOCWDM BIT POSITION IN OCWO.
Foldout 4. IF section bfock diagram.