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AMX-4 SCHEMATICS
(MODEL 2115090 SERIES)
GE MEDICAL SYSTEMS
REV 2
DIRECTION 2115684-100
IMPORTANT! . . . XĆRAY PROTECTION
XĆray equipment if not properly
used may cause injury. AccordĆ
ingly, the instructions herein
contained should be thoroughly
read and understood by everyĆ
one who will use the equipment
before you attempt to place this
equipment in operation. The
General Electric Company, MediĆ
cal Systems Group, will be glad
to assist and cooperate in placing
this equipment in use.
Although this apparatus incorpoĆ
rates a high degree of protection
against xĆradiation other than the
useful beam, no practical design of
equipment can provide complete
protection. Nor can any practical
design compel the operator to take
adequate precautions to prevent
the possibility of any persons
carelessly exposing themselves or
others to radiation.
It is important that everyone having
anything to do with xĆradiation be
properly trained and fully acĆ
quainted with the recommendaĆ
tions of the National Council on
Radiation Protection and MeasureĆ
ments as published in NCRP
Reports available from NCRP PubliĆ
cations, 7910 Woodmont Avenue,
Room 1016, Bethesda, Maryland
20814, and of the International
Commission on Radiation ProtecĆ
tion, and take adequate steps to
protect against injury.
The equipment is sold with the
understanding that the General
Electric Company, Medical SysĆ
tems Group, its agents, and
representatives have no responsiĆ
bility for injury or damage which
may result from improper use of the
equipment.
Various protective material and
devices are available. It is urged
that such materials or devices be
used.
1
INTRODUCTION
General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Assembly Designators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-1
1-2
2
AMX-4 OVERALL WIRING MODEL 2115090 SERIES . . . . . . . . . . . . .
AMX-4 OVERALL WIRING 2115090SCH . . . . . . . . . . . . . . . . . . . . . . . . .
2-1
2-3
3
AMX1 A1 A1 DISPLAY CONTROLLER 46-264982G1 . . . . . . . . . . . . . .
AMX1 A1 A1 DISPLAY CONTROLLER 46-264982-S . . . . . . . . . . . . . .
3-1
3-3
4
AMX1 A1 A2 DISPLAY 46-232832G1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
AMX1 A1 A2 DISPLAY 46-232832-S . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4-1
4-3
5
AMX1 A2 A1 CONTROLLER 46-264974G2 . . . . . . . . . . . . . . . . . . . . . . .
AMX1 A2 A1 CONTROLLER 46-264974-S . . . . . . . . . . . . . . . . . . . . . . .
5-1
5-3
6
AMX1 A3 A1 BATTERY CHARGER 46-288786G2 . . . . . . . . . . . . . . . . .
AMX1 A3 A1 BATTERY CHARGER 46-288786-S . . . . . . . . . . . . . . . . .
6-1
6-3
7
AMX1 A3 A2 ROTOR CONTROLLER 46-232786G2 . . . . . . . . . . . . . . .
AMX1 A3 A2 ROTOR CONTROLLER 46-232786-S . . . . . . . . . . . . . . .
7-1
7-3
8
AMX1 A4 A1 1 KHZ INVERTER 46-288764G1 . . . . . . . . . . . . . . . . . . . . .
AMX1 A4 A1 1 KHZ INVERTER 46-288764-S . . . . . . . . . . . . . . . . . . . .
8-1
8-3
9
AMX1 A4 A2 KVP/FIL CONTROL 46-264986G1 . . . . . . . . . . . . . . . . . . .
AMX1 A4 A2 KVP/FIL CONTROL 46-264986-S . . . . . . . . . . . . . . . . . . .
9-1
9-3
10
AMX1 A4 A3 CAPACITOR BOARD 46-288504G1 . . . . . . . . . . . . . . . . . .
AMX1 A4 A3 CAPACITOR BOARD 46-288504-S . . . . . . . . . . . . . . . . . .
10-1
10-3
11
AMX1 A5 A1 DRIVE CONTROLLER 46-232834G1 . . . . . . . . . . . . . . . .
AMX1 A5 A1 DRIVE CONTROLLER 46-232834-S . . . . . . . . . . . . . . . .
11-1
11-3
12
AMX1 A5 A2 DRIVE POWER AMPLIFIER 46-232836G2 . . . . . . . . . . .
AMX1 A5 A2 DRIVE POWER AMPLIFIER 46-232836-S . . . . . . . . . . .
12-1
12-3
13
AMX1 A6 A1 HIGH VOLTAGE TRANSFORMER 46-270954G1 . . . . .
AMX1 A6 A1 HIGH VOLTAGE TRANSFORMER 46-270954-S . . . . .
13-1
13-3
14
AMX1 A2 S1 HALL EFFECT TUBE PARKED
SENSOR 46-288962G1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
AMX1 A2 S1 HALL EFFECT TUBE PARKED
SENSOR 46-288962-S . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
15
AMX2 A3 A1 BATTERY SENSE CIRCUIT 46-321370G1 . . . . . . . . . . . .
AMX2 A3 A1 BATTERY SENSE CIRCUIT 46-321370-S . . . . . . . . . . . .
vii
14-1
14-3
15-1
15-3
0
1
2
Sept. 2, 1994
Oct. 7, 1994
June 23, 1995
Initial release.
Made corrections to 46-264974-S in Section 5.
Changed name of Section 15.
Title Page
2
i thru x
2
1-1 and 1-2
2
2-1 thru 2-10
2
3-1 thru 3-4
2
4-1 thru 4-4
2
5-1 thru 5-10
2
6-1 thru 6-6
2
7-1 and 7-4
2
8-1 and 8-4
2
9-1 thru 9-6
2
10-1 thru 10-4
2
11-1 thru 11-6
2
12-1 thru 12-6
2
13-1 thru 13-4
2
14-1 thru 14-4
2
15-1 thru 15-4
2
ix
ILLUSTRATIONă1
$
See Illustration 1. The AMX-4 is identified by one of the following Model Numbers
2115090, 2115090-2, 2115090-4, 2115090-5, 2115090-6, 2115090-7, 2115090-8,
2115090-9, 2115090-10, and 2115090-11 on the rating plate located on the top
cover.
The AMX-4 contains operating safeguards providing maximum safety. Before
servicing, be certain proper operating procedures are being used. Refer to Direction
2115603-100
or to Direction
2115602-100
for proper
operating procedures.
Satisfactory equipment performance requires the use of service personnel specially
trained on x-ray apparatus. The GE Medical Systems, is responsible for the effects on
safety, reliability, and performance only if the following conditions are met:
The electrical wiring of the relevant rooms complies with all national and local
codes.
All assembly operations, extensions, re-adjustments, modifications, or repairs
are carried out by GE Medical Systems, authorized service representatives.
The equipment is used in accordance with the instructions for use. Refer to
Direction 2115603-100
or to
Direction 2115602-100
for proper operating procedures.
( &$ #' "$%!
! &% #'" &
1-1
%!' "$&& %% &! & &$ "$&%
ILLUSTRATIONă2
Schematics and Terminal Strips are arranged in Assembly Designator order.
AsĆsembly Designators are codes which simplify component identification. The code
is a convenient shorthand which defines each assembly or component. Assembly
Designators are derived from the location of components and assemblies within a
major assembly. Refer to Illustration 2 and the following list for AMX-4 codes:
AMX1 Generator
AMX1 A1 Top Cover
AMX1 A2 Top Deck (under cover)
AMX1 A3 Left Side
AMX1 A4 Right Side
AMX1 A5 Rear
AMX1 A6 High Voltage Transformer
AMX2 Base
AMX2 A1 Rear
AMX2 A2 Front
AMX2 A3 Battery
AMX3 Column
AMX3 A1 Column
AMX3 A2 Tube Arm
AMX3 A3 Tube
AMX3 A4 Collimator
1-2
FOLD
CONT ON SHEET 2
2
3
4
5
6
7
FOLD
FOLD
8
SH NO. 1
2115090SCH
DRAWING NO.
APPLIED PRACTICES
SURFACES
46–208600
GENERAL ELECTRIC
9
UNLESS OTHERWISE SPECIFIED USE THE
FOLLOWING : –
REV 2
TOLERANCES ON DIMENSIONS
DECIMALS
DECIMALS
ANGLES
(2 PLACES)
(3 PLACES)
+
+
+
–
–
–
TITLE
2115090SCH
CONT ON SHEET 2
2115090SCH
CONT ON SHEET 2
SCHEMATIC DIAGRAM
SH NO. 1
OVERALL_SCHEMATICS_FOR_AMX_IV
SH NO. 1
FIRST MADE FOR
AMX IV PRODUCTIVITY
P/L ISSUED
A
THE REVISION NUMBER OF THIS SHEET IS
NUMBER OF THIS ENTIRE DOCUMENT.
MUST INCREASE WHENEVER ANY SHEET
PCN #
THE CONTROL
THIS REVISION NUMBER
IS CHANGED.
–
–
180283
180288
–
–
27JUN94
29JUN94
11JUL94
2AUG94
–
–
2
A
0
0
1
–
–
3
A
0
1
2
–
–
4
A
0
0
0
–
–
5
A
0
0
0
–
–
6
A
0
0
0
–
–
7
A
0
0
0
–
–
8
A
0
0
0
–
–
DATE
SHT
2115090
2115090–2
2115090–4
2115090–5
2115090–6
2115090–7
2115090–8
2115090–9
2115090–10
2115090–11
B
ROTOR CONTROL AND BATTERY CHARGER
MODULE
AEC ELECTRONICS
CENTRAL PROCESSING UNIT
A3T1
ROTOR CONTROL
KEY SW
J3 FROM A3T1
POWER SUPPLY
# INDICATES RIBBON CABLE
J2 TO A3T1 PHASE 1 AND 2
KEY SWITCH
SECONDARY
J4 FIL VOLTS/COMM CAP CRG/SAFTY CONTACT
J5 DC POWER
+BATT
C
LOW VOLTAGE LIMITED ENERGY
PADDLE
AEC ELECTRONICS
FROM LVLE
J1 CPU
J3 ROTOR CONTROL #
A3A2
J9 DC POWER
AEC CONTROL J7
BATTERY CHARGER
J1 BATTERY CHARGER #
J1 CPU
J2 KEY SW/+BATT SW.
FROM LVLE
J3 DC POWER
J4 BREAKER TRIP IN
+BATT
BATTERIES
FOLD
MODELS G7, G8, G9, G10, G11 ONLY
J5 115 VAC & RETURN
–BATT
MAIN HARNESS J8
J4 1KHZ INVERTER #
J10 POWER OK/POWER STABLE*
FOLD
D
J11 CHARGE OUTPUT
J6
A3A1
J7
# DISPLAY CONTROLLER J6
J5 FIL/KVP CONTROL #
DC POWER J12
AMX1A2A2
AMX1A2A1
J2 MOTOR CONTROL #
CHARGE
LAMP
FAN
+ BATT SWITCHED
DC POWER
AMX1A3
MAIN WIRING HARNESS
E
HIGH VOLTAGE MODULE
1 KHZ INVERTER
DRIVE CONTROL MODULE
KVP/FIL CONTROL
J1 TO CPU
DC POWER FROM LVLE
J2 DC POWER FROM LVLE
MOTOR CONTROLLER
POWER AMPLIFIER
MOTOR CONTROLLER
TO CPU J2
J1 DC POWER FROM LVLE
J1
TOP COVER
J11 TO BUMPERS
+ BATT SWITCHED J10
J2 TO CPU
CURRENT LOOP CHECK J3
DISPLAY BOARD
DISPLAY CONTROLER
– BATT J7
27 VAC FROM ROT. CONT. J4
J4 PHASE1,PHASE2, &RETURN
F
J1 TO CPU
J9
TRIP BREAKER J6
J9
PMW E & PMW L J8
J3
KVFDBK
TRANSITION
MODULE
PWM L & RETURNS J5
J5 TAP SELECT RELAYS
INTERCON
J7
J2
J2
HEADER
LEFT MOT & CONT. J1
RIGHT MOT & CONT. J2
LEFT & RIGHT POWER* J4
LEFT BRAKE J5
RIGHT BRAKE J6
A4A1
A5A1
A4A2
A5A2
A1A1
A1A2
AMX1A1
TAP
CAPACITOR
BOARD
J2
J1
J4
A4A3
1.2uH
CHOKE
RELAYS
LEFT AND RIGHT
CONTACTORS
AND
DYNAMIC BRAKES
LEFT MOTOR
AND
BRAKE
Q1–Q3
RIGHT BRAKE
AND
MOTOR
REVISIONS
1
POWER
BLOCKS
PRINTS TO
CLD_11JUN94
404
PCN_180283
AMX1A5
AMX1A4
2
DPB_2AUG94
PCN_180288
MADE BY
C_DREWICZ_27JUN94
ISSUED
3
4
5
6
7
8
FOLD
2115090SCH
2
FOLD
N_ZETTEL_29JUN94
FOLD
H
J3
SELECT
9
APPROVALS
_
_
MEDICAL SYSTEMS
MILWAUKEE, WISCONSIN
10
DIV OR
DEPT.
LOCATION
2115090SCH
CONT ON SHEET 2
SH NO. 1
3
4
5
6
7
FOLD
CONT ON SHEET
2
FOLD
FOLD
8
3
SH NO.
2115090SCH
2
DRAWING NO.
APPLIED PRACTICES
SURFACES
46–208600
GENERAL ELECTRIC
9
UNLESS OTHERWISE SPECIFIED USE THE
FOLLOWING : –
REV 1
TOLERANCES ON DIMENSIONS
DECIMALS
DECIMALS
ANGLES
(2 PLACES)
(3 PLACES)
+
+
+
–
–
–
TITLE
2115090SCH
CONT ON SHEET
3
SH NO.
2115090SCH
CONT ON SHEET
SCHEMATIC DIAGRAM
3
SH NO.
2
OVERALL_SCHEMATICS_FOR_AMX_IV
2
AMX_IV_PRODUCTIVITY
FIRST MADE FOR
P/L ISSUED
BRAKE
RELEASE
POWER DISTRIBUTION
1A3F10
A
(RED)
(RED)
1A2S1
2A
BRAKE RELEASE
(BLU)
GRN/YEL
+BATT (BLK) (#8AWG)
1A3CB1
1A3CB1
MAIN
BATTERY
BOX
+BATT
K CHARGE
KON1
J4–1
(BLU)
(ORN)
GROUND STUD ON BASE
1A2TS1
15A
J1–2
(BLU)
A3F6
ARM GROUND
(BLK)
(BLK)
(BLK)
(BLK)
–BATT (BLK) (#8AWG)
64AMP
(RED)
1A3F9
B
_ (BLK)
–BATT
GRN/YEL
COLUMN GROUND
TO X–RAY
CONTROL MODULE
6–E6
+
(BLK)
8AMP
6–C6
1
(RED)
7–C4
J1–1
J2–7
KON2
(BLK)
7–D9
KEY SWITCH
.5A
A3F4
J11–1
(ORN)
10A
K ON 2
8
(WHT/BLK)
K LINE 2
1A5F1 (RED)
7–E9
1A5F2 (RED)
7–E9
(BLK)
7–D9
BATT CHARGE
CIRCUIT
J2–5
1A2TS1
3
4
(BLK)
UPPER
COLUMN
BRAKE
(RED)
ARM
BRAKE
(BLK)
LOWER
COLUMN
BRAKE
(BLK)
(BLK)
3A1TS1
(WHT)
1A2TS3
10
(BLK)
3A1TS1
9
10
1A2TS3
(BLK)
11
(VIO)
(WHT)
11
C
2A2TS1–1
(RED)
BATTERY AMX1A3A1 BOARD
J2–9
(RED)
J11
1A3F3
(VIO)
(VIO)
4
K1+
(BLK)
IN4936
9
1A2TS4
4
2A2TS1–2
8
5
4
1A2TS4
6
(RED)
3
(RED)
(RED)
1A2TS2–4
(RED)
TUBE PARKED
1A2TS2–3
(BLK)
(BLK)
LATCH
2A
8–F6
FOLD
1A2FL1
D
(BLK)
6–F5
FOLD
1A2TS1
(VIO)
8
(VIO)
9
E
J1–2
A2A2
LVLE
J1–3
6–F5
(VIO)
J1–1
4–D1
J2
TO CPU
J3
GND STUD
TO BATT CHARGER
(VIO)
J4
(VIO)
TO ROTOR CONTROL
3–H3
MR756
10
(VIO)
8–E4
A3R1
A3F5
10A
3–D9
2.5
200W
(BLK)
–BATT
+BATT
4–B2
BATTERY
J5
1A5A2J10–2
6
(BLK)
TO MOTOR DRIVE
F1
7–A9
J1–1
7–D4
BATTERY HARNESS
BOARD AMX2A3A1
AMX1A2TS6
J11–3
1
BATTERY
J6
TO FIL/KVP
+BATT SWITCHED
F2
5–E2
J2–1
–BATT
J11–1
4–D1
2
TO 1KHZ
J8–7
F
J8–2
+24V
BATTERY
6–F1
PWR FAIL DETECT
(ORN)
J8–1
3–F5
1A2TS4
1
(BRN)
PGND
(BRN) B
K1
3A4
(BLU)
SW2
1A2TS3–13
J3–1
J11–8
J4–1
J11–9
J5–1
J11–5
3
F3
3A1TS1–12
3A1TS1–13
1A2TS3–12
(YEL)
(YEL)
A
A114B
BATTERY COMPARTMENT
J7
F4
2
1A2TS4
1 DEE DETAIL DP FOR TEST HARNESS CONNECTIONS.
5
BATTERY
J6–1
J11–4
J7–1
J11–6
J8–1
J11–7
J9–1
J11–10
J10–1
J11–11
6
F5
7
BATTERY
F6
8
BATTERY
SW3
4
BATTERY
9
F7
10
BATTERY
COLLIMATOR
REVISIONS
F8
1
PRINTS TO
DPB_2AUG94
404
PCN_180288
H
BATTERY
F9
–BATT
DETAIL DP
MADE BY
C_DREWICZ_27JUN94
APPROVALS
ISSUED
3
4
5
6
7
8
FOLD
2
FOLD
2115090SCH
FOLD
N_ZETTEL
9
2-4
MEDICAL SYSTEMS
MILWAUKEE, WISCONSIN
10
DIV OR
DEPT.
LOCATION
2115090SCH
CONT ON SHEET
3
SH NO.
2
FOLD
CONT ON SHEET 4
2
3
4
5
6
PER PENDING8 PCN 180327
7
SH NO. 3
2115090SCH
DRAWING NO.
A
3.15 AMPS
TS3–2
A3F1
220V/240V
50HZ
REV 2
TOLERANCES ON DIMENSIONS
DECIMALS
DECIMALS
ANGLES
(2 PLACES)
(3 PLACES)
+
+
+
–
–
–
2115090SCH
CONT ON SHEET 4
TITLE
2115090SCH
CONT ON SHEET 4
SH NO. 3
SH NO. 3
SCHEMATIC DIAGRAM
OVERALL SCHEMATIC FOR AMX IV
FIRST MADE FOR
AMX IV PRODUCTIVITY
P/L ISSUED
AMX1A3
AMX1A3T3
(BRN)
TS3–2
(BRN/WHT)
A3FL1
AMX1A3T3
LINE
IN
TS3–3
2115090, 2115090–7
L2
2115090–4,–5,–9,–10
115V/120V
60HZ
(BLK)
B
46–208600
CHARGER/ROTOR CONTROL MODULE
2115090–2,–6,–8,–11
SURFACES
GENERAL ELECTRIC
9
UNLESS OTHERWISE SPECIFIED USE THE
FOLLOWING : –
APPLIED PRACTICES
1A2TS5
1
BRN
(HOT)
FOLD
FOLD
(BLU)
100V
50/60HZ
TS2–3
TS2–4
10 MH
(BRN)
(RED)
(BLU)
8
1A2TS5
2
BLU
(NEUTRAL)
(VIO)
6 AMP
(NEUTRAL)
(BLK/WHT)
A3F2
(YEL)
5
64 AMP
BOX
_
CIRCUIT
1
A3F1
WHT
C
BATTERY
8 AMP
BATTERY
CHARGER
6 AMP
BLK
MAIN
(BLK)
A3FL1
(HOT)
LINE
IN
J5
3
FRAME
GROUND
CB1
+
TS3–1
1A2TS5
3
GRN/YEL
CB1
(BRN/WHT)
TS3–2
A3F2
1
9
J5
TS3–1
(BLK/WHT)
3.15 AMPS
J11
1
J5
F4
1
K CHARGE
SCR
BRIDGE
RECTIFIER
10 AMP
TS3–1
GRN
GROUND STUD
B
FRAME
GROUND
PHASE
CONTROL
K LINE 2
AMX1A3FN1
(BLK)
J6
1
FAN
2
2–C2
K CHARGE
CLOSED
J7
1
(BLK)
8
10 AMP
I CHAR. FDB –
LOOP
2
CONTROL
(BLK)
3
F5
CURRENT
LAMP
J1
2.5 OHM
200 W
R1
J11
4
(BLK)
FOLD
CONDUCTED
NOISE
SNUBBER
K LINE 1
J1
I CHARGE CMD
I CHAR. FRB +
SHOWN FOR REFERENCE ONLY
1 J3
+V
3
9
PGND
D
FOLD
2
4
I CHARGE RTN
+24V
4
4
K CHARGE
10
–15V
10
CHARGER RELAY *
5
8–B2
LINE SENSE
TO LVLE
S GND
K LINE 1
6
TO CPU
2–E5
6
6
+15V
8
L GND
+24 VOLTS
9
K ON 1
11
KEY SWITCH ON
+5V
11
E
J4
2–B4
5
8
(YEL)
TRIP BREAKER *
J4
5–F2
(RED)
–
TRIP COIL
+
J10
POWER OK
4
(YEL)
B
POWER UP
8–F5
LOGIC
POWER OK
2
(RED)
POWER STABLE
7–C10
J3
F
PWR FAIL DETECT
7
(ORN)
2–F6
AMX1A3A1
BATTERY CHARGER BOARD
+BATT SWITCHED
(VIO)
2–E2
REVISIONS
1
PRINTS TO
CLD_11JUL94
404
PCN_180283
H
2
DPB_2AUG94
PCN_180288
MADE BY
C_DREWICZ_27JUN94
ISSUED
2-5
3
4
5
6
7
8
FOLD
2
FOLD
2115090SCH
FOLD
N_ZETTEL
9
APPROVALS
_
_
MEDICAL SYSTEMS
MILWAUKEE, WISCONSIN
10
DIV OR
DEPT.
LOCATION
2115090SCH
CONT ON SHEET 4
SH NO. 3
3
4
5
6
7
FOLD
CONT ON SHEET 5
2
FOLD
FOLD
8
SH NO. 4
2115090SCH
DRAWING NO.
APPLIED PRACTICES
SURFACES
46–208600
GENERAL ELECTRIC
9
UNLESS OTHERWISE SPECIFIED USE THE
FOLLOWING : –
REV 0
TOLERANCES ON DIMENSIONS
DECIMALS
DECIMALS
ANGLES
(2 PLACES)
(3 PLACES)
+
+
+
–
–
–
TITLE
2115090SCH
CONT ON SHEET 5
J1
J3–6
J3–7
TO CPU
8–D1
J3–16
J3–17
6
XRAY PRES SW
7
XRAY PRES SW RTN.
FIELD LITE SW.
17
FIELD LITE SW. RTN.
SH NO. 4
OVERALL_SCHEMATICS_FOR_AMX_IV
SH NO. 4
AMX IV PRODUCTIVITY
FIRST MADE FOR
P/L ISSUED
X–RAY TUBE
AMX3A3
J4
XRAY PRES SW
16
2115090SCH
CONT ON SHEET 5
SCHEMATIC DIAGRAM
CHARGER/ROTOR CONTROL MODULE
AMX1A3
A
(YEL)
13
XRAY PRES SW RTN.
FIELD LITE SW.
AMX3A1TS1
TS1
6
4
1
5
2
WHT/ORN
(BLU)
16
FIELD LITE SW. RTN.
AMX1A2TS3
(GRY)
14
7
(VIO)
15
SW1
GRY
PRESS. SW
J5
6
8
1
AMX3A4
WHT/BRN
P GND
2
SW1
7
9
+24V
WHT/RED
4
COLLIMATOR
AMX1A3T1
–15V
B
5
TO LVLE
S GND
2–E5
6
+15V
J1
8
J3
L GND
9
5
TO CPU
60 HZ INV OK
8–D2
6
+5V
(YEL)
27 VAC
J3
7
(YEL)
60 HZ INV INTLK.
C
J1
J4
6
J2
15
60HZ PHASE 1
27VAC SQUARE WAVE RTN
8–D1
27VAC SQUARE WAVE
7
INVERTER DRIVER PHASE 1
TS2
2–E2
(VIO)
(BLU)
5–F2
1
8
1
(BRN)
J3
COMM CAP CHARGE
2
(YEL)
5–F2
(BLK)
(BLU)
+BATT SWITCHED
MR–756
80 VAC
2
FOLD
500
12MH
D
5
2
(WHT)
(BLK)
3
4
R3
C2
3100
200V
20%
(RED)
FOLD
SAFTY CONTACTOR RETURN
9
SAFETY CONTACTOR ENB
P
1
A3TS1
(YEL)
(BLU)
(BLK)
(GRN)
(ORN)
(RED)
(BRN/WHT)
(BLK/WHT)
(BRN)
1
(WHT)
2
(BLU)
SAFTY CONTACTOR
8
5
.1
250V
1
(BRN)
27K
5W
3
C80
J9
–BATT
+24V
(BLU/W)
6 AMP
250V
6
2–E9
(WHT)
J4
K 37
3
6
K–121
1
(BLK)
J2
F 93
5
COMM CAP CHARGE RTN
500
J8
(BLK)
1
9
(BLU)
(BLK)
6–F5
SAFETY CONTACTOR ENA
L1
J6
ROTOR CONTROL
4
(BLK)
E
K39
ROTOR SELECT
K39
5
1
2
(VIO)
6
2
J3
3
(BLK)
(ORN)
8
(BRN)
J4
6–C5
1
A3T2
6
J2
6–C5
AMX1A2TS3
15
AMX3A1TS1
15
14
14
FIELD
LIGHT
A3F7
8A
ROTOR COMM.
(GRN)
4
100 VAC
60HZ PHASE2
13
CURRENT SENSE XFMR
3
(GRN/WHT)
5
J1
2
(WHT)
3
J7
INVERTER DRIVER PHASE 2
8–D1
X–RAY TUBE
ROTOR PHASE 2
CURRENT SENSE XFMR
K39
1
5
C1
15 MF
165V
(BLK)
J4
(GRN)
ROTOR PHASE 1
AMX1A2TS3
AMX3A1TS1
TS1
4
2
5
3
1
3
5
3
4
WHT
BLK
GRN
F
J1
9
7
10
CR38
A114B
SAFETY CONTACTOR ENB *
TO CPU
7
8–D2
CR36
A114B
AMX3A3
ROTOR CONTROL
ROTOR SELECT *
J1
K–39
3
NOT ON PWB
8
K–37
ROTOR INTER–LOCK
ROTOR INTERLOCK
8–D2
+24V
8
12
REVISIONS
PREP SW
PRINTS TO
404
11
60 HZ INV. RELAY*
H
7
AMX1A3A2
K–121
CR–124
A114B
ROTOR CONTROL BOARD
8
MADE BY
C_DREWICZ_27JUN94
APPROVALS
ISSUED
4
5
6
7
8
FOLD
3
FOLD
2115090SCH
2
FOLD
N_ZETTEL
9
10
2-6
MEDICAL SYSTEMS
MILWAUKEE, WISCONSIN
DIV OR
DEPT.
LOCATION
2115090SCH
CONT ON SHEET 5
SH NO. 4
FOLD
CONT ON SHEET 6
2
3
4
5
6
7
FOLD
FOLD
8
SH NO. 5
2115090SCH
DRAWING NO.
APPLIED PRACTICES
SURFACES
46–208600
GENERAL ELECTRIC
9
UNLESS OTHERWISE SPECIFIED USE THE
FOLLOWING : –
REV 0
TOLERANCES ON DIMENSIONS
ANGLES
DECIMALS
DECIMALS
(2 PLACES)
(3 PLACES)
+
+
+
–
–
–
TITLE
2115090SCH
CONT ON SHEET 6
SH NO. 5
2115090SCH
CONT ON SHEET 6
SCHEMATIC DIAGRAM
SH NO. 5
OVERALL_SCHEMATICS_FOR_AMX_IV
FIRST MADE FOR
AMX_IV_PRODUCTIVITY
P/L ISSUED
A
FIL/KVP BOARD
AMX1A4A2
X–RAY CONTROL MODULE
AMX1A4
J3
J2
HIGH VOLTAGE TRANSFORMER
AMX1A6
3
3
LEAKAGE COMP +
LOOP FOR CURRENT CHECK
4
4
LEAKAGE COMP –
5
J7
LEAKAGE COMP FDBK +
6
1
KVP FEEDBACK +
(VIO/W)
21
2
KVP FEEDBACK –
(VIO)
LEAKAGE COMP FDBK –
B
MAS
6–B1
6–B1
7
FIL DMD +
8
FIL DMD –
J8
11
1
FILT CAP+ (RED)
KVP DMD +
12
TO CPU
8–F1
2
KVP DMD –
FILT CAP–
(WHT)
PWM E
(BLK)
PWM L
(BLK)
J3
3
R8
1K
2W
C6
16000uF
60V
9
3
FILAMENT FEEDBACK +
10
4
FILAMENT FEEDBACK –
C
22
X–RAY ON
PWM E
5
J4
1
L3
1.2 MH
1
2
2
CAPACITOR
BOARD
AMX1A4 A3
17
2 KHZ PHASE 1
19
J5
2 KHZ PHASE 2
1
15
XS1
CATHODE
L
C
FILAMENT
1
PWM RETURN
(BRN)
S
16 KHZ CLK
FILAMENT 25
SHORTED
26
PRENEAT
TO RAY TUBE
XC
2
(GRN)
PWM1
3
(ORN)
PWM RETURN 2
13
+KVP DMN FDBK
FOLD
14
XS2
–KVP DMN FDBK
D
FOLD
FILAMENT
ANODE
L
C
S
TO RAY TUBE
J1
POWER GROUND
2
+ 24 VDC
TO LVLE
2–E5
E
4
– 15 VDC
SIGNAL GROUND
J3
5
1
(RED)
MA+
AMX1A4T2
J2
1 (BLU)
PRIMARY VOLTS + P1
MA+
6–A7
6
+ 15 VDC
LOGIC GROUND
+ 5 VDC
1
2 (WHT)
8
BRASS STUD
9
2
MA–
(RED/WHT)
3 (BLK)
PRIMARY VOLTS – P2
MA–
6–A11
J4
27VAC SQUARE WAVE
4–C10
27VAC SQUARE WAVE RTN
(YEL)
1
(BLU)
2
BLK
CHASSIS
GROUND
46–270954
F
TRIP BREAKER*
(YEL)
3–E3
J6
2
REVISIONS
PRINTS TO
404
H
MADE BY
C_DREWICZ_27JUN94
2-7
3
4
5
6
7
8
FOLD
2
FOLD
2115090SCH
FOLD
ISSUED
N_ZETTEL
9
APPROVALS
–
MEDICAL SYSTEMS
MILWAUKEE, WISCONSIN
10
DIV OR
DEPT.
LOCATION
2115090SCH
CONT ON SHEET 6
SH NO. 5
4
5
6
7
FOLD
3
FOLD
CONT. ON SHEET 7
2
FOLD
8
SH NO. 6
2115090SCH
DRAWING NO.
APPLIED PRACTICES
–
SURFACES
46–208600
REV 0
TOLERANCES ON DIMENSIONS
DECIMALS
DECIMALS
ANGLES
(2 PLACES)
(3 PLACES)
+
+
+
–
–
–
TITLE
2115090SCH
SH NO. 6
CONT. ON SHEET 7
2115090SCH
CONT. ON SHEET 7
SCHEMATIC DIAGRAM
X–RAY CONTROL MODULE
5–F11
AMX1A4
PRIMARY
VOLTS–
R7
K3
3
K2
6
3
3
1KHZ BOARD
K1
6
3
3
K3
K6
3
3
K2
5
6
.25
90W
3
K1
5
K5
7 3
3
K6
5
K4
7
3
1
J6
5–B5
1
J3
(VIO/WHT)
KVP FEEDBACK+
1
(VIO)
KVP FEEDBACK–
2
3
J4
1
J1
1KHZ PHASE 1
24
1KHZ PHASE 2
26
4
8
5
K6
4
8
K4
8
5
4
4
K4
T1
STAT
25
STOP
23
4
K5
6
K6
6
6
TAP 2
16
14
TAP 5
10
TAP 6
8
3
5
16
19
20
21
22
8
9
7
10
D
TAP 1 FEEDBACK
19
TAP 2 FEEDBACK
17
SAFETY
CONTACTOR
15
TAP 4 FEEDBACK
13
TAP 5 FEEDBACK
9
TAP 6 FEEDBACK
7
(BLK)
+BATT (#8AWG)(BLK)
2–A5
1 KHZ READY
12
22
2
20uF
500V
L2
10uH
AK
AK
(WHT)
(WHT)
SAFETY CONTACTOR
(RED)
4–D10
(BLK)
A114B
A114B
PULL IN
13.1
OHM
(WHT) G
G (WHT)
G1
A
SAFETY CONTACTOR
RTN (BLK)
4–D10
Q2
Q1
HOLD
283
OHM
(WHT)
STOP
K
K
G2
(BLK)
(BLK)
K
K
5S
K7
1
1
K1
4F
L1
300uH
T1
1
K2
5F
K3
4S
FOLD
9
8
2
(BRN)
2
2
2
A
(WHT)
J2
(RED)
(ORN)
1N5352
250
55W
1N5062
CR19
R16
C11
50
12W
1.0
10%
200V
R14
27K
2W
C15
1200
10%
250V
1
K5
C
F
5
(RED)
2
CR18
Q3
J2
9
7
1
R21
6
(RED)
K4
(WHT)
G1
(BLK)
K1
G2
(WHT)
STOP
START
K
K
K2
(BLK)
K6
E
B
J5
6
J2
POWER GROUND
+24 VDC
–15 VDC
TO LVLE
2–E5
SIGNAL GROUND
5
1
4
2
1
(YEL)
2
1
LOGIC GROUND
2
2–A5
(VIO)
(BLK)
+BATT SWITCHED
2–E2
4
4–D10
4–D10
5
COM CAP CHARGE
(VIO)
(BLK)
COM CAP CHARGE RTN (WHT)
–BATT
(BLK)
J1
1
CR20
400V
6A
+
3
80VAC
CR7
1N1186
6
8
J2
11
(WHT)
STOP CAP
C12
770
10%
250V
R5
27K
2W
CAPACITOR
BOARD
500
12W
3
J4
R9
27K
2W
CR13
1N1186
5
9
C10
770
10%
250V
–
4
R17
+5 VDC
D
E
–BATT
(#8AWG)
(BLK)
(BLU)
2–D9
+15 VDC
A
(NC)
(BLK)
7
INVERTER OK
15
C5
1
9
J5
TAP 3 FEEDBACK
13
14
T1
TO CPU
8–E1
12
(WHT)
START
18
TAP 4
7
17
G1
5
20
TAP 3
6
(BLK)
3
13
TAP 1
2
(BLK)
G2
11
C
F
K5
8
3
K5
5
K4
7
AMX1A4A1
B
FOLD
SH NO.6
OVERALL_SCHEMATICS_FOR_AMX_IV
AMX_IV_PRODUCTIVITY
FIRST MADE FOR
P/L ISSUED
PRIMARY
VOLTS+
5–E11
A
GENERAL ELECTRIC
9
UNLESS OTHERWISE SPECIFIED USE THE
FOLLOWING : –
1
A
AMX1A4
A3
REVISIONS
PRINTS TO
404
H
MADE BY
C_DREWICZ_27JUN94
ISSUED
4
5
6
7
8
FOLD
3
FOLD
2115090SCH
2
FOLD
N_ZETTEL
9
APPROVALS
–
–
10
2-8
MEDICAL SYSTEMS
MILWAUKEE, WISCONSIN
DIV OR
DEPT.
LOCATION
2115090SCH
CONT. ON SHEET7
SH. NO.
6
FOLD
CONT ON SHEET 8
2
3
4
5
6
7
FOLD
FOLD
8
GENERAL ELECTRIC
9
SH NO. 7
2115090SCH
DRAWING NO.
UNLESS OTHERWISE SPECIFIED USE THE
FOLLOWING : –
APPLIED PRACTICES
AMX1A5
SURFACES
46–208600
REV 0
TOLERANCES ON DIMENSIONS
DECIMALS
DECIMALS
ANGLES
(2 PLACES)
(3 PLACES)
+
+
+
–
–
–
TITLE
2115090SCH
CONT ON SHEET 8
2115090SCH
CONT ON SHEET 8
SCHEMATIC DIAGRAM
SH NO. 7
OVERALL SCHEMATICS FOR AMX IV
SH NO. 7
FIRST MADE FOR
AMX4_IV_PRODUCTIVITY
P/L ISSUED
MOTOR DRIVE MODULE
A
J1
J2
B
8–C1
+5
9
7
LEFT DRIVE COMMAND +
LEFT DRIVE COMMAND –
8
RIGHT DRIVE COMMAND –
5
RIGHT DRIVE COMMAND +
6
LEFT DRIVE FEEDBACK +
3
LEFT DRIVE FEEDBACK –
4
RIGHT DRIVE FEEDBACK +
1
RIGHT DRIVE FEEDBACK –
2
LOGIC GROUND
8
DRIVE CONTROL
+ 24
2
AMX1A5A1
1
2–E5
+ 15
6
– 15
4
LEFT STALL
14
12
FULL SPD ENA
13
BUMPER
J11
AMX2A2
(WHT)
LEFT BUMPER
1
1
C
AMX2A2S1
(BLK)
LEFT BUMPER RETURN
2
5
10
MOTOR ENABBLE
BUMPER
SIGNAL GROUND
5
RIGHT STALL
TO LVLE
POWER GROUND
(WHT)
RIGHT BUMPER
1
(BLK)
RIGHT BUMPER RETURN
2
2
NO
C
16
DRV RESET
15
J9
17
DRIVE ENA SW
AMX2A2S2
6
NO
3
C
(RED)
POWER OK*
3–F3
RIBBON CABLE
J10
(BLU)
2–A5
BRAKE RELEASE
INTERCONNECT
J9
1
DRIVE POWER AMP
2–F2
(VIO)
+BATT SWITCHED
BRAKE REL
2
1
D
LEFT
BRAKE
BRAKE REL
1
RIGHT
BRAKE
BRAKE REL RTN
2
BRAKE REL RTN
DRIVE ENB.
A5K1
2
(WHT)
1
(ORN) 6
J4
(BLU)
1
RIGHT POWER*
LEFT POWER*
(ORN)
(BLK)
3
F
(VIO)
5
VM–
A5F2
A5K2B
(RED)
(GRN) 6
4 (YEL)
VM– (VIO)
3
A5K2A
(BLK)
AMX2A1MTR1
5
J1
(BLK)
3
A5K2A
(RED)
–
7
J1
10 OHM
1
(BLK)
3
7
(BLU)
–
1
1
A5K1A
LEFT
MOTOR
2–C3
8 AMP
3
3
+
+BATT
2
2
A5K1A
3
2–C3
4 (YEL)
8 AMP
J2
(RED)
+BATT
2
A114B
2
A5F1
A5K1B
(RED)
A5K2
A114B
FOLD
AMX2A1BRK2
(BLK)
2
J1
1
E
2–B9
(RED)
J6
J5
(BLK)
–BATT
(BLK)
2
FOLD
AMX2A1BRK1
2–B9
J7
AMX1A5A2
(RED)
–BATT
(BLK)
1
J2
10 OHM
25 WATT
25 WATT
A5R1
A5R2
VM+
(BLK)
1
3
J2
VM+ (BLK)
RIGHT
MOTOR
AMX2A1MTR2
+
3
(RED)
(RED)
REVISIONS
PRINTS TO
404
H
MADE BY
C_DREWICZ_27JUN94
APPROVALS
2-9
3
4
5
6
7
8
FOLD
2
FOLD
2115090SCH
FOLD
ISSUED
9
MEDICAL SYSTEMS
MILWAUKEE, WISCONSIN
N_ZETTEL
10
DIV OR
DEPT.
LOCATION
2115090SCH
CONT ON SHEET 8
SH NO. 7
3
4
5
6
7
FOLD
CONT ON SHEET –
2
FOLD
FOLD
8
SH NO. 8
2115090SCH
DRAWING NO.
APPLIED PRACTICES
SURFACES
46–208600
AMX1A2
CONTROLLER MODULE
GENERAL ELECTRIC
9
UNLESS OTHERWISE SPECIFIED USE THE
FOLLOWING : –
REV 0
TOLERANCES ON DIMENSIONS
DECIMALS
DECIMALS
ANGLES
(2 PLACES)
(3 PLACES)
+
+
+
–
–
–
TITLE
2115090SCH
CONT ON SHEET –
SH NO. 8
2115090SCH
CONT ON SHEET –
SCHEMATIC DIAGRAM
SH NO. 8
OVERALL SCHEMATICS FOR AMX IV
FIRST MADE FOR
AMX4 IV PRODUCTIVITY
P/L ISSUED
A
J1
3–D2
DISP DATA OUT
3
SW DATA INPUT
3
5
MAS UP
4
6
DISP DATA RESET*
1
PREP SW
5
7
MAS DOWN
2
EXP SW
6
9
X–RAY ON LAMP*
3
SERVICE SW
7
11
KVP UP
4
LINE SENSE
TRIP BREAKER
8
12
DISPLAY OK
5
BUMPER*
CHARGE RELAY*
10
13
KVP DOWN
6
TUBE PARKED
KEY SWITCH ON
11
14
+24 VDC
7
DRIVE ENABLE SW
CHARGE SCALE SELECT
12
15
SONART*
8
KEY SW ON
14
16
PWR GND
9
MAS UP
17
+40 V V.F. DISP SUP
10
MAS DWN
18
+5 V
11
KVP UP
1
V–CHANGE RTN
2
I–CHARGE CMND
BATTERY V & CHARGE CUR
LINE SENSE
BATTERY V & CHARGE CUR SEL
3–D2
B
LOAD
AMX1A2A1
J2
TO MOTOR CONTROLLER
AMX1A5A1
C
4–A1
4–B10
4–C2
4–F2
4–F10
LOGIC GND
12
KVP DWN
RIGHT DRV FDBK –
2
21
XMIT OK*
13
DISP. DATA OUT
LEFT DRV FDBK +
3
23
LGND
14
DISP. DATA OUT RTN
LEFT DRV FDBK –
4
24
+24V V.F.SUP
15
FIELD LIGHT SW
RIGHT DRIVE CMND –
5
17
+24 VDC
18
BUFFERED DISP. DATA
19
RGT HALL INPUT
21
LFT HALL INPUT
4–H2
J7
RIGHT DRV CMND +
6
LEFT DRV CMND +
7
LEFT DRV CMND –
8
1
AEC ON
10
2
AEC RTN
RIGHT STALL
12
3
KVP 0*
FULL SPD ENA
13
4
KVP 1*
LEFT STALL
14
5
KVP 2*
DRV RESET
15
6
KVP 3*
MOTOR ENA
16
7
KVP 4*
17
8
GEN READY*
9
AEC EX EN
J3
10
EXP START*
KVP5
KVP6
3
11
60 HZ INV OK
5
12
X–RAY PRESS SW
6
X–RAY PRESS SW RTN
ROTOR SELECT*
SAFETY CONTACTOR ENB *
60HZ INV. RELAY*
7
9
10
12
60 HZ PHASE 2
13
60 HZ PHASE 1
15
FIELD LIGHT SW
16
FIELD LIGHT SW RTN
FOLD
17
J12
J4
1
PWR GND
TAP 6 FDBK
7
2
+24 VDC
TAP 6*
8
4
–15 VDC
TAP 5 FDBK
9
5
SIGNAL GND
TAP 5*
10
6
+15 VDC
1K HZ INVERTER READY
12
8
TAP 4 FDBK
13
LOGIC GND
+5 VDC
TAP 4*
14
TO 1KHZ INVERTER
TAP 3 FDBK
15
TAP 3*
16
AMX1A4A1
TAP 2 FDBK
17
6–C1
TAP 2*
18
TAP 1 FDBK
19
TAP 1*
20
INVERTER OK
22
EXP STOP CMND
23
1K HZ PHASE 1
24
START
1K HZ PHASE 2
25
9
J8
1
5
6
3
7
8
J5
F
TO FIL/KVP CONTROL
AMX1A4A2
5–C1
3
LEAKAGE COMP –
4
13
5
14
– LEAKAGE COMP FDBK
6
FIL +
7
FIL –
8
9
FIL FDBK –
10
KVP +
11
19
20
21
KVP –
12
13
23
14
24
25
16 KHZ CLK
15
17
2 KHZ PHASE 2
19
X–RAY ON
PREHEAT
FILSHORTTEST
(WHT)
3
(RED)
(BLK) HALL RGT REF RET
5
(BLK)
OUTPUT
REF
RTN
1A2S3
J1
4
(WHT)
(RED) HALL LFT REF
3
(RED)
(BLK) HALL LFT REF RET
5
(BLK)
(WHT) LFT MAN TDS OUT
(YEL) POWER OK
OUTPUT
REF
RTN
LEFT HALL
3–F3
(BLU) TUBE PARKED SW
1A2TS2
1
1A2TS2
1
1A2S1
TUBE
2
(BLK) TUBE PARKED SW RTN
2
PARKED
SWITCH
(GRY) SERVICE SW
1A2S1
BLU
YEL
2–D7
BLK
TUBE PARKED SENSOR
TUBE
PARKED
REPLACED TUBE PARKED
SENSOR
SWITCH END OF 1992
SERVICE
(GRY) SERVICE SW RTN
SWITCH
1A2S–6&7
1A2J3
KVP DWN FDBK –
2 KHZ PHASE 1
4
1A2S8
KVP DWN FDBK +
MAS
H
10
+ LEAKAGE COMP FDBK
FIL FDBK +
1A2S2
J2
(RED) HALL RGT REF
(ORN) RGT MAN TDS OUT
2–E5
RIGHT HALL
26
LEAKAGE COMP +
TO LVLE AMX1A2A2
(GRN) FIELD LIGHT SW
4
FIELD LIGHT SW
(WHT) PREP SW
2
PREP SW
(BLK) HAND SW COM
3
HAND SW COM
(RED) EXP SW
1
EXP SW
HAND SWITCH
1A2S4
1A2S5
21
22
28
(BLU) DRIVE ENA SW
1A2J1–1
(BLU)
N.C.
26
25
27
LEFT
DRIVE
ENABLE
SWITCH
(YEL)
1A2J1–2
COM
(YEL)
1A2J2–2
(YEL)
COM
RIGHT
DRIVE
ENABLE
SWITCH
REVISIONS
(BLU)
404
N.C.
MADE BY
C_DREWICZ_27JUN94
APPROVALS
ISSUED
3
4
5
6
7
8
FOLD
2115090SCH
FOLD
N_ZETTEL
2
PRINTS TO
1A2J2–1
(BLU) DRIVE ENA SW RTN
FOLD
E
TO AEC OPTION
11
PREP SW
D
1–F9
20
ROTOR INTERLOCK
FOLD
TO DISPLAY CONTROLLER AMX1A1A1
J11
1
DRIVE ENA SW
TO ROTOR CONTROL
AMX1A3A2
AMX1A2A1
RIGHT DRV FDBK +
BUMPER*
7–B1
CONTROL PROCESSOR
TEST MODE CONNECTIONS
1
V–CHANGE CMND
I–CHARGE CMND RTN
TO BATTERY CHARGER
AMX1A3A1
CONTROL PROCESSOR
OPERATIONAL CONNECTIONS J6
9
2-10
MEDICAL SYSTEMS
MILWAUKEE, WISCONSIN
10
DIV OR
DEPT.
LOCATION
2115090SCH
CONT ON SHEET –
SH NO. 8
3i
3-4
4i
4-3
5i
FOLD
CONT ON SHEET
2
SH NO.
1
46–264974–S
2
3
4
5
6
7
FOLD
FOLD
8
DRAWING NO.
UNLESS OTHERWISE SPECIFIED USE THE
AMX1 A2
APPLIED PRACTICES
A1
SURFACES
REV
TOLERANCES ON DIMENSIONS
DECIMALS
46–208600
9
TITLE
46–264974–S
ANGLES
DECIMALS
(2 PLACES)
(SHT 1 BLOCK DIAGRAM)
GENERAL ELECTRIC
9
FOLLOWING : –
CONT ON SHEET
+
–
+
–
2
SH NO.
2
SH NO.
1
CONTROLLER
(3 PLACES)
+
–
46–264974–S
CONT ON SHEET
SCHEMATIC DIAGRAM
1
AMX–4
FIRST MADE FOR
P/L ISSUED
SHEET 3
SHEET 2
PREP SWITCH
A
46–264974G1–G
46–264974G2–A
WRP0*
WRP1*
EXPOSE SWITCH
WRP2*
TUBE PRESS SW
60HZ INV OK
CRITICAL
STATUS
ROTOR INTLK SW
FILAMENT SHORTED
THE REVISION NUMBER OF THIS SHEET IS
NUMBER OF THIS ENTIRE DOCUMENT.
MUST INCREASE WHENEVER ANY SHEET
P1 INPUT & BUS
PCN #
1KHZ INV OK
DATE
X–RAY ON
SHT
SONALERT AND
X–RAY ON LAMP
TIMER
X–RAY ON*
SONALERT
X–RAY ON
LAMP*
LINE SENSE
BUMPER*
TUBE PARKED
WATCHDOG CLR*
LEFT STALL
CHARGER
& DRIVE
STATUS
RIGHT STALL
DEADMAN SW
WRP3*
THE CONTROL
THIS REVISION NUMBER
IS CHANGED.
SHEET 3
WRP4*
–
157155
157692
179132
179471
179780
13JUN89
29AUG89
01AUG90
19AUG92
19JAN93
22OCT93
WRP6*
WRITE
RDP1*
READ
ADDRESS
EPROM 1
RDP2*
RDP3*
ADDRESS
WRP7*
DECODE
WRP8*
KVPD1*
0
1
2
3
3
3
A
0
0
1
1
1
RDP4*
WRP9*
4
A
0
0
0
0
0
RDP5*
WRP10*
WRP11*
WRP12*
5
A
0
0
0
1
1
6
A
0
0
0
0
0
RDP7*
7
A
0
0
0
0
0
RAM 1
KVPD3*
AEC DATA
CONTROL
LATCH
EPROM2 EN
RAM1 EN
DRIVERS FOR
KVPD4*
AEC CONTROL
KVPD5*
KVPD6*
ADR11
WRP13*
WRP14*
ADR12
WRP15*
ADR13
EPROM
WRP3*
AND
RAM 2
RAM
SELECT
GEN RDY
WATCHDOG CLR*
I–CHRG CMND
RAM2 EN
OPTION SW2
B
KVPD2*
AEC
EPROM 2
A
RDP6*
KVPD0*
EPROM1 EN
2
DECODE
P0AD0–P0AD7
WRP5*
RDP0*
CHARGE
SHEET 4
GHARGER &
OPTION SW3
DRIVERS FOR
DATA
BATT CHARGER
DRIVE
ADR0–ADR15
CONTROL
RDP0*
DATA
80C31
P1 INPUT & BUS
FIELD LT SW
OPERATOR
MAS UP
PWR DWN RST HOLDOFF
KVP UP
KVP DOWN
LOW
ADDRESS
LATCH
MOTOR EN
RST
RESET
CIRCUIT
RST CLR*
WATCHDOG CLR*
LFT DRV CMND–
DATA BUS
DO–D7 DATA BUS
60HZ
BUFFER
CLK
ROTOR SELECT*
INV
ADR8–ADR15
GENERATOR
ROTOR CONTROL
DATA
6MHZ
TAP 5 FDBK
STATUS
WRP12*
750MHZ
FREQ
TAP 6 FDBK
DIVIDER
LATCH
WATCHDOG
CLR
TIMER
INTO
AEC EXP EN
11.718KHZ
WATCHDOG CLR*
TAP2*
WRP0*
TXD
187.5KHZ
93.75KHZ
TAP1*
RXD
375KHZ
AEC ON
SAFETY CONT EN*
DRIVERS
CONTROL 2
GEN & AEC
RST DRV CMND–
LFT DRV CMND+
TAP 2 FDBK
TAP 4 FDBK
RST DRV CMND+
ALE
12MHZ
TAP 3 FDBK
DRIVERS FOR
MOTOR DRIVES
SHT–5
12MHZ CLK
XTAL OSC
RDP4*
DRV RST
WRP2*
A0–A7
PWR DWN RST*
TAP 1 FDBK
C
P0AD0–POAD7
RST SW
D0–D7 DATA BUS
I/O STATUS
MAS DOWN
UC
CHRG SCALE SEL
FULL SPEED EN
SERIAL PORT EN
KEY SW ON
CHARGER RELAY
DRIVE
LATCH
COLL FIELD LT SW
BATV&CHRG SEL
WTCHDOG CLR*
T1
TAP3*
1KHZ MODULE
DRIVERS
TAP4*
TAP5*
1KHZ
DATA
TAP6*
RDP6*
DUAL
SERVICE SW
SHEET 4
XMIT OK
DISP OK
(12 BITS)
FILAMENT
CONTROL
DRIVERS
WRP11*
0–10V ANALOG
OUT
SW DATA IN
BAUD RATE SW
FOLD
DAC#1
–10V REF.
OPTION SW1
ON BOARD
UART
D0–D7 DATA BUS
DISPLAY
STATUS
D
WTCHDOG CLR*
DISP DATA OUT
DUAL
ON BOARD
CONTROL
DAC#2
+10V REF
FEEDBACK
ADDRESS BUS
(8 BITS)
MUX
RDP1*
EXPOSURE CMND STATUS
DISP RST
SHEET 6
LEFT SPEED CMND
WRP9*
KVP DEMAND FDBK
DAC FDBK
LEAKAGE CURRENT
COMP FDBK
LEAKAGE CURRENT
COMPENSATION
(8 BITS)
RST CLR*
SHT–2
RIGHT SPEED CMND
DAC#3
–10V REF
WRP7*
LEFT HALL DEVICE
FIL CURRENT DEMAND
I–CHRG
CMND
DUAL
SHEET 5
RIGHT HALL DEVICE
E
WRP8*
UART AND MUX CONTROL
BACK–UP TIMER OK
A/D STATUS
CHARGE CMND
R&L
SPD
CMND
MUX
CONTROLLER
FIL I DMND
KVP DMND DAC
D0–D7 DATA BUS
16 CHANNEL
ANALOG
MULTIPLEXER
SAMPLE
ADC
(8/12 BITS)
HOLD
VOLTAGE
+24V SUPPLY
REFERENCE
+40V VF SUPPLY
SOURCE
+10V REF
–10V REF
A/D CONTROL
LATCH
EXPOSURE CMND
STATUS LATCH
ENABLE
WATCHDOG CLR*
16KHZ
16KHZ
F
ADR0
2KHZ 01
ADR1
2KHZ 02
16KHZ
X–RAY ON
PROGRAMABLE
COUNT DATA
TIMER
8–BIT
12 BIT BINARY
COUNTER
MAGNITUDE
STATUS
COMPARATOR
LATCH
X–RAY ON
11.718KHZ
375KHZ
TIMER
3.2KHZ
120HZ
750KHZ
FREQ
DIVIDERS
PHASE
SPLITTERS
2KHZ 01
2KHZ 02
DRIVERS FOR
1KHZ 01
1KHZ 01
COUNTERS AND
1KHZ 02
1KHZ 02
DIVIDERS
60HZ 01
60HZ 01
60HZ 02
60HZ 02
SELECT
WRP10*
RDP5*
FREQ SELECT
ENABLE LINE
WATCHDOG CLR*
GENERATOR
SHT–2
D0–D7
START EXP CMND
CONTROL 1
SET BACK–UP
STOP EXP CMND
TIME LATCH
START/STOP
REVISIONS
EXPOSE CMND
WRP4*
WRP6*
4
CONTROLLER
EXP START CMND
BACK–UP TIMER OK
H
EXPOSURE TIME OUT
EXP STOP CMND
GT_1MAR91
7
PCN_164091
5
8
6
5-3
3
4
5
6
7
8
FOLD
2
FOLD
46–264974–S
FOLD
ISSUED
GT_1MAR91
9
F.PIERCE 13JUN89
APPROVALS
9
MILWAUKEE, WISCONSIN
10
GJO_22OCT93
PCN_179780
MEDICAL SYSTEMS
F.C.TRAVANTY 24AUG89
GJO_19JAN93
PCN_179471
PCN_164091
MADE BY
404
PCN_179132
GT_5MAR91
PCN_164045
HI/LO RESOLUTION SELECT LINE
PRINTS TO
GJ0_19AUG92
DIV OR
DEPT.
LOCATION
46–264974–S
CONT ON SHEET
2
SH NO.
1
3
4
5
SH NO. 2
46–264974–S
DRAWING NO.
+5V
+5V
R26
7
8
APPLIED PRACTICES
16
16
R163
10K
SURFACES
46–208600
+5V
REV 3
TOLERANCES ON DIMENSIONS
DECIMALS
DECIMALS
ANGLES
(2 PLACES)
(3 PLACES)
+
+
+
–
–
–
2
Q1
U99
Q2
HC4040
Q3
+5V
U46
R35
+5V
9
10K
Y36
OSC
GND
7
C27
0.1
U44
OUT
8
2
5
3
HC32
Q5
10
CLK
R101
Q7
Q8
Q9
6
Q10
R98
HC14
TP9
Q11
4.7K
RESET
11
L
L
Q6
4.7K
U46
1
12MHZ
B
8
HC14
14
VCC
Q4
+5V
L
2–F5
9
PR
D
3
U25
CK
7
HC74
Q
Q
5
6
7
5
3
15
5
750KHZ
3
375KHZ
6–D6
1
6–D5
6–D8
13
P0AD2
4
P0AD5
5
P0AD6
P0AD1
6
7
P0AD0
8
P0AD7
9
T/R*
1
12
14 11.718KHZ
P/L ISSUED
1
R182
CR181
1
2
100K
1N4148
C176
S183
PWR UP
DELAY
L
LOW ADDRESS LATCH
L
J8
PWR DOWN
10
R171
7
RST*
10
10
HC32
10
+5V
3
2
3
5–B9
PR
D
U59
CK
HC74
Q
Q
5
6
P0AD1
4
P0AD2
7
POAD3
8
POAD4
13
P0AD5
14
P0AD6
17
P0AD7
18
Q0
D0
D1
D2
D3
D4
1489
10
9
C177
0.01
50V
Q2
Q3
HC374
Q4
D5
Q5
D6
Q6
D7
CK
11
OE
Q7
9
ADR2
8
5
ADR1
ADR3
7
6
ADR2
ADR4
6
9
ADR3
ADR5
5
12
ADR4
ADR6
4
15
ADR5
ADR7
3
16
ADR6
ADR8
25
19
ADR7
ADR9
24
ADR10
21
ADR11
23
1
U60
ADR12
2
ADR13
26
ADR14
27
ADR15
6
HC08
10
ADR1
ADR0
300
5
4
ADR0
2
R106
10K
6–H2
D2
D5
D6
2–F10
D1
WR*
12
RD*
13
8
12
11
D
U59
CK
HC74
11
AC08
EPROM 2
Q1
A1
Q2
A2
Q3
U104
Q4
27C512
A4
Q5
EPROM
A5
Q6
A6
Q7
A7
Q8
11
P0AD0
Q
Q
ADR0
10
12
P0AD1
ADR1
9
13
P0AD2
8
15
16
POAD3
POAD4
ADR2
ADR3
ADR4
6
17
P0AD5
ADR5
5
18
P0AD6
ADR6
4
19
P0AD7
ADR7
3
ADR8
25
ADR9
24
ADR10
21
ADR11
23
A8
A9
A10
A11
A12
A13
46–303815G1
A14
1
7
ADR12
2
ADR13
26
ADR14
27
ADR15
A15
20
Q2
A2
Q3
U51
Q4
27C512
A4
Q5
EPROM
A5
5–B10
PWR DWN RST
3
HOLDOFF
4
12
HC04
13
Q6
A6
Q7
A7
Q8
11
12
P0AD1
13
P0AD2
15
POAD3
16
POAD4
17
P0AD5
18
P0AD6
19
P0AD7
4–A1
ADR0
A10
READ PORT SELECT
A11
A12
A13
46–303816G1
A14
A15
VPP/G*
20
ADR8
1
ADR9
2
ADR10
3
D
13
RESET
18
X2
P0.0
P0.1
U174
P0.3
10
P0.4
HC04
6–E6
P0.5
SERVICE SW
R119
P1.0
13K
P1.1
U222
+5V
3
4–H8
P1.2
WATCHDOG CLR
4
4–B2
P1.3
HC04
6–B4
E
P0.6
P0.7
3–B4
P1.4
C68
WRP12*
2–F11
R67
9
10
T1
7
RX
10
35V
6
CX
12
Q
U65
HC123
T2
10K
1%
0.125W
Q
5
13
U63
AC32
P1.6
WATCH DOG CLR*
3–F9
P1.7
4–C8
12
U103
80C31
11
10
WATCHDOG CLR
57.3mS
12
X–RAY ON
3–D10
13
14
15
+5V
FDBK OUT
5–B8
16
RXD
SW DATA INPUT
3
1
T0
5
10K
12
9
P0AD1
36
35
POAD4
34
P0AD5
ADR0
8
33
P0AD6
ADR1
7
32
P0AD7
ADR2
6
1
P1D0
ADR3
5
2
P1D1
ADR4
4
3
P1D2
ADR5
3
4
P1D3
ADR6
2
5
P1D4
ADR7
STATUS
3–B9
1
P1D5
ADR8
23
7
P1D6
ADR9
22
8
X–RAY ON
ADR8
ADR10
22
ADR9
23
ADR10
ADR11
24
ADR11
ADR12
25
ADR12
26
ADR13
27
ADR14
28
ADR15
RST CLR
2–C3
12
D0
A1
D1
A2
D2
A3
D3
A4
A5
A6
A7
A8
U44
P0AD0
ADR0
8
10
P0AD1
ADR1
7
11
P0AD2
ADR2
6
13
POAD3
ADR3
5
14
POAD4
ADR4
4
15
P0AD5
ADR5
3
P0AD6
ADR6
2
P0AD7
ADR7
1
16
D6
D7 17
MK48Z02 +5V
2Kx8
ZRAM
18
8
HC32
SERVICE SW*
20
R56
5
HC32
ADR8
23
ADR9
22
6
U222
ADR11
11
10
C
HC04
P0AD2
13
POAD3
14
POAD4
15
P0AD5
16
D6
D7 17
MK48Z02
2Kx8
ZRAM
P0AD6
Y0
P0AD7
Y1
A2
D2
A3
D3
A4
A5
A6
A7
A8
U228
5
4
P0AD0
P0AD1
11
D1
D4
D5
U54
6
HC32
18
20
+5V
16
L
OUT2
IN4
OUT2
U288
26LS31
R163
EN
4
OUT3
OUT4
OUT4
10K
H
OUT3
ADR9
3
JP1
ADR10
4
9
12MHZ
Y7
Y8
Y9
A3
Y10
Y15
EN2
19
18
ADR12*
8
RDP5*
9
RDP6*
7
RDP7*
4–H9
5–C11
NC
3–F3
6–D7
3–F6
NC
1
WRP0*
2
WRP1*
3
WRP2*
4
WRP3*
5
WRP4*
6
WRP5*
7
WRP6*
8
WRP7*
9
WRP8*
10
WRP9*
11
WRP10*
13
WRP11*
14
WRP12*
15
WRP13*
16
WRP14*
17
WRP15*
13
DISP DATA OUT
14
DISP DATA OUT RTN
2
HC240
16
R287
6–B7
5–F7
6–F4
5–C9
4–E2
4–H2
6–D7
4–B2
2–E1
NC
NC
NC
ALL RESISTORS ARE 0.25W,5%
7
8
DISP RST
11
12
11
10
L
R287
R287
R287
18
BUFFERED DISP DATA
2
1
3
DIN1
8
CK
1
DISP DATA OUT
+5V
16
U82
HC164
R100
10K
4
Q0
Q1
J6
6
Q2
Q3
Q4
Q5
DISP RESET*
14
5
2
Q6
DIN2
CLR
Q7
2
4
5
6
R287
TP11
4
3
U87
3
10
4
3
D
CK
PR
U95
HC74
WR*
5
Q
CLR
12
1
AMX–4 CALIBRATION
DIRECTION 46–017206, 46–017326,
46–017497 OR 2115679–100
SECTION 1–6 JUMPERS AND
SWITCHES POSITION.
U44
13
12
HC32
11
REVISIONS
TP11
SHORTEND WRITE
1
R86
2
3
+5V
FOLD
7
8
GJO_19AUG92
F.PIERCE 13JUN89
APPROVALS
10
5-4
MEDICAL SYSTEMS
MILWAUKEE, WISCONSIN
F.C.TRAVANTY 24AUG89
9
GJO_20JAN93
PCN_179471
67NS–150NS
MADE BY
10K
404
PCN_179132
250NS–333NS
6
PRINTS TO
JKK_01AUG90
PCN_157692
WR*
13
DELAYED WRITE
51
6
OF JUMPER JP1 REFER TO
6
Q
HC04
11
51
19
FOR PROPER CONFIGURATION
3
15
9
1
2. * INDICATES AN ACTIVE LOW
J11
51
9
EN
R287
ALL CAPACITORS ARE IN MFD
2–A9
10K
1
51
14
13
5
3–B4
NOTES:
R100
51
12
5
6
5–B10
18
3
15
+5V
16
10K
13
U241
4
12
4–E8
AND ARE IN OHMS
WR*
16
17
R163
4–C8
NC
1. UNLESS OTHERWISE SPECIFIED
ISSUED
FOLD
A2
U24
HC154
Y6
HC04
+5V
L
46–264974–S
A1
Y14
12
10
4
Y5
Y13
2–B3
9
3
20
Y4
Y12
2–A4
5
12
RDP4*
10
U46
6
13
21
Y3
A0
Y11
ADR12
ALE
3
14
22
21
U87
31
2
11
ADR8
23
EN1
J11
OUT1
ADR7
ADR12
51
IN3
Y2
3
HC32
14
IN2
11
3–C3
5–F7
WRITE PORT SELECT
RD*
14
9
12
RDP3*
5
10
D0
A1
WR*
HC14
7
4
9
A0
HC14
15
Y5
RDP2*
FOLD
A9
19 A10
CS OE WE
ADR10
21
B
U115
4–H8
U115
4.7K
A
1
2
D5
9
4
9
10
D4
U107
A9
19 A10
CS OE WE
16
10K
OUT1
6
8
ADDRESS BUS
13
IN1
Y4
RDP1*
13
RAM 2
A0
11
L
1
Y3
RDP0*
14
ADR12*
P0AD2
POAD3
R163
8
2
Y2
Y6
Y7
EN1 EN2 EN3
10K
RAM 1
37
WR
17
T1
RD
PSEN 29
ALE/
PROG* EA
16
U235
P2.5
TX0
+5V
R285
P2.4
P2.7
INT1
30
10K
J6
P2.2
P2.6
INT0
R163
F
P2.1
P2.3
CLR
P0AD0
38
21
P2.0
6–C4
39
6
P1.5
11
A2
15
RD*
P0.2
RST*
Y1
HC138
R163
HC04
19
X1
9
+5V
Y0
A1
U170
U87
11
11
A0
CE
9
8
5–D8
A9
16
13
HC32
6–C7
ADR0–ADR2
A8
1
CE
Q1
A1
A3
22
VPP/G*
A0
FOLD
FOLD
3
ADR0–ADR1
P0AD0
+5V
CLR
U115
AC32
2
L
U174
U63
1
D7
A0
A3
22
L
PR
U64
D0
10
U60
HC08
Q1
U108
1
R163
3–F8
3
9
9
10K
HC08
P0AD0
8
16
8
100
4
U60
U115
U160
R180
RESET
9
HC14
100K
4.7
10%
35V
2
5–F6
D3
EPROM 1
L
CLR
U116
1
4–A1
RD*
HC04
R118
C
RST CLR*
2
3–A3
P0AD0–P0AD7
2–E5
U174
D0–D7
15 2 14 3 11 6 10 7
D4
1
R55
+5V
AMX–4
FIRST MADE FOR
OE
19
6–D4
15
10K
L
SH NO. 2
DATA BUS
2–F8
10K
RST CLR
AC245
18
DB0
DR0
DB1 17
DR1
16
DB2
DR2
15
DB3
DR3
14
DB4
DR4
13
DB5
DR5
12
DB6
DR6
11
DB7
DR7
POAD3 3
6–E1
2 187.5KHZ
4 93.750KHZ
U96
10
POAD4 2
6
CLR
6
CONT ON SHEET 3
SH NO. 2
AMX–4–CONTROLLER
R135
5
4
46–264974–S
46–264974–S
CONT ON SHEET 3
SCHEMATIC DIAGRAM
+5V
12MHZ
R43
Q12
ALE
TITLE
16
10K
A
GENERAL ELECTRIC
9
UNLESS OTHERWISE SPECIFIED USE THE
FOLLOWING : –
10K
4
6
+5V
R100
10K
CLOCK GENERATOR
A1
AMX1 A2
FOLD
CONT ON SHEET 3
2
FOLD
FOLD
Per PCN 180369
DIV OR
DEPT.
LOCATION
46–264974–S
CONT ON SHEET 3
SH NO. 2
FOLD
CONT ON SHEET 4
2
3
4
5
6
8
7
8
6
R275
10K
6
2
CHARGER & DRIVE STATUS
S75
L
5
12
4
OPTION
SW 4
B
14
R275
U280
3 13
1
3
10K
R334
10K
C273
0.1
50V
3–F8
2
1489
L
P
U222
12
HC04
8
D1
Q1
14
D2
Q2
U151
17
D3
Q3
3
D4
Q4
HC533
18
D5
Q5
4
D6
Q6
7
D7
Q7
13
D8
Q8
CLK OE
11 1
L
BMPR*
J8
8
R171
4–D8
R332
10K
+24V
TUBE PARKED SW RTN
14
13
9
U160
11
C168
0.1
50V
10K
9
D0 U79 Q0
6
AC273
D1
Q1
5
Q2
D2
2
D3
Q3
19
D4
Q4
16
D5
Q5
15
D6
Q6
12
D7
Q7
CLR CK
1
3–F8
TUBE PARKED SW
13
8
7
4
3
18
17
14
13
R74
10K
13
J2
D0
D1
D2
D3
D4
D5
D6
D7
2–C11
9
15
16
2
19
5
6
12
D0
D1
D2
D3
D4
D5
D6
D7
2–D1
LEFT STALL
P
6
14
R285
10
12
J8
1
DRIVE ENA SW 27
R285
R171
4
C284
0.1
50V
D
10
C169
0.1
50V
7
KVP4*
14
6
13
11 KVP5*
7
12
12 KVP6*
11
J8
14
23
PREP SW
C167
0.1
50V
2
25
EXP SW
R171
R331
10K
R275
+5V
L
7
2
R260
1
15
C256
0.1
50V
10K
U160
3
3
17
R260
13
14
C257
0.1
50V
OPERATOR I/O STATUS
OPTION
SW 2
TAP 3 FDBK
3
D1
Q1
17
D2
Q2
U155
14
D3
Q3
8
D4
Q4
HC533
13
D5
Q5
7
D6
Q6
4
D7
Q7
18
D8
Q8
CLK OE
11 1
RDP4*
R74
10K
3
L
3–H8
FIELD LIGHT SW RTN 17
13
16
+24V
R171
4
4
C161
0.1
50V
10K
R330
10K
J8
U160
6
2–C11
4
R285
TAP 4 FDBK
C231
0.1
50V
10
C156
0.1
50V
3–F8
L
R285
13
C232
0.1
50V
15
10K
3–H8
H
1
6
5
R285
L
1
16
C230
0.1
50V
10K
3–H8
R275
L
4
11
C212
0.1
50V
10K
7
5
13
R260
TAP 5 FDBK
8
9
R260
R275
13
C185
0.1
50V
1
C208
0.1
50V
C191
0.1
50V
6
7
R260
J5
U189
11
10
C261
0.1
50V
U236
6
J7
AEC ON 1
11
R74
4
6
C133
0.1
50V
10K
U154
8
9
1489
AEC EXP EN 9
10
R74
4
U189
6
C129
0.1
50V
13
C213
0.1
50V
R275
L
10
C281
0.001
50V
13
10K
R320
2.2K
U188
11
U188
6
2–D11
P1D1
8
HC
21
EXPOSE SW P1D1
6–C2
U144
2
HC04
1
9
1489
U211
6
U211
3
TUBE PRESSURE SW
U144
12
HC04
P1D3
11
U87
10
HC04
P1D4
U46
2
P1D5
2
1489
U280
11
P1D2
13
1
12
1489
RDP6*
3
D1
Q1
4
D2
Q2
U122
7
D3
Q3
8
D4
Q4
HC533
13
D5
Q5
14
D6
Q6
17
D7
Q7
18
D8
Q8
CLK OE
11 1
2
5
6
9
12
15
16
19
D0
D1
D2
D3
D4
D5
D6
D7
P
U211
11
9
U222
8
HC04
1
U222
2
HC04
12
1489
FOLD
P1D6
X–RAY ON
U280
8
9
1489
R430
1.13K
L
5
1
3–A2
3–B2
3–C2
U131
6
U144
4
HC04
U131
3
U132
1
3
2 HC08
11
U144
10 AEC EXP EN
6–B3
HC04
2
1489
3–E2
3–F2
3–H2
3–H2
3–H2
3–E2
10
16R83
.10K
U229
5
6
4 HC08
C220
10
35V
15 14
RX CX
1
13
T1
Q
U221
HC123
2
4
T2
Q
8
U235
2
HC04
LINE SENSE
BUMPER*
TUBE PARKED
C431
.01
50V
4
5
6
10
1
18
WATCHDOG CLR*
8
9
10
11
12
15
15
SONART*
9
X–RAY ON
LAMP*
+24V
U283
10
2
2–E4
J6
ULN2803
L
17
J6
ULN2803
47.6mS X–RAY INDICATORS
REVISIONS
PRINTS TO
1 GJO_19AUG92
PCN_179132
U236
3
404
2
1489
L
MADE BY
F.PIERCE15JUN89
APPROVALS
2
3
4
5
FOLD
FOLD
ISSUED
46–264974–S
9
8
10 HC32
CLR
3
C432
.01
50V
L
12
1489
+24V
U283
U228
L
J11
KEY SWITCH ON
MAS UP
MAS DOWN
KVP UP
KVP DOWN
FIELD LIGHT SW
6–E1
16
R83
. 10K
CRITICAL STATUS INPUTS
U222
6
HC04
2–F3
+5V
+5V
PWR UP
DELAY
2–C2
6–C2
HC14
U189
8
3
1
7
10K
U236
11
PREP SW P1D0
6–B2
U112
GENERATOR & AEC STATUS
5
1489
L
L
R321
9
1489
L
13
C282
0.1
50V
10K
5
1489
L
11
L
15
FIL SHRT DETECT 25
12
1489
4
9
R275
U211
8
5
1489
L
10
10K
5
1489
L
12
10K
2
1KHZ INVERTER READY12
U189
3
L
5
1489
L
14
10K
2
C258
0.1
50V
5
1489
4
3–F8
10
C215
0.1
50V
12
10K
X–RAY ON 22
4
10
10K
TAP 6 FDBK
13
10K
R285
15
R260
10K
P
5
7
10K
2 DO
16 D1
15 D2
D3
9
12 D4
D5
6
D6
5
19 D7
L
3
60HZ INV OK
12
1489
L
2
1489
14
J3 +24V
R275
X–RAY PRESS SW RTN 7
2
1489
L
P1D0
6
120HZ
6–D7
10K
10
J6
5
+24V
ROTOR INTLK 3
L
P
FIELD LIGHT SW 21
HAND SW COM 24
J3
DS19
J4
U112
HC
21
11
11
X–RAY PRESS SW 6
DS18
7 DRIVE ENA SW
1
S75
1
16R163
10K
1
2
4
5
9
10
12
13
2 EXP SW
DS17
J11
C274
0.1
50V
3–F8
+5V
9
12
1489
J11
J2
16
10K
R326
10K
U174
8
HC04
9
1489
DRIVE ENA SW
1
3
2
D0
Q0
4
5
D1
Q1
U111
7
6
D2
Q2
HC273
8
9
D3
Q3
13
12
D4
Q4
14
15
D5
Q5
17
16
D6
Q6
18
19
D7
Q7
CLR CK
P
DS16
10K
KEY SWITCH ON11
U164
11
13
C165
0.1
50V
15
10K
U174
6
HC04
5
5
1489
L
DS13
TAP 2 FDBK
J1
U164
6
4
3
10K
GEN READY*
8
R171
STATUS
2–D5
J4
+24V
AMX–4
DEBOUNCE
1 PREP SW
DS9
19
FIRST MADE FOR
12 PREP SW
CR14
1N4148
TAP 1 FDBK
SH NO. 3
J11
U164
8
DRIVE ENA SW RTN 28
KVP DOWN13
KVP3*
5
RDP0*
P
KVP UP 11
6
5
1489
L
16
CONT ON SHEET 4
SH NO. 3
AMX–4–CONTROLLER
J3
KVP2*
+5V
17 DRIVE ENA SW
MAS DOWN 7
15
KVP1*
5
RELAY DRIVERS
U280
6
L
L
MAS UP
4
KVP0*
4
RST*
9
1489
7
FOLD
F
16
3
U78
ULN2803
U236
8
C239
0.1
50V
10K
R333
10K
FIELD LIGHT SW
3
WRP3*
12
1489
10
10K
E
18
DS12
11
10K
RIGHT STALL
17
1
AEC COMMON
DS11
J2
46–264974–S
46–264974–S
CONT ON SHEET 4
SCHEMATIC DIAGRAM
P/L ISSUED
2
11
L
C
2
8
2–E11
TITLE
1
J7
17
R74
10K
15
+5V
TOLERANCES ON DIMENSIONS
DECIMALS
DECIMALS
ANGLES
(2 PLACES)
(3 PLACES)
+
+
+
–
–
–
46–208600
+24V
2–A9
11
OPTION
SW 3
SURFACES
+24V
L
S75
+5V
A1
AEC CONTROL
D0–D7
2
1489
C276
0.1
50V
3–F8
A
U154
3
1
9
APPLIED PRACTICES
REV 1
6
7
8
FOLD
SH NO. 3
46–264974–S
DRAWING NO.
J1
BUMPER* 10
GENERAL ELECTRIC
9
UNLESS OTHERWISE SPECIFIED USE THE
FOLLOWING : –
AMX1 A2
LINE SENSE
FOLD
FOLD
F.C.TRAVANTY 24AUG89
9
MEDICAL SYSTEMS
MILWAUKEE, WISCONSIN
10
DIV OR
DEPT.
LOCATION
46–264974–S
CONT ON SHEET 4
SH NO. 3
3
4
5
6
FOLD
FOLD
CONT ON SHEET
5
SH NO.
4
46–264974–S
2
FOLD
8
7
DRAWING NO.
AMX1 A2
APPLIED PRACTICES
A1
SURFACES
REV A
TOLERANCES ON DIMENSIONS
ANGLES
DECIMALS
DECIMALS
(2 PLACES)
(3 PLACES)
+
+
+
–
–
–
46–208600
GENERAL ELECTRIC
9
UNLESS OTHERWISE SPECIFIED USE THE
FOLLOWING : –
TITLE
46–264974–S
CONT ON SHEET 5
46–264974–S
CONT ON SHEET 5
SCHEMATIC DIAGRAM
SH NO. 4
AMX–4–CONTROLLER
SH NO. 4
AMX–4
FIRST MADE FOR
P/L ISSUED
A
D0–D7
2–A9
–10V REF
5–E11
TP27
2–B10
ADR0–ADR2
D0
4
D1
3
D2
2
D3
1
ADR0
8
ADR1
7
ADR2
6
WATCHDOG CLR
2–E4
+5V
B
16
11
5
R135
4
9
10
10K
DB0
VREFA
DB1
RFBA
DB2
IOUTA
19
AR359
2
18
17
3
OP–07
A0
A1
A2
FIL DMN +
10
100
1
U355
AD7549
8
DAC
CLR
UPD
RFBB
WR
IOUTB
AR354
2
WRP11*
18
2
17
3
16
4
15
5
14
6
13
7
12
8
11
3
R353
6
OP–07
11
8
KVP DMN +
100
1
12
KVP DMN –
S
D0
8
D1
7
D2
4
D3
3
D4
18
D5
17
D6
14
D7
13
D0
Q0
D1
Q1
6
U351
5
Q2
HC273
2
Q3
19
D4
Q4
16
D5
Q5
15
D6
Q6
12
D7
Q7
CLR CK
D3
WATCHDOG CLR*
C
R403
FOLD
D
D1
13
D2
12
D3
11
D4
10
D5
9
D6
8
D7
7
18
ADR0
6
5
VREFA
OUTA
D0
D1
RFBA
D2
D4
12
RFBB
OUTB
VREFB
5
RIGHT DRV CMND–
100
6
5
14
D2
17
D3
3
D4
18
D5
4
D6
7
D7
13
D0
Q0
D1
Q1
2 HC08
3
R407
U264
16
Q2
HC273
2
D3
Q3
19
D4
Q4
5
D5
Q5
6
D6
Q6
12
D7
Q7
CLR CK
10
WRP8*
8
8
LEFT DRV CMND–
J6
XMIT OK*
3
11
2
8
F
D1
13
D2
12
D3
11
D4
10
D5
9
D6
8
D7
7
18
ADR0
6
D0
RFBA
D1
D2
3
3
8
R285
D4
HC14
3
RFBB
D7
OUTB
VREFB
3
2
5
6
OP–07
8
13
6–A5
5–D10
10K
BU TMR OKAY
8
EXP CMND STATUS
14
A/D STATUS
17
R335
3
+5V
4
8
8
18
10K
4
7
R361
13
3
OPTION SW 1
J5
3
L
LEAKAGE COMP +
15
D1
D2
D3
Q1
Q2
U159
Q3
D4
D5
D6
Q4
Q5
HC373
Q6
D7
Q7
D8
CLK
OE
11
1
Q8
9
D0
15
D1
16
D2
2
D3
19
14
4
2
S
LEAKAGE COMP –
3
J8
AR369
6
OP–07
8
J1
R370
1
SERVICE SW
V–CHARGE CMND
12
19
+24V
R171
SERVICE SW RTN
2
D/A CONVERTERS
D4
5
D5
6
D6
12
D7
2–C11
5
1
C237
0.1
50V
10K
20
U164
3
13
REVISIONS
U174
12
SERVICE SW
HC04
2
1489
SERVICE SW*
2–E7
L
V–CHARGE RTN
F.PIERCE 15JUN89
APPROVALS
6
7
8
FOLD
5
FOLD
ISSUED
4
PRINTS TO
404
2–E2
MADE BY
FOLD
CHARGE CUR SEL
SERVICE SW
100
1
3
BAT V &
7
J11
3
2
DRIVE RESET
UDN6118A
RDP1*
1
H
46–264974–S
15
UDN6118A
U322
100
L
2–E11
6–E6
S75
I–CHARGE RTN
14
1
WRP9*
FULL SPD ENA
J1
L
BAUD RATE SW
3
16
ON BOARD
STATUS
HC14
16 R100
10K
AR362
CS WR LGND AGND
15
C238
0.1
50V
+5V
16 R135
I–CHARGE CMND
TP28
A/B
U235
6
5
11
5
100
19
20
4
R171
+5V
J1
R365
S
D6
16
UDN6118A
U322
TP29
4
D5
13
U235
12
13
9
10K
5–A4
1
U363
AD7528
D3
6
OP–07
6
12
AR368
2
MOTOR ENA
+5V
HANDLE CHECK*
2
16
U322
7
OUTA
13
UDN6118A
10K
DISPLAY OK
VREFA
16
U322
R163
10K
14
CHARGER RELAY*
10
ULN2803
16
D0
U283
J2
21
S
17
VDD
10
+24V
UDN6118A
R163
10K
100
20K
1%
0.125W
4
17
6
LEFT DRV CMND+
12
CHARGE
SCALE–SELECT
FOLD
+5V
7
TRIP BRKR
U322
2
10
R406
8
UDN6118A
AR404
TL074
18
15
WRP2*
2–E11
TP19
1
9
D2
1
20K
1%
0.125W
R408
10K
1%
0.125W
9
E
D1
R410
S
L
8
1
TL074
1
8
J1
D0
AR404
2
HC32
U322
19
1
TAP5*
U193
9
10
S
TP16
3
16
TAP4*
10
RIGHT DRV CMND+
3
20
U272
BMPR*
3–B2
S
A/B
15
TAP3*
14
J2
R398
2
CS WR LGND AGND
2–E11
14
TL074
D5
D7
TAP2*
16
DRIVE CONTROL
TP17
D6
TAP1*
18
CHARGER AND
TP18
7
TL074
U402
AD7528
D3
R401
10K
1%
0.125W
AR404
6
17
VDD
4
SAFETY
CONT ENB*
20
AR404
13
20K
1%
0.125W
14
ROTOR SELECT*
10
WRP0*
2–E11
20K
1%
0.125W
D0
TAP6*
9
U318
ULN2803
11
2–E3
5–H10
8
J3
9
D2
1
R399
+10V REF
J4
J4
TP26
14
15
1
GEN CONTROL 2
S
VREFB
CS
FIL DMN –
13
L
2–E11
7
8
DB3
+24V
J5
R358
6
9
10
5-6
MEDICAL SYSTEMS
MILWAUKEE, WISCONSIN
DIV OR
DEPT.
46–264974–S
LOCATIONCONT
ON SHEET 5
SH NO. 4
FOLD
CONT ON SHEET 6
2
3
4
5
6
7
8
SH NO. 5
46–264974–S
DRAWING NO.
1
AMX1
R296
A
3
R295
0V
R292
2.2K
1MS
RIGHT HALL INPUT
19
CR341
1
2
MAS
1
21
R319
7
TL074
5
J5
TP22
1N4148
AR300
6
S
R260
U188
16
1
ON BOARD CONTROL
3
2
10K
1489
2.2K
C303
R304
2.2K
B
0.1
50V
R305
R307
2.2K
J11
21
J1
LEFT HALL INPUT
BAT V AND
P
7
5
CHARGING CUR
R325
100
S
R260
13
U188
10
10
L
1489
4
3
TMR0 OUT
0.1
50V
8
15
1
1
TMR2 OUT
15
14
9
15K
1%
7
15K
1%
RIGHT DRV FDBK +
R391
2
TMR1 OUT
13
10
2
P
R391
+24V
AR392
9
R421
R422
10K
1%
10.2K
1%
C1
C2
U123
HC151
D2
3
Y
Y
5
FDBK OUT
D3
18
6
4
14
8
C3
Q2
Q3
D4
Q4
D5
Q5
D6
Q6
1
RST CLR*
C6
Q1
HC273
D7
CLR
C4
C5
Q0
U127
CK
Q7
12
6
PWR DOWN RST HOLDOFF
16
DISP RST
2
19
5
15
U411
9
2 DA0
DB0
ACT245
3
DA1
DB1
4
DA2
DB2
5
DA3
DB3
6
DA4
DB4
7
DA5
DB5
8
DA6
DB6
9
DA7
DB7
11
C7
A2 A1 A0
9
10 11
L
8
TL074
10
2
12
+15V
C0
EN
D1
17
7
9
10K
D0
7
8
2.2K
C394
S
RIGHT DRV FDBK –
AMX–4
FIRST MADE FOR
P/L ISSUED
J11
R302
R391
SH NO. 5
CONT ON SHEET 6
T/R*
16
15K
1%
C
SH NO. 5
AMX–4–CONTROLLER
24MS
0.1
50V
10K
J2
46–264974–S
46–264974–S
CONT ON SHEET 6
SCHEMATIC DIAGRAM
1
TL074
100
3
TITLE
10V
S
LFT MAN TDS OUT
46–208600
TOLERANCES ON DIMENSIONS
DECIMALS
DECIMALS
ANGLES
(2 PLACES)
(3 PLACES)
+
+
+
–
–
–
TP21
C291
R293
2.2K
SURFACES
REV 1
AR300
2
J8
1
A1
HANDLE CHECK*
2
1N4148
10K
A2
APPLIED PRACTICES
GENERAL ELECTRIC
9
UNLESS OTHERWISE SPECIFIED USE THE
FOLLOWING : –
CR340
RGT MAN TDS OUT
FOLD
FOLD
15K
1%
1
R423
R419
30.1K
1%
1.13K
1%
17
16
15
14
13
12
11
OE
1
R391
C396
0.1
50V
18
19
R337
+5V
ANALOG MUX
2–C11
10K
C390
S
0.1
50V
6
R391
10K
R290
LEFT DRV FDBK –
4
R391
19
11
20
15K
1%
5
15K
1%
LEFT DRV FDBK +
13
3
R391
4
23
14
24
25
26
15K
1%
D
14
11
R391
C387
0.1
50V
10
15K
1%
9
3
J5
11
R385
0.1
50V
KVP DMN FDBK +
13
R385
5
4
10
A0
S1
A1
S2
A2
S3
A3
S4
OUT
12
R385
S7
S8
3
5
4
15
R375
S9
LF398 N
3
IN
OUT
L
1
5
2
3
6
2
S10
L
MUX
4
C429
5
0.033
1%
100V
AD7506
6
10
9
S
S11
7
S12
11
S13
12
S14
13
S15
14
S16
15
+5V
STS
DMS12/8*
DB11
CS
DB10
AO
DB9
R/C*
DB8
CE
DB7
REFIN
DB6
ACOM
+15V
–15V
U413
AD574
DB5
DB4
DB3
BIPOFF
DB2
10VIN
DB1
20VIN
DB0
DCOM
REFOUT
A/D STATUS
28
27
26
25
24
FOLD
23
22
21
R372
20
19
18
10K
1%
0.125W
17
16
R378
8
S
13
7
14
15K
1%
4
13
18
17
3
49.9
1%
0.125W
D0
D1
D2
D3
D4
Q0
Q2
Q3
HC374
Q4
D5
Q5
D6
Q6
D7
CK
1
R375
Q1
U339
OE
Q7
12
9
6
10
R375
7
3
8
19
READ A/D
13
12
R309
HC04
11
0.1
50V
15K
1%
6
R385
J6
R301
3
2
5
1
1
2
10
TL074
8
CA3083
4
R308
10
1%
0.125W
TP15
13
+24V VF SUPPLY
HALL LFT REF
6
HALL RGT REF RTN
8
HALL LFT REF RTN
S
P
7
HALL RGT REF
7
4.7K
2.2K
J6
5
R311
+10V REF
R297
12
24
AR300
REVISIONS
TL074
14
1
PRINTS TO
GJO_20JAN93
404
PCN_179471
R299
18K
4.7K
15K
1%
16
P
MADE BY
F.PIERCE 15JUN89
APPROVALS
5-7
3
4
5
FOLD
ISSUED
FOLD
46–264974–S
Q242
3
AR300
S
2
R244
R310
10K
8
R385
C388
0.1
50V
8
R298
15K
R385
AR392
TL074
10
17
15K
1%
15K
1%
Q242
CA3083
200
J8
9
0.1
50V
15
6
D0–D7
+40V VF DISP SUPPLY
6
7
R246
51
9
15K
1%
6
8
U427
11
C393
9
14
3
OP–07
8
S
R385
AR247
2
U427
2
L
1
R375
C379
R243
62
0.1
50V
AR377
OP–07
1
C248
5
HC04
2
8
15
16
–10V REF
6
OP–07
S
10K
14
3
TP30
AR371
2
10K
1%
0.125W
R420
15K
1%
2
15K
1%
5
28
TP20
AR426
OA
R385
C380
15K
1%
LEAKAGE COMP FDBK +
8
EN
U342
8
F
H
TP31
1
TL074
3
6
AMUX3
S6
0.1
50V
LEAKAGE COMP FDBK –
AMUX2
14
CH
C376
10
15
S5
S
FIL FDBK–
AMUX1
AR392
2
0.1
50V
9
AMUX0
16
A/D CTRL
15K
1%
FIL FDBK+
17
S
15K
1%
6
15K
1%
E
7
6
7
14
8
C386
S
KVP DMN FDBK –
22
AR392
TL074
12
21
EN
6
7
8
FOLD
FOLD
13
12 BIT ADC
18
10K
12
SAMPLE/HOLD
R289
P
–15V
9
MEDICAL SYSTEMS
MILWAUKEE, WISCONSIN
F.C.TRAVANTY 24AUG89
10
DIV OR
DEPT.
LOCATION
46–264974–S
CONT ON SHEET 6
SH NO. 5
3
4
5
6
FOLD
CONT ON SHEET 7
2
FOLD
FOLD
8
7
GENERAL ELECTRIC
9
SH NO. 6
46–264974–S
DRAWING NO.
UNLESS OTHERWISE SPECIFIED USE THE
FOLLOWING : –
APPLIED PRACTICES
A1
AMX1 A2
SURFACES
REV A
TOLERANCES ON DIMENSIONS
DECIMALS
DECIMALS
ANGLES
(2 PLACES)
(3 PLACES)
+
+
+
–
–
–
46–208600
TITLE
46–264974–S
AMX–4
FIRST MADE FOR
P/L ISSUED
U322
J5
GEN CONTROL 1
EXPOSURE COMMAND CONTROL
SH NO. 6
AMX–4–CONTROLLER
SH NO. 6
CONT ON SHEET 7
46–264974–S
CONT ON SHEET 7
SCHEMATIC DIAGRAM
7
12
PREHEAT
26
A
UDN6118A
+5V
16
R83
12
TP1
10
10K
12
PR
D
11
Q
U140
HC74
CK
Q
EXP CMND STATUS
9
4–F7
8
CLR
13
START EXP
+5V
16
B
R83
R83
1
9
8
HC04
3–B10
3–F7
3–B10
3–C10
12
U150
PREP SW P1D0
3
AEC EXP EN
4 HC30
EXPOSE SW P1D1
TUBE PRESSURE
5
6
BU TMR OKAY
HC08
11
2
4
3
11
18
D5
17
D6
14
D7
13
Q1
U128
D2
Q2
HC273
D3
Q3
D4
Q4
D5
Q5
D6
Q6
D7
CLR
Q7
CK
6
1KHZ EN
5
2KHZ EN
60HZ RELAY
2
6–F9
+24V
19
U283
16
10
J7
4
15
15
10
12
EXP START*
11
WRP4*
PRE
U202
CLK
HC109
CLR
Q
K
25
13
EXP START CMND
2
17
15
6
5
+5V
16
6
U266
13
U136
10
HC32
J4
8
12
PRE
U202
Q
CLK
HC109
CLR
Q
K
11
EXP STOP CMND
23
10
TP12
UDN6118A
9
1
R265
7
D7
1
D6
2
D5
D4
3
D3
5
4
D2
6
D1
7
D0
8
750KHZ
15
8
9
2–A4
15
4.7K
18
P
TP5
9
10
11.718KH
FOLD
2–B4
D
8 BIT MAG COMPARATOR
12 BIT BIN CNTR
2
HC32
11
3
R83
U139
15
HC4040
4
3–D10
E
2–A4
750KHZ
2
3
D
CK
PR
U140
HC74
Q
Q
5
1
2
HC08
Q1
Q2
Q3
Q4
U37
3
10
Q5
CLK
Q6
Q7
6
Q8
Q9
CLR
Q10
1
Q11
RESET
11
Q12
9
2
7
4
6
6
5
8
3
11
2
13
4
15
13
17
12
3
5
14
15
7
1
9
12
14
16
18
F
D0
3
D1
4
D2
7
D3
8
D4
13
D5
14
D6
17
D7
18
+5V
16
R100
D0
D1
D2
D3
Q0
Q1
U88
Q2
HC273
Q3
D4
Q4
D5
Q5
D6
Q6
D7
CLR
3
HC08
1
CK
Q7
11
2KHZ PHASE 2
24
1KHZ PHASE 2
26
1KHZ PHASE 1
U266
3
4
15
HC04
UDN6118A
D3
D4
D5
D6
RTIMER
CS
CLK1
CLK2
RD
TMR0 OUT
17
1
R265
3
DA0
300
DA1
DA2
DA3
23
11
R163
10
9
HC08
19
1
11
2
CK
U95
HC74
HC04
14
12
13
BU TMR OKAY
DB1
CLR
DB2
RST*
2–E1
PRE
U203
Q
CLK
K HC109
CLR
Q
J
Q6
DIN2
CLR
Q7
13
HC08
J4
8
6
13
15
UDN6118A
1
9
R265
5
4.7K
P
4
5
6
U198
10
3
11
4
5
4
HC04
12
U266
U193
HC08
6
13
5
14
UDN6118A
1
16
R83
R265
FOLD
4
60HZ 01
14
2
5
8
2
J
PRE
U203
Q
CLK
HC109
CLR
Q
K
5
4
6
U207
HC08
+24V
4
10K
6
3
PR
D
U206
CK
HC74
Q
Q
1
2
5
U283
U207
HC08
3
10
J3
5
6
14
15
60HZ PHASE 1
ULN2803
CLR
7
1
1
10
+24V
60HZ 02
9
10
15
12
DB4
10
9
TMR STATUS LATCH
DB5
U266
U193
CT/LD
1
L
4–F7
Q4
10
9
1KHZ
11
P
11
9
8
Q3
2KHZ
12
+5V
3
Q
Q2
13
4.7K
4
U87
A=B
2
CLR
10K
8
HC04
Q
Q3
R83
10
D
D3
14
3
16
U268
6
DA6
DB3
10K
PR
Q2
U198
9
10K
12
Q1
+5V
U143
HC688
Q0
U197
HC163
9
5–B7
R201
DA5
DB0
12
TMR2 OUT
120 HZ
2–C10
2–C11
Q0
Q5
TP25
2–E11
+5V
DA4
DA7
10K
5–B7
L
TP6
HC164
R135
TMR1 OUT
WR
U270
16
R124
16
EN
D2
10
T
1
Q1
+5V
TP8
21
DIN1
8
CK
5–B7
13
O2
CLK0
L
1
10
O1
O3
93.75KHZ
2–B4
TP14
2–B10
20 ADR1
A1
D7
6
D1
7
P
CY
19 ADR0
A0
82C54
TP13
16
G2
U217
5
D0
14
RDP5*
U207
HC08
8
11
D
CK
PR
U206
HC74
Q
Q
13
12
9
U283
U207
HC08
11
12
+24V
U283
13
2
60HZ PHASE 2
13
ULN2803
8
CLR
DB7
10
7
DB6
5
6–A9
60 HZ
RELAY
6
10
13
11 60 HZ INV. RELAY*
6
ULN2803
9
12
15
12
13
16
19
U37
HC08
11
TIMING DIAGRAM FOR 60 HZ SIGNALS
120HZ
WRP6*
DELAYED 120HZ
2–E11
10K
60HZ
60HZ=01
SET BACKUP TIME LATCH
60HZ=02
2–A9
D2
11
6
HC32
U268
HC08
G1
4
1
WRP10*
5
4
G0
D1
22
U136
8
D0
R135
10K
+5V
1
10K
X–RAY ON
HC08
13
12
10
HC04
375KHZ
2–A4
+5V
16
U132
U198
U136
1
19
2
4.7K
2
CK
3
PROGRAMABLE
TIMER
11
J
R265
U268
R135
16
13
14
2KHZ PHASE 1
P
10K
9
2
10K
R83
HC32
1
2
U198
1
5
+5V
11
17
4.7K
12
HC04
16
U136
16
P
1
C
12
1
16KHZ
CLK
U198
4.7K
P
7
R265
3
U198
12
1
J5
11
J5
6
HC08
UDN6118A
J4
6
HC08
U266
U268
4
5
U266
U193
UDN6118A
+5V
13
13
12
ULN2803
UDN6118A
Q
J
WATCHDOG CLR*
2–E3
D4
D1
2–E11
7
5
HC04
5
SW 2
3
60HZ EN
HC04
U132
12
13
U144
8
4
D3
9
12
TP7
6
10K
STOP EXP*
U144
D2
Q0
U266
10K
9
7
6
HC08
R135
16
D1
D0
1
16
10K
8
U132
5
4
RST*
2–E2
+5V
11
D0
74.67uS
74.67uS
D0–D7
REVISIONS
PRINTS TO
404
H
MADE BY
F.PIERCE 15JUN89
APPROVALS
3
4
5
6
7
8
FOLD
2
FOLD
46–264974–S
FOLD
ISSUED
9
10
5-8
MEDICAL SYSTEMS
MILWAUKEE, WISCONSIN
DIV OR
DEPT.
LOCATION
46–264974–S
CONT ON SHEET 7
SH NO. 6
FOLD
CONT ON SHEET
2
3
4
5
6
7
FOLD
FOLD
8
–
SH NO.
46–264974–S
7
DRAWING NO.
AMX1 A2
APPLIED PRACTICES
A1
SURFACES
46–208600
GENERAL ELECTRIC
9
UNLESS OTHERWISE SPECIFIED USE THE
FOLLOWING : –
REV A
TOLERANCES ON DIMENSIONS
DECIMALS
DECIMALS
ANGLES
(2 PLACES)
(3 PLACES)
+
+
+
–
–
–
TITLE
46–264974–S
CONT ON SHEET –
SH NO.
46–264974–S
CONT ON SHEET
SCHEMATIC DIAGRAM
–
SH NO.
7
AMX–4–CONTROLLER
7
AMX–4
FIRST MADE FOR
P/L ISSUED
A
SPARES
TP3
J6
+5VDC
18
J12
+5VDC 9
B
C114
22UF
5%
50V
0.1UF
C22,C23,C27,C28,C38,C42,C49,C50,C52,C53,
C57,C58,C61,C62,C66,C76,C77,C80,C84,C85,
C89,C90,C97,C102,C105,C109,C110,C113,C114,
C120,C121,C125,C126,C130,C134,C137,C138,
C141,C142,C145,C146,C152,C153,C157,C158,C162,
C166,C172,C186,C187,C192,C195,C196,C199
C200,C204,C205,C209,C210,C214,C216,C225,
C227,C233,C234,C240,C262,C263,C267,C269,
C271,C277,C286,C317,C336,C338,C350,C360,
C397,C424
15 14
RX CX
1
13
T1
Q
U65
HC123
2
4
T2
Q
CLR
11
3
3
9
T1
1
U322
8
U116
4
T2
J6
Q
LOGIC GND
LOGIC GND
Q
10
11
U116
10
13
U116
12
13
3
11
U235
10
TP24
C250
10UF
10%
50V
0.1UF
S
9
D
Q
U25
HC74
11
8
CP
Q
12
C245,C294,C343,C352,C356,C366
C367,C374,C389,C400,C425
13
HC14
C
L
8
13
+5V
16
7
8
8
12
11
13 HC32
2,3,4,5,6,7
1
R287
51
U228
R265
4.7K
1
4
R375
15K
1%
16
5
6
R375
15K
1%
13
R375
15K
1%
12
R375
15K
1%
11
P
U272
1
3
2 HC32
U64
1
3
2 AC08
4
5
U272
4
6
5 HC32
U60
12
11
13 HC08
16
R83
10K
1, 2,9,10,11,12,13
U228
1
3
2 HC32
1
3
2 HC08
U154
11
9
R163
10K
R100
10K
U44
5
6
4 HC32
U60
+5V
16
R135
10K
4
5
U64
AC08
9
6
10
U63
AC32
6
U63
AC32
8
U272
12
11
13 HC32
U64
9
8
10 AC08
L
L
L
L
SIGNAL GND 5
ALL DEVICES SHOWN TOP VIEW
C249,C306,C344,C357,C364,
S
FOLD
C373,C381,C395,C405,C428
0.1UF
9
U427
8
HC04
R74
10K
5
+5V
+5V
16
9
R74
10K
1
U229
12
11
13 HC08
9
8
10 HC08
U154
6
L
13
C179
10UF
10%
50V
5
12
R74
10K
U37
12
1489
FOLD
D
U131
11
5
1489
HC14
10
L
+15V
6
4
9
8
10 HC08
U37
4
6
5 HC08
12
1489
HC14
U235
4
U131
8
9
1489
HC14
L
+15VDC
18
UDN6118A
HC14
12
11
C
1
U427
6
HC04
16
U229
U427
4
HC04
UDN6118A
U266
U116
8
9
5
CLR
20
23
11
3
U116
6
U229
1
3
2 HC08
U427
2
HC04
HC14
6
CX
U221
HC123
U87
6
HC04
5
11
ULN2803
P
HC14
5
10
L
8
U46
10
L
7
RX
10
HC14
HC14
TP4
LOGIC GND 8
U46
4
3
+5VDC
U283
+15V
+15V
+15V
TP23
–15V
–15VDC 4
1
20
1
14
1
8
1
8
4
11
2
7
2
7
16
7
8
4
5
4
5
12
–15V
TL074
–15V
+15V
OP–07
10
LF398N
–15V
1
18
5
15
10
S
11
S
9
L
AD7549
CA3083
TP2
J6
+24VDC 2
E
14
+5V
+24VDC
J11
17
C178
15UF
10%
50V
+24VDC
+5V
+5V
+5V
14
1
16
1
18
1
20
1
24
1
28
2
10
2
10
2
15
2
15
2
15
12
27
7
8
8
9
9
10
10
11
12
13
ULN–2803A
J6
L
16
PWR GND 1
PWR GND
P
F
+15V
1
74HC04
74HC08
74HC14
74HC30
74HC32
74HC74
74HC125
74HC164
74HC21
DS14C89A
74AC08
74AC32
L
74HC112
74HC123
74HC138
74HC221
74HC151
74HC393
74HC4040
DS26LS31
DS26LS32C
74HC163
74HC109
74HC163
74AC245
L
P
L
74HC273
74HC373
74HC533
74HC245
74HC374
74HC688
74HC240
S
14
S
15 –15V
AD7506
74HC154
82C54
CR324
1N5158
CR323
1N5818
1
20 +5V
5
17
10
11
AD7528
L
+5VDC
+5V
+15V
S
C414
0.1
50V
C418
0.1
50V
1
C412
0.01
50V
C417
0.01
50V
C409
0.1
9
11
1
40
2
30
20
15
AD574A
S
L
CR416
1N5158
L
1
18
1
28
5
17
12
18
9
10
14
15
21
80C31
–15V
H
7
14
+5V
+5V
28
1
+24V
UDN–6118A
5
17
12
13
REVISIONS
MK48Z02–20
L
27C512
24
PRINTS TO
404
L
CR415
1N5158
L
S
MADE BY
F.PIERCE 15JUN89
APPROVALS
5-9
3
4
5
6
7
8
FOLD
2
FOLD
46–264974–S
FOLD
ISSUED
9
MEDICAL SYSTEMS
MILWAUKEE, WISCONSIN
10
DIV OR
DEPT.
LOCATION
46–264974–S
CONT ON SHEET
–
SH NO.
7
z
6i
6-3
6-4
6-5
7i
7-3
7-4
8i
8-3
8-4
9i
9-3
9-4
9-5
10i1
REV 2
DIRECTION 2115684-100
2
1
3
4
5
6
AMX1
A
7
8
9
10
11
A4 A3
A
F
+BATT_ SWI TCHED
J2 7
+BATT_ SWI TCHED
J2 5
+BATT_ SWI TCHED
J2 6
J1 1
250
5%
55. 0W
B
CR1 9
CR1 8
R2 1
+BATT_ SWI TCHED
1N5062
R1 6
1N5352
V 1 5. 0
+ C1 5
-BATT
J2 3
C
-BATT
J1 5
D
E
CR 7
1 N118 6
C
+ CR 2 0
1 N118 6
CR 1 3
COM_ CAP_ CHARGE
J1 3
-
400V
6A
B
-B A T T
10 %
25 0V
77 0U
R1 4
27 K
5%
2. 0W
1200U
250V
10%
50
5%
1 2. 0W
+ C1 0
E
+ C1 2
R5
27K
5%
2. 0W
77 0U
25 0V
10 %
STOP_ CAP
D
N O T E :
C o mp o n e n t s
FI L TER_ CAP-
p a r t
R8
1K
5%
2. 0W
1600 0U
60V
10%
C 6 ,
o f
o f
C 1 0 ,
t h e
i n
t h i s
d a s h e d
b o a r d
C 1 2 ,
C 1 5 ,
C a p a c i t o r
a r e a s ,
a r e
n o t
a s s e mb l y .
L 3
a r e
mo d u l e
E
p a r t
a s s e mb l y
4 6 -3 0 3 9 1 3 G1 .
PWM_ E
PWM_ E
J3 1
J2 1
A
+ C6
J3 5
B
C
FI L TER_ CAP+
J3 3
J2 9
500
5%
1 2. 0W
COM_ CAP_ CHARGE_ RTN
J1 4
Q3-A
1. 0U
200V
10%
R9
27K
5%
2. 0W
R1 7
D
C1 1
J4 2
F
F
L3
PWM_ L
J3 2
PWM_ L
J4 1
/ u s e r / a mx _ 4 / c a p _ b d
H
A
C A P A C I
4 6 -2 8 8 5 0 4 -S
1
1
-
1
H
T O R _ B O A R D
A MX 1 -A 4 -A 3
A MX _ I V _ P R OD U C T I V I T Y
CI NDY_ DREWI CZ
4 0 4
2 5 -F EB-9 1
2
3
10i3
4
5
6
7
8
9
10
11
11-3
11-4
11-5
11-6
12-3
12-4
12-5
3i
AMX1 A6 A1
13-3
4i
AMX-4 SCHEMATICS
(MODEL 2115090 SERIES)
GE MEDICAL SYSTEMS
REV 2
DIRECTION 2115684-100
46-288962G1
AMX1 A2 S1
YEL (2)
(SEE NOTE)
S1
UGN3140LT
1
VCC
OUT
GND
BLK (3)
(SEE NOTE)
R4
5.1K
1%
0.125W
2
R3
3
5.1K
1%
0.125W
E
B
MMBT3906L
Q1
C
BLU (1)
(SEE NOTE)
R1
301
1%
0.125W
REV
1
#46-288962-S
SHT NO. 1
CONT ON SHT DWG
TITLE: HALL
EFFECT TUBE PARKED SENSOR BOARD
Refer to the AMX-4 Overall Wiring Schematic 2115090SCH (Section 2) for
the following:
Blue lead (1) connects to AMX1 A2 TS2-1 (Sheet 8, Zone F6)
Yellow lead (2) connects to AMX1 A2 TS2-2 (Sheet 8, Zone F6)
Black lead (3) connects to AMX1 A2 TS2-3 (Sheet 2, Zone D7)
14-3
5i
1
2
3
4
5
6
7
8
1 .
J1
B A T T E RY #
1
+
1
B A T T E RY #
B
1
+
3
B A T T E RY #
1
B A T T E RY #
1
1
1
1
8 9. 6_VDC
7 6. 8_VDC
R3
–
1
D.
S C H E M A T I
T H E
C
S P E C I
F I
C A –
S T A N D A R D S
O T H E R W I
R E S I
S E
S T O R S
S P E C I
A R E
0 .
F I
E D
2 5 W ,
1 %
A N D
N D I
C A T E D
A R E
O H M S .
A C T I
T H
V E
”
L O W
* ”
S I
G N A L S
A F T E R
T H E
A R E
S I
I
G N A L
B
N A M E
R4
B A T T E RY
T EST
P OI N T S
1 02 . 4_ VOLT_SENSE_8
R5
89 . 6_ VOLT_SENSE_7
5 1. 2_VDC
64 . 0_ VOLT_SENSE_5
R6
5 1 . 2_ VOL T_ SENSE_4
38 . 4_ VOLT_SENSE_3
3 8. 4_VDC
R7
2 5. 6 _VOL T_ SENSE_2
12 . 8_ VOLT_SENSE_1
2 5. 6_VDC
1
2
3
1
4
6
5
5
6
7
7
8
8
3
9
4
10
9
11
10
R8
1
1 2. 8_VDC
R9
R E V I
J10
S I
O N
P C N
N U M B E R
D A T E
R1 0
n
15. 0K
1%
1. 0W
G N
O F F
n
GROUND
S I
n
1
A
– – – – – –
2 5 M A R 9 3
0
– – – – – –
2 8 J U N 9 3
Y
F
F B
H
XXXX– XXX– XXX
24 –FEB– 93
2
FRED BOEHM
3
5i3
D
15. 0K
1%
1. 0W
BATTERY SENSE
VOI GHT
C
E
1
1
N
W I
H
A MX 4
A
J11
6 4. 0_VDC
– BATT
Y
O N
J9
1
4 6 – 3 2 1 3 7 0 – S
S I
15. 0K
1%
1. 0W
–
0
R E V I
J8
+
F
G R O U P
GROUND_ SENSE
+
9
4 .
15. 0K
1%
1. 0W
–
B A T T E RY #
G E
A N D
4 6 – 3 2 1 3 7 0 G 1 – A
M E E T S
J7
–
8
I
15. 0K
1%
1. 0W
E
B A T T E RY #
O F
U N L E S S
A L L
J6
+
7
O N S
C
76 . 8_ VOLT_SENSE_6
–
B A T T E RY #
3 .
15. 0K
1%
1. 0W
+
6
1 02 . 4_ VDC R 2
J5
–
D
S C H E M A T I
S
1 15 . 2_ VOLT_SENSE_9
+
5
I
15. 0K
1%
1. 0W
–
B A T T E RY #
S
N U M B E R
P W A
J4
+
4
T H I
S
15. 0K
1%
1. 0W
–
C
G R O U P
T H I
4 6 – 0 1 7 4 8 6 .
J3
1
T H E
F O R
T I
15. 0K
1%
1. 0W
–
B A T T E RY #
2 .
J2
+
2
1 15 . 2_ VDC R 1
15. 0K
1%
1. 0W
–
11
10
N O T E S :
+ BATT
A
9
4 0 4
28 – J UN– 93
4
TOM HEL MI NI AK
5
6
2 8 – J UN–9 3
7
8
9
10
11