Shimadzu UD 150L-30 EX User manual
Installation Guide
For
UD 150L-30 EX/FX
UD150L30-FX/EX Installation Guide, REV_B Page 1 of 35
Contents
1. General information
1.1 Component location
1.2 Mandatory modification
2. Connection of the system
2.1 Power transformers
2.2 Cable connection
3. Settings and adjustments
3.1 Settings
3.2 Adjustments
4. Appendix
A. Mandatory modification
B. List of error message
C. List of Potentiometers
D. List of LEDs
E. Initial Setting for Software
F. Fluoro mA setting
G. RAD60 and RAD 56 tube data
UD150L30-FX/EX Installation Guide, REV_B Page 2 of 35
1. General information
• Component location
Before starting the installation, locate all major components and PCBs in the generator. Following
three figures is the illustration for component location.
Figure 1-1 Front View of UD150L-30/FX
UD150L30-FX/EX Installation Guide, REV_B Page 3 of 35
Figure 1-2 Front view of UD150L-30/FX (open swing panel)
UD150L30-FX/EX Installation Guide, REV_B Page 4 of 35
Figure 1-3 Back view of UD150L-30/FX
UD150L30-FX/EX Installation Guide, REV_B Page 5 of 35
2. Connection of the system
2.1 Power transformers
• A step down transformer, (XAT-2) is normally shipped together with this generator for installation.
This transformer can provide proper power input for UD150L-30 FX/EX generator, YSF/RS table
system, HMS/AID high-speed starter, and other peripheral accessories.
• There are two other transformers in UD150L-30 FX/EX generator are power related, T1 and T2
transformer. It is necessary to change taps for these two transformers according to the supplied input
from XAT-2 before proceeding.
(1) T1 transformer,
For example, if the incoming power is three-phase 400V from XAT-2, connect AIN-0 to –A200 and
AIN-2 to A200.
(2) T2 transformer,
Connect T2-0 to –200 and T2-2 to 200 base on the same assumption as (1).
2.2 Cable connection
• Power cable
Hospital breaker (3 φ 480V) XAT-2 transformer (3 φ 400V) Control cabinet
U I/P O/P UN Power terminal
V I/P O/P VN
W I/P O/P WN
GND GND GND GND Terminal block
Note: Only ground one end of the shielding on the three-phase power cable to prevent ground loop
from happening. Refer to Fig. 2.4.3 in the installation manual.
• Control console
Control console Control cabinet
J62 J 62 System LF 30 PCB
J63 J63I/OLFXPCB
Frame GNDTerminalstrip
J9 HandSwitch
• High speed starter (HMS or AID)
Connect JS1 cable between SYSTEM-LF 30 PCB and high speed starter by using JS1 connector kit in
the accessory package shipped with this generator.
Following table is the description of the signal used for high speed starter
Signal Meaning Signal Meaning
2 Normal speed rotation 1M Tube 1 selection
7 High speed rotation 2M Tube 2 selection
H2 Normal speed confirmation SBK Starter fault signal
H7 High speed confirmation CM1 Return for 7, H7, and SBK (0V DC)
F Fluoro tube rotation CM2 Return for 2 and H2 (+15V DC)
SP1 Spot film CM3 Return for F and SP1 (L0)
CM4 Return for 1M and 2M (+15V DC)
UD150L30-FX/EX Installation Guide, REV_B Page 6 of 35
The procedures to set up or programming the starter can be found in the installation and service
manual of HMS-3. Follow the instruction in Section 6 on page 11. (X-ray tube must be connected to
perform setup mode.)
• Table power
If a SHIMADZU table is to be installed, connect 3 φ200 V from XAT-2 step down transformer to the
power input terminal block for table.
• Table interface with generator
UD150L-30 FX YSF-220
I/O LFX J7 J7 EXTENSION PCB
J7 CN36
J8
MOTHER2-LF30
J
8
CN36 GENERATOR
I
/
F P
C
B
UD150L30-FX/EX Installation Guide, REV_B Page 7 of 35
• Bucky connection
CAUTION: If UD150L30-FX is equipped only with SHIMADZU Bucky, YOU MUST
DISCONNECT CABLES between TERMINAL-LF30 and TERMINAL LFX PCB. This includes
1B11, 1B1, 1B22, 1B2, 2B11, 2B1, 2B22, and 2B2 terminals on TERMINAL-LF30 PCB. Tape all
disconnected terminals separately and secure them with other cables. Then connect Bucky cable
directly to TERMINAL-LF30 PCB as stated below. Fail to disconnect the cable between these two
boards will damage TERMINAL-LF30 PCB.
CONNECTION OF SHIMADZU BUCKY SYSTEM
TERMINAL-LF30 PCB SHIMADZU BUCKY
L 100
X 2
24 V DC
L 100
L 100
* 1B 22
* XOK
BUCKY 1
L 0
K 25 A
K 27 B
K 31
24 V DC
1B11
1B1
1B22
1B2
Note 1
Note 2
B1
B2
L 100
L 0
GRID MOVING
CONFIRMATION
AC POWER TO
DRIVE BUCKY
GRID MOTOR
##
## Add Jumper
Note 1: *1B22 is a DC signal within TERMINAL-LF30 PCB. When selecting Bucky1, 1B22 is at DC
ground. However, 1B22 at terminal X2 is a AC 100 volt power supply to drive grid motor in Bucky.
DO NOT mix these two signals by adding any extra jumpers for trouble shooting purpose.
Note 2: *XOK is the signal to turn on X-ray. Can be found in SYSTEM-LF30 PCB print 10/18.
(M74A pin 2)
UD150L30-FX/EX Installation Guide, REV_B Page 8 of 35
CONNECTION OF NON-SHIMADZU BUCKY SYSTEM
L 100
24 V DC
24 V DC
K 27 B
K 31
* 1B22
BUCKY 1
* XOK
L 0
1 B11
1 B1
1 B22
1 B2
X 2
TERMINAL-LF30 TERMINAL-LFX NON-SHIMADZU BUCKY
JD 2 X0 1D
X0 1E
9
8
1
2
K 03
L 0
L 100
9
10
1 B22X
1 B2X
1 B1X
1 B11X
41
32
JP 2C
JB 2B
JB 2A
CONFIRMATION OF
GRID MOVING
RETURN SIGNAL
POWER SUPPLY TO
DRIVE GRID MOTOR
GRID MOTOR
CAUSION: MAKE SURE THERE
HAS NO JUMPER CONNECTED HERE
• Change jumper positions according to the voltage on 1 B11X.
JP 2C: AC 100-125 V JP 2B: DC 24 V JP 2A: DC 12 V
Jumper position of JP 2A, JP 2B, and JP 2C depends on the voltage of from 1 B11X, grid confirmation
signal provided by the Bucky system. If Bucky provide a 24 V DC signal to 1 B11X, when grid is
moving, install JP 2B to 1-4 position, and JP 2C, JP 2A to 2-3 position. Then connect 1 B1X to 24 V
DC ground. Make sure only one jumper is installed on 1-4 position and the other two on 2-3 position.
• Connection of I. I. Mag. mode selection signal
I.I. Mag. mode signal is connected via a new cable, I.I. View-field switching cable (P/N 532-15191)
provided for this generator. This cable connects between JSK terminal on TERMINAL-LF30 PCB and
IS connector attached to I.I. (Refer to Circuit diagram SYSTEM-LF30 15/18)
UD150L-30/FX YSF series table
TERMINAL-LF30 PCB GENERATOR I/F PCB
JSK IS J9C
View-field switching cable Adapter
UD150L30-FX/EX Installation Guide, REV_B Page 9 of 35
• I.I. mode signal for under table collimator
UD150L-30/FX YSF series table
TERMINAL-LF30 PCB GENERATOR I/F PCB
JXS XS
XS cable (collimator control) Adapter
• I.I. Mag. Mode selection output
TERMINAL-LF30 PCB has several terminals for I.I. Mag. mode output selection. These terminals are
IF0, IF1, IF2, IF3, and IF4. Mag. mode output is to provide interface for Digital products. IF signals
are routed through the onboard relay contacts.
TERMINAL-LF30 PCB INFIMED or CAMTRONICS
Common (DC24V) [IF0] Common
Non-Mag. [IF1]
Mag1 [IF2] Mag 1
Mag2 [IF3] Mag 2
Mag3 [IF4] Mag 3
Note: Same signal names used to be the I.I. Mag. mode selection input to the previous models of the
X-ray Generators. With new UD150L-30/FX, these signal names are used for the output.
• I.I. cable connection
New cable connector is provided to improve the installation quality.
UD150L-30/FX I.I.
TERMINAL-LF30 PCB POWER SUPPLY
JTH-RB
• PMT cable from I.I.
When using photomultiplier tube for digital exposure (IFG technique) and fluoro IBS regulation,
connect PMT cable for I.I. as the following table.
PH POWER-96 PCB Phototimer signal cable
M1 M1 (-HV)
M2, M3 (common) M2, M3
M4 M4 (Signal)
E E
• Fluoro IBS signal connection, case 1
In case of using PMT to regulate Fluoro IBS, add a jumper between CP6 on PH-POWER PCB to TV7
on ANALOG-LF30 PCB (X1 pin3).
UD150L30-FX/EX Installation Guide, REV_B Page 10 of 35
• Fluoro IBS signal connection, case 2
When using TV signal to regulate fluoro IBS, a shielded co-axial cable should be connected from TV
camera to ANALOG-LF30 PCB.
UD150L-30/FX TV system
ANALOG-LF30 PCB TV 7 IBS signal Shielded cable
TV 2 0 V
• Photo timing connection
• For SHIMADZU Bucky with SPT photo timing connection, check the installation manual section 6.2.
• If you programmed the Comet Chambers to Detector 2, follow the stated below diagram for
connection.
Comet Chamber PH CONT-98 PCB
1
2
3
4
1
2
3
4
SIGNAL
SIGNAL
CN2-DTA
PLUG
1
2
SIGNAL
CN2-DTB
in case of DET 2
1
2
Left
Field
Right
Field
Center
Field
Plug
2
5
3
4
1
6
You can change the connection anyway you like. Just make sure the connection stay in the same
group. For example,
CN1-DTA and CN1-DTB are for Detector 1
CN3-DTA and CN3-DTB are for Detector 3
UD150L30-FX/EX Installation Guide, REV_B Page 11 of 35
Setting
Change the position of SW1 to ON position according to the position where Comet Chamber is
connected.
For example, if Comet was connected to DET2, set SW1-3 to ON.
SW1-2 SW1-3 SW1-4
DET1 DET2 DET3
Adjustments
Left Center Right Short Time Long Time *
DET1 R58 R64 R61 R22 R21
DET2 R56 R62 R59 R22 R86
DET3 R57 R63 R60 R22 R87
* SW2: LTC ON
UD150L30-FX/EX Installation Guide, REV_B Page 12 of 35
3. Settings and adjustments
3.1 Settings
• NEXSC PCB
SW1 Reset switch
SW2
1 2 3 4 5 6 7 8
OFF ON
OFF *
OFF ON ON
OFF *
ON
OFF *
OFF ON
OFF *
SW2-2 ON For UD150L-30EX
SW2-2 OFF For UD150L-30FX
SW2-5 ON Display measured values
SW2-5 OFF Normal position
SW2-6 ON Serial port communication available
SW2-6 OFF Normal position
SW2-8 ON Initial setting mode
SW2-8 OFF Normal position
SW3
1 2 3 4 5 6 7 8
ON
OFF *
OFF OFF OFF ON
OFF *
ON *
OFF
ON *
OFF
ON
OFF *
SW3-1ON Initialize this PCB, use with SW2-8
SW3-1 OFF Normal position
SW3-8 ON For FVR mode adjustments
SW3-8 OFF Normal position
Note: SW3-5, SW3-6 and SW3-7 are available only if SW2-6 is ON. SW2-6 provides the serial port
function of NEXSC PCB.
SW3-5 ON Initialize SRAM when SW2-6 is OFF
SW3-5 OFF Normal position
SW3-5 ON Download data to PC when SW2-6 is ON
SW3-5 OFF Upload data from PC
SW3-6 ON Serial port at 9600 bps, 8 bits, non-parity, stop bit 1
SW3-6 OFF Serial port at 38600 bps, 8 bits, non-parity, stop bit 1
SW3-7 ON Normal use for operating terminal
SW3-7 OFF Download/upload mode
• SYSTEM-LF30 PCB
SW1 PREP
SW2 X-ray (RAD)
SW3-1 ON When using SHIMADZU CCD camera
SW3-1 OFF When using other camera
SW3-2 ON
SW3-2 OFF
UD150L30-FX/EX Installation Guide, REV_B Page 13 of 35
• ANALOG-LF30 PCB
SLIDE SWITCH: S1 Normally on S side
SW2
1 2 3 4
OFF On ON OFF
• PH POWER-96 PCB
SLIDE SWITCH
S7 S8 S9 S10
PM INT ON AUTO
Photo pick up type Int or Ext Setting for Ba comp LTC on/off PMT HV setting mode
SW5
1 2 3 4 5 6
OFF OFF OFF OFF OFF OFF
• PH CONT-98 PCB
SLIDE SWITCH: S2 LTC ON
SW1
1 2 3 4 5 6 7 8
OFF OFF* OFF* OFF* OFF OFF OFF OFF
* SW1-2: DET1 OFF or control SW1-3: DET2 SW1-4: DET3
• TERMINAL-LF 30 PCB
Jumper between terminal block X1-5 and X1-6 (DOOR 1 and DOOR 2)
If there was no door safety switch, make jumper on DOOR1 and DOOR2.
3.2 Adjustments
3.2.1 First power on
Before power on, confirm the following
The input voltage UN, VN, and WN at the control cabinet side should be 3 φAC 400 volt. If you don’t
have this voltage as the input to control cabinet, check the internal 3 φtaps in XAT-2 transformer.
Check taps on T1 and T2 transformer. According to UN, VN and WN, T1 and T2 should be connected
as follow,
(1) T1 transformer,
Connect AIN-0 to –A200 and AIN-2 to A200.
(2) T2 transformer,
Connect T2-0 to –200 and T2-2 to 200.
Disconnect JM2 (135V AC) on ANALOG-LF30 PCB, so that no power will supply to filaments.
UD150L30-FX/EX Installation Guide, REV_B Page 14 of 35
3.2.2 Power ON check up
• Check all DC and AC power according to the table below.
Name Measuring point Voltage Note
T2 transformer 10LA-0LA 10.5V + 1V
100LB-0LB 105V + 10V
T1 transformer L100-L0 AC 105V + 5V
L125-L0 AC 130V + 10V
A125-A0 AC 125V + 5V Without Load
A200-A0 AC 200V + 15V
135C-0C AC 142V + 10V
20T-0T AC 21V + 2V
DC power supply J73/J74 4-7 DC +5V + 50mV PS1
J73/J74 2-5 DC +15V + 400mV PS1
J73/J74 6-5 DC -15V + 400mV PS1
J75 1-4 DC +24V + 600mV PS2
• Make sure MG-RS is activated. If not, turn power off immediately, and manually push the button on
MG-RS to see if that was a mechanical jam. Also, check the cable connection on it. Fire accident could
happen if this is not working.
• Check to see if the charging voltage on VC+ and VC- (ANALOG-LF30 CP72 and CP73) is within
range. (+10%) (3 φ400 V input power to generator will results the charging voltage on VC+ and VC-
approximately to be 560V) If not, you need to check the power line and XAT-2 again.
• Perform IGBT Gate check as the following and make necessary adjustments before conducting X-ray.
(Please check this part after you finish initial settings)
Procedures:
1) Power off generator and wait about 5-10 seconds.
2) Measure VC+ and VC- with DVM to insure the charging voltage were all discharged.
3) Disconnect J202 and J203 on ANALOG-LF30 PCB to disable MG-L and MG-RS.
4) Add jumper between CP42 CVP1 and GND test point on ANALOG-LF30 PCB. Add another
jumper between the cathode side of D27 and CP58 +15V. (Connection Diagram ANALOG-
LF30 9/27) Add another jumper between CP52 CHECK1 and CP56 CHECK2 on ANALOG-
LF30 PCB.
5) Connect oscilloscope channel one to CP1 E and CP2 G on GATE DRIVER-99 PCB mounted
on IGBT-QA.(Probe signal on CP2, ground on CP1)
6) Connect scope channel two the same as channel one on IGBT-QC. (Float ground on channel
two probe to prevent ground loop)
7) Set amplitude 5V and time 5 µsec. per division for both channels on the scope. Place the
ground for both channels at the center of screen as well.
8) Turn on power of generator and select General Radiographic Mode. Then set 100 kV, 100
mA, and 2.5 sec.
9) Make an exposure and wait about 0.1 to 1 second until the X-ray operation reach to its steady
state.
10) Observe the waveforms and make the following adjustments if necessary.
11) Adjust VR12 PULSE ADJ on ANALOG-LF30 PCB so that the pulse width is 10.0 + 0.5 µ
sec. at 5 V level. Also, check the phase difference is 11.1 + 0.5 µsec. at 0 V level. The
positive peak voltage is less than 20 V and flat level is at 15 V or a little higher. The negative
flat level is about –6 V. Repeat step 9) and 11) several times for the best results you can
achieve. (Compare the waveform with the attached waveform.)
UD150L30-FX/EX Installation Guide, REV_B Page 15 of 35
12) Switch both probes to IGBT-QB and IGBT-QD side for the same purpose. Adjust VR12 on
ANALOG-LF30 again if necessary. Reconnect J202, J203 and remove all jumpers for normal
operation.
QD QC
QB QA
IGBT layout
Sample Waveform
• Reset everything back to normal condition.
3.2.3 Initial setting
• System initialization
It is recommended to perform system initialization for new installation and when PROMs were
replaced. All information in PROMs will set to default after initialization.
Procedures:
Set S2-8 and S3-1 on NEXSC PCB to ON position.
Turn power on.
Make sure “INI.MENU” has started up. Press initial setting end key “CALCULATE” will show on
screen. Then “CALCULATE END” appears about 10 seconds later.
End of initialization.
UD150L30-FX/EX Installation Guide, REV_B Page 16 of 35
• Initial settings (Appendix E for reference)
Following is the general procedures for initial settings. Different installation could have different tube
combination, device rating, and special accessories. Please check Installation Manual section 3.2 for
this part.
Turn on S2-8 on NEXSC PCB.
Go through the following mode base on the components for installation.
General Mode
Tube data mode
Non standard tube mode (must program this mode for non-SHIMADZU tubes. Contact SMS for tube
data)
Option mode
3.2.4 Verification and calibration
• Seasoning X-ray tubes
Select FVF (section below) mode to perform seasoning U.T. tube.
Turn off IBS. Connect D.V.M. to CP 38 on ANALOG-LF30 PCB and adjust R1 so that the reading is
2V+0.1V. (pre-heat value)
Turn off SW2-2 on ANALOG-LF-30 PCB. Set fluoro 50 KV manually. Turn on x-ray. Adjust FVF on
the console to obtain tube current 1mA+0.2mA.
Keep fluoroing for 10 minutes. Increase KV at the rate of 10 KV/min.
When seasoning O.T. tube, increase 10 KV each time started from 80 KV until reaching max. KV.
Select large focus, 0.1 second, and 320 mA. Make x-ray at the rate of one exposure per minute. Repeat
the same technique twice. (refer the section below for radiographic tube current adjustments)
• FVR mode calibration (Radiographic tube current calibration)
Turn power off. Set SW2-5 and SW3-8 to ON position on NEXSC PCB. Turn SW2-2 OFF on
ANALOG-LF30 PCB. Connect oscilloscope to CP54 TmA and CP3 TKV on ANALOG-LF30 PCB.
(5V/100KV, 1V/200mA)
Turn power on. LCD screen will display “FVR Set Mode”.
Select the tube, focus, and mA station to be calibrated. Set exposure time to 32 msec.
Adjust IF value after each exposure. For example, 4.35V of IF reading means 4.35A provided to
filament. (refer to Installation Manual 3.6.3)
Compare the actual reading on the control panel with the reading from oscilloscope.
Record the IF values in the following chart.
Make a copy of this chart for the second tube adjustments.
Tube # IF Value
Focus mA 40KV 60KV 80KV 100KV 125KV 150KV
S
L
UD150L30-FX/EX Installation Guide, REV_B Page 17 of 35
• FVF mode calibration
1) First, you need to set mA curve at ANALOG-LF30 PCB first before you adjust FVF, Fluoro
filament heating. Refer to Appendix F and page 18/27 of ANALOG-LF30 connection diagram.
2) Turn off S2-2 on ANALOG-LF30 PCB to disable tube current feedback. (Make sure to turn it ON
after you finish this calibration)
3) Connect a DVM at FmA3, CP79 at ANALOG-LF30 PCB. Set DC reading for DVM.
4) Turn on generator power and turn off IBS. In FVR mode, press Page Down key to enter FVF Set
Mode.
5) Set fluoro KV to 50 and make x-ray. By pressing “+” or “-“ key will change FVF setting.
6) Observe the reading of DVM and the mA reading on the operator panel. By changing FVF setting,
to match the reading on the panel with FmA3.
7) Record the FVF data by pressing the WRITE key.
8) Repeat the same procedure for other KV stations, i.e., 60, 80, 90, 100, 110, and 115.
9) Record FVF value in the following table.
FKV
50 60 80 90 100 110 (115)
FmA 0.3 0.5
FVF
Note: For high KV exposures, make sure you close the collimator shutters to protect the I.I. and
camera.
• Flash circuit (heating) adjustments
This adjustment is only needed for a FX (two tubes) model, i.e., when FSP, IFG, or XDR are used.
Select large focal spot. Turn on fluoro about several seconds, then turn on spot.
Observe the waveform at CP84 on ANALOG-LF30 PCB. Adjust VR17, FLL, to obtain a flat
waveform. Check other mA stations for the same purpose.
Conduct the same test for small focal spot, adjust VR18, FLS, if necessary.
• IBS adjustments
First, set the maximum fluoro KV. Make a jumper between CP52, CHECK1, and CP56, CHECK2, at
ANALOG-LF30 PCB. Disconnect J202 at the same PCB. By, doing this, no high voltage will apply to
the tube.
Connect a D.V.M. to CP 27 FKVA and GND at ANALOG-LF30 PCB. Select IBS ON. Turn on fluoro,
adjust VR 11 FKV MAX at ANALOG-LF30 PCB until 115 KV is displayed on the control console. At
the same time, check the reading on D.V.M. for 5.75 V. (1V/20KV)
Turn power off. Connect everything back. Set the probe to check table top maximum dose. If 115 KV
results the maximum dose more than 10R/min, you need to repeat the same procedure for a lower KV
setting.
Second, adjust the IBS response on ANALOG-LF30 PCB by adjusting VR10, IBS RES.
When fluoro is on, move a 2mm copper plate in and out the field quick. If you see fluctuation of the
brightness on monitor, change VR 10 position. Try several times until the best results cab be obtained.
3.2.5 PC connection
• Software maintenance and troubleshooting is possible for this generator. It has the capability to
communicate with PC computer via NEXSC PCB and RS-232 port. Download and upload the
information stored in the PROMs, such as initial settings, calibration data, and APR info, to PC can be
useful for service. Error message can be obtained through PC connection.
• Necessary Parts for this purpose are
PC with WIN95, WIN98, or WIN NT installed.
9 pin female to female null modem cable
• Detail procedures can be found in the Installation Manual Section 12.
UD150L30-FX/EX Installation Guide, REV_B Page 18 of 35
4. Appendix
A. Mandatory modification
• Modification of SYSTEM-LF30 PCB is mandatory for the following version
SYSTEM-LF 30 BOARD (501-79573) B or earlier Rev.
SYSTEM-LF 30 ASSY (501-79752) D or earlier Rev.
If you have Rev. E or after, there is no need for you to perform this modification.
• Symptom
M96 IC and DM7 diode pack on SYSTEM-LF30 PCB gets hot and burned out.
Photo Timer does not work.
• Cause
When SYSTEM-LF 30 PCB connects to J7 EXTENSION PCB of YSF table, +12 V DC or +15 V DC
is supplied through J8 pin B10 from table to SYSTEM-LF 30 PCB due to two unnecessary trace on
SYSTEM-LF 30 PCB. As a result, DM7 pin 2 and M96A pin 18 (*KBO) is always at logic high and
both components finally get burned out.
• Modification procedures
Cut the two traces on the solder side of SYSTEM-LF 30 PCB as described in figure 1.2-1 and figure
1.2-2 below. Also, make a label of this modification and stick it on the machine.
Figure A-1 The position of the traces to cut on SYSTEM-LF 30 PCB solders side
UD150L30-FX/EX Installation Guide, REV_B Page 19 of 35
J8 on SYSTEM-LF 30 PCB
*APR1 ________1 A1 EXPWC ________2 B1
*APR3 ________3 A2 *APR2 ________4 B2
*APR5 ________5 A3 *APR4 ________6 B3
*HX1C ________7 A4 *APR6 ________8 B4
EXPWB ________9 A5 *AR1C _______10 B5
*EXPEB _______11 A6 *EXTEA _______12 B6
*EXTED _______13 A7 *EXTEC _______14 B7
*RDER _______15 A8 *EXTEE _______16 B8
*FEXP _______17 A9 *HDEV _______18 B9 Cut
EXPWA _______19 A10 *KBO _______20 B10
*FDV2 _______21 A11 *FDV1 _______22 B11
*FDV4 _______23 A12 *FDV3 _______24 B12
*FLM1 _______25 A13 *FDV5 _______26 B13
*FLM3 _______27 A14 *FLM2 _______28 B14
*SETON _______29 A15 *IBSIN _______30 B15
*AR1B _______31 A16 *HX1B _______32 B16
GND _______33 A17 *GND _______34 B17
GND _______35 A18 *GND _______36 B18
*AR11 _______37 A19 *IBSOUT _______38 B19 Cut
*HX11 _______39 A20 *FLO _______40 B20
*APRB _______41 A21 *APRA _______42 B21
*APRD _______43 A22 *APRC _______44 B22
*APRF _______45 A23 *APRE _______46 B23
*FLU2 _______47 A24 *FLU1 _______48 B24
*HX1 _______49 A25 *BUZ430 _______50 B25
*TEA _______51 A26 *AR1 _______52 B26
*TEC _______53 A27 *TEB _______54 B27
*TEE _______55 A28 *TED _______56 B28
+15 V _______57 A29 *+15 V _______58 B29
+15 V _______59 A30 *+15 V _______60 B30
Figure A-2 Wiring information on J8 connector of SYSTEM-LF 30 PCB
UD150L30-FX/EX Installation Guide, REV_B Page 20 of 35
This manual suits for next models
1
Table of contents
Other Shimadzu Medical Equipment manuals
