®
Victoreen
Digital Preamplifier, Model 943-227-15,for use with
Model 943-27 Current Mode Beta Detector
Operator Manual
February 2008
Manual No. 943-227-15-1, Rev. 3
©2007, 2008 Fluke Corporation, All rights reserved. Printed in U.S.A.
All product names are trademarks of their respective companies
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Table of Contents
Section 1:
1.1
General Information............................................................................................................. 1-1
General Description ............................................................................................................... 1-1
Application.............................................................................................................................. 1-1
Specifications......................................................................................................................... 1-2
Auxiliary Equipment ............................................................................................................... 1-6
Recommend Spare Parts....................................................................................................... 1-6
Receiving Inspection.............................................................................................................. 1-6
Storage................................................................................................................................... 1-7
1.2
1.3
1.4
1.5
1.6
1.7
Section 2:
2.1
Theory of Operation............................................................................................................. 2-1
Functional Description............................................................................................................ 2-1
Main Circuit Boards................................................................................................................ 2-1
977-200-15M Electrometer Board.......................................................................................... 2-1
977-210-10M Interface Board................................................................................................ 2-4
Preamplifier Switch & Jumper Settings.................................................................................. 2-5
2.2
2.3
2.4
2.5
Section 3:
3.1
Operation .............................................................................................................................. 3-1
Installation.............................................................................................................................. 3-1
Set-Up.................................................................................................................................... 3-2
Operation ............................................................................................................................... 3-3
Configuration Functions......................................................................................................... 3-4
Set point Error Codes............................................................................................................. 3-5
Software Calculations ............................................................................................................ 3-5
3.2
3.3
3.4
3.5
3.6
Section 4:
4.1
Maintenance, Calibration and Troubleshooting ............................................................... 4-1
Maintenance........................................................................................................................... 4-1
Calibration.............................................................................................................................. 4-1
Troubleshooting ..................................................................................................................... 4-2
4.2
4.3
Appendix A:
A.1
Connector Designations .....................................................................................................A-1
Connector Designations.........................................................................................................A-1
Appendix B:
B.1
Applicable Drawings............................................................................................................B-1
Applicable Drawings...............................................................................................................B-1
Appendix C:
C.1
Bill of Materials.....................................................................................................................C-1
Bill of Materials.......................................................................................................................C-1
Appendix D:
D.1
Cable Termination Instructions..........................................................................................D-1
Cable Termination Instructions ..............................................................................................D-1
Appendix E:
E.1
Modification Sheets/Engineering Instructions............................ .....................................E-1
Modification Sheets/Engineering Instructions........................................................................E-1
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General Information
General Description
1
Section 1
General Information
1.1 General Description
The Victoreen® Model 943-227-15 Digital Preamplifier, is designed to operate with the Model 943-27,
Current Mode Beta Scintillation detector and the Model 942A-200C Series Digital Ratemeter (UDR) or the
Model 960 Series Digital Process Control system. When connected to the beta sensitive scintillation
detector, it comprises a monitoring system which operates in the range of 10-3 to 105 uCi/cc (or 1E0 to 1E8
Pico amperes). The UDR provides display, control, and annunciator functions for the monitoring system.
The preamplifier contains a microprocessor controlled, auto-zeroing, integrating electrometer, a
programmable gain amplifier, an analog-to-digital converter and an asynchronous serial communications
interface. Communications with the UDR is accomplished via the optically isolated Victoreen Serial
Communication Loop driver/receiver circuitry.
Interconnection of the detector and preamplifier is accomplished utilizing two, six (6) foot coaxial cables.
One cable supplies the high voltage for the detector (negative polarity). The other cable is used for the
detector output signal. Interconnection between the preamplifier and the UDR or 960 system is
accomplished via a six-conductor cable and a high voltage coaxial cable.
The detector operates at a potential of approximately (-) 500 VDC, and produces a nominal DC output
current of 1 x 10-12 amperes to 1 x 10-4 amperes. Depending on sampling geometry and detector set up,
this corresponds to a range of 1 x 10-3 to 1 x 10+5 uCi/cc.
The preamplifier is a self-contained electronics unit that processes the DC input signal from the detector,
digitizes the signal, and transmits the digitized value to the readout via a modified RS232C compatible
serial data communication port. It contains two printed circuit boards (mounted on the rear of the
enclosure cover, a terminal block for terminating the field cable from its associated controller and two
connectors for terminating the detector Signal and HV coaxial cables. The larger of the two printed circuit
boards is the 977-210-10M Serial Interface board. This board controls the communications with the
controller. The smaller board is the 977-200-15M Electrometer. It contains the microprocessor and
associated circuitry for converting the detector output current into a digital value.
For additional information on the detector or readout device, refer to the instruction manual for the Model
943-27-31 detector, the Model 942A-200C UDR, or the applicable Model 960 System manual.
1.2 Application
The Model 943-227-15 Digital Preamplifier is used with the Victoreen 942A-200C or Model 960
microprocessor based radiation monitors. The Model 942A-200C or 960 system provides the +15 VDC
preamplifier electronics power, (-) 500 VDC detector power and the RS232C serial communications
support. The digital preamplifier is available in two serial port configurations. For applications less than
50 feet, the Model 943-227-15, configured for RS232C communications, is used. For applications
requiring signal transmission distances of up to 1 mile, the Model 943-227-15VL, configured for Victoreen
Loop communications is used. Table 1-1 is a list of available configurations and compatible 9XX series
equipment. Please contact Fluke Biomedical Radiation Management Services for additional information.
1-1
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943-227-15 Digital Preamplifier
Operator Manual
Table 1-1. 943-227-15 Variations and Compatible Equipment
Preamplifier
Variations
Application
Detector
Readout
943-227-15 Digital
Preamplifier
Transmission
Distances
Less than 50 feet
943-27-31 Beta
Detector,
Current Mode
Operation
942A-200C Digital Ratemeter
or Model 960 Digital Process
Control System
943-227-15VL Digital
Preamplifier
Transmission
Distances up to 1
mile
943-27-31 Beta
Detector,
Current Mode
942A-200C Digital Ratemeter
or Model 960 Digital Process
Control System
Operation
943-227-15VL-M1
Digital Preamplifier
Transmission
Distances up to 1
mile; 2.0 inch conduit Current Mode
field cable interface Operation
943-27-31 Beta
Detector,
942A-200C Digital Ratemeter
or Model 960 Digital Process
Control System
1.3 Specifications
General specifications for the Model 943-227-15 Digital Preamplifier are listed below. The 943-227-15
series products are designed for nuclear applications, and any repairs to it by personnel not qualified to
ANSI 45.2.6 1978, Skill Level II may void the nuclear rating.
If a problem develops, the preamplifier may either be returned to the factory for service, or repaired by a
qualified technician.
1-2
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General Information
1
Application
Table 1-2. General Specifications for the 943-227-15 Digital Preamplifier
Feature:
Specification:
+ 15 v @ 20 mA
Preamplifier Power
DC current, 1E-12 to 1E-3 amperes from 943-27 Current Mode Beta
Scintillation detector
Preamplifier Input
943-227-15, RS232C;
943-227-15VL, Modified RS232C serial data for transmission distances up
to 5,280 feet.
± 10% of the input current
Preamplifier Output
Electronic Accuracy
Decade / Time:
1 / 80 sec
2 / 32 sec
3 / 16 sec
4 / 4 sec
Response Time
5 / 2 sec
6 / 0.9 sec
7 / 0.2 sec
8 / 0.2 sec
943-227-15 or 943-227-15VL:
8.0 in. x10.0 in. x 4.0 in.
(20.3 cm x 25.4 cm x 10.2 cm)
Dimensions
(H x W x D)
943-227-15-M1 or 943-227-15VL-M1:
8.0 in. x10.0 in. x 6.0 in.
(20.3 cm x 25.4 cm x 15.2 cm)
Approximately 8 lbs. (3.6 kg)
Weight
Gasketed, NEMA 4, Steel enclosure with hinged cover
Housing
32 °F to 122 °F
0 °C to + 50 °C
Operating Temperature
0 to 99 % non-condensing
Relative Humidity
Victoreen 943-27 Current Mode Beta scintillation detector only
Compatible Detectors
Detector cables enter thru “Seal Grip” fittings; Mating SHV receptacle
provided for HV; Mating BNC receptacle provided for Signal
Victoreen Loop Communications: 6 conductors, 18 AWG (2, TwPr, 2 Single
conductor) with overall shield. For max transmission distance, 16 AWG is
recommended;
Detector Interface
Cable Requirements
RS232C communications: 8 Conductors, 18 AWG (4 TwPr) with overall
shield.
For the Model 943-227-15VL-M1, refer to Modification description provided
in Appendix E
Modification
Information
1-3
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943-227-15 Digital Preamplifier
Operator Manual
Table 1-3. Preamplifier Serial Interface Board 977-210-10M Switch Settings
Switch Normal Switch Function
Op.
SW1
Open Microprocessor Reset switch, momentary contact
SW2
N/A
Not supplied
SW3-1
SW3-2
SW3-3
ON
OFF
OFF
OFF Selects 300 baud • 1/ON Selects 4800 baud (normal setting)
OFF • (No function is implemented in the 977-210-10M)
OFF Selects Rate Mode (normal) • (Selects Maintenance Mode for
factory PGA and Auto Zero set-up only)
SW3-4
OFF
OFF • (No function is implemented in the 977-210-10M)
NOTE
SW3 is a 4-position DIP switch on the 977-210-10M serial
interface board.
Table 1-4. Jumper Positions for Preamplifier Serial Interface Board 977-210-10M
Jumper
Normal Setting Function
Alternate Setting Function
JMP1
A to B
Enables Victoreen Loop B to C
Enables RS232C
(normal)
JMP2
N/A
Deleted, Not Used
N/A
Deleted, Not Used
Table 1-5. Jumper Positions for Preamplifier Electrometer Board 977-200-15M
Jumper
JMP1
Normal Setting Function
A to B Normal Operation
Cal. Position Function
B to C PGA Offset Adjust *
* Programmable Gain Amplifier requires a special test PROM and is a factory adjustment
1-4
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General Information
1
Specifications
Table 1-6. Field Electrical Connections, 943-227-15 and 943-227-15VL
943-227-15
Description
943-27-15VL
Description
Connects To
977-210-10M
Connects To
977-210-10M
TB1-
+ VL, 15
VDC
J4-1
J3-1
1
XMIT
J3-2
J3-3
J3-4
J3-5
J3-6
2
3
DTR
+ TX
J4-2
J4-3
GND
- TX
4
REC
- VL
J4-4
Not Used
Not Used
+ 15 VDC
Ground
- 15 VDC
Not Used
Not Used
5
+ RX
Not Used
J3-7
6
- RX
7
Not Used
Ground
Not Used
Not Used
Not Used
J3-8
J3-8
8
9
J3-4
Not Used
J3-11
10
Not Used
Detector
Connections
Detector
Connections
Detector
From Field
coaxial cable
From Field
coaxial cable
HV
Detector MHV
MHV
Factory
Factory
Terminated,
To 977-200-
15M, R41
Detector
BNC
Terminated,
To 977-200-
15M, R41
SIG
Detector BNC
Table 1-7. 977-210-10M LEDs
LED #
Indicates
LED1
+15 VDC is being supplied to the circuit board
from the UDR when ON
LED2
Communications – Receive;
ON (bright): both + 15 and -15 volt loops
present
ON (dim): Only one loop supply present
OFF: no loop voltage from either supply
Table 1-8. 977-210-10M Test points
Test Point
Function
TP2
RS232 Transmit
1-5
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943-227-15 Digital Preamplifier
Operator Manual
1.4 Auxiliary Equipment
Model
Description
None
1.5 Recommended Spare Parts
Table 1-9. Recommended Spare Parts List for the Model 943-227-15 Digital Preamplifier
Part Number Description
Used On
977-200-15M Electrometer Circuit Board
977-210-10M Serial Interface Circuit Board
-
-
92-7072
450-1-0531
Fuse, F1, F2, 1Amp, Communication Fuse
Dryer, Air (5 Grams)
977-210-10M
977-200-15
1.6 Receiving Inspection
Upon receipt of the unit:
1. Inspect the carton(s) and contents for damage. If damage is evident, file a claim with the carrier and
notify the Fluke Biomedical Radiation Management Services Customer Service Department.
Fluke Biomedical
Radiation Management Service
6045 Cochran Road
Cleveland, Ohio 44139
Phone: 440.248.9300
Fax: 440.542.3682
2. Remove the contents from the packing material.
3. Verify that all items listed on the packing list have been received and are in good condition.
NOTE
If any of the listed items are missing or damaged, notify the
Fluke Biomedical Radiation Management Service Customer
Service Department.
1-6
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General Information
Spare Parts/Receiving Inspection
1
1.7 Storage
Storage of Fluke Biomedical instruments must comply with Level B storage requirements as outlined in
ANSI N45.2.2 (1972) Section 6.1.2(.2). The storage area shall comply with ANSI N45.2.2 (1972) Section
6.2 Storage Area, Paragraphs 6.2.1 through 6.2.5. Housekeeping shall conform to ANSI N45.2.3 (1972).
Level B components shall be stored within a fire resistant, tear resistant, weather tight enclosure, in a
well-ventilated building or equivalent.
Storage of Fluke Biomedical instruments must comply with the following:
1. Inspection and examination of items in storage must be in accordance with ANSI N45.2.2 (1972)
Section 6.4.1.
2. Requirements for proper storage must be documented and written procedures or instructions must
be established.
3. In the event of fire, post-fire evaluation must be in accordance with ANSI N45.2.2 (1972), Section
6.4.3.
4. Removal of items from storage must be in accordance with ANSI N45.2.2 (1972), Sections 6.5 and
6.6.
1-7
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Theory of Operation
Functional Description
2
Section 2
Theory of Operation
2.1 Functional Description
The Model 943-227-15 Digital Preamplifier is an eight-decade, linear reading radiation. The preamplifier
is sensitive to moisture and is mounted in a NEMA 4 sealed enclosure. The preamplifier box contains a
desiccant package to remove moisture from the interior of the preamplifier. The desiccant has a color
indicator to show when it should be replaced when the color changes to blue.
The detector electrometer converts the current from the detector to a voltage which is measured by the
analog to digital converter of the preamplifier. Under program control, this measurement is made every
50 milliseconds on the first five decades and every 100 milliseconds on the upper three decades.
The electrometer is auto-ranging and auto-zeroing. An internal coarse zero control (factory adjusted) is
provided. The microprocessor in the preamplifier performs data collection, integration and multiplication
by a stored calibration factor, range changing and communication with the Model 942A-200C Digital
Ratemeter or Model 960 Digital Process Radiation monitoring system.
2.2 Main Circuit Boards
The wide range ion chamber detector block diagram is shown in figure 2-1. Detector electronics are
contained within two circuit board assemblies located in the preamplifier enclosure: the 977-210-10 High
Voltage/Communications Interface circuit board assembly and the 977-200-15 Electrometer circuit board
assembly. Schematic diagrams are located in Appendix B.
The 977-200-15M Electrometer circuit board contains the microprocessor, the EPROM, the integrating
electrometer, the programmable gain amplifier, the analog to digital (A/D) converter, and the auto zero
DAC circuit.
The 977-210-10M Communications Interface circuit board contains the dc voltage regulator, the BDC/DC
converter, the asynchronous communication interface adapter (ACIA), the Victoreen communication loop
driver/receiver, the RS232 communications driver/receiver, and the communication loop fuses.
2.3 977-200-15M Electrometer
Refer to the electrometer schematic 977-200-18M located in Appendix B. Z7 is a Texas Instruments TMS
70C00 microprocessor, which is utilized to control detector operation. Z8 latches port C of the
microprocessor to form the lower order bits of memory address. Z10 is a 27C64 EPROM containing the
operational firmware for the detector. Z18 is an optional RAM socket which is not utilized for this model
detector. Z9 is a decoder for the upper order address bits. Z11 is a latch used to store control bits to
select the gain of the programmable gain amplifier formed by the combination of Z5, Z4, and RN2.
Available gains are 1 through 128 in binary increments 1, 2, 4, . . . 128. Z3 is an eight-bit analog to digital
converter used to digitize the output of the programmable gain amplifier. Analog switch Z17 pin 11
selects either the integrating electrometer or the high voltage sense line as the input to the programmable
gain amplifier is not active in this application. Refer to Table 2-1 for preamplifier register addresses and
Table 2-2 for electrometer control bit assignments.
2-1
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943-227-15 Digital Preamplifier
Operator Manual
0/-12 Vdc
0 - 10 Vdc
DAC
ALARM
OUTPUT
INTEGRATING
ELECTROMETER
EPROM
MICROPROCESSOR
ACIA
PGA
ANALOG
SWITCH
ADC
SIGNAL
CONTROL
HIGH VOLTAGE
POWER SUPPLY
HIGH VOLTAGE
Resistor
+VL
+TX
DETECTOR
ASSEMBLY
VICO
LOOP
RS232
Resistor
-TX
+RX
-RX
-VL
MICROPROCESSOR
CONTROL
SIGNAL
Figure 2-1. Typical Detector Electronics Block Diagram
Table 2-1. Preamplifier Register Addresses
Function
Hex Address
2000
4000
6000
A000
Electrometer Control
ADC Convert CMD
ADC Read Data
ACIA T/R Data
ACIA Status Register
ACIA Command Register
ACIA Control Register
Input SW3
A001
A002
A003
A008
RAM (not used)
EPROM
C000-DFFF
E000-FFFF
2-2
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Theory of Operation
Main Circuit Boards
2
Table 2-2. Electrometer Control Bit Assignments
Bit Position
7
6
5
4
3
2
0
0
0
0
1
1
1
1
X
X
X
X
1
0
0
1
1
0
0
1
1
X
X
X
X
0
0
1
0
1
0
1
0
1
X
X
X
X
Description
Gain = 1
Gain = 2
Gain = 4
Gain = 8
Gain = 16
Gain = 32
Gain = 64
Gain = 128
Unshort capacitor
Short capacitor
Digitize electrometer
Digitize high voltage
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
0
X
X
X
X
X
X
X
X
0
1
X
X
1
X = Bit position does not matter (1 or 0)
The integrating electrometer is formed by the combination of current source Z6, dual MOSFET Q4,
operational amplifier Z12, transistor Q3, and analog switch Z17, pin 15.
Counter Z15 and ladder network RN3 form the auto-zero portion of the integrating electrometer. Refer to
section 4 for auto-zero adjustment instructions (note this is a factory only adjustment).
Dual MOSFET Q4 acts as a low leakage input buffer to the electrometer. C17 is an integrating capacitor,
while Z17, pin 15 and Q3 are the shorting elements of the integrator.
There is a hysteresis built into the range changing function of the electrometer. The range change-up
occurs at the decade points whereas the range change-down occurs at 80% of the decade points. This
hysteresis results in the display of only two significant digits when in the upper 20% of a decade.
Whether or not this occurs depends on which direction the radiation level is trending. An increasing trend
will result in three significant digits while a decreasing trend will result in two significant digits.
The response times for a change in reading within the same decade are listed in Table 2-1. If a change
of 100 to 1000 times the current reading occurs, the instrument will range change within a single 50-
millisecond clock cycle.
Table 2-3. Response Time
DECADE
RANGE
RESPONSE TIME
80 sec.
32 sec.
16 sec.
4 sec.
1
2
3
4
5
6
7
8
0.1 to 1.0 mR/h
1.0 to 10 mR/h
10 to 100 mR/h
100 to 1000 mR/h
1.0 to 10 R/h
10 to 100 R/h
100 to 1000 R/h
1.0 k to 10 kR/h
2 sec.
0.9 sec.
0.2 sec.
0.2 sec.
2-3
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943-227-15 Digital Preamplifier
Operator Manual
The following Test are provided on the 977-200-15M board:
Table 2-4. 977-200-15M Test Points
Test Point
TP1
Function
Electrometer Output
TP2
Analog +5 VDC supply
TP3
- 5 VDC supply
TP4
TP5
TP6
TP7
Digital +5 VDC supply (From 977-210-10M)
High Voltage Sense (Not Used)
+ 12 VDC supply (From 977-210-10M)
DC Ground
TP8
TP9
TP10
Programmable Gain Amplifier Output
Microprocessor Clock Signal
Chip Enable - EPROM
2.4 977-210-10M Interface Board
Refer to the Communications Interface, P/N 977-210-13M, schematic diagram in Appendix B. U12 is an
asynchronous communications interface adapter (ACIA) which communicates with the UDR or 960
system. U1 is an analog switch used to select either the Victoreen loop or the RS232 driver/receiver for
external communications. Optical isolation U10 isolates data transmitted on the Victoreen loop while the
circuitry comprised of Q6, Q7, Q14, and Q18 are the actual loop drivers. Optical isolator U8 isolates the
receive data from the Victoreen loop.
U2 and U3 are, respectively, the receiver and driver circuits for the RS232 port. U14 decodes address
block A000 to provide chip enables to the ACIA switch input register U6.
Regulated power for the electronics (+/- 12 VDC) is derived from three terminal regulators VR3 and VR4.
The ±5 Vdc logic power is derived from the three terminal regulators VR1 and VR2.
Power for the detector is normally provided by the electronic high voltage power supply in the associated
Model 942A-200C UDR or Model 960 System.
The following LEDs are provided to indicate operation of certain functions of the 977-210-10M board:
Table 2-5. 977-210-10M LEDs
LED #
Indicates
LED1
+15 VDC is being supplied to the circuit board
from the UDR when ON
LED2
Communications – Receive;
ON (bright): both + 15 and -15 volt loops
present
ON (dim): Only one loop supply present
OFF: no loop voltage from either supply
The following Test are provided on the 977-210-10M board:
Table 2-6. 977-210-10M Test points
Test Point
Function
TP2
RS232 Transmit
2-4
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Theory of Operation
2
Communications
Victoreen Communications Loop – 943-227-15VL
Communication between the detector preamplifier and the UDR or 960 controller may be performed via
Victoreen loop, a serial asynchronous communications interface. The communication utilizes Victoreen
protocol and is intended for use in electrically hostile environments where high noise immunity is required.
Noise immunity is achieved using differential line driving, and electrically isolating the end of each
transmit/receive pair with opto-isolators. Using a ±15 Vdc communications power supply, each 0 to 1
transition is equivalent to a 30-volt swing in loop voltage. Refer to the Model 942-200-80-1
Communications Board instruction manual for further information.
Jumper JP1 controls the communication communications method employed. JP1, A-B selects Victoreen
loop communications.
RS232C Communications – 943-227-15
Communication between the detector preamplifier and the UDR or 960 controller may be performed via
RS232C serial asynchronous communications interface. Jumper JP1 controls the communication
communications method employed.
JP1, B-C selects RS232C communications.
2.5 Preamplifier Switch & Jumper Settings
Switch and jumper settings for the preamplifier are summarized in Table 2-7, 2-8, and 2-9.
Table 2-7. Preamplifier Serial Interface Board 977-210-10M Switch Settings
Switch Normal Switch Function
Op.
SW1
Open Microprocessor Reset switch, momentary contact
SW2
N/A
Not supplied
SW3-1
SW3-2
SW3-3
ON
OFF
OFF
OFF Selects 300 baud • 1/ON Selects 4800 baud (normal setting)
OFF • (No function is implemented in the 977-210-10M)
OFF Selects Rate Mode (normal) • (Selects Maintenance Mode for
factory PGA and Auto Zero set-up only)
SW3-4
OFF
OFF • (No function is implemented in the 977-210-10M)
NOTE
SW3 is a 4-position DIP switch on the 977-210-10M serial
interface board.
2-5
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943-227-15 Digital Preamplifier
Operator Manual
Table 2-8. Jumper Positions for Preamplifier Serial Interface Board 977-210-10M
Jumper
Normal
Setting
A to B
Function
Alternate Function
Setting
JMP1
B to C
Enables RS232C
Enables Victoreen Loop
(normal)
JMP2
N/A
Deleted, Not Used
N/A
Deleted, Not Used
Table 2-9. Jumper Positions for Preamplifier Electrometer Board 977-200-15M
Jumper
Normal
Setting
A to B
Function
Cal.
Position
B to C
Function
JMP1
Normal Operation
PGA Offset Adjust *
* Programmable Gain Amplifier requires a special test PROM and is a factory adjustment
2-6
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Operation
Installation
3
Section 3
Operation
3.1 Installation
Installation consists of mounting the equipment, making the required electrical connections, and entering
the desired set points.
CAUTION
Remove all power prior to installing the
Preamplifier.
Preamplifier Mounting
The preamplifier is a self-contained unit that is designed for mounting on a wall, or structurally sound
surface, within 6 feet of the detector. The preamplifier must be located in an area that is accessible for
future maintenance.
CAUTION
Remove all power prior to connecting field wiring.
Electrical Interface
Electrical connections at the preamplifier include connecting the detector high voltage and signal coaxial
cables and the field cable from the associated controller.
The detector high voltage and signal cables enter the preamplifier through “Seal Grip” type penetrations
on the enclosure body. The “Seal Grips” contain a rubber gland that is intended to grip the coaxial cables
to prevent moisture entry into the enclosure. The “Seal Grips” are an integral part of the detector cables.
The “Seal Grip” enclosure nut is removed from the fitting. The insulating washer stay with the fitting. The
detector signal and high voltage cables, with connectors and “Seal Grip” fitting nuts are then inserted into
the holes preamplifier enclosure. The “Seal Grip: end fittings are then re-installed securely against the
wall of the enclosure.
The detector Signal (BNC) and High Voltage (SHV) cables are then terminated on the bulkhead
connectors located on the enclosure inner panel.
On the 943-227-15 or 943-227-15VL, the field cable is terminated on a “MS” type connector. A mating
“MS” style connector supplied with the detector. It is not necessary to open the preamplifier enclosure to
complete the interconnection to the associated controller.
On the 943-227-15VL-M1, a 2.0-inch conduit hub is provided to interface with the field conduit system
and cable. The field conduit is connected to the preamplifier conduit hub and the field cable is routed
through the conduit and into the preamplifier enclosure. The field signal cable is then terminated on the
terminal block in the enclosure. Refer to the applicable wiring diagram or Table 3-1. The high voltage
coax cable is then terminated on the mating SHV connector. Refer to Appendix D for further information.
A desiccant bag is provided in the enclosure to absorb moisture. The desiccant bags should be checked
for moisture absorption prior to placing into service. Each bag contains a color indicator stripe that turns
red when it should be replaced.
3-1
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943-227-15 Digital Preamplifier
Operator Manual
NOTE
The electrometer circuitry in the preamplifier is highly sensitive to
moisture and physical damage. Use extreme care when the
preamplifier case is opened as the high impedance electrometer
circuitry is easily damaged.
Do not leave the preamplifier
enclosure in the open position for any extended period of time.
The preamplifier terminations are listed below.
Table 3-1. 943-227-15 Preamplifier Electrical Connections
943-227-15
943-27-15VL
Connects To
977-210-10M
Connects To
977-210-10M
TB1-
Description
Description
+ VL, 15
VDC
J4-1
J3-1
1
XMIT
J3-2
J3-3
J3-4
J3-5
J3-6
2
3
DTR
+ TX
J4-2
J4-3
GND
- TX
4
REC
- VL
J4-4
Not Used
Not Used
+ 15 VDC
Ground
- 15 VDC
Not Used
Not Used
5
+ RX
Not Used
J3-7
6
- RX
7
Not Used
Ground
Not Used
Not Used
Not Used
J3-8
J3-8
8
9
J3-4
Not Used
J3-11
10
Not Used
Detector
Connections
Detector
Connections
Detector
From Field
coaxial cable
From Field
coaxial cable
HV
Detector MHV
MHV
Factory
Factory
Terminated,
To 977-200-
15M, R41
Detector
BNC
Terminated,
To 977-200-
15M, R41
SIG
Detector BNC
3.2 Set-up
To place the system in operation, the following steps should be performed:
NOTE
Ensure you have read and fully understand
Section 1, 2 and 3 prior to continuing.
1. Verify that jumpers and DIP switches and jumpers on the preamplifier, are set for the operational
features desired. Refer to Section 1, Table 1-4.
2. Refer to the applicable controller manual prior to powering up the controller.
3-2
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Operator Manual
3-3
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Operation
Configuration
3
3.3 Operation
Operation of the 943-227-15 Digital Preamplifier is automatic and is controlled by the Model 942A-200C
Digital Ratemeter or Model 960 Digital Process Radiation monitoring system. Once the power to the
controlling device is turned on, the preamplifier begins operation. No operator interaction is required.
Refer to the instruction manual for the applicable controller, detector and the Model 942-200-80
Communications Option Board for further information.
Normal Operation
If the measured radiation field is within the range of the detector during power-up, the uCi/cc value will be
displayed on the controller. The digital display will update once per second.
Alarms
The radiation alarms are initiated by the applicable controller. Refer to the applicable controller manual.
Fail Alarm
There are two equipment failure conditions that can produce a FAIL output or an error display on the
associated controller. The fail condition is true whenever any equipment failure is detected and false
when no equipment failures are detected.
The following are the fail alarms provided by the 943-227-15 Preamplifier:
1. POWER Failure
2. Loop Test Failure
To return the channel to normal operation after a FAIL alarm, the condition, which caused the alarm, must
be located and corrected.
Power Failure
If the power to the controller is lost, the bar graph, alarm indicators, and the display are blanked (turned
off). The HIGH, WARN, and FAIL relay coils will de-energize. If power to the preamplifier only is lost, or if
there is a break in the power cable, operation of the microprocessor will stop. The display on the
controller will then cease to update. If power to the controller is not lost, a break in the interconnecting
wiring or the internal communication power fuses on the 977-210-10M Interface board should be
checked. Loss of power to the preamplifier will also result in a loop communication failure.
Loop Failure
If the UDR or 960 controller does not receive a valid message from the preamplifier in ten seconds, a loop
failure is detected and an E0009 code will normally be displayed. Note the error code displayed is
defined by the controlling device, and not by the preamplifier.
The loop failure can originate from bad seating of the serial communications board in the UDR or 960CD,
bad connections in the preamplifier, bad connections at the P2 connector of the UDR, a baud rate
mismatch between the setting on the serial board and that in the preamplifier, an invalid address setting
on the serial board, or blown communication loop fuses.
The baud rate of the preamplifier may be set to either 300 or 4800 baud. SW3-1 on the 977-interface
board must be in the ON position to select a baud rate of 4800 baud, the normal setting.
3-4
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943-227-15 Digital Preamplifier
Operator Manual
For UDR systems, the address of the 942-200-80 Communications board in the UDR must be set 4040
and the baud rate must be set to 4800 baud. If the wiring of the Communications option board to the P2
connector is suspected, a loop test can be performed as described in "Loop Test Mode". The instruction
manual for the Communications option board (P/N 942-200-80-1) contains information on how to set up
the serial board in the UDR.
Firmware Version
This system requires a PROM for operation. For the part number and the latest revision of the PROM,
see the Factory Test Data Sheet. This Manual has been prepared for use with the P/N 227LNK, Rev. 2,
PROM.
3.4 Configuration Functions
The preamplifier configuration jumpers and required settings for this application are listed below:
Table 3-2. Preamplifier Serial Interface Board 977-210-10M Switch Settings
Switch Normal Switch Function
Op.
SW1
Open Microprocessor Reset switch, momentary contact
SW2
N/A
Not supplied
SW3-1
SW3-2
SW3-3
ON
OFF
OFF
OFF Selects 300 baud • 1/ON Selects 4800 baud (normal setting)
OFF • (No function is implemented in the 977-210-10M)
OFF Selects Rate Mode (normal) • (Selects Maintenance Mode for
factory PGA and Auto Zero set-up only)
SW3-4
OFF
OFF • (No function is implemented in the 977-210-10M)
NOTE
SW3 is a 4-position DIP switch on the 977-210-10M serial
interface board.
Table 3-3. Jumper Positions for Preamplifier Serial Interface Board 977-210-10M
Jumper
Normal
Setting
A to B
Function
Alternate Function
Setting
JMP1
B to C
Enables RS232C
Enables Victoreen Loop
(normal)
JMP2
N/A
Deleted, Not Used
N/A
Deleted, Not Used
Table 3-4. Jumper Positions for Preamplifier Electrometer Board 977-200-15M
Jumper
Normal
Setting
A to B
Function
Cal.
Position
B to C
Function
JMP1
Normal Operation
PGA Offset Adjust *
* Programmable Gain Amplifier requires a special test PROM and is a factory adjustment
3-5
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Operation
Configuration
3
3.5 Set Point Error Codes
Failure of the 943-227-17 preamplifier may result in the following error codes being displayed on the
controlling device:
Code E0009 is normally used to identify a Loop communication failure. The error code may be due to a
baud rate mismatch between the preamplifier and the UDR or 960 system communication board, a failure
on either the preamplifier or UDR communication board. To clear the error code, the source of the error
must be corrected.
3.6 Software Calculations
The 943-227-17 continuously converts the current output of the detector to a digital value, controls the
gain of the internal amplifier, performs periodic self checks, communicates with the UDR or Model 960
controller and provides a radiation value to the UDR of Model 960. An asynchronous, serial
communication interface, processed through optically isolated drivers/receivers is utilized. The digital
value is transmitted to the associated UDR or 960 System controller for further processing. Refer to the
associated controller manual for further information. .
3-6
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Maintenance, Calibration and Troubleshooting
4
Maintenance
Section 4
Maintenance, Calibration and Troubleshooting
4.1 Maintenance
The 943-227-15 Digital Preamplifier is designed to operate for extended periods of time with no
scheduled maintenance required. Operation may be verified by periodically actuating the check source
(provided with the detector and sampling assembly) and observing the response of the unit. If the
response varies by more than 50% of the normal value, further troubleshooting may be required. If a
problem develops, troubleshoot the unit per Section 4.3 and the drawings in Appendix B.
Whenever the preamplifier enclosure is opened, the condition of the internal desiccant package should be
checked. The desiccant bag is provided in the enclosure to absorb moisture. The desiccant bags should
be checked for moisture absorption prior to placing into service, or whenever the electronics enclosure
cover is opened. Each bag contains a color indicator stripe that turns red when it should be replaced.
4.2 Electronic Calibration
Electronic Adjustments
There are no user adjustments available on the 943-227-15 Digital Preamplifier. The Programmable Gain
Amplifier and Auto Zero are factory adjustments, requiring the use of a factory test PROM and test fixture.
We strongly recommend the unit be returned to the factory for repair or adjustment.
Table 4-2 lists the electronic adjustments for the 943-227-15 digital preamplifier. The procedures for
making these adjustments are contained in the factory Calibration Procedure listed below. Note that
special test firmware is required to perform the electrical adjustments.
Table 4-1. Electronic Adjustments
Potentiometer
R11
R12
Adjustment (943-227-15)
Programmable Gain Amplifier Offset Adjustment
Auto Zero Set-Up Adjustment
Tolerance
± 2 mV
± 10 mV
NOTE
Refer to the drawings in Appendix B to locate adjustment
and/or test points, if required.
The follow factory calibration and test procedures are listed for reference only.
Document
Description
TP943-227-15VL
TP943-227-15
TP977-200-15M
Test Procedure, Victoreen Loop Communications
Test Procedure, RS232 communications
Electrometer PCB Test Procedure
4-1
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943-227-15 Digital Preamplifier
Operator Manual
4.3 Troubleshooting
WARNING
Extreme care must be used when troubleshooting a
system that has power applied.
troubleshooting precautions apply.
All standard
WARNING
Once a problem has been located, remove all power
before continuing with the repair.
CAUTION
Personnel performing the troubleshooting/repair
must be qualified to ANSI 45.2.6, 1978, Skill Level II.
Personnel performing the following procedure must
be familiar with the operation of the monitoring
system and the location of each piece of equipment
used in the system.
If a problem develops, verify that the voltages at connection point inputs and outputs are present and that
all wiring is secure. Refer to Appendix B and C for drawings and parts lists. If a PROM requires
replacement, specify the board revision level when ordering the part.
Troubleshooting / Adjustments
Troubleshooting includes a verification of the LED operation status, the DC voltage levels and the loop
communication loop fuses (Victoreen Loop Communications only).
Specialized test equipment and firmware are required to adjust the auto-zero and PGA subsystems in the
electrometer. If the test equipment and firmware is not available, the unit should be returned to Fluke
Biomedical RMS for re-alignment.
4-2
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Appendix
Connector Designations
A
Appendix A
Connector Designations
A.1 CONNECTOR DESIGNATIONS,
943-227-15 and 943-227-15VL
Table A-1. Field Electrical Connections, 943-227-15 and 943-227-15VL
943-227-15
943-27-15VL
Connects To
977-210-10M
Connects To
977-210-10M
TB1-
Description
Description
+ VL, 15
VDC
J4-1
J3-1
1
XMIT
J3-2
J3-3
J3-4
J3-5
J3-6
2
3
DTR
+ TX
J4-2
J4-3
GND
- TX
4
REC
- VL
J4-4
Not Used
Not Used
+ 15 VDC
Ground
- 15 VDC
Not Used
Not Used
5
+ RX
Not Used
J3-7
6
- RX
7
Not Used
Ground
Not Used
Not Used
Not Used
J3-8
J3-8
8
9
J3-4
Not Used
J3-11
10
Not Used
Detector
Connections
Detector
Connections
Detector
From Field
coaxial cable
From Field
coaxial cable
HV
Detector MHV
MHV
Factory
Factory
Terminated,
To 977-200-
15M, R41
Detector
BNC
Terminated,
To 977-200-
15M, R41
SIG
Detector BNC
A-1
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943-227-15 Digital Preamplifier
Operator Manual
A.2 SWITCH AND JUMPER POSITIONS,
943-227-15 and 943-227-15VL
Table A-2. Preamplifier Serial Interface Board 977-210-10M Switch Settings
Switch Normal Switch Function
Op.
SW1
Open Microprocessor Reset switch, momentary contact
SW2
N/A
Not supplied
SW3-1
SW3-2
SW3-3
ON
OFF
OFF
OFF Selects 300 baud • 1/ON Selects 4800 baud (normal setting)
OFF • (No function is implemented in the 977-210-10M)
OFF Selects Rate Mode (normal) • (Selects Maintenance Mode for
factory PGA and Auto Zero set-up only)
SW3-4
OFF
OFF • (No function is implemented in the 977-210-10M)
NOTE
SW3 is a 4-position DIP switch on the 977-210-10M serial
interface board.
Table A-3. Jumper Positions for Preamplifier Serial Interface Board 977-210-10M
Jumper
Normal
Setting
A to B
Function
Alternate Function
Setting
JMP1
B to C
Enables RS232C
Enables Victoreen Loop
(normal)
JMP2
N/A
Deleted, Not Used
N/A
Deleted, Not Used
Table A-4. Jumper Positions for Preamplifier Electrometer Board 977-200-15M
Jumper
Normal
Setting
A to B
Function
Cal.
Position
B to C
Function
JMP1
Normal Operation
PGA Offset Adjust *
* Programmable Gain Amplifier requires a special test PROM and is a factory adjustment
A-2
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Appendix
Applicable Drawings
B
Appendix B
Applicable Drawings
B.1 Applicable Drawings
943-227-15 and 943-227-15VL
Drawing No.
Description
943-227-15
Preamplifier Assembly, RS232
943-227-15VL
943-227-15VL-M1
977-210-10M
977-210-13M
977-200-15M
977-200-18M
Preamplifier Assembly, Victoreen Loop
Preamplifier Assembly, Victoreen Loop, w/Conduit Hubs
Preamplifier HV/Interface Printed Circuit Board Assembly
Preamplifier Printed Circuit Board Schematic
Preamplifier Electrometer Board Assembly
Preamplifier Schematic
B.2 Related Manuals (Not Supplied with this document)
SXXXXXX-1
942A-200C-M1
943-27-31-1
Applicable 960 Series system Manual
Digital Ratemeter
Current Mode Beta Detector
B-1
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Appendix
Bill of Materials
C
Appendix C
Bill of Materials
C.1 Bill of Materials- 943-227-15 and 943-227-15VL
Part Number
Description
943-227-15
Preamplifier Assembly, RS232
Preamplifier Assembly, Victoreen Loop
Preamplifier Assembly, Victoreen Loop, w/Conduit Hubs
Preamplifier HV/Interface Printed Circuit Board Assembly
Preamplifier Electrometer Board Assembly
943-227-15VL
943-227-15VL-M1
977-210-10M
977-200-15M
C-1
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Appendix
Cable Termination Instructions
D
Appendix D
Cable Termination Instructions
D.1 Cable Termination Instructions
The procedures and instructions provided in Appendix D are provided for reference in terminating the field
cables to the Digital Preamplifier. A mating SHV connector is provided with the preamplifier. Ring lug
terminals are to be provided by the user. The instructions provided below are based on the use of P/N
50-100 multi-conductor cable. For other customer-supplied cables, the same basic procedures, modified
for the specific cable used, may be utilized.
Detector Cable Termination:
The detector high voltage and signal cables enter the preamplifier through “Seal Grip” type penetrations
on the enclosure body. The “Seal Grips” contain a rubber gland that is intended to grip the coaxial cables
to prevent moisture entry into the enclosure. The “Seal Grips” are an integral part of the detector cables.
The “Seal Grip” enclosure nut is removed from the fitting. The insulating washer stays with the fitting.
The detector signal and high voltage cables, with connectors and “Seal Grip” fitting nuts are then inserted
into the holes preamplifier enclosure. The “Seal Grip: end fittings are then re-installed securely against
the wall of the enclosure.
Detector Field Cable Preparation, “MS” Connector:
Prior to stripping the outer cable jacket, a 4-inch length of 0.75 I.D. shrinkable tubing (provided by the
user) should be slid over the 0.675 in cable jacket. The shrink tubing will be used to seal and protect the
end of the cable after the termination process is completed. To prepare the cable for termination, a
minimum of 7 inches of the cable outer jacket must be stripped off the cable. This will allow for the
stripping of approximately one inch from the various conductors, and provide 6 inches of actual service
loop cable. In addition, for EMI/RFI protection, the drain wire must be terminated to an earth ground
within the enclosure. The length of the drain wire will be based on the distance between the cable entry
and the ground location. The length of cable jacket to be stripped will then be based on the distance to
the drain wire grounding point.
Once the cable outer jacket is stripped to the proper length, the aluminum tape shield and Mylar binder
may be removed, taking care not to damage the No. 20 AWG drain wire. The drain wire may then be
separated from the remaining conductors, for routing and termination at the grounding point.
Next, the HV coaxial cable may be separated from the bundle, followed by the single conductors wires
that are required for the specific application, and the polyester filler cord. Refer to the project specific
detector loop drawing, or the generic detector loop drawing provided in Appendix B for actual conductors
to be used.
The polyester filler cord may now be removed. Cut the cord as close to the outer jacket as possible.
The single conductors may now be stripped and soldered to the appropriate connector pin.
D-1
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Operator Manual
Detector Field Cable Preparation, 943-227-15VL-M1, Conduit Hub:
Prior to terminating the cable, the field conduit must be run to the junction box, and the field cable pulled
into the junction box.
To prepare the cable for termination, a minimum of 7 inches of the cable outer jacket must be stripped off
the cable. This will allow for the stripping of approximately one inch from the various conductors, and
provide 6 inches of actual service loop cable. In addition, for EMI/RFI protection, the drain wire must be
terminated to an earth ground within the enclosure. The length of the drain wire will be based on the
distance between the UDR rear panel and the ground location. The length of cable jacket to be stripped
will then be based on the distance to the drain wire grounding point.
Once the cable outer jacket is stripped to the proper length, the aluminum tape shield and Mylar binder
may be removed, taking care not to damage the No. 20 AWG drain wire. The drain wire may then be
separated from the remaining conductors, for routing and termination at the grounding point.
Next, the HV coaxial cable may be separated from the bundle, followed by the single conductors wires
that are required for the specific application, and the polyester filler cord. Refer to the project specific
detector loop drawing, or the generic detector loop drawing provided in Appendix B for actual conductors
to be used. The ring lug connectors may now be applied to the single conductor cables, and installed in
accordance with the project electrical loop diagram.
Trim each conductor as required to reach its assigned terminal point. Allow a minimum of 1 in. spare
conductor for future re-termination. Because of the unique requirements of each installation, terminal
lugs for the detector single conductor terminations are not included, and are supplied by the user. Ring
terminal, Crimp type lugs, Burndy YAE type, sized for the 18 AWG wire, or equivalent, are recommended.
The terminal block is designed to accept a maximum 14 AWG conductor, and is provided with 6-32
mounting screws. Strip the conductor as required by the lug manufacturer, install the lug, and terminate
the conductor to the appropriate terminal. The screw terminals may now be torqued to 12 in-lbs.
The mating HV connector, P/N 30-92-1 (Kings 1705-14), may now be terminated per the applicable Kings
data sheet attached.
The polyester filler cord may now be removed. Cut the cord as close to the outer jacket as possible
D-2
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Appendix
Cable Termination Instructions
D
HV CONNECTOR NOTES (HV)
The mating HV connector, P/N 30-92-1 (Kings 1705-14), may now be terminated per the applicable Kings
data sheet attached
LOCATION
P/N
DOCUMENT
DESCRIPTION
SHV
SHV
92-9105-A
(1705-1)
CP-400, Kings
Cabling
Procedure, Trim Code
441, 442
High Voltage Connector,
SHV, male crimp contact
pin (Use Tool KTH-100 with
KTH-2062)
SHV
Alternate
AMP Instruction
Sheet
408-2187
High Voltage Connector,
SHV, male crimp contact
pin (Use Tool 69710-1 with
220028-2 Die or Integral
Die Tool 220022-2)
Connector
92-9105-A
(51426-5)
SHV
32-92-1
(1705-14)
CP-1001, Kings Cabling
Procedure, CP-1000,
High Voltage Connector, SHV,
Female solder contact pin
D-3
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Operator Manual
D-4
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Appendix
Cable Termination Instructions
D
D-5
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943-227-15 Digital Preamplifier
Operator Manual
D-6
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Appendix
Cable Termination Instructions
D
D-7
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943-227-15 Digital Preamplifier
Operator Manual
D-8
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Appendix
Modifications
E
Appendix E
Modification Sheets, Engineering Instructions
E.1 Modification Sheets, Engineering Instructions
P/N
Description
943-227-15VL-M1
Modification consists of replacing the standard 8in
H x 10in W x 4in D Enclosure with a 8in H x 10in W
x 6in D Enclosure and replacing the field cable
“Seal Grip” type entry fitting with a 2.0 in diameter
sealed conduit fitting.
E-1
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Fluke Biomedical
6045 Cochran Road
Cleveland, Ohio 44139
440.498.2564
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