LUDLUM 500-2 User Manual

LUDLUM MODEL 500-2

PULSER

September 2015

Serial Number 206262 and Succeeding

Serial Numbers

LUDLUM MODEL 500-2

PULSER

September 2015

Serial Number 206262 and Succeeding

Serial Numbers

STATEMENT OF WARRANTY

Ludlum Measurements, Inc. warrants the products covered in this manual to be free of
defects due to workmanship, material, and design for a period of twelve months from the
date of delivery. The calibration of a product is warranted to be within its specified
accuracy limits at the time of shipment. In the event of instrument failure, notify Ludlum
Measurements to determine if repair, recalibration, or replacement is required.

This warranty excludes the replacement of photomultiplier tubes, G-M and proportional
tubes, and scintillation crystals which are broken due to excessive physical abuse or used
for purposes other than intended.

There are no warranties, express or implied, including without limitation any implied
warranty of merchantability or fitness, which extend beyond the description of the face
there of. If the product does not perform as warranted herein, purchaser’s sole remedy
shall be repair or replacement, at the option of Ludlum Measurements. In no event will
Ludlum Measurements be liable for damages, lost revenue, lost wages, or any other
incidental or consequential damages, arising from the purchase, use, or inability to
product

.

use

RETURN OF GOODS TO MANUFACTURER

If equipment needs to be returned to Ludlum Measurements, Inc. for repair or calibration, please send to
the address below. All shipments should include documentation containing return shipping address,
customer name, telephone number, description of service requested, and all other necessary information.
Your cooperation will expedite the return of your equipment.

ATTN: REPAIR DEPARTMENT
501 OAK STREET
SWEETWATER, TX 79556

LUDLUM MEASUREMENTS, INC.

800-622-0828 325-235-5494

FAX 325-235-4672

Table of Contents

Introduction 1

Specifications and Controls 2

Power 2-1
Pulse Output 2-1
High Voltage Readout 2-1
Pulse Rate 2-1
Pulse Amplitude 2-1
Pulse Polarity 2-1
Accessories 2-2

Getting Started 3

Measuring Instrument High Voltage 3-2
Determining Pulse Height Threshold 3-2
Electronic Count Rate Calibration 3-3
Determining Dose Rate Conversion 3-4
“Bottom Range” Calibration 3-4

Safety Considerations 4

Environmental Conditions for Normal Use 4-1
Cleaning Instructions and Precautions 4-1
Warning Markings and Symbols 4-2
Replacement of Main Fuse 4-3

Maintenance and Recalibration 5

Maintenance 5-1
Recalibration 5-1

Recycling 6

Parts List 7

Model 500-2 Pulser 7-1
Pulser Board, Drawing 208 X 61 7-1
Readout Board, Drawing 208 X 176 7-3
HV Readout Board, Drawing 208 X 145 7-4

Ludlum Measurements, Inc. September 2015

Readout Controller, Drawing 208 x 173 7-4
Amplitude Readout Board, Drawing 208 x 17 7-5
Wiring Diagram, Drawing 208 X 181 7-5

Drawings and Diagrams 8

Ludlum Measurements, Inc. September 2015

Model 500-2 Pulser Technical Manual Section 1

Section

1

Introduction

he Ludlum Model 500-2 Pulse Generator (Pulser) provides the
functions necessary for use in calibrating Ludlum instruments, as

T

Potentiometers (both coarse and fine controls) and a multiplier switch
provide rates from 10 to 9.9 x 106 counts per minute (cpm). Pulse amplitude
is controlled by a multiplier switch and a LO/HI potentiometer, while pulse
polarity is chosen by a selector switch. Amplitude may be varied between 0
±5 volts; displayed on a four-digit LED readout. The high voltage of the
instrument under test is displayed on a four-digit LED readout.

well as many other scaler/ratemeter instruments. The adjustable
output pulse rate is displayed on a three-digit LED readout.

Ludlum Measurements, Inc. Page 1-1 September 2015

Model 500-2 Pulser

Model 500-2 Pulser Technical Manual Section 2

Section

2

Specifications and Controls

0

Power: 95-135 Vac, 50/60 Hz at less than 20 volt-amperes

Pulse Output: standard connector “C” type (“C” cable is provided)

High Voltage Readout: measured by a high-impedance voltmeter up to

1999 volts on the PULSE OUT connector. Voltmeter impedance is

1000 megohms ±10%. Voltmeter linearity is ±5% of the reading.

Pulse Rate: six multiplying ranges provide pulse rate settings of X0.1

through X10K, displayed on a three-digit LED readout. Minimum pulse
rate is 1 cpm, while the maximum pulse rate is 9,900,000 cpm, with

accuracy better than ±2% of the reading.

Pulse Amplitude: read on a four-digit LED readout. Four scales are

provided: 0-5 millivolts, 0-50 millivolts, 0-500 millivolts and 0-5volts.
The desired range is selected using the four position switch. Actual pulse
amplitude is within 10% of the reading.

Note

If the Pulse Rate is above 500 cpm with the range multiplier
switch set to X10K, a slight decrease in overall pulse amplitude
may occur.

Pulse Polarity: The output pulse polarity may be selected by a switch

located on the front panel. Total pulse width is typically 7.0
microseconds, comprised of a leading edge of 0.3 microseconds, a pulse
flat top of 1.7 microseconds and a pulse trailing edge of 5 microseconds.
The positive pulse width is less than 2.25 microseconds.

.

Ludlum Measurements, Inc. Page 2-1 September 2015

Model 500-2 Pulser Technical Manual Section 2

Accessories: Series “C” to “BNC” and “C” to “MHV” adapters are

provided.

Note

If the pulse amplitude from the Pulser exceeds ten times the
input sensitivity of the test instrument, double pulsing may
occur in the instrument under test.

Ludlum Measurements, Inc. Page 2-2 September 2015

Model 500-2 Pulser Technical Manual Section 3

Section

3

Getting Started

he Ludlum Model 500-2 Pulser (Pulser) is commonly used to
calibrate a variety of radiation detection (survey) equipment to a

T

by measuring high voltage, determining pulse height threshold, and feeding
simulated pulses to an instrument. The basic methods associated with
calibrating such equipment will be covered in this section, giving the first
time user some valuable principles to build upon as he/she becomes more
proficient in the task of electronic calibration.

Before calibrating any piece of survey equipment, some information about
that piece of equipment would be of much value and can often found in
respective instrument manuals:

certain count rate (CPS-counts per second, CPM-counts per
minute, KCPM-kilo counts per minute, etc.). This is accomplished

1. You should know the polarity of the detector to be used with
the instrument. Most radiation detection instruments used with
GM (Geiger Muller), proportional, or scintillation detectors
produce a negative pulse.

2. You must know the type of detector used with that particular
instrument. This is important because the Pulser actually
emulates the detector.

3. It is helpful to know the voltage requirements of the detector
that will be used with the instrument (often 900 Vdc is required
for GM detectors). High voltage requirements for scintillation
detectors are determined by the detectors’ plateau.

4. Does the instrument you want to calibrate utilize an
intermediate preamp or “smart” electronics at the detector? Be
aware that the pulser cannot simulate a detector in these cases.

Ludlum Measurements, Inc. Page 3-1 September 2015

Model 500-2 Pulser Technical Manual Section 3

If you are calibrating an instrument with an analog display, you will first want
to ensure that the meter movement has proper mechanical zero.
Adjustments are typically on the front of the meter bezel and must be
made with the instrument power OFF and the instrument in its normal
handheld (or “resting”) position.

Measuring Instrument High Voltage

Use a detector cable of identical length of that which is used in normal
operation of the instrument to connect the instrument to the pulser. Turn
the pulser power switch to the ON position.

Ensure that the instrument power is ON and then adjust the high-voltage
output (consult instrument manual) for a proper high-voltage reading on the
pulser high voltage meter face. Remember, high-voltage requirements are
based on the detector that will be used with the instrument.

Determining Pulse Height Threshold

On the pulser, adjust the AMPLITUDE, and –NEG/+POS Pulse Polarity
to that which is specified in the particular instruments’ instruction manual
(and/or plateau graph) and calibrate if necessary/applicable.

If an instrument manual is not available, the following procedure can be
used to determine pulse height threshold.

With the instrument being calibrated set to the highest range, adjust the
pulser count rate until the meter reads full scale. Then, adjust the pulser
AMPLITUDE down until a 25% loss of counts is read on the meter face.
Record the pulse height threshold from the pulser amplitude readout/meter.

Test above and below the threshold by adjusting the pulser AMPLITUDE
while observing a rapid increase or decrease (corresponding to increase or
decrease in amplitude) in meter counts.

The pulser can also be used to set the pulse height threshold on instruments
with an adjustable threshold. The procedure is basically the same as the
preceding procedure. If the desired threshold has not been achieved, adjust
the threshold control and repeat this procedure until the desired results are
met.

Ludlum Measurements, Inc. Page 3-2 September 2015

Model 500-2 Pulser Technical Manual Section 3

Electronic Count Rate Calibration

Once the high voltage is set, and the pulse height threshold has been
determined, use the following procedure to electronically calibrate the
instruments’ ranges.

First, make certain that the pulser AMPLITUDE is set to at least 1.5 times
the pulse height threshold of the instrument being calibrated. With the
instrument in the highest range, adjust the pulser pulse frequency
(MULTIPLIER, FINE and COARSE controls) to provide a meter
deflection (on the instrument being calibrated) of approximately 80% of
full scale. Make instrument adjustments to obtain the proper reading (range
potentiometers are commonly used). Check the 20% scale indication by
reducing the Pulser count rate by a factor of 4. The instrument being
calibrated should read within 10% of the actual pulse rate.

Decrease the pulse rate of the pulser by a decade and adjust the range on
the instrument being calibrated to the next lower range. Calibrate as
described above, working your way down through the remaining ranges
and making adjustments as needed.

For more detailed information on electronic calibration of Ludlum
Measurements instruments utilizing the Ludlum Model 500-2 Pulser,
contact Ludlum Measurements, Inc. Training Department, and/or consult
Ludlum Measurements, Inc. specific instrumentation manuals for the
instruments being calibrated.

CAUTION!

At Ludlum Measurements Inc., instrument calibration also
involves the detector to be used and a source of radiation of
similar energy to that which would be seen in normal use.
The preceding steps detail only the electronics side of an
instrument calibration, and do not take into account the
effects of dead time, or the efficiency of the detector(s) to be
used.

Ludlum Measurements, Inc. Page 3-3 September 2015

Model 500-2 Pulser Technical Manual Section 3

Determining Dose Rate Conv ersion

The pulser is also frequently used (in accordance with ANSI N323-1997,
section 4.2) to determine a conversion constant between count rate and dose
rate after an instrument has been calibrated to dose rate (on a range). This
conversion constant can then later be used for “Bottom Range” alibration
(see next section).

The following is an example of how a conversion constant is determined in
a Model 12SA MicroR Survey Meter, assuming the instrument has already
been calibrated to dose rate:

With the pulser delivering 350,000 cpm and with the instrument in the
X1000 Range, calibrated to 2 on the meter face, the conversion constant

would be calculated: 350,000 ⁄ (2 x 1000) = 175 cpm per µR/hr.

Furthermore, with the pulser delivering 175,000 cpm and with the
instrument in the X1000 Range, calibrated to 1 on the meter face, the

conversion constant would be calculated: 175,000 ⁄ (1 x 1000) = 175
cpm per µR/hr.

This conversion (or “calibration”) constant should remain linear
throughout the ranges of the instrument and should be checked by
following the preceding equation.

“Bottom Range” Calibration

The pulser is also frequently used (in accordance with ANSI N323-1997,
section 4.2) to calibrate the lowest range of a scintillation
detector/instrument, where background radiation levels introduce significant
errors.

For instance, with the conversion constant above of 175 cpm per µR/hr

(for the Model 12SA) the bottom range (X1) would be electronically
calibrated as follows:

Apply 350 cpm and calibrate the X1 range to a meter reading of 2.

Apply 175 cpm and calibrate the X1 range to a meter reading of 1.

Ludlum Measurements, Inc. Page 3-4 September 2015

Model 500-2 Pulser Technical Manual Section 4

Section

4

Safety Considerations

Environmental Conditions for Normal Use

Indoor use only

No maximum altitude

Temperature range of -20 to 50 °C (-4 to 122 °F)

Maximum relative humidity of less than 95% (non-condensing)

Mains supply voltage range of 95-135 Vac (178-240 Vac available),
50/60 Hz single phase (less than 100 mA)

Maximum transient voltage of 1500 Vac

Installation Category II (Overvoltage Category as defined by IEC 1010-

1)

Pollution Degree 2 (as defined by IEC 664)

Cleaning Instructions and Precautions

The Model 500-2 Pulser may be cleaned externally with a damp cloth, using
only water as the wetting agent. Do not immerse the instrument in any
liquid. Observe the following precautions when cleaning:

1. Turn instrument OFF and disconnect the instrument power

cord.

2. Allow the instrument to sit for one minute before cleaning.

Ludlum Measurements, Inc. Page 4-1 September 2015

Model 500-2 Pulser Technical Manual Section 4

Warning Markings and Symbols

Caution!

The operator or responsible body is cautioned that the
protection provided by the equipment may be impaired if the
equipment is used in a manner not specified by Ludlum
Measurements, Inc.

The Model 500-2 Pulser is marked with the following symbols:

ALTERNATING CURRENT (AC) (IEC 417, No,. 5032) - designates
an input receptacle that accommodates a power cord intended for
connection to AC voltages. This symbol appears on the back panel.

PROTECTIVE CONDUCTOR TERMINAL (per IEC 417, No.,

5019) – designates the central grounding point for the safety ground. This
symbol is visible inside the chassis.

CAUTION (per ISO 3864, No. B.3.1) – designates hazardous live voltage
and risk of electric shock. During normal use, internal components are
hazardous live. This instrument must be isolated or disconnected from the
hazardous live voltage before accessing the internal components. This
symbol appears on the back panel. Note the following precautions:

Warning!

The operator is strongly cautioned to take the following
precautions to avoid contact with internal hazardous live parts
that are accessible using a tool:

1. Turn the instrument power OFF and disconnect the power
cord.

2. Allow the instrument to sit for one minute before accessing
internal components.

Ludlum Measurements, Inc. Page 4-2 September 2015

Model 500-2 Pulser Technical Manual Section 4

Caution!

Verify instrument voltage input rating before connecting to a
power converter. If the wrong power converter is used, the
instrument and/or power converter could be damaged.

The “crossed-out wheelie bin” symbol notifies the consumer that the
product is not to be mixed with unsorted municipal waste when discarding.
Each material must be separated. The symbol is placed near the AC
receptacle. See section 5, “Recycling” for further information.

Replacement of Main Fuse (Back Panel)

Warning!

For continued protection against risk of fire, replace only with
fuse of the specified type and current rating!

Ludlum Measurements, Inc. Page 4-3 September 2015

Model 500-2 Pulser Technical Manual Section 5

Section

5

Maintenance and Recalibration

Maintenance

Instrument maintenance consists of keeping the instrument clean and
periodically checking the calibration. The Model 500 Pulser may be cleaned
externally with a damp cloth, using only water as the wetting agent. Do not
immerse the instrument in any liquid. Observe the following precautions
when cleaning:

1. Turn instrument OFF and disconnect the instrument power

cord.

2. Allow the instrument to sit for one minute before cleaning.

Recalibration

Recalibration is required after any repairs or adjustments have been made to
the instrument. Recalibration is not normally required following instrument
cleaning, battery replacement, or detector cable replacement.

Ludlum Measurements offers a full-service repair and calibration
department. We not only repair and calibrate our own instruments, but most
other manufacturers’ instruments.

Calibration procedures are available upon request for customers who choose
to calibrate their own instruments.

Ludlum Measurements, Inc. Page 5-1 September 2015

Note:

Ludlum Measurements, Inc. recommends recalibration at
intervals no greater than one year. Check the appropriate
regulations to determine required recalibration intervals.

Model 500-2 Pulser Technical Manual Section 5

To return an instrument for repair or calibration, provide sufficient packing
material to prevent damage during shipment.

Every returned instrument must be accompanied by an Instrument Return
Form, which can be downloaded from the Ludlum website at

www.ludlums.com. Find the form by clicking the “Support” tab and

selecting “Repair and Calibration” from the drop-down menu. Then choose
the appropriate Repair and Calibration division where you will find a link to
the form.

Ludlum Measurements, Inc. Page 5-2 September 2015

Model 500-2 Pulser Technical Manual Section 6

Section

6

Recycling

udlum Measurements, Inc. supports the recycling of the electronics
products it produces for the purpose of protecting the environment

L

recycling systems. To this end, Ludlum Measurements, Inc. strives to supply
the consumer of its goods with information regarding reuse and recycling of
the many different types of materials used in its products. With many
different agencies – public and private – involved in this pursuit, it becomes
evident that a myriad of methods can be used in the process of recycling.
Therefore, Ludlum Measurements, Inc. does not suggest one particular
method over another, but simply desires to inform its consumers of the
range of recyclable materials present in its products, so that the user will
have flexibility in following all local and federal laws.

The following types of recyclable materials are present in Ludlum
Measurements, Inc. electronics products, and should be recycled separately.
The list is not all-inclusive, nor does it suggest that all materials are present in
each piece of equipment:

and to comply with all regional, national and international agencies
that promote economically and environmentally sustainable

Batteries Glass Aluminum and Stainless Steel

Circuit Boards Plastics Liquid Crystal Display (LCD)

Ludlum Measurements, Inc. products, which have been placed on the
market after August 13, 2005, have been labeled with a symbol
recognized internationally as the “crossed-out wheelie bin.” This notifies
the consumer that the product is not to be mixed with unsorted
municipal waste when discarding; each material must be separated. The
symbol will be placed near the AC receptacle, except for portable
equipment where it will be placed on the battery lid.

The symbol appears as such:

Ludlum Measurements, Inc. Page 6-1 September 2015

Model 500-2 Pulser Technical Manual Section 7

Section

Parts List

7

Model 500-2 Pulser

PULSER BOARD W/
TEMP. STABLE OSC.
(Main Board), Drawing
208 X 61

TRANSISTORS

CAPACITORS

Reference Description Part Number

UNIT Completely Assembled
Model 500-2 Pulser 48-1340

BOARD Completely Assembled
Circuit Board 5208-084

C1 10pF, 100V 04-5573

C2 0.1µF, 100V 04-5521
C3 0.001µF, 100V 04-5519
C4 100µF, 10V 04-5576

C8-C10 22pF, 100V 04-5552

C11 0.01µF, 100V 04-5523
C12 1µF, 250V 04-5515

C15 470pF, 100V 04-5555

C17 0.1µF, 100V 04-5521

C18 100pF, 100V 04-5527

C20 0.001µF, 100V 04-5519

C21 220pF, 100V 04-5530

C22-C23 100µF, 10V 04-5576
C24 1µF, 35V 04-5575
C25 0.1µF, 35V 04-5574

C26* 220pF, 100V 04-5530
C27 47pF, 100V 04-5533

Q1 2N3904 05-5755
Q2 MPSW51 05-5765
Q3 2N7000 05-5820
Q4-Q5 2N3904 05-5755

Ludlum Measurements, Inc. Page 7-1 September 2015

Model 500-2 Pulser Technical Manual Section 7

Reference Description Part Number

Q6 MPS6534 05-5763
Q7 2N7000 05-5820
Q8 VPO300M SILICONIX 05-5834
Q9 2N3904 05-5755
Q10 MPS6534 05-5763

VOLTAGE
REGULATOR

INTEGRATED
CIRCUITS

DIODE

POTENTIOMETERS /
TRIMMERS

RESISTORS

VR1 LM320LZ-05 05-5771

U1 AD654JN 06-6317
U2-U6 CD4017BE 06-6001
U7 LM555CN (M500 ONLY) 06-6017
U9 CD4098BE 06-6066
U11 CD4001BE 06-6064
U12 LM358N 06-6024
U13 CD4098BE 06-6066
U16 CA3140E 06-6033

CR1 1N4001 07-6268

R2 10K, MULTIPLIER –
REFERENCE 09-6824
R5 100K, PULSE WIDTH SET 09-6829
R11 2K, AMPLITUDE 09-6919
R19 2K, HV METER 09-6919
R21 100K, TRIGGER SET 09-6829

R3 560K, 1/4W, 5% 10-7027
R4 4.7K, 1/4W, 5% 10-7014
R6 10K, 1/4W, 5% 10-7016
R7 1K, 1/4W, 5% 10-7009
R8 3.3K, 1/4W, 5% 10-7013
R10 3.9K, 1/4W, 5% 10-7084
R20 100 Ohm, 1/4W, 5% 10-7004
R22 1K, 1/4W, 5% 10-7009

Ludlum Measurements, Inc. Page 7-2 September 2015

Model 500-2 Pulser Technical Manual Section 7

Reference Description Part Number

R23 10K, 1/4W, 5% 10-7016
R24 100K, 1/4W, 5% 10-7023
R25-R26* 56K, 1/4W, 5% 10-7021
R28-R29 100K, 1/4W, 5% 10-7023
R30 10K, 1/4W, 5% 10-7016
R31 220 Ohm, 1/4W, 5% 10-7041
R32 100 Ohm, 1/4W, 5% 10-7004
R33 33 Ohm, 1/4W, 5% 10-7001
R34 10K, 1/4W, 5% 10-7016
R36 68 Ohm, 1/4W, 5% 10-7078
R37 150 Ohm, 1/4W, 5% 10-7005
R38 10K, 1/4W, 5% 10-7016
R39-R41 1K, 1/4W, 5% 10-7009
R42 100K, 1/4W, 5% 10-7023
R43 2.2K, 1/4W, 5% 10-7012
R44 10K, 1/4W, 5% 10-7016

M500 READOUT
BOARD, Drawing
208 X 176

CAPACITORS

TRANSISTORS

INTEGRATED
CIRCUITS

MISCELLANEOUS

RESISTORS

CONNECTOR

BOARD Completely Assembled
Readout Circuit Board 5208-172

C1 1µF, 16V 04-5701
C2 10µF, 25V 04-5655

Q1-Q3 2N7002L 05-5840

U1 CD74HC4511E 06-6525

DS1-DS3 LED-HDSP-E103 07-6342

R1-R7 681 Ohm, 1/8W, 1% 12-7852

P1 HEADER-TSS-108-16PIN 13-8573

Ludlum Measurements, Inc. Page 7-3 September 2015

Model 500-2 Pulser Technical Manual Section 7

HV READOUT
BOARD, Drawing
208 X 145

CAPACITORS

TRANSISTORS

RESISTORS

M500 READOUT
CONTROLLER,
Drawing 208 X 173

CAPACITORS

INTEGRATED
CIRCUITS

POTENTIOMETER /
TRIMMER

VOLTAGE
REGULATOR

Reference Description Part Number

BOARD Completely Assembled
HV Readout Board 5208-018

C1 0.01µF, 100V 04-5523
C2 0.047µF, 100V 04-5565
C3 0.22µF, 100V 04-5566
C4 0.1µF, 100V 04-5521

C5 100pF, 100V 04-5527

CR1 LM385Z-1.2 05-5808

U1 ICL7117CPL 06-6161
U2-U5 HP5082-7650 07-6282

R3 10K, 3266X1-103 09-6822

R1 10K, 1/4W, 5% 10-7016
R2 1Meg, 1/4W, 5% 10-7028
R4 100K, 1/4W, 5% 10-7023
R5 470K, 1/4W, 5% 10-7026

BOARD Completely Assembled Readout
Controller Circuit Board 5208-171

C1 100pF, 100V 04-5661

C2-C3 0.01µF, 50V 04-5664
C4-C6 1µF, 16V 04-5701
C7 4.7µF, 25V 04-5653
C8 1µF, 16V 04-5701

VR1 ADP3308ART-3.3- SOT-23-5 05-5880

Ludlum Measurements, Inc. Page 7-4 September 2015

Model 500-2 Pulser Technical Manual Section 7

INTEGRATED
CIRCUITS

RESISTORS

CONNECTORS

AMPLITUDE
READOUT BOARD,
Drawing 208 X 17

CAPACITORS

DIODES

INTEGRATED
CIRCUITS

POTENTIOMETERS /
TRIMMERS

Reference Description Part Number

U1 SN74AHC14D SO-14 06-6474
U2 MSP430F1101DW SOW-20 06-6529
U3 SN74AHCT541D SOW-20 06-6527
U4 TPS3825-33SOT-23-5 06-6558

R1-R2 10K, 1/8W, 1% 12-7839
R3-R6 2.21K, 1/8W, 1% 12-7835
R7 33.2K, 1/8W, 1% 12-7842
R8 10K, 1/8W, 1% 12-7839

P1 SOCKET-SSQ-108-16PIN 13-8574
P2 640456-5 MTA 100X5 13-8057
P3 CON-EDGE/MIN-
10-39.37 PITCH *

BOARD Completely Assembled

Amplifier Readout Board 5208-021

C1 0.01µF, 100V 04-5523

C2 0.047F, 100V 04-5565

C3 0.22µF, 100V 04-5566
C4 0.1µF, 100V 04-5521

C5 100pF, 100v 04-5527

CR1 LM385Z-1.2 05-5808

U1 ICL7117CPL 06-6161
U2-U5 HP5082-7650 07-6282

R3 10K 3266X-103 09-6822

Ludlum Measurements, Inc. Page 7-5 September 2015

Model 500-2 Pulser Technical Manual Section 7

Reference Description Part Number

RESISTORS

Wiring Diagram,
Drawing 208 X 181

SWITCHES

CAPACITORS

VOLTAGE
REGULATORS

DIODES

POTENTIOMETERS /
TRIMMERS

R1 10K, 1/4W, 5% 10-7016
R2 1 Meg, 1/4W, 5% 10-7028
R4 100K, 1/4W, 5% 10-7023
R5 470K, 1/4W, 5% 10-7026
R6 470 Ohm, 1/4W, 5% 10-7008

C1 1600uF, 50V 04-5535
C2 1uF, 35V 04-5502
C3 1600uF, 50V 04-5535
C4 2.2uF, 20V 04-5508
C5 0.0056uF, 3KV 04-5522
C6 2.2uF, 20V 04-5508
C9 1uF, 35V 04-5502

VR1 LM340K-5; NTE931 05-5772
VR2 LM320K-12; NTE1915 05-5797
VR3 LM320K-5; NTE1913 05-5787
VR4 NTE1914; ECG933 05-5784

CR1-CR8 1N4001 07-6268

S1 AMPLITUDE, D4G0205N 08-6503
S2 SWITCHCRAFT,
46206-LR, POWER 08-6523
S3 PA1001, RANGE 08-6502
S4 PA2021/ D4C0605N,
PULSE POLARITY 08-6505

R8 1K, RV4NAYSD102A,
PULSE HEIGHT 09-6759
R9 100K, RV4NAYSD104A3,
MIN/MAX 09-6795
R19 20K, 10T 534-1-1-203,
FINE TUNE 09-6909

Ludlum Measurements, Inc. Page 7-6 September 2015

Model 500-2 Pulser Technical Manual Section 7

RESISTORS

CONNECTORS

TRANSFORMER

MISCELLANEOUS

Reference Description Part Number

R1 909 Ohm, 1/8W, 1% 12-7553
R2 90.9 Ohm, ¼ (1/8)W, 1% 12-7552
R3 10 Ohm, 1/8W, 1% 12-7554
R4 1 Ohm, 3W, 1% 12-7555
R7 1K, 2W, 5% 12-7605
R10 100 Ohm, 1/4W, 5% 10-7004
R17 1G, FHV-1, 2% 12-7686
R18 1M, 1/4W, 1% 12-7609
R20-R21 1.15K, 1/8W, 1% 12-7672
R22 470 Ohm, 1/4W, 5% 10-7008

J HARDWIRED, AMPLITUDE
READOUT BOARD 13-8047
J2 MTA 100X5 13-8041
J3 CJ50-44A-30 13-7866
P HARDWIRED,
HV READOUT 13-8041
P1 EAC-309 (301) 13-7982
P2 UG568/U PANEL C 13-7752
P3 CJ50-44A-3D 22P 13-7866
P4 EAC-309 13-7982
P5 UG568/U PANEL C 13-7752

T1 M500 110/220VAC 4275-146

DS1 NEON, IDI 2110A1, PILOT 21-9296
F1 1Amp, 250V, AGC-1 21-9277
* FUSE-HOLDER 348-8-7-73 21-9403
* ADAPTER-C TO MHV 4208-089
* CBL-C 40-1004
* Power Cord-Belden 21-9394
* ADAPTER-C TO BNC 13-7759

Ludlum Measurements, Inc. Page 7-7 September 2015

Model 500-2 Pulser Technical Manual Section 8

Section

8

Drawings

PULSER BOARD W/ TEMP STABLE OSC., Drawing 208 X 61

MODEL 500 MAIN BOARD, COMPONENT OUTLINES,
Drawings 208 X 63 and 208 X 63A

MODEL 500 READOUT BOARD, Drawing 208 X 176

MODEL 500 READOUT BOARD, Component Outlines, Drawings
208 X 177 (Two sheets)

HV READOUT BOARD, Drawing 208 X 145

HV READOUT BOARD, Component Outlines, Drawings 208 X
148A (Two sheets)

MODEL 500 READOUT CONTROLLER, Drawing 208 X 173

MODEL 500 READOUT CONTROLLER, Component Outlines,
Drawings 208 X 174 (Two sheets)

AMPLITUDE READOUT BOARD, Drawing 208 X 17

AMPLITUDE READOUT BOARD, Component Outlines, Drawings
208 X 149A (Two Sheets)

WIRING DIAGRAM, Drawing 208 X 181

Ludlum Measurements, Inc. Page 8-1 September 2015