Fluke 789 CAL User manual

789/787B

ProcessMeter™

Calibration Manual

September 2002, Rev. 2, 1/17

© 2002-2017 Fluke Corporation. All rights reserved. Specifications are subject to change without notice.
All product names are trademarks of their respective companies.

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LIMITED WARRANTY AND LIMITATION OF LIABILITY

Each Fluke product is warranted to be free from defects in material and workmanship under normal use and
service. The warranty period is three years and begins on the date of shipment. Parts, product repairs, and
services are warranted for 90 days. This warranty extends only to the original buyer or end-user customer of
a Fluke authorized reseller, and does not apply to fuses, disposable batteries, or to any product which, in
Fluke's opinion, has been misused, altered, neglected, contaminated, or damaged by accident or abnormal
conditions of operation or handling. Fluke warrants that software will operate substantially in accordance
with its functional specifications for 90 days and that it has been properly recorded on non-defective media.
Fluke does not warrant that software will be error free or operate without interruption.

Fluke authorized resellers shall extend this warranty on new and unused products to end-user customers
only but have no authority to extend a greater or different warranty on behalf of Fluke. Warranty support is
available only if product is purchased through a Fluke authorized sales outlet or Buyer has paid the
applicable international price. Fluke reserves the right to invoice Buyer for importation costs of
repair/replacement parts when product purchased in one country is submitted for repair in another country.

Fluke's warranty obligation is limited, at Fluke's option, to refund of the purchase price, free of charge repair,
or replacement of a defective product which is returned to a Fluke authorized service center within the
warranty period.

To obtain warranty service, contact your nearest Fluke authorized service center to obtain return
authorization information, then send the product to that service center, with a description of the difficulty,
postage and insurance prepaid (FOB Destination). Fluke assumes no risk for damage in transit. Following
warranty repair, the product will be returned to Buyer, transportation prepaid (FOB Destination). If Fluke
determines that failure was caused by neglect, misuse, contamination, alteration, accident, or abnormal
condition of operation or handling, including overvoltage failures caused by use outside the product’s
specified rating, or normal wear and tear of mechanical components, Fluke will provide an estimate of repair
costs and obtain authorization before commencing the work. Following repair, the product will be returned to
the Buyer transportation prepaid and the Buyer will be billed for the repair and return transportation charges
(FOB Shipping Point).

THIS WARRANTY IS BUYER'S SOLE AND EXCLUSIVE REMEDY AND IS IN LIEU OF ALL OTHER
WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY IMPLIED WARRANTY
OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. FLUKE SHALL NOT BE LIABLE
FOR ANY SPECIAL, INDIRECT, INCIDENTAL OR CONSEQUENTIAL DAMAGES OR LOSSES,
INCLUDING LOSS OF DATA, ARISING FROM ANY CAUSE OR THEORY.

Since some countries or states do not allow limitation of the term of an implied warranty, or exclusion or
limitation of incidental or consequential damages, the limitations and exclusions of this warranty may not
apply to every buyer. If any provision of this Warranty is held invalid or unenforceable by a court or other
decision-maker of competent jurisdiction, such holding will not affect the validity or enforceability of any other
provision.

11/99

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Table of Contents

Title Page

Introduction ........................................................................................................ 1

How to Contact Fluke ......................................................................................... 1

Safety Information .............................................................................................. 2

Specifications ..................................................................................................... 5

Required Equipment .......................................................................................... 9

Basic Maintenance ............................................................................................. 10

How to Clean ................................................................................................. 10

Battery Replacement ..................................................................................... 10

Battery Life ..................................................................................................... 11

Check and Replace Fuses............................................................................. 12

Performance Verification .................................................................................... 12

Preparation .................................................................................................... 13

Loop Power Test (789 only) .......................................................................... 14

Current Sourcing Test .................................................................................... 15

Current Measurement Test ............................................................................ 16

Diode Function Test ....................................................................................... 17

Continuity Function Test ................................................................................ 19

Resistance Measurement Test ...................................................................... 20

DC Millivolts Measurement Test .................................................................... 22

DC Volts Measurement Tests ........................................................................ 23

AC Volts Measurement Test .......................................................................... 24

Frequency Measurement Test ....................................................................... 25

Calibration Adjustment ....................................................................................... 26

Preparation .................................................................................................... 26

Procedure for Models with Firmware Version <2.0 ....................................... 27

AC Voltage Adjustment ............................................................................. 27

Frequency Adjustment .............................................................................. 28

DC Voltage Adjustment ............................................................................. 29

DC Millivolts Adjustment ............................................................................ 29

Ohms Adjustment ...................................................................................... 30

Diode Adjustment ...................................................................................... 30

Milliamps DC Adjustment .......................................................................... 31

Amps DC Adjustment ................................................................................ 31

Amps AC Adjustment ................................................................................ 32

Milliamps Output Adjustment ..................................................................... 32

Procedure for Models with Firmware Version ≥2.0 ....................................... 33

Calibration Adjustment Counter ................................................................ 33

Calibration Adjustment Password ............................................................. 33

How to Change the Password ................................................................... 33

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789/787B

Calibration Manual

How to Restore the Default Password ...................................................... 35

Meter Keys Used in the Calibration Steps ................................................ 36

Calibration Adjustment .............................................................................. 36

Replacement Parts and Accessories ................................................................. 38

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Introduction

The information provided in this manual is for the use of qualified
personnel only. Do not perform the calibration verification tests or
calibration procedures described in this manual unless you are
qualified to do so.

The ProcessMeter™ contains parts that can be damaged by static
discharge. Follow the standard practices for handling static sensitive
devices.

The Calibration Manual for the 789/787B ProcessMeter (Meter, Product, or UUT)
provides the following information:

Precautions and Safety information

•

• Specifications

• Basic maintenance (cleaning, replacing the batteries and fuses)

• Calibration verification test procedures

• Calibration adjustment procedures

• Accessories and replaceable parts

All illustrations in this manual show the 789. For complete operating instructions, refer to
the 789/787B ProcessMeter Users Manual (provided on CD-ROM with the Product).

 Warning

 Caution

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789/787B

Calibration Manual

Safety Information

A Warning identifies conditions and procedures that are dangerous to the user. A
Caution identifies conditions and procedures that can cause damage to the Product or

the equipment under test.

International symbols used on the Meter and in this manual are explained in Table 1.

 Warning

To prevent possible electrical shock, fire, or personal injury:

• Read all safety information before y

• Carefully

• Do not alter the Product and use only

by

the Product can be compromised.

• Remove the batteries if the Product is not used for an extended period of
time, or if stored in temperatures above 50 °C. If the batteries are not
removed, battery leakage can damage the Product.

• The battery door must be closed and locked before you operate the
Product.

• Replace the batteries when the low battery indicator shows to prevent
incorrect measurements.

• Comply with local and national safety codes. Use personal protective
equipment (approved rubber gloves, face protection, and flame-resistant
clothes) to prevent shock and arc blast injury where hazardous live
conductors are exposed.

• Do not apply more than the rated voltage, between the terminals or
between each terminal and earth ground.

• Do not work alone.

• Limit operation to the specified measurement category, voltage, or

amperage ratings.

• Use Product-approved measurement category (CAT), voltage, and
amperage rated accessories (probes, test leads, and adapters) for all
measurements.

• Measure a known voltage first to make sure that the Product operates
correctly.

• Use the correct terminals, function, and range for measurements.

• Do not touch voltages >30 V ac rms, 42 V ac peak, or 60 V dc.

• Do not use the Product around explosive gas, vapor, or in damp or wet

environments.

• Do not use the Product if it operates incorrectly.

• Examine the case before you use the Product. Look for cracks or missing

plastic. Carefully look at the insulation around the terminals.

• Do not use test leads if they are damaged. Examine the test leads for
damaged insulation, exposed metal, or if the wear indicator shows. Check
test lead continuity

•

Keep fingers behind the finger guards on the probes.

• Only use probes, test leads, and accessories that have the same
measurement category, voltage, and amperage ratings as the Product.

read all instructions.

.

ou use the Product.

as specified, or the protection supplied

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• Remove all probes, test leads, and accessories before the battery door is
opened.

• Remove all probes, test leads, and accessories that are not necessary for
the measurement.

• Do not exceed the Measurement Category (CAT) rating of the lowest rated
individual component of a Product, probe, or accessory.

• Do not use test leads if they are damaged. Examine the test leads for
damaged insulation and measure a known voltage.

• Do not use a current measurement as an indication that a circuit is safe to
touch. A voltage measurement is necessary to know if a circuit is
hazardous.

• Do not use the Product if it is altered or damaged.

• Do not use in CAT III or CAT IV environments without the protective cap

installed on test probes. The protective cap decreases the exposed probe
metal to <4 mm. This decreases the possibility of arc flash from short
circuits.

 Caution

To prevent damage to the Product or the test equipment:

ProcessMeter™

Safety Information

•

Disconnect the power and discharge all high voltage capacitors
before testing resistance, diodes, or continuity.

• Use the proper terminals, switch setting, and range for the
measurement or sourcing applications.

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789/787B

Calibration Manual

Symbol Description Symbol Description

Table 1. International Symbols






















WARNING. RISK OF DANGER.

Consult user documentation.

Conforms to European Union
directives

Certified by CSA Group to North
American safety standards.

AC (Alternating Current)

DC (Direct Current)

Battery

Measurement Category II is applicable to test and measuring circuits connected directly to
utilization points (socket outlets and similar points) of the low-voltage MAINS installation.

Measurement Category III is applicable to test and measuring circuits connected to the
distribution part of the building’s low-voltage MAINS installation.

Measurement Category IV is applicable to test and measuring circuits connected at the
source of the building’s low-voltage MAINS installation.

This product complies with the WEEE Directive marking requirements. The affixed label
indicates that you must not discard this electrical/electronic product in domestic household
waste. Product Category: With reference to the equipment types in the WEEE Directive
Annex I, this product is classed as category 9 "Monitoring and Control Instrumentation"
product. Do not dispose of this product as unsorted municipal waste.















WARNING. HAZARDOUS
VOLTAGE. Risk of electric shock.

Conforms to relevant South Korean
EMC Standards

Minimum fuse interrupt rating.

Conforms to relevant Australian Safety
and EMC standards.

Earth

Fuse

Double Insulated

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Specifications

• All specifications apply from +18 °C to +28 °C unless stated otherwise.

• All specifications assume a 5-minute warm-up period.

• The standard specification interval is 1 year.

Note

“Counts” refers to the number of increments or decrements of the least
significant digit.

DC Volts Measurement

Range (V dc) Resolution Accuracy, ±(% of Reading + Counts)

4.000 0.001 V 0.1 % + 1

40.00 0.01 V 0.1 % + 1

400.0 0.1 V 0.1 % + 1

1000 1 V 0.1 % + 1

ProcessMeter™

Specifications

Input impedance: 10 MΩ (nominal), <100 pF
Normal mode rejection ratio: >60 dB at 50 Hz or 60 Hz
Common mode rejection ratio: >120 dB at dc, 50 Hz, or 60 Hz
Overvoltage protection: 1000 V

DC Millivolts Measurement

Range (mV dc) Resolution Accuracy, ±(% of Reading + Counts)

400.0 0.1 mV 0.1 % + 2

AC Volts Measurement

Range (ac) Resolution

400.0 mV 0.1 mV 0.7 % + 4 1.2 % + 4 7.0 % + 4

4.000 V 0.001 V 0.7 % + 2 1.2 % + 4 7.0 % + 4

40.00 V 0.01 V 0.7 % + 2 1.2 % + 4 7.0 % + 4

400.0 V 0.1 V 0.7 % + 2 1.2 % + 4 7.0 % + 4

1000 V 1 V 0.7 % + 2 1.2 % + 4 7.0 % + 4

Specifications are valid from 5 % to 100 % of amplitude range.
AC conversion: true rms
Maximum crest factor: 3 (between 50 and 60 Hz)
For non-sinusoidal waveforms, add
Input impedance: 10 M
Common mode rejection ratio: >60 dB at dc, 50 Hz, or 60 Hz

Ω

(nominal), <100 pF, ac-coupled

50 Hz to 60 Hz 45 Hz to 200 Hz 200 Hz to 500 Hz

±

(2 % reading + 2 % f.s.) typical

Accuracy, ±(% of Reading + Counts)

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789/787B

Calibration Manual

AC Current Measurement

Range

45 Hz to 2 kHz

1.000 A (Note) 0.001 A 1 % + 2 1.5 V/A

Note: 440 mA continuous, 1 A 30 seconds maximum

Specifications are valid from 5 % to 100 % of amplitude range.
AC conversion: true rms
Maximum crest factor: 3 (between 50 and 60 Hz)
For non-sinusoidal waveforms, add
Overload protection 440 mA, 1000 V fast-blow fuse

Resolution

±

( 2 % reading + 2 % f.s.) typical

±(% of Reading + Counts)

Accuracy,

Typical Burden

DC Current Measurement

Range Resolution

30.000 mA 0.001 mA 0.05 % + 2 14 mV/mA

1.000 A (Note) 0.001 A 0.2 % + 2 1.5 V/A

Note: 440 mA continuous, 1 A 30 seconds maximum

Overload protection: 440 mA, 1000 V fast-blow fuse

±(% of Reading + Counts)

Accuracy

Typical Burden

Ohms Measurement

Range Resolution Measurement Current

±(% of Reading + Counts)

Voltage

Voltage

Accuracy

400.0 Ω 0.1 Ω 310 μA 0.2 % + 2

4.000 kΩ 0.001 kΩ 31 μA 0.2 % + 1

40.00 kΩ 0.01 kΩ 2.5 μA 0.2 % + 1

400.0 kΩ 0.1 kΩ 250 nA 0.2 % + 1

4.000 MΩ 0.001 MΩ 250 nA 0.35 % + 3

40.00 MΩ 0.01 MΩ 125 nA 2.5 % + 3

Overload protection: 1000 V
Open circuit voltage: <3.9 V

Frequency Counter Accuracy

Range Resolution

199.99 Hz 0.01 Hz 0.005 % + 1

1999.9 Hz 0.1 Hz 0.005 % + 1

19.999 kHz 0.001 kHz 0.005 % + 1

Display updates 3 times/second at >10 Hz

±(% of Reading + Counts)

Accuracy

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Frequency Counter Sensitivity

Minimum Sensitivity (rms Sinewave)

Input Range

AC

400 mV 150 mV (50 Hz to 5 kHz) 150 mV

4 V 1 V 1 V

40 V 4 V 4 V

400 V 40 V 40 V

1000 V 400 V 400 V

*Usable 0.5 Hz to 20 kHz with reduced sensitivity.

6

10

VHz max

Diode Test and Continuity Test

Diode test indication .......................................... Displays voltage drop across device, 2.0 V full scale. Nominal test

Continuity test indication ..................................... Continuous audible tone for test resistance <100 Ω

Open circuit voltage ............................................ 2.9 V

Short circuit current ............................................. 310 μA typical

Overload protection............................................. 1000 V rms

Loop Power Supply Voltage ................................ 24 V, Short Circuit protected

DC Current Output

Source mode:

Span ............................................................. 0 mA or 4 mA to 20 mA, with overrange to 24 mA

Accuracy ....................................................... 0.05 % of span

Compliance voltage ...................................... 28 V with battery voltage >~4.5 V

Simulate Mode

Span ............................................................. 0 mA or 4 mA to 20 mA, with overrange to 24 mA

Accuracy ....................................................... 0.05 % of span

Loop voltage ................................................. 24 V nominal, 48 V maximum, 15 V minimum

Compliance voltage ...................................... 21 V for 24 V supply

Burden voltage .............................................. <3 V

current 0.3 mA at 0.6 V. Accuracy ±(2 % + 1 count).

5 Hz to 5 kHz*

DC

(approximate trigger level 5 % of full scale)

ProcessMeter™

Specifications

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789/787B

Calibration Manual

General Specifications

Maximum Voltage between

any Terminal and Earth Ground .......................... 1000 V

Fuse Protection for

mA inputs ............................................................... 0.44 A, 1000 V IR 10 kA

Power

Battery Type ........................................................ IEC LR6 (AA Alkaline)

Quantity ............................................................... 4

Temperature

Operating ............................................................ -20 °C to +55 °C

Storage ............................................................... -40 °C to +60 °C

Altitude

Operating ............................................................ ≤2000 m

Storage ............................................................... ≤12 000 m

Frequency Overload Protection ........................... 106 V Hz max

Temperature coefficient

Measurements .................................................... 0.05 x specified accuracy per °C for temperatures <18 °C or >28 °C

Source................................................................. 0.1 x specified accuracy per °C for temperatures <18 °C or >28 °C

Relative humidity .................................................. 95 % up to 30 °C, 75 % up to 40 °C, 45 % up to 50 °C, and 35 % up to

Vibration ................................................................ Random 2g, 5 to 500 Hz

Shock ..................................................................... 1 meter drop test

Size ......................................................................... 10.0 cm X 20.3 cm X 5.0 cm (3.94 in X 8.00 in X 1.97 in)

Weight .................................................................... 610 g (1.6 lb)

Safety

General ............................................................... IEC 61010-1: Pollution Degree 2

Measurement ...................................................... IEC 61010-2-033: CAT IV 600 V / CAT III 1000 V

Electromagnetic Compatibility (EMC) ................. Accuracy for all ProcessMeter functions is not specified in RF field

International ........................................................ IEC 61326-1: Portable Electromagnetic Environment; IEC 61326-2-2

Korea (KCC) ....................................................... Class A Equipment (Industrial Broadcasting & Communication

USA (FCC) .......................................................... 47 CFR 15 subpart B. This product is considered an exempt device per

55 °C

>3 V/m

CISPR 11: Group 1, Class A

Group 1: Equipment has intentionally generated and/or uses

conductively-coupled radio frequency energy that is necessary for

the internal function of the equipment itself.

Class A: Equipment is suitable for use in all establishments other

than domestic and those directly connected to a low-voltage power

supply network that supplies buildings used for domestic purposes.

There may be potential difficulties in ensuring electromagnetic

compatibility in other environments due to conducted and radiated

disturbances.

Caution: This equipment is not intended for use in residential

environments and may not provide adequate protection to radio

reception in such environments.

Emissions that exceed the levels required by CISPR 11 can occur

when the equipment is connected to a test object.

Equipment)

Class A: Equipment meets requirements for industrial
electromagnetic wave equipment and the seller or user should take
notice of it. This equipment is intended for use in business
environments and not to be used in homes.

clause 15.103.

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Required Equipment

Equipment and software required to perform the procedures in this manual are identified
in Table 2.

If the recommended equipment model is not available, in some cases other equipment
can be substituted as long as it meets the specifications indicated.

To avoid safety hazards and equipment damage during the calibration
procedure, use the specified calibration equipment listed in Table 2.
Using unspecified equipment can jeopardize the calibration
verification test and pose safety hazards.

Unless otherwise indicated, all connection diagrams for the calibration
verification tests in this manual showing a calibrator or digital multimeter
use a Fluke 5522A calibrator, Fluke 8508A Reference Multimeter, Keysight
3458A DMM, or equivalent.

If you are using a different calibrator or DMM, make the connections
appropriate for that instrument.

ProcessMeter™

Required Equipment

 Warning

Note

Table 2. Required Equipment and Software

Equipment Minimum Specifications Recommended Model

Calibration Source No Substitute Fluke Model 5522A or

equivalent

Digital Multimeter No Substitute Fluke 8508A,

Keysight 3458A

Test Leads, low leakage,
RG-58/U type

1-kΩ shunt 1 kΩ, 1 %, 2 watts, Low TC is preferable ---

Leakage resistance > than 1.0 x 1013 Ω at
45 °C and 75 % relative humidity

Fluke 5440A-7002 Low
Thermal Test Leads

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789/787B

Calibration Manual

Basic Maintenance

How to Clean

Battery Replacement

 Warning

To prevent electrical shock or damage, never allow water inside the
case of the ProcessMeter.

If the ProcessMeter requires cleaning, wipe it down with a cloth that is lightly dampened
with water or a mild detergent.

 Caution

Do not use aromatic hydrocarbons, chlorinated solvents, or methanol­based fluids when wiping down the ProcessMeter. To avoid damaging
the case, never apply solvents to the case of the ProcessMeter.

 Warning

For safe operation and maintenance, repair the Product before use if
the battery leaks.

To replace the batteries, see Figure 1:

1. Remove the test leads and turn the Meter OFF.

2. With a standard blade hand screwdriver, turn each battery door screw
counterclockwise so that the slot is parallel with the screw picture molded into the
case.

3. Lift off the battery door.

4. Remove the batteries.

5. Replace with four new AA alkaline batteries.

6. Reinstall the battery door and tighten screws.

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F1

ProcessMeter™

Basic Maintenance

F2

Figure 1. Replacing the Batteries and Fuses

Battery Life

 Warning

To prevent possible electrical shock, fire, or personal injury, replace
the batteries when the low battery indicator shows.

The ProcessMeter is powered by four AA alkaline batteries.

Table 3 shows typical alkaline battery life. To preserve battery life:

•

Use current simulation instead of sourcing when possible.

• Avoid using the backlight.

• Do not disable the automatic power-off feature.

• Turn the ProcessMeter off when not in use.

Table 3. Typical Alkaline Battery Life

ProcessMeter Operation Hours

Measuring any parameter 140
Simulating Current 140
Sourcing 12 mA into 500 Ω 10

anw037.eps

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789/787B

Calibration Manual

Check and Replace Fuses

 Warning

To prevent possible electrical shock, fire, or personal injury, use only
the specified replacement fuses.

Both current input jacks are fused with separate 440 mA fuses. To determine if a fuse is
blown:

Turn the rotary function switch to

1.

2.

Plug the black test lead into COM, and the red test lead into the Ac input.

3.

Using an ohmmeter, check the resistance between the ProcessMeter test leads. If
the resistance is about 1 Ω, the fuse is good. An open reading means that fuse F2 is
blown.

4.

Move red test lead to .

5.

Using an ohmmeter, check the resistance between the ProcessMeter test leads. If
the resistance is about 14 Ω, the fuse is good. An open means that fuse F1 is blown.

If a fuse is blown, replace it as follows. Refer to Figure 1 as necessary:

W.

1. Remove the test leads from the ProcessMeter and turn the ProcessMeter OFF.

2.

With a standard blade hand screwdriver, tu
counterclockwise so that the slot is parallel with the screw picture molded into the
case.

3. Remove either fuse by gently prying one end loose, then sliding the fuse out of its
bracket.

4. Replace the blown fuse(s).

5.

Replace the battery compartment door. Secure the door by turning the screws one­quarter turn clockwise.

Performance Verification

To prevent electrical shock:

• Only qualified personnel should perform calibration ve
tests that use high voltages.

• Always place the calibrator in the Standby (STBY) mode between
tests and before handling the test connections or test cables.

Calibration verification tests confirm the complete functionality of the ProcessMeter and
check the accuracy of each ProcessMeter function against its specifications. If the
ProcessMeter fails any calibration verification test, it needs calibration adjustment or
repair.

rn each battery compartment door screw

 Warning

rification

The ProcessMeter’s performance and accuracy are specified for one year after
calibration at operating temperatures of +18 °C to +28 °C (64 °F to 82 °F), in relative
humidity to 90 %. The specifications assume the ProcessMeter has been warmed up for
5 minutes before use.

To perform the calibration verification tests, it is not necessary to open the case; no
adjustments are necessary. Merely make the required connections, source the

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designated values, and determine if the reading on the ProcessMeter or the multimeter
falls within the acceptable range indicated.

These calibration verification test procedures assume that the person performing the
tests has read the 789/787B Users Manual, knows how to select functions and ranges on
the ProcessMeter, and knows how to operate the required equipment.

Calibration verification tests for the ProcessMeter can be performed
manually, or they can be computer-automated (using Fluke’s MET/CAL
Calibration Software). This document provides the procedures necessary to
perform the calibration verification test manually.

Preparation

Throughout the calibration verification tests, “UUT” (unit under test) refers
to the ProcessMeter; the word “multimeter” is reserved for the digital
multimeter identified in the required equipment listed in Table 2.

Unless otherwise indicated, all connection diagrams for the calibration
verification tests in this manual showing a calibrator or digital multimeter
use a Fluke 5522A calibrator or 8508A.

Note

Note

ProcessMeter™

Performance Verification



If using a different calibrator or DMM make the connections appropriate for
your instrument.

To prepare the UUT for the calibration verification tests:

1. Make sure that the required equipment is available (see Table 2).

2.

Make sure that the fuses in the UUT are intact. See “Checking and Replacing a
Fuse” earlier in this manual.

3.

Make sure the UUT has fresh batteries. See “Replacing the Batteries” earlier in this
manual.

4.

Warm up the calibrator and multimeter as required by their specifications.

5. Remove all input cables from the front of the UUT.

6.

Make sure that the UUT is in a stable ambient temperature between 18 °C and 28 °C
(64.4 °F and 82.4 °F) and that it has been warmed up for 5 minutes.

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789/787B

Calibration Manual

Loop Power Test (789 only)

1. Enable the dc volts autorange function of the multimeter.

2.

Turn the rotary knob of the UUT to LOOP POWER.

3.

Measure the open circuit voltage of the UUT and verify it is >29.2 V and <32 V.

4. Press

J (BLUE) on the UUT to enable the 250 Ω HART resistor.

5. Repeat step 3.

6.

Disable the 250 Ω HART resistor by pressing J (BLUE).

7.

Connect the 1-kΩ shunt across SOURCE + and SOURCE - of the UUT.

8.

Measure the loaded down voltage and verify it is >23.8 V and <32 V, see Figure 2.

9.

Remove the 1-kΩ shunt.

10. Disconnect the UUT from the multimeter and turn the UUT off.

11.

Select the dc current function on the multimeter and set it to the 1-amp range (a 0.1
Ω shunt is used in the 1-amp range).

12.

Connect the current input terminals of the multimeter to the SOURCE + and
SOURCE - terminals of the UUT.

13.

Turn the rotary knob of the UUT to LOOP POWER.

14.

Verify the short circuit current is >24 mA and <35 mA.

UUT

PROCESSMETER

789

14

RANGE HOLD

MIN MAX

100%

0%

REL

Hz

adm006F.EPS

Figure 2. Verifying Loop Power

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Current Sourcing Test

1. Put the calibrator in Standby (STBY) mode.

2. Connect the SOURCE + (A) and − (mA) terminals on the UUT to the current

terminals on the multimeter as shown in Figure 3.

3. Put the multimeter in the dc mA mode and manually select the 100 mA range. (Do
not allow the multimeter to autorange.)

4. Turn the UUT rotary switch in the OUTPUT X position.

5. Use the SpanCheck, %STEP and COARSE keys on the UUT to apply the values
shown in Table 4 and compare the readings on the multimeter to the acceptable
readings shown.

ProcessMeter™

Performance Verification

Table 4. Current Sourcing Test

789 Range 789 Output Current

No Range Switching 4.000 mA 3.990 mA 4.010 mA

No Range Switching 12.000 mA 11.990 mA 12.010 mA

No Range Switching 20.000 mA 19.990 mA 20.010 mA

Minimum Acceptable

Multimeter Reading

Maximum Acceptable

Multimeter Reading

Figure 3. Current Sourcing Connections Using the HP 3458A

adm001F.EPS

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Calibration Manual

Current Measurement Test

1. Put the calibrator in Standby (STBY) mode.

Put the UUT rotary switch in the

2.

Wposition.

3. Connect the calibrator to the COM and mA terminals on the UUT as shown in
Figure 4.

4. Apply the values from the calibrator shown in Table 5 and compare the readings on
the UUT to the acceptable readings shown.

5.

Connect the calibrator to the COM and A terminals on the UUT.

6. Apply the values from the calibrator shown in Table 6 and compare the readings on
the UUT to the acceptable readings shown.

7. Press

J (BLUE) on the UUT to toggle to ac amps.

8. Apply the values from the calibrator shown in Table 7 and compare the readings on
the UUT to the acceptable readings shown.

UUT

PROCESSMETER

789

RANGE HOLD

MIN MAX

100%

0%

REL

Hz

5522A

5520A CALIBRATOR

NORMAL AUX

SCOPE

V, , ,

AUX V

RTD

A, -SENSE,

OUT

STBY

TRIG

OPR EARTH EXGRD SCOPE MENU

7 8 9

456

123

+

0•

/

HI

LO

20A

GUARD

20V PK MAX

20V PK MAX

TC

µ

m

npW

k

M

SHIFT

dBm sec

V Hz

PREV

¡F

¡CA

F

ENTER

Figure 4. Current Measurement Test Connections

NEW
REF

MEAS

TC

MULTxDIV

EDIT

RESETCESETUP

FIELD

MORE
MODES

÷

POWER

I
O

adm003F.EPS

16

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Table 5. DC mA Test

ProcessMeter™

Performance Verification

789 Range

No Range Switching 4.000 mA 3.996 mA 4.004 mA

No Range Switching 12.000 mA 11.992 mA 12.008 mA

No Range Switching 20.000 mA 19.988 mA 20.012 mA

789 Range

No Range Switching 0.100 A 0.098 A 0.102 A

No Range Switching 0.400 A 0.397 A 0.403 A

789 Range

No Range Switching 0.100 A @ 60 Hz 0.097 A 0.103 A

No Range Switching 0.400 A @ 60 Hz 0.394 A 0.406 A

Calibrator

DC Current

Table 6. DC Amp Test

Calibrator

DC Current

Table 7. AC Amp Test

Calibrator AC Current

and Frequency

Minimum Acceptable

Reading

Minimum Acceptable

Reading

Minimum Acceptable

Reading

Maximum Acceptable

Reading

Maximum Acceptable

Reading

Maximum Acceptable

Reading

Diode Function Test

1. Put the calibrator in Standby (STBY) mode.

2. Turn the UUT rotary switch in the Vposition.

3. Press J (BLUE) to select diode test ().

4.

Connect the calibrator to the COM and
Figure 5.

5. Apply 2.0 V dc from the calibrator.

6. The UUT should read between 1.959 V and 2.041 V.

7.

Put the calibrator in Standby (STBY) mode; then disconnect the calibrator from the
UUT.

8. Put the multimeter in the dc mA (autorange) function.

9.

Connect the current terminals of the multimeter to the COM and
UUT.

The multimeter should read close to 0.3 mA. (There is no tolerance specification for
this current. This test just makes sure that the diode test current source is operating.)

 terminals on the UUT as shown in

 terminals on the

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789/787B

Calibration Manual

PROCESSMETER

789

RANGE HOLD

MIN MAX

100%

0%

REL

Hz

5522A

5520A CALIBRATOR

NORMAL AUX

SCOPE

V, , ,

AUX V

RTD

A, -SENSE,

20V PK MAX

OUT

STBY

TRIG

OPR EARTH EXGRD SCOPE MENU

7 8 9

456

123

+

0•

/

HI

LO

20A

GUARD

20V PK MAX

TC

µ

m

npW

k

M

SHIFT

dBm sec

V Hz

PREV

¡F

NEW

¡CA

REF

MEAS

F

TC

MULTxDIV

ENTER

EDIT

RESETCESETUP

FIELD

MORE
MODES

÷

POWER

I
O

PROCESSMETER

789

RANGE HOLD

MIN MAX

100%

0%

REL

Hz

adm007F.EPS

Figure 5. Diode Test Connections

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Continuity Function Test

1. Put the calibrator in Standby (STBY) mode, and turn the UUT rotary switch to the

V position.

2.

Connect the calibrator to the COM and
Figure 6.

ProcessMeter™

Performance Verification

 terminals on the UUT as shown in

3. Press

4.

G (continuity beeper) on the UUT to select the continuity test.

Using the calibrator, apply a resistance output of 260 ±20 Ω. The beeper should stay
off.

5.

Using the calibrator, apply a resistance output of 100 ±10 Ω. The beeper should turn
on.

PROCESSMETER

789

RANGE HOLD

MIN MAX

100%

0%

REL

Hz

5522A

5520A CALIBRATOR

NORMAL AUX

SCOPE

V, , ,

AUX V

RTD

A, -SENSE,

20V PK MAX

OUT

STBY

HI

LO

TRIG

20A

GUARD

20V PK MAX

TC

OPR EARTH EXGRD SCOPE MENU

7 8 9

456

123

+

0•

/

µ

m

npW

k

M

SHIFT

dBm sec

V Hz

ENTER

PREV

¡F

NEW

¡CA

REF

MEAS

F

TC

MULTxDIV

EDIT

RESETCESETUP

FIELD

MORE

MODES

÷

POWER

I

O

Figure 6. Continuity Test Connections

adm008F.EPS

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Calibration Manual

Resistance Measurement Test

1. Put the calibrator in Standby (STBY) mode.

2.

Put the UUT rotary switch in the

V position.

3. Connect

the OUTPUT and SENSE leads of the calibrator to the UUT as shown by

the solid and dotted lines in Figure 7.

4.

Apply the calibrator resistance values in Table 8 in the UUT 400 Ω to 40 kΩ range.
Compare the readings on the UUT to the acceptable readings shown.

5.

Change the connections to the UUT. Using the Fluke 5440A-7002 low thermal leads,
connect the calibrator to the UUT as shown by the solid lines in Figure 7.

6.

Apply the rest of the calibrator resistance values in Table 8 (400 kΩ range and
above). Compare the readings on the UUT to the acceptable readings shown.

UUT

5522A

5520A CALIBRATOR

NORMAL AUX

SCOPE

V, , ,

AUX V

RTD

A, -SENSE,

20V PK MAX

OUT

STBY

TRIG

OPR EARTH EXGRD SCOPE MENU

7 8 9

456

123

+

0•

/

HI

LO

20A

GUARD

20V PK MAX

TC

µ

m

npW

k

M

SHIFT

dBm sec

V Hz

ENTER

PREV

¡F

NEW

¡CA

REF

MEAS

F

TC

MULTxDIV

Figure 7. Resistance Measurement Test Connections

EDIT

RESETCESETUP

FIELD

MORE
MODES

÷

POWER

I

O

adm004F.EPS

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Table 8. Resistance Measurement Test

ProcessMeter™

Performance Verification

Range

400 Ω 120 Ω 2-Wire 119.6 Ω 120.4 Ω

400 Ω 300 Ω 2-Wire 299.2 Ω 300.8 Ω

4 kΩ 1.2 kΩ 2-Wire 1.197 kΩ 1.203 kΩ

4 kΩ 3 kΩ 2-Wire 2.993 kΩ 3.007 kΩ

40 kΩ 12 kΩ 2-Wire 11.97 kΩ 12.03 kΩ

40 kΩ 30 kΩ 2-Wire 29.93 kΩ 30.07 kΩ

400 kΩ 120 kΩ OFF 119.7 kΩ 120.3 kΩ

400 kΩ 200 kΩ OFF 199.5 kΩ 200.5 kΩ

400 kΩ 300 kΩ OFF 299.3 kΩ 300.7 kΩ

4 MΩ 1.2 MΩ OFF 1.193 MΩ 1.207 MΩ

4 MΩ 3.0 MΩ OFF 2.986 MΩ 3.014 MΩ

40 MΩ 12 MΩ OFF 11.67 MΩ 12.33 MΩ

40 MΩ 30 MΩ OFF 29.22 MΩ 30.78 MΩ

Calibrator

Resistance

Calibrator

Compensation Mode

Minimum

Reading

Maximum

Reading

21

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789/787B

Calibration Manual

DC Millivolts Measurement Test

1. Put the calibrator in Standby (STBY) mode.

2.

Put the UUT rotary switch in the

3.

Connect the calibrator to the COM and

U position.

 terminals on the UUT as shown in

Figure 8.

4. Apply the values from the calibrator shown in Table 9 and compare the readings on
the UUT to the acceptable readings shown.

UUT

5522A

5520A CALIBRATOR

NORMAL AUX

SCOPE

V, , ,

AUX V

RTD

A, -SENSE,

OUT

STBY

OPR EARTH EXGRD SCOPE MENU

7 8 9

456

123

+

0•

/

20V PK MAX

HI

LO

TRIG

20A

GUARD

20V PK MAX

TC

Figure 8. DC mV Measurement Test Connections

Table 9. DC mV Test

Range Calibrator DC Voltage Minimum Reading Maximum Reading

No Range Switching 100 mV 99.7 mV 100.3 mV

No Range Switching 300 mV 299.5 mV 300.5 mV

µ

m

npW

k

M

SHIFT

dBm sec

V Hz

ENTER

PREV

¡F

NEW

¡CA

REF

MEAS

F

TC

MULTxDIV

EDIT

RESETCESETUP

FIELD

MORE

MODES

÷

POWER

I

O

adm005F.EPS

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DC Volts Measurement Tests

To prevent possible electrical shock, fire, or personal injury:

ProcessMeter™

Performance Verification

 Warning

• Some of the calibration verification tests involv

e the use of high

voltages and should be performed by qualified personnel only.

• Always place the calibrator in the Standby (STBY) mode betw

een

tests and before handling the test connections or test cables.

1.

Put the calibrator in Standby (STBY) mode.

2.

Put the UUT rotary switch in the T position; select the autoranging mode.

3.

Connect the calibrator to the COM and

 terminals on the UUT as shown in

Figure 9.

4. Apply the values from the calibrator shown in Table 10 and compare the readings on
the UUT to the acceptable readings shown.

UUT

5522A

5520A CALIBRATOR

NORMAL AUX

SCOPE

V, , ,

AUX V

RTD

A, -SENSE,

20V PK MAX

OUT

STBY

HI

LO

TRIG

20A

GUARD

20V PK MAX

TC

OPR EARTH EXGRD SCOPE MENU

789

456

123

+

0•

/



m

npW

k

M

SHIFT

PREV

dBm sec

VHz

¡F

ENTER

NEW

¡CA

REF

MEAS

F

TC

MULTxDIV

Figure 9. AC/DC Voltage Measurement Test Connections

EDIT

RESETCESETUP

FIELD

MORE

MODES



POWER

I

O

adm009F.EPS

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789/787B

Calibration Manual

AC Volts Measurement Test

Table 10. DC Volts Test

Range Calibrator DC Voltage Minimum Reading Maximum Reading

4 V dc 1 V 0.998 V 1.002 V

4 V dc 3 V 2.996 V 3.004 V

40 V dc 10 V 9.98 V 10.02 V

40 V dc 30 V 29.96 V 30.04 V

400 V dc 100 V 99.8 V 100.2 V

400 V dc 300 V 299.6 V 300.4 V

1000 V dc 100 V 99 101

1000 V dc 800 V 798 802

 Warning

To prevent possible electrical shock, fire, or personal injury:

• Some of the calibration verification tests involv

e the use of high

voltages and should be performed by qualified personnel only.

• Always place the calibrator in the Standby (STBY) mode betw

een

tests and before handling the test connections or test cables.

1.

Put the calibrator in Standby (STBY) mode.

2.

Put the UUT rotary switch in the S position.

3.

Connect the calibrator to the COM and

 terminals on the UUT as shown in

Figure 9.

4. Apply the values from the calibrator shown in Table 11 and compare the readings on
the UUT to the acceptable readings shown.

Table 11. AC Volts Test

Range Calibrator Voltage and Frequency

400 mV ac 100 mV @ 60 Hz 98.9 mV 101.1 mV

400 mV ac 300 mV @ 60 Hz 297.5 mV 302.5 mV

4 V ac 1 V @ 60 Hz 0.991 V 1.009 V

4 V ac 2 V @ 60 Hz 1.984 V 2.016 V

4 V ac 3 V @ 60 Hz 2.977 V 3.023 V

40 V ac 10 V @ 60 Hz 9.91 V 10.09 V

40 V ac 30 V @ 60 Hz 29.77 V 30.23 V

400 V ac 100 V @ 60 Hz 99.1 V 100.9 V

400 V ac 300 V @ 60 Hz 297.7 V 302.3 V

1000 V ac 100 V @ 60 Hz 97 103

1000 V ac 800 V @ 60 Hz 792 808

Minimum Acceptable

Reading

Maximum Acceptable

Reading

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Frequency Measurement Test

1. Put the calibrator in Standby (STBY) mode.

2. Put the UUT rotary switch in the  (ac volts) position.

3. Press h to toggle to the frequency measurement function.

4. Connect the calibrator to the COM and  terminals on the UUT as shown in
Figure 10.

5. Apply the values from the calibrator shown in Table 12 and compare the readings on
the UUT to the acceptable readings shown. Press R to select the voltage range.

Table 12. Frequency Measurement Test

ProcessMeter™

Performance Verification

UUT

Range Voltage

Calibrator Voltage

and Frequency

Minimum Acceptable

Reading

Maximum

Acceptable Reading

199.99 Hz 400 mV 150 mV @ 100 Hz 99.98 Hz 100.02 Hz

1999.9 Hz 4 V 1 V @ 1000 Hz 999.8 Hz 1000.2 Hz

19.999 kHz 40 V 4 V @ 10 kHz 9.998 kHz 10.002 kHz

UUT

5522A

5520A CALIBRATOR

NORMAL AUX

SCOPE

V, , ,

AUX V

RTD

A, -SENSE,

20V PK MAX

OUT

STBY

HI

LO

TRIG

20A

GUARD

20V PK MAX

TC

OPR EARTH EXGRD SCOPE MENU

7 8 9

456

123

+

0•

/

µ

m

npW

k

M

SHIFT

dBm sec

V Hz

ENTER

PREV

¡F

NEW

¡CA

REF

MEAS

F

TC

MULTxDIV

EDIT

RESETCESETUP

FIELD

MORE

MODES

÷

POWER

I

O

adm010F.EPS

Figure 10. Frequency Measurement Test Connections

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Calibration Manual

Calibration Adjustment

Preparation

The following sections comprise the Calibration Adjustment Procedure. The procedure is
meant to bring the UUT back into specification following repair of the UUT or when the
UUT fails the Performance Test. The required equipment is listed earlier in Table 2.

Calibrate the ProcessMeter once a year to ensure that it performs according to its
specifications.

 Warning

To prevent possible electric shock, fire, or personal injury:

•

Do not use the ProcessMeter if it looks damaged.

• Inspect the ProcessMeter for damage, especially around the input
terminals. Inspect the test leads and test connections for
damaged insulation or exposed metal.

• Look for cracks, missing plastic or damaged insulation. If damage
is detected, do not continue; contact Fluke to have the
ProcessMeter serviced.

• Make sure that the battery compartment door on the ProcessMeter
is closed and latched before using it.

• Check the test leads for continuity. Replace damaged test leads as
necessary.

• Do not use the ProcessMeter if it appears to operate abnormally
Protection designed into the ProcessMeter might be impaired. If in
doubt, have the ProcessMeter serviced.

• To avoid electrical shock, always
Standby (STBY) mode between tests and before handling the test
connections or test cables.

• Some of the calibration adjustment procedures involve the use of
high voltages and should be performed by qualified personnel
only.

place the calibrator in the

.

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Note

The calibration adjustment procedures assume that the person performing
them knows how to use the ProcessMeter and the required equipment. Do
not attempt to calibrate the ProcessMeter unless you are qualified to do so.

Calibration adjustment should be performed in an RF field <1 V/m such as
a laboratory environment.

To prepare for calibration adjustment, do the following:

1. Make sure that you have the required equipment available (see Table 2).

2. Make sure that both fuses in the UUT are intact. See Check and Replace Fuses
earlier in this manual.

3. Turn on and warm up the calibrator as required by its specifications.

4. Remove all input cables from the front of the UUT.

5. Make sure that the UUT is in an ambient temperature between 18 °C and 28 °C
(64.4 °F and 82.4 °F).

Procedure for Models with Firmware Version <2.0

ProcessMeter™

Calibration Adjustment

AC Voltage Adjustment

Connect the ProcessMeter to the volt/ohm output of the 5522A calibrator.

1. Turn the UUT switch to S.

2. The calibration button is located on the backside of the ProcessMeter, under the
Calibration Seal. Use a small probe to break the seal.

3. Press and hold the Calibration Button for approximately 2 seconds. The unit will beep
(see Figure 11).

Pressing the Calibration Button puts the ProcessMeter into and out of
calibration mode. The ProcessMeter will remain in calibration mode until
the unit is turned off or the calibration button is pressed a second time.

CAL appears in the bottom display when the ProcessMeter is in calibration
mode.

4. Apply the voltages listed below as prompted by the ProcessMeter.

5. Press  after each sourced value appears. Do not alter the sourced value while
the display reads Busy.

Applied voltages:

• 4 mV @ 60 Hz

• 40 mV @ 60 Hz

• 400 mV @ 60 Hz

• 4 V @ 60 Hz

• 40 V @ 60 Hz

• 400 V @ 60 Hz

• 1000 V @ 60 Hz

6. When Store is displayed, press  to store the calibration value.

Note

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789/787B

Calibration Manual

Calibration Button

Frequency Adjustment

1. Connect the ProcessMeter to the volt/ohm output of the 5522A calibrator.

2.

Turn the UUT’s switch to S.

3. Push

4. Press and hold the Calibration Button for approximately 2 seconds. The unit will beep

Press the Calibration Button to put the ProcessMeter into and out of
calibration mode. The ProcessMeter remains in calibration mode until the
unit is turned off or the calibration button is pressed a second time.

CAL appears in the bottom display when the ProcessMeter is in calibration
mode.

5. Apply 4 V @ 5000 Hz.

6. Press

7. When

h.

(see Figure 11).

 after the sourced value appears. Do not alter the sourced value while the

display reads Busy.

Store displays, press  to store the calibration value.

Figure 11. Calibration Button Access

aau04f.eps

Note

28

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DC Voltage Adjustment

1. Connect the ProcessMeter to the volt/ohm output of the 5522A calibrator.

2.

Turn the UUT’s switch to T.

3. Press and hold the Calibration Button for approximately 2 seconds. The unit will beep
(see Figure 11).

Pressing the Calibration Button puts the ProcessMeter into and out of
calibration mode. The ProcessMeter will remain in calibration mode until
the unit is turned off or the calibration button is pressed a second time.

CAL appears in the bottom display when the ProcessMeter is in calibration
mode.

4. Press  after each sourced value appears. Do not alter the sourced value while

the display reads Busy.

Applied voltages:

• 0 V

• 4 V

ProcessMeter™

Calibration Adjustment

Note

• 40 V

• 400 V

• 1000 V

5. When

Store is displayed, press  to store the calibration value.

DC Millivolts Adjustment

1. Connect the ProcessMeter to the volt/ohm output of the 5522A calibrator.

2.

Turn the UUT’s switch to U.

3. Press and hold the Calibration Button for approximately 2 seconds. The unit will beep
(see Figure 11).

Pressing the Calibration Button puts the ProcessMeter into and out of
calibration mode. The ProcessMeter will remain in calibration mode until
the unit is turned off or the calibration button is pressed a second time.

CAL appears in the bottom display when the ProcessMeter is in calibration
mode.

4. Apply 0 V. Press  after the sourced value appears. Do not alter the sourced
value while the display reads Busy.

5.

Apply 400 mV. Press  after the sourced value appears. Do not alter the sourced
value while the display reads Busy.

Note

6. When

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Store is displayed, press  to store the calibration value.

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789/787B

Calibration Manual

Ohms Adjustment

1. Connect the ProcessMeter to the volt/ohm output of the 5522A calibrator.

2. Turn the UUT’s switch to V.

3. Press and hold the Calibration Button for approximately 2 seconds. The unit will beep
(see Figure 11).

Note

Pressing the Calibration Button puts the ProcessMeter into and out of
calibration mode. The ProcessMeter will remain in calibration mode until
the unit is turned off or the calibration button is pressed a second time.

CAL appears in the bottom display when the ProcessMeter is in calibration
mode.

4. Apply the resistances listed below. Press  after each sourced value appears.
Do not alter the sourced value while the display reads Busy.

Applied resistances:

• 0 Ω

• 400 Ω

• 4 kΩ

• 40 kΩ

• 400 kΩ

• 4 MΩ

• 40 MΩ

5. When Store is displayed, press  to store the calibration value.

Diode Adjustment

1. Connect the ProcessMeter to the volt/ohm output of the 5522A calibrator.

2. Turn the UUT’s switch to V.

3. Press J (BLUE) to enter the diode function.

4. Press and hold the Calibration Button for approximately 2 seconds. The unit will beep
(see Figure 11).

Pressing the Calibration Button puts the ProcessMeter into and out of
calibration mode. The ProcessMeter will remain in calibration mode until
the unit is turned off or the calibration button is pressed a second time.

CAL appears in the bottom display when the ProcessMeter is in calibration
mode.

Before applying 0 V dc, the 5522A must be range locked in the 3.3 V range.
Impedance of 330 mV range changes the 0 V point.

5. Apply 0 V dc. Press  after the sourced value appears. Do not alter the sourced
value while the display reads Busy.

6. Apply 1 V dc. Press  after the sourced value appears. Do not alter the sourced
value while the display reads Busy.

7. When Store is displayed, press  to store the calibration value.

Note

30

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Milliamps DC Adjustment

1. Connect the ProcessMeter to the mA output of the 5522A calibrator.

2.

Turn the UUT’s switch to
inputs.

3. Press and hold the Calibration Button for approximately 2 seconds. The unit will beep
(see Figure 11).

Pressing the Calibration Button puts the ProcessMeter into and out of
calibration mode. The ProcessMeter will remain in calibration mode until
the unit is turned off or the calibration button is pressed a second time.

CAL appears in the bottom display when the ProcessMeter is in calibration
mode.

4. Apply 0 mA dc. Press  after the sourced value appears. Do not alter the
sourced value while the display reads Busy.

5.

Apply 30 mA dc. Press  after the sourced value appears. Do not alter the
sourced value while the display reads Busy.

ProcessMeter™

Calibration Adjustment

W. Make sure the test leads are in the mA  and COM

Note

6. When

Store is displayed, press  to store the calibration value.

Amps DC Adjustment

1. Connect the ProcessMeter to the A output of the 5522A calibrator.

2.

Turn the UUT’s switch to

3. Press and hold the Calibration Button for 2 seconds (see Figure 11). The unit will
beep.

4.

Apply 0 A dc. Press  after the reading stabilizes.

5.

Apply 1 A dc. Press  after the reading stabilizes.

Remove 1 A from UUT promptly after storing calibration constant.
Fuse will blow after 30 seconds.

6. Press  to store calibration constants.

W. Make sure the test leads are in the A and COM jacks.

 Caution

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Calibration Manual

Amps AC Adjustment

1. Connect the ProcessMeter to the A output of the 5522A calibrator.

2.

Turn the UUT’s switch to

W.

3. Press

4. Press and hold the Calibration Button for 2 seconds (see Figure 11). The unit will

5.

6.

7. Press

Remove 1 A from UUT promptly after storing calibration constant.
Fuse will blow after 30 seconds.

J (BLUE) to enter the A ac function.

beep.

Apply 0.05 A ac @ 60 Hz. Press  after the reading stabilizes.

Apply 1 A ac. Press  after the reading stabilizes.

 to store calibration constants.

Milliamps Output Adjustment

1. Connect the ProcessMeter A output to the Digital Multimeter input.

2.

UUT will output approximately 4 mA. Use the fine and coarse adjustments on the
UUT to get a 4.000 mA reading on the Digital Multimeter.

3. Press

4.

5. Press

 after 4.000 mA reading is reached on the Digital Multimeter.

UUT will output approximately 20 mA. Use the fine and coarse adjustments on the
UUT to get a 20.000 on the Digital Multimeter.

 after 20.000 mA reading is reached on the Digital Multimeter.

 Caution

6. Press

 to store calibration constants.

32

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Procedure for Models with Firmware Version ≥2.0

Calibration Adjustment Counter

The Meter contains a calibration adjustment counter. The counter is incremented each
time a Calibration Adjustment Procedure is completed. The value in the counter can be
recorded and used to show that no adjustments have been made during a calibration
cycle.

Use the following steps to view the calibration counter on the UUT.

1. While holding down  on the UUT, turn the rotary switch from OFF to V. The

UUT should display . Release .

2. Press  once to see the calibration counter. For example, .

3. Turn the rotary switch to OFF.

Calibration Adjustment Password

To start the Calibration Adjustment Procedure, the correct four-digit password must be
entered. The password can be changed or reset to the default as described in following
paragraphs. The default password is .

ProcessMeter™

Calibration Adjustment

How to Change the Password

1. While holding down  on the UUT, turn the rotary switch from OFF to V. The

UUT displays . Release .

2. Press  once to see the calibration counter.

3. Press  again to start the password entry. The UUT displays ????.

The following keys represent the digit indicated below when entering or changing the
password:

 = 1 M = 2 R = 3 H = 4
 = 5 G = 6 r = 7 h = 8

K = 9 J = 0

4. Press the four keys to enter the old password. If changing the password for the first

time, enter  (1), M (2), R (3), and H (4).

5. Press r to change the password:

• The UUT displays //// if the old password is correct.

• If the password is not correct, the UUT emits a double beep, displays ???? and

the password must be entered again. Repeat step 4.

6. Press the four keys representing the new password.

7. Press  to store the new password.

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789/787B

Calibration Manual





Static Awareness

Semiconductors and integrated circuits can be damaged by electrostatic
discharge during handling. This notice explains how to minimize damage to
these components.

1. Understand the problem.

2. Learn the guidelines for proper handling.

3. Use the proper procedures, packaging, and bench techniques.

Follow these practices to minimize damage to static sensitive parts.

 Warning

To prevent electric shock or personal injury. De-energize
the product and all active circuits before opening a
product enclosure, touching or handling any PCBs or
components.



• Minimize handling.

• Handle static-sensitive

parts by non-conductive
edges.

• Do not slide static­sensitive components
over any surface.

• When removing plug-in
assemblies, handle only
by non-conductive
edges.

• Never touch open-edge
connectors except at a
static-free work station.

• Keep parts in the original
containers until ready for
use.

• Use static shielding
containers for handling
and transport.

• Avoid plastic, vinyl, and
Styrofoam
area.

®

in the work

• Handle static-sensitive
parts only at a static­free work station.

• Put shorting strips on
the edge of the
connector to help
protect installed static­sensitive parts.

• Use anti-static type

solder extraction tools
only.

• Use grounded-tip

soldering irons only.

34

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How to Restore the Default Password

U16

C99

R117

C84

C89

C100

TP36

R106

R94

U17

C104

TP49

TP23

Q21

Q22

RT2

C80

C83

C91

C93

C96

C101

C72

R108

TP43

TP47

CR9

R113

TP48

TP29

CR6

CR7

R109

C97

L3

Q26

R110

C98

TP14

TP17

F3

TP30

R112

R111

R115

C79

R105

R116

R70

TP16

R83

C70

R97

U15

S12

TP12

R84

C60

TP37

LS1

C

L2

C73

TP40

Q32

FRONT

TP27

TP28

R96

C78

R99

Q20

C46

TP19

C71

C81

CR8

TP13

C58

R87 R90

U14

L4

R91

TP20

RN7

TP31

C76

U19

TP44

C50

C54
C53

U10

C61

C56

C67

C77

R103

C85

C108

TP46

Q30

1

U12

C66

C86

C109

C110

TP45

R125

Q19

TP22

C59

C65

TP32

TP35

C87

R123

R128

C63

R85

R118

Q27

Q29

C48

TP24

RN8

TP50

TP33

C102

R124

1

C82

C90

TP42

DS3

FRONT

R104 R107

C95

R120

R121

R126
R122

R129

R131

C47

R76

TP18

C62

C69

TP34

TP38

TP39

TP41

1

C103

C105

C44

C45

C51

R81

TP26 C64

Q25

U18

R73
R72

U11

Q23

C74

R100

C94

R114

R127

R74

R78
R77

R79

R82
R80

C57

U13

C68

C75

R101

C92

Q31

C55

RN6

RN9

R93

R95

R102

C88

R119

C107

Q28

C111

1

R130

TP15

TP25

Q24

R98

Y1

C106

R71

C49

R75

C52

TP21

R86

R88

R89

R92

U16

C99

R117

C84

C89

C100

TP36

R106

R94

U17

C104

TP49

TP23

Q21

Q22

RT2

C80

C83

C91

C93

C96

C101

C72

R108

TP43

TP47

CR9

R113

TP48

TP29

CR6

CR7

R109

C97

L3

Q26

R110

C98

TP14

TP17

F3

TP30

R112

R111

R115

C79

R105

R116

R70

TP16

R83

C70

R97

U15

S12

TP12

R84

C60

TP37

LS1

C

L2

C73

TP40

Q32

FRONT

TP27

TP28

R96

C78

R99

Q20

C46

TP19

C71

C81

CR8

TP13

C58

R87 R90

U14

L4

R91

TP20

RN7

TP31

C76

U19

TP44

C50

C54
C53

U10

C61

C56

C67

C77

R103

C85

C108

TP46

Q30

1

U12

C66

C86

C109

C110

TP45

R125

Q19

TP22

C59

C65

TP32

TP35

C87

R123

R128

C63

R85

R118

Q27

Q29

C48

TP24

RN8

TP50

TP33

C102

R124

1

C82

C90

TP42

DS3

FRONT

R104 R107

C95

R120

R121

R126
R122

R129

R131

C47

R76

TP18

C62

C69

TP34

TP38

TP39

TP41

1

C103

C105

C44

C45

C51

R81

TP26 C64

Q25

U18

R73

R72

U11

Q23

C74

R100

C94

R114

R127

R74

R78
R77

R79

R82
R80

C57

U13

C68

C75

R101

C92

Q31

C55

RN6

RN9

R93

R95

R102

C88

R119

C107

Q28

C111

1

R130

TP15

TP25

Q24

R98

Y1

C106

R71

C49

R75

C52

TP21

R86

R88

R89

R92

To avoid electrical shock or personal injury, remove the test leads and
any input signal before removing the back case from the UUT.

If the calibration password is forgotten, the default password () can be restored with
these steps:

1. Turn the rotary switch from OFF to B.

2. Remove the back case from the UUT.

3. Remove the shield and leave the PCA in the top case.

4.

Apply 6.0 V across the battery pads (XBT1) + and – on the back of the PCA. See
Figure 10.

Short across the  keypad on the back of the PCA. See Figure 10. The UUT should

4.
beep (if the beeper is enabled). The default password is now restored.

5. Remove the 6.0 V supply and install the shield and back case on the UUT.

ProcessMeter™

Calibration Adjustment

Warning

Firmware Version = ≥2.0

Cal Password

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Reset

Figure 12. Restoring the Default Password

35

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Battery Pads

ebp10f-1.eps

789/787B

Calibration Manual

Meter Keys Used in the Calibration Steps

Calibration Adjustment

The Meter keys behave as follows when performing the Calibration Adjustment
Procedure. This may be of help determining why a calibration step is not accepted and
for determining the input value without referring to Table 6.

H Press and hold to show the measured value. The measurement value is not

calibrated so it may not match the input value. This is normal.

M Press and hold to display the required input amplitude.
h Press and hold to display the frequency of the required input.

J Store the calibration value and advance to the next step. This key is also used

to exit the calibration mode after the calibration-adjustment sequence is
complete.

RANGE HOLD

REL

Use the following steps to make calibration adjustments to the UUT. Complete the
adjustment procedure before turning the UUT off; otherwise, the new calibration
constants will not be saved.

Press to adjust the Source mA to the target.

Hz

1. While holding down

H, turn the rotary switch from OFF to V. The UUT

displays . Release .

2. Press

3. Press

H once to see the calibration counter, for example, 0001.
H again to start the password entry. The UUT displays ????.

4. Press four keys to enter the password.

5. Press

H to go to the first calibration step. The UUT displays 0001 if the password

is correct. If the password is not correct, the UUT emits a double beep, displays ????
and the password must be ent

6.

Apply the input value listed for each calibration adjustment step in Table 13. For each

ered again. Repeat step 4.

step, position the rotary switch and apply the input to the terminals as indicated in the
table.

7.

After each input value is applied, press J to accept the value and proceed to the
next step (0002 and so forth).

Note

Press J and wait until the step number advances before changing the
calibrator source or turning the rotary switch. If the rotary switch is not in
the correct position, or if the measured value is not within the anticipated
range of the input value, the UUT emits a double beep and will not continue
to the next step. Some adjustment steps take longer to execute than others
(10 to 15 seconds). For these steps, the UUT will beep when the step is
complete. Not all steps have this feature.

8. After the final step, the display shows  to indicate that the calibration adjustment is
complete. Press G to go to meter mode.

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Calibration Adjustment

Note
Set the calibrator to Standby prior to changing the function switch position
and/or after completing adjustment of each function. If the calibration
adjustment procedure is not completed correctly, the UUT will not operate
correctly.

 Caution

Remove 1 A from UUT promptly after storing calibration constant.
Fuse will blow after 30 seconds.

Table 13. Calibration Adjustment Steps for Models with Firmware Version >2.0

Input Terminal Step Input Value Function

1 400 mV ac, 60 Hz V ac

2 4 V ac, 60 Hz V ac

3 40 V ac, 60 Hz V ac

4 400 V ac, 60 Hz V ac

5 4 V dc V dc

ProcessMeter™

V/COM

mA/COM

A/COM

6 40 V dc V dc

7 400 V dc V dc

8 400 mV dc mV dc

9 40 mV dc mV dc

10 400 Ω Ω

11 4 kΩ Ω

12 40 kΩ Ω

13 400 kΩ Ω

14 4 MΩ Ω

15 0 MΩ Ω

16 40 MΩ Ω

17 4 V dc Diode

18 0 mA dc mA

19 30 mA dc mA

20 1 A dc A

21 1 A ac, 60 Hz A

22 1 A ac, 2 kHz A

23 No input, 0 % (4 mA) output, measure

output current with HP3458

A/mA

24 No input, 100 % (20 mA) output,

measure output current with HP3458

mA source

mA source

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789/787B

Calibration Manual

Replacement Parts and Accessories

 Warning

To prevent possible electrical shock, fire, or personal injury use only:

• Use only specified replacement fuses.

• Use only specified replacement parts.

Replacement parts and some accessories are shown in Figure 13 and listed in Table 14.
Many more DMM accessories are available from Fluke. For a catalog, contact the
nearest Fluke distributor.

To find out how to order parts or accessories use the telephone numbers or addresses
shown in "Contacting Fluke."

1

2

3

4

5

6

2x

7

8

9

13

2x

W

10

11

12

2x

14

4x

15

16

17

3x

18

19

20

2x

21

22

23

4x

24

25

26

27

2x

28

29

anw038.eps

Figure 13. Replacement Parts

38

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Table 14. Replacement Parts

ProcessMeter™

Replacement Parts and Accessories

Item

Number





























Description

Knob Assembly with o-ring

Decal, Top Case 1623923

Keypad

Top Shield 1622924

Top Shield Contact

LCD Display

LCD Connectors, Elastomeric

Backlight/Bracket 1622960

Top Case with Lens Protector 1622855

Contact Housing

RSOB Contact

Mask 1622881

 Fuse, 440 mA, 1000 V fast-blow

PCB Screw

Fluke PN

for 789 <V2

Fluke PN

for 789 ≥V2

658440

1622951 1

674853 1

1883431 1

1641965 2

1622913 1

1567683 4

943121 2

832220 2

Fluke PN

for 787B

4772670 1

4772201 1

4772681 1

4756199 1

4772197 2

4772655 1

Quantity

 Battery Contact, Negative

 Battery Contact, Positive

 Battery Contacts Dual

 Bottom Insulator NA



Bottom Shield 1675171

 Shock Absorber



IR Lens

 Bottom Case 659042

 Case Screws

 Battery, 1.5 V, 0-15 mA, AA Alkaline

 Accessory Mount with Probe Holders

 Shock Absorber

 Access Door, Battery/Fuse

 Fasteners, Battery/Fuse Access Door

 Tilt-Stand

- Test Leads

- Alligator Clips

658382 1

666438 1

666435 3

4811256 1

4811263 1

878983 1

658697 1

4772662 1

1558745 4

376756 4

658424 1

674850 1

1622870 1

948609 2

659026 1

[1]

variable

variable

1 (set of 2)

[1]

1 (set of 2)

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