Voltech PM100 User Manual

V

V

f

www.voltech.com

Thank you for choosing to use this Voltech Power Analyzer.

Should you experience any difficulty during the set up or use of any

Voltech product, or are unsure of any of their features or abilities,

please do not hesitate to contact either your local supplier or one o

our Voltech offices.

oltech Instruments Inc.

11637 Kelly Road, Suite 306

Fort Myers, FL 33908

U.S.A.

Tel: 239 437 0494
Fax: 239 437 3841
sales@voltech.com

PM100/300

POWER ANALYZERS

USER MANUAL

oltech Instruments Ltd.

148 Harwell Sience and Innovation Campus

Didcot, OX11 0RA

Tel: +44 (0) 1235 834555

Fax: +44 (0) 1235 835016

sales@voltech.co.uk

U.K.

ARRANTY

W

This product is warranted against defect in materials and workmanship for a period
of one year from the date of shipment. During the warranty period, Voltech will,
at its option, either repair or replace products which prove to be defective.

For repair services under warranty, the instrument must be returned to a service
centre designated by Voltech. Please contact your local supplier for details.

Limitation of Warranty

The foregoing warranty shall not apply to defects resulting from unauthorised
modification or misuse, or operation outside specification of instrument. No other
warranty is expressed or implied.

Whilst every care has been taken in compiling the information in this publication
Voltech cannot accept legal liability for any inaccuracies contained herein.
Voltech has an intensive programme of design and development which may well
alter product specification, and reserve the right to alter specification without
notice and whenever necessary to ensure optimum performance from its product
range.

Because software is inherently complex and may not be completely free of errors,
you are advised to verify your work. In no event will Voltech be liable for direct,
indirect, special, incidental or consequential damages arising out of the use of or
inability to use software or documentation, even if advised of the possibility of
such damage.

All rights reserved.

No part of this publication may be produced, stored in a retrieval system, or
transmitted in any form, or by means, electronic, mechanical photocopying,
recording or otherwise without prior permission of Voltech.

 Copyright Voltech Instruments Ltd 1996-2007.

Voltech Part Number 98-052 Issue 8. March 2007.

PM100 / 300 USER MANUAL HEALTH AND SAFETY

HEALTH AND SAFETY

Electrical devices can constitute a safety hazard. It is the responsibility of the user to ensure the
compliance of the installation with any local acts or bylaws in force. Only qualified personnel should
install this equipment, after reading and understanding this users guide. These operating instructions
should be adhered to. If in any doubt, consult your supplier.

DANGER

ELECTRIC SHOCK RISK

Please note:

This equipment is supplied under warranty conditions in force at the time of purchase from your
supplier. Contact your supplier for details. Any attempt to disassemble or modify the unit will render
any warranty agreement invalid.

The contents of this guide are believed to be accurate at the time of printing. The manufacturers,
however, reserve the right to change the content, product specification, and performance criteria,
without notice. No liability is accepted for the inappropriate, negligent, or incorrect set-up of the
instrument by the user, either by manual or automated means.

CHECK YOUR LINE INPUT VOLTAGE SETTING BEFORE

CONNECTING TO SUPPLY!

230

Read line input

voltage setting here

Pull out the fuse drawer and rotate the grey fuse holder to change the setting.

VPN 98-052 i

HEALTH AND SAFETY PM100 / 300 USER MANUAL

SAFETY PRECAUTIONS

1. The PM100 and PM300 power analyzers have been constructed in compliance with the
requirements of EN61010-1, Pollution Degree 2, Installation Category II, FOR INDOOR USE
ONLY. This ensures the safety of the meter and the user when normal precautions are
followed.

2. WARNING: The analyzer MUST be earthed. The power source should be inserted in a socket
with a protective ground contact.

3. The power source should be inserted before connections are made to measuring or control
circuits.

4. Do not attempt to remove outer cover without first disconnecting auxiliary and test power
supply.

5. This instrument must only be serviced by qualified personnel who understand the danger of
shock hazards.

6. When the instrument is removed from its case hazardous voltages are present.

7. The electronic circuitry of this instrument is fully floating with respect to ground. If the
instrument is opened and dangerous voltages (above 50V peak) applied to the input terminals
then all the circuitry must be considered 'Live'.

8. The signal leads must be in good condition with no damage.

9. Use a fuse only with the same type and rating - 315mAT

ii VPN 98-052

PM100 / 300 USER MANUAL CONTENTS

CONTENTS

PAGES

Section 1 Getting Started 1

Section 2 Function Keys 7

Section 3 The Menu System 9

Example: Low-Power Standby Measurements 19

Section 4 Calibration 21

Section 5 Specifications 25

Section 6 Accessories 29

Section 7 EMC Compliance 31

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CONTENTS PM100 / 300 USER MANUAL

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PM100 / 300 U

SER MANUAL

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ETTING STARTED

ECTION

S

Thank you for purchasing a Voltech Power Analyzer. Your analyzer comes supplied with:

Please report any missing items to your Voltech product supplier immediately. When you return your product
registration card to Voltech, we will ensure that you continue to receive news of the latest applications software
and hardware available for your power analyzer.

PM100 and PM300 power analyzers are ideal for making accurate measurements on most electrical and
electronic equipment. Measurements on pulsewidth-modulated motor drives present special problems however,
and we recommend the use of special ‘PWM Mode’ on other Voltech analyzers for this application.

All PM100 and PM300 power analyzers are supplied with a power lead, and the line voltage selector switch and
menu language suitable for use in their intended destination country. Please check the line voltage setting on
the IEC line socket at the back of the power analyzer.

HANGING THE LANGUAGE

C

1 - G

1. This Manual

2. A Power Lead

3. Safety Insulated test leads;
PM100:- 2 yellow, 2 black
PM300:- 6 yellow, 6 black

4. Safety crocodile clips

5. A Voltech product registration card

Press [MENU]

Press [6] or [>] until you see the following display;

Press [↵]

x >√<

Press [<]

>x< √

Press [↵] to move to the next item in the menu system,

or, press [MENU] to exit the menu system and return to the measurement display.

The menu will now be displayed in the alternative language available in your power analyzer.

ETTING STARTED

SELECT MENU

M[0] Outputs

SELECT MENU

M[6] Language

ENGLISH

ENGLISH

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ETTING STARTED

PM100 / 300 U

SER MANUAL

DJUSTING THE

A

LCD

DISPLAY CONTRAST

Switch the analyzer ON. Before pressing any other keys, press and hold the [<] or [>] key to adjust the display
contrast to suit your angle of view. The [<] key will darken the display, and the [>] will make it lighter.

ONNECTING THE ANALYZER

C

Connect the analyzer as shown below. Direct connection to the analyzer’s voltage and current inputs gives the
best accuracy. For higher current applications that require current transformers or external shunts, see page 10.

LO

HI

A

CH1

LL

N

HI

A

CH1

L

HI

V

CH1

LO

LO

HI

V

CH1

LO

LOAD

LOAD

or

N

LO

A

CH1

HI

V

CH1

LO

LOAD

HI

Single-phase, Two wire
and DC measurements

N

L

HI

A

CH2

Three

Phase

Source

or

Three

Phase

Source

or

Three

Phase

Source

or

LOAD

LO

V

CH2

HI

LOAD

LO

LO

HI

Ph1

Ph2

Ph3

Ph1

Ph2

Ph3

A

CH1

HI

A

CH2

HI

A

CH1

HI

A

CH2

HI LO

A

CH3

LO

HI

HI

V

V

CH2CH1

LO

LO

LO

LO

HI

HI

VV

CH2CH1 CH3

LO

LO

Ph1

Three

Ph2

Phase

Load

Ph3

Ph1

Ph2

Ph3

HI

V

LO

or

Three

Phase

Load

or

Single-phase, Three wire*

Three-phase, Three wire*

(2 wattmeter method)

Three-phase, Three wire*

(3 wattmeter method ­Set Analyzer to Three

Phase, Four Wire mode)

LO

HI

Ph1

Ph2

Ph3

N

A

CH1

HI

A

CH2

HI LO

A

CH3

LO

HI

HI

V

V

CH2CH1 CH3

LO

LO

Ph1

Three

Ph2

Phase

Load

Ph3

HI

V

N

LO

or

Three-phase, Four wire*

(3 wattmeter method)

*PM300 only. See page 13 for selection of wiring mode.

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PM100 / 300 U

=

=

V

A

V

V

V

V

With the analyzer connected, and with power applied, the default display shows Volts, Amps and Watts. On a
PM300, quantities for 3 channels and sum are shown.

The green LED on the front panel is illuminated when the analyzer has detected a stable fundamental frequency.
Harmonic measurements are invalid when this LED is not lit (when measuring DC quantities for example).

The third line of the display can be changed to show any of the 6 basic measurement functions:
(The selected measurement mode will be indicated on the display, in the position marked with a * below.)

PM100

113.0 V rms

0.524 A rms

+0.000 *

SER MANUAL

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*

True RMS
Vol tag e

True RMS
Current

W

Real Power

V

RMS i

A

W

=

RMS i

=

1

=

∫

T

T

1

∫

0

T

T

1

idt

∫

0

T

T

vidt

ii

0

ETTING STARTED

2

vdt

2

CH1

107.66

142.43
+0.000

PM300

CH2

107.89

155.52

+0.000

CH3

107.99

0.000

+0.000

186.79

99.32
+0.000

V rms
A rms
*

A

olt - Amperes

Ar

olt - Amperes

reactive

PF

True Pow er
Factor

VA V A

VAr VA W=−

PF W VA

∗

RMS RMS

2

()

2

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ETTING STARTED

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SER MANUAL

FREQ

Frequency

The frequency of the input waveform is obtained using the [FREQ] key. The
lowest of the frequencies detected on the Channel 1 V and A inputs is
displayed. This frequency is used as the fundamental for harmonic analysis.

FUND Fundamental value.

V.f, A.f, W.f, VA.f, Var.f, PF.f

The fundamental (1st Harmonic) component of the 6 basic measurements are
quickly shown by using the [FUND] key.

PF.f is the power factor due to the fundamental components of voltage and
current. This is equivalent to cos∅ in a sinewave system. Cos∅ has a sign to
denote leading or lagging current, and the convention used is shown below:

0° -90° -180° -270° -360°

W + - - +

PF.f - - + +

Var.f + + - -

For Watts, + or - indicates the direction of the power flow.
For PF.f, + indicates that I leads V (Capacitive).
For Var.f + indicates an inductive load.

The sign used to indicate fundamental power factor may be reversed in menu 4.

For example;

Press [MENU]

SELECT MENU

M[0] Outputs

Press [4] or [>] until you see the following display;

SELECT MENU

M[4] Key Options

Press [↵]

PF LEADING

>-< +

Press [<] and [>] to make your selection

PF LEADING

- >+<

Press [↵] to move to the next item in the menu system,

press [MENU] to exit the menu system and return to the measurement

or,

display.

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ETTING STARTED

Four further types of measurement are available. These are associated with
only specific basic measurements. Attempting to show ‘VA’ ‘PEAK’ for
example will result in a parameter error.

PEAK Peak value of the waveform V pk, A pk.

Display of crest factor may be selected in menu 4. Select V cf, A cf by using
the [V] and [A] keys in [PEAK] mode. Press [PEAK] again to cancel.

Press [MENU]

SELECT MENU

M[0] Outputs

Press [4] or [>] until you see the following display;

SELECT MENU

M[4] Key Options

Press [↵] until you see the following display;

PEAK

>pk< cf

Press [<] and [>] to make your selection

PEAK

pk >cf<

Press [↵] to move to the next item in the menu system,

or, press [MENU] to exit the menu system and return to the measurement
display.

HARM Displays either Voltage (Vhxx), Current (Ahxx), or Power (Whxx)

harmonics by pressing the [V], [A], or [W] keys.

Press [HARM] again to cancel harmonic display.

PM100

AH01 AH03

2.47 0.526

1st, 3rd current harmonic
Amplitude of harmonics in Amps

-015.1° -160.8° Phase of harmonic relative to VH01

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PM300

CH1 CH2 CH3 Σ

96.88 97.08 97.78 168.44 V rms

121.13m 134.38m 128.47m 127.99m AH01

-002.3 -120.6 -242.4

°

Phase of harmonic

Amplitude of harmonic in Amps

Use the [<] and [>] keys to scroll through harmonics 0 (dc) to 50.

Harmonic amplitude can be shown as absolute values by selecting ‘V/A/W’ in
menu 2. (See page 12 for example.)

THD Total Harmonic Distortion. V thd, A thd.

The power analyzer automatically selects the most accurate method of
calculation, depending on the level of THD. Press [A] or [V] to select A thd or
V thd. Press [THD] again to cancel THD display.

22

)

HRMSdf−

THD > 6%

=

1

%100 X

1

2222

HHHH

++++

THD < 6%

thd

=

....5432

1

See also the in [MENU] [4] for how to manually select the formula that is used
and [MENU] [2] for how to change the harmonic reference (the denominator in
the equations above).

INTG

Displays Integrated values.
Ah, Wh, VAh, VArh, PF (Average) and fundamentals are valid.

The period of integration is set in menu 2. Pressing the [INTG] key starts
integration, and displays any of the integrated values during integration.

Pressing the [INTG] key again returns the display to normal mode, integration
continues in the background until the time set in menu 2 is reached.

The orange LED is lit when the integrator is running. Press and HOLD the
[INTG] key to stop integration.

%100 X

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PM100 / 300 USER MANUAL FUNCTION KEYS

SECTION 2 - FUNCTION KEYS

PROG Press and HOLD this key to toggle between default (Red LED off) and stored

settings (Red LED on).

MENU Enter and exit the menu system.

<

Move through menus, select settings etc. Clear erroneous menu data.

>

↵↵ When measuring: acts as a HOLD key (toggle). In the menu system: acts as the

ENTER key.

DISP PM300 only. Selects Channel on Display. Toggles display of Σ quantities and

Neutral Amps.

When in 1ph 2W mode, pressing the [DISP] key sequences through
measurements on all 3 channels. In this mode, all 3 channels are operating
independently of each other and are able to make measurements on different
ranges and at different frequencies.

For waveform display, the [DISP] key sequences through the following

displays:

1/ V & A CH1
2/ V & A CH2
3/ V & A CH3
4/ V CH1, CH2 and CH3
5/ A CH1, CH2 and CH3
6/ V & A CH1, CH2 and CH3

For barchart display, the [DISP] key sequences through the following displays:

1/ V & A CH1
2/ V & A CH2
3/ V & A CH3

VPN 98-052 PAGE 7

FUNCTION KEYS PM100 / 300 USER MANUAL

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PM100 / 300 U

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MENU S

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3 - T

HE

MENU S

YSTEM

MENU Allows access to the analyzer menu system.

To navigate the menu system, press the [MENU] key and select the menu you
require, either by pressing one of the number keys corresponding to the menu
number, or [>] until you see the menu displayed. When the display shows the
required menu, press [↵] to access it. To change options within a menu, use the
[>] and [<] keys to move the flashing ‘> <‘ around the desired option and press
[MENU] to return to the measurement display, or press [↵] to move to the next
menu option.

For example, to access the
show crest factor instead of peak;

Press [MENU] and the display will show;

SELECT MENU

M[0] Outputs

Press [4] or [>] until you see;

SELECT MENU
M[4] key options

Press [↵] until the following display is shown;

PEAK

>pk< cf

To change the option;

Press [>] to select >cf<

Press [↵] to move to the next item in the menu system,

or press [MENU] to exit the menu system and return to the measurement
display.

All settings are stored when the analyzer is switched off, and may be restored
by pressing the [PROG] key.

The following menu options are available.

M[4] key options

menu and change the display to

M[0] Outputs

Select plug-in interface options.
Options are defined in the user manual supplied with the separately purchased
interface.

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SER MANUAL

M[1] Inputs

1ph 2W >x< or
1ph 3W >x< or
3ph 2W >x< or

9

See connection diagram on page 2

9

See connection diagram on page 2

9

See connection diagram on page 2
3ph 4W x or >9< See connection diagram on page 2
External Shunt >x< or
Voltage Scaling >x< or
Current Scaling >x< or
Manual V Range* >x< or
Manual A Range* >x< or
Fix Freq Source* >x< or

9
9

Enter scale factor

9

Enter scale factor

9

Enter peak volts

9

Enter peak amps

9

Amps or Volts

M[2] Modes

Inrush Current >x< or
Integration Time HH:MM Enter Time (HH:MM)
Ballast Mode >x< or
Harmonic Mode >%< or V/A/W
Waveform >x< or
Barchart >x< or
Fast Mode >x< or
Long Averaging* >x< or
Disable Blanking >x< or

9

9

50Hz or 60Hz

9
9
9
9

Enter Time (secs)

9

M[3] Display

Upper Function >V rms<
Middle Function >A rms<

M[4] Key Options

PF Leading > - < or + (Sign of PF when I leads V)
Peak >pk< or cf (Display peak or crest factor)
Fix THD Formula >x< or
Series Formula >x< or
RMS Harmonic Ref >x< or

9

(Auto or fixed formula select)

9

(Choose fixed formula)

9

(Reference for THD formula)

M[5] Calibration

Password >0< (The factory default is 3000)

M[6] Language

English x or >9<

Select Menu

>x< or

*PM100 only.

9

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M[0] Outputs

M[1] Inputs

MENU S

HE

YSTEM

This menu is only available when a Voltech interface card is fitted. See page 23
for a full description of the cards available for your analyzer. For operating
instructions, see the manual supplied with the interface card.

The PM100 / 300 analyzers are highly versatile and can be configured to
analyze almost any electrical system. The versatility is achieved because all
power inputs are ac + dc coupled, and are isolated from each other and from the
ground.

The four main wiring modes are:-

[1ø2W] SINGLE PHASE, TWO WIRE.

Select for single phase loads, two wire distribution system and rectifier output.

[1ø3W] SINGLE PHASE, THREE WIRE.

Select for three wire single phase distribution systems.

[3ø3W] THREE PHASE, THREE WIRE.

Select for three phase loads without neutral connection (two wattmeter method).
Note that the [N] channel provides computed values of current (Arms, Afund,
Acf, Apk, Aharm and Athd) for the third (unmeasured) phase of the system.

[3ø4W] THREE PHASE, FOUR WIRE.

Select for three phase loads with or without neutral connection (three wattmeter
method).

External Shunt

For use with external shunts and other devices that produce a voltage
proportional to the current being measured (E.g. some DC coupled current
transformers.) The proportional voltage is applied between the ‘EXT’ and ‘LO’
terminals.

Example:

The scale factor is entered directly in mV/A. A twisted pair connection is
recommended to minimize noise pick-up.

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PM100 / 300 U

YSTEM

Voltage Scaling and Current Scaling

For use with voltage transformers / dividers and current transformers.
Connect to the V HI and LO terminals for voltage probes, and to the A HI and
LO terminals for current probes.

EXT

A

V = 1V

LO

+

+

-

-

0.1

SER MANUAL

I = 10 Amp
100mV/A

Current Scaling = 100mV/A

Note: When using 1000:1 CT as in the above example, enter ‘1000’ as the
current scaling.

Manual Ranging. (PM100 Only)

By default, the analyzers are fully auto-ranging. This is the ideal setting for
most applications since the analyzers will then always be operating on the
optimum range. No settings are required by the user in this case.
In measurement applications where there are transients or bursts of signals, then
data may be lost due to the time taken by the analyzer to perform the automatic
range selection. In this case, the auto-ranging may be switched off and a manual
range selected.
The PM100 has 8 current and 8 voltage ranges as described below.
To set a manual range, simply select ‘9’ for Manual V Range or Manual A
Range in M[2] and then enter the approximate maximum peak current or
voltage that is expected. (This can be measured by pressing the PEAK key). It is
not necessary to remember the exact ranges of the PM100, since they will be
selected for you according to the following tables.

Amps Peak
Range

0.1 0.0 ≤ 0.1

0.3A 0.1 ≤ 0.3

0.9A 0.3 ≤ 0.9

2.7A 0.9 ≤ 2.7

8.1A 2.7 ≤ 8.1

24.3A 8.1 ≤ 24.3

72.9A 24.3 ≤ 72.9
200A > 200

Amps Peak
Entered

When a manual range is set, the analyzer will make accurate measurements for
signals up to the specified range peak.

Notes.

1) Small signals may not be displayed because of the analyzer’s display
blanking feature and this should be disabled. See M[2] ‘Disable Blanking’.

2) Scaling is ignored. When setting a manual range, use the actual peak
current or voltage seen at the terminals of the PM100.

Volts Peak
Range

7.5V 0.0 ≤ 7.5
15V 7.5 ≤ 15
30V 15 ≤ 30
60 30 ≤ 60
120V 60 ≤ 120
240V 120 ≤ 240
480V 240 ≤ 480
1000V > 480

Volts Peak
Entered

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Fixed Frequency Source (PM100 Only)

It is important that the analyzer detects the correct frequency for analysis since
this frequency is used in the calculation of rms and harmonic measurements.
Good frequency detection is indicated by the green led on the front panel.
Normally, the analyzers continuously scan both the voltage and current
channels for frequency and this is the ideal method for most measurement
applications. It is not usually necessary to adjust this setting.
In measurement applications where there are transients or bursts of signals, then
the analyzer may lose frequency synchronization momentarily. The green led
will not be lit and the measurements may be unstable.
To correct this problem, choose a fixed frequency source ‘9’. If the voltage is
always present and stable, choose ‘Volts’. If the current is always present and
stable, choose ‘Amps’.

M[2] Modes
Special operating modes of the analyzer.

Note: To exit the mode you are in and return to default set up, press the [PROG] key.

Inrush Current

The analyzer continuously monitors the current channels and displays the
largest peak current observed. Only the [<] and [>] keys operate to reset the
display. Auto-ranging is disabled in this mode, so the expected peak value must
be entered. If in doubt, enter ‘200’ Amps when prompted, and then reduce this
value to improve resolution and accuracy.

When using the inrush current mode on the PM100, it is advisable to first set
manual range as describe on page 12 to monitor the signal before the inrush
mode is issued. This will aid in setting the correct range for inrush current
measurements.

‘CURRENT OVERRANGE’ is displayed if the selected peak value is
exceeded.

Press [PROG] to deselect Inrush Current mode to make other measurements.

Integration Time

This is the time that the integrator will run for. See the [INTG] key.

Ballast Mode

The output of electronic and some ultrasonic equipment consists of a high
frequency waveform heavily modulated at the line frequency.

YSTEM

To make accurate measurements, the whole cycle at 50 or 60 Hz must be
analyzed. To do this, select ‘Ballast Mode’ and choose 50 or 60 Hz.

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PM100 / 300 U

YSTEM

To give the best measurement accuracy, it is recommended that the Voltech
Ballast CT (current transformer) be used where high common mode voltages are
present.

PM100
PM300

A

HI LO

Electronic

Ballast

Tube

SER MANUAL

Harmonic Mode

Harmonic Amplitude may be displayed as a percentage (%) of fundamental or
in RMS terms as desired.

Press [MENU]

SELECT MENU

M[0] Outputs

Press [>] until you see;

SELECT MENU

M[2] Modes

Press [↵] until you see;

HARMONIC MODE

>%< V/A/W

Press [<] and [>] to make your selection.

Press [↵] to move to the next item in the menu system,

or, press [MENU] to exit the menu system and return to the measurement
display.

Waveform Display Mode

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YSTEM

This mode displays one cycle of the input waveforms. The waveforms are
automatically scaled to fit the display, voltage on CH1 always being the larger.
Since the waveforms are scaled for easy viewing, they should not be used for
comparative measurements. The peak values of the waveform are shown
alongside. This mode is not available in Ballast mode.

Barchart Display Mode

Displays bargraphs of voltage or current harmonics. All 50 harmonics are
displayed, and individual detail can be displayed by pressing the [<] or [>] keys
to scroll through the harmonics.

Fast Mode

In this mode the display averaging is reduced to provide a rapid response to
changing inputs. This mode is not available in Ballast mode.

Long Averaging (PM100 Only)

This mode may be used to average measurements over a long interval from 10
to 300 seconds.
Normally, the PM100 samples the waveforms at 200kHz and updates the
display approximately every ½ second. This is ideal for most measurement
applications.
When there are transient or burst signals, however, and it is the average
measurements over a long period of time that are required, then ‘Long
Averaging’ should be enabled. ‘9’.
The averaging time should be several times longer than the cycle of operation of
the equipment under test. See also the ‘low-power standby measurements’
example later in this manual.

Equipment Cycle Time Example Long Averaging Time
< 1 second Power supply in low

power standby mode.

1 < 10 sec Signs, message boards,

oscillating fan.
10< 60 sec Soldering iron. 300s
> 60 sec Washing machine 300s + Integrator.

10s

100s

All measurements, including harmonics, are available in long averaging mode.

Notes.

1) The display update rate varies with the averaging time used (10 to 3000

seconds). To indicate the analyzer is averaging, the red PROG led flashes
whenever this mode is enabled.

2) To reset the averaging, press the PROG key.

3) To cancel this mode, return to the menu system and disable Long

Averaging.

4) For equipment with very long cycles of operation (e.g. washing machine)

use the long averaging mode and the integrator together.

5) The sample rate in this mode is 200kHz.

6) If this command is not documented in your RS232 or IEEE488 interface

card manual, the format is :AVG:LNG nnn where nnn is an integer in the
range 10 to 300. :CFG 1,0 & :AVG:AUT or :AVG:FIX nn must be used to
return to normal mode.

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Disable Blanking

Normally, small signals which are below the specified range of the analyzer are
not displayed. The display is 'blanked'. To view small signals, disable the
blanking by selecting '9'. For best accuracy, however, bring the signals into the
normal operating range of the analyzer. A simple external resistive shunt is
often used for low current applications. See the technical note at
www.voltech.com

M[3] Display

This display enables the user to change the top and middle functions of the
screen to one of the six basic functions as shown on page 3. The bottom line of
the numeric display is automatically changed depending on which one of the six
basic functions are selected. For example:

+ 234.5 W

123.6VA

50.03 Hz

M[4] Key Options

PF Leading

Normally the convention used is >+< means I leads V. This may be reversed by
selecting >-< means I leads V.

Peak

Pressing the [PEAK] key normally displays the repetitive peak value of the
voltage or current waveform. This may be changed here to display the Crest
Factor, CF, where CF = Peak / RMS values of the waveform. For a sine wave
the CF is 1.414.

Fix THD Formula

Normally, the analyzer automatically selects the optimum THD formula. The
formula may be set manually by selecting '9'.

Series Formula

This menu is only available if 'Fix THD Formula' has been selected as above.
Select '9' to use the series formula only, 'x' to use the difference formula. See
Page 6.

RMS Harmonic Ref

Normally, the reference value used during THD calculation is the fundamental
or H1. Select '9' to use the rms value as the reference. See page 6.

M[5] Calibration

See page 17 for a full description of this menu.

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M[6] Language

English or an alternative language may be selected for the menus.

Select Menu

By selecting >9< at this menu, the screen will switch to the first menu option,

[M0] Outputs

again. If you wish to exit the menu system, select >x< at this menu and press
[↵]. Alternatively, press the [MENU] key to return to the measurement display.

MENU S

HE

and you may now scroll through all the menu options once

YSTEM

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PM100 / 300 U

PPLICATIONS EXAMPLE

A

SER MANUAL

An ac power supply is equipped with a low-power standby mode. In this mode, current is drawn
from the supply in ‘bursts’ that occur every 300ms or so. The waveform is shown below.

T

MENU S

HE

OW-POWER STANDBY MEASUREMENTS

– L

.

YSTEM

A measurement of the average input power is required to check the rating of the power supply.
With default settings, the PM100 makes measurements at high speed and updates the display
approximately every ½ second. With the waveform above, the measurements are not stable, and
the analyzer pauses while it auto-ranges in between readings.

To make stable average measurements, follow this procedure.

1. Measure the peak current.
In normal power on mode, press the
displayed. In this example, the maximum reading was approximately –750mA.

2. Set up a fixed current range.
Press [MENU], [1] and then [] until you see:

MANUAL A RANGE

x >9<

and then enter the nominal peak current, ignoring the (-) sign:

PEAK CURRENT

>0.750<

3. Now set up long averaging in

LONG AVERAGING

x >9<

[MENU], [2]

key and then the

[A]

.

[PEAK]

key. Amps peak will be

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YSTEM

The averaging time should include several cycles of operation of the equipment. In this
case, the power supply current seems to vary over a 2 second period. Choose 20 seconds for
the averaging time. This can be increased later if the measurements are not stable.

AVERAGING TIME

>20.0<

4. Disable blanking.
Small signals (typically less than 10% of range) are not displayed by the analyzer. This is
normal for auto-ranging instruments. When the analyzer is manually ranged, the display
blanking should be disabled so that small signals are measured properly.

In [MENU] [2]

DISABLE BLANKING

x >9<

5. Press [MENU] again and the analyzer will now begin to make measurements. The red
PROG led will flash to indicate that the PM100 is in long averaging mode. The display
update rate will vary with the averaging time, but the analyzer is making continuous
measurements and averaging them together. All measurements, including harmonics, are
available.

Notes:

i) For improved accuracy for currents less than 10mA, use an external shunt or

transducer. See www.voltech.com for a technical note.

ii) If you see the message ‘CURRENT OVERLOAD’, re-measure the peak current

and adjust the manual current range setting. The analyzer will not be damaged
by range overloads as long as they do not exceed the maximum ratings given in
the specification.

iii) The maximum long averaging time is 300 seconds. For averaging over longer

periods, enable long averaging at 300 seconds and use the integrator as well.

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PM100 / 300 USER MANUAL CALIBRATION

SECTION 4 - CALIBRATION

Calibration of your analyzer is valid for 12 month periods. If any input range is uncalibrated, the analyzer
displays ‘CALIBRATION ERROR’ on power up. This may be bypassed by pressing the [↵] key.

Equipment Required:

High accuracy (0.02%) true RMS volt meter.
0-20A rms Current Generator, 120Hz
0-1000V rms Voltage Generator, 120Hz

1.000Ω precision shunt. (For < 2A rms)

0.1000Ω precision shunt. (For > 2A rms)

Equipment Connections:

IMPORTANT NOTE:
For optimum performance, always calibrate with BOTH voltage and current present simultaneously.

During voltage calibration, apply approximately 100mA from the same ac source to the current

•

channel.
During current calibration (including external shunt), apply approximately 5V from the same ac source

•

to the voltage channel.

For Voltage Calibration

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CALIBRATION PM100 / 300 USER MANUAL

For Current Calibration

1Ω<2A 0.1Ω>2A

For Current Calibration (External Shunt)

1Ω

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PM100 / 300 USER MANUAL CALIBRATION

Calibration Method:

Press [MENU] and the display will show;

SELECT MENU

M[0] Outputs

Press [5] or [>] until you see;

SELECT MENU

M[5] calibration

Press [↵] and the following display will be shown;

ENTER PASSWORD

>0<

Enter the password using the number keys (the factory default is >3000<) and
then press [↵].

The next display will show;

CHANGE PASSWORD

>x< √

Press [↵] to continue without changing the password.

To change the password, select >√< using the [>] key and press [↵].
The display will then show;

ENTER PASSWORD

>0<

Enter the new password using the number keys and then press [↵].

The display will now show;

CALIBRATE VOLTS

>x< √

Select >√< and press [↵]

For each of the seven ranges per channel (VR1 to VR8), set up approximately
the required voltage using the equipment connected as shown on page 15 for
voltage calibration.

Enter the voltmeter reading into the PM100 or PM300 and press [↵]. Use [>]
and [<] to delete incorrect entries.

The display will show;

CALIBRATION

BUSY

for a short time, followed by

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CALIBRATION PM100 / 300 USER MANUAL

CALIBRATION

PASS

to continue, or;

CALIBRATION

FAIL

If ‘FAIL’ is displayed, press [<] to retry.
To skip a range, press [↵] when the display shows >0<.
When ‘PASS’ is displayed, press [↵] and the display will show;

CALIBRATE AMPS

>x< √

To calibrate amps, select >√<and press [↵]. The process is similar to the
calibrate volts procedure, for the current ranges AR1 to AR8. Connect the
equipment as shown on page 15 for internal shunt calibration, and enter the
current value which is voltmeter reading / shunt resistance.

The next option in the calibration menu system is ‘CALIBRATE EXT’. For
the external current ranges XR5 to XR8, connect as shown on page 16 for
external shunt calibration and enter voltage values.

The last menu in the calibration options is;

SAVE CALIBRATION

>x< √

Select >√<, and press [↵] to store the new calibration constraints.

Note: Any stage of the calibration may be omitted. New calibration constants
will only be used where they are entered. Entering [0] for any value causes the
previously stored calibration to be used for that range.

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PM100 / 300 U

SER MANUAL

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PECIFICATION

ECTION

S

5 - S

Voltage

Ranges (auto ranging) 2Vrms to 1000V pk in 8 ranges : 7.5, 15, 30, 60,

Accuracy 5Hz to 1kHz
1kHz to 50kHz*
DC

Crest Factor Up to 20
Max input Continuous 1000V pk
1 sec 1500V pk
Input Impedance
Effects of Common

Mode Voltage

Impedance to ground Galvanic isolation.

Current

PECIFICATION (AT

23OC ±5OC, 30

MINUTES WARM-UP

120, 240, 480, 1000 Vpk

±0.1% reading ±0.1% range ±10mV
±0.1% rdg ±0.1% rng ±10mV ±0.1%/kHz
±0.1% rdg ±0.1% rng ±10mV

>1MΩ in parallel with <10pF

500Vrms 120Hz
100Vrms 10kHz

Less than 500mV
Less than 1V

Capacitance approx. 100pF

.)

Ranges (auto ranging) 20mArms to 20Arms in 8 ranges : 0.1, 0.3, 0.9,

2.7, 8.1, 24.3, 72.9, 200.0 Apk

Accuracy 5Hz to 1kHz
(excluding Neutral) 1kHz to 50kHz*
DC

Crest Factor Up to 20
Max input Continuous 20Arms, 200Apk (16Arms when all three

1 sec 60Arms
Input Impedance
Effects of Common

Mode Voltage

EXT. SHUNT
Range 12.5mVrms to 2.0Vpk
Equivalence 12.5mV/A
Accuracy 5Hz to 50kHz*
Max input Continuous 250Vrms
Input Impedance
Impedance to ground Galvanic isolation.

500Vrms 120Hz
100Vrms 10kHz

±0.1% reading ±0.1% range ±1mA
±0.1% rdg ±0.1% rng ±1mA ±0.2%/kHz
±0.1% rdg ±0.1% rng ±2mA

channels used on PM300)

12.5mΩ on all ranges
Less than 50mA

Less than 50mA

±0.1%rdg ±0.1%rng ±1mV ±0.2%/kHz

1MΩ on all ranges

Capacitance approx. 100pF

*5Hz to 20kHz for the PM300 in three-phase, three-wire and three-phase, four wire modes.

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SER MANUAL

Power

Display Range 0 to 1,999GW

Accuracy

±0.2% rdg ±0.2% rng ±5mW ±0.3%/kHz

Apparent Power

Display Range 0 to 1,999GVA

Accuracy

Reactive Power

Display Range 0 to 1,999GVAr

Accuracy

Power Factor

±0.2% rdg ±0.2% rng ±5mVA ±0.3%/kHz

±0.2% rdg ±0.2% rng ±5mVAr ±0.3%/kHz

Range

Accuracy

Crest Factor

Range 1.000 to 19.999 (Ranges 2 to 8 only)

Accuracy

Peak

Accuracy

Voltage and Current

Inrush Current

Range 0-200A

Accuracy

Frequency

0.000 to ±1.000

±0.004 ±0.2% rdg ± 0.2% / kHz

± (% pk error + % rms error)

±1%rdg ±1%rng ±0.2%/kHz

Ranges 2 to 8 only)

±3.0% rdg ±3.0% rng ±50mA

Range 5Hz to 50kHz*

Accuracy 0.2% rdg

*5Hz to 20kHz for the PM300 in three-phase, three-wire and three-phase, and four-wire modes.

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PECIFICATION

Harmonics

Range 0 to 50

Bandwidth Fundamental 5Hz to 50kHz*

Harmonics 10Hz to 250kHz

Accuracy Fundamental Volts

Amps

Harmonics

±0.1% rdg ±0.1% rng ±10mV ±0.1%/kHz

±0.2% rdg ±0.1% rng ±1mA ±0.2%/kHz

±(0.2 ± 0.1/kHz)% of fundamental

THD

Range 0% to 999%

Accuracy

Integrator

Range 1min to 99hrs 59mins

±0.4% rdg ± 0.1% / kHz

Environment

Operating 0 to +40oC

Shipping -20 to +60oC

Safety Designed to comply with EN61010-1

Pollution Degree 2, Installation Category II

Power Source

110V 90V to 132V

230V 195V to 265V

Frequency 48Hz to 65Hz

MAX. VA 25VA

Fuse Type & Rating 315mAT

Dielectric Strength

Input - Case 4kV AC 50/60 Hz for 1 minute.

Input - Power Srce 4kV AC 50/60 Hz for 1 minute

Power Srce - Case 1.9kV DC for 1 minute

*5Hz to 20kHz for the PM300 in three-phase, three-wire and three-phase, four wire modes.

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A number of interfaces have been designed for use with the PM100 and PM300 power analyzers:

IEEE488.2 Interface.

Full implementation of the IEEE488.2 bus communication standard using the latest National Instruments
compatible circuits. Allows full control of the analyzer remotely. IEEE address may be any number from 2 to

30.

Centronics (parallel) and RS232 (serial) Interface.

The parallel connector (a 25 way D-type) connects to most printers with a Centronics type interface - matrix, jet
and laser. User selected text is printed when the [↵] key is pressed.
The RS232 connector (a 9 way D-type) may be used to connect to a serial printer, or to allow full remote control
for the analyzer using the IEEE488.2 command set. The baud rate (1200 to 19200) is selected from the front
panel.

Chart Recorder and Alarm Contacts Interface.

12 measurements may be output onto a 15-way D-type for connection to a chart recorder or data logger. Each
measurement is scaled for MAX and MIN level from the front panel.
2 isolated alarm relay contacts are also provided (rated 50V @1A) for plant control. The relays may be
programmed (via the front panel) to operate when any measurement exceeds a preset MAX or MIN level. Extra
integration features are provided for load shedding and peak demand applications.

Voltech can also supply a range of current transformers:

CT1000

Precision AC 0.2% dual ratio current transformer. 100A:1A and 1000A:1A.

CL1000

AC clamp-on current transformer. 1000A:1A

CL100

AC clamp-on current transformer. 100A:1A

Lighting Ballast CT

5mA to 1A RMS current in two ranges.
5 kHz to 1MHz bandwidth.
Maximum voltage (Ballast/Tube to output) - 1000vpk.
Accuracy (20kHz to 500 kHz): - Amplitude better than 1%

- Phase (current output) better than 1°

- Phase (voltage output) better than 3°

Please contact Voltech for details of the accessories and applications currently available.

SER MANUAL

6 - A

S

CCESSORIES AVAILABLE FOR THE

PM100

AND

PECIFICATION

PM300

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ACK MOUNTING DETAILS FOR THE

R

PM100 / 300 U

PM100

AND

PM300

SER MANUAL

IMPORTANT: Detail applies to PM100 / PM300 manufactured from late 2001 onwards. Earlier models have a
case which is split along its sides and different drilling details apply. Request an issue 4 manual.

Front

Remove feet

A: 4 holes M3 thread
Screw length:

A

A

10mm Max

174mm

BASE

164.6mm

Drill rack tray with
4mm clearance holes.

A

A

Assemble using
M3x10mm pan head
screws and washers.
Do not overtighten.

59.8mm

189.2mm 34.1mm

Two analyzers may be fitted side by side on one tray.

Suitable shelves are 400mm deep Imrak 19” Cantilever shelves.
Part Number : 802-562285B or similar

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PM100 / 300 USER MANUAL EMC COMPLIANCE

148 Harwell Int'l Business Centre

SECTION 7 - EMC COMPLIANCE

DECLARATION OF CONFORMITY

Manufacturer's Name
Manufacturer's Address

declares, that the product

Product Name:
Model Number:

conforms to the following Product Specifications

Safety:
EMC:

Supplementary Information:

Voltech Instruments Ltd

Abingdon, Oxon
United Kingdom

Power Analyzer
PM100

BS EN 61010 (1993)
BS EN 55022 (1995): Class A

BS EN 50082-2 (1992)

The product herewith complies with the requirements of
the EMC Directives 89/336/EEC and 92/31/EEC and the
Low Voltage Directive 73/23/EEC

Signed for on behalf of Voltech Instruments Ltd

Martin Whitley, Quality Manager

Abingdon, United Kingdom June, 1996

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DECLARATION OF CONFORMITY

Manufacturer's Name
Manufacturer's Address

declares, that the product

Product Name:
Model Number:

conforms to the following Product Specifications

Safety:
EMC:

Supplementary Information:

Voltech Instruments Ltd

148 Harwell Int'I Business Centre,
Abingdon, Oxon
United Kingdom

Power Analyzer

PM300

BS EN 61010 (1993)

BS EN 55022 (1995): Class A
BS EN 50082-2 (1992)

The product herewith complies with the requirements of
the EMC Directives 89/336/EEC and 92/31/EEC and the
Low Voltage Directive 73/23/EEC

Signed for on behalf of Voltech Instruments Ltd

Martin Whitley, Quality Manager

Abingdon, United Kingdom June, 1996

PAGE 32 VPN 98-052

PM100 / 300 USER MANUAL EMC COMPLIANCE

EMC PRECAUTIONS

Conducted and Radiated Emissions

The PM100 and PM300 comply with the limits of BS EN 55022 Class A.

To ensure continued compliance, the RS232 lead supplied for PC communications must be fitted with the
ferrite at the analyzer end.

Any other RS232 or Parallel Printer leads used should have a ferrite fitted at the end of the lead closest to the
analyzer.

Immunity

The PM100 and the PM300 may be susceptible to Fast Electrical Transients on the power line and Electrostatic
Discharges, which can disrupt the operation of the units.

In the event of such an occurrence, to return the PM100 or PM300 to normal operation:

1) Switch off the power

2) Wait 5 seconds

3) Switch on again

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