Fluke 430 Series II
Three-Phase Power Quality
and Energy Analyzers
Technical Data
The new 430 Series II Power Quality and Energy
Analyzers offer the best in power quality analysis
and introduce, for the first time ever, the ability
to monetarily quantify energy losses.
The new Fluke 434, 435 and 437 Series II
models help locate, predict, prevent, and trouble-
shoot power quality problems in three-phase
and single-phase power distribution systems.
Additionally, the Fluke-patented energy loss
algorithm, Unified Power Measurement, measures
and quantifies energy losses due to harmonics
and unbalance issues, allowing the user to pinpoint
the origin of energy waste within a system.
More detailed power quality analysis
capability, and a new Fluke-patented
energy monetization function
Energy loss calculator: Classic active and
reactive power measurements, unbalance and
harmonic power, are quantified to pinpoint true
system energy losses in dollars (other local
currencies available).
Power inverter efficiency: Simultaneously
measure AC output power and DC input power
for power electronics systems using optional
DC clamp.
PowerWave data capture: 435 and 437 Series
II analyzers capture fast RMS data, show
half-cycle and waveforms to characterize
electrical system dynamics (generator start-ups,
UPS switching etc.).
Waveform capture: 435 and 437 Series II
models capture 50/60 cycles (50/60Hz)
of each event that is detected in all modes,
without set-up.
Automatic Transient Mode: 435 and 437
Series II analyzers capture 200 kHz waveform
data on all phases simultaneously up to 6 kV.
Fully Class-A compliant: 435 and 437 Series
II analyzers conduct tests according to the
stringent international IEC 61000-4-30 Class-A
standard.
Mains signaling: 435 and 437 Series II
analyzers measure interference from ripple
control signals at specific frequencies.
400 Hz measurement: 437 Series II analyzer
captures power quality measurements for
avionic and military power systems.
Troubleshoot: Analyze the trends using the
cursors and zoom tools.
Highest safety rating in the industry:
600 V CAT IV/1000 V CAT III rated for use
at the service entrance.
Measure all three phases and neutral:
With included four flexible current probes
with enhanced thin flex designed to fit into
the tightest places.
Automatic Trending: Every measurement
is always automatically recorded, without
any set-up.
System-Monitor: Ten power quality
parameters on one screen according to
EN50160 power quality standard.
Logger function: Configure for any test
condition with memory for up to 600
parameters at user defined intervals.
View graphs and generate reports:
With included analysis software.
Battery life: Up to 8 hours operating time
per charge on Li-ion battery pack.
437 Series II
Three-Phase
Power Quality
and Energy
Analyzer will
be available
in early 2012
2 Fluke Corporation Fluke 430 Series II Three-Phase Energy and Power Quality Analyzers
Unified Power Measurement
Fluke’s patented Unified Power Measurement sys-
tem (UPM) provides the most comprehensive view
of power available, measuring:
Parameters of Classical Power (Steinmetz 1897)
and IEEE 1459-2000 Power
Detailed Loss Analysis
Unbalance Analysis
These UPM calculations are used to quantify
the fiscal cost of energy loss caused by power
quality issues. The calculations are computed,
along with other facility-specific information,
by an Energy Loss Calculator that ultimately
determines how much money a facility loses
due to wasted energy.
Energy savings
Traditionally energy savings are achieved by
monitoring and targeting, or in other words, by
finding the major loads in a facility and optimiz-
ing their operation. The cost of power quality
could only be quantified in terms of downtime
caused by lost production and damage to electri-
cal equipment. The Unified Power Measurement
(UPM) method now goes beyond this to achieve
energy savings by discovering the energy waste
caused by power quality issues. Using the
Unified Power Measurement, Fluke’s Energy Loss
Calculator (see screen shot below) will determine
how much money a facility is losing due to waste
energy.
Unbalance
UPM gives a more comprehensive breakdown of
the energy consumed in the plant. In addition to
measuring reactive power (caused by poor power
factor), UPM also measures the energy waste
caused by unbalance; the effect of unevenly
loading each phase in three-phase systems.
Unbalance can often be corrected by reconnect-
ing loads on different phases to ensure the
current drawn on each phase is as equal as
possible. Unbalance can also be corrected by
installing an unbalance reactance device (or
filter), that will minimize the effects. Correcting
unbalance should be basic good housekeeping
in the facility as unbalance problems can cause
motor failure or shorten equipment life expec-
tancy. Unbalance also wastes energy. Using
UPM can minimize or eliminate that energy
waste, thus saving money.
Harmonics
UPM also provides details of the energy wasted
in your facility due to the presence of harmonics.
Harmonics may be present in your facility due to
the loads you operate or may be caused by loads
in adjacent facilities. The presence of harmonics
in your facility can lead to:
overheating transformers and conductors
nuisance tripping of circuit breakers
early failures of electrical equipment
Quantifying the cost of wasted energy due to the
presence of harmonics simplifies the return-on-
investment calculation needed to justify purchas-
ing harmonic filters. By installing a harmonic
filter the ill effects of harmonics can be reduced
and energy waste eliminated, resulting in lower
operational costs and more reliable operation.
Useful kilowatts (power) available ____________
Reactive (unusable) power ____________
Kilowatts made unusable by unbalance issues ____________
Kilowatts made unusable by harmonics ____________
Neutral current ____________
Total cost of wasted kilowatt hours ____________
Energy Loss Calculator
3 Fluke Corporation Fluke 430 Series II Three-Phase Energy and Power Quality Analyzers
Technical specifications
Specifications are valid for models Fluke 434-II, Fluke 435-II, Fluke 437-II unless otherwise specified.
Specificatons for Amp and Watt readings are based upon i430-Flexi-TF unless otherwise specified.
Input characteristics
Voltage inputs
Number of inputs 4 (3 phase + neutral) dc-coupled
Maximum input voltage 1000 Vrms
Nominal voltage range Selectable 1 V to 1000 V
Max. peak measurement voltage 6 kV (transient mode only)
Input impedance 4 MΩ//5 pF
Bandwidth > 10 kHz, up to 100 kHz for transient mode
Scaling 1:1, 10:1, 100:1, 1,000:1 10,000:1 and variable
Current inputs
Number of inputs 4 (3 phase + neutral) dc- or ac-coupled
Type Clamp or current transformer with mV output or i430flex-TF
Range 0.5 Arms to 600 Arms with included i430flex-TF (with sensitivity 10x)
5 Arms to 6000 Arms with included i430flex-TF (with sensitivity 1x)
0.1 mV/A to 1 V/A and custom for use with optional ac or dc clamps
Input impedance 1 MΩ
Bandwidth > 10 kHz
Scaling 1:1, 10:1, 100:1, 1,000:1 10,000:1 and variable
430 Series II Power Quality and Energy Analyzer selection table
Model Fluke 434-II Fluke 435-II Fluke 437-II
Standard compliance IEC 61000-4-30 Class S IEC 61000-4-30 Class A IEC 61000-4-30 Class A
Volt Amp Hz •••
Dips and swells •••
Harmonics •••
Power and energy •••
Energy loss calculator •••
Unbalance •••
Monitor •••
Inrush •••
Event waveform capture
Flicker
Transients
Mains signaling
Power wave
Power inverter efficiency •••
400Hz
C1740 Soft Case
C437-II Hard Case with rollers
SD card (Max 32 GB) 8 GB 8 GB 8 GB
All models include the following accessories TL430 test lead set, 4 x i430 thin flexi current probes, BP290 battery, BC430 power adapter with international power adapter set, USB cable
A-B mini and PowerLog CD.
4 Fluke Corporation Fluke 430 Series II Three-Phase Energy and Power Quality Analyzers
Measurement modes
Scope 4 voltage waveforms, 4 current waveforms, Vrms, Vfund. Arms, A fund, V @ cursor, A @ cursor, phase angles
Volts/amps/hertz Vrms phase to phase, Vrms phase to neutral, Vpeak, V Crest Factor, Arms Apeak, A Crest Factor, Hz
Dips and swells Vrms½, Arms½, Pinst with programmable threshold levels for event detection
Harmonics dc, 1 to 50, up to 9th harmonic
for 400 Hz
Harmonics Volts, THD, Harmonic Amps, K factor Amps, Harmonic Watts, THd Watts, K factor Watts, Interharmonic
Volts, Interharmonic Amps, Vrms, Arms (relative to fundamental or to total rms)
Power and energy Vrms, Arms, Wfull, Wfund., VAfull, VAfund., VAharmonics, VAunbalance, var, PF, DPF, CosQ, Efficiency factor,
Wforward, Wreverse
Energy loss calculator Wfund, VAharmonics, VAunbalance, var, A, Loss Active, Loss Reactive, Loss Harmonics, Loss Unbalance, Loss
Neutral, Loss Cost (based upon user defined cost / kWh)
Inverter efficiency
(requires optional dc current clamp)
Wfull, Wfund, Wdc, Efficiency, Vdc, Adc, Vrms, Arms, Hz
Unbalance Vneg%, Vzero%, Aneg%, Azero%, Vfund, Afund, V phase angles, A phase angles
Inrush Inrush current, Inrush duration, Arms½, Vrms½
Monitor Vrms, Arms, harmonic Volts, THD Volts, PLT, Vrms½, Arms½, Hz, dips, swells, interruptions, rapid voltage changes,
unbalance and mains signalling.
All parameters are measured simultaneously in accordance with EN50160
Flagging is applied according to IEC61000-4-30 to indicate unreliable readings due to dips or swells
Flicker (435-II and 437-II only) Pst(1min), Pst, Plt, Pinst, Vrms ½, Arms ½, Hz
Transients (435-II and 437-II only) Transient waveforms 4x Voltage 4x Amps, triggers: Vrms ½, Arms ½, Pinst
Mains Signaling (435-II and 437-II only) Relative signaling voltage and absolute signaling voltage averaged over three seconds for up to two selectable
signaling frequencies
Power Wave (435-II and 437-II only) Vrms½, Arms½ W, Hz and scope waveforms for voltage amps and watts
Logger Custom selection of up to 150 PQ parameters measured simultaneously on 4 phases
Sampling system
Resolution 16 bit analog to digital converter on 8 channels
Maximum sampling speed 200 kS/s on each channel simultaneously
RMS sampling 5000 samples on 10/12 cycles according to IEC61000-4-30
PLL synchronization 4096 samples on 10/12 cycles according to IEC61000-4-7
Nominal frequency 434-II and 435-II: 50 Hz and 60 Hz
437-II: 50 Hz, 60 Hz and 400 Hz
Display modes
Waveform display Available in all modes via SCOPE key
435-II and 437-II: Default display mode for Transients function
Update rate 5x per second
Displays 4 cycles of waveform data on screen, up to 4 waveforms simultaneously
Phasor diagram Available in all modes via Scope waveform display
Default view for Unbalance mode
Meter readings Available in all modes except Monitor and Transients, provides tabulated view of all available readings
Fully customizable up to 150 readings for Logger mode
Trend graph Available in all modes except Transients
Single vertical cursor with min max and avg reading at cursor position
Bar graph Available in Monitor and Harmonics mode
Event list Available in all modes
Provides waveforms on 435II & 437II only.
Input characteristics cont.
5 Fluke Corporation Fluke 430 Series II Three-Phase Energy and Power Quality Analyzers
Product specifications
Model Measurement range Resolution Accuracy
Volt
Vrms (ac+dc) 434-II 1 V to 1000 V phase to neutral 0.1 V ± 0.5 % of nominal voltage****
435-II and 437-II 1 V to 1000 V phase to neutral 0.01 V ± 0.1 % of nominal voltage****
Vpk 1 Vpk to 1400 Vpk 1 V 5 % of nominal voltage
Voltage Crest Factor (CF) 1.0 > 2.8 0.01 ± 5 %
Vrms½ 434-II 1 V to 1000 V phase to neutral 0.1 V ± 1 % of nominal voltage
434-II and 435-II 0.1 V ± 0.2 % of nominal voltage
Vfund 434-II 1 V to 1000 V phase to neutral 0.1 V ± 0.5 % of nominal voltage
435-II and 437-II 0.1 V ± 0.1 % of nominal voltage
Amps (accuracy excluding clamp accuracy)
Amps (ac +dc) i430-Flex 1x 5 A to 6000 A 1 A ± 0.5 % ± 5 counts
i430-Flex 10x 0.5 A to 600 A 0.1 A ± 0.5 % ± 5 counts
1mV/A 1x 5 A to 2000 A 1A ± 0.5 % ± 5 counts
1mV/A 10x 0.5 A A to 200 A (ac only) 0.1 A ± 0.5 % ± 5 counts
Apk i430-Flex 8400 Apk 1 Arms ± 5 %
1mV/A 5500 Apk 1 Arms ± 5 %
A Crest Factor (CF) 1 to 10 0.01 ± 5 %
Amps½ i430-Flex 1x 5 A to 6000 A 1 A ± 1 % ± 10 counts
i430-Flex 10x 0.5 A to 600 A 0.1 A ± 1 % ± 10 counts
1mV/A 1x 5 A to 2000 A 1A ± 1 % ± 10 counts
1mV/A 10x 0.5 A A to 200 A (ac only) 0.1 A ± 1 % ± 10 counts
Afund i430-Flex 1x 5 A to 6000 A 1 A ± 0.5 % ± 5 counts
i430-Flex 10x 0.5 A to 600 A 0.1 A ± 0.5 % ± 5 counts
1mV/A 1x 5 A to 2000 A 1A ± 0.5 % ± 5 counts
1mV/A 10x 0.5 A A to 200 A (ac only) 0.1 A ± 0.5 % ± 5 counts
Hz
Hz Fluke 434 @ 50 Hz nominal 42.50 Hz to 57.50 Hz 0.01 Hz ± 0.01 Hz
Fluke 434 @ 60 Hz nominal 51.00 Hz to 69.00 Hz 0.01 Hz ± 0.01 Hz
Fluke 435/7 @ 50 Hz nominal 42.500 Hz to 57.500 Hz 0.001 Hz ± 0.01 Hz
Fluke 435/7 @ 60 Hz nominal 51.000 Hz to 69.000 Hz 0.001 Hz ± 0.01 Hz
Fluke 437 @ 400 Hz nominal 340.0 Hz to 460.0 Hz 0.1 Hz ± 0.1 Hz
Power
Watts (VA, var) i430-Flex max 6000 MW 0.1 W to 1 MW ± 1 % ± 10 counts
1 mV/A max 2000 MW 0.1 W to 1 MW ± 1 % ± 10 counts
Power factor (Cos j/DPF) 0 to 1 0.001 ± 0.1 % @ nominal load conditions
Energy
kWh (kVAh, kvarh) i430-Flex 10x Depends on clamp scaling and V nominal ± 1 % ± 10 counts
Energy loss i430-Flex 10x Depends on clamp scaling and V nominal ± 1 % ± 10 counts
Excluding line resistance accuracy
Harmonics
Harmonic order (n) DC, 1 to 50 Grouping: Harmonic groups according to IEC 61000-4-7
Inter-harmonic order (n) OFF, 1 to 50 Grouping: Harmonic and Interharmonic subgroups according to IEC 61000-4-7
Volts %f 0.0 % to 100 % 0.1 % ± 0.1 % ± n x 0.1 %
%r 0.0 % to 100 % 0.1 % ± 0.1 % ± n x 0.4 %
Absolute 0.0 to 1000 V 0.1 V ± 5 % *
THD 0.0 % to 100 % 0.1 % ± 2.5 %
Amps %f 0.0 % to 100 % 0.1 % ± 0.1 % ± n x 0.1 %
%r 0.0 % to 100 % 0.1 % ± 0.1 % ± n x 0.4 %
Absolute 0.0 to 600 A 0.1 A ± 5 % ± 5 counts
THD 0.0 % to 100 % 0.1 % ± 2.5 %
Watts %f or %r 0.0 % to 100 % 0.1 % ± n x 2 %
Absolute Depends on clamp scaling and V nominal ± 5 % ± n x 2 % ± 10 counts
THD 0.0 % to 100 % 0.1 % ± 5 %
Phase Angle -360° to +0° ± n x 1°
6 Fluke Corporation Fluke 430 Series II Three-Phase Energy and Power Quality Analyzers
Flicker
Plt, Pst, Pst(1min) Pinst 0.00 to 20.00 0.01 ± 5 %
Unbalance
Volts % 0.0 % to 20.0 % 0.1 % ± 0.1 %
Amps % 0.0 % to 20.0 % 0.1% ± 1 %
Mains signaling
Threshold levels Threshold, limits and signaling duration is
programable for two signaling frequencies
Signaling frequency 60 Hz to 3000 Hz 0.1 Hz
Relative V% 0 % to 100 % 0.10 % ± 0.4 %
Absolute V3s (3 second avg.) 0.0 V to 1000 V 0.1 V ± 5 % of nominal voltage
Trend recording
Method Automatically records min, max and average values over time for all readings being displayed for the three phases and neutral
simultaneously
Sampling 5 readings/s continuous sampling per channel, 100/120** reading/s for 1/2 cycle values and Pinst
Recording time 1 hr up to 1 year, user selectable (default setting 7 days)
Averaging time Minimum of 1 second
Memory Data is stored on SDcard (8GB included 32GB max)
Events 434-II: Tabulated in event list
435-II & 437-II: Tabulated in event list, including 50/60** waveform cycles and 7.5s 1/2 cycle rms Voltage and Amps trend
Measurement method
Vrms, Arms 10/12 cycle contiguous non-overlapping intervals using 500/4162 samples per cycle in accordance with IEC 61000-4-30
Vpeak, Apeak Absolute highest sample value within 10/12 cycle interval with 40 μs sample resolution
V Crest Factor Measures ratio between the Vpeak and Vrms
A Crest Factor Measures ratio between the Apeak and Arms
Hz Measured every 10 sec in accordance with IEC61000-4-30. Vrms½, Arms½ Value is measured over 1 cycle, commencing at a
fundamental zero crossing, and refreshed each half-cycle.
This technique is independent for each channel in accordance with IEC 61000-4-30.
Harmonics Calculated from 10/12-cycle gapless harmonic group measurements on Voltage and Amps according to IEC 61000-4-7
Watt Full and fundamental real power display. Calculates average value of instantaneous power over 10/12 cycle period for each
phase. Total Active Power PT = P1 + P2 + P3.
VA Full and fundamental apparent power display. Calculates apparent power using Vrms x Arms value over 10/12 cycle period.
var Fundamental reactive power display. Calculates reactive power on fundamental positive sequence components. Capacitive and
inductive load is indicated with capacitor and inductor icons.
VA Harmonics Total disturbance power due to harmonics. Calculated for each phase and for total system based upon total apparent power and
fundamental real power.
VA Unbalance Unbalance power for total sytem. Calculated using symmetrical components method for fundamental apparent power and total
apparent power.
Power factor Calculated total watt/VA
Cos jCosine of angle between fundamental voltage and current
DPF Calculated fundamental Watt/VA
Energy/energy cost Power values are accumulated over time for kWh values. Energy cost is calculated from user defined /kWh cost variable
Unbalance The supply voltage unbalance is evaluated using the method of symmetrical components according to IEC61000-4-30
Flicker According to IEC 61000-4-15 flickermeter—functional and design specification.
Includes 230 V 50 Hz lamp and 120 V 60 Hz lamp models.
Transient capture Captures waveform triggered on signal envelope. Additionally triggers on dips, swells, interruptions and Amps level
Inrush current The inrush current begins when the Arms half cycle rises above the inrush threshold, and ends when the Arms half cycle
rms is equal to or below the inrush threshold minus a user-selected hysteresis value. The measurement is the square root of
the mean of the squared Arms half cycle values measured during the inrush duration. Each half-cycle interval is contiguous
and non-overlapping as recommended by IEC 61000-4-30. Markers indicate inrush duration. Cursors allow measurement of
peak Arms half cycle.
Mains signaling Measurements are based on: either the corresponding 10/12-cycle rms value interharmonic bin or the rms of the four nearest
10/12-cycle rms value interharmonic bins per IEC 61000-4-30. Limit setup for Monitor mode follows EN50160 standard limits.
Time synchronization Optional GPS430-II timesync module provides time uncertainty ≤ 20 ms or ≤ 16.7 ms for time tagging of events and time
aggregated measurements. When synchronization is not available, time tolerance is ≤ 1-s/24h
Product specifications cont.
7 Fluke Corporation Fluke 430 Series II Three-Phase Energy and Power Quality Analyzers
Environmental
Operating temperature 0 °C ~ +40 °C; +40 °C ~ +50 °C excl. battery
Storage temperature -20 °C ~ +60 °C
Humidity +10 °C ~ +30 °C: 95 % RH non-condensing
+30 °C ~ +40 °C: 75 % RH non-condensing
+40 °C ~ +50 °C: 45 % RH non-condensing
Maximum operating altitude Up to 2,000 m (6666 ft) for CAT IV 600 V, CAT III 1000 V
Up to 3,000 m (10,000 ft) for CAT III 600 V, CAT II 1000 V
Maximum storage altitude 12 km (40,000 ft)
Electro-Magnetic-Compatibility
(EMC)
EN 61326 (2005-12) for emission and immunity
Interfaces mini-USB-B, Isolated USB port for PC connectivity
SD card slot accessible behind instrument battery
Warranty Three years (parts and labor) on main instrument, one year on accessories
Included accessories
Power options BC430 Power Adapter
International plug adapter set
BP290 (Single capacity Li-ion battery) 28Wh (Up to 8 hours)
Leads TL430 Test lead and Alligator clip set
Color coding WC100 color coding clips and regional decals
Flexible current probes i430flex-TF, 24 inch (61cm) length, 4 clamps
Memory, Software and
PC connection
8 GB SD card
PowerLog on CD (includes operator manuals in PDF format)
USB cable A-Bmini
Carrying case C1740 Soft Case for 434-II and 435-II
C437 Hard Case with rollers for 437-II
* ± 5 % if ≥ 1 % of nominal voltage ± 0.05 % of nominal voltage if < 1% of nominal voltage
** 50Hz/60Hz nominal frequency according to IEC 61000-4-30
*** 400Hz measurements are not supported for Flicker, Mains Signaling and Monitor Mode.
**** for nominal voltage 50 V to 500 V
Wiring configurations
1Ø + NEUTRAL Single phase with neutral
1Ø SPLIT PHASE Split phase
1Ø IT NO NEUTRAL Single phase system with two phase voltages without neutral
3Ø WYE Three phase four wire system WYE
3Ø DELTA Three phase three wire system Delta
3Ø IT Three phase system without neutral WYE
3Ø HIGH LEG Four wire three phase Delta system with center tapped high leg
3Ø OPEN LEG Open delta three wire system with 2 transformer windings
2-ELEMENT Three phase three wire system without current sensor on phase L2/B (2 watt meter method)
2½-ELEMENT Three phase four wire system without voltage sensor on phase L2/B
INVERTER EFFICIENCY dc voltage and current input with ac output power (automatically displayed and selected in Inverter Efficiency mode)
General specifications
Case Design Rugged, shock proof with integrated protective holster
Drip and dust proof IP51 according to IEC60529 when used in tilt stand position
Shock and vibration Shock 30 g, vibration: 3 g sinusoid, random 0.03 g2/Hz according to MIL-PRF-28800F Class 2
Display Brightness: 200 cd/m2 typ. using power adapter, 90 cd/m2 typical using battery power
Size: 127 mm x 88 mm (153 mm/6.0 in diagonal) LCD
Resolution: 320 x 240 pixels
Contrast and brightness: user-adjustable, temperature compensated
Memory 8GB SD card (SDHC compliant, FAT32 formatted) standard, upto 32GB optionally
Screen save and multiple data memories for storing data including recordings (dependent on memory size)
Real-time clock Time and date stamp for Trend mode, Transient display, System Monitor and event capture
Ordering information
Fluke-434-II Three-Phase Energy Analyzer
Fluke-435-II Three-Phase Power Quality and Energy Analyzer
Fluke-437-II 400 Hz Three-Phase Power Quality and Energy Analyzer
Optional/replacement accessories
I430-FLEXI-TF-4PK 6000 A Fluke 430 Thin Flexi 61 cm (24 in) 4 pack
C437-II Hard Case 430 Series II with roller
C1740 Softcase for 174X and 43X-II PQ Analyzer
i5sPQ3 i5sPQ3, 5 A ac Current Clamps, 3-pack
i400s i400s AC Current Clamp
WC100 WC100 Color Localization Set
GPS430-II GPS430 Time Synchronization Module
BP291 Double capacity Li-ion battery (up to 16 hr)
HH290 Hanging hook for use on cabinet doors
Fluke Corporation
PO Box 9090, Everett, WA 98206 U.S.A.
Fluke Europe B.V.
PO Box 1186, 5602 BD
Eindhoven, The Netherlands
Fluke. The Most Trusted Tools in the World.
For more information call:
In the U.S.A. (800) 443-5853 or
Fax (425) 446-5116
In Europe/M-East/Africa +31 (0) 40 2675 200 or
Fax +31 (0) 40 2675 222
In Canada (800)-36-FLUKE or
Fax (905) 890-6866
From other countries +1 (425) 446-5500 or
Fax +1 (425) 446-5116
Web access: http://www.fluke.com
©2006, 2011, 2012 Fluke Corporation.
Specifications subject to change without notice.
Printed in U.S.A. 6/2012 2643006E D-EN
Pub ID 11858-eng
Modification of this document is not
permitted without written permission
from Fluke Corporation.
Flexible Current Probe i430 Flexi-TF specification
General specifications
Probe and cable material Alcryn 2070NC, reinforced insulation, UL94 V0, Color: RED
Couplings material Lati Latamid 6H-V0 Nylon
Probe cable length 610 mm (24 in)
Probe cable diameter 12.4 mm (0.49 in)
Probe cable bend radius 38.1 mm (1.5 in)
Output cable length 2.5 meters RG58
Output connector Safety BNC connector
Operating range -20 °C to +90 °C
Storage temperature -40 °C to +105°C
Operating humidity 15 % to 85 % (non condensing)
Degree of protection (Probe) IP41
Specifications
Current range 6000 A AC RMS
Voltage output (@1000 ARMS, 50 Hz) 86.6 mV
Accuracy ± 1 % of reading(@ 25 °C, 50 Hz)
Linearity (10 % to 100 % of range) ± 0.2 % of reading
Noise (10 Hz – 7 kHz) 1.0 mV ACRMS
Output impedance 82 Ω min
Load impedance 50 MΩ
Internal Resistance per 100 mm probe
length
10.5Ω ± 5 %
Bandwidth (-3dB) 10 Hz to 7 kHz
Phase error (45 Hz – 65 Hz) ± 1°
Position sensitivity ± 2 % of reading max.
Temperature coefficient ± 0.08 % max of reading per °C
Working voltage
(see safety standards section)
1000 V AC RMS or DC (head)
30 V max. (output)