C435 Fluke, C435 Datasheet - Page 10
C435
Manufacturer Part Number
C435
Description
Watertight Hard Storage Case With Rollers
Manufacturer
Fluke
Datasheet
1.FLUKE-435003.pdf
(12 pages)
Specifications of C435
For Use With
Fluke-430 Series 3-Phase Power Quality Analyzers
Lead Free Status / RoHS Status
na
Lead Free Status / RoHS Status
na
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
C43532E-12
Manufacturer:
MHS
Quantity:
20 000
Measurement method
Wiring configurations
General specifications
10 Fluke Corporation Fluke 430 Series Three-Phase Power Quality Analyzers
VA
VAR
Power Factor
Cos j/DPF
Unbalance
Flicker
Transient capture
Inrush current
Mains signaling
Time synchronization
1Ø + NEUTRAL
1Ø SPLIT PHASE
1Ø IT NO NEUTRAL
3Ø WYE
3Ø DELTA
3Ø IT
3Ø HIGH LEG
3Ø OPEN LEG
2-ELEMENT
2½-ELEMENT
Case
Design
Drip and dust proof
Shock and vibration
Display
Type
Size
Resolution
Contrast and brightness
Memory
Screens
Data
Logger
Limit templates
Real-time clock
cont.
Selectable total or fundamental apparent power display
Calculates apparent power using Vrms x Arms value over 10/12 cycle period
Total apparent power is root mean square of real and reactive power
Selectable total of fundamental reactive power display
Calculates reactive power as root of VA squared minus watt squared over 10/12 cycle period
Capacitive and inductive load is indicated with capacitor and inductor icons
Calculated watt/VA
Cos of angle between fundamental voltage and current
The supply voltage unbalance is evaluated using the method of symmetrical components according to
IEC61000-4-30
According to IEC 61000-4-15 flickermeter—functional and design specification
Includes 230 V 50 Hz lamp and 120 V 60 Hz lamp models
Captures waveform triggered on signal envelope
Additionally triggers on dips, swells, interruptions and Amps level as specified by IEC61000-4-30
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.
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 “Meistercurve”
Optional GPS430 timesync module provides time uncertainty ≤ 20 ms or ≤ 16.7 ms
time aggregated measurements. When synchoronisation becomes unavailable, time tolerance is ≤ 1-s/24h
Single phase with neutral
Split phase
Single phase system with two phase voltages without neutral
Three phase four wire system WYE
Three phase three wire system Delta
Three phase system without neutral WYE
Four wire three phase Delta system with center tapped high leg
Open delta three wire system with 2 transformer windings
Three phase three wire system without current sensor on phase L2/B (2 watt meter method)
Three phase four wire system without voltage sensor on phase L2/B
Rugged, shock proof with integrated protective holster
IP51 according to IEC60529 when used in tilt stand position
Shock 30 g, vibration: 3 g sinusoid, random 0.03 g
Bright full-color LCD with CCFL backlight, 80 cd/m
115.2 mm x 86.4 mm (4.5 in x 3.4 in)
320 x 240 pixels
User-adjustable, temperature compensated
50 screen memories
10 data memories for storing data including recordings
User configurable shared memory, up to 15 MB on Fluke 435, Up to 7 MB on Fluke 434
2 preprogrammed, 2 administrator (programmable via FlukeView
Time and date stamp for AutoTrend, Transient display and SystemMonitor
2
2
/Hz according to MIL-PRF-28800F Class 2
®
), 2 user locations
2
for time tagging of events and
4