1.3 Features
20
1.3 Features
Extensive selection
of current sensors
(Available rated for use with sig-
nals ranging from leak currents
to a maximum of 5000 A.)
Safety
CAT IV 600 V compliant.
Capable of measuring lead-in
wires on their primary side.
Measurement of
transient voltages of
up to 6000 V from
5 kHz to 700 kHz
SD memory card data storage
By allowing the PQ3198 to record data continuously
for up to one year, the ability to use high-capacity up
to 8 GB memory cards inspires peace of mind.
Easy downloading of data to
a computer via USB or LAN
Included software simplifies analysis.
Support for 400 Hz
lines
Simultaneous
3-channel measure-
ment of ΔV10 flicker
Ability to measure all
parameters
necessary for power
quality measurement
Measurement of
high-order harmonic
components from
2 kHz to 80 kHz
Reliable
Quick setup functionality
ensures you won't miss
the occurrence of any
abnormal phenomena.
High precision
Voltage measurement
accuracy of ±0.1%rdg.
Complies with the new IEC61000-
4-30 Class A international power
quality standard.
Capable of accommodating 1-phase 2-wire, 1-phase 3-wire, 3-phase 3-wire,
and 3-phase 4-wire power supplies.
Features isolated channels for equipment analysis, neutral line ground fault
measurement, and measurement of power supply lines from separate systems.
Lets you select line voltage or phase voltage. Includes Δ-Y conversion and Y-Δ
conversion functionality.
Features a TFT color LCD that is easily visible in both bright and dark settings.
Capable of true simultaneous measurement with gap-less continuous opera-
tion, assuring your ability to reliably capture target phenomena.
Capable of accurately assessing the time at which phenomena occur. A GPS
option allows time correction.
Can be operated with peace of mind during an extended power outage thanks
to a generous battery drive time of 180 minutes.
Supports simple inverter measurement.*
Fundamental frequency: 40 Hz to 70 Hz; carrier frequency 20 kHz or less
*
: It is recommended to use the PW6001 or PW3390 for high-precision measurement. Although this instrument may
yield different voltage readings than the PW6001 and PW3390 due to differences in measurement band, it should
yield approximately the same current and power values as the PW6001 and PW3390 since current waveforms
approach the fundamental wave. It can also be used to measure the efficiency of DC/3-phase inverters.
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