Datasheet
Electrical data
Primary Nominal Current Output Voltage (Analog) Type RoHS since
I
PN
(A.t.rms) V
OUT
(V DC) date code
10,25,50 0-5 or 0-10 APR 50 B10 46184
50,75,100 0-5 or 0-10 APR 100 B10 46304
100,150,200 0-5 or 0-10 APR 200 B10 46194
200,300,400 0-5 or 0-10 APR 400 B10 47150
R
L
Load resistance ≥ 10 kΩ
V
C
Supply voltage + 24 ± 5%V DC
I
C
Current Consumption < 30 mA
V
SL
Output voltage limitation (0-10V) 14 V
V
SL
Output voltage limitation (0-5V) 7 V
Î
P
Overload capability no limitation
Accuracy-Dynamic performance data
X Accuracy @ I
PN
, T
A
= 25°C (excluding offset) < ± 1 % of I
PN
ε
L
Linearity error (0 .. ± I
PN
) < ± 0.5 % of I
PN
V
OE
Electrical offset voltage @ T
A
= 25°C < ± 0.5 % of I
PN
TCV
OE
Temperature coefficient of V
OE
± 1 mV/K
TCV
OUT
Temperature coefficient of V
OUT
(% of reading) ± 0.1 %/K
t
r
Response time to 90% of I
PN
step < 400 m s
BW Frequency bandwidth (± 1 %) 30 .. 6000 Hz
General data
T
A
Ambient operating temperature - 20 .. + 60 °C
T
S
Ambient storage temperature - 20 .. + 85 °C
m Mass 90 g
IPxx Protection degree IP20
AC Current transducer APR-B10
Split-core transducer for the electronic measurement AC currents (all
waveforms), with galvanic isolation between the primary circuit (high
power) and the secondary circuit (electronics). Switch selectable
measuring ranges and true RMS 0-5V and 0-10V switch selectable
voltage output.
I
PN
= 10 .. 400 A
Features
•VFD and SCR waveforms current
measurement
•True RMS output (average)
•Split-core type
•0-5VDC & 0-10VDC switch selectable
voltage output
• DIN rail or Panel mounting
•Switch selectable measuring ranges
•Isolated plastic case recognized
according to UL94-V0.
Advantages
• Large aperture for cable up to
Ø18mm
• High isolation between primary and
secondary circuits
•Eliminates insertion loss
• Easy installation
Applications
• VFD Controlled Loads:
VFD output indicates how the motor
and attached load are operating.
• SCR Controlled Loads:
Acurate measurement of phase
angle fired or burst fired (time
proportioned)
SCRs. Current measurement gives
faster response than temperature
measurement.
• Switching Power Supplies and
Electronic Ballasts:
True RMS sensing is the most
accurate way to measure power
supply or ballast input power.
Application domain
• Energy and Automation
080212/5 www.lem.com
LEM reserves the right to carry out modifications on its transducers, in order to improve them, without prior notice.
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