Electrical data
Primary Nominal Current Analogue Output Signal Type
IPN (A.t.RMS) IOUT (mA)
10,25,50 4-20 APR 50 B420L
50,75,100 4-20 APR 100 B420L
100,150,200 4-20 APR 200 B420L
200,300,400 4-20 APR 400 B420L
R LLoad resistance < 350 Ω
VCSupply voltage (loop powered) +24 V DC
VdR.m.s. voltage for AC isolation test, 50/60Hz, 1 mn 5kV
Limitation of output current < 25 mA
Accuracy-Dynamic performance data
XAccuracy @ IPN, TA = 25°C (without offset) < ±1 % of IPN
εεLLinearity (0 .. ± IPN)< ±0.5 % of IPN
IOE Electrical offset current, TA = 25°C 4mA
IOT Thermal drift of IOE ±1 µA/K
TCεεGThermal drift of the gain (% of reading) ±0.1 %/K
t rResponse time @ 90% of IP < 1000 ms
fFrequency bandwidth (-3 dB) 10 .. 6000 Hz
General data
TAAmbient operating temperature -20 .. +60 °C
TSAmbient storage temperature -20 .. +85 °C
mMass 90 g
Protection type IP20
Reliable isolation according to EN50178, EN61010 300 V AC
Creepage distance > 5.5 mm
EMC in accordance with EN50082-2
Plastic according to UL94V0, CTI 1
Notes : Installation and maintenance should be done with power supply disconnected.
AC Current transducer APR-B420L
Split core transducer for the electronic measurement distorted AC
waveforms current, with galvanic isolation between the primary (High
power) and the secondary circuits (Electronic circuit). Switch selectable
ranges and True RMS 4-20mA current output.
IPN = 10 .. 400 A
030708/0
Features
• VFD and SCR waveforms current
measurement
• True RMS output
•Split core type
• Loop powered 4-20mA current output
• DIN mounting & Panel mounting
• Eliminates insertion loss
• Switch selectable ranges
Advantages
• Large aperture for cable up to Ø18mm
• High isolation between primary and
secondary circuits
• Easy to mount
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.
LEM Components www.lem.com
Preliminary