LEM AT150B420L Ac current transducer Datasheet

AC Current
transducer
AT-B420L
AC Current
transducer
AT-B420L
Split-core transducer
the electronic
measurement
of ACofwaveform
Split-core for
transducer
for the electronic
measurement
AC waveform
currents, withcurrents,
galvanic
between
thethe
primary
(power)
withisolation
galvanic isolation
between
primary circuit
circuit (power)
and the
and the secondary
circuit
(measurement).
4-20current
mA output
current
output to
secondary
circuit (measurement).
4-20mA
proportional
thethe
RMS
valuevalue
of the primary
current. current.
proportional to
RMS
of the primary
IIPN
150AA
== 5
5 .... 150
PN
Electrical data
Primary nominal current rms
IPN (A.t.Rms)
Electrical data
Output current
IOUT (mA)
5
4-20
10
4-20
20
4-20
Primary nominal
Output current
Type
50
4-20
current rms
100
4-20
ISplit-core
(A.t.Rms)
IOUT (mA)
transducer for150
the electronic
measurement 4-20
of AC waveform
PN
AC Current transducer AT-B420L
AT
AT
AT
AT
AT
AT
AT 100 B420L
AT 150 B420L
4-20
Performance4-20
data
• RMS output
Features
• Loop-powered 4-20mA current output
5 B420L
10 B420L
20 B420L
50 B420L
100 B420L
150 B420L
• Split-core type
●● RMS output
• Ø 16 mm sensing aperture for non●● Loop-powered 4-20mA current
contact measurement
output
• Terminal output
●● Split-core type
• Isolated plastic case recognized
●● Ø 16 mm sensing aperture for
according to UL 94-V0.
non-contact measurement
●● Terminal output
Advantages
●● Isolated plastic case recognized
• High
isolationtobetween
primary and
according
UL 94-V0.
IPN = 5 .. 150 A
currents,
between
the primary
and
1) the
5 with galvanic
4-20
AT
5 B420L
R L isolation
Load
resistance,
with Vcircuit
= +(power)
24 V DC
C
secondary circuit (measurement).
4-20mA current output
proportional to
VC
Supply voltage
(loop-powered)
10
4-20
AT
10 B420L
the RMS value of the primary current.
ISL
Output current
20
4-20 limitation
AT 20 B420L
ÎP
Overload capability - continuous
50
4-20
AT 50 B420L
- 1 min
100
150
Features
Type
< 600
W
+ 20 .. 30 V DC
< 30
mA
120
% of IPN
150
% of IPN
secondary circuits
1)
data
RL Electrical
Load resistance,
with
VC =@+ I24, TV =DC
< 600
W
X
Accuracy
25°C (excluding offset)
< ± 2 % of IPN
Advantages
A
•
Compact case
Primary nominal current rms
Output current PN
Type
Features
VC
Supply voltage (loop-powered)
+ 20
.. 30 < ± 0.5
V DC %
Linearity
I (A.t.Rms) ε L
I
(mA)error
•
Cost-effective
solution
• RMS output4 ± 0.2mA mA
ISL
Output
current
limitation
< 30
IOE
Electrical
offset current, TA =AT25°C
●● High isolation between primary
5
4-20
5 B420L
•
Easy
installation
•
Loop-powered
4-20mA
current
output
10
10 B420L
t r capability
Response
time to 90% of IAT
step
<%
100of IPN m s
ÎP
Overload
-4-20
continuous
120
and secondary circuits
P
20
4-20
AT 20 B420L
• Split-core type
BW
Frequency
bandwidth
50/60
1
min
150
%
of IPN Hz
50
4-20
AT 50 B420L
• Ø 16 mm sensing aperture
for non-●● Compact case
PN
OUT
100
150
AT 100 B420L
AT 150 B420L
4-20
General 4-20
data
Performance
data
Load resistance,
with V
X
e
RL
VC
ISL
ÎP
L
= + 24 V DC 1)
< 600
W
C
TA
Ambient
operating temperature
Supply voltage
(loop-powered)
+ 20 .. 30 V DC
TS
Ambient storage temperature< 30
Output current
limitation
mA
Accuracy
@ IPN
, TA = 25°C (excluding offset)
Overload
-Mass
continuous
120
% of IPN
mcapability
LinearityIPxx
error
-Protection
1 min
150
% of IPN
degree
IOE
Electrical offset current, TA = 25°C
Performance data
tr
Response time to 90% of IPN step
Accuracy
@ IPN, 1)TA =
25°CLoad
(excluding
offset)
< ± 2Voltage
% of IPN
Note:
Max.
Resistance
vs. Supply
BWXε
Frequency
bandwidth
Linearity error
< ± 0.5
%
L
IOE
tr
BW
Electrical offset current,
35TA = 25°C
Response time to 90% of IP step
Frequency bandwidth
General data
4 ± 0.2
< 100
50/60
mA
ms
Hz
Applications
contact measurement
• Terminal output
• Isolated plastic
recognized
- 20case
.. + 60
°C
according to- UL
20 94-V0.
.. + 85 °C
●● Cost-effective solution
• ●Automation
and Supervision
●
Easy installation
Current measurement for process
Applications
regulation by distributed PLCs or
< ± 1.5
% of IPN
90
g
remote control (e.g. SCADA
< ±Advantages
0.5
%
of
I
PN
IP40
●● Automation and Supervision
4 ±• High
0.2isolation between
mAprimary and software)
Current measurement for process
• Security and Condition Monitoring
< 100
secondary circuits ms
regulation by distributed PLCs
Load monitoring for protection
• Compact case
50/60
Hz
or remote control (e.g. SCADA
systems and predictive
software)
maintenance (e.g. conveyers,
• Cost-effective solution
• Easy installation
Supply Voltage (V)
30
Supply Voltage (V)
●● Safety and Condition
pumps or HVAC motors)
Monitoring
• Energy management
General
data
TA
Ambient operating temperature
- 20
.. + 60
°C
• Automation and Supervision
Load monitoring
for protection
Convenient
connection
to power
Ambient storage
operating temperature
- 20 .. + 60 °C - 20 .. + 85
25
TS TA Ambient
temperature
°C for process systems and predictive
Current measurement
TS
Ambient storage temperature
- 20 .. + 85 °C
consumption
sub-meters
regulation by distributed
m m
Mass
g PLCs or
Mass
90
g 90
maintenance (e.g. conveyers,
remote control (e.g. SCADA
20
IPxx
Protection
degree
IP40
IPxx Protection degree
IP40
pumps or HVAC
motors)
software)
Application
domain
• Security and Condition Monitoring●● Energy management
15
Load monitoring for protection
• Energy
and Automation
Note: 1)1) Max.
Max. Load
Resistance
vs. Supply
Note:
Load
Resistance
vs.Voltage
Supply
Voltage700
Convenient
connection to power
400
500
600
800
900
1000
systems and predictive
35
consumption
sub-meters
Max. Load Resistance (Ohm)
maintenance (e.g. conveyers,
30
pumps or HVAC motors)
Application domain
LEM reserves the right to carry out modifications on
its transducers,
in order to improve them, without prior notice.
• Energy
management
071115/4
Convenient connection to power
consumption sub-meters
25
20
www.lem.com
●● Energy and Automation
500
600
700
800
900
1000
• Energy and Automation
Max. Load Resistance (Ohm)
090609/6
071115/4
Page 1/3
Application domain
15
400
Applications
Page 1/3
LEM reserves the right to carry out modifications on its transducers, in order to improve them, without prior notice.
LEM reserves the right to carry out modifications on its transducers, in order to improve them, without prior notice.
www.lem.com
Page 1/3
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Current Transducer AT-B420L
Isolation characteristics
Vb
Vd
dCp
dCl
CTI
Rated isolation voltage rms 2)
with IEC 61010-1 standards and following conditions:
- Reinforced isolation
- Over voltage category CAT III
- Pollution degree PD2
- Heterogeneous field
Rms voltage for AC isolation test 3), 50Hz, 1min.
Creepage distance
Clearance distance
Comparative tracking index (Group I)
300
V
3.5
6
6
600
kV
mm
mm
Notes: 2) If insulated cable is used for the primary circuit, the voltage category could
be improved according to the primary cable insulation category (please
refer to the cable manufacturer’s indications)
3) between primary (completely filling the hole) and secondary.
Safety and warning notes
In order to guarantee safe operation of the transducer and to be able to make proper use of all features and functions, please
read these instructions thoroughly!
Safe operation can only be guaranteed if the transducer is used for the purpose it has been designed for and within the limits of
the technical specifications.
Ensure you get up-to-date technical information that can be found in the latest associated datasheet under www.lem.com.
Caution! Risk of danger
Ignoring the warnings can lead to serious injury and/or cause damage!
The electric measuring transducer may only be installed and put into operation by qualified personnel that have rceived an appropriate training.
The corresponding national regulations shall be observed during installation and operation of the transducer and
any electrical conductor.
The transducer shall be used in electric/electronic equipment with respect to applicable standards and safety rquirements and in accordance with all the related systems and components manufacturers’ operating instructions.
Caution! Risk of electrical shock
When operating the transducer, certain parts of the module may carry hazardous live voltage (e.g. primary conductor, power supply).
The user shall ensure to take all measures necessary to protect against electrical shock.
The transducer is a built-in device containing conducting parts that shall not be accessible after installation.
A protective enclosure or additional insulation barrier may be necessary.
The transducer shall not be put into operation if the jaw opening is open (split core version) or the installation is not completed.
Installation and maintenance shall be done with the main power supply disconnected except if there are no hazardous live parts in or in close proximity to the system and if the applicable national regulations are fully observed.
Safe and trouble-free operation of this transducer can only be guaranteed if transport, storage and installation are carried out
correctly and operation and maintenance are carried out with care.
Page 2/3
090609/6
LEM reserves the right to carry out modifications on its transducers, in order to improve them, without prior notice.
www.lem.com
Dimensions AT-B420L (in mm. 1 mm = 0.0394 inch)
Dimensions AT-B420L (in mm. 1 mm = 0.0394 inch)
Bottom view
Back view
18
18
16
Dimensions AT-B420L (in mm. 1 mm = 0.0394 inch)
23.5
16
4
4
16
40.5
+
28.5
4
+
4
1.5
23.5
31.5
51
(OUT) (+V)
22
K
L
N.P
18
18
51
28.5
1.5
31.5
16
+
40.5
2.5
+
(OUT) (+V)
2-M3 terminal with cover
22
K
L
N.P
Top view
2.5
2-M3 terminal with cover
Remark
Mechanical characteristics
•Mechanical
ATTENTION: characteristics
contact areas (air gap) must be kept clean
• Remarks
General tolerance
± 1 mm
• Primary aperture
∅ 16 mm
●Mechanical
● ATTENTION:
contact areas (air gap) must be kept clean
characteristics
• Fastening
Cable tie
(particle free) to ensure proper performance
●● General tolerance
± 1 mm
Remark
●● Primary aperture
Ø 16 mm
• ATTENTION: contact areas (air gap) must be kept clean
●● Fastening
Cable tie
(particle free) to ensure proper performance
(particle free) to ensure proper performance
• General tolerance
• Primary aperture
• Fastening
Connections
•Connections
Wires up to 2 mm ∅
± 1 mm
∅ 16 mm
Cable tie
Connections
(+V)(OUT)
●● Wires up to 2 •mm
Ø up to 2 mm ∅(+) (-)
Wires
(+V)(OUT)
(+) (-)
K
K
24 VDC Power
24 VDC Power
(+)
(+)
(-)
(-)
(+)
Ip
(-)
(-)
(+)
Load
(+)
Ip
L
(+)
OUT
OUTIs
(-)
(-)
GND
+24VDC
GND
(Controller, meter etc)
LEM reserves the right to carry out modifications on its transducers, in order to improve them, without prior notice.
071115/4
Is
L
Load
090609/6
+24VDC
(Controller,
meter
LEM reserves
the right etc)
to carry out modifications on its transducers, in order to improve them, without prior notice.
Page 3/3
www.lem.com
Page 3/3
www.lem.com
Page 3/3
071115/4
LEM reserves the right to carry out modifications on its transducers, in order to improve them, without prior notice.
www.lem.com
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