LEM HO-NP-4012 Current transducer Datasheet

IPN = 40, 60, 120, 150 A
Current Transducer HO-NP series
Ref: HO 40-NP, HO 60-NP, HO 120-NP, HO 150-NP
For the electronic measurement of current: DC, AC, pulsed..., with galvanic separation
between the primary and the secondary circuit.
Features
Applications
●● Open loop multi-range current transducer
●● AC variable speed and servo motor drives
●● Voltage output
●● Static converters for DC motor drives
●● Single power supply +5 V
●● Battery supplied applications
●● Over-current detect 2.93 x IPN (peak value)
●● Uninterruptible Power Supplies (UPS)
●● EEPROM Control
●● Switched Mode Power Supplies (SMPS)
●● Galvanic separation between primary and secondary circuit
●● Power supplies for welding applications
●● Low power consumption
●● Combiner box
●● Compact design for THT PCB mounting
●● Solar inverter on DC side of the inverter (MPPT).
●● Factory calibrated
●● Dedicated parameter settings available on request
(see page 9).
Standards
●● EN 50178: 1997
●● IEC 61010-1: 2010
Advantages
●● IEC 61326-1: 2012
●● UL 508: 2010 (pending).
●● Low offset drift
●● Over-drivable Vref
●● 8 mm creepage /clearance
●● Fast response.
Application Domain
●● Industrial.
N°97.K3.23.000.0; N°97.K3.27.000.0; N°97.K3.36.000.0; N°97.K3.39.000.0
25July2014/Version 1
LEM reserves the right to carry out modifications on its transducers, in order to improve them, without prior notice
Page 1/12
www.lem.com
HO 40 .. 150-NP series
Absolute maximum ratings
Parameter
Symbol
Unit
Value
Supply voltage (not destructive)
UC
V
8
Supply voltage (not entering non standard modes)
UC
V
6.5
Primary conductor temperature
TB
°C
120
UESD
kV
2
ESD rating, Human Body Model (HBM)
Stresses above these ratings may cause permanent damage. Exposure to absolute maximum ratings for extended periods may
degrade reliability.
Insulation coordination
Parameter
Symbol
Unit
Value
Rms voltage for AC insulation test 50/60Hz/1 min
Ud
kV
4.3
Impulse withstand voltage 1.2/50 µs
ÛW
kV
8
Partial discharge extinction rms voltage @ 10 pC
Ue
V
>930
Clearance (pri. - sec.)
dCI
mm
>8
Shortest distance through air
Creepage distance (pri. - sec.)
dCp
mm
>8
Shortest path along device body
mm
>8
When mounted on PCB with
recommended layout
Clearance (pri. - sec.)
Comment
Primary / Secondary
V0 according to
UL 94
Case material
Comparative tracking index
CTI
-
600
Application example
-
-
600 V
CAT III PD2
Reinforced insulation, non
uniform field according to
EN 50178, EN 61010
Application example
-
-
1000 V
CAT III PD2
Based insulation, non uniform
field according to
EN 50178, EN 61010
Application example
-
-
600 V
CAT III PD2
Simple insulation, non uniform
field according to
UL 508
Environmental and mechanical characteristics
Symbol
Unit
Min
Ambient operating temperature
Parameter
TA
°C
-40
105
Ambient storage temperature
TS
°C
-40
105
Mass
m
g
Typ
Max
Comment
31
Page 2/12
25July2014/Version 1
LEM reserves the right to carry out modifications on its transducers, in order to improve them, without prior notice
www.lem.com
HO 40 .. 150-NP series
Electrical data HO 40-NP-0100
At TA = 25 °C, UC = +5 V, RL = 10 kΩ unless otherwise noted (see Min, Max, typ. definition paragraph in page 10).
Symbol
Unit
Primary nominal rms current
Parameter
IPN
A
A
Primary current, measuring range
IPM
Number of primary turns
NP
Primary jumper resistance @ +25 °C
RP
mΩ
Primary jumper resistance @ +120 °C
RP
mΩ
Supply voltage 1)
UC
V
Current consumption
IC
mA
Reference voltage (output)
Vref
Reference voltage (input)
Min
Typ
Max
Comment
40
-100
100
@ UC ≥ 4.6 V
1,2,4
See application information
0.09
4 jumpers in //
0.12
4 jumpers in //
4.5
5
5.5
19
25
V
2.48
2.5
2.52
Internal reference
External reference
Vref
V
0.5
2.65
Vout - Vref
V
-2
2
Vref output resistance
Rref
Ω
130
Vout output resistance
Rout
Ω
Allowed capacitive load
CL
nF
0
OCD output: On resistance
Ron
Ω
70
95
150
Open drain, active low
Over operating temperature range
OCD output: Hold time
thold
ms
0.7
1
1.4
Additional time after threshold has
released
EEPROM control
Vout
mV
0
50
Vout forced to GND when EEPROM
in an error state 2)
Electrical offset voltage @ IP = 0 A
VOE
mV
-5
5
Vout - Vref @ Vref = 2.5 V
Electrical offset current
Referred to primary
IOE
A
-0.25
0.25
Temperature coefficient of Vref
TCVref
ppm/K
-170
170
-40 °C .. 105 °C
Temperature coefficient of VOE
TCVOE
mV/K
-0.075
0.075
-40 °C .. 105 °C
Offset drift referred to primary
@ IP = 0 A
TCIOE
mA/K
-3.75
3.75
-40 °C .. 105 °C
Theoretical sensitivity
Gth
mV/A
Sensitivity error @ IPN
εG
%
-0.75
0.75
Factory adjustment, 1 turn
configuration, 4 jumpers in //
TCG
ppm/K
-200
200
-40 °C .. 105 °C
Output voltage range @ IPM
Temperature coefficient of G
200
2
Over operating temperature range
300
Series
5
Series
6
800 mV@ IPN
20
Linearity error 0 .. IPN
εL
% of IPN
-0.75
0.75
Linearity error 0 .. IPM
εL
% of IPM
-0.5
0.5
Magnetic offset current (@ 10 × IPN)
referred to primary
IOM
A
-0.8
0.8
One turn
Reaction time @ 10 % of IPN
tra
µs
2
@ 50 A/µs
Response time @ 90 % of IPN
tr
µs
2.5
@ 50 A/µs
Frequency bandwidth (-3 dB)
BW
kHz
Output rms voltage noise (spectral
density)
(100 Hz .. 100 kHz)
eno
µV/√Hz
Output voltage noise
(DC .. 10 kHz)
(DC .. 100 kHz)
(DC .. 1 MHz)
Vno
mVpp
Over-current detect
350
16
7.8
24.2
45.1
A
2.64 x IPN
2.93 x IPN
3.22 x IPN
Peak value ±10 %
Accuracy @ IPN
X
% of IPN
-1.5
1.5
Accuracy @ IPN @ TA = +105 °C
X
% of IPN
-3.9
3.9
See formula note 3)
Accuracy @ IPN @ TA = +85 °C
X
% of IPN
-3.5
3.5
See formula note 3)
Notes:
3.3 V SP version available
EEPROM in an error state makes the transducer behave like a reverse current saturation. Use of the OCD may help to
differentiate the two cases.
1)
2)
3)
TCIOE
Accuracy @ X TA (% of IPN) = X + ( TCG · (TA - 25) +
· 100 · (TA - 25)).
10000
1000·IP
25July2014/Version 1
LEM reserves the right to carry out modifications on its transducers, in order to improve them, without prior notice
Page 3/12
www.lem.com
HO 40 .. 150-NP series
Electrical data HO 60-NP-0100
At TA = 25 °C, UC = +5 V, RL = 10 kΩ unless otherwise noted (see Min, Max, typ. definition paragraph in page 10).
Symbol
Unit
Primary nominal rms current
Parameter
IPN
A
A
Primary current, measuring range
IPM
Number of primary turns
NP
Primary jumper resistance @ +25 °C
RP
mΩ
Primary jumper resistance @ +120 °C
RP
mΩ
Supply voltage 1)
UC
V
Current consumption
IC
mA
Reference voltage (output)
Vref
Reference voltage (input)
Min
Typ
Max
Comment
60
-150
150
@ UC ≥ 4.6 V
1,2,4
See application information
0.09
4 jumpers in //
0.12
4 jumpers in //
4.5
5
5.5
19
25
V
2.48
2.5
2.52
Internal reference
External reference
Vref
V
0.5
2.65
Vout - Vref
V
-2
2
Vref output resistance
Rref
Ω
130
Vout output resistance
Rout
Ω
Allowed capacitive load
CL
nF
0
OCD output: On resistance
Ron
Ω
70
95
150
Open drain, active low,
Over operating temperature range
OCD output: Hold time
thold
ms
0.7
1
1.4
Additional time after threshold has
released
EEPROM control
Vout
mV
0
50
Vout forced to GND when EEPROM
in an error state 2)
Electrical offset voltage @ IP = 0
VOE
mV
-5
5
Vout - Vref @ Vref = 2.5 V
Electrical offset current
Referred to primary
IOE
A
-0.375
0.375
Output voltage range @ IPM
200
2
Over operating temperature range
300
Series
5
Series
6
Temperature coefficient of Vref
TCVref
ppm/K
-170
170
-40 °C .. 105 °C
Temperature coefficient of VOE
TCVOE
mV/K
-0.075
0.075
-40 °C .. 105 °C
Offset drift referred to primary @ IP = 0
TCIOE
mA/K
-5.625
5.625
-40 °C .. 105 °C
Theoretical sensitivity
Gth
mV/A
Sensitivity error @ IPN
εG
%
Temperature coefficient of G
800 mV@ IPN
13.333
-0.75
0.75
Factory adjustment, 1 turn
configuration, 4 jumpers in //
-40 °C .. 105 °C
TCG
ppm/K
-200
200
Linearity error 0 .. IPN
εL
% of IPN
-0.65
0.65
Linearity error 0 .. IPM
εL
% of IPM
-0.5
0.5
Magnetic offset current (@10 × IPN)
referred to primary
IOM
A
-0.8
0.8
One turn
Reaction time @ 10 % of IPN
tra
µs
2
@ 50 A/µs
Response time @ 90 % of IPN
tr
µs
2.5
@ 50 A/µs
Frequency bandwidth (-3 dB)
BW
kHz
Output rms voltage noise (spectral
density)
(100 Hz .. 100 kHz)
eno
µV/√Hz
Output voltage noise
(DC .. 10 kHz)
(DC .. 100 kHz)
(DC .. 1 MHz)
Vno
mVpp
Over-current detect
350
11
5.7
16.5
31.1
A
2.64 x IPN
2.93 x IPN
3.22 x IPN
Peak value ±10 %
Accuracy @ IPN
X
% of IPN
-1.4
1.4
Accuracy @ IPN @ TA = +105 °C
X
% of IPN
-3.8
3.8
See formula note 3)
Accuracy @ IPN @ TA = +85 °C
X
% of IPN
-3.4
3.4
See formula note 3)
Notes:
3.3 V SP version available
EEPROM in an error state makes the transducer behave like a reverse current saturation. Use of the OCD may help to
differentiate the two cases.
1)
2)
3)
TCIOE
Accuracy @ X TA (% of IPN) = X + ( TCG · (TA - 25) +
· 100 · (TA - 25)).
10000
1000·IP
25July2014/Version 1
LEM reserves the right to carry out modifications on its transducers, in order to improve them, without prior notice
Page 4/12
www.lem.com
HO 40 .. 150-NP series
Electrical data HO 120-NP-0100
At TA = 25 °C, UC = +5 V, RL = 10 kΩ unless otherwise noted (see Min, Max, typ. definition paragraph in page 10).
Parameter
Symbol
Unit
Primary nominal rms current
IPN
A
Primary current, measuring range
IPM
A
Number of primary turns
NP
Primary jumper resistance @ +25 °C
RP
mΩ
Primary jumper resistance @ +120 °C
RP
mΩ
Supply voltage 1)
UC
V
Current consumption
IC
mA
Reference voltage (output)
Vref
V
2.48
Reference voltage (input)
Vref
V
0.5
Vout - Vref
V
-2
2
130
Output voltage range @ IPM
Min
Typ
Max
Comment
120
-300
300
See application information
0.09
4 jumpers in //
0.12
4.5
@ UC ≥ 4.6 V
1,2,4
4 jumpers in //
5
5.5
19
25
2.5
2.52
Internal reference
2.65
External reference
Over operating temperature range
Vref output resistance
Rref
Ω
Vout output resistance
Rout
Ω
Allowed capacitive load
CL
nF
0
OCD output: On resistance
Ron
Ω
70
95
150
Open drain, active low,
Over operating temperature range
OCD output: Hold time
thold
ms
0.7
1
1.4
Additional time after threshold has
released
EEPROM control
Vout
mV
0
50
Vout forced to GND when EEPROM
in an error state 2)
Electrical offset voltage @ IP = 0 A
VOE
mV
-5
5
Vout - Vref @ Vref = 2.5 V
Electrical offset current
Referred to primary
IOE
A
-0.75
0.75
Temperature coefficient of Vref
TCVref
ppm/K
-170
170
-40 °C .. 105 °C
Temperature coefficient of VOE
TCVOE
mV/K
-0.075
0.075
-40 °C .. 105 °C
Offset drift referred to primary
@ IP = 0 A
TCIOE
mA/K
-11.25
11.25
-40 °C .. 105 °C
Theoretical sensitivity
Gth
mV/A
Sensitivity error @ IPN
εG
%
-0.75
0.75
Factory adjustment, 1 turn
configuration, 4 jumpers in //
TCG
ppm/K
-200
200
-40 °C .. 105 °C
Temperature coefficient of G
200
300
Series
2
5
Series
6
800 mV@ IPN
6.667
Linearity error 0 .. IPN
εL
% of IPN
-0.5
0.5
Linearity error 0 .. IPM
εL
% of IPM
-0.5
0.5
Magnetic offset current (@10 × IPN)
referred to primary
IOM
A
-0.8
0.8
One turn
Reaction time @ 10 % of IPN
tra
µs
2
@ 50 A/µs
Response time @ 90 % of IPN
tr
µs
2.5
@ 50 A/µs
Frequency bandwidth (-3 dB)
BW
kHz
Output rms voltage noise (spectral
density)
(100 Hz .. 100 kHz)
eno
µV/√Hz
Output voltage noise
(DC .. 10 kHz)
(DC .. 100 kHz)
(DC .. 1 MHz)
Vno
mVpp
Over-current detect
A
350
6.1
3.6
8.9
17.1
2.64 x IPN
2.93 x IPN
3.22 x IPN
Peak value ±10 %
Accuracy @ IPN
X
% of IPN
-1.25
1.25
Accuracy @ IPN @ TA = +105 °C
X
% of IPN
-3.65
3.65
See formula note 3
Accuracy @ IPN @ TA = +85 °C
X
% of IPN
-3.25
3.25
See formula note 3)
Notes:
3.3 V SP version available
EEPROM in an error state makes the transducer behave like a reverse current saturation. Use of the OCD may help to
differentiate the two cases.
1)
2)
3)
TCIOE
Accuracy @ X TA (% of IPN) = X + ( TCG · (TA - 25) +
· 100 · (TA - 25)).
10000
1000·IP
25July2014/Version 1
LEM reserves the right to carry out modifications on its transducers, in order to improve them, without prior notice
Page 5/12
www.lem.com
HO 40 .. 150-NP series
Electrical data HO 150-NP-0100
At TA = 25 °C, UC = +5 V, RL = 10 kΩ unless otherwise noted (see Min, Max, typ. definition paragraph in page 10).
Parameter
Symbol
Unit
Primary nominal rms current
IPN
A
Primary current, measuring range 85 °C 1)
105 °C
IPM
A
Number of primary turns
NP
1,2,4
See application information
Primary jumper resistance @ +25 °C
RP
mΩ
0.09
4 jumpers in //
Primary jumper resistance @ +120 °C
RP
mΩ
0.12
Supply voltage 2)
UC
V
Current consumption
IC
mA
Reference voltage (output)
Vref
Reference voltage (input)
Output voltage range @ IPM
Min
Typ
Max
Comment
150
-375
-360
375
360
@ UC ≥ 4.6 V
4 jumpers in //
4.5
5
5.5
19
25
V
2.48
2.5
2.52
Internal reference
Vref
V
0.5
2.65
External reference
Vout - Vref
V
-2
2
130
Over operating temperature range
Vref output resistance
Rref
Ω
Vout output resistance
Rout
Ω
200
300
Series
2
5
Allowed capacitive load
CL
nF
0
Series
OCD output: On resistance
Ron
Ω
70
95
150
Open drain, active low,
Over operating temperature range
OCD output: Hold time
thold
ms
0.7
1
1.4
Additional time after threshold has
released
EEPROM control
Vout
mV
0
50
Vout forced to GND when EEPROM
in an error state 3)
Electrical offset voltage @ IP = 0 A
VOE
mV
-5
5
Vout - Vref @ Vref = 2.5 V
Electrical offset current
Referred to primary
IOE
A
-0.9375
0.9375
6
Temperature coefficient of Vref
TCVref
ppm/K
-170
170
Temperature coefficient of VOE
TCVOE
mV/K
-0.075
0.075
-40 °C .. 105 °C
Offset drift referred to primary @ IP = 0 A
TCIOE
mA/K
-14.0625
14.0625
-40 °C .. 105 °C
Theoretical sensitivity
Gth
mV/A
Sensitivity error @ IPN
εG
%
-0.75
0.75
Factory adjustment, 1 turn
configuration, 4 jumpers in //
TCG
ppm/K
-200
200
-40 °C .. 105 °C
Temperature coefficient of G
-40 °C .. 105 °C
800 mV@ IPN
5.333
Linearity error 0 .. IPN
εL
% of IPN
-0.4
0.4
Linearity error 0 .. IPM
εL
% of IPM
-0.5
0.5
Magnetic offset current (@10 × IPN)
referred to primary
IOM
A
-0.8
0.8
Reaction time @ 10 % of IPN
tra
µs
One turn
2
@ 50 A/µs
2.5
@ 50 A/µs
Response time @ 90 % of IPN
tr
µs
Frequency bandwidth (-3 dB)
BW
kHz
Output rms voltage noise (spectral
density)
(100 Hz .. 100 kHz)
eno
µV/√Hz
Output voltage noise
(DC .. 10 kHz)
(DC .. 100 kHz)
(DC .. 1 MHz)
Vno
mVpp
A
2.64 x IPN
Accuracy @ IPN
X
% of IPN
-1.15
1.15
Accuracy @ IPN @ TA = +105 °C
X
% of IPN
-3.55
3.55
See formula note 4)
Accuracy @ IPN @ TA = +85 °C
X
% of IPN
-3.15
3.15
See formula note 4)
Over-current detect
Notes:
350
5.2
3.2
7.3
14.3
2.93 x IPN
3.22 x IPN
Peak value ±10 %
Magnetic core temperature remaining equal or less than ambiant temperature TA
3.3 V SP version available
3)
EEPROM in an error state makes the transducer behave like a reverse current saturation. Use of the OCD may help to
differentiate the two cases 4)
1)
2)
4)
TCIOE
Accuracy @ X TA (% of IPN) = X + ( TCG · (TA - 25) +
· 100 · (TA - 25)).
10000
1000·IP
25July2014/Version 1
LEM reserves the right to carry out modifications on its transducers, in order to improve them, without prior notice
Page 6/12
www.lem.com
HO 40 .. 150-NP series
HO-NP series, measuring range versus external reference voltage
HO 40-NP
300
200
I (A)
100
Uc = 5 V
Uc = 4.75 V
Uc = 4.6 V
P
0
-100
-200
-300
0.5
1
1.5
2
2.5
V (V)
ref
HO 60-NP
400
300
Uc = 5 V
Uc = 4.75 V
Uc = 4.6 V
100
0
P
I (A)
200
-100
-200
-300
-400
0.5
1
1.5
2
2.5
V (V)
ref
HO 120-NP
400
Uc = 5 V
Uc = 4.75 V
Uc = 4.6 V
300
100
0
P
I (A)
200
-100
-200
-300
-400
0.5
1
1.5
2
2.5
V (V)
ref
HO 150-NP
400
Uc = 5 V
Uc = 4.75 V
Uc = 4.6 V
300
100
0
P
I (A)
200
-100
-200
-300
-400
0.5
1
1.5
2
2.5
V (V)
ref
Page 7/12
25July2014/Version 1
LEM reserves the right to carry out modifications on its transducers, in order to improve them, without prior notice
www.lem.com
HO 40 .. 150-NP series
Maximum continuous DC current
For all ranges:
200
HO 40-NP
HO 60-NP
HO 120-NP
HO 150-NP
100
P
I (A)
150
50
0
-40
-20
0
20
40
60
80
100
120
140
TA(°C)
Important notice: whatever the usage and/or application, the transducer jumper temperature shall not go above the maximum
rating of 120 °C as stated in page 2 of this datasheet.
Page 8/12
25July2014/Version 1
LEM reserves the right to carry out modifications on its transducers, in order to improve them, without prior notice
www.lem.com
HO 40 .. 150-NP series
HO-NP series: name and codification
HO family products may be ordered on request 1) with a dedicated setting of the parameters as described below
(standards products are delivered with the setting 0100 according to the table).
HO-NP-XXXX
Internal reference
0
2.5 V
1
1.65 V
2
1.5 V
3
0.5 V
4
External Vref only
Response time
0
3.5 µs
1
2.5 µs
2
6 µs
EEPROM Control
0
YES
1
NO
Over current detection (× IPN )
0
2.93
1
3.59
2
3.99
3
4.77
4
5.19
5
5.76
6
1.68
7
2.35
Standards products are:
- HO 40-NP-0100
- HO 60-NP-0100
- HO 120-NP-0100
- HO 150-NP-0100
HO-NP series: output compatibility with HAIS Series
Reference
IPN (A)
IPM (A)
IPM / IPN
Vout - Vout
@ IPN (V)
Reference
IPN (A)
IPM (A)
IPM / IPN
Vout - Vout
@ IPN (V)
HO 40-NP
40
100
2.5
0.8
HO 60-NP
60
150
2.5
0.8
HAIS 50-TP
50
150
3
0.625
HAIS 100-TP
100
300
3
0.625
HO 120-NP
120
300
2.5
0.8
HO 150-NP
150
375
2.5
0.8
The HO-NP gives the same output levels as the HAIS-TP referring to the HAIS nominal currents.
This allows easier replacement of HAIS by HO-NP in existing applications.
Note: 1) For dedicated settings, minimum quantities apply, please contact your local LEM support.
Page 9/12
25July2014/Version 1
LEM reserves the right to carry out modifications on its transducers, in order to improve them, without prior notice
www.lem.com
HO 40 .. 150-NP series
Application information
Possibilities between range selection and number of turns 1) 2)
Number of primary turns
Primary current
IPN = 40 A
IPN = 60 A
IPN = 120 A
IPN = 150 A
1
40 A
60 A
120 A
150 A
2
20 A
30 A
60 A
75 A
4
10 A
15 A
30 A
37.5 A
Connection diagram
Number of
primary turns
Primary resistance
current rms
RP (mΩ) @ TA = 25 °C
1
0.09
2
4
Recommended connections
10
11
12
13
9
10
8
11
7
12
6
13
9
10
8
11
7
12
6
13
9
8
7
6
0.36
1.45
Notes: 1) The standard configuration is with all jumpers in // (1 primary turn) which is the only one calibrated and guaranteed by LEM.
The sensitivity may change slightly for all other configurations, therefore, LEM advises the user to characterize any specific
configuration.
2)
The maximum magnetic offset referred to primary is inversely proportional to the number of turns, thus is divided by 2 with 2 turns
and by 4 with 4 turns.
Definition of typical, minimum and maximum values
Minimum and maximum values for specified limiting and safety conditions have to be understood as such as well as values
shown in “typical” graphs.
On the other hand, measured values are part of a statistical distribution that can be specified by an interval with upper and lower
limits and a probability for measured values to lie within this interval.
Unless otherwise stated (e.g. “100 % tested”), the LEM definition for such intervals designated with “min” and “max” is that the
probability for values of samples to lie in this interval is 99.73 %.
For a normal (Gaussian) distribution, this corresponds to an interval between -3 sigma and +3 sigma. If “typical” values are not
obviously mean or average values, those values are defined to delimit intervals with a probability of 68.27 %, corresponding to
an interval between -sigma and +sigma for a normal distribution.
Typical, maximal and minimal values are determined during the initial characterization of a product.
Remark
Installation of the transducer must be done unless otherwise specified on the datasheet, according to LEM Transducer Generic
Mounting Rules. Please refer to LEM document N°ANE120504 available on our Web site: Products/Product Documentation.
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www.lem.com
HO 40 .. 150-NP series
PCB Footprint in mm. general tolerance ±0.3 mm)
(Layout example with 4 jumpers in //
Assembly on PCB
• Recommended PCB hole diameter
• Maximum PCB thickness
• Wave soldering profile
No clean process only
2.15 mm for primary pin
0.9 mm for secondary pin
2.4 mm
maximum 260 °C, 10 s
Insulation distance (nominal values):
dCp
dCI
On PCB: A - B
11.65 mm
-
Between jumper and secondary terminal
13.08 mm
13.65 mm
Between core and PCBA
13.56 mm
-
Safety
This transducer must be used in limited-energy secondary circuits according to IEC 61010-1.
This transducer must be used in electric/electronic equipment with respect to applicable standards and safety requirements in
accordance with the manufacturer’s operating instructions.
Caution, risk of electrical shock.
When operating the transducer, certain parts of the module can carry hazardous voltage (e.g. primary bus bar, power supply).
Ignoring this warning can lead to injury and/or cause serious damage.
This transducer is a build-in device, whose conducting parts must be inaccessible after installation.
A protective housing or additional shield could be used.
Main supply must be able to be disconnected.
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HO 40 .. 150-NP series
Dimensions HO-NP series (mm, general linear tolerance ±0.3 mm)
Connection
Ip
Vref
Vout
UC
Remark:
●● VOUT is positive with respect to Vref when positive IP flows in direction of the arrow shown on the drawing
above.
Page 12/12
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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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