Mainly used for stationary operation in industrial
applications:
•
AC variable speed drives and servo motor
drives
•
Static converters for DC motor drives
•
Battery supplied applications
•
Switched Mode Power Supplies (SMPS)
•
Power Supplies for welding applications
•
Uninterruptable Power Supplies (UPS)
Electrical data – Ratings
I
PN
R
M
I
SN
K
N
1)
Primary nominal r.m.s. current
Measuring resistance V
C
=± 12V
V
C
=± 15V
Secondary nominal r.m.s. current
Turns ratio
1)
100
10 ... 200
10 … 400
66.7
1…3 : 1500
min.
±165
±208
0.1
0.02
500
200
DC...200
min.
-40
-40
typ.
max.
+70
+90
0.5
0.1
0.1
typ.
max.
A
Ω
Ω
mA
Accuracy – Dynamic performance data
I
P,max
Unit
A
A
%
%
mA
ns
ns
kHz
Unit
°
C
°
C
g
V
mA
X
ε
L
I
0
t
r
∆t
(I
P,max
)
f
General data
T
A
T
S
m
V
C
I
C
1)
Max. measuring range
@ V
C
= ±12V, R
M
= 10
Ω
(t
max
= 10sec)
@ V
C
= ±15V, R
M
= 10
Ω
(t
max
= 10sec)
Accuracy @ I
PN
, T
A
= 25°
C
Linearity
Offset current @ I
P
=0, T
A
= 25°
C
Response time
Delay time at di/dt = 100 A/µs
Frequency bandwidth
S
clear
S
creep
V
sys
V
work
U
PD
Ambient operating temperature
Ambient storage temperature
Mass
13,5
Supply voltage
±11.4
±12 or ±15 ±15.75
Current consumption
18.5
Constructed and manufactored and tested in accordance with EN 61800-5-1
(Pin 1 - 6 to Pin 7 – 9)
Reinforced insulation, Insulation material group 1, Pollution degree 2
clearance
(component without solder pad)
10.2
mm
creepage
(component without solder pad)
10.2
mm
System voltage
overvoltage category 3
RMS
600
V
Working voltage (table 7 acc. to EN61800-5-1) RMS
1020
V
Rated discharge voltage
peak value
1400
V
RMS
600
V
AC
Max. potential difference acc. to UL 508
Date
18.04.13
28.01.08
Hrsg.:
editor
Name
KRe
Le
Isuue
81
81
Amendment
Mechanical outline: marking with UL-sign. and max. potential difference added. CN-662
Date changed. Insignificant
KB-E
Bearb:
designer
check
Copying of this document, disclosing it to third parties or using the contents there for any purposes without express written authorization by use illegally forbidden
Any offenders are liable to pay all relevant damages.
Le.
KB-PM IA: KRe.
freig.: HS
released
SPECIFICATION
V A C U U M S C H M E LZ E
Item no.:
T60404-N4646-X413
Date:
18.04.2013
K-No.: 24831
100 A Current Sensor
For the electronic measurement of currents:
DC, AC, pulsed, mixed ..., with a galvanic
Isolation between the primary circuit
(high power) and the secondary circuit
(electronic circuit)
Customer:
Standard type
33,25
2x2.54= 5,08
1,905
1,74
11,43
1,29
(2,64)
12,7
7
9
Customers Part no.:
General tolerances DIN ISO 2768-c
Tolerances grid distance
±0,2mm
Detail
Z
DC = Date Code
F= Factory
Page
2
of
2
Mechanical outline (mm):
Connections:
Z
4
6
1...6:
∅
1,5 mm
7...9: 0,6x0,7 mm
0,6
0,7
3
1
Marking:
Marking
14,45
2x2,54
7,75
7.6
21
UL-sign
4646X413
F
DC
3.5±0.5
0,65
3x0,7x0,6
6xØ1,5
Schematic diagram
Ip
1...3
+
8 + V
C
7 I
S
+
R
M
-
4...6
C
A
+
9 - V
C
M
Possibilities of wiring for V
C
= ±15V
(@ T
A
= 70°C, R
M
= 15 )
primary
primary current
windings
RMS maximal
N
P
I
P
[A] Î
P,max
[A]
output current turns ratio
RMS
I
S
(I
P
) [mA]
K
N
66.7
1:1500
primary
resistance
R
P
[mΩ]
Ω
0.12
wiring
.
1
100
208
>
>
>
1
6
1
6
3
.
2
35
104
46.7
2:1500
0.54
4
3
4
3
4
>
>
>
.
.
.
.
3
25
69
50
3:1500
1.1
1
6
.
Temperature of the primary conductor should not exceed 100°
C.
Additional information is obtainable on request.
This specification is no declaration of warranty acc. BGB §443 dar.
Hrsg.:
editor
.
.
.
KB-E
Bearb:
designer
check
Copying of this document, disclosing it to third parties or using the contents there for any purposes without express written authorization by use illegally forbidden
Any offenders are liable to pay all relevant damages.
Le.
KB-PM IA: KRe.
freig.: HS
released
Additional Information
V A C U U M S C H M E LZ E
Item No.:
T60404-N4646-X413
Date:
18.04.2013
K-No.: 24831
100 A Current Sensor
For electronic current measurement:
DC, AC, pulsed, mixed ..., with a galvanic
isolation between primary circuit
(high power) and secondary circuit
Customer:
ME
A=km
1=St
2=kg
3=g
4=l
5=m
6=m²
7=m³
8=mm
9:Paar
Customers Part No.:
1)
Page
typ.
max.
±18
88
0.36
0.1
0.12
0.04
0.04
0.03
1
of
Unit
V
Ω
mΩ
%
mA
mA
mA
mA
mA/V
mA
mA
mA
pF
3
Electrical Data (investigate by a type checking)
V
Ctot
R
S
R
p
X
Ti
I
0ges
I
0t
I
0T
I
0H
∆I
0
/∆V
C
i
oss
i
oss
i
oss
C
k
min.
Maximum supply voltage
(without function)
±15.75 … ±18 V: for 1s per hour
Secondary coil resistance @ T
A
=70°
C
Primary coil resistance per turn @ T
A
=25°
C
Temperature drift of X @ T
A
= -40 ... +70 °
C
Offset current (including I
0
, I
0t
, I
0T
)
Long term drift Offset current I
0
Offset current temperature drift I
0
@ T
A
= -40 ...+70°
C
Hyteresis current @ I
P
=0
(caused by primary current 3 x I
PN
)
Supply voltage rejection ratio
Offset ripple* (with1 MHz- filter first order)
Offset ripple* (with 100 kHz- filter first order)
Offset ripple* (with 20 kHz- filter first order)
Maximum possible coupling capacity (primary – secondary)
Mechanical Stress according to M3209/3
Settings: 10 – 2000 Hz, 1 min/Oktave, 2 hours
An exceptionally high rate of on/off – switching of the supply voltage
accelerates the aging process of the sensor.
0.035
0.009
5
0.07
0.01
0.15
0.05
0.012
10g
Inspection
1)
(
Measurement after temperature balance of the samples at room temperature)
(V)
(V)
(V)
M3011/6
M3226
M3014
Transformation ratio (I
P
=3*10A, 40-80 Hz)
Offset current
Test voltage, rms, 1s
Pin 1 - 6 to Pin 7 - 9
K
N
(N
1
/N
2
)
I
0
V
P,eff
V
e
1…3 : 1500
±
0.5 %
< 0.07
mA
2.5
kV
1500
1875
V
V
(AQL 1/S4)
Partial discharge voltage acc. M3024 (RMS)
with V
vor
(RMS)
Type Testing
(Pin 1 - 6 to Pin 7 – 9)
Designed according standard EN 61800 with insulation material group 1
V
W
HV transient test according (to M3064)
(1,2 µs / 50 µs-wave form)
V
d
Testing voltage acc. M3014 (RMS)
V
e
Partial discharge voltage acc. M3024 (RMS)
with V
vor
(RMS)
8
(5 s)
5
1500
1875
kV
kV
V
V
Datum
18.04.13
28.01.08
Hrsg.:
editor
Name
KRe.
Le
Index
81
81
Änderung
Applicable document: further standards added. CN-662
Page 3: write error in X
ges
(I
PN
). changed. Insignificant
KB-E
Bearb:
designer
check
Weitergabe sowie Vervielfältigung dieser Unterlage, Verwertung und Mitteilung ihres Inhalts
nicht gestattet, soweit nicht ausdrücklich zugestanden. Zuwiderhandlungen verpflichten zu
Schadenersatz. Alle Rechte für den Fall der Patenterteilung oder GM-Eintragung vorbehalten
Le.
KB-PM IA: KRe.
freig.: HS
released
Copying of this document, disclosing it to third parties or using the contents there for any
purposes without express written authorization by use illegally forbidden.
Any offenders are liable to pay all relevant damages.
Additional Information
V A C U U M S C H M E LZ E
Item No.:
T60404-N4646-X413
Date:
18.04.2013
K-No.: 24831
100 A Current Sensor
For electronic current measurement:
DC, AC, pulsed, mixed ..., with a galvanic
isolation between primary circuit
(high power) and secondary circuit
Customer:
ME
Limit curve of measurable current Î
P
(R
M
)
1)
Customers Part No.:
Page
1)
2
of
3
Maximum measuring range (µs-range)
C
A=km @ ambient temperature T
A
≤
85 °
1=St
2=kg
N
P
* Î
P
[A]
3=g
250
4=l
5=m
200
6=m²
V
C
= +/-15V - 5%
7=m³
8=mm
150
9:Paar
Output current behaviour of a 3kA current pulse
@ V
C
= ±15V und R
M
= 25
I [A]
1000
800
600
400
100
50
0
0
20
40
60
80 100 120 140 160 180 200 220 240
R
M
[ ]
V
C
= +/-12V - 5%
200
0
-200
0
1
2
Ip [A]
Ia / KN [A]
3
t [µs]
Fast increasing currents (higher than the specified I
p,max
), e.g. in case
of a short circuit, can be transmitted because the currents are
transformed directly.
The offset ripple can be reduced by an external low pass. Simplest solution is a passive low pass filter of 1st order with
f
g
=
1
2
π
⋅
R
M
⋅
C
a
In this case the response time is enlarged.
It is calculated from:
′
t
r
≤
t
r
+
2,5
R
M
C
a
Applicable documents
Current direction: A positive output current appears at point I
S
, by primary current in direction of the arrow.
Constructed and manufactored and tested in accordance with EN 61800.
Further standards UL 508 ; file E317483, category NMTR2 / NMTR8
Hrsg.:
editor
KB-E
Bearb:
designer
check
Weitergabe sowie Vervielfältigung dieser Unterlage, Verwertung und Mitteilung ihres Inhalts
nicht gestattet, soweit nicht ausdrücklich zugestanden. Zuwiderhandlungen verpflichten zu
Schadenersatz. Alle Rechte für den Fall der Patenterteilung oder GM-Eintragung vorbehalten
Le.
KB-PM IA: KRe.
freig.: HS
released
Copying of this document, disclosing it to third parties or using the contents there for any
purposes without express written authorization by use illegally forbidden.
Any offenders are liable to pay all relevant damages.
Additional Information
V A C U U M S C H M E LZ E
Item No.:
T60404-N4646-X413
Date:
18.04.2013
K-No.: 24831
100 A Current Sensor
For electronic current measurement:
DC, AC, pulsed, mixed ..., with a galvanic
isolation between primary circuit
(high power) and secondary circuit
Customer:
ME
A=km
1=St
2=kg
3=g
4=l
5=m
6=m²
7=m³
8=mm
9:Paar
Customers Part No.:
Page
3
of
3
I
0H
:
I
0t
:
t
r
:
∆t
(I
Pmax
):
X
ges
(I
PN
):
Zero variation of I
o
after overloading with a DC of tenfold the rated value (R
M
= R
MN
)
Long term drift of I
o
after 100 temperature cycles in the range -40 bis 85 °
C.
Response time (describe the dynamic performance for the specified measurement range), measured as delay time
.
at I
P
= 0,9 I
Pmax
between a rectangular current and the output current.
Delay time (describe the dynamic performance for the rapid current pulse rate e.g short circuit current)
measured between I
Pmax
and the output current i
a
with a primary current rise of di
1
/dt = 100 A/µs.
The sum of all possible errors over the temperature range by measuring a current I
PN
:
X
ges
=
100
⋅
X:
I
S
(
I
PN
)
−
1
K
N
⋅
I
PN
%
Permissible measurement error in the final inspection at RT, defined by
X
=
100
⋅
I
SB
−
1
%
I
SN
where I
SB
is the output DC value of an input DC current of the same magnitude as the (positive) rated current (I
o
= 0 )
X
Ti
:
Temperature drift of the rated value orientated output term. I
SN
(cf. Notes on F
i
) in a specified temperature range,
obtained by:
X
Ti
=
100
⋅
ε
L
:
I
SB
(
T
A2
)
−
I
SB
(
T
A1
)
I
SN
ε
L
=
100
⋅
%
Linearity fault defined by
I
I
P
−
Sx
I
PN
I
SN
%
Where I
P
is any input DC and I
Sx
the corresponding output term. I
SN
: see notes of F
i
(I
o
= 0).
This “Additional information“ is no declaration of warranty according BGB §443.
Hrsg.:
editor
KB-E
Bearb:
designer
check
Weitergabe sowie Vervielfältigung dieser Unterlage, Verwertung und Mitteilung ihres Inhalts
nicht gestattet, soweit nicht ausdrücklich zugestanden. Zuwiderhandlungen verpflichten zu
Schadenersatz. Alle Rechte für den Fall der Patenterteilung oder GM-Eintragung vorbehalten
Le.
KB-PM IA: KRe.
freig.: HS
released
Copying of this document, disclosing it to third parties or using the contents there for any
purposes without express written authorization by use illegally forbidden.
Any offenders are liable to pay all relevant damages.
Hello everyone, I recently used CCS to debug the 8168 bare board, and there were some inexplicable problems. The code is as follows: #define I2C0_BASE 0x48028000 #define I2C0_CON *( Uint32* )( I2C0_BA...
Development History of Access Control Communication Methods RS232 Serial Communication Stage More than 20 years ago, with the vigorous development of computers, computer software, and single-chip micr...
I don't know if you guys in Beijing have ever experienced Xi'erqi during rush hour. It's OK when there are men all around you on the train, and you can squeeze in with your body, even if you are press...
[align=left][b][color=#0000ff]From the netizen: anvy178 asked: [/color]What is the internal cultural atmosphere of TI? How is the distribution of talents? What is the main educational background? [/b]...
[size=4]DSP control programs for several asynchronous motors, introduction to DSP applications and application example programs[/size][size=4] [/size] [size=4] [/size] [size=4][/size]...
In recent years, with the increasing demand for manufacturing and automated production management, industrial barcode scanners have gradually become an indispensable part of the industrial manufact...[Details]
Flip-chip and ball grid array (BGA) are two widely used packaging technologies in the electronics industry. Each has its own advantages and limitations, and in some cases, they can complement each ...[Details]
According to foreign media reports, BMW has just been granted a patent for a screen that could cover the entire roof. BMW hopes to transform at least a portion of the vehicle's headliner into a dis...[Details]
Recently, South Korean robotics giant WIRobotics launched its first general-purpose humanoid robot, ALLEX, at the Robotics Innovation Center (RIH) at the Korea University of Science and Technology....[Details]
One of the most core components of electric vehicles is the motor. The power supply provides electrical energy to the motor, which converts this electrical energy into mechanical energy, which in t...[Details]
China, August 21, 2025 – STMicroelectronics (NYSE: STM), a world-leading semiconductor company serving a wide range of electronics applications, has published its IFRS 2025 semi-annual financial re...[Details]
Tools/Materials
Yitong Chuanglian MODBUS to PROFIBUS Gateway YT-PB-03
Siemens s7-300
This article describes how to configure the YT-PB-03 MODBUS to PROFIBUS gat...[Details]
For today's new energy vehicles, they have different configurations from fuel vehicles, and some configurations have also become a selling point for manufacturers. Compared with traditional vehicle...[Details]
Electric vehicles will revolutionize transportation, changing fuel consumption, carbon emissions, costs, maintenance, and driving habits. Currently, a major selling point for electric vehicles is t...[Details]
introduction
With the development of society, people's requirements for the quality of refrigerated and frozen foods are constantly improving. The changes in food appearance and nutritional co...[Details]
introduction
The rapid adoption of computers has led to a growing number of tasks being performed on them. People from all walks of life, especially programmers and writers, are spending incre...[Details]
Definitions of VR
, AR, and MR:
What is Virtual Reality?
Virtual Reality (VR), also known as "spiritual realm" or "illusion," is a high-tech technology that has emerged in recent ye...[Details]
The Waveshare ESP32-P4-ETH is a compact ESP32-P4 development board with Ethernet and PoE support. It looks very similar to the Olimex ESP32-P4-DevKit, minus the pUEXT connector. However, we've also...[Details]
Pure electric vehicles have experienced rapid growth in recent years, and many consumers now consider them as a top choice when purchasing a car. But do you know how to choose a satisfactory and sa...[Details]
Which is better, copper braided wire flexible connector or copper stranded wire flexible connector? When choosing copper wire flexible connector, people always struggle with whether to use copper b...[Details]
Embedded System
京公网安备 11010802033920号
EEWORLD
