e-series magnetostrictive displacement sensor - … eh series magnetostrictive displacement sensor...
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Magnetostrictive displacement sensor
E-series
TM
E.01
The EH series magnetostrictive displacement sensor features
a prominent external housing structure. Its sophisticated
mechanical structure is made of durable aluminum while the
modular shape allows for easy installation. The sliding magnet
runs on an external track. The moving parts are connected by
the ball hinge arm of bear axial force.
Magnetostrictive displacement sensor – a non-contact alternative to contacting transducers.
10 V
U+
Analog V/A
U-
UREF
Connection scheme potentiometer, block diagram.
Magnetostrictive displacement sensor connections, block diagram.
U+
Analog V/A
U-
≈
24 V
GND
Analog
·Linear, Absolute Measurement
·Non-Contact Sensing Technology
·Rugged industrial sensor
·EMC shielded and CE certification
·Linearity Deviation::±0.02% F.S.
·Repeatability:±0.001% F.S.
Prominent structure of the shell with oriented positioning magnet
EH -series Analog output
E.02
0…+10 V / +10…0 V
—
—
—
—16 bit D/A,0.0015%(min.1μm)
Max.5 mA
[150 μV/°C+(5 ppm/°C×P×U/L)]×△T
16 bit D/A,0.0015%(min.1μm)
≤ 500Ω
≤ 4 μm
fstandard=1kHz
<±0.02% F.S.(min.±60um)
<±0.001%F.S.
≤150 mA
12…30V DC
-40°C…+85°C (Customized 105°C)
-40°C…+100°C
50~4000 mm
100g/6 ms as per IEC 60068-2-27
15g/10-2000Hz per IEC 60068-2-6
YES
TransZorb protection diodes
500 V (GND to housing)
IP67
Anodized aluminum
Connector
Mounting kit
EMC testing:
EN 55011 group 1, Grade A
IEC 61000-4-2,Severity level 3
IEC 61000-4-3,Severity level 3
IEC 61000-4-4,Severity level 4
IEC 61000-4-6,Severity level 3
4…20 mA / 20…4 mA
V
Analog
Analog
A
Analog
Analog
10V
0V0 smax
UA[V]
UA
UA
20mA
4mA0mA
0 smax
IA[mA]
IA
IA
[0.6 μA/°C+(10 ppm/°C×P×I/L)]×△T
Ordering example
Example:EH-0050-D801-V01
EH EH -Series Magnetostrictive Displacement Sensor0050
D801
V01
Standard nominal stroke (mm):0050=50mm
Connector:·D801=8 PIN ; 12…30V DC
Output:·V01=0…+10V ·V02=+10…0V ·A01=4…20mA ·A02=20…4mA
Transducer interface
Output signal
Input interface
Output voltage
Output current
Resolution
Load current
Load resistance
Temperature coefficient
Hysteresis
Sampling rate
Linearity deviation
Repeat accuracy
Current consumption
Supply voltage
Operating temperature
Storage temperature
Stroke length:
Shock load
Vibration
Polarity reversal protected
Over voltage protected
Dielectric strength
Degree of protection
Housing material
Connection
Install
EMC testing
Radio interference emission
Static electricity (ESD)
Electromagnetic fields (RFI)
Rapid, transient electrical
pulses (burst)
Conducted interference induced
by high-frequency fields
E.03
Standard SSI interface
Synchronous serial data transmission works with controllers
from various manufacturers, including Siemens, Bosch
Rexroth,WAGO, B & R, Esitron, PEP and others
displays/controllers.
Reliable signal transmission, even with cable lengths of up to
400m between controller and EH -transducer, is assured by
interruptionfree RS485/422 differential line drivers and
receivers. Any interference signals are effectively suppressed.
Synchronized SSI interface
magnetostrictive displacement sensor with
synchronized SSI interface are well suited for
dynamic control applications. Data acquisition in the
sensor is synchronized using the external clock of the
controller,allowing an optimum speed calculation to
be performed in the regulator/controller. A
prerequisite for this synchronous method of sensor
operation is the time stability of the clock signal.
The maximum sampling frequency fA, at which a new
current value is generated for each sample, can be
derived from the following table:
120 <
475 <
750 <
1250 <
2600 <
≤ 120 : 2500
≤ 475 : 2000
≤ 750 : 1500
≤ 1250 : 1000
≤ 2600 : 500
≤ 4000 : 333
mm mm Hz
Nominal stroke
Nominal stroke
Nominal stroke
Nominal stroke
Nominal stroke
Nominal stroke
Clock frequency depends on the cable length.
< 25 m
< 50 m
< 100 m
< 200 m
< 400 m
< 1000 kHz
< 500 kHz
< 400 kHz
< 200 kHz
< 100 kHz
Cable lengt Clock frequency
EH…with controller / processor connection example
Controller or processor
EH……magnetostrictive displacement sensor
+Clk
-Clk
+Data
-Data
GND
12…30 V
BlueCanaryyellow
Yellow
Grey
Black
White
EH -series SSI outputProminent structure of the shell with oriented positioning magnet
·Linear, Absolute Measurement
·Non-Contact Sensing Technology
·Rugged industrial sensor
·EMC shielded and CE certification
·Linearity Deviation::±0.01% F.S.
·Repeatability:±0.001% F.S.
E.04
Resolution
Temperature coefficient
Hysteresis
Sampling rate
Linearity deviation
Repeat accuracy
Supply voltage
Current consumption
Operating temperature
Storage temperature
Stroke length
Data rate
Shock load
Vibration
Polarity reversal protected
Over voltage protected
Dielectric strength
Degree of protection
Housing material
Connection
Install
EMC testing
Radio interference emission
Static electricity (ESD)
Electromagnetic fields (RFI)
Rapid, transient electrical
pulses (burst)
Conducted interference induced
by high-frequency fields
1μm,2μm,5μm,10μm,20μm,40μm
(6 μm+5 PPM×L)/°C
≤5μm / ±1 digit
fstandard=2kHz
<±0.01% F.S.(min.±50um)
<±0.001%F.S.
12…30 V DC
≤150mA
-40°C…+85°C(Customized 105°C)
-40°C…+100°C
50~4000 mm
Line length:<3 <50 <100 <200 <400 m
Rate: 1000 <400 <300 <200 <100 kBd
100g/6 ms as per IEC 60068-2-27
15g/10-2000Hz per IEC 60068-2-6
YES
TransZorb protection diodes
500 V (GND to housing)
IP67
Anodized aluminum
Connector
Mounting kit
EMC testing:
EN 55011 group 1, Grade A
IEC 61000-4-2,Severity level 3
IEC 61000-4-3,Severity level 3
IEC 61000-4-4,Severity level 4
IEC 61000-4-6,Severity level 3
SSI
Synchronous-serial
Synchronous-serial
1
MSB LSBout of range
tv
2 3 4 23 24
t tm
Clock pulse sequence
+Clk
+Data
Example:EH-0050-D801-S002
EH
0050
D801
S Output Signal:·S= SSI
02
0 Code:·0=Binary code rising (24-bit) ·1=Gray code rising (24-bit)
Resolution:·01=1μm ·02=2μm ·05=5μm ·10=10μm ·20=20μm ·40=40μm
·6=Binary code rising (25-bit) ·7=Gray code rising (25-bit)·T=Other figures, can be customized
Transducer interface
Output signal
input interface
Ordering example
EH -Series Magnetostrictive Displacement Sensor
Standard nominal stroke (mm):0050=50mm
Connector:·D801=8 PIN ; 12…30V DC
E.05
Based on CAN (ISO/IEC 7498 and DIN ISO 11898),
CANopen provides a Layer-7 implementation for
industrial CAN networks. The serial data protocol of
the CAN specification is defined according to the
producer-consumer principle as opposed to most other
fieldbus protocols. This eliminates target addressing of
the process data. Each bus station decides for itself
how the received data is processed.
The CANopen interface of the magnetostrictive
displacement sensor is compatible with CANopen
conforming with CiA Standard DS301 Rev. 3.0, and
with CAL and Layer 2 CAN networks.
The features of CAN bus
-Linear topology,such as using a repeater can be used
star structure.
-Low-cost wiring with two-wire cable
-Fast response times
-High data security due to CRC checking
-Hamming distance of 6
-1 Mbps at cable length < 25 m
-Protocol limits number of nodes to 127
CANopen offers a high level of flexibility in
configuration functionality and data exchange. Using a
standard data sheet in the form of an EDS file, it is
easy to link the magnetostrictive displacement sensor
to any CANopen system.
Process Data Object (PDO)
Twelve magnetostrictive displacement sensors send
their measured values optionally in one, two or four
PDOs with 8 bytes of data each. The contents of the
PDOs are freely configurable. The following
information can be sent:
-The current magnet with a resolution in 5 μm
increments.
-Current speed of the magnet, with resolution
selectable in 0.1mm/s increments.
Synchronization Object (SYNC)
SYNC serves as a network-wide trigger for
synchronizing all network nodes. When the SYNC
object is received, all magnetostrictive displacement
sensors connected to the bus store their current
position and velocity information and then send it
sequentially to the controller. This assures
time-synchronous acquisition of the measured values.
Emergency Object
This object is sent with the highest priority and is
used, for example,for error messages when tahe cam
states change.
Service Data Object (SDO)
Service Data Objects transmit the configuration
parameters to the transducer. The transducer may be
configured on the bus by the controller or offline with
a bus analyzer/CANopen tool. The configuration is
stored in the non-volatile memory of the transducer.
EH -series CANopen outputProminent structure of the shell with oriented positioning magnet
·Linear, Absolute Measurement
·Non-Contact Sensing Technology
·Rugged industrial sensor
·EMC shielded and CE certification
·Linearity Deviation::±0.01% F.S.
·Repeatability:±0.001% F.S.;
E.06
1μm,2μm,5μm,10μm
(6 μm+5 PPM×L)/°C
≤1 digit
fstandard=1kHz
<±0.01% F.S.(min.±50um)
<±0.001%F.S.
12…30 V DC
≤150 mA
-40°C…+85°C(Customized 105°C)
-40°C…+100°C
50~4000 mm
<25 <50 <100 <250 <500 <1000 <1250 <2500
1000 800 500 250 125 100 50 20/10
100g/6 ms as per IEC 60068-2-27
15g/10-2000Hz per IEC 60068-2-6
YES
TransZorb protection diodes
500 V (GND to housing)
IP67
Anodized aluminum
Connector
Mounting kit
EMC testing:
EN 55011 group 1, Grade A
IEC 61000-4-2,Severity level 3
IEC 61000-4-3,Severity level 3
IEC 61000-4-4,Severity level 4
IEC 61000-4-6,Severity level 3
CANopen
CANopen
CANopen
Bit-Stuffing
RTR-Bit(Remote-Transmission-Request)recessive
Delimiting Bits
dominant
Numberof bits 1 11 1 1 1 1 7 36 150…8 byte
Data Field
Start-of-Message-Bit
object-identifier
Arbitration Field
Control Field ACK SlotEnd-of-MessageField
IntermissionField
CRC-Field
Acknowledge-Field
Data Frame
Example:EH-0050-D801-C0110EH0050D801C Output Signal:·C= CANopen
1
0
01Baud rate:·0=1Mbps ·1=800kbps ·2=500kbps ·3=250kbps ·4=125kbps ·5=100kbps ·6=50kbps ·7=20kbps ·8=10kbps
Resolution:·01=1μm ·02=2μm ·05=5μm ·10=10μm
Resolution
Temperature coefficient
Hysteresis
Sampling rate
Linearity deviation
Repeat accuracy
Supply voltage
Current consumption
Operating temperature
Storage temperature
Stroke length
Cable length [m]
Baud rate [kbps]
Shock load
Vibration
Polarity reversal protected
Over voltage protected
Dielectric strength
Degree of protection
Housing material
Connection
Install
EMC testing
Radio interference emission
Static electricity (ESD)
Electromagnetic fields (RFI)
Rapid, transient electrical
pulses (burst)
Conducted interference induced
by high-frequency fields
Transducer interface
Output signal
input interface
Ordering example
EH -Series Magnetostrictive Displacement SensorStandard nominal stroke (mm):0050=50mmConnector:·D801=8 PIN ; 12…30V DC
Termination resistors·0=NO ·1=YES
E.07
·Linear, Absolute Measurement
·Non-Contact Sensing Technology
·Rugged industrial sensor
·EMC shielded and CE certification
·Linearity Deviation::±0.01% F.S.
·Repeatability:±0.001% F.S.
Based on CAN (ISO/IEC 7498 and DIN ISO 11898),
CANopen provides a Layer-7 implementation for
industrial CAN networks. The serial data protocol of
the CAN specification is defined according to the
producer-consumer principle as opposed to most other
fieldbus protocols. This eliminates target addressing of
the process data. Each bus station decides for itself
how the received data is processed.
The CANopen interface of the magnetostrictive
displacement sensor is compatible with CANopen
conforming with CiA Standard DS301 Rev. 3.0, and
with CAL and Layer 2 CAN networks.
The features of CAN bus
-Linear topology,such as using a repeater can be used
star structure.
-Low-cost wiring with two-wire cable
-Fast response times
-High data security due to CRC checking
-Hamming distance of 6
-1 Mbps at cable length < 25 m
-Protocol limits number of nodes to 127
CANopen offers a high level of flexibility in
configuration functionality and data exchange. Using a
standard data sheet in the form of an EDS file, it is
easy to link the magnetostrictive displacement sensor
to any CANopen system.
Process Data Object (PDO)
Twelve magnetostrictive displacement sensors send
their measured values optionally in one, two or four
PDOs with 8 bytes of data each. The contents of the
PDOs are freely configurable. The following
information can be sent:
-The current magnet with a resolution in 5 μm
increments.
-Current speed of the magnet, with resolution
selectable in 0.1mm/s increments.
Synchronization Object (SYNC)
SYNC serves as a network-wide trigger for
synchronizing all network nodes. When the SYNC
object is received, all magnetostrictive displacement
sensors connected to the bus store their current
position and velocity information and then send it
sequentially to the controller. This assures
time-synchronous acquisition of the measured values.
Emergency Object
This object is sent with the highest priority and is
used, for example,for error messages when tahe cam
states change.
Service Data Object (SDO)
Service Data Objects transmit the configuration
parameters to the transducer. The transducer may be
configured on the bus by the controller or offline with
a bus analyzer/CANopen tool. The configuration is
stored in the non-volatile memory of the transducer.
Data transmission
A Profibus telegram can contain up to 244 bytes of
user data per telegram and node. The EH uses max.
32 bytes (max. 4 position values and max. 4 velocity
values) for process data transmission. Up to 126 active
stations (addresses 0...125) can be connected on
Profibus DP. User data cannot be sent with node
address 126. This address is used as the default
address for bus nodes that have to be configured by a
Class 2 master (for setting the device address if there
are no mechanical switches available). Each Profibus
station has the same priority. Prioritizing of individual
stations is not intended, but can be done by the
master since the bus transmission only makes up a
fraction of the process cycle anyway. At a transfer rate
of 12 mbaud, the transmission time for an average
data telegram is in the 100 μs range.
The master station
There are two types of PROFIBUS-DP master station.
To realize the user information and from stations
exchange a main station. Two class master used to
start and diagnostic control process and simple control
from the station.
From the station
PROFIBUS master received for the parameters
defining the settings from the station, you can
exchange information with each other. This parameter
contains the slave parameters and configuration data.
From the station parameters included from the station
set up the rules (such as position value resolution).
The configuration data in the provisions of the length
and structure of a data message.
GSD (device master data)
The length of the data exchangeable with a slave is
defined in the Device Master Data file (GSD) and is
checked by the slave with the configuration telegram
and confirmed for correctness. In modular systems,
various configurations are defined in the GSD file.
Depending on the desired functionality, one of these
configurations can be selected by the user when the
system is configured.
Process data
Under Profibus DP, by default, the process data is to
be sent from the master to slaves acyclically and for
the slave data to then be queried. To ensure
synchronization of multiple devices, the master may
use the SYNC and FREEZE services.
EH -series PROFIBUS-DP outputProminent structure of the shell with oriented positioning magnet
E.08
1μm,2μm,5μm,10μm
(6 μm+5 PPM×L)/°C
≤±1 digit
fstandard=1kHz
<±0.01% F.S.(min.±50um)
<±0.001% F.S.
12…30 V DC
≤150mA
-40°C…+85°C(Customized 105°C)
-40°C…+100°C
50~4000 mm
<100 <200 <400 <1000 <1200
12000 1500 900 187.5 93.7/19.2/9.6
100g/6 ms as per IEC 60068-2-27
15g/10-2000Hz per IEC 60068-2-6
YES
TransZorb protection diodes
500 V (GND to housing)
IP67
Anodized aluminum
Connector
Mounting kit
EMC testing:
EN 55011 group 1, Grade A
IEC 61000-4-2,Severity level 3
IEC 61000-4-3,Severity level 3
IEC 61000-4-4,Severity level 4
PROFIBUS-DP
PROFIBUS-DP
PROFIBUS-DP
SYZ SD2 SD2LE DA SA FC DU EDFCSLEr
SD2 SD2LE DA SA FC DU EDFCSLErDP-
Mas
ter
DP-
Sta
ve
SRD-Request,variable lenght of user data
SRD-Response,variable lenght of user data
Example:EH-0050-D801-P020EH0050D801P Output Signal:·P= PROFIBUS-DP02 Resolution:·01=1μm ·02=2μm ·05=5μm ·10=10μm0 Baud rate:·0=12000 kbps ·1=1500 kbps ·2=900 kbps ·3=187.5 kbps
·4=93.7/19.2/9.6 kbps
Resolution
Temperature coefficient
Hysteresis
Sampling rate
Linearity deviation
Repeat accuracy
Supply voltage
Current consumption
Operating temperature
Storage temperature
Stroke length
Cable length [m]
Baud rate [kbps]
Shock load
Vibration
Polarity reversal protected
Over voltage protected
Dielectric strength
Degree of protection
Housing material
Connection
Install
EMC testing
Radio interference emission
Static electricity (ESD)
Electromagnetic fields (RFI)
Rapid, transient electrical
pulses (burst)
Conducted interference induced
by high-frequency fields
Transducer interface
Output signal
input interface
EH -Series Magnetostrictive Displacement SensorStandard nominal stroke (mm):0050=50mmConnector:·D801=8 PIN ; 12…30V DC
Ordering example
E.09
EH Size chart
12 10 10
80(unusable area)
40
40(unusable area)Nominal stroke 50~4000
Nominal stroke 50~4000
M4
(M5×10)M6×10
28
354358
26.5
36.8
6268.5
33
EH wiring configuration
1
2
3
4
5
6
7
8
Voltage
Current
Color
SSI
Color
CANopen
Color
1
-
-
-
C-Canaryyellow
-
-
2
-
-
-
-
-
-
-
3
-
-
-
-
-
-
-
4
12…30 V
12…30 V
Brown
12…30 V
White
12…30 V
Brown
5
GND
GND
Grey
GND
Black
GND
Grey
6
0V
AGND
White
D-
Grey
CAN_H
White
7
0…+10 V / +10…0 V
4…20 mA / 20…4 mA
Yellow
D+
Yellow
CAN_L
Yellow
8
-
-
-
C+
Blue
-
-
pin
pin
Signal
Signal
1
2
3
4
5
6
7
8
10
40
3042
PROFIBUS-DP
Color
1
R×D/T×D-N
Yellow
2
R×D/T×D-N
White
3
DGnd
-
4
VP
-
5
12…30 V
Brown
6
0 V
Grey
7
-
-
8
-
-
Size:mm
Tolerance ISO 8015ISO 2768-mH<6mm:±0.2mm
80(unusable area)
40(unusable area)
E.10
Orderubg exampleExample:E-DH01-0075EDH01
D=Extension rodH=facilitatedJoint:·01= Straight corner joint bearing ·02= The ball joint bearing
0075 ·0075=75mm
EH Accessories
AccessoriesDescription
E-MH00-0001
Magnet
M5
28
3.3
22.614
17
E-B100-0001 E-FSC8-PG9
7.57.5
15
4.3
7
43
58
11.5
Extension rod selection
Example:E-C102-000LEC1
C=extension line
0L
0200
Extension line selection
Fisheye joint Universal jointExtension rod
(Right angle ball joint)Extension rod
(Ball joint)
Note: the extension order number, please refer to the E.10 page
M5
10 6
25.15
M6M6
M5
8
20
10
Extension rod
Extension rod
Custom
length
Custom
length
E-Y000-0001 E-W000-0001
It must be used for the extension rod
It must be used for the extension rod
ø17.8ø5
M5
33
M5
40
M6
40
E-Y000-0002 E-W000-0002
42 30
ø17.8ø5
M6
33
The order No.
The order No.
The order No.
Clamping bracket Plug
AccessoriesDescription
AccessoriesDescription
Fisheye joint Universal joint
It must not be used for the extension rod
It must not be used for the extension rod
E -Series
E -Series
Orderubg example
Left side interface: · 1 = 8 pin
Extension line’s length:· 01=1m · 02=2m …… · 30=30mRight side interface · 00=Don't need to joint · 01=custom designPlug type: · 0 = production since
Extension category: ·L = analog signal extension · C = CANopen special extension cord ·S = SSI special extension cord
E.11
The ER series magnetostrictive displacement sensor features
a built-in push-pull rod system. The stainless steel piston rod
is relatively thick and can withstand a significant amount of
the load. The piston is also rust-free which results in longevity
of usage. The sensor for the non-contact magnet is located at
the rear end of the piston rod and is protected by the
aluminum housing. This prevents environmental pollution
from affecting the performance.
ER type shell accord with IP67 standard and CE certification.
Built-in push-pull rod design
Analog
10 V
U+
Analog V/A
U-
UREF
U+
Analog V/A
U-
≈
24 V
GND
ER -series Analog output
·Solid aluminum cylinder push rod
·Linear, Absolute Measurement
·Non-Contact Sensing Technology
·Rugged industrial sensor
·EMC shielded and CE certification
·Linearity Deviation::±0.02% F.S.
·Repeatability:±0.001% F.S.
Magnetostrictive displacement sensor – a non-contact alternative to contacting transducers.
Connection scheme potentiometer, block diagram.Magnetostrictive displacement sensor connections, block diagram.
Example:ER-0050-D801-V01ER
0050D801V01
Connector:·D801=8 PIN ; 12…30V DC
Output:·V01=0…+10V ·V02=+10…0V ·A01=4…20mA ·A02=20…4mA
E.12
0…+10 V / +10…0 V
16 bit D/A,0.0015%(min.1μm) 16 bit D/A,0.0015%(min.1μm)
Max.5 mA
[150 μV/°C+(5 ppm/°C×P×U/L)]×△T
≤ 500Ω
≤ 4 μm
fstandard=1kHz
<±0.02% F.S.(min.±60um)
<±0.001% F.S.
≤150 mA
12…30V DC
-40°C…+85°C (Customized 105°C)
-40°C…+100°C
50~1500 mm
100g/6 ms as per IEC 60068-2-27
15g/10-2000Hz per IEC 60068-2-6
YES
TransZorb protection diodes
500 V (GND to housing)
IP67
Anodized aluminum
Connector
Mounting kit
EMC testing:
EN 55011 group 1, Grade A
IEC 61000-4-2,Severity level 3
IEC 61000-4-3,Severity level 3
IEC 61000-4-4,Severity level 4
IEC 61000-4-6,Severity level 3
4…20 mA / 20…4 mA
V
Analog
Analog
A
Analog
Analog
10V
0V0 smax
UA[V]
UA
UA
20mA
4mA0mA
0 smax
IA[mA]
IA
IA
[0.6 μA/°C+(10 ppm/°C×P×I/L)]×△T
——
——
Ordering example
ER -Series Magnetostrictive Displacement SensorStandard nominal stroke (mm):0050=50mm
Transducer interface
Output signal
Input interface
Output voltage
Output current
Resolution
Load current
Load resistance
Temperature coefficient
Hysteresis
Sampling rate
Linearity deviation
Repeat accuracy
Current consumption
Supply voltage
Operating temperature
Storage temperature
Stroke length:
Shock load
Vibration
Polarity reversal protected
Over voltage protected
Dielectric strength
Degree of protection
Housing material
Connection
Install
EMC testing
Radio interference emission
Static electricity (ESD)
Electromagnetic fields (RFI)
Rapid, transient electrical
pulses (burst)
Conducted interference induced
by high-frequency fields
E.13
ER Size chart
Magnet12 20 20
ER wiring configuration
1
-
-
-
2
-
-
-
3
-
-
-
4
12…30 V
12…30 V
Brown
5
GND
GND
Grey
6
0V
AGND
White
7
0…+10 V / +10…0 V
4…20 mA / 20…4 mA
Yellow
8
-
-
-
Magnet
Magnet Magnet
35
40.3
36.3
43
58M4
3042
20
1
2
3
4
5
6
7
8
Size:mm
Tolerance ISO 8015ISO 2768-mH<6mm:±0.2mm
40(unusable area)
80(unusable area) Nominal stroke 50~1500
40(unusable area)
80(unusable area) Nominal stroke 50~1500
Voltage
Current
Color
pinSignal
E.14
Example:E-C102-000LEC1
0L
0200
ø17.8ø5
M6
33
M6
40
E-Y000-0001 E-W000-0001
ER Accessories
E-B100-0001 E-FSC8-PG9
7.57.5
15
4.3
7
43
58
11.5
The built-in magnet without number, without selection
13.5
25.6
R6
ø5.5ø9.5
10.72.
33.
5
20.6
42 30
AccessoriesDescription
AccessoriesDescription
Magnet
Fisheye joint Universal joint
It must be used for the extension rod
It must be used for the extension rod
The order No.
The order No.
Clamping bracket Plug
C=extension line
Extension line selection
E -Series
Orderubg example
Right side interface · 00=Don't need to joint · 01=custom design
Plug type: · 0 = production since
Extension category: ·L = analog signal extension
Left side interface: · 1 = 8 pinExtension line’s length:· 01=1m · 02=2m …… · 30=30m
E.15
The EP series displacement sensor has a prominent structure
and non-contact position feedback components. These
features make the EP Series a superior alternative to the
potentiometer because it provides a higher level of protection,
longevity of use, as well as ease of installation.
Magnetostrictive displacement sensors are becoming standard
parts for the industry of high precision injection molding
machinery replacing the previously used potentiometer.
Despite a wide range of applications, magnetostrictive
displacement sensors are still relatively expensive. However,
the EP series Magnetostrictive displacement sensor is very
competitively priced to meet the requirements of the
industry. The EP Series magnetostrictive displacement sensor
has minimum downtime and applies to a variety of
applications ranging from airplanes to automobiles.
Analog
10 V
U+
Analog V/A
U-
UREF
U+
Analog V/A
U-
≈
24 V
GND
Freestyle
EP -series Analog output
·Solid aluminum cylinder push rod
·Linear, Absolute Measurement
·Non-Contact Sensing Technology
·Rugged industrial sensor
·EMC shielded and CE certification
·Not sensitive to impact and vibration
·Linearity Deviation:±0.02% F.S.
·Repeatability:±0.001% F.S.
Magnetostrictive displacement sensor – a non-contact alternative to contacting transducers.
Connection scheme potentiometer, block diagram. Magnetostrictive displacement sensor connections, block diagram.
E.16
Example:EP-0050-D401-V01EP EP-Series Magnetostrictive Displacement Sensor0050D401V01
Connector:·D401=4 PIN ; 12…30V DC
Output:·V01=0…+10V ·V02=+10…0V ·A01=4…20mA ·A02=20…4mA
0…+10 V / +10…0 V
16 bit D/A,0.0015%(min.1μm)
[150 μV/°C+(5 ppm/°C×P×U/L)]×△T
16 bit D/A,0.0015%(min.1μm)
≤ 500Ω
4…20 mA / 20…4 mA
10V
0V0 smax
UA[V]
UA
UA
20mA
4mA0mA
0 smax
IA[mA]
IA
IA
[0.6 μA/°C+(10 ppm/°C×P×I/L)]×△T
—
—
——
Transducer interface
Output signal
Input interface
Output voltage
Output current
Resolution
Load current
Load resistance
Temperature coefficient
Hysteresis
Sampling rate
Linearity deviation
Repeat accuracy
Current consumption
Supply voltage
Operating temperature
Storage temperature
Stroke length:
Shock load
Vibration
Polarity reversal protected
Over voltage protected
Dielectric strength
Degree of protection
Housing material
Connection
Install
EMC testing
Radio interference emission
Static electricity (ESD)
Electromagnetic fields (RFI)
Rapid, transient electrical
pulses (burst)
Conducted interference induced
by high-frequency fields
≤ 4 μm
fstandard=1kHz
<±0.02% F.S.(min.±60um)
<±0.001% F.S.
≤150 mA
12…30V DC
-40°C…+85°C (Customized 105°C)
-40°C…+100°C
50~1500 mm
100g/6 ms as per IEC 60068-2-27
15g/10-2000Hz per IEC 60068-2-6
YES
TransZorb protection diodes
500 V (GND to housing)
IP67
Anodized aluminum
Connector
Mounting kit
EMC testing:
EN 55011 group 1, Grade A
IEC 61000-4-2,Severity level 3
IEC 61000-4-3,Severity level 3
IEC 61000-4-4,Severity level 4
IEC 61000-4-6,Severity level 3
V
Analog
Analog
A
Analog
Analog
Max.5 mA
Ordering example
Standard nominal stroke (mm):0050=50mm
E.17
EP Size chart
max.distance2.5 mm±2 mm
max.distance10mm
max.distance10mm
33M4
1 2
3
EP wiring configuration
3
12…30 V
12…30 V
Brown
2
0V
AGND
Grey
1
0…+10 V / +10…0 V
4…20 mA / 20…4 mA
Yellow
32
19.5
12 10 10
32
14
24.5
10
40(unusable area)
80(unusable area) Nominal stroke 50~1500
40(unusable area)
80(unusable area) Nominal stroke 50~1500
Size:mm
Tolerance ISO 8015ISO 2768-mH<6mm:±0.2mm
Voltage
Current
Color
pinSignal
E.18
Example:E-C002-000LEC0
0L
0200
Extension line selection
EP Accessories
E-B100-0001 E-FRS4-PG11
58
11.5
4 PIN
E-MP00-0001
33
ø4.4通孔
20
24
6
7.57.5
15
4.3
7
43 14.5
14.5
10
AccessoriesDescription
Magnet
The order No.
Clamping bracket Plug
C=extension lineE -Series
Orderubg example
Right side interface · 00=Don't need to joint · 01=custom designPlug type: · 0 = production sinceExtension category: ·L = analog signal extension
Left side interface: · 0 = 4 pinExtension line’s length:· 00=Don’t need extension line ·01=1m · 02=2m …… · 30=30m
RAYNIWILL International Inc.935 Sierra Vista Ave.Suite B Mountain View, CA 94043USATel: 888-960-3905Fax:650-938-8828www.rayniwill.cominfo@renywell.com
Shanghai Rayniwill Measurement Co.,Ltd.No.385 Dongxing Road,Songjiang,Shanghai,201613CHINATel: 21-54235899 Fax:21-54234277www.rayniwill.com.cninfo.cn@renywell.com
RAYNIWILL (logo) are trademarksRAYNIWILL 's only obigations are those stated in RAYNIWILL 's general terms and conditions of Business.RAYNIWILL ’ s expressly disclaims any implied warranty regarding the information contained herein,including,but not limited to,the implied warranties of merchantability or fitness for a particular purpose. Te
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