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CATEGORIES Load Cells / Force Sensors Beam Load Cells Torque Sensors Load Cell Displays
Signal Conditioning Data Acquisition
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SUPPORT
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Learn about Plug and Play Smart Sensors
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ACCURATE / HIGH RELIABILITY IN HARSH
MARINE & INDUSTRIAL ENVIRONMENTS
CLEVIS LOAD PIN LOAD CELL
Our CLP Series clevis load pins are used most
often
where pins or large bolts
would normally
be
carrying the load. Typical applications would
include
replacement for shackle pins, clevis
pins, and pulley shafts. These load
pins are
made from heat treated 17-4ph stainless steel
and incorporate
a stainless steel molded
connector system for use in harsh industrial
environments. The mating connector, sold
seperately, is available in
three different cable
lengths.
Anti-Rotation & Retaining Device In pins with a diameter less than 2 inches,
the Keeper Plate used at dimension H & J (provides and maintains
proper angular alignment of Load Pin in regard to load direction)
will retain in one direction only, requiring a Retaining Ring.
DIMENSIONS (INCHES)
MODEL
CAPACITY
LBS.
A
DIA.
B
C
D
E
F
H
J
KEY
DIA.
L
SNAP
RING
GROOVE
DIA.
N
O
DIA.
CLP-750
750
0.375
.41
0.56
.41
1.38
3.69
.20
.25
N/A
.31
0.352
.029
2.00
CLP-1.5K
1,500
0.375
.41
0.56
.41
1.38
3.69
.20
.25
N/A
.31
0.352
.029
2.00
CLP-3K
3,000
0.500
.50
0.75
.50
1.75
4.00
.20
.25
N/A
.25
0.468
.039
2.00
CLP-6K
6,000
0.750
.59
1.00
.59
2.18
4.50
.20
.25
.156
.31
0.704
.046
2.00
CLP-12.5K
12,500
1.000
.63
1.00
.63
2.26
4.75
.20
.25
.219
.50
0.940
.046
2.00
CLP-18K
18,000
1.250
.81
1.38
.81
3.00
5.63
.27
.25
.219
.63
1.176
.056
2.00
CLP-30K
30,000
1.500
.94
1.63
.94
3.51
6.13
.27
.25
.281
.63
1.406
.056
2.00
+.000
-.002
Anti-Rotation & Retaining Device In pins with a diameter of 2 inches and over,
the Keeper Plate
used at dimension H & J (provides and maintains proper angular alignment of Load
Pin in regard to load direction) alone will perform as a complete Retainer.
MODEL
CAPACITY
LBS.
A
DIA.
B
C
D
E
F
H
J
KEY
DIA.
CLP-50K
50,000
2.000
1.00
2.00
1.00
4.00
6.63
.266
.38
.281
CLP-75K
75,000
2.500
1.25
2.50
1.25
5.00
7.63
.266
.50
.281
CLP-100K
100,000
2.750
1.47
2.69
1.47
5.63
8.38
.406
.50
.406
CLP-125K
125,000
3.000
1.44
3.00
1.44
5.88
8.75
.406
.63
.406
CLP-160K
160,000
3.500
1.75
3.50
1.75
7.00
10.00
.531
.63
.531
CLP-200K
200,000
4.000
2.25
4.00
2.25
8.50
11.75
.531
.75
.531
+.000
-.002
Order
Code Model
Capacity
Range
Description
Price
Quantity
Add
to Cart
ONE
MATING ASSEMBLY NEEDED PER
CLEVIS LOAD PIN
AMM-66SS
N/A
Mating Assembly 6 ft
Cable
$60
[Close Box]
ACCESSORIES
CAL-TEDS
Plug & Play Option
AD9
(9 PIN "D" Series) Connector attached to the
end of a Load Cell or Torque sensor cable with a TEDS
( Transducer Electoric Data Sheet ) EPPROM. Used with
a DPM-3 Load Cell Meter, the Load Cell and DPM-3 will
self calibrate. This option is a real time saver.
Learn about Plug & Play Smart Sensors.
[Close Box]
Learn
about Plug and Play Smart Sensors
What are Plug and Play Smart Sensors?
A Plug and Play Smart Sensor is a Sensor that is compliant to the IEEE
1451.4 Standard. TEDS, or Transducer Electronic Data Sheet, is a set of electronic data
in a standardized format defined within the IEEE 1451.4 standard. This data specifies what
type of sensor is present, describes its interface, and gives technical information such
as sensitivity, bridge type, excitation, etc. This information is stored in an EEPROM chip attached
to a sensor. By having this chip, the sensor can identify and describe itself to the
network and or Smart Load Cell Meter, thereby easing automatic system configuration. Let's
say you have a Transducer Techniques Load Cell or Torque Sensor with the
the proper instrument IEEE 1451.4 enabled Load Cell or Torque Sensor could be swapped in, self-identify,
and
work appropriately.
What are the advantages of Plug and Play Smart
Sensors?
Benefits that can be experienced now include:
Simplified troubleshooting
Reduced safety risks. It is no longer necessary to
"climb on machines" for connection verification
Reduced costs for set-up and tear-down
No recalibration is needed when replacing sensors
The data acquisition system can recalibrate itself
Advantages that will be available in the future include:
Integration with wireless transceivers
Elimination of large lengths of analog wiring
Reduced installation, maintenance and upgrade
costs of measurement and control systems
The opportunity to add intelligence to sensors
Can a legacy / non-TEDS sensor
be converted to a TEDS "Plug and Play" sensor?
Yes. A legacy / non-TEDS sensor can be converted to a TEDS "Plug
and Play" sensor. Transducer Techniques offers a CAL-TEDS service to convert your sensor to a TEDS "Plug and
Play" compliant sensor. The service consists of a connector, recalibration and a programmed
EEPROM. This will update a legacy / non-TEDS sensor to be capable of plugging into Transducer
Techniques IEEE 1451.4 compliant DPM-3 Smart Load Cell Meter.
What is Virtual TEDS?
Virtual TEDS is an online library of data sheets developed by National
Instruments (www.ni.com) that contain the same information that would be found in an EEPROM TEDS,
but exist for sensors not containing the EEPROM. This would define Plug and Play capability
for legacy / non-TEDS sensors. As a National Instruments Plug and Play Sensor Partner and a
National Instruments Alliance Member, Transducer Techniques has contributed the data for all
its sensors to the Virtual TEDS database.
What
parameters are included on a Transducer Techniques
TEDS chip?
TEDS Item
Values
Manufacturer ID
Transducer Techniques (ID#42)
Model Number
28
Version Letter
A
Version Number
3
Serial Number
149087
Transducer Electrical Signal Type
Bridge Sensor
Minimum Physical Value
0 lb
Maximum Physical Value
100 lb
Minimum Electrical Value
0 V/V
Maximum Electrical Value
.0024709 V/V
Mapping Method
Linear
Bridge Type
Full
Impedance of Each Bridge Element
350 Ohm
Response Time
.000001 sec
Excitation Level (Nominal)
10 V
Excitation Level (Minimum)
1 V
Excitation Level (Maximum)
12 V
Calibration Date
1/1/2004
Calibration Initials
RAB
Calibration Period (Days)
365 days
Measurement Location ID
0
Users Data
Thank You From TTI
[Close Box]
[Close Box]
ACCESSORIES
CAL-TEDS
Plug & Play Option
AD9
(9 PIN "D" Series) Connector attached to the
end of a Load Cell or Torque sensor cable with a TEDS
( Transducer Electoric Data Sheet ) EPPROM. Used with
a DPM-3 Load Cell Meter, the Load Cell and DPM-3 will
self calibrate. This option is a real time saver.
Learn about Plug & Play Smart Sensors.
[Close Box]
Learn
about Plug and Play Smart Sensors
What are Plug and Play Smart Sensors?
A Plug and Play Smart Sensor is a Sensor that is compliant to the IEEE
1451.4 Standard. TEDS, or Transducer Electronic Data Sheet, is a set of electronic data
in a standardized format defined within the IEEE 1451.4 standard. This data specifies what
type of sensor is present, describes its interface, and gives technical information such
as sensitivity, bridge type, excitation, etc. This information is stored in an EEPROM chip attached
to a sensor. By having this chip, the sensor can identify and describe itself to the
network and or Smart Load Cell Meter, thereby easing automatic system configuration. Let's
say you have a Transducer Techniques Load Cell or Torque Sensor with the
the proper instrument IEEE 1451.4 enabled Load Cell or Torque Sensor could be swapped in, self-identify,
and
work appropriately.
What are the advantages of Plug and Play Smart
Sensors?
Benefits that can be experienced now include:
Simplified troubleshooting
Reduced safety risks. It is no longer necessary to
"climb on machines" for connection verification
Reduced costs for set-up and tear-down
No recalibration is needed when replacing sensors
The data acquisition system can recalibrate itself
Advantages that will be available in the future include:
Integration with wireless transceivers
Elimination of large lengths of analog wiring
Reduced installation, maintenance and upgrade
costs of measurement and control systems
The opportunity to add intelligence to sensors
Can a legacy / non-TEDS sensor
be converted to a TEDS "Plug and Play" sensor?
Yes. A legacy / non-TEDS sensor can be converted to a TEDS "Plug
and Play" sensor. Transducer Techniques offers a CAL-TEDS service to convert your sensor to a TEDS "Plug and
Play" compliant sensor. The service consists of a connector, recalibration and a programmed
EEPROM. This will update a legacy / non-TEDS sensor to be capable of plugging into Transducer
Techniques IEEE 1451.4 compliant DPM-3 Smart Load Cell Meter.
What is Virtual TEDS?
Virtual TEDS is an online library of data sheets developed by National
Instruments (www.ni.com) that contain the same information that would be found in an EEPROM TEDS,
but exist for sensors not containing the EEPROM. This would define Plug and Play capability
for legacy / non-TEDS sensors. As a National Instruments Plug and Play Sensor Partner and a
National Instruments Alliance Member, Transducer Techniques has contributed the data for all
its sensors to the Virtual TEDS database.
What
parameters are included on a Transducer Techniques
TEDS chip?
TEDS Item
Values
Manufacturer ID
Transducer Techniques (ID#42)
Model Number
28
Version Letter
A
Version Number
3
Serial Number
149087
Transducer Electrical Signal Type
Bridge Sensor
Minimum Physical Value
0 lb
Maximum Physical Value
100 lb
Minimum Electrical Value
0 V/V
Maximum Electrical Value
.0024709 V/V
Mapping Method
Linear
Bridge Type
Full
Impedance of Each Bridge Element
350 Ohm
Response Time
.000001 sec
Excitation Level (Nominal)
10 V
Excitation Level (Minimum)
1 V
Excitation Level (Maximum)
12 V
Calibration Date
1/1/2004
Calibration Initials
RAB
Calibration Period (Days)
365 days
Measurement Location ID
0
Users Data
Thank You From TTI
[Close Box]
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