LCF506
LCF506 Fatigue Rated Pancake Load Cell with Tension Base , RoHS Compliant, 2 mV/V , Material – 17-4 PH S.S. , 1 1/4-12-Thread , Fatigue Rated , 6 Pin Bendix Receptacle, PT02E-10-6P
- Low profile design with tension base
- For use in both tension and compression
- Utilizes metal foil strain gauge technology
- Highly resistant to off-axis loading
- Description
- Specifications
- Attachment
- Attachment
Description
Model LCF506 is a Pancake Load Cell (Tension Base) designed for tension and compression applications. The flexure is made from a rugged 17-4 Stainless Steel ranging from 12,500 lbs to 25,000 lbs, with options such as Metric Threads and Amplified Version readily available. The LCF506 Pancake Load Cell (Tension Base) has an added Tension Base making it suitable for Inline applications on Actuators or Threaded Assemblies.
The Pancake Load Cell (Tension Base) uses metal strain gauge technology, offering high accuracy. It has Nonlinearity of ±0.1% and Deflection of 0.0021 to 0.0015” nominal. The standard LCF506 Pancake Load Cell (Tension Base) can be modified or customized to meet your requirements and most capacities are in our inventory, making them available for quick delivery. Similar to our entire Load Cell product line this model is manufactured in the USA.
CHANNEL | MIN | TYP | MAX | UNIT | |
---|---|---|---|---|---|
Calibration Excitation
|
1
|
10
|
Vdc
|
||
Shunt Calibration
|
1
|
60.4
|
kOhm
|
||
Excitation
|
1
|
1
|
20
|
Vdc
|
|
Input Resistance
|
1
|
350
|
Ohms nom.
|
||
Insulation Resistance
|
1
|
500
|
Mohms @ 50 Vdc
|
||
Safe Overload
|
1
|
300
|
% of R.O.
|
||
Capacity
|
1
|
25000
|
lbs
|
||
Hysteresis
|
1
|
-0.2
|
0.2
|
% of R.O.
|
|
Nonlinearity
|
1
|
-0.1
|
0.1
|
% of R.O.
|
|
Nonrepeatability
|
1
|
-0.02
|
0.02
|
% of R.O.
|
|
Output Resistance
|
1
|
350
|
Ohms nom.
|
||
Rated Output
|
1
|
2
|
mV/V nom.
|
||
Compensated Temperature
|
1
|
60
|
160
|
F
|
|
Operating Temperature
|
1
|
-60
|
200
|
F
|
|
Temperature Shift Span
|
1
|
-0.002
|
0.002
|
% of Load/F
|
|
Temperature Shift Zero
|
1
|
-0.001
|
0.001
|
% of R.O./F
|
|
Zero Balance
|
1
|
-2
|
2
|
% of R.O.
|