Unit of Measure

Specifications

Dimensional Drawing


Tension Link Pivot
a1101.jpg

Load Capacity

125 KIPS

Material

Stainless Steel 17-4, H-1025 (Standard)

Connector Type

Connector Permanently Attached Cable

A - Length

2-3/8 in

B - Width

2-1/4 in

C - Diameter

3-7/8 in

D - Diameter

1.794 in

E - Length

3-15/16 in

F - Length

1-7/16 in

G - Length

5-1/8 in

L - Overall Length

15-1/4 in

M - Length

10-1/2 in

R - Radius

1 in

T - Diameter

2 in

Weight

24 lb

Safety Factor

2.6

Performance Specs

Overload without Zero Shift

150%

Bridge

Full bridge 350 Ohm (Nominal)

Excitation

12 V AC (Maximum) 12 V DC (Maximum)
Output Signal1 2-mV/V (Nominal) 2-mV/V (Standardized Output)

Non-Repeatability

0.10% FS

Non-Linearity

0.25% FS

Hysteresis

±0.15% FS

Temp Effects (on Zero)

0.003% FS / °F (Nominal)

Temp Effects (on Output)

0.003% load / °F (Nominal)
Zero Balance2 ±2% FS (Nominal)

Static Overload

150% without zero or open shift

Electrical Specifications

Receptacle

PT02H-10-6P

Mating Plug

PT06A-10-6S (SR)

     Function

Pin

     (+) Excitation

A

     (-) Excitation

D

     (+) Signal

B

     (-) Signal

C

Cable

#20(26x34) AWG., rubber insulation, shielded, rubber jacket, 4-Conductor (Standard Cable)

     Function 

Wire Code

     (+) Excitation 

Red

     (-) Excitation 

Black

     (+) Signal 

Green

     (-) Signal 

White

General Information

N/A Strainsert Tension Links are superior performance sensors, for use in weighing and force measuring applications.

Its sensing element consists of a strain gage bridge circuit internally installed in a small hole along its longitudinal axis. This unique arrangement provides a most effective means for the protection and sealing of the strain gage circuit while minimizing the adverse effects of extraneous torsional and flexural loads.

Tension Links can be modified for underwater use.

  • 1 Exact output provided with calibration data. (Standardized outputs are optional).
  • 2 Prior to loading, it is necessary to initially/periodically null the zero load output to account for any residual offset.