LAU220

LAU220 Pedal Force Sensor , Low Profile & Spike Resistant , RoHS Compliant , Material – 17-4 PH S.S. , 24 Awg 4 Conductor Braided Shielded PVC Cable , 15 ft Long
Features

Product Highlights:

  • Ideal for Automotive force measurement Applications
  • Compatible with SAE J2909 (Brake testing) and ECE R13H (Brake Assist Systems)
  • Automotive Load Cell
  • One Piece Construction
  • Strain Gauge Based
  • Low Profile Height
  • Removable Mounting Plate
  • Light weight force sensor

Description

The LAU220 Pedal Force Load Cell has become one of the most common and trusted products in the Automotive Industry. From its 17-4PH Stainless Steel one piece construction, to its low profile design (Off-center loading error of <1%), the LAU220 Pedal Force Load Cell offers a great measurement system with impressive tolerances. This unit comes with a removable mounting plate, custom built strain relief, spike resistant, and a machined slip-resistant top surface.

FUTEK Pedal Load Cell sensors are suitable for automotive testing in support of the following standards:

  • SAE J2909: Light Vehicle Dry & Wet Stopping Distance Test Procedure (brake testing);
  • ECE R13H: Provisions for passenger cars braking;
  • ISO 7975: Passenger cars — Braking in a turn — Open-loop test method.

The LAU220 Pedal Force Load Cell is manufactured in US, and similar to our entire Load Cell product line, uses metal foil strain gauge technology.

CHANNEL MIN TYP MAX UNIT
Calibration Excitation
1
10
Vdc
Shunt Calibration
1
100
kOhm
Excitation
1
1
20
Vdc
Input Resistance
1
700
Ohms nom.
Insulation Resistance
1
500
Mohms @ 50 Vdc
Off Center Loading
1
-1
1
% of R.O.
Safe Overload
1
150
% of R.O.
Capacity
1
500
lbs
Hysteresis
1
-0.25
0.25
% of R.O.
Nonlinearity
1
-0.25
0.25
% of R.O.
Nonrepeatability
1
-0.1
0.1
% of R.O.
Output Resistance
1
700
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
-0.01
0.01
% of Load/F
Temperature Shift Zero
1
-0.005
0.005
% of R.O./F
Zero Balance
1
-5
5
% of R.O.