We developed a custom solution for the GA240.A125102 encoder, intended for applications where stable 13-bit Gray-code parallel absolute position output must be maintained under industrial noise, discrete PLC input structures, and direct shaft mounting conditions. This configuration is based on the GA240 singleturn parallel absolute encoder platform, using a clamping flange, Ø10 mm solid shaft, 10–30 VDC supply, and Gray-code push-pull output. It is not a serial interface device and it is not tolerant of loose control logic. It is a parallel data system where STORE, ENABLE, UP/DOWN, and Zero setting must be integrated correctly or the position word becomes unreliable. Typical production lead time: 15 working days.

Custom Solution Photos

GA240.A125102 Gray Parallel Encoder Solution-EncoderWorks
GA240.A125102 Gray Parallel Encoder Solution-EncoderWorks

Stable operation depends on shaft alignment, flange rigidity, connector integrity, and clean parallel signal handling.

System Limits

  • No STORE signal during readout → position data can change during sampling
  • ENABLE not held active → outputs switch to high-impedance and appear lost
  • Weak shielding or noisy parallel wiring → bit errors and unstable absolute values

The GA240 platform is a 13-bit optical singleturn parallel encoder with 8192 steps per turn, push-pull short-circuit-proof outputs, and permanent code continuity check. Its core value is deterministic parallel data output, but its main boundary is still the signal chain. If the controller does not manage output timing correctly or if the 13 data lines are exposed to interference, the system may show false absolute values even when the encoder body is mechanically normal.

This model uses Gray code, which reduces transition ambiguity compared with binary output and is often preferred when the downstream control does not latch all bits at exactly the same instant. Even so, Gray code does not remove the need for clean read timing, proper STORE handling, and stable shielding. It only reduces one class of readout risk; it does not solve weak wiring or wrong control logic.

Installation and Wiring Constraints

  • Use rigid clamping flange mounting and maintain proper shaft alignment
  • Use the STORE input to latch data before reading
  • Keep ENABLE at active low during output operation
  • Define UP/DOWN correctly to match the real shaft direction
  • Return Zero setting to GND after setting for best interference immunity
  • Shield all D0 to D12 data lines and control lines in noisy environments

Failure boundary:

  • Missing STORE logic → unstable readout
  • ENABLE high → no usable output
  • Wrong UP/DOWN logic → reversed position behavior
  • Poor shielding → corrupted parallel word
  • Excess shaft load or misalignment → reduced mechanical reliability

Replacement and Interface Mapping

  • Suitable for systems requiring 13-bit Gray-code parallel absolute position feedback
  • Applicable where clamping flange mounting and Ø10 mm shaft are required
  • Not suitable where serial interfaces are expected or where parallel timing cannot be controlled
  • Best used in control systems that can manage latch, enable, and direction logic correctly

Key Data

  • Model: GA240.A125102
  • Type: Singleturn absolute encoder, parallel
  • Sensing method: Optical
  • Resolution: 13 bit / 8192 steps
  • Code: Gray
  • Output circuit: Push-pull, short-circuit proof
  • Supply voltage: 10–30 VDC
  • Initializing time: typ. 20 ms
  • Accuracy: ±0.025°
  • Shaft: Ø10 mm solid shaft
  • Flange: Clamping flange
  • Max speed: ≤10000 rpm mechanical / ≤6000 rpm electrical
  • Shaft load: ≤20 N axial / ≤40 N radial
  • Protection: IP54 without shaft seal / IP65 with shaft seal
  • Operating temperature: -25 to +85 °C
  • Housing: Ø58 mm aluminium

GA240.A126102 Absolute Encoder
GA240.A12C102 Industrial Encoder
GA240.A105102 Encoder Solution
GA240.A10C102 Absolute Encoder Solution