We developed a custom solution for the PMG10-SHD.12UG.32000.G encoder, intended for applications where absolute position data must be transmitted reliably over SSI under industrial interference and long wiring conditions. This configuration is built on the PMG10 solid shaft platform with Ø11 mm shaft, EURO flange B10, and protection class D, optimized for abrasive environments and stable signal transmission rather than purely high-resolution positioning. It is not a basic position encoder. It is a system-oriented SSI transmission solution where clock integrity, differential wiring, and controller-side timing determine whether the data remains usable. Typical production lead time: 15 working days under confirmed configuration.

Custom Solution Photos

PMG10-SHD.12UG.32000.G SSI Absolute Encoder Stable Transmission-EncoderWorks
PMG10-SHD.12UG.32000.G SSI Absolute Encoder Stable Transmission-EncoderWorks

Stable transmission depends on shaft alignment, shielding quality, terminal integrity, and correct SSI clock handling.

System Limits

  • SSI clock outside 100 kHz to 2 MHz → data transmission becomes invalid
  • Weak differential wiring or shielding → signal integrity loss over distance
  • Controller timing mismatch → unstable or unreadable position data

This model uses a Gray-coded SSI interface with a 13-bit singleturn and 12-bit multiturn structure, but resolution is not the primary system limit. The real boundary is signal transmission quality. The PMG10 platform uses MicroGen energy harvesting, eliminating battery-related failure, so system reliability shifts to wiring, clocking, and controller synchronization.

Installation and Wiring Constraints

  • Use differential pairs for SSI clock (C+/C−) and data (D+/D−)
  • Respect initializing time ≤500 ms before data acquisition
  • Maintain proper shielding for long cable runs
  • Avoid mixing SSI signals with high-noise power wiring
  • Use DIR and PRESET only with defined controller logic

Transmission logic:

  • SSI is controller-driven clock system, not free-running output
  • Data is valid only when clock timing and sampling are matched
  • Incorrect clock phase or jitter → invalid position data

Failure boundary:

  • Clock instability → data corruption
  • Cable capacitance / interference → signal degradation
  • Incorrect integration → system-level position error

Signal transmission must be stable before resolution becomes meaningful.

Replacement and Interface Mapping

  • Suitable for systems requiring stable SSI transmission over industrial wiring
  • Applicable where signal integrity is more critical than maximum resolution
  • Not suitable where controller cannot provide stable SSI clock and timing
  • Designed for absolute feedback integration, not incremental-only systems

Key Data

  • Model: PMG10-SHD.12UG.32000.G
  • Type: Absolute encoder, SSI
  • Shaft: Ø11 mm solid shaft
  • Mounting: EURO flange B10
  • Protection class: D, for dusty abrasive environments
  • Supply voltage: 4.75 to 30 VDC
  • Interface: SSI
  • Code: Gray
  • Singleturn resolution: 13 bit
  • Multiturn resolution: 12 bit
  • Clock frequency: 100 kHz to 2 MHz
  • Initializing time: ≤500 ms
  • Max speed: ≤12000 rpm
  • Protection: IP66 / IP67
  • Operating temperature: -40 to +95 °C
  • Connection: Terminal box, M20 cable gland

PMG10-SHD.12UG.36000.G Incremental Encoder
PMG10-SHD.12UG.20000.A High Resolution Encoder