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Home › Selection & Replacement › CEV65M-02011 Profibus Termination Solution

CEV65M-02011 Profibus Termination Solution

EncoderWorks Team
2 monthsago

We provide a custom compatible solution for CEV65M-02011, built to preserve the original Profibus-DP feedback behavior during replacement. The key risk is not the absolute encoder core; it is whether the system keeps the same station address, S3/S4 termination state, DataA/DataB wiring, preset inputs, and PG radial fieldbus hood shielding so the PLC can read the position without bus faults. Typical production lead time: 15 working days.

CEV65M-02011 Profibus Termination Solution-EncoderWorks
CEV65M-02011 Profibus Termination Solution-EncoderWorks

Where the System Fails First

The controller reads CEV65M-02011 as a Profibus-DP absolute encoder with PNO Profile Class 2 behavior. The document defines 4096 steps per revolution, 4096 revolutions, programmable code, RS485 output level, 12 Mbaud option, and a 3 × PG9 radial connection structure. In practice, the replacement boundary is the Profibus layer first: addressing, termination, shielding, and incoming/outgoing bus continuity.

The failure points are direct:

  • Wrong station address → PLC cannot identify the encoder
  • S3/S4 termination set incorrectly → intermittent Profibus faults
  • DataA / DataB reversal → no stable communication
  • Poor shield bonding in the fieldbus hood → telegram errors
  • Preset input wiring error → wrong machine reference
  • Using non-certified or poorly routed bus cable → unstable diagnostics

For CEV65M-02011, the practical replacement boundary is Profibus termination plus station addressing, not only mechanical fit. If the encoder is the last station on the bus, S3 and S4 must be switched on; otherwise they must stay off. A correct replacement must reproduce this bus condition before the position value can be trusted.

Fieldbus Hood and Mechanical Boundary

The drawing shows a ZB50 flange, 10RD / 24 shaft, and 3 × PG9 radial cable entries. This fieldbus hood is not just a connection cover. It is where incoming bus, outgoing bus, supply, preset inputs, shielding, and termination handling meet. A loose shield screw, poor cable gland treatment, or wrong outgoing bus path can create a fault that looks like encoder failure.

The pin assignment note also states that the station address is set from 3 to 99 using BCD address switches. That should be checked before changing hardware. Matching the flange and shaft is not enough; the PLC must see the same Profibus identity and the same bus topology.

Installation Notes

  • Keep the model format as CEV65M-02011
  • Set the Profibus station address before commissioning
  • Use S3/S4 termination only when the encoder is the last bus station
  • Wire DataA / DataB exactly as defined
  • Keep shield bonding continuous through the PG radial hood
  • Verify Preset1 and Preset2 input logic before startup
  • Use certified Profibus cable where possible
  • Check bus topology before replacing the encoder

Key Data

  • Model: CEV65M-02011
  • Alternative reference: 110-02011
  • Type: Absolute rotary encoder
  • Interface: Profibus DP
  • Profile: PNO Profile Class 2
  • Resolution: 4096 steps / revolution
  • Multiturn range: 4096 revolutions
  • Code: Programmable
  • Output level: RS485
  • Supply voltage: 11–27 VDC
  • Option: 12 Mbaud
  • Flange: ZB50
  • Shaft: 10RD / 24
  • Connector: 3 × PG9
  • Connector position: PG radial
  • Protection: IP65
  • Operating temperature: 0–60 °C
  • Pinout: TR-ECE-TI-GB-0017
  • Drawing: 04-CEV65M-M0125
  • Firmware: 437826
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Contact Support

WeChat: +86 150 5045 0799 (WhatsApp)

Email: sividi360@outlook.com

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