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Home › Selection & Replacement › POG10 D 2048 I High Frequency HTL Feedback Solution

POG10 D 2048 I High Frequency HTL Feedback Solution

EncoderWorks Team
6 monthsago

We developed a custom solution for the POG10 D 2048 I encoder, intended for heavy-duty drive systems where 2048 PPR HTL incremental feedback must stay stable under high pulse frequency, shaft vibration, terminal-box wiring, and EMC noise. This is a POG 10 D-output configuration, so it should be treated as K1 / K2 feedback only, not a DN version with K0 zero pulse.

Typical production lead time: 15 working days.

Model reading is direct:

  • D = K1, K2 output signals
  • 2048 = 2048 pulses per revolution
  • I = 9–30 VDC, HTL output with inverted signals
  • POG10 = Ø11 mm shaft, EURO flange B10, terminal-box heavy-duty encoder body

At 2048 PPR, the first weak point is usually not the encoder optics. The risk moves to counter frequency margin, HTL edge quality, shielding continuity, terminal grounding, and coupling torsion.

POG10 D 2048 I High Frequency HTL Feedback Solution-EncoderWorks
POG10 D 2048 I High Frequency HTL Feedback Solution-EncoderWorks

Where the System Fails First

The encoder output frequency limit is ≤120 kHz. At 2048 PPR, real RPM must be checked before commissioning because the controller side can reach its counting limit earlier than expected. If the PLC or drive input cannot preserve clean HTL edges, the system loses counts while the encoder still appears electrically normal.

Typical failure points:

  • Counter input too slow → missed pulses
  • Poor terminal grounding → false HTL edges
  • Shield interruption → unstable speed feedback
  • Wrong K1/K2 phase interpretation → reversed direction
  • Rigid coupling → torsional shock into the Ø11 mm shaft

Because this is a D version, there is no K0 reference pulse in the output structure. Do not design it as an index-referencing encoder unless the machine has an external home signal.

Mechanical Boundary

POG10 is built for heavier service than small incremental encoders: ≤300 N axial load, ≤450 N radial load, IP66 protection, 20 g vibration, and -40 °C to +100 °C operating temperature. These margins help, but they do not fix poor alignment. In heavy drives, torsional vibration usually becomes a counting problem before it becomes visible bearing damage.

Installation Notes

  • Keep the model format as POG10 D 2048 I
  • Do not add K0 logic; D = K1 / K2 only
  • Confirm counter frequency at real RPM
  • Keep terminal-box grounding continuous
  • Separate encoder cable from inverter and motor power wiring
  • Verify K1 / K2 phase direction before startup
  • Use a flexible coupling suitable for Ø11 mm shaft
  • Do not write this as TTL, DN, or FSL unless the model explicitly shows it

Key Data

  • Model: POG10 D 2048 I
  • Type: Heavy-duty incremental encoder
  • Resolution: 2048 PPR
  • Output: HTL with inverted signals
  • Signals: K1, K2 + inverted
  • Supply voltage: 9–30 VDC
  • Output frequency: ≤120 kHz
  • Shaft: Ø11 mm stainless steel
  • Flange: EURO flange B10
  • Protection: IP66
  • Operating temperature: -40 °C to +100 °C
  • Optional temperature range: -50 °C to +100 °C
  • Shaft load: ≤300 N axial / ≤450 N radial
  • Vibration: 20 g, 10–2000 Hz
  • Shock: 200 g, 6 ms
  • Connection: Terminal box
  • Weight: Approx. 1.9 kg
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Industrial Encoder Technical Consultant

Contact Support

WeChat: +86 150 5045 0799 (WhatsApp)

Email: sividi360@outlook.com

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