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Home › Selection & Replacement › FGH6KK-2000G-90G-NG-J/50P 2000 PPR Dual Terminal Stability

FGH6KK-2000G-90G-NG-J/50P 2000 PPR Dual Terminal Stability

EncoderWorks Team
12 monthsago

EncoderWorks configures the FGH6KK-2000G-90G-NG-J/50P custom compatible replacement solution for heavy-duty incremental speed feedback where 2000 PPR scaling, A/B 90° quadrature, inverted signal pairs, NG reference-pulse behavior, dual terminal-box wiring, reduced rotational-frequency modulation, and Ø50 H7 hollow-shaft fit must remain stable at the installed counter. The failure boundary is not a fieldbus telegram or an absolute position word, but wrong pulse scaling, missed edges, phase jitter, reference mismatch, output-driver incompatibility, shield noise, shaft-current exposure, and hollow-shaft movement. Typical production lead time: 15 working days.

This model is used where a large hollow-shaft incremental encoder is installed directly on a heavy machine shaft for speed measurement, direction recognition, indexing, and process synchronization. A compatible replacement must preserve the 2000 pulses per revolution, 90° phase relationship, inverted A/B/N signal requirement, terminal-box assignment, output level, J option behavior, 50P bore geometry, housing ground path, and heavy-duty mounting boundary.

FGH6KK-2000G-90G-NG-J/50P 2000 PPR Dual Terminal Stability-EncoderWorks
FGH6KK-2000G-90G-NG-J/50P 2000 PPR Dual Terminal Stability-EncoderWorks

System Limits

The first system boundary is the 2000 PPR counter interface and signal-stability requirement. FGH6KK-2000G-90G-NG-J/50P must be checked against maximum input frequency, edge evaluation, A/B direction logic, reference-pulse width, inverted-signal use, output-driver type, supply level, cable length, and the reduced rotational-frequency modulation requirement. If the replacement is supplied as 2048 PPR, 1024 PPR, 2500 PPR, or without the correct inverted and reference channels, the controller may still count pulses while speed scaling, indexing, direction detection, or reference repeatability becomes unreliable.

The second boundary is the KK dual-terminal and Ø50 hollow-shaft installation. Each terminal box, 0 V reference, shield path, cable gland, housing bond, and PE continuity must be treated as part of the measurement system. A correct encoder can still fail if one terminal box has a weak shield connection, signal cables run beside brake or drive wiring, duplicated signal paths are grounded differently, or the Ø50 H7 hollow shaft is fitted with eccentric load. The 50P bore, keyway fit, axial movement, torque reaction, vibration, bearing load, and optional shaft-current isolation requirement should be checked together.

Wiring & Installation

Before replacement, confirm the full installed model code, 2000 PPR requirement, A/B 90° relationship, NG reference-pulse use, inverted output requirement, output circuit, supply voltage, counter frequency margin, dual terminal-box layout, cable-entry direction, shield termination method, J option requirement, and Ø50 H7 hollow-shaft dimension. This version should not be treated as the overspeed-switch variant because it does not include the S option; any overspeed or safety-monitoring function must be confirmed separately in the installed system.

During installation, verify A, B, reference, inverted channels, supply, 0 V, shield, housing ground, and both terminal-box paths before powering the system. Keep signal cables away from motor, brake, SCR, and VFD wiring, and do not use the cable shield as a load-carrying ground conductor. The hollow shaft must seat concentrically on the machine shaft, and the torque restraint should prevent encoder-body movement without forcing the bearing system. Eccentric preload can become phase jitter, bearing wear, unstable reference repeatability, or speed-feedback noise.

Custom Compatible Solution

  • Match 2000 PPR incremental feedback, A/B 90° quadrature, inverted A/B/N signals, NG reference behavior, and controller counter expectations
  • Preserve dual terminal-box wiring, shield continuity, output-driver compatibility, supply reference, J option signal-stability requirement, and grounding boundary
  • Adapt the Ø50 H7 hollow shaft, keyway fit, heavy-duty housing, bearing-load boundary, torque restraint, cable entry, and machine-side mounting geometry
  • Review counter frequency margin, EMC exposure, shaft-current risk, runout, vibration, reference repeatability, and commissioning checks before shipment

Key Data

ItemData
ModelFGH6KK-2000G-90G-NG-J/50P
Encoder typeHeavy-duty large hollow-shaft incremental encoder
Feedback typeIncremental A/B with reference pulse
Pulse count2000 PPR
Phase relationshipA/B, 90° quadrature
Inverted signalsG, inverted output signal boundary
Reference pulseNG reference pulse with inverted signal
Signal quality optionJ, reduced rotational-frequency modulation boundary
Overspeed optionNot included in this model code
ConnectionKK, dual terminal boxes with terminal strips
Shaft interface50P, Ø50 H7 hollow shaft with keyway
Output circuitHTL / TTL or installed output level requires confirmation
Supply voltage12–30 VDC, installed version requires confirmation
Protection boundaryUp to IP66, sealing and speed limit require installed-version confirmation
Key system checks2000 PPR scaling, counter frequency, A/B direction, NG reference, inverted channels, J option, shield grounding
Key mechanical checksØ50 bore fit, keyway fit, runout, axial movement, torque restraint, vibration, bearing load, shaft-current isolation requirement

Related Models

  1. FGH6KK-2500G-90G-NG-J/50P 2500 PPR Dual Terminal Stability
  2. FGH6KK-2500G-90G-NG-S-J/50P 2500 PPR Overspeed Switch Boundary
  3. FGH6KK-2000G-90G-NG-S-J/50P 2000 PPR Overspeed Switch Boundary
  4. FGH6KK-1024G-90G-NG-J/50P 1024 PPR Dual Terminal Stability
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Industrial Encoder Technical Consultant

Contact Support

WeChat: +86 150 5045 0799 (WhatsApp)

Email: sividi360@outlook.com

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