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Home › Selection & Replacement › FG4KK-1000G-90G-NG Dual-Channel Encoder with 1000 PPR Scaling

FG4KK-1000G-90G-NG Dual-Channel Encoder with 1000 PPR Scaling

EncoderWorks Team
1 yearago

FG4KK-1000G-90G-NG is a dual-channel redundant FG 4 feedback encoder, where EncoderWorks can configure a custom compatible replacement solution only if the 1000 PPR scaling, KK dual-terminal-box structure, duplicated scanning systems, A/B 90° phase relationship, inverted signal pairs, N marker behavior, shielded twisted-pair routing, and coupling preload remain matched on both feedback paths. The main failure boundary is a machine that runs correctly from one channel but reports speed deviation, direction disagreement, or reference mismatch when both redundant outputs are compared. Typical production lead time: 15 working days.

This configuration belongs to the FG 4 optical incremental encoder platform for heavy-duty industrial environments. The 1000 PPR value belongs to the nickel-disk available pulse-rate range, so the replacement focus is stable redundant scaling rather than extreme high-frequency loading. The KK version uses two terminal boxes and two scanning/evaluation systems, not a single K terminal-box layout. Both signal paths must be checked separately for terminal assignment, shield bonding, supply integrity, counter input compatibility, phase sequence, and marker-pulse interpretation.

FG4KK-1000G-90G-NG Dual-Channel Encoder with 1000 PPR Scaling-EncoderWorks
FG4KK-1000G-90G-NG Dual-Channel Encoder with 1000 PPR Scaling-EncoderWorks

System Limits

The first system limit is 1000 PPR redundant scaling. Both feedback paths must use the same pulse count, edge-counting mode, speed-conversion factor, and direction logic. If one counter is configured for 500, 1024, 1200, or another pulse rate, the machine may show speed deviation even when both square-wave signals look electrically clean.

The second limit is A/B/N channel consistency. Each terminal box must preserve the expected A, /A, B, /B, N, and /N relationship. If one phase pair is swapped, one inverted signal is omitted, or one marker input is interpreted differently, the controller may detect direction mismatch, homing error, or zero-reference disagreement.

The third limit is EMC and mechanical preload. At 1000 PPR, counter frequency margin is wider than with 5000 or 8192 PPR glass-disk versions, but poor shield bonding can still create false edges. Loose cable glands, moisture inside either terminal box, long exposed shield drains, inverter-side cable routing, coupling misalignment, axial preload, radial load, or shaft shock can reduce redundant-channel stability.

Wiring & Installation

Before replacement, document both KK terminal boxes separately. Record the basic channel, 90° channel, marker pulse, inverted signals, supply voltage, GND, shield connection, LED-check or diagnostic output if used, and the controller or safety input connected to each system. Confirm whether the two channels are read by one drive, two independent counters, or a safety comparison circuit, and verify the 1000 PPR scaling on both paths.

During installation, fit the coupling smoothly and do not strike the shaft or housing. Keep the encoder centered, control angular and parallel offset, and avoid axial preload. Route both sets of A-/A, B-/B, and N-/N through shielded twisted pairs, keep the cable away from inverter output, motor, brake, and contactor wiring, and maintain terminal-box sealing on both sides. After commissioning, verify pulse count, speed scaling, direction, N marker behavior, redundant-channel agreement, terminal-box sealing, and signal stability through the full operating speed range.

Custom Compatible Solution

EncoderWorks can configure the replacement around the installed redundant feedback system:

  • Match 1000 PPR square-wave incremental output with 0°/90° channel behavior and inverted signal pairs
  • Preserve KK dual-terminal-box structure, redundant channel separation, N marker behavior, supply range, and output level
  • Adapt the FG 4 mechanical envelope, shaft interface, flange or foot mounting requirement, coupling alignment, and cable-gland layout
  • Review 100 kHz / 150 kHz frequency margin, shielded twisted-pair routing, EMC grounding, terminal-box sealing, bearing load, and redundant-channel agreement

Key Data

ItemData
ModelFG4KK-1000G-90G-NG
Encoder typeHeavy-duty optical incremental encoder
SeriesFG 4
Connection structureKK redundant dual terminal boxes
Pulses per revolution1000 PPR
Pulse disk classNickel-disk available pulse rate
Signal outputSquare wave, 0° and 90° channels
Inverted signalsYes, Option G
Marker pulseOption N with inverted marker signal
Redundant structureTwo scanning/evaluation systems
Supply voltage12–30 VDC
Output typeDifferential line driver / push-pull style output
Frequency range0–100 kHz standard, up to 150 kHz if specified
Standard shaftØ11j6 × 30 mm
Optional shaftØ14j6 × 30 mm
Key checks1000 PPR scaling, KK channel agreement, A/B phase sequence, N marker behavior, dual terminal-box shielding

Related Models

  1. FG4KK-2000G-90G-NG Glass-Disk Encoder with Dual-Box Phase Check
  2. FG4KK-4096G-90G-NG Redundant Encoder with Glass-Disk Edge Stability
  3. FG4KK-2048G-90G-NG Redundant Encoder with Dual-Box Signal Matching
  4. FG4KK-2500G-90G-NG Redundant Encoder with Special 2500 PPR Scaling
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Email: sividi360@outlook.com

Industrial Encoder Technical Consultant

Contact Support

WeChat: +86 150 5045 0799 (WhatsApp)

Email: sividi360@outlook.com

FG4KK-2000G-90G-NG Glass-Disk Encoder with Dual-Box Phase Check

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