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Home › Selection & Replacement › FVS58N-011K2R3GN-0013 Gray Cable Mapping and Clamping Flange

FVS58N-011K2R3GN-0013 Gray Cable Mapping and Clamping Flange

EncoderWorks Team
2 monthsago

FVS58N-011K2R3GN-0013 can be supported by EncoderWorks with a custom compatible replacement built around Gray-code cable mapping, radial K2 cable routing, and Ø10 mm clamping-flange alignment. This model should not be treated as a generic singleturn absolute encoder. The field risk is that the 13-bit output word is active, but the controller reads a different position because one data conductor, V/R state, LATCH input, or PRESET line no longer matches the original wiring.

The FVS58N-011K2R3GN-0013 is a singleturn absolute encoder with fast parallel push-pull output, aluminum housing, 011 solid shaft with Ø10 mm x 20 mm clamping flange, K2 cable output, radial exit direction, Gray code, and V/R, LATCH, PRESET inputs. The FVS58 series uses direct code-disc readout, 13-bit singleturn data, short-circuit-protected parallel outputs, and code change frequency up to 400 kHz.

FVS58N-011K2R3GN-0013 Gray Cable Mapping and Clamping Flange-EncoderWorks
FVS58N-011K2R3GN-0013 Gray Cable Mapping and Clamping Flange-EncoderWorks

The first failure boundary is Gray cable mapping. Data bit 1 through Data bit 13, Ub, GND, V/R, LATCH, and PRESET must be verified by signal function, not by cable color alone. A cable-output encoder is especially sensitive to old junction-box repairs, terminal strip changes, or field cable extensions. One shifted Gray bit can create a stable but wrong angular value.

This replacement fails when all 13 Gray outputs switch correctly, but the PLC decodes the wrong shaft angle because bit order, cable mapping, or LATCH wiring does not match the original machine. The encoder looks alive, but the cabinet is reading a different absolute word.

The second boundary is LATCH and PRESET control. LATCH freezes the parallel position word so the controller can read a stable value. V/R changes counting direction, and PRESET sets the output word to zero. These inputs are not spare conductors; a wrong state can reverse position logic or create a false zero. The FVS58 documentation separates these control inputs from the data outputs and defines their input levels and pulse timing.

Mechanically, the Ø10 mm clamping-flange shaft must be coupled without radial or axial preload. The FVS58 platform lists axial and radial shaft-load limits, but those values should be treated as boundaries, not normal installation load. A radial cable exit also needs enough clearance so cable strain does not pull on the housing.

The replacement decision should first confirm 011 Ø10 mm clamping-flange geometry, coupling alignment, radial K2 cable routing, 13-bit Gray data order, V/R direction logic, LATCH timing, PRESET behavior, supply voltage, shielding, and controller input thresholds. EncoderWorks treats FVS58N-011K2R3GN-0013 as an industrial encoder custom compatible solution where Gray cable mapping and clamping-flange mechanics decide field reliability.

Typical production lead time: 15 working days.

Key Data

ItemData
ModelFVS58N-011K2R3GN-0013
Encoder typeSingleturn absolute encoder
InterfaceFast parallel push-pull
HousingØ58 mm aluminum housing
Shaft versionSolid shaft
Shaft / flange011, Ø10 mm x 20 mm with clamping flange
ConnectionK2 Ø9 mm cable
Exit directionRadial
Output codeGray code
Resolution13-bit singleturn / 8192 steps
Operating voltage10–30 VDC
Code change frequencyUp to 400 kHz
InputsV/R, LATCH, PRESET
Main engineering anchorGray cable mapping and clamping flange
Main failure boundaryWrong Gray mapping, LATCH error, PRESET fault, coupling preload
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Contact Support

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Email: sividi360@outlook.com

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