For the CR58-0256G15C01 parallel absolute encoder, we provide a precision-engineered custom replacement solution built on strict dimensional and electrical equivalence. This service is developed for equipment owners facing discontinued supply, extended procurement lead times, or unstable sourcing channels. Our engineering process carefully reconstructs the original housing profile, flange dimensions, bolt distribution, shaft configuration, and parallel signal mapping. The result is a fully compatible encoder that supports direct installation without mechanical modification, adapter components, or control parameter adjustments. Standard manufacturing lead time is typically controlled within 15 working days, supporting fast-response maintenance planning.
The solution has been successfully implemented in various industrial automation and positioning systems across international markets. End users value its reliable multi-bit output stability, consistent positioning accuracy, and optimized cost structure. Designed for continuous-duty environments, the encoder maintains dependable performance under vibration and fluctuating operational loads. Through structured production coordination and rigorous quality validation procedures, we ensure predictable delivery cycles and repeatable manufacturing accuracy. This combination of technical compatibility, economic efficiency, and shortened lead time makes the solution a practical option for extending equipment lifecycle and reducing unexpected downtime risks.
Technical data
| Parameter | Value |
|---|---|
| Resolution | 2 to 4096 positions / 360° |
| Measuring range | 2 to 4096 turns |
| Total number of positions | |
| Measurement position deviation | |
| Output frequency* | 30 kHz max. up to 10 Bit / 360°; 10 kHz max. from 11 Bit |
| Disc coding | Gray code |
| Output code, parallel | Gray or Natural Binary |
| Code sense, serial | CW or CCW (Signal input E2) |
| Logic polarity | Positive |
| Memory circuit | Store or not store, signal input E1 |
| Enable circuit (for bus operation) | Active or inactive, (signal input E1) |
| Sensor system | GaAlAs diodes, photo-transistor array |
| Parallel output circuits | A = Open collector Darlington; B = Open collector, TTL compatible; C = Open emitter Darlington; D = Push-pull, Totem-pole |
| Serial output SSI | Differential data output to RS 422 |
| Clock input SSI | Differential (opto-coupler) for data driver to RS 422 |
| Supply voltage range | +11 V to +26 VDC |
| Supply current | Parallel: 90 mA typ. / 120 mA max.; Serial GSI: 130mA typ. / 160mA max. |
| Operating speed | 3000 rpm max. (continuous); 4000 rpm max. (short period) |
| Angular acceleration | 10° rad/s² max. |
| Inertial mass of rotor | ≤ 5 Ncm (8 Ncm - CR 66) |
| Wind-up torque | ≤ 1 Nm (4 Ncm - CR 66) |
| Permissible axial and radial shaft load | 250 N max. |
| Bearing life expectancy | 10⁹ revolutions |
| Operating temperature range | -20°C to +60°C |
| Storage temperature range | -25°C to +70°C |
| Permissible rel. humidity | 85% without condensation |
| Resistance to shock | 200 m/s², 11 ms (DIN IEC 68) |
| Resistance to vibration | 5 Hz..1000 Hz; 100 m/s² (DIN IEC 68) |
