The CR58-1024G19C04 parallel absolute encoder is supplied with a standard production lead time of approximately 10 working days, ensuring predictable delivery for maintenance planning and retrofit projects. Positioned as an OEM-level custom replacement solution, this model is engineered for direct compatibility with existing parallel encoder installations. When required, customized variants can be provided to accommodate different connector formats, cable specifications, mounting patterns, or shaft structures, while preserving full electrical and functional equivalence with the original configuration.
From a performance perspective, the encoder adopts a parallel absolute data transmission architecture, enabling stable multi-bit position output for real-time industrial control. Its precision optical sensing assembly delivers high repeatability, accurate angular feedback, and consistent signal integrity during long operating cycles. The compact yet reinforced enclosure design supports installation in equipment with limited space, while maintaining resistance to vibration, dust ingress, and mechanical stress. This model is commonly integrated into textile production lines, automated inspection machinery, material conveying systems, and industrial positioning platforms where dependable, continuous position monitoring is critical for operational precision and process stability.
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) |
