Our team provides a direct one-to-one substitute for the DAF58-12A14, manufactured to replicate the original encoder’s 0–20 mA output curve and shaft design. With the standard production lead time of ten workdays, it guarantees smooth integration for OEMs and end users requiring uninterrupted operation or fast retrofit upgrades
Technically, this encoder is optimized for precise position capture in medium-duty automation systems, especially where analog current output is favored for noise immunity. The design supports stable readings across varying cable lengths and demanding environmental conditions. It offers high repeatability and robust sealing, making it suitable for machinery frameworks, conveyors, and task-critical feedback loops.
Electrical data
| Parameter | Value |
| Valid for all versions | Unless otherwise stated |
| Sensor system: | GaAIAs diode, photo-transistor array, precision comparator |
| Setting cycles EEPROM: | ≥10^6 |
| Multifunctional inputs (MFP): | Depending on adjusting mode (signal input E6) |
| Memory circuit (latch): | Through MFP |
| Disc coding: | Gray code |
| Signal sense: | CW or CCW (signal input E6) |
| Supply voltage range V_s: | +20 to +26 VDC, 15±0.5VDC(optional) |
| Supply current I_s: | 80 mA typ. / 120 mA max. (when output current = 0) |
| Linearity: | 0.025% typ. / 0.05% max. (+2 LSB), 12 Bit monotory warranted |
| Temperature drift: | 0.0015% / K typ. |
| Current output | |
| Accuracy | |
| at starting point 0 mA: | 0 mA ±5 μA typ. / ±15 μA max. |
| at end point 4 mA: | 4 mA ±5 μA typ. / ±15 μA max. |
| Load resistance: | 0 to 500Ω at V_s = 20 to 26 VDC, 0 to 1000Ω at V_s = 22 to 26 VDC |
| Voltage output | |
| Accuracy | |
| at starting point 0 V: | 0 V ±2.5 mV typ. / ±7.5 mV max. |
| at end point 10 V: | 10 V ±2.5 mV typ. / ±7.5 mV max. |
| Output current: | 5 mA max. When load resistance > 2 kΩ (short circuit proof) |
Disclaimer:
All content on this site is original unless otherwise noted. Copying, collecting, or publishing any material without our permission is prohibited. If any content infringes on copyright, please contact us.
