DFS60B-S1PL10000 – Incremental encoders – SICK Encoders
$ 427.68
SKU: SICK 1036758
Incremental encoders generate information about position, angle, and rotation counts. The resolution is defined in the number of lines or pulses per rotation, which the encoder transmits to the control unit for each rotation. The current position can be determined by the control unit by counting these pulses. A reference run can be necessary when switching on the machine.
Part Number: 1036758
Encoders Model: DFS60B-S1PL10000
OEM Spec Ref
Performance
Pulses per revolution | 10,000 1) |
Measuring step | 90° electric/pulses per revolution |
Measuring step deviation at non binary number of lines | ± 0.01° |
Error limits | ± 0.05° |
- 1) See maximum revolution range.
Interfaces
Communication interface | Incremental |
Communication Interface detail | TTL / HTL |
Factory setting | Factory setting: output level TTL |
Number of signal channels | 6-channel |
Programmable/configurable | ✔ |
Initialization time | 32 ms 1)
30 ms |
Output frequency | ≤ 600 kHz |
Load current | ≤ 30 mA |
Power consumption | ≤ 0.7 W (without load) |
- 1) With mechanical zero pulse width.
Electrical data
Connection type | Cable, 8-wire, universal, 3 m 1) |
Supply voltage | 4.5 … 32 V |
Reference signal, number | 1 |
Reference signal, position | 90°, electric, logically gated with A and B |
Reverse polarity protection | ✔ |
Short-circuit protection of the outputs | ✔ 2) 3) |
MTTFd: mean time to dangerous failure | 300 years (EN ISO 13849-1) 4) |
- 1) The universal cable connection is positioned so that it is possible to lay it without bends in a radial or axial direction.
- 2) Programming TTL with ≥ 5.5 V: short-circuit opposite to another channel or GND permissable for maximum 30 s.
- 3) Programming HTL or TTL with < 5.5 V: short-circuit opposite to another channel, US or GND permissable for maximum 30 s.
- 4) This product is a standard product and does not constitute a safety component as defined in the Machinery Directive. Calculation based on nominal load of components, average ambient temperature 40°C, frequency of use 8760 h/a. All electronic failures are considered hazardous. For more information, see document no. 8015532.
Mechanical data
Mechanical design | Solid shaft, Servo flange |
Shaft diameter | 6 mm |
Shaft length | 10 mm |
Weight | + 0.3 kg |
Shaft material | Stainless steel |
Flange material | Aluminum |
Housing material | Aluminum die cast |
Start up torque | 0.5 Ncm (+20 °C) |
Operating torque | 0.3 Ncm (+20 °C) |
Permissible Load capacity of shaft | 80 N (radial)
40 N (axial) |
Operating speed | ≤ 9,000 min⁻¹ 1) |
Moment of inertia of the rotor | 6.2 gcm² |
Bearing lifetime | 3.6 x 10^10 revolutions |
Angular acceleration | ≤ 500,000 rad/s² |
- 1) Allow for self-heating of 3.3 K per 1,000 rpm when designing the operating temperature range.
Ambient data
EMC | According to EN 61000-6-2 and EN 61000-6-3 |
Enclosure rating | IP67, housing side, cable connection (IEC 60529)
IP65, shaft side (IEC 60529) |
Permissible relative humidity | 90 % (Condensation not permitted) |
Operating temperature range | –40 °C … +100 °C 1)
–30 °C … +100 °C 2) |
Storage temperature range | –40 °C … +100 °C, without package |
Resistance to shocks | 70 g, 6 ms (EN 60068-2-27) |
Resistance to vibration | 30 g, 10 Hz … 2,000 Hz (EN 60068-2-6) |
- 1) Stationary position of the cable.
- 2) Flexible position of the cable.
Weight | 0.444 kg |
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