Measuring wheel encoders
Number of steps per revolution (max. resolution) 262,144 (18 bit) Measuring increment (resolution in mm/pulse) 1) 2) Repeatability < 0.1 mm 3)
- 1) Calculation example: Circumference of wheel / pulses per revolution = 200 mm / 16384 pulses per revolution = 0,012mm/pulse.
- 2) Value based on measuring wheel circumference. The measuring wheel circumference depends on manufacturing tolerances, wear and tear, the selected spring tensioning force, and the behavior of the measurement wheel surface at different temperatures and on different measurement surfaces. To obtain the most accurate measurement results, we recommend performing a reference run for positioning tasks so that application-specific measuring wheel characteristics can be taken into account.
- 3) Value is based on the mechanics. Backlash of the measuring wheel mechanics, is at a minimum. This enables a precise and repeatable measurement results.
Communication interface EtherNet/IP™ Programmable/configurable ✔
- Electrical data
Male connector, 1x, M12, 4-pin, axial
Female connector, 2x, M12, 4-pin, axial
Power consumption ≤ 3 W Supply voltage 10 V DC ... 30 V DC Reverse polarity protection ✔ MTTFd: mean time to dangerous failure 80 years (EN ISO 13849-1) 1) 2)
- 1) 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.
- 2) Value refers to the mounted encoder.
- Mechanical data
Measuring wheel surface O-ring NBR70 Spring arm mechanism material Spring element Stainless steel Measuring wheel, spring arm Aluminum Start up torque 0.5 Ncm Operating torque 0.3 Ncm Bearing lifetime 3.0 x 10^9 revolutions Minimum spring tension force 4 N 1) 2) Max. permissible working area for the spring (continuous operation) ± 10 mm Service life of spring element > 1.5 million cycles Mounting position relative to the measuring object Preferably from above, from below possible 3) Mounted encoder AFS60 EtherNet/IP, AFS60A-S4IB262144, 1055364 Mounted mechanic BEF-MWS120-ARM, 2118239
- 1) The right spring tension force for the application shall keep the slippage at a minimum in the application working conditions and measuring surface, without damaging the measuring surface.
- 2) The clamping force can be set in 6 fixed increments of 4 N. 4 N corresponds to one increment.
- 3) When mounted from below, the encoder weight during spring pretensioning must be taken into account.
- Ambient data
EMC According to EN 61000-6-2 and EN 61000-6-3 1) Operating temperature range –30 °C ... +80 °C 2) Storage temperature range –40 °C ... +100 °C 2)
- 1) EMC according to the standards quoted is achieved if shielded cables are used.
- 2) This value reflects the smallest temperature value of the installed products. For more information, please look at the individual data sheets.
eCl@ss 5.0 27270501 eCl@ss 5.1.4 27270501 eCl@ss 6.0 27270590 eCl@ss 6.2 27270590 eCl@ss 7.0 27270501 eCl@ss 8.0 27270501 eCl@ss 8.1 27270501 eCl@ss 9.0 27270501 eCl@ss 10.0 27270790 eCl@ss 11.0 27270707 eCl@ss 12.0 27270504 ETIM 5.0 EC001486 ETIM 6.0 EC001486 ETIM 7.0 EC001486 ETIM 8.0 EC001486 UNSPSC 16.0901 41112113