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SPS-AUX-AS100-21 Dataheets PDF



Part Number SPS-AUX-AS100-21
Manufacturers Honeywell
Logo Honeywell
Description SMART Position Sensor
Datasheet SPS-AUX-AS100-21 DatasheetSPS-AUX-AS100-21 Datasheet (PDF)

SMART Position Sensor, Rotary Configuration DESCRIPTION Honeywell’s SMART Position Sensors are some of the most durable, adaptable, and lightweight absolute position sensors available in the industry, enabling highly accurate motion control and improving operation efficiency and safety. Why is the SMART Position Sensor smart? SMART means that this is a sensor that can essentially think for itself. With the SMART position technology, Honeywell has utilized MR (magnetoresistive) technology throug.

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SMART Position Sensor, Rotary Configuration DESCRIPTION Honeywell’s SMART Position Sensors are some of the most durable, adaptable, and lightweight absolute position sensors available in the industry, enabling highly accurate motion control and improving operation efficiency and safety. Why is the SMART Position Sensor smart? SMART means that this is a sensor that can essentially think for itself. With the SMART position technology, Honeywell has utilized MR (magnetoresistive) technology through the ASIC (ApplicationSpecific Integrated Circuit) at a level never before accomplished. The rotary configuration joins Honeywell’s SMART Position Sensor family of proven linear and arc configurations. The SMART Position Sensor, Rotary Configuration, is a noncontacting sensing solution for absolute position sensing with enhanced accuracy. It senses the position of a magnet relative to the sensor in a range of 0º to 360º. VALUE PROPOSITIONS ( = competitive differentiator) Honeywell uses a patented combination of an ASIC and an array of MR sensors to accurately and reliably determine the position of a magnet collar attached to a rotating object so that the object’s position can be determined or controlled. The output and the MR sensor sequence determine the nearest pair of MR sensors to the center of the magnet location. The output of these two MR sensors is then used to determine the position of the magnet between them. www.DataSheet.net/ The SMART Position Sensor, Rotary Configuration, fits on a 25,4 mm [1 in] shaft. A mounting tool fixture (purchased separately) provides repeatable installation.  Non-contact design: Eliminates mechanical failure mechanisms, reducing wear, which improves reliability and durability, and minimizes downtime Combined patented MR sensor and ASIC technology provides absolute position sensing: Helps OEMs reduce warranty costs because they don’t have to replace worn or broken component parts Helps end-users reduce downtime due to fewer calibration requirements No internal moving parts: Automotive-grade potting makes the sensor more resistant to vibration, shock, and extreme temperatures, improving reliability Repeatable output: Occurs within a 3,0 mm ±2,0 mm [0.118 in ±0.079 in] air gap between the sensor and magnet collar, expanding application opportunities    High accuracy: Measures values down to 0.01º; better sensor accuracy can provide better system accuracy in the application IP67 and IP69K sealing: Allows for use in harsh environments such as dust, immersion up to 1 m [39.37 in] of water for 30 minutes, and high pressure water sprays High shock and vibration resistance: Allows for use in a wide variety of tough applications   FEATURES AND BENEFITS Minimal signal error: Exists up to 2,50 mm [0.10 in] of radial error, simplifying design-in RoHS-compliant: Materials meet Directive 2002/95/EC Datasheet pdf - http://www.DataSheet4U.co.kr/ Transportation: Steering angle Articulation angle Boom arm detection Table 1. Specifications Characteristic Sensing range Resolution Supply voltage Output Supply current Linearity: 25 °C [77 °F] TC: >85 °C [158 °F] Offset: 25 °C [77 °F] TC: >85 °C [158 °F] Accuracy Sensitivity: 25 °C [77 °F] TC: >85 °C [158 °F] Reverse polarity Initial startup time Termination Operating temperature Storage temperature Air gap Sealing Shock Vibration Housing material Approvals Mounting: screws recommended torque 1 Industrial: Solar panels Wind turbines Component Parameter 360º 0.01º 12 Vdc to 30 Vdc 4 mA to 20 mA 90 mA max. -0.03 %FS min., 0.030 %FS max. 0.0011 %FS/°C Note 2, 4, 7 sensor only 3, 4, 5, 7 -0.044 %FS min., -0.011 %FS typ., 0.022 %FS max. 0.0033 %FS/°C -0.069 %FS min., 0.069 %FS max. 44.43 µA/° min., 44.43 µA/° typ., 44.48 µA/° max. 80 ppm/°C -12 Vdc to -30 Vdc 130 ms typ. M12 connector, male 5 pin -40 °C to 85 °C [-40 °F to 185 °F] -40 °C to 150 °C [-40 °F to 302 °F] 3,0 mm ±2,0 mm [0.118 in ±0.079 in] typ. IP67, IP69K 50 G half sine wave with 11 ms duration 20 G from 10 Hz to 2000 Hz aluminum with powder coating CE www.DataSheet.net/ 4 6, 7 sensor and magnet collar M5 or UNC 10-24 5 N m to 7 N m [44.25 in lb to 61.95 in lb] Material neodymium (sintered NdFeB) magnet only Strength 3700 Gauss Notes: 1. Specifications are based on a non-ferrous shaft. 2. Linearity: Deviations from a best fit straight line through the output, expressed as a percentage of the full scale signal range (% of 16 mA). 3. Accuracy: Deviations from the ideal output line expressed as a percentage of the full scale signal range (% of 16 mA). 4. %FS: Error expressed as a percentage of the output span of the sensor (% of 16 mA). 5. Offset: Deviation from the ideal output at the minimum input condition, expressed as a percentage of the full scale signal range (% of 16 mA). 6. Sensitivity: The slope of the output signal vs magnet travel, expressed as µA of output per degree of travel. 7. TC: Temperature coefficient of a given parameter, as a percentage of the fu.


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