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ATS632LSC hall-effect gear-tooth sensor subassembly always order by complete part number, e.g., ATS632LSC . zero-speed, self-calibrating, non-oriented, hall-effect gear-tooth sensor data sheet 27627.126 the ATS632LSC gear-tooth sensor is an optimized hall-effect ic/ magnet combination that provides tooth/valley recognition and ex- tremely accurate tooth edge detection when used with large-pitch targets. the sensor subassembly consists of a high-temperature plastic shell that holds together a compound samarium-cobalt magnet, a single-element self-calibrating hall-effect ic that has been optimized to the magnetic circuit, and a voltage regulator. this small package, with its non-oriented operation, can be easily assembled and used in conjunction with a number of gear configurations. the gear sensing technology used for this sensor subassembly is hall-effect based. the sensor incorporates a single-element hall ic that switches in response to absolute magnetic signals created by a ferrous target. the digital output is low over a tooth and high over a valley. the sophisticated processing circuitry contains self-calibrating 6-bit a/d circuitry that adapts the thresholds to the peak-to-peak signals to minimize the effects of variation in application air gap on switch-point timing accuracy. the effects of system and device offsets are minimized by using active offset cancellation circuitry. the digital algorithm provides zero-speed detection capabilities without the associated running jitter inherent in classical digital solutions. the sensor system is ideal for use in gathering speed, position and profile information of ferrous objects. the device is particularly suited to large tooth/valley sensing applications where accurate timing accuracy is a desired feature. for applications requiring the sensing of fine-pitch gears, the ats611lsb is recommended. absolute maximum ratings supply voltage, v cc ......................... 24 v reverse supply voltage, v rcc (1 minute max.)................ -24 v output off voltage, v out ................ 24 v output current, i out .. internally limited reverse output current, i out ........ 50 ma package power dissipation, p d .................................... see graph operating temperature range, t a ........................... -40 c to +150 c storage temperature, t s ............ +170 c ATS632LSC continued next page dwg. ah-008 1 2 3 1 = supply 2 = output 3 = ground preliminary information (subject to change without notice) april 8, 1998
ATS632LSC hall-effect gear-tooth sensor subassembly 115 northeast cutoff, box 15036 worcester, massachusetts 01615-0036 (508) 853-5000 features and benefits n non-oriented installation n fully optimized gear-tooth sensors n single-chip sensing ic for high reliability n zero-speed digital output representing target profile n extremely low timing accuracy drift with tempera- ture n large operating air gaps n optimized magnetic circuit n self-calibrating circuitry with integrated offset cancellation 6-bit a/d converters to capture peaks thresholds proportional to peak-to-peak signals functional block diagram 600 400 200 40 80 120 160 0 ambient temperature in c allowable package power dissipation in mw dwg. gh-065-2 60 100 140 180 20 800 1200 r q ja = 119 c/w 1000 reg supply 1 x magnet reference generator threshold peak current limit negative peak track & hold positive peak track & hold output logic output ground dwg. fh-015-3 2 3 + gain offset 330 pf 100 w w copyright ? 1998, allegro microsystems, inc.
ATS632LSC hall-effect gear-tooth sensor subassembly limits characteristic symbol test conditions min. typ. max. units supply voltage v cc operating, t j < 165 c 6.0 12 24 v under-voltage lockout v cc(uv) i out = 5 ma, v cc = 0 ? 6 v C 5.0 C v low output voltage v out(l) i out = 5 ma, output on C 0.7 1.6 v output current limit i outm v out = 12 v 25 45 55 ma output leakage current i off v out = 24 v, output off C 5.0 10 m a supply current i cc output off, target speed = 0 rpm C 9.0 15 ma calibration count n cal output falling mechanical edges 16 16 16 pulses after power on for startup calibration to be complete calibration update n up output falling mechanical edges 64 64 64 pulses for the threshold calibration to be complete power-on time t po v cc > 6 v C 200 500 m s output rise time t r r l = 2.5 k w , c l = 10 pf C 3.0 6.0 m s output fall time t f r l = 2.5 k w , c l = 10 pf C 1.0 3.0 m s electrical characteristics over operating voltage and temperature range (unless otherwise specified). note: typical data is at v cc = 12 v and t a = +25 c and is for design information only.
ATS632LSC hall-effect gear-tooth sensor subassembly 115 northeast cutoff, box 15036 worcester, massachusetts 01615-0036 (508) 853-5000 limits characteristic symbol test conditions min. typ. max. units operating air gap range ag operating, 0.3 C 1.9 mm target speed > 20 rpm output polarity C operating, over tooth low low low C operating, over valley high high high C timing accuracy t q target speed < 3500 rpm, C 0.25 0.50 0.3 mm ag 1.9 mm operation over operating voltage and temperature range with reference target (unless oth- erwise specified). limits characteristic symbol description min. typ. max. units valley depth h t C 5.0 C mm valley width (p c - t) C 5.0 C mm tooth width t C 5.0 C mm thickness f C 5.0 C mm eccentricity C timing accuracy may change C C 0.25 mm target design criteria diameter thickness tooth width valley width valley depth type (d o ) (f) (t) (p c - t) (h t ) reference target 84 mm 16 mm 9 mm 13 mm 5 mm characterization target #1 84 mm 16 mm 1 tooth, 180 5 mm characterization target #2 35 mm 7 mm 1 tooth, 180 6 mm target dimensions note: timing accuracy data is taken by recalibrating the unit at each air gap. note: air gap is defined as the distance from the face of the sensor subassembly to the target.
ATS632LSC hall-effect gear-tooth sensor subassembly continued next page typical operating characteristics 3.0 0 0 1.0 1.75 air gap in millimeters relative timing accuracy in degrees dwg. gh-063-4 0.5 1.5 2.0 1.0 -2.0 -3.0 -1.0 0.25 0.75 1.25 rising edge -40 c +25 c +150 c target #1 3.0 0 0 1.0 1.75 air gap in millimeters dwg. gh-063-5 0.5 1.5 2.0 1.0 -2.0 -3.0 -1.0 0.25 0.75 1.25 falling edge -40 c +25 c +150 c target #1 relative timing accuracy in degrees 3.0 0 0 1.0 1.75 air gap in millimeters dwg. gh-063-6 0.5 1.5 2.0 1.0 -2.0 -3.0 -1.0 0.25 0.75 1.25 rising edge -40 c +25 c +150 c target #2 relative timing accuracy in degrees 3.0 0 0 1.0 1.75 air gap in millimeters dwg. gh-063-7 0.5 1.5 2.0 1.0 -2.0 -3.0 -1.0 0.25 0.75 1.25 falling edge -40 c +25 c +150 c target #2 relative timing accuracy in degrees
ATS632LSC hall-effect gear-tooth sensor subassembly 115 northeast cutoff, box 15036 worcester, massachusetts 01615-0036 (508) 853-5000 typical operating characteristics ? continued 51.0 49.5 0 1.0 1.75 air gap in millimeters duty cycle in per cent dwg. gh-008-11 0.5 1.5 50.5 50.0 48.5 48.0 49.0 0.25 0.75 1.25 -40 c +25 c +150 c target #1 +3 +1 -1 1000 3000 5000 7000 2000 4000 6000 -3 reference target speed in rpm relative timing accuracy in degrees dwg. gh-064-3 +2 0 -2 0 rising edge 0.5 mm 1.0 mm 1.5 mm 2.0 mm air gaps 51.0 49.5 0 1.0 1.75 air gap in millimeters duty cycle in per cent dwg. gh-008-12 0.5 1.5 50.5 50.0 48.5 48.0 49.0 -40 c +25 c +150 c 0.25 0.75 1.25 target #2 +3 +1 -1 1000 3000 5000 7000 2000 4000 6000 -3 reference target speed in rpm relative timing accuracy in degrees dwg. gh-064-4 +2 0 -2 0 falling edge 0.5 mm 1.0 mm 1.5 mm 2.0 mm air gaps
ATS632LSC hall-effect gear-tooth sensor subassembly applications information recommended evaluation technique. the self- calibrating feature of the ATS632LSC requires that a special evaluation technique be used to measure its high- accuracy performance capabilities. installation inaccura- cies are calibrated out at power on; hence, it is extremely important that the device be re-powered at each air gap when gathering timing accuracy data. self-calibrating functions. this subassembly is designed to minimize performance variation caused by the large air gap variations resulting from installation by self-calibrating at power-on. it is also designed to mini- mize performance variation caused by the smaller, slower air gap changes resulting from temperature change and gear run-out during continuous operation by updating the self-calibration periodically (after every 64 output pulses) if necessary. these two functions should be tested using the following procedure. 1. set the air gap to the desired value. 2. power down and then power on the device. 3. rotate the target at the desired speed. 4. wait for calibration to complete (16 output pulses to occur). 5. monitor output for correct switching and measure accuracy. 6. repeat the above for multiple air gaps within the operating range of the device. 7. this can be repeated over the entire temperature range. criteria for device qualification all allegro sensors are subjected to stringent qualification requirements prior to being released to production. to become qualified, except for the destructive esd tests, no failures are permitted. test method and samples qualification test test conditions test length per lot comments temperature humidity jesd22-a101, 1000 hrs 48 device biased for bias life t a = 85 c, rh = 85% minimum power bias life jesd22-a108, 1000 hrs 48 t a = 150 c, t j = 165 c (surge operating life) jesd22-a108, 168 hrs 48 t a = 175 c, t j = 190 c autoclave, unbiased jesd22-a102, 96 hrs 48 t a = 121 c, 15 psig high-temperature jesd22-a103, 1000 hrs 48 (bake) storage life t a = 170 c temperature cycle jesd22-a104 1000 cycles 48 -55 c to +150 c esd, cdf-aec-q100-002 pre/post 3 per test to failure human body model reading test all leads > 8 kv
ATS632LSC hall-effect gear-tooth sensor subassembly 115 northeast cutoff, box 15036 worcester, massachusetts 01615-0036 (508) 853-5000 measurement of the effect of changing air gap after power on: 1. set the air gap to the desired value (nominal, for example). rotate the target at the desired speed. apply power to the subassembly. wait for 16 output pulses to occur. monitor output for correct switching and measure accuracy. 2. change the air gap by 0.25 mm. do not re-power subassembly. wait for 64 output pulses to occur. monitor the output for correct switching and measure accuracy. device switch points. the device switch points are referenced to the peak-to-peak values of the gain-ad- justed signal. the comparator thresholds have been chosen to provide timing accuracy, as well as limited immunity from mis-detection caused by short valley conditions or by gear run-out. gear design criteria.* the system was designed to work correctly with minimum valley depths of 5 mm and minimum valley widths of 13 mm. as the valley depth decreases, the valley field rises above the open-circuit value of the magnetic circuit when the sensor is at mini- mum air gap. the same is true when the valley width decreases. in both cases, the metal mass from the valley bottom or side walls provides an interference at minimum air gap and will provide a signal that may be interpreted as a tooth upon power on. it is important to note that this anomaly will normally only affect the power-on state of the device and the self-calibration circuitry will null this baseline shift when the device is in running mode. * in application, the terms gear and target are often interchanged. however, gear is preferred when motion is transferred. signal-timing accuracy. timing accuracy is improved with larger gear diameters. the magnetic field profile has a defined spread that narrows in degrees as the target diameter increases. the slope of this magnetic profile also changes with air gap. for highest accuracy, targets greater than 100 mm diameter should be used. applications information ? continued operation with fine-pitch gears. the self-calibration routines allow the detection of fine-pitch gears once the target is rotating. the major issue in these applications is the impact of gear run-out on the baseline of the magnetic field. excessive run-out may result in tooth edges not being detected. signal duty cycle. for regular tooth geometries, precise duty cycle is maintained over the operating air gap and temperature range due to the good symmetry of the magnetic switch points of the device. output. the output of the subassembly is a short-circuit- protected open-collector stage capable of sinking 20 ma. an external pull-up (resistor) to a supply voltage of not more than 24 v must be supplied either at the sensor module or at the controller. output polarity. the switching of the output is independent of the direction of gear rotation. power supply protection. these devices require minimal protection circuitry during operation from a low- voltage line. the internal voltage regulator provides immunity to power supply variations between 6 v and 24 v. emi/rfi protection is provided as part of the internal regulator. in extremely noisy environments, additional (external) components may be required. additional applications information on gear-tooth and other hall-effect sensors is provided in the allegro inte- grated and discrete semiconductors data book or application note 27701 .
ATS632LSC hall-effect gear-tooth sensor subassembly continued next page sensor location (in millimeters) (sensor location relative to package center is the design objective) mechanical information ? all industry-accepted soldering techniques are permitted for these subassemblies provided the indicated maximum temperature for each component (e.g., sensor face, plastic housing) is not exceeded. reasonable dwell times, which do not cause melting of the plastic housing, should be used. component material function units package polyamide 6/12, 264 psi deflection temp. (dtul) 200 c 33% glass filled approximate melting temperature 219 c circuit board high-temperature fr-4 glass transition temperature 170 c terminals 1 oz copper C C terminal finish 63/37 tin/lead solder plate C ? flame class rating C C ul94v-0 dwg. mh-021 mm 0.1 a
ATS632LSC hall-effect gear-tooth sensor subassembly 115 northeast cutoff, box 15036 worcester, massachusetts 01615-0036 (508) 853-5000 dimensions in millimeters tolerances unless otherwise specified: 1 place 0.1 mm, 2 places 0.05 mm. dwg. mh-020 mm 5.0 a 1.5 typ 1.0 typ 6.0 4.9 10.0 max 5.0 6.6 11.0 0.8 27.5 1 3 gate protrusion 0.3 max 1.0 plated thru typ 1 3 2
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ATS632LSC hall-effect gear-tooth sensor subassembly 115 northeast cutoff, box 15036 worcester, massachusetts 01615-0036 (508) 853-5000 allegro microsystems, inc. reserves the right to make, from time to time, such departures from the detail specifications as may be required to permit improvements in the design of its products. the information included herein is believed to be accurate and reliable. however, allegro microsystems, inc. assumes no responsibility for its use; nor for any infringements of patents or other rights of third parties which may result from its use. adaptive threshold sensors selection guide part number application ats535csb programmable, tpos, large-tooth gear-position or proximity sensing (commercial temp. range) ats535jsb programmable, tpos, large-tooth gear-position or proximity sensing (industrial/auto. temp. range) ats610lsa large-tooth, gear-position sensing e crank angle, cam angle ats610lsc large-tooth, gear-position sensing with internal voltage regulator e crank angle, cam angle ats611lsb fine-pitch, large air gap, gear speed sensing e transmission speed, abs ats612jsb large/small-tooth gear-position sensing e crank angle, transmission speed, cam angle ats632lsa large-tooth, gear-position sensing (low digital output state over a tooth), cam angle ATS632LSC large-tooth, gear-position sensing (low digital output state over a tooth), with internal voltage regulator e cam angle ats640jsb tpos, gear-position sensing for two-wire applications

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