ARS ASIL-Compliant Wheel Speed Sensor IC. PACKAGE: 2-pin SIP (suffix UB) Functional Block Diagram VCC GND
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1 - FEATURES AND BENEFITS Integrated diagnostics and certified safety design process for ASIL B compliance Integrated capacitor reduces need for external EMI protection components True zero-speed operation Single chip sensing IC for high reliability Fully synchronous digital logic with Scan and IDDQ testing Application-proven algorithms for robust operation in wheel speed environments PACKAGE: -pin SIP (suffix UB) DESCRIPTION The ARS1900 is a Hall-effect-based integrated circuit (IC) that provides a user-friendly solution for true zero-speed digital ring magnet sensing in two-wire applications. The ARS1900 is offered in the UB package, which integrates the IC and a high temperature ceramic capacitor in a single overmolded SIP package. The integrated capacitor provides enhanced EMC performance with reduced external components. The IC is ideally suited for obtaining speed information in wheel speed applications. The Hall element spacing is optimized for high resolution, small diameter targets. The package is lead (Pb) free, with tin leadframe plating. Not to scale Functional Block Diagram VCC Internal Regulator Amp Offset Adjust AGC Analog to Digital Converter Digital Controller Output Control GND ARS1900-DS, Rev. 3 MCO May 18, 018
2 SELECTION GUIDE Part Number Packing Power-On State ARS1900LUBATN-L 4000 pieces per 13-in. reel I CC(LOW) ARS1900LUBATN-H 4000 pieces per 13-in. reel I CC(HIGH) ABSOLUTE MAXIMUM RATINGS Characteristic Symbol Notes Rating Unit Supply Voltage V CC 8 V Reverse Supply Voltage V RCC 18 V Operating Ambient Temperature T A L temperature range 40 to 150 C Maximum Junction Temperature T J (max) 165 C Storage Temperature T stg 65 to 170 C INTERNAL DISCRETE CAPACITOR RATINGS Characteristic Symbol Test Conditions Value (Typ.) Unit Nominal Capacitance C SUPPLY Connected between VCC and GND 00 pf 1 Terminal List Table Name Number Function VCC 1 Supply Voltage GND Ground UB Package, -Pin SIP Pinout Diagram
3 OPERATING CHARACTERISTICS: Valid throughout full operating and temperature ranges, unless otherwise specified Characteristic Symbol Test Conditions Min. Typ. [1] Max. Unit ELECTRICAL CHARACTERISTICS Supply Voltage [] V CC Operating, T J < T J (max) V Undervoltage Lockout V CC(UV) V CC 0 5 V or 5 0 V V Reverse Supply Current [3] I RCC V CC = V RCC (max) 10 ma Supply Zener Clamp Voltage V ZSUPPLY I CC = I CC (max) + 3 ma, T A = 5 C 8 V Supply Zener Current I ZSUPPLY T A = 5 C, V CC = 8 V 19 ma OUTPUT Power-On State Supply Current Supply Current Ratio POS -H variant I CC(HIGH) -L variant I CC(LOW) I CC(LOW) Low-current state ma I CC(HIGH) High-current state 1 16 ma I CC(HIGH) / I CC(LOW) Measured as ratio of high current to low current (isothermal) 1.9 ASIL Safety Current I RESET ma Corresponds to measured output slew rate with Output Rise, Fall Time t r, t f C SUPPLY ; R LOAD = 100 Ω, C L = 10 pf μs OPERATING CHARACTERISTICS Operate Point B OP % of peak-to-peak IC-processed magnetic signal 60 % Release Point B RP % of peak-to-peak IC-processed magnetic signal 40 % Operating Frequency f FWD 0 5 khz Continued on the next page V CC 1 VCC ARS1900 GND R L 100 Ω C L Figure 1: Typical Application Circuit 3
4 OPERATING CHARACTERISTICS (continued): Valid throughout full operating and temperature ranges, unless otherwise specified Characteristic Symbol Test Conditions Min. Typ. [1] Max. Unit OPERATING CHARACTERISTICS (continued) Input Signal B SIG Differential signal, measured peak-to-peak G Allowable User-Induced Differential Offset B SIGEXT External differential signal bias (DC), operating within specification G Sensitivity Temperature Coefficient [4] TC +0. %/ C Total Pitch Deviation For constant B SIG, sine wave ± % Maximum Sudden Signal Amplitude Change Maximum Total Signal Amplitude Change B SEQ(n+1) / B SEQ(n) No missed output edge. Instantaneous symmetric magnetic signal amplitude change, measured as a percentage of peak-to-peak B SIG (see Figure ) 0.6 Overall symmetric magnetic signal amplitude B SEQ(max) change, measured as a percentage of peak-topeak B 0. / B SEQ(min) SIG [1] Typical values are at T A = 5 C and V CC = 1 V. Performance may vary for individual units, within the specified maximum and minimum limits. [] Maximum voltage must be adjusted for power dissipation and junction temperature; see representative discussions in Power Derating section. [3] Negative current is defined as conventional current coming out of (sourced from) the specified device terminal. [4] Ring magnets decrease strength with rising temperature. Device compensates. Note that B SIG requirement is not influenced by this. B SEQ(n) B SEQ(n+1) Figure : Differential Signal Variation 4
5 THERMAL CHARACTERISTICS Characteristic Symbol Test Conditions* Value Unit Package Thermal Resistance R θja Single-layer PCB with copper limited to solder pads 13 C/W *Additional thermal information is available on the Allegro website. Power Derating Curve Maximum Allowable V (V) CC Power Dissipation P (mw) D Temperature (ºC) Power Dissipation versus Ambient Temperature V CC(max) V CC(min) Temperature (ºC) 5
6 FUNCTIONAL DESCRIPTION Hall Technology This single-chip differential Hall-effect sensor IC contains two Hall elements as shown in Figure 3, which simultaneously sense the magnetic profile of the ring magnet or gear target. The magnetic fields are sensed at different points (spaced at a 1.75 mm pitch), generating a differential internal analog voltage, V PROC, that is processed for precise switching of the digital output signal. The Hall IC is self-calibrating and also possesses a temperaturecompensated amplifier and offset cancellation circuitry. Its voltage regulator provides supply noise rejection throughout the operating voltage range. Changes in temperature do not greatly affect this device due to the stable amplifier design and the offset rejection circuitry. The Hall transducers and signal processing electronics are integrated on the same silicon substrate, using a proprietary BiCMOS process. Target Profiling During Operation An operating device is capable of providing digital information that is representative of the mechanical features of a rotating gear or ring magnet. The waveform diagram in Figure 5 presents the automatic translation of the mechanical profile, through the magnetic profile that it induces, to the digital output signal of the ARS1900. No additional optimization is needed and minimal processing circuitry is required. This ease of use reduces design time and incremental assembly costs for most applications. Determining Output Signal Polarity In Figure 5, the top panel, labeled Mechanical Position, represents the mechanical features of the ring magnet or gear target and orientation to the device. The bottom panel, labeled Device Output Signal, displays the square waveform corresponding to the digital output signal that results from a rotating target configured as shown in Figure 4. That direction of rotation (of the target side adjacent to the package face) is: perpendicular to the leads, across the face of the device, from the pin 1 side to the pin side. This results in the device output switching from high to low output state as a north magnetic pole passes the device face. In this configuration, the device output voltage switches to its high polarity when a south pole is the target feature nearest to the device. If the direction of rotation is reversed or if a part of type ARS1900LUBx-L is used, then the output polarity inverts (see Table 1). Table 1: Output Polarity when a South Pole Passes the Package Face in the Indicated Rotation Direction Rotation Direction ARS1900LUBx-H Part Type ARS1900LUBx-L Pin 1 Pin I CC(HIGH) I CC(LOW) Pin Pin 1 I CC(LOW) I CC(HIGH) Ring Magnet Target Ferromagnetic Target S N S N Pin Side Tooth Valley Element Pitch Hall Element Hall Element 1 Package Case Branded Face Back-Biasing Magnet (Externally applied for ferromagnetic target) IC South Pole North Pole Pin 1 Side (Top View of Package Case) Rotating Target (Ring magnet or ferromagnetic) Rotating Target (Ring magnet or ferromagnetic) S N N S S N N S Rotation from pin 1 to pin S N S N N S N S Pin 1 Pin Pin 1 Pin Branded Face of Package Branded Face of Package Figure 3: Relative Motion of the Target Relative Motion of the Target is detected by the dual Hall elements mounted on the Hall IC. Rotation from pin to pin 1 Figure 4: Target Orientation Relative to Device (ring magnet shown). 6
7 Device Orientation to Target (Pin Side) Target Magnetic Profile +B E IC N Element Pitch Package Case Branded Face (Pin 1 Side) (Top View of Package Case) Mechanical Position (Target moves past device pin 1 to pin ) This pole Target This pole sensed earlier (Radial Ring Magnet) sensed later N S N E1 Element Pitch Device Orientation to Target (Pin Side) External Back-Biasing Magnet E IC E1 South Pole North Pole Element Pitch Package Case Branded Face (Pin 1 Side) (Top View of Package Case) Mechanical Position (Target moves past device pin 1 to pin ) This tooth sensed earlier Target Magnetic Profile +B Target (Ferromagnetic) This tooth sensed later Speed Channel Element Pitch B IC Internal Differential Analog Signals, V PROC IC Internal Differential Analog Signals, V PROC Speed Channel B OP(#1) B RP(#1) B OP(#) B OP(#1) B RP(#1) B OP(#) Device Output Signal,I OUT Device Output Signal,I OUT +t +t Figure 5: Basic Operation 7
8 Magnetic Encoder S N S N S N Normal Operation I CC(HIGH) I CC(LOW) Error Example 1 I CC(HIGH) I CC(LOW) I RESET Error Error Example I CC(HIGH) I CC(LOW) I RESET Error Figure 6: Output Protocol with ASIL Safety Current 8
9 POWER DERATING The device must be operated below the maximum junction temperature of the device, T J(max). Under certain combinations of peak conditions, reliable operation may require derating supplied power or improving the heat dissipation properties of the application. This section presents a procedure for correlating factors affecting operating T J. (Thermal data is also available on the Allegro MicroSystems website.) The Package Thermal Resistance, R θja, is a figure of merit summarizing the ability of the application and the device to dissipate heat from the junction (die), through all paths to the ambient air. Its primary component is the Effective Thermal Conductivity, K, of the printed circuit board, including adjacent devices and traces. Radiation from the die through the device case, R θjc, is relatively small component of R θja. Ambient air temperature, T A, and air motion are significant external factors, damped by overmolding. The effect of varying power levels (Power Dissipation, P D ), can be estimated. The following formulas represent the fundamental relationships used to estimate T J, at P D. P D = V IN I IN (1) ΔT = P D R θja () T J = T A + ΔT (3) For example, given common conditions such as: T A = 5 C, V CC = 1 V, I CC = 14 ma, and R θja = 13 C/W, then: A worst-case estimate, P D(max), represents the maximum allowable power level (V CC(max), I CC(max) ), without exceeding T J(max), at a selected R θja and T A. Example: Reliability for V CC at T A = 150 C, package UB, using minimum-k PCB. Observe the worst-case ratings for the device, specifically: R θja = 13 C/W, T J(max) = 165 C, V CC(max) = 4 V, and I CC(max) = 16 ma. Calculate the maximum allowable power level, P D(max). First, invert equation 3: ΔT max = T J(max) T A = 165 C 150 C = 15 C This provides the allowable increase to T J resulting from internal power dissipation. Then, invert equation : P D(max) = ΔT max R θja = 15 C 13 C/W = 70.4 mw Finally, invert equation 1 with respect to voltage: V CC(est) = P D(max) I CC(max) = 70.4 mw 16.0 ma = 4.4 V The result indicates that, at T A, the application and device can dissipate adequate amounts of heat at voltages V CC(est). Compare V CC(est) to V CC(max). If V CC(est) V CC(max), then reliable operation between V CC(est) and V CC(max) requires enhanced R θja. If V CC(est) V CC(max), then operation between V CC(est) and V CC(max) is reliable under these conditions. P D = V CC I CC = 1 V 14 ma = 168 mw ΔT = P D R θja = 168 mw 13 C/W = 35.8 C T J = T A + ΔT = 5 C C = 60.8 C 9
10 PACKAGE OUTLINE DRAWING For Reference Only Not for Tooling Use (Reference DWG , Rev. 3) Dimensions in millimeters Dimensions exclusive of mold flash, gate burrs, and dambar protrusions Exact case and lead configuration at supplier discretion within limits shown B 4 10 E 1.75 E 1.15 C 1.50 ± ± E E E1 E E Mold Ejector Pin Indent A Branded Face 0.85 ± XXXXX Date Code Lot Number 4.50 ± REF 0.5 REF 0.30 REF.54 REF 0.4 ±0.05 D Standard Branding Reference View Line 1 = Part Number (5 characters) Line = Date Code (4 digits) Line 3 = Characters 5-8 of Assembly Lot Number ± ± ±0.10 A B Dambar removal protrusion (8 ) Gate and tie bar burr area REF C Active Area Depth, 0.38 ±0.03 mm 1.80 ±0.10 D E Branding scale and appearance at supplier discretion Hall elements (E1 and E); not to scale F Molded Lead Bar for preventing damage to leads during shipment 0.38 REF REF 0.5 REF 0.85 ± F ±0.05 Figure 7: Package UB, -Pin SIP 10
11 Revision History Number Date Description March 9, 017 Initial preliminary release 1 May 19, 017 Corrected part number (page ) July 11, 017 Removed Chopping references 3 May 18, 018 Status changed from Preliminary to Final, removed t RESET, updated Figure 6, updated Package Outline Drawing, and other editorial updates Copyright 018, reserves the right to make, from time to time, such departures from the detail specifications as may be required to permit improvements in the performance, reliability, or manufacturability of its products. Before placing an order, the user is cautioned to verify that the information being relied upon is current. Allegro s products are not to be used in any devices or systems, including but not limited to life support devices or systems, in which a failure of Allegro s product can reasonably be expected to cause bodily harm. The information included herein is believed to be accurate and reliable. However, assumes no responsibility for its use; nor for any infringement of patents or other rights of third parties which may result from its use. Copies of this document are considered uncontrolled documents. For the latest version of this document, visit our website: 11
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Discontinued Product This device is no longer in production. The device should not be purchased for new design applications. Samples are no longer available. Date of status change: June 2, 214 Recommended
More informationSUPPLY GROUND NO (INTERNAL) CONNECTION Data Sheet a SUNSTAR 传感与控制 61 AND 62 Suffix Code 'LH' Pinning (SOT2W) X NC 1
A61 and A62 2-Wire Chopper Stabilized Hall Effect Switches Discontinued Product These parts are no longer in production The device should not be purchased for new design applications. Samples are no longer
More informationSL621 REVISED DECEMBER 2016
EISED DECEMBE 2016 High Precision, Programmable Linear Hall Effect Sensor With Advanced Temperature Compensation FEATUES AND BENEFITS Proprietary segmented linear interpolated temperature compensation
More informationA1266. Micropower Ultrasensitive 3D Hall-Effect Switch PACKAGES:
Micropower Ultrasensitive 3 Hall-Effect Switch FEATURES AN BENEFITS True 3 sensing Omnipolar operation with either north or south pole. to. operation Low supply current High sensitivity, B OP typically
More informationA4950. Full-Bridge DMOS PWM Motor Driver. Description
Features and Benefits Low R DS(on) outputs Overcurrent protection (OCP) Motor short protection Motor lead short to ground protection Motor lead short to battery protection Low Power Standby mode Adjustable
More informationA V OUT, 50 ma Automotive Linear Regulator with 50 V Load Dump and Short-to-Battery Protection
FEATURES AND BENEFITS Automotive AEC-Q100 qualified 5.25 to 40 V IN operating range, 50 V load dump rating 5 V ±1% internal LDO regulator Foldback short-circuit protection Short-to-battery protection (to
More informationZERO-SPEED, SELF-CALIBRATING, NON-ORIENTED, HALL-EFFECT GEAR-TOOTH SENSOR IC
Data Sheet 27627.126a ZERO-SPEED, SELF-CALIBRATING, NON-ORIENTED, 1 = Supply 2 = Output 3 = Ground 1 2 3 ABSOLUTE MAXIMUM RATINGS Supply Voltage, V CC... 24 V Reverse Supply Voltage, V RCC (1 minute max.)...
More informationDiscontinued Product
346, 356, and 358 Hall Effect Gear-Tooth Sensor ICs Zero Speed Discontinued Product This device is no longer in production. The device should not be purchased for new design applications. Samples are no
More informationDiscontinued Product
Discontinued Product This device is no longer in production. The device should not be purchased for new design applications. Samples are no longer available. Date of status change: October 31, 011 Recommended
More informationAPS11900 Two-Wire End-of-Line Programmable Hall-Effect Switch/Latch
2 - APS11900 FEATURES AND BENEFITS ASIL A functional safety compliance Developed in accordance with ISO 26262:2011 Internal diagnostics and a defined Safe State A 2- SIL documentation available Highly
More informationLast Time Buy. Deadline for receipt of LAST TIME BUY orders: October 29, 2010
Last Time Buy This part is in production but has been determined to be LAST TIME BUY. This classification indicates that the product is obsolete and notice has been given. Sale of this device is currently
More informationThe differential Hall Effect sensor SC9625 provides a high sensitivity and a superior stability over
Features Integrated filter capacitor South and North pole pre-induction possible Larger air gap 9625 3.8 to 24V supply operating range Wide operating temperature range Output compatible with both TTL and
More informationACS717. High Isolation, Linear Current Sensor IC with 850 µω Current Conductor ACS717. PACKAGE: 16-Pin SOICW (suffix MA)
High Isolation, Linear Current Sensor IC with FEATURES AND BENEFITS IEC/UL 60950-1 Ed. 2 certified to: Dielectric Strength = 4800 Vrms (tested for 60 seconds) Basic Isolation = 1550 Vpeak Reinforced Isolation
More informationTypical Application VCC IP+ ACS755 GND C F 3 R F
Features and Benefits Monolithic Hall IC for high reliability Single +5 V supply 3 kv RMS isolation voltage between terminals /5 and pins 1/2/3 for up to 1 minute 35 khz bandwidth Automotive temperature
More informationA6B Bit Serial-Input DMOS Power Driver
Features and Benefits 50 V minimum output clamp voltage 150 ma output current (all outputs simultaneously) 5 Ω typical r DS(on) Low power consumption Replacement for TPIC6B595N and TPIC6B595DW Packages:
More informationACS717. High Isolation, Linear Current Sensor IC with 850 µω Current Conductor ACS717. Package: 16-Pin SOICW (suffix MA)
FEATURES AND BENEFITS IEC/UL 60950-1 Ed. 2 certified to: Dielectric Strength = 4800 Vrms (tested for 60 seconds) Basic Isolation = 1550 Vpeak Reinforced Isolation = 800 Vpeak Small footprint, low-profile
More informationDistributed by: www.jameco.com 1-8-81-4242 The content and copyrights of the attached material are the property of its owner. Data Sheet 27621.2d HALL-EF FECT SWITCH Suffix LT & UA Pinning (SOT89/TO-24AA
More informationHALL-EFFECT, DIRECTION-DETECTION SENSORS
S Data Sheet 2765.1B V CC SUPPLY E1 X LOGIC E2 DIRECTION GROUND X E1 OUTPUT SPEED Dwg PH-15 Pinning is shown viewed from branded side. ABSOLUTE IMUM RAT INGS Supply Voltage, V CC.............. 18 V Magnetic
More informationA3950. DMOS Full-Bridge Motor Driver
Features and Benefits Low R DS(on) outputs Overcurrent protection Motor lead short-to-supply protection Short-to-ground protection Sleep function Synchronous rectification Diagnostic output Internal undervoltage
More informationA4954 Dual Full-Bridge DMOS PWM Motor Driver
Dual Full-Bridge DMOS Features and Benefits Low R DS(on) outputs Overcurrent protection (OCP) Motor short protection Motor lead short to ground protection Motor lead short to battery protection Low Power
More informationProtected Quad Power Driver
Features and Benefits 700 ma output current per channel Independent overcurrent protection for each driver Thermal protection for device and each driver Low output-saturation voltage Integral output flyback
More informationA4970. Dual Full-Bridge PWM Motor Driver
Dual Full-Bridge PWM Motor Driver Features and Benefits 750 ma continuous output current 45 V output sustaining voltage Internal clamp diodes Internal PWM current control Low output saturation voltage
More informationDiscontinued Product
Dual Full-Bridge PWM Motor Driver Discontinued Product This device is no longer in production. The device should not be purchased for new design applications. Samples are no longer available. Date of status
More informationUDN2987x-6 DABIC-5 8-Channel Source Driver with Overcurrent Protection
Features and Benefits 4.75 to 35 V driver supply voltage Output enable-disable (OE/R) 350 ma output source current Overcurrent protected Internal ground clamp diodes Output Breakdown Voltage 35 V minimum
More informationPROTECTED, HIGH-TEMPERATURE, HALL-EFFECT LATCH WITH ACTIVE PULL-DOWN
PROTECTED, HIGH-TEMPERATURE, WITH Data Sheet 2769.5a V CC X 2 LATCH 3 These Hall-effect latches are capable of sensing magnetic fields while using an unprotected power supply. The A395 can provide position
More informationA3121, A3122, and A3133
A3121, A3122, and A3133 Hall Effect Switches for High Temperature Operation Discontinued Product These parts are no longer in production The device should not be purchased for new design applications.
More informationDiscontinued Product
Discontinued Product These parts are no longer in production The device should not be purchased for new design applications. Samples are no longer available. Date of status change: May 4, 2009 Recommended
More informationFor Reference Only DUAL-OUTPUT HALL-EFFECT SWITCH FEATURES. ABSOLUTE MAXIMUM RATINGS at T A = +25 C
Data Sheet 27633b Type UGN3235K Hall-effect sensor ICs are bipolar integrated circuits designed for commutation of brushless dc motors, and other rotary encoding applications using multi-pole ring magnets.
More informationCosemitech. Automotive Product Group. FEATURES and FUNCTIONAL DIAGRAM
FEATURES and FUNCTIONAL DIAGRAM AEC-Q100 automotive qualified Digital Omnipolar-Switch Hall Sensor Superior Temperature Stability Multiple Sensitivity Options (BOP / BRP): ±25 / ±15 Gauss; ±70 /±35 Gauss;
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