View A393213_6834319.PDF datasheet online --- IC-ON-LINE

Datasheet File OCR Text:

description the a3932 is a three-phase mosfet con trol ler for use with bipolar brushless dc motors. its high gate-current drive capability allows driving a wide range of n-channel power mosfets and can support motor supply voltages to 50 v. bootstrapped high-side drive blocks provide the float ing positive supplies for the gate drive and minimize the component count normally required. the high-side cir cuit ry also em ploys a unique fet monitoring circuit that ensures the gate voltages are at the proper levels before turn-on and during the on cycle. internal fixed off-time pwm current-control circuitry can be used to regulate the maximum load current to a desired value. the peak load-current limit is set by the user?s selection of an input reference volt age and external sensing resistor. the fixed off-time pulse duration is set by a user-selected external rc timing network. for added flexibility, the pwm input can be used to provide speed/torque control, allowing the internal current control circuit to set the maximum current limit. optional synchronous rectification is included. this feature will short out the current path through the power mosfet reverse body diodes during the pwm off-cycle current decay. this can minimize power dissipation in the power mosfet, eliminate the need for external power clamp diodes, and potentially allow more eco nom i cal choices for the mosfet application. the a3932 includes the commutation logic for hall sensors configured for 120 degree spacing. power mosfet protection features include bootstrap capacitor charging current monitor, undervoltage monitor, motor-lead short-to-ground, and thermal shutdown. the ??s?? part-number suffix in di cates an operating temperature range of -20c to +85c. the ??ld?? suffix in di cates a 38-lead tssop package. the initial ??tr?? variant suffix indicates tape and reel packing. the ??t? final variant suffix indicates lead (pb) free composition, with 100% matte tin leadframe plating. 26301.101h features and benefits ? drives wide range of n-channel mosfets ? synchronous rectification ? power mosfet protection ? adjustable dead time for cross-conduction pro tec tion ? 100% duty cycle operation ? selectable fast or slow current-decay modes ? internal pwm peak current control ? high-current gate drive ? motor lead short-to-ground protection ? internal 5 v regulator ? brake input ? pwm torque-control input ? fault-diagnostic output ? tachometer output ? thermal shutdown ? undervoltage protection three-phase power mosfet controller packages not to scale a3932 38-pin tssop (suf x ld)
three-phase power mosfet controller a3932 2 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com selection guide part number packing a3932sldtr-t 4000 pieces per reel absolute maximum ratings characteristic symbol notes rating units supply voltage v bb 50 v peak regulator voltage v reg 15 v logic input voltage range v in ?0.3 to v lcap + 0.3 v sense voltage range v sense ?5 to 1.5 v output voltage range v sa, sb, sc pins ?5 to 50 v gha, ghb, ghc pins ?5 to v bb + 17 v ca, cb, cc pins v s x + 17 v operating ambient temperature t a range s ?20 to 85 oc junction temperature t j 150 oc storage temperature t stg ?55 to 150 oc
three-phase power mosfet controller a3932 3 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com 38-pin tssop (suf x ld) ca fault lcap vreg glc sc nc nc nc ghc reset cc glb sb ghb cb gla sa gha h3 mode h1 nc nc pgnd agnd dead vbb ref nc sense rc pwm tach sr brake dir h2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 fault control logic pin-out diagram
three-phase power mosfet controller a3932 4 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com functional block diagram note ? for 12 v applications, vbb is shorted to vreg. the v reg absolute maximum rating (15 v) must not be ex ceed ed.
three-phase power mosfet controller a3932 5 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com parameter symbol conditions limits min typ max units supply current quiescent current i bb reset high, coast mode, stopped ? ? 8.0 ma reference voltage v lcap i lcap = -3 ma 4.75 5.0 5.25 v output voltage v reg v bb = v reg 15 v, i reg = -10 ma 10.8 ? 13.2 v 18 v v bb 50 v, i reg = -10 ma 12.4 13 13.6 v v bb = 13.2 v to 18 v, i reg = -10 ma ? v bb - 2.5 ? v output voltage regulation ? v reg( ? ireg) i reg = -1 to -30 ma, coast ? 25 ? mv ? vreg( ? vbb) i reg = -10 ma, coast ? 40 ? mv digital logic levels logic input voltage v ih all inputs except sr 2.0 ? ? v sr input only 3.0 ? ? v v il all inputs except sr ? ? 0.8 v sr input only ? ? 1.8 v logic input current i ih v ih = 2 v -30 ? -90 a i il v il = 0.8 v -50 ? -130 a gate drive low-side output voltage v glxh i glx = 0 v reg - 0.8 v reg - 0.5 ? v high-side output voltage v ghxh i ghx = 0 10.4 11.6 12.8 v pulldown switch resistance r ds(on) i glx = 50 ma ? 4.0 ? ? pullup switch resistance r ds(on) i ghx = -50 ma ? 14 ? ? low-side output switching time t rglx 10% to 90%, with c load ? 120 ? ns t fglx 90% to 10%, with c load ?60?ns high-side output switching time t rghx 10% to 90%, with c load ? 120 ? ns t fghx 90% to 10%, with c load ?60?ns propagation delay time (pwm to gate output) t pr ghx, glx rising, c load = 0 ? 220 ? ns t pf ghx, glx falling, c load = 0 ? 110 ? ns maximum dead time t dead ghx to glx, v dead = 0 v, c load = 0 3.5 5.6 7.6 s minimum dead time t dead glx to ghx, i dead = 780 a, c load = 0 50 100 150 ns electrical characteristics: unless otherwise noted at t a = 25c; v bb = 18 v to 50 v; c lcap , c boot = 0.1 f; c reg = 10 f; c load = 3300 pf ; f pwm = 22.5 khz square wave; two phases active. notes: 1. typical data is for design information only. 2. negative current is de ned as coming out of (sourcing) the speci ed device terminal. continued ?
three-phase power mosfet controller a3932 6 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com electrical characteristics: unless otherwise noted at t a = 25c; v bb = 18 v to 50 v; c lcap , c boot = 0.1 f; c reg = 10 f; c load = 3300 pf ; f pwm = 22.5 khz square wave; two phases active. parameter symbol con di tions limits min typ max units bootstrap capacitor bootstrap charge current i cx 100 ? ? ma bootstrap output voltage v cx v sx = 0, i cx = 0, v reg = 13 v 10.4 11.6 12.8 v bootstrap resistance r cx i cx = -50 ma ? 9.0 12 current limit circuitry input offset voltage v io 0 v v ic 1.5 v ? ? 5.0 mv sense input current i sense v ic 0 v, v id 1.5 v ? -25 ? a reference input current i ref v ic 0 v, v id 1.5 v ?0? a blank time t blank r t = 56 k , c t = 470 pf ? 0.91 ? s rc charge current i rc -0.9 -1.0 -1.1 ma rc voltage threshold v rcl 1.0 1.1 1.2 v v rch 2.7 3.0 3.3 v protection circuitry bootstrap charge threshold i cx ? -9.0 ? ma motor short-to-ground monitor v dsh v bb - v sx , high side on 1.3 2.0 2.7 v undervoltage threshold uvlo increasing v reg 9.2 9.7 10.2 v decreasing v reg 8.6 9.1 9.6 v fault output voltage v fault i o = 1 ma ? ? 0.5 v tach output voltage v tach i o = 1 ma ? ? 0.5 v tach output pulse width t tach i o = 1 ma, c tach = 50 pf ? 0.75 ? s thermal shutdown temp. t j ? 165 ? c thermal shutdown hyster- esis ? t j ?10?c thermal resistance r ja package eq four-layer pcb ? 37 ? c/w package ld four-layer pcb ? 51 ? c/w notes: 1. typical data is for design information only. 2. negative current is defined as coming out of (sourcing) the specified device terminal.
three-phase power mosfet controller a3932 7 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com reset ? a logic input used to enable the device, internally pulled up to v lcap (+5 v). a reset = 1 will disable the de vice and force all gate drivers to 0 v, coasting the motor. a reset = 0 allows the gate drive to follow the commutation logic. the reset = 1 overrides brake. gla/glb/glc ? low-side, gate-drive outputs for ex ter nal nmos drivers. external series-gate resistors (as close as pos- sible to the nmos gate) can be used to con trol the slew rate seen at the power-driver gate, thereby controlling the di/dt and dv/dt of the sa/sb/sc outputs. glx = 1 (or ?high?) means that the upper half (pmos) of the driver is turned on and its drain will source current to the gate of the low-side fet in the exter- nal motor-driving bridge. glx = 0 (or ?low?) means that the lower half (nmos) of the driver is turned on and its drain will sink current from the external fet?s gate circuit. sa/sb/sc ? directly connected to the motor, these terminals sense the volt ag es switched across the load. these ter mi nals are also connected to the neg a tive side of the bootstrap ca pac i tors and are the negative supply connections for the oating high- side drivers. gha/ghb/ghc ? high-side, gate-drive outputs for external nmos drivers. external se ries-gate resistors can be used to control the slew rate seen at the power-driver gate, thereby con- trolling the di/dt and dv/dt of the sa/sb/sc outputs. ghx = 1 (or ?high?) means that the upper half (pmos) of the driver is turned on and its drain will source current to the gate of the high-side fet in the external motor-driving bridge. ghx = 0 (or ?low?) means that the lower half (nmos) of the driver is turned on and its drain will sink current from the external fet?s gate circuit. ca/cb/cc ? high-side connections for the bootstrap ca pac i- tors, positive supply for high-side gate drivers. the boot strap capacitors are charged to approximately v reg when the as so - ci at ed output sx terminal is low. when the output swings high, the voltage on this ter mi nal rises with the output to provide the boosted gate voltage needed for n-channel power mosfets. terminal descriptions continued next page ld name 1 reset 2 glc 3sc 4,5,18, 23,37,38 nc 6 ghc 7cc 8 glb 9sb 10 ghb 11 cb 12 gla 13 sa 14 gha 15 ca 16 vreg 17 lcap 19 fault 20 mode 21 vbb 22 h1 24 h3 25 h2 26 dir 27 brake 28 sr 29 tach 30 pwm 31 rc 32 sense 33 ref 34 dead 35 agnd 36 pgnd
three-phase power mosfet controller a3932 8 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com fault ? open-drain output to indicate fault condition; fault = 1 (external pull-up) for any of the following: 1 ? invalid hall input code, 2 ? undervoltage condition detected at vreg. 3 ? thermal shutdown, or 4 ? motor lead (sa/sb/sc) shorted to ground. except for a short-to-ground fault that only turns off the high-side drivers, faults will force a coast condition that turns off all power mosfets. only the short-to-ground fault is latched but is cleared at each com mu ta tion. if the motor has stalled due to a short-to-ground being detected, toggling the reset ter mi nal or repeating a power-up sequence will clear the fault. typically pulled up to v lcap (+5 v) with an external 5.1 k resistor. mode ? a logic input to set current-decay method, internally pulled up to v lcap (+5 v). when in slow-decay mode (mode = 1), only the high-side mosfet is switched off during a pwm-off cycle. the fast-decay mode (mode = 0) switches both the high-side and low-side mosfets. h1/h2/h3 ? hall-sensor inputs; internally pulled up to v lcap (+5 v). con g ured for 120 electrical spacing. dir ? a logic input to reverse rotation, see commutation truth table. internally pulled up to v lcap (+5 v). brake ? an active-low logic input for a braking function. a brake = 0 will turn on the low-side fets and turn off the high-side fets. this will effectively short-circuit the bemf in the wind ings and brake the motor. the braking torque applied will depend on the speed. internally pulled up to v lcap (+5 v). reset = 1 overrides brake and will coast the motor. sr ? synchronous recti cation input. an sr = 0 disables this feature, forcing current decay through the body diodes of the power mosfets. an sr = 1 will result in ap pro pri ate high- and low-side gate outputs to switch in re sponse to a pwm-off com mand. internally pulled up to v lcap (+5 v). see also the input logic table. tach ? an open-drain digital output whose frequency is pro- portional to speed of rotation. a pulse appears at every hall transition. typ i cal ly pulled up to v lcap (+5 v) with an external 5.1 k resistor. pwm ? speed control input, internally pulled up to v lcap (+5 v). a pwm = 0 turns off selected drivers. a pwm = 1 will turn on selected drivers as determined by h1/h2/h3 input logic. hold ing pwm = 1 allows speed/torque control solely by the internal current-limit circuit with the ref analog voltage. see also the input logic table . rc ? an analog input used to set the xed off time with an external resistor (r t ) and capacitor (c t ). the t blank time is con- trolled by the value of the external ca pac i tor (see ap pli ca tions information). see application information. sense ? an analog input to the current-lim it com par a tor. a voltage rep re sent ing load current appears on this ter mi nal dur- ing on time, when it reaches ref voltage, the comparator trips and load current decays for the xed off-time interval. volt- age transients seen at this ter mi nal when the drivers turn on are ignored for time t blank . ref ? an analog input to the current-lim it com par a tor. volt- age applied here with respect to agnd sets the peak load cur- rent. i peak = v ref /r s . vreg ? a regulated 13 v output; supply for low-side gate drive and boot strap capacitor charge circuits. it is good practice to connect a decoupling capacitor from this ter mi nal to agnd, as close to the de vice ter mi nals as pos si ble. this terminal should be shorted to v bb for 12 v applications. vbb ? the a3932 supply voltage. it is good practice to con- nect a decoupling capacitor from this ter mi nal to agnd, as close to the de vice ter mi nals as pos si ble. lcap ? con nec tion for 0.1 f decoupling capacitor for the internal 5 v reference. this terminal can source no more than 3 ma for the dead input, tach and fault outputs. dead ? an analog input. a resistor between dead and lcap is selected to adjust the turn-off to turn-on time. this delay is needed to prevent shoot-through in the external power mosfets. see applications information for details on setting dead time. agnd ? the low-level (analog) reference point. pgnd ? the return for all low-side gate drivers. this should be connected to the system power ground. terminal descriptions (cont?d)
three-phase power mosfet controller a3932 9 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com commutation truth table logic inputs driver outputs motor terminals h1 h2 h3 dir gla glb glc gha ghb ghc sa sb sc 1 0 1 1 0 0 1 1 0 0 h z l 1 0 0 1 0 0 1 0 1 0 z h l 1 1 0 1 1 0 0 0 1 0 l h z 0 1 0 1 1 0 0 0 0 1 l z h 0 1 1 1 0 1 0 0 0 1 z l h 0 0 1 1 0 1 0 1 0 0 h l z 1 0 1 0 1 0 0 0 0 1 l z h 1 0 0 0 0 1 0 0 0 1 z l h 1 1 0 0 0 1 0 1 0 0 h l z 0 1 0 0 0 0 1 1 0 0 h z l 0 1 1 0 0 0 1 0 1 0 z h l 0 0 1 0 1 0 0 0 1 0 l h z input logic mode pwm sr reset operation 0 0 0 0 pwm chop mode, fast decay, all drivers off 0 1 0 0 peak current limit, selected drivers on 1 0 0 0 pwm chop mode. slow decay, selected low side drivers on 1 1 0 0 peak current limit, selected drivers on 0 0 1 0 pwm chop mode, fast decay with opposite of selected drivers on 0 1 1 0 peak current limit, selected drivers on 1 0 1 0 pwm chop, slow decay with both low-side drivers on 1 1 1 0 peak current limit, selected drivers on x x x 1 all gate drive outputs off, clear fault logic, coast l = low (less positive) level h = high (more positive) level x = don?t care z = high impedance 1 = active or true logic condition 0 = inactive or false logic condition
three-phase power mosfet controller a3932 10 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com applications information additionally, a 0.1 f (or larger) decoupling capacitor should be connected between lcap and agnd as close to the device terminals as possible. protection circuitry. the a3932 has several protection features: 1) bootstrap circuit. the bootstrap capacitor is charged whenever a low-side mosfet is on, sx output goes low, and the load current recirculates. this happens constantly during normal operation. the high-side mosfet will not be allowed to turn on before the charging has decayed to less than approximately 9 ma. no fault will be registered. when a phase?s high-side driver is on for a long time (100% duty cycle operation) its charge pump is designed to maintain v gs > 9 v on the bridge fet if i ghx (the load on the gate driver) < 10 a. 2) hall invalid. illegal codes for the hall inputs (000 or 111) will force a fault and coast the motor. noisy hall lines may cause double tach pulses and, therefore, code errors that produce faults. additional external pullup loading and ltering may be required depending on the system. 3) vreg undervoltage. an internal regulator supplies the low-side gate driver and the bootstrap charge current. it is critical to ensure that v reg is at the proper level before enabling any of the outputs. the undervoltage circuit is active during power-up and will force a motor coast condition (all gate drives, ghx and glx = 0) until v reg is greater than approximately 9.7 v. 4) thermal shutdown. a junction temperature greater than 165c will signal a fault and coast the motor (all gate drives low). if the junction temperature then falls to less than 155c (hysteresis), the fault will be cleared. 5) motor lead shorted to ground. the a3932 will signal a fault if a motor lead is shorted to ground. a short to ground is assumed after a high side is turned on and greater than 2 v is measured between the drain (v bb ) and source (sa/sb/sc) of the high-side power mosfet. this fault is cleared at the beginning of each commutation. if a stalled motor results from a fault, the fault can only be cleared by toggling the reset terminal or by a power-up sequence. synchronous recti cation. to reduce power dissipation in the external mosfets, the a3932 control logic turns on the appropriate low-side and high-side driver during the load-current recirculation, pwm-off cycle. synchronous recti cation allows current to ow through the mode-selected mosfet, rather than the body diode, during the decay time. the body diodes of the sr power mosfets will conduct only during the dead time required at each pwm transition. dead time. it is required to have a dead-time delay between a high- or low-side turn off and the next turn-on event to prevent cross conduction. the potential for cross conduction occurs with synchronous recti cation, direction changes, pwm, or after a bootstrap capacitor charging cycle. the dead time is set by a resistor (r dead ) between the dead terminal and lcap (+5 v) and can be set between 100 ns and 5.5 s. the following equations are valid for r dead between 5.6 k and 470 k . at 25c, t dead (nom, ns) = 37 + (11.9 x 10 -3 x (r dead + 500)) for predicting worst case, over voltage and temperature extremes, t dead (min, ns) = 10 + (6.55 x 10 -3 x (r dead + 350)) t dead (max, ns) = 63 + (17.2 x 10 -3 x (r dead + 650)) for comparison with i dead test currents, i dead = (v lcap ? v be )/(r dead + r int ) where (nominal values) v lcap = 5 v, v be = 0.7 v at 25c, and r int = 500 . rather than use r dead values near 470 k , set dead = ground (v dead = 0 v), which activates an internal (i dead = 10 a) current source. the choice of power mosfet and external series gate resistance determines the selection of the dead-time resistor. the dead time should be made long enough to cover the variation of the mosfet gate capacitance and series gate resistance (both external and internal to the a3932) tolerances. decoupling. the internal reference, v reg , supplies current for the gate-drive circuit. as the gates are driven high they will require current from an external capacitor to support the transients. this capacitor should be placed as close as possible to the v reg terminal. its value should be at least 20 times larger than the bootstrap capacitor. continued next page
three-phase power mosfet controller a3932 11 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com applications information (cont?d) current control. internal xed off-time pwm circuitry is implemented to limit load current to a desired value. when a high-side and low-side mosfet are turned on, current will increase in the motor winding until it reaches a value given by i trip v ref /r s . at the trip point, the sense comparator resets the source- enable latch, turning off the high-side driver. load inductance causes the current to recirculate (decay) for the xed off time. the current path during recirculation is determined by the con guration of the mode and sr inputs. an external resistor (r t ) and capacitor (c t ), connected in parallel from the rc terminal to agnd, are used to set the xed off-time period (t off = r t x c t ). r t should be in the range of 10 k to 500 k . the t off should be in the range of 10 s to 50 s. larger values for t off can result in audible noise problems. torque control can be implemented by varying the ref input voltage as long as the pwm input stays high. if direct control of the torque/current is desired by pwm input, a voltage can be applied to the ref input to set an absolute maximum current limit. pwm blank. the capacitor (c t ) also serves as the means to set the blank time duration. at the end of the pwm off cycle, a high-side gate selected by the commutation logic will turn on. at this time, large current transients can occur during the reverse recovery time (t rr ) of the intrinsic body diodes of the external power mosfets. to prevent false tripping of the current-sense comparator, the blank function disables the comparator for a time t blank = 1.9 x c t /(0.001 - [2/r t ]) the user must ensure that c t is large enough to cover the current-spike duration. braking. the a3932 will dynamically brake by forcing all low-side mosfets on and all high-side mosfets off. this will effectively short-circuit the bemf and brake the motor. during braking, the load current can be approximated by: i brake = v bemf /r l because the load current does not ow through the sense resistor during a dynamic brake, care must be taken to ensure that the power mosfet?s maximum ratings are not exceeded. reset = 1 overrides brake and turns all motor bridge fets off, coasting the motor. low-voltage operation. although vreg can be connected to vbb for 12 v systems, the v reg maximum rating of 15 v must be observed including transients. if transients cannot be adequately controlled, use vreg in the regulator mode (not connected to vbb). with v bb less than 18 v, the v reg output voltage level speci cation may not be met. note that in this mode the vreg undervoltage threshold may leave the system with little headroom if v bb is less than 12 v. driving an h bridge. the a3932 may be used to drive an h bridge (e.g., a brush dc motor load) by hard wiring one state for the hall inputs (e.g., h1 = h2 = 1 (high), h3 = 0 (low)). leave the appropriate phase driver outputs oating (in this case cc, ghc, sc, and glc because, from the commutation truth table, sc = z). the dir input controls the motor rotation while the pwm, mode, and sr inputs control the motor current behavior as described in the input logic table. layout. careful consideration must be given to pcb layout when designing high-frequency, fast-switching, high-current circuits. 1) the analog ground (agnd), the power ground (pgnd), and the high-current return of the external mosfets (the negative side of the sense resistor) should return separately to the negative side of the motor supply ltering capacitor. this will minimize the effect of switching noise on the device logic and analog reference. 2) minimize stray inductances by using short, wide copper runs at the drain and source terminals of all power mosfets. this includes motor lead connections, the input power buss, and the common source of the low-side power mosfets. this will minimize voltages induced by fast switching of large load currents. 3) kelvin connect the sense terminal pc trace to the positive side of the sense resistor.
three-phase power mosfet controller a3932 12 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com 1.20 max 0.10 4o 9.70 4.40 6.40 6.00 1.60 0.15 0.22 0.25 seating plane 0.50 0.50 c 0.10 38x c 0.30 2 1 38 2 1 38 gauge plane seating plane a a terminal #1 mark area all dimensions nominal, not for tooling use (reference jedec mo-153 bd-1) dimensions in millimeters b b reference pad layout (reference ipc sop50p640x110-38m) all pads a minimum of 0.20 mm from all adjacent pads; adjust as necessary to meet application process requirements and pcb layout tolerances pcb layout reference view for the latest version of this document, visit our website: www.allegromicro.com copyright ?2002-2013, allegro microsystems, llc allegro microsystems, llc reserves the right to make, from time to time, such de par tures from the detail spec i fi ca tions a s may be required to permit improvements in the per for mance, 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 life support devices or systems, if a failure of an allegro product can reasonably be expected to cause the failure of that life support device or system, or to affect the safety or effectiveness of that device or system. the in for ma tion in clud ed herein is believed to be ac cu rate and reliable. how ev er, allegro microsystems, llc assumes n o re spon si bil i ty for its use; nor for any in fringe ment of patents or other rights of third parties which may result from its use. package ld, 38-pin tssop

▲Up To Search▲

Price & Availability of A393213

	To Download A393213 Datasheet File
If you can't view the Datasheet, Please click here to try to view without PDF Reader .