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description the a3977 is a complete microstepping motor driver, with built- in translator. it is designed to operate bipolar stepper motors in full-, half-, quarter-, and eighth-step modes, with output drive capability of 35 v and 2.5 a. the a3977 includes a fixed off-time current regulator that has the ability to operate in slow-, fast-, or mixed-decay modes. this current-decay control scheme results in reduced audible motor noise, increased step accuracy, and reduced power dissipation. the translator is the key to the easy implementation of the a3977. simply inputting one pulse on the step input drives the motor one step (two logic inputs determine if it is a full-, half-, quarter-, or eighth-step). there are no phase-sequence tables, high-frequency control lines, or complex interfaces to program. the a3977 interface is an ideal fit for applications where a complex microprocessor is unavailable or over-burdened. internal synchronous-rectification control circuitry is provided to improve power dissipation during pwm operation. internal circuit protection includes thermal shutdown with hysteresis, undervoltage lockout (uvlo) and crossover-current protection. special power-up sequencing is not required. the a3977 is supplied in a choice of two power packages, a 44-pin plastic plcc with 3 internally-fused pins on each of four sides (suffix ed), and a thin (<1.2 mm), 28-pin tssop with an exposed thermal pad (suffix lp). both packages are lead (pb) free, with 100% matte tin leadframe plating. 26184.22k features and benefits ? 2.5 a, 35 v output rating ? low r ds(on) outputs, 0.45 source, 0.36 sink typical ? automatic current decay mode detection/selection ? 3.0 to 5.5 v logic supply voltage range ? mixed, fast, and slow current decay modes ? home output ? synchronous rectification for low power dissipation ? internal uvlo and thermal shutdown circuitry ? crossover-current protection microstepping dmos driver with translator not to scale a3977 package ed, 44-pin plcc with internally fused pins package lp, 28-pin tssop with exposed thermal pad 65 4321 44 43 42 41 40 7 8 9 10 11 12 13 14 15 16 17 29 30 39 38 37 36 35 34 33 32 31 28 27 26 25 24 23 22 21 20 19 18 dwg. pp-075-1 gnd gnd logic supply nc gnd gnd ref rc 2 nc nc step v reg gnd gnd v cp cp 1 cp 2 nc v dd v bb1 v bb2 nc nc pfd rc 1 8 reg pwm timer translator & control logic charge pump gnd gnd sense 1a 1b enable load supply gnd sleep home dir out out 1 1 out 2a sense gnd gnd gnd load supply 2 out 2b ms ms reset sr 2 2 1 packages: pin-out diagram
microstepping dmos driver with translator a3977 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 package ambient temperature, t a (c) a3977kedtr-t* 450 per reel 44-pin plcc ?40 to 125 a3977sedtr-t* 450 per reel 44-pin plcc ?20 to 85 a3977slptr-t 4000 per reel 28-pin tssop ?20 to 85 *variant is in production but has been determined to be last time buy. this classification indicates that the variant is obsolete and notice has been given. sale of the variant is currently restricted to existing customer applications. the variant should not be purchased for new design applications because of obsolescence in the near future. samples are no longer available. status date change april 23, 2013. deadline for receipt of last time buy orders is september 30, 2013. absolute maximum ratings characteristic symbol notes rating units load supply voltage v bb 35 v logic supply voltage v dd 7.0 v logic input voltage range v in pulsed, t w > 30 ns ?0.3 to v dd + 0.3 v pulsed, t w < 30 ns ?1.0 to v dd + 1 v reference voltage v ref v dd v sense voltage (dc) v sense 0.5 v output current i out output current rating may be limited by duty cycle, ambient temperature, and heat sinking. under any set of conditions, do not exceed the specified current rating or a junction temperature of 150c. 2.5 a operating ambient temperature t a range k ?40 to 125 oc range s ?20 to 85 oc maximum junction temperature t j (max) 150 oc storage temperature t stg ?55 to 150 oc thermal characteristics characteristic symbol test conditions* value units package thermal resistance r ja package ed, on 4-layer pcb based on jedec standard 22 oc/w package lp, on 4-layer pcb based on jedec standard 28 oc/w *additional thermal information available on the allegro website.
microstepping dmos driver with translator a3977 3 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com functional block diagram dmos h bridge dmos h bridge gate drive translator charge pump cp2 cp1 vcp load supply vbb1 out 1a out1b out 2a out2b vbb2 sense1 vcp dwg. fp-050-2 vreg pwm timer pwm timer pwm latch blanking mixed decay control logic uvlo and fa u lt regulator bandgap da c + - + - dac 2 v sense1 pwm latch blanking mixed decay sense2 4 4 ref logic supply vdd step dir ms 1 sleep ms 2 home enable rc1 reset sr pfd rc 2 ref. supply v pfd
microstepping dmos driver with translator a3977 4 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com ms 1 ms 2 resolution l l full step (2 phase) h l half step l h quarter step h h eighth step lp pin-out (tssop) table 1. microstep resolution truth table
microstepping dmos driver with translator a3977 5 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com electrical characteristics at t a = +25c, v bb = 35 v, v dd = 3.0 v to 5.5v (unless otherwise noted) characteristic symbol test conditions min. typ. max. units output drivers load supply voltage range v bb operating 8.0 ? 35 v during sleep mode 0 ? 35 v output leakage current i dss v out = v bb ? <1.0 20 a v out = 0 v ? <1.0 -20 a output on resistance r ds(on) source driver, i out = - 2.5 a ? 0.45 0.57 sink driver, i out = 2.5 a ? 0.36 0.43 body diode forward voltage v f source diode, i f = -2.5 a ? ? 1.4 v sink diode, i f = 2.5 a ? ? 1.4 v motor supply current i bb f pwm < 50 khz ? ? 8.0 ma operating, outputs disabled ? ? 6.0 ma sleep mode ? ? 20 a control logic logic supply voltage range v dd operating 3.0 5.0 5.5 v logic input voltage v in(1) 0.7v dd ??v v in(0) ? ? 0.3v dd v logic input current i in(1) v in = 0.7v dd -20 <1.0 20 a i in(0) v in = 0.3v dd -20 <1.0 20 a maximum step frequency f step 500* ? ? khz home output voltage v oh i oh = -200 a 0.7v dd ? ? v v ol i ol = 200 a ? ? 0.3v dd v blank time t blank r t = 56 k , c t = 680 pf 700 950 1200 ns fixed off time t off r t = 56 k , c t = 680 pf 30 38 46 s mixed decay trip point pfdh ? 0.6v dd ?v pfdl ? 0.21v dd ?v ref. input voltage range v ref operating 0 ? v dd v reference input current i ref ? 0 3.0 a gain (g m ) error (note 3) e g v ref = 2 v, phase current = 38.27% ? ? 10 % v ref = 2 v, phase current = 70.71% ? ? 5.0 % v ref = 2 v, phase current = 100.00% ? ? 5.0 % crossover dead time t dt sr enabled 100 475 800 ns continued on the next page?
microstepping dmos driver with translator a3977 6 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com thermal shutdown temp. t j ? 165 ? c thermal shutdown hysteresis ? t j ?15?c uvlo enable threshold v uvlo increasing v dd 2.45 2.7 2.95 v uvlo hysteresis ? v uvlo 0.05 0.10 ? v logic supply current i dd f pwm < 50 khz ? ? 12 ma outputs off ? ? 10 ma sleep mode ? ? 20 a * operation at a step frequency greater than the speci ed minimum value is possible but not warranteed. 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. 3. e g = ([v ref /8] ? v sense )/(v ref /8) electrical characteristics (continued) at t a = +25c, v bb = 35 v, v dd = 3.0 v to 5.5v (unless otherwise noted) characteristic symbol test conditions min. typ. max. units output drivers (continued)
microstepping dmos driver with translator a3977 7 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com device operation. the a3977 is a complete microstep- ping motor driver with built in translator for easy operation with minimal control lines. it is designed to operate bipolar stepper motors in full-, half-, quarter- and eighth-step modes. the current in each of the two output full-bridges, all n-channel dmos, is regulated with xed off-time pulse-width modulated (pwm) control circuitry. the full- bridge current at each step is set by the value of an external current sense resistor (r s ), a reference voltage (v ref ), and the dacs output voltage controlled by the output of the translator. at power up, or reset, the translator sets the dacs and phase current polarity to initial home state (see gures for home-state conditions), and sets the current regula- tor for both phases to mixed-decay mode. when a step command signal occurs on the step input the translator automatically sequences the dacs to the next level (see table 2 for the current level sequence and current polarity). the microstep resolution is set by inputs ms 1 and ms 2 as shown in table 1. if the new dac output level is lower than the previous level the decay mode for that full-bridge will be set by the pfd input (fast, slow, or mixed decay). if the new dac level is higher or equal to the previous level then the decay mode for that full-bridge will be slow decay. this automatic current-decay selection will improve microstepping performance by reducing the distortion of the current waveform due to the motor bemf. reset input (reset). the reset input (active low) sets the translator to a prede ned home state (see gures for home state conditions) and turns off all of the dmos outputs. the home output goes low and all step inputs are ignored until the reset input goes high. home output (home). the home output is a logic output indicator of the initial state of the translator. at power up the translator is reset to the home state (see g- ures for home state conditions). step input (step). a low-to-high transition on the step input sequences the translator and advances the motor one increment. the translator controls the input to the dacs and the direction of current ow in each wind- ing. the size of the increment is determined by the state of inputs ms 1 and ms 2 (see table 1). microstep select (ms 1 and ms 2 ). input terminals ms1 and ms 2 select the microstepping format per table 1. changes to these inputs do not take effect until the step command (see gure). direction input (dir). the state of the direction input will determine the direction of rotation of the motor. internal pwm current control. each full-bridge is controlled by a xed off-time pwm current-control cir- cuit that limits the load current to a desired value (i trip ). initially, a diagonal pair of source and sink dmos outputs are enabled and current ows through the motor winding and r s . when the voltage across the current-sense resistor equals the dac output voltage, the current-sense compara- tor resets the pwm latch, which turns off the source driver (slow-decay mode) or the sink and source drivers (fast- or mixed-decay modes). the maximum value of current limiting is set by the selection of r s and the voltage at the v ref input with a transconductance function approximated by: i trip max = v ref /8r s the dac output reduces the v ref output to the cur- rent-sense comparator in precise steps (see table 2 for % i trip max at each step). i trip = (% i trip max/100) x i trip max it is critical to ensure that the maximum rating (0.5 v) on the sense terminal is not exceeded. for full-step mode, v ref can be applied up to the maximum rating of v dd , because the peak sense value is 0.707 x v ref /8. in all other modes v ref should not exceed 4 v. functional description
microstepping dmos driver with translator a3977 8 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com fixed off-time. the internal pwm current-control circuitry uses a one shot to control the time the drivers remain off. the one shot off-time, t off , is determined by the selection of an external resistor (r t ) and capacitor (c t ) connected from the rc timing terminal to ground. the off- time, over a range of values of c t = 470 pf to 1500 pf and r t = 12 k to 100 k is approximated by: t off = r t c t rc blanking. in addition to the xed off-time of the pwm control circuit, the c t component sets the compara- tor blanking time. this function blanks the output of the current-sense comparator when the outputs are switched by the internal current-control circuitry. the comparator out- put is blanked to prevent false over-current detection due to reverse recovery currents of the clamp diodes, and/or switching transients related to the capacitance of the load. the blank time t blank can be approximated by: t blank = 1400c t charge pump. (cp 1 and cp 2 ). the charge pump is used to generate a gate supply greater than v bb to drive the source-side dmos gates. a 0.22 f ceramic capacitor should be connected between cp 1 and cp 2 for pumping purposes. a 0.22 f ceramic capacitor is required between v cp and v bb to act as a reservoir to operate the high-side dmos devices. v reg . this internally generated voltage is used to operate the sink-side dmos outputs. the v reg terminal should be decoupled with a 0.22 f capacitor to ground. v reg is internally monitored and in the case of a fault condition, the outputs of the device are disabled. enable input (enable). this active-low input enables all of the dmos outputs. when logic high the outputs are disabled. inputs to the translator (step, direction, ms 1 , ms 2 ) are all active independent of the enable input state. shutdown. in the event of a fault (excessive junction temperature, or low voltage on v cp ) the outputs of the device are disabled until the fault condition is removed. at power up, and in the event of low v dd , the undervoltage lockout (uvlo) circuit disables the drivers and resets the translator to the home state. sleep mode (sleep). an active-low control input used to minimize power consumption when not in use. this disables much of the internal circuitry including the output dmos, regulator, and charge pump. a logic high allows normal operation and startup of the device in the home position. when coming out of sleep mode, wait 1 ms before issuing a step command to allow the charge pump (gate drive) to stabilize. percent fast decay input (pfd). when a step input signal commands a lower output current from the previous step, it switches the output current decay to either slow-, fast-, or mixed-decay depending on the voltage level at the pfd input. if the voltage at the pfd input is greater than 0.6 v dd then slow-decay mode is selected. if the voltage on the pfd input is less than 0.21 v dd then fast-decay mode is selected. mixed decay is between these two levels. this terminal should be decoupled with a 0.1 f capacitor. mixed decay operation. if the voltage on the pfd in- put is between 0.6v dd and 0.21v dd , the bridge will oper- ate in mixed-decay mode depending on the step sequence (see gures). as the trip point is reached, the device will go into fast-decay mode until the voltage on the rc termi- nal decays to the voltage applied to the pfd terminal. the time that the device operates in fast decay is approximated by: t fd = r t c t in (0.6v dd /v pfd ) after this fast decay portion, t fd , the device will switch to slow-decay mode for the remainder of the xed off-time period. functional description (cont?d)
microstepping dmos driver with translator a3977 9 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com synchronous recti cation. when a pwm off-cycle is triggered by an internal xed off-time cycle, load current will recirculate according to the decay mode selected by the control logic. the a3977 synchronous recti cation fea- ture will turn on the appropriate mosfets during the cur- rent decay and effectively short out the body diodes with the low r ds(on) driver. this will reduce power dissipation signi cantly and eliminate the need for external schottky diodes for most applications. the synchronous recti cation can be set in either ac- tive mode or disabled mode. functional description (cont?d) active mode. when the sr input is logic low, active mode is enabled and synchronous recti cation will occur. this mode prevents reversal of the load current by turning off synchronous recti cation when a zero current level is detected. this prevents the motor winding from conduct- ing in the reverse direction. disabled mode. when the sr input is logic high, syn- chronous recti cation is disabled. this mode is typically used when external diodes are required to transfer power dissipation from the a3977 package to the external diodes. timing requirements (t a = +25c, v dd = 5 v, logic levels are v dd and ground) a. minimum command active time before step pulse (data set-up time) ..... 200 ns b. minimum command active time after step pulse (data hold time) ........... 200 ns c. minimum step pulse width ...................... 1.0 s d. minimum step low time ......................... 1.0 s e. maximum wake-up time ......................... 1.0 ms
microstepping dmos driver with translator a3977 10 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com layout. the printed wiring board should use a heavy ground plane. for optimum electrical and thermal performance, the driver should be soldered directly onto the board. the load supply terminal, v bb , should be decoupled with an electrolytic capacitor (>47 f is recommended) placed as close to the device as possible. to avoid problems due to capacitive coupling of the high dv/dt switching transients, route the bridge-output traces away from the sensitive logic-input traces. always drive the logic inputs with a low source impedance to in- crease noise immunity. grounding. a star ground system located close to the driver is recommended. the 44-lead plcc has the analog ground and the power ground internally bonded to the power tabs of the package (leads 44, 1, 2, 11 ? 13, 22 ? 24, and 33 ? 35). on the 28-lead tssop package, the analog ground (lead 7) and the power ground (lead 21) must be con- nected together externally. the copper ground plane located under the exposed thermal pad is typically used as the star ground. current sensing. to minimize inaccuracies caused by ground-trace ir drops in sensing the output current level, the current-sense resistor (r s ) should have an independent ground return to the star ground of the device. this path should be as short as possible. for low-value sense resis- tors the ir drops in the printed wiring board sense resistor?s traces can be signi cant and should be taken into account. the use of sockets should be avoided as they can introduce variation in r s due to their contact resistance. allegro microsystems recommends a value of r s given by r s = 0.5/i trip max thermal protection. circuitry turns off all drivers when the junction temperature reaches 165c, typically. it is intended only to protect the device from failures due to excessive junction temperatures and should not imply that output short circuits are permitted. thermal shutdown has a hysteresis of approximately 15c. applications information
microstepping dmos driver with translator a3977 11 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com table 2. step sequencing (dir = l) phase 2 phase 1 full half quarter eighth current current step step # step # step # step # [%i trip max] [%i trip max] angle 1 1 1 0.00 100.00 0 2 19.51 98.08 11.25 2 3 38.27 92.39 22.50 4 55.56 83.15 33.75 1 2 3 5 70.71 70.71 45* 6 83.15 55.56 56.25 4 7 92.39 38.27 67.50 8 98.08 19.51 78.75 3 5 9 100.00 0.00 90 10 98.08 -19.51 101.25 6 11 92.39 -38.27 112.50 12 83.15 -55.56 123.75 2 4 7 13 70.71 -70.71 135 14 55.56 -83.15 146.25 8 15 38.27 -92.39 157.50 16 19.51 -98.08 168.75 5 9 17 0.00 -100.00 180 18 -19.51 -98.08 191.25 10 19 -38.27 -92.39 202.50 20 -55.56 -83.15 213.75 3 6 11 21 -70.71 -70.71 225 22 -83.15 -55.56 236.25 12 23 -92.39 -38.27 247.50 24 -98.08 -19.51 258.75 7 13 25 -100.00 0.00 270 26 -98.08 19.51 281.25 14 27 -92.39 38.27 292.50 28 -83.15 55.56 303.75 4 8 15 29 -70.71 70.71 315 30 -55.56 83.15 326.25 16 31 -38.27 92.39 337.50 32 -19.51 98.08 348.75 * home state; home output low.
microstepping dmos driver with translator a3977 12 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com full-step operation ms 1 = ms 2 = l, dir = h the vector addition of the output currents at any step is 100%.
microstepping dmos driver with translator a3977 13 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com half-step operation ms 1 = h, ms 2 = l, dir = h the mixed-decay mode is controlled by the percent fast decay voltage (v pfd ). if the voltage at the pfd input is greater than 0.6v dd then slow-decay mode is selected. if the voltage on the pfd input is less than 0.21v dd then fast-decay mode is selected. mixed decay is between these two levels.
microstepping dmos driver with translator a3977 14 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com quarter-step operation ms 1 = l, ms 2 = h, dir = h the mixed-decay mode is controlled by the percent fast decay voltage (v pfd ). if the voltage at the pfd input is greater than 0.6v dd then slow-decay mode is selected. if the voltage on the pfd input is less than 0.21v dd then fast-decay mode is selected. mixed decay is between these two levels.
microstepping dmos driver with translator a3977 15 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com 8 microstep/step operation ms 1 = ms 2 = h, dir = h the mixed-decay mode is controlled by the percent fast decay voltage (v pfd ). if the voltage at the pfd input is greater than 0.6v dd then slow-decay mode is selected. if the voltage on the pfd input is less than 0.21v dd then fast-decay mode is selected. mixed decay is between these two levels.
microstepping dmos driver with translator a3977 16 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com terminal list terminal lp ed name terminal description (tssop) (plcc) gnd analog and power ground ? 44, 1, 2 sense 1 sense resistor for bridge 1 1 3 home logic output 2 4 dir logic input 3 5 out 1a dmos h bridge 1 output a 4 6 nc no (internal) connection ? 7, 8 pfd mixed decay setting 5 9 rc 1 analog input for xed offtime ? bridge 1 6 10 gnd analog and power ground ? 11, 12, 13 agnd analog ground 7* ? ref gm reference input 8 14 rc 2 analog input for xed offtime ? bridge 2 9 15 logic supply v dd , the logic supply voltage 10 16 nc no (internal) connection ? 17 out 2a dmos h bridge 2 output a 11 18 ms 2 logic input 12 19 ms 1 logic input 13 20 sense 2 sense resistor for bridge 2 14 21 gnd analog and power ground ? 22, 23, 24 load supply 2 v bb2 , the load supply for bridge 2 15 25 sr logic input 16 26 reset logic input 17 27 out 2b dmos h bridge 2 output b 18 28 nc no (internal) connection ? 29, 30 step logic input 19 31 v reg regulator decoupling 20 32 pgnd power ground 21* ? gnd analog and power ground ? 33, 34, 35 v cp reservoir capacitor 22 36 cp 1 charge pump capacitor 23 37 cp 2 charge pump capacitor 24 38 nc no (internal) connection ? 39 out 1b dmos h bridge 1 output b 25 40 enable logic input 26 41 sleep logic input 27 42 load supply 1 v bb1 , the load supply for bridge 1 28 43 * agnd and pgnd on the tssop package must be connected together externally.
microstepping dmos driver with translator a3977 17 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com ed package, 44-pin plcc 2144 a internally fused pins 44, 1 and 2; 11-13; 22-24; and 33-35 dimensions exclusive of mold flash, gate burrs, and dambar protrusions exact case and lead configuration at supplier discretion within limits shown a terminal #1 mark area for reference only (reference jedec ms-018 ac) dimensions in millimeters c seating plane 0.51 4.57 max 16.59 0.08 16.59 0.08 7.75 0.36 7.75 0.36 7.75 0.36 7.75 0.36 c 0.10 44x 0.74 0.08 17.53 0.13 17.53 0.13 1.27 0.43 0.10
microstepping dmos driver with translator a3977 18 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; www.allegromicro.com lp package, 28-pin tssop 1.20 max 0.10 max c seating plane c 0.10 28x 6.10 0.65 0.45 1.65 3.00 3.00 5.00 5.00 0.25 0.65 2 1 28 gauge plane seating plane b a 28 2 1 a terminal #1 mark area b for reference only (reference jedec mo-153 aet) dimensions in millimeters dimensions exclusive of mold flash, gate burrs, and dambar protrusions exact case and lead configuration at supplier discretion within limits shown reference land pattern layout (reference ipc7351 sop65p640x120-29cm); all pads a minimum of 0.20 mm from all adjacent pads; adjust as necessary to meet application process requirements and pcb layout tolerances; when mounting on a multilayer pcb, thermal vias at the exposed thermal pad land can improve thermal dissipation (reference eia/jedec standard jesd51-5) pcb layout reference view exposed thermal pad (bottom surface) 4.40 0.10 6.40 0.20 (1.00) 9.70 0.10 c c 0.60 0.15 4 4 0.15 +0.05 ?0.06 0.25 +0.05 ?0.06
microstepping dmos driver with translator a3977 19 allegro microsystems, llc 115 northeast cutoff worcester, massachusetts 01615-0036 u.s.a. 1.508.853.5000; 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. for the latest version of this document, visit our website: www.allegromicro.com revision history revision revision date description of revision rev. k april 23, 2013 update product selection and applications component recommendations

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