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| Data Sheet 29319.25A 3966 A3966SLB OUT1A PHASE 1 ENABLE 1 GROUND SENSE1 OUT 1B LOAD SUPPLY REFERENCE 1 V 2 3 4 5 6 7 8 V V BB VCC RC LOGIC LOGIC BB DUAL FULL-BRIDGE PWM MOTOR DRIVER The A3966SA and A3966SLB are designed to drive both windings of a two-phase bipolar stepper motor. Each device includes two H-bridges capable of continuous output currents of 650 mA and operating voltages to 30 V. Motor winding current can be controlled by the internal fixed-frequency, pulse-width modulated (PWM), current-control circuitry. The peak load current limit is set by the user's selection of a reference voltage and current-sensing resistors. Except for package style and pinout, the two devices are identical. The fixed-frequency pulse duration is set by a user-selected external RC timing network. The capacitor in the RC timing network also determines a user-selectable blanking window that prevents false triggering of the PWM current-control circuitry during switching transitions. To reduce on-chip power dissipation, the H-bridge power outputs have been optimized for low saturation voltages. The sink drivers feature Allegro's patented SatlingtonTM output structure. The Satlington outputs combine the low voltage drop of a saturated transistor and the high peak current capability of a Darlington. For each bridge, a PHASE input controls load-current polarity by selecting the appropriate source and sink driver pair. For each bridge, an ENABLE input, when held high, disables the output drivers. Special powerup sequencing is not required. Internal circuit protection includes thermal shutdown with hysteresis, ground-clamp and flyback diodes, and crossovercurrent protection. The A3966SA is supplied in a 16-pin dual in-line plastic package. The A3966SLB is supplied in a 16-lead plastic SOIC with copper heat sink tabs. The power tab is at ground potential and needs no electrical isolation. 16 15 14 13 12 11 10 9 OUT 2A PHASE 2 ENABLE 2 GROUND SENSE 2 OUT 2B LOGIC SUPPLY RC REF Dwg. PP-066-1 ABSOLUTE MAXIMUM RATINGS Load Supply Voltage, VBB ...................... 30 V Output Current, IOUT (peak) ........... 750 mA (continuous) .............................. 650 mA Logic Supply Voltage, VCC .................... 7.0 V Input Voltage, Vin ........ -0.3 V to VCC + 0.3 V Sense Voltage, VS ................................ 1.0 V Package Power Dissipation (TA = 25C), PD A3966SA ..................................... 2.08 W* A3966SLB ................................... 1.87 W* Operating Temperature Range, TA ..................................... -20C to +85C Junction Temperature, TJ .................................................. +150C Storage Temperature Range, TS ................................... -55C to +150C 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. * Per SEMI G42-88 Specification, Thermal Test Board Standardization for Measuring Junction-to-Ambient Thermal Resistance of Semiconductor Packages. FEATURES I I I I I I I I 650 mA Continuous Output Current 30 V Output Voltage Rating Internal Fixed-Frequency PWM Current Control SatlingtonTM Sink Drivers User-Selectable Blanking Window Internal Ground-Clamp & Flyback Diodes Internal Thermal-Shutdown Circuitry Crossover-Current Protection and UVLO Protection Always order by complete part number: Part Number A3966SA A3966SLB Package 16-pin DIP 16-lead batwing SOIC RJA 60C/W 67C/W RJC 38C/W -- RJT -- 6C/W 3966 DUAL FULL-BRIDGE PWM MOTOR DRIVER FUNCTIONAL BLOCK DIAGRAM OUT 1A OUT 1B V CC PHASE 1 V BB PHASE 2 + LOGIC SUPPLY OUT 2A OUT 2B LOAD SUPPLY UVLO & TSD CONTROL LOGIC1 CONTROL LOGIC2 UVLO & TSD ENABLE 1 SOURCE ENABLE 1 ENABLE 2 CURRENT-SENSE COMPARATOR 1 SENSE 1 SENSE 2 CURRENT-SENSE COMPARATOR 2 PWM LATCH 1 R Q S BLANKING GATE 1 + - + - BLANKING GATE 2 PWM LATCH 2 R Q S /4 OSC RC R1S R 2S SOURCE ENABLE 2 GROUND RT CT REFERENCE Dwg. FP-036-6 A3966SA SENSE 1 OUT 1B LOAD SUPPLY REFERENCE RC LOGIC SUPPLY OUT 2B SENSE 2 1 LOGIC TRUTH TABLE 16 15 14 ENABLE 1 PHASE 1 OUT 1A GROUND GROUND OUT 2A PHASE 2 ENABLE 2 2 3 4 5 6 7 8 V REF RC V PHASE X H L ENABLE H L L OUTA Off H L OUTB Off L H V BB 13 12 11 X = Irrelevant CC LOGIC 10 9 Dwg. PP-066-2 2 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 Copyright (c) 1998, 2000 Allegro MicroSystems, Inc. 3966 DUAL FULL-BRIDGE PWM MOTOR DRIVER ELECTRICAL CHARACTERISTICS at TA = +25C, VBB = 30 V, VCC = 4.75 V to 5.5 V, VREF = 2 V, VS = 0 V, 56 k & 680 pF RC to Ground (unless noted otherwise) Limits Characteristic Output Drivers Load Supply Voltage Range Output Leakage Current VBB ICEX Operating, IOUT = 650 mA, L = 3 mH VOUT = 30 V VOUT = 0 V Output Saturation Voltage VCE(SAT) Source Driver, IOUT = -400 mA Source Driver, IOUT = -650 mA Sink Driver, IOUT = +400 mA, VS = 0.5 V Sink Driver, IOUT = +650 mA, VS = 0.5 V Clamp Diode Forward Voltage VF IF = 400 mA IF = 650 mA Motor Supply Current (No Load) IBB(ON) IBB(OFF) VENABLE1 = VENABLE2 = 0.8 V VENABLE1 = VENABLE2 = 2.4 V VCC -- -- -- -- -- -- -- -- -- -- -- <1.0 <-1.0 1.7 1.8 0.3 0.4 1.1 1.4 3.0 <1.0 30 50 -50 2.0 2.1 0.5 1.3 1.4 1.6 5.0 200 V A A V V V V V V mA A Symbol Test Conditions Min. Typ. Max. Units Control Logic Logic Supply Voltage Range Logic Input Voltage VCC VIN(1) VIN(0) Logic Input Current IIN(1) IIN(0) Reference Input Volt. Range Reference Input Current Reference Divider Ratio Current-Sense Comparator Input Offset Voltage Current-Sense Comparator Input Voltage Range Sense-Current Offset VREF IREF VREF/VTRIP VIO VS ISO VREF = 0 V Operating IS - IOUT, 50 mA IOUT 650 mA VIN = 2.4 V VIN = 0.8 V Operating Operating 4.75 2.4 -- -- -- 0.1 -2.5 3.8 -6.0 -0.3 12 -- -- -- <1.0 <-20 - 0 4.0 0 -- 18 5.50 -- 0.8 20 -200 2.0 1.0 4.2 6.0 1.0 24 V V V A A V A -- mV V mA NOTES:1. Typical Data is for design information only. 2. Negative current is defined as coming out of (sourcing) the specified device terminal. www.allegromicro.com 3 3966 DUAL FULL-BRIDGE PWM MOTOR DRIVER ELECTRICAL CHARACTERISTICS at TA = +25C, VBB = 30 V, VCC = 4.75 V to 5.5 V, VREF = 2 V, VS = 0 V, 56 k & 680 pF RC to Ground (unless noted otherwise) (cont.) Limits Characteristic Control Logic (continued) PWM RC Frequency PWM Propagation Delay Time fosc tPWM CT = 680 pF, RT = 56 k Comparator Trip to Source OFF Cycle Reset to Source ON Cross-Over Dead Time Propagation Delay Times tcodt tpd 1 k Load to 25 V IOUT = 650 mA, 50% to 90%: ENABLE ON to Source ON ENABLE OFF to Source OFF ENABLE ON to Sink ON ENABLE OFF to Sink OFF PHASE Change to Sink ON PHASE Change to Sink OFF PHASE Change to Source ON PHASE Change to Source OFF 22.9 -- -- 0.2 -- -- -- -- -- -- -- -- -- -- Increasing VCC -- 0.1 VENABLE 1 = VENABLE 2 = 0.8 V VENABLE 1 = VENABLE 2 = 2.4 V -- -- 25.4 1.0 0.8 1.8 100 500 200 200 2200 200 2200 200 165 15 4.1 0.6 -- -- 27.9 1.4 1.2 3.0 -- -- -- -- -- -- -- -- -- -- 4.6 -- 50 9.0 kHz s s s ns ns ns ns ns ns ns ns C C V V mA mA Symbol Test Conditions Min. Typ. Max. Units Thermal Shutdown Temp. Thermal Shutdown Hysteresis UVLO Enable Threshold UVLO Hysteresis Logic Supply Current TJ TJ VT(UVLO)+ VT(UVLO)hys ICC(ON) ICC(OFF) NOTES:1. Typical Data is for design information only. 2. Negative current is defined as coming out of (sourcing) the specified device terminal. 4 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 3966 DUAL FULL-BRIDGE PWM MOTOR DRIVER FUNCTIONAL DESCRIPTION Internal PWM Current Control. The A3966SA and A3966SLB dual H-bridges are designed to drive both windings of a bipolar stepper motor. Load current can be controlled in each motor winding by an internal fixedfrequency PWM control circuit. The current-control circuitry works as follows: when the outputs of the Hbridge are turned on, current increases in the motor winding. The load current is sensed by the current-control comparator via an external sense resistor (RS). Load current continues to increase until it reaches the predetermined value, set by the selection of external currentsensing resistors and reference input voltage (VREF) according to the equation: ITRIP = IOUT + ISO = VREF/(4 RS) where ISO is the sense-current error (typically 18 mA) due to the base-drive current of the sink driver transistor. At the trip point, the comparator resets the sourceenable latch, turning off the source driver of that H-bridge. The source turn off of one H-bridge is independent of the other H-bridge. Load inductance causes the current to recirculate through the sink driver and ground-clamp diode. The current decreases until the internal clock oscillator sets the source-enable latches of both H-bridges, turning on the source drivers of both bridges. Load current increases again, and the cycle is repeated. The frequency of the internal clock oscillator is set by the external timing components RTCT. The frequency can be approximately calculated as: fosc = 1/(RT CT + tblank) where tblank is defined below. The range of recommended values for RT and CT are 20 k to 100 k and 470 pF to 1000 pF respectively. Nominal values of 56 k and 680 pF result in a clock frequency of 25 kHz. Current-Sense Comparator Blanking. When the source driver is turned on, a current spike occurs due to the reverse-recovery currents of the clamp diodes and switching transients related to distributed capacitance in the load. To prevent this current spike from erroneously resetting the source enable latch, the current-control comparator output is blanked for a short period of time when the source driver is turned on. The blanking time is set by the timing component CT according to the equation: tblank = 1900 CT (s). A nominal CT value of 680 pF will give a blanking time of 1.3 s. The current-control comparator is also blanked when the H-bridge outputs are switched by the PHASE or ENABLE inputs. This internally generated blank time is approximately 1 s. V BB V PHASE + I OUT 0 - BRIDGE ON BRIDGE ON ALL OFF SOURCE OFF ALL OFF BRIDGE ON td I TRIP SOURCE OFF RTC T INTERNAL OSCILLATOR t blank RS Dwg. WM-003-2 Dwg. EP-006-16 www.allegromicro.com 5 3966 DUAL FULL-BRIDGE PWM MOTOR DRIVER FUNCTIONAL DESCRIPTION (continued) Load Current Regulation. Due to internal logic and switching delays (td), the actual load current peak will be slightly higher than the ITRIP value. These delays, plus the blanking time, limit the minimum value the current control circuitry can regulate. To produce zero current in a winding, the ENABLE terminal should be held high, turning off all output drivers for that H-bridge. Logic Inputs. A logic high on the PHASE input results in current flowing from OUTA to OUTB of that H-bridge. A logic low on the PHASE input results in current flowing from OUTB to OUTA. An internally generated dead time (tcodt) of approximately 1 s prevents cross-over current spikes that can occur when switching the PHASE input. A logic high on the ENABLE input turns off all four output drivers of that H-bridge. This results in a fast current decay through the internal ground clamp and flyback diodes. A logic low on the ENABLE input turns on the selected source and sink driver of that H-bridge. The ENABLE inputs can be pulse-width modulated for applications that require a fast current-decay PWM. If external current-sensing circuitry is used, the internal current-control logic can be disabled by connecting the RTCT terminal to ground. The REFERENCE input voltage is typically set with a resistor divider from VCC. This reference voltage is internally divided down by 4 to set up the current-comparator trip-voltage threshold. The reference input voltage range is 0 to 2 V. Output Drivers. To minimize on-chip power dissipation, the sink drivers incorporate a SatlingtonTM structure. The Satlington output combines the low VCE(sat) features of a saturated transistor and the high peak-current capability of a Darlington (connected) transistor. A graph showing typical output saturation voltages as a function of output current is on the next page. Miscellaneous Information. Thermal protection circuitry turns off all output drivers should the junction temperature reach +165 C (typical). This is intended only to protect the device from failures due to excessive junction temperatures and should not imply that output short circuits are permitted. Normal operation is resumed when the junction temperature has decreased about 15 C. The A3966 current control employs a fixed-frequency, variable duty cycle PWM technique. As a result, the current-control regulation may become unstable if the duty cycle exceeds 50%. To minimize current-sensing inaccuracies caused by ground trace IR drops, each current-sensing resistor should have a separate return to the ground terminal of the device. For low-value sense resistors, the I*R drops in the printed-wiring board can be significant and should be taken into account. The use of sockets should be avoided as their contact resistance can cause variations in the effective value of RS. The LOAD SUPPLY terminal, VBB, should be decoupled with an electrolytic capacitor (47 F recommended) placed as close to the device as physically practical. To minimize the effect of system ground IR drops on the logic and reference input signals, the system ground should have a low-resistance return to the load supply voltage. The frequency of the clock oscillator will determine the amount of ripple current. A lower frequency will result in higher current ripple, but reduced heating in the motor and driver IC due to a corresponding decrease in hysteretic core losses and switching losses respectively. A higher frequency will reduce ripple current, but will increase switching losses and EMI. 6 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 3966 DUAL FULL-BRIDGE PWM MOTOR DRIVER 2.5 OUTPUT SATURATION VOLTAGE IN VOLTS TA = +25C 2.0 SOURCE DRIVER 1.5 Typical output saturation voltages showing SatlingtonTM sink-driver operation. 1.0 0.5 SINK DRIVER 0 200 300 400 500 600 700 Dwg. GP-064-1 OUTPUT CURRENT IN MILLIAMPERES TYPICAL APPLICATION 1 PHASE 1 ENABLE 1 2 3 4 0.5 5 +5 V 6 39 k 16 V BB 15 14 LOGIC LOGIC 13 0.5 12 11 V BB PHASE 2 ENABLE 2 The products described here are manufactured under one or more U.S. patents or U.S. patents pending. 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 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. +24 V 7 8 VREF VCC RC 10 9 56 k +5 V 680 pF Allegro products are not authorized for use as critical components in life-support devices or systems without express written approval. The information included herein is believed to be accurate and reliable. However, Allegro MicroSystems, Inc. assumes no responsibility for its use; nor for any infringement of patents or other rights of third parties which may result from its use. 10 k 47 F www.allegromicro.com + Dwg. EP-047-4A 7 3966 DUAL FULL-BRIDGE PWM MOTOR DRIVER THIS PAGE INTENTIONALLY LEFT BLANK 8 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 3966 DUAL FULL-BRIDGE PWM MOTOR DRIVER THIS PAGE INTENTIONALLY LEFT BLANK www.allegromicro.com 9 3966 DUAL FULL-BRIDGE PWM MOTOR DRIVER A3966SA Dimensions in Inches (controlling dimensions) 16 9 0.014 0.008 0.430 0.280 0.240 MAX 0.300 BSC 1 0.070 0.045 0.100 0.775 0.735 BSC 8 0.005 MIN 0.210 MAX 0.015 MIN 0.150 0.115 0.022 0.014 Dwg. MA-001-16A in Dimensions in Millimeters (for reference only) 16 9 0.355 0.204 10.92 7.11 6.10 MAX 7.62 BSC 1 1.77 1.15 2.54 19.68 18.67 BSC 8 0.13 MIN 5.33 MAX 0.39 MIN 3.81 2.93 0.558 0.356 Dwg. MA-001-16A mm NOTES: 1. Exact body and lead configuration at vendor's option within limits shown. 2. Lead spacing tolerance is non-cumulative 3. Lead thickness is measured at seating plane or below. 10 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 3966 DUAL FULL-BRIDGE PWM MOTOR DRIVER A3966SLB Dimensions in Inches (for reference only) 16 9 0.0125 0.0091 0.2992 0.2914 0.419 0.394 0.050 0.016 0.020 0.013 1 2 3 0.4133 0.3977 0.050 BSC 0 TO 8 0.0926 0.1043 0.0040 MIN. Dwg. MA-008-16A in Dimensions in Millimeters (controlling dimensions) 16 9 0.32 0.23 7.60 7.40 10.65 10.00 1.27 0.40 0.51 0.33 1 2 3 10.50 10.10 1.27 BSC 0 TO 8 2.65 2.35 0.10 MIN. Dwg. MA-008-16A mm NOTES: 1. Exact body and lead configuration at vendor's option within limits shown. 2. Lead spacing tolerance is non-cumulative 3. Webbed lead frame. Leads 4 and 13 are internally one piece. www.allegromicro.com 11 3966 DUAL FULL-BRIDGE PWM MOTOR DRIVER MOTOR DRIVERS Output Ratings* Part Number INTEGRATED CIRCUITS FOR BRUSHLESS DC MOTORS 3-Phase Power MOSFET Controller -- 28 V 3933 3-Phase Power MOSFET Controller -- 50 V 3932 3-Phase Power MOSFET Controller -- 50 V 7600 2-Phase Hall-Effect Sensor/Driver 400 mA 26 V 3626 Bidirectional 3-Phase Back-EMF Controller/Driver 600 mA 14 V 8906 2-Phase Hall-Effect Sensor/Driver 900 mA 14 V 3625 3-Phase Back-EMF Controller/Driver 900 mA 14 V 8902-A 3-Phase Controller/Drivers 2.0 A 45 V 2936 & 2936-120 INTEGRATED BRIDGE DRIVERS FOR DC AND BIPOLAR STEPPER MOTORS Dual Full Bridge with Protection & Diagnostics 500 mA 30 V 3976 PWM Current-Controlled Dual Full Bridge 650 mA 30 V 3966 PWM Current-Controlled Dual Full Bridge 650 mA 30 V 3968 PWM Current-Controlled Dual Full Bridge 750 mA 45 V 2916 PWM Current-Controlled Dual Full Bridge 750 mA 45 V 2919 PWM Current-Controlled Dual Full Bridge 750 mA 45 V 6219 PWM Current-Controlled Dual Full Bridge 800 mA 33 V 3964 PWM Current-Controlled Full Bridge 1.3 A 50 V 3953 PWM Current-Controlled Dual Full Bridge 1.5 A 45 V 2917 PWM Current-Controlled Dual Full Bridge 1.5 A 45 V 2918 PWM Current-Controlled Microstepping Full Bridge 1.5 A 50 V 3955 PWM Current-Controlled Microstepping Full Bridge 1.5 A 50 V 3957 PWM Current-Controlled Dual DMOS Full Bridge 1.5 A 50 V 3972 Dual Full-Bridge Driver 2.0 A 50 V 2998 PWM Current-Controlled Full Bridge 2.0 A 50 V 3952 DMOS Full Bridge PWM Driver 2.0 A 50 V 3958 Dual DMOS Full Bridge 2.5 A 50 V 3971 UNIPOLAR STEPPER MOTOR & OTHER DRIVERS Voice-Coil Motor Driver 500 mA 6V 8932-A Voice-Coil Motor Driver 800 mA 16 V 8958 Unipolar Stepper-Motor Quad Drivers 1A 46 V 7024 & 7029 Unipolar Microstepper-Motor Quad Driver 1.2 A 46 V 7042 Unipolar Stepper-Motor Translator/Driver 1.25 A 50 V 5804 Unipolar Stepper-Motor Quad Driver 1.8 A 50 V 2540 Unipolar Stepper-Motor Quad Driver 1.8 A 50 V 2544 Unipolar Stepper-Motor Quad Driver 3A 46 V 7026 Unipolar Microstepper-Motor Quad Driver 3A 46 V 7044 * Current is maximum specified test condition, voltage is maximum rating. See specification for sustaining voltage limits or over-current protection voltage limits. Negative current is defined as coming out of (sourcing) the output. Complete part number includes additional characters to indicate operating temperature range and package style. Also, see 3175, 3177, 3235, and 3275 Hall-effect sensors for use with brushless dc motors. Function 12 115 Northeast Cutoff, Box 15036 Worcester, Massachusetts 01615-0036 (508) 853-5000 |
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