SEMICONDUCTOR TECHNICL DT BIPOLR LINER INTEGRTED CIRCUIT BI-DIRECTIONL DC MOTOR DRIER is a monolithic integrated circuit designed for driving bi-directional DC motor with braking and speed control, and suitable for the loading motor driver of CR, Cassette tape recorders systems. The speed control can be achieved by adjusting the external voltage of the speed control pin. P F d Q D G I J H1 H L B T FETURES Brake is applied when stopping the motor. Built-in Function absorb rush current generated by reversing and braking. Power transistor can handle a large current (1. Max.) External motor speed control pin. Stable operation during mode changes either from forward to reverse or vice versa. Interfaces with CMOS devices. Operation supply voltage range : CC =. 1. M N DETIL "" MX:.5 MIN:. ECH END DIM MILLIMETERS. + _. B. +_. D 1. + _.1 d.5 + _.1 F. + _. G.5 + _. H1.5 + _.3 H 15. + _.3 I 1.5 J L 5.5 + _.3 M.+./-. N.5+.1/-.7 P.5 Q Φ3. + _. T.+.1/-.5 MXIMUM RTINGS (Ta=5 ) SSIP-1 CHRCTERISTIC SYMBOL RTING UNIT Supply oltage CC 1 Output Current I OUT 1. (*1) Power Dissipation P D. (*) W Input oltage IN -.3 CC Operating Temperature T opr -5 75 Storage Temperature T stg -55 15 Note) (*1) : Duty 1/1, pulse width 5 (*) : Derated above Ta=5 in the proportion of 1mW/ BLOCK DIGRM DRIER PRE-DRIER LOGIC 1 3 5 7 9 1 GND OUT1 Z1 ref F IN R IN CC1 CC Z OUT 1/
ELECTRICL CHRCTERISTICS (Unless otherwise specified, Ta=5, CC =1) CHRCTERISTIC SYMBOL TEST CONDITION MIN. TYP. MX. UNIT Operating Supply oltage CC 1 1 Quiescent Current I CCQ Pin 5 & : GND, R L = 3 5.5 1 m Min. Input-on Current I IN1 R L =, Pin 5=I IN1, Pin =L - 1 5 I IN R L =, Pin 5=L, Pin =I IN - 1 5 Input Threshold oltage INTH1 R L =, Pin 5= INTH1, Pin =L.7 1.3. INTH R L =, Pin 5=L, Pin = INTH.7 1.3. Output Leakage Current I OL1 R L =, Pin 5 & =GND - - 1 I OL R L =, Pin 5 & =GND - - 1 m Zener Current I Z1 R L =1, Pin 5=H, Pin =L -.5 1.5 I Z R L =1, Pin 5=L, Pin =H -.5 1.5 m Output oltage R L =, Pin 5=H, Pin =L, O1 Z D =7. R L =, Pin 5=L, Pin =H, O Z D =7.. 7. -.5 7.1 - (PIN 1-1) CE1-1 R L =R C =, Pin 5=H, Pin =L, I SINK =1m -.3 1.5 Saturation voltage R L =R C =, Pin 5=L, Pin =H, (PIN -1) CE-1 I SINK =1m R L =R C =, Pin 5=H, Pin =L, (PIN -) CE- I SOURCE =1m -.3 1.5 -.3 1.5 (PIN -1) CE-1 R L =R C =, Pin 5=L, Pin =H, I SOURCE =1m -.3 1.5 /
PIN CONFIGURTIONS 1 3 5 7 9 1 GND OUT1 Z1 ref F IN R IN CC1 CC Z OUT PIN DESCRIPTIONS Pin No. SYMBOL DESCRIPTION 1 GND Ground. Out 1 Motor Output Pin. 3 Z1 Capacitor Connection Pin for Preventing Both Output Transistor Being Turned on at the same time. ref Output High oltage Setting Pin. 5 F IN Logic Input Pin. R IN Logic Input Pin. 7 CC1 Control Circuit Power Supply Pin. CC Output Power Supply Pin. 9 Z Capacitor Connection Pin for Preventing Both Output Transistors Being Turned on at the same time. 1 Out Motor Output Pin. 3/
TEST CIRCUIT 1 3 5 7 9 1 S1 S3 S R L S7 S ZD 7. S5 IN S RC 1Ω =1 CC PPLICTION CIRCUIT 1 3 5 7 9 1 ZD 7. 1Ω =1 CC M * Designed for a motor with ratings of and 1m /
PPLICTION INFORMTIONS 1. FORWRD ND REERSE CONTROL LOGIC Truth Table Input Output PIN 5 PIN PIN PIN 1 Function L L L L Braking L H L H Reverse H L H L Forward H H L L Braking Note ) Input Level : L :.7 or Less H :. or more 1) If pin 5=H, pin =L, load current flows from pin to pin 1 through a motor. (refer to the truth table) ) If pin 5=L, pin =H, load current flows from pin 1 to pin through a motor. (refer to the truth table) 3) If pin 5=pin =L or pin 5=pin =H, the stops supplying the power to motor while absorbing counter EMF from the motor as a brake.. RUSH CURRENT BSORBING CIRCUIT If a high voltage generated during reversing operation is applied across pin and pin 1, an internal comparator activates the rush current absorbing circuit. 3. DRIER CIRCUIT In the forward mode, the drive stage supplies a load current to the motor from pin to pin 1. In the reverse mode, it supplies the current from pin 1 to pin. The output voltage (out) applied to the motor is given by the followings ; OUT = ZD - CE (sat), where ZD : a zener voltage applied to pin. If pin is left open, the output voltage is given by the followings ; OUT = CC1 - CE (sat, pnp)- F - CE (sat) = CC1-1. (I OUT =1m) 5/
P D - Ta I CCQ - CC POWER DISSIPTION P D (W) 3.. 5 5 75 1 15 QUIESCENT CURRENT I CCQ (m) 1 ZD=7. 5.pin: L R L= 1 1 1 1 1 MBIENT TEMPERTURE Ta ( C) SUPPLY OLTGE CC () O - CC O - CC OUTPUT OLTGE O () 1 1 pin -1pin ZD=7. R L=Ω pin: L OUTPUT OLTGE O () 1 1 pin 1-pin ZD =7. R L=Ω pin: H 1 1 1 1 1 1 1 1 1 1 SUPPLY OLTGE CC () SUPPLY OLTGE CC () I CCQ - Ta OUT - Ta QUIESCENT CURRENT I CCQ (m) 1 1-5 CC =1 pin: L R L= -5 5 5 75 1 OUTPUT OLTGE O () -1pin 1 1-5 -5 CC=1 rd=7. pin: L 5 5 75 1 MBIENT TEMPERTURE Ta ( C) MBIENT TEMPERTURE Ta ( C) /
OUT - Ta CE SINK OUTPUT OLTGE O () 1-pin 1 1-5 CC =1 ZD=7. pin: H -5 5 5 75 1 COLLECTOR-EMITTER OLTGE CE () 1-1pin 1. 1. 1. 1..... CC =5,1 pin: H 5 1 15 MBIENT TEMPERTURE Ta ( C) SINK CURRENT (m) CE SINK CE SOURCE COLLECTOR-EMITTER OLTGE CE () -1pin 1. 1. 1. 1..... CC=5,1 pin: H 5 1 15 COLLECTOR-EMITTER OLTGE CE () -pin 1. 1. 1. 1..... CC =5,1 pin: L 5 1 1 3 SINK CURRENT (m) SOURCE CURRENT I SOURCE (m) CE SOURCE O - R COLLECTOR-EMITTER OLTGE CE () -1pin 1. 1. 1. 1..... CC =5,1 pin: H 5 1 1 3 OUTPUT OLTGE O ()1-pin 1 1 1 1 1 R L=Ω CC =9,1,1 pin: L 9 1 1 1 1 1 1 1 SOURCE CURRENT I SOURCE (m) REFERENCE OLTGE R ()pin 7/
O - R I Z OUT OUTPUT OLTGE O ()-1pin 1 1 1 1 1 R L=Ω CC=9,1,1 pin: L 1 1 1 1 1 ZENEH CURRENT I Z (m).5 CC =1 R L=1Ω ZD=7. pin: L 1 1 REFERENCE OLTGE R ()pin OUTPUT CURRENT I OUT (m) OUTPUT OLTGE O () 5.. 3.. O OUT 5pin:H, pin:l 5pin:L, pin:h CC =9 ZD=3.5 R C=Ω 1 OUTPUT CURRENT I OUT (m) /