L293B L293E PUSH-PULL FOUR CHANNEL DRIVERS. OUTPUT CURRENT 1A PER CHANNEL PEAK OUTPUT CURRENT 2A PER CHANNEL (non repetitive) INHIBIT FACILITY



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L293B L293E PUSH-PULL FOUR CHANNEL DRIVERS OUTPUT CURRENT 1A PER CHANNEL PEAK OUTPUT CURRENT 2A PER CHANNEL (non repetitive) INHIBIT FACILITY. HIGH NOISE IMMUNITY SEPARATE LOGIC SUPPLY OVERTEMPERATURE PROTECTION DESCRIPTION The L293B and L293E are quad push-pull drivers capable of delivering output currents to 1A per channel. Each channel is controlled by a TTL-compatible logic input and each pair of drivers (a full bridge) is equipped with an inhibit input which turns off all four transistors. A separate supply input is provided for the logic so that it may be run off a lower voltage to reduce dissipation. Additionally, the L293E has external connection of sensing resistors, for switchmode control. The L293B and L293E are package in 16 and 20-pin plastic DIPs respectively ; both use the four center pins to conduct heat to the printed circuit board. DIP16 ORDERING NUMBER : L293B POWERDIP (16 + 2+ 2) ORDERING NUMBER : L293E PIN CONNECTIONS DIP16 - L293B POWERDIP (16+2+2) - L293E April 1993 1/12

BLOCK DIAGRAMS DIP16 - L293B POWERDIP (16+2+2) - L293E 2/12

SCHEMATIC DIAGRAM (*) In the L293 these points are not externally available. They are internally connected to the ground (substrate). O Pins of L293 () Pins of L293E. 3/12

ABSOLUTE MAXIMUM RATINGS Symbol Parameter Value Unit V s Supply Voltage 36 V V ss Logic Supply Voltage 36 V V i Input Voltage 7 V V inh Inhibit Voltage 7 V Iout Peak Output Current (non repetitive t = 5ms) 2 A P tot Total Power Dissipation at T ground-pins = 80 o C 5 W Tstg, Tj Storage and Junction Temperature 40 to +150 o C THERMAL DATA Symbol Parameter Value Unit R th j-case Thermal Resistance Junction-case Max. 14 o C/W Rth j-amb Thermal Resistance Junction-ambient Max. 80 o C/W ELECTRICAL CHARACTERISTICS For each channel, V S = 24V, V SS = 5V, T amb = 25 o C, unless otherwise specified Symbol Parameter Test Conditions Min. TYp. Max. Unit V s Supply Voltage V ss 36 V V ss Logic Supply Voltage 4.5 36 V Is Total Quiescent Supply Current Vi = L V i = H Io = 0 I o = 0 Vinh = H V inh = H V inh = L Iss Total Quiescent Logic Supply Current Vi = L V i = H Io = 0 I o = 0 Vinh = H V inh = H Vinh = L 2 16 44 16 16 6 ma 24 4 V il Input Low Voltage -03. 1.5 V ViH Input High Voltage VSS 7V 2.3 Vss V ss > 7V 2.3 7 V I il Low Voltage Input Current V il = 1.5V -10 µa I ih High Voltage Input Current 2.3V V IH V ss - 0.6V 30 100 µa VinhL Inhibit Low Voltage -0.3 1.5 V V inhh Inhibit High Voltage V SS 7V Vss > 7V I inhl Low Voltage Inhibit Current V inhl = 1.5V -30-100 µa IinhH High Voltage Inhibit Current 2.3V VinhH Vss - 0.6V ±10 µa V CEsatH Source Output Saturation Voltage I o = -1A 1.4 1.8 V VCEsatL Sink Output Saturation Voltage Io = 1A 1.2 1.8 V V SENS Sensing Voltage (pins 4, 7, 14, 17) (**) 2 V t r Rise Time 0.1 to 0.9 V o (*) 250 ns t f Fall Time 0.9 to 0.1 V o (*) 250 ns t on Turn-on Delay 0.5 V i to 0.5 V o (*) 750 ns toff Turn-off Delay 0.5 Vi to 0.5 Vo (*) 200 ns * See figure 1 ** Referred to L293E TRUTH TABLE V i (each channel) V o ( ) V inh H L H L (*) High output impedance (**) Relative to the considerate channel 4/12 H L X ( o ) X ( o ) H H LL 2.3 2.3 60 22 24 V ss 7 ma V

Figure 1 : Switching Timers Figure 2 : Saturation voltage versus Output Current Figure 3 : Source Saturation Voltage versus Ambient Temperature Figure 4 : Sink Saturation Voltage versus Ambient Temperature Figure 5 : Quiescent Logic Supply Current versus Logic Supply Voltage 5/12

Figure 6 : Output Voltage versus Input Voltage Figure 7 : Output Voltage versus Inhibit Voltage APPLICATION INFORMATION Figure 8 : DC Motor Controls (with connection to ground and to the supply voltage) Figure 9 : Bidirectional DC Motor Control Vinh A M1 B M2 H H Fast Motor Stop H Run H L Run L Fast Motor Stop L X Free Running Motor Stop X Free Running Motor Stop L = Low H = High X = Don t Care Inputs Function Vinh = H C = H ; D = L Turn Right C = L ; D = H Turn Left C = D Fast Motor Stop Vinh = L C = X ; D = X Free Running Motor Stop L = Low H = High X = Don t Care 6/12

Figure 10 :Bipolar Stepping Motor Control 7/12

Figure 11 :Stepping Motor Driver with Phase Current Control and Short Circuit Protection 8/12

MOUNTING INSTRUCTIONS The R th j-amb of the L293B and the L293E can be reduced by soldering the GND pins to a suitable copper area of the printed circuit board as shown in figure 12 or to an external heatsink (figure 13). Figure 12 :Example of P.C. Board Copper Area which is Used as Heatsink During soldering the pins temperature must not exceed 260 o C and the soldering time must not be longer than 12 seconds. The external heatsink or printed circuit copper area must be connected to electrical ground. Figure 13 :External Heatsink Mounting Example (Rth = 30 o C/W) 9/12

DIP16 PACKAGE MECHANICAL DATA Dimensions Millimeters Inches Min. Typ. Max. Min. Typ. Max. a1 0.51 0.020 B 0.77 1.65 0.030 0.065 b 0.5 0.020 b1 0.25 0.010 D 20 0.787 E 8.5 0.335 DIP16PW.TBL e 2.54 0.100 e3 17.78 0.700 F 7.1 0.280 i 5.1 0.201 L 3.3 0.130 Z 1.27 0.050 a1 I L b1 Z b B e3 e E D 16 9 F PMDIP16W.EPS 1 8 10/12

POWERDIP (16+2+2) PACKAGE MECHANICAL DATA Dimensions Millimeters Inches Min. Typ. Max. Min. Typ. Max. a1 0.51 0.020 B 0.85 1.4 0.033 0.055 b 0.5 0.020 b1 0.38 0.5 0.015 0.020 D 24.8 0.976 E 8.8 0.346 DIP20PW.TBL e 2.54 0.100 e3 22.86 0.900 F 7.1 0.280 i 5.1 0.201 L 3.3 0.130 Z 1.27 0.050 a1 I L b1 Z b e3 B e Z E D 20 11 1 10 F PMDIP20WEPS 11/12

Information furnished is believed to be accurate and reliable. However, SGS-THOMSON Microelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of SGS-THOMSON Microelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. SGS-THOMSON Microelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of SGS-THOMSON Microelectronics. 1994 SGS-THOMSON Microelectronics - All Rights Reserved SGS-THOMSON Microelectronics GROUP OF COMPANIES Australia - Brazil - France - Germany - Hong Kong - Italy - Japan - Korea - Malaysia - Malta - Morocco - The Netherlands - Singapore - Spain - Sweden - Switzerland - Taiwan - Thaliand - United Kingdom - U.S.A. 12/12

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