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©2019 by OL ELECTRONICS. Developed by OLatus Systems Private Limited

L293D Motor Driver IC, 2 Pieces

SKU: IC012

L293D PowerDIP-16 Stepper Motor Controller/ Driver is a dual H-bridge motor driver integrated circuit (IC). Motor drivers act as current amplifiers since they take a low-current control signal and provide a higher-current signal. This higher current signal is used to drive the motors.

The Device is a monolithic integrated high voltage, high current four channel driver designed to accept standard DTL or TTL logic levels and drive inductive loads (such as relays solenoids, DC and stepping motors) and switching power transistors. To simplify use as two bridges each pair of channels is equipped with an enable input. A separate supply input is provided for the logic, allowing operation at a lower voltage and internal clamp diodes are included.

It is suitable for use in switching applications at frequencies up to 5 kHz. The L293D is assembled in a 16 lead plastic package which has 4 centre pins connected together and used for heatsinking The L293DD is assembled in a 20 lead surface mount which has 8 centre pins connected together and used for heatsinking.

L293D contains two inbuilt H-bridge driver circuits. In its common mode of operation, two DC motors can be driven simultaneously, both in forward and reverse direction. The motor operations of two motors can be controlled by input logic at pins 2 & 7 and 10 & 15. Input logic 00 or 11 will stop the corresponding motor. Logic 01 and 10 will rotate it in clockwise and anticlockwise directions, respectively. Enable pins 1 and 9 (corresponding to the two motors) must be high for motors to start operating.

When an enable input is high, the associated driver gets enabled. As a result, the outputs become active and work in phase with their inputs. Similarly, when the enable input is low, that driver is disabled, and their outputs are off and in the high-impedance state. They are designed to drive inductive loads such as relays, solenoids, dc and bipolar stepping motors, as well as their high-current/high-voltage loads in positive-supply applications.

  • PIN CONFIGURATION

    Pin  No

    Pin

    Name

                 Description

    1

    Enable 1,2

    This pin enables the input pin Input 1(2) and Input 2(7)

    2

    Input 1

    Directly controls the Output 1 pin. Controlled by digital circuits

    3

    Output 1

    Connected to one end of  Motor 1

    4

    Ground

    Ground pins are connected to ground of circuit (0V)

    5

    Ground

    Ground pins are connected to ground of circuit (0V)

    6

    Output 2

    Connected to another end of  Motor 1

    7

    Input 2

    Directly controls the Output 2 pin. Controlled by digital circuits

    8

    Vcc2 (Vs)

    Connected to Voltage pin for running motors (4.5V to 36V)

    9

    Enable 3,4

    This pin enables the input pin Input 3(10) and Input 4(15)

    10

    Input 3

    Directly controls the Output 3 pin. Controlled by digital circuits

    11

    Output 3

    Connected to one end of Motor 2

    12

    Ground

    Ground pins are connected to ground of circuit (0V)

    13

    Ground

    Ground pins are connected to ground of circuit (0V)

    14

    Output 4

    Connected to another end of Motor 2

    15

    Input 4

    Directly controls the Output 4 pin. Controlled by digital circuits

    16

    Vcc2 (Vss)

    Connected to +5V to enable IC function

  • FEATURES

    • Can be used to run Two DC motors with the same IC.
    • Speed and Direction control is possible
    • Motor voltage Vcc2 (Vs): 4.5V to 36V
    • Maximum Peak motor current: 1.2A
    • Maximum Continuous Motor Current: 600mA
    • Supply Voltage to Vcc1(vss): 4.5V to 7V
    • Transition time: 300ns (at 5Vand 24V)
    • Automatic Thermal shutdown is available
    • Available in 16-pin DIP, TSSOP, SOIC packages
  • Where to use L293D IC

    The L293D is a popular 16-Pin Motor Driver IC. As the name suggests it is mainly used to drive motors. A single L293D IC is capable of running two DC motors at the same time; also the direction of these two motors can be controlled independently. So if you have motors which has operating voltage less than 36V and operating current less than 600mA, which are to be controlled by digital circuits like Op-Amp, 555 timers, digital gates or even Micron rollers like Arduino, PIC, ARM etc.. this IC will be the right choice for you.

     

  • APPLICATION

    • Used to drive high current Motors using Digital Circuits
    • Can be used to drive Stepper motors
    • High current LED’s can be driven
    • Relay Driver module (Latching Relay is possible)
₹160.00Price