L293d Motor Driver Ic Datasheet Pdf

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Each output is a complete totem-pole drive circuit, with a Darlington transistor sink and a pseudo- Darlington source. Drivers are enabled in pairs, with drivers 1 and 2 enabled by 1,2EN and drivers 3 and 4 enabled by 3,4EN. The L293 and L293D are characterized for operation from 0°C to 70°C. Open-in-new Find other Brushed DC (BDC) motor drivers. Estimated Motor supply quiescent current: 90 - (3.16 +25) = 17 mA These boards also used a 74HC14 hex inverter chips (4 of 6 inverters used) to invert the input signal to one side of the H-bridge so that only one control signal was required per motor driver. For a LV8549MC based motor driver board. This circuit is a basic circuit for understanding the way of L293D H Bridge DC motor control with Arduino. Thereby it is a suitable device for obtaining variable DC by controlling the Motor speed.

L293d Motor Driver Ic Datasheet Pdf Reader

L293D - Push-Pull Four Channel Drivers with Diodes, L293D. Download datasheet. Motor Control PDF reference guide. L2930 Datasheet PDF – Push-Pull Four Channel Driver – ST Posted on May 8, 2018 September 6, 2019 by Pinout Part Number: L2930, Correct Partnumber: L293D. L293d l293dd push-pull four channel driver with diodes 600ma output current capability per channel 1.2a peak output current (non repeti-tive) per channel enable facility overtemperature protection logical '0' input voltage up to 1.5 v (high noise immunity) internal clamp diodes description the device is a monolithic integrated high volt.

L293d Motor Driver Ic Datasheet Pdf Download

Datasheet
STMicroelectronics Electronic Components Datasheet

PUSH-PULL FOUR CHANNEL DRIVER

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® L293DD
600mA OUTPUT CURRENT CAPABILITY
1.2A PEAK OUTPUT CURRENT (non repeti-
ENABLE FACILITY
LOGICAL '0' INPUT VOLTAGE UP TO 1.5 V
INTERNAL CLAMP DIODES
The Device is a monolithic integrated high volt-
accept standard DTL or TTL logic levels and drive
and stepping motors) and switching power tran-
To simplify use as two bridges each pair of chan-
supply input is provided for the logic, allowing op-
odes are included.
This device is suitable for use in switching appli-
BLOCK DIAGRAM
Powerdip (12+2+2)
L293DD
The L293D is assembled in a 16 lead plastic
gether and used for heatsinking
mount which has 8 center pins connected to-
July 2003

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STMicroelectronics Electronic Components Datasheet

PUSH-PULL FOUR CHANNEL DRIVER

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ABSOLUTE MAXIMUM RATINGS
VS
Vi
Io
Tstg, Tj
Supply Voltage
Input Voltage
Peak Output Current (100 µs non repetitive)
Storage and Junction Temperature
Value
36
7
4
Unit
V
V
W
SO(12+4+4)
Symbol
Rth j-amb
Decription
Thermal Resistance junction-ambient
(*) With 6sq. cm on board heatsink.
max.
max.
14
14
°C/W
2/7

A little late for my recent project work involving some 50 off L293D dual H-bridge IC's (some folks may also know of the approx. equivalent the SN754410) however I have just come across an alternative dual H-bridge IC being the LB1909MC.
http://www.onsemi.com/pub_link/Collateral/ENA2037-D.PDF
This is only available in a 10 pin SMD SOIC package format which is still solderable using 'normal' soldering irons with care. I have soldered SOIC chips from 8 pin to 32 pin successfully in the past.
There are seemingly a few advantages including:
1. No need for a separate 5Vdc logic supply
2. One input controls both sides of a H-bridge - so no need for an inverter to the other side
3. Far lower internal current draw than the L293D (ie 25 mA when En is high compared to 44 mA)
4. Output saturation voltage is lower (ie 0.5 V @ 400 mA compared to 1.2/1.4V @ 600 mA for L293D)
There is only 1 Output Enable pin to control both H-bridges.
So certainly an alternative IC that I will be considering and maybe experimenting with in the near future for bi-polar stepper motors and small low current DC motors requiring bi-directional control.
The only source I found at this time was Mouser.