![keyes l298n motor driver shield keyes l298n motor driver shield](https://wiki.keyestudio.com/images/d/dc/KS0007_back.jpg)
- #Keyes l298n motor driver shield software#
- #Keyes l298n motor driver shield series#
- #Keyes l298n motor driver shield download#
Now, let’s design a small circuit and check out its controlling operation.
![keyes l298n motor driver shield keyes l298n motor driver shield](https://content.instructables.com/ORIG/F2V/3IT4/I2X6RNGR/F2V3IT4I2X6RNGR.jpg)
It has two output pins on left and 2 on the right side, while the input pins are shown at the right bottom corner.Using this L298 Motor Driver, you can easily control two DC Motors and it works exactly the same as our hardware L298 module.You can see its looking quite awesome in above figure.If everything goes fine then you will get something as shown in below figure:.Place this L298 Motor Driver in your Proteus work space.
![keyes l298n motor driver shield keyes l298n motor driver shield](https://img.fruugo.com/product/0/09/141496090_max.jpg)
#Keyes l298n motor driver shield software#
Now restart your Proteus software and search for L298 Motor Driver in the search box as shown in below figure:.The main features are: high voltage, maximum operating voltage up to 46V output current, instantaneous peak current up to 3A, continuous operating current of 2A rated power 25W. If you are using Proteus 8 Professional, then the library folder link will be something like this: C:ProgramDataLabcenter ElectronicsProteus 8 ProfessionalDataLIBRARY L298N motor driver board module Description: L298N is a high voltage, high current motor driver chip.If you are using Proteus 7 Professional, then the library folder link will be something like this: C:Program Files (x86)Labcenter ElectronicsProteus 7 ProfessionalLIBRARY.
#Keyes l298n motor driver shield download#
First of all, download the L298 Motor Driver Library for Proteus by clicking the below button:.So, let’s get started with L298 Motor Driver Library for Proteus: L298 Motor Driver Library for Proteus L293d contains a quadruple half-H driver meaning all the four input-output lines are independent. The maximum output current through one channel of L293D is 600mA whereas L298N Motor Driver can give up to 2A from both channels. If you got into any trouble regarding this L298 Motor Driver Library for Proteus, then you can ask in comments and I will try my best to resolve your issues. IC operating voltage for L298N is between 4.7V to 7V and between 4.5V to 5.5V for L293D. If you don’t know much about L298 then you should also have a look at Introduction to L298, in which I have discussed the basics of L298 module, it will be quite informative for you. But today we are gonna see it in action in Proteus Simulation and its quite exciting for me as well. You should also have a look at DC Motor Speed Control using L298 in which I have used the same module in hardware design. It has never been designed before and we are proudly presenting it for the first time. Today, I am going to share a new L298 Motor Driver Library for Proteus.
![keyes l298n motor driver shield keyes l298n motor driver shield](https://www.robotistan.com/arduino-smd-l298-dual-motor-driver-shield-motor-arduino-shield-15782-21-B.jpg)
If you want to control the speed of motors, you need to remove the jumpers and connect them to PWM-enabled pins on Arduino.Hello everyone, I hope you all are doing great. When this jumper is in place, the motor is enabled and spins at maximum speed. The module usually comes with a jumper on these pins. Speed Control Pins :ENA and ENB are used to turn the motors ON, OFF and control its speed. Output Pins : The L298N motor driver’s output channels for the motor A and B are broken out to the edge of the module with two 3.5mm-pitch screw terminals.ĭirection Control Pins : The IN1 and IN2 pins control the direction of the motor A while IN3 and IN4 control the direction of the motor B. Warning : if the motor power supply is greater than 12V, you should remove the jumper to avoid the on-board 5V regulator from getting damaged.Also DO NOT supply power to both the motor power supply input and 5V power supply input when jumper is in place. And they both sink to a common ground named ‘ GND ’. ' Vss ' is used for driving the logic circuitry which can be 5 to 7V. Power Supply : From ' Vs ' pin the H-Bridge gets its power for driving the motors which can be 5 to 35V. The L298N is a dual-channel H-Bridge motor driver capable of driving a 2x DC motors, making it ideal for building two-wheel robots. This leads to a change in the direction of the motor. H-Bridge – For controlling rotation direction: An H-Bridge circuit contains four switches with the motor at the center forming an H, closing two particular switches at the same time reverses the polarity of the voltage applied to the motor.
#Keyes l298n motor driver shield series#
PWM – For controlling speed: PWM is a technique where average value of the input voltage is adjusted by sending a series of On/OFF pulses, the average voltage is proportional to the width of the pulses known as Duty Cycle.The higher the duty cycle, the greater the average voltage applied to the dc motor this lead to the highest speed.