Circuit: L293D Mini-Sumo

Dave Hrynkiw
July 12, 2007

This circuit is used to create a simple "edgebot" sumo robot. Being an edgebot refers that it will repeat the same backup/turn/go forward action when it's single edge sensor detects the edge of the ring. This version of the circuit is quite simple, and always turns the same way. Although a single sensor is all you need, it is wisest to wire up two sensors in parallel (one for each front corner of the robot), so it safely detects the edge with little chance of it falling off.

Theory of operation (How does it work?)

The circuit is based around the L293D motor driver chip, which has four high power buffers usually used to drive two small DC motors or a single stepper motor. The pair of transistors are configured as inverters that allow the inputs to the L293D to have one be "high" and the other "low". When the switch closes, the two capacitors charge up and turn the transistors on. The transistors invert both logic signals going to the motor driver which causes the robot to reverse and back up away from the edge. Turning on the spot happens when one motor spins forward and the other continues backward. This is set by two "time-out" circuits that are tied to the transistors. By having different resistor/capacitor values on the "time-out" circuit, one motor will revert to the default forward direction before the other.

Parts for the Mini-sumo:

  • 1 x L293D
  • 2 x 2N3904
  • 2 x 47K
  • 1 x 10K
  • 1 x 2K
  • 1 x 1N914
  • 2 x 22uF caps
  • 2 x gearmotors
  • 1 x 9V battery
  • 1 x Switch (2 are better). Can be built from spring wire and a thick copper wire.
  • 1 x Power switch
  • Construction material such as sintra, steel plate, carbon fiber or whatever you prefer.

Circuit Diagrams:

Wiring Diagram of L293 Edgebot:

L293_edgebot.gif

The reverse time here is set by the 22µF caps the 10K resistor and the 2K resistor. The difference between the two resistor values is what determines how much the sumo will turn. How high the values are will determine how long the sumo will reverse. For instance if you want it to turn the same amount but backup further then increase both values by 10K so the new resistor values are 20K and 12K.

Technical Schematic:

L293_technical.gif

This is the technical layout with the transistor inverters simplified to the electrical symbol and the L293 shown as a quad of buffers. With this it should be easier to visualize what's happening.

Dual Sensor Sumobot Circuit:

This circuit is more difficult to tweak and probably far from optimized, but if your interested here it is:

Dual_sensor_minisumo.gif

- This circuit has two edge sensors, when either sensor is hit it will start reversing then depending on which sensor was triggered will turn left or turn right.

- This works on a different principal than the edgebot circuit. In this circuit, the timing values are the same and the voltage that the capacitors are charged to determine the reverse time. By charging the capacitor through three series LEDs, the capacitor voltage is lower than the other capacitor. This means the L293 will "see" the input from this lower-voltage capacitor as a logic "low" before the other. To adjust how much the sumo turns, add more LEDs (in series) to increase the voltage drop.

Additions:

- Adding a 5 second startup timer is as simple as tying the two enable pins together and attaching a capacitor between them and ground. The internal pull up resistor will gradually charge the capacitor and enable the chip. If you need further control over the startup time either add a resistor in parallel with the capacitor to increase the startup time or add a resistor from the enable line to Vcc to decrease the startup time. Running at 9V a 22µF cap with a 2M pull up resistor give close to a 5 sec startup, voltage will effect the startup time so I advise using a potentiometer.

© Solarbotics, 2002

MORE POSTS

June 19, 2009
PumLantern Lantern CC2.5 A-SA released!

Hi All. We've been having such fun with the PumLantern shells, we thought we'd share the love. Download the zipfile with several file formats under "resources" for the K PL kit! It's released under the Creative-Commons Attribution Share-Alike 2.5 Canada license. We use a laser to cut ours out, but there's nothing saying a steady […]

December 18, 2006
Herbie Reviewed

Here's a link from Gareth Branwyn at Streettech for his review of our new Herbie the Mousebot Kit!

December 12, 2006
New SCC3733a-MSE Solarcell

What's so special about the new SCC3733a-MSE? Two things: It's machine-assembled with new high-quality Russian solar cells (the best commercial cells we've tested yet) It comes with a Miller Solarengine circuit pre-etched on the rear of the solarcell! We have only a limited number of these cells presently, so if you're looking for the absolutely […]

January 28, 2013
Early Monday New Product Post: Now with ...

We apologize for the late Friday Product Post - Friday night our brains were temporarily eaten out by rabid flying honey badger monkeys. The brains are now successfully returned into place, and here's the freshly renamed Early Monday Product Post. Oh, look, text! It has letters! And words. And sentences. And clauses. And everything a […]

1 63 64 65 66 67 253
Solarbotics Ltd Logo
Solarbotics has been operating for more than 25 years, bringing electronics know-how and supplies to both the electronics professional and hobbyist. We'll be happy to help you too!

Solarbotics, Ltd. is not responsible for misprints or errors on product prices or information. For more information, please see our Terms and Conditions.

Warning: This product contains chemicals known to the State of California to cause cancer and birth defects or other reproductive harm.
Please visit www.P65Warnings.ca.gov for more information. This item was manufactured prior to August 31, 2018.

cart