When it comes to debugging a microcontroller circuit, there aren't a lot of simple options. Since a microcontroller circuit might have multiple things going on at the same time, measuring voltages with a DMM isn't an option. Using an computerized In-Circuit-Debugger solution is expensive and elaborate, and time-consuming to set up. People often resort to connecting banks of LEDs to the circuit, but this also takes time and if wired incorrectly, might mislead you about the issues you are trying to solve.
Enter the Microcontroller Debug Module (MDM). It is a device which simply transplants the microcontroller (MCU) to a separate unit, away from the breadboard. It is connected by a 40-pin ribbon cable to a small PCB which takes the place of the MCU on the breadboard, transposing each pin directly. No circuit modifications are required for the operation of the MDM. On the module are 74LS541 8-bit Line Driver ICs which drives indicator LEDs for each of the 8 bits on each of the data ports on the MCU. This chip delivers current for the LEDs without affecting the pin of the MCU itself. The pin and the breadboard circuit have no idea the chip is there.
My microcontrollers of choice are PIC18 family 28 and 40 pin PICs which I have designed this unit to be pin-compatible for. Your unit can be designed for Arduino Atmel chips or any MCU you wish to use.
This Instructable is mostly intended to inspire ideas and some circuit pieces to help you develop a MDM for your own favorite family of MCU.
Also Please note the schematic and board layout are regarding Revision 0.3, it is far more advanced and has numerous corrections/features added to it, compared to Rev 0.1, which is photographed.
Step 1: Schematic Design
- J2 is the 40-pin PIC socket, which connects pin-for-pin to the 40-pin IDE connector
- J8 is the 28-pin PIC socket, which will rest in between the 40-pin socket
- J3-J6 are arranged to form a 20x2 IDE cable connection for connecting the MDM to the PIC substitute board
- J7 is a header for running the MDM in a stand-alone configuration without power from the breadboard circuit
DSW1 is a DIP switch bank that allows the user to disable or enable the LED output ports if they so wish to. It will reduce the brightness of the port LEDs if you are not using that port for anything, or if the port is being used as an analog input port. When the pin is Tri-state then both LEDs will light up at 50% brightness. Due to limitations of the 74LS541, when the MCU pin is displaying tri-state, it will display as high. The only time that the output of the 74LS541 will go tri-state is when the enable/disable switch for that chip is enabled.
An oscillator is included on the board, and I recommend it be used because the crystal should be as close to the MCU as possible, and it is not a good idea for it to have to go through a ribbon cable to get there. It might also cause unwanted noise in the rest of the circuit and could affect ADC readings.
an ICSP header is included on the board, and can be enabled/disabled from the MCU pins with SW1.
Please press the "i" symbol at the top corner of each image to view it in full, readable resolution. Thank you.