While the development of electronics products itself is an interesting journey, a lot of things need to be aligned in order for its success including component choice, hardware design, pcb design, software, testing & more There are certain scenarios though when even a well thought process produces a product with some glitches, here is what worked for me during the same : 1. As engineers we have a tendency to go to drawing board, however the problem could be a process flaw, make sure industrialization is in check 2. Devil is in the details, and all the details are in the datasheet, BE THOROUGH !!! 3. Split the problem identification into submodules and use the process of elimination 4. And last but important, keep your fundamentals in check

The most important factor in resolving an issue is having a thorough understanding of the circuit's operation. However, in general, the following points can be mentioned: 1. Circuit Analysi 2. Study of Application Notes 3. Simulation of the Power Section 4. Setting Up the Circuit in Open Loop and Matching It with the Simulation In these cases, if any issues arise, it is best to first check the power supply voltages of the circuit. After that, compare the corresponding pulses and signals with the simulation, and analyze the differences between the practical circuit and the simulation. The order in which the pulses and voltages are examined depends on your expertise and familiarity with the circuit.

If tests seem to reveal odd results - there may be two or more simultaneous unrelated problems. Take a step back and test interconnections between subsystems within the system

Test by module by module or point by point with expected results for sectional assembly. This will help isolate the defective zone and confirm the defective zone. It may be manufacturing error or assembly error.

To overcome technical glitches in electronic engineering projects, I set up a testing mode using serial communication with tools like Tera Term. This allows me to test each module individually for functionality, which significantly reduces troubleshooting time and simplifies hardware debugging.

First, make sure all of your voltages are correct, no falling off wires. Second, start from basic, make sure a signal going through your system. And than see if it's doing what it's supposed to do...

** DO NOT PANIC ** Start by analyzing the issue to find the root cause. Break the problem down into small parts and solve each one step by step. Check hardware connections, check the code for errors, and check data sheets or documents. Use debugging tools, test solutions multiple times, and focus on troubleshooting until the error is fixed.

There can be a number of ways to trace the faults in electronic engineering projects. I.e. 1. First of all, check if all implementation has been carried out as per document/ manual. 2. Check if all interfaces are working as per the desired / defined way. 3. Check the inputs and outputs of all components to see if they are working fine. 4. A bottom up approach would be very helpful to see working of each module and how it contributes to the higher level module. 5. Sometimes, a phenomenon arises called ‘emergent properties’. In this case, the individual components work as per desired functionality however, when they are interconnected , the final outcome is something not desirable. Therefore, this aspect may also be considered.

Being a manager if someone faces technical glitches in electronic engineering projects he must adapt reverse engineering techniques like running a complete diagnostic and then coordinate with the relevant department to resolve system glitches, checking QC passed documents and see from where he would be able to control it for the next time, conduct troubleshooting in his supervision to make sure the system will run smoothly again.

Recheck the problem from beginning component wise and sub system wise . Narrow down the diagnosis in the sub system area then to a particular component . Also find online solutions if available.