Broken and disassembled remote/clickers
This is a problem that my sister has endured for a couple of years. Her car remotes have stopped working twice. The first time they quit working I simply re-soldered the battery holder onto the PCB. That pretty much fixed it.
Her car is a Chevy Cobalt, and she’s had it for over 4 years. The clickers are also that old. The second time the clickers quit, I checked the battery holders, and they were fine. They still didn’t work so she resorted to using the actual key to open the doors. Every time she opened her car the alarm went off. This went on for over a year.
I had given up on the clickers until the dealership told them that the remotes needed to be reprogrammed at $150 dollars each. I told my sis that it was not possible for both clickers to quit at the same time like that. The inside workings of that clicker could only be erased with the proper program and hardware.
Just the other day I took the remotes/clickers back from her and checked them one more time. One battery holder came loose again so I re-soldered it back. I checked the voltage at the pins of the microcontroller in the remote, and everything seemed to be working.
She came over to my job and we tested the remote. The panic and trunk buttons worked, but the important ones didn’t. She prefers to have lock and unlock over anything else. I used my pocket knife to activate the lock and unlock pads on the PCB and they work so my conclusion is that the conductive pads on the rubber buttons have lost their effectiveness.
Remote/clicker with hot glued tin foil
The fix is to hot-glue some tin foil to each rubber button to make the contact for her. This quick fix worked for both remotes. A little solder on the battery holder and 10 cents of hot glue and tin foil saved my sister $300!
*Edit* Hot glue didn’t last more than a day. The silicone buttons were still non-stick even with the application of a cleaning solution. This time I am trying out super glue gel. It seems to work much better.
Check out the new power plug!!!
Have you seen this post from July 1, 2008? How to make a digital clock: Picaxe
Well, the clock hasn’t work for a few months. When I plug it in and then unplug it, it shows a few random letters. Then it stops doing anything. Well, I figured that the display driver was broke since I noted it acted quirky in the first article almost two years ago. I was wrong.
It seems that we should always start at the wall and begin troubleshooting from there. Always. This is probably rule number 1. Well, it all boiled down to this: the original wall-wart shorted out and burned up. This leads us to the title.
Check out the new power plug. The original wall wart was a 6 volt output. I am now using a 9 volt output since the 7805 IC would prefer a little more voltage. I also did a current consumption test, and this circuit uses less tham 30mA. Now it can be unplugged and transported much easier.
Check out the new power plug!!!
Today I had an electronic gate brought to me that stopped working. Here’s the thirty minute way to figure and fix…
- The “customer” came in and asked me if I could fix a circuit board. I said, “I can definitely try, but I can’t make any promises.”
- I asked him what happened the day it quit working. He said. “I hooked the power up backwards, and the fuse blew. I put a new fuse in, and it blew, too. I imagine something else is blown.”
- Based on his testimony, I assume that something has caused a short across the positive and ground. I tested the circuit without power attached, and there was zero ohms between red and black.
Here are my first steps in the repairs this week:
- Search Google [or your favorite search engine] for published schematics.
- Start at the wall and work your way in.
- Check solder connections and part integrity all the way through. Broken jacks, resistors, solder joints, etc. could lead you to the source of disaster.
- Look for burn marks or abnormal-looking solder connections. [Solder can and occasionally will defy gravity.]
History: I own a 14.4V Black and Decker cordless drill with a laser. My wife bought it for me for some reason; probably because I liked it, and she wanted me to build something.
Measuring the voltage drop across the 10Ohm resistor
A little over a year ago, I was given a 14.4V B&D Firestorm drill that quit working. The Firestorm charger quit charging, as verified by the transformer windings giving me an open reading on the “Oh-meter”. To clarify, “‘Oh’, that’s why it isn’t charging.”