Kia ora from New Zealand again team.
New question for you. As mentioned previously I'm building the RYCA CS-1 kit on a stock 2006 S40.
I replaced the stock 4 turn signal indicators with the LEDs supplied by RYCA (integrated with the tail/brake light at the back).
As expected the indicators ran too fast (hyper flashing) so I replaced the flasher module with a generic electronic one from my local auto parts shop.
That seemed to fix the issue and the flashers settled down to a nice even one/per second or so.
However, now I've managed to mostly reassemble the bike and got it to start (minor miracle
), once the engine is running the turn signals hyperflash again.
I've installed a really nice Acewell Speedo that has a digital voltmeter built in. With the ignition switch on but engine NOT running I get about 12.8v. Witht he engine running I get a reading of about 14.4v. A few questions if i may:
1. Is the increase in voltage with the engine running my problem? Is that enough to trick the flasher module into hyperflashing because of a lack of LED resistance? Or is something more sinister happening?
2. Why would my electronic flasher unit care - I thought they were designed to work with LEDs anyway so why the problem with the engine running? Is the flasher unit just rubbish and I need a different one (not that easy to find in New Zealand)
3. Is the answer to install some load resistors into the LED circuit?
4. If so what do I need? I can buy a pair of 12V, 21W load resistors with heat sinks locally, can they do the trick?
5. How many do I need - would it be enough to install one pair across the rear LED lamps (easiest to get to at the moment) or would I need to install 4 resistors in total - one across each LED lamp?
6. My understanding is they go in parallel from the LED Positive feed to the earth - have I got my facts right?
Thx All!