First read what it says on your flasher relay. Then check the wattage of your bulbs corresponds with it. Usually 21 or 18 Watts in our part of the world. I hope you don't have LEDs.
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I've also noticed when I switch the blinker on while I'm on the throttle, I get a slight hesitation. Its like the engine has no spark for a split second, just at the moment that I switch it. Otherwise no impact.
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This is strange. A thing I'd look at: are the fuses OK, are they the right ones and are their ends and their clamps clean. They should not get so hot, you can't touch them.
You could do a V4-measurement to see all Volts 'arrive where needed'. It is explained here:
It's just 4 steps with the same meter. When you look at the pics long enough, you'll get it. Each picture shows two measurements.
Let's say there's a problem, something is not working right: a somewhat dim lamp.
Step 1: you measure the potential over the battery terminals. Here it is 12,0 V. This is now your reference.
Write it down: V1 is 12,0 V. Then one step to the right, which is step 2. You measure the potential over both sides of the part that you suspect. Here you measure a potential of 11,0 V. Write that down: V2 is: 11,0 V.
Hmm, one volt does not make it from Batt POS to Batt NEG, so to speak. We want all Volts to pass. Where can I look for that missing volt?
Step 3. Check if there's any potential over Battery POS and POS side of the lamp. Ideal outcome would be 0 (zero), indicating there's no resistance and all volts arrive. In our example 0,1 V is missing. This is acceptable. BTW, you can interpret that little square as things in between like a fuse and/or a switch.
Write down: V3 is: 0,1 V.
Now check the NEG side of the route: the potential over Batt Neg and the NEG side of the lamp. In this example we measure 0,9 V. Write that also down: V4 is: 0,9 V.
Before we begin interpreting our results, let's first check we did the V4 measuring right.
You only have to remember one formula: V1= V2+V3+V4. Always.
So in our example: 12,0 = 11,0 + 0,1 + 0,9. Conclusion: we did it right. As already said, the 0,1 V missing in the POS route is not much of a problem. Possibly there is some minor resistance by a fuse and/or a switch. Not much to worry about. The 0,9 V in the NEG route is a reason for concern however. But at least we now know, where to look in order to locate it. In our example, it's probably a rusty, dirty or loose connection. Could be the thick Batt NEG cable, connected to a recently powdercoated frame.
Ofcourse this is a simplistic representation. Depending on 'obstacles' like switches and/or fuses, we may need more steps to perform, but V1 must always be the sum of V2 and V--n. Also realise, I've limited myself here to describing a situation, where a component is not working a 100%. There's also the possibility ofcourse, something is not working at all. I'd then start by isolating that part first and connect it directly to a known good battery to verify that part is OK.
