For what it's worth in regards to the IC. Try B&D Enterprises, www.bdent.com
They're a semiconductor warehouse. I found a chip to repair my ECU unit on my snowmobile a few years back. Chip cost $14.95 versus the ECU unit at almost a grand.

first replace all the capacitors, especially the electrolytics, they tend to dry out over time.
the SM014 might be over volt protected at it's inputs and may have survived the high B+.

"I was referring to the component sandwiched between three resistors on the right and a capacitor, resistor, and diode on the left on Clone's post. On my board that component is green. It sounds like you're saying that is a capacitor?"

Yes that is a cap. Change it as well with the other caps ( like Rusty Bronco said) they are hard to measure for faults without specialized equipment. Unless they are shorted.

The resistors and diodes can be checked with one end lifted off the board. If they check ok and you have no open traces it is probably the ic. Parts can check fine with a meter and fail under load and that's really hard to troubleshoot. At that point I would be looking for a new/old board some how.

Chris

The green thing, I replaced with the square blue thing (like the technical description of "thing") . The blue "cap" is a little capacitor it is the hardest component to find. If you REALLY want to know what they are I suppose I could search and find what they are.

http://www.thegsresources.com/_forum...highlight=tach

http://www.thegsresources.com/_forum...highlight=tach

The little blue one with the silver dot on top is a tantalum 0.68uF@35V

The big green resistor escapes me completely, but the guy at the electronic parts house had no trouble identifying it and grabbed the offending part from a shelf with a zillion boxes on it. I am truely sorry I cannot remember what it is.

I havent had the time to read this whole thing, but my 1100ESD tach is somewhat sketchy at times. Especially it seems when its cold out. At the same speed/throttle position in the same gear it will read at times as much as 6k RPM or as little as 3.5K RPM. It seems less likely to do this when warm, and i have a spare tach unit at my disposal, but id really like to know HOW this thing works, as the shop manual says NOTHING about it, so that in the future i can know HOW to fix a faulty one.

Some advice, when you do disassemble the gauge cluster the odometer reset knob does not pull off. I tried pulling up on the plexiglass case and cracked it . You need to take the screws out of the white plastic backing that hold the tach and speedo, then pull the white plastic away from the face. If you want to pull the plexiglass off you need to pull the back away then the knob is held on by a clip and a cotter pin.

Confusing I know, but if you look on bikebandit you'll see what i mean. I just want to save you the $60 mistake I made breaking the gauge glass.

"What it appears to be like at this time, without knowing more about the SM014"

At the heart of the tach is a frequency to voltage converter. this F/V converter takes the on/off voltage (pulses) from the negative side of one coil and converts those pulses into a voltage that the tach can read.

I still need to know what the actual gauge does when connected to 3 volts. if it reads 8,000 rpm then the tachometer is nothing more than a glorified voltmeter.

also, someone would need to know the voltage potential the white wire is at, in reference to battery voltage.
I suspect because the trace side of the printed circuit board shows the white as "G" (ground)-- the orange as "V" (voltage)--and the brown as "S" (signal), the white is at +/- 0 volts.

when the voltage of the white is known, and how the meter indicates rpm's, the needed components could be calculated and a replacement board could be etched for the LM2917, built up and offered as a replacement for the factory circuit board.

Time for a poll on who has a defective electronic tach?

***note*** post may be edited again

I'm at school right now, but this weekend I'll get those numbers for you. I'll measure the voltage on the white wire too. I just noticed looking at the back of the board the white wire has a G by it, the Orange wire a V and the brown wire that attaches to the black/yellow wire has an s.

It looks like I had the brown and white wires mixed up and you were right about them.

So did I, but it's hard to edit the post from work, on a timely basis.

Time for an update. I attached a AA to the tach input and it read 9500rpms. the battery was new and read 1.628 volts. I don't have a way to input lower voltages than that to the tach.

The other battery i was using before must've been shot. I removed the diode and it read ~0.2 ohms in both directions so i'm trying to find a replacement for it. Radioshack didn't have anything, the numbers on it are, 1Z202 (dot) 1T, but I've don't know if they are numbered like that. I found 1N202's online.

I performed another test on the circuit board, before i removed the diode, running leads directly from battery positive, negative, and coil negative to the inputs on the board. The output from the board measured with my voltmeter was ~.438 volts regardless of the changes i made to RPM. The voltage did jump around a little bit, but it was sporadic.

I'm trying to source a diode at school and will keep you posted on my progress. Feel free to jump in with comments, questions, or suggestions.

I've spoken with representatives from Radioshack, Newark, the Milwaukee School of Engineering EE dept, even the US branch of Suzuki and none of them seem to be able to identify my diode.

Printed on the diode is the code 1Z202 (dot) 1T.

Does this code mean something? Can i extract enough information from this to find a part that will perform the same way? Other than the voltage capacity of a diode is there really much difference between them? Could I use one that looks the same?

The representative from Newark seemed to think that the part might be a Zener Diode.

The Suzuki Reps let me know that this part was discontinued in 2002 and he could not offer help because of that. I asked if I could speak to an engineer but I guess all the engineering is done in Japan, and my Japanese is a little rusty.

Can someone please help me know what I should do about replacing this part? I have it off the board and am 99% confident that it is bad.

Thanks guys.

Diode

I have reread the thread and cant really figure out the go ins and go outs. Seems like that board is an intermediary board and noe of the signal are the coil tach signal?

Is the + and - out to the meter? How did you arrive at polarity?

A couple of other things. The schematic is a bit confusing and if you could redraw it would make it easier. I tried but was left wondering if what you had was right.

You have drawn in a diode, but it is oriented to be reverse biased. That implies a zener diode. Did you mean that? If it is just a diode, any guarden variety will likely work. If a zener, it has a specific reverse bias voltage. The only way to figure that out would be to measure one that works or buy several and see what works best on a test bench.



A Zener is a cheap reference voltage with a set voltage that you select when you buy it.

I just looked up an axial Zeneor from Digi key as an example and they come in 3.3v 3.6v .3.9v .4.3v .4.7v .5.1v .....





looks like they are about $0.29 a piece. The zener voltage is not likely over 12V and probably somewhere about 1/2 of that. You could but a few, install them and get an idea of what you really need then order that one.(assuming that is the problem). But they are cheap.

Best to figure out if it is a zener though first.

Jim

Any chance the Z is an N? 1N202 is a common diode.

My guess is you're right that it's a zener. Another guess is that the IC on the board is a 5 volt device and the zerer is nothing more than a cheap voltage regulator.

At the time this bike was manufactured, the predominate IC processes were 5v and used ttl logic. I think you can safely say that it's not a 3.3v process. It may be higher than 5v, but not less.

If it is a 5.1v zener you're going to want one that has a max power rating greater than 1.5 watts. The 1n5338 has a power rating of 5 watts and exceeds any requirements that this circuit demands.

The above assumption is that the IC is a 5 volt device. If it isn't, my second guess would be 12 volt. For that you can use a smaller zener, but you may as well go with the same series since it won't hurt anything. Use a 1n3549 in that case. I also doubt it's a 12 volt zener - try 5.1.

If you've been powering up this board without the zener, and it is a 5.1 volt device, you may have toasted the IC if it wasn't already bad.

Note: everyting above is a guess since I have no idea what the IC is. If I knew, it would be an easy fix.

It's a Zener.

My reasoning...
(1) it's cathode is hooked from the meter + to the "G" symbol on the trace side of the board.
the white wire connected to the "G" symbol is ground, according to the chassis wiring diagram. it also shows the same orientation on the schematic that was drawn.

(2) the case marking is 1Z201, quite possibly a house marking?. the SM014 is a "ND" device, possibly nippon denso? of which no information could be found about and appears to be proprietary also.

(3) the orange in, on his schematic, is the 12v power for the tach and the SM014. which is connected to the cathode of the "device" in question, providing over volt protection for the meter and the SM014

(4) the "G" (negative) is directly connected to the SM014 at his white in.

the negative side of the tach is only connected to the SM014, so the tach is either voltage or current operated.

trace side... http://i464.photobucket.com/albums/r...9/IMG_0334.jpg
schematic... http://www.thegsresources.com/_forum...51&postcount=8


The only things I have questions about, are his resistance reading of .2 ohms in both directions, does the tach indicate voltage or current and at what voltage is the "diode" set to regulate. because of this information I believe it to be higher than 5 volts, more on the order of 17? ish.

using a new "aaa" battery or a resistor in series with the meter might give the answer to how the meter is operated.

***my standard disclaimer*** I'm not an EE, go easy on me.