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Electronic Experts and F1 Fans

  • Thread starter Thread starter richardhaggarty
  • Start date Start date
R

richardhaggarty

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I have done a search for an F1 Style LED Tach for a couple of days now and come up with not much. Someone who follows F1 auto racing may have seen one on the F1 car steering wheels.

What I am looking for is an LED bar gauge that represents engine speed (RPM). Ideally it would have 15-30 LEDs and look something like this:

.......Green.............Yellow..................Red........................Color
OOOOOOOOOOOOOOOOOOOOOOOOOOOOO..............LEDs
0k.................5k...................10k..................15k..............RPM


I figured the 12V lead to one of the ignition coils could work, but how do I pull that signal to the guage with out stealing voltage from the coil? It would pulse once (or maybe twice?) for each rotation of the engine.

Any Ideas?
 
I don't fit either criteria...however the coils are fed 12V+ constantly, the primary side ground is broken to discharge(spark) the secondary, so if you hook your LEDs up to a fused 12V+ lead and use the neg.- lead from the ignition to the coil, you wouldn't be using the coils' power, just sharing it's ground
 
What I am looking for is an LED bar gauge that represents engine speed (RPM).

I'm no electronics expert (that is a bit of an understatement... :) ), but I have done some research on making my own tach similar to this concept. You need something that will keep time and count pulses, then do the math to figure the RPM and display it. Not really that hard as PLC stuff goes. Something like the OOPic would be perfect and it is very simple to work with:

http://www.oopic.com/

I was thinking of picking up a signal from an inductive pickup mounted on one of the plug wires for mine. It seems easier than picking up the coil signal and does not affect the ignition operation at all.

Other than that, the closest thing I have seen to what you want is an electronic shift light. But they only flash at the preset RPM, so you don't know where you are until it lights up. If you find one or a DIY kit, let me know as I am still interested in one for a future project.


Mark
 
Take the signal from the pulsed side of the coil. If you buffer it with a comparator (use hysterysis) then the load will not affect the coil operation.

The output of the comparator will then be a digital logic signal pulsing at 1/2 the RPM of the motor (assuming a 4 cylinder) that you can manipulate to your hearts desire.

The circuitry shouldn't be too complex. I would be willing to assist you if you need help. The hardest part, IMHO, would be finding the LED that you want to use. After that, it's just a matter of conditioning the pulse from the coil to give you the appropriate input to the LED.

Package it nicely and you have what you want.
 
You have my full attention on this project. Keep us informed. My stock Tach Sucks and I'm interested in an alternative. This one sounds interesting.
Earl has a digital that is a possibility too.

Thanks. This is a cool idea.
 
Just a thought:
The alternator output is directly proportional to the engine speed.
Rather than use digital or logic circuitry to drive the leds, you could drive them using zener diodes to set up the threshold voltages.
One for 500rpm, 750rpm, 1000rpm, 1250rpm, 1500rpm and so on.
 
Having thought some more about this, I realise my idea is flawed. Alternator output IS directly proportional to engine speed AT A GIVEN LOAD. As the load is constantly changing it might be a little inaccurate. Oh well, I'm sure someone on here has it all figured out. I'd be interested in building one myself.
 
Guy said:
Having thought some more about this, I realise my idea is flawed. Alternator output IS directly proportional to engine speed AT A GIVEN LOAD. As the load is constantly changing it might be a little inaccurate. Oh well, I'm sure someone on here has it all figured out. I'd be interested in building one myself.
It would be a bear to calibrate. Even if you got it correct for one bike, the next would have a different voltage output level. You also have to calibrate to take into account the tolerances of the components. Then as you say, the level would change if the lights went on. Too many variables.

Digital logic is the way to go. Believe me on this one. It's much simpler, easy in fact, and there is no calibration.
 
You were right the first time. :-) Alternator output is proportional to engine rpm. Load is not a factor. Stator output (for example) at 4000 rpm is the same, regardless of whether the stator is hooked up, lights are on, off etc.

Earl.


Guy said:
Having thought some more about this, I realise my idea is flawed. Alternator output IS directly proportional to engine speed AT A GIVEN LOAD. As the load is constantly changing it might be a little inaccurate. Oh well, I'm sure someone on here has it all figured out. I'd be interested in building one myself.
 
I re-read you post and found that I misread it. I scanned it too fast.

The methodology that I briefly outlined would work, however, let me throw something out there and see if anyone likes it.

Instead of using a series of led's, why not use an led digit display? I'm not a big one for digital displays, but it may look pretty trick. You could have the bar bleow it, or even just one led set for redline - or two led's yellow at 400rpm befor redline and a red one for redline.

Just an idea anyway. Here is an example of what I'm talking about.

http://www.para.com.tw/pdf/E-Display/E35-CA505X.pdf

Those are only 1/2" characters. Bigger can be found I'm sure.
 
National Instruments used to make an LED driver that would be perfect for this application. I think it was the 3914 and 3916, one was a logarythmic response and one was linear. They drove either 8 or 16 leds depending if you cascaded them and cost about 3 bucks each. :)

I've also seen them for sale. There was one with LEDS embedded in a rubber strip that you glued to your windscreen. The one I saw broke down after about a month but was only 70 bucks shipped.

Steve
 
The National Semiconductor "LM3914 is a monolithic integrated circuit that senses analog voltage levels and drives 10 LEDs, providing a linear analog display."

The rest of the data sheet can be found here:
http://www.national.com/pf/LM/LM3914.html

I think thats the one, (of course, I will be accepting Swanny's offer to assist with the circuit, this is all quite new to me).

Swanny, how about two or three of these next to one another:
http://www.ledtronics.com/ds/CBG1500/

bar-graph.gif


Looks like LedTronics has plenty of other options too:
http://www.led.net/datasheets/PCB_picture_index/PCB_picIndex.htm

I like the idea of about 30 or so LEDs in a line, maybe for a total length of around 4-5 inches, for the visual effect of the bar screaming across the display matching the howl of the exhaust. I admit though that the digit display is more precise; having both I think is an excellent idea.

However, since my plan is to scrap my whole stock panel I would like to use the digit display for my oil temp and fuel gauge; make a completely digital minimalist display.

Could I make the array from individual LEDs?

Honestly, I stole the idea straight off of the F1. Shhh!
 
The tach would need a frequency to voltage converter.

For the rest the 3914 would be all that's required. You could get a few figure 8 type LED displays and setup enough chips to drive each display. There would be 10 inputs for a 0-9 LED display and there are 10 outputs for the chip. If you had 3 chips in a row you could convert the voltage into a 3 digit display. Do you sort of get my idea? My only concern is that I thought that National SEMICONDUCTOR (not Instruments, that is a data acquisition company :oops: ) stopped making them in an easily soldered form.

I don't want anybody to abuse a component manufacturer, but they will usually send out a couple free samples if you tell them you are part of a company that wants to research the use of their product in a large production run.

Steve
 
oh yeah, the 3914 can also be used along with an O2 sensor to tune your engine. If you set 14.7:1's voltage in the centre of the display you can use the display to see if you are rich or lean. Too bad we don't have 4 into 4s for easy interpretation.

Circuit diagrams are on the web.

Steve
 
Hi,
As an alternative: I've used one of these tachs for some time, really simple with a crocodile clip on one of the plugleads, has its own power and switches on and off automatically. Not expensive and often seen on minimotos. But no leds unfortunately.

http://www.gpt.it/power rpm english.htm

Greetz, Marco.
 
richardhaggarty said:
Swanny, how about two or three of these next to one another:
http://www.ledtronics.com/ds/CBG1500/

bar-graph.gif


Looks like LedTronics has plenty of other options too:
http://www.led.net/datasheets/PCB_picture_index/PCB_picIndex.htm

I like the idea of about 30 or so LEDs in a line, maybe for a total length of around 4-5 inches, for the visual effect of the bar screaming across the display matching the howl of the exhaust. I admit though that the digit display is more precise; having both I think is an excellent idea.
Ok, I was looking at those also. The circular ones are really nice. The problem with them for a tach or speedo is that they are small, and worse yet, only have 15 segments. If you wanted a 10k RPM tach and only had 15 segments, then each segment would represent 667 RPM. This is too granular.

They could be used for other functions however.

For the tach you need, as you say, quite a few segments. If you use 30 for the same tack, then the resolution is 333 RPM. This is better. Each 10 segment display is about an inch long. So 30 sements is only 3 inchs of display. Without an analog guage you may want to increase the resolution.

However, since my plan is to scrap my whole stock panel I would like to use the digit display for my oil temp and fuel gauge; make a completely digital minimalist display.

Could I make the array from individual LEDs?

Honestly, I stole the idea straight off of the F1. Shhh!
Sure, you can do it with individual led's. The only issue is how compact can you put them in a display. Remember, you need quite a few for good resolution.

One other thing to consider. LED's wash out in sunlight. You need some that do not do this.
 
I took srivett2's advice and ordered up some samples of both the IC chips and the LED bars. The LED datasheets say they come in "direct sunlight" format as well as for indoor use.

What I need is help designing the PCB for the components.
 
richardhaggarty said:
I took srivett2's advice and ordered up some samples of both the IC chips and the LED bars. The LED datasheets say they come in "direct sunlight" format as well as for indoor use.

What I need is help designing the PCB for the components.
I was going to say that you needed to design the panel - how you want it to look, resolution of the display, what functions you want, etc, as the first step. Without knowing every detail of the display you cannot build anything. The electronics are all based on that.
 
richardhaggarty said:
I took srivett2's advice and ordered up some samples of both the IC chips and the LED bars. The LED datasheets say they come in "direct sunlight" format as well as for indoor use.

What I need is help designing the PCB for the components.
I forgot to address the PCB part. Most layout programs that I know off require a Spice based netlist to begin with. This means you need a schematic based simulation program, or enter the netlist by hand. Even after you get the layout, it's going to be costly to have the pcb fabed. This approach makes a lot of sence if you are going to production as the per unit price drops dramatically. If you are building one-off's or prototypes, most electronics design houses just wire them up by hand.

Some of the companies I worked for in the past had machines to cut double sided pcb's for prototype work. If you had access to something like this then you would be ok. I don't know how much it would cost to have something like that done.

You are thinking of one of the last steps. You need to get step one done first.
 
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