Sensors with resistance outputs
Moderators: JeffC, rdoherty, stieg
I was able to get the voltage reading from the signal line and it was around .06V full and 1.14V empty. I put that into the computer and connected them up, but for some reason, when I connected the line to the Race Capture, it changed the reading on the aux fuel gauge by about 10%. Any idea of what may be causing this?
The input to RaceCapture/Pro is likely "dragging down" the signal from your gauge. An adapter is in order:
https://github.com/autosportlabs/analogBuffer
I will email you.
https://github.com/autosportlabs/analogBuffer
I will email you.
Hi guys, I just finished reading this post and I find that I'm really out of your league, I even need help to use the multimeter to find the voltage 
I want to wire a temp sensor. I have a AutoMeter 2" WATER TEMP, 100-250`F SSE, PHANTOM gauge and sender installed in the car.
Where do I check the the voltage and ohms, between wich post of the gauge?
Do I need the pull-up resistor or can I tap from the gauge?
Thanks
I want to wire a temp sensor. I have a AutoMeter 2" WATER TEMP, 100-250`F SSE, PHANTOM gauge and sender installed in the car.
Where do I check the the voltage and ohms, between wich post of the gauge?
Do I need the pull-up resistor or can I tap from the gauge?
Thanks
Hi,
is this sensor already attached to a gauge in the car? If this is the case, you won't need an extra pull-up resistor; the gauge provides it's own internally.
To calibrate the sensor, do this:
Measure the following in multiple steps:
1) voltage and temperature when engine is cold
2) volts and temp when engine is 75 degrees
3) volts and temp when engine is 100 degrees
4) volts and temp when engine is 150 degrees
5) volts and temp when engine is fully warmed up (around 200 degrees)
Report these voltages and temps here and we'll help you do the calibration.
Bonus: if you can, take a pic of you measuring voltage at the gauge!
is this sensor already attached to a gauge in the car? If this is the case, you won't need an extra pull-up resistor; the gauge provides it's own internally.
To calibrate the sensor, do this:
Measure the following in multiple steps:
1) voltage and temperature when engine is cold
2) volts and temp when engine is 75 degrees
3) volts and temp when engine is 100 degrees
4) volts and temp when engine is 150 degrees
5) volts and temp when engine is fully warmed up (around 200 degrees)
Report these voltages and temps here and we'll help you do the calibration.
Bonus: if you can, take a pic of you measuring voltage at the gauge!
Thanks brentp for the reply.
Engine cold= 8.30 volts
75 degrees= my gauge will not show that low
100 degrees= 8.04 volts
125 degrees= 7.60 volts
150 degrees= 7.15
165 degrees= 6.66
180 degrees= 6.23
195 degrees= 5.71
near 210 degrees= 5.56
This is with the engine not running on cool down. I took the measurements form the ground and the sender terminal from the gauge.
With the engine running, the reading changes when I rev the engine or when I turn on the lights or the rad fan starts.
I find that the readings are high compared to what people are posting. Did I checked it wrong?
I can only attach 3 pictures, please send me your email by pm and I will send you the rest.
Thanks
Engine cold= 8.30 volts
75 degrees= my gauge will not show that low
100 degrees= 8.04 volts
125 degrees= 7.60 volts
150 degrees= 7.15
165 degrees= 6.66
180 degrees= 6.23
195 degrees= 5.71
near 210 degrees= 5.56
This is with the engine not running on cool down. I took the measurements form the ground and the sender terminal from the gauge.
With the engine running, the reading changes when I rev the engine or when I turn on the lights or the rad fan starts.
I find that the readings are high compared to what people are posting. Did I checked it wrong?
I can only attach 3 pictures, please send me your email by pm and I will send you the rest.
Thanks
- Attachments
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- image1.jpeg (95.98 KiB) Viewed 7898 times
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- image2.jpeg (98.36 KiB) Viewed 7898 times
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- image3.jpeg (103.77 KiB) Viewed 7898 times
Thanks for the information. the voltages on your gauges output higher than the 5v input range on RaceCapture/Pro. In this case, we recommend a dedicated sensor. Some gauges output a lower range, and other gauge systems, like the Autometer Elite series have 0-5v datalogging outputs.
We have a list of recommended sensors here:
http://autosportlabs.net/RaceCapturePro ... re_Sensors
We like the AEM 30-2012 sensor because of it's 1/8 NPT fitting - it's compact.
We have a list of recommended sensors here:
http://autosportlabs.net/RaceCapturePro ... re_Sensors
We like the AEM 30-2012 sensor because of it's 1/8 NPT fitting - it's compact.
Unfortunately, a pull up won't do anything for you.
You can create a voltage divider with two resistors that will drop the sensor output to something RCP can handle.
example:
you'd use a 6.8K and 4.7K resistor in the configuration in the image.
Once you have this figured out, you can re-do your voltage measurements at varying temperatures as you did in the first step.
-Brent
You can create a voltage divider with two resistors that will drop the sensor output to something RCP can handle.
example:
you'd use a 6.8K and 4.7K resistor in the configuration in the image.
Once you have this figured out, you can re-do your voltage measurements at varying temperatures as you did in the first step.
-Brent
I did like you said and the voltage is good now. 3.77v at 0 and 2.31 at 210, but I don't get the same reading when the engine is running on the dashboard. When not running, I get 190 degrees and when I start the engine, I get 175 degrees. Same for the fuel level. Is this how it should react or I did something wrong?
when you say 'dashboard' do you mean the physical gauges on your dash?
In other words, by introducing the resistors it caused an error in your physical gauge reading?
If this is the case, then you might want to up the resistor values in the voltage divider. try 10x the value - e.g. 68K and 48K. Upping the resistor values will minimize the impact on the gauge reading.
This is one reason why we recommend independent sensors for data acquisition (any why ECUs often have separate sensors vs. gauge sensors). You can get it to work, but will require extra effort.
In other words, by introducing the resistors it caused an error in your physical gauge reading?
If this is the case, then you might want to up the resistor values in the voltage divider. try 10x the value - e.g. 68K and 48K. Upping the resistor values will minimize the impact on the gauge reading.
This is one reason why we recommend independent sensors for data acquisition (any why ECUs often have separate sensors vs. gauge sensors). You can get it to work, but will require extra effort.