AD Converter PCF8591 for Raspberry Pi: Difference between revisions
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==Intro== | ==Intro== | ||
Have you ever wondered how to measure battery voltage with Raspberry Pi? Do not wonder more. You can simply use ADC converter for 2 USD on Ebay with product name PCF8591 and connect it using I2C to your Raspberry Pi. | Have you ever wondered how to measure battery voltage with Raspberry Pi? Do not wonder more. You can simply use ADC converter for 2 USD on Ebay with product name PCF8591 and connect it using I2C to your Raspberry Pi. | ||
[[File:Adc2.jpg|600px|PCF8591 connected to Raspberry Pi on breadboard]] | |||
PCF8591 connected to Raspberry Pi on breadboard | |||
==How it works?== | ==How it works?== | ||
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[[File:Voltage-divader.png|600px|Simple voltage divider connected to ADC]] | [[File:Voltage-divader.png|600px|Simple voltage divider connected to ADC]] | ||
Image1: Simple voltage divider connected to ADC | |||
[[File:Adc.jpg|600px|Calibrating ADC with voltage divider using voltmeter]] | |||
Image2: Calibrating ADC with voltage divider using voltmeter | |||
==How to calibrate it== | |||
Please use [http://www.daycounter.com/Calculators/Voltage-Divider-Calculator.phtml Voltage Divider Calculator] to get values of resistors you need. I strongly recommend you to replace one resistor with trimmer resistor to calibrate it to right value. | |||
For measuring voltage the best is to use [https://github.com/quick2wire/quick2wire-python-api quick2wire] api library combined it with my prepared example [https://github.com/koss822/misc/blob/master/RaspberryPi/ad_pcf8591/pcf8591read github.com/ko.../ad_pcf8591/pcf8591read] file pcf8591read which has these options: | |||
<syntaxhighlight lang="python"> | |||
ref_voltage = 3.3 | |||
divider = 6 | |||
</syntaxhighlight> | |||
where ref_voltage is standard Raspberry Pi 3.3 voltage and divider is voltage divider you selected on calculator above (in my example it is 6) |
Latest revision as of 12:58, 24 January 2019
Under construction
Intro
Have you ever wondered how to measure battery voltage with Raspberry Pi? Do not wonder more. You can simply use ADC converter for 2 USD on Ebay with product name PCF8591 and connect it using I2C to your Raspberry Pi.
PCF8591 connected to Raspberry Pi on breadboard
How it works?
Basically AD convertor take Vcc voltage as reference, measure input voltage to this reference and output number of how many percent of reference voltage is input voltage. Eg. if you use Raspberry Pi and provide Vcc at 3.3V and input voltage would be 3.3V, output from ADC would be 1.00. If input voltage for same reference would be 1.65V, output from ADX would be 0.50 (input voltage is half of reference voltage).
But usually we need to measure higher voltages than 3.3V. For example in my case I need to measure Lead-Acid battery which provides voltage between 11-14V. So how to solve it if the reference voltage is only 3.3V and anything higher would not be able to be measured. In this case we use voltage divider (see image below) which divide input voltage 6 times. So for example for 12V output voltage would be 12V/6 => 2V and this could be measured. We can easily get input voltage on Raspberry Pi using simple mathematical operation percentage * 3.3V (Vcc) * 6 (divider) and now we will get 12V again on screen.
As you can see on image below I use trimr and voltmeter to calibrate AD converter with computer.
Image1: Simple voltage divider connected to ADC
Image2: Calibrating ADC with voltage divider using voltmeter
How to calibrate it
Please use Voltage Divider Calculator to get values of resistors you need. I strongly recommend you to replace one resistor with trimmer resistor to calibrate it to right value.
For measuring voltage the best is to use quick2wire api library combined it with my prepared example github.com/ko.../ad_pcf8591/pcf8591read file pcf8591read which has these options:
ref_voltage = 3.3
divider = 6
where ref_voltage is standard Raspberry Pi 3.3 voltage and divider is voltage divider you selected on calculator above (in my example it is 6)