ElectronicLoad: Difference between revisions

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   {{Project
   {{Project
   |Name=ElectronicLoadV2
   |Name=ElectronicLoad
   |Picture=ElectronicLoadV2.png
   |Picture=ElectronicLoadV2.png
   |Omschrijving=Software voor Electronic Load v2
   |Omschrijving=Software voor Electronic Load
   |Status=Initializing
   |Status=Completed
   |Contact=bertrik
   |Contact=bertrik
   }}
   }}


== Intro ==
== Intro ==
Status: the software works! (but there are always more features to add ...)
This page is about software I'm writing for my brother who is developing an 'electronic load'.
This page is about software I'm writing for my brother who is developing an 'electronic load'.
An electronic load is a thing that draws current from a power source in a well-defined way.
An electronic load is a device that draws current from a power source in a well-defined way.
 
Possible use cases:
* discharge a battery with a constant current, while recording the voltage so you can make a nice discharge graph and verify the total battery capacity.
* characterize a solar panel, measuring the voltage while sweeping the current, to find the point where it delivers most power.
* just measure current drawn by a device, at a high time resolution, and determine the amount of charge used per use cycle.
* draw a pre-defined current waveform from a battery, e.g. to simulate the current drawn by a mobile phone (short high current peaks, with longer plateaus in between)
 
Stuff to investigate:
* investigate the SCPI protocol: https://www.circuitspecialists.com/images/ARRAY%20372x%20Series%20Electronic%20Load%20SCPI%20%20Programming%20Guide.pdf
* https://hackaday.com/2021/11/17/scpi-on-teaching-your-devices-the-lingua-franca-of-laboratories/
* https://www.eevblog.com/forum/projects/smuview-a-sigrok-gui-for-power-supplies-multimeters-and-more/
* inspiration: https://community.element14.com/technologies/test-and-measurement/b/blog/posts/programmable-electronic-load---scpi-interface-and-error-handling


A likely use case for an electronic load is to discharge a battery with a constant current, while recording the voltage so you can make a nice discharge graph.
== Design ==


== Hardware ==
=== Hardware ===
For the hardware design, see http://sikken.nl/electronicloadr2.html
For the hardware design, see https://www.tindie.com/products/jaspersikken/jaspers-electronic-load-r3/


The basic principle of operation is that the electronic load has a circuit with a mosfet controlled by a microcontroller to draw a configurable constant current.
The basic principle of operation is that the electronic load has a circuit with a mosfet controlled by a microcontroller to draw a configurable constant current.
The mosfet is connected to a heatsink that dissipates the power as heat.
The mosfet is attached to a heatsink that dissipates the power as heat.


The microcontroller can set the desired current, measure the actual current and measure the voltage.   
The microcontroller can set the desired current, measure the actual current and measure the voltage.   
Line 23: Line 37:
* constant power mode: from the voltage measured, we can calculate the current required to draw a constant power
* constant power mode: from the voltage measured, we can calculate the current required to draw a constant power
* constant resistance mode: from the voltage measured, we can calculate the current to emulate a specific resistance
* constant resistance mode: from the voltage measured, we can calculate the current to emulate a specific resistance
=== Software ===
The [https://github.com/bertrik/ElectronicLoad source code is on github].
=== Random thoughts ===
Features to implement:
* sequencer for stepping through a specific range of currents at a specific speed
* operating modes:
** add sequenced modes: special sequences for measuring a PV-cell, measuring a battery, measuring a Peltier?
** automatic max power point determination?
* calibration
** automatic if possible, e.g. set current to 0, measure current, use this as an offset?
** manual if required
** save calibration values in non-volatile memory and load them at startup
* automatically reset cumulative counters when starting a log
* conversion from SI units to other units, like mAh, Wh, etc?
* use SCPI to allow the electronic load to be controlled by a script or a GUI device, the script can then do intelligent stuff like sequencing through a battery capacity measurement cycle, solar cell P-V cycle, etc
== Platform IO ==
platformio is a kind of build environment.
It takes out the guesswork/manual steps of using the Arduino environment to pick the right board, libraries and options.
All of this can now be specified in text files (e.g. platformio.ini) and separately per individual project.
=== Installation ===
First you need to install pip, e.g. for debian Linux:
  sudo apt install python-pip
Then you can use pip to install platformio
  sudo pip install platformio
Also make sure you install and activate the udev-rules, according to [http://docs.platformio.org/en/latest/faq.html#platformio-udev-rules the platformio-udev-rules] description on the platformio page.
=== Platformio commands ===
Just 'cd' into the directory containing the platformio.ini file.
Platformio will automatically download and cache any requirements (like dependent libraries, tool chains, upload utilities, etc).
Instead of typing platformio you can just type pio.
To just compile the software and download dependencies:
  pio run
To compile and upload the firmware:
  pio run --target upload
To run the serial monitor:
  pio run --target monitor
or
  pio device monitor

Latest revision as of 22:05, 28 November 2021

Project ElectronicLoad
ElectronicLoadV2.png
Software voor Electronic Load
Status Completed
Contact bertrik
Last Update 2021-11-28

Intro

Status: the software works! (but there are always more features to add ...)

This page is about software I'm writing for my brother who is developing an 'electronic load'. An electronic load is a device that draws current from a power source in a well-defined way.

Possible use cases:

  • discharge a battery with a constant current, while recording the voltage so you can make a nice discharge graph and verify the total battery capacity.
  • characterize a solar panel, measuring the voltage while sweeping the current, to find the point where it delivers most power.
  • just measure current drawn by a device, at a high time resolution, and determine the amount of charge used per use cycle.
  • draw a pre-defined current waveform from a battery, e.g. to simulate the current drawn by a mobile phone (short high current peaks, with longer plateaus in between)

Stuff to investigate:

Design

Hardware

For the hardware design, see https://www.tindie.com/products/jaspersikken/jaspers-electronic-load-r3/

The basic principle of operation is that the electronic load has a circuit with a mosfet controlled by a microcontroller to draw a configurable constant current. The mosfet is attached to a heatsink that dissipates the power as heat.

The microcontroller can set the desired current, measure the actual current and measure the voltage. This way we can also do other modes than just constant current:

  • constant power mode: from the voltage measured, we can calculate the current required to draw a constant power
  • constant resistance mode: from the voltage measured, we can calculate the current to emulate a specific resistance

Software

The source code is on github.

Random thoughts

Features to implement:

  • sequencer for stepping through a specific range of currents at a specific speed
  • operating modes:
    • add sequenced modes: special sequences for measuring a PV-cell, measuring a battery, measuring a Peltier?
    • automatic max power point determination?
  • calibration
    • automatic if possible, e.g. set current to 0, measure current, use this as an offset?
    • manual if required
    • save calibration values in non-volatile memory and load them at startup
  • automatically reset cumulative counters when starting a log
  • conversion from SI units to other units, like mAh, Wh, etc?
  • use SCPI to allow the electronic load to be controlled by a script or a GUI device, the script can then do intelligent stuff like sequencing through a battery capacity measurement cycle, solar cell P-V cycle, etc

Platform IO

platformio is a kind of build environment. It takes out the guesswork/manual steps of using the Arduino environment to pick the right board, libraries and options. All of this can now be specified in text files (e.g. platformio.ini) and separately per individual project.

Installation

First you need to install pip, e.g. for debian Linux:

 sudo apt install python-pip

Then you can use pip to install platformio

 sudo pip install platformio

Also make sure you install and activate the udev-rules, according to the platformio-udev-rules description on the platformio page.

Platformio commands

Just 'cd' into the directory containing the platformio.ini file. Platformio will automatically download and cache any requirements (like dependent libraries, tool chains, upload utilities, etc). Instead of typing platformio you can just type pio.

To just compile the software and download dependencies:

 pio run 

To compile and upload the firmware:

 pio run --target upload

To run the serial monitor:

 pio run --target monitor

or

 pio device monitor