Designing a General Purpose Heat Pump Controller
The Homemade Heat Pump concept has had some notable success.
However, one link in the chain that is missing is an open-source general-purpose heat pump controller. If such a controller existed, it could increase the success of people who undertake a homemade heat pump project. Such controllers have been built and put into service since the 'Manifesto' thread started, but the design considerations and full final specifications (diagrams, photographs, schematics, PWB files, software, etc) were not sufficiently made public such that 'just anybody' could use them. We want a design that is sufficiently complete so that 'just anybody' can make it work for them. The goal of this thread is to design, test and put into service such a controller... modifications and improvements can follow. There is a hazard that this discussion could become so diluted to the point that nothing is ever produced. In other words, this thread is totally oriented toward developing a working device. This is not a 'talking shop'. * * * jeff5may & I have had some preliminary discussion, and have decided that it is time to open up our conversation to anyone who can contribute. Here we go... -AC & jeff5may |
Seems to me that we need to start with a conversation about "scope" and desired results, specific enough that we can tell when we are moving in the correct direction.
EDIT: Below is a working list of inputs & outputs for the GPC (general purpose controller), based on desired functionality. Additions are invited. Quote:
Best, -AC_Hacker |
I agree defining the scope is crucial to starting the project. Answering questions like what do you all need to be able to control (motors up to X amps, etc)? Or, what kind of sensors are you going to be dealing with? 220V or 110V?
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There are at least four projects that are in various stages of development that I am aware of, it could be useful if the people who are working on their projects could describe what they would like a controller to do...
As for myself, I would like a GSHP controller that, as a very minimum requirement would:
-AC |
Hardware Requirements
Daox,
The actual brawny components residing in the machine will vary. They will differ depending on the specific application. However, the components on our controller should not. The controller module should be generic enough to fit the bill for a diverse range of end products. In addition to AC's requirements, I would like the controller to do these things:
I suggest we include a few "sugar cube" relays to directly control smaller devices, such as fans, pumps, or valves. It may sound hokey, but relays last a long time, are predictable, and can be wired a jillion different ways, to whatever power source the controlled device needs to operate. To control components that require more current than the relays can supply, a contactor or SSR can be added into the circuit. For that matter, the contactor or whatever can be wired to slave off a sugar cube relay. |
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I do see all manner of SSRs, some smaller such as THIS_ONE, and THIS_ONE, and THIS_ONE. I haven't designed much for any relays or SSRs except in my CO2 controller. Is there a reason for electro-mechanical relays for the smaller devices and SSRs for the higher amp components? -AC |
I have a couple of local guys who would like to get involved in PCB design for this project.
But if we wanted to stay with "off the shelf" stuff, HERE_ARE some possibilities regarding smaller relays & SSRs. -AC |
I like this one:
Amazon.com: SunFounder 4 Channel 5V Relay Shield Module for Arduino UNO 2560 1280 ARM PIC AVR STM32: Computers & Accessories I was planning on using an Arduino Uno knock-off for my micro, so this board would attach like any other shield. This board will work with pretty much any microcontroller that spits out TTL for control. I believe they will need only 10 mA or less from the logic source per input. |
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Can you trigger the relays directly from an Arduino output?? OK, so how do you plan to use something like this relay assembly? -AC |
An option to control VFDs (via RS232, PWM, or an analog voltage) would be nice.
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