Improvements made to the cheap T-962 reflow oven utilizing the _existing_ controller HW
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Custom firmware for the cheap T-962 reflow oven utilizing the existing controller hardware.
As we had use for a small reflow oven for a small prototype run we settled for the
T-962even after having seen the negative reviews of it as there were plenty of suggestions all across the Internet on how it could be improved including replacing the existing controller and display(!). After having had a closer look at the hardware (replacing the masking tape inside with Kapton tape first) it was obvious that there was a simple way to improve the software disaster that is the T-962.
Here are a few improvements made to the cheap T-962 reflow oven utilizing the existing controller hardware with only a small, cheap, but very necessary modification. As you have to open the top part of the oven anyway to reflash the software this is a no-brainer fix:
Instructable suggesting replacing masking tape with kapton tape.
The existing controller makes the assumption that the cold-junction is at 20 degrees Celsius at all times which made keeping a constant temperature "a bit" challenging as the terminal block sits ontopofanoven with two TRIACs nearby. We can fix this by adding a temperature sensor to the connector block where the thermocouples are connected to the controller board. It turns out that both an analog input and at least one generic GPIO pin is available on unpopulated pads on the board. GPIO0.7 in particular was very convenient for 1-wire operation as there was an adjacent pad with 3.3V so a 4k7 pull-up resistor could be placed there, then a jumper wire is run from GPIO0.7 pad to the
Dqpin of a cheap DS18B20 1-wire temperature sensor that gets epoxied to the terminal block, soldering both
Vccand ground pins to the ground plane conveniently located right next to it. Some hot-glue may have to be removed to actually get to the side of the connector and the ground plane, someone seems to have been really trigger-happy with the glue gun!
As mentioned elsewhere, make sure the protective earth/ground wire from the main input actually makes contact with the back panel of the chassis and also that the back panel makes contact both with the top and bottom halves of the oven!
The system fan is very noisy an can be turned of most of the time. The custom firmware uses spare
ADOtest point to control it.
The firmware was originally built with LPCXpresso 7.5.0 as I've never dealt with the LPC2000-series NXP microcontrollers before so I just wanted something that wouldn't require TOO much of work to actually produce a flashable image. Philips LPC2000 Flash Utility v2.2.3 was used to flash the controller through the ISP header present on the board.
LPCXpresso requires activation but is free for everything but large code sizes (the limit is larger than the 128kB flash size on this controller anyway so it's not really an issue). The flash utility unfortunately only runs on Windows but Flash Magic is an alternative (see Wiki for more flashing instructions).
With help from the community the project now also builds standalone using the standard
COMPILING.mdfor more information.
The MCU in this particular oven is an LPC2134/01 with 128kB flash/16kB RAM, stated to be capable of running at up to 60MHz. Unfortunately the PLL in this chip is not that clever so with the supplied XTAL at 11.0592MHz we can only reach 55.296MHz (5x multiplier). Other variants exist, the Wiki has more information about this.
wiki: Flashing firmware
This is mainly tested on a fairly recent build of the T-962 (smallest version), build time on the back panel states 14.07 which I assume means 2014 July (or less likely week 7 of 2014), success/failure reports from other users are welcome!
This is very much a quick hack to get only the basic functionality needed up and running. Everything in here is released under the GPLv3 license in hopes that it might be interesting for others to improve on this. Feedback is welcome!
This project is using the C PID Library - Version 1.0.1, GPLv3