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Another clock... I love clocks...

15/10/2013

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I've got a thing for clocks... I wonder if it's because I'm not getting any younger.
Anyway, I had a day free over the weekend and decided It was clock building time.
There's not much to this clock really. A PIC18F25K22 running some simple firmware written in AMICUS18 BASIC. There's a Dallas DS1302 RTC chip with battery backup, and a handful of other components.
I've been experimenting with different firmware to see which makes the display the most readable.
The image on the left of the clock front is showing a time of 10:20:13

UPDATE 29/10/13
I've created a construction project for this clock which can be found here.

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PICs, Shift Registers and lots and lots of display digits

17/4/2013

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Picture
I’ve been experimenting with using a PIC to control long chains of 7-segment LED displays, and to find an approach that I can use to replace the obsolete TIL311 displays. To that end, I’ve created a tech article that describes a simple way to do this. My prototype was 24 digits long; long enough for most applications I think, but could be extended. It’s all done with a PIC18F25K22 running from its own internal oscillator, accepts data from a serial device at 9600 baud, and supports 0 to 9, and A to F value display. The code is written in AMICUS18 BASIC which is free so you can change the software to suit your own application. All the fully documented source code is supplied as well as a schematic of the circuit.

The picure above shows 24 digits (6 x 4 digit modules). The display modules each contain a 4 x 7 segment Common Cathode display, a DIL resisor pack on the modules right-hand side, and there are 4 n-channel SMT MOSFETS underneath.
The advantage of using modules on breadboards is the vast amount of time, and wire that's saved. You can throw a quick circuit together in no-time if you already have the modules pre-built. It also saves a lot of breadboard space.

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PIC programming using the AMICUS18 BASIC compiler

17/1/2012

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Because a lot of people have asked me about PIC programming using the AMICUS18 BASIC compiler and how to do things, I thought it would be interesting and useful if I wrote a series of articles on the subject (see here).

So, to kick things off I’ve placed the first three on this website. I’ve never done anything like this before so please let me know what you think or if there are any topics you would specifically like me to cover.

I’ll be adding more parts on an on-going basis.

You can find the dedicated page here:
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New PIC BASIC Programming series and the Weller WP3EU gas iron.

14/1/2012

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Been really busy over the last few days with a lot going on.

I’ve started writing a series of articles on programming PICs with the AMICUS18 PIC BASIC compiler from Crownhill Associates. Each article covers a specific topic starting with how to get everything configured and writing your first “Hello World” BASIC program,  and then onto interfacing to common electronic components. Each article includes circuit diagrams and source code.

I’ve also added a review on a new toy… I mean tool, for the bench; a Weller gas powered soldering iron which recently arrived from Rapid Electronics.
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Digital Evaporator/Incubator and AMICUS18 free PIC compiler.

5/9/2011

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I recently posted details of a complete construction project for a digital thermometer and clock, partly in response to a request but also because I’d been thinking about building one for a while. Because I wanted this to be an easily maintainable project by anybody, I opted to use the new AMICUS18 free compiler from Crownhill (I already use their PROTON BASIC+ compiler but you have to purchase that though it supports most, if not all, 10F, 12F, 16F and 18F parts). In a nutshell, the AMICUS18 compiler and IDE allows you to write Proton BASIC programs for two specific Microchip PICs, and these PICs just happen to form the core of Arduino compatible CPU boards and shields, so this basically means that you no longer have to work with ATMEL CPU’s exclusively if you want to play with Arduino hardware, and because AMICUS18 is free, this opens up a whole pile of possibilities for project construction, for as long as you limit yourself to a couple of PICs (18F25K20 and 18F25K22), then you can write unrestricted and very powerful code in good old friendly BASIC.

I’ve also realised that whilst there are many web sites containing lots of projects to build, they tend to supply you just a circuit diagram and if you’re lucky, a .HEX files for the CPU. These are ok for seasoned constructors who in reality, probably just want to grab some circuit ideas and wouldn’t usually build the project in it’s entirety in the first place, but for beginners and novices, something more akin to what the great electronics magazines of yester-year used to produce is more appropriate and that’s why I’ve opted to try and provide full construction details for some of my projects.

So, with all this in mind, I’m currently working on another project – an Evaporator.

Ok, actually this is a device that produces a small amount of heat and has a thermometer and timer built in. You set the run time in minutes, maximum temperature you want, and the device attempts to maintain a “hot-zone” at the required temperature for the specified time. In this version of the project, I’m using a 12v / 20w halogen lamp has the heat source and it’s used to gently warm an evaporating basin (small porcelain dish) that’s full of liquid that in turn has a solid dissolved in it. You could use it to recover the salt (and the other solid material) from a few mL of sea-water for example. With a few changes to the physical hardware layout and perhaps a different heating element, you could use this as an incubator. The unit has an LCD display, some push button switches, a temperature sensor, a MOSFET that can switch around 35A if required, PSU section, and a PIC 18F25K22 running some firmware written using the AMICUS18 free compiler; this means you can customise the firmware as you please. One upgrade may be to fit a fan so that if it gets too warm it can cool; perhaps the addition of a Peltier module - the skys the limit when you start thinking about the possible options.

The prototype which is sat on a bread-board right now, works remarkably well. I use PWM (Pulse Width Modulation) to drive the heater (lamp) via the MOSFET. The heat from the lamp is detected by a DS18b20 1-wire temperature sensor (I had a couple spare from my digital thermometer project), and fed back to the PIC. The PIC constantly monitors the temperature and using a very simple algorithm attempts to maintain the temperature by adjusting the brightness of the lamp. Once it warmed up, it was maintaining the temperature to within 0.1 oC which for a first attempt was rather impressive I thought.

I’ll publish full construction details soon, probably when I get back from vacation.
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PIC based digital clock and thermometer

29/8/2011

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I've added constrution details for a new project. It's a digital thermometer that supports two sensors (one indoors and one outdoors perhaps), and also has a real-time-clock built in. Display is via four 2" seven segment displays. The source code is supplied and can be modified and re-compiled with a free compiler. All construction details, PCB foils, .HEX files, source code is supplied in a single downloadable .ZIP file.
It also makes use of the free AMICUS18 PIC compiler and IDE which means that the constructor can customise the firmware for their own specific requirements.
Enjoy.
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    A software and hardware engineer who loves retro computers.

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