Wallingford Industrial Rail Ltd. 8 - 13 January 2024 - WIRL in the Workshop -Creating a point control panel - Part 1
Posted: Sun Jan 14, 2024 4:38 pm
I decided it was going to be too cold for running trains in the garden last weekend, so I thought I would make a start on showing more details of what I have planned for the points control and mimic panel. I find it just too confusing to remember which switch on the LGB control boxes goes to which point, so a mimic board is essential.
The challenge, of course, is that the LGB point motors use am AC (18v) supply and momentary switches to set and reset the points; while the mimic panel will ideally use a DC (5v) supply to the LEDs. This video shows the design I have come up with, demonstrated on a breadboard and then replicated on purpose built PCB's of my own design. A big thank you to the guys at Modelling Electronics (https://www.modellingelectronics.co.uk/) who kindly looked at the conceptual design and made very constructive comments - or told me how to fix a flawed design if you prefer! They also provided the required components very expeditiously.
Based on the recommendations from Modelling Electronics - I laid out the circuit using the Fritzing software (https://blog.fritzing.org/2024/01/02/fritzing-1-0-2) and then exported the PCB layout as a Gerber file. I sent this to JLCPCB in China (https://www.pcbway.com/) who returned 5 panels of 9 PCB on each in 8 days. I could track the whole production and shipping process online. Great service and a very reasonable price.
I made up a couple of example cards to check the design works as shown in the video. I am sure there are more elegant ways to achieve what is shown here, but perhaps its useful. I am happy to share the details of the circuit board design and the components if anyone is interested.
Part 2 will try to create a sample control panel for the Pit Head Halt station and sidings as it is much less complex that Home Yard or the Storage Shed.
Comments and suggestions for improvements very welcome.
The challenge, of course, is that the LGB point motors use am AC (18v) supply and momentary switches to set and reset the points; while the mimic panel will ideally use a DC (5v) supply to the LEDs. This video shows the design I have come up with, demonstrated on a breadboard and then replicated on purpose built PCB's of my own design. A big thank you to the guys at Modelling Electronics (https://www.modellingelectronics.co.uk/) who kindly looked at the conceptual design and made very constructive comments - or told me how to fix a flawed design if you prefer! They also provided the required components very expeditiously.
Based on the recommendations from Modelling Electronics - I laid out the circuit using the Fritzing software (https://blog.fritzing.org/2024/01/02/fritzing-1-0-2) and then exported the PCB layout as a Gerber file. I sent this to JLCPCB in China (https://www.pcbway.com/) who returned 5 panels of 9 PCB on each in 8 days. I could track the whole production and shipping process online. Great service and a very reasonable price.
I made up a couple of example cards to check the design works as shown in the video. I am sure there are more elegant ways to achieve what is shown here, but perhaps its useful. I am happy to share the details of the circuit board design and the components if anyone is interested.
Part 2 will try to create a sample control panel for the Pit Head Halt station and sidings as it is much less complex that Home Yard or the Storage Shed.
Comments and suggestions for improvements very welcome.