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Why is the resolution of the 5.7″ display worse than that of the 4.3″ display? Do you have a 5.7″ display that has a resolution as good as or better than the 4.3″?

The 5.7″ QVGA (320×240) is an older standard than the 4.3″ display, and that’s why the 5.7″ has a lower resolution. The lower the resolution, the higher the brightness, so the 5.7″ does have one redeeming feature. We favor “standard” sizes and resolutions as much as possible for long-life availability. There are no standard bodies for small TFT displays, only form factors and resolutions adopted by multiple vendors. You have several options for higher resolution, and these are all powered by our SLCD5 controller. These options are very similar in resolution (dots per inch (dpi) or pixel pitch). Reference 4.3″ dot pitch 0.198mm = 128dpi Options: 5.7″ VGA (640×480) dot pitch 0.180mm = 141dpi (tighter than the 4.3″) 6.4″ VGA (640×480) dot pitch 0.204mm = 124dpi 7″ WVGA (800×480) dot pitch 0.190mm = 134dpi All of the above are available from multiple panel vendors.

Why is the resolution of the 5.7″ display worse than that of the 4.3″ display? Do you have a 5.7″ display that has a resolution as good as or better than the 4.3″?2022-04-08T10:56:34-07:00

Do you supply the displays/LCDs I need from stock? Or will I have to go hunting for the displays again?

If you want the lowest cost, you buy the displays yourself. However, we cannot provide technical support for displays that we don’t sell. Suppose you’re not already aware of the vagaries of the LCD business and especially of the availability of LCD products. In that case, you might want to read how the LCD business is very different from others.

Do you supply the displays/LCDs I need from stock? Or will I have to go hunting for the displays again?2022-04-08T10:57:45-07:00

How can I make SD cards larger than 2 GB work with the SLCD5 or SLCD5+ controllers?

The firmware in our SLCD5/SLCD5+ display modules does not support SDHC cards (those over 2 GB capacity). This is because the low-level SD card protocol changed, so even if you partition the SDHC card and create a FAT16 file system, the underlying protocol is incompatible. You will need to use a standard SD card with a capacity of 2 GB or less.

How can I make SD cards larger than 2 GB work with the SLCD5 or SLCD5+ controllers?2019-10-24T13:28:33-07:00

My end product will have a 5-7 year lifetime. Will the controller board be supported for that long?

Reach Technology began in 1988 and is still supporting products designed in the mid-1990s. As long as there are customers for a particular board and parts are available, we will continue to make it. Our job is to keep the product current and deal with part obsolescence issues. The user interface will stay the same. Read more about our commitment to long-term supply.

My end product will have a 5-7 year lifetime. Will the controller board be supported for that long?2022-04-08T10:59:11-07:00

How can I reduce the power consumption in sleep mode?

One option is to define a macro the application can use when needed. A macro can turn the display off with the “v off” command. First, define a particular hotspot over the entire screen, then assign this hotspot to another macro. When the user touches any location on the touch screen, the assigned macro is run. The ‘wake-up’ macro could remove the hotspot and turn the display back on with the “v on” command. A screen touch can notify the application with either a standard “x” notification from the SLCD or a custom message from the ‘wake-up’ macro. See the example macros in the file PowerSaveExampleMacros.txt.

How can I reduce the power consumption in sleep mode?2022-04-08T10:59:51-07:00

What is the typical, worst case, and surge current requirements for the SLCD43 Module (Part Number 51-0105-01)?

The typical room temperature current is as follows, measured at 5V DC input: CASE 1 –  Full bright “xbb 255”, blank screen: 238mA CASE 2 – Full bright “xbb 255”, checkerboard screen: 243mA (the checkerboard pattern alternating white and black pixels is worst-case panel power) These are typical numbers. We quote the absolute worst case (400mA) on the datasheet; it is improbable that all parts of any particular module will be the worst case. See the inrush power on applying power to the module in the image below. This surge charges the tantalum capacitors on the board. The module contains a supervisor reset chip MCP809T with a minimum delay of 150mS from power. So as long as the caps are charged in 100mS, all will be well. You could easily limit the inrush current to 400mA and be okay.

What is the typical, worst case, and surge current requirements for the SLCD43 Module (Part Number 51-0105-01)?2022-04-08T11:01:00-07:00
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