* TI - TSC ADC (Touschscreen and analog digital converter) ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Required properties: - child "tsc" ti,wires: Wires refer to application modes i.e. 4/5/8 wire touchscreen support on the platform. ti,x-plate-resistance: X plate resistance ti,coordinate-readouts: The sequencer supports a total of 16 programmable steps each step is used to read a single coordinate. A single readout is enough but multiple reads can increase the quality. A value of 5 means, 5 reads for X, 5 for Y and 2 for Z (always). This utilises 12 of the 16 software steps available. The remaining 4 can be used by the ADC. ti,wire-config: Different boards could have a different order for connecting wires on touchscreen. We need to provide an 8 bit number where in the 1st four bits represent the analog lines and the next 4 bits represent positive/ negative terminal on that input line. Notations to represent the input lines and terminals resoectively is as follows: AIN0 = 0, AIN1 = 1 and so on till AIN7 = 7. XP = 0, XN = 1, YP = 2, YN = 3. - child "adc" ti,adc-channels: List of analog inputs available for ADC. AIN0 = 0, AIN1 = 1 and so on till AIN7 = 7. Optional properties: - child "tsc" ti,charge-delay: Length of touch screen charge delay step in terms of ADC clock cycles. Charge delay value should be large in order to avoid false pen-up events. This value effects the overall sampling speed, hence need to be kept as low as possible, while avoiding false pen-up event. Start from a lower value, say 0x400, and increase value until false pen-up events are avoided. The pen-up detection happens immediately after the charge step, so this does in fact function as a hardware knob for adjusting the amount of "settling time". Example: tscadc: tscadc@44e0d000 { compatible = "ti,am3359-tscadc"; tsc { ti,wires = <4>; ti,x-plate-resistance = <200>; ti,coordiante-readouts = <5>; ti,wire-config = <0x00 0x11 0x22 0x33>; ti,charge-delay = <0x400>; }; adc { ti,adc-channels = <4 5 6 7>; }; }