Matomat/firmware/doc/piccsim.txt

PICCSIM design

ISO14443 anticollision:
- Configure TC 
	- to reset TC2 on every falling edge
	- to use FORCE_FAST for TC IRQ
	- to enable TC2 ETRGS
- CARRIER_DIV is switched to 212kHz / 424kHz
	- this results in SSC Rx is 4x (2x?) oversampling
- Set SSC Rx start condition to 4x/2x SOF pattern
- upon reception of first falling edge, we
	- end up in TC FIQ
	- read out TC0 current value
	- reconfigure TC0 RA/RB to be in-phase with previously-read TC0
	  value (subtracting some fixed offset depending on FIQ latency)
	- reconfigure TC2 
		- to use external event on every rising edge
		- to reset(trigger) on every external event
		- to clear TIOA2 on RC compare (RC is high)
		- to set TIOA2 on RA compare (RA set later)
		- disable TC2 IRQ (and FIQ FAST_FORCE)
- Wait for SSC Rx Interrupt (DMA complete, or PIO)
	- Read and decode single 32bit word
	- determine whether it is REQA or WUPA
		- abort if not, start over
	- depending on last bit 0/1, configure TC2 RA (FDT)
	- recconfig TC0 to produce 1.6MHz CARRIER_DIV clock for SSC Tx
		- make sure this is done synchronously
		- 
	- set up SSC Tx 
		- DMA with pre-encoded (and user-configured) ATQA
		- start Tx at a rising edge of TF (asserted by TC2 RA)
		- Send Interrupt once TX DMA is done
- Once TC2 RA compare happens, the rising edge of TIOA2 will trigger SSC 
- Wait for SSC Tx DMA to finish
- Repeat similar steps for ANTICOL/SELECT command, differences:
	- single-byte compare after frame Rx is not sufficient
		- evaluate number of valid bits ASAP
	- we might receive and transmit split frame at non-byte-boundaries
		- just shift a prepared ANTICOL/Select response 
		- make sure parity is handled correctly!
- Once we've completed the select, we go on with normal
bla 2015-11-15 19:18:42 +01:00			`PICCSIM design`

			`ISO14443 anticollision:`
			`- Configure TC`
			`- to reset TC2 on every falling edge`
			`- to use FORCE_FAST for TC IRQ`
			`- to enable TC2 ETRGS`
			`- CARRIER_DIV is switched to 212kHz / 424kHz`
			`- this results in SSC Rx is 4x (2x?) oversampling`
			`- Set SSC Rx start condition to 4x/2x SOF pattern`
			`- upon reception of first falling edge, we`
			`- end up in TC FIQ`
			`- read out TC0 current value`
			`- reconfigure TC0 RA/RB to be in-phase with previously-read TC0`
			`value (subtracting some fixed offset depending on FIQ latency)`
			`- reconfigure TC2`
			`- to use external event on every rising edge`
			`- to reset(trigger) on every external event`
			`- to clear TIOA2 on RC compare (RC is high)`
			`- to set TIOA2 on RA compare (RA set later)`
			`- disable TC2 IRQ (and FIQ FAST_FORCE)`
			`- Wait for SSC Rx Interrupt (DMA complete, or PIO)`
			`- Read and decode single 32bit word`
			`- determine whether it is REQA or WUPA`
			`- abort if not, start over`
			`- depending on last bit 0/1, configure TC2 RA (FDT)`
			`- recconfig TC0 to produce 1.6MHz CARRIER_DIV clock for SSC Tx`
			`- make sure this is done synchronously`
			`-`
			`- set up SSC Tx`
			`- DMA with pre-encoded (and user-configured) ATQA`
			`- start Tx at a rising edge of TF (asserted by TC2 RA)`
			`- Send Interrupt once TX DMA is done`
			`- Once TC2 RA compare happens, the rising edge of TIOA2 will trigger SSC`
			`- Wait for SSC Tx DMA to finish`
			`- Repeat similar steps for ANTICOL/SELECT command, differences:`
			`- single-byte compare after frame Rx is not sufficient`
			`- evaluate number of valid bits ASAP`
			`- we might receive and transmit split frame at non-byte-boundaries`
			`- just shift a prepared ANTICOL/Select response`
			`- make sure parity is handled correctly!`
			`- Once we've completed the select, we go on with normal`