From c01a5e0b7ac73cb4bc2fe1b39cf1830a1ac6ca45 Mon Sep 17 00:00:00 2001 From: Werner Almesberger Date: Tue, 24 Aug 2010 13:45:32 -0300 Subject: [PATCH] Added list of to do items and known bugs. --- TODO | 119 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 119 insertions(+) create mode 100644 TODO diff --git a/TODO b/TODO new file mode 100644 index 0000000..e3c38c0 --- /dev/null +++ b/TODO @@ -0,0 +1,119 @@ +General +======= + +Things not done yet +------------------- + +- document directory hierarchy + +- make sure all files have a copyright header or are listed in AUTHORS + +- connect all the bits and pieces of the build system + +- combine io-parts.h generation + +- combine "standard" EP0 commands, such as *_ID and *_BUILD + +- implement return to DFU in application's EP0 protocol + + +Bugs to fix +----------- + +- builds fail if .version isn't there yet + + + +atrf +==== + +AT86RF230-based IEEE 802.15.4 transceiver. Two variantes: one to make a USB +dongle for use with any Linux host, and one that connects with SPI directly +inside a Ben. + + +Things not done yet +------------------- + +- define values for crystal load capacitors. Measurements with instruments not + quite precise enough (+/- 100 ppm) for the task (+/- 40 ppm, preferably + < +/- 10 ppm) suggest that we're about 300 ppm off with no capacitors at all + and can only correct about 150 ppm with the internal trim capacitors. + +- examine spectrum around carrier frequency and first harmonic to look for + obvious distortions. Vary transmit power. + +- measure throughput as a function of placement/distance, carrier frequency, + and transmit power + +- atspi-txrx: suppport "extended mode" with IEEE 802.15.4 CSMA-CA for more + realistic throughput figures + +- measure full spectrum (ideally up to 25 GHz, but just 2nd and 3rd harmonic + will already tell most of the story) with calibrated antenna for FCC/ETSI + compliance assessment. Vary transmit power. + +- use IEEE 802.15.4 stack from linux-zigbee + +- verify that the Ben can output an a) 16 MHz clock, and b) with +/- 40 ppm + +- replace discrete balun and filter with integrated solution, to reduce BOM + size, maybe cost, insertion loss, and PCB space + +- check if we really need three DC blocking caps in the RF path + +- change layout of transceiver side of the board for placement inside Ben + +- define EMI filters for placement inside Ben + +- check USB standard for recommended USB dongle dimensions + +- change layout for straight USB dongle + +- generate proper BOM + +- implement sleep mode + + +Bugs to fix +----------- + +- two of my systems (tv and u1010) flat out refuse to talk to the board's USB + application, but have no problem talking to its DFU boot loader. Very + strange. + +- atrf vs. atspi naming is a bit confusing + + +ccrf +==== + +Board similar to the atrf, but with the TI/Chipcon CC2520. + + +cntr +==== + +Simple USB-based counter to measure a clock's long-time accuracy with +arbitrarily high precision, by comparing it to an NTP time reference. + + +Things not done yet +------------------- + +- measure duty cycle + +- display activity on clock input and duty cycle + +- consider using a comparator and a DAC to allow for programmable logic levels + +- evaluate termination resistance + +- document circuit design + + +Bugs to fix +----------- + +- the firmware flashes okay and there are no outward signs of problems, yet the + board doesn't do anything so far, not even blink the LED. Kinda embarrassing.