+ - move yellow LED and passives closer to LiPo connector
+ + create PCB footprint for the GPS module
+ + create PCB footprint for the GPS antenna
+
+
+2009.10.09
+- flew lots of stuff last weekend at O'fest. 100g accel worked ok in G-Spot,
+ broke beeper presumably on landing with tangled chute. board seems ok
+ otherwise, need to verify that baro sensor is still ok.
+
+- put out sample requests for gps passive patches from 3 vendors
+
+- when adding GPS, let's plan for passive patch loaded on the back of the
+ board, plus a U.FL connector loaded on the top of the board with DC bias feed
+ to support external active antennas. This probably means passive patch
+ direct to gps chip, then a dc blocking cap, a chip inductor for dc bias
+ injection, and the connector. A suitable connector is:
+
+ WM5587CT-ND Molex 73412-0110 0.70 in single quantity
+
+ Keith found gps active antennas with cable to U.FL connectors and Molex sells
+ cables with U.FL to bare leads, so this should cover the bases.
+
+- TelePyro doesn't really need a CPU. How about an SPI to I2C converter chip
+ with GPIO lines and an I2C ADC chip? Cheaper and easier than a PIC?
+
+ PIC16F882 in SSOP-28 is $2.10 per, 1.41 @ 25 units
+ -- PIC16F883 is $2.12, PIC16F886 is $2.32, have better memories
+ CP2120 in QFN-20 is $2.41 per, 2.27 @ 25 units
+
+ The Silabs CP2120 has 8 gpio lines but is only available in QFN20. The NXP
+ part I discovered earlier, the SC18IS600, has 4 full gpio lines and 2 lame-o
+ pins, but is available in a hand-solderable version. Add in a Maxim ADC,
+ and something like this emerges:
+
+ DigiKey 568-3232-5-ND NXP SC18IS600IPW,112 2.25
+ DigiKey MAX11603EEE+-ND Maxim MAX11603EEE+ 4.00
+ Mouser 595-CD4508BM TI CD4508BM 1.70
+
+ The 4508 has separate reset inputs and latch controls for each 4-bit latch.
+ The reset forces all outputs low, and the reset is an active-high input.
+
+ The NXP part has an active-low reset input, with 10-30k internal pullup.
+
+ The ADC has no distinct reset input.
+
+ A suitable SOT-23-5 reset controller is the MCP1319MT-29LE... it has a master
+ reset input we can ignore, and both active high and active low reset outputs.
+
+ DigiKey MCP1319MT-29LE/OTCT-ND 0.70
+
+ This plus 8 copies of the pyro circuit on TM (FET and 4 resistors) and we're
+ good to go.
+
+ Wonder if there are resistor networks it'd be worth trying to use to ease
+ component placement? Yes... these are 8 x 0402, more or less:
+
+ 100 ohm 741X163101JPCT-ND 0.16
+ 10k 741X163103JPCT-ND 0.16
+ 27k Y1273CT-ND 0.18
+ 100k Y1104CT-ND 0.18
+
+- another way to think about all this is that I could panelize a set of boards
+ all done in 2 layers, then treat that as a sub-panel I put N copies down of
+ to fill up a 33each.com max panel size.
+
+2009.10.16
+- move to AT45DB161D 16-megabit SPI "DataFlash" EEPROM from Atmel?
+ AT45DB161D-SU-ND in SOIC-8 for $2.26 each
+ appears to compare favorably against $4.40 for current 128kx8 part
+ minor concern about write power, but probably red herring
+
+2010.02.08
+- looking at LiPo charger alternatives
+
+ MAX8808 DFN8, not carried by DK
+ MAX8814 DFN8, not carried by DK
+
+ LTC4095 DFN8, LTC4095EDC#TRMPBFCT-ND 2.91 2.34@100
+ 950mA, resistor current set, rate limit input, suspend input,
+ NTC thermal control option, smart CHRG led with 4 states
+ LTC4065 DFN6, LTC4065EDC#TRMPBFCT-ND 2.77 2.23@100
+ 750mA, resistor current set, CHRG led, enable input
+ LTC4065A DFN6, LTC4065AEDC#TRMPBFCT-ND 2.77 2.23@100
+ 750mA, resistor current set, CHRG led, supply present out
+
+ MCP73811 SOT23-5, MCP73811T-420I/OTCT-ND 0.63@1 0.39@100
+ input selects 85 vs 450mA charge current
+
+ MCP73837 DFN10, MCP73837T-FCI/MFCT-ND 1.37@1 0.85@100
+ usb rate select, power good output, dual inputs, dual status
+
+ LX2206 DFN10, LX2206CT-ND 2.68@1 2.01@100
+ rate select, power good output... needs more passives?
+
+ LM3658 DFN10,
+ dual input, dual rate, two status outputs .. not obvious win
+
+ MCP73855 DFN10, MCP73855T-I/MFCT-ND 1.85@1 1.18@100
+ see Microchip app note 971
+
+
+ Talking to Keith, there's no reason we couldn't use an 8-pin PIC to augment
+ a standalone LiPo charger, implementing a timer after vusb application
+ before switching the regulator to high current, to allow the cc1111 time to
+ finish the USB bus negotiation phase. We could also monitor various state
+ bits and multiplex signaling onto one LED. A combo like the MCP73837 plus
+ a PIC10F206 or 220 would net under $1.50 at 100 pieces and be pretty
+ powerful. Since the PIC has avilable weak pull-ups on the gpio lines, the
+ open-drain state outputs from the regulator don't need resistors to be read.
+
+2011.01.17
+- v1.0 and v1.1 boards have a minor error in that the v_lipo sampling resistors
+ are on "the wrong side of the cut" if you try to use a separate pyro battery.
+ The workaround is to cut that trace and put in a jumper, which pretty much
+ requires "return to Bdale for rework". We should fix this for a future PCB
+ revision.
+
+2011.09.12
+- chatted with Adrian some yesterday. He likes a Bosch pressure sensor that
+ is DK 828-1005-1-ND .. i2c output, similar range to our current part but
+ smaller, around $5 at our build quantities.
+
+2011.12.10
+- the Johanson balun/filter for 70cm use with cc1111 is DK 712-1540-1-ND
+ uses less PCB area, but lower performance than the discrete approach
+
+2013.01.04
+- noodling over TM v2.0 .. baro sensor will be hard to handle on cc1111. So,
+ how about 48-pin version of STM32L, cc110L radio, ms5607 and MMA665X accel.
+ Move to the faster lipo charger, too.
+ radio / flash on spi2, sensors on spi1, baro on spi1 alternate pins
+
+2013.05.02
+- serious stab at what should be on TeleMetrum v2 .. used cc115L section from
+ TeleGPS since I didn't have a cc110L data sheet on the plane .. hope it's
+ similar .. need to update to transceiver, not just transmitter!