# HG changeset patch # User Mychaela Falconia # Date 1602551266 0 # Node ID 89aa29293ded495211529961066d8da0ef60f9d8 # Parent 027b22814ac41266b01a8e4d7e35c6d6d72d58d4 tpudrv12.h: sync with Magnetite diff -r 027b22814ac4 -r 89aa29293ded src/cs/layer1/tpu_drivers/source0/tpudrv12.h --- a/src/cs/layer1/tpu_drivers/source0/tpudrv12.h Tue Oct 13 01:04:20 2020 +0000 +++ b/src/cs/layer1/tpu_drivers/source0/tpudrv12.h Tue Oct 13 01:07:46 2020 +0000 @@ -275,7 +275,7 @@ #define TU_1900 ( PA_HI_BAND | FEM_PINS ^ FEM_8 ) #define TD_1900 ( PA_OFF | FEM_PINS ^ 0 ) -#elif defined(CONFIG_TARGET_GTAMODEM) +#elif defined(CONFIG_TARGET_GTAMODEM) || defined(CONFIG_TARGET_FCDEV3B) // Openmoko's triband configuration is a bastardized version // of TI's quadband one from Leonardo/E-Sample @@ -317,60 +317,6 @@ #define TU_1900 ( PA_HI_BAND | FEM_PINS ^ FEM_7 ) #define TD_1900 ( PA_OFF | FEM_PINS ^ 0 ) -#elif defined(CONFIG_TARGET_FCFAM) - - /* - * In our FreeCalypso hw family, we would like to be able to use - * both triband and quadband RFFEs. Our current FCDEV3B is triband, - * copied from Openmoko, and the same is expected to be the case for - * future low-budget designs, but if someone pays for a new RF layout, - * we can use a quadband RFFE instead. If we ever have two different - * hw platforms or variants that differ in the RFFE but are otherwise - * firmware-compatible, we would like to have the same fw build - * work with both triband and quadband RFFEs. How is it possible? - * The trick is that we define our set of TSPACT RFFE control signals - * starting with our current OM-based triband version, and add one - * more signal to support potential future quadband designs. - */ - - #define FEM_RX_1900 BIT_1 // act1 - #define FEM_TX_HIGH BIT_2 // act2 - #define FEM_TX_LOW BIT_4 // act4 - #define FEM_RX_850 BIT_5 // act5 - - #define PA_HI_BAND BIT_3 // act3 - #define PA_LO_BAND 0 - #define PA_OFF 0 - - #define FEM_PINS (FEM_TX_LOW | FEM_TX_HIGH | FEM_RX_850 | FEM_RX_1900) - - #define FEM_OFF ( FEM_PINS ^ 0 ) - - #define FEM_SLEEP ( 0 ) - - // This configuration is always inverted. - - // RX_UP/DOWN and TX_UP/DOWN - #define RU_900 ( PA_OFF | FEM_PINS ^ 0 ) - #define RD_900 ( PA_OFF | FEM_PINS ^ 0 ) - #define TU_900 ( PA_LO_BAND | FEM_PINS ^ FEM_TX_LOW ) - #define TD_900 ( PA_OFF | FEM_PINS ^ 0 ) - - #define RU_850 ( PA_OFF | FEM_PINS ^ FEM_RX_850 ) - #define RD_850 ( PA_OFF | FEM_PINS ^ 0 ) - #define TU_850 ( PA_LO_BAND | FEM_PINS ^ FEM_TX_LOW ) - #define TD_850 ( PA_OFF | FEM_PINS ^ 0 ) - - #define RU_1800 ( PA_OFF | FEM_PINS ^ 0 ) - #define RD_1800 ( PA_OFF | FEM_PINS ^ 0 ) - #define TU_1800 ( PA_HI_BAND | FEM_PINS ^ FEM_TX_HIGH ) - #define TD_1800 ( PA_OFF | FEM_PINS ^ 0 ) - - #define RU_1900 ( PA_OFF | FEM_PINS ^ FEM_RX_1900 ) - #define RD_1900 ( PA_OFF | FEM_PINS ^ 0 ) - #define TU_1900 ( PA_HI_BAND | FEM_PINS ^ FEM_TX_HIGH ) - #define TD_1900 ( PA_OFF | FEM_PINS ^ 0 ) - #elif defined(CONFIG_TARGET_MGC2GSMT) /*