knx/examples/knx-cc1310/smartrf_settings/smartrf_settings.c
nanosonde d90843ba45
Add support for CC1310 platform based on SimpleLink SDK (#94)
* Initial commit

* Clean up

* Remove display code

* Change cmake build

* Add SimpleLink SDK for CC13xx/CC26xx as submodule

* Remove commented line from build.sh

* Working build

* Remove SDK submodule

* Squashed 'examples/knx-cc1310/coresdk_cc13xx_cc26xx/' content from commit 0d78d32

git-subtree-dir: examples/knx-cc1310/coresdk_cc13xx_cc26xx
git-subtree-split: 0d78d3280357416a5c0388148cda13717c9ffaa5

* Add more comments and enable Power_idleFunc() for NoRTOS variant.
Internal SDK driver functions which have to wait for something
will cause Power_idleFunc to be called instead of doing busy wait.

* Move CC1310 platform init around

* Optimize a bit more in debug build config as the binary does not fit into 128Kb flash otherwise.

* Explicitly list each source/header file in build config. Use linker group to resolve circular dependencies.

* Ignore vscode settings.json

* Increase stacks size

* Only compile CC1310 source code if #define DeviceFamily_CC13X0

* initial commit of CC1310 RF driver with first working RX version

* Better handling of buttonUp() across platforms

* Start cleanup

* continue cleanup

* Fix bau2920 compilation

* Continue cleanup

* Fix compilation in other examples

* Fix compilation

* htons() and ntohs() only for SAMD and STM32, but not for Linux and ESP8266 and ESP32

* htons(9 and ntohs() needed for CC13x0

* Continue cleanup

* Add CC1310 platform to CI

* Fix CI

* Use more recent toolchain from ARM

* Fix travis

* Use Ubuntu Focal

* Fix toolchain for travis

* Fix package name

* Fix toolchain

* Add libstdc++-dev package

* Add newlib packages

* Remove commented commands from CI

* Fix travis

* Fix compilation of knxPython

* Clean up linefeeds

* Fix RX callback

* Move RF CRC16-DNP to bits.cpp

* Fix TX

* Optimization: do not calc CRC for block1 again in rf_data_link_layer

* Make newline optional in printHex

* Cleanup. First working version: ETS5 programming of individual address via KNX/RF coupler.

* Use LEDs and Buttons to control ProgMode and Flash Erase

* Remove settings.json (VScode)

* Add README.md

* Update README.md

* Update README.md

* Fix typo
2020-11-10 21:52:38 +01:00

258 lines
9.8 KiB
C

//*********************************************************************************
// Generated by SmartRF Studio version 2.6.0 (build #8)
// Tested for SimpleLink SDK version: CC13x0 SDK 1.30.xx.xx
// Device: CC1310 Rev. 2.1
//
//*********************************************************************************
//*********************************************************************************
// Parameter summary
// Address: on
// Address0: 0x44FF
// Frequency: 868.29999 MHz
// Data Format: Serial mode disable
// Deviation: 50.000 kHz
// Max Packet Length: unlimited packet length mode
// RX Filter BW: 196 kHz
// Symbol Rate: 32.76825 kBaud
// Sync Word Length: 24 Bits
// TX Power: 14 dBm (requires define CCFG_FORCE_VDDR_HH = 1 in ccfg.c, see CC13xx/CC26xx Technical Reference Manual)
// Whitening: No whitening
// FEC mode: manchester code
#include <ti/devices/DeviceFamily.h>
#include DeviceFamily_constructPath(driverlib/rf_mailbox.h)
#include DeviceFamily_constructPath(driverlib/rf_common_cmd.h)
#include DeviceFamily_constructPath(driverlib/rf_prop_cmd.h)
#include <ti/drivers/rf/RF.h>
#include DeviceFamily_constructPath(rf_patches/rf_patch_cpe_wmbus_smode.h)
#include DeviceFamily_constructPath(rf_patches/rf_patch_mce_wmbus_smode.h)
#include DeviceFamily_constructPath(rf_patches/rf_patch_rfe_wmbus_smode.h)
#include "smartrf_settings.h"
// TI-RTOS RF Mode Object
RF_Mode RF_prop =
{
.rfMode = RF_MODE_PROPRIETARY_SUB_1,
.cpePatchFxn = &rf_patch_cpe_wmbus_smode,
.mcePatchFxn = &rf_patch_mce_wmbus_smode,
.rfePatchFxn = &rf_patch_rfe_wmbus_smode,
};
// Overrides for CMD_PROP_RADIO_DIV_SETUP
static uint32_t pOverrides[] =
{
// PHY: Run the MCE and RFE patches
MCE_RFE_OVERRIDE(1,0,0,1,0,0),
// override_synth_prop_863_930_div5.xml
// Synth: Set recommended RTRIM to 7
HW_REG_OVERRIDE(0x4038,0x0037),
// Synth: Set Fref to 4 MHz
(uint32_t)0x000684A3,
// Synth: Configure fine calibration setting
HW_REG_OVERRIDE(0x4020,0x7F00),
// Synth: Configure fine calibration setting
HW_REG_OVERRIDE(0x4064,0x0040),
// Synth: Configure fine calibration setting
(uint32_t)0xB1070503,
// Synth: Configure fine calibration setting
(uint32_t)0x05330523,
// Synth: Set loop bandwidth after lock to 20 kHz
(uint32_t)0x0A480583,
// Synth: Set loop bandwidth after lock to 20 kHz
(uint32_t)0x7AB80603,
// Synth: Configure VCO LDO (in ADI1, set VCOLDOCFG=0x9F to use voltage input reference)
ADI_REG_OVERRIDE(1,4,0x9F),
// Synth: Configure synth LDO (in ADI1, set SLDOCTL0.COMP_CAP=1)
ADI_HALFREG_OVERRIDE(1,7,0x4,0x4),
// Synth: Use 24 MHz XOSC as synth clock, enable extra PLL filtering
(uint32_t)0x02010403,
// Synth: Configure extra PLL filtering
(uint32_t)0x00108463,
// Synth: Increase synth programming timeout (0x04B0 RAT ticks = 300 us)
(uint32_t)0x04B00243,
// override_synth_disable_bias_div5.xml
// Synth: Set divider bias to disabled
HW32_ARRAY_OVERRIDE(0x405C,1),
// Synth: Set divider bias to disabled (specific for loDivider=5)
(uint32_t)0x18000200,
// override_phy_rx_aaf_bw_0xd.xml
// Rx: Set anti-aliasing filter bandwidth to 0xD (in ADI0, set IFAMPCTL3[7:4]=0xD)
ADI_HALFREG_OVERRIDE(0,61,0xF,0xD),
// override_phy_gfsk_rx.xml
// Rx: Set LNA bias current trim offset to 3
(uint32_t)0x00038883,
// Rx: Freeze RSSI on sync found event
HW_REG_OVERRIDE(0x6084,0x35F1),
// Tx: Configure PA ramping setting (0x61). Rx: Set AGC reference level to 0x1F
HW_REG_OVERRIDE(0x6088,0x611F),
// Tx: Configure PA ramping setting and setting AGC settle wait = 21 samples
HW_REG_OVERRIDE(0x608C,0x8112),
// Rx: Set RSSI offset to adjust reported RSSI by +7 dB
(uint32_t)0x00F988A3,
// TX power override
// Tx: Set PA trim to max (in ADI0, set PACTL0=0xF8)
ADI_REG_OVERRIDE(0,12,0xF8),
// Set AGC win size = 7 samples
HW_REG_OVERRIDE(0x6064,0x1306),
(uint32_t)0xFFFFFFFF,
};
// CMD_PROP_RADIO_DIV_SETUP
rfc_CMD_PROP_RADIO_DIV_SETUP_t RF_cmdPropRadioDivSetup =
{
.commandNo = 0x3807,
.status = 0x0000,
.pNextOp = 0, // INSERT APPLICABLE POINTER: (uint8_t*)&xxx
.startTime = 0x00000000,
.startTrigger.triggerType = 0x0,
.startTrigger.bEnaCmd = 0x0,
.startTrigger.triggerNo = 0x0,
.startTrigger.pastTrig = 0x0,
.condition.rule = 0x1,
.condition.nSkip = 0x0,
.modulation.modType = 0x0,
.modulation.deviation = 0xC8,
.symbolRate.preScale = 0xF,
.symbolRate.rateWord = 0x53E3,
.rxBw = 0x27, // S2-mode (for S1-mode, rxBw = 0x29)
.preamConf.nPreamBytes = 0x3,
.preamConf.preamMode = 0x0,
.formatConf.nSwBits = 0x18,
.formatConf.bBitReversal = 0x0,
.formatConf.bMsbFirst = 0x1,
.formatConf.fecMode = 0x0a, // manchester coding
.formatConf.whitenMode = 0x0,
.config.frontEndMode = 0x0,
.config.biasMode = 0x1,
.config.analogCfgMode = 0x0,
.config.bNoFsPowerUp = 0x0,
.txPower = 0xA73F,
.pRegOverride = pOverrides,
.centerFreq = 0x0364,
.intFreq = 0x8000,
.loDivider = 0x05,
};
// CMD_FS
rfc_CMD_FS_t RF_cmdFs =
{
.commandNo = 0x0803,
.status = 0x0000,
.pNextOp = 0, // INSERT APPLICABLE POINTER: (uint8_t*)&xxx
.startTime = 0x00000000,
.startTrigger.triggerType = 0x0,
.startTrigger.bEnaCmd = 0x0,
.startTrigger.triggerNo = 0x0,
.startTrigger.pastTrig = 0x0,
.condition.rule = 0x1,
.condition.nSkip = 0x0,
.frequency = 0x0364,
.fractFreq = 0x4CCD,
.synthConf.bTxMode = 0x0,
.synthConf.refFreq = 0x0,
.__dummy0 = 0x00,
.__dummy1 = 0x00,
.__dummy2 = 0x00,
.__dummy3 = 0x0000,
};
// CMD_PROP_TX
rfc_CMD_PROP_TX_t RF_cmdPropTx =
{
.commandNo = 0x3801,
.status = 0x0000,
.pNextOp = 0, // INSERT APPLICABLE POINTER: (uint8_t*)&xxx
.startTime = 0x00000000,
.startTrigger.triggerType = 0x0,
.startTrigger.bEnaCmd = 0x0,
.startTrigger.triggerNo = 0x0,
.startTrigger.pastTrig = 0x0,
.condition.rule = 0x1,
.condition.nSkip = 0x0,
.pktConf.bFsOff = 0x0, // 0: Keep synthesizer running after end trigger
.pktConf.bUseCrc = 0x0, // CRC engine cannot be used
.pktConf.bVarLen = 0x0, // 0: Fixed length
.pktLen = 0x00, // SET APPLICATION PAYLOAD LENGTH
.syncWord = 0x547696,
.pPkt = 0, // INSERT APPLICABLE POINTER: (uint8_t*)&xxx
};
// CMD_PROP_RX_ADV
rfc_CMD_PROP_RX_ADV_t RF_cmdPropRxAdv =
{
.commandNo = 0x3804,
.status = 0x0000,
.pNextOp = 0, // INSERT APPLICABLE POINTER: (uint8_t*)&xxx
.startTime = 0x00000000,
.startTrigger.triggerType = 0x0,
.startTrigger.bEnaCmd = 0x0,
.startTrigger.triggerNo = 0x0,
.startTrigger.pastTrig = 0x0,
.condition.rule = 0x1,
.condition.nSkip = 0x0,
.pktConf.bFsOff = 0x0, // 0: Keep synthesizer running after end trigger
.pktConf.bRepeatOk = 0x0,
.pktConf.bRepeatNok = 0x0,
.pktConf.bUseCrc = 0x0, // CRC engine cannot be used
.pktConf.bCrcIncSw = 0x0,
.pktConf.bCrcIncHdr = 0x1,
.pktConf.endType = 0x0,
.pktConf.filterOp = 0x0, // 0: Abort packet reception and restart syncword search
.rxConf.bAutoFlushIgnored = 0x0, // Not supported for partial RX buffers
.rxConf.bAutoFlushCrcErr = 0x0,
.rxConf.bIncludeHdr = 0x1,
.rxConf.bIncludeCrc = 0x0,
.rxConf.bAppendRssi = 0x0,
.rxConf.bAppendTimestamp = 0x0,
.rxConf.bAppendStatus = 0x0,
.syncWord0 = 0x547696, // KNX-RF syncword
.syncWord1 = 0,
.maxPktLen = 0,
.hdrConf.numHdrBits = 8, // One length byte in header
.hdrConf.lenPos = 0,
.hdrConf.numLenBits = 0, // Engine shall not read the length itself. We set it later. (maxPktLen must be 0!)
.addrConf.addrType = 0, // Address bytes AFTER header
.addrConf.addrSize = 2, // use the two fixed bytes (0x44 and 0xff) after the length byte as address bytes
.addrConf.addrPos = 0,
.addrConf.numAddr = 1, // just the two fixed bytes are used as one address
.lenOffset = 0,
.endTrigger.triggerType = 0x1,
.endTrigger.bEnaCmd = 0x0,
.endTrigger.triggerNo = 0x0,
.endTrigger.pastTrig = 0x0,
.endTime = 0x00000000,
.pAddr = 0, // INSERT APPLICABLE POINTER: (uint8_t*)&xxx
.pQueue = 0, // INSERT APPLICABLE POINTER: (dataQueue_t*)&xxx
.pOutput = 0, // INSERT APPLICABLE POINTER: (uint8_t*)&xxx
};
// TX Power table
// The RF_TxPowerTable_DEFAULT_PA_ENTRY macro is defined in RF.h and requires the following arguments:
// RF_TxPowerTable_DEFAULT_PA_ENTRY(bias, gain, boost coefficient)
// See the Technical Reference Manual for further details about the "txPower" Command field.
// The PA settings require the CCFG_FORCE_VDDR_HH = 0 unless stated otherwise.
const RF_TxPowerTable_Entry PROP_RF_txPowerTable[] =
{
{-10, RF_TxPowerTable_DEFAULT_PA_ENTRY(0, 3, 0, 4) },
{0, RF_TxPowerTable_DEFAULT_PA_ENTRY(1, 1, 0, 0) },
{1, RF_TxPowerTable_DEFAULT_PA_ENTRY(3, 3, 0, 8) },
{2, RF_TxPowerTable_DEFAULT_PA_ENTRY(2, 1, 0, 8) },
{3, RF_TxPowerTable_DEFAULT_PA_ENTRY(4, 3, 0, 10) },
{4, RF_TxPowerTable_DEFAULT_PA_ENTRY(5, 3, 0, 12) },
{5, RF_TxPowerTable_DEFAULT_PA_ENTRY(6, 3, 0, 12) },
{6, RF_TxPowerTable_DEFAULT_PA_ENTRY(7, 3, 0, 14) },
{7, RF_TxPowerTable_DEFAULT_PA_ENTRY(9, 3, 0, 16) },
{8, RF_TxPowerTable_DEFAULT_PA_ENTRY(11, 3, 0, 18) },
{9, RF_TxPowerTable_DEFAULT_PA_ENTRY(13, 3, 0, 22) },
{10, RF_TxPowerTable_DEFAULT_PA_ENTRY(19, 3, 0, 28) },
{11, RF_TxPowerTable_DEFAULT_PA_ENTRY(26, 3, 0, 40) },
{12, RF_TxPowerTable_DEFAULT_PA_ENTRY(24, 0, 0, 92) },
{13, RF_TxPowerTable_DEFAULT_PA_ENTRY(63, 0, 0, 83) }, // The original PA value (12.5 dBm) have been rounded to an integer value.
{14, RF_TxPowerTable_DEFAULT_PA_ENTRY(63, 0, 1, 83) }, // This setting requires CCFG_FORCE_VDDR_HH = 1.
RF_TxPowerTable_TERMINATION_ENTRY
};
const uint8_t PROP_RF_txPowerTableSize = sizeof(PROP_RF_txPowerTable)/sizeof(RF_TxPowerTable_Entry);