/* * Copyright © 2009 Keith Packard * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. */ #include "ao_bringup.h" /* Values from SmartRF® Studio for: * * Deviation: 20.507812 kHz * Datarate: 38.360596 kBaud * Modulation: GFSK * RF Freq: 434.549927 MHz * Channel: 99.975586 kHz * Channel: 0 * RX filter: 93.75 kHz */ /* * For 434.550MHz, the frequency value is: * * 434.550e6 / (24e6 / 2**16) = 1186611.2 */ #define FREQ_CONTROL 1186611 /* * For IF freq of 140.62kHz, the IF value is: * * 140.62e3 / (24e6 / 2**10) = 6 */ #define IF_FREQ_CONTROL 6 /* * For channel bandwidth of 93.75 kHz, the CHANBW_E and CHANBW_M values are * * BW = 24e6 / (8 * (4 + M) * 2 ** E) * * So, M = 0 and E = 3 */ #define CHANBW_M 0 #define CHANBW_E 3 /* * For a symbol rate of 38360kBaud, the DRATE_E and DRATE_M values are: * * R = (256 + M) * 2** E * 24e6 / 2**28 * * So M is 163 and E is 10 */ #define DRATE_E 10 #define DRATE_M 163 /* * For a channel deviation of 20.5kHz, the DEVIATION_E and DEVIATION_M values are: * * F = 24e6/2**17 * (8 + DEVIATION_M) * 2**DEVIATION_E * * So M is 6 and E is 3 */ #define DEVIATION_M 6 #define DEVIATION_E 3 /* * For our RDF beacon, set the symbol rate to 2kBaud (for a 1kHz tone), * so the DRATE_E and DRATE_M values are: * * M is 94 and E is 6 * * To make the tone last for 200ms, we need 2000 * .2 = 400 bits or 50 bytes */ #define RDF_DRATE_E 6 #define RDF_DRATE_M 94 #define RDF_PACKET_LEN 50 /* * RDF deviation should match the normal NFM value of 5kHz * * M is 6 and E is 1 * */ #define RDF_DEVIATION_M 6 #define RDF_DEVIATION_E 1 /* This are from the table for 433MHz */ #define RF_POWER_M30_DBM 0x12 #define RF_POWER_M20_DBM 0x0e #define RF_POWER_M15_DBM 0x1d #define RF_POWER_M10_DBM 0x34 #define RF_POWER_M5_DBM 0x2c #define RF_POWER_0_DBM 0x60 #define RF_POWER_5_DBM 0x84 #define RF_POWER_7_DBM 0xc8 #define RF_POWER_10_DBM 0xc0 #define RF_POWER RF_POWER_10_DBM static __code uint8_t radio_setup[] = { RF_PA_TABLE7_OFF, RF_POWER, RF_PA_TABLE6_OFF, RF_POWER, RF_PA_TABLE5_OFF, RF_POWER, RF_PA_TABLE4_OFF, RF_POWER, RF_PA_TABLE3_OFF, RF_POWER, RF_PA_TABLE2_OFF, RF_POWER, RF_PA_TABLE1_OFF, RF_POWER, RF_PA_TABLE0_OFF, RF_POWER, RF_FREQ2_OFF, (FREQ_CONTROL >> 16) & 0xff, RF_FREQ1_OFF, (FREQ_CONTROL >> 8) & 0xff, RF_FREQ0_OFF, (FREQ_CONTROL) & 0xff, RF_FSCTRL1_OFF, (IF_FREQ_CONTROL << RF_FSCTRL1_FREQ_IF_SHIFT), RF_FSCTRL0_OFF, (0 << RF_FSCTRL0_FREQOFF_SHIFT), RF_MDMCFG4_OFF, ((CHANBW_E << RF_MDMCFG4_CHANBW_E_SHIFT) | (CHANBW_M << RF_MDMCFG4_CHANBW_M_SHIFT) | (DRATE_E << RF_MDMCFG4_DRATE_E_SHIFT)), RF_MDMCFG3_OFF, (DRATE_M << RF_MDMCFG3_DRATE_M_SHIFT), RF_MDMCFG2_OFF, (RF_MDMCFG2_DEM_DCFILT_OFF | RF_MDMCFG2_MOD_FORMAT_GFSK | RF_MDMCFG2_SYNC_MODE_15_16_THRES), RF_MDMCFG1_OFF, (RF_MDMCFG1_FEC_EN | RF_MDMCFG1_NUM_PREAMBLE_4 | (2 << RF_MDMCFG1_CHANSPC_E_SHIFT)), RF_MDMCFG0_OFF, (17 << RF_MDMCFG0_CHANSPC_M_SHIFT), RF_CHANNR_OFF, 0, RF_DEVIATN_OFF, ((DEVIATION_E << RF_DEVIATN_DEVIATION_E_SHIFT) | (DEVIATION_M << RF_DEVIATN_DEVIATION_M_SHIFT)), /* SmartRF says set LODIV_BUF_CURRENT_TX to 0 * And, we're not using power ramping, so use PA_POWER 0 */ RF_FREND0_OFF, ((1 << RF_FREND0_LODIV_BUF_CURRENT_TX_SHIFT) | (0 << RF_FREND0_PA_POWER_SHIFT)), RF_FREND1_OFF, ((1 << RF_FREND1_LNA_CURRENT_SHIFT) | (1 << RF_FREND1_LNA2MIX_CURRENT_SHIFT) | (1 << RF_FREND1_LODIV_BUF_CURRENT_RX_SHIFT) | (2 << RF_FREND1_MIX_CURRENT_SHIFT)), RF_FSCAL3_OFF, 0xE9, RF_FSCAL2_OFF, 0x0A, RF_FSCAL1_OFF, 0x00, RF_FSCAL0_OFF, 0x1F, RF_TEST2_OFF, 0x88, RF_TEST1_OFF, 0x31, RF_TEST0_OFF, 0x09, /* default sync values */ RF_SYNC1_OFF, 0xD3, RF_SYNC0_OFF, 0x91, /* max packet length */ RF_PKTLEN_OFF, 64, RF_PKTCTRL1_OFF, ((1 << PKTCTRL1_PQT_SHIFT)| PKTCTRL1_APPEND_STATUS| PKTCTRL1_ADR_CHK_NONE), RF_PKTCTRL0_OFF, (RF_PKTCTRL0_WHITE_DATA| RF_PKTCTRL0_PKT_FORMAT_NORMAL| RF_PKTCTRL0_CRC_EN| RF_PKTCTRL0_LENGTH_CONFIG_FIXED), RF_ADDR_OFF, 0x00, RF_MCSM2_OFF, (RF_MCSM2_RX_TIME_END_OF_PACKET), RF_MCSM1_OFF, (RF_MCSM1_CCA_MODE_RSSI_BELOW_UNLESS_RECEIVING| RF_MCSM1_RXOFF_MODE_IDLE| RF_MCSM1_TXOFF_MODE_IDLE), RF_MCSM0_OFF, (RF_MCSM0_FS_AUTOCAL_FROM_IDLE| RF_MCSM0_MAGIC_3| RF_MCSM0_CLOSE_IN_RX_0DB), RF_FOCCFG_OFF, (RF_FOCCFG_FOC_PRE_K_3K, RF_FOCCFG_FOC_POST_K_PRE_K, RF_FOCCFG_FOC_LIMIT_BW_OVER_4), RF_BSCFG_OFF, (RF_BSCFG_BS_PRE_K_2K| RF_BSCFG_BS_PRE_KP_3KP| RF_BSCFG_BS_POST_KI_PRE_KI| RF_BSCFG_BS_POST_KP_PRE_KP| RF_BSCFG_BS_LIMIT_0), RF_AGCCTRL2_OFF, 0x43, RF_AGCCTRL1_OFF, 0x40, RF_AGCCTRL0_OFF, 0x91, RF_IOCFG2_OFF, 0x00, RF_IOCFG1_OFF, 0x00, RF_IOCFG0_OFF, 0x00, RF_MDMCFG4_OFF, ((CHANBW_E << RF_MDMCFG4_CHANBW_E_SHIFT) | (CHANBW_M << RF_MDMCFG4_CHANBW_M_SHIFT) | (DRATE_E << RF_MDMCFG4_DRATE_E_SHIFT)), RF_MDMCFG3_OFF, (DRATE_M << RF_MDMCFG3_DRATE_M_SHIFT), RF_MDMCFG2_OFF, (RF_MDMCFG2_DEM_DCFILT_OFF | RF_MDMCFG2_MOD_FORMAT_GFSK | RF_MDMCFG2_SYNC_MODE_15_16_THRES), RF_MDMCFG1_OFF, (RF_MDMCFG1_FEC_EN | RF_MDMCFG1_NUM_PREAMBLE_4 | (2 << RF_MDMCFG1_CHANSPC_E_SHIFT)), RF_DEVIATN_OFF, ((DEVIATION_E << RF_DEVIATN_DEVIATION_E_SHIFT) | (DEVIATION_M << RF_DEVIATN_DEVIATION_M_SHIFT)), /* max packet length */ RF_PKTLEN_OFF, 0xff, RF_PKTCTRL1_OFF, ((1 << PKTCTRL1_PQT_SHIFT)| PKTCTRL1_APPEND_STATUS| PKTCTRL1_ADR_CHK_NONE), RF_PKTCTRL0_OFF, (RF_PKTCTRL0_WHITE_DATA| RF_PKTCTRL0_PKT_FORMAT_NORMAL| RF_PKTCTRL0_CRC_EN| RF_PKTCTRL0_LENGTH_CONFIG_FIXED), }; void ao_radio_idle(void) { if (RF_MARCSTATE != RF_MARCSTATE_IDLE) { RFST = RFST_SIDLE; do { ; } while (RF_MARCSTATE != RF_MARCSTATE_IDLE); } } void ao_radio_init(void) { uint8_t i; for (i = 0; i < sizeof (radio_setup); i += 2) RF[radio_setup[i]] = radio_setup[i+1]; }