Arduino Uno
CCRF3 Click https://www.mikroe.com/ccrf-3-click

https://img.techpowerup.org/200726/cc1120-tx-dcs.jpg

 

#include <SPI.h>
#include "cc1120.h"

#define PRINT_INFO  1
#define TX_REPEAT   11

struct cc_status {
 uint8_t res : 4;
 uint8_t state : 3;
 uint8_t chip_ready : 1;
};
union cc_st {
  struct cc_status ccst;
  uint8_t v;
};

union cc_st ccstatus;

void setup() {
  Serial.begin(9600);
  pinMode(RESET_PIN, OUTPUT);
  pinMode(SS_PIN, OUTPUT);
  digitalWrite(SS_PIN, HIGH);
  digitalWrite(RESET_PIN, HIGH);
 
  SPI.begin();

  strobeSPI(SNOP);

  // Preamble off
  uint8_t v = readSPI(PREAMBLE_CFG0);
  bitClear(v, 5);
  writeSPI(PREAMBLE_CFG0, v);
  // Sync off
  v = readSPI(SYNC_CFG0);
  bitClear(v, 4);
  bitClear(v, 3);
  bitClear(v, 2);
  writeSPI(SYNC_CFG0, v);

  writeSPI(SYNC_CFG1, SMARTRF_SETTING_SYNC_CFG1);
  writeSPI(DEVIATION_M, SMARTRF_SETTING_DEVIATION_M);
  writeSPI(DCFILT_CFG, SMARTRF_SETTING_DCFILT_CFG);
  writeSPI(PREAMBLE_CFG1, SMARTRF_SETTING_PREAMBLE_CFG1);
  writeSPI(IQIC, SMARTRF_SETTING_IQIC);
  writeSPI(CHAN_BW, SMARTRF_SETTING_CHAN_BW);
  writeSPI(MDMCFG0, SMARTRF_SETTING_MDMCFG0);
  writeSPI(SYMBOL_RATE2, SMARTRF_SETTING_SYMBOL_RATE2);
  writeSPI(SYMBOL_RATE1, SMARTRF_SETTING_SYMBOL_RATE1);
  writeSPI(SYMBOL_RATE0, SMARTRF_SETTING_SYMBOL_RATE0);
  writeSPI(AGC_REF, SMARTRF_SETTING_AGC_REF);
  writeSPI(AGC_CS_THR, SMARTRF_SETTING_AGC_CS_THR);
  writeSPI(AGC_CFG1, SMARTRF_SETTING_AGC_CFG1);
  writeSPI(AGC_CFG0, SMARTRF_SETTING_AGC_CFG0);
  writeSPI(FIFO_CFG, SMARTRF_SETTING_FIFO_CFG);
  writeSPI(FS_CFG, SMARTRF_SETTING_FS_CFG);
  writeSPI(PA_CFG2, SMARTRF_SETTING_PA_CFG2);
  writeSPI(PA_CFG0, SMARTRF_SETTING_PA_CFG0);
  writeSPI(PKT_LEN, SMARTRF_SETTING_PKT_LEN);

  writeExtAddrSPI(IF_MIX_CFG, SMARTRF_SETTING_IF_MIX_CFG);
  writeExtAddrSPI(FREQOFF_CFG, SMARTRF_SETTING_FREQOFF_CFG);
  writeExtAddrSPI(FREQ2, SMARTRF_SETTING_FREQ2);
  writeExtAddrSPI(FREQ1, SMARTRF_SETTING_FREQ1);
  writeExtAddrSPI(FS_DIG1, SMARTRF_SETTING_FS_DIG1);
  writeExtAddrSPI(FS_DIG0, SMARTRF_SETTING_FS_DIG0);
  writeExtAddrSPI(FS_CAL1, SMARTRF_SETTING_FS_CAL1);
  writeExtAddrSPI(FS_CAL0, SMARTRF_SETTING_FS_CAL0);
  writeExtAddrSPI(FS_DIVTWO, SMARTRF_SETTING_FS_DIVTWO);
  writeExtAddrSPI(FS_DSM0, SMARTRF_SETTING_FS_DSM0);
  writeExtAddrSPI(FS_DVC0, SMARTRF_SETTING_FS_DVC0);
  writeExtAddrSPI(FS_PFD, SMARTRF_SETTING_FS_PFD);
  writeExtAddrSPI(FS_PRE, SMARTRF_SETTING_FS_PRE);
  writeExtAddrSPI(FS_REG_DIV_CML, SMARTRF_SETTING_FS_REG_DIV_CML);
  writeExtAddrSPI(FS_SPARE, SMARTRF_SETTING_FS_SPARE);
  writeExtAddrSPI(FS_VCO0, SMARTRF_SETTING_FS_VCO0);
  writeExtAddrSPI(XOSC5, SMARTRF_SETTING_XOSC5);
  writeExtAddrSPI(XOSC1, SMARTRF_SETTING_XOSC1);

#ifdef PRINT_INFO
  v = readExtAddrSPI(PARTVERSION);
  Serial.print(F("PARTVERSION "));
  Serial.println(v, HEX);
  v = readExtAddrSPI(PARTNUMBER);
  Serial.print(F("PARTNUMBER "));
  Serial.println(v, HEX);
#endif
 
  v = readExtAddrSPI(MARCSTATE);
  Serial.print(F("MARCSTATE "));
  Serial.println(v, BIN);
}

void loop() {
  strobeSPI(SIDLE);
  for (uint8_t i = 0; i < TX_REPEAT; i++) {
    writeSPI(FIFO, 0x64);
    writeSPI(FIFO, 0x0E);
    writeSPI(FIFO, 0x37);
  }
  strobeSPI(STX);
  delay(3000);
}

void printStatus() {
  Serial.println();
  Serial.print(F("Chip ready: "));
  Serial.println(ccstatus.ccst.chip_ready, HEX);
  Serial.print(F("State: "));
  Serial.println(ccstatus.ccst.state, HEX);
  Serial.println();  
}

uint8_t readSPI(uint8_t addr) {
  digitalWrite(SS_PIN, LOW);
  ccstatus.v = SPI.transfer(R_BIT | addr);
  uint8_t v = SPI.transfer(0x00);
  digitalWrite(SS_PIN, HIGH);
  return v;
}

void writeSPI(uint8_t addr, uint8_t value) {
  digitalWrite(SS_PIN, LOW);
  ccstatus.v = SPI.transfer(addr);
  ccstatus.v = SPI.transfer(value);
  digitalWrite(SS_PIN, HIGH);
}

void strobeSPI(uint8_t cmd)
{
  digitalWrite(SS_PIN, LOW);
  ccstatus.v = SPI.transfer(R_BIT | cmd);
  digitalWrite(SS_PIN, HIGH);
}

uint8_t readExtAddrSPI(uint8_t addr) {
  uint8_t v;
  digitalWrite(SS_PIN, LOW);
  ccstatus.v = SPI.transfer(R_BIT | EXT_ADDR);
  SPI.transfer(addr);
  v = SPI.transfer(0xff);
  digitalWrite(SS_PIN, HIGH);
  return v;
}

void writeExtAddrSPI(uint8_t addr, uint8_t value) {
  digitalWrite(SS_PIN, LOW);
  ccstatus.v = SPI.transfer(EXT_ADDR);
  ccstatus.v = SPI.transfer(addr);
  ccstatus.v = SPI.transfer(value);
  digitalWrite(SS_PIN, HIGH);
}

 

/* Address Config = No address check */
/* Bit Rate = 0.1344 */
/* Carrier Frequency = 437.000000 */
/* Deviation = 3.967285 */
/* Device Address = 0 */
/* Manchester Enable = false */
/* Modulation Format = 2-FSK */
/* PA Ramping = false */
/* Packet Bit Length = 0 */
/* Packet Length = 33 */
/* Packet Length Mode = Fixed */
/* Performance Mode = High Performance */
/* RX Filter BW = 25.000000 */
/* Symbol rate = 0.1344 */
/* TX Power = 5 */
/* Whitening = false */

#ifndef SMARTRF_CC1120_H
#define SMARTRF_CC1120_H

#define SMARTRF_RADIO_CC1120
#define SMARTRF_SETTING_IOCFG3           0xB0
#define SMARTRF_SETTING_IOCFG2           0x06
#define SMARTRF_SETTING_IOCFG1           0xB0
#define SMARTRF_SETTING_IOCFG0           0x40
#define SMARTRF_SETTING_SYNC_CFG1        0x0B
#define SMARTRF_SETTING_DEVIATION_M      0x04
#define SMARTRF_SETTING_DCFILT_CFG       0x1C
#define SMARTRF_SETTING_PREAMBLE_CFG1    0x18
#define SMARTRF_SETTING_IQIC             0xC6
#define SMARTRF_SETTING_CHAN_BW          0x08
#define SMARTRF_SETTING_MDMCFG0          0x05
#define SMARTRF_SETTING_SYMBOL_RATE2     0x11
#define SMARTRF_SETTING_SYMBOL_RATE1     0x9D
#define SMARTRF_SETTING_SYMBOL_RATE0     0xB7
#define SMARTRF_SETTING_AGC_REF          0x20
#define SMARTRF_SETTING_AGC_CS_THR       0x19
#define SMARTRF_SETTING_AGC_CFG1         0xA9
#define SMARTRF_SETTING_AGC_CFG0         0xCF
#define SMARTRF_SETTING_FIFO_CFG         0x00
#define SMARTRF_SETTING_FS_CFG           0x14
#define SMARTRF_SETTING_PA_CFG2          0x29
#define SMARTRF_SETTING_PA_CFG0          0x7E
#define SMARTRF_SETTING_PKT_LEN          0x21
#define SMARTRF_SETTING_IF_MIX_CFG       0x00
#define SMARTRF_SETTING_FREQOFF_CFG      0x22
#define SMARTRF_SETTING_FREQ2            0x6D
#define SMARTRF_SETTING_FREQ1            0x40
#define SMARTRF_SETTING_FS_DIG1          0x00
#define SMARTRF_SETTING_FS_DIG0          0x5F
#define SMARTRF_SETTING_FS_CAL1          0x40
#define SMARTRF_SETTING_FS_CAL0          0x0E
#define SMARTRF_SETTING_FS_DIVTWO        0x03
#define SMARTRF_SETTING_FS_DSM0          0x33
#define SMARTRF_SETTING_FS_DVC0          0x17
#define SMARTRF_SETTING_FS_PFD           0x50
#define SMARTRF_SETTING_FS_PRE           0x6E
#define SMARTRF_SETTING_FS_REG_DIV_CML   0x14
#define SMARTRF_SETTING_FS_SPARE         0xAC
#define SMARTRF_SETTING_FS_VCO0          0xB4
#define SMARTRF_SETTING_XOSC5            0x0E
#define SMARTRF_SETTING_XOSC1            0x03

// Pins
#define TX_PIN          4
#define RESET_PIN       7
#define SS_PIN          10

#define R_BIT           0x80

// CC1120 registers
#define IOCFG3          0x00
#define IOCFG2          0x01
#define IOCFG1          0x02
#define IOCFG0          0x03
#define SYNC3           0x04
#define SYNC2           0x05
#define SYNC1           0x06
#define SYNC0           0x07
#define SYNC_CFG1       0x08
#define SYNC_CFG0       0x09
#define DEVIATION_M     0x0A
#define MODCFG_DEV_E    0x0B
#define DCFILT_CFG      0x0C
#define PREAMBLE_CFG1   0x0D
#define PREAMBLE_CFG0   0x0E
#define FREQ_IF_CFG     0x0F
#define IQIC            0x10
#define CHAN_BW         0x11
#define MDMCFG1         0x12
#define MDMCFG0         0x13
#define SYMBOL_RATE2    0x14
#define SYMBOL_RATE1    0x15
#define SYMBOL_RATE0    0x16
#define AGC_REF         0x17
#define AGC_CS_THR      0x18
#define AGC_GAIN_ADJUST 0x19
#define AGC_CFG3        0x1A
#define AGC_CFG2        0x1B
#define AGC_CFG1        0x1C
#define AGC_CFG0        0x1D
#define FIFO_CFG        0x1E
#define DEV_ADDR        0x1F
#define SETTLING_CFG    0x20
#define FS_CFG          0x21
#define WOR_CFG1        0x22
#define WOR_CFG0        0x23
#define WOR_EVENT0_MSB  0x24
#define WOR_EVENT0_LSB  0x25
#define PKT_CFG2        0x26
#define PKT_CFG1        0x27
#define PKT_CFG0        0x28
#define RFEND_CFG1      0x29
#define RFEND_CFG2      0x2A
#define PA_CFG2         0x2B
#define PA_CFG1         0x2C
#define PA_CFG0         0x2D
#define PKT_LEN         0x2E
#define EXT_ADDR        0x2F
#define FIFO            0x3F

// Extended register space
#define IF_MIX_CFG        0x00
#define FREQOFF_CFG       0x01
#define FREQ2             0x0C
#define FREQ1             0x0D
#define FREQ0             0x0E
#define FS_DIG1           0x12
#define FS_DIG0           0x13
#define FS_CAL1           0x16
#define FS_CAL0           0x17
#define FS_DIVTWO         0x19
#define FS_DSM0           0x1B
#define FS_DVC0           0x1D
#define FS_PFD            0x1F
#define FS_PRE            0x20
#define FS_REG_DIV_CML    0x21
#define FS_SPARE          0x22
#define FS_VCO0           0x27
#define XOSC5             0x32
#define XOSC1             0x36
#define RSSI1             0x71
#define RSSI0             0x72
#define MARCSTATE         0x73
#define PARTNUMBER        0x8F
#define PARTVERSION       0x90
#define SERIAL_STATUS     0x91
#define MODEM_STATUS1     0x92
#define MODEM_STATUS0     0x93
#define MARC_STATUS1      0x94
#define MARC_STATUS0      0x95
#define NUM_RXBYTES       0xD7
#define FIFO_NUM_RXBYTES  0xD9

// CC1120 command strobes
#define SRES            0x30
#define SFSTXON         0x31
#define SXOFF           0x32
#define SCAL            0x33
#define SRX             0x34
#define STX             0x35
#define SIDLE           0x36
#define SAFC            0x37
#define SWOR            0x38
#define SPWD            0x39
#define SFRX            0x3A
#define SFTX            0x3B
#define SWORRST         0x3C
#define SNOP            0x3D

#endif // CC1120_H