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nRF24L01.h
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/*
* nRF24L01.c
*
Created: 01.11.2013 15:09:29
* Author: Vadim Kulakov, vad7@yahoo.com
*/
#define NRF24_PORT PORTA
#define NRF24_DDR DDRA
#define NRF24_IN PINA
#define NRF24_CE (1<<PORTA2)
#define NRF24_SET_CE_HI NRF24_PORT |= NRF24_CE
#define NRF24_SET_CE_LOW NRF24_PORT &= ~NRF24_CE
#define NRF24_CSN (1<<PORTA3)
#define NRF24_SET_CSN_HI NRF24_PORT |= NRF24_CSN
#define NRF24_SET_CSN_LOW NRF24_PORT &= ~NRF24_CSN
#define NRF24_SCK (1<<PORTA4)
#define NRF24_MOSI (1<<PORTA5) // USI DO
#define NRF24_MISO (1<<PORTA6) // USI DI
//#define NRF24_IRQ (1<<PORTA1)
//#define NRF24_RF_CHANNEL 2 // default
#define NRF24_RATE 1 // 0 - 250kbps, 1 - 1Mbps, 2 - 2Mbps
#define NRF24_ADDRESS_LEN 3 // 3..5 bytes
#define NRF24_PAYLOAD_LEN 4 // MUST be EQUAL or GREATER than Address field width!!
#define NRF24_CONFIG (1<<NRF24_BIT_EN_CRC) | (1<<NRF24_BIT_CRCO) | (1<<NRF24_BIT_MASK_RX_DR)|(1<<NRF24_BIT_MASK_TX_DS)|(1<<NRF24_BIT_MASK_MAX_RT) // Enable CRC, CRC 2 bytes, IRQs disabled
uint8_t NRF24_Buffer[NRF24_PAYLOAD_LEN]; // MUST be EQUAL or GREATER than Address field width!!!
/* Register map table */
#define NRF24_REG_CONFIG 0x00
#define NRF24_REG_EN_AA 0x01
#define NRF24_REG_EN_RXADDR 0x02
#define NRF24_REG_SETUP_AW 0x03
#define NRF24_REG_SETUP_RETR 0x04
#define NRF24_REG_RF_CH 0x05
#define NRF24_REG_RF_SETUP 0x06
#define NRF24_REG_STATUS 0x07
#define NRF24_REG_OBSERVE_TX 0x08
#define NRF24_REG_RPD 0x09
#define NRF24_REG_RX_ADDR_P0 0x0A
#define NRF24_REG_RX_ADDR_P1 0x0B
#define NRF24_REG_RX_ADDR_P2 0x0C
#define NRF24_REG_RX_ADDR_P3 0x0D
#define NRF24_REG_RX_ADDR_P4 0x0E
#define NRF24_REG_RX_ADDR_P5 0x0F
#define NRF24_REG_TX_ADDR 0x10
#define NRF24_REG_RX_PW_P0 0x11
#define NRF24_REG_RX_PW_P1 0x12
#define NRF24_REG_RX_PW_P2 0x13
#define NRF24_REG_RX_PW_P3 0x14
#define NRF24_REG_RX_PW_P4 0x15
#define NRF24_REG_RX_PW_P5 0x16
#define NRF24_REG_FIFO_STATUS 0x17
#define NRF24_REG_DYNPD 0x1C
#define NRF24_REG_FEATURE 0x1D
/* Bit Mnemonics */
#define NRF24_BIT_MASK_RX_DR 6
#define NRF24_BIT_MASK_TX_DS 5
#define NRF24_BIT_MASK_MAX_RT 4
#define NRF24_BIT_EN_CRC 3
#define NRF24_BIT_CRCO 2
#define NRF24_BIT_PWR_UP 1
#define NRF24_BIT_PRIM_RX 0
#define NRF24_BIT_ARD 4
#define NRF24_BIT_ARC 0
#define NRF24_BIT_CONT_WAVE 7
#define NRF24_BIT_RF_DR_LOW 5
#define NRF24_BIT_PLL_LOCK 4
#define NRF24_BIT_RF_DR_HIGH 3
#define NRF24_BIT_RX_DR 6
#define NRF24_BIT_TX_DS 5
#define NRF24_BIT_MAX_RT 4
#define NRF24_BIT_RX_P_NO 1
#define NRF24_BIT_F_TX_FULL 0
#define NRF24_BIT_PLOS_CNT 4
#define NRF24_BIT_ARC_CNT 0
#define NRF24_BIT_TX_REUSE 6
#define NRF24_BIT_TX_FULL 5
#define NRF24_BIT_TX_EMPTY 4
#define NRF24_BIT_RX_FULL 1
#define NRF24_BIT_RX_EMPTY 0
#define NRF24_BIT_EN_DPL 2
#define NRF24_BIT_EN_ACK_PAY 1
#define NRF24_BIT_EN_DYN_ACK 0
/* SPI commands */
#define NRF24_CMD_R_REGISTER 0x00
#define NRF24_CMD_W_REGISTER 0x20
#define NRF24_CMD_REGISTER_MASK 0x1F
#define NRF24_CMD_R_RX_PAYLOAD 0x61
#define NRF24_CMD_W_TX_PAYLOAD 0xA0
#define NRF24_CMD_FLUSH_TX 0xE1
#define NRF24_CMD_FLUSH_RX 0xE2
#define NRF24_CMD_REUSE_TX_PL 0xE3
#define NRF24_CMD_R_RX_PL_WID 0x60
#define NRF24_CMD_W_ACK_PAYLOAD 0xA8
#define NRF24_CMD_W_TX_PAYLOAD_NOACK 0xB0
#define NRF24_CMD_NOP 0xFF
#define NRF24_ReceiveMode (1<<NRF24_BIT_PRIM_RX)
#define NRF24_TransmitMode 0
const uint8_t NRF24_INIT_DATA[] PROGMEM = {
// NRF24_CMD_W_REGISTER | NRF24_REG_FEATURE, (0<<NRF24_BIT_EN_DPL) | (0<<NRF24_BIT_EN_ACK_PAY) | (0<<NRF24_BIT_EN_DYN_ACK), // Dynamic Payload Length, Enables Payload with ACK
// NRF24_CMD_W_REGISTER | NRF24_REG_DYNPD, 0b000000, // Dynamic payload
// NRF24_CMD_W_REGISTER | NRF24_REG_RF_CH, NRF24_RF_CHANNEL, // RF channel
NRF24_CMD_W_REGISTER | NRF24_REG_SETUP_AW, NRF24_ADDRESS_LEN - 2, // address length
// NRF24_CMD_W_REGISTER | NRF24_REG_SETUP_RETR,(0b0000<<NRF24_BIT_ARD) | (0b1111<<NRF24_BIT_ARC), // Auto Retransmit Delay, Re-Transmit on fail
NRF24_CMD_W_REGISTER | NRF24_REG_RF_SETUP, 0b111 | (NRF24_RATE == 0 ? (1<<NRF24_BIT_RF_DR_LOW)|(0<<NRF24_BIT_RF_DR_HIGH) : NRF24_RATE == 2 ? (0<<NRF24_BIT_RF_DR_LOW)|(1<<NRF24_BIT_RF_DR_HIGH) : 0), // Data rate: Max power (0b111)
NRF24_CMD_W_REGISTER | NRF24_REG_EN_AA, 0b000001, // Enable ‘Auto Acknowledgment’ for pipes
NRF24_CMD_W_REGISTER | NRF24_REG_EN_RXADDR, 0b000001, // Enable data pipes
NRF24_CMD_W_REGISTER | NRF24_REG_RX_PW_P0, NRF24_PAYLOAD_LEN
};
const uint8_t NRF24_BASE_ADDR[] PROGMEM = { 0xC8, 0xC8 }; // Address MSBs: 2..3
uint8_t SPI_WriteReadByte(uint8_t data) {
USIDR = data;
USISR = (1<<USIOIF); // clear overflow flag
do {
USICR = (1<<USIWM0) | (1<<USICS1) | (1<<USICLK) | (1<<USITC);
} while((USISR & (1<<USIOIF)) == 0);
return USIDR;
}
uint8_t NRF24_ReadRegister(uint8_t reg)
{
NRF24_SET_CSN_LOW;
SPI_WriteReadByte(NRF24_CMD_R_REGISTER | (NRF24_CMD_REGISTER_MASK & reg));
uint8_t result = SPI_WriteReadByte(NRF24_CMD_NOP);
NRF24_SET_CSN_HI;
return result;
}
void NRF24_ReadArray(uint8_t cmd, uint8_t *array, uint8_t len)
{
NRF24_SET_CSN_LOW;
SPI_WriteReadByte(cmd);
while(len-- > 0) *array++ = SPI_WriteReadByte(NRF24_CMD_NOP);
NRF24_SET_CSN_HI;
}
void NRF24_WriteByte(uint8_t cmd, uint8_t value)
{
NRF24_SET_CSN_LOW;
SPI_WriteReadByte(cmd);
SPI_WriteReadByte(value);
NRF24_SET_CSN_HI;
}
void NRF24_WriteArray(int8_t cmd, uint8_t *array, uint8_t len)
{
NRF24_SET_CSN_LOW;
SPI_WriteReadByte(cmd);
while(len-- > 0) SPI_WriteReadByte(*array++);
NRF24_SET_CSN_HI;
}
uint8_t NRF24_SendCommand(uint8_t cmd) // Send command & receive status
{
NRF24_SET_CSN_LOW;
uint8_t result = SPI_WriteReadByte(cmd);
NRF24_SET_CSN_HI;
return result;
}
void NRF24_SetMode(uint8_t mode) // Set mode in CONFIG reg
{
NRF24_WriteByte(NRF24_CMD_W_REGISTER | NRF24_REG_CONFIG, NRF24_CONFIG | (1<<NRF24_BIT_PWR_UP) | mode);
if(mode & NRF24_ReceiveMode) { // Receive mode
//NRF24_SendCommand(NRF24_CMD_FLUSH_RX);
//NRF24_WriteByte(NRF24_CMD_W_REGISTER | NRF24_REG_STATUS, (1<<NRF24_BIT_RX_DR) | (1<<NRF24_BIT_TX_DS) | (1<<NRF24_BIT_MAX_RT)); // clear status
NRF24_SET_CE_HI; // start receiving
}
}
uint8_t NRF24_Receive(uint8_t *payload) // Receive in payload, return data pipe number + 1 if success
{
uint8_t pipe = 0, st;
if((st = NRF24_SendCommand(NRF24_CMD_NOP)) & (1<<NRF24_BIT_RX_DR)) {
xReadPayload:
NRF24_ReadArray(NRF24_CMD_R_RX_PAYLOAD, payload, NRF24_PAYLOAD_LEN);
NRF24_WriteByte(NRF24_CMD_W_REGISTER | NRF24_REG_STATUS, (1<<NRF24_BIT_RX_DR) | (1<<NRF24_BIT_TX_DS) | (1<<NRF24_BIT_MAX_RT)); // clear status
pipe = ((st >> NRF24_BIT_RX_P_NO) & 0b111) + 1;
} else if((NRF24_ReadRegister(NRF24_REG_FIFO_STATUS) & (1<<NRF24_BIT_RX_EMPTY)) == 0) goto xReadPayload;
return pipe;
}
uint8_t NRF24_Transmit(uint8_t *payload) // Transmit payload, return 0 if success, 1 - max retransmit count reached, 2 - module not response.
{
NRF24_SET_CE_LOW;
NRF24_SendCommand(NRF24_CMD_FLUSH_TX);
NRF24_WriteByte(NRF24_CMD_W_REGISTER | NRF24_REG_STATUS, (1<<NRF24_BIT_RX_DR) | (1<<NRF24_BIT_TX_DS) | (1<<NRF24_BIT_MAX_RT)); // clear status
NRF24_WriteArray(NRF24_CMD_W_TX_PAYLOAD, payload, NRF24_PAYLOAD_LEN);
NRF24_SET_CE_HI; // Start transmission
uint8_t st = 0, i = 0;
do {
#if NRF24_RATE == 0
Delay10us(35);
#else
Delay10us(10);
#endif
st = NRF24_SendCommand(NRF24_CMD_NOP);
if(st & ((1<<NRF24_BIT_MAX_RT) | (1<<NRF24_BIT_TX_DS))) break; // stop if sent or max retransmit reached
} while(++i);
return i == 0 ? 2 : !(st & (1<<NRF24_BIT_TX_DS));
}
uint8_t NRF24_SetAddresses(uint8_t addr_LSB) // Set addresses: NRF24_BASE_ADDR + addr_LSB, return 1 if success
{
NRF24_Buffer[0] = addr_LSB;
memcpy_P(NRF24_Buffer + 1, NRF24_BASE_ADDR, sizeof(NRF24_BASE_ADDR)/sizeof(NRF24_BASE_ADDR[0]));
NRF24_WriteArray(NRF24_CMD_W_REGISTER | NRF24_REG_RX_ADDR_P0, NRF24_Buffer, NRF24_ADDRESS_LEN);
NRF24_WriteArray(NRF24_CMD_W_REGISTER | NRF24_REG_TX_ADDR, NRF24_Buffer, NRF24_ADDRESS_LEN);
NRF24_ReadArray(NRF24_CMD_R_REGISTER | NRF24_REG_TX_ADDR, NRF24_Buffer, NRF24_ADDRESS_LEN);
return NRF24_Buffer[0] == addr_LSB;
}
void NRF24_Powerdown(void)
{
NRF24_SET_CE_LOW;
NRF24_WriteByte(NRF24_CMD_W_REGISTER | NRF24_REG_CONFIG, NRF24_CONFIG); // Power down
}
void NRF24_init(uint8_t channel) // After init transmit must be delayed
{
NRF24_SET_CSN_HI;
uint8_t i = 0, c, v;
do {
c = pgm_read_byte(&NRF24_INIT_DATA[i++]);
v = pgm_read_byte(&NRF24_INIT_DATA[i++]);
NRF24_WriteByte(c, v);
} while(i < sizeof(NRF24_INIT_DATA));
NRF24_WriteByte(NRF24_CMD_W_REGISTER | NRF24_REG_RF_CH, channel);
}