Communication between NRF24L01 and PIC18F45K22



  • Hi,
    I am trying to get wireless communication implemented on a project I am working on. I'm using two PIC18F45K22 and two Nordic nRF24L01's. I'm having trouble on making two NRF24L01 communicate with each other.

    I've included the code below, any help is much appreciated.

    Transmitter:
    #include "nrf24l01.h"
    #define _XTAL_FREQ 16000000
    void nrf24l01_initialize(unsigned char config,
    unsigned char opt_rx_active_mode,
    unsigned char en_aa,
    unsigned char en_rxaddr,
    unsigned char setup_aw,
    unsigned char setup_retr,
    unsigned char rf_ch,
    unsigned char rf_setup,
    unsigned char * rx_addr_p0,
    unsigned char * rx_addr_p1,
    unsigned char rx_addr_p2,
    unsigned char rx_addr_p3,
    unsigned char rx_addr_p4,
    unsigned char rx_addr_p5,
    unsigned char * tx_addr,
    unsigned char rx_pw_p0,
    unsigned char rx_pw_p1,
    unsigned char rx_pw_p2,
    unsigned char rx_pw_p3,
    unsigned char rx_pw_p4,
    unsigned char rx_pw_p5)
    {
    unsigned char data[5];

    data[0] = en_aa;
    nrf24l01_write_register(nrf24l01_EN_AA, data, 1);
    
    data[0] = en_rxaddr;
    nrf24l01_write_register(nrf24l01_EN_RXADDR, data, 1);
    
    data[0] = setup_aw;
    nrf24l01_write_register(nrf24l01_SETUP_AW, data, 1);
    
    data[0] = setup_retr;
    nrf24l01_write_register(nrf24l01_SETUP_RETR, data, 1);
    
    data[0] = rf_ch;
    nrf24l01_write_register(nrf24l01_RF_CH, data, 1);
    
    data[0] = rf_setup;
    nrf24l01_write_register(nrf24l01_RF_SETUP, data, 1);
    
    if(rx_addr_p0 != NULL)
    	nrf24l01_set_rx_addr(rx_addr_p0, 5, 0);
    else
    {
    	data[0] = nrf24l01_RX_ADDR_P0_B0_DEFAULT_VAL;
    	data[1] = nrf24l01_RX_ADDR_P0_B1_DEFAULT_VAL;
    	data[2] = nrf24l01_RX_ADDR_P0_B2_DEFAULT_VAL;
    	data[3] = nrf24l01_RX_ADDR_P0_B3_DEFAULT_VAL;
    	data[4] = nrf24l01_RX_ADDR_P0_B4_DEFAULT_VAL;
    	
    	nrf24l01_set_rx_addr(data, 5, 0);
    }
    
    if(rx_addr_p1 != NULL)
    	nrf24l01_set_rx_addr(rx_addr_p1, 5, 1);
    else
    {
    	data[0] = nrf24l01_RX_ADDR_P1_B0_DEFAULT_VAL;
    	data[1] = nrf24l01_RX_ADDR_P1_B1_DEFAULT_VAL;
    	data[2] = nrf24l01_RX_ADDR_P1_B2_DEFAULT_VAL;
    	data[3] = nrf24l01_RX_ADDR_P1_B3_DEFAULT_VAL;
    	data[4] = nrf24l01_RX_ADDR_P1_B4_DEFAULT_VAL;
    	
    	nrf24l01_set_rx_addr(data, 5, 1);
    }
    
    data[0] = rx_addr_p2;
    nrf24l01_set_rx_addr(data, 1, 2);
    
    data[0] = rx_addr_p3;
    nrf24l01_set_rx_addr(data, 1, 3);
    
    data[0] = rx_addr_p4;
    nrf24l01_set_rx_addr(data, 1, 4);
    
    data[0] = rx_addr_p5;
    nrf24l01_set_rx_addr(data, 1, 5);
    
    if(tx_addr != NULL)
    	nrf24l01_set_tx_addr(tx_addr, 5);
    else
    {
    	data[0] = nrf24l01_TX_ADDR_B0_DEFAULT_VAL;
    	data[1] = nrf24l01_TX_ADDR_B1_DEFAULT_VAL;
    	data[2] = nrf24l01_TX_ADDR_B2_DEFAULT_VAL;
    	data[3] = nrf24l01_TX_ADDR_B3_DEFAULT_VAL;
    	data[4] = nrf24l01_TX_ADDR_B4_DEFAULT_VAL;
    	
    	nrf24l01_set_tx_addr(data, 5);
    }
    
    data[0] = rx_pw_p0;
    nrf24l01_write_register(nrf24l01_RX_PW_P0, data, 1);
    
    data[0] = rx_pw_p1;
    nrf24l01_write_register(nrf24l01_RX_PW_P1, data, 1);
    
    data[0] = rx_pw_p2;
    nrf24l01_write_register(nrf24l01_RX_PW_P2, data, 1);
    
    data[0] = rx_pw_p3;
    nrf24l01_write_register(nrf24l01_RX_PW_P3, data, 1);
    
    data[0] = rx_pw_p4;
    nrf24l01_write_register(nrf24l01_RX_PW_P4, data, 1);
    
    data[0] = rx_pw_p5;
    nrf24l01_write_register(nrf24l01_RX_PW_P5, data, 1);
    
    if((config & nrf24l01_CONFIG_PWR_UP) != 0)
    	nrf24l01_power_up_param(opt_rx_active_mode, config);
    else
    	nrf24l01_power_down_param(config);
    

    }

    void nrf24l01_initialize_debug(bool rx, unsigned char p0_payload_width, bool enable_auto_ack)
    {
    unsigned char config;
    unsigned char en_aa;

    config = nrf24l01_CONFIG_DEFAULT_VAL | nrf24l01_CONFIG_PWR_UP;
    
    if(enable_auto_ack != false)
    	en_aa = nrf24l01_EN_AA_ENAA_P0;
    else
    	en_aa = nrf24l01_EN_AA_ENAA_NONE;
    
    if(rx == true)
    	config = config | nrf24l01_CONFIG_PRIM_RX;
    	
    nrf24l01_initialize(config, 
    					true,
    					en_aa, 
    					nrf24l01_EN_RXADDR_DEFAULT_VAL, 
    					nrf24l01_SETUP_AW_DEFAULT_VAL, 
    					nrf24l01_SETUP_RETR_DEFAULT_VAL, 
    					nrf24l01_RF_CH_DEFAULT_VAL, 
    					nrf24l01_RF_SETUP_DEFAULT_VAL,  
    					NULL, 
    					NULL, 
    					nrf24l01_RX_ADDR_P2_DEFAULT_VAL, 
    					nrf24l01_RX_ADDR_P3_DEFAULT_VAL, 
    					nrf24l01_RX_ADDR_P4_DEFAULT_VAL, 
    					nrf24l01_RX_ADDR_P5_DEFAULT_VAL, 
    					NULL, 
    					p0_payload_width, 
    					nrf24l01_RX_PW_P1_DEFAULT_VAL, 
    					nrf24l01_RX_PW_P2_DEFAULT_VAL, 
    					nrf24l01_RX_PW_P3_DEFAULT_VAL, 
    					nrf24l01_RX_PW_P4_DEFAULT_VAL, 
    					nrf24l01_RX_PW_P5_DEFAULT_VAL);
    

    }

    void nrf24l01_initialize_debug_lite(bool rx, unsigned char p0_payload_width)
    {
    unsigned char config;

    config = nrf24l01_CONFIG_DEFAULT_VAL;
    
    if(rx != false)
    	config |= nrf24l01_CONFIG_PRIM_RX;
    	
    nrf24l01_write_register(nrf24l01_RX_PW_P0, &p0_payload_width, 1);
    nrf24l01_power_up_param(true, config);
    

    }

    void nrf24l01_power_up(bool rx_active_mode)
    {
    unsigned char config;

    nrf24l01_read_register(nrf24l01_CONFIG, &config, 1);
    
    if((config & nrf24l01_CONFIG_PWR_UP) != 0)
    	return;
    	
    config |= nrf24l01_CONFIG_PWR_UP;
    
    nrf24l01_write_register(nrf24l01_CONFIG, &config, 1);
    
    __delay_ms(1.5);
    
    if((config & nrf24l01_CONFIG_PRIM_RX) == 0)
    	nrf24l01_clear_ce();
    else
    {
    	if(rx_active_mode != false)
    		nrf24l01_set_ce();
    	else
    		nrf24l01_clear_ce();
    }
    

    }

    void nrf24l01_power_up_param(bool rx_active_mode, unsigned char config)
    {
    unsigned char test, test2;

    config |= nrf24l01_CONFIG_PWR_UP;
    
    nrf24l01_write_register(nrf24l01_CONFIG, &config, 1);
    
        __delay_us(1.5);
    
    if((config & nrf24l01_CONFIG_PRIM_RX) == 0)
    	nrf24l01_clear_ce();
    else
    {
    	if(rx_active_mode != false)
    		nrf24l01_set_ce();
    	else
    		nrf24l01_clear_ce();
    }
    

    }

    void nrf24l01_power_down()
    {
    unsigned char config;

    nrf24l01_read_register(nrf24l01_CONFIG, &config, 1);
    
    if((config & nrf24l01_CONFIG_PWR_UP) == 0)
    	return;
    
    config &= (~nrf24l01_CONFIG_PWR_UP);
    
    nrf24l01_write_register(nrf24l01_CONFIG, &config, 1);
    
    nrf24l01_clear_ce();
    

    }

    void nrf24l01_power_down_param(unsigned char config)
    {
    config &= (~nrf24l01_CONFIG_PWR_UP);

    nrf24l01_write_register(nrf24l01_CONFIG, &config, 1);
    
    nrf24l01_clear_ce();
    

    }

    void nrf24l01_set_as_rx(bool rx_active_mode)
    {
    unsigned char config;
    unsigned char status;

    status = nrf24l01_read_register(0, &config, 1);
    
    if((config & nrf24l01_CONFIG_PRIM_RX) != 0)
    	return;
    
    config |= nrf24l01_CONFIG_PRIM_RX;
    
    nrf24l01_write_register(nrf24l01_CONFIG, &config, 1);
    
    if(rx_active_mode != false)
    	nrf24l01_set_ce();
    else
    	nrf24l01_clear_ce();
    

    }

    void nrf24l01_set_as_rx_param(bool rx_active_mode, unsigned char config)
    {
    config |= nrf24l01_CONFIG_PRIM_RX;

    if((config & nrf24l01_CONFIG_PWR_UP) != 0)
    	nrf24l01_power_up_param(rx_active_mode, config);
    else
    	nrf24l01_power_down_param(config);
    

    }

    void nrf24l01_rx_standby_to_active()
    {
    nrf24l01_set_ce();
    }

    void nrf24l01_rx_active_to_standby()
    {
    nrf24l01_clear_ce();
    }

    void nrf24l01_set_as_tx()
    {
    unsigned char config;

    nrf24l01_read_register(nrf24l01_CONFIG, &config, 1);
    
    if((config & nrf24l01_CONFIG_PRIM_RX) == 0)
    	return;
    
    config &= (~nrf24l01_CONFIG_PRIM_RX);
    
    nrf24l01_write_register(nrf24l01_CONFIG, &config, 1);
    
    nrf24l01_clear_ce();
    

    }

    void nrf24l01_set_as_tx_param(unsigned char config)
    {
    config &= ~(nrf24l01_CONFIG_PRIM_RX);

    if((config & nrf24l01_CONFIG_PWR_UP) != 0)
    	nrf24l01_power_up_param(false, config);
    else
    	nrf24l01_power_down_param(config);
    

    }

    unsigned char nrf24l01_write_register(unsigned char regnumber, unsigned char * data, unsigned int len)
    {
    return nrf24l01_execute_command(nrf24l01_W_REGISTER | (regnumber & nrf24l01_W_REGISTER_DATA), data, len, false);
    }

    unsigned char nrf24l01_read_register(unsigned char regnumber, unsigned char * data, unsigned int len)
    {
    return nrf24l01_execute_command(regnumber & nrf24l01_R_REGISTER_DATA, data, len, true);
    }

    unsigned char nrf24l01_write_tx_payload(unsigned char * data, unsigned int len, bool transmit)
    {
    unsigned char status;

    status = nrf24l01_execute_command(nrf24l01_W_TX_PAYLOAD, data, len, false);
    
    if(transmit == true)
    	nrf24l01_transmit();
    
    return status;
    

    }

    unsigned char nrf24l01_read_rx_payload(unsigned char * data, unsigned int len)
    {
    unsigned char status;

    nrf24l01_clear_ce();
    status = nrf24l01_execute_command(nrf24l01_R_RX_PAYLOAD, data, len, true);
    nrf24l01_set_ce();
    
    return status;
    

    }

    unsigned char nrf24l01_flush_tx()
    {
    return nrf24l01_execute_command(nrf24l01_FLUSH_TX, NULL, 0, true);
    }

    unsigned char nrf24l01_flush_rx()
    {
    return nrf24l01_execute_command(nrf24l01_FLUSH_RX, NULL, 0, true);
    }

    unsigned char nrf24l01_reuse_tx_pl()
    {
    return nrf24l01_execute_command(nrf24l01_REUSE_TX_PL, NULL, 0, true);
    }

    unsigned char nrf24l01_nop()
    {
    return nrf24l01_execute_command(nrf24l01_NOP, NULL, 0, true);
    }

    void nrf24l01_transmit()
    {
    nrf24l01_set_ce();
    __delay_us(10);
    nrf24l01_clear_ce();
    }

    void nrf24l01_clear_ce()
    {
    nrf24l01_CE_IOREGISTER &= ~nrf24l01_CE_PINMASK;
    }

    void nrf24l01_set_ce()
    {
    nrf24l01_CE_IOREGISTER |= nrf24l01_CE_PINMASK;
    }

    bool nrf24l01_ce_pin_active()
    {
    if((nrf24l01_CE_IOREGISTER & nrf24l01_CE_PINMASK) != 0)
    return true;
    else
    return false;
    }

    void nrf24l01_clear_csn()
    {
    nrf24l01_CSN_IOREGISTER &= ~nrf24l01_CSN_PINMASK;
    }

    void nrf24l01_set_csn()
    {
    nrf24l01_CSN_IOREGISTER |= nrf24l01_CSN_PINMASK;
    }

    bool nrf24l01_csn_pin_active()
    {
    if((nrf24l01_CSN_IOREGISTER & nrf24l01_CSN_PINMASK) != 0)
    return true;
    else
    return false;
    }

    void nrf24l01_set_tx_addr(unsigned char * address, unsigned int len)
    {
    nrf24l01_write_register(nrf24l01_TX_ADDR, address, len);
    }

    void nrf24l01_set_rx_addr(unsigned char * address, unsigned int len, unsigned char rxpipenum)
    {
    if(rxpipenum > 5)
    return;

    nrf24l01_write_register(nrf24l01_RX_ADDR_P0 + rxpipenum, address, len);
    

    }

    void nrf24l01_set_rx_pw(unsigned char payloadwidth, unsigned char rxpipenum)
    {
    if((rxpipenum > 5) || (payloadwidth > 32))
    return;

    nrf24l01_write_register(nrf24l01_RX_PW_P0 + rxpipenum, &payloadwidth, 1);
    

    }

    unsigned char nrf24l01_get_rx_pw(unsigned char rxpipenum)
    {
    unsigned char data;

    if((rxpipenum > 5))
    	return 0;
    	
    nrf24l01_read_register(nrf24l01_RX_PW_P0 + rxpipenum, &data, 1);
    
    return data;
    

    }

    unsigned char nrf24l01_get_config()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_CONFIG, &data, 1);
    
    return data;
    

    }

    void nrf24l01_set_config(unsigned char config)
    {
    nrf24l01_write_register(nrf24l01_CONFIG, &config, 1);
    }

    unsigned char nrf24l01_get_rf_ch()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_RF_CH, &data, 1);
    
    return data;
    

    }

    void nrf24l01_set_rf_ch(unsigned char channel)
    {
    unsigned char data;

    data = channel & ~nrf24l01_RF_CH_RESERVED;
    
    nrf24l01_write_register(nrf24l01_RF_CH, &data, 1);
    

    }

    unsigned char nrf24l01_get_observe_tx()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_OBSERVE_TX, &data, 1);
    
    return data;
    

    }

    unsigned char nrf24l01_get_plos_cnt()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_OBSERVE_TX, &data, 1);
    
    return ((data & nrf24l01_OBSERVE_TX_PLOS_CNT) >> 4);
    

    }

    void nrf24l01_clear_plos_cnt()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_RF_CH, &data, 1);
    nrf24l01_write_register(nrf24l01_RF_CH, &data, 1);
    

    }

    void nrf24l01_clear_plos_cnt_param(unsigned char rf_ch)
    {
    nrf24l01_write_register(nrf24l01_RF_CH, &rf_ch, 1);
    }

    unsigned char nrf24l01_get_arc_cnt()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_OBSERVE_TX, &data, 1);
    
    return (data & nrf24l01_OBSERVE_TX_ARC_CNT);
    

    }

    bool nrf24l01_aa_enabled(unsigned char rxpipenum)
    {
    unsigned char data;

    if(rxpipenum > 5)
    	return false;
    	
    nrf24l01_read_register(nrf24l01_EN_AA, &data, 1);
    
    return (data & (0x01 << rxpipenum));
    

    }

    void nrf24l01_aa_enable(unsigned char rxpipenum)
    {
    unsigned char data;

    if(rxpipenum > 5)
    	return;
    	
    nrf24l01_read_register(nrf24l01_EN_AA, &data, 1);
    
    if((data & (0x01 << rxpipenum)) != 0)
    	return;
    
    data |= 0x01 << rxpipenum;
    	
    nrf24l01_write_register(nrf24l01_EN_AA, &data, 1);
    

    }

    void nrf24l01_aa_disable(unsigned char rxpipenum)
    {
    unsigned char data;

    if(rxpipenum > 5)
    	return;
    	
    nrf24l01_read_register(nrf24l01_EN_AA, &data, 1);
    
    if((data & (0x01 << rxpipenum)) == 0)
    	return;
    
    data &= ~(0x01 << rxpipenum);
    	
    nrf24l01_write_register(nrf24l01_EN_AA, &data, 1);
    

    }

    bool nrf24l01_rx_pipe_enabled(unsigned char rxpipenum)
    {
    unsigned char data;

    if((rxpipenum > 5))
    	return false;
    	
    nrf24l01_read_register(nrf24l01_EN_RXADDR, &data, 1);
    
    return (data & (0x01 << rxpipenum));
    

    }

    void nrf24l01_rx_pipe_enable(unsigned char rxpipenum)
    {
    unsigned char data;

    if(rxpipenum > 5)
    	return;
    	
    nrf24l01_read_register(nrf24l01_EN_RXADDR, &data, 1);
    
    if((data & (0x01 << rxpipenum)) != 0)
    	return;
    
    data |= 0x01 << rxpipenum;
    	
    nrf24l01_write_register(nrf24l01_EN_RXADDR, &data, 1);
    

    }

    void nrf24l01_rx_pipe_disable(unsigned char rxpipenum)
    {
    unsigned char data;

    if(rxpipenum > 5)
    	return;
    	
    nrf24l01_read_register(nrf24l01_EN_RXADDR, &data, 1);
    
    if((data & (0x01 << rxpipenum)) == 0)
    	return;
    
    data &= ~(0x01 << rxpipenum);
    	
    nrf24l01_write_register(nrf24l01_EN_RXADDR, &data, 1);
    

    }

    bool nrf24l01_cd_active()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_CD, &data, 1);
    
    return data;
    

    }

    unsigned char nrf24l01_get_fifo_status()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_FIFO_STATUS, &data, 1);
    
    return data;
    

    }

    unsigned char nrf24l01_get_status()
    {
    return nrf24l01_nop();
    }

    bool nrf24l01_fifo_tx_reuse()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_FIFO_STATUS, &data, 1);
    
    return (bool)(data & nrf24l01_FIFO_STATUS_TX_REUSE);
    

    }

    bool nrf24l01_fifo_tx_full()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_FIFO_STATUS, &data, 1);
    
    return (bool)(data & nrf24l01_FIFO_STATUS_TX_FULL);
    

    }

    bool nrf24l01_fifo_tx_empty()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_FIFO_STATUS, &data, 1);
    
    return (bool)(data & nrf24l01_FIFO_STATUS_TX_EMPTY);
    

    }

    bool nrf24l01_fifo_rx_full()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_FIFO_STATUS, &data, 1);
    
    return (bool)(data & nrf24l01_FIFO_STATUS_RX_FULL);
    

    }

    bool nrf24l01_fifo_rx_empty()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_FIFO_STATUS, &data, 1);
    
    return (bool)(data & nrf24l01_FIFO_STATUS_RX_EMPTY);
    

    }

    bool nrf24l01_irq_pin_active()
    {
    if((nrf24l01_IRQ_IOREGISTER & nrf24l01_IRQ_PINMASK) != 0)
    return false;
    else
    return true;
    }

    bool nrf24l01_irq_rx_dr_active()
    {
    return (nrf24l01_get_status() & nrf24l01_STATUS_RX_DR);
    }

    bool nrf24l01_irq_tx_ds_active()
    {
    return (nrf24l01_get_status() & nrf24l01_STATUS_TX_DS);
    }

    bool nrf24l01_irq_max_rt_active()
    {
    return (nrf24l01_get_status() & nrf24l01_STATUS_MAX_RT);
    }

    void nrf24l01_irq_clear_all()
    {
    unsigned char data = nrf24l01_STATUS_RX_DR | nrf24l01_STATUS_TX_DS | nrf24l01_STATUS_MAX_RT;

    nrf24l01_write_register(nrf24l01_STATUS, &data, 1); 
    

    }

    void nrf24l01_irq_clear_rx_dr()
    {
    unsigned char data = nrf24l01_STATUS_RX_DR;

    nrf24l01_write_register(nrf24l01_STATUS, &data, 1); 
    

    }

    void nrf24l01_irq_clear_tx_ds()
    {
    unsigned char data = nrf24l01_STATUS_TX_DS;

    nrf24l01_write_register(nrf24l01_STATUS, &data, 1); 
    

    }

    void nrf24l01_irq_clear_max_rt()
    {
    unsigned char data = nrf24l01_STATUS_MAX_RT;

    nrf24l01_write_register(nrf24l01_STATUS, &data, 1); 
    

    }

    unsigned char nrf24l01_get_rx_pipe()
    {
    return nrf24l01_get_rx_pipe_from_status(nrf24l01_get_status());
    }

    unsigned char nrf24l01_get_rx_pipe_from_status(unsigned char status)
    {
    return ((status & 0xE) >> 1);
    }

    void nrf24l01_clear_flush()
    {
    nrf24l01_flush_rx();
    nrf24l01_flush_tx();
    nrf24l01_irq_clear_all();
    }

    void nrf24l01_get_all_registers(unsigned char * data)
    {
    unsigned int outer;
    unsigned int inner;
    unsigned int dataloc = 0;
    unsigned char buffer[5];

    for(outer = 0; outer <= 0x17; outer++)
    {
    	nrf24l01_read_register(outer, buffer, 5);
    	
    	for(inner = 0; inner < 5; inner++)
    	{
    		if(inner >= 1 && (outer != 0x0A && outer != 0x0B && outer != 0x10))
    			break;
    			
    		data[dataloc] = buffer[inner];
    		dataloc++;
    	}
    }
    

    }

    unsigned char nrf24l01_execute_command(unsigned char instruction, unsigned char * data, unsigned int len, bool copydata)
    {
    unsigned char status;

    nrf24l01_clear_csn();
    
    status = instruction;
    nrf24l01_spi_send_read(&status, 1, true);
    nrf24l01_spi_send_read(data, len, copydata);
    
    nrf24l01_set_csn();		
    
    return status;
    

    }

    void nrf24l01_spi_send_read(unsigned char * data, unsigned int len, bool copydata)
    {
    unsigned int count;
    unsigned char tempbyte;

    for(count = 0; count < len; count++)
    {
    	if(copydata != false)
    		data[count] = spi_send_read_byte(data[count]);
    	else
    	{
    		tempbyte = data[count];
    		spi_send_read_byte(tempbyte);
    	}
    }
    

    }

    #include <plib/spi.h>
    #include <p18f452.h>

    unsigned char spi1_send_read_byte(unsigned char byte)
    {
    SSPBUF = byte;

    while(!SSP1STATbits.BF);
    
    return SSPBUF;
    

    }

    #include <stdio.h>
    #include <stdlib.h>
    #include <xc.h>
    #include "spi1.h"
    #include "nrf24l01.h"
    #include <p18F26K22.h>
    #define _XTAL_FREQ 16000000

    #pragma config FOSC = INTIO67
    #pragma config PLLCFG = OFF
    #pragma config PRICLKEN = OFF
    #pragma config FCMEN = OFF
    #pragma config PWRTEN = OFF
    #pragma config BOREN = ON
    #pragma config BORV = 220
    #pragma config WDTEN = OFF
    #pragma config WDTPS = 32768
    #pragma config CCP2MX = PORTB3
    #pragma config PBADEN = OFF
    #pragma config CCP3MX = PORTB5
    #pragma config HFOFST = OFF
    #pragma config T3CMX = PORTC0
    #pragma config P2BMX = PORTC0
    #pragma config MCLRE = EXTMCLR
    #pragma config LVP = OFF
    #pragma config XINST = OFF
    #pragma config CP0 = OFF
    #pragma config CP1 = OFF
    #pragma config CP2 = OFF
    #pragma config CP3 = OFF
    #pragma config CPB = OFF
    #pragma config CPD = OFF
    #pragma config WRT0 = ON
    #pragma config WRT1 = ON
    #pragma config WRT2 = ON
    #pragma config WRT3 = ON
    #pragma config WRTC = ON
    #pragma config WRTB = ON
    #pragma config WRTD = ON
    #pragma config EBTR0 = OFF
    #pragma config EBTR1 = OFF
    #pragma config EBTR2 = OFF
    #pragma config EBTR3 = OFF
    #pragma config EBTRB = OFF
    void Initialise(void);
    void InitialiseIO(void);
    void testingByte(unsigned char);

    void main()
    {
    unsigned char data[5]={0,0,0,0,0};
    unsigned char fifo;
    unsigned char rxPipe;

    Initialise();
    while(1){
        nrf24l01_flush_rx();
        nrf24l01_flush_tx();
        nrf24l01_irq_clear_all();
    
        while(!nrf24l01_irq_rx_dr_active()){LATAbits.LATA1=1;}
        LATAbits.LATA1=0;
    
        nrf24l01_read_rx_payload(&data, 3);
        nrf24l01_irq_clear_all();
        LATAbits.LATA2=1;
       
        while(1);
    }
    

    }

    void Initialise(){
    unsigned char data;
    InitialiseIO();
    SSPSTAT = 0xC0; //SPI Bus mode 0,0
    SSPCON1 = 0x20; //Enable SSP, Fosc/16
    nrf24l01_initialize_debug(true,3,true); //initialise 24l01 to the debug config as RX, 1 data byte, and auto-ack disabled
    LATAbits.LATA0=1;
    for (int i=0;i<25;i++)__delay_ms(20);
    LATAbits.LATA0=0;
    for (int i=0;i<25;i++)__delay_ms(20);
    }

    void InitialiseIO(){
    OSCCON=0B11110000; //sets the IRCF selecting the 16MHz INTOSC and SCS=primary clock
    OSCCON2=0B00000000; //sets MFIOSEL=0 and PRISD=0 turn off external osc drive circuit
    LATA=0;
    TRISA=0;
    TRISB0=1;
    TRISCbits.TRISC1=0;
    DDRCbits.RC2 = 0; //Define CS as Output
    DDRCbits.RC3 = 0; //Define SCK as Output
    DDRCbits.RC4 = 1; //Define SDI as Input
    DDRCbits.RC5 = 0; //Define SDO as Output
    PORTC=0x04;//SET CSN bit

    ANSELA=0;
    ANSELB=0;
    ANSELC=0;
    

    }

    void testingByte(unsigned char temp){
    if((temp&0x01)!=0){LATAbits.LATA7=1;}
    if((temp&0x02)!=0){LATAbits.LATA6=1;}
    if((temp&0x04)!=0){LATAbits.LATA5=1;}
    if((temp&0x08)!=0){LATAbits.LATA4=1;}
    if((temp&0x10)!=0){LATAbits.LATA3=1;}
    if((temp&0x20)!=0){LATAbits.LATA2=1;}
    if((temp&0x40)!=0){LATAbits.LATA1=1;}
    if((temp&0x80)!=0){LATAbits.LATA0=1;}
    }



  • Receiver:
    #include "nrf24l01.h"
    #include <xc.h>
    #define _XTAL_FREQ 16000000
    void nrf24l01_initialize(unsigned char config,
    unsigned char opt_rx_active_mode,
    unsigned char en_aa,
    unsigned char en_rxaddr,
    unsigned char setup_aw,
    unsigned char setup_retr,
    unsigned char rf_ch,
    unsigned char rf_setup,
    unsigned char * rx_addr_p0,
    unsigned char * rx_addr_p1,
    unsigned char rx_addr_p2,
    unsigned char rx_addr_p3,
    unsigned char rx_addr_p4,
    unsigned char rx_addr_p5,
    unsigned char * tx_addr,
    unsigned char rx_pw_p0,
    unsigned char rx_pw_p1,
    unsigned char rx_pw_p2,
    unsigned char rx_pw_p3,
    unsigned char rx_pw_p4,
    unsigned char rx_pw_p5)
    {
    unsigned char data[5];

    data[0] = en_aa;
    nrf24l01_write_register(nrf24l01_EN_AA, data, 1);
        for(int i=0;i<10;i++) __delay_ms(20);
    data[0] = en_rxaddr;
    nrf24l01_write_register(nrf24l01_EN_RXADDR, data, 1);
    
    data[0] = setup_aw;
    nrf24l01_write_register(nrf24l01_SETUP_AW, data, 1);
    
    data[0] = setup_retr;
    nrf24l01_write_register(nrf24l01_SETUP_RETR, data, 1);
    
    data[0] = rf_ch;
    nrf24l01_write_register(nrf24l01_RF_CH, data, 1);
    
    data[0] = rf_setup;
    nrf24l01_write_register(nrf24l01_RF_SETUP, data, 1);
        
    if(rx_addr_p0 != NULL)
    	nrf24l01_set_rx_addr(rx_addr_p0, 5, 0);
    else
    {
    	data[0] = nrf24l01_RX_ADDR_P0_B0_DEFAULT_VAL;
    	data[1] = nrf24l01_RX_ADDR_P0_B1_DEFAULT_VAL;
    	data[2] = nrf24l01_RX_ADDR_P0_B2_DEFAULT_VAL;
    	data[3] = nrf24l01_RX_ADDR_P0_B3_DEFAULT_VAL;
    	data[4] = nrf24l01_RX_ADDR_P0_B4_DEFAULT_VAL;
    
    	nrf24l01_set_rx_addr(data, 5, 0);
    }
    
    if(rx_addr_p1 != NULL)
    	nrf24l01_set_rx_addr(rx_addr_p1, 5, 1);
    else
    {
    	data[0] = nrf24l01_RX_ADDR_P1_B0_DEFAULT_VAL;
    	data[1] = nrf24l01_RX_ADDR_P1_B1_DEFAULT_VAL;
    	data[2] = nrf24l01_RX_ADDR_P1_B2_DEFAULT_VAL;
    	data[3] = nrf24l01_RX_ADDR_P1_B3_DEFAULT_VAL;
    	data[4] = nrf24l01_RX_ADDR_P1_B4_DEFAULT_VAL;
    
    	nrf24l01_set_rx_addr(data, 5, 1);
    }
    
    data[0] = rx_addr_p2;
    nrf24l01_set_rx_addr(data, 1, 2);
    
    data[0] = rx_addr_p3;
    nrf24l01_set_rx_addr(data, 1, 3);
    
    data[0] = rx_addr_p4;
    nrf24l01_set_rx_addr(data, 1, 4);
    
    data[0] = rx_addr_p5;
    nrf24l01_set_rx_addr(data, 1, 5);
    
    if(tx_addr != NULL)
    	nrf24l01_set_tx_addr(tx_addr, 5);
    else
    {
    	data[0] = nrf24l01_TX_ADDR_B0_DEFAULT_VAL;
    	data[1] = nrf24l01_TX_ADDR_B1_DEFAULT_VAL;
    	data[2] = nrf24l01_TX_ADDR_B2_DEFAULT_VAL;
    	data[3] = nrf24l01_TX_ADDR_B3_DEFAULT_VAL;
    	data[4] = nrf24l01_TX_ADDR_B4_DEFAULT_VAL;
    
    	nrf24l01_set_tx_addr(data, 5);
    }
    
    data[0] = rx_pw_p0;
    nrf24l01_write_register(nrf24l01_RX_PW_P0, data, 1);
    
    data[0] = rx_pw_p1;
    nrf24l01_write_register(nrf24l01_RX_PW_P1, data, 1);
    
    data[0] = rx_pw_p2;
    nrf24l01_write_register(nrf24l01_RX_PW_P2, data, 1);
    
    data[0] = rx_pw_p3;
    nrf24l01_write_register(nrf24l01_RX_PW_P3, data, 1);
    
    data[0] = rx_pw_p4;
    nrf24l01_write_register(nrf24l01_RX_PW_P4, data, 1);
    
    data[0] = rx_pw_p5;
    nrf24l01_write_register(nrf24l01_RX_PW_P5, data, 1);
    
    
    if((config & nrf24l01_CONFIG_PWR_UP) != 0)
    	nrf24l01_power_up_param(opt_rx_active_mode, config);
    else
    	nrf24l01_power_down_param(config);
    

    }

    void nrf24l01_initialize_debug(bool rx, unsigned char p0_payload_width, bool enable_auto_ack)
    {
    unsigned char config;
    unsigned char en_aa;
    config = nrf24l01_CONFIG_DEFAULT_VAL | nrf24l01_CONFIG_PWR_UP;

    if(enable_auto_ack != false)
    	en_aa = nrf24l01_EN_AA_ENAA_P0;
    else
    	en_aa = nrf24l01_EN_AA_ENAA_NONE;
    
    if(rx == true)
    	config = config | nrf24l01_CONFIG_PRIM_RX;
        
    nrf24l01_initialize(config,
    					true,
    					en_aa,
    					nrf24l01_EN_RXADDR_DEFAULT_VAL,
    					nrf24l01_SETUP_AW_DEFAULT_VAL,
    					nrf24l01_SETUP_RETR_DEFAULT_VAL,
    					nrf24l01_RF_CH_DEFAULT_VAL,
    					nrf24l01_RF_SETUP_DEFAULT_VAL,
    					NULL,
    					NULL,
    					nrf24l01_RX_ADDR_P2_DEFAULT_VAL,
    					nrf24l01_RX_ADDR_P3_DEFAULT_VAL,
    					nrf24l01_RX_ADDR_P4_DEFAULT_VAL,
    					nrf24l01_RX_ADDR_P5_DEFAULT_VAL,
    					NULL,
    					p0_payload_width,
    					nrf24l01_RX_PW_P1_DEFAULT_VAL,
    					nrf24l01_RX_PW_P2_DEFAULT_VAL,
    					nrf24l01_RX_PW_P3_DEFAULT_VAL,
    					nrf24l01_RX_PW_P4_DEFAULT_VAL,
    					nrf24l01_RX_PW_P5_DEFAULT_VAL);
    

    }

    void nrf24l01_initialize_debug_lite(bool rx, unsigned char p0_payload_width)
    {
    unsigned char config;
    config = nrf24l01_CONFIG_DEFAULT_VAL;

    if(rx != false)
    	config |= nrf24l01_CONFIG_PRIM_RX;
    
    nrf24l01_write_register(nrf24l01_RX_PW_P0, &p0_payload_width, 1);
    nrf24l01_power_up_param(true, config);
    

    }

    void nrf24l01_power_up(bool rx_active_mode)
    {
    unsigned char config;

    nrf24l01_read_register(nrf24l01_CONFIG, &config, 1);
    
    if((config & nrf24l01_CONFIG_PWR_UP) != 0)
    	return;
    
    config |= nrf24l01_CONFIG_PWR_UP;
    
    nrf24l01_write_register(nrf24l01_CONFIG, &config, 1);
    
    __delay_ms(1.5);
    
    if((config & nrf24l01_CONFIG_PRIM_RX) == 0)
    	nrf24l01_clear_ce();
    else
    {
    	if(rx_active_mode != false)
    		nrf24l01_set_ce();
    	else
    		nrf24l01_clear_ce();
    }
    

    }

    void nrf24l01_power_up_param(bool rx_active_mode, unsigned char config)
    {
    unsigned char test, test2;

    config |= nrf24l01_CONFIG_PWR_UP;
    
    nrf24l01_write_register(nrf24l01_CONFIG, &config, 1);
    
        __delay_us(1.5);
    
    if((config & nrf24l01_CONFIG_PRIM_RX) == 0)
    	nrf24l01_clear_ce();
    else
    {
    	if(rx_active_mode != false)
    		nrf24l01_set_ce();
    	else
    		nrf24l01_clear_ce();
    }
    

    }

    void nrf24l01_power_down()
    {
    unsigned char config;

    nrf24l01_read_register(nrf24l01_CONFIG, &config, 1);
    
    if((config & nrf24l01_CONFIG_PWR_UP) == 0)
    	return;
    
    config &= (~nrf24l01_CONFIG_PWR_UP);
    
    nrf24l01_write_register(nrf24l01_CONFIG, &config, 1);
    
    nrf24l01_clear_ce();
    

    }

    void nrf24l01_power_down_param(unsigned char config)
    {
    config &= (~nrf24l01_CONFIG_PWR_UP);

    nrf24l01_write_register(nrf24l01_CONFIG, &config, 1);
    
    nrf24l01_clear_ce();
    

    }

    void nrf24l01_set_as_rx(bool rx_active_mode)
    {
    unsigned char config;
    unsigned char status;

    status = nrf24l01_read_register(0, &config, 1);
    
    if((config & nrf24l01_CONFIG_PRIM_RX) != 0)
    	return;
    
    config |= nrf24l01_CONFIG_PRIM_RX;
    
    nrf24l01_write_register(nrf24l01_CONFIG, &config, 1);
    
    if(rx_active_mode != false)
    	nrf24l01_set_ce();
    else
    	nrf24l01_clear_ce();
    

    }

    void nrf24l01_set_as_rx_param(bool rx_active_mode, unsigned char config)
    {
    config |= nrf24l01_CONFIG_PRIM_RX;

    if((config & nrf24l01_CONFIG_PWR_UP) != 0)
    	nrf24l01_power_up_param(rx_active_mode, config);
    else
    	nrf24l01_power_down_param(config);
    

    }

    void nrf24l01_rx_standby_to_active()
    {
    nrf24l01_set_ce();
    }

    void nrf24l01_rx_active_to_standby()
    {
    nrf24l01_clear_ce();
    }

    void nrf24l01_set_as_tx()
    {
    unsigned char config;

    nrf24l01_read_register(nrf24l01_CONFIG, &config, 1);
    
    if((config & nrf24l01_CONFIG_PRIM_RX) == 0)
    	return;
    
    config &= (~nrf24l01_CONFIG_PRIM_RX);
    
    nrf24l01_write_register(nrf24l01_CONFIG, &config, 1);
    
    nrf24l01_clear_ce();
    

    }

    void nrf24l01_set_as_tx_param(unsigned char config)
    {
    config &= ~(nrf24l01_CONFIG_PRIM_RX);

    if((config & nrf24l01_CONFIG_PWR_UP) != 0)
    	nrf24l01_power_up_param(false, config);
    else
    	nrf24l01_power_down_param(config);
    

    }

    unsigned char nrf24l01_write_register(unsigned char regnumber, unsigned char * data, unsigned int len){

        for(int i=0;i<10;i++) __delay_ms(20);
    return nrf24l01_execute_command(nrf24l01_W_REGISTER | (regnumber & nrf24l01_W_REGISTER_DATA), data, len, false);
    

    }

    unsigned char nrf24l01_read_register(unsigned char regnumber, unsigned char * data, unsigned int len)
    {
    return nrf24l01_execute_command(regnumber & nrf24l01_R_REGISTER_DATA, data, len, true);
    }

    unsigned char nrf24l01_write_tx_payload(unsigned char * data, unsigned int len, bool transmit)
    {
    unsigned char status;

    status = nrf24l01_execute_command(nrf24l01_W_TX_PAYLOAD, data, len, false);
    
    if(transmit == true)
    	nrf24l01_transmit();
    
    return status;
    

    }

    unsigned char nrf24l01_read_rx_payload(unsigned char * data, unsigned int len)
    {
    unsigned char status;

    nrf24l01_clear_ce();
    status = nrf24l01_execute_command(nrf24l01_R_RX_PAYLOAD, data, len, true);
    nrf24l01_set_ce();
    
    return status;
    

    }

    unsigned char nrf24l01_flush_tx()
    {
    return nrf24l01_execute_command(nrf24l01_FLUSH_TX, NULL, 0, true);
    }

    unsigned char nrf24l01_flush_rx()
    {
    return nrf24l01_execute_command(nrf24l01_FLUSH_RX, NULL, 0, true);
    }

    unsigned char nrf24l01_reuse_tx_pl()
    {
    return nrf24l01_execute_command(nrf24l01_REUSE_TX_PL, NULL, 0, true);
    }

    unsigned char nrf24l01_nop()
    {
    return nrf24l01_execute_command(nrf24l01_NOP, NULL, 0, true);
    }

    void nrf24l01_transmit()
    {
    nrf24l01_set_ce();
    __delay_us(10);
    nrf24l01_clear_ce();
    }

    void nrf24l01_clear_ce()
    {
    nrf24l01_CE_IOREGISTER &= ~nrf24l01_CE_PINMASK;
    }

    void nrf24l01_set_ce()
    {
    nrf24l01_CE_IOREGISTER |= nrf24l01_CE_PINMASK;
    }

    bool nrf24l01_ce_pin_active()
    {
    if((nrf24l01_CE_IOREGISTER & nrf24l01_CE_PINMASK) != 0)
    return true;
    else
    return false;
    }

    void nrf24l01_clear_csn()
    {
    nrf24l01_CSN_IOREGISTER &= ~nrf24l01_CSN_PINMASK;
    }

    void nrf24l01_set_csn()
    {
    nrf24l01_CSN_IOREGISTER |= nrf24l01_CSN_PINMASK;
    }

    bool nrf24l01_csn_pin_active()
    {
    if((nrf24l01_CSN_IOREGISTER & nrf24l01_CSN_PINMASK) != 0)
    return true;
    else
    return false;
    }

    void nrf24l01_set_tx_addr(unsigned char * address, unsigned int len)
    {
    nrf24l01_write_register(nrf24l01_TX_ADDR, address, len);
    }

    void nrf24l01_set_rx_addr(unsigned char * address, unsigned int len, unsigned char rxpipenum)
    {
    if(rxpipenum > 5)
    return;

    nrf24l01_write_register(nrf24l01_RX_ADDR_P0 + rxpipenum, address, len);
    

    }

    void nrf24l01_set_rx_pw(unsigned char payloadwidth, unsigned char rxpipenum)
    {
    if((rxpipenum > 5) || (payloadwidth > 32))
    return;

    nrf24l01_write_register(nrf24l01_RX_PW_P0 + rxpipenum, &payloadwidth, 1);
    

    }

    unsigned char nrf24l01_get_rx_pw(unsigned char rxpipenum)
    {
    unsigned char data;

    if((rxpipenum > 5))
    	return 0;
    
    nrf24l01_read_register(nrf24l01_RX_PW_P0 + rxpipenum, &data, 1);
    
    return data;
    

    }

    unsigned char nrf24l01_get_config()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_CONFIG, &data, 1);
    
    return data;
    

    }

    void nrf24l01_set_config(unsigned char config)
    {
    nrf24l01_write_register(nrf24l01_CONFIG, &config, 1);
    }

    unsigned char nrf24l01_get_rf_ch()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_RF_CH, &data, 1);
    
    return data;
    

    }

    void nrf24l01_set_rf_ch(unsigned char channel)
    {
    unsigned char data;

    data = channel & ~nrf24l01_RF_CH_RESERVED;
    
    nrf24l01_write_register(nrf24l01_RF_CH, &data, 1);
    

    }

    unsigned char nrf24l01_get_observe_tx()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_OBSERVE_TX, &data, 1);
    
    return data;
    

    }

    unsigned char nrf24l01_get_plos_cnt()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_OBSERVE_TX, &data, 1);
    
    return ((data & nrf24l01_OBSERVE_TX_PLOS_CNT) >> 4);
    

    }

    void nrf24l01_clear_plos_cnt()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_RF_CH, &data, 1);
    nrf24l01_write_register(nrf24l01_RF_CH, &data, 1);
    

    }

    void nrf24l01_clear_plos_cnt_param(unsigned char rf_ch)
    {
    nrf24l01_write_register(nrf24l01_RF_CH, &rf_ch, 1);
    }

    unsigned char nrf24l01_get_arc_cnt()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_OBSERVE_TX, &data, 1);
    
    return (data & nrf24l01_OBSERVE_TX_ARC_CNT);
    

    }

    bool nrf24l01_aa_enabled(unsigned char rxpipenum)
    {
    unsigned char data;

    if(rxpipenum > 5)
    	return false;
    
    nrf24l01_read_register(nrf24l01_EN_AA, &data, 1);
    
    return (data & (0x01 << rxpipenum));
    

    }

    void nrf24l01_aa_enable(unsigned char rxpipenum)
    {
    unsigned char data;

    if(rxpipenum > 5)
    	return;
    
    nrf24l01_read_register(nrf24l01_EN_AA, &data, 1);
    
    if((data & (0x01 << rxpipenum)) != 0)
    	return;
    
    data |= 0x01 << rxpipenum;
    
    nrf24l01_write_register(nrf24l01_EN_AA, &data, 1);
    

    }

    void nrf24l01_aa_disable(unsigned char rxpipenum)
    {
    unsigned char data;

    if(rxpipenum > 5)
    	return;
    
    nrf24l01_read_register(nrf24l01_EN_AA, &data, 1);
    
    if((data & (0x01 << rxpipenum)) == 0)
    	return;
    
    data &= ~(0x01 << rxpipenum);
    
    nrf24l01_write_register(nrf24l01_EN_AA, &data, 1);
    

    }

    bool nrf24l01_rx_pipe_enabled(unsigned char rxpipenum)
    {
    unsigned char data;

    if((rxpipenum > 5))
    	return false;
    
    nrf24l01_read_register(nrf24l01_EN_RXADDR, &data, 1);
    
    return (data & (0x01 << rxpipenum));
    

    }

    void nrf24l01_rx_pipe_enable(unsigned char rxpipenum)
    {
    unsigned char data;

    if(rxpipenum > 5)
    	return;
    
    nrf24l01_read_register(nrf24l01_EN_RXADDR, &data, 1);
    
    if((data & (0x01 << rxpipenum)) != 0)
    	return;
    
    data |= 0x01 << rxpipenum;
    
    nrf24l01_write_register(nrf24l01_EN_RXADDR, &data, 1);
    

    }

    void nrf24l01_rx_pipe_disable(unsigned char rxpipenum)
    {
    unsigned char data;

    if(rxpipenum > 5)
    	return;
    
    nrf24l01_read_register(nrf24l01_EN_RXADDR, &data, 1);
    
    if((data & (0x01 << rxpipenum)) == 0)
    	return;
    
    data &= ~(0x01 << rxpipenum);
    
    nrf24l01_write_register(nrf24l01_EN_RXADDR, &data, 1);
    

    }

    bool nrf24l01_cd_active()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_CD, &data, 1);
    
    return data;
    

    }

    unsigned char nrf24l01_get_fifo_status()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_FIFO_STATUS, &data, 1);
    
    return data;
    

    }

    unsigned char nrf24l01_get_status()
    {
    return nrf24l01_nop();
    }

    bool nrf24l01_fifo_tx_reuse()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_FIFO_STATUS, &data, 1);
    
    return (bool)(data & nrf24l01_FIFO_STATUS_TX_REUSE);
    

    }

    bool nrf24l01_fifo_tx_full()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_FIFO_STATUS, &data, 1);
    
    return (bool)(data & nrf24l01_FIFO_STATUS_TX_FULL);
    

    }

    bool nrf24l01_fifo_tx_empty()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_FIFO_STATUS, &data, 1);
    
    return (bool)(data & nrf24l01_FIFO_STATUS_TX_EMPTY);
    

    }

    bool nrf24l01_fifo_rx_full()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_FIFO_STATUS, &data, 1);
    
    return (bool)(data & nrf24l01_FIFO_STATUS_RX_FULL);
    

    }

    bool nrf24l01_fifo_rx_empty()
    {
    unsigned char data;

    nrf24l01_read_register(nrf24l01_FIFO_STATUS, &data, 1);
    
    return (bool)(data & nrf24l01_FIFO_STATUS_RX_EMPTY);
    

    }
    bool nrf24l01_irq_pin_active()
    {
    if((nrf24l01_IRQ_IOREGISTER & nrf24l01_IRQ_PINMASK) != 0)
    return false;
    else
    return true;
    }

    bool nrf24l01_irq_rx_dr_active()
    {
    return (nrf24l01_get_status() & nrf24l01_STATUS_RX_DR);
    }

    bool nrf24l01_irq_tx_ds_active()
    {
    return (nrf24l01_get_status() & nrf24l01_STATUS_TX_DS);
    }

    bool nrf24l01_irq_max_rt_active()
    {
    return (nrf24l01_get_status() & nrf24l01_STATUS_MAX_RT);
    }

    void nrf24l01_irq_clear_all()
    {
    unsigned char data = nrf24l01_STATUS_RX_DR | nrf24l01_STATUS_TX_DS | nrf24l01_STATUS_MAX_RT;

    nrf24l01_write_register(nrf24l01_STATUS, &data, 1);
    

    }

    void nrf24l01_irq_clear_rx_dr()
    {
    unsigned char data = nrf24l01_STATUS_RX_DR;

    nrf24l01_write_register(nrf24l01_STATUS, &data, 1);
    

    }

    void nrf24l01_irq_clear_tx_ds()
    {
    unsigned char data = nrf24l01_STATUS_TX_DS;

    nrf24l01_write_register(nrf24l01_STATUS, &data, 1);
    

    }

    void nrf24l01_irq_clear_max_rt()
    {
    unsigned char data = nrf24l01_STATUS_MAX_RT;

    nrf24l01_write_register(nrf24l01_STATUS, &data, 1);
    

    }

    unsigned char nrf24l01_get_rx_pipe()
    {
    return nrf24l01_get_rx_pipe_from_status(nrf24l01_get_status());
    }

    unsigned char nrf24l01_get_rx_pipe_from_status(unsigned char status)
    {
    return ((status & 0xE) >> 1);
    }

    void nrf24l01_clear_flush()
    {
    nrf24l01_flush_rx();
    nrf24l01_flush_tx();
    nrf24l01_irq_clear_all();
    }

    void nrf24l01_get_all_registers(unsigned char * data)
    {
    unsigned int outer;
    unsigned int inner;
    unsigned int dataloc = 0;
    unsigned char buffer[5];

    for(outer = 0; outer <= 0x17; outer++)
    {
    	nrf24l01_read_register(outer, buffer, 5);
    
    	for(inner = 0; inner < 5; inner++)
    	{
    		if(inner >= 1 && (outer != 0x0A && outer != 0x0B && outer != 0x10))
    			break;
    
    		data[dataloc] = buffer[inner];
    		dataloc++;
    	}
    }
    

    }

    unsigned char nrf24l01_execute_command(unsigned char instruction, unsigned char * data, unsigned int len, bool copydata)
    {
    unsigned char status;

    nrf24l01_clear_csn();
    
    status = instruction;
    nrf24l01_spi_send_read(&status, 1, true);
    nrf24l01_spi_send_read(data, len, copydata);
    
    nrf24l01_set_csn();
    
    return status;
    

    }

    void nrf24l01_spi_send_read(unsigned char * data, unsigned int len, bool copydata)
    {
    unsigned int count;
    unsigned char tempbyte;

    for(count = 0; count < len; count++)
    {
    	if(copydata != false)
    		data[count] = spi_send_read_byte(data[count]);
    	else
    	{
    		tempbyte = data[count];
    		spi_send_read_byte(tempbyte);
    	}
    }
    

    }

    #include <stdio.h>
    #include <stdlib.h>
    #include <xc.h>
    #include "spi1.h"
    #include "nrf24l01.h"
    #include <p18F26K22.h>

    #define USE_OR_MASKS
    #define _XTAL_FREQ 16000000

    #pragma config FOSC = INTIO67
    #pragma config FCMEN = OFF
    #pragma config IESO = OFF
    #pragma config PWRTEN = OFF
    #pragma config BOREN = SBORDIS
    #pragma config BORV = 190
    #pragma config WDTEN = OFF
    #pragma config WDTPS = 32768
    #pragma config CCP2MX = PORTB3
    #pragma config PBADEN = OFF
    #pragma config CCP3MX = PORTB5
    #pragma config HFOFST = OFF
    #pragma config T3CMX = PORTC0
    #pragma config P2BMX = PORTC0
    #pragma config MCLRE = EXTMCLR
    #pragma config STVREN = ON
    #pragma config LVP = OFF
    #pragma config XINST = OFF
    #pragma config CP0 = OFF
    #pragma config CP1 = OFF
    #pragma config CP2 = OFF
    #pragma config CP3 = OFF
    #pragma config CPB = OFF
    #pragma config CPD = OFF
    #pragma config WRT0 = ON
    #pragma config WRT1 = ON
    #pragma config WRT2 = ON
    #pragma config WRT3 = ON
    #pragma config WRTC = ON
    #pragma config WRTB = ON
    #pragma config WRTD = ON
    #pragma config EBTR0 = OFF
    #pragma config EBTR1 = OFF
    #pragma config EBTR2 = OFF
    #pragma config EBTR3 = OFF
    #pragma config EBTRB = OFF
    void Initialise(void);
    void InitialiseIO(void);
    void checkCommunication(void);
    void checkCommunication5bytes(void);
    void testingByte(unsigned char);
    void transmit(void);

    void main()
    {
    unsigned char sendData=0xBB;
    unsigned char data[16]={0x01,0x02,0x03,0x04,0x05,0x06,0x07,0x08,0x09,0x0A,0x0B,0x0C,0x0D,0x0E,0x0F,0xFF};

    Initialise();
    nrf24l01_irq_clear_all();
    nrf24l01_flush_tx();
    nrf24l01_flush_rx();
       nrf24l01_write_tx_payload(&data, 3, false);
    
        nrf24l01_set_ce();
    __delay_us(10);
    nrf24l01_clear_ce();    
    
        while(!(nrf24l01_irq_tx_ds_active()||nrf24l01_irq_max_rt_active())){
        LATAbits.LATA1=1;
    }
    LATAbits.LATA1=0;
    if(nrf24l01_irq_max_rt_active())LATAbits.LATA2=1;
    if(nrf24l01_fifo_tx_empty())LATAbits.LATA3=1;
    LATAbits.LATA4=1;
    for(int i=0; i<50; i++)__delay_ms(20);
    LATA=0;
    for(int i=0; i<25; i++)__delay_ms(20);
    
    unsigned char arc = nrf24l01_get_arc_cnt();
    testingByte(arc);
    while(1);
    

    }
    void Initialise(){
    InitialiseIO();
    SSPSTAT = 0xC0;
    SSPCON1 = 0x20;
    nrf24l01_initialize_debug(false,3,true);
    LATAbits.LATA0=1;
    for (int i=0;i<25;i++)__delay_ms(20);
    LATAbits.LATA0=0;
    }
    void InitialiseIO(){
    OSCCON=0B11110000; //sets the IRCF selecting the 16MHz INTOSC and SCS=primary clock
    OSCCON2=0B00000000; //sets MFIOSEL=0 and PRISD=0 turn off external osc drive circuit
    ADCON1=0x7;
    LATA=0;
    TRISA=0;
    TRISB0=1;
    TRISCbits.RC2=0;
    DDRCbits.RC1 = 0;
    DDRCbits.RC3 = 0;
    DDRCbits.RC4 = 1;
    DDRCbits.RC5 = 0;
    PORTC=0x04;

    ANSELA=0;
    ANSELB=0;
    ANSELC=0;
    

    }
    void checkCommunication(){
    unsigned char data=0xFF;
    unsigned char address= nrf24l01_R_REGISTER_DATA & nrf24l01_CONFIG;
    unsigned char temp2;

    nrf24l01_clear_csn();
    WriteSPI(address);
    while(SSPSTATbits.BF==0);
    temp2=SSPBUF;
    
    data=ReadSPI();
    
    nrf24l01_set_csn();
    
    if(data==0x08){
        LATAbits.LATA2=1;
    }
    
    if(temp2==0x0E){
        LATAbits.LATA3=1;
    }
    

    }
    void checkCommunication5bytes(){
    unsigned char data[5];
    unsigned char address= nrf24l01_R_REGISTER_DATA & nrf24l01_RX_ADDR_P0;
    unsigned int length = 5;
    unsigned char *dataptr=&data;

    nrf24l01_execute_command(address, data, length, true);
    
    for(int i=0;i<length;i++){
        if(dataptr[i]==0xE7){
            switch(i){
                case 0:{LATAbits.LATA2=1;break;}
                case 1:{LATAbits.LATA3=1;break;}
                case 2:{LATAbits.LATA4=1;break;}
                case 3:{LATAbits.LATA5=1;break;}
                case 4:{LATAbits.LATA6=1;break;}     
            }
        }
    }
    

    }
    void testingByte(unsigned char temp){
    if((temp&0x01)!=0){LATAbits.LATA7=1;}
    if((temp&0x02)!=0){LATAbits.LATA6=1;}
    if((temp&0x04)!=0){LATAbits.LATA5=1;}
    if((temp&0x08)!=0){LATAbits.LATA4=1;}
    if((temp&0x10)!=0){LATAbits.LATA3=1;}
    if((temp&0x20)!=0){LATAbits.LATA2=1;}
    if((temp&0x40)!=0){LATAbits.LATA1=1;}
    if((temp&0x80)!=0){LATAbits.LATA0=1;}
    }

    #include "spi.h"
    #include <p18F26K22.h>

    unsigned char spi1_send_read_byte(unsigned char byte)
    {
    SSPBUF = byte;

    while(!DataRdySPI());
    
    return SSPBUF;
    

    }



  • @Xyee-Cheah please post it on github or something similiar. This is unreadable. :S

    https://gist.github.com/




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