Chris Dick
Library for the nRF2401A Transceiver
Dependents: nRF2401A_Hello_World nRF2401A_Wireless_Accelerometer_joypad nRF2401A_Gameduino_Invaders
nRF2401A.h
- Committer:
- TheChrisyd
- Date:
- 2013-10-26
- Revision:
- 8:fb7cb88e80a4
- Parent:
- 7:22f69cf045d9
- Child:
- 9:7245524e37e4
File content as of revision 8:fb7cb88e80a4:
/**
*@section DESCRIPTION
* mbed nRF2401A Library
*@section LICENSE
* Copyright (c) 2011, Per Söderstam
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
* @file "nRF2401A.h"
*/
#ifndef _nRF2401A_H
#define _nRF2401A_H
#include <mbed.h>
#include <inttypes.h>
#define Ts 1 /**< Setup time from data to rising clock edge on write (accualy 500 ns). */
#define Th 1 /**< Hold time from rising clock to data toggle/falling clock (accualy 500 ns). */
#define Tcs2data 5 /**< Min delay from CS assert to data, in us. */
#define Tce2data 5 /**< Min delay from CE assert to data, in us. */
#define Td 1 /**< Minimum delay between edges (actually 50 ns). */
#define Tpd2cfgm 3 /**< Minimum delay from power up of tranciever to configuration. */
#define Tsby2txSB 195 /**< Minimum delay from tx initation to air, in us. */
#define Thmin 5 /**< */
#define Tclk2data 1 /**< */
/** ISR handler prototype for receiving messages.
* A function of this type is registered and called when the DR pin on the
* nRF tranciever signals the reception of a message. The void * argument
* is likewise supplied when registering and is returned at call time.
*/
typedef void (*nRF2401A_rx_handler_t)(void *);
/** nRF2401 Class
*
* Example:
* @code
* #include "mbed.h"
* #include "nRF2401A.h"
*
* // comment these out depending on the job of the mbed. If your only using one mbed leave both uncommented.
* //#define TX
* #define RX
*
* // If using the FRDM-KL25Z uncomment this line
* //#define FRDMKL25Z
*
* Serial pc(USBTX, USBRX);
* DigitalOut myled(LED1);
*
* #ifdef TX
* #ifdef FRDMKL25Z
* nRF2401A rf1(PTD0, PTD5, PTA13, PTC12, PTC13); //ce, cs, dr1, clk1, data
* #else
* nRF2401A rf1(p10, p11, p12, p13, p14);
* #endif
* #endif
*
* #ifdef RX
* #ifdef FRDMKL25Z
* nRF2401A rf2(PTD0, PTD5, PTA13, PTC12, PTC13);
* #else
* nRF2401A rf2(p10, p11, p12, p13, p14);
* #endif
*
* bool rx_recieved = false;
*
* void nRF2401A_rx (void *arg)
* {
* rx_recieved = true;
* }
* #endif
* int main()
* {
* wait(0.005);
* pc.printf("Hello nRF2401A\n\r");
*
* #ifdef TX
* // initialise the nRF2401A with payload size, address, CRC, bit rate and channel
* rf1.setDataPayloadLength(4 << 3)
* .setAddress(0x0, 0x0, 0xa6, 0xa6, 0xa6, 3 << 3)
* .setCRCMode(nRF2401A::NO_CRC)
* .setDataRate(nRF2401A::BIT_RATE_250KBITS)
* .setChannel(0x02);
*
* rf1.printControlPacket(pc);
* rf1.flushControlPacket();
*
* // initialise variables to use for tranmission
* nRF2401A::address_t rf2_addr = {0x0, 0x0, 0x53, 0x53, 0x53};
* uint8_t msg[] = {0x01, 0x01, 0x01, 0x01};
* uint32_t *msg32 = (uint32_t *) msg;
* #endif
*
* #ifdef RX
* // initialise the nRF2401A with payload size, address, CRC, bit rate and channel
* rf2.setDataPayloadLength(4 << 3)
* .setAddress(0x0, 0x0, 0x53, 0x53, 0x53, 3 << 3)
* .setCRCMode(nRF2401A::NO_CRC)
* .setDataRate(nRF2401A::BIT_RATE_250KBITS)
* .setChannel(0x02);
*
* rf2.printControlPacket(pc);
* rf2.flushControlPacket();
*
* // attach receive callback
* rf2.attachRXHandler(&nRF2401A_rx, 0);
* #endif
*
* while(1)
* {
*
* #ifdef TX
* myled = 0;
* wait(0.25);
*
* send the message to the nRF2401A
* rf1.sendMsg(rf2_addr, 3 << 3, msg, 4 << 3);
* *msg32 += 1;
*
* myled = 1;
* wait(0.25);
* #endif
*
*
* #ifdef RX
* if (rx_recieved)
* {
* // send the read buffer directly to the serial port
* rf2.printDataPacket(pc);
*
* // send a single byte from the read buffer to the serial port
* uint8_t rx_msg = 0;
* rf2.readMsg_byte(&rx_msg, 0 );
* pc.printf("\n\r%d\n\r", rx_msg);
*
* // read the read buffer , then send to the serial port
* uint8_t rx_buffer[32] = {0};
* rf2.readMsg( &rx_buffer[0], 32);
* for(int i = 0; i < sizeof(rx_buffer); i++)
* {
* pc.printf("%02x ", rx_buffer[i]);
* }
* pc.printf("\r\n");
*
* // clear flags and flash the led
* rx_recieved = false;
* myled = !myled;
* }
* #endif
*
* }
* }
*
* @endcode
*/
/**
*
*
*/
class nRF2401A
{
public:
/** Class constructor.
* The constructor assigns the specified pinout, attatch the
* DR1 to a pin interrupt and sets up inmutable control packet
* fields. for the KL25Z, the Data Ready pin must be on ports A or C
* @param ce Chip Enable (CE) pin of the nRF2401A.
* @param c2 Chip Select (CS) pin of the nRF2401A.
* @param dr1 Data Ready 1 (DR1) pin of the nRF2401A.
* @param clk1 Clock 1 (CLK1) pin of the nRF2401A.
* @param data Data (DATA) pin of the nRF2401A.
*/
nRF2401A(PinName ce,
PinName cs,
PinName dr1,
PinName clk1,
PinName data);
/** Class destructor.
* Pretty much useless in the embedded world...
*/
virtual ~nRF2401A() { return; }
/** Set the payload length, in bits.
* Set the control packet field for length, in number of bits, of the message payload.
* @param n Number of bits of the message payload.
* @return Reference to the invoked object (for chaining operations).
*/
nRF2401A& setDataPayloadLength(uint8_t n)
{
_ctrl_packet_buf.channel_1_data_payload_len = n;
return *this;
}
/** Set the address of channel 1.
* The channel address is a up to 40 bit number identifying the tranceiver.
* @param addr4 Bits 39-32 of the address.
* @param addr4 Bits 31-24 of the address.
* @param addr4 Bits 23-16 of the address.
* @param addr4 Bits 15-8 of the address.
* @param addr4 Bits 7-0 of the address.
* @param n_bits Number of bits used in the address.
* @return Reference to the invoked object (for chaining operations).
*/
nRF2401A& setAddress(uint8_t addr4, uint8_t addr3, uint8_t addr2, uint8_t addr1, uint8_t addr0, uint8_t n_bits)
{
_ctrl_packet_buf.channel_1_address[0] = addr4;
_ctrl_packet_buf.channel_1_address[1] = addr3;
_ctrl_packet_buf.channel_1_address[2] = addr2;
_ctrl_packet_buf.channel_1_address[3] = addr1;
_ctrl_packet_buf.channel_1_address[4] = addr0;
_ctrl_packet_buf.channel_address_len = n_bits;
return *this;
}
/** CRC settings.
* Type covering the allowed settings for use of CRC.
*/
typedef enum
{
NO_CRC = 0x0, /**< Do not use CRC. */
CRC_8 = 0x1, /**< Use a 8-bit CRC. */
CRC_16 = 0x3 /**< Use a 16-bit CRC. */
} CRC_T;
typedef uint8_t read_msg;
/** Set CRC use.
* Set the CRC mode field of the control packet.
* @param mode The CRC mode of choise.
* @return Reference to the invoked object (for chaining operations).
*/
nRF2401A& setCRCMode(CRC_T mode)
{
_ctrl_packet_buf.crc_config = mode;
return *this;
}
/** Data rate settings.
* Type covering the allowed settings for the tranceiver data rate.
*/
typedef enum
{
BIT_RATE_250KBITS = 0x0, /**< */
BIT_RATE_1MBITS = 0x1 /**< */
} DATA_RATE_T;
/** Set tranceiver data rate.
* Sets the data rate field to either 250 kbit/s or 1 Mbit/s data transfer rate.
* @param mode The data rate of choise.
* @return Reference to the invoked object (for chaining operations).
*/
nRF2401A& setDataRate(DATA_RATE_T data_rate)
{
_ctrl_packet_buf.rf_data_rate = data_rate;
return *this;
}
/** Set RF channel.
* Sets the control packet field for channel number. Channel numbers are from 0 to 127
* representing channel frequencies equal to (2400 + channel number) MHz.
* @param ch Channel number, from the range [0, 127].
* @return Reference to the invoked object (for chaining operations).
*/
nRF2401A& setChannel(uint8_t ch)
{
_ctrl_packet_buf.rf_channel = ch;
return *this;
}
/** Send the control packet to the nRF2401A.
* This function transfer the control packet image to the nRF2401A.
* @return Reference to the invoked object (for chaining operations).
*/
nRF2401A& flushControlPacket();
/** Put the tranceiver into, or bring out of standby.
* Tx mode 10.5mA, RX mode 18mA, Standby 400nA.
* @param active set standby state
*/
nRF2401A& standby_mode(bool active = true);
/**
*
*/
typedef uint8_t address_t[5];
/** Read a message.
* This routine will transfer the data from the receive buffer to the buffer
* supplied. It will transfer a number of Bytes equal to the specified length.
* @param msg_buf Message buffer.
* @param msg_len Length of message, in bits.
* @return Reference to the invoked object (for chaining operations).
*/
nRF2401A& readMsg( uint8_t *msg_buf, uint8_t msg_len );
/** Read a byte from message.
* This routine will transfer the data from the receive buffer to the buffer
* supplied. It will transfer one Bytes at index buf_index.
* @param msg_buf Message body.
* @param buf_index index of byte to be read.
* @return Reference to the invoked object (for chaining operations).
*/
nRF2401A& readMsg_byte( uint8_t *msg_buf, uint8_t buf_index );
/** Send a message.
* This routine will transfer the data from the supplied buffer and send
* it to the specified address using the current control packet settings.
* @param addr The address to send to.
* @param addr_len Length of address, in bits.
* @param msg_buf Message body.
* @param msg_len Length of message, in bits.
* @return Reference to the invoked object (for chaining operations).
*/
nRF2401A& sendMsg(address_t addr, uint8_t addr_len, uint8_t *msg_buf, uint8_t msg_len);
/** Register a receive action callback.
* Attach a callback that will be called when the tranceiver intercept a
* message. This callback will be called in the context of an interrupt
* routine and should act accordingly.
* @param handler The callback, of type nRF2401_rx_handler_t.
* @param arg Pointer to data supplied to the handler at call time.
* @return Reference to the invoked object (for chaining operations).
*/
nRF2401A& attachRXHandler(nRF2401A_rx_handler_t handler, void *arg);
void printControlPacket(Serial& port);
void printDataPacket(Serial& port);
private:
DigitalOut _ce; /**< Chip Enable pin. */
DigitalOut _cs; /**< Chip select pin. */
DigitalIn _dr1; /**< Data Ready 1 pin. */
DigitalOut _clk1; /**< Clock 1 pin. */
DigitalInOut _data; /**< Data pin. */
/**
*
*/
typedef enum
{
RX, /**< The tranceiver is in receive mode. Default mode. */
TX, /**< The tranceiver is transmitting. */
STANDBY /**< The tranceiver goes into stanby mode. */
} STATE_T;
STATE_T _state;
/** Contol packet data.
*
*/
struct nRF2401A_ctrl_packet_t
{
uint8_t channel_2_data_payload_len; /**< */
uint8_t channel_1_data_payload_len; /**< */
uint8_t channel_2_address[5]; /**< */
uint8_t channel_1_address[5]; /**< */
uint8_t crc_config : 2; /**< */
uint8_t channel_address_len : 6; /**< */
uint8_t rf_power : 2; /**< */
uint8_t xo_frequency : 3; /**< */
uint8_t rf_data_rate : 1; /**< */
uint8_t communication_mode : 1; /**< */
uint8_t enable_dual_channel_mode : 1; /**< */
uint8_t txr_switch : 1; /**< */
uint8_t rf_channel : 7; /**< */
} _ctrl_packet_buf; /**< */
uint8_t *_ctrl_packet; /**< */
uint8_t _data_buf[32]; /**< */
nRF2401A_rx_handler_t _rx_handler; /**< */
void *_rx_handler_arg; /**< */
/** Receive ISR.
* This handler is attached to the rising flank of the DR1 pin. It
* will thus be called when the nRF2401A receives a packet in ShockBurst
* mode (the mode used). It will in turn call the attached handler.
*/
void dataReadyHandler(void);
/**
*
*/
InterruptIn _dr1_isr;
/*
*
*/
typedef enum { RX_MODE = 0x1, TX_MODE = 0x0 } TXR_T;
/** Write to the data bus.
* Write n_bits bits on the DATA line.
* @param buf Data buffer.
* @param n_bits Number of bits to transfer.
* @param is_ctrl True if the tranfered data is control word, false if data.
*/
void pushCtrl(uint8_t *buf, uint8_t n_bits, bool is_ctrl = true);
/** Read a message from the tranceiver.
* Read until DR1 goes low.
* @param buf Data buffer.
* @return Number of bits read.
*/
int pull(uint8_t *buf);
/** Set the tranceiver into transmit mode
*/
void transmit_mode( void );
/** Set the tranceiver into receive mode
*/
void receive_mode( void );
};
#endif
nRF2401A