NRF2401P - My fork during debugging.

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My fork during debugging.

Fork of NRF2401P by Malcolm McCulloch

NRF2401P.h@19:f7e74aa7d663, 2016-04-15 (annotated)

Committer:: defrost
Date:: Fri Apr 15 11:16:36 2016 +0000
Revision:: 19:f7e74aa7d663
Parent:: 14:976a876819ae

- Added setPwrDown() function which turns off the NRF chip

Who changed what in which revision?

User	Revision	Line number	New contents of line
epgmdm	0:8fd0531ae0be	1	/**
epgmdm	0:8fd0531ae0be	2	*@section DESCRIPTION
epgmdm	0:8fd0531ae0be	3	* mbed NRF2401+ Library
epgmdm	0:8fd0531ae0be	4	*@section LICENSE
epgmdm	0:8fd0531ae0be	5	* Copyright (c) 2015, Malcolm McCulloch
epgmdm	0:8fd0531ae0be	6	*
epgmdm	0:8fd0531ae0be	7	* Permission is hereby granted, free of charge, to any person obtaining a copy
epgmdm	0:8fd0531ae0be	8	* of this software and associated documentation files (the "Software"), to deal
epgmdm	0:8fd0531ae0be	9	* in the Software without restriction, including without limitation the rights
epgmdm	0:8fd0531ae0be	10	* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
epgmdm	0:8fd0531ae0be	11	* copies of the Software, and to permit persons to whom the Software is
epgmdm	0:8fd0531ae0be	12	* furnished to do so, subject to the following conditions:
epgmdm	0:8fd0531ae0be	13	*
epgmdm	0:8fd0531ae0be	14	* The above copyright notice and this permission notice shall be included in
epgmdm	0:8fd0531ae0be	15	* all copies or substantial portions of the Software.
epgmdm	0:8fd0531ae0be	16	*
epgmdm	0:8fd0531ae0be	17	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
epgmdm	0:8fd0531ae0be	18	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
epgmdm	0:8fd0531ae0be	19	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
epgmdm	0:8fd0531ae0be	20	* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
epgmdm	0:8fd0531ae0be	21	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
epgmdm	0:8fd0531ae0be	22	* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
epgmdm	0:8fd0531ae0be	23	* THE SOFTWARE.
epgmdm	0:8fd0531ae0be	24	* @file "NRF2401P.h"
epgmdm	0:8fd0531ae0be	25	*/
nixonkj	9:c21b80aaf250	26
nixonkj	9:c21b80aaf250	27	#ifndef MBED_NRF2401P_H
nixonkj	9:c21b80aaf250	28	#define MBED_NRF2401P_H
epgmdm	5:7e253c677a1f	29
epgmdm	5:7e253c677a1f	30	/** \brief A library to drive the nRF24l01+
epgmdm	5:7e253c677a1f	31	*
epgmdm	5:7e253c677a1f	32	* This library is a simple way to get the nRF24l01+ up and running.
epgmdm	5:7e253c677a1f	33	*
epgmdm	5:7e253c677a1f	34	*- Use case: For a simple transmitter
epgmdm	5:7e253c677a1f	35	*@code
epgmdm	5:7e253c677a1f	36	*int main() {
epgmdm	5:7e253c677a1f	37	*
epgmdm	5:7e253c677a1f	38	* long long addr1=0xAB00CD; // setup address - any 5 byte number - same as RX
epgmdm	5:7e253c677a1f	39	* int channel =0x12; // [0-126] setup channel, must be same as RX
epgmdm	5:7e253c677a1f	40	* bool txOK;
epgmdm	5:7e253c677a1f	41	* char msg[32];
epgmdm	5:7e253c677a1f	42	* char ackData[32];
epgmdm	5:7e253c677a1f	43	* char len;
epgmdm	5:7e253c677a1f	44	*
epgmdm	5:7e253c677a1f	45	* // Setup
epgmdm	5:7e253c677a1f	46	* NRF2401P nrf1(PTD6,PTD7, PTD5,PTD4, PTC12); //mosi, miso, sclk, csn, ce)
epgmdm	5:7e253c677a1f	47	* nrf1.quickTxSetup(channel, addr1); // sets nrf24l01+ as transmitter
epgmdm	5:7e253c677a1f	48	*
epgmdm	5:7e253c677a1f	49	* // transmit
epgmdm	5:7e253c677a1f	50	* strcpy (msg, "Hello");
epgmdm	5:7e253c677a1f	51	* txOK= nrf1.transmitData(msg,strlen(msg));
epgmdm	5:7e253c677a1f	52	*
epgmdm	5:7e253c677a1f	53	* // read ack data if available
epgmdm	5:7e253c677a1f	54	* if (nrf1.isAckData()) {
epgmdm	5:7e253c677a1f	55	* len= nrf1.getRxData(ackData); // len is number of bytes in ackData
epgmdm	5:7e253c677a1f	56	* }
epgmdm	5:7e253c677a1f	57	*}
epgmdm	5:7e253c677a1f	58	*@endcode
epgmdm	5:7e253c677a1f	59	*- Use case: For a simple receiver
epgmdm	5:7e253c677a1f	60	*@code
epgmdm	5:7e253c677a1f	61	*int main(){
epgmdm	5:7e253c677a1f	62	*
epgmdm	5:7e253c677a1f	63	* long long addr1=0xAB00CD; // setup address - any 5 byte number - same as TX
epgmdm	5:7e253c677a1f	64	* int channel =0x12; // [0-126] setup channel, must be same as TX
epgmdm	5:7e253c677a1f	65	* bool txOK;
epgmdm	5:7e253c677a1f	66	* char msg[32];
epgmdm	5:7e253c677a1f	67	* char ackData[32];
epgmdm	5:7e253c677a1f	68	* char len;
epgmdm	5:7e253c677a1f	69	*
epgmdm	5:7e253c677a1f	70	* // Setup
epgmdm	5:7e253c677a1f	71	* NRF2401P nrf1(PTD6,PTD7, PTD5,PTD4, PTC12); //mosi, miso, sclk, csn, ce)
epgmdm	5:7e253c677a1f	72	* nrf1.quickRxSetup(channel, addr1); // sets nrf24l01+ as receiver, using pipe 1
epgmdm	5:7e253c677a1f	73	*
epgmdm	5:7e253c677a1f	74	* // set ack data
epgmdm	5:7e253c677a1f	75	* sprintf(ackData,"Ack data");
epgmdm	5:7e253c677a1f	76	* nrf1.acknowledgeData(ackData, strlen(ackData),1); // ack for pipe 1
epgmdm	5:7e253c677a1f	77	*
epgmdm	5:7e253c677a1f	78	* // receive
epgmdm	5:7e253c677a1f	79	* while (! nrf1.isRxData()); // note this blocks until RX data
epgmdm	5:7e253c677a1f	80	* len= nrf1.getRxData(msg); // gets the message, len is length of msg
epgmdm	5:7e253c677a1f	81	*
epgmdm	5:7e253c677a1f	82	*}
epgmdm	5:7e253c677a1f	83	*@endcode
epgmdm	5:7e253c677a1f	84	*/
nixonkj	9:c21b80aaf250	85
epgmdm	0:8fd0531ae0be	86	class NRF2401P
epgmdm	0:8fd0531ae0be	87	{
epgmdm	0:8fd0531ae0be	88	public:
epgmdm	0:8fd0531ae0be	89	SPI *spi;
epgmdm	0:8fd0531ae0be	90	DigitalOut csn,ce;
epgmdm	0:8fd0531ae0be	91	char addressWidth;
epgmdm	0:8fd0531ae0be	92	char logMsg[80];
epgmdm	0:8fd0531ae0be	93	char status;
epgmdm	0:8fd0531ae0be	94	char statusS[32];
epgmdm	2:ca0a3c0bba70	95	char pipe0Add[5];
epgmdm	2:ca0a3c0bba70	96	char txAdd[5];
epgmdm	0:8fd0531ae0be	97	bool dynamic,debug;
epgmdm	0:8fd0531ae0be	98	Serial *pc;
epgmdm	0:8fd0531ae0be	99
nixonkj	9:c21b80aaf250	100	/** Create a radio device for communicating with the RF24L01P via SPI.
nixonkj	9:c21b80aaf250	101	*
nixonkj	9:c21b80aaf250	102	* @param mosi The SPI slave data input pin.
nixonkj	9:c21b80aaf250	103	* @param miso The SPI Slave Data Output (with tri-state option).
nixonkj	9:c21b80aaf250	104	* @param sclk The SPI clock pin.
nixonkj	9:c21b80aaf250	105	* @param _csn The SPI chip select pin.
nixonkj	9:c21b80aaf250	106	* @param _ce Chip Enable pin (Activates RX or TX mode).
nixonkj	9:c21b80aaf250	107	*/
epgmdm	0:8fd0531ae0be	108	NRF2401P (PinName mosi, PinName miso, PinName sclk, PinName _csn, PinName _ce);
epgmdm	0:8fd0531ae0be	109
nixonkj	8:3e027705ce23	110	char acknowledgeData(char *data, char width, char pipe);
epgmdm	1:ff53b1ac3bad	111	char checkStatus();
nixonkj	6:77ead8abdd1c	112	void clearStatus();
nixonkj	6:77ead8abdd1c	113	void flushRx();
nixonkj	6:77ead8abdd1c	114	void flushTx();
epgmdm	0:8fd0531ae0be	115	char getRxData(char * buffer);
nixonkj	14:976a876819ae	116
nixonkj	14:976a876819ae	117	/** Get the payload width for the next FIFO item (can be dynamic or static payload width)
nixonkj	14:976a876819ae	118	*
nixonkj	14:976a876819ae	119	* @returns
nixonkj	14:976a876819ae	120	* width of next available payload.
nixonkj	14:976a876819ae	121	*/
epgmdm	0:8fd0531ae0be	122	char getRxWidth();
nixonkj	14:976a876819ae	123
epgmdm	1:ff53b1ac3bad	124	bool isAckData();
epgmdm	0:8fd0531ae0be	125	bool isRxData();
nixonkj	8:3e027705ce23	126
nixonkj	13:5cbc726f2bbb	127	/** Is the Received Power Detector (ala carrier detect) register set high?
nixonkj	13:5cbc726f2bbb	128	*
nixonkj	13:5cbc726f2bbb	129	* @returns
nixonkj	13:5cbc726f2bbb	130	* true on received power levels above -64 dBm present in the RF channel.
nixonkj	13:5cbc726f2bbb	131	* false received power is less than -64 dBm (could indicate interference, etc).
nixonkj	13:5cbc726f2bbb	132	*/
nixonkj	13:5cbc726f2bbb	133	bool isRPDset();
nixonkj	13:5cbc726f2bbb	134
nixonkj	14:976a876819ae	135
nixonkj	8:3e027705ce23	136	/** Writes message and waits for 10 ms (
nixonkj	8:3e027705ce23	137	*
nixonkj	8:3e027705ce23	138	* @param msg
nixonkj	8:3e027705ce23	139	*/
epgmdm	0:8fd0531ae0be	140	void log (char *msg);
nixonkj	8:3e027705ce23	141
epgmdm	0:8fd0531ae0be	142	void quickRxSetup(int channel,long long addr);
epgmdm	0:8fd0531ae0be	143	void quickTxSetup(int channel,long long addr);
nixonkj	6:77ead8abdd1c	144	void readReg(char address, char *data);
nixonkj	10:8a217441c38e	145	void readReg(char address, char *data, char width);
epgmdm	0:8fd0531ae0be	146	char testReceive();
epgmdm	0:8fd0531ae0be	147	char testTransmit();
nixonkj	6:77ead8abdd1c	148	char transmitData( char *data, char width );
epgmdm	0:8fd0531ae0be	149
nixonkj	6:77ead8abdd1c	150	char setAddressWidth(char width);
nixonkj	8:3e027705ce23	151
nixonkj	8:3e027705ce23	152	/** Sets the frequency channel nRF24L01+ operates on
nixonkj	8:3e027705ce23	153	*
nixonkj	8:3e027705ce23	154	* @param chan F0 = 2400 + chan [MHz]
nixonkj	8:3e027705ce23	155	* @returns
nixonkj	8:3e027705ce23	156	* 0 on success,
nixonkj	8:3e027705ce23	157	* non-zero on failure.
nixonkj	8:3e027705ce23	158	*/
epgmdm	0:8fd0531ae0be	159	char setChannel(char chan);
nixonkj	8:3e027705ce23	160
epgmdm	2:ca0a3c0bba70	161	void setDynamicPayload();
nixonkj	6:77ead8abdd1c	162	char setPwrUp();
defrost	19:f7e74aa7d663	163	char setPwrDown();
nixonkj	7:621a5b0cf1aa	164
nixonkj	7:621a5b0cf1aa	165	/** Set RF data rate and RF output power in TX mode
nixonkj	7:621a5b0cf1aa	166	*
nixonkj	7:621a5b0cf1aa	167	* @param speed RF data rate: '0x00' – 1Mbps, '0x01' – 2Mbps, '0x02' – 250kbps, '0x03' – Reserved
nixonkj	7:621a5b0cf1aa	168	* @param power RF output power: '0x00' – -18dBm, '0x01' – -12dBm, '0x02' – -6dBm, '0x03' – 0dBm
nixonkj	7:621a5b0cf1aa	169	* @returns
nixonkj	7:621a5b0cf1aa	170	* 0 on success,
nixonkj	7:621a5b0cf1aa	171	* non-zero on failure.
nixonkj	7:621a5b0cf1aa	172	*/
nixonkj	7:621a5b0cf1aa	173	char setRadio(char speed, char power);
nixonkj	7:621a5b0cf1aa	174
epgmdm	0:8fd0531ae0be	175	char setRxAddress(char *address, char pipe);
epgmdm	0:8fd0531ae0be	176	char setRxAddress(long long address, char pipe);
nixonkj	6:77ead8abdd1c	177	char setRxMode();
epgmdm	0:8fd0531ae0be	178	char setTxAddress(char *address);
epgmdm	0:8fd0531ae0be	179	char setTxAddress(long long address);
nixonkj	6:77ead8abdd1c	180	char setTxMode();
nixonkj	8:3e027705ce23	181
nixonkj	8:3e027705ce23	182	/** Sets the timing and number of TX retries
nixonkj	8:3e027705ce23	183	*
nixonkj	8:3e027705ce23	184	* @param delay Auto Retransmit Delay: '0000' – Wait 250uS', '0001' – Wait 500uS, ..., '1111' – Wait 4000uS
nixonkj	8:3e027705ce23	185	* @param numTries Auto Retransmit Count: '0000' – Re-Transmit disabled, '0001' – Up to 1 Re-Transmit on fail of AA, ..., '1111' – Up to 15 Re-Transmit on fail of AA
nixonkj	8:3e027705ce23	186	* @returns
nixonkj	8:3e027705ce23	187	* 0 on success,
nixonkj	8:3e027705ce23	188	* non-zero on failure.
nixonkj	8:3e027705ce23	189	*/
nixonkj	6:77ead8abdd1c	190	char setTxRetry(char delay, char numTries);
nixonkj	8:3e027705ce23	191
epgmdm	2:ca0a3c0bba70	192	void start();
nixonkj	8:3e027705ce23	193	char* statusString();
nixonkj	11:07f76589f00a	194
nixonkj	11:07f76589f00a	195	/** Print out 1 byte content of register
nixonkj	11:07f76589f00a	196	*
nixonkj	11:07f76589f00a	197	* @param name Name of register to print.
nixonkj	11:07f76589f00a	198	* @param address Register address of interest.
nixonkj	11:07f76589f00a	199	* @param newline By default print a trailing newline, can disable by setting false.
nixonkj	11:07f76589f00a	200	*/
nixonkj	11:07f76589f00a	201	void printReg(char* name, char address, bool newline=true);
nixonkj	9:c21b80aaf250	202
nixonkj	11:07f76589f00a	203	/** Print out 'width' bytes content of register
nixonkj	11:07f76589f00a	204	*
nixonkj	11:07f76589f00a	205	* @param name Name of register to print.
nixonkj	11:07f76589f00a	206	* @param address Register address of interest.
nixonkj	11:07f76589f00a	207	* @param width Number of bytes to print.
nixonkj	11:07f76589f00a	208	* @param newline By default print a trailing newline, can disable by setting false.
nixonkj	11:07f76589f00a	209	*/
nixonkj	11:07f76589f00a	210	void printReg(char* name, char address, char width, bool newline=true);
nixonkj	11:07f76589f00a	211
nixonkj	11:07f76589f00a	212	/** Print verbose details about the radio setup and configuration
nixonkj	9:c21b80aaf250	213	*
nixonkj	9:c21b80aaf250	214	*/
nixonkj	9:c21b80aaf250	215	void printDetails();
nixonkj	9:c21b80aaf250	216
nixonkj	6:77ead8abdd1c	217	void writeReg(char address, char *data, char width);
nixonkj	6:77ead8abdd1c	218	void writeReg(char address, char data);
epgmdm	0:8fd0531ae0be	219
epgmdm	0:8fd0531ae0be	220	void scratch();
epgmdm	0:8fd0531ae0be	221
epgmdm	0:8fd0531ae0be	222
nixonkj	9:c21b80aaf250	223	};
nixonkj	9:c21b80aaf250	224	#endif

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Type:	Library
Created:	04 Mar 2016
Imports:	0
Forks:	0
Commits:	20
Dependents:	0
Dependencies:	0
Followers:	2

NRF2401P.h@19:f7e74aa7d663, 2016-04-15 (annotated)

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