Added more documentation
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maniacbug
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79
RF24.h
79
RF24.h
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@ -57,7 +57,13 @@ protected:
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*/
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uint8_t read_register(uint8_t reg, uint8_t* buf, uint8_t len) ;
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uint8_t read_register(uint8_t reg) ;
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/**
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* Read single byte from a register
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*
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* @param reg Which register. Use constants from nRF24L01.h
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* @return Current value of register @p reg
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*/
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uint8_t read_register(uint8_t reg);
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/**
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* Write a chunk of data to a register
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@ -149,6 +155,12 @@ protected:
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*/
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void print_observe_tx(uint8_t value) ;
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/**
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* Turn on or off the special features of the chip
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*
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* The chip has certain 'features' which are only available when the 'features'
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* are enabled. See the datasheet for details.
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*/
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void toggle_features(void);
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/**@}*/
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@ -322,20 +334,54 @@ public:
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*/
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void openReadingPipe(uint8_t number, uint64_t address);
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/**
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* Enable custom payloads on the acknowledge packets
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*
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* Ack payloads are a handy way to return data back to senders without
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* manually changing the radio modes on both units. See the
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* pingpair_pl.pde example.
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*/
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void enableAckPayload(void);
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/**
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* Write an ack payload for the specified pipe
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*
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* The next time a message is received on @p pipe, the data in @p buf will
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* be sent back in the acknowledgement.
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*
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* @warning According to the data sheet, only three of these can be pending
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* at any time. I have not tested this.
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*
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* @param pipe Which pipe# (typically 1-5) will get this response.
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* @param buf Pointer to data that is sent
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* @param len Length of the data to send, up to 32 bytes max. Not affected
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* by the static payload set by setPayloadSize().
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*/
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void writeAckPayload(uint8_t pipe, const void* buf, uint8_t len);
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/**
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* Determine if an ack payload was received in the most recent call to
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* write().
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*
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* Call read() to retrieve the ack payload.
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*
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* @warning Calling this function clears the internal flag which indicates
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* a payload is available. If it returns true, you must read the packet
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* out as the very next interaction with the radio, or the results are
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* undefined.
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*
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* @return True if an ack payload is available.
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*/
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boolean isAckPayloadAvailable(void);
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};
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/**
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* @example pingpair.pde
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*
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* This is an example of how to use the RF24 class. Write this sketch to two different nodes,
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* connect the role_pin to ground on one. The ping node sends the current time to the pong node,
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* which responds by sending the value back. The ping node can then see how long the whole cycle
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* took.
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* This is an example of how to use the RF24 class. Write this sketch to two
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* different nodes, connect the role_pin to ground on one. The ping node sends
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* the current time to the pong node, which responds by sending the value back.
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* The ping node can then see how long the whole cycle took.
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*/
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/**
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@ -347,12 +393,33 @@ public:
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* unit will send out the value of millis() once a second. The pong unit will
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* respond back with a copy of the value. Each ping unit can get that response
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* back, and determine how long the whole cycle took.
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*
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Warning:
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Calling this function clears the internal flag which indicates a payload is available. If it returns true, you must read the packet out as the very next interaction with the radio, or the results are undefined.
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*
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* This example requires a bit more complexity to determine which unit is which.
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* The pong receiver is identified by having its role_pin tied to ground.
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* The ping senders are further differentiated by a byte in eeprom.
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*/
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/**
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* @example pingpair_pl.pde
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*
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* This is an example of how to do two-way communication without changing
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* transmit/receive modes. Here, a payload is set to the transmitter within
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* the Ack packet of each transmission. Note that the payload is set BEFORE
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* the sender's message arrives.
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*/
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/**
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* @example pingpair_sleepy.pde
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*
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* This is an example of how to use the RF24 class to create a battery-
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* efficient system. It is just like the pingpair.pde example, but the
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* ping node powers down the radio and sleeps the MCU after every
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* ping/pong cycle.
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*/
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/**
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* @mainpage Driver for nRF24L01 2.4GHz Wireless Transceiver
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*
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@ -9,11 +9,15 @@
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/**
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* Example RF Radio Ping Pair which Sleeps between Sends
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*
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* This is an example of how to use the RF24 class to create a battery-efficient system.
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* Write this sketch to two different nodes,
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* connect the role_pin to ground on one. The ping node sends the current time to the pong node,
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* which responds by sending the value back. The ping node can then see how long the whole cycle
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* took.
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* This is an example of how to use the RF24 class to create a battery-
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* efficient system. It is just like the pingpair.pde example, but the
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* ping node powers down the radio and sleeps the MCU after every
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* ping/pong cycle.
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*
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* As with the pingpair.pde example, write this sketch to two different nodes,
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* connect the role_pin to ground on one. The ping node sends the current
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* time to the pong node, which responds by sending the value back. The ping
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* node can then see how long the whole cycle took.
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*/
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#include <SPI.h>
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