Grove - I2C FM Receiver v1.1
Version från den 3 februari 2021 kl. 15.17 av Christian (diskussion | bidrag)
Kompatibilitet
- Arduino
Port
- I2C
Bibliotek
https://github.com/mathertel/Radio/
Exempelkod
Arduino
#include <Wire.h>
#include <radio.h>
#include <RDA5807M.h>
#include <SI4703.h>
#include <SI4705.h>
#include <TEA5767.h>
#include <RDSParser.h>
/// The radio object has to be defined by using the class corresponding to the used chip.
/// by uncommenting the right radio object definition.
// RADIO radio; ///< Create an instance of a non functional radio.
// RDA5807M radio; ///< Create an instance of a RDA5807 chip radio
// SI4703 radio; ///< Create an instance of a SI4703 chip radio.
SI4705 radio; ///< Create an instance of a SI4705 chip radio.
// TEA5767 radio; ///< Create an instance of a TEA5767 chip radio.
/// get a RDS parser
RDSParser rds;
/// State definition for this radio implementation.
enum SCAN_STATE {
STATE_START, ///< waiting for a new command character.
STATE_NEWFREQ,
STATE_WAITFIXED,
STATE_WAITRDS,
STATE_PRINT,
STATE_END ///< executing the command.
};
SCAN_STATE state; ///< The state variable is used for parsing input characters.
uint16_t g_block1;
// - - - - - - - - - - - - - - - - - - - - - - - - - -
// use a function inbetween the radio chip and the RDS parser
// to catch the block1 value (used for sender identification)
void RDS_process(uint16_t block1, uint16_t block2, uint16_t block3, uint16_t block4) {
g_block1 = block1;
rds.processData(block1, block2, block3, block4);
}
/// Update the ServiceName text on the LCD display.
void DisplayServiceName(char *name)
{
bool found = false;
for (uint8_t n = 0; n < 8; n++)
if (name[n] != ' ') found = true;
if (found) {
Serial.print("RDS:");
Serial.print(name);
Serial.println('.');
}
} // DisplayServiceName()
/// Execute a command identified by a character and an optional number.
/// See the "?" command for available commands.
/// \param cmd The command character.
/// \param value An optional parameter for the command.
void runSerialCommand(char cmd, int16_t value)
{
unsigned long startSeek; // after 300 msec must be tuned. after 500 msec must have RDS.
RADIO_FREQ fSave, fLast;
RADIO_FREQ f = radio.getMinFrequency();
RADIO_FREQ fMax = radio.getMaxFrequency();
char sFreq[12];
RADIO_INFO ri;
if (cmd == '?') {
Serial.println();
Serial.println("? Help");
Serial.println("+ increase volume");
Serial.println("- decrease volume");
Serial.println("1 start scan version 1");
Serial.println("2 start scan version 2");
Serial.println(". scan up : scan up to next sender");
Serial.println(", scan down ; scan down to next sender");
Serial.println("i station status");
Serial.println("s mono/stereo mode");
Serial.println("b bass boost");
Serial.println("u mute/unmute");
}
// ----- control the volume and audio output -----
else if (cmd == '+') {
// increase volume
int v = radio.getVolume();
if (v < 15) radio.setVolume(++v);
} else if (cmd == '-') {
// decrease volume
int v = radio.getVolume();
if (v > 0) radio.setVolume(--v);
}
else if (cmd == 'u') {
// toggle mute mode
radio.setMute(!radio.getMute());
}
// toggle stereo mode
else if (cmd == 's') { radio.setMono(!radio.getMono()); }
// toggle bass boost
else if (cmd == 'b') { radio.setBassBoost(!radio.getBassBoost()); }
// ----- control the frequency -----
else if (cmd == '1') {
Serial.println("Scanning all available frequencies... (1)");
fSave = radio.getFrequency();
// start Simple Scan: all channels
while (f <= fMax) {
radio.setFrequency(f);
delay(50);
radio.getRadioInfo(&ri);
if (ri.tuned) {
radio.formatFrequency(sFreq, sizeof(sFreq));
Serial.print(sFreq);
Serial.print(' ');
Serial.print(ri.rssi); Serial.print(' ');
Serial.print(ri.snr); Serial.print(' ');
Serial.print(ri.stereo ? 'S' : '-');
Serial.print(ri.rds ? 'R' : '-');
Serial.println();
} // if
// tune up by 1 step
f += radio.getFrequencyStep();
} // while
radio.setFrequency(fSave);
Serial.println();
} else if (cmd == '2') {
Serial.println("Seeking all frequencies... (2)");
fSave = radio.getFrequency();
// start Scan
radio.setFrequency(f);
while (f <= fMax) {
radio.seekUp(true);
delay(100); //
startSeek = millis();
// wait for seek complete
do {
radio.getRadioInfo(&ri);
} while ((!ri.tuned) && (startSeek + 300 > millis()));
// check frequency
f = radio.getFrequency();
if (f < fLast) {
break;
}
fLast = f;
if ((ri.tuned) && (ri.rssi > 42) && (ri.snr > 12)) {
radio.checkRDS();
// print frequency.
radio.formatFrequency(sFreq, sizeof(sFreq));
Serial.print(sFreq);
Serial.print(' ');
do {
radio.checkRDS();
// Serial.print(g_block1); Serial.print(' ');
} while ((!g_block1) && (startSeek + 600 > millis()));
// fetch final status for printing
radio.getRadioInfo(&ri);
Serial.print(ri.rssi); Serial.print(' ');
Serial.print(ri.snr); Serial.print(' ');
Serial.print(ri.stereo ? 'S' : '-');
Serial.print(ri.rds ? 'R' : '-');
if (g_block1) {
Serial.print(' ');
Serial.print('['); Serial.print(g_block1, HEX); Serial.print(']');
} // if
Serial.println();
} // if
} // while
radio.setFrequency(fSave);
Serial.println();
} else if (cmd == 'f') { radio.setFrequency(value); }
else if (cmd == '.') { radio.seekUp(false); } else if (cmd == ':') { radio.seekUp(true); } else if (cmd == ',') { radio.seekDown(false); } else if (cmd == ';') { radio.seekDown(true); }
// not in help:
else if (cmd == '!') {
if (value == 0) radio.term();
if (value == 1) radio.init();
} else if (cmd == 'i') {
char s[12];
radio.formatFrequency(s, sizeof(s));
Serial.print("Station:"); Serial.println(s);
Serial.print("Radio:"); radio.debugRadioInfo();
Serial.print("Audio:"); radio.debugAudioInfo();
} // info
else if (cmd == 'x') {
radio.debugStatus(); // print chip specific data.
}
} // runSerialCommand()
/// Setup a FM only radio configuration with I/O for commands and debugging on the Serial port.
void setup() {
// open the Serial port
Serial.begin(57600);
Serial.print("Radio...");
delay(500);
// Initialize the Radio
radio.init();
// Enable information to the Serial port
radio.debugEnable();
radio.setBandFrequency(RADIO_BAND_FM, 8930);
// delay(100);
radio.setMono(false);
radio.setMute(false);
// radio.debugRegisters();
radio.setVolume(5);
Serial.write('>');
// setup the information chain for RDS data.
radio.attachReceiveRDS(RDS_process);
rds.attachServicenNameCallback(DisplayServiceName);
runSerialCommand('?', 0);
} // Setup
/// Constantly check for serial input commands and trigger command execution.
void loop() {
char c;
if (Serial.available() > 0) {
// read the next char from input.
c = Serial.read();
runSerialCommand(c, 8930);
} // if
// check for RDS data
radio.checkRDS();
} // loop