# SPDX-FileCopyrightText: 2021 ladyada for Adafruit Industries # SPDX-License-Identifier: MIT # Example to send a msgpack'd data packet periodically # Author: Jerry Needell, Tim Cocks # import time from io import BytesIO import board import busio import digitalio import msgpack # Dictionary object that we will msgpack and send over the radio payload_obj = {"counter": 0, "list": [True, False, None, 1, 3.14], "str": "CircuitPython is Fun!"} # Define radio parameters. RADIO_FREQ_MHZ = 915.0 # Frequency of the radio in Mhz. Must match your # module! Can be a value like 915.0, 433.0, etc. # Define pins connected to the chip, use these if wiring up the breakout according to the guide: CS = digitalio.DigitalInOut(board.D10) RESET = digitalio.DigitalInOut(board.D11) # Initialize SPI bus. spi = busio.SPI(board.SCK, MOSI=board.MOSI, MISO=board.MISO) # Initialze RFM radio # uncommnet the desired import and rfm initialization depending on the radio boards being used # Use rfm9x for two RFM9x radios using LoRa # from adafruit_rfm import rfm9x # rfm = rfm9x.RFM9x(spi, CS, RESET, RADIO_FREQ_MHZ) # Use rfm9xfsk for two RFM9x radios or RFM9x to RFM69 using FSK from adafruit_rfm import rfm9xfsk rfm = rfm9xfsk.RFM9xFSK(spi, CS, RESET, RADIO_FREQ_MHZ) # Use rfm69 for two RFM69 radios using FSK # from adafruit_rfm import rfm69 # rfm = rfm69.RFM69(spi, CS, RESET, RADIO_FREQ_MHZ) # For RFM69 only: Optionally set an encryption key (16 byte AES key). MUST match both # on the transmitter and receiver (or be set to None to disable/the default). # rfm.encryption_key = None # rfm.encryption_key = ( # b"\x01\x02\x03\x04\x05\x06\x07\x08\x01\x02\x03\x04\x05\x06\x07\x08" # ) # for OOK on RFM69 or RFM9xFSK # rfm.modulation_type = 1 # uncommnet to Disable the RadioHead Header # rfm.radiohead = False # in FSK/OOK modes rfo RFM69 or RFM9X - addresss filtering may be enabled # rfm.enable_address_filter=True # rfm.fsk_node_address=0x2 # rfm.fsk_broadcast_address=0xff # set the time interval (seconds) for sending packets transmit_interval = 5 # Note that the radio is configured in LoRa mode so you can't control sync # word, encryption, frequency deviation, or other settings! # You can however adjust the transmit power (in dB). The default is 13 dB but # high power radios like the RFM95 can go up to 23 dB: rfm.tx_power = 23 # initialize counter counter = 0 # Wait to receive packets. print("Waiting for packets...") # initialize flag and timer send_reading = False time_now = time.monotonic() while True: # Look for a new packet - wait up to 2 seconds: packet = rfm.receive(timeout=2.0) # If no packet was received during the timeout then None is returned. if packet is not None: # Received a packet! print("Received (raw data): ", packet) try: # Unpack and print contents b = BytesIO() b.write(packet) b.seek(0) unpacked_msg = msgpack.unpack(b) print(f"Received (unpacked): {unpacked_msg}") except Exception as e: print("Unable to unpack message. Exception: ") print(e) # send reading after any packet received if time.monotonic() - time_now > transmit_interval: # reset timeer time_now = time.monotonic() # clear flag to send data send_reading = False counter = counter + 1 b = BytesIO() payload_obj["counter"] = counter msgpack.pack(payload_obj, b) b.seek(0) rfm.send(b.read())