GitBucket
Experimental project around RFM radio modules using an AVR MCU
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GitHub
committed
on 9 Mar 2025
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| nbproject | 1 year ago | ||
| .gitignore | 1 year ago | ||
| CODE_OF_CONDUCT.md | 1 year ago | ||
| LICENSE | 1 year ago | ||
| Makefile | 1 year ago | ||
| README.md | 1 year ago | ||
| avrrfm.c | 1 year ago | ||
| bitmaps.c | 1 year ago | ||
| bitmaps.h | 1 year ago | ||
| colorspace.c | 1 year ago | ||
| colorspace.h | 1 year ago | ||
| dejavu.c | 1 year ago | ||
| dejavu.h | 1 year ago | ||
| display.c | 1 year ago | ||
| display.h | 1 year ago | ||
| font.c | 1 year ago | ||
| font.h | 1 year ago | ||
| i2c.c | 1 year ago | ||
| i2c.h | 1 year ago | ||
| mcp9808.c | 1 year ago | ||
| mcp9808.h | #1) | 1 year ago | |
| pins.h | 1 year ago | ||
| rfm69.c | 1 year ago | ||
| rfm69.h | 1 year ago | ||
| spi.c | 1 year ago | ||
| spi.h | 1 year ago | ||
| tft.c | 1 year ago | ||
| tft.h | 1 year ago | ||
| types.h | 1 year ago | ||
| unifont.c | 1 year ago | ||
| unifont.h | 1 year ago | ||
| usart.c | 1 year ago | ||
| usart.h | 1 year ago | ||
| utils.h | 1 year ago | ||
AVRRFM
About
Experimental project to drive an RFM69HCW radio module with plain avr-libc
and an Atmega328p MCU.
This is work in progress. Simple Tx-Rx is working so far.
I'm impressed how well these radio modules work; the range achieved with
simple wire antennas as well as the reliable packet transmission.
To do something really extraordinary, the temperature reading of an MCP9808
sensor is periodically transmitted to the receiver.
To save battery power, the controller, radio module and temperature sensor
are put to power down/sleep mode in between transmissions. The idle current
is ~57 uA, which is still quite a lot (< 10 uA should be possible), but already
better than 8 mA :-)
The receiver currently just converts the raw temperature reading to °C and
displays it with the RSSI value and CRC result on a nice IPS TFT display.
Range
Setting RegPaLevel to 0x5f, which gives +13 dBm with PA1, indoor range is very good
and in an actual "field" test, packet reception was still reliable with an RSSI of about -90 dBm
at about 2.2 km distance - with simple wire antennas. What would be the range with +20 dBm and
decent antennas?
Susceptibility to Temperature Changes
With the default Frequency Deviation of 5 kHz and Receiver Bandwidth of 10.4 kHz, packet transmission
is very unreliable and fails completely for me, when the temperature of the transmitter is below
~10°C and above 40°C, while the receiver temperature is at 20°C. The receiver does not seem to be
prone to temperature changes.
Increasing Frequency Deviation to 10 kHz and Receiver Bandwidth to 20.8 kHz, temperature susceptibility
is eliminated; when testing with transmitter temperature from -20°C to 50°C, packet transmission is
perfectly reliable.
Frequency Deviation = 10 kHz (transmitter)RegFdevMsb = 0x00RegFdevLsb = 0xa4
Receiver Bandwidth = 20.8 kHzRegRxBw = 0x54
Fun Stuff
Looking at the payload in the transmitted signal in URH (with an RTL-SDR Blog V4):
The four selected payload bytes are:
0b00000011Payload length (address byte + 2 byte temperature value)0b01000010Address (0x42)0b11000001Upper byte of raw temperature value from MCP98080b01010011Lower byte of raw temperature value from MCP9808
Calculating the temperature (assuming >= 0°C):
jshell> (0b11000001 & 0x1f) * 16 + 0b01010011 / 16f $1 ==> 21.1875
So, 21.2 °C 🙂
The first 15 0b10101010 bytes are the preamble, then there are 4 sync word bytes.
After the 4 payload bytes, there are 2 CRC bytes as described in the datasheet of the RFM69HCW: