Difference between revisions of "Protocol decoder:Rfm12"
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| source_code_dir = rfm12 | | source_code_dir = rfm12 | ||
| image = [[File:RFM12.png|250px]] | | image = [[File:RFM12.png|250px]] | ||
| input = spi | | input = [[Protocol decoder:spi|spi]] | ||
| output = rfm12 | | output = rfm12 | ||
| probes = — | | probes = — | ||
| optional_probes = — | | optional_probes = — | ||
| options = — | |||
}} | }} | ||
The '''rfm12''' decoder supports the control protocol for the [http://www.hoperf.com/rf/fsk_module/RFM12B.htm HopeRF RFM12] transceiver chip. | The '''rfm12''' decoder supports the control protocol for the [http://www.hoperf.com/rf/fsk_module/RFM12B.htm HopeRF RFM12] transceiver chip. | ||
== Hardware == | |||
RFM12B is a single chip, low power, multi-channel FSK transceiver designed for use in applications requiring FCC or ETSI conformance for unlicensed use in the 433MHz, 868MHz and 915MHz bands. | RFM12B is a single chip, low power, multi-channel FSK transceiver designed for use in applications requiring FCC or ETSI conformance for unlicensed use in the 433MHz, 868MHz and 915MHz bands. | ||
These modules come in three different form factors, DIP package (shown on the photo in the upper right) and two SMD packages: S1 with normal crystal and S2 with low-profile crystal. | |||
<gallery> | |||
File:Hoperf rfm12bs top.jpg|<small>RFM12B-S, top</small> | |||
File:Hoperf rfm12bs bottom.jpg|<small>RFM12B-S, bottom</small> | |||
</gallery> | |||
Pins: | Pins: | ||
Latest revision as of 23:56, 2 April 2015
 | |
| Name | RFM12 control protocol |
|---|---|
| Description | HopeRF RFM12 wireless transceiver control protocol |
| Status | supported |
| License | GPLv2+ |
| Source code | decoders/rfm12 |
| Input | spi |
| Output | rfm12 |
| Probes | — |
| Optional probes | — |
| Options | — |
The rfm12 decoder supports the control protocol for the HopeRF RFM12 transceiver chip.
Hardware
RFM12B is a single chip, low power, multi-channel FSK transceiver designed for use in applications requiring FCC or ETSI conformance for unlicensed use in the 433MHz, 868MHz and 915MHz bands.
These modules come in three different form factors, DIP package (shown on the photo in the upper right) and two SMD packages: S1 with normal crystal and S2 with low-profile crystal.
RFM12B-S, top
RFM12B-S, bottom
Pins:
| Name | Function |
|---|---|
| nINT/VDI | Interrupt input (active low) / valid data indicator |
| VDD | Positive power supply |
| SDI | SPI data input |
| SCK | SPI clock input |
| nSEL | Chip select (active low) |
| SDO | SPI data output |
| nIRQ | Interrupt request output (active low) |
| FSK/DATA/nFFS | Transmit FSK data input / received data output (FIFO not used) / FIFO select |
| DCLK/CFIL/FFIT | Clock output (no FIFO) / external filter capacitor (analog mode) / FIFO interrupts (active high) |
| CLK | Clock output for external microcontroller |
| nRES | Reset output (active low) |
| GND | Power ground |
Protocol
In minimal configuration the chip uses the standard SPI protocol on pins SDI, SDO, SCK and nSEL. You can optionally connect nIRQ which will be pulled low by the transceiver to trigger interrupt requests. There is also an option to transmit and receive the data without the SPI protocol overhead using the dedicated DATA and DCLK pins.
SPI communication happens in a fixed length of 16-bit chunks. During each exchange the microcontroller first sends the command and then receives the response.
Decoder
The rfm12 decoder stacks on top of the SPI decoder and decodes the SPI exchanges. It shows what commands were sent to the chip and decodes the responses. It also interprets the commands and shows what happened to the chip.
Some decoded commands in PulseView:
Status command.
Receiver control command.
