67 443MHz Manchester Decoding

67 : 443MHz Manchester Decoding

  • Author: Zachary Kohnen
  • Description: A manchester decoder and parser for a 433 mhz transmission
  • GitHub repository
  • Clock: 20000 Hz

How it works

There are 2 state machines. One to decode the manchester encoded signal, and the other to parse the data frames. For the manchester decoding aspect, the following state machine is implemented.

State Diagram

Blue text are side effects of the transitions. $N_s$ is a counter that increments while in each state, and is reset on each state transition.

The state machine makes use of a delay of 5 cycles in order to ignore any non-data carrying transition.

The data sent over the air follows the following format. (bit labels are as the data is shifted into a shift-register (0 = last bit received)) State Diagram

In order to save space in the design, since the preamble section and data section are of equal length, only half of the message needs to be buffered at a time.

The below diagram shows 2 views into the shift register. The first view is used to validate the existence of a preamble. Once that has been tripped, the system reloads the register with 0x1, and fills the register again until the initial set bit falls into the last (96) place, causing the shift register to halt all loads until it is reset. State Diagram

How to test

Wire the system up, and read out the internal registers through the parallel_out lines

Address Parallel Out
0000 thermostat_id[7:0]
0001 thermostat_id[15:8]
0010 thermostat_id[23:16]
0011 thermostat_id[31:24]
0100 room_temp[7:0]
0101 room_temp[15:8]
0110 set_temp[7:0]
0111 set_temp[15:8]
1000 state
1001 tail_1
1010 tail_2
1011 tail_3
1100-1111 00000000

External hardware

Pin ui_in[0] (digital_in) must be connected to the digital output of a 433MHz receiver

IO

#InputOutputBidirectional
0digital_inparallel_out[0]full
1parallel_out[1]manchester_clock
2haltparallel_out[2]manchester_data
3parallel_out[3]transmission_begin
4address[0]parallel_out[4]neg_edge
5address[1]parallel_out[5]pos_edge
6address[2]parallel_out[6]
7address[3]parallel_out[7]

Chip location

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