Datasheet

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Table Of Contents

Pico Examples: https://github.com/raspberrypi/pico-examples/tree/master/pio/manchester_encoding/manchester_encoding.pio Lines 48 - 70

48 .program manchester_rx

50 ; Assumes line is idle low, first bit is 0

51 ; One bit is 12 cycles

52 ; a '0' is encoded as 10

53 ; a '1' is encoded as 01

54 ;

55 ; Both the IN base and the JMP pin mapping must be pointed at the GPIO used for RX.

56 ; Autopush must be enabled.

57 ; Before enabling the SM, it should be placed in a 'wait 1, pin` state, so that

58 ; it will not start sampling until the initial line idle state ends.

60 start_of_0: ; We are 0.25 bits into a 0 - signal is high

61 wait 0 pin 0 ; Wait for the 1->0 transition - at this point we are 0.5 into the

Ê bit

62 in y, 1 [8] ; Emit a 0, sleep 3/4 of a bit

63 jmp pin start_of_0 ; If signal is 1 again, it's another 0 bit, otherwise it's a 1

65 .wrap_target

66 start_of_1: ; We are 0.25 bits into a 1 - signal is 1

67 wait 1 pin 0 ; Wait for the 0->1 transition - at this point we are 0.5 into the

Ê bit

68 in x, 1 [8] ; Emit a 1, sleep 3/4 of a bit

69 jmp pin start_of_0 ; If signal is 0 again, it's another 1 bit otherwise it's a 0

70 .wrap

The main complication here is staying aligned to the input transitions, as the transmitter’s and receiver’s clocks may

drift relative to one another. In Manchester code there is always a transition in the centre of the symbol, and based on

the initial line state (high or low) we know the direction of this transition, so we can use a wait instruction to

resynchronise to the line transitions on every data bit.

This program expects the X and Y registers to be initialised with the values 1 and 0 respectively, so that a constant 1 or

0 can be provided to the in instruction. The code that configures the state machine initialises these registers by

executing some set instructions before setting the program running.

Pico Examples: https://github.com/raspberrypi/pico-examples/tree/master/pio/manchester_encoding/manchester_encoding.pio Lines 73 - 93

73 static inline void manchester_rx_program_init(PIO pio, uint sm, uint offset, uint pin, float

Ê div) {

74 pio_sm_set_consecutive_pindirs(pio, sm, pin, 1, false);

75 pio_gpio_init(pio, pin);

77 pio_sm_config c = manchester_rx_program_get_default_config(offset);

78 sm_config_set_in_pins(&c, pin); // for WAIT

79 sm_config_set_jmp_pin(&c, pin); // for JMP

80 sm_config_set_in_shift(&c, true, true, 32);

81 sm_config_set_fifo_join(&c, PIO_FIFO_JOIN_RX);

82 sm_config_set_clkdiv(&c, div);

83 pio_sm_init(pio, sm, offset, &c);

85 // X and Y are set to 0 and 1, to conveniently emit these to ISR/FIFO.

86 pio_sm_exec(pio, sm, pio_encode_set(pio_x, 1));

87 pio_sm_exec(pio, sm, pio_encode_set(pio_y, 0));

88 // Assume line is idle low, and first transmitted bit is 0. Put SM in a

89 // wait state before enabling. RX will begin once the first 0 symbol is

90 // detected.

91 pio_sm_exec(pio, sm, pio_encode_wait_pin(1, 0) | pio_encode_delay(2));

92 pio_sm_set_enabled(pio, sm, true);

93 }

RP2040 Datasheet

3.6. Examples 375