Transducer ID

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XID or Transducer ID™ is a device communications bus system designed by Airmar Technology Corp., US<ref name="xidpatent"/> to enable an echosounder to identify the type of ultrasonic transducer being connected. This allows the echosounder to adjust for the specific properties of the transducer such as frequency, power rating, beam pattern.<ref>"Airmar Transducer ID Press Release" (PDF). Airmar Technology Corp. 2006-05-10. Archived from the original (PDF) on 2010-09-22. Retrieved 2019-06-28. ... enables the transducer to transmit important data to the echosounder, including transducer model, functions, frequency, power rating, beam pattern, impedance, ceramic element configuration and acoustic window material.</ref>

Communication is done over a single wire in a controller-device pattern with the echosounder as controller, and the transducer as device. Whileas electrically similar to 1-Wire, its protocol has no means of enumeration of multiple devices.

The system is implemented by Garmin and Raymarine in some of their echosounders.

Protocol<ref name=xidpatent/>

The bus is designed to work with 5V as logical 1, 0V as logical 0 with some means of protection against accidental connection to a boat's 12V DC system. The slave may be powered from the bus.

Low level signalling

Signalling is made with four types of bit primitives:

  1. "read" bit primitive
  2. "write 1" bit primitive
  3. "write 0" bit primitive
  4. "reset" bit primitive

Timing Constraints

Symbol Parameter Min. Typ. Max. Units
tCYC Cycle Time 100 - - µS
tRDL Read Clock Low Time 8 10 12 µS
tPRE ID Bus Precharge Time 2 - - µS
tHI-Z Read Bit High Impedance Time - - 40 µS
tDR Time to Data Ready 20 - 26 µS
tDH Data Hold Time 9 - 11 µS
tW1L Write "1" Low Time 17 19 21 µS
tW0L Write "0" Low Time 28 30 32 µS
tRESETL Reset Time Low 43 - - µS
tRESETH Reset Time High 200 - - µS

"reset" bit primitive

"reset" bit primitive timing diagram

"reset" aborts all commands and instructs transducer to enter its initial state.

"read" bit primitive

"read" bit primitive timing diagram

The transducer's controller is attached to the signalling line via a bidirectional IO pin with a weak pull-up resistor. The controller's IO pin is in high impedance state. After receiving the "read" bit primitive, it becomes an output to drive the bus low as required.

"write 1" bit primitive

"write 1" bit primitive timing diagram

"write 0" bit primitive

"write 0" bit primitive timing diagram

Commands

The echosounder can issue four different commands. Bit order is LSB first.

Command Mnemonic Opcode Address Data Read Size
RESET - - -
READ_VERSION 0xCC - variable
READ_BYTE 0x33 8bit address 8 bit
READ_BLOCK 0x99 - variable
CHECK_STATUS - - 1 bit

RESET command

RESET is issued as a bit primitive as described above.

READ_VERSION command

READ_VERSION is issued as Opcode 0xCC written to the slave.

Afterwards, a sequence of bytes is read with the first byte denoting the byte length of the available data.

READ_VERSION should be the first command after a RESET.

READ_BYTE command

READ_BYTE is issued as Opcode 0x33 and an 8 bit address written to the slave.

Valid addresses are 0..126, inclusive.

Afterwards, the result byte is clocked in.

READ_BLOCK command

READ_BLOCK is issued as Opcode 0x33.

Afterwards, a sequence of bytes is read with the first byte denoting the byte length of the available data. The last two bytes are a 16 bit checksum (big endian) using CRC-16-IBM algorithm.

CHECK_STATUS command

CHECK_STATUS is identical to the "read" bit primitive command.

If the transducer's processor is not able to respond, the bus will remain high during the read.

If the transducer's processor is waiting for a command, it answers the "read" bit primitive command by pulling the bus to low.

References

<references group="" responsive="1"><ref name=xidpatent>US 2005259517, "Transducer identification", issued 2005-11-24 </ref></references>