Difference between revisions of "CanServo/Protocol/Control/en"

From HITEC_HELP
Jump to navigation Jump to search
 
(4 intermediate revisions by the same user not shown)
Line 1: Line 1:
This is the protocol used when Register [[CanServo/MODE/CAN/en]] = 2.0A or 2.0B.
This protocol is used when [[CanServo/MODE/CAN/en]] = 2.0A or 2.0B.
For protocol in UAVCAN state, refer to [[CanServo/Protocol/UAVCAN/en]].




CAN servo is controlled by sending CAN packets with CAN ID set in Register [[CanServo/ID2/en]] and data following the message format below.
CAN servo is controlled by sending CAN packets with CAN ID set in Register [[CanServo/ID2/en]] and data following the message format below.
According to the message type of CAN Data, the register containing servo operation data can be changed or read.
Depending on the message type of CAN Data, the servo register can be changed or read.
* As a simple example, when the following packet is sent, all received servos change the value of Register 0x30 to 0x1234.
* As a simple example, when the following packet is sent, all received servos change the value of Register 0x30 to 0x1234.
** CAN ID = 0
** CAN ID = 0
** CAN DATA = 'w', 0, 0x30, 0x34, 0x12
** CAN DATA = 'w', 0, 0x30, 0x34, 0x12
** DLC = 5
** DLC = 5
* However, the Can Packet Type is determined according to the [[CanServo/MODE/CAN/en]] setting value.





Latest revision as of 01:58, 29 September 2022

This protocol is used when CanServo/MODE/CAN/en = 2.0A or 2.0B. For protocol in UAVCAN state, refer to CanServo/Protocol/UAVCAN/en.


CAN servo is controlled by sending CAN packets with CAN ID set in Register CanServo/ID2/en and data following the message format below. Depending on the message type of CAN Data, the servo register can be changed or read.

  • As a simple example, when the following packet is sent, all received servos change the value of Register 0x30 to 0x1234.
    • CAN ID = 0
    • CAN DATA = 'w', 0, 0x30, 0x34, 0x12
    • DLC = 5
  • However, the Can Packet Type is determined according to the CanServo/MODE/CAN/en setting value.


There are 11 types of messages in 8 data bytes of CAN Packet, 3 old types and 8 new types. The first byte indicates the kind of message. The second byte is the servo ID.


Here, Target Servo ID must match the value of CanServo/ID1/en of Servo. Or if 0 is specified, all servos will react. For the exact procedure, refer to CanServo/Packet Accept Rule/en.


V0: Old Format:


  • Old Write Command
    • write 1 register
      • 0x96, (target servo id), (address), 2, (data low byte), (data high byte), (chksum)
      • DLC = 7


  • Old Read Command
    • read 1 register
      • 0x96, (target servo id), (address), 0, (chksum)
      • DLC = 5


  • Old Return Message
    • return 1 register
      • 0x69, (servo id), (address), 2, (data low byte), (data high byte), (chksum)
      • DLC = 7


  • Old message's chksum
    • add all bytes before chksum, except first byte


V1: New Format: (checksum removed)


  • Write Command
    • write 1 register
      • 'w', (target servo id), (address), (data low byte), (data high byte)
      • DLC = 5
    • write 2 registers
      • 'W', (target servo id), (address 0), (data 0 low byte), (data 0 high byte), (address 1), (data 1 low byte), (data 1 high byte)
      • DLC = 8


  • Read Command
    • read 1 register
      • 'r', (target servo id), (address)
      • DLC = 3
    • read 2 registers
      • 'R', (target servo id), (address 0), (address 1)
      • DLC = 4


  • Write and Read Command
    • write and read: 1 register
      • 'x', (target servo id), (address), (data low byte), (data high byte)
      • DLC = 5
    • write and read: 2 registers
      • 'X', (target servo id), (address 0), (data 0 low byte), (data 0 high byte), (address 1), (data 1 low byte), (data 1 high byte)
      • DLC = 8


  • Return Message : Servo --> Host
    • return 1 register
      • 'v', (servo id), (address), (data low byte), (data high byte)
      • DLC = 5
    • return 2 registers
      • 'V', (servo id), (address 0), (data 0 low byte), (data 0 high byte), (address 1), (data 1 low byte), (data 1 high byte)
      • DLC = 8