CAN Bus protocol¶
This section defines the CEX communication protocol.
This is the configuration of the messages that must be performed in Veronte Autopilot 1x to communicate with CEX.
Note
No configuration of these messages is required in CEX, as CEX is already internally configured to “understand” messages configured in this way.
Warning
For these messages sent from the 1x to be processed correctly, they must be received by the ‘Consumer’ Application processor.
CEX Communication Protocol via CAN Bus is defined as follows:
cmd (8 bits - 1 byte): First byte refers to the Message Type.
Messages Type are defined as follows:
Type
Value
Description
t_arbitration
0
Arbitration message
t_version
1
Version request / response
t_pwm_0_3_set
2
PWMs 0 to 3
t_pwm_4_7_set
3
PWMs 4 to 7
4
Reserved
t_esc_tm
5
Scorpion Tribunus ESC telemetry data
t_esc_tm2
6
Jeti ESC telemetry data
t_bec_tm1
7
Jeti BEC telemetry data 1
t_bec_tm2
8
Jeti BEC telemetry data 2
t_temp_tm
9
Jeti Temperature sensor telemetry data
t_mcu_cmd
10
Lift MCU battery command
t_pwm_8_11_set
11
PWMs 8 to 11
t_pwm_12_15_set
12
PWMs 12 to 15
t_pwm_16_19_set
13
PWMs 16 to 19
14
Reserved
15
Reserved
t_cmd_maint
16
Command to go to Maintenance Mode
t_stick_sel
17
Command for Stick selection
t_mcu_tm1
18
Lift MCU telemetry data 1
t_mcu_tm2
19
Lift MCU telemetry data 2
Note
All these Message Type are defined as a “Matcher” in the CAN custom messages configuration. For example, for PWMs 0-3, the Message Type will be configured as follows:
Value: 2. This is because it is the value for the message for PWMs 0 to 3 (it is indifferent to the PWM number).
Bits: 8. This is because the Message Type is an 8-bit message.
data (up to 56 bits - 8 bytes): The following bytes refer to the Message data.
Next sections decribe each one of the possible messages with an example. The following examples include complete messages, so each beginning corresponds to Message Type.
CEX Status¶
CEX status message is composed as follows:
Type |
Value |
Bytes |
Description |
---|---|---|---|
cmd (t_version) |
1 |
1 |
Version request / response |
data |
- |
1 |
Version - Major |
data |
- |
1 |
Version - Minor |
data |
- |
1 |
Version - Revision |
data (sysaddr) |
- |
1 |
Serial number - address 0 |
data (sysaddr) |
- |
1 |
Serial number - address 1 |
data |
- |
1 bit |
System Error bit (ID 7) |
data (CEX status) |
- |
1 bit |
System power up bit error bit (ID 12) |
data (CEX status) |
- |
1 bit |
PDI error bit (ID 9) |
data (CEX status) |
- |
1 bit |
Memory Allocationbit (ID 8) |
data (CEX status) |
- |
1 bit |
File system error bit (ID 6) |
data (CEX status) |
- |
1 bit |
CAN A ERROR bit (ID 73) |
data (CEX status) |
- |
1 bit |
CAN B ERROR bit (ID 74) |
data (CEX status) |
- |
1 bit |
false |
data (CEX status) |
- |
1 bit |
Arbiter enabled |
data (CEX status) |
- |
1 bit |
Arbiter status |
Arbitration¶
CEX Arbitration Status message is composed as follows:
Message 1: Sent when “Send status” is enabled
Type
Value
Bytes
Description
cmd (t_arbitration)
0
1
Arbitration message
Flag
255 ([0xFF])
1
Status Flag
CAP
-
7 bits
Active Autopilot (Current)
data
-
1 bit
Arbitrating
data
-
1 bit
AP0 Alive
data
-
1 bit
AP1 Alive
data
-
1 bit
AP2 Alive
data
-
1 bit
AP3 Alive (External)
data
-
1 bit
AP0 Ready
data
-
1 bit
AP1 Ready
data
-
1 bit
AP2 Ready
data
-
1 bit
AP3 Ready (External)
data (CEX status)
-
1 bit
System bit error (ID 7)
data (CEX status)
-
1 bit
System power up bit error (ID 12)
data (CEX status)
-
1 bit
PDI bit error (ID 9)
data (CEX status)
-
1 bit
Memory Allocation bit (ID 8)
data (CEX status)
-
1 bit
File system bit error (ID 6)
data (CEX status)
-
1 bit
CAN A bit error (ID 73)
data (CEX status)
-
1 bit
CAN B bit error (ID 74)
data (CEX status)
-
1 bit
false
data (CEX status)
-
1 bit
Arbiter enabled
data (CEX status)
-
1 bit
Arbiter status
Message 2 (One for each Veronte Autopilot 1x): Sent when “Send score” is enabled
Type
Value
Bytes
Description
cmd (t_arbitration)
0
1
Arbitration message
data
-
1
Autopilot ID [0, 3]
data
-
4 (32 bits)
Autopilot score as Float
Command PWMs¶
Each PWM in CEX has to be associated to a Sub Id that indicates which of the CAN Bus message’s PWM is listening to.
That allows to control up to four PWMs using the same message if that is desired. Each message is composed by 4 PWMs maximum.
PWMs from 0 to 3 are sent in a message that includes 4 PWMs coded as 12-bit integers:
Type
Value
Bytes
Description
cmd (t_pwm_0_3_set)
2
1
PWMs 0 to 3
data (pwm0)
-
12 bits
PWM value for sub-id 0
data (pwm1)
-
12 bits
PWM value for sub-id 1
data (pwm2)
-
12 bits
PWM value for sub-id 2
data (pwm3)
-
12 bits
PWM value for sub-id 3
PWMs from 4 to 7 are sent in a message that includes 4 PWMs coded as 12-bit integers:
Type
Value
Bytes
Description
cmd (t_pwm_4_7_set)
3
1
PWMs 4 to 7
data (pwm0)
-
12 bits
PWM value for sub-id 4
data (pwm1)
-
12 bits
PWM value for sub-id 5
data (pwm2)
-
12 bits
PWM value for sub-id 6
data (pwm3)
-
12 bits
PWM value for sub-id 7
PWMs from 8 to 11 are sent in a message that includes 4 PWMs coded as 12-bit integers:
Type
Value
Bytes
Description
cmd (t_pwm_8_11_set)
11
1
PWMs 8 to 11
data (pwm0)
-
12 bits
PWM value for sub-id 8
data (pwm1)
-
12 bits
PWM value for sub-id 9
data (pwm2)
-
12 bits
PWM value for sub-id 10
data (pwm3)
-
12 bits
PWM value for sub-id 11
PWMs from 12 to 15 are sent in a message that includes 4 PWMs coded as 12-bit integers:
Type
Value
Bytes
Description
cmd (t_pwm_12_15_set)
12
1
PWMs 12 to 15
data (pwm0)
-
12 bits
PWM value for sub-id 12
data (pwm1)
-
12 bits
PWM value for sub-id 13
data (pwm2)
-
12 bits
PWM value for sub-id 14
data (pwm3)
-
12 bits
PWM value for sub-id 15
PWMs from 16 to 19 are sent in a message that includes 4 PWMs coded as 12-bit integers:
Type
Value
Bytes
Description
cmd (t_pwm_16_19_set)
13
1
PWMs 16 to 19
data (pwm0)
-
12 bits
PWM value for sub-id 16
data (pwm1)
-
12 bits
PWM value for sub-id 17
data (pwm2)
-
12 bits
PWM value for sub-id 18
data (pwm3)
-
12 bits
PWM value for sub-id 19
Lift MCU telemetry¶
CEX to 1x¶
The telemetry sent by CEX via CAN Bus is composed by:
Message 1:
Type
Value
Bytes
Description
cmd (t_mcu_tm1)
18
1
Lift MCU telemetry data 1
data
-
1
Battery Serial Number [0]
data
-
1
Battery Serial Number [1]
data
-
1
Battery Temperature (as received from MCU)
data
-
1
Low Cell Voltage (as received from MCU)
-
4 bits
Reserved (Zeros)
data (Status Bit)
-
1 bit
PWM receiving Ok
data (Status Bit)
-
1 bit
CAN PWM receiving Ok
data (Status Bit)
-
1 bit
CAN B receiving
data (Status Bit)
-
1 bit
CAN A receiving
Message 2:
Type
Value
Bytes
Description
cmd (t_mcu_tm2)
19
1
Lift MCU telemetry data 2
data
-
1
Battery Serial Number [2]
data
-
1
Battery Serial Number [3]
data
-
1
Battery Serial Number [4]
data
-
1
Battery Serial Number [5]
data
-
1
Battery Serial Number [6]
data
-
1
Battery Serial Number [7]
1x to CEX¶
The telemetry sent from 1x to CEX must be configured as follows:
Type |
Value |
Bytes |
Description |
---|---|---|---|
cmd (t_mcu_cmd) |
10 |
1 |
Lift MCU battery command |
data |
- |
1 |
SUB-id A |
data |
- |
1 |
LED Value A |
data |
- |
1 |
SUB-id B |
data |
- |
1 |
LED Value B |
data |
- |
1 |
SUB-id C |
data |
- |
1 |
LED Value C |
Each CEX will use the SUB-id of the PWM associated to the “Scorpion Tribunus”/PWM ID to identify the value to be used.
Scorpion Tribunus ESC Telemetry (Lift)¶
The telemetry read from the Scorpion ESC is sent as:
Type |
Value |
Bytes |
Description |
---|---|---|---|
cmd (t_esc_tm) |
5 |
1 |
Scorpion Tribunus ESC telemetry data |
data |
- |
1 |
Input voltage in range [0, 85] |
data |
- |
1 |
Temperature in Celsius |
data |
- |
1 |
Error Flags from the ESC |
data |
- |
1 |
Current in Amps [0, 255] |
data |
- |
1 |
Consumption in mAmps [0, 25500] |
data |
- |
1 |
RPMs [0, 25500] |
data |
- |
1 |
Throttle as percentage*2 [0, 200] |
JetiTM ESC Telemetry¶
The telemetry read from Jeti-TM compatible ESCs is sent as:
Type |
Value |
Bytes |
Description |
---|---|---|---|
cmd (t_esc_tm2) |
6 |
1 |
Jeti ESC telemetry data |
data |
- |
1 |
Throttle value [0, 200] |
data |
- |
2 |
Current RPMs |
data |
- |
10 bits |
Input voltage in the range [0, 70] Volts |
data |
- |
10 bits |
Temperature in the range [0, 575] Kelvin |
data |
- |
12 bits |
Current in the range [0, 400.0] Amps |
Jeti BEC Telemetry¶
The telemetry read from a BEC will be sent in 2 different messages:
Message 1:
Type
Value
Bytes
Description
cmd (t_bec_tm1)
7
1
Jeti BEC telemetry data 1
data
-
2
Device ID
data
-
12 bits
Input voltage in the range [0, 70] Volts
data
-
12 bits
Output voltage in the range [0, 70] Volts
data
-
12 bits
Temperature in the range [0, 575] Kelvin
Message 2:
Type
Value
Bytes
Description
cmd (t_bec_tm2)
8
1
Jeti BEC telemetry data 2
data
-
2
Device ID
data
-
12 bits
Current in the range [0, 100.0] Amps
Jeti Temperature Sensor Telemetry¶
The telemetry read from a Temperature sensor will be sent as:
Type |
Value |
Bytes |
Description |
---|---|---|---|
cmd (t_temp_tm) |
9 |
1 |
Jeti Temperature sensor telemetry data |
data |
- |
2 |
Device ID |
data |
- |
12 bits |
Measured temperature 1 in the range [0, 750] Kelvin |
data |
- |
12 bits |
Measured temperature 2 in the range [0, 750] Kelvin |
Set Maintenance Mode Command¶
This command will configure the CEX in maintence mode, setting its configuration in a way that communications can work through SCI-A, SCI-B or Serial-to-CAN configured as:
SCI-A and SCI-B: 115200 bauds, 8 data bits, 1 stop, no parity.
Serial to CAN:
TX Id: 1301
RX Id: 1301
The format of the command is:
Type |
Value |
Bytes |
Description |
---|---|---|---|
cmd (t_cmd_maint) |
16 |
1 |
Command to go to Maintenance Mode |
Stick Selection Command¶
This command is used to enable or disable the CEX PPM reader. If the address received matches the CEX’s one, CEX PPM reader will be enabled, otherwise it will be disabled.
The format of the command is:
Type |
Value |
Bytes |
Description |
---|---|---|---|
cmd (t_stick_sel) |
17 |
1 |
Jeti Temperature sensor telemetry data |
data (sysaddr) |
- |
1 |
address 0 |
data (sysaddr) |
- |
1 |
address 1 |