Zingto INYYO Q303 User Manual

Zingto INYYO Q303 2 1 - Zingto INYYO Q303 User Manual

Table of Contents

Part Description

  1. Quick-release lug
  2. Yaw arm
  3. Yaw electric machinery
  4. Roll electric machinery
  5. Roll arm
  6. Pitch electric machinery
  7. Visible light module
  8. Thermal imager
  9. Laser ranging module
  10. Card Slot

Packing list

Packing type

Air case

Inner liner

Sponge

Packing size

365(L)×270(W)×190(H)mm

Packing weight

2963±20g

  • The pod body contains a 32G Mirco SD card.
  • Due to the different user’s usage environment and mechanical platforms interfaces, please equip other wire rod according to the electrical interface definition in this article. Thanks for understanding!

Mechanical Dimensions (unit :mm)

Pod body:
Quick-release bracket:
12V Network port version controller (Default):
HDMI+network port wide voltage version controller (optional ):

Interface Definition

12V Network port version controller (Default):
HDMI+network port wide voltage version controller (optional ):

Note

SYS_BUS

System bus, connecting quick-release bracket.

DC

12V power interface, do not input voltage beyond the supported range.

RJ45 (1)

Connection data&video transmitter, for video reading or TCP command control.

RJ45 (2)

Same as RJ45 (1), can be used at the same time.

SBUS

Connect the remote control receiver for SBUS rocker control

COM(1)

(UART )

Connect data&video transmitter or flight controller for serial port command control and data reading, default is TTL, optional 232.

COM(2)

Reserved serial port, can only receive the “Data Receiving Protocol”.

HDMI

Connection video transmitter, for video reading.

Installation Method

Other Precautions

  1. Please confirm the power supply voltage according to the electrical interface definition in this article. Do not input voltage beyond the supported range, otherwise it may burn the equipment;
  2. Before supplying power to the module, please confirm the positive and negative poles of the power supply;
  3. When using battery power, please check to make sure the battery can discharge normally;
  4. When you need to control the pod through the serial port, please do not input voltage to the serial port end, otherwise it will cause damaged control board;
  5. When installing the damping ball, please check whether the damping method is down pressure type, and can not be changed to pull type, otherwise it will cause serious consequences such as falling and damage;
  6. Ensure that there are no obstructions within the activity range of the PTZ, otherwise it may cause serious consequences such as the PTZ not working properly or even burning out;
  7. Do not add other items such as hoods, counterweights, etc. Otherwise, it will cause poor working performance of the gimbal and even serious consequences such as burning;
  8. Do not use thermal imager to photograph the sun, otherwise will be burned;
  9. It is strictly forbidden to look directly with the eye backlight or observe the laser beam with the optical instrument backlight. It is strictly forbidden to have flammable objects within 20cm in front of the laser equipment;
  10. The quick-release interface does not support hot swapping;
  11. Do not use in vibration environments that exceed the effective working amplitude, as this may cause serious consequences such as damage.
  12. Do not remove the SD card during the photo or video recording, otherwise the images obtained during the photo shooting may be lost;
  13. The working time of a single time shall not exceed 12 hours, after that, it is necessary to wait for the equipment to recover to normal temperature before powering on;
  14. Please keep the lens clean and wipe it with a dust-free glasses cloth. The lens is too dirty or the focusing speed is slow or even unable to focus, focusing and other consequences;
  15. Do not disassemble or repair by yourself, otherwise you will not be able to enjoy the warranty policy.

Channel Description

  • Connect your receiver or other link transmission equipment to the SBUS interface of the pod (conventional remote controls typically use a DuPont plug), and set up your remote control channels as needed;
  • The rotation speed of PTZ is linear with the gear value, When the channel gear value is less than 50, PTZ will not act. It is normal that some remote controllers with lower accuracy cannot stop the movement of PTZ after the rocker returns to the center. When operating the rocker, the movement needs to slowly return to the center to avoid effectively;
  • The camera can take pictures during recording;
  • The pitch axis is a self stabilizing axis, which can maintain the pitch angle relative to the plane position in real time;
  • The working status of the yaw axis depends on the “Course Follow” and “Course Lock” modes;
  • The roll axis is self stabilize axis, maintains a horizontal attitude in real time.

SBUS Channel setting instruction

No.

Function

Byte

Note

1

Header

0xEE

 

2

ID Message ID

0x04

 

3

Frame length

0x1C

The length of all messages is 28 bytes

4

Pitch

  

5

Yaw

  

6

Visible light zoom

  

7

Visible light manual focus

  

8

 PTZ Mode switch, 90° overlook

 

The corresponding byte for each function represents the corresponding channel number, such as the pitch byte is 0x01, and the yaw byte is 0x03, which represent channel 1 controlling pitch and channel 3 controlling yaw. The channel number range is 1-16. If it exceeds the range, it cannot be set successfully, and “0” represents not activating this function.

9

One-click reset

  

10

Photography

  

11

Target detection and tracking

  

12

PIP and thermal color

  

13

Thermography electronic zoom

  

14

 Laser ranging

  

15

Laser night vision (none)

  

16

 OSD-switch

  

17

Reserve

  

18

Reserve

  

19

Reserve

  

20

Reserve

  

21

Reserve

  

22

Reserve

  

23

Reserve

  

24

Reserve

  

25

Reserve

  

26

Reserve

  

27

Reserve

  

28

 Sum check

 

1-27 byte sum, take the lower eight bits

Example:

				
					0xEE,0x82,0x1C,0x01,0x03,0x02,0x04,0x05,0x06,0x00,0x00,0x00,0x00,0x00,0x00,
0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0xA1
				
			

(Pitch is CH1, yaw is CH3, zoom is CH2, manual focus is CH4, mode switch is CH5, one click reset is CH6, and other functions are not mapped)

To set the SBUS channel, you need to connect the serial port. Send the setting instruction in the above format or use the software client to set it. The Baud of the serial port is 115200. To use the PC terminal for operation, you need to provide your own USB to TTL serial port module for connection.

Network Port Settings

Taking PC as an example (you can flexibly connect other link transmission equipment according to your needs), use a network cable to connect the network port between the pod and the computer, and close the firewall.

Open the “network” on your computer, select the “network and Internet settings” then select the “change adapter option”, and finally select “IPv4” in “Ethernet” to modify the computer website. Please make sure that the computer and pod are in the same network segment, as shown in the figure.

After setting the network segment of the computer, enter the URL (default) 192.168.144.119:8554into the configuration interface, and you can set the video pull flow address, URL, port number, compressed format (H.264 / 265) and bit rate.

Open VLC media player (Download software by yourself), Enter the pod RTSPvideo (default) address: rtsp://192.168.144.119/554

“Caching” input “300ms” for better video effect.

TCP default control port: 2000

Modify IP address and video encoder configuration

Power up the photoelectric pod normally, connect the network port to the computer, and log in to 192.168.144.119:8554on the browser (192.168.144.119 is the current IP address of photoelectric pod) for coding configuration.

Enter the coding configuration page, and the basic information on theconfiguration page is as follows:

  • System Info: System information.
  • Soft Version: Software version, that is, the current version of the tracker of this product. Tracker current version
  • Device Configuration: Device configuration
  • Camera IP: The IP address of this product is 192.168.144.119 by default, and the port number is 2000.
    Users can freely change this address (remember not to forget), which should be consistent with the IP address network segment on the computer Same, if different, address settings need to be done using Ethernet on the computer.
  • Remote IP:The remote control address of this product.
  • Camera UDP Control Port:The default is 14551.
  • Compression Quality:Optional high, medium, and low, default to high.
  • HDMI Output FPS:You can choose between 30 and 60, and the default is 30.
  • Stream Type:H.264 and H.265 can be selected, with H.264 recording as the default.
  • Encoder Bitrate:The encoding rate size defaults to 2048.
  • Rtmp Server Name:default to rtmp://192.168.2.117/live/view pro.
  • Gateway: IP Gateway
  • Web Por:Enter the webpage port number of this webpage.
  • RTSP Output for image transmission:RTSP output for image transmission can be selected from “Default”, “Real time Priority” and “Low fps”.
  • After changing the device configuration, click Submit. The page displays that after the change is successful, restart.

Remote download of photos/videos from web pages

  • Click to download videos and photos.
  • Open photos or videos according to your needs.
  • When opening a photo, double-click to view it.
  • Open video recording: Open the video you want to download, right-click on the screen interface ->Save As, select a location, and click Save. After the browser displays that the download is complete, you can view the recorded video in the saved location.

Instruction protocol

Protocol format

byte 1

byte 2

byte 3

byte 4

byte 5

byte 6

byte 7

Sync byte

Address code

Instruction code1

Instruction code2

Data code 1

Data code 2

Check code

  • Serial port or network port can be used for command control, and the serial port version controller baud rate 115200bps; The network IP address (default) is 192.168.144.119, and the port number is 2000;
  • All the values in the protocol are hexadecimal;
  • The instruction sync byte is always 0xFF;
  • ‘’Address code‘’ is the logical address of the controlled equipment, address range: 0x01-0xFF;
  • ‘’Instruction code‘’ indicates different actions;
  • ‘’Data codes ‘’ 1 and 2 represent the parameters corresponding to the pod command;
  • ‘’Check code‘’ = byte 2 + byte 3 + byte 4 + byte 5 + byte 6.
  • The “Data receiving protocol” and “SBUS channel configuration” are only valid on the serial port.

Instruction ID

Instruction code 1

Instruction code 2

Command meaning

0x00

0x08

Pitch up, speed depends on data code 2 (0-FF), 0-45°/s

0x00

0x10

Pitch down, ‘’speed’’ depends on ‘’data code 2’’ (0-FF), 0-45°/s

0x00

0x04

Heading left, ”speed” depends on ”data code 1” (0-FF), 0-45°/s

0x00

0x02

Heading right, ”speed” depends on ”data code 1” (0-FF), 0-45°/s

0x00

0x0c

PTZ upper left, the ‘’left speed’’ depends on ‘’data code 1’’, the ‘’up speed’’ depends on ‘’data code 2’’ (0-FF)

Instruction code 1

Instruction code 2

Command meaning

0x00

0x14

PTZ lower left, the left speed depends on data code 1, and the lower speed depends on data code 2 (0-FF)

0x00

0x0a

PTZ upper right, the ‘right speed’ depends on ‘data code 1’, the ‘up speed’ depends on ‘data code 2’ (0-FF)

0x00

0x12

PTZ right down, the ‘right speed’ depends on ‘data code 1’, the ‘down speed’ depends on ‘data code 2’ (0-FF)

0x00

0x00

 Motion stop (speed control mode)

0x10

0x01

Pitch angle control, (”data code 1”*256+”data code 2”) ÷ 50 is the angle value (signed int16)

0x10

0x02

Heading angle control, (”data code 1”*256+”data code 2”) ÷ 50 is the angle value (signed int16)

0x10

0x00

Pointing movement (screen XY coordinates), ”Data code 1” is the X value (↔), ”Data code 2” is the Y value (↕0-FF)Point to move, ‘’data code 1‘’ is X value(↔), ‘’data code 2‘’is Y value(↕0-FF)

0x11

0x00

Point tracking (screen XY coordinates), ”Data code 1” is the X value (↔), ”Data code 2” is the Y value (↕0-FF)Point to tracking, ‘’data code 1‘’ is X value(↔), ‘’data code 2‘’is Y value(↕0-FF)

0x11

0x01

Stop tracking

0x13

0x00

Follow yaw mode

0x13

0x01

Lock yaw mode

0x13

0x02

90° overlook

0x13

0x03

One-click reset

0x12

0x00

 Take a picture

0x12

0x01

Start recording

0x12

0x02

Stop recording

0x00

0x40

Visible light zoom + ‘’Speed‘’ depends on ‘’data code 1‘’(0-8)

0x00

0x20

Visible light zoom -, ‘’Speed‘’ depends on ‘’data code 1‘’(0-8)

0x00

0x60

Visible light zoom stop, ‘’data code‘’is 0

0x1F

0x00

Visible light specify optical zoom, (‘’data code 1‘’-1) is ‘’multiple‘’

0x1D

0x00

 Turn on visible light manual focus

0x1D

0x01

Turn off visible light manual focus

0x1D

0x03

 Visible light manual focusing +

0x1D

0x02

 Visible light manual focusing –

0x1D

0x04

Visible light manual focusing stop

Instruction code 1

Instruction code 2

Command meaning

0×14

0×00

Screen mode(PIP) switch, ‘data code 1’ is the PIP screen mode (0x00: visible light embedded in thermal 

imaging, 0x01: visible light embedded in thermal imaging 0x02: visible light, 0x03: thermal imaging)

0×15

0×00

Thermal color palettes switch, ‘data code 1’ is the color palettes (0x00: white thermal, 0x01: black thermal, 0x02: rainbow, 0x03: lava)

0×17

0×00

Thermography electronic zoom, ‘data code 1’ is zoom multiple (0x00-0x07, Corresponds to 1-8× in sequence)

0×16

0×00

Triggered Location/Single ranging

0×16

0×01

Turn on continuous ranging

0×16

0×02

Turn off continuous ranging

0x19

0x00

Turn on OSD

0x19

0x01

Turn off OSD

0x1E

0x00

Query SBUS channel configuration

0x20

0x00

Set the data reply frequency,“data code 1”is the frequency (1-10Hz)

0x21

0x00

Restore default video streaming address

Instruction example

Control instruction

Instruction meaning

0xFF,0x01,0x00,0x08,0x00,0xFF,0x08

 Pitch up (max speed)

0xFF,0x01,0x00,0x10,0x00,0xFF,0x10

Pitch dwon (max speed)

0xFF,0x01,0x00,0x04,0xFF,0x00,0x04

 Yaw left (max speed)

0xFF,0x01,0x00,0x02,0xFF,0x00,0x02

Yaw right (max speed)

0xFF,0x01,0x00,0x0C,0xFF,0xFF,0x0B

PTZ left and up (max speed)

0xFF,0x01,0x00,0x14,0xFF,0xFF,0x13

PTZ left and down (max speed)

0xFF,0x01,0x00,0x0A,0xFF,0xFF,0x09

 PTZ right and up (max speed)

0xFF,0x01,0x00,0x12,0xFF,0xFF,0x11

PTZ right and down (max speed)

0xFF,0x01,0x00,0x00,0x00,0x00,0x01

Motion stop

0xFF,0x01,0x10,0x01,0x01,0xF4,0x07

Pitch position to +10°

0xFF,0x01,0x10,0x02,0x13,0x88,0xAE

 Yaw position to +100°

0xFF,0x01,0x10,0x02,0xEE,0x6C,0x6D

Yaw position to -90°

0xFF,0x01,0x10,0x00,0x40,0x40,0x91

Pointing move to ¼ of the screen

Control instruction

Instruction meaning

 

0xFF,0x01,0x11,0x00,0x40,0x40,0x92

Point to tracking,

lock the upper left 1/4 target of the video screen

 

0xFF,0x01,0x11,0x00,0x7F,0x7F,0x10

Point to tracking,

lock the center point target of the video  screen

0xFF,0x01,0x11,0x01,0x00,0x00,0x13

Stop tracking

0xFF,0x01,0x13,0x00,0x00,0x00,0x14

Follow yaw mode

0xFF,0x01,0x13,0x01,0x00,0x00,0x15

 Lock yaw mode

0xFF,0x01,0x13,0x02,0x00,0x00,0x16

90° overlook

0xFF,0x01,0x13,0x03,0x00,0x00,0x17

One-click reset

0xFF,0x01,0x12,0x00,0x00,0x00,0x13

Take a picture

0xFF,0x01,0x12,0x02,0x00,0x00,0x15

Start recording

0xFF,0x01,0x12,0x01,0x00,0x00,0x14

Stop recording

0xFF,0x01,0x00,0x40,0x04,0x00,0x45

Visible light zoom+ (medium speed)

0xFF,0x01,0x00,0x20,0x04,0x00,0x25

 Visible light zoom- (medium speed)

0xFF,0x01,0x00,0x60,0x00,0x00,0x61

 Visible light zoom stop

0xFF,0x01,0x1F,0x00,0x02,0x00,0x22

Visible light specify optical zoom (3X)

0xFF,0x01,0x1D,0x00,0x00,0x00,0x1E

Turn on visible light manual focus

0xFF,0x01,0x1D,0x01,0x00,0x00,0x1F

Turn off visible light manual focus

0xFF,0x01,0x1D,0x03,0x00,0x00,0x21

 Visible light manual focusing +

0xFF,0x01,0x1D,0x02,0x00,0x00,0x20

Visible light manual focusing –

0xFF,0x01,0x1D,0x04,0x00,0x00,0x22

 Visible light manual focusing stop

0xFF,0x01,0x14,0x00,0x02,0x00,0x17

Screen mode(PIP) switch to visible  light

0xFF,0x01,0x15,0x00,0x02,0x00,0x18

Thermal color palettes switch to rainbow

0xFF,0x01,0x17,0x00,0x01,0x00,0x19

 Thermal imaging electronic zoom to 2x

0xFF,0x01,0x16,0x00,0x00,0x00,0x17

Triggered Location/Single ranging

0xFF,0x01,0x16,0x01,0x00,0x00,0x18

 Turn on continuous ranging

0xFF,0x01,0x16,0x02,0x00,0x00,0x19

Turn off continuous ranging

0xFF,0x01,0x19,0x00,0x00,0x00,0x20

Turn on OSD

0xFF,0x01,0x19,0x01,0x00,0x00,0x21

 Turn off OSD

0xFF,0x01,0x1E,0x00,0x00,0x00,0x1F

 Query SBUS channel configuration

0xff,0x01,0x20,0x00,0x0A,0x00,0x2b

Set the data reply frequency to 10Hz

0xff,0x01,0x21,0x00,0x00,0x00,0x22

Restore default video streaming address

  • The initial movement speed of the in PTZ speed control mode is 0-45 °/s
  • The initial movement speed of the One-click reset/90°overlook, angle control, point to move function is about 300 °/s. When approaching the specified angle, the speed will gradually decrease to complete the action;
  • The angle control Instruction cannot input the angle value exceeding the working range of the PTZ;
  • The default data reply frequency is 2Hz;
  • Data receive frequency is ≤5Hz;
  • After entering the specified receiving protocol, the photoelectric pod will automatically conduct target positioning.

Response data@2Hz

No.

Function

Byte

Note

1

Header

0xEE

 

2

 Message ID

0x01

 

3

 Frame length

0x18

The length of all messages is 29 bytes

4

Laser ranging distance (decimeter)

Low eight

Product data without laser ranging function is 0

5

 

High eight

 

6

PTZ roll angle (@0.1°)

Low eight

Two bytes are signed int16

7

 

 High eight

 

8

 

 PTZ pitch angle (@0.1°)

 Low eight

Two bytes are signed int16

9

 

High eight

 

10

 

PTZ yaw angle (@0.1°)

 Low eight

Two bytes are signed int16

11

 

High eight

 

12

Visible light zoom multiple (integer)

 

 

13

Track status

 

0x00:Not tracked

0x01: Tracking

14

 

Target latitude * 10000000

 Low byte

 

Example: The actual latitude is 38.1234567, and the four byte data is 381234567

15

Target latitude * 10000000

 

Example: The actual latitude is 38.1234567, and the four byte data is 381234567

16

Target latitude * 10000000

 

Example: The actual latitude is 38.1234567, and the four byte data is 381234567

No.

Function

Byte

Note

17

 

 High byte

 

18

 

 

Target longitude * 10000000

Low byte

 

Example: The actual longitude is 114.1234567, and the data of these four bytes is 1141234567

19

 

 

 

20

 

 

 

21

 

 High byte

 

22

Target height (decimeter)

 Low eight

 

23

 

 High eight

 

24

 

 

 

 

Visible light focal length

0p

The pqrs is the focal length information, which corresponds to POS in Visca protocol. For example, p=0, q=1, r=4, s=0, then pqrs corresponds to 0140 in POS, and the focal length is 4.40 (In Visca protocol, the maximum focal length is 30x), models that do not support this protocol will reply with 0.

25

 

0q

 

26

 

0r

 

 

 

27

 

 

 

0s

 

28

PTZ working mode

 

0x00:Follow yaw

0x01:Lock yaw

 0x02:Vertical view 90°

29

Sum check

 

1-28 byte sum, take the lower eight bits

Example:
				
					0xEE,0x01,0x1D,0xB8,0x0B,0x32,0x00,0x3E,0xFE,0xE8,0x03,0x05,0x01,0x87,0x2D,0xB9,0x16,0x87,0xDB,0x05,0x44,0x7B,0x00,0x00,0x00,0x00,0x00,0x01,0xD8
				
			

(Laser ranging is 300m, roll angle is 5°, pitch angle is -45°, yaw angle is 100°, visible light zoom is 5×, tracking is underway, target latitude is 38.1234567, target longitude is 114.1234567, target altitude is 12.3m, and PTZ working mode is follow yaw)

 Data receiving protocol@≤5Hz

No.

Function

Byte

Note

1

Header

0xEE

 

2

Message ID

0x81

 

3

Frame length

0x22

The length of all messages is 34 bytes

No.

Function

Byte

Note

4

Aircraft (mechanical platforms) roll angle (@0.1°)

Low eight

Tilting left is negative, tilting right is positive

5

 High eight

6

Aircraft (mechanical platforms) pitch angle (@0.1°)

 Low eight

Head down is negative, head up is positive

7

High eight

8

Aircraft (mechanical platforms) yaw angle (@0.1°)

 Low eight

clockwise: 0~180 counterclockwise: 0~- 180

9

 High eight

10

 

 

 Aircraft (mechanical platforms) latitude * 10000000

 Low byte

 

Example: The actual latitude is 38.1234567, and the four byte data is 381234567

11

 

12

 

13

High byte

14

 

 

Aircraft (mechanical platforms) longitude * 10000000

 Low byte

 

Example: The actual longitude is 114.1234567, and the data of these four bytes is 1141234567

15

 

16

 

17

High byte

18

Aircraft (mechanical platforms) altitude (decimeter)

Low eight

 

19

 High eight

20

Aircraft (mechanical platforms) relative height (decimeter)

 Low eight

 

21

High eight

22

 

 

 

 GPS time

 Year

Example: This byte will be 21 in 2021

23

 Month

 

24

 Day

 

25

Hour

24小时制 24-hour

26

 Minute

 

27

 Second

 

28

Aircraft (mechanical platforms) eastward speed

 Low eight

东向为正

East direction is positive

29

 High eight

30

Aircraft (mechanical platforms) northbound speed

 Low eight

北向为正

North direction is positive

31

 High eight

No.

Function

Byte

Note

32

Aircraft (mechanical platforms) ascent speed

 Low eight

Sky direction is positive

33

High eight

34

Sum check

 

1-33 byte sum, take the lower eight bits

 

Example:
				
					0xEE,0x81,0x22,0x32,0x00,0x3E,0xFE,0xE8,0x03,0x87,0x2D,0xB9,0x16,0x87,0xDB,0x05,0x44,0xD0,0x07,0x7B,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x6A
				
			

(The aircraft (mechanical platforms) roll angle is 5 °, pitch angle is -45 °, yaw angle is 100 °, latitude is 38.1234567, longitude is 114.1234567, altitude is 200, relative height is 12.3)

Current SBUS channel configuration reply

No.

Function

Byte

Note

1

Header

0xEE

 

2

Message ID

0x04

 

3

Frame length

0x1C

The length of all messages is 28 bytes

4

 Pitch

 

 

 

 

 

 

The corresponding byte for each function represents the corresponding channel number, such as the pitch byte is 0x01, and the yaw byte is 0x03, which represent channel 1 controlling pitch and channel 3 controlling yaw. The channel number range is 1-16. If it exceeds the range, it cannot be set successfully, and “0” represents not activating this function.

5

 Yaw

 

 

6

 Visible light zoom

 

 

7

Visible light manual focus

 

 

8

PTZ Mode switch, 90° overlook

 

 

9

One-click reset

 

 

10

Photography

 

 

11

Target detection and tracking

 

 

12

PIP and thermal color

 

 

13

Thermography electronic zoom

 

 

14

Laser ranging

 

 

15

Laser night vision (none)

 

 

16

 OSD-switch

 

 

No.

Function

Byte

Note

17

 Reserve

 

 

18

Reserve

 

 

19

Reserve

 

 

20

Reserve

 

 

21

 Reserve

 

 

22

Reserve

 

 

23

Reserve

 

 

24

Reserve

 

 

25

Reserve

 

 

26

Reserve

 

 

27

Reserve

 

 

28

Sum check

 

1-27 byte sum, take the lower eight bits

Example:
				
					0xEE,0x04,0x1C,0x01,0x03,0x02,0x04,0x05,0x06,0x00,0x00,0x00,0x00,0x00,0x00,
0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x23
				
			

(Pitch is CH1, yaw is CH3, zoom is CH2, manual focus is CH4, mode switch is CH5, one click reset is CH6, and other functions are not mapped)

The instructions for setting the SBUS channel can be found in “SBUS Channel Settings” in this article.

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