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2km UGV Video Transmitter FHD Video & Data COFDM H.264 AES256 Encryption

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2km UGV Video Transmitter FHD Video & Data COFDM H.264 AES256 Encryption
Features Gallery Product Description Request A Quote
Features
Specifications
Modulation: COFDM - QPSK(4QAM), 16QAM, 64QAM
Frequency: 200-2700MHz Customizable
Power Output: 33dBm (2W)
RF Bandwidth: 2/4/6/8MHz (adjustable)
Data: RS485
Encryption: AES256
High Light:

Portable wireless Receiver

,

wireless hdmi video transmitter

Basic Infomation
Place of Origin: Shenzhen China
Brand Name: OEM / LinkAV
Certification: CE
Model Number: LKAV-1615
Payment & Shipping Terms
Packaging Details: Brown Carton
Delivery Time: Negotiable
Payment Terms: T/T, PayPal
Supply Ability: 1000pcs/Month
Product Description

2km UGV Video Transmitter FHD Video & Data COFDM H.264 AES256 Encryption

 

Introduction

The LKAV-1615 is a powerful COFDM wireless transmitter specially designed for UGV/Robots applications. It integrates video multiplexing, video sending and data stream sending/receiving. It supports variety video modes, H.264 encoding, various modes adaptive, resolution up to 1080P, bright colors, low latency, and smooth video. The built-in data module can receive data sent by the control station, process and execute it. It also supports some peripheral sensing devices such as gas sensors, detectors, etc. The detected data is transmitted back to the control station and displayed in real time, which is convenient for commanders to make timely judgments.

 

Features

Video stream frequency 200-800MHz

Data stream frequency 410-500MHz

Output power 2W (Video)

Range covers 1-3km LOS

2-8MHz bandwidth adjustable

Advance COFDM and H.264 video compression technologies

RS232/485/TTL for selection

High video quality and supports multiple video formats

Rugged aluminum alloy enclosure

 

Specification

Video Frequency 200-800MHz customizable
Video Output Power 33dBm
Video Bandwidth 2-8MHz adjustable
FEC 1/2, 2/3, 3/4, 5/6, 7/8
Guard Interval 1/4, 1/8, 1/16, 1/32
Cover Range 1-3km LOS (ground-to-ground)
Data Frequency 410-500MHz customizable
Data Bandwidth 9600bps
Video Input BNC: 3x1080p, 3x720p, 3x960H
Video Compression H.264
RF Connector N Female
Control Method LED Digital Control Panel
Data Port RS232
Encryption AES256
Power Input DC 12V External Power Supply
Working Voltage DC 12V
Working Current ≤2.5(@12V)
Power Consumption ≤30W
Dimensions 56*250*180mm (w/o antenna)
Working Temp. -20℃~+60℃
Weight 2.1kg (w/o antenna)

 

Panel Description

2km UGV Video Transmitter FHD Video & Data COFDM H.264 AES256 Encryption 0

1. Power Input & Data Port - DC 12V/5A, RS232

2. Sensor Port - Gas sensor data interface (RS232)

3. MIC Port – Audio input

4. VIDEO1 Port – BNC interface, Video input 1 (Visible Light)

5. VIDEO2 Port – BNC interface, Video input 2 (Infrared)

6. VIDEO3 Port – BNC interface, Video input 3 (Fisheye)

7. RF-D Antenna Interface – N female, data sending/receiving

8. USB Interface – Connect with the control box to adjust parameters

9. Video Stream Indicator – lights red when power on, and flashes green light during normal work, the stronger the signal, the faster the flash.

10. RF-V Antenna Interface – N female, video sending

 

Communication Protocol

UGV Driver Board Communication Protocol

When using RS232 bus to connect to the device, the following protocol format is followed:

Baud rate: 19200;

Configuration: 1 stop bit, 8 data bits, no parity check;

Sending cycle: 100ms, sending data regularly;

Note: The data is sent from the control board of the UGV;

 

The format is as follows:

0 1 2 3 4 5 6 7 8 9
Frame Header Source Destination Heartbeat CMD1 CMD2 CMD3 Drive 1 Drive 2 PTZ
0x7E 0x02 0x03              
                   

 

10 11 12 13 14-15          
Water Cannon Reserved 1 Reserved 2 Check Frame end          
        0D 0A          
                   

 

The detailed definition is as follows:

Frame header: 1 byte, fixed to 0x7e.

Source: 1 byte, fixed to 0x02.

Destination: 1 byte, fixed to 0x03.

Heartbeat: 1 byte. The heartbeat value is increased by 1 before data is sent, which is used as the judgment of new data. If the heartbeat of the receiving end does not change, the data is not updated. The maximum value is 249, and it is reset to zero after reaching the maximum value.

CMD1 data: 1 byte.

 

Bit0: Vehicle travel control switch bit. When the value is 1, the vehicle travel control is on; when it is 0, the vehicle travel control is off.

Bit1: Headlight switch bit. When it is 1, the headlight is on; when it is 0, the headlight is off.

Bit2: Emergency stop switch bit. Emergency stop is on when it is 1, and it works normally when it is 0.

Bit3: Water inlet valve switch bit, when it is 1, the valve is open, when it is 0, the valve is closed.

Bit4: high and low speed bits, high speed when 1 and low speed when 0

Bit5: Alarm bit. When this bit is 1, the alarm is issued. When it is 0, the alarm is canceled.

Bit6: This bit is 0.

Bit7: This bit is 0.

 

CMD2 data: 1 byte.

 

Bit0: picture mode, four-in-one picture and single picture are switched each other. When this bit is 1, it means the video mode needs to be switched, and when it is 0, it means it is invalid.

Bit1: It means to switch the screen. When this bit is 1, it means to switch the next video screen. When it is 0, it means it is invalid.

Bit2: OSD control bit. When this bit is 1, the OSD is on, and when it is 0, the OSD is off.

Bit3: Start recording video. When this bit is 1, it means to start recording video, when it is 0, it means to stop recording.

Bit4: Spray mode. When this bit is 1, the spray mode is turned on, and when it is 0, the spray mode is turned off.

Bit5: Automatic fire finding mode. When this bit is 1, it means that the automatic fire finding mode is on, and when it is 0, it means it is off.

Bit6: This bit is 0.

Bit7: This bit is 0.

 

CMD3 data: 1 byte.

 

Bit0-Bit7: 0.

 

Drive 1 data: 1 byte, data 0 ~ 127 means walking backward, 128 ~ 255 means walk forward. In fact, in order to prevent misoperation, the data value of walking backward is 0 ~ 100 and the data value of walking forward is 150 ~ 250. The parsing end can judge the data forward or backward. The value can be adjusted as a speed value (100 levels). If it is designed to walk at a uniform speed, only the direction can be determined.

 

Drive 2 data: 1 byte. The data from 0 to 127 indicates walking to the left, and 128 to 250 indicates walking to the right. Actually, in order to prevent misoperation, the data value of walking left is 0 ~ 100 and the data value of walking right is 150 ~ 250. The parsing end can judge the data to the left or right. The size of the value can be adjusted as a speed value (100 levels). If it is designed to walk at a uniform speed, only the direction can be determined.

 

PTZ control data: 1 byte.

 

Bit0: PTZ control switch bit. When it is 1, the PTZ is controlled. When it is 0, it is invalid and stops.

Bit1: When it is 1, the gimbal rotates to the left; when it is 0, it is invalid and stops.

Bit2: When it is 1, the gimbal rotates to the right; when it is 0, it is invalid and stops.

Bit3: When it is 1, the gimbal rotates upward; when it is 0, it is invalid and stops.

Bit4: When it is 1, the gimbal rotates downward; when it is 0, it is invalid and stops.

Bit5: PTZ rises when it is 1; it is invalid when it is 0, it stops.

Bit6: The gimbal descends when it is 1; it is invalid when it is 0 and stops.

Bit7: PTZ reset bit. When it is 1, the PTZ is restored to initialization.

 

Water cannon control data: 1 byte.

 

Bit0: Water cannon start bit. Water cannon starts when it is 1; it is invalid when it is 0.

Bit1: When it is 1, the water cannon is turned to the left; when it is 0, it is invalid and stops.

Bit2: When it is 1, the water cannon rotates to the right; when it is 0, it is invalid and stops.

Bit3: The water cannon rotates upward when it is 1; it is invalid when it is 0, and it stops.

Bit4: The water cannon rotates downward when it is 1; it is invalid when it is 0, it stops.

Bit5: The water cannon is turned on when it is 1, and it is turned off when it is 0.

Bit6: The water cannon rises when it is 1; it is invalid when it is 0, it stops

Bit7: The water cannon descends when it is 1; it is invalid when it is 0 and stops

 

Reserve 1 and Reserve 2: These are reserved values and can be set to 0.

Check: The result of exclusive OR of all the bytes of data before the check byte.

End of frame: 2 bytes, 0x0d and 0x0a respectively.

 

Note: Among the data sent by the car-side control board to the car-side drive board, the data not needed by the drive board is returned to the car-side control board as it is.

 

UGV Control Board Communication Protocol

 

Baud rate: 19200

Configuration: 1 stop bit, 8 data bits, no parity

Sending cycle: 100ms, sending data regularly

 

Note: The data is sent by UGV driver board.

 

The format is as follows:

  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
 
Frame Header
  •  
Destination
  •  
  1.  
  1.  
Battery percentage Battery temperature Ambient temperature  
           
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
 
  1.  
  1.  
  1.  
                   
                         
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
Battery Current
  •  
Radar Ranging Left and right tilt angle Back and forth tilt angle
  •  
Frame End
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
     
                     
  1.  
  1.  

 

Detailed description:

 

Frame header: 1 byte, fixed to 0x7e.

Source address: 1 byte, fixed to 0x03.

Destination address: 1 byte, fixed to 0x02.

Heartbeat: 1 byte. The heartbeat value is increased by 1 before data is sent, which is used as the judgment of new data. If the heartbeat of the receiving end does not change, the data is not updated. The maximum value is 249, and it is reset to zero after reaching the maximum value.

CMD1:

 

Bit0: Vehicle travel control switch bit. When the value is 1, the vehicle travel control is on; when it is 0, the vehicle travel control is off.

Bit1: PTZ start bit. When the value is 1, it means the PTZ starts, when it is 0, it means it stops.

Bit2: Water cannon start bit. When the value is 1, the water cannon is started, and when it is 0, the water cannon is stopped.

Bit3: High and low speed bits, high speed when 1 and low speed when 0.

Bit4: Auto-pendulum mode bit. When it is 1, it means that the auto-pendulum mode is on, and when it is 0, it means it is off.

Bit5: Spray mode bit. When it is 1, it indicates that the spray mode is on, and when it is 0, it indicates that it is off.

Bit6: Automatic fire detection position. When it is 1, it means that the automatic fire detection mode is on, and when it is 0, it means that the automatic fire detection mode is off.

Bit7: This bit is 0.

 

CMD2:

 

Bit0: Headlight switch signal. When the value is 1, the headlights are turned on. When the value is 0, the headlights are off.

Bit1: Alarm signal switch bit. When the value is 1, it indicates that the alarm has been turned on. When it is 0, it indicates that the alarm is turned off.

Bit2 ~ Bit7: Reserved, it is 0.

 

Battery percentage: 2 bytes, an unsigned integer value, ranging from 0 to 100. Unit:%, which indicates the battery percentage.

Battery temperature: 2 bytes, an unsigned integer value, ranging from 0 to 100, unit: ° C, which represents the battery temperature value.

Ambient temperature: 2 bytes, unsigned integer value, ranging from 0 to 100, unit: ° C, which represents the ambient temperature value.

Battery current: 2 bytes, an unsigned integer value, ranging from 0 to 100, unit: A, which represents the battery current value.

Vehicle speed: 2 bytes, an unsigned integer value, ranging from 0 to 50, unit: m / s, which represents the vehicle speed value. Note that in order to represent a decimal value, this value is the real speed value multiplied by 10. After the value.

Radar ranging: 2 bytes, an unsigned integer value, ranging from 0 to 500, unit: m, which represents the distance value. Note that in order to represent two decimal places, this value is the real speed value multiplied by 100. After the value.

Left and right tilt angle: 2 bytes, signed integer value, value range: -1000 ~ + 1000, unit °, which means the left and right tilt angle value. Note: In order to represent a decimal value, this value is the true angle value. Multiplied by 10.

Fore and aft pitch angle: 2 bytes, signed integer value, value range: -1000 ~ + 1000, unit °, which means the inclination angle value. Note: In order to represent a decimal value, this value is the true angle value. Multiplied by 10.

Check: The result of exclusive OR of all the bytes of data before the check byte.

End of frame: 2 bytes, 0x0d and 0x0a respectively.

 

 

UGV Gas Sensor Communication Protocol

Data: data of 6 gas sensors can be connected (gas types can be increased)

Format:

Baud rate: 9600.

Configuration: 1 stop bit, 8 data bits, no parity.

Sending cycle: 100ms, sending data on a regular basis.

Note: The gas sensor data is issued by the customer.

 

The format is as follows:

0 1 2 3 4 5 6 7 8 9 10 11
Frame header Source Destination Heartbeat Oxygen Carbon monoxide Ammonia Hydrogen sulfide
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
  1.  
0x7E 0x05 0x04                  
                       
12 13 14 15 16 17 18          
Sulfur dioxide Chlorine Check Frame End          
  1.  
  1.  
  1.  
  1.  
         
          0x0D 0x0A          

 

The detailed definition is as follows:

Frame header: 1 byte, fixed to 0x7e.

Source: 1 byte, fixed at 0x05.

Destination: 1 byte, fixed to 0x04.

Heartbeat: 1 byte. The heartbeat value is increased by 1 before data is sent, which is used as the judgment of new data. If the heartbeat of the receiving end does not change, the data is not updated. The maximum value is 249, and it is reset to zero after reaching the maximum value.

Oxygen: 2 bytes, an unsigned integer value, ranging from 0 to 1000. The default value is 0, which means the percentage value of oxygen concentration, the unit is%. Note: In order to express the accuracy of one decimal place, this value is multiplied by 10 and then transmitted.

Carbon monoxide: 2 bytes, an unsigned integer value, ranging from 0 to 1000. The default value is 0, which means the concentration of carbon monoxide. The unit is ppm.

Ammonia gas: 2 bytes, an unsigned integer value, ranging from 0 to 100. The default value is 0, which indicates the concentration of ammonia gas. The unit is ppm.

Hydrogen sulfide: 2 bytes, an unsigned integer value, ranging from 0 to 100. The default value is 0, which indicates the concentration of hydrogen sulfide. The unit is ppm.

Sulfur dioxide: 2 bytes, an unsigned integer value, ranging from 0 to 200. The default value is 0, which indicates the concentration of sulfur dioxide, the unit is ppm. Note: In order to express the accuracy of one decimal place, this value is multiplied by 10 and then transmitted.

Chlorine: 2 bytes, an unsigned integer value, ranging from 0 to 100. The default value is 0, which indicates the concentration of chlorine gas in ppm. Note: In order to express the accuracy of one decimal place, this value is multiplied by 10 and then transmitted.

Check: 1 byte, which is the result of exclusive OR of all the data in front of the check byte.

End of frame: 2 bytes, 0x0d and 0x0a respectively.

 

Package Content

Item Name Description Qty
1 Transmitter LKAV-C355 1
3 Antenna Video antenna 1
4 Antenna Data antenna 1
5 Power Cable GX12-4P aviation connector male 1
6 Sensor Cable GX12-5P aviation connector male 1
7 MIC GX12-3P aviation connector male 1
8 Control Box LKAV-6904 1
9 BNC Extension Cable 1m, male to male 3
10 Adapter SMA female to M female four hole flange square plate (17.5x17.5), thick needle 2
11 Adapter Female to female 2
12 RF Extension Cable 285mm, N male elbow to N male straight head 2
13 RF Extension Cable 100mm, N male elbow to SMA male straight head 2

 

Advantages of COFDM
COFDM modulation has very strong attenuation resistance, COFDM modulation enables the transmission from the end user to a plurality of subcarriers, and the signal can be kept very much longer than the signal kept in a single-carrier system correspondingly, so COFDM has a stronger resistance for impulse noise and fast channel attenuation resistance. COFDM has higher utilization of frequency and allows overlapping orthogonal subcarriers waves as sub-channels, rather than the traditional use of guard bands separating the sub-channels, so it improves the frequency efficiency, and maximizes the use of spectrum resources.

 

As for high-speed data transmission, COFDM has its self-adaptive modulation mechanism which enables subcarriers to choose different modulation methods like QPSK, QAM, 16QAM or 64QAM according to different channel conditions and background noises. If the conditions are good, then adapt itself to the high-efficiency modulation, if the conditions are bad, then adapt to the anti-interference modulation. So it can reliably adapt to a high-speed data transmission.

 

It has strong Inter-Symbol Interference (ISI) ability, ISI is the major interference besides noise in digital communications. COFDM by using the cyclic prefix has the strong ability of ISI.

 

Ease of use in combination with a variety of other methods, COFDM can be used as a modulation method, besides, it can be easily combined with many kinds of multiple access technology, providing access for multiple users at the same time. You can allow multiple users to simultaneously use the COFDM information technology for transmission.

 

Applications of COFDM Device
COFDM modulation solved the difficult problems of "Non-Line-of-Sight" and "Mobile" wireless broadband transmission when rate is over 2Mbps, so it has been widely applied in mobile communications, video transmission and monitoring systems such as digital audio broadcasting project (DAB), high-definition TV (HDTV) broadcasting, Health Care, Mobile Communication (CDMA + OFDM), wireless LAN (IEEE 802.1la), broadband wireless access (BWA), high-quality videos in real-time monitoring (military, broadcasting, safety, maritime defense and other industries).

 

High-speed Real-time Mobile Wireless Transmission
The system can collect real-time emergency scene video, voice, data, etc. via a public communication network or private communication network system delivered to each commending center. Officers at all levels of command can understand the situation from the computer directly to take effective measures in real-time command. So it is widely applied to natural disasters emergency services. The system can help to save a lot of processing time and reduce the losses caused by disasters

 

Real-time Maritime Wireless Transmission
Real-time monitoring of maritime wireless transmission are good for coastal defense, maritime, port inspection and other industries. Real time monitoring of maritime surveillance zone can be manipulated through the whole process with live video, voice, data and control. This system can help to make maritime commanding, monitoring with better efficiency.

 

Live Broadcasting Video Transmission
When broadcast lively the sports games, the clarity of the video can be greatly improved by COFDM transmission.

 

Public Mobile Communication System
IEEE 802.1la has already been eyeing on 5GHz band and provides high-speed data transmission by OFDM.

 

As a conclusion, COFDM modulation solved the difficult problems of "Non-line of Sight" and "Mobile" wireless broadband transmission when speed is over 2Mbps, COFDM can capture videos at high speed and transmit high quality real time videos, make users gain exceptional freedom in news collecting, live broadcasting, real-time monitoring applications.

 

FAQ

Q1: Are you a manufacturer or a trading company?

We're professional manufacturer specializing in wireless transmission systems.

Q2: Why should I choose you?

You'll get competitive price, prime quality, satisfied service and long warranty.

Q3: What kind of product service can I have?

OEM & ODM service.

Q4: What kind of warranty do you offer?

We offer one-year-warranty and lifelong maintenance.

Q5: What're the payment terms?

We accept bank transfer, PayPal, or cash payment.

Q6: Packaging & Shipping?
Neutral brown carton & Ship via DHL, FedEx, UPS, TNT or by air/sea.

Q7: How long for delivery?
1-3 weeks for regular model and 3-5 weeks for customized model.

Q8: Can I order 1 sample for test?

Yes, we welcome sample order, mixed samples are acceptable.

Q9: Do you have any MOQ limit?

No limit, 1pc is acceptable.

Q10: Is it OK to print my logo on the product?

Yes, please inform us formally before production and confirm the design firstly

 

About LinkAV
Founded in 2005, LinkAV has been dedicating to design and manufacture mobile wireless video/data transmission systems including COFDM, IP MESH and 4G-LTE series, with a group of professional engineers to provide tailor-made service (OEM). LinkAV serves a diverse, high demanding customer base from police/military to ordinary citizens, from UAV to UGV/Robots, from oil field to forest, from overseas to mainland China.

LinkAV is a China leading manufacturer (OEM) of innovative wireless communications and information systems. Our advanced data link systems are ideal for critical communications in tactical unmanned systems such as unmanned ground vehicles (UGVs), unmanned aerial vehicles (Drones, UAVs) and unmanned surface vehicles (USVs), and are designed with portability and reliability foremost in mind.

 

Our Advantages

■ Over 15 years experiences in wireless communication solutions.

■ High product quality, competitive price and low MOQ

■ Excellent pre-sale and after-sale technical team.

■ Quick response and fast delivery.

■ OEM supported.

 

Youtube: https://www.youtube.com/channel/UCn0iKGgxQtkpi2qG4U0HsZg

Official Website: http://www.LinkAVtech.com

LinkedIn: https://www.linkedin.com/company/linkav-technology/

Facebook: https://www.facebook.com/LinkAVtech/

 

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