Your Professional Wireless Transmission Supplier
Shenzhen Xiaolong Technology Co., Ltd., as a dynamic and innovative technology research and development enterprise, has been rapidly gaining prominence in the industry. We specialize in the development, manufacturing, marketing, and servicing of conference cameras, NDI PTZ cameras, NDI codecs, video converters, and video capture devices, offering high-quality video solutions to clients worldwide. Our products find extensive application across various sectors, including corporate conferencing, distance education, healthcare, and media communication.
Cutting-Edge Equipment
Our research and development team comprises highly skilled and creative professionals who continuously strive to explore new frontiers in technology. This enables us to deliver state-of-the-art products and comprehensive solutions to our customers.
Rigorous Quality Control
We adhere strictly to international quality standards, ensuring meticulous testing and control at every stage of production—from raw material procurement to final product delivery. This rigorous approach guarantees that all our products meet the highest expectations of our clients.
Comprehensive Professional Services
We provide clients with a full spectrum of technical support and after-sales services. Whether it involves pre-sales consultation, program design, or post-sales maintenance and technical assistance, we pay meticulous attention to every detail to ensure an exceptional and worry-free service experience for our customers.
Global Sales Market
Our products are not only well-received in the domestic market but also exported to regions such as Europe, North America, and the Asia-Pacific, earning the trust and loyalty of customers around the globe.
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![SDR Transmission]()
SDR Transmission● SDR image transmission is a wireless system based on advanced SDR technology, offering flexible control and broadcast modes. . ● In control mode, a transmitter connects to up to two receivers,
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TX |
RX |
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Max bandwidth |
SDR :10 MHz |
SDR :10 MHz |
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Max code rate |
SDR :10 Mbps |
SDR :10 Mbps |
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Power wastage |
12 W |
12 W |
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Power supply |
USB-C powered form 1: 9 V, 2 A (PD protocol) USB-C power supply form 2: DC power supply 6.8V to 17.2V NP-F battery supply voltage: 6.8V to 8.4V |
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Video Input Format |
1080p :23.98/24/25/29.97/30/50/59.94/60fps 1080i :50/59.94/60fps 720p :50/59.94/60fps |
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Input Audio Format |
SDI Embedded, HDMI Embedded |
PCM |
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latency |
SDR 110 ms (including camera delay and on-screen display delay) 60 ms (excluding camera delay and on-screen display delay) |
SDR: 110 ms (including camera delay and on-screen display delay) 60 ms (excluding camera delay and on-screen display delay) |
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Video encoding format |
H.265 |
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Max Distance |
SDR 3 kilometers (FCC) 2 kilometers (CE/SRRC/MIC) |
SDR 3 kilometers (FCC) 2 kilometers (CE/SRRC/MIC) |
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Operating Temperature |
-10°C to 40°C |
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Advantages of Wireless Transmission
Multi-user, multi-mission
As they are scalable and configurable, SDR systems empower military and defense units to exploit the RF spectrum by making it available to more non-technical users. Advanced SDR systems are both compact and standalone, making them easily deployable for a range of applications: from tactical radios carried by soldiers on the ground to air traffic controllers and GPS-guided weapon controllers to SATCOM systems and SIGINT gathering.
Less maintenance
Analogue RF systems require a large amount of unique and bulky hardware as different RF processing applications are device-specific. These individual machines comprise many moving components that are susceptible to failure. They also need to be housed in large, power-hungry command centers.
Seamless integration with third-party technologies
Agile SDR systems with open application programming interfaces (APIs) can be seamlessly interfaced with wider EW systems, including:
● EWMPT
● Decoding and demodulation software
● Air defense systems (when used as a TDoA sensor)
● Counter-unmanned aircraft systems (C-UAS)
24/7 remote operability
SDR systems can be configured to carry out a range of activities, including proactive system monitoring, streamlining operations, and around-the-clock monitoring of predefined frequency ranges (or the entire RF spectrum). Moreover, SDR systems can be installed as standalone systems or as a fixed network of strategically deployed sensors—if large or remote areas need permanent monitoring.
Simple technology updates
SDRs can be easier to upgrade in the field through remote firmware installations, meaning operational force sensors can keep pace with current industry trends. In comparison, legacy RF systems must be removed from the field and sent back to a depot where components are removed and updated.
Applications of Wireless Transmission
Wireless Networking
Wireless data transmission is the backbone of modern wireless networks. Wi-Fi technology enables users to connect their devices to the internet without the need for physical cables. It allows for easy and convenient access to online resources, making it a crucial aspect of our digital lives.
Mobile Communication
Wireless data transmission is the key technology behind mobile communication systems. Cellular networks enable voice and data communication over long distances, allowing people to stay connected while on the move. Mobile phones, smartphones, and other wireless devices rely on wireless data transmission to send and receive information.
Internet of Things (IoT)
The Internet of Things (IoT) is a network of interconnected devices that communicate with each other and exchange data. Wireless data transmission plays a vital role in IoT applications, enabling devices to share information and operate in a connected ecosystem. Smart homes, industrial automation, and healthcare monitoring systems are some examples of IoT applications that heavily rely on wireless data transmission.
Wireless Sensor Networks
Wireless sensor networks consist of numerous small sensors deployed in various environments to monitor and collect data. These sensors communicate wirelessly to transmit the gathered information to a central node or data processing unit. Industries such as agriculture, environmental monitoring, and infrastructure management greatly benefit from wireless sensor networks.
Notes on Using Wireless Transmission
1
Wireless signals are susceptible to interference from other devices operating in the same frequency band. Additionally, the range of wireless transmission can be limited, especially in environments with obstacles or physical barriers. These factors may affect signal quality and overall network performance.
2
Wireless networks are more vulnerable to security breaches compared to wired networks. Unauthorized access, data interception, and network attacks are some of the security risks associated with wireless data transmission. Implementing robust security measures such as encryption and authentication protocols is crucial to protect sensitive data.
3
The strength and reliability of wireless signals can vary depending on factors such as distance, obstructions, and environmental conditions. Weak signals or signal disruptions can lead to data transmission errors or connection drops. Proper planning and signal optimization techniques are essential to ensure reliable wireless communication.
Packaging and Shipping
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Packaging |
Plastic protective film + cardboard box |
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Shipping |
We will help you to choose the best shipping way according to your detail requirements. By sea, by air, or by express, etc. |
FAQ
We're well-known as one of the best wireless transmission manufacturers and suppliers in China. Please feel free to buy customized wireless transmission from our factory. For price consultation, contact us.
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