ドローンビデオ送信機および受信機 100Mbps 高速データレート 長距離 100-150km 2x10W PA

目次
アドバンテージ
Max 100Mbps
Supports connecting 8 IPカメラ, each with 1080P resolution. Each camera requires an average of 2M~3Mbps. Even if real-time videos of 8 cameras are transmitted at the same time, it requires about 16M~24Mbps, which can be easily handled by this model.
3X RJ45 for IP camera
Both the aerial unit and the ground power supply have three RJ45 interfaces. The aerial unit can be connected to an IP camera, the ground unit can be connected to a computer running Misson Planner or QGroundControl, and can be connected to an RTSP player running 8 windows. It supports converting the serial port data of the flight control to the network port data (UDP or TCP protocol).
(we can offer you the UDP setup video guide)
One RJ45 can connect more IP devices if use ethernet router.(network switch)
最大サポート 64 ノード
Support one point to one point networking, support one point to multi-points and repeater networking.

Ground Unit supports to connect computer or NVR
As computer supports to run RTSP player or IP camera’s application. As the RTSP player, it supports to play 4, 8, 9 または 16 windows to play the IP camera.




Frequency hopping function to avoid interference
Fully automatic frequency hopping function, automatically compares and selects the frequency with the least interference as the operating frequency.
- 周波数自動ホッピング機能が必要な方向けに、アップリンクとダウンリンクによるビデオとデータのワイヤレス伝送を設計しました。.
- 周波数ホッピング技術を搭載 (このモデルは、双方向ワイヤレスデータリンクを使用したビデオおよびデータワイヤレス伝送用に設計されました) より安定した信号通信を確保するため, 現在の周波数信号が悪くなった場合, システムは、より良い信号を得るために、動作周波数を別の周波数に自動的に変更します。.
- この双方向 OFDM 無線モジュールは、566Mhz ~ 678MHz、または 1420Mhz ~ 1530MHz の帯域幅で動作します。. したがって、周波数範囲には 110Mhz の帯域幅変更またはホッピングがあります。. 周波数帯域幅を次のように設定すると、 10 メガヘルツ, それからあります 11 ホッピングの周波数ポイント.
特徴
- The system facilitates the simultaneous downloading and uploading of video data, enabling bidirectional transmission.
- This is a TDD OFDM full-duplex IP mesh radio wireless transceiver module that’s designed for both video and data transmission.
- This device features dual radio frequency power, with each of the two channels outputting 24 plus or minus 1 dBmの.
- The sensitivity is measured at -102dBm for a data rate of 1Mbps with a bandwidth of 20MHz.
- The system’s support for transmission distances ranges from 500 に 2000 meters in ground-to-ground communication and from 5km to 150 kilometers in unmanned aerial vehicle (UAV) to ground communication. (2ワット, 5ワット, 10ワット)
- The device includes three wireless, transparent transmission Ethernet RJ45 ports, one wireless, transparent transmission serial port for rs232 UART data links, and a single configuration serial UART (TTL) port for ease of setup and configuration.
- This device has dual antennas, a main antenna and an auxiliary antenna, that offer flexible configuration options: dual transmitting and dual receiving, シングル送信とデュアル受信, or single transmitting and single receiving modes are all possible.
- This device supports operation within the wireless working frequency bands ranging from 566 に 678 メガヘルツ, as well as from 1420 に 1530 メガヘルツ.
- This device is capable of automatically switching between and within frequency bands, supporting a frequency hopping range up to 110Mhz.
- The wireless bandwidth is configurable across a range of options, including 1.4MHz, 3メガヘルツ, 5メガヘルツ, 10メガヘルツ, 20メガヘルツ, and 40MHz, allowing for a maximum air interface rate of up to 100Mbps.
- The modulation method used is adaptable and automatically selects from QPSK, QAM16, or QAM64, depending on the conditions.
- This system is designed to support the encryption and decryption of data transmitted wirelessly.
- This device is capable of supporting wireless ad hoc networks using a mesh communication method, allowing for the connection of up to 32 nodes within the network.
- Because all node communications share the same working bandwidth, the system’s maximum sharing rate is limited to 100 Mbps. System rates should be distributed adaptively in an equal manner to ensure fairness and efficiency across all system components.
- This system is capable of supporting a multi-hop routing topology with a maximum of 32 ノード, allowing for routing paths of up to 31 ホップ. The system supports fixed route configurations, and once implemented, these configurations remain permanently in effect.
- This model supports a maximum moving speed of up to 300 時速キロメートル.
- This particular board has been designed with, and thus supports, the Morningcore mCX6779K modem at its core.
- 片道遅延指数の計算式(ミズ): 6*H + (5/2) * N/2 * H * 3, 双方向遅延に 2 を乗算(N は 2 ホップ内のノードの数), ホップ数はHです). 2 つのノード間の最適化された遅延: 2 つのノード間の 1 ホップ片道遅延 ≤ 10ms; 4 ノード チェーンの最適化遅延: 4ノード 3ホップ シングルホップ 一方向遅延≤10ms; 6 ポイントチェーンネットワーキング,3 ホップ, 片道遅延50ms;8 ポイント, すべてのポイントに 1 ホップ, 片道遅延36ms;8 ポイント, シリアル7ホップ, 片道遅延170ms;32 ポイント, すべてのポイントに 1 ホップ, 片道遅延120ms;32 ポイント, シリアル31 ジャンプ片道遅延3750ms。
- 論理マスターノードの電源投入時のネットワーク構築遅延20秒~80秒(モジュールに制限はありません. 一般的に, 論理マスターノードの電源が最初にオンになります。); コールドスタート, ノードの起動からネットワークアクセスまでの遅延<30s 受信した論理マスターノード信号; ホットスタート, スレーブノードの起動ネットワークアクセス遅延<1s(通常の 1 ホップ ノード ネットワーキング シナリオ); ホットスタート, 単一の周波数ポイントからノードの電源をオンにし、ネットワークに接続します<480ミズ + 160ms*H(H はホップ数です).
Specification
- 時分割二重通信 (TDD) is a method used for implementing OFDM modulation.
- This device is capable of supporting two distinct frequency ranges; the first is between 566 そして 678 メガヘルツ, while the second is between 1420 そして 1530 メガヘルツ.
- This device has the ability to support the function of frequency hopping spread spectrum (このモデルは、双方向ワイヤレスデータリンクを使用したビデオおよびデータワイヤレス伝送用に設計されました) and automatically hop between frequencies.
- Bandwidth options include 4MHz, 3メガヘルツ, 5メガヘルツ, 10メガヘルツ, 20メガヘルツ, and 40MHz.
- The maximum throughput for this network connection is 100 メガビット/秒.
- This device boasts dual RF transmission power, operating at 24±1dBm across two channels—one for uplink and one for downlink communication.
- The constellation for this system supports QPSK, 16QAM, and 64QAM, and it automatically adapts to the best option depending on conditions.
- The sensitivity level is measured at -95dBm with a 20MHz bandwidth.
- This device offers IP video data transmission capabilities and is equipped with three Ethernet ports to facilitate this function.
- This device offers support for serial data transmission, specifically, it includes one RS232 port and one TTL port for serial communication.
- Without additional power amplification, a line-of-sight communication range of up to 22 kilometers is achievable between an unmanned aerial vehicle and a ground station, and a line-of-sight range of up to kilometers can be achieved between two ground stations.
- To extend the range, you can increase the power output by 2, 5, または 10 ワット.
- This system features a web-based user interface and a control UART for convenient management and monitoring capabilities.
- Encryption using AES128 is being employed for security purposes.
- The uplink and downlink streams need to be controlled, with the video stream requiring a higher bandwidth and the data stream needing less.
- The networking modes supported include one-to-one peer-to-peer, one-to-many peer-to-multipoint, many-to-one multipoint-to-peer, relay/repeater configurations, and mesh or swarm network topologies.
- The power consumption of this device is less than 7 ワット.
- 大きさ: 28 × 21 x 6cm
- The weight of the item is recorded at 4461 グラム.
- The permissible working temperature range for this is from -20℃ to +65℃.
- The recommended storage temperature ranges from -40℃ to +80℃.
Sealed Housing without cooling fan
The customer required the housing to be designed for use on board and to be waterproof, so the housing is sealed and has no cooling fan.


Weight and Dimension









Bogdan –
This drone transmitter/receiver combo is a game-changer! With 100Mbps speed, スムーズに配達します, real-time 1080pK video even at 150km. Dual 10W PAs ensure rock-solid signal integrity in challenging environments—no lag or dropouts. Easy setup, professional-grade reliability. Perfect for filmmakers, inspectors, or long-range missions. Highly recommended for seamless aerial streaming! 🚁✨