HCL602 2W*2 Data/Video Mesh Wireless Transceiver

HCL602 2W*2 Data/Video Mesh Wireless Transceiver

-- TDD OFDM full duplex wireless transceiver for video and data Link

-- Up to 100Mbps Iperf Throughput

-- Supports Mesh Networks

-- Interface through web browser or control uart

-- 3 Ethernet and 1 channel RS232/TTL data link

-- Long distance wireless transceiver with 2W*2 RF power

Hincn HCL602 was designed for video and data wireless transmission with two way wireless data link. This OFDM radio device works at 600MHz or 1.4GHz bands, with frequency hopping technology (FHSS) to make sure better stability signal communication.

Features:

•    TDD OFDM modulation

•    Supports 566~678MHz band and 1420~1530MHz band

•    Supports FHSS inside each band

•    1.4/3/5/10/20/40MHz band width configurable

•    Maximum 100Mbps throughput

•    RF transmission maximum power: 2W*2 (Each 2W of the two antennas)

•    Constellation: QPSK, 16QAM, 64QAM, self-adaption

•    Sensitivity: -102dBm(1Mbps@20MHz)

•    Supports IP data transmission(3 Ethernet port)

•    Supports serial data transmission(1 channel RS232 or TTL)

•    1~7km(ground-to-ground), maximum 100km(UAV-to-ground)

•    Web UI and control uart for management

•    AES128 encryption

•    Uplink and downlink stream automatic control

•    Networking mode: Mesh

•    Movement Speed: Supports maximum 300km/h

•    Compact size and light weight

•    Rugged aluminum alloy housing

•    Power input: 12~18V

•    Power consumption: <2A@12V

•    Dimensions: 118.4*61.4*29 mm  

•    Weight: 235g

Ethernet

3 Channel Ethernet port, the 3 Ethernet port are bridged connection on board inside the device with same IP address.

IP camera video can be connected with HCL602 directly via Ethernet port. HDMI/SDI/AHD/AV camera video can be encoded with our SE10/SE11 device and then work with HCL602 via Ethernet connection.

Hincn SD10/SD11 H.265/H.264 video decoder device can work with HCL602 via Ethernet connection on the video received side for realtime video monitoring.

Data uart

3 PIN PH1.25mm connector, RS232 uart as default, can be assembled as TTL uart according to requirement before shipping out. The data uart can be set to work as UART-to-Ethernet function too. Baud rate of the uart can be setup by web UI or control uart.

Control uart(C-TTL)

3 PIN PH1.25mm connector, TTL control uart. You can run AT command via control uart to configure the paramerers of the device and view the wireless link status of the device.  

Wireless networking with HCL602-2W Mesh device

This HCL602 2W Mesh Wireless Transceiver supports mesh network with maximum 32 nodes and shared maximum 100Mbps Iperf Throughput.

• Mesh network capacity: supports a maximum of 32 Nodes(N, 2≤N ≤ 32 );
• Transport: unicast, multicast, and broadcast are supported. Any node can communicate with each other in these three modes;
• Time synchronization: self-synchronization can be performed independently without external clock;
• Power control: all nodes adaptively adjust the transmission power, supports fixed power configuration and takes effect permanently too;
• The topology: supports multi-hop routing topology with a maximum of 32 nodes and 31 hop routing;
• Rrouting: automatically adjust routing, fixed routes can be configured permanently too;
• Data rate level: adaptive average distribution system rate;
• Transmission delay(Note: N is the number of nodes within two hops, hop number: H)

1. Common scenario calculation formula, One-way delay indicator formula (MS): 6*H + (5/2) * N/2 *H * 3, Two-way delay multiplied by 2;
2. Two-node optimization delay: unidirectional delay of one hop between two nodes <= 10ms;
3. Four node chain optimization delay: three-hop single-hop unidirectional delay of four nodes <= 10ms;
4. Typical system delay(from big data statistics):

         - Six point-chain networking, three hops, unidirectional delay: 50ms;

         - 8 points, all points one hop, one-way delay: 36ms;

         - 8 points, serial 7 hops: unidirectional 170ms

• Boot time delay:

1. Network establishment delay of logical main control node after startup 20-80s. (Generally, the logical main control node is the node which turned on firstly);
2. Cold startup: The network access delay of the logic access node is less than 30 seconds, and the logical main control node signal is received;
3. Hot startup: The latency of connecting the secondary node to the network is less than 1s (common one-hop node networking scenario)