Dual Band WiFi 6 Routing Module Gigabit AX3000 OpenWrt Gateway MT7981B+MT7976C+MT7531A Module Development Kit HLK-RM65
-
Visitor6806
-
Buycount:
-
Price$56.61
Download Files
HLK-RM65: https://drive.google.com/drive/folders/156pIBs0rKDvnFZNoD0uBIjzKKSTZeYaU
HLK-7688A: https://drive.google.com/drive/folders/1fNV08Eu1_OCQUpqZ8By9CD68w4Ibh8fZ
HLK-RM60: https://drive.google.com/drive/folders/1WrerOCwMmxqeHFxjGQFIHfmw9LDR2teG
HLK-RM58S: https://drive.google.com/file/d/1tQjHtr3GOKEMJGjtrWmpxgh-OA4UBCMv/view
HLK-RM08S: https://drive.google.com/file/d/1vnyq0m8AySX9s-Hb3LmcJV_DQZnyrRrD/view
HLK-RM08K: https://drive.google.com/file/d/1vnyq0m8AySX9s-Hb3LmcJV_DQZnyrRrD/view
HLK-GD01: https://drive.google.com/drive/folders/1Y-xBwPyz2IDlPkSSQYoxwO6WWQ1s9bRo
HK-7628N: https://drive.google.com/drive/folders/1Z8-RLZVs9jjOHwORsGWpotGak7IFOwQo
HLK-7621: https://drive.google.com/drive/folders/14MdhLn9S1d7RK7_obvcoT2zCo8x5EadU
HLK-RM65: https://drive.google.com/drive/folders/156pIBs0rKDvnFZNoD0uBIjzKKSTZeYaU
HLK-7688A: https://drive.google.com/drive/folders/1fNV08Eu1_OCQUpqZ8By9CD68w4Ibh8fZ
HLK-RM60: https://drive.google.com/drive/folders/1WrerOCwMmxqeHFxjGQFIHfmw9LDR2teG
HLK-RM58S: https://drive.google.com/file/d/1tQjHtr3GOKEMJGjtrWmpxgh-OA4UBCMv/view
HLK-RM08S: https://drive.google.com/file/d/1vnyq0m8AySX9s-Hb3LmcJV_DQZnyrRrD/view
HLK-RM08K: https://drive.google.com/file/d/1vnyq0m8AySX9s-Hb3LmcJV_DQZnyrRrD/view
HLK-GD01: https://drive.google.com/drive/folders/1Y-xBwPyz2IDlPkSSQYoxwO6WWQ1s9bRo
HK-7628N: https://drive.google.com/drive/folders/1Z8-RLZVs9jjOHwORsGWpotGak7IFOwQo
HLK-7621: https://drive.google.com/drive/folders/14MdhLn9S1d7RK7_obvcoT2zCo8x5EadU
Introduciton
HLK-RM65 is a high-performance embedded WIFI6 AX3000 module launched by Hi-Link Electronics, which is highly integrated the on chip system wireless network router module uses the MT7981B+MT7976C+MT7531A scheme, with a theoretical maximum wireless speed 574Mbps+2402Mbps. Used for high wireless performance, home entertainment, and home automation.
The SoC used is manufactured using advanced silicon technology and integrates dual core ARM ® Cortex-A53MPCoreTM, working up to 1.3GHz frequency and more DRAM bandwidth. It also includes various peripherals, including SGMII and USB3.0 (host) port. two 2.5Gbps HSGMII Ethernet interfaces have also been implemented. MT7981B, combined with RF chips, can provide
the WIFI6 AX3000 wireless router platform provides a dual frequency concurrent chipset solution.
Packing list
HLK-RM65 module*1
Development board*1
Dual band antenna & connecting line*5
12v1a input adapter*1
Features
Power (2.4GHz and 5GHz) MIMO 802.11 A/B/G/N/AC/AX RF, power 20/40/80/160MHz
Flash/DDR3 expansion contains DDR3/DDR4-2133 2GB/4GB
Power: 2.4-2.4835GHz 5.180-5.885GHz
Chengdu 2.4GHz/5GHz PA, LNA
Cable connection method: I-PEX generation 1
Mouth wan. lan1. lan2. lan3. lan4. lan5. usb3.0;
Wide area network access PPPoE, mobile IP, IP, 3G/4G/5G
Static address configuration, virtual server configuration, port forwarding DMZ
Organization name: DC3.3V5A
Diagram
Technical Specifications
Model | Mode | HLK-RM65 | |||||||
Wireless parameters | Wireless standards | 2.4-2.4835GHz | 5.180-5.885GHz | ||||||
Transmitting power | 802.11b: +23±1.5dBm (11M) | 802.11a: +20±1.5dBm (54M) | |||||||
802.11g: +20±2dBm (54M) | 802.11n(20M): +18±2dBm (MCS7) | ||||||||
802.11n(20M): +19±2dBm (MCS7) | 802.11n(40M): +18±1.5dBm (MCS7) | ||||||||
802.11n(40M): +19±1.5dBm (MCS7) | 801.11ac(20M):+17.5±2dBm (MCS9) | ||||||||
801.11ac(20M):+17±2dBm (MCS9) | 801.11ac(40M):+17.5±1.5dBm (MCS9) | ||||||||
801.11ac:(40M)+17±1.5dBm (MCS9) | 801.11ac(80M):+17.5±1.5dBm (MCS9) | ||||||||
802.11ax(20M): +17±1.5dBm (MCS11) | 802.11ax(20M): +17±1.5dBm (MCS11) | ||||||||
802.11ax(40M): +16.5±1.5dBm (MCS11) | 802.11ax(40M): +17±1.5dBm (MCS11) | ||||||||
802.11ax(80M): +17±1.5dBm (MCS11) | |||||||||
802.11ax(160M): +15.5±1.5dBm (MCS11) | |||||||||
Receiver sensitivity | Unit:dBm | ch1 | ch6 | ch13 | unit:dBm | ch50 | ch114 | ch163 | |
2G BW20: (MCS0) - | -93.5 | -93.5 | -93.5 | 5G BW20: (MCS0) | -92.5 | -92.5 | -92.5 | ||
2G BW20:(MCS7) | -74.5 | -74 | -74 | 5G BW20:(MCS7) | -73.5 | -73.5 | -73.5 | ||
2G BW20: (MCS9) | -68.5 | -68 | -68 | 5G BW20: (MCS9) | -68 | -68 | -68 | ||
2G BW20: (MCS11) | -63 | -63 | -63.5 | 5G BW20: (MCS11) | -62 | -62 | -62 | ||
2G BW40: (MCS0) | -90.5 | -90.5 | -90.5 | 5G BW160: (MCS0) | -83 | -83 | -83 | ||
2G BW40: (MCS7) | -71.5 | -71.5 | -71.5 | 5G BW160: (MCS7) | -64.5 | -64.5 | -64.5 | ||
2G BW40: (MCS9) | -65.5 | -65.5 | -65.5 | 5G BW160: (MCS9) | -58.5 | -59 | -59 | ||
2G BW40: (MCS11) | -60 | -60 | -60 | 5G BW160: (MCS11) | -53 | -53.5 | -53.5 | ||
Antenna form | External: I-PEX first generation antenna base * 5 | ||||||||
Hardware parameters | Storage | DDR3: 256M(2Gbit); Nand Flash: 128M(1Gbit) | |||||||
Hardware port | UART,GPIO, SPI,USB,PWM | ||||||||
Ethernet port | Gigabit Ethernet port * 6: WAN * 1, LAN * 5 | ||||||||
USB | Partial foot multiplexing | USB3.0* | |||||||
PCIe | PCIe*1 | ||||||||
SGMII | 2.5G SGMII*1 | ||||||||
Working voltage | 3.3V | ||||||||
Working current | Continuously sending=>Average: 2.8A@3.3V (It is recommended to have a 3.3V power supply capacity of over 5A) In normal mode=>Average: 1.27A@3.3 | ||||||||
IO drive capability | VMax:12ma | ||||||||
Temperature | Working temperature:-20℃~80℃ | ||||||||
Passage size | 60*90mm | ||||||||
Storage temperature | Temperature: -40~+85 ℃, relative humidity: 5% -90% RH (non condensing) | ||||||||
Software parameters | Wireless network type | STA/AP/APClient | |||||||
Upgrade command | Web page upgrade, command network port upgrade | ||||||||
Network protocol | IPv4, TCP/UDP | ||||||||
Software environment | Openwrt | ||||||||
User profile | Web page configuration |
Product pictures
Electrical parameters
Parameter | Min | typical | Max | Unit |
Module supply voltage | 3.1 | 3.3 | 3.5 | V |
Chip supply voltage | 3.1 | 3.3 | 3.5 | V |
I/O voltage | 3.1 | 3.3 | 3.5 | V |
Module average power consumption | 4.0 | W | ||
Module current peak | 2.8 | A | ||
Power supply current requirements | ≥5 | A | ||
Power supply ripple requirements | ≤50 | mV | ||
ESD contact discharge | ±2 | KV | ||
ESD non-contact discharge | ±2 | KV |