Canaan AvalonMiner 1246 Specs & Features
Manufacturer: Canaan
Model: AvalonMiner 1246
Top Coin: Bitcoin
Hashrate: 85Th/s
Release; January 2021
Size :331 x 195 x 292mm
Weight: 12800g
Chip name: A12
Noise level: 75db
Cooling: 12038
Fan(s): 4
Power: 3420W
Voltage: 12V
Interface: Ethernet
Temperature: -5 - 35 °C
Humidity: 5 - 95 %
Description
Canaan AvalonMiner 1246 Review
The device comes with a maximum power consumption of 3420W. One of the miners that have a high power consumption. It has a power efficiency of 38J/TH. It has an integrated design for reliability.
This device integrates the power supply with the enclosure. It has a maximum voltage of 285V and comes with a frequency ranging from 50Hz to 60Hz. The alternating current of the device is at 16A. The Canaan AvalonMiner 1246 provides great flexibility and fits various cabinet sizes. It has a dimension of (331 mm X 195 mm X 292mm). The enclosure, which is made of aluminum, has a net weight of about 12.8Kg.
The device comes with four fans. These fans help in the dissipation of heat from the machine. The machine produces a lot of heat due to its high hash rate and its high power consumption. Still, the four fans' presence helps to keep the machine at a temperature where it is optimal and efficient by dissipating the heat produced from the machine.
To improve the heat dissipation, the A1246 device is highly equipped with a high temperature resistant 12038 cooler master fans. The front has dual fans, and these fans are for air inlet. They have seven blades each, which further increases the air contact area pressure, deepening airflow penetration to the enclosure while the interior dust is blowing away. This particular design helps prevent dust accumulation on the dashboard, which can cause a short circuit due to static electricity.
The fan is designed with a voltage of about 12V and a direct current of 4.5A. The dual fans located in the rear area pushes away warm interior air to achieve better heat dissipation. These fans can also protect maintenance workers from blade injuries caused by accidental contact with its surface.