Thermal Camera Sensor
Thermal camera sensor monitors the temperature of everything within its field of view. The sensor can detected overheating conveyor belts. By setting the threshold values an alarm can reduce the chances of conveyor belt fire.
Luminosity (Lux) sensor
The security light sensor measures the incoming light in lux. This enables to trigger alerts as soon as the enclosure is opened. This sensor offers a better level of security compared to a door contact sensor.
Fuel level
The ultrasonic fuel level sensor monitors the level of fuel inside the tank. It reports the level in percent %. With 65% of the cell site OPEX being fuel, fuel level is critical. With fuel delivery frauds being at an all time high level, the sensor enables to combat this.
Fuel leak
Thermal runaways of equipment will go undetected with traditional temperature sensors as air conditioning units will try to compensate the heat problem. The thermal camera sensor looks at the equipment and monitors its surface temperature in 4800 points, every 2 seconds.
Overheating equipment will cause stress fan, CPU errors on the device itself and may also affect neighbouring systems. The difference between outtake and intake (room temperature) should not be more than 20C or 35F.
Generator Monitoring
The air quality sensor monitors the CO2 and TVOC particles in the air. The shock and vibration sensors monitors the shaking and motion of the generator. The sound sensor monitors for abnormal noises made by the generator.
Water Intrustion
Water is the enemy of electricity. Water ingress can have multiple sources: street flooding, roof leak, airconditioning leaks. The leak sensor by ServersCheck is a 5m water leak sensitive cable so that it can detect water intrusion anywhere in the base station.
Smoke
The plug & play smoke sensor serves as a backup to a standard building’s fire detection system. It allows for detecting smoke through its optical smoke sensor and alerting into the NMS systems.
Dust sensor
When dust is present under the raised floor then it may be blown into equipment. The presence of dust accumulates in equipment then at first power usage will increase due to the harder working fans and CPU’s running at higher temperatures. Ultimately electronics may fail due to short circuits.
The Dust sensor monitors dust particles in the air of sizes between PM2.5 and PM10.
Hydrogen (H2) Sensor
When operating batteries, environmental regulations require to monitor the banks for hydrogen leaks. Such leaks can be explosive and therefore need to be monitored for the LEL (Lower Explosive Level).
Battery Monitoring
Monitoring the battery voltage, resistance (impedance) and temperature of each cell.
Battery Leak Sensor
The battery leak sensor is put under the battery banks to monitor any leaks of acid batteries.
DC Voltage
Monitor voltage levels of your DC power to verify its availability or battery levels.
Ambient Temperature & Humidity Monitoring
The ambient temperature measurement checks if your cooling is still operating and if the room has the desired temperature setting. Combined with the humidity sensors, it ensures that your equipment is running within manufacturers’ limits in order to maximize uptime and avoid early failure due to equipment stress.
Ambient temperature should be between 18-27°C / 64-80°F.
Ambient humidity should be between 40% – 60 % rH.
IO Dry Contact
The dry contact input units enable you to hook up legacy equipment like generators, analog systems or other dry contact systems.
Power Failure
Thermal runaways of equipment will go undetected with traditional temperature sensors as air conditioning units will try to compensate the heat problem. The thermal camera sensor looks at the equipment and monitors its surface temperature in 4800 points, every 2 seconds.
Overheating equipment will cause stress fan, CPU errors on the device itself and may also affect neighbouring systems. The difference between outtake and intake (room temperature) should not be more than 20C or 35F.
Motion Sensor
Thermal runaways of equipment will go undetected with traditional temperature sensors as air conditioning units will try to compensate the heat problem. The thermal camera sensor looks at the equipment and monitors its surface temperature in 4800 points, every 2 seconds.
Overheating equipment will cause stress fan, CPU errors on the device itself and may also affect neighbouring systems. The difference between outtake and intake (room temperature) should not be more than 20C or 35F.
Grounding
Grounding is critical for the availability of the cell sites. It ensures that your equipment is protected from power surges. However copper theft or corosion may jeopardize your infrastructure.
The sensor connects to the ground bars of your electrical system and monitors non stop the grounding’s resistance. This enables the sensor not only detects disconnected ground bars but also corrosion.
For inquiries, email us at info@agdatacom.com
Source: https://serverscheck.com/solutions/mining-site.asp#0