Winmate announced a new Android Vehicle Mounted Computer (VMC) model: FM12Q. Based around a high-visibility 12.1-inch display comes with PCAP touch, Android OS, and Qualcomm Snapdragon™ 660, built for extreme operating temperatures. The FM12Q Android VMC was designed to handle the most challenging conditions with a magnesium alloy casing and an upgraded platform.

The Android Vehicle Mounted Computer FM12Q offers: MIL-STD 810H durability against drops, vibrations, humidity, and extreme operating temperature. IP65 rating is for waterproof and dustproof housing. A 12.1-inch PCAP touch display supports hands, rain, and thick gloves modes.

Qualcomm Snapdragon™ 660 Octa-Core, 2.2 GHz CPU. Support ­30°C to 50°C wide operating temperature. Built-in GPS/GLONASS, G-Sensor, Temperature sensor as standard.

2MP front camera. Computers are vital for offices and industries nowadays. However, some work environments pose destructive challenges for these computers, from severe heat, cold, humidity, or extreme dust contamination.

The newly launched FM12Q can run at lower temperatures due to durable materials that do not deform due to sudden temperature changes. The sealed enclosure and integrated heater (optional) with a temperature sensor prevent internal condensation and corrosion. Vibration and shock-proof design ensure reliable performance Winmate FM12Q, which is rugged enough to survive harsh environments, is a must for industrial usage.

Its solid enclosure proves the FM12Q's durability with MIL-STD-810H certification and IP65 rating. High-Performance Qualcomm Snapdragon CPU FM12Q has developed a new line of processors enhanced for IoT, Qualcomm Snapdragon™ 660 Series processors, to support the next generation of IoT edge devices. These processors build on new CPU and graphics performances with integrated IoT features, real-time performance, manageability, security, and functional safety.

Reliable computing under extreme operating temperatures Low-power components of industrial computers prevent overheating and are less likely to achieve high temperatures in the first place.