Winmate M101 Series Rugged Tablet delivers robust performance, versatility, and durability for demanding environments. Featuring a 10.1” sunlight-readable display with direct optical bonding and anti-glare technology, it runs on Windows or Android operating systems for seamless compatibility. Designed with IP65-rated water and dust resistance, MIL-STD-810H compliance, and hot-swappable battery options, the M101 Series ensures reliable operation in challenging conditions, making it ideal for fieldwork, industrial tasks, and data collection applications.
The M101PR uses Intel® Pentium® N4200 Processor 1.10 GHz, up to 2.50 GHz with turbo boost technology with a fanless cooling system to provide stable performance and low power consumption. The M101PR supports the latest Windows® 10 IoT Enterprise operating system fulfill increasing industrial applications requirements and providing an alternative solution for those between general consumer-grade and extremely rugged solution.
Real-time data access to the right information is crucial for mobile workers. The M101PR offers GPS, GLONASS, WLAN, BT, and optional 4G LTE to enable robust communications anytime and anywhere.
The M101PR rugged tablet is designed to be tough and rugged, withstanding shock, vibration, and drop up to 4 ft. to concrete according to Defence standard MIL-STD-810G for operations in some of the harshest environments. With all-around rubber edges with battery for tablet, and covered I/O ports, the M101PR is dust-tight and waterproof. Ready for use in wet and dusty environments.
With optional tools for data collection, the M101PR offers ultimate productivity for field workers. Options include built-in 1D/2D Barcode Reader, HF RFID Reader, or add-on modules UHF RFID Reader or Smart Card Reader. Built-in 8.0 MP camera on the rear side allows capturing photos, videos, documents instantly, and the front 2.0 MP camera is suitable for self-video recording or video communications. With A lithium-ion battery in which lithium ions move from the negative electrode through an electrolyte to the positive electrode during discharge and back when charging. Li-ion batteries use an intercalated lithium compound as the material at the positive electrode and typically graphite at the negative electrode.