10 & 7 inch Capacitive Touch Display, Optical Bonding Toughened Glass Panel, 1280×800, IPS, HDMI Interface
Touch panels of the KPAD-10/7 variety are optimal for use in home automation and intercom for both operation and visualization. KPAD-10/7 Touch Panels are versatile in their applications, functioning as room operator panels, network thermostats, room controllers, and cruise ship compartments, private residences, conference rooms, and hotel rooms. They also feature an integrated capacitive touch screen. The KPAD-10/7 touch panels are powered by a high speed processor that consumes negligible amounts of energy. The KPAD-10/7 is constructed with a lengthy lifespan in mind and receives firmware updates on a regular basis to ensure optimal security. KPAD-10/7 is distinguished by its enduring aesthetic, seamless assimilation into contemporary and historic structures, and exceedingly intuitive operation. Mounting the all-view IPS display in either a horizontal or vertical orientation is possible. Its mere 5 mm thickness enables it to be affixed flush to the wall.
Features
- 7/10-inch IPS screen with a hardware resolution of 1280 x 800
- 5/10-point capacitive touch, with tempered glass panel, hardness up to 6H.
- Using optical bonding touch technology, the display effect is better.
- Supports Raspberry Pi OS / Ubuntu / Kali and Retropie when used with Raspberry Pi.
- Supports Windows 11 / 10 / 8.1 / 8 / 7 when used as a computer monitor.
- Support multi-language OSD menu (can be used for power control, adjusting brightness/ contrast, etc.)
- Support HDMI audio output, onboard 3.5mm headphone jack, and 4PIN speaker jack.
Integration of the Internet of Things
The IoT functionality (Node.js) built in all KPAD-10/7 variants enables the system to connect to nearly any cloud service. This can be done for a variety of purposes, including the uploading of historical data to analytics services, the use of MQTT for telemetry, the transmission of alarm messages to alarm processing services, or the operation of certain components of the control system through a cloud service (for example, scheduling based on Web calendars or booking systems). Additionally, it is feasible to process information from the Internet, such as weather data, in order to perform forecast-based control. Last but not least, the JavaScript kernel also makes it possible to build serial protocols to non-standard equipment in primary plant control.