The CCpilot X1400 is designed to meet the toughest requirements and excel even in the most demanding applications.
It is based on an Intel i5-8400H quad core CPU which features a
very powerful GPU for smooth rendering. It has the performance to be a truly multipurpose on-board computer for advanced HMI and business logics functionality.
With its optically bonded 14.1" widescreen display it provides plenty of GUI real estate, enabling running multiple applications concurrently side-by-side. The x86 architecture and Windows 10 operating system means that system developers can utilise all the powerful toolchains, software components and 3rd party applications available in the Windows domain.
The CCpilot X1400 fully supports a wide variety of modern and next generation graphics APIs and frameworks, making it possible to realize advanced systems without the limitations or restrictions you get with leaner hardware. It utilises two accessible CFAST storage slots for in-field expandability, video recording, encryption and storage upgrades. It can also integrate 3rd party peripherals over USB 3.1, like high resolution cameras and other advanced peripherals that require high bandwidth.
With its vast software capabilities and state-of-the art hardware, the CCpilot X1400 brings the power and flexibility of a complete desktop framework to the cab of your mobile machine.
Below you find an overview specification of CCpilot X1400. The same information is found in the product leaflet which is available for download and in printed form. Please note that product information may change over time and the latest and correct information is always found on this website. You find additional information in the technical manual and software manuals.
| COMPUTING CORE | |
| OVERVIEW | Intel i5-8400H quad core Coffee Lake CPU, with powerful integrated GPU |
| CPU | 4 cores x 2.50 GHz (boost to 4.20 GHz), 8 threads |
| GPU | Intel UHD Graphics 630 high performance graphics processing unit for hardware acceleration, 3D, 2D & vector graphics. 230 GFlops at Base, Boost to 844 GFLOPS |
| STORAGE | 64GB pseudo-SLC CFast |
| RAM | 8GB DDR4 RAM |
| DISPLAY | |
| TYPE | TFT with LED backlight |
| COVER LENS | Chemically hardened glass |
| OPTICAL BONDING | Yes. TFT, cover lens and touch screen optically bonded to achieve sunlight readability. |
| SIZE AND RESOLUTION | 14.1" 16:10 WXGA, 1280 x 800 pixels |
| COLOR DEPTH | 24 bit |
| CONTRAST RATIO* | 700:1 |
| BRIGHTNESS* | 720 cd/m² |
| DIMMING | Yes, in steps, 1-100% |
| AMBIENT LIGHT SENSOR | Yes |
| HMI | |
| TOUCH SCREEN | Projective Capacitive with multi-touch. Calibrated to support interaction with gloves and is in-sensitive to water drops. |
| STATUS LED | RGB LED |
| SOUND | Speaker with configurable tone and volume. |
| SOFT KEYS | 3 configurable buttons on the front of the display. Default function On/Off and Brightness Up/Down |
| INTERFACES | |
| CAN | 2 x CAN-FD ports, physical layer ISO 11898 2.0B. SAE J2284-1 to SAE J2284-5, Configurable bit rate. |
| USB | 3 x USB 3.1 3 x USB 2.0 high speed |
| ETHERNET | 2 x Ethernet. 10/100 Base-T |
| AUDIO | 1 x Stereo Line Out |
| POWER SUPPLY | 12 or 24 VDC Nominal Voltage. Voltage range 10-34 VDC. CPU and communication operational down to 6 VDC |
| KEY SWITCH | 1 input, for start-up/suspend/resume/ shutdown |
| MECHANICAL | |
| HOUSING MATERIAL | Aluminium |
| INSTALLATION | Vesa 75 bracket |
| CONNECTORS | 1 x 5 pin male M12 for power 2 x 4 pin DIN M12 for Ethernet 2 x 5 pin DIN M12 for CAN Ports 3 x M12 for Micro USB 3 x M12 for USB Type C 1 x Stereo Line out |
| DIMENSIONS (mm) | W 408 x H 266 x D 85 |
| WEIGHT (g) | 5500 |
| ENVIRONMENTAL SPECIFICATIONS | |
| IP CLASS | IP54 |
| EMC CONFORMITY | EN ISO 14982:2009, EN ISO 13766-1:2018 |
| VIBRATIONS | IEC 60068-2-64, 0.01g²/Hz 5-200Hz |
| SHOCK | IEC 60068-2-27, 30g/6ms |
| TEMPERATURE RANGE (°C) | Operating: -25 to +55, Storage: -40 to +60 |
| OPERATING SYSTEM | |
| SYSTEM | Windows 10 IoT |
| COMPUTING AND GRAPHICS APIs | Support for advanced UX and computing tasks: OpenGL 4.5, Vulkan, OpenCL 1.2, OpenVG 1.1 |
| INHERENT PLATFORM SUPPORT (Customizations offered on request for large programs.) | |
| INCREASE STORAGE | Up to 128GB |
| INCREASE RAM | Up to 16GB DDR4 |
| PC PLATFORM | The CCpilot X1400 takes advantage of available 3rd party support to deliver a powerful on-board computing solution |
| DEVELOPMENT ENVIRONMENT | PC/Windows tools, e.g. Visual Studio |
| PROGRAMMING | Supported languages include C++, C, QML, JavaScript, Python, HTML5, IEC61131-3. |
| * Typical values | |
PC-based display computers
Our Extreme line of displays, with quad core intel processors, optically bonded PCAP touch screens in 9”-14.1”, with Windows or Linux, is designed to provide powerful x86 based computing solutions for mobile production plants like those deployed in mining, forestry, and heavy construction.
Knowledge BaseA great source of information that expands upon
the information outlined in our product manuals.
Here you can find project demos, code examples,
FAQs, and general product information for developers.
Video trainingOur library of educational visual media for all
our software components. The guides can take
a user from getting started through to advanced
development for any of our products.
Field Application EngineeringOur Field Application Engineers are specialists in the capabilities of our products. They support customers with advice and examples on solutions and how to implement functionality in the most efficient way for different use cases and applications, based on our software platform.
Application developmentOur application development services are provided by our experienced team with a broad range of experience of display and on-board computing solutions, including instrumentation, process control, guidance, video, telematics and more.
Need a starter kit?We offer product starter kits that help you get going fast.
You select which software to be pre-installed and the cable
adaptors you need and get all shipped in one bundle.
Life Cycle ManagementAt CrossControl we have developed a robust product
Life Cycle Management policy that covers our
devices from initial inception to end-of-life status,
a period usually of 15 years.
