Yornew's CNC Panel Simulator (CPS) incorporates the same equipment one would find on a standard CNC machine utilizing Siemens/ Fanuc state-of-the-art Controls. With a multi-point touch screen and a broad array of push button controls, students can program, configure, and run a multitude of different operations common in the CNC machining industry.
This simulator can run from a mill to a lathe with a simple parameter change. The simulator can run different control version of Siemens / Fanuc depends on the option chosen. The simulator is equipped with the 15.6-inch Intuitive touch screen allowing the user to view the live machine movement, tooling, and part machining.

Light Weight Design
Designed for the classroom environment, this unit easily sits on a desktop and is portable.
Part Programming and CAM Interface
The CPS allows the user to experience the same feel of working in real machine with the similar size of control display and keys. The users can perform programming and simulation effortlessly with the virtual machine simulation. The seamless multiport connectivity allows external CAM program testing and simulation in the virtual machine by selecting from the library or by creating the user defined machine specifications.
Connectivity
A built-in USB port allows the use of external USB drives and flash memory devices for program storage,transfer, and DNC operations. Ethernet and WIFI connectivity allow easy access to local networks. The HDMI port allows the teachers to connect to the larger screen for demonstration and teaching purpose.
Mill & Lathe Control
The CNC Panel Simulator can be initialized as both a mill controls and a lathe control.
Multiple Control Panel
The CNC Panel Simulator (CPS) can be initialized with a different control panel from Siemens and Fanuc.

Usages of CNC Panel Simulator
1. Training and Education:
Skill Development: CNC simulators are invaluable for training purposes, allowing users to learn and practice CNC programming and operation without the need for physical machinery.
Safety: Beginners can learn in a risk-free environment, reducing the chance of accidents associated with inexperienced operators.
2. Programming Verification:
Error Detection: Simulators can identify errors in CNC programs before they are run on real machines,such as collisions, toolpath issues, or incorrect code syntax.
Optimization: Users can optimize programs virtually,experimenting with different toolpaths, speeds, and feeds to improve efficiency.
3. Prototyping and Design:
Virtual Testing: Engineers can simulate machining processes to validate designs and identify potential issues early in the development phase.
Cost Savings: Reduces material waste and machining time by refining processes virtually before physical production.
4. Machine Setup and Calibration:
Setup Verification: Operators can simulate machine setups to ensure proper tooling, work holding, and machine parameters before actual production.
Calibration: Helps in calibrating machine tools by simulating the expected outcomes of adjustments.
5. Production Planning:
Visualization: Provides a visual representation of the machining process, aiding in production scheduling and workflow optimization.
Capacity Planning: Simulators can model different scenarios to assess machine capacity and production feasibility.