Ni Multisim Student Edition 14 Jun 2026
One of the most praised features is the suite of virtual instruments that mimic real lab equipment. Instead of buying expensive hardware, you can place and use these virtual instruments directly in your schematic:
Using Multisim 14 Student Edition provides several distinct advantages for students mastering electrical engineering and electronics:
: Access to over 14,000 devices (and up to 55,000 in newer updates) from leading manufacturers like Analog Devices and NXP. ni multisim student edition 14
What Is Multisim™ for Education - NI - National Instruments
: An easy-to-use interface for drawing circuits without needing deep technical knowledge of simulation syntax. One of the most praised features is the
| Feature | Student Edition | Professional Edition | | :--- | :--- | :--- | | | Yes, full capabilities | Yes | | Virtual Instruments | Yes, full suite | Yes, full suite | | Microcontroller Simulation | Limited to MPLAB integration for teaching | Yes, with advanced debugging | | FPGA Design | Basic VHDL export for Digilent boards | Advanced FPGA co-simulation | | PCB Design | Basic Ultiboard for student projects | Full Ultiboard with manufacturing tools | | Collaboration Tools | Basic sharing via Multisim Live and iPad | Team design and version control | | Technical Support | Limited to installation issues | Full priority support | | Price | $20-90 USD | Thousands of USD |
The Student Edition includes full integration with NI Ultiboard, allowing you to convert Multisim schematics into printed circuit board diagrams with complete layout and routing capabilities. You can view your designs in 3D and prepare them for fabrication. The Ultiboard Student Edition also includes export to Gerber and PCB fabrication files, enabling students to complete capstone projects and produce professional-quality output. | Feature | Student Edition | Professional Edition
Click the green switch in the top toolbar. Double-click the Oscilloscope icon to open its display grid. Adjust the timebase and volts/div scales to clearly see the input sine wave converted into a half-wave rectified output. Conclusion