The Complete Electronics Lab
  • Analog,Digital,Mixed,RF, Symbolic simulation
  • Spice,HDL and S-parameter models
  • VHDL,Verilog,Verilog-A & AMS, SystemC
  • MCU simulation in mixed circuits
  • Monte-Carlo,Worst Case & Stress Analysis
  • AC & Transient Noise Analysis
  • Interactive simulation and animation
  • Virtual Instruments
  • Remote measurements
  • Distance Teaching & Learning
Tina 10 slideshow
  • Upload your designs to TINACLOUD
  • Run anywhere on any platforms
  • Download projects from TINACloud to PC
TinaCloud slideshow
Mixed HDL Simulation
  • VHDL, Verilog, SystemC
  • VHDL and Verilog Debugger
  • Verilog-A and Verilog-AMS
  • Spice & HDL in same Circuit
Tina VHDL slideshow
  • Use in office and at home
  • Use while you are mobile
  • Educational site licenses
  • Industrial site licenses
Tina student slideshow
  • MCU simulation in digital and mixed circuits
  • Hex, ASM, C, Flowchart programming
  • Hex, ASM, C, Flowchart Debugger
  • PIC, AVR, ARM, XMC, 8051, over 800 MCUs
Tina spice mcu slideshow
  • Fast multi-core analysis
  • Large number of SMPS devices
  • DC, AC and Transient Analysis
  • Startup, Input and load step
Tina SMPS slideshow
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Computer Based Training using TINA

TINA's strong educationally oriented features give educators the tools they need for effective Computer Based Training. Using TINA, you can transform existing PC classrooms into contemporary electronics training labs at low cost.

Solving a Simple Problem

TINA has two special operating modes for training and examination. In these modes, the student works on problems under the supervision of TINA, which will solve the problems but wait and check the student's answer. A student can use symbolic names of components and answer with either formulas or numbers. In training mode, TINA warns the student of a wrong answer; in examination mode, it will simply evaluate and record the answer. A large collection of problems already worked out by teachers is available.

Using the Interpreter

Using the Interpreter in Problem Solving. For more complicated problems, the interpreter can totally replace pencil, paper and calculator. Invoking the interpreter, the student can derive auxiliary quantities and step-by-step intermediate results. The interpreter allows the use of symbolic names of components or their numerical values, evaluates expressions, solves linear equations, takes derivatives, integrates, and much more. The detailed solution can be saved for later use or printed for evaluation.