TINA Design Suite 11.0 Version (plus crack) Full - download
TINA is an acronym of "Toolkit for Interactive Network Analysis.
TINA has one of the most powerful and best converging Berkely Spice and XSpice based Spice circuit simulator engine on the market, supporting most Spice dialects with parallelised processing and precompiled models. In addition to the large Spice component libraries in TINA, you can create new TINA components from any Spice subcircuit, whether created by yourself, downloaded from the Internet, obtained from a manufacturer's CD or from portions of schematics turned into subcircuits. TINA automatically represents these subcircuits as a rectangular block, but you can create any shape you like with TINA's Schematic Symbol Editor. You can also use TINA's parameter extractor program to calculate model parameters from catalog or measurement data and then add the new devices into the catalog.
TINA now includes all major analog, digital and mixed Hardware Description Languages: VHDL, Verilog, Verilog-A, Verilog AMS and SysteC to verify designs in analog, digital and mixed-signal analog-digital environments. Your circuits can contain editable HDL blocks from the libraries of TINA and Xilinx or other HDL components created by yourself or downloaded from the Internet. TINA compiles HDL into highly efficient machine code or you can use precompiled SystemC components for speed optimization. You can freely combine HDL and Spice macros and the schematic components of TINA. Also you can edit the HDL source of any HDL components then simulate and see the result instantly. With the built in HDL debugger you can execute the HDL code step-by-step, add breakpoints, watchpoints, display variable information and more. In addition to the large component libraries in TINA, you can create new TINA components from HDL subcircuits.
TINA includes a wide range of microcontrollers (PIC, AVR, 8051, HCS, ARM, XMC) which you can test, debug and run interactively. The built in MCU assembler allows you to modify your assembler code and see the result promptly. You can also program and debug MCUs with the built-in flowchart tool or in C, using external C compilers and other code generators, including Microchip XC8, MATRIX FLOWCODE, Infineon's DAVE for XMC & Arduino.
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