Tina Design Suite 9 3 11: A Complete Solution for Analog, Digital, Mixed, and MCU Circuits and PCBs
Tina Design Suite 9 3 11: A Comprehensive Circuit Simulator and PCB Design Software
If you are looking for a powerful yet affordable circuit simulator, circuit designer and PCB design software package for analyzing, designing, and real time testing of analog, digital, IBIS, HDL, MCU, and mixed electronic circuits and their PCB layouts, you should check out Tina Design Suite 9 3 11. In this article, we will introduce you to this amazing software, show you how to use it for circuit simulation and PCB design, and tell you how to access it online with TINACloud.
Tina Design Suite 9 3 11
What is Tina Design Suite 9 3 11?
Tina Design Suite 9 3 11 is the latest version of the popular Tina software developed by DesignSoft. Tina stands for Toolkit for Interactive Network Analysis. It is a software package that combines circuit simulation, circuit design, and PCB design in one integrated environment. You can use Tina Design Suite to create and test your electronic designs on your PC or online with TINACloud.
Features and benefits of Tina Design Suite 9 3 11
Tina Design Suite 9 3 11 has many features and benefits that make it a great choice for hobbyists, students, educators, engineers, and professionals. Here are some of them:
It supports all major analog, digital, mixed hardware description languages (HDLs), such as VHDL, Verilog, SystemVerilog, SystemC, etc.
It includes both Berkely Spice and XSpice based Spice engines, supports most Spice dialects with parallelized processing and precompiled models.
It includes models for modern DAC and ADC converters (SAR and Sigma-Delta) of leading manufactures (Analog Devices, Maxim Integrated and Texas Instruments) with parallel and SPI interface.
It includes a wide range of microcontrollers (PIC, AVR, 8051, HCS, ARM, ST, Arduino, XMC), more than 1400 parts, which you can test, debug and run interactively in mixed circuit environment using circuit simulation.
It includes a built-in optimization tool that allows you to determine unknown circuit parameters automatically so that the network can produce predefined target output values.
It includes a schematic capture tool that allows you to draw your circuits easily with the help of libraries containing thousands of analog and digital components.
It includes a layout editor tool that allows you to design your PCBs with various features such as automatic or manual routing, design rule check (DRC), verification (ERC), Gerber file generation and export.
It includes a real-time testing tool that allows you to test your circuits interactively on the screen or using hardware instruments connected to your PC via USB or LAN.
It includes a documentation tool that allows you to generate professional reports for your circuits and PCBs with diagrams, formulas, test results, and annotations.
It includes a TINACloud license that allows you to access your designs online from any device with a web browser and collaborate and share your designs with others.
With Tina Design Suite 9 3 11, you can create and test any electronic circuit or PCB design with ease and accuracy. You can also learn more about electronics and improve your skills with the help of tutorials, examples, and exercises included in the software.
How to get Tina Design Suite 9 3 11
Tina Design Suite 9 3 11 is available for Windows XP, Vista, 7, 8, and 10. You can download a free trial version from the official website or buy a full version with different editions and prices depending on your needs. The full version includes a TINACloud license that allows you to access your designs online for one year. You can also renew your TINACloud license or buy additional licenses for more users. You can also get Tina Design Suite as part of the EDISON-TINA package that includes EDISON, an interactive multimedia lab for exploring electricity and electronics.
How to use Tina Design Suite 9 3 11 for circuit simulation and PCB design
Tina Design Suite 9 3 11 is easy to use and has a user-friendly interface. You can start by creating a new project or opening an existing one. You can then draw your circuit schematic using the schematic capture tool or import it from another software. You can also edit your circuit parameters, add annotations, and run different types of simulations. You can then design your PCB layout using the layout editor tool or import it from another software. You can also edit your PCB parameters, add components, and run different types of verifications. You can then generate and export your Gerber files for manufacturing or testing. You can also test your circuits and PCBs in real time using the real-time testing tool or online using TINACloud. Let's see how to use Tina Design Suite 9 3 11 for circuit simulation and PCB design in more detail.
Circuit simulation with Tina Design Suite 9 3 11
Tina Design Suite 9 3 11 allows you to simulate various types of circuits using different methods and models. You can simulate analog, digital, mixed, and RF circuits using Spice or PWL simulation. You can simulate ADC and DAC converters using parallel or SPI interface. You can simulate HDLs such as VHDL, Verilog, SystemVerilog, SystemC using co-simulation. You can simulate microcontrollers such as PIC, AVR, 8051, HCS, ARM, ST, Arduino, XMC using MCU simulation. You can also design your circuits using the circuit designer tool with optimization.
Analog, digital, mixed, and RF circuits
Tina Design Suite 9 3 11 supports all major analog, digital, mixed, and RF components such as resistors, capacitors, inductors, diodes, transistors, op-amps, logic gates, flip-flops, counters, timers, multiplexers, demultiplexers, encoders, decoders, converters, filters, oscillators, modulators, demodulators, amplifiers, mixers, antennas, etc. You can find these components in the libraries provided by the software or create your own custom components. You can also import models from manufacturers' websites or other sources. You can draw your circuit schematic using the schematic capture tool and assign values and parameters to your components. You can also add sources, probes, meters, and instruments to your circuit. You can then run different types of simulations such as DC, AC, transient, noise, distortion, sensitivity, transfer function, Fourier, etc. You can view the simulation results in various formats such as graphs, tables, histograms, Smith charts, eye diagrams, etc. You can also export the simulation results to other software or formats.
Spice and PWL simulation
Tina Design Suite 9 3 11 includes both Berkely Spice and XSpice based Spice engines that allow you to simulate analog and mixed circuits using Spice models and commands. You can use most Spice dialects such as PSpice, HSpice, LTspice, etc. with parallelized processing and precompiled models. You can also use piecewise linear (PWL) simulation that allows you to simulate digital circuits using PWL models and commands. You can use both Spice and PWL simulation in the same circuit and co-simulate them with other methods and models.
ADC and DAC simulation
Tina Design Suite 9 3 11 includes models for modern analog-to-digital converters (ADCs) and digital-to-analog converters (DACs) of leading manufactures such as Analog Devices, Maxim Integrated and Texas Instruments. You can simulate these converters using parallel or serial peripheral interface (SPI) interface. You can also simulate the effects of quantization, noise, jitter, offset, gain error, etc. on the converters. You can use these converters in your analog or digital circuits and co-simulate them with other methods and models.
VHDL, Verilog, SystemVerilog, SystemC support
Tina Design Suite 9 3 11 supports all major hardware description languages (HDLs) such as VHDL, Verilog, SystemVerilog, SystemC, and co-simulation
Tina Design Suite 9 3 11 supports all major hardware description languages (HDLs) such as VHDL, Verilog, SystemVerilog, and SystemC. You can use these languages to describe and simulate your digital circuits at different levels of abstraction. You can also use co-simulation to combine HDL models with Spice or PWL models in the same circuit. You can use the built-in HDL editor to write and edit your HDL code or import it from another software. You can also use the built-in HDL debugger to debug and step through your HDL code. You can then run different types of simulations such as functional, timing, power, etc. You can view the simulation results in various formats such as waveforms, state diagrams, etc. You can also export the simulation results to other software or formats.
Microcontroller (MCU) simulation
Tina Design Suite 9 3 11 includes a wide range of microcontrollers (MCUs) such as PIC, AVR, 8051, HCS, ARM, ST, Arduino, XMC, etc. You can use these MCUs to control and interact with your circuits using MCU simulation. You can use the built-in MCU editor to write and edit your MCU code in assembly or C language or import it from another software. You can also use the built-in MCU debugger to debug and step through your MCU code. You can then run different types of simulations such as interactive, batch, etc. You can view the simulation results in various formats such as registers, memory, stack, ports, etc. You can also export the simulation results to other software or formats.
Circuit designer with optimization
Tina Design Suite 9 3 11 includes a built-in optimization tool that allows you to design your circuits automatically using optimization. You can use this tool to determine unknown circuit parameters such as component values, voltages, currents, frequencies, etc. so that the circuit can produce predefined target output values such as gain, bandwidth, impedance, etc. You can also use this tool to optimize your circuit performance such as minimizing power consumption, noise, distortion, etc. You can use different types of optimization methods such as gradient descent, simplex method, genetic algorithm, etc. You can view the optimization results in various formats such as graphs, tables, reports, etc. You can also export the optimization results to other software or formats.
PCB design with Tina Design Suite 9 3 11
Tina Design Suite 9 3 11 allows you to design your PCBs using different features and tools. You can design your PCB layout using the layout editor tool or import it from another software. You can also edit your PCB parameters such as board size, layers, grid, units, etc. You can also add components, traces, vias, pads, holes, text, etc. to your PCB layout. You can then run different types of verifications such as design rule check (DRC), electrical rule check (ERC), signal integrity analysis (SIA), etc. You can also generate and export your Gerber files for manufacturing or testing. You can also test your PCBs in real time using the real-time testing tool or online using TINACloud. Let's see how to use Tina Design Suite 9 3 11 for PCB design in more detail.
Schematic capture and layout editor
Tina Design Suite 9 3 11 includes a schematic capture tool that allows you to draw your circuit schematic easily with the help of libraries containing thousands of analog and digital components. You can also import your circuit schematic from another software or format such as EDIF, DXF, etc. You can then convert your circuit schematic to a PCB layout using the layout editor tool. You can also import your PCB layout from another software or format such as Gerber, DXF, etc. You can edit your PCB layout using various features and tools such as zoom, pan, rotate, mirror, copy, paste, undo, redo, align, distribute, group, ungroup, lock, unlock, etc. You can also use the auto-placement and auto-connection features to place and connect your components automatically.
Automatic and manual routing
Tina Design Suite 9 3 11 includes both automatic and manual routing features that allow you to route your PCB traces easily and efficiently. You can use the automatic routing feature to route your PCB traces automatically using different algorithms and parameters such as grid size, clearance, via size, via cost, layer preference, net class, etc. You can also use the manual routing feature to route your PCB traces manually using different modes and tools such as single trace mode, multi-trace mode, push and shove mode, rip-up mode, fan-out mode, trace width tool, trace length tool, trace angle tool, trace bend tool, etc. You can also use the interactive routing feature to route your PCB traces interactively using the mouse or keyboard. You can also use the autorouter tool to route your PCB traces automatically using an external autorouter such as Electra, Freerouting, etc.
Design rule check and verification
Tina Design Suite 9 3 11 includes a design rule check (DRC) feature that allows you to check your PCB layout for any errors or violations of the design rules such as clearance, trace width, via size, hole size, etc. You can also define your own design rules or use the predefined ones. You can run the DRC feature manually or automatically and view the DRC results in various formats such as markers, reports, lists, etc. You can also use the electrical rule check (ERC) feature to check your PCB layout for any electrical errors or violations such as short circuits, open circuits, missing connections, etc. You can also use the signal integrity analysis (SIA) feature to check your PCB layout for any signal integrity issues such as crosstalk, reflection, impedance mismatch, etc. You can also use the thermal analysis feature to check your PCB layout for any thermal issues such as hot spots, temperature distribution, etc.
Gerber file generation and export
Tina Design Suite 9 3 11 includes a Gerber file generation and export feature that allows you to generate and export your PCB layout in Gerber format for manufacturing or testing. You can also generate and export other files such as drill files, pick and place files, bill of materials (BOM) files, netlist files, etc. You can also import and export other formats such as DXF, EDIF, etc.
How to access Tina Design Suite online with TINACloud
Tina Design Suite 9 3 11 includes a TINACloud license that allows you to access your designs online from any device with a web browser and collaborate and share your designs with others. TINACloud is an online version of Tina that runs on cloud servers and provides most of the features and functions of Tina Design Suite. Let's see how to access Tina Design Suite online with TINACloud in more detail.
What is TINACloud?
TINACloud is an online version of Tina that runs on cloud servers and provides most of the features and functions of Tina Design Suite. You can use TINACloud to create, edit, run, test, document, and share your designs online from any device with a web browser such as PC, laptop, tablet, smartphone, etc. You can also use TINACloud to collaborate with other users online using chat, voice, video, screen sharing, etc. You can also use TINACloud to access thousands of ready-made circuits and examples online and modify them as you wish. You can also use TINACloud to access online courses and tutorials on electronics and Tina.
How to edit and run your designs online with TINACloud
To edit and run your designs online with TINACloud, you need to have a TINACloud license that comes with Tina Design Suite 9 3 11 or buy one separately. You also need to have an internet connection and a web browser that supports HTML5 and JavaScript. You can then go to the TINACloud website and log in with your username and password. You can then create a new project or open an existing one from your local or cloud storage. You can then edit your circuit schematic or PCB layout using the online schematic capture or layout editor tool. You can also run different types of simulations or verifications using the online simulation or verification tool. You can also test your circuits or PCBs in real time using the online real-time testing tool or hardware instruments connected to your device via USB or LAN.
How to collaborate and share your designs online with TINACloud
To collaborate and share your designs online with TINACloud, you need to have a TINACloud license that comes with Tina Design Suite 9 3 11 or buy one separately. You also need to have an internet connection and a web browser that supports HTML5 and JavaScript. You can then go to the TINACloud website and log in with your username and password. You can then invite other users to join your project or join other users' projects using their email addresses or usernames. You can then chat, voice, video, or screen share with other users online using the online collaboration tool. You can also edit, run, test, document, and share your designs with other users online using the online editing, simulation, testing, documentation, and sharing tools.
Conclusion
Tina Design Suite 9 3 11 is a comprehensive circuit simulator and PCB design software package that allows you to create and test any electronic circuit or PCB design with ease and accuracy. You can also access your designs online from any device with a web browser and collaborate and share your designs with others using TINACloud. Tina Design Suite 9 3 11 is a great choice for hobbyists, students, educators, engineers, and professionals who want to learn more about electronics and improve their skills with the help of tutorials, examples, and exercises included in the software. If you are interested in Tina Design Suite 9 3 11, you can download a free trial version from the official website or buy a full version with different editions and prices depending on your needs.
FAQs
Here are some frequently asked questions about Tina Design Suite 9 3 11:
Q: What are the system requirements for Tina Design Suite 9 3 11?
A: Tina Design Suite 9 3 11 requires Windows XP, Vista, 7, 8, or 10 operating system, Intel Pentium IV processor or higher, at least 1 GB of RAM, at least 1 GB of free hard disk space, CD-ROM drive (for installation), USB port (for hardware instruments), sound card (for voice communication), internet connection (for TINACloud), web browser that supports HTML5 and JavaScript (for TINACloud).
Q: How much does Tina Design Suite 9 3 11 cost?
A: Tina Design Suite 9 3 11 has different editions and prices depending on your needs. The basic edition costs $119 USD, the classic edition costs $249 USD, the professional edition costs $449 USD, the industrial edition costs $949 USD, and the educational edition costs $69 USD. The full version includes a TINACloud license that allows you to access your designs online for one year. You can also renew your TINACloud license or buy additional licenses for more users. You can also get Tina Design Suite as part of the EDISON-TINA package that includes EDISON, an interactive multimedia lab for exploring electricity and electronics, for $149 USD.
Q: How can I learn more about Tina Design Suite 9 3 11?
A: You can learn more about Tina Design Suite 9 3 11 by visiting the official website, where you can find more information, tutorials, examples, exercises, videos, manuals, FAQs, support, etc. You can also join the online community of Tina users and experts, where you can ask questions, share ideas, give feedback, etc. You can also subscribe to the newsletter and follow the social media accounts of Tina Design Suite to get the latest news and updates.
Q: How can I contact the developers of Tina Design Suite 9 3