TINA STUDENT VERSION The Student Version of TINA is a powerful yet affordable software package for electronics students to simulate and analyze electronic circuits. It works with linear and nonlinear analog circuits as well as with digital and mixed circuits. TINA is a uniquely capable learning tool for students. Its outstanding features include symbolic

analysis

TINACLOUD ON-LINE CIRCUIT SIMULATORCOMPONENTSTECHNICAL SUPPORT TINACloud is a powerful, industrial strength, online circuit simulator tool that allows to analyze & design analog, digital, VHDL, Verilog, Verilog A & AMS, MCU, and mixed electronic circuits including also SMPS, RF, communication, and optoelectronic circuits and test microcontroller applications in

EQUATION EDITOR

Equation Editor. Jump to TINA Main Page & General Information. TINA includes text and equation editors for annotating schematics, diagrams and graphics output. Using these tools you can design professional reports and documents. Teachers and students will also find this an invaluable aid in solving problems and preparing examples.

BODE PLOTS - TINA

The second normalized form is more convenient for drawing the Bode plot. First, find the transfer function value at f = 0 (DC). By inspection, it is 1, or 0dB. This is the starting value of our straight-line approximation of W (s). Draw a horizontal line segment from DC to the first pole or zero, at the 0dB level. FET MODELS FOR COMPUTER SIMULATIONS-TINA AND TINACLOUD FET Models for Computer Simulations. SPICE and MICRO-CAP contain sophisticated models for JFETs and MOSFETs. The JFET model (the SPICE 2G.6 model) contains 12 parameters. The MOSFET SPICE model contains 42 parameters in three levels. The lowest level model contains 25 parameters, while higher-order models add to this list. HOW TO ANALYZE CIRCUITS IN TIME DOMAIN WITH TINA? In this tutorial video, we will demonstrate and compare the tools available in TINA, for analyzing circuits in time domain. In TINA, you can analyze circuits in time domain, employing two different tools: Transient analysis from the Analysis menu of TINA. Simulated virtual Oscilloscope from the T&M menu of TINA. THREE PHASE NETWORKS A three-phase network can be seen as a special connection of three single phase or simple AC circuits. Three-phase networks consist of three simple networks, each having the same amplitude and frequency, and a 120° phase difference between adjacent networks. The time diagram of the voltages in a 120V eff system is shown in the diagram

below.

RELEASE OF NEW TINA VERSION 12 Most new features of TINA v12 included. TINA & TINACloud are better than ever. With powerful new features and tons of improvements now is a great time to upgrade your TINA and TINACloud. If you hurry, and order your upgrade today (through Dec 30 midnight), you can even get the following benefits: special introductory prices with 30% discount. ONLINE SIMULATION OF A TRANSIMPEDANCE AMPLIFIER CIRCUIT Online Simulation of a Transimpedance Amplifier Circuit. This fast photodiode transimpedance amplifier is based on a high- speed JFET- input op amp OPA657. This op amp is compensated for a minimum closed- loop gain of 7V/V, but the capacitance of the photodiode plus the op amp input capacitance together with the feedback resistor R1 provides

a

ADDING A COMPLETE SPICE LIBRARY USING THE TINA LIBRARY MANAGER Adding a Complete Spice Library using the TINA Library Manager. In most cases adding a Spice library to TINA is very simple. Using the comments in the models, everything is automatically recognized in the Library Manager and adding a whole library to TINA takes a few minutes

only.

TINA STUDENT VERSION The Student Version of TINA is a powerful yet affordable software package for electronics students to simulate and analyze electronic circuits. It works with linear and nonlinear analog circuits as well as with digital and mixed circuits. TINA is a uniquely capable learning tool for students. Its outstanding features include symbolic

analysis

TINACLOUD ON-LINE CIRCUIT SIMULATORCOMPONENTSTECHNICAL SUPPORT TINACloud is a powerful, industrial strength, online circuit simulator tool that allows to analyze & design analog, digital, VHDL, Verilog, Verilog A & AMS, MCU, and mixed electronic circuits including also SMPS, RF, communication, and optoelectronic circuits and test microcontroller applications in

EQUATION EDITOR

Equation Editor. Jump to TINA Main Page & General Information. TINA includes text and equation editors for annotating schematics, diagrams and graphics output. Using these tools you can design professional reports and documents. Teachers and students will also find this an invaluable aid in solving problems and preparing examples.

BODE PLOTS - TINA

The second normalized form is more convenient for drawing the Bode plot. First, find the transfer function value at f = 0 (DC). By inspection, it is 1, or 0dB. This is the starting value of our straight-line approximation of W (s). Draw a horizontal line segment from DC to the first pole or zero, at the 0dB level. FET MODELS FOR COMPUTER SIMULATIONS-TINA AND TINACLOUD FET Models for Computer Simulations. SPICE and MICRO-CAP contain sophisticated models for JFETs and MOSFETs. The JFET model (the SPICE 2G.6 model) contains 12 parameters. The MOSFET SPICE model contains 42 parameters in three levels. The lowest level model contains 25 parameters, while higher-order models add to this list. HOW TO ANALYZE CIRCUITS IN TIME DOMAIN WITH TINA? In this tutorial video, we will demonstrate and compare the tools available in TINA, for analyzing circuits in time domain. In TINA, you can analyze circuits in time domain, employing two different tools: Transient analysis from the Analysis menu of TINA. Simulated virtual Oscilloscope from the T&M menu of TINA. THREE PHASE NETWORKS A three-phase network can be seen as a special connection of three single phase or simple AC circuits. Three-phase networks consist of three simple networks, each having the same amplitude and frequency, and a 120° phase difference between adjacent networks. The time diagram of the voltages in a 120V eff system is shown in the diagram

below.

RELEASE OF NEW TINA VERSION 12 Most new features of TINA v12 included. TINA & TINACloud are better than ever. With powerful new features and tons of improvements now is a great time to upgrade your TINA and TINACloud. If you hurry, and order your upgrade today (through Dec 30 midnight), you can even get the following benefits: special introductory prices with 30% discount. ONLINE SIMULATION OF A TRANSIMPEDANCE AMPLIFIER CIRCUIT Online Simulation of a Transimpedance Amplifier Circuit. This fast photodiode transimpedance amplifier is based on a high- speed JFET- input op amp OPA657. This op amp is compensated for a minimum closed- loop gain of 7V/V, but the capacitance of the photodiode plus the op amp input capacitance together with the feedback resistor R1 provides

a

ADDING A COMPLETE SPICE LIBRARY USING THE TINA LIBRARY MANAGER Adding a Complete Spice Library using the TINA Library Manager. In most cases adding a Spice library to TINA is very simple. Using the comments in the models, everything is automatically recognized in the Library Manager and adding a whole library to TINA takes a few minutes

only.

ELECTRONIC COMPONENTS AVAILABLE IN TINA AND TINACLOUD Connectors: TINA and TINACloud include a lot of Connectors. You can find the connectors under the Switches component toolbar. Click the Connectors icon which is the second from the right end of the row. Passive components: resistor, potentiometer, capacitor, charged capacitor, inductor, energy-storing inductor, coupled inductors,

transformer

EQUATION EDITOR

Equation Editor. Jump to TINA Main Page & General Information. TINA includes text and equation editors for annotating schematics, diagrams and graphics output. Using these tools you can design professional reports and documents. Teachers and students will also find this an invaluable aid in solving problems and preparing examples. PASSIVE COMPONENTS IN AC CIRCUITS USING IMPEDANCE AND ADMITTANCE. As we move from our study of DC circuits to AC circuits, we must consider two other types of passive component, ones that behave very differently from resistors–namely, inductors and capacitors. Resistors are characterized only by their resistance and by Ohm’s law. Inductors and capacitors change the

phase of

OTHER OP-AMP APPLICATIONS-TINA AND TINACLOUD RESOURCES Many oscillator applications depend on a negative resistance op-amp circuit. The input resistance, Rin, is the ratio of input voltage to current. (43) A voltage divider relationship is used to derive the expression for v– since the current into the op-amp is zero. (44) We now let v+ = v– and solve for vout in terms of vin, which yields,

(45

10. FET AMPLIFIER DESIGN 10.2 The CD Amplifier. We now present the design procedure for the CD JFET amplifier. The following quantities are specified: current gain, load resistance, and VDD. Input resistance may be specified instead of current gain. Refer to the circuit of Figure 39 as you study the following procedure. NON-INVERTING AMPLIFIER-TINA AND TINACLOUD RESOURCES 7.2 Voltage Gain. We wish to determine the voltage gain, A+ for the non-inverting amplifier of Figure 32 (a). Figure 32 – Non-inverting amplifier. This gain is defined by. (58) The equivalent circuit is shown in Figure 32 (b). If we assume RF >> Ro, Rload >> Ro and , the

circuit can be

5. MOSFET INTEGRATED CIRCUITS When MOSFET transistors are fabricated as part of an integrated circuit, practical considerations require two major changes in circuit configurations. First, the large coupling and bypass capacitors used in discrete amplifiers cannot practically be fabricated in integrated circuits because of the small size. SPEECH COMPRESSION AMPLIFIER Speech Compression Amplifier With Linear Gain = 20V/V. Compression amplifiers are frequently used to prevent overmodulation of AM transmitters. This prevents the creation of spurious modulation products called “splatter”. The “soft knee” of the transfer curve also imparts a “vacuum tube- like” sound to audio signals

and musical

ADDING A COMPLETE SPICE LIBRARY USING THE TINA LIBRARY MANAGER Adding a Complete Spice Library using the TINA Library Manager. In most cases adding a Spice library to TINA is very simple. Using the comments in the models, everything is automatically recognized in the Library Manager and adding a whole library to TINA takes a few minutes

only.

1 KHZ WIEN-BRIDGE OSCILLATOR 1 kHz Wien-Bridge Oscillator. 1 kHz Wien-Bridge Oscillator. The starting pulse is generated by the positive power supply’s startup slope. If the power supply does not slew fast enough the oscillator will not start. R3 can be increased to increase the gain and likelihood of starting. ONLINE-OFFLINE CIRCUIT SIMULATOR FOR ANALOG, DIGITAL & MCUTINATINACLOUDRELATED PRODUCTSSUPPORTBLOGRESOURCES Offline Circuit Simulation with TINA. TINA Design Suite is 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 can also analyze SMPS, RF, communication and . TINA STUDENT VERSION The Student Version of TINA is a powerful yet affordable software package for electronics students to simulate and analyze electronic circuits. It works with linear and nonlinear analog circuits as well as with digital and mixed circuits. TINA is a uniquely capable learning tool for students. Its outstanding features include symbolic

analysis

TINACLOUD ON-LINE CIRCUIT SIMULATOR TINACloud is a powerful, industrial strength, online circuit simulator tool that allows to analyze & design analog, digital, VHDL, Verilog, Verilog A & AMS, MCU, and mixed electronic circuits including also SMPS, RF, communication, and optoelectronic circuits and test microcontroller applications in

BODE PLOTS - TINA

The second normalized form is more convenient for drawing the Bode plot. First, find the transfer function value at f = 0 (DC). By inspection, it is 1, or 0dB. This is the starting value of our straight-line approximation of W (s). Draw a horizontal line segment from DC to the first pole or zero, at the 0dB level. CIRCUIT DESIGN TOOL IN TINA Open the Invert Gain OPA350 Test Circuit Design.TSC circuit from the ExamplesDesign Tool folder of TINA. In the TINA Schematic Editor the following circuit will appear: With the Design Tool we will set Rf and Vref to achieve the specified Gain and DC output voltage. Now COMPARISON OF TINA VERSIONS Note 5 ORCAD can open Altium export files of TINA and TINACloud. Note 6 The models created by the Parameter Extractor/Model Maker in any offline version of TINA are useable in TINACloud. Note 7 Generators on schematics are used for real time measurements. Click here to Download as TINA and TINACloud version comparison.xlsx. ANALOG CIRCUIT SIMULATION Analog Circuit Simulation. TINA provides an extremely powerful multicore Spice engine with excellent convergence properties and highly efficient and accurate simulation. In addition to Spice components TINA may also include Verilog A and Verilog AMS components. THREE PHASE NETWORKS A three-phase network can be seen as a special connection of three single phase or simple AC circuits. Three-phase networks consist of three simple networks, each having the same amplitude and frequency, and a 120° phase difference between adjacent networks. The time diagram of the voltages in a 120V eff system is shown in the diagram

below.

NORTON'S THEOREM

Concisely stated, Norton’s Theorem says: Any two-terminal linear circuit can be replaced by an equivalent circuit consisting of a current source (I N) and a parallel resistor (R N ). It is important to note that the Norton equivalent circuit provides equivalence at the terminals only. Obviously, the DESIGN OF OP-AMP CIRCUITS-TINA AND TINACLOUD RESOURCES The only change we have made is to include resistors between the op-amp inputs and ground. The ground can be viewed as an additional input of zero volts connected through the corresponding resistor (R y for the inverting input and R x for the non-inverting input).The addition of these resistors gives us flexibility in meeting any requirements beyond those of Equation (30). ONLINE-OFFLINE CIRCUIT SIMULATOR FOR ANALOG, DIGITAL & MCUTINATINACLOUDRELATED PRODUCTSSUPPORTBLOGRESOURCES Offline Circuit Simulation with TINA. TINA Design Suite is 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 can also analyze SMPS, RF, communication and . TINA STUDENT VERSION The Student Version of TINA is a powerful yet affordable software package for electronics students to simulate and analyze electronic circuits. It works with linear and nonlinear analog circuits as well as with digital and mixed circuits. TINA is a uniquely capable learning tool for students. Its outstanding features include symbolic

analysis

TINACLOUD ON-LINE CIRCUIT SIMULATOR TINACloud is a powerful, industrial strength, online circuit simulator tool that allows to analyze & design analog, digital, VHDL, Verilog, Verilog A & AMS, MCU, and mixed electronic circuits including also SMPS, RF, communication, and optoelectronic circuits and test microcontroller applications in

BODE PLOTS - TINA

The second normalized form is more convenient for drawing the Bode plot. First, find the transfer function value at f = 0 (DC). By inspection, it is 1, or 0dB. This is the starting value of our straight-line approximation of W (s). Draw a horizontal line segment from DC to the first pole or zero, at the 0dB level. CIRCUIT DESIGN TOOL IN TINA Open the Invert Gain OPA350 Test Circuit Design.TSC circuit from the ExamplesDesign Tool folder of TINA. In the TINA Schematic Editor the following circuit will appear: With the Design Tool we will set Rf and Vref to achieve the specified Gain and DC output voltage. Now COMPARISON OF TINA VERSIONS Note 5 ORCAD can open Altium export files of TINA and TINACloud. Note 6 The models created by the Parameter Extractor/Model Maker in any offline version of TINA are useable in TINACloud. Note 7 Generators on schematics are used for real time measurements. Click here to Download as TINA and TINACloud version comparison.xlsx. ANALOG CIRCUIT SIMULATION Analog Circuit Simulation. TINA provides an extremely powerful multicore Spice engine with excellent convergence properties and highly efficient and accurate simulation. In addition to Spice components TINA may also include Verilog A and Verilog AMS components. THREE PHASE NETWORKS A three-phase network can be seen as a special connection of three single phase or simple AC circuits. Three-phase networks consist of three simple networks, each having the same amplitude and frequency, and a 120° phase difference between adjacent networks. The time diagram of the voltages in a 120V eff system is shown in the diagram

below.

NORTON'S THEOREM

Concisely stated, Norton’s Theorem says: Any two-terminal linear circuit can be replaced by an equivalent circuit consisting of a current source (I N) and a parallel resistor (R N ). It is important to note that the Norton equivalent circuit provides equivalence at the terminals only. Obviously, the DESIGN OF OP-AMP CIRCUITS-TINA AND TINACLOUD RESOURCES The only change we have made is to include resistors between the op-amp inputs and ground. The ground can be viewed as an additional input of zero volts connected through the corresponding resistor (R y for the inverting input and R x for the non-inverting input).The addition of these resistors gives us flexibility in meeting any requirements beyond those of Equation (30). ELECTRONIC COMPONENTS AVAILABLE IN TINA AND TINACLOUD Connectors: TINA and TINACloud include a lot of Connectors. You can find the connectors under the Switches component toolbar. Click the Connectors icon which is the second from the right end of the row. Passive components: resistor, potentiometer, capacitor, charged capacitor, inductor, energy-storing inductor, coupled inductors,

transformer

CIRCUIT DESIGN TOOL IN TINA Jump to TINA Main Page & General Information . TINA is not only a circuit simulator but also a very powerful circuit designer. The simplest way of circuit design with TINA is to check the circuit responses by simulation and modify circuit parameters so that the network produces the target output values. DIGITAL CIRCUIT SIMULATION Digital Circuit Simulation. TINA includes several powerful engines for digital circuit simulation. TINA solves the logic state equation at each node and displays the results. Trace the operation of the circuit step-by-step forward and backward, or use TINA’s auto-running mode. The event-driven digital circuit simulation engine also keeps UPGRADE TO TINA CIRCUIT DESIGN SUITE FROM TINA.TI Click here to watch our latest video on TINA and TINACloud . Click HERE to upgrade with 30% discount from TINA-TI to the full version of TINA. Online Circuit Simulation with TINACloud. With TINACloud, in additon to the installable versions, now you can also edit and run your circuit simulation designs online on PCs, Macs, thin clients, tablets, smart phones, smart TVs and e-book readers HOW TO ANALYZE CIRCUITS IN TIME DOMAIN WITH TINA? In this tutorial video, we will demonstrate and compare the tools available in TINA, for analyzing circuits in time domain. In TINA, you can analyze circuits in time domain, employing two different tools: Transient analysis from the Analysis menu of TINA. Simulated virtual Oscilloscope from the T&M menu of TINA.

NORTON'S THEOREM

Concisely stated, Norton’s Theorem says: Any two-terminal linear circuit can be replaced by an equivalent circuit consisting of a current source (I N) and a parallel resistor (R N ). It is important to note that the Norton equivalent circuit provides equivalence at the terminals only. Obviously, the DESIGN OF OP-AMP CIRCUITS-TINA AND TINACLOUD RESOURCES The only change we have made is to include resistors between the op-amp inputs and ground. The ground can be viewed as an additional input of zero volts connected through the corresponding resistor (R y for the inverting input and R x for the non-inverting input).The addition of these resistors gives us flexibility in meeting any requirements beyond those of Equation (30).

COMPLEX NUMBERS

Complex numbers consist of two parts, a real part ( x ), which is a real number, and a so called imaginary part (y), which is a real number multiplied by , the imaginary unit. The complex number z, therefore, can be described as: z = x + j y. where . Examples of complex numbers: z 1 = 1+ j. z 2 = 4-2 j. FET MODELS FOR COMPUTER SIMULATIONS-TINA AND TINACLOUD FET Models for Computer Simulations. SPICE and MICRO-CAP contain sophisticated models for JFETs and MOSFETs. The JFET model (the SPICE 2G.6 model) contains 12 parameters. The MOSFET SPICE model contains 42 parameters in three levels. The lowest level model contains 25 parameters, while higher-order models add to this list. RELEASE OF NEW TINA VERSION 12 Most new features of TINA v12 included. TINA & TINACloud are better than ever. With powerful new features and tons of improvements now is a great time to upgrade your TINA and TINACloud. If you hurry, and order your upgrade today (through Dec 30 midnight), you can even get the following benefits: special introductory prices with 30% discount. ONLINE-OFFLINE CIRCUIT SIMULATOR FOR ANALOG, DIGITAL & MCUTINATINACLOUDRELATED PRODUCTSSUPPORTBLOGRESOURCES Offline Circuit Simulation with TINA. TINA Design Suite is 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 can also analyze SMPS, RF, communication and . TINA STUDENT VERSION The Student Version of TINA is a powerful yet affordable software package for electronics students to simulate and analyze electronic circuits. It works with linear and nonlinear analog circuits as well as with digital and mixed circuits. TINA is a uniquely capable learning tool for students. Its outstanding features include symbolic

analysis

TINACLOUD ON-LINE CIRCUIT SIMULATOR TINACloud is a powerful, industrial strength, online circuit simulator tool that allows to analyze & design analog, digital, VHDL, Verilog, Verilog A & AMS, MCU, and mixed electronic circuits including also SMPS, RF, communication, and optoelectronic circuits and test microcontroller applications in

BODE PLOTS - TINA

The second normalized form is more convenient for drawing the Bode plot. First, find the transfer function value at f = 0 (DC). By inspection, it is 1, or 0dB. This is the starting value of our straight-line approximation of W (s). Draw a horizontal line segment from DC to the first pole or zero, at the 0dB level. CIRCUIT DESIGN TOOL IN TINA Open the Invert Gain OPA350 Test Circuit Design.TSC circuit from the ExamplesDesign Tool folder of TINA. In the TINA Schematic Editor the following circuit will appear: With the Design Tool we will set Rf and Vref to achieve the specified Gain and DC output voltage. Now COMPARISON OF TINA VERSIONS Note 5 ORCAD can open Altium export files of TINA and TINACloud. Note 6 The models created by the Parameter Extractor/Model Maker in any offline version of TINA are useable in TINACloud. Note 7 Generators on schematics are used for real time measurements. Click here to Download as TINA and TINACloud version comparison.xlsx. ANALOG CIRCUIT SIMULATION Analog Circuit Simulation. TINA provides an extremely powerful multicore Spice engine with excellent convergence properties and highly efficient and accurate simulation. In addition to Spice components TINA may also include Verilog A and Verilog AMS components. THREE PHASE NETWORKS A three-phase network can be seen as a special connection of three single phase or simple AC circuits. Three-phase networks consist of three simple networks, each having the same amplitude and frequency, and a 120° phase difference between adjacent networks. The time diagram of the voltages in a 120V eff system is shown in the diagram

below.

NORTON'S THEOREM

Concisely stated, Norton’s Theorem says: Any two-terminal linear circuit can be replaced by an equivalent circuit consisting of a current source (I N) and a parallel resistor (R N ). It is important to note that the Norton equivalent circuit provides equivalence at the terminals only. Obviously, the DESIGN OF OP-AMP CIRCUITS-TINA AND TINACLOUD RESOURCES The only change we have made is to include resistors between the op-amp inputs and ground. The ground can be viewed as an additional input of zero volts connected through the corresponding resistor (R y for the inverting input and R x for the non-inverting input).The addition of these resistors gives us flexibility in meeting any requirements beyond those of Equation (30). ONLINE-OFFLINE CIRCUIT SIMULATOR FOR ANALOG, DIGITAL & MCUTINATINACLOUDRELATED PRODUCTSSUPPORTBLOGRESOURCES Offline Circuit Simulation with TINA. TINA Design Suite is 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 can also analyze SMPS, RF, communication and . TINA STUDENT VERSION The Student Version of TINA is a powerful yet affordable software package for electronics students to simulate and analyze electronic circuits. It works with linear and nonlinear analog circuits as well as with digital and mixed circuits. TINA is a uniquely capable learning tool for students. Its outstanding features include symbolic

analysis

TINACLOUD ON-LINE CIRCUIT SIMULATOR TINACloud is a powerful, industrial strength, online circuit simulator tool that allows to analyze & design analog, digital, VHDL, Verilog, Verilog A & AMS, MCU, and mixed electronic circuits including also SMPS, RF, communication, and optoelectronic circuits and test microcontroller applications in

BODE PLOTS - TINA

The second normalized form is more convenient for drawing the Bode plot. First, find the transfer function value at f = 0 (DC). By inspection, it is 1, or 0dB. This is the starting value of our straight-line approximation of W (s). Draw a horizontal line segment from DC to the first pole or zero, at the 0dB level. CIRCUIT DESIGN TOOL IN TINA Open the Invert Gain OPA350 Test Circuit Design.TSC circuit from the ExamplesDesign Tool folder of TINA. In the TINA Schematic Editor the following circuit will appear: With the Design Tool we will set Rf and Vref to achieve the specified Gain and DC output voltage. Now COMPARISON OF TINA VERSIONS Note 5 ORCAD can open Altium export files of TINA and TINACloud. Note 6 The models created by the Parameter Extractor/Model Maker in any offline version of TINA are useable in TINACloud. Note 7 Generators on schematics are used for real time measurements. Click here to Download as TINA and TINACloud version comparison.xlsx. ANALOG CIRCUIT SIMULATION Analog Circuit Simulation. TINA provides an extremely powerful multicore Spice engine with excellent convergence properties and highly efficient and accurate simulation. In addition to Spice components TINA may also include Verilog A and Verilog AMS components. THREE PHASE NETWORKS A three-phase network can be seen as a special connection of three single phase or simple AC circuits. Three-phase networks consist of three simple networks, each having the same amplitude and frequency, and a 120° phase difference between adjacent networks. The time diagram of the voltages in a 120V eff system is shown in the diagram

below.

NORTON'S THEOREM

Concisely stated, Norton’s Theorem says: Any two-terminal linear circuit can be replaced by an equivalent circuit consisting of a current source (I N) and a parallel resistor (R N ). It is important to note that the Norton equivalent circuit provides equivalence at the terminals only. Obviously, the DESIGN OF OP-AMP CIRCUITS-TINA AND TINACLOUD RESOURCES The only change we have made is to include resistors between the op-amp inputs and ground. The ground can be viewed as an additional input of zero volts connected through the corresponding resistor (R y for the inverting input and R x for the non-inverting input).The addition of these resistors gives us flexibility in meeting any requirements beyond those of Equation (30). ELECTRONIC COMPONENTS AVAILABLE IN TINA AND TINACLOUD Connectors: TINA and TINACloud include a lot of Connectors. You can find the connectors under the Switches component toolbar. Click the Connectors icon which is the second from the right end of the row. Passive components: resistor, potentiometer, capacitor, charged capacitor, inductor, energy-storing inductor, coupled inductors,

transformer

CIRCUIT DESIGN TOOL IN TINA Jump to TINA Main Page & General Information . TINA is not only a circuit simulator but also a very powerful circuit designer. The simplest way of circuit design with TINA is to check the circuit responses by simulation and modify circuit parameters so that the network produces the target output values. DIGITAL CIRCUIT SIMULATION Digital Circuit Simulation. TINA includes several powerful engines for digital circuit simulation. TINA solves the logic state equation at each node and displays the results. Trace the operation of the circuit step-by-step forward and backward, or use TINA’s auto-running mode. The event-driven digital circuit simulation engine also keeps UPGRADE TO TINA CIRCUIT DESIGN SUITE FROM TINA.TI Click here to watch our latest video on TINA and TINACloud . Click HERE to upgrade with 30% discount from TINA-TI to the full version of TINA. Online Circuit Simulation with TINACloud. With TINACloud, in additon to the installable versions, now you can also edit and run your circuit simulation designs online on PCs, Macs, thin clients, tablets, smart phones, smart TVs and e-book readers HOW TO ANALYZE CIRCUITS IN TIME DOMAIN WITH TINA? In this tutorial video, we will demonstrate and compare the tools available in TINA, for analyzing circuits in time domain. In TINA, you can analyze circuits in time domain, employing two different tools: Transient analysis from the Analysis menu of TINA. Simulated virtual Oscilloscope from the T&M menu of TINA.

NORTON'S THEOREM

Concisely stated, Norton’s Theorem says: Any two-terminal linear circuit can be replaced by an equivalent circuit consisting of a current source (I N) and a parallel resistor (R N ). It is important to note that the Norton equivalent circuit provides equivalence at the terminals only. Obviously, the DESIGN OF OP-AMP CIRCUITS-TINA AND TINACLOUD RESOURCES The only change we have made is to include resistors between the op-amp inputs and ground. The ground can be viewed as an additional input of zero volts connected through the corresponding resistor (R y for the inverting input and R x for the non-inverting input).The addition of these resistors gives us flexibility in meeting any requirements beyond those of Equation (30).

COMPLEX NUMBERS

Complex numbers consist of two parts, a real part ( x ), which is a real number, and a so called imaginary part (y), which is a real number multiplied by , the imaginary unit. The complex number z, therefore, can be described as: z = x + j y. where . Examples of complex numbers: z 1 = 1+ j. z 2 = 4-2 j. FET MODELS FOR COMPUTER SIMULATIONS-TINA AND TINACLOUD FET Models for Computer Simulations. SPICE and MICRO-CAP contain sophisticated models for JFETs and MOSFETs. The JFET model (the SPICE 2G.6 model) contains 12 parameters. The MOSFET SPICE model contains 42 parameters in three levels. The lowest level model contains 25 parameters, while higher-order models add to this list. RELEASE OF NEW TINA VERSION 12 Most new features of TINA v12 included. TINA & TINACloud are better than ever. With powerful new features and tons of improvements now is a great time to upgrade your TINA and TINACloud. If you hurry, and order your upgrade today (through Dec 30 midnight), you can even get the following benefits: special introductory prices with 30% discount.

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and PCB DESIGN

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TINA DESIGN SUITE

POWERFUL & AFFORDABLE SOFTWARE FOR * Analog, Digital, MCU, RF, Symbolic simulation * Spice, IBIS, HDL and S-parameter models * VHDL, Verilog, Verilog-A & AMS, SystemC * Monte-Carlo, Worst Case & Stress Analysis * Interactive simulation and animation * Virtual Instruments * PCB Design with 3D view Download Free DEMO Purchase FULL

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SMPS Simulation

* Fast multi-core analysis * Large number of SMPS devices * DC, AC and Transient Analysis * Startup, Input and load step Download Free DEMO Purchase FULL

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+ get FREE TINACloud Access Microcontroller Simulation * MCU simulation in digital and mixed circuits * Hex, ASM, C, Flowchart programming * Hex, ASM, C, Flowchart Debugger * PIC, AVR, ARM, ST, XMC, 8051, over 1400 MCUs Download Free DEMO Purchase FULL

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+ get FREE TINACloud Access Flexible Licensing Options * Use in office and at home * Use while you are mobile * Educational site licenses * Industrial site licenses Download Free DEMO Purchase FULL

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TINACloud Interface

* Upload your designs to TINACLOUD * Run anywhere on any platforms * Download projects from TINACloud to PC

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CIRCUIT SIMULATOR FOR ANALOG, DIGITAL & MIXED CIRCUITS AND PCB DESIGN What is TINA and TINACloud? What’s new in TINA v12?

Reviews & Opinions

Buy TINA+ FREE TINACloud Access Buy TINACloud Access OFFLINE CIRCUIT SIMULATION WITH TINA TINA Design Suite is a powerful yet affordable circuit simulator 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 can also analyze SMPS, RF, communication and… optoelectronic circuits; generate and debug MCU code using the integrated flowchart tool; and test microcontroller applications in a mixed circuit environment. You can analyze your circuit through more than 20 different analysis modes or with 10 high tech virtual instruments. Present your results in TINA’s sophisticated diagram windows, on virtual instruments, or in the live interactive mode where you can even edit your circuit during operation, develop, run, debug and test HDL & MCU applications. Electrical engineers will find TINA an easy to use, high performance tool, while educators will welcome its unique features for the training environment. Click here to download free demo for evaluation

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ONLINE CIRCUIT SIMULATION WITH TINACLOUD With the TINACloud on-line circuit simulator, in additon to the installable versions, now you can also edit and run your schematic designs and their PCB layouts online on PCs, Macs, thin clients, tablets, smart phones, smart TVs and e-book readers without any installation. You can… use TINACloud in the office, classroom, at home and while travelling, anywhere in the world that has internet access. For limited time we are offering a FREE bundle of TINACloud with all new licenses of TINA. Learn more about TINACloud at www.tina.com/tinacloud

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MODEL DEVELOPMENT

As a software company with extensive experience in circuit simulation and as a company that licenses circuit simulator software to the largest semiconductor companies in the world, DesignSoft has a unique insight as well as experience in developing device models. Our software and modeling capability… support SPICE, VHDL, Verilog, Verilog-AMS, SystemC models and mixed circuit models of modern integrated circuits. We create syntax compatible models for TINA, PSpice, SIMetrix, LTSpice and other simulators. Devices include Opamps, discrete semiconductors (diodes, MOSFETs, IGBTS etc.) SMPS ICs, LED drivers, AD and DA converters, Microcontrollers (ARM, PIC, AVR, XMC etc.) and more. As the developer of TINA, one of the fastest simulators on the market, we have a deep understanding of the simulation algorithms allowing us to advance accurate and time efficient device models. If you need model development services,

please contact us.

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SPICE SIMULATION

TINA is one of the most powerful and best converging Spice simulator on the market. It includudes both Berkely Spice and XSpice based Spice engines, supports 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.

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ADC & DAC SIMULATION TINA includes models for modern DAC and ADC converters (SAR and Sigma-Delta) of leading manufactures (Analog Devices, Maxim Integated and Texas Intruments) with parallel and SPI interface. Now you can add IBIS modells to analyse signal integrity. Note modeling ADCs and DACs of high… complexity is a unique feature of TINA as very few software on the market can simulate complete DACs and ADCs at all.

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VHDL, VERILOG, SYSTEMC SUPPORT TINA 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.

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MICROCONTROLLER (MCU) SIMULATION TINA also includes a wide range of microcontrollers (PIC, AVR, 8051, HCS, ARM, ST, Arduino, XMC), more then 1400 parts, which you can test, debug and run interactively in mixed circuit environment using circuit simulation. 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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CIRCUIT DESIGN WITH OPTIMIZATION Using TINA’s built-in Optimization tool unknown circuit parameters can be determined automatically so that the network can produce a predefined target output values, minimum or maximum. Optimization is useful not only in the design of electroniccircuits, but also in teaching, to… construct examples and problems. It is a very good tool to refine the results provided by a design procedure or tune already working circuits. You can also optimize your circuit with the built in Design Tool of TINA working with Design Equations which you can add to any circuit.

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INTEGRATED PCB DESIGN TINA also includes a powerful PCB designer software. The fully layout module of TINA has all the features you need for advanced PCB design, including multilayer PCB’s with split power plane layers, powerful autoplacement & autorouting, rip-up and reroute, manual and “follow-me”… trace placement, DRC, forward and back annotation, pin and gate swapping, keep-in and keep-out areas, copper pour, thermal relief, fanout, 3D view of your PCB design from any angle, Gerber file output andmuch more. You can also import 3D Enclosure models in industry standard formats, visualize along with your PCB design and print in 3D.

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SIMULATED & REAL-TIME MEASUREMENTS WITH VIRTUAL INSTRUMENTS In addition to the classic analysis tools, TINA includes a wide range of virtual instruments: Oscilloscope, Function Generator, Multimeter, Signal Analyzer/Bode Plotter, Network Analyzer, Spectrum Analyzer, Logic Analyzer, Digital Signal Generator, XY Recorder, Efficiency-, Average… value- and Frequency meters. You can use these virtual instruments to make simulated measurements on your circuit in TINA or, if supplementary hardware is connected to your computer, turn your laptop or desktop computer into a powerful real-time test and measurement instrument and make measurements on real circuits.

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LABXPLORER & TINALAB II MULTIFUNCTION PC INSTRUMENTS TINA is much more than a circuit simulator with virtual instruments. Using the LabXplorer & TINALab II high speed PC instruments you can turn your laptop or desktop computer into a powerful, multifunction test and measurement instrument. Whichever instrument you need multimeter,… oscilloscope, spectrum analyzer, logic analyzer, arbitrary waveform generator, or digital signal generator it is at your fingertips with a click of the mouse. In addition TINALab II can be used with TINA for comparison of simulation and measurement results as a unique tool for circuit development, troubleshooting, and the study of analog and digital electronics.

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EDUCATIONAL TOOLS

TINA also includes unique tools for testing students’ knowledge, monitoring progress and introducing troubleshooting techniques using its educational capabilities. With optional hardware it can be used to test real circuits for comparison with the results obtained from simulation.… With the Live 3D breadboard tool you can automatically build a life-like 3D picture of a solderless breadboard. When you run TINA in interactive mode, components like switches, LEDs, instruments, etc. become “live” and will work on the virtual breadboard just as in reality. You can use this capability of TINA to prepare and document lab experiments. You can also use the integrated Flowchart Editor and Debugger to generate and debug the MCU code, learning and teaching microcontroller programming.

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WHAT OUR CLIENTS SAY ABOUT OUR SOFTWARE We successfully launched Infineon Designer powered by TINACloud as an online prototyping tool supporting our customers in selecting the right product for a defined application in a very short time. TINACloud is easy to use, runs without installation in any WEB browser extremely stable and fast. It serves Infineon’s broad application portfolio ranging from power to mixed-signal and RF designs.

Norbert Imlig

_Online Marketing Manager, Infineon Technologies AG_ TINA SPICE is an excellent circuit simulator. It converges quickly and has an intuitive graphical interface. New engineers have a very short learning curve when using this powerful tool.

Arthur Kay

_Texas Instruments, Linear Applications Manager High Performance Linear_ I have used many different “flavors” of Spice over the past 25 years. Over the last several years, my use of spice has been infrequent. Having to go back and relearn/recall how to use most spice tools is a chore. Tina, however is so intuitive that it takes virtually no time to get going again. In my experience it is, by far, the most intuitive and easy to use simulation tool on the market. It is ideal for the novice or occasional user AND it has all the capability a power user would need.

Mark Fortunato

_Senior Principal MTS, Communications and Automotive Solutions Group, Maxim Integrated _ I’ve used many simulators, but none as easy to use or as fast as TINA. TINA’s multi-core support and enhanced convergence algorithms make simulation blazingly fast. I’ve modeled CM, VM, adaptive on-time converters of virtually every topology – resonant, PWM and quasi-resonant and simulations complete in seconds that previously took minutes! TINA’s interactive mode, symbolic analysis, interpreter, wizards, and design tools make TINA even more powerful! Import PSpice models seamlessly!

John Rice

_Power Applications Engineer at Texas Instruments _ I have taught analog electronics at university level, using many different Spice front-ends – since it was a ‘deck of cards’. Over the last decade or so TINA has been my preferred circuit capture and analysis tool for electrical teaching, project work and some professional applications. TINA is intuitive to use, supportive in the process of correcting errors, and produces results very quickly. TINA has powerful analysis tools which assist in the understanding of circuit operation. It also has a very direct route to circuit realization. Our students adopt TINA as a versatile tool in their first year of electronic design and apply it throughout their degree course. It represents very good value.

Dr. T. David Binnie

_Head of Engineering Research School of Engineering and the Built Environment _ MIREA – Russian Technological University I have taught electrical engineering, electronics and Computer-Aided Design (EDA) for more than 40 years at Moscow Technological University (MIREA). In my classes I have used numerous programs for modeling electronic circuits – from Electronics Workbench to OrCAD and SystemC. I am confident that for teaching electrical engineering and electronics TINA is the best software available. TINA has a very friendly graphical user interface, with simple settings and setup of simulations. All information about the circuit is enclosed in a single file, simulations are performed very quickly and accurately, with results displayed, so the process is easily mastered by students. Alekhin Vladimir Alexandrovich _Doctor of Technical Sciences, Professor Moscow Technological University (MIREA) _ We use the TINACloud program in classes for our correspondence courses. It is easy to use, works on all platforms and provides our students with easy access anytime and anywhere. Using TINACloud students are able to compare circuit simulation results with practical measurements conducted in laboratory. This makes long distance teaching and learning much more effective for our university.

Franciska Hegyesi

_Office of Digital Teaching and Learning, Office Director Óbuda University, Budapest_

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