CircuitLogix

CircuitLogix is an electronic circuit simulator which uses PSpice to allow for the simulation of thousands of electronic devices, models, and circuits. A student version of CircuitLogix is available free of charge after registration.^[1] CircuitLogix supports analog, digital, and mixed-signal circuits, and its SPICE simulation gives accurate real-world results. The graphic user interface allows students to quickly and easily draw, modify and combine analog and digital circuit diagrams.

CircuitLogix was developed by Dr. Colin Simpson, an electronics professor at George Brown College, in Toronto, Canada, and John (Bud) Skinner, a computer programmer. The electronics program has won awards including the Award of Excellence from the Association of Canadian Community Colleges (ACCC).^[2] CircuitLogix is used exclusively as the electronic circuit simulation tool for the George Brown College Electronics Technician distance education program, which is the largest electronics program in the world with over 10,000 students in 37 countries.

The professional version of CircuitLogix (CircuitLogix Pro) includes over 10,000 device models, as well as 8 virtual instruments. It also includes 3DLab, which is a software product that combines an interactive 3-dimensional learning environment and electronic devices and tools to enhance the user's comprehension of electronics. 3DLab virtual components include batteries, switches, motors, lamps, resistors, inductors, capacitors and instruments including oscilloscopes, Signal generators, and frequency counters.

Fast, accurate simulation of electronic circuits is essential because it provides the information needed to perform accurate analysis of circuit behavior. SPICE simulators are used to verify that analog and mixed-signal circuits will yield the expected outputs. A schematic netlist file and circuit input values are fed to the SPICE software, which simulates the circuit's behavior for a specified length of time. CircuitLogix allows for the observation of voltage and current levels at any circuit node as they change with frequency and time. It allows for obtaining accurate results even when simulating complex circuits where hierarchical blocks are reused. The CircuitLogix simulation engine is based on Berkeley SPICE, and contains a GUI to make circuit design easier and more efficient.

Instead of operating in a batch mode, the CircuitLogix 32-bit SPICE engine allows for direct interaction with the circuit during the simulation process to immediately determine the effects of any changes. For example, you can change the frequency of sources, adjust potentiometers, and flick switches during simulation. This provides the ability to simulate the behavior of numerous design configurations, performing what-if scenarios quickly and easily. In addition, the CircuitLogix SPICE engine is fully integrated with the schematic capture and waveform tools. This integration speeds setup and management time since CircuitLogix passes schematic edits to the simulator automatically, even when it's running. Similarly, components such as fuses, LEDs and controlled switches are automatically updated in the schematic as the simulation runs.

CircuitLogix simulates analog, digital, and mixed analog-digital circuits. Consequently, there's no extra work involved in simulating a mixed-signal design—the simulator handles all aspects. It first divides the circuit into analog and digital portions. The analog circuitry is simulated with the time-step driven SPICE engine, while the digital parts are simulated separately with an event-driven simulation engine. For greater speed, the CircuitLogix digital engine is native mode, meaning it was developed directly in .NET rather than through slow SPICE macros. Because the simulator will automatically perform the signal conversion, it is possible to connect any analog or digital part to any other. In addition, the system’s model library contains hybrid parts for analog-to-digital and digital-to-analog conversion.

CircuitLogix is a mixed-mode schematic editor and includes both analog and event-driven simulation capabilities. This means that any simulation may contain components that are analog, event driven (digital or sampled-data), or a combination of both. An entire mixed signal analysis can be driven from one integrated schematic. All the digital models in CircuitLogix provide accurate specification of propagation time and rise/fall time delays.

The event driven algorithm used by CircuitLogix is general purpose and supports non-digital types of data. For example, elements can use real or integer values to simulate DSP functions or sampled data filters. Because the event driven algorithm is faster than the standard SPICE matrix, simulation time is greatly reduced for circuits that use event driven models in place of analog models.

Mixed-mode simulation is handled on three levels by CircuitLogix: (a) with primitive digital elements that use timing models and a built-in 12-state digital logic simulator, (b) with subcircuit models that use the actual transistor topology of the integrated circuit, and finally, (c) with In-line Boolean logic expressions. These two modeling techniques use SPICE to solve a problem while the third method, digital primitives, use mixed-mode capability.

The component library includes:

Semiconductors

Semiconductor Resistors & Capacitors, Diodes, Schottky & Zener Diodes, Bridge rectifiers, Varactor

Displays, indicators, switches

LEDs, 7-Segment LEDs, Hex display, Hex key, Logic display, NC push-button, NO push button, SPDT PB, Piezo buzzer, Pulser, Latch coil, Polar latch, Rocket, SCOPE, Stepper, Stoplight, Window

Digital primitives

Gates, DeMorgan symboled gates, buffers, inverters, flip-flops

Digital ICs

1K RAM, 32x8 PROM, complete selection of 40xx, 41xx, 45xx, 47xx, 74xxx IC's

Linear ICs

Op Amps, Comparators, Timers, Buffers, CDAs, Modulators, A/D converters & D/A converters, PLL, VCO

Transistors, FET

BJT, IGBT, UJT, PUT, MESFET, MOSFET, Darlington transistor

Relays

Control relay, SPST, DPDT, Individual contacts and coils (enable creation of any relay)

Supplies, Sources

Battery, Voltage Terminal, Signal generator, I Source, V Source, I->I Source, V->I Source, I->Switch,V->Switch, I->V Source, V->V Source

Math devices

A wide variety of devices for manipulating quantities

Miscellaneous Devices

Crystals, Fuses, Transformers, DC Motor, F-V & V-F converters

Transmission lines

Lossless, Lossy, and Uniform Distributed RC

Vacuum Tubes

12AU7, 12AX7, 5879, 6L6GC, 6SN7, 7199P, 7199T

Instruments

Oscilloscope, Digital Multimeter, Bode plotter, Curve tracer, Data Sequencer, Signal generator, Logic analyzer, Logic probe, Logic Pulser

Simulation Controls

Initial Condition and Nodeset devices

Miscellaneous

Optoisolators, Photodiodes, Voltage regulators, References, SCRs, Triacs

• Comparison of EDA Software

• CircuitLogix website - www.CircuitLogix.com
• Electronics Technician distance education program website - www.ETcourse.com