Now showing circuits 1-6 of 6. Sort by

lossless_line_03

lossless_line_03 PUBLIC

A simple lossless transmission line. In practice many more LC segments (100+) are needed for a realistic simulation. This one has a slightly modified 1st stage of the line. It converges.

by signality | updated June 19, 2013

convergence   initial-conditions   lossless-line   startup   transmission-line  

lossless_line_02

lossless_line_02 PUBLIC

A simple lossless transmission line. In practice many more LC segments (100+) are needed for a realistic simulation. This version converges.

by signality | updated June 19, 2013

convergence   initial-conditions   lossless-line   startup   transmission-line  

lossless_line_01

lossless_line_01 PUBLIC

A simple lossless transmission line. In practice many more LC segments (100+) are needed for a realistic simulation.

by signality | updated June 19, 2013

convergence   initial-conditions   lossless-line   startup   transmission-line  

relaxation osc fixed 01

relaxation osc fixed 01 PUBLIC

An opamp based squarewave relaxation oscillator.

by signality | updated June 11, 2012

choosing-time-step   convergence   convergence-problem   opamp   relaxation-oscillator   startup  

Trouble2

Trouble2 PUBLIC

This is a subset of "Trouble 1". This is the core voltage gain and DC bias feedback which would exhibit convergence difficulty on the old FET model. CircuitLab has fixed the model. This circuit now...

by anubi | updated May 18, 2012

amplifier   bjt   convergence   feedback   initial-conditions   jfet   level-shift   startup  

behavioural non-inverting schmitt trigger 01

behavioural non-inverting schmitt trigger 01 PUBLIC

A non-inverting Schmitt trigger driven by a behavioural 5V peak to peak 1kHz cosine voltage source with an exponential startup from a 2.5V DC offset at a time constant of 250us, hard limited at 0.5V...

by signality | updated April 15, 2012

behavioural-sources   convergence   improving-convergence   ramped-sine-source   schmitt-trigger  

More tags

555   7805   ac-to-dc   active-filter   amplifier   analog   and   anode   attenuator   atx   audio   automotive   band-reject   bandgap   behavioral   bias-point   bjt   bode   bridge-rectifier   button   calculator   cascaded-filters   cascode   cathode   cmos   colpitts   compensation   constant-current-source   current-limiting   current-mirror   current-monitor   current-regulator   dac   dc-to-ac   device-modeling   differential   differentiator   digital   diode   divider   emitter-follower   feedback   filter   flyback   flyback-diode   frequency-domain   full-wave   guitar   ham-radio   high-pass   high-speed   high-voltage   hv   hysteresis   ic   ignition-coil   induction   inductive   inductive-load   initial-conditions   instrumentation-amplifier   integrator   inverting   jfet   laplace   led   led-array   level-shift   lighting   lipo   lm317   load-cell   logic-gate   low-pass   mechanical   microcontroller   microphone   mosfet   motor   multivibrator   non-inverting   nonlinear   nor   notch   ohms-law   op-amp   optical   or   oscillator   parallel   passive   passive-filter   pcb-design   phase-shift   photodiode   photoresistor   phototransistor   piezo   plants   potentiometer   power   power-supply   power-supply-unit   preamp   pull-down   pull-up   pwm   rc   relaxation-oscillator   relay   resistor-ladder   resonance   rf   rlc   rom   saturation   schmitt-trigger   sensor   series   servo-motor   signal   spark-plug   stability   stepper   summing   superposition   switching   time-constant   transformer   transistor   translinear   twin-t   voltage-divider   voltage-regulator   waveform-arithmetic   wiring   xnor   xor   zener-diode   zero-voltage-switching  

About CircuitLab

CircuitLab is an in-browser schematic capture and circuit simulation software tool to help you rapidly design and analyze analog and digital electronics systems.