![]() In this manner, a transient signal is passed, sample by sample, between the elements. In sample mode, each element exchanges a single waveform sample at every timestep. Transient photonic circuit simulation can be done in two modes: sample mode and block mode. Rich Goldman, in Optical Fiber Telecommunications VII, 2020 5.6.4 Sample mode and block mode By simulating statistical variations of h fe and V be on the chip, it is possible to determine the production spreads of the cancellation techniques. Using the cancellation techniques I have described, the performance of the circuit really depends on device matching. With the new simulation software and good spice models that cover production process variations, it is now possible to check product production specification spreads. Editor, especially helpful now with its DRC (design rule checker) for checking the layout. The spice software I use is PSPICE, which is excellent. Currently I am using a 33 MHz 486 machine which I bought in December 1990. I will think twice about starting a run that I know is going to take an hour, such as a high-resolution transient run with process variations. Computer speed is a real factor in deciding on what simulations to perform. Since the introduction of the IBM PC, I have upgraded my computer about every 2½ years and realize a speed improvement of between 4 and 5 times. The analysis was purely AC, and each individual transistor had to be inserted as its hybrid-P equivalent. I used a 110-baud teletype machine with punch paper tape. At that time, I was designing digital voltmeters for Solartron Ltd. I have used computer simulation for circuit analysis since the late 1960s. ![]() Also, more expensive computer workstations will not design better circuits. Computer simulation is a great help in designing circuits but will not design the circuit for you. The Art of Good Analog Circuit Design: Some Basic Problems and Possible Solutionsīarry Hilton, in Analog Circuit Design, 1991 Computer SimulationĬomputer circuit simulation is a great learning tool inasmuch as one can examine new circuit ideas and learn from the results. Toggling S 2 between E 1 and E 2 produces a biphasic stimulation over the targeted tissue impedance modeled as Z Tissue. Switch S 1 is closed when the simulation current is to be delivered to the electrode pair while switch S 2 determines the direction of the current flow. Figure 3.11 presents a general stimulation circuit topology illustrating the method of stimulation construction, where a DC voltage supply, V supply, and a controlled simulation current, I stim, are connected to a pair of stimulation electrodes, E 1 and E 2, by a set of control switches, S 1 and S 2. As a result, the electrodes and their environment are left in a similar electrochemical state after the stimulation is completed as that existed before the simulation was applied. Ideally, all the charge that is conducted through a selected pair of stimulation electrodes should be canceled exactly over time by periodic reversal of the current flow direction. The biphasic operation is critical to ensure charge balance of the stimulating waveforms. Simulation circuit is responsible for delivering well-controlled biphasic electrical stimulation pulses across a targeted nerve or muscle. ![]()
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