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#LTSPICE ARDUINO SIMULATOR HOW TO#
#LTSPICE ARDUINO SIMULATOR PDF#
#LTSPICE ARDUINO SIMULATOR ARCHIVE#

#LTSPICE ARDUINO SIMULATOR PDF#

pdf: The PDF document contains some advice on using the component with the simulation program. lib: This is the actual library containing the component SPICE directives. asy: These files contain the design of the single electronic component. In this specific ZIP, the following types of files are contained:

#LTSPICE ARDUINO SIMULATOR ARCHIVE#

It allows the download of a zipped archive containing several documents. Check for the presence of “SPICE Models” or similar. As can be seen in Figure 2, the transistor datasheet (as well as for the other components) generally includes several items. Now let’s see the various steps to successfully use the SPICE library of the GaN GS61008P transistor from GaN Systems. Therefore, using a SPICE model with your own electronic simulator is now an obligatory step. In fact, they allow for perfect simulation of the various devices and, because they were created by the same companies, it’s certain that the component in question works perfectly, in all its configurations. The major manufacturers of electronic components have well understood that the SPICE models accompanying the products are very valuable.

Source-sense pin for optimized gate drivingįigure 1: GaN Systems’ GS61008P GaN transistor The library provided by the manufacturer.

Quick and controllable rise and fall times.

Very high switching frequency (>10 MHz).

The model used for our first test is the GaN Systems GS61008P, shown in Figure 1. First test with GaN Systems’ power transistor In any case, the maximum gate voltage is 7 V, even if the component does not burn out by driving it with +10 V/–20 V.

Some projects also provide for activation of the device with a voltage of +6 V/–3 V, with less possibility of disturbances to the circuit. The recommended “gate” voltage for the use of GaN MOSFETs is 6 V/0 V, for systems up to 1,500 W. With GaN, power supplies and converters are 4× smaller, 4× lighter, and 4× more efficient. The use of GaN affects not only the power transistor but also the overall system and costs. GaN technology is superior to silicon for more efficient power conversion.

#LTSPICE ARDUINO SIMULATOR HOW TO#

This article explains how to import and use a library of GaN components with the LTspice program to perform any type of electronic simulation. Even with this new type of material, the best electronic simulation programs are enriching their libraries of these components, used in power devices. Electric current can pass through components more easily than silicon components, making it more efficient and developing less heat. It is a material similar to crystal, capable of conducting a much higher voltage. Gallium nitride (GaN) is different from silicon (Si). Over the years, technological improvements have made it possible to obtain high-level performance from power devices.