Download LTspice IV XVII B May 15 2 We’ve had a lot of demands for various cracks, serials, cdkeys, serial keys, torrent, rapidshare links, megadownload links and much more on our forums.
We do not approve illegal behavior in any form. LTspice IV is software that is protected by copyright law. Any form of sharing LTspice IV, such are P2P networks (torrent, eMule, eDonkey…), download servers (rapidshare, megadownload…) or simply by handing licensed software to other persons is illegal.
Trial versions are limited to a date and using trial software longer than this date is not legal. Various workarounds like changing computer time or cracking are not legal.
Sharing kills software as the programmers are cut on income. Do you like LTspice IV? Support the authors by buying their software. Downloading crack is not a reasonable solution.
LTspice IV XVII B May 15 2 description LTspice IV is a high performance SPICE simulator, schematic capture and waveform viewer with enhancements and models for easing the simulation of switching regulators. Our enhancements to SPICE have made simulating switching regulators extremely fast compared to normal SPICE simulators, allowing the user to view waveforms for most switching regulators in just a few minutes. MOSFET components can also be integrated in your scheme and their configuration can be displayed without using internal nodes, with immediate effects on the time needed for computing the circuit, but without affecting the switching waveforms. LTspice IV enables you to model switching regulators and electrical circuits, as well as run testing simulations before actually building the electronic components. The SPICE-like component models help you obtain accurate results for non-linear designs, while the advanced simulation capabilities allow you to test a circuit’s functionality. Included in this download are LTspice IV, Macro Models for 80% of Linear Technology's switching regulators, over 200 op amp models, as well as resistors, transistors and MOSFET models. Capacitors and inductors can be modeled with series resistance and other parasitic aspects of their behavior without using sub-circuits or internal nodes.