Default supply of generic logic devices is 1V. Read in LTspice help "A. Special Functions" how to change it. There's no limitation of input voltage, just a mid-supply threshold voltage.Sadly your flipflop shows no power supply, thus it's impossible to see the valid input voltage range.
Yes...I'm not that experienced with LTspice. I just generally wanted to point out that some parts of a simulation differs with reality.Default supply of generic logic devices is 1V. Read in LTspice help "A. Special Functions" how to change it. There's no limitation of input voltage, just a mid-supply threshold voltage.
I replaced the opamp with LT16323 which has 45V / µs and and the square wave was perfect.While the LT1013 is not critical with this (many other Opamps may not operate correctly this way) you have ti live with it's drawbacks, like slow slew rate, delay due to saturation, maybe even latch up.
I read this, but I don't understand if this is a parameter that changes within the DFLOP settings.Default supply of generic logic devices is 1V. Read in LTspice help "A. Special Functions" how to change it. There's no limitation of input voltage, just a mid-supply threshold voltage.
This circuit will then arrive at a push-pull follower and then feed a coil that I have yet to define what the inductance will be (but I believe about 55mH).I guess you need to give sime more infirmation for us to understand what (and how) you want to achieve.
About 50mAWhich current?
Coupled inductor modeling is something that
varies a lot between simulators. You may find
vendor models but these aren't necessarily
going to work in every simulator
So, would I have to get a tool outside of ltspice to see this? Like the quickfield simulation tool?If you want to see saturation, you should use a saturated core model.
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