Numerical
Waveform
Documentation
| Inrush current | |||
| Critical resistance | Rc | 0.2 | [Ω] |
| Damping | α | 50000 | [1/s] |
| Damping ratio | ζ | 0.5 | [1/s] |
| Resonant frequency | wr | 100000 | [Rad/s] |
| Natural frequency | β | 86602.54 | [Rad/s] |
| Q-factor | Q | 1 | [.] |
| pole s1 | s1 | 0 | [.] |
| pole s2 | s2 | 0 | [.] |
V0, R0
Rc=0.2[Ω]
α=50000[1/s]
ζ=0.5[1/s]
wr=100000[Rad/s]
β=86602.54[Rad/s]
Q=1[.]
Grid Tied inverter
In this tool you can calculate the inrush current of a typical device with an input capacitor, like for example an adapter for a mobile device has..
Specify the value of the cable inductance together with any input series inductor at L in μH, the input capacitor is specified by C in μF.
R either specifies the cable series resistance or any inrush limiting resistor
If the series resistance is larger than the critical resitance of the series LC combination, the system becomes damped.
ωmax
| Inrush current | |||
| Critical resistance | Rc | 0.2 | [Ω] |
| Damping | α | 50000 | [1/s] |
| Damping ratio | ζ | 0.5 | [1/s] |
| Resonant frequency | wr | 100000 | [Rad/s] |
| Natural frequency | β | 86602.54 | [Rad/s] |
| Q-factor | Q | 1 | [.] |
| pole s1 | s1 | 0 | [.] |
| pole s2 | s2 | 0 | [.] |