The goal is to make the switching frequency relatively high, in the range of 50-100 KHz. Due to the switching, the converter will place a load on the Li-ion battery that contains a DC component and a ripple component at the switching frequency.
The CS8422 is a 24-bit, 192 kHz asynchronous stereo sample-rate converter that supports sample rates up to 211 kHz (receiver) and 216 kHz (SRC). It offers high input jitter tolerance and ultra-low ...
L.D. at 500 [kHz] should require an enormous amount of energy!). In other terms, I think you are comparing FE and handcalc results with two different formulations, one less complete (handcalc) than the other, and there is a little confusion between what you did and what you wanted to do ;-) !
Also known is the DCB freq which is 155 kHz. In specifying the new tuning equipment, I have to spec a line side characteristic impeance, which is expected to normally be within 150 to 500 ohms. I do know my line impedance from our ASPEN model (Zpu = .003+j.0294 which is 1.59+j15.55 or 15.62@84 deg ohms on 230 kV base,, 60Hz).
- Set switching frequency somewhere between 3 to 5 kHz. 9. NOTE: Usual cable length tables in VFD documentation is not applicable to submersible pump application. 10. NOTE: Sine wave filters between drive output and motor terminals IS REQUIRED. Standard dv/dt filter is not sufficient (due primarily to high frequency switching and length of ...
The cap banks I was referring to are on 12.5Kv and 24.9 Kv grounded wye distribution systems and are typically two bushing units. As far as Cannons' Technology, it is simply a case of their 12.5 Khz signal being shunted to ground due to the low impedance of the caps at that frequency (which is the reason for the blocking units).
The <150 kHz is being disturbed by frequency inverters and, to get the signal through, many systems now operate above their allowed power levels as "temporary" solutions.
The LC ringing also usually needs a rather long cable in order to get a capacitance high enough to create oscillations in a frequency band (usually tens of kHz) where damping isn't high enough for the oscillations to die after a few periods.