to my or someone's liking
over over over
something you do over an over and over and over .......... again
0.076923076923076923076923076923076 ... The digits 076923 repeat over and over.0.076923076923076923076923076923076 ... The digits 076923 repeat over and over.0.076923076923076923076923076923076 ... The digits 076923 repeat over and over.0.076923076923076923076923076923076 ... The digits 076923 repeat over and over.
1 over 2 or... 2 over 4 or... 3 over 6 or... 4 over 8 or... 526 over 1052 or... 9 over 18
phase shift in integrator is 180 degrees and phase shift in differentiator is 0 degrees
differentiator is used in t.v.
noise is a ac signal(high frequency range), as LPF allows only lower frequencies integrator is has more noise immunity than differentiator
for integrator time constant must be greater than 15T(T being the pulse width)
Because the capacitor is in series with the output. Vice versa for the integrator.
A; An integrator will integrate or slowly change as a rapid input is applied. Differentiate will have just the opposite effect
the ideal differentiator has some limitations. The output is limited to the supply voltages, and since the differentiator is a noise-amplifying device, it suffers from excessive response to high-frequencies. Generally a practical differentiator is combined with a low-pass filter to smooth the high-frequency noise effects. Figure 6 shows some possible modifications to the ideal circuit. A large (over 1 MΩ) resistor Rx may be inserted in parallel with Cs and a very small ( 10 pF or less) capacitor Cx may be inserted in parallel with Rf.
A high pass circuit can act as a differentiator because it allows high frequency signals to pass through while attenuating low frequency signals. This property causes the output to respond more to the rate of change of the input signal, making it behave similar to a mathematical differentiator.
Mathematically an integrator sums up the values during a given time span. (The area under a curve on a graph is the integral over that section)
In a computer there are many A/D converters that put analog into digital. This signal is what is usually then led into an op amp which in the right configuration can be designed into an integrator or differentiator which is then used to solve differential equations.
Electronic Numerical Integrator And Calculator.
It doesn't. It can produce any waveform if you feed the integral of the desired waveform into the differentiator's input.