OKAWA Electric Design

(Sample) RC High-pass Filter Design Tool

Calculated the Transfer Function for the RC High-pass filter, displayed on graphs, showing Bode diagram, Nyquist diagram, Impulse response and Step response.

RC Filter

Vin(s)→ →Vout(s)
(Sample)Transfer Function:
G(s)= s
s+6250


R = 1.6kΩ
C = 0.1uF

Cut-off frequency

fc = 1000[Hz]

Rise/Fall time of step response

fc = Hz
Stead-state value: % and %


tr = [sec]

Pole(s)

p = -994.718394324[Hz]
  |p|= 994.718394324[Hz]

Zero(s)

z = 0[Hz]
  |z|= 0[Hz]

Final value of the step response (on the condition that the system converged when t goes to infinity)

g(∞) = 0

fc=Hz
C=F (Omitted C=1, 0.1, 0.01…)
p:pico, n:nano, u:micro, k:kilo, M:mega
Select Resistor Sequence:

Frequency analysis

Bode diagram
    Phase  Group delay
Nyquist diagram
Pole, zero
Phase margin
Oscillation analysis
Analysis on frequency range:
  f1=∼f2=[Hz] (optional)

Transient analysis

Step response
Impulse response
Overshoot
Final value of the step response
Analysis on time range:
  0∼[sec] (optional)


Frequency analysis



Transient analysis