| filtertype | = | Butterworth |
| passtype | = | Highpass |
| ripple | = | |
| order | = | 2 |
| samplerate | = | 44100 |
| corner1 | = | 130 |
| corner2 | = | |
| adzero | = | |
| logmin | = | -24 |
Command line: /www/usr/fisher/helpers/mkfilter -Bu -Hp -o 2 -a 2.9478458050e-03 0.0000000000e+00
raw alpha1 = 0.0029478458
raw alpha2 = 0.0029478458
warped alpha1 = 0.0029479301
warped alpha2 = 0.0029479301
gain at dc : mag = 0.000000000e+00
gain at centre: mag = 7.164286250e-01 phase = 0.5000000000 pi
gain at hf : mag = 1.013183078e+00 phase = 0.0000000000 pi
S-plane zeros:
0.0000000000 + j 0.0000000000 2 times
S-plane poles:
-0.0130973083 + j -0.0130973083
-0.0130973083 + j 0.0130973083
Z-plane zeros:
1.0000000000 + j 0.0000000000 2 times
Z-plane poles:
0.9869038005 + j -0.0129268920
0.9869038005 + j 0.0129268920
Recurrence relation:
y[n] = ( 1 * x[n- 2])
+ ( -2 * x[n- 1])
+ ( 1 * x[n- 0])
+ ( -0.9741462159 * y[n- 2])
+ ( 1.9738076009 * y[n- 1])
/* Digital filter designed by mkfilter/mkshape/gencode A.J. Fisher
Command line: /www/usr/fisher/helpers/mkfilter -Bu -Hp -o 2 -a 2.9478458050e-03 0.0000000000e+00 -l */
#define NZEROS 2
#define NPOLES 2
#define GAIN 1.013183078e+00
static float xv[NZEROS+1], yv[NPOLES+1];
static void filterloop()
{ for (;;)
{ xv[0] = xv[1]; xv[1] = xv[2];
xv[2] = next input value / GAIN;
yv[0] = yv[1]; yv[1] = yv[2];
yv[2] = (xv[0] + xv[2]) - 2 * xv[1]
+ ( -0.9741462159 * yv[0]) + ( 1.9738076009 * yv[1]);
next output value = yv[2];
}
}
For an expanded view, enter frequency limits (as a fraction of the sampling rate) here:
For a view on a different scale, enter upper time limit (integer number of samples) here: