RF Filter Highpass OWBP-5000-15
Model OWBP-5000-15 is a V band waveguide highpass filter with a passband frequency of 50 GHz and higher and a rejection frequency from DC to 46 GHz.
The filter provides a nominal insertion loss of 1.0 dB across its passband with a low ripple and a typical rejection of 40 dB. Since the low end cutoff frequency can be changed by modifying the design, custom designs can be offered under different model numbers.
Related products
RF Filter Bandpass OWBP-30004500-22
Model OWBP-30004500-22 is a Q band waveguide bandpass filter with a passband frequency of 30 to 45 GHz and rejection frequencies from DC to 28 GHz and 47 to 90 GHz.
The nominal insertion loss of the bandpass filter is 2.0 dB and the typical rejection is 40 dB. Since both low end and high end cut off frequencies can be selected by modifying the design, custom designs are available under different model numbers.
RF Filter Bandpass OWBP-59006500-15
Model OWBP-59006500-15 is a V band waveguide bandpass filter with a passband frequency of 59.0 to 65.0 GHz and rejection frequencies from 57.5 GHz or below and 67.5 to 75.0 GHz.
The nominal insertion loss of the bandpass filter is 2.5 dB and the typical rejection is 40 dB. Since both low end and high end cut off frequencies can be selected by modifying the design, custom designs are available under different model numbers. .
RF Filter Bandpass OWBP-1050014000-08
Model OWBP-1050014000-08 is an F band waveguide bandpass filter with a passband frequency of 105 to 140 GHz and rejection frequencies from DC to 94 GHz and 145 to 180 GHz.
The nominal insertion loss of the bandpass filter is 2.5 dB and the typical rejection is 40 dB. Since both low end and high end cut off frequencies can be selected by modifying the design, custom designs are available under different model numbers
RF Filter Bandpass OWBP-33003700-28
Model OWBP-33003700-28 is a Ka band waveguide bandpass filter with a passband frequency of 33.0 to 37.0 GHz and rejection frequencies from DC to 31 GHz and 39 to 46 GHz.
The nominal insertion loss of the bandpass filter is 1.5 dB and the typical rejection is 40 dB. Since both low end and high end cut off frequencies can be selected by modifying the design, custom designs are available under different model numbers.
RF Filter Bandpass OWBP-51005500-15
Model OWBP-51005500-15 is a V band waveguide bandpass filter with a passband frequency of 51.0 to 55.0 GHz and rejection frequencies from DC to 47 GHz and 59 to 70 GHz.
The nominal insertion loss of the bandpass filter is 1.5 dB and the typical rejection is 30 dB. Since both low end and high end cut off frequencies can be selected by modifying the design, custom designs are available under different model numbers.
RF Filter Bandpass OWBP-36006000-19
Model OWBP-36006000-19 is an U band waveguide bandpass filter with a passband frequency of 36 to 60 GHz and rejection frequencies from DC to 29 GHz and 66 to 120 GHz.
The nominal insertion loss of the bandpass filter is 1.5 dB and the typical rejection is 40 dB. Since passband frequency can be selected by modifying the design, custom designs are available under different model numbers.
RF Filter Bandpass OWBP-26004000-28
Model OWBP-26004000-28 is a Ka band waveguide bandpass filter with a passband frequency from 26 to 40 GHz and the rejection frequencies of 1 kHz to 18 GHz and 48 to 90 GHz, respectively.
The filter provides a nominal insertion loss of 1.2 dB across its passband and a typical rejection of 60 dB. Since both low and high end cutoff frequencies can be changed by modifying the design, custom designs can be offered under different model numbers.
RF Filter Bandpass OWBP-55006700-15
Model OWBP-55006700-15 is a V band waveguide bandpass filter with a passband frequency of 55 to 67 GHz and rejection frequencies from DC to 51 GHz and 71 to 95 GHz.
The nominal insertion loss of the bandpass filter is 2.0 dB and the typical rejection is 40 dB. Since both low end and high end cut off frequencies can be selected by modifying the design, custom designs are available under different model numbers.