Marki Microwave LLC Passive GaAs MMIC 8.7 - 9.8 GHz Bandpass Filter MFBP-00167PSM

Description
The MFBP-00167PSM passive MMIC surface mount bandpass filter is an ideal solution for small form factor, high rejection filtering. The MFBP-00167PSM features a 8.7-9.8GHz 1dBc passband and 3.1dB center frequency insertion loss. Passive GaAs MMIC technology allows production of smaller filter constructions that replace larger form factor circuit board constructions. Tight fabrication tolerances allow for less unit-to-unit variation than traditional filter technologies. The MFBP-00167PSM is available as a 5 mm plastic QFN. Low unit to unit variation allows for accurate simulations using the provided S2P file taken from measured production units.
Request a Quote Datasheet
Description
The MFBP-00167PSM passive MMIC surface mount bandpass filter is an ideal solution for small form factor, high rejection filtering. The MFBP-00167PSM features a 8.7-9.8GHz 1dBc passband and 3.1dB center frequency insertion loss. Passive GaAs MMIC technology allows production of smaller filter constructions that replace larger form factor circuit board constructions. Tight fabrication tolerances allow for less unit-to-unit variation than traditional filter technologies. The MFBP-00167PSM is available as a 5 mm plastic QFN. Low unit to unit variation allows for accurate simulations using the provided S2P file taken from measured production units.
Request a Quote Datasheet

Suppliers

Company
Product
Description
Supplier Links
Passive GaAs MMIC 8.7 - 9.8 GHz Bandpass Filter - MFBP-00167PSM - Marki Microwave LLC
Morgan Hill, CA, United States
Passive GaAs MMIC 8.7 - 9.8 GHz Bandpass Filter
MFBP-00167PSM
Passive GaAs MMIC 8.7 - 9.8 GHz Bandpass Filter MFBP-00167PSM
The MFBP-00167PSM passive MMIC surface mount bandpass filter is an ideal solution for small form factor, high rejection filtering. The MFBP-00167PSM features a 8.7-9.8GHz 1dBc passband and 3.1dB center frequency insertion loss. Passive GaAs MMIC technology allows production of smaller filter constructions that replace larger form factor circuit board constructions. Tight fabrication tolerances allow for less unit-to-unit variation than traditional filter technologies. The MFBP-00167PSM is available as a 5 mm plastic QFN. Low unit to unit variation allows for accurate simulations using the provided S2P file taken from measured production units.

The MFBP-00167PSM passive MMIC surface mount bandpass filter is an ideal solution for small form factor, high rejection filtering. The MFBP-00167PSM features a 8.7-9.8GHz 1dBc passband and 3.1dB center frequency insertion loss. Passive GaAs MMIC technology allows production of smaller filter constructions that replace larger form factor circuit board constructions. Tight fabrication tolerances allow for less unit-to-unit variation than traditional filter technologies. The MFBP-00167PSM is available as a 5 mm plastic QFN. Low unit to unit variation allows for accurate simulations using the provided S2P file taken from measured production units.

Supplier's Site Datasheet

Technical Specifications

  Marki Microwave LLC
Product Category RF Filters and Microwave Filters
Product Number MFBP-00167PSM
Product Name Passive GaAs MMIC 8.7 - 9.8 GHz Bandpass Filter
Filter Technology Passive Filter
Unlock Full Specs
to access all available technical data

Similar Products

Passive GaAs MMIC 17.70 - 28.82 GHz Bandpass Filter - MFBP-00068CH - Marki Microwave LLC
Specs
Filter Technology Passive Filter
Filter Type Bandpass
Fc 17700 to 28820 MHz
View Details
Passive Glass 1.5 GHz Surface Mount Lowpass Filter - MFLP-00043GSM2 - Marki Microwave LLC
Specs
Filter Technology Passive Filter
Filter Type Low Pass
Fc 0.0 to 1500 MHz
View Details
FB-1300SMG, 13 GHz Surface Mount Bandpass Filter - FB-1300SMG - Marki Microwave LLC
Specs
Filter Type Bandpass
Fc 12000 to 14000 MHz
Package Type Surface Mount
View Details
MFBA-00002PSM, Passive GaAs MMIC 18.10-26 GHz Bandpass Filter - MFBA-00002PSM - Marki Microwave LLC
Specs
Filter Technology Passive Filter
Filter Type Bandpass
Fc 18100 to 26000 MHz
View Details