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Ultra-Miniature Lumped Element Filters Datasheet
2016-03-04 09:36:29| rfglobalnet Downloads
The ultra-miniature lumped element filters are available for operation throughout the 200 to 5000 MHz frequency range, in wideband bandpass, lowpass, and highpass options, and come in 0.7”x 0.25”x 0.20” packages with two to five sections. They are ideal for a wide variety of applications including electronic warfare, avionics, and software defined radio.
Tags: element
filters
datasheet
lumped
Ultra-Miniature Lumped Element Filters
2016-03-04 09:31:16| rfglobalnet Home Page
MtronPTI offers ultra-miniature lumped element filters available for operation throughout the 200 to 5000 MHz frequency range. These filters are ideal for a wide variety of applications including electronic warfare, avionics, and software defined radio.
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filters
lumped
lumped element
Ultra-Miniature UB Series Lumped Element Filters Datasheet
2016-02-24 15:02:53| rfglobalnet Downloads
The UB Series ultra-miniature lumped element filters operate in the 300 to 2500 MHz frequency range, are available with 2 to 5 resonant sections, and can reach bandwidths from 5% to 20%.
Tags: series
element
filters
datasheet
Ultra-Miniature UB Series Lumped Element Filters
2016-02-24 15:00:00| rfglobalnet Products
The ultra-miniature UB Series of lumped element filters from K&L Microwave are capable of operation in applications with frequencies ranging from 300 to 2500 MHz. These filters are available with 2 to 5 resonant sections, and bandwidths from 5% to 15% for ƒ0 < 1000 MHz, or 10% to 20% bandwidths for ƒ0 ≥ 1000 MHz.
Tags: series
element
filters
lumped
Techniques For Achieving First Pass Success In Lumped Element PCB-Based Filter Designs
2015-11-24 15:54:27| rfglobalnet Downloads
There are three fabrication techniques used in generating simple three-element 250 MHz low pass filter (LPF) designs. In each scenario, the filter is fabricated using the passive lumped element values obtained in the ideal LPF design process. Due to parasitic effects at high frequencies, the expected measured data will differ from the ideal LPF design. Parasitic elements will then be added incrementally to the design in order to illustrate the progression towards better measured to model agreement. This application note provides a comparison of a “good, better, best” progression through these fabrication techniques.
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