1.0-2.3 adapters Features: Allow to interface 1.0-2.3 connectors with SMA or BNC connectors; Has jack to female, jack to male, plug to female or plug to male gender; Compact design allows for denser connector ; 50ohm with a maximum frequency of 10GHz, 75ohm with a maximum frequency of 4 GHz.
TNC adapters Features: Allow to interface TNC connectors with 7-16 DIN, BNC, MCX, N, SMA, TNC or UHF connectors; Has female to female, female to jack, female to male, female to plug, female to sexless, male to female, male to jack, male to male, male to plug or male to sexless gender varieties; Has standard polarity or reverse polarity options; Has bulkhead, 4 hole panel or mountless configurations; Has quick disconnect (QD) or standard interfaces; A miniature, threaded weatherproof; With a constant 50ohm impedance and a frequency range of DC to 11GHz; TNC contact design same as BNC, higher frequency performance than the BNC.
SMP adapters Features: Allow to interface SMP connectors with SMA, 2.4mm, 2.92mm, MMCX, TNC or SMP connectors; Has female to female, female to male, male to female or male to male gender combinations; Subminiature interface in the same scale as MMCX connectors; Frequency range of DC to 40 GHz; Miniaturized high frequency coaxial modules, offered in both push-on and snap-on mating styles; Cable-to-board mated pair, the plug side can be provided in either right angle or straight with termination capability to either 0.047” or 0.086”, semi-rigid or conformable coax; Receptacles for surface, through hole, or end launch mounting.
QMA adapters Features: Allow to interface QMA connectors with QMA, N or SMA connectors; Has female to male or male to female gender varieties; Quick disconnect version of the SMA adaptor and shares the same internal construction; Excellent performance up to 18GHz; Because of the innovative coupling mechanism, a 360-degree butt joint is maintained resulting in low RF leakage; QMA series offers a more convenient installation than SMA; The interface mates with a snap-on instead of a threaded coupling, has a significant time advantage.
Features: Radiation Pattern of Antenna; Polarization of Antenna; Intensity of Radiation; Effective Aperture; Gain & Directivity; Bandwidth; Power Gain & Radiation Efficiency; Effective Length; Input Impedance.
Features: Radiation Pattern of Antenna; Polarization of Antenna; Intensity of Radiation; Effective Aperture; Gain & Directivity; Bandwidth; Power Gain & Radiation Efficiency; Effective Length; Input Impedance.
Features: Radiation Pattern of Antenna; Polarization of Antenna; Intensity of Radiation; Effective Aperture; Gain & Directivity; Bandwidth; Power Gain & Radiation Efficiency; Effective Length; Input Impedance.
Features: Radiation Pattern of Antenna; Polarization of Antenna; Intensity of Radiation; Effective Aperture; Gain & Directivity; Bandwidth; Power Gain & Radiation Efficiency; Effective Length; Input Impedance.
Features: Radiation Pattern of Antenna; Polarization of Antenna; Intensity of Radiation; Effective Aperture; Gain & Directivity; Bandwidth; Power Gain & Radiation Efficiency; Effective Length; Input Impedance.
Features: Radiation Pattern of Antenna; Polarization of Antenna; Intensity of Radiation; Effective Aperture; Gain & Directivity; Bandwidth; Power Gain & Radiation Efficiency; Effective Length; Input Impedance.
Features: Radiation Pattern of Antenna; Polarization of Antenna; Intensity of Radiation; Effective Aperture; Gain & Directivity; Bandwidth; Power Gain & Radiation Efficiency; Effective Length; Input Impedance.
Features: Radiation Pattern of Antenna; Polarization of Antenna; Intensity of Radiation; Effective Aperture; Gain & Directivity; Bandwidth; Power Gain & Radiation Efficiency; Effective Length; Input Impedance.
