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Planar Spiral Antenna 2 dBi Typ. Gain, 2-18 GHz Frequency Range RM-PSA218-2R

Planar Spiral Antenna 2 dBi Typ. Gain, 2-18 GHz Frequency Range RM-PSA218-2R Featured Image
  • Planar Spiral Antenna 2 dBi Typ. Gain, 2-18 GHz Frequency Range RM-PSA218-2R

Short Description:

RF MISO’s Model RM-PSA218-2R is a right-handed circularly planar spiral antenna that operates from 2-18GHz. The antenna offers a gain 2 dBi Typ. and low VSWR 1.5:1 with SMA-KFD connector. It designed for EMC, reconnaissance, orientation, remote sensing, and flush mounted vehicle applications. These helical antennas can be used as separate antenna components or as feeders for reflector satellite antennas.
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Product Detail

ANTENNA KNOWLEDGE

Product Tags

Features

● Ideal for airborne or ground applications

● Low VSWR

● R-H Circular Polarization

● With Radome

 

Specifications

Parameters

Typical

Units

Frequency Range

2-18

GHz

Gain

2 Typ.

dBi

VSWR

1.5 Typ.

 

Polarization

 R-H Circular Polarization

 

 Connector

SMA-Female

 

3dB Beamwidth

E-Plane:56.5~97.3

H-Plane:56.5~98.14

deg

Material

Al

 

Finishing

Paint Black

 

Size

Φ63*56.4(L*W*H)

mm

Antenna Cover

Yes

 

Waterproof

Yes

 

Weight

0.176

Kg

Power Handling

CW: 5

Peak:100

W
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    • A planar spiral antenna is a classic frequency-independent antenna renowned for its ultra-wideband characteristics. Its structure consists of two or more metallic arms that spiral outward from a central feed point, with common types being the Archimedean spiral and the logarithmic spiral.

    Its operation relies on its self-complementary structure (where metal and air gaps have identical shapes) and the “active region” concept. At a specific frequency, a ring-like region on the spiral with a circumference of about one wavelength is excited and becomes the active region responsible for radiation. As the frequency changes, this active region moves along the spiral arms, allowing the antenna’s electrical characteristics to remain stable over an extremely wide bandwidth.

    The key advantages of this antenna are its ultra-wide bandwidth (often 10:1 or greater), inherent capability for circular polarization, and stable radiation patterns. Its main drawbacks are its relatively large size and typically low gain. It is widely used in applications demanding ultra-wideband performance, such as electronic warfare, broadband communications, time-domain measurements, and radar systems.

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