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Conical Dual Polarized Horn Antenna 10 dBi Typ. Gain, 4-40 GHz Frequency Range RM-CDPHA440-10

Conical Dual Polarized Horn Antenna 10 dBi Typ. Gain, 4-40 GHz Frequency Range RM-CDPHA440-10 Featured Image
  • Conical Dual Polarized Horn Antenna 10 dBi Typ. Gain, 4-40 GHz Frequency Range RM-CDPHA440-10

Short Description:

RF MISO’s Model RM-CDPHA440-10 is a dual polarized horn antenna that operates from 4 to 40 GHz, The antenna offers 10dBi typical gain. The antenna VSWR is 1.5:1 typical. The antenna can be widely used in EMI detection, orientation, reconnaissance, antenna gain and pattern measurement and other application fields.
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Product Detail

ANTENNA KNOWLEDGE

Product Tags

Features

● Coaxial Adapter for RF Inputs

● Low VSWR

● High Isolation

● Broadband Operations

● Dual Linear Polarized

● Small Size

Specifications

RM-CDPHA440-10

Parameters

Typical

Units

Frequency Range

4-40

GHz

Gain

10 Typ. 

dBi

VSWR

1.5 Typ.

 

Polarization

Dual Linear

 

Cross Pol. Isolation

>30 Typ.

dB

Port Isolation(S21)

30 Typ.

dB

 Connector

2.92-Female

 

Finishing

Paint 

 

Size

Φ70.24mm*128.95mm

mm

Weight

0.121

kg
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    • The Conical Dual Polarized Horn Antenna represents a sophisticated evolution in microwave antenna design, combining the superior pattern symmetry of conical geometry with dual-polarization capability. This antenna features a smoothly tapered conical flare structure that accommodates two orthogonal polarization channels, typically integrated through an advanced Orthogonal Mode Transducer (OMT).

    Key Technical Advantages:

    • Exceptional Pattern Symmetry: Maintains symmetrical radiation patterns in both E and H planes

    • Stable Phase Center: Provides consistent phase characteristics across operating bandwidth

    • High Port Isolation: Typically exceeds 30 dB between polarization channels

    • Wideband Performance: Generally achieves 2:1 or greater frequency ratio (e.g., 1-18 GHz)

    • Low Cross-Polarization: Typically better than -25 dB

    Primary Applications:

    1. Precision antenna measurement and calibration systems

    2. Radar cross-section measurement facilities

    3. EMC/EMI testing requiring polarization diversity

    4. Satellite communication ground stations

    5. Scientific research and metrology applications

    The conical geometry significantly reduces edge diffraction effects compared to pyramidal designs, resulting in cleaner radiation patterns and more accurate measurement capabilities. This makes it particularly valuable in applications demanding high pattern purity and measurement precision.

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