+86 29 8881 0979

Waveguide Horn Antennas

Waveguide horn antennas are essential components in microwave communication systems, serving as interfaces that direct radio waves into or out of a waveguide. They are known for their high directionality and efficiency, making them ideal for applications ranging from satellite communications and radar to wireless networking. These antennas offer a broad bandwidth and stable performance, facilitating precise signal transmission and reception across various frequencies.

Published Frequency
0.3-45 GHz
Coverage depends on the selected catalog model.
Waveguide Range
WRD840-WRD180
Confirm the required double-ridged interface in the RFQ.
Published VSWR Max.
1.2-2.0
Model- and frequency-dependent catalog values.
Published Gain Options
10 / 15 / 20 / 25 dB
Other gain ranges appear in individual catalog entries.
Input and Connector
WG or Coaxial
N, TNC, 7-16, SMA, 2.92, 2.4 and 3.5 options.
Published Power Handling
Up to 700 W CW
Confirm by model, connector, environment and duty conditions.

Configuration Review

Select the Frequency Coverage, Gain and Feed Interface

Dolph Microwave double-ridged waveguide horn antennas are broadband directional antennas for RF and microwave transmission, reception and measurement systems. Selection should be based on the complete operating band, required gain and beamwidth, polarization, feed interface, power level and mechanical envelope.

BW

Broadband Double-Ridged Horn

Published catalog configurations cover wide and ultra-wide frequency spans, including entries from 0.3-2.0 GHz through 28.0-45.0 GHz.

RF

Gain and Beamwidth Selection

Gain and beamwidth vary by antenna geometry and frequency. Use the catalog table for preliminary comparison, then define the project acceptance values.

IF

Waveguide or Coaxial Input

Waveguide and coaxial feed configurations are available. Connector family, connector sex and flange interface must be stated in the quotation request.

Published Catalog Data

Waveguide Horn Antenna Performance Range

The following entries consolidate the electrical ranges printed in the current Dolph double-ridged horn antenna brochure. They support preliminary selection and do not replace the approved model drawing or quotation.

Swipe horizontally to view all columns

Frequency Range VSWR Max. Published Gain Beamwidth Polarization
0.3-2.0 GHz 2.0 4.0-15.5 dB 35-55° VLP / HLP
0.4-4.0 GHz 2.0 6.0-17.0 dB 35-55° VLP / HLP
0.4-6.0 GHz 2.0 7.0 dB 20-40° VLP / HLP
0.7-18.0 GHz 2.0 1.4-15 dB 30-48° VLP / HLP
0.8-8.0 GHz 2.0 6.0-15.0 dB 15-70° VLP / HLP
0.8-18.0 GHz 2.0 8.0-15.0 dB 15-70° VLP / HLP
0.8-18.0 GHz 2.0 3.5-14.5 dB 35-55° VLP / HLP
1.0-2.0 GHz 2.0 10.0-15.0 dB 35-55° VLP / HLP
1.0-4.0 GHz 2.0 5.5-12.0 dB 35-55° VLP / HLP
1.0-12.0 GHz 2.0 6-13 dB 15-55° VLP / HLP
1.0-12.0 GHz 2.0 10.0-15.0 dB 35-55° VLP / HLP
1.0-18.0 GHz 2.0 8.0-18.0 dB 35-55° VLP / HLP
1.0-18.0 GHz 2.0 8.2-14.6 dB 23-70° VLP / HLP
1.0-20.0 GHz 2.0 7.0-15.0 dB 11-80° VLP / HLP
2.0-4.0 GHz 2.0 11.0-14.5 dB 15-55° VLP / HLP
2.5-5.0 GHz 2.0 10.3-13.5 dB 15-55° VLP / HLP
2.0-7.0 GHz 2.0 9.0-14.0 dB 15-55° VLP / HLP
2.0-8.0 GHz 2.0 10.0 dB 15-55° VLP / HLP
2.0-8.0 GHz 2.0 12 dB 15-55° VLP / HLP
2.0-10.0 GHz 2.0 4.0-10.0 dB 15-55° VLP / HLP
2.0-18.0 GHz 2.0 6-20 dB 15-55° VLP / HLP
18.0-40.0 GHz 1.25 15 dB 30° VLP / HLP
18.0-40.0 GHz 1.5 20 dB 15-55° VLP / HLP
22.0-40.0 GHz 2.0 10-15 dB 17-44° VLP / HLP
22.0-30.0 GHz 1.5 10-23 dB 17-44° VLP / HLP
28.0-45.0 GHz 1.2 17-21 dB 10-17° VLP / HLP
Catalog interpretation: several model numbers are abbreviated in the source brochure. Confirm the complete model code, guaranteed gain, beamwidth definition, VSWR test method, polarization, dimensions and connector configuration in the approved quotation and production drawing.

Interface and Construction

Define the Feed, Connector, Polarization and Mechanical Envelope

Electrical coverage alone is not sufficient for final selection. Mechanical interfaces and installation constraints should be reviewed at the same time as the RF requirements.

C

Coaxial Connector Options

Published options include N, TNC, 7-16, SMA, 2.92 mm, 2.4 mm and 3.5 mm connector families. State the required connector family and male or female interface.

W

Waveguide and Flange Interfaces

Waveguide-input configurations can be supplied with cover or grooved flange arrangements. Identify the required WRD family, flange designation and mating-interface standard.

P

Polarization

The brochure lists vertical and horizontal linear polarization entries and describes single- or dual-polarization options. Specify polarization orientation and port arrangement.

M

Material, Finish and Size

Published mechanical examples use aluminum with anticorrosion white paint. Example envelopes range from approximately 234 × 241 × 160 mm to 528 × 555 × 355 mm, depending on configuration.

Ordering Code

Part Number Interpretation

The brochure provides the following ordering example. Treat it as a model-code guide rather than a complete purchase specification.

DH2T18DRHA6.5NKA
DHDolph Microwave
2T18Published frequency range: 2-18 GHz
DRHADouble-ridged wideband horn antenna
6.5Published minimum gain designation
NConnector family
KFemale connector designation in the brochure example
AAluminum material designation

Custom Requirements

Information to Include in the RFQ

A complete RFQ reduces model-selection errors and prevents electrical and mechanical assumptions from being carried into production.

Operating frequency: minimum and maximum frequency, plus any restricted sub-bands.
RF performance: required gain, VSWR, beamwidth, sidelobe or cross-polarization limits.
Input interface: waveguide family or coaxial connector type, sex and orientation.
Polarization: vertical, horizontal, single or dual polarization and port arrangement.
Power conditions: CW or peak power, duty cycle, pulse conditions and operating environment.
Mechanical envelope: maximum dimensions, mounting points, flange clocking and cable clearance.
Material and finish: required body material, coating, corrosion protection and colour.
Documentation: outline drawing, measured RF data, material records or project-specific inspection documents.

Application Review

Typical RF and Microwave Uses

Suitability depends on the full antenna assembly, installation, operating band, interface and acceptance criteria. Published catalog values should be used for preliminary selection only.

Radar Systems

Directional transmission, reception, subsystem evaluation and antenna-pattern measurement.

Satellite Communications

Feed, ground-station, test-range and microwave-link configurations requiring broadband coverage.

EMC and RF Testing

Laboratory measurement setups, broadband illumination and calibrated test-system integration.

Wireless and Telecom

Point-to-point links, equipment development and directional RF system evaluation.

Submit the Required Frequency Range, Gain and Interface

Provide the operating band, required gain and VSWR, beamwidth, polarization, connector or flange interface, power conditions, mechanical envelope, quantity and documentation requirements for technical review.

Request Technical Review

Related components: Double-Ridged Waveguide to Coaxial Adapter · Double-Ridged Straights & Transitions · Double-Ridged Waveguide Tube

Scroll to Top
Blank Form (#3)