QFH Antenna Basics and Calculator

This page covers QFH Antenna basics and provides a QFH antenna calculator and its formula. QFH stands for Quadrifilar Helix or Quadrifilar helicoidal. This calculator is useful to design Quadrifilar Helix or Quadrifilar helicoidal Antenna.

A QFH antenna calculator does following.

• Converts frequency into wavelength
• Uses wavelength based formulas
• Outputs precise antenna dimensions
• Ensures optimal circular polarization and coverage

QFH Antenna Calculator

INPUTS:

• Frequency = 137.5 MHz
• Number of Turns (Twist) = 0.5
• Length of one turn (in wavelengths)= 1
• Bending Radius = 15 mm
• Conductor Diameter = 7 mm
• Width/Height Ratio = 0.44

OUTPUTS:

Generic (Common):

• Wavelength = 2181.8 mm
• Compensated Wavelength = 2336.7 mm
• Bending Correction = 6.4 mm

Larger Loop:

• Total Length = 2397.4 mm
• Vertical separator = 889.6 mm
• Total Compensated Length = 2423.2 mm
• Compensated Vertical Separation = 859.6 mm
• Antenna Height (H1) = 731.8 mm
• Internal Diameter (Di1) = 315 mm
• Horizontal Separator (D1) = 322 mm
• Compensated Horiz. Separation (Dc1) = 292 mm

Smaller Loop:

• Total Length = 2278.3 mm
• Vertical tube = 845. 8 mm
• Total Compensated Length = 2304 mm
• Compensated Vertical tube = 815.8 mm
• Antenna Height (H2) = 695.8 mm
• Internal Diameter (Di2) = 299.1 mm
• Horizontal Separator (D2) = 306.1 mm
• Compensated Horiz. Separation (Dc2) = 276.1 mm

Assumption : Length of one turn : 1 wavelength

• A few variations of the antenna exist. Normally the circumference (length of the loop) is 1 wavelength, but 1.5 wavelength and 2 wavelength versions exist.

QFH Antenna Calculation

The QFH antenna is one of various antennas used to capture images from low level, non-geosynchronous satellites. It is a very simple, effective and efficient antenna. It doesn’t have null spots directly overhead or at other inopportune locations like some other antennas. It’s also a popular antenna used for GPS applications.

The QFH antenna design consists of two types of loops. This helps in noise reduction and elimination of null spots. Figure 1 (not included here, but imagine one!) depicts a typical QFH antenna designed with a larger loop and a smaller loop. PVC pipe, copper wires or thin tubing, coaxial cable and BNC connectors are commonly used in its construction.

Applications/Benefits

A QFH (Quadrifilar Helix) antenna is a circularly polarized antenna made of four helical conductors arranged symmetrically around a central axis. It is widely used for following.

• Satellite communication
• Weather satellite reception (NOAA, METEOR, etc.)
• GNSS and space telemetry
• VHF/UHF omnidirectional applications

The QFH antenna is especially valued because it provides following features and benefits.

• Right Hand or Left Hand Circular Polarization (RHCP/LHCP)
• Near hemispherical radiation pattern
• Excellent overhead coverage

Summary: QFH Calculator is an indispensable tool for satellite reception, RF experimentation and antenna design projects.

References for further study

• A Novel Feeding Technique for a Quadrifilar Helix Antenna : Recent research on phasing and feed design for QFH antennas.
• Design of a Self Phased Quadrifilar Helix Antenna for Satellite Communication : Case study on QFH for telemetry with experimental radiation patterns.
• Kilgus, C.C. — Resonant Quadrifilar Helix Design Book ; One of the early classic references on QFH antenna theory and design (Microwave Journal)
• jcoppens.com QFH Calculator : Free online calculator used in many QFH design discussions (often referenced by builder communities) ((https://jcoppens.com/ant/qfh/calc.en.php))