John Hambleton No Comments


Radiall designs and manufactures radio antennas for military and defense applications, from soldier radios to military vehicles. We specialize in handheld radio antennas, manpack radio antennas, vehicular antennas and LMR/PMR antennas. Keep reading to learn about each one.

Handheld Radio Antennas

This range includes all types of antennas integrated on soldier radios. The antennas cover VHF, UHF, L and S bands from 30 MHz to 3 GHz and can be offered as multiband. Radiall’s handheld radio antennas are available in overmolded whip or blade form factors. It is possible to attach a gooseneck to the antenna or a sealing foot at the base of the antenna.

Manpack Radio Antennas

Soldiers use manpack radios to communicate during tactical operations. Radiall offers a wide range of tactical communications antennas (VHF/ UHF/L/S Band) dedicated to manpack radios. Several form factors are available including whip, blade and plastic overmolded. These antennas are available as mono-band or multi-band and can withstand harsh environmental conditions (IP67/68, salt, fog, vibrations) per MIL-STD-810G.

Vehicular Antennas

Vehicular antennas are radio communication antennas that can be integrated on any kind of military vehicle. They cover frequency bands from 225 MHz to 2.4 GHz, including the UHF band. We offer vehicular antennas in a robust tubular form factor that can be mounted on a standard NATO base. Multiband versions are also available. Our vehicular antennas have been tested per MIL-STD-810G.

LMR and PMR Antennas

LMR and PMR antennas are used by policemen, fireman, security guards and others for private mobile radio communication. These robust solutions utilize an overmolded form factor. They cover frequency bands from 380 to 490 MHz (TETRA band) and can be offered as multiband, with the option to include GPS. We offer quarter wave antennas with a monopole design.

Discover Radiall’s comprehensive range of antenna solutions.

Mark Hoffman No Comments


Microwave phase shifters are devices that alter the phase of the electromagnetic oscillations at the output of a microwave transmission line, with respect to the phase of the oscillations at the input of the line. The phase of a transmission line can be shifted by increasing the length/time of the transmission line or by altering the wavelength.

In microwave solutions, phase shifters are passive microwave devices that change the phase angle of an RF signal. RF waves can combine to strengthen or weaken a signal, depending on if the waves are identical or different. Identical frequencies will strengthen a signal, whereas opposing ones will weaken it. Phase shifters change the angle of an RF signal so that it doesn’t interfere with the wrong signals. This technology maintains strong performance by providing low insertion loss.

We can understand this concept better by considering noise-cancelling headphones, which use some phase shifting principles. In an audio application, instead of adjusting RF and microwave energy, the shift involves the phase of an audio wave in relationship to another wave. Noise-canceling headphones reduce noise by inserting a sound wave that is 180 degrees out of phase with the surrounding noise. The new sound wave has been shifted to cancel out the first wave, thus reducing the noise you hear.

This noise-cancelling example illustrates an extreme result that we do not typically see in microwave applications. Generally, microwave phase shifters only need to change minor increments of a wavelength to achieve the desired performance results.

Phase shifters are used in a variety of applications, including phase modulators, frequency up-converters, testing instruments and phased array antennas. Radiall designs and manufactures analog phase shifters for microwave components and coaxial phase shifters for space qualified components.

Altum RF is a principal. Visit Altum RF to find out more about their capabilities.