Healthcare

Antennas for healthcare and wellbeing

 

Our antennas are used in medical devices that aid modern 24/7 healthcare by monitoring patients hour by hour and sending data back to the healthcare specialist. They are also used in personal fitness devices and in vital communications with lone workers.

Healthcare Components

1559-1609 MHz: Active Sinica – all-in-one GNSS antenna

This compact, all in one active GNSS antenna with built-in LNA and filter, boosts the signal to the […]

1559-1609 MHz: Beltii, miniature GNSS antenna

Beltii operates with all global public satellite constellations, and at 15.6mm x 3.3mm x 4.4mm, will be one […]

1559-1609 MHz: Robusta non-detuning antenna for metal surfaces

Robusta is a very low profile GNSS antenna designed to work on metal surfaces. It uses Antenova’s own […]

2.4 – 2.5 GHZ / 5.17 – 5.84 GHZ: TROGONA DUAL-BAND WI-FI ANTENNA

SMD mounted antenna for all dual-band Wi-Fi applications. Trogona only needs a small ground plane and integrates into […]

2.4 GHZ WLAN: COMATA, SMD ANTENNA

A PIFA based 2.4 GHz antenna to be mounted on top of the ground plane.

2.4 GHZ: FUSCA, SMD ANTENNA

A small 2.4 GHz antenna for short range WLAN applications requiring a space saving but high efficiency antenna.   […]

2.4 GHZ: MICA, SMD ANTENNA

A PIFA based 2.4GHz antenna that is mounted on top of a ground plane.

2.4 GHZ: RUFA, SMD ANTENNAS

A space-efficient antenna supporting all 2.4 GHz applications, comes in left or right feed versions for ease of […]

2.4 GHz: SERICA SMD antenna

Serica is a small antenna for Bluetooth, Wi-Fi, ZigBee and ISM. A useful antenna that doesn’t need to be […]

2.4 GHZ: WEII CERAMIC ANTENNA

An extremely small compact ceramic antenna for all 2.4 GHz applications – just 1mm x 0.5mm x 0.5mm, with simple […]

2.4/5 GHZ: MIXTUS, DUAL-BAND SMD ANTENNA

Dual-band Wi-Fi antenna suitable for all 802.11 enabled consumer devices.

2.4GHz: ZENON non de-tuning antenna

Zenon is an antenna that works on metal surfaces. It uses Antenova’s own layered technology to resist de-tuning […]