Innovative Antennas,
Passives & Radar Technologies.
Passives & Radar Technologies.
In Anteral, we are experts in the design, fabrication and verification of high performance feed chains for on-board satellite systems.
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Anteral provides the best quality products based on antennas and RF components, offering ad-hoc design service to make our products fulfill any requirements you have on mind.
→ Standard products
→ Custom products
→ Standard products
→ Custom products
Anteral is also focused on universalize the use of radar technology by boosting innovative applications and making their radar solutions accessible for all.
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Visit uRAD→
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Visit uRAD→
Our extensive heritage makes Anteral the perfect partner for different
sectors: Space, SatCom, 5G & Telecom, Science & Academia, radar...
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Innovation is part of Anteral DNA. This is why we set aside a relevant part of our resources to research project, which strengthen and enlarge our know-how giving us the opportunity to create new developments.
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Anteral is formed by engineers and PhDs specialized in telecommunications, computing and electronics, who establish a highly qualified and multidisciplinary team able to face the most demanding challenges from our clients and partners.
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Latest news
April 27, 2022
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April 22, 2022
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April 19, 2022
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Products
Anteral provides the best quality products based on antennas and RF components, offering ad-hoc design service to make our products fulfill any requirements you have on mind.
- Feed Horn Antennas (5)
- Lens Antennas (5)
- Reflector Systems (2)
- Planar Antennas (1)
- Near Field Probes (1)
- Antenna Feeds (2)
- Filters & Diplexers (2)
- Metasurfaces (3)
- Radar [uRAD](4)
• Custom bandwidth from 75 GHz up to 500 GHz
• Band-pass or Band-stop performance
• Narrow and wide fractional bandwidth up to 15% and 120% respectively
• High transmittance (>85%) in pass band
• Low transmittance (< 5%) in stop band
• Band-pass or Band-stop performance
• Narrow and wide fractional bandwidth up to 15% and 120% respectively
• High transmittance (>85%) in pass band
• Low transmittance (< 5%) in stop band
• High performance standard gain horn
• From 40 to 500 GHz
• 26 dBi nominal mid-band gain
• Low VSWR
• Specific gain values can be requested
• From 40 to 500 GHz
• 26 dBi nominal mid-band gain
• Low VSWR
• Specific gain values can be requested
• High performance feed horns.
• From 18 to 110 GHz (WR42 to WR10).
• 10 dBi, 15 dBi, 18 dBi nominal mid-band gain.
• Low VSWR and sidelobe.
• Custom specifications can be requested.
• From 18 to 110 GHz (WR42 to WR10).
• 10 dBi, 15 dBi, 18 dBi nominal mid-band gain.
• Low VSWR and sidelobe.
• Custom specifications can be requested.
• From 7 to 110 GHz (WR112 to WR10).
• 10 to 20 dBi nominal mid-band gain.
• Very compact size.
• Low VSWR.
• Linear polarization.
• Custom specifications can be requested.
• 10 to 20 dBi nominal mid-band gain.
• Very compact size.
• Low VSWR.
• Linear polarization.
• Custom specifications can be requested.
• From 7 to 110 GHz (WR112 to WR10).
• 10 to 30 dBi nominal mid-band gain.
• Very compact size.
• Low VSWR.
• LHCP and RHCP polarization.
• Custom specifications can be requested.
• 10 to 30 dBi nominal mid-band gain.
• Very compact size.
• Low VSWR.
• LHCP and RHCP polarization.
• Custom specifications can be requested.
• High performance antennas for anechoic chambers
• From 5 to 90 GHz
• Custom designs for any requirement
• Higher frequency bands can be requested
• From 5 to 90 GHz
• Custom designs for any requirement
• Higher frequency bands can be requested
• From 8 to 170 GHz
• 30 dBi nominal mid-band gain
• Very compact size
• Low VSWR
• Custom specifications can be requested
• 30 dBi nominal mid-band gain
• Very compact size
• Low VSWR
• Custom specifications can be requested
• From 5.85 to 220 GHz
• Optimized focus performance
• Best for material characterization
• Very compact size
• Custom focusing performance can be requested
• Optimized focus performance
• Best for material characterization
• Very compact size
• Custom focusing performance can be requested
• From 110 to 600 GHz
• >40 dBi nominal mid-band gain
• Very compact size and robust design
• Low VSWR and side lobes
• Specific gain values can be requested
• >40 dBi nominal mid-band gain
• Very compact size and robust design
• Low VSWR and side lobes
• Specific gain values can be requested
• From 8.2 to 110 GHz (WR90 to WR10).
• 30 dBi nominal mid-band gain.
• Very compact size.
• Low VSWR.
• Linear polarization.
• Custom specifications can be requested. From 8.2 to 110 GHz (WR90 to WR10). Very compact size. Low VSWR. Linear polarization. Custom specifications can be requested.
• 30 dBi nominal mid-band gain.
• Very compact size.
• Low VSWR.
• Linear polarization.
• Custom specifications can be requested. From 8.2 to 110 GHz (WR90 to WR10). Very compact size. Low VSWR. Linear polarization. Custom specifications can be requested.
• From 7 to 110 GHz (WR112 to WR10).
• 10 to 30 dBi nominal mid-band gain.
• Very compact size.
• Low VSWR.
• LHCP and RHCP polarization.
• Custom specifications can be requested.
• 10 to 30 dBi nominal mid-band gain.
• Very compact size.
• Low VSWR.
• LHCP and RHCP polarization.
• Custom specifications can be requested.
• From 50 to 500 GHz
• 5 different directivity values in each frequency band
• Optimized spillover efficiency
• Robust design
• Specific directivity values can be requested
• Low losses
• 5 different directivity values in each frequency band
• Optimized spillover efficiency
• Robust design
• Specific directivity values can be requested
• Low losses
• 8.4 GHz to 300 GHz available
• High directivity and gain.
• Low cost and simple installation.
• Wide range of available beamwidths and reflector sizes
• Specific performance can be requested.
• High directivity and gain.
• Low cost and simple installation.
• Wide range of available beamwidths and reflector sizes
• Specific performance can be requested.
• Broadband bandwidth from 500 MHz up to 18 GHz
• 7 dBi typical average gain
• Light weight
• Robust design
• 7 dBi typical average gain
• Light weight
• Robust design
• From 10 to 750 GHz
• Sharp edged
• Single piece aluminum probes
• Long-length probes
• Sharp edged
• Single piece aluminum probes
• Long-length probes
• High performance OMTs for communication and radar systems.
• From 7 to 110 GHz (WR112 to WR10).
• High Isolation and Cross polarization levels.
• Low VSWR.
• Specific performance can be requested.
• From 7 to 110 GHz (WR112 to WR10).
• High Isolation and Cross polarization levels.
• Low VSWR.
• Specific performance can be requested.
• High performance.
• From 7 to 110 GHz (WR112 to WR10).
• Low Axial Ratio.
• Low VSWR.
• Specific performance can be requested.
• From 7 to 110 GHz (WR112 to WR10).
• Low Axial Ratio.
• Low VSWR.
• Specific performance can be requested.
• High performance – Low cost.
• From 3 to 110 GHz (WR229 to WR10).
• High Rejection, Low VSWR and Low loss.
• Low-Pass, High-Pass, and Band-Pass performance.
• Narrow and wide bandwidths.
• COTSs and custom designs can be requested.
• From 3 to 110 GHz (WR229 to WR10).
• High Rejection, Low VSWR and Low loss.
• Low-Pass, High-Pass, and Band-Pass performance.
• Narrow and wide bandwidths.
• COTSs and custom designs can be requested.
• High performance – Low cost.
• From 3 to 110 GHz (WR229 to WR10).
• High Rejection, Low VSWR and Low loss.
• High Rejection, Low VSWR and Low loss.
• COTSs and custom designs can be requested.
• From 3 to 110 GHz (WR229 to WR10).
• High Rejection, Low VSWR and Low loss.
• High Rejection, Low VSWR and Low loss.
• COTSs and custom designs can be requested.
• Three frequency bands: 24GHz, 60 GHz and 77 GHz.
• Detection of range, angle, velocity and SNR
• Open libraries and software: Arduino, Raspberry Pi, Python.
• Flexibility, robustness, accuracy and cost.
• Custom radars can be requested.
• Detection of range, angle, velocity and SNR
• Open libraries and software: Arduino, Raspberry Pi, Python.
• Flexibility, robustness, accuracy and cost.
• Custom radars can be requested.
• Working bandwidth from DC up to 2 THz
• Very low transmission loss
• High parallel isolation
• Rotating frame with angular scale
• Very low transmission loss
• High parallel isolation
• Rotating frame with angular scale
• Working bandwidth from DC up to 1.5 THz
• Very low transmission loss
• Rotating frame with angular scale
• Ultra-low loss and flexible substrate material
• Very low transmission loss
• Rotating frame with angular scale
• Ultra-low loss and flexible substrate material