Post on 07-Aug-2015
1© Copyright Plasma Antennas Ltd 2014
Technology and
Products
Plasma Devices
and Conventional Technology
-
Technology Overview
© Copyright Plasma Antennas Ltd 2014 2
About us
• Founded 2001 by Dr David Hayes with seed capital from Oxford Technology Seedcorn VC
• Recognised as world leader in advanced electronic beam-steering antenna technologies based on 12 years of ground-breaking R&D
• Addressing large, high-growth markets with breakthrough Plasma technology combined with solid revenues from existing “conventional” products
• Work with BTS/Backhaul/Small Cell Vendors and Government Security & Defence organisations
Plasma Device with RF PCBs and Plasma Test Antenna
3© Copyright Plasma Antennas Ltd 2014
Markets Mobile Broadband Secure / Private Networks Homeland Security
Lower Cost / High Volumes
Mid Price Range / Medium Volumes Wide-band / Low Volumes
Example
ProductsAccess & Backhaul Ad hoc/Nomadic Operation Signal Monitoring / UWB Radar
Conventional Technology - Product Portfolio
4© Copyright Plasma Antennas Ltd 2014
PRODUCT FREQUENCYOPTIONS
FOV TYPICAL FEATURES
SP-2520 Dual Polar
Patch Array
Currently
5.3GHz to 5.8GHz
(other bands are possible)
±55°Az Floodlight
Independent
Beams
SP-4642 Dual Polar Patch Array
Dual Band
Currently Steered 2 to 3GHz or 3 to 4GHz
plus Fixed 5 to 6GHz(other bands are possible)
±55°Az Floodlight
Simultaneous
Beam Version
SP-3540 Vertical Polar Patch Array
Currently 4.4GHz to 5GHz
(other bands are possible)
±55°Az
±12°El
Floodlight
2D Scanning
Null Selection
RP-4210 Dual Polar Vivaldi Array
Currently Wideband 3GHz to 9GHz
9 to 26GHz
(other bands are possible)
±60°Az Floodlight
Independent Beams
Electronically scanned planar arrays
FLOODLIGHT BEAM
DIRECTED BEAMS
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PRODUCT FREQUENCY OPTIONS TYPICAL FEATURES
SC-800 Dual Slant Polar Patch Array
8+8 Directed Beams + Omni Mode
+ Multi-modal Beams
Currently 2 to 6GHz
(other bands are possible)
Independent Beams
Lower Cost
SC-1020 Dual Polar Patch Array
20 + 20 Directed Beams + Omni Mode
+ Multi-modal Beams
Currently 4 to 6GHz
(other bands are possible)
Independent Beams
Multiple beam Version
DP-5459 Dual Polar Patch Array
20+20 Directed Beams + Omni Mode
+ Multi-modal Beams
Currently 4 to 6GHz
(other bands are possible)
Independent Beams
Null Selection
SC-1000 Vertical Polarisation
Amplified Tx/Rx Operation
12 Directed Beams + Omni Mode
Currently 5 to 6GHz
(other bands are possible)
Distributed Amplifiers
Active Gain
Electronically scanned cylindrical arrays
OMNI MODE
DIRECTED BEAMS
6© Copyright Plasma Antennas Ltd 2014
UWB Feeds & Field Probes
UWB Low Noise Front-ends
UWB Antennas1 to 40 GHz+
2 to 40 GHzDual Polar Cross Vivaldi Horn
2 to 24 GHz, 24 to 40 GHz, 2 to 40 GHz Dual Channel + Selected Band Filtering
Electronically Scanned V&H Mechanical Scanned Compact
Dish Surveillance Unit (not shown)
Ultra-wideband Technologies –
Product Portfolio
7© Copyright Plasma Antennas Ltd 2014
• Lower Cost and Complexity – Relative to alternative solutions of similar performance
• Lightweight, Compact and Reliable, – No moving parts and highly integrated beam selection and beam forming
• Wide Instantaneous Bandwidth– Time delay steered operation (not phase shifted) for wideband pencil beam operation
• Wide Frequency Coverage– Technology applicable to bands within the 1GHz to 100GHz+ range
• Wide Electronically Steered Azimuth and Elevation Coverage
– Number and shape of directed beams can be tailored to meet specific system requirements
Typical Benefits
• Fast Beam Switching
– Possible within inter-packet/inter-pulse periods
• Adaptive Beam Shaping and Nulling
– Allows optimised beam footprints and maximization of SINR
• High CW RF Power Handling– Operation with commercially available radio and radar front-ends
• Reciprocal Tx/Rx Operation– Allows precise alignment of Tx and Rx beams without calibration (important in many civil and
military applications)
• Omni and Floodlight Beams– Enables one to many broadcast modes to allow beam scheduling and synchronisation
8© Copyright Plasma Antennas Ltd 2014
• Fully custom antenna solutions
• Millimetre wave systems
• Microwave lenses
• UWB surveillance
• Controllable time delays, filters
• Novel semiconductor processes
• Satellite uplink, downlink and inter-link
• UAV C2, Data and SAR
• Autonomous road vehicles
• Future telecoms infrastructure, eg. 5G, NGMN
Research and development activities &
capabilities
9© Copyright Plasma Antennas Ltd 2014
HyperbolaSilicon Lens
30GHz & 38 GHz Versions
Open EllipseCylindrical Array
5 to 6 GHz Version
Closed EllipsePlanar Array
7 to 9 GHz Version
PlasmaSiliconDevice(PSiD)
PlasmaSilicon
Antenna(PSiAn)
Plasma Silicon Technologies – Demonstrator Units
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Disruptive Features of Multi-beam Antennas
• Unlike phased arrays most do not use Tx/Rx amplifiers• Very low loss, highly linear switches with good power handling• State-of-the-art azimuth/elevation beam-formers• Time-delay steered and have wide instantaneous bandwidth• Both FDD and TDD operation• Replace fixed beam with higher gain electronically directed antennas• Retain omni and floodlight beams for acquisition and broadcast• Cylindrical antennas are lower gain and dual polar with 360 degree coverage• Planar antennas are higher gain and dual polar with 120 degree coverage
The Plasma device technology, at a demonstrator level provides– greater power handling
– many more beams (100s maybe 1000s)
– operate at higher frequencies
– cost less in high volumes
……it is a highly credible way forward for 5G and other wireless applications (e.g. backhaul and ITS).
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Team
Executive
• Peter Curnow-Ford CE0
• Richard Keeton C00 and CT0
• Dr Ruth Harper VP Silicon Technology
• John Connolly Engineering Manager
Non-Executive
Clive Dolan Defence Systems
John Burrows Entrepreneur
Malcolm Thixton Financial Director
Dr. David Hayes, Founder and Chairman
Founder and Chairman of Plasma Antennas Limited, based in Winchester, England, where he
coordinates the company’s research and development of their multi-beam antennas for both civil and
defence applications. He has authored papers in the fields of telecommunications, antenna
technology, electronic warfare and radar and has been the invited speaker at various international
conferences. Currently, his areas of special interest include solid state plasma antennas, wide-band
antennas, smart antennas for future wireless networks and the efficient electromagnetic modelling of
antennas using optical ray tracing techniques. Dr. Hayes has held a variety of research posts,
including Chief Engineer, Microwave and Optics Group, Roke Manor Research Limited and Technical
Director, Elettronica UK Limited.
Venture Capital and Chief Advisor: Lucius Cary, Oxford Technology Management
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Contact Details:
Dr David Hayes, Peter Curnow-Ford and Richard Keetonemail: dh@plasmaantennas.com, pcf@plasmaantennas.com and rbk@plasmaaantennas.comwebsite: www.plasmaantennas.com
Tel: +44 (0) 1962 832 772
Basepoint Winchester
1 Winnall Valley Road
Winchester
Hampshire SO23 0LD
United Kingdom