Design Solutions of Antenna
- Antenna Product Line
Design No 1. Ku-Band Diplexer Antenna System
Derived from: “Ku Band Diplexer Antenna for Data Relay Satellite Uplink in ITU-R”
Product Type: Dual-channel satellite uplink antenna.
Applications: Satellite communication, data relay systems.
Features: Compact diplexer integration, high isolation, high efficiency.
Design No 2. Multiband Circularly Polarized Microstrip Antenna
Derived from: “Cavity Array Monopole Multiband Microstrip Antennas with Wide Axial Ratio Bandwidth”
Product Type: Circularly polarized multiband planar antenna.
Applications: C-band communication, UAVs, remote sensing.
Features: Wide axial ratio bandwidth, cavity-backed design for stable gain.
Design No 3. Metamaterial-Inspired SIW Antenna
Derived from: “Metamaterial-Inspired Broadband Circularly Polarized SIW Antenna for WLAN/WBAN/ISM Applications”
Product Type: Compact substrate integrated waveguide (SIW) antenna.
Applications: IoT, wearable communication, biomedical telemetry.
Features: Broadband, low-profile, circular polarization.
Design No 4. MIMO Antenna with Metamaterial Decoupling Fence
Derived from: “Metamaterial and SIW Inspired Isolating Fences for Lateral De-Coupling in MIMO Antenna”
Product Type: Compact multi-input multi-output antenna array.
Applications: 5G/6G wireless devices, radar arrays.
Features: Low mutual coupling, metamaterial isolation structures.
Design No 5. RCS-Reduced Patch Antenna with Polarization Rotation Surface
Derived from: “Planar Polarization Rotation Reflective Surface for X-band RCS Reduction in Microstrip Patch Antenna”
Product Type: Low-observable microstrip antenna.
Applications: Stealth radar, defense platforms.
Features: Polarization-rotation metasurface for broadband RCS suppression.
Design No 6. Frequency Selective Surface (FSS) Panel for Antenna Integration
Derived from: “Design of Frequency Selective Surface using Proximity Mode Coupling…”
Product Type: FSS absorber panel or antenna radome.
Applications: RCS reduction, EMI shielding, radar covers.
Features: Wideband selective reflection, tunable frequency response.
Design No 7. SIW Trapezoid Antenna (X-Band)
Derived from: “Substrate Integrated Isosceles Trapezoid with Extended Ground Antenna for X-band Applications”
Product Type: X-band SIW antenna module.
Applications: Radar sensing, telemetry, satellite links.
Features: Compact, cavity-backed, extended bandwidth.
Design No 8. High-Gain Multiband Cavity-Backed SIW Antenna
Derived from: “High Gain Compact Multiband Cavity-Backed SIW and Metamaterial Unit Cells…”
Product Type: Multiband high-gain antenna.
Applications: S-band and Ku-band radar, aerospace communication.
Features: Metamaterial-enhanced gain, CPW feed.
Design No 9. Low-Profile Circular SIW Antenna
Derived from: “Low Profile High Gain Circular SIW Antenna for L and S Band Applications”
Product Type: Circular SIW planar antenna.
Applications: L/S-band telemetry, drones, compact radar.
Features: High gain, lightweight, easy PCB integration.
Design No 10. Dual-Line SIW Cavity-Backed WLAN Antenna
Derived from: “A Double Line SIW Cavity-Backed Antenna for WLAN Applications”
Product Type: High-isolation WLAN antenna.
Applications: Routers, access points.
Features: Dual-line SIW cavity for improved performance and bandwidth.
Design No 11. Log-Periodic Slot SIW Antenna (Ku/K-Band)
Derived from: “SIW Cavity-Backed Log-Periodic Slot Antenna for Ku and K Band Applications”
Product Type: Wideband slot antenna.
Applications: Satellite communication, radar altimeter.
Features: Log-periodic structure for frequency agility.
Design No 12. Artificial Magnetic Conductor (AMC) Patch Antenna
Derived from: “Angled Split-Ring Artificial Magnetic Conductor for Gain Enhancement in Microstrip Patch Antenna”
Product Type: AMC-backed patch antenna.
Applications: Wireless communication, 5G modules.
Features: High gain, reduced back radiation.
Design No 13. EBG-Enhanced Patch Antenna
Derived from: “Design of EBG Superstrate to Improve the Performance of Patch Antenna”
Product Type: EBG-superstrate microstrip antenna.
Applications: WLAN, radar, IoT nodes.
Features: Improved bandwidth and directivity.
Design No 14. RF MEMS Reconfigurable Antenna
Derived from: “RF MEMS Based Reconfigurable Rectangular Slotted Self-Similar Antenna”
Product Type: Tunable/reconfigurable antenna platform.
Applications: Cognitive radio, defense, adaptive systems.
Features: Frequency reconfigurability via MEMS switches.
Design No 15. Fractal Antenna with Reconfigurable Feed
Derived from: “Analysis of Fractal Antenna Structures with Reconfigurable Feed”
Product Type: Fractal reconfigurable antenna.
Applications: Multiband wireless, IoT, SDR platforms.
Features: Wideband operation, compact geometry.
Design No 16. Patented Antenna Designs (Commercial-Ready Concepts)
Dual-Polarized Wide Axial Ratio Antenna (Patent 2022)
→ Suitable for broadband satellite/defense applications.
Carve-Edged Slot Antenna with FSS (Patent 2024)
→ Compact multiband antenna with built-in filtering.
Metamaterial RCS-Reduction Antenna (Patent 2021)
→ Stealth/low-observable radar antenna.
RFMAT-Based MIMO Antenna (Patent 2024)
→ Decoupled high-performance MIMO platform.
Category
Example Products
Target Market
Satellite / Aerospace
Ku-band diplexer, cavity-backed SIW antennas
Data relay, telemetry
Defense / Radar
RCS-reduced antennas, metamaterial & AMC designs
Stealth radar, electronic warfare
Wireless / 5G / IoT
Multiband CP antennas, MIMO arrays, SIW WLAN antennas
Consumer & industrial connectivity
Smart / Adaptive Antennas
MEMS reconfigurable, fractal tunable designs
SDR, defense, dynamic networks - Category
Example Products
Target Market
Satellite / Aerospace
Ku-band diplexer, cavity-backed SIW antennas
Data relay, telemetry
Defense / Radar
RCS-reduced antennas, metamaterial & AMC designs
Stealth radar, electronic warfare
Wireless / 5G / IoT
Multiband CP antennas, MIMO arrays, SIW WLAN antennas
Consumer & industrial connectivity
Smart / Adaptive Antennas
MEMS reconfigurable, fractal tunable designs
SDR, defense, dynamic networks