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Antenna Design Software

Antenna Design Software is one of the Key Antenna Design Software tools that our Antenna Design Consultant use at out Antenna Design SoftwareSingapore Antenna Simulation office in BroadTech Engineering.
Here at T3 Security Integration, our professionally trained Simulation engineers have many years of valuable project experience in RF microwave/mmWave circuits & antenna design, fabrication, measurement, and technical troubleshooting.
Our Antenna Design Consultants have expertise in the area of RF microwave/mmWave circuits simulation, especially in transparent and/or non-transparent RF circuits and beam steering antenna designs for 5G applications, in your company that embraces creativity and innovation.

Featured Application Case Studies Involving Antenna Design Software

Transparent antennas for mmWave 5G applications based on copper grid patterns aligned with the display pixel pitch on exible glass

Designed 5G antennas and antenna arrays based on copper grid patterns aligned with electronic displays’ pixel pitch on a 100 µm Willow Glass to achieve high transparency in the visible wavelengths. The MIMO antenna array’s radiation pattern is omnidirectional with greater than 65% radiation efficiency, and with the isolation of MIMO antenna array calculated from envelope correlation coefficients (ECC) predicts by ANSYS HFSS.
Methods:
The copper grid antenna is designed and fabricated on one side of the substrate. The linewidth of the grid can be adjusted accordingly to meet the pixel pitch dimensions of the display resolution. The transparent grid antenna array can be fed with a single source with power divider circuits or can be individually fed to achieve multi-input and multi-output (MIMO) systems. MEMS true time delays can be incorporated into the feed structure to steer beams in a specific direction. The anti-reflective coatings design is also integrated with the transparent grid antenna to minimize reactions of electronic displays.

End-fire beam steering Vivaldi antenna array for mmWave 5G applications on an exible glass and ultra-thin ceramic substrates

Achievement:
Designed a directional Vivaldi antenna array on Willow Glass and exible ceramic substrates for 5G wireless systems to achieve radiation gain greater than 10 dB with multi-band resonant frequencies. The radiation efficiency is greater than 60% of a 1 x 4 array structure.
Methods:
Impedance matching and feedline stub tuner for a Vivaldi slotline. MEMS true time delays can be incorporated into Vivaldi antenna array’s feed structure to steer beams in a specific direction. oadtechengineering.com

Overview

About Us

BroadTech Engineering is a Leading Engineering Simulation and Numerical Modelling Consultancy in Singapore.
We Help Our Clients Gain Valuable Insights to Optimize and Improve Product Performance, Reliability, and Efficiency.

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1. Powerful Simulation Software Tools

1. Powerful Simulation Software Tools

2. Simulation Consultants with Extensive Research & Professional Experience

2. Simulation Consultants with Extensive Research & Professional Experience

3. Simulation projects Completed in a Timely and Cost-effective Manner

3. Simulation projects Completed in a Timely and Cost-effective Manner

4. Proven Track Record

4. Proven Track Record

5. Affordable

5. Affordable

6. Full Knowledge Transfer

6. Full Knowledge Transfer

Transparent antennas for wireless systems based on patterned indium tin oxide and Flexible glass

Achievement:
Designed 2.4 GHz and 5.8 GHz ISM bands antennas with indium tin oxide on a 100 µm Willow Glass. Radiation efficiencies were achieved 75% for 5.8 GHz antennas and 60% for 2.4 GHz antennas. The HFSS simulation and the measured return loss and radiation gain have a quantitatively good agreement in which the deviation is less than 100 MHz. The average transparency of the antenna was 81% in the visible wavelength range.
The ITO antennas’ transmission range is at least 200 meters.
Methods:
Designed a unique feeding structure and a modified patch-like radiator shape to improve radiation efficiency and radiation gain.

Microwave circuits modeling and measurement of wearable antenna design

Achievement:
Tested microwave circuits on a 2 mil thick Kapton substrate with 150 µm pitch Picoprobes, and modeled the circuits with ANSYS HFSS and CST Microwave Studio. Designed a 2.4 GHz medical use, wearable inverted F antenna for Bluetooth application, and a Wilkinson power divider with an aerosol jet printed silver on a 2 – 5 mil thick polyimide.
Methods:
Measured RF microwave circuits with Picoprobes, and modeled the circuits with ANSYS HFSS/CST Microwave Studio to fit measured data with simulation. SMA connectors modeling was also taken into account in design and modeling for the IFA antenna and the Wilkinson power divider to achieve the better agreement of the fitting.

Anti-reflective coatings (ARCs) on Flexible Substrates

Achievement:
Developed a stack of thin anti-reflective coating layers on both sides of a 100 µm Willow Glass.
The design minimizes the reflectivity for angles of incidence from 0 to 60 degrees. The reflectivity is 0.28% and transparency is 97% at 0 degrees angles of incidence at 550 nm. The reflectivity is 7.8% and transparency is 90% at 60 degrees angles of incidence at 550 nm. The proposed anti-reflective coatings design is aimed at integrating low reflectivity and high transparency techniques into the transparent antenna design.
Methods:
Designed the ARC layers with an average uniform algorithm method to obtain the lowest reflectivity and highest transmissivity in wide angle of incidence range over the visible wavelengths. The ITO annealing process and double-sided coatings contributed the substrate to reach lower reaction compared to a plain glass.

Call Us for a Free Consultation

Customers will be provided with fully tailored Antenna Design reports which outline the Methodology, in-depth analysis, and recommendations.
This insight allows our clients to optimize performance and make informed engineering decisions in a scientific, proven manner.
If you are still interested in learning more about Antenna Design and to see what it can do for you, simply call to contact us today at +6581822236 for a no obligation discussion of your needs.
Alternatively, for quote request, simply email us your details & requirements to info@broadtechengineering.com