Planar Printed Antenna Simulation with EMWorks

Design a compact printed inverted-F PCB antenna for IoT devices that operates over LoRa 915 MHz and GPS L1/L2 bands. This note shows how EMWorks simulations guide strip and slot tuning, account for casing and battery impact, and evaluate VSWR, efficiency, and radiation patterns.

Eine validierte Simulation einer Zweiband-Dreiecks-Patchantenne für GSM-Anwendungen.

This application note shows how EMWorks is used to design and optimize 5G mmWave antenna arrays. Starting from a single patch and scaling to 8×8 and 8×32 arrays, it highlights return loss, gain, and far-field metrics needed for high-gain 5G base-station antennas.

Ein validierter Breitbanddipol mit einer integrierten BALUN-Leitung BALUN"

This application note presents the design of a compact 60 GHz patch antenna array with parasitic elements tailored for integration into Google Glass. The study compares configurations with and without parasitic elements, showing improved radiation patterns and elimination of nulls around 60° when parasitics are used. It also analyzes how mounting the antenna on Google Glass shifts the resonant frequency while preserving robust radiation performance, thanks to a full ground plane that isolates the antenna from the frame. The result is a wearable antenna solution that delivers reliable wireless connectivity in realistic smart-glasses environments.

Eine Mikrostrip-Antennensimulation für RFID-Anhänger mit 2,45 GHz und der Antennendesignsoftware HFWorks""

In diesem Artikel wird eine mm-Wellenantenne für 5G-Anwendungen mit HFWorks simuliert und mit Messdaten verglichen

Eine PIFA-Antenne wird simuliert, um die Rückflussdämpfung und die Fernfeldcharakteristik zu berechnen.

Entwurf und Simulation einer Bluetooth-Antenne für tragbare Geräte mit HFWorks

Rectangular dielectric resonator antennas (DRAs) are evaluated for 5G operation between 13 and 17 GHz. The study analyzes fundamental and higher-order modes in terms of S11 bandwidth, gain, dielectric losses and steady-state temperature. Simulated results are compared with published measurements to validate the DRA designs for 5G applications.

This note analyzes a printed GSM/LTE/WLAN phone antenna in free space and near a human head phantom. It reports return loss, radiation patterns, SAR, and temperature rise at 900 MHz and 2.45 GHz, and compares the results with common RF exposure limits.

RF performance of a conformal 5.8 GHz drone antenna, covering return loss, gain, patterns, and coupling when installed on a multi-rotor UAV.

Eine Microstrip-Patchantenne für GPS-Anwendungen mit 1,575 GHz, die mit der Antennensimulationssoftware HFWorks ausgelegt wurde."

Eine kreisförmige Ultra-Breitband-Monopol-Patchantenne mit einer Bandbreite von über 10 GHz.""