Rohde & Schwarz will present at the IEEE Asia-Pacific International Symposium on Electromagnetic Compatibility (APEMC 2026) in Kuala Lumpur, from May 4 to May 7, as a Silver Sponsor. The company will demonstrate its test solutions addressing the measurement and compliance needs of engineers working on consumer electronics, automotive systems, aerospace and defense applications, including two new high-gain antennas and EMI tests. Workshops and a technical tour will round out the program, offering insight into EMC standards.
At its booth A04, Rohde & Schwarz will display its latest developments. These include the newly launched R&S HF1444G20 high-gain EMS antenna alongside the R&S HF1444G14 high-gain EMI antenna, covering a frequency range from 14.9 GHz to 44 GHz and meeting the requirements of the standards CISPR 16-1-4 and CISPR 16-2-3. The R&S HF1444G14 is used for compliance testing up to 44 GHz in combination with the R&S ESW EMI test receiver, while EMS measurements according to MIL-STD-461H (released April 2026) are supported using the R&S HF1444G20 and R&S SAM200 power amplifier.
A live demonstration will show an EMI test that produces 3D emission plots generated by R&S ELEKTRA test software. The demo shows device characterization for EMI tests. In addition, the R&S RTO6 and MXO 5 oscilloscopes will be used in a joint demonstration with EMC Partner to verify the pulse output of their high voltage ESD generator ESDEX to ensure generator performance is in line with standards such as IEC 61000-4-2. The combined solutions address IEC, automotive, military and avionics standards.
In addition to the exhibits, Rohde & Schwarz engineers will lead three technical workshops covering changes in CISPR 32 for emission measurements on multimedia equipment, challenges posed by unmanned aerial vehicles (UAV) in populated areas, and approaches to reverberation chamber measurements. A technical tour, organized with SIRIM Berhad, will give participants access to EMC test facilities where measurement setups and compliance workflows are demonstrated.