Bus Systems
The CAN and LIN bus systems allow for floating signal transmission according to the CAN/LIN standard.
December 20, 2024
The CAN and LIN bus systems allow for floating signal transmission according to the CAN/LIN standard.
Langer EMV-Technik GmbH`s optical signal transmission systems are used for the floating transmission of signals from the device under test up to a distance of 20 m.
Langer EMV-Technik GmbH`s optical signal transmission systems are used for the floating transmission of signals from the device under test up to a distance of 20 m.
The measurement technology for the development stage enables the detection of magnetic and electric field sources at your PCB directly at the workplace.
The near-field microprobe is designed for a high-resolution measurement of electrical near fields. With the ICR E probe the following measurements can be performed:
• Surface Scan via IC according to IEC 61967-3
• Volumenscan via IC
• Pin Scan
The ICR 03 set contains three of our ICR near-field microprobes (magnetic or E field) of your choice.
The probes are used to measure magnetic or electric near fields with extremely high resolution and sensitivity. Optimal is a distance of < 1 mm to the measuring object. The probe head is equipped with either a vertical (HV) or horizontal (HH) measuring coil.
A preamplifier is integrated in every probe, which is powered by the BT 706 bias tee.
The ICR HV set contains one ICR near-field microprobe for magnetic field measurement. The measuring coil is vertical in the probe head. The ICR probes are operated with a positioning system (Langer Scanner).
The ICR HH set contains one ICR near-field microprobe for magnetic field measurement. The measuring coil is horizontal in the probe head. The ICR probes are operated with a positioning system (Langer Scanner).
The MFA family consists of four active magnetic field probes. The MFA 01 includes three magnetic field probes. The MFA 02 set consists of two magnetic field probes for low frequency measurements.
The HR family consists of an H-field probe and an E-field probe for the measurement of high-frequency RF fields up to 40 GHz during development.