Attenuators and Pulse Limiters
DGA 9552 N DGA 9552 N is a bidirectional attenuator, i.e. the attenuation and power capability specification is valid for both directions.There is a large variety of applications for this
December 12, 2024
DGA 9552 N DGA 9552 N is a bidirectional attenuator, i.e. the attenuation and power capability specification is valid for both directions.There is a large variety of applications for this
CDNE M2 CDNE with tight tolerances for CISPR 15 emission measurements with 2 mains conductors can also be used as CDNE AF2. Datasheet CDNE M2 CA CDNE M2 Part A
AK 9513 50 Ohm Coax. Cable with N plugsIndividual lengthUsable up to 3 (5) GHzIndiv. Cal. possible if cable longer than 3 mStandard lengths: 3 m, 5 m, 10 m
VUFM 1670 E-Field Meter70 kHz-2.5 GHz1V/m-300V/mLinear Polarizedcharger ACS 110 required Datasheet VUFM 1670 VUFM 1671 LCD-Display Unit for VUFM 1670with 5 m fibre optical linkcharger ACS 110 required Datasheet VUFM
Coupling and Decoupling Networks CDNs for Immunity Testing (10 kHz to 400 MHz) Type Coupling / Feature CDN Coupling and decoupling networks for frequencies: 150 kHz – 230 MHz (IEC
Coupling Networks / Decoupling Networkst Grid Applications / 3-Phase Type Rated Current Coupling/Feature CWG 520 4 x 16 A Surge + Burst / Standard Connecting Cables / Only Surge Test
CDN | Coupling / Decoupling Network Burst 3-Phase CDN Type Rated Current Characteristics CWG 520 3-phase CDN 4 x 16 A For burst and surge tests with burst generator SFT
Schlöder’s conducted interference immunity devices offer reliable and comprehensive solutions for testing the immunity of your systems to high-frequency and low-frequency disturbances. Whether for continuous or short-term disturbances, our products ensure compliance with global EMC standards and enhance the reliability of your electronic and electrical systems.
In operation, powerful components with high levels of interference and highly sensitive electronics are often operated close to one another. Voltage fluctuations or HF and LF signals should not cause any impairments, such as permanent or temporary malfunctions. During tests for conducted interference immunity, the test device’s immunity to such interference is assessed by coupling interference onto supply or signal lines.
Schloder surge generators provide reliable and comprehensive testing solutions for high-energy interference pulses, ensuring compliance with global EMC standards and enhancing the durability and reliability of your electronic and electrical systems.
In operation, electronic and electrical devices, systems, and installations must not be impaired by surge voltages. Surge voltages, such as atmospheric discharges (lightning strikes), short circuits, or significant switching overvoltages (switching capacitor banks), involve currents in the kV / kA range and rise times in the microsecond range. These voltages can exhibit a broadband spectrum up to several MHz. During surge testing, these high-energy voltages are simulated by surge generators to test their impact on devices in accordance with IEC 61000-4-5.
The VIS 1700 is a versatile tool for testing the robustness of devices against power interruptions and fluctuations, ensuring compliance with relevant standards and reliable performance in real-world scenarios.
Short-term voltage dips, interruptions, and fluctuations can affect electrical and electronic devices, potentially leading to functional issues or damage. The VIS 1700 mains interruption generator is designed to simulate these conditions according to the standards IEC 61000-4-11 (AC) and IEC 61000-4-29 (DC). It ensures that devices meet immunity requirements for AC and DC mains connections with input currents up to 16 A per conductor.