Overview
The Schwarzbeck NSLK 8126 50uH + 5 Ohm || 50 Ohm, 250uH Isolation choke can be shorted 4x16/25A, 2x16A Schuko and 4x16A CEKON, Artificial Hand.
Protective earth switch
Über einen entsprechend beschrifteten Schalter lässt sich der Schutzleiter der Schutzkontaktsteckdose entweder direkt auf Massepotential schalten oder über eine Parallelschaltung aus einer 50 µH Drossel und einem 50 ? Widerstand. Die Schutzfunktion des Schutzleiters ist somit immer gegeben wenn die Netznachbildung geerdet ist. Using the switch labeled with “Safety ground” you can either put the protection earth of the Schuko socket straight to ground or in series with a parallel connection of a 50 µH choke and a 50 ? resistor. Thus the protecting function of the protecting earth connector is ensured as long as the LISN is connected to earth properly.
A protective earth conductor that is decoupled RF-wise via the choke simulates the utilization of long cables. Since some interference suppression solutions are based on the protective ground conductor potential the emission of the device under test could vary depending on the switch setting.
“Artificial Hand”
If an "artificial hand“ has to be connected to the equipment under test, a copper foil wrapped around the handle of the device under test has to be connected to the screw terminal labeled with “Hand Simulation”.
Functional Diagram
Instructions for use:
The purpose of a LISN is to provide the device under test with energy, to carry the interference voltage to the EMI measurement receiver and to load the RF emitted by the device under test with standardized impedance.
The NSLK 8126 is equipped with a 250 µH choke as well as with a 50 µH choke which is connected in series for each path. The 250 µH choke provides an excellent decoupling between the power supply and the device under test starting at 9 kHz.
Important! Connect the LISN to protecting earth BEFORE applying any voltage to it! For this purpose you can use the screw terminal at the front panel and the aluminum brackets at the rear side of the device.
Due to high capacities very high leakage currents can occur (above 1 A). Thus it is not possible to use a residual current operated circuit breaker. It is recommended to use an isolating transformer.
The supply voltage has to be applied at the back panel of the LISN by using the CEE connector.
Important! When using the Schuko connector the operator has to make sure that the maximum current is limited to 16 A at the supply side. When using the 32A CEE connector the current has to be limited to 16 A at the supply side, too. There is no fuse built into this LISN to protect the device under test!
The device under test has to be connected to the Schuko socket or the CEE socket at the front panel. The maximum current that can be drawn is 16 A for each path. The maximum voltage that can be applied is 250 VAC.
The input for the power supply is located at the back panel and provides a hard wired connection cable with a CEE plug.
The coaxial RF output has to be connected to the EMI measurement receiver using a BNC coaxial cable. You can choose the path that needs to be measured with the path selection switch. The path that is actually not measured will be terminated with 50 ? automatically.
Schwarzbeck NSLK 8126 Specifications | ||
Topology | V-LISN | |
Frequency Range | 9 kHz - 30 MHz | |
Pre-filter choke | 250 µH | |
Impedance simulation | 50 Ω || (50 ? + 5 Ω) | |
Max. Current | 2 x 16 A CEE 7/4 Type F (Schuko socket) and 4 x 16 A IEC 60309 3L+N+PE 16 A (CEKON-socket) | |
Max. Voltage | 250 VAC 50/60 Hz 400 VDC | |
Supply cable | Cable with CEKON plug | |
Connector for EuT | CEE 7/4 Type F (Schuko socket)/ IEC 60309 3L+N+PE 16 A (CEKON-socket) | |
Connector for "artificial hand" | 4 mm laboratory socket with screw terminal 6 mm, not removable | |
Connector to EMI receiver | BNC socket 50 Ω | |
Lenght | 405 mm | |
Width | 448 mm | |
Height | 180 mm | |
Weight | 12.5 kg | |
Standard | CISPR 16-1-2 |