V-LISN CISPR 16-1-2

 

NSLK 8127 - Line Impedance Stabilisation Network

 

 

  • NSLK 8127 Netznachbildung

 
 

Topology: V-LISN
Frequency Range: 9 kHz - 30 MHz
Pre-filter choke: 250 µH
Impedance simulation: 50 Ω || (50 µH + 5 Ω)
Max. Current:

2 x 16 A

Max. Voltage: 250 VAC 50/60 Hz
400 VDC
Supply cable: hard-wired three-wire connection cable with CEE 7/4 Type F (Schuko) plug
Connector for EuT:

CEE 7/4 Type F (Schuko) 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: 470 mm
Width: 445 mm
Height: 145 mm
Weight: 9.5 kg
Standard: CISPR 16-1-2

 

pdficon small Datasheet NSLK 8127

 

Options:

Opt. RC:

Option RC for LISN: Remote Control with built in power supply. LISN can be controlled by R&S or Schwarzbeck code, including remote control cable for your receiver type (Please specify your receiver type!). LISN can be selected from the R&S receiver menu or in the EMC32 software like an R&S LISN. No programming of the user interface necessary. Functions: path selection and PE grounded or via choke.

pdficon small NSLK 8127 Opt. RC

 

 Opt. PLC:

Option: Power Line Communication, according to EN 50065-1, selectable ranges: 3 - 9 kHz, 9 - 95 kHz, 95 kHz - 30 MHz, CISPR 16-1-2.

Cannot be used in combination with other options.

pdficon small NSLK 8127 Opt. PLC


 


 

NSLK 8126 - Line Impedance Stabilisation Network

 

 

  • Schwarzbeck NSLK8126 RC

 
 

Topology: V-LISN
Frequency Range: 9 kHz - 30 MHz
Pre-filter choke: 250 µH
Impedance simulation: 50 Ω || (50 µH + 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

 

pdficon small Datasheet NSLK 8126

 

Options:

Opt. RC:

Option RC for LISN: Remote Control with built in power supply. LISN can be controlled by R&S or Schwarzbeck code, including remote control cable for your receiver type (Please specify your receiver type!). LISN can be selected from the R&S receiver menu or in the EMC32 software like an R&S LISN. No programming of the user interface necessary. Functions: path selection and PE grounded or via choke.

pdficon small NSLK 8126 Opt. RC


 


 

NSLK 8128 - Line Impedance Stabilisation Network

 

 

  • Schwarzbeck NSLK8128

 
 

Topology: V-LISN
Frequency Range: 9 kHz - 30 MHz
Pre-filter choke: 250 µH
Impedance simulation: 50 Ω || (50 µH + 5 Ω)
Max. Current
IEC 60309:
4 x 32 A
Max. Current  CEE 7/4 socket: 16 A
max. Voltage: 250 VAC 50/60 Hz
400 VDC
Supply cable: hard-wired five-wire connection cable with CEE plug (IEC 60309)
Connector for EuT: CEE 7/4 Type F (Schuko) socket
and IEC 60309  3L+N+PE 32 A CEE socket
Connector for "artificial hand": 4 mm laboratory socket with screw terminal 6 mm,
not removable
Connector to EMI-receiver: BNC socked, 50 Ω
Length: 470 mm
Width: 450 mm
Height: 370 mm
Weight: 34.2 kg (38.5 kg RC)
Standard: CISPR 16-1-2

 

pdficon small Datasheet NSLK 8128

 

Options:

Opt. RC:

Option RC for LISN: Remote Control with built in power supply. LISN can be controlled by R&S or Schwarzbeck code, including remote control cable for your receiver type (Please specify your receiver type!). LISN can be selected from the R&S receiver menu or in the EMC32 software like an R&S LISN. No programming of the user interface necessary. Functions: path selection and PE grounded or via choke.

 

pdficon small NSLK 8128 Opt. RC


 


 

NSLK 8163 - Line Impedance Stabilisation Network

 

 

  • Schwarzbeck NSLK 8163 - Line Impedance Stabilisation Network
  • Schwarzbeck NSLK8163 - Line Impedance Stabilisation Network

 
 

Topology: V-LISN
Frequency Range: 9 kHz - 30 MHz
Pre-filter choke: 250 µH
Impedance simulation: 50 Ω || (50 µH + 5 Ω)
Max. continuous current CEE: 4 x 63 A
max. Voltage:

400 / 700 VAC
630 VDC

Supply cable: CEE plug (IEC 60309)
Connector for EuT: CEE socket (IEC 60309  3L+N+PE 63 A)
Connector for "artificial hand": 4 mm laboratory socket with screw terminal 6 mm,
not removable
Connector to EMI-receiver: BNC socked, 50 Ω
Length: 650 mm
Width: 450 mm
Height: 480 mm
Weight: 40.8 kg
Standard: CISPR 16-1-2

 

pdficon small Datasheet NSLK 8163

 

Options:

Opt. RC:

Option RC for LISN: Remote Control with built in power supply. LISN can be controlled by R&S or Schwarzbeck code, including remote control cable for your receiver type (Please specify your receiver type!). LISN can be selected from the R&S receiver menu or in the EMC32 software like an R&S LISN. No programming of the user interface necessary. Functions: path selection and PE grounded or via choke.

 

pdficon small NSLK 8163 Opt. RC


 


 

NNLK 8121 - Line Impedance Stabilisation Network

 

 

  • Schwarzbeck NNLK 8121 V-LISN
  • Schwarzbeck NNLK8121 V-LISN

 
 

Topology: V-LISN
Frequency Range: 9 kHz - 30 MHz
Impedance simulation: (50 µH+5 Ω) || 50 Ω
Max. Voltage: 250 VAC 50/60 Hz
400 VDC
   Max. Current:  4 x 50 (100*) A 
Mains terminals: 4 wing terminals
Terminals for E.u.T.: 4 wing terminals
Length: 480 mm
Width: 450 mm
Height: 370 mm

Weight:

33 kg
Standard: CISPR 16-1-2

 

 * For continuously 100 A add the options cont. high current and cooling fans!

pdficon small Datasheet NNLK 8121

pdficon small Data

 

Options:

 Opt. RC:

Option RC for LISN: Remote Control with built in power supply. LISN can be controlled by R&S or Schwarzbeck code, including remote control cable for your receiver type (Please specify your receiver type!). LISN can be selected from the R&S receiver menu or in the EMC32 software like an R&S LISN. No programming of the user interface necessary. Functions: path selection and PE grounded or via choke.

 

pdficon small NNLK 8121 Opt. RC

 

 Opt. Hochstrom:

Option: cont. high current, additional terminals to bypass the 250 µH prefilter-chokes, provides less voltage drop and less heating.

 

pdficon small NNLK 8121 Option Hochstrom

 

 Opt. 400/700 V:

 Option: 400/700 V Voltage to ground / Voltage between lines

 

 Opt. Lüfter:

 Option: Cooling Fans

 

Opt. TC:

The temperature monitor modul which is optional available for the NNLK LISN warns the user optical and acoustical when the temperature gets too high. It controls the fans of the LISN temperature-dependent, too and thus prevents overheating. If a critical temperature is reached the temperature control modul indicates this optically and acoustically.

 

pdficon small NNLK 8121 Opt. TC


 


 

NSLK 8122 - Line Impedance Stabilisation Network

 

 

  • Schwarzbeck NSLK 8122

 
 

Topology: V-LISN
Frequency Range: 9 kHz - 30 MHz
Pre-filter choke: 250 µH
Impedance simulation: 50 Ω || (50 µH + 5 Ω)
Max. Voltage: 1000 VCD
  750 VAC 50/60 Hz
   Max. Current:  50 A

 

Length: 550 mm
Width: 450 mm
Height 290 mm
Weight: 22.2 kg
Standard: CISPR 16-1-2

 

pdficon small Datasheet NSLK 8122


 


 

NNLK 8129 - Line Impedance Stabilisation Network

 

 

  • Schwarzbeck NNLK 8129
  • Schwarzbeck NNLK 8129_back

 
 

Topology: V-LISN
Frequency Range: (9 kHz) 150 kHz - 30 MHz
Impedance simulation: 50 µH || 50 Ω
Max. Voltage:

250 VAC 50/60 Hz
400 VDC

   Max. Current:  4 x 200 (300) A 
Mains terminals: 4 wing terminals
Terminals for E.u.T.: 4 wing terminals
Length: 604 mm
Width: 446 mm
Height: 355 mm

Weight:

30.5 kg
Standard: CISPR 16-1-2

 

pdficon small Datasheet NNLK 8129

pdficon small Data

 

Optionen:

Opt. RC

Option RC for LISN: Remote Control with built in power supply. LISN can be controlled by R&S or Schwarzbeck code, including remote control cable for your receiver type (Please specify your receiver type!). LISN can be selected from the R&S receiver menu or in the EMC32 software like an R&S LISN. No programming of the user interface necessary. Functions: path selection and PE grounded or via choke.

 

pdficon small NNLK 8129 Opt. RC

 

Opt.400/700 V:

400/700 V Voltage to ground / Voltage between lines


Opt.Lüfter:

Cooling Fans

 

Opt. TC

The temperature monitor modul which is optional available for the NNLK LISN warns the user optical and acoustical when the temperature gets too high. It controls the fans of the LISN temperature-dependent, too and thus prevents overheating. If a critical temperature is reached the temperature control modul indicates this optically and acoustically.

 

pdficon small NNLK 8129 Opt. TC


 


 

NNLK 8129-2 HV - Line Impedance Stabilisation Network

 NEW

 

  • NNLK 8129-2 HV
  • NNLK 8129-2 HV_R

 
 

Topology: V-LISN
Frequency Range: (9 kHz) 150 kHz - 30 MHz
Impedance simulation: 50 µH || 50 Ω
Max. Voltage:

1000 VAC 50/60 Hz
1000 VDC

   Max. Current:  2 x 200 (300) A 
Mains terminals: Wing terminals 12 mm, removable
Terminals for E.u.T.: Wing terminals 12 mm, removable
Length: 520 mm
Width: 445 mm
Height: 385 mm

Weight:

~22 kg
Standard: CISPR 16-1-2

 

pdficon small Datasheet NNLK 8129-2 HV

 

 

Optionen:

Opt. RC

Option RC for LISN: Remote Control with built in power supply. LISN can be controlled by R&S or Schwarzbeck code, including remote control cable for your receiver type (Please specify your receiver type!). LISN can be selected from the R&S receiver menu or in the EMC32 software like an R&S LISN. No programming of the user interface necessary. Functions: path selection and PE grounded or via choke.

 

pdficon small NNLK 8129-2 HV Opt. RC

 

Opt. TC

The temperature monitor modul which is optional available for the NNLK LISN warns the user optical and acoustical when the temperature gets too high. It controls the fans of the LISN temperature-dependent, too and thus prevents overheating. If a critical temperature is reached the temperature control modul indicates this optically and acoustically.

 

pdficon small NNLK 8129-2 HV Opt. TC


 


 

NNLK 8130 - Line Impedance Stabilisation Network

 

 

  • NNKL8130
  • NNKL_8130

 
 

Topology: V-LISN
Frequency Range: (9 kHz) 150 kHz - 30 MHz
Impedance simulation: 50 µH || 50 Ω
Max. Voltage: 250 VAC 50/60 Hz 
400 VDC
   Max. Current:  4 x 400 A  (with fans ON)
Mains terminals: 4 wing terminals
Terminals for E.u.T.: 4 wing terminals
Length: 738 mm
Width: 448 mm
Height: 473 mm

Weight:

~55 kg
Standard: CISPR 16-1-2

 

pdficon small Datasheet NNLK 8130

pdficon small Data

 

Optionen:

Opt. RC

Option RC for LISN: Remote Control with built in power supply. LISN can be controlled by R&S or Schwarzbeck code, including remote control cable for your receiver type (Please specify your receiver type!). LISN can be selected from the R&S receiver menu or in the EMC32 software like an R&S LISN. No programming of the user interface necessary. Functions: path selection and PE grounded or via choke.

 

pdficon small NNLK 8130 Opt. RC

 

Opt.400/700 V:

400/630 V Stern-/Dreieckspannung

 

Opt. TC

The temperature monitor modul which is optional available for the NNLK LISN warns the user optical and acoustical when the temperature gets too high. It controls the fans of the LISN temperature-dependent, too and thus prevents overheating. If a critical temperature is reached the temperature control modul indicates this optically and acoustically.

 

pdficon small NNLK 8130 Opt. TC


 


 

NNLK 8140 - V-LISN

 

 

  • Schwarzbeck NNLK 8140 V-LISN
  • Schwarzbeck NNLK8140 V-LISN

 
 

Topology: Single path V-LISN
Frequency range: (9 kHz) 150 kHz - 30 MHz
Impedance: 50 µH || 50 Ω (+/- 20 %)
max. voltage (DC): 1000 VDC
  

max. voltage
(50/60 Hz AC) :

650 VAC

max. voltage
(400 Hz AC):

150 VAC
max. const. current: 800 A
max. current (limited time): 1000 A
Mains connectiors: 2 wing terminals M16x1.5 removable
EuT connectors: 2 wing terminals M16x1.5 removable
Length: 770 mm
Width: 445 mm
Hight: 505 mm
Weight: 46 kg
Standard: CISPR 16-1-2

 

pdficon small Datasheet NNLK 8140

 

Opt. TC

The temperature monitor modul which is optional available for the NNLK LISN warns the user optical and acoustical when the temperature gets too high. It controls the fans of the LISN temperature-dependent, too and thus prevents overheating. If a critical temperature is reached the temperature control modul indicates this optically and acoustically.

 

pdficon small NNLK 8121 Opt. TC