|
VCS 500N4
Combination Wave Simulator (up to 4.4kV)
Highlights
• Surge voltage up to 4.4kV
• Surge current up to 2.2kA
• Voltage/current monitors
• Built-in 1ph or 3ph CDN
• Interlock
• Warning lamp control
• Manual operation
• USB and GPIB interface
• Optional iec.control software
•
VCS 500N4 Datasheet
|
Application
Combination Wave Simulator
Surge pulses occur due to direct or indirect lightning strokes to an external (outdoor)
circuit. This leads to currents or electromagnetic fields causing high voltage or
current transients. Another source for surge pulses are switching transients originating
from switching disturbances and systems faults.
Due to the characteristic of the phenomenon nearly every electrical and electronical
device may suffer from such lightning events which justifies the necessity of surge
tests being widely performed. Surge voltage can reach several thousands of volts
and surge current is seen to reach several thousands of amps.
Benefits
VCS 500N4 - Combination wave simulator with integrated CDN
The VCS 500N4 offers an integrated coupling/decoupling network either single phase
or three-phase with a nominal current of 16A per phase. In case higher current is
required its capability can be extended by an external CDN to achieve nominal currents
of 100A and more per phase.
By selecting the desired coupling the source impedance and the coupling capacitor
is set automatically what ever CDN is connected.
Fail inputs are offered as standard for DUT monitoring purposes. Peak values of
voltage and current are shown in the display and these values are transferred to
the software for reporting.
To comply with safety regulations the VCS 500N4 is equiped with a contact to control
warning lamps and with a safety interlock.
Pre-programmed Standard Test routines allow highest user convenience. Still the
VCS 500N4 offers the Quick Start test routine where parameters can be changed on-line
during the test to evaluate the susceptibility level of an individual DUT.
Standards
| EN 300329 |
EN 300386 V1.3.2 |
EN 301489-7 |
IEC 60255-22-5 |
IEC 61850-3 |
| EN 300340 |
EN 301489-1 |
EN 55024 |
IEC 61000-4-5 |
ITU-T K.20 |
| EN 300342-1 |
EN 301489-17 |
EN 61000-4-5 |
IEC 61000-4-9 |
ITU-T K.41 |
| EN 300386-2 |
EN 301489-24 |
EN 61000-4-9 |
IEC 61326 |
ITU-T K.45 |
|
VCS 500N8
Combination Wave Simulator
Highlights
• Surge voltage up to 8kV
• Surge current up to 4kA
• Voltage/current monitors
• Built-in 1ph or 3ph CDN 16A
• Interlock
• Warning lamp control
• Manual operation
• USB and GPIB interface
• Optional iec.control software
•
VCS 500N8 Datasheet
|
Application
Combination Wave Simulator
Surge pulses occur due to direct or indirect lightning strokes to an external (outdoor)
circuit. This leads to currents or electromagnetic fields causing high voltage or
current transients. Another source for surge pulses are switching transients originating
from switching disturbances and systems faults.
Due to the characteristic of the phenomenon nearly every electrical and electronical
device may suffer from such lightning events which justifies the necessity of surge
tests being widely performed. Surge voltage can reach several thousands of volts
and surge current is seen to reach several thousands of amps.
Benefits
VCS 500N8 - Combination wave simulator with integrated CDN
Although generating voltages as high as 8kV the VCS 500N8 offers a integrated coupling/decoupling
network either single phase or three-phase with a nominal current of 16A per phase.
In case higher current is required its capability can be extended by an external
CDN to achieve nominal currents of 100A and more per phase.
By selecting the desired coupling the source impedance and the coupling capacitor
is set automatically what ever CDN is connected.
Fail inputs are offered as standard for DUT monitoring purposes. Peak values of
voltage and current are shown in the display and these values are transferred to
the software for reporting.
To comply with safety regulations the VCS 500N8 is equiped with a contact to control
warning lamps and with a safety interlock.
Pre-programmed Standard Test routines allow highest user convenience. Still the
VCS 500N8 offers the Quick Start test routine where parameters can be changed on-line
during the test to evaluate the susceptibility level of an individual DUT.
Standards
| EN 61000-4-5 |
IEC 61000-4-9 |
ITU-T K.20 |
| EN 61000-4-9 |
IEC 61326 |
ITU-T K.45 |
| IEC 60255-22-5 |
IEC 61850-3 |
|
| IEC 61000-4-5 |
ITU-T K.12 |
|
|
VCS 500N10
Combination Wave Simulator
Highlights
• Surge pulses up to 10kV/5kA
• Single phase or three-phase coupler up to 100A (external options)
• Fail inputs
• Warning lamp control
• Emergency interlock
• Standard test routines
• USB and GPIB interface
• Optional iec.control software
•
VCS 500N10 Datasheet
|
Application
Combination Wave Simulator
Surge pulses occur due to direct or indirect lightning strokes to an external (outdoor)
circuit. This leads to currents or electromagnetic fields causing high voltage or
current transients. Another source for surge pulses are switching transients originating
from switching disturbances and systems faults.
Due to the characteristic of the phenomenon nearly every electrical and electronical
device may suffer from such lightning events which justifies the necessity of surge
tests being widely performed. Surge voltage can reach several thousands of volts
and surge current is seen to reach several thousands of amps.
Benefits
VCS 500N10 - Combination wave simulator for 10kV/5kA
The VCS 500N10 combination wave simulator generates surge voltages up to 10kV and
surge currents up to 5kVA as it is required for components testing (e.g. overvoltage
protection for telecommunication devices). To apply the surge pulse to power supply
lines an external coupling/decoupling network either single phase or three-phase
can be connected. The coupling modes and the source impedance are set automatically
controlled by the VCS 500N10.
Fail inputs are offered as standard for DUT monitoring purposes. Peak values of
voltage and current are shown in the display and these values are transferred to
the software for reporting.
To comply with safety regulations the VCS 500N10 is equipped with a contact to control
warning lamps and with a safety interlock.
Pre-programmed Standard Test routines allow highest user convenience. Still the
VCS 500N10 offers the Quick Start test routine where parameters can be changed on-line
during the test to evaluate the susceptibility level of an individual DUT.
Standards
| EN 61000-4-5 |
IEC 61000-4-9 |
ITU-T K.20 |
| EN 61000-4-9 |
IEC 61326 |
ITU-T K.45 |
| IEC 60255-22-5 |
IEC 61850-3 |
|
| IEC 61000-4-5 |
ITU-T K.12 |
|
|
VCS 500N10T
Surge / Telecom Surge Generator
Highlights
• Surge voltage up to 10kV
• Surge current up to 5kA
• Telecom surge voltage up to 10kV
• Telecom surge current up to 666A
• Built-in coupling for telecom port testing
• Voltage/current monitors
• Interlock
• Warning lamp control
• Manual operation
• USB and GPIB interface
• Optional iec.control software
•
VCS 500N10T Datasheet
|
Application
Combined combination wave / Telecom surge generator
Surge pulses occur due to direct or indirect lightning strokes to an external (outdoor)
circuit. This leads to currents or electromagnetic fields causing high voltage or
current transients. Another source for surge pulses are switching transients originating
from switching disturbances and systems faults.
Due to the characteristic of the phenomenon nearly every electrical and electronical
device may suffer from such lightning events which justifies the necessity of surge
tests being widely performed. Surge voltage can reach several thousands of volts
and surge current is seen to reach several thousands of amps.
Benefits
VCS 500N10T - Compact surge / Telecom surge generator with built-in coupling
for telecom ports
The VCS 500N10T unifies the test capabilities for Combination wave surge and telecom
surge testing in one unit up to 10kV. Moreover it offers built-in coupling resistors
for telecom port testing.
For combination wave surge tests on high-current mains supply lines its capability
can be extended by an external CDN to achieve nominal currents of 100A and more
per phase.
By selecting the desired coupling the source impedance and the coupling capacitor
is set automatically what ever CDN is connected.
Fail inputs are offered as standard for DUT monitoring purposes. Peak values of
voltage and current are shown in the display and these values are transferred to
the software for reporting.
To comply with safety regulations the VCS 500N10T is equipped with a contact to
control warning lamps and with a safety interlock.
Pre-programmed Standard Test routines allow highest user convenience. Still the
VCS 500N10T offers the Quick Start test routine where parameters can be changed
on-line during the test to evaluate the susceptibility level of an individual DUT.
Standards
| EN 300386 V1.3.2 |
IEC 61000-4-5 |
ITU-T K.12 |
| EN 61000-4-5 |
IEC 61000-4-9 |
ITU-T K.20 |
| EN 61000-4-9 |
IEC 61326 |
ITU-T K.21 |
| IEC 60255-22-5 |
IEC 61850-3 |
ITU-T K.45 |
|
VCS 500N12
Combination Wave Simulator
Highlights
• Surge pulses up to 12kV/6kA
• Single phase or three-phase coupler up to 100A (external option)
• Fail inputs
• Warning lamp control
• Emergency interlock
• Standard Test routines
• USB and GPIB interface
• USB and GPIB interface
• Optional iec.control software
•
VCS 500N12 Datasheet
|
Application
Combination Wave Simualtor
Surge pulses occur due to direct or indirect lightning strokes to an external (outdoor)
circuit. This leads to currents or electromagnetic fields causing high voltage or
current transients. Another source for surge pulses are switching transients originating
from switching disturbances and systems faults.
Due to the characteristic of the phenomenon nearly every electrical and electronical
device may suffer from such lightning events which justifies the necessity of surge
tests being widely performed. Surge voltage can reach several thousands of volts
and surge current is seen to reach several thousands of amps.
Benefits
VCS 500N12 - Combination wave simulator for 12kV/6kA
The VCS 500N12 combination wave simulator generates surge voltages up to 12kV and
surge currents up to 6kA as it is required for component testing (e.g. overvoltage
protection for telecommunication devices). To apply the surge pulses to power supply
lines an external coupling/decoupling network either single phase or three-phase
can be connected. The coupling modes and the source impedance are set automatically
controlled by the VCS 500N12.
Fail inputs are offered as standard for DUT monitoring purposes. Peak values of
voltage and current are shown in the display and these values are transferred to
the software for reporting.
To comply with safety regulations the VCS 500N12 is equipped with a contact to control
warning lamps and with a safety interlock.
Pre-programmed Standard Test routines allow highest user convenience. Still the
VCS 500N12 offers the Quick Start test routine where parameters can be changed on-line
during the test to evaluate the susceptibility level of an individual DUT.
Standards
| EN 61000-4-5 |
IEC 61000-4-9 |
ITU-T K.20 |
| EN 61000-4-9 |
IEC 61326 |
ITU-T K.45 |
| IEC 60255-22-5 |
IEC 61850-3 |
|
| IEC 61000-4-5 |
ITU-T K.12 |
|
|
VCS 500N10.1
Combination Wave Simulator
Highlights
• Surge pulses up to 10kV/833A
• 12Ohm source impedence for all couplings as per IEC 60335-1
• Single phase or three-phase coupler up to 100A (external options)
• Fail inputs
• Warning lamp control
• Emergency interlock
• Standard test routines
• USB and GPIB interface
• Manual operation
• Optional iec.control software
•
VCS 500N10.1 Datasheet
|
Application
Combination Wave Simulator
Surge pulses occur due to direct or indirect lightning strokes to an external (outdoor)
circuit. This leads to currents or electromagnetic fields causing high voltage or
current transients. Another source for surge pulses are switching transients originating
from switching disturbances and systems faults.
Due to the characteristic of the phenomenon nearly every electrical and electronical
device may suffer from such lightning events which justifies the necessity of surge
tests being widely performed. Surge voltage can reach several thousands of volts
and surge current is seen to reach several thousands of amps.
Benefits
VCS 500N10.1 - Combination wave simulator for 10kV/833A
The VCS 500N10.1 combination wave simulator generates surge voltages up to 10kV
and surge currents up to 833A with a source impedance of 12ohm as required by IEC
60335-1. To apply the surge pulses to power supply lines an external coupling/decoupling
network either single phase or three-phase can be connected. The coupling modes
are set automatically controlled by the VCS 500N10.1.
Fail inputs are offered as standard for DUT monitoring purposes. Peak values of
voltage and current are shown in the display and these values are transferred to
the software for reporting.
To comply with safety regulations the VCS 500N10.1 is equipped with a contact to
control warning lamps and with a safety interlock.
Pre-programmed Standard Test routines allow highest user convenience. Still the
VCS 500N10.1 offers the Quick Start test routine where parameters can be changed
on-line during the test to evaluate the susceptibility level of an individual DUT.
Standards
| EN 60335-1 |
IEC 611180-1 |
| IEC 60335-1 |
IEC 611180-2 |
|
VCS 500N12.1
Combination Wave Simulator
Highlights
• Surge pulses up to 12kV/1kA
• 12Ohm source impedence for all couplings as per IEC 60335-1
• Single phase or three-phase coupler up to 100A (external options)
• Fail inputs
• Warning lamp control
• Emergency interlock
• Standard test routines
• USB and GPIB interface
• Optional iec.control software
•
VCS 500N12.1 Datasheet
|
Application
Combination Wave Simulator
Surge pulses occur due to direct or indirect lightning strokes to an external (outdoor)
circuit. This leads to currents or electromagnetic fields causing high voltage or
current transients. Another source for surge pulses are switching transients originating
from switching disturbances and systems faults.
Due to the characteristic of the phenomenon nearly every electrical and electronical
device may suffer from such lightning events which justifies the necessity of surge
tests being widely performed. Surge voltage can reach several thousands of volts
and surge current is seen to reach several thousands of amps.
Benefits
VCS 500N12.1 - Combination wave simulator for 12kV/1kA
The VCS 500N12.1 combination wave simulator generates surge voltages up to 12kV
and surge currents up to 1kA as it is required as per IEC 60335-1 for household
and similar electrical appliances. To apply the surge pulses to power supply lines
an external coupling/decoupling network either single phase or three-phase can be
connected. The coupling modes are set automatically controlled by the VCS 500N12.1.
Fail inputs are offered as standard for DUT monitoring purposes. Peak values of
voltage and current are shown in the display and these values are transferred to
the software for reporting.
To comply with safety regulations the VCS 500N12.1 is equipped with a contact to
control warning lamps and with a safety interlock.
Pre-programmed Standard Test routines allow highest user convenience. Still the
VCS 500N12.1 offers the Quick Start test routine where parameters can be changed
on-line during the test to evaluate the susceptibility level of an individual DUT.
Standards
| EN 60335-1 |
IEC 611180-1 |
| IEC 60335-1 |
IEC 611180-2 |
|
UCS 500N5
Ultra-Compact Simulator for Industrial Electronics
Highlights
• Burst module (IEC/EN 61000-4-4) up to 5.5kV
• Surge module (IEC/EN 61000-4-5) up to 5kV
• TSurge module (IEC/EN 61000-4-5); optional
• PowerFail module (IEC/EN 61000-4-11)
• Magnetic field tests with optional accessoires
• Built-in single phase coupler 300V/16A
• Manual operation from front panel
• USB and GPIB-Bus for remote control
• Monitor outputs for peak voltage and peak current
• Fail inputs
• External variac control 0-10Vdc
• Control of external three-phase couplers
• Optional iec.control software
•
UCS 500N5 Datasheet
|
Application
UCS 500N5 - Compact Tester for EFT/Burst, Surge and Power Fail
The UCS 500N5 ultra-compact simulator is the most versatile tester to cover transient
and power fail requirements according to international standards (basic and generic
standards) and product/product family standards. The UCS 500N5 is the most economic
solution for tests during development as well as for full-compliant immunity tests
and CE Marking for single phase DUT with the ability to be extended for testing
three-phase DUTs by means of an automatically controlled external coupling network
up to 100A.
EM TEST supplies a large range of accessories for the various applications such
as magnetic field tests.
Benefits
All in one - All what you need for your tests
The UCS 500N5 includes everything necessary to conduct fully compliant tests. The
power mains supply for the controls and for the DUT is separate to render it more
flexible to use with different DUT supply voltages.
The UCS 500N5 can be operated manually from the front panel or by remote via the
built-in USB or GPIB interface. Fail inputs allow to control an ongoing test sequence
based on the status of the DUT. Monitoring outputs (BNC) are offered for easy signal
measurement and verification. Safety features such as interlock and warning lamp
control are available.
Pre-programmed Standard Test routines allow highest user convenience. Still the
UCS 500N5 offers the Quick Start test routine where parameters can be changed on-line
during the test to evaluate the susceptibility level of an individual DUT.
Standards
| EN 300329 |
EN 50121 |
EN 61000-6-1 |
IEC 61000-4-8 |
| EN 300340 |
EN 55024 |
EN 61000-6-2 |
IEC 61000-4- 9 |
| EN 300342-1 |
EN 61000-4-11 |
FCC 97-270 (part 68) |
IEC 61326 |
| EN 300386 V1.3.2 |
EN 61000-4-29 |
IEC 60255-22-5 |
IEC 61850-3 |
| EN 301489-1 |
EN 61000-4-4 |
IEC 61000-4-11 |
ITU-T K.20 |
| EN 301489-17 |
EN 61000-4-5 |
IEC 61000-4-29 |
ITU-T K.21 |
| EN 301489-24 |
EN 61000-4-8 |
IEC 61000-4-4 |
ITU-T K.41 |
| EN 301489-7 |
EN 61000-4-9 |
IEC 61000-4-5 |
ITU-T K.45 |
|
UCS 500N7
Ultra-Compact Simulator for Industrial Electronics
Highlights
• Ultra-Compact Simulator up to 7.0kV
• Burst module (IEC/EN 61000-4-4)
• Surge module (IEC/EN 61000-4-5)
• PowerFail module (IEC/EN 61000-4-11)
• Ringwave module (IEC/EN 61000-4-12) optional
• Telecom Surge Module (IEC/EN 61000-4-5) optional
• Magnetic field tests with optional accessoires
• Built-in single phase coupler 300V/16A
• USB and GPIB-Bus for remote control
• Manual operation from front panel
• Monitor outputs for peak voltage and peak current
• Fail inputs
• External variac control 0-10Vdc
• Control of external three-phase couplers
• Optional iec.control software
•
UCS 500N7 Datasheet
|
Application
UCS 500N7 - Most Enhanced Ultra Compact Tester as per IEC 61000-4-x and ANSI/IEEE
C62.41
The UCS 500N7 ultra-compact simulator is the most versatile tester to cover transient
and power fail requirements according to international standards (basic and generic
standards) and product/ product family standards with voltage capability of up to
7.0 kV. Apart from the IEC 61000-4-5 standard for surge testing it also complies
to ANSI/IEEE C62.41 for surge and ringwave testing.
The UCS 500N7 not only represents the most economic solution for full-compliant
immunity tests and CE Marking but goes far beyond. Having a built-in CDN for single
phase DUTs it can be extended for testing three-phase DUTs by means of an automatically
controlled external coupling network up to 100A.
EM TEST supplies a large range of accessories for the various applications.
Benefits
All in one and more - All what you need for tests up to 7kV
The UCS 500N7 includes everything necessary to conduct fully compliant tests at
levels that go far beyond common test requirements.
Surge can be test up to 7.0kV either according to IEC 61000-4-5 or ANSI/IEEE C62.41.
The UCS 500N7 offers an integrated Ringwave module (optional) as per ANSI/IEEE C62.41
and IEC 61000-4-12 for ringwave tests on mains supply lines.
The UCS 500N7 can be operated manually from the front panel or by remote via the
built-in USB or GPIB interface. Fail inputs allow to control an ongoing test sequence
based on the status of the DUT. Monitoring outputs (BNC) are offered for easy signal
measurement and verification. Safety features such as interlock and warning lamp
control are available.
Pre-programmed Standard Test routines allow highest user convenience. Still the
UCS 500N7 offers the Quick Start test routine where parameters can be changed on-line
during the test to evaluate the susceptibility level of an individual DUT, a most
appreciated benefit for tests at development stage.
Standards
| ANSI/IEEE C62.41 |
EN 61000-4-9 |
IEC 61000-4-5 |
IEEE 1547 |
| EN 61000-4-11 |
EN 61543 |
IEC 61000-4-8 |
ITU-T K.20 |
| EN 61000-4-12 |
IEC 60255-22-5 |
IEC 61000-4-9 |
ITU-T K.21 |
| EN 61000-4-29 |
IEC 61000-4-11 |
IEC 61008-1 |
ITU-T K.45 |
| EN 61000-4-4 |
IEC 61000-4-12 |
IEC 61009-1 |
UL 1741 |
| EN 61000-4-5 |
IEC 61000-4-29 |
IEC 61326 |
|
| EN 61000-4-8 |
IEC 61000-4-4 |
IEC 61850-3 |
|
|
UCS 500N7.2
Multifunctional Transient Simulator for Renewable Energy
Highlights
• Ultra-Compact Simulator up to 7.0kV
• Burst module (IEC/EN 61000-4-4)
• Surge module (IEC/EN 61000-4-5)
• PowerFail module (IEC/EN 61000-4-11)
• Telecom Surge Module (IEC/EN 61000-4-5) optional
• Magnetic field tests with optional accessoires
• Built-in single phase coupler 300V/16A
• USB and GPIB-Bus for remote control
• Manual operation from front panel
• Monitor outputs for peak voltage and peak current
• Fail inputs
• External variac control 0-10Vdc
• Control of external three-phase couplers
• Optional iec.control software
•
UCS 500N7.2 Datasheet
|
Application
UCS 500N7.2 - Most Enhanced Ultra Compact Tester as per IEC 61000-4-x and ANSI/IEEE
C62.41
The UCS 500N7.2 ultra-compact simulator is the most versatile tester to cover transient
and power fail requirements according to international standards (basic and generic
standards) and product/ product family standards with voltage capability of up to
7.0 kV. Apart from the IEC 61000-4-5 standard for surge testing it also complies
to ANSI/IEEE C62.41 for surge testing. The UCS 500N7.2 not only represents the most
economic solution for full-compliant immunity tests and CE Marking but goes far
beyond. Having a built-in CDN for single phase DUTs it can be extended for testing
three-phase DUTs by means of an automatically controlled external coupling network
up to 100A. EM TEST supplies a large range of accessories for the various applications.
Benefits
All in one and more - All what you need for tests up to 7kV
The UCS 500N7.2 includes everything necessary to conduct fully compliant tests at
levels that go far beyond common test requirements.
Surge can be test up to 7.0kV either according to IEC 61000-4-5 or ANSI/IEEE C62.41.
The UCS 500N7.2 can be operated manually from the front panel or by remote via the
built-in USB or GPIB interface. Fail inputs allow to control an ongoing test sequence
based on the status of the DUT. Monitoring outputs (BNC) are offered for easy signal
measurement and verification. Safety features such as interlock and warning lamp
control are available.
Pre-programmed Standard Test routines allow highest user convenience. Still the
UCS 500N7.2 offers the Quick Start test routine where parameters can be changed
on-line during the test to evaluate the susceptibility level of an individual DUT,
a most appreciated benefit for tests at development stage.
Standards
| ANSI/IEEE C62.41 |
EN 61000-6-1 |
IEC 61000-4-5 |
IEEE 1547 |
| EN 61000-4-11 |
EN 61000-6-2 |
IEC 61000-4-8 |
ITU-T K.20 |
| EN 61000-4-29 |
EN 61543 |
IEC 61000-4-9 |
ITU-T K.21 |
| EN 61000-4-4 |
IEC 60255-22-5 |
IEC 61008-1 |
ITU-T K.45 |
| EN 61000-4-5 |
IEC 61000-4-11 |
IEC 61009-1 |
UL 1741 |
| EN 61000-4-8 |
IEC 61000-4-29 |
IEC 61326 |
|
| EN 61000-4-9 |
IEC 61000-4-4 |
IEC 61850-3 |
|
|
CNI 508N1
Coupling / Decoupling network for shielded high-speed communication lines up to
1GBit/s
Highlights
• Surge test voltage up to 4kV (1.2/50us)
• Ringwave test voltage up to 4kV (0.5us/100kHz)
• Burst test voltage up to 4kV (5/50ns)
• Residual voltage max. 15V at 2kV
• Coupling to shielded lines with up to 4 pairs
• Data transfer up to 1,000MBit/s
• Fully compatible to PoE and PoE+ requirements
• DUT/AE connection via RJ45 male connectors
•
CNI 508N1 Datasheet
|
Application
CNI 508N1 - The unique coupling/decoupling network for shielded high-speed communication
lines
The EM TEST CNI 508N1 is the first coupling/decoupling network available on the
market to couple Surge, Ringwave and EFT/Burst pulses onto shielded high-speed communication
lines with data rates up to 1,000MBit/s in a single unit.
The CNI 508N1 can be used for test voltages of up to 4kV. For tests using the 1.2/50us
surge the CNI 508N1 is based on IEC 61000-4-5(2005).
Additionally, it fully supports PoE and PoE+ standard requirements as per IEEE 802.3af-2003
and IEEE 802.3at-2009.
Benefits
CNI 508N1 - Single box for Surge/Ringwave/Burst coupling onto shielded high-speed
communication lines
The EM TEST CNI 508N1 is a specifically designed and approved coupling/decoupling
network for tests of shielded high-speed communication lines.
By means of the CNI 508N1 Surge pulses (1.2/50us) as per IEC/EN 61000-4-5, Ringwave
(0.5us/100kHz) as per IEC/EN 61000-4-12 and EFT/Burst pulses (5/50ns as per IEC/EN
61000-4-4) can be coupled. A maximum test voltage of 4kV can be applied to the lines
under test.
Its unique design allows data rates of up to 1,000MBit/s to be transmitted without
degradation by the coupling/decoupling network. The CNI 508N1 complies to PoE requirements
as per IEEE 802.3af-2003 as well to P0E+ (PoE plus) requirements as per IEEE 802.3at-2009
with a current of up to 600mA and a power of up to 25.5W.
The integrated decoupling network protects the auxiliary equipment limiting the
residual voltage to max. 15V at 2kV test voltage. The CNI 508N1 is fitted with female
RJ45 connectors to connect telecommunication devices.
Standards
| EN 61000-4-12 |
EN 61000-6-2 |
| EN 61000-4-4 |
IEC 61000-4-12 |
| EN 61000-4-5 |
IEC 61000-4-4 |
| EN 61000-6-1 |
IEC 61000-4-5 |
|
VCS 500N7T
Surge / Telecom Surge Generator
Highlights
• Surge voltage up to 7kV
• Surge current up to 3.5kA
• Telecom surge voltage up to 7kV
• Telecom surge current up to 465A
• Voltage/current monitors
• Built-in 1ph CDN 16A
• Interlock
• Warning lamp control
• Manual operation
• USB and GPIB interface
• Optional iec.control software
• VCS 500N7T Datasheet
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Application
Combined combination wave / Telecom surge generator
Surge pulses occur due to direct or indirect lightning strokes to an external (outdoor)
circuit. This leads to currents or electromagnetic fields causing high voltage or
current transients. Another source for surge pulses are switching transients originating
from switching disturbances and systems faults.
Due to the characteristic of the phenomenon nearly every electrical and electronical
device may suffer from such lightning events which justifies the necessity of surge
tests being widely performed. Surge voltage can reach several thousands of volts
and surge current is seen to reach several thousands of amps.
Benefits
VCS 500N7T - Compact surge / Telecom surge generator with integrated CDN
The VCS 500N7T unifies the test capabilities for Combination wave surge and telecom
surge testing in one unit up to 7kV. Moreover, it offers built-in coupling/decoupling
networks for single phase AC power port and telecom port testing.
For combination wave surge tests on high-current mains supply lines its capability
can be extended by an external CDN to achieve nominal currents of 100A and more
per phase.
By selecting the desired coupling the source impedance and the coupling capacitor
is set automatically what ever CDN is connected.
Fail inputs are offered as standard for DUT monitoring purposes. Peak values of
voltage and current are shown in the display and these values are transferred to
the software for reporting.
To comply with safety regulations the VCS 500N7T is equipped with a contact to control
warning lamps and with a safety interlock.
Pre-programmed Standard Test routines allow highest user convenience. Still the
VCS 500N7T offers the Quick Start test routine where parameters can be changed on-line
during the test to evaluate the susceptibility level of an individual DUT.
Standards
| EN 300329 |
EN 301489-1 |
EN 61000-6-1 |
IEC 61000-4-9 |
ITU-T K.21 |
| EN 300340 |
EN 301489-17 |
EN 61000-6-2 |
IEC 61326 |
ITU-T K.45 |
| EN 300342-1 |
EN 301489-24 |
FCC 97-270 (part 68) |
IEC 61850-3 |
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| EN 300386-2 |
EN 301489-7 |
IEC 60255-22-5 |
ITU-T K.12 |
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| EN 300386 V1.3.2 |
EN 61000-4-9 |
IEC 61000-4-5 |
ITU-T K.20 |
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