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AC test transformer
The AC test transformer are especially designed for testing high voltage products and components, such as cables, power transformers, gas-insulated switchgears, bushings and arresters. It is also suitable to test insulation materials. They are used to generate testing high voltage and function as part of the complete system. These systems are particularly suited for tests requiring stable voltage even if the load changes under voltage (corona, wet & pollution tests) or when the load is inductive (inductive voltage transformers).
The AC test transformer can be either in insulation cylinder type with metallic cover and base or metal tank. The insulation cylinder modular test transformers can be stacked to connect in series or parallel to get larger voltage or current to extend its application range.
Insulating sheath transformers is installed in an insulating sheath and is oil-cooled. Individual transformers can be connected in parallel or series to increase the current or the voltage. The possibility of stacking several of these transformer modules allows reaching very high voltage levels by keeping reasonable floor space.
Model No. Structure Max voltage
YDTW Single unit upto 750kV
YDTCW Cascaded upto 2250kV
Metal tank transformers is situated in an enclosed and earthed metal tank. This transformer is oil-cooled and can be optionally equipped with a suitable bushing (oil-to-air or oil-to-SF6) 。This design is allowing continuous operation and high currents (high power) which qualified for continuous duty, long duration tests.
Type Structure Max voltage
YDW Single unit upto 750kV
YDCW Cascaded upto 2250kV
AC test system with Gas-insulated transformer
The SF6 insulated test transformer is designed as a Gas-insulated model which convenient for testing GIS/GIL components and switchgears. This makes testing of such installations possible without feeding them through an air-SF6 bushing.
Type Structure Max voltage Max capacity
YDQW Single unit upto 1200kV upto 4800kVA
Recommended
AC test transformer
The AC test transformer are especially designed for testing high voltage products and components, such as cables, power transformers, gas-insulated switchgears, bushings and arresters. It is also suitable to test insulation materials. They are used to generate testing high voltage and function as part of the complete system. These systems are particularly suited for tests requiring stable voltage even if the load changes under voltage (corona, wet & pollution tests) or when the load is inductive (inductive voltage transformers).
The AC test transformer can be either in insulation cylinder type with metallic cover and base or metal tank. The insulation cylinder modular test transformers can be stacked to connect in series or parallel to get larger voltage or current to extend its application range.
Insulating sheath transformers is installed in an insulating sheath and is oil-cooled. Individual transformers can be connected in parallel or series to increase the current or the voltage. The possibility of stacking several of these transformer modules allows reaching very high voltage levels by keeping reasonable floor space.
Model No. Structure Max voltage
YDTW Single unit upto 750kV
YDTCW Cascaded upto 2250kV
Metal tank transformers is situated in an enclosed and earthed metal tank. This transformer is oil-cooled and can be optionally equipped with a suitable bushing (oil-to-air or oil-to-SF6) 。This design is allowing continuous operation and high currents (high power) which qualified for continuous duty, long duration tests.
Type Structure Max voltage
YDW Single unit upto 750kV
YDCW Cascaded upto 2250kV
AC test system with Gas-insulated transformer
The SF6 insulated test transformer is designed as a Gas-insulated model which convenient for testing GIS/GIL components and switchgears. This makes testing of such installations possible without feeding them through an air-SF6 bushing.
Type Structure Max voltage Max capacity
YDQW Single unit upto 1200kV upto 4800kVA
Impulse voltage test system
CJDY Series Impulse voltage test systems are used for impulse voltage testing of transformers, cables, gas-insulated switchgears (GIS), arresters, and other high-voltage devices. The test systems generate lightning impulse voltage (LI, 1.2/50 µs), chopping lightning impulse voltages (LIC, front time 1.2 µs, front, crest or tail chopped), and switching impulse voltage (SI, 250/2500 µs) in accordance with IEC 60060-1; as well as IEC 60076-3 for transformers, and IEC 62067, 60840 und 60502-1 for cables).
Application
To generate impulse voltages for testing:
Transformers
Cables
Gas-insulated switchgears (GIS)
Arresters and other high-voltage devices
For material testing in research or training programs
For both factory and on-site testing
Main components
Charging unit
Impulse voltage generator
Impulse voltage divider
Control system ( manual operation or computer-aided automatic systems)
Special components for impulse voltage test systems
Impulse current measuring shunts
Chopping spark gaps and chopping multiple spark gaps
Overshoot compensation
On-site application
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Impulse voltage test system
CJDY Series Impulse voltage test systems are used for impulse voltage testing of transformers, cables, gas-insulated switchgears (GIS), arresters, and other high-voltage devices. The test systems generate lightning impulse voltage (LI, 1.2/50 µs), chopping lightning impulse voltages (LIC, front time 1.2 µs, front, crest or tail chopped), and switching impulse voltage (SI, 250/2500 µs) in accordance with IEC 60060-1; as well as IEC 60076-3 for transformers, and IEC 62067, 60840 und 60502-1 for cables).
Application
To generate impulse voltages for testing:
Transformers
Cables
Gas-insulated switchgears (GIS)
Arresters and other high-voltage devices
For material testing in research or training programs
For both factory and on-site testing
Main components
Charging unit
Impulse voltage generator
Impulse voltage divider
Control system ( manual operation or computer-aided automatic systems)
Special components for impulse voltage test systems
Impulse current measuring shunts
Chopping spark gaps and chopping multiple spark gaps
Overshoot compensation
On-site application