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The Doble F6150e is a versatile protective relay tester for testing relays and schemes.
This power system simulator performs the simplest through the most complex tests. Meeting all your protective relay testing needs, the F6150e is available in different configurations.
Whether you need to test a specific component or test an entire scheme, the F6150e is the proven solution to assess protection system performance.
Key Features |
Performs standard relay calibration and verification testing of high burden and microprocessor relays |
Analog testing of 1A and 5A protection devices |
Performs state simulation and transient testing |
Tests 0.2-class metering CTs and transducers |
Implements end-to-end testing of communications-based schemes with GPS time syncing |
Maximum of 12 sources (six voltage, six current) configurable for bench testing and proof-of-concept testing for complicated relaying schemes |
Delivers full VA power with resistive, inductive and capacitive loads at maximum current rating (6×35, 3×70, 1×210 amps) |
Control all sources from a tablet device for basic, manual protection testing |
Benefits |
Select from a number of protective relay tester models that feature varying power levels and complexity. Choose the best solution according to your testing and budgetary requirements. |
Rugged construction and proven state-of-the art design provide laboratory accuracy with uncompromising field performance |
Convenient front-panel display indicates active voltage/current amplitudes and phase values during testing |
High-precision measurements for energy meter and transducer testing |
Specifications | ||||
DOBLE F6150e Customized Model Overview | ||||
Model | F6150e (Premier Model) | F6150e-D (Distribution Model) | F6150e-SP (Single Phase Model) | F6150e-IRC (IRC Model) |
Applications | Test traditional electromechanical, electronic and microprocessor relays and devices. Maximum power to test highburden relays. Test complex schemes | Test digital three-phase systems. Test single phase & lowburden, three phase relays. | Test single phase relays | Test IntelliRupter® PulseCloser® Fault Interrupter and other devices using low-level sources |
Technical Highlights | Maximum of 12 high-level analog sources are available at any time. Maximum of 12 low-level analog sources are available at any time. | Maximum of 8 high-level analog sources are available at any time. Maximum of 8 low-level analog sources are available at any time. | Maximum of 4 high-level analog sources are available at any time. Maximum of 4 low-level analog sources are available at any time. | Maximum of 12 low-level analog sources are available at any time. |
Technical Details | 6 AC/DC Amplifiers: 3 x 150 VA Voltages 3 x 150/225 VA currents AC volts: (1 x 600 V) (3 x 300 V) (6 x 150 V) AC amps: (1 x 180 A) (3 x 60 A) (6 x 30 A) Each 150 VA Voltage/Current amplifier; can be split into 2 x 75 VA sources; total 12 sources | 4 AC/DC Amplifiers: 2 x 150 VA Voltages 2 x 175/262.5 VA currents AC volts: (1 x 600 V) (2 x 300 V) (4 x 150 V) AC amps: (1 x 120 A) (2 x 60 A) (4 x 30 A) Each 150 VA Voltage/Current amplifier; can be split into 2 x 75 VA sources; total 8 sources | 2 AC/DC Amplifiers: 1 x 150 VA Voltages 1 x 175/262.5 VA currents AC volts: (1 x 300 V) (2 x 150 V) AC amps: (1 x 60 A) (2 x 30 A) Each 150 VA Voltage/Current amplifier; can be split into 2 x 75 VA sources; total 4 sources |