Test & Measurement
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Spin mode is a dynamic mode intended to provide a simulation of a spinning satellite.
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Enhanced Eclipse mode is a dynamic mode that allows the user to easily program and initiate an eclipse event with total control over all of the V-I curve parameters and dwell times.
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Operates with Sequential Shunt Regulators and Maximum Power Point Trackers
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Multiple redundant OVP/OIP layers
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Precise programming of voltage and current slew rate for sensitive loads.
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Industrial field bus interface (Modbus-TCP, Modbus-RTU, Ethernet) enable real-time digital control.
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Built in power quality monitoring detects and saves input voltage anomalies which can be saved for later diagnostic analysis.
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Programmable analog interface scaling facilitates integrating the ASD FLX with existing systems easily.
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Built-in energy meter calculates the delivered energy throughout a process or period of time.
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Optional real time clock enables accurate timestamping of events.
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Precise programming of voltage and current slew rate for sensitive loads.
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Modules within one chassis can be connected to different loads and controlled independently.
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Industrial field bus interface (Modbus-TCP, Modbus-RTU, Ethernet/IP (Industrial Protocol)) enable real-time digital control.
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Built-in energy meter calculates the delivered energy throughout a process or period of time.
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Optional real time clock enables accurate timestamping of events.
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Built in power quality monitoring detects and saves input voltage anomalies which can be saved for later diagnostic analysis.
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Programmable analog interface scaling facilitates incorporating the ASD to existing systems with minimal effort.
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Load impedance measurement, including rate-of-change calculations, enable load "state of health" monitoring and implementation of system preventive maintenance algorithms
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Programmable filter bandwidth of the output voltage, current and power monitors let the user accommodate their response speed to particular needs.
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Full featured GUI (Graphical User Interface) helps to test and debug the system by communicating with the power supply in real time.
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3 independent, isolated 600W channels
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Total power density up to 1800W in a 1U chassis
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4 autoranging output channel options
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Intuitive color touch panel control
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Multi-language display for global operation
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Multi-channel programmable sequencing, ramps and delays
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Active power factor correction (PFC)
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Standard LXI LAN, USB, and RS232 interfaces
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Optional GPIB interface
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Full remote control via Virtual Panels™
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Three independent, isolated 1,700W channels, 5,100W total
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1U rack-mount chassis
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Eight output options
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Multi-language, intuitive, color touch panel control
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Global 3-Phase AC Input options for system phase balancing
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Active power factor correction (PFC)
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Multi-channel programmable sequencing, ramps, and delays
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Full remote control via Virtual Panels™ GUI
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Standard LXI Ethernet, USB and RS232 control interfaces
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Optional GPIB control interface or isolated analog programming
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High power density in a 1U chassis (up to 5 kW) or a 2U chassis (up to 10 kW)
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Intuitive touch panel control
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Available in either Fixed or Autoranging output
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Multi-language display for global operation
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Auto paralleling for higher power
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Full remote control via Virtual Panels™
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Energy absorber with a rating of 400VDC at ±150A
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Provides up to 400V at 150A for 60kW of output power.
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Energy Absorber Load chassis creates a total resistance of approximately 1.5 Ohms at 30kW continuous and 60kW peak
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High power density / low ripple and noise
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High programming resolution with Ethernet interface
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Constant voltage and current mode
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Remote sensing
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Isolated analog control and monitoring (optional)