BK Precision XLN10014 High Power Programmable DC Power Supply, 100V 14.4A 1440W
BK Precision XLN10014 High Power Programmable DC Power Supply 100V 14.4A 1440W
Product Overview
The BK Precision XLN10014 is a compact, programmable, single-output DC power supply, suitable for a wide range of applications. Comparable supplies from other manufacturers primarily address the ATE market, while the BK Precision XLN10014 is designed for both bench top users and system integrators.
For benchtop applications, these power supplies offer built-in voltage and current meters displaying setting and output values concurrently, as well as an intuitive user interface with full keypad and rotary knob.
Standard USB, RS485, and optional GPIB and LAN interfaces combined with fast average command processing times of less than 50 ms make the XLN series ideal for ATE applications. Free application software and a complete set of LabVIEW™ drivers are available to provide remote control capabilities, reduce programming time, and increase productivity.
When greater output power is required, up to four XLN models can be connected in series (high current models only) or parallel and synchronized with the RS485 interface. Alternatively, the RS485 interface can be used to daisy chain up to 31 units and to remotely control them from one master PC via USB, GPIB, or LAN interface.
These power supplies are perfectly suited for ATE systems integration, product design and development, product QC and burn-in testing, and other applications requiring excellent regulation, high power, low noise, and a wide range of voltage and current ratings.
Product Overview
The BK Precision XLN10014 is a compact, programmable, single-output DC power supply, suitable for a wide range of applications. Comparable supplies from other manufacturers primarily address the ATE market, while the BK Precision XLN10014 is designed for both bench top users and system integrators.
For benchtop applications, these power supplies offer built-in voltage and current meters displaying setting and output values concurrently, as well as an intuitive user interface with full keypad and rotary knob.
Standard USB, RS485, and optional GPIB and LAN interfaces combined with fast average command processing times of less than 50 ms make the XLN series ideal for ATE applications. Free application software and a complete set of LabVIEW™ drivers are available to provide remote control capabilities, reduce programming time, and increase productivity.
When greater output power is required, up to four XLN models can be connected in series (high current models only) or parallel and synchronized with the RS485 interface. Alternatively, the RS485 interface can be used to daisy chain up to 31 units and to remotely control them from one master PC via USB, GPIB, or LAN interface.
These power supplies are perfectly suited for ATE systems integration, product design and development, product QC and burn-in testing, and other applications requiring excellent regulation, high power, low noise, and a wide range of voltage and current ratings.
Additional Features:
- Output Voltage: 0-100 V
- Output Current: 0-14.4 A
- Output Power: 1440 W
- Compact, high density, 1U package
- USB interface (standard) and GPIB & LAN (optional)
- External analog programming interface
- List mode: Execute 150 step test sequences from instrument memory
- Average command processing time < 50 ms
- Programmable voltage and current slew rate allow for "soft starting" of loads
- 5 V/1 A fixed output for auxiliary circuitry
- Built-in precise voltage and current measurements
- Internal memory stores up to 10 instrument settings
- Extensive protection features OVP, OCP, OPP and key-lock function
- Easy to configure master/slave mode for series & parallel connection of up to 4 units
- Control up to 31 power supplies from one PC via the RS485 interface
- Remote sense
- 100-240 V universal AC input with power factor correction
- High power output connector for quick and safe connectivity
- Timer-controlled output (1 s to 100 hr)
- Front to rear airflow allows for efficient cooling in high rack density environments