KEPCO BOP-HV User Manual
Operator’s manual, Kepco, High voltage bipolar power supply
MODEL
OPERATOR’S MANUAL
IMPORTANT NOTES:
1)
This manual is valid for the following Model and associated serial numbers:
MODEL
SERIAL NO.
REV. NO.
2)
A Change Page may be included at the end of the manual. All applicable changes and
revision number changes are documented with reference to the equipment serial num-
bers. Before using this Instruction Manual, check your equipment serial number to identify
your model. If in doubt, contact your nearest Kepco Representative, or the Kepco Docu-
mentation Office in New York, (718) 461-7000, requesting the correct revision for your
particular model and serial number.
3)
The contents of this manual are protected by copyright. Reproduction of any part can be
made only with the specific written permission of Kepco, Inc.
Data subject to change without notice.
KEPCO
®
THE POWER SUPPLIER™
KEPCO, INC. z 131-38 SANFORD AVENUE z FLUSHING, NY. 11355 U.S.A. z TEL (718) 461-7000 z FAX (718) 767-1102
email: [email protected] z World Wide Web: http://www.kepcopower.com
KEPCO INC.
An ISO 9001 Company.
©2011, KEPCO, INC
P/N 228-1733-b
HIGH VOLTAGE BIPOLAR
POWER SUPPLY
BOP 500M, BOP 500DM
BOP 1000M, BOP 1000DM
POWER SUPPLY
Document Outline
- SECTION 1 - INTRODUCTION
- SECTION 2 - INSTALLATION
- SECTION 3 - OPERATION
- FIGURE 1-1. BOP (High Voltage) Operational Power Supply
- SECTION 1 - INTRODUCTION
- 1.1 Scope of Manual
- 1.2 General Description
- 1.3 Electrical Specifications, General
- 1.4 Electrical Specifications, Performance
- TABLE 1-1. Output Ranges and Impedance
- TABLE 1-2. Output Effects, Offsets and Reference Specifications
- TABLE 1-3. Dynamic Specifications
- 1.5 Miscellaneous Features
- FIGURE 1-2. BOP Output Characteristic
- FIGURE 1-3. BOP Output Waveform with Phase Shift
- 1.6 Mechanical Specifications
- 1.7 Accessories
- FIGURE 1-4. Mechanical Outline Drawing, BOP – HV
- SECTION 2 - INSTALLATION
- 2.1 Unpacking And Inspection
- 2.2 Terminations
- TABLE 2-1. Internal Calibration Controls
- FIGURE 2-1. Location of Internal Calibration Controls
- FIGURE 2-2. BOP Terminations and Controls
- TABLE 2-2. BOP Terminations and Controls
- 2.3 A-C Power Input Requirements
- FIGURE 2-3. A-C Source Voltage Selector, Location
- 2.4 Cooling
- 2.5 Preliminary Checkout
- FIGURE 2-4. Rear Programming Connector Wired For Front Panel Operation
- 2.6 Installation
- FIGURE 2-5. Rack Installation of the BOP
- SECTION 3 - OPERATION
- 3.1 Introduction
- FIGURE 3-1. BOP Voltage Control Channel
- FIGURE 3-2. BOP Current Control Channel
- FIGURE 3-3. BOP (±) Voltage Limiting Circuit
- FIGURE 3-4. BOP (±) Current Limiting Circuit
- FIGURE 3-5. Basic 2-Wire Load Connection and Grounding Connections Between the BOP and the Load
- FIGURE 3-6. Load Connection with Error Sensing and Grounding Connections Between the BOP and the Load
- 3.2 BOP Operation with Local (Front Panel) Output Control
- 3.2.1 Voltage Mode Operation with Current Limiting
- 3.2.2 Current Mode Operation with Voltage Limiting
- 3.3 BOP Operation with Remote Control of the Voltage Control Channel
- 3.3.1 Remote D-C Output Voltage Control By Resistance
- FIGURE 3-7. Remote Potentiometer Control of the BOP D-C Output Voltage
- FIGURE 3-8. Remote D-C Output Voltage Control By Means of a Two Terminal Resistance (Decade)
- 3.3.2 Remote D-C Voltage Control By Means of D-C Signal Voltage
- FIGURE 3-9. Digital Control of the BOP D-C Output Voltage
- FIGURE 3-10. BOP D-C Output Voltage Control with a High Impedance, (±) 1V Signal Source
- 3.3.3 The BOP as an Amplifier
- FIGURE 3-11. Graphs of Possible BOP Input/Output Waveshapes
- FIGURE 3-12. Basic Programming Circuit for Use of the BOP as a Bipolar Amplifier (Voltage Mode)
- FIGURE 3-13. Programming Circuit for Driving the BOP Output Voltage with a Bipolar (±1V) Signal
- 3.4 BOP Operation with Remote Control of the Current Control Channel
- FIGURE 3-14. Programming Circuit for Driving the BOP Output Voltage with a High Impedance Source, Using the Non-inverting Input of the Pre-amplifier
- FIGURE 3-15. Local (Front Panel) Control of the BOP Output Current with the Bipolar Current Control
- 3.4.1 Remote Control of the Bop Current Channel
- FIGURE 3-16. Remote Potentiometer Control of the BOP Output Current
- FIGURE 3-17. Remote Output Current Control By Means of a Two Terminal Resistance
- FIGURE 3-18. Digital Control of the BOP Output Current
- FIGURE 3-19. BOP Output Current Control with a High Impedance (±) 1 Volt Signal Source
- FIGURE 3-20. Basic Programming Circuit for Use of the BOP as a Bipolar Current Stabilized Amplifier
- FIGURE 3-21. Programming Circuit for Driving the BOP Output Current with a Bipolar Signal Less Than ±10V (Example Shown: ±1V Source)
- FIGURE 3-22. Programming Circuit for Driving the BOP Output Current with a High Impedance Source
- 3.4.2 Remote Control of the Bop Current Limit
- FIGURE 3-23. Local (Front Panel) Control of the BOP Current Limit Circuits
- FIGURE 3-24. Symmetrical Remote Control of the BOP Current Limits
- FIGURE 3-25. Independent Remote Control of the BOP (+) IO and (–) IO Limits
- 3.4.3 Remote Control of the BOP Voltage Limit
- FIGURE 3-26. Local (Front Panel) Control of the BOP Voltage Limit Circuits
- FIGURE 3-27. Symmetrical Remote Control of the BOP Voltage Limit Circuit
- FIGURE 3-28. Independent Remote Control of the BOP Voltage Limit Circuits