K. Iwansson, G. Sinapius, W. Hoornaert, S. Middelhoek9780444720016, 0-444-72001-4
The measurement of voltages and currents is a common task in the field of electricity and electronics. From a technical point of view it is useful to identify schematically different steps of such a measurement. In a first step a voltage or a current is sensed, intermediate steps such as amplification, transmission and further treatment may follow to yield the result in the final step. Today in most cases microprocessors perform the final steps of such measurements. Analog-to digital converters digitise a voltage that is proportional to the value to be measured and a processor performs further computations and handles the storage and the display of the results. The prerequisite for such measurements are sensors or transducers that respond in a known way to the voltage or current to be measured. The emphasis of this book is put on recent developments of the instrumentation for sensing voltages and currents.
Aside from the general trend towards smaller, cheaper and more reliable instrumentation, new demands have arisen. New applications, like measurements of biocurrents, ask for higher sensitivities. Computers and integrated circuits pose new challenges. To exploit the increased speed of the components for data taking, suitable sensors are required. The accuracy that can be achieved depends more than ever on the first step, the acquisition of the raw data. The influence of the measurement process on the results becomes more crucial. Testing of integrated circuits themselves is a completely new application. For such tests one has to measure rapid voltage and current variations on very small geometrical scales. Here, as well as in the traditional high voltage applications, contactless measurements play an important role.
The organisation of this book is as follows: In the first chapter different methods to sense voltages and currents are described. For the sake of completeness most commonly used methods are mentioned, we concentrate, however, on those developed recently. The chapters address the subject from the side of different applications in which voltages and currents are sensed.
Since the main purpose of this publication is to illustrate commonly employed techniques rather than to track the scientific evolution and merits in particular fields, in general those publications that illustrate a particular measurement principle best have been cited. The citation of a particular reference does therefore not imply that this is the first or most pertinent publication in the respective field.
Table of contents :
Measuring Current, Voltage and Power……Page 4
Copyright Page……Page 5
Preface……Page 10
Table of Contents……Page 14
1.0 INTRODUCTION……Page 18
1.1 VOLTAGE SENSORS……Page 19
1.2 CURRENT SENSORS……Page 46
2.1 MEASURING HIGH VOLTAGES……Page 84
2.2 MEASURING HIGH CURRENTS……Page 113
3.1 INTRODUCTION……Page 124
3.2 SHIELDING CURRENT TRANSDUCERS……Page 125
3.3 INTERFERENCE AND SHIELDING……Page 127
4.1 INTRODUCTION……Page 140
4.2 MEASURING PRINCIPLES……Page 143
4.3 COMPONENTS OF POWER……Page 184
4.4 SPECIAL APPLICATIONS……Page 188
5.1 MEASURING PRINCIPLES……Page 196
5.2 INTEGRATING TECHNIQUES……Page 199
5.3 FEATURES OF ENERGY METERS……Page 205
5.4 PROBLEMS WITH POWER AND ENERGY METERS……Page 214
List of cited documents……Page 216
Index……Page 232
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