TY - BOOK AU - Harrison,Giles TI - Meteorological Measurements and Instrumentation T2 - Advancing Weather and Climate Science SN - 9781118745793 AV - QC39 U1 - 551.6 PY - 2014/// CY - Hoboken PB - Wiley KW - Meteorology KW - Observations KW - Measurement KW - Meteorological instruments KW - Physical measurements KW - Scientific apparatus and instruments KW - SCIENCE KW - Earth Sciences KW - Geography KW - bisacsh KW - Geology KW - fast KW - Electronic books N1 - 5.5.5 Screen condition; Meteorological Measurements and Instrumentation; Contents; Series Foreword; Advancing Weather and Climate Science; Preface; Acknowledgements; Disclaimer; 1 Introduction; 1.1 The instrumental age; 1.2 Measurements and the climate record; 1.3 Clouds and rainfall; 1.4 Standardisation of air temperature measurements; 1.5 Upper air measurements; 1.5.1 Manned balloon ascents; 1.5.2 Self-reporting upper air instruments; 1.6 Scope and structure; 2 Principles of Measurement and Instrumentation; 2.1 Instruments and measurement systems; 2.1.1 Instrument response characterisation; 2.1.2 Measurement quality2.2 Instrument response time; 2.2.1 Response to a step change; 2.2.2 Response to an oscillation; 2.3 Deriving the standard error; 2.3.1 Sample mean; 2.3.2 Standard error; 2.3.3 Quoting results; 2.4 Calculations combining uncertainties; 2.4.1 Sums and differences; 2.4.2 Products and quotients; 2.4.3 Uncertainties from functions; 2.5 Calibration experiments; 3 Electronics and Analogue Signal Processing; 3.1 Voltage measurements; 3.2 Signal conditioning; 3.2.1 Operational amplifiers; 3.2.2 Operational amplifier fundamentals; 3.2.3 Signal amplification; 3.2.4 Buffer amplifiers3.2.5 Inverting amplifier; 3.2.6 Line driving; 3.2.7 Power supplies; 3.3 Voltage signals; 3.3.1 Electrometers; 3.3.2 Microvolt amplifier; 3.4 Current measurement; 3.4.1 Current to voltage conversion; 3.4.2 Photocurrent amplifier; 3.4.3 Logarithmic measurements; 3.4.4 Calibration currents; 3.5 Resistance measurement; 3.5.1 Thermistor resistance measurement; 3.5.2 Resistance bridge methods; 3.6 Oscillatory signals; 3.6.1 Oscillators; 3.6.2 Phase-locked loops; 3.6.3 Frequency to voltage conversion; 3.7 Physical implementation; 4 Data Acquisition Systems and Initial Data Analysis4.1 Data acquisition; 4.1.1 Count data; 4.1.2 Frequency data; 4.1.3 Interval data; 4.1.4 Voltage data; 4.1.5 Sampling; 4.1.6 Time synchronisation; 4.2 Custom data logging systems; 4.2.1 Data acquisition cards; 4.2.2 Microcontroller systems; 4.2.3 Automatic Weather Stations; 4.3 Management of data files; 4.3.1 Data logger programming; 4.3.2 Data transfer; 4.3.3 Data file considerations; 4.4 Preliminary data examination; 4.4.1 In situ calibration; 4.4.2 Time series; 4.4.3 Irregular and intermittent time series; 4.4.4 Further data analysis; 5 Temperature5.1 The Celsius temperature scale; 5.2 Liquid in glass thermometry; 5.2.1 Fixed interval temperature scales; 5.2.2 Liquid-in-glass thermometers; 5.3 Electrical temperature sensors; 5.3.1 Thermocouple; 5.3.2 Semiconductor; 5.3.3 Thermistor; 5.3.4 Metal resistance thermometry; 5.4 Resistance thermometry considerations; 5.4.1 Thermistor measurement; 5.4.2 Platinum resistance measurement; 5.5 Thermometer exposure; 5.5.1 Radiation error of air temperature sensors; 5.5.2 Thermometer radiation screens; 5.5.3 Radiation errors on screen temperatures; 5.5.4 Lag times in screen temperatures N2 - This book describes the fundamental scientific principles underlying high quality instrumentation used for environmental measurements. It discusses a wide range of in situ sensors employed in practical environmental monitoring and, in particular, those used in surface based measurement systems. It also considers the use of weather balloons to provide a wealth of upper atmosphere data. To illustrate the technologies in use it includes many examples of real atmospheric measurements in typical and unusual circumstances, with a discussion of the electronic signal conditioning, data acquisition co UR - http://onlinelibrary.wiley.com/book/10.1002/9781118745793 ER -