Each chapter ends with Do It Yourself and Problems sections.; Preface: ; 1. LABVIEW PROGRAM DEVELOPMENT; 1.1 LabVIEW Programming Environment; 1.2 Blank VI; 1.3 Front-Panel Editing; 1.4 Block-Diagram Editing; 1.5 Program Execution; 1.6 Pop-Up Menu and Data-Type Representation; 1.7 Program Storage; 1.8 Quick Drop; 2. THE WHILE LOOP AND WAVEFORM CHART; 2.1 Programming Structures and Graphing Modes; 2.2 While Loop Basics; 2.3 Sine-Wave Plot Using a While Loop and Waveform Chart; 2.4 LabVIEW Help Window; 2.5 Front Panel Editing; 2.6 Waveform Chart Pop-Up Menu; 2.7 Finishing the Program; 2.8 Program Execution; 2.9 Program Improvements; 2.10 Data Types and Automatic Creation Feature; 3. THE FOR LOOP AND WAVEFORM GRAPH; 3.1 For Loop Basics; 3.2 Sine-Wave Plot Using a For Loop and Waveform Graph; 3.3 Waveform Graph; 3.4 Owned and Free Labels; 3.5 Creation of Sine Wave Using a For Loop; 3.6 Cloning Block-Diagram Icons 8; 3.7 Auto-Indexing Feature; 3.8 Running the VI; 3.9 X-Axis Calibration of the Waveform Graph; 3.10 Sine-Wave Plot Using a While Loop and Waveform Graph; 3.11 Front-Panel Array Indicator; 3.12 Debugging With the Probe-Watch Window and Error List; 4. THE MATHSCRIPT NODE AND XY GRAPH; 4.1 Mathscript Node Basics; 4.2 Quick Mathscript Node Example: Sine-Wave Plot; 4.3 Waveform Simulator Using a Mathscript Node and XY Graph; 4.4 Creating an XY Cluster 1; 4.5 Running the VI; 4.6 LabVIEW Mathscript Window; 4.7 Adding Shape Options Using an Enumerated Type Control; 4.8 Finishing the Block Diagram; 4.9 Running the VI; 4.10 Control and Indicator Clusters; 4.11 Creating an Icon Using the Icon Editor; 4.12 Icon Design; 4.13 Connector Assignment; 5. DATA ACQUISTION USING DAQ ASSISTANT; 5.1 Data Acquisition VIs; 5.2 Data Acquisition Hardware; 5.3 Analog Input Modes; 5.4 Range and Resolution; 5.5 Sampling Frequency and the Aliasing Effect; 5.6 Measurement & Automation Explorer (MAX); 5.7 Simple Analog Input Operation on a DC Voltage; 5.8 Digital Oscilloscope; 5.9 Analog Output; 5.10 DC Voltage Source; 5.11 Software-Timed Sine-Wave Generator; 5.12 Hardware-Timed Waveform Generator; 5.13 Placing a Custom-Made VI on a Block Diagram; 5.14 Completing and Executing Waveform Generator (Express); 5.15 Modified Waveform Generator; 6. DATA FILES AND CHARACTER STRINGS; 6.1 ASCII Text and Binary Data Files; 6.2 Storing Data in Spreadsheet-Formatted File; 6.3 Storing a One-Dimensional Data Array; 6.4 Transpose Option; 6.5 Storing a Two-Dimensional Data Array; 6.6 Controlling the Format of Stored Data; 6.7 The Path Constant and Platform Portability; 6.8 Fundamental File I/O VIs; 6.9 Adding Text Labels to a Spreadsheet File; 6.10 Backslash Codes; 7. SHIFT REGISTERS; 7.1 Shift Register Basics; 7.2 Quick Shift Register Example: Integer Sum; 7.3 Noise and Signal Averaging; 7.4 Noisy Sine VI; 7.5 Moving Average of Four Traces; 7.6 Modularity and Automatic SubVI Creation; 7.7 Moving Average of Arbitrary Number of Traces; 8. THE CASE STRUCTURE; 8.1 Case Structure Basics; 8.2 Quick Case Structure Example: Runtime Options Using Property Nodes; 8.3 State Machine Architecture: Guessing Game; 8.4 State Machine Architecture: Expressed VI-Based Digital Oscilloscope; 9. DATA DEPENDENCY AND THE SEQUENCE STRUCTURE; 9.1 Data Dependency and Sequences Structure Basics; 9.2 Event Timer Using a Sequence Structure; 9.3 Event Timer Using Data Dependency; 9.4 Highlight Execution; 10. ANALYSIS VIs: CURVE FITTING; 10.1 Thermistor Resistance-Temperature Data File; 10.2 Temperature Measurement Using Thermistors; 10.3 The Linear Least-Squares Method; 10.4 Inputting Data to a VI Using a Front-Panel Array Control; 10.5 Inputting Data to a VI by Reading from a Disk File; 10.6 Slicing Up a Multi-Dimensional Array; 10.7 Running the VI; 10.8 Curve Fitting Using the Linear Least-Squares Method; 10.9 Residual Plot; 10.10 Curve Fitting Using the Nonlinear Least-Squares Method; 11. ANALYSIS VIs: FAST FOURIER TRANSFORM; 11.1 Quick Fast Fourier Transform Example; 11.2 The Fourier Transform; 11.3 Discrete Sampling and the Nyquist Frequency; 11.4 The Discrete Fourier Transform; 11.5 The Fast Fourier Transform; 11.6 Frequency Calculator VI; 11.7 FFT of Sinusoids; 11.8 Applying the FFT to Various Sinusoidal Inputs; 11.9 Magnitude of Complex-Amplitude; 11.10 Observing Leakage; 11.11 Windowing; 11.12 Estimating Frequency and Amplitude; 11.13 Aliasing; 12. DATA ACQUISITION AND GENERATION USING DAQMX VIs; 12.1 DAQmx VI Basics; 12.2 Simple Analog Input Operation on a DC Voltage; 12.3 Digital Oscilloscope; 12.4 Express VI Automatic Code Generation; 12.5 Limitations of Express VIs; 12.6 Improving Digital Oscilloscope Using State Machine Architecture; 12.7 Analog Output Operations; 12.8 Waveform Generator; 13. CONTROL OF STAND-ALONE INSTRUMENTS; 13.1 Instrument Control using VISA VIs; 13.2 The VISA Session; 13.3 The IEEE 488.2 Standard; 13.4 Common Commands; 13.5 Status Reporting; 13.6 Device-Specific Commands; 13.7 Specific Hardware Used In This Chapter; 13.8 Measurement & Automation Explorer (MAX); 13.9 Simple VISA-Based Query Operation; 13.10 Message Termination; 13.11 Getting and Setting Communication Properties Using a Property Node; 13.12 Performing a Measurement over the Interface Bus; 13.13 Synchronization Methods; 13.14 Measurement VI Based on the Serial Poll Method; 13.15 Measurement VI Based on the Service Request Method; 13.16 Creating an Instrument Driver; 13.17 Using the Instrument Driver to Write an Application Program; APPENDIX A. FORMULA NODE PROGRAMMING FOR CHAPTER 4; A.1 Formula Node Basics; A.2 Quick Formula Node Example: Sine-Wave Plot (Section 4.2); A.3 Formula Node-Based Waveform Simulator (Sections 4.3-4.4); A.4 Formula Node-Based Waveform Simulator (Section 4.8); A.5 Formula Node-Based Waveform Simulator (Section 4.10); APPENDIX B. MATHEMATICS OF LEAKAGE AND WINDOWING; B.1 Analytic Description of Leakage; B.2 Description of Leakage Using the Convolution Theore; APPENDIX C. PID TEMPERATURE CONTROL PROJECT; C.1 Project Description; C.2 Voltage-Controlled Bidirectional Current Driver for Thermoelectric Device; C.3 PID Temperature Control Algorithm; C.4 PID Temperature Control System; C.5 Construction of Temperature Control System; Index:
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