Search Results - "fiber optics"

Cabling Part 1 : LAN/Data center networks and cabling systems / by Oliviero, Andrew, 1966-

Subjects:

Cabling Part 1 : LAN/Data center networks and cabling systems / by Oliviero, Andrew, 1966-

Subjects:

Optical and microwave technologies for telecommunication networks / by Strobel, Otto, 1950-

Table of Contents: “…Optical and microwave fundamentals -- Optical fibers -- Fiber-manufacturing, cabling and coupling -- Integrated-optic components -- Optical light sources and drains -- Optical transmitter- and receiver circuit design -- Fiber-optic amplifiers -- Fiber- and wireless-optic data transmission -- Last mile systems, in-house-networks, LAN- and MAN-applications -- Optical data-bus and microwave systems for automotive application in vehicles and airplanes and vessels.…”
An electronic book accessible through the World Wide Web; click to view

Optical and microwave technologies for telecommunication networks / by Strobel, Otto, 1950-

Table of Contents: “…Optical and microwave fundamentals -- Optical fibers -- Fiber-manufacturing, cabling and coupling -- Integrated-optic components -- Optical light sources and drains -- Optical transmitter- and receiver circuit design -- Fiber-optic amplifiers -- Fiber- and wireless-optic data transmission -- Last mile systems, in-house-networks, LAN- and MAN-applications -- Optical data-bus and microwave systems for automotive application in vehicles and airplanes and vessels.…”
An electronic book accessible through the World Wide Web; click to view

Fundamentals of electro-optic systems design communications, lidar, and imaging / by Karp, Sherman

An electronic book accessible through the World Wide Web; click to view

Fundamentals of electro-optic systems design communications, lidar, and imaging / by Karp, Sherman

An electronic book accessible through the World Wide Web; click to view

Polymeric sensors and actuators by Fink, Johannes Karl

Table of Contents: “…Humidity Sensors 77 4.1 Calibration 78 4.2 Capacitive Humidity Sensors 78 4.3 Resistance Type Humidity Sensors 81 4.4 Bragg Grating Sensor 87 4.5 Fiber Optic Sensor 92 4.6 Surface Acoustic Wave Based Sensors 92 4.7 Microwave Oven Humidity Sensors 96 5. …”
An electronic book accessible through the World Wide Web; click to view

Polymeric sensors and actuators by Fink, Johannes Karl

Table of Contents: “…Humidity Sensors 77 4.1 Calibration 78 4.2 Capacitive Humidity Sensors 78 4.3 Resistance Type Humidity Sensors 81 4.4 Bragg Grating Sensor 87 4.5 Fiber Optic Sensor 92 4.6 Surface Acoustic Wave Based Sensors 92 4.7 Microwave Oven Humidity Sensors 96 5. …”
An electronic book accessible through the World Wide Web; click to view

Aerospace sensors by Nebylov, A. V. (Aleksandr Vladimirovich)

Table of Contents: “…Gyroscopic devices and sensors -- 6.1 Introduction -- 6.1.1 Preliminary remarks -- 6.1.2 Classification of gyros -- 6.1.3 Gyroscopic instruments -- 6.1.4 Positional gyros -- 6.1.5 The vertical (or horizontal) gyro -- 6.1.6 Orbit gyro -- 6.1.7 Single degree of freedom (SDF) gyros -- 6.1.8 Gyro stabilizers -- 6.1.9 Gyroscopic instruments in aeronavigation -- 6.1.10 Inertial navigation systems (INS) -- 6.1.10.1 Types of INS -- 6.1.10.2 Strapdown INS -- 6.1.11 The scope of gyros and gyro instruments of various types -- 6.2 Single degree of freedom (SDF) gyros -- 6.2.1 The solid rotor SDF gyro -- 6.2.2 The integrating gyro -- 6.2.3 Rate of speed gauging -- 6.2.3.1 Feedback contours of the angular rate gauge -- 6.2.3.2 Design variants -- 6.3 The TDF gyro in gimbal mountings -- 6.3.1 Properties of a free gyro -- 6.3.2 Areas of application, design features, and error sources -- 6.3.3 Two-component angular speed measuring instruments -- 6.4 The gyroscopic integrator for linear acceleration (GILA) -- 6.4.1 Principles of GILA operation -- 6.4.2 Sources of GILA errors -- 6.5 Contactless suspension gyros -- 6.5.1 Introduction -- 6.5.2 The electrostatic gyroscope (ESG) -- 6.5.2.1 ESG accuracy -- 6.5.2.2 The ESG rotor -- 6.5.2.3 The rotor electrostatic suspension -- 6.5.2.4 Angular rotor position readout -- 6.5.3 Conclusion -- 6.6 The fiber optic gyro (FOG) -- 6.6.1 The interferometric fiber optic gyro (IFOG) -- 6.6.1.1 The basic IFOG scheme and the Sagnac effect -- 6.6.1.2 Open-loop operation -- 6.6.1.3 Closed-loop operation -- 6.6.1.4 Fundamental limitations -- 6.6.1.5 The multiple-axis IFOG -- 6.6.1.6 The depolarized IFOG -- 6.6.1.7 Applications of the IFOG -- 6.6.2 The resonator fiber optic gyro (RFOG) -- 6.7 The ring laser gyro (RLG) -- 6.7.1 Introduction -- 6.7.2 Principle of operation -- 6.7.3 Frequency characteristics and mode-locking counter-rotating waves -- 6.7.4 The elimination of mode-locking in counter-rotating waves -- 6.7.5 Errors -- 6.7.6 Performance and application -- 6.7.7 Conclusion -- 6.8 Dynamically tuned gyros (DTG) -- 6.8.1 Introduction -- 6.8.2 Key diagrams and dynamic tuning -- 6.8.3 Operating modes -- 6.8.4 Disturbance moments depending on external factors and instrumental errors -- 6.8.5 Magnetic, aerodynamic, and thermal disturbance moments -- 6.8.6 Design, application, technical characteristics -- 6.8.7 Conclusion -- 6.9 Solid vibrating gyros -- 6.9.1 Introduction -- 6.9.2 Dynamic behavior of the ideal solid vibrating gyro -- 6.9.3 Operating modes of the solid vibrating gyro -- 6.9.4 The nonideal solid vibrating gyro -- 6.9.5 Control of the solid vibrating gyro -- 6.9.6 Axisymmetric-shell gyros -- 6.9.7 The HRG, history and current status -- 6.9.8 HRG design characteristics -- 6.9.9 Additional HRG references -- 6.10 Micromechanical gyros -- 6.10.1 Introduction -- 6.10.2 Operating principles -- 6.10.2.1 Linear-linear (LL-type) gyros -- 6.10.2.2 Rotary-rotary (RR-type) gyro principles -- 6.10.2.3 Fork and rod gyro principles -- 6.10.2.4 Ring gyro principles -- 6.10.3 Adjustment of oscillation modes in gyros of the LL and RR types -- 6.10.4 Design, application, and performance -- 6.10.4.1 Gyros of the LL and RR-type -- 6.10.4.2 Fork and rod gyros -- 6.10.4.3 Ring gyros -- 6.10.5 Conclusion -- References --…”
An electronic book accessible through the World Wide Web; click to view

Aerospace sensors by Nebylov, A. V. (Aleksandr Vladimirovich)

Table of Contents: “…Gyroscopic devices and sensors -- 6.1 Introduction -- 6.1.1 Preliminary remarks -- 6.1.2 Classification of gyros -- 6.1.3 Gyroscopic instruments -- 6.1.4 Positional gyros -- 6.1.5 The vertical (or horizontal) gyro -- 6.1.6 Orbit gyro -- 6.1.7 Single degree of freedom (SDF) gyros -- 6.1.8 Gyro stabilizers -- 6.1.9 Gyroscopic instruments in aeronavigation -- 6.1.10 Inertial navigation systems (INS) -- 6.1.10.1 Types of INS -- 6.1.10.2 Strapdown INS -- 6.1.11 The scope of gyros and gyro instruments of various types -- 6.2 Single degree of freedom (SDF) gyros -- 6.2.1 The solid rotor SDF gyro -- 6.2.2 The integrating gyro -- 6.2.3 Rate of speed gauging -- 6.2.3.1 Feedback contours of the angular rate gauge -- 6.2.3.2 Design variants -- 6.3 The TDF gyro in gimbal mountings -- 6.3.1 Properties of a free gyro -- 6.3.2 Areas of application, design features, and error sources -- 6.3.3 Two-component angular speed measuring instruments -- 6.4 The gyroscopic integrator for linear acceleration (GILA) -- 6.4.1 Principles of GILA operation -- 6.4.2 Sources of GILA errors -- 6.5 Contactless suspension gyros -- 6.5.1 Introduction -- 6.5.2 The electrostatic gyroscope (ESG) -- 6.5.2.1 ESG accuracy -- 6.5.2.2 The ESG rotor -- 6.5.2.3 The rotor electrostatic suspension -- 6.5.2.4 Angular rotor position readout -- 6.5.3 Conclusion -- 6.6 The fiber optic gyro (FOG) -- 6.6.1 The interferometric fiber optic gyro (IFOG) -- 6.6.1.1 The basic IFOG scheme and the Sagnac effect -- 6.6.1.2 Open-loop operation -- 6.6.1.3 Closed-loop operation -- 6.6.1.4 Fundamental limitations -- 6.6.1.5 The multiple-axis IFOG -- 6.6.1.6 The depolarized IFOG -- 6.6.1.7 Applications of the IFOG -- 6.6.2 The resonator fiber optic gyro (RFOG) -- 6.7 The ring laser gyro (RLG) -- 6.7.1 Introduction -- 6.7.2 Principle of operation -- 6.7.3 Frequency characteristics and mode-locking counter-rotating waves -- 6.7.4 The elimination of mode-locking in counter-rotating waves -- 6.7.5 Errors -- 6.7.6 Performance and application -- 6.7.7 Conclusion -- 6.8 Dynamically tuned gyros (DTG) -- 6.8.1 Introduction -- 6.8.2 Key diagrams and dynamic tuning -- 6.8.3 Operating modes -- 6.8.4 Disturbance moments depending on external factors and instrumental errors -- 6.8.5 Magnetic, aerodynamic, and thermal disturbance moments -- 6.8.6 Design, application, technical characteristics -- 6.8.7 Conclusion -- 6.9 Solid vibrating gyros -- 6.9.1 Introduction -- 6.9.2 Dynamic behavior of the ideal solid vibrating gyro -- 6.9.3 Operating modes of the solid vibrating gyro -- 6.9.4 The nonideal solid vibrating gyro -- 6.9.5 Control of the solid vibrating gyro -- 6.9.6 Axisymmetric-shell gyros -- 6.9.7 The HRG, history and current status -- 6.9.8 HRG design characteristics -- 6.9.9 Additional HRG references -- 6.10 Micromechanical gyros -- 6.10.1 Introduction -- 6.10.2 Operating principles -- 6.10.2.1 Linear-linear (LL-type) gyros -- 6.10.2.2 Rotary-rotary (RR-type) gyro principles -- 6.10.2.3 Fork and rod gyro principles -- 6.10.2.4 Ring gyro principles -- 6.10.3 Adjustment of oscillation modes in gyros of the LL and RR types -- 6.10.4 Design, application, and performance -- 6.10.4.1 Gyros of the LL and RR-type -- 6.10.4.2 Fork and rod gyros -- 6.10.4.3 Ring gyros -- 6.10.5 Conclusion -- References --…”
An electronic book accessible through the World Wide Web; click to view