The Story
Publishers Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product.MAKE OPTICAL MEASUREMENTS WITH MAXIMUM ACCURACY AND MINIMUM COSTPhoto detection and measurement techniques are used by engineers and physicists to characterize optical devices and systems. Characterizing numerically describing a devices performance is vital to the design and analysis of fiber optics, laser systems, and optoelectronic circuitry. As more and more of electronics are becoming optoelectronic (because light moves faster then electricity) the art of taking accurate, inexpensive optical measurements has become very important to EEs across the board.This is a practical engineering tutorial on making accurate and effective measurements without spending a fortune by using equipment commonly available in labs and companies. It considers the full chain of equipment: photo detectors, amplifiers, LED sources, electronic drives, basic optics, interference screens, and data acquisition systems. MathCAD will be used for frequency plots throughout.
Description
Publishers Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product.MAKE OPTICAL MEASUREMENTS WITH MAXIMUM ACCURACY AND MINIMUM COSTPhoto detection and measurement techniques are used by engineers and physicists to characterize optical devices and systems. Characterizing numerically describing a devices performance is vital to the design and analysis of fiber optics, laser systems, and optoelectronic circuitry. As more and more of electronics are becoming optoelectronic (because light moves faster then electricity) the art of taking accurate, inexpensive optical measurements has become very important to EEs across the board.This is a practical engineering tutorial on making accurate and effective measurements without spending a fortune by using equipment commonly available in labs and companies. It considers the full chain of equipment: photo detectors, amplifiers, LED sources, electronic drives, basic optics, interference screens, and data acquisition systems. MathCAD will be used for frequency plots throughout.
