These application notes are relevant to both off-the-shelf and custom integration for imaging, as well as non-imaging systems. Please feel free to discuss any of the content in these notes or any other integration questions with our Applications Engineers.
DEFINING THE APPLICATION
The first step to solving any optical problem is to assess the application. What am I trying to accomplish? For an optical system it is important to first determine whether you need an imaging system or non-imaging system because the performance requirements are different for each type.
Imaging System
Imaging systems transfer a representation of the object to a detector, such as a camera or your eye. Some examples of imaging systems are: electronic imaging for inspection, image projection systems and relay systems. The goal of an imaging system is to provide sufficient image quality to enable extraction of desired information about the object from the image. Note that what may be adequate image quality for one application may prove inadequate in another. Some of the components of imaging quality are resolution, image contrast, perspective errors, geometric errors (such as distortion) and depth of field.
Non-Imaging System
Non-imaging systems collect, disperse, resize, focus, or collimate light. Some examples of non-imaging systems are: illumination projection, fiber coupling and laser projection. The performance of a non-imaging system can be quantified by its throughput, field efficiency, spot size (focusing systems) and angular resolution. Throughput is a measure of the energy transmitted through the lens system. Field efficiency is the system's ability to accommodate a large detector area or source size. Angular resolution is generally used to specify the minimum angular separation needed between two objects in order for the lens system to resolve them. Spot size is used to evaluate a focusing lens's performance.
The next step is to determine the primary parameters of your system. Then, you can begin a design form for your application. Below are the primary parameters defined.
Conjugate Distances
The distance from the lens to the object/source (object distance) and the distance from the lens to the detector/image (image distance). For example, in an infinite conjugate design one of these distances approaches infinity.
Conjugate Sizes
The size of the object/source (object size) and the size of the detector/image plane (image size). For example, in systems with an infinite conjugate, the conjugate "size" can be expressed as an angle.
Numerical Aperture (NA) and F-Number (F/#)
A measure of the cone of light accepted or emitted by the lens system.
Resolution and Spot Size
In imaging system terms, this refers to the smallest feature of an object distinguishable by the system. (This value may be magnification limited or diffraction limited). In non-imaging systems, spot size is a way to characterize the performance needed. Infinite conjugate systems are often defined in terms of angular resolution.
