Television – Special applications – Microscope
Reexamination Certificate
1999-09-03
2002-08-13
Rao, Andy (Department: 2713)
Television
Special applications
Microscope
C348S079000, C348S080000
Reexamination Certificate
active
06433814
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a TV camera for microscopic or macroscopic images.
TV cameras in a great variety designs have been known in the art for many years. TV cameras are for example used on microscopes for transmitting images or recording them in mass storage.
In many applications, traditional light-optical microscopes are not adequate. Particularly in the case of inspection tasks in the biomedical sphere, and also in the industrial sphere, for example in the semi-conductor industry when confocal systems are needed because of the parameters there, but are far too bulky for rapid and simple use, and are much too expensive in relation to the “quick” applications needed there.
Thus for example the inspection of thick biological fluorescence preparations is not possible with a conventional lens and a conventional TV camera from outside because of irradiation, since the light coming from the focus of interest is irradiated. The use of conventional confocal systems required here is however too complex for the simple images and documentation required. Standard TV systems with deconvolution are likewise expensive, work slowly and are much too complicated to operate.
As regards the state of the art in respect of confocal systems or microscopes, we refer merely by way of example to WO 91/15792, U.S. Pat. No. 5,537,247 and U.S. Pat. No. 5,535,052.
SUMMARY OF THE INVENTION
The function of the present invention is to design and develop a TV camera for microscopic and macroscopic images in such a way that confocal characteristics can be used in an extremely compact format, and that no confocal systems that are sophisticated and complicated to use are required in the case of the simple applications in question here.
Ultimately a TV camera with confocal characteristics is to be made available to the microscope user so that it can be used to deal with simple tasks wherever existing confocal systems are too expensive to use and too complicated to operate. Such a TV camera is appropriate wherever quick and simple use is desirable, as in the case of biomedical inspection tasks or in the field of industry.
In the biomedical field, the user benefits from the confocal characteristic particularly from the fact that very good images are possible even with simpler preparations and thicker sections, especially images of the neighboring areas that are not disturbed by the preparation or the section.
The TV camera based on the object of the invention for microscopic or macroscopic images solves the task in hand through the features of patent claim
1
, whereby the TV camera mentioned above is characterized by a confocal lens with a laser light source, a scanner, a detector and an electronic control unit.
In the device disclosed it has been recognized that the advantages known from confocal microscopy can be combined for simplicity of use in a TV camera, namely by reducing the confocal system to the functionality of a TV camera. The confocal TV camera accordingly includes a confocal lens with a single laser light source, a scanner, a detector and an electronic control unit, the camera being preferably characterized by a solid-state structure within the camera housing. This design is split into a few precision adjustment modules, namely modules relating to the stimulus or light source, the detector and the scanner. The various components can be glued into the camera housing.
It would also be particularly advantageous, especially having regard to the widest possible range of applications, for the lens as a whole to function polyfocally, whilst such functionality is not absolutely essential.
The laser light source includes at least one diode laser, the diode laser being a compact light source. Expensive coupling mechanisms are at all events not required in this case, because of the integral compact light source.
It is also advantageous if a diode laser combination is used as light source, namely both for monochrome and multi color fluorescence and for reflection. This also results in an overall compact light source, so that to this extent also no complex mechanisms are necessary to connect an external light source.
The individual diode lasers can be connected to an xy scanner by means of an adjusting connector with beam expander through a pinhole lens, a particularly important feature of which is that the laser light source as a whole is arranged to be adjustable. It is therefore not necessary to adjust the preceding pinhole or the detector or detector block discussed later.
Fixed filters can also be mounted after the laser light source, tuned to the laser, depending on the particular application. This also makes it simple to operate the camera.
In addition to the internal laser light source of the TV camera, the TV camera could further advantageously include an additional fibre input for connecting an external laser, preferably large, through fibre optic cables, especially for universal use; this external laser could advantageously be used for irradiation detection. Ultimately this measure creates mechanical decoupling of larger lasers, namely by fibre connection, so that an ArKr laser could for example link in via the fibre input, indirectly and mechanically decoupled.
An additional input could also be provided for directly connecting a further laser, for connecting an external laser that cannot be connected with fibers. This possibility is also provided by the second additional input that further increases the universal useability of the TV camera.
Insofar as the internal lasers have a laser power of more than 1 mW, special safety measures are advantageous and possibly necessary. In this regard the eyepiece is fitted with a cover to protect the operators. The laser also switches off automatically when the cover closes, further enhancing the level of safety.
The scanner used in the camera is designed on the lines of a point beam scanning mechanism, specifically an xy scanner, namely an xy PHI scanner.
It is particularly advantageous if the image can be rotated for purposes of adjusting or positioning the image, and especially for investigating or measuring the image in the case of structures in various orientations or viewed from various angles. A rotating camera adaptor can be provided on a mechanical basis for this purpose that serves for example for connecting to a microscope. To this extent the image can be mechanically turned or rotated, representing an extremely simple design.
It is also possible for a scanning lens and an optical arrangement for image rotation to be fitted after the scanner. It is also possible for. the scanner to include an integral arrangement for image rotation. This optical arrangement for image rotation may involve prisms of various forms. The arrangement for image rotation could also be in the form of a mirror arrangement, for example in the form of “K” mirrors.
The mirrors used as part of the mirror arrangement, and also the other mirrors used in the camera can have a planar mirror surface. But another option is for the mirrors to be in the form of a mirror surface in the form of a concave mirror, for example for imaging on a pinhole.
To make the camera universally useable, it is also advantageous if the scanning lens or the eyepiece can be exchanged for fitting to microscopes of different manufacturers. To that extent the camera can be connected to any microscope system from various manufacturers, ensuring a high degree of compatibility with microscopes of various manufacturers.
With respect to a specific practical detector design, it is advantageous if the detector is in the form of a multi color detector for reflection or fluorescence. The detector can also be in the form of a spectrometer or a multi band detector.
In one particularly advantageous configuration, the detector comprises a three color detector block with photo multipliers and color filters, which can involve a solid-state detector block. This detector block is permanently mounted in the camera housing.
A detection pinhole could on the other hand be permanently mounted in the dete
Engelhardt Johann
Hoppe Martin
Leica Microsystems Heidelberg GmbH
Rao Andy
Simpson & Simpson PLLC
LandOfFree
TV camera does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with TV camera, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and TV camera will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-2955293