Patent application number | Description | Published |
20090129032 | MODULAR SYSTEM CONTROLLED ACCORDING TO POWER REQUIREMENTS - The invention relates to a modular system comprising a primary module, several individual modules that can be connected to said primary module and a power supply unit that is connected to the primary module and supplies the connected individual modules with a voltage. According to the invention, the system is equipped with a descriptor element for each individual module. The descriptor element is read by the primary module and encodes or displays the power requirements of the assigned individual module. The primary module reads the descriptor elements of the connected individual modules and uses said elements to determine the total power requirements of the modular system, or of all connected individual modules. | 05-21-2009 |
20090250627 | ARRANGEMENT FOR PROCESSING SIGNALS AT THE OUTPUT OF A MULTICHANNEL DETECTOR - An arrangement for signal processing at the output of a multichannel detector in the spectrally resolved acquisition of time-variable fluorescence phenomena in a microscope, particularly lifetime measurements, is characterized in that an FPGA (free programmable gate array) is arranged downstream of the output of the multichannel detector. | 10-08-2009 |
20100208339 | MICROSCOPE AND METHOD FOR OPERATING A MICROSCOPE - The invention relates to a method for operating a microscope in which excitation light is focused on, or beamed to, different points of a specimen, in which an intensity of the excitation light is point-specifically varied and in which an intensity of the light reflected by said specimen in at least one spectral range is measured point-specifically and quantitatively. The method according to the invention is characterized in that the intensity and/or a spectral composition of the excitation light beamed to a specific point of said specimen is automatically adjusted by a regulating device on the basis of information previously gained from measured data of said specimen concerning an estimated or actual intensity of the light reflected in the spectral range by said point such that an integral of the intensity of the light reflected in the spectral range by this point during a pixel dwell time is within a predefined value interval. The invention also relates to a microscope. | 08-19-2010 |
20110032614 | OPTOELECTRONIC DETECTOR ASSEMBLY AND METHOD OF OPERATING SAME - An optoelectronic detector and method of using same. In order to avoid any condensation on a surface, it has been known to heat such a surface. However, heating an optoelectronic detector will create a stronger hissing noise due to the greater dark current that is caused thereby. The invention is intended to avoid any condensation on an optoelectronic detector without airtight encapsulation. To this end, the detector is cooled and equipped with a sensor for the determination of a current value of one of the variables ambient humidity and ambient dew point temperature and a control unit that is connected with the sensor and designed to control the cooling device in dependence of such a value. By taking into account the ambient humidity or, respectively, the dew point temperature in the control of the cooling device, condensation on the detector can be avoided. An airtight encapsulation of the detector and the cooling device is not required. | 02-10-2011 |
20110042555 | DETECTOR ARRANGEMENT HAVING INCREASED SENSITIVITY - To increase the sensitivity of detector arrangements, it is known that light deflection elements in the form of a line arrays having spherical elements may be used to focus incident light onto light-sensitive regions of the detector. Manufacturing such line arrays is complex and cost intensive, especially in small lot numbers. The increased sensitivity of the detector array can be achieved easily and inexpensively by using a novel light deflection element. The detector arrangement therefore has a light deflection element having light entrance surfaces, deflecting incident light by refraction onto light-sensitive regions of the detector. Light entrance surfaces of the light deflection element are inclined with respect to one another and are designed as planar surfaces. The detector arrangement is suitable in particular for detection of light emanating from a specimen in a microscope, preferably in a laser-scanning microscope. | 02-24-2011 |
20110119034 | METHOD FOR RECORDING PULSE SIGNALS - A method for recording pulse signals which allows the reconstruction of a time reference. The time of every pulse signal event can be determined by counting sampling result bits preceding the respective sampling result bit using the known sampling frequency. For this purpose, every period of the sampling frequency is associated with a bit representing the respective sampling result and the sampling result bits are stored one by one and per channel in data blocks. The sampling frequency is preferably higher than a pixel clock, a sampling result bit associated with a flank of the pixel clock being marked. The pixel clock can thus be synchronized with the individual events exactly per sampling period. The invention further relates to the field of fluorescence correlation spectroscopy using confocal microscopes or laser scanning microscopes. | 05-19-2011 |
20110149388 | OPERATING CIRCUIT AND CONTROL METHOD FOR A PHOTOMULTIPLIER - A operating circuit and control method for protecting a PMT having a photocathode, a plurality of dynodes and an anode against overloading with a shorter reaction time, and to allow it to be switched on again rapidly. For this purpose, a switch is provided for electrically short circuiting the photocathode with the first dynode, or a switch is provided for reversing the polarity of the voltage between the photocathode and the first dynode. | 06-23-2011 |
20120162754 | Pinhole for a Confocal Laser Scanning Microscope - A laser scanning microscope comprising having a light source, an illuminating beam for illuminating a specimen with a spatially limited, preferably point-shaped, illuminating light spot via a scanning device and an objective lens, and a detection beam for detecting the specimen light that reaches the detection beam via the objective lens and the scanning device. Focusing means that are disposed in the detection beam and focus the light from the specimen to form a spatially limited detection light spot in a plane. Receiver elements are distributed in the spot in a matrix-like manner and can be individually read out. These are located in order to simulate an adjustable pinhole aperture. | 06-28-2012 |
20140029091 | MICROSCOPE AND METHOD FOR OPERATING A MICROSCOPE - The invention relates to a method for operating a microscope in which excitation light is focused on, or beamed to, different points of a specimen, in which an intensity of the excitation light is point-specifically varied and in which an intensity of the light reflected by said specimen in at least one spectral range is measured point-specifically and quantitatively. The method according to the invention is characterized in that the intensity and/or a spectral composition of the excitation light beamed to a specific point of said specimen is automatically adjusted by a regulating device on the basis of information previously gained from measured data of said specimen concerning an estimated or actual intensity of the light reflected in the spectral range by said point such that an integral of the intensity of the light reflected in the spectral range by this point during a pixel dwell time is within a predefined value interval. The invention also relates to a microscope. | 01-30-2014 |
20140138517 | CONFOCAL SCANNING MICROSCOPE, OPERATING METHOD FOR SAME AND METHOD FOR MANIPULATING A SAMPLE - A switch which reduces the voltage between the photocathode and the first dynode in the activated switching state compared to the deactivated switching state and a control unit which is adapted to move a target spot, which can be illuminated by means of the light source, over a scanning field by means of a deflecting unit. The control unit activates the switch when the target spot enters a given region of the scanning field and deactivates the switch when the target spot exits the region. | 05-22-2014 |