Patent application number | Description | Published |
20080278233 | BUFFER DRIVE - The present invention relates to a CMOS buffer circuit for liquid crystal display (LCD) drivers, which includes a single stage operational transconductance amplifier (OTA) with a differential of transistors for receiving a differential input voltage, a bias current source coupled to the differential pair and a single-ended output, the first bias current generating stage with a differential pair of transistors coupled to receive the differential input voltage to produce an output current in an output current path in response to a positive differential input voltage, a second bias current generating stage with a differential pair of transistors coupled to receive the inverted differential input voltage to produce an output current in an output current path in response to a negative input voltage, wherein the output current paths of both bias current generating stages are combined in a common current path and the current in the common current path is mirrored to the bias current source of the single stage OTA, so as to increase the bias current through the bias current source in response to an increasing magnitude of the differential input voltage. | 11-13-2008 |
20100201433 | Low Leakage Sampling Switch - An electronic device includes a cascade of a plurality of transistors. Each transistor of the cascade receives an input voltage at a first terminal of its source/drain channel and receives a sampling clock signal at a control gate. The second terminal of the source/drain path of a first transistor drives a sampling capacitor. The second terminal of the source/drain channel of each subsequent transistor is connected to a backgate of a previous transistor. The backgate of the last transistor is connected to a supply voltage level. The second terminals of the subsequent transistors may be connected to corresponding buffer capacitors. The backgate of the last transistor may be supplied with the input during sampling and the supply voltage level at other times. | 08-12-2010 |
20130135125 | Electronic Device and Method for Analog to Digital Conversion Using Successive Approximation - The invention includes a successive approximation register, a digital-to-analog converter, a comparator and a control stage. The control stage initially sets the successive approximation register to a first digital value. The digital-to-analog converter converts the digital value stored in the successive approximation register to an analog value. The comparator compares the converted digital value with an analog input value. The control stage restricts subsequent analog-to-digital conversion for the analog input value to a search interval above or below the first digital value depending on whether the analog input value is greater or lower than the converted analog value of the first digital value. | 05-30-2013 |
Patent application number | Description | Published |
20080272831 | Charge Pump CMOS Circuit - A charge pump CMOS circuit comprises a differential input stage with two parallel circuit branches. Each of the parallel circuit branches has a diode-connected MOS transistor connected in series with a complementary input MOS transistor. There is a common tail current source for both circuit branches. The diode-connected MOS transistors each have their gate/drain node connected to corresponding current sources. The charge pump CMOS circuit is suitable for use in an oscillator. | 11-06-2008 |
20090058493 | Signal Level Converter - An electronic device with a supply voltage level converter converts a signal from a first low supply voltage level to a second high supply voltage level includes; a first pair of cross coupled MOS transistors compliant with the second supply voltage level, each having a source coupled to the second supply voltage level and providing complementary output signals at respective drains; driven by a second pair of common gate MOS transistors compliant with the second supply voltage; driven by a third pair of common gate MOS transistors compliant with the first voltage level; and driven by first and second inverters coupled in a chain and supplied by the first supply voltage level, each having an output connected to the source of a transistor in a third pair. | 03-05-2009 |
20090066556 | Method and Device for Controlling a Successive Approximation Register Analog to Digital Converter - A method for controlling a successive approximation register analog to digital converter comprising connecting a first side of a capacitor to a first comparator input, during a sampling phase connecting the first side of a capacitor to an input and connecting a second side of the capacitor to a mid-voltage, following the sampling phase disconnecting the first side of the capacitor from the input and disconnecting the second side of the capacitor from the mid-voltage and autozeroing the comparator. | 03-12-2009 |
20090121754 | Power-On Reset Circuit - An integrated circuit provides a power on reset signal with respect to a supply voltage level supplying the electronic device. The integrated circuit comprises a bias current generating stage having a first current mirror and an output stage having first, second and third series connected MOS transistors. A connection between the second MOS transistor and the third MOS transistor forms a POR output node. A gate of the second MOS transistor and a gate of the third MOS transistor are coupled to each other and to the first current mirror. This allows a current through the third MOS transistor when the supply voltage is higher than a first MOS transistor threshold and a current through the second MOS transistor only when the supply voltage is greater than or equal to the sum of the first MOS transistor threshold and a second MOS transistor threshold voltage. | 05-14-2009 |
20120286833 | Power-On Reset Circuit - An integrated circuit provides a power on reset signal with respect to a supply voltage level supplying the electronic device. The integrated circuit comprises a bias current generating stage having a first current mirror and an output stage having first, second and third series connected MOS transistors. A connection between the second MOS transistor and the third MOS transistor forms a POR output node. A gate of the second MOS transistor and a gate of the third MOS transistor are coupled to each other and to the first current mirror. This allows a current through the third MOS transistor when the supply voltage is higher than a first MOS transistor threshold and a current through the second MOS transistor only when the supply voltage is greater than or equal to the sum of the first MOS transistor threshold and a second MOS transistor threshold voltage. | 11-15-2012 |
Patent application number | Description | Published |
20120020778 | DIAGONAL FAN - A diagonal fan for gaseous media has a diagonal impeller with a plurality of vanes, which are fastened on a carrier plate, and a guide device, adjoining the diagonal impeller in the axial direction on the outflow side, for increasing the pressure of the medium, with a plurality of guide vanes. The vanes of the diagonal impeller and/or the guide vanes of the guide device are three-dimensionally twisted. By means of an intake unit, the gaseous medium can be directed into the diagonal impeller. The intake unit and/or an exhaust unit, by means of which the gaseous medium can be directed out of the guide device, is, or are, provided as an exchangeable module and can be fastened on the diagonal fan by means of a fastening element. | 01-26-2012 |
20140023491 | DIAGONAL FAN - The invention relates to a diagonal fan for gaseous media, with a diagonal impeller ( | 01-23-2014 |
20140023510 | DIAGONAL IMPELLER FOR A DIAGONAL FAN, AND DIAGONAL FAN - A diagonal impeller for a diagonal fan ( | 01-23-2014 |
20140023516 | DIAGONAL IMPELLER FOR A DIAGONAL FAN, AND DIAGONAL FAN - A diagonal impeller for a diagonal fan ( | 01-23-2014 |
20140037444 | VENTILATOR FOR GASEOUS MEDIA - The invention relates to a fan for gaseous media, having an impeller ( | 02-06-2014 |
Patent application number | Description | Published |
20090184676 | METHOD AND APPARATUS FOR POSITION-ACCURATE TRIGGERING OF A MACHINE PART - A machine part, such as a laser, is moved along at least one axis of movement relative to a workpiece. Position pulses are generated by means of an incremental encoder, with the number of position pulses in a position pulse train being representative of the movement position of the machine part. A trigger signal for the machine part is generated when the current number of position pulses corresponds to a predefined number of pulses. In a preferred embodiment, the current number of position pulses and the defined number of pulses are compared remote from a higher-level drive control circuit. It is particularly preferred if the current number of position pulses and the defined number of pulses are compared in a comparator which is arranged on an interface card of a computer unit, with the drive control circuit for controlling the movement of the machine part being implemented with a closed loop controller in the form of a controller program, which is cyclically executed by a central processor of the computer unit. | 07-23-2009 |
20090271997 | METHOD AND APPARATUS FOR DETERMINING SPATIAL COORDINATES AT A MULTIPLICITY OF MEASUREMENT POINTS - In order to determine spatial coordinates of a multiplicity of measurement points along a contour of a measurement object, a probe head is provided with a probe element that is movably supported on the probe head. During movement of the probe head along the contour, position measuring values of the probe head and deflections of the probe element relative to the probe head are determined. Spatial coordinates for the measurement points along the contour are determined from the position measuring values and deflections. The probe element is kept in contact with the contour during movement of the probe head by using an actuator to produce a defined contact force. The contact force is set as a function of a differential acceleration of the probe element relative to the probe head. | 11-05-2009 |
20120079731 | COORDINATE MEASURING MACHINE FOR DETERMINING SPATIAL COORDINATES ON A MEASUREMENT OBJECT - A coordinate measuring machine for determining spatial coordinates on a measurement object has a frame structure on which a probe head is arranged. The probe head has a probe head sensor system, a body part and a coupling part which can move relative to the body part. The frame structure is designed to move the probe head relative to the measurement object. The probe tool has at least one stylus for making contact with the measurement object, and also has a rotating plate. The stylus is coupled to the coupling part by means of the rotating plate, such that it can rotate. At least one roll motion projection is formed on the body part. The rotating plate can be rolled along this roll motion projection by means of a movement of the coupling part in order to set a defined orientation of the stylus. | 04-05-2012 |
20130036619 | METHOD FOR CONTROLLING A MEASUREMENT PROCESS BY MEANS OF VIRTUAL SURFACES - The present invention relates to a method for controlling a measurement process of a coordinate measuring machine for measuring a measurement object, wherein the coordinate measuring machine comprises a controlling device and a feeler head having a feeler pin, and wherein a relative movement between the feeler pin and a surface of the measurement object is controlled by the controlling device. Furthermore, the surface comprises at least one actual section, which corresponds to a measurement object surface, and at least one virtual section. The present invention also relates to a corresponding coordinate measuring machine and computer program. | 02-14-2013 |
Patent application number | Description | Published |
20100100199 | CONTROL OF AN OPERATION OF A COORDINATE MEASURING DEVICE - In a method for controlling an operation of a coordinate measuring device, at least one operational parameter is determined. One value of the operational parameter is allocated to a plurality of components. A sequence for determining the operational parameter is provided for the majority of the components. The method for determining the operational parameter in the predetermined sequence for each component is now described. It starts with the component that is first in the sequence: i) if the value of the operational parameter is allocated to the component, the value is adopted as a value of the operational parameter that is available for the operation, ii) if no value of the operational parameter is allocated to the components, one available value of the operational parameter that was available until then still remains available, iii) if another component is provided in the sequence, the method is carried out with the component. | 04-22-2010 |
20130041497 | OPERATION OF A COORDINATE MEASURING MACHINE OR A MACHINE TOOL - A method for operating a coordinate measuring machine or a machine tool. A movement of a machining part is controlled in such a way that, during the movement of the machine part, a predetermined maximum acceleration and/or a predetermined maximum jerk is not exceeded. The maximum acceleration and/or the maximum jerk is varied depending on the position of the machine part and/or depending on the alignment of the machine part. | 02-14-2013 |
20150323307 | Device with displaceable device part, in particular coordinate measuring device or machine tool - A device has a displaceable device part, a drive, which is configured to drive the displaceable device part and to thus induce a movement in the displaceable device part, and a control unit, which is connected to the drive and is configured to control the drive. The device further has a first signal transmitter for determining a position and/or speed of the displaceable device part. The first signal transmitter and/or a first signal evaluation device, which is connected to the signal transmitter, are connected to the control unit such that the control unit receives information from the signal transmitter about the position and/or speed of the displaceable device part during operation of the device and controls the drive on the basis of the information received. A second signal transmitter of the device serves to monitor and/or redundantly determine the position and/or speed of the displaceable device part. | 11-12-2015 |