Patent application number | Description | Published |
20100109794 | Circuit and method for driving at least one differential line - In the case of a circuit arrangement which can be supplied by way of at least one voltage source, in particular a driver output stage, for driving at least one differential line which can be connected to at least one first output connection as well as to at least one second output connection for the purpose of, in particular digital, data transmission, wherein the circuit arrangement has at least two paths which are arranged in a mirror-image fashion relative to one another and which connect the voltage source to at least one reference potential, in particular earth potential or ground potential or zero potential, as well as in the case of a method for driving at least one differential line using at least one such circuit arrangement, an increased output impedance is avoided during the switching phase, and this ensures high signal quality. | 05-06-2010 |
20110080765 | PROGRAMMABLE ANTIFUSE TRANSISTOR AND METHOD FOR PROGRAMMING THEREOF - Programmable antifuse transistor, in particular n-channel MOS transistor, and a method for programming at least one such antifuse transistor, includes at least one gate with a gate terminal, source with a source terminal, drain with a drain terminal, and substrate with a substrate terminal, configured so that active circuits/circuit elements do not have to be located at a distance from the antifuse, minimizing area requirements, without additional process steps the level of the potential difference between source terminal and substrate terminal is less than about 0.5 volts, drain terminal and source terminal lie at different potentials. By adjusting drain-source voltage and/or the gate-source voltage a flow of charge carriers occurs between source and drain, causing semiconductor material between source and drain to be thermally heated and to locally melt, forming at least one permanently conducting channel between source and drain. | 04-07-2011 |
20110121742 | CIRCUIT ARRANGEMENT AND METHOD FOR CONTROLLING LIGHT EMITTING COMPONENTS - In order to further develop a circuit arrangement and a method for controlling at least one light emitting component, to which a threshold current is applied, with the circuit arrangement being supplied with voltage by means of at least one supply element, and with the light emitting component being controlled by means of at least one switching element arranged between at least one current limiting element and the light emitting component using at least one switching controller, in such a way that the power efficiency is significantly increased in comparison to prior art, it is proposed that a maximum value of the current is provided by means of the current limiting element, and that the logical “1” of the data to be transmitted by means of the light emitting component is represented by periodic switching between the zero value of the current and the maximum value of the current supplied to the light emitting component. | 05-26-2011 |
20150023378 | CIRCUIT AND METHOD FOR CONTROLLING LIGHT-EMITTING COMPONENTS - Circuit arrangement or circuit, in particular driver circuit, and a method for controlling at least one light-emitting component, such as an electro-optical transducer, a light-emitting diode (LED), an electroluminescent diode, a laser, or a semiconductor laser, by switching a switching element between a first switching position and a second switching position, and the voltage supply is effected by a supply element, such as a voltage source or a current source supported by a decoupling capacitor on the output side, so that current drain and output resistance are as low as possible, so that the highest possible frequency or switching speed as well as the highest possible output voltage for the light-emitting component can be achieved, the light-emitting component is controlled by varying its operating voltage, in particular by switching between the switching positions, and the first and second switching positions are of low impedance for the operating frequency. | 01-22-2015 |
20150043691 | CIRCUIT ARRANGEMENT AND METHOD FOR TRANSMITTING SIGNALS - On the basis
| 02-12-2015 |
Patent application number | Description | Published |
20100172384 | Circuit and method for controlling light-emitting components - In order to further develop a circuit arrangement or circuit, in particular driver circuit, and a method for controlling at least one light-emitting component, in particular at least one electro-optical transducer, for example at least one light-emitting diode (LED) or electroluminescent diode or at least one laser, such as at least one semiconductor laser, by switching at least one switching element at least between a first switching position and a second switching position, at least one further circuit component is switched to active or switched on in the second switching position, so that current drain and output resistance are as low as possible, so that the highest possible frequency or switching speed as well as the highest possible output voltage for the light-emitting component can be achieved, it is proposed that the light-emitting component is controlled by varying its operating voltage. | 07-08-2010 |
20100172385 | Circuit and method for controlling light-emitting components - Circuit arrangement or circuit, in particular driver circuit, and a method for controlling at least one light-emitting component, such as an electro-optical transducer, a light-emitting diode (LED), an electroluminescent diode, a laser, or a semiconductor laser, by switching a switching element between a first switching position and a second switching position, and the voltage supply is effected by a supply element, such as a voltage source or a current source supported by a decoupling capacitor on the output side, so that current drain and output resistance are as low as possible, so that the highest possible frequency or switching speed as well as the highest possible output voltage for the light-emitting component can be achieved, the light-emitting component is controlled by varying its operating voltage, in particular by switching between the switching positions, and the first and second switching positions are of low impedance for the operating frequency. | 07-08-2010 |
20110268451 | CIRCUIT ARRANGEMENT AND METHOD FOR TRANSMITTING TMDS ENCODED SIGNALS - For providing circuit arrangement and method for transmitting signals from a data source to a data sink, the signals being TMDS encoded, the driver circuit is supplied by a connection interface, connected upstream, assigned to data source, with supply voltage, electrical TMDS encoded signals are electro-optically converted by an LED connected downstream of the driver circuit and coupled into an optical fiber as light supplied with TMDS encoded signals, the direct current portion supplied from TMDS transmitter to connection interface, to data source, is converted by driver circuit to a modulated signal current for controlling LED. Light supplied with TMDS encoded signals decoupled out from optical fiber by light-absorbing element, opto-electrically converted and supplied to transimpedance converter circuit connected downstream of light-absorbing element and upstream of connection interface assigned to data sink, transimpedance converter circuit being supplied by direct voltage portion being applied to differential pair of wires. | 11-03-2011 |
Patent application number | Description | Published |
20160050026 | CIRCUIT ARRANGEMENT AND METHOD FOR RECEIVING OPTICAL SIGNALS - In order to further develop a circuit arrangement (CR; CR′) for receiving optical signals (SI) from at least one optical guide (GU), said circuit arrangement (CR; CR′) comprising:
| 02-18-2016 |
20160077291 | DEVICE FOR COUPLING AND/OR DECOUPLING OPTICAL SIGNALS - A device for coupling optical signals into at least one waveguide, wherein the device comprises at least one send-site circuit, which based on incoming signals from send-site terminal contacts actuates at least one electro-optical converter, which sends out the optical signals in the direction of the axis of the waveguide, in such a way that the manufacturing expenses are low. The electro-optical converter is incorporated, in particular embedded, in at least one send-site receptacle/alignment module, the send-site receptacle/alignment module comprises at least one groove- or trough-shaped depression for aligning the waveguide in relation to the electro-optical converter, and the send-site receptacle/alignment module is, in an essentially form-fit and/or force-fit manner, incorporated, in particular fitted, in a recess provided in a send-site substrate. The corresponding is true for a device for decoupling optical signals from at least one waveguide. | 03-17-2016 |