Abstract: A wireless remote control comprising a sensor that generates an output signal as a function of its alignment that directly or indirectly activates or deactivates at least one electronic circuit, a plug socket, a first contact of the plug socket connected to a control input of a power supply device, an external plug that connects the first contact to a second contact when inserted into the plug socket and thus the power supply device is deactivated independently of the output signal of the sensor.
Abstract: The invention relates to a multimedia arrangement comprising a remote control having a keypad with only six control buttons. All functions of the multimedia device can be controlled via three menu levels, an object group being selectable in the first menu level, an object being selectable in the second menu level, and an action to be performed with the object being selectable in the third. Elements of the object groups, objects, and actions are displayed in fields on the display device in a vertical column and a horizontal line, the column and the line intersecting in a focus field. The elements of the fields can be moved by the control buttons in the fixed focus field, and can be activated there by a selection button. Selection and arrangement of the elements is done by a user database in the multimedia device depending on data determined by an identification device of the remote control.
Abstract: The input device has a printed circuit board (5) to which a plurality of coils (L1-L8) has been fitted which, together with a capacitor (C2), each form a frequency-determining element of an oscillator (1). The coils (L1-L8) are arranged so as to be distributed along a path (K), which may also be a circular path. A movable magnet portion (M) can be displaced relative to the printed circuit board (5). At least one further stationary magnet portion (M1-M8) is mounted on the printed circuit board (5), which is opposite the movable magnet portion (M).
Abstract: A remote control having a touch-sensitive control panel and a transmission unit for transmitting encoded signals which are produced on the basis of a direction of movement of contact with successive regions of the control panel, regardless of the location at which contact is made with the control panel. It is also possible to produce encoded signals on the basis of a movement by the remote control in combination with a motion sensor.
Abstract: The plastic housing connects two housing parts with only a plurality of pins on one of the housing parts and a plurality of the sleeves correlated with the pins with boreholes. The diameters of the pins are at the same time larger than the diameters of the boreholes. Furthermore, the distances between the adjacent pins and the distances between the boreholes correlated with the pins are unequal by such an extent that the pins can be inserted in the correlated boreholes, but the pins and the boreholes are braced against one another as the result of the unequal distances in a connecting plane. In this way, a simple and secure connection is created between the housing parts and the flexural and torsional rigidities of the entire housing are improved.
Abstract: The remote control device contains two keypads, of which the second keypad is able to be slid into a housing or extracted from it. A sensor detects the sliding position of the second keypad and generates an output signal, that assigns differing control signals to preset keys of the first keypad depending on the sliding position of the second keypad. Additionally the remote control device has two transmission devices with differing directions of emission, with always only one transmission device being activated and in fact depending on the output signal of the sensor.
Type:
Grant
Filed:
February 6, 2012
Date of Patent:
February 11, 2014
Assignee:
FM Marketing GmbH
Inventors:
Ferdinand Maier, Erwin Weitgasser, Detlev Magerer
Abstract: An input device with a housing which includes a displaceable cover wall attached to a circuit board to which is affixed a displaceable magnetic part, at least one sensor and a microprocessor; a second magnetic part which is permanently fixed relative to the housing cooperates with the displaceable magnetic part and, upon displacement of the cover wall, generates a haptically perceptible force; the position of the cover wall relative to the housing is detected by the at least one sensor in the form of a coil which varies its inductance value in response to the detected magnetic field of the two magnetic parts, whereby the coil is a frequency-determining component of an oscillator.
Abstract: The plastic housing connects two housing parts with only a plurality of pins on one of the housing parts and a plurality of the sleeves correlated with the pins with boreholes. The diameters of the pins are at the same time larger than the diameters of the boreholes. Furthermore, the distances between the adjacent pins and the distances between the boreholes correlated with the pins are unequal by such an extent that the pins can be inserted in the correlated boreholes, but the pins and the boreholes are braced against one another as the result of the unequal distances in a connecting plane . In this way, a simple and secure connection is created between the housing parts and the flexural and torsional rigidities of the entire housing are improved.
Abstract: The remote control system (1) has a battery compartment, which is disposed in a housing and which is closed by means of a removable cover lid (4). The cover lid (4) is held to the housing by means of at least one permanent magnet (6, 7).
Abstract: A multimedia assembly with a programmable universal remote control unit, which is configured to “learn” remote control codes from original remote control units, and which provides that remote control signals are transmitted from original remote control units to the control unit where they are analyzed, decoded, and newly encoded; and wherein newly encoded signals are then transmitted from the control unit to the universal remote control unit that is to be programmed, where they are stored in a memory.