Abstract: An audio system may receive a media stream, via a first wireless connection, in an analog format. The audio system may digitize the media stream, as received via the first wireless connection, to provide a first sub-stream. The audio system may receive a media stream, via a second wireless connection, in a digital format. The media stream from the second wireless connection may be a second sub-stream. The audio system may compare at least one reproduction characteristic of the first sub-stream and the second sub-stream. The audio system may adjust at least one further reproduction characteristic of the second sub-stream based on the comparison.

Abstract: A method and system for providing radio frequency auto gain control (RF AGC) for a specific frequency is provided herein. The method includes obtaining a noise measurement (N) and radio frequency level for the specific frequency; scanning a band of frequencies that the specific frequency is part of, and storing a plurality of undesired frequencies; computing a frequency intermodulation up to a predetermined level based on the plurality of undesired frequencies; and in response to the frequency intermodulation being not equal to the specific frequency, performing an iterative process to readjust the RF AGC, the iterative process including a readjustment of the RF AGC based on a noise floor performance.

Abstract: A method and system for providing radio frequency auto gain control (RF AGC) for a specific frequency is provided herein. The method includes obtaining a noise measurement (N) and radio frequency level for the specific frequency; scanning a band of frequencies that the specific frequency is part of, and storing a plurality of undesired frequencies; computing a frequency intermodulation up to a predetermined level based on the plurality of undesired frequencies; and in response to the frequency intermodulation being not equal to the specific frequency, performing an iterative process to readjust the RF AGC, the iterative process including a readjustment of the RF AGC based on a noise floor performance.

Abstract: A computer-implemented method for reducing a noise signal added to an amplitude modulated (AM) broadcast signal while travelling from a broadcasting antenna to a receiving antenna is provided. The method includes capturing a signal representative of the AM broadcast signal corrupted by the noise signal via the receiving antenna, inverting the captured signal, and determining a carrying frequency of the AM broadcast signal and delaying the inverted waveform by a fraction of a cycle of the carrying frequency. The method further includes generating a difference signal by subtractively combining the captured signal and the delayed inverted signal, generating an estimate noise signal by reducing an amplitude of the generated difference signal using a noise-reduction control multiplier, and minimizing the corrupting noise signal component of the captured signal by subtractively combining the captured signal and the generated estimate noise signal.

Abstract: Systems, apparatuses and methods for providing FM phase diversity capabilities are provide. In some aspects, a vehicle system includes a first FM antenna positioned externally of a vehicle and adapted to receive a first FM signal, a radio unit positioned internally of the vehicle and including a display and at least one user control, a cable electrically coupled to the first FM antenna and the radio unit to communicate the first FM signal to the radio unit, and a second FM antenna positioned internally of the vehicle and adapted to receive a second FM signal that is communicated to the radio unit. In another aspect, a radio unit positioned internally of the vehicle may include a printed wire board and a second FM antenna may be positioned on the printed wire board internally of the vehicle and adapted to receive a second FM signal.

Abstract: A system and method for multi-notch filtering for a communication device are provided. The system includes an input node to receive a signal directed to the communication device; a time delay element to delay the signal by a predetermined time delay; a summation element to sum the signal and the time-delayed signal; and a gain element to output the summed signal to the communication device.

Abstract: A computer-implemented method for reducing a noise signal added to an amplitude modulated (AM) broadcast signal while travelling from a broadcasting antenna to a receiving antenna is provided. The method includes capturing a signal representative of the AM broadcast signal corrupted by the noise signal via the receiving antenna, inverting the captured signal, and determining a carrying frequency of the AM broadcast signal and delaying the inverted waveform by a fraction of a cycle of the carrying frequency. The method further includes generating a difference signal by subtractively combining the captured signal and the delayed inverted signal, generating an estimate noise signal by reducing an amplitude of the generated difference signal using a noise-reduction control multiplier, and minimizing the corrupting noise signal component of the captured signal by subtractively combining the captured signal and the generated estimate noise signal.

Abstract: Systems, apparatuses and methods for providing FM phase diversity capabilities are provide. In some aspects, a vehicle system includes a first FM antenna positioned externally of a vehicle and adapted to receive a first FM signal, a radio unit positioned internally of the vehicle and including a display and at least one user control, a cable electrically coupled to the first FM antenna and the radio unit to communicate the first FM signal to the radio unit, and a second FM antenna positioned internally of the vehicle and adapted to receive a second FM signal that is communicated to the radio unit. In another aspect, a radio unit positioned internally of the vehicle may include a printed wire board and a second FM antenna may be positioned on the printed wire board internally of the vehicle and adapted to receive a second FM signal.

Abstract: A modular charging unit that allows efficient charging of a rechargeable battery with a charging station and during use away from the charging system uses ambient energy to extend battery life of the device.

Abstract: An integrated circuit with a non-crystal reference clock includes: an oscillator adapted to generate and transmit an oscillator output signal, wherein the oscillator includes at least one of an inductor, a resistor, and a capacitor; a comparator adapted to receive the oscillator output signal and a calibration input signal, compare the oscillator output signal characteristics and the calibration input signal characteristics, and generate and transmit a first comparator signal in response to the comparison of the oscillator output signal and the calibration input signal; a state machine adapted to receive the first comparator signal, analyze the first comparator signal and calibrate the oscillator in response to the analysis of the first comparator signal; and a controller adapted to the receive the oscillator output signal, wherein a frequency of the oscillator output signal is utilized by the controller as a clock frequency.

Abstract: A system for generating a tuning voltage including a processor, a tank circuit, and a feedback loop. The processor creates a tuning voltage that is provided to the tank circuit. A feedback loop optimizes tuning performance by adjusting the tuning voltage based on radio signal strength.

Abstract: An integrated circuit with a non-crystal reference clock includes: an oscillator adapted to generate and transmit an oscillator output signal, wherein the oscillator includes at least one of an inductor, a resistor, and a capacitor; a comparator adapted to receive the oscillator output signal and a calibration input signal, compare the oscillator output signal characteristics and the calibration input signal characteristics, and generate and transmit a first comparator signal in response to the comparison of the oscillator output signal and the calibration input signal, a state machine adapted to receive the first comparator signal, analyze the first comparator signal and calibrate the oscillator in response to the analysis of the first comparator signal, and a controller adapted to the receive the oscillator output signal, wherein a frequency of the oscillator output signal is utilized by the controller as a clock frequency.

Abstract: A modular charging unit that allows efficient charging of a rechargeable battery with a charging station and during use away from the charging system uses ambient energy to extend battery life of the device.

Abstract: An instrumentation assembly for installation in a vehicle dashboard is disclosed herein. The instrumentation assembly includes an electronic controller, an enclosure, a viewable gauge, a viewable display, and a proximity-sensing switch. The controller has a memory for storing information. The enclosure has a designated front section and a designated rear section, wherein the front section includes substantially transparent material so as to define a window. Both the gauge and the display are electrically connected to the controller and mounted within the enclosure so as to substantially face the window. The switch is electrically connected to the controller and operable to sense the proximal presence of a human finger. In this configuration, the display is operable to exhibit the memory's information for viewing, and the switch is activatable by a human finger to selectively control the exhibition of the information on the display. Furthermore, an instrumentation module is also disclosed herein.

Abstract: An oscillation circuit for a radio receiver system. The oscillator circuit includes a tank circuit, a first and second transistor, and a first and second low pass filter. The first transistor forms a first current loop when the first transistor is active. Similarly, the second transistor forms a second current loop when the second transistor is active. The first low pass filter is connected in an electrical series connection within the first current loop and the second low pass filter is connected in an electrical series connection within the second current loop. As such, the first and second low pass filter serve to reduce the gain of the oscillator circuit below a secondary resonant frequency of the tank circuit to prevent an oscillation condition, thereby preventing unwanted oscillations at a secondary resonant frequency.

Abstract: A system for generating a tuning voltage including a processor, a tank circuit, and a feedback loop. The processor creates a tuning voltage that is provided to the tank circuit. A feedback loop optimizes tuning performance by adjusting the tuning voltage based on radio signal strength.

Abstract: A system (10) and method (100) for digitizing a complete band of RF channels to allow simultaneous processing of more than one channel. Multiple tunable bandpass filters (14) are used for the particular channels to be processed. The filter outputs are combined (16) to form one signal for digitization (18). In another embodiment, an undesired signal is rejected (112) to provide more available power for a reception of a desired signal.

Abstract: An oscillator circuit having an expanded operating range includes an amplifier portion amplifying an oscillating signal. A gain controlling portion controls the gain of the amplified oscillating signal. A switching circuit electrically connected across the gain controlling portion provides a low impedance electrical path in parallel with the gain controlling portion in response to a switch input signal. The switching circuit further includes a switch signal generator portion producing the switch input signal to switch the switching circuit ON or OFF when power supplied to the oscillator circuit reaches a first predetermined voltage level and to switch the switching circuit OFF or ON when power supplied to the oscillator circuit reaches a second predetermined voltage level. In this circuit design, the initiation of an oscillating signal by the oscillator circuit is unaffected by supply voltage variation or, in other words, fluctuation in the power supplied to the oscillator circuit.

Abstract: An oscillator circuit having an expanded operating range includes an amplifier portion amplifying an oscillating signal. A gain controlling portion controls the gain of the amplified oscillating signal. A switching circuit electrically connected across the gain controlling portion provides a low impedance electrical path in parallel with the gain controlling portion in response to a switch input signal. The switching circuit further includes a switch signal generator portion producing the switch input signal to switch the switching circuit ON or OFF when power supplied to the oscillator circuit reaches a first predetermined voltage level and to switch the switching circuit OFF or ON when power supplied to the oscillator circuit reaches a second predetermined voltage level. In this circuit design, the initiation of an oscillating signal by the oscillator circuit is unaffected by supply voltage variation or, in other words, fluctuation in the power supplied to the oscillator circuit.

Abstract: A system (10) and method (100) for digitizing a complete band of RF channels to allow simultaneous processing of more than one channel. Multiple tunable bandpass filters (14) are used for the particular channels to be processed. The filter outputs are combined (16) to form one signal for digitization (18). In another embodiment, an undesired signal is rejected (112) to provide more available power for a reception of a desired signal.