Abstract: The invention comprises a communications device having an improved spring mechanism for forcing open a sliding keypad cover. The spring mechanism comprises at least one guide rod, an end of each guide rod attached to the backside mechanics of the sliding keypad cover, each guide rod having a travel limit. The improved spring mechanism further comprising a guide frame having at least one guide hole, the at least one guide hole for receiving the at least one guide rod. The improved spring mechanism further comprises a spring positioned around the guide rod and between the at least one guide hole and the travel limit. The spring having a compressed state when the sliding keypad cover is closed. The spring mechanism further comprising a release mechanism coupled with the at least one guide rod when the sliding keypad cover is in the closed position.

Abstract: A display module comprising a display assembly bonded to a substrate. The display assembly comprises a first side for displaying visual information and a second side. The second side comprises a first area having an adhesive layer and a second area having a through connection to a conductive pad. The substrate comprises a first side for receiving the display assembly. The first side comprises a first surface area for bonding to the adhesive layer and a second surface area comprising an electrode pad having multiple electrodes for receiving electrical signals. A conductive elastomer is positioned within the through connection establishing conductive continuity between the conductive pad and the electrode pad when the display assembly is bonded to the substrate.

Abstract: A compensated RF power detector utilized in power control circuits for preventing power amplifier saturation. A power amplifier uses a power control circuit to maintain the power amplifier as efficiently and linearly as possible without distortion. The operating point of the power amplifier is defined as close to the 1 dB gain compression point as possible for maximum efficiency and linearity with minimum distortion. However, extreme temperature conditions affect the 1 dB gain compression point causing the power amplifier to operate too close to saturation resulting in distortion or spectral growth. In an embodiment, the compensated RF power detector comprises a RF power detector and a variable RC circuit. The RF power detector has a RF input for receiving RF power, a detector output for supplying a compensated detected voltage and, a detecting diode for generating a detected voltage in response to the received RF power.

Abstract: A transistor amplifier utilizes a dual loop feedback control circuit and an impedance matching circuit to provide improved linear and return loss performance characteristics. The transistor amplifier comprises a transistor for linearly amplifying an input signal, the transistor having a base, a collector and an emitter, the base having an input impedance, the collector having an output impedance. The dual loop feedback control circuit comprising a series feedback resistor electrically coupled between the emitter and a ground potential and a shunt feedback resistor electrically coupled between the collector and base. The dual loop feedback control circuit converts the input impedance to a conjugate of a source resistance and the output impedance to optimum load impedance.

Abstract: A temperature compensated variable attenuator comprising a variable attenuator having at least one diode with temperature variations across the at least one diode producing a temperature offset signal. A bias source coupled to the variable attenuator supplies a biasing signal to the at least one diode through a temperature compensation source. The temperature compensation source is coupled between the bias source and the variable attenuator with the temperature compensation source comprising at least one diode capable of producing a temperature offset signal approximately equivalent to the temperature offset signal produced by the first at least one diode. The approximate temperature offset signal subtracted from the biasing signal produces a temperature compensated bias signal that is supplied to the variable attenuator.

Abstract: A precision-controlled logarithmic amplifier having reduced interference parameters. In an embodiment, the invention comprises a logarithmic amplifier having an output signal providing a logarithmic representation of an input signal. A precision-control circuit is coupled to the logarithmic amplifier. The precision-control circuit produces a bias and a saturation current that act to reduce the effects of bias and saturation currents that are produced in the logarithmic amplifier and affect the output signal of the logarithmic amplifier.

Abstract: A communication device combined with a portable radio telephone operates upon communication media and transceives signals representative of the communication media between the communication device and a remote station. The communication device includes a docking port into which a proximal end-side portion of the portable radio telephone is insertable to be positioned at a docking position. Once positioned at the docking position, the portable radio telephone is used as a hand-hold to support the communication device engaged together with the radio telephone.