A wide band communications circuit buffer can include a pair of NPN bipolar transistor emitter followers deployed as a voltage buffer and disposed at inputs before and outputs after an equalization module, and a pair of diode connected NPN transistors deployed as a level shifter and disposed following the emitter followers before an output of the wide band driver to keep an output level at the output of the wide band buffer close to a desired level. Resistors connected between emitters and a V.sub.EE terminal can be used to further adjust the DC level. An LC tank filter can be provided between emitters of the voltage buffer components and the circuit's outputs to pass and boost high frequency signals provided to next stage components. The wide band buffer is, inter alia, appropriate for use in providing a DC level shift function as used in wired data communication systems circuitry.

A mixer comprises a substrate of a first conductivity type; at least one minority carrier injector for injecting minority carriers in the substrate in reply to a first electrical signal applied to the at least one minority carrier injector; at least two substrate taps located in the substrate for providing a majority carrier current density with associated electric field in the substrate in reply to a second electrical signal applied to the at least two substrate taps. The majority carrier current density's associated electric field determines the drift direction of the injected minority carriers. The mixer further comprises at least two minority carrier collectors located in the substrate, for collecting minority carriers from the substrate. Each minority carrier collector is located adjacent to one of the at least two substrate taps. A minority carrier collector destination is determined by the drift direction of the injected minority carriers, and current outputted by the minority carrier collectors based on the number of minority carriers collected at the collector destination, form an output signal of the mixer.

A wireless receiver and a wireless reception method provide: to determine a gain based on a first resistor having a first temperature characteristic and a second resistor having a second temperature characteristic different from the first resistance; to output an output of the first resistor and an output of the second resistor, or a ratio between the output of the first resistor and the output of the second resistor; and to switches the gain of the first circuit based on the outputs or the ratio between the outputs.

An image rejection mixer includes a delay circuit for delaying one of first signals divided by a distribution circuit and a second signal provided to a second mixing circuit by the same delay amount d, or delaying the other one of the first signals divided by the distribution circuit and the second signal provided to a first mixing circuit by the same delay amount d.

Embodiments of power efficient radio mixers are provided. A generalized impedance matched low-voltage active mixer circuit technique, which utilizes a plurality of commutator cells and transformers, is disclosed. The low voltage active mixer function is coupled to an impedance matched amplifier allowing for insertion of image rejection filtering between the amplifier and the mixing function. The commutator cells can be driven in parallel by common local oscillator (LO) and intermediate frequency (IF) ports combined in parallel to yield highly linear mixers. A multi-channel receiver with a common impedance matched radio frequency (RF) amplifier driving a plurality of commutator cells with multiple LOs and IFs is also disclosed.

A mixer module includes a mixer, at least one DC offset circuit, a filter and a controller. The mixer mixes an input signal to generate a first signal. The at least one DC offset circuit generates a second signal based on the first signal. The filter filters out an AC portion of the second signal and generates a third signal according to a DC portion of the second signal. The controller controls the at least one DC offset circuit based on the third signal to reduce a DC portion of the first signal.

A power detector with a main transconductance stage and a Gilbert switch stage coupled to one another. Current sources are coupled between the main transconductance and the Gilbert switch stages. Each of the current sources is configured to generate a cascoded PMOS trickle current under the control of a DAC to control the effective voltage of the Gilbert switch stage. This mitigates the DC offsets resulting in enhanced sensitivity of the Gilbert switch stage. An increase in the conversion gain of a system using a Gilbert switch stage, for a given LO swing, is therefore obtained for a very small increase in DC power.

A frequency estimation signal generator component arranged to receive an input frequency signal and to generate therefrom a frequency estimation signal. The frequency estimation signal generator component comprises a counter component arranged to sequentially output a sequence of control signal patterns over a plurality of digital control signals under the control of an oscillating signal derived from the received input frequency signal terns. The frequency estimation signal generator further comprises a continuous waveform generator component arranged to receive the plurality of digital control signals and a weighted analogue signal for each of the received digital control signals, and to output a continuous waveform signal comprising a sum of the weighted analogue signals for which the corresponding digital control signals comprise an asserted logical state. The frequency conversion component is arranged to derive the frequency estimation signal from the continuous waveform signal output by the continuous waveform generator component.

Embodiments of communications devices and methods for operating a communications device are described. In an embodiment, a communications device includes a complex multiplier configured to multiply a first input complex signal with a second input complex signal to generate an output complex signal, an amplifier configured to amplify an imaginary part of the output complex signal to generate an amplification result, a delay element configured to delay a rotation angle signal that is related to the second input complex signal, and a subtractor configured to subtract the amplification result from the delayed rotation angle signal to generate the rotation angle signal. Other embodiments are also described.

Multi-input downconversion mixers, systems, and methods are provided with input switching in the intermediate frequency or baseband domain. One illustrative mixer embodiment includes: multiple differential pairs of transistors and multiple pairs of switches. Each differential transistor pair has their bases or gates driven by a differential reference signal, their emitters or sources connected to a common node having a current or voltage driven based on a respective one of multiple receive signals, and their collectors or drains providing a product of the differential reference signal with the respective one of the multiple receive signals. Each of the switch pairs selectively couples differential output nodes to the collectors or drains of a respective one of the multiple differential pairs, enabling the differential output nodes to convey an output signal that is a sum of products from selected ones of the multiple differential pairs.