Abstract: A signal processing device includes a decision feedback equalizer and a coefficient adjusting circuit. The decision feedback equalizer includes a first equalizer configured to perform filtering on a first signal according to a set of first coefficients to generate a first filtered signal. The set of first coefficients includes multiple first coefficients. The coefficient adjusting circuit is configured to adaptively adjust one or more of the first coefficients according to an error signal. A limit operation of the first coefficients is selectively performed. When the limit operation of the first coefficients is performed, at least one of the first coefficients is set to a first predetermined value to generate a set of limited first coefficients.

Abstract: A Radio Frequency Interference (RFI) estimation device for generating an estimated RFI signal includes a combiner, a first multiplier and a second multiplier. The combiner is configured to combine a first digital signal and a second signal to generate the estimated RFI signal. The first multiplier is configured to generate the first digital signal according to an in-phase signal and a first cosine signal. The second multiplier is configured to generate the second digital signal according to a quadrature-phase signal and a first sine signal. The first cosine signal and the first sine signal are generated based on a frequency and the in-phase signal and the quadrature-phase signal are generated based on the frequency and one or more harmonics of the frequency.

Abstract: An analog to digital converter device includes a capacitor array, a digital logic circuit, and a comparator circuit. The capacitor array includes first capacitors, a capacitor to be calibrated, and compensation capacitors. The digital logic circuit performs a calibration on the capacitor to be calibrated, in order to calibrate a weighed value of the capacitor to be calibrated according to a decision signal, and converts an input signal to bits via the capacitor array after the calibration is performed. The comparator circuit compares a testing signal with a predetermined voltage to generate the decision signal. The testing signal is generated by the first capacitors and the capacitor to be calibrated in response to the calibration. The digital logic circuit further selects at least one of the compensation capacitors, in order to adjust a digital code corresponding to a calibrated weighed value to be an integer expressed by the bits.

Abstract: The present invention provides a transceiver. The transistor is coupled to a transmission line. The transceiver includes a variable resistor set, a transmitter module, a receiver module, and a digital signal processor. The transmitter module has an output terminal coupled to the variable resistor set and the transmission line. The transmitter module includes a first digital-to-analog converter configured to output an emission current. The receiver module has an input terminal coupled to the transmitter module and the transmission line. When the emission current is fed into the transmission line, a far-end echo is fed into the receiver module. An amplitude of the far-end echo is associated with a resistance value of the transmission line. The digital signal processor adjusts a current value of the emission current from a first default current value to a second default current value based on the amplitude of the far-end echo.

Abstract: A communication device capable of echo cancellation includes a digital circuit, a transmitter circuit, a hybrid circuit, an adjustable capacitor circuit, and a receiver circuit. The digital circuit transmits a digital transmission signal and receives a digital reception signal. The transmitter circuit outputs an analog transmission differential signal according to the digital transmission signal. The hybrid circuit outputs a transmission signal to an external circuit via an adjustable capacitor circuit according to the analog transmission differential signal, and outputs an analog reception differential signal to a receiver circuit according to at least one of the analog transmission differential signal and a reception signal from the external circuit. The adjustable capacitor circuit controls a delay difference between positive-end and negative-end signals of the transmission signal according to an echo cancellation control signal.

Abstract: A Radio Frequency Interference (RFI) estimation device for generating an estimated RFI signal includes a combiner, a first multiplier and a second multiplier. The combiner is configured to combine a first digital signal and a second signal to generate the estimated RFI signal. The first multiplier is configured to generate the first digital signal according to an in-phase signal and a first cosine signal. The second multiplier is configured to generate the second digital signal according to a quadrature-phase signal and a first sine signal. The first cosine signal and the first sine signal are generated based on a frequency and the in-phase signal and the quadrature-phase signal are generated based on the frequency and one or more harmonics of the frequency.

Abstract: Disclosed is an interference canceller capable of generating a cancellation signal for reducing cross port alien near-end (XPAN) crosstalk of a reception signal received by a receiver of a network device.

Abstract: The present invention provides a voltage difference measurement circuit comprising a level shifting circuit, an ADC and a calculation circuit. In the operations of the voltage difference measurement circuit, the level shifting circuit adjusts levels of a supply voltage and a ground voltage to generate an adjusted supply voltage and an adjusted ground voltage, respectively. The ADC performs an analog-to-digital converting operation upon the adjusted supply voltage and the adjusted ground voltage to generate a first digital value and a second digital value, respectively. The calculation circuit calculates a voltage difference between the supply voltage and the ground voltage according to the first digital value and the second digital value.

Abstract: A transceiver circuit includes an ADC and an echo-cancellation circuit, wherein the echo-cancellation circuit includes a steady circuit, a transient circuit and an output circuit. In the operations of the transceiver circuit, the ADC is configured to perform an analog-to-digital conversion operation on an analog input signal to generate a digital input signal. The steady circuit is configured to generate a steady echo response according to a transmitting signal. The transient circuit is configured to generate an echo response adjustment signal according to a phase change of a clock signal used by the transmitting signal. The output circuit is configured to generate an output signal according to the digital input signal, the steady echo response, and the echo response adjustment signal.

Abstract: A method of a data transmission apparatus applied in high-speed wired network includes: performing analog-to-digital conversion operation upon a time-domain analog training data signal transmitted from a link partner device to generate a time-domain digital training data signal; converting the time-domain digital training data signal into a frequency-domain training data signal; performing a frequency-domain feed-forward equalization (FFE) operation upon the frequency-domain training data signal to generate a frequency-domain FFE resultant signal; converting the frequency-domain FFE resultant signal into a time-domain FFE resultant signal; generating a difference resultant signal according to the time-domain FFE resultant signal and a feed-back equalization (FBE) resultant signal; receiving the difference resultant signal to generate a slicer resultant signal; and using the FBE operation to generate the FBE resultant signal according to the slicer resultant signal.

Abstract: The present invention provides a receiver including an ADC, an echo-cancellation circuit and a control circuit. In the operations of the receiver, the ADC uses a clock signal to perform an analog-to-digital converting operation on an analog input signal to generate digital input signal, the echo-cancellation circuit refers to a plurality of tap coefficients to perform an echo-cancellation operation on the digital input signal to generate an output signal, and the control circuit is configured to control a phase of the clock signal inputted into the ADC. In addition, when the phase of the clock signal is adjusted, the control circuit calculates a plurality of updated tap coefficients according to the plurality of tap coefficients used by the echo-cancellation circuit in a previous time, for use of the echo-cancellation circuit.

Abstract: The present invention provides a voltage difference measurement circuit comprising a level shifting circuit, an ADC and a calculation circuit. In the operations of the voltage difference measurement circuit, the level shifting circuit adjusts levels of a supply voltage and a ground voltage to generate an adjusted supply voltage and an adjusted ground voltage, respectively. The ADC performs an analog-to-digital converting operation upon the adjusted supply voltage and the adjusted ground voltage to generate a first digital value and a second digital value, respectively. The calculation circuit calculates a voltage difference between the supply voltage and the ground voltage according to the first digital value and the second digital value.

Abstract: The present disclosure provides a signal receiving apparatus having anti-RFI mechanism that includes an ADC circuit, an equalization circuit and a clock recovery circuit. The ADC circuit performs conversion of an input analog signal according to an internal clock signal, to generate an input digital signal. The equalization circuit equalizes the input digital signal such that the clock recovery circuit adjusts a phase of the internal clock signal and extracts a frequency by performing statistics on phase deviation amount information in a unit of a time window. The clock recovery circuit discards a corresponding phase deviation amount when a signal interference parameter of one of a sub time window is larger than a threshold value to update the phase deviation amount information, and generates an adjusting signal to adjust a frequency of the internal clock signal accordingly.

Abstract: A communication device capable of echo cancellation includes a digital circuit, a transmitter circuit, a hybrid circuit, an adjustable capacitor circuit, and a receiver circuit. The digital circuit transmits a digital transmission signal and receives a digital reception signal. The transmitter circuit outputs an analog transmission differential signal according to the digital transmission signal. The hybrid circuit outputs a transmission signal to an external circuit via an adjustable capacitor circuit according to the analog transmission differential signal, and outputs an analog reception differential signal to a receiver circuit according to at least one of the analog transmission differential signal and a reception signal from the external circuit. The adjustable capacitor circuit controls a delay difference between positive-end and negative-end signals of the transmission signal according to an echo cancellation control signal.

Abstract: A smart phase switching method includes setting a first phase switching threshold, a convergence upper bound, and a convergence lower bound, sampling a received signal continuously for acquiring a phase offset accumulated value of the received signal during each period, updating the first phase switching threshold to generate a second phase switching upper bound threshold and a second phase switching lower bound threshold when a plurality of phase offset accumulated values of the received signal during a first predetermined time interval fall into a range from the convergence upper bound to the convergence lower bound, and sampling the received signal continuously for determining if a phase is switched to an opposite operating point according to a phase offset accumulated value of the received signal after the second phase switching upper bound threshold and the second phase switching lower bound threshold are generated.

Abstract: Disclosed is a bit error rate (BER) forecast circuit for successive approximation register analog-to-digital conversion. The BER forecast circuit includes an N bits successive approximation register analog-to-digital converter (N bits SAR ADC) and an estimation circuit. The N bits SAR ADC is configured to carry out a regular operation at least N times and an additional operation at least X time(s) in one cycle of conversion time, in which the N is an integer greater than 1 and the X is an integer not less than zero. The estimation circuit is configured to generate a test value according to total times the N bits SAR ADC carrying out the additional operation in Y cycles of the conversion time, in which the Y is a positive integer and the test value is related to the bit error rate of the N bits SAR ADC.

Abstract: Disclosed is a bit error rate (BER) forecast circuit for successive approximation register analog-to-digital conversion. The BER forecast circuit includes an N bits successive approximation register analog-to-digital converter (N bits SAR ADC) and an estimation circuit. The N bits SAR ADC is configured to carry out a regular operation at least N times and an additional operation at least X time(s) in one cycle of conversion time, in which the N is an integer greater than 1 and the X is an integer not less than zero. The estimation circuit is configured to generate a test value according to total times the N bits SAR ADC carrying out the additional operation in Y cycles of the conversion time, in which the Y is a positive integer and the test value is related to the bit error rate of the N bits SAR ADC.

Abstract: A brazing material composition is provided, which may include Ge, Ag and Si, where the atomic percentage of Ge may be between 0<Ge?20 at %, the atomic percentage of Ag may be between 20?Ag<88 at %, and the atomic percentage of Si may be between 12<Si?60 at %. The thermo-physical properties of the brazing material composition can be easily adjusted; besides, the brazing material composition not only has low thermal expansion coefficient, but also has great structure stability and gas-tightness at elevated temperatures.

Abstract: Disclosed is a correcting device of successive approximation analog-to-digital conversion. The correcting device includes a successive approximation register analog-to-digital converter (SAR ADC) and a digital circuit. The SAR ADC is configured to generate a digital output. The digital circuit is configured to determine whether the digital output conforms to a metastable output, and correct the digital output when the digital output conforms to the metastable output. The metastable output is related with a metastable binary comparison-results sequence including successive K comparison results such as 110000 or 001111. The K comparison results include a first comparison result, a second comparison result and successive M comparison results in turn. The first comparison result and the second comparison result are the same; the M comparison results are the same; each of the first comparison result and the second comparison result is different from any of the M comparison results.

Abstract: This invention discloses a signal receiving device for Ethernet and a control method thereof. The signal receiving device includes a gain control circuit, an alien near-end crosstalk canceller, a noise canceller, and a DFE. The gain control circuit adjusts an input signal of the signal receiving device according to a setting parameter. The alien near-end crosstalk canceller cancels an alien near-end crosstalk interference. The noise canceller uses a first filter to cancel noises. The DFE uses a second filter to cancel an inter-symbol interference of the input signal. The method includes steps of: temporarily stopping the gain control circuit from updating the setting parameter before a seed collision occurs, and temporarily stopping one of the noise canceller and the decision feedback canceller from updating the first filter coefficient of the first filter or the second filter coefficient of the second filter temporarily during the seed collision.