A sampling circuit in a successive approximation type analog-to-digital (A/D) converting device samples a pair of analog signals constituting a differential input signal. A capacitor circuit reflects a signal level of a reference signal in the pair of analog signals through an attenuation capacitance unit and a binary capacitance unit to generate a pair of voltage signals. A comparison circuit compares the pair of voltage signals. A control circuit determines a value of each bit of a digital signal on the basis of the result of the comparison and reflects the value in the reference signal. The attenuation capacitance unit includes a fixed capacitance unit connected between a signal node at which the sampled analog signals are held and a predetermined potential node and a variable capacitance unit connected between the signal node and the predetermined potential node in parallel with the fixed capacitance unit.

Methods and apparatuses for transmitting coding indication information and determining a precoding matrix, for use in resolving the problem that the resolution of code words in a codebook generated by using a combination of a beam vector subgroup and column selection cannot be flexibly adjusted. The method comprises: determining first precoding indication information and second precoding indication information, the first precoding indication information corresponding to a first-stage precoding matrix, the second precoding indication information corresponding to a direction weighting vector and a phase adjustment factor, the direction weighting vector being used for performing interpolation processing on parts representing angles corresponding to beam vectors in the all beam vectors in each polarization direction in the first-stage precoding matrix, the phase adjusting factor being used for performing phase adjustment on different polarization directions of the first-stage precoding matrix, and the first-stage precoding matrix, the direction weighting vector, and the phase adjustment factor being used for generating a precoding matrix. The resolution of a precoding matrix is flexibly adjusted by using a direction weighting vector.

A method and device for the cyclic digital transfer of a position value of a moving object having inertial mass, the value range of the transferred position value being limited in such a way that no whole revolution or, in the case of a linear motion, other complete period that is conditional upon mechanical conditions is mappable, and the actual position is generated by detecting, in an evaluation unit, instances of the value range being exceeded.

A method and device for the cyclic digital transfer of a position value of a moving object having inertial mass, the value range of the transferred position value being limited in such a way that no whole revolution or, in the case of a linear motion, other complete period that is conditional upon mechanical conditions is mappable, and the actual position is generated by detecting, in an evaluation unit, instances of the value range being exceeded.

A sampling circuit in a successive approximation type analog-to-digital (A/D) converting device samples a pair of analog signals constituting a differential input signal. A capacitor circuit reflects a signal level of a reference signal in the pair of analog signals through an attenuation capacitance unit and a binary capacitance unit to generate a pair of voltage signals. A comparison circuit compares the pair of voltage signals. A control circuit determines a value of each bit of a digital signal on the basis of the result of the comparison and reflects the value in the reference signal. The attenuation capacitance unit includes a fixed capacitance unit connected between a signal node at which the sampled analog signals are held and a predetermined potential node and a variable capacitance unit connected between the signal node and the predetermined potential node in parallel with the fixed capacitance unit.

A sampling circuit in a successive approximation type analog-to-digital (A/D) converting device samples a pair of analog signals constituting a differential input signal. A capacitor circuit reflects a signal level of a reference signal in the pair of analog signals through an attenuation capacitance unit and a binary capacitance unit to generate a pair of voltage signals. A comparison circuit compares the pair of voltage signals. A control circuit determines a value of each bit of a digital signal on the basis of the result of the comparison and reflects the value in the reference signal. The attenuation capacitance unit includes a fixed capacitance unit connected between a signal node at which the sampled analog signals are held and a predetermined potential node and a variable capacitance unit connected between the signal node and the predetermined potential node in parallel with the fixed capacitance unit.