Abstract: A diversity reception device includes a power combiner to combine electric powers of OFDM signals, each OFDM signal being received by a first antenna and second antenna, a switch to change connections between branched output-ports of the first and second antennas, in mid-stream of effective symbol periods, the effective symbol periods are assigned respectively in each of symbol periods of the OFDM signals, a receiver to demodulate the OFDM signals, a phase shifter to shift phases of the OFDM signals received by the second antenna, and an arithmetic and control processing circuit to calculate complex correlation coefficient between a guard interval, assigned in each of the symbol periods associated with the first antenna, and a copy-source interval, assigned in each of the symbol periods associated with the second antenna, and to determine rotation angle on the basis of the complex correlation coefficient.

Abstract: The present invention provides a high-speed charge-transfer photodiode encompassing a first conductivity type semiconductor layer (20) serving as a charge-generation region; and a second conductivity type surface-buried region (21a) serving as a charge-transfer region of charges generated by the charge-generation region, wherein a specified direction in the surface-buried region (21a) provided along a plane parallel to a surface of the semiconductor layer (20) is assigned as a charge-transfer direction of the charges, and at least one of a variation of widths of the surface-buried region (21a) measured in an orthogonal direction to the charge-transfer direction and a variation of impurity concentration distributions of the surface-buried region (21a), which are measured along the charge-transfer direction, is determined such that an electric field distribution in the charge-transfer direction is constant.