Phase modulation device and method of controlling the device

What is claimed is: 1. A phase modulation device comprising: a diode-type phase modulator which has a plurality of first side terminals arranged side by side on and connected to one side of an optical waveguide core along an optical axis of the optical waveguide core, and a second side terminal connected to an other side of the optical waveguide core along the optical axis of the optical waveguide core; electrodes each connected to each of the plurality of first side terminals; first conductivity type regions each formed on each of the first side terminals; a second conductivity type region formed on the second side terminal; and a control unit that controls electrical signals to be input to the phase modulator, wherein the control unit has switches connected to the electrodes and constant-current sources that supply a constant current to the electrodes and controls stepwise a phase change for light propagating in the optical waveguide core according to the number of the switches turned on, and a part of the second conductivity type region is crossing over the optical waveguide core, extended to a space between every two of the first conductivity type regions, and located close to the first conductivity type regions without contact with the first conductivity type regions, in a plan view. 2. The phase modulation device according to claim 1 , wherein a current value of each of the constant-current sources is set so that a voltage applied to each diode of the phase modulator is equal to or higher than 0.9 V in a forward direction when the switch is turned on. 3. The phase modulation device according to claim 1 , wherein operating lengths of the first side terminals are equal to each other, and current values of the constant-current sources are set equal to each other. 4. The phase modulation device according to claim 1 , wherein if the number of the first side terminals is N, the length of the ith one of the first side terminals and a current value of the constant-current source are set to L×2 i-1 and I×2 i-1 , respectively (i=1, . . . , N−1, N) by using constant values L and I. 5. The phase modulation device according to claim 1 , wherein a Mach-Zehnder optical waveguide having two arms is formed, and wherein the phase modulator is provided on at least one of the two arms functioning as the optical waveguide core.