Encoder

What is claimed is: 1 . An encoder comprising: a scale with a reference detection pattern for detecting a reference position in a measurement direction formed therein and a displacement detection pattern for detecting a displacement in the measurement direction formed therein; a detection head configured to output a reference detection signal, a phase compensation signal, and a displacement detection signal, the reference detection signal and the phase compensation signal being detection results of the reference detection pattern, the displacement detection signal being a detection result of the displacement detection pattern; and a signal processing unit configured to generate a reference signal by amplifying one or both of the phase compensation signal and the reference detection signal and adding up them, and detects a position of the detection head relative to the scale based on the reference signal and the displacement detection signal, wherein the detection head comprises: a light source configured to emit light to the scale; a combined light receiving grating comprising a reference detection light receiving grating configured to let light from the reference detection pattern pass therethrough, and a phase compensation light receiving grating configured to let the light from the reference detection pattern pass therethrough, the phase compensation light receiving grating being disposed so as to be shifted from the reference detection light receiving grating in the measurement direction; and a combined light receiving element comprising a reference detection light receiving element configured to photoelectric-convert the light passing through the reference detection light receiving grating to output the reference detection signal, and a phase compensation light receiving element configured to photoelectric-convert the light passing through the phase compensation light receiving grating to output the phase compensation signal. 2 . The encoder according to claim 1 , wherein a width in the measurement direction of a grating constituting the phase compensation light receiving grating is the same predetermined width as a width in the measurement direction of a grating constituting the reference detection light receiving grating, and the grating constituting the phase compensation light receiving grating is disposed so as to be shifted from the grating constituting the reference detection light receiving grating in the measurement direction by a distance equal to half the predetermined width. 3 . The encoder according to claim 1 , wherein a plurality of gratings constituting the reference detection light receiving grating are arranged in a row in the measurement direction, and each of a plurality of gratings constituting the phase compensation light receiving grating is disposed so as to be shifted from a corresponding one of the plurality of gratings constituting the reference detection light receiving grating. 4 . The encoder according to claim 1 , wherein the phase compensation light receiving grating is disposed so as to be apart from the reference detection light receiving grating in a direction that is in parallel with a surface of the scale on which the reference detection light receiving grating and the phase compensation light receiving grating are formed and perpendicular to the measurement direction. 5 . The encoder according to claim 1 , wherein the signal processing unit comprises: an amplifier configured to amplify an amplitude value of the phase compensation signal by a factor ranging from −1 to 1; and an adder configured to output a signal obtained by adding the amplified phase compensation signal and the reference signal as the reference signal. 6 . The encoder according to claim 1 , wherein the light source emits collimated light to the scale. 7 . The encoder according to claim 1 , wherein light that is emitted from the light source and passes through the scale is incident on the combined light receiving grating. 8 . The encoder according to claim 1 , wherein light that is emitted from the light source and reflected on the scale is incident on the combined light receiving grating. 9 . The encoder according to claim 1 , wherein the combined light receiving grating further comprises a displacement detection light receiving grating configured to let light from the displacement detection pattern pass therethrough, and the combined light receiving element further comprises a displacement detection light receiving element configured to photoelectric-convert the light passing through the displacement detection light receiving grating to output the displacement detection signal.