Phase-locked loop circuit, recording-and-reproducing apparatus, and electronic apparatus

1. A phase-locked loop circuit, comprising:

• a phase detection unit which detects phase information of an input signal;
  
  a loop filter unit which includes a series circuit of a resistor circuit and a capacitor circuit, a terminal of the capacitor circuit opposite the resistor circuit being connected to a reference point;
  
  a first pulse-current output unit which supplies a differential pulse current to one of the resistor circuit and the capacitor circuit from a positive-phase output terminal and a negative-phase output terminal, the differential pulse current corresponding to the phase information output from the phase detection unit;
  
  a second pulse-current output unit which supplies a single-end pulse current to the other one of the resistor circuit and the capacitor circuit from a single output terminal, the single-end pulse current corresponding to the phase information output from the phase detection unit;
  
  an oscillating unit capable of varying an oscillation frequency in accordance with a component obtained by combining a voltage generated at both ends of the one of the resistor circuit and the capacitor circuit on the basis of the differential pulse current supplied from the positive-phase output terminal and the negative-phase output terminal of the first pulse-current output unit and a voltage generated at both ends of the other one of the resistor circuit and the capacitor circuit on the basis of the single-end pulse current supplied from the single output terminal of the second pulse-current output unit; and
  
  a calibration unit which obtains information of an oscillation gain in actual operation and corrects an oscillating operation of the oscillating unit on the basis of a difference between the oscillation gain in actual operation and a target oscillation gain, the oscillation gain in actual operation representing a characteristic of oscillation frequency versus input signal of the oscillating unit and being obtained using oscillation control signals for correction with predetermined magnitudes on the basis of a difference between actual oscillation frequencies under the oscillation control signals,wherein the calibration unit includesa reference potential generator which generates a reference voltage with a predetermined magnitude;
  
  a current bias unit which includes a reference resistor having a resistance with a reference magnitude, which generates a reference current with a predetermined magnitude on the basis of the reference voltage generated by the reference potential generator and the reference resistor, and which generates a bias current for correction of the oscillation gain by mirroring the reference current; and
  
  a correction control signal generator which generates the oscillation control signals for correction on the basis of the bias current for correction generated by the current bias unit,wherein the correction control signal generator includes a series circuit of a resistor element through which the bias current for correction flows and a transistor having a temperature characteristic that matches a temperature characteristic of a transistor included in the oscillating unit, andwherein the reference resistor and the resistor element through which the bias current for correction flows have substantially the same temperature variation characteristic.