Voltage-controlled oscillator, signal generation apparatus, and electronic device

The invention claimed is: 1. A signal generation apparatus comprising: a voltage-controlled oscillator that includes an oscillation circuit for performing an oscillation operation at a frequency that corresponds to an inductance and a capacitance between a first node and a second node, a first group of capacitors that have a first terminal connected to the first node, a first group of transistors that are respectively connected between a reference potential and second terminals of the first group of capacitors and switch on and off in accordance with respective control signals, a first group of resistors that are respectively parallel-connected to the first group of transistors, a second group of capacitors that have a first terminal connected to the second node, a second group of transistors that are respectively connected between the reference potential and second terminals of the second group of capacitors and switch on and off in accordance with respective control signals, and a second group of resistors that are respectively parallel-connected to the second group of transistors; a frequency division circuit that divides an oscillation signal generated by the voltage-controlled oscillator and outputs a frequency division signal; an error signal generation circuit that compares at least the phase of the frequency division signal output from the frequency division circuit and at least the phase of a reference signal, and generates an error signal that corresponds to the difference therebetween; a first filter circuit that generates a control voltage for controlling the oscillation frequency of the voltage-controlled oscillator by subjecting the error signal to low-pass filter processing; a first switch circuit that switches on and off a supply of the error signal to the first filter circuit; a second filter circuit that generates a control voltage for controlling the oscillation frequency of the voltage-controlled oscillator by subjecting a modulation signal to low-pass filter processing; a second switch circuit that switches on and off a supply of the modulation signal to the second filter circuit; and a control circuit that controls the first switch circuit and the second switch circuit. 2. The signal generation apparatus according to claim 1 , wherein the control circuit switches off the first switch circuit and switches on the second switch circuit after a time period longer than or equal to the highest value among time constants respectively determined by capacitance values of the first group and second group of capacitors and resistance values of the corresponding first group and second group of resistors has elapsed from when a power supply voltage was supplied to the voltage-controlled oscillator. 3. The signal generation apparatus according to claim 1 , wherein after a power supply voltage has been supplied to the voltage-controlled oscillator, the control circuit temporarily switches on the first group and second group of transistors and discharges charge at the second terminals of the first group and second group of capacitors, then switches off a predetermined transistor in the first group and second group of transistors, and after the oscillation frequency of the voltage-controlled oscillator is locked, the control circuit switches off the first switch circuit and switches on the second switch circuit. 4. A signal generation apparatus comprising: a voltage-controlled oscillator that includes an oscillation circuit that performs an oscillation operation at a frequency that corresponds to an inductance and a capacitance between a first node and a second node, a first capacitor that has a first terminal connected to the first node, a first transistor that is connected between a reference potential and a second terminal of the first capacitor and switches on and off in accordance with a control signal, a first resistor that is parallel-connected to the first transistor, a second capacitor that has a first terminal connected to the second node, a second transistor that is connected between the reference potential and the second terminal of the second capacitor and switches on and off in accordance with a control signal, and a second resistor that is parallel-connected to the second transistor; a frequency division circuit that divides an oscillation signal generated by the voltage-controlled oscillator and outputs a frequency division signal; an error signal generation circuit that compares at least the phase of the frequency division signal output from the frequency division circuit and at least the phase of a reference signal, and generates an error signal that corresponds to the difference therebetween; a filter circuit that generates a control voltage for controlling the oscillation frequency of the voltage-controlled oscillator by subjecting the error signal to low-pass filter processing; a switch circuit that switches on and off a supply of the error signal to the filter circuit; and a control circuit that controls the switch circuit; wherein letting a time constant determined by a capacitance value of the first capacitor and a resistance value of the first resistor be a first time constant, and letting a time constant determined by a capacitance value of the second capacitor and a resistance value of the second resistor be a second time constant, the control circuit switches off the switch circuit after a time period longer than or equal to the highest value out of the first time constant and the second time constant has elapsed from when a power supply voltage was supplied to the voltage-controlled oscillator. 5. A signal generation apparatus comprising: a voltage-controlled oscillator that includes an oscillation circuit that performs an oscillation operation at a frequency that corresponds to an inductance and a capacitance between a first node and a second node, a first capacitor that has a first terminal connected to the first node, a second capacitor that has a first terminal connected to the second node, a transistor that is connected between a second terminal of the first capacitor and a second terminal of the second capacitor, and switches on and off in accordance with a control signal, a first resistor that is connected between a reference potential and the second terminal of the first capacitor, and a second resistor that is connected between the reference potential and the second terminal of the second capacitor; a frequency division circuit that divides an oscillation signal generated by the voltage-controlled oscillator and outputs a frequency division signal; an error signal generation circuit that compares at least the phase of the frequency division signal output from the frequency division circuit and at least the phase of a reference signal, and generates an error signal that corresponds to the difference therebetween; a filter circuit that generates a control voltage for controlling the oscillation frequency of the voltage-controlled oscillator by subjecting the error signal generated by the error signal generation circuit to low-pass filter processing; a switch circuit that switches on and off a supply of the error signal to the filter circuit; and a control circuit that controls the switch circuit; wherein letting a time constant determined by a capacitance value of the first capacitor and a resistance value of the first resistor be a first time constant, and letting a time constant determined by a capacitance value of the second capacitor and a resistance value of the second resistor be a second time constant, the control circuit switches off the switch circuit after a time period longer than or equal to the highest value out of the first time constant and the second time constant has elapsed from when a power supply voltage was supplied