JPS61166217A - Voltage controlled oscillator - Google Patents

Abstract

PURPOSE:To decrease the drift by using a voltage/current converting circuit so as to convert an output voltage of a phase comparator into t current signal, using a current mirror circuit so as to apply the current to a capacitor and charging/discharging the capacitor current by an FF circuit. CONSTITUTION:The voltage/current converting circuit 21 converts an output voltage VIN from the phase comparator into a current. The output current is expressed by a drain current IDD1 VIN/Pss of an MOS transistor (Tr) N1. The current mirror circuit 22 flows the current to the source of MOS Trs P1, P2. ON the other hand, MOS Trs P4, N2 and P5, N3 constitute two sets of switch circuits. When an output of a gate G1 is at L, an output of a gate G2 is at an H level, the level of a terminal 6 of the capacitor C1 is nearly equal to a potential VSS(=0), potential of other terminal 7 rises because the drain current of the MOS Tr P2 charges the capacitor C1, and when the voltage rises up to a switching level of inverters I5-I7, the FF 24 is inverted.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a voltage controlled oscillator used for clocking a controller IC of a liquid crystal television.

2. Description of the Related Art In recent years, liquid crystal televisions have attracted attention as portable televisions. In such liquid crystal televisions, in order to save power, there is a tendency for various control circuits (controllers) and additional clock oscillators to be constructed on the same semiconductor chip using C-MO8 circuits like other digital circuits. However, in the past, the clock oscillator was an oscillator constructed of bipolar transistors with stable performance, and the various control circuits were C-MOS circuits, resulting in a two-chip design.

Problems to be Solved by the Invention On the other hand, when attempting to configure a controller for an LCD television using a C-MO3 circuit, the frequency of the clock oscillator is as high as several MHz, and conventionally it has not been possible to synchronize it with the television signal. Therefore, there was a problem in that it was difficult to obtain an oscillator with little temperature drift and voltage drift.

In view of the above-mentioned problems, the present invention is particularly suitable as a voltage controlled oscillator for generating clocks for controllers for LCD televisions, and has a C-type C-oscillator with low temperature drift and voltage drift.
The purpose of this invention is to provide a voltage controlled oscillator using MOS.

Means for Solving the Problems In order to solve the above problems, the voltage controlled oscillator of the present invention converts the output voltage from the phase comparator into an original signal using an operational amplifier and a source follower transistor. The current is supplied to a capacitor using a current mirror circuit, and the current in the capacitor is charged and discharged using a flip-flop.

According to the present invention, with the above configuration, it is possible to generate a stable lock of several MHz with little drift.

Embodiment Hereinafter, a voltage controlled oscillator according to an embodiment of the present invention will be described with reference to the drawings. In FIG. 2, 11 is a phase comparator, and 12 is a voltage controlled oscillation circuit.

In addition, FIG. 1 shows its detailed configuration, and in the figure, 2
1 is an operational amplifier OP, and a voltage-current conversion circuit consisting of a source follower 1 and a run sister N1; 2
2 is a current mirror circuit, 23 is an inverter circuit, 24
is 70 flips. N1 to N5 are N-type MOS
+- run sister, P, ~P5 is a P-type MOS) run sister.

Rs is MOS) source resistance of Lancisister N1, C1
is an external capacitor, ■, ~ engineering. is inverter, 01
~G2 is a NOR gate constituting a flip-flop.

The voltage-current conversion circuit 21 converts the output voltages v and N from the phase comparator 11 into currents. In the tray circuit 22 of MO8I-Run Sister N1, this output current is
The drain current of this MOS) run sister N1 is M
OS transistor P4. P2 flows to P2 source.

Therefore, this current is controlled by the phase comparison output voltage v1N.

On the other hand, a flip-flop composed of gates G1 and G2, and a MOS) run sister P4. N2 and P5.
N3 constitutes two sets of switch circuits.

When the output of the gate G1 is at a low level, the output of the gate G2 is at a high level, and the MOS transistors P5 and N2 are on, and the MOS transistors P4 and N5 are off. At this time, the potential of terminal 6 of capacitor C4 is approximated to the potential of 6heno v8s (-〇), and the potential of the other end 7 is MOS
) At the drain current of Runsistor P2, capacitor C1
As it charges, it rises. When the voltage at terminal 7 rises to a level at which inverter G1. The flip-flop circuit 24 composed of G2 is inverted and now the MOS I-run sister P4. N3 is on, MOS) Runsister P5. N2
is turned off. As a result, the terminal 6 is set to vss (#O) by the MOS transistor N5, so that the voltage at the terminal 6 is lower than that vss. However, since the diode junction between the second gate and drain of MOS transistor N2 is forward biased, the terminal 6
The potential immediately becomes V, (=O,). Then, this time, the capacitor C1 is charged from the MOS transistor P4, and the same operation is repeated.

In this way, since the charging current to the capacitor C1 can be controlled by the phase comparison voltage from the phase comparator 11, the oscillation frequency can be controlled.

Effect 6 of the invention - As described above, according to the present invention, the voltage-current conversion circuit,
By using an oscillation circuit consisting of a flip-flop, a stable voltage-controlled oscillator with a high oscillation frequency and little drift is obtained using a C-=MOS transistor, which is particularly suitable for use as a controller for a liquid crystal television. I can do things.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram of a voltage controlled oscillator according to an embodiment of the present invention,
FIG. 2 is a block diagram of the entire system. 11...Voltage-current conversion circuit, 12...
・Oscillation circuit, 21...Voltage-current conversion circuit, 2
2...Current mirror circuit, 23...
Inverter circuit, 24...Flip-flop, OPl...Operational amplifier, N, ~
N, , P1 to P5...MOS) thin sister, C1... Capacitor.

Claims (1)

[Claims] It is characterized by being equipped with an operational amplifier and source follower transistor that convert the output voltage from the phase comparator into a current signal, a current mirror circuit that supplies the output current to a capacitor, and a flip-flop that charges and discharges the capacitor. voltage controlled oscillator.