JPH0329775Y2 - - Google Patents

Description

[Detailed description of the invention] (a) Industrial application field The present invention relates to a disk player that uses an optical pick-up to reproduce signals recorded on a disk. This invention relates to a disc player that can be controlled correctly.

(B) Prior Art A disc player, for example a digital audio disc player, which uses an optical pickup to reproduce signals from a disc on which concavities and convexities corresponding to digital signals are engraved, is well known. The disc player generally has a song selection search function to quickly play a desired song out of a plurality of songs, but this function calculates the difference between the address information recorded on the disk and the target address. However, this is done by moving the pickup in the radial direction of the disk so that the difference becomes zero. Therefore, the movement of the pick-up includes coarse feed using a motor and fine feed using a track jump in order to both reach the target address in a short time and correctly locate the target address. It is done in combination. This point is detailed in, for example, Japanese Patent Publication No. 13101/1983.

By the way, when a motor is used to coarsely feed the pick-up main body, it is necessary to detect address information while the pick-up is moving in order to prevent overshooting. Therefore, it is necessary to control the objective lens by applying a drive signal to the objective lens so that the objective lens is always in the on-track position and can pick up the address information. Specifically, as shown in FIG. 2, when the pickup main body 1 moves in the direction of arrow A, control is performed by applying a tracking drive signal so that the center of the objective lens 2 is always in the on-track position. . In FIG. 2, the one-dot chain line indicates the on-track position, and the two-dot chain line indicates the center of the pickup body 1. According to the drive signal, the objective lens 2 moves from the position shown in FIG. 2A through the position shown in FIG. 2B to the position shown in FIG. 2C, and then returns to the position shown in FIG. Conventionally, a kickback pulse has been used to return the objective lens. During the period in which the tracking drive signal is generated, the objective lens 2 is in the on-track position, and address information is picked up, and during the period in which the kickback pulse is generated, tracking jump is performed, so the coarse feed of the pick-up and the current position are performed. A check was being carried out.

(c) Problems to be solved by the invention However, the method of controlling the position of the objective lens using the kickback pulse is based on the relationship between the feed speed of the motor for coarsely feeding the pick-up and the generation timing of the kickback pulse. Timing deviations are likely to occur, especially in the rising state at the beginning of pick-up feeding, and there is a risk that tracking will not be possible.

(d) Means for solving the problem The present invention was created in view of the above-mentioned points, and uses the period of free vibration of the objective lens to return the objective lens without using a kickback pulse. means for detecting the level of the drive voltage applied to the tracking coil for the purpose; and means for generating a pulse having a width approximately half the period of free vibration of the objective lens in accordance with the output of the means; The apparatus is characterized in that it includes means for stopping application of the drive voltage to the tracking coil during the period in which the pulse is generated.

(E) Effect According to the present invention, when the drive voltage applied to the tracking coil reaches a predetermined level, the drive voltage is stopped from being applied to the tracking coil, and then the free vibration of the objective lens is stopped. Since the drive voltage is applied to the tracking coil again after approximately 1/2 of the period of This can eliminate instability.

(f) Example Figure 1 shows an example of the present invention.
4 is an amplifier circuit that amplifies the output signal of the drive signal generator circuit 3; 5 is a drive signal generator circuit that generates a tracking drive signal; 5 is an amplifier circuit that tracks an objective lens (not shown) in accordance with the output signal of the amplifier circuit 4; a tracking coil driven in the direction; 6, a first comparator circuit that generates an output signal when the output signal of the amplifier circuit 4 exceeds a predetermined level; and 7, a first comparator circuit that generates an output signal when the output signal of the amplifier circuit 4 falls below a predetermined level; a second comparator circuit which generates an output signal when
or a differentiating circuit that differentiates the output signal of the second comparison circuit 6 or 7; 9 is a monostable multivibrator that is triggered according to the output signal of the differentiating circuit 8; and 10 is a monostable multivibrator that is triggered according to the output signal of the monostable multivibrator 9; It is a short-circuit transistor that turns on in response.

Next, the operation of the circuit shown in FIG. 1 will be explained with reference to FIG. Now, suppose that the pickup body 1 and the objective lens 2 are at the position shown in FIG. 2B at time _t0 , and the pickup is moved from there in the direction of arrow A by motor drive. A drive signal increasing in the positive direction is generated from the signal generation circuit 3, and after being amplified by the amplifier circuit 4, the drive signal is applied to the tracking coil 5. Therefore, the objective lens 2 is moved in the direction of arrow B with respect to the pickup body 1 by the driving force of the tracking coil 5, and the pickup body 1 and the objective lens 2 reach the position shown in FIG. 2C.
When the objective lens 2 reaches the position shown in FIG. 2C at time _t1 , the output voltage of the amplifier circuit 4 becomes _V1 as shown in FIG _. Since it is larger than (V ₁ > V _ref ),
A positive output signal is generated in the first comparator circuit 6 and is differentiated by the differentiator circuit 8 . Therefore, a differential pulse as shown in FIG. 3B is generated at the output terminal of the differentiator circuit 8, and is applied as a trigger pulse to the monostable multivibrator 9, which outputs the output as shown in FIG. 3C. A pulse is generated, turning on the shorting transistor 10. When the short circuit transistor 10 is turned on, the amplifier circuit 4
Since the input end of the tracking coil 5 is grounded, the input voltage of the tracking coil 5 becomes _zero as shown in FIG. The free vibration of the objective lens 2 ends when the output of the monostable multivibrator 9 becomes zero and the short-circuit transistor 10 is turned off, as shown in FIG. 3C, at time _t2 . While the output pulse of the monostable multivibrator 9 is being generated, the pickup main body 1 and the objective lens 2 move from the position shown in FIG. 2C to the position shown in FIG. The output signal changes as shown in FIG. 3A, but since the shorting transistor 10 is on, the output signal is not applied to the tracking coil 5. The width of the output pulse of the monostable multivibrator 9 has a period determined according to the free vibration frequency ₀ of the objective lens 2.
It is set to approximately 1/2 of T ₀ (=1/ ₀ ). Therefore, when the driving voltage applied to the tracking coil 5 reaches approximately the maximum in the positive direction and the displacement speed of the objective lens 2 becomes approximately zero, the output pulse is generated, and the driving voltage increases approximately in the negative direction. maximum, objective lens 2
When the displacement velocity of becomes approximately zero, the output pulse can be terminated. As a result, the output signal of the drive signal generating circuit 3 can be smoothly and stably applied to the tracking coil 5 at the end of the output pulse, and the objective lens 2 can be easily controlled to the on-track position.

At time _t2 , when the drive signal is again applied from the amplifier circuit 4 to the tracking coil 5,
The objective lens 2 passes from the position shown in FIG. 2A to the position shown in FIG. _2B , and reaches the position shown in FIG. Then, as shown in FIG. 3D, tracking is off from time _t1 to _t2 , and tracking is on from time _t2 to _t3 , and a tracking jump is performed in the tracking off state. , address information is checked in the tracking-on state.

The second comparison circuit 7 in FIG. 1 is used when the pickup main body 1 is moved in the opposite direction to the arrow A in FIG.
When the output signal of the drive signal generation circuit 3 changes in the negative direction during movement in the opposite direction, and the output signal level of the amplifier circuit 4 becomes equal to or lower than the voltage -V _ref of the reference power supply 12, an output signal is generated.

(g) Effects of the invention As described above, according to the invention, when the objective lens is driven to the tracking limit during coarse feeding when the pick-up main body is driven by a motor, the driving of the objective lens is stopped and the free vibration is stopped. Since the position of the objective lens is moved by , the objective lens can be quickly and reliably brought to the on-track position when tracking is turned on. In particular, since a pulse generator is used whose pulse width is set to approximately 1/2 of the period of free vibration of the objective lens, the tracking is turned on when the displacement speed of the objective lens becomes approximately zero, and transient This can eliminate instability.

[Brief explanation of drawings]

Fig. 1 is a circuit diagram showing an embodiment of the present invention, Fig. 2 A to C are model diagrams for explaining the invention, and Fig. 3 A to D are characteristic diagrams showing waveforms of each part of Fig. 1. It is. Explanation of main drawing numbers, 3... Drive signal generation circuit, 5
...tracking coil, 6,7...comparison circuit,
8... Differential circuit, 9... Monostable multivibrator, 10... Short circuit transistor.

Claims (1)

[Scope of Claim for Utility Model Registration] In a disk player in which the pick-up main body is driven by a motor to coarsely feed the pick-up in the radial direction of the disk, and during this time a tracking drive signal is applied to a tracking coil to control the position of the objective lens, means for detecting that the driving voltage applied to the tracking coil exceeds a predetermined level in order to control the position of the objective lens; 1. A disc player comprising: means for generating a pulse having a width of /2; and means for stopping application of the drive voltage to the tracking coil during the generation period of the pulse.