KR920000453Y1 - Position checking circuit for low power consumption - Google Patents

Abstract

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Description

Low Power Consumption Location Check Circuit

1 is a conventional position checking circuit diagram.

2 is a position checking circuit diagram according to the present invention.

Figure 3 is a flow chart for explaining the operation of the position checking circuit according to the present invention.

* Explanation of symbols for the main parts of the drawings

10: head carriage 20: microprocessor

30: position checking circuit 40: switching unit

The present invention relates to a low power consumption position checking circuit, and in particular, checks the track zero position of the floppy disk drive and the hard disk drive and the home position of the printer. It relates to a low power consumption position checking circuit.

In the related art, power is always supplied to the position checking circuit for checking the track zero position of a floppy disk drive system, and so on, the power consumption is increased.

Therefore, an object of the present invention is to reduce power consumption by supplying power to the position checking circuit only when the track zero position of the floppy disk drive system is to be checked.

According to the present invention, in the position check circuit configured to link the position check circuit 30 including the light emitting element and the light receiving transistor with a closed circuit to the processor 20, the position check circuit 30 and the microprocessor 20 The switching unit 40 is connected between the plurality of switching units 40 so that the switching unit 40 is turned on and off according to the track zero check request signal from the microprocessor 20 so that the power supplied to the position checking circuit 30 is controlled. It is characterized by the configuration.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a conventional position checking circuit diagram. The operation state of the light receiving transistor TRI is controlled according to whether the DI and TRI are in operation at all times, whether the microprocessor requires track zero check or not. When the head carriage 10 blocks the light of the light emitting device DI, the light receiving transistor TRI is turned off so that a logical “high” signal is applied to the microprocessor 20 so that it is in the track zero position. When the light of the light emitting device DI is turned on by triggering the light receiving transistor TRI, a logic “low” signal is applied to the microprocessor 20 to confirm that the track zero position is not present. This supply can be seen that the power consumption is increased.

2 is a low power consumption position checking circuit diagram according to the present invention, wherein the collector terminal of the light receiving transistor TR2 of the position checking circuit 30 is connected to its emitter terminal via the light emitting elements D2, resistors R2 and R3. The connection points of the resistors R2 and R3 are connected to the collector terminal of the switching transistor TR3 in the switching section 40.

On the other hand, the emitter terminal of the transistor TR3 is grounded and connected to its base terminal via a bias resistor R5, which is connected to the microprocessor 20 via the resistor R4, and this line is connected to the microprocessor. A track zero check request signal is output, and the emitter terminal of the light receiving transistor TR2 is also connected to one terminal of the microprocessor 20 to be used as a track control position sensing signal input terminal.

Referring to the operation of the above-described configuration, if there is a track zero check request from the microprocessor 20, a logical "high" signal is output from the microprocessor 20 to which the resistor R4 is connected. Therefore, the connection points of the resistors R2 and R3 of the position checking circuit 30 are grounded, and Vcc power is applied to the position checking circuit 30.

Accordingly, when the light of the light emitting device D2 is blocked by the head carriage 10, the light receiving transistor TR2 is turned off to apply a logical “low” signal to the microprocessor 20, where the microprocessor 20 recognizes this. To confirm that the head carriage 10 is in the track zero position.

On the other hand, when the transistor TR2 is turned on by the light of the light emitting device D, a logical “high” signal is applied to the microprocessor 20, so that the head carriage 10 is in the track zero position. You will notice that none is in the.

On the other hand, if there is no track zero check request signal from the microprocessor 20, a logical "low" signal is input to the base terminal of the transistor TR3, and the transistor TR3 is turned off. Therefore, power is not supplied to the position checking circuit 30 so that the position checking circuit 30 is not operated.

3 is a flow chart for explaining the operation of the position checking circuit according to the present invention, from the start signal of step 101 to the head carriage 10 is moved to where the data is located in step 102, step 103 Proceeds to). Depending on whether there is a track zero check request from the microprocessor 20 in this step 103, its first step is generated by a BIOS program in the personal computer, in which case the purpose of initializing the floppy disk when the first personal computer is turned on, If an error occurs during the second writing / reading and the track zero position needs to be rechecked, and the third track zero is to be found, a request signal is sent from the personal computer to the microprocessor. Returning and continuing with the data position, if requested, the process proceeds to step 104 where, in step 104, the transistor TR3 is turned on to supply the Vcc voltage to the position checking circuit 30, and then step 105 Proceeds. In step 105 there is a time delay and the process proceeds to step 106 where in step 106 TR3 is turned off in step 107 if the track zero signal is logical " high " or " low " Return to step 102; if no, that is, logical "high", return to step 102 immediately.

As described above, the low power consumption position checking circuit according to the present invention reduces power consumption since power is supplied to the position checking circuit only when the track zero position of the floppy disk drive, the hard disk drive, and the system related to the home position is required. It has an excellent effect.

Claims (2)

In the position check circuit configured to link the microprocessor 20 with the position check circuit 30 including the light emitting element and the light receiving transistor in a closed circuit, a switching unit between the position check circuit 30 and the microprocessor 20 ( Low power consumption, characterized in that the switching unit 40 is turned on and off according to the track zero check request signal from the microprocessor 20 so that the power supplied to the position checking circuit 30 is controlled. Power position check circuit. 2. The switching unit (40) according to claim 1, wherein the switching unit (40) includes a switching transistor TR3 having an emitter grounded, and a collector terminal of the switch transistor TR3 is connected to one terminal of the position checking circuit 30, and the base terminal thereof. Is connected to the microprocessor 20 via the resistor R4, and the switching transistor TR3 is turned on and off in accordance with the track zero check request signal of the microprocessor 20, thereby supplying power to the position checking circuit 30. A low power consumption position checking circuit, characterized in that configured to be controlled.