DK166472B1 - System for controlling a hard disk in a PC - Google Patents

Description

The invention relates to a plant as specified in the preamble of claim 1.

At least one mini computer is often located in today's offices. This type of office equipment has an impact on the indoor environment, including. in the form of heat emission and noise emission from the mini computer.

However, while the noise output from a mini computer is low, there are several noise sources in the apparatus which include several motor-driven bodies which, in most mini computers, are constantly running.

The main source of noise is usually a constant-running fan for cooling the electrical parts of the mini computer that emits heat. The noise emission from the cooling fan can be greatly reduced by the technique known from Danish Patent Application No. 5324/88 to reduce the operating time of the fan. Especially when the fan is not running, the noise from another noise source in the mini computer is clearly heard, namely a 25 even noise from the hard drive and its drive motor. In some types of mini computers, the hard drive and the drive motor even noise so much that you can clearly hear the noise, even when the cooling fan is running. Such constant background noise is highly bothersome and contributes to the deterioration of the office environment of the staff.

From US Patent No. 4,458,273 and DE Patent No. 3,531,794, circuits designed to stop the drive motor to a plate bearing are known when there has been no call to the storage for a certain period, thereby reducing wear and power use. These are microprocessor-controlled 2 DK 166472 B1 circuits, which are built-in and integrated into the current system, so you have direct access to all signal streams and functions in the computer system.

The object of the invention is to provide a system for stopping a hard drive when there has been no disk access for a fixed period of time, which system is arranged so that it can be easily and very quickly installed in a PC with a hard disk without greater intervention in the PC itself.

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This is achieved by designing the system according to the invention as set forth in the characterizing part of claim 1. In the mini-computer is inserted a program and a co-operating electronic circuit, which functions so that when the program has detected that there has been no disk or keyboard access for a specified period of time, the power to the drive is switched off to the hard drive. At the next disk access that is made, the hard disk will reboot automatically. Hereby, the desired function is obtained without interference in the circuit of the mini-computer, the function being obtained from sensing the signals on a serial input channel or port.

This greatly reduces the noise emission from the hard drive and its drive motor, and the remaining noise is changed from a continuous background noise to a discontinuous noise associated with the use of the mini computer, a noise form that is substantially less annoying than the continuous noise.

In practice, the program will comprise several program parts, namely a program part running in the background of the mini-computer, an installation program and a program for changing the parameters of the background program.

35 The system part, also called the hardware part, comprises the necessary electronic circuits, etc., which can switch on and off the drive to the drive of the hard disk drive.

By designing the system as claimed in claim 1, a simple and reliable circuit is provided, which can be mounted on a simple 5 small circuit board, which is placed in the computer device housing and plugged into one of the serial ports of the computer without restricting the use of the port.

By designing the system according to the invention as defined in the characterizing parts of claim 2 or claim 3, simple and reliable circuits can be obtained, which can operate without problems for years without any maintenance, and where the circuit can be reset. in connection with installation and trial run. The mechanical reset switch is usually not used during normal operation of the system.

In order to ensure that the system according to the invention always starts and stops the hard drive at times that do not interfere with the other "operation of the mini computer", the system is designed as indicated in the characteristic part of claim 4.

The invention is then further explained with reference to a preferred embodiment, in which: FIG. 1 shows a plant according to the invention; FIG. 2 is a pulse diagram showing a hard disk interruption; and FIG. 3 shows a pulse diagram when connecting a hard disk.

The system of FIG. 1 includes a connector S, a circuit board P with the electronic circuit, which will be explained in greater detail later, 35, and a connector ST for connecting power to the PCB and connecting power to the drive motor M to the hard disk.

4 DK 166472 B1. In the connector S, which is connected to one of the PC's serial input channels or ports (C0M1 or COM2), usually available in the form of a connector on the back of the PC's cabinet, the wires are A, B and C conductors with the following signal function: A: Request to send 10 B: Transmitted data C: Data terminal ready

The conductor 0 transfers the grounding to the circuit board P.

15 In FIG. 2 and 3 are pulse diagrams of the signal configurations of the wires A, B and C when the hard disk is stopped (Fig. 2) and when the hard disk is connected (Fig. 3).

20 In FIG. 1, the relay RE is shown with the movable switch R3 in the position where the hard drive is connected, i.e. with the relay RE in idle position with powerless relay coil.

U1 and U2 count the pulses on wires B and C from the 25 data program that detects whether there has been disk or keyboard access. So the hard drive is disconnected, and even if you work in a word processing program, the hard drive will only be started when you download or save something to the disk. If you rarely save or download something on your hard drive, your PC will be almost silent.

The pulse counting inputs U1 and U2 are coupled so that U1 only gives U2 access to count if U1 has counted the correct number of pulses, cf. the pulse diagrams of Figures 2 and 35 3.

5 DK 166472 B1 In the embodiment shown, the impulse number 5 is used on line B and the pulse number 7 on line C is interrupted by the current to the hard disk motor, see fig. 2, and the pulse number 4 on line B and the pulse number 9 on line C at 5 to connect the current to the motor, see fig. 3. In addition, the time consumption per day is stated. sequence on the horizontal axes of FIG. 2 and 3. In FIG. 1 it is seen that the pulse numbers are counted on counters U1 and U2 and appear on the outputs labeled 10 and 1 on U1 and on the outputs 6 and 11 on U2.

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Input on line A, as shown in FIG. 2 and 3, be high so that Ul is activated and can count.

The signal from U1 and U2 then passes through a logic circuit 15 U3 and U4, i.a. for error detection, the signals are then passed to U5, which is a bistable circuit, a so-called flip-flop, which is set or reset after the signal combination at the inputs 3 and 6.

The bistable circuit U5 controls a transistor T1 which manages the relay RE which breaks or terminates the 12 volt DC voltage to the hard disk motor M by means of the movable relay switch R3.

25 In the logic circuit a reset switch SW1 is connected, so that the bistable circuit U5 can be brought to the starting position, i.a. in connection with the installation and testing of the circuit and its function.

30 The circuit on the PCB P is made up of the following components:

Resistance RI = 10K

Resistance R2 = 2K

DK 166472 B1 6

Diode D = IN 4148 Counter U1 = 4017 5 Counter U2 = 4017

Logical circuit U3 = 4069

Logical circuit U4 = 4011 10

Flip / Flop U5 = 4013

Transistor TI = BC337 15 Relay RE = Siemens V23026

Power supply + = 12VDC

The diagram of FIG. 1 and the pulse numbers of FIG. 2 and 3, 20 is just one example of how a circuit according to the invention may be arranged. One skilled in the art will be able to provide other embodiments of the invention within the scope of the claims.

Claims (4)

7 DK 166472 B1 An installation for controlling a hard drive in a mini computer, a so-called PC, and for monitoring the hard drive's operating system 5 to determine when there has been no disk access for a predetermined period of time, which system comprises means for disconnecting the power to the hard drive drive (M), characterized in that it consists of a program controlled circuit (Fig. 1) coupled to one of the mini-computer's serial channels (A, B, C) and comprising a logic circuit connected to one of the PC's; one's serial inputs and controls a power connector (T1, RE) for power to the hard disk drive (M), the circuit comprising at least two input count circuits (U1, U2) arranged to count signal pulses 15 from the mini computer as a function of one in PC * a stored control program, a logic circuit (U3, U4), which receives the counter results from the counting circuits and transmits the signals to a bistable circuit (U5) controlling the power connector (T1, RE) of the hard disk drive (M). 20 Installation according to claim 1, characterized in that the power connection means comprises a mechanical relay (RE) for power supply to the hard disk drive motor (M). Installation according to claim 1, characterized in that the circuit comprises a mechanical switch (SW1) for resetting the bistable circuit (U5). System according to claim 1 or 2, characterized in that the program controlled circuit (Fig. 1) is also arranged to receive a ready signal (A) from the mini computer and that this ready signal is fed to at least one of the input count circuits. (Ul) and controls the respective counting circuit (s).