RU15410U1 - SYSTEM FOR REDUCING THE NOISE LEVEL OF A COMPUTER - Google Patents

Abstract

A system for reducing the noise level of a computer, comprising a processor fan, a chassis fan, a temperature sensor, an interface unit, an information recording unit, an information storage unit, an information reading unit, an initialization signal generating unit, a fan rotation speed comparison unit, a fan rotation speed control unit, analog-to-digital converter (ADC), digital-to-analog converter (DAC), while the interface unit is connected by the first and second inputs to the first output of the speed control unit the rotation of the fans, the output of the initialization signal generation unit and the outputs of the ADC and DAC, respectively, and the first output is the first input of the unit for comparing the fan speeds, the second input of which is connected to the first output of the information reading unit, the input of which is connected to the output of the information storage unit, whose input is connected to the output of the information recording unit, and the output of the unit for comparing the values of fan speeds is connected to the first input of the fan speed control unit ov, characterized in that said temperature sensor is installed on a computer processor, and a second temperature sensor installed on a computer chassis, a third temperature sensor installed on a computer power supply unit, a power supply fan, a power supply fan tachometer, a processor fan tachometer, a chassis fan tachometer, a unit are introduced accumulative counters, temperature comparison unit, temperature control unit, information output unit, computer control signal output unit, equipment analysis unit,

Description

The proposed system relates to the field of monitoring and control - component computer with software and hardware, and in particular, can be used to reduce the level; noise of computers, c - tvzems1-e due to vibration of the hard drive, drive l (compact disk) and fan rotation:. used to reduce the temperature :: --y; - inside the computer, the increase of "ogoyoi is caused by the heating of the components - the slavery of the computer.

Known for silent cooling5 FROM the internal space of a computer, see US patent No. 5596483, M.cl. ISH 5 / VO, 7/20 ,. :. W; published on January 21, 1997) by means of an acoustic and sound insulating saiuyi bi drive hard drive, as well as other components from the computer installed inside the case, such as fans. Fans serve to reduce the temperature inside the computer, G: GR - which is not caused by the release of heat from a number of its components. To do this, the computer case has a coating of acoustic and soundproof material, and longitudinal slots are made in the side walls of the case to ensure air circulation through them, which is accelerated by valve-valves. There are also holes in the top cover of the case. A vertical barrier is installed inside the case parallel to its wet wall more intense air circulation in the space between it and the side wall through the holes in it. At an angle to this barrier, fans are installed on the site. The drive of the floppy disk is installed inside the housing in the insulating compartment near it

a front wall having an opening for air circulation and cooling the drive of the floppy disk. The power supply is installed in a special compartment, the case of which is provided with holes in the upper and side walls, and the rear and other h-walls of which adjoin the internal rear and side walls of the computer case. In the department: the next nearby abnormal I-TJPK is enclosed and a hard drive. On the wall of this wall, facing the inside of the computer case, longitudinal ventilation openings are also made. The casing compartment of the lithium unit is made of metal: alla, and the casing of the emergency compartment for the hard drive is made of soundproofing material.

This system allows you to reduce the noise level of the above components of the computer by their additional isolation, which greatly complicates its design, including through the use of additional emergency compartments, which increases the size of the computer, and also causes difficulties when installing them in standard computer cases.

A known method and system for reducing the noise level of a microcomputer (see US patent No. 5764506, M.cl.bOBG 1/20, publ. 06/09/1998) / including means to reduce the noise level of the hard drive engine. fan motor. The principle of the system is based on the formation of control signals of the ocjiD yix periods for turning on and off the engines of the hard disk and fan. In this case, the hard drive engine is turned on by the control signal only for the time required to use the information recorded on the hard drive, which reduces the noise level of the microcomputer. Switching the fan motor on and off occurs under the influence of a control signal generated in accordance with the signal transmitted from the temperature sensor in case the specified temperature level inside the computer is exceeded. That is, the fan is also turned on only for the time necessary to lower the temperature inside the microcomputer, which reduces the noise level of the computer.

However, this principle is implemented by complicating the internal aerodynamic circuit of a computer by introducing additional electronic components into it to supply control signals and connect components to each other. So using a cable and matching parts, the control signal generated by a special electronic circuit in accordance with the signal received from the power sensor is supplied to the fan motor and the hard drive motor. At the same time, each time the hard drive is turned on to turn it on and off, its engine accelerates, which leads to a delay in the computer's operation. At the same time, there is no real reduction in noise during the direct operation of the computer, and control is carried out indirectly by determining the load on the operating system that affects the computer and the corresponding system: rm-t: I have fan rotation speed.

A known method and system for monitoring and controlling the rotation speed of two fans installed inside the computer, in order to reduce the noise level of its operation (with:.:, US patent No. 5687079, M.cl.N05K 7/20, publ. 11.11 .1997). In this system, the fans are not turned on or off, but a control signal is generated to change the fan speed depending on the temperature inside the unit. The temperature is measured using a temperature sensor in the form of a thermistor installed on the power supply. The signal from the temperature sensor is analyzed, and control signals are generated for the fan motors that correspond to different speeds of rotation of the fans. The table of correspondence of rotation speeds to the air temperatures inside the computer is stored in a non-volatile memory block. The central processor also determines for which fan it is necessary to generate a control signal and monitors the differences in fan speeds to prevent their rotational speeds from influencing each other.

This system B, unlike the previous one, rationally solves the problem of reducing the noise level during computer operation by adjusting the rotation speed of two fans depending on the air temperature inside the computer. However, it does not provide means to reduce the noise level caused by the operation of other computer components, such as, for example, a hard disk drive. In this case, the temperature is determined by only one sensor, which does not allow for effective thermal monitoring.

There is still another known information about the monitoring and control of the rotational speed of two fans, one of which is set to "1" n. inside the computer near the central processor, and the other next to the expansion unit (see US patent No. 5926386, M.kl.ObV 19/00, publ. / O. and 7.1.1999). The fan rotation speed is controlled by the software unit:.; X means associated with the electric reprogrammed memory, which stores the lower and upper limit values of the fan speeds depending on the temperature inside the coil, determined by the temperature sensor. IV g „m prsgrammnoapartny means, two registers are managed, connected - connected with respectively the first and second summates A.P. and with the first and second additional sums r respectively, forming analog s.

control, I function as a digital-to-analog converter (DAC) and at-digital-to-digital converter (AUI1), to which an information signal r of the temperature sensor is supplied. The fan speeds are controlled by dividing the voltage values, apply them to them in such a way that when the temperature inside the computer increases or decreases, their rotation speed will increase or decrease, and as a result, the noise created by the fans will decrease, since their rotation speed will only increase while the air temperature inside the computer rises. At the same time, for the implementation of control, values are written in the corresponding registers

rotation speeds for each fan. Using a block of firmware, data from an electric flash memory can also be displayed on the operator panel, which allows visual control of the fan speed.

The software and hardware block of this system contains an electrical interface unit, an initialization signal generation unit, an information reading unit, a fan speed comparison unit, a fan rotation speed control unit, an information recording unit, an information storage unit, an operation mode selection unit. In this case, communication with the analog control circuit is carried out through the electrical interface unit, the output connected to one of the inputs of the unit for comparing the values of the fan rotation speeds, the first input - with the output of the initialization signal generation unit, and the second input - with the first output of the fan speed control unit, one the input of which is connected to the output of the unit for selecting the operating mode, the other to the output of the unit for comparing the values of fan speeds, the second input of which is connected vc to the second output at the rotational speed control unit: -g ::: I have fans, the third output of which is googged with the input of the information recording unit, the output of which is connected to the input of the information storage unit, the output of which is connected to the input of the information reading unit, the output of which is connected to the third input of the unit comparing fan speeds.

In this system, as well as in the previous one, the fan rotation speed is changed depending on the air temperature inside the computer, which reduces the noise level during computer operation. However, when controlling the speed of rotation of the fans, there is no feedback using the method of measuring the speed of rotation of the fans, i.e., there is no constant adaptive speed control in

depending on various conditions that may affect the fan speed. In addition, this method of controlling the fan speed uses an additional analog control circuit, which does not allow independent control of the speed of individual fans.

In this case, the temperature is measured using only one sensor, which does not provide sufficient reliability of the measured temperature values inside the whole t-muleter, there is no protection against overheating, and visual monitoring of temperatures is not provided.

The known system also solves the problem of reducing the noise level generated by the operation of computer components such as a hard disk drive and a CD-ROM drive.

This system is selected for the prototype. The objective of the utility model is to reduce the noise level during computer operation by reducing the noise generated by the operation of computer components such as a hard disk drive, a CD-ROM drive, and also by implementing adaptive changes in the fan speed, taking into account JV reliable temperature control in several places inside the computer .

The solution to this problem is provided in the system to reduce the noise level of a computer containing a processor fan, a chassis fan, a temperature sensor, an interface unit, an information recording unit, an information storage unit, an information reading unit, an initialization signal generation unit, a fan speed comparison unit, a unit control the fan speed, DAC, ADC, while the interface unit is connected by inputs to the first output of the fan speed control unit, the output of the unit Nia initialization signal and outputs the ADC and DAC, respectively, and the first output - to the first input of the comparison values fan speed, a second input coupled to the first output of the information reading unit, whose input is connected to the output data storage unit, an input of which

connected to the output of the information spps, and the output of the unit comparing the fan rotation speed values is connected to the first input of the fan speed control unit, characterized in that the first temperature sensor is installed on the computer processor, and the second temperature sensor installed on the computer chassis, the third temperature sensor, are introduced, installed on the computer’s power supply unit, power supply fan, power supply fan tachometer, processor fan tachometer, chassis fan tachometer, storage unit counter, - x-th temperature comparison, block of temperature readings, output unit and form., output of computer control signals:., analysis of equipment, delay unit, user interface, control signal output unit for ...-. CD-ROM drive, while the fan inputs are connected to the corresponding first or third ilAP outputs, the fourth output of which is connected to the third input of the interface unit with a system mute, the fourth input of which is connected to accumulative counters, the corresponding inputs of which are connected to the outputs ta - -trov, to the fifth input of the interface unit with the log: the ADC output is connected, to the correspondence "..i the inputs of which are connected the terg-.r outputs, the sixth input of the interface unit with the system bus, connected to the output of the equipment analysis block the input of which is connected to the second output of the interface unit with the system bus, the third output is connected to the input of the delay unit, the output is connected to the seventh input of the interface unit with the system bus, the fourth output of which is connected to the first input of the temperature comparison unit, to the second whose input is the second output of the information reading unit is switched on, the first and second outputs of the temperature value comparison unit are connected respectively to the third input of the fan speed control unit and to the first input of the information output unit, to the second input of which the second output of the speed control unit j I i | 1 fans, the first output of the information output unit is connected to the input of the information recording unit, and the second output is to the input of the temperature control unit, the output of which is connected to the input of the computer control signal output unit, the third input and output of the information output unit are connected to the corresponding output and input a user interface, the other output of which is connected to the input of the control signal output unit for the CD-ROM drive, the output connected to the CD-ROM drive, and the computer’s hard drive is placed in the regular compartment between the input two pairs of U-shaped profiles made of plastic insulating material, such as plastic, with one U-shaped profile of each pair rigidly attached to the corresponding opposite walls of the compartment, the other-shaped profile of each pair rigidly attached to the corresponding side of the computer hard drive and inside the V-shaped profiles of each lara there is placed a material that absorbs vibration, for example foam rubber. The introduction into the system of two additional temperature sensors in those places of the computer where it is possible to control the most heated parts of it provides together with an information output unit, an interface unit with a system bus, a temperature comparison unit, a temperature control unit, an information recording unit, the information storage unit and the computer control signaling unit provide more reliable temperature control inside the computer and protects the ECU from overheating in case of emergency d. Introduction to the system of an additional fan of the power supply, as well as supplying each fan with a standard tachometer, together with the DAC, the unit: - ,, accumulative counters, ADC, information reading unit, fan speed control unit, interface unit with system bus, value comparison unit fan speeds, delay unit, information output unit and computer control signal output unit

carry out independent adaptive control of the rotation speed of each of the fans of any type, taking into account the temperature regime in various places inside the computer.

Moreover, a user interface is provided in the system, which allows visual control of test laboratories and fan speeds, as well as a CD-ROM.

Placing the hard disk together with two pairs of U-shaped profiles inside the standard compartment and placing inside each pair of U-shaped profiles of material that absorbs vibration, saves the ventilation parameters of the hard disk and ensures its normal cooling.

The result of using all of the above differences of the proposed system is a more significant reduction in the noise level during computer operation compared to the prototype.

An example of the proposed system is illustrated by drawings, in which Fig. 1 shows a structural diagram of this system, Fig. 2 shows a functional diagram of a block of software and hardware that monitors and controls fans, temperature sensors and tachometers installed in the proposed system, Fig. 3 shows a block is a diagram of the algorithm for monitoring and controlling the speed of rotation of the fans together with the temperature control inside the computer, and Fig. 4 shows the placement and fastening in the standard compartment of the computer hard drive a computer with two pairs of U-shaped profiles and filling the space between each pair of U-shaped profiles with vibration-absorbing material.

According to figure 1, the proposed system for reducing the noise level of a computer contains a processor fan 1, a fan 2 of the power supply, a chassis fan 3 with tachometers 4,5,6, respectively, a processor temperature sensor 7, a power supply temperature sensor 8, a chassis temperature sensor 9, and corresponding inputs and outputs connected to the corresponding inputs and outputs of the block 10 of the firmware, also connected

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via the user interface 11 with the drive 12 CDROM.

According to figure 2, the block 10 of the firmware contains the ACG 13, the DAC 14, the block 15 of the accumulation counters, the block 16 of the interface with the system bus, the block 17 read information, block 18 comparing the values of the speeds of rotation of the fans, block 19 comparing the temperature values, block 20 control the fan speed, information output unit 21, computer control signal output unit 22, temperature control unit 23, delay unit 24, equipment analysis unit 25, initialization signal generating unit 26, information recording unit 27, an information storage unit 28. In this case, the corresponding LIG inputs: 3 are the inputs of the block 10 of the hardware and software for connecting the temperature sensor, 8.9, the corresponding outputs of the DAL 14 are the outputs of the block 10 for connecting to the fan inputs 1,2,3, the corresponding inputs of the block 15 of the accumulation counters are in total block 10 for connecting tachometers 4fc, C. The outputs of the ADC 13, DAC 14, block 15 are accumulated: „„ x with the pilot are connected respectively to the fifth / -, third and fourth inputs of the interface block 16 with the system bus, to the first input of which the output of the fan rotation speed control unit 20 is connected, to the second input, the output of the initialization signal generating unit 26 / to the sixth input, the output of the delay unit 24, the input of which is connected to the third output of the interface unit 16 with the system bus, the second output of which is connected to the input of the equipment analysis unit 22, the first output of the interface unit 16 The system bus is connected to the first input of the fan speed comparison unit 18, and the fourth output of the interface unit 16 is connected to the first input of the temperature comparison unit 19, the second input of which is connected to the second output of the information reading unit 17, the first output of the unit 19, the temperature value comparison is connected to the third input of the fan speed control unit 20, and the second output of the temperature value comparison unit 19 is connected to the first input of the information output unit 21, a swarm input which is connected to the second output of the fan speed control unit 20, the first and second inputs of which are connected respectively to the output of the fan speed comparison unit 18 and the third output of the information reading unit 17, the first output of which is connected to the second input of the fan speed comparison unit 18 and the input of the information reading unit 17 is connected to the output of the information storage unit 28, the input of which is connected to the output of the information recording unit 27, the input of which is connected to the first the output of the information output unit 21, the second output of which is connected to the input of the temperature control unit 23, the output of which is connected to the input of the computer control signal issuing unit 22, the third input and the third output of the information output unit 21 are the input and output of the hardware and software unit 10 for connecting a user interface 11, the other output of which is connected to the input of the control signal output unit 29 for the CD-ROM drive, the output of which is connected to the CD-ROM drive. According to Fig. 4, two pairs of U-shaped profiles 31 and a hard disk 32 are installed in the regular compartment 30 so that one of the U-shaped profiles 31 of each pair is mounted, for example, by screws 33 through regular holes to the corresponding opposite walls of the compartment 30, and another U-shaped profile 31 of each pair is fastened, for example, with screws 34 to one of the sides of the hard disk 32. Inside each pair of U-shaped profiles 31 is placed vibration-absorbing material 35, for example foam rubber. The operation of the proposed system in accordance with the algorithm shown in Fig. 3, we will explain using figures 1 and 2. When you start the system of flasks 26 the formation of the initializing signals gives signals that allow you to check the presence of fans 1,2,3 and temperature sensors 7,8,9 using unit 25 analysis of equipment. In the absence of any elements,

data on their absence is displayed on the user interface in the form of appropriate text 11. The generation of initializing signals is also necessary to ensure the rotation of fans 1,2,3 with the necessary speed, since the low voltage initially supplied to the fan motors 1,2,3 may not ensure their start-up .

The interface unit 16 with the system bus provides the transmission of all control signals to the central processor of the computer, for example, through the I2C interface. CDL 14 allows you to control the speed of the fans 1,2,3 based on the signals transmitted by the processor to the block 16 of the interface with the system bus. To control the fan speed 1,2,3 tachometers 4,5,6 are used, pulse signals from which are converted with the help of block 15 accumulative counters into digital values. Reading temperatures in different areas occurs using temperature sensors 7, o, -1, the signals from which are fed to the ADC 13 for conversion to digital values. From the information snoring unit 23 using the information reading unit 17 at system startup, the temperature values stored there are read out for their subsequent comparison with the values obtained from the temperature sensors 7,8,9 obtained through the interface unit 1C with the system bus. This comparison is carried out by block 19 comparing the temperature values. If the set temperature values are exceeded, one of the following actions is possible: issue a warning, switch to standby mode, or turn off the computer. Temperature values are monitored by temperature control unit 23 according to the settings obtained from information output unit 21. And when situations of overheating of the computer components occur, the above actions are performed by the computer control signal issuing unit 22. In this case, the control of the fan speed 1,2,3 in accordance with the function specified in the computer data file is carried out by the fan speed control unit 20,2,3, and the speed setting is checked

of fans 1,2,3 is carried out by the speed value comparison unit 18, which compares the speed values obtained through the interface unit 16 with the system bus with the values read by the information reading unit 17 and stored in the information storage unit 28. If necessary, the speed value comparison unit 18 generates a command signal to the fan rotation speed control unit 20 to additionally change the speeds. When reading the values from the interface unit b with the system bus, the necessary time pause is generated by the delay unit 24. All values of speeds and temperatures are output to the information output unit 21, which provides a user interface 11, from which a signal is output to the computer control signal output unit 22 when overheating of computer components occurs. This signal is recorded using the information recording unit 27 to the information storage unit 28 and protects the computer from overheating in case of emergency.

In parallel with the above steps, the user interface 11 is polled and the speed of the CD-ROM drive 12 is controlled as follows. In the user interface there is a speed controller in the programmable scroll element, the movement of which causes the issuance of the corresponding control signals to the CD-ROM drive, changing its speed. The speed range is from the minimum for each model of the CD-ROM drive to its maximum speed.

Thus, the tasks of the block 10 of software and hardware include: a) reading a computer data file; b) determination of the presence of fans 1,2,3 and temperature sensors 7,8,9;

c) the formation on the basis of the data file of a discrete function of the dependence of the rotation speed of each fan 1,2,3 on temperature; d) output to the user interface 11 readings of temperature sensors 7.8.9 and rotational speeds of each fan 1.2.3 from tachometers 4.5.6;

d) turning off the computer, putting it into standby mode or displaying a warning when the maximum temperature is exceeded according to the readings of each of the temperature sensors 7.8.9;

f) controlling the fan speed 1,2,3 in accordance with the function read from the data file and using feedback to ensure that the actual fan speed 1,2,3 matches the set speed; g) control the speed of the CD-ROM drive.

Thus, the noise reduction of the computer is carried out by the proposed system adaptively and independently, taking into account reliable temperature control in various parts of the computer, by changing the fan rotation speed 1,2,3, the operating speed of the 12 CD-ROM drive, as well as by placing the hard disk 32 of the computer in a regular one OTCGK 30, equipped with two pairs of U-shaped profile-and 31, inside which vibration-absorbing material 35 is placed, and rigid fixation of U-shaped premium. 31 with the walls of the compartment 30 and with a hard drive 32.

The implementation of the blocks of the device can be explained as follows.

The block 10 of the firmware can be performed using a controller of the type WINBOND w83782d (see the description attached to the application).

As a fan 1 of the processor, a fan of the type PD125OOBMH1OBWO or similar can be used. As fans 2,3 of the power supply and the chassis, respectively, fans of the CF-12825HB type or similar can be used.

As thermal sensors of the processor, chassis and power supply 7,8,9, transistors of the type 2N3904 NPN or similar semiconductors or 10K thermistors can be used.

Claims (1)

A system for reducing a computer noise level, comprising a processor fan, a chassis fan, a temperature sensor, an interface unit, an information recording unit, an information storage unit, an information reading unit, an initialization signal generating unit, a fan rotation speed comparison unit, a fan rotation speed control unit, analog-to-digital converter (ADC), digital-to-analog converter (DAC), while the interface unit is connected by the first and second inputs to the first output of the speed control unit rotation of the fans, the output of the initialization signal generating unit and the outputs of the ADC and DAC, respectively, and the first output is the first input of the unit for comparing the fan rotation speed values, the second input of which is connected to the first output of the information reading unit, the input of which is connected to the output of the information storage unit, whose input is connected to the output of the information recording unit, and the output of the unit for comparing the values of fan speeds is connected to the first input of the fan speed control unit ov, characterized in that said temperature sensor is installed on a computer processor, and a second temperature sensor installed on a computer chassis, a third temperature sensor installed on a computer power supply unit, a power supply fan, a power supply fan tachometer, a processor fan tachometer, a chassis fan tachometer, a unit are introduced accumulative counters, temperature comparison unit, temperature control unit, information output unit, computer control signal output unit, equipment analysis unit, to the delay, the control signal output unit for the CD-ROM drive, the user interface, while the fan inputs are connected to the corresponding first or third outputs of the DAC, the fourth output of which is connected to the third input of the interface unit with the system bus, the output of the storage unit is connected to the fourth input counters, the corresponding inputs of which are connected to the outputs of the tachometers, the ADC output is connected to the fifth input of the interface unit with the system bus, the outputs of the temperature sensors are connected to the corresponding inputs, The clean input of the interface unit with the system bus is connected to the output of the equipment analysis unit, the input of which is connected to the second output of the interface unit with the system bus, the third output of which is connected to the input of the delay unit, the output of which is connected to the seventh input of the interface unit with the system bus, the fourth output of which connected to the first input of the temperature value comparison unit, to the second input of which the second output of the information reading unit is connected, the first and second outputs of the temperature value comparison unit are connected respectively, to the third input of the fan speed control unit and to the first input of the information output unit, to the second input of which the second output of the fan speed control unit is connected, the first output of the information output unit is connected to the input of the information recording unit, and the second output to the input of the unit control of temperature values, the output of which is connected to the input of the computer control signal output unit, the third input and output of the information output unit are connected to the output and input, respectively, and user interface, the output of which is connected to the input of the control signal output unit for the CD-ROM drive, and the computer hard drive is placed in the standard compartment between the two pairs of U-shaped profiles made of plastic insulating material, such as plastic, one of which is P the shaped profile of each pair is rigidly fixed to the corresponding of the opposite walls of the compartment, the other U-shaped profile of each pair is rigidly attached to the corresponding side of the hard drive, and inside between the U-shaped Fili each pair arranged material that absorbs vibrations, such as foam rubber.