DE102008043866B4 - A method of preheating the hard disk drive of a computer device - Google Patents

Abstract

A method for preheating a hard disk drive (1) of a computer device (100), the computer device (100) having a power supply device (5), a microprocessor (41), the hard disk drive (1) and a data storage unit (45), a temperature sensor (2) is disposed outside and at a predetermined location of the hard disk drive (1) to detect an external hard disk temperature (Te) of the hard disk drive (1), a heating element (3) is disposed at a predetermined location on the hard disk drive (1), the data storage unit (45 ) stores at least one HDD enable temperature threshold (Tp), wherein the HDD enable temperature threshold (Tp) is the lowest security temperature at which the power supply device (5) is allowed to power the hard disk drive (1), characterized in that the data storage unit (45) at least one predetermined compensation value (C) sp wherein the predetermined compensation value (C) is defined as a predetermined difference between the external hard disk temperature (Te) and an internal hard disk temperature (Ti), the method comprising the steps of: (a) booting up the computing device, activating step (101, 201 (b) retrieving the hard disk activation temperature threshold (Tp) and the predetermined compensation value (C) from the data storage unit (45) by the microprocessor (41), retrieving step (102, 202) (c) detecting the external hard disk temperature (Te) of the Hard disk drive (1) through the temperature sensor (2), detecting step (103, 203), (d) comparison of the external hard disk temperature (Te) and hard disk activation temperature threshold (Tp) using the microprocessor (41), comparing step (104, 204) , (e) subtracting the predetermined compensation value (C) from the external hard disk temperature (Te) and determining whether the result is less than Hard Disk Activation Temperature Threshold (Tp), Checking Step (105, 205) (f) Allowing the power supply device (5) to supply power to the heating element (3) to heat the hard disk drive (1) and prohibit activation of the hard disk drive (1) when a result of subtracting the predetermined compensation value ...

Description

The present invention relates to a method for preheating a hard disk drive of a computer device, and more particularly to a hard disk preheating method which compensates for the temperature difference between the inside and the outside of a hard disk drive.

The operation of a hard disk drive of a conventional computing device is subject to temperature limitations. Forcing the hard disk drive to operate at a temperature below its temperature limit can easily damage the hard disk drive. Accordingly, if a hard disk drive is in a low temperature environment, a hard disk preheater is often provided to preheat the hard disk drive to an appropriate temperature before the hard disk drive is powered up.

In order to meet the above-mentioned needs, various methods have heretofore been proposed. In most of these known methods, a heating element is placed on a surface of a hard disk drive or a heating pad is uniformly applied to a surface of a hard disk drive. A temperature sensor is also disposed on a surface of the hard disk drive to sense the temperature of the hard disk drive. Prior to activating the hard disk drive, the temperature of the hard disk drive is first detected by the temperature sensor so that when the temperature is less than a predetermined hard disk activation temperature, the heating element performs preheating of the hard disk drive so that the temperature of the hard disk drive reaches the predetermined hard disk activation temperature , The hard disk drive will then be put into operation.

So revealed the US 2003/0099055 A1 A method of preheating a hard disk drive with a hard disk heater that heats the interior of a hard disk drive. Here, the temperature of the internal space of the hard disk is measured by means of an internal temperature sensor and then checked whether this internal temperature value falls below a predetermined threshold temperature. If the threshold temperature is undershot, an internal heating element is also activated to heat the internal space of the hard disk and to keep the internal temperature above the threshold temperature, although an arrangement on the hard disk surface is inexpensive.

Also the US 2007/0146923 A1 describes a method and a device in which a heating element is controlled in accordance with an internal temperature of the hard disk recorded by a temperature sensor.

WO 2006/108294 A1 discloses an apparatus that includes a hard disk drive to maintain it within an operating temperature range. Also US 2003/0142439 A1 describes a device for maintaining stable conditions for a hard disk drive used here within a motor vehicle.

Taking into account also the extreme temperature requirements of mobile recording systems, the US 2003/0081934 A1 a method for a before a triggering time starting mobile video recording in particular for evidence in a vehicle. A respective recording on a data carrier is preceded by a temperature test. A semiconductor heat pump provided on the housing of the video recording means is activated in case the temperature test is failed.

Furthermore, from the prior art, for example US-A-7 035 031 and JP-A-5 205 461 discloses various methods that utilize a hard disk preheating system that provides a temperature sensor and a heating element external to a hard disk drive. The heating element is disposed on a surface of the hard disk drive at a location near a spindle or motor of the hard disk drive, or takes the form of a heating pad uniformly set on a surface of a hard disk drive. The temperature sensor is placed on a surface of the hard disk drive to detect the temperature of the hard disk drive. If it is desired to activate the hard disk drive but the temperature is lower than a predetermined hard disk activation temperature, the heating element will perform preheating of the hard disk drive until the predetermined hard disk activation temperature is reached. The hard disk drive will then be put into operation.

US 2004/0228023 A1 discloses a method for preheating a hard disk drive with an external hard disk heater arranged in the form of film resistors at operational regions on the surface of the hard disk drive. The hard disk heater also includes a temperature sensor with attached logic to shut down the hard disk heater in case a minimum hard disk drive temperature has been exceeded as a predefined condition.

In the known techniques, however, the major problem between the heating element and the temperature sensors is that the temperature value sensed by the temperature sensor is limited to the surface of the hard disk drive, meaning that the detected temperature is a hard disk drive surface temperature rather than an actual internal hard disk drive temperature; which is a difference from the actual internal temperature of the hard disk drive. Furthermore, the heat generated by the heating element must be directed from outside the hard disk drive into the interior of the hard disk drive so that the difference between the surface temperature of the hard disk drive and the internal temperature of the hard disk drive is made more pronounced. If such a temperature differential is too great, it may cause the hard disk drive to be put into operation before the temperature has truly reached the predetermined hard drive activation temperature, often resulting in damage to the hard disk drive. Accordingly, it is an object of the present invention to provide an improved hard disk preheating method for preheating the hard disk drive to a predetermined temperature before the hard disk drive can be operated, thereby more securely protecting the hard disk drive from damage caused by activation of the hard disk drive be caused at low temperature.

The technical solution used by the present invention to solve the above problems is a method of preheating a hard disk drive of a computer apparatus in which a temperature sensor and a heating element are disposed at predetermined locations outside of and at a predetermined location of the hard disk drive. The temperature sensor senses an external hard disk temperature of a hard disk drive that is compared to an activation temperature threshold stored in a data storage unit of the computing device, the hard disk activation temperature threshold being the lowest security temperature at which the power supply device is allowed to power the hard disk drive. According to the invention, at least one predetermined compensation value is stored in the data storage unit such that the activation temperature threshold is calibrated using a predetermined compensation value stored in the data storage unit, wherein if the external hard disk temperature subtracted by the predetermined compensation value is less than the activation temperature threshold of Hard disk drive is prohibited, the activation of the hard disk drive, and the heating element heats the hard disk drive so that it reaches the activation temperature threshold of the hard disk drive. Thereafter, the hard disk drive may be booted.

In an advantageous embodiment of the invention, each time the hard disk drive is activated, a basic input / output system of the computer device obtains an internal hard disk drive hard disk drive temperature to perform a calibration so that the predetermined compensation value can be made more accurate for each hard disk drive activation ,

With the technical solution provided by the present invention, the operation of a hard disk preheating system is made more accurate and reliable, thereby eliminating the risk of damage to a hard disk drive simply due to errors in the temperatures inside and outside the hard disk drive. The times for unnecessarily preheating the hard disk drive can also be shortened, thereby eliminating the waste of time and delay in booting the computer caused by errors in temperatures inside and outside the hard disk drive, effectively rendering the booting process of the computer device more efficient.

The present invention also provides a method of obtaining a predetermined compensation value by a plurality of hard disk drives in a further development, and using a plurality of hard disk drives to obtain an averaged predetermined compensation value makes the error even smaller.

According to an advantageous embodiment of the invention, a hard disk preheating method is provided which performs a calibration of the predetermined compensation value of the hard disk drive after each activation of the hard disk to make the compensation value more accurate.

Advantageously, a predetermined compensation value is used to correct a disk activation temperature threshold to be used in a low temperature environment. Specifically, the predetermined compensation value is obtained from the averaging of predetermined compensation values of a plurality of hard disk drives.

The present invention will be understood to those skilled in the art by reading the following description of the preferred embodiment of the present invention with reference to the accompanying drawings, in which:

1 FIG. 3 is a perspective view of a first embodiment according to the present invention; FIG.

2 is a system block diagram of the first embodiment of the present invention,

3 FIG. 3 is a flowchart of the first embodiment of the present invention; FIG.

4 is a system block diagram of a second embodiment of the present invention,

5 is a flowchart of the second embodiment of the present invention and

6 Fig. 10 shows a flowchart for obtaining a predetermined compensation value according to the present invention.

With reference to the drawing and in particular to 1 showing a perspective view of a first embodiment according to the present invention, it should be noted that a computer device 100 a hard drive 1 having a surface on which a temperature sensor 2 and a heating element 3 are arranged at predetermined positions. The temperature sensor 2 is used to detect the external temperature Te of a hard disk outside of the hard disk drive 1 , The heating element 3 is used for heating the hard disk drive 1 before activation according to specific conditions for preheating the hard disk drive 1 so that prevents the hard disk drive 1 at too low a temperature will activate what the hard disk drive 1 could damage.

Regarding 2 , which is a system block diagram of the first embodiment of the present invention, should also be noted that the computing device 100 a microprocessor 41 , a power supply device 5 and a switching unit 51 having. The microprocessor 41 controls the heating element 3 from the power supply device 5 supplied power, by a control signal S1 of the switching unit 51 provided.

The microprocessor 41 is with an input device 42 , a display device 43 in the manner of a liquid crystal display (LCD), a basic input / output system (BIOS) 44 and a data storage unit 45 connected. According to the illustrated embodiment, the data storage unit is 45 a separate memory, customizable with the microprocessor 41 connected is. As an alternative, the data storage unit 45 however, one in the BIOS 44 the computer device 100 be built-in memory.

The data storage unit 45 stores at least one HDD enable temperature threshold Tp and a predetermined compensation value C. The HDD enable temperature threshold Tp is set to a lowest safety temperature at which it is the power supply device 5 is allowed to the hard drive 1 Supply power. The predetermined compensation value C is defined as a predetermined difference between the external hard disk temperature Te and an internal hard disk temperature Ti, and is used for correcting the difference between the external hard disk temperature Te and the internal hard disk temperature Ti.

Regarding 3 showing a flowchart of the first embodiment of the present invention, and on 2 Now, the operation of a method for preheating a hard disk drive of a computer apparatus according to the present invention will be explained.

The process begins with the activation of the computing device 100 (Step 101 ). After that, the microprocessor calls 41 the disk activation temperature threshold Tp and the predetermined compensation value C from the data storage unit 45 off (step 102 ), and the temperature sensor 2 detects the external hard disk temperature Te of the hard disk drive 1 (Step 103 ). The microprocessor 41 compares the external hard disk temperature Te with the hard disk activation temperature threshold Tp (step 104 ), which is usually performed by subtracting the predetermined compensation value C from the external hard disk temperature Te, and checks whether the result is smaller than the hard disk activation temperature threshold Tp (step 105 ). If the result of subtracting the predetermined compensation value C from the external hard disk temperature Te is smaller than the hard disk activation temperature threshold Tp, it indicates that the external temperature of the hard disk drive satisfies a condition for securely operating the hard disk drive, but the internal temperature of the hard disk drive satisfies the condition to safely operate the hard disk drive still not met. Consequently, the power supply device performs 5 the heating element 3 Power to the hard drive 1 to warm up, and activation of the hard disk drive 1 is prohibited (step 106 ). When the result of subtracting the predetermined compensation value C from the external hard disk temperature Te is equal to the hard disk activation temperature threshold Tp (step 106 ), performs the power supply device 5 the hard disk drive 1 Power to, and the activation of the hard disk drive 1 is allowed (step 107 ). The of the heating element 3 made heating is however, maintained in operation for a short period of time and then interrupted.

Regarding 4 which is a system block diagram of a second embodiment of the present invention, it should be noted that the main components of the second embodiment are identical to those of the first embodiment and denoted by the same reference numerals, and further description will be omitted here. A difference of the embodiment is that the data storage unit 45 the hard disk activation temperature threshold Tp, the predetermined compensation value C and a calibrated compensation value C '. The calibrated compensation value C 'is a value obtained by correcting the predetermined compensation value C, and is used to substitute the predetermined compensation value C for the subsequent activation of the hard disk drive to ensure further accuracy.

Regarding 5 showing a flowchart of the second embodiment of the present invention, it should be noted that part of the procedure of the embodiment (steps 201 - 207 ) is similar to that of the first embodiment, so that a further description is omitted. The difference occurs after step 207 and includes a step of correcting the HDD enable temperature threshold Tp to obtain a calibrated compensation value C 'as just mentioned above.

After the steps 201 - 207 the temperature sensor detects 2 the external hard disk temperature Te of the hard disk drive 1 (Step 208 ). The BIOS 44 the computer device 100 receives, for example, through its HDD-SMART system, the internal hard disk temperature Ti of the hard disk drive 1 (Step 209 ). The internal hard disk temperature Ti is then subtracted from the external hard disk temperature Te to obtain a calibrated compensation value C '(step 210 ). The calibrated compensation value C 'is then used as a predetermined compensation value C at the next boot of the computing device (step 211 ).

Regarding 6 showing a flowchart for obtaining a predetermined compensation value according to the present invention, it should be noted that this process provides the predetermined compensation value used in the first and second embodiments of the present invention through the following steps.

First, it will be among several hard disk drives 1 (whose number is set to "N") a hard disk drive 1 (which is set as the nth of N hard disk drives) is randomly selected and stored in a computer device 100 installed (step 301 ). The selected hard disk drive 1 is brought into a predetermined temperature environment having a temperature lower than the hard disk activation temperature threshold Tp (step 302 ). The heating element 3 is used to warm the hard disk drive 1 activated (step 303 ).

The temperature sensor 2 of the hard disk drive 1 the computer device 100 detects the external hard disk temperature Te of the hard disk drive 1 (Step 304 ). When the temperature sensor 2 the computer device 100 detects that the external hard disk temperature Te of the hard disk drive 1 is equal to the disk activation temperature threshold Tp, becomes the hard disk drive 1 Power supplied (step 305 ). The BIOS 44 the computer device 100 gets the internal hard disk temperature Ti of the hard disk drive 1 off (step 306 ). The internal hard disk temperature Ti is determined by selecting the lowest internal hard disk temperature Ti from a plurality of internal hard disk temperatures Ti supplied by the BIOS 44 the computer device 100 are obtained to serve as the actually used internal disk temperature Ti. The actually used internal hard disk temperature Ti is then subtracted from the external hard disk temperature Te, and the result is defined as a current compensation value Cn (step 307 ). A number of current compensation values are obtained from a plurality of hard disk drives, and an average value is calculated to serve as a factory-defined predetermined compensation value C (step 308 ). He is expressed in the following formula:

LIST OF REFERENCE NUMBERS

1

Hard Drive

2

temperature sensor

3

heating element

41

microprocessor

42

input device

43

display device

44

Basic input / output system (BIOS)

45

Data storage unit

5

Power supply apparatus

51

switching unit

100

computer device

101, 201

 Activation step of the computer device

102, 202

 Retrieval step of Tp and C

103, 203

 Capture step from Te

104, 204

 Comparison step Te with Tp

105, 205

 Test step, if (Te - C) <Tp

106, 206

 Power supply of the heating element and activation prohibition of the hard disk drive

107, 207

 Powering the hard disk drive and enabling the hard disk drive

Te

external hard disk temperature

Ti

internal hard disk temperature

S1

control signal

tp

Hard disk activation temperature threshold

C

predetermined compensation value

C '

calibrated compensation value

cn

current compensation value

N

Number of hard drives

Claims (7)

Method for preheating a hard disk drive ( 1 ) a computer device ( 100 ), wherein the computing device ( 100 ) a power supply device ( 5 ), a microprocessor ( 41 ), the hard disk drive ( 1 ) and a data storage unit ( 45 ), a temperature sensor ( 2 ) outside and at a predetermined location of the hard disk drive ( 1 ) is set to an external hard disk temperature (Te) of the hard disk drive ( 1 ), a heating element ( 3 ) at a predetermined location on the hard disk drive ( 1 ), the data storage unit ( 45 ) stores at least one disk enable temperature threshold (Tp), the disk enable temperature threshold (Tp) being the lowest security temperature at which the power supply device ( 5 ) is allowed to the hard disk drive ( 1 ) Supply power, characterized in that the data storage unit ( 45 ) stores at least one predetermined compensation value (C), wherein the predetermined compensation value (C) is defined as a predetermined difference between the external hard disk temperature (Te) and an internal hard disk temperature (Ti), the method comprising the steps of: (a) booting up the computer device, activation step ( 101 . 201 ), (b) retrieving the HDD enable temperature threshold (Tp) and the predetermined compensation value (C) from the data storage unit (16). 45 ) by the microprocessor ( 41 ), Retrieval step ( 102 . 202 ) (c) Detecting External Hard Disk Temperature (Te) of Hard Disk Drive ( 1 ) through the temperature sensor ( 2 ), Detection step ( 103 . 203 ), (d) comparison of the external hard disk temperature (Te) and hard disk activation temperature threshold (Tp) using the microprocessor ( 41 ), Comparison step ( 104 . 204 ), (e) subtracting the predetermined compensation value (C) from the external hard disk temperature (Te) and determining whether the result is smaller than the hard disk activation temperature threshold (Tp), checking step ( 105 . 205 ) (f) allowing the power supply device ( 5 ), Performance of the heating element ( 3 ) to the hard disk drive ( 1 ) and activation of the hard disk drive ( 1 ) when a result of subtracting the predetermined compensation value (C) from the external hard disk temperature (Te) is smaller than the hard disk activation temperature threshold (Tp), and (g) allowing the power supply device (16) 5 ), Performance of the hard disk drive ( 19 ) as well as allowing activation of the hard disk drive ( 1 ) when a result of subtracting the predetermined compensation value (C) from the external hard disk temperature (Te) is equal to the hard disk activation temperature threshold (Tp). Method according to claim 1, wherein the data storage unit ( 45 ) one with the microprocessor ( 41 ) has separate memory connected. Method according to claim 1, wherein the data storage unit ( 45 ) into a basic input and output system ( 44 ) of the computer device ( 100 ) has built-in memory. The method of claim 1 further comprising, after step (g), a step of performing a hard disk activation temperature threshold (Tp) correction process to obtain a calibrated predetermined compensation value (C '), wherein in step: (h) the Temperature sensor ( 2 ) the external hard disk temperature (Te) of the hard disk drive ( 1 ) detected ( 208 ), (i) a basic input / output system ( 44 ) of the computer device ( 100 ) an internal hard disk temperature (Ti) of the hard disk drive ( 1 ) receives ( 209 ), (j) the internal hard disk temperature (Ti) is subtracted from the external hard disk temperature (Te) to obtain a calibrated predetermined compensation value (C ') ( 210 and (k) the calibrated predetermined compensation value (C ') as the predetermined compensation value (C) at the next start-up of the computing device (FIG. 100 ) is used ( 211 ). The method of claim 1, wherein the predetermined compensation value (C) is obtained by the following steps: (I) bringing a hard disk drive to be tested ( 1 ) in a predetermined temperature environment, (II) using the heating element (FIG. 3 ) for heating the one hard disk drive ( 1 ) (III) Using the temperature sensor ( 2 ) of the computer device ( 100 ) for obtaining an external hard disk temperature (Te) of the one hard disk drive ( 1 ), (IV) supplying power to the one hard disk drive ( 1 ), when the temperature sensor ( 2 ) of the computer device ( 100 ) detects that the external hard disk temperature (Te) of the one hard disk drive ( 1 ) the disk activation temperature threshold (Tp) is equal, (V) using a basic input / output system ( 44 ) of the computer device ( 100 ) for obtaining an internal hard disk temperature (Ti) of one hard disk drive ( 1 ), (VI) subtracting the internal hard disk temperature (Ti) from the external hard disk temperature (Te) by a predetermined compensation value (C) of the one hard disk drive ( 1 ) and (VII) obtaining predetermined compensation values (C) of a plurality of hard disk drives ( 1 ) in the same way and averaging the predetermined compensation values (C). The method of claim 5, wherein the one hard disk drive to be tested ( 1 ) of step (I) a hard disk drive ( 1 ), which happens to be among the several hard disk drives used in the computer device ( 100 ) are selected. The method of claim 6, wherein the internal hard disk temperature (Ti) obtained in step (V) is the lowest one of a number of internal hard disk temperatures of the one hard disk drive (FIG. 1 ), which is supported by the basic input / output system ( 44 ) of the computer device ( 100 ).

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