コンピュータの電源電圧を正しく検出する方法

How to accurately detect computer power supply voltage? This problem may bother many beginners and ordinary users. The power supply voltage is crucial to the stable operation of the computer, but ordinary users often lack the professional tools and knowledge to detect it. In order to solve this problem, PHP editor Baicao brings you this article, which will introduce in detail how to use multimeters and other tools to accurately detect the computer power supply voltage. By reading the following content, you will understand the detection steps, precautions, possible problems and solutions, and master the method to correctly detect the computer power supply voltage.

1. How to correctly detect the computer power supply voltage

Power supply voltage is the basis for the normal operation of the computer. Correct detection of the power supply voltage is crucial to ensure the stability of the computer hardware. This article will introduce you in detail how to correctly detect the power supply voltage of your computer.

Why should we check the computer power supply voltage

Computer power supply voltage is the power required to supply the various hardware components of the computer for normal operation. A voltage that is too high or too low will have a negative impact on the performance and life of the computer. Therefore, it is very important to regularly check the power supply voltage to ensure its stability.

Preparation Tools

To test the computer power supply voltage, you need the following preparation tools:

Digital voltmeter Power supply voltage detection tool Flat head screwdriver

Step 1: Safe operation

First, make sure you follow the steps below for voltage detection, and Pay attention to safe operation:

Make sure the computer and related equipment are turned off and unplugged. Use an anti-static wrist strap to avoid damage to computer hardware caused by static electricity. Operate in a clean and dry working environment

Step 2: Check the power supply voltage

Follow Follow the steps below to detect the power supply voltage:

Open the casing of the power supply voltage detection tool. Use a flat-head screwdriver to connect the voltage probe of the voltage detection tool to the appropriate pins of the power connector. Connect the positive and negative poles of the digital voltmeter to the voltage probe's pins respectively. Connect the positive and negative poles, turn on the power switch, read the voltage value on the digital voltmeter and record it

Step 3: Analyze the results

Through the recorded voltage value, you can perform the following analysis:

Compare the difference between the reading and the standard voltage value to Determine whether the power supply is working properly. If the voltage value is much lower than the standard value, the power supply capacity may be insufficient, resulting in a decline in computer hardware performance; if the voltage value is much higher than the standard value, the power supply may be damaged and needs to be replaced. If the voltage value is within the normal range , but frequent fluctuations may be due to unstable power quality. It is recommended to repair or replace it in time

I hope the above content can help you correctly detect the computer power supply voltage and ensure the healthy and stable operation of the computer. If you have any questions or need more help, please feel free to contact us and thank you for reading this article!

2. What are the computer power supply voltage parameters?

180V~250V. Computer hardware requires the use of DC 12V, 5V, and 3.3V, and the voltage is transformed by a computer-specific power supply device. The normal range of AC 220V voltage is 187~242V. In order to ensure the normal power supply of the computer, the AC input of the ordinary power supply equipment of the computer is in the voltage range of 180V~250V. Above this range is a wide range power supply, usually 160V~260V or 90V~265V.

3. How to set the computer power voltage?

1. After turning on the computer, click the ESC key to enter the BIOS interface. There are adjustment options in the power management. If you have an older motherboard, you may need to open the case and connect jumpers on the motherboard to adjust the voltage. In Digi+ VRM/POWER Control, set VCore Phase Control to Optimized;

2. Then set CPU Voltage to Offset Mode;

3. Finally, in Offset Mode Sign, you can adjust the voltage through the +/- sign.

4. How to divide the computer power supply voltage cable?

1.

Yellow motherboard power cord: +12V. The yellow motherboard power cord should be one of the most abundant in the power supply. The yellow power cord outputs +12V voltage. With the addition of CPU and PCI-E graphics card power supply components, the role of +12V plays an important role in the power supply. The +12V power supply provides power for the spindle motors and seek motors of the hard disk, optical drive, and floppy drive in the computer, as well as providing the operating voltage for the ISA slot and the logic signal level of circuits such as serial port devices.

2.

Red motherboard power cord: +5V. The red motherboard power cord outputs +5V voltage. The number of red power cords is equivalent to that of yellow power cords. The +5V power supply voltage mainly provides working voltage for integrated circuits such as CPU, PCI, AGP, ISA, etc., and is the main working power supply in the computer. Since the +5V power supply mainly supplies power for major devices such as the CPU, its power supply stability is directly related to the stability of the computer system.

3.

Orange motherboard power cord: +3.3V. The orange motherboard power cord outputs +3.3V voltage. The +3.3V voltage is a voltage specially set by the ATX power supply and mainly provides power for the memory.

5. What is the power supply voltage of a desktop computer?

The input voltage is the mains voltage 220V. The working voltage of other components is as follows:

1. Motherboard: 12V, 5V, +3.3V various voltages

2. CPU:

3.3V core voltage 1.05-1.55V 3. Memory: DDR1 2.5V, DDR2 1.8V, DDR3 1.5V.

4. Hard drive: 12V 5V

5. Optical drive: 12V 5V

6. Graphics card: 12V 3.3V 1.5V

7. CPU fan: 12V 8 switching power supply fan: 12V 9. Mouse: 5V 10. Keyboard: 5V

6. Computer hardware testing software to test whether the computer power supply voltage is normal or not

When performing computer hardware testing, an indispensable tool is the software to test the computer. With appropriate software, we can comprehensively check the computer's performance, including whether the power supply voltage is normal. To ensure the stable operation of computer hardware, it is crucial to detect whether the power supply voltage is normal.

Choose the right computer hardware testing software

To conduct a comprehensive hardware test on your computer, you first need to choose the computer hardware testing software that suits your needs. These software usually provide various testing tools that can test the performance of various hardware components such as CPU, memory, graphics card, hard disk, etc. Commonly used software includes AIDA64, PassMark, CPU-Z, etc.

Understand the normal voltage range

When using software to test the computer power supply voltage, you need to know what the normal voltage range is. Generally speaking, +12V, +5V, and +3.3V are the three important parameters of the power supply voltage. Among them, +12V is usually allowed to fluctuate between 11.4V and 12.6V, +5V fluctuates between 4.75V and 5.25V, and +3.3V fluctuates between 3.1V and 3.5V.

How to test the computer power supply voltage

To test whether the computer power supply voltage is normal, you first need an electronic multimeter or a professional voltage tester. Then follow the following steps to test:

Select the voltage range of the multimeter to the DC voltage range; Insert the red test lead into the red wire hole on the motherboard power socket, and the black test lead into the black wire hole; Power on the system and observe and record +12V, + The actual values ​​of the three voltages of 5V and +3.3V; compare the recorded values ​​with the normal range to ensure that the power supply voltage is normal.

Common power supply voltage abnormalities

When testing the computer power supply voltage, some abnormalities may occur, such as:

Too high voltage: It may be that the power supply part is faulty and the power supply needs to be replaced; Too low voltage: It may be that the power line is in contact If the power supply is defective or aging, you need to check the circuit and consider replacing the power supply; Large voltage fluctuation: The power supply may be unstable, or there may be a problem with the power supply itself or the distribution line.

The importance of testing the power supply voltage

The power supply is the core component of the entire computer system. The stability of the power supply voltage directly affects the stable operation of the hardware. If the power supply voltage is abnormal, it will not only affect the performance of the computer, but may also cause hardware damage or even burnout. Therefore, it is very important to test the computer power supply voltage regularly.

Conclusion

With appropriate computer hardware testing software and correct testing methods, we can easily and comprehensively understand the performance of computer hardware, including detecting whether the power supply voltage is normal. Only by ensuring that the power supply voltage is stable and normal can our computer run more stably and reliably.

7. Revealing the secret of computer power supply voltage: Understand the importance of stable power supply

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Overview of computer power supply voltage

Computer power supply voltage refers to the voltage generated by the power supply used by the computer host or laptop. In electronic equipment, a stable power supply voltage is crucial for the normal operation and extended service life of the equipment.

Why is computer power supply voltage so important?

Various components of the computer, such as motherboard, CPU, memory, graphics card, etc., require specific voltage and current to ensure their normal operation. If the power supply voltage is unstable, it will cause damage to these components and even cause the entire computer to not work properly.

Understand the standard values ​​of computer power supply voltage

Usually, computer power supply voltage includes several standard values ​​such as +3.3V, +5V, +12V, etc. These values ​​represent the stability of the power supply. A high-quality power supply will provide a more stable voltage output.

Factors affecting computer power supply voltage

Computer power supply voltage is affected by various factors such as power supply environment, power supply quality, and electromagnetic interference. Especially when the power supply environment is unstable, the power quality is poor, or electromagnetic interference is large, the computer power supply voltage is easily affected, thus affecting the stable operation of the equipment.

How to ensure the stability of computer power supply voltage

1. Choose a high-quality power supply to ensure it has good voltage stability and overload protection.

2. Use stable and reliable power sockets to avoid voltage fluctuations caused by power supply environment problems.

3. Reduce electromagnetic interference and try to avoid placing the power cord too close to other equipment or high-power electrical appliances.

Conclusion

The stability of computer power supply voltage is crucial to ensure the normal operation of computer equipment. When purchasing a power supply, be sure to pay attention to its voltage stability and quality to avoid equipment damage or data loss due to voltage problems.

Thank you for reading this article. I hope this article can help you better understand the importance of computer power supply voltage and how to ensure a stable power supply for computer equipment.

8. What is the voltage output of the computer power supply?

Computer power supply output generally has three different voltages: 12V, 5V, and 3.3V. The computer power supply is responsible for supplying power to computer accessories, such as CPU, motherboard, memory stick, hard disk, graphics card, etc. It is an important part of the computer.

新しい仕様の 12V、5V、3.3V などの出力の電力割り当ては、一般に、12V 出力により多くの電力を割り当てる ATX 12V 2.0 仕様など、現在のコンピューター アクセサリの電力ニーズにより適しています。 3.3V および 5V の電源出力により、最新のコンピュータ アクセサリのニーズにより適しています。

9. コンピューターの電源電圧が不安定な場合はどうすればよいですか?

コンピューターが動かなくなった場合の対処方法 1. CPU が過負荷になっているか、正常に動作していません。 CPUやグラフィックスカードの放熱を確認し、ホコリや油分を取り除くか、ファンを交換してください。

2. 電源電圧が不安定で、電源電力が不足しています。電源を高品質、高出力のものに交換してください。

3. ディスクを頻繁にクリーニングしてデフラグします。

1. [マイ コンピュータ] ウィンドウで、クリーンアップするドライブ文字を右クリックし、[プロパティ] - [ディスクのクリーンアップ] - 削除するファイルにチェックを入れます - [OK] - はい。

2. 一時ファイルをクリアし、開始 - 実行 - 「%temp%」と入力 - OK。

3. Optimization Master または Super Rabbit を使用して、レジストリとジャンク ファイルをクリーンアップします。

4. 一部のスタートアップ プログラムを閉じます (start-run-msconfig---start)。ウイルス対策ソフトウェアとインプット メソッドを除く一般的なプログラムを閉じることができます。

5. 使用しないプログラム ソフトウェアを削除します。

6. ディスクをデフラグします--スタート--すべてのプログラム--アクセサリ--システムツール--ディスクデフラグツール--選択したディスク--分析--デフラグ。

7. メモリの負担を軽減し、あまりにも多くのプログラムを開かないようにします。開いているドキュメントが多すぎる場合、または同時に実行しているプログラムが多すぎる場合は、他のプログラムを実行するのに十分なメモリが不足するため、使用されていないプログラムやウィンドウは常に閉じる必要があります。

4. グラフィックス カードとネットワーク カード ドライバーをアップグレードし、よりグレードの高いグラフィックス カードに変更します。

5. 物理メモリを増やします。

6. 仮想メモリを合理的に設定します。

1. ゲームをプレイする場合、仮想メモリの最大値と最小値は物理メモリの 2 ～ 3 倍に設定できます。これより大きいと、ハードディスクの容量が過剰になります。

2. 仮想メモリの設定方法は次のとおりです。 [マイ コンピュータ] を右クリック - [プロパティ] - [詳細] - [パフォーマンス設定] - [詳細] - [仮想メモリの変更] - ドライブ リストで仮想メモリ (ページ ファイル) が保存されているパーティションを選択 - [カスタム サイズ] --「初期サイズ」と「最大値」に値を設定し、「設定」ボタンをクリックし、最後に「OK」ボタンをクリックして終了します。

3. 仮想メモリ (ページ ファイル) が保存されるパーティションには十分な空き容量が必要です。 ハードディスク リソースが不足すると、仮想メモリが 1 つのパーティションに設定されるだけで十分です。複数のパーティション設定が必要です。

7. Optimization Master または Super Rabbit を使用してコンピューターを最適化します。これらの方法を使用してもコンピューターがまだ動かない場合は、ハードウェアに問題があるかどうかを確認するか、システムを変更してみる必要があります

10. コンピューターの電源電圧がハードドライブを運ぶのに十分ではありませんか?

解決策:

1. まずモバイル ハードディスクのデータ ケーブルを確認します。モバイル ハードディスクのデータ ケーブルに問題がある場合は、モバイル ハードディスクの使用にも影響します。モバイル ハードディスクのライトが常に点滅します。つまり、ハード ドライブが見つかりません。最初にワイヤーを変更することができます。

2. モバイルハードディスクインターフェースの接触が良好かどうかを確認してください

モバイルハードディスクインターフェースの接触が悪い場合は、手で押すとハードディスクが見つかることがありますが、手を緩めると、ハードディスクが見つからないため、モバイルハードディスクの電源機能に影響があり、頻繁に停電が発生します。インターフェースを変更しない場合、長期的にはハードドライブに損傷を与える可能性があります。

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