EZConvert Pro MB982SPR-2S R1
大きいサイズ表示
SSD変換ツール(アダプタ/マウント)

ICY DOCK EZConvert Pro MB982SPR-2S R1製品は2.5インチSATA HDD/SSDを2台搭載可能なコンバーターボックスです。製品はオールメタル素材となり,2台5-9.5mm厚みの2.5インチHDD/SSDを一つの標準3.5インチベイに収まることが可能です。内蔵のRAID機能を利用すればRAIDカードがなくても、簡単にRAID 0(FAST), RAID 1(SAFE), JBOD及びBIGの四つRAIDモードに設定できます。また、スクリューレスの構造でHDD/SSDのインストールと交換などが簡単に行えます。

 

EZConvert Pro MB982SPR-2S R1製品は3.5インチベイの空間を最大限に発揮し、時間短縮やコストダウンの効果が図れます。本製品は作業システムのバックアップ或いはハイパフォマンスを求めるシステムなどの運用に最適、例えば医療、政府機構システム、工業パソコン、サーバやワークステーション、VMwareワークステーション、POSシステム、自動化システムや組込システムなどに活用できます。

 
内蔵RAID機能
 
EZ Convert Pro MB982SPR-2S R1製品はRAID機能を内蔵した2.5インチHDD/SSD搭載用コンバーターケースです。RAIDモードとしてRAID 0 (FAST)、RAID 1(SAFE)、BIG とJBODの四種類を選択できます。用途によって2台のHDD/SSDを簡単に適切なRAIDモードに設定可能です。例えば、パフォーマンスの向上、データのセキュリティ性、容量の拡張など様々な用途に活用することができます。
*注意: RAID 0/1モードに設定する時, 使用可能な容量は小さい容量に制限されますので同容量のHDD/SSDを使用することをお勧めします。
 
独立なRAID機能を通せば,RAIDカードが必要なく単一のSATA接続コネクタで2.5インチHDD/SSDのディスクアレイを導入可能です。例えば,MacProの3.5インチHDDを2台の2.5インチHDD/SSDに入れ替え,RAID0モードに設定すれば高速転送モードにアップグレード;或いはRAID 1モードで,搭載デバイスの故障によるデータ損害を防げます。JBODモードは2台独立なデバイスをサポートし(SATA port-multiple機能が必要),BIGモードを利用すれば2台デバイスを一つ大きい容量にまとめることができます。
 
3.5インチHDDと同じサイズ
EZConvert Pro MB982SPR-2S R1製品は2台2.5インチHDD/SSDを一つ標準3.5インチHDDに変換できます。3.5インチHDDと同じサイズとなり、ネジ穴と接続コネクタの位置も完全互換を持っています。インストール手間を省けるためツールレス機構を採用しており、5mm~9.5mm厚みの2.5インチHDD/SSDを簡単に搭載可能です。蓋カバーをあげ、デバイスを着装して蓋カバーを閉めればインストール完成です。
 
様々な用途
 
3.5インチのHDDが広い範囲で応用されています。例えば : パソコン、Macシステム、ゲームシステム、NASシステム、監視システム、POSシステム、影像編集及びデータサーバ等。しかし、2.5インチのHDD/SSDデバイスもたくさんのメリットを持っています。例えば:2.5インチSSD製品は高速転送レートを持ち、振動に強くて熱を持たないという特徴をあります。MB982SPR-2S R1製品を利用すれば2.5インチHDD/SSDデバイスのメリットを獲得しながら,簡単にシステムのアップグレートを実現できます。
製品特徴
 
* SATA III (6Gb/s)対応 ,SATA II(3Gb/s) と SATA I(1.5Gb/s)に互換性あり
* SATAホットスワップ機能対応
* 2台5mm~9.5mm厚み 2.5インチSATA HDD/SSDを一つ標準3.5インチサイズに変換
* 3.5インチHDDと同じサイズ、ネジ穴と接続コネクタ位置も完全互換
* 内蔵RAID機能,四つのモード設定:RAID 0(FAST)、RAID 1(SAFE)、JBOD、
   BIG (SPANNING)
* ツールレス機構設計、インストールが簡単
* オールメタル構造で厳しい要望に満たす
* 製品バックパネルに稼動状態を確認するLEDインジケーターを設け
* EMI対策済み,電気からの損害影響を防ぐ
* ラッチ付コネクタ搭載
* 金属筐体と通気孔で散熱交換を図る
* APPLE Mac Proシステムのバックトレイと互換性あり
* 推奨応用:パソコン、Macシステム、ゲームシステム、NASストレージ、監視システム、
   POSシステム、影像編集システム、データサーバ等
型番 :
MB982SPR-2S R1
色 :
Silver
対応デバイス :
2 x 2.5” SATA III HDD & SSD (Up to 9.5mm height)
対応スペース :
標準3.5インチHDDサイズ
接続インターフェース :
1 x SATA 7 pin
電源入力 :
1 x SATA 15 pin
転送レート :
マックス 6 Gb/Sec (デバイスによる)
LED インジケーター :
赤ランプ点灯 : HDD故障
散熱機構 :
金属筐体及び散熱孔
RAID モード :
RAID 0 (快速) / RAID 1 (安全) / BIG (拡張) / JBOD (非RAID)
材質 :
オールメタル
サイズ (W x H x D) :
101.6 x 25.4 x 146.6mm
重量 :
360.7g
同梱物 :
製品, マニュアル, 固定ネジ

 

 
     

 

 

 
     
   
     

 

Frequent Asked Questions
 

Q: What is RAID and what are different mode?

Note: Not all ICY DOCK enclosure support each of the RAID modes described below. For more information on the RAID modes that your enclosure supports, refer to the manual or the icydock.com product page.

Redundant Array of Independent Disks (RAID) is a virtual disk technology that combines multiple physical drives into one unit. RAID can create redundancy, improve performance, or do both.

RAID should not be considered a replacement for backing up your data. If critical data is going onto a RAID array, it should be backed up to another physical drive or logical set of drives.

 

The following are terms that normally used in connection with RAID:

• Striping: data is split between multiple disks.
• Mirroring: data is mirrored between multiple disks.
• Parity: also referred to as a checksum. Parity is a calculated value used to mathematically rebuild data.
 
Different RAID levels exist for different application requirements.


Refer to the following table for the list of RAID modes offered by some ICY DOCK products:
RAID MODE Description Operation Advantages Disadvantages Recovery
RAID 0 Striped disks Data is split evenly between two or more disks. Large size and the fastest speed. No redundancy. If one or more drives fails, this results in array failure.
RAID 1 Mirrored disks Two drives have identical data on them. A single drive failure will not result in data loss. Speed and size is limited by the slowest and smallest disk. Only one drive is needed for recovery.
JBOD Just a Bunch Of Disks Any number of drives are accessed independently by the operating system. Software RAID modes can be used. Hardware RAID may have better performance. N/A
BIG Spanning or Concatenation Data is written on one drive until it is full, and then the next drive(s) until it or they are full. Creates a very large and simple array. No redundancy. N/A
 

Q: How do I setup or change the RAID mode for my MB982SPR-2S R1 RAID Converter?

Note: Any data currently on the drives will be lost during this process. You need to back up all of your data before you set a RAID mode.

 

To set a RAID mode, complete the following:

1. Turn off the computer.
2. Use a SATA cable to connect the MB982SPR-2S R1 RAID mobile rack to a computer.
3. Set the RAID switch to the RAID mode that you want to set.
4. Turn on the computer.
5. When the computer is turned on, check disk management to see if your RAID array is listed. If the RAID array listed with unallocated space, the RAID array needs to be reformatted.
 

Note 1: When you change the RAID mode, complete the steps above to set the unit back to JBOD before you set a different RAID mode.

Note 2: Your SATA controller card requires SATA port multiplier feature to read more than two drives in JBOD mode. If your computer is only recognizing one of your hard drives, it means your SATA controller does not support port multiplier feature. In this case, You can use the RAID monitoring software to verify the RAID model status. The RAID monitoring software can be downloaded here.

Note 3: Without port multiplier support, you can still see two drives in the RAID monitoring software under JBOD mode, this is because the RAID chipset can read two drives. However, to format each drive in Windows requires a port multiplier feature.

 

Q: How do I rebuild my RAID 1 array?

1. Determine which drive is operational by using the RAID monitoring software (if available) or test each drive individually on a different hard drive enclosure or by connecting each drive directly to a computer’s SATA port.
2. Replace the failed drive with an identical hard drive.
3. The array will rebuild and is accessible during the rebuilding process.
 

Note 1: It is recommended to use a new identical hard drive for the rebuild. To use a used drive, we recommend use Window’s DiskPart command to clean and format the used hard drive before you start rebuilding.

Note 2: Before you start the rebuilding process, make sure the replacement drive has no previous RAID table in it. To erase the RAID table created by MB982SPR-2S R1, turn off the computer, insert the drive to the MB982SPR-2S R1 and set the RAID switch to JBOD mode and then turn on the computer. The RAID table will be erased once you successfully switch to JBOD mode. This procedure deleted all of the data on the drives. Make sure you back up all your data before you switch to JBOD mode.

Note 3: For better data security, when creating RAID 1 array, the JMS562 RAID chipset saves the RAID table to a deep layer (LBA) of the drive, which can only be erased by JMS562 chipset (MB982SPR-2S R1) in JBOD mode. Therefore, we recommend wiping the RAID table before you reuse any drive that ever used in MB982SPR-2S R1 with RAID 1 array.

 

Q: Will my hard drive or solid state drive work in this enclosure?

• Make sure that the enclosure supports the storage size of your hard drive. If the storage size of your hard drive is larger than what the enclosure was tested with, the hard drive will likely still work with the enclosure.
• Confirm that your hard drive uses the same interface type as the enclosure. For example, IDE, SATA, or SAS.
• Make sure that the enclosure supports the physical size of your hard drive, such as 2.5 inches drive or 3.5 inches drive.
• Make sure that the enclosure supports the height of your hard drive. For example, 7mm, 9mm or 15mm.
• Verify that the power consumption of your hard drive doesn’t exceed the power output of the enclosure. If you’re using multiple hard drives, make sure that the combined power consumption of all of the hard drives doesn’t exceed the power output of the enclosure.
 

Q: My computer is only recognizing one of the hard drives while using SATA/eSATA. What do I do?

SATA hard drive controllers require a feature called port multiplier to read more than one hard drive per SATA or eSATA port. The port multiplier feature is not standard on many SATA hard drive controllers.
If your computer is only recognizing one of your hard drives, you need to plug the SATA/eSATA cable into a SATA controller that includes the port multiplier feature. If none of your current hard drive controllers include this feature, you can add a hard drive controller that does support port multiplier in any available expansion slot (for example, PCI, PCI-Express, PCMCIA, CardBus, or ExpressCard).

If you have a hard drive controller card that does support the port multiplier feature but it is only reading one hard drive at a time, update the drivers of the hard drive controller.

 

Q: Everything is connected, but nothing is working. What do I do?

When you troubleshoot issues with a hard drive enclosure, there are some quick tests that you can complete to rule out potential problems. You can test to make sure that the following components are working correctly and are not the source of the issue:
• Cables (USB, SATA, SAS, Mini-SAS, etc)
• Hard drives / SSD (M.2 drive, 3.5'' hard drive, solid state drive, etc)
• Hard drive enclosure (converter, mobile rack, cage, and external enclosure)
 
To test your setup components, try the following:
• Connect the hard drive directly to the system or use the hard drive in another enclosure to see if the problem is with the hard drive.
• Use the cables, hard drives, and hard drive enclosure in another setup to see if the problem is with the components or the setup.
• Use a different cable, hard drive, and hard drive enclosure in your setup to see if the problem persists. Ideally, you should test a component that you know works in another setup.
 
When you test the hard drive and hard drive enclosure, it is recommended that you do the following:
• To check Disk Management, press the Windows key + R, type diskmgmt.msc, and press Enter. Check to see if your hard drive is listed.
• If the hard drive is listed with unallocated space, the hard drive needs to be reformatted. Right-click unallocated and click New Simple Volume. Follow the on-screen instructions to complete the reformatting.
 
Note: Formatting a hard drive erases all of the data on it. Make sure that you back up all of your data before you reformat the hard drive.
• If the hard drive is listed as healthy but does not have a drive letter, for example, C:, right-click healthy and click Change Drive Letter and Paths. Click Add, assign a drive letter, and click OK.
 
Note: A formatted hard drive will not show up in Computer or My Computer until it has a drive letter assigned to it.
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MB982SPR-2S R1
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