Dubbele sleuf schijfbehuizing voor M.2 SATA SSDs - USB 3.1 (10Gbps) - RAID

Verander twee M.2 SATA-schijven in ultrasnelle, draagbare opslag met RAID voor verhoogde prestatie of redundantie

Productcode: SM22BU31C3R

  • Maximaliseer de prestatie van uw M.2 (NGFF) SATA-schijven met USB 3.1 Gen 2 (10 Gbps) connectiviteit
  • Ondersteunt RAID 0, RAID 1, JBOD en SPAN (BIG) voor optimale prestatie, capaciteit en redundantie
  • Ondersteunt alle gebruikelijke M.2 SATA SSD's en biedt u de mogelijkheid schijven van verschillende lengte te monteren: 30 mm (2230), 42 mm (2242), 60 mm (2260) en 80 mm (2280)
Uw prijs
€73,99 EUR excl. VAT
€89,53 EUR incl. VAT

Met deze Dual M.2 SATA-behuizing met RAID kunt u gemakkelijk ultrasnelle, draagbare externe opslag toevoegen aan uw met USB-C™ of USB-A uitgeruste laptop, tablet, smartphone of desktopcomputer. De meerdere RAID-modi bieden een hogere capaciteit, verbeterde prestaties of dataredundantie.

Krijg toegang tot uw externe data met hogere snelheden

Snel uw bestanden openen, overdragen en back-uppen waar u ook heen gaat. Met deze M.2 RAID-behuizing met twee sleuven hebt u eenvoudig toegang tot uw data door een krachtige, ultramobiele opslagoplossing te maken met behulp van twee M.2 (NGFF) SATA SSD's. D behuizing is ideaal voor creatieve professionals zoals fotografen en videografen in bedrijven, opleidingsinstellingen en de overheid, die snel toegang moeten hebben tot belangrijke databestanden, zowel in het veld als terug op kantoor.

Met de RAID-behuizing kunt de snelheid van uw M.2 (NGFF) SATA-schijven benutten door te profiteren van USB 3.1 Gen 2, met dataoverdrachtsnelheden tot 10 Gbps. De behuizing biedt eenvoudig toegang tot uw bestanden voor datamigratie en -back-ups zodat u belangrijke data altijd kunt beveiligen.

Verhoog de prestatie en dataredundantie

Dankzij meerdere RAID-opties kunt u met de M.2 RAID-behuizing meer opslagcapaciteit, prestatie of redundantie krijgen. U kunt erop gerust zijn dat uw bestanden continu worden geback-upt of profiteer van de grotere snelheid en capaciteit van een gecombineerde oplossing. De behuizing ondersteunt RAID 0, RAID 1, Spanning en JBOD, waardoor u uw back-up-voorkeursmethode kunt kiezen. De behuizing ondersteunt ook SSD TRIM voor een langere levensduur en prestatie van uw schijven.

Maak uw data mobieler

De Dual M.2 SATA-behuizing vormt een zeer mobiele opslagoplossing. Dankzij zijn compacte design kunt u hem in uw laptoptas of draagtas opbergen en overal meenemen - naar kantoor, laboratorium of voor mobiel gebruik, zodat u toegang hebt tot uw data waar u ook heen gaat. Gemaakt van sterk aluminium helpt deze M.2 SATA-behuizing met twee sleuven uw data te beschermen waar u ook heen gaat.

De M.2 SATA RAID-behuizing wordt direct gevoed vanaf de USB-poort van uw apparaat, zodat geen externe voeding vereist is. Ook worden twee USB-kabels (USB-C naar Micro-B en USB-A naar Micro-B) geleverd voor flexibel gebruik met de nieuwste laptops en tablets die zijn voorzien van een USB-C™ poort, alsmede oudere apparaten. De behuizing werkt onafhankelijk van het besturingssysteem, waardoor geen extra software of stuurprogramma's hoeven te worden geïnstalleerd en de behuizing is ook compatibel met een Thunderbolt™ 3 USB-C poort. 

 Bij de SMS2BU31C3R worden alle vereiste schijfinstallatietools en -bevestigingsmaterialen geleverd en hij wordt gedekt door een 2-jarige garantie en gratis levenslange technische ondersteuning van StarTech.com.

Toepassingen

  • Professionals in vele verschillende bedrijfstakken, van bedrijven tot medische instellingen, kunnen profiteren van high-speed datatoegang voor hun met USB-C of USB-A uitgeruste laptop, tablet, smartphone of desktopcomputer
  • Mobiele professionals kunnen twee M.2 (NGFF) SATA SSD's gebruiken voor toegang tot en het overdragen en back-uppen van bestanden met hogere snelheid via USB 3.1 Gen 2 (10Gbps)
  • Gebruik M.2 SATA-schijven opnieuw of voor een ander doel om de opslag van uw pc uit te breiden of data te back-uppen
  • Ideaal ter bescherming van schijven tegen stof en andere mogelijke gevaren
  • Krijg toegang tot schijven voor het herstellen, back-uppen of repareren van data

Partnernummers

  • Ingram Micro Belgium 3587842
  • Tech Data - Belgium 4462138
  • UPC 065030870757

Compatibility

Specificaties

Warranty Information Warranty 2 Years
Connector(en) 2 - Schijfaansluitingen M.2 (SATA, B-Key, NGFF)
1 - Hostaansluitingen USB 3.1 USB Type Micro-B (10-polig, Gen 2, 10 Gbps)
Fysieke eigenschappen Kleur Zwart
Type behuizing Aluminium
Max. schijfhoogte 80 mm [3.1 in]
Lengte product 100 mm [3.9 in]
Breedte product 80 mm [3.1 in]
Hoogte product 15 mm [0.6 in]
Gewicht product 96 g [3.4 oz]
Gebruiksomgeving Bedrijfstemperatuur 0°C to 60°C (32°F to 140°F)
Opslagtemperatuur -20°C to 70°C (-4°F to 158°F)
Vochtigheid 0% - 90% rel. luchtvochtigheid
Hardware Interface USB 3.1 Gen 2
Bus type USB 3.1 Gen 2
Aantal stations 2
Schijfgrootte 22mm - M.2 SATA
Schijftype M.2 (SATA, B-Key, NGFF)
Schijfinstallatie Vast
Ondersteunde schijfhoogte(n) 2230
Ventilator(en) Nee
Ondersteunde schijfhoogte(n) 2242
2260
2280
Chipsetcode ASMedia - ASM1352R
Indicatoren 2 - LED-indicatoren Lezen / schrijven (groen)
Fout / Rebuilt (rood)
Prestaties Maximale overdrachtsnelheid 10 Gbps
Type en snelheid USB 3.1 Gen 2 - 10 Gbit/s
UASP ondersteuning Ja
4Kn Support Ja
Type en snelheid SATA III (6 Gbps)
Port-multiplier Ja
TRIM Support Ja
RAID Ja
Max. schijfcapaciteit 2 TB
Ondersteunde RAID-niveaus RAID 0 (stripe)
RAID 1 (mirror)
BIG (span of lineair)
JBOD - (Just a Bunch of Disks)
MTBF 35.000
Algemene specificaties Niet compatibel met M.2 NVMe of AHCI PCI-Express SSD's
Software Besturingssystemen OS independent; No software or drivers required
Speciale opmerkingen / vereisten Notitie Windows 7 and earlier Windows versions do not support TRIM with USB to SATA devices.
Verpakkingsinformatie Package Height 32 mm [1.3 in]
Package Length 16.5 cm [6.5 in]
Verzendgewicht (verpakt) 195 g [6.9 oz]
Package Width 13.1 cm [5.2 in]
Voeding Inclusief voedingsadapter Gevoed via USB
Wat wordt er meegeleverd 1 - Meegeleverd M.2 SATA-behuizing
USB-C naar Micro-B kabel - 46 cm
USB-A naar Micro-B kabel - 46 cm
2 - Meegeleverd montageschroeven voor behuizing
sets met M.2 bevestigingsmaterialen
1 - Meegeleverd Schroevendraaier
verkorte handleiding

Accessoires

USB3SAUB1

30 cm SuperSpeed USB 3.0-kabel A naar Micro B

Sluit een USB 3.0 Micro USB externe harde schijf aan op uw computer

Uw prijs
€8,99 EUR excl. VAT
€10,88 EUR incl. VAT
USB3SAUB3BK

3 ft Black SuperSpeed USB 3.0 Cable A to Micro B - M/M

Sluit een USB 3.0 Micro USB externe harde schijf aan op uw computer

Uw prijs
€9,99 EUR excl. VAT
€12,09 EUR incl. VAT
USB3SAUB3

3 ft SuperSpeed USB 3.0 Cable A to Micro B

Sluit een USB 3.0 Micro USB externe harde schijf aan op uw pc of laptop

Uw prijs
€9,99 EUR excl. VAT
€12,09 EUR incl. VAT
USB31CUB1M

USB 3.1 USB-C naar Micro-B kabel - 1 m

Sluit USB Micro-B apparaten aan op uw USB-C host, met deze duurzame 1 meter lange kabel

Uw prijs
€17,99 EUR excl. VAT
€21,77 EUR incl. VAT

Drivers/Downloads

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Veelgestelde vragen (FAQ)

Troubleshooting

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
  • Hard drives
  • Hard drive enclosure

To test your setup components, try the following:

  • 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.

In order to rebuild a RAID array, you need to replace a physical drive with an identical drive on the same RAID controller. Although standard RAID levels are generally agreed upon throughout the industry, the implementation varies between manufacturers. RAID arrays are typically not accessible when they are moved to another controller, and data may be unrecoverable if the drives are out of order or have been formatted or accessed by another RAID controller.

If a RAID controller has failed, you should get the exact same model of RAID controller.  

Note: If a drive or drives were damaged, it is possible that the RAID array may be permanently unrecoverable.

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

Rebuild a RAID array

With the following RAID modes, recovery is possible using the same StarTech.com product. Refer to the following table for the appropriate method to use to recover your RAID array.

RAID mode Max # of failed drives Procedure
RAID 1 Only one drive is needed for recovery.
  1. Determine which drive is operational by using the RAID management utility (if available) or test each drive individually on a different hard drive controller (for example, a hard drive docking station or SATA controller).

  2. Replace the failed drive with an identical hard drive.

The array will rebuild and is accessible during the rebuilding process.

RAID 3 Single drive failure will rebuild.
  1. Determine which drive is defective by using the RAID management utility (if available) or with diagnosis LEDs on the controller or enclosure.

  2. Replace with an identical hard drive.

Note: Do not change the order of the drives.

  1. The array may be accessible during the rebuild, but you should let the controller rebuild without interruption so that performance is not compromised.

RAID 5 Single drive failure will rebuild.
  1. Determine which drive is defective by using the RAID management utility (if available) or with diagnosis LEDs on the controller or enclosure.

  2. Replace with an identical hard drive.

Note: Do not change the order of the drives.

  1. The array may be accessible during the rebuild, but you should let the controller rebuild without interruption so that performance is not compromised.

RAID 10 Only one drive in a mirrored set can fail.
  1. Determine which drive is defective by using the RAID management utility (if available) or with diagnosis LEDs on the controller or enclosure.

  2. Replace with an identical hard drive.

Note: Do not change the order of the drives.

  1. The array may be accessible during the rebuild, but you should let the controller rebuild without interruption so that performance is not compromised.

 

If your setup components support USB 3.1 but you are experiencing slower transfer speeds than you expected, consider the following:

  • A USB host connection with multiple USB 3.1 ports might not be able to support 10Gbps on each port simultaneously.
  • The type of port on a device does not determine whether the device is capable of USB 3.1 speeds. A USB-C port might not support USB 3.1 speeds, while USB-A and USB-B ports might support USB 3.1 speeds.
  • Any other devices that you include in your setup, such as an older hard drive in a USB 3.1 enclosure, might create a point of congestion and slow down transfer speeds.

To confirm the functionality of your USB host connection, its ports, and any other devices in your setup, refer to the information provided by the manufacturer.

Note: USB 3.1 is also known as USB 3.1 Gen 2 (10Gbps). Devices that support USB 3.1 should have the USB 3.1 symbol on them. If the USB 3.1 symbol does not appear on your USB source or device, refer to the information provided by the manufacturer to confirm whether the USB source or device support USB 3.1.

Voor uw aanschaf

To determine if your hard drive will work in this enclosure, on the product page, click the Technical Specifications tab, and do the following:

  • 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 M.2.
  • Make sure that the enclosure supports the physical size of your hard drive, such as 2.5 inches or 3.5 inches.
  • Make sure that the enclosure supports the height of your hard drive. For example, 9 mm or 15 mm.
  • 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.

Note: Not all StarTech.com devices support each of the RAID modes described below. For more information on the RAID modes that your device supports, refer to the manual or the StarTech.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 are 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 StarTech.com 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 or more 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.
RAID 3 Striped set with dedicated parity Data is split evenly between two or more disks, plus a dedicated drive for parity storage. High speeds for sequential read/write operations. Poor performance for multiple simultaneous instructions. A single drive failure will rebuild.
RAID 5 Striped disks with distributed parity Data is split evenly between three or more disks. Parity is split between disks. Large size, fast speed, and redundancy. The total array size is reduced by parity. A single drive failure will rebuild.
RAID 10 1+0; Striped set of Mirrored Subset Four or more drives are made into two mirrors that are striped. Larger size and higher speed than RAID-1, and more redundancy than RAID-0. No parity. Only one drive in a mirrored set can fail.
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
Clone RAID 1 + Spare

Two drives have identical data, plus one drive is used for rebuilding in case of a primary array failure.

Seamless operation when one drive fails in a RAID-1 array. Spare drive is not accessible to the user. Only one drive is needed for recovery.

 

USB 3.1 is the most recent version of the USB (Universal Serial Bus) standard for connecting computers and electronic devices. It is capable of data transfer speeds up to 10Gbps, and while it can use the USB-C connector type, it can also use a variety of other connector types. To achieve USB 3.1 transfer speeds, your USB host connection, cables, and device must all support USB 3.1. USB 3.1 is also known as USB 3.1 Gen 2 (10Gbps). 

USB 3.0 is capable of data transfer speeds up to 5Gbps. USB 3.0 is also known as USB 3.1 Gen 1 (5Gbps).

USB 3.1 is backwards compatible with USB 3.0 and USB 2.0, except in the following scenarios:

  • USB-B 3.1 cables are not compatible with USB-B 2.0 ports.
  • Unless you use an adapter, USB-C ports or cables will not work with USB-A or USB-B ports or cables.
  • Devices that require USB 3.1 transfer speeds of 10Gbps might not work with USB 3.0 or USB 2.0, or you might experience lower transfer speeds and impacted performance.
  • Bus-powered USB devices that requires more power than what USB 2.0 can provide are not compatible with USB 2.0.

To transfer data at speeds of 10Gbps, you need to confirm that the following components in your setup support USB 3.1:

  • The USB host connection
  • The USB cable
  • The USB device and any subcomponents (for example, a hard drive docking station and the hard drives in the docking station)

Note: USB 3.1 is also known as USB 3.1 Gen 2 (10Gbps). Devices that support USB 3.1 should have the USB 3.1 symbol on them. If the USB 3.1 symbol does not appear on your USB source or device, refer to the information provided by the manufacturer to confirm whether the USB source or device support USB 3.1.

The included USB cable for this USB 3.1 Gen 2 device has been tested and verified to perform at USB 3.1 Gen 2 speeds of 10Gbps.

Hard Drives

Windows 10 

Before you can access a new or formatted drive in your operating system, you need to initialize it first and then create a partition on the drive. A partition defines an area of the drive to use for storing data. The partition uses a file system (for example, ex-FAT, NTFS, and so on).

Initialize a drive

Note: You typically only need to initialize a drive if the drive is new. If you cannot find an uninitialized drive in Disk Management, skip the following steps and try to partition your device.

  1. Press the Windows key + R, type compmgmt.msc, and click Run to open Computer Management.

  2. Navigate to Disk Management.

  3. When prompted to, initialize your disk(s). If you are running Windows® 7 or later and are using a drive larger than 2TB, initialize the disk(s) with GPT. If you are running an earlier version of Windows, initialize the disk(s) with MBR. For more information, visit the following FAQ: https://www.startech.com/support/faqs/technical-support?topic=hard-drives#mbr-vs-gpt.

  4. Click OK.

Create a partition in a drive

Note: The following steps create an NTFS partition that uses the entire drive space. To use a different file system, select a different option in step 6.

  1. Right-click Unallocated or RAW volume, and select New Simple Volume.

  2. In the New Partition Wizard, click Next.

  3. Select Primary partition.

  4. Leave the partition size set to default, and click Next.

  5. Assign a drive letter or leave it set to the default, and click Next.

  6. Enter the following settings to format the partition:

  • In the File System field, enter NTFS.
  • Set the Allocation unit size to Default.
  • In the Volume label field, enter <your name/reference>.
  • Select the Perform a quick format check box.
  • Clear the Enable file and folder compression check box.
  1. Click Next > Finish.

The new drive should appear in Windows Explorer.

Mac OS

Before you can access a new or formatted drive in your operating system, you need to initialize it first and then create a partition on the drive. A partition defines an area of the drive to use for storing data. The partition uses a file system (for example, HFS+, ex-FAT, NTFS, and so on).

Initialize a drive

Mac OSX detects a drive that needs to be initialized and automatically prompts you to initialize the drive. If you are prompted to initialize the drive, click Initialize. If you are not prompted to initialize the drive and you cannot find the drive in Finder, you will need to create a partition on the drive.

Create a partition on a drive

Note: The following steps create an HFS+ (Mac OS Extended (Journaled)) partition that uses the entire drive space.

To create a partition on a new drive, complete the following:

  1. Open Finder.

  2. Navigate to Applications and click Utilities.

  3. Open Disk Utility.

  4. Select the new drive and click the Partition tab.

  5. Click Options and verify that it is set to GUID Partition Table.

  6. Enter a name for the partition.

  7. Click Partition.

The drive should now be accessible in Finder.

 

Compliance and safety

Compliance letters

  • RoHS
    • Taal: English
  • WEEE
    • Taal: English

Safety Measures

  • If product has an exposed circuit board, do not touch the product under power.
  • If Class 1 Laser Product. Laser radiation is present when the system is open.
  • Wiring terminations should not be made with the product and/or electric lines under power.
  • Product installation and/or mounting should be completed by a certified professional as per the local safety and building code guidelines.
  • Cables (including power and charging cables) should be placed and routed to avoid creating electric, tripping or safety hazards.
* Uitvoering en specificaties van het product zijn zonder aankondiging vatbaar voor wijzigingen.
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