StarTech.com

PCI Express 2.0 SATA III 6 Gbps RAID-kontrollerkort med 3 portar, mSATA och HyperDuo nivåindelad SSD-lagring

Lägg till 1 intern mSATA-port och 3 interna SATA III-portar (6 Gbps) till datorn genom en PCI Express x2-kortplats

Produkt ID: PEXMSATA343

  • Stöder automatisk nivåindelad SSD-datalagring med HyperDuo
  • 1 mSATA SSD-port och 3 AHCI SATA III-portar (6 Gbps) genom PCI express x2
  • Stöder hårdvarulägen RAID 0 och 1 som konfigureras genom BIOS
Visa mer
  • Fullt kompatibelt med specifikationer för SATA 3.0 och bakåtkompatibelt med SATA I/II-enheter (1,5/3,0 Gbps)
  • Med stöd för portmultiplicering samt FIS-baserad och kommandobaserad växling
  • Uppfyller standarder för PCI Express 2.0
  • Enkel konfiguration av HyperDuo på BIOS-nivå eller lättanvänd GUI-konsol (endast Windows®)
  • Stöder TRIM-kommando med kompatibel SSD och operativsystem
  • Stöder ursprunglig kommandokö (NCQ) och ATA/ATAPI-kommandon
  • Hållbar, inbyggd mSATA-klämma med lås av metall för SSD-enheter - inga skruvar krävs
  • Installationsfäste i lågprofil/halvhöjd medföljer
  • Stöder HDD-/SSD-/Blu-Ray- och optiska enheter
52,99 € EUR exkl. moms
66,24 € EUR inkl. moms
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Överblick

PEXMSATA343 PCI Express 2.0 SATA-kortet med 3 portar och HyperDuo lägger till en intern mSATA SSD-port (Solid State Drive) plus tre interna SATA III-portar till din dator via en PCIe x2-port vilket lägger till flera interna 6 Gbps-anslutningar som låter dig förbättra hastigheten och lagringskapaciteten i din dator överlag genom att ansluta högpresterande SSD-enheter och hårddiskar.

SATA-kortet har HyperDuo och ger automatisk nivåindelad SSD-datalagring som ger dig den perfekta blandningen av prestanda från SSD-lagring och kostnadseffektiviteten och den höga kapaciteten från vanliga hårddiskar. Genom att kombinera SSD- och HDD-enheter till en enda volym (upp till 3 SSD + 1 HDD) arbetar HyperDuo diskret i bakgrunden för att identifiera och flytta filer som används ofta till de snabbare SSD-enheterna för snabbare datagenomströmning - upp till 80 % av SSD-prestandan! (Obs.: Den automatiska nivåindelade datalagringen från HyperDuo är kompatibel med datorer som använder BIOS.)

SATA-kontrollerkortet för PCIe stöder Port Multiplier (PM) och låter flera SATA-enheter anslutas med en enda kabel för totalt 7 enheter (upp till 4 enheter genom PM på en port och en enda enhet till de resterande 2 portarna och mSATA-porten). SATA-kontrollerkortet har dessutom en effektiv RAID-lösning med ursprungligt RAID-stöd (0, 1).


Prestandamått på genomströmning

Enhetskonfiguration Genomströmning Enhetsstorlek
1 x HDD 112,81 MB/s 2 TB
1 x SSD 490,28 MB/s 120 GB
1 x HDD + 1 x SSD HyperDuo (felsäkert läge) 489,28 MB/s 2 TB
1 x HDD + 2 x SSD HyperDuo (felsäkert läge) 715,13 MB/s 2 TB
Enheter som används:
SSD: OCZ Vertex 3 Series 2,5" 120 GB (VTX3-25SAT3-120G)
HDD: Western Digital Caviar Green 3,5" 2 TB (WD20EARS)

Mjukvara som används:
IO Meter, 256 kB sekventiell läsning, ködjup = 10

Du kan installera en SSD direkt till porten med en praktiskt klämma med lås av metall för att minska platsbristen som ofta uppstår vid användning av flera hårddiskar. Kontrollerporten inkluderar också ett installationsfäste i lågprofil/halvhöjd för system med liten formfaktor (SFF). 

Täcks av StarTech.coms 2-årsgaranti och gratis livstidsgaranti på teknisk support.

Fördelarna med StarTech.com

  • Få det bästa av två världar - kombinera SSD-prestanda med standard HDD-kapacitet via HyperDuo-teknik
  • Maximera systemets möjligheter med en intern mSATA SSD-port och SATA III-anslutningshastigheter
  • Utöka det totala antalet anslutna hårddiskar till 7 med Port Multiplier-teknik

Användning

Använd nivåindelad SSD-datalagring för att optimera systemet för I/O-intensiva program som Office-paketet, foto-/videoredigeringsprogram och mediaspelare

Uppgradera ett äldre PCIe-baserat system till 6 Gbps SATA för att få bättre användning av SATA-enheter

Lägg till fler interna SATA-portar till din dator och anslut extra lagringsenheter och/eller optiska enheter

Ger optimerad extern säkerhetskopiering/-lagring med inbyggd RAID 1

Perfekt lösning för RAID-lagring med flera enheter

Installera en intern SSD direkt till kortet för en enkel och diskret lösning som överlag förbättrar datorsystemets prestanda

Tekniska specifikationer

Information om garanti
Garanti 2 Years
Hårdvara
Busstyp PCI Express
Chipset-ID Marvell - 88SE9230
Gränssnitt SATA
Mini SATA
Industristandarder Specifikationen för seriell ATA 3.0
PCI Express 2.0
Korttyp Standardprofil (inkl. LP-fäste)
Portar 3
Porttyp Inbyggd på kort
Prestanda
ATAPI Support Ja
Bootable Ja
LBA-stöd 48-bit
Maximal enhetskapacitet För närvarande testad med upp till 4 TB per enhet
Number of Drives Supported Through Port Multiplier 1 to 4
Number of Ports That Support Port Multiplier 3 (can only use 1 PM at a time)
Port Multiplier Ja
RAID Ja
RAID-lägen som stöds JBOD - (Just a Bunch of Disks)
RAID 1 (speglade enheter)
RAID 0 (stripade enheter)
Typ och hastighet SATA III (6 Gbps)
Kontakt(er)
Interna portar 3 - SATA (7-stifts, data) Kontakt
1 - mSATA-plats (52-stifts, Mini SATA) Honuttag
Kontakttyp(er) 1 - PCI Express x2 Hane
Mjukvara
OS-kompatibilitet Windows® XP, Vista, 7, 8, 8.1, 10
Windows Server® 2003, 2008 R2, 2012, 2012 R2, 2016
Mac OS® 10.6 to 10.13
Linux 3.5.x to 4.11.x LTS versions only
Note: Connected drives cannot be used as System / Primary drive in Windows Server 2012, 2012 R2, 2016
Särskilda anmärkningar/krav
Obs. Kortets maximala datagenomströmning begränsas av bussens gränssnitt. Vid användning med PCI Express Gen 1.0-kapabla datorer är den maximala genomströmningen 2,5 Gbps per bana. Vid användning med PCI Express Gen 2.0-kapabla datorer är den maximala genomströmningen 5 Gbps per bana. Endast en port kan använda Port Multiplier-funktionen åt gången. Stöder upp till 4 enheter anslutna via Port Multiplier, totalt 7 enheter. Port Multiplier stöds ej av Mac OS.
System- och kabelkrav Tillgänglig PCI express x2-kortplats (bakåtkompatibel med x4, x8 och x16)
Miljö
Drifttemperatur 5°C to 50°C (41°F to 122°F)
Förvaringstemperatur -25°C to 70°C (-13°F to 158°F)
Luftfuktighet 20-80% RH
Utseende
Produktbredd 18 mm [0.7 in]
Produkthöjd 120 mm [4.7 in]
Produktlängd 115 mm [4.5 in]
Produktvikt 57 g [2 oz]
Förpackning
Fraktvikt (förpackning) 151 g [5.3 oz]
Vad det är i lådan
Ingår i paketet 1 - PCIe SATA-kontrollerkort
1 - Lågprofilsfäste
1 - Drivrutin CD
1 - Instruktionsbok

Kompatibilitet

Se alla kompatibla operativsystem
Windows® XP, Vista, 7, 8, 8.1, 10
Windows Server® 2003, 2008 R2, 2012, 2012 R2, 2016
Mac OS® 10.6 to 10.13
Linux 3.5.x to 4.11.x LTS versions only
Note: Connected drives cannot be used as System / Primary drive in Windows Server 2012, 2012 R2, 2016

Certifikat

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Tillbehör

Produktsupport

Drivrutiner & hämtningsbara filer

Manual(er):
Mjukvara
Specifikation(er)

Vanliga frågor

Before You Buy

Although you can adapt a Serial Attached SCSI (SAS) drive to connect to a standard SATA controller card, the card must support SAS commands in order to communicate with SAS drives. SAS drives have a different command set that is not present on SATA controllers.

This SATA controller card only supports standard SATA drives.

This device supports the ATA Packet Interface (ATAPI) protocol. ATAPI is required for optical drives, including CD-ROM drives, DVD-ROM drives, and Blu-ray players. Because this device supports ATAPI, optical drives are also supported.

 

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.

 

Installation

Before you install the device, make sure that your operating system is current (for example, the most recent service pack is installed).

  1. Download the latest drivers from the StarTech.com website at http://www.startech.com/Support. The part number and product ID are on the product packaging.

Note: Windows usually saves the files to the Downloads folder that is associated with your user account (for example, C:\Users\your_name\Downloads).

  1. After the download is complete, right-click the zip folder that you downloaded, click Extract All, and complete the instructions.
  2. In the list of extracted files, right-click the Setup.exe file and click Run as Administrator.

Note: If the Run as Administrator option is not available, you might be attempting to run the installer from within the zipped file. Extract the files using the instructions in step 2.

  1. Complete the instructions to install the device drivers, and restart your computer when prompted to.

Your computer will automatically complete the driver installation and your device should be ready to use.

Before you install the device, make sure that your operating system is current (for example, the most recent service pack is installed).

  1. Download the latest drivers from the StarTech.com website at http://www.startech.com/Support. The part number and product ID are on the product packaging.

Note: Windows usually saves the files to the Downloads folder that is associated with your user account (for example, C:\Documents and Settings\your_name\My Documents\Downloads).

  1. After the download is complete, right-click the zip folder that you downloaded, click Extract All, and complete the instructions.
  2. In the list of extracted files, double-click the Setup.exe file.
  3. Complete the instructions to install the device drivers, and restart your computer when prompted to.

Your computer will automatically complete the driver installation and your device should be ready to use.

Hur man

To confirm that Windows detects your expansion card, complete the following:

  1. Press the Windows key+R, type devmgmt.msc, and press Enter.
  2. In Device Manager, under the appropriate heading, confirm that your expansion card is listed and that there isn't an exclamation mark next to it.  For example, a USB controller card would be under Universal Serial Bus controllers.

Your expansion card is listed according to the name of the chipset. To determine the name of the chipset of your expansion card, navigate to www.StarTech.com and look on the Technical Specifications tab for your product.

To confirm that the Mac OS detects your expansion card, complete the following:

  1. Click the Apple icon.
  2. Click About This Mac.
  3. Click More Info or System Report.
  4. Under the appropriate heading, confirm that your expansion card is listed and that there isn't an error. For example, a network card would be under Ethernet Cards.

Your expansion card is listed according to the name of the chipset. To determine the name of the chipset of your expansion card, navigate to www.StarTech.com and look on the Technical Specifications tab for your product.

In order to use a hard drive plugged into a hard drive controller card as your operating system, you need to install the operating system onto the hard drive while it is plugged into the expansion card. To do this, complete the following:

Note: Not all hard drive controller cards have drivers that allow you to install the operating system onto the hard drive. All of the hard drive controllers that display this FAQ include this capability.

Before you begin, consult the documentation that came with the motherboard to make sure that the motherboard or BIOS supports booting from an expansion card.

  1. Back up any data on the hard drive.
  2. Make a copy of the drivers from the website onto a floppy disc, CD, DVD, or USB flash drive. The drivers that you download depends on the operating system that you want to install.
  3. Install the hard drive controller card onto your motherboard.
  4. Plug the hard drive into the controller card.
  5. Turn on your computer and open the operating system install wizard.
  6. Before you select the hard drive that you want to install the operating system onto, select the option to install third-party drivers.
  7. Point the driver installer to the floppy disc, CD, DVD, or USB flash drive.
  8. Install the drivers.
  9. Select the hard drive on the hard drive controller card as the location where you want to install the operating system.
  10. Complete the on-screen instructions to finish installing the operating system.

Problemsökning

When you troubleshoot issues with a hard drive controller card, 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:

  • IDE, SATA, and eSATA cables

  • Hard drives

  • Hard drive controller card

To test your setup components, try the following:

  • Use the IDE, SATA, or eSATA cable, hard drive, and hard drive controller card in another setup to see if the problem is with the components or the setup.

  • Use a different IDE, SATA, or eSATA cable, hard drive, and hard drive controller card 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 your cables, it is recommended that you do the following:

  • Test each cable individually.

  • Use short cables when you are testing.

When you test the hard drive and hard drive controller card, it is recommended that you do the following:

  1. To open the Device Manager, press the Windows key + R, type devmgmt.msc, and press Enter. Check the IDE ATA/ATAPI controllers (for IDE) section, or the Storage controllers (for SATA) section.

  2. Do one of the following:

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.

  1. To check Disk Management, press the Windows key + R, type diskmgmt.msc, and press Enter. Check to see if your hard drive is listed.

  2. 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 does 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.