Fueling Innovation for Next-Generation Commercial & Industrial Applications
With future-ready, design flexibility and a scalable NVMe™ architecture on 64-layer 3D NAND, the product is breaking through performance limits for commercial and industrial applications. With a broad temperature range and high endurance, the CL NVMe SSD is a cost-effective, small form factor, reliable storage solution with capacity points from 128GB to 512GB1.
The CL SN520 are built on PCIe Gen3x2 storage solution. Designed for applications that require high performance, a wide temperature range, increased reliability at a low power consumption in M.2 2280 form factor.
Fueling Innovation for Next-Generation Commercial & Industrial Applications
With future-ready, design flexibility and a scalable NVMe™ architecture on 64-layer 3D NAND, the product is breaking through performance limits for commercial and industrial applications. With a broad temperature range and high endurance, the CL NVMe SSD is a cost-effective, small form factor, reliable storage solution with capacity points from 128GB to 512GB1.
The CL SN520 are built on PCIe Gen3x2 storage solution. Designed for applications that require high performance, a wide temperature range, increased reliability at a low power consumption in M.2 2280 form factor.
Fueling Innovation for Next-Generation Commercial & Industrial Applications
With future-ready, design flexibility and a scalable NVMe™ architecture on 64-layer 3D NAND, the product is breaking through performance limits for commercial and industrial applications. With a broad temperature range and high endurance, the CL NVMe SSD is a cost-effective, small form factor, reliable storage solution with capacity points from 128GB to 512GB1.
The CL SN520 are built on PCIe Gen3x2 storage solution. Designed for applications that require high performance, a wide temperature range, increased reliability at a low power consumption in M.2 2280 form factor.
Highlights
● 0° to +85°C operating temperature
● Up to 400 TBW
● 3 years extended longevity
● Sequential Read speeds up to 1,700MB/s
● 128GB to 512GB capacities in M.2 2280 form factor
Applications and Workloads
● In-flight Entertainment Systems
● Data Logging and Recorder
● Video Surveillance
● Factory 2.0
● Machinery Automation
● IoT Edge Gateway
● Network Equipment
● Embedded PC
Highlights
● 0° to +85°C operating temperature
● Up to 400 TBW
● 3 years extended longevity
● Sequential Read speeds up to 1,700MB/s
● 128GB to 512GB capacities in M.2 2280 form factor
Applications and Workloads
● In-flight Entertainment Systems
● Data Logging and Recorder
● Video Surveillance
● Factory 2.0
● Machinery Automation
● IoT Edge Gateway
● Network Equipment
● Embedded PC
Highlights
● 0° to +85°C operating temperature
● Up to 400 TBW
● 3 years extended longevity
● Sequential Read speeds up to 1,700MB/s
● 128GB to 512GB capacities in M.2 2280 form factor
Applications and Workloads
● In-flight Entertainment Systems
● Data Logging and Recorder
● Video Surveillance
● Factory 2.0
● Machinery Automation
● IoT Edge Gateway
● Network Equipment
● Embedded PC
Spécifications
- Endurance of up to 400 TBW
- Extended longevity for efficient supply and long-term availability
- High error resistance to help maintain stable operational environment
- 128GB to 512GB capacities in M.2 2280 form factor
Spécifications
- Endurance of up to 400 TBW
- Extended longevity for efficient supply and long-term availability
- High error resistance to help maintain stable operational environment
- 128GB to 512GB capacities in M.2 2280 form factor
Spécifications
- Endurance of up to 400 TBW
- Extended longevity for efficient supply and long-term availability
- High error resistance to help maintain stable operational environment
- 128GB to 512GB capacities in M.2 2280 form factor
Évaluations et commentaires
Assistance et ressources
Avertissements
- As used for storage capacity, one gigabyte (GB) = one billion bytes and one terabyte (TB) = one trillion bytes. Total accessible capacity varies depending on operating environment.
- Test Conditions: Performance is based on the CrystalDiskMark 5.2.2 benchmark using a 1000MB LBA range ASUS Z170A desktop with Intel® i7-6700K 4.0GHz, 8GB 2133MHz DDR4. Windows 10 Pro 64-bit using Microsoft StorNVMe driver, secondary drive. Performance may vary based on host device. 1 MB = 1,000,000 bytes. IOPS = input/output operations per second.
- TBW (terabytes written) values calculated using JEDEC client workload (JESD219) and vary by product capacity.
- Power measurements at 25°C.
- MTTF = Mean Time To Failure based on internal testing and by using Telcordia stress part testing (Telecordia SR-332, GB, 40°C, 12 hours/day). MTTF is based on a sample population and is estimated by statistical measurements and acceleration algorithms. MTTF does not predict an individual drive’s reliability and does not constitute a warranty.
- Operational temperature as reported by device (composite temperature).
- Non-operational storage temperature does not guarantee data retention.
- 5 years or Max Endurance (TBW) limit, whichever occurs first. 5 year warranty in regions not recognizing “limited.” See https://support.wdc.com for more details.
- As used for storage capacity, one gigabyte (GB) = one billion bytes and one terabyte (TB) = one trillion bytes. Total accessible capacity varies depending on operating environment.
- Test Conditions: Performance is based on the CrystalDiskMark 5.2.2 benchmark using a 1000MB LBA range ASUS Z170A desktop with Intel® i7-6700K 4.0GHz, 8GB 2133MHz DDR4. Windows 10 Pro 64-bit using Microsoft StorNVMe driver, secondary drive. Performance may vary based on host device. 1 MB = 1,000,000 bytes. IOPS = input/output operations per second.
- TBW (terabytes written) values calculated using JEDEC client workload (JESD219) and vary by product capacity.
- Power measurements at 25°C.
- MTTF = Mean Time To Failure based on internal testing and by using Telcordia stress part testing (Telecordia SR-332, GB, 40°C, 12 hours/day). MTTF is based on a sample population and is estimated by statistical measurements and acceleration algorithms. MTTF does not predict an individual drive’s reliability and does not constitute a warranty.
- Operational temperature as reported by device (composite temperature).
- Non-operational storage temperature does not guarantee data retention.
- 5 years or Max Endurance (TBW) limit, whichever occurs first. 5 year warranty in regions not recognizing “limited.” See https://support.wdc.com for more details.
- As used for storage capacity, one gigabyte (GB) = one billion bytes and one terabyte (TB) = one trillion bytes. Total accessible capacity varies depending on operating environment.
- Test Conditions: Performance is based on the CrystalDiskMark 5.2.2 benchmark using a 1000MB LBA range ASUS Z170A desktop with Intel® i7-6700K 4.0GHz, 8GB 2133MHz DDR4. Windows 10 Pro 64-bit using Microsoft StorNVMe driver, secondary drive. Performance may vary based on host device. 1 MB = 1,000,000 bytes. IOPS = input/output operations per second.
- TBW (terabytes written) values calculated using JEDEC client workload (JESD219) and vary by product capacity.
- Power measurements at 25°C.
- MTTF = Mean Time To Failure based on internal testing and by using Telcordia stress part testing (Telecordia SR-332, GB, 40°C, 12 hours/day). MTTF is based on a sample population and is estimated by statistical measurements and acceleration algorithms. MTTF does not predict an individual drive’s reliability and does not constitute a warranty.
- Operational temperature as reported by device (composite temperature).
- Non-operational storage temperature does not guarantee data retention.
- 5 years or Max Endurance (TBW) limit, whichever occurs first. 5 year warranty in regions not recognizing “limited.” See https://support.wdc.com for more details.