Outstanding Performance with Greater Design Flexibility
The Western Digital PC SN530 NVMe™ SSD is designed for a multitude of applications that require both high performance and low power. The device is not only capable of more than three times the read speed over SATA SSDs, but further optimizes the low power consumption level to a mere 5mW.
Equipped with a fully integrated solution including an in-house controller, 96-layer 3D NAND, firmware, and extensive testing, the Western Digital PC SN530 NVMe SSD provides longevity of supply in a robust and reliable design.
Outstanding Performance with Greater Design Flexibility
The Western Digital PC SN530 NVMe™ SSD is designed for a multitude of applications that require both high performance and low power. The device is not only capable of more than three times the read speed over SATA SSDs, but further optimizes the low power consumption level to a mere 5mW.
Equipped with a fully integrated solution including an in-house controller, 96-layer 3D NAND, firmware, and extensive testing, the Western Digital PC SN530 NVMe SSD provides longevity of supply in a robust and reliable design.
Outstanding Performance with Greater Design Flexibility
The Western Digital PC SN530 NVMe™ SSD is designed for a multitude of applications that require both high performance and low power. The device is not only capable of more than three times the read speed over SATA SSDs, but further optimizes the low power consumption level to a mere 5mW.
Equipped with a fully integrated solution including an in-house controller, 96-layer 3D NAND, firmware, and extensive testing, the Western Digital PC SN530 NVMe SSD provides longevity of supply in a robust and reliable design.
Innovative Solution
With future-ready, scalable NVMe architecture, the Western Digital PC SN530 NVMe SSD offers both manufacturers and end-users the solution to innovate and expand their computing effectiveness. This NVMe SSD enables greater design flexibility for ultra-thin notebook or tablet designs that require a cost effective, reliable storage device with a small form factor and capacity points up to 1TB1.
Versatile Options for Mobility
The Western Digital PC SN530 NVMe SSD, supporting PCIe Gen3 x4, is designed for a multitude of applications that require both high performance and low power. Equipped with a fully integrated solution which includes an in-house controller, 96-layer 3D NAND, firmware, and extensive testing, Western Digital provides longevity of supply in a robust and reliable design.
Highlights
● Read speeds up to 2,400 MB/s and low power consumption leverages both the PCIe Gen3 x4 interface, as well as sophisticated NVMe power management
● 256GB - 1TB1 capacities available in three small form factors: M.2 2230, M.2 2242, M.2 2280
● Endurance of up to 400 TBW (1TB model)
● 5-year limited warranty
Applications and Workloads
● Ultra-Thin Notebooks
● Ultra-Thin Tablets
● Embedded Applications
● IoT Applications
Innovative Solution
With future-ready, scalable NVMe architecture, the Western Digital PC SN530 NVMe SSD offers both manufacturers and end-users the solution to innovate and expand their computing effectiveness. This NVMe SSD enables greater design flexibility for ultra-thin notebook or tablet designs that require a cost effective, reliable storage device with a small form factor and capacity points up to 1TB1.
Versatile Options for Mobility
The Western Digital PC SN530 NVMe SSD, supporting PCIe Gen3 x4, is designed for a multitude of applications that require both high performance and low power. Equipped with a fully integrated solution which includes an in-house controller, 96-layer 3D NAND, firmware, and extensive testing, Western Digital provides longevity of supply in a robust and reliable design.
Highlights
● Read speeds up to 2,400 MB/s and low power consumption leverages both the PCIe Gen3 x4 interface, as well as sophisticated NVMe power management
● 256GB - 1TB1 capacities available in three small form factors: M.2 2230, M.2 2242, M.2 2280
● Endurance of up to 400 TBW (1TB model)
● 5-year limited warranty
Applications and Workloads
● Ultra-Thin Notebooks
● Ultra-Thin Tablets
● Embedded Applications
● IoT Applications
Innovative Solution
With future-ready, scalable NVMe architecture, the Western Digital PC SN530 NVMe SSD offers both manufacturers and end-users the solution to innovate and expand their computing effectiveness. This NVMe SSD enables greater design flexibility for ultra-thin notebook or tablet designs that require a cost effective, reliable storage device with a small form factor and capacity points up to 1TB1.
Versatile Options for Mobility
The Western Digital PC SN530 NVMe SSD, supporting PCIe Gen3 x4, is designed for a multitude of applications that require both high performance and low power. Equipped with a fully integrated solution which includes an in-house controller, 96-layer 3D NAND, firmware, and extensive testing, Western Digital provides longevity of supply in a robust and reliable design.
Highlights
● Read speeds up to 2,400 MB/s and low power consumption leverages both the PCIe Gen3 x4 interface, as well as sophisticated NVMe power management
● 256GB - 1TB1 capacities available in three small form factors: M.2 2230, M.2 2242, M.2 2280
● Endurance of up to 400 TBW (1TB model)
● 5-year limited warranty
Applications and Workloads
● Ultra-Thin Notebooks
● Ultra-Thin Tablets
● Embedded Applications
● IoT Applications
Specifications
- Endurance of up to 400TBW
- Low power consumption thanks to PCIe Gen3 x4 interface and NVMe power management
- Offers manufacturers and end-users solutions for expanding computer effectiveness
Specifications
- Endurance of up to 400TBW
- Low power consumption thanks to PCIe Gen3 x4 interface and NVMe power management
- Offers manufacturers and end-users solutions for expanding computer effectiveness
Specifications
- Endurance of up to 400TBW
- Low power consumption thanks to PCIe Gen3 x4 interface and NVMe power management
- Offers manufacturers and end-users solutions for expanding computer effectiveness
Ratings & Reviews
Support & Resources
Disclosures
- 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 Need Measured by CrystalDiskMark 5.2.1 using 1000MB LBA range ASUS G752VSK . Windows 10 Pro 64-bit using Microsoft StorNVMe driver, Primary 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.
- Measured using MobileMark™ 2014 on ASUS B944UA with i5-7200U, 8GB RAM. Windows 10 Pro 64-bit 19H1 using MicroSoft driver, Primary drive.
- Power measurements at 25°C.
- MTTF = Mean Time To Failure based on internal testing using Telcordia stress part testing. 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. (Telecordia SR-332, GB, 40°C).
- 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 Need Measured by CrystalDiskMark 5.2.1 using 1000MB LBA range ASUS G752VSK . Windows 10 Pro 64-bit using Microsoft StorNVMe driver, Primary 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.
- Measured using MobileMark™ 2014 on ASUS B944UA with i5-7200U, 8GB RAM. Windows 10 Pro 64-bit 19H1 using MicroSoft driver, Primary drive.
- Power measurements at 25°C.
- MTTF = Mean Time To Failure based on internal testing using Telcordia stress part testing. 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. (Telecordia SR-332, GB, 40°C).
- 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 Need Measured by CrystalDiskMark 5.2.1 using 1000MB LBA range ASUS G752VSK . Windows 10 Pro 64-bit using Microsoft StorNVMe driver, Primary 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.
- Measured using MobileMark™ 2014 on ASUS B944UA with i5-7200U, 8GB RAM. Windows 10 Pro 64-bit 19H1 using MicroSoft driver, Primary drive.
- Power measurements at 25°C.
- MTTF = Mean Time To Failure based on internal testing using Telcordia stress part testing. 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. (Telecordia SR-332, GB, 40°C).
- 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