The AS100 series NVMe Heat Sink Ball Grid Array (HSBGA) SSDs are designed for space-constrained embedded applications, mobile devices and consumer electronics. They feature an ultra-compact M.2 1620 form factor and 291-ball packaging. With PCIe Gen 4×4 and NVMe 1.4 interfaces, these SSDs deliver exceptional performance – up to 5,000 MB/s sequential read and 1,600 MB/s sequential write speeds. Product Specs and Datasheet →
Interface
Package
Operating Temp
Up to
Capacity
Up to
Sequential performance
Exascend's proprietary algorithm, Adaptive Thermal Control™, ensures sustained peak performance while effectively regulating the drive's temperature within specified thresholds. By combining adaptive hardware power reduction and intelligent SSD performance management, our SSDs maintain optimal functionality even in challenging thermal environments.
Benefit from Host Memory Buffer (HMB) support in our DRAM-less SSDs, enhancing performance by utilizing DRAM resources as cache. This innovative approach mitigates the storage's limited memory capacity, optimizing I/O performance without necessitating onboard DRAM.
With an exceptionally low power consumption of just less than 3.5W in active mode, the AS100 SSDs deliver significant power savings without compromising performance.
Engineered with a robust soldered BGA design, our SSDs endure rigorous vibration and shock, ensuring unwavering reliability in the harshest industrial environments.
Leveraging Exascend's Adaptive Thermal Control™ and SuperCruise™ technologies, the AS100 SSD optimizes performance through intelligent thermal management and write endurance algorithms. This ensures sustainable peak performance across diverse environments.
By employing LDPC ECC and firmware read disturb protection, Exascend's e.MMC can achieve high levels of data integrity, ensuring that the data remains intact and reliable even in the presence of errors.
Our control in hardware, firmware and manufacturing allows unmatched power tuning services. Tailoring product performance for your applications achieves optimal performance-to-thermal and performance-to-power ratios.
| Edition | AS100 Series |
| Interface | PCIe 4.0 / NVMe 1.4 |
| Flash type | 3D TLC |
| Form factor | 291 Ball. M.2 1620. |
| Capacity | 128GB to 1TB |
| Input voltage | PWR_1: 2.5V (2.35V~3.6V) PWR_2: 1.2V (1.14V~1.26V) PWR_3: 0.8V(0.76V~0.84V) |
| Power consumption | Active <3.5W; Idle <1W |
| Sequential read/write up to (HMB enabled) | 5,000/1,600 MB/s |
| 4K random read/write up to (HMB enabled) | 380,000/180,000 IOPS |
| Operational temperature (Tcase) | 0°C to 70°C |
| Storage temperature | -50℃ to 95℃ |
| Humidity (non-condensing) | 5–95% (Operating) |
| Features | Advanced LDPC error correction. Wear leveling. Firmware power loss protection. TCG Opal 2.0 (optional). |
| TBW up to | 600TB |
| DWPD (5 years) | 0.6 @ JESD218 1.5 @ sequential write |
| MTBF | 2,000,000 hours |
| Warranty | 5 years |
Download Datasheet
| Model Name | Interface | Form factor | Flash type | Capacity (GB) | Max. seq. read (MB/s) | Max. seq. write (MB/s) | TBW (max.) | Inquiry |
|---|---|---|---|---|---|---|---|---|
| EXP4L20128GXFBGC00H | PCIe 4.0 (NVMe 1.4) | 291-ball BGA, M.2 (1620) | 3D TLC | 128 | 1800 | 200 | 75 | |
| EXP4L20256GX2BGC00H | PCIe 4.0 (NVMe 1.4) | 291-ball BGA, M.2 (1620) | 3D TLC | 256 | 3500 | 400 | 150 | |
| EXP4L20512GX3BGC00H | PCIe 4.0 (NVMe 1.4) | 291-ball BGA, M.2 (1620) | 3D TLC | 512 | 5000 | 800 | 300 | |
| EXP4L20001TXUBGC00H | PCIe 4.0 (NVMe 1.4) | 291-ball BGA, M.2 (1620) | 3D TLC | 1024 | 5000 | 1600 | 600 |
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