Power Loss Protection is yet another technology that Transcend employs to safeguard data integrity during a sudden power failure.
What is Power Loss Protection?
Power Loss Protection (PLP) is a Transcend technology for solid state drives (SSDs) with a DRAM cache that ensures the integrity of data in the event of a sudden power outage. PLP makes use of capacitors to prolong the time available to shift data in the DRAM cache to the SSD’s permanent flash memory. This ensures data integrity in the event of a power outage. During normal computer operations, these capacitors are charged so that they may power the SSD during an outage, ensuring that write operations are completed. By adding capacitors, PLP prolongs the time to complete the flushing of the DRAM cache to the permanent NAND memory after a sudden power loss.
How does PLP work?
Each SSD has a voltage detector that is constantly monitoring the voltage level coming from the host. Let’s take the SSD470P for example. In the case of sudden power loss, the voltage detector triggers PLP as soon as the voltage drops from 5V to 4V. At this stage, PLP ensures that data stored in NAND remains intact. The built-in capacitors continue to provide power so that data can be flushed from DRAM into NAND. When the voltage drops below 2.3V, the NAND flash enters write-protection mode, and no more data is written.
Power failure with and without PLP
By prolonging the time between sudden power loss and the write protection mode, the SSD can complete more writes from the DRAM cache to the NAND flash.
To ensure dependability, Transcend puts its PLP technology through the Ulink DriveMaster power hub for testing. Each cycle consists of the following steps:
- Host issues write command to the controller.
- Controller writes data to the DRAM cache.
- Ulink powers off the host. When the VDT detects that the voltage drops to 4V, the data flushes from the DRAM cache to NAND flash.
- Ulink powers on the host and compares the data in the host with that on the NAND flash. If there is inconsistency in the data, the report shows a “miscompare” report.
Transcend’s PLP is put through 3,000 such testing cycles until no error messages are shown.
Advantages of Transcend’s PLP & PS
For top performance, Transcend uses superior components in PLP technology, such as an advanced voltage detector, to trigger PLP. Additionally, Transcend utilizes polymer tantalum capacitors – heavy-duty, low-profile capacitors that operate stably in harsh environments. Though an entry-level feature that requires no added capacitors, the Power Shield (PS) similarly enables the SSD’s internal power detecting mechanism to monitor power provided by the host. When the power fails, the voltage drops, and the voltage detector triggers the PS, which makes the SSD controller stop writing data to the NAND flash. This ensures that the data stored on the NAND is intact. However, unlike PLP, PS doesn’t create extra buffer time for the NAND flash to complete the write process.
| PLP | PS | |
| Hardware | With a built-in voltage detector (VDT) and inclusion of polymer tantalum capacitors (PTCs), PLP creates more time for data to be written from DRAM to NAND flash memory when voltage drops to between 4V and 2.3V.
| When the external voltage drops to a certain level, the controller’s internal VDT activates the PS mechanism. The SSD controller then stops sending new write commands to the flash memory.
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| Firmware | Once PLP is triggered, the firmware automatically flushes data from the DRAM cache to NAND flash memory.
| The SSD controller stops accepting new write commands from the host, ensuring the integrity of existing data on the NAND flash.
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| Software | With Transcend’s Scope Pro software, users can check the capacitance value of the tantalum capacitors in the SSD, ensuring operational reliability in harsh conditions.
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Transcend’s Power Loss Protection (PLP) SSDs
To enhance data transfer reliability, Transcend’s Power Loss Protection (PLP) technology, designed for SSDs with DRAM cache, prevents data corruption during unexpected power outages. The built-in capacitors provide power to the controller and DRAM in the event of sudden power loss, offering sufficient buffer time to flush data temporarily stored in DRAM to the NAND flash memory. PLP is an important way to protect SSDs against sudden power loss, and ensure data integrity and storage reliability especially in environments where power supply may be unstable, such as real-time road and traffic monitoring systems, smart factories, and massively-deployed security cameras, etc.
Features
- Various form factors including 2.5″, M.2, and mSATA.
- For M.2 and mSATA SSDs, Corner Bond technology is adopted to protect key components, and 30µ” gold finger PCBs ensure stable signal transmission and avoid chemical damage.
- Anti-sulfur technology implemented on some SSDs to prevent sulfuration in polluted environments.
- Transcend’s monitoring software Scope Pro checks the capacitance value of the tantalum capacitors in the SSDs.
- Fixed bill of materials (BOM) and embedded-grade product lifecycle management.
Target Applications
- Fanless Embedded Systems
- 5G Mobile Facilities
- Gaming Machines
- Medical Information Systems
- AIoT Devices
- Surveillance Systems
- EV Power Storage Systems
Transcend Embedded PLP SSDs
| Interface
| Form Factor | Product
| NAND Flash
| Capacity
|
| NVMe PCIe Gen4 x4 | M.2 2280 | MTE712P MTE712P-I (wide temp.) | 112-layer 3D TLC | 256GB-2TB |
| NVMe PCIe Gen3 x4 | M.2 2280 | MTE662P MTE662P-I (wide temp.) | 96-layer 3D TLC | 128GB-1TB |
| SATA III 6Gb/s | M.2 2280 | MTS952P MTS952P-I (wide temp.) | 96-layer 3D TLC | 128GB-1TB |
| SATA III 6Gb/s | 2.5” | SSD470P SSD470P-I (wide temp.) | 112-layer 3D TLC | 128GB-1TB |
| SATA III 6Gb/s | mSATA | MSA452P | 96-layer 3D TLC | 64GB-128GB |
