GLS86FPxxxx3 PX Series Industrial / Commercial Temp mSATA ArmourDrive Factsheet 03.000 April 2020 Features Industry Standard SATA Host Interface Reliability SATA 1.5Gb/s, 3Gb/s and 6Gb/s Mean Time Between Failures (MTBF): SATA Revision 3.2 2 million hours ATA/ATAPI-8 compliant Data Protection Supports 48-bit address feature set Secure erase / Data sanitization Native Command Queuing (NCQ) Integrated Current Detector up to 32 commands Protects from inrush current and generates Performance reset during power-up and power-down to Sequential data read: Up to 550 MB/s prevent inadvertent writes Sequential data write: Up to 500 MB/s Supports TRIM and SMART Commands (measured using 128KB transfer size) 20-Byte Serial Number Power Management Factory pre-programmed unique ID 3.3V power supply Built-in ECC Host initialized power management (HIPM) Uses advanced LDPC bit error detection and Device initialized power management (DIPM) correction optimized for 3D NAND Power Consumption NAND Configuration Active mode: 3 bits per cell (3D TLC) 1TB: 1650mW (typical) Endurance 512GB: 1550mW (typical) 3K P/E cycles (typical) 256GB: 1450mW (typical) Operating Temperature Range 128GB: 1350mW (typical) Industrial: -40C to 85C 64GB: 1215mW (typical) Commercial: 0C to 70C 32GB: 1100mW (typical) (SSD case temperature reported by SMART) Idle mode: < 335 mW (typical) JEDEC standard MO-300 mSATA form factor Slumber mode: < 15 mW (typical) 29.85 mm x 50.80 mm x 4.85 mm DevSleep mode (optional): < 5 mW (typical) All Devices are RoHS Compliant Product Description The GLS86FP032G3 / 064G3 / 128G3 / 256G3 / The SATA SSD controller with built-in advanced 512G3 / 001T3 Industrial and Commercial NAND management firmware communicates with the Temperature miniSATA (mSATA) ArmourDrive PX host through the standard SATA protocol. It does not Series modules (referred to as mSATA ArmourDrive require any additional or proprietary software such as in this datasheet) are high-performance, high- the Flash File System (FFS) and Memory Technology reliability solid state drives. They combine 32, 64, 128, Driver (MTD). The firmware effectively optimizes the 256 or 512 GBytes, or 1 TByte of NAND flash memory use of NAND flash memorys program/erase (P/E) with an advanced Serial ATA (SATA) controller on a cycles and minimizes write amplification. printed circuit board (PCB). mSATA ArmourDrives advanced NAND management mSATA ArmourDrive is ideal for applications that technology improves endurance, enhances data require removable form factor and more reliable data security and helps prevent data loss during storage. mSATA solid state storage technology is unexpected power failure events. This innovative widely used in industrial computers, set-top boxes, technology combines robust NAND controller test and measurement instrumentation, multi- hardware error correction capabilities with advanced functional printers, medical equipment, security and wear-leveling algorithms and bad block management surveillance systems, network servers and digital to improve data reliability and significantly extend the signage. These removable solid state drives (SSDs) life of the product. surpass traditional hard disk drives (HDDs) in their mSATA ArmourDrive is available in a standard small size, security, reliability, ruggedness and low JEDEC 52-pin PCB module form factor. power consumption. These specifications are subject to change without notice. 04/29/2020 2020 Greenliant 1 S71466-01 GLS FS0019 Rev. 00 GLS86FPxxxx3 PX Series Industrial / Commercial Temp mSATA ArmourDrive Factsheet 03.000 April 2020 1.0 GENERAL DESCRIPTION Each mSATA ArmourDrive module integrates a SATA SSD controller with up to four NAND flash multi-chip packages. Refer to Figure 2-1 for the mSATA ArmourDrive block diagram. 1.1.5 Power Interrupt Data Protection 1.1 Optimized mSATA ArmourDrive Power Interrupt Data Protection is a mechanism to The heart of mSATA ArmourDrive is the SATA SSD prevent data loss during unexpected power failure controller, which translates standard SATA signals events. Enhanced data integrity is supported by the into flash media data and control signals. The controllers advanced firmware during abnormal power following components contribute to mSATA loss. The controller proactively optimizes the amount ArmourDrives operation. and stay time of the in-flight data residing in the 1.1.1 Microcontroller Unit (MCU) cache. To ensure there is no data loss risk caused by power cycling, the controller sends an The MCU translates SATA commands into data and acknowledgement to the host only when the incoming control signals required for flash media operation. data is fully committed to the NAND flash. 1.1.2 Internal Direct Memory Access (DMA) 1.1.6 Error Correction Code (ECC) mSATA ArmourDrive uses internal DMA allowing The ECC technology uses advanced Low Density instant data transfer from/to buffer to/from flash media. Parity Check (LDPC) algorithms to detect and correct This implementation eliminates microcontroller errors, ensuring data integrity and extending the SSD overhead associated with the traditional, firmware- lifespan. based approach, thereby increasing the data transfer rate. 1.1.7 Multi-tasking Interface 1.1.3 Power Management Unit (PMU) The multi-tasking interface enables concurrent Read, Program and Erase operations to multiple NAND flash The PMU controls the power consumption of mSATA media. ArmourDrive. The PMU dramatically reduces the power consumption of mSATA ArmourDrive by putting 1.2 Advanced NAND Management the part of the circuitry that is not in operation into sleep mode. mSATA ArmourDrives controller uses advanced The Flash File System handles inadvertent power wear-leveling algorithms to substantially increase the interrupts and has auto-recovery capability to ensure longevity of NAND flash media. Wear caused by data mSATA ArmourDrive firmware integrity. For regular writes is evenly distributed in all or select blocks in the power management, the host must send an device that prevents hot spots in locations that are IDLE IMMEDIATE command and wait for command programmed and erased extensively. This effective ready before powering down mSATA ArmourDrive. wear-leveling technique results in optimized device endurance, enhanced data retention and higher 1.1.4 Embedded Flash File System reliability required by long-life applications. The embedded flash file system is an integral part of mSATA ArmourDrive. It contains MCU firmware that performs the following tasks: 1. Translates host side signals into flash media writes and reads 2. Provides flash media wear leveling to spread the flash writes across all memory address space to increase the longevity of flash media 3. Keeps track of data file structures These specifications are subject to change without notice. 04/29/2020 2020 Greenliant 2 S71466-01 GLS FS0019 Rev. 00