GLS85LS1002A/1004A/1008B/1016B/1032B/1064B
Industrial / Commercial Temp
SATA NANDrive™
Fact Sheet 04.000
October 2016
Features
Industry Standard Serial ATA (SATA) Host Interface
1)
- SATA 1.5 Gb/s or SATA 3.0 Gb/s
- ATA/ATAPI-8 compliant
- Supports 48-bit address feature set
Performance
- Sequential data read -
Up to 110 MByte/sec*
- Sequential data write -
Up to 60 MByte/sec*
* measured using 128 KByte transfer size
Power Management
- 3.3V and 1.2Vpower supply
- Host SATA interface power management
- Immediate disabling of unused circuitry
without host intervention
2)
Power Specifications
- Active mode:
820mW typical (GLS85LS1064B)
565mW typical (GLS85LS1032B)
440mW typical (GLS85LS1016B)
360mW typical (GLS85LS1008B)
360mW typical (GLS85LS1004A)
360mW typical (GLS85LS1002A)
- Idle / Standby mode:
210mW typical
- Sleep mode:
70mW typical
Expanded Data Protection
- Added data security through user-selectable
protection zones
Integrated Voltage Detector
- Detects supply voltage fluctuations and
generates reset during power-up and power-
down to prevent inadvertent writes
Supports SMART Commands
20-Byte Serial Number
- Factory pre-programmed 10-Byte unique ID
- User-programmable 10-Byte ID
Robust Built-in ECC
NAND Configuration
- 2 bits per cell (MLC)
Temperature Range
- Commercial: 0°C to 70°C
- Industrial: -40°C to 85°C
FBGA package
- 14.0 mm x 24.0 mm x 1.95 mm, 145-ball,
1.0 mm ball pitch, FZJE
All Devices are RoHS Compliant
1)
2)
Current product revision supports SATA Revision 1.x with
host transfer rate of up to 1.5 Gb/s (i.e. SATA 1.5 Gb/s).
SATA 3.0 Gb/s refers to SATA Revision 2.x and will be
supported by our planned future product revisions.
For management of the Sleep Mode, refer to “SATA
NANDrive Application Design Guide.”
Product Description
The GLS85LS1002A / 1004A / 1008B / 1016B /
1032B / 1064B Industrial Temperature and
Commercial Temperature SATA NANDrive™ devices
(referred to as “SATA NANDrive” in this datasheet)
are fully integrated solid state drives. They combine
an advanced Greenliant NAND controller and 2, 4, 8,
16, 32 or 64 GByte of NAND flash in a multi-chip
package. These products are ideal for embedded and
portable applications that require smaller form factor
and more reliable data storage.
SATA-interface solid state mass storage technology is
widely used in portable and industrial computers, set-
top boxes, multi-functional printers, point-of-sales
terminals, video and audio recorders, medical
instruments and car infotainment systems.
SATA NANDrive is a single device, solid state drive
(SSD) that provides the functionality and compatibility
of a complete SATA hard disk drive (HDD) in a 14 mm
x 24 mm BGA package for easy, space saving
mounting to a system motherboard. These products
surpass traditional storage in their small size, security,
reliability, ruggedness and low power consumption.
These specifications are subject to change without notice.
© 2016 Greenliant Systems
The integrated NAND flash controller with built-in
advanced
NAND
management
firmware
communicates with the host through the standard
SATA protocol. It does not require any additional or
proprietary software such as the Flash File System
(FFS) and Memory Technology Driver (MTD).
SATA NANDrive is pre-programmed with a 10-Byte
unique serial ID and has the option of programming
an additional 10-Byte serial ID for even greater
system security.
SATA NANDrive’s advanced NAND management
technology enhances data reliability and security,
improves endurance and accurately estimates the
remaining life of the NAND flash devices. This
innovative technology combines robust NAND
controller hardware error correction capabilities with
advanced wear-leveling algorithms and bad block
management to significantly extend the life of the
product.
SATA NANDrive devices are offered in a 145-ball
BGA, 1 mm ball pitch package.
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SATA NANDrive™
Fact Sheet 04.000
October 2016
1.0
GENERAL DESCRIPTION
Each SATA NANDrive contains an integrated SATA NAND flash memory controller and up to eight discrete
NAND flash die in a BGA package. Refer to Figure 2-1 for the SATA NANDrive block diagram.
1.1
Optimized SATA NANDrive
1.1.5
Error Correction Code (ECC)
The heart of SATA NANDrive is the SATA NAND flash
memory controller which translates standard SATA
signals into flash media data and control signals. The
following components contribute to SATA NANDrive’s
operation.
1.1.1
Microcontroller Unit (MCU)
High performance is achieved through optimized
hardware error detection and correction.
1.1.6
Serial Communication Interface (SCI)
The MCU translates SATA commands into data and
control signals required for flash media operation.
1.1.2
Internal Direct Memory Access (DMA)
The Serial Communication Interface (SCI) is designed
for error reporting. During the product development
stage, it is recommended to provide the SCI port on
the PCB to aid in design validation.
1.1.7
Multi-tasking Interface
SATA NANDrive uses internal DMA allowing instant
data transfer from/to buffer to/from flash media. This
implementation eliminates microcontroller overhead
associated with the traditional, firmware-based
approach, thereby increasing the data transfer rate.
1.1.3
Power Management Unit (PMU)
The multi-tasking interface enables fast, sequential
write performance by allowing concurrent Read,
Program and Erase operations to multiple flash media.
1.2
SMT Reflow Consideration
The PMU controls the power consumption of SATA
NANDrive. The PMU dramatically reduces the power
consumption of SATA NANDrive by putting the part of
3)
the circuitry that is not in operation into sleep mode.
The Flash File System handles inadvertent power
interrupts and has auto-recovery capability to ensure
SATA NANDrive firmware integrity. For regular power
management,
the
host
must
send
an
IDLE_IMMEDIATE command and wait for command
ready before powering down SATA NANDrive.
3)
The SATA NANDrive family utilizes standard NAND
flash for data storage. Because the high temperature
in a surface-mount soldering reflow process may alter
the content on NAND flash, it is recommended to
program SATA NANDrive after the reflow process.
1.3
Advanced NAND Management
For management of the Sleep Mode, refer to “SATA
NANDrive Application Design Guide.”
1.1.4
Embedded Flash File System
SATA NANDrive’s integrated controller uses
advanced wear-leveling algorithms to substantially
increase the longevity of NAND flash media. Wear
caused by data writes is evenly distributed in all or
select blocks in the device that prevents “hot spots” in
locations that are programmed and erased extensively.
This effective wear-leveling technique results in
optimized device endurance, enhanced data retention
and higher reliability required by long-life applications.
The embedded flash file system is an integral part of
SATA NANDrive. 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
4. Manages system security for the selected
protection zones
These specifications are subject to change without notice.
© 2016 Greenliant Systems
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Industrial / Commercial Temp
SATA NANDrive™
Fact Sheet 04.000
October 2016
2.0
FUNCTIONAL BLOCKS
SATA NANDrive
NAND Controller
Embedded Flash
File System
Memory
Channel I/F
MCU
SATA ll
HOST I/F
3.0/1.5 Gbps
SRAM Buffer
ECC
Flash Media I/F
NAND I/F
NAND
NAND
NAND
NAND
NAND
Chips
Chips
Chips
Chips
Flash
These specifications are subject to change without notice.
© 2016 Greenliant Systems
SATA I/F
Internal
DMA
Memory
Channel I/F
PMU
SCI
ECC
Figure 2-1: SATA NANDrive Block Diagram
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SATA NANDrive™
Fact Sheet 04.000
October 2016
3.0
PRODUCT ORDERING INFORMATION
4)
GLS 85 LS 1 0xxB - M - C - FZJE - NDxxx
XX XX X XXXX - X - X - XXXX - XXXXX
Ordering Code
NDxxx or TTxxx = NANDrive Revision
EDxxx = Evaluation Board Revision
Environmental Attribute
E = non-Pb solder (RoHS Compliant)
Package Modifier
ZJ = 145-ball positions
Package Type
F = FBGA
Operation Temperature
I = Industrial: -40°C to +85°C
C = Commercial: 0°C to +70°C
NAND Configuration
M = 2 bits per cell
Generation / Product Configuration
A = First generation
B = Second generation
Capacity
002 = 2 GByte
004 = 4 GByte
008 = 8 GByte
016 = 16 GByte
032 = 32 GByte
064 = 64 GByte
MByte or GByte Designator
0 = MByte
1 = GByte
Interface
S = SATA
Voltage
L = 3.3V
Product Series
85 = NANDrive
4)
Note that the top side marking on the package typically does not include ordering codes (e.g. NDxxx), unless it is a special C-SPEC
(custom specification) which is required by the end-customer to be marked on the device.
These specifications are subject to change without notice.
© 2016 Greenliant Systems
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Industrial / Commercial Temp
SATA NANDrive™
Fact Sheet 04.000
October 2016
Valid Combinations
Valid product combinations are those that are in the mass production or will be in the mass production. Consult
your Greenliant sales representative to confirm availability of the valid combinations and to determine availability
of new product combinations.
Table 3-1: SATA NANDrive Product Valid Ordering Numbers
Capacity Operating Temperature
Part Number
Commercial (0°C to 70°C)
2GB
Industrial (-40°C to 85°C)
Commercial (0°C to 70°C)
4GB
Industrial (-40°C to 85°C)
GLS85LS1002A-M-C-FZJE-ND103
GLS85LS1002A-M-C-FZJE-ND105*
GLS85LS1002A-M-I-FZJE-ND103
GLS85LS1002A-M-I-FZJE-ND105*
GLS85LS1004A-M-C-FZJE-ND103
GLS85LS1004A-M-C-FZJE-ND105*
GLS85LS1004A-M-I-FZJE-ND103
GLS85LS1004A-M-I-FZJE-ND105*
GLS85LS1008B-M-C-FZJE-ND103
Commercial (0°C to 70°C)
8GB
Industrial (-40°C to 85°C)
GLS85LS1008B-M-C-FZJE-ND105*
GLS85LS1008B-M-C-FZJE-TT088
GLS85LS1008B-M-I-FZJE-ND103
GLS85LS1008B-M-I-FZJE-ND105*
GLS85LS1008B-M-I-FZJE-TT088
GLS85LS1016B-M-C-FZJE-ND103
Commercial (0°C to 70°C)
16GB
Industrial (-40°C to 85°C)
GLS85LS1016B-M-C-FZJE-ND105*
GLS85LS1016B-M-C-FZJE-TT088
GLS85LS1016B-M-I-FZJE-ND103
GLS85LS1016B-M-I-FZJE-ND105*
GLS85LS1016B-M-I-FZJE-TT088
GLS85LS1032B-M-C-FZJE-ND103
Commercial (0°C to 70°C)
32GB
Industrial (-40°C to 85°C)
GLS85LS1032B-M-C-FZJE-ND105*
GLS85LS1032B-M-C-FZJE-TT088
GLS85LS1032B-M-I-FZJE-ND103
GLS85LS1032B-M-I-FZJE-ND105*
GLS85LS1032B-M-I-FZJE-TT088
GLS85LS1064B-M-C-FZJE-ND103
Commercial (0°C to 70°C)
64GB
Industrial (-40°C to 85°C)
*
Package
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
FZJE, 14x24x1.95mm
GLS85LS1064B-M-C-FZJE-ND105*
GLS85LS1064B-M-C-FZJE-TT088
GLS85LS1064B-M-I-FZJE-ND103
GLS85LS1064B-M-I-FZJE-ND105*
GLS85LS1064B-M-I-FZJE-TT088
ND105 products include enhanced support for TRIM command and power management in Windows environments.
These specifications are subject to change without notice.
© 2016 Greenliant Systems
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