Fact Sheet 03.000
June 2016
These specifications are subject to change without notice. 06/15/2016
© 2016 Greenliant Systems 1 S71425-F
GLS85VM1004A / 1008A / 1016A / 1032A
Industrial Temp eMMC NANDrive™
Features
• Industry Standard Embedded MultiMediaCard
(eMMC) Host Interface
- JEDEC/MMC Standard Version 4.4
JESD84-A44 compliant
- Backward compatible with eMMC 4.3
• Performance
- eMMC clock speed: Up to 52MHz (Support
x1/x4/x8 bus and Dual Data Rate mode)
- Sequential data read:
Up to 60 MByte/sec *
- Sequential data write:
Up to 30 MByte/sec *
* measured using 128 Kbyte transfer size
• Power Management
- 3.3V power supply
- 3.3V or 1.8V eMMC IO voltage
- Immediate disabling of unused circuitry without
Host intervention
• Power Specifications
- Active mode
180mA typical (GLS85VM1032A)
150mA typical (GLS85VM1016A)
120mA typical (GLS85VM1008A)
120mA typical (GLS85VM1004A)
- Sleep mode
200µA typical
• Expanded Data Protection
- Hardware Write Protection pin
• Latency Management
- Reduce latencies due to background operation
during time critical read/write operations
• Integrated Voltage Detector
- Detects supply voltage fluctuations and
generates reset during power-up and power-
down to prevent inadvertent writes
• Robust Built-in ECC
• NAND Configuration
- 2 bits per cell (MLC)
• Temperature Range
- Industrial: -40°C to 85°C
• 100-ball LBGA Package
- 14.0 mm x 18.0 mm x 1.40 mm, 100-ball,
1.0 mm ball pitch, LFWE
(GLS85VM1004A/8A/16A/32A)
• All Devices are RoHS Compliant
Product Description
The GLS85VM1004A / 1008A / VM1016A / VM1032A
eMMC NANDrive™ devices (referred to as “eMMC
NANDrive” in this datasheet) are fully integrated solid
state drives. They combine an advanced Greenliant
NAND controller and 4, 8, 16 or 32 GByte of NAND
flash memory in a multi-chip package. These products
are ideal for solid state mass storage in embedded
and portable applications that require small form-
factor, energy efficient and reliable data storage.
eMMC solid state drives are widely used in GPS and
telematics, in-vehicle infotainment, portable and
industrial computers, handheld data collection
scanners, point-of-sale terminals, networking and
telecommunications equipment, robotics, audio and
video recorders, monitoring devices and set-top boxes.
eMMC NANDrive provides complete eMMC solid state
drive (SSD) functionality and compatibility in a 14mm
x 18mm BGA package for easy, space saving
mounting to a system motherboard. With its small size,
low power consumption, strong security, reliability and
ruggedness, eMMC NANDrive surpasses removable
storage and discrete NAND-based products.
The integrated NAND flash controller with built-in
advanced NAND management firmware
communicates with the Host through the standard
eMMC protocol. It does not require any additional or
proprietary software such as the Flash File System
(FFS) and Memory Technology Driver (MTD).
eMMC NANDrive’s advanced NAND management
technology enhances data security, improves
endurance and accurately tracks the usage of the
NAND flash. This innovative technology combines
robust error correction capabilities with advanced
wear-leveling algorithms and bad block management
to extend the life of the product.
eMMC NANDrive supports Dual Data Rate (DDR)
mode, boot, multiple partitions, permanent and partial
write protect, Replay Protected Memory Block (RPMB)
access, Secure erase and TRIM, hardware reset and
other features detailed in the eMMC 4.4 standard
specification. It is fully backward compatible with the
eMMC 4.3 standard.
Fact Sheet 03.000
June 2016
These specifications are subject to change without notice. 06/15/2016
© 2016 Greenliant Systems 2 S71425-F
GLS85VM1004A / 1008A / 1016A / 1032A
Industrial Temp eMMC NANDrive™
1.0 GENERAL DESCRIPTION
Each eMMC NANDrive contains an integrated eMMC NAND flash memory controller and NAND flash die in a
BGA package. Refer to Figure 2-1 for the eMMC NANDrive block diagram.
1.1 Optimized eMMC NANDrive
The heart of the eMMC NANDrive is the eMMC NAND
flash memory controller, which translates standard
eMMC signals into flash media data and control
signals. The following components contribute to the
eMMC NANDrive’s operation.
1.1.1 Microcontroller Unit (MCU)
The MCU transfers the eMMC commands into data
and control signals required for flash media operation.
1.1.2 Internal Direct Memory Access (DMA)
The eMMC 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 PMU controls the power consumption of the
eMMC NANDrive. The PMU dramatically reduces the
power consumption of the eMMC NANDrive by putting
the part of 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
the eMMC NANDrive’s data integrity.
1.1.4 Embedded Flash File System
The embedded flash file system is an integral part of
the eMMC 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
flash writes across all memory address space to
increase the longevity of flash media
3. Keeps track of the data file structure
4. Manages system security for the selected
protection zones
1.1.5 Error Correction Code (ECC)
High performance is achieved through optimized
hardware error detection and correction.
1.1.6 Serial Communication Interface (SCI)
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
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 eMMC 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 the eMMC NANDrive after the reflow process.
1.3 Advanced NAND Management
The eMMC 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.
Fact Sheet 03.000
June 2016
These specifications are subject to change without notice. 06/15/2016
© 2016 Greenliant Systems 3 S71425-F
GLS85VM1004A / 1008A / 1016A / 1032A
Industrial Temp eMMC NANDrive™
2.0 FUNCTIONAL BLOCKS
Figure 2-1: eMMC NANDrive Block Diagram
Flash Media I/F
NAND I/F
NAND
Chips
NAND
Chips
NAND
Chips
MCU
eMMC
I/F
Internal
DMA
SCI
PMU
Memory
Channel
NAND Controller
ECC
SRAM Buffer
HOST I/F
NAND
Chips
NAND
Flash
eMMC NANDrive
eMMC
I/F
Fact Sheet 03.000
June 2016
These specifications are subject to change without notice. 06/15/2016
© 2016 Greenliant Systems 4 S71425-F
GLS85VM1004A / 1008A / 1016A / 1032A
Industrial Temp eMMC NANDrive™
3.0 PRODUCT ORDERING INFORMATION
GLS 85 VM 1 0xx A - M - I - LFWE - NDxxx
XX XX X XXX X - X - X -
XX
XX -
XXX
XX
Ordering Code
1)
NDxxx = NANDrive Revision
EDxxx = Evaluation Board Revision
Environmental Attribute
E = non-Pb solder (RoHS Compliant)
Package Modifier
W = 100-ball positions
Package Type
LF = LBGA (max. package height 1.40mm)
Operation Temperature
I = Industrial: -40°C to +85°C
NAND Configuration
M = 2 bits per cell
Generation / Product Configuration
A = First generation
Capacity
004 = 4 GByte
008 = 8 GByte
016 = 16 GByte
032 = 32 GByte
MByte or GByte Designator
0 = MByte
1 = GByte
Interface
M = eMMC
Voltage
V = 2.7V to 3.3V
Product Series
85 = NANDrive
1)
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.
Fact Sheet 03.000
June 2016
These specifications are subject to change without notice. 06/15/2016
© 2016 Greenliant Systems 5 S71425-F
GLS85VM1004A / 1008A / 1016A / 1032A
Industrial Temp eMMC NANDrive™
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: eMMC NANDrive Product Valid Ordering Numbers
Capacity
Operating Temperature
Part Num
ber
Package
4GB Industrial (-40°C to 85°C) GLS85VM1004A-M-I-LFWE-ND206 LFWE, 14x18x1.40mm
4GB Industrial (-40°C to 85°C) GLS85VM1004A-M-I-LFWE-ND209 LFWE, 14x18x1.40mm
8GB Industrial (-40°C to 85°C) GLS85VM1008A-M-I-LFWE-ND206 LFWE, 14x18x1.40mm
8GB Industrial (-40°C to 85°C) GLS85VM1008A-M-I-LFWE-ND209 LFWE, 14x18x1.40mm
16GB Industrial (-40°C to 85°C) GLS85VM1016A-M-I-LFWE-ND206 LFWE, 14x18x1.40mm
16GB Industrial (-40°C to 85°C) GLS85VM1016A-M-I-LFWE-ND209 LFWE, 14x18x1.40mm
32GB Industrial (-40°C to 85°C) GLS85VM1032A-M-I-LFWE-ND206 LFWE, 14x18x1.40mm
32GB Industrial (-40°C to 85°C) GLS85VM1032A-M-I-LFWE-ND209 LFWE, 14x18x1.40mm
Table 3-2: eMMC Evaluation Board Valid Ordering Numbers
Capacity
Operating Temperature
Part Number
Form Factor
4GB Industrial (-40°C to 85°C) GLS85VM1004A-M-I-E2-ED209 JEDEC MO-277
8GB Industrial (-40°C to 85°C) GLS85VM1008A-M-I-E2-ED209 JEDEC MO-277
16GB Industrial (-40°C to 85°C) GLS85VM1016A-M-I-E2-ED209 JEDEC MO-277
32GB Industrial (-40°C to 85°C) GLS85VM1032A-M-I-E2-ED209 JEDEC MO-277
Fact Sheet 03.000
June 2016
These specifications are subject to change without notice. 06/15/2016
© 2016 Greenliant Systems 6 S71425-F
GLS85VM1004A / 1008A / 1016A / 1032A
Industrial Temp eMMC NANDrive™
3.1 Package Diagram
Note: All linear dimensions are in millimeters.
Untoleranced dimensions are nominal target values.
Coplanarity: 0.12 mm
Ball diameter is 0.45 mm (± 0.05 mm)
Ball opening size is 0.38 mm (± 0.05 mm), SMD type
Figure 3-1: eMMC NANDrive 100-Ball, Ball Grid Array (BGA) Greenliant Package Code: LFWE
Fact Sheet 03.000
June 2016
These specifications are subject to change without notice. 06/15/2016
© 2016 Greenliant Systems 7 S71425-F
GLS85VM1004A / 1008A / 1016A / 1032A
Industrial Temp eMMC NANDrive™
Revision History
Number
Descriptio
n
Date
01.000 Initial release as Fact Sheet March 22, 2013
02.000 Added GLS85VM1004A-M-I-LFWE August 26, 2013
03.000 Added Ordering Codes ND206/ND209/ED209, Removed ND202 June 15, 2016
© 2016 Greenliant Systems. All rights reserved.
Greenliant and the Greenliant logo are registered trademarks, and NANDrive is a trademark of Greenliant
Systems. All other trademarks and registered trademarks are the property of their respective owners.
Specifications are subject to change without notice. Memory sizes denote raw storage capacity; actual usable
capacity may be less.
Greenliant makes no warranty for the use of its products other than those expressly contained in the Greenliant
Terms and Conditions of Sale.
www.greenliant.com
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GLS85VM1016A-M-I-E1-ED202 GLS85VM1008A-M-I-LFWE-ND202 GLS85VM1008A-M-I-E1-ED202
GLS85VM1032A-M-I-LFWE-ND202 GLS85VM1004A-M-I-E2-ED202 GLS85VM1016A-M-I-LFWE-ND202
GLS85VM1004A-M-I-LFWE-ND202 GLS85VM1008A-M-I-E2-ED202 GLS85VM1016A-M-I-E2-ED202
GLS85VM1032A-M-I-LFWE-ND209 GLS85VM1004A-M-I-LFWE-ND209 GLS85VM1008A-M-I-LFWE-ND209
GLS85VM1016A-M-I-LFWE-ND209
