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PDF EM68916CWQA Data sheet ( Hoja de datos )
| Número de pieza | EM68916CWQA | |
| Descripción | 8M x 16 bit DDRII Synchronous DRAM | |
| Fabricantes | Etron Technology | |
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EtronTech
EM68916CWQA
8M x 16 bit DDRII Synchronous DRAM (SDRAM)
Etron Confidential
Advanced (Rev 1.1 Apr. / 2009)
Features
• JEDEC Standard Compliant
• JEDEC Standard 1.8V I/O (SSTL_18-compatible)
• Power supplies: VDD & VDDQ = +1.8V ± 0.1V
• Operating temperatue: 0 – 85 °C
• Supports JEDEC clock jitter specification
• Fully synchronous operation
• Fast clock rate: 266/333/400MHz
• Differential Clock, CK & CK#
• Bidirectional single/differential data strobe
-DQS & DQS#
• 4 internal banks for concurrent operation
• 4-bit prefetch architecture
• Internal pipeline architecture
• Precharge & active power down
• Programmable Mode & Extended Mode registers
• Posted CAS# additive latency (AL): 0, 1, 2, 3, 4, 5
• CAS# Latency: 3, 4, 5, 6
• WRITE latency = READ latency - 1 tCK
• Burst length: 4 or 8
• Burst type: Sequential / Interleave
• DLL enable/disable
• Off-Chip Driver (OCD)
-Impedance Adjustment
-Adjustable data-output drive strength
•On-die termination (ODT)
•RoHS compliant
• Auto Refresh and Self Refresh
• 8192 refresh cycles / 64ms
•Package: 84-ball 8x12.5x1.2mm (max) FBGA
- Pb Free and Halogen Free
Overview
The EM68916C is a high-speed CMOS Double-
Data-Rate-Two (DDR2), synchronous dynamic
random-access memory (SDRAM) containing 128
Mbits in a 16-bit wide data I/Os. It is internally
configured as a quad bank DRAM, 4 banks x 2Mb
addresses x 16 I/Os
The device is designed to comply with DDR2
DRAM key features such as posted CAS# with
additive latency, Write latency = Read latency -1,
Off-Chip Driver (OCD) impedance adjustment, and
On Die Termination(ODT).
All of the control and address inputs are
synchronized with a pair of externally supplied
differential clocks. Inputs are latched at the cross
point of differential clocks (CK rising and CK# falling)
All I/Os are synchronized with a pair of bidirectional
strobes (DQS and DQS#) in a source synchronous
fashion. The address bus is used to convey row,
column, and bank address information in RAS #
, CAS# multiplexing style. Accesses begin with the
registration of a Bank Activate command, and then
it is followed by a Read or Write command. Read
and write accesses to the DDR2 SDRAM are 4 or
8-bit burst oriented; accesses start at a selected
location and continue for a programmed number of
locations in a programmed sequence. Operating
the four memory banks in an interleaved fashion
allows random access operation to occur at a
higher rate than is possible with standard DRAMs.
An auto precharge function may be enabled to
provide a self-timed row precharge that is initiated
at the end of the burst sequence. A sequential and
gapless data rate is possible depending on burst
length, CAS# latency, and speed grade of the
device.
Table 1. Ordering Information
Part Number
Clock Frequency Data Rate
EM68916CWQA-25H
400MHz
800Mbps/pin
EM68916CWQA-3H
333MHz
667Mbps/pin
EM68916CWQA-37H
266MHz
533Mbps/pin
WQ: indicates FBGA package
A: indicates generation code
H: indicates Pb Free and Halogen Free for FBGA Package
Power Supply
VDD 1.8V, VDDQ 1.8V
VDD 1.8V, VDDQ 1.8V
VDD 1.8V, VDDQ 1.8V
Package
FBGA
FBGA
FBGA
Etron Technology, Inc.
No. 6, Technology Rd. V, Science-Based Industrial Park, Hsinchu, Taiwan 30077, R.O.C.
TEL: (886)-3-5782345 FAX: (886)-3-5778671
Etron Technology, Inc., reserves the right to make changes to its products and specifications without notice.
Datasheet pdf - http://www.DataSheet4U.net/
1 page  
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EtronTech
EM68916CWQA
Ball Descriptions
Table 3. Ball Descriptions
Symbol
CK, CK#
CKE
BA0, BA1
A0-A12
CS#
RAS#
CAS#
WE#
LDQS,
LDQS#
UDQS
UDQS#
LDM,
UDM
DQ0 - DQ15
ODT
Type
Input
Input
Input
Input
Input
Input
Input
Input
Input /
Output
Input
Input /
Output
Input
Description
Differential Clock: CK, CK# are driven by the system clock. All SDRAM input signals are
sampled on the crossing of positive edge of CK and negative edge of CK#. Output (Read)
data is referenced to the crossings of CK and CK# (both directions of crossing).
Clock Enable: CKE activates (HIGH) and deactivates (LOW) the CK signal. If CKE goes
LOW synchronously with clock, the internal clock is suspended from the next clock cycle
and the state of output and burst address is frozen as long as the CKE remains LOW.
When all banks are in the idle state, deactivating the clock controls the entry to the Power
Down and Self Refresh modes.
Bank Address: BA0 and BA1 define to which bank the BankActivate, Read, Write, or
BankPrecharge command is being applied.
Address Inputs: A0-A11 are sampled during the BankActivate command (row address
A0-A11) and Read/Write command (column address A0-A8 with A10 defining Auto
Precharge).A12 is only for register programming.
Chip Select: CS# enables (sampled LOW) and disables (sampled HIGH) the command
decoder. All commands are masked when CS# is sampled HIGH. CS# provides for
external bank selection on systems with multiple banks. It is considered part of the
command code.
Row Address Strobe: The RAS# signal defines the operation commands in conjunction
with the CAS# and WE# signals and is latched at the crossing of positive edges of CK and
negative edge of CK#. When RAS# and CS# are asserted "LOW" and CAS# is asserted
"HIGH," either the BankActivate command or the Precharge command is selected by the
WE# signal. When the WE# is asserted "HIGH," the BankActivate command is selected
and the bank designated by BA is turned on to the active state. When the WE# is asserted
"LOW," the Precharge command is selected and the bank designated by BA is switched to
the idle state after the precharge operation.
Column Address Strobe: The CAS# signal defines the operation commands in
conjunction with the RAS# and WE# signals and is latched at the crossing of positive
edges of CK and negative edge of CK#. When RAS# is held "HIGH" and CS# is asserted
"LOW," the column access is started by asserting CAS# "LOW." Then, the Read or Write
command is selected by asserting WE# “HIGH " or “LOW".
Write Enable: The WE# signal defines the operation commands in conjunction with the
RAS# and CAS# signals and is latched at the crossing of positive edges of CK and
negative edge of CK#. The WE# input is used to select the BankActivate or Precharge
command and Read or Write command.
Bidirectional Data Strobe: Specifies timing for Input and Output data. Read Data Strobe
is edge triggered. Write Data Strobe provides a setup and hold time for data and DQM.
LDQS is for DQ0~7, UDQS is for DQ8~15. The data strobes LDOS and UDQS may be
used in single ended mode or paired with LDQS# and UDQS# to provide differential pair
signaling to the system during both reads and writes.A control bit at EMR (1)[A10] enables
or disables all complementary data strobe signals.
Data Input Mask: Input data is masked when DM is sampled HIGH during a write cycle.
LDM masks DQ0-DQ7, UDM masks DQ8-DQ15.
Data I/O: The DQ0-DQ15 input and output data are synchronized with the positive edges
of CK and CK#. The I/Os are byte-maskable during Writes.
On Die Termination: ODT enables internal termination resistance. It is applied to each
DQ, LDQS/LDQS#, UDQS/UDQS#, LDM, and UDM signal. The ODT pin is ignored if the
EMR (1) is programmed to disable ODT.
Etron Confidential
5
Rev. 1.1
Apr. 2009
Datasheet pdf - http://www.DataSheet4U.net/
5 Page 
www.DataSheet.co.kr
EtronTech
EM68916CWQA
- EMR(2)
The extended mode register (2) controls refresh related features. The default value of the extended mode
register (2) is not defined, therefore the extended mode register (2) must be written after power-up for
proper operation. The extended mode register(2) is written by asserting LOW on CS#, RAS#, CAS#, WE#,
HIGH on BA1 and LOW on BA0, while controlling the states of address pins A0 ~ A12. The DDR2 SDRAM
should be in all bank precharge with CKE already HIGH prior to writing into the extended mode register (2).
The mode register set command cycle time (tMRD) must be satisfied to complete the write operation to the
extended mode register (2). Mode register contents can be changed using the same command and clock
cycle requirements during normal operation as long as all banks are in the precharge state.
Table 7. Extended Mode Resistor EMR (2) Bitmap
BA1 BA0 A12 A11 A10 A9 A8 A7 A6 A5 A4 A3 A2 A1 A0 Address Field
10
0*1
SRF
0*1
DCC*4
PASR*3
Extended Mode Register(2)
A7 High Temperature Self-Refresh Rate Enable
0 Disable
1 Enable *2
BA1 BA0 MRS mode
00
MR
0 1 EMR(1)
1 0 EMR(2)
1 1 EMR(3)
A3 DCC Enable *4
0 Disable
1 Enable
A2 A1 A0 Partial Array Self Refresh for 4 Banks
0 0 0 Full array
0 0 1 Half Array (BA[1:0]=00&01)
0 1 0 Quarter Array (BA[1:0]=00)
0 1 1 Not defined
1 0 0 3/4 array (BA[1:0]=01,10&11)
1 0 1 Half array (BA[1:0]=10&11)
1 1 0 Quarter array (BA[1:0]=11)
1 1 1 Not defined
NOTE 1: The rest bits in EMRS(2) are reserved for future use and all bits in EMRS(2) except A0-A2, A7, BA0 and BA1
must be programmed to 0 when setting the extended mode register(2) during initialization.
NOTE 2: Due to the migration nature, user needs to ensure the DRAM part supports higher than 85℃ Tcase temperature
self-refresh entry. If the high temperature self-refresh mode is supported then controller can set the EMRS2[A7] bit
to enable the self-refresh rate in case of higher than 85℃ temperature self-refresh operation.
NOTE 3: If PASR (Partial Array Self Refresh) is enabled, data located in areas of the array beyond the specified location
will be lost if self refresh is entered. Data integrity will be maintained if tREF conditions are met and no Self Refresh
command is issued.
NOTE 4: DCC (Duty Cycle Corrector) implemented, user may be given the controllability of DCC thru EMR (2) [A3] bit.
Etron Confidential
11
Rev. 1.1
Apr. 2009
Datasheet pdf - http://www.DataSheet4U.net/
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