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M14D1G1664A-2S Datasheet, PDF (29/65 Pages) Elite Semiconductor Memory Technology Inc. – Internal pipelined double-data-rate architecture; two data access per clock cycle
ESMT
(Preliminary)
M14D1G1664A (2S)
Automotive Grade
Extended Mode Register Set-2 [EMRS(2)]
The EMRS(2) stores the data for enabling or disabling high temperature self refresh rate. The default value of the EMRS(2) is not
defined, therefore EMRS(2) must be written after power up for proper operation. The EMRS(2) is written by asserting LOW on CS ,
RAS , CAS , WE , BA0, BA2 and HIGH on BA1 (The device should be in all bank Precharge with CKE already high prior to
writing into EMRS(2)). The state of address pins A0~A12 in the same cycle as CS , RAS , CAS , WE , BA0 and BA2 going LOW
and BA1 going HIGH are written in the EMRS(2).
The tMRD time is required to complete the write operation to the EMRS(2). The EMRS(2) contents can be changed using the same
command and clock cycle requirements during normal operation as long as all banks are in the idle state. A7 is used for high
temperature self refresh rate enable or disable.
BA2 BA1 BA0 A12 A11 A10 A9 A8 A7 A6 A5 A4 A3 A2 A1 A0
0
1
0
0*1
SRF
0*1
DCC*2
0*1
BA2 BA1 BA0
000
001
010
011
Mode Register
MRS
EMRS(1)
EMRS(2)
EMRS(3): Reserved
A7 High Temperature
Self Refresh rate
0
Disable
1
Enable*3
A3
DCC Enable
0
Disable
1
Enable
*Note:
1. A0~A2, A4~A6 and A8~A12 are reserved for future use and must be set to 0.
2. User may enable or disable the DCC (Duty Cycle Corrector) by programming A3 bit accordingly.
3. When DRAM is operated at 85℃<TC≦95℃, the extended Self Refresh rate must be enabled by setting bit A7 to “1”
before the Self Refresh mode can be entered.
Elite Semiconductor Memory Technology Inc.
Publication Date : Jul. 2014
Revision : 0.1
29/65