iPEM
4.8 Gb SDRAM-DDR2
Austin Semiconductor, Inc.
AS4DDR264M72PBG1
NOTES:
6. Issue a LOAD MODE command to the EMR(3). To issue an EMR(3)
command, provide HIGH to BA0 and BA1; remaining EMR(3) bits
must be “0.” See “Extended Mode Register 3 (EMR 3)” on page 13
for all EMR(3) requirements.
7. Issue a LOAD MODE command to the EMR to enable DLL. To issue
a DLL ENABLE command, provide LOW to BA1 and A0; provide
HIGH to BA0; bits E7, E8, and E9 can be set to “0” or “1;” Austin
recommends setting them to “0;” remaining EMR bits must be “0.
”See “Extended Mode Register (EMR)” on page 10 for all EMR
requirements.
1. Applying power; if CKE is maintained below 0.2 x VCC, outputs
remain disabled. To guarantee RTT (ODT resistance) is off, VREF
must be valid and a low level must be applied to the ODT ball (all
other inputs may be undefined, I/Os and outputs must be less
than VCC during voltage ramp time to avoid DDR2 SDRAM device
latch-up). VTT is not applied directly to the device; however,
tVTD should be ³0 to avoid device latch-up. At least one of the
following two sets of conditions (A or B) must be met to obtain a
stable supply state (stable supply defined as VCC, VREF,
and VTT are between their minimum and maximum values as
stated in DC Operating Conditions table):
8. Issue a LOAD MODE command to the MR for DLL RESET. 200
cycles of clock input is required to lock the DLL. To issue a DLL
RESET, provide HIGH to A8 and provide LOW to BA1 and BA0;
CKE must be HIGH the entire time the DLL is resetting; remaining
MR bits must be “0.” See “Mode Register (MR)” on page 7 for all
MR requirements.
A. (single power source) The VCC voltage ramp from 300mV to
VCC(MIN) must take no longer than 200ms.
• All VCC are driven from a single power converter output
• VTT is limited to 0.95V MAX
• VREF tracks VCC/2; VREF must be within 0.3V with respect
to VCC/2 during supply ramp time.
9. Issue PRECHARGE ALL command.
10. Issue two or more REFRESH commands.
• VCC > VREF at all times
2. CKE requires LVCMOS input levels prior to state T0 to ensure
11. Issue a LOAD MODE command to the MR with LOW to A8 to
initialize device operation (that is, to program operating parameters
without resetting the DLL). To access the MR, set BA0 and BA1
LOW; remaining MR bits must be set to desired settings. See
“Mode Register (MR)” on page 7 for all MR requirements.
12. Issue a LOAD MODE command to the EMR to enable OCD
default by setting bits E7, E8, and E9 to “1,” and then setting all
other desired parameters. To access the EMR, set BA0 LOW
and BA1 HIGH (see “Extended Mode Register (EMR)” on page 10
for all EMR requirements).
13. Issue a LOAD MODE command to the EMR to enable OCD exit by
setting bits E7, E8, and E9 to “0,” and then setting all other desired
parameters. To access the extended mode registers, EMR, set
BA0 LOW and BA1 HIGH for all EMR requirements.
14. The DDR2 SDRAM is now initialized and ready for normal
operation 200 clock cycles after the DLL RESET at Tf0.
15. DM represents UDM, LDM collectively for each die x16
configuration. DQS represents UDQS, USQS, LDQS, LDQS for
each die x16 configuration. DQ represents DQ0-DQ15 for each
die x16 configuration.
DQs are High-Z during device power-up prior to VREF being
stable. After state T0, CKE is required to have SSTL_18 input
levels. Once CKE transitions to a high level, it must stay HIGH for
the duration of the initialization sequence.
3. A10 = PRECHARGE ALL, CODE = desired values for mode
registers (bank addresses are required to be decoded).
4. For a minimum of 200µs after stable power and clock (CK, CK#),
apply NOP or DESELECT commands, then take CKE HIGH.
5. Issue a LOAD MODE command to the EMR(2). To issue an EMR(2)
command, provide LOW to BA0, and provide HIGH to BA1; set
register E7 to “0” or “1” to select appropriate self refresh rate;
remaining EMR(2) bits must be “0” (see “Extended Mode Register
2 (EMR2)” on page 84 for all EMR(2) requirements).
16. Wait a minimum of 400ns then issue a PRECHARGEALLcommand.
Austin Semiconductor, Inc.
● Austin, Texas ● 512.339.1188 ● www.austinsemiconductor.com
AS4DDR264M72PBG1
Rev. 3.0 6/09
6
AUSTIN [ AUSTIN SEMICONDUCTOR ]
