iPEM

2.4 Gb SDRAM-DDR2

AS4DDR232M72APBG

AS4DDR232M72APBG

Rev. 1.1 12/12

7

Micross Components reserves the right to change products or specifications without notice.

NOTES:

1. Applying power; if CKE is maintained below 0.2 x VCCQ,

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 VCCQ during voltage ramp time to avoid DDR2 SDRAM

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, VCCQ,VREF, and VTT are between their

minimum and maximum values as stated in DC Operating Conditions table):

A. (single power source) The VCC voltage ramp from 300mV

to VCC(MIN) must take no longer than 200ms; during the VCC

ramping is complete (when VCCQ crosses VCC (MIN), DC

OperatingConditionstablespecificationsapply.

•VCC,VCCQaredrivenfromasinglepowerconverteroutput

•VTTislimitedto0.95VMAX

to VCCQ/2 during supply ramp time.

•VCCQ>VREFatalltimes

B. (multiple power sources) VCC e” VCCQ must be maintained

during supply voltage ramping, for both AC and DC levels, until

supply voltage ramping completes (VCCQ crosses VCC [MIN]).

Once supply voltage ramping is complete, DC Operating

Conditionstablespecificationsapply.

•ApplyVCCbeforeoratthes ametimeasVCCQ ;

VCC voltage ramp time must be < 200ms from when VCC ramps from

300mV to VCC (MIN)

• Apply VCCQ before or at the same time as VTT; the VCCQ

voltage ramp time from when VCC (MIN) is achieved to when

VCCQ (MIN) is achieved must be < 500ms; while VCC is

ramping, current can be supplied from VCC through the device

to VCCQ

respect to VCCQ/2 during supply ramp time; VCCQ > VREF

must be met at all times

• Apply VTT; The VTT voltage ramp time from when VCCQ

(MIN) is achieved to when VTT (MIN) is achieved must be no

greaterthan500ms

apply NOP or DESELECT commands and take CKE HIGH.

3. Wait a minimum of 400ns, then issue a PRECHARGE ALL command/

4. Issue an LOAD MODE command to the EMR(2). (To issue an

EMR(2) command, provide LOW to BA0, provide HIGH to BA1.)

5. Issue a LOAD MODE command to the EMR(3). (To issue an EMR(3)

command, provide HIGH to BA0 and BA1.)

6. Issue an 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”;

Micronrecommendssettingthemto“0.”

7. Issue a LOAD MODE command 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.

8. Issue PRECHARGE ALL command.

9.IssuetwoormoreREFRESHcommands,followedbyadummyWRITE.

10. Issue a LOAD MODE command with LOW to A8 to initialize

device operation (i.e., to program operating parameters without resetting the

DLL).

11. 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.

12. Issue a LOAD MODE command to the EMR to enable OCD exit by setting bits

E7,E8,andE9to“0,”andthensettingallotherdesiredparameters.

13. Issue a LOAD MODE command with LOW to A8 to initialize

device operation (i.e., to program operating parameters without resetting the

DLL).

14. Issue a LOAD MODE command to the EMR to enable OCD default by setting

bitsE7,E8,andE9to“1,”andthensettingallotherdesiredparameters.

15. IssueaLOA DMOD EcommandtotheE MRto

enable OCD exit by setting bits E7, E8, and E9 to “0,” and then

setting all other desired parameters. The DDR2 SDRAM is now

initialized and ready for normal operation 200 clocks after DLL RESET (in

step 7).