MT48LC16M16LFFG Micron Technology Inc, MT48LC16M16LFFG Datasheet - Page 34

MT48LC16M16LFFG

Manufacturer Part Number

MT48LC16M16LFFG

Description

Manufacturer

Micron Technology Inc

Datasheet

1.MT48LC16M16LFFG.pdf (61 pages)

Specifications of MT48LC16M16LFFG

Lead Free Status / Rohs Status

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NOTE: (continued)

256Mb: x16 Mobile SDRAM

MobileRamY26L_B.p65 – Pub. 04/03

10. For a READ without auto precharge interrupted by a READ (with or without auto precharge), the READ to bank m will

11. For a READ without auto precharge interrupted by a WRITE (with or without auto precharge), the WRITE to bank m will

12. For a WRITE without auto precharge interrupted by a READ (with or without auto precharge), the READ to bank m will

13. For a WRITE without auto precharge interrupted by a WRITE (with or without auto precharge), the WRITE to bank m

14. For a READ with auto precharge interrupted by a READ (with or without auto precharge), the READ to bank m will

15. For a READ with auto precharge interrupted by a WRITE (with or without auto precharge), the WRITE to bank m will

16. For a WRITE with auto precharge interrupted by a READ (with or without auto precharge), the READ to bank m will

17. For a WRITE with auto precharge interrupted by a WRITE (with or without auto precharge), the WRITE to bank m will

4. AUTO REFRESH, SELF REFRESH and LOAD MODE REGISTER commands may only be issued when all banks are idle.

5. A BURST TERMINATE command cannot be issued to another bank; it applies to the bank represented by the current state

6. All states and sequences not shown are illegal or reserved.

7. READs or WRITEs to bank m listed in the Command (Action) column include READs or WRITEs with auto precharge

8. CONCURRENT AUTO PRECHARGE: Bank n will initiate the auto precharge command when its burst has been interrupted

9. Burst in bank n continues as initiated.

only.

enabled and READs or WRITEs with auto precharge disabled.

by bank m’s burst.

interrupt the READ on bank n, CAS latency later (Figure 7).

interrupt the READ on bank n when registered (Figures 9 and 10). DQM should be used one clock prior to the WRITE

command to prevent bus contention.

interrupt the WRITE on bank n when registered (Figure 17), with the data-out appearing CAS latency later. The last

valid WRITE to bank n will be data-in registered one clock prior to the READ to bank m.

will interrupt the WRITE on bank n when registered (Figure 15). The last valid WRITE to bank n will be data-in

registered one clock prior to the READ to bank m.

interrupt the READ on bank n, CAS latency later. The PRECHARGE to bank n will begin when the READ to bank m is

registered (Figure 24).

interrupt the READ on bank n when registered. DQM should be used two clocks prior to the WRITE command to prevent

bus contention. The PRECHARGE to bank n will begin when the WRITE to bank m is registered (Figure 25).

interrupt the WRITE on bank n when registered, with the data-out appearing CAS latency later. The PRECHARGE to bank

n will begin after

will be data-in registered one clock prior to the READ to bank m (Figure 26).

interrupt the WRITE on bank n when registered. The PRECHARGE to bank n will begin after

begins when the WRITE to bank m is registered. The last valid WRITE to bank n will be data registered one clock prior

to the WRITE to bank m (Figure 27).

WR is met, where

WR begins when the READ to bank m is registered. The last valid WRITE to bank n

Micron Technology, Inc., reserves the right to change products or specifications without notice.

MOBILE SDRAM

WR is met, where

256Mb: x16

PRELIMINARY

MT48LC16M16LFFG Micron Technology Inc, MT48LC16M16LFFG Datasheet - Page 34

MT48LC16M16LFFG

Specifications of MT48LC16M16LFFG

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