IS42S32200E-6BI-TR Datasheet IS42S32200E-6BI, IS42S32200E-6TL-TR, IS42S32200E-7BLI-TR | P10-P12

Integrated Silicon Solution, Inc. — www.issi.com —

1-800-379-4774

Rev. 00D

06/02/08

IS42S32200E

NOTE:

1. This table applies when CKE n-1 was HIGH and CKE n is HIGH (see Truth Table - CKE) and after t

XSR has been met (if the

previous state was SELF REFRESH).

2. This table is bank-specific, except where noted; i.e., the current state is for a specific bank and the commands shown are those

allowed to be issued to that bank when in that state. Exceptions are covered in the notes below.

3. Current state definitions:

Idle: The bank has been precharged, and t

RP has been met.

Row Active: A row in the bank has been activated, and t

RCD has been met. No data bursts/accesses and no register

accesses are in progress.

Read: A READ burst has been initiated, with auto precharge disabled, and has not yet terminated or been terminated.

Write: A WRITE burst has been initiated, with auto precharge disabled, and has not yet terminated or been terminated.

4. The following states must not be interrupted by a command issued to the same bank. COMMAND INHIBIT or NOP commands, or

allowable commands to the other bank should be issued on any clock edge occurring during these states. Allowable commands to

the other bank are determined by its current state and CURRENT STATE BANK n truth tables.

Precharging: Starts with registration of a PRECHARGE command and ends when t

RP is met. Once tRP is met, the bank

will be in the idle state.

Row Activating: Starts with registration of an ACTIVE command and ends when t

RCD is met. Once tRCD is met, the bank will

be in the row active state.

Read w/Auto

Precharge Enabled:

Starts with registration of a READ command with auto precharge enabled and ends when tRP has been met.

Once t

RP is met, the bank will be in the idle state.

Write w/Auto

Precharge Enabled:

Starts with registration of a WRITE command with auto precharge enabled and ends when tRP has been met.

Once t

RP is met, the bank will be in the idle state.

5. The following states must not be interrupted by any executable command; COMMAND INHIBIT or NOP commands must be

applied on each positive clock edge during these states.

Refreshing: Starts with registration of an AUTO REFRESH command and ends when t

RC is met. Once tRC is met, the

SDRAM will be in the all banks idle state.

Accessing Mode

MRD is met, the SDRAM will be in the all banks idle state.

Precharging All:

Starts with registration of a PRECHARGE ALL command and ends when tRP is met. Once tRP is met, all

banks will be in the idle state.

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

7. Not bank-specific; requires that all banks are idle.

8. May or may not be bank-specific; if all banks are to be precharged, all must be in a valid state for precharging.

9. Not bank-specific; BURST TERMINATE affects the most recent READ or WRITE burst, regardless of bank.

10. READs or WRITEs listed in the Command (Action) column include READs or WRITEs with auto precharge enabled and READs

or WRITEs with auto precharge disabled.

11. Does not affect the state of the bank and acts as a NOP to that bank.

Integrated Silicon Solution, Inc. — www.issi.com —

1-800-379-4774

Rev. 00D

06/02/08

IS42S32200E

TRUTH TABLE – CURRENT STATE BANK

COMMAND TO BANK

(1-6)

CURRENT STATE

COMMAND (ACTION) CS RAS CAS WE

Any COMMAND INHIBIT (NOP/Continue previous operation) H X X X

NO OPERATION (NOP/Continue previous operation) L H H H

Idle Any Command Otherwise Allowed to Bank

XX XX

Row ACTIVE (Select and activate row) L L H H

Activating, READ (Select column and start READ burst)

(7)

LH LH

Active, or WRITE (Select column and start WRITE burst)

(7)

LH LL

Precharging PRECHARGE L L H L

Read ACTIVE (Select and activate row) L L H H

(Auto READ (Select column and start new READ burst)

(7,10)

LH LH

Precharge WRITE (Select column and start WRITE burst)

(7,11)

LH LL

Disabled) PRECHARGE

(9)

LL HL

Write ACTIVE (Select and activate row) L L H H

(Auto READ (Select column and start READ burst)

(7,12)

LH LH

Precharge WRITE (Select column and start new WRITE burst)

(7,13)

LH LL

Disabled) PRECHARGE

(9)

LL HL

Read ACTIVE (Select and activate row) L L H H

(With Auto READ (Select column and start new READ burst)

(7,8,14)

LH LH

Precharge) WRITE (Select column and start WRITE burst)

(7,8,15)

LH LL

PRECHARGE

(9)

LL HL

Write ACTIVE (Select and activate row) L L H H

(With Auto READ (Select column and start READ burst)

(7,8,16)

LH LH

Precharge) WRITE (Select column and start new WRITE burst)

(7,8,17)

LH LL

PRECHARGE

(9)

LL HL

NOTE:

1. This table applies when CKE n-1 was HIGH and CKE n is HIGH (Truth Table - CKE) and after t

XSR has been met (if the previous

state was self refresh).

2. This table describes alternate bank operation, except where noted; i.e., the current state is for bank

and the commands shown

are those allowed to be issued to bank

(assuming that bank

is in such a state that the given command is allowable)

. Exceptions are

covered in the notes below.

3. Current state definitions:

Idle: The bank has been precharged, and t

RP has been met.

Row Active: A row in the bank has been activated, and t

RCD has been met. No data bursts/accesses and no register

accesses are in progress.

Read: A READ burst has been initiated, with auto precharge disabled, and has not yet terminated or been terminated.

Write: A WRITE burst has been initiated, with auto precharge disabled, and has not yet terminated or been terminated.

Read w/Auto

Precharge Enabled:

Starts with registration of a READ command with auto precharge enabled, and ends when tRP has been met.

Once t

RP is met, the bank will be in the idle state.

Write w/Auto

Precharge Enabled:

Starts with registration of a WRITE command with auto precharge enabled, and ends when tRP has been

met. Once t

RP is met, the bank will be in the idle state.

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 only.

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

Integrated Silicon Solution, Inc. — www.issi.com —

1-800-379-4774

Rev. 00D

06/02/08

IS42S32200E

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

and READs or WRITEs with auto precharge disabled.

8. CONCURRENT AUTO PRECHARGE: Bank n will initiate the AUTO PRECHARGE command when its burst has been inter-

rupted by bank m’s burst.

9. Burst in bank n continues as initiated.

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

READ on bank n, CAS latency later (Consecutive READ Bursts).

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

the READ on bank n when registered (READ to WRITE). DQM should be used one clock prior to the WRITE command to prevent

bus contention.

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

the WRITE on bank n when registered (WRITE to READ), 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.

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

the WRITE on bank n when registered (WRITE to WRITE). The last valid WRITE to bank n will be data-in registered one clock

prior to the READ 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 interrupt the

READ on bank n, CAS latency later. The PRECHARGE to bank n will begin when the READ to bank m is registered (Fig CAP 1).

15. For a READ with auto precharge interrupted by a WRITE (with or without auto precharge), the WRITE to bank m will 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 (Fig CAP 2).

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

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

WR is met, where tWR begins when the READ to bank m is registered. The last valid WRITE to bank n will be data-in registered

one clock prior to the READ to bank m (Fig CAP 3).

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

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

WR is met, where t WR 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 (Fig CAP 4).

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P21 P22-P24 P25-P27 P28-P30 P31-P33 P34-P36 P37-P39 P40-P42 P43-P45 P46-P48 P49-P51 P52-P54 P55-P57 P58-P59

IS42S32200E-6BI-TR

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Description:

DRAM 64M (2Mx32) 166MHz SDRAM, 3.3v

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IS42S32200E-6BI-TR

IS42S32200E-6BI-TR

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