Mitsubishi M2V28S30TP-8L, M2V28S30TP-8, M2V28S30TP-7L, M2V28S40TP-8L, M2V28S40TP-8 Datasheet

MITSUBISHI LSIs

SDRAM (Rev. 1.0E)

MITSUBISHI ELECTRIC

DESCRIPTION

FEATURES

ITEM

M2V28S20/30/40TP

-7

-8

Icc1

Icc6

Active to Precharge Command Period

(Min.)

(Single Bank)

Self Refresh Current

(Max.)

50ns

20ns

6ns

2mA

V28S30

V28S40

-6

45ns

20ns

2mA

130mA

120mA

120

mA

120mA

115mA

115mA

Jun. '99

M2V28S20TP-6,-7,-8
M2V28S30TP-6,-7,-7L,-8,-8L

M2V28S40TP-7,-7L,-8,-8L

128M Synchronous DRAM

(4-BANK x 8,388,608-WORD x 4-BIT)
(4-BANK x 4,194,304-WORD x 8-BIT)
(4-BANK x 2,097,152-WORD x 16-BIT)

PRELIMINARY

Some of contents are described for general products and are
subject to change without notice.

M2V28S20TP is organized as 4-bank x 8,388,608-word x 4-bit Synchronous DRAM with LVTTL
interface and M2V28S30TP is organized as 4-bank x 4,194,304-word x 8-bit and M2V28S40TP is organized as
4-bank x 2,097,152-word x 16-bit. All inputs and outputs are referenced to the rising edge of CLK.

M2V28S20TP,M2V28S30TP,M2V28S40TP achieves very high speed data rates up to 133MHz, and is
suitable for main memory or graphic memory in computer systems.

tCLK
tRAS

tRCD
tAC

tRC

Clock Cycle Time (Min.)

Row to Column Delay (Min.)
Access Time from CLK (Max.) (CL=3)

Ref/Active Command Period (Min.)

V28S20

Operation Current (Max.)

7.5ns

5.4ns

67.5ns

10ns

70ns

10ns
50ns
20ns

6ns

70ns

-

- Single 3.3V ±0.3V power supply

- Max. Clock frequency -6:PC133<3-3-3> / -7:PC100<2-2-2> / -8:PC100<3-2-2>

- PC133(-6) supports x4/x8 only. And does not support Low-Power (L) version.

- Fully synchronous operation referenced to clock rising edge

- 4-bank operation controlled by BA0,BA1(Bank Address)

- /CAS latency- 2/3 (programmable)

- Burst length- 1/2/4/8/FP (programmable)

- Burst type- Sequential and interleave burst (programmable)

- Byte Control- DQML and DQMU (M2V28S40TP)

- Random column access

- Auto precharge / All bank precharge controlled by A10

- Auto and self refresh

- 4096 refresh cycles /64ms

- LVTTL Interface

- Package
M2V28S20TP/30TP/40TP

400-mil, 54-pin Thin Small Outline (TSOP II) with 0.8mm lead pitch

135mA

135mA

2mA

1

MITSUBISHI LSIs

SDRAM (Rev. 1.0E)

MITSUBISHI ELECTRIC

Revision History

1.0

Jun. '99

M2V28S20TP-6,-7,-8
M2V28S30TP-6,-7,-7L,-8,-8L

M2V28S40TP-7,-7L,-8,-8L

128M Synchronous DRAM

(4-BANK x 8,388,608-WORD x 4-BIT)
(4-BANK x 4,194,304-WORD x 8-BIT)
(4-BANK x 2,097,152-WORD x 16-BIT)

Rev.

Description

- Add PC133 Specification.

2

MITSUBISHI LSIs

SDRAM (Rev. 1.0E)

MITSUBISHI ELECTRIC

CLK

: Master Clock

CKE

: Clock Enable

/CS

: Chip Select

/RAS

: Row Address Strobe

/CAS

: Column Address Strobe

/WE

: Write Enable

DQ0-15

: Data I/O

DQM

: Output Disable/ Write Mask

A0-11

: Address Input

BA0,1

: Bank Address

Vdd

: Power Supply

VddQ

: Power Supply for Output

Vss

: Ground

VssQ

: Ground for Output

M2V28S20TP-6,-7,-8

Jun. '99

M2V28S30TP-6,-7,-7L,-8,-8L

M2V28S40TP-7,-7L,-8,-8L

PIN CONFIGURATION (TOP VIEW)

128M Synchronous DRAM

(4-BANK x 8,388,608-WORD x 4-BIT)
(4-BANK x 4,194,304-WORD x 8-BIT)
(4-BANK x 2,097,152-WORD x 16-BIT)

M2V28S20TP

M2V28S30TP

M2V28S40TP

PIN CONFIGURATION

(TOP VIEW)

Vdd
NC
VddQ
NC
DQ0
VssQ
NC
NC

VddQ
NC
DQ1
VssQ
NC
Vdd
NC
/WE
/CAS
/RAS
/CS

BA0(A13)
BA1(A12)
A10(AP)
A0
A1
A2
A3
Vdd

Vdd
DQ0
VddQ
NC
DQ1
VssQ
NC
DQ2

VddQ
NC
DQ3
VssQ
NC
Vdd
NC
/WE
/CAS
/RAS
/CS

BA0(A13)
BA1(A12)
A10(AP)
A0
A1
A2
A3
Vdd

Vdd
DQ0
VddQ
DQ1
DQ2
VssQ
DQ3
DQ4

VddQ
DQ5
DQ6
VssQ
DQ7
Vdd
DQML
/WE
/CAS
/RAS
/CS

BA0(A13)
BA1(A12)
A10(AP)
A0
A1
A2
A3
Vdd

1
2
3
4
5
6
7
8

9
10
11
12
13
14
15
16
17
18
19

20
21
22

23 32
24 31

25 30
26 29
27 28

54
53
52
51
50
49
48
47

46
45
44
43
42
41
40
39
38
37
36

35
34
33

Vss
DQ15
VssQ
DQ14
DQ13
VddQ
DQ12
DQ11

VssQ
DQ10
DQ9
VddQ
DQ8
Vss
NC
DQMU
CLK
CKE
NC

A11
A9
A8
A7
A6
A5
A4
Vss

Vss
DQ7
VssQ
NC
DQ6
VddQ
NC
DQ5

VssQ
NC
DQ4
VddQ
NC
Vss
NC
DQM
CLK
CKE
NC

A11
A9
A8
A7
A6
A5
A4
Vss

Vss
NC
VssQ
NC
DQ3
VddQ
NC
NC

VssQ
NC
DQ2
VddQ
NC
Vss
NC
DQM
CLK
CKE
NC

A11
A9
A8
A7
A6
A5
A4
Vss

3

MITSUBISHI LSIs

SDRAM (Rev. 1.0E)

MITSUBISHI ELECTRIC

Jun. '99

M2V28S20TP-6,-7,-8
M2V28S30TP-6,-7,-7L,-8,-8L

M2V28S40TP-7,-7L,-8,-8L

128M Synchronous DRAM

(4-BANK x 8,388,608-WORD x 4-BIT)
(4-BANK x 4,194,304-WORD x 8-BIT)
(4-BANK x 2,097,152-WORD x 16-BIT)

BLOCK DIAGRAM

Memory Array

4096 x1024 x8

Cell Array

Bank #0

Register

Address Buffer

Mode

Memory Array

4096 x1024 x8

Cell Array

Bank #1

DQ0-7

I/O Buffer

Memory Array

4096 x1024 x8

Cell Array

Control Circuitry

Bank #2

Control Signal Buffer

Memory Array

4096 x1024 x8

Cell Array

Bank #3

A0-11

Note : This figure shows the M2V28S30TP.

The M2V28S20TP configration is 4096x2048x4 of cell array and DQ 0-3.
The M2V28S40TP configration is 4096x512x16 of cell array and DQ 0-15.

Type Designation Code

M2 V 28 S 3 0 TP -8

BA0,1

Clock Buffer

CLK CKE

Access Item -6 : 7.5ns (PC133/3-3-3),

-7 : 10ns(PC100/2-2-2),

Package Type TP : TSOP(II)
Process Generation Blank : 1st gen.
Function 0 : Random Column
Organization 2: x4, 3: x8, 4: x16

Synchronous DRAM

Density 28 : 128Mbit
Interface V : LVTTL
Mitsubishi DRAM

/CS /RAS

These rules are only applied to the Synchronous DRAM family.

/CAS

-8 : 10ns(PC100/3-2-2)

/WE

DQM

4

MITSUBISHI LSIs

SDRAM (Rev. 1.0E)

MITSUBISHI ELECTRIC

PIN FUNCTION

following cycle is ceased. CKE is also used to select auto /

Jun. '99

M2V28S20TP-6,-7,-8
M2V28S30TP-6,-7,-7L,-8,-8L

M2V28S40TP-7,-7L,-8,-8L

128M Synchronous DRAM

(4-BANK x 8,388,608-WORD x 4-BIT)
(4-BANK x 4,194,304-WORD x 8-BIT)
(4-BANK x 2,097,152-WORD x 16-BIT)

CLK Input

CKE Input

/CS Input

/RAS, /CAS, /WE Input Combination of /RAS, /CAS, /WE defines basic commands.

A0-11 Input

BA0,1 Input

Master Clock:
All other inputs are referenced to the rising edge of CLK.

Clock Enable:
CKE controls internal clock. When CKE is low, internal clock for the

selfrefresh. After self refresh mode is started, CKE becomes
synchronous input. Self refresh is maintained as long as CKE is low.

Chip Select:
When /CS is high, any command means No Operation.

A0-11 specify the Row / Column Address in conjunction with BA0,1.
The Row Address is specified by A0-11. The Column Address is
specified by A0-9,11 (x4) / A0-9 (x8) / A0-8 (x16).
A10 is also used to indicate precharge option. When A10 is high at a
read / write command, an auto precharge is performed. When A10 is
high at a precharge command, all banks are precharged.

Bank Address:
BA0,1 specifies one of four banks to which a command is applied.
BA0,1 must be set with ACT, PRE, READ, WRITE commands.

DQ0-7 Input / Output

DQM Input

Vdd, Vss Power Supply Power Supply for the memory array and peripheral circuitry.

VddQ, VssQ Power Supply VddQ and VssQ are supplied to the Output Buffers only.

Data In and Data out are referenced to the rising edge of CLK.
Din Mask / Output Disable:

When DQM is high in burst write, Din for the current cycle is masked.
When DQM is high in burst read, Dout is disabled at the next but one
cycle.

5

MITSUBISHI LSIs

128M Synchronous DRAM

MITSUBISHI ELECTRIC

SDRAM (Rev. 1.0E)

Jun. '99

M2V28S20TP-6,-7,-8
M2V28S30TP-6,-7,-7L,-8,-8L

M2V28S40TP-7,-7L,-8,-8L

(4-BANK x 8,388,608-WORD x 4-BIT)
(4-BANK x 4,194,304-WORD x 8-BIT)
(4-BANK x 2,097,152-WORD x 16-BIT)

BASIC FUNCTIONS

The M2V28S30TP provides basic functions, bank (row) activate, burst read / write, bank

(row) precharge, and auto / self refresh.

Each command is defined by control signals of /RAS, /CAS and /WE at CLK rising edge. In
addition to 3 signals, /CS ,CKE and A10 are used as chip select, refresh option, and precharge option,
respectively.

To know the detailed definition of commands, please see the command truth table.

CLK

/CS Chip Select : L=select, H=deselect
/RAS Command
/CAS

/WE Command

CKE Refresh Option @ refresh command

A10 Precharge Option @ precharge or read/write command

Command

define basic commands

Activate (ACT) [/RAS =L, /CAS =/WE =H]

ACT command activates a row in an idle bank indicated by BA.

Read (READ) [/RAS =H, /CAS =L, /WE =H]

READ command starts burst read from the active bank indicated by BA. First output data

appears after /CAS latency. When A10 =H at this command, the bank is deactivated after the burst
read (auto-precharge, READA).

Write (WRITE) [/RAS =H, /CAS =/WE =L]

WRITE command starts burst write to the active bank indicated by BA. Total data length to

be written is set by burst length. When A10 =H at this command, the bank is deactivated after the
burst write (auto-precharge, WRITEA).

Precharge (PRE) [/RAS =L, /CAS =H, /WE =L]

PRE command deactivates the active bank indicated by BA. This command also terminates

burst read / write operation. When A10 =H at this command, all banks are deactivated (precharge all,

PREA ).
Auto-Refresh (REFA) [/RAS =/CAS =L, /WE =CKE =H]

REFA command starts auto-refresh cycle. Refresh address including bank address are

generated internally. After this command, the banks are precharged automatically.

6

MITSUBISHI LSIs

SDRAM (Rev. 1.0E)

MITSUBISHI ELECTRIC

M2V28S20TP-6,-7,-8

Jun. '99

M2V28S30TP-6,-7,-7L,-8,-8L

M2V28S40TP-7,-7L,-8,-8L

COMMAND TRUTH TABLE

COMMAND MNEMONIC

Deselect DESEL H X H X X X X X X X

CKE

n-1

CKE

n

128M Synchronous DRAM

(4-BANK x 8,388,608-WORD x 4-BIT)
(4-BANK x 4,194,304-WORD x 8-BIT)
(4-BANK x 2,097,152-WORD x 16-BIT)

/CS /RAS /CAS /WE BA0,1 A11 A10 A0-9

No Operation

Row Address Entry &

Bank Activate

Single Bank Precharge

Precharge All Banks

Column Address Entry

& Write

Column Address Entry &

Write with Auto-Precharge

Column Address Entry

& Read

Column Address Entry &

Read with Auto-Precharge

Auto-Refresh

Self-Refresh Entry

Self-Refresh Exit REFSX

NOP H X L H H H X X X X

ACT

PRE

PREA

WRITE

WRITEA

READ

READA

REFA

REFS

H X L L H H V V V V

H X L L H L V X L X

H X L L H L X H X

H X L H L L V V L V

H X L H L L V V H V

H X L H L H V V L V

H X L H L H V V H V

H H L L L H X X X X

H L L L L H X X X X

L H H X X X X X X X

L H L H H H X X X X

X

Mode Register Set MRS

H=High Level, L=Low Level, V=Valid, X=Don't Care, n=CLK cycle number

NOTE:

1. A7-A9 =0, A0-A6 =Mode Address

H X L L L L L L L V*1

7

MITSUBISHI LSIs

SDRAM (Rev. 1.0E)

MITSUBISHI ELECTRIC

FUNCTION TRUTH TABLE

M2V28S20TP-6,-7,-8

Jun. '99

M2V28S30TP-6,-7,-7L,-8,-8L

M2V28S40TP-7,-7L,-8,-8L

Current State /CS /RAS /CAS /WE Address Command Action

(4-BANK x 8,388,608-WORD x 4-BIT)
(4-BANK x 4,194,304-WORD x 8-BIT)
(4-BANK x 2,097,152-WORD x 16-BIT)

128M Synchronous DRAM

IDLE

ROW ACTIVE

H X X X X DESEL NOP

L H H H X NOP NOP

L H H L BA TBST ILLEGAL*2

L H L X BA, CA, A10

L L H H BA, RA ACT Bank Active, Latch RA

L L H L BA, A10

L L L H X REFA Auto-Refresh*5

L L L L

H X X X X DESEL NOP

L H H H X NOP NOP

L H H L BA TBST NOP

Op-Code,
Mode-Add

READ /
WRITE

PRE /

PREA

MRS Mode Register Set*5

ILLEGAL*2

NOP*4

L H L H BA, CA, A10

L H L L BA, CA, A10

L L H H BA, RA ACT Bank Active / ILLEGAL*2

L L H L BA, A10

L L L H X REFA ILLEGAL

L L L L

Op-Code,
Mode-Add

READ /
READA

WRITE /

WRITEA

PRE /

PREA

MRS ILLEGAL

Begin Read, Latch CA, Determine
Auto-Precharge
Begin Write, Latch CA, Determine
Auto-Precharge

Precharge / Precharge All

8

MITSUBISHI LSIs

SDRAM (Rev. 1.0E)

MITSUBISHI ELECTRIC

FUNCTION TRUTH TABLE (continued)

M2V28S20TP-6,-7,-8

Jun. '99

M2V28S30TP-6,-7,-7L,-8,-8L

M2V28S40TP-7,-7L,-8,-8L

Current State /CS /RAS /CAS /WE Address Command Action

(4-BANK x 8,388,608-WORD x 4-BIT)
(4-BANK x 4,194,304-WORD x 8-BIT)
(4-BANK x 2,097,152-WORD x 16-BIT)

128M Synchronous DRAM

READ

WRITE

H X X X X DESEL NOP (Continue Burst to END)

L H H H X NOP NOP (Continue Burst to END)

L H H L BA TBST Terminate Burst

L H L H BA, CA, A10

L H L L BA, CA, A10

L L H H BA, RA ACT Bank Active / ILLEGAL*2

L L H L BA, A10

L L L H X REFA ILLEGAL

L L L L

H X X X X DESEL

L H H H X NOP NOP (Continue Burst to END)

Op-Code,
Mode-Add

READ

/READA
WRITE /

WRITEA

PRE /

PREA

MRS ILLEGAL

Terminate Burst, Latch CA, Begin New
Read, Determine Auto-Precharge*3

Terminate Burst, Latch CA, Begin
Write, Determine Auto-Precharge*3

Terminate Burst, Precharge

NOP (Continue Burst to END)

L H H L BA TBST Terminate Burst

L H L H BA, CA, A10

L H L L BA, CA, A10

L L H H BA, RA ACT Bank Active / ILLEGAL*2

L L H L BA, A10

L L L H X REFA ILLEGAL

L L L L MRS ILLEGAL

Op-Code,
Mode-Add

READ /

READA
WRITE /
WRITEA

PRE /

PREA

Terminate Burst, Latch CA, Begin
Read, Determine Auto-Precharge*3
Terminate Burst, Latch CA,Begin
Write, Determine Auto-Precharge*3

Terminate Burst, Precharge

9

MITSUBISHI LSIs

SDRAM (Rev. 1.0E)

MITSUBISHI ELECTRIC

FUNCTION TRUTH TABLE (continued)

M2V28S20TP-6,-7,-8

Jun. '99

M2V28S30TP-6,-7,-7L,-8,-8L

M2V28S40TP-7,-7L,-8,-8L

Current State /CS /RAS /CAS /WE Address Command Action

(4-BANK x 8,388,608-WORD x 4-BIT)
(4-BANK x 4,194,304-WORD x 8-BIT)
(4-BANK x 2,097,152-WORD x 16-BIT)

128M Synchronous DRAM

READ with

AUTO

PRECHARGE

WRITE with

AUTO

PRECHARGE

H X X X X DESEL NOP (Continue Burst to END)

L H H H X NOP NOP (Continue Burst to END)

L H H L BA TBST ILLEGAL

L H L H BA, CA, A10

L H L L BA, CA, A10

L L H H BA, RA ACT Bank Active / ILLEGAL*2

L L H L BA, A10

L L L H X REFA ILLEGAL

L L L L

H X X X X DESEL NOP (Continue Burst to END)

L H H H X NOP NOP (Continue Burst to END)

Op-Code,
Mode-Add

READ /

READA

WRITE /

WRITEA

PRE /

PREA

MRS ILLEGAL

ILLEGAL

ILLEGAL

ILLEGAL*2

L H H L BA TBST ILLEGAL

L H L H BA, CA, A10

L H L L BA, CA, A10

L L H H BA, RA ACT Bank Active / ILLEGAL*2

L L H L BA, A10

L L L H X REFA ILLEGAL

L L L L

Op-Code,
Mode-Add

READ /

READA

WRITE /

WRITEA

PRE /

PREA

MRS ILLEGAL

ILLEGAL

ILLEGAL

ILLEGAL*2

10

MITSUBISHI LSIs

SDRAM (Rev. 1.0E)

MITSUBISHI ELECTRIC

FUNCTION TRUTH TABLE (continued)

M2V28S20TP-6,-7,-8

Jun. '99

M2V28S30TP-6,-7,-7L,-8,-8L

M2V28S40TP-7,-7L,-8,-8L

Current State /CS /RAS /CAS /WE Address Command Action

(4-BANK x 8,388,608-WORD x 4-BIT)
(4-BANK x 4,194,304-WORD x 8-BIT)
(4-BANK x 2,097,152-WORD x 16-BIT)

128M Synchronous DRAM

PRE -

CHARGING

ROW

ACTIVATING

H X X X X DESEL NOP (Idle after tRP)

L H H H X NOP NOP (Idle after tRP)

L H H L BA TBST ILLEGAL*2

L H L X BA, CA, A10

L L H H BA, RA ACT ILLEGAL*2

L L H L BA, A10

L L L H X REFA ILLEGAL

L L L L

H X X X X DESEL NOP (Row Active after tRCD)

L H H H X NOP NOP (Row Active after tRCD)

L H H L BA TBST ILLEGAL*2

Op-Code,
Mode-Add

READ /
WRITE

PRE /

PREA

MRS ILLEGAL

ILLEGAL*2

NOP*4 (Idle after tRP)

L H L X BA, CA, A10

L L H H BA, RA ACT ILLEGAL*2

L L H L BA, A10

L L L H X REFA ILLEGAL

Op-Code,

L L L L

Mode-Add

READ /

WRITE

PRE /
PREA

MRS ILLEGAL

ILLEGAL*2

ILLEGAL*2

11

MITSUBISHI LSIs

SDRAM (Rev. 1.0E)

MITSUBISHI ELECTRIC

FUNCTION TRUTH TABLE (continued)

M2V28S20TP-6,-7,-8

Jun. '99

M2V28S30TP-6,-7,-7L,-8,-8L

M2V28S40TP-7,-7L,-8,-8L

Current State /CS /RAS /CAS /WE Address Command Action

(4-BANK x 8,388,608-WORD x 4-BIT)
(4-BANK x 4,194,304-WORD x 8-BIT)
(4-BANK x 2,097,152-WORD x 16-BIT)

128M Synchronous DRAM

WRITE

RECOVERING

REFRESHING H X X X X DESEL NOP (Idle after tRC)

H X X X

L H H H

L H H L

L H L X

L L H H

L L H L

L L L H X REFA ILLEGAL

L L L L

L H H H X NOP NOP (Idle after tRC)

L H H L BA TBST ILLEGAL

X

X NOP NOP

BA TBST

BA, CA, A10

BA, RA ACT

BA, A10

Op-Code,
Mode-Add

DESEL

READ /
WRITE

PRE /
PREA

MRS

NOP

ILLEGAL*2

ILLEGAL*2

ILLEGAL*2

ILLEGAL*2

ILLEGAL

L H L X BA, CA, A10

L L H H BA, RA ACT ILLEGAL

L L H L BA, A10

L L L H X REFA ILLEGAL

L L L L

Op-Code,
Mode-Add

READ /
WRITE

PRE /
PREA

MRS ILLEGAL

ILLEGAL

ILLEGAL

12

MITSUBISHI LSIs

SDRAM (Rev. 1.0E)

MITSUBISHI ELECTRIC

FUNCTION TRUTH TABLE (continued)

M2V28S20TP-6,-7,-8

Jun. '99

M2V28S30TP-6,-7,-7L,-8,-8L

M2V28S40TP-7,-7L,-8,-8L

Current State /CS /RAS /CAS /WE Address Command Action

(4-BANK x 8,388,608-WORD x 4-BIT)
(4-BANK x 4,194,304-WORD x 8-BIT)
(4-BANK x 2,097,152-WORD x 16-BIT)

128M Synchronous DRAM

MODE

REGISTER

SETTING

ABBREVIATIONS:
H=High Level, L=Low Level, X=Don't Care
BA=Bank Address, RA=Row Address, CA=Column Address, NOP=No OPeration

NOTES:

1. All entries assume that CKE was High during the preceding clock cycle and the current clock cycle.

2. ILLEGAL to bank in specified state; function may be legal in the bank indicated by BA, depending on
the state of that bank.

3. Must satisfy bus contention, bus turn around, write recovery requirements.

4. NOP to bank precharging or in idle state. May precharge bank indicated by BA.

5. ILLEGAL if any bank is not idle.

H X X X X DESEL NOP (Idle after tRSC)

L H H H X NOP NOP (Idle after tRSC)

L H H L BA TBST ILLEGAL

L H L X BA, CA, A10

L L H H BA, RA ACT ILLEGAL

L L H L BA, A10

L L L H X REFA ILLEGAL

L L L L

Op-Code,
Mode-Add

READ /
WRITE

PRE /
PREA

MRS ILLEGAL

ILLEGAL

ILLEGAL

ILLEGAL = Device operation and/or data-integrity are not guaranteed.

13

MITSUBISHI LSIs

SDRAM (Rev. 1.0E)

MITSUBISHI ELECTRIC

FUNCTION TRUTH TABLE for CKE

Jun. '99

M2V28S20TP-6,-7,-8
M2V28S30TP-6,-7,-7L,-8,-8L

M2V28S40TP-7,-7L,-8,-8L

128M Synchronous DRAM

(4-BANK x 8,388,608-WORD x 4-BIT)
(4-BANK x 4,194,304-WORD x 8-BIT)
(4-BANK x 2,097,152-WORD x 16-BIT)

Current State

SELF-

REFRESH*1

POWER

DOWN

ALL BANKS

IDLE*2

CKE

CKE

n-1

H X X X X X X INVALID
L H H X X X X Exit Self-Refresh (Idle after tRC)
L H L H H H X Exit Self-Refresh (Idle after tRC)
L H L H H L X ILLEGAL
L H L H L X X ILLEGAL
L H L L X X X ILLEGAL
L L X X X X X NOP (Maintain Self-Refresh)
H X X X X X X INVALID
L H X X X X X Exit Power Down to Idle
L L X X X X X NOP (Maintain Power Down)
H H X X X X X Refer to Function Truth Table
H L L L L H X Enter Self-Refresh
H L H X X X X Enter Power Down
H L L H H H X Enter Power Down

/CS /RAS /CAS /WE Add Action

n

H L L H H L X ILLEGAL
H L L H L X X ILLEGAL
H L L L X X X ILLEGAL
L X X X X X X Refer to Current State =Power Down

ANY STATE

other than

listed above

ABBREVIATIONS:
H=High Level, L=Low Level, X=Don't Care

NOTES:

1. CKE Low to High transition will re-enable CLK and other inputs asynchronously. A minimum
setup time must be satisfied before any command other than EXIT.

2. Power-Down and Self-Refresh can be entered only from the All Banks Idle State.

3. Must be legal command.

H H X X X X X Refer to Function Truth Table
H L X X X X X Begin CLK Suspend at Next Cycle*3
L H X X X X X Exit CLK Suspend at Next Cycle*3
L L X X X X X Maintain CLK Suspend

14

MITSUBISHI LSIs

SDRAM (Rev. 1.0E)

MITSUBISHI ELECTRIC

SIMPLIFIED STATE DIAGRAM

Jun. '99

M2V28S20TP-6,-7,-8
M2V28S30TP-6,-7,-7L,-8,-8L

M2V28S40TP-7,-7L,-8,-8L

REFS

REFSX

128M Synchronous DRAM

(4-BANK x 8,388,608-WORD x 4-BIT)
(4-BANK x 4,194,304-WORD x 8-BIT)
(4-BANK x 2,097,152-WORD x 16-BIT)

SELF

REFRESH

WRITE

SUSPEND

MODE

REGISTER

SET

CLK

SUSPEND

CKEL

WRITE READ

CKEH

MRS

CKEH

WRITE

CKEL

ACTIVE

WRITEA

WRITE

IDLE

ACT

ROW

READ

CKEH

READA

REFA

CKEL

READ

AUTO

REFRESH

POWER

DOWN

CKEH

CKEL

READ

SUSPEND

READA

READA

CKEL

CKEH

READA

SUSPEND

WRITEA

SUSPEND

POWER
APPLIED

WRITEA

CKEL

CKEH

POWER

ON

WRITEA

PRE

WRITEA READA

PRE

PRE PRE

PRE

CHARGE

Automatic Sequence
Command Sequence

15

MITSUBISHI LSIs

128M Synchronous DRAM

MITSUBISHI ELECTRIC

SDRAM (Rev. 1.0E)

Jun. '99

M2V28S20TP-6,-7,-8
M2V28S30TP-6,-7,-7L,-8,-8L

M2V28S40TP-7,-7L,-8,-8L

(4-BANK x 8,388,608-WORD x 4-BIT)
(4-BANK x 4,194,304-WORD x 8-BIT)
(4-BANK x 2,097,152-WORD x 16-BIT)

POWER ON SEQUENCE

Before starting normal operation, the following power on sequence is necessary to prevent a

SDRAM from damaged or malfunctioning.

1. Apply power and start clock. Attempt to maintain CKE high, DQM high and NOP condition at
the inputs.

2. Maintain stable power, stable clock, and NOP input conditions for a minimum of 200µs.

3. Issue precharge commands for all banks. (PRE or PREA)

4. After all banks become idle state (after tRP), issue 8 or more auto-refresh commands.

5. Issue a mode register set command to initialize the mode register.

After these sequence, the SDRAM is idle state and ready for normal operation.

MODE REGISTER

Burst Length, Burst Type and /CAS Latency can be
programmed by setting the mode register (MRS). The mode
register stores these data until the next MRS command, which
may be issued when all banks are in idle state. After tRSC
from a MRS command, the SDRAM is ready for new
command.

A11 A10 A9 A8 A7 A6 A5 A4 A3 A2 A1 A0BA1BA0

0 0 0 0 0 LTMODE BT BL00

LATENCY

MODE

CL

0 0 0
0 0 1

0 1 0
0 1 1
1 0 0
1 0 1
1 1 0
1 1 1

/CAS LATENCY

R
R

2
3
R
R
R
R

BURST

LENGTH

BURST

TYPE

CLK
/CS
/RAS
/CAS
/WE

BA0,1 A11-A0

BL

0 0 0
0 0 1
0 1 0
0 1 1
1 0 0

1 0 1
1 1 0
1 1 1

0

SEQUENTIAL

1

INTERLEAVED

V

BT= 0 BT= 1

1
2
4
8
R

R
R

FP

1
2
4
8
R

R
R
R

R: Reserved for Future Use

16