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HIGH-SPEED 2.5V

1024K x 36

IDT70T3509M

SYNCHRONOUS

DUAL-PORT STATIC RAM

WITH 3.3V OR 2.5V INTERFACE

Features:

◆

True Dual-Port memory cells which allow simultaneous

access of the same memory location

High-speed data access

– Commercial: 4.2ns (133MHz)(max.)

– Industrial: 4.2ns (133MHz)(max.)

Selectable Pipelined or Flow-Through output mode

Counter enable and repeat features

Interrupt Flags

Full synchronous operation on both ports

– 7.5ns cycle time, 133MHz operation (9.5Gbps bandwidth)

– 1.5ns setup to clock and 0.5ns hold on all control, data, and

address inputs @ 133MHz

– Fast 4.2ns clock to data out

◆

– Data input, address, byte enable and control registers

– Self-timed write allows fast cycle time

Separate byte controls for multiplexed bus and bus

matching compatibility

Dual Cycle Deselect (DCD) for Pipelined Output Mode

2.5V (±100mV) power supply for core

LVTTL compatible, selectable 3.3V (±150mV) or 2.5V

(±100mV) power supply for I/Os and control signals on

each port

Includes JTAG functionality

Available in a 256-pin Ball Grid Array (BGA)

Common BGA footprint provides design flexibility over

seven density generations (512K to 36M-bit)

Green parts available, see ordering information

Functional Block Diagram

FT/PIPE

1/0

0a 1a

0b 1b

0c 1c

0d 1d

1d 0d

1c 0c

1b 0b

1a 0a

1/0

FT/PIPE

R/W

(2)

1/0

B B B

WW W

2 3 3

L L R

B B

1 0

R R

1/0

Dout0-8_L

Dout9-17_L

Dout18-26_L

Dout27-35_L

Dout0-8_R

Dout9-17_R

Dout18-26_R

Dout27-35_R

1d 0d 1c 0c 1b 0b 1a 0a

0a 1a 0b 1b 0c 1c 0d 1d

0/1

FT/PIPE

0/1

a b cd

dcba

1024K x 36

MEMORY

ARRAY

I/O

- I/O

35L

Din_L

Din_R

I/O

- I/O

35R

CLK

19L

REPEAT

ADS

CNTEN

19R

CLK

Counter/

Address

Reg.

ADDR_L

ADDR_R

Counter/

Address

Reg.

REPEAT

ADS

CNTEN

TDI

TCK

TMS

TRST

0 L

CE1L

INTERRUPT

LOGIC

0 R

CE1R

JTAG

TDO

INT

(1)

INT

CONTROL

LOGIC

(1)

5682 drw 01

NOTE:

1. The sleep mode pin shuts off all dynamic inputs, except JTAG inputs, when asserted. All static inputs, i.e., PL/FTx and OPTx

and the sleep mode pins themselves (ZZx) are not affected during sleep mode.

2. See Truth Table I for Functionality.

AUGUST 2007

DSC 5682/7

IDT70T3509M

High-Speed 2.5V

1024K x 36 Dual-Port Synchronous Static RAM

Commercial Temperature Range

Description:

The IDT70T3509M is a high-speed 1024K x 36 bit synchronous

Dual-Port RAM. The memory array utilizes Dual-Port memory cells to

allow simultaneous access of any address from both ports. Registers on

control, data, and address inputs provide minimal setup and hold times.

The timing latitude provided by this approach allows systems to be

designed with very short cycle times. With an input data register, the

IDT70T3509M has been optimized for applications having unidirectional

or bidirectional data flow in bursts. An automatic power down feature,

controlled by

and CE

permits the on-chip circuitry of each port to

enter a very low standby power mode.

The 70T3509M can support an operating voltage of either 3.3V or

2.5V on one or both ports, controllable by the OPT pins. The power supply

for the core of the device (V

) is at 2.5V.

6.42

IDT70T3509M

High-Speed 2.5V

1024K x 36 Dual-Port Synchronous Static RAM

Commercial Temperature Range

Pin Configuration

(1,2,3,4)

70T3509M BP

BP-256

(5,7)

256-Pin BGA

Top View

(6)

A10

A11

A12

A13

A14

A15

A16

08/03/04

TDI

19L

17L

14L

11L

CNTEN

B10

B11

B12

B13

B14

B15

B16

I/O

18L

TDO

18L

15L

12L

R/W

REPEAT

C10

C11

C12

C13

C14

I/O

17L

C15

C16

I/O

18R

I/O

19L

16L

13L

10L

CLK

ADS

D10

D11

D12

D13

OPT

I/O

17R

I/O

16L

D14

D15

D16

I/O

20R

I/O

19R

I/O

20L

PIPE/

DDQL

DDQR

DDQL

DDQR

I/O

15R

I/O

15L

I/O

16R

E10

E11

E12

E13

E14

E15

E16

I/O

21R

I/O

21L

I/O

22L

DDQL

INT

F10

F11

DDQR

I/O

13L

I/O

14L

I/O

14R

F12

F13

F14

F15

F16

I/O

23L

I/O

22R

I/O

23R

DDQL

G10

G11

DDQR

I/O

12R

I/O

13R

I/O

12L

G12

G13

G14

G15

G16

I/O

24R

I/O

24L

I/O

25L

DDQR

H10

H11

H12

DDQL

I/O

10L

I/O

11L

I/O

11R

H13

H14

H15

H16

I/O

26L

I/O

25R

I/O

26R

DDQR

J10

J11

J12

DDQL

I/O

J13

J14

I/O

10R

J15

J16

I/O

27L

I/O

28R

I/O

27R

DDQL

K10

K11

K12

DDQR

I/O

K13

K14

K15

I/O

K16

I/O

29R

I/O

29L

I/O

28L

DDQL

L10

L11

L12

DDQR

I/O

L13

L14

L15

L16

I/O

30L

I/O

31R

I/O

30R

DDQR

M10

M11

M12

DDQL

I/O

M13

M14

I/O

M15

M16

I/O

32R

I/O

32L

I/O

31L

DDQR

INT

N10

N11

N12

DDQL

I/O

N13

N14

I/O

N15

N16

I/O

33L

I/O

34R

I/O

33R

P IP E /

DDQR

DDQL

DDQR

DDQL

P10

P11

P12

P13

I/O

P14

I/O

P15

P16

I/O

35R

I/O

34L

TMS

16R

13R

10R

CLK

ADS

R10

R11

R12

R13

I/O

R14

R15

I/O

R16

I/O

35L

TRST

18R

15R

12R

R/W

REPEAT

T10

T11

T12

T13

OPT

T14

T15

T16

TCK

19R

17R

14R

11R

CNTEN

5682 drw 02d

NOTES:

1. All V

pins must be connected to 2.5V power supply.

2. All V

DDQ

pins must be connected to appropriate power supply: 3.3V if OPT pin for that port is set to V

(2.5V), and 2.5V if OPT pin for that port is

set to V

(0V).

3. All V

pins must be connected to ground supply.

4. Package body is approximately 17mm x 17mm x 1.76mm, with 1.0mm ball-pitch.

5. This package code is used to reference the package diagram.

6. This text does not indicate orientation of the actual part-marking.

7. BP-256 package thickness is 1.76mm nominal. This is thicker than the BC-256 package (1.40mm nominal) used for the lower density IDT dual-port products.

6.42

IDT70T3509M

High-Speed 2.5V

1024K x 36 Dual-Port Synchronous Static RAM

Commercial Temperature Range

Pin Names

Left Port

R/W

- A

19L

I/O

- I/O

35L

CLK

PL/FT

ADS

CNTEN

REPEAT

DDQL

OPT

TDI

TDO

TCK

TMS

TRST

INT

Right Port

R/W

- A

19R

I/O

- I/O

35R

CLK

PL/FT

ADS

CNTEN

REPEAT

DDQR

OPT

Names

Chip Enables (Input)

(5)

Read/Write Enable (Input)

Output Enable (Input)

Address (Input)

Data Input/Output

Clock (Input)

Pipeline/Flow-Through (Input)

Address Strobe Enable (Input)

Counter Enable (Input)

Counter Repeat

(3)

(Input)

Byte Enables (9-bit bytes) (Input)

(5)

Power (I/O Bus) (3.3V or 2.5V)

(1)

(Input)

Option for selecting V

DDQX

(1,2)

(Input)

Sleep Mode pin

(4)

(Input)

Power (2.5V)

(1)

(Input)

Ground (0V) (Input)

Test Data Input

Test Data Output

Test Logic Clock (10MHz) (Input)

Test Mode Select (Input)

Reset (Initialize TAP Controller) (Input)

Interrupt Flag (Output)

5682 tbl 01

NOTES:

1. V

, OPT

, and V

DDQX

must be set to appropriate operating levels prior to

applying inputs on the I/Os and controls for that port.

2. OPT

selects the operating voltage levels for the I/Os and controls on that port.

If OPT

is set to V

(2.5V), then that port's I/Os and controls will operate at 3.3V

levels and V

DDQX

must be supplied at 3.3V. If OPT

is set to V

(0V), then that

port's I/Os and address controls will operate at 2.5V levels and V

DDQX

must be

supplied at 2.5V. The OPT pins are independent of one another—both ports can

operate at 3.3V levels, both can operate at 2.5V levels, or either can operate

at 3.3V with the other at 2.5V.

3. When

REPEAT

is asserted, the counter will reset to the last valid address loaded

via

ADS

4. The sleep mode pin shuts off all dynamic inputs, except JTAG inputs, when

asserted. All static inputs, i.e., PL/FTx and OPTx and the sleep mode pins

themselves (ZZx) are not affected during sleep mode. It is recommended that

boundary scan not be operated during sleep mode.

5. Chip Enables and Byte Enables are double buffered when PL/FT = V

, i.e., the

signals take two cycles to deselect.

6.42

IDT70T3509M

High-Speed 2.5V

1024K x 36 Dual-Port Synchronous Static RAM

Commercial Temperature Range

Truth Table I—Read/Write and Enable Control

CLK

↑

R/W

Byte 3

I/O

27-35

High-Z

Active

High-Z

OUT

High-Z

OUT

High-Z

Byte 2

I/O

18-26

High-Z

Active

High-Z

OUT

High-Z

OUT

High-Z

(1,2,3,4)

Byte 1

I/O

9-17

High-Z

Active

High-Z

OUT

High-Z

OUT

High-Z

OUT

High-Z

Byte 0

I/O

0-8

High-Z

Active

High-Z

OUT

High-Z

OUT

High-Z

OUT

High-Z

MODE

Deselected–Power Down

Not Allowed

All Bytes Deselected

Write to Byte 0 Only

Write to Byte 1 Only

Write to Byte 2 Only

Write to Byte 3 Only

Write to Lower 2 Bytes Only

Write to Upper 2 bytes Only

Write to All Bytes

Read Byte 0 Only

Read Byte 1 Only

Read Byte 2 Only

Read Byte 3 Only

Read Lower 2 Bytes Only

Read Upper 2 Bytes Only

Read All Bytes

Outputs Disabled

Sleep Mode

5682 tbl 02

NOTES:

1. "H" = V

IH,

"L" = V

IL,

"X" = Don't Care.

ADS, CNTEN, REPEAT

= V

and ZZ are asynchronous input signals.

4. It is possible to read or write any combination of bytes during a given access. A few representative samples have been illustrated here.

Truth Table II—Address Counter Control

Address

Internal

Address

An + 1

Internal

Address

Used

An + 1

CLK

↑

ADS

(4)

CNTEN

(5)

REPEAT

(6)

(4)

I/O

(3)

I/O

(n)

I/O

(n+1)

I/O

(n+1)

I/O

(n)

(1,2)

MODE

External Address Used

Counter Enabled—Internal Address generation

(7)

External Address Blocked—Counter disabled (An + 1 reused)

Counter Set to last valid

ADS

load

5682 tbl 03

NOTES:

1. "H" = V

IH,

"L" = V

IL,

"X" = Don't Care.

2. Read and write operations are controlled by the appropriate setting of R/W,

, CE

BEn

and

OE.

3. Outputs configured in flow-through output mode: if outputs are in pipelined mode the data out will be delayed by one cycle.

ADS

and

REPEAT

are independent of all other memory control signals including

, CE

and

BEn

5. The address counter advances if

CNTEN

= V

on the rising edge of CLK, regardless of all other memory control signals including

, CE

BEn.

6. When

REPEAT

is asserted, the counter will reset to the last valid address loaded via

ADS.

This value is not set at power-up: a known location should be loaded

via

ADS

during initialization if desired. Any subsequent

ADS

access during operations will update the

REPEAT

address location.

7. Address A

must be managed as part of a full depth counter implementation using the IDT70T3509M. For physical addresses 00000

through 7FFFF

the value

of a A

is 0, while for physical addresses 80000

through FFFFF

the value of A

is 1. The user needs to keep track of the device counter and make sure that

is actively driven from 0-to-1 or 1-to-0 and held as needed at the appropriate address boundaries for full depth counter operation and that A

is in the appropriate

state when using the

REPEAT

function.

6.42

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