70T3599S200BC Datasheet 70T3519S133BFGI, 70T3519S166BCI, 70T3519S133BCI | P10-P12

6.42

IDT70T3519/99/89S

High-Speed 2.5V 256/128/64K x 36 Dual-Port Synchronous Static RAM Industrial and Commercial Temperature Ranges

10

DC Electrical Characteristics Over the Operating

Temperature and Supply Voltage Range

(3)

(VDD = 2.5V ± 100mV)

NOTES:

1. At f = f

MAX, address and control lines (except Output Enable) are cycling at the maximum frequency clock cycle of 1/tCYC, using "AC TEST CONDITIONS".

2. f = 0 means no address, clock, or control lines change. Applies only to input at CMOS level standby.

3. Port "A" may be either left or right port. Port "B" is the opposite from port "A".

4. V

DD = 2.5V, TA = 25°C for Typ, and are not production tested. IDD DC(f=0) = 15mA (Typ).

5. CE

X = VIL means CE0X = VIL and CE1X = VIH

CEX = VIH means CE0X = VIH or CE1X = VIL

CEX < 0.2V means CE0X < 0.2V and CE1X > VDDQ - 0.2V

CE

X > VDDQ - 0.2V means CE0X > VDDQ - 0.2V or CE1X - 0.2V

"X" represents "L" for left port or "R" for right port.

6. I

SB1, ISB2 and ISB4 will all reach full standby levels (ISB3) on the appropriate port(s) if ZZL and/or ZZR = VIH.

7. 166MHz I-Temp is not available in the BF208 package.

8. 200Mhz is not available in the BF208 and DR208 packages.

70T3519/99/89

S200

Com'l Only

(8)

70T3519/99/89

S166

Com'l

& Ind

(7)

70T3519/99/89

S133

Com'l

& Ind

Symbol Parameter Test Condition Version

Typ.

(4)

Max. Typ.

(4)

Max. Typ.

(4)

Max. Unit

I

DD

Dynamic Operating

Current (Both

Ports Active)

CE

L and CER= V

IL

,

Outputs Disabled,

f = f

MAX

(1)

COM'L S 375 525 320 450 260 370

mA

IND S

___ ___

320 510 260 450

I

SB1

(6)

Standby Current

(Both Ports - TTL

Level Inputs)

CE

L

= CE

R

= V

IH

f = f

MAX

(1)

COM'L S 205 270 175 230 140 190

mA

IND S

___ ___

175 275 140 235

I

SB2

(6)

Standby Current

(One Port - TTL

Level Inputs)

CE

"A"

= V

IL

and CE

"B"

= V

IH

(5)

Active Port Outputs Disabled,

f=f

MAX

(1)

COM'L S 300 375 250 325 200 250

mA

IND S

___ ___

250 365 200 310

I

SB3

Full Standby Current

(Both Ports - CMOS

Level Inputs)

Both Ports CE

L

and

CE

R

> V

DDQ

- 0.2V, V

IN

> V

DDQ

- 0.2V

or V

IN

< 0.2V, f = 0

(2)

COM'L S 5 15 5 15 5 15

mA

IND S

___ ___

520520

I

SB4

(6)

Full Standby Current

(One Port - CMOS

Level Inputs)

CE

"A"

< 0.2V and CE

"B"

> V

DDQ

- 0.2V

(5)

V

IN

> V

DDQ

- 0.2V or V

IN

< 0.2V

Active Port, Outputs Disabled, f = f

MAX

(1)

COM'L S 300 375 250 325 200 250

mA

IND S

___ ___

250 365 200 310

Izz Sleep Mode Current

(Both Ports - TTL

Level Inputs)

ZZ

L =

ZZ

R =

V

IH

f=f

MAX

(1)

COM'L S 5 15 5 15 5 15

mA

IND S

___ ___

520520

5666 tbl 09

6.42

IDT70T3519/99/89S

High-Speed 2.5V 256/128/64K x 36 Dual-Port Synchronous Static RAM Industrial and Commercial Temperature Ranges

11

AC Test Conditions (VDDQ - 3.3V/2.5V)

Figure 1. AC Output Test load.

Input Pulse Levels (Address & Controls)

Input Pulse Levels (I/Os)

Input Rise/Fall Times

Input Timing Reference Levels

Output Refere nce Levels

Output Load

GND to 3

.

0V/GND to 2.4V

GND to 3.0V/GND to 2.4V

2ns

1.5V/1.25V

Figure 1

5666 tbl 10

1.5V/1.25

50Ω

5666 drw 03

10pF

(Tester)

DATA

OUT

,

Δ

Capacitance (pF) from AC Test Load

5666 drw 04

Δ

tCD

(Typical, ns)

6.42

IDT70T3519/99/89S

High-Speed 2.5V 256/128/64K x 36 Dual-Port Synchronous Static RAM Industrial and Commercial Temperature Ranges

12

AC Electrical Characteristics Over the Operating Temperature Range

(Read and Write Cycle Timing)

(2,3)

(VDD = 2.5V ± 100mV, TA = 0°C to +70°C)

NOTES:

1. The Pipelined output parameters (t

CYC2, tCD2) apply to either or both left and right ports when PL/FTX = VDD (2.5V). Flow-through parameters (tCYC1, tCD1) apply

when PL/FT = V

ss (0V) for that port.

2. All input signals are synchronous with respect to the clock except for the asynchronous Output Enable (OE), PL/FT and OPT. PL/FT and OPT should be

treated as DC signals, i.e. steady state during operation.

3. These values are valid for either level of V

DDQ (3.3V/2.5V). See page 6 for details on selecting the desired operating voltage levels for each port.

4. 166MHz I-Temp is not available in the BF208 package.

5. 200Mhz is not available in the BF208 and DR208 packages.

6. Guaranteed by design (not production tested).

70T3519/99/89

S200

Com'l Only

(5)

70T3519/99/89

S166

Com'l

& Ind

(4)

70T3519/99/89

S133

Com'l

& Ind

Symbol Parameter Min.Max.Min.Max.Min.Max.Unit

t

CYC1

Clock Cycle Time (Flow-Through)

(1)

15

____

20

____

25

____

ns

t

CYC2

Clock Cycle Time (Pipelined)

(1)

5

____

6

____

7.5

____

ns

t

CH1

Clock High Time (Flow-Through)

(1)

6

____

8

____

10

____

ns

t

CL1

Clock Low Time (Flow-Through)

(1)

6

____

8

____

10

____

ns

t

CH2

Clock High Time (Pipelined)

(2)

2

____

2.4

____

3

____

ns

t

CL2

Clock Low Time (Pipelined)

(1)

2

____

2.4

____

3

____

ns

t

SA

Address Setup Time 1.5

____

1.7

____

1.8

____

ns

t

HA

Address Hold Time 0.5

____

0.5

____

0.5

____

ns

t

SC

Chip Enable Setup Time 1.5

____

1.7

____

1.8

____

ns

t

HC

Chip Enable Hold Time 0.5

____

0.5

____

0.5

____

ns

t

SB

Byte Enable Setup Time 1.5

____

1.7

____

1.8

____

ns

t

HB

Byte Enable Hold Time 0.5

____

0.5

____

0.5

____

ns

t

SW

R/W Setup Time 1.5

____

1.7

____

1.8

____

ns

t

HW

R/W Hold Time 0.5

____

0.5

____

0.5

____

ns

t

SD

Input Data Setup Time 1.5

____

1.7

____

1.8

____

ns

t

HD

Input Data Hold Time 0.5

____

0.5

____

0.5

____

ns

t

SAD

ADS Setup Time

1.5

____

1.7

____

1.8

____

ns

t

HAD

ADS Hold Time

0.5

____

0.5

____

0.5

____

ns

t

SCN

CNTEN Setup Time

1.5

____

1.7

____

1.8

____

ns

t

HCN

CNTEN Hold Time

0.5

____

0.5

____

0.5

____

ns

t

SRPT

REPEAT Setup Time

1.5

____

1.7

____

1.8

____

ns

t

HRPT

REPEAT Hold Time

0.5

____

0.5

____

0.5

____

ns

t

OE

Output Enable to Data Valid

____

4.4

____

4.4

____

4.6 ns

t

OLZ

(6)

Output Enable to Output Low-Z 1

____

1

____

1

____

ns

t

OHZ

(6)

Output Enable to Output High-Z 1 3.4 1 3.6 1 4.2 ns

t

CD1

Clock to Data Valid (Flow-Through)

(1)

____

10

____

12

____

15 ns

t

CD2

Clock to Data Valid (Pipelined)

(1)

____

3.4

____

3.6

____

4.2 ns

t

DC

Data Output Hold After Clock High 1

____

1

____

1

____

ns

t

CKHZ

(6)

Clock High to Output High-Z 1 3.4 1 3.6 1 4.2 ns

t

CKLZ

(6)

Clock High to Output Low-Z 1

____

1

____

1

____

ns

t

INS

Interrupt Flag Set Time

____

7

____

7

____

7ns

t

INR

Interrupt Flag Reset Time

____

7

____

7

____

7ns

t

COLS

Collision Flag Set Time

____

3.4

____

3.6

____

4.2 ns

t

COLR

Collision Flag Reset Time

____

3.4

____

3.6

____

4.2 ns

t

ZZSC

Sleep Mode Set Cycles 2

____

2

____

2

____

cycles

t

ZZRC

Sleep Mode Recovery Cycles 3

____

3

____

3

____

cycles

Port-to-Port Delay

t

CO

Clock-to-Clock Offset 4

____

5

____

6

____

ns

t

OFS

Clock-to-Clock Offset for Collision Detection Please refer to Collision Detection Timing Table on Page 21

5666 tbl 11

70T3599S200BC

70T3599S200BC

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