70T3509MS133BPGI Datasheet 70T3509MS133BPG, 70T3509MS133BPGI, 70T3509MS133BPI | P10-P12

6.42

IDT70T3509M

High-Speed 2.5V 1024K x 36 Dual-Port Synchronous Static RAM Commercial Temperature Range

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 FT/PIPEX = VDD (2.5V). Flow-through parameters (tCYC1, tCD1)

apply when FT/PIPE = V

ss (0V) for that port.

2. All input signals are synchronous with respect to the clock except for the asynchronous Output Enable (OE), FT/PIPE and OPT. FT/PIPE 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. Guaranteed by design (not production tested).

70T3509MS133

Com'l

& Ind

Symbol Parameter Min. Max. Unit

CYC1

Clock Cycle Time (Flow-Through)

(1)

____

CYC2

Clock Cycle Time (Pipelined)

(1)

7.5

____

CH1

Clock High Time (Flow-Through)

(1)

____

CL1

Clock Low Time (Flow-Through)

(1)

____

CH2

Clock High Time (Pipelined)

(2)

____

CL2

Clock Low Time (Pipelined)

(1)

____

Address Setup Time 1.8

____

Address Hold Time 0.5

____

Chip Enable Setup Time 1.8

____

Chip Enable Hold Time 0.5

____

Byte Enable Setup Time 1.8

____

Byte Enable Hold Time 0.5

____

R/W Setup Time 1.8

____

R/W Hold Time 0.5

____

Input Data Setup Time 1.8

____

Input Data Hold Time 0.5

____

SAD

ADS Setup Time

1.8

____

HAD

ADS Hold Time

0.5

____

SCN

CNTEN Setup Time

1.8

____

HCN

CNTEN Hold Time

0.5

____

SRPT

REPEAT Setup Time

1.8

____

HRPT

REPEAT Hold Time

0.5

____

Output Enable to Data Valid

____

4.6 ns

OLZ

(4)

Output Enable to Output Low-Z 1

____

OHZ

(4)

Output Enable to Output High-Z 1 4.2 ns

CD1

Clock to Data Valid (Flow-Through)

(1)

____

15 ns

CD2

Clock to Data Valid (Pipelined)

(1)

____

4.2 ns

Data Output Hold After Clock High 1

____

CKHZ

(4)

Clock High to Output High-Z 1 4.2 ns

CKLZ

(4)

Clock High to Output Low-Z 1

____

INS

Interrupt Flag Set Time

____

7ns

INR

Interrupt Flag Reset Time

____

7ns

COLS

Collision Flag Set Time

____

4.2 ns

COLR

Collision Flag Reset Time

____

4.2 ns

ZZSC

Sleep Mode Set Cycles 2

____

cycles

ZZRC

Sleep Mode Recovery Cycles 3

____

cycles

Port-to-Port Delay

Clock-to-Clock Offset 6

____

5682 tbl 11

6.42

IDT70T3509M

High-Speed 2.5V 1024K x 36 Dual-Port Synchronous Static RAM Commercial Temperature Range

An An + 1 An + 2 An + 3

CYC2

CH2

CL2

R/W

ADDRESS

CLK

(3)

DATA

OUT

CD2

CKLZ

Qn Qn + 1 Qn + 2

OHZ

OLZ

5682 drw 05

(1)

(4)

(1 Latency)

(5)

Timing Waveform of Read Cycle for Pipelined Operation

(FT/PIPE

'X' = VIH)

(1,2)

NOTES:

1. OE is asynchronously controlled; all other inputs depicted in the above waveforms are synchronous to the rising clock edge.

2. ADS = V

IL, CNTEN and REPEAT = VIH.

3. The output is disabled (High-Impedance state) by CE

0 = VIH, CE1 = VIL, BEn = VIH following the next rising edge of the clock. Refer to

Truth Table 1.

4. Addresses do not have to be accessed sequentially since ADS = V

IL constantly loads the address on the rising edge of the CLK; numbers

are for reference use only.

5. If BE

n was HIGH, then the appropriate Byte of DATAOUT for Qn + 2 would be disabled (High-Impedance state).

6. "x" denotes Left or Right port. The diagram is with respect to that port.

Timing Waveform of Read Cycle for Flow-Through Output

(FT/PIPE

"X" = VIL)

(1,2,6)

An An + 1 An + 2 An + 3

tCYC1

tCH1

tCL1

ADDRESS

DATA

OUT

CLK

tSC tHC

tCD1

tCKLZ

Qn Qn + 1 Qn + 2

tOHZ

tOLZ

tOE

tCKHZ

5682 drw 06

(5)

(1)

CE1

BEn

(3)

tSB tHB

tSW tHW

tSA tHA

tDC

(4)

tSC tHC

tSB

tHB

6.42

IDT70T3509M

High-Speed 2.5V 1024K x 36 Dual-Port Synchronous Static RAM Commercial Temperature Range

CLK

"A"

R/W

ADDRESS

"A"

DATA

IN"A"

CLK

"B"

R/W

"B"

ADDRESS

"B"

DATA

OUT"B"

(3)

CD2

MATCH

VALID

MATCH

VALID

5682 drw 09

Timing Waveform of Left Port Write to Pipelined Right Port Read

(1,2,4)

NOTES:

1. CE

0, BEn, and ADS = VIL; CE1, CNTEN, and REPEAT = VIH.

2. OE = V

IL for Port "B", which is being read from. OE = VIH for Port "A", which is being written to.

3. If t

CO < minimum specified, then data from Port "B" read is not valid until following Port "B" clock cycle (ie, time from write to valid read on opposite port will be

CO + 2 tCYC2 + tCD2). If tCO > minimum, then data from Port "B" read is available on first Port "B" clock cycle (ie, time from write to valid read on opposite port

will be t

CO + tCYC2 + tCD2).

4. All timing is the same for Left and Right ports. Port "A" may be either Left or Right port. Port "B" is the opposite of Port "A"

Timing Waveform with Port-to-Port Flow-Through Read

(1,2,4)

DATA

IN "A"

CLK

"B"

R/W

"B"

ADDRESS

"A"

R/W

"A"

CLK

"A"

ADDRESS

"B"

MATCH

VALID

CD1

DATA

OUT "B"

5682 drw 10

VALID

CD1

(3)

NOTES:

1. CE

0, BEn, and ADS = VIL; CE1, CNTEN, and REPEAT = VIH.

2. OE = V

IL for the Right Port, which is being read from. OE = VIH for the Left Port, which is being written to.

3. If t

CO < minimum specified, then data from Port "B" read is not valid until following Port "B" clock cycle (i.e., time from write to valid read on opposite port will be

CO + tCYC + tCD1). If tCO > minimum, then data from Port "B" read is available on first Port "B" clock cycle (i.e., time from write to valid read on opposite port will

be t

CO + tCD1).

4. All timing is the same for both left and right ports. Port "A" may be either left or right port. Port "B" is the opposite of Port "A".

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P21 P22-P23

70T3509MS133BPGI

Mfr. #:

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Manufacturer:

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Description:

SRAM 1024Kx36 STD-PWR 2.5V DUAL PORT RAM

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70T3509MS133BPGI

70T3509MS133BPGI

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