IDT72V3674L15PF IDT, Integrated Device Technology Inc, IDT72V3674L15PF Datasheet - Page 15

IDT72V3674L15PF

Manufacturer Part Number

IDT72V3674L15PF

Description

IC FIFO 16384X36 15NS 128QFP

Manufacturer

IDT, Integrated Device Technology Inc

Series

72Vr

Datasheet

1.IDT72V3654L15PF8.pdf (37 pages)

Specifications of IDT72V3674L15PF

Function

Asynchronous

Memory Size

576K (16K x 36)

Data Rate

67MHz

Access Time

15ns

Voltage - Supply

3.15 V ~ 3.45 V

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

128-TQFP, 128-VQFP

Configuration

Dual

Density

576Kb

Access Time (max)

10ns

Word Size

36b

Organization

8Kx36x2

Sync/async

Synchronous

Expandable

Bus Direction

Bi-Directional

Package Type

TQFP

Clock Freq (max)

66.7MHz

Operating Supply Voltage (typ)

3.3V

Operating Supply Voltage (min)

3.15V

Operating Supply Voltage (max)

3.45V

Supply Current

400mA

Operating Temp Range

0C to 70C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

128

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

72V3674L15PF

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SYNCHRONIZED FIFO FLAGS

stages. This is done to improve flag-signal reliability by reducing the probability

of metastable events when CLKA and CLKB operate asynchronously to one

another. EFA/ORA, AEA, FFA/IRA, and AFA are synchronized to CLKA.

EFB/ORB, AEB, FFB/IRB, and AFB are synchronized to CLKB. Tables 4 and

5 show the relationship of each port flag to FIFO1 and FIFO2.

EMPTY/OUTPUT READY FLAGS (EFA/ORA, EFB/ORB)

ORB) function is selected. When the Output-Ready flag is HIGH, new data is

present in the FIFO output register. When the Output Ready flag is LOW, the

previous data word is present in the FIFO output register and attempted FIFO

reads are ignored.

When the Empty Flag is HIGH, data is available in the FIFO’s RAM memory

for reading to the output register. When the Empty Flag is LOW, the previous

data word is present in the FIFO output register and attempted FIFO reads are

ignored.

that reads data from its array. For both the FWFT and IDT Standard modes,

the FIFO read pointer is incremented each time a new word is clocked to its

output register. The state machine that controls an Output Ready flag monitors

a write pointer and read pointer comparator that indicates when the FIFO

memory status is empty, empty+1, or empty+2.

to the FIFO output register in a minimum of three cycles of the Output Ready

flag synchronizing clock. Therefore, an Output Ready flag is LOW if a word

in memory is the next data to be sent to the FlFO output register and three cycles

of the port Clock that reads data from the FIFO have not elapsed since the time

the word was written. The Output Ready flag of the FIFO remains LOW until

the third LOW-to-HIGH transition of the synchronizing clock occurs, simulta-

neously forcing the Output Ready flag HIGH and shifting the word to the FIFO

output register.

Flag will indicate the presence of data available for reading in a minimum of

two cycles of the Empty Flag synchronizing clock. Therefore, an Empty Flag

is LOW if a word in memory is the next data to be sent to the FlFO output register

and two cycles of the port Clock that reads data from the FIFO have not elapsed

since the time the word was written. The Empty Flag of the FIFO remains LOW

until the second LOW-to-HIGH transition of the synchronizing clock occurs,

forcing the Empty Flag HIGH; only then can data be read.

clock begins the first synchronization cycle of a write if the clock transition occurs

at time t

can be the first synchronization cycle (see Figures 15, 16, 17, and 18).

FULL/INPUT READY FLAGS (FFA/IRA, FFB/IRB)

function is selected. In IDT Standard mode, the Full Flag (FFA and FFB)

function is selected. For both timing modes, when the Full/Input Ready flag is

HIGH, a memory location is free in the FIFO to receive new data. No memory

locations are free when the Full/Input Ready flag is LOW and attempted writes

to the FIFO are ignored.

writes data to its array. For both FWFT and IDT Standard modes, each time

a word is written to a FIFO, its write pointer is incremented. The state machine

that controls a Full/Input Ready flag monitors a write pointer and read pointer

IDT72V3654/72V3664/72V3674 3.3V CMOS SyncBiFIFO

2,048 x 36 x 2, 4,096 x 36 x 2 and 8,192 x 36 x 2

Each FIFO is synchronized to its port clock through at least two flip-flop

These are dual purpose flags. In the FWFT mode, the Output Ready (ORA,

In the IDT Standard mode, the Empty Flag (EFA, EFB) function is selected.

The Empty/Output Ready flag of a FIFO is synchronized to the port clock

In FWFT mode, from the time a word is written to a FIFO, it can be shifted

In IDT Standard mode, from the time a word is written to a FIFO, the Empty

A LOW-to-HIGH transition on an Empty/Output Ready flag synchronizing

This is a dual purpose flag. In FWFT mode, the Input Ready (IRA and IRB)

The Full/Input Ready flag of a FlFO is synchronized to the port clock that

SKEW1

or greater after the write. Otherwise, the subsequent clock cycle

WITH BUS-MATCHING

comparator that indicates when the FlFO memory status is full, full-1, or full-

2. From the time a word is read from a FIFO, its previous memory location is

ready to be written to in a minimum of two cycles of the Full/Input Ready flag

synchronizing clock. Therefore, an Full/Input Ready flag is LOW if less than

two cycles of the Full/Input Ready flag synchronizing clock have elapsed since

the next memory write location has been read. The second LOW-to-HIGH

transition on the Full/Input Ready flag synchronizing clock after the read sets

the Full/Input Ready flag HIGH.

begins the first synchronization cycle of a read if the clock transition occurs at

time t

can be the first synchronization cycle (see Figures 19, 20, 21, and 22).

ALMOST-EMPTY FLAGS (AEA, AEB)

data from its array. The state machine that controls an Almost-Empty flag

monitors a write pointer and read pointer comparator that indicates when the

FIFO memory status is almost-empty, almost-empty+1, or almost-empty+2.

The almost-empty state is defined by the contents of register X1 for AEB and

FIFO reset, programmed from Port A, or programmed serially (see Almost-

Empty flag and Almost-Full flag offset programming section). An Almost-

Empty flag is LOW when its FIFO contains X or less words and is HIGH when

its FIFO contains (X+1) or more words. A data word present in the FIFO output

clock are required after a FIFO write for its Almost-Empty flag to reflect the new

level of fill. Therefore, the Almost-Full flag of a FIFO containing (X+1) or more

words remains LOW if two cycles of its synchronizing clock have not elapsed

since the write that filled the memory to the (X+1) level. An Almost-Empty flag

is set HIGH by the second LOW-to-HIGH transition of its synchronizing clock

after the FIFO write that fills memory to the (X+1) level. A LOW-to-HIGH

transition of an Almost-Empty flag synchronizing clock begins the first synchro-

nization cycle if it occurs at time t

FIFO to (X+1) words. Otherwise, the subsequent synchronizing clock cycle

may be the first synchronization cycle. (See Figure 23 and 24).

ALMOST-FULL FLAGS (AFA, AFB)

data to its array. The state machine that controls an Almost-Full flag monitors

a write pointer and read pointer comparator that indicates when the FIFO

memory status is almost-full, almost-full-1, or almost-full-2. The almost-full state

is defined by the contents of register Y1 for AFA and register Y2 for AFB. These

registers are loaded with preset values during a FlFO reset, programmed from

Port A, or programmed serially (see Almost-Empty flag and Almost-Full flag

offset programming section). An Almost-Full flag is LOW when the number of

words in its FIFO is greater than or equal to (2,048-Y), (4,096-Y), or (8,192-Y)

for the IDT72V3654, IDT72V3664, or IDT72V3674 respectively. An Almost-

Full flag is HIGH when the number of words in its FIFO is less than or equal

to [2,048-(Y+1)], [4,096-(Y+1)], or [8,192-(Y+1)] for the IDT72V3654,

IDT72V3664, or IDT72V3674 respectively. Note that a data word present in

the FIFO output register has been read from memory.

are required after a FIFO read for its Almost-Full flag to reflect the new level

of fill. Therefore, the Almost-Full flag of a FIFO containing [2,048/4,096/8,192-

(Y+1)] or less words remains LOW if two cycles of its synchronizing clock have

not elapsed since the read that reduced the number of words in memory to

[2,048/4,096/8,192-(Y+1)]. An Almost-Full flag is set HIGH by the second

A LOW-to-HIGH transition on a Full/Input Ready flag synchronizing clock

The Almost-Empty flag of a FIFO is synchronized to the port clock that reads

Two LOW-to-HIGH transitions of the Almost-Empty flag synchronizing

The Almost-Full flag of a FIFO is synchronized to the port clock that writes

Two LOW-to-HIGH transitions of the Almost-Full flag synchronizing clock

SKEW1

or greater after the read. Otherwise, the subsequent clock cycle

COMMERCIAL TEMPERATURE RANGE

SKEW2

or greater after the write that fills the

IDT72V3674L15PF IDT, Integrated Device Technology Inc, IDT72V3674L15PF Datasheet - Page 15

IDT72V3674L15PF

Specifications of IDT72V3674L15PF

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