IDT72V3660L15PF IDT, Integrated Device Technology Inc, IDT72V3660L15PF Datasheet - Page 20

IDT72V3660L15PF

Manufacturer Part Number

IDT72V3660L15PF

Description

IC FIFO SS 4096X36 15NS 128-TQFP

Manufacturer

IDT, Integrated Device Technology Inc

Series

72Vr

Datasheet

1.IDT72V3640L7-5PFGI.pdf (46 pages)

Specifications of IDT72V3660L15PF

Function

Asynchronous, Synchronous

Memory Size

147K (4K 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

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

72V3660L15PF

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not there are any words present in the FIFO memory. It also uses the Full Flag

function (FF) to indicate whether or not the FIFO memory has any free space

for writing. In IDT Standard mode, every word read from the FIFO, including

the first, must be requested using the Read Enable (REN) and RCLK.

selected. This mode uses Output Ready (OR) to indicate whether or not there

is valid data at the data outputs (Q

whether or not the FIFO memory has any free space for writing. In the FWFT

mode, the first word written to an empty FIFO goes directly to Q

rising edges, REN = LOW is not necessary. Subsequent words must be

accessed using the Read Enable (REN) and RCLK.

offsets into the programmable registers. The serial input function can only be

used when the serial loading method has been selected during Master Reset.

Serial programming using the FWFT/SI pin functions the same way in both IDT

Standard and FWFT modes.

WRITE STROBE & WRITE CLOCK (WR/WCLK)

input behaves as WCLK.

and hold times must be met with respect to the LOW-to-HIGH transition of the

WCLK. It is permissible to stop the WCLK. Note that while WCLK is idle, the FF/

IR, PAF and HF flags will not be updated. (Note that WCLK is only capable of

updating HF flag to LOW). The Write and Read Clocks can either be

independent or coincident.

Data is Asynchronously written into the FIFO via the Dn inputs whenever there

is a rising edge on WR. In this mode the WEN input must be tied LOW.

WRITE ENABLE ( WEN )

on the rising edge of every WCLK cycle if the device is not full. Data is stored

in the RAM array sequentially and independently of any ongoing read

operation.

cycle.

inhibiting further write operations. Upon the completion of a valid read cycle,

FF will go HIGH allowing a write to occur. The FF is updated by two WCLK

cycles + t

further write operations. Upon the completion of a valid read cycle, IR will go

LOW allowing a write to occur. The IR flag is updated by two WCLK cycles +

must be held active, (tied LOW).

READ STROBE & READ CLOCK (RD/RCLK)

input behaves as RCLK. A read cycle is initiated on the rising edge of the RCLK

input. Data can be read on the outputs, on the rising edge of the RCLK input.

It is permissible to stop the RCLK. Note that while RCLK is idle, the EF/OR, PAE

and HF flags will not be updated. (Note that RCLK is only capable of updating

the HF flag to HIGH). The Write and Read Clocks can be independent or

coincident.

Strobe) . Data is Asynchronously read from the FIFO via the output register

SKEW

IDT72V3640/50/60/70/80/90 3.3V HIGH DENSITY SUPERSYNC II

1,024 x 36, 2,048 x 36, 4,096 x 36, 8,192 x 36, 16,384 x 36 and 32,768 x 36

If, at the time of Master Reset, FWFT/SI is HIGH, then FWFT mode will be

After Master Reset, FWFT/SI acts as a serial input for loading PAE and PAF

If Synchronous operation of the write port has been selected via ASYW, this

A write cycle is initiated on the rising edge of the WCLK input. Data setup

If Asynchronous operation has been selected this input is WR (write strobe).

When the WEN input is LOW, data may be loaded into the FIFO RAM array

When WEN is HIGH, no new data is written in the RAM array on each WCLK

To prevent data overflow in the IDT Standard mode, FF will go LOW,

To prevent data overflow in the FWFT mode, IR will go HIGH, inhibiting

WEN is ignored when the FIFO is full in either FWFT or IDT Standard mode.

If Asynchronous operation of the write port has been selected, then WEN

If Synchronous operation of the read port has been selected via ASYR, this

If Asynchronous operation has been selected this input is RD (Read

after the valid RCLK cycle.

SKEW

after the RCLK cycle.

. It also uses Input Ready (IR) to indicate

after three RCLK

36-BIT FIFO

whenever there is a rising edge on RD. In this mode the REN input must be

tied LOW. The OE input is used to provide Asynchronous control of the three-

state Qn outputs.

READ ENABLE ( REN )

and no new data is loaded into the output register. The data outputs Q

maintain the previous data value.

word written to an empty FIFO, must be requested using REN. When the last

word has been read from the FIFO, the Empty Flag (EF) will go LOW, inhibiting

further read operations. REN is ignored when the FIFO is empty. Once a write

is performed, EF will go HIGH allowing a read to occur. The EF flag is updated

by two RCLK cycles + t

to the outputs Q

after the first write. REN does not need to be asserted LOW. In order to access

all other words, a read must be executed using REN. The RCLK LOW-to-HIGH

transition after the last word has been read from the FIFO, Output Ready (OR)

will go HIGH with a true read (RCLK with REN = LOW), inhibiting further read

operations. REN is ignored when the FIFO is empty.

must be held active, (tied LOW).

SERIAL ENABLE ( SEN )

registers. The serial programming method must be selected during Master

Reset. SEN is always used in conjunction with LD. When these lines are both

LOW, data at the SI input can be loaded into the program register one bit for each

LOW-to-HIGH transition of WCLK.

settings and no offsets are loaded. SEN functions the same way in both IDT

Standard and FWFT modes.

OUTPUT ENABLE ( OE )

data from the output register. When OE is HIGH, the output data bus (Q

into a high impedance state.

LOAD ( LD )

along with FSEL0 and FSEL1, determines one of eight default offset values for

the PAE and PAF flags, along with the method by which these offset registers

can be programmed, parallel or serial (see Table 2). After Master Reset, LD

enables write operations to and read operations from the offset registers. Only

the offset loading method currently selected can be used to write to the registers.

Offset registers can be read only in parallel.

of the flag offset values PAE and PAF. Pulling LD LOW will begin a serial loading

or parallel load or read of these offset values.

BUS-MATCHING (BM, IW, OW)

During Master Reset, the state of these pins is used to configure the device bus

sizes. See Table 1 for control settings. All flags will operate on the word/byte

size boundary as defined by the selection of bus width. See Figure 4 for Bus-

Matching Byte Arrangement.

When Read Enable is LOW, data is loaded from the RAM array into the output

When the REN input is HIGH, the output register holds the previous data

In the IDT Standard mode, every word accessed at Q

In the FWFT mode, the first word written to an empty FIFO automatically goes

If Asynchronous operation of the Read port has been selected, then REN

The SEN input is an enable used only for serial programming of the offset

When SEN is HIGH, the programmable registers retains the previous

When Output Enable is enabled (LOW), the parallel output buffers receive

This is a dual purpose pin. During Master Reset, the state of the LD input,

After Master Reset, the LD pin is used to activate the programming process

The pins BM, IW and OW are used to define the input and output bus widths.

, on the third valid LOW-to-HIGH transition of RCLK + t

SKEW

after the valid WCLK cycle.

COMMERCIAL AND INDUSTRIAL

TEMPERATURE RANGES

OCTOBER 22, 2008

, including the first

) goes

SKEW

-Q

IDT72V3660L15PF IDT, Integrated Device Technology Inc, IDT72V3660L15PF Datasheet - Page 20

IDT72V3660L15PF

Specifications of IDT72V3660L15PF

Available stocks

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