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Número de pieza IDT72V201L20J
Descripción 3.3 VOLT CMOS SyncFIFO 256 x 9/ 512 x 9/ 1/024 x 9/ 2/048 x 9/ 4/096 x 9 and 8/192 x 9
Fabricantes Integrated Device Technology 
Logotipo Integrated Device Technology Logotipo



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3.3 VOLT CMOS SyncFIFO™
256 x 9, 512 x 9,
1,024 x 9, 2,048 x 9,
4,096 x 9 and 8,192 x 9
IDT72V201, IDT72V211
IDT72V221, IDT72V231
IDT72V241, IDT72V251
FEATURES:
256 x 9-bit organization IDT72V201
512 x 9-bit organization IDT72V211
1,024 x 9-bit organization IDT72V221
2,048 x 9-bit organization IDT72V231
4,096 x 9-bit organization IDT72V241
8,192 x 9-bit organization IDT72V251
10 ns read/write cycle time
5V input tolerant
Read and Write clocks can be independent
Dual-Ported zero fall-through time architecture
Empty and Full Flags signal FIFO status
Programmable Almost-Empty and Almost-Full flags can be set to
any depth
Programmable Almost-Empty and Almost-Full flags default to
Empty+7, and Full-7, respectively
Output Enable puts output data bus in high-impedance state
Advanced submicron CMOS technology
Available in 32-pin plastic leaded chip carrier (PLCC) and 32-pin
plastic Thin Quad FlatPack (TQFP)
Industrial temperature range (–40°C to +85°C) is available
DESCRIPTION:
The IDT72V201/72V211/72V221/72V231/72V241/72V251 SyncFIFOs™
are very high-speed, low-power First-In, First-Out (FIFO) memories with
clocked read and write controls. The architecture, functional operation and pin
assignments are identical to those of the IDT72201/72211/72221/72231/
72241/72251, but operate at a power supply voltage (Vcc) between 3.0V and
3.6V. These devices have a 256, 512, 1,024, 2,048, 4,096 and 8,192 x 9-bit
memory array, respectively. These FIFOs are applicable for a wide variety of
data buffering needs such as graphics, local area networks and interprocessor
communication.
These FIFOs have 9-bit input and output ports. The input port is
controlled by a free-running clock (WCLK), and two Write Enable pins
(WEN1, WEN2). Data is written into the Synchronous FIFO on every rising
clock edge when the Write Enable pins are asserted. The output port is
controlled by another clock pin (RCLK) and two Read Enable pins (REN1,
REN2). The Read Clock can be tied to the Write Clock for single clock
operation or the two clocks can run asynchronous of one another for dual-
clock operation. An Output Enable pin (OE) is provided on the read port
for three-state control of the output.
The Synchronous FIFOs have two fixed flags, Empty (EF) and Full (FF).
Two programmable flags, Almost-Empty (PAE) and Almost-Full (PAF), are
provided for improved system control. The programmable flags default to
Empty+7 and Full-7 for PAE and PAF, respectively. The programmable flag
offset loading is controlled by a simple state machine and is initiated by asserting
the Load pin (LD).
These FIFOs are fabricated using IDT's high-speed submicron CMOS
technology.
FUNCTIONAL BLOCK DIAGRAM
WCLK
WEN1
WEN2
WRITE CONTROL
LOGIC
WRITE POINTER
D0 - D8
INPUT REGISTER
RAM ARRAY
256 x 9, 512 x 9,
1,024 x 9, 2,048 x 9,
4,096 x 9, 8,192 x 9
LD
OFFSET REGISTER
FLAG
LOGIC
READ POINTER
EF
PAE
PAF
FF
READ CONTROL
LOGIC
OUTPUT REGISTER
RESET LOGIC
RS
OE
Q0 - Q8
RCLK
REN1
REN2
IDT and the IDT logo are registered trademarks of Integrated Device Technology, Inc. SyncFIFO is a trademark of Integrated Device Technology, Inc.
COMMERCIAL AND INDUSTRIAL TEMPERATURE RANGES
1
©2002 Integrated Device Technology, Inc. All rights reserved. Product specifications subject to change without notice.
4092 drw 01
FEBRUARY 2002
DSC-4092/2

1 page




IDT72V201L20J pdf
IDT72V201/72V211/72V221/72V231/72V241/72V251 3.3V CMOS SyncFIFO™
256 x 9, 512 x 9, 1,024 x 9, 2,048 x 9, 4,096 x 9 and 8,192 x 9
COMMERCIAL AND INDUSTRIAL
TEMPERATURERANGES
SIGNAL DESCRIPTIONS
INPUTS:
DATA IN (D0 - D8)
Data inputs for 9-bit wide data.
CONTROLS:
RESET (RS)
Reset is accomplished whenever the Reset (RS) input is taken to a LOW state.
During reset, both internal read and write pointers are set to the first location.
A reset is required after power-up before a write operation can take place. The
Full Flag (FF) and Programmable Almost-Full Flag (PAF) will be reset to HIGH
after tRSF. The Empty Flag (EF) and Programmable Almost-Empty Flag (PAE)
will be reset to LOW after tRSF. During reset, the output register is initialized to
all zeros and the offset registers are initialized to their default values.
WRITE CLOCK (WCLK)
A write cycle is initiated on the LOW-to-HIGH transition of the Write Clock
(WCLK). DatasetupandholdtimesmustbemetinrespecttotheLOW-to-HIGH
transition of the Write Clock (WCLK). The Full Flag (FF) and Programmable
Almost-Full Flag (PAF) are synchronized with respect to the LOW-to-HIGH
transition of the Write Clock (WCLK).
The Write and Read clocks can be asynchronous or coincident.
WRITE ENABLE 1 (WEN1)
If the FIFO is configured for programmable flags, Write Enable 1 (WEN1)
istheonlyenablecontrolpin. Inthisconfiguration,whenWriteEnable1(WEN1)
is low, data can be loaded into the input register and RAM array on the LOW-
to-HIGHtransitionofeveryWriteClock(WCLK). DataisstoredintheRAMarray
sequentially and independently of any on-going read operation.
In this configuration, when Write Enable 1 (WEN1) is HIGH, the input register
holds the previous data and no new data is allowed to be loaded into the register.
If the FIFO is configured to have two write enables, which allows for depth
expansion, there are two enable control pins. See Write Enable 2 paragraph
below for operation in this configuration.
To prevent data overflow, the Full Flag (FF) will go LOW, inhibiting further
write operations. Upon the completion of a valid read cycle, the Full Flag (FF)
will go HIGH after tWFF, allowing a valid write to begin. Write Enable 1 (WEN1)
is ignored when the FIFO is full.
READ CLOCK (RCLK)
Data can be read on the outputs on the LOW-to-HIGH transition of the Read
Clock (RCLK). The Empty Flag (EF) and Programmable Almost-Empty Flag
(PAE) are synchronized with respect to the LOW-to-HIGH transition of the Read
Clock (RCLK).
The Write and Read clocks can be asynchronous or coincident.
READ ENABLES (REN1, REN2)
When both Read Enables (REN1, REN2) are LOW, data is read from the
RAM array to the output register on the LOW-to-HIGH transition of the Read
Clock (RCLK).
When either Read Enable (REN1, REN2) is HIGH, the output register holds
the previous data and no new data is allowed to be loaded into the register.
When all the data has been read from the FIFO, the Empty Flag (EF) will go
LOW, inhibiting further read operations. Once a valid write operation has been
accomplished, the Empty Flag (EF) will go HIGH after tREFand a valid read can
begin. The Read Enables (REN1, REN2) are ignored when the FIFO is empty.
OUTPUT ENABLE (OE)
When Output Enable (OE) is enabled (LOW), the parallel output buffers
receive data from the output register. When Output Enable (OE) is disabled
(HIGH), the Q output data bus is in a high-impedance state.
WRITE ENABLE 2/LOAD (WEN2/LD)
This is a dual-purpose pin. The FIFO is configured at Reset to have
programmable flags or to have two write enables, which allows depth expansion.
If Write Enable 2/Load (WEN2/LD) is set high at Reset (RS = LOW), this pin
operates as a second Write Enable pin.
If the FIFO is configured to have two write enables, when Write Enable
(WEN1) is LOW and Write Enable 2/Load (WEN2/LD) is HIGH, data can be
loaded into the input register and RAM array on the LOW-to-HIGH transition
ofeveryWriteClock(WCLK). DataisstoredintheRAMarraysequentiallyand
independently of any on-going read operation.
In this configuration, when Write Enable (WEN1) is HIGH and/or Write
Enable 2/Load (WEN2/LD) is LOW, the input register holds the previous data
and no new data is allowed to be loaded into the register.
To prevent data overflow, the Full Flag (FF) will go LOW, inhibiting further
write operations. Upon the completion of a valid read cycle, the Full Flag (FF)
will go HIGH after tWFF, allowing a valid write to begin. Write Enable 1 (WEN1)
and Write Enable 2/Load (WEN2/LD) are ignored when the FIFO is full.
The FIFO is configured to have programmable flags when the Write Enable
2/Load(WEN2/LD)issetLOWatReset(RS =LOW). TheIDT72V201/72V211/
72V221/72V231/72V241/72V251 devices contain four 8-bit offset registers
whichcanbeloadedwithdataontheinputs,orreadontheoutputs. SeeFigure
3 for details of the size of the registers and the default values.
If theFIFOisconfiguredtohaveprogrammableflagswhentheWriteEnable
1 (WEN1)andWriteEnable2/Load(WEN2/LD)aresetlow,dataontheinputs
D is written into the Empty (Least Significant Bit) Offset register on the first LOW-
to-HIGHtransitionoftheWriteClock(WCLK). DataiswrittenintotheEmpty(Most
Significant Bit) Offset register on the second LOW-to-HIGH transition of the Write
Clock (WCLK), into the Full (Least Significant Bit) Offset register on the third
transition, and into the Full (Most Significant Bit) Offset register on the fourth
transition. Thefifth transitionofthe WriteClock(WCLK)againwritestotheEmpty
(Least Significant Bit) Offset register.
However,writingalloffsetregistersdoesnothavetooccuratonetime. One
or two offset registers can be written and then by bringing the Write Enable 2/
Load (WEN2/LD) pin HIGH, the FIFO is returned to normal read/write
operation. WhentheWriteEnable2/Load(WEN2/LD)pinissetLOW,andWrite
Enable 1 (WEN1) is LOW, the next offset register in sequence is written.
The contents of the offset registers can be read on the output lines when the
Write Enable 2/Load (WEN2/LD) pin is set low and both Read Enables (REN1,
REN2) are set LOW. Data can be read on the LOW-to-HIGH transition of the
Read Clock (RCLK).
A read and write should not be performed simultaneously to the offset
registers.
LD WEN1
WCLK
Selection
00
Empty Offset (LSB)
Empty Offset (MSB)
Full Offset (LSB)
Full Offset (MSB)
01
No Operation
10
Write Into FIFO
11
No Operation
NOTES:
1. For the purposes of this table, WEN2 = VIH.
2. The same selection sequence applies to reading from the registers. REN1 and REN2
are enabled and read is performed on the LOW-to-HIGH transition of RCLK.
Figure 2. Write Offset Register
5

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IDT72V201L20J arduino
IDT72V201/72V211/72V221/72V231/72V241/72V251 3.3V CMOS SyncFIFO™
256 x 9, 512 x 9, 1,024 x 9, 2,048 x 9, 4,096 x 9 and 8,192 x 9
COMMERCIAL AND INDUSTRIAL
TEMPERATURERANGES
WCLK
tCLKH
tCLKL
tENS
tENH
(4)
WEN1
tENS
tENH
WEN2
(If Applicable)
PAF
Full - (m + 1) words in FIFO(1)
tPAF
Full - m words in FIFO (2)
tSKEW2(3)
tPAF
RCLK
REN1,
REN2
tENS
tENH
4092 drw12
NOTES:
1. m = PAF offset.
2. 256 - m words in FIFO for IDT72V201, 512 - m words for IDT72V211, 1,024 - m words for IDT72V221, 2,048 - m words for IDT72V231, 4,096 - m words for IDT72V241, 8,192 - m
words for IDT72V251.
3. tSKEW2 is the minimum time between a rising RCLK edge and a rising WCLK edge for PAF to change during that clock cycle. If the time between the rising edge of RCLK and
the rising edge of WCLK is less than tSKEW2, then PAF may not change state until the next WCLK rising edge.
4. If a write is performed on this rising edge of the write clock, there will be Full - (m-1) words in the FIFO when PAF goes LOW.
Figure 10. Programmable Full Flag Timing
WCLK
WEN1
WEN2
(If Applicable)
tCLKH
tCLKL
tENS
tENS
tENH
tENH
PAE
RCLK
n words in FIFO (1)
tSKEW2 (2)
tPAE
n + 1 words in FIFO
tPAE
(3)
tENS
tENH
REN1,
REN2
4092 drw13
NOTES:
1. n = PAE offset.
2. tSKEW2 is the minimum time between a rising WCLK edge and a rising RCLK edge for PAE to change during that clock cycle. If the time between the rising edge of WCLK and
the rising edge of RCLK is less than tSKEW2, then PAE may not change state until the next RCLK rising edge.
3. If a read is performed on this rising edge of the read clock, there will be Empty + (n-1) words in the FIFO when PAE goes LOW.
Figure 11. Programmable Empty Flag Timing
11

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