CY7C4255V-15ASXC Cypress Semiconductor Corp, CY7C4255V-15ASXC Datasheet - Page 6
CY7C4255V-15ASXC
Manufacturer Part Number
CY7C4255V-15ASXC
Description
CY7C4255V-15ASXC
Manufacturer
Cypress Semiconductor Corp
Series
CY7Cr
Datasheet
1.CY7C4255V-15ASXC.pdf
(24 pages)
Specifications of CY7C4255V-15ASXC
Function
Synchronous
Memory Size
144K (8K x 18)
Data Rate
100MHz
Access Time
10ns
Voltage - Supply
3.3V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
64-LQFP
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
CY7C4255V-15ASXC
Manufacturer:
Cypress Semiconductor Corp
Quantity:
10 000
Functional Description
The CY7C4255/65/75/85V provides five status pins. These pins
are decoded to determine one of five states: Empty, Almost
Empty, Half Full, Almost Full, and Full (see
The Half Full flag shares the WXO pin. This flag is valid in the
standalone and width expansion configurations. In the depth
expansion, this pin provides the expansion out (WXO)
information that is used to signal the next FIFO when it is to be
activated.
The Empty and Full flags are synchronous, that is, they change
state relative to either the read clock (RCLK) or the write clock
(WCLK). When entering or exiting the Empty states, the flag is
updated exclusively by the RCLK. The flag denoting Full states
is updated exclusively by WCLK. The synchronous flag
architecture guarantees that the flags remain valid from one
clock cycle to the next. The Almost Empty/Almost Full flags
become synchronous if the V
configurations are fabricated using an advanced 0.35
CMOS technology. Input ESD protection is greater than
2001 V, and latch-up is prevented by the use of guard rings.
Architecture
The
8K/16K/32K/64K words of 18 bits each (implemented by a dual
port array of SRAM cells), a read pointer, a write pointer, control
signals (RCLK, WCLK, REN, WEN, RS), and flags (EF, PAE, HF,
PAF, FF). The CY7C4255/65/75/85V also includes the control
signals WXI, RXI, WXO, RXO for depth expansion.
Resetting the FIFO
Upon power up, the FIFO must be reset with a Reset (RS) cycle.
This causes the FIFO to enter the Empty condition signified by
EF being LOW. All data outputs go LOW after the falling edge of
RS only if OE is asserted. For the FIFO to reset to its default
state, the user must not read or write while RS is LOW.
FIFO Operation
When the WEN signal is active (LOW), data present on the D
pins is written into the FIFO on each rising edge of the WCLK
signal. Similarly, when the REN signal is active LOW, data in the
FIFO memory is presented on the Q
presented on each rising edge of RCLK while REN is active LOW
and OE is LOW. REN must set up t
a valid read function. WEN must occur t
to be a valid write function.
An output enable (OE) pin is provided to three-state the Q
outputs when OE is deasserted. When OE is enabled (LOW),
data in the output register is available to the Q
t
on the FIFO that is read enabled.
The FIFO contains overflow circuitry to disallow additional writes
when the FIFO is full, and under flow circuitry to disallow
additional reads when the FIFO is empty. An empty FIFO
maintains the data of the last valid read on its Q
after additional reads occur.
Note
Document Number: 38-06012 Rev. *D
OE
1. The same selection sequence applies to reading from the registers. REN is enabled and read is performed on the LOW-to-HIGH transition of RCLK.
. If devices are cascaded, the OE function only outputs data
CY7C4255/65/75/85V
CC
consists
/SMODE is tied to V
ENS
0–17
before RCLK for it to be
ENS
outputs. New data is
of
Table 3 on page
before WCLK for it
0–17
0–17
an
outputs even
outputs after
array
SS
. All
0–17
0–17
7).
of
Programming
The CY7C4255/65/75/85V devices contain two 16-bit offset
registers. Data present on D
determine the distance from Empty (Full) that the Almost Empty
(Almost Full) flags become active. If the user elects not to
program the FIFO’s flags, the default offset values are used (see
Table 3 on page
is set LOW, data on the inputs D
offset register on the first LOW-to-HIGH transition of the write
clock (WCLK). When the LD pin and WEN are held LOW then
data is written into the Full offset register on the second
LOW-to-HIGH transition of the write clock (WCLK). The third
transition of the write clock (WCLK) again writes to the Empty
offset register (see
written at one time. One or two offset registers can be written and
then, by bringing the LD pin HIGH, the FIFO is returned to normal
read/write operation. When the LD pin is set LOW, and WEN 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 LD pin is set LOW and REN is set LOW. Then,
data can be read on the LOW-to-HIGH transition of the read
clock (RCLK).
Table 2. Write Offset Register
Flag Operation
The CY7C4255/65/75/85V devices provide five flag pins to
indicate the condition of the FIFO contents. Empty and Full are
synchronous. PAE and PAF are synchronous if V
tied to V
Full Flag
The Full Flag (FF) goes LOW when device is Full. Write
operations are inhibited whenever FF is LOW regardless of the
state of WEN. FF is synchronized to WCLK, that is, it is
exclusively updated by each rising edge of WCLK.
Empty Flag
The Empty Flag (EF) goes LOW when the device is empty. Read
operations are inhibited whenever EF is LOW, regardless of the
state of REN. EF is synchronized to RCLK, that is, it is
exclusively updated by each rising edge of RCLK.
LD
0
0
1
1
WEN
SS
0
1
0
1
.
WCLK
7). When the Load LD pin is set LOW and WEN
Table
CY7C4255V, CY7C4265V
CY7C4275V, CY7C4285V
[1]
2). All offset registers do not have to be
Writing to offset registers:
Empty Offset
Full Offset
No Operation
Write Into FIFO
No Operation
0–15
0–15
during a program write
is written into the Empty
Selection
CC
Page 6 of 24
/SMODE is
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