CY7C4231-15AC Cypress Semiconductor Corp, CY7C4231-15AC Datasheet - Page 3

CY7C4231-15AC

Manufacturer Part Number

CY7C4231-15AC

Description

Manufacturer

Cypress Semiconductor Corp

Datasheet

1.CY7C4231-15AC.pdf (19 pages)

Specifications of CY7C4231-15AC

Configuration

Dual

Density

16Kb

Access Time (max)

10ns

Word Size

Organization

2Kx9

Sync/async

Synchronous

Expandable

Yes

Bus Direction

Uni-Directional

Clock Freq (max)

66.7MHz

Operating Supply Voltage (typ)

Operating Supply Voltage (min)

4.5V

Operating Supply Voltage (max)

5.5V

Supply Current

35mA

Operating Temp Range

0C to 70C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

Lead Free Status / RoHS Status

Not Compliant

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Document #: 38-06016 Rev. *C

Functional Description

The CY7C42X1 provides four status pins: Empty, Full, Almost

Empty, Almost Full. The Almost Empty/Almost Full flags are

programmable to single word granularity. The programmable

flags default to Empty – 7 and Full – 7.

The flags are synchronous, i.e., they change state relative to

either the Read clock (RCLK) or the Write clock (WCLK).

When entering or exiting the Empty and Almost Empty states,

the flags are updated exclusively by the RCLK. The flags

denoting Almost Full, and Full states are updated exclusively

by WCLK. The synchronous flag architecture guarantees that

the flags maintain their status for at least one cycle.

All configurations are fabricated using advanced 0.65µ N-Well

CMOS technology. Input ESD protection is greater than

2001V, and latch-up is prevented by the use of guard rings.

Architecture

The CY7C42X1 consists of an array of 64 to 8K words of 9 bits

each (implemented by a dual-port array of SRAM cells), a

Read pointer, a Write pointer, control signals (RCLK, WCLK,

REN1, REN2, WEN1, WEN2, RS), and flags (EF, PAE, PAF, FF).

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 (Q

to its default state, a falling edge must occur on RS and the

user must not read or Write while RS is LOW. All flags are

guaranteed to be valid t

FIFO Operation

When the WEN1 signal is active LOW and WEN2 is active HIGH,

data present on the D

rising edge of the WCLK signal. Similarly, when the REN1 and

REN2 signals are active LOW, data in the FIFO memory will

be presented on the Q

on each rising edge of RCLK while REN1 and REN2 are

active. REN1 and REN2 must set up t

to be a valid Read function. WEN1 and WEN2 must occur t

before WCLK for it to be a valid Write function.

An output enable (OE) pin is provided to three-state the Q

outputs when OE is asserted. When OE is enabled (LOW),

data in the output register will be available to the Q

after t

The FIFO contains overflow circuitry to disallow additional

writes when the FIFO is full, and underflow circuitry to disallow

additional reads when the FIFO is empty. An empty FIFO

RSF

after the rising edge of RS. In order for the FIFO to reset

0–8

RSF

pins is written into the FIFO on each

outputs. New data will be presented

after RS is taken LOW.

ENS

before RCLK for it

0–8

) go LOW

outputs

ENS

0–8

maintains the data of the last valid Read on its Q

even after additional reads occur.

Write Enable 1 (WEN1). If the FIFO is configured for program-

mable flags, Write Enable 1 (WEN1) is the only Write enable

control pin. In this configuration, when Write Enable 1 (WEN1)

is LOW, data can be loaded into the input register and RAM

array on the LOW-to-HIGH transition of every Write clock

(WCLK). Data is stored is the RAM array sequentially and

independently of any on-going Read operation.

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 for depth

expansion. If Write Enable 2/Load (WEN2/LD) is set active

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 of every Write

clock (WCLK). Data is stored in the RAM array sequentially

and independently of any on-going Read operation.

Programming

When WEN2/LD is held LOW during Reset, this pin is the load

(LD) enable for flag offset programming. In this configuration,

WEN2/LD can be used to access the four 8-bit offset registers

contained in the CY7C42X1 for writing or reading data to these

registers.

When the device is configured for programmable flags and

both WEN2/LD and WEN1 are LOW, the first LOW-to-HIGH

transition of WCLK writes data from the data inputs to the

empty offset least significant bit (LSB) register. The second,

third, and fourth LOW-to-HIGH transitions of WCLK store data

in the empty offset most significant bit (MSB) register, full

offset LSB register, and full offset MSB register, respectively,

when WEN2/LD and WEN1 are LOW. The fifth LOW-to-HIGH

transition of WCLK while WEN2/LD and WEN1 are LOW

writes data to the empty LSB register again. Figure 1 shows

the registers sizes and default values for the various device

types.

It is not necessary to write to all the offset registers at one time.

A subset of the offset registers can be written; then by bringing

the WEN2/LD input HIGH, the FIFO is returned to normal

Read and Write operation. The next time WEN2/LD is brought

LOW, a Write operation stores data in the next offset register

in sequence.

The contents of the offset registers can be read to the data

outputs when WEN2/LD is LOW and both REN1 and REN2

are LOW. LOW-to-HIGH transitions of RCLK Read register

contents to the data outputs. Writes and reads should not be

preformed simultaneously on the offset registers.

CY7C4421/4201/4211/4221

CY7C4231/4241/4251

Page 3 of 19

0–8

outputs

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