CY7C433-15JC Cypress Semiconductor Corp, CY7C433-15JC Datasheet - Page 12

CY7C433-15JC

Manufacturer Part Number

CY7C433-15JC

Description

Manufacturer

Cypress Semiconductor Corp

Datasheet

1.CY7C433-15JC.pdf (16 pages)

Specifications of CY7C433-15JC

Configuration

Dual

Density

36Kb

Access Time (max)

15ns

Word Size

Organization

4Kx9

Sync/async

Asynchronous

Expandable

Yes

Bus Direction

Uni-Directional

Package Type

LCC

Clock Freq (max)

Not RequiredMHz

Operating Supply Voltage (typ)

Operating Supply Voltage (min)

4.5V

Operating Supply Voltage (max)

5.5V

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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Use of the Empty and Full Flags

To achieve maximum frequency, the flags must be valid at the

beginning of the next cycle. However, because they can be

updated by either edge of the read or write signal, they must be

valid by one-half of a cycle. Cypress FIFOs meet this

requirement; some competitors’ FIFOs do not.

The reason for why the flags should be valid by the next cycle is

complex. The “effective pulse width violation” phenomenon can

occur at the full and empty boundary conditions, if the flags are

not properly used. The empty flag must be used to prevent

reading from an empty FIFO and the full flag must be used to

prevent writing into a full FIFO.

Document #: 38-06001 Rev. *D

FULL

Figure 13. Depth Expansion

CY7C420/1

CY7C424/5

CY7C428/9

CY7C432/3

CY7C420/1

CY7C424/5

CY7C428/9

CY7C432/3

CY7C420/1

CY7C424/5

CY7C428/9

CY7C432/3

CY7C419

For example, consider an empty FIFO that is receiving read

pulses. Because the FIFO is empty, the read pulses are ignored

by the FIFO, and nothing happens. Next, a single word is written

into the FIFO, with a signal that is asynchronous to the read

signal. The (internal) state machine in the FIFO goes from empty

to empty+1. However, it does this asynchronously with respect

to the read signal, so that the effective pulse width of the read

signal cannot be determined, because the state machine does

not look at the read signal until it goes to the empty+1 state.

Similarly, the minimum write pulse width may be violated by

trying to write into a full FIFO, and asynchronously performing a

read. The empty and full flags are used to avoid these effective

pulse width violations, but to do this and operate at the maximum

frequency, the flag must be valid at the beginning of the next

cycle.

* FIRST DEVICE

CY7C419/21/25/29/33

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CY7C433-15JC Cypress Semiconductor Corp, CY7C433-15JC Datasheet - Page 12

CY7C433-15JC

Specifications of CY7C433-15JC

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