CY7C027-20AC Cypress Semiconductor Corp, CY7C027-20AC Datasheet - Page 15

CY7C027-20AC

Manufacturer Part Number

CY7C027-20AC

Description

Manufacturer

Cypress Semiconductor Corp

Datasheet

1.CY7C027-20AC.pdf (19 pages)

Specifications of CY7C027-20AC

Density

512Kb

Access Time (max)

20ns

Sync/async

Asynchronous

Architecture

Not Required

Clock Freq (max)

Not RequiredMHz

Operating Supply Voltage (typ)

Address Bus

15b

Package Type

TQFP

Operating Temp Range

0C to 70C

Number Of Ports

Supply Current

265mA

Operating Supply Voltage (min)

4.5V

Operating Supply Voltage (max)

5.5V

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

100

Word Size

16b

Number Of Words

32K

Lead Free Status / Rohs Status

Not Compliant

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Architecture

The CY7C027/028 and CY7C037/038 consist of an array of 32K

and 64K words of 16 and 18 bits each of dual-port RAM cells, I/O

and address lines, and control signals (CE, OE, R/W). These

control pins permit independent access for reads or writes to any

location in memory. To handle simultaneous writes/reads to the

same location, a BUSY pin is provided on each port. Two

interrupt (INT) pins can be used for port-to-port communication.

Two semaphore (SEM) control pins are used for allocating

shared resources. With the M/S pin, the devices can function as

a master (BUSY pins are outputs) or as a slave (BUSY pins are

inputs). The devices also have an automatic power down feature

controlled by CE. Each port is provided with its own output

enable control (OE), which allows data to be read from the

device.

Functional Description

Write Operation

Data must be set up for a duration of t

of R/W to guarantee a valid write. A write operation is controlled

by either the R/W pin (see

Required inputs for non-contention operations are summarized

If a location is being written to by one port and the opposite port

attempts to read that location, a port-to-port flowthrough delay

must occur before the data is read on the output; otherwise the

data read is not deterministic. Data is valid on the port t

the data is presented on the other port.

Read Operation

When reading the device, the user must assert both the OE and

CE pins. Data is available t

asserted. If the user wishes to access a semaphore flag, then the

SEM pin must be asserted instead of the CE pin, and OE must

also be asserted.

Interrupts

The upper two memory locations may be used for message

passing. The highest memory location (7FFF for the

CY7C027/37, FFFF for the CY7C028/38) is the mailbox for the

right port and the second-highest memory location (7FFE for the

CY7C027/37, FFFE for the CY7C028/38) is the mailbox for the

left port. When one port writes to the other port’s mailbox, an

interrupt is generated to the owner. The interrupt is reset when

the owner reads the contents of the mailbox. The message is

user defined.

Each port can read the other port’s mailbox without resetting the

interrupt. The active state of the busy signal (to a port) prevents

the port from setting the interrupt to the winning port. Also, an

active busy to a port prevents that port from reading its own

mailbox and, thus, resetting the interrupt to it.

If an application does not require message passing, do not

connect the interrupt pin to the processor’s interrupt request

input pin.

The operation of the interrupts and their interaction with Busy is

summarized in

Document #: 38-06042 Rev. *D

Table

Figure

ACE

7) or the CE pin (see

after CE or t

before the rising edge

DOE

after OE is

Figure

DDD

after

8).

Busy

The

arbitration to resolve simultaneous memory location access

(contention). If both ports’ CEs are asserted and an address

match occurs within t

which port has access. If t

permission to the location, but it is not predictable which port gets

that permission. BUSY is asserted t

or t

Master/Slave

A M/S pin is provided to expand the word width by configuring

the device as either a master or a slave. The BUSY output of the

master is connected to the BUSY input of the slave. This allows

the device to interface to a master device with no external

components. Writing to slave devices must be delayed until after

the BUSY input has settled (t

chip may begin a write cycle during a contention situation. When

tied HIGH, the M/S pin allows the device to be used as a master

and, therefore, the BUSY line is an output. BUSY can then be

used to send the arbitration outcome to a slave.

Semaphore Operation

The CY7C027/028 and CY7C037/038 provide eight semaphore

latches, which are separate from the dual-port memory locations.

Semaphores are used to reserve resources that are shared

between the two ports.The state of the semaphore indicates that

a resource is in use. For example, if the left port wants to request

a given resource, it sets a latch by writing a zero to a semaphore

location. The left port then verifies its success in setting the latch

by reading it. After writing to the semaphore, SEM or OE must

be deasserted for t

The semaphore value is available t

edge of the semaphore write. If the left port was successful

(reads a zero), it assumes control of the shared resource,

otherwise (reads a one) it assumes the right port has control and

continues to poll the semaphore. When the right side has relin-

quished control of the semaphore (by writing a one), the left side

succeeds in gaining control of the semaphore. If the left side no

longer requires the semaphore, a one is written to cancel its

request.

Semaphores are accessed by asserting SEM LOW. The SEM

pin functions as a chip select for the semaphore latches (CE

must remain HIGH during SEM LOW). A

semaphore address. OE and R/W are used in the same manner

as a normal memory access. When writing or reading a

semaphore, the other address pins have no effect.

When writing to the semaphore, only I/O

written to the left port of an available semaphore, a one appears

at the same semaphore address on the right port. That

semaphore can now only be modified by the side showing zero

(the left port in this case). If the left port now relinquishes control

by writing a one to the semaphore, the semaphore is set to one

for both sides. However, if the right port had requested the

semaphore (written a zero) while the left port had control, the

right port would immediately own the semaphore as soon as the

left port released it.

tions.

When reading a semaphore, all sixteen/eighteen data lines

output the semaphore value. The read value is latched in an

BLC

CY7C027/028

after CE is taken LOW.

SOP

Table 3

before attempting to read the semaphore.

and

of each other, the busy logic determines

is violated, one port definitely gains

shows sample semaphore opera-

CY7C037/038

BLC

or t

SWRD

BLA

after an address match

CY7C027/028

CY7C037/038

), otherwise, the slave

+ t

is used. If a zero is

0–2

DOE

provide

represents the

after the rising

Page 15 of 19

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CY7C027-20AC Cypress Semiconductor Corp, CY7C027-20AC Datasheet - Page 15

CY7C027-20AC

Specifications of CY7C027-20AC

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