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CY7C024-25JXC

4K x 16/18 and 8K x 16/18 Dual-Port Static RAM with SEM, INT, BUSY

Cypress Semiconductor 

CY7C024/0241

CY7C025/0251

Busy

The CY7C024/0241 and CY7C025/0251 provide on-chip

arbitration to resolve simultaneous memory location access

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

match occurs within tPS of each other, the busy logic will

determine which port has access. If tPS is violated, one port

will definitely gain permission to the location, but which one is

not predictable. BUSY will be asserted tBLA after an address

match or tBLC after CE is taken LOW.

Master/Slave

A M/S pin is provided in order 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 will allow 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 (tBLC or tBLA).

Otherwise, the slave 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 CY7C024/0241 and CY7C025/0251 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

tSOP before attempting to read the semaphore. The

semaphore value will be available tSWRD + tDOE after the rising

Table 1. Non-Contending Read/Write

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

relinquished control of the semaphore (by writing a one), the

left side will succeed 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). A0–2 represents the

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/O0 is used. If a zero is

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

appear 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 will

be 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. Table 3 shows

sample semaphore operations.

When reading a semaphore, all sixteen/eighteen data lines

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

output register to prevent the semaphore from changing state

during a write from the other port. If both ports attempt to

access the semaphore within tSPS of each other, the

semaphore will definitely be obtained by one side or the other,

but there is no guarantee which side will control the

semaphore.

Inputs

Outputs

CE R/W OE UB

LB

SEM

I/O0–I/O7[2]

I/O8–I/O15[3]

Operation

H

X

X

X

X

H High Z

High Z

Deselected: Power-Down

X

X

X

H

H

H High Z

High Z

Deselected: Power-Down

L

L

X

L

H

H High Z

Data In

Write to Upper Byte Only

L

L

X

H

L

H Data In

High Z

Write to Lower Byte Only

L

L

X

L

L

H Data In

Data In

Write to Both Bytes

L

H

L

L

H

H High Z

Data Out

Read Upper Byte Only

L

H

L

H

L

H Data Out

High Z

Read Lower Byte Only

L

H

L

L

L

H Data Out

Data Out

Read Both Bytes

X

X

H

X

X

X High Z

High Z

Outputs Disabled

H

H

L

X

X

L Data Out

Data Out

Read Data in Semaphore Flag

X

H

L

H

H

L Data Out

Data Out

Read Data in Semaphore Flag

H

X

X

X

L Data In

Data In

Write DIN0 into Semaphore Flag

X

X

H

H

L Data In

Data In

Write DIN0 into Semaphore Flag

L

X

X

L

X

L

L

X

X

X

L

L

Not Allowed

Not Allowed

Document #: 38-06035 Rev. *C

Page 5 of 21

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