Cypress CY7C0241AV User Manual
CY7C024AV/024BV/025AV/026AV
CY7C0241AV/0251AV/036AV
3.3V 4K/8K/16K x 16/18 Dual-Port
Static RAM
Cypress Semiconductor Corporation
•
198 Champion Court
•
San Jose
,
CA 95134-1709
•
408-943-2600
Document #: 38-06052 Rev. *J
Revised December 10, 2008
Features
■
True dual-ported memory cells which enable simultaneous
access of the same memory location
access of the same memory location
■
4, 8 or 16K × 16 organization
■
(CY7C024AV/024BV
[1]
/ 025AV/026AV)
■
4 or 8K × 18 organization (CY7C0241AV/0251AV)
■
16K × 18 organization (CY7C036AV)
■
0.35 micron CMOS for optimum speed and power
■
High speed access: 20 and 25 ns
■
Low operating power
❐
Active: I
CC
= 115 mA (typical)
❐
Standby: I
SB3
= 10
μA (typical)
■
Fully asynchronous operation
■
Automatic power down
■
Expandable data bus to 32 bits, 36 bits or more using Master
and Slave chip select when using more than one device
and Slave chip select when using more than one device
■
On chip arbitration logic
■
Semaphores included to permit software handshaking
between ports
between ports
■
INT flag for port-to-port communication
■
Separate upper byte and lower byte control
■
Pin select for Master or Slave (M/S)
■
Commercial and industrial temperature ranges
■
Available in 100-pin Pb-free TQFP and 100-pin TQFP
Notes
1. CY7C024AV and CY7C024BV are functionally identical.
2. IO
2. IO
8
–IO
15
for x16 devices; IO
9
–IO
17
for x18 devices.
3. IO
0
–IO
7
for x16 devices; IO
0
–IO
8
for x18 devices.
4. A
0
–A
11
for 4K devices; A
0
–A
12
for 8K devices; A
0
–A
13
for 16K devices.
5. BUSY is an output in master mode and an input in slave mode.
R/W
L
OE
L
IO
8/9L
–IO
15/17L
IO
Control
Address
Decode
A
0L
–A
11/12/13L
CE
L
OE
L
R/W
L
BUSY
L
IO
Control
CE
L
Interrupt
Semaphore
Arbitration
SEM
L
INT
L
M/S
UB
L
LB
L
IO
0L
–IO
7/8L
R/W
R
OE
R
IO
8/9L
–IO
15/17R
CE
R
UB
R
LB
R
IO
0L
–IO
7/8R
UB
L
LB
L
A
0L
–A
11/1213L
True Dual-Ported
RAM Array
A
0R
–A
11/12/13R
CE
R
OE
R
R/W
R
BUSY
R
SEM
R
INT
R
UB
R
LB
R
Address
Decode
A
0R
–A
11/12/13R
[2]
[3]
[5]
[5]
12/13/14
8/9
8/9
12/13/14
8/9
8/9
12/13/14
12/13/14
[4]
[4]
[4]
[4]
Logic Block Diagram