Cypress CY7C1317CV18 Manual De Usuario
CY7C1317CV18, CY7C1917CV18
CY7C1319CV18, CY7C1321CV18
CY7C1319CV18, CY7C1321CV18
Document Number: 001-07161 Rev. *D
Page 6 of 31
Pin Definitions
Pin Name
IO
Pin Description
DQ
[x:0]
Input Output-
Synchronous
Synchronous
Data Input Output Signals. Inputs are sampled on the rising edge of K and K clocks during valid write
operations. These pins drive out the requested data during a read operation. Valid data is driven out on
the rising edge of both the C and C clocks during read operations or K and K when in single clock mode.
When read access is deselected, Q
operations. These pins drive out the requested data during a read operation. Valid data is driven out on
the rising edge of both the C and C clocks during read operations or K and K when in single clock mode.
When read access is deselected, Q
[x:0]
are automatically tri-stated.
CY7C1317CV18
− DQ
[7:0]
CY7C1917CV18
− DQ
[8:0]
CY7C1319CV18
− DQ
[17:0]
CY7C1321CV18
− DQ
[35:0]
LD
Input-
Synchronous
Synchronous Load. This input is brought LOW when a bus cycle sequence is defined. This definition
includes address and read/write direction. All transactions operate on a burst of 4 data (two clock periods
of bus activity).
includes address and read/write direction. All transactions operate on a burst of 4 data (two clock periods
of bus activity).
NWS
0
,
NWS
1
Input-
Synchronous
Nibble Write Select 0, 1
− Active LOW (CY7C1317CV18 only). Sampled on the rising edge of the K
and K clocks during write operations. Used to select which nibble is written into the device during the
current portion of the write operations. Nibbles not written remain unaltered.
NWS
current portion of the write operations. Nibbles not written remain unaltered.
NWS
0
controls D
[3:0]
and NWS
1
controls D
[7:4]
.
All the Nibble Write Selects are sampled on the same edge as the data. Deselecting a Nibble Write Select
ignores the corresponding nibble of data and it is not written into the device.
ignores the corresponding nibble of data and it is not written into the device.
BWS
0
,
BWS
1
,
BWS
2
,
BWS
3
Input-
Synchronous
Byte Write Select 0, 1, 2, and 3
− Active LOW. Sampled on the rising edge of the K and K clocks during
write operations. Used to select which byte is written into the device during the current portion of the Write
operations. Bytes not written remain unaltered.
CY7C1917CV18
operations. Bytes not written remain unaltered.
CY7C1917CV18
− BWS
0
controls D
[8:0]
CY7C1319CV18
− BWS
0
controls D
[8:0]
and BWS
1
controls D
[17:9].
CY7C1321CV18
− BWS
0
controls D
[8:0]
, BWS
1
controls D
[17:9]
, BWS
2
controls D
[26:18]
and BWS
3
controls
D
[35:27]
.
All the Byte Write Selects are sampled on the same edge as the data. Deselecting a Byte Write Select
ignores the corresponding byte of data and it is not written into the device.
ignores the corresponding byte of data and it is not written into the device.
A, A0, A1
Input-
Synchronous
Address Inputs. These address inputs are multiplexed for both read and write operations. Internally, the
device is organized as 2M x 8 (4 arrays each of 512K x 8) for CY7C1317CV18 and 2M x 9 (4 arrays each
of 512K x 9) for CY7C1917CV18, 1M x 18 (4 arrays each of 256K x 18) for CY7C1319CV18, and 512K
x 36 (4 arrays each of 128K x 36) for CY7C1321CV18.
device is organized as 2M x 8 (4 arrays each of 512K x 8) for CY7C1317CV18 and 2M x 9 (4 arrays each
of 512K x 9) for CY7C1917CV18, 1M x 18 (4 arrays each of 256K x 18) for CY7C1319CV18, and 512K
x 36 (4 arrays each of 128K x 36) for CY7C1321CV18.
CY7C1317CV18 – Because the least two significant bits of the address internally are “00”, only 19 external
address inputs are needed to access the entire memory array.
address inputs are needed to access the entire memory array.
CY7C1917CV18 – Because the least two significant bits of the address internally are “00”, only 19 external
address inputs are needed to access the entire memory array.
address inputs are needed to access the entire memory array.
CY7C1319CV18 – A0 and A1 are the inputs to the burst counter. These are incremented internally in a
linear fashion. 20 address inputs are needed to access the entire memory array.
linear fashion. 20 address inputs are needed to access the entire memory array.
CY7C1321CV18 – A0 and A1 are the inputs to the burst counter. These are incremented internally in a
linear fashion. 19 address inputs are needed to access the entire memory array.
linear fashion. 19 address inputs are needed to access the entire memory array.
R/W
Input-
Synchronous
Synchronous Read/Write Input. When LD is LOW, this input designates the access type (read when
R/W is HIGH, write when R/W is LOW) for the loaded address. R/W must meet the setup and hold times
around the edge of K.
R/W is HIGH, write when R/W is LOW) for the loaded address. R/W must meet the setup and hold times
around the edge of K.
C
Input Clock
Positive Input Clock for Output Data. C is used in conjunction with C to clock out the read data from
the device. C and C can be used together to deskew the flight times of various devices on the board back
to the controller. See
the device. C and C can be used together to deskew the flight times of various devices on the board back
to the controller. See
C
Input Clock
Negative Input Clock for Output Data. C is used in conjunction with C to clock out the read data from
the device. C and C can be used together to deskew the flight times of various devices on the board back
to the controller. See
the device. C and C can be used together to deskew the flight times of various devices on the board back
to the controller. See
K
Input Clock
Positive Input Clock Input. The rising edge of K is used to capture synchronous inputs to the device
and to drive out data through Q
and to drive out data through Q
[x:0]
when in single clock mode. All accesses are initiated on the rising
edge of K.
K
Input Clock
Negative Input Clock Input. K is used to capture synchronous data being presented to the device and
to drive out data through Q
to drive out data through Q
[x:0]
when in single clock mode.