CYPRESS CY7C1381C, CY7C1383C User Manual

查询CY7C1381C-100AC供应商

18-Mb (512K x 36/1M x 18) Flow-Through SRAM

CY7C1381C

CY7C1383C

Features

• Supports 133-MHz bus operations

• 512K X 36/1M X 18 common I/O

• 3.3V –5% and +10% core power supply (V

• 2.5V or 3.3V I/O supply (V

DDQ

)

• Fast clock-to-output times
— 6.5 ns (133-MHz version)

— 7.5 ns (117-MHz version)

— 8.5 ns (100-MHz version)

• Provide high-performance 2-1-1-1 access rate

• User-selectable burst counter supporting Intel

Pentium interleaved or linear burst sequences

• Separate processor and controller address strobes

• Synchronous self-timed write

• Asynchronous output enable

• Offered in JEDEC-standard 100-pin TQFP ,119-ball BGA

and 165-ball fBGA packages

• JTAG boundary scan for BGA and fBGA packages

• “ZZ” Sleep Mode option

DD

)



Functional Description

[1]

The CY7C1381C/CY7C1383C is a 3.3V, 512K x 36 and 1M x
18 Synchronous Flowthrough SRAMs, respectively designed
to interface with high-speed microprocessors with minimum
glue logic. Maximum access delay from clock rise is 6.5 ns
(133-MHz version). A 2-bit on-chip counter captures the first
address in a burst and increments the address automatically
for the rest of the burst access. All synchronous inputs are
gated by registers controlled by a positive-edge-triggered
Clock Input (CLK). The synchronous inputs include all
addresses, all data inputs, address-pipelining Chip Enable
(

), depth-expansion Chip Enables (CE2 and

CE

1

Control inputs (

), and Global Write (GW). Asynchronous

and

BWE

include the Output Enable

ADSC

,

ADSP

,

and

ADV

(

)

and the ZZ pin

OE

), Write Enables

[2]

), Burst

CE

3

(

BW

inputs

.

The CY7C1381C/CY7C1383C allows either interleaved or
linear burst sequences, selected by the MODE input pin. A
HIGH selects an interleaved burst sequence, while a LOW
selects a linear burst sequence. Burst accesses can be
initiated with the Processor Address Strobe (ADSP
cache Controller Address Strobe (ADSC

) inputs. Address

) or the

advancement is controlled by the Address Advancement
(ADV) input.

Addresses and chip enables are registered at rising edge of
clock when either Address Strobe Processor (
Address Strobe Controller (

) are active. Subsequent

ADSC

ADSP

) or

burst addresses can be internally generated as controlled by
the Advance pin (

ADV

).

The CY7C1381C/CY7C1383C operates from a +3.3V core
power supply while all outputs may operate with either a +2.5
or +3.3V supply. All inputs and outputs are JEDEC-standard
JESD8-5-compatible.

,

x

Selection Guide

133 MHz 117 MHz 100 MHz Unit

Maximum Access Time 6.5 7.5 8.5 ns

Maximum Operating Current 210 190 175 mA

Maximum CMOS Standby Current 70 70 70 mA

1

2

3

4

5

6

Notes:

1. For best–practices recommendations, please refer to the Cypress application note System Design Guidelines on www.cypress.com.

2. CE

Cypress Semiconductor Corporation • 3901 North First Street • San Jose, CA 95134 • 408-943-2600
Document #: 38-05238 Rev. *B Revised February 26, 2004

are for TQFP and 165 fBGA package only. 119 BGA is offered only in 1 Chip Enable.

3, CE2

C

C

A
B

C

C

7

s

A
B
C
D

A

A

A
B

Logic Block Diagram – CY7C1381C (512K x 36)

CY7C1381

CY7C1383

D

,

DQP

DQ

BYTE

BYTE

C

,

DQP

DQ

BYTE

ADDRESS
REGISTER

DQ

B

,

DQP

BYTE

DQ

A

,

DQP

BYTE

ENABLE

REGISTER

B

A

,DQP

A

ADDRESS
REGISTER

COUNTER

AND LOGIC

CLR

D

C

B

A

BURST

A

[1:0]

Q1

Q0

ADV/LD

C

A1
A0

WRITE ADDRESS

REGISTER

WRITE REGISTRY

AND DATA COHERENCY

CONTROL LOGIC

A[1:0]

Q1

BURST

COUNTER AND

LOGIC

READ LOGIC

CLR

CONTROL

Q0

SLEEP

D1
D0

BURST
LOGIC

DQ

D

,

BYTE

WRITE REGISTER

C

DQ

BYTE

WRITE REGISTER

DQ

B

,

A1'

Q1

BYTE

A0'

WRITE REGISTER

Q0

DQ

A

,

BYTE

WRITE REGISTER

WRITE

DRIVERS

DQB,DQP

WRITE DRIVER

DQ

A

,DQP

WRITE DRIVER

DQP

,

DQP

DQP

DQP

D

C

MEMORY

B

A

ARRAY

SENSE
AMPS

OUTPUT
BUFFERS

O
U

INPUT

REGISTERS

DQ
DQP
DQP
DQP
DQP

T
P

D

MEMORY

ARRAY

S

E
N
S
E

A

M

P
S

U

A

T

T
A

B
U

S

F

T

F

E

E

E

R

R

S

I

N

E

DQs
DQP
DQP

G

INPUT

REGISTER

B

MEMORY

ARRAY

A

E

SENSE
AMPS

OUTPUT
BUFFERS

DQs
DQP
DQP

INPUT

REGISTERS

0, A1, A

MODE

ADV

CLK

ADSC
ADSP

BW

D

WRITE REGISTER

WRITE REGISTER

BW

C

A0, A1, A

BW

B

MODE

A

B

CE

SLEEP

CONTROL

LK

BW

A

EN

BWE

GW
CE1

CE2
CE3

OE

ZZ

8

Logic Block Diagram – CY7C1383C (1M x 18)

0,A1,A

C

ADV/LD

BW
BW

WE

WRITE REGISTER

WRITE REGISTER

WRITE REGISTER

ADDRESS
REGISTER

MODE

ADV

CLK

OE

ADSC

ADSP

BW

BW

B

A

BWE

GW

CE

1

CE

2

CE

3

OE

CE1
CE2
CE3

ZZ

DQB,DQP

WRITE REGISTER

DQ

WRITE REGISTER

ENABLE

REGISTER

ZZ

Document #: 38-05238 Rev. *B Page 2 of 36

SLEEP

CONTROL

C

C

Pin Configurations

1CE2

A

A

BWDBWCBWBBW

CE

A

CE3VDDV

SS

CLKGWBWEOEADSC

100-pin TQFP Pinout

A

A

ADSP

ADV

CY7C1381

CY7C1383

1CE2

A

A

CE

A

NCNCBWBBW

CE3VDDV

SS

CLKGWBWEOEADSC

A

A

ADSP

ADV

DQP
DQ
DQ

V

DDQ

V

SSQ

DQ
DQ
DQ
DQ

V

SSQ

V

DDQ

DQ
DQ

VSS/DNU

V

DD

NC

V

SS

DQ
DQ

V

DDQ

V

SSQ

DQ
DQ
DQ
DQ

V

SSQ

V

DDQ

DQ
DQ

DQP

100999897969594939291908988878685848382

C

1

C

2

C

3
4
5

C

6

C

7

C

8

C

9
10
11

C

12

C

13
14
15
16
17

D

18

D

19
20
21

D

22

D

23

D

24

D

25
26
27

D

28

D

29

D

30

CY7C1381C

(512K x 36)

31323334353637383940414243444546474849

MODE

AAA

1A0

A

A

NC

NC

SS

DD

V

V

A

A

AAAAA

81

DQP

80

DQ

79

DQ

78

V

77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51

DDQ

V

SSQ

DQ
DQ
DQ
DQ
V

SSQ

V

DDQ

DQ
DQ
V

SS

NC
V

DD

ZZ
DQ
DQ
V

DDQ

V

SSQ

DQ
DQ
DQ
DQ
V

SSQ

V

DDQ

DQ
DQ
DQP

B

B

B

B

B

B

B

B

A

A

A

A

A

A

A

A

B

A

NC
NC
NC

V

DDQ

V

SSQ

NC

NC
DQ
DQ

V

SSQ

V

DDQ

DQ
DQ

VSS/DNU

V

DD

NC

V

SS

DQ
DQ

V

DDQ

V

SSQ

DQ
DQ

DQP

NC

V

SSQ

V

DDQ

NC

NC

NC

B

B

B

B

B

B

B

B

B

50

A

A

100999897969594939291908988878685848382

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

CY7C1383C

(1M x 18)

31323334353637383940414243444546474849

AAA

MODE

1A0

A

A

NC

NC

A

AAAAA

A

SS

DD

V

V

81

A

80

NC

79

NC

78

V

77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51

DDQ

V

SSQ

NC
DQP
DQ
DQ
V

SSQ

V

DDQ

DQ
DQ
V

SS

NC
V

DD

ZZ
DQ
DQ
V

DDQ

V

SSQ

DQ
DQ
NC
NC
V

SSQ

V

DDQ

NC
NC
NC

A

A

A

A

A

A

A

A

A

50

A

A

Document #: 38-05238 Rev. *B Page 3 of 36

C

C

Pin Configurations (continued)

V

A

B

C

D

E

F

G
H

K

L

M

N

P

R

T
U

DQ

DQ

V

DQ
DQ

V

J

DQ

DQ

V

DQ

DQ

V

119-ball BGA (1 Chip Enable with JTAG)

CY7C1381C (512K x 36)

2345671

DDQ

NC

NC

DDQ

DDQ

DDQ

NC

NC

DDQ

AA AA

AA

AA

DQP

C

DQ

C

DQ

DQ

C

DQ

C

V

DD

DQ

D

DQ

D

DQ

DQ

D

DQP

D

A

V

C

C

C

C

C

V

V

BW

V

SS

SS

SS

SS

NC V

V

BW

V

V

V

SS

SS

SS

SS

D

D

D

D

D

MODE

AAA

ADSP

ADSC

V

DD

NC

CE

1

OE

ADV

C

GW

DD

CLK

D

NC

BWE

A1

A0

V

DD

V

V

V

BW

V

NC

V

BW

V

V

V

NC

TDOTCKTDITMS

CY7C1381

CY7C1383

V

DDQ

A

A

AA

SS

SS

SS

SS

SS

SS

SS

SS

DQP

DQ

B

DQ

B

DQ
DQ
V

DQ

DQ

DQ

DQ

B

B

DD

A

A

A

A

B

A

DQP

A

NCNC
NC

NC

NC

DQ

DQ

V

DQ
DQ

V

DQ

DQ

V

DQ

DQ

B

B

DDQ

B

B

DDQ

A

A

DDQ

A

A

B

A

NC

ZZ

V

DDQ

CY7C1383C (1M x 18)

2

V

A

B

C

D

E

F

G

H
J

K

L

M

N

P

R

T

U

V

DQ

V

DQ

V

DQ

V

DDQ

NC

NC

B

NC

DDQ

NC

B

DDQ

NC

B

DDQ

B

NC

NC

NC

DDQ

AA AA

AA

NCDQ

DQ

B

NC

DQ

B

NC

V

DD

DQ

B

NC

DQ

B

NC

DQP

B

A

345671

ADSP

V

V

V

V

V

NC

V

BW

V

V

V

NC

A

SS

SS

SS

SS

SS

SS

A

SS

SS

SS

AA

V

SS

V

SS

V

SS

BW

B

V

SS

NC V

V

SS

V

SS

V

SS

V

SS

V

SS

MODE

ADSC

V

DD

NC

CE

1

OE

ADV

GW

DD

CLK

NC

BWE

A1

A0

V

DD

ANCA

TDOTCKTDITMS

A
AA

DQP

NC

DQ

NC

DQ

V

DD

NC

DQ

NC

DQ

NC

A

AA

NC

V

DDQ

NC

NC

NC

A

DQ

A

V

DQ

V

DQ

V

DQ

DDQ

A

NC

DDQ

A

NC

DDQ

NC

A

A

A

A

A

NC

ZZ

V

DDQ

Document #: 38-05238 Rev. *B Page 4 of 36

C

C

Pin Configurations (continued)

234 5671

NC / 288M

A

B
C
D

G
H

K

M
N

R

NC

DQP

C

DQ

C

E
F

DQ

DQ

DQ

C

C

C

NC

J

L

P

DQ

DQ

DQ

DQ

DQP

NC

D

D

D

D

D

MODE

A

A

NC

DQ

C

DQ

C

DQ

C

DQ

C

V

SS

DQ

D

DQ

D

DQ

D

DQ

D

NC

NC / 72M

NC / 36M

V

V

V

V

V

V

V

V

V

V

CE

CE

DDQ

DDQ

DDQ

DDQ

DDQ

NC

DDQ

DDQ

DDQ

DDQ

DDQ

A

A

CY7C1381

CY7C1383

165-ball fBGA (3 Chip Enable)

CY7C1381C (512K x 36)

891011

BW

1

BW

2

V

SS

V

DD

V

DD

V

DD

V

DD

V

DD

V

DD

V

DD

V

DD

V

DD

V

SS

A

A

BW

C

D

BW

V

V

V

V

V
V
V

V

V

V

SS

SS

SS

SS

SS

SS

SS

SS

SS

SS

NC

TDI

TMS

CE

B

CLK

A

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

A

A1

A0

BWE

3

GW

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

NC

TDO

TCK

ADSC

OE

V

SS

V

DD

V

DD

V

DD

V

DD

V

DD

V

DD

V

DD

V

DD

V

DD

V

SS

A

A

ADV

ADSP

V

DDQ

V

DDQ

V

DDQ

V

DDQ

V

DDQ

NC

V

DDQ

V

DDQ

V

DDQ

V

DDQ

V

DDQ

A

A

A

NC / 144M

A

NC DQP

DQ

DQ

DQ

DQ

DQ

B

DQ

B

DQ

B

DQ

B

NC

DQ

DQ

DQ

DQ

NC

DQ

A

DQ

A

DQ

A

DQ

A

DQP

A

NC

B

B

B

B

B

ZZ

A

A

A

A

A

A

AA

A

B
C
D

E
F

G

H

J
K
L

M

N
P

R

CY7C1383C (1M x 18)

234 5671

NC / 288M

NC

NC

NC

NC V

NC

NC

V

SS

DQ

B

DQ

B

DQ

B

DQ

B

DQP

B

NC

MODE

ACE

A

NC

DQ

B

DQ

B

DQ

B

DQ

B

V

SS

NC

NC

NC

NC

NC

NC / 72M

NC / 36M

CE

V

V

V

V

V

V

V

V

V

V

DDQ

DDQ

DDQ

DDQ

DDQ

NC

DDQ

DDQ

DDQ

DDQ

DDQ

A

A

BW

1

2

B

NC BW

V

SS

V

DD

V

DD

V

DD

V

DD

V

DD

V

DD

V

DD

V

DD

V

DD

V

SS

A

A

NC

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

NC

TDI

TMS

A

CE

CLK

V

SS

V

SS

SS

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

A

A1

891011

BWE

3

GW

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

V

SS

NC

TDO

TCKA0

ADSC

OE

V

SS

V

DD

V

DD

V

DD

V

DD

V

DD

DD

V

DD

V

DD

V

DD

V

SS

A

A

ADV

ADSP

V

DDQ

V

DDQ

V

DDQ

V

DDQ

V

DDQ

NC

V

DDQ

V

DDQ

V

DDQ

V

DDQ

V

DDQ

A

A

A

NC / 144M

A

NC DQP

NC

NC

NC

NC
NC

DQ

DQ

DQ

DQ

NC

DQ

DQ

DQ

DQ

ZZ

A

A

A

A

NCV

NC

NC

NC

NC

A

A

A

A

A

A

A

A

AA

Document #: 38-05238 Rev. *B Page 5 of 36

C

C

CY7C1381C–Pin Definitions

CY7C1381

CY7C1383

TQFP

(3-Chip

Name

, A1 , A 37,36,32,33,34,

A

0

Enable)

35,42,43,44,45,
46,47,48,49,50,

81,82,99,100

BGA

(1-Chip

Enable)

P4,N4,A2,B2,C2

,R2,A3,B3,C3,T

3,T4,A5,B5,C5,

T5,A6,B6,C6,R6

fBGA

(3-Chip

Enable) I/O Description

R6,P6,A2,A10,
B2,B10,N6,P3,

Input-

Synchronous
P4,P8,P9,P10,
P11,R3,R4,R8,

R9,R10,R11

BWA,BW

BWC,BW

GW

93,94,95,96 L5,G5,G3,L3 B5,A5,A4,B4 Input-

B

D

88

H4 B7 Input-

Synchronous

Synchronous

CLK 89 K4 B6 Input-

Clock

CE

CE

CE

OE

1

2

[2]

3

98 E4 A3 Input-

Synchronous

97 - B3 Input-

Synchronous

92 - A6 Input-

Synchronous

86 F4 B8 Input-

Asynchronous

Address Inputs used to select one of the
512K address locations. Sampled at the

rising edge of the CLK if ADSP
active LOW, and CE
sampled active. A

1, CE2

feed the 2-bit counter.

[1:0]

or ADSC is

, and CE

[2]

are

3

Byte Write Select Inputs, active LOW.
Qualified with BWE

to conduct byte writes to
the SRAM. Sampled on the rising edge of
CLK.

Global Write Enable Input, active LOW.
When asserted LOW on the rising edge of
CLK, a global write is conducted (ALL bytes
are written, regardless of the values on
BW

and BWE).

[A:D]

Clock Input. Used to capture all
synchronous inputs to the device. Also used
to increment the burst counter when ADV

is

asserted LOW, during a burst operation.

Chip Enable 1 Input, active LOW. Sampled
on the rising edge of CLK. Used in
conjunction with CE2 and CE
select/deselect the device. ADSP

is HIGH.

if CE

1

[2]

to

3

is ignored

Chip Enable 2 Input, active HIGH.
Sampled on the rising edge of CLK. Used in
conjunction with CE1 and CE
select/deselect the device.

[2]

to

3

Chip Enable 3 Input, active LOW. Sampled
on the rising edge of CLK. Used

in
conjunction with CE1 and CE2 to
select/deselect the device.

Output Enable, asynchronous input,
active LOW. Controls the direction of the I/O

pins. When LOW, the I/O pins behave as
outputs. When deasserted HIGH, I/O pins
are tri-stated, and act as input data pins. OE
is masked during the first clock of a read
cycle when emerging from a deselected
state.

ADV

83 G4 A9 Input-

Synchronous

Advance Input signal, sampled on the
rising edge of CLK. When asserted, it

automatically increments the address in a
burst cycle.

ADSP

84 A4 B9 Input-

Synchronous

Address Strobe from Processor, sampled
on the rising edge of CLK, active LOW.

When asserted LOW, addresses presented
to the device are captured in the address
registers. A
counter. When ADSP
asserted, only ADSP
ignored when

Document #: 38-05238 Rev. *B Page 6 of 36

are also loaded into the burst

[1:0]

and ADSC are both

is recognized. ASDP is

CE

is deasserted HIGH

1

C

C

CY7C1381C–Pin Definitions (continued)

CY7C1381

CY7C1383

TQFP

Name

ADSC

BWE

ZZ 64 T7 H11 Input-

DQ

s

(3-Chip

Enable)

85 B4 A8 Input-

87 M4 A7 Input-

52,53,56,57,58,
59,62,63,68,69,
72,73,74,75,78,

79,2,3,6,7,8,9,

12,13,18,19,22,

23,24,25,28,29

BGA

(1-Chip

Enable)

K6,L6,M6,N6,K7

,L7,N7,P7,E6,F
6,G6,H6,D7,E7,
G7,H7,D1,E1,G
1,H1,E2,F2,G2,

H2,K1,L1,N1,P1

,K2,L2,M2,N2

fBGA

(3-Chip

Enable) I/O Description

Synchronous

Synchronous

Asynchronous

M11,L11,K11,

J11,J10,K10,
L10,M10,D10,
E10,F10,G10,

D11,E11,F11,

G11,D1,E1,

F1,G1,D2,E2,

F2,G2,J1,K1,

L1,M1,J2,

K2,L2,M2,

I/O-

Synchronous

Address Strobe from Controller, sampled
on the rising edge of CLK, active LOW.

When asserted LOW, addresses presented
to the device are captured in the address
registers. A
counter. When ADSP
asserted, only ADSP

Byte Write Enable Input, active LOW.
Sampled on the rising edge of CLK. This
signal must be asserted LOW to conduct a
byte write.

ZZ “sleep” Input, active HIGH. When
asserted HIGH places the device in a
non-time-critical “sleep” condition with data
integrity preserved. For normal operation,
this pin has to be LOW or left floating. ZZ pin
has an internal pull-down.

Bidirectional Data I/O lines. As inputs, they
feed into an on-chip data register that is
triggered by the rising edge of CLK. As
outputs, they deliver the data contained in
the memory location specified by the
addresses presented during the previous
clock rise of the read cycle. The direction of
the pins is controlled by OE
asserted LOW, the pins behave as outputs.
When HIGH, DQs and DQP
in a tri-state condition.

automatically tri-stated during the data
portion of a write sequence, during the first
clock when emerging from a deselected
state, and when the device is deselected,
regardless of the state of OE

are also loaded into the burst

[1:0]

and ADSC are both

is recognized

. When OE is

are placed

[A:D]

The outputs are

.

.

DQP

[A:D]

MODE 31 R3 R1 Input-Static Selects Burst Order. When tied to GND

V

DD

Document #: 38-05238 Rev. *B Page 7 of 36

51,80,1,30 P6,D6,D2,P2 N11,C11,C1,N1 I/O-

15,41,65,91 J2,C4,J4,R4,J6 D4,D8,E4,

E8,F4,F8,

G4,G8,H4,

H8,J4,J8,
K4,K8,L4,

L8,M4,M8

Synchronous

Power Supply Power supply inputs to the core of the

Bidirectional Data Parity I/O Lines.
Functionally, these signals are identical to
DQs. During write sequences, DQP
controlled by BW

selects linear burst sequence. When tied to

or left floating selects interleaved burst

V

DD

sequence. This is a strap pin and should
remain static during device operation. Mode
Pin has an internal pull-up.

device.

correspondingly.

[A:D]

[A:D]

is

C

C

CY7C1381C–Pin Definitions (continued)

CY7C1381

CY7C1383

TQFP

Name

V

DDQ

V

SS

V

SSQ

TDO - U5 P7 JTAG serial

(3-Chip

Enable)

4,11,20,27,

54,61,70,77

17,40,67,90 H2,D3,E3,F3,H3

5,10,21,26,
55,60,71,76

BGA

(1-Chip

Enable)

A1,F1,J1,M1,U1

,

A7,F7,J7,M7,U7

,K3,

M3,N3,

P3,D5,E5,F5,H5

,K5,

M5,N5,P5

- - I/O Ground Ground for the I/O circuitry.

fBGA

(3-Chip

Enable) I/O Description

C3,C9,D3,
D9,E3,E9,
F3,F9,G3,

G9,J3,J9,

K3,K9,L3,

L9,M3,M9,

N3,N9

C4,C5,C6,
C7,C8,D5,
D6,D7,E5,

E6,E7,F5,

F6,F7,G5,

G6,G7,H5,

H6,H7,J5,
J6,J7,K5,K6,K7,
L5,L6,L7,M5,M6

,M7,N4,N8

I/O Power

Supply

Ground Ground for the core of the device.

output

Synchronous

Power supply for the I/O circuitry.

Serial data-out to the JTAG circuit.

Delivers data on the negative edge of TCK.
If the JTAG feature is not being utilized, this
pin should be left unconnected. This pin is
not available on TQFP packages.

TDI - U3 P5 JTAG serial

TMS - U2 R5 JTAG serial

TCK - U4 R7 JTAG-Clock Clock input to the JTAG circuitry. If the

NC 16,38,39,66 B1,C1,R1,T1,T2

V

/DNU 14 - - Ground/DNU This pin can be connected to Ground or

SS

,J3,D4,L4,J5,R5

,T6,U6,B7,C7,R

7

A1,A11,B1,

B11,C2,C10,H1,

H3,H9,

H10,N2,N5,N7,

N10,P1,P2,R2

input

Synchronous

input

Synchronous

- No Connects. Not internally connected to

Serial data-In to the JTAG circuit. Sampled
on the rising edge of TCK. If the JTAG feature
is not being utilized, this pin can be left
floating or connected to V
up resistor. This pin is not available on TQFP
packages.

Serial data-In to the JTAG circuit. Sampled
on the rising edge of TCK. If the JTAG feature
is not being utilized, this pin can be discon­nected or connected to V
available on TQFP packages.

JTAG feature is not being utilized, this pin
must be connected to V
available on TQFP packages.

the die. 18M, 36M, 72M, 144M and 288M are
address expansion pins are not internally
connected to the die.

should be left floating.

through a pull

DD

. This pin is not

DD

. This pin is not

SS

Document #: 38-05238 Rev. *B Page 8 of 36

C

C

CY7C1383C:Pin Definitions

CY7C1381

CY7C1383

TQFP

(3-Chip

Name

, A1 , A 37,36,32,33,34,

A

0

Enable)

35,42,43,44,45,
46,47,48,49,50,

80,81,82,99,100

BGA

(1-Chip

Enable)

P4,N4,A2,B2,
C2,R2,T2,A3,
B3,C3,T3,A5,
B5,C5,T5,A6,

B6,C6,R6,T6

fBGA

(3-Chip

Enable) I/O Description

R6,P6,A2,

A10,A11,B2,

Input-

Synchronous

B10,N6,P3,P4,

P8,P9,P10,
P11,R3,R4,

R8,R9,R10,R11

BW

GW

BWE

A,BWB

93,94 L5,G3 B5,A4 Input-

Synchronous

88 H4 B7 Input-

Synchronous

87 M4 A7 Input-

Synchronous

CLK 89 K4 B6 Input-

Clock

CE

CE

CE

OE

ADV

1

2

[2]

3

98 E4 A3 Input-

Synchronous

97 - B3 Input-

Synchronous

92 - A6 Input-

Synchronous

86 F4 B8 Input-

Asynchronous

83 G4 A9 Input-

Synchronous

Address Inputs used to select one of the
1M address locations. Sampled at the ris-

ing edge of the CLK if ADSP
active LOW, and CE
sampled active. A

1, CE2

feed the 2-bit counter.

[1:0]

or ADSC is

, and CE

[2]

are

3

Byte Write Select Inputs, active LOW.
Qualified with BWE

to conduct byte writes
to the SRAM. Sampled on the rising edge of
CLK.

Global Write Enable Input, active LOW.
When asserted LOW on the rising edge of
CLK, a global write is conducted (ALL bytes
are written, regardless of the values on
BW

and BWE).

[A:B]

Byte Write Enable Input, active LOW.
Sampled on the rising edge of CLK. This
signal must be asserted LOW to conduct a
byte write.

Clock Input. Used to capture all
synchronous inputs to the device. Also used
to increment the burst counter when ADV

is

asserted LOW, during a burst operation.

Chip Enable 1 Input, active LOW.
Sampled on the rising edge of CLK. Used in
conjunction with CE2 and CE
select/deselect the device. ADSP

if CE

is HIGH.

1

[2]

to

3

is ignored

Chip Enable 2 Input, active HIGH.
Sampled on the rising edge of CLK. Used in
conjunction with CE
select/deselect the device.

and CE

1

[2]

to

3

Chip Enable 3 Input, active LOW.
Sampled on the rising edge of CLK.

Used in
conjunction with CE1 and CE2 to
select/deselect the device.

Output Enable, asynchronous input,
active LOW. Controls the direction of the

I/O pins. When LOW, the I/O pins behave as
outputs. When deasserted HIGH, I/O pins
are tri-stated, and act as input data pins. OE
is masked during the first clock of a read
cycle when emerging from a deselected
state.

Advance Input signal, sampled on the
rising edge of CLK. When asserted, it

automatically increments the address in a
burst cycle.

Document #: 38-05238 Rev. *B Page 9 of 36

C

C

CY7C1383C:Pin Definitions (continued)

CY7C1381

CY7C1383

TQFP

Name

ADSP

ADSC

ZZ 64 T7 H11 Input-

DQ

s

(3-Chip

Enable)

84 A4 B9 Input-

85 B4 A8 Input-

58,59,62,63,68,

69,72,73,8,9,12,

13,

18,19,22,23

BGA

(1-Chip

Enable)

P7,K7,G7,E7,F6

,H6,L6,N6,D1,H

1,L1,N1,E2,G2,

K2,M2

fBGA

(3-Chip

Enable) I/O Description

Synchronous

Synchronous

Asynchronous

J10,K10,

L10,M10,

D11,E11,

F11,G11,J1,K1,

L1,M1,

D2,E2,F2,

G2

I/O-

Synchronous

Address Strobe from Processor,
sampled on the rising edge of CLK,
active LOW. When asserted LOW,

addresses presented to the device are
captured in the address registers. A
also loaded into the burst counter. When
ADSP and ADSC are both asserted, only
ADSP

is recognized. ASDP is ignored when

is deasserted HIGH

CE

1

Address Strobe from Controller,
sampled on the rising edge of CLK,
active LOW. When asserted LOW,

addresses presented to the device are
captured in the address registers. A
also loaded into the burst counter. When

and ADSC

ADSP

is recognized

ADSP

ZZ “sleep” Input, active HIGH. When
asserted HIGH places the device in a
non-time-critical “sleep” condition with data
integrity preserved. For normal operation,
this pin has to be LOW or left floating. ZZ pin
has an internal pull-down.

Bidirectional Data I/O lines. As inputs,
they feed into an on-chip data register that
is triggered by the rising edge of CLK. As
outputs, they deliver the data contained in
the memory location specified by the
addresses presented during the previous
clock rise of the read cycle. The direction of
the pins is controlled by OE
asserted LOW, the pins behave as outputs.
When HIGH, DQs and DQP
in a tri-state condition.

automatically tri-stated during the data
portion of a write sequence, during the first
clock when emerging from a deselected
state, and when the device is deselected,
regardless of the state of OE

are both asserted, only

.

. When OE is

[A:B]

The outputs are

.

are

[1:0]

are

[1:0]

are placed

DQP

[A:B]

MODE 31 R3 R1 Input-Static Selects Burst Order. When tied to GND

Document #: 38-05238 Rev. *B Page 10 of 36

74,24 D6,P2 C11,N1 I/O-

Synchronous

Bidirectional Data Parity I/O Lines.
Functionally, these signals are identical to

During write sequences, DQP

DQ

s.

controlled by BW

selects linear burst sequence. When tied to

or left floating selects interleaved burst

V

DD

sequence. This is a strap pin and should
remain static during device operation. Mode
Pin has an internal pull-up.

correspondingly.

[A:B]

[A:B]

is

C

C

CY7C1383C:Pin Definitions (continued)

CY7C1381

CY7C1383

TQFP

Name

V

DD

V

DDQ

V

SS

V

SSQ

TDO - U5 P7 JTAG serial

TDI - U3 P5 JTAG serial

TMS - U2 R5 JTAG serial

TCK - U4 R7 JTAG-Clock Clock input to the JTAG circuitry. If the

(3-Chip

Enable)

15,41,65,91 C4,J2,J4,J6,R4 D4,D8,E4,

4,11,20,27,

54,61,70,77

17,40,67,90 D3,D5,E3,E5,F3

5,10,21,26,

55,60,71,76,

BGA

(1-Chip

Enable)

A1,A7,F1,F7,J1,

J7,M1,M7,U1,U

7

,F5,G5,H3,

H5,K3,K5,L3,M3

,

M5,N3,

N5,P3,P5

- - I/O Ground Ground for the I/O circuitry.

fBGA

(3-Chip

Enable) I/O Description

Power Supply Power supply inputs to the core of the

E8,F4,F8,

G4,G8,

H4,H8,J4,

J8,K4,K8,

L4,L8,M4,

M8

C3,C9,D3,
D9,E3,E9,
F3,F9,G3,

G9,J3,J9,
K3,K9,L3,

L9,M3,M9,

N3,N9

C4,C5,C6,
C7,C8,D5,
D6,D7,E5,

E6,E7,F5,
F6,F7,G5,

G6,G7,H1,

H2,H5,H6,

H7,J5,J6,J7,K5,

K6,K7,L5,L6,L7,

M5,

M6,M7,N4,

N8

I/O Power

Supply

Ground Ground for the core of the device.

output

Synchronous

input

Synchronous

input

Synchronous

device.

Power supply for the I/O circuitry.

Serial data-out to the JTAG circuit.

Delivers data on the negative edge of TCK.
If the JTAG feature is not being utilized, this
pin should be left unconnected. This pin is
not available on TQFP packages.

Serial data-In to the JTAG circuit.
Sampled on the rising edge of TCK. If the
JTAG feature is not being utilized, this pin
can be left floating or connected to V
through a pull up resistor. This pin is not
available on TQFP packages.

Serial data-In to the JTAG circuit.
Sampled on the rising edge of TCK. If the
JTAG feature is not being utilized, this pin
can be disconnected or connected to V
This pin is not available on TQFP packages.

JTAG feature is not being utilized, this pin
must be connected to V
available on TQFP packages.

. This pin is not

SS

DD

DD

.

Document #: 38-05238 Rev. *B Page 11 of 36