CY7C1324H
2-Mbit (128K x 18) Flow-Through Sync SRAM
first address in a burst and increments the address automati-
cally 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
Features
• 128K x 18 common I/O
• 3.3V core power supply
• 3.3V/2.5V I/O supply
(CE ), depth-expansion Chip Enables (CE and CE ), Burst
1
2
3
Control inputs (ADSC, ADSP,
ADV), Write Enables
and
), and Global Write (
(OE)
• Fast clock-to-output times
— 6.5 ns (133-MHz version)
• Provide high-performance 2-1-1-1 access rate
(BW
BWE
GW
,
). Asynchronous
and
[A:B]
. The
and the ZZ pin
nputs include the Output Enable
i
CY7C1324H 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) or the cache Controller
Address Strobe (ADSC) inputs. Address 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 (ADSP) or
Address Strobe Controller (ADSC) are active. Subsequent
burst addresses can be internally generated as controlled by
the Advance pin (ADV).
®
• 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 lead-free 100-pin TQFP
package
• “ZZ” Sleep Mode option
Functional Description[1]
The CY7C1324H operates from a +3.3V core power supply
while all outputs may operate with either a +3.3V or +2.5V
supply. All inputs and outputs are JEDEC-standard
JESD8-5-compatible.
The CY7C1324H is a 128K x 18 synchronous cache RAM
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
Logic Block Diagram
ADDRESS
REGISTER
A0,A1,A
A[1:0]
MODE
Q1
ADV
CLK
BURST
COUNTER AND
LOGIC
CLR
Q0
ADSC
ADSP
DQB,DQPB
DQB,DQPB
WRITE REGISTER
WRITE DRIVER
BWB
MEMORY
ARRAY
OUTPUT
BUFFERS
DQs
DQPA
DQPB
SENSE
AMPS
DQA,DQPA
DQA,DQPA
WRITE REGISTER
WRITE DRIVER
BWA
BWE
INPUT
GW
REGISTERS
ENABLE
REGISTER
CE1
CE2
CE3
OE
SLEEP
CONTROL
ZZ
Note:
1. For best-practices recommendations, please refer to the Cypress application note System Design Guidelines on www.cypress.com.
Cypress Semiconductor Corporation
Document #: 001-00208 Rev. *B
•
198 Champion Court
•
San Jose, CA 95134-1709
•
408-943-2600
Revised April 26, 2006
CY7C1324H
Pin Definitions
Name
I/O
Description
Address Inputs used to select one of the 128K address locations. Sampled at the rising
A0, A1, A
Input-
Synchronous edge of the CLK if ADSP or ADSC is active LOW, and CE , CE , and CE are sampled active.
1
2
3
A
feed the 2-bit counter.
[1:0]
BW BW
Input-
Byte Write Select Inputs, active LOW. Qualified with BWE to conduct Byte Writes to the
A,
B
Synchronous SRAM. Sampled on the rising edge of CLK.
GW
Input-
Global Write Enable Input, active LOW. When asserted LOW on the rising edge of CLK, a
Synchronous global Write is conducted (ALL bytes are written, regardless of the values on BW
and BWE).
[A:B]
BWE
CLK
Input-
Byte Write Enable Input, active LOW. Sampled on the rising edge of CLK. This signal must
Synchronous be asserted LOW to conduct a Byte Write.
Input-Clock 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.
CE
CE
CE
Input-
Chip Enable 1 Input, active LOW. Sampled on the rising edge of CLK. Used in conjunction
CE
1
2
3
Synchronous with CE and CE to select/deselect the device. ADSP is ignored
if CE is HIGH
.
is sampled
2
3
1
1
only when a new external address is loaded.
Chip Enable 2 Input, active HIGH. Sampled on the rising edge of CLK. Used in conjunction
Synchronous with CE and CE to select/deselect the device. CE
Input-
is sampled only when a new external
1
3
2
address is loaded.
Chip Enable 3 Input, active LOW. Sampled on the rising edge of CLK. Used in conjunction
Synchronous with CE and CE to select/deselect the device. CE is sampled only when a new external
Input-
1
2
3
address is loaded.
OE
Input-
Output Enable, asynchronous input, active LOW. Controls the direction of the I/O pins.
Asynchronous 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
Input-
Advance Input signal, sampled on the rising edge of CLK. When asserted, it automatically
Synchronous increments the address in a burst cycle.
ADSP
Input-
Address Strobe from Processor, sampled on the rising edge of CLK, active LOW. When
Synchronous asserted LOW, addresses presented to the device are captured in the address registers.
A
are also loaded into the burst counter. When ADSP and ADSC are both asserted,
[1:0]
only ADSP is recognized. ASDP is ignored when
CE is deasserted HIGH
1
ADSC
Input-
Synchronous asserted LOW, addresses presented to the device are captured in the address registers.
are also loaded into the burst counter. When ADSP and ADSC are both asserted,
Address Strobe from Controller, sampled on the rising edge of CLK, active LOW. When
A
[1:0]
only ADSP is recognized.
ZZ
Input-
ZZ “sleep” Input, active HIGH. When asserted HIGH places the device in a non-time-critical
Asynchronous “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.
DQs
DQP DQP
I/O-
Bidirectional Data I/O Lines. As inputs, they feed into an on-chip data register that is triggered
Synchronous 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. When OE is asserted LOW, the pins behave as outputs.
A,
B
When HIGH, DQs and DQP
are placed in a tri-state condition.
[A:B]
V
Power
Supply
Power supply inputs to the core of the device.
DD
V
V
Ground
Ground for the device.
SS
I/O Power
Supply
Power supply for the I/O circuitry.
DDQ
MODE
NC
Input-
Static
Selects Burst Order. When tied to GND selects linear burst sequence. When tied to V or
left floating selects interleaved burst sequence. This is a strap pin and should remain static
during device operation. Mode Pin has an internal pull-up.
DD
No Connects. Not Internally connected to the die. 4M, 9M, 18M, 72M, 144M, 288M, 576M, and
1G are address expansion pins and are not internally connected to the die.
Document #: 001-00208 Rev. *B
Page 3 of 15
CY7C1324H
active, (2) ADSC is asserted LOW, (3) ADSP is deasserted
HIGH, and (4) the write input signals (GW, BWE, and BW[A:B])
indicate a write access. ADSC is ignored if ADSP is active
LOW.
Functional Overview
All synchronous inputs pass through input registers controlled
by the rising edge of the clock. Maximum access delay from
the clock rise (t
) is 6.5 ns (133-MHz device).
CDV
The addresses presented are loaded into the address register
and the burst counter/control logic and delivered to the
memory core. The information presented to DQ[A:D] will be
written into the specified address location. Byte Writes are
allowed. During Byte Writes, BWA controls DQA and BWB
controls DQB. All I/Os are tri-stated when a Write is detected,
even a Byte Write. Since this is a common I/O device, the
asynchronous OE input signal must be deasserted and the
I/Os must be tri-stated prior to the presentation of data to DQs.
As a safety precaution, the data lines are tri-stated once a
Write cycle is detected, regardless of the state of OE.
The CY7C1324H supports secondary cache in systems
utilizing either a linear or interleaved burst sequence. The
interleaved burst order supports Pentium and i486™
processors. The linear burst sequence is suited for processors
that utilize a linear burst sequence. The burst order is
user-selectable, and is determined by sampling the MODE
input. Accesses can be initiated with either the Processor
Address Strobe (ADSP) or the Controller Address Strobe
(ADSC). Address advancement through the burst sequence is
controlled by the ADV input. A two-bit on-chip wraparound
burst counter captures the first address in a burst sequence
and automatically increments the address for the rest of the
burst access.
Burst Sequences
The CY7C1324H provides an on-chip two-bit wraparound
burst counter inside the SRAM. The burst counter is fed by
Byte write operations are qualified with the Byte Write Enable
(BWE) and Byte Write Select (BW
Enable (GW) overrides all byte write inputs and writes data to
all four bytes. All writes are simplified with on-chip
synchronous self-timed write circuitry.
) inputs. A Global Write
[A:B]
A
, and can follow either a linear or interleaved burst order.
[1:0]
The burst order is determined by the state of the MODE input.
A LOW on MODE will select a linear burst sequence. A HIGH
on MODE will select an interleaved burst order. Leaving
MODE unconnected will cause the device to default to an
interleaved burst sequence.
Three synchronous Chip Selects (CE , CE , CE ) and an
asynchronous Output Enable (OE) provide for easy bank
1
2
3
selection and output tri-state control. ADSP is ignored if CE
is HIGH.
1
Sleep Mode
Single Read Accesses
The ZZ input pin is an asynchronous input. Asserting ZZ
places the SRAM in a power conservation “sleep” mode. Two
clock cycles are required to enter into or exit from this “sleep”
mode. While in this mode, data integrity is guaranteed.
Accesses pending when entering the “sleep” mode are not
considered valid nor is the completion of the operation
guaranteed. The device must be deselected prior to entering
the “sleep” mode. CEs, ADSP, and ADSC must remain
A single read access is initiated when the following conditions
are satisfied at clock rise: (1) CE , CE , and CE are all
1
2
3
asserted active, and (2) ADSP or ADSC is asserted LOW (if
the access is initiated by ADSC, the write inputs must be
deasserted during this first cycle). The address presented to
the address inputs is latched into the address register and the
burst counter/control logic and presented to the memory core.
If the OE input is asserted LOW, the requested data will be
inactive for the duration of t
after the ZZ input returns
ZZREC
LOW.
available at the data outputs a maximum to t
after clock
CDV
rise. ADSP is ignored if CE is HIGH.
Interleaved Burst Address Table
(MODE = Floating or VDD
1
)
Single Write Accesses Initiated by ADSP
First
Second
Address
A1, A0
Third
Address
A1, A0
Fourth
Address
A1, A0
This access is initiated when the following conditions are
satisfied at clock rise: (1) CE , CE , CE are all asserted
active, and (2) ADSP is asserted LOW. The addresses
presented are loaded into the address register and the burst
Address
A1, A0
1
2
3
00
01
10
11
01
00
11
10
10
11
00
01
11
10
01
00
inputs (GW, BWE, and BW
) are ignored during this first
[A:B]
clock cycle. If the write inputs are asserted active (see Write
Cycle Descriptions table for appropriate states that indicate a
Write) on the next clock rise, the appropriate data will be
latched and written into the device. Byte Writes are allowed.
During Byte Writes, BWA controls DQA and BWB controls
DQB. All I/Os are tri-stated during a Byte Write. Since this is a
common I/O device, the asynchronous OE input signal must
be deasserted and the I/Os must be tri-stated prior to the
presentation of data to DQs. As a safety precaution, the data
lines are tri-stated once a write cycle is detected, regardless
of the state of OE.
Linear Burst Address Table (MODE = GND)
First
Address
A ,A
Second
Address
A ,A
Third
Address
A ,A
Fourth
Address
A ,A
1
0
1
0
1
0
1
0
00
01
10
11
01
10
11
10
11
00
11
00
01
00
01
10
Single Write Accesses Initiated by ADSC
This write access is initiated when the following conditions are
satisfied at clock rise: (1) CE , CE , and CE are all asserted
1
2
3
Document #: 001-00208 Rev. *B
Page 4 of 15
CY7C1324H
ZZ Mode Electrical Characteristics
Parameter
Description
Sleep mode standby current
Device operation to ZZ
Test Conditions
ZZ > V – 0.2V
Min.
Max.
Unit
mA
ns
I
t
t
t
t
40
DDZZ
DD
ZZ > V – 0.2V
2t
ZZS
DD
CYC
CYC
ZZ recovery time
ZZ < 0.2V
2t
ns
ZZREC
ZZI
CYC
ZZ Active to sleep current
ZZ Inactive to exit sleep current
This parameter is sampled
This parameter is sampled
2t
ns
0
ns
RZZI
Truth Table[2, 3, 4, 5]
ADDRESS
Used
Cycle Description
CE CE CE
3
ZZ ADSP ADSC ADV WE OE CLK
DQ
1
2
Deselected Cycle,
Power-down
None
None
None
None
None
H
L
L
L
X
X
X
X
H
X
X
L
L
L
L
L
X
L
X
X
L
L
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
L-H
L-H
L-H
L-H
L-H
Tri-State
Deselected Cycle,
Power-down
L
L
Tri-State
Tri-State
Tri-State
Tri-State
Deselected Cycle,
Power-down
X
L
L
Deselected Cycle,
Power-down
H
H
Deselected Cycle,
Power-down
X
Sleep Mode, Power-down
Read Cycle, Begin Burst
Read Cycle, Begin Burst
Write Cycle, Begin Burst
Read Cycle, Begin Burst
Read Cycle, Begin Burst
Read Cycle, Continue Burst
Read Cycle, Continue Burst
Read Cycle, Continue Burst
Read Cycle, Continue Burst
Write Cycle, Continue Burst
Write Cycle, Continue Burst
Read Cycle, Suspend Burst
Read Cycle, Suspend Burst
Read Cycle, Suspend Burst
Read Cycle, Suspend Burst
Write Cycle, Suspend Burst
None
External
External
External
External
External
Next
X
L
X
H
H
H
H
H
X
X
X
X
X
X
X
X
X
X
X
X
X
L
H
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
L
X
L
X
X
X
L
X
X
X
X
X
X
L
X
X
X
L
X
L
X
Tri-State
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
L-H
Q
L
L
L
H
X
L
Tri-State
L
L
H
H
H
H
H
X
X
H
X
H
H
X
X
H
X
D
L
L
L
H
H
H
H
H
H
L
Q
L
L
L
H
L
Tri-State
X
X
H
H
X
H
X
X
H
H
X
H
X
X
X
X
X
X
X
X
X
X
X
X
H
H
H
H
H
H
H
H
H
H
H
H
Q
Next
L
H
L
Tri-State
Next
L
Q
Next
L
H
X
X
L
Tri-State
Next
L
D
Next
L
L
D
Current
Current
Current
Current
Current
Current
H
H
H
H
H
H
H
H
H
H
L
Q
H
L
Tri-State
Q
H
X
X
Tri-State
D
D
Write Cycle, Suspend Burst
L
Notes:
2. X = “Don't Care.” H = Logic HIGH, L =Logic LOW.
3. WRITE = L when any one or more Byte Write Enable signals (BW , BW ) and BWE = L or GW= L. WRITE = H when all Byte Write Enable signals (BW , BW ),
A
B
A
B
BWE, GW = H.The DQ pins are controlled by the current cycle and the OE signal. OE is asynchronous and is not sampled with the clock.
4. The SRAM always initiates a Read cycle when ADSP is asserted, regardless of the state of GW, BWE, or BW
. Writes may occur only on subsequent clocks
[A: B]
after the ADSP or with the assertion of ADSC. As a result, OE must be driven HIGH prior to the start of the Write cycle to allow the outputs to tri-state. OE is a
don't care for the remainder of the Write cycle
5. OE is asynchronous and is not sampled with the clock rise. It is masked internally during Write cycles. During a read cycle all data bits are Tri-State when OE
is inactive or when the device is deselected, and all data bits behave as output when OE is active (LOW)
Document #: 001-00208 Rev. *B
Page 5 of 15
CY7C1324H
Truth Table for Read/Write[2, 3]
Function
GW
H
BWE
BW
X
BW
A
B
Read
Read
H
L
L
L
L
X
X
H
L
H
H
H
L
Write Byte (A, DQP )
H
A
Write Byte (B, DQP )
H
H
L
B
Write All Bytes
Write All Bytes
H
L
L
X
X
Document #: 001-00208 Rev. *B
Page 6 of 15
CY7C1324H
DC Input Voltage ................................... –0.5V to V + 0.5V
Maximum Ratings
DD
Current into Outputs (LOW)......................................... 20 mA
(Above which the useful life may be impaired. For user guide-
lines, not tested.)
Static Discharge Voltage.......................................... > 2001V
(per MIL-STD-883, Method 3015)
Storage Temperature .................................–65°C to +150°C
Latch-up Current.................................................... > 200 mA
Ambient Temperature with
Power Applied.............................................–55°C to +125°C
Operating Range
Supply Voltage on V Relative to GND........ –0.5V to +4.6V
DD
Ambient
Supply Voltage on V
Relative to GND ......–0.5V to +V
Range
Commercial
Industrial
Temperature
0°C to +70°C
–40°C to +85°C
V
V
DDQ
DDQ
DD
DD
DC Voltage Applied to Outputs
in Tri-State........................................... –0.5V to V
3.3V
−5%/+10%
2.5V –5%
+ 0.5V
to V
DDQ
DD
[6, 7]
Electrical Characteristics Over the Operating Range
Parameter
Description
Power Supply Voltage
I/O Supply Voltage
Test Conditions
Min.
Max.
Unit
V
V
3.135
3.135
2.375
2.4
3.6
DD
V
V
V
V
V
I
for 3.3V I/O
for 2.5V I/O
V
V
DDQ
DD
2.625
V
V
Output HIGH Voltage
Output LOW Voltage
Input HIGH Voltage
for 3.3V I/O, I = –4.0 mA
OH
OH
OL
IH
for 2.5V I/O, I = –1.0 mA
2.0
OH
for 3.3V I/O, I = 8.0 mA
0.4
0.4
V
V
OL
for 2.5V I/O, I = 1.0 mA
OL
for 3.3V I/O
for 2.5V I/O
for 3.3V I/O
for 2.5V I/O
2.0
1.7
V
V
+ 0.3V
DD
DD
+ 0.3V
0.8
[6]
Input LOW Voltage
–0.3
–0.3
−5
V
IL
0.7
Input Leakage Current GND ≤ V ≤ V
except ZZ and MODE
5
µA
X
I
DDQ
Input Current of MODE Input = V
–30
–5
µA
µA
µA
µA
µA
mA
SS
Input = V
5
DD
Input Current of ZZ
Input = V
Input = V
SS
DD
30
5
I
I
Output Leakage Current GND ≤ V ≤ V
, Output Disabled
–5
OZ
I
DDQ
V
Operating Supply
V = Max., I
DD
= 0 mA,
7.5-ns cycle, 133 MHz
225
DD
DD
OUT
Current
f = f
= 1/t
MAX CYC
I
I
I
Automatic CE
Power-Down
Current—TTL Inputs
Max. V , Device Deselected, 7.5-ns cycle, 133 MHz
90
mA
mA
mA
SB1
DD
V
≥ V or V ≤ V , f = f
IN IH IN IL MAX,
inputs switching
Automatic CE
Power-Down
Current—CMOS Inputs f = 0, inputs static
Max. V , Device Deselected, 7.5-ns cycle, 133 MHz
40
75
SB2
SB3
DD
V
≥ V – 0.3V or V ≤ 0.3V,
IN
DD IN
Automatic CE
Power-Down
Current—CMOS Inputs 0.3V,
f = f
Max. V , Device Deselected, 7.5-ns cycle, 133 MHz
DD
V
≥ V
– 0.3V or V
≤
IN
DDQ
IN
, inputs switching
MAX
I
Automatic CE
Power-Down
Current—TTL Inputs
Max. V , Device Deselected, 7.5-ns cycle, 133 MHz
45
mA
SB4
DD
V
≥ V – 0.3V or V ≤ 0.3V,
IN DD IN
f = 0, inputs static
Notes:
6. Overshoot: V (AC) < V +1.5V (Pulse width less than t
/2), undershoot: V (AC) > –2V (Pulse width less than t /2).
CYC
IH
DD
CYC
IL
7. T
: Assumes a linear ramp from 0v to V (min.) within 200 ms. During this time V < V and V
< V
.
Power-up
DD
IH
DD
DDQ
DD
Document #: 001-00208 Rev. *B
Page 7 of 15
CY7C1324H
Capacitance[8]
100 TQFP
Parameter
Description
Test Conditions
Max.
Unit
pF
C
C
C
Input Capacitance
T = 25°C, f = 1 MHz,
5
5
5
IN
A
V
= 3.3V.
DD
Clock Input Capacitance
Input/Output Capacitance
pF
CLK
I/O
V
= 2.5V
DDQ
pF
Thermal Resistance[8]
100 TQFP
Package
Parameter
Description
Test Conditions
Unit
Θ
Θ
Thermal Resistance
(Junction to Ambient)
Test conditions follow standard test methods and proce-
dures for measuring thermal impedance, per
EIA/JESD51
30.32
°C/W
JA
Thermal Resistance
(Junction to Case)
6.85
°C/W
JC
AC Test Loads and Waveforms
3.3V I/O Test Load
R = 317Ω
3.3V
OUTPUT
ALL INPUT PULSES
90%
VDD
OUTPUT
90%
10%
Z = 50Ω
0
10%
R = 50Ω
L
GND
5 pF
R = 351Ω
≤ 1 ns
≤ 1 ns
INCLUDING
JIG AND
SCOPE
V = 1.5V
L
(a)
(b)
(c)
2.5V I/O Test Load
R = 1667Ω
2.5V
OUTPUT
R = 50Ω
OUTPUT
ALL INPUT PULSES
90%
VDDQ
90%
10%
Z = 50Ω
0
10%
L
GND
5 pF
R =1538Ω
≤ 1 ns
≤ 1 ns
INCLUDING
V = 1.25V
T
JIG AND
SCOPE
(a)
(b)
(c)
Notes:
8. Tested initially and after any design or process change that may affect these parameters.
Document #: 001-00208 Rev. *B
Page 8 of 15
CY7C1324H
[9, 10]
Switching Characteristics Over the Operating Range
-133
Parameter
Description
Min.
Max.
Unit
[11]
t
V
(Typical) to the First Access
1
ms
POWER
DD
Clock
t
t
t
Clock Cycle Time
Clock HIGH
7.5
2.5
2.5
ns
ns
ns
CYC
CH
Clock LOW
CL
Output Times
t
t
t
t
t
t
t
Data Output Valid after CLK Rise
Data Output Hold after CLK Rise
6.5
ns
ns
ns
ns
ns
ns
ns
CDV
2.0
0
DOH
CLZ
[12, 13, 14]
Clock to Low-Z
[12, 13, 14]
Clock to High-Z
3.5
3.5
CHZ
OEV
OELZ
OEHZ
OE LOW to Output Valid
[12, 13, 14]
OE LOW to Output Low-Z
0
[12, 13, 14]
OE HIGH to Output High-Z
3.5
Set-up Times
t
Address Set-up before CLK Rise
ADSP, ADSC Set-up before CLK Rise
ADV Set-up before CLK Rise
1.5
ns
AS
t
t
t
t
t
1.5
1.5
1.5
1.5
1.5
ns
ns
ns
ns
ns
ADS
ADVS
WES
DS
GW, BWE, BW
Set-up before CLK Rise
[A:B]
Data Input Set-up before CLK Rise
Chip Enable Set-up
CES
Hold Times
t
t
t
t
t
t
Address Hold after CLK Rise
0.5
0.5
0.5
0.5
0.5
0.5
ns
ns
ns
ns
ns
ns
AH
ADSP, ADSC Hold after CLK Rise
ADH
WEH
ADVH
DH
GW, BWE, BW
Hold after CLK Rise
[A:B]
ADV Hold after CLK Rise
Data Input Hold after CLK Rise
Chip Enable Hold after CLK Rise
CEH
Notes:
9. Timing reference level is 1.5V when V
= 3.3V and 1.25V when V
= 2.5V
DDQ
DDQ
10. Test conditions shown in (a) of AC Test Loads unless otherwise noted.
11. This part has a voltage regulator internally; t
is the time that the power needs to be supplied above V (minimum) initially before a Read or Write operation
POWER
DD
can be initiated.
12. t
, t
, t
, and t
are specified with AC test conditions shown in part (b) of AC Test Loads. Transition is measured ± 200 mV from steady-state voltage.
CHZ CLZ OELZ
OEHZ
13. At any given voltage and temperature, t
is less than t
and t
is less than t
to eliminate bus contention between SRAMs when sharing the same
CLZ
OEHZ
OELZ
CHZ
data bus. These specifications do not imply a bus contention condition, but reflect parameters guaranteed over worst case user conditions. Device is designed
to achieve High-Z prior to Low-Z under the same system conditions.
14. This parameter is sampled and not 100% tested.
Document #: 001-00208 Rev. *B
Page 9 of 15
CY7C1324H
Timing Diagrams
[15]
Read Cycle Timing
t
CYC
t
CLK
t
CL
CH
t
t
ADH
ADS
ADSP
ADSC
t
t
ADH
ADS
t
t
AH
AS
A1
A2
ADDRESS
t
t
WES
WEH
GW, BWE,BW[A:B]
Deselect Cycle
t
t
CES
CEH
CE
t
t
ADVH
ADVS
ADV
OE
ADV suspends burst.
t
t
t
CDV
OEV
OELZ
t
t
OEHZ
CHZ
t
DOH
t
CLZ
Q(A2)
Q(A2 + 1)
Q(A2 + 2)
Q(A2 + 3)
Q(A2)
Q(A2 + 1)
Q(A2 + 2)
Q(A1)
Data Out (Q)
High-Z
t
CDV
Burst wraps around
to its initial state
Single READ
BURST
READ
DON’T CARE
UNDEFINED
Note:
15. On this diagram, when CE is LOW, CE is LOW, CE is HIGH and CE is LOW. When CE is HIGH, CE is HIGH or CE is LOW or CE is HIGH.
1
2
3
1
2
3
Document #: 001-00208 Rev. *B
Page 10 of 15
CY7C1324H
Timing Diagrams (continued)
[15, 16]
Write Cycle Timing
t
CYC
CLK
t
t
CL
CH
t
t
ADH
ADS
ADSP
ADSC extends burst.
t
t
t
ADH
ADS
t
ADH
ADS
ADSC
t
t
AH
AS
A1
A2
A3
ADDRESS
Byte write signals are ignored for first cycle when
ADSP initiates burst.
t
t
WEH
WES
BWE,
BW[A:B]
t
t
WEH
WES
GW
t
t
CEH
CES
CE
t
t
ADVH
ADVS
ADV
ADV suspends burst.
OE
t
t
DH
DS
Data in (D)
D(A2)
D(A2 + 1)
D(A2 + 1)
D(A2 + 2)
D(A2 + 3)
D(A3)
D(A3 + 1)
D(A3 + 2)
D(A1)
High-Z
t
OEHZ
Data Out (Q)
BURST READ
Single WRITE
BURST WRITE
Extended BURST WRITE
DON’T CARE
UNDEFINED
Note:
16.
Full width Write can be initiated by either GW LOW; or by GW HIGH, BWE LOW and BW
LOW.
[A:B]
Document #: 001-00208 Rev. *B
Page 11 of 15
CY7C1324H
Timing Diagrams (continued)
[15, 17, 18]
Read/Write Timing
t
CYC
CLK
t
t
CL
CH
t
t
ADH
ADS
ADSP
ADSC
t
t
AH
AS
A1
A2
A3
A4
A5
A6
ADDRESS
BWE, BW[A:B]
CE
t
t
WEH
WES
t
t
CEH
CES
ADV
OE
t
t
DH
DS
t
OELZ
t
High-Z
D(A3)
D(A5)
D(A6)
Data In (D)
t
OEHZ
CDV
Data Out (Q)
Q(A1)
Q(A2)
Q(A4)
Q(A4+1)
Q(A4+2)
Q(A4+3)
Back-to-Back
Back-to-Back READs
Single WRITE
BURST READ
WRITEs
DON’T CARE
UNDEFINED
Notes:
17. The data bus (Q) remains in High-Z following a Write cycle unless an ADSP, ADSC, or ADV cycle is performed.
18. GW is HIGH.
Document #: 001-00208 Rev. *B
Page 12 of 15
CY7C1324H
Timing Diagrams (continued)
[19, 20]
ZZ Mode Timing
CLK
t
t
ZZ
ZZREC
ZZ
t
ZZI
I
SUPPLY
I
DDZZ
t
RZZI
ALL INPUTS
(except ZZ)
DESELECT or READ Only
Outputs (Q)
High-Z
DON’T CARE
Notes:
19. Device must be deselected when entering ZZ mode. See Cycle Descriptions table for all possible signal conditions to deselect the device.
20. DQs are in High-Z when exiting ZZ sleep mode.
Document #: 001-00208 Rev. *B
Page 13 of 15
CY7C1324H
Ordering Information
“Not all of the speed, package and temperature ranges are available. Please contact your local sales representative or
Speed
(MHz)
Package
Diagram
Operating
Range
Ordering Code
Package Type
133 CY7C1324H-133AXC 51-85050 100-pin Thin Quad Flat Pack (14 x 20 x 1.4 mm) Lead-Free
CY7C1324H-133AXI 51-85050 100-pin Thin Quad Flat Pack (14 x 20 x 1.4 mm) Lead-Free
Commercial
Industrial
Package Diagram
100-pin TQFP (14 x 20 x 1.4 mm) (51-85050)
16.00 0.20
14.00 0.10
1.40 0.05
100
81
80
1
0.30 0.08
0.65
TYP.
12° 1°
(8X)
SEE DETAIL
A
30
51
31
50
0.20 MAX.
1.60 MAX.
R 0.08 MIN.
0.20 MAX.
0° MIN.
SEATING PLANE
STAND-OFF
0.05 MIN.
0.15 MAX.
NOTE:
1. JEDEC STD REF MS-026
0.25
GAUGE PLANE
2. BODY LENGTH DIMENSION DOES NOT INCLUDE MOLD PROTRUSION/END FLASH
MOLD PROTRUSION/END FLASH SHALL NOT EXCEED 0.0098 in (0.25 mm) PER SIDE
R 0.08 MIN.
0.20 MAX.
BODY LENGTH DIMENSIONS ARE MAX PLASTIC BODY SIZE INCLUDING MOLD MISMATCH
3. DIMENSIONS IN MILLIMETERS
0°-7°
0.60 0.15
1.00 REF.
0.20 MIN.
51-85050-*B
DETAIL
A
Intel and Pentium are registered trademarks and i486 is a trademark of Intel Corporation. All product and company names
mentioned in this document may be the trademarks of their respective holders.
Document #: 001-00208 Rev. *B
Page 14 of 15
© Cypress Semiconductor Corporation, 2006. The information contained herein is subject to change without notice. Cypress Semiconductor Corporation assumes no responsibility for the use
of any circuitry other than circuitry embodied in a Cypress product. Nor does it convey or imply any license under patent or other rights. Cypress products are not warranted nor intended to be
used for medical, life support, life saving, critical control or safety applications, unless pursuant to an express written agreement with Cypress. Furthermore, Cypress does not authorize its
products for use as critical components in life-support systems where a malfunction or failure may reasonably be expected to result in significant injury to the user. The inclusion of Cypress
products in life-support systems application implies that the manufacturer assumes all risk of such use and in doing so indemnifies Cypress against all charges.
CY7C1324H
Document History Page
Document Title: CY7C1324H 2-Mbit (128K x 18) Flow-Through Sync SRAM
Document Number: 001-00208
Orig. of
REV.
**
ECN NO. Issue Date Change
Description of Change
347377
428408
See ECN
See ECN
PCI
New Data Sheet
Converted from Preliminary to Final.
*A
NXR
Changed address of Cypress Semiconductor Corporation on Page# 1 from
“3901 North First Street” to “198 Champion Court”
Removed 100 MHz Speed-bin
Changed Three-State to Tri-State.
Modified “Input Load” to “Input Leakage Current except ZZ and MODE” in the
Electrical Characteristics Table.
Modified test condition from V < V to V < V
DD
IH
DD
IH
Replaced Package Name column with Package Diagram in the Ordering
Information table.
Updated the Ordering Information Table.
Replaced Package Diagram of 51-85050 from *A to *B
*B
459347
See ECN
NXR
Included 2.5V I/O option
Updated the Ordering Information table.
Document #: 001-00208 Rev. *B
Page 15 of 15
|