Cypress Computer Hardware CY7C09079V User Manual

CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
3.3V 32K/64K/128K x 8/9  
Synchronous Dual-Port Static RAM  
High speed clock to data access 6.5[1]/7.5[1]/9/12 ns (max.)  
3.3V low operating power  
Features  
True Dual-Ported memory cells which enable simultaneous  
access of the same memory location  
Active= 115 mA (typical)  
6 Flow-Through and Pipelined devices  
32K x 8/9 organizations (CY7C09079V/179V)  
64K x 8/9 organizations (CY7C09089V/189V)  
128K x 8/9 organizations (CY7C09099V/199V)  
3 Modes  
Standby= 10 μA (typical)  
Fully synchronous interface for easier operation  
Burst counters increment addresses internally  
Shorten cycle times  
Minimize bus noise  
Flow-Through  
Supported in Flow-Through and Pipelined modes  
Pipelined  
Dual Chip Enables for easy depth expansion  
Automatic power down  
Burst  
Commercial and Industrial temperature ranges  
Available in 100-pin TQFP  
Pipelined output mode on both ports enables fast 100 MHz  
operation  
0.35-micron CMOS for optimum speed and power  
Pb-free packages available  
Logic Block Diagram  
R/W  
R/W  
OE  
L
R
OE  
L
R
CE  
CE  
CE  
CE  
0L  
1L  
0R  
1R  
1
1
0
0
0/1  
0/1  
1
0
0
1
0/1  
0/1  
FT/Pipe  
FT/Pipe  
L
R
8/9  
8/9  
7/8R  
I/O –I/O  
I/O –I/O  
0L  
7/8L  
0R  
I/O  
Control  
I/O  
Control  
15/16/17  
15/16/17  
A –A  
A –A  
14/15/16R  
0
14/15/16L  
0
Counter/  
Counter/  
Address  
Register  
Decode  
CLK  
CLK  
ADS  
L
R
R
R
R
Address  
Register  
Decode  
True Dual-Ported  
ADS  
L
RAM Array  
CNTEN  
CNTEN  
L
CNTRST  
CNTRST  
L
Notes  
1. See page 6 for Load Conditions.  
2. I/O –I/O for x8 devices, I/O –I/O for x9 devices.  
0
7
0
8
3. A –A for 32K, A –A for 64K, and A –A for 128K devices.  
0
14  
0
15  
0
16  
Cypress Semiconductor Corporation  
Document #: 38-06043 Rev. *C  
198 Champion Court  
San Jose, CA 95134-1709  
408-943-2600  
Revised December 10, 2008  
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CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
Pin Configurations (continued  
Figure 2. 100-Pin TQFP (Top View0 - CY7C09199V (128K x 9), CY7C09189V (64K x 9),CY7C09179V (32K x 9)  
100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76  
NC  
NC  
1
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  
NC  
2
NC  
A7L  
3
A7R  
A8R  
A9R  
A10R  
A11R  
A12R  
A13R  
A14R  
A15R  
A16R  
GND  
NC  
A8L  
4
A9L  
5
A10L  
A11L  
A12L  
A13L  
A14L  
A15L  
A16L  
VCC  
NC  
6
7
8
9
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
[8]  
[9]  
NC  
NC  
NC  
NC  
NC  
NC  
CE0L  
CE1L  
CE0R  
CE1R  
CNTRSTL  
R/WL  
CNTRSTR  
R/WR  
OEL  
OER  
FT/PIPEL  
FT/PIPER  
GND  
NC  
NC  
24  
25  
NC  
26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50  
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CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
Selection Guide  
CY7C09079V/89V/99V CY7C09079V/89V/99V  
CY7C09179V/89V/99V CY7C09179V/89V/99V  
CY7C09079V/89V/99V  
CY7C09179V/89V/99V-6  
CY7C09079V/89V/99V  
CY7C09179V/89V/99V-7  
Description  
-9  
-12  
f
(MHz)  
100  
6.5  
83  
67  
50  
MAX2  
(Pipelined)  
Max. Access Time  
(ns) (Clock to Data,  
Pipelined)  
7.5  
9
12  
Typical Operating  
175  
25  
155  
25  
135  
20  
115  
20  
Current I (mA)  
CC  
Typical Standby  
Current for I  
SB1  
(mA) (Both Ports  
TTL Level)  
Typical Standby  
10 μA  
10 μA  
10 μA  
10 μA  
Current for I  
SB3  
(μA) (Both Ports  
CMOS Level)  
Pin Definitions  
Left Port  
Right Port  
Description  
A
–A  
A
–A  
Address Inputs (A –A for 32K; A –A for 64K; and A –A for 128K devices).  
14 15 16  
0L  
16L  
0R  
16R  
0
0
0
ADS  
ADS  
Address Strobe Input. Used as an address qualifier. This signal should be asserted LOW to  
access the part using an externally supplied address. Asserting this signal LOW also loads  
the burst counter with the address present on the address pins.  
L
R
CE ,CE  
CE ,CE  
Chip Enable Input. To select either the left or right port, both CE AND CE must be asserted  
0L  
1L  
0R  
1R  
0
1
to their active states (CE V and CE V ).  
0
IL  
1
IH  
CLK  
CLK  
Clock Signal. This input can be free running or strobed. Maximum clock input rate is f  
.
L
R
MAX  
CNTEN  
CNTEN  
Counter Enable Input. Asserting this signal LOW increments the burst address counter of its  
respective port on each rising edge of CLK. CNTEN is disabled if ADS or CNTRST are  
asserted LOW.  
L
R
CNTRST  
CNTRST  
Counter Reset Input. Asserting this signal LOW resets the burst address counter of its  
respective port to zero. CNTRST is not disabled by asserting ADS or CNTEN.  
L
R
I/O –I/O  
I/O –I/O  
Data Bus Input/Output (I/O –I/O for x8 devices; I/O –I/O for x9 devices).  
0L  
8L  
0R  
8R  
0
7
0
8
OE  
OE  
Output Enable Input. This signal must be asserted LOW to enable the I/O data pins during  
read operations.  
L
R
R/W  
R/W  
Read/Write Enable Input. This signal is asserted LOW to write to the dual port memory array.  
For read operations, assert this pin HIGH.  
L
R
FT/PIPE  
Flow-Through/Pipelined Select Input. For flow-through mode operation, assert this pin LOW.  
For pipelined mode operation, assert this pin HIGH.  
L
FT/PIPE  
R
GND  
NC  
Ground Input.  
No Connect.  
Power Input.  
V
CC  
Notes  
8. This pin is NC for CY7C09179V.  
9. This pin is NC for CY7C09179V and CY7C09189V  
Document #: 38-06043 Rev. *C  
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CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
Static Discharge Voltage............................................>2001V  
Latch-Up Current.....................................................>200 mA  
Maximum Ratings  
Exceeding maximum ratings may impair the useful life of the  
device. These user guidelines are not tested.  
Operating Range  
Storage Temperature................................. –65°C to +150°C  
Ambient Temperature with Power Applied..55°C to +125°C  
Supply Voltage to Ground Potential................–0.5V to +4.6V  
DC Voltage Applied to  
Ambient  
Range  
Temperature  
0°C to +70°C  
–40°C to +85°C  
V
CC  
Commercial  
3.3V ± 300 mV  
3.3V ± 300 mV  
Industrial  
Outputs in High Z State ...........................0.5V to V +0.5V  
CC  
DC Input Voltage .....................................0.5V to V +0.5V  
CC  
Output Current into Outputs (LOW)............................. 20 mA  
Electrical Characteristics Over the Operating Range  
CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
[1]  
[1]  
-6  
-7  
-9  
-12  
Parameter  
Description  
V
V
Output HIGH Voltage (V = Min. I  
–4.0 mA)  
=
=
2.4  
2.4  
2.0  
2.4  
2.0  
2.4  
V
V
OH  
CC  
OH  
Output LOW Voltage (V = Min. I  
0.4  
0.8  
0.4  
0.8  
0.4  
0.8  
0.4  
0.8  
OL  
CC  
OH  
+4.0 mA)  
V
V
I
Input HIGH Voltage  
Input LOW Voltage  
Output Leakage Current  
2.0  
2.0  
V
V
IH  
IL  
–10  
10 –10  
175 320  
10 –10  
10 –10  
10 μA  
115 205 mA  
mA  
OZ  
I
I
I
I
Operating Current  
(V =Max. I =0 mA)  
Outputs Disabled  
Commercial.  
155 275  
275 390  
135 225  
185 295  
CC  
CC  
OUT  
Industrial  
Standby Current (Both  
Commercial.  
25  
95  
25  
85  
20 65  
35 75  
20  
50 mA  
mA  
SB1  
SB2  
SB3  
Ports TTL Level)  
CE  
L
Industrial  
85 120  
& CE V , f = f  
R
IH  
MAX  
Standby Current (One  
Commercial.  
115 175  
10 250  
105 165  
165 210  
95 150  
105 160  
85 140 mA  
mA  
Port TTL Level)  
CE |  
L
Industrial  
CE V , f = f  
R
IH  
MAX  
Standby Current (Both  
Ports CMOS Level)  
Commercial.  
10 250  
10 250  
10 250  
10 250  
10 250 μA  
μA  
Industrial  
CE & CE V – 0.2V,  
L
R
CC  
f = 0  
I
Standby Current (One  
Port CMOS Level)  
Commercial  
105 135  
95 125  
125 170  
85 115  
95 125  
75 100 mA  
mA  
SB4  
Industrial  
CE | CE V , f = f  
L
R
IH  
MAX  
Capacitance  
Parameter  
Description  
Test Conditions  
T = 25°C, f = 1 MHz,  
Max  
10  
Unit  
pF  
C
C
Input Capacitance  
Output Capacitance  
IN  
A
V
= 3.3V  
CC  
10  
pF  
OUT  
Notes  
10. The Voltage on any input or I/O pin cannot exceed the power pin during power-up.  
11. Industrial parts are available in CY7C09099V and CY7C09199V only.  
12. CE and CE are internal signals. To select either the left or right port, both CE AND CE must be asserted to their active states (CE V and CE V ).  
L
R
0
1
0
IL  
1
IH  
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CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
Figure 3. AC Test Loads  
3.3V  
3.3V  
R
TH  
= 250Ω  
R1 = 590Ω  
OUTPUT  
C = 30 pF  
OUTPUT  
C = 30 pF  
R1 = 590Ω  
OUTPUT  
C = 5 pF  
R2 = 435Ω  
R2 = 435Ω  
V
TH  
= 1.4V  
(a) Normal Load (Load 1)  
(c) Three-State Delay(Load 2)  
(b) Thévenin Equivalent (Load 1)  
(Used for t  
, t  
, & t  
CKLZ OLZ OHZ  
including scope and jig)  
Figure 4. AC Test Loads (Applicable to -6 and -7 only)  
ALL INPUTPULSES  
90%  
Z = 50  
Ω
R = 50Ω  
0
OUTPUT  
3.0V  
GND  
90%  
10%  
C
10%  
3 ns  
3 ns  
V
TH  
= 1.4V  
(a) Load 1 (-6 and -7 only)  
Figure 5. Load Derating Curve  
0.60  
0.50  
0.40  
0.30  
0.20  
0.1 0  
0.00  
1 0  
1 5  
20  
25  
30  
35  
Capacitance (pF)  
Note  
13. Test Conditions: C = 10 pF.  
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CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
Switching Characteristics Over the Operating Range  
CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
Parameter  
Description  
-6  
-7  
-9  
-12  
Min Max Min Max Min Max Min Max  
Unit  
MHz  
MHz  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
f
f
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
t
f
f
Flow-Through  
53  
45  
83  
40  
67  
33  
50  
MAX1  
MAX2  
CYC1  
CYC2  
CH1  
CL1  
CH2  
CL2  
R
Max  
Max  
Pipelined  
100  
Clock Cycle Time - Flow-Through  
Clock Cycle Time - Pipelined  
Clock HIGH Time - Flow-Through  
Clock LOW Time - Flow-Through  
Clock HIGH Time - Pipelined  
Clock LOW Time - Pipelined  
Clock Rise Time  
19  
10  
6.5  
6.5  
4
22  
12  
7.5  
7.5  
5
25  
15  
12  
12  
6
30  
20  
12  
12  
8
4
5
6
8
3
3
3
3
3
3
3
3
Clock Fall Time  
F
Address Set-Up Time  
3.5  
0
4
0
4
1
4
1
4
1
4
1
4
1
5
1
4
1
4
1
4
1
4
1
4
1
4
1
5
1
4
1
SA  
Address Hold Time  
HA  
Chip Enable Set-Up Time  
Chip Enable Hold Time  
R/W Set-Up Time  
3.5  
0
4
SC  
0
HC  
3.5  
0
4
SW  
R/W Hold Time  
0
HW  
Input Data Set-Up Time  
Input Data Hold Time  
3.5  
0
4
SD  
0
HD  
ADS Set-Up Time  
3.5  
0
4
SAD  
HAD  
SCN  
HCN  
SRST  
HRST  
OE  
ADS Hold Time  
0
CNTEN Set-Up Time  
3.5  
0
4.5  
0
CNTEN Hold Time  
CNTRST Set-Up Time  
CNTRST Hold Time  
3.5  
0
4
0
Output Enable to Data Valid  
OE to Low Z  
8
9
10  
12  
OLZ  
OHZ  
2
1
2
1
2
1
2
1
OE to High Z  
7
7
7
20  
9
7
Clock to Data Valid - Flow-Through  
Clock to Data Valid - Pipelined  
Data Output Hold After Clock HIGH  
Clock HIGH to Output High Z  
Clock HIGH to Output Low Z  
15  
6.5  
18  
7.5  
25  
12  
CD1  
CD2  
DC  
CKHZ  
CKLZ  
2
2
2
2
2
2
2
2
2
2
2
2
9
9
9
9
Port to Port Delays  
t
t
Write Port Clock HIGH to Read Data Delay  
Clock to Clock Set-Up Time  
30  
9
35  
10  
40  
15  
40  
15  
ns  
ns  
CWDD  
CCS  
Notes  
14. Test conditions used are Load 2.  
15. This parameter is guaranteed by design, but it is not production tested.  
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CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
Switching Waveforms (continued)  
Figure 6. Read Cycle for Flow-Through Output (FT/PIPE = V )  
IL  
tCYC1  
tCH1  
tCL1  
CLK  
CE0  
tSC  
tHC  
tSC  
tHC  
CE1  
R/W  
tSW  
tSA  
tHW  
tHA  
An  
An+1  
An+2  
An+3  
ADDRESS  
DATAOUT  
tCKHZ  
Qn+2  
tDC  
tDC  
Qn  
tCD1  
Qn+1  
tCKLZ  
tOHZ  
tOLZ  
OE  
tOE  
Notes  
16. OE is asynchronously controlled; all other inputs are synchronous to the rising clock edge.  
17. ADS = V , CNTEN and CNTRST = V  
.
IH  
IL  
18. The output is disabled (high-impedance state) by CE =V or CE = V following the next rising edge of the clock.  
0
IH  
1
IL  
19. Addresses do not have to be accessed sequentially since ADS = V constantly loads the address on the rising edge of the CLK. Numbers are for reference  
IL  
only.  
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CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
Switching Waveforms (continued)  
Figure 7. Read Cycle for Pipelined Operation (FT/PIPE = V )  
IH  
tCYC2  
tCH2  
tCL2  
CLK  
CE0  
tSC  
tHC  
tSC  
tHC  
CE1  
R/W  
tSW  
tSA  
tHW  
tHA  
ADDRESS  
DATAOUT  
An  
An+1  
An+2  
An+3  
tDC  
1 Latency  
tCD2  
Qn  
Qn+1  
Qn+2  
tOHZ  
tCKLZ  
tOLZ  
OE  
t
OE  
Figure 8. Bank Select Pipelined Read  
-
tCYC2  
tCH2  
tCL2  
CLKL  
tHA  
tSA  
A3  
A4  
ADDRESS(B1)  
A5  
A0  
A1  
A2  
tHC  
tSC  
CE0(B1)  
tCD2  
tCD2  
tCD2  
tCKHZ  
tHC  
tCKHZ  
tSC  
D0  
D3  
D1  
DATAOUT(B1)  
ADDRESS(B2)  
tHA  
tSA  
tDC  
A2  
tDC  
A3  
tCKLZ  
A4  
A5  
A0  
A1  
tHC  
tSC  
CE0(B2)  
tCD2  
tCKHZ  
tCD2  
tSC  
tHC  
DATAOUT(B2)  
D4  
D2  
tCKLZ  
tCKLZ  
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CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
Switching Waveforms (continued)  
Figure 9. Left Port Write to Flow-Through Right Port Read  
CLKL  
R/WL  
tHW  
tSW  
tHA  
tSA  
NO  
MATCH  
ADDRESSL  
DATAINL  
MATCH  
tHD  
tSD  
VALID  
tCCS  
CLKR  
R/WR  
tCD1  
tSW tHW  
tSA tHA  
NO  
MATCH  
MATCH  
ADDRESSR  
tCWDD  
tCD1  
DATAOUTR  
VALID  
VALID  
tDC  
tDC  
Notes  
20. In this depth expansion example, B1 represents Bank #1 and B2 is Bank #2; Each Bank consists of one Cypress dual-port device from this datasheet. ADDRESS  
(B1)  
= ADDRESS  
.
(B2)  
21. OE and ADS = V ; CE  
, CE  
, R/W, CNTEN, and CNTRST = V  
.
IH  
IL  
1(B1)  
1(B2)  
22. The same waveforms apply for a right port write to flow-through left port read.  
23. CE and ADS = V ; CE , CNTEN, and CNTRST = V  
.
IH  
0
IL  
1
24. OE = V for the right port, which is being read from. OE = V for the left port, which is being written to.  
IL  
IH  
25. It t  
maximum specified, then data from right port READ is not valid until the maximum specified for t  
. If t >maximum specified, then data is not valid  
CCS  
CCS  
CWDD  
until t  
+ t  
. t  
does not apply in this case.  
CCS  
CD1 CWDD  
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CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
Switching Waveforms (continued)  
Figure 10. Pipelined Read-to-Write-to-Read (OE = V )  
IL  
tCYC2  
tCH2  
tCL2  
CLK  
CE0  
tSC  
tHC  
CE1  
R/W  
tSW  
tHW  
tSW  
tHW  
An  
An+1  
An+2  
An+2  
An+3  
An+4  
ADDRESS  
DATAIN  
tSD tHD  
tSA  
tHA  
Dn+2  
tCD2  
tCD2  
tCKHZ  
tCKLZ  
Qn  
Qn+3  
DATAOUT  
READ  
NO OPERATION  
WRITE  
READ  
Document #: 38-06043 Rev. *C  
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CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
Switching Waveforms (continued)  
Figure 11. Pipelined Read-to-Write-to-Read (OE Controlled)  
tCYC2  
tCH2  
tCL2  
CLK  
CE0  
tSC  
tHC  
CE1  
R/W  
tHW  
tSW  
tSW  
tHW  
An  
An+1  
An+2  
An+3  
An+4  
An+5  
ADDRESS  
DATAIN  
tSA  
tHA  
tSD tHD  
Dn+2  
Dn+3  
tCD2  
tCKLZ  
tCD2  
DATAOUT  
Qn  
Qn+4  
tOHZ  
OE  
READ  
WRITE  
READ  
Notes  
26. Output state (HIGH, LOW, or high-impedance) is determined by the previous cycle control signals.  
27. CE and ADS = V ; CE , CNTEN, and CNTRST = V  
.
IH  
0
IL  
1
28. During “No Operation”, data in memory at the selected address may be corrupted and should be re-written to ensure data integrity.  
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CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
Switching Waveforms (continued)  
Figure 12. Flow-Through Read-to-Write-to-Read (OE = V )  
IL  
tCYC1  
tCL1  
tCH1  
CLK  
CE0  
tSC  
tHC  
CE1  
R/W  
tSW  
tHW  
tSW  
tHW  
An  
An+1  
An+2  
An+2  
An+3  
An+4  
ADDRESS  
DATAIN  
tSD  
tHD  
tSA  
tHA  
Dn+2  
tCD1  
tCD1  
tCD1  
tCD1  
DATAOUT  
Qn  
tDC  
Qn+1  
tCKHZ  
Qn+3  
tCKLZ  
tDC  
NO  
OPERATION  
READ  
WRITE  
READ  
Figure 13. Flow-Through Read-to-Write-to-Read (OE Controlled)  
tCYC1  
tCH1  
tCL1  
CLK  
CE0  
tSC  
tHC  
CE1  
R/W  
tSW  
tHW  
tSW  
tHW  
An  
An+1  
An+2  
An+3  
An+4  
An+5  
ADDRESS  
DATAIN  
tSD  
tHD  
tSA  
tHA  
Dn+2  
Dn+3  
tOE  
tCD1  
tDC  
tCD1  
tCD1  
Qn  
Qn+4  
tDC  
DATAOUT  
OE  
tOHZ  
tCKLZ  
READ  
WRITE  
READ  
Document #: 38-06043 Rev. *C  
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CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
Switching Waveforms (continued)  
Figure 14. Pipelined Read with Address Counter Advance  
tCYC2  
tCL2  
tCH2  
CLK  
tSA  
tHA  
ADDRESS  
An  
tSAD  
tHAD  
ADS  
tSAD  
tHAD  
CNTEN  
tSCN  
tHCN  
tSCN  
tHCN  
tCD2  
DATAOUT  
Qx-1  
Qx  
tDC  
Qn  
Qn+1  
COUNTER HOLD  
Qn+2  
Qn+3  
READ  
READ WITH COUNTER  
READ WITH COUNTER  
EXTERNAL  
ADDRESS  
Figure 15. Flow-Through Read with Address Counter Advance  
tCYC1  
tCH1  
tCL1  
CLK  
tSA  
tHA  
An  
ADDRESS  
tSAD  
tHAD  
ADS  
tSAD  
tHAD  
CNTEN  
tSCN  
tHCN  
tCD1  
tSCN  
tHCN  
DATAOUT  
Qn+3  
Qn+2  
Qx  
tDC  
Qn  
Qn+1  
READ  
WITH  
READ  
COUNTER HOLD  
READ WITH COUNTER  
EXTERNAL  
ADDRESS  
COUNTER  
Note  
29. CE and OE = V ; CE , R/W and CNTRST = V .  
IH  
0
IL  
1
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CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
Switching Waveforms (continued)  
Figure 16. Write with Address Counter Advance (Flow-Through or Pipelined Outputs)  
tCYC2  
tCL2  
tCH2  
CLK  
tSA  
tHA  
An  
ADDRESS  
INTERNAL  
ADDRESS  
An  
An+1  
An+2  
An+3  
An+4  
tSAD  
tHAD  
ADS  
CNTEN  
DATAIN  
tSCN  
tHCN  
Dn  
Dn+1  
Dn+1  
Dn+2  
Dn+3  
Dn+4  
tSD  
tHD  
WRITE EXTERNAL  
ADDRESS  
WRITE WITH WRITE COUNTER  
COUNTER HOLD  
WRITE WITH COUNTER  
Notes  
30. CE and R/W = V ; CE and CNTRST = V .  
IH  
0
IL  
1
31. The “Internal Address” is equal to the “External Address” when ADS = V and equals the counter output when ADS = V  
.
IL  
IH  
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CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
Switching Waveforms (continued)  
Figure 17. Counter Reset (Pipelined Outputs)  
tCYC2  
tCL2  
tCH2  
CLK  
tSA tHA  
An  
An+1  
ADDRESS  
INTERNAL  
ADDRESS  
AX  
0
1
An  
An+1  
tSW tHW  
R/W  
ADS  
tSAD  
tHAD  
tSCN  
tHCN  
CNTEN  
tSRST  
tHRST  
CNTRST  
DATAIN  
tSD tHD  
D0  
DATAOUT  
Q0  
Q1  
Qn  
COUNTER  
RESET  
WRITE  
ADDRESS 0  
READ  
ADDRESS 0  
READ  
ADDRESS 1  
READ  
ADDRESS n  
Notes  
32. CE = V ; CE = V .  
IH  
0
IL  
1
33. No dead cycle exists during counter reset. A READ or WRITE cycle may be coincidental with the counter reset.  
Document #: 38-06043 Rev. *C  
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CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
[34, 35, 36]  
Table 1. Read/Write and Enable Operation  
Inputs  
Outputs  
OE  
CLK  
CE  
CE  
R/W  
I/O I/O  
Operation  
0
1
0
9
X
H
X
X
High-Z  
High-Z  
Deselected  
X
X
L
X
L
L
L
L
X
L
Deselected  
Write  
H
H
H
D
D
IN  
H
X
Read  
OUT  
H
X
High-Z  
Outputs Disabled  
Table 2. Address Counter Control Operation  
Previous  
Address  
CLK ADS CNTEN CNTRST  
I/O  
Mode  
Operation  
Address  
X
X
X
L
X
X
H
L
D
D
D
Reset  
Counter Reset to Address 0  
Address Load into Counter  
out(0)  
A
X
H
H
Load  
Hold  
n
out(n)  
out(n)  
X
A
H
External Address Blocked—Counter  
Disabled  
n
n
X
A
H
L
H
D
Increment Counter Enabled—Internal Address  
Generation  
out(n+1)  
Notes  
34. “X” = “Don’t Care”, “H” = V , “L” = V  
.
IL  
IH  
35. ADS, CNTEN, CNTRST = “Don’t Care.”  
36. OE is an asynchronous input signal.  
37. When CE changes state in the pipelined mode, deselection and read happen in the following clock cycle.  
38. CE and OE = V ; CE and R/W = V  
.
IH  
0
IL  
1
39. Data shown for flow-through mode; pipelined mode output will be delayed by one cycle.  
40. Counter operation is independent of CE and CE .  
0
1
Document #: 38-06043 Rev. *C  
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CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
Ordering Information  
32K x8 3.3V Synchronous Dual-Port SRAM  
Speed (ns)  
Ordering Code  
CY7C09079V-6AC  
CY7C09079V-7AC  
CY7C09079V-7AI  
CY7C09079V-9AC  
CY7C09079V-12AC  
Package Name  
A100  
Package Type  
Operating Range  
Commercial  
Commercial  
Industrial  
[1]  
6.5  
100-Pin Thin Quad Flat Pack  
100-Pin Thin Quad Flat Pack  
100-Pin Thin Quad Flat Pack  
100-Pin Thin Quad Flat Pack  
100-Pin Thin Quad Flat Pack  
[1]  
7.5  
A100  
A100  
9
A100  
Commercial  
Commercial  
12  
A100  
64K x8 3.3V Synchronous Dual-Port SRAM  
Speed (ns)  
Ordering Code  
CY7C09089V-6AC  
CY7C09089V-6AXC  
CY7C09089V-7AC  
CY7C09089V-9AC  
CY7C09089V-12AC  
CY7C09089V-12AXC  
CY7C09089V-12AXI  
Package Name  
A100  
Package Type  
Operating Range  
[1]  
6.5  
100-Pin Thin Quad Flat Pack  
Commercial  
A100  
100-Pin Pb-Free Thin Quad Flat Pack Commercial  
[1]  
7.5  
A100  
100-Pin Thin Quad Flat Pack  
100-Pin Thin Quad Flat Pack  
100-Pin Thin Quad Flat Pack  
Commercial  
Commercial  
Commercial  
9
A100  
12  
A100  
A100  
100-Pin Pb-Free Thin Quad Flat Pack Commercial  
100-Pin Pb-Free Thin Quad Flat Pack Industrial  
A100  
128K x8 3.3V Synchronous Dual-Port SRAM  
Speed (ns)  
Ordering Code  
CY7C09099V-6AC  
CY7C09099V-6AXC  
CY7C09099V-7AC  
CY7C09099V-7AI  
CY7C09099V-7AXI  
CY7C09099V-9AC  
CY7C09099V-9AI  
CY7C09099V-12AC  
CY7C09099V-12AXC  
Package Name  
A100  
Package Type  
Operating Range  
[1]  
6.5  
100-Pin Thin Quad Flat Pack  
100-Pin Pb-Free Thin Quad Flat Pack  
100-Pin Thin Quad Flat Pack  
100-Pin Thin Quad Flat Pack  
100-Pin Pb-Free Thin Quad Flat Pack  
100-Pin Thin Quad Flat Pack  
100-Pin Thin Quad Flat Pack  
100-Pin Thin Quad Flat Pack  
100-Pin Pb-Free Thin Quad Flat Pack  
Commercial  
Commercial  
Commercial  
Industrial  
A100  
[1]  
7.5  
A100  
A100  
A100  
Industrial  
9
A100  
Commercial  
Industrial  
A100  
12  
A100  
Commercial  
Commercial  
A100  
32K x9 3.3V Synchronous Dual-Port SRAM  
Speed (ns)  
Ordering Code  
CY7C09179V-6AC  
CY7C09179V-6AXC  
CY7C09179V-7AC  
CY7C09179V-9C  
Package Name  
A100  
Package Type  
Operating Range  
6.5  
100-Pin Thin Quad Flat Pack  
Commercial  
A100  
100-Pin Pb-Free Thin Quad Flat Pack Commercial  
7.5  
A100  
100-Pin Thin Quad Flat Pack  
100-Pin Thin Quad Flat Pack  
100-Pin Thin Quad Flat Pack  
Commercial  
Commercial  
Commercial  
9
A100  
12  
CY7C09179V-12AC  
CY7C09179V-12AXC  
A100  
A100  
100-Pin Pb-Free Thin Quad Flat Pack Commercial  
Document #: 38-06043 Rev. *C  
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CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
64K x9 3.3V Synchronous Dual-Port SRAM  
Speed (ns)  
Ordering Code  
CY7C09189V-6AC  
CY7C09189V-6AXC  
CY7C09189V-7AC  
CY7C09189V-9AC  
CY7C09189V-12AC  
CY7C09189V-12AXC  
Package Name  
A100  
Package Type  
Operating Range  
6.5  
100-Pin Thin Quad Flat Pack  
Commercial  
A100  
100-Pin Pb-Free Thin Quad Flat Pack Commercial  
7.5  
A100  
100-Pin Thin Quad Flat Pack  
100-Pin Thin Quad Flat Pack  
100-Pin Thin Quad Flat Pack  
Commercial  
Commercial  
Commercial  
9
A100  
12  
A100  
A100  
100-Pin Pb-Free Thin Quad Flat Pack Commercial  
128K x9 3.3V Synchronous Dual-Port SRAM  
Speed (ns)  
Ordering Code  
CY7C09199V-6AC  
CY7C09199V-6AXC  
CY7C09199V-7AC  
CY7C09199V-7AXC  
CY7C09199V-9AC  
CY7C09199V-9AXC  
CY7C09199V-9AI  
Package Name  
A100  
Package Type  
Operating Range  
Commercial  
6.5  
100-Pin Thin Quad Flat Pack  
A100  
100-Pin Pb-Free Thin Quad Flat Pack Commercial  
100-Pin Thin Quad Flat Pack Commercial  
100-Pin Pb-Free Thin Quad Flat Pack Commercial  
100-Pin Thin Quad Flat Pack Commercial  
100-Pin Pb-Free Thin Quad Flat Pack Commercial  
100-Pin Thin Quad Flat Pack Industrial  
100-Pin Pb-Free Thin Quad Flat Pack Industrial  
100-Pin Thin Quad Flat Pack Commercial  
100-Pin Pb-Free Thin Quad Flat Pack Commercial  
7.5  
A100  
A100  
9
A100  
A100  
A100  
CY7C09199V-9AXI  
CY7C09199V-12AC  
CY7C09199V-12AXC  
A100  
12  
A100  
A100  
Document #: 38-06043 Rev. *C  
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CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
Package Diagram  
Figure 18. 100-Pin Thin Plastic Quad Flat Pack (TQFP) A100 (51-85048)  
51-85048-*B  
Document #: 38-06043 Rev. *C  
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CY7C09079V/89V/99V  
CY7C09179V/89V/99V  
Document History Page  
Document Title: CY7C09079V/89V/99V, CY7C09179V/89V/99V 3.3V 32K/64K/128K x 8/9Synchronous Dual Port Static  
RAM  
Document Number: 38-06043  
Orig. of  
Change  
Orig. of  
Change  
Rev.  
ECN No.  
Description of Change  
**  
110191  
122293  
365034  
SZV  
09/29/01  
12/27/02  
Change from Spec number: 38-00667 to 38-06043  
*A  
*B  
RBI  
Power up requirements added to Operating Conditions Information  
PCN  
See ECN Added Pb-Free Logo  
Added Pb-Free Part Ordering Information:  
CY7C09089V-6AXC, CY7C09089V-12AXC, CY7C09099V-6AXC,  
CY7C09099V-7AI, CY7C09099V-7AXI, CY7C09099V-12AXC,  
CY7C09179V-6AXC, CY7C09179V-12AXC, CY7C09189V-6AXC,  
CY7C09189V-12AXC, CY7C09199V-6AXC, CY7C09199V-7AXC,  
CY7C09199V-9AXC, CY7C09199V-9AXI, CY7C09199V-12AXC  
*C  
2623658  
VKN/PYRS 12/17/08  
Added CY7C09089V-12AXI part in the Ordering information table  
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Cypress maintains a worldwide network of offices, solution centers, manufacturer’s representatives, and distributors. To find the office  
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© Cypress Semiconductor Corporation, 2005-2008. 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  
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Any Source Code (software and/or firmware) is owned by Cypress Semiconductor Corporation (Cypress) and is protected by and subject to worldwide patent protection (United States and foreign),  
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Disclaimer: CYPRESS MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARD TO THIS MATERIAL, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES  
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a malfunction or failure may reasonably be expected to result in significant injury to the user. The inclusion of Cypress’ product in a life-support systems application implies that the manufacturer  
assumes all risk of such use and in doing so indemnifies Cypress against all charges.  
Use may be limited by and subject to the applicable Cypress software license agreement.  
Document #: 38-06043 Rev. *C  
Revised December 10, 2008  
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