MC803128K32
128Kx32 Pipeline Burst SRAM
DS09, Rev 1.9 07/22/99
Page 1
1999 MoSys Inc., All Rights Reserved, 1020 Stewart Drive, Sunnyvale, CA 94086
M S
YS
O
High performance, low power pipeline burst SRAM
Ultra low power for green PC and battery
powered PC
High performance
100-150MHz Speed grades
3-1-1-1 Burst Read
1-1-1-1 Burst Write
3-1-1-1-1-1-1-1... pipeline operation
Low power
Low active power
Ultra low power ZZ standby mode
Single 3.3V supply (V
DD
)
Isolated 3.3V or 2.5V I/O supply (V
DDQ
)
Compatibility
Individual Byte Write and Global Write mask-
ing
Interleave and burst address support
Industry standard 100-Pin PBSRAM pinout
Industry standard PBSRAM specification
Applications
Pentium
and PowerPC
TM
pipelined L2 Cache
Ideal for high speed, low power communica-
tions buffers
Power sensitive portable DSP applications
______________________________________________
Overview
The MoSys MC803128K32 is a high performance,
low power pipeline-burst-SRAM (PBSRAM). Fabri-
cated using an advanced low power, high perform-
ance CMOS process, the MoSys MC803128K32 is
backward pin and function compatible with stan-
dard 32Kx32 and 64Kx32 PBSRAMs with additional
operating features like low power ZZ standby
mode and linear burst order addressing. These ad-
ditional operating features are defined so that, with
proper implementation, PC boards can work trans-
parently with 32Kx32, 64Kx32, or 128Kx32 configu-
rations, allowing the designer maximum configura-
tion flexibility within a single footprint layout.
The MoSys MC803128K32 supports PBSRAM op-
erating modes at maximum burst frequency in-
cluding indefinite pipeline read or write (3-1-1-1-1-1-
1...)
Parameter
Symbol
-10
-7R5
-6R6
Unit
Cycle Time
tKC
10
7.5
6.6
ns
Access Time
tKQ
5.5
4.5
4
ns
Clock to High-Z
tKQHZ
5
4
3.5
ns
The MC803128K32 is packaged in a standard 100
lead LQFP.
Lowest Power
The MC803128K32 PBSRAMs afford systems
dramatic power savings due to the benefits of their
proprietary MoSys technology. Peak operating
power of a typical PBSRAM is 5x that of the
MC803128K32. Making it ideal for portable applica-
tions, as well as applications requiring a large
amount of RAM.
Part Number Designation
Example
: MC803128K32L-10 I
Device Designation:
MC8
:, Series:
03
Organization:
128K32
Package Type:
L
=LQFP
Speed:
10
100MHz
7R5
133MHz
6R6
150MHz
Temp:
I
= Industrial Temperature, optional
1
NC, (DQP3)
80
NC, (DQP2)
10
VSSQ
71
VSSQ
19
DQ26
62
CE3#
DQ7
39
2
DQ17
79
DQ16
11
VDDQ
70
A6
VDDQ
31
LBO#
20
VDDQ
61
VDD
VDDQ
40
VSS
3
DQ18
78
DQ15
12
DQ23
69
A7
DQ10
DQ9
32
A5
21
VSSQ
60
VSS
VSSQ
41
VDD
4
VDDQ
77
VDDQ
13
DQ24
68
CE1#
33
A4
22
DQ27
59
CLK
DQ6
42
5
VSSQ
76
VSSQ
14
NC
67
CE2
VSS
34
A3
23
DQ28
58
GW
#
DQ5
43
6
DQ19
75
DQ14
15
VDD
66
BW
4#
NC
35
A2
24
DQ29
57
BW
E#
DQ4
44
A10
28
DQ31
53
ADV#
DQ2
48
A14
7
DQ20
74
DQ13
16
NC
65
BW
3#
VDD
36
A1
25
DQ30
56
OE#
DQ3
45
A11
29
DQ32
52
A8
DQ1
VIS128KZ
49
A15
8
DQ21
73
DQ12
17
VSS
64
BW
2#
ZZ
37
A0
26
VSSQ
55
ADSC#
VSSQ
46
A12
30
NC, (DQP4)
51
A9
NC, (DQP1)
50
A16
9
DQ22
72
DQ11
18
DQ25
63
BW
1#
DQ8
38
100
91
82
99
90
81
98
89
97
88
96
87
95
86
94
85
93
84
92
83
27
VDDQ
54
ADSP#
VDDQ
47
A13
100 Pin QFP
20 mm x 14 mm body
0.65 mm nominal pin pitch
NC
NC
NC
NC
Figure 1. Pin Function
MC803128K32
128Kx32 Pipeline Burst SRAM
DS09, Rev 1.9 07/22/99
Page 2
1999 MoSys Inc., All Rights Reserved, 1020 Stewart Drive, Sunnyvale, CA 94086
M S
YS
O
GW#
BWE#
D Q
Address
Register
CE#
CLK
D Q
DQ[32:2
ByteWrite
Registers
CLK
D Q
DQ[24:17]
ByteWrite
Registers
CLK
D Q
DQ[16:9
ByteWrite
Registers
CLK
D Q
DQ[8:1]
ByteWrite
Registers
CLK
D Q
Enable
Register
CE#
CLK
D Q
Enable
Delay
Register
CLK
64/128K x 32
Memory
Array
Binary
Counter
CLK
CE# Q1
CLR
Output
Register
Input
Register
CLK
ADSC#
ADV#
ADSP#
A[16:0]
BW3#
BW4#
BW2#
BW1#
CE2
CE3#
CE1#
OE#
OE
4
17
15
17
32
32
32
DATA[32:1]
LBO#
Figure 2 Functional Block Diagram
MC803128K32
128Kx32 Pipeline Burst SRAM
DS09, Rev 1.9 07/22/99
Page 3
1999 MoSys Inc., All Rights Reserved, 1020 Stewart Drive, Sunnyvale, CA 94086
M S
YS
O
Table 1. Pin Description
Pin Number
Symbol
Type
Description
50, 49, 48, 47, 46, 45, 44, 81, 82, 99,
100, 32, 33, 34, 35, 36 ,37
A[16:0]
Input
Processor Addresses
96,95, 94, 93
BW[4:1]#
Input
Processor host bus byte enables.
88
GW#
Input
Global Write from cache controller
87
BWE#
Input
Byte Write Enable from controller
89
CLK
Input
Processor host bus clock
98
CE1#
Input
ADSP# mask and ADSC# chip enable
97
CE2
Input
Depth expansion chip enable
92
CE3#
Input
Depth expansion chip enable
86
OE#
Input
Asynchronous output enable
83
ADV#
Input
Burst address counter advance
84
ADSP#
Input
ADS# of processor
85
ADSC#
Input
ADS# of controller
64
ZZ
Low power sleep mode
31
LBO#
Linear Burst Order
29, 28, 25, 24, 23, 22, 19, 18, 13, 12, 9,
8, 7, 6, 3, 2, 79, 78, 75, 74, 73, 72, 69,
68, 63, 62, 59, 58, 57, 56, 53, 52
DQ[32:1]
I/O
Data I/O pins
30, 1, 80, 51
NC/DQP[4:1]
I/O
Data parity I/O pins
16, 38, 39, 42, 43, 66
NC
-
unused
15, 41, 65, 91
VDD
3.3 Volts
Power
17, 40, 67, 90
VSS
Ground
Ground
4, 11, 20, 27, 54, 61, 70, 77
VDDQ
I/O Sup-
ply
I/O Buffer Supply
5, 10, 21, 26, 55, 60, 71, 76
VSSQ
I/O
Ground
I/O Buffer Ground
Table 2. Absolute Maximum Ratings
Symbol
Parameter
Min
Max
Units
VDD
Core Supply Voltage
4.0
V
VDDQ
I/O Supply Voltage
V
DDQ
V
DD
+0.5,
V
DDQ
4.0
V
Vih
Input High Voltage
VDDQ +0.5
V
Vil
Input Low Voltage
VSSQ-0.5
V
Ts
Storage Temperature
-65
150
C
Notes: Max Vih is not to exceed maximum VDDQ
MC803128K32
128Kx32 Pipeline Burst SRAM
DS09, Rev 1.9 07/22/99
Page 4
1999 MoSys Inc., All Rights Reserved, 1020 Stewart Drive, Sunnyvale, CA 94086
M S
YS
O
Table 3. Recommended Operating Conditions
Symbol
Parameter
Condition
Min
Max
Units
VDD
Supply Voltage
3.3V 5%
3.135
3.465
V
VDDQ
I/O Supply Voltage
2.5V +38%/-5%
2.375
3.465
V
Vih
Input High Voltage
1.8
VDDQ + .3
V
Vil
Input Low Voltage
-0.3
0.8
V
Voh
Output High Voltage
Ioh = -5 mA
2.4
V
Vol
Output Low Voltage
Iol = 5 mA
0.4
V
Topr
Operating Temperature
0
70
C
Table 4. Absolute Maximum AC Operating Conditions
Symbol
Parameter
Min
Max
Units
Vih
Input High Voltage
1.8
VDDQ+1.0
V
Vil
Input Low Voltage
VSSQ - 1.0
0.8
V
tOVR
Overshoot/Undershoot Voltage Duration
0.2*tCY
ns
tSET
Overshoot/Undershoot Settling Time
0.8*tCY
ns
Table 5. Maximum DC Current Requirements
Symbol
Condition
Current
Units
I
DD
Operating current, device selected; all inputs < Vil or > Vih; cycle time > tKC
min, VDD= max, 0 pF load
50
mA
I
DD1
Idle current, device selected; ADSP#, ADSC#, GW#, BW#s, ADV# and all other
inputs > 2.8 volts; cycle time > tKC min, VDD= max, 0 pF load
10
mA
I
DDZ
Sleep mode, clock stopped, all inputs > 2.8 v, VDD= max
2
mA
Table 6. Maximum DC Current Requirements
Symbol
Parameter
Max
Units
C
I
Input Pin Capacitance
4
pF
C
I/O
I/O Pin Capacitance
6
pF
MC803128K32
128Kx32 Pipeline Burst SRAM
DS09, Rev 1.9 07/22/99
Page 5
1999 MoSys Inc., All Rights Reserved, 1020 Stewart Drive, Sunnyvale, CA 94086
M S
YS
O
Table 7. AC Timing Characteristics at Recommended Operating Conditions
-6R6
(150 MHz)
-7R5
(133 MHz)
-10
(100 MHz)
Sym
Parameter
Min
Max
Min
Max
Min
Max
Units
tAAH
ADV# hold
0.5
0.5
0.5
ns
tAAS
ADV# setup
1.5
2
2
ns
tADSH
ADSx# hold
0.5
0.5
0.5
ns
tADSS
ADSx# setup
1.5
2
2
ns
tAH
Address hold
0.5
0.5
0.5
ns
tAS
Address setup
1.5
2
2
ns
tCEH
Chip Enable hold
0.5
0.5
0.5
ns
tCES
Chip Enable setup
1.8
2
2
ns
tDH
Write Data hold
0.5
0.5
0.5
ns
tDS
Write Data setup
1.5
2
2
ns
tKC
Clock cycle
6.6
7.5
10
ns
tKH
Clock high
1.8
2
3.2
ns
tKL
Clock low
1.8
2
3.2
ns
tKQ
Clock to output valid
4
4.5
5.5
ns
tKQHZ
Clock to output high-Z
1.5
3.5
1.5
4
1.5
5
ns
tKQLZ
Clock to output low-Z
0
0
0
ns
tKQX
Clock to output invalid
1.5
1.5
1.5
ns
tOELZ
OE# to output low-Z
0
0
0
ns
tOEHZ
OE# to output high-Z
4
4.5
5.5
ns
tOEQ
OE# to output valid
4
4.5
5.5
ns
tOEQX
OE# to output invalid
0
0
0
ns
tWS
GW#, BWx# setup
1.5
2
2
ns
tWH
GW#, BWx# hold
0.5
0.5
0.5
ns
tZZs
ZZ standby
100
100
100
ns
tZZREC
ZZ recovery
100
100
100
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