SRAM
Austin Semiconductor, Inc.
128K x 36 SSRAM
SYNCHRONOUS ZBL SRAM
FLOW-THRU OUTPUT
FEATURES
• High frequency and 100% bus utilization
• Fast cycle times: 11ns & 12ns
• Single +3.3V +5% power supply (V
DD
)
• Advanced control logic for minimum control signal interface
• Individual BYTE WRITE controls may be tied LOW
• Single R/W\ (READ/WRITE) control pin
• CKE\ pin to enable clock and suspend operations
• Three chip enables for simple depth expansion
• Clock-controlled and registered addresses, data I/Os and
control signals
• Internally self-timed, fully coherent WRITE
• Internally self-timed, registered outputs to eliminate the
need to control OE\
• SNOOZE MODE for reduced-power standby
• Common data inputs and data outputs
• Linear or Interleaved Burst Modes
• Burst feature (optional)
• Pin/function compatibility with 2Mb, 8Mb, and 16Mb ZBL
SRAM
• Automatic power-down
AS5SS128K36
GENERAL DESCRIPTION
The Austin Semiconductor, Inc. Zero Bus Latency SRAM
family employs high-speed, low-power CMOS designs using an ad-
vanced CMOS process.
ASI’s 4Mb ZBL SRAMs integrate a 128K x 36 SRAM core
with advanced synchronous peripheral circuitry and a 2-bit burst
counter. These SRAMS are optimized for 100 percent bus utilization,
eliminating any turnaround cycles for READ to WRITE, or WRITE
to READ, transitions. All synchronous inputs pass through registers
controlled by a positive-edge-triggered single clock input (CLK). The
synchronous inputs include all addresses, all data inputs, chip enable
(CE\), two additional chip enables for easy depth expansion (CE2,
CE2\), cycle start input (ADV/LD\), synchronous clock enable (CKE\),
byte write enables (BWa\, BWb\, BWc\, and BWd\) and read/write (R/
W\).
Asynchronous inputs include the output enable (OE\, which
may be tied LOW for control signal minimization), clock (CLK) and
snooze enable (ZZ, which may be tied LOW if unused). There is also
a burst mode pin (MODE) that selects between interleaved and linear
burst modes. MODE may be tied HIGH, LOW or left unconnected if
burst is unused. The flow-through data-out (Q) is enabled by OE\.
WRITE cycles can be from one to four bytes wide as controlled by the
write control inputs.
All READ, WRITE and DESELECT cycles are initiated by
the ADV/LD\ input. Subsequent burst addresses can be internally
generated as controlled by the burst advance pin (ADV/LD\). Use of
burst mode is optional. It is allowable to give an address for each
individual READ and WRITE cycle. BURST cycles wrap around
after the fourth access from a base address.
To allow for continuous, 100 percent use of the data bus,
the flow-through ZBL SRAM uses a LATE WRITE cycle. For ex-
ample, if a WRITE cycle begins in clock cycle one, the address is
present on rising edge one. BYTE WRITEs need to be asserted on the
same cycle as the address. The write data associated with the address
is required one cycle later, or on the rising edge of clock cycle two.
Address and write control are registered on-chip to simplify
WRITE cycles. This allows self-timed WRITE cycles. Individual
byte enables allow individual bytes to be written. During a BYTE
WRITE cycle, BWa\ controls DQa pins; BWb\ controls DQb pins;
BWc\ controls DQc pins; and BWd\ controls DQd pins. Cycle types
can only be defined when an address is loaded, i.e., when ADV/LD\ is
LOW. Parity/ECC bits are available on this device.
Austin’s 4Mb ZBL SRAMs operate from a +3.3V V
DD
power supply, and all inputs and outputs are LVTTL-compatible.
The device is ideally suited for systems requiring high bandwidth and
zero bus turnaround delays.
OPTIONS
• Timing (Access/Cycle/MHz)
8.5ns/11ns/90 MHz
9ns/12ns/83 MHz
• Packages
100-pin TQFP
• Operating Temperature Ranges
Military (-55
o
C to +125
o
C)
Industrial (-40
o
C to +85
o
C)
MARKING
-11
-12
DQ
No. 1001
XT
IT
For more products and information
please visit our web site at
www.austinsemiconductor.com
AS5SS128K36
Rev. 2.0 12/00
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
1
SRAM
Austin Semiconductor, Inc.
PIN ASSIGNMENT
(Top View)
100-pin TQFP (DQ)
SA
SA
CE\
CE2
BWd\
BWc\
BWb\
BWa\
CE2\
V
DD
V
SS
CLK
R/W\
CKE\
OE\ (G\)
ADV/LD\
NF
NF
SA
SA
AS5SS128K36
DQc
DQc
DQc
V
DD
Q
V
SS
DQc
DQc
DQc
DQc
V
SS
V
DD
Q
DQc
DQc
V
SS
V
DD
V
DD
V
SS
DQd
DQd
V
DD
Q
V
SS
DQd
DQd
DQd
DQd
V
SS
V
DD
Q
DQd
DQd
DQd
1
2
3
4
5
6
7
8
9
10
1
1
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
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
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
31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50
DQb
DQb
DQb
V
DD
Q
V
SS
DQb
DQb
DQb
DQb
V
SS
V
DD
Q
DQb
DQb
V
SS
V
SS
V
DD
ZZ
DQa
DQa
V
DD
Q
V
SS
DQa
DQa
DQa
DQa
V
SS
V
DD
Q
DQa
DQa
DQa
PIN DESCRIPTIONS
TQFP PINS
37
36
32-35, 44-50,
81, 82, 99, 100
93
94
95
96
87
SYMBOL
SA0
SA1
SA
TYPE
Input
MODE (LBO\)
SA
SA
SA
SA
BWa\
BWb\
BWc\
BWd\
CKE\
Input
Input
88
R/W\
Input
Synchronous Address Inputs: These inputs are registered and must meet the setup
and hold times around the rising edge of CLK. Pins 83 and 84 are reserved as
address bits for the higher-density 8Mb and 16Mb ZBL SRAMs, respectively. SA0 and
SA1 are the two least significant bits (LSB) of the address field and set the internal
burst counter if burst is desired.
Synchronous Byte Write Enables: These active LOW inputs allow individual bytes to
be written when a WRITE cycle is active and must meet the setup and hold times
around the rising edge of CLK. BYTE WRITEs need to be asserted on the same cycle
as the address. BWa\ controls DQa pins; BWb\ controls DQb pins; BWc\ controls
DQc pins; BWd\ controls DQd pins.
Synchronous Clock Enable: This active LOW input permits CLK to propagate
throughout the device. When CKE is HIGH, the device ignores the CLK input and
effectively internally extends the previous CLK cycle. This input must meet setup and
hold times around the rising edge of CLK.
Read/Write: This input determines the cycle type when ADV/LD\ is LOW and is the
only means for determining READs and WRITEs. READ cycles may not be converted
into WRITEs (and vice versa) other than by loading a new address. A LOW on this pin
permits BYTE WRITE operations and must meet the setup and hold times around the
rising edge of CLK. Full bus-width WRITEs occur if all byte write enables are LOW.
AS5SS128K36
Rev. 2.0 12/00
SA1
SA0
DNU
DNU
V
SS
V
DD
DNU
DNU
SA
SA
SA
SA
SA
SA
SA
DESCRIPTION
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
2
SRAM
Austin Semiconductor, Inc.
PIN DESCRIPTIONS (continued)
TQFP PINS
64
AS5SS128K36
SYMBOL
ZZ
TYPE
Input
DESCRIPTION
Snooze Enable: This active HIGH, asynchronous input causes the device to enter a
low-power standby mode in which all data in the memory array is retained. When ZZ
is active, all other inputs are ignored.
Clock: This signal registers the address, data, chip enables, byte write enables and
burst control inputs on its rising edge. All synchronous inputs must meet setup and
hold times around the clock's rising edge.
89
CLK
Input
98, 92
CE\, CE2\
97
CE2
86
85
OE\
(G\)
ADV/LD\
31
MODE
(LBO\)
DQa
DQb
DQc
DQd
(a) 51, 52, 53, 56-59,
62, 63
(b) 68, 69, 72-75, 78,
79, 80
(c)1, 2, 3, 6-9, 12, 13
(d) 18, 19, 22-25, 28,
29, 30
15, 16, 41, 65, 91
5, 10, 14, 17, 21, 26
40, 55, 60, 66, 67, 71
76, 90
4, 11, 20, 27, 54, 61
70, 77
38, 39, 42, 43, 83, 84
64
Synchronous Chip Enable: These active LOW inputs are used to enable the device
and are sampled only when a new external address is loaded (ADV/LD\ LOW). CE2\
can be used for memory depth expansion.
Input
Synchronous Enable: This active HIGH input is used to enable the device and is
sampled only when a new external address is loaded (ADV/LD\ LOW). This input can
be used for memory depth expansion.
Input
Output Enable: This active LOW, asynchronous inputs enables the data I/O output
drivers. G\ is the JEDEC-standard term for OE\.
Input
Synchronous Address Advance/Load: When HIGH, this input is used to advance the
internal burst counter, controlling burst access after the external address is loaded.
When ADV/LD\ is HIGH, R/W\ is ignored. A LOW on ADV/LD\ clocks a new address
at the CLK rising edge.
Mode: This inputs selects the burst sequence. A LOW on this pin selects linear burst.
Input
NC or HIGH on this pin selects interleaved burst. Do not alter input state while device
is operating. LBO\ is the JEDEC-standard term for MODE.
Input/Output SRAM Data I/Os: Byte "a" is DQa pins; Byte "b" is DQb pins; Byte "c" is DQc pins;
Byte "d" is DQd pins. Input data must meet setup and hold times around the rising
edge CLK.
Input
V
DD
Vss
Supply
Ground
Power Supply: See DC Electrical Characteristics and Operating Conditions for range.
Ground: GND
V
DD
Q
NC
Supply
----
----
----
Isolated Output Buffer Supply: See DC Electrical Characteristics and Operating
Conditions for range.
No Connect: These pins can be left floating or connected to GND to minimize thermal
impedance.
38, 39, 42, 43
83, 84
DNU
NF
Do Not Use: These signals may with be unconnected or wired to GND to
minimize thermal impedance.
No Function: These pins are internally connected to the die and will have the
capacitance of an input pin. It is allowable to leave these pins unconnected or
driven by signals. Pins 83 and 84 are reserved for address expansion.
AS5SS128K36
Rev. 2.0 12/00
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
3
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