ADVANCE
16Mb: 1 MEG x 18, 512K x 32/36
PIPELINED, DCD SYNCBURST SRAM
16Mb SYNCBURST
™
SRAM
FEATURES
• Fast clock and OE# access times
• Single +3.3V ±0.165Vor 2.5V ±0.125V power supply
(V
DD
)
• Separate +3.3V or 2.5V isolated output buffer
supply (V
DD
Q)
• SNOOZE MODE for reduced-power standby
• Common data inputs and data outputs
• Individual BYTE WRITE control and GLOBAL
WRITE
• Three chip enables for simple depth expansion and
address pipelining
• Clock-controlled and registered addresses, data I/Os
and control signals
• Internally self-timed WRITE cycle
• Burst control (interleaved or linear burst)
• Automatic power-down
• 100-pin TQFP package
• 165-pin FBGA package
• Low capacitive bus loading
• x18, x32, and x36 versions available
MT58L1MY18D, MT58V1MV18D,
MT58L512Y32D, MT58V512V32D,
MT58L512Y36D, MT58V512V36D
3.3V V
DD
, 3.3V or 2.5V I/O; 2.5V V
DD
, 2.5V
I/O, Pipelined, Double-Cycle Deselect
100-Pin TQFP
1
165-Pin FBGA
(Preliminary Package Data)
OPTIONS
• Timing (Access/Cycle/MHz)
3.5ns/6ns/166 MHz
4.0ns/7.5ns/133 MHz
5ns/10ns/100 MHz
• Configurations
3.3V V
DD
, 3.3V or 2.5V I/O
1 Meg x 18
512K x 32
512K x 36
2.5V V
DD
, 2.5V I/O
1 Meg x 18
512K x 32
512K x 36
TQFP MARKING*
-6
-7.5
-10
NOTE:
1. JEDEC-standard MS-026 BHA (LQFP).
MT58L1MY18D
MT58L512Y32D
MT58L512Y36D
MT58V1MV18D
MT58V512V32D
MT58V512V36D
T
F
None
GENERAL DESCRIPTION
The Micron
®
SyncBurst
™
SRAM family employs high-
speed, low-power CMOS designs that are fabricated
using an advanced CMOS process.
Micron’s 16Mb SyncBurst SRAMs integrate a 1 Meg x
18, 512K x 32, or 512K x 36 SRAM core with advanced
synchronous peripheral circuitry and a 2-bit burst
counter. All synchronous inputs pass through registers
controlled by a positive-edge-triggered single-clock in-
put (CLK). The synchronous inputs include all addresses,
all data inputs, active LOW chip enable (CE#), two
additional chip enables for easy depth expansion (CE2,
CE2#), burst control inputs (ADSC#, ADSP#, ADV#),
byte write enables (BWx#) and global write (GW#). Note
that CE2# is not available on the T Version.
Asynchronous inputs include the output enable
(OE#), clock (CLK) and snooze enable (ZZ). There is also
• Packages
100-pin TQFP (3-chip enable)
165-pin FBGA
• Operating Temperature Range
Commercial (0ºC to +70ºC)
*See page 34 for FBGA package marking guide.
Part Number Example:
MT58L1MY18DT-7.5
16Mb: 1 Meg x 18, 512K x 32/36 Pipelined, DCD SyncBurst SRAM
MT58L1MY18D_2.p65 – Rev 7/00
1
Micron Technology, Inc., reserves the right to change products or specifications without notice.
©2000, Micron Technology, Inc.
ADVANCE
16Mb: 1 MEG x 18, 512K x 32/36
PIPELINED, DCD SYNCBURST SRAM
FUNCTIONAL BLOCK DIAGRAM
1 MEG x 18
20
SA0, SA1, SAs
MODE
ADV#
CLK
ADDRESS
REGISTER
20
18
20
2
SA0-SA1
SA1'
BINARY Q1
COUNTER AND
LOGIC
CLR
Q0
SA0'
ADSC#
ADSP#
BYTE “b”
WRITE REGISTER
9
BYTE “b”
WRITE DRIVER
9
1 Meg x 9 x 2
MEMORY
ARRAY
9
18
SENSE
AMPS
18
BWb#
OUTPUT
18
REGISTERS
OUTPUT
BUFFERS
E
18
BWa#
BWE#
GW#
CE#
CE2
CE2#
OE#
BYTE “a”
WRITE REGISTER
9
BYTE “a”
WRITE DRIVER
DQs
DQPa
DQPb
ENABLE
REGISTER
18
PIPELINED
ENABLE
2
INPUT
REGISTERS
FUNCTIONAL BLOCK DIAGRAM
512K x 32/36
19
SA0, SA1, SAs
ADDRESS
REGISTER
19
17
SA0-SA1
19
MODE
ADV#
CLK
Q1
SA1'
BINARY
COUNTER
SA0'
CLR
Q0
ADSC#
ADSP#
BWd#
BYTE “d”
WRITE REGISTER
BYTE “c”
WRITE REGISTER
9
BYTE “d”
WRITE DRIVER
BYTE “c”
WRITE DRIVER
BYTE “b”
WRITE DRIVER
BYTE “a”
WRITE DRIVER
9
BWc#
9
9
512K x 8 x 4
(x32)
512K x 9 x 4
(x36)
36
SENSE
AMPS
36
OUTPUT
REGISTERS
36
BWb#
BYTE “b”
WRITE REGISTER
9
9
MEMORY
ARRAY
OUTPUT
BUFFERS
E
36
DQs
DQPa
DQPb
DQPc
DQPd
BWa#
BWE#
GW#
CE#
CE2
CE2#
OE#
BYTE “a”
WRITE REGISTER
9
9
ENABLE
REGISTER
36
PIPELINED
ENABLE
4
INPUT
REGISTERS
NOTE:
Functional block diagrams illustrate simplified device operation. See truth table, pin descriptions and timing diagrams for
detailed information.
16Mb: 1 Meg x 18, 512K x 32/36 Pipelined, DCD SyncBurst SRAM
MT58L1MY18D_2.p65 – Rev 7/00
2
Micron Technology, Inc., reserves the right to change products or specifications without notice.
©2000, Micron Technology, Inc.
ADVANCE
16Mb: 1 MEG x 18, 512K x 32/36
PIPELINED, DCD SYNCBURST SRAM
GENERAL DESCRIPTION (continued)
a burst mode input (MODE) that selects between inter-
leaved and linear burst modes. The data-out (Q), en-
abled by OE#, is also asynchronous. WRITE cycles can be
from one to two bytes wide (x18) or from one to four
bytes wide (x32/x36), as controlled by the write control
inputs.
Burst operation can be initiated with either address
status processor (ADSP#) or address status controller
(ADSC#) inputs. Subsequent burst addresses can be in-
ternally generated as controlled by the burst advance
input (ADV#).
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 WRITE cycles on the x18 device,
BWa# controls DQas and DQPa; BWb# controls DQbs
and DQPb. During WRITE cycles on the x32 and x36
devices, BWa# controls DQas and DQPa; BWb# controls
DQbs and DQPb; BWc# controls DQcs and DQPc; BWd#
controls DQds and DQPd. GW# LOW causes all bytes to
be written. Parity bits are only available on the x18 and
x36 versions.
This device incorporates an additional pipelined
enable register which delays turning off the output
buffer an additional cycle when a deselect is executed.
This feature allows depth expansion without penalizing
system performance.
Micron’s 16Mb SyncBurst SRAMs operate from a
+3.3V or +2.5V power supply, and all inputs and outputs
are TTL-compatible. Users can implement either a 3.3V
or 2.5V I/O for the +3.3V V
DD
or a 2.5V I/O for the +2.5V
V
DD
. The device is ideally suited for Pentium
®
and
PowerPC pipelined systems and systems that benefit
from a very wide, high-speed data bus. The device is also
ideal in generic 16-, 18-, 32-, 36-, 64-, and 72-bit-wide
applications.
Please refer to the Micron Web site
(www.micronsemi.com/en/products/sram/) for the lat-
est data sheet.
TQFP PIN ASSIGNMENT TABLE
PIN #
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
x32/x36
NC/DQPc
1
DQc
DQc
V
DD
Q
V
SS
NC
DQc
NC
DQc
DQb
DQc
DQb
DQc
V
SS
V
DD
Q
DQb
DQc
DQb
DQc
NC
V
DD
NC
V
SS
DQb
DQd
DQb
DQd
V
DD
Q
V
SS
DQb
DQd
DQb
DQd
DQPb
DQd
NC
DQd
x18
NC
NC
NC
PIN #
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
x18
x32/x36
V
SS
V
DD
Q
NC
DQd
NC
DQd
NC
NC/DQPd
1
MODE (LBO#)
SA
SA
SA
SA
SA1
SA0
DNU
DNU
V
SS
V
DD
SA
SA
SA
SA
SA
SA
SA
SA
SA
PIN #
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
x32/x36
NC/DQPa
1
DQa
DQa
V
DD
Q
V
SS
NC
DQa
NC
DQa
DQa
DQa
V
SS
V
DD
Q
DQa
DQa
ZZ
V
DD
NC
V
SS
DQa
DQb
DQa
DQb
V
DD
Q
V
SS
DQa
DQb
DQa
DQb
DQPa
DQb
NC
DQb
x18
NC
NC
NC
PIN #
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
x18
x32/x36
V
SS
V
DD
Q
NC
NC
SA
DQb
DQb
NC/DQPb
1
SA
SA
ADV#
ADSP#
ADSC#
OE# (G#)
BWE#
GW#
CLK
V
SS
V
DD
CE2#
BWa#
BWb#
NC
BWc#
NC
BWd#
CE2
CE#
SA
SA
NOTE:
1. No Connect (NC) is used on the x32 version. Parity (DQPx) is used on the x36 version.
16Mb: 1 Meg x 18, 512K x 32/36 Pipelined, DCD SyncBurst SRAM
MT58L1MY18D_2.p65 – Rev 7/00
3
Micron Technology, Inc., reserves the right to change products or specifications without notice.
©2000, Micron Technology, Inc.
ADVANCE
16Mb: 1 MEG x 18, 512K x 32/36
PIPELINED, DCD SYNCBURST SRAM
PIN ASSIGNMENT (TOP VIEW)
100-PIN TQFP
SA
NC
NC
V
DD
Q
V
SS
NC
DQPa
DQa
DQa
V
SS
V
DD
Q
DQa
DQa
V
SS
NC
V
DD
ZZ
DQa
DQa
V
DD
Q
V
SS
DQa
DQa
NC
NC
V
SS
V
DD
Q
NC
NC
NC
SA
SA
ADV#
ADSP#
ADSC#
OE# (G#)
BWE#
GW#
CLK
V
SS
V
DD
CE2#
BWa#
BWb#
NC
NC
CE2
CE#
SA
SA
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
50
81
49
82
48
83
47
84
46
85
45
86
44
87
43
88
42
89
41
90
40
91
39
92
38
93
37
94
36
95
35
96
34
97
33
98
32
99
31
100
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
x18
SA
SA
SA
SA
SA
SA
SA
SA
SA
V
DD
V
SS
DNU
DNU
SA0
SA1
SA
SA
SA
SA
MODE (LBO#)
SA
SA
ADV#
ADSP#
ADSC#
OE# (G#)
BWE#
GW#
CLK
V
SS
V
DD
CE2#
BWa#
BWb#
BWc#
BWd#
CE2
CE#
SA
SA
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
50
81
49
82
48
83
47
84
46
85
45
86
44
87
43
88
42
89
41
90
40
91
39
92
38
93
37
94
36
95
35
96
34
97
33
98
32
99
31
100
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
NC/DQPb
1
DQb
DQb
V
DD
Q
V
SS
DQb
DQb
DQb
DQb
V
SS
V
DD
Q
DQb
DQb
V
SS
NC
V
DD
ZZ
DQa
DQa
V
DD
Q
V
SS
DQa
DQa
DQa
DQa
V
SS
V
DD
Q
DQa
DQa
NC/DQPa
1
NC
NC
NC
V
DD
Q
V
SS
NC
NC
DQb
DQb
V
SS
V
DD
Q
DQb
DQb
NC
V
DD
NC
V
SS
DQb
DQb
V
DD
Q
V
SS
DQb
DQb
DQPb
NC
V
SS
V
DD
Q
NC
NC
NC
x32/x36
SA
SA
SA
SA
SA
SA
SA
SA
SA
V
DD
V
SS
DNU
DNU
SA0
SA1
SA
SA
SA
SA
MODE (LBO#)
NOTE:
1. No Connect (NC) is used on the x32 version. Parity (DQPx) is used on the x36 version.
16Mb: 1 Meg x 18, 512K x 32/36 Pipelined, DCD SyncBurst SRAM
MT58L1MY18D_2.p65 – Rev 7/00
NC/DQPc
1
DQc
DQc
V
DD
Q
V
SS
DQc
DQc
DQc
DQc
V
SS
V
DD
Q
DQc
DQc
NC
V
DD
NC
V
SS
DQd
DQd
V
DD
Q
V
SS
DQd
DQd
DQd
DQd
V
SS
V
DD
Q
DQd
DQd
NC/DQPd
1
4
Micron Technology, Inc., reserves the right to change products or specifications without notice.
©2000, Micron Technology, Inc.
ADVANCE
16Mb: 1 MEG x 18, 512K x 32/36
PIPELINED, DCD SYNCBURST SRAM
TQFP PIN DESCRIPTIONS
x18
x32/x36
SYMBOL
SA0
SA1
SA
TYPE
Input
DESCRIPTION
Synchronous Address Inputs: These inputs are registered and must
meet the setup and hold times around the rising edge of CLK.
37
37
36
36
32-35, 42-50, 32-35, 42-50,
80-82, 99,
81, 82, 99,
100
100
93
94
–
–
93
94
95
96
BWa#
BWb#
BWc#
BWd#
Input
Synchronous Byte Write Enables: These active LOW inputs allow
individual bytes to be written and must meet the setup and hold
times around the rising edge of CLK. A byte write enable is LOW
for a WRITE cycle and HIGH for a READ cycle. For the x18 version,
BWa# controls DQa pins and DQPa; BWb# controls DQb pins and
DQPb. For the x32 and x36 versions, BWa# controls DQa pins and
DQPa; BWb# controls DQb pins and DQPb; BWc# controls DQc pins
and DQPc; BWd# controls DQd pins and DQPd. Parity is only
available on the x18 and x36 versions.
Byte Write Enable: This active LOW input permits BYTE WRITE
operations and must meet the setup and hold times around the
rising edge of CLK.
Global Write: This active LOW input allows a full 18-, 32-, or 36-bit
WRITE to occur independent of the BWE# and BWx# lines and
must meet the setup and hold times around the rising edge of
CLK.
Clock: This signal registers the address, data, chip enable, 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.
Synchronous Chip Enable: This active LOW input is used to enable
the device and conditions the internal use of ADSP#. CE# is
sampled only when a new external address is loaded.
Synchronous Chip Enable: This active LOW input is used to enable
the device and is sampled only when a new external address is
loaded.
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. This pin has an internal pull-down and can be floating.
Synchronous Chip Enable: This active HIGH input is used to enable
the device and is sampled only when a new external address is
loaded.
Output Enable: This active LOW, asynchronous input enables the
data I/O output drivers. G# is the JEDEC-standard term for OE#.
Synchronous Address Advance: This active LOW input is used to
advance the internal burst counter, controlling burst access after
the external address is loaded. A HIGH on this pin effectively
causes wait states to be generated (no address advance). To ensure
use of correct address during a WRITE cycle, ADV# must be HIGH at
the rising edge of the first clock after an ADSP# cycle is initiated.
87
87
BWE#
Input
88
88
GW#
Input
89
89
CLK
Input
98
98
CE#
Input
92
92
CE2#
Input
64
64
ZZ
Input
97
97
CE2
Input
86
83
86
83
OE#
(G#)
ADV#
Input
Input
(continued on next page)
16Mb: 1 Meg x 18, 512K x 32/36 Pipelined, DCD SyncBurst SRAM
MT58L1MY18D_2.p65 – Rev 7/00
5
Micron Technology, Inc., reserves the right to change products or specifications without notice.
©2000, Micron Technology, Inc.
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