Austin MT4C4001JC-12/883C 1 meg x 4 dram fast page mode dram Datasheet

DRAM
MT4C4001J
Austin Semiconductor, Inc.
PIN ASSIGNMENT
1 MEG x 4 DRAM
(Top View)
Fast Page Mode DRAM
20-Pin DIP (C, CN)
AVAILABLE AS MILITARY
SPECIFICATIONS
DQ1
DQ2
WE\
RAS\
A9
A0
A1
A2
A3
Vcc
• SMD 5962-90847
• MIL-STD-883
FEATURES
• Industry standard x4 pinout, timing, functions, and
packages
• High-performance, CMOS silicon-gate process
• Single +5V±10% power supply
• Low-power, 2.5mW standby; 300mW active, typical
• All inputs, outputs, and clocks are fully TTL and CMOS
compatible
• 1,024-cycle refresh distributed across 16ms
• Refresh modes: RAS\-ONLY, CAS\-BEFORE-RAS\
(CBR), and HIDDEN
• FAST PAGE MODE access cycle
• CBR with WE\ a HIGH (JEDEC test mode capable via
WCBR)
OPTIONS
-7
-8
-10
-12
• Packages
Ceramic DIP (300 mil)
Ceramic DIP (400 mil)
Ceramic LCC*
Ceramic ZIP
Ceramic SOJ
Ceramic SOJ w/ Cu J-lead
Ceramic Gull Wing
CN
C
ECN
CZ
ECJ
ECJA
ECG
20-Pin DIP (CZ)
DQ3 3
Vss
5
DQ2 7
RAS\
9
A0 11
A2 13
Vcc 15
A5 17
A7 19
DQ1
DQ2
WE\
RAS\
A9
A0
A1
A2
A3
Vcc
2
3
4
5
1
26
25
24
23
22
Vss
DQ4
DQ3
CAS\
OE\
9
10
11
12
13
18
17
16
15
14
A8
A7
A6
A5
A4
2 CAS\
4 DQ4
6 DQ1
8 WE\
10 A9
12 A1
14 A3
16 A4
18 A6
20 A8
GENERAL DESCRIPTION
The MT4C4001J is a randomly accessed solid-state
memory containing 4,194,304 bits organized in a x4
configuration. During READ or WRITE cycles each bit is
uniquely addressed through the 20 address bits which are
entered 10 bits (A0-A9) at a time. RAS\ is used to latch the
first 10 bits and CAS\ the later 10 bits. A READ or WRITE
cycle is selected with the WE\ input. A logic HIGH on WE\
dictates READ mode while a logic LOW on WE\ dictates
WRITE mode. During a WRITE cycle, data-in (D) is latched
by the falling edge of WE\ or CAS\, whichever occurs last. If
WE\ goes LOW prior to CAS\ going LOW, the output pin(s)
remain open (High-Z) until the next CAS\ cycle. If WE\ goes
LOW after data reaches the output pin(s), Qs are activated and
retain the selected cell data as long as CAS\ remains low
(regardless of WE\ or RAS\). This LATE WE\ pulse results in
a READ-WRITE cycle. The four data inputs and four data
outputs are routed through four pins using common I/O and
pin direction is controlled by WE\ and OE\. FAST-PAGEMODE operations allow faster data operations (READ,
WRITE, or READ-MODIFY-WRITE) within a row address
(A0-A9) defined page boundary. The FAST PAGE MODE
(continued)
No. 103
No. 104
No. 202
No. 400
No. 504
No. 504A
No. 600
*NOTE: If solder-dip and lead-attach is desired on LCC
packages, lead-attach must be done prior to the solderdip operation.
For more products and information
please visit our web site at
www.austinsemiconductor.com
MT4C4001J
Rev. 2.2 06/05
Vss
DQ4
DQ3
CAS\
OE\
A8
A7
A6
A5
A4
OE\ 1
MARKING
• Timing
70ns access
80ns access
100ns access
120ns access
20
19
18
17
16
15
14
13
12
11
1
2
3
4
5
6
7
8
9
10
20-Pin SOJ
(ECJ,ECJA),
20-Pin LCC (ECN), &
20-Pin Gull Wing (ECG)
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
1
DRAM
MT4C4001J
Austin Semiconductor, Inc.
GENERAL DESCRIPTION (cont.)
cycle is always initiated with a row address strobe-in by RAS\
followed by a column address strobed-in by CAS\. CAS\ may
be toggled-in by holding RAS\ LOW and strobing-in different
column addresses, thus executing faster memory cycles.
Returning RAS\ HIGH terminates the FAST PAGE MODE
operation.
Returning RAS\ and CAS\ HIGH terminates a memory cycle
and decreases chip current to a reduced standby level. Also,
the chip is preconditioned for the next cycle during the RAS\
HIGH time. Memory cell data is retained in its corrected
stated by maintaining power and executing any RAS\ cycle
(READ, WRITE, RAS\-ONLY, CAS\-BEFORE-RAS\, or
HIDDEN REFRESH) so that all 1,024 combinations of RAS\
addresses (A0-A9) are executed at least every 16ms,
regardless of sequence. The CBR REFRESH cycle will
invoke the internal refresh counter for automatic RAS\
addressing.
FUNCTIONAL BLOCK DIAGRAM
FAST PAGE MODE
4
DATA IN
BUFFER
WE\
CAS\
*EARLY-WRITE
DETECTION CIRCUIT
DATA OUT
BUFFER
4
DQ1
DQ2
DQ3
DQ4
4
NO. 2 CLOCK
GENERATOR
OE\
10
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
COLUMN
DECODER
10
4
Vcc
Vss
1024
SENSE AMPLIFIERS
I/O GATING
REFRESH
CONTROLLER
1024 x 4
ROW
DECODER
REFRESH
COUNTER
10
10
RAS\
COLUMN
ADDRESS
BUFFER
ROW ADDRESS
BUFFERS (10)
10
1024
MEMORY
ARRAY
NO. 1 CLOCK
GENERATOR
NOTE: WE\ LOW prior to CAS\ LOW, EW detection circuit output is a HIGH (EARLY-WRITE)
CAS\ LOW prior to WE\ LOW, EW detection circuit output is a LOW (LATE-WRITE)
MT4C4001J
Rev. 2.2 06/05
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
2
DRAM
MT4C4001J
Austin Semiconductor, Inc.
TRUTH TABLE
ADDRESSES
FUNCTION
Standby
READ
EARLY-WRITE
READ-WRITE
FAST-PAGE-MODE
READ
FAST-PAGE-MODE
EARLY-WRITE
FAST-PAGE-MODE
READ-WRITE
RAS\-ONLY REFRESH
1st Cycle
2nd Cycle
1st Cycle
2nd Cycle
1st Cycle
2nd Cycle
READ
WRITE
CAS\-BEFORE-RAS\ REFRESH
HIDDEN REFRESH
MT4C4001J
Rev. 2.2 06/05
RAS\
H
L
L
L
L
L
L
L
L
L
L
L H L
L H L
H L
CAS\
H X
L
L
L
H L
H L
H L
H L
H L
H L
H
L
L
L
WE\
X
H
L
H L
H
H
L
L
H L
H L
X
H
L
H
OE\
X
L
X
L H
L
L
X
X
L H
L H
X
L
X
X
t
R
X
ROW
ROW
ROW
ROW
n/a
ROW
n/a
ROW
n/a
ROW
ROW
ROW
X
t
C
X
COL
COL
COL
COL
COL
COL
COL
COL
COL
n/a
COL
COL
X
DATA IN/OUT
DQ1-DQ4
High-Z
Data Out
Data In
Data Out/Data In
Data Out
Data Out
Data In
Data In
Data Out/Data In
Data Out/Data In
High-Z
Data Out
Data In
High-Z
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
3
DRAM
MT4C4001J
Austin Semiconductor, Inc.
ABSOLUTE MAXIMUM RATINGS*
Voltage on Any Pin Relative to Vss.................-1.0V to +7.0V
Storage Temperature.......................................-65oC to +150oC
Power Dissipation.................................................................1W
Short Circuit Output Current...........................................50mA
Lead Temperature (soldering 5 seconds).....................+270oC
*Stresses greater than those listed under "Absolute Maximum
Ratings" may cause permanent damage to the device. This is
a stress rating only and functional operation of the device at
these or any other conditions above those indicated in the
operation section of this specification is not implied.
Exposure to absolute maximum rating conditions for extended
periods may affect reliability.
ELECTRICAL CHARACTERISTICS AND RECOMMENDED DC OPERATING CONDITIONS
(NOTES: 1, 3, 4, 6, 7) (-55°C < TA < 125°C; VCC = 5V ±10%)
PARAMETER/CONDITION
Supply Voltage
SYM
MIN
MAX
UNITS
VCC
4.5
5.5
V
Input High (Logic 1) Voltage, All Inputs
VIH
2.4
VCC+0.5
V
Input Low (Logic 0) Voltage, All Inputs
VIL
-0.5
0.8
V
II
-5
5
µA
IOZ
-5
5
µA
OUTPUT LEVELS
Output High Voltage (IOUT = -5mA)
VOH
2.4
Output Low Voltage (IOUT = 4.2mA)
VOL
INPUT LEAKAGE CURRENT
Any Input 0V < VIN < 5.5V Vcc = 5.5V
(All other pints not under test = 0V)
OUTPUT LEAKAGE CURRENT
(Q is Disabled, 0V < VOUT < 5.5V) Vcc = 5.5V
PARAMETER/CONDITION
STANDBY CURRENT (TTL)
(RAS\ = CAS\ = VIH)
NOTES
V
0.4
MAX
-10
V
SYM
-7
-8
ICC1
4
4
4
4
mA
STANDBY CURRENT (CMOS)
(RAS\ = CAS\ = VCC -0.2V; all other inputs = VCC -0.2V)
ICC2
2
2
2
2
mA
OPERATING CURRENT: Random READ/WRITE
Average Power-Supply Current
(RAS\, CAS\, Address Cycling: tRC = tRC(MIN))
ICC3
85
75
65
70
mA
3, 4
OPERATING CURRENT: FAST PAGE MODE
Average Power-Supply Current
(RAS\ = VIL, CAS\, Address Cycling: tPC = tPC (MIN))
ICC4
60
50
45
40
mA
3, 4
REFRESH CURRENT: RAS\-ONLY
Average Power-Supply Current
(RAS\ Cycling, CAS\ = VIH: tRC = tRC (MIN))
ICC5
85
75
65
70
mA
3
REFRESH CURRENT: CAS\-BEFORE-RAS\
Average Power-Supply Current
(RAS\, CAS\, Address Cycling: tRC = tRC (MIN))
ICC6
85
75
65
70
mA
3, 5
MT4C4001J
Rev. 2.2 06/05
-12
UNITS NOTES
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
4
DRAM
MT4C4001J
Austin Semiconductor, Inc.
CAPACITANCE
PARAMETER
Input Capacitance: A0-A10
SYM
MIN
MAX
UNITS
NOTES
CI1
7
pF
2
Input Capacitance: RAS\, CAS\, WE\, OE\
CI2
7
pF
2
Input/Output Capacitance: DQ
CIO
8
pF
2
ELECTRICAL CHARACTERISTICS AND RECOMMENDED AC OPERATING CONDITIONS
(NOTES: 6, 7, 8, 9, 10, 11, 12, 13) (-55°C < TC < 125°C; VCC = 5V ±10%)
-7
PARAMETER
Random READ or WRITE cycle time
READ-WRITE cycle time
FAST-PAGE-MODE READ or WRITE cycle time
FAST-PAGE-MODE READ-WRITE cycle time
-8
MAX
MIN
-10
MAX
MIN
tRC
130
150
190
220
tRWC
180
200
240
255
ns
tPC
40
45
55
70
ns
tPRWC
90
90
MIN
-12
SYM
MAX
110
MIN
MAX
UNITS
NOTES
ns
140
ns
Access time from RAS\
tRAC
70
80
90
120
ns
14
Access time from CAS\
tCAC
20
20
25
30
ns
15
Access time from column address
tAA
35
40
45
60
ns
Access time from CAS\ precharge
tCPA
35
40
45
60
ns
RAS\ pulse width
tRAS
70
10,000
80
10,000
100
10,000
120
100,000
ns
RAS\ pulse width (FAST PAGE MODE)
tRASP
70
100,000
80
100,000
100
100,000
120
100,000
ns
RAS\ hold time
tRSH
20
20
25
30
RAS\ precharge time
tRP
50
60
70
90
ns
CAS\ pulse width
tCAS
20
30
ns
CAS\ hold time
tCSH
70
80
100
120
ns
CAS\ precharge time
tCPN
10
10
12
15
ns
CAS\ precharge time (FAST PAGE MODE)
tCP
10
10
12
15
ns
RAS\ to CAS\ delay time
tRCD
20
CAS\ to RAS\ precharge time
tCRP
5
10,000
50
20
20
10,000
60
5
25
25
10,000
75
5
25
ns
90
10
16
ns
17
ns
Row address setup time
tASR
0
0
0
0
ns
Row address hold time
tRAH
10
10
15
15
ns
RAS\ to column address delay time
tRAD
15
Column address setup time
tASC
0
0
0
0
ns
Column address hold time
tCAH
15
15
20
25
ns
Column address hold time (referenced to RAS\)
tAR
50
60
70
85
ns
Column address to RAS\ lead time
tRAL
35
40
50
60
ns
Read command setup time
tRCS
0
0
0
0
ns
Read command hold time (referenced to CAS\)
tRCH
0
0
0
0
ns
19
Read command hold time (referenced to RAS\)
tRRH
0
0
0
0
ns
19
CAS\ to output in Low-Z
tCLZ
0
0
0
0
ns
Output buffer turn-off delay
tOFF
0
WE\ command setup time
tWCS
0
MT4C4001J
Rev. 2.2 06/05
35
20
15
0
0
40
20
20
0
0
50
20
20
0
0
60
20
ns
18
ns
20
ns
21, 27
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
5
DRAM
MT4C4001J
Austin Semiconductor, Inc.
ELECTRICAL CHARACTERISTICS AND RECOMMENDED AC OPERATING CONDITIONS
(NOTES: 6, 7, 8, 9, 10, 11, 12, 13) (-55°C < TC < 125°C; VCC = 5V ±10%)
-7
PARAMETER
-8
MAX
MIN
-10
MAX
MIN
-12
SYM
MIN
MAX
MIN
Write command hold time
tWCH
15
15
20
25
MAX
UNITS
ns
Write command hold time (referenced to RAS\)
NOTES
tWCR
50
60
70
80
ns
Write command pulse width
tWP
15
15
20
25
ns
Write command to RAS\ lead time
tRWL
20
20
25
30
ns
Write commend to CAS\ lead time
tCWL
20
20
25
30
ns
Data-in setup time
tDS
0
0
0
0
ns
22
Data-in hold time
tDH
12
15
18
25
ns
22
Data-in hold time (referenced to RAS\)
tDHR
50
60
70
90
ns
RAS\ to WE\ delay time
tRWD
95
105
130
140
ns
Column address to WE\ delay time
tAWD
60
65
80
90
ns
21
CAS\ to WE\ delay time
tCWD
45
45
55
60
ns
21
tT
3
Transition time (rise or fall)
50
3
16
50
3
16
50
3
16
50
ns
16
ms
21
Refresh period (1,024 cycles)
tREF
RAS\ to CAS\ precharge time
tRPC
0
0
0
0
CAS\ setup time (CAS\-BEFORE-RAS\ REFRESH)
tCSR
5
10
10
10
ns
5
CAS\ hold time (CAS\-BEFORE-RAS\ REFRESH)
tCHR
10
15
20
25
ns
5
WE\ hold time (CAS\-BEFORE-RAS\ REFRESH)
tWRH
10
10
10
10
ns
25, 28
WE\ setup time (CAS\-BEFORE-RAS\ REFRESH)
tWRP
10
10
10
10
ns
25, 28
WE\ hold time (WCBR test cycle)
tWTH
10
10
10
10
ns
25, 28
WE\ setup time (WCBR test cycle)
tWTS
10
10
10
10
ns
25, 28
OE\ setup prior to RAS during HIDDEN REFRESH cycle
tORD
0
0
0
0
ns
ns
Output disable
tOD
15
20
25
25
ns
27
Output enable
tOE
15
20
25
25
ns
23
ns
26
OE\ hold time from WE\ during READ-MODIFY-WRITE cycle
MT4C4001J
Rev. 2.2 06/05
tOEH
20
20
25
25
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
6
DRAM
Austin Semiconductor, Inc.
MT4C4001J
NOTES:
point only; if tRAD is greater than the specified tRAD (MAX)
limit, then access time is controlled exclusively by tAA.
19. Either tRCH or tRRH must be satisfied for a READ cycle.
20. tOFF (MAX) defines the time at which the output achieves
the open circuit conditions and is not referenced to VOH or
VOL.
21. tWCS, tRWD, tAWD, and tCWD are not restrictive operating
parameters. tWCS applies to EARLY-WRITE cycles. tRWD,
tAWD, and tCWD apply to READ-MODIFY-WRITE cycles.
If tWCS > tWCS (MIN), the cycle is an EARLY-WRITE cycles
and the data output will remain an open circuit throughout the
entire cycle. If tRWD > tRWD (MIN), tAWD > tAWD (MIN) and
tCWD > tCWD (MIN), the cycle is a READ-MODIFY-WRITE
and the data output will contain data read from the selected
cell. If neither of the above conditions is met, the state of the
data out is indeterminate. OE\ held HIGH and WE\ taken LOW
after CAS\ goes LOW results in a LATE-WRITE (OE\
controlled) cycle. t WCS , t RWD , t CWD, and t AWD are not
applicable in a LATE-WRITE cycle.
22. These parameters are referenced to CAS\ leading edge in
EARLY-WRITE cycle and WE\ leading edge in LATE-WRITE
cycles and WE\ leading edge in LATE-WRITE or
READ-MODIFY-WRITE cycle.
23. If OE\ is tied permanently LOW, LATE-WRITE or
READ-MODIFY-WRITE operations are not possible.
24. A HIDDEN REFRESH may also be performed after a
WRITE cycle. In this case, WE\=LOW and OE\=HIGH.
25. tWTS and tWTH are setup and hold specifications for the
WE\ pin being held LOW to enable the JEDEC test mode (with
CBR timing constraints). These two parameters are the
inverts of tWRP and tWRH in the CBR REFRESH cycle.
26. LATE-WRITE and READ-MODIFY-WRITE cycles must
have both tOD and tOEH met (OE\ HIGH during WRITE cycle)
in order to ensure that the output buffers will be open during
the WRITE cycle. The DQs will provide the previously read
data if CAS\ remains LOW and OE\ is taken back LOW after
tOEH is met. If CAS\ goes HIGH prior to OE\ going back LOW,
the DQs will remain open.
27. The DQs open during READ cycles once tOD or tOFF
occur. If CAS\ goes HIGH first, OE\ becomes a “don’t care.”
If OE\ goes HIGH and CAS\ stays LOW, OE\ is not a “don’t
care;” and the DQs will provide the previously read data if
OE\ is taken back LOW (while CAS\ remains LOW).
28. JEDEC test mode only.
1. All voltages referenced to Vss.
2. This parameter is sampled, not 100% tested. Capacitance
is measured with Vcc=5V, f=1 MHz at less than 50mVrms,
TA = 25°C ±3°C, Vbias = 2.4V applied to each input and
output individually with remaining inputs and outputs open.
3. Icc is dependent on cycle rates.
4. Icc is dependent on output loading and cycle rates.
Specified values are obtained with minimum cycle time and
the output open.
5. Enables on-chip refresh and address counters.
6. The minimum specifications are used only to indicate cycle
time at which proper operation over the full temperature range
(-55°C < TA < 125°C) is assured.
7. An initial pause of 100µs is required after power-up
followed by eight RAS\ refresh cycles (RAS\-ONLY or CBR
with WE\ HIGH) before proper device operation is assured.
The eight RAS\ cycle wake-up should be repeated any time
the 16ms refresh requirement is exceeded.
8. AC characteristics assume tT = 5ns.
9. V IH (MIN) and V IL (MAX) are reference levels for
measuring timing of input signals. Transition times are
measured between VIH and VIL (or between VIL and VIH).
10. In addition to meeting the transition rate specification, all
input signals must transit between VIH and VIL (or between
VIL and VIH) in a monotonic manner.
11. If CAS\ = VIH, data outputs (DQs) are High-Z.
12. If CAS\ = VIL, data outputs (DQs) may contain data from
the last valid READ cycle.
13. Measured with a load equivalent to two TTL gates and
100pF.
14. Assumes that tRCD < tRCD (MAX). If tRCD is greater than
the maximum recommended value shown in this table, tRAC
will increase by the amount that tRCD exceeds the value shown.
15. Assumes that tRCD > tRCD (MAX)
16. If CAS\ is LOW at the falling edge of RAS\, DQs will be
maintained from the previous cycle. To initiate a new cycle
and clear the data out buffer, CAS\ must be pulsed HIGH for
tCPN.
17. Operation within the tRCD (MAX) limit ensures that tRAC
(MAX) can be met. tRCD (MAX) is specified as a reference
point only; if tRCD is greater than the specified tRCD (MAX)
limit, then access time is controlled exclusively by tCAC.
18. Operation within the tRAD (MAX) limit ensures that tRCD
(MAX) can be met. tRAD (MAX) is specified as a reference
MT4C4001J
Rev. 2.2 06/05
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
7
DRAM
Austin Semiconductor, Inc.
MT4C4001J
READ CYCLE
EARLY-WRITE CYCLE
MT4C4001J
Rev. 2.2 06/05
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
8
DRAM
Austin Semiconductor, Inc.
MT4C4001J
READ-WRITE CYCLE
(LATE-WRITE and READ-MODIFY-WRITE CYCLES)
FAST-PAGE-MODE READ CYCLE
MT4C4001J
Rev. 2.2 06/05
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
9
DRAM
Austin Semiconductor, Inc.
MT4C4001J
FAST-PAGE-MODE EARLY-WRITE CYCLE
FAST-PAGE-MODE READ-WRITE CYCLE
(LATE-WRITE and READ-MODIFY-WRITE CYCLES)
*tPC = LATE-WRITE cycle
tPRWC = FAST READ-MODIFY-WRITE cycle
MT4C4001J
Rev. 2.2 06/05
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
10
DRAM
Austin Semiconductor, Inc.
MT4C4001J
RAS\-ONLY REFRESH CYCLE
(ADDR = A0-A9; WE\ = Don’t Care)
CAS\-BEFORE-RAS\ REFRESH CYCLE
(A0-A9, and OE\ = DON’T CARE)
HIDDEN REFRESH CYCLE24
(WE\ = HIGH, OE\ = LOW)
MT4C4001J
Rev. 2.2 06/05
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
11
DRAM
Austin Semiconductor, Inc.
MT4C4001J
POWER-UP
4 MEG POWER-UP AND REFRESH
CONSTRAINTS
The EIA/JEDEC 4 Meg DRAM introduces two potential
incompatibilities compared to the previous generation
1 Meg DRAM. The incompatibilities involve refresh and
power-up. Understanding these incompatibilities and
providing for them will offer the designer and system user
greater compatibility between the 1 Meg and 4 Meg.
REFRESH
The most commonly used refresh mode of the 1 Meg is
the CBR (CAS\-BEFORE-RAS\) REFRESH cycle. The CBR
for the 1 Meg specifies the WE\ pin as a “don’t care.” The 4
Meg, on the other hand, specifies the CBR REFRESH mode
with the WE\ pin held at a voltage HIGH level.
A CBR cycle with WE\ LOW will put the 4 Meg into the
JEDEC specified test mode (WCBR).
The 4 Meg JEDEC test mode constraint may introduce
another problem. The 1 Meg POWER-UP cycle requires a
100µs delay followed by any eight RAS\ cycles. The 4 Meg
POWER-UP is more restrictive in that eight RAS\-ONLY or
CBR REFRESH (WE\ held HIGH) cycles must be used. The
restriction is needed since the 4 Meg may power-up in the
JEDEC specified test mode and must exit out of the test mode.
The only way to exit the 4 Meg JEDEC test mode is with
either a RAS\-ONLY or a CBR REFRESH cycle
(WE\ held HIGH).
SUMMARY
1. The 1 Meg CBR REFRESH allows the WE\ pin to be “don’t
care” while the 4 Meg CBR requires WE\ to be HIGH.
2. The eight RAS\ wake-up cycles on the 1 Meg may be any
valid RAS\ cycle while the 4 Meg may only use RAS\-ONLY
or CBR REFRESH cycles (WE\ held HIGH).
COMPARISON OF 4 MEG TEST MODE AND WCBR TO 1 MEG CBR
MT4C4001J
Rev. 2.2 06/05
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MT4C4001J
Austin Semiconductor, Inc.
MECHANICAL DEFINITIONS*
ASI Case #103 (Package Designator CN)
SMD 5962-90847, Case Outline R
D
A
Q
L
E
S1
b2
e
b
Pin 1
R
eA
c
SMD Specifications
SYMBOL
A
b
b2
c
D
E
eA
e
Q
L
S1
R
MIN
--0.014
0.045
0.008
--0.220
MAX
0.200
0.026
0.065
0.018
1.060
0.310
0.300 BSC
0.100 BSC
0.015
0.125
0.005
90°
0.070
0.200
--105°
NOTE: These dimensions are per the SMD. ASI's package dimensional limits
may differ, but they will be within the SMD limits.
* All measurements are in inches.
MT4C4001J
Rev. 2.2 06/05
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
13
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MT4C4001J
Austin Semiconductor, Inc.
MECHANICAL DEFINITIONS*
ASI Case #104 (Package Designator C)
SMD 5962-90847, Case Outline U
D
D1
A
Q
L
E
S1
b2
e
b
Pin 1
eA
c
SMD Specifications
SYMBOL
A
b
b2
c
D
D1
E
eA
e
Q
L
S1
MIN
--0.015
0.045
0.008
0.980
0.890
0.380
0.385
MAX
0.175
0.021
0.065
0.014
1.030
0.910
0.410
0.420
0.100 BSC
0.015
0.125
---
0.060
0.200
0.070
NOTE: These dimensions are per the SMD. ASI's package dimensional limits
may differ, but they will be within the SMD limits.
* All measurements are in inches.
MT4C4001J
Rev. 2.2 06/05
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
14
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Austin Semiconductor, Inc.
MT4C4001J
MECHANICAL DEFINITIONS*
ASI Case #400 (Package Designator CZ)
SMD 5962-90847, Case Outline N
SMD SPECIFICATIONS
SYMBOL
MIN
MAX
A
0.355
0.405
b
0.016
0.023
b2
0.035
0.045
c
0.008
0.015
e
0.045
0.055
eA
0.085
0.115
D
1.035
1.065
E
0.100
0.130
L
0.125
0.200
L1
0.015
0.050
NOTE: These dimensions are per the SMD. ASI's package dimensional limits
may differ, but they will be within the SMD limits.
* All measurements are in inches.
MT4C4001J
Rev. 2.2 06/05
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
15
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MT4C4001J
Austin Semiconductor, Inc.
ASI Case #202 (Package Designator ECN)
SMD 5962-90847, Case Outline T
L1
S
e
E1
E
b
R
L
D
A
A1
SYMBOL
A
A1
b
D
E
E1
e
L
L1
R
S
SMD SPECIFICATIONS
MIN
MAX
0.060
0.080
0.035 TYP
0.022
0.028
0.343
0.357
0.665
0.685
0.590
0.610
0.050 TYP
0.045
0.055
0.080
0.100
0.006
0.010
0.025
0.050
NOTE: These dimensions are per the SMD. ASI's package dimensional limits
may differ, but they will be within the SMD limits.
* All measurements are in inches.
MT4C4001J
Rev. 2.2 06/05
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
16
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Austin Semiconductor, Inc.
MT4C4001J
MECHANICAL DEFINITION*
ASI Case #504 (Package Designator ECJ)
NOTE: The Difference between the ECJ & ECJA packages is that the ECJA has different lead
attach with 5% Sn / 95% Pb solder connection whereas the ECJ package uses compression
weld lead attach. Both package’s lead material is JEDEC TYPE MO-110 option A ‘J’ Form
Copper material.
SYMBOL
A
A1
b
b1
b2
D
D1
E
E1
e
L
ASI SPECIFICATIONS
MIN
MAX
0.12
0.14
0.035 TYP
0.012 DIA
0.016 DIA
0.050 TYP
0.09
0.110
0.665
0.685
0.592
0.608
0.345
0.355
0.300
0.315
0.045
0.055
0.055
0.065
*All measurements are in inches.
MT4C4001J
Rev. 2.2 06/05
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
17
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Austin Semiconductor, Inc.
MT4C4001J
MECHANICAL DEFINITION*
ASI Case #504A (Package Designator ECJA)
NOTE: The Difference between the ECJ & ECJA packages is that the ECJA has different lead
attach with 5% Sn / 95% Pb solder connection whereas the ECJ package uses compression
weld lead attach. Both package’s lead material is JEDEC TYPE MO-110 option A ‘J’ Form
Copper material.
SYMBOL
A
A1
b
b1
b2
D
D1
E
E1
e
L
ASI SPECIFICATIONS
MIN
MAX
0.12
0.14
0.035 TYP
0.012 DIA
0.016 DIA
0.050 TYP
0.09
0.110
0.665
0.685
0.592
0.608
0.345
0.355
0.300
0.315
0.045
0.055
0.055
0.065
*All measurements are in inches.
MT4C4001J
Rev. 2.2 06/05
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
18
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Austin Semiconductor, Inc.
MT4C4001J
MECHANICAL DEFINITION*
ASI Case #600 (Package Designator ECG)
SYMBOL
A
A1
b
b1
b2
D
D1
E
E1
E2
e
e1
L
ASI PACKAGE SPECIFICATIONS
MIN
MAX
0.120
0.140
0.066
0.078
0.022
0.028
0.050 TYP
0.090
0.110
0.665
0.685
0.592
0.608
0.345
0.355
0.482
0.498
0.442
0.458
0.045
0.055
0.014 Dia. TYP
0.057
0.063
*All measurements are in inches.
MT4C4001J
Rev. 2.2 06/05
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
19
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Austin Semiconductor, Inc.
MT4C4001J
ORDERING INFORMATION
EXAMPLE: MT4C4001JCN-8/883C
Device
Package
Speed ns
Number
Type
MT4C4001J
CN
-7
MT4C4001J
CN
-8
MT4C4001J
CN
-10
MT4C4001J
CN
-12
EXAMPLE: MT4C4001JCZ-7/883C
Device
Package
Speed ns
Number
Type
MT4C4001J
CZ
-7
MT4C4001J
CZ
-8
MT4C4001J
CZ
-10
MT4C4001J
CZ
-12
EXAMPLE: MT4C4001JECJ-7/IT
Device
Package
Speed ns
Number
Type
MT4C4001J
ECJ
-7
MT4C4001J
ECJ
-8
MT4C4001J
ECJ
-10
MT4C4001J
ECJ
-12
EXAMPLE: MT4C4001JECJA-7/IT
Device
Package
Speed ns
Number
Type
MT4C4001J
ECJA
-7
MT4C4001J
ECJA
-8
MT4C4001J
ECJA
-10
MT4C4001J
ECJA
-12
EXAMPLE: MT4C4001JC-12/883C
Device
Package
Speed ns
Number
Type
MT4C4001J
C
-7
MT4C4001J
C
-8
MT4C4001J
C
-10
MT4C4001J
C
-12
Process
/*
/*
/*
/*
EXAMPLE: MT4C4001JECN-10/XT
Device
Package
Speed ns
Number
Type
MT4C4001J
ECN
-7
MT4C4001J
ECN
-8
MT4C4001J
ECN
-10
MT4C4001J
ECN
-12
Process
/*
/*
/*
/*
EXAMPLE: MT4C4001JECG-12/IT
Device
Package
Speed ns
Number
Type
MT4C4001J
ECG
-7
MT4C4001J
ECG
-8
MT4C4001J
ECG
-10
MT4C4001J
ECG
-12
Process
/*
/*
/*
/*
/*
/*
/*
/*
Process
/*
/*
/*
/*
Process
/*
/*
/*
/*
Process
/*
/*
/*
/*
*AVAILABLE PROCESSES
IT = Industrial Temperature Range
XT = Extended Temperature Range
883C = Full Military Processing
MT4C4001J
Rev. 2.2 06/05
Process
Temperature
-40oC to +85oC
-55oC to +125oC
-55oC to +125oC
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
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Austin Semiconductor, Inc.
MT4C4001J
ASI TO DSCC PART NUMBER
CROSS REFERENCE*
ASI Package Designator CZ
ASI Part #
MT4C4001JCZ-8/883C
MT4C4001JCZ-10/883C
MT4C4001JCZ-12/883C
ASI Package Designator C
SMD Part #
5962-9084703MNA
5962-9084702MNA
5962-9084701MNA
ASI Part #
MT4C4001JC-8/883C
MT4C4001JC-10/883C
MT4C4001JC-12/883C
ASI Package Designator CN
ASI Part #
MT4C4001JCN-8/883C
MT4C4001JCN-10/883C
MT4C4001JCN-12/883C
SMD Part #
5962-9084703MUA
5962-9084702MUA
5962-9084701MUA
ASI Package Designator ECN
SMD Part #
5962-9084703MRA
5962-9084702MRA
5962-9084701MRA
ASI Part #
MT4C4001JECN-8/883C
MT4C4001JECN-10/883C
MT4C4001JECN-12/883C
SMD Part #
5962-9084703MTA
5962-9084702MTA
5962-9084701MTA
* ASI part number is for reference only. Orders received referencing the SMD part number will be processed per the SMD.
MT4C4001J
Rev. 2.2 06/05
Austin Semiconductor, Inc. reserves the right to change products or specifications without notice.
21
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