MICRON MT4LC16M4H9TG-6S, MT4LC16M4H9DJ-6S, MT4LC16M4H9TG-5, MT4LC16M4H9TG-5S, MT4LC16M4H9DJ-5 Datasheet

16 MEG x 4

V

CC

DQ0
DQ1

NC
NC
NC
NC

WE#

RAS#

A0
A1
A2
A3
A4
A5

V

CC

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17

Vss

DQ3
DQ2

NC
NC
NC
CAS#
OE#
NC

/A12**

A11
A10
A9
A8
A7
A6

Vss

EDO DRAM

DRAM

FEATURES

• Single +3.3V ±0.3V power supply

• Industry-standard x4 pinout, timing, functions,
and packages

• 12 row, 12 column addresses (H9) or
13 row, 11 column addresses (G3)

• High-performance CMOS silicon-gate process

• All inputs, outputs and clocks are LVTTL-compat­ible

• Extended Data-Out (EDO) PAGE MODE access

• Optional self refresh (S) for low-power data
retention

• 4,096-cycle CAS#-BEFORE-RAS# (CBR) REFRESH
distributed across 64ms

OPTIONS MARKING

• Refresh Addressing
4,096 (4K) rows H9
8,192 (8K) rows G3

• Plastic Packages
32-pin SOJ (400 mil) DJ
32-pin TSOP (400 mil) TG

MT4LC16M4G3, MT4LC16M4H9

For the latest data sheet, please refer to the Micron Web
site: www.micronsemi.com/mti/msp/html/datasheet.html

PIN ASSIGNMENT (Top View)

32-Pin SOJ 32-Pin TSOP

Vss

V

CC

1
2

DQ0

3

DQ1

4

NC

5

NC

6

NC

7

NC

8

WE#

9

RAS#

10

A0

11

A1

12

A2

13

A3

14

A4

15

A5

16

V

CC

**NC on H9 version, A12 on G3 version

16 MEG x 4 EDO DRAM PART NUMBERS

32

DQ3

31

DQ2

30

NC

29

NC

28

NC

27

CAS#

26

OE#

25

NC/A12**

24

A11

23

A10

22

A9

21

A8

20

A7

19

A6

18

Vss

17

• Timing
50ns access -5
60ns access -6

• Refresh Rates
Standard Refresh None
Self Refresh (128ms period) S*

NOTE: 1. The 16 Meg x 4 EDO DRAM base number

differentiates the offerings in one place—
MT4LC16M4H9. The fifth field distinguishes the
address offerings: H9 designates 4K addresses and
G3 designates 8K addresses.

PART NUMBER ADDRESSING PACKAGE REFRESH

MT4LC16M4H9DJ-x 4K SOJ Standard
MT4LC16M4H9DJ-x S 4K SOJ Self
MT4LC16M4H9TG-x 4K TSOP Standard
MT4LC16M4H9TG-x S 4K TSOP Self
MT4LC16M4G3DJ-x 8K SOJ Standard
MT4LC16M4G3DJ-x S 8K SOJ Self
MT4LC16M4G3TG-x 8K TSOP Standard
MT4LC16M4G3TG-x S 8K TSOP Self

x = speed

REFRESH

2. The “#” symbol indicates signal is active LOW.

*Contact factory for availability

Part Number Example:

MT4LC16M4H9DJ-6

KEY TIMING PARAMETERS

SPEEDtRC

-5 84ns 50ns 20ns 25ns 13ns 8ns

-6 104ns 60ns 25ns 30ns 15ns 10ns

16 Meg x 4 EDO DRAM Micron Technology, Inc., reserves the right to change products or specifications without notice.
D22_2.p65 – Rev. 5/00 ©2000, Micron Technology, Inc.

t

RAC

t

PC

t

AAtCACtCAS

GENERAL DESCRIPTION

The 16 Meg x 4 DRAM is a high-speed CMOS,
dynamic random-access memory device containing
67,108,864 bits and designed to operate from 3V to

3.6V. The MT4LC16M4H9 and MT4LC16M4G3 are
functionally organized as 16,777,216 locations con­taining 4 bits each. The 16,777,216 memory locations
are arranged in 4,096 rows by 4,096 columns on the H9
version and 8,192 rows by 2,048 columns on the G3
version. During READ or WRITE cycles, each location is

1

FUNCTIONAL BLOCK DIAGRAM

MT4LC16M4G3 (13 row addresses)

16 MEG x 4
EDO DRAM

WE#

CAS#

A0
A1
A2
A3
A4
A5
A6
A7
A8

A9
A10
A11
A12

RAS#

11

13

NO. 2 CLOCK

GENERATOR

COLUMN-

ADDRESS

BUFFER(11)

REFRESH

CONTROLLER

REFRESH

COUNTER

13

ROW-

ADDRESS

BUFFERS (13)

NO. 1 CLOCK

GENERATOR

CONTROL

LOGIC

11

13

ROW

DECODER

8,192

8,192

SELECT

COMPLEMENT

ROW SELECT

FUNCTIONAL BLOCK DIAGRAM

MT4LC16M4H9 (12 row addresses)

DATA-IN

BUFFER

DATA-OUT

BUFFER

COLUMN

DECODER

2,048

SENSE AMPLIFIERS

I/O GATING

2,048

8,192 x 2,048 x 4

MEMORY

ARRAY

4

4

DQ0
DQ1
DQ2
DQ3

4

OE#

4

V

DD

V

SS

WE#

CAS#

A0

A1

A2

A3

A4

A5

A6

A7

A8

A9
A10
A11

RAS#

12

12

NO. 2 CLOCK
GENERATOR

COLUMN-

ADDRESS

BUFFER(12)

REFRESH

CONTROLLER

REFRESH

COUNTER

12

ROW-

ADDRESS

BUFFERS (12)

NO. 1 CLOCK
GENERATOR

DATA-IN

BUFFER

CONTROL

LOGIC

12

12

ROW

DECODER

4,096

4,096

SELECT

COMPLEMENT

DATA-OUT

BUFFER

COLUMN
DECODER

4,096

SENSE AMPLIFIERS

I/O GATING

4,096

4,096 x 4,096 x 4

ROW SELECT

MEMORY

ARRAY

4

4

DQ0
DQ1
DQ2
DQ3

4

OE#

4

DD

V
V

SS

16 Meg x 4 EDO DRAM Micron Technology, Inc., reserves the right to change products or specifications without notice.
D22_2.p65 – Rev. 5/00 ©2000, Micron Technology, Inc.

2

GENERAL DESCRIPTION (Continued)

uniquely addressed via the address bits. First, the row
address is latched by the RAS# signal, then the column
address is latched by CAS#. The device provides EDO­PAGE-MODE operation, allowing for fast successive
data operations (READ, WRITE, or READ-MODIFY­WRITE) within a given row.

The 16 Meg x 4 DRAM must be refreshed periodically

in order to retain stored data.

DRAM ACCESS

Each location in the DRAM is uniquely addressable,
as mentioned in the General Description. The data for
each location is accessed via the four I/O pins (DQ0­DQ3). 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. An EARLY
WRITE occurs when WE# is taken LOW prior to CAS#
falling. A LATE WRITE or READ-MODIFY-WRITE occurs
when WE# falls after CAS# is taken LOW. During
EARLY WRITE cycles, the data outputs (Q) will remain
High-Z, regardless of the state of OE#. During LATE
WRITE or READ-MODIFY-WRITE cycles, OE# must be
taken HIGH to disable the data outputs prior to apply­ing input data. If a LATE WRITE or READ-MODIFY­WRITE is attempted while keeping OE# LOW, no WRITE
will occur, and the data outputs will drive read data
from the accessed location.

EDO PAGE MODE

DRAM READ cycles have traditionally turned the
output buffers off (High-Z) with the rising edge of
CAS#. If CAS# went HIGH and OE# was LOW (active),
the output buffers would be disabled. The 16 Meg x 4
DRAM offers an accelerated page mode cycle by elimi­nating output disable from CAS# HIGH. This option is
called EDO and it allows CAS# precharge time (tCP) to
occur without the output data going invalid (see READ
and EDO-PAGE-MODE READ waveforms).

EDO operates like any DRAM READ or FAST-PAGE­MODE READ, except data is held valid after CAS# goes
HIGH, as long as RAS# and OE# are held LOW and WE#
is held HIGH. OE# can be brought LOW or HIGH while
CAS# and RAS# are LOW, and the DQs will transition
between valid data and High-Z. Using OE#, there are
two methods to disable the outputs and keep them
disabled during the CAS# HIGH time. The first method
is to have OE# HIGH when CAS# transitions HIGH and
keep OE# HIGH for tOEHC thereafter. This will disable
the DQs, and they will remain disabled (regardless of
the state of OE# after that point) until CAS# falls again.
The second method is to have OE# LOW when CAS#

16 MEG x 4
EDO DRAM

transitions HIGH and then bring OE# HIGH for a
minimum of tOEP anytime during the CAS# HIGH
period. This will disable the DQs, and they will remain
disabled (regardless of the state of OE# after that point)
until CAS# falls again. (Please refer to Figure 1.) During
other cycles, the outputs are disabled at tOFF time after
RAS# and CAS# are HIGH or at tWHZ after WE# transi­tions LOW. The tOFF time is referenced from the rising
edge of RAS# or CAS#, whichever occurs last. WE# can
also perform the function of disabling the output
drivers under certain conditions, as shown in Figure 2.

EDO-PAGE-MODE operations are always initiated
with a row address strobed in by the RAS# signal,
followed by a column address strobed in by CAS#, just
like for single location accesses. However, subsequent
column locations within the row may then be accessed
at the page mode cycle time. This is accomplished by
cycling CAS# while holding RAS# LOW and entering
new column addresses with each CAS# cycle. Returning
RAS# HIGH terminates the EDO-PAGE-MODE opera­tion.

DRAM REFRESH

The supply voltage must be maintained at the speci­fied levels, and the refresh requirements must be met in
order to retain stored data in the DRAM. The refresh
requirements are met by refreshing all 8,192 rows (G3)
or all 4,096 rows (H9) in the DRAM array at least once
every 64ms. The recommended procedure is to execute
4,096 CBR REFRESH cycles, either uniformly spaced or
grouped in bursts, every 64ms. The MT4LC16M4G3
internally refreshes two rows for every CBR cycle,
whereas the MT4LC16M4H9 refreshes one row for
every CBR cycle. So with either device, executing 4,096
CBR cycles covers all rows. The CBR refresh will invoke
the internal refresh counter for automatic RAS# ad­dressing. Alternatively, RAS#-ONLY REFRESH capabil­ity is inherently provided. However, with this method,
some compatibility issues may become apparent. For
example, both G3 and H9 versions require 4,096 CBR
REFRESH cycles, yet each requires a different number of
RAS#-ONLY REFRESH cycles (G3 = 8,192 and H9 =
4,096). JEDEC strongly recommends the use of CBR
REFRESH for this device.

An optional self refresh mode is also available on the
“S” version. The self refresh feature is initiated by
performing a CBR REFRESH cycle and holding RAS#
LOW for the specified tRASS. The “S” option allows for
an extended refresh period of 128ms, or 31.25µs per
row for a 4K refresh and 15.625µs per row for an 8K
refresh, when using a distributed CBR REFRESH. This
refresh rate can be applied during normal operation, as
well as during a standby or battery backup mode.

16 Meg x 4 EDO DRAM Micron Technology, Inc., reserves the right to change products or specifications without notice.
D22_2.p65 – Rev. 5/00 ©2000, Micron Technology, Inc.

3

DRAM REFRESH (Continued)

The self refresh mode is terminated by driving RAS#
HIGH for a minimum time of tRPS. This delay allows for
the completion of any internal refresh cycles that may
be in process at the time of the RAS# LOW-to-HIGH
transition. If the DRAM controller uses a distributed
CBR refresh sequence, a burst refresh is not required
upon exiting self refresh. However, if the DRAM con­troller uses RAS#-ONLY or burst CBR refresh, all rows

V

IH

RAS#

V

IL

V

IH

CAS#

V

IL

V

ADDR

IH

V

IL

V

IOH

DQ

V

IOL

V

IH

OE#

V

IL

ROW COLUMN (A)

OPEN

VALID DATA (A)

t

OD

COLUMN (B)

VALID DATA (A)

t

OES

t

OE

16 MEG x 4
EDO DRAM

must be refreshed with a refresh rate of tRC minimum
prior to resuming normal operation.

STANDBY

Returning RAS# and CAS# HIGH terminates a
memory cycle and decreases chip current to a reduced
standby level. The chip is preconditioned for the next
cycle during the RAS# HIGH time.

VALID DATA (B)

t

OD

t

OEHC

COLUMN (C)

VALID DATA (C)

t

OD

t

OEP

COLUMN (D)

VALID DATA (D)

RAS#

CAS#

ADDR

WE#

The DQs go back to

t

Low-Z if

OES is met.

The DQs remain High-Z
until the next CAS# cycle

t

if

OEHC is met.

The DQs remain High-Z
until the next CAS# cycle

t

if

OEP is met.

Figure 1

OE# Control of DQs

V

IH

V

IL

V

IH

V

IL

V

IH

V

IL

V

IOH

DQ

V

IOL

V

IH

V

IL

V

IH

OE#

V

IL

ROW COLUMN (A)

OPEN

COLUMN (B)

VALID DATA (A)

t

WHZ

t

WPZ

The DQs go to High-Z if WE# falls and, if tWPZ is met,
will remain High-Z until CAS# goes LOW with
WE# HIGH (i.e., until a READ cycle is initiated).

VALID DATA (B)

COLUMN (C)

INPUT DATA (C)

t

WHZ

WE# may be used to disable the DQs to prepare
for input data in an EARLY WRITE cycle. The DQs
will remain High-Z until CAS# goes LOW with
WE# HIGH (i.e., until a READ cycle is initiated).

COLUMN (D)

DON’T CARE

UNDEFINED

Figure 2

WE# Control of DQs

16 Meg x 4 EDO DRAM Micron Technology, Inc., reserves the right to change products or specifications without notice.
D22_2.p65 – Rev. 5/00 ©2000, Micron Technology, Inc.

4

16 MEG x 4
EDO DRAM

ABSOLUTE MAXIMUM RATINGS*

Voltage on VCC Relative to VSS ................ -1V to +4.6V

Voltage on NC, Inputs or I/O Pins

Relative to VSS ....................................... -1V to +4.6V

Operating Temperature, TA (ambient) ... 0°C to +70°C

Storage Temperature (plastic) ............ -55°C to +150°C

Power Dissipation ................................................... 1W

*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 operational sections of
this specification is not implied. Exposure to absolute
maximum rating conditions for extended periods may
affect reliability.

DC ELECTRICAL CHARACTERISTICS AND OPERATING CONDITIONS

(Note: 1) (VCC = +3.3V ±0.3V)

PARAMETER/CONDITION SYMBOL MIN MAX UNITS NOTES

SUPPLY VOLTAGE VCC 3 3.6 V
INPUT HIGH VOLTAGE:

Valid Logic 1; All inputs, I/Os and any NC VIH 2VCC + 0.3 V 26
INPUT LOW VOLTAGE:

Valid Logic 0; All inputs, I/Os and any NC VIL -0.3 0.8 V 26
INPUT LEAKAGE CURRENT:

Any input at VIN (0V ≤ VIN ≤ VCC + 0.3V); II -2 2 µA 27
All other pins not under test = 0V

OUTPUT HIGH VOLTAGE:
IOUT = -2mA VOH 2.4–V

OUTPUT LOW VOLTAGE:
IOUT = 2mA VOL – 0.4 V

OUTPUT LEAKAGE CURRENT:
Any output at VOUT (0V ≤ VOUT ≤ VCC + 0.3V); IOZ -5 5 µA
DQ is disabled and in High-Z state

16 Meg x 4 EDO DRAM Micron Technology, Inc., reserves the right to change products or specifications without notice.
D22_2.p65 – Rev. 5/00 ©2000, Micron Technology, Inc.

5

16 MEG x 4
EDO DRAM

ICC OPERATING CONDITIONS AND MAXIMUM LIMITS

(Notes: 1, 2, 3, 5, 6) (VCC = +3.3V ±0.3V)

4K 8K

PARAMETER/CONDITION SYMBOL SPEED REFRESH REFRESH UNITS NOTES

STANDBY CURRENT: TTL I
(RAS# = CAS# = VIH)

STANDBY CURRENT: CMOS
(RAS# = CAS#  VCC - 0.2V; DQs may be left open; I
Other inputs: VIN  VCC - 0.2V or VIN ≤ 0.2V)

OPERATING CURRENT: Random READ/WRITE I
Average power supply current -6 160 120
(RAS#, CAS#, address cycling: tRC = tRC [MIN])

OPERATING CURRENT: EDO PAGE MODE I
Average power supply current -6 120 120
(RAS# = VIL, CAS#, address cycling: tPC = tPC [MIN])

REFRESH CURRENT: RAS#-ONLY I
Average power supply current -6 160 120
(RAS# cycling, CAS# = VIH: tRC = tRC [MIN])

REFRESH CURRENT: CBR I
Average power supply current -6 150 150
(RAS#, CAS#, address cycling: tRC = tRC [MIN])

REFRESH CURRENT: Extended (“S” version only)
Average power supply current: CAS# = 0.2V or CBR cycling; I
RAS# = tRAS (MIN); WE# = VCC - 0.2V; A0-A11, OE# and
DIN = VCC - 0.2V or 0.2V (DIN may be left open)

REFRESH CURRENT: Self (“S” version only)
Average power supply current: CBR with
RAS#  tRASS (MIN) and CAS# held LOW; I
WE# = VCC - 0.2V; A0-A11, OE# and DIN = VCC - 0.2V or 0.2V
(DIN may be left open)

CC

CC

CC

CC

CC

CC

CC

CC

1

2

3

4

5

6

7

8

ALL 1 1 mA

ALL 500 500 µA

-5 170 130 mA 25

-5 150 150 mA 25

-5 170 130 mA 22

-5 160 160 mA 4, 7

ALL 400 400 µA 4, 7

ALL 400 400 µA 4, 7

16 Meg x 4 EDO DRAM Micron Technology, Inc., reserves the right to change products or specifications without notice.
D22_2.p65 – Rev. 5/00 ©2000, Micron Technology, Inc.

6

16 MEG x 4
EDO DRAM

CAPACITANCE

(Note: 2)

PARAMETER SYMBOL MAX UNITS

Input Capacitance: Address pins CI1 5pF
Input Capacitance: RAS#, CAS#, WE#, OE# CI2 7pF
Input/Output Capacitance: DQ CIO 7pF

AC ELECTRICAL CHARACTERISTICS

(Notes: 5, 6, 7, 8, 9, 10, 11, 12) (VCC = +3.3V ±0.3V)

AC CHARACTERISTICS -5 -6
PARAMETER SYMBOL MIN MAX MIN MAX UNITS NOTES

Access time from column address
Column-address setup to CAS# precharge
Column-address hold time (referenced to RAS#)
Column-address setup time
Row-address setup time
Column address to WE# delay time
Access time from CAS#
Column-address hold time
CAS# pulse width
CAS# LOW to “Don’t Care” during Self Refresh
CAS# hold time (CBR Refresh)
CAS# to output in Low-Z
Data output hold after CAS# LOW
CAS# precharge time
Access time from CAS# precharge
CAS# to RAS# precharge time
CAS# hold time
CAS# setup time (CBR Refresh)
CAS# to WE# delay time
WRITE command to CAS# lead time
Data-in hold time
Data-in setup time
Output disable
Output enable time
OE# hold time from WE# during

READ-MODIFY-WRITE cycle
OE# HIGH hold time from CAS# HIGH

OE# HIGH pulse width
OE# LOW to CAS# HIGH setup time
Output buffer turn-off delay

t

AA 25 30 ns

t

ACH 12 15 ns

t

AR 38 45 ns

t

ASC 0 0 ns

t

ASR 0 0 ns

t

AWD 42 49 ns 18

t

CAC 13 15 ns

t

CAH 8 10 ns

t

CAS 8 10,000 10 10,000 ns

t

CHD 15 15 ns

t

CHR 8 10 ns 4

t

CLZ 0 0 ns

t

COH 3 3 ns

t

CP 8 10 ns 13

t

CPA 28 35 ns

t

CRP 5 5 ns

t

CSH 38 45 ns

t

CSR 5 5 ns 4

t

CWD 28 35 ns 18

t

CWL 8 10 ns

t

DH 8 10 ns 19

t

DS 0 0 ns 19

t

OD 0 12 0 15 ns 23, 24

t

OE 12 15 ns 20

t

OEH 8 10 ns 24

t

OEHC 5 10 ns

t

OEP 5 5 ns

t

OES 4 5 ns

t

OFF 0 12 0 15 ns 17, 23

16 Meg x 4 EDO DRAM Micron Technology, Inc., reserves the right to change products or specifications without notice.
D22_2.p65 – Rev. 5/00 ©2000, Micron Technology, Inc.

7