Mitsubishi MH16V725BATJ-6, MH16V725BATJ-5 Datasheet

Preliminary Spec.

MITSUBISHI LSIs

MH16V725BATJ -5, -6

HYPER PAGE MODE 1207959552 - BIT ( 16777216 - WORD BY 72 - BIT ) DYNAMIC RAM

DESCRIPTION

The MH16V725BATJ is 16777216-word x 72-bit dynamic
ram module. This consist of eighteen industry standard 16M
x 4 dynamic RAMs in TSOP and three industry standard input
buffer in TSSOP.
The mounting of TSOP on a card edge dual in-line package
provides any application where high densities and large of
quantities memory are required.
This is a socket-type memory module ,suitable for easy
interchange or addition of module.

FEATURES

/RAS

/CAS Address /OE Cycle Power

access

access

access

Type name

MH16V725BATJ-5
MH16V725BATJ-6

Utilizes industry standard 16M x 4 RAMs TSOP and industry
standard input buffer in TSSOP
168-pin (84-pin dual in-line pacege)
Single 3.3V(+/-0.3V) supply operation

Low stand-by power dissipation . . . . . . . . 121mW(Max)

Low operation power dissipation

MH16V725BATJ -5 . . . . . . . . . . . . . . . . . 6.58W(Max)

MH16V725BATJ -6 . . . . . . . . . . . . . . . . . 5.94W(Max)

All input,output LVTTL compatible
Includes(0.22uF x 20) decoupling capacitors
4096 refresh cycle every 64ms (A0~A12)
JEDEC standard pin configration & Buffered PD pin
Buffered input except /RAS and DQ
Gold plating contact pads

time

(max.ns)

50
60

time

(max.ns)

1820303518

time

(max.ns)

access

time

(max.ns)

20

time

(min.ns)

84

104

dissipation

(typ.W)

5.50

4.60

PIN CONFIGURATION

85pin

94pin
95pin

124pin

BACK SIDE

125pin

1pin

10pin
11pin

40pin

FRONT SIDE

41pin

APPLICATION

Main memory unit for computers , Microcomputer memory

PD&ID TABLE

PD1 PD2 PD3 PD4 PD5 PD6 PD7 PD8 ID0 ID1

- 5

1 1 1 1 1 0

- 6

1 1 1 1 1 1

1 = NC , 0 = drive to VOL
PD pin . . . buffered. When /PDE is low, PD information can be read
ID pin . . . non-buffered

MIT-DS-0271-0.0

0
1

0 0

0

0 0

0

MITSUBISHI
ELECTRIC

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168pin

1

84pin

Oct.1.1998

Preliminary Spec.

MITSUBISHI LSIs

MH16V725BATJ -5, -6

HYPER PAGE MODE 1207959552 - BIT ( 16777216 - WORD BY 72 - BIT ) DYNAMIC RAM

PIN CONFIGURATION

Pin No. Pin Name Pin No. Pin Name Pin No. Pin Name Pin No. Pin Name

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
31
32
33
34
35
36
37
38
39
40
41
42

Vss
DQ0
DQ1
DQ2
DQ3

Vcc
DQ4
DQ5
DQ6
DQ7
DQ8

Vss
DQ9

DQ10
DQ11
DQ12
DQ13

Vcc

DQ14
DQ15
DQ16
DQ17

Vss

Reserved
Reserved

Vcc

/WE0

/CAS0

Reserved

/RAS0

/OE0

Vss

A0
A2
A4
A6

A8
A10 A11
A12
Vcc

RFU
RFU

43
44
45
46
47
48
49
50
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
76
77
78
79
80
81
82
83
84

Vss

/OE2
/RAS2
/CAS4

Reserved

/WE2

Vcc
Reserved
Reserved

DQ18
DQ19

Vss

DQ20
DQ21
DQ22
DQ23

Vcc

DQ24

RFU
RFU
RFU

RFU
DQ25
DQ26
DQ27

Vss
DQ28
DQ29
DQ30
DQ31

Vcc
DQ32
DQ33
DQ34
DQ35

Vss

PD1
PD3
PD5
PD7

ID0

Vcc

85
86
87
88
89
90
91
92
93
94
95
96
97
98

99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126

Vss
DQ36
DQ37
DQ38
DQ39

Vcc
DQ40
DQ41
DQ42
DQ43
DQ44

Vss
DQ45
DQ46
DQ47
DQ48
DQ49

Vcc
DQ50
DQ51
DQ52
DQ53

Vss

Reserved
Reserved

Vcc

RFU
Reserved
Reserved
Reserved

RFU

Vss

A1
A3
A5
A7
A9

Reserved

Vcc

RFU

B0

127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168

RFU
Reserved
Reserved
Reserved

/PDE

Reserved
Reserved

DQ54
DQ55

DQ56
DQ57
DQ58
DQ59

DQ60

RFU

RFU

RFU

RFU

DQ61
DQ62
DQ63

DQ64
DQ65
DQ66
DQ67

DQ68
DQ69
DQ70
DQ71

PD2

PD4

PD6

PD8

Vss

Vcc

Vss

Vcc

Vss

Vcc

Vss

ID1
Vcc

MIT-DS-0271-0.0

MITSUBISHI
ELECTRIC

( / 22 )

2

Reserved: Reserved use
RFU: Reserved for future use

Oct.1.1998

Preliminary Spec.

BLOCK DIAGRAM

/RAS0

MITSUBISHI LSIs

MH16V725BATJ -5, -6

HYPER PAGE MODE 1207959552 - BIT ( 16777216 - WORD BY 72 - BIT ) DYNAMIC RAM

/RAS2

/CAS0
/WE0
/OE0

/CAS4
/WE2

/OE2

/RAS/CAS/W/OE

M5M467405B M5M467405B

D1

M5M467405B M5M467405B

D2

M5M467405B M5M467405B

D3

M5M467405B M5M467405B

D4

M5M467405B M5M467405B

D5

M5M467405B M5M467405B

D6

M5M467405B M5M467405B

D7

M5M467405B M5M467405B

D8

M5M467405B M5M467405B

D9

DQ1
~DQ4

/RAS/CAS/W/OE

DQ1
~DQ4

/RAS/CAS/W/OE

DQ1
~DQ4

/RAS/CAS/W/OE

DQ1
~DQ4

/RAS/CAS/W/OE

DQ1
~DQ4

/RAS/CAS/W/OE

DQ1
~DQ4

/RAS/CAS/W/OE

DQ1
~DQ4

/RAS/CAS/W/OE

DQ1
~DQ4

/RAS/CAS/W/OE

DQ1
~DQ4

DQ0
DQ1

DQ2
DQ3

DQ4
DQ5

DQ6
DQ7

DQ8
DQ9
DQ10
DQ11

DQ12
DQ13
DQ14
DQ15

DQ16
DQ17
DQ18
DQ19

DQ20
DQ21
DQ22
DQ23

DQ24
DQ25

DQ26
DQ27

DQ28
DQ29

DQ30
DQ31

DQ32
DQ33

DQ34
DQ35

D10

D11

D12

D13

D14

D15

D16

D17

D18

/RAS/CAS/W/OE

DQ1
~DQ4

/RAS/CAS/W/OE

DQ1
~DQ4

/RAS/CAS/W/OE

DQ1
~DQ4

/RAS/CAS/W/OE

DQ1
~DQ4

/RAS/CAS/W/OE

DQ1
~DQ4

/RAS/CAS/W/OE

DQ1
~DQ4

/RAS/CAS/W/OE

DQ1
~DQ4

/RAS/CAS/W/OE

DQ1
~DQ4

/RAS/CAS/W/OE

DQ1
~DQ4

DQ36
DQ37

DQ38
DQ39

DQ40
DQ41

DQ42
DQ43

DQ44
DQ45
DQ46
DQ47

DQ48
DQ49
DQ50
DQ51

DQ52
DQ53
DQ54
DQ55

DQ56
DQ57
DQ58
DQ59

DQ60
DQ61

DQ62
DQ63

DQ64
DQ65

DQ66
DQ67

DQ68
DQ69

DQ70
DQ71

A0

B0

A1~A12

MIT-DS-0271-0.0

D1~D9

D10~D18

D1~D18

Vcc

Vss

C1~C20

. . .

MITSUBISHI
ELECTRIC

( / 22 )

3

D1~D18
& INPUT BUFFER

PIN NAME FUNCTION

/RAS0, /RAS2
/CAS0, /CAS2

/WE0, /WE2
/OE0, /OE2
A0~A12, B0
DQ0~DQ71

Vcc
Vss

ROW ADDRESS STROBE INPUT
COLUMN ADDRESS STROBE INPUT

WRITE CONTROL INPUT
OUTPUT ENABLE INPUT

ADDRESS INPUT
DATA I/O

POWER SUPPLY
GROUND

Oct.1.1998

Preliminary Spec.

MH16V725BATJ -5, -6

HYPER PAGE MODE 1207959552 - BIT ( 16777216 - WORD BY 72 - BIT ) DYNAMIC RAM

FUNCTION

The MH16V725BATJ provide, in addition to normal
read, write, and read-modify-write operations,

Table 1 Input conditions for each mode

Operation

Read
Write (Early write)
Write (Delayed write)
Read-modify-write
Hidden refresh
/CAS before /RAS refresh
Standby

Note : ACT : active, NAC : nonactive, DNC : don' t care, VLD : valid, IVD : Invalid, APD : applied, OPN : open

/RAS /CAS

ACT
ACT
ACT
ACT
ACT
ACT
NAC

ACT
ACT
ACT
ACT
ACT
ACT
DNC

/W
NAC
ACT

ACT
ACT
DNC
NAC
DNC

a number of other functions, e.g., Hyper page mode, /CAS
before /RAS refresh, and delayed-write. The input conditions
for each are shown in Table 1.

Inputs Input/Output

/OE

ACT
DNC
DNC

ACT

ACT
DNC
DNC

Row

address address

APD
APD
APD
APD
DNC
DNC
DNC

Column

APD
APD
APD
APD
DNC
DNC
DNC

Input
OPN

VLD
VLD
VLD

OPN

DNC
DNC

Output

VLD

OPN

IVD
VLD

VLD
OPN
OPN

MITSUBISHI LSIs

Refresh

NO
NO
NO
NO
YES
YES

NO

Remark

Hyper page
mode
identical

MIT-DS-0271-0.0

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ELECTRIC

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4

Oct.1.1998

Preliminary Spec.

HYPER PAGE MODE 1207959552 - BIT ( 16777216 - WORD BY 72 - BIT ) DYNAMIC RAM

ABSOLUTE MAXIMUM RATINGS

Symbol

Vcc
VI

VO
IO

Pd
Topr
Tstg

Supply voltage
Input voltage

Output voltage
Output current
Power dissipation
Operating temperature
Storage temperature

Parameter Conditions

MITSUBISHI LSIs

MH16V725BATJ -5, -6

Ratings

-0.5~4.6

With respect to Vss

Ta=25°C

-0.5~ 4.6

-0.5~ 4.6

50

21.6

0~70

-40~100

Unit

V

mA

W
°C
°C

RECOMMENDED OPERATING CONDITIONS

Symbol

Vcc
Vss
VIH

VIL

Note 1 : All voltage values are with respect to Vss

Supply voltage
Supply voltage
High-level input voltage, all inputs
Low-level input voltage

ELECTRICAL CHARACTERISTICS

Symbol

VOH
VOL
IOZ
I I
I I (RAS)

ICC1 (AV)

ICC2

ICC4(AV)

ICC6(AV)

Note 2: Current flowing into an IC is positive, out is negative.
3: Icc1 (AV), Icc3 (AV), Icc4 (AV) and Icc6 (AV) are dependent on cycle rate. Maximum current is measured at the fastest cycle rate.
4: Icc1 (AV) and Icc4 (AV) are dependent on output loading. Specified values are obtained with the output open.
5: Under condition of colmun address being changed once or less while /RAS=VIL and /CAS=VIH

High-level output voltage
Low-level output voltage
Off-state output current
Input current (except /RAS)
Input current (/RAS)
Average supply
current
from Vcc operating

Supply current from Vcc , stand-by
Average supply current

from Vcc
Hyper-Page-Mode

Average supply current from Vcc
/CAS before /RAS refresh mode

Parameter

Parameter

(Note 3,4,5)

(Note 3,4,5)

(Note 3)

(Ta=0~70°C, Vcc=3.3V+/-0.3V, Vss=0V, unless otherwise noted) (Note 2)

-5

-6

-5

-6

-5

-6

(Ta=0~70°C, unless otherwise noted) (Note 1)

Limits

Min Nom Max

3.0

2.0

-0.3

IOH=-2mA
IOL=2mA

Q floating 0V≤VOUT≤Vcc

0V≤VIN≤Vcc+0.3, Other input pins=0V
0V≤VIN≤Vcc+0.3, Other input pins=0V

/RAS, /CAS cycling
tRC=tWC=min.
output open

/RAS=/CAS =VIH, output open

/RAS=/CAS=/WE ≥Vcc -0.2, output open

/RAS=VIL,/CAS cycling
tPC=min.
output open

/CAS before /RAS refresh cycling
tRC=min.
output open

3.3

0

Test conditions

3.6

0

Vcc+0.3

0.8

Unit

V

0

V
V

V

Min

2.4
0

-10

-10

-90

Limits

Typ

Max

Vcc

0.4
10
10
90

1820

1640

38
29

1820
1640
2360
2180

Unit

V

V
uA
uA
uA

mA

mA

mA

mA

CAPACITANCE

Symbol Parameter

CI (/RAS)

C(DQ)

MIT-DS-0271-0.0

(Ta = 0~70°C, Vcc = 3.3V+/-0.3V, Vss = 0V, unless otherwise noted)

Test conditions

Input capacitance, /RAS input
Input capacitance, except /RAS input 15
Input/Output capacitance,DATA

VI=Vss
f=1MHZ
Vi=25mVrms

Limits

Min Max

Typ

80

18

MITSUBISHI
ELECTRIC

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5

Unit

pF
pFCI
pF

Oct.1.1998

Preliminary Spec.

MITSUBISHI LSIs

MH16V725BATJ -5, -6

HYPER PAGE MODE 1207959552 - BIT ( 16777216 - WORD BY 72 - BIT ) DYNAMIC RAM

SWITCHING CHARACTERISTICS

tCAC
tRAC
tAA
tCPA
tOEA
tOHC
tOHR
tCLZ
tOEZ
tWEZ
tOFF
tREZ

Note 6: An initial pause of 500us is required after power-up followed by a minimum of eight initialization cycles (any combination of cycles
containing a /RAS-Only refresh or /CAS before /RAS refresh).
Note the /RAS may be cycled during the initial pause . And any 8 /RAS or /RAS /CAS cycles are required after prolonged periods
(greater than 64 ms) of /RAS inactivity before proper device operation is achieved.
7: Measured with a load circuit equivalent to 1TTL loads and 50pF,VOH=2.4V(IOH=-2mA) and VOL=0.4V(IOL=-2mA).
The reference levels for measuring of output signals are 2.0V (VOH) and 0.8V (VOL).
8: Assumes that tRCD≥tRCD(max), tASC≥tASC(max) and tCP≥tCP(max).
9: Assumes that tRCD≤tRCD(max) and tRAD≤tRAD(max). If tRCD or tRAD is greater than the maximum recommended value shown in
this table,tRAC will increase by amount that tRCD exceeds the value shown.
10: Assumes that tRAD≥tRAD(max) and tASC≤tASC(max).
11: Assumes that tCP≤tCP(max) and tASC≥tASC(max).
12: tOEZ (max), tWEZ(max), tOFF(max) and tREZ(max) defines the time at which the output achieves the high impedance state
(IOUT≤ I+/-10uAI) and is not reference to VOH(min) or VOL(max).
13: Output is disable after both /RAS and /CAS go to high

Access time from /CAS
Access time from /RAS
Columu address access time
Access time from /CAS precharge
Access time from /OE
Output hold time /CAS high
Output hold time /RAS high
Output low impedance time from /CAS low
Output disable time after /OE high
Output disable time after /WE high
Output disable time after /CAS high
Output disable time after /RAS high

(Ta=0~70°C, Vcc=3.3V+/-0.3V, Vss=0V, unless otherwise noted , see notes 6,14,15)

Limits

ParameterSymbol Unit

(Note 7,8)

(Note 7,9)
(Note 7,10)
(Note 7,11)

(Note 7)

(Note 13)

(Note 7)
(Note 12)
(Note 12)

(Note 12,13)
(Note 12,13)

-5

Min Max

18
50
30
33
18

10

5

10

18
18
18
13

-6

Min Max

20
60
35
38
20

10

5

10

20
20
20
15

ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns

TIMING REQUIREMENTS (For Read, Write, Read-Modify-Write ,Refresh, and Hyper-Page Mode Cycles)

(Ta=0~70°C, Vcc=3.3V+/-0.3V, Vss=0V, unless otherwise noted ,see notes 14,15)

Limits

ParameterSymbol

tREF
tRP
tRCD
tCRP
tRPC
tCPN
tRAD
tASR
tASC
tRAH
tCAH
tDZC
tDZO
tRDD
tCDD
tODD
tT

Note 14: The timing requirements are assumed tT =2ns.
15: VIH(min) and VIL(max) are reference levels for measuring timing of input signals.
16: tRCD(max) is specified as a reference point only. If tRCD is less than tRCD(max), access time is tRAC. If tRCD is greater than
tRCD(max), access time is controlled exclusively by tCAC or tAA. .
17: tRAD(max) is specified as a reference point only. If tRAD≥tRAD(max) and tASC≤tASC(max), access time is controlled exclusively by tAA.
18: tASC(max) is specified as a reference point only. If tRCD≥tRCD(max) and tASC≥tASC(max), access time is controlled exclusively by
tCAC.
19: Either tDZC or tDZO must be satisfied.
20: Either tRDD or tCDD or tODD must be satisfied.
21: tT is measured between VIH(min) and VIL(max).

Refresh cycle time
/RAS high pulse width
Delay time, /RAS low to /CAS low
Delay time, /CAS high to /RAS low
Delay time, /RAS high to /CAS low
/CAS high pulse width
Column address delay time from /RAS low
Row address setup time before /RAS low
Column address setup time before /CAS low
Row address hold time after /RAS low
Column address hold time after /CAS low
Delay time, data to /CAS low
Delay time, data to /OE low
Delay time, /RAS high to data
Delay time, /CAS high to data
Delay time, /OE high to data
Transition time

(Note16)

(Note17)

(Note18)

(Note19)
(Note19)
(Note20)
(Note20)
(Note20)
(Note21)

-5

Min Max

64

30

32

9

10

0

8

5

20

5
0

10

3

8
0
0

13
18
18

50

1

-6

Min Max

64

40

40

9

10

0

10

7

25

5

13

0
5

10

0

0
15
20
20

50

1

Unit

ms

ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns

MIT-DS-0271-0.0

MITSUBISHI
ELECTRIC

( / 22 )6

Oct.1.1998

Preliminary Spec.

HYPER PAGE MODE 1207959552 - BIT ( 16777216 - WORD BY 72 - BIT ) DYNAMIC RAM

Read and Refresh Cycles

ParameterSymbol Unit

tRC
tRAS
tCAS
tCSH
tRSH
tRCS
tRCH
tRRH
tRAL

tCAL
tORH
tOCH

Note 22: Either tRCH or tRRH must be satisfied for a read cycle.

Write Cycle (Early Write and Delayed Write)

tWC
tRAS
tCAS
tCSH
tRSH
tWCS
tWCH
tCWL
tRWL
tWP
tDS
tDH

Read cycle time
/RAS iow pulse width
/CAS iow pulse width
/CAS hold time after /RAS iow
/RAS hold time after /CAS iow
Read Setup time after /CAS high
Read hold time after /CAS iow
Read hold time after /RAS iow
Column address to /RAS hold time

Column address to /CAS hold time
/RAS hold time after /OE iow
/CAS hold time after /OE iow

ParameterSymbol Unit

Write cycle time
/RAS iow pulse width
/CAS iow pulse width
/CAS hold time after /RAS iow
/RAS hold time after /CAS iow
Write setup time before /CAS low
Write hold time after /CAS iow
/CAS hold time after /W iow
/RAS hold time after W iow
Write pulse width
Data setup time before /CAS iow or W iow
Data hold time after /CAS iow or W iow

MITSUBISHI LSIs

MH16V725BATJ -5, -6

Limits

-6

Min Max

104

60

10000
10000

10
43
20

0

0
0
35
18
20

15

-6
Min Max
104

10000

60

10000

10
35
20

0
10
10

15

10

-5

15

ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns

ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns

(Note 22)
(Note 22)

(Note 24)

-5

Min

Max

84

50

10000

8

10000
30
18

0

0
0
30
13
18
13

-5

Min Max

84

10000

50

10000

8
30
18

0

8

8

13

8

-5

13

Limits

Read-Write and Read-Modify-Write Cycles

Limits

ParameterSymbol

tRWC
tRAS
tCAS
tCSH
tRSH
tRCS
tCWD
tRWD
tAWD
tOEH

Note 23: tRWC is specified as tRWC(min)=tRAC(max)+tODD(min)+tRWL(min)+tRP(min)+4tT.
24: tWCS, tCWD,tRWD ,tAWD and,tCPWD are specified as reference points only. If tWCS≥tWCS(min) the cycle is an early write cycle
and the DQ pins will remain high impedance throughout the entire cycle. If tCWD≥tCWD(min), tRWD≥tRWD (min), tAWD≥tAWD(min)
and tCPWD≥tCPWD(min) (for Hyper page mode cycle only), the cycle is a read-modify-write cycle and the DQ will contain the
data read from the selected address. If neither of the above condition (delayed write) of the DQ (at access time and until /CAS or /OE
goes back to VIH) is indeteminate.

MIT-DS-0271-0.0

Read write/read modify write cycle time
RAS iow pulse width
CAS iow pulse width
CAS hold time after RAS low
RAS hold time after CAS low
Read setup time before CAS low
Delay time, CAS iow to W iow
Delay time, RAS iow to W iow
Delay time, address to W iow
OE hold time after W iow

MITSUBISHI

(Note23)

(Note24)
(Note24)
(Note24)

-5

Min Max

109

10000

75
38

10000
65
43
0
28
60
40
13

-6
Min Max
133

10000

89

10000

44
77

49
0
32
72
47
15

Unit

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Oct.1.1998

ELECTRIC

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