RENESAS M5M5V108DFP-70H

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Electric and Mitsubishi XX, to Renesas Technology Corp.
The semiconductor operations of Hitachi and Mitsubishi Electric were transferred to Renesas
Technology Corporation on April 1st 2003. These operations include microcomputer, logic, analog
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Except for our corporate trademark, logo and corporate statement, no changes whatsoever have been
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Note : Mitsubishi Electric will continue the business operations of high frequency & optical devices
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Renesas Technology Corp.
Customer Support Dept.
April 1, 2003
7th.July.2000 Ver. 1.1
MITSUBISHI LSIs
M5M5V108DFP,VP,KV -70H
1048576-BIT(131072-WORD BY 8-BIT)CMOS STATIC RAM
DESCRIPTION
The M5M5V108DFP,VP,KV are a 1048576-bit CMOS static RAM
organized as 131072 word by 8-bit which are fabricated using highperformance triple-polysilicon and double metal CMOS technology.
The use of thin film transistor (TFT) load cells and CMOS periphery
result in a high density and low power static RAM.
They are low standby current and low operation current and ideal
for the battery back-up application.
The M5M5V108DVP,KV are packaged in a 32-pin thin small
outline package which is a high reliability and high density surface
mount device(SMD).
PIN CONFIGURATION (TOP VIEW)
ADDRESS
INPUTS
FEATURES
Type name
M5M5V108DFP,VP,KV-70H
Access
time
(max)
Power supply current
VCC
70ns 2.7~3.6V
Active stand-by
(1MHz)
(max)
(max)
5mA
12µA
DATA
INPUTS/
OUTPUTS
NC 1
A16 2
A14 3
A12 4
A7 5
A6 6
A5 7
A4 8
A3 9
A2 10
A1 11
A0 12
DQ1 13
DQ2 14
DQ3 15
GND 16
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
VCC
ADDRESS
A15 INPUT
SELECT
S2 CHIP
INPUT
WRITE CONTROL
W INPUT
A13
A8
ADDRESS
INPUTS
A9
A11
OUTPUT ENABLE
OE INPUT
A10 ADDRESS
INPUT
SELECT
S1 CHIP
INPUT
DQ8
DQ7
DQ6 DATA
INPUTS/
DQ5 OUTPUTS
DQ4
Directly TTL compatible : All inputs and outputs
Easy memory expansion and power down by S1,S2
Outline 32P2M-A
Data hold on +2V power supply
Three-state outputs : OR - tie capability
OE prevents data contention in the I/O bus
Common data I/O
Package
M5M5V108DFP
············ 32pin 525mil SOP
2
M5M5V108DVP,RV ············ 32pin 8 X 20 mm TSOP
2
M5M5V108DKV,KR ············ 32pin 8 X 13.4 mm TSOP
APPLICATION
Small capacity memory units
A11
A9
A8
A13
W
S2
A15
VCC
NC
A16
A14
A12
A7
A6
A5
A4
1
32
2
31
3
30
4
29
5
28
6
27
7
26
M5M5V108DVP,KV
8
25
9
24
10
23
11
22
12
21
13
20
14
19
15
18
16
17
OE
A10
S1
DQ8
DQ7
DQ6
DQ5
DQ4
GND
DQ3
DQ2
DQ1
A0
A1
A2
A3
Outline 32P3H-E(VP), 32P3K-B(KV)
NC : NO CONNECTION
1
7th.July.2000 Ver. 1.1
MITSUBISHI LSIs
M5M5V108DFP,VP,KV -70H
1048576-BIT(131072-WORD BY 8-BIT)CMOS STATIC RAM
FUNCTION
The operation mode of the M5M5V108D series are determined by
a combination of the device control inputs S1,S2,W and OE.
Each mode is summarized in the function table.
A write cycle is executed whenever the low level W overlaps with
the low level S 1 and the high level S2. The address must be set up
before the write cycle and must be stable during the entire cycle.
The data is latched into a cell on the trailing edge of W,S1 or
S2,whichever occurs first,requiring the set-up and hold time relative
to these edge to be maintained. The output enable input OE
directly controls the output stage. Setting the OE at a high level,
the output stage is in a high-impedance state, and the data bus
contention problem in the write cycle is eliminated.
A read cycle is executed by setting W at a high level and OE at a
low level while S1 and S2 are in an active state(S1=L,S2=H).
When setting S1 at a high level or S 2 at a low level, the chip are in
a non-selectable mode in which both reading and writing are
disabled. In this mode, the output stage is in a high- impedance
state, allowing OR-tie with other chips and memory expansion by
S1 and S2. The power supply current is reduced as low as the
stand-by current which is specified as I CC3 or ICC4, and the memory
data can be held at +2V power supply, enabling battery back-up
operation during power failure or power-down operation in the nonselected mode.
FUNCTION TABLE
S1
X
H
L
L
L
S2
L
X
H
H
H
W
X
X
L
H
H
Mode
DQ
OE
X Non selection High-impedance
X Non selection High-impedance
Din
X
Write
Dout
L
Read
High-impedance
H
ICC
Stand-by
Stand-by
Active
Active
Active
Note 1: "H" and "L" in this table mean VIH and VIL, respectively.
2: "X" in this table should be "H" or "L".
BLOCK DIAGRAM
*
A3 9
17
A2 10
18
A5 7
15
A6 6
14
A7 5
13
A12 4
12
A14 3
11
A16 2
10
A15 31
7
A13 28
4
A8 27
3
A9 26
2
A11 25
1
*
131072 WORDS
X 8 BITS
( 512 ROWS
X128 COLUMNS
X 16BLOCKS )
21
13 DQ1
22
14 DQ2
23
15 DQ3
25
17 DQ4
26
18 DQ5
27
19 DQ6
28
20 DQ7
29
21 DQ8
5
WRITE
29 W CONTROL
INPUT
DATA
INPUTS/
OUTPUTS
ADDRESS
INPUTS
CLOCK
GENERATOR
A4 8
16
30
22 S1
A1 11
19
6
30 S2
A0 12
20
A10 23
31
32
OUTPUT
24 OE ENABLE
INPUT
8
32 VCC
24
16 GND
(0V)
CHIP
SELECT
INPUTS
* Pin numbers inside dotted line show those of TSOP
2
7th.July.2000 Ver. 1.1
MITSUBISHI LSIs
M5M5V108DFP,VP,KV -70H
1048576-BIT(131072-WORD BY 8-BIT)CMOS STATIC RAM
ABSOLUTE MAXIMUM RATINGS
Symbol
Vcc
Supply voltage
VI
Input voltage
VO
Pd
Topr
Tstg
Output voltage
Power dissipation
Operating temperature
Storage temperature
Parameter
Ratings
– 0.3*~4.6
– 0.3*~Vcc + 0.3
(Max 4.6)
0~Vcc
700
0~70
– 65~150
Conditions
With respect to GND
Ta=25°C
Unit
V
V
V
mW
°C
°C
* –3.0V in case of AC ( Pulse width ≤ 30ns )
DC ELECTRICAL CHARACTERISTICS (Ta=0~70°C, Vcc=2.7~3.6V, unless otherwise noted)
Symbol
Parameter
Limits
Test conditions
Min
Typ
Max
Vcc
+ 0.3
Unit
VIH
High-level input voltage
VIL
VOH1
Low-level input voltage
High-level output voltage 1
IOH= – 0.5mA
–0.3*
2.4
VOH2
High-level output voltage 2
IOH= – 0.05mA
Vcc
– 0.5
VOL
II
Low-level output voltage
Input current
IOL= 2mA
VI=0~Vcc
0.4
±1
V
µA
IO
Output current in off-state
S1=VIH or S2=VIL or OE=VIH
VI/O=0~VCC
±1
µA
ICC1
Active supply current
ICC2
Active supply current
S1=VIL,S2=VIH,
other inputs=VIH or VIL
Output-open(duty 100%)
ICC3
ICC4
2.0
1) S2 ≤ 0.2V
other inputs=0~VCC
2) S1 ≥ VCC–0.2V,
S2 ≥ VCC–0.2V
other inputs=0~VCC
S1=VIH or S2=VIL,
other inputs=0~VCC
Stand-by current
Stand-by current
0.6
V
V
V
70ns
-H
V
35
1MHz
5
~25°C
1.2
~40°C
3.6
~70°C
12
0.33
µA
mA
* –3.0V in case of AC ( Pulse width ≤ 30ns )
CAPACITANCE (Ta=0~70°C, unless otherwise noted)
Symbol
CI
CO
Parameter
Input capacitance
Output capacitance
Test conditions
VI=GND, VI=25mVrms, f=1MHz
VO=GND,VO=25mVrms, f=1MHz
Min
Limits
Typ
Max
8
10
Unit
pF
pF
Note 3: Direction for current flowing into an IC is positive (no mark).
4: Typical value is Vcc = 3V, Ta = 25°C
3
7th.July.2000 Ver. 1.1
MITSUBISHI LSIs
M5M5V108DFP,VP,KV -70H
1048576-BIT(131072-WORD BY 8-BIT)CMOS STATIC RAM
AC ELECTRICAL CHARACTERISTICS (Ta=0~70°C, unless otherwise noted )
(1) MEASUREMENT CONDITIONS
VCC ................................. 2.7~3.6V
Input pulse level ............. VIH=2.2V,VIL=0.4V
Input rise and fall time ..... 5ns
Reference level ............... VOH=VOL=1.5V
Output loads ................... Fig.1, CL=30pF
CL=5pF (for ten,tdis)
Transition is measured ± 500mV from steady
state voltage. (for ten,tdis)
1TTL
DQ
CL
including
scope and JIG
Fig.1 Output load
(2) READ CYCLE
Limits
Symbol
tCR
ta(A)
ta(S1)
ta(S2)
ta(OE)
tdis(S1)
tdis(S2)
tdis(OE)
ten(S1)
ten(S2)
ten(OE)
tV(A)
Parameter
Read cycle time
Address access time
Chip select 1 access time
Chip select 2 access time
Output enable access time
Output disable time after S1 high
Output disable time after S2 low
Output disable time after OE high
Output enable time after S1 low
Output enable time after S2 high
Output enable time after OE low
Data valid time after address
-70H
Min
Max
70
70
70
70
35
25
25
25
10
10
5
10
Unit
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
(3) WRITE CYCLE
Symbol
tCW
tw(W)
tsu(A)
tsu(A-WH)
tsu(S1)
tsu(S2)
tsu(D)
th(D)
trec(W)
tdis(W)
tdis(OE)
ten(W)
ten(OE)
Parameter
Write cycle time
Write pulse width
Address setup time
Address setup time with respect to W
Chip select 1 setup time
Chip select 2 setup time
Data setup time
Data hold time
Write recovery time
Output disable time from W low
Output disable time from OE high
Output enable time from W high
Output enable time from OE low
Limits
-70H
Min
Max
70
55
0
65
65
65
30
0
0
25
25
5
5
Unit
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
4
7th.July.2000 Ver. 1.1
MITSUBISHI LSIs
M5M5V108DFP,VP,KV -70H
1048576-BIT(131072-WORD BY 8-BIT)CMOS STATIC RAM
(4) TIMING DIAGRAMS
Read cycle
tCR
A0~16
ta(A)
tv (A)
ta (S1)
S1
(Note 5)
tdis (S1)
S2
(Note 5)
ta (S2)
(Note 5)
tdis (S2)
ta (OE)
(Note 5)
ten (OE)
OE
(Note 5)
tdis (OE)
(Note 5)
ten (S1)
ten (S2)
DQ1~8
DATA VALID
W = "H" level
Write cycle (W control mode)
tCW
A0~16
tsu (S1)
S1
(Note 5)
(Note 5)
S2
tsu (S2)
(Note 5)
(Note 5)
tsu (A-WH)
OE
tsu (A)
tw (W)
trec (W)
W
tdis (W)
ten(OE)
ten (W)
tdis (OE)
DQ1~8
DATA IN
STABLE
tsu (D)
th (D)
5
7th.July.2000 Ver. 1.1
MITSUBISHI LSIs
M5M5V108DFP,VP,KV -70H
1048576-BIT(131072-WORD BY 8-BIT)CMOS STATIC RAM
Write cycle ( S1 control mode)
tCW
A0~16
tsu (A)
tsu (S1)
trec (W)
S1
S2
(Note 5)
(Note 5)
(Note 7)
W
(Note 6)
(Note 5)
(Note 5)
tsu (D)
th (D)
DATA IN
STABLE
DQ1~8
Write cycle (S2 control mode)
tCW
A0~16
S1
(Note 5)
(Note 5)
tsu (A)
tsu (S2)
trec (W)
S2
(Note 7)
W
(Note 6)
(Note 5)
(Note 5)
tsu (D)
DQ1~8
th (D)
DATA IN
STABLE
Note 5: Hatching indicates the state is "don't care".
6: Writing is executed while S2 high overlaps S1 and W low.
7: When the falling edge of W is simultaneously or prior to the falling edge of S1
or rising edge of S2, the outputs are maintained in the high impedance state.
8: Don't apply inverted phase signal externally when DQ pin is output mode.
6
7th.July.2000 Ver. 1.1
MITSUBISHI LSIs
M5M5V108DFP,VP,KV -70H
1048576-BIT(131072-WORD BY 8-BIT)CMOS STATIC RAM
POWER DOWN CHARACTERISTICS
(1) ELECTRICAL CHARACTERISTICS (Ta=0~70°C, unless otherwise noted)
Symbol
VCC (PD)
VI (S1)
VI (S2)
Parameter
Test conditions
Power down supply voltage
Chip select input S1
Limits
Typ
Chip select input S2
Power down supply current
Max
0.6
0.2
1) S2 ≤ 0.2V,
other inputs = 0~3V
2) S1 ≥ VCC–0.2V,
S2 ≥ VCC–0.2V
other inputs = 0~3V
V
V
V
1
~25°C
-H
Unit
V
Vcc(PD)
2.7V≤Vcc(PD)
Vcc(PD)<2.7V
VCC = 3V
ICC (PD)
Min
2
2.0
~40°C
3
~70°C
10
µA
(2) TIMING REQUIREMENTS (Ta=0~70°C, unless otherwise noted )
Symbol
tsu (PD)
trec (PD)
Parameter
Test conditions
Power down set up time
Power down recovery time
Min
0
5
Limits
Typ
Max
Unit
ns
ms
(3) POWER DOWN CHARACTERISTICS
S1 control mode
VCC
t su (PD)
2.7V
2.7V
t rec (PD)
2.2V
2.2V
S1
S1 ≥ VCC - 0.2V
Note 9: On the power down mode by controlling S1,the input level of S2 must be S2 ≥ Vcc - 0.2V or
S2 ≤ 0.2V. The other pins(Address,I/O,WE,OE) can be in high impedance state.
S2 control mode
VCC
S2
t su (PD)
2.7V
2.7V
t rec (PD)
0.2V
0.2V
S2 ≤ 0.2V
7
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