DtSheet

OKI MR27V1652D

¡ Semiconductor
1A
MR27V1652D
1,048,576-Word x 16-Bit or 2,097,152-Word x 8-Bit
8-Word x 16-Bit or 16-Word x 8-Bit Page Mode One Time PROM
DESCRIPTION
The MR27V1652D is a 16Mbit electrically Programmable Read-Only Memory with page mode. Its
configuration can be electrically switched between 1,048,576 word x 16bit and 2,097,152 word x 8
bit. The MR27V1652D operates on a single +3.3V power supply and is TTL compatible. The MR27
V1652D provides Page mode which can greatly reduce the read access time. Since the MR27V1652
D operates asynchronously , external clocks are not required , making this device easy-to-use. The
MR27V1652D is suitable as large-capacity fixed memory for microcomputers and data terminals. It
is manufactured using a CMOS double silicon gate technology and is offered in 42-pin DIP , 44-pin
SOP , 44-pin TSOP or 48-pin TSOP packages.
FEATURES
• 1,048,576 word x 16bit / 2,097,152 word x 8bit electrically switchable configuration
• Single +3.3V power supply
• Access time 80ns
Page mode access time 30ns
• Input / Output TTL compatible
• Three-state output
• Packages
42-pin plastic DIP (DIP42-P-600-2.54)
(Product name : MR27V1652DRA)
44-pin plastic SOP (SOP44-P-600-1.27-K)
(Product name : MR27V1652DMA)
44-pin plastic TSOP (TSOP II 44-P-400-0.80-K) (Product name : MR27V1652DTP)
48-pin plastic TSOP (TSOP II 48-P-550-0.80-K) (Product name : MR27V1652DTA)
November 1999
1/10
MR27V1652D
PIN CONFIGURATION (TOP VIEW)
A18 1
A17 2
42 A19
41 A8
A7 3
A6 4
40 A9
39 A10
A5 5
A4 6
38 A11
37 A12
A3 7
A2 8
36 A13
35 A14
A1 9
A0 10
34 A15
33 A16
NC 1
NC 2
48 NC
47 NC
NC 1
A18 2
44 NC
43 A19
NC 3
A18 4
46 NC
45 A19
A17 3
A7 4
42 A8
41 A9
A17 5
A7 6
44 A8
43 A9
A6 5
A5 6
40 A10
39 A11
A6 7
A5 8
42 A10
41 A11
A4 7
A3 8
38 A12
37 A13
A4 9
A3 10
40 A12
39 A13
A2 9
A1 10
36 A14
35 A15
A2 11
A1 12
38 A14
37 A15
A0 11
34 A16
CE 11
VSS 12
32 BYTE/Vpp
31 VSS
CE 12
VSS 13
33 BYTE/Vpp
32 VSS
A0 13
CE 14
VSS 15
OE 13
D0 14
D8 15
30 D15/A-1
29 D7
OE 14
D0 15
D8 16
31 D15/A-1
30 D7
OE 16
D0 17
29 D14
28 D6
D8 18
D1 19
27 D13
26 D5
D9 20
D2 21
25 D12
24 D4
D10 22
D3 23
23 VCC
D11 24
28 D14
27 D6
D1 16
D9 17
26 D13
25 D5
D2 18
D10 19
24 D12
23 D4
D3 20
D11 21
22 VCC
42-pin DIP
D1 17
D9 18
D2 19
D10 20
D3 21
D11 22
44-pin SOP , TSOP (II)
PIN NAMES
D15/A-1
Data output / Address input
Address input
D0 - D14
Data output
CE
Chip enable
OE
VCC
Power supply voltage
VSS
GND
NC
34 VSS
33 D15/A-1
32 D7
31 D14
30 D6
29 D13
28 D5
27 D12
26 D4
25 VCC
48-pin TSOP (II)
FUNCTIONS
A0 - A19
BYTE/VPP
36 A16
35 BYTE/Vpp
Output enable
Mode switch / Program power supply voltage
Non connection
2/10
MR27V1652D
BLOCK DIAGRAM
A-1
OE
BYTE/VPP
CE
OE
PGM
Row Decoder
CE
Memory Matrix
1,048,576X16-Bit or 2,097,152X8-Bit
Column Decoder
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
Address Buffer
X8/X16 Switch
Multiplexer & Page Data Latch
Output Buffer
D0
D2
D1
D4
D3
D6
D5
D8
D7
D10
D9
D12
D11
D14
D13
D15
In 8-bit output mode, these pins are
three-stated and pin D15 functions
as the A-1 address pin.
FUNCTION TABLE
MODE
CE
OE BYTE/VPP
READ (16-Bit)
L
L
H
READ (8-Bit)
L
L
L
OUTPUT DISABLE
L
H
STAND-BY
H
*
PROGRAM
L
H
PROGRAM INHIBIT
H
H
PROGRAM VERIFY
* : Don't Care
H
L
H
L
VCC
3.3V
H
D0 - D7
D8 - D14
DOUT
D15/A-1
DOUT
Hi-Z
L/H
Hi-Z
*
Hi-Z
L
*
DIN
9.75V
4.0V
Hi-Z
DOUT
3/10
MR27V1652D
ABSOLUTE MAXIMUM RATINGS
Symbol
Parameter
Operating temperature under bias
Topr
Storage temperature
Tstg
Condition
Output voltage
VO
Power supply voltage
Program power supply voltage
VCC
VPP
Power dissipation per package
PD
Unit
-55 to 125
°C
°C
-0.5 to VCC + 0.5
V
-0.5 to VCC + 0.5
V
-0.5 to 5
V
-
VI
Input voltage
Value
0 to 70
relative to VSS
-0.5 to 11.5
V
1.0
W
-
RECOMMENDED OPERATING CONDITIONS FOR READ
(Ta=0 to 70°C)
Parameter
Symbol
VCC power supply voltage
VCC
VPP power supply voltage
VPP
Input "H" level
VIH
Input "L" level
Condition
VCC=3.0V-3.6V
VIL
Min.
Typ.
Max.
3.0
3.6
Unit
V
-0.5
-
VCC+0.5
V
2.2
-
VCC+0.5*
V
-0.5**
-
0.6
V
Voltage is relative to Vss
* : Vcc+1.5V (Max.) when pulse width of overshoot is less than 10nS.
** : -1.5V (Min.) when pulse width of undershoot is less than 10nS.
4/10
MR27V1652D
ELECTRICAL CHARACTERISTICS (Read operation)
DC Characteristics
(VCC=3.3V±0.3V, Ta=0 to 70°C)
Symbol
ILI
Condition
VI=0 to Vcc
Min.
-
Typ.
-
Max.
Output leakage current
ILO
VO=0 to Vcc
-
-
10
µA
VCC power supply current
(Standby)
ICS1
CE=VCC
50
CE=VIH
-
µA
ICS2
-
1
mA
-
-
100
mA
µA
Parameter
Input leakage current
10
Unit
µA
VCC power supply current
(Read)
ICCA
VPP power supply current
IPP
VPP=VCC
-
-
Input "H" level
VIH
-
2.2
-
10
VCC+0.5*
Input "L" level
VIL
-
-0.5**
-
0.6
V
Output "H" level
VOH
IOH=-400µA
-
-
V
Output "L" level
VOL
IOL=2.1mA
2.4
-
0.4
V
CE=VIL , OE=VIH
tc=80ns
V
Voltage is relative to Vss
* : Vcc+1.5V (Max.) when pulse width of overshoot is less than 10nS.
** : -1.5V (Min.) when pulse width of undershoot is less than 10nS.
AC Characteristics
(VCC=3.3V±0.3V, Ta=0 to 70°C)
Parameter
Symbol
Condition
-
Min.
Max.
Unit
80
-
-
ns
80
Address access time
TC
TACC
Page access cycle time
TPC
Page access time
TPAC
TCE
TOE
CE=VIL
TCHZ
OE=VIL
25
-
Address access cycle time
CE access time
OE access time
Output disable time
Output hold time
-
ns
ns
-
30
-
30
ns
OE=VIL
-
80
ns
-
40
ns
0
30
ns
ns
ns
CE=OE=VIL
-
TOHZ
CE=VIL
0
TOH
CE=OE=VIL
0
Measurement conditions
Input signal level
Input timing reference level
Output load
Output timing reference level
0V/3V
0.8V/2.0V
100pF
0.8V/2.0V
2.08V
800ohms
Output
100pF
5/10
MR27V1652D
TIMING CHART
NORMAL MODE READ CYCLE
tC
ADDRESS
tOH
tCE
CE
tCHZ
tOE
OE
tOHZ
tACC
Valid Data
DOUT
Hi-Z
Hi-Z
PAGE MODE READ CYCLE
tC
A3 - A19
tPC
tPC
A0 - A2 (Word mode)
A-1 - A2 (Byte mode)
tOH
tCE
CE
tCHZ
tOE
OE
tACC
tPAC
tPAC
tOHZ
DOUT
Hi-Z
Hi-Z
6/10
MR27V1652D
ELECTRICAL CHARACTERISTICS (Programming operation)
DC Characteristics
(Ta=25°C±5°C)
Symbol
ILI
Parameter
Input leakage current
Condition
VI=VCC+0.5V
VPP power supply current (Program)
IPP2
VCC power supply current
ICC
CE=VIL
-
Input "H" level
VIH
-
Input "L" level
VIL
-
Output "H" level
VOH
IOH=-400µA
Output "L" level
VOL
Program voltage
VPP
IOL=2.1mA
-
VCC power supply voltage
VCC
-
Min.
-
Typ.
-
Max.
50
mA
-
-
80
mA
3.0
-
VCC+0.5
V
-0.5
2.4
-
0.8
-
V
V
-
-
0.45
V
9.5
3.9
9.75
10.0
V
4.0
4.1
V
Unit
µA
10
Voltage is relative to Vss
AC Characteristics
(Vcc=4.0V±0.1V,Vpp=9.75V±0.25V,Ta=25°C±5°C)
Symbol
TAS
Condition
-
Min.
100
OE set-up time
TOES
-
2
Data set-up time
TDS
Address hold time
-
100
TAH
Data hold time
TDH
TOHZ
-
100
Output float delay from OE
-
0
VPP voltage set-up time
Program pulse width
TVS
-
2
-
TPW
-
9
10
Data valid from OE
TOE
-
-
-
Address hold from OE high
TAHO
-
0
-
100
-
ns
Parameter
Address set-up time
Max.
Typ.
-
-
µs
-
-
-
100
-
ns
ns
µs
11
µs
-
2
Unit
ns
-
ns
µs
ns
Pin Check Function
Pin Check Function is to check contact between each device-pin and each socket-lead with EPROM
programmer.
Setting up address as the following condition call the preprogrammed codes on device outputs.
(Vcc=3.3V±0.3V,CE=OE=VIL,BYTE/Vpp=VIH,Ta=25°C±5°C)
A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 DATA
0
1
0
1
0
1
0
1
1
0
1
0
1
0
1
0
0
VH*
0
1
0
1
0
1
0
0
1
1
1
VH*
1
0
1
0
1
0
1
1
0
0
Other conditions
FF00
00FF
FFFF
* :VH=8V±0.25V
7/10
MR27V1652D
Consecutive Programming Waveforms
A0 - A19
tAS
tAH
tPW
CE
High
OE
tDS
tDH
D0 - D15
Din
Din
tVS
BYTE/VPP
Consecutive Program Verify Waveforms
A0 - A19
High
CE
tACC
tAHO
OE
tOE
D0 - D15
tOHZ
Dout
Dout
9.75V
BYTE/VPP
8/10
MR27V1652D
Program and Program Verify Cycle Waveforms
A0 - A19
tAS
tAHO
tPW
CE
tOES
OE
tOHZ
D0 - D15
tOE
tDH
tDS
Din
tOHZ
Dout
9.75V
BYTE/VPP
PIN Capacitance
(VCC=3.3V, Ta=25°C, f=1MHz)
Parameter
Input
BYTE/VPP
Output
(
Symbol
CIN1
CIN2
COUT
Condition
VI=0V
VO=0V
Min.
-
Typ.
-
8 (10)
-
-
120
-
-
10 (12)
Max.
Unit
pF
) : DIP only
9/10
MR27V1652D
Programming / Verify Flow Chart
Programming
Verify
Start
Start
NO
Pin Check
Bad insertion
NO
Pin Check
Bad insertion
OK
OK
Address = First location
Address = First location
VCC=3.0V
VPP=3.0V
VCC=4.0V
VPP=9.75V
Verify (One Byte)
NG
PASS
Program 10µs
VCC=3.6V
VPP=3.6V
NO
Increment Address
Last Address ?
Verify (One Byte)
YES
Address = First location
NG
PASS
Device Passed
Device Failed
X=0
NG
X=X+1
Verify (One Byte)
PASS
NO
Increment Address
YES
Last Address ?
X=2?
YES
NO
VCC=3.0V
VPP=3.0V
Program 10µs
NG
Verify (One Byte)
PASS
Device Passed
Device Failed
10/10
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