ISSI IS64WV1288EEBLL

IS61WV1288EEBLL
IS64WV1288EEBLL
256K x 8 HIGH SPEED ASYNCHRONOUS
CMOS STATIC RAM WITH ECC ADVANCED INFORMATION
OCTOBER 2012
DESCRIPTION
The ISSI IS61/64WV1288EEBLL is a high-speed,
FEATURES
• High-speed access time: 8, 10 ns
• Low Active Power: 85 mW (typical)
• Low Standby Power: 7 mW (typical)
CMOS standby
• Single power supply
• Fully static operation: no clock or refresh
required
• Three state outputs
• Industrial and Automotive temperature support
• Lead-free available
• Error Detection and Error Correction
1,048,576-bit static RAMs organized as 131,072 words by
8 bits. It is fabricated using ISSI's high-performance CMOS
technology. This highly reliable process coupled with innovative circuit design techniques, yields high-performance
and low power consumption devices.
When CE is HIGH (deselected), the device assumes
a standby mode at which the power dissipation can be
reduced down with CMOS input levels.
Easy memory expansion is provided by using Chip Enable
and Output Enable inputs, CE and OE. The active LOW
Write Enable (WE) controls both writing and reading of
the memory.
The IS61/64WV1288EEBLL is packaged in the JEDEC
standard 32-pin SOJ, TSOP-II, sTSOP-I, and 48-ball BGA
(6mmx8mm).
FUNCTIONAL BLOCK DIAGRAM
A0-A16
Memory Array
(256Kx8)
Decoder
8
8
IO0-7
I/O Data
Circuit
/CE
/OE
/WE
Control
Circuit
8
ECC Array
(256Kx4)
4
12
ECC
Column I/O
Copyright © 2012 Integrated Silicon Solution, Inc. All rights reserved. ISSI reserves the right to make changes to this specification and its products at any time without
notice. ISSI assumes no liability arising out of the application or use of any information, products or services described herein. Customers are advised to obtain the latest version of this device specification before relying on any published information and before placing orders for products.
Integrated Silicon Solution, Inc. does not recommend the use of any of its products in life support applications where the failure or malfunction of the product can reasonably be expected to cause failure of the life support system or to significantly affect its safety or effectiveness. Products are not authorized for use in such applications
unless Integrated Silicon Solution, Inc. receives written assurance to its satisfaction, that:
a.) the risk of injury or damage has been minimized;
b.) the user assume all such risks; and
c.) potential liability of Integrated Silicon Solution, Inc is adequately protected under the circumstances
Integrated Silicon Solution, Inc. — www.issi.com1
Rev. 00A
10/10/2012
IS61/64WV1288EEBLL
PIN CONFIGURATION
PIN CONFIGURATION
32-Pin SOJ
32-Pin TSOP (Type II) (T)
32-Pin sTSOP (Type I) (H)
A0
1
32
A16
A1
2
31
A15
A2
3
30
A14
A3
4
29
A13
CE
5
28
OE
I/O0
6
27
I/O7
I/O1
7
26
I/O6
VDD
8
25
GND
GND
9
24
VDD
I/O2
10
23
I/O5
I/O3
11
22
I/O4
WE
12
21
A12
A4
13
20
A11
A5
14
19
A10
A6
15
18
A9
A7
16
17
A8
PIN DESCRIPTIONS
A0-A16
Address Inputs
CE Chip Enable Input
OE Output Enable Input
WE Write Enable Input
I/O0-I/O7
Bidirectional Ports
VddPower
GND
Ground
2
A0
A1
A2
A3
CE
I/O0
I/O1
VDD
GND
I/O2
I/O3
WE
A4
A5
A6
A7
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
A16
A15
A14
A13
OE
I/O7
I/O6
GND
VDD
I/O5
I/O4
A12
A11
A10
A9
A8
PIN CONFIGURATION
48-mini BGA (B) (6 mm x 8 mm)
1
2
3
4
5
6
A
NC
OE
A2
A6
A7
NC
B
I/O0
NC
A1
A5
CE
I/O7
C
I/O1
NC
A0
A4
NC
I/O6
D
GND
NC
NC
A3
NC
VDD
E
VDD
NC
NC
NC
NC
GND
F
I/O2
NC
A14
A11
I/O4
I/O5
G
I/O3
NC
A15
A12
WE
A8
H
NC
A10
A16
A13
A9
NC
Integrated Silicon Solution, Inc. — www.issi.com
Rev. 00A
10/10/2012
IS61/64WV1288EEBLL
ABSOLUTE MAXIMUM RATINGS(1)
SymbolParameter
Vterm
Terminal Voltage with Respect to GND
Vdd
Vdd Relates to GND
Tstg
Storage Temperature
Pt
Power Dissipation
Value
–0.5 to Vdd + 0.5
–0.3 to 4.0
–65 to +150
1.0
1
Unit
V
V
°C
W
2
Notes:
1. Stress 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.
3
4
CAPACITANCE(1,2)
Symbol
Parameter
Cin
CI/O
Input Capacitance
Input/Output Capacitance
Conditions
Vin = 0V
Vout = 0V
Max.
Unit
6
8
pF
pF
5
Notes:
1. Tested initially and after any design or process changes that may affect these parameters.
2. Test conditions: Ta = 25°C, f = 1 MHz, Vdd = 3.3V.
6
ERROR DETECTION AND ERROR CORRECTION
•
•
•
•
7
Independent ECC with hamming code for each byte
Detect and correct one bit error per byte
Better reliability than parity code schemes which can only detect an error but not correct an error
Backward Compatible: Drop in replacement to current in industry standard devices (without ECC)
8
TRUTH TABLE
Mode
CE
Not Selected H
(Power-down)
Output DisabledL
Read
L
Write
L
9
WE OE I/O Operation Vdd Current
X
X
High-Z
Isb1, Isb2
H
H
L
H
L
X
High-Z
Dout
Din
10
Icc
Icc
Icc
11
OPERATING RANGE (Vdd)1
Range
Ambient Temperature
Industrial
–40°C to +85°C
Automotive (A1)
–40°C to +85°C
Automotive (A3) –40°C to +125°C
IS61WV1288EEBLL
Vdd (8, 10ns)
2.4V-3.6V
—
—
IS64WV1288EEBLL
Vdd
—
2.4V-3.6V (8ns)
2.4V-3.6V (10ns)
12
Note:
1. Contact [email protected] for 1.8V option
Integrated Silicon Solution, Inc. — www.issi.com
Rev. 00A
10/10/2012
3
IS61/64WV1288EEBLL
DC ELECTRICAL CHARACTERISTICS (Over Operating Range)
Vdd = 3.3V + 10%
Symbol
Voh
Vol
Vih
Vil
Ili
Ilo
Parameter
Output HIGH Voltage
Output LOW Voltage
Input HIGH Voltage
Input LOW Voltage(1)
Input Leakage
Output Leakage
Test Conditions
Vdd = Min., Ioh = –4.0 mA
Vdd = Min., Iol = 8.0 mA
GND ≤ Vin ≤ Vdd
GND ≤ Vout ≤ Vdd, Outputs Disabled
Min.Max.Unit
2.4
—
V
—
0.4
V
2
Vdd + 0.3
V
–0.3
0.8
V
–1
1
µA
–1
1
µA
Note:
1. Vil (min.) = –0.3V DC; Vil (min.) = –2.0V AC (pulse width < 2 ns). Not 100% tested.
Vih (max.) = Vdd + 0.3V DC; Vih (max.) = Vdd + 2.0V AC (pulse width < 2 ns). Not 100% tested.
DC ELECTRICAL CHARACTERISTICS (Over Operating Range)
Vdd = 2.4V-3.6V
Symbol
Voh
Vol
Vih
Vil
Ili
Ilo
Parameter
Output HIGH Voltage
Output LOW Voltage
Input HIGH Voltage
Input LOW Voltage(1)
Input Leakage
Output Leakage
Test Conditions
Vdd = Min., Ioh = –1.0 mA
Vdd = Min., Iol = 1.0 mA
GND ≤ Vin ≤ Vdd
GND ≤ Vout ≤ Vdd, Outputs Disabled
Min.Max.Unit
1.8
—
V
—
0.4
V
2.0
Vdd + 0.3
V
–0.3
0.8
V
–1
1
µA
–1
1
µA
Note:
1. Vil (min.) = –0.3V DC; Vil (min.) = –2.0V AC (pulse width < 2 ns). Not 100% tested.
Vih (max.) = Vdd + 0.3V DC; Vih (max.) = Vdd + 2.0V AC (pulse width < 2 ns). Not 100% tested.
POWER SUPPLY CHARACTERISTICS(1) (Over Operating Range)
-8-10-20
Symbol Parameter
Test ConditionsMin. Max.
Min. Max.
Min. Max.
Icc
Vdd Dynamic Operating Vdd = Max., Com. — 40
— 30
— 25
Supply Current
Iout = 0 mA, f = fmax
Ind. — 45
— 35
— 30
Auto. — —
— 50
— 45
typ.(2)21 21
Icc1
Operating
Vdd = Max., Com. — 20
— 20
— 20
Supply Current
Iout = 0 mA, f = 0
Ind. — 25
— 25
— 25
Auto. — —
— 40
— 40
Isb1
TTL Standby Current
Vdd = Max., Com. — 10
— 10
— 10
(TTL Inputs)
Vin = Vih or Vil
Ind. — 15
— 15
— 15
CE ≥ Vih, f = 0
Auto. — —
— 30
— 30
Isb2
CMOS Standby
Vdd = Max., Com. — 5
— 5
— 5
Current (CMOS Inputs) CE ≥ Vdd – 0.2V,
Ind. — 6
— 6
— 6
Vin ≥ Vdd – 0.2V, or
Auto. — —
— 15
— 15
Vin ≤ 0.2V, f = 0
typ.(2) 1.5 1.5
Unit
mA
mA
mA
mA
Note:
1. At f = fmax, address and data inputs are cycling at the maximum frequency, f = 0 means no input lines change.
2. Typical values are measured at Vdd = 3.0V, Ta = 25oC and not 100% tested.
4
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Rev. 00A
10/10/2012
IS61/64WV1288EEBLL
AC TEST CONDITIONS
1
ParameterUnit
(2.4V-3.6V)
Input Pulse Level
0.4V to Vdd-0.3V
Input Rise and Fall Times
1V/ ns
Input and Output Timing
Vdd/2
and Reference Level (VRef)
Output Load
See Figures 1 and 2
2
3
AC TEST LOADS
4
319 Ω
ZO = 50Ω
3.3V
50Ω
1.5V
OUTPUT
30 pF
Including
jig and
scope
Figure 1.
OUTPUT
5
353 Ω
5 pF
Including
jig and
scope
6
Figure 2.
7
READ CYCLE SWITCHING CHARACTERISTICS(1) (Over Operating Range)
-8-10-20
Symbol
Parameter
Min.Max.
Min.Max.
Min.Max.
trc
Read Cycle Time
8 —
10 —
20 —
taa
Address Access Time
— 8
— 10
— 20
toha
Output Hold Time
2.0 —
2.0 —
2.5 —
tace
CE Access Time
— 8
— 10
— 20
tdoe
OE Access Time
— 4.5
— 4.5
— 8
thzoe(2)
OE to High-Z Output
— 3
— 4
— 8
(2)
tlzoe OE to Low-Z Output
0 —
0 —
0 —
thzce(2
CE to High-Z Output
0 3 0 4
0 8
tlzce(2)
CE to Low-Z Output
3 —
3 —
3 —
tpu
Power Up Time
0 —
0 —
0 —
tpd
Power Down Time
— 8
— 10
— 20
8
Unit
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
9
10
11
Notes:
1. Test conditions and output loading conditions are specified in the AC Test Conditions and AC Test Loads (Figure 1).
2. Tested with the load in Figure 2. Transition is measured ±500 mV from steady-state voltage.
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Rev. 00A
10/10/2012
12
5
IS61/64WV1288EEBLL
AC WAVEFORMS
READ CYCLE NO. 1(1,2) (Address Controlled) (CE = OE = Vil)
t RC
ADDRESS
t AA
t OHA
DOUT
t OHA
DATA VALID
PREVIOUS DATA VALID
READ1.eps
READ CYCLE NO. 2(1,3) (CE and OE Controlled)
t RC
ADDRESS
t AA
t OHA
OE
t HZOE
t DOE
t LZOE
CE
t LZCE
DOUT
t ACE
HIGH-Z
t HZCE
DATA VALID
CE_RD2.eps
Notes:
1. WE is HIGH for a Read Cycle.
2. The device is continuously selected. OE, CE = Vil.
3. Address is valid prior to or coincident with CE LOW transitions.
6
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Rev. 00A
10/10/2012
IS61/64WV1288EEBLL
WRITE CYCLE SWITCHING CHARACTERISTICS(1,3) (Over Operating Range)
-8-10-20
Symbol
Parameter Min.Max. Min.Max.
Min. Max.
twc
Write Cycle Time
8 —
10 —
20 —
tsce
CE to Write End
6.5 —
8 —
12 —
taw
Address Setup Time 6.5 —
8 —
12 —
to Write End
tha
Address Hold from Write End 0 —
0 —
0 —
tsa
Address Setup Time
0 —
0 —
0 —
tpwe1
WE Pulse Width
6.5 —
8 —
12 —
tpwe2
WE Pulse Width (OE = LOW) 8.0 —
10 —
17 —
tsd
Data Setup to Write End
5 —
6 —
9 —
thd
Data Hold from Write End
0 —
0 —
0 —
thzwe(2) WE LOW to High-Z Output
— 3.5
— 5
— 9
tlzwe(2)
WE HIGH to Low-Z Output
2 —
2 —
2 —
1
Unit
ns
ns
ns
2
3
ns
ns
ns
ns
ns
­ns
ns
ns
4
5
Notes:
1. Test conditions and output loading conditions are specified in the AC Test Conditions and AC Test Loads (Figure 1).
2. Tested with the load in Figure 2. Transition is measured ±500 mV from steady-state voltage. Not 100% tested.
3. The internal write time is defined by the overlap of CE LOW, and WE LOW. All signals must be in valid states to initiate a
Write, but any one can go inactive to terminate the Write. The Data Input Setup and Hold timing are referenced to the rising
or falling edge of the signal that terminates the write. Shaded area product in development
6
7
8
9
10
11
12
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Rev. 00A
10/10/2012
7
IS61/64WV1288EEBLL
AC WAVEFORMS
WRITE CYCLE NO. 1(1,2) (CE Controlled, OE = HIGH or LOW)
t WC
VALID ADDRESS
ADDRESS
t SA
t SCE
t HA
CE
t AW
t PWE1
t PWE2
WE
t HZWE
DOUT
DATA UNDEFINED
t LZWE
HIGH-Z
t SD
DIN
t HD
DATAIN VALID
CE_WR1.eps
8
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Rev. 00A
10/10/2012
IS61/64WV1288EEBLL
WRITE CYCLE NO. 2(1,2) (WE Controlled: OE is HIGH During Write Cycle)
t WC
ADDRESS
1
VALID ADDRESS
t HA
2
OE
CE
3
LOW
t AW
t PWE1
WE
t SA
DOUT
t HZWE
4
t LZWE
HIGH-Z
DATA UNDEFINED
t SD
5
t HD
DATAIN VALID
DIN
CE_WR2.eps
Notes:
1. The internal write time is defined by the overlap of CE LOW and WE LOW. All signals must be in valid states to initiate a Write,
but any one can go inactive to terminate the Write. The Data Input Setup and Hold timing are referenced to the rising or falling
edge of the signal that terminates the Write.
2. I/O will assume the High-Z state if OE > Vih.
6
7
WRITE CYCLE NO. 3 (WE Controlled: OE is LOW During Write Cycle)
8
t WC
ADDRESS
VALID ADDRESS
OE
LOW
CE
LOW
9
t HA
t AW
10
t PWE2
11
WE
t SA
DOUT
t HZWE
DATA UNDEFINED
t LZWE
HIGH-Z
t SD
DIN
12
t HD
DATAIN VALID
CE_WR3.eps
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Rev. 00A
10/10/2012
9
IS61/64WV1288EEBLL
HIGH SPEED
DATA RETENTION SWITCHING CHARACTERISTICS (2.4V-3.6V)
Symbol Parameter
Test Condition
Vdr
Vdd for Data Retention
See Data Retention Waveform
Idr
Data Retention Current
Vdd = Vdr(min), CE ≥ Vdd – 0.2V
tsdr
Data Retention Setup Time See Data Retention Waveform
trdr
Recovery Time
See Data Retention Waveform
Note 1: Typical values are measured at Vdd = Vdr(min), Ta = 25 C and not 100% tested.
Options
Com.
Ind.
Auto.
Min.
2.0
—
—
0
trc
Typ.(1) Max.Unit
—
3.6
V
0.5
5
mA
—
6
15
—
—
ns
—
—
ns
o
DATA RETENTION WAVEFORM (CE Controlled)
tSDR
Data Retention Mode
tRDR
VDD
VDR
CE
GND
10
CE ≥ VDD - 0.2V
Integrated Silicon Solution, Inc. — www.issi.com
Rev. 00A
10/10/2012
IS61/64WV1288EEBLL
ORDERING INFORMATION
1
Industrial Range: -40°C to +85°C
Speed (ns)
8
Order Part No.
IS61WV1288EEBLL-8BLI
IS61WV1288EEBLL-8TLI
IS61WV1288EEBLL-8KLI
Package
36 mini BGA (6mm x 8mm), Lead-free
TSOP (Type II), Lead-free
400-mil Plastic SOJ, Lead-free
3
Industrial Range: -40°C to +85°C
Speed (ns)
10
Order Part No.
IS61WV1288EEBLL-10BI
IS61WV1288EEBLL-10BLI
IS61WV1288EEBLL-10TI
IS61WV1288EEBLL-10TLI
IS61WV1288EEBLL-10KLI
Package
36 mini BGA (6mm x 8mm) 36 mini BGA (6mm x 8mm), Lead-free
TSOP (Type II)
TSOP (Type II), Lead-free
400-mil Plastic SOJ, Lead-free
Automotive (A1) Range: -40°C to +85°C
Speed (ns)
10
Order Part No.
IS64WV1288EEBLL-10BA1
IS64WV1288EEBLL-10BLA1
IS64WV1288EEBLL-10CTA1
IS64WV1288EEBLL-10CTLA1
IS64WV1288EEBLL-10KLA1
Package
36 mini BGA (6mm x 8mm) 36 mini BGA (6mm x 8mm), Lead-free
TSOP (Type II), Copper Leadframe TSOP (Type II), Lead-free, Copper Leadframe 400-mil Plastic SOJ, Lead-free
Automotive (A3) Range: -40°C to +125°C
Speed (ns)
10
Order Part No.
IS64WV1288EEBLL-10BA3
IS64WV1288EEBLL-10BLA3
IS64WV1288EEBLL-10CTA3
IS64WV1288EEBLL-10CTLA3
IS64WV1288EEBLL-10KLA3
2
Package
36 mini BGA (6mm x 8mm) 36 mini BGA (6mm x 8mm), Lead-free
TSOP (Type II), Copper Leadframe TSOP (Type II), Lead-free, Copper Leadframe 400-mil Plastic SOJ, Lead-free
4
5
6
7
8
9
10
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Rev. 00A
10/10/2012
IS61/64WV1288EEBLL
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Rev. 00A
10/10/2012
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Rev. 00A
10/10/2012
SEATING PLANE
3. Dimension b2 does not include dambar protrusion/intrusion.
4. Formed leads shall be planar with respect to one another within 0.1mm
at the seating plane after final test.
5. Reference document : JEDEC SPEC MS-027.
2. Dimension D and E1 do not include mold protrusion .
1. Controlling dimension : mm
NOTE :
12/19/2007
IS61/64WV1288EEBLL
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IS61/64WV1288EEBLL
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Rev. 00A
10/10/2012
IS61/64WV1288EEBLL
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Rev. 00A
10/10/2012
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Package Outline
08/12/2008
1. CONTROLLING DIMENSION : MM .
2. Reference document : JEDEC MO-207
NOTE :
IS61/64WV1288EEBLL
Integrated Silicon Solution, Inc. — www.issi.com
Rev. 00A
10/10/2012