ETC AT27LV512A-70TC

Features
• Fast Read Access Time - 70 ns
• Dual Voltage Range Operation
•
•
•
•
•
•
•
•
– Low Voltage Power Supply Range, 3.0V to 3.6V
or Standard 5V ± 10% Supply Range
Compatible with JEDEC Standard AT27C512R
Low Power CMOS Operation
– 20 µA max. (less than 1 µA typical) Standby for VCC = 3.6V
– 29 mW max. Active at 5 MHz for VCC = 3.6V
JEDEC Standard Packages
– 32-Lead PLCC
– 28-Lead 330-mil SOIC
– 28-Lead TSOP
High Reliability CMOS Technology
– 2,000V ESD Protection
– 200 mA Latchup Immunity
Rapid™ Programming Algorithm - 100 µs/byte (typical)
CMOS and TTL Compatible Inputs and Outputs
– JEDEC Standard for LVTTL
Integrated Product Identification Code
Commercial and Industrial Temperature Ranges
512K (64K x 8)
Low Voltage
OTP EPROM
AT27LV512A
Description
The AT27LV512A is a high performance, low power, low voltage 524,288-bit one-time
programmable read only memory (OTP EPROM) organized as 64K by 8 bits. It
requires only one supply in the range of 3.0V to 3.6V in normal read mode operation,
making it ideal for fast, portable systems using battery power.
(continued)
Pin Configurations
Pin Name
Function
A0 - A15
Addresses
O0 - O7
Outputs
CE
Chip Enable
OE/VPP
Output Enable/
Program Supply
NC
No Connect
SOIC Top View
A15
A12
A7
A6
A5
A4
A3
A2
A1
A0
O0
O1
O2
GND
PLCC Top View
A7
A12
A15
NC
VCC
A14
A13
4
3
2
1
32
31
30
29
28
27
26
25
24
23
22
21
14
15
16
17
18
19
20
5
6
7
8
9
10
11
12
13
28
27
26
25
24
23
22
21
20
19
18
17
16
15
VCC
A14
A13
A8
A9
A11
OE/VPP
A10
CE
O7
O6
O5
O4
O3
TSOP Top View
Type 1
A8
A9
A11
NC
OE/VPP
A10
CE
O7
O6
O1
O2
GND
NC
O3
O4
O5
A6
A5
A4
A3
A2
A1
A0
NC
O0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Note: PLCC Package Pins 1 and 17
are DON’T CONNECT.
OE/VPP
A11
A9
A8
A13
A14
VCC
A15
A12
A7
A6
A5
A4
A3
1
2
3
4
5
6
7
8
9
10
11
12
13
14
28
27
26
25
24
23
22
21
20
19
18
17
16
15
A10
CE
O7
O6
O5
O4
O3
GND
O2
O1
O0
A0
A1
A2
Rev. 0607B–10/98
1
Atmel’s innovative design techniques provide fast speeds
that rival 5V parts while keeping the low power consumption of a 3.3V supply. At V CC = 3.0V, any byte can be
accessed in less than 70 ns. With a typical power dissipation of only 18 mW at 5 MHz and V C C = 3.3V, the
AT27LV512A consumes less than one fifth the power of a
standard 5V EPROM.
Standby mode supply current is typically less than 1 µA at
3.3V.
The AT27LV512A is available in industry standard JEDECapproved one-time programmable (OTP) plastic PLCC,
SOIC, and TSOP packages. All devices feature two-line
control (CE, OE) to give designers the flexibility to prevent
bus contention.
The AT27LV512A operating with VCC at 3.0V produces TTL
level outputs that are compatible with standard TTL logic
devices operating at VCC = 5.0V. The device is also capable of standard 5-volt operation making it ideally suited for
dual supply range systems or card products that are pluggable in both 3-volt and 5-volt hosts.
Atmel’s AT27LV512A has additional features to ensure
high quality and efficient production use. The Rapid™ Programming Algorithm reduces the time required to program
the part and guarantees reliable programming. Program-
Block Diagram
2
AT27LV512A
ming time is typically only 100 µs/byte. The Integrated
Product Identification Code electronically identifies the
device and manufacturer. This feature is used by industry
standard programming equipment to select the proper programming algorithms and voltages. The AT27LV512A programs exactly the same way as a standard 5V AT27C512R
and uses the same programming equipment.
System Considerations
Switching between active and standby conditions via the
Chip Enable pin may produce transient voltage excursions.
Unless accommodated by the system design, these transients may exceed data sheet limits, resulting in device
non-conformance. At a minimum, a 0.1 µF high frequency,
low inherent inductance, ceramic capacitor should be utilized for each device. This capacitor should be connected
between the V CC and Ground terminals of the device, as
close to the device as possible. Additionally, to stabilize the
supply voltage level on printed circuit boards with large
EPROM arrays, a 4.7 µF bulk electrolytic capacitor should
be utilized, again connected between the VCC and Ground
terminals. This capacitor should be positioned as close as
possible to the point where the power supply is connected
to the array.
AT27LV512A
Absolute Maximum Ratings*
Temperature Under Bias .................................. -40°C to +85°C
*NOTICE:
Stresses beyond 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 beyond those indicated in the
operational sections of this specification is not
implied. Exposure to absolute maximum rating
conditions for extended periods may affect
device reliability
Storage Temperature ..................................... -65°C to +125°C
Voltage on Any Pin with
Respect to Ground .........................................-2.0V to +7.0V(1)
Voltage on A9 with
Respect to Ground ......................................-2.0V to +14.0V(1)
VPP Supply Voltage with
Respect to Ground .......................................-2.0V to +14.0V(1)
Note:
1.
Minimum voltage is -0.6V dc which may undershoot to -2.0V for pulses of less than 20 ns.Maximum output pin voltage is
VCC + 0.75V dc which may be exceeded if certain precautions are observed (consult application notes) and which may
overshoot to +7.0 volts for pulses of less than 20 ns.
Operating Modes
Mode \ Pin
Read
CE
(2)
VIL
Output Disable
(2)
Standby(2)
Rapid Program
(3)
(3)
PGM Inhibit
OE/VPP
VIL
VIL
VIH
VIH
X
VIL
VIH
VPP
VPP
Ai
VCC
Outputs
VCC
(2)
DOUT
VCC
(2)
High Z
X
VCC(2)
High Z
Ai
VCC
(3)
DIN
VCC
(3)
High Z
Ai
(1)
X
X
(4)
Product Identification(3)(5)
Notes:
VIL
VIL
A9 = VH
A0 = VIH or VIL
A1 - A15 = VIL
VCC(3)
Identification Code
1. X can be VIL or VIH.
2. Read, output disable, and standby modes require, 3.0V ≤ VCC ≤ 3.6V, or 4.5V ≤ VCC ≤ 5.5V.
3. Refer to Programming Characteristics. Programming modes require VCC = 6.5V.
4. VH = 12.0 ± 0.5V.
5. Two identifier bytes may be selected. All Ai inputs are held low (VIL), except A9 which is set to VH and A0 which is toggled low
(VIL) to select the Manufacturer’s Identification byte and high (VIH) to select the Device Code byte.
3
DC and AC Operating Conditions for Read Operation
AT27LV512A
Operating Temperature
(Case)
-70
-90
-12
-15
0°C - 70°C
0°C - 70°C
0°C - 70°C
0°C - 70°C
-40°C - 85°C
-40°C - 85°C
-40°C - 85°C
-40°C - 85°C
3.0V to 3.6V
3.0V to 3.6V
3.0V to 3.6V
3.0V to 3.6V
5V ± 10%
5V ± 10%
5V ± 10%
5V ± 10%
Com.
Ind.
VCC Power Supply
DC and Operating Characteristics for Read Operation
Symbol
Parameter
Condition
Min
Max
Units
VCC = 3.0V to 3.6V
ILI
ILO
IPP1
(2)
Input Load Current
VIN = 0V to VCC
±1
µA
Output Leakage Current
VOUT = 0V to VCC
±5
µA
VPP = VCC
10
µA
ISB1 (CMOS), CE = VCC ± 0.3V
20
µA
ISB2 (TTL), CE = 2.0 to VCC + 0.5V
100
µA
8
mA
VPP
(1)
Read/Standby Current
ISB
VCC(1) Standby Current
ICC
VCC Active Current
VIL
Input Low Voltage
-0.6
0.8
V
VIH
Input High Voltage
2.0
VCC + 0.5
V
VOL
Output Low Voltage
IOL = 2.0 mA
0.4
V
VOH
Output High Voltage
IOH = -2.0 mA
f = 5 MHz, IOUT = 0 mA, CE = VIL
2.4
V
VCC = 4.5V to 5.5V
ILI
ILO
IPP1
(2)
Input Load Current
VIN = 0V to VCC
±1
µA
Output Leakage Current
VOUT = 0V to VCC
±5
µA
VPP = VCC
10
µA
ISB1 (CMOS), CE = VCC ± 0.3V
100
µA
ISB2 (TTL), CE = 2.0 to VCC + 0.5V
1
mA
f = 5 MHz, IOUT = 0 mA, CE = VIL
20
mA
VPP
(1)
Read/Standby Current
ISB
VCC(1) Standby Current
ICC
VCC Active Current
VIL
Input Low Voltage
-0.6
0.8
V
VIH
Input High Voltage
2.0
VCC + 0.5
V
VOL
Output Low Voltage
IOL = 2.1 mA
0.4
V
VOH
Output High Voltage
IOH = -400 µA
Notes:
2.4
V
1. VCC must be applied simultaneously with or before OE/VPP, and removed simultaneously with or after OE/VPP.
2. OE/VPP may be connected directly to VCC, except during programming. The supply current would then be the sum of ICC and
IPP.
4
AT27LV512A
AT27LV512A
AC Characteristics for Read Operation
VCC = 3.0V to 3.6V and 4.5V to 5.5V
AT27LV512A
-70
Parameter
Condition
tACC(3)
Address to Output Delay
CE = OE/VPP = VIL
70
90
tCE(2)
CE to Output Delay
OE/VPP = VIL
70
OE/VPP to Output Delay
CE = VIL
tOE
tDF(4)(5)
OE/VPP or CE High to
Output Float, whichever
occurred first
tOH
Output Hold from Address,
CE or OE/VPP, whichever
occurred first
Max
Units
120
150
ns
90
120
150
ns
40
50
50
60
ns
35
40
40
50
ns
0
Max
Min
-15
Max
0
Min
-12
Symbol
(2)(3)
Min
-90
0
Max
Min
0
ns
AC Waveforms for Read Operation(1)
Notes:
1. Timing measurement references are 0.8V and 2.0V. Input AC drive levels are 0.45V and 2.4V, unless otherwise specified.
2. OE/VPP may be delayed up to tCE - tOE after the falling edge of CE without impact on tCE.
3. OE/VPP may be delayed up to tACC - tOE after the address is valid without impact on tACC.
4. This parameter is only sampled and is not 100% tested.
5. Output float is defined as the point when data is no longer driven.
5
Input Test Waveforms and
Measurement Levels
Output Test Load
tR, tF < 20 ns (10% to 90%)
Note: CL = 100 pF including
jig capacitance.
Pin Capacitance
f = 1 MHz, T = 25°C (1)
Symbol
Typ
Max
Units
Conditions
CIN
4
6
pF
VIN = 0V
COUT
8
12
pF
VOUT = 0V
Note:
6
1. Typical values for nominal supply voltage. This parameter is only sampled and is not 100% tested.
AT27LV512A
AT27LV512A
Programming Waveforms(1)
Notes:
1.
The Input Timing Reference is 0.8V for VIL and 2.0V for VIH.
2.
tOE and tDFP are characteristics of the device but must be accommodated by the programmer.
DC Programming Characteristics
TA = 25 ± 5°C, VCC = 6.5 ± 0.25V, OE/VPP = 13.0 ± 0.25V
Limits
Symbol
Parameter
Test Conditions
ILI
Input Load Current
VIN = VIL, VIH
VIL
Input Low Level
VIH
Input High Level
VOL
Output Low Voltage
IOL = 2.1 mA
VOH
Output High Voltage
IOH = -400 µA
ICC2
VCC Supply Current (Program and Verify)
IPP2
OE/VPP Current
VID
A9 Product Identification Voltage
Min
Max
Units
10
µA
-0.6
0.8
V
2.0
VCC + 0.5
V
0.4
V
2.4
CE = VIL
11.5
V
25
mA
25
mA
12.5
V
7
AC Programming Characteristics
TA = 25 ± 5°C, VCC = 6.5 ± 0.25V, OE/VPP = 13.0 ± 0.25V
Limits
(1)
Symbol
Parameter
Test Conditions
tAS
Address Setup Time
2
µs
tOES
OE/VPP Setup Time
2
µs
tOEH
OE/VPP Hold Time
2
µs
tDS
Data Setup Time
2
µs
tAH
Address Hold Time
0
µs
tDH
Data Hold Time
2
µs
tDFP
CE High to Output Float Delay(2)
tVCS
VCC Setup Time
Input Rise and Fall Times:
(10% to 90%) 20 ns
Input Pulse Levels:
0.45V to 2.4V
(3)
CE Program Pulse Width
tDV
Data Valid from CE(2)
tVR
OE/VPP Recovery Time
tPRT
OE/VPP Pulse Rise Time During
Programming
Max
0
Input Timing Reference Level:
0.8V to 2.0V
tPW
Notes:
Min
130
ns
µs
2
95
Output Timing Reference Level:
0.8V to 2.0V
Units
105
µs
1
µs
2
µs
50
ns
1. VCC must be applied simultaneously or before OE/VPP and removed simultaneously or after OE/VPP.
2. This parameter is only sampled and is not 100% tested. Output Float is defined as the point where data is no longer driven—
see timing diagram.
3. Program Pulse width tolerance is 100 µsec ± 5%.
Atmel’s 27LV512A Integrated Product Identification Code(1)
Pins
A0
O7
O6
O5
O4
O3
O2
O1
O0
Hex
Data
Manufacturer
0
0
0
0
1
1
1
1
0
1E
Device Type
1
0
0
0
0
0
1
0
1
0D
Codes
Note:
8
1. The AT27LV512A has the same Product Identification Code as the AT27C512R. Both are programming compatible.
AT27LV512A
AT27LV512A
Rapid Programming Algorithm
A 100 µs CE pulse width is used to program. The address
is set to the first location. VCC is raised to 6.5V and OE/VPP
is raised to 13.0V. Each address is first programmed with
one 100 µs CE pulse without verification. Then a verification / reprogramming loop is executed for each address. In
the event a byte fails to pass verification, up to 10 successive 100 µs pulses are applied with a verification after each
pulse. If the byte fails to verify after 10 pulses have been
applied, the part is considered failed. After the byte verifies
properly, the next address is selected until all have been
checked. OE/VPP is then lowered to VIL and VCC to 5.0V. All
bytes are read again and compared with the original data to
determine if the device passes or fails.
9
Ordering Information
ICC (mA)
tACC
(ns)
Active
Standby
Ordering Code
Package
70
8
0.02
AT27LV512A-70JC
AT27LV512A-70RC
AT27LV512A-70TC
32J
28R
28T
Commercial
(0°C to 70°C)
8
0.02
AT27LV512A-70JI
AT27LV512A-70RI
AT27LV512A-70TI
32J
28R
28T
Industrial
(-40°C to 85°C)
8
0.02
AT27LV512A-90JC
AT27LV512A-90RC
AT27LV512A-90TC
32J
28R
28T
Commercial
(0°C to 70°C)
8
0.02
AT27LV512A-90JI
AT27LV512A-90RI
AT27LV512A-90TI
32J
28R
28T
Industrial
(-40°C to 85°C)
8
0.02
AT27LV512A-12JC
AT27LV512A-12RC
AT27LV512A-12TC
32J
28R
28T
Commercial
(0°C to 70°C)
8
0.02
AT27LV512A-12JI
AT27LV512A-12RI
AT27LV512A-12TI
32J
28R
28T
Industrial
(-40°C to 85°C)
8
0.02
AT27LV512A-15JC
AT27LV512A-15RC
AT27LV512A-15TC
32J
28R
28T
Commercial
(0°C to 70°C)
8
0.02
AT27LV512A-15JI
AT27LV512A-15RI
AT27LV512A-15TI
32J
28R
28T
Industrial
(-40°C to 85°C)
90
120
150
Package Type
32J
32-Lead, Plastic J-Leaded Chip Carrier (PLCC)
28R
28-Lead, 0.330" Wide, Plastic Gull Wing Small Outline (SOIC)
28T
28-Lead, Thin Small Outline Package (TSOP)
10
AT27LV512A
Operation Range
AT27LV512A
Packaging Information
32J, 32-Lead, Plastic J-Leaded Chip Carrier (PLCC)
Dimensions in Inches and (Millimeters)
JEDEC STANDARD MS-016 AE
.045(1.14) X 45˚
.025(.635) X 30˚ - 45˚
.012(.305)
.008(.203)
PIN NO. 1
IDENTIFY
.553(14.0)
.547(13.9)
.595(15.1)
.585(14.9)
.032(.813)
.026(.660)
.050(1.27) TYP
28R, 28-Lead, 0.330" Wide, Plastic Gull Wing Small
Outline (SOIC)
Dimensions in Inches and (Millimeters)
.300(7.62) REF
.430(10.9)
.390(9.90)
AT CONTACT
POINTS
.530(13.5)
.490(12.4)
.021(.533)
.013(.330)
.030(.762)
.015(.381)
.095(2.41)
.060(1.52)
.140(3.56)
.120(3.05)
.022(.559) X 45˚ MAX (3X)
.453(11.5)
.447(11.4)
.495(12.6)
.485(12.3)
28T, 28-Lead, Plastic Thin Small Outline Package
(TSOP)
Dimensions in Millimeters and (Inches)*
INDEX
MARK
AREA
11.9 (0.469)
11.7 (0.461)
13.7 (0.539)
13.1 (0.516)
0.27 (0.011)
0.18 (0.007)
0.55 (0.022)
BSC
7.15 (0.281)
REF
8.10 (0.319)
7.90 (0.311)
1.25 (0.049)
1.05 (0.041)
0.20 (0.008)
0.10 (0.004)
0
5 REF
0.20 (0.008)
0.15 (0.006)
0.70 (0.028)
0.30 (0.012)
*Controlling dimension: millimeters
11
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[email protected]
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© Atmel Corporation 1998.
Atmel Cor poration makes no warranty for the use of its products, other than those expressly contained in the Company’s standard warranty which is detailed in Atmel’s Terms and Conditions located on the Company’s website. The Company assumes no responsibility for
any errors which may appear in this document, reserves the right to change devices or specifications detailed herein at any time without
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®
and/or
™
are registered trademarks and trademarks of Atmel Corporation.
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Printed on recycled paper.
0607B–10/98/xM