MICROCHIP 28LV64A-

Obsolete Device
28LV64A
64K (8K x 8) Low Voltage CMOS EEPROM
30 NC
32 Vcc
31 WE
2 RDY/BSY
1 NU
29 A8
28 A9
27 A11
26 NC
25 OE
24 A10
23 CE
22 I/O7
20
19
18
17
16
21 I/O6
15
Vcc
WE
NC
A8
A6 5
A9
A5 6
A11 A4 7
A3 8
OE
A10 A2 9
A1 10
CE
A0 11
I/O7
NC 12
I/O6
I/O0 13
I/O5
I/O4
I/O3
14
28
27
26
25
24
23
22
21
20
19
18
17
16
15
• Pin 1 indicator on PLCC on top of package
BLOCK DIAGRAM
DESCRIPTION
The Microchip Technology Inc. 28LV64A is a CMOS 64K non-volatile electrically Erasable PROM organized as 8K words by 8 bits.
The 28LV64A is accessed like a static RAM for the read or write
cycles without the need of external components. During a “byte
write”, the address and data are latched internally, freeing the
microprocessor address and data bus for other operations. Following the initiation of write cycle, the device will go to a busy state
and automatically clear and write the latched data using an internal control timer. To determine when the write cycle is complete,
the user has a choice of monitoring the Ready/Busy output or
using Data polling. The Ready/Busy pin is an open drain output,
which allows easy configuration in ‘wired-or’ systems. Alternatively, Data polling allows the user to read the location last written
to when the write operation is complete. CMOS design and processing enables this part to be used in systems where reduced
power consumption and reliability are required. A complete family
of packages is offered to provide the utmost flexibility in applications.
 2004 Microchip Technology Inc.
•1
2
3
4
5
6
7
8
9
10
11
12
13
14
PLCC
RDY/BSY
A12
A7
A6
A5
A4
A3
A2
A1
A0
I/O0
I/O1
I/O2
VSS
DIP/SOIC
• 2.7V to 3.6V Supply
• Read Access Time—300 ns
• CMOS Technology for Low Power Dissipation
- 8 mA Active
- 50 µA CMOS Standby Current
• Byte Write Time—3 ms
• Data Retention >200 years
• High Endurance - Minimum 100,000 Erase/Write
Cycles
• Automatic Write Operation
- Internal Control Timer
- Auto-Clear Before Write Operation
- On-Chip Address and Data Latches
• Data Polling
• Ready/Busy
• Chip Clear Operation
• Enhanced Data Protection
- VCC Detector
- Pulse Filter
- Write Inhibit
• Electronic Signature for Device Identification
• Organized 8Kx8 JEDEC Standard Pinout
- 28-pin Dual-In-Line Package
- 32-pin Chip Carrier (Leadless or Plastic)
• Available for Extended Temperature Ranges:
- Commercial: 0°C to +70°C
- Industrial: -40°C to +85°C
4 A7
3 A12
PACKAGE TYPES
I/O1
I/O2
Vss
NU
I/O3
I/O4
I/O5
FEATURES
Preliminary
I/O0...................I/O7
VSS
VCC
Data Protection
Circuitry
Chip Enable/
Output Enable
Control Logic
CE
OE
WE
Rdy/
Busy
A0
I
I
I
I
I
I
I
I
I
I
I
A12
Auto Erase/Write
Timing
Data
Poll
Input/Output
Buffers
Program Voltage
Generation
L
a
t
c
h
e
s
Y
Decoder
Y Gating
X
Decoder
64K bit
Cell Matrix
DS21113E-page 1
28LV64A
1.0
ELECTRICAL
CHARACTERISTICS
TABLE 1-1:
PIN FUCTION TABLE
Name
Function
MAXIMUM RATINGS*
A0 - A12
Address Inputs
VCC and input voltages w.r.t. VSS ...... -0.6V to + 6.25V
CE
Chip Enable
Voltage on OE w.r.t. VSS...................... -0.6V to +13.5V
OE
Output Enable
Voltage on A9 w.r.t. VSS ...................... -0.6V to +13.5V
WE
Write Enable
Output Voltage w.r.t. VSS ............... -0.6V to VCC+0.6V
I/O0 - I/O7
Data Inputs/Outputs
Storage temperature ..........................-65°C to +150°C
RDY/Busy
Ready/Busy
Ambient temp. with power applied .....-55°C to +125°C
VCC
+ Power Supply
*Notice: Stresses above those listed under “Maximum Ratings” may
cause permanent damage to the device. This is a stress rating only
and functional operation of the device at those or any other conditions
above those indicated in the operation listings of this specification is
not implied. Exposure to maximum rating conditions for extended
periods may affect device reliability.
VSS
Ground
NC
No Connect; No Internal Connection
NU
Not Used; No External Connection is
Allowed
TABLE 1-2:
READ/WRITE OPERATION DC CHARACTERISTICS
VCC = 2.7 to 3.6V
Commercial (C): Tamb = 0°C to 70°C
Industrial
(I): Tamb = -40°C to 85°C
Parameter
Input Voltages
Input Leakage
Input Capacitance
Output Voltages
Output Leakage
Output Capacitance
Power Supply Current, Activity
Power Supply Current, Standby
Status
Symbol
Min
Logic “1”
Logic “2”
—
—
VIH
VIL
ILI
CIN
2.0
Logic “1”
Logic “0”
VOH
VOL
2.0
—
—
ILO
COUT
TTL input
ICC
TTL input
ICC(S)TTL
TTL input
ICC(S)TTL
CMOS input ICC(S)CMOS
Max
Units
0.6
5
6
V
V
µA
pF
0.3
V
V
—
—
5
12
µA
pF
—
8
mA
—
2
3
100
mA
mA
µA
—
—
Conditions
VIN = 0V to VCC+1
Vin = 0V; Tamb = 25°C;
f = 1 MHz (Note 1)
IOH = -100µA
IOL = 1.0 mA
I0L = 2.0 mA for RDY/Busy
VOUT = 0V to VCC+0.1V
VOUT = 0V; Tamb = 25°C;
f = 1 MHz (Note 1)
f = 5 MHz (Note 2)
IO = OmA
VCC = 3.3
CE = VIL
CE = VIH (0°C to 70°C°)
CE = VIH (-40°C to 85°C°)
CE = VCC -3.0 to VCC+1
OE = WE = VCC
All other inputs equal VCC or
VSS
Note 1: Not 100% tested.
2: AC power supply current above 5 MHz: 2 mA/Mhz.
DS21113E-page 2
Preliminary
 2004 Microchip Technology Inc.
28LV64A
TABLE 1-3:
READ OPERATION AC CHARACTERISTICS
AC Testing Waveform:
Output Load:
Input Rise and Fall
Times:
Ambient Temperature:
Parameter
Sym
VIH = 2.0V; VIL = 0.6V; VOH = VOL = VCC/2
1 TTL Load + 100 pF
20 ns
Commercial (C): Tamb = 0°C to +70°C
Industrial
(I) : Tamb = -40°C to +85°C
28LV64-30
Units
Conditions
Min
Max
tACC
—
300
ns
OE = CE = VIL
CE to Output Delay
tCE
—
300
ns
OE = VIL
OE to Output Delay
tOE
—
150
ns
CE = VIL
CE or OE High to Output Float
tOFF
0
60
ns
(Note 1)
Output Hold from Address, CE or
OE, whichever occurs first.
tOH
0
—
ns
(Note 1)
Endurance
—
10M
—
cycles
Address to Output Delay
25°C, Vcc = 5.0V,
Block Mode (Note 2)
Note 1: Not 100% tested.
2: This parameter is not tested but guaranteed by characterization. For endurance estimates in a specific
application, please consult the Total Endurance Model which can be obtained on our BBS or website.
FIGURE 1-1:
READ WAVEFORMS
VIH
Address
Address Valid
VIL
VIH
CE
VIL
t CE(2)
VIH
OE
VIL
VOH
Data
t OE(2)
High Z
t OFF(1,3)
t OH
Valid Output
High Z
VOL
t ACC
VIH
WE
VIL
Notes: (1) tOFF is specified for OE or CE, whichever occurs first
(2) OE may be delayed up to t CE - t OE after the falling edge of CE without impact on tCE
(3) This parameter is sampled and is not 100% tested
 2004 Microchip Technology Inc.
Preliminary
DS21113E-page 3
28LV64A
TABLE 1-4:
BYTE WRITE AC CHARACTERISTICS
AC Testing Waveform:
Output Load:
Input Rise/Fall Times:
Ambient Temperature:
Parameter
VIH = 2.0V; VIL = 0.6V; VOH = VOL = VCC/2
1 TTL Load + 100 pF
20 ns
Commercial (C): Tamb = 0°C to +70°C
Industrial
(I) : Tamb = -40°C to +85°C
Sym
Min
Max
Units
Address Set-Up Time
tAS
10
ns
Address Hold Time
tAH
100
ns
Data Set-Up Time
tDS
120
ns
Data Hold Time
tDH
10
ns
Write Pulse Width
tWPL
150
ns
OE Hold Time
tOEH
10
ns
OE Set-Up Time
tOES
10
ns
Data Valid Time
tDV
1000
ns
Time to Device Busy
tDB
50
ns
Write Cycle Time (28LV64A)
tWC
3
ms
Remarks
(Note 1)
(Note 2)
1.5 ms typical
Note 1: A write cycle can be initiated be CE or WE going low, whichever occurs last. The data is latched on the
positive edge of CE or WE, whichever occurs first.
2: Data must be valid within 1000ns max. after a write cycle is initiated and must be stable at least until tDH
after the positive edge of WE or CE, whichever occurs first.
FIGURE 1-2:
PROGRAMMING WAVEFORMS
Address
CE, WE
VIH
VIL
VIH
tAS
tAH
tWPL
VIL
Data In
tDV
VIH
tDS
tDH
VIL
tOES
VIH
OE
VIL
tOEH
VOH
Rdy/Busy
DS21113E-page 4
VOL
Busy
twc
Preliminary
tDB
Ready
 2004 Microchip Technology Inc.
28LV64A
FIGURE 1-3:
DATA POLLING WAVEFORMS
VIH
Last Written
Address Valid
Address Valid
Address
VIL
t ACC
VIH
CE
t CE
VIL
t WPH
VIH
t WPL
WE
VIL
t OE
VIH
OE
VIL
t DV
VIH
Data In
Valid
Data
VIL
I/O7 Out
True Data Out
t WC
FIGURE 1-4:
CHIP CLEAR WAVEFORMS
VIH
CE
VIL
VH
OE
VIH
tS
tH
tW
VIH
WE
tW = 10ms
tS = tH = 1µs
VH = 12.0V ±0.5V
VIL
TABLE 1-5:
SUPPLEMENTARY CONTROL
Mode
Chip Clear
Extra Row Read
Extra Row Write
Note: VH = 12.0V ± 0.5V
 2004 Microchip Technology Inc.
CE
OE
VIL
VIL
VH
VIL
VIH
Preliminary
WE
AI
VCC
I/OI
VIH
X
A9 = VH
A9 = VH
VCC
VCC
VCC
Data Out
Data In
DS21113E-page 5
28LV64A
2.0
DEVICE OPERATION
2.4
The Microchip Technology Inc. 28LV64A has four
basic modes of operation—read, standby, write inhibit,
and byte write—as outlined in the following table.
Operation Mode
Read
Standby
Write Inhibit
Write Inhibit
Write Inhibit
Byte Write
Byte Clear
CE
L
H
H
X
X
L
OE WE I/O
L
X
X
L
X
H
H
X
X
X
H
L
DOUT
High Z
High Z
High Z
High Z
DIN
Rdy/Busy (1)
H
H
H
H
H
L
2.1
Read Mode
The 28LV64A has two control functions, both of which
must be logically satisfied in order to obtain data at the
outputs. Chip enable (CE) is the power control and
should be used for device selection. Output Enable
(OE) is the output control and is used to gate data to
the output pins independent of device selection.
Assuming that addresses are stable, address access
time (tACC) is equal to the delay from CE to output
(tCE). Data is available at the output tOE after the falling edge of OE, assuming that CE has been low and
addresses have been stable for at least tACC-tOE.
2.2
Standby Mode
The 28LV64A is placed in the standby mode by applying a high signal to the CE input. When in the standby
mode, the outputs are in a high impedance state, independent of the OE input.
2.3
The 28LV64A has a write cycle similar to that of a
static RAM. The write cycle is completely self-timed
and initiated by a low going pulse on the WE pin. On
the falling edge of WE, the address information is
latched. On rising edge, the data and the control pins
(CE and OE) are latched. The Ready/Busy pin goes
to a logic low level indicating that the 28LV64A is in a
write cycle which signals the microprocessor host that
the system bus is free for other activity. When
Ready/Busy goes back to a high, the 28LV64A has
completed writing and is ready to accept another
cycle.
2.5
Automatic Before Each "Write"
Note: (1) Open drain output.
Data Protection
Write Mode
Data Polling
The 28LV64A features Data polling to signal the completion of a byte write cycle. During a write cycle, an
attempted read of the last byte written results in the
data complement of I/O7 (I/O0 to I/O6 can not be
determined). After completion of the write cycle, true
data is available. Data polling allows a simple
read/compare operation to determine the status of the
chip eliminating the need for external hardware.
2.6
Electronic Signature for Device
Identification
An extra row of 32 bytes of EEPROM memory is available to the user for device identification. By raising A9
to 12V ±0.5V and using address locations 1FEO to
1FFF, the additional bytes can be written to or read
from in the same manner as the regular memory array.
2.7
Chip Clear
All data may be cleared to 1's in a chip clear cycle by
raising OE to 12 volts and bringing the WE and CE
low. This procedure clears all data, except for the
extra row.
In order to ensure data integrity, especially during critical power-up and power-down transitions, the following enhanced data protection circuits are incorporated:
First, an internal VCC detect (2.0 volts typical) will
inhibit the initiation of non-volatile programming operation when VCC is less than the VCC detect circuit trip.
Second, holding WE or CE high or OE low, inhibits a
write cycle during power-on and power-off (VCC).
DS21113E-page 6
Preliminary
 2004 Microchip Technology Inc.
28LV64A
28LV64A Product Identification System
To order or to obtain information (e.g., on pricing or delivery), please use the listed part numbers, and refer to the factory or the listed
sales offices.
28LV64A – F
T – 20
I
/P
Package:
Temperature
Range:
Access Time:
Blank = 0°C to +70°C
I = -40°C to +85°C
20 = 200 ns
30 - 300 ns
Shipping:
Blank = Tube
T = Tape and Reel “L” and “SO”
Option:
Blank = twc = 1ms
F = twc = 200µs
Device:
 2004 Microchip Technology Inc.
L = Plastic Leaded Chip Carrier (PLCC)
P = Plastic DIP
SO = Plastic Small Outline IC
24LV64A
8K x 8 CMOS EEPROM
DS21113E-page 7
28LV64A
NOTES:
DS21113E-page 8
Preliminary
 2004 Microchip Technology Inc.
Note the following details of the code protection feature on Microchip devices:
•
Microchip products meet the specification contained in their particular Microchip Data Sheet.
•
Microchip believes that its family of products is one of the most secure families of its kind on the market today, when used in the
intended manner and under normal conditions.
•
There are dishonest and possibly illegal methods used to breach the code protection feature. All of these methods, to our
knowledge, require using the Microchip products in a manner outside the operating specifications contained in Microchip’s Data
Sheets. Most likely, the person doing so is engaged in theft of intellectual property.
•
Microchip is willing to work with the customer who is concerned about the integrity of their code.
•
Neither Microchip nor any other semiconductor manufacturer can guarantee the security of their code. Code protection does not
mean that we are guaranteeing the product as “unbreakable.”
Code protection is constantly evolving. We at Microchip are committed to continuously improving the code protection features of our
products. Attempts to break Microchip’s code protection feature may be a violation of the Digital Millennium Copyright Act. If such acts
allow unauthorized access to your software or other copyrighted work, you may have a right to sue for relief under that Act.
Information contained in this publication regarding device
applications and the like is intended through suggestion only
and may be superseded by updates. It is your responsibility to
ensure that your application meets with your specifications.
No representation or warranty is given and no liability is
assumed by Microchip Technology Incorporated with respect
to the accuracy or use of such information, or infringement of
patents or other intellectual property rights arising from such
use or otherwise. Use of Microchip’s products as critical
components in life support systems is not authorized except
with express written approval by Microchip. No licenses are
conveyed, implicitly or otherwise, under any intellectual
property rights.
Trademarks
The Microchip name and logo, the Microchip logo, Accuron,
dsPIC, KEELOQ, microID, MPLAB, PIC, PICmicro, PICSTART,
PRO MATE, PowerSmart, rfPIC, and SmartShunt are
registered trademarks of Microchip Technology Incorporated
in the U.S.A. and other countries.
AmpLab, FilterLab, MXDEV, MXLAB, PICMASTER, SEEVAL,
SmartSensor and The Embedded Control Solutions Company
are registered trademarks of Microchip Technology
Incorporated in the U.S.A.
Analog-for-the-Digital Age, Application Maestro, dsPICDEM,
dsPICDEM.net, dsPICworks, ECAN, ECONOMONITOR,
FanSense, FlexROM, fuzzyLAB, In-Circuit Serial
Programming, ICSP, ICEPIC, Migratable Memory, MPASM,
MPLIB, MPLINK, MPSIM, PICkit, PICDEM, PICDEM.net,
PICLAB, PICtail, PowerCal, PowerInfo, PowerMate,
PowerTool, rfLAB, rfPICDEM, Select Mode, Smart Serial,
SmartTel and Total Endurance are trademarks of Microchip
Technology Incorporated in the U.S.A. and other countries.
SQTP is a service mark of Microchip Technology Incorporated
in the U.S.A.
All other trademarks mentioned herein are property of their
respective companies.
© 2004, Microchip Technology Incorporated, Printed in the
U.S.A., All Rights Reserved.
Printed on recycled paper.
Microchip received ISO/TS-16949:2002 quality system certification for
its worldwide headquarters, design and wafer fabrication facilities in
Chandler and Tempe, Arizona and Mountain View, California in
October 2003. The Company’s quality system processes and
procedures are for its PICmicro® 8-bit MCUs, KEELOQ® code hopping
devices, Serial EEPROMs, microperipherals, nonvolatile memory and
analog products. In addition, Microchip’s quality system for the design
and manufacture of development systems is ISO 9001:2000 certified.
 2004 Microchip Technology Inc.
Preliminary
DS21113E-page 9
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07/12/04
Preliminary
 2004 Microchip Technology Inc.