Anachip AM2404ITSA 2-wire serial 4k-bit (512 x 8) cmos electrically erasable prom Datasheet

ATC
AM24LC04
2-Wire Serial 4K-Bit (512 x 8) CMOS Electrically Erasable PROM
General Description
Features
• State- of- the- art architecture
- Non-volatile data storage
- Standard voltage and low voltage operation
(Vcc = 2.7V to 5.5V) for AM24LC04
• 2-wire I2C serial interface
- Provides bi-directional data transfer protocol
• 16-byte page write mode
- Minimizes total write time per word
• Self-timed write-cycle (including auto-erase)
• Durable and Reliable
- 40 years data retention
- Minimum of 1M write/erase cycles per word
- Unlimited read cycles
- ESD protection
• Low standby current
• Packages: PDIP-8L, SOP-8L, TSSOP-8L
The AM24LC04 is a non-volatile, 4096-bit serial
EEPROM with conforms to all specifications in I2C 2
wire protocol. The whole memory can be disabled
(Write Protected) by connecting the WP pin to Vcc.
This section of memory then becomes unalterable
unless WP is switched to Vss. The AM24LC04
communication protocol uses CLOCK(SCL) and
DATA I/O(SDA) lines to synchronously clock data
between
the
master
(for
example
a
microcomputer)and
the
slave
EEPROM
devices(s) .In addition, the bus structure allows for a
maximum of 16K of EEPROM memory. This
supports the family in 2K, 4K, 8K devices, allowing
the user to configure the memory as the application
requires with any combination of EEPROMs (not to
exceed 16K).
Anachip EEPROMs are designed and tested for
application requiring high endurance, high reliability,
and low power consumption.
Connection Diagram
Pin Assignments
Name
NC
1
8
VCC
A1
2
7
WP
A2
3
6
SCL
VSS
4
5
SDA
NC
A1, A2
VSS
SDA
SCL
WP
VCC
Description
No connect
Device address inputs
Ground
Data I/O
Clock input
Write protect
Power pin
PDIP / SOP / TSSOP
Ordering Information
AM 24 LC 04 X XX X
Operating Voltage
Type
LC: 2.7~5.5V, CMOS 04 =4K
Temp. grade
o
o
Blank : 0 C ~ +70 C
I : − 40 o C ~ +85 o C
o
o
V : − 40 C ~ +125 C
Package
Packing
S: SOP-8L
N: PDIP-8L
TS: TSSOP-8L
Blank : Tube
A : Taping
This datasheet contains new product information. Anachip Corp. reserves the rights to modify the product specification without notice. No liability is assumed as a result of the use of
this product. No rights under any patent accompany the sale of the product.
Rev.A2 Oct
1/12
20, 2003
ATC
2-Wire Serial 4K-Bit (512 x 8) CMOS Electrically Erasable PROM
AM24LC04
Block Diagrams
WP
SCL
start cycle
CONTROL
LOGIC
START
STOP
LOGIC
SDA
ck
load
A1
A2
SLAVE
ADDRESS
REGISTER
&
COMPARATOR
inc
H.V.
GENERATION
TIMING
&
CONTROL
WORD
ADDRESS
COUNTER
EEPROM
ARRAY
32x16x8
XDEC
VCC
VSS
R/W ~ , device
address bit A0
YDEC
DATA
REGISTER
Din
Dout
DOUT
ACK
Absolute Maximum Ratings
Characteristics
Storage Temperature
Voltage with Respect to Ground
Symbol
TS
Values
-65 to + 125
-0.3 to + 6.5
Unit
°C
V
Note: These are STRESS rating only. Appropriate conditions for operating these devices given elsewhere may permanently damage the
part. Prolonged exposure to maximum ratings may affect device reliability.
Operating Conditions
Temperature under bias
AM24LC04
AM24LC04I
AM24LC04V
Values
0 to + 70
-40 to +85
-40 to +125
Anachip Corp.
www.anachip.com.tw
Unit
°C
°C
°C
Rev. A2 Oct
2/12
20, 2003
ATC
AM24LC04
2-Wire Serial 4K-Bit (512 x 8) CMOS Electrically Erasable PROM
Electrical Characteristics
DC Electrical Characteristics (Vcc =2.7~5.5V, Ta = 25oC )
Parameter
Symbol
Operating Current (Program) **
Operating Current (Read) **
Standby Current
Standby Current
Input Leakage
Output Leakage
Input Low Voltage**
Input High Voltage**
Output Low Voltage
Output Low Voltage
ICC1
ICC2
ISB1
ISB2
IIL
IOL
VIL
VIH
VOL1
VOL2
VCC Lockout Voltage
VLK
AM24LC04
Units
Min
Max
SCL = 100KHZ CMOS Input Levels
—
3
mA
SCL = 100KHZ CMOS Input Levels
—
200
µA
SCL=SDA=0V, Vcc=5V
—
10
µA
SCL=SDA=0V, Vcc=3V
—
1
µA
VIN = 0 V to VCC
-1
+1
µA
VOUT = 0 V to Vcc
-1
+1
µA
-0.1
Vcc x 0.3
V
Vcc x 0.7 VCC+ 0.2
V
IOL = 2.1mA TTL
—
0.4
V
IOL = 10uA CMOS
—
0.2
V
Programming Command Can Be
Default
—
V
Executed
Conditions
Note ** : ICC1, ICC2, VIL min and VIH max are for reference only and are not tested.
Switching Characteristics (Under Operating Conditions)
AC Electrical Characteristics (Vcc =2.7~5.5V)
Parameter
Clock frequency
Clock high time
Clock low time
SDA and SCL rise time**
SDA and SCL fall time**
START condition hold time
START condition setup time
Data input hold time
Data input setup time
STOP condition setup time
Output valid from clock
Bus free time **
Data out hold time
Write cycle time
5V, 25ºC, Byte Mode
AM24LC04
Symbol
Min
0
4000
4700
—
—
4000
4700
0
250
4000
300
4700
300
—
1M
Fscl
Thigh
Tlow
Tr
Tf
Thd:Sta
Tsu:Sta
Thd:Dat
Tsu:Dat
Tsu:Sto
Taa
Tbuf
Tdh
Twr
Endurance**
Max
100
—
—
1000
300
—
—
—
—
—
3500
—
—
10
—
Units
kHz
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ms
write cycles
Note **: This parameter is characterized and is not 100% tested.
Pin Capacitance ** ( Ta= 25°C, f=250KHz )
Symbol
Parameter
COUT
Output capacitance
CIN
Input capacitance
Max
5
5
Units
pF
pF
Note ** : This parameter is characterized and is not 100% tested.
AC. Conditions of Test
Input Pulse Levels
Input Rise and Fall times
Input and Output Timming level
Output Load
Vcc x 0.1 to Vcc x 0.9
10 ns
Vcc x 0.5
1 TTL Gate and CL = 100pf
Anachip Corp.
www.anachip.com.tw
Rev. A2 Oct
3/12
20, 2003
ATC
2-Wire Serial 4K-Bit (512 x 8) CMOS Electrically Erasable PROM
AM24LC04
Pin Descriptions
Table A
Serial Clock (SCL)
The SCL input is used to clock all data into and out
of the device.
Device
A0
A1
AM24LC02
ADR
ADR
AM24LC04
XP
ADR
AM24LC08
XP
XP
AM24LC16
XP
XP
ADR indicates the device address pin.
XP indicates that device address pin don’t
refers to an internal PAGE BLOCK
segment.
Serial Data (SDA)
SDA is a bidirection pin used to transfer data into
and out of the device.
It is an open drain output and may be wire-ORed
with any number of open drain or open collector
outputs. Thus, the SDA bus requires a pull-up
resistor to Vcc (typical 4.7KΩ for 100KHz)
A2
ADR
ADR
ADR
XP
care but
memory
Write Protection (WP)
If WP is connected to Vcc, PROGRAM operation
onto the whole memory will not be executed. READ
operations are possible. If WP is connected to Vss,
normal memory operation is enabled, READ/WRITE
over the entire memory is possible.
Device Address Inputs (A0, A1, A2)
The following table (Table A) shows the active pins
across the AM24LCXX device family.
Functional Description
Applications
ATC’s electrically erasable programmable read only
memories (EEPROMs) write protect function, two
write modes, three read modes, and a wide variety
of memory size. Typical applications for the I2C bus
and AM24LCXX memories are included in
SANs(small-area-networks), stereos, televisions,
automobiles and other scaled-down systems that
don't require tremendous speeds but instead cost
efficiency and design simplicity.
Clock and Data Conventions
Data states on the SDA line can change only during
SCL LOW. SDA state changes during SCL HIGH
are reserved for indicating start and stop conditions.
(Shown in Figures 1 and 2)
Endurance and Data Retention
The AM24LC04 is designed for applications
requiring up to 1M programming cycles (BYTE
WRITE and PAGE WRITE). It provides 40 years of
secure data retention without power.
Stop Condition
A LOW to HIGH transition of the SDA line while the
clock (SCL) is HIGH determines a STOP condition.
All operations must be ended with a STOP condition.
(Shown in Figure 2)
Start Condition
A HIGH to LOW transition of the SDA line while the
clock (SCL) is HIGH determines a START condition.
All commands must be preceded by a START
condition. (Shown in Figure 2)
Device Operation
The AM24LC04 support a bi-directional bus oriented
protocol. The protocol defines any device that sends
data onto the bus as a transmitter and the receiving
device as the receiver. The device controlling the
transfer is the master and the device that is
controlled is the slave. The master will always
initiate data transfers and provide the clock for both
transmit and receive operations. Therefore, the
AM24LC04 is considered a slave in all applications.
Anachip Corp.
www.anachip.com.tw
Rev. A2 Oct
4/12
20, 2003
ATC
2-Wire Serial 4K-Bit (512 x 8) CMOS Electrically Erasable PROM
AM24LC04
Functional Description (Continued)
device code (1010) for the AM24LC04, 3-bit device
address (A2 A1 A0) and 1-bit value indicating the
read or write mode. All I2C EEPROMs use and
internal protocol that defines a PAGE BLOCK size of
4K bits. The eighth bit of slave address determines if
the master device wants to read or write to the
AM24LC04. (Refer to table B).
Acknowledge
Each receiving device, when addressed, is obliged
to generate an acknowledge after the reception of
each byte. The master device must generate an
extra clock pulse which is associated with this
acknowledge bit. The device that acknowledges,
has to pull down the SDA line during the
acknowledge clock pulse in such a way that the
SDA line is stable LOW during the HIGH period of
the acknowledge related clock pulse. Of course,
setup and hold times must be taken into account. A
master must signal an end of data to the slave by
not generating an acknowledge bit on the last byte
that has been clocked out of the slave. In this case,
the slave must leave the data line HIGH to enable
the master to generate the STOP condition. (Shown
in Figure 3)
The AM24LC04 monitor the bus for its
corresponding slave address all the time. It
generates an acknowledge bit if the slave address
was true and it is not in a programming mode.
Table B
Operation
Chip
R/W
Select
Read
1010
A2 A1 A0
1
Write
1010
A2 A1 A0
0
A1, A2 are used to access device address for
AM24LC04; A0 is no connect.
Devices Addressing
After generating a START condition, the bus master
transmits the slave address consisting of a 4-bit
Control Code
Write Operations
transmitted a stop condition. After the receipt of
each byte, the four lower order address pointer bits
are internally incremented by one. The higher order
five bits of the word address remains constant. If the
master should transmit more than 16 bytes prior to
generating the stop condition, the address counter
will roll over and the previously received data will be
overwritten. As with the byte write operation, once
the stop condition is received an internal write cycle
will begin. (Shown in Figure 5).
Byte Write
Following the start signal from the master, the slave
address is placed onto the bus by the master
transmitter. This indicates to the addressed slave
receiver that a byte with a word address will follow
after it has generated a acknowledge bit during the
ninth clock cycle.
Therefore the next byte transmitted by the master is
the word address and will be written into the address
pointer of the AM24LC04. After receiving another
acknowledge signal from the AM24LC04 the master
device will transmit the data word to be written into
the addressed memory location. The AM24LC04
acknowledges again and the master generates a
stop condition. This initiates the internal write cycle,
and during this period the AM24LC04 will not
generate acknowledge signals. (Shown in Figure 4)
Acknowledge Polling
Since the device will not acknowledge during a write
cycle, this can be used to determine when the cycle
is complete (this feature can be used to maximize
bus throughout). Once the stop condition for a write
command has been issued from the master, the
device initiates the internally timed write cycle. ACK
polling can be initiated immediately. This involves
the master sending a start condition followed by the
control byte for a write command (R/W = 0). If the
device is still busy with the write cycle , then no ACK
will returned. If the cycle is complete then the device
will return the ACK and the master can then proceed
with the next read or write commands.
Page Write
The write control byte, word address and the first
data byte are transmitted to the AM24LC04 in the
same way as in a byte write. But instead of
generating a stop condition the master transmit up
to 16 data bytes to the AM24LC04 which are
temporarily stored in the on-chip page buffer and will
be written into the memory after the master has
Anachip Corp.
www.anachip.com.tw
Rev.A2 Oct 8, 2003
5/12
ATC
2-Wire Serial 4K-Bit (512 x 8) CMOS Electrically Erasable PROM
AM24LC04
Write Operations (Continued)
Write Protection
Programming will not take place if the WP pin of the
AM24LC04 is connected to Vcc. The AM24LC04 will
accept slave and byte addresses. But if the memory
accessed is write protected by the WP pin, the
AM24LC04 will not generate an acknowledge after
the first byte of data has been received, and thus the
programming cycle will not be started when the stop
condition is asserted.
Random Read
Random read operations allow the master to access
any memory location in a random manner. To
perform this type of read operation, first the word
address must be set. This is done by sending the
word address to the AM24LC04 as part of a write
operation. After the word address is sent, the master
generates a start condition following the
acknowledge. This terminates the write operation,
but not before the internal address pointer is set.
Then the master issues the control byte again but
with R/W bit set to a one. The AM24LC04 will then
issue an acknowledge and transmit the eight bit data
word. The master will not acknowledge the transfer
but does generate a stop condition and the
AM24LC04 discontinues transmission. (Shown in
Figure 7)
Read Operations
Read operations are initiated in the same way as
write operations with the exception that the R/W bit
of the slave address is set to one. There are three
basic types of read operations: current address read,
random read, and sequential read.
Current Address Read
The AM24LC04 contains an address counter that
maintains the address of the last accessed word,
internally incremented by one. Therefore if the
previous access (either a read or write operation )
was to address n, the next current address read
operation would access data from address n + 1.
Upon receipt of the slave address with R/W bit set to
one, the AM24LC04 issues an acknowledge and
transmits the eight bit data word. The master will not
acknowledge the transfer but does generate a stop
condition and the AM24LC04 discontinues
transmission. (Shown in Figure 6)
Sequential Read
Sequential reads are initiated by either a current
address read or a random read. After the master
receives a data word, it responds with an
acknowledge. As long as the E2PROM receives an
acknowledge, it will continue to increment the data
words. When the memory address limit is reached,
the data word address will “roll over” and the
sequential read will continue. The sequential read
operation is terminated when the master does not
respond with a zero but does generate a following
stop condition.
Anachip Corp.
www.anachip.com.tw
Rev. A2 Oct
6/12
20, 2003
ATC
2-Wire Serial 4K-Bit (512 x 8) CMOS Electrically Erasable PROM
AM24LC04
Timing Diagram
Bus Timing
Thigh
Tf
Tr
Tlow
Tlow
SCL
Thd:Sta
SDA
IN
Tsu:Sta
Tsu:Dat
Thd:Dat
Tsu:Sta
Tbuf
Taa
Tdh
SDA
OUT
SDA
SCL
DATA STABLE
DATA
CHANGE
Figure 1. Data Validity
SDA
SCL
START
BIT
STOP
BIT
Figure 2. Definition of Start and Stop
Anachip Corp.
www.anachip.com.tw
Rev. A2 Oct
7/12
20, 2003
ATC
AM24LC04
2-Wire Serial 4K-Bit (512 x 8) CMOS Electrically Erasable PROM
SCL FROM MASTER
1
8
9
DATA OUTPUT FROM
TRANSMITTER
DATA OUTPUT FROM
RECEIVER
ACKNOWLEDGE
START
Figure 3. Acknowledge Response from Receiver
BUS ACTIVITY
MASTER
SDA
LINE
SLAVE
ADDRESS
START
BYTE
ADDRESS
DATA n
STOP
S
P
A
C
K
BUS ACTIVITY
SLAVE
A
C
K
A
C
K
Figure 4. Byte Write for Data
BUS ACTIVITY START
MASTER
SDA
LINE
SLAVE
ADDRESS
BYTE
ADDRESS n
DATA n
DATA n+15
STOP
S
P
A
C
K
A
C
K
BUS ACTIVITY
SLAVE
A
C
K
A
C
K
Figure 5. Page Write for Data
START
BUS ACTIVITY
MASTER
SDA
LINE
SLAVE
ADDRESS
STOP
s
P
A
C
K
BUS ACTIVITY
SLAVE
NO
A
C
K
DATA
Figure 6. Current Address Read for Data
BUS ACTIVITY
START
MASTER
SDA
LINE
SLAVE
ADDRESS
BYTE
ADDRESS n
START
S
SLAVE
ADDRESS
STOP
S
A
C
K
BUS ACTIVITY
SLAVE
P
A
C
K
A
C
K
DATA n
Figure 7. Random Read for Data
BUS ACTIVITY
MASTER
SDA
LINE
BUS ACTIVITY
SLAVE
START
SLAVE
ADDRESS
A
C
K
A
C
K
NO
A
C
K
STOP
S
P
A
C
K
DATA n+1
DATA n
Figure 8. Sequential Read for Data
Anachip Corp.
www.anachip.com.tw
DATA n+x
NO
A
C
K
Rev. A2 Oct
8/12
20, 2003
ATC
AM24LC04
2-Wire Serial 4K-Bit (512 x 8) CMOS Electrically Erasable PROM
Package Information
(1)Package Type: PDIP-8L
D
E1
E-PIN O0.118 inch
E
15 (4X)
PIN #1 INDENT O0.025 DEEP 0.006-0.008 inch
C
7 (4X)
A1
L
A
A2
eB
B
S
Symbol
A
A1
A2
B
B1
B2
C
D
E
E1
e
L
eB
S
e
B1
B2
Dimensions in millimeters
Min.
Nom.
Max.
5.33
0.38
3.1
3.30
3.5
0.36
0.46
0.56
1.4
1.52
1.65
0.81
0.99
1.14
0.20
0.25
0.36
9.02
9.27
9.53
7.62
7.94
8.26
6.15
6.35
6.55
2.54
2.92
3.3
3.81
8.38
8.89
9.40
0.71
0.84
0.97
Anachip Corp.
www.anachip.com.tw
Dimensions in inches
Min.
Nom.
Max.
0.210
0.015
0.122
0.130
0.138
0.014
0.018
0.022
0.055
0.060
0.065
0.032
0.039
0.045
0.008
0.010
0.014
0.355
0.365
0.375
0.300
0.313
0.325
0.242
0.250
0.258
0.100
0.115
0.130
0.150
0.330
0.350
0.370
0.028
0.033
0.038
Rev. A2 Oct
9/12
20, 2003
ATC
2-Wire Serial 4K-Bit (512 x 8) CMOS Electrically Erasable PROM
AM24LC04
H
E
(2)Package Type: SOP-8L
L
VIEW "A"
D
0.015x45
C
B
A1
e
7 (4X)
A
A2
7 (4X)
VIEW "A"
y
Symbol
A
A1
A2
B
C
D
E
e
H
L
y
θ
Dimensions In Millimeters
Min.
Nom.
Max.
1.40
1.60
1.75
0.10
0.25
1.30
1.45
1.50
0.33
0.41
0.51
0.19
0.20
0.25
4.80
5.05
5.30
3.70
3.90
4.10
1.27
5.79
5.99
6.20
0.38
0.71
1.27
0.10
O
8O
0
Anachip Corp.
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Dimensions In Inches
Min.
Nom.
Max.
0.055
0.063
0.069
0.040
0.100
0.051
0.057
0.059
0.013
0.016
0.020
0.0075
0.008
0.010
0.189
0.199
0.209
0.146
0.154
0.161
0.050
0.228
0.236
0.244
0.015
0.028
0.050
0.004
O
0
8O
Rev. A2 Oct
10/12
20, 2003
ATC
AM24LC04
2-Wire Serial 4K-Bit (512 x 8) CMOS Electrically Erasable PROM
E
E1
(3)Package Type: TSSOP-8L
PIN 1 INDICATOR ψ0.70 mm
SURFACE POLISHED
L
L1
DETAIL A
D
e
A
A1
A2
b
C
D
E
E1
e
L
L1
y
θ
Dimensions In Millimeters
Min.
Nom.
Max.
1.05
1.10
1.20
0.05
0.10
0.15
1.00
1.05
0.20
0.25
0.28
0.13
2.90
3.05
3.10
6.20
6.40
6.60
4.30
4.40
4.50
0.65
0.50
0.60
0.70
0.90
1.00
1.10
0.10
0O
4O
8O
Anachip Corp.
www.anachip.com.tw
DETAIL A
C
A1
b
y
Symbol
L1
A
A2
E1
Dimensions In Inches
Min.
Nom.
Max.
0.041
0.043
0.047
0.002
0.004
0.006
0.039
0.041
0.008
0.01
0.011
0.005
0.114
0.12
0.122
0.244
0.252
0.26
0.169
0.173
0.177
0.026
0.02
0.024
0.028
0.035
0.039
0.043
0.004
0O
4O
8O
Rev. A2 Oct
11/12
20, 2003
ATC
2-Wire Serial 4K-Bit (512 x 8) CMOS Electrically Erasable PROM
AM24LC04
Marking Information
(1) PDIP /SOP
Top view
Part Number & grade
X = Blank ( 0 ~ + 70 o C )
=
I
( - 40 ~ + 85 o C )
=
V
( - 40 ~ +125 o C )
ATC
24LC04 X
XX XX X
Logo
ID code: internal
Nth week: 01~52
Year: "01" = 2001
"02" = 2002
PDIP/SOP
(2) TSSOP-8L
Top view
Part Number & Temp.grade
X = Blank ( 0 ~ + 70 o C )
=
I
( - 40 ~ + 85 o C )
=
V
( - 40 ~ + 125o C )
ATC
24LC04 X
XX XX X
Logo
ID code: internal
Nth week: 01~52
Year: "01" = 2001
"02" = 2002
Anachip Corp.
www.anachip.com.tw
Rev. A2 Oct
12/12
20, 2003
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