ONSEMI CAT130049LWI-GT3

CAT130xx
Voltage Supervisor with Microwire Serial
CMOS EEPROM
FEATURES
DESCRIPTION
„ Precision Power Supply Voltage Monitor
The CAT130xx (see table below) are memory and
supervisory solutions for microcontroller based
systems. A CMOS serial EEPROM memory and a
system power supervisor with brown-out protection
are integrated together. Memory interface is via
Microwire serial protocol.
The CAT130xx provides a precision VCC sense circuit
with two reset output options: CMOS active low output
or CMOS active high. The RESET output is active
whenever VCC is below the reset threshold or falls
below the reset threshold voltage.
The power supply monitor and reset circuit protect
system controllers during power up/down and against
brownout conditions. Seven reset threshold voltages
support 5V, 3.3V, 3V and 2.5V systems. If power
supply voltages are out of tolerance reset signals
become active, preventing the system microcontroller,
ASIC or peripherals from operating. Reset signals
become inactive typically 240ms after the supply
voltage exceeds the reset threshold level.
ƒ 5V, 3.3V, 3V & 2.5V systems
ƒ 7 threshold voltage options
„ Active High or Low Reset
ƒ Valid reset guaranteed at VCC = 1 V
„ High Speed Operation
„ Selectable x8 or x16 memory organization
„ Low power CMOS technology
„ 1,000,000 Program/Erase cycles
„ 100 year data retention
„ Industrial temperature range
„ RoHS-compliant 8-pin SOIC package
For Ordering Information details, see page 13.
PIN CONFIGURATION
SOIC (W)
CS
1
8 VCC
SK
2
¯¯¯¯
7 RST/ RST
DI
3
DO
4
MEMORY SIZE SELECTOR
Product
Memory density
6 ORG
13001
1-Kbit
5 GND
13004
4-Kbit
13008
8-Kbit
13016
16-Kbit
THRESHOLD SUFFIX SELECTOR
PIN FUNCTION
Pin Name
CS
SK
DI
DO
GND
ORG
¯¯¯¯
RST/ RST
VCC
Function
Chip Select
Clock Input
Serial Data Input
Serial Data Output
Ground
Memory Organization
Reset Output
Power Supply
Note:
When the ORG pin is connected to VCC, the x16 organization is
selected. When it is connected to ground, the x8 pin is selected. If
the ORG pin is left unconnected, then an internal pullup device will
select the x16 organization.
© 2008 SCILLC. All rights reserved.
Characteristics subject to change without notice
1
Nominal Threshold
Voltage
Threshold Suffix
Designation
4.63V
L
4.38V
M
4.00V
J
3.08V
T
2.93V
S
2.63V
R
2.32V
Z
Doc. No. MD-1121 Rev. B
CAT130xx
BLOCK DIAGRAM
VCC
DO
ORG
CS
VOLTAGE
DETECTOR
EEPROM
RST or RST
SK
DI
VSS
ABSOLUTE MAXIMUM RATINGS(1)
Parameters
Storage Temperature
Voltage on Any Pin with Respect to Ground
(2)
Ratings
Units
-65 to +150
°C
-0.5 to +6.5
V
RELIABILITY CHARACTERISTICS(3)
Symbol
Parameter
Min
Units
(4)
Endurance
1,000,000
Program/ Erase Cycles
100
Years
NEND
TDR
Data Retention
D.C. OPERATING CHARACTERISTICS
VCC = +2.5V to +5.5V unless otherwise specified.
Symbol
Parameter
Min.
Limits
Typ.
Max.
Test Condition
Units
ICC
Supply Current
ISB
Standby Current
IL
I/O Pin Leakage
VIL
Input Low Voltage
-0.5
0.8
V
VIH
Input High Voltage
2.0
VCC + 0.5
V
VOL
VOH
Output Low Voltage
Output High Voltage
3
Read or Write at 1MHz
12
25
VCC < 5.5V; All I/O Pins at VSS or VCC
10
20
VCC < 3.6V; All I/O Pins at VSS or VCC
2
Pin at GND or VCC
0.4
2.4
mA
μA
μA
VCC ≥ 2.5V, IOL = 2.1mA
V
VCC ≥ 4.5V, IOH = -0.4mA
V
Notes:
(1) Stresses above those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings
only, and functional operation of the device at these or any other conditions outside of those listed in the operational sections of this
specification is not implied. Exposure to any absolute maximum rating for extended periods may affect device performance and reliability.
(2) The DC input voltage on any pin should not be lower than -0.5 V or higher than VCC + 0.5 V. During transitions, the voltage on any pin may
undershoot to no less than -1.5 V or overshoot to no more than VCC + 1.5 V, for periods of less than 20 ns.
(3) These parameters are tested initially and after a design or process change that affects the parameter according to appropriate AEC-Q100
and JEDEC test methods.
(4) Block Mode, VCC = 5 V, 25°C
Doc. No. MD-1121 Rev. B
2
© 2008 SCILLC. All rights reserved.
Characteristics subject to change without notice
CAT130xx
A.C. CHARACTERISTICS (MEMORY)(1)
VCC = +2.5V to 5.5V, TA = -40°C to 85°C, unless otherwise specified.
Symbol
Parameter
Min
Max
Units
fSK
Clock Frequency
DC
2000
kHz
tCSS
CS Setup Time
50
tCSH
CS Hold Time
ns
0
ns
tCSMIN
Minimum CS Low Time
0.25
µs
tSKHI
Minimum SK High Time
0.25
µs
tSKLOW
Minimum SK Low Time
0.25
µs
tDIS
DI Setup Time
100
ns
tDIH
DI Hold Time
100
ns
tPD1
Output Delay to 1
0.25
µs
tPD0
Output Delay to 0
0.25
µs
Output Delay to High-Z
100
ns
tSV
Output Delay to Status Valid
0.25
µs
tEW
Program/Erase Pulse Width
5
ms
Power-up to Ready Mode
1
ms
(1)
tHZ
tPU
(2), (3)
Notes:
(1)
Test conditions according to “A.C. Test Conditions” table.
(2)
(3)
Tested initially and after a design or process change that affects this parameter.
tPU is the delay between the time VCC is stable and the device is ready to accept commands.
A.C. TEST CONDITIONS
Input Rise and Fall Times
≤ 50 ns
Input Levels
0.4V to 2.4V (4.5V < VCC < 5.5V)
Input Levels
0.2VCC to 0.7VCC (2.5V < VCC < 4.5V)
Timing Reference Levels
0.8V, 2.0V (4.5V < VCC < 5.5V)
Timing Reference Levels
0.5VCC (2.5V < VCC < 4.5V)
Output Load
Current Source: IOL max / IOH max; CL = 100pF
© 2008 SCILLC. All rights reserved.
Characteristics subject to change without notice
3
Doc. No. MD-1121 Rev. B
CAT130xx
ELECTRICAL CHARACTERISTICS (SUPERVISORY FUNCTION)
VCC = Full range, TA = -40ºC to +85ºC unless otherwise noted. Typical values at TA = +25ºC and VCC = 5V for
L/M/J versions, VCC = 3.3V for T/S versions, VCC = 3V for R version and VCC = 2.5V for Z version.
Symbol
Parameter
Reset Threshold Voltage
VTH
Threshold
L
M
J
T
S
R
Z
Symbol Parameter
Conditions
Min
Typ
Max
TA = +25ºC
TA = -40ºC to +85ºC
4.56
4.50
4.63
4.70
4.75
TA = +25ºC
4.31
4.38
4.45
TA = -40ºC to +85ºC
4.25
TA = +25ºC
3.93
TA = -40ºC to +85ºC
3.89
TA = +25ºC
3.04
TA = -40ºC to +85ºC
3.00
TA = +25ºC
2.89
TA = -40ºC to +85ºC
2.85
TA = +25ºC
2.59
TA = -40ºC to +85ºC
2.55
TA = +25ºC
2.28
TA = -40ºC to +85ºC
2.25
Conditions
Min
Reset Threshold Tempco
tRPD
VCC to Reset Delay
(2)
tPURST
Reset Active Timeout Period
VOL
¯¯¯¯¯¯ Output Voltage Low
RESET
(Push-pull, active LOW,
CAT130xx9)
VOH
¯¯¯¯¯¯ Output Voltage High
RESET
(Push-pull, active LOW,
CAT130xx9)
RESET Output Voltage Low
VOL
(Push-pull, active HIGH,
CAT130xx1)
RESET Output Voltage High
VOH
(Push-pull, active HIGH,
CAT130xx1)
VCC = VTH to (VTH -100mV)
TA = -40ºC to +85ºC
140
4.50
4.00
4.06
4.10
3.08
3.11
3.15
2.93
3.00
2.63
2.66
2.70
2.32
2.35
2.38
Typ(1)
Max
ppm/ºC
20
µs
240
460
VCC = VTH min, ISINK = 3.2 mA
J/L/M
0.4
VCC > 1.0V, ISINK = 50µA
0.3
VCC = VTH max, ISOURCE = -800µA
J/L/M
VCC - 1.5
ms
V
V
VCC > VTH max, ISINK = 1.2mA
R/S/T/Z
0.3
VCC > VTH max, ISINK = 3.2mA
J/L/M
0.4
1.8V < VCC ≤ VTH min,
ISOURCE = -150µA
Units
30
0.3
0.8VCC
V
2.96
VCC = VTH min, ISINK = 1.2 mA
R/S/T/Z
VCC = VTH max, ISOURCE = -500µA
R/S/T/Z
Units
V
0.8VCC
V
Notes:
(1)
Production testing done at TA = +25ºC; limits over temperature guaranteed by design only.
(2)
¯¯¯¯¯¯ output for the CAT130xx9; RESET output for the CAT130xx1.
RESET
Doc. No. MD-1121 Rev. B
4
© 2008 SCILLC. All rights reserved.
Characteristics subject to change without notice
CAT130xx
RESET CONTROLLER DESCRIPTION
The reset signal is asserted LOW for the CAT130xx9
and HIGH for the CAT130xx1 when the power supply
voltage falls below the threshold trip voltage
and remains asserted for at least 140ms (tPURST) after
the power supply voltage has risen above the
threshold. Reset output timing is shown in Figure 1.
PIN DESCRIPTION
¯¯¯¯¯¯: The reset output is available in two
RESET/RESET
versions: CMOS Active Low (CAT130xx9) and CMOS
Active High (CAT130xx1). Both versions are push-pull
outputs for high efficiency.
DI: The serial data input pin accepts op-codes,
addresses and data. The input data is latched on the
rising edge of the SK clock input.
The CAT130xx devices protect μPs against brownout
failure. Short duration VCC transients of 4μsec or less and
100mV amplitude typically do not generate a Reset pulse.
DO: The serial data output pin is used to transfer data
out of the device. The data is shifted out on the rising
edge of the SK clock.
Figure 2 shows the maximum pulse duration of
negative-going VCC transients that do not cause a
reset condition. As the amplitude of the transient goes
further below the threshold (increasing VTH - VCC), the
maximum pulse duration decreases. In this test, the
VCC starts from an initial voltage of 0.5V above the
threshold and drops below it by the amplitude of the
overdrive voltage (VTH - VCC).
SK: The serial clock input pin accepts the clock
provided by the host and used for synchronizing
communication between host and CAT130xx device.
TRANSIENT DURATION [µs]
CS: The chip select input pin is used to enable/disable
the CAT130xx. When CS is high, the device is
selected and accepts op-codes, addresses and data.
Upon receiving a Write or Erase instruction, the falling
edge of CS will start the internal write cycle to the
selected memory location.
ORG: The memory organization input selects the memory
configuration as either register of 16 bits (ORG tied to
VCC or floating) or 8 bits (ORG connected to GND).
DEVICE OPERATION
The CAT130xx products combine the accurate
voltage monitoring capabilities of a standalone voltage
supervisor with the high quality and reliability of
standard EEPROMs from Catalyst Semiconductor.
TAMB = 25ºC
CAT130xxZ
CAT130xxM
RESET OVERDRIVE V TH - VCC [mV]
Figure 2. Maximum Transient Duration without
Causing a Reset Pulse vs. Overdrive Voltage
VTH
VCC
VRVALID
t PURST
t RPD
t PURST
t RPD
RESE T
CAT130xx9
RESE T
CAT130xx1
Figure 1. RESET Output Timing
© 2008 SCILLC. All rights reserved.
Characteristics subject to change without notice
5
Doc. No. MD-1121 Rev. B
CAT130xx
The format for all instructions sent to the device is a
logical “1” start bit, a 2-bit (or 4-bit) opcode, 6-bit
(13001) / 8-bit (13004) / 9-bit (13008) / 10-bit (13016)
address (an additional bit when organized as x8) and
for write operations a 16-bit data field (8-bit for x8
organization). The instruction format is shown in
Instruction Set Table.
EMBEDDED EEPROM OPERATION
The CAT130xx has a nonvolatile embedded memory
intended for use with industry standard micropro–
cessors. The memory can be organized as either
registers of 16 bits or 8 bits. The CAT130xx operates
on a single power supply and will generate on chip the
high voltage required during any write operation.
INSTRUCTION SET
Instruction
Device
Start
Bit
READ
13001
13004
13008
13016
13001
13004
13008
13016
13001
13004
13008
13016
13001
13004
13008
13016
13001
13004
13008
13016
13001
13004
13008
13016
13001
13004
13008
13016
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
ERASE
WRITE
EWEN
EWDS
ERAL
WRAL
Doc. No. MD-1121 Rev. B
Address
Data
Opcode
x8
x 16
10
10
10
10
11
11
11
11
01
01
01
01
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
A6-A0
A8-A0
A9-A0
A10-A0
A6-A0
A8-A0
A9-A0
A10-A0
A6-A0
A8-A0
A9-A0
A10-A0
11xxxxx
11xxxxxxx
11xxxxxxxx
11xxxxxxxxx
00xxxxx
00xxxxxxx
00xxxxxxxx
00xxxxxxxxx
10xxxxx
10xxxxxxx
10xxxxxxxx
10xxxxxxxxx
01xxxxx
01xxxxxxx
01xxxxxxxx
01xxxxxxxxx
A5-A0
A7-A0
A8-A0
A9-A0
A5-A0
A7-A0
A8-A0
A9-A0
A5-A0
A7-A0
A8-A0
A9-A0
11xxxx
11xxxxxx
11xxxxxxx
11xxxxxxxx
00xxxx
00xxxxxx
00xxxxxxx
00xxxxxxxx
10xxxx
10xxxxxx
10xxxxxxx
10xxxxxxxx
01xxxx
01xxxxxx
01xxxxxxx
01xxxxxxxx
6
x8
x 16
Comments
Read Address AN-A0
Clear Address AN-A0
D7-D0
D7-D0
D7-D0
D7-D0
D15-D0
D15-D0
D15-D0
D15-D0
Write Address AN-A0
Write Enable
Write Disable
Clear All Addresses
D7-D0
D7-D0
D7-D0
D7-D0
D15-D0
D15-D0
D15-D0
D15-D0
Write All Addresses
© 2008 SCILLC. All rights reserved.
Characteristics subject to change without notice
CAT130xx
Read
Upon receiving a READ command and an address
(clocked into the DI pin), the DO pin of the CAT130xx
will come out of the high impedance state and, after
sending an initial dummy zero bit, will begin shifting
out the data addressed (MSB first). The output data
bits will toggle on the rising edge of the SK clock and
are stable after the specified time delay (tPD0 or tPD1).
The READ instruction timing is illustrated in Figure 4.
Instructions, addresses, and write data are clocked
into the DI pin on the rising edge of the clock (SK).
The DO pin is normally in a high impedance state
except when reading data from the device, or when
checking the ready/busy status during a write
operation. The serial communication protocol follows
the timing shown in Figure 3.
The ready/busy status can be determined after the
start of internal write cycle by selecting the device (CS
high) and polling the DO pin; DO low indicates that the
write operation is not completed, while DO high
indicates that the device is ready for the next
instruction. If necessary, the DO pin may be placed
back into a high impedance state during chip select by
shifting a dummy “1” into the DI pin. The DO pin will
enter the high impedance state on the rising edge of
the clock (SK). Placing the DO pin into the high
impedance state is recommended in applications
where the DI pin and the DO pin are to be tied
together to form a common DI/O pin. The Ready/Busy
flag can be disabled only in Ready state; no change is
allowed in Busy state.
For the CAT13004/08/16, after the initial data word
has been shifted out and CS remains asserted with
the SK clock continuing to toggle, the device will automatically increment to the next address and shift out
the next data word in a sequential READ mode. As
long as CS is continuously asserted and SK continues
to toggle, the device will keep incrementing to the next
address automatically until it reaches to the end of the
address space, then loops back to address 0. In the
sequential READ mode, only the initial data word is
preceeded by a dummy zero bit. All subsequent data
words will follow without a dummy zero bit.
Figure 3. Sychronous Data Timing
tSKLOW
tSKHI
tCSH
SK
tDIS
tDIH
VALID
DI
VALID
tCSS
CS
tDIS
tPD0,tPD1
DO
tCSMIN
DATA VALID
Figure 4. Read Instruction Timing
SK
tCSMIN
CS
STANDBY
AN
DI
1
1
AN-1
A0
0
DO
HIGH-Z
tPD0
tHZ
HIGH-Z
0
DN
© 2008 SCILLC. All rights reserved.
Characteristics subject to change without notice
7
DN-1
D1
D0
Doc. No. MD-1121 Rev. B
CAT130xx
Erase/Write Enable and Disable
The CAT130xx powers up in the write disable state.
Any writing after power-up or after an EWDS (write
disable) instruction must first be preceded by the
EWEN (write enable) instruction. Once the write
instruction is enabled, it will remain enabled until power
to the device is removed, or the EWDS instruction is
sent. The EWDS instruction can be used to disable all
CAT130xx write and erase instructions, and will prevent
any accidental writing or clearing of the device. Data
can be read normally from the device regardless of the
write enable/disable status. The EWEN and EWDS
instructions timing is shown in Figure 5.
Write
After receiving a WRITE command (Figure 6), address
and the data, the CS (Chip Select) pin must be
deselected for a minimum of tCSMIN. The falling edge of
CS will start the self clocking for auto-clear and data
store cycles on the memory location specified in the
instruction. The clocking of the SK pin is not
necessary after the device has entered the self
clocking mode. The ready/busy status of the
CAT130xx can be determined by selecting the device
and polling the DO pin. Since this device features
Auto-Clear before write, it is NOT necessary to erase
a memory location before it is written into.
Figure 5. EWEN/EWDS Instruction Timing
SK
STANDBY
CS
DI
1
0
0
*
* ENABLE=11
DISABLE=00
Figure 6. Write Instruction Timing
SK
tCSMIN
AN
DI
STANDBY
STATUS
VERIFY
CS
1
0
AN-1
A0
DN
D0
1
tSV
DO
tHZ
BUSY
HIGH-Z
READY
HIGH-Z
tEW
Doc. No. MD-1121 Rev. B
8
© 2008 SCILLC. All rights reserved.
Characteristics subject to change without notice
CAT130xx
Erase All
Upon receiving an ERAL command (Figure 8), the CS
(Chip Select) pin must be deselected for a minimum of
tCSMIN. The falling edge of CS will start the self clocking
clear cycle of all memory locations in the device. The
clocking of the SK pin is not necessary after the
device has entered the self clocking mode. The
ready/busy status of the CAT130xx can be determi–
ned by selecting the device and polling the DO pin.
Once cleared, the contents of all memory bits return to
a logical “1” state.
Erase
Upon receiving an ERASE command and address,
the CS (Chip Select) pin must be deasserted for a
minimum of tCSMIN (Figure 7). The falling edge of CS
will start the self clocking clear cycle of the selected
memory location. The clocking of the SK pin is not
necessary after the device has entered the self
clocking mode. The ready/busy status of the
CAT130xx can be determined by selecting the device
and polling the DO pin. Once cleared, the content of a
cleared location returns to a logical “1” state.
Figure 7. Erase Instruction Timing
SK
STATUS VERIFY
CS
AN
DI
1
tCS
A0
AN-1
STANDBY
1
1
tSV
tHZ
HIGH-Z
DO
BUSY
READY
HIGH-Z
tEW
Figure 8. ERAL Instruction Timing
SK
CS
STATUS VERIFY
STANDBY
tCS
DI
1
0
0
1
0
tSV
DO
tHZ
HIGH-Z
BUSY
READY
HIGH-Z
tEW
© 2008 SCILLC. All rights reserved.
Characteristics subject to change without notice
9
Doc. No. MD-1121 Rev. B
CAT130xx
Write All
Upon receiving a WRAL command and data, the CS
(Chip Select) pin must be deselected for a minimum of
tCSMIN (Figure 9). The falling edge of CS will start the
self clocking data write to all memory locations in the
device. The clocking of the SK pin is not necessary
after the device has entered the self clocking mode.
The ready/busy status of the CAT130xx can be deter–
mined by selecting the device and polling the DO pin.
It is not necessary for all memory locations to be
cleared before the WRAL command is executed.
Figure 9. WRAL Instruction Timing
SK
CS
STATUS VERIFY
STANDBY
tCSMIN
DI
1
0
0
0
DN
1
D0
tSV
tHZ
DO
BUSY
READY
HIGH-Z
tEW
Doc. No. MD-1121 Rev. B
10
© 2008 SCILLC. All rights reserved.
Characteristics subject to change without notice
CAT130xx
PACKAGE OUTLINE DRAWING
8-LEAD 150 MIL SOIC (W)
E1
E
h x 45
D
C
A
q1
e
A1
L
b
SYMBOL
MIN
A1
A
b
C
D
E
E1
e
h
L
q1
0.10
1.35
0.33
0.19
4.80
5.80
3.80
NOM
MAX
0.25
1.75
0.51
0.25
5.00
6.20
4.00
1.27 BSC
0.25
0.40
0°
0.50
1.27
8°
Notes:
(1)
All dimensions are in millimeters.
(2)
Complies with JEDEC specification MS-012 dimensions.
© 2008 SCILLC. All rights reserved.
Characteristics subject to change without notice
11
Doc. No. MD-1121 Rev. B
CAT130xx
PACKAGE MARKING
8-LEAD SOIC
130XXZWI
○
CSI
XX
Z
I
YY
WW
A
4
4YYWWA
=
=
=
=
=
=
=
=
Catalyst Semiconductor, Inc.
Device Code (see Marking Code table below)
Supervisory Output Code (see Marking Code table below)
Temperature Range
Production Year
Production Week
Product Revision
Lead Finish NiPdAu
Device Marking Codes
XX
13001
01
13004
04
13008
08
13016
16
Supervisory Marking Codes
Z
Output Active Low
9
Output Active High
1
Doc. No. MD-1121 Rev. B
12
© 2008 SCILLC. All rights reserved.
Characteristics subject to change without notice
CAT130xx
EXAMPLE OF ORDERING INFORMATION
Prefix
CAT
Device # Suffix
13001
9
S
W
I
-
G
T3
Lead Finish
G: NiPdAu (PPF)
Company ID
Temperature Range
I = Industrial (-40ºC to 85ºC)
Product Type with
Memory Density
13001: 1-Kb EEPROM
13004: 4-Kb EEPROM
13008(5): 8-Kb EEPROM
13016(5): 16-Kb EEPROM
Tape & Reel
T: Tape & Reel
3: 3000 units / Reel
Package
W: SOIC
Reset Threshold Voltage
L: 4.50V – 4.75V
M: 4.25V – 4.50V
J: 3.89V – 4.10V
T: 3.00V – 3.15V
S: 2.85V – 3.00V
R: 2.55V – 2.70V
Z: 2.25V – 2.38V
Supervisor Output Type
9: CMOS Active Low
1: CMOS Active High
Notes:
(1)
All packages are RoHS-compliant (Lead-free, Halogen-free).
(2)
(3)
The standard lead finish is NiPdAu pre-plated (PPF) lead frames.
The device used in the above example is a CAT130019SWI-GT3 (1Kb EEPROM, with Active Low CMOS output, with a reset threshold between
2.85V - 3.00V, in an SOIC, Industrial Temperature, NiPdAu, Tape and Reel.
(4)
(5)
For additional package and temperature options, please contact your nearest ON Semiconductor Sales office.
For 8-Kb and 16-Kb embedded EEPROM option availability please contact your nearest ON Semiconductor Sales office.
© 2008 SCILLC. All rights reserved.
Characteristics subject to change without notice
13
Doc. No. MD-1121 Rev. B
CAT130xx
REVISION HISTORY
Date
Rev.
Description
17-Jan-07
A
Initial Issue
7-Nov-08
B
Change logo and fine print to ON Semiconductor
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