SUMMIT
MICROELECTRONICS, Inc.
S93WD462/S93WD463
Precision Supply-Voltage Monitor and Reset Controller
With a Watchdog Timer and 1k-bit Microwire Memory
FEATURES
OVERVIEW
•
Precision Monitor & RESET Controller
The S93WD462 and S93WD463 are precision power
— RESET and RESET Outputs
— Guaranteed RESET Assertion to VCC = 1V
— 150ms Reset Pulse Width
— Internal 1.26V Reference with ±1% Accuracy
— ZERO External Components Required
supervisory circuits providing both active high and
active low reset output. Both devices also incorporate a
watchdog timer with a nominal time-out value of 1.6
seconds.
Both devices have 1k-bits of E2PROM memory that is
accessibleviatheindustrystandardmicrowirebus.The
S93WD462 is configured with an internal ORG pin tied
low providing a 8-bit byte organization and the
S93WD463 is configured with an internal ORG pin tied
high providing a 16-bit word organization. Both the
S93WD462 and S93WD463 have page write capabil-
ity. The devices are designed for a minimum 100,000
•
•
Watchdog Timer
— Nominal 1.6 Second Time-out Period
— Reset by Any Transition of CS
Memory
— 1K-bit Microwire Memory
— S93WD462
– Internally Ties ORG Low
– 100% Compatible With all 8-bit
Implementations
program/erase cycles and have data retention in ex-
cess of 100 years.
– Sixteen Byte Page Write Capability
— S93WD463
– Internally Ties ORG High
– 100% Compatible With all 16-bit
Implementations
– Eight Word Page Write Capability
BLOCK DIAGRAM
V
CC
8
RESET#
6
RESET
PULSE
GENERATOR
5kHz
OSCILLATOR
+
V
TRIP
RESET
CONTROL
–
RESET
7
WATCHDOG
TIMER
1.26V
CS
1
MODE
DECODE
SK
DI
ADDRESS
DECODER
WRITE
CONTROL
2
3
2
E PROM
MEMORY
ARRAY
DATA I/O
DO
4
5
2029 T BD 2.0
Telephone 408-378-6461
GND
© SUMMIT MICROELECTRONICS, Inc. 2001
•
300 Orchard City Drive, Suite 131
•
Campbell, CA 95008
•
•
Fax 408-378-6586
•
Characteristics subject to change without notice
2029 2.2 1/23/01
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1
S93WD462/S93WD463
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 after a write operation.
Read
Upon receiving a READ command and an address
(clocked into the DI pin), the DO pin of the S93WD462/
WD463 will come out of the high impedance state and,
will first output an initial dummy zero bit, then begin
shifting out the data addressed (MSB first). The output
databitswilltoggleontherisingedgeoftheSKclockand
are stable after the specified time delay
(tPD0 or tPD1).
The ready/busy status can be determined after the start
of a write operation by selecting the device (CS high)
and polling the DO pin; DO low indicates that the write
operationisnotcompleted, whileDOhighindicatesthat
the device is ready for the next instruction. See the
Applications Aid section for detailed use of the ready
busy status.
Write
After receiving a WRITE command, address and the
data, the CS (Chip Select) pin must be deselected for a
minimum of 250ns (tCSMIN). The falling edge of CS will
start automatic erase and write cycle to the memory
location specified in the instruction. The ready/busy
status of the S93WD462/WD463 can be determined by
selecting the device and polling the DO pin.
The format for all instructions is: one start bit; two op
code bits and either six (x16) or seven (x8) address or
instruction bits.
t
t
t
SKLOW
CSH
SKHI
SK
t
t
DIH
DIS
VALID
VALID
DI
t
CSS
CS
t
t
t
t
DIS
CSMIN
PD0, PD1
DO
DATAVALID
2029 ILL 3.0
Figure 1. Sychronous Data Timing
SK
t
CS
CS
DI
STANDBY
A
N
A
N–1
A
0
1
1
0
t
HZ
t
HIGH-Z
HIGH-Z
PD0
DO
0
D
N
D
N–1
D
1
D
0
2029 ILL4.0
Figure 2. Read Instruction Timing
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S93WD462/S93WD463
Erase
Erase All
Upon receiving an ERASE command and address, the
CS (Chip Select) pin must be deselected for a minimum
of 250ns (tCSMIN). The falling edge of CS will start the
auto erase cycle of the selected memory location. The
ready/busy status of the S93WD462/WD463 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.
Upon receiving an ERAL command, the CS (Chip Se-
lect) pin must be deselected for a minimum of 250ns
(tCSMIN). ThefallingedgeofCSwillstarttheselfclocking
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 S93WD462/WD463 can be determined by
selecting the device and polling the DO pin. Once
cleared, the contents of all memory bits will be in a
logical “1” state.
Erase/Write Enable and Disable
The S93WD462/WD463 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 in-
struction 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
S93WD462/WD463 write and clear 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.
Write All
Upon receiving a WRAL command and data, the CS
(Chip Select) pin must be deselected for a minimum of
250ns (tCSMIN). 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 S93WD462/WD463 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.
Page Write
address. Internally the address pointer is incremented
after receiving each group of sixteen clocks; however,
once the address counter reaches xxx x111 it will roll
over to xx x000 with the next clock. After the last bit is
clockedinnointernalwriteoperationwilloccuruntilCS
is brought low.
93WD462 - Assume WEN has been issued. The host
will then take CS high, and begin clocking in the start
bit, write command and 7-bit address immediately
followed by the first byte of data to be written. The host
can then continue clocking in 8-bit bytes of data with
each byte to be written to the next higher address.
Internally the address pointer is incremented after
receiving each group of eight clocks; however, once
the address counter reaches xxx 1111 it will roll over
to xxx 0000 with the next clock. After the last bit is
clockedinnointernalwriteoperationwilloccuruntilCS
is brought low.
Continuous Read
This begins just like a standard read with the host
issuing a read instruction and clocking out the data
byte [word]. If the host then keeps CS high and
continues generating clocks on SK, the S93WD462/
WD463 will output data from the next higher address
location. The S93WD462/WD463 will continue
incrementing the address and outputting data so long
asCSstayshigh.Ifthehighestaddressisreached,the
address counter will roll over to address 0000. CS
going low will reset the instruction register and any
subsequent read must be initiated in the normal man-
ner of issuing the command and address.
93WD463 - Assume WEN has been issued. The host
will then take CS high, and begin clocking in the start
bit, write command and 6-bit address immediately
followed by the first 16-bit word of data to be written.
The host can then continue clocking in 16-bit words of
data with each word to be written to the next higher
4
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S93WD462/S93WD463
SK
t
CS
STANDBY
STATUS
VERIFY
CS
DI
A
N
A
N-1
A
0
D
N
D
0
1
0
1
t
t
HZ
SV
BUSY
READY
HIGH-Z
DO
HIGH-Z
t
EW
2029 ILL 5.0
Figure 3. Write Instruction Timing
SK
STANDBY
STATUS VERIFY
CS
DI
t
CS
A
N
A
0
A
N-1
1
1
1
t
t
SV
HZ
HIGH-Z
DO
BUSY
EW
READY
HIGH-Z
t
2029 ILL6.0
Figure 4. Erase Instruction Timing
SK
STANDBY
CS
DI
1
0
0
*
* ENABLE = 11
DISABLE = 00
2029 Fig05
Figure 5. EWEN/EWDS Instruction Timing
5
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S93WD462/S93WD463
SK
CS
DI
STANDBY
STATUS VERIFY
t
CS
1
0
0
1
0
t
t
SV
HZ
HIGH-Z
DO
BUSY
READY
HIGH-Z
t
EW
2029 ILL 8.0
Figure 6. ERAL Instruction Timing
SK
CS
DI
STANDBY
STATUS VERIFY
t
CS
D
D
1
0
0
0
1
N
O
t
t
HZ
SV
DO
BUSY
READY
HIGH-Z
t
EW
2029 ILL 10.0
Figure 7. WRAL Instruction Timing
INSTRUCTION SET
Instruction
Start
Bit
Opcode
Address
x8
Data
x8
Comments
x16
x16
READ
ERASE
WRITE
EWEN
EWDS
ERAL
1
1
1
1
1
1
1
10
11
01
00
00
00
00
A6–A0
A6–A0
A5–A0
A5–A0
A5–A0
11xxxx
00xxxx
10xxxx
01xxxx
Read Address AN–A0
Clear Address AN–A0
Write Address AN–A0
Write Enable
A6–A0
D7–D0
D15–D0
11xxxxx
00xxxxx
10xxxxx
01xxxxx
Write Disable
Clear All Addresses
WRAL
D7–D0
D15–D0
Write All Addresses
2029 PGM T5.0
6
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S93WD462/S93WD463
ABSOLUTE MAXIMUM RATINGS*
Temperature Under Bias .................................................................................................................................... –55°C to +125°C
Storage Temperature ......................................................................................................................................... –65°C to +150°C
Voltage on any Pin with Respect to Ground(1) ............................................................................................. –2.0V to +VCC +2.0V
VCC with Respect to Ground .................................................................................................................................. –2.0V to +7.0V
Package Power Dissipation Capability (Ta = 25°C) ............................................................................................................. 1.0W
Lead Soldering Temperature (10 secs) .............................................................................................................................. 300°C
Output Short Circuit Current(2) ........................................................................................................................................... 100 mA
*COMMENT
Stressesabovethoselistedunder“AbsoluteMaximumRatings”maycausepermanentdamagetothedevice.Thesearestressratingsonly,andfunctional
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.
RECOMMENDED OPERATING CONDITIONS
Temperature
Commercial
Industrial
Min
0°C
Max
+70°C
+85°C
-40°C
2029 PGM T7.0
RELIABILITY CHARACTERISTICS
Symbol
Parameter
Endurance
Min.
100,000
100
Max.
Units
Cycles/Byte
Years
(3)
NEND
(3)
TDR
Data Retention
ESD Susceptibility
Latch-Up
(3)
VZAP
2000
100
Volts
(3)(4)
ILTH
mA
D.C. OPERATING CHARACTERISTICS (over recommended operating conditions unless otherwise specified)
Limits
Symbol
Parameter
Min.
Typ.
Max.
Units
Test Conditions
ICC
Power Supply Current
(Operating)
3
mA
DI = 0.0V, fSK = 1MHz
VCC = 5.0V, CS = 5.0V,
Output Open
ISB
Power Supply Current
(Standby)
50
µA
CS = 0V
Reset Outputs Open
ILI
Input Leakage Current
2
µA
µA
VIN = 0V to VCC
ILO
Output Leakage Current
(Including ORG pin)
10
VOUT = 0V to VCC
CS = 0V
,
VIL1
VIH1
Input Low Voltage
Input High Voltage
-0.1
2
0.8
V
V
4.5V-VCC<5.5V
1.8V-VCC<2.7V
VCC+1
VIL2
VIH2
Input Low Voltage
Input High Voltage
0
VCCX0.2
VCC+1
V
V
VCCX0.7
VOL1
VOH1
Output Low Voltage
Output High Voltage
0.4
V
V
4.5V-VCC<5.5V
IOL = 2.1mA
IOH = -400µA
2.4
VOL2
VOH2
Output Low Voltage
Output High Voltage
0.2
V
V
1.8V-VCC<2.7V
IOL = 1mA
IOH = -100µA
VCC-0.2
2029 PGM T3.0
Note:
(1) The minimum DC input voltage is –0.5V. During transitions, inputs may undershoot to –2.0V for periods of less than 20 ns. Maximum DC
voltage on output pins is V +0.5V, which may overshoot to V +2.0V for periods of less than 20 ns.
CC
CC
(2) Output shorted for no more than one second. No more than one output shorted at a time.
(3) This parameter is tested initially and after a design or process change that affects the parameter.
(4) Latch-up protection is provided for stresses up to 100 mA on address and data pins from –1V to V +1V.
CC
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S93WD462/S93WD463
PIN CAPACITANCE
Symbol
Test
Max.
Units
pF
Conditions
VOUT=OV
VIN=OV
(1)
COUT
OUTPUT CAPACITANCE (DO)
5
5
(1)
CIN
INPUT CAPACITANCE (CS, SK, DI, ORG)
pF
Note:
(1) This parameter is tested initially and after a design or process change that affects the parameter.
2029 PGM T4.0
A.C. CHARACTERISTICS (over recommended operating conditions unless otherwise specified)
Limits
V
CC=2.7V-4.5V VCC=4.5V-5.5V
Test
SYMBOL PARAMETER
Min. Max. Min. Max. UNITS Conditions
tCSS
tCSH
tDIS
CS Setup Time
100
0
50
0
ns
ns
ns
ns
µs
µs
ns
ms
µs
µs
µs
µs
CS Hold Time
DI Setup Time
200
200
100
100
tDIH
tPD1
tPD0
DI Hold Time
Output Delay to 1
0.5
0.5
200
10
0.25
0.25
100
10
Output Delay to 0
CL = 100pF
(1)
tHZ
Output Delay to High-Z
Program/Erase Pulse Width
Minimum CS Low Time
Minimum SK High Time
Minimum SK Low Time
Output Delay to Status Valid
Maximum Clock Frequency
tEW
tCSMIN
tSKHI
tSKLOW
tSV
0.5
0.5
0.5
0.25
0.25
0.25
0.5
0.25
SKMAX
DC
500
DC
1000 KHZ
2029 PGM T6.0
Note:
(1) This parameter is tested initially and after a design or process change that affects the parameter.
8
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S93WD462/S93WD463
RESET CIRCUIT AC and DC ELECTRICAL CHARACTERISTICS
2.7
5 Volt-A
5 Volt-B
Symbol
Parameter
Min
2.55
130
Max
2.7
270
5
Min
Max
4.5
270
5
Min
Max
4.75
270
5
Unit
V
V
Reset Trip Point
Power-Up Reset Timeout
to RESET Output Delay
4.25
130
4.50
130
TRIP
PURST
RPD
t
t
ms
µs
V
V
TRIP
V
RESET# Output Valid
1
1
1
RVALID
GLITCH
t
Glitch Reject Pulse Width
30
30
30
ns
V
V
RESET# Output Low Voltage I =1mA
0.4
0.4
0.4
OLRS
OHRS
OL
V
RESET Output High I
V
-.75
CC
V
-.75
CC
V -.75
CC
V
OH
2029 PGM T1.0
t
GLITCH
V
TRIP
V
RVALID
t
RPD
V
t
CC
PURST
t
PURST
RESET#
t
RPD
RESET
2029 T fig08 2.0
Figure 8. RESET Timing Diagram
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S93WD462/S93WD463
8 Pin SOIC
Ref. JEDEC MS-012
0.150 - 0.157
(3.80 - 4.00)
1
Inches
(Millimeters)
0.189 - 0.196
(4.80 - 5.00)
0.053 - 0.069
(1.35 - 1.75)
0.010 - 0.020
×45º
(0.25 - 0.50)
0.004 - 0.010
0.016 - 0.050
(0.40 - 1.27)
(0.10 - 0.25)
0.013 - 0.020
(0.33 - 0.51)
0.228 - 0.244
(5.80 - 6.20)
.05 (1.27) TYP.
8 Pin SOIC
8 Pin PDIP
0.355 - 0.400
(9.02 - 10.2)
Ref. JEDEC MS-001
0.24 - 0.28
(6.1 - 7.1)
PIN 1 INDICATOR
Inches
(Millimeters)
0.045 - 0.070
(1.14 - 1.78)
0.300 - 0.325
(7.62 - 8.25)
0.115 - 0.195
0.21
MAX.
(2.92 - 4.95)
(5.33)
.015
Min.
(.381)
1
SEATING PLANE
0.008 - 0.014
(0.20 - 0.36)
.100
0.43
(2.54)
0.014 - 0.022
(0.36 - 0.56)
MAX.
(10.9)
0.115 - 0.195
(2.92 - 4.95)
8 Pin PDIP
10
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S93WD462/S93WD463
Frequently the reset controller will be deployed on a PC board that provides a peripheral function to a system.
Examples might be modem or network cards in a PC or a PCMCIA card in a laptop. In instances like this the peripheral
cardmayhavearequirementforacleanresetfunctiontoinsureproperoperation. Thesystemmayormaynotprovide
a reset pulse of sufficient duration to clear the peripheral or to protect data stored in a nonvolatile memory.
The I/O capability of the RESET pins can provide a solution. The system’s reset signal to the peripheral can be fed
intotheS93WD462/WD463anditinturncancleanupthesignalandprovideaknownentitytotheperipheral’scircuits.
The figure below shows the basic timing characteristics under the assumption the reset input is shorter in duration
than tPURST. The same reset output affect can be attained by using the active high reset input.
RESET#
Input
RESET#
Output
RESET
Output
t
PURST
2029 T fig09 2.0
When planning your resistor pull-up and pull-down values, use the following chart to help determine min. resistances.
Worst Case RESET Sink/Source Capabilities at Various VCC Levels
Parameter
Symbol
Condition
Min
Typ
Max
0.3
0.3
0.3
0.3
0.3
0.4
0.4
0.4
0.4
0.4
Units
VCC = 1.0V, IOL=100µA
VCC = 1.2V, IOL=100µA
VCC = 3.0V, IOL=500µA
VCC = 3.6V, IOL=500µA
VCC = 4.5V, IOL=750µA
VCC = 1.0V, IOL=100µA
VCC = 1.2V, IOL=150µA
VCC = 3.0V, IOL=750µA
VCC = 3.6V, IOL=1mA
VCC = 4.5V, IOL=1mA
VCC = 1.0V, IOH=400µA
VCC = 1.2V, IOH=800µA
VCC = 3.0V, IOH=800µA
VCC = 3.6V, IOH=800µA
VCC = 4.5V, IOH=800µA
V
V
V
V
V
V
V
V
V
V
V
V
V
V
RESET# Output
VOL
Voltage
RESET# Output
VOL
Voltage
VCC-0.75
VCC-0.75
VCC-0.5
VCC-0.5
VCC-0.5
RESET Output
Voltage
VOH
V
2029 PGM T5.0
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S93WD462/S93WD463
Ready/Busy Status
During the internal write operation the S93WD462/WD463 memory array is inaccessible. After starting the write
operation(takingCSlow)thehostcanimplementa10mstimeoutroutineoralternativelyitcanemployapollingroutine
that tests the state of the DO pin.
After starting the write, testing for the status is easily accomplished by taking CS high and testing the state of DO. If
it is low the device is still busy with the internal write. If it is high the write operation has completed.
For the polling routine the host has the option of toggling CS for each test of DO, or it can place CS high and then
intermittently test DO. SK is not required for any of these operations. Once the device is ready, it will continue to drive
DO high whenever the S93WD462/WD463 is selected. The ready state of DO can be cleared by clocking in a start
bit;thisstartbitcaneitherbethebeginningofanewcommandsequenceoritcanbeadummystartbitwithCSreturning
low before the host issues a new command.
SK
CS
STATUS VERIFY
t
CS
DI
t
t
SV
HZ
HIGH-Z
DO
BUSY
READY
HIGH-Z
STATUS CLEARED
t
EW
2029 ILL 13.0
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S93WD462/S93WD463
ORDERING INFORMATION
S93WD462 P A T
Tape & Reel Option
Blank = Tube
T = Tape & Reel
Base Part Number
S93WD462 = 8-bit configuration
S93WD463 = 16-bit configuration
Package
Operating Voltage Range
A = 4.5V to 5.5V V
B = 4.5V to 5.5V V
min. @ 4.25V
min. @ 4.50V
P = 8 lead PDIP
S = 8 lead 150mil SOIC
TRIP
TRIP
2.7 = 2.7V to 5.5V V
min. @ 2.55V
TRIP
2029 Tree 2.0
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S93WD462/S93WD463
NOTICE
SUMMIT Microelectronics, Inc. reserves the right to make changes to the products contained in this publication in
order to improve design, performance or reliability. SUMMIT Microelectronics, Inc. assumes no responsibility for
the use of any circuits described herein, conveys no license under any patent or other right, and makes no
representation that the circuits are free of patent infringement. Charts and schedules contained herein reflect
representative operating parameters, and may vary depending upon a user’s specific application. While the
information in this publication has been carefully checked, SUMMIT Microelectronics, Inc. shall not be liable for any
damages arising as a result of any error or omission.
SUMMIT Microelectronics, Inc. does not recommend the use of any of its products in life support or aviation
applications where the failure or malfunction of the product can reasonably be expected to cause any failure of either
system or to significantly affect their safety or effectiveness. Products are not authorized for use in such applications
unless SUMMIT Microelectronics, Inc. receives written assurances, to its satisfaction, that: (a) the risk of injury or
damage has been minimized; (b) the user assumes all such risks; and (c) potential liability of SUMMIT
Microelectronics, Inc. is adequately protected under the circumstances.
© Copyright 2001 SUMMIT Microelectronics, Inc.
This Document supersedes all previous versions..
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