SSC SS811

SS811, SS812
Reset Circuits with Manual Reset Input
FEATURES
DESCRIPTION
Ultra-low supply current of 1µA (typ.)
The SS811 and SS812 are low-power microprocessor
Guaranteed reset valid to Vcc=0.9V
(µP ) supervisory circuits used to monitor power supplies
Available in two output yypes:
in µP and digital systems. They improve circuit reliability
Push-pull active -low (SS811)
and reduce cost by eliminating external components.
Push-pull active -high (SS812)
The SS811 and SS812 also offer a manual reset input.
Power-on reset pulse width minimum 140ms
Internally fixed threshold 2.3V, 2.6V, 2. 9V, 3.1V, 4.0V,
4.4V, and 4.6V
These devices perform as valid singles in applications
Tight voltage threshold tolerance: 1.5%
with Vcc ranging from 6.0V down to 0.9V. The reset
Low profile package: SOT-23-5
signal lasts for a minimum period of 140ms whenever the
VCC supply voltage falls below a preset threshold. Both
APPLICATIONS
the SS811 and SS812 were designed with a reset
l
Notebook Computers
l
Digital Still Cameras
l
PDAs
than 140ms. The only difference between the SS811 and
l
Critical Microprocessor Monitoring
the SS812 is that one has an active -low RESET output
comparator to help identify invalid signals lasting less
and the other has an active -high RESET output .
A low supply current (1µA) makes the SS811 and
SS812 ideal for portable equipment. The devices are
available in a SOT-23-5 package.
TYPICAL APPLICATION CIRCUIT
VCC
VCC
SS811
(SS812)
RESET
MR (RESET)
VCC
µP
RESET
INPUT
GND
GND
Pushbutton
Switch
Rev.1.01 4/06/2004
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SS811, SS812
ORDERING INFORMATION
PIN CONFIGURATION
SS811-XXCXXX
SS812-XXCXXX
SOT- 23- 5
TOP VIEW
1: G ND
2: NC
3: RESET (RESET)
4: MR
5: VCC
Packing type
TR: T ape and reel
Package type
V: SOT- 23- 5
5
1
4
2
3
Reset Threshold Voltage
23: 2.3V
26: 2.6V
29: 2.9V
31: 3.1V
40: 4.0V
44: 4.4V
46: 4.6V
(Additional voltage versions with a unit of 0.1V within the voltage range from 1.5V to 5.5V for this
product line may be available on demand with prior consultation with SSC.)
Example: SS811 -31C VTR
à 3.1V version in SOT- 23- 5 package, shipped in tape and reel.
SOT -23-5 Marking
Rev.1.01 4/06/2004
Part No.
Marking
Part No.
Marking
SS811-23CV
BQ23
SS812-23CV
BR23
SS811-26CV
BQ26
SS812-26CV
BR26
SS811-29CV
BQ29
SS812-29CV
BR29
SS811-31CV
BQ31
SS812-31CV
BR31
SS811-40CV
BQ40
SS812-40CV
BR40
SS811-44CV
BQ44
SS812-44CV
BR44
SS811-46CV
BQ46
SS812-46CV
BR46
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SS811, SS812
ABSOLUTE MAXIMUM RATINGS
VCC
-0.3V ~6.5V
RESET, RESET
-0.3V ~ (VCC+0.3V)
Input Current (V CC, MR )
20mA
Output Current (RESET or RESET )
20mA
Continuous Power Dissipation (TA = +70°C)
320mW
Operating Junction Temperature Range
-40°C ~ 85°C
Storage Temperature Range
- 65°C ~ 150°C
Lead Temperature (Soldering) 10 sec
260°C
Note1: Any stress beyond the Absolute Maximum Ratings above may cause permanent damage to the device.
TEST CIRCUIT
1
2
3
GND
NC
MR
4 Iin
Vin
RESET
SS811
Rev.1.01 4/06/2004
5
VCC
Pushbutton
Switch
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SS811, SS812
ELECTRICAL CHARACTERISTICS
(Typical values are at TA=25° C, unless otherwise specified)
PARAMETER
TEST CONDITIONS
SYMBOL
Operating Voltage Range
VCC
Supply Current
ICC
VCC = VTH +0.1V
SS811-26
SS811-29
VTH
SS811-31
SS811-40
SS811-44
SS811-46
VCC to Reset Delay
TRD
Reset Active Timeout Period
TRP
MR to Reset Propagation
Delay
MR Input Threshold
TMD
TA=+25°C
2.265
TA= -40°C to +85°C
2.254
TA=+25°C
2.561
TA= -40°C to +85°C
2.548
TA=+25°C
2.857
TA= -40°C to +85°C
2.842
TA=+25°C
3.054
TA= -40°C to +85°C
3.038
TA=+25°C
3.940
TA= -40°C to +85°C
3.920
TA=+25°C
4.334
TA= -40°C to +85°C
4.312
TA=+25°C
4.531
TA=-40°C to +85°C
4.508
VCC=VTH to (VTH –0.1V), VTH=3.1V
VCC
TA=+25°C
= VTH(MAX) TA= -40°C to +85°C
RESET Output Voltage
MAX.
UNIT
6
V
1
3
µA
2.3
2.335
VIH
2.346
2.6
2.639
2.652
2.9
2.944
2.958
3.1
3.147
3.162
4.0
4.060
4.4
4.466
140
4.488
4.6
4.669
4.692
230
100
µS
560
1030
0.7V CC
VIL
0.25V CC
VOH
VCC=VTH+0.1V, ISOURCE =1mA
VOL
VCC=VTH - 0.1V, ISINK =1mA
VOH
VCC=VTH+0.1V, ISOURCE =1mA
VOL
VCC=VTH - 0.1V, ISINK =1mA
20
mS
µS
0.5
10
V
4.080
20
Vcc=6V
MR Pull-Up Resistance
RESET Output Voltage
TYP.
0.9
SS811-23
Reset Threshold
MIN.
30
0.8V CC
0.2Vcc
0.8V CC
0.2Vcc
V
KΩ
V
V
Note2: RESET output is for the SS811; RESET output is for the SS812.
Note3: Specifications for operating temperature ranges from -40°C to 85°C, are guaranteed by Statistical Quality
Controls (SQC), with no production testing.
Rev.1.01 4/06/2004
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SS811, SS812
TYPICAL PERFORMANCE CHARACTERISTICS
120
Supply Current (µA)
1.4
VTH=2.3V
1.3
1.2
1.1
VTH=3.1V
1.0
VTH=4.6V
0.9
0.8
0.7
0.6
Power -Down Reset Delay (µs )
1.5
110
VTH=2.3V
VO D=VTH-VCC
100
90
80
70
VOD=50mV
60
50
VOD=100mV
40
30
VOD=200mV
20
10
0
0.5
- 20
-40
0
40
20
60
80
100
-60
Temperature (° C)
-40
-20
0
20
40
60
80
100
Temperature (° C)
Fig 2 Power-Down Reset Delay vs. Temperature
Fig 1 Supply Current vs. Temperature
VTH=3.1V
VO D=VTH-VCC
220
200
Power -Down Reset Delay (µs )
Power -Down Reset Delay (µs )
240
180
160
140
VOD=50mV
120
100
80
60
VOD=100mV
40
VOD=200mV
20
0
VTH=4.6V
VOD=50mV
400
VOD=VTH-VCC
300
200
VOD=100mV
100
VOD=200mV
0
-60
- 40
0
-20
20
40
60
80
100
-60
- 40
- 20
0
20
40
60
80
100
Temperature (° C)
Temperature (° C)
Fig 3 Power-Down Reset Delay vs. Temperature
Fig 4 Power-Down Reset Delay vs. Temperature
Power -Up Reset Timeout (ms)
Normalized Reset Threshold (V)
600
1.015
VTH=4.6V
1.010
1.005
1.000
VTH=3.1V
0.995
VTH=2.3V
0.990
0.985
-40
-20
0
20
40
60
80
100
Temperature (° C)
Fig 5 Normalized Reset Threshold vs. Temperature
Rev.1.01 4/06/2004
500
400
VTH=3.1V
VTH=4.6V
300
200
VTH=2.3V
100
0
-60
-40
-20
0
20
40
60
80
100
Temperature (° C)
Fig 6 Power-Up Reset Timeout vs. Temperature
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SS811, SS812
BLOCK DIAGRAM
VCC
RESET
(RESET)
R1
Bandgap
-
Reset Generator
+
R PULL_UP
R2
20K
GND
MR
PIN DESCRIPTIONS
GND Pin
RESET Pin (SS811)
:
Ground.
:
Active low output pin. RESET Output remains low while Vcc is below reset threshold.
RESET Pin (SS812)
:
Active high output pin. RESET output remains high while Vcc is below reset threshold.
MR Pin
:
Logic low manual reset input. This active -low input has an internal 20k Ω
pull-up resistor. It can be driven by a TTL or CMOS, or shorted to ground with a switch.
Leave open when unused.
Vcc Pin
:
Supply voltage.
DETAILED DESCRIPTIONS OF TECHNICAL TERMS
goes high.
RESET OUTPUT
The microprocessor will be activated at a valid reset
state. These µ P supervisory circuits assert reset to
prevent code execution errors during power-up,
If a brownout condition occurs (VCC drops below the
reset threshold), RESET goes low. Any time VCC
goes below the reset threshold, the internal timer
resets to zero, and RESET goes low. The internal
power-down, or brownout conditions.
timer is activated after VCC returns above the reset
threshold, and RESET remains low for the reset
RESET is guaranteed to be a logic low for
timeout period.
VTH>VCC>0.9V. Once VCC exceeds the reset
threshold, an internal timer keeps RESET low for
The manual reset input (MR ) can also initiate a
the reset timeout period; after this interval, RESET
Rev.1.01 4/06/2004
reset. The SS812 has an active-high RESET output
that is the inverse of the SS811’s RESET output.
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SS811, SS812
MANUAL RESET INPUT
Many microprocessor-based products require manual
prevent noise caused by long cables of MR or noisy
environment.
reset capability, allowing operators, test technicians, or
external logic circuitry to initiate a reset. Logic low on
MR asserts reset. Reset will remain asserted for the
BENEFITS
OF
HIGHLY
ACCURATE
RESET
Reset Active Timeout Period (t RP) after MR returns
THRESHOLD
The SS811/812 with specified voltage as 5V±10% or 3V
high. This input has an internal 20KO pull-up resistor,
so it can be floating if it is not used. MR can be driven
power supply. The reset is guaranteed to assert after
±10% are ideal for systems using a 5V±5% or 3V±5%
with
the power supply falls out of regulation, but before
open-drain/collector outputs. Another alternative is to
connect a normal switch from MR to GND to create a
power drops below the minimum specified operating
manual reset function. Connecting a 0.1µF capacitor
from MR to ground can provide noise immunity to
thresholds reduce the range over which an undesirable
with
TTL
or
CMOS-logic
levels,
or
voltage range of the system ICs. The pre-trimmed
reset may occur.
APPLICATION INFORMATION
0V, adding a pull-down resistor to RESET causes
NEGATIVE-GOING VCC TRANSIENTS
any leakage currents to flow to ground, holding
In addition to issuing a reset to the microprocessor
during
power-up,
power-down,
and
RESET low.
brownout
conditions, the SS811 series are relatively resistant to
INTERFACING TO MICROPROCESSORS WITH
short-duration negative-going VCC transient.
BIDIRECTIONAL RESET PINS
Microprocessors with bidirectional res et pins may
ENSURING A VALID RESET OUTPUT DOWN TO
VCC=0
When VCC falls below 0.9V, the SS811 RESET
output no longer sinks current; it becomes an open
circuit. In this case, high-impedance CMOS logic
inputs connected to RESET can drift to undetermined
voltages. Therefore, the SS811/2 is perfect for most
CMOS applications with VCC down to 0.9V. However
in applications where RESET must be valid down to
Rev.1.01 4/06/2004
have contention with the SS811/812 reset outputs. If
the SS811 RESET output is asserted high and the
microprocessor wants to pull it low, indeterminate
logic levels may occur. To correct such cases,
connect a resistor between the SS811 RESET (or
SS812 RESET) output and the microprocessor reset
I/O. Buffer the reset output to other system
components.
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SS811, SS812
PHYSICAL DIMENSIONS
SOT-23-5 (unit: mm)
C
D
L
H E
θ1
e
SYMBOL
MIN
MAX
A
1.00
1.30
A1
—
0.10
A2
0.70
0.90
b
0.35
0.50
C
0.10
0.25
D
2.70
3.10
E
1.40
1.80
A
A2
A1
b
e
1.90 (TYP)
H
2.60
3.00
L
0.37
—
θ1
1°
9°
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responsibility for its use, or for infringement of any patent or other intellectual property rights of third parties that may result from its
use. Silicon Standard reserves the right to make changes as it deems necessary to any products described herein for any reason, including
without limitation enhancement in reliability, functionality or design. No license is granted, whether expressly or by implication, in relation to
the use of any products described herein or to the use of any information provided herein, under any patent or other intellectual property rights of
Silicon Standard Corporation or any third parties.
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