ETC XC61AN1802PR

XC61A Series
Low Voltage Detectors (0.8V~2.0V)
HP010199
■ Applications
◆ CMOS
◆ Mini Mold Package
◆ Highly Accurate ±2% (±1%)
◆ Low Power Consumption 1.0µA Typ.
● Microprocessor reset circuits
● Memory battery back-up circuits
● Power-on reset circuits
● Power failure detection
● System battery life and charge voltage monitors
(VIN=2V )
■ General Description
■ Features
The XC61A is a highly precise detector series manufactured using CMOS
and laser trimming technologies.
The series is very accurate and offers standard voltage sourced low power
consumption.The series consists of hysteresis, output driver, and linear
characterised delay circuits, together with a comparator. Detect voltage is
extremely accurate with minimal temperature drift. Both CMOS and Nchannel open drain output configurations are available.
Integrating the above functions in a single, mini-molded package, the
XC61A series offers significant space saving and high-density mounting,
suitable for use with portable products.
Highly accurate: Detect voltage ±2% (±1% for semi-custom products)
Low power consumption: Typ.1.0µA (VIN=2V)
Selectable detect voltage: 0.8V ~ 2.0V in 0.1V increments.
Operating voltage: From 0.7V ~ 6.0V.
Temperature Characteristics: Typ.±100ppm/:
Output configuration: N-channel open drain or CMOS
Ultra small package: SOT-23 (150mW) mini-mold and SOT-89 (500mW)
mini-power mold
■ Pin Configuration
■ Pin Assignment
PIN NUMBER
VIN
3
1
2
1
VOUT
VSS
VOUT
2
3
VIN
VSS
SOT-23
SOT-89
(TOP VIEW)
(TOP VIEW)
PIN NAME
FUNCTION
2
VIN
Supply voltage input
2
3
VSS
Ground
1
1
VOUT
Output
SOT-23
SOT-89
3
■ Absolute Maximum Ratings
■ Block Diagram
(1) CMOS output
VIN
Ta=25:
PARAMETER
SYMBOL
RATINGS
UNITS
Input Voltage
VIN
9
V
Output Voltage
VOUT
VSS-0.3 ~ VIN+0.3
V
Output Current
IOUT
50
mA
VOUT
Vref
VSS
(2) N-channel open drain output
Continuous Total
Power Dissipation
VIN
150
SOT-23
500
SOT-89
VOUT
mW
Pd
Operating Ambient Temperature
Topr
–30 ~ +80
:
Storage Temperature
Tstg
–40 ~ +125
:
Vref
VSS
q-1
4
■ Electrical Characteristics
Ta=25:
PARAMETER
Detect Voltage
SYMBOL
VDF
Hysteresis Range
VHYS
CONDITIONS
MIN
VDF✕0.98
TYP
VDF
MAX
VDF✕1.02
UNITS
V
✕0.02
VDF✕0.05
0.9
1.0
1.3
1.6
2.0
✕0.08
2.6
3.0
3.4
3.8
4.2
V
VIN =1.5V
=2.0V
=3.0V
=4.0V
=5.0V
Supply Current
ISS
Operating Voltage
VIN
Output Current
IOUT
VDF=0.8~2.0V
NCh VDS=0.5V
VIN=0.7V
VIN=1.0V
PCh VDS=3.9V
VIN=6.0V
(CMOS Output)
Temperature Characteristics
∆VDF/(∆Topr VDF)
Delay Time(Release Voltage
➔Output Inversion)
tDLY
(VDR➔VOUT Inversion)
0.7
6.0
0.35
2.2
µA
V
mA
–7.5
±100
–30:≤Topr ≤80:
ppm /:
0.2
ms
Note: 1. The products that have 1% Detect Voltage (VDF) accuracy are semi-custom products.
2. An additional resistor connected between the VIN pin and the supply voltage may cause alterations in the characteristics due to the increasing values
of VDR.
■ Notes on Use
■ Functional Description
Where a resistor (RIN) is connected between VIN and the power
supply, use the N-ch open drain configuration.
In order to prevent oscillation please ensure that RIN = 1kΩ or less
and that C = 0.1µF or more.
RIN
The following designators q-y refer to the timing diagram below:
qWhen the Input Voltage (VIN) is higher than the Detect Voltage (VDF)
level, output at the VOUT pin is equal to VIN. (High impedance exists
with the N-channel open drain output configuration).
wWhen the Input Voltage (VIN) falls below the Detect Voltage (VDF)
level, the Output Voltage (VOUT) is equal to the Ground Voltage (VSS)
level.
eWhen the Input Voltage (VIN) falls below the Minimum Operating
Voltage (VMIN) level, output becomes unstable. In this condition, if
there is an output pull-up, VIN will be the output.
rWhen the Input Voltage (VIN) rises above the ground voltage (Vss)
level, output becomes unstable between the Ground Voltage (VSS)
level and the Minimum Operating Voltage (VMIN) level. Between the
VMIN and VDR levels the Ground Voltage (Vss) level is maintained.
tWhen the Input Voltage (VIN) rises above the Detect Release Voltage
(VDR) level, output at the VOUT pin is equal to VIN. (High impedance
exists with the N-channel open drain output configuration).
yThe difference between VDR and VDF represents the hysteresis
range.
XC61AN Series
VOUT
VIN
C
VSS
Diagram : Circuit with input resistor connected.
■ Timing Diagram
INPUT VOLTAGE (VIN)
6
DETECT RELEASE VOLTAGE (VDR)
DETECT VOLTAGE (VDF)
MINIMUM OPERATING VOLTAGE (VMIN)
GROUND VOLTAGE (VSS)
OUTPUT VOLTAGE (VOUT)
GROUND VOLTAGE (VSS)
1
2
3
4
5
5
q-2
XC61A Series
Low Voltage Detectors (0.8V~2.0V)
■ Ordering Information
XC61Axxxxxxx
a b cde f
DESIGNATOR
DESCRIPTION
DESIGNATOR
Output Configuration
C=CMOS Output
N=N-Channel Open Drain
a
Detect Voltage
e.g.08=0.8V
11=1.1V
b
d
Detect Accuracy
1=±1%(Semi -custom products)
2=±2%
e
Package Type
M=SOT-23
P=SOT-89
T=TO-92
f
Device Orientation
R=Embossed Tape
(Orientation of Device:Right)
L=Embossed Tape
(Orientation of Device:Left)
H=Paper Tape (TO-92)
B=Bag (TO-92)
Output Delay
Standard products have no delay.
0=No Delay (Standard product)
Custom products which have
customer specified delay time
are available.
c
DESCRIPTION
■ Marking
qConfiguration and Integral Number of Detect Voltage
DESIGNATOR CONFIGURATION VOLTAGE(V) DESIGNATOR CONFIGURATION VOLTAGE(V)
1
2
3
4
2
4
1
3
SOT-23
SOT-89
(TOP VIEW)
(TOP VIEW)
A
CMOS
0.w
K
N-channel
0.w
B
CMOS
1.w
L
N-channel
1.w
C
CMOS
2.w
M
N-channel
2.w
wDecimal Point of Detect Voltage
eOutput Delay Time
DESIGNATOR
DESIGNATOR VOLTAGE(V) DESIGNATOR VOLTAGE(V)
0
q.0
5
0
q.5
DELAY TIME (ms)
No Delay
Note: Symbol '0' is for standard spec.
q-3
1
q.1
6
q.6
2
q.2
7
q.7
3
q.3
8
q.8
4
q.4
9
q.9
rAssembly Lot Number
Based on internal standards
6
XC61A Series
General Voltage Detectors (2.1V~6.0V)
HP010199
■ Applications
◆ CMOS
◆ Mini Mold Package
◆ Highly Accurate: ±2% (±1%)
◆ Low Power Consumption 1.0µA Typ.
● Microprocessor reset circuits
● Memory battery back-up circuits
● Power-on reset circuits
● Power failure detection
● System battery life and charge voltage monitors
(VIN=2V )
■ General Description
■ Features
The XC61A is a highly precise detector series manufactured using CMOS
and laser trimming technologies.
The series is very accurate and offers standard voltage sourced low power
consumption.The series consists of hysteresis, output driver, and linear
characterised delay circuits, together with a comparator. Detect voltage is
extremely accurate with minimal temperature drift. Both CMOS and Nchannel open drain output configurations are available.
Integrating the above functions in a single, mini-molded package, the
XC61A series offers significant space saving and high-density mounting,
suitable for use with portable products.
Highly accurate: Detect voltage ±2% (±1% for semi-custom products)
Low power consumption: Typ.1.0µA (VIN=2V)
Selectable detect voltage: Range 2.1V ~ 6.0V in 0.1V increments.
Operating voltage: From 0.7V ~ 10.0V.
Temperature Characteristics: Typ.±100ppm/:
Output configuration: N-channel open drain or CMOS
Ultra small package: SOT-23 (150mW) mini-mold SOT-89 (500mW)
mini-power mold
*TO-92 (300mW) packages also available. (order basis)
■ Pin Assignment
■ Pin Configuration
PIN NUMBER
VIN
3
1
2
1
VOUT
VSS
VOUT
2
3
VIN
VSS
SOT-23
SOT-89
(TOP VIEW)
(TOP VIEW)
PIN NAME
FUNCTION
2
VIN
Supply voltage input
2
3
VSS
Ground
1
1
VOUT
Output
SOT-23
SOT-89
3
■ Absolute Maximum Ratings
■ Block Diagram
Ta=25:
(1) CMOS output
VIN
VOUT
PARAMETER
SYMBOL
RATINGS
UNITS
Input Voltage
VIN
12
V
Output Voltage
VOUT
VSS–0.3 ~ VIN+0.3
V
Output Current
IOUT
50
mA
Vref
VSS
(2) N-channel open drain output
Continuous Total
Power Dissipation
VIN
VOUT
SOT-23
150
mW
Pd
SOT-89
500
Operating Ambient Temperature
Topr
–30 ~ +80
:
Storage Temperature
Tstg
–40 ~ +125
:
Vref
VSS
7
q-4
XC61A Series
General Voltage Detectors (2.1V ~ 6.0V)
■ Electrical Characteristics
Ta=25:
PARAMETER
Detect Voltage
SYMBOL
VDF
Hysteresis Range
VHYS
CONDITIONS
TYP
VDF
MAX
VDF✕1.02
UNITS
V
✕0.02
✕0.05
0.9
1.0
1.3
1.6
2.0
✕0.08
2.6
3.0
3.4
3.8
4.2
V
VIN =1.5V
=2.0V
=3.0V
=4.0V
=5.0V
Supply Current
ISS
Operating Voltage
VIN
VDF=2.1~6.0V
IOUT
NCh VDS=0.5V
VIN=1.0V
=2.0V
=3.0V
=4.0V
=5.0V
N-Ch VDS=2.1V
VIN=8.0V
(CMOS Output)
Output Current
MIN
VDF✕0.98
Temperature Characteristics
∆VDF/(∆Topr VDF)
Delay Time(Release Voltage
➔Output Inversion)
(VDR➔VOUT Inversion)
0.7
10.0
2.2
7.7
10.1
11.5
13.0
µA
V
mA
–10.0
±100
-30:≤Topr ≤80:
tDLY
ppm/:
0.2
ms
Note: 1. The products that have 1% Detect Voltage (VDF) accuracy are semi-custom products.
2. An additional resistor connected between the Vin pin and the supply voltage may cause alterations in the characteristics due to the increasing values
of VDR.
■ Notes on Use
■ Functional Description
The following designators q-y refer to the timing diagram below:
qWhen the Input Voltage (VIN) is higher than the Detect Voltage (VDF)
level, output at the VOUT pin is equal to VIN. (High impedance exists
with the N-channel open drain output configuration).
wWhen the Input Voltage (VIN) falls below the Detect Voltage (VDF)
level, the Output Voltage (VOUT) is equal to the Ground Voltage (VSS)
level.
eWhen the Input Voltage (VIN) falls below the Minimum Operating
Voltage (VMIN) level, output becomes unstable. In this condition, if
there is an output pull-up, VIN will be the output.
rWhen the Input Voltage (VIN) rises above the ground voltage (Vss)
level, output becomes unstable between the Ground Voltage (VSS)
level and the Minimum Operating Voltage (VMIN) level. Between the
VMIN and VDR levels the Ground Voltage (Vss) level is maintained.
tWhen the Input Voltage (VIN) rises above the Detect Release Voltage
(VDR) level, output at the VOUT pin is equal to VIN. (High impedance
exists with the N-channel open drain output configuration).
yThe difference between VDR and VDF represents the hysteresis range.
Where a resistor (RIN) is connected between VIN and the power
supply, use the N-ch open drain configuration.
In order to prevent oscillation please ensure that RIN = 1kΩ or less
and that C = 0.1µF or more.
RIN
XC61AN Series
VIN
VOUT
C
VSS
Diagram : Circuit with input resistor connected.
■ Timing Diagram
INPUT VOLTAGE (VIN)
6
DETECT RELEASE VOLTAGE (VDR)
DETECT VOLTAGE (VDF)
MINIMUM OPERATING VOLTAGE (VMIN)
GROUND VOLTAGE (VSS)
OUTPUT VOLTAGE (VOUT)
GROUND VOLTAGE (VSS)
1
q-5
2
3
4
5
8
■ Ordering Information
XC61Axxxxxxx
a b cde f
DESIGNATOR
DESCRIPTION
a
Output Configuration
C=CMOS Output
N=N-Channel Open Drain
b
Detect Voltage
e.g.25=2.5V
38=3.8V
c
Output Delay
Standard products have no delay.
0=No Delay (Standard product)
Custom products which have
customer specified delay time
are available.
DESIGNATOR
DESCRIPTION
d
Detect Accuracy
1=±1% (Semi -custom products)
2=±2%
e
Package Type
M=SOT-23
P=SOT-89
T=TO-92
f
Device Orientation
R=Embossed Tape
(Orientation of Device:Right)
L=Embossed Tape
(Orientation of Device:Left)
H=Paper Tape (TO-92)
B=Bag (TO-92)
■ Marking
qConfiguration and Integral Number of Detect Voltage
DESIGNATOR CONFIGURATION VOLTAGE(V) DESIGNATOR CONFIGURATION VOLTAGE(V)
1
2
3
4
2
4
1
3
SOT-23
SOT-89
(TOP VIEW)
(TOP VIEW)
A
CMOS
0.w
K
N-channel
0.w
B
CMOS
1.w
L
N-channel
1.w
C
CMOS
2.w
M
N-channel
2.w
D
CMOS
3.w
N
N-channel
3.w
E
CMOS
4.w
P
N-channel
4.w
F
CMOS
5.w
R
N-channel
5.w
H
CMOS
6.w
S
N-channel
6.w
wDecimal Point of Detect Voltage
eOutput delay time
DESIGNATOR VOLTAGE(V) DESIGNATOR VOLTAGE(V)
0
q.0
5
q.5
1
q.1
6
q.6
2
q.2
7
q.7
3
q.3
8
q.8
4
q.4
9
q.9
DESIGNATOR
DELAY TIME (ms)
0
No Delay
Note: Symbol '0' is Standard spec.
rAssembly Lot Number
Based on internal standards.
9
q-6
XC61A Series
General Voltage Detectors (2.1V~6.0V)
■ XC61AC Characteristics
(1) SUPPLY CURRENT vs. INPUT VOLTAGE
XC61AC2702 (2.7V)
XC61AC3602 (3.6V)
XC61AC4502 (4.5V)
25:
3
Ta=80:
2
-30:
1
0
4
SUPPLY CURRENT ISS[µA]
3
SUPPLY CURRENT ISS[µA]
SUPPLY CURRENT ISS[µA]
4
25:
2
Ta=80:
-30:
1
0
0
1
2
3
4
5
6
7
8
9 10
3
Ta=80:
2
1
25:
-30:
0
0
1
2
3
4
5
6
7
8
9 10
0
INPUT VOLTAGE VIN (V)
INPUT VOLTAGE VIN (V)
1
2
3
4
5
6
7
8
9 10
INPUT VOLTAGE VIN (V)
(2) DETECT & RELEASE VOLTAGE vs. TEMPERATURE
XC61AC2702 (2.7V)
XC61AC3602 (3.6V)
XC61AC4502 (4.5V)
2.9
3.8
VDR (V)
2.8
DETECT VOLTAGE:VDF
& RELEASE VOLTAGE:VDR
4.9
DETECT VOLTAGE:VDF
& RELEASE VOLTAGE:VDR
3.9
DETECT VOLTAGE:VDF
& RELEASE VOLTAGE:VDR
3.0
4.8
VDR
3.7
2.7
3.6
VDF(V)
2.6
4.6
VDF
3.5
2.5
-40
1
-20
0
20
40
60
80
VDR
4.7
VDF
4.5
3.4
-40
AMBIENT TEMPERATURE: Ta (:)
-20
0
20
40
60
80
4.4
-40
AMBIENT TEMPERATURE: Ta (:)
-20
0
20
40
60
80
AMBIENT TEMPERATURE: Ta (:)
(3) OUTPUT VOLTAGE vs. INPUT VOLTAGE
OUTPUT VOLTAGE:VOUT[V]
OUTPUT VOLTAGE:VOUT[V]
Ta= 80:
25:
-30:
3
2
1
0
Ta= 80:
25:
-30:
4
1
2
3
INPUT VOLTAGE: VIN (V)
4
XC61AC4502 (4.5V)
6
3
2
1
0
0
q-7
XC61AC3602 (3.6V)
5
OUTPUT VOLTAGE:VOUT[V]
XC61AC2702 (2.7V)
4
Ta= 80:
25:
-30:
5
4
3
2
1
0
0
1
2
3
4
INPUT VOLTAGE: VIN (V)
10
5
0
1
2
3
4
5
INPUT VOLTAGE: VIN (V)
6
■ XC61AC Characteristics
(4) N-CH DRIVER OUTPUT CURRENT vs. VDS
XC61AC3602 (3.6V)
VIN=2.5V
20
2.0V
10
1.5V
0.5
1.0
1.5
2.0
2.5
3.0
VIN=3.0V
40
2.5V
30
20
2.0V
10
1.5V
0
0.0
0.5
1.0
VDS (V)
XC61AC2702 (2.7V)
2.5
3.0
800
600
400
0.7V
200
0.4
3.5V
60
50
3.0V
40
2.5V
30
20
2.0V
10
1.5V
0
0
1
0.6
0.8
3
4
XC61AC4502 (4.5V)
1000
VIN=0.8V
800
600
400
0.7V
200
1.0
2
VDS (V)
XC61AC3602 (3.6V)
VIN=0.8V
0.2
VIN=4.0V
70
3.5
1000
OUTPUT CURRENT:IOUTNch[µA]
OUTPUT CURRENT:IOUTNch[µA]
2.0
80
VDS (V)
1000
0
0.0
1.5
OUTPUT CURRENT:IOUTNch[µA]
0
0.0
XC61AC4502 (4.5V)
50
OUTPUT CURRENT:IOUTNch[mA]
30
OUTPUT CURRENT:IOUTNch[mA]
OUTPUT CURRENT:IOUTNch[mA]
XC61AC2702 (2.7V)
40
0
0.0
0.2
0.4
VDS (V)
0.6
0.8
VIN=0.8V
800
600
400
0.7V
200
1.0
0
0.0
0.2
VDS (V)
0.4
0.6
0.8
1.0
VDS (V)
(5) N-CH DRIVER OUTPUT CURRENT vs. INPUT VOLTAGE
XC61AC2702 (2.7V)
XC61AC3602 (3.6V)
Ta=30:
15
25:
10
80:
5
25
VDS=0.5V
OUTPUT CURRENT:IOUTNch[mA]
VDS=0.5V
0
0.0
XC61AC4502 (4.5V)
20
OUTPUT CURRENT:IOUTNch[mA]
OUTPUT CURRENT:IOUTNch[mA]
20
Ta=30:
25:
15
10
80:
5
0
0.5
1.0
1.5
2.0
2.5
INPUT VOLTAGE: VIN (V)
3.0
VDS=0.5V
Ta=30:
20
25:
15
80:
10
5
0
0
1
2
3
INPUT VOLTAGE: VIN (V)
11
4
0
1
2
3
4
5
INPUT VOLTAGE: VIN (V)
q-8
XC61A Series
General Voltage Detectors (2.1V~6.0V)
(6) P-CH DRIVER OUTPUT CURRENT VS. INPUT CURRENT
1.5V
6
1.0V
4
0.5V
2
0
0
1
2
3
4
5
6
7
8
INPUT VOLTAGE VIN (V)
q-9
9 10
12
VDS=2.1V
8
1.5V
6
1.0V
4
0.5V
2
0
0
1
2
3
4
5
6
7
8
INPUT VOLTAGE VIN (V)
12
9 10
XC61AC4502 (4.5V)
OUTPUT CURRENT:IOUTpch[mA]
VDS=2.1V
8
XC61AC3602 (3.6V)
OUTPUT CURRENT:IOUTpch[mA]
OUTPUT CURRENT:IOUTpch[mA]
XC61AC2702 (2.7V)
10
12
VDS=2.1V
10
1.5V
8
6
1.0V
4
0.5V
2
0
0
1
2
3
4
5
6
7
8
INPUT VOLTAGE VIN (V)
9 10