ACE ACE301N09TO+ High-precision low voltage detector Datasheet

ACE301
Technology
High-precision Low Voltage Detector
Description
ACE301 is a series of high precision voltage detector with ultra low current consumption (500nA typ. at
Vdd=3.0V). It can work at very low voltage, which makes it perfect for system reset.
ACE301 is composed of high precision voltage reference, comparator, output driver and resistor array.
Internally preset detect voltage has a low temperature drift and requires no external trimming.
Two type of output, CMOS and N-channel open-drain are available.
ACE301 is available in SOT-89-3, SOT-23-3 TO-92, SOT23-5, packages which is Pb free.
Features
•
•
•
•
•
•
High-precision detection Voltage: ±2%
Detection Voltage:0.9V~6.0V (in 0.1V steps)
Precise hysteresis:4% typ.
Operating Voltage range:0.7V~10V
Ultra-low current consumption:500nA typ. (at VDD=3.0V)
Two Output forms: CMOS and N-channel open-drain
Application
•
•
•
•
•
Power monitor for portable equipment such as PDA, DSC, Mobile phone, Notebook, MP3
CPU and Logic Circuit Reset
Battery Checker
Battery Back-up Circuit
Power Failure Detector
Absolute Maximum Ratings
Parameter
Symbol
Max
Unit
Input Voltage
-0.3~12
V
Output Voltage
-0.3~12
V
Maximum Output current
70
mA
Maximum power dissipation
150
mW
Ambient temperature
-40~+70
℃
Storage temperature
-40~125
℃
VER 1.3
1
ACE301
Technology
High-precision Low Voltage Detector
Packaging Type
SOT-23-3
SOT-89-3
SOT-23-5
3
1
5
2
1
2
3
1
TO-92
4
2
3
123
SOT-23-3
1
3
2
Pin number
SOT-89-3
SOT-23-5
1
1
2
2
3
3
4
5
TO-92
3
1
2
Pin
name
Description
VOUT
VDD
VSS
NC
NC
Voltage detection output Pin
Voltage input Pin
GND Pin
No connection
No connection
Ordering information
Selection Guide
ACE301 X XX XX
+
H
Halogen - free
Pb - free
BM: SOT-23-3
BN: SOT-23-5
AM: SOT-89-3
EP: TO-92
Detector Voltage
0.9V ~ 6.0V
Output type
N: Nch
C: CMOS
VER 1.3
2
ACE301
Technology
High-precision Low Voltage Detector
Block diagram
N channel open-drain
CMOS output
Recommended Work Conditions
Item
Min
Input Voltage
0.7
Ambient temperature
-40
Recommended
25
Max
Unit
10
V
70
℃
Electrical Characteristics:
ACE301C/N09XX + (0.9V)
Symbol
Parameter
-VDET
Detector Threshold
VHYS
Detector Threshold Hysteresis
ISS
Current Consumption
VDDH
Maximum Operating Voltage
VDDL
Minimum Operating Voltage
IOUT
TPLH
Output Current
Output Delay Time
(Topt=25℃, Unless otherwise specified.)
Conditions
Reference data
Typ.
Max.
0.882
0.9
0.918
V
0.018 0.036 0.054
V
1
1.5
uA
10
V
VDD=2.9V
Nch
VDS=0.05V, VDD=0.7V
VDS=0.50V, VDD=0.8V
Pch
VDS=-2.1V, VDD=4.50V
Unit
Min.
0.5
V
0.01
0.05
0.05
0.50
mA
1.0
2.0
mA
20
VER 1.3
uS
3
ACE301
Technology
ACE301C/N27XX + (2.7V)
Symbol
Parameter
High-precision Low Voltage Detector
(Topt=25℃, Unless otherwise specified.)
Conditions
Reference data
Unit
Min.
Typ.
Max.
-VDET
Detector Threshold
2.646
2.7
2.754
V
VHYS
Detector Threshold Hysteresis
0.054
0.108
0.162
V
ISS
Current Consumption
0.5
1
uA
VDDH
Maximum Operating Voltage
10
V
VDDL
Minimum Operating Voltage
IOUT
TPLH
Output Current
Nch
VDS=0.05V, VDD=0.7V
Pch
VDS=-2.1V, VDD=4.50V
0.5
V
0.01
0.05
mA
1.0
2.0
mA
Output Delay Time
ACE301C/N30XX + (3.0V)
Symbol
VDD=4.7V
Parameter
20
uS
(Topt=25℃, Unless otherwise specified.)
Conditions
Reference data
Unit
Min.
Typ.
Max.
-VDET
Detector Threshold
2.94
3.0
3.06
V
VHYS
Detector Threshold Hysteresis
0.060
0.12
0.18
V
ISS
Current Consumption
0.5
1
uA
VDDH
Maximum Operating Voltage
10
V
VDDL
Minimum Operating Voltage
IOUT
TPLH
Output Current
Output Delay Time
VDD=5.0V
Nch
VDS=0.05V, VDD=0.7V
Pch
VDS=-2.1V, VDD=4.50V
0.5
V
0.01
0.05
mA
1.0
2.0
mA
20
uS
VER 1.3
4
ACE301
Technology
ACE301C/N34XX + (3.4V)
Symbol
Parameter
High-precision Low Voltage Detector
(Topt=25℃, Unless otherwise specified.)
Conditions
Reference data
Unit
Min.
Typ.
Max.
-VDET
Detector Threshold
3.332
3.4
3.468
V
VHYS
Detector Threshold Hysteresis
0.068
0.136
0.204
V
ISS
Current Consumption
0.5
1
uA
VDDH
Maximum Operating Voltage
10
V
VDDL
Minimum Operating Voltage
IOUT
TPLH
0.5
V
Nch
VDS=0.05V, VDD=0.7V
0.01
0.05
mA
Pch
VDS=-2.1V, VDD=4.50V
1.0
2.0
mA
Output Current
Output Delay Time
ACE301C/N44XX + (4.4V)
Symbol
VDD=5.0V
Parameter
20
uS
(Topt=25℃, Unless otherwise specified.)
Conditions
Reference data
Unit
Min.
Typ.
Max.
-VDET
Detector Threshold
4.312
4.4
4.488
V
VHYS
Detector Threshold Hysteresis
0.088
0.176
0.264
V
ISS
Current Consumption
0.5
1
uA
VDDH
Maximum Operating Voltage
10
V
VDDL
Minimum Operating Voltage
IOUT
TPLH
VDD=6.4V
0.5
V
Nch
VDS=0.05V, VDD=0.7V
0.01
0.05
mA
Pch
VDS=-2.1V, VDD=8.0V
1.5
3.0
mA
Output Current
Output Delay Time
20
uS
VER 1.3
5
ACE301
Technology
High-precision Low Voltage Detector
Electrical Characteristics by Detector Threshold
Detector Threshold
Part Number
Detector Threshold
Hysteresis
-Vdet[V]
Supply Current1
Supply Current2
Iss1[uA]
Iss2[uA]
Vhys[V]
Min.
Typ.
Max.
Min.
Typ.
Max.
Condition
Typ.
Max.
Condition
ACE301X09XX+
0.882
0.900
0.918
0.018
0.036
0.054
Vdd=
0.5
1.0
Vdd=
ACE301X10XX+
0.980
1.000
1.020
0.020
0.040
0.060
(-Vdet)+0.1V
ACE301X11XX+
1.078
1.100
1.122
0.022
0.044
0.066
ACE301X12XX+
1.176
1.200
1.224
0.024
0.048
0.072
ACE301X13XX+
1.274
1.300
1.326
0.026
0.052
0.078
ACE301X14XX+
1.372
1.400
1.428
0.028
0.056
0.084
ACE301X15XX+
1.470
1.500
1.530
0.030
0.060
0.090
ACE301X16XX+
1.568
1.600
1.632
0.032
0.064
0.096
ACE301X17XX+
1.666
1.700
1.734
0.034
0.068
0.102
ACE301X18XX+
1.764
1.800
1.836
0.036
0.072
0.108
ACE301X19XX+
1.862
1.900
1.938
0.038
0.076
0.114
ACE301X20XX+
1.960
2.000
2.040
0.040
0.080
0.120
ACE301X21XX+
2.058
2.100
2.142
0.042
0.084
0.126
ACE301X22XX+
2.156
2.200
2.244
0.044
0.088
0.132
ACE301X23XX+
2.254
2.300
2.346
0.046
0.092
0.138
ACE301X24XX+
2.352
2.400
2.448
0.048
0.096
0.144
ACE301X25XX+
2.450
2.500
2.550
0.050
0.100
0.150
ACE301X26XX+
2.548
2.600
2.652
0.052
0.104
0.156
ACE301X27XX+
2.646
2.700
2.754
0.054
0.108
0.162
ACE301X28XX+
2.744
2.800
2.856
0.056
0.112
0.168
ACE301X29XX+
2.842
2.900
2.958
0.058
0.116
0.174
ACE301X30XX+
2.940
3.000
3.060
0.060
0.120
0.180
ACE301X31XX+
3.038
3.100
3.162
0.062
0.124
0.186
ACE301X32XX+
3.136
3.200
3.264
0.064
0.128
0.192
ACE301X33XX+
3.234
3.300
3.366
0.066
0.132
0.198
ACE301X34XX+
3.332
3.400
3.468
0.068
0.136
0.204
ACE301X35XX+
3.430
3.500
3.570
0.070
0.140
0.210
ACE301X36XX+
3.528
3.600
3.672
0.072
0.144
0.216
ACE301X37XX+
3.626
3.700
3.774
0.074
0.148
0.222
ACE301X38XX+
3.724
3.800
3.876
0.076
0.152
0.228
ACE301X39XX+
3.822
3.900
3.978
0.078
0.156
0.234
ACE301X40XX+
3.920
4.000
4.080
0.080
0.160
0.240
ACE301X41XX+
4.018
4.100
4.182
0.082
0.164
0.246
ACE301X42XX+
4.116
4.200
4.284
0.084
0.168
0.252
ACE301X43XX+
4.214
4.300
4.386
0.086
0.172
0.258
Typ.
Max.
1.0
1.5
0.5
1.0
(-Vdet)+2V
VER 1.3
6
ACE301
Technology
High-precision Low Voltage Detector
ACE301X44XX+
4.312
4.400
4.488
0.088
0.176
0.264
ACE301X45XX+
4.410
4.500
4.590
0.090
0.180
0.270
ACE301X46XX+
4.508
4.600
4.692
0.092
0.184
0.276
ACE301X47XX+
4.606
4.700
4.794
0.094
0.188
0.282
ACE301X48XX+
4.704
4.800
4.896
0.096
0.192
0.288
ACE301X49XX+
4.802
4.900
4.998
0.098
0.196
0.294
ACE301X50XX+
4.900
5.000
5.100
0.100
0.200
0.300
ACE301X51XX+
4.998
5.100
5.202
0.102
0.204
0.306
ACE301X52XX+
5.096
5.200
5.304
0.104
0.208
0.312
ACE301X53XX+
5.194
5.300
5.406
0.106
0.212
0.318
ACE301X54XX+
5.292
5.400
5.508
0.108
0.216
0.324
ACE301X55XX+
5.390
5.500
5.610
0.110
0.220
0.330
ACE301X56XX+
5.488
5.600
5.712
0.112
0.224
0.336
ACE301X57XX+
5.586
5.700
5.814
0.114
0.228
0.342
ACE301X58XX+
5.684
5.800
5.916
0.116
0.232
0.348
ACE301X59XX+
5.782
5.900
6.018
0.118
0.236
0.354
ACE301X60XX+
5.880
6.000
6.120
0.120
0.240
0.360
Output Current1
Output Current2
Output
Delay
Time
Iout1[mA]
Iout2[mA]
TPLH[us]
Condition
NCH,
VDS=0.05V,
VDD=0.7V
Min.
0.01
Typ.
0.05
Condition
Min.
Typ.
Vdd=0.85V
0.1
0.5
Vdd=1.0V
0.2
1.0
NCH,
VDS=0.5V
Max.
20
VDD=1.5V
1.0
2.0
Minimum
Operation
Voltage
Detector
Threshold
Temperature
Coefficient
VDDL[V]
Δ-VDET/ΔTppm/℃
Typ.
0.5
Max.
Condition
Typ.
0.7
-40℃ ≤
Topt
≤ 85℃
±100
VER 1.3
7
ACE301
Technology
High-precision Low Voltage Detector
Function description
High precision low temperature co-efficiency reference voltage is applied to the negative input of a
comparator. Input voltage, divided by resistor array of Ra Rb and Rc, is applied to the positive input of the
comparator. Output of the comparator controls a pair of NMOS and PMOS switches, generating the
hysteresis. Output of the comparator passes a series of buffer to drive the output CMOS pair.
+VDET, -VDET, VHYS can be calculated as follows:
-VDET =VREF*(1+Ra/(Rb+Rc))
+VDET =VREF*(1+(Ra+Rb)/Rb)=VREF *(1+(Ra+Rc)/Rb)
VHYS = +VDET-(-VDET)=VREF*(Ra+Rb+Rc)(1/Rb-1/(Rb+Rc))
VER 1.3
8
ACE301
Technology
No.
Ⅰ
Ⅱ
Ⅲ
Ⅳ
Operation status
VDD>-VDET
VDD drops below – VDET
VDD drops further below VDDL
VDD rises above VDDL
Ⅴ
VDD rises above + VDET
High-precision Low Voltage Detector
Output status
Output voltage is equal to the supply voltage
Output voltage equals to GNP level
Output voltage is undefined
Output voltage equals to GNP level
Output voltage equals to supply voltage,
VHYS=(+VDET)-(-VDET)
Test circuits
(1) Supply current test circuit
ACE301
(3) NCH Drive Output Current Test Circuit
ACE301
(2) Detector threshold test circuit
ACE301
(4) PCH Drive Output Current Test Circuit
ACE301
VER 1.3
9
ACE301
Technology
High-precision Low Voltage Detector
Typical Performance Characteristics
(1) Output voltage VS. Input Voltage
Detector threshold=0.9V
(-40℃)
Input Voltage (V)
Detector threshold=2.7V
(-40℃)
Input Voltage (V)
Detector threshold=3.0V
(-40℃)
Input Voltage (V)
Detector threshold=0.9V
(25℃)
Input Voltage (V)
Detector threshold=2.7V
(25℃)
Input Voltage (V)
Detector threshold=3.0V
(25℃)
Input Voltage (V)
Detector threshold=0.9V
(70℃)
Input Voltage (V)
Detector threshold=2.7V
(70℃)
Input Voltage (V)
Detector threshold=3.0V
(70℃)
Input Voltage (V)
VER 1.3
10
ACE301
Technology
Detector threshold=4.4V
(-40℃)
High-precision Low Voltage Detector
Detector threshold=4.4V
(25℃)
Detector threshold=4.4V
(70℃)
Input Voltage (V)
Input Voltage (V)
Input Voltage (V)
(2) Supply current VS. Input Voltage
Detector threshold=0.9V
Input Voltage (V)
Detector threshold=3.0V
Input Voltage (V)
Detector threshold=2.7V
Input Voltage (V)
Detector threshold=4.4V
Input Voltage (V)
VER 1.3
11
ACE301
Technology
High-precision Low Voltage Detector
(3) Detector Threshold Hysteresis VS. Temperature
Detector threshold=0.9V
Temperature (℃)
Detector threshold=3.0V
Temperature (℃)
Detector threshold=2.7V
Temperature (℃)
Detector threshold=4.4V
Temperature (℃)
(4) Nch Driver Output Current VS. VDS
ACE301C09XX+
VDS(V)
ACE301C27XX+
VDS(V)
VER 1.3
12
ACE301
Technology
ACE301C30XX+
VDS(V)
High-precision Low Voltage Detector
ACE301C44XX+
VDS(V)
(5) Nch Driver Output Current VS. Input Voltage
Detector threshold=2.7V
Input Voltage Vin(V)
Detector threshold=3.0V
Input Voltage Vin(V)
(6) PCH Driver Output Current VS. Input Current
Detector threshold=0.9V
Detector threshold=2.7V
Input Voltage Vin(V)
Input Voltage Vin(V)
VER 1.3
13
ACE301
Technology
High-precision Low Voltage Detector
Detector threshold=4.4V
Input Voltage Vin(V)
Typical applications
ACE301
Note:
1. R0 is unnecessary for CMOS output products.
2. The value of R0 need to be selected in different application, Typical value is 470kΩ.
VER 1.3
14
ACE301
Technology
High-precision Low Voltage Detector
Packing Information
SOT-23-3
VER 1.3
15
ACE301
Technology
High-precision Low Voltage Detector
Packing Information
SOT-89-3
VER 1.3
16
ACE301
Technology
High-precision Low Voltage Detector
Packing Information
SOT-23-5
VER 1.3
17
ACE301
Technology
High-precision Low Voltage Detector
Packing Information
TO-92
VER 1.3
18
ACE301
Technology
High-precision Low Voltage Detector
Notes
ACE does not assume any responsibility for use as critical components in life support devices or systems
without the express written approval of the president and general counsel of ACE Electronics Co., LTD.
As sued herein:
1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant
into the body, or (b) support or sustain life, and shoes failure to perform when properly used in
accordance with instructions for use provided in the labeling, can be reasonably expected to result in
a significant injury to the user.
2. A critical component is any component of a life support device or system whose failure to perform can
be reasonably expected to cause the failure of the life support device or system, or to affect its safety
or effectiveness.
ACE Technology Co., LTD.
http://www.ace-ele.com/
VER 1.3
19
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