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XC61CC1502MH [TOREX]

LOW VOLTAGE DETECTORS; 低电压检测器
XC61CC1502MH
型号: XC61CC1502MH
厂家: Torex Semiconductor    Torex Semiconductor
描述:

LOW VOLTAGE DETECTORS
低电压检测器
文件: 总12页 (文件大小:270K)
中文:  中文翻译
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02S_02XC61C(低電圧用) 02.09.12 14:23 ページ 131  
Series  
Low Voltage Detectors(VDF=0.9V~1.5V)�  
CMOS  
■Applications  
Microprocessor reset circuitry  
Memory battery back-up circuits  
Power-on reset circuits  
Highly Accurate  
:
2%  
2
Low Power Consumption : 0.7µA (VIN = 1.5V)  
Ultra small SSOT-24 (SC-82) Package  
Power failure detection  
System battery life and charge voltage monitors  
■General Description  
■Features  
The XC61C series are highly precise, low power consumption voltage  
detectors, manufactured using CMOS and laser trimming technologies.  
Detect voltage is extremely accurate with minimal temperature drift.  
Both CMOS and N-channel open drain output configurations are  
available.  
Highly accurate  
:
2%  
Low power consumption: TYP 0.7 µA [ VIN=1.5V ]  
Detect voltage range : 0.9V ~ 1.5V in 0.1V increments  
Operating voltage range : 0.7V ~ 6.0V  
Detect voltage temperature characteristics  
: TYP 100ppm/°C  
Output configuration  
Ultra small package  
: N-channel open drain or CMOS  
: SSOT-24 (150mW) super mini-mold  
: SOT-23 (150mW) mini-mold  
: SOT-89 (500mW) mini-power mold  
: TO-92 ( 300mW )  
Note : There are no products available with a set-up voltage  
accuracy of 1%.  
■Typical Application Circuits  
R
100kΩ  
VIN  
VIN  
VIN  
VIN  
VOUT  
VOUT  
VSS  
VSS  
CMOS Output  
N-ch Open Drain Output  
■Typical Performance Characteristic  
SUPPLY CURRENT vs. INPUT VOLTAGE  
XC61CC0902 (0.9V)  
3.5  
3.0  
2.5  
2.0  
1.5  
Ta=85℃�  
25℃�  
1.0  
0.5  
-40℃�  
0
0
1
2
3
4
5
6
Input Voltage: VIN (V)  
131  
02S_02XC61C(低電圧用) 02.09.12 14:23 ページ 132  
XC61C Series  
■Pin Configuration  
■Pin Assignment  
VIN  
3�  
VSS  
NC  
3�  
PIN NUMBER  
PIN  
TO-92 (T) TO-92 (L) NAME  
4�  
FUNCTION  
SSOT-24  
SOT-23  
SOT-89  
2
4
1
3
3
2
1
-
2
3
1
-
2
3
1
-
1
2
3
-
V
V
IN  
Supply Voltage Input  
Ground  
SS  
1
2�  
VIN  
2�  
VSS  
SOT-23  
(TOP VIEW)  
1
VOUT  
VOUT  
Output  
VOUT  
SSOT-24(SC-82)  
(TOP VIEW)  
NC  
No Connection  
2
1
2�  
VIN  
3�  
VSS  
VOUT  
SOT-89  
(TOP VIEW)  
1
2
3
1
2
3
VOUTꢀ  
VIN  
VSS  
VIN  
VSS  
VOUT  
TO-92 (T Type)�  
(TOP VIEW)�  
TO-92 (L Type)�  
(TOP VIEW)�  
■Product Classification  
Ordering Information  
XC61C xx xx x x x  
a
b c d e f  
DESIGNATOR  
a
DESCRIPTION  
Output Configuration :  
C = CMOS  
N = N-ch open drain  
Detect Voltage :  
09 = 0.9V  
15 = 1.5V  
Output Delay :  
0 = No delay  
DESIGNATOR  
DESCRIPTION  
Package Type:  
N = SSOT-24 (SC-82)  
M = SOT-23  
P= SOT-89  
T = TO-92 (Standard)  
L = TO-92 (Custom pin Configuration)  
Device Orientation :  
R = Embossed Tape ( Right )  
L = Embossed Tape ( Left )  
H = Paper Type ( TO-92)  
B = Bag ( TO-92 )  
e
b
c
d
f
Detect Accuracy :  
2 = within 2.0%  
132  
02S_02XC61C(低電圧用) 02.09.12 14:23 ページ 133  
XC61C  
Series  
■Packaging Information  
SSOT-24 (SC-82)  
D
e
C
b
2
b1  
SIZEꢀmm  
TYP  
MIN  
MAX  
A
A1  
A2  
b
0.80  
0.00  
0.80  
0.15  
0.25  
0.075  
1.80  
1.15  
1.80  
1.10  
0.10  
1.10  
0.10  
1.00  
0.30  
0.40  
0.225  
2.20  
1.45  
2.40  
1.50  
0.25  
0.35  
0.125  
2.00  
1.25  
2.10  
1.30  
0.30  
b1  
C
D
E
y
He  
e
L
y
0.10  
SOT-23  
+0.1�  
-0.05  
+0.1�  
-0.05  
0.15  
0.4  
0~0.1  
(0.95)�  
1.1±0.1  
1.9±0.2  
2.9±0.2  
133  
02S_02XC61C(低電圧用) 02.09.12 14:23 ページ 134  
XC61C Series  
SOT-89  
1.5±0.1  
4.5±0.1  
+0.15�  
-0.2  
1.6  
2
+0.03�  
-0.02  
0.4  
0.42±0.06  
0.42±0.06  
0.47±0.06  
1.5±0.1 1.5±0.1  
TO-92  
+0.35�  
-0.45  
4.65  
3.7±0.3  
0.45±0.1  
0.4±0.05  
+0.4�  
+0.4�  
2.5  
2.5  
-0.1  
-0.1  
134  
02S_02XC61C(低電圧用) 02.09.12 14:23 ページ 135  
XC61C  
Series  
■Marking  
SSOT-24, SOT-23, SOT-89  
w
q
r
e
q
w r  
q
w e r  
SSOT-24(SC-82)  
(TOP VIEW)  
SOT-23  
(TOP VIEW)  
SOT-89  
(TOP VIEW)  
2
q Represents the integer of the Output Voltage and Detect Voltage  
CMOS Output (XC61CC series)  
DESIGNATOR CONFIGURATION VOLTAGE (V)  
N-Channel Open Drain Output (XC61CN series)  
DESIGNATOR  
CONFIGURATION  
VOLTAGE (V)  
A
B
K
L
CMOS  
CMOS  
0.w  
1.w  
N-ch  
N-ch  
0.w  
1.w  
w Represents the decimal number of the Detect Voltage  
DESIGNATOR VOLTAGE DESIGNATOR VOLTAGE  
e Based on internal standards�  
( SSOT-24 excepted )  
0
1
2
3
4
q.0  
q.1  
q.2  
q.3  
q.4  
5
6
7
8
9
DESIGNATOR  
3
q.5  
q.6  
q.7  
q.8  
q.9  
r Represents the assembly lot no.�  
Based on internal standards  
TO-92  
w
r
Represents the Detect Voltage  
DESIGNATOR  
q
Represents the output �  
configuration  
1
L
7
61C  
1
5
7
61C  
VOLTAGE�  
OUTPUT�  
CONFIGURATION  
(V)  
②�  
③�  
DESIGNATOR  
2
3
4
5
6
2
3
4
6
0
1
9
5
0.9  
1.5  
C
N
CMOS  
N-ch  
Indicates Delay Time  
DESIGNATOR  
0
DELAY TIME�  
No delay  
t
Represents the Detect Voltage Accuracy  
DESIGNATOR  
DETECT VOLTAGE ACCURACY�  
TO-92(L Type)�  
(TOP VIEW)  
TO-92(T Type)�  
(TOP VIEW)  
2
within 2%�  
y
Represents a least significant �  
digit of the produced year�  
u
Denotes the production lot number�  
0 to 9, A to Z repeated(G.I.J.O.Q.W excepted)  
DESIGNATOR Produced year�  
0
1
2000  
2001  
135  
02S_02XC61C(低電圧用) 02.09.12 14:23 ページ 136  
XC61C Series  
■Block Diagram  
(2) N-ch Open Drain Output  
(1) CMOS Output  
V
IN  
V
IN  
V
OUT  
V
OUT  
Vref  
Vref  
V
SS  
V
SS  
2
■Absolute Maximum Ratings  
O
Ta = 25 C  
UNITS  
PARAMETER  
Input Voltage  
Output Current  
SYMBOL  
IN  
OUT  
RATINGS  
V
9
50  
V
I
mA  
V
SS -0.3 ~ VIN +0.3  
CMOS  
Output Voltage  
VOUT  
V
VSS -0.3 ~ 9  
N-ch open drain  
150  
SSOT-24  
SOT-23  
150  
500  
Power Dissipation  
Pd  
mW  
SOT-89  
TO-92  
300  
O
Operating Ambient Temperature  
StorageTemperature  
Topr  
Tstg  
-40  
-40  
~
+85  
C
O
~
+125  
C
136  
02S_02XC61C(低電圧用) 02.09.12 14:23 ページ 137  
XC61C  
Series  
■Electrical Characteristics  
O
V
DF (T) = 0.9 to 1.5V  
PARAMETER  
2%  
Ta = 25 C  
SYMBOL  
CONDITIONS  
MIN  
TYP  
MAX  
UNITS CIRCUIT  
V
DF  
x 0.98  
DF  
x 0.02  
V
DF  
V
DF  
x 1.02  
DF  
V
DF  
Detect Voltage  
V
1
V
VDF  
V
V
HYS  
Hysteresis Range  
V
1
x 0.05  
0.7  
0.8  
0.9  
1.0  
x 0.08  
V
IN = 1.5V  
=2.0V  
=3.0V  
=4.0V  
=5.0V  
2.3  
2.7  
3.0  
3.2  
3.6  
6.0  
Supply Current  
I
SS  
µA  
V
2
2
1.1  
Operating Voltage  
V
IN  
V
DF(T) = 0.9V to 1.5V  
0.7  
1
3
N-ch  
P-ch  
V
V
DS=0.5V  
IN=0.7V  
=1.0V  
0.1  
0.85  
0.8  
2.7  
mA  
Output Current  
I
OUT  
V
DS=2.1V  
V
IN=6.0V  
-7.5  
100  
-1.5  
0.2  
4
-
( with CMOS output )  
-40OC Topr 85OC  
VDF  
ppm/°C  
Temperature Characteristics  
Delay Time  
Topr  
VDF  
ms  
tDLY  
5
(VDR  
VOUT inversion)  
Note :  
DF (T) : Established Detect Voltage Value  
Release Voltage : VDR = VDF + VHYS  
V
137  
02S_02XC61C(低電圧用) 02.09.12 14:23 ページ 138  
XC61C Series  
■Functional Description  
Functional Description ( CMOS output )  
q When input voltage (VIN) rises above detect voltage (VDF), output voltage (VOUT) will be equal to VIN. �  
( A condition of high impedance exists with N-ch open drain output configurations. )�  
w When input voltage (VIN) falls below detect voltage (VDF), output voltage (VOUT) will be equal to the ground voltage (VSS)  
level.�  
e When input voltage (VIN) falls to a level below that of the minimum operating voltage (VMIN), output will become unstable.  
In this condition, VIN will equal the pulled-up output ( should output be pulled-up.) �  
r When input voltage (VIN) rises above the ground voltage (VSS) level, output will be unstable at levels below the minimum  
operating voltage (VMIN). Between the VMIN and detect release voltage (VDR) levels, the ground voltage (VSS) level will be  
maintained.�  
2
t When input voltage (VIN) rises above detect release voltage (VDR), output voltage (VOUT) will be equal to VIN. �  
( A condition of high impedance exists with N-ch open drain output configurations. )�  
y The difference between VDR and VDF represents the hysteresis range.  
Timing Chart  
INPUT VOLTAGE (VIN)  
DETECT RELEASE VOLTAGE(VDR)  
DETECT VOLTAGE(VDF)  
y
MIN. OPERATING VOLTAGE(VMIN)  
GROUND VOLTAGE (VSS)  
OUTPUT VOLTAGE (VOUT)  
GROUND VOLTAGE(VSS)  
w
e
r
t
q
138  
02S_02XC61C(低電圧用) 02.09.12 14:23 ページ 139  
XC61C  
Series  
■Directions for use  
Notes on Use  
1. Please use this IC within the stated maximum ratings. Operation beyond these limits may cause degrading or  
permanent damage to the device.�  
2. When a resistor is connected between the VIN pin and the input with CMOS output configurations, oscillation may  
occur as a result of voltage drops at RIN if load current (IOUT) exists. ( refer to the Oscillation Description (1) below )�  
3. When a resistor is connected between the VIN pin and the input with CMOS output configurations, irrespective of  
N-ch output configurations, oscillation may occur as a result of through current at the time of voltage release even  
if load current (IOUT) does not exist. ( refer to the Oscillation Description (2) below )�  
4. With a resistor connected between the VIN pin and the input, detect and release voltage will rise as a result of the  
IC's supply current flowing through the VIN pin.�  
2
5. In order to stabilise the IC's operations, please ensure that VIN pin's input frequency's rise and fall times are more  
than several μ sec / V.�  
6. Please use N-ch open drains configuration, when a resistor RIN is connected between the VIN pin and power  
source. �  
In such cases, please ensure that RIN is less than 10kΩ and that C is more than 0.1μF.  
XC61CN Series  
RIN  
VOUT  
VIN  
VSS  
C
Diagram: Circuit using an input resistor  
Oscillation Description  
(1) Output current oscillation with the CMOS output configuration�  
ꢀWhen the voltage applied at IN rises, release operations commence and the detector's output voltage increases.  
Load current (IOUT) will flow at RL. Because a voltage drop ( RIN x IOUT) is produced at the RIN resistor, located  
between the input (IN) and the VIN pin, the load current will flow via the IC's VIN pin. The voltage drop will also lead  
to a fall in the voltage level at the VIN pin. When the VIN pin voltage level falls below the detect voltage level, detect  
operations will commence. Following detect operations, load current flow will cease and since voltage drop at RIN  
will disappear, the voltage level at the VIN pin will rise and release operations will begin over again. �  
Oscillation may occur with this " release - detect - release " repetition. �  
Further, this condition will also appear via means of a similar mechanism during detect operations.�  
(2) Oscillation as a result of through current�  
Since the XC61C series are CMOS IC S, through current will flow when the IC's internal circuit switching operates �  
( during release and detect operations ). Consequently, oscillation is liable to occur as a result of drops in voltage  
at the through current's resistor (RIN) during release voltage operations. ( refer to diagram 2 )�  
Since hysteresis exists during detect operations, oscillation is unlikely to occur.  
IN  
IN  
XC61CC Series  
XC61CN Series  
XC61CC Series  
RIN  
RIN  
RIN  
x IOUT  
RIN  
x ISS  
IOUT  
Voltage Drop  
VIN  
VOUT  
VIN  
VOUT  
Voltage Drop  
VSS  
VSS  
RL  
ISS*  
(Includes Current)�  
Diagram 2: Oscillation in relation to through current  
Diagram 1: Oscillation in relation to output current  
139  
02S_02XC61C(低電圧用) 02.09.12 14:23 ページ 140  
XC61C Series  
■Measuring Circuits  
Circuit 2  
Circuit 1  
A
R
100kΩ�  
(Note 1)  
VIN  
VIN  
VIN  
VIN  
VOUT  
VOUT  
V
VSS  
VSS  
V
2
Circuit 3  
Circuit 4  
VDS  
VIN  
VIN  
VIN  
VIN  
VOUT  
VOUT  
A
A
VSS  
VSS  
VDS  
Circuit 5  
R
100kΩ�  
(Note 1)  
VIN  
measurement of  
waveform  
VOUT  
VSS  
Note 1 : Not necessary with CMOS output products.  
140  
02S_02XC61C(低電圧用) 02.09.12 14:23 ページ 141  
XC61C  
Series  
■Typical Performance Characteristics  
(1) SUPPLY CURRENT vs. INPUT VOLTAGE  
XC61CC0902 (0.9V)  
XC61CC1102 (1.1V)  
XC61CC1502 (1.5V)  
3.5  
3.0  
2.5  
2.0  
1.5  
1.0  
0.5  
0
3.5  
3.0  
2.5  
2.0  
1.5  
1.0  
0.5  
0
3.5  
3.0  
2.5  
2.0  
1.5  
1.0  
0.5  
0
Ta=85℃�  
Ta=85℃�  
Ta=85℃�  
-40℃�  
25℃�  
25℃�  
25℃�  
2
-40℃�  
5
-40℃�  
5
0
1
2
3
4
6
0
1
2
3
4
5
6
0
1
2
3
4
6
Input Voltage: VIN (V)  
Input Voltage: VIN (V)  
Input Voltage: VIN (V)  
(2) DETECT, RELEASE VOLTAGE vs. AMBIENT TEMPERATURE  
XC61CC0902 (0.9V)  
XC61CC1102 (1.1V)  
XC61CC1502 (1.5V)  
1.00  
0.95  
0.90  
0.85  
0.80  
1.20  
1.15  
1.10  
1.05  
1.00  
1.60  
1.55  
1.50  
1.45  
1.40  
VDR  
VDR  
VDR  
VDF  
VDF  
VDFꢀ  
-50  
-25  
0
25  
50  
75  
100  
-50  
-25  
0
25  
50  
75  
100  
-50 -25  
0
25  
50  
75  
100  
Ambient Temp.: Ta (℃)  
Ambient Temp.: Ta (℃)  
Ambient Temp.: Ta (℃)  
(3) OUTPUT VOLTAGE vs. INPUT VOLTAGE  
XC61CN0902 (0.9V)  
XC61CN1102 (1.1V)  
XC61CN1502 (1.5V)  
1.2  
1.0  
0.8  
0.6  
0.4  
0.2  
0
1.4  
1.2  
1.0  
0.8  
0.6  
0.4  
0.2  
0
2.0  
1.5  
1.0  
0.5  
0
Ta=25℃�  
Ta=25℃�  
Ta=25℃�  
0
0.2  
0.4  
0.6  
0.8  
1.0  
1.2  
0
0.5  
1.0  
1.5  
2.0  
0
0.2 0.4 0.6 0.8 1.0 1.2 1.4  
Input Voltage: VIN (V)  
Input Voltage: VIN (V)  
Input Voltage: VIN (V)  
Note : The N-channel open drain pull up resistance value is 100kΩ�  
141  
02S_02XC61C(低電圧用) 02.09.12 14:23 ページ 142  
XC61C Series  
(4) N-ch DRIVER OUTPUT CURRENT vs. VDS  
XC61CC0902 (0.9V)  
XC61CC1102 (1.1V)  
Ta=25℃�  
XC61CC1102 (1.1V)  
1.4  
1.2  
1.0  
0.8  
0.6  
0.4  
0.2  
0
1.4  
1.2  
1.0  
0.8  
0.6  
0.4  
0.2  
0
3.0  
2.5  
2.0  
1.5  
1.0  
0.5  
0
Ta=25℃�  
Ta=25℃�  
VIN =1.0V  
VIN =0.8V  
VIN =0.8V  
0.7V  
0.7V  
2
0
0.2  
0.4  
0.6  
0.8  
1.0  
0
0.2  
0.4  
0.6  
0.8  
1.0  
0
0.2  
0.4  
0.6  
0.8  
1.0  
VDS (V)  
VDS (V)  
VDS (V)  
XC61CC1502 (1.5V)  
XC61CC1502 (1.5V)  
1.4  
1.2  
1.0  
0.8  
0.6  
0.4  
0.2  
0
8.0  
6.0  
4.0  
2.0  
0
Ta=25℃�  
Ta=25℃�  
VIN =0.8V  
VIN =1.4V  
1.2V  
0.7V  
1.0V  
0
0.2  
0.4  
0.6  
0.8  
1.0  
0
0.2 0.4 0.6 0.8 1.0 1.2 1.4  
VDS (V)  
VDS (V)  
(5) N-ch DRIVER OUTPUT CURRENT vs. INPUT VOLTAGE  
XC61CC0902 (0.9V)  
XC61CC1102 (1.1V)  
XC61CC1502 (1.5V)  
2.5  
2.0  
1.5  
1.0  
0.5  
0
5.0  
4.0  
3.0  
2.0  
1.0  
0
10  
8
Ta=-40℃�  
25℃�  
VDS=0.5V  
VDS=0.5V  
VDS=0.5V  
Ta=-40℃�  
25℃�  
6
4
Ta=85℃  
85℃�  
80℃�  
25℃�  
2
-40℃�  
0
0
0.2  
0.4  
0.6  
0.8  
1.0  
0
0.2  
0.4  
0.6  
0.8  
1.0  
1.2  
0
0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6  
Input Voltage: VIN (V)  
Input Voltage: VIN (V)  
Input Voltage: VIN (V)  
(6) P-ch DRIVER OUTPUT CURRENT vs. INPUT VOLTAGE  
XC61CC0902 (0.9V)  
XC61CC1102(1.1V)  
XC61CC1502 (1.5V)  
12  
10  
8
12  
10  
8
12  
10  
8
Ta= 25℃�  
VDS=2.1V  
Ta= 25℃�  
VDS=2.1V  
Ta= 25℃�  
VDS=2.1V  
1.5V  
1.5V  
1.5V  
1.0V  
0.5V  
1.0V  
0.5V  
1.0V  
0.5V  
6
6
6
4
4
4
2
2
2
0
0
0
0
1
2
3
4
5
6
0
1
2
3
4
5
6
0
1
2
3
4
5
6
Input Voltage: VIN (V)  
Input Voltage: VIN (V)  
Input Voltage: VIN (V)  
142  

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