AKM AP1152ADU31 14.5v input / 300ma output ldo regulator Datasheet

[AP1152ADUXX]
AP1152ADUXX
14.5V Input / 300mA Output LDO Regulator
1. Genaral Description
The AP1152ADUxx is a low dropout linear regulator with ON/OFF control, which can supply 300mA load
current. The IC is an integrated circuit with a silicon monolithic bipolar structure. The output voltage, trimmed
with high accuracy, is available from 1.3 to 9.5V in 0.1V steps. The output capacitor is available to use a small
0.1uF ceramic capacitor (2.5VVout). The over current, thermal and reverse bias protections are integrated, and
also the package is small and high power dissipation type. The IC is designed for space saving requirements.
2. Feature
 Available to use a small 0.1uF ceramic capacitor
 Dropout Voltage
105mV at 100mA
 Output Current
300mA Peak 480mA
 High Precision output voltage
1.5% or 50mV
 High ripple rejection ratio
80dB at 1kHz
 Wide operating voltage range
2.1V to 14.5V
 Very low quiescent current
65A at IOUT=0mA
 On/Off control (High active)
 Built-in Short circuit protection, thermal shutdown
 Built-in reverse bias over current protection
 Available very low noise application
 Very small surface mount package
SOT89-5
3. Application
 Any Electronic Equipment
 Battery Powered Systems
 Mobile Communication
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[AP1152ADUXX]
4. Table of Contents
1.
2.
3.
4.
5.
6.
7.
Genaral Description ........................................................................................................................................... 1
Feature................................................................................................................................................................ 1
Application......................................................................................................................................................... 1
Table of Contents ............................................................................................................................................... 2
Block Diagram ................................................................................................................................................... 3
Ordering Information ......................................................................................................................................... 4
Pin Configurations ............................................................................................................................................. 5
■ Pin Configurations ............................................................................................................................................ 5
■ Functions .......................................................................................................................................................... 5
8. Absolute Maximum Ratings .............................................................................................................................. 6
9. Recommended Operating Conditions ................................................................................................................ 6
10.
Electrical Characteristics ................................................................................................................................ 7
■ Electrical Characteristics of Ta=Tj=25C ........................................................................................................ 7
■ Electrical Characteristics of Ta=-40C~85℃................................................................................................. 10
11.
Description ................................................................................................................................................... 13
11.1 Input / output capacitors ........................................................................................................................... 13
11.2 Output noise ............................................................................................................................................. 14
11.3 Ripple Rejection ....................................................................................................................................... 15
11.4 DC Characteristics .................................................................................................................................... 16
11.5 Temperature Characteristics ..................................................................................................................... 18
11.6 On/Off Control ......................................................................................................................................... 20
11.7 PCB Layout .............................................................................................................................................. 21
12.
Definition of term ......................................................................................................................................... 22
13.
Recommended External Circuits .................................................................................................................. 23
■External Circuit ............................................................................................................................................... 23
14.
Package ........................................................................................................................................................ 24
■ Outline Dimensions ........................................................................................................................................ 24
15.
Revise History .............................................................................................................................................. 25
IMPORTANT NOTICE .......................................................................................................................................... 26
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[AP1152ADUXX]
5. Block Diagram
Figure 1. Block Diagram
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[AP1152ADUXX]
6. Ordering Information
AP1152ADUXX
-40 to 85°C
SOT89-5
・ Output Voltage Code
For product name, please check the below chart. Please contact your authorized ASAHI KASEI
MICRODEVICES representative for voltage availability.
AP1152ADUXX
Output voltage code
Table 1. Standard Voltage Version, Output Voltage & Voltage Code
XX
VOUT
XX
VOUT
XX
VOUT
18
1.8
30
3.0
45
4.5
25
2.5
33
3.3
50
5.0
28
2.8
40
4.0
Table 2. Optional Voltage Version, Output Voltage & Voltage Code
XX
VOUT
XX
VOUT
XX
VOUT
13
1.3
26
2.6
41
4.1
14
1.4
27
2.7
42
4.2
15
1.5
29
2.9
43
4.3
16
1.6
31
3.1
44
4.4
17
1.7
32
3.2
46
4.6
19
1.9
34
3.4
47
4.7
20
2.0
35
3.5
48
4.8
21
2.1
36
3.6
49
4.9
22
2.2
37
3.7
51
5.1
23
2.3
38
3.8
52
5.2
24
2.4
39
3.9
53
5.3
014011330-E-01
-4-
XX
54
5E
55
60
65
70
75
80
85
90
95
VOUT
5.4
5.45
5.5
6.0
6.5
7.0
7.5
8.0
8.5
9.0
9.5
2014/12
[AP1152ADUXX]
7. Pin Configurations
VO
VIN
U T
■ Pin Configurations
5
4
Np
GND
2
O N T
1
V) i e w
3
VC
(T o p
■ Functions
Pin No.
Pin
Description
Internal Equivalent Circuit
Description
Np
1
Noise Bypass Terminal
1
Np
Connect a bypass capacitor between GND.
2
GND
GND Terminal
VCONT
3
3
4
VCONT
320k 
On/Off Control Terminal
500k 
The pull-down resister (500k) is built-in.
VIN
Input Terminal
VOUT
VIN
5
5
VOUT
Output Terminal
Vref
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[AP1152ADSXX]
8. Absolute Maximum Ratings
Parameter
Supply Voltage
Symbol
VccMAX
min
max
Unit
Condition
-0.4
16
V
-0.4
6
V
Vout≦2.0V
Reverse Bias
VrevMAX
-0.4
12
V
2.1V≦Vout
-0.4
5
V
Np Terminal Voltage
VnpMAX
-0.4
16
V
Vcont Terminal Voltage
VcontMAX
Tj
150
Junction Temperature
℃
-55
150
Storage Temperature Range
Tstg
C
(Note 1)
900
mW
Power Dissipation
PD
Note 1. Please do derating with 7.2mW/C at Pd=900mW and 25C or more. Thermal resistance (JA) =
138C/W.
WARNING: The maximum ratings are the absolute limitation values with the possibility of the IC breakage.
When the operation exceeds this standard quality cannot be guaranteed.
9. Recommended Operating Conditions
Parameter
Symbol
min
typ
max
Unit
Operating Temperature Range
Operating Voltage Range
Ta
VOP
-40
2.1
-
85
14.5
C
V
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Condition
2014/12
[AP1152ADSXX]
10. Electrical Characteristics
■ Electrical Characteristics of Ta=Tj=25C
The parameters with min or max values will be guaranteed at Ta=Tj=25C.
Parameter
( VIN=Vout(typ)+1V,Vcont=1.8V,Ta=Tj=25C)
Condition
Unit
min
typ
max
Symbol
Output Voltage
Vout
Iout = 5mA
Line Regulation
LinReg
VIN = 5V
(Table 3, Table 4)
V
0.0
mV
-
6.0
Iout = 5mA ~ 100mA
Load Regulation
LoaReg
Iout = 5mA ~ 200mA
(Table 3, Table 4)
mV
Iout = 5mA ~ 300mA
Dropout Voltage (Note 2)
Vdrop
Iout = 100mA
-
105
170
Iout = 200mA
-
170
270
-
235
370
-
235
370
380
480
-
mA
-
500
-
mA
Iout = 270mA
(2.1V≤Vout≤2.3V)
Iout = 300mA
(2.4V≤Vout)
Maximum Output Current
(Note 3)
Short Circuit Current
(Note 3)
Quiescent Current
IoutMAX
Vout=Vout(typ)0.9
ISHORT
mV
Iq
Iout = 0mA
-
65
90
μA
Standby Current
Ground Terminal Current
Vcont Terminal
Vcont Terminal Current
Istandby
Vcont = 0V
-
0.0
0.1
Ignd
Iout = 100mA
-
1.8
3.0
μA
mA
Icont
Vcont = 1.8V
-
5.0
10.0
μA
Vcont Terminal Voltage
Vcont
Vout ON state
1.8
-
-
Vout OFF state
-
-
0.35
V
V
Note 2. For Vout  2.0V, no regulations.
Note 3. The maximum output current is limited by power dissipation.
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[AP1152ADSXX]
Table 3. Standard Voltage Version
Output Voltage
Part Number
Iout = 100mA
Load Regulation
Iout = 200mA
Iout = 300mA
min
typ
max
typ
max
typ
max
typ
max
V
V
V
mV
mV
mV
mV
mV
mV
AP1152ADU18
1.750
1.800
1.850
11
25
23
51
36
83
AP1152ADU25
2.450
2.500
2.550
12
27
24
55
40
91
AP1152ADU28
2.750
2.800
2.850
12
27
25
57
41
95
AP1152ADU30
2.950
3.000
3.050
12
28
26
58
42
97
AP1152ADU33
3.250
3.300
3.350
13
28
26
60
44
101
AP1152ADU40
3.940
4.000
4.060
13
30
28
64
48
109
AP1152ADU45
4.432
4.500
4.568
14
31
29
67
50
115
AP1152ADU50
4.925
5.000
5.075
14
32
31
70
53
121
014011330-E-01
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[AP1152ADSXX]
Table 4. Optional Voltage Version
Load Regulation
Output Voltage
Part Number
AP1152ADU13
AP1152ADU14
AP1152ADU15
AP1152ADU16
AP1152ADU17
AP1152ADU19
AP1152ADU20
AP1152ADU21
AP1152ADU22
AP1152ADU23
AP1152ADU24
AP1152ADU26
AP1152ADU27
AP1152ADU29
AP1152ADU31
AP1152ADU32
AP1152ADU34
AP1152ADU35
AP1152ADU36
AP1152ADU37
AP1152ADU38
AP1152ADU39
AP1152ADU41
AP1152ADU42
AP1152ADU43
AP1152ADU44
AP1152ADU46
AP1152ADU47
AP1152ADU48
AP1152ADU49
AP1152ADU51
AP1152ADU52
AP1152ADU53
AP1152ADU54
AP1152ADU5E
AP1152ADU55
AP1152ADU60
AP1152ADU65
AP1152ADU70
AP1152ADU75
AP1152ADU80
AP1152ADU85
AP1152ADU90
AP1152ADU95
014011330-E-01
Iout = 100mA
Iout = 200mA
Iout = 300mA
min
typ
max
typ
max
typ
max
typ
max
V
V
V
mV
mV
mV
mV
mV
mV
1.250
1.350
1.450
1.550
1.650
1.850
1.950
2.050
2.150
2.250
2.350
2.550
2.650
2.850
3.050
3.150
3.349
3.447
3.546
3.644
3.743
3.841
4.038
4.137
4.235
4.334
4.531
4.629
4.728
4.826
5.023
5.122
5.220
5.319
5.368
5.417
5.910
6.402
6.895
7.387
7.880
8.372
8.865
9.357
1.300
1.400
1.500
1.600
1.700
1.900
2.000
2.100
2.200
2.300
2.400
2.600
2.700
2.900
3.100
3.200
3.400
3.500
3.600
3.700
3.800
3.900
4.100
4.200
4.300
4.400
4.600
4.700
4.800
4.900
5.100
5.200
5.300
5.400
5.450
5.500
6.000
6.500
7.000
7.500
8.000
8.500
9.000
9.500
1.350
1.450
1.550
1.650
1.750
1.950
2.050
2.150
2.250
2.350
2.450
2.650
2.750
2.950
3.150
3.250
3.451
3.553
3.654
3.756
3.857
3.959
4.162
4.263
4.365
4.466
4.669
4.771
4.872
4.974
5.177
5.278
5.380
5.481
5.532
5.583
6.090
6.598
7.105
7.613
8.120
8.628
9.135
9.643
11
11
11
11
11
11
11
11
12
12
12
12
12
12
12
12
13
13
13
13
13
13
13
13
14
14
14
14
14
14
14
14
15
15
15
15
15
16
16
17
17
18
18
19
24
24
24
24
25
25
25
26
26
26
26
27
27
27
28
28
29
29
29
29
29
30
30
30
31
31
31
31
32
32
32
33
33
33
33
33
34
36
37
38
39
40
41
42
21
22
22
22
22
23
23
23
24
24
24
25
25
25
26
26
27
27
27
27
28
28
28
29
29
29
30
30
30
30
31
31
31
32
32
32
33
34
35
37
38
39
40
42
49
49
50
50
51
52
53
53
54
54
55
56
56
58
59
59
60
61
62
62
63
63
64
65
66
66
67
68
68
69
70
71
71
72
72
72
75
78
81
84
87
89
92
95
34
34
35
35
36
37
37
38
38
39
39
40
41
42
43
44
45
45
46
46
47
47
48
49
49
50
51
51
52
52
53
54
54
55
55
55
58
61
63
66
68
71
73
76
77
78
79
80
82
84
85
86
88
89
90
92
93
96
98
99
102
103
104
105
107
108
110
111
112
114
116
117
118
120
122
123
124
125
127
127
133
139
144
150
156
162
168
174
-9-
2014/12
[AP1152ADSXX]
■ Electrical Characteristics of Ta=-40C~85℃
The parameters with min or max values will be guaranteed at Ta=-40 ~ 85C.
Parameter
Symbol
Output Voltage
Vout
Line Regulation
LinReg
(VIN=Vout(typ)+1V,Vcont=1.8V,Ta=-40~85C)
Condition
Unit
min
typ
max
Iout = 5mA
(Table 5, Table 6)
V
VIN = 5V
-
0.0
8.0
mV
Iout = 5mA ~ 100mA
Load Regulation
LoaReg
(Table 5, Table 6)
Iout = 5mA ~ 200mA
mV
Iout = 5mA ~ 300mA
Dropout Voltage (Note 4)
Maximum Output Current
(Note 5)
Short Circuit Current
(Note 5)
Quiescent Current
Standby Current
Ground Terminal Current
Vcont Terminal
Vcont Terminal Current
Vcont Terminal Voltage
Vdrop
IoutMAX
Iout = 100mA (2.2V≤Vout)
-
105
200
Iout = 200mA (2.2V≤Vout)
-
170
320
Iout = 300mA (2.4V≤Vout)
-
235
440
340
480
-
mA
-
500
-
mA
Vout=Vout(typ)0.9
ISHORT
mV
Iq
Iout = 0mA
-
65
100
Istandby
Vcont = 0V
-
0.0
0.5
Ignd
Iout = 100mA
-
1.8
3.6
μA
μA
mA
Icont
Vcont = 1.8V
-
5.0
12.0
μA
Vout ON state
1.8
-
-
Vout OFF state
-
-
0.35
V
V
Vcont
Note 4. For Vout  2.1V, no regulations.
Note 5. The maximum output current is limited by power dissipation.
014011330-E-01
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2014/12
[AP1152ADSXX]
Table 5. Standard Voltage Version
Output Voltage
Part Number
AP1152ADU18
AP1152ADU25
AP1152ADU28
AP1152ADU30
AP1152ADU33
AP1152ADU40
AP1152ADU45
AP1152ADU50
014011330-E-01
Iout = 100mA
Load Regulation
Iout = 200mA
Iout = 300mA
min
typ
max
typ
max
typ
max
typ
max
V
V
V
mV
mV
mV
mV
mV
mV
1.720
2.420
2.720
2.920
3.217
3.900
4.387
4.875
1.800
2.500
2.800
3.000
3.300
4.000
4.500
5.000
1.880
2.580
2.880
3.080
3.383
4.100
4.613
5.125
11
12
12
12
13
13
14
14
30
31
32
33
33
35
36
37
23
24
25
26
26
28
29
31
63
68
70
72
74
79
82
86
36
40
41
42
44
48
50
53
118
131
137
141
147
161
170
180
- 11 -
2014/12
[AP1152ADSXX]
Table 6. Optional Voltage Version
Output Voltage
Part Number
AP1152ADU13
AP1152ADU14
AP1152ADU15
AP1152ADU16
AP1152ADU17
AP1152ADU19
AP1152ADU20
AP1152ADU21
AP1152ADU22
AP1152ADU23
AP1152ADU24
AP1152ADU26
AP1152ADU27
AP1152ADU29
AP1152ADU31
AP1152ADU32
AP1152ADU34
AP1152ADU35
AP1152ADU36
AP1152ADU37
AP1152ADU38
AP1152ADU39
AP1152ADU41
AP1152ADU42
AP1152ADU43
AP1152ADU44
AP1152ADU46
AP1152ADU47
AP1152ADU48
AP1152ADU49
AP1152ADU51
AP1152ADU52
AP1152ADU53
AP1152ADU54
AP1152ADU5E
AP1152ADU55
AP1152ADU60
AP1152ADU65
AP1152ADU70
AP1152ADU75
AP1152ADU80
AP1152ADU85
AP1152ADU90
AP1152ADU95
014011330-E-01
Iout = 100mA
Load Regulation
Iout = 200mA
Iout = 300mA
min
typ
max
typ
max
typ
max
typ
max
V
V
V
mV
mV
mV
mV
mV
mV
1.220
1.320
1.420
1.520
1.620
1.820
1.920
2.020
2.120
2.220
2.320
2.520
2.620
2.820
3.020
3.120
3.315
3.412
3.510
3.607
3.705
3.802
3.997
4.095
4.192
4.290
4.485
4.582
4.680
4.777
4.972
5.070
5.167
5.265
5.313
5.362
5.850
6.337
6.825
7.312
7.800
8.287
8.775
9.262
1.300
1.400
1.500
1.600
1.700
1.900
2.000
2.100
2.200
2.300
2.400
2.600
2.700
2.900
3.100
3.200
3.400
3.500
3.600
3.700
3.800
3.900
4.100
4.200
4.300
4.400
4.600
4.700
4.800
4.900
5.100
5.200
5.300
5.400
5.450
5.500
6.000
6.500
7.000
7.500
8.000
8.500
9.000
9.500
1.380
1.480
1.580
1.680
1.780
1.980
2.080
2.180
2.280
2.380
2.480
2.680
2.780
2.980
3.180
3.280
3.485
3.588
3.690
3.793
3.895
3.998
4.203
4.305
4.408
4.510
4.715
4.818
4.920
5.023
5.228
5.330
5.433
5.535
5.587
5.638
6.150
6.663
7.175
7.688
8.200
8.713
9.225
9.738
11
11
11
11
11
11
11
11
12
12
12
12
12
12
12
12
13
13
13
13
13
13
13
13
14
14
14
14
14
14
14
14
15
15
15
15
15
16
16
17
17
18
18
19
29
29
29
29
30
30
30
31
31
31
31
32
32
32
33
33
33
34
34
34
34
34
35
35
35
36
36
36
36
37
37
37
38
38
38
38
39
40
41
42
43
45
46
47
21
22
22
22
22
23
23
23
24
24
24
25
25
25
26
26
27
27
27
27
28
28
28
29
29
29
30
30
30
30
31
31
31
32
32
32
33
34
35
37
38
39
40
42
60
61
61
62
63
64
65
65
66
67
68
69
70
71
73
73
75
75
76
77
77
78
80
80
81
82
83
84
84
85
87
87
88
89
89
89
93
96
100
103
107
110
114
117
34
34
35
35
36
37
37
38
38
39
39
40
41
42
43
44
45
45
46
46
47
47
48
49
49
50
51
51
52
52
53
54
54
55
55
55
58
61
63
66
68
71
73
76
95
96
97
98
100
120
122
124
126
127
129
133
135
139
143
145
149
151
153
155
157
159
162
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166
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186
188
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219
229
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267
- 12 -
2014/12
[AP1152ADSXX]
11. Description
11.1 Input / output capacitors
Linear regulators require input and output capacitors in order to maintain the regulator's loop stability. If a
0.1F capacitor is connected to the output side, the IC provides stable operation at any voltage in the practical
current region. However, increase the CL capacitance when using the IC in the low current region and low
voltage. Otherwise, the IC oscillates. The equivalent series resistance (ESR) of the output capacitor must be
in the stable operation area. However, it is recommended to use as large a value of capacitance as is practical.
The output noise and the ripple noise decrease as the capacitance value increases. ESR values vary widely
between ceramic and tantalum capacitors. However, tantalum capacitors are assumed to provide more ESR
damping resistance, which provides greater circuit stability. This implies that a higher level of circuit
stability can be obtained by using tantalum capacitors when compared to ceramic capacitors with similar
values.
Vout
The recommended value : Cin=CL=0.22F(MLCC) Iout  0.5mA.
Cin=0.22F
 0.1F
The input capacitor is necessary when the battery is discharged, the power
CL=0.22F
supply impedance increases, or the line distance to the power supply is
 0.1F
long.
This capacitor might be necessary on each individual IC even if two or more regulator ICs are used. Please
confirm the stability while mounted. The IC provides stable operation with an output side capacitor of 0.1F
(Vout  2.5V). If it is 0.1F or more over the full range of temperature, either a ceramic capacitor or tantalum
capacitor can be used without considering ESR. Please confirm stability while mounted.
CL=0.1 F
1
Stable Area
CL=0.068F
1
0.1
50
100
Iout [mA]
150
50
100
Iout [mA]
150
CL=0.068F
0.1
0.01
50
100
150
Iout [mA]
CL0.68F All Stable
Stable Area
CL=0.068F
1
0.1
0.01
0.5
CL1.0F All Stable
010
Stable Area
1
0.1
0.01
2.0
CL2.2F All Stable
CL=0.068F
1
0.1
0.01
4.0
Stable Area
Vout=5.0V
100
10
ESR[]
Stable Area
Vout=4.0V
100
10
ESR[]
10
ESR []
10
Vout=2.5V, 3.0V
100
ESR[]
Vout=1.8V , 2.2V
100
ESR []
Vout=1.5V
100
0.01
0.5
50
100
150
0.5
50
100
150
Iout [mA]
CL0.33F All Stable
Figure 2. Output voltage, Output current vs. Stable Operation Area
The above graphs show stable operation with a ceramic capacitor of 0.1uF (excluding the low current region).
If the capacitance is not increased in the low voltage, low current area, stable operation may not be achieved.
Please select the best output capacitor according to the voltage and current used. The stability of the regulator
improves if a big output side capacitor is used (the stable operation area extends.) Please use as large a
capacitance as is practical. Although operation above 150 mA has not been described, stability is equal to or
better than operation at 150 mA.
For evaluation
Kyocera :CM05B104K10AB , CM05B224K10AB , CM105B104K16A , CM105B224K16A , CM21B225K10A
Murata
B Curve
F Curve
0
% Capacitance vs. Temperature
2
4
6
Bias voltage(V)
014011330-E-01
8
10
100
90
80
70
60
50
B Curve
CAP
%
CAP
100
90
80
70
60
50
:GRM36B104K10 , GRM42B104K10 , GRM39B104K25 , GRM39B224K10 , GRM39B105K6.3
Capacitance vs. Voltage
-50
F Curve
-25
0
25 50
Ta(C)
- 13 -
75
100
Generally, a ceramic capacitor has
both a temperature characteristic
and a voltage characteristic. Please
consider both characteristics when
selecting the part. The B curves are
the recommend characteristics.
2014/12
[AP1152ADSXX]
11.2 Output noise
AP1152ADU30 Cnp vs. Noise Iout=30mA BPF=400Hz  80kHz
Cnp vs Noise
Noise(Vrms)
Iout=30mA BPF:400
300
CL=MLCC
Vout vs Noise
 80kHz
Noise
Iout=30mA Cnp=10000pF CL=0.22F(MLCC)
(Vrms)
BPF:400  80kHz
CL=0.22F
CL=0.47F
CL=1.0F
CL=2.2F
CL=10F
250
200
150
90
80
70
60
50
100
40
CL=Tantal
30
50
20
0
1
10
100
Cnp(pF)
1000
Iout vs. Noise
Noise(Vrms)
Cnp=10000pF BPF:400
95
90
85
80
75
70
65
60
55
50
45
40
35
50
100
150
200
10
1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0
Vout(V)
100000
Noise(Vrms)
 80kHz
95
90
85
80
75
70
65
60
55
50
45
40
35
CL=0.22uF
CL=0.47uF
CL=1.0uF
CL=2.2uF
CL=10uF
CL=MLCC
0
10000
250
300
Iout vs Noise
Cnp=10000pF BPF:400
CL=0.22uF
CL=0.47uF
CL=1.0uF
CL=2.2uF
CL=10uF
CL=Tantal
0
50
100
 80kHz
150
200
250
300
Iout(mA)
Iout(mA)
Increase Cnp to decrease the noise. The recommended Cnp capacitance is 6800pF(682) ~ 0.22F(224).
The amount of noise increases with the higher output voltages.
Noise Level(1/f)
Noise(V/Hz)
10
Cnp=1000pF
1
Cin=10F Iout=10mA
CL=0.22F (Ceramic)
Cnp=0.1F
0.1
Cnp=0.01F
0.01
10
014011330-E-01
100
1k
10k
Frequency(Hz)
100k
- 14 -
2014/12
[AP1152ADSXX]
11.3 Ripple Rejection
VIN=5.0V Vout=3.0V Iout=10mA
VR=500mVp-p f=100  1MHz Cnp=0.1uF
CL=0.22uF (MLCC)
VIN
Vout
AP1152
CL
CL=0.22 uF (Tantal)
Vcont
Cnp
0.1F
GND
CL=1uF (MLCC)
B : CL=0.22uF (Tantal)
B : Cref=0.001uF
CL=1 uF (Tantal)
A : CL=10uF (Tantal)
A : Cref=0.1uF
The ripple rejection characteristic depends on the characteristic and the capacitance value of the capacitor
connected to the output side. The RR characteristic of 50KHz or more varies greatly with the capacitor on
the output side and PCB pattern. If necessary, please confirm stability while operating.
Ripple Rejection vs. Iout
R.R(dB)
0
-10
-20
-30
-40
-50
-60
-70
-80
-90
-100
Cnp=0.01μF
CL=0.22μF(Ceramic)
VIN=5.0V
Vripple=500mVp-p
Freq=1kHz
Freq=400Hz
0
50
100
150
Iout(mA)
014011330-E-01
200
250
300
Ripple Rejection at Low VIN
R.R (dB)
0
-10
Iout :1, 50, 100, 150, 200, 250, 300mA
-20
-30
-40
-50
-60
-70
-80
Without Cin Vripple:100mVp-p Freq:1kHz Cnp:0.01μF
CL:0.22μF(Ceramic)
-90
-100
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0
VIN-Vout(typ) (V)
- 15 -
2014/12
[AP1152ADSXX]
11.4 DC Characteristics
Line regulation
Vout(mV)
15
10
5
0
-5
-10
-15
-20
-25
-30
-35
Load regulation
Vout(mV)
Vo1.5V
Vo2.0V
Vo3.0V
Vo4.0V
Vo5.0V
0
5
10
15
20
VIN(V)
Vo=2.0V
Vo=3.0V
Vo=5.0V
0
50
100
150
200
250
300
Iout(mA)
Regulation point
Vout(mV)
10
0
-10
-20
-30
-40
-50
-60
-70
-80
Vdrop
Vdrop(mV)
0
-50
-100
-150
-200
100
Iout=0mA,50mA,100mA,150mA,200mA,250mA,300mA
0.0
Iout=0mA
-100
-250
-300
-350
-400
-450
-500
Iout=300mA
-200
-300
100
VIN(mV)
0
100
200
300
Iout(mA)
400
500
Vcont vs. Icont
Icont(A)
20
15
Vout
10
Icont
5
0
0.0
1.0
2.0
3.0
4.0
5.0
Vcont(V)
014011330-E-01
- 16 -
2014/12
[AP1152ADSXX]
Short circuit current
Vout(V)
IoutMax(mA)
IoutMax at low Vop
 1152ADU24
1152ADU15
500
450
400
350
300
250
200
6.0
5.0
4.0
3.0
2.0
150
100
50
0
1.0
0.0
0
100
200
300
400
1.7
500
1.8
1.9
Iout(mA)
Istandby(A)
GND current
Ignd(mA)
2.0
2.1
Vop(V)
2.2
2.3
2.4
Standby current
1.E-04
12
11
10
9
8
7
6
5
4
3
2
1
0
1.E-05
Vo1.5V
Vo2.0V
Vo3.0V
Vo4.0V
Vo5.0V
1.E-06
1.E-07
1.E-08
1.E-09
1.E-10
1.E-11
1.E-12
50
0
100
150
200
250
0
300
Iout(mA)
2
4
6
8
10 12 14 16 18 20
VIN(V)
Reverse bias current
Irev(A)
60
50
Vout=2V
Vout=3V
40
Vout=4V
30
20
Vout=5V
10
0
0
1
014011330-E-01
2
3
4
5 6 7
Vrev(V)
8
9 10
- 17 -
2014/12
[AP1152ADSXX]
11.5 Temperature Characteristics
Max Iout
Iout (mA)
500
16.0
480
14.0
460
12.0
440
10.0
420
8.0
400
6.0
380
4.0
360
2.0
340
-50
Vout=Vout(typ) 0.9
-25
0
25
50
Ta(C)
75
100
Io=200mA
Io=150mA
Io=100mA
Io=50mA
Vcont=3.0V
Vcont=2.0V
0
25
50
Ta(C)
Vcon
t=1.8
75V 100
350
Io=300mA
50
75
100
on/off point
1.6
1.5
1.4
1.3
1.2
1.1
1.0
0.9
0.8
0.7
0.6
Vcont(ONpoint)
Vcont(OFFpoint)
-50
-25
0
25
50
Ta(C)
75
100
VIN=1.9/2.0/2.1/2.2/2.3/2.4/2.5V
500
450
Io=200mA
VIN=2.2V
400
200
350
Io=150mA
150
25
IoutMAX(mA
) 550
300
250
0
Output current
Dropout voltae
Vdrop(mV)
-25
Vcont(V)
Vcont=4.0V
-25
-50
Ta(C)
Vcont terminal current
20.0
18.0
16.0
14.0
12.0
10.0
8.0
6.0
4.0
2.0
0.0
VIN =2.1V
300
Io=100mA
100
250
Io=50mA
50
0
-50
Io=300mA
0.0
Icont(A)
-50
GND current
Ignd(mA)
-25
014011330-E-01
0
25
50
Ta(C)
75
VIN =2.0V
VIN =1.9V
200
100
- 18 -
150
-50
-25
0
25
50
Ta(C)
75
100
2014/12
[AP1152ADSXX]
・Output voltage vs. Temperature characteristics
Vout(mV)
20
15
10
5
0
-5
-10
-15
-20
-25
-30
Vout=1.5V
-50
-35
0
-25
Vout(mV)
20
15
10
5
0
-5
-10
-15
-20
-25
-30
-35
-50 -25
Vout(mV),
20
15
10
5
0
-5
-10
-15
-20
-25
-30
-35
-50 -25
014011330-E-01
25
Ta(C
)
50
100
Vout(mV)
20
15
10
5
0
-5
-10
-15
-20
-25
-30
-35
-50 -25
75
100
Vout(mV)
20
15
10
5
0
-5
-10
-15
-20
-25
-30
-35
-50 -25
75
100
75
Vout=3.0V
0
25
50
Ta(℃)
Vout=2.0V
0
25
50
Ta(C)
75
100
75
100
Vout=4.0V
0
25
50
Ta(℃)
Vout=5.0V
0
25
50
Ta(℃)
- 19 -
2014/12
[AP1152ADSXX]
11.6 On/Off Control
It is recommended to turn the regulator Off when the circuit following
Vsat
the regulator is non-operating. A design with little electric power loss
OP
REG
can be implemented. We recommend the use of the on/off control of
the regulator without using a high side switch to provide an output
On/Off Cont.
from the regulator. A highly accurate output voltage with low voltage
drop is obtained.
Because the Vcont terminal current is small, it is possible to control it directly by CMOS logic. The
PULLDOWN resistance (500k) is built into the Vcont terminal. The noise and the ripple rejection
characteristics depend on the capacitance on the Vref terminal. The ripple rejection characteristic of the low
frequency region improves by increasing the capacitance of Cnp. A standard value is Cnp=0.068F.
Increase Cnp in a design with important output noise and ripple rejection requirements. The IC will not be
damaged if the capacitor value is increased. The on/off switching speed changes depending on the Np
terminal capacitance. The switching speed slows when the capacitance is large.
014011330-E-01
- 20 -
2014/12
[AP1152ADSXX]
11.7 PCB Layout
SOT89-5
Derating Curve
Pd(mW)
Vout
VIN
SOT89-5
-7.2mW/C
900
On/off
Please do derating with 7.2mW/C at
Pd=900mW and 25C or more. Thermal
resistance is ( ja=138C / W)
0
0
25
50C
100
150
(85)C
The package loss is limited at the temperature that the internal temperature sensor works (about 150C).
Therefore, the package loss is assumed to be an internal limitation. There is no heat radiation characteristic of
the package unit assumed because of the small size. Heat is carried away by the device being installed on the
PCB. This value changes by the material and the copper pattern etc. of the PCB. The losses are approximately
900mW(SOT89-5). Enduring these losses becomes possible in a lot of applications operating at 25C.
Determining the thermal resistance when mounted on a PCB.
The operating chip junction temperature is shown by
Tj=ja  Pd + Ta. Tj of the IC is set to about 150C.
Pd is a value when the overtemperature sensor is made to work.
Ta (Ta=25C)
150 = ja  pd + 25
ja  Pd = 125
ja = (125/ pd) (C / mW)
Pd is easily obtained.
Mount the IC on the PCB. Pd becomes VIN  Iin when the output side of the IC is short-circuited.
The input current decreases gradually by the temperature rise of the chip.
Please use the value when the current is steady (thermal equilibrium is reached).
In many cases, heat radiation is good, and Pd becomes 900 mW or more.
Pd is obtained by the normal temperature in degrees. The current that can be used at the highest operating
temperature is obtained from the graph of the figure below.
2
Pd
DPd
5
3
4
0
25
50 (75)
100
150C
Procedure (Do when PCB mounted).
1. Pd is obtained (VIN  Iin when the output side is
short-circuited).
2. Pd is plotted on the horizontal line to 25C.
3. Pd is connected with the point of 150C by the straight line
(bold face line).
4. A line is extended vertically above the point of use
temperature in the design. For instance, 75C is assumed
(broken line).
5. Extend the intersection of the derating curve (fat solid line)
and (broken line) to the left and read the Pd value.
The maximum current that can be used at the highest operating temperature is:
Iout  DPd  (VIN(max)  Vout).
014011330-E-01
- 21 -
2014/12
[AP1152ADSXX]
12. Definition of term
・Output Voltage (Vout)
The output voltage is specified with VIN=(Vout(typ)+1V) and Iout=5mA.
・Maximum Output Current (Iout MAX)
The rated output current is specified under the condition where the output voltage drops 0.3V the value specified
with Iout=5mA. The input voltage is set to Vout(typ)+1V and the current is pulsed to minimize temperature effect.
・Dropout Voltage (Vdrop)
The dropout voltage is the difference between the input voltage and the output voltage at which point the regulator
starts to fall out of regulation. Below this value, the output voltage will fall as the input voltage is reduced. It is
dependent upon the load current and the junction temperature.
・Line Regulation (LinReg)
Line regulation is the ability of the regulator to maintain a constant output voltage as the input voltage changes. The
line regulation is specified as the input voltage is changed from VIN=Vout(typ)+1V to VIN=Vout(typ)+6V. It is a
pulse measurement to minimize temperature effect.
・Load Regulation (LoaReg)
Load regulation is the ability of the regulator to maintain a constant output voltage as the load current changes. It is
a pulsed measurement to minimize temperature effects with the input voltage set to VIN=Vout(typ)+1V. The load
regulation is specified output current step conditions of 5mA to 100mA.
・Ripple Rejection (R.R)
Ripple rejection is the ability of the regulator to attenuate the ripple content of the input voltage at the output.
It is specified with 200mVrms, 1kHz super-imposed on the input voltage, where VIN=Vout+1.5V. Ripple
rejection is the ratio of the ripple content of the output vs. input and is expressed in dB.
・Standby Current (Istandby)
Standby current is the current, which flows into the regulator when the output is turned off by the control function
(Vcont=0V).
・Over Current Sensor
The over current sensor protects the device when there is excessive output current. It also protects the device if the
output is accidentally connected to ground.
・Thermal Sensor
The thermal sensor protects the device in case the junction temperature exceeds the safe value (TJ=150C). This
temperature rise can be caused by external heat, excessive power dissipation caused by large input to output voltage
drops, or excessive output current. The regulator will shut off when the temperature exceeds the safe value. As the
junction temperatures decrease, the regulator will begin to operate again. Under sustained fault conditions, the
regulator output will oscillate as the device turns off then resets. Damage may occur to the device under extreme
fault.
Please reduce the loss of the regulator when this protection operate, by reducing the input voltage or make better heat
efficiency. In the case that the power, VIN  Ishort(Short Circuit Current), becomes more than twice of the maximum
rating of its power dissipation in a moment, there is a possibility that the IC is destroyed before internal thermal
protection works.
・Reverse Voltage Protection
Reverse voltage protection prevents damage due to the output voltage being higher than the input voltage. This fault
condition can occur when the output capacitor remains charged and the input is reduced to zero, or when an external
voltage higher than the input voltage is applied to the output side
VIN
Vout
GND
014011330-E-01
- 22 -
2014/12
[AP1152ADSXX]
13. Recommended External Circuits
■External Circuit
Iin
VIN
Iout
VOUT
CL=0.22μF
VIN
Cin=0.1μF
Vcont
Icont
VCONT
GND
Np
Cnp=0.1μF
Figure 3. External Circuit
014011330-E-01
(the case of CL=0.22μF)
- 23 -
2014/12
[AP1152ADSXX]
14. Package
■ Outline Dimensions
0.7Max
0.7Max
0.7
1.5
4.5 ±0.1
1.6
0.49Max 0.49Max
0.4
0.49Max
1.0
M :AP1152ADU
0.7
±0.1
VOLTAGE
CODE
1.5
TYPE CODE
45°
2.5
XX
0.8
LOT No
0.9
2.0
e 1.5
0.49Max
0.49Max
e 1.5
Recommended Mount Pad
1.5
±0.1
0.44Max
0.54Max
0.9
e 1.5
e 1.5
e′ 3.0
±0.1
2.5
0.9
+0.15
4.3 -0.15
Unit : mm
General tolerance : ±0.2
014011330-E-01
- 24 -
2014/12
[AP1152ADSXX]
15. Revise History
Date
(YY/MM/DD)
14/10/29
14/12/05
014011330-E-01
Revision
Page
Contents
00
-
01
24
First Edition
Changed horizontal width dimension tolerance of the package ;
4.5±0.2 to 4.5±0.1
Changed vertical width dimension tolerance of the package ;
2.5±0.2 to 2.5±0.1(without pin length)
Changed vertical width dimension tolerance of the package ;
4.5+0.5/-0.3 to 4.3+0.15/-0.15 (with pin length)
Changed height dimension tolerance of the package ; 1.5±0.2 to
1.5±0.1
Changed pin length;1.0→0.9
Add General tolerance : ±0.2
- 25 -
2014/12
[AP1152ADSXX]
IMPORTANT NOTICE
0. Asahi Kasei Microdevices Corporation (“AKM”) reserves the right to make changes to the
information contained in this document without notice. When you consider any use or application of
AKM product stipulated in this document (“Product”), please make inquiries the sales office of
AKM or authorized distributors as to current status of the Products.
1. All information included in this document are provided only to illustrate the operation and
application examples of AKM Products. AKM neither makes warranties or representations with
respect to the accuracy or completeness of the information contained in this document nor grants any
license to any intellectual property rights or any other rights of AKM or any third party with respect
to the information in this document. You are fully responsible for use of such information contained
in this document in your product design or applications. AKM ASSUMES NO LIABILITY FOR
ANY LOSSES INCURRED BY YOU OR THIRD PARTIES ARISING FROM THE USE OF
SUCH INFORMATION IN YOUR PRODUCT DESIGN OR APPLICATIONS.
2. The Product is neither intended nor warranted for use in equipment or systems that require
extraordinarily high levels of quality and/or reliability and/or a malfunction or failure of which may
cause loss of human life, bodily injury, serious property damage or serious public impact, including
but not limited to, equipment used in nuclear facilities, equipment used in the aerospace industry,
medical equipment, equipment used for automobiles, trains, ships and other transportation, traffic
signaling equipment, equipment used to control combustions or explosions, safety devices, elevators
and escalators, devices related to electric power, and equipment used in finance-related fields. Do
not use Product for the above use unless specifically agreed by AKM in writing.
3. Though AKM works continually to improve the Product’s quality and reliability, you are
responsible for complying with safety standards and for providing adequate designs and safeguards
for your hardware, software and systems which minimize risk and avoid situations in which a
malfunction or failure of the Product could cause loss of human life, bodily injury or damage to
property, including data loss or corruption.
4. Do not use or otherwise make available the Product or related technology or any information
contained in this document for any military purposes, including without limitation, for the design,
development, use, stockpiling or manufacturing of nuclear, chemical, or biological weapons or
missile technology products (mass destruction weapons). When exporting the Products or related
technology or any information contained in this document, you should comply with the applicable
export control laws and regulations and follow the procedures required by such laws and
regulations. The Products and related technology may not be used for or incorporated into any
products or systems whose manufacture, use, or sale is prohibited under any applicable domestic or
foreign laws or regulations.
5. Please contact AKM sales representative for details as to environmental matters such as the RoHS
compatibility of the Product. Please use the Product in compliance with all applicable laws and
regulations that regulate the inclusion or use of controlled substances, including without limitation,
the EU RoHS Directive. AKM assumes no liability for damages or losses occurring as a result of
noncompliance with applicable laws and regulations.
6. Resale of the Product with provisions different from the statement and/or technical features set forth
in this document shall immediately void any warranty granted by AKM for the Product and shall not
create or extend in any manner whatsoever, any liability of AKM.
7. This document may not be reproduced or duplicated, in any form, in whole or in part, without prior
written consent of AKM.
014011330-E-01
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2014/12
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