ACE ACE78L5VGAM+H 100ma positive voltage regulator Datasheet

ACE78LXXG
100mA Positive Voltage Regulator
Description
The ACE78LXXG series of positive regulators are available in the SOT-89-3 package and with 5V, 6V,
8V, 9V, 10V, 12V, 15V, 18V and 24V fixed output voltages, marking it useful in a wide range of applications.
These regulators can provide local on-card regulation, eliminating the distribution problems associated
with single point regulation. Each type employs internal current limiting, thermal shut-down and safe
operating area protection, making it essentially indestructible. If adequate heat sinking is provided, they
can deliver over 100mA output current. Although designed primarily as fixed voltage regulators, these
devices can be used with external components to obtain adjustable voltages and currents. ACE78LXXG
is characterized for operation from 0℃ to +125℃.
Features



Internal Short-Circuit Current Limiting
Internal Thermal Overload Protection
No External Components Required
Absolute Maximum Ratings
Parameter
Input Voltage
Max
ACE78L05~10G
30
ACE78L12~18G
35
ACE78L24G
40
Unit
V
Output current
100
mA
Operating junction temperature range
0 ~125
O
C
Storage temperature range
- 55 ~ 150
O
C
Power Dissipation
350*
mW
* When tested in free air condition, without heat sinking.
Packaging Type
SOT-89-3
Vout
GND
Vin
VER1.5
1
ACE78LXXG
100mA Positive Voltage Regulator
Ordering information
ACE78L XX G XX + H
Halogen-free
Pb-free
AM : SOT-89-3
Output Voltage : 5V, 6V, 8V, 9V, 10V, 12V, 15V, 18V and 24V
Typical Application
Vin
Vout
ACE78LXXG
GND
Cin
0.33uF
Cout
0.1uF
Electrical Characteristics
ACE78L05G (Refer to the test circuits, T J=0~125℃, IO=40mA, VIN=10V, Cin=0.33μF, Co=0.1μF unless otherwise
specified) (Note1)
Symbol
VO
B-Rank (5%)
Test Condition
VIN=10V, IO=40mA, TJ=25℃
7V≦VIN≦20V, 1mA≦IO≦40mA
7V≦VIN≦Vmax, 1mA≦IO≦70mA
Min
Typ
4.75
Max
Unit
5.25
V
(Note2)
ΔVO (Line Regulation)
ΔVO (Load Regulation)
IQ
ΔIQ
7V≦VIN≦20V, IO=40mA, TJ=25℃
18
75
8V≦VIN≦20V, IO=40mA, TJ=25℃
10
54
VIN=10V, 1mA≦IO≦100mA, TJ=25℃
20
60
VIN=10V, 1mA≦IO≦40mA, TJ=25℃
5
30
VIN=10V, IO=0mA,TJ=25℃
3.0
5.0
VIN=10V, 1mA≦IO≦40mA
0.1
8V≦VIN≦20V, IO=40mA
1.0
mV
mV
mA
mA
40
μV
62
dB
IO=100mA, TJ=25℃
1.7
V
IO=5mA, 0℃≦TJ≦125℃
-0.65
mV/℃
Vn
10Hz≦f≦100KHz
RR
8V≦VIN≦20V, IO=40mA, f=120Hz,TJ=25℃
VD
ΔVO/ΔTJ
47
VER 1.5
2
ACE78LXXG
100mA Positive Voltage Regulator
ACE78L06G (Refer to the test circuits, T J=0~125℃, IO=40mA, VIN=12V, Cin=0.33μF, Co=0.1μF unless otherwise
specified) (Note1)
Symbol
VO
B-Rank (5%)
Test Condition
VIN=12V, IO=40mA, TJ=25℃
8.5V≦VIN≦20V, 1mA≦IO≦40mA
8.5V≦VIN≦Vmax, 1mA≦IO≦70mA
Min
Typ
5.70
Max
Unit
6.30
V
(Note2)
ΔVO (Line Regulation)
ΔVO (Load Regulation)
IQ
ΔIQ
8.5V≦VIN≦20V, IO=40mA, TJ=25℃
65
175
9V≦VIN≦20V, IO=40mA, TJ=25℃
54
125
VIN=12V, 1mA≦IO≦100mA, TJ=25℃
12.8
80
VIN=12V, 1mA≦IO≦70mA, TJ=25℃
5.8
40
VIN=12V, IO=0mA,TJ=25℃
3.9
6.0
VIN=12V, 1mA≦IO≦40mA
0.1
9V≦VIN≦20V, IO=40mA
1.5
mV
mV
mA
mA
49
μV
46
dB
IO=100mA, TJ=25℃
1.7
V
IO=5mA, 0℃≦TJ≦125℃
0.75
mV/℃
Vn
10Hz≦f≦100KHz
RR
10V≦VIN≦20V, IO=40mA, f=120Hz,TJ=25℃
VD
ΔVO/ΔTJ
40
ACE78L08G (Refer to the test circuits, T J=0~125℃, IO=40mA, VIN=14V, Cin=0.33μF, Co=0.1μF unless otherwise
specified) (Note1)
Symbol
VO
B-Rank (5%)
Test Condition
VIN=14V, IO=40mA, TJ=25℃
10.5V≦VIN≦23V, 1mA≦IO≦40mA
10.5V≦VIN≦Vmax, 1mA≦IO≦70mA
Min
Typ
7.60
Max
Unit
8.40
V
(Note2)
ΔVO (Line Regulation)
ΔVO (Load Regulation)
IQ
ΔIQ
10.5V≦VIN≦23V, IO=40mA, TJ=25℃
10
175
11V≦VIN≦23V, IO=40mA, TJ=25℃
8
125
VIN=14V, 1mA≦IO≦100mA, TJ=25℃
15
80
VIN=14V, 1mA≦IO≦70mA, TJ=25℃
8
40
VIN=14V, IO=0mA,TJ=25℃
2.0
5.5
mV
mV
VIN=14V, 1mA≦IO≦40mA
0.1
11V≦VIN≦23V, IO=40mA
1.5
mA
mA
49
μV
45
dB
IO=100mA, TJ=25℃
1.7
V
IO=5mA, 0℃≦TJ≦125℃
0.75
mV/℃
Vn
10Hz≦f≦100KHz
RR
11V≦VIN≦21V, IO=40mA, f=120Hz,TJ=25℃
VD
ΔVO/ΔTJ
39
VER 1.5
3
ACE78LXXG
100mA Positive Voltage Regulator
ACE78L09G (Refer to the test circuits, T J=0~125℃, IO=40mA, VIN=15V, Cin=0.33μF, Co=0.1μF unless otherwise
specified) (Note1)
Symbol
VO
B-Rank (5%)
Test Condition
VIN=15V, IO=40mA, TJ=25℃
11.5V≦VIN≦24V, 1mA≦IO≦40mA
11.5V≦VIN≦Vmax, 1mA≦IO≦70mA
Min
Typ
8.55
Max
Unit
9.45
V
(Note2)
ΔVO (Line Regulation)
ΔVO (Load Regulation)
IQ
ΔIQ
11.5V≦VIN≦24V, IO=40mA, TJ=25℃
90
200
13V≦VIN≦24V, IO=40mA, TJ=25℃
100
150
VIN=15V, 1mA≦IO≦100mA, TJ=25℃
20
90
VIN=15V, 1mA≦IO≦40mA, TJ=25℃
10
45
VIN=15V, IO=0mA,TJ=25℃
2.0
6.0
VIN=15V, 1mA≦IO≦40mA
0.1
13V≦VIN≦24V, IO=40mA
1.5
mV
mV
mA
mA
49
μV
44
dB
IO=100mA, TJ=25℃
1.7
V
IO=5mA, 0℃≦TJ≦125℃
0.75
mV/℃
Vn
10Hz≦f≦100KHz
RR
12V≦VIN≦23V, IO=40mA, f=120Hz,TJ=25℃
VD
ΔVO/ΔTJ
38
ACE78L10G (Refer to the test circuits, T J=0~125℃, IO=40mA, VIN=17V, Cin=0.33μF, Co=0.1μF unless otherwise
specified) (Note1)
Symbol
VO
B-Rank (5%)
Test Condition
VIN=17V, IO=40mA, TJ=25℃
13V≦VIN≦25V, 1mA≦IO≦40mA
13V≦VIN≦Vmax, 1mA≦IO≦70mA
Min
Typ
9.50
Max
Unit
10.5
V
(Note2)
ΔVO (Line Regulation)
ΔVO (Load Regulation)
IQ
ΔIQ
13V≦VIN≦25V, IO=40mA, TJ=25℃
51
175
14V≦VIN≦25V, IO=40mA, TJ=25℃
42
125
VIN=17V, 1mA≦IO≦100mA, TJ=25℃
20
90
VIN=17V, 1mA≦IO≦40mA, TJ=25℃
11
40
VIN=17V, IO=0mA,TJ=25℃
4.2
6.0
VIN=17V, 1mA≦IO≦40mA
0.1
14V≦VIN≦25V, IO=40mA
1.5
Vn
10Hz≦f≦100KHz
RR
15V≦VIN≦25V, IO=40mA, f=120Hz,TJ=25℃
VD
IO=100mA, TJ=25℃
37
mV
mV
mA
mA
62
μV
44
dB
1.7
V
VER 1.5
4
ACE78LXXG
100mA Positive Voltage Regulator
ACE78L12G (Refer to the test circuits, T J=0~125℃, IO=40mA, VIN=19V, Cin=0.33μF, Co=0.1μF unless otherwise
specified) (Note1)
Symbol
VO
B-Rank (5%)
Test Condition
VIN=19V, IO=40mA, TJ=25℃
14.5V≦VIN≦27V, 1mA≦IO≦40mA
14.5V≦VIN≦Vmax, 1mA≦IO≦70Ma
Min
Typ
11.40
Max
Unit
12.60
V
(Note2)
ΔVO (Line Regulation)
ΔVO (Load Regulation)
IQ
ΔIQ
14.5V≦VIN≦27V, IO=40mA, TJ=25℃
25
300
16V≦VIN≦27V, IO=40mA, TJ=25℃
20
250
VIN=19V, 1mA≦IO≦100mA, TJ=25℃
25
150
VIN=19V, 1mA≦IO≦40mA, TJ=25℃
12
75
VIN=19V, IO=0mA,TJ=25℃
2.0
6.0
VIN=19V, 1mA≦IO≦40mA
0.1
16V≦VIN≦27V, IO=40mA
1.5
mV
mV
mA
mA
80
μV
65
dB
IO=100mA, TJ=25℃
1.7
V
IO=5mA, 0℃≦TJ≦125℃
-1.0
mV/℃
Vn
10Hz≦f≦100KHz
RR
15V≦VIN≦25V, IO=40mA, f=120Hz,TJ=25℃
VD
ΔVO/ΔTJ
37
ACE78L15G (Refer to the test circuits, T J=0~125℃, IO=40mA, VIN=23V, Cin=0.33μF, Co=0.1μF unless otherwise
specified) (Note1)
Symbol
VO
B-Rank (5%)
Test Condition
VIN=23V, IO=40mA, TJ=25℃
17.5V≦VIN≦30V, 1mA≦IO≦40mA
17.5V≦VIN≦Vmax, 1mA≦IO≦70mA
Min
Typ
14.25
Max
Unit
15.75
V
(Note2)
17.5V≦VIN≦30V, IO=40mA, TJ=25℃
25
150
20V≦VIN≦30V, IO=40mA, TJ=25℃
15
75
ΔVO (Load
Regulation)
VIN=23V, 1mA≦IO≦100mA, TJ=25℃
20
150
VIN=23V, 1mA≦IO≦70mA, TJ=25℃
25
150
IQ
VIN=23V, IO=0mA,TJ=25℃
2.2
6.5
ΔVO (Line Regulation)
ΔIQ
Vn
VIN=23V, 1mA≦IO≦40mA
0.1
20V≦VIN≦30V, IO=40mA
1.5
10Hz≦f≦100KHz
VD
18.5V≦VIN≦28.5V, IO=40mA, f=120Hz,TJ=25
℃
IO=100mA, TJ=25℃
ΔVO/ΔTJ
IO=5mA, 0℃≦TJ≦125℃
RR
34
mV
mV
mA
mA
90
μV
63
dB
1.7
V
-1.3
mV/℃
VER 1.5
5
ACE78LXXG
100mA Positive Voltage Regulator
ACE78L18G (Refer to the test circuits, T J=0~125℃, IO=40mA, VIN=27V, Cin=0.33μF, Co=0.1μF unless otherwise
specified) (Note1)
Symbol
VO
B-Rank (5%)
Test Condition
VIN=27V, IO=40mA, TJ=25℃
21V≦VIN≦33V, 1mA≦IO≦40mA
21V≦VIN≦Vmax, 1mA≦IO≦70mA
Min
Typ Max
17.10
18.9
Unit
V
(Note2)
ΔVO (Line Regulation)
ΔVO (Load Regulation)
IQ
ΔIQ
21V≦VIN≦33V, IO=40mA, TJ=25℃
145
300
22V≦VIN≦33V, IO=40mA, TJ=25℃
135
250
VIN=27V, 1mA≦IO≦100mA, TJ=25℃
30
170
VIN=27V, 1mA≦IO≦40mA, TJ=25℃
15
85
VIN=27V, IO=0mA,TJ=25℃
2.0
6.0
VIN=27V, 1mA≦IO≦40mA
0.1
21V≦VIN≦33V, IO=40mA
1.5
mV
mV
mA
mA
150
μV
48
dB
IO=100mA, TJ=25℃
1.7
V
IO=5mA, 0℃≦TJ≦125℃
-1.8
mV/℃
Vn
10Hz≦f≦100KHz
RR
23V≦VIN≦33V, IO=40mA, f=120Hz,TJ=25℃
VD
ΔVO/ΔTJ
34
ACE78L24G (Refer to the test circuits, T J=0~125℃, IO=40mA, VIN=33V, Cin=0.33μF, Co=0.1μF unless otherwise
specified) (Note1)
Symbol
VO
B-Rank (5%)
Test Condition
VIN=33V, IO=40mA, TJ=25℃
27V≦VIN≦38V, 1mA≦IO≦40mA
27V≦VIN≦Vmax, 1mA≦IO≦70mA
Min
Typ
22.80
Max
Unit
25.20
V
(Note2)
ΔVO (Line Regulation)
ΔVO (Load Regulation)
IQ
ΔIQ
27V≦VIN≦38V, IO=40mA, TJ=25℃
160
300
28V≦VIN≦38V, IO=40mA, TJ=25℃
150
250
VIN=33V, 1mA≦IO≦100mA, TJ=25℃
40
200
VIN=33V, 1mA≦IO≦40mA, TJ=25℃
20
100
VIN=33V, IO=0mA,TJ=25℃
2.2
6.0
VIN=33V, 1mA≦IO≦40mA
0.1
27V≦VIN≦38V, IO=40mA
1.5
mV
mV
mA
mA
200
μV
45
dB
IO=100mA, TJ=25℃
1.7
IO=5mA, 0℃≦TJ≦125℃
-2.0
V
mV/
℃
Vn
10Hz≦f≦100KHz
RR
27V≦VIN≦38V, IO=40mA, f=120Hz,TJ=25℃
VD
ΔVO/ΔTJ
34
VER 1.5
6
ACE78LXXG
100mA Positive Voltage Regulator
Note 1: The Maximum steady state usable output current is dependent on input voltage, heat sinking, lead length of the
package and copper of PCB. The data above represent pulse test conditions with junction temperatures specified at
the initiation of test.
Note 2: Power dissipation<0.5W.
Characteristics Curve
78L05G
78L12G
78L24G
78L05G
78L12G
78L05G
VER 1.5
7
ACE78LXXG
100mA Positive Voltage Regulator
78L05G
78L24G
78L12G
VER 1.5
8
ACE78LXXG
100mA Positive Voltage Regulator
Packing Information
SOT-89-3
VER 1.5
9
ACE78LXXG
100mA Positive Voltage Regulator
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 1.5
10
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