AME, Inc.
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AME1086
1.5A Low Dropout
Positive Voltage Regulator
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Applications
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High Efficiency Linear Regulators
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Post Regulators for Switching Supplies
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5V to 3.3V Voltage Converter
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Battery Charger
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Functional Block Diagram
Thermal
Protection
B a n d g a p
Reference
Current
Limiting
Amplifier
Input
Output
A D J / G N D
Error
A m p .
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General Description
The AME1086 is a 1.5A low-dropout positive voltage regu-
lator. It is available in fixed and adjustable output voltage
versions. Overcurrent and thermal protection are inte-
grated onto the chip. Output current will limit as it reaches
the pre-set current or temperature limit. At full rated
output current the dropout voltage is 1.4V (max.).
AME1086 series regulators provide excellent regulation
over line, load and temperature variations.
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Key Features
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Low dropout voltage
1.2V typically at 1.5A
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Adjustable or 3.3V fixed voltage
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Line regulation typically 0.015%
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Load regulation typically 0.05%
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Adjust pin (ADJ) current less than 90
A
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Overcurrent protection
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Thermal protection
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Available in TO-220, TO-263, TO-252
Figure 1
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Typical Application
Figure 2
A M E 1 0 8 6
Load
10
F Tan
10
F Tan
4.75V to 5.25V
V
I N
G N D
V
O U T
AME, Inc.
3
AME1086
1.5A Low Dropout
Positive Voltage Regulator
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Absolute Maximum Ratings
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Ordering Information
Symbol
Maximum
Units
V
IN
7
V
TO-220
2.5
TO-263
2.5
TO-252
15
TO-220
50
TO-263
60
TO-252
90
T
J
0 to 125
T
STG
-65 to 150
Parameter
0
C
JC
0
C/W
T
LEAD
260
JA
Thermal Resistance
(Junction to Ambient)
Lead Temperature ( 10 sec )
Input Voltage
Thermal Resistance
(Junction to Case)
Storage Temperature Range
Operating Junction Temperature Range
Part Number
Marking
Output Voltage
Package
AME1086ACBT
AME1086
ACBT
YYWW
ADJ
TO-220
AME1086DCBT
AME1086
DCBT
YYWW
3.3
TO-220
AME1086ACDT
AME1086
ACDT
YYWW
ADJ
TO-263-3
AME1086DCDT
AME1086
DCDT
YYWW
3.3
TO-263-3
AME1086ACDS
AME1086
ACDS
YYWW
ADJ
TO-263-2
AME1086DCDS
AME1086
DCDS
YYWW
3.3
TO-263-2
AME1086ACCS
AME1086
ACCS
YYWW
ADJ
TO-252-2
AME1086DCCS
AME1086
DCCS
YYWW
3.3
TO-252-2
* This differs from our standard part numbering scheme due to historical precedent
AME, Inc.
4
AME1086
1.5A Low Dropout
Positive Voltage Regulator
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Electrical Characteristics
AME1086DXXX
AME1086AXXX
Parameter
Symbol
Min.
Typ.
Max.
Units
Reference voltage
V
IN
= 5V
T
J
=25
0
C
1.238
1.262
(adjustable voltage)
I
O
= 10mA
Over temp.
1.225
1.275
V
IN
= 2.75 - 7V
T
J
=25
0
C
-
0.015
0.2
I
O
= 10mA
Over temp.
-
0.035
0.2
V
IN
= 5V
T
J
=25
0
C
-
0.05
0.3
I
O
= 10mA - 1.5A
Over temp.
-
0.2
0.4
Dropout voltage
V
IN
= 2.75 - 7V
T
J
=25
0
C
-
1.2
1.4
V
OUT
,
V
REF
= 1%
I
O
= 10mA - 1.5A
Over temp.
-
1.3
-
Current limit
I
S
1.5
-
-
A
Temperature Coefficient
T
C
-
0.005
-
%/
O
C
Temperature stability
T
S
V
IN
= 5V, I
O
= 500mA, Over temp.
-
0.5
-
%
Minimum load current
I
O
-
5
10
mA
RMS output noise
V
N
-
0.003
-
%V
0
Ripple rejection ratio
R
A
V
IN
= 5V, I
O
= 1.5A, Over temp.
60
72
-
dB
V
IN
= 5V
T
J
=25
0
C
V
D
V
V
IN
= 2.75 - 7V, Over temp.
V
IN
= 2.75 - 7V, I
O
= 10mA - 1.5A
Line regulation
Reg
LINE
%
Load regulation
Reg
LOAD
%
Test Conditions
V
REF
1.250
V
Parameter
Symbol
Min.
Typ.
Max.
Units
Output voltage
V
IN
= 5V
T
J
=25
0
C
3.267
3.333
(fixed voltage)
I
O
= 0A
Over temp.
3.234
3.366
V
IN
=4.5 - 7V
T
J
=25
0
C
-
0.015
0.2
I
O
= 0A
Over temp.
-
0.035
0.2
V
IN
= 5V
T
J
=25
0
C
-
0.05
0.3
I
O
= 0A - 1.5A
Over temp.
-
0.2
0.4
Dropout voltage
V
IN
= 4.5 - 7V
T
J
=25
0
C
-
1.2
1.4
V
OUT
,
V
REF
= 1%
I
O
= 0A - 1.5A
Over temp.
-
1.3
-
Current limit
I
S
1.5
-
-
A
Quiescent current
(fixed model)
Temperature Coefficient
T
C
-
0.005
-
%/
0
C
Temperature stability
T
S
V
IN
= 5V, I
O
= 500mA, Over temp.
-
0.5
-
%
RMS output noise
V
N
-
0.003
-
%V
0
Ripple rejection ratio
R
A
V
IN
= 5V, I
O
= 1.5A, Over temp.
60
72
-
dB
T
J
=25
0
C
12
13
mA
V
IN
= 4.5 - 7V, I
O
= 0A - 1.5A
V
IN
= 4.5 - 7V, Over temp.
I
Q
V
IN
= 5V, Io=0A - 1.5A, Over temp.
-
Load regulation
Reg
LOAD
%
V
D
V
3.300
V
Line regulation
Reg
LINE
%
Test Conditions
Vo
AME, Inc.
5
AME1086
1.5A Low Dropout
Positive Voltage Regulator
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Application Description
1. Output voltage adjustment
Like most regulators, the AME1086 regulates the
output by comparing the output voltage to an
internally generated reference voltage. On the
adjustable version, the V
REF
is available exter-
nally as 1.25V between V
OUT
and ADJ. The
voltage ratio formed by R1 and R2 should be
set
to conduct 10mA (minimum output load).
The output voltage is given by the following
equation:
V
OUT
= V
REF
( 1 + ) + I
ADJ
x R2
On fixed versions of AME1086, the voltage divider
is provided internally.
R2
R1
Figure 3
2. Thermal protection
AME1086 has thermal protection which limits
junction temperature to 150
O
C. However, de-
vice
functionality is only guaranteed to a maxi-
mum junction temperature of +125
O
C.
The power dissipation and junction temperature
for AME1086 in TO-220 package are given by
P
D
= (V
IN
- V
OUT
) x I
OUT
T
JUNCTION
= T
AMBIENT
+ ( P
D
x
JA
)
Note: T
JUNCTION
must not exceed 125
O
C
3. Current limit protection
AME1086 is protected against overload condi-
tions. Current protection is triggered at typi-
cally 3.0A.
4. Stability and load regulation
AME1086 requires a capacitor from V
OUT
to GND
to provide compensation feedback to the inter-
nal
gain stage. This is to ensure stability at
the output terminal. Typically, a 10
F tantalum
or
50
F aluminum electrolytic is sufficient.
Note: It is important that the ESR for this ca-
pacitor does not exceed 0.5
.
The output capacitor dose not have a theoreti-
cal upper limit and increasing its value will in-
crease stability. C
OUT
= 100
F or more is typi-
cal for high current regulator design.
For the adjustable version, the best load regu-
lation is accomplished when the top of the
resistor divider (R1) is connected directly to the
output pin of the AME1086. When so con-
nected, R
P
is not multiplied by the divider ratio.
For fixed output versions, the top of R1 is in-
ternally connected to the output and ground
pin can be connected to low side of the load.
Figure 4
V
O U T
= V
R E F
(1+ R 2
R 1
) + I
A D J
x R2
O U T
A D J
IN
V
R E F
I
A D J
50
A
V
IN
V
O U T
R 1
R 2
C
1
O U T
A D J
IN
V
IN
R 1
R 2
R
L
R
P
Parasitic
Line Resistance
Connect
R2 to load
(Connect R1 to case)
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