AME AME8844BEQAADJ

AME, Inc.
750mA CMOS LDO
AME8844
n General Description
The AME8844 family of positive, linear regulators feature low quiescent current (45µA typ.) with low dropout
voltage, making them ideal for battery applications.
n Functional Block Diagram
(Fixed Versions)
OUT
IN
Overcurrent
Shutdown
Output voltages are set at the factory and trimmed to
1.5% accuracy.
Thermal
Shutdown
These rugged devices have both Thermal Shutdown,
and Current Fold-back to prevent device failure under the
"Worst" of operating conditions.
EN
R1
Vref x115%
An additional feature is a “Power Good” detector, which
pulls low when the output is out of regulation.
AMP
PG
The AME8844 is stable with an output capacitance of
4.7µF or greater.
R2
Vref x85%
Vref
n Features
l
l
l
l
l
l
l
l
l
l
l
l
l
l
Very Low Dropout Voltage
Guaranteed 750mA Output
Accurate to within 1.5%
45µA Quiescent Current Typically
Over-Temperature Shutdown
Current Limiting
Short Circuit Current Fold-back
Noise Reduction Bypass Capacitor (Fixed
Versions)
Power-Saving Shutdown Mode
Space-Saving MSOP-8 Package
6 Factory Pre-set Output Voltages
Low Temperature Coefficient
Adjustable Version
Power Good Output Function.
n Applications
l
l
l
l
l
Instrumentation
Portable Electronics
Wireless Devices
PC Peripherals
Battery Powered Widgets
GND
n Functional Block Diagram
(Adjustable Version)
IN
OUT
Overcurrent
Shutdown
Thermal
Shutdown
R1
AMP
EN
(external)
ADJ
1.242V
R2
(external)
GND
n Typical Applications
IN
IN
OUT
OUT
AME8844
PG
5V
GND
EN
C1
C3
1µ
µF
4.7µ
µF
1
AME, Inc.
750mA CMOS LDO
AME8844
n Pin Configuration
MSOP-8
Top View
8
7
6
MSOP-8
Top View
AME 8844AEQAxxx
1. EN
2. VIN
5
3.
4.
5.
6.
7.
8.
8844
Xyww
1
2
3
4
PG
VOUT
GND
GND
GND
GND
8
7
6
AME 8844BEQAADJ
1. EN
2. VIN
3. ADJ
4. VOUT
5. GND
6. GND
7. GND
8. GND
5
8844
Byww
1
2
3
4
Note:
X: represents the regulator output voltage.
yww: represents the date code.
Please contact AME for details.
n Ordering Information
AME8844 AEQA xxx
2
AME8844 BEQA ADJ
Voltage
150: V=1.5V
180: V=1.8V
250: V=2.5V
330: V=3.3V
Voltage
ADJ: Adjustable
Pin Out Types
[Package Type]
Q:MSOP-8
[Pin Count]
A:8
Pin Out Types
[Package Type]
Q:MSOP-8
[Pin Count]
A:8
Operating
Temperature
E:-40oC to 85oC
Operating
Temperature
E:-40oC to 85oC
AME, Inc.
750mA CMOS LDO
AME8844
n Ordering Information (contd.)
Part Number
Marking
Output Voltage
Package
Operating Temp. Range
AME8844AEQA150
8844
Lyww
1.50
MSOP-8
- 40oC to + 85oC
AME8844AEQA180
8844
Myww
1.80
MSOP-8
- 40oC to + 85oC
AME8844AEQA250
8844
Dyww
2.50
MSOP-8
- 40oC to + 85oC
AME8844AEQA330
8844
Ayww
3.30
MSOP-8
- 40oC to + 85oC
AME8844BEQAADJ
8844
Byww
ADJ
MSOP-8
- 40oC to + 85oC
Note: ww represents the date code
Please consult AME sales office or authorized Rep./Distributor for other output voltage and package type availability.
3
AME, Inc.
750mA CMOS LDO
AME8844
n Absolute Maximum Ratings
Parameter
Maximum
Unit
8
V
Output Current
PD / (VIN - VO)
mA
Output Voltage
GND - 0.3 to V IN + 0.3
V
Input Voltage
ESD Classification
B
Caution: Stress above the listed absolute maximum rating may cause permanent damage to the device
n Recommended Operating Conditions
Parameter
Rating
Ambient Temperature Range
Junction Temperature
Unit
- 40 to + 85
o
C
- 40 to + 125
o
C
n Thermal Information
Parameter
Thermal Resistance (θjc )
Internal Power Dissipation (PD )
(∆ T = 100oC)*
Maximum
MSOP-8
MSOP-8
o
C/W
W
Maximum Junction Temperature
150
o
Maximum Lead Temperature (10 Sec)
300
o
* Assuming a heat sink capable of twice times (θjc)
** Estimated
4
80
Unit
C
C
AME, Inc.
750mA CMOS LDO
AME8844
n Electrical Specifications
VIN = VO(NOM) +2V, VEN = VIN, TA = 25OC unless otherwise noted
Parameter
Symbol
Input Voltage
Output Voltage Accuracy
VIN
VO
Dropout Voltage
Output Current
Current Limit
Short Circuit Current
Quiescent Current
Ground Pin Current
VDROPOUT
IO
ILIM
ISC
IQ
IGND
Line Regulation
REGLINE
Load Regulation
Over Temerature Shutdown
Over Temerature Hysterisis
V O Temperature Coefficient
ADJ Input Bias Current
Minimum Load Current
ADJ Reference Voltage
REGLOAD
OTS
OTH
TC
Power Supply Rejection
Output Voltage Noise
EN Input Threshold
EN Input Bias Current
Shutdown Supply Current
Output Under Voltage
Output Over Voltage
PG Leakage Current
PG Voltage Low
Test Condition
Min
IO=1mA
Note 1
-1.5
VO(NOM)=1.5V
VO(NOM)=1.8V
VO=VONOM -2.0%
VO(NOM)>=2.0V
VO>1.2V
VO>1.2V
VIN =VO(NOM) +1V, V O < 0.4V
IO=0mA
IO=1mA to 750mA
V O < 2.0V
IO=1mA
4.0 > VO >= 2.0V
V IN =VO+1 to VO+2
4.0V <= VO
IO=1mA to 750mA
IO=750mA
IADJ
Iload
V REF
PSRR
eN
VEH
V EL
IEH
IEL
ISD
VUV
VOV
Vin = 2.5V
IO=100mA
CO=4.7µF ceramic
f=10Hz to 100kHz
IO=10mA
f=1kHz
f=10kHz
f=100kHz
Max
7
1.5
1000
See
650
chart
500
750
750
750
45
45
-0.15
-0.1
-0.4
-1
0.02
0.2
150
30
30
1
70
0.15
0.1
0.4
1
0.5
105
V
%
mV
mA
mA
mA
µA
µA
%
%
%
%
C
C
ppm/ oC
µA
µA
V
o
dB
µVrms
30
2.0
0
Units
o
70
1.221 1.240 1.26
75
55
30
Co=4.7µF
V IN =2.7V to 7V
V IN =2.7V to 7V
VEN =VIN , V IN =2.7V to 7V
VEN =0V, VIN =2.7V to 7V
VIN =5V, VO=0V, VEN <VEL
PG goes Low when V OUT too Low
PG goes Low when VOUT too High
Typ
Vin
V
0.4
V
1
µA
1
µA
2
µA
84 %V O(NOM)
%V O(NOM)
ILC
VPG=7V
1
µA
V OL
ISINK=0.25mA
0.4
V
Note1:VIN(min)=VOUT+VDROPOUT
5
AME, Inc.
750mA CMOS LDO
AME8844
n Detailed Description
n Enable
The AME8844 family of CMOS regulators contain a
PMOS pass transistor, voltage reference, error amplifier,
over-current protection, and thermal shutdown.
When EN pin is pulled low, the PMOS pass transistor
shuts off, and all internal circuits are powered down. In
this state, the quiescent current is less than 2µA. This
pin behaves much like an electronic switch.
The P-channel pass transistor receives data from the
error amplifier, over-current shutdown, and thermal protection circuits. During normal operation, the error amplifier compares the output voltage to a precision reference. Over-current and Thermal shutdown circuits become active when the junction temperature exceeds
140oC, or the current exceeds 2.2A. During thermal shutdown, the output voltage remains low. Normal operation
is restored when the junction temperature drops below
120oC.
The AME8844 behaves like a current source when the
load reaches 2.2A. However, if the load impedance drops
below 0.3 ohms, the current drops back to 600mA to
prevent excessive power dissipation. Normal operation
is restored when the load resistance exceeds 0.75 ohms.
n External Capacitors
The AME8844 is stable with an output capacitor to
ground of 4.7µF or greater. Ceramic capacitors have the
lowest ESR, and will offer the best AC performance. Conversely, Aluminum Electrolytic capacitors exhibit the highest ESR, resulting in the poorest AC response. Unfortunately, large value ceramic capacitors are comparatively
expensive. One option is to parallel a 0.1µF ceramic
capacitor with a 10µF Aluminum Electrolytic. The benefit
is low ESR, high capacitance, and low overall cost.
A second capacitor is recommended between the input and ground to stabilize Vin. The input capacitor should
be at least 0.1µF to have a beneficial effect.
All capacitors should be placed in close proximity to
the pins. A "Quiet" ground termination is desirable. This
can be achieved with a "Star" connection.
100K Ohm resistor is necessary between VEN source
and EN pin when VEN is higher than VIN.
(Note: There is no internal pull-up for EN pin.
It can not be floating)
n Adjustable Version
The adjustable version uses external feedback resistors to generate an output voltage anywhere from 1.5V to
5.0V. Vadj is trimmed to 1.24V and VOUT is given by the
equation:
VOUT = Vadj ( 1 + R1 / R2 )
Feedback resistors R1 and R2 should be high enough
to keep quiescent current low, but increasing R1 + R2
will reduce stability. In general, R1 and R2 in the 10’s of
kΩ will produce adequate stability, given reasonable layout precautions. To improve stability characteristics, keep
parasitics on the ADJ pin to a minimum, and lower R1
and R2 values.
n Power Good
The AME8844 includes the Power Good feature. When
the output is not within ±15% of the specified voltage, it
pulls low. This can occur under the following conditions:
1)
2)
3)
4)
Input Voltage too low.
During Over-Temperature.
During Over-Current.
If output is pulled up.
(Note: PG pin is an open-drain output.)
6
AME, Inc.
750mA CMOS LDO
AME8844
Dropout Voltage VS ILOAD
Dropout Voltage VS VOUT
1
1 .2
0 .8
Dropout Voltage (V)
Dropout Voltage (V)
I L O A D =1.5A
V O U T =1.5
1
1.8
0 .8
2.0
0 .6
2.1
0 .4
2.8
0 .2
3.3
0 .6
I L O A D =1.0A
0 .4
I L O A D =0.5A
0 .2
0
0
0
0 .3
0 .6
0 .9
1 .2
1 .5
0
1 .8
2
4
6
8
V O U T (V)
I LO AD (A)
Quiescent Current vs. Temperature
Ground Current vs. VIN
50
45
39
Ground Current (µ
µ A)
Quiescent Current @ 5V (uA)
41
37
35
33
31
29
40
35
IOUT = 140mA
VOUT = 1.5V
30
25
20
15
27
10
25
-4 5
-5
25
55
85
2
115
3
4
5
6
7
8
VIN (V)
o
Tem perature ( C)
Ground Current vs. Load Current
VOUT vs. Temperature(2.5V)
38.5
2 .5 0 0
2 .4 9 5
37.5
Output Voltage (V)
Ground Current (µ
µ A)
38
VIN = 2.5V
VOUT = 1.5V
37
36.5
36
35.5
2 .4 9 0
2 .4 8 5
2 .4 8 0
35
34.5
0
0.25
0.5
0.75
1
Load Current (mA)
1.25
1.5
2 .4 7 5
-4 5
-5
25
55
85
115
Tem perature ( o C)
7
AME, Inc.
750mA CMOS LDO
AME8844
Load Regulation vs. Temperature
Dropout Voltage vs. Load Current(2.5V)
400
Dropout Voltage @1.5A (mV)
0 .3 0
Load Regulation (%)
0 .2 5
0 .2 0
0 .1 5
0 .1 0
0 .0 5
0 .0 0
-4 5
115 oC
85 oC
55 oC
350
300
25 oC
250
-5 oC
-45 oC
200
150
100
50
0
-5
25
55
85
115
0.3
0.6
0.9
1.2
1.5
Load Current (A)
Temperature ( o C)
Line Transient Response
AME8844BEQA VADJ vs. Temperature
VOUT (50mV/DIV)
1 .2 4 4
1 .2 4 3
1 .2 4 1
1 .2 4 0
1 .2 3 9
VIN (2V/DIV)
VADJ (V)
1 .2 4 2
1 .2 3 8
1 .2 3 7
1 .2 3 6
1 .2 3 5
-4 5
-5
25
55
85
0
115
Tim e (20m S/DIV)
Tem perature ( o C)
V IN = 5V
C IN = 4.7µF
C O U T = 4.7µF
VOUT 1V/DIV
0
Tim e 500 µS/DIV
8
Current Limit Response
0V
ILOAD 1A/DIV
VOUT 10mV/DIV
ILoad 1A/DIV
Load Step 40mA to 1.5A
C IN = 4.7µF
C O U T = 4.7µF
V IN = 4.0V
V O U T = 1.8V
C IN = 4.7µF
C O U T = 4.7µF
T R = T F = 1µS
V O U T = 1.5V
I L IM
IS C
0A
Tim e 1m S/DIV
AME, Inc.
750mA CMOS LDO
AME8844
Current Limit vs. VIN
Short Circuit Current vs. VIN
1 .6
3
2 .8
Current Limit (A)
2 .4
1 .4
Short Circuit Current (A)
C IN = 4.7µF
C O U T = 4.7µF
V O U T = 1.8V
2 .6
2 .2
2
1 .8
1 .6
1 .4
C IN = 4.7µF
C O U T = 4.7µF
1 .2
1
0 .8
0 .6
0 .4
0 .2
1 .2
0
1
2
3
4
5
6
7
2
8
3
4
5
6
7
8
V IN (V)
V IN (V)
Overtemperature Shutdown
Stability vs. ESR vs. ILoad
10000
IOUT 1A/DIV
U nstable R egion
1000
CLESR (Ω
Ω)
VOUT 1V/DIV
V IN = 4V
C IN = 4.7µF
C O U T = 4.7µF
C L =5µF
100
0A
10
1
S table R egion
0 .1
0V
U ntested R egion
0 .0 1
0
250
500
750
Stability vs. ESR vs. ILoad
1250
1500
Stability vs. ESR vs. ILoad
10000
10000
U nstable R egion
U nstable R egion
1000
1000
100
C L =2µF
C L =10µF
CLESR (Ω
Ω)
100
CLESR (Ω
Ω)
1000
ILO AD (m A)
Tim e 100m S/DIV
10
1
S table R egion
0 .1
10
1
S table R egion
0 .1
0 .0 1
U ntested R egion
0 .0 1
0
250
500
750
1000
ILO AD (m A)
1250
1500
0 .0 0 1
0
U ntested R egion
250
500
750
1000
1250
1500
ILO AD (m A)
9
AME, Inc.
750mA CMOS LDO
AME8844
n External Resistor Divider Table
R1
(K Ohm)
1
10
5
10
20
R2(kohm)=(1.24*R1(kohm))/(Vout-1.24)
Vout
1.30
1.35
1.40
1.45
1.50
1.55
1.60
1.65
1.70
1.75
1.80
1.85
1.90
1.95
2.00
2.05
2.10
2.15
2.20
2.25
2.30
2.35
2.40
2.45
2.50
2.55
2.60
2.65
2.70
2.75
2.80
2.85
2.90
2.95
3.00
3.05
3.10
2
20.67
11.27
7.75
5.90
4.77
4.00
3.44
3.02
2.70
2.43
2.21
2.03
1.88
1.75
1.63
1.53
1.44
1.36
1.29
1.23
1.17
1.12
1.07
1.02
0.98
0.95
0.91
0.88
0.85
0.82
0.79
0.77
0.75
0.73
0.70
0.69
0.67
41.33
22.55
15.50
11.81
9.54
8.00
6.89
6.05
5.39
4.86
4.43
4.07
3.76
3.49
3.26
3.06
2.88
2.73
2.58
2.46
2.34
2.23
2.14
2.05
1.97
1.89
1.82
1.76
1.70
1.64
1.59
1.54
1.49
1.45
1.41
1.37
1.33
103.33
56.36
38.75
29.52
23.85
20.00
17.22
15.12
13.48
12.16
11.07
10.16
9.39
8.73
8.16
7.65
7.21
6.81
6.46
6.14
5.85
5.59
5.34
5.12
4.92
4.73
4.56
4.40
4.25
4.11
3.97
3.85
3.73
3.63
3.52
3.43
3.33
206.67
112.73
77.50
59.05
47.69
40.00
34.44
30.24
26.96
24.31
22.14
20.33
18.79
17.46
16.32
15.31
14.42
13.63
12.92
12.28
11.70
11.17
10.69
10.25
9.84
9.47
9.12
8.79
8.49
8.21
7.95
7.70
7.47
7.25
7.05
6.85
6.67
413.33
225.45
155.00
118.10
95.38
80.00
68.89
60.49
53.91
48.63
44.29
40.66
37.58
34.93
32.63
30.62
28.84
27.25
25.83
24.55
23.40
22.34
21.38
20.50
19.68
18.93
18.24
17.59
16.99
16.42
15.90
15.40
14.94
14.50
14.09
13.70
13.33
AME, Inc.
750mA CMOS LDO
AME8844
n External Resistor Divider Table (contd.)
R1
(K Ohm)
1
5
10
20
R2(kohm)=(1.242*R1(kohm))/(Vout-1.242)
Vout
3.15
3.20
3.25
3.30
3.35
3.40
3.45
3.50
3.55
3.60
3.65
3.70
3.75
3.80
3.85
3.90
3.95
4.00
4.05
4.10
4.15
4.20
4.25
4.30
4.35
4.40
4.45
4.50
4.55
4.60
4.65
4.70
4.75
4.80
4.85
4.90
4.95
5.00
2
0.65
0.63
0.62
0.60
0.59
0.57
0.56
0.55
0.54
0.53
0.51
0.50
0.49
0.48
0.48
0.47
0.46
0.45
0.44
0.43
0.43
0.42
0.41
0.41
0.40
0.39
0.39
0.38
0.37
0.37
0.36
0.36
0.35
0.35
0.34
0.34
0.33
0.33
1.30
1.27
1.23
1.20
1.18
1.15
1.12
1.10
1.07
1.05
1.03
1.01
0.99
0.97
0.95
0.93
0.92
0.90
0.88
0.87
0.85
0.84
0.82
0.81
0.80
0.78
0.77
0.76
0.75
0.74
0.73
0.72
0.71
0.70
0.69
0.68
0.67
0.66
3.25
3.16
3.08
3.01
2.94
2.87
2.81
2.74
2.68
2.63
2.57
2.52
2.47
2.42
2.38
2.33
2.29
2.25
2.21
2.17
2.13
2.09
2.06
2.03
1.99
1.96
1.93
1.90
1.87
1.85
1.82
1.79
1.77
1.74
1.72
1.69
1.67
1.65
6.49
6.33
6.17
6.02
5.88
5.74
5.61
5.49
5.37
5.25
5.15
5.04
4.94
4.84
4.75
4.66
4.58
4.49
4.41
4.34
4.26
4.19
4.12
4.05
3.99
3.92
3.86
3.80
3.75
3.69
3.64
3.58
3.53
3.48
3.43
3.39
3.34
3.30
12.98
12.65
12.34
12.04
11.75
11.48
11.22
10.97
10.74
10.51
10.29
10.08
9.88
9.69
9.50
9.32
9.15
8.99
8.83
8.67
8.52
8.38
8.24
8.10
7.97
7.85
7.73
7.61
7.49
7.38
7.27
7.17
7.07
6.97
6.87
6.78
6.68
6.60
Note: Small load(greater than 2 mA) is necessary as R1 or R2 is larger than 50 K Ohm. Otherwise, outputvoltage
probably cannot be pulled down to 0 V on disable mode.
11
AME, Inc.
750mA CMOS LDO
AME8844
n Package Dimension
MSOP-8
SYMBOLS
Top View
DETAIL A
D
e1
TOP PKG.
BTM PKG.
E1
L2
E
c
£
L
L1
PIN 1 I.D
(SHINNY SURFACE)
Front View
A
MAX
MIN
MAX
A
-
1.07
-
0.04197
A1
0.05
0.20
0.002
0.008
A2
0.81
0.92
0.032
0.036
b
0.28
0.38
0.011
0.015
b1
0.28
0.33
0.011
0.013
c
0.13
0.23
0.005
0.009
c1
0.13
0.17
0.005
0.006
D
2.90
3.10
0.114
0.122
E
4.77
4.98
0.188
0.196
E1
2.90
3.10
0.114
0.122
e
0.65 TYP
0.0255 TYP
e1
1.95 TYP
0.0767 TYP
A1
e
b
End View
SECTION B-B
b
b1
BASE METAL
B
c
B
E1
See Detail A
12
c1
WITH PLATING
0.406
0.686
L1
0.94 REF
L2
0.254 TYP
è
A2
INCHES
MIN
L
R0.127(0.005) TYP
ALL CORNER
& EDGES
MILLIMETERS
0
o
8
0.01598 0.02701
0.037 REF
0.010 TYP
o
0o
8o
NOTE:
1. Controlling dimension : Millimeter, converted inchdimension
are not necessarily exact.
2. Dimensiioning and tolerancing per ansi Y14.5m-1994.
3. Dimension "d" does not include mold flash,protrusion or gate
burr, mold flash,protrusion and gate burr shall not exceed
0.15mm(0.006") per side. Dimension e1 do not include inter-lead
flash or protrusion, inter-lead flash and protrusion shall not
exceed 0.15mm(0.006") per side.
4. The package top be smaller than the package bottom. Dimension d and e1 are determined at outermost extremes of the
plastic body exclusive of mold flash, tie bar burrs, gate burrs
and interlead flash, but including any mismatch between the top
and bottom of the plastic body.
5. Dimension 'b' does not include dambar protrusion. Allowable
dambar protrusion shall be 0.08mm(0.0031) total in excess of
the "b" dimension at maximum material condition.
AME, Inc.
750mA CMOS LDO
AME8844
n Tape and Reel Diagram
PIN 1
W
P
Carrier Tape, Number of Components Per Reel and Reel Size
Package
Carrier Width (W)
Pitch (P)
Part Per Full Reel
Reel Size
MSOP-8L
12mm
9.1mm
4000
13in
13
www.ame.com.tw
E-Mail: [email protected]
Life Support Policy:
These products of AME, Inc. are not authorized for use as critical components in life-support
devices or systems, without the express written approval of the president
of AME, Inc.
AME, Inc. reserves the right to make changes in the circuitry and specifications of its devices and
advises its customers to obtain the latest version of relevant information.
 AME, Inc. , July 2003
Document: 2013-DS8844-E
Corporate Headquarter
AME, Inc.
U.S.A. (Subsidiary)
Analog Microelectronics, Inc.
2F, 189 Kang-Chien Road, Nei-Hu Dist.
3100 De La Cruz Blvd. Suite 201
Taipei 114 Taiwan, R.O.C.
Tel: 886 2 2627-8687
Santa Clara, CA. 95054-2046
Tel : (408) 988-2388
Fax: 886 2 2659-2989
Fax: (408) 988-2489