HTC LM1117S-ADJ

1A L.D.O. VOLTAGE REGULATOR
LM1117S/RS/F
SOT-223 PKG
FEATURES
● Output Current up to 1 A
● Low Dropout Voltage ( 1.2V at 1A Output Current )
● Three Terminal Adjustable(ADJ) or Fixed 1.2V,1.5V, 1.8V, 2.5V,
2.85V, 3.3V, 5.0V
● Line Regulaion typically at 0.1% max
● Load Regulaion typically at 0.2% max
● Internal Current and Terminal Protection
● Maximum Input Voltage - 15V
● Surface Mount Package SOT-223, TO-252, SOT-89
● 100% Thermal Limit Burn-In
TO-252 PKG
SOT-89 PKG
1
2
3
Pin 1. Adjust/Ground
2. Output
3. Input
APPLICATION
ORDERING INFORMATION
●
●
●
●
●
●
●
Device (Marking)
Package
LM1117S-ADJ
SOT-223
LM1117S-XX
LM1117RS-ADJ
TO-252
LM1117RS-XX
LM1117F-ADJ
SOT-89
LM1117F-XX
( X.X=Output Voltage=1.2V,1.5V, 1.8V, 2.5V,
'3.3V, 5.0V, Adjustable=ADJ)
Active SCSI Terminators
Portable/Plan Top/Notebook Computers
High Efficiency Linear Regulators
SMPS Post Regulators
Mother B/D Clock Supplies
Disk Drives
Battery Chargers
DESCRIPTION
The LM1117 is a low power positive-voltage regulator designed to meet 1A output current and comply
with SCSI-II specifications with a fixed output voltage of 2.85V. This device is an excellent choice for use
in battery-powered applications, as active terminators for the SCSI bus, and portable computers.
The LM1117 features very low quiescent current and very low dropout voltage of 1V at a full load and
lower as output current decreases. LM1117 is available as an adjustable or fixed 1.5V, 1.8V, 2.5V,
3.3V, and 5.0V output voltages.
The LM1117 is offered in a 3-pin surface mount package SOT-223, TO-252 & SOT-89. The output capacitor
of 10㎌ or larger is needed for output stability of LM1117 as required by most of the other regulator circuits.
HTC
Jan. 2007 - Rev 1.0
1
1A L.D.O. VOLTAGE REGULATOR
LM1117S/RS/F
ABSOLUTE MAXIMUM RATINGS
SYMBOL
VIN
MIN.
TSOL
TSTG
TOPR
MAX.
15
260
-65
-40
150
125
SYMBOL
SOT-223
TO-252
SOT-89
RθJA
130
93
315
CHARACTERISTIC
DC Input Voltage
Lead Temperature (Soldering, 5 Seconds)
Storage Temperature Range
Operating Junction Temperature Range
UNIT
V
℃
℃
℃
THERMAL DATA
PARAMETER
Thermal Resistance Junction-Ambient
UNIT
℃/W
TYPICAL APPLICATION
FIXED OUTPUT VOLTAGE
LM1117S/RS/F
VIN
10㎌
10㎌
Tantalum
Tantalum
HTC
Jan. 2007 - Rev 1.0
2
1A L.D.O. VOLTAGE REGULATOR
LM1117S/RS/F
ELECTRICAL CHARACTERISTICS FOR LM1117S/RS/F-ADJ(ADJUSTABLE)
(Refer to the test circuits, TJ=25℃ CO=10㎌ unless otherwise specified)
PARAMETER
SYMBOL
VREF
TEST CONDITION
MIN.
TYP.
MAX.
UNIT
IO = 10mA to 1A, VIN - VO = 1.5 to 13.75V
1.238
1.25
1.262
V
Reference Voltage (TJ=0~125℃)
VREF
IO = 10mA to 1A, VIN - VO = 1.5 to 13.75V
1.219
1.281
V
Line Regulation
ΔVO
IO = 10mA , VIN - VO = 1.5 to 13.75V
0.1
0.2
%
Load Regulation
ΔVO
IO = 10mA to 1A, VIN - VO = 2 V
0.2
0.4
Temperature Stability
Long Term Stability
Operating Input Voltage
Adjustment Pin Current
Adjustment Pin Current
Change
Minimum Load Current
Current Limit
Output Noise (%VO)
ΔVO
Reference Voltage
Supply Voltage Rejection
Dropout Voltage
ΔVO
VIN
IADJ
0.5
1000 hrs, T J = 125℃
%
%
0.3
%
15
V
VIN - VO = 1.5 to 12V IO = 100㎃
50
120
㎂
ΔIADJ
VIN - VO = 1.5 to 12V, I O = 10mA to 1A
0.5
5
㎂
IO(MIN)
VIN - VO = 12V
5
10
㎃
IO
VIN - VO = 5V
1250
1600
㎃
EN
B = 10㎐ to 10㎑, TJ = 25℃
SVR
VD
1000
IO = 40㎃ , f = 120㎐, TJ = 25℃
VIN - V O = 3V, V NIPPLE = 1V PP
60
%
75
㏈
IO = 100㎃
1.0
1.1
V
IO = 500㎃
1.1
1.2
V
IO = 1A
1.2
1.3
V
TA = 25℃ 30㎳ Pulse
Thermal Regulation
0.003
%/W
0.003
ELECTRICAL CHARACTERISTICS FOR LM1117S/RS/F-1.2V
(Refer to the test circuits, TJ=25℃ CO=10㎌ unless otherwise specified)
PARAMETER
Output Voltage
SYMBOL
VO
TEST CONDITION
VIN = 3.2 I O = 0㎃ to 1A
Output Voltage
VO
Line Regulation
ΔVO
IO = 10mA , VIN - VO = 1.5 to 13.75V
Load Regulation
ΔVO
IO = 10mA to 1A, VIN - VO = 2 V
Temperature Stability
Long Term Stability
Operating Input Voltage
Quiescent Current
Current Limit
Output Noise (%VO)
ΔVO
Supply Voltage Rejection
Dropout Voltage
ΔVO
VIN=2.5 to 12V, I O=0㎃ to 1A (Tj = 0~125℃)
UNIT
1.224
V
1.152
1.248
V
0.1
0.2
%
0.2
0.4
%
%
VIN - Vo = 5V
VIN - VO = 5V
EN
B = 10㎐ to 10㎑, TJ = 25℃
0.3
%
15
1000
IO = 40㎃ , f = 120㎐, TJ = 25℃
VIN - V O = 3V, V NIPPLE = 1V PP
60
V
5
10
㎃
1250
1600
㎃
0.003
%
75
㏈
IO = 100㎃
1.0
1.1
V
IO = 500㎃
1.1
1.2
V
1.2
1.3
IO = 1A
Thermal Regulation
MAX.
1.20
1000 hrs, T J = 125℃
IO
VD
TYP.
0.5
VIN
ID
SVR
MIN.
1.176
TA = 25℃ 30㎳ Pulse
0.003
V
%/W
HTC
Jan. 2007 - Rev 1.0
3
1A L.D.O. VOLTAGE REGULATOR
ELECTRICAL CHARACTERISTICS FOR LM1117
LM1117S/RS/F
S/RS/F- 1.5
(Refer to the test circuits, TJ=25℃ CO=10㎌ unless otherwise specified)
PARAMETER
Output Voltage
SYMBOL
VO
Output Voltage
VO
TEST CONDITION
VIN = 3.0 to 12V, I O = 0㎃ to 1A
VIN=3.0 to 12V, I O=0㎃ to 1A (Tj = 0~125℃)
MIN.
TYP.
MAX.
1.485
1.5
1.515
V
1.530
V
1.470
UNIT
Line Regulation
ΔVO
VIN = 3.0 to 12V, I O = 0㎃
0.1
0.2
%
Load Regulation
ΔVO
VIN = 3.5V, I O = 0 to 1A
0.2
0.4
%
Temperature Stability
Long Term Stability
Operating Input Voltage
Quiescent Current
Current Limit
Output Noise Voltage
ΔVO
Supply Voltage Rejection
SVR
Dropout Voltage
ΔVO
1000 hrs, T J = 125℃
VIN
ID
IO
IO = 100㎃
VIN - Vo = 5V
EN
B = 10㎐ to 10㎑, TJ = 25℃
VD
VIN - Vo = 5V
1000
IO = 40㎃ , f = 120㎐, TJ = 25℃
VIN = 5.5V, V NIPPLE = 1V PP
60
%
0.3
%
5
12
10
1250
1600
V
㎃
㎃
100
㎶
75
㏈
IO = 100㎃
1.0
1.1
V
IO = 500㎃
1.1
1.2
V
IO = 1A
1.2
1.3
V
TA = 25℃ 30㎳ Pulse
Thermal Regulation
0.5
ELECTRICAL CHARACTERISTICS FOR LM1117
0.003
%/W
S/RS/F- 1.8
(Refer to the test circuits, TJ=25℃ CO=10㎌ unless otherwise specified)
PARAMETER
Output Voltage
SYMBOL
VO
Output Voltage
VO
Line Regulation
ΔVO
VIN = 3.3 to 12V, I O = 10㎃
0.1
0.2
㎷
Load Regulation
ΔVO
VIN = 3.8V, I O = 0 to 1A
0.2
0.4
㎷
Temperature Stability
Long Term Stability
Operating Input Voltage
Quiescent Current
Current Limit
Output Noise Voltage
ΔVO
Supply Voltage Rejection
Dropout Voltage
ΔVO
TEST CONDITION
VIN = 3.3 to 12V, I O = 0㎃ to 1A
VIN=3.3 to 12V, I O=0㎃ to 1A (Tj = 0~125℃)
UNIT
1.782
1.8
1.818
V
1.836
V
1.764
%
%
0.3
12
ID
VIN - Vo = 5V
IO
VIN - Vo = 5V
EN
B = 10㎐ to 10㎑, TJ = 25℃
1000
IO = 40㎃ , f = 120㎐, TJ = 25℃
VIN = 5.5V, V NIPPLE = 1V PP
60
V
5
10
㎃
1250
1600
㎃
100
㎶
75
㏈
IO = 100㎃
1.0
1.1
V
IO = 500㎃
1.1
1.2
V
1.2
1.3
IO = 1A
Thermal Regulation
MAX.
1000 hrs, T J = 125℃
IO = 100㎃
VD
TYP.
0.5
VIN
SVR
MIN.
TA = 25℃ 30㎳ Pulse
0.003
V
%/W
HTC
Jan. 2007 - Rev 1.0
4
1A L.D.O. VOLTAGE REGULATOR
ELECTRICAL CHARACTERISTICS FOR LM1117
LM1117S/RS/F
S/RS/F -2.5
(Refer to the test circuits, TJ=25℃ CO=10㎌ unless otherwise specified)
PARAMETER
Output Voltage
SYMBOL
VO
Output Voltage
VO
Line Regulation
ΔVO
VIN = 4.0 to 12V, I O = 10㎃
0.1
0.2
%
Load Regulation
ΔVO
VIN = 4.5V, I O = 0 to 1A
0.2
0.4
%
Temperature Stability
Long Term Stability
Operating Input Voltage
Quiescent Current
Current Limit
Output Noise Voltage
ΔVO
Supply Voltage Rejection
SVR
Dropout Voltage
ΔVO
TEST CONDITION
VIN = 4.0 to 12V, I O = 0㎃ to 1A
VIN=4.0 to 12V, I O=0㎃ to 1A (Tj = 0~125℃)
IO = 100㎃
ID
VIN - Vo = 5V
IO
VIN - Vo = 5V
EN
B = 10㎐ to 10㎑, TJ = 25℃
Thermal Regulation
TYP.
MAX.
UNIT
2.475
2.5
2.525
V
2.550
V
2.450
1000 hrs, T J = 125℃
VIN
VD
MIN.
1000
IO = 40㎃ , f = 120㎐, TJ = 25℃
VIN = 5.5V, V NIPPLE = 1V PP
60
0.5
%
0.3
%
5
12
10
V
㎃
1250
1600
㎃
100
㎶
75
㏈
IO = 100㎃
1.0
1.1
V
IO = 500㎃
1.1
1.2
V
IO = 1A
1.2
1.3
V
TA = 25℃ 30㎳ Pulse
0.01
0.1
%/W
ELECTRICAL CHARACTERISTICS FOR LM1117
S/RS/F -2.85
(Refer to the test circuits, TJ=25℃ CO=10㎌ unless otherwise specified)
PARAMETER
Output Voltage
SYMBOL
VO
TEST CONDITION
VIN = 4.4 to 12V, I O = 0㎃ to 1A
MIN.
TYP.
MAX.
UNIT
2.821
2.85
2.878
V
Output Voltage
VO
2.907
V
Line Regulation
ΔVO
VIN = 4.4 to 12V, I O = 10㎃
0.1
0.2
%
Load Regulation
ΔVO
VIN = 4.85V, I O = 0 to 1A
0.2
0.4
Temperature Stability
Long Term Stability
Operating Input Voltage
Quiescent Current
Current Limit
Output Noise Voltage
ΔVO
Supply Voltage Rejection
Dropout Voltage
ΔVO
VIN
ID
IO
EN
SVR
VD
VIN=4.4 to 12V, I O=0㎃ to 1A (Tj = 0~125℃)
0.5
1000 hrs, T J = 125℃
%
12
VIN - Vo = 5V
1000
B = 10㎐ to 10㎑, TJ = 25℃
IO = 40㎃ , f = 120㎐, TJ = 25℃
VIN = 5.85V, V NIPPLE = 1V PP
60
%
%
0.3
IO = 100㎃
VIN - Vo = 5V
5
10
V
㎃
1250
1600
㎃
100
㎶
75
㏈
IO = 100㎃
1.0
1.1
V
IO = 500㎃
1.1
1.2
V
1.2
1.3
IO = 1A
Thermal Regulation
2.793
TA = 25℃ 30㎳ Pulse
0.003
V
%/W
HTC
Jan. 2007 - Rev 1.0
5
1A L.D.O. VOLTAGE REGULATOR
ELECTRICAL CHARACTERISTICS FOR LM1117
LM1117S/RS/F
S/RS/F -3.3
(Refer to the test circuits, TJ=25℃ CO=10㎌ unless otherwise specified)
PARAMETER
Output Voltage
SYMBOL
VO
TEST CONDITION
VIN = 4.8 to 12V, I O = 0㎃ to 1A
MIN.
TYP.
MAX.
UNIT
3.267
3.3
3.333
V
Output Voltage
VO
3.366
V
Line Regulation
ΔVO
VIN = 4.8 to 12V, I O = 10㎃
0.1
0.2
%
Load Regulation
ΔVO
VIN = 5.3V, I O = 0 to 1A
0.2
0.4
%
Temperature Stability
Long Term Stability
Operating Input Voltage
Quiescent Current
Current Limit
Output Noise Voltage
ΔVO
Supply Voltage Rejection
Dropout Voltage
ΔVO
VIN=4.8 to 12V, I O=0㎃ to 1A (Tj = 0~125℃)
0.5
1000 hrs, T J = 125℃
VIN
ID
IO = 100㎃
VIN - Vo = 5V
IO
VIN - Vo = 5V
EN
B = 10㎐ to 10㎑, TJ = 25℃
SVR
VD
3.234
0.3
1000
IO = 40㎃ , f = 120㎐, TJ = 25℃
VIN = 6.3V, V NIPPLE = 1V PP
60
%
12
V
5
10
㎃
1250
1600
㎃
100
㎶
75
㏈
IO = 100㎃
1.0
1.1
V
IO = 500㎃
1.1
1.2
V
1.2
1.3
IO = 1A
TA = 25℃ 30㎳ Pulse
Thermal Regulation
%
ELECTRICAL CHARACTERISTICS FOR LM1117
0.003
V
%/W
S/RS/F -5.0
(Refer to the test circuits, TJ=25℃ CO=10㎌ unless otherwise specified)
PARAMETER
TEST CONDITION
MIN.
TYP.
MAX.
UNIT
4.950
5.0
5.050
V
5.100
V
%
Output Voltage
SYMBOL
VO
Output Voltage
VO
Line Regulation
ΔVO
VIN = 6.5 to 15V, I O = 10㎃
0.1
0.2
Load Regulation
ΔVO
VIN = 7.0V, I O = 0 to 1A
0.2
0.4
Temperature Stability
Long Term Stability
Operating Input Voltage
Quiescent Current
Current Limit
Output Noise Voltage
ΔVO
Supply Voltage Rejection
Dropout Voltage
Thermal Regulation
ΔVO
VIN
VIN = 6.5 to 15V, I O = 0㎃ to 1A
VIN=6.5 to 15V, I O=0㎃ to 1A (Tj = 0~125℃)
0.5
1000 hrs, T J = 125℃
VIN - Vo = 5V
IO
VIN - Vo = 5V
EN
B = 10㎐ to 10㎑, TJ = 25℃
VD
1000
IO = 40㎃ , f = 120㎐, TJ = 25℃
VIN = 6.3V, V NIPPLE = 1V PP
60
%
%
0.3
IO = 100㎃
ID
SVR
4.900
%
15
V
5
10
㎃
1250
1600
㎃
100
㎶
75
㏈
IO = 100㎃
1.0
1.1
V
IO = 500㎃
1.1
1.2
V
1.2
0.003
1.3
V
%/W
IO = 1A
TA = 25℃ 30㎳ Pulse
Jan. 2007 - Rev 1.0
6
HTC
1A L.D.O. VOLTAGE REGULATOR
LM1117S/RS/F
APPLICATION CIRCUITS
Figure 1.
Figure 2.
VIN
IN
C1
LM1117
VIN
LM1117
IN
OUT
VOUT
OUT
C1
ADJ
C2
ADJ
IADJ
50㎂
R1
LOAD
VREF
VOUT=VREF(1+R2/R1)+IADJR2
1A Current Output
R1
R2
Typical Adjustable Regulator
Figure 3. Negative Supply
LM1117S-50
IN
OUT
GND
VIN
+
+
100㎌
10㎌
VOUT=-5V
FLOATING INPUT
HTC
Jan. 2007 - Rev 1.0
7
1A L.D.O. VOLTAGE REGULATOR
LM1117S/RS/F
Figure 4. Active Terminator for SCSI-2 BUS
110
110
LM1117S-28
IN
(2.85V)
GND
+
4.75V
TO
5.25V
18-27
LINES
110
+ 22㎌
110
10㎌
Figure 5. Voltage Regulator With Reference
VIN>11.5V
+
LM1117S-50
IN
OUT
GND
10㎌
10V
+
100㎌
5VOUT
HTC
Jan. 2007 - Rev 1.0
8
1A L.D.O. VOLTAGE REGULATOR
LM1117S/RS/F
Figure 6. Battery Backed-up Regulated Supply
VIN
LM1117S-50
IN
OUT
GND
+
10㎌
5.2V LINE
5.0 BATTERY
50Ω
SELECT FOR
CHARGE VALUE
LM1117S-50
IN
OUT
GND
+
6.5V
10㎌
+
100㎌
* NOTES : IF ANYTHING WILL BE CHANGED FOR THIS SPECIFICATION,
TAEJIN TECHNOLOGY MUST INFORM PCC BEFORE THE CHANGE
HTC
Jan. 2007 - Rev 1.0
9
1A L.D.O. VOLTAGE REGULATOR
LM1117S/RS/F
Typical Performance Characteristics
1.6
Vin=Vout +3.0V
Iout=10mA
1.5
Vin-Vout, DROPOUT VOLTAGE (V)
Vout, OUTPUT VOLTAGE CHANGE(%)
2.0
1.0
Adj,1.5V,1.8V,2.5V
0.5
5.0V
0
-0.5
-1.0
1.4
1.2
1.0
Tj = 25℃
0.8
Tj = 125℃
0.6
0.4
0.2
-1.5
0
-2.0
-50
-25
-0
25
50
75
100
TA-FREE-AIR TEMPERATURE-℃
125
0
150
100
300
200
400
500
600
Iout, OUTPUT CURRENT(mA)
2.0
1000
1.8
Tj = 25℃
Iout, OUTPUT CURRENT(A)
1.7
1.5
1.0
0.5
Vin=Vout +3.0V
Iout=10mA
1.6
1.5
1.4
1.3
1.2
Vin = 5.0 V Load pulsed at 1.0% duty cycle
1.1
0
1.0
0
2
6
4
8
10
12
1
16
18
-50
20
-25
Vin - Vout, VOLTAGE DIFFERENTIAL (V)
-0
25
50
75
100
TA- AMBIENT TEMPERATURE (℃)
125
150
125
150
FIG 4. OUTPUT SHORT CIRCUIT CURRENT
FIG 3. OUTPUT SHORT CIRCUIT CURRENT
vs TEMPERATURE
IQ, QUIESCENT CURRENT CHANGE (%
vs DIFFERENTIAL VOLTAGE
Iadj, ADJUST PIN CURRENT
800
FIG 2. DROPOUT VOLTAGE vs OUTPUT CURRENT
FIG 1. OUTPUT VOLTAGE CHANGE vs TEMPERATURE(℃)
Iout, OUTPUT CURRENT(A)
Tj = -40℃
Iout = 10 mA
60
50
40
20
15
10
5
0
-5
-10
-15
-20
10
-50
-25
-0
25
50
75
100
125
-50
150
-25
-0
25
50
75
100
TA, AMBIENT TEMPERATURE(℃)
TA, AMBIENT TEMPERATURE (℃)
FIG 6. QUIESCENT CURRENT CHANGE vs TEMPERATURE
FIG 5. ADJ PIN CURRENT vs TEMPERATURE (℃)
(℃)
HTC
Jan. 2007 - Rev 1.0
10
1A L.D.O. VOLTAGE REGULATOR
LM1117S/RS/F
Maximum Output Current Capability
The LM1117 can deliver a continuous current of 1A over the full operating junction temperature range. However, the
current is limited by the restriction of power dissipation which differs from packages. A heat sink may be required
depending on the maximum power dissipation and maximum ambient temperature of application. With respect to th
applied package, the maximum output current of 1A may be still undeliverable due to the restriction of the power diss
of LM1117. Under all possible conditions, the junction temperature must be within the range specified under
operating conditions. The temperatures over the device are given by:
TC = T A + PD X θCA
TJ = T C + PD X θJC
TJ = T A + PD X θJA
TJ is the junction temperature, T C is the case temperature, TA is the ambient temperature, P D is the total power dissi
of the device, θCA is the thermal resistance of case-to-ambient, θJC is the thermal resistance of junction-to-case,
and θJA is the thermal resistance of junction to ambient. The total power dissipation of the device is given by
PD = PIN – POUT = (VIN X IIN)–(VOUT X IOUT)
= (VIN X (IOUT+IGND)) – (VOUT X IOUT) = (VIN - VOUT) X IOUT + VIN X IGND
where IGND is the operating ground current of the device which is specified at the Electrical Characteristics. The max
allowable temperature rise (TRmax) depends on the maximum ambient temperature (TAmax) of the application
and the maximum allowable junction temperature (TJmax):
TRmax = T Jmax – TAmax
The maximum allowable value for junction-to-ambient thermal resistance, θ JA, can be calculated using the formula:
θJA = T Rmax / PD
LM1117 is available in SOT223, TO252 packages. The thermal resistance depends on amount of copper area or he
and on air flow. If the maximum allowable value of θJA calculated above is over 130°C/W for SO-223 package, over
for TO252 package, no heat sink is needed since the package can dissipate enough heat to satisfy these
requirements. If the value for allowable θJA falls near or below these limits, a heat sink or proper area of cop
plane is required. In summary, the absolute maximum ratings of thermal resistances are as follow:
Absolute Maximum Ratings of Thermal Resistance
Characteristic
Symbol
Thermal Resistance Junction-To-Ambient / SOT223
θJA-SOT223
Thermal Resistance Junction-To-Ambient / TO252
θJA-TO252
Thermal Resistance Junction-To-Ambient / SOT89
θJA-SOT89
2
No heat sink / No air flow / No adjacent heat source / 0.066 inch copper area
Max. Rating
130
93
315
Unit
°C/W
°C/W
°C/W
HTC
Jan. 2007 - Rev 1.0
11