UNISONIC TECHNOLOGIES CO., LTD
L1136
Preliminary
CMOS IC
HIGH RIPPLE-REJECTION LOW
DROPOUT HIGH OUTPUT
CURRENT CMOS VOLTAGE
REGULATOR
DESCRIPTION
The UTC
L1136
is an extremely low dropout regulator providing
designers with low current dissipation, high output voltage accuracy
and it is developed based on CMOS technology.
The internal transistor with low-resistance provides small
dropout voltage and the large output current. Various capacitors, as
well as small ceramic capacitors, can be used for this IC more than
for the conventional regulator ICs which have CMOS technology.
The ON/OFF circuit can guarantee longer sure the battery life.
The over-current protection circuit is designed to protect the device from being damaged because of load
current while exceeding the capacitance of output transistor. The thermal shutdown protection circuit protects
against heat and the rush current control protection circuit and limits the excessive rush current during start-up.
The UTC
L1136
is universally suitable for power supply of battery-powered devices, power supply of TV,
notebook PCs and home electric appliances, and constant-voltage power supply of portable equipment.
FEATURES
* Output Voltage Ranges from 1.0 to 5.0V Selectable in 0.05V Step
* Input Voltage Varies From 1.5 to 5.5V
* Low Equivalent Series Resistance Capacitor: Ceramic Capacitor of 4.7μF or More can be used as the I/O Capacitor
* High Accuracy Output Voltage: ±1.0%(1.0~1.45V output product: ±15mV)
* Low Current Consumption:
During operation: 70μA (TYP.), 90μA (MAX.) (3.0V output product)
During shutdown: 0.1μA (TYP.), 1.0μA (MAX.)
* Low Dropout Voltage:
70mV (TYP.) (3.0V output product, at I
OUT
= 200mA)
* Output current:
600mA (3.0V output product, at V
IN
≥V
OUT(S)
+1.0V)
(Attention should be paid to the power dissipation of the package when the output current is large.)
* High ripple rejection:
70dB (TYP.) @ 1.0kHz, V
OUT
=1.0V
* Internal Protection Circuits: Over-Current Protection Circuit, Thermal Shutdown Circuit And Rush Current Control Circuit
* Internal Power On/Off Circuit Ensures Longer Battery Life
* Special Care should be Taken to the Power Consumption of the Package when the Output Current is Large.
ORDERING INFORMATION
Ordering Number
Lead Free
Halogen Free
L1136L-xx-AF5-R
L1136G-xx-AF5-R
Note: xx: Output Voltage, refer to Marking Information.
L1136L-xx-AF5-R
(1)Packing Type
(2)Package Type
(3)Output Voltage Code
(4)Lead Free
Package
SOT-25
Packing
Tape Reel
(1) R: Tape Reel
(2) AF5: SOT-25
(3) xx: Refer to Marking Information
(4) G: Halogen Free, L: Lead Free
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Copyright © 2011 Unisonic Technologies Co., Ltd
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QW-R502-464.e
L1136
MARKING INFORMATION
PACKAGE
VOLTAGE CODE
Preliminary
CMOS IC
MARKING
SOT-25
25 :2.5V
33 :3.3V
PIN CONFIGURATION
V
OUT
5
NC
4
1
2
3
V
IN
V
SS
ON/OFF
PIN DESCRIPTION
PIN NO.
PIN NAME
DESCRIPTION
1
V
IN
Input voltage pin
2
V
SS
GND pin
3
ON/OFF
Shutdown pin
4
NC (Note)
No connection
5
V
OUT
Output voltage pin
Note: The NC pin is electrically open and it can be connected to V
IN
or V
SS
.
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L1136
BLOCK DIAGRAM
Preliminary
CMOS IC
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L1136
ABSOLUTE MAXIMUM RATING
PARAMETER
Preliminary
CMOS IC
SYMBOL
RATINGS
UNIT
V
SS
-0.3 ~ V
SS
+6
V
V
IN
Input Voltage
V
ON/OFF
V
SS
-0.3 ~ V
IN
+0.3
V
Output Voltage
V
OUT
V
SS
-0.3 ~ V
IN
+0.3
V
Power Dissipation
P
D
1000
mW
Ambient Operating Temperature
T
OPR
-40 ~ +85
°C
Storage Temperature
T
STG
-40 ~ +125
°C
Note: 1. Absolute maximum ratings are those values beyond which the device could be permanently damaged.
Absolute maximum ratings are stress ratings only and functional device operation is not implied.
ELECTRICAL CHARACTERISTICS
(T
A
=25°C, unless otherwise specified.)
PARAMETER
SYMBOL
TEST
CIRCUIT
TEST CONDITIONS
V
IN
=V
OUT(S)
+1.0V 1.0V≤V
OUT(S)
≤1.5V
,
I
OUT
=100mA
1.5V≤V
OUT(S)
≤4.5V
MIN
V
OUT(S)
-0.015
V
OUT(S)
×0.99
TYP
V
OUT(S)
V
OUT(S)
MAX
V
OUT(S)
+0.015
V
OUT(S)
×1.01
UNIT
V
V
1
Output Voltage
(Note 1)
V
OUT(E)
1
1
V
IN
=5.5V,
V
OUT(S)
V
OUT(S)
4.5V≤V
OUT(S)
≤5.0V
V
V
OUT(S)
I
OUT
=100mA
×0.99
×1.01
mA
3
V
IN
≥V
OUT(S)
+1.0V 1.0V≤V
OUT(S)
≤4.5V
600
(Note 5)
Output Current
I
OUT
(Note 2)
3
V
IN
=5.5V
4.5V≤V
OUT(S)
≤5.0V
600
(Note 5)
mA
1
1.1V≤V
OUT(S)
≤1.2V
0.44
0.48
V
1
1.2V≤V
OUT(S)
≤1.3V
0.34
0.38
V
1
1.3V≤V
OUT(S)
≤1.4V
0.24
0.28
V
Dropout Voltage
V
DROP
I
OUT
=200mA
(Note 3)
1
1.4V≤V
OUT(S)
≤1.5V
0.14
0.18
V
1
1.5V≤V
OUT(S)
≤2.6V
0.10
0.15
V
1
2.6V≤V
OUT(S)
≤5.0V
0.07
0.10
V
V
IN
=V
OUT(S)
+1.0V
,
1
1.0V≤V
OUT(S)
≤4.5V
±130
ppm/°C
I
OUT
=100mA
Output Voltage
Δ
V
OUT
-40≤T
A
≤85°C
Temperature
Δ
T
A
⋅
V
OUT
Coefficient (Note 4)
V
IN
=5.5V,
I
OUT
=100mA
1
±130
4.5V≤V
OUT(S)
≤5.0V
ppm/°C
-40≤T
A
≤85°C
Note: 1. V
OUT(S)
: Specified output voltage; V
OUT(E)
: Actual output voltage
The output voltage when fixing I
OUT
(=100mA) and inputting V
OUT(S)
+1.0V or 5.5V
2. The output current at which the output voltage becomes 95% of V
OUT(E)
after gradually increasing the
output current
3. V
DROP
= V
IN1
-(V
OUT3
×0.98)
V
OUT3
is the output voltage when V
IN
= V
OUT(S)
+1.0V or 5.5V, and I
OUT
= 200mA.
V
IN1
is the input voltage at which the output voltage becomes 98% of V
OUT3
after gradually decreasing the
input voltage.
4. The change in temperature [mV/°C] is calculated using the following equation.
Δ
V
OUT
Δ
V
OUT
[ppm /
°
C ]
*
3
÷
1000
[mV /
°
C ]
*
1
=
V
OUT ( S )
[ V ]
*
2
×
Δ
T
A
•
V
OUT
Δ
T
A
*1. Change in temperature of the output voltage
*2. Specified output voltage
*3. Output voltage temperature coefficient
5. The output current can be at least this value.
Due to limitation of the package power dissipation, this value may not be satisfied. Attention should be
paid to the power dissipation of the package when the output current is large.
This specification is guaranteed by design.
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L1136
PARAMETER
TEST
Preliminary
CMOS IC
ELECTRICAL CHARACTERISTICS (Cont.)
TEST CONDITIONS
SYMBOL
CIRCUIT
1
V
OUT(S)
+0.5V≤V
IN
≤5.5V
1.0V≤V
OUT(S)
≤3.6V
Δ
V
OUT
1
, I
OUT
=100mA
1
3.6V≤V
OUT(S)
≤4.8V
Δ
V
IN
⋅
V
OUT
5.3V≤V
IN
≤5.5V,
4.8V≤V
OUT(S)
≤5.0V
1
I
OUT
=100mA
V
IN
=V
OUT(S)
+1.0V,
1
1.0V≤V
OUT(S)
≤4.5V
1mA≤I
OUT
≤200mA
ΔV
OUT2
V
IN
=5.5V,
1
4.5V≤V
OUT(S)
≤5.0V
1mA≤I
OUT
≤200mA
V
IN
=V
OUT(S)
+1.0V, ON/OFF pin=ON,
2
no load, 1.0V≤V
OUT(S)
<1.8V
V
IN
=V
OUT(S)
+1.0V, ON/OFF pin=ON,
2
I
SS1
no load, 1.8V≤V
OUT(S)
<4.5V
V
IN
=5.5V, ON/OFF pin=ON,
2
no load, 4.5V≤V
OUT(S)
<5.0V
V
IN
=V
OUT(S)
+1.0V,
2
ON/OFF pin= OFF,
1.0V≤V
OUT(S)
≤4.5V
no load
I
SS2
V
IN
=5.5V,
2
ON/OFF pin= OFF,
4.5V≤V
OUT(S)
≤5.0V
no load
V
IN
V
IN
=V
OUT(S)
+1.0V,
4
R
L
=1.0kΩ, Determined 1.0V≤V
OUT(S)
≤4.5V
by V
OUT
output level
V
SH
V
IN
=5.5V, R
L
=1.0 kΩ,
determined by V
OUT
4.5V≤V
OUT(S)
≤5.0V
4
output level
V
IN
=V
OUT(S)
+1.0V,
4
R
L
=1.0kΩ, Determined 1.0V≤V
OUT(S)
≤4.5V
by V
OUT
output level
V
SL
V
IN
=5.5V,R
L
=1.0kΩ,
Determined by V
OUT
4.5V≤V
OUT(S)
≤5.0V
4
output level
I
SH
I
SL
4
4
5
5
5
5
V
IN
=5.5V, V
ON/OFF
=5.5V
V
IN
=5.5V, V
ON/OFF
=0V
V
IN
=V
OUT(S)
+1.0V,
f=1kHz,I
OUT
=100mA,
ΔV
RIP
=0.5Vrms
V
IN
=5.5V,f=1kHz,
ΔV
RIP
=0.5Vrms,
I
OUT
=100mA
V
IN
=V
OUT(S)
+1.0V,
ON/OFF pin=ON,
V
OUT
=0V
V
IN
=5.5V, V
OUT
=0V,
ON/OFF pin=ON
Junction temperature
Junction temperature
1.0V≤V
OUT(S)
≤1.2V
1.2V≤V
OUT(S)
≤3.0V
3.0V≤V
OUT(S)
≤4.5V
4.5V≤V
OUT(S)
≤5.0V
MIN TYP MAX UNIT
0.05
2.5
2.5
15
15
90
70
70
0.1
0.1
1.5
1.5
0.2
10
10
30
30
110
90
90
1.0
1.0
5.5
%/V
mV
mV
mV
mV
μA
μA
μA
μA
μA
V
V
Line Regulation
Load Regulation
Current Consumption
During Operation
Current Consumption
During Shutdown
Input Voltage
Shutdown Pin
Voltage “H”
Input
1.5
V
0.3
V
Shutdown Pin
Voltage “L”
Input
0.3
-0.1
-0.1
70
65
60
60
0.1
0.1
V
μA
μA
dB
dB
dB
dB
Shutdown Pin Input
Current “H”
Shutdown Pin Input
Current “L”
Ripple Rejection
|RR|
3
Short-Circuit Current
I
SHORT
3
Thermal Shutdown
Detection Temperature
Thermal Shutdown
Release Temperature
T
SD
T
SR
1.0V≤V
OUT(S)
≤4.5V
4.5V≤V
OUT(S)
≤5.0V
200
200
150
120
mA
mA
°C
°C
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