R1162x SERIES
3-MODE 150mA LDO REGULATOR
NO.EA-110-0512
OUTLINE
The R1162x Series consist of CMOS-based voltage regulator ICs with high output voltage accuracy and low
supply current. Each of these voltage regulator ICs consists of a voltage reference unit, an error amplifier,
resistors for setting output voltage, a current limit circuit, and so on. The output voltage is internally fixed with
high accuracy.
These ICs perform with the chip enable function and realize a standby mode with ultra low supply current. To
prevent the destruction by over current, the current limit circuit is included. The R1162x Series have 3-mode.
One is standby mode with CE or standby control pin. Other two modes are realized with ECO pin™. Fast
Transient Mode (FT mode) and Low Power Mode (LP mode) are alternative with ECO pin™. Consumption
current is reduced at Low Power Mode compared with Fast Transient Mode. The output voltage is maintained
between FT mode and LP mode.
Since the packages for these ICs are SOT-23-5 and SON1612-6 packages, high density mounting of the ICs
on boards is possible.
FEATURES
• Ultra-Low Supply Current..................................Typ. 5.5µA (Low Power Mode),
Typ. 70µA (Fast Transient Mode)
• Standby Mode ...................................................Typ. 0.1µA
• Low Dropout Voltage.........................................Typ. 0.25V (I
• High Ripple Rejection .......................................Typ. 70dB (f=1kHz, FT Mode)
Typ. 60dB (f=10kHz, FT Mode)
• Low Temperature-Drift Coefficient of Output Voltage Typ. ±100ppm/°C
• Excellent Line Regulation .................................Typ. 0.02%/V
• High Output Voltage Accuracy ..........................±2.0%(±3.0% at LP Mode)
• Small Package ................................................SOT-23-5 (Super Mini-mold), SON1612-6
• Output Voltage ..................................................Stepwise setting with a step of 0.1V
in the range of 1.5V to 4.0V is possible
• Built-in fold-back protection circuit ....................Typ. 40mA (Current at short mode)
• Performs with Ceramic Capacitors ...................C
IN=1.0µF, COUT =0.47µF
OUT=150mA Output Voltage=3.0V Type)
APPLICATIONS
• Precision Voltage References.
• Power source for electrical appliances such as cameras, VCRs and hand-held communication equipment.
• Power source for battery-powered equipment.
1
R1162x
BLOCK DIAGRAM
R1162xxx1B R1162xxx1D
ECO
DD
V
OUT
V
DD
V
ECO
OUT
V
Vref
Current Limit
Vref
Current Limit
CE
GND
CE
GND
SELECTION GUIDE
The output voltage, function of auto-discharge, package, and the packing type for the ICs can be selected at
the user's request. The selection can be available by designating the part number as shown below;
R1162xxx1x-xx ←Part Number
↑ ↑ ↑ ↑
a b c d
Code Contents
a
b
c
d
Designation of Package Type :
N:SOT-23-5 (Mini-mold) D:SON1612-6
Setting Output Voltage (V
OUT) :
Stepwise setting with a step of 0.1V in the range of 1.5V to 4.0V is possible.
Exceptions: 1.85V=R1162x181x5, 2.85V=R1162x281x5
Designation of Chip Enable Option :
B: "H" active type.
D: "H" active type. With auto discharge function
Designation of Taping Type :
Refer to Taping Specifications;TR type is the standard direction.
2
•
•
PIN CONFIGURATIONS
SOT-23-5 SON1612-6
54
(mark side)
R1162x
654
12
3
123
PIN DESCRIPTIONS
R1116N (SOT-23-5)
Pin No. Symbol Description Pin No. Symbol Description
1 VDD Input Pin 1 CE
2 GND Ground Pin 2 GND Ground Pin
3 CE
4 ECO MODE alternative pin 4 VOUT Output Pin
5 VOUT Output pin 5 GND Ground Pin
6 ECO MODE alternative pin
Chip Enable Pin 3 VDD Input Pin
R1116D (SON1612-6)
Chip Enable Pin
ABSOLUTE MAXIMUM RATINGS
Symbol Item Rating Unit
VIN Input Voltage 6.5 V
VECO Input Voltage (ECO Pin)
VCE
Input Voltage (
CE
/ CE Pin)
VOUT Output Voltage
−0.3 to 6.5
−0.3 to 6.5
−0.3 to V
IOUT Output Current 180 mA
1
∗
1
∗
PD
Power Dissipation (SOT-23-5)
Power Dissipation (SON1612-6)
Topt Operating Temperature Range
Tstg Storage Temperature Range
420 mW
500 MW
−40 ~ 85 °C
−55 ~ 125 °C
∗1 For Power Dissipation, please refer to PACKAGE INFORMATION to be described.
IN+0.3
V
V
V
3
R1162x
<
<
<
<
<
<
<
<
<
<
<
<
<
<
<
<
<
<
<
<
<
ELECTRICAL CHARACTERISTICS
• R1162xxx1B/D Topt=25°C
Symbol Item Conditions Min. Typ. Max. Unit
V
OUT
×0.98
OUT
V
×0.97
−1.2
(−24)
0.0 1.2 %
0.0 (24) mV
150 mA
20 40 mV
20 45 mV
70 100
5.5 9.0
0.1 1.0
0.02 0.10 %/V
0.05 0.20 %/V
70
60
VOUT Output Voltage
Output Voltage Deviation
∆VOUT
between FT Mode and LP
Mode
IOUT Output Current
∆VOUT/
∆I
Load Regulation(FT Mode)
OUT
Load Regulation(LP Mode)
VDIF Dropout Voltage
ISS1 Supply Current(FT Mode)
ISS2 Supply Current(LP Mode)
Istandby Supply Current (Standby)
Line Regulation(FT Mode)
∆VOUT/
∆V
IN
Line Regulation(LP Mode)
RR Ripple Rejection(FT Mode)
VIN = Set VOUT+1V VECO = VIN
1mA
V
IN = Set VOUT + 1V VECO =GND
1mA
IOUT
IOUT
30mA
30mA
Note 1
Note 2
VIN = Set VOUT+1V, IOUT =30mA
V
OUT
2.0V
>
OUT
V
V
V
1mA
V
1mA
2.0V
IN − VOUT = 1.0V
IN =Set VOUT+1V, VECO=VIN
IOUT
150mA
IN = Set VOUT+1V,VECO=GND
IOUT
150mA
Refer to the ELECTRICAL CHARACTERISTICS by OUTPUT VOLTAGE
V
IN = Set VOUT+1V
V
ECO = VIN, IOUT=0mA
V
IN = Set VOUT+1V
ECO = GND, IOUT=0mA
V
V
IN = VCE = Set VOUT+1V
OUT+0.5V
Set V
I
OUT = 30mA, VECO = VIN
VOUT
Set V
I
V
1.6V: 2.2V
OUT + 0.5V
OUT = 30mA, VECO = GND
OUT
1.6V: 2.2V
VIN
VIN
VIN
VIN
6.0V
6.0V
6.0V
6.0V
f = 1kHz
f = 10kHz,Ripple 0.2Vp-p
IN = Set VOUT + 1V
V
OUT = 30mA, VECO = VIN
I
VIN Input Voltage 2.0 6.0 V
∆VOUT/
∆Topt
Ilim Short Current Limit
IPD
Output Voltage
Temperature Coefficient
CE Pull-down
Constant Current
IOUT = 30mA
−40°C
V
OUT = 0V
Topt
85°C
±100
40 mA
0.3 0.6
RPD ECO Pull-down Resistance 2 5 30
VCEH CE, ECO Input Voltage “H” 1.0 6.0 V
VCEL CE, ECO Input Voltage “L” 0.00 0.35 V
en Output Noise (Fast Mode)
en
Output Noise
(Low Power Mode)
BW = 10Hz to 100kHz
BW = 10Hz to 100kHz
30
40
Nch On resistance for
RLOW
auto-discharge
V
CE=0V
60
(Applied to D version)
VOUT
×1.02
V
OUT
×1.03
V
V
µA
µA
µA
dB
ppm
/°C
µA
MΩ
µ
Vrms
µ
Vrms
Ω
4
T
ELECTRICAL CHARACTERISTICS by OUTPUT VOLTAGE
Topt = 25°C
Dropout Voltage (mV)
Output Voltage
VOUT (V)
Condition
VDIF(ECO=H) VDIF(ECO=L)
Typ. Max. Typ. Max.
1.5
1.6
1.7
1.8
2.0
2.8
<
=
<
=
<
=
<
=
<
=
<
=
VOUT
VOUT
VOUT
VOUT
VOUT
VOUT
<
1.6 400 680 420 680
=
<
1.7 380 550 390 550
=
<
1.8 350 520 370 520
=
<
2.0 340 490 350 490
=
<
2.8 290 425 300 430
=
<
4.0
=
I
OUT = 150mA
250 350 250 350
TYPICAL APPLICATION
IN OUT
C1
VDD
R1162x
SERIES
GND
OU
2
C
R1162x
CE・CE
ECO
(External Components)
C
2 Ceramic 0.47µF Ex. Murata GRM40B474K
Kyocera CM105B474K
C
1 Ceramic 1.0µF
5
R1162x
TYPICAL CHARACTERISTICS Unless otherwise provided, capacitors are ceramic type.
1) Output Voltage vs. Output Current
R1162x15x (ECO=H) R1162x15x (ECO=L)
1.6
1.4
H(V)
1.2
OUT
1.0
VIN=2V
VIN=2.5V
•
3.5V
0.8
0.6
0.4
0.2
Output Voltage H V
0.0
0 100 200 300 400
OUT
Output Current I
(mA)
R1162x28x (ECO=H) R1162x28x (ECO=L)
3.0
1.6
1.4
L(V)
1.2
OUT
1.0
VIN=2V
VIN=2.5V
0.8
0.6
0.4
0.2
Output Voltage L V
0.0
0 100 200 300 400
OUT
Output Current I
(mA)
3.0
•
3.5V
2.5
H(V)
OUT
2.0
1.5
1.0
0.5
Output Voltage H V
0.0
0 100 200 300 400
VIN=3.1V
VIN=3.3V
Output Current I
VIN=3.8V
OUT
(mA)
•
4.8V
2.5
L(V)
OUT
2.0
1.5
1.0
0.5
Output Voltage L V
0.0
0 100 200 300 400
VIN=3.1V
VIN=3.3V
Output Current I
VIN=3.8V
OUT
(mA)
R1162x40x (ECO=H) R1162x40x (ECO=L)
4.5
4.0
H(V)
3.5
OUT
3.0
2.5
VIN=4.3V
VIN=4.5V
VIN=5.0V
•
6.0V
2.0
1.5
1.0
0.5
Output Voltage H V
0.0
0 100 200 300 400
OUT
Output Current I
(mA)
4.5
4.0
L(V)
3.5
OUT
3.0
2.5
VIN=4.3V
VIN=4.5V
VIN=5.0V
2.0
1.5
1.0
0.5
Output Voltage L V
0.0
0 100 200 300 400
OUT
Output Current I
(mA)
•
4.8V
•
6.0V
6
2) Output Voltage vs. Input Voltage
R1162x15x (ECO=H) R1162x15x (ECO=L)
1.6
1.4
H(V)
1.2
OUT
1.0
0.8
0.6
0.4
0.2
Output Voltage H V
I
OUT
I
OUT
I
OUT
=1mA
=30mA
=50mA
0.0
02 51436
IN
Input Voltage V
(V)
R1162x28x (ECO=H) R1162x28x (ECO=L)
3.0
1.6
1.4
L(V)
1.2
OUT
1.0
0.8
0.6
0.4
0.2
Output Voltage L V
I
OUT
I
OUT
I
OUT
0.0
02 51436
IN
Input Voltage V
(V)
3.0
R1162x
=1mA
=30mA
=50mA
2.5
H(V)
OUT
2.0
1.5
1.0
I
OUT
0.5
Output Voltage H V
I
OUT
I
OUT
=1mA
=30mA
=50mA
0.0
02 51436
IN
Input Voltage V
(V)
2.5
L(V)
OUT
2.0
1.5
1.0
I
0.5
Output Voltage L V
OUT
I
OUT
I
OUT
0.0
02 51436
IN
Input Voltage V
(V)
R1162x40x (ECO=H) R1162x40x (ECO=L)
4.5
4.0
H(V)
3.5
OUT
3.0
2.5
2.0
1.5
I
OUT
1.0
0.5
Output Voltage H V
I
OUT
I
OUT
=1mA
=30mA
=50mA
0.0
02 51436
IN
Input Voltage V
(V)
4.5
4.0
L(V)
3.5
OUT
3.0
2.5
2.0
1.5
I
1.0
0.5
Output Voltage L V
OUT
I
OUT
I
OUT
0.0
02 51436
IN
Input Voltage V
(V)
=1mA
=30mA
=50mA
=1mA
=30mA
=50mA
7
R1162x
3) Supply Current vs. Input Voltage
R1162x15x (ECO=H) R1162x15x (ECO=L)
80
70
60
H(µA)
SS
50
40
30
20
10
Supply Current H I
0
0231 456
IN
Input Voltage V
(V)
R1162x28x (ECO=H) R1162x28x (ECO=L)
80
70
60
H(µA)
SS
50
40
30
20
10
Supply Current H I
0
0231 456
IN
Input Voltage V
(V)
R1162x40x (ECO=H) R1162x40x (ECO=L)
80
70
60
H(µA)
SS
50
40
30
20
10
Supply Current H I
0
0231 456
IN
Input Voltage V
(V)
7
6
L(µA)
5
SS
4
3
2
1
Supply Current L I
0
0231 456
IN
Input Voltage V
(V)
11
10
9
L(µA)
8
SS
7
6
5
4
3
2
Supply Current L I
1
0
0231 456
IN
Input Voltage V
(V)
12
11
10
9
L(µA)
SS
8
7
6
5
4
3
2
Supply Current L I
1
0
0231 456
IN
Input Voltage V
(V)
8
4) Output Voltage vs. Temperature
R1162x15x (ECO=H) R1162x15x (ECO=L)
1.53
1.53
R1162x
1.52
H(V)
1.51
VOUT
1.50
1.49
1.48
1.47
Output Voltage H
1.46
-50 0-25 50 7525 100
Temperature Topt(°C)
1.52
L(V)
1.51
VOUT
1.50
1.49
1.48
1.47
Output Voltage L
1.46
-50 0-25 50 7525 100
Temperature Topt(°C)
R1162x28x (ECO=H) R1162x28x (ECO=L)
2.83
2.82
H(V)
2.81
VOUT
2.80
2.79
2.78
2.77
Output Voltage H
2.76
-50 0-25 50 7525 100
Temperature Topt(°C)
2.83
2.82
L(V)
2.81
VOUT
2.80
2.79
2.78
2.77
Output Voltage L
2.76
-50 0-25 50 7525 100
Temperature Topt(°C)
R1162x40x (ECO=H) R1162x40x (ECO=L)
4.05
4.04
H(V)
4.03
VOUT
4.02
4.01
4.00
3.99
3.98
Output Voltage H
3.97
-50 0-25 50 7525 100
Temperature Topt(°C)
4.06
4.05
L(V)
4.04
VOUT
4.03
4.02
4.01
4.00
3.99
Output Voltage L
3.98
-50 0-25 50 7525 100
Temperature Topt(°C)
9
R1162x
5) Supply Current vs. Temperature
R1162x15x (ECO=H) R1162x15x (ECO=L)
90
80
70
H(µA)
SS
60
50
40
30
20
10
Supply Current H I
0
-50 0 25-25 50 75 100
Temperature Topt(°C)
R1162x28x (ECO=H) R1162x28x (ECO=L)
90
80
70
H(µA)
SS
60
50
40
30
20
10
Supply Current H I
0
-50 0 25-25 50 75 100
Temperature Topt(°C)
R1162x40x (ECO=H) R1162x40x (ECO=L)
90
80
70
H(µA)
SS
60
50
40
30
20
10
Supply Current H I
0
-50 0 25-25 50 75 100
Temperature Topt(°C)
8
7
6
L(µA)
SS
5
4
3
2
1
Supply Current L I
0
-50 0 25-25 50 75 100
Temperature Topt(°C)
8
7
6
L(µA)
SS
5
4
3
2
1
Supply Current L I
0
-50 0 25-25 50 75 100
Temperature Topt(°C)
8
7
6
L(µA)
SS
5
4
3
2
1
Supply Current L I
0
-50 0 25-25 50 75 100
Temperature Topt(°C)
10
6) Dropout Voltage vs. Output Current
R1162x15x (ECO=H) R1162x15x (ECO=L)
0.5
H(V)
0.4
DIF
0.3
85°C
25°C
-40°C
0.5
L(V)
0.4
DIF
0.3
85°C
25°C
-40°C
R1162x
0.2
0.1
Dropout Voltage H V
0.0
0 50 12525 10075 150
OUT
Output Current I
(mA)
0.2
0.1
Dropout Voltage L V
0.0
0 50 12525 10075 150
OUT
Output Current I
(mA)
R1162x16x (ECO=H) R1162x16x (ECO=L)
0.5
85°C
H(V)
0.4
DIF
25°C
-40°C
0.3
0.2
0.1
Dropout Voltage H V
0.0
0 50 12525 10075 150
OUT
Output Current I
(mA)
0.5
85°C
L(V)
0.4
DIF
25°C
-40°C
0.3
0.2
0.1
Dropout Voltage L V
0.0
0 50 12525 10075 150
OUT
Output Current I
(mA)
R1162x17x (ECO=H) R1162x17x (ECO=L)
0.5
H(V)
0.4
DIF
0.3
85°C
25°C
-40°C
0.5
L(V)
0.4
DIF
0.3
85°C
25°C
-40°C
0.2
0.1
Dropout Voltage H V
0.0
0 50 12525 10075 150
OUT
Output Current I
(mA)
0.2
0.1
Dropout Voltage L V
0.0
0 50 12525 10075 150
OUT
Output Current I
(mA)
11
R1162x
R1162x18x (ECO=H) R1162x18x (ECO=L)
0.5
H(V)
0.4
DIF
0.3
85°C
25°C
-40°C
0.5
L(V)
0.4
DIF
0.3
85°C
25°C
-40°C
0.2
0.1
Dropout Voltage H V
0.0
0 50 12525 10075 150
OUT
Output Current I
(mA)
0.2
0.1
Dropout Voltage L V
0.0
0 50 12525 10075 150
OUT
Output Current I
(mA)
R1162x21x (ECO=H) R1162x21x (ECO=L)
0.4
85°C
H(V)
0.3
DIF
25°C
-40°C
0.2
0.1
Dropout Voltage H V
0.0
0 50 12525 10075 150
OUT
Output Current I
(mA)
0.4
85°C
L(V)
0.3
DIF
25°C
-40°C
0.2
0.1
Dropout Voltage L V
0.0
0 50 12525 10075 150
OUT
Output Current I
(mA)
R1162x28x (ECO=H) R1162x28x (ECO=L)
0.30
0.25
0.20
85°C
25°C
-40°C
0.30
0.25
0.20
85°C
25°C
-40°C
12
0.15
0.10
0.05
Dropout Voltage H VDIFH(V)
0.00
0 50 12525 10075 150
OUT
Output Current I
(mA)
0.15
0.10
0.05
Dropout Voltage L VDIFL(V)
0.00
0 50 12525 10075 150
Output Current I
OUT
(mA)
R1162x40x (ECO=H) R1162x40x (ECO=L)
0.30
0.25
0.20
85°C
25°C
-40°C
0.30
0.25
0.20
85°C
25°C
-40°C
R1162x
0.15
0.10
0.05
Dropout Voltage H VDIFH(V)
0.00
0 50 12525 10075 150
OUT
Output Current I
(mA)
0.15
0.10
0.05
Dropout Voltage L VDIFL(V)
0.00
0 50 12525 10075 150
Output Current I
OUT
(mA)
7) Dropout Voltage vs. Set Output Voltage
R1162x (ECO=H) R1162x (ECO=L)
0.50
I
OUT
=10mA
I
OUT
0.40
0.30
I
OUT
I
OUT
I
OUT
=30mA
=50mA
=100mA
=150mA
0.20
0.10
Dropout Voltage H VDIFH(V)
0.00
1.5 2.52.0 3.53.0 4.0
REG
Set Output Voltage V
(V)
0.50
I
OUT
I
0.40
0.30
OUT
I
OUT
I
OUT
I
OUT
0.20
0.10
Dropout Voltage H VDIFL(V)
0.00
1.5 2.52.0 3.53.0 4.0
Set Output Voltage V
8) Ripple Rejection vs. Input Bias Voltage
R1162x28x (ECO=H) R1162x28x (ECO=H)
C
IN
=none, C
I
OUT
=1mA Ripple=0.2Vp-p
90
80
70
60
50
40
30
20
Ripple Rejection RR(dB)
10
0
2.9 3.0 3.23.1 3.3
Input Voltage V
OUT
=0.47µF,
f=1kHz
f=10kHz
f=100kHz
IN
(V)
90
80
70
60
50
40
30
20
Ripple Rejection RR(dB)
10
0
2.9 3.0 3.23.1 3.3
C
IN
=none, C
I
OUT
=1mA Ripple=0.5Vp-p
Input Voltage V
OUT
f=1kHz
f=10kHz
f=100kHz
IN
(V)
=10mA
=30mA
=50mA
=100mA
=150mA
REG
(V)
=0.47µF,
13
R1162x
R1162x28x (ECO=H) R1162x28x (ECO=H)
C
IN
=none, C
I
OUT
=30mA Ripple=0.2Vp-p
90
80
70
60
50
40
30
20
Ripple Rejection RR(dB)
10
0
2.9 3.0 3.23.1 3.3
Input Voltage V
OUT
=0.47µF,
f=1kHz
f=10kHz
f=100kHz
IN
(V)
90
80
70
60
50
40
30
20
Ripple Rejection RR(dB)
10
0
2.9 3.0 3.23.1 3.3
R1162x28x (ECO=H) R1162x28x (ECO=H)
C
IN
=none, C
I
OUT
=50mA Ripple=0.2Vp-p
90
80
70
60
50
40
30
20
Ripple Rejection RR(dB)
10
0
2.9 3.0 3.23.1 3.3
Input Voltage V
OUT
=0.47µF,
f=1kHz
f=10kHz
f=100kHz
IN
(V)
90
80
70
60
50
40
30
20
Ripple Rejection RR(dB)
10
0
2.9 3.0 3.23.1 3.3
9) Ripple Rejection vs. Frequency
R1162x15x (ECO=H) R1162x15x (ECO=L)
C
IN
=none, C
V
80
70
60
50
40
30
20
10
Ripple Rejection RR_H(dB)
0
0.1 101 100
Frequency f(kHz)
OUT
=0.47µF,
IN
=2.5VDC+0.2Vp-p
I
OUT
=1mA
OUT
=30mA
I
OUT
=50mA
I
70
60
50
40
30
20
10
Ripple Rejection RR_L(dB)
0
0.1 101 100
C
IN
=none, C
I
OUT
=30mA Ripple=0.5Vp-p
Input Voltage V
C
IN
=none, C
I
OUT
=50mA Ripple=0.5Vp-p
Input Voltage V
C
IN
=none, C
V
IN
=2.5VDC+0.2Vp-p
Frequency f(kHz)
OUT
f=1kHz
f=10kHz
f=100kHz
IN
(V)
OUT
IN
(V)
OUT
I
OUT
I
OUT
I
OUT
=0.47µF,
=0.47µF,
f=1kHz
f=10kHz
f=100kHz
=0.47µF,
=1mA
=30mA
=50mA
14
R1162x28x (ECO=H) R1162x28x (ECO=L)
C
IN
=none, C
V
80
70
60
50
OUT
=0.47µF,
IN
=3.8VDC+0.2Vp-p
70
60
50
40
40
30
I
OUT
20
10
Ripple Rejection RR_H(dB)
I
I
OUT
OUT
=1mA
=30mA
=50mA
0
0.1 101 100
Frequency f(kHz)
30
20
10
Ripple Rejection RR_L(dB)
0
0.1 101 100
C
IN
=none, C
V
IN
=3.8VDC+0.2Vp-p
I
I
I
Frequency f(kHz)
OUT
OUT
OUT
OUT
R1162x40x (ECO=H) R1162x40x (ECO=L)
C
IN
=none, C
V
80
70
60
50
OUT
=0.47µF,
IN
=5.0VDC+0.2Vp-p
70
60
50
40
40
30
I
OUT
20
10
Ripple Rejection RR_H(dB)
I
I
OUT
OUT
=1mA
=30mA
=50mA
0
0.1 101 100
Frequency f(kHz)
30
20
10
Ripple Rejection RR_L(dB)
0
0.1 101 100
C
IN
=none, C
V
IN
=5.0VDC+0.2Vp-p
I
OUT
I
OUT
OUT
I
Frequency f(kHz)
OUT
10) Input Transient Response
R1162x15x (ECO=H) R1162x15x (ECO=L)
1.58
C
IN
=none, C
OUT
=0.47µF, I
OUT
=30mA
4
3.5
C
IN=none, COUT=0.47µF, IOUT=10mA
R1162x
=0.47µF,
=1mA
=30mA
=50mA
=0.47µF,
=1mA
=30mA
=50mA
4
1.56
(V)
OUT
1.54
1.52
1.50
1.48
Output Voltage V
1.46
Input Voltage
Output Voltage
020 6080904010 50 7030 100
Time t(µs)
3
(V)
IN
2
1
0
Input Voltage V
-1
-2
VOUT(V)
3.0
2.5
Input Voltage
2.0
1.5
1.0
Output Voltage
Output Voltage
0.5
0.0 0.2 0.6 0.8 0.90.40.1 0.5 0.70.3 1.0
Time t(ms)
3
2
1
0
Input Voltage VIN(V)
-1
-2
15
R1162x
R1162x15x (ECO=L) R1162x28x (ECO=H)
3.5
C
IN=none, COUT=1µF, IOUT=10mA
4
2.88
C
IN
=none, C
OUT
=0.47µF, I
OUT
=30mA
6
VOUT(V)
Output Voltage
3.0
Input Voltage
2.5
2.0
1.5
Output Voltage
1.0
0.5
0.0 0.2 0.6 0.8 0.90.40.1 0.5 0.70.3 1.0
Time t(ms)
3
2
1
0
Input Voltage VIN(V)
-1
-2
2.86
(V)
OUT
2.84
Input Voltage
2.82
2.80
Output Voltage
2.78
Output Voltage V
2.76
020 6080904010 50 7030 100
Time t(µs)
R1162x28x (ECO=L) R1162x28x (ECO=L)
IN=none, COUT=0.47µF, IOUT=10mA
C
5.0
4.5
OUT(V)
4.0
3.5
3.0
2.5
Output Voltage V
Input Voltage
Output Voltage
6
5
4
3
2
Input Voltage VIN(V)
1
5.0
4.5
OUT(V)
4.0
3.5
3.0
2.5
Output Voltage V
IN=none, COUT=1µF, IOUT=10mA
C
Input Voltage
Output Voltage
5
(V)
IN
4
3
2
Input Voltage V
1
0
6
5
4
3
2
Input Voltage VIN(V)
1
2.0
0.0 0.2 0.6 0.8 0.90.40.1 0.5 0.70.3 1.0
Time t(ms)
0
2.0
0.0 0.2 0.6 0.8 0.90.40.1 0.5 0.70.3 1.0
Time t(ms)
11) Load Transient Response
R1162x15x (ECO=H) R1162x15x (ECO=H)
V
IN
=2.5V, C
IN
=1µF, C
OUT
Output Current
Output Voltage
0 4 12 16 18821014620
Time t(µs)
(V)
OUT
Output Voltage V
1.9
1.8
1.7
1.6
1.5
1.4
1.3
=2.5V, C
V
Output Current
IN
=1µF, C
Output Voltage
OUT
=0.47µF
150
100
(mA)
50
OUT
0
-50
-100
Output Current I
-150
IN
0 4 12 16 18821014620
Time t(µs)
1.9
1.8
(V)
OUT
1.7
1.6
1.5
1.4
Output Voltage V
1.3
=0.47µF
0
60
30
0
-30
-60
-90
-120
(mA)
OUT
Output Current I
16
R1162x15x (ECO=H) R1162x15x (ECO=L)
1.9
V
IN
=2.5V, C
IN
=1µF, C
OUT
=1µF
60
1.9
V
IN
=2.5V, C
IN
=1µF, C
OUT
R1162x
=0.47µF
20
(V)
OUT
Output Voltage V
1.8
Output Current
1.7
1.6
1.5
1.4
Output Voltage
1.3
0 4 12 16 18821014620
Time t(µs)
30
(mA)
0
OUT
-30
-60
-90
Output Current I
-120
1.8
(V)
OUT
1.7
Output Current
1.6
1.5
1.4
Output Voltage V
Output Voltage
1.3
0.0 0.4 1.2 1.6 1.80.80.2 1.0 1.40.6 2.0
Time t(ms)
R1162x15x (ECO=L) R1162x28x (ECO=H)
1.9
1.8
(V)
OUT
1.7
1.6
1.5
1.4
Output Voltage V
V
IN
=2.5V, C
Output Current
Output Voltage
IN
=1µF, C
OUT
=1µF
20
10
(mA)
0
OUT
-10
-20
-30
Output Current I
3.2
3.1
(V)
OUT
3.0
2.9
2.8
2.7
Output Voltage V
V
IN
=3.8V, C
Output Current
Output Voltage
IN
=1µF, C
OUT
=0.47µF
10
(mA)
0
OUT
-10
-20
-30
Output Current I
-40
150
100
(mA)
50
OUT
0
-50
-100
Output Current I
1.3
0.0 0.4 1.2 1.6 1.80.80.2 1.0 1.40.6 2.0
Time t(ms)
-40
2.6
0 4 12 16 18821014620
Time t(µs)
R1162x28x (ECO=H) R1162x28x (ECO=H)
(V)
OUT
Output Voltage V
3.2
3.1
3.0
2.9
2.8
2.7
2.6
=3.8V, C
Output Current
Output Voltage
IN
=1µF, C
OUT
=1µF
150
100
(mA)
50
OUT
0
-50
-100
Output Current I
-150
V
IN
0 4 12 16 18821014620
Time t(µs)
3.2
3.1
(V)
OUT
3.0
2.9
2.8
2.7
Output Voltage V
2.6
V
IN
=3.8V, C
IN
=1µF, C
OUT
Output Current
Output Voltage
0 4 12 16 18821014620
Time t(µs)
=0.47µF
-150
60
30
(mA)
0
OUT
-30
-60
-90
Output Current I
-120
17
R1162x
R1162x28x (ECO=H) R1162x28x (ECO=L)
3.2
V
IN
=3.8V, C
IN
=1µF, C
OUT
=1µF
60
5.0
V
IN
=3.8V, C
IN
=1µF, C
OUT
=0.47µF
20
(V)
OUT
Output Voltage V
3.1
Output Current
3.0
2.9
2.8
2.7
Output Voltage
2.6
0 4 12 16 18821014620
Time t(µs)
30
(mA)
0
OUT
-30
-60
-90
Output Current I
-120
4.5
(V)
OUT
4.0
3.5
3.0
2.5
Output Voltage V
2.0
Output Current
Output Voltage
10
(mA)
0
OUT
-10
-20
-30
Output Current I
-40
0.0 0.4 1.2 1.6 1.80.80.2 1.0 1.40.6 2.0
Time t(ms)
R1162x28x (ECO=L)
V
IN
5.0
4.5
(V)
OUT
4.0
3.5
3.0
2.5
Output Voltage V
=3.8V, C
Output Current
Output Voltage
IN
=1µF, C
OUT
=1µF
20
10
(mA)
0
OUT
-10
-20
-30
Output Current I
2.0
-40
0.0 0.4 1.2 1.6 1.80.80.2 1.0 1.40.6 2.0
Time t(ms)
12) Turn on speed with CE pin
R1162x15x (ECO=H) R1162x15x (ECO=L)
IN
(V)
CE
V
CE Input Voltage
=2.5V, C
V
C
OUT
=0.47µF, I
3
2
1
CE Input Voltage
0
-1
-2
Output Voltage
-3
-4
-5
-8 0 16 24832-4 12 20428
Time t(µs)
OUT
IN
=1µF,
=0mA
3.5
3.0
(V)
2.5
OUT
2.0
1.5
1.0
0.5
Output Voltage V
0.0
-0.5
IN
=2.5V, C
V
C
OUT
=0.47µF, I
3
2
(V)
CE
V
1
0
CE Input Voltage
-1
-2
Output Voltage
-3
CE Input Voltage
-4
-5
-40 0 8040 120-20 6020 100
Time t(ms)
OUT
IN
=1µF,
=0mA
3.5
3.0
(V)
2.5
OUT
2.0
1.5
1.0
0.5
Output Voltage V
0.0
-0.5
18
R1162x15x (ECO=H) R1162x15x (ECO=L)
IN
(V)
CE
V
CE Input Voltage
=2.5V, C
V
C
OUT
=0.47µF, I
3
2
1
CE Input Voltage
0
-1
-2
Output Voltage
-3
-4
-5
-8 0 16 24832-4 12 20428
Time t(µs)
OUT
IN
=1µF,
=30mA
3.5
3.0
(V)
2.5
OUT
2.0
1.5
1.0
0.5
Output Voltage V
0.0
-0.5
IN
=2.5V, C
V
C
OUT
=0.47µF, I
OUT
3
2
(V)
CE
V
1
0
CE Input Voltage
-1
-2
Output Voltage
-3
CE Input Voltage
-4
-5
-0.2 0.0 0.4 0.60.2 0.8-0.1 0.3 0.50.1 0.7
Time t(ms)
R1162x15x (ECO=H) R1162x15x (ECO=L)
V
IN
(V)
CE
V
CE Input Voltage
=2.5V, C
C
OUT
=0.47µF, I
3
2
1
CE Input Voltage
0
-1
-2
-3
Output Voltage
-4
-5
-8 0 16 24832-4 12 20428
Time t(µs)
OUT
IN
=1µF,
=150mA
3.5
3.0
(V)
2.5
OUT
2.0
1.5
1.0
0.5
Output Voltage V
0.0
-0.5
IN
=2.5V, C
V
C
OUT
=0.47µF, I
OUT
3
2
(V)
CE
V
1
0
CE Input Voltage
-1
-2
Output Voltage
-3
CE Input Voltage
-4
-5
-0.2 0.0 0.4 0.60.2 0.8-0.1 0.3 0.50.1 0.7
Time t(ms)
R1162x28x (ECO=H) R1162x28x (ECO=L)
CE(V)
V
CE Input Voltage
-10
IN=3.8V, CIN=1µF,
V
C
OUT=0.47µF, IOUT=0mA
6
4
1
CE Input Voltage
0
-2
-4
Output Voltage
-6
-8
-20 0 40 6020 80-10 30 5010 70
Time t(µs)
7
6
5
OUT(V)
4
3
2
1
Output Voltage V
0
-1
6
4
CE(V)
V
1
0
CE Input Voltage
-2
-4
-6
CE Input Voltage
-8
-10
-20 0 40 6020 80-10 30 5010 70
IN=3.8V, CIN=1µF,
V
C
OUT=0.47µF, IOUT=0mA
Output Voltage
Time t(ms)
IN
=1µF,
=30mA
IN
=1µF,
=150mA
R1162x
3.5
3.0
(V)
2.5
OUT
2.0
1.5
1.0
0.5
Output Voltage V
0.0
-0.5
3.5
3.0
(V)
2.5
OUT
2.0
1.5
1.0
0.5
Output Voltage V
0.0
-0.5
7
6
5
OUT(V)
4
3
2
1
Output Voltage V
0
-1
19
R1162x
R1162x28x (ECO=H) R1162x28x (ECO=L)
IN=3.8V, CIN=1µF,
V
CE(V)
V
CE Input Voltage
-10
C
OUT=0.47µF, IOUT=30mA
6
4
1
CE Input Voltage
0
-2
-4
Output Voltage
-6
-8
-20 0 40 6020 80-10 30 5010 70
Time t(µs)
7
6
5
OUT(V)
4
3
2
1
Output Voltage V
0
-1
6
4
1
CE(V)
V
0
-2
-4
-6
CE Input Voltage
-8
-10
-0.08 0.00 0.16 0.240.08 0.32-0.04 0.12 0.200.04 0.28
C
CE Input Voltage
Time t(ms)
R1162x28x (ECO=H) R1162x28x (ECO=L)
IN=3.8V, CIN=1µF,
V
CE(V)
V
CE Input Voltage
-10
C
OUT=0.47µF, IOUT=150mA
6
4
1
CE Input Voltage
0
-2
-4
Output Voltage
-6
-8
-20 0 40 6020 80-10 30 5010 70
Time t(µs)
7
6
5
OUT(V)
4
3
2
1
Output Voltage V
0
-1
6
4
1
CE(V)
V
0
-2
-4
-6
CE Input Voltage
-8
-10
-0.08 0.00 0.16 0.240.08 0.32-0.04 0.12 0.200.04 0.28
C
OUT=0.47µF, IOUT=150mA
CE Input Voltage
Time t(ms)
R1162x40x (ECO=H) R1162x40x (ECO=L)
IN=5.0V, CIN=1µF,
V
C
OUT=0.47µF, IOUT=0mA
CE Input Voltage
Output Voltage
Time t(µs)
8
7
6
OUT(V)
5
4
3
2
1
Output Voltage V
0
-1
6
4
CE(V)
V
2
0
CE Input Voltage
-2
-4
-6
-8
CE Input Voltage
-10
-12
-8 0 16 24832-4 12 20428
Time t(ms)
CE(V)
V
CE Input Voltage
-10
-12
6
4
2
0
-2
-4
-6
-8
-20 0 40 6020 80-10 30 5010 70
IN=3.8V, CIN=1µF,
V
OUT=0.47µF, IOUT=30mA
Output Voltage
IN=3.8V, CIN=1µF,
V
Output Voltage
IN=5.0V, CIN=1µF,
V
C
OUT=0.47µF, IOUT=0mA
Output Voltage
7
6
5
OUT(V)
4
3
2
1
Output Voltage V
0
-1
7
6
5
OUT(V)
4
3
2
1
Output Voltage V
0
-1
8
7
6
OUT(V)
5
4
3
2
1
Output Voltage V
0
-1
20
R1162x40x (ECO=H) R1162x40x (ECO=L)
CE(V)
V
CE Input Voltage
-10
-12
IN=5.0V, CIN=1µF,
V
C
OUT=0.47µF, IOUT=30mA
6
4
2
CE Input Voltage
0
-2
-4
-6
Output Voltage
-8
-20 0 40 6020 80-10 30 5010 70
Time t(µs)
8
7
6
OUT(V)
5
4
3
2
1
Output Voltage V
0
-1
6
C
4
CE(V)
V
2
0
CE Input Voltage
-2
-4
-6
-8
CE Input Voltage
-10
-12
-0.08 0.00 0.16 0.240.08 0.32-0.04 0.12 0.200.04 0.28
IN=5.0V, CIN=1µF,
V
OUT=0.47µF, IOUT=30mA
Output Voltage
Time t(ms)
R1162x40x (ECO=H) R1162x40x (ECO=L)
CE(V)
V
CE Input Voltage
-10
-12
IN=5.0V, CIN=1µF,
V
C
OUT=0.47µF, IOUT=150mA
6
4
2
CE Input Voltage
0
-2
-4
-6
Output Voltage
-8
-20 0 40 6020 80-10 30 5010 70
Time t(µs)
8
7
6
OUT(V)
5
4
3
2
1
Output Voltage V
0
-1
6
C
4
CE(V)
V
2
0
CE Input Voltage
-2
-4
-6
-8
CE Input Voltage
-10
-12
-0.08 0.00 0.16 0.240.08 0.32-0.04 0.12 0.200.04 0.28
IN=5.0V, CIN=1µF,
V
OUT=0.47µF, IOUT=150mA
Output Voltage
Time t(ms)
R1162x
8
7
6
OUT(V)
5
4
3
2
1
Output Voltage V
0
-1
8
7
6
OUT(V)
5
4
3
2
1
Output Voltage V
0
-1
21
R1162x
13) Turn off speed with CE pin
R1162x15xD R1162x28xD
IN
=2.5V, C
V
3
2
(V)
CE
V
1
0
CE Input Voltage
-1
-2
-3
CE Input Voltage
-4
-5
-0.08 0.00 0.16 0.240.08 0.32-0.04 0.12 0.200.04 0.28
R1162x40xD
IN
=5.0V, C
V
6
5
4
(V)
CE
3
CE Input Voltage
2
1
0
-1
-2
-3
-4
CE Input Voltage V
-5
-6
-0.08 0.00 0.16 0.240.08 0.32-0.04 0.12 0.200.04 0.28
IN
=1µF,C
Time t(ms)
IN
=1µF,C
Time t(ms)
I
OUT
= 0mA
I
OUT
= 30mA
I
OUT
= 150mA
I
OUT
= 0mA
I
OUT
= 30mA
I
OUT
= 150mA
OUT
=0.47µF
OUT
=0.47µF
3.5
3.0
(V)
2.5
OUT
2.0
1.5
1.0
0.5
Output Voltage V
0.0
-0.5
11
10
9
(V)
8
OUT
7
6
5
4
3
2
1
Output Voltage V
0
-1
IN
=3.8V, C
V
IN
=1µF,C
OUT
=0.47µF
4
3
(V)
CE
V
2
1
CE Input Voltage
0
-1
-2
-3
CE Input Voltage
-4
I
OUT
= 0mA
I
OUT
= 30mA
I
OUT
= 150mA
-5
-0.08 0.00 0.16 0.240.08 0.32-0.04 0.12 0.200.04 0.28
Time t(ms)
8.0
7.0
(V)
6.0
OUT
5.0
4.0
3.0
2.0
1.0
Output Voltage V
0.0
-1.0
22
R1162x
14) Output Voltage at Mode alternative point
R1162x15x R1162x28x
V
IN
=2.5V, C
IN
=Ceramic 1.0µF,
C
OUT
=Ceramic 0.47µF
VIN=3.8V, C
3
(V)
ECO
2
1
IN
=Ceramic 1.0µF,
C
OUT
=Ceramic 0.47µF
4
(V)
3
ECO
2
1.52
1.50
1.48
(V)
1.52
OUT
1.50
1.48
1.52
1.50
Output Voltage V
1.48
1.52
1.50
1.48
1.52
1.50
1.48
-0.1 0.1 0.5 0.70.3 0.90.0 0.4 0.60.2 0.8
1.56
1.55
(V)
1.54
1.53
1.52
1.51
1.50
Output Voltage VOUT
1.49
1.48
-10 10 50 70 80300406020 90
Time t(ms)
Time t(ms)
I
OUT
I
OUT
I
OUT
I
OUT
I
OUT
I
OUT
=1mA
=10mA
=50mA
=100mA
=150mA
=0mA
0
ECO Input Voltage V
3
2
(V)
ECO
1
0
-1
-2
-3
-4
ECO Input Voltage V
-5
2.82
I
OUT
2.80
2.78
(V)
2.82
OUT
I
OUT
2.80
2.78
2.82
2.80
Output Voltage V
I
OUT
2.78
2.82
I
OUT
2.80
2.78
2.82
I
OUT
2.80
2.78
-0.1 0.1 0.5 0.70.3 0.90.0 0.4 0.60.2 0.8
Time t(ms)
2.86
2.85
(V)
2.84
2.83
2.82
I
2.81
OUT
2.80
Output Voltage VOUT
2.79
2.78
-10 10 50 70 80300406020 90
Time t(ms)
=1mA
=10mA
=50mA
=100mA
=150mA
=0mA
1
0
-1
ECO Input Voltage V
-2
-3
-4
-5
-6
-7
-8
-9
-10
-11
-12
-13
-14
-15
4
3
(V)
ECO
2
1
0
-1
-2
-3
ECO Input Voltage V
-4
23
R1162x
T
TECHNICAL NOTES
IN OUT
C1
VDD
GND
R1162x
SERIES
OU
2
C
CE・CE
ECO
(External Components)
2 Ceramic 0.47µF Ex. Murata GRM40B474K
C
Kyocera CM105B474K
C
1 Ceramic 1.0µF
When using these ICs, consider the following points:
1.Mounting on PCB
Make V
Connect a capacitor with as much as 1.0µF capacitor between V
DD and GND lines sufficient. If their impedance is high, noise pickup or unstable operation may result.
DD and GND pin as close as possible.
Set external components, especially the output capacitor as close as possible to the ICs and make wiring as
short as possible.
2.Phase Compensation
In these ICs, phase compensation is made for securing stable operation even if the load current is varied. For
this purpose, be sure to use a 0.47µF or more capacitor C
OUT with good frequency characteristics and ESR
(Equivalent Series Resistance).
If you use a tantalum type capacitor and ESR value of the capacitor is large, output might be unstable.
Evaluate your circuit with considering frequency characteristics.
Depending on the capacitor size, manufacturer, and part number, the bias characteristics and temperature
characteristics are different. Evaluate the circuit with actual using capacitors.
24
R1162x
ESR vs. Output Current
When using these ICs, consider the following points:
In these ICs, phase compensation is made for securing stable operation even if the load current is varied.
For this purpose, be sure to use a capacitor C
Series Resistance) in the range described as follows:
The relations between I
OUT (Output Current) and ESR of Output Capacitor are shown below.
The conditions when the white noise level is under 40µV (Avg.) are marked as the hatched area in the graph.
<Test conditions>
(1) Frequency band: 10Hz to 2MHz
R1162x15x (ECO=H) R1162x15x (ECO=L)
VIN=2.0V to 6.0V, C
100
Topt=85°C Topt=25°C
IN
=1µF,C
OUT
=0.47µF
OUT with good frequency characteristics and ESR (Equivalent
VIN=2.0V to 6.0V, C
IN
=1µF,C
OUT
=0.47µF
100
10
10
Topt=-40°C
1
ESR(Ω)
0.1
0.01
0 40 80 12020 60 100 140
OUT
Load Current I
(mA)
1
ESR(Ω)
0.1
0.01
0 40 80 12020 60 100 140
OUT
Load Current I
(mA)
R1162x28x (ECO=H) R1162x28x (ECO=L)
ESR(Ω)
VIN=3.1V to 6.0V, C
100
10
1
0.1
Topt=85°C Topt=25°C
IN
=1µF,C
OUT
=0.47µF
Topt=-40°C
ESR(Ω)
VIN=3.1V to 6.0V, C
100
10
1
0.1
IN
=1µF,C
OUT
=0.47µF
0.01
0 40 80 12020 60 100 140
OUT
Load Current I
(mA)
0.01
0 40 80 12020 60 100 140
OUT
Load Current I
(mA)
25
PACKAGE INFORMATION
PE-SOT-23-5-0510
• SOT-23-5 (SC-74A) Unit: mm
PACKAGE DIMENSIONS
2.9±0.2
1.9±0.2
(0.95) (0.95)
54
+0.2
−0.1
1.6
2.8±0.3
1.1
+0.2
−0.1
0.8±0.1
0 to 0.1
123
0.4±0.1
TAPING SPECIFICATION
0.3±0.1
2.0MAX.
User Direction of Feed
TAPING REEL DIMENSIONS
3.3
3.2
+0.1
0.15
−0.05
0.2 MIN.
4.0±0.1
4.0±0.1
2.0±0.05
∅1.1±0.1
1.75±0.1
3.5±0.05
8.0±0.3
TR
φ1.5
+0.1
0
(1reel=3000pcs)
21±0.8
2±0.5
11.4±1.0
9.0±0.3
13±0.2
∅
0
+1
−1.5
0
60
180
∅
∅
PACKAGE INFORMATION
PE-SOT-23-5-0510
POWER DISSIPATION (SOT-23-5)
This specification is at mounted on board. Power Dissipation (PD) depends on conditions of mounting on board.
This specification is based on the measurement at the condition below:
(Power Dissipation (SOT-23-5) is substitution of SOT-23-6.)
Measurement Conditions
Standard Land Pattern
Environment Mounting on Board (Wind velocity=0m/s)
Board Material Glass cloth epoxy plactic (Double sided)
Board Dimensions
Copper Ratio Top side : Approx. 50% , Back side : Approx. 50%
Through-hole
Measurement Result
Standard Land Pattern Free Air
Power Dissipation 420mW 250mW
Thermal Resistance
600
500
420
(mW)
D
400
300
250
θja=(125−25°C)/0.42W=263°C/W 400°C/W
On Board
Free Air
40mm × 40mm × 1.6mm
φ0.5mm × 44pcs
(Topt=25°C,Tjmax=125°C)
40
200
Power Dissipation P
100
0
0 50 10025 75 85 125 150
Ambient Temperature (°C)
40
Power Dissipation Measurement Board Pattern
IC Mount Area Unit : mm
RECOMMENDED LAND PATTERN
0.7 MAX.
1.0
2.4
0.95
0.95
1.9
(Unit: mm)
PACKAGE INFORMATION
PE-SON1612-6-0510
• SON1612-6 Unit: mm
PACKAGE DIMENSIONS
1.6±0.1
64
1.2±0.05
1.6±0.05
0.3TYP.
(0.2)
0.5
(0.3)(0.3)
13
0.6MAX.
0.08
0.22±0.05
TAPING SPECIFICATION
0.25±0.1
1.1MAX.
User Direction of Feed
TAPING REEL DIMENSIONS
0.125±0.055
0.08 M
1.5
TR
+0.1
0
4.0±0.1
1.75
1.75
4.0±0.1
1.1±0.1
2.0±0.05
1.75±0.1
3.5±0.05
8.0±0.3
(1reel=4000pcs)
21±0.8
2±0.5
11.4±1.0
9.0±0.3
13±0.2
∅
0
+1
−1.5
0
60
180
∅
∅
PACKAGE INFORMATION
Power Dissipation (SON1612-6)
This specification is at mounted on board.
Power Dissipation (P
measurement at the condition below:
Measurement Conditions
Standard Land Pattern
Environment Mounting on Board (Wind velocity=0m/s)
Board Material Glass cloth epoxy plactic (Double sided)
Board Dimensions
Copper Ratio Top side : Approx. 50%, Back side : Approx.50%
Through-hole
Measurement Result
Standard Land Pattern
Power Dissipation 500mW
Thermal Resistance
600
D) depends on conditions of mounting on board. This specification is based on the
40mm × 40mm × 1.6mm
φ0.5mm × 24pcs
(Topt=25°C,Tjmax=125°C)
θja=(125−25°C)/0.5W=200°C/W
PE-SON1612-6-0510
39
500
(mW)
D
400
300
200
Power Dissipation P
100
0
0 50 10025 75 85 125 150
Ambient Temperature (°C)
On Board
40
27
27
40
Power Dissipation Measurement Board Pattern
IC Mount Area Unit : mm
RECOMMENDED LAND PATTERN
0.50.28
0.450.45
39
(Unit: mm)
MARK INFORMATION
R1162N SERIES MARK SPECIFICATION
SOT-23-5 (SC-74A)
•
1, 2, 3
4, 5
1 2 3 4 5
: Product Code (refer to Part Number vs. Product Code)
: Lot Number
• Part Number vs. Product Code
ME-R1162N-0409
Part Number
R1162N151B S 1 5 R1162N151D T 1 5
R1162N161B S 1 6 R1162N161D T 1 6
R1162N171B S 1 7 R1162N171D T 1 7
R1162N181B S 1 8 R1162N181D T 1 8
R1162N191B S 1 9 R1162N191D T 1 9
R1162N201B S 2 0 R1162N201D T 2 0
R1162N211B S 2 1 R1162N211D T 2 1
R1162N221B S 2 2 R1162N221D T 2 2
R1162N231B S 2 3 R1162N231D T 2 3
R1162N241B S 2 4 R1162N241D T 2 4
R1162N251B S 2 5 R1162N251D T 2 5
R1162N261B S 2 6 R1162N261D T 2 6
R1162N271B S 2 7 R1162N271D T 2 7
R1162N281B S 2 8 R1162N281D T 2 8
R1162N291B S 2 9 R1162N291D T 2 9
R1162N301B S 3 0 R1162N301D T 3 0
R1162N311B S 3 1 R1162N311D T 3 1
R1162N321B S 3 2 R1162N321D T 3 2
R1162N331B S 3 3 R1162N331D T 3 3
R1162N341B S 3 4 R1162N341D T 3 4
R1162N351B S 3 5 R1162N351D T 3 5
R1162N361B S 3 6 R1162N361D T 3 6
R1162N371B S 3 7 R1162N371D T 3 7
R1162N381B S 3 8 R1162N381D T 3 8
R1162N391B S 3 9 R1162N391D T 3 9
R1162N401B S 4 0 R1162N401D T 4 0
R1162N181B5 S 4 1 R1162N181D5 T 4 1
R1162N281B5 S 4 2 R1162N281D5 T 4 2
Product Code Product Code
1 2 3
Part Number
1 2 3
MARK INFORMATION
R1162D SERIES MARK SPECIFICATION
SON1612-6
•
1
4
to
: Product Code (refer to Part Number vs. Product Code)
1 2 3
4 5 6
5, 6
: Lot Number
• Part Number vs. Product Code
ME-R1162D-0605
Part Number
R1162D151B H 1 5 B R1162D151D H 1 5 D R1162D281E5 H 4 1 E
R1162D161B H 1 6 B R1162D161D H 1 6 D
R1162D171B H 1 7 B R1162D171D H 1 7 D
R1162D181B H 1 8 B R1162D181D H 1 8 D
R1162D191B H 1 9 B R1162D191D H 1 9 D
R1162D201B H 2 0 B R1162D201D H 2 0 D
R1162D211B H 2 1 B R1162D211D H 2 1 D
R1162D221B H 2 2 B R1162D221D H 2 2 D
R1162D231B H 2 3 B R1162D231D H 2 3 D
R1162D241B H 2 4 B R1162D241D H 2 4 D
R1162D251B H 2 5 B R1162D251D H 2 5 D
R1162D261B H 2 6 B R1162D261D H 2 6 D
R1162D271B H 2 7 B R1162D271D H 2 7 D
R1162D281B H 2 8 B R1162D281D H 2 8 D
R1162D291B H 2 9 B R1162D291D H 2 9 D
R1162D301B H 3 0 B R1162D301D H 3 0 D
R1162D311B H 3 1 B R1162D311D H 3 1 D
R1162D321B H 3 2 B R1162D321D H 3 2 D
R1162D331B H 3 3 B R1162D331D H 3 3 D
R1162D341B H 3 4 B R1162D341D H 3 4 D
R1162D351B H 3 5 B R1162D351D H 3 5 D
R1162D361B H 3 6 B R1162D361D H 3 6 D
R1162D371B H 3 7 B R1162D371D H 3 7 D
R1162D381B H 3 8 B R1162D381D H 3 8 D
R1162D391B H 3 9 B R1162D391D H 3 9 D
R1162D401B H 4 0 B R1162D401D H 4 0 D
R1162D181B5 H 4 1 B R1162D181D5 H 4 1 D
R1162D281B5 H 4 2 B R1162D281D5 H 4 2 D
Product Code Product Code Product Code
1 2 3 4
Part Number
1 2 3 4
Part Number
1 2 3 4
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