AN33017UA (Panasonic)
1-channel DC-DC Step down Regulator integrated N-channel Power MOSFET

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Product Standards
AN33017UA
VIN = 5 to 39 V, 1-channel DC-DC Step down Regulator
integrated N-channel Power MOSFET
FEATURES
DESCRIPTION
Current Feedback Function compensates output voltage
AN33017UA is 1-channel DC-DC Step down Regulator
drop due to external USB cable loss
integrated N-channel Power MOSFET and employs the
Internal reference voltage is within 1% accuracy.
voltage mode switching control system.
Input Voltage Range : PVCC , VCC: 5 V to 39 V
Switching frequency is adjustable within the range of 200
kHz to 2 MHz by an external resistor.
Standby mode consumes less than 1µA current.
Adjustable Output Voltage Range with external Resistor :
1.2 V ~ 9 V.
Output over voltage protection (OVP1) function.
Output ground short protection function.
Input over voltage protection (OVP2) function.
This IC can be operated with wide input voltage range
and is build in several protection functions, so this IC can
provide high reliability power supply system.
Since it is possible to use up to 2MHz switching
frequency and it is unnecessary to add external parts for
High Side Switch, this IC realizes downsizing of set and
reducing in the number of external parts.
For USB applications, this IC can controlled USB
supplied voltage level with external resistor for USB load
current monitor (Current Feedback Function), and it can
Over current protection (OCP) with adjustable threshold.
Over current detection level with switchable.
Power supply under-voltage lockout (UVLO) function.
Thermal Shut-Down (TSD) function.
Adjustable soft-start function.
48 pin Plastic Quad Flat Package With Heat Sink.
(QFP Type)
provide suitable power supply system for external USB
with no voltage drop due to USB cable loss.
Maximum current is 2.1 A.
APPLICATIONS
High Input Voltage Power Systems for USB such as
Car-Audio system
Car-Navigation system
OA Equipment
Home Appliances etc.
SIMPLIFIED APPLICATION
1.0F
5 V ~ 39 V
EFFICIENCY CURVE
Pullup
EN VREG VCC
OCPDET
BTVCC
PVCC1
PVCC2
22F×3
100
90
80
200k
0.1µF
External
CLK
130k
TL_CTRL
PVCC3
FLAG
PVCC4
IN_LOW
TL AN33017UA IN_HIGH
BT
SYNC
RTCTSGND SS FB
LX1
LX2
LX3
FBADJ
COMP
FBGND
0.1µF 10µH
22µF
150
50m
4700pF
LX4
LX5
0.1µF
0.1 7.5k2.2nF
µF
27pF
470pF 1.5k
PGND
12k
330
70
60
50
40
30
20
10
0
0
300 600 900 1200 1500
Iload (mA)
Notes :
7.5k30k
Condition :
This application circuit is an example. The operation of mass production set
VIN = 6 V, 12 V, 39 V
is not guaranteed. You should perform enough evaluation and verification
on the design of mass production set. You are fully responsible
for the incorporation of the above application circuit and information
VOUT = 5 V, LO = 10 µH, CO = 22 µF
Frequency = 490 kHz
in the design of your equipment.
This block diagram is for explaining functions. The part of the block diagram
may be omitted, or it may be simplified.
These components should be put without fail for reducing the ringing of
LX1~5 in light load condition. Please use snubber resistance over 0.5W.
Please refer to “OPERATION13.Snubber circuit value setting” for setting specific value.
Load resistance, Rload should be put without fail. Load resistance
under 330Ωis recommended in VOUT=5V condition. Please refer to
OPERATION14.Load resistance, Rload setting” for setting specific value.
SS pin capacitor, CSS and TL pin capacitor CTL should be put 0.1uF.
If you change these components, please keep “ CTL > CSS × 0.9 “ relation.
VCC=6V
VCC=12V
VCC=39V
1800 2100
Established : 2017-06-28
Revised : ####-##-##
Page 1 of 26


AN33017UA (Panasonic)
1-channel DC-DC Step down Regulator integrated N-channel Power MOSFET

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Product Standards
AN33017UA
ABSOLUTE MAXIMUM RATINGS
Parameter
Symbol
Rating
Unit
Supply voltage
Operating free-air temperature
Operating junction temperature
Storage temperature
Input Voltage Range
Output Voltage Range
Input / Output Voltage Range
VCC
Topr
Tj
Tstg
VBT
VEN
VFB , VBTVCC , VTL_CTRL
VSYNC , VOCPDET , VRT, VTL, VSS
VIN_HIGH , VIN_LOW
VFLAG, VCOMP, VCT
VLX1 , VLX2 , VLX3 , VLX4 , VLX5
VFBADJ
60
40 to + 85
40 to + 150
55 to + 150
0.3 to (VCC+ VREG)
0.3 to (VCC+ 0.3)
0.3 to + 5.5
0.3 to + 10.0
0.3 to + 5.5
0.3 to (VCC+ 0.3)
0.3 to + 5.5
V
C
C
C
V
V
V
V
V
V
V
ESD
HBM
MM
2 kV
200 V
Notes: This product may sustain permanent damage if subjected to conditions higher than the above stated absolute
maximum rating. This rating is the maximum rating and device operating at this range is not guaranteeable
as it is higher than our stated recommended operating range. When subjected under the absolute maximum rating
for a long time, the reliability of the product may be affected.
*1 :The values under the condition not exceeding the power dissipation.
VCC is voltage for VCC, PVCC1, PVCC2, PVCC3, PVCC4
VCC = PVCC1 = PVCC2 = PVCC3 = PVCC4.
*2 :Without power dissipation (PD) and area of safety operation (ASO) constraint.
ICC = IVCC + IPVCC1 + IPVCC2 + IPVCC3 + IPVCC4.
. *3 :Except for the operating ambient temperature, operating junction temperature and storage temperature,
all ratings are for Ta = 25 C.
*4 :(VCC + VREG) V, (VCC + 0.3) V must be not exceeded 60 V.
Notes
*1
*2
*3
*3
*1, *4
*1, *4
*1
*1
*1
*1, *4
*1
POWER DISSIPATION RATING
PACKAGE
PD
j-a j-c ( Ta = 25 C)
48 pin Plastic Quad Flat Package with Heat
Sink (QFP Type)
51.6 C / W
4.1 C / W
2.425 W
PD
( Ta = 85 C )
1.261 W
Notes
*1
Note: For the actual usage, please refer to the PD-Ta characteristics diagram in the package specification, follow the power supply
voltage, load and ambient temperature conditions to ensure that there is enough margin and the thermal design does not
exceed the allowable value.
*1 : Glass-Epoxy(4 layers): 50500.8 (mm) , heat dissipation Die-pad , the state where is mounted with solder.
CAUTION
Although this has limited built-in ESD protection circuit, but permanent damage may occur on it.
Therefore, proper ESD precautions are recommended to avoid electrostatic damage to the MOS gates
Established : 2017-06-28
Revised : ####-##-##
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AN33017UA (Panasonic)
1-channel DC-DC Step down Regulator integrated N-channel Power MOSFET

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Product Standards
AN33017UA
RECOMMENDED OPERATING CONDITIONS
Parameter
Pin Name
Min.
Typ.
Max.
Unit Notes
Supply voltage range
Input Voltage Range
VCC
PVCC1
PVCC2
PVCC3
PVCC4
VBT
5 12 39 V *1
0.3
VCC + VREG
V
*1
*2
Input Voltage Range
VEN
0.3
VCC + 0.3
V
*1
*2
Input Voltage Range
Output Voltage Range
Input / Output Voltage Range
VFB
VBTVCC
VTL_CTRL
VSYNC
VOCPDET
VRT
VTL
VSS
VIN_HIGH
VIN_LOW
VLX1
VLX2
VLX3
VLX4
VLX5
VCOMP
VCT
VFLAG
VFBADJ
0.3
5.5 V *1
0.3
10 V *1
0.3
VCC + 0.3
V
*1
*2
0.3
0.3
5.5 V *1
5.5 V *1
Note) Do not apply external currents and voltages to any pin not specifically mentioned.
Voltage values, unless otherwise specified, are with respect to GND. GND is voltage for SGND, PGND. SGND = PGND
VCC is voltage for VCC, PVCC1 and PVCC2. VCC = PVCC1 = PVCC2.
*1 : The values under the condition not exceeding the above absolute maximum ratings and the power dissipation.
*2 : ( VCC + VREG ) V, ( VCC+ 0.3 ) V must not be exceeded 60 V.
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AN33017UA (Panasonic)
1-channel DC-DC Step down Regulator integrated N-channel Power MOSFET

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Product Standards
AN33017UA
ELECTRICAL CHARACTERISTICS
VCC = 12 V , VOUT = 5.0 V , RT = 130 k, RADJ = 12 k, RSENSE = 50 m
Ta = 25 C 2 C unless otherwise noted.
Parameter
Symbol
Condition
Current Consumption
Quiescent current
Standby current
BGR
No Switching
ICQ VFB = 1.1 V
VEN = 3.3 V
ISTB VEN = 0.4 V
Feedback voltage
VREF
FB connected to
COMP
Enable (EN)
Low input threshold
High input threshold
EN terminal input current
TL CTRL PIN Threshold
TL_CTRL pin Low input threshold
TL_CTRL pin High input threshold
SYNCHRONIZATION (SYNC)
Low input threshold
High input threshold
SYNC terminal input current
Oscillator
VIL1
VIH1
VIC1
VEN = 3.3 V
VIL2
VIH2
VIL3
VIH3
VIC3
VSYNC = 3.3 V
Oscillator frequency
Oscillator frequency range
External sync frequency range
Over-current protection
Over-current threshold voltage 1
Over-current threshold voltage 2
OCPDET pin Low input threshold
OCPDET pin High input threshold
OCPDET pin input current
fOUT1
fOUT2
fSYNC
RT = 130 k
RT = 130 k
fOUT1 = 490 kHz
VOCP1
VOCP2
VIL4
VIH4
VIC3
(IN_HIGH IN_LOW)
OCPDET=0 V
(IN_HIGH IN_LOW)
OCPDET=3.3V
VOCPDET = 3.3 V
Note: *1 : This parameter is tested with DC measurement.
Limits
Unit Notes
Min Typ Max
1.2 1.9 mA
— — 1 A
0.99 1.0 1.01 V
— — 0.4 V
2.0 — — V
33 70 A
— — 0.4 V
2.0 — — V
— — 0.4 V
2.0 — — V
33 60 A
465 490 515 kHz
200 2000 kHz
520 730 kHz
110 125 140 mV *1
66 75 84 mV *1
— — 0.4 V
2.0 — — V
20 70 A
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AN33017UA (Panasonic)
1-channel DC-DC Step down Regulator integrated N-channel Power MOSFET

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Doc No. TA4-EA-A0521
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Product Standards
AN33017UA
ELECTRICAL CHARACTERISTICS (Continued)
VCC = 12 V , VOUT = 5.0 V , RT = 130 k, RADJ = 12 k, RSENSE = 50 m
Ta = 25 C 2 C unless otherwise noted.
Parameter
Symbol
Condition
Over-voltage protection
Over-voltage threshold voltage for VFB
Over-voltage threshold voltage for VCC
Internal regulator
Internal regulator output voltage
GND short protection
Short detection voltage
Current feedback function
Current feedback output voltage1
Current feedback output voltage2
Current feedback factor
VOVP1
VOVP2
VREG
VSCP
VCFB1
VCFB2
VCFBF
For FB
For VCC
CREG = 1 uF
Monitor FB
Monitor FBADJ
VIN_HIGH = 5 V,VFB = 1.1
V
at IN_HIGH IN_LOW
= 50 mV
Monitor FBADJ
VIN_HIGH = 5 V,VFB = 1.1
V
at IN_HIGH IN_LOW
= 105 mV
(VCFB2 VCFB1)/
{4 (105 mV 50
mV ) }
No Switching
Limits
Min Typ
1.04 1.12
40 45
4.5 4.9
0.15 0.3
180 200
400 420
0.96 1
Unit Notes
Max
1.20 V
50 V
5.3 V
0.45 V
220 mV *1
440 mV *1
1.04 — —
Note: *1 : This parameter is tested with DC measurement.
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AN33017UA (Panasonic)
1-channel DC-DC Step down Regulator integrated N-channel Power MOSFET

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PIN CONFIGURATION
Top View
Product Standards
AN33017UA
N.C.
IN_LOW
N.C.
FBGND
N.C.
IN_HIGH
N.C.
OCPDET
TL
N.C.
BTVCC
N.C.
36 35 34 33 32 31 30 29 28 27 26 25
1 2 3 4 5 6 7 8 9 10 11 12
SGND.
SGND
N.C.
COMP
N.C.
VREG
N.C.
VCC
PVCC4
PVCC3
PVCC2
PVCC1
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1-channel DC-DC Step down Regulator integrated N-channel Power MOSFET

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Product Standards
AN33017UA
PIN FUNCTIONS
Pin No. Pin name
Type
Description
1 N.C.
No connection.
2 BT
3 N.C.
Input
Connect to an external capacitor for Boot strap.
Function for Boot strap to make the gate drive voltage of the
built-in power MOSFET.
Please connect capacitor between BT and LX.
For noise prevention, please consider shortest possible wiring
patterns on PCB.
No connection.
4 PGND
5 N.C.
Ground
Power ground pin.
No connection.
6 N.C.
No connection.
7 LX1
Output
Power MOSFET output terminal.
Function for switching operation between PVCC and GND.
Please connect with external inductor and schottky diode.
Impedance of wiring patterns is cause of low efficiency and noise,
because large current flows with large amplitude.
Therefore, please consider shortest possible wiring patterns on PCB.
8 LX2
Output Power MOSFET output terminal. This pin is the same as above, Pin No.7.
9 LX3
Output Power MOSFET output terminal. This pin is the same as above, Pin No.7.
10 LX4
Output Power MOSFET output terminal. This pin is the same as above, Pin No.7.
11 LX5
12 N.C.
Output
Power MOSFET output terminal. This pin is the same as above, Pin No.7.
No connection.
13 PVCC1
Power Supply Power supply terminal for Internal driver.
14 PVCC2
Power Supply Power supply terminal for Internal driver.
15 PVCC3
Power Supply Power supply terminal for Internal driver.
16 PVCC4
Power Supply Power supply terminal for Internal driver.
17 VCC
18 N.C.
Power Supply Power supply terminal for Internal driver.
No connection.
19 VREG
Output
Connect to external capacitor for internal regulator.
It is Output pin of Power supply (LDO) for internal control circuit.
Please connect capacitor between VREG and GND.
20 N.C.
No connection.
21 COMP
22 N.C.
Output
Error amplifier output.
Please connect external resistor and capacitor between COMP and FB for
phase compensation.
No connection.
Note : Concerning detail about pin description, please refer to OPERATION and APPLICATION INFORMATION section.
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AN33017UA (Panasonic)
1-channel DC-DC Step down Regulator integrated N-channel Power MOSFET

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Product Standards
AN33017UA
PIN FUNCTIONS (Continued)
Pin No.
Pin name
Type
Description
23 SGND
Ground
Ground pin.
24 SGND
25 N.C.
Ground
Ground pin.
No connection.
26 FB
Input
Feedback terminal.
The output voltage is fed back to this pin through a resistor divider
network.
27 SS
Input
Soft-start capacitor connection pin.
The output voltage at a start up is smoothly controlled by adjusting
Soft Start time.
Please connect capacitor between SS and GND.
28 RT
Input
Connect to an external resistor for adjustment of oscillation
frequency.
Please connect resistor between RT and GND.
Basic output frequency is set up with above resistor value.
If you are using SYNC function, please set input clock frequency
higher than the reference frequency.
29 CT
Output
Low Pass filter function pin for PLL.
Please connect capacitor between CT and GND. The capacitor
value determines amount of output fluctuation during transient
switch of external frequency. If you set larger capacitor, switching
time is slower and hence smaller output fluctuation. It is no problem
to set this pin open if you don’t use it.
30 FLAG
Output
Error flag output pin
This pin outputs low if DCDC continues to operate in OCP or SCP
state longer than the timer latch duration. Please connect to pull-up
resistor to High level voltage. FLAG is 5V cell. Please don’t connect
this pin over 5V directly.
31 SYNC
Input
External clock input for adjustment of oscillation frequency.
Please input clock frequency which you use to in this pin, if you use
SYNC function.
32 TL_CTRL
33 N.C.
Input
Connect to high to disable shut-down function by OCP/SCP.
If DCDC continue to detect OCP or SCP, FLAG is output over timer
latch setting time. DCDC is turned off at the same time as
outputting FLAG, when this pin input Low. DCDC continue to
operate only outputting FLAG, when this pin input High. Please turn
it off by EN control after FLAG is output.
No connection.
34 FBADJ
Connect to an external resistor for adjustment of current feedback.
Input / Output
Please connect resistor between FBADJ and GND.
35 N.C.
No connection.
Note : Concerning detail about pin description, please refer to OPERATION and APPLICATION INFORMATION section.
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Revised : ####-##-##
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AN33017UA (Panasonic)
1-channel DC-DC Step down Regulator integrated N-channel Power MOSFET

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Doc No. TA4-EA-A0521
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Product Standards
AN33017UA
PIN FUNCTIONS (Continued)
Pin No.
Pin name
Type
36 EN
Input
37 N.C.
38 IN_LOW
Input
39 N.C.
40 FBGND
41 N.C.
Ground
42 IN_HIGH
Input
43 N.C.
44 OCPDET
Input
45 TL
Input
46 N.C.
47 BTVCC
48 N.C.
Input
Description
Enable pin.
DC-DC is stopped at Low level input, and it is started at High level
input.
No connection.
Connection to current sensing port.
Please connect external resistor for current monitoring.
Detection of over current and correction of current feed back by
different voltage with IN_HIGH pin.
No connection.
Ground pin.
No connection.
Connection to current sensing port.
Please connect external resistor for current monitoring.
Detection of over current and correction of current feed back by
different voltage with IN_LOW pin.
No connection.
Over current limit switch pin.
Connect to an external capacitor for adjustment of over-current
detection time.
Please connect capacitor between TL and GND. Set timer latch
time by this capacitor value. It is no problem to set open this
pin, if you don’t use TL function.
No connection.
Boot strap output pin.
This pin is power supply for the boot strap function that makes
the gate drive voltage. Please connect with VREG.
No connection.
Note : Concerning detail about pin description, please refer to OPERATION and APPLICATION INFORMATION section.
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AN33017UA (Panasonic)
1-channel DC-DC Step down Regulator integrated N-channel Power MOSFET

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FUNCTIONAL BLOCK DIAGRAM
Product Standards
AN33017UA
EN VREG
36 19
VCC
17
OCPDET BTVCC
44 47
VREG
OVP2
TL_CTRL 32
FLAG 30
TL 45
UVLO
TSD
VREF
(BGR)
Timer
Latch
SST
OVP1
SCP
ERAMP
CNT
PVCC
SYNC 31
OSC
RT 28 PLL
PWM PRIDRV
CFBOCP
29 23,24 27 26
21 34 38
42 40
13 PVCC1
14 PVCC2
15 PVCC3
16 PVCC4
2 BT
7 LX1
8 LX2
9 LX3
10 LX4
11 LX5
4
Notes : This block diagram is for explaining functions. Part of the block diagram may be omitted, or it may be simplified.
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1-channel DC-DC Step down Regulator integrated N-channel Power MOSFET

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Product Standards
AN33017UA
OPERATION
Note ) The characteristics listed below are reference values derived from the design of the LSI and are not guaranteed.
1. Power ON/OFF timing
AN33017UA consists of one channel and it can be turned ON and OFF by using the EN pin.
EN 2.0 V : Enabled
EN 0.4 V : Disabled
1) Power ON Sequence :
VCC rises to a desired voltage level.
(10 µs rise time or more is recommended to control and limit any abnormal current flow via the power transistor
when VCC is rising.)
Apply a voltage level of 2.0 V or higher at EN pin after VCC is steady, and the DC-DC will begin to operate.
(It is possible to connect the EN pin to VCC through a resistor, and, in that case, when VCC rises, DC-DC will begin
to operate.)
When VREG voltage reaches 4.3 V and above, and after a delay time (charging time of the soft start capacitor)
decided by an external capacitor, the DC-DC will start to operate.
2) Power OFF Sequence :
To turn OFF the DC-DC output, apply a voltage of 0.4 V or lower to EN pin.
VOUT will drop after EN pin becomes Low.
(The discharge time is dependent on the applied load current and the feedback resistance connected at the output.)
The DC-DC will turn OFF if the VCC level becomes low even before EN pin becomes low.
The above scenario occurs when the VREG voltage decreases to 4.0 V or less.
(However, the DC-DC output voltage will also decrease with VCC when the VCC level drops below a certain
minimum level required to maintain the output voltage level.)
3) Points to take note of when re-starting the DC-DC :
Please allow a waiting time of 10 ms or more for the discharge time of the soft start capacitor when starting up the
DCDC again after turning it OFF.
The output voltage might overshoot without the soft start function working properly if the DC-DC is re-started
immediately after it is turned OFF.
4) Points to take note of when shut down :
Please apply a voltage of Low level or lower to EN PIN when turn OFF the DC-DC.
5) Points to take note of pin connection :
VREG is utilized for internal circuits. Do not use it as power supply for other device.
Please put the external parts of RT pin and CT pin as closed as possible in the LSI terminal and arrange in such a
way that the effect of noise will be reduced, such noise coming from LX pin and etc.
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1-channel DC-DC Step down Regulator integrated N-channel Power MOSFET

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Product Standards
AN33017UA
OPERATION (Continued)
Note ) The characteristics listed below are reference values derived from the design of the LSI and are not guaranteed.
2. Start / Stop Control Timing Chart
1) EN pin ON/OFF operation sequence
VCC
VOUT
10 µs or more
10 % 90 %
DC-DC starts after the delay time decided by the external
capacitor when VREG reaches 4.3V or more.
VREG
4.3 V
EN
SS
2.3 V
0.8 V
Rise time = Pin SS capacitance 2.3 / 2µ [s]
Figure Power ON/OFF sequence by EN
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t
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1-channel DC-DC Step down Regulator integrated N-channel Power MOSFET

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Product Standards
AN33017UA
OPERATION (Continued)
Note ) The characteristics listed below are reference values derived from the design of the LSI and are not guaranteed.
2. Start / Stop Control Timing Chart (Continued)
2) ON/OFF operation sequence by VCC pin control (EN pin is connected to VCC).
10 µs or more
VCC
VOUT
10 % 90 %
VREG
4.3 V
4.0 V
EN 2.0 V
SS
2.3 V
0.8 V
Figure : Power ON/OFF Timing (2)
t
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1-channel DC-DC Step down Regulator integrated N-channel Power MOSFET

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Product Standards
AN33017UA
OPERATION (Continued)
3. Output voltage setting
Note) The characteristics listed below are reference values derived from the design of the IC and are not guaranteed.
The output voltage of AN33017UA is set with the external feedback resistance divider arranged between the
terminal FB and GND between the DC-DC output and the terminal FB. The output voltage is decided depending
on the following equation.
VOUT
Vout
1.0
1
Ra
Rb

Ra
VFB (1.0 V)
Rb
4. Min/Max Duty Operation
Note) The characteristics listed below are reference values derived from the design of the IC and are not guaranteed.
MinDuty is decided by the minimum ON time. The minimum ON time, Ton (min), is the time that this IC can turn on
the high side switch. This is decided by the gate capacitance of the high side switch and the internal timing delay.
The following attention is necessary because in applications where the Input/Output voltage difference is great,
and the switching frequency is high, there is a possibility to reach the limiting value of the minimum ON time.
The minimum ON time, Ton (min), is about 200ns (max).
This IC has the function of MaxDuty, which will not exceed a certain definite value for safety reasons in case of
abnormal circumstances. The following attention is necessary because in applications where the Input/Output
voltage difference is close, and the switching frequency is high, there is a possibility to reach the limiting value of
the minimum OFF time. The minimum OFF time, Toff (min), is about 200ns (max).
Ton (min)  Vout 1
Vin F
Toff (min) (1Vout )1
Vin F
*) FSwitching frequency
When operating near the Min/Max limited duty, the ripple voltage and the inductor current ripple increases
even if the output voltage is stabilized. It is recommended to use on the condition when the turn on switching time
and turn off switching time are 200ns or more.
*) Please take note of the output voltage setting when the switching frequency is high.
Established : 2017-06-28
Revised : ####-##-##
Page 14 of 26


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Product Standards
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OPERATION (Continued)
5. Oscillation Frequency
Note) The characteristics listed below are reference values derived from the design of the IC and are not guaranteed.
The switching frequency of the built-in oscillator circuit can be set from 200 kHz to 2000 kHz, determined by the
resistance of the terminal RT, set by external resistance. The setting accuracy of the frequency is approximately 5%.
The equation and the corresponding table are described as follows.
RT [kΩ]
22
24
27
30
33
36
39
43
47
51
56
62
68
75
82
OSC Frequency (kHz)
2022
1910
1764
1640
1530
1434
1352
1254
1169
1096
1015
934
864
796
738
RT [kΩ]
91
100
110
120
130
150
160
180
200
220
240
270
300
330
360
OSC Frequency (kHz)
674
620
569
527
490
430
406
364
330
302
278
249
225
206
190
2000
1800
1600
1400
1200
1000
800
600
400
200
0
0
OSC Frequency vs RT
50 100 150 200 250 300 350 400
RT [KΩ ]
Figure switching frequency vs external resistance
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Revised : ####-##-##
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Product Standards
AN33017UA
OPERATION (Continued)
6. Over-Current Protection
Note) The characteristics listed below are reference values derived from the design of the IC and are not guaranteed.
VCC
LOGIC
Power MOS
ISENSE
RSENSE
VOUT
OCP Comparator
Comp
To Timer Latch
IN_HIGH
IN_LOW
Figure : Over-Current Protection circuit block diagram
Over-current protection function (OCP) restrain output current level when IC detect that DC-DC output current is
higher than setting level. It turns off the Power MOS in IC when the voltage difference of external resistance
RSENSE exceeds 125mV(Typ.) so as to stop the supply to DC-DC output. Detection current ISENSE can be calculated as:
ISENSE = 125mV / RSENSE
For safety reason, OCP function is necessary. Please placed sense resistor (≥ 39mΩ) between IN_HIGH and
IN_LOW as indicated in above figure.
The operation after OCP detection is different according to setting of TL_CTRL terminal.
The timing chart in case FLAG terminal pulled-up to VREG is shown in below.
[1] at TL_CTRLHigh
DC-DC continue to ON and OFF when OCP detect. It
restrain average level of DC-DC output voltage and
DC-DC output current.
OCP detect
VOUT
[2] at TL_CTRLLow
FLAG output become low when you keep abnormal
condition longer than setting time of Timer Latch
function. For safety reason, please disable DC-DC by
EN control when FLAG output become low.
OCP detect
VOUT
Setting current
IOUT
1.2V
IOUT
Setting current
1.2V
TL
FLAG
EN
TL
FLAG
EN
Figure : Method of detection of Over-Current Protection function
Established : 2017-06-28
Revised : ####-##-##
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Product Standards
AN33017UA
OPERATION (Continued)
Note ) The characteristics listed below are reference values derived from the design of the LSI and are not guaranteed.
7. Current Feedback function
This LSI includes a current feedback function whereby the suitable voltage can be provided V_USB which corrected a
voltage descent at impedance Rcable of external connection cables. (Refer the following diagram.)
This function corrects the output voltage depending on a value of IOUT by feeding back to the voltage of FB by
current feedback amplifier CFB, and controlling voltage differences of current sense resistor RSENSE between both
terminals so that it is expressed in the next expression.
 V(adj) 4 RSENSERa IOUT V
RRADJ
V(adj) can be adjusted by the current feedback adjustment resistance (RRADJ).
Therefore, The voltage variation of V_USB can control by offsetting with a voltage descent by the cable resistance by
setting it like a following expression.
4 RSENSERa IOUT Rcable IOUT 
RRADJ
From the above expression, RRADJ shows as the following expression.
RRADJ 4 RSENSERa
Rcable
Rb Ra
FB
VREF = 1.0 V
ERAMP
DC-DC
CONVERTOR
LX IOUT
RSENSE
VOUT
V_USB
Rcable
CFB
block
IN_HIGH
IN_LOW
RRADJ
RADJ
Figure : The diagram of current feed back function
Notes
When you change a value of over current detection by current sense resistor RSENSE, please be careful because
output voltage variation is affected.
When you change a setting of output voltage by resistance Ra, please be careful because output voltage variation is
affected.
Please refer to the figure of "IOUT dependence of the permission level of the cable resistance" for the upper limit
level of Rcable where voltage correction functions.
Established : 2017-06-28
Revised : ####-##-##
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Product Standards
AN33017UA
OPERATION (Continued)
Note ) The characteristics listed below are reference values derived from the design of the LSI and are not guaranteed.
7. Current Feedback function (continued)
V_USB voltage is the following expression, which becomes the expression from the setting voltage by the FB
resistance (Ra and Rb) and the expressions from both voltage descent and voltage correction by the cable resistance.
 V_USB 1Ra  1.0 RcableIOUT 4 RSENSERa IOUT V
 Rb  
RRADJ
×1.0” of above expression indicates the reference voltage.
Precision of the V_USB voltage fluctuates depending on unevenness of the standard voltage or the each resistance.
The upper limit level of Rcable when Ra, Rb and RSENSE are respectively 30.8k±0.05%, 7.5k±0.05% and
50m±1% shows the following figures, where V_USB voltage becomes the value at 5.25V from 4.97V in USB
standard.
RRADJ(±0.05%of following figure is respectively 8.55k, 9.77k, 10.8kand 12.3kat IOUT0.5A1.0A1.5A
and 2.1A.
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0
0 0.5 1 1.5 2
IOUT [A]
Figure IOUT dependence of the permission level of the cable resistance
2.5
Established : 2017-06-28
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Product Standards
AN33017UA
OPERATION (Continued)
8. Over current protection setting
Note ) The characteristics listed below are reference values derived from the design of the LSI and are not guaranteed.
As a safety measure, a sensing resistor must be inserted between IM_HIGH pin & IN_LOW pin to enable the over-
current protection function. Sensing resistor value of more than 39 mis recommended.
If sensing resistor is set at less than 39 m, the capacitor at TL pin should be as small as possible or open to minimize
reaction time of Timer Latch block. Please consider the implementation of full evaluation and verification for this setting.
Take notice the power dissipation of Sensing resistor.
9. Over current detection level with switchable
Note) The characteristics listed below are reference values derived from the design of the IC and are not guaranteed.
Over current detection level is switchable by OCPDET pin. The following expression shows
voltage to detect over current at each conditions.
OCPDET
GND
(Low input)
VREG
(High input)
Voltage to detect over current
125mV
Over current at RSense=50mΩ
2.5A
75mV
1.5A
List : Settings of OCPDET pin
10. FLAG function after Over current / Short current detection
Note) The characteristics listed below are reference values derived from the design of the IC and are not guaranteed.
Stop this product by forcing EN pin to Low when detect OCP or SCP condition by FLAG pin.
In situation when IN_HIGH IN_LOW are less than 1.1V, do note that only SCP detection is active.
When FB is equal or lower than 0.3 V, short current detection is triggered, FLAG pin will be pull to Low state. The
response timing is determined by TL pin capacitor value CTL (The response timing = CTL / 2A ×1.2V ).
Note that the pull down current drivability of FLAG pin is 1.2 mA.
Adjusting of FLAG response time in event of “over current” or “short current” condition is make possible by changing
the capacitance of TL pin.
In the event of over current detection, FLAG pin will be pull to Low state. Once FLAG is pull to Low state, it will
remained at Low state until IC is reset through EN pin.
11. Thermal Shut Down (TSD)
Note) The characteristics listed below are reference values derived from the design of the IC and are not guaranteed.
When the LSI internal temperature becomes more than about 165, TSD operates and DC-DC turns off.
12. Input Over Voltage protection
Note) The characteristics listed below are reference values derived from the design of the IC and are not guaranteed.
When VCC is equal or higher than 45V overvoltage detection is triggered, Power MOS will be off and LX will stop
switching.
Established : 2017-06-28
Revised : ####-##-##
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Product Standards
AN33017UA
OPERATION (Continued)
Note ) The characteristics listed below are reference values derived from the design of the LSI and are not guaranteed.
13. Soft Start Timing and Setting
This LSI includes a soft start function whereby start-up time can be set to desired timing by adjusting the SS
terminal capacitor (CSS). By adjusting the soft-start time, rush current from the Power supply terminal can
be limited and the start-up timing of the output voltage can be changed. The timing chart and the method of
selecting the external capacitor value is shown in below.
Soft start time
DC-DC
output
EN
2.3V
SS 0.8V
Figure : Soft start operation timing chart
Equation to set soft start time by CSS
Soft - Start
Time (s)
1.5
2.2μ
C
SS
t
0.2
0.18
0.16
0.14
0.12
0.1
0.08
0.06
0.04
0.02
0
0
Soft Start Time vs External Capacitor(Css)
20 40 60 80
Soft Start Time[ms]
100
Figure : Soft Start Time vs CSS Value ( External Capacitor )
When this LSI is used for power supply of communication with external equipment, the communication may not
possible during the soft-start period. Depending on the type of external equipment connected, in some cases, when
the DC-DC is turned on, even though the soft start maybe halfway through, the voltage level is high enough to enable
the communication to start. In such cases, the micro-controller may not recognize the equipment normally and
therefore it is required to set the micro-controller to access all possible equipment after the above soft-start setting
time.
Established : 2017-06-28
Revised : ####-##-##
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Product Standards
AN33017UA
OPERATION (Continued)
14. Snubber circuit value Setting
Note ) The characteristics listed below are reference values derived from the design of the LSI and are not guaranteed.
Snubber circuit should be put without fail for reducing the ringing of LX1~5 in light load condition.
Please use snubber resistance over 0.5W. Please refer to below for setting specific value.
This IC operate with discontinuous mode in light load condition. When DCDC operate with discontinuous mode and
both schottky barrier diode and power transistor don’t have conduction, ringing happens to LX pin in the end of every
switching period by resonance circuit formed with inductor and parasitic capacitor. It is possible to reduce the ringing
generated in LX pin by adding snubber circuit. The procedure below shows snubber circuit value setting. In addition,
design snubber circuit with load resistance consideration.
Procedure1. Measure LX ringing frequency with discontinuous mode. Figure shows ringing frequency of 2.3MHz.
Ringing frequency FRING
Figure : LX waveform with discontinuous mode.
(without snubber circuit)
Figure : LX waveform with discontinuous mode.
(with snubber circuit)
Procedure2. Parasitic capacitor between LX to GND of board that mounts IC and Ringing
frequency FRING has the following relational expression.
 FRING 2
1 [Hz]
L Lp Cp
Cp is calculated with the above expression. It is assumed Lp (parasitic inductor) is low enough compared with L.
Cp is calculated 480pF with Ringing frequency=2.3MHz and L=10uH condition.
C1 needs to be 510 times of Cp capacitor. The larger capacitor value is, the more ringing decreases.
Therefore 4700pF is selected.
Procedure3. Impedance R1 is calculated by parasitic capacitor Cp.
R1 (L / Cp []
Lp1
LX
Cp
L Lp2 VOUT
R1 COUT
C1
Lp= total of Lp12
Using the expression above, R1=150Ωis calculated.
Please use snubber resistance over 0.5W.
Figure : Snubber circuit value
Figure shows decreased LX pin ringing waveform with snubber circuit.
Added snubber circuit value depends on board pattern. Therefore ringing frequency FRING is confirmed and
calculated and used optimum value from the above expression.
Established : 2017-06-28
Revised : ####-##-##
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Product Standards
AN33017UA
OPERATION (Continued)
15. Load resistance, Rload setting
Note ) The characteristics listed below are reference values derived from the design of the LSI and are not guaranteed.
Load resistance, Rload is selected by the following confirmation of BT-LX voltage.
Figure in below shows BT waveform, LX waveform, BT-LX voltage.
Condition: Vcc=13.2V, VOUT=5V, Iload=0A
BT
LX
BT-LX
Discharge period
About 3V
Charge period
Discharge period
About 1V
About 4V
Figure : BT waveform, LX waveform,
BT-LX voltage
(without Rload condition)
Figure : BT waveform, LX waveform,
BT-LX voltage
(with 330Ω condition)
When LX is Low, Boot strap capacitor is charged from BTVCC. And then it will be discharged.
Discharge period is longer in no load condition, therefore BT-LX voltage level goes down and it becomes about
3V.(Refer to Figure above leftThe larger the load current is, the shorter the discharge period is, therefore BT-
LX voltage level goes up and it reaches desired voltage.(about 4V) (Refer to Figure above right)
Load resistance, Rload is calculated by the load current, Iload and the following expressions.
R LOAD
VOUT []
I LOAD
Example) When VOUT=5V, Iload=15mA condition, the calculated Rload=330 .
BTVCC
VDi Di (internal)
BT
PVCC
BT-LX
LX
Boot strap capacitor
Iload
Figure : Boot Strap external circuit
Desired voltage is determined by BTVCC voltage and internal diode shown in Figure.
ExampleWhen BTVCC is connected to VREG, the voltage level is about 4.2V, where BTVCC=4.9V and
VDi=0.7V.
Established : 2017-06-28
Revised : ####-##-##
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Product Standards
APPLICATIONS INFORMATION
CVREG
AN33017UA
EN VREG
Pullup
36 19
RFLAG
TL_CTRL
32
FLAG
30
TL 45
CTL
VCC
17
TEST BTVCC
44 47
CPVCC3,4,5
13,14 PVCC1,2,3,4
15,16
IN_LOW
38
RRT
42 IN_HIGH
SYNC 31
RT 28
2
7,8,9
10,11
BT
CBT
LX1,2,3,4,5
L1
R25 D1 CVOUT
C4
VUSBOUT
RSENSE
RLOAD
29 23,24 27 26
21 34 40 4
CT SGND SS FB
COMP FBADJ FBGND PGND
CCT
CSS R1 C1
C3
RADJ
C2 R2
Rb Ra
Figure : Application circuit
Figure : Top Layer with silk screen
( Top View ) with Evaluation board
Figure : Bottom Layer with silk screen
( Bottom View ) with Evaluation board
Notes) This application circuit and layout is an example. The operation of mass production set is not guaranteed. You should
perform enough evaluation and verification on the design of mass production set. You are fully responsible for the
incorporation of the above application circuit and information in the design of your equipment.
Established : 2017-06-28
Revised : ####-##-##
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Product Standards
AN33017UA
APPLICATIONS INFORMATION (Continued)
Table : Recommended component
Reference
CBT,CCT,CSS,CTL
C1
C2
C3
C4
CVREG
CPVCC3,4,5
CVOUT
L1
IC1
D1
R1
R2
R25
Ra
Rb
RFLAG
RT
RADJ
RLOAD
RSENSE
Part Name
GCM188R11C104KA01J
GCM1882C1H222JA01J
GCM1882C1H471JA01J
GCM1882C1H270JA01J
GRM188B11H472KA01
GCM188R71C105KA49J
CKG57NX7R1H226MT
TMK325C7226MM-T
CDRH8D43-100NC
AN33017UA
DB24602
ERA3AEB752V
ERA3AEB152V
ERJ14YJ151U (150ohm 0.5W)
ERA3AEB303V
ERA3AEB752V
ERA3AEB204V
ERA3AEB134V
ERA3AEB123V
ERJ3GEYJ331
ERJ8BWFR050V
size
JIS1608_[EIA0603]
JIS1608_[EIA0603]
JIS1608_[EIA0603]
JIS1608_[EIA0603]
JIS1608_[EIA0603]
JIS1608_[EIA0603]
JIS5750[EIA2220]
JIS3225_[EIA1210]
8.3(L) x 8.3(W)
9.0(L) x 9.0 (W)
3.8(L) x 2.4(W)
JIS1608_[EIA0603]
JIS1608_[EIA0603]
JIS3225_[EIA1210
JIS1608_[EIA0603]
JIS1608_[EIA0603]
JIS1608_[EIA0603]
JIS1608_[EIA0603]
JIS1608_[EIA0603]
JIS1608_[EIA0603]
JIS3216[EIA1206]
Value
0.1uF
2.2nF
470pF
27pF
4700pF
1uF
22uF
22uF
10uH
-
-
R=7.5K
R=1.5K
R=150
R=30K
R=7.5K
R=200K
R=130K
R=12K
R=330
R=50m
Maker
Description
Murata
Setting Capacitor
Murata
Compensation Capacitor
Murata
Compensation Capacitor
Murata
Compensation Capacitor
Murata
Snubber Capacitor
Murata
VREG Capacitor
TDK
Input Capacitor
TAIYO,YUDEN Output Capacitor
SUMIDA Inductor
Panasonic 1ch DC-DC Converter
Panasonic Schottky Diode
Panasonic Compensation & Feedback Resistor
Panasonic Compensation & Feedback Resistor
Panasonic Snubber Resistor
Panasonic Compensation & Feedback Resistor
Panasonic Compensation & Feedback Resistor
Panasonic Pull-up Resistor
Panasonic OSC Setting Resistor
Panasonic CFB Adjust Resistor
Panasonic Load Resistor
Panasonic OCP Sense Resistor
Notes)
Snubber circuit should be put without fail for reducing the ringing of LX1~5 in light load condition.
Please use snubber resistance over 0.5W.
Please refer to “OPERATION13.Snubber circuit value setting” for setting specific value.
SS pin capacitor, CSS and TL pin capacitor CTL should be put 0.1uF.
If you change these components, please keep “ CTL > CSS × 0.9 “ relation.
Established : 2017-06-28
Revised : ####-##-##
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PACKAGE INFORMATION ( Reference Data )
Outline Drawing
Product Standards
AN33017UA
Unit : mm
Established : 2017-06-28
Revised : ####-##-##
Body Material
: Br / Sb Free Epoxy Resin
Lead Material
: Cu Alloy
Lead Finish Method : Pd Plating
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Product Standards
AN33017UA
IMPORTANT NOTICE
1. When using the LSI for new models, verify the safety including the long-term reliability for each product.
2. When the application system is designed by using this LSI, please confirm the notes in this book.
Please read the notes to descriptions and the usage notes in the book.
3. This LSI is intended to be used for general electronic equipment.
Consult our sales staff in advance for information on the following applications: Special applications in which exceptional
quality and reliability are required, or if the failure or malfunction of this LSI may directly jeopardize life or harm the
human body.
Any applications other than the standard applications intended.
(1) Space appliance (such as artificial satellite, and rocket)
(2) Traffic control equipment (such as for airplane, train, and ship)
(3) Medical equipment for life support
(4) Submarine transponder
(5) Control equipment for power plant
(6) Disaster prevention and security device
(7) Weapon
(8) Others : Applications of which reliability equivalent to (1) to (7) is required
Our company shall not be held responsible for any damage incurred as a result of or in connection with the LSI being
used for any special application, unless our company agrees to the use of such special application.
4. Please use this product in compliance with all applicable laws and regulations that regulate the inclusion or use of
controlled substances, including without limitation, the EU RoHS Directive. Our company shall not be held responsible
for any damage incurred as a result of our LSI being used by our customers, not complying with the applicable laws and
regulations.
5. Pay attention to the direction of LSI. When mounting it in the wrong direction onto the PCB (printed-circuit-board), it might
emit smoke or ignite.
6. Pay attention in the PCB (printed-circuit-board) pattern layout in order to prevent damage due to short circuit between pins.
In addition, refer to the Pin Description for the pin configuration.
7. Perform a visual inspection on the PCB before applying power, otherwise damage might happen due to problems such as
a solder-bridge between the pins of the semiconductor device. Also, perform a full technical verification on the assembly
quality, because the same damage possibly can happen due to conductive substances, such as solder ball, that adhere
to the LSI during transportation.
8. Take notice in the use of this product that it might be damaged or occasionally emit smoke when an abnormal state
occurs such as output pin-VCC short (Power supply fault), output pin-GND short (Ground fault), or output-to-output-pin
short (load short). Safety measures such as an installation of fuses are recommended because the extent of the above-
mentioned damage and smoke emission will depend on the current capability of the power supply..
9. The protection circuit is for maintaining safety against abnormal operation. Therefore, the protection circuit should not
work during normal operation.
Especially for the thermal protection circuit, if the area of safe operation or the absolute maximum rating is momentarily
exceeded due to output pin to VCC short (Power supply fault), or output pin to GND short (Ground fault), the LSI might
be damaged before the thermal protection circuit could operate.
10. Unless specified in the product specifications, make sure that negative voltage or excessive voltage are not applied to the
pins because the device might be damaged, which could happen due to negative voltage or excessive voltage
generated during the ON and OFF timing when the inductive load of a motor coil or actuator coils of optical pick-up is
being driven.
11. Product which has specified ASO (Area of Safe Operation) should be operated in ASO
12. Verify the risks which might be caused by the malfunctions of external components.
13. Connect the metallic plate (fin) on the back side of the IC to the GND potential. The thermal resistance and electrical
characteristics are guaranteed only when the metallic plate (fin) is connected with the GND potential.
14. Do not apply voltage to the metallic plate (fin) on the back side of the IC and do not connect it to the GND pattern.
Established : 2017-06-28
Revised : ####-##-##
https://industrial.panasonic.com/ww/products/semiconductors
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Request for your special attention and precautions in using the technical information and
semiconductors described in this book
(1) If any of the products or technical information described in this book is to be exported or provided to non-residents, the laws and
regulations of the exporting country, especially, those with regard to security export control, must be observed.
(2) The technical information described in this book is intended only to show the main characteristics and application circuit examples
of the products. No license is granted in and to any intellectual property right or other right owned by Panasonic Corporation or any
other company. Therefore, no responsibility is assumed by our company as to the infringement upon any such right owned by any
other company which may arise as a result of the use of technical information described in this book.
(3) The products described in this book are intended to be used for general applications (such as office equipment, communications
equipment, measuring instruments and household appliances), or for specific applications as expressly stated in this book.
Consult our sales staff in advance for information on the following applications:
Special applications (such as for airplanes, aerospace, automotive equipment, traffic signaling equipment, combustion equipment,
life support systems and safety devices) in which exceptional quality and reliability are required, or if the failure or malfunction of
the products may directly jeopardize life or harm the human body.
It is to be understood that our company shall not be held responsible for any damage incurred as a result of or in connection with
your using the products described in this book for any special application, unless our company agrees to your using the products in
this book for any special application.
(4) The products and product specifications described in this book are subject to change without notice for modification and/or improve-
ment. At the final stage of your design, purchasing, or use of the products, therefore, ask for the most up-to-date Product Standards in
advance to make sure that the latest specifications satisfy your requirements.
(5) When designing your equipment, comply with the range of absolute maximum rating and the guaranteed operating conditions
(operating power supply voltage and operating environment etc.). Especially, please be careful not to exceed the range of absolute
maximum rating on the transient state, such as power-on, power-off and mode-switching. Otherwise, we will not be liable for any
defect which may arise later in your equipment.
Even when the products are used within the guaranteed values, take into the consideration of incidence of break down and failure
mode, possible to occur to semiconductor products. Measures on the systems such as redundant design, arresting the spread of fire or
preventing glitch are recommended in order to prevent physical injury, fire, social damages, for example, by using the products.
(6) Comply with the instructions for use in order to prevent breakdown and characteristics change due to external factors (ESD, EOS,
thermal stress and mechanical stress) at the time of handling, mounting or at customer's process. When using products for which
damp-proof packing is required, satisfy the conditions, such as shelf life and the elapsed time since first opening the packages.
(7) This book may be not reprinted or reproduced whether wholly or partially, without the prior written permission of our company.
No.020210




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