Toshiba 26W300P - Czy MIP2G4 zastąpi MIP2F4 w trybie st-by?
Naszukałem się trochę. Więc za darmo nie będzie. Bo dlaczego miałoby być. ;)
Macie, kombinujcie.
To, co na pierwszy rzut oka wydaje się, że powinno, po dokładnej analizie już tak nie wygląda. ;)
Pobierz plik - link do postu
- Panasonic power MIP series.rar
- MIP series.pdf
- MIP2H2_Schematic.pdf
- MIP2K_series.pdf
- MIP2F.pdf
- MIP2G.pdf
Panasonic power MIP series.rar > MIP series.pdf
�Contents
1. Overview
............................ 1
Excellent Power Saving Technology (Strength of Panasonic IPD) ..... 1
IPD (Intelligent Power Device)
2. Product Introductions
................................. 2
Primary Control IPD: MIP3J2V/3J2 ........................ 3
LED Driver IPD: MIP56x Series ........................... 4
Three Pin IPD with Energy-saving Standby: MIP2Ex/3Ex/2Lx Series ...... 5
Multi-function IPD with Energy-saving Standby: MIP2Gx Series ..... 6
IPD for Small Charger/Adapter: MIP2Fx/2Kx Series ........ 7
Standby Power IPD: MIP2Mx Series ...................... 8
Quasi-resonant Power Supply IPD: MIP41x Series ........ 9
Non-isolated Power IPD: MIP35x Series ................. 10
Quasi-resonant control IC: MIP004 ...................... 11
LED Driver IPD: MIP553/554 ............................ 12
Power Supply IPD for Asia: MIP521A, 53x Series ......... 13
Main package outlines ................................... 14
PWM Control IC: MIP006
3. Support system Introductions
Power Supply IPD support system ........................ 15
4. Power Supply IPD Lineup .......................... 16
�IPD (Intelligent Power Device)
Integrates high-voltage control device, power MOSFET, control and
protection circuit into a single chip
With extensive product line-up, contributes to the small size and
high functionality of the power supply circuit
Conventional switching
power supply circuit
Switching power supply
circuit with IPD
Power MOSFET
Control &
protection circuit
IPD
Excellent Power Saving Technology (Strength of Panasonic IPD)
Strength of Panasonic IPD “Energy Saving Technology” is highly
valued (Award winning technology)
1997 1998 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010
Environmental
regulation
COP3
Kyoto
Contribution to the
environment
Energy saving
Labeling system
Standby
energy
saving
technology
Energy Star Europe California China
EU regulation
Tightening of Tightening of
Energy regulation
regulation
regulation
Toyako Summit
Yr2001 Energy
saving contest
Economy, Trade
and Industry
Ministers Award
Yr2005 Aichi Expo
Global 100 Eco-Tech
Award
(Standby energy saving
IPD series)
(MIP2ExD series)
ErP regulation
Yr2007 Global Warming
Prevention Activity
Minister of the Environment’s
Commendation
(Standby energy saving IPD series)
Evolution of energy saving standby
Energy saving standby with new
control method
(comparison of standby power consumption)
Intermittent oscillation control
PWM control
Standby Power Consumption
Automatic switching by monitoring
a current flowing into a power device
(detecting a standby state)
Constant switching frequency
Intermittent operation at standby
1
ErP(2013)
now & lt; 1W
Energy star, China
(California regulation)
Japan (target)
�PWM Control IC: MIP006
NEW
Coexistence of Zero-Watt Standby Power and Cost Reduction
Applicable up to 200W output (Flat TV, BD recorder, PC adapter, etc.)
Zero-Watt Standby Power with OFF mode function
Achieves almost zero-watt with power off mode function
Actual measurement: 2.6mW(100VAC), 6.4mW(200VAC)
SSOP016
1 converter solution with higher efficiency at light load
High efficiency at standby/light load with 1 converter structure by X capacitor
discharge function (over 80% efficiency at 0.5W input)
Pin No. Pin name
Function
1
VCC
Power source from Bias winding
2
CL
VLIMIT adjustment
(Input voltage correction)
3
GND
Ground
4
OUT
Gate drive output
5
VGD
Gate drive power source
6
IS
Current sense
7
VDD1 Controller power source,
External latch
8
LS
AC input shutoff detection
9
VIN
Startup circuit power source
10
NC
11
NC
12
GND
Ground
13
VDD2 Power OFF mode power source
14
OFF
Power OFF mode control
15
SO
AC input shutoff detecting signal
output
16
FB
Feedback
BOM cost reduction
Output voltage switching circuit and AC input detection are realized with small
components count by various built-in functions
Function list
Power shutdown by a single signal
Reduces standby power consumption with no resistor required
Possible coexistence of audible reduction and standby characteristics
by audible reduction function and current peak external adjustment
function
Compatible with output voltage switching and facilitates transformer
design
Signal output by AC input shutoff detection
Reduces average of noise pin voltage by frequency jitter
Oscillation stop by detecting AC input shutoff *Signal output and
function selection)
Over current detection value is adjustable by input current
Latch stop (a time to stop is adjustable)
Latch stop (can apply to over voltage protection)
Releases latch stop when detecting an input shutoff
Application circuit example (Output: 12V⇔ 6V/6A)
CY
2200pF
250VAC
DIN
4A 600V
CIN
220uF
400V
ZSB
200V
LIN
17mH
3A
+
DOUT
1A
200V
RIS
330
Rs
0.22
RLS1
4.7M x 3
CIS
100pF
DVCC
300V 0.3A
ZOVP
30V
+
RVDD1
100
8
Cfil
n.c.
+
CVCC
47uF
50V
CVGD
1uF
Ro1
82k
PC1
Rb
1.8k
1
Ro2
47k
MIP006
9
VIN
GND2
VDD2
AC input
AC90 264V
OFF
SO
FB
CCR
0.1uF
RCR
10k
16
ICreg
Rref
33k
PC2
RLS2
200k
CLS
100pF
DVDD2 10V
ROFF1
100k
ROL
3.3k
ROFF2
390k
Functions
CVDD2
1uF
DC output
12V 6V/6A
Cs1, Cs2
2200uF
25V
RPC1
2.2k
LS VDD1 IS VGD OUT GND1 CL VCC
+
RVCC
0
CVDD1 0.1uF
CX
0.33uF
275VAC
FIN
T4A
250VAC
+
Ds
200V 20A
V20200C
DSB
800V 1A
ROUT1, ROUT2
MOSFET
800V
RIN
10k
Lfil
n.c
T1
+
DIN2/DIN2
1A
600V
CSBs RSBs
220pF 20
2W
RFB
1k
PC1
COFF CFB COL
220pF 220pF 0.47uF
2
DemoSW
(ON:6V output
�Primary Control IPD: MIP3J2V/3J2
NEW
* For the sales of this product, there is a reminder. For the detailed information, please check the contents of the back cover.
Drastically reduces components count by original bias winding
feedback control, Surface mount package available
Suitable for Small Charger/Adapter
SO8-G2-B
DIP7-A1
Achieves primary control with minimum BOM
Photo coupler, No secondary control IC
MIP3J2V : CV 5%
MIP3J2 : CV 5%/CC 10%
DIP7-A1
MIP3J2V
Pin No.
Surface mount package
VDD
2
Power consumption at no load & lt; 30mW (240VAC input)
Pin name
1
Low power consumption at no load
OLP
3
In addition to DIP-7, fits in the surface mount SO-8
package MIP3J2V
MIP3J2
Pin
name
Function
Power supply voltage
Function
VDD
Power supply voltage
Over load detection
TR
4
VCC
5
DRAIN
NC
-
Bias winding voltage detection.
Feedback
TR
Bias winding voltage detection
Feedback
VCC
Power supply from bias winding
Power supply from bias winding
Power MOSFET drain
DRAIN Power MOSFET drain
6
SOURCE
Power MOSFET source,
Control GND
SOURCE
Power MOSFET source,
Control GND
8
Features and Protection functions
-
7
-
-
-
SOURCE
Power MOSFET source,
Control GND
SOURCE
Power MOSFET source,
Control GND
Bias winding voltage direct detection
Effect of components count reduction with primary control
Secondary duty control *MIP3J2 only
Photo coupler
Low power consumption at light load and high
frequency at rated load by uniting PFM and PWM
control
Secondary control IC and
Photo coupler are reduced!
+
Incorporated frequency jitter function
Small
Low cost
T1
+
Self-recovery (timer intermittent control)
*MIP3J2V only
D
VCC
CL
FB
S VDD
Latch stop (Bias winding voltage detection)
Latch off 140
2
typ
Secondary
control ICIC
Parts count 19
12
Application circuit example (MIP3J2 Output: 5V/0.5A)
CIN1
4.7u
400V
F1
250VAC
1A
NTRL
CIN2
2.2u
400V
+
D1
600V
1A
CSB
1000p
1kV
+
Lfil
10uH
RSB2
180k
0.25W
RSB1
180k
0.25W
Dout
60V
1A
L1
470u
5
DVCC
300V
0.3A
IC
MIP3J2
D
4
VCC
CVCC
4.7u
RTR1
27k
TR
S
+Cout
680uF
10V
Cfil
100uF
10V
5V/0.5A
+
Rout
2.7k
GND
DSB
800V
1A
+
LINE
S
NC
VDD
8
1
RTR2
12k
CVDD
0.1uF
3
�LED Driver IPD: MIP56x Series
NEW
Suitable for LED bulb & small down-light of less than 7.4W output
5%) in universal input voltage
High accuracy of LED current (
Low components count with non-isolated configuration to reduce
space & cost
High-accuracy LED current
Direct detection and feedback of inductor current
Universal input design
Controls output current by changing frequency in response to input voltage
DIP7-A1
Long-life driver circuit & High power factor ( & gt; 0.9)*1
PFC operation without electrolytic capacitor for input smoothing
3-step correcting function for input sine waveform
Ensures high reliability & safety by protection functions
Pin No.
1
Pin name
VDD
2
CL *2
3
4
5
6
NC
VIN
DRAIN
-
7
SOURCE
8
Incorporated LED short/open protection, and soft start function*1
FB
*1: MIP563
Line-up
Smoothed input (Non-isolated Buck Circuit
Input
power
P/N
MIP561
Output
power
Up to 8W Up to 0.2A
Efficie
Protection function
ncy
0.4A
Universal input Accuracy & lt; 5%
Up to 0.3A 0.55A AC85 to 264V Feedback)
Up to
10W
MIP562
Output current
accuracy
Input voltage
85%
short, Open
OTP
Pulsating input (Non isolated Buck/Flyback Circuit)
P/N
Max
output
ILIMIT
MIP563
7.4W
0.9A
*2: MIP561/562 has no CL pin (NC pin)
Output current
accuracy
Power
Factor
Current & lt; 0.30A
Universal input
Accuracy & lt; 5%
AC85 to 264V
(Feedback)
0.9
Input voltage
Function
Power supply voltage
Input voltage detection, ILIMIT
input correction
Power supply for startup circuit
Drain of power MOSFET
Source of power MOSFET,
Ground of control circuit
Inductor current detection
Efficie
Protection function
ncy
short, Open
85% OTP
Soft start
*Product information is as of July 2012 (Part number and specification are subject to change)
Application circuit example (MIP561 Output: 36V/0.15A)
LIVE
FIN
1A
250VAC
VIN NC NC VDD
DIN
1A
600V
LIN
1.5mH
ZOVP
39V
MIP561
RVDD
DR
2A
60V
D
S
CVDD2
2.2uF
50V
DVDD
1A
400V
FB
RFB
AC Input
NTRL
ZNR
470V
CIN1
4.7uF
400V +
CIN2
4.7uF
400V +
CVDD1 CFB
1uF 1uF
16V 16V
Dout
1A
400V
ROS
Lout
1.5mH
1W
LED
+
Cout
470uF
50V
Rout
*The circuit example is provisional and subject to change
4
�Three Pin IPD with Energy-saving Standby: MIP2Ex/3Ex/2Lx Series
* For the sales of this product, there is a reminder. For the detailed information, please check the contents of the back cover.
Simplified power circuit by achieving power control with 3 pins
Suitable for power supply (home appliances, etc.) of less than 60W
Reduces component count by simple circuit
Integration of high voltage Power MOSFET and CMOS control circuit, and
control by 3 pins
DIP7-A1
Line-up with 60W class power supply
TO-220-A2
MIP2Ex/3Ex/2Lx, each series with 60W class power supply
Noise reduction by frequency jitter (2Lx series)
Drastically reduces average noise to simplify the components for EMI protection
Function comparison
Series
Parameter
Control
Protection
function
MIP2Lx series
Pin No.
Pin name
Pin No.
Pin name
1
SOURCE
1
CONTROL
Control*1
PWM
PWM
PWM+Frequency jitter
MAXDC
69%
47.5% or 64%
53%
2
SOURCE
2
SOURCE
100kHz
3
SOURCE
3
DRAIN
4
CONTROL
5
DRAIN
fosc
Output
MIP2Ex series MIP3Ex series
100kHz
ILIMIT *2
Over load
100kHz
3.0A
2.7A
2.7A
Intermittent timer
Intermittent timer
Latch
Latch
Self-recovery
Security slope
Yes
-
Input
correction
-
Yes
SOURCE
Yes
-
SOURCE
-
Soft start
Other
function
Over
temperature
-
7
8
Intermittent timer
6
Yes
*1 Intermittent oscillation control at light load
*2 Equivalent to MIP2E7DMY
Application circuit example (MIP2E2D Output:12V/0.8A)
CIN
33uF
400V
D1
600V
1.5A
+
CY
2200p
RSB1
100k
0.25W
CSB
2200p
1kV
Dout
200V
3A
RSB2
100k
0.25W
L1
19mH
0.5A
DSB
800V
1A
1 C
S
NTRL
+ Cfil
470uF
16V
Rs
68
Rout1
36k
Rb
2.2k
Rout2
2k
PC
D 3
F1
250VAC
4A
PC
CCS
0.1u
LINE
T1
12V/0.8A
+
Cout
1000uF
25V
DVCC
220V
0.2A
MIP2E2D
C1
0.1uF
275VAC
Lfil
10uH
RC
10
+ CT
47u
+
RPC
10
CKR
0.1u
ICreg
Vref=2.495V
CVCC
1u
5
RKR
10k
Rref
10k
RETURN
�Multi-function IPD with Energy-saving Standby: MIP2Gx Series
* For the sales of this product, there is a reminder. For the detailed information, please check the contents of the back cover.
Expanding the range of application by adding functions to
energy-saving standby IPD
Suitable for Power (home appliances, etc.) of less than 60W output
ILIMIT variable function
DIP7-A1
ILIMIT can be switched in 2 stages (ILIMIT, ILIMITmin) by using CL pin
TO-220IPD7-A2
Reduces input voltage dependency of maximum output
Remote OFF function
By drawing a current from CL pin, externally stops IPD oscillation
Load response improvement
By independent FB pin, improve the response to load change than
Pin No.
1
2
3
4
5
6
7
8
conventional product (MIP3EX).
Function comparison with energy-saving standby IPD (3Ex/2Ex series)
MIP3Ex/2Ex
Series
ILIMIT variable externally
(2-stage switching)
-
Over voltage protection
Over load protection
Remote OFF
Yes (Timer intermittent)
-
External latch
-
Load response
Moderate
MIP2Gx
Series
Yes (Latch)
Available as input correction
function
Yes (Latch)
Yes (Timer intermittent)
Yes
Yes (Latch)
VDD(OVP) is used
High
Pin name
VDD
FB
CL
VCC
DRAIN
SOURCE
SOURCE
Pin No.
1
2
Pin name
VDD
FB
3
4
5
6
7
CL
SOURCE
VCC
DRAIN
Application circuit example (MIP2G4 Output 12V/2.0A)
CY
2200p
D1
600V
1.5A
+
CIN
100u
F
400V
L1
15mH
1A
C1
0.1uF
275VAC
F1
250VAC
4A
LINE
RSB
82k
2W
CSB
2200pF
1kV
Dout
200V
5A
DSB
800V
1A
7
D
VCC
S
CL
FB
VDD
MIP2G40MD 1
DVCC
220V
0.2A
RCL
620k
RFB
1k
+
+
CFB
1u
NTRL
Lfil
10uH
T1
Cfil
470uF
16V
Rb
2.2k
PC
PC
CCL
1000p
CVDD
1u
6
+
RETURN
Rout1
2k
Rout2
36k
CKR
0.1u
RPC
1k
CVCC
4.7u
Cout
2200uF
25V
Rs
1k
RVCC
2.2
DCL
220V
0.2A
+
12V/2A
ICreg
Ref=2.495V
RKR
10k
Rref
10k
�IPD for Small Charger/Adapter: MIP2Fx/2Kx Series
* For the sales of this product, there is a reminder. For the detailed information, please check the contents of the back cover.
Significantly reduces power consumption at no load
Built-in protection functions required for small power
best suited for charger and adapter
Reduces power consumption at no-load
DIP7-A1
AC100V input: MIP2Fx 20mW, MIP2Kx 30mW *reference
Reduces variation of maximum output current
Built-in input voltage correction circuit
Built-in protection functions
Over temperature protection (Latch), Over voltage protection (latch),
Over load protection (Foldback)
Pin No.
Pin name
1
VDD
Noise reduction by frequency jitter (2Kx Series)
2
FB
3
Reduces average noise to simplify the components for EMI protection
CL
4
VCC
5
Effect of Built-in input voltage correction circuit
DRAIN
6
Output
voltage
240V input
Without
correction
SOURCE
8
Allows easy designing for
worldwide specification as the
maximum output current at 240V
input is roughly equivalent to
that at 100V input
100Vinput
-
7
240V input
SOURCE
Output
current
Application circuit example (MIP2K2 Output:6V/0.8A)
CIN1
10u
400V
F1
250VAC
1A
NTRL
CIN2
10u
400V
+
D1
600V
1A
CY
1000p
CSB
2200p
1kV
+
RSB2
100k
0.25W
RSB1
100k
0.25W
Lfil
10u
Dout
60V
3A
+ Cout
1000u
10V
Cfil
220 u
6.0V/0.8A
+
L1
470u
DSB
800V
1A
RETURN
RVCC
2.2
DVCC
220V
0.2A
+
LINE
CVCC
1u
D
Rout2
2k
PC
4
VCC
CL
S
Rout1
12k
T1
MIP2K2
5
Rb
2.2k
Rs
470
S
FB
VDD
8
1
CCL
2200p
CKR
0.1uF
RCL
270k
RFB
15k
CFB
2200pF
RKR
47
ICreg
PC
CVDD
1uF
7
Rref
10k
�Standby Power IPD: MIP2Mx Series
* For the sales of this product, there is a reminder. For the detailed information, please check the contents of the back cover.
Built-in AC input voltage detection (Signal output/Oscillation stop
to secondary side
Suitable for standby power of up to 12W class output (such as TV)
AC input detection functions
Pin No.
1
2
3
4
5
6
7
8
DIP7-A1
2 types of functions can be selected by SO pin connection
Start and stop depending on the AC input
A decrease of AC input triggers a signal output from SO pin to
secondary side
Light load power consumption
Achieves power consumption of less than 30W at no-load with the power
using MIP2M4
Built-in protection function, frequency jitter
In addition to the protection functions (over load, over voltage, over
temperature), frequency jitter function for noise reduction is built in
Operation in detecting AC voltage OFF
(Full-wave rectification detection)
AC voltage off detection circuit example
(Full-wave rectification detection/Signal output mode)
At 50Hz
20ms
AC input
OFF
AC
Input voltage
DIN
When VLS is below the detection
voltage for more than detection filter
time, it will detect AC OFF and
output the signal
AC voltage OFF is not detected at
the valley of AC voltage, due to
the filter time
SO pin voltage
VSO
+
CIN
AC input
Output
DSB
COUT
D
FB
CVCC
TRANS
IPD
S
Detection voltage
Detection filter time
tio
( Typ. 3.15ms )1.85 to 4.45ms
ms
CSB RSB
+
Signal output is possible with short
period after AC OFF detection,
due to short filter time
LS pin voltage
VLS
Pin name
VDD
FB
SO
VCC
DRAIN
SOURCE
LS
Outputs a signal
of 4.2V/ 0.95mA
Input detection
Full-wave rectification
detection
Signal output
(4.2V/ 0.95mA)
Available by application
Oscillation does not stop at OFF detection (within the period when VDD is held)
Application circuit example (MIP2M2 Output: 5V/1A)
DIN2
600V
1A
LINE
CIN1
10u
400V
F1
250VAC
1A
NTRL
+
+
RSB2
100k
0.25W
L1
470u
DIN1
600V
1A
CY
1000p
CSB
2200p
1kV
CIN2
10u
400V
RSB1
100k
0.25W
Dout
60V
3A
DSB
800V
1A
Rb
2.2k
Rout2
47
PC
CKR
0.1uF
MIP2M2
RFB
4.7k
SO
ROL
10k
S
CIN2
0.1u
JP3 CFB
1000pF
VDD
CVDD
0.1u
COL
0.22u
8
Rout1
10k
T1
FB
LS
RIN3
82k
Cfil
22 u
VCC
RIN2
4.7M
5.0V/1.0A
RETURN
CVCC
+ 10u
50V
D
+ Cout
1500u
25V
Rs
470
DVCC
200V
0.1A
RIN1
4.7M
Lfil
10u
PC
RKR
100
ICreg
Rref
10k
�Quasi-resonant Power Supply IPD: MIP41x Series
* For the sales of this product, there is a reminder. For the detailed information, please check the contents of the back cover.
Quasi-resonant enables low-noise, high-efficiency power supply
Suitable for electronic device with severe noise requirement
(AV/OA devices)
Automatically switches to intermittent
oscillation control at light load
Adopting quasi-resonant control at normal load and intermittent oscillation
control at light load allows stable operation in a wide range of load and
enables low-noise and high-efficiency power supplies
DIP7-A1
TO-220IPD7-A2
Built-in protection circuits
Over voltage protection (Latch: External setting), Over load protection
(Timer intermittent or Latch), Over temperature protection (Latch)
Achieves low noise
in quasi-resonant operation
Peak
Average
Conventional
Pin No.
1
2
3
4
5
6
7
8
Achieve 50mW of power consumption
At no-load while in intermittent
oscillation and world-wide input
Light load characteristic
(PWM)
Noise pin voltage
CISPR Pub.22
CLASS B
Pin name
VDD
FB
TR
VCC
DRAIN
SOURCE
SOURCE
Pin No.
1
2
3
4
5
6
7
50W at no-load
New
(Quasi-resonant)
AC 100V input, 12V/1.2A output
Application circuit example (MIP412 Output 6V/1.5A)
CIN
33u
400V
RSB
100k
+
+
PC
VCC
TR
VDD
FB
1
RTR1
82k
Rb
2.2k
6V/1.5A
+
CVCC1 47u
4
Rout
1
12k
T1
5
MIP4120MS
CKR RKR
0.1u 1k
CVCC2
0.1u
Rout
2
2k
CFB
220p
NTRL
DTR
RFB
1.8k
ROL
3.3k
LINE
Cfil
220u
10V
Rs
1k
+
D
S
CDS
100p
1kV
CVDD
1u
F1
250VAC
2.5A
Lfil
10u
RETURN
DVCC
8
C1
275VAC
0.1u
Dout
60V
3A
Cout
1500u
10V
DSB
800V/ 1A
S
D1
600
V
1.5A
L1
19mH
0.5A
CY
2200p 250VAC
CSB
2200p
1kV
CTR
18p
+
ICreg
Vref=2.495V
RTR2
68k
PC
ZD1
COL
2.2uF
9
Rref
10k
Pin name
FB
TR
VCC
SOURCE
VDD
DRAIN
�Non-isolated Power IPD: MIP35x Series
* For the sales of this product, there is a reminder. For the detailed information, please check the contents of the back cover.
Achieves higher functionality and protection than existing series
Suitable for non-isolated power supply such as home appliances
(IH rice cooker, air conditioner)
Expanding the range of input/output
DIP7-A1
The flexibility for designing a power supply is improved by expansion of input/
output range with three-step changeover of ILIMIT/oscillation frequency
High efficiency/Audible noise reduction
Adoption of PWM control at rated load and intermittent oscillation control with
drain peak current in light load reduces power consumption at light load and
achieves high efficiency in all load regions
Especially, lowering the drain peak current reduces audible noise level
Noise reduction by frequency jitter
Reduces average noise to simplify the components for EMI protection
Pin No.
1
2
3
4
5
6
7
8
Pin name
f
VDD
CL
FB
DRAIN
SOURCE
SOURCE
Built-in protection function
Over load protection (Timer intermittent), Over voltage protection (Latch stop),
Over temperature protection (Self-recovery)
Setting oscillation frequency and ILIMIT
Comparison with conventional series MIP28x/38x
Function
Control method
Conventional MIP382
Intermittent oscillation control in
all region
Noise reduction
Over load
protection
Over voltage
protection
MIP35x series
Rated load: PWM control
Light load: low Idp intermittent
oscillation
Merit of MIP35x
Reduces audible noise of
inductor
Equivalent standby energysaving performance
Built-in frequency jitter function
Average noise reduction
Timer intermittent operation
Built-in over load protection
IDD(OVP latch OFF function
By setting f-pin and CL-pin as shown in
table below, it can be switched
Connect with S pin
Protection for feedback open
Increase in inductor selection
range
Increase in input/output range
Easy circuit spec adjustment
Peripheral components
cost reduction (without photo
Coupler)
ILIMIT
Fixed
fosc
Fixed
Adjustable in 3 stages
100%-80%-58%
Adjustable in 3 stages
24kHz-43.5kHz-64kHz
Requires photo coupler
No photo coupler
4 pins
Function pin
Selecting
to
above results in the following
pin
fosc
24kHz
64kHz
43.5kHz
Application circuit example (MIP353 Tr FB method)
RFB
3.3k
CCL
100p
RCL
47k
+
D
Rs
22
CBE
0.01
u
15V/0.15A
Lout
1200uH
DR
60V
3A
DIN
600V
1A
Rb
1
+
AC IN
CIN1
10u
200V
C
RE
100
CVDD CT
0.1u
47u
F1
250VAC
1A
DFB
800V
0.2A
E
CFB2
1u
S S
Tr
B
CFB
1u
FB CL VDD f
IC
MIP353
RFB2
470
+
Dout
200V
1A
Cout
220u
25V
ZD
15V
RETURN
10
and the
Connect with VDD pin
6 pins
Feedback
to
CL pin
ILIMIT
100%
80%
58%
�Quasi-resonant control IC: MIP004
Suitable for 80W class switching power supply with WW input voltage
Significantly reduces noise by quasi-resonant control and frequency
jitter function
Compatible with 80W class power
Compatible with 80W class power supply (WW design) by selecting
external general-purpose MOSFET
Allows further noise reduction
Adopting quasi-resonant control with low noise. Adding
original frequency jitter function reduces average noise significantly
High efficiency at entire load range
SO8-G2-B
Pin No.
Pin
name
1
OUT
2
VCC
3
GND
8
Features/Protection functions list
Transformer reset (Bottom detection)
VIN
6
Output for gate drive
Gate drive power supply, Over voltage protection
VDD
5
Function
TR
4
7
High efficiency at no-load to rated load by low power consumption
technology and optimal control according to the load
IS
Supply voltage, Feedback pin
Input pin of start up circuit
Power ground
Current detection pin
W.W input 45W Power (19V/2.4A) efficiency data example
General purpose
MOSFET drive
Drive performance
-0.22A(Source)/0.45A(sink)
Low noise
Quasi-resonant control
Low power
consumption
High-voltage startup circuit built in and
quiescent current circuit reduced
High efficiency at light
load
Intermittent oscillation control
control
Over load protection
Feature
DIP7-A1
Self-recovery (Timer intermittent)
Over voltage
Protection protection
function
Over Temp. protection
Frequency jitter
Bottom skip
Latch stop (Bias winding voltage detection)
Self-recovery
External latch function Latch stop (using TR pin)
Application circuit example (Output 19V/2.4A)
CY
19V/2.4A
COUT2
COUT1
DOUT
CSBsRSBs
T1
RETURN
RPC
Rb Rout1
2.2k
Rout2
RCR CCR
100k 2.2u
ICreg
Rref
MIP004
11
�LED Driver IPD: MIP553/554
Suitable for large LED Lighting of less than 30W output (MIP553)
Suitable for small LED driver such as down-light of less than 10W
output (MIP554)
TO-220IPD7-A2
MIP553
Long-life driver circuit & High power factor ( & gt; 0.9)
PFC operation without electrolytic capacitor for input smoothing
DIP7-A1
MIP554
Ensures high reliability & safety by avoiding
stress to the peripheral circuit
Over temperature protection, LED short*/open (application) protection
*MIP553 only
Supports various dimmer function
Pin No.
Pin
name
1
VIN
Current supply to
internal circuit,
Input voltage
detection pin
2
EX
External setting pin
for peak current
detection value
3
Supports Triac dimmer and PWM dimmer
CL
Peak current
control pin by input
current
Function List
Part number
MIP553
Control method
Protection
function
Drain current
Peak control
Over temperature
protection
LED short protection
LED open protection
Input voltage
(Typical)
Output current
(Typical)
Topology
Application
Isolation
High power factor
TRIAC
Dimming
PWM
Standard operation
MIP554
Fixed off time
Toff 16us
Oscillation control
Fixed off time
Toff 15us
Current applied to EX and CL pins
Self-recovery TOTPJ 140
Skip mode
Toff_skip 5.0 Toff
Remote ON/OFF function (Application)
AC85 to 253V Buck
AC85 to 264V
AC85 to 138V Buck-Boost
& lt; 0.68A
Function
Pin No.
Pin
name
1
VDD
Reference power
supply pin for IPD
internal circuit
2
EX
External setting
pin for peak
current detection
value
3
CL
Peak current
control pin by
input voltage
4
VIN
Current supply to
internal circuit,
Input voltage
detection pin
DRAIN
Drain pin of
Power MOSFET
Source pin of
4
SOURC Power MOSFET,
E
Circuit GND pin
5
Buck / Buck-Boost /
Buck / Buck-Boost
Isolated-Flyback
Yes
Yes & gt; 0.9
Yes
Yes
Without input electrolytic capacitor
(PFC operation)
VDD
Reference power
supply pin for IPD
internal circuit
5
7
& lt; 0.33A
DRAIN
Drain pin of Power
MOSFET
7
Source pin of
SOURCE Power MOSFET,
Circuit GND pin
Source pin of
8
SOURCE Power MOSFET,
Circuit GND pin
Application circuit example (MIP553 Output 28V/0.4A)
LINE
DB1
600V
1A
F1
250VAC
1A
FRD1
1A
600V
C3
L1
1mH 0.22uF
450V
LED
9pcs series
AC Input
FRD2
1.5A/600V
RCL
1.7M
NTRL
C1
0.047uF
250VAC
FRD3
1.5A/600V
L2
680uH
D
VIN
CL
S
MIP553
EX
S
VDD
CCL
470pF
50V
CVDD
1uF
50V
CEX
470pF
50V
12
Function
REX
36k
Cout
47uF/50V
�Power Supply IPD for Asia: MIP521A, 53x Series
NEW
Suitable for home appliances of up to 13W class
Built-in Frequency Jitter Function and Protection Functions
(over load, over voltage, over temperature)
SO8-G2-B
DIP7-A1
Expansion of Product Line-up
(*MIP530, 531)
MIP532, 533, 534 newly developed (13W class line-up)
Built-in Protection Functions
Over load protection: Self-recovery (Timer intermittent operation)
Over voltage protection: Shutdown VCC pin voltage: 30V
Over Temp. protection: Self-recovery (Stop at 140
, hysteresis at 70
)
Built-in frequency jitter to reduce noise
Drastically reduces average noise to simplify the components for EMI
Pin No.
1
Pin name
VIN
2
3
4
5
6
7
8
protection
NC
VDD
VCC
DRAIN
SOURCE
FB
Built-in 800V high voltage Power MOSFET (521A)
Reduces energy loss in snubber circuit
Operates without bias winding (53x series)
Low cost power circuit structure
Application circuit example (MIP530 Output 5V/0.6A)
CIN1
4.7uF
400V
LIVE
+
FIN
1A
NTRL
CIN2
4.7uF
400V
DIN
600V 1A
CSB
2200pF
250V
+
RSB1
100k
0.25W
TR
RSB2
100k
0.25W
LIN
470uH
DOUT
60V
3A
DSB
800V 1A
D
S
FB
VDD
NC
VIN
1
S
8
CVDD
1uF
CY
2200pF
250VA
C
5
IC
MIP530
CFB
1000pF
+
RPC
220
Cfil
100uF
10V
Lfil
10uH
Rb
2.2k
CCR
1uF
RFB
4.7k
4
COUT
680uF
10V
ROL
6.8k
+
RETURN
ROUT
10k
RCR
1k
SNT
Vref=2.495V
PC
COL
0.22uF
13
5V/0.6A
Rref
10k
�Main package outlines
TO-220IPD7-A2
TO-220-A2
1.4±0.1
1
2
3
4
5
(1.27)
7
1.10±0.30
(2.54)
1.44±0.30
0.7±0.1
0.4±0.1
5.25±0.30
DIP7-A1
SO8-G2-B
SSOP016-P-0300
14
22.1±0.5
14.48±0.5
2.50±0.20
17.02±0.5
15.4±0.3
6.7±0.3
2.8±0.2
4.5±0.2
10.5±0.5
�Power Supply IPD support system
Contents and Support
Power Supply IPD Semiconductor
Support System
In this site, we have placed a necessary
information & tools for each step of users
designing and evaluating the power supply.
Users can get necessary information by
selecting the tab (shown in below).
Panasonic Power Supply IPD has published the
Power design system by using WEB page
Motto
Problem
solving
Evaluation
and
verification
PCB pattern
design
To support users to carry design, evaluation and
problem-solving of Power Supply and complete the
study without any problems.
Circuit design
Purpose
Transformer
design/ Coil
calculation
Selection of
IPD
To create an environment for all the users to design
power supply
When using the IPD, we recommend to visit
this site to make full use of the system
Tabs displayed on the site
How to access
Access Panasonic Semiconductor Support System https://www.semicon.panasonic.co.jp/semi-spt/general/?lang=en &
& register
After user registration, login to support system
then click Download
select
Intelligent Power Device ,
Download the documents
In this page, users can obtain necessary tools and information in
accordance with the stage (power supply design to problem solving)
of consideration
Narrowing
condition can be
confirmed and
released
Select the tab
according to
study stage
Narrowing down
by your product
Documents, tools
will be posted here
Narrowing down by the
type of issue
15
�IPD Line up for Power Supply
Package
Control
Method
Series
Product Number
TO-220
DIL-8
TO-220C
SO8
SMD
Threeterminal
IPD Saving
energy at
standby
PWM control
&
Intermittent
oscillation
control
Multi-function
IPD Saving
energy at
standby
IPD for small
charger
adapters
Primary-side
control IPD
RCC quasiresonant
&
Intermittent
oscillation
control
Intermittent
oscillation
control
PWM control &
Intermittent
oscillation control
PWM control with
fixed OFF time
New
New
PFM Control
IPD for quasiresonant
power supply
IPD for standby
power application
IPD for nonisolated
power supply
IPD for LED
lighting driver
New
New
New
New
PWM
&
Intermittent
oscillation
control
RCC quasiresonant control
New
PWM control
-
-
-
MIP2G5
MIP2G7
MIP2F1
MIP2F2
MIP2K2S/2K2
MIP2F3/2K3
MIP2F4/2K4
MIP2F5/2K5
MIP2M2
7pin
7pin
7pin
-
SMD
-
-
MIP2G4
Insertion
-
-
-
-
-
-
Output power
ILIMIT
[A]
*Reference
up to 7W
5W to 10W
10W to 20W
15W to 30W
20W to 40W
40W to 60W
60W to 90W
up to 7W
8W to 15W
10W to 20W
15W to 30W
20W to 40W
40W to 60W
8W to 15W
15W to 30W
20W to 40W
40W to 60W
10W to 20W
15W to 30W
20W to 40W
40W to 60W
up to 3W
2W to 5W
up to 3W/ up to 5W
3W to 8W
5W to12W
8W to 15W
0.375
0.5
1.0
1.5
2.0
3.0
2.5
4.5
0.375
0.8
1.0
1.35
1.8
2.7
0.8
1.35
1.8
2.7
1.0
1.35
1.8
2.7
0.25
0.35
0.225/0.35
0.5
0.7
1.0
IPD for home
appliances
Control IC
-
-
-
-
-
up to 5W
0.35
MIP2M4
-
-
-
-
-
7W to 12W
0.8
MIP3J2V
-
-
-
-
up to 3W
0.23
MIP3J2
-
-
-
-
-
up to 3W
0.21
MIP411
MIP412
IPD for standby
power supply
New
MIP2E1D
MIP2E2D
MIP2E3D
MIP2E4D
MIP2E5D
MIP2E7D
MIP2E9N
MIP2E9D
MIP3E1
MIP3E3
MIP3E3S
MIP3E4
MIP3E5
MIP3E7
MIP2L3
MIP2L4
MIP2L5
MIP2L7
U-type
MIP415
MIP417
MIP418A
MIP419
MIP289
MIP290/291
MIP382/384
7pin
7pin
7pin
7pin
7pin
-
-
-
-
-
up to 6W
5W to 10W
10W to 15W
10W to 20W
15W to 25W
25W to 40W
40W to 50W
50W to 60W
up to 5W
up to 2W/4W
MIP353
-
-
-
-
-
up to 200 A
0.5/0.4/0.3
MIP355
-
-
-
-
-
up to 400 A
1.0/0.8/0.6
MIP553
MIP554
MIP561
MIP562
MIP563
MIP521A
MIP530
MIP531
MIP532
MIP533
MIP534
7pin
-
-
-
-
up to 26W
up to 8W
up to 200mA
up to 300mA
up to 7W
5W to 10W
up to 3W
3W to 6W
5W to 9W
7W to 11W
10W to 13W
1.5
1.0
0.4
0.55
0.9
0.5
0.2
0.35
0.5
0.7
1.0
-
-
-
15W to 80W
VLIMIT=800mV
-
-
-
15W to 200W
VLIMIT=775mV
MIP414
MIP004
MIP006
1
1
1
-
-
-
-
-
-
SSOP016
SMD
*1 These products are under development (as of July 2012) and their specifications are subject to change.
16
0.45
0.6
1.0
1.35
1.8
2.7
3.5
4.2
0.255
0.15/0.22
up to 200/300 A 0.36/0.50
�Electrical Characteristics
fosc
Ron
[kHz]
[ ]
23.0
15.0
8.5
5.8
4.0
2.6
1.7
1.7
18.0
8.0
6.0
5.2
3.8
2.6
8.0
5.2
3.8
2.6
100
100
100
Power consumption
at no load (AC100V
input)
*Reference
Application
Flyback
Chopper
It might not
be able to
be used
under
particular
Power
supply
specification
Protection function
Over-Temp. Over-voltage
100
Timer
Intermittent
With Latch
-
Timer
Intermittent
Self-return
-
Timer
Intermittent
Input correction
Soft-start
Frequency Jitter function
×
With Latch
Latch and
external
latch
Timer
Intermittent
Input correction
Remote Off function
6P
×
With Latch
With Latch
Foldback
Input correction
Frequency Jitter function
MIP2Kx
7P
30mW
×
With Latch
Latch and
external
latch
Timer
Intermittent
Input correction & Detection
Soft-start
Frequency Jitter function
8P
CV±5%
Frequency Jitter function
CV±5% CC±10%
Frequency Jitter function
3P
Soft-start
Remote Off function
9P
It might not
be able to
be used
under
particular
Power
supply
40 W
It might not be
able to be used
under particular
power supply
40mW
40 W
3.8
2.6
31.0
20.0
16.5 MIP2Fx=20mW
10.0 MIP2Kx=30mW
7.0
3.0/5.0
16.3
67
7.0
With Latch
20.0
30mW
×
With Latch
With Latch
Timer Intermittent
to 80kHz(recommended
20.0
30mW
×
With Latch
With Latch
Foldback
13.6
4.9
3.8
2.4
2.0
1.6
×
50mW
44
31.2
40mW
44
16.0/10.0
40mW
12.0
66/44/25
5.0
3.5
3.7
6.9
6.9
6.9
9.5
27.0
16.0
12.0
8.5
5.5
16 (Fixed Off time)
15 (Fixed Off time)
65
125
100
66
-
With Latch
Latch and
external
latch
Timer
Intermittent
or
Latch
*MIP418A has
no function
of " Timer
Intermittent "
Self-return
60mW
×
-
×
×
×
-
-
Self-return
×
-
5P
to 80kHz(recommended
-
Page
-
60 W
5.2
100
Additional function
Over-load
-
-
Self-return
With Latch
Timer
Intermittent
Soft-start
-
-
-
-
Ilimit/fosc Switchable 3 phases
Input correction
Photo couplers are unnecessary
Frequency Jitter function
LED short protection
LED short, LED Open ext protection
Self-return
-
-
Non-isolated Only
LED short, LED Open
protection
Soft-start
30 W
WW 150 W
100V 70mW
-
×
Self-return
With Latch
Timer Intermittent
Self-return
With Latch
Timer
Intermittent
Frequency Jitter function
50mW
-
Self-return
With Latch
Timer Intermittent
Self-return
Latch and
external latch
With Latch
12P
4P
Frequency Jitter function
×
10P
20mW
-
17
Sense offset function
Frequency Jitter function
OFF mode function
Frequency Jitter function, etc.
13P
11P
2P
��■ 2012 スイッチング電源用IPD ソリューションガイド 正誤表(Pub A02008DJ)
定義
(誤)
(正)
-
(MIP563 に関する製品情報)
MIP563 開発中止
-
(MIP563 に関する製品情報)
MIP563 開発中止
頁
行
削除
4
削除
16/17
変更
16/17
-
MIP553 “付加機能”の項目
⇒LED ショート保護
MIP554 “付加機能”の項目
変更
16/17
-
⇒LED ショート、
オープン(アプリ)保護
MIP553 “付加機能”の項目
⇒LED ショート、
オープン(アプリ)保護
MIP554 “付加機能”の項目
⇒LED オープン(アプリ)保護
■ 2012 IPD for Switching Power Supply Solution Guide Errata(Pub A02008DE)
(Error)
(Correct)
-
(Product information about MIP563)
MIP563 discontinued development
16/17
-
(Product information about MIP563)
MIP563 discontinued development
Change
16/17
-
MIP553 item of “Additional function”
⇒LED short protection
MIP553 item of “Additional function”
⇒LED short,LED open(ext) protection
Change
16/17
-
MIP554 item of “Additional function”
⇒LED short,LED open(ext) protection
MIP554 item of “Additional function”
⇒LED open(ext) protection
Definition
Page
Line
Deletion
4
Deletion
■ 开 关 电源用IPD 系统方案产品综合目录 正误表(Pub A02008DC)
定义
(误)
(正)
-
(有关 MIP563 的产品信息)
MIP563 开 发中止
16/17
-
(有关 MIP563 的产品信息)
MIP563 开 发中止
变更
16/17
-
变更
16/17
-
页
行
删除
4
删除
MIP553“保护功能”的项目
MIP553“保护功能”的项目
⇒LED 短路保护
⇒LED 短路、开 路(应用)保护
MIP554“保护功能”的项目
MIP554“保护功能”的项目
⇒LED 短路、开 路(应用)保护
⇒LED 开 路(应用)保护
�
Panasonic power MIP series.rar > MIP2H2_Schematic.pdf
7
I
8
L6502
XX
D6000
214976631
H
10
G
12
F
7
Mount Mecha A6000
E
8
1
D
10
C
12
B
J
K
L
M
N
O
Q
P
R
S
T
U
V
W
X
Z
Y
AA
BB
CC
DD
EE
L6501
300uH
1
FF
1
ƒtƒ@ƒXƒgƒ“
CN6003
D6504
XX
XX
JW6105
EY6025
4
C6020
0.01
50V
B
2012
C6514
470p
1kV
D
C6501
1.5
450V
XX
R6527
0
EY6521
EY6014 EY6019
1
R6512
22
2W
RS
R6521
10k
1/10W
RN-CP
5%
S
C6016
150
450V
D6508
D6505
XX
XX
C6017
150
450V
TO D1 or D2
JW6106
*C6021
XX
400
D6101
BAT54HT1
R6113
XX
C6101
50V 1000pCH
1608
XX
JW6107
Q6504
2SD1621ST-TD-E
CXD9841P
IC6100
XX
6
C6102
10 50V
100
VGH
RT
VS
GND
VB
C6108
0.22 B
25V 2012
D6102
MA8150-TX
PROT
SS
VGL
Q6101
2SK3561(LBS2SONY,Q)
VC1
PGND
OCP
VC2
2012
R6505
220k
1/10W
RN-CP
D6404
MA111-TX
D6501
EP05FA20
2012
8
VCC
COMP
MUL
T
CS
GD
GND
ZCD
D6503
MA111-TX
33
50V
R6531
220k
1/10W
RN-CP
2012
Q6500
2SC3052EF-T1-LEF
R6508
27k
1/10W
RN-CP
0.5%
R6509
XX
C6505
1000p
50V
B
1608
C6506
1000p
50V
B
1608
C6509
XX
R6514
100k
1/10W
RN-CP
0.5%
7
C6172
XX
9
PP
R6119
10k
1/10W
RN-CP
5%
R6517
1.5k
1/10W
RN-CP
0.5%
C6512
330p
50V
CH
C6511
470p
50V
CH
1608
C6510
1
50V
C6152
2200
16V
XX
R6328
470k
1/10W
RN-CP
0.5%
1608
D6309
MA111-TX
Q6506
ISA1235AC1TP-1EF
XX
R6538
22k
1/10W
0.5%
RN-CP
10
VD6001
R6329
47k
1/10W
RN-CP
0.5%
1608
C6012
0.22
275V
PT
R6540
220k
1/10W
RN-CP
0.5%
Mount Mecha A6017
R6150
1k
1/10W
RN-CP
5%
4
3
2
C6112
0.01
50V
B
2012
C6150
0.047
50V
B
R6122
1M
1/10W
RN-CP
13
D6311
MA8220-TX
R6334
22k
1/10W
RN-CP
2012
R6337
22k
1/10W
RN-CP
2012
C6304
0.1
25V
B
1608
4
TH6302
XX
ƒ‰ƒbƒVƒ… §ŒÀ•ÛŒì—p
2
R6008
XX
R6007
XX
C6308
0.1
25V
B
1608
3216
EY6018
C6008
XX
R6333
68k
1/10W
RN-CP
5%
EY6015
XX
C6009
XX
D6312
05NU42-TPA2
R6335
R6322
22k
1/10W
RN-CP
5%
PFC|
R6308
XX
OTP
R6330
XX
JW6102
5
FB6002
XX
16
1 Ÿ‘¤ @
1k
1/10W
RN-CP
0.5%
1608
R6301
10k
1/10W
RN-CP
5%
C6301
0.1
16V
B
1608
D6310
MA111-TX
D6301
C6414
XX
1
R6159
4.7k
1/10W
RN-CP
0.5%
XX
Q6407
INK0001AC
R6437
1k
1/10W
RN-CP
5%
C6411
0.47
10V C6412
XX
B
1608
R6438
4.7k
1/10W
RN-CP
5%
XX
JL6400
C6300
1
10V
B
1608
R6303
39k
1/10W
RN-CP
0.5%
D6302
R6300
15k
1/10W
RN-CP
5%
GND_1
R6404
22k
1/10W
RN-CP
5%
PFCo—Í
AC 50 `
XX
R6304
4.7k
1/10W
RN-CP
0.5%
C6302
1000p
50V
B
1608
60VˆÈ ã‚Å
IC6300
MM1431ATT(CN)
R6321
47k
1/10W
RN-CP
0.5%
C6306
0.47
10V
B
1608
R6320
220k
1/10W
RN-CP
0.5%
1/10W
RN-CP
0.5%
R6326
220k
1/10W
RN-CP
5%
Q6403
INK0001AC
R6416
10k
1/10W
5%
RN-CP
14
S
4
2
R6327
10k
1/10W
RN-CP
5%
13
JL6402
1608
R6405
100
1/10W
RN-CP
5%
1
R6324
10k
1/10W
RN-CP
5%
R6415
22k
1/10W
5%
RN-CP
C6402
0.01
25V
B
H
AC DET
470V ‚Å“® ì
2
3
GND_1
14.75VƒcƒFƒi [
PH6302
PC123Y22JOOF
15
D6400
MA8150-TX
Q6306
2SC3052EF-T1-LEF
R6325
56k
1/10W
R6323RN-CP
XX 0.5%
D6401
MA111-TX
C6410
0.1
16V
B
D6308
MA111-TX
C6307
1000p
50V
B
1608
C6403
0.01
25V
B
1608
R6408
10k
1/10W
RN-CP
5%
1608
16
Q6305
2SC3052EF-T1-LEF
2 Ÿ‘¤
EY6008
GND_1
R6430
10k
1/10W
RN-CP
5%
R6003
XX
PROTECT
Q6405
ISA1235AC1TP-1EF
STBY’â ~‚Å•œ‹A
EY6009
2
EY6200
L6001
XX
C6002
0.47
275V PT
EY6005
EY6006
XX
C6207 R6204
XX
XX
R6200
10
1/2W
RF
C6208
XX
EY6007
12
4
4
17
Q6406
2SC3052EF-T1-LEF
*D6251
RB551V-30TE-17
XX
C6408
1
10V
B
1608
GND_1
JL6250
11
JL6401
R6429
10k
1/10W
RN-CP
5%
L6250
10uH
18
*R6256
0
CHIP
EY6203
6
6
9
10
SOURCE
DRAIN
VCC
JL6000
FH6001
OLP
MIP2H2
IC6200
GND_2
2
3
9
5
1
1C/1
7
FB
G3
C6004
XX
8
VDD SOURCE
EY6201
1
F6000
6.3A
250V
3
D6201
05NU42-TPA2
VD6000
C6001
XX
14
10
C6003
XX
FH6000
15
15
D6204
10ERB20-TB3
PP
D6205
XX
19
R6202
100k
1W
RS
C6203
0.001
630V
16
2
3
EY6202
1
2
1
3
4
1608
8
8
T6200
D6206
MA111-TX
Mount Mecha A6015
Mount Mecha A6002
C6022
XX
D6202
XX
19
C6250
470
16V
D6250
D1NS4-TR2
EY6204
D6203
10ERB20-TB3
263406621
D6152,D6153
GND_1
410314301
GND_1
E
JL6001
DIPƒA [ƒX’[ q”Â
ET6003
GND_1
1
3
DIPƒA [ƒX’[ q”Â
ET6001
CA6003
CA6002
4.0mm
6.2mm
6.2mm
CA6001
CA6000
E
4.0mm
R6417
XX
D6402
MA111-TX
D6405
R6542
220k
C6519
10
50V
R6002
XX
EY6004
XX
EY6000
R6413
10k
1/10W
5%
RN-CP
R6401
XX
PFC@ OVP
1
AC IN & lt; L & gt;
12
R6436
22k
1/10W
RN-CP
5%
S
D6304
MA111-TX
3
C6205
100
50V
AC IN & lt; N & gt;
2
2
4
CN6000
3P
11
IC6301
MM1431ATT(CN)
D6306
XX
1
Q6301
2SC3052EF-T1-LEF
D6403
XX
4
1
C6305
1000p
50V
B
R6316
10k
1/10W
RN-CP
5%
R6302
220k
1/10W
RN-CP
0.5%
17
20
9
3
1
EY6003
EY6001
8
3
R6433
1k
1/10W
RN-CP
5%
XX
R6001
XX
18
7
PH6301
PC123Y22JOOF
D6307
4
STBY3.3V
1608
R6314
XX
D6305
JL6300
Q6300
ISA1235AC1TP-1EF
D6511
MA111-TX
FB6003 C6011
470p
1 XX
250V
B
GND_2
3
GND
GND_1
R6305
10k
1/10W
RN-CP
5%
PROTECT
R6331
XX
JW6103
5
EY6002
POWER ON
C6163
XX
R6152
1k
1/10W
RN-CP
5%
R6418
0
CHIP
2
R6434
1k
1/10W
RN-CP
5%
L6000
8.5mH
R6000
XX
AC OFF DET
Tr-On
1
R6319
1k
1/10W
RN-CP
5%
4.7k
1/10W
RN-CP
5%
D6303
MA111-TX
D6300
XX
XX
C6007
470p
250V
B
2
350VˆÈ ã‚Å
R6312
47k
1/10W
RN-CP
0.5%
R6311
4.7k
1/10W
RN-CP
0.5%
R6336
0
CHIP
15
AUDIO 13V
CN6202
12P
PFC_DET
R6317
4.7k
1/10W
RN-CP
5%
PH6300
R6315 PC123Y22JOOF
Q6304
2SC3052EF-T1-LEF
R6313
0
CHIP
Q6307
ISA1235AC1TP-1EF
C6311
1000p
630V
100
50V
AUDIO 13V
C6167
XX
STBY’â ~‚Å•œ‹A
C6309
EY6017
EY6013
14
R6310
10k
1/10W
RN-CP
5%
XX
R6306
XX
C6312
XX
1
3
R6309
10k
1/10W
RN-CP
5%
R6432
XX
1
3
R6307
XX
C6303
XX
R6009-OTP
EY6016
R6005
XX
4
Q6302
C6310
1000p
50V
B
1608
L6002
8.5mH
EY6012
R6004
XX
TH6301
XX
JW6101
C6010
680p
250V
B
AUDIO GND
10
PFCo—Í
POWER ON
FB6005
1 0.45uH
GND_2
AUDIO GND
6
GND_1
TH6300
XX
FB6004
0.45uH
UNREG 6V
C6521
10
50V
XX
C6006
680p
250V
B
UNREG 6V
C6023
XX
Q6303
2SA1364-T111-1DE
D6313
MA111-TX
GND
4
GND_1
D6512
MA111-TX
R6435
0
CHIP
XX
GND
12
3
IC6150
MM1431ATT(CN)
1
11
R6156
XX
R6154
15k
1/10W
RN-CP
0.5%
R6151
1k
1/10W
RN-CP
5%
PH6100
PC123Y22JOOF
R6318
XX
XX
GND
7
C6159 C6166
XX
XX
C6153
XX
R6153
3.3k
1/10W
RN-CP
0.5%
1
1/10W 1k 0.5%
RN-CP
C6013
XX
JW6100
GND
9
MAIN FB
C6113
XX
4
REG12V
6
C6161
XX
Q6100,Q6101
234989201
R6123
11
12
REG12V
GND
10
R6101
2.2
1/4W
FPRD
R6332
4.7
1/10W
RN-CP
5%
R6006
REG12V
2
R6158
4.7
1/4W
FPRD
R6115
33
1/10W
RN-CP
0.5%
R6103
1/10W 150 0.5%
R6541
100
1/10W
RN-CP
5%
R6537
C6164 C6168
XX
XX
GND_1
2
D6510
R6155
100k
1/10W
5%
RN-CP
FB6152
0uH
D6509
R6539
330k
1/10W
RN-CP
0.5%
GND
BALANCER_ERR
5
FB6153
0uH
Q6501
ISA1235AC1TP-1EF
XX
INV_ERR
3
R6120
0.22
2W
RS
EY6103
3
DIMMER(vbr)
BACKLIGHT(ON/OFF)
8
D6107
XX
R6535
6.8k
1/10W
RN-CP
0.5%
R6536
100
1/10W
RN-CP
0.5%
R6518
47k
1/10W
RN-CP
0.5%
GND
JL6150
8
R6534
150k
1/10W
RN-CP
2012
R6516
10k
1/10W
0.5%
DIMMER
EY6155
R6121
RS
2W
0.22
R6533
220k
1/10W
RN-CP
2012
R6515
470
1/10W
RN-CP
5%
BACK_LIGHT
6V @ 2.8A
EY6157
EY6181
T6100
S
INV_ERR
EY6154
D6152
SG10SC6-F5
R6114
XX
C6100
0 . 0 1 25V B 1608
R6532
220k
1/10W
RN-CP
2012
EY6109
GND
5
XX
1608
R6506
560k
1/10W
RN-CP
0.5%
9
D6502
BAT54HT1
5
R6507
5.6k
1/10W
RN-CP
0.5%
2012
4
R6503
470k
1/10W
RN-CP
R6511
470
1/10W
RN-CP
5%
INV
C6518
C6517
0.1
25V
B
1608
6
D6513
BAT54HT1
3
D6500
EP05FA20
IC6500
L6562
C6508
25V
0.1 B
1608
R6510
47k
1/10W
0.5%
7
2012
R6502
100k
1/10W
RN-CP
1
GND_2
2
2012
7
RY6000
25V
47
C6107
C6105 M1FM3
R6530
270k
1/10W
RN-CP
2012
EY6102
2
REG12V
11P
CN6203
PS6153
XX
EY6180
C6111
0.018
800V
C6110
470p
1kV
D
1/10W
CHIP
D6104
5%
UF4005PKG23
1
2012
R6501
220k
1/10W
RN-CP
R6529
10
1/4W
FPRD
8
R6504
220k
1/10W
RN-CP
1
R6500
220k
1/10W
RN-CP
*C6018
2200p
EY6028
EY6029
C6151
XX
10
EY6108
R6117
22
D6100
JL6002
GND_1
EY6186
35V
C6507
50V
2200pB
1608
GND_1
EY6185
2
6
C6162
XX
1608
12
4
10
EY6519
C6104
Q6505
2SB1122-ST-TD-E
C6160
0.01
25V
B
11
CT
11
50V
R6528
100
1/10W
RN-CP
5%
1608
9
R6544
0.11
10W
RB
R6519
XX
4.7
XX
XX
R6513
XX
8
EY6020
C6103
C6170
2200
16V
13
EY6101
FB
12
JW6500
7
EY6021
D6514
EY6508
VD
C6156
XX
EY6113
14
5
DIPƒA [ƒX’[ q”Â
R6009
6.8
10W
RB
VSEN
EY6184
D6105
M1FM3
15
4
5
E
R6525
XX
R6105
XX
C6157
2200
16V
EY6164
FB6151
0uH
16
3
ET6000
R6543
12
1/10W
RN-CP
2
R6104
1/10W 18k 0.5%
PT
NC
BALANCER_ERR
JL6407
JL6405
L6152
4.7uH
FB6150
0uH
EY6112
S
JL6156
EY6167
14
2
R6420
470
1/10W
5%
RN-CP
12V @ 6.0A
PS6152
XX
EY6183
C6109
XX
D6106
XX
C6171
XX
EY6182
15
R6118
10k
1/10W
RN-CP
5%
D6153
SG10SC6-F5
EY6163
PS6150
XX
18
EY6514
1
C6500
1
450V
PT
C6015
4700p
250V
F
EY6522
FB6001
0uH
C6503
1.5
450V
PRI_GND
C6158
XX
JL6152
Q6100
2SK3561(LBS2SONY,Q)
R6116
22
1/10W
CHIP
5%
2012
C6106
0.01
25V
B
1608
R6100
39k
1/10W
R6102
0.5%
4.7k
1/10W
RN-CP
0.5%
PFC_OUT
3
CHIP
FPRD
EY6026
C6014
4700p
250V
F
Q6503
R6523
4.7
2SK3934(LBS1SONY.Q 1/4W
EY6513
PT
EY6027
EY6024
R6015
1M
1/10W
RN-CP
5%
C6524
XX
`
`
D6000
D15XB60
CN6502
3P
WHT
3P
JL6406
1B/1
EY6100
3
EY6512
R6112
18k
1/10W
RN-CP
0.5%
JW6104
1
C6025
XX
EY6518
FB6000
0uH
XX
PRI_GND
2
R6012
XX
D6507
R6010
XX
400
R6520
10k
1/10W
RN-CP
5%
S
C6513
470p
1kV
D
G3
AUDIO @ 2A
JL6404
R6111
220k
1/10W
RN-CP
2012
PFC_OUT
3
C6154
3300
25V
EY6152
3
6
5
2
1
6
5
2
1
3
1
L6151
1uH
R6157
47k
1/10W
RN-CP
1
EY6517
EY6010 EY6011
R6522
4.7
1/4W
FPRD
`
400
400
CN6501
3P
WHT
3P
CHIP
C6504
XX
EY6159
2
Q6502
2SK3934(LBS1SONY.Q
C6502
XX
R6109
1M
1/10W
RN-CP
2012
EY6156
3
EY6511
TO D1 or D2
FROM INVERTER
8P
CN6204
C6165
C6169
XX
XX
JL6151
4
EY6105 400
R6110
0.1
1/2W
RF
D6151
234989201
EY6160
5
400
R6526
0
`
6
400
D6506
MA2DF600001S0
R6108
1M
1/10W
RN-CP
2012
Mount Mecha A6150
D6151
D4SBS6
EY6153
EY6150
PS6151
XX
9
EY6516
EY6510
FB6101
0uH
7
EY6509
JL6500 EY6104
L6150
1uH
FB6100
0uH
FB6102
XX
8
EY6515
Q6502,Q6503,D6506,TH6301
263406611
R6107
1M
1/10W
RN-CP
2012
10
EY6505
R6106
1M
1/10W
RN-CP
2012
1A/1 POWER SUPPLY
1
Mount Mecha A6001
R6524
6.8
2W
RS
11
L6500
260uH
EY6502
G3
PFC
C6516
470p
1kV
D
C6515
470p
1kV
D
2
ƒPƒ~ƒJƒ‹ »
3
2
C6019
0.01
50V
B
2012
4
R6014
1M
1/10W
RN-CP
5%
EY6158
EY6151
5
PFC
6
¼‰º »
C6024
XX
7
R6011
XX
8
www.irantk.ir
A
C6200
0.1
16V
B
1608
DIPƒA [ƒX’[ q”Â
ET6002
E
C6201
100p
50V
CH
1608
D6200
XX
TMP
C6005
1000p
250V
E
C6000
1000p
250V
E
1
21
R6203
2.2
1/4W
FPRD
R6201
5.6k
1/10W
RN-CP
0.5%
C6202
2.2
50V
R6250
1k
1/10W
RN-CP
5%
4
C6206
1000p
50V
B
C6204
3.3
50V
3
C6251
0.1
16V
B
R6251
3.3k
1/10W
RN-CP
5%
1
1608
R6252
47
1/10W
RN-CP
5%
Mount Mecha A6003
R6254
10k
1/10W
RN-CP
0.5%
1
Mount Mecha A6004
ƒtƒ@ƒXƒgƒ“
CN6004
XX
CN6001
GND_2
410314301
410314301
1
ƒtƒ@ƒXƒgƒ“
1
Mount Mecha A6005
2
20
410314301
GND_1
1608
PH6200
PC123Y22JOOF
ƒtƒ@ƒXƒgƒ“
3
CN6002
STBY FB
1
IC6250
MM1530ATT
1
*R6253
47k
1/10W
RN-CP
0.5%
GND_2
2
XX
G3
R6255
6.8k
1/10W
RN-CP
0.5%
21
1B/2
GND_1
22
22
COMPONENTS MARKED AS XX REFER TO PARTS LIST, WILL ONLY BE LISTED IF FITTED
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
R
S
T
U
V
W
X
Y
Z
AA
BB
CC
DD
EE
FF
~ G3 Board Schematic Diagram [ Power Supply ] ~
�
Panasonic power MIP series.rar > MIP2K_series.pdf
Featuring built-in frequency jitter necessary for EMI, while also conserving power
during standby!
High-Performance IPD for Battery Chargers MIP2Kx Series
Overview
MIP2Kx series is a high-performance IPD designed for 15W battery
chargers and featuring built-in frequency jitter function at PWM
control. It features built-in protection circuits necessary for compact
power source charger circuitry. This allows a significant reduction in
externally connected parts. It provides PWM control when a normal
load is applied and intermittent control with low load. This results in
greater efficiency for very low to maximum loads, while also
conserving power during standby.
Unit : mm
Pin No. Pin Name
1
VDD
2
FB
3
CL
4
VCC
5
Drain
6
⎯
7
Source
8
Source
Feature
• Built-in jitter function
• Built-in charge protection circuit
Built-in overheating, load shorting and overvoltage protection
circuits
Applications
Chargers (for DSC, etc.), AC adapter
DIP7-A1
Lineup
Type No.
Output *1
*2
Characteristic
Up to 5W
MIP2K2
MIP2K3
Up to 8W
MIP2K4
Up to 10W
MIP2K5 *2
VDSS
Up to 13W
10Ω
0.70A
7Ω
1.0A
∆f
fM
5.5kHz
260Hz
16.5Ω
0.50A
fosc
100kHz
R(DS)ON
0.35A
700V
ILIMIT
5Ω
*1 The electric power mentioned above depends on the transformer specification and ambient conditions. The information should be used only as a guide.
When using it within a case, output electric power may be decided by heat of IPD.
*2 All characteristic values are only for reference (still under development).
Comparison data of conduction noise
MIP2F4(without jitter function)
MIP2K4(with jitter function)
×
Average
Peak
Decentralized pulse by jitter function → Lower the avarage
New publication, effective from 1 Oct. 2008
M00852BE
�Frequency jitter function
By frequency jitter function, frequency jitter variation(∆f) changes periodically, by frequency of frequency jitter
modulation factor (fM) as shown below.
fosc=100kHz typ, ∆f=5.5kHz typ, fM=260Hz typ
Frequency: Low
Frequency: High
Drain current
105.5kHz
∆f=5.5kHz
Frequency
fosc=100kHz (average value of frequency)
Time
94.5kHz
1/fM=1/260Hz
*All values are typical
Adapter circuit sample (MIP2K4)
Electric characteristics (MIP2K4:Worldwide input, 8.3V/1.5A output)
Power efficiency
VI characteristics of adapter circuit
η vs Po
Vo vs Io
100
9
8
80
7
η [%]
Vo [V]
6
5
4
60
40
100V
3
2
100V
1
240V
240V
20
0
0
0
1
2
3
Io [A]
0
2
4
6
8
10
12
Po [W]
Precautions on the Sales of IPDs
1) The sale and/or the export of IPD products to any customer or customers located in any country other than Japan is expressly prohibited by the
Agreement made and executed by and between Power Integrations, Inc. and Matsushita Electric Industrial Co., Ltd.
2) IPD products purchased from Matsushita Electric Industrial Co., Ltd., or its authorized agents, hereinafter referred to as Matsushita Electric
Industrial Co., Ltd., shall be used only for production purposes by those parties who have duly purchased IPD products. Those who have purchased
IPD products shall not use such IPD products in unmodified form for re-sale, loan, or sample shipment for evaluation purposes to any other parties.
3) If a party who has duly purchased IPD products subcontracts its production to any other parties, including its subsidiaries or any other third parties
inside and/or out of Japan, and the IPD products are consigned to such subcontracting parties thereat, such party is obligated to monitor and control
the quantity of IPD products to prevent any of the aforementioned re-sale, loan or sample shipments from taking place.
4) In the event that any actual or threatened breach or violation of any of the above mentioned 1, 2, or 3, has occurred or is about to occur, Matsushita
Electric Industrial Co., Ltd. will hold all shipments of IPD products and may request the party alleged to be responsible for such occurrence for
necessary.
Parts No.
Able to supply
MIP2K□□
•Domestic Japanese
companies
• Japanese companies in
Asia (50% or more owned)
Disable to supply
• European and American
companies
• Local Asian companies
• Other local companies
Application
For power supply
�
Panasonic power MIP series.rar > MIP2F.pdf
Featuring built-in protection circuits necessary for compact power source
charger circuitry, while also conserving power during standby!
High-Performance IPD for Battery Chargers MIP2F× Series
Overview
MIP2F× series is a high-performance IPD designed for 20W battery
chargers. It features built-in protection circuits necessary for compact
power source charger circuitry. This allows a significant reduction in
externally connected parts.
It provides PWM control when a normal load is applied and
intermittent control with low load. This results in greater efficiency
for very low to maximum loads, while also conserving power during
standby.
Unit : mm
Pin No. Pin Name
1
VDD
2
FB
3
CL
4
VCC
5
Drain
6
⎯
7
Source
8
Source
Feature
• Lowering the liability of input voltage
• Significantly reduced power consumption with no load
20mW at 100VAC (existing lines:25mW)
20mW at 240VAC (existing lines:30mW)
• Built-in charge protection circuit
Built-in overcurrent, overheating, load shorting and overvoltage
protection circuits
DIP7-A1
www.DataSheet.net/
Applications
Chargers (for cellular phones, etc.), AC adapter
Lineup
Characteristic
Type No.
Output*
VDSS
ILIMIT
Ron
MIP2F10MS
Up to 4 W
0.25 A
31 Ω
MIP2F20MS
Up to 7 W
0.35 A
20 Ω
MIP2F30MS
Up to 10 W
0.50 A
10 Ω
MIP2F40MS
Up to 15 W
0.70 A
7Ω
MIP2F50MS
Up to 20 W
1.00 A
fosc
3Ω
700 V
100 kHz
* : The electric power mentioned above depends on the transformer specification and ambient conditions. The information should be used only as a guide.
New publication, effective from 10 Oct. 2008
M00729DE
Datasheet pdf - http://www.DataSheet4U.co.kr/
�The example of a adapter circuit
C301
1000p
C102
4.7u
400V
VR101
470V
LINE
F101
250VAC
1A
NTRL
C103
4.7u
400V
+
D101
600V
1A
C104
2200p
630V
L201
10u
+
R102
100k
0.25W
L102
470u
D102
700V
1A
R103
100k
0.25W
D103
200V
0.1A
+
D
VCC
C203
22 u
RETURN
D201
60V,3A
R106
22
R204
2.2k
R205
470
R203
33k F
PC301
T301
R104
330k
6.0V/0.8 A
+C201
470u
10V
R202
100k F
C105
1u
50V
CL
C211
0.1uF
C107
0.0022u
IC1
MIP2F2
FB
R211
4.7k
IC201
TA76L431FT
S VDD
R105
15k
R201
100k F
PC301
C106
0.1uF
Electrical Characteristic
240VAC input
240VA C入力
Vo
100VA C入力
100VAC input
existing lines
従来品
/240VAC入力
240VAC input
ILIMIT input voltage correction Io
www.DataSheet.net/
Output 路 電 源 出 力
ア ダ プ タ ー 回Characteristics特 性
Electric電 源 効 率
power efficiency
7
100
6
80
効率[%]
出力電圧[V]
Efficiency(%)
Output voltage (V)
5
4
3
2
100V
1
240V
0
0
0 .5
1
60
40
100V
20
240V
0
0
1
2
3
4
5
6
Power電 力 [W ]
出 力 output (W)
Output current (A)
出 力 電 流 [A]
Precautions on the Sales of IPDs
1) The sale and/or the export of IPD products to any customer or customers located in any country other than Japan is expressly prohibited
by the Agreement made and executed by and between Power Integrations, Inc. and Panasonic Corporation.
2) IPD products purchased from Panasonic Corporation, or its authorized agents, hereinafter referred to as Panasonic,
shall be used only for production purposes by those parties who have duly purchased IPD products. Those who have purchased
IPD products shall not use such IPD products in unmodified form for re-sale, loan, or sample shipment for evaluation purposes to any other parties.
3) If a party who has duly purchased IPD products subcontracts its production to any other parties, including its subsidiaries or any
other third parties inside and/or aout of Japan, and the IPD products are consigned to such subcontracting parties thereat, such party
is obligated to monitor and control the quantity of IPD products to prevent any of the aforementioned re-sale, loan or sample shipments
from taking place.
4) In the event that any actual or threatened breach or violation of nay of the above mentioned 1, 2, or 3, has occurred or is about to occur,
Panasonic will hold all shipments of IPD products and may request the party alleged to be responsible for such occurrence for necessary.
Parts No.
MIP2F
Able to supply
•Domestic Japanese
companies
• Japanesee companies in
Asia (50% or more owned)
Disable to supply
• European and American
companies
• Local Asian companies
• Other local companies
Application
For power supply
Datasheet pdf - http://www.DataSheet4U.co.kr/
�
Panasonic power MIP series.rar > MIP2G.pdf
高機能化で、多様な電源仕様に対応可能
待機時省エネIPD MIP2G シリーズ
概
要
単位 : mm
MIP2Gシリーズは、従来の三端子IPDシリーズ(MIP2EX/MIP3EX)
を更に高機能化したIPDです。多様な電源仕様に対応可能な多くの
機能を備え、幅広い設計自由度と、高エネルギー効率化により
システムの低コスト化に貢献します。
長
• ピーク電流制御方式のPWM制御と軽負荷時の低ドレインピーク
端子NO.
端子名
1
VDD
2
FB
電流の間欠発振制御方式により全負荷領域での高効率を実現
3
• 補助巻線電圧(VCC端子電圧)の過電圧保護機能内蔵
Φ3.84 ±0.25
8
14.48 TYP
2.74±0.13
11.96±0.25
6.38
10°
TYP
10°
TYP
2.67±0.13
はんだメッキ(Solder Plating)
はんだメッキ(
22.10±0.25
SOURCE
1.27±0.13
PIN1
& 7
PIN3
& 5
1.27 TYP
2.54 TYP
PIN2
& 4
1.27±0.25
0.70±0.09
DVD、液晶TV等の電源回路、
SOURCE
4.45±0.13
• 外部入力電圧(VDD端子電圧)の外部ラッチ機能内蔵
• CL端子の電流検出によるリモートOFF機能
−
7
DIP8-A1(CF)
10.16±0.25
途
DRAIN
6
• CL端子によるILIMIT2段切替えで、ILIMITの入力補正が可能
用
VCC
5
• 過電流保護、過熱保護、過負荷時タイマー間欠保護を内蔵
CL
4
• フィードバック端子の独立により過渡応答性を向上
17.02 TYP
特
5.08±0.25
1.27±0.25
0.38±0.08
端子NO.
VDD
2
デジタルカメラ、ノートパソコン等のACアダプタ
端子名
1
FB
3
1 2 3 4 5
CL
4
7
SOURCE
5
VCC
6
−
7
TO-220(7P)
DRAIN
ラインアップ
特性
品番
VDSS
ILIMIT
ILIMIT min
1.0A
0.75A
1.35A
1.0A
fosc
パッケージ
~20W
DIP8-A1(CF)
~30W
TO-220(7P)
パワーサイズ
MIP2G4
700V
MIP2G5
700V
1.8A
1.35A
100kHz
~40W
TO-220(7P)
MIP3E5相当
MIP2G7
700V
2.7A
2.0A
100kHz
~60W
TO-220(7P)
MIP3E7相当
このカタログの記載内容は平成16年6月23日現在のものです。
M00622BJ
100kHz
出力電力
MIP3E4相当
617-8520
TEL (075) 951-8151 (
)
http://panasonic.co.jp/semicon
1
�■ ブロック図
DRAIN
VCC
VCC UV
レギュレータ
12V
9V
VDD
30V
VCC OVP
5.7V
VDD UV
5.7V
4.7V
過電圧保護回路
Idd=3.3mA OVP
S
R
過熱保護
CL
再起動トリガ
IN
ILIMIT可変回路
リモートon-off
CL_remote
Q
タイマー
間欠動作回路
ゲートドライバー
発振器
パワー
MOSFET
MAXDC
S
CLOCK
5V
Q
R
VCL_OUT
OLP
Q
Q
20%
25%
オン時
ブランキング
パルス発生回路
軽負荷検出
間欠発振制御用
FB
VCL
ドレイン電流
検出用
クランプ回路
(ILIMIT設定)
SOURCE
■ 応用回路例
T1
C103
0.047uF
630V
R101
100k
2W
L101
18mH
0.5A
R102
10
D102
+
C104
1uF
D101
C102
82uF
400V
D201
MA649
5A
D103
MA171
+ C201
1500uF
50V
CL
D
NTRL
VDD
R204
4.7k
RCL
VCC
R206
10k
FB
R107
4.3k
S
C106
0.1uF
C108
3.3uF
400V
IC201
R205
10k
+
PC301
C105
0.1uF
R203
33k
RETURN
C203
0.1uF
LINE
R202
2.2k
+ C202
470uF
50V
PC301
D104
D1N40
C101
R201
1k
Vo/Io
+
F101
250VAC
4A
L201
10uH
C301
2200pF
250VAC
■ ご使用に際してのお願い
(1) 本製品は、Power Integrations社(米国)との販売契約上海外現地企業への販売は、禁止されています。
(2) 松下電器産業㈱及び正規代理店から販売させて頂きましたIPDは、お客様が生産されている製品にのみお使い下さい。
お客様からのIPD単品での転売、関与及びサンプル出荷は禁止されています。
(3) お客様が、IPDを委託生産のために国内外の自社または、他社に支給される場合は、転売や貸与等を防止するために、
IPD単品の支給数量と委託生産された製品の数量管理の義務があり、松下電器の要望に対しては、報告して頂きます。
また、生産中に発生した不具合品についても管理願います。
(4) 上記、(1),(2),(3)の事項について、違反の疑いが発生した場合、直ちに現在販売中の出荷を停止させて頂きます。
品番
MIP2G□□
販売可能地域
・日本国内企業
・日系アジア企業
(出資比率50%以上)
販売不可能地域
・欧米企業
・アジア現地企業
・その他現地企業
アプリケーション
電源用IPD
�
