PWM Controller. STR3A461HDL Datasheet

STR3A461HDL Controller. Datasheet pdf. Equivalent

STR3A461HDL Datasheet
Recommendation STR3A461HDL Datasheet
Part STR3A461HDL
Description Off-Line PWM Controller
Feature STR3A461HDL; Off-Line PWM Controllers with Integrated Power MOSFET STR3A400HDL Series Data Sheet Description Th.
Manufacture Sanken
Datasheet
Download STR3A461HDL Datasheet





Sanken STR3A461HDL
Off-Line PWM Controllers with Integrated Power MOSFET
STR3A400HDL Series
Data Sheet
Description
The STR3A400HDL series are power ICs for
switching power supplies, incorporating a MOSFET and
a current mode PWM controller IC.
The low standby power is accomplished by the
automatic switching between the PWM operation in
normal operation and the burst-oscillation under light
load conditions. The product achieves high cost-
performance power supply systems with few external
components.
Features
Low Thermal Resistance Package
Improving circuit efficiency (Since the step drive
control can keep VRM of secondary rectification diodes
low, the circuit efficiency can be improved by low VF)
Noise Reduction
Current Mode Type PWM Control
Soft Start Function
Automatic Standby Function
No Load Power Consumption < 15mW
Operation Mode
Normal Operation ---------------------------- PWM Mode
Light Load Operation ------------------------Green-Mode
Standby ----------------------------Burst Oscillation Mode
Random Switching Function
Slope Compensation Function
Leading Edge Blanking Function
Bias Assist Function
Protections
Two Types of Overcurrent Protection (OCP): Pulse-
by-Pulse, built-in compensation circuit to minimize
OCP point variation on AC input voltage
Overload Protection (OLP): Auto-restart
Overvoltage Protection (OVP): Auto-restart
Thermal Shutdown (TSD): Auto-restart with hysteresis
Typical Application
VAC
BR1
C1
C4
C5
8
7
6
5
D/ST D/ST DN/SCT D/ST
U1
STR3A400HDL
S/OCP VCC GND FB/OLP
1234
T1
D51
R1
P
D1
C51
S
D2 R2
C2
D
L51
R54
PC1 R51
R55
R52
C52 R53
U51
R56
VOUT
C53
GND
ROCP
C3
PC1
CY
TC_STR3A400HDL_1_R1
Package
DIP8
Selection Guide
Electrical Characteristics
fOSC(AVG)(typ.) = 100 kHz
Part Number
STR3A461HDL(1)
STR3A462HDL
STR3A463HDL(1)
VDSS (min.)
700 V
Not to Scale
RDS(ON) (max.)
4.2 Ω
3.2 Ω
2.2 Ω
Output Power, POUT(2)
POUT
Part Number
(Adapter)
AC230V
AC85
~265V
STR3A461HDL(1) 28 W 21 W
POUT
(Open frame)
AC230V
AC85
~265V
38 W 26 W
STR3A462HDL 31 W 24 W 42 W 30 W
STR3A463HDL(1) 34 W 26 W 48 W 34 W
(1) Under development
(2) The output power is actual continues power that is measured
at 50 °C ambient. The peak output power can be 120 to 140 %
of the value stated here. Core size, ON Duty, and thermal
design affect the output power. It may be less than the value
stated here.
Applications
AC/DC adapter
White goods
Other SMPS
STR3A400HDL-DSE Rev.2.0
SANKEN ELECTRIC CO., LTD.
1
May 13, 2020
https://www.sanken-ele.co.jp/en/
© SANKEN ELECTRIC CO., LTD. 2016



Sanken STR3A461HDL
STR3A400HDL Series
Contents
Description ------------------------------------------------------------------------------------------------------ 1
Contents --------------------------------------------------------------------------------------------------------- 2
1. Absolute Maximum Ratings----------------------------------------------------------------------------- 3
2. Electrical Characteristics -------------------------------------------------------------------------------- 4
3. Performance Curves -------------------------------------------------------------------------------------- 5
3.1 Derating Curves ------------------------------------------------------------------------------------- 5
3.2 MOSFET Safe Operating Area Curves --------------------------------------------------------- 6
3.3 Ambient Temperature versus Power Dissipation Curves ----------------------------------- 7
3.4 Transient Thermal Resistance Curves ---------------------------------------------------------- 8
4. Block Diagram --------------------------------------------------------------------------------------------- 9
5. Pin Configuration Definitions--------------------------------------------------------------------------- 9
6. Typical Application ------------------------------------------------------------------------------------- 10
7. Physical Dimensions ------------------------------------------------------------------------------------ 11
8. Marking Diagram --------------------------------------------------------------------------------------- 11
9. Operational Description ------------------------------------------------------------------------------- 12
9.1 Startup Operation --------------------------------------------------------------------------------- 12
9.2 Undervoltage Lockout (UVLO) ---------------------------------------------------------------- 12
9.3 Bias Assist Function------------------------------------------------------------------------------- 12
9.4 Soft Start Function -------------------------------------------------------------------------------- 13
9.5 Constant Output Voltage Control-------------------------------------------------------------- 13
9.6 Leading Edge Blanking Function -------------------------------------------------------------- 14
9.7 Random Switching Function -------------------------------------------------------------------- 14
9.8 Automatic Standby Function ------------------------------------------------------------------- 14
9.9 Step Drive Control -------------------------------------------------------------------------------- 15
9.10 Overcurrent Protection (OCP) ----------------------------------------------------------------- 15
9.10.1 OCP Operation ------------------------------------------------------------------------------ 15
9.10.2 OCP Input Compensation Function ----------------------------------------------------- 16
9.10.3 Overload Protection (OLP)---------------------------------------------------------------- 16
9.10.4 Overvoltage Protection (OVP) ------------------------------------------------------------ 17
9.10.5 Thermal Shutdown (TSD) ----------------------------------------------------------------- 17
10. Design Notes ---------------------------------------------------------------------------------------------- 18
10.1 External Components ---------------------------------------------------------------------------- 18
10.1.1 Input and Output Electrolytic Capacitor ----------------------------------------------- 18
10.1.2 S/OCP Pin Peripheral Circuit ------------------------------------------------------------ 18
10.1.3 VCC Pin Peripheral Circuit--------------------------------------------------------------- 18
10.1.4 FB/OLP Pin Peripheral Circuit ---------------------------------------------------------- 18
10.1.5 Snubber Circuit------------------------------------------------------------------------------ 18
10.1.6 Peripheral Circuit of Secondary-side Shunt Regulator ------------------------------ 19
10.1.7 Transformer ---------------------------------------------------------------------------------- 19
10.2 PCB Trace Layout and Component Placement --------------------------------------------- 19
11. Pattern Layout Example ------------------------------------------------------------------------------- 22
12. Reference Design of Power Supply ------------------------------------------------------------------ 23
Important Notes---------------------------------------------------------------------------------------------- 25
STR3A400HDL-DSE Rev.2.0
SANKEN ELECTRIC CO., LTD.
2
May 13, 2020
https://www.sanken-ele.co.jp/en/
© SANKEN ELECTRIC CO., LTD. 2016



Sanken STR3A461HDL
STR3A400HDL Series
1. Absolute Maximum Ratings
Current polarities are defined as follows: current going into the IC (sinking) is positive current (+); current coming out
of the IC (sourcing) is negative current (−).
Unless otherwise specified TA = 25 °C, 5 pin = 6 pin = 7 pin = 8 pin.
Parameter
Symbol Conditions
Pins
Rating
Units
Notes
Drain Peak Current(1)
3.6
IDPEAK Single pulse
81
4.0
4.8
STR3A461HDL
A STR3A462HDL
STR3A463HDL
Avalanche Energy(2)(3)
S/OCP Pin Voltage
VCC Pin Voltage
FB/OLP Pin Voltage
FB/OLP Pin Sink Current
D/ST Pin Voltage
MOSFET Power
Dissipation(4)
Control Part Power
Dissipation
Operating Ambient
Temperature
Storage Temperature
Junction Temperature
EAS
VS/OCP
VCC
VFB
IFB
VD/ST
ILPEAK = 1.43 A
ILPEAK = 1.58 A
ILPEAK = 1.88 A
81
13
23
43
43
83
PD1
(5)
81
PD2
23
TOP
Tstg
TJ
23.8
29
41
2 to 6
32
0.3 to 14
1.0
1 to VDSS
1.68
1.76
1.3
40 to 125
40 to 125
150
STR3A461HDL
mJ STR3A462HDL
STR3A463HDL
V
V
V
mA
V
STR3A461HDL
W STR3A462HDL
STR3A463HDL
W
VCC × ICC
°C
°C
°C
(1) See 3.2 MOSFET Safe Operating Area Curves
(2) See Figure 3-2 Avalanche Energy Derating Coefficient Curve
(3) Single pulse, VDD = 99 V, L = 20 mH
(4) See Section 0 Ta-PD1 Curve
(5) When embedding this hybrid IC onto the printed circuit board (cupper area in a 15 mm × 15 mm)
STR3A400HDL-DSE Rev.2.0
SANKEN ELECTRIC CO., LTD.
3
May 13, 2020
https://www.sanken-ele.co.jp/en/
© SANKEN ELECTRIC CO., LTD. 2016





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