WINSEMI WS2273

WS2273
2273 Current Mode PWM Controller
Features
General Description
■ Burst Mode Control
■ 5uA ultra-low startup current
■ 1.8mA Low operating current
■ Built-in Leading-edge blanking
■ Built-in synchronous slope compensation circuit
■ Built-in Soft-Start
■ 65kHz fixed swith frequency
■ Cycle by cycle over current protection (OCP)
■ VCC over voltage clamp & under voltage lockout( UVLO)
■ Over load protection (OLP)
■ OTP and OVP shut down latch
■ Maximum Gate output voltage clamped at 12V
■ Frequency jittering
■ Adjustable OVP through external Zener
2273 is a high performance current mode PWM controller,
optimized for low power power switch equipment.
For lower the standby power and higher RoHS compliant,
the IC offers a Burst Mode control feature and ultra-low
start-up current and operating current, that is, at the
condition of no load or light load, 2273 can reduce the
switch frequency linearly which minimize the switching
power loss; the ultra-low startup current and operating
current make a reliable power for startup design, and also
large resistor can be used in the startup circuit to improve
switching efficiency. The internal synchronous slope
compensation circuit reduces the possible subharmonic
oscillation at high PWM duty cycle output. Leading-edge
blanking on current sense(CS) input removes the signal
glitch due to snubber diode circuit reverse recovery and
thus greatly reduces the external component count and
system cost in the design. 2273 offers comprehensive
protection coverage with automatic self-recovery feature,
including cycle by cycle over current protection (OCP),
over load protection (OLP),VCC Clamp, under voltage
lockout (UVLO), OTP and OVP shut down latch. The
gate-driven output is clamped to maximum 12V to protect
the internal MOSFET.
Excellent EMI performance is achieved by using the
soft-switching
and
frequency
jittering
at
the
totem-pole-gate-drive output. The tone energy at below
20KHZ is minimized in the design and audio noise is
eliminat- ed during operation. The 2273 is the ideal
substitute of the linear power supply or the RCC-mod e
power, for a better performance of the whole switch power
system and a lower cost.
2273 is available in SOT23-6 package.
Applications
Universal switch power supply equipment and offline
AC/DC flyback power converter
■ Power Adapter
■ Set-Top Box Power Supplies
■ Open-frame SMPS
■ Battery Charger
Typical Application Circuit
Rev.A Oct.2011
Copyright@Winsemi Microelectronics Co., Ltd., All right reserved.
WS2273
Pin Definition and Device Marking
73: WS2273
Y: Year Code (0-9)
WW: Week Code (1-52)
Pin Function Description
Pin
Name
Pin
Number
GND
1
FB
2
Pin Type
Function Description
GND
Ground.
Feedback input pin. The PWM duty cycle is determined by voltage
Feedback Input
level into this pin and the current-sense signal at Pin 4. The internal
protection circuit will automatically shutdown when the FB voltage
level exceeds a preset threshold voltage.
RT
3
OTP Setting
Dual function pin. Either connected through a NTC resistor to
ground for over temperature shut down/latch control or connected
through Zener to VCC for adjustable over voltage protection.
CS
4
VCC
5
GATE
6
Current Monitoring
Power
Current sense input.
Power supply
Gate-driven output
Totem-pole gate driver output for power MOSFET.
Block Diagram
GND 1
Trimmed
Voltage/
Current
Reference
Mode
Select
OLP
FB 2
RT 3
Internal
Reference
Soft
Driver
Timer
Logic
Fault
Management
6 Gate
Inter 5V supply
POR
regulator
UVLO
5
Vcc_OVP
LEB
OTP
VCC
4 CS
Soft
Start
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WS2273
Ordering Information
Package
IC Marking Information
Purchasing Device Name
6-Pin SOT23-6, Pb-free
73XX
2273TP（SOT23-6）
Recommended Operating Condition
Symbol
Parameter
Value
Unit
VCC
VCC supply voltage
10~30
V
RT
RT resistor value
100
Kohm
TA
Operating temperature
-20~85
℃
Absolute Maximum Ratings
Symbol
Parameter
Value
Unit
VCC
DC supply voltage
30
V
VFB
FB input voltage
-0.3~7
V
VCS
CS input voltage
-0.3~7
V
VRT
RT input voltage
-0.3~7
V
TJ
Operating junction temperature
-20~150
℃
TSTG
Storage temperature
-40~150
℃
VCV
VCC clamp voltage
26
V
ICC
VCC DC clamp current
10
mA
Note: Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to the device. These
are stress ratings only, functional operation of the device at these or any other conditions beyond those indicated in the
Recommended Operating Conditions section are not implied. Exposure to absolute maximum-rated conditions for
extended periods may affect device reliability.
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WS2273
Electrical Characteristics (TA=25℃，VCC=16V, if not otherwise noted)
Supply Voltage (VCC)
symbol
parameter
Test condition
Min
Typ
Max
Unit
30
V
VCC_OP
Operation voltage
UVLO_ON
Turn on threshold Voltage
6
7
8
V
UVLO_OFF
Turn-off threshold Voltage
12.5
13.5
14.5
V
I_VCC_ST
Start up current
VCC=13V
5
20
uA
I_VCC_OP
Operation Current
VFB=3V
1.8
2.5
mA
Vpull_up
Pull-up PMOS active
VCC_Clamp
VCC Zener Clamp Voltage
V
OVP(ON)
Over voltage protection voltage
13
IVCC=10mA
30
32
34
26
28
30
CS=0.3V,FB=3V, Ramp up
VCC until gate clock is off
Vlatch_release
Latch release voltage
5
Feedback Input Section
VFB_Open
VFB Open Loop Voltage
3.9
4.2
V
Avcs
PWM input gain ΔVfb/ΔVcs
2
V/V
Vref_green
The threshold enter green mode
2.1
V
Vref_burst_H
The threshold exit burst mode
1.3
V
Vref_burst_L
The threshold enter burst mode
1.2
V
IFB_Short
FB Pin Short Current
0.4
mA
VTH_PL
Power limiting FB Threshold
3.7
V
TD_PL
Power limiting Debounce
ZFB_IN
Input Impedance
Max_Duty
Maximum duty cycle
FB Shorted to GND
80
88
96
16
75
80
ms
kΩ
85
%
Current CS Section
SST
Soft Start time
4
ms
TLEB
Leading edge Blanking Time
220
ns
ZCS
Input impedance
40
kΩ
TD_OC
OCP control delay
GATE with 1nF to GND
120
ns
VTH_OC
OCP threshold
FB＝3V
0.75
V
0.9
V
Vocp_clamping
Oscillator Section
Fosc
Normal Oscillation Frequency
Fosc_BM
Burst mode frequency
Frequency
variation
VCC=14V,FB=3V,CS=0.3V
60
65
70
khz
22
khz
TEMP = -20 to 85℃
1
%
VCC = 12 to 25V
1
%
versus
∆f_temp
temp. Deviation
∆f_VCC
Frequency variation versus VCC
F_shuffling
Shuffling Frequency
32
Hz
∆f_OSC
Frequency Jittering
±4
%
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WS2273
GATE Output Section
VOL
Output voltage Low
VCC = 14V, Io = -5mA
VOH
Output voltage high
VCC = 14V, Io = 20mA
VClamp
Output clamp voltage
Tr
Rising time
Tf
Falling time
1
6
V
V
12
V
175
ns
85
ns
GATE with 1nF to GND，
Gate 从 1~12V
GATE with 1nF to GND，
Gate 从 12~1V
Over temperature protection
IRT
Output current of RT pin
Votp
Threshold voltage for OTP
Td_OTP
OTP debounce time
95
100
105
uA
0.95
1
1.05
V
Cycl
16
e
VRT_FL
Float voltage at RT pin
Vth_OVP
External OVP threshold voltage
2.3
V
4
V
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WS2273
Typical Operating Characteristics
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WS2273
Function Description
a period of time. Therefore reducing the switch event
2273 is a high performance current mode PWM
leads to reduction on the power loss and thus saving the
controller, optimized for low power AC/DC application.
energy.
Ultra low startup current and operating current together
For the burst mode control circuit, 2273 self adjusts the
with burst mode feature minimize the standby power
switching mode according to the loading condition. At the
consumption and improve the switching efficiency. In
condition of no load or light/medium load, the FB input
addition to reduce the external component count, the
voltage drops below burst mode threshold level. Device
internal synchronous slope compensation combines with
enters Burst Mode control on the basis of the judgment.
the leading-edge blanking improves system large
The gate drive output switches only when VCC voltage
stability
subharmonic
drops below a preset level and FB input is active.
oscillation. 2273 also have multiform general recovery
and
reduces
the
possible
Otherwise the gate drive remains at off to minimize the
protection mode. The main function is described as
switching loss and power consumption to the greatest
below .
extend. The frequency control also eliminates the audio
noise at any loading conditions.
Startup Current and Startup Control
Startup current of 2273 is designed to be extremely low
Oscillator Operation
at 5uA, so that VCC could be charged up above UVLO
The switching frequency is internally fixed at 65kHz. No
threshold level and device starts up quickly. A large value
external frequency setting components are required for
startup resistor can therefore be used to minimize the
PCB design simplification.
power loss, predigest the design of startup circuit and
provides reliable startup in application. For the design of
AC/DC adaptor with universal input range, a startup
resistor of 2 M Ω , 1/8 W could be used together with a
VCC capacitor to provide a fast startup and low power
dissipation solution.
Current Sensing and Leading Edge Blanking
Cycle-by-Cycle current limiting is offered in 2273. The
switch current is detected by a sense resistor into the
sense pin. An internal leading edge blanking circuit
chops off the sense voltage spike at initial MOSFET on
state due to snubber diode reverse recovery so that the
Operating Current
external RC filtering on sense input is no longer required.
The operating current of 2273 is low at 1.8mA. Excellent
The current limit comparator is disabled and thus cannot
efficiency is achieved with low operating current together
turn off the internal MOSFET during the blanking period.
and extended burst mode control circuit.
PWM duty cycle is determined by the current sense input
voltage and the FB input voltage.
Soft Start
2273 features an internal 4ms soft start to soften the
Internal Synchronized Slope Compensation
electrical stress occurring in the power supply during
Built-in slope compensation circuit adds slope voltage
startup. It is activated during the power on sequence. As
onto the current sense input voltage for PWM generation.
soon as VCC reaches UVLO （ OFF ）， the CS peak
This greatly enhances the close loop stability at CCM
voltage is gradually increaced from 0.15V to the
and prevents possible subharmonic oscillation and thus
maximum level. Every restart up is followed by a soft
reduces the output ripple voltage.
start.
Gate Drive
Extended Burst Mode Operation
The gate drive strength which is too weak leads to over
At zero load or light load, most of the power dissipation
switch loss of MOSFET while too strong gate drive
of the switching power supply comes from the MOSFET
output compromises in the over EMI. A good tradeoff
switching loss, the core loss of the transformer and the
between output strength and dead time control is
loss on the snubber circuit. The magnitude of power loss
achieved through the design of the built-in totem pole
is in proportion to the number of switching events within
gate. The low standby dissipation and good EMI system
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WS2273
design is easier to achieve through this dedicated devise.
Under Voltage Lockout on VCC (UVLO), OTP and OVP
For MOSFET gate protection, an internal 12V clamp is
shut down latch. At overload condition when FB input
added at higher than expected VCC input.
voltage exceeds power limit threshold value for more
than TD_PL, control circuit reacts to shut down the
output power MOSFET. Device restarts when VCC
Protection Controls
the
voltage drops below UVLO limit. It is clamped when VCC
Including
is higher than threshold value. The power MOSFET is
Cycle-by-Cycle current limiting (OCP), Over Load
shut down when VCC drops below UVLO limit and
Protection (OLP) and over voltage clamp, VCC Clamp,
device enters power on start-up sequence thereafter.
Excellent
system
comprehensive
stability
protection
is
achieved
of
2273.
by
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WS2273
SOT23-6 Package Outline Dimensions
Symbol
A
A1
A2
b
c
D
E
E1
e
e1
L
θ
Dimensions In Milimeters
Min
Max
1.000
1.300
0.000
0.150
1.000
1.200
0.300
0.500
0.100
0.200
2.800
3.020
1.500
1.700
2.600
3.000
0.950(BSC)
1.800
2.000
0.300
0.600
0°
8°
Dimensions In Inches
Min
Max
0.039
0.051
0.000
0.006
0.039
0.047
0.012
0.020
0.004
0.008
0.110
0.119
0.059
0.067
0.102
0.118
0.037(BSC)
0.071
0.079
0.012
0.024
0°
8°
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