CM6802SAH PDF Datasheet ( 特性, スペック, ピン接続図 )

部品番号 CM6802SAH
メーカ Champion Microelectronic
ロゴ Champion Microelectronic ロゴ 

Total 25 pages

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CM6802SAH Datasheet, CM6802SAH PDF,ピン配置, 機能
Design for High Efficient Power Supply at both Full Load and Light Load
CM6802SAH/SBH is a turbo-speed PFC and a Green PWM
controller. It is designed to further increase power supply
efficiency while using the relatively lower 380V Bulk
Capacitor value.
Switching to CM6802SAH/SBH from your existing CM6800
family boards can gain the following advanced
1.) Around 2% efficiency gain when the output load is
below 40% of the full load
2.) Hold Up time can be increased ~ 30% from the
existing 6800 power supply
3.) Turbo Speed PFC may reduce 420 Bulk Capacitor
4.) 420V bulk capacitor value may be reduced and PFC
Boost Capacitor ripple current can be reduced
5.) No Load Consumption can be reduced 290mW at
6.) Better Power Factor and Better THD
7.) Clean Digital PFC Brown Out
8.) PWM transformer size can be smaller
9.) Superior Surge Noise Immunity
10.) To design 12V, 5V, and 3.3V output filters can be
11.) The stress over the entire external power device is
reduced and EMI noise maybe reduced; PFC inductor
core might be reduced
12.) Monotonic Output design is easy
13.) And more… Of course, the cost can be reduced
CM6802SAH/SBH is pin to pin compatible with CM6800
Beside all the goodies in the CM6800, it is designed to meet
the EPA/85+ regulation. With the proper design, its efficiency
of power supply can easily approach 85%.
To start evaluating CM6802SAH/SBH from the exiting
CM6800, CM6800A, or ML4800 board, 6 things need to be
taken care before doing the fine tune:
1.) Change RAC resistor (on pin 2, IAC) from the old
value to a higher resistor value between 4.7 Mega
ohm to 8 Mega ohm. Start with 6 Mega ohm for RAC
2.) Change RTCT pin (pin 7) from the existing value to
RT=5.88K ohm and CT=1000pF to have
fpfc=68Khz, fpwm=68Khz, frtct=272Khz for
CM6802SAH and fpfc=68Khz, fpwm=136Khz,
frtct=272Khz for CM6802SBH
3.) Adjust all high voltage resistor around 5 mega ohm or
4.) VRMS pin(pin 4) needs to be 1.14V at VIN=80VAC
for universal input application from line input from
80VAC to 270VAC. Both poles for the Vrms of the
CM6802SAH/SBH needs to substantially slow than
CM6800 about 5 to 10 times.
5.) At full load, the average Veao needs to around 4.5V
and the ripple on the Veao needs to be less than
250mV when the load triggers the light load
6.) Soft Start pin (pin 5), the soft start current has been
reduced from CM6800’s 20uA to CM6802SAH/SBH’s
10uA.Soft Start capacitor can be reduced to 1/2 from
your original CM6800 capacitor.
‹ Patents Pending
‹ Pin to pin compatible with CM6800, CM6800A,
ML4800, and FAN4800
‹ 23V Bi-CMOS process
‹ Designed for EPA/85+ efficiency
‹ Selectable Boost output from 380V to 342V during light
‹ Digitized Exactly 50% Maximum PWM Duty Cycle
‹ All high voltage resistors can be greater than 4.7 Mega
ohm (4.7 Mega to 8 Mega ohm) to improve the no load
‹ Rail to rail CMOS Drivers with on, 60 ohm and off, 30 ohm
for both PFC and PWM with two 17V zeners
‹ Fast Start-UP Circuit without extra bleed resistor to aid
VCC reaches 13V sooner
‹ Low start-up current (55uA typ.)
‹ Low operating current (2.5mA typ.)
‹ 16.5V VCC shunt regulator
‹ Leading Edge Blanking for both PFC and PWM
‹ fRTCT = 4*fpfc =4*fpwm for CM6802SAH
‹ fRTCT = 4*fpfc =2*fpwm for CM6802SBH
‹ Dynamic Soft PFC to ease the stress of the Power
Device and Ease the EMI filter design
‹ Clean Digital PFC Brown Out and PWM Brown Out
‹ Turbo Speed PFC may reduce 420 Bulk Capacitor size
‹ Internally synchronized leading edge PFC and trailing
edge PWM in one IC to Reduces ripple current in the 420V
storage capacitor between the PFC and PWM sections
‹ Better Power Factor and Better THD
‹ Average current, continuous or discontinuous boost
leading edge PFC
‹ PWM configurable for current mode or feed-forward
voltage mode operation
‹ Current fed Gain Modulator for improved noise immunity
‹ Gain Modulator is a constant maximum power limiter
‹ Precision Current Limit, over-voltage protection, UVLO,
soft start, and Reference OK
2009/11/02 Rev. 1.5
Champion Microelectronic Corporation

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