FAN4800AS Fairchild Semiconductor, FAN4800AS Datasheet

FAN4800AS

Manufacturer Part Number

FAN4800AS

Description

The highly integrated FAN4800AS/CS/01S/02S parts are specially designed for power supplies that consist of boost PFC and PWM

Manufacturer

Fairchild Semiconductor

Datasheet

1.FAN4800AS.pdf (19 pages)

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

FAN4800ASMY

Manufacturer:

FAIRCHILD/仙童

Quantity:

20 000

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

FAN4800ASNY

Manufacturer:

FSC

Quantity:

9 926

Current page: 1 of 19
Download datasheet (578Kb)

FAN4800AS/CS/01S/02S • Rev. 1.0.1

FAN4800AS/CS/01S/2S

PFC/PWM Controller Combination

Features

Applications

Related Resources

Pin-to-Pin Compatible with ML4800 and FAN4800

and CM6800 and CM6800A

PWM Configurable for Current Mode or

Feedforward Voltage-Mode Operation

Internally Synchronized Leading-Edge PFC and

Trailing-Edge PWM in One IC

Low Operating Current

Innovative Switching-Charge Multiplier Divider

Average-Current Mode for Input-Current Shaping

PFC Over-Voltage and Under-Voltage Protections

PFC Feedback Open-Loop Protection

Cycle-by-Cycle Current Limiting for PFC/PWM

Power-on Sequence Control and Soft-Start

Brownout Protection

Interleaved PFC/PWM Switching

Improved Efficiency at Light Load

Desktop PC Power Supply

Internet Server Power Supply

LCD TV, Monitor Power Supply

UPS

Battery Charger

DC Motor Power Supply

Monitor Power Supply

Telecom System Power Supply

Distributed Power

AN-8027 - FAN480X PFC+PWM Combination

Controller Application

RTCT

=4•f

PFC

=4•f

=2•f

PWM

for FAN4800AS/01S

for FAN4800CS/02S

Description

The highly integrated FAN4800AS/CS/01S/02S parts

are specially designed for power supplies that consist of

boost PFC and PWM. They require very few external

components

compensation. They are available in 16-pin DIP and

SOP packages.

The PWM can be used in either current or voltage

mode. In voltage mode, feed-forward from the PFC

output bus can reduce the secondary output ripple.

Compared

FAN4800,

operation current that saves power consumption in

external

accurate 49.9% maximum duty of PWM that makes the

hold-up time longer. Brownout protection and PFC soft-

start functions available in this series are not available

in ML4800 and FAN4800.

To evaluate FAN4800AS/CS/01S/02S for replacing

existing FAN4800 and ML4800 boards, five things must

be completed before the fine-tuning procedure:

There are two differences from FAN4800A/C/01/02 to

FAN4800AS/CS/01S/02S:

Change R

resister: between 6MΩ to 8MΩ.

Change RT/CT pin from the existing values to

The VRMS pin needs to be 1.224V at V

for universal input application from line input from

85V

At full load, the average V

and the ripple of V

400mV.

For the Soft-Start pin, the soft-start current has

been reduced to half the FAN4800 capacitor.

Under-voltage

extended to one second.

PWM gate clamp voltage is raised to 19V.

PWM

=6.8kΩ and C

=64kHz.

devices.

to 270V

with

FAN4800AS/CS/01S/02S

resister from the old value to a higher

older

achieve

protection

=1000pF to have f

FAN4800AS/CS/01S/02S

VEA

productions,

versatile

needs to be less than

VEA

debounce

needs to be ~4.5V

December 2010

PFC

protections

ML4800

have

www.fairchildsemi.com

=64kHz and

time

=85 V

lower

have

and

Related parts for FAN4800AS

FAN4800AS Summary of contents

Page 1

... PWM that makes the hold-up time longer. Brownout protection and PFC soft- start functions available in this series are not available in ML4800 and FAN4800. To evaluate FAN4800AS/CS/01S/02S for replacing existing FAN4800 and ML4800 boards, five things must be completed before the fine-tuning procedure: 1. ...

Page 2

... FAN4802SMY -40°C to +105°C Application Diagram © 2010 Fairchild Semiconductor Corporation FAN4800AS/CS/01S/02S • Rev. 1.0.1 16-Pin Dual Inline Package (DIP) 16-Pin Small Outline Package (SOP) 16-Pin Dual Inline Package (DIP) 16-Pin Small Outline Package (SOP) 16-Pin Dual Inline Package (DIP) ...

Page 3

... Application Diagram © 2010 Fairchild Semiconductor Corporation FAN4800AS/CS/01S/02S • Rev. 1.0.1 VEA IEA FBPFC IAC VREF ISENSE VRMS VDD SS OPFC FBPWM OPWM RT/CT GND RAMP ILIMIT VREF VREF Figure 2. Typical Application, Voltage Mode 3 VDD www.fairchildsemi.com ...

Page 4

... Block Diagram © 2010 Fairchild Semiconductor Corporation FAN4800AS/CS/01S/02S • Rev. 1.0.1 Figure 3. FAN4800AS/CS Function Block Diagram Figure 4. FAN4801S/02S Function Block Diagram 4 www.fairchildsemi.com ...

Page 5

... Marking Information © 2010 Fairchild Semiconductor Corporation FAN4800AS/CS/01S/02S • Rev. 1.0.1 – Fairchild Logo F Z – Plant Code X – 1-Digit Year Code – Package Type (N:DIP) P – Y: Green Package M Figure 5. DIP Top Mark – Fairchild Logo F Z – Plant Code X – ...

Page 6

... PFC error amplifier. This pin is connected to the PFC output through a divider network. Output of PFC Voltage Amplifier. The error amplifier output for PFC voltage feedback loop. 16 VEA A compensation network is connected between this pin and ground. © 2010 Fairchild Semiconductor Corporation FAN4800AS/CS/01S/02S • Rev. 1.0.1 Figure 7. Pin Configuration (Top View) 6 and C . ...

Page 7

... The Recommended Operating Conditions table defines the conditions for actual device operation. Recommended operating conditions are specified to ensure optimal performance to the datasheet specifications. Fairchild does not recommend exceeding them or designing to Absolute Maximum Ratings. Symbol T Operating Ambient Temperature A © 2010 Fairchild Semiconductor Corporation FAN4800AS/CS/01S/02S • Rev. 1.0.1 Parameter < 50°C A DIP SOP DIP SOP ...

Page 8

... Low-Power Detect Comparator V VEA Voltage OFF OPFC VEAOFF V OK Comparator IN Voltage Level on FBPFC to V RD-FBPFC Enable OPWM During Startup ΔV Hysteresis RD-FBPFC © 2010 Fairchild Semiconductor Corporation FAN4800AS/CS/01S/02S • Rev. 1.0.1 = 25° =6.8kΩ, and Conditions V =V -0.1V; OPFC OPWM DD TH-ON ...

Page 9

... OFFSET PFC I Comparator LIMIT Peak Current Limit Threshold V PFC-ILIMIT Voltage, Cycle-by-Cycle Limit ΔV PFC I -Gain Modulator Output LIMIT PK © 2010 Fairchild Semiconductor Corporation FAN4800AS/CS/01S/02S • Rev. 1.0.1 (Continued) = 25° =6.8kΩ, and Conditions ( NONINV INV ...

Page 10

... Maximum Duty Cycle PWM-MAX V PWM Comparator Level Shift PWM-LS Notes: 3. This parameter, although guaranteed by design, is not 100% production tested. 4. This GAIN is the maximum gain of modulation with a given V © 2010 Fairchild Semiconductor Corporation FAN4800AS/CS/01S/02S • Rev. 1.0.1 (Continued) = 25° =6.8kΩ, and C =1000pF ...

Page 11

... Figure 14. Gm vs. Temperature V -1.177 -1.178 -1.179 -1.180 -1.181 -1.182 -1.183 -40 -25 - Figure 16. V PFC-ILIMIT © 2010 Fairchild Semiconductor Corporation FAN4800AS/CS/01S/02S • Rev. 1.0.1 28.04 28.02 28.00 27.98 27.96 27.94 27.92 27.90 27.88 27.86 50℃ 65℃ 80℃ 95℃ 110℃ 125℃ -40℃ -25℃ -10℃ 7.520 7.515 7.510 7.505 7.500 7 ...

Page 12

... Figure 24. I vs. Temperature SS © 2010 Fairchild Semiconductor Corporation FAN4800AS/CS/01S/02S • Rev. 1.0.1 867.5 867.0 866.5 866.0 865.5 865.0 864.5 864.0 863.5 863.0 862.5 862.0 50℃ 65℃ 80℃ 95℃ 110℃ 125℃ -40℃ -25℃ -10℃ ...

Page 13

... Functional Description The FAN4800AS/CS/01S/02S consist of an average current controlled, continuous-boost, Power Factor Correction (PFC) front-end and a synchronized Pulse Width Modulator (PWM) back-end. The PWM can be used in current or voltage mode. In voltage mode, feedforward from the PFC output bus can help improve the line regulation of PWM ...

Page 14

... TriFault Detect™ To improve power supply reliability, reduce system component count, and simplify compliance to UL1950 safety standards; the FAN4800AS/CS/01S/02S includes TriFault Detect™ technology. This feature monitors FBPFC for certain PFC fault conditions feedback path failure, the output of the PFC could exceed safe operating limits ...

Page 15

... © 2010 Fairchild Semiconductor Corporation FAN4800AS/CS/01S/02S • Rev. 1.0.1 Pulse Width Modulator (PWM) The operation of the PWM section is straightforward, but there are several points that should be noted. Foremost among these is the inherent synchronization of PWM with the PFC section of the device, from which it also derives its basic timing ...

Page 16

... In voltage mode, feedforward from the PFC output bus is an excellent way to derive the timing ramp for the PWM stage. Generating V DD After turning on the FAN4800AS/CS/01S/02S at 11V, the operating voltage can vary from 9.3V to 28V. The threshold voltage of the V OVP comparator is 28V DD and its hysteresis is 1V ...

Page 17

... Package specifications do not expand the terms of Fairchild’s worldwide terms and conditions, specifically the warranty therein, which covers Fairchild products. Always visit Fairchild Semiconductor’s online packaging area for the most recent package drawings: http://www.fairchildsemi.com/packaging/. © 2010 Fairchild Semiconductor Corporation FAN4800AS/CS/01S/02S • Rev. 1.0.1 A 19.68 18. ...

Page 18

Page 19

... Fairchild Semiconductor Corporation FAN4800AS/CS/01S/02S • Rev. 1.0.1 19 www.fairchildsemi.com ...

Related keywords

FAN4800AS datasheet
FAN4800AS data sheet
FAN4800AS pdf datasheet
FAN4800AS component
FAN4800AS part
FAN4800AS distributor
FAN4800AS RoHS
FAN4800AS datasheet download