ICE3AR10080CJZ Datasheet, PDF(19/33 Page) Infineon Technologies AG – Off-Line SMPS Current Mode Controller with integrated 800V CoolMOS® and Startup cell (brownout & CCM) in DIP-7

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ICE3AR10080CJZ Datasheet, PDF (19/33 Pages) Infineon Technologies AG – Off-Line SMPS Current Mode Controller with integrated 800V CoolMOS® and Startup cell (brownout & CCM) in DIP-7

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CoolSETÂ®-F3R80

ICE3AR10080CJZ

Functional Description

input AC voltage to the BRL pin by an AC hold up circuit

and 2 potential divider resistors.

In some applications, it needs the IC to continue to

work for certain time when AC voltage is disconnected.

After that, the IC will stop working. If the brownout

connection is taping from the bulk capacitor, the delay

time is too short. Therefore, it needs the brown out

detetction at the AC input (Figure 30). The CBR0 is

charged up by AC line voltage through RBO0, which is

then fed to BRL pin through a voltage divider. When the

AC voltage drops, if the BRL pin voltage is lower than

1V for 270ms, the ICE3ARxx80CJZ will go into

brownout mode. If, however, the AC line goes up again,

the BRL voltage will be larger than 1.25V and the

ICE3ARxx80CJZ will leave brown out mode and

recover to normal operation.

The brownout mode is default âONâ during the system

starts up. When the system is powered up, the bulk

capacitor and the Vcc capacitor are charged up at the

same time. When the Vcc voltage is charged to >8V,

the brownout circuit starts to operate (Figure 30). Since

the UVLO is still at low level as the Vcc voltage does

not reach the 17V UVLO âONâ voltage. The NAND gate

G20 will release a low signal to the flip flop FF2 and the

negative output of FF2 will release a high signal. Hence

it is in brownout mode during the system starts up.

Vac

CBR0

RBO0

RBO1

1.25V

C1a

Brownout

mode

VVCC

17V

Brownout

detected

Startup and detect BBL voltage

10.5V

VCS

Figure 31 Brownout mode waveform

If the brownout feature is not needed, it needs to tie the

BRL pin to the Vcc pin through a current limiting

resistor, 5MW~10MW. The BRL pin cannot be in

floating condition.

3.7.4

Fast AC reset

During normal operation, the ICE3ARxx80CJZ can be

latched by pulling down the BRL voltage below 0.4V for

210ms. There are 2 condtions to reset the latch feature.

The first one is to pull down the Vcc voltage to below

8V. However, the Vcc drop would take quite a long time

if it is by normal AC power down. The second one is to

have a slow rise time of the BRL voltage from 0.4V to

1V for at least 450ms after the BRL pin is pulled down.

This timing can be achieved by the AC recycle. And it

is also called the fast AC reset (Figure 32).

BRL

RBO2

C1b

G21

Blanking Time

270Âµs

G20

UVLO

FF2

Control Unit

Figure 30 Brownout detection circuit

Once the system enters the brownout mode, there will

be no switching pulse and the IC enters into another

type auto-restart mode which is similar to the protection

auto-restart mode but the IC will monitor the BRL signal

in each restart cycle (Figure 31).

Vac

CBR0

RBO0

RBO1

TLE BRL

Latch

RBO2

Enable

Signal

0.4V

Blanking time

210us

Latch

Mode

0.4V

Blanking

C2a

time 450Âµs

C2b

Vcc

C11

Latch

Reset

Control Unit

Figure 32 Latch and fast AC reset

Figure 33 shows different latch and reset cases.

Case a : not latched (solid line); the timing below 0.4V

is 150ms and is less than 210ms.

Version 2.0

11 Jan 2012

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