EVL6566B-65W-QR STMicroelectronics, EVL6566B-65W-QR Datasheet - Page 22

EVL6566B-65W-QR

Manufacturer Part Number

EVL6566B-65W-QR

Description

BOARD EVAL SMPS FOR L6566B

Manufacturer

STMicroelectronics

Type

Power Factor Correctionr

Datasheets

1.L6566BTR.pdf (51 pages)

2.EVL6566B-65W-QR.pdf (34 pages)

Specifications of EVL6566B-65W-QR

Main Purpose

AC/DC, Primary Side

Outputs And Type

1, Isolated

Power - Output

65W

Voltage - Output

700V

Voltage - Input

8 ~ 23 V

Regulator Topology

Flyback

Frequency - Switching

100kHz

Board Type

Fully Populated

Utilized Ic / Part

L6566B

Input Voltage

90 V to 265 V

Output Voltage

1.8 V to 12 V

Board Size

150 mm x 75 mm

Product

Power Management Modules

Dimensions

150 mm x 75 mm

Lead Free Status / RoHS Status

Lead free by exemption / RoHS compliant by exemption

Current - Output

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

For Use With/related Products

L6566B

Other names

497-10165

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Application information

Note:

22/51

Figure 9.

osc

When the system operates in valley skipping-mode, uneven switching cycles may be

observed under some line/load conditions, due to the fact that the OFF-time of the MOSFET

is allowed to change with discrete steps of one ringing cycle, while the OFF-time needed for

cycle-by-cycle energy balance may fall in between. Thus one or more longer switching

cycles will be compensated by one or more shorter cycles and vice versa. However, this

mechanism is absolutely normal and there is no appreciable effect on the performance of

the converter or on its output voltage.

If the MOSFET is enabled to turn on but the amplitude of the signal on the ZCD pin is

smaller than the arming threshold for some reason (e.g. a heavy damping of drain

oscillations, like in some single-stage PFC topologies, or when a turn-off snubber is used),

MOSFET’s turn-on cannot be triggered. This case is identical to what happens at start-up:

at the end of the next oscillator cycle the MOSFET will be turned on, and a new switching

cycle will take place after skipping no more than one oscillator cycle.

The operation described so far does not consider the blanking time T

turn off, and actually T

met:

Equation 3

where D is the MOSFET duty cycle. If this condition is not met, things do not change

substantially: the time during which MOSFET’s turn-on is inhibited is extended beyond T

by a fraction of T

lower than the programmed value f

earlier than expected. However this is quite unusual: setting f

phenomenon can be observed at duty cycles higher than 60 %. See

block on page 35

If the voltage on the COMP pin (9) saturates high, which reveals an open control loop, an

internal pull-up keeps the ZCD pin close to 2 V during MOSFET's OFF-time to prevent noise

from false triggering the detection block. When this pull-up is active, the ZCD pin might not

be able to go below the triggering threshold, which would stop the converter. To allow auto-

restart operation, however ensuring minimum operating frequency in these conditions, the

oscillator frequency that retriggers MOSFET's turn-on is that of the external oscillator

divided by 128. Additionally, to prevent malfunction at converter's start-up, the pull-up is

disabled during the initial soft-start (see the relevant section). However, to ensure a correct

Drain ringing cycle skipping as the load is gradually reduced

(limit condition)

= P

in'

BLANK

for further implications of T

BLANK

. As a consequence, the maximum switching frequency will be a little

does not come into play as long as the following condition is

osc

= P

and valley-skipping mode may take place slightly

in''

< P

≤

in'

−

BLANK

osc

= 150 kHz, the

osc

BLANK

Section 5.11: OVP

= P

in'''

after MOSFET’s

< P

in''

L6566B

osc

EVL6566B-65W-QR STMicroelectronics, EVL6566B-65W-QR Datasheet - Page 22

EVL6566B-65W-QR

Specifications of EVL6566B-65W-QR

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