EVAL6599-200W STMicroelectronics, EVAL6599-200W Datasheet - Page 29

EVAL6599-200W

Manufacturer Part Number

EVAL6599-200W

Description

EVAL BOARD FOR L6599

Manufacturer

STMicroelectronics

Type

Power Factor Correctionr

Datasheets

1.L6599DTR.pdf (36 pages)

2.EVAL6599-200W.pdf (35 pages)

Specifications of EVAL6599-200W

Main Purpose

AC/DC, Primary Side and PFC

Outputs And Type

4, Isolated

Power - Output

200W

Voltage - Output

24V, 12V, 5V, 3.3V

Current - Output

6A, 5A, 1A, 700mA

Voltage - Input

90 ~ 264VAC

Regulator Topology

Resonant

Frequency - Switching

95kHz

Board Type

Fully Populated

Utilized Ic / Part

L6563, L6599

Input Voltage

90 V to 264 V

Output Voltage

3.3 V to 24 V

Dimensions

132 mm x 265 mm

Product

Power Management Modules

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

L6599

Other names

497-5496

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L6599

7.7

voltage on the pin exceeds 7 V the device is shutdown. If its supply voltage is always above

the UVLO threshold, the IC will restart as the voltage falls below 7 V.

The LINE pin, while the device is operating, is a high impedance input connected to high

value resistors, thus it is prone to pick up noise, which might alter the OFF threshold or give

origin to undesired switch-off of the IC during ESD tests. It is possible to bypass the pin to

ground with a small film capacitor (e.g. 1-10 nF) to prevent any malfunctioning of this kind. If

the function is not used the pin has to be connected to a voltage greater than 1.25 V but

lower than 6V (worst-case value of the 7 V threshold).

Bootstrap section

The supply of the floating high-side section is obtained by means of a bootstrap circuitry.

This solution normally requires a high voltage fast recovery diode to charge the bootstrap

capacitor C

It is realized by means of a high voltage DMOS, working in the third quadrant and driven

synchronously with the low side driver (LVG), with a diode in series to the source, as shown

Figure 34. Bootstrap supply: internal bootstrap synchronous diode

The diode prevents any current can flow from the VBOOT pin back to V

supply is quickly turned off when the internal capacitor of the pump is not fully discharged.

To drive the synchronous DMOS it is necessary a voltage higher than the supply voltage

The bootstrap structure introduces a voltage drop while recharging C

side driver is on), which increases with the operating frequency and with the size of the

external power MOSFET. It is the sum of the drop across the R

across the series diode. At low frequency this drop is very small and can be neglected but,

as the operating frequency increases, it must be taken into account. In fact, the drop

reduces the amplitude of the driving signal and can significantly increase the R

external high-side MOSFET and then its conductive loss.

Figure 34.

. This voltage is obtained by means of an internal charge pump

BOOT

Vcc

. In the L6599 a patented integrated structure, replaces this external diode.

LVG

L6599

OUT

VBOOT

DS(on)

Application information

(Figure

BOOT

and the forward drop

BOOT

(i.e. when the low

in case that the

34).

DS(on)

of the

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EVAL6599-200W STMicroelectronics, EVAL6599-200W Datasheet - Page 29

EVAL6599-200W

Specifications of EVAL6599-200W

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