EVL6564-100W STMicroelectronics, EVL6564-100W Datasheet - Page 20

EVL6564-100W

Manufacturer Part Number

EVL6564-100W

Description

BOARD EVAL PFC FOR L6564D

Manufacturer

STMicroelectronics

Type

Power Factor Correctionr

Datasheets

1.L6564DTR.pdf (33 pages)

2.EVL6564-100W.pdf (33 pages)

Specifications of EVL6564-100W

Main Purpose

AC/DC, Primary Side

Outputs And Type

1, Non-Isolated

Power - Output

100W

Voltage - Output

400V

Voltage - Input

90 ~ 265VAC

Regulator Topology

Boost

Frequency - Switching

40kHz

Board Type

Fully Populated

Utilized Ic / Part

L6564

Input Voltage

90 V to 265 V

Output Voltage

400 V

Dimensions

90 mm x 83 mm

Product

Power Management Modules

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

L6564

Other names

497-10164

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

EVL6564-100W

Manufacturer:

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Application information

Figure 28. Voltage feedforward: squarer-divider (1/V

20/33

In this way a change of the line voltage will cause an inversely proportional change of the

half sine amplitude at the output of the multiplier (if the line voltage doubles the amplitude of

the multiplier output will be halved and vice versa) so that the current reference is adapted to

the new operating conditions with (ideally) no need for invoking the slow dynamics of the

error amplifier. Additionally, the loop gain will be constant throughout the input voltage

range, which improves significantly dynamic behavior at low line and simplifies loop design.

Actually, deriving a voltage proportional to the RMS line voltage implies a form of integration,

which has its own time constant. If it is too small the voltage generated will be affected by a

considerable amount of ripple at twice the mains frequency that will cause distortion of the

current reference (resulting in high THD and poor PF); if it is too large there will be a

considerable delay in setting the right amount of feedforward, resulting in excessive

overshoot and undershoot of the pre-regulator's output voltage in response to large line

voltage changes. Clearly a trade-off was required.

The L6564 realizes a NEW voltage feed forward that, with a technique that makes use of

just two external parts, strongly minimizes this time constant trade-off issue whichever

voltage change occurs on the mains, both surges and drops. A capacitor C

RFF, both connected from the pin VFF (#5) to ground, complete an internal peak-holding

circuit that provides a DC voltage equal to the peak of the rectified sine wave applied on pin

MULT (#3). In this way, in case of sudden line voltage rise, C

through the low impedance of the internal diode; in case of line voltage drop, an internal

“mains drop” detector enables a low impedance switch which suddenly discharges C

avoiding long settling time before reaching the new voltage level. The discharge of C

stopped as its voltage equals the voltage on pin MULT or if the voltage on pin RUN (in case

it is connected to VFF) falls below 0.88 V, to prevent the “Brownout protection” function from

being improperly activated (see “Power management/housekeeping functions” section).

As a result of the VFF pin functionality, an acceptably low steady-state ripple and low current

distortion can be achieved with a limited undershoot or overshoot on the pre-regulator's

output.

Doc ID 16202 Rev 2

) block diagram and transfer characteristic

will be rapidly charged

and a resistor

L6564

EVL6564-100W STMicroelectronics, EVL6564-100W Datasheet - Page 20

EVL6564-100W

Specifications of EVL6564-100W

Available stocks

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