EVL6566B-65W STMicroelectronics, EVL6566B-65W Datasheet - Page 21

EVL6566B-65W

Manufacturer Part Number

EVL6566B-65W

Description

BOARD EVAL FOR L6566B

Manufacturer

STMicroelectronics

Datasheets

1.L6566BTR.pdf (51 pages)

2.EVL6566B-65W.pdf (11 pages)

Specifications of EVL6566B-65W

Main Purpose

AC/DC, Primary Side

Outputs And Type

1, Isolated

Power - Output

65W

Voltage - Output

12V

Current - Output

5.4A

Voltage - Input

90 ~ 265VAC

Regulator Topology

Flyback

Frequency - Switching

80kHz

Board Type

Fully Populated

Utilized Ic / Part

L6566B

Product

Power Management Modules

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

497-6452

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

EVL6566B-65W

Manufacturer:

Current page: 21 of 51
Download datasheet (625Kb)

L6566B

5.2

Zero current detection and triggering block; oscillator block

The zero current detection (ZCD) and triggering blocks switch on the external MOSFET if a

negative-going edge falling below 50 mV is applied to the input (pin 11, ZCD). To do so the

triggering block must be previously armed by a positive-going edge exceeding 100 mV.

This feature is typically used to detect transformer demagnetization for QR operation, where

the signal for the ZCD input is obtained from the transformer’s auxiliary winding used also to

supply the L6566B. The triggering block is blanked for T

turn-off to prevent any negative-going edge that follows leakage inductance

demagnetization from triggering the ZCD circuit erroneously.

The voltage at the pin is both top and bottom limited by a double clamp, as illustrated in the

internal diagram of the ZCD block of

located at 5.7 V, while the lower clamp is located at -0.4 V. The interface between the pin

and the auxiliary winding will be a resistor divider. Its resistance ratio will be properly chosen

(see

will be such that the current sourced and sunk by the pin be within the rated capability of the

internal clamps (± 3 mA).

At converter power-up, when no signal is coming from the ZCD pin, the oscillator starts up

the system. The oscillator is programmed externally by means of a resistor (R

from pin OSC (13) to ground. With good approximation the oscillation frequency f

Equation 2

(with f

at the end of the first oscillator cycle, being zero the voltage on the ZCD pin, the MOSFET

will be turned on, thus starting the first switching cycle right at the beginning of the second

oscillator cycle. At any switching cycle, the MOSFET is turned off as the voltage on the

current sense pin (CS, 7) hits an internal reference set by the line feedforward block, and the

transformer starts demagnetization. If this completes (hence a negative-going edge appears

on the ZCD pin) after a time exceeding one oscillation period T

turn-on, the MOSFET will be turned on again - with some delay to ensure minimum voltage

at turn-on – and the oscillator ramp will be reset. If, instead, the negative-going edge

appears before T

after T

drain ringing cycles will be skipped (“valley-skipping mode”,

frequency will be prevented from exceeding f

Section 5.11: OVP block on page 35

osc

in kHz and R

will turn-on the MOSFET and synchronize the oscillator. In this way one or more

osc

has elapsed, it will be ignored and only the first negative-going edge

in kΩ). As the device is turned on, the oscillator starts immediately;

Figure 8 on page 20

osc

) and the individual resistance values (R

≈

osc

⋅

BLANK

. The upper clamp is typically

Figure 9

= 2.5 µs after MOSFET’s

osc

= 1/f

Application information

) and the switching

osc

from the previous

) connected

osc

, R

will be:

21/51

)

EVL6566B-65W STMicroelectronics, EVL6566B-65W Datasheet - Page 21

EVL6566B-65W

Specifications of EVL6566B-65W

Available stocks

Related parts for EVL6566B-65W