EVL170W-FTV STMicroelectronics, EVL170W-FTV Datasheet - Page 26

EVL170W-FTV

Manufacturer Part Number

EVL170W-FTV

Description

DEMO BOARD VIPER27 L6599A L6564

Manufacturer

STMicroelectronics

Series

VIPER™r

Datasheet

1.EVL170W-FTV.pdf (47 pages)

Specifications of EVL170W-FTV

Main Purpose

Power Supply with PFC

Outputs And Type

2, Isolated

Power - Output

170W

Voltage - Output

24V, 12V, 5V

Current - Output

6A, 2A, 2A

Voltage - Input

90 ~ 264VAC

Regulator Topology

Flyback

Frequency - Switching

130kHz

Board Type

Fully Populated

Utilized Ic / Part

Viper27LN, L6564, L6599A

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

497-11254

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Figure 50. Startup by on-off signal at full load

CH1: HB voltage

CH3: V_C44

Startup

Figure 50

stages. It is possible to note the sequence of the two stages; once the on/off signal is

asserted high, voltage on C44 increases up to the Vcc turn-on thresholds of the L6564 and

L6599A. The PFC starts first and its output voltage starts increasing from the mains rectified

voltage to its nominal value. In the meantime, the L6599A is kept inactive by the LINE pin

(#7) until the PFC voltage reaches the nominal output voltage, corresponding to 1.24 V on

the LINE pin, then the resonant converter is enabled and starts switching.

details of initial operation by the half bridge. It can be noted that the initial HB pulses are

shorter than the following ones, and the resonant tank current has the correct polarity. This

is achieved by means of the circuit R29, D8, C23, and R23, connected to the L6599A CF pin

(#3). The purpose of this circuit is to provide an asymmetric operation by the half bridge

MOSFETs during the initial pulses to prevent hard switching operation that may occur

because the resonant capacitor C39 is discharged, and could damage the half bridge

MOSFETs.

output voltages are reaching the steady-state level after ~90 ms when the on/off signal has

been asserted high. The rising of the output voltages, controlled by C21 (CSS capacitor), is

monotonic, regular, and without overshoots.

Figure 53

has been asserted low, the V_C44 decreases down to the L6564 and L6599A respective

Vcc UVLO voltages and both converters stops switching correctly, without restarting

attempts.

and 115 Vac - 60 Hz

Figure 52

shows waveforms during startup at 115 Vac and full load of PFC and resonant

details the PFC and resonant converter turn-off. Note that after the on/off signal

the rising of the output voltages at startup has been captured. Note that the

CH2: PFC drain

CH4: On/off signal

Doc ID 18376 Rev 1

Figure 51. Startup by on-off signal at full load

CH1: HB voltage

CH3: LVG (pin #11)

and 115 Vac - 60 Hz - L6599A

signals

CH2: LINE (pin #7)

CH4: C39 current

Figure 53

AN3329

reports

EVL170W-FTV STMicroelectronics, EVL170W-FTV Datasheet - Page 26

EVL170W-FTV

Specifications of EVL170W-FTV

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