Техническая Спецификация для STMicroelectronics 170 W power supply with PFC and standby supply for flat TV using the L6564, L6599A, and Viper27LN EVL EVL170W-FTV
![STMicroelectronics](https://files.manualsbrain.com/attachments/85e232556493f6593142a5f6ed733c3f99c18e67/common/fit/150/50/bb1a2902b00a9908c4092dd742ba7c1184daa573d65028c54613388aeecc/brand_logo.png)
Модели
EVL170W-FTV
AN3329
Functional check
Doc ID 18376 Rev 1
17/47
In
details of Viper27LN operation at short detection is captured; once an output
short-circuit is detected, an internal current source charges the device internal circuitry and
stops the auxiliary converter operation until the V
stops the auxiliary converter operation until the V
DD
voltage drops down to V
DD_RESTART
(4.5 V). At that time the internal HV current source is activated and charges the V
DD
capacitor until it reaches the V
DDon
threshold, then the Viper27LN restarts switching via a
soft-start cycle. Hiccup cycles are repeated as long as the short-circuit condition lasts.
Viper27LN is resumed back to normal operation only when the short-circuit condition is
removed.
Viper27LN is resumed back to normal operation only when the short-circuit condition is
removed.
and
show the load regulation for the 5 V standby output. The standby supply
has been tested in the most critical situation, the transition from full load to no load and vice
versa. In fact, when a flyback converter is operating at full load, typically the self supply
voltage V
versa. In fact, when a flyback converter is operating at full load, typically the self supply
voltage V
DD
spike is quite high, due to the effect of the leakage inductance. Once the load is
decreased or removed, V
DD
tends to reduce. Since the circuit works in burst-mode during
no load operation, at high mains the burst pulses have a low repetition rate due to the almost
negligible residual load. In this condition the V
negligible residual load. In this condition the V
DD
might drop below V
DD_RESTART
(4.5 V),
causing the auto-restart cycles activation by the controller and consequent reset by the
microprocessor powered by the 5 V standby. As can be seen in
microprocessor powered by the 5 V standby. As can be seen in
and
, both
transitions are clean and there is no output voltage or Vcc dip.
Figure 27.
Standby supply dynamic load at
115 Vac - 60 Hz - PFC off
115 Vac - 60 Hz - PFC off
Figure 28.
Standby supply dynamic load at
115 Vac - 60 Hz - PFC on
115 Vac - 60 Hz - PFC on
CH2: V
DD
(pin #2)
CH3: +5 V standby
CH4: 5 V stby current
CH1: FB (pin #4)
CH3: 5 V standby
CH1: FB (pin #4)
CH2: V
DD
(pin #2)
CH4: 5 V stby current