TEA1501 Philips Semiconductors, TEA1501 Datasheet - Page 7

TEA1501

Manufacturer Part Number

TEA1501

Description

Greeny; GreenChip

Manufacturer

Philips Semiconductors

Datasheet

1.TEA1501.pdf (20 pages)

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Philips Semiconductors

CIRCUIT BLOCK DESCRIPTION

On/Off/Data section

The On/Off/Data block contains a comparator for the on/off

level and is active if the drain voltage is above 50 V (DC).

The typical current consumption in Off mode is 40 A. The

data signal changes the clamp level on the OOD pin to

indicate data transfer: low clamp level for data-off and high

clamp level for data-on.

Vaux management

The Vaux management block is active when Greeny is in

the On mode. This Vaux management block senses the

Vaux voltage and determines the state of Greeny: startup

or normal operation. During startup the following circuits

are active: On/Off/Data section, Reference block (partial),

Vaux management, Temperature protection and the

Startup current source.

1998 Aug 19

handbook, halfpage

Greeny; GreenChip

I Vaux

I start

Fig.5 I

startup

Vaux

UVLO

12 V

versus V

V start

16 V

operation

Vaux

V Vaux(max) V Vaux

20 V

MGM824

Startup current source

The startup sequence is carried out using an accurate

startup current source. The startup current flows from the

Drn pin to the Vaux pin via the startup current source and

charges the Vaux capacitor. When Vaux reaches the

startup threshold the startup current is switched off and the

flyback converter starts operating and the output voltage

rises. The Vaux capacitor must be capable of supplying

the entire supply current (I

voltage is in regulation. From that moment the Vaux

capacitor is charged by the flyback converter via the

auxiliary winding.

Reference block

The reference block contains a bandgap circuit which

determines all the accurate and temperature independent

reference voltages and currents. It defines the voltage

detection level for the primary current comparator and it

defines the voltage at the Ref pin. The value of the

reference resistor determines the burst frequency, the

switching frequency and the leading edge blanking time.

Temperature protection

The temperature protection circuit senses the chip

temperature using a proportional to absolute temperature

voltage (V

temperature exceeds 140 C the power switch and the

startup current source are disabled. When the chip cools

down below 100 C, the startup circuit is enabled again.

Switch oscillator

The switch oscillator determines the switching frequency

and the maximum on-time of the power switch. The

maximum on-time is set at 66% of the switching period.

The switching frequency is determined by the reference

resistor at the Ref pin and an internal capacitor. The

switching frequency can be adjusted in a range from

20 to 50 kHz, thus above the audible spectrum.

ptat

) generated in the reference block. If the chip

Vaux(LOW)

Preliminary speciﬁcation

) until the output

TEA1501

TEA1501 Philips Semiconductors, TEA1501 Datasheet - Page 7

TEA1501

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