TDA8358J Philips Semiconductors, TDA8358J Datasheet - Page 4

TDA8358J

Manufacturer Part Number

TDA8358J

Description

Full bridge vertical deflection output circuit in LVDMOS with east-west amplifier

Manufacturer

Philips Semiconductors

Datasheet

1.TDA8358J.pdf (20 pages)

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Philips Semiconductors

PINNING

1999 Dec 22

handbook, halfpage

INA

INB

OUTB

INEW

VGND

EWGND

OUTEW

OUTA

GUARD

FEEDB

COMP

Full bridge vertical deﬂection output circuit

in LVDMOS with east-west ampliﬁer

SYMBOL

The die has been glued to the metal block of the package. If the metal

block is not insulated from the heatsink, the heatsink shall only be

connected directly to pin VGND.

EWGND

OUTEW

GUARD

FEEDB

COMP

VGND

OUTB

OUTA

INEW

V FB

Fig.2 Pin configuration.

INA

INB

V P

input A

input B

supply voltage

output B

east-west input

vertical ground

east-west ground

east-west output

ﬂyback supply voltage

output A

guard output

feedback input

compensation input

TDA8358J

MGL867

DESCRIPTION

FUNCTIONAL DESCRIPTION

Vertical output stage

The vertical driver circuit has a bridge configuration.

The deflection coil is connected between the

complimentary driven output amplifiers. The differential

input circuit is voltage driven. The input circuit is specially

designed for direct connection to driver circuits delivering

a differential signal but it is also suitable for single-ended

applications. The output currents of the driver device are

converted to voltages by the conversion resistors

and INB. The differential input voltage is compared with

the voltage across the measuring resistor R

internal feedback information. The voltage across R

proportional with the output current. The relationship

between the differential input current and the output

current is defined by:

The output current should measure 0.5 to 3.2 A (p-p) and

is determined by the value of R

input voltage range is 100 mV to 1.6 V for each input. The

formula given does not include internal bondwire

resistances. Depending on the value of R

bondwire resistance (typical value 50 m ) the actual value

of the current in the deflection coil will be about 5% lower

than calculated.

Flyback supply

The flyback voltage is determined by the flyback supply

voltage V

allows to use an optimum supply voltage V

an optimum flyback supply voltage V

very high efficiency is achieved. The available flyback

output voltage across the coil is almost equal to V

to the absence of a coupling capacitor which is not

required in a bridge configuration. The very short

rise and fall times of the flyback switch are determined

mainly by the slew-rate value of more than 300 V/ s.

Protection

The output circuit contains protection circuits for:

CV1

Too high die temperature

Overvoltage of output A.

i(dif)(p-p)

and R

CV2

. The principle of two supply voltages (class G)

(see Fig.3) connected to pins INA

= I

o(p-p)

and R

Product speciﬁcation

TDA8358J

for flyback, thus

. The allowable

and the internal

for scan and

, providing

, due

TDA8358J Philips Semiconductors, TDA8358J Datasheet - Page 4

TDA8358J

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