TDA8356 NXP Semiconductors, TDA8356 Datasheet - Page 4

TDA8356

Manufacturer Part Number

TDA8356

Description

Manufacturer

NXP Semiconductors

Datasheet

1.TDA8356.pdf (12 pages)

Specifications of TDA8356

Lead Free Status / Rohs Status

Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

TDA8356

Manufacturer:

MITSUMI

Quantity:

288

Current page: 4 of 12
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Philips Semiconductors

PINNING

1999 Sep 27

GND

drive(pos)

drive(neg)

O(B)

O(A)

O(guard)

I(fb)

DC-coupled vertical deﬂection circuit

Metal block connected to substrate pin 5.

Metal on back.

SYMBOL

handbook, 2 columns

I drive(neg)

I drive(pos)

V O(guard)

V O(B)

V O(A)

V I(fb)

GND

V FB

Fig.2 Pin configuration.

V P

input power-stage (positive);

includes I

input power-stage (negative);

includes I

operating supply voltage

output voltage B

ground

input ﬂyback supply voltage

output voltage A

guard output voltage

input feedback voltage

TDA8356

MGC092

DESCRIPTION

I(sb)

signal bias

FUNCTIONAL DESCRIPTION

The vertical driver circuit is a bridge configuration. The

deflection coil is connected between the output amplifiers,

which are driven in opposite phase. An external resistor

internal feedback information. The differential input circuit

is voltage driven. The input circuit has been adapted to

enable it to be used with the TDA9150, TDA9151B,

TDA9160A, TDA9162, TDA8366 and TDA8376 which

deliver symmetrical current signals. An external resistor

determines the output current through the deflection coil.

The relationship between the differential input current and

the output current is defined by: I

The output current is adjustable from 0.5 A (p-p) to

2 A (p-p) by varying R

voltage is 1.8 V. In the application it is recommended that

spread of input current and the spread in the value of

The flyback voltage is determined by an additional supply

voltage V

voltages (class G) makes it possible to fix the supply

voltage V

supply voltage V

this method, very high efficiency is achieved.

The supply voltage V

flyback voltage across the coil, this being possible due to

the absence of a decoupling capacitor (not necessary,

due to the bridge configuration). Built-in protections are:

A guard circuit V

activated at the following conditions:

This signal can be used for blanking the picture tube

screen.

diff

CON

Thermal protection

Short-circuit protection of the output pins (pins 4 and 7)

Short-circuit protection of the output pins to V

During flyback

During short-circuit of the coil and during short-circuit of

the output pins (pins 4 and 7) to V

During open loop

When the thermal protection is activated.

CON

) connected in series with the deflection coil provides

= 1.5 V (typ). This is recommended because of the

) connected between the differential input

optimum for the scan voltage and the second

. The principle of operating with two supply

O(guard)

optimum for the flyback voltage. Using

. The maximum input differential

is almost totally available as

is provided. The guard circuit is

diff

Product speciﬁcation

or ground

CON

TDA8356

= I

coil

TDA8356 NXP Semiconductors, TDA8356 Datasheet - Page 4

TDA8356

Specifications of TDA8356

Available stocks

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