January 1995

Philips Semiconductors

Preliminary specification

DC-coupled vertical deflection and
East-West output circuit

TDA8350Q

FEATURES

Few external components

Highly efficient fully DC-coupled vertical output bridge
circuit

Vertical flyback switch

Guard circuit

Protection against:

short-circuit of the output pins

short-circuit of the output pins to V

High EMC immunity due to common mode inputs

Temperature (thermal) protection

East-West output stage with one single conversion
resistor.

GENERAL DESCRIPTION

The TDA8350Q is a power circuit for use in 90

and 110

colour deflection systems for field frequencies of 50
to 120 Hz. The circuit provides a DC driven vertical
deflection output circuit, operating as a highly efficient
class G system and an East-West driver for sinking the
diode modulator current.

QUICK REFERENCE DATA

Note

1. A flyback supply voltage of

50 V up to 60 V is allowed in application. A 220 nF capacitor in series with a 22

resistor

(dependent on I

and the inductance of the coil) has to be connected between pin 7 and ground. The decoupling

capacitor of V

has to be connected between pin 8 and pin 4. This supply voltage line must have a resistance of

(see application circuit Fig.5).

SYMBOL

PARAMETER

CONDITIONS

MIN.

TYP.

MAX.

UNIT

DC supply

supply voltage

quiescent current

Vertical circuit

O(p-p)

output current (peak-to-peak value)

diff(p-p)

differential input current
(peak-to-peak value)

600

diff(p-p)

differential input voltage
(peak-to-peak value)

1.5

1.8

Flyback switch

peak output current

1.5

flyback supply voltage

note 1

East-West amplifier

O(sink)

output current (sink only)

500

O(sink)

peak output voltage

O(sink)

= 10

bias

input bias current

Thermal data (in accordance with IEC 747-1)

stg

storage temperature

150

amb

operating ambient temperature

+75

virtual junction temperature

150

January 1995

Philips Semiconductors

Preliminary specification

DC-coupled vertical deflection and
East-West output circuit

TDA8350Q

PINNING

SYMBOL

PIN

DESCRIPTION

drive(pos)

input power-stage (positive);
includes I

I(sb)

signal bias

drive(neg)

input power-stage (negative);
includes I

I(sb)

signal bias

I(fb)

feedback voltage input

supply voltage

O(B)

output voltage B

n.c.

not connected

GND

ground

flyback supply voltage

O(A)

output voltage A

O(guard)

guard output voltage

O(sink)

East-West amplifier driver (sink)
output voltage

I(corr)

East-West amplifier input
correction current (negative)

I(set)

East-West amplifier set input
current (positive)

Fig.2 Pin configuration.

dbook, halfpage

TDA8350

I drive(pos)

VI(fb)

V O(B)

n.c.

GND

V FB

VO(A)

VO(guard)

VO(sink)

I I(corr)

I I(set)

I drive(neg)

MBC226-1

FUNCTIONAL DESCRIPTION

The vertical driver circuit is a bridge configuration. The
deflection coil is connected between the output amplifiers,
which are driven in phase opposition. An external resistor
(R

) connected in series with the deflection coil provides

internal feed back 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 TDA8367 which
deliver symmetrical current signals. An external resistor
(R

CON

) connected between the differential input

determines the output current through the deflection coil.
The relationship between the differential input current and
the output current is defined by: I

diff

CON

= I

(coil)

The output current is adjustable from 0.5 A (p-p) to 3 A
(p-p) by varying R

. The maximum input differential

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

diff

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

spread of input current and the spread in the value of
R

CON

The flyback voltage is determined by an additional supply
voltage V

. The principle of operating with two supply

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

optimum for the scan voltage and the second

supply voltage V

optimum for the flyback voltage. Using

this method, very high efficiency is achieved.

The supply voltage V

is almost totally available as

flyback voltage across the coil, this being possible due to
the absence of a decoupling capacitor (not necessary, due
to the bridge configuration). The output circuit is fully
protected against the following:

thermal protection

short-circuit protection of the output pins (pins 5 and 9)

short-circuit of the output pins to V

A guard circuit V

O(guard)

is provided. The guard circuit is

activated at the following conditions:

during flyback

during various short-circuit possibilities at the output
pins

during open loop

when the thermal protection is activated.

This signal can be used for blanking the picture tube
screen.

An East-West amplifier is also provided. This amplifier is
an inverting amplifier which is current driven with sink
current only capabilities.

January 1995

Philips Semiconductors

Preliminary specification

DC-coupled vertical deflection and
East-West output circuit

TDA8350Q

LIMITING VALUES
In accordance with the Absolute Maximum Rating System (IEC 134).

Notes

1. A flyback supply voltage of

50 V up to 60 V is allowed in application. A 220 nF capacitor in series with a 22

resistor

(dependent on I

and the inductance of the coil) has to be connected between pin 7 and ground. The decoupling

capacitor of V

has to be connected between pin 8 and pin 4. This supply voltage line must have a resistance of

(see application circuit Fig.5).

2. I

maximum determined by current protection.

3. The operating area is limited by a straight line between the points V

O(sink)

= 40 V; I

O(sink)

= 10

A and V

O(sink)

= 2 V;

O(sink)

= 500 mA.

4. Up to V

= 18 V.

SYMBOL

PARAMETER

CONDITIONS

MIN.

MAX.

UNIT

DC supply

supply voltage

non-operating

flyback supply voltage

note 1

Vertical circuit

output current (peak-to-peak value)

note 2

O(A)

output voltage (pin 9)

note 1

Flyback switch

peak output current

1.5

East-West amplifier

O(sink)

output voltage

O(sink)

= 10

A; note 3

O(sink)

output current

O(sink)

= 2 V; note 3

500

Thermal data (in accordance with IEC 747-1)

stg

storage temperature

150

amb

operating ambient temperature

+75

virtual junction temperature

150

th vj-c

resistance v

-case

K/W

th vj-a

resistance v

-ambient in free air

K/W

short-circuiting time

note 4

January 1995

Philips Semiconductors

Preliminary specification

DC-coupled vertical deflection and
East-West output circuit

TDA8350Q

CHARACTERISTICS
V

= 17.5 V; V

= 45 V; V

O(sink)

= 20 V; f

= 50 Hz; I

I(sb)

= 400

A; T

amb

= 25

C; measured in test circuit of Fig.3; unless

otherwise specified.

SYMBOL

PARAMETER

CONDITIONS

MIN.

TYP.

MAX.

UNIT

DC supply

operating supply voltage

flyback supply voltage

note 1

supply current

no signal; no load

Vertical circuit

output voltage swing (scan)

diff

= 0.6 mA (p-p);

diff

= 1.8 V (p-p);

= 3 A (p-p)

19.8

linearity error

= 3 A (p-p);

= 50 mA (p-p); note 2

output voltage swing (flyback)
V

O(A)

- V

O(B)

diff

= 0.3 mA;

= 1.5 A (M)

forward voltage of the internal
efficiency diode (V

O(A)

- V

)

1.5 A (M);

diff

= 0.3 mA

1.5

output offset current

diff

= 0;

I(sb)

= 50 to 500

offset voltage at the input of the
feedback amplifier V

I(fb)

- V

O(B)

diff

= 0;

I(sb)

= 50 to 500

output offset voltage as a function
of temperature

diff

= 0;

V/K

O(A)

DC output voltage

diff

= 0; note 3

open loop voltage gain (V

9-5

1-2

)

notes 4 and 5

open loop voltage gain (V

9-5

3-5

;

1-2

= 0)

note 4

voltage ratio V

1-2

3-5

res

frequency response (

3 dB)

note 6

current gain (I

diff

)

5000

current gain drift as a function of
temperature

I(sb)

signal bias current

400

500

flyback supply current

during scan

100

PSRR

power supply ripple rejection

note 7

I(DC)

DC voltage at the input

2.7

I(CM)

common mode input voltage

I(sb)

= 0

1.6

bias

input bias current

I(sb)

= 0

0.1

0.5

O(CM)

common mode output current

I(sb)

= 300

A (p-p);

= 50 Hz; I

diff

= 0

0.2

January 1995

Philips Semiconductors

Preliminary specification

DC-coupled vertical deflection and
East-West output circuit

TDA8350Q

Notes

1. A flyback supply voltage of

50 V up to 60 V is allowed in application. A 220 nF capacitor in series with a 22

resistor

(dependent on I

and the inductance of the coil) has to be connected between pin 7 and ground. The decoupling

capacitor of V

has to be connected between pin 8 and pin 4. This supply voltage line must have a resistance of

(see application circuit Fig.5).

2. The linearity error is measured without S-correction and based on the same measurement principle as performed on

the screen. The measuring method is as follows:
Divide the output signal I

- I

) into 22 equal parts ranging from 1 to 22 inclusive. Measure the value of two

succeeding parts called one block starting with part 2 and 3 (block 1) and ending with part 20 and 21 (block 10). Thus
part 1 and 22 are unused. The equations for linearity error for adjacent blocks (LEAB) and not adjacent blocks (NAB)
are given below;

;

3. Referenced to V

4. V values within formulae, relate to voltages at or between relative pin numbers, i.e. V

9-5

1-2

= voltage value across

pins 9 and 5 divided by voltage value across pins 1 and 2.

5. V

3-5

AC short-circuited.

6. Frequency response V

9-5

3-5

is equal to frequency response V

9-5

1-2

7. At V

(ripple)

= 500 mV eff; measured across R

; f

= 50 Hz.

8. The output pin 11 requires a capacitor of minimum value 68 nF.

East-West amplifier

O(sink)

saturation voltage

O(sink)

= 500 mA;

I(corr)

= 0

A; note 8

2.0

2.5

open loop voltage gain (V

)

res

frequency response (

3 dB)

4000

linearity error

O(sink)

= 3 V

O(sink)

= 10 V; note 2

0.5

bias

input bias current (pin 12)

I(DC)

DC input voltage

set

offset voltage set current

13-7

maximum allowed voltage at
pin 13

0.3

Guard circuit

output current

not active;
V

O(guard)

= 0 V

output current

active; V

O(guard)

= 4.5 V

2.5

O(guard)

output voltage

= 100

5.5

allowable voltage on pin 10

maximum leakage
current = 10

SYMBOL

PARAMETER

CONDITIONS

MIN.

TYP.

MAX.

UNIT

LEAB

(

)

avg

------------------------------

NAB

max

min

avg

------------------------------

January 1995

Philips Semiconductors

Preliminary specification

DC-coupled vertical deflection and
East-West output circuit

TDA8350Q

SOLDERING

Plastic DIL-bent-SIL packages

Y DIP OR WAVE

The maximum permissible temperature of the solder is
260

C; this temperature must not be in contact with the

joint for more than 5 s. The total contact time of successive
solder waves must not exceed 5 s.

The device may be mounted up to the seating plane, but
the temperature of the plastic body must not exceed the

specified storage maximum. If the printed-circuit board has
been pre-heated, forced cooling may be necessary
immediately after soldering to keep the temperature within
the permissible limit.

EPAIRING SOLDERED JOINTS

Apply the soldering iron below the seating plane (or not
more than 2 mm above it). If its temperature is below
300

C, it must not be in contact for more than 10 s; if

between 300 and 400

C, for not more than 5 s.

DEFINITIONS

LIFE SUPPORT APPLICATIONS

These products are not designed for use in life support appliances, devices, or systems where malfunction of these
products can reasonably be expected to result in personal injury. Philips customers using or selling these products for
use in such applications do so at their own risk and agree to fully indemnify Philips for any damages resulting from such
improper use or sale.

Data sheet status

Objective specification

This data sheet contains target or goal specifications for product development.

Preliminary specification

This data sheet contains preliminary data; supplementary data may be published later.

Product specification

This data sheet contains final product specifications.

Limiting values

Limiting values given are in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one or
more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation
of the device at these or at any other conditions above those given in the Characteristics sections of the specification
is not implied. Exposure to limiting values for extended periods may affect device reliability.

Application information

Where application information is given, it is advisory and does not form part of the specification.

Philips Semiconductors

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SCD36

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Printed in The Netherlands

533061/1500/02/pp16

Date of release: January 1995

Document order number:

9397 744 70011

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