TDA1675A STMicroelectronics, TDA1675A Datasheet - Page 9

TDA1675A

Manufacturer Part Number

TDA1675A

Description

Video ICs Vertical Deflection

Manufacturer

STMicroelectronics

Type

Vertical Deflection Circuitr

Datasheet

1.TDA1675A.pdf (11 pages)

Specifications of TDA1675A

Maximum Operating Temperature

+ 150 C

Package / Case

MULTIWATT V

Minimum Operating Temperature

- 40 C

Mounting Style

Through Hole

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Current page: 9 of 11
Download datasheet (191Kb)

The required value of the capacitance is obtained

by means of the series of two capacitors Ca and

Cb, which allow the linearity control by applying a

feedback between the output of the buffer and the

tapping from C

Pin 7

Pin 9

Pin 10 is the output of the buffer stage and it is

Power amplifier

This amplifier is a voltage-to-current power

converter, the transconductance of which is

externally defined by means of a negative current

feedback.

The output stage of the power amplifier is supplied

by the main supply during the trace period, and by

the flyback generator circuit during the most of the

duration of the flyback time. The internal clock turns

off the lower power output stage to start the flyback.

The power output stage is thermally protected by

sensing the junction temperature and then by

putting off the current sources of the power stage.

Pin 12 is the inverting input of the amplifier.

Pin 11 is the non-inverting input. At this pin the

Pin 1

The resistance between pin 7 and ground

defines the current mirror current and

than the height of the scanning.

is the output of the current mirror that

charges the series of C

pin is also the input of the buffer stage.

internally coupled to the inverting input

of the power amplifier through R1.

An external network, R

the DClevel across C

rect centering of the output voltage. The

series network R

with R

input I

available across C

voltage, taken across R

components R

linearity correction on the output scan-

ning currentIy and their values must be

optimized for each type of CRT.

non-inverting input reference voltage

supplied by the voltage regulator can be

measured. A capacitor must be con-

nected to increase the performances

from the noise point of view.

is the output of the power amplifier and it

drives the yoke by a negative slope cur-

and C

and R

a small part of the parabola,

, applies at the feedback

, R

and C

, and AC feedback

and R

so allowing a cor-

. The external

and R

and C

, in conjunction

, produce the

, defines

. This

Pin 2

Flyback generator

This circuit supplies both the power amplifier output

stage and the yoke during the most of the duration

of the flyback time (retrace).

The internal clock opens the loop of the amplifier

and lets pin 1 floating so allowing the rising of the

flyback. Crossing the main supply voltage at pin 14,

the flyback pulse front end drives the flyback

generator in such a way allowing its output to reach

and overcome the main supply voltage, starting

from a low condition forced during the trace period.

An integrated diode stops the rising of this output

increase and the voltage jump is transferred by

means of capacitor C

the power stage (pin 2).

When the current across the yoke changes its

direction, the output of the flyback generator falls

down to the main supply voltage and it is stopped

by means of the saturated output darlington at a

high level. At this time the flyback generator starts

to supply the power output amplifier output stage

by a diode inside the device. The flyback generator

supplies the yoke too.

Later, the increasing flyback current reaches the

peak value and then the flyback time is completed:

the trace period restarts. The output of the power

amplifier (pin 1) falls under the main supply voltage

and the output of the flyback generator is driven for

a low state so allowing the flyback capacitor Cf to

restore the energy lost during the retrace.

Pin 15 is the output of the flyback generator that,

Blanking generator and CRT protection

This circuit is a pulse shaper and its output goes

high during the blanking period or for CRT

protection. The input is internally driven by the clock

pulse that defines the width of the blanking time

rent ramply. R

are used to stabilize the power amplifier.

The supply of the power output stage is

forced at this pin. During the trace time

the supply voltage is obtained from the

main supply voltage V

while during the retrace time this pin is

supplied from the flyback generator.

when driven, jumps from low to high

condition. An external capacitor C

fers the jump to pin 2 (see pin 2).

at the supply voltage pin of

and the Boucherot cell

by a diode,

TDA1675A

trans-

9/11

TDA1675A STMicroelectronics, TDA1675A Datasheet - Page 9

TDA1675A

Specifications of TDA1675A

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