DE2050495A1 - Ignition circuit for the feed voltage circuit of a television receiver controlled by the return pulse of the line deflection device - Google Patents

Description

ATES COMPONIiMTI ELETTRONICI SpA, Via Tempesta, 2> Milan / Italy

"'Ignition circuit for the return pulse of the line deflector controlled supply voltage circuit of a television receiver "

Priority; February 18, 1970; Italy; Registration no .: 2o 766 A / 7o.

The invention relates to an ignition circuit for the controlled flyback pulse of the supply voltage Zeilenablenkgerätes: * - ejjies circuit television receiver including a Netzspannungsgleich- Λ he Judges, a flyback inipuls controlled electronic switches as well as a downstream filter element.

In television receivers, supply voltage circuits are mostly used which are controlled by the return pulse of the line deflection device. A circuit example for such a supply voltage circuit is shown in FIG. The mains voltage V is rectified by the diode D ₀ and smoothed by the capacitor C ". Usually there is one more

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Control stage for regulating the charging current to the downstream capacitor C provided, which in the example shown consists of a Transistor Ί \, a Zener diode biased by resistor R. Z., a potentiometer P., and a resistor IU be-1 1 .·)

stands. A downstream transistor Tp is controlled via its base by the return pulse of a line deflection device FO, namely via the terminals C and D of the control winding of a high-voltage transformer T. about this transistor T _? will the

W DC voltage of the capacitor C- fed to the LC pilter composed of the primary winding of the transformer T and the capacitor Cj. The DC voltage at the capacitor C ^ is used to feed the line oscillator OR via the resistor R7 and the capacitor C _r . The high voltage for the picture tube is tapped at the THT terminal. The DC supply voltage of the rest of the circuit can be connected to the capacitor C ^. be tapped or obtained by an auxiliary winding arranged on the transformer and a diode D. and a capacitor C. Of the

fl | Line oscillator OR controls the horizontal deflection device FO, the the flyback pulse through the primary winding of the high voltage transformer T is supplied.

To switch on this supply voltage circuit it is
It is necessary to _{ensure an initial charge at the capacitor C i (} and C _1. For this purpose, an ignition circuit is known which is shown in FIG. 1 with dash-dotted lines. It includes
di ^ J Resistors R ₁ and R ₂ , a capacitor .C ₁ . and a-

Diode D ₁ . This ignition circuit generates a pulse in the

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capacitors C _r and C ^ fed when the power switch T. is closed. Closing the power switch I ^ means that:

a) a current through the capacitor C. and the diode D. flows and the oscillator OR and the deflection device FO to be fed;

b) a voltage pulse occurs at terminals C and D during retraction, by means of which the transistor T _{0 is brought} into the saturation state;

c) the Zener diode Z. begins to conduct as soon as the The emitter voltage of the transistor T. is high enough and the current limiting transistor T- becomes conductive;

d) the capacitor C- is charged and only the voltage peaks of the capacitor C ". are allowed to pass.

The diode D. blocks as soon as the voltage on the capacitor C _{r is} greater than the peak voltage on the resistor R-. Under these conditions, the ignition circuit is switched off and the television set is fed via the transistor T-.

When the device is switched off and then switched on again, the capacitors C 1 and C 3 cannot each other fully discharged, and overvoltages are to be feared. To avoid this, it is necessary that the discharge time con-

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constant t _{n of} the capacitor C, (t _n = C, χ (R ₀ 4 P, + R-,)) something

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smaller than the discharge time constant t _{n of} the capacitor C ₁ (tp = C, χ (R ₁ + R ₀ )) is to be selected. With a mains voltage of

• 220 volts alternating voltage is the direct voltage on capacitor C, normally also 220 volts. If the above-mentioned relationship between the time constants is not observed, an overvoltage of up to ¹ IO volts can occur on the capacitor when it is switched on. Therefore, no electrolytic capacitors can be used W are in the known ignition circuits for the capacitors C and C ^. In the case of an "es Yvr ~", it ends in the circuit behind the capacitor C-, the supply voltage is also completely interrupted in this known ignition circuit applied to the device ". In addition, when the device is switched on again, the mains switch I- must be opened at the same time for the period of a few seconds necessary to discharge the capacitors C. and C-.

G". It is therefore the object of the invention to provide an ignition circuit for a supply voltage circuit-a television receiver of the mentioned To create kind that makes it possible to maintain the DC power supply even in the event of a short circuit in the device . to be able to carry out necessary measurements and repairs.

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■ This task is based on an ignition circuit of the initially mentioned type according to the invention solved in that the input of the electronic switch with the charging capacitor of the Sieve member is connected via a voltage isolating element and a push button switch.

Further advantageous embodiments of the invention Ignition circuit emerges from the subclaims and from the following description.

According to the invention, the supply voltage circuit according to FIG. 1 has an ignition circuit in the form of the connecting line between the output of the current control stage T ^ and the capacitor Cp of the sieve member provided. This cross-connection would include a voltage divider consisting of the resistors R, and R, -, a push button switch Ip and a diode Dp. The cathode of this

Diode D2 is connected to capacitor C ₁ -.

When the pushbutton switch Ip is operated, the diode Dp is supplied with the direct voltage from the capacitor Cp via the voltage divider P ^, R ^, R> and R, -. This DC voltage causes during the flyback a pulse at the terminals of CD in the control circuit of the transistor Tp, whereby the transistor and thus the deflection apparatus can be switched Tp, in this transition phase is the voltage across capacitor C ^ due to the resistors R / and K _x - the Normal value. In addition, the tran-

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sistor T. blocked, because the strong current causes a voltage drop at the potentiometer P. (which is greater than the bias of the Zener diode). When opening the push button switch Ip, the transistor T. becomes conductive and the voltage across the capacitor C ₇ reaches the operating value.

The diode Dp prevents the capacitor Cp- from discharging via the resistor Rp-. In the event of a short circuit, the transistor Tp blocks and the voltage on the capacitor " ^v Cv rises to the maximum value of the mains voltage. In order to maintain the supply voltage anyway, only the push-button switch Ip needs to be closed, and the supply via the resistors R, and R ₁ - and the diode, Dp takes place. In the event of a short circuit, the ignition control circuit thus acts as a supply voltage circuit to maintain the supply voltage for the rest of the circuitry of the device, for example to carry out any repairs or the like.

φ The resistors R ^ and Rp- are chosen so that the voltage at the output of the diode Dp does not exceed about 30 volts without load, so corresponds to the normal value of the supply voltage of such televisions. The dimensioning is chosen so that the device can be switched on even with a mains voltage of less than 30 to 40 % .

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The push-button _{switch I 2} can be combined with the power switch I _{1 in a very simple manner.} For example, a single drive can be provided for the two switches, by means of which both contacts I ^ and I _{2 are} closed, but the latter contact I ₂ only temporarily.

Fig. 2 shows a further embodiment for the implementation of an ignition circuit according to the invention, and zv / ar in a supply voltage circuit, which also has a voltage regulator consisting of a Zener diode Z ₂ and a transistor T ,, after the filter element on v / e. In this exemplary embodiment, which otherwise essentially corresponds to the circuit according to FIG. 1, the supply voltage at point X is tapped. In this exemplary embodiment, the ignition circuit comprises only one resistor Rg which is connected between the circuit point X and via the push-button _{switch I 2} to the collector of the transistor T. The second resistance of the voltage divider is formed here by the input resistance of the transistor T ^. The voltage at point X cannot exceed the voltage determined by the voltage regulator. This also stabilizes the return pulse amplitude and prevents overvoltages.

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Claims (1)

■ '■; 2050A95 - 8 claims (χ) ignition circuit yuer the pulse of Zeilenablenkgerätes controlled by the flyback power supply circuit of a television receiver with a mains voltage rectifier, a controlled flyback pulse electronic switch and a downstream Siebgiied, characterized geke η η - draws Wf ■ in that the input of the electronic switch (Tp) with the Charging capacitor (C ^, Cf-) of the filter element via a voltage isolating element (Dp, T,) and a pushbutton switch (Ip) is connected. 2. Ignition circuit according to claim 1, characterized in that a voltage divider (R ^, R ^ ₃ Rg, T,) is connected in the connecting line. 3. Ignition circuit according to Claim 1 or 2, characterized in that the voltage isolating element is a diode (D ₂ ) (Fig. 1). * J. Ignition circuit according to Claim 1 or 2, characterized in that the voltage isolating element through the transistor (T,) of a voltage regulating circuit connected to the filter element is formed. 109835/0944 5. Ignition circuit according to claim 2 and k, "characterized in that one branch of the voltage divider is formed by the output resistance of the transistor (T") of the voltage regulating circuit. 6. Ignition circuit according to claim 1 to 5> characterized in that the push button switch (I _? ) Is combined with the power switch (I ₁ ) and is closed for a predetermined time when you press the Uetz switch. ' 109835/0944 / 6r Blank page