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Vertical deflection and guard circuit Integrated Circuit Chip 110∑ TDA3654

Anterwell Technology Ltd.
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    Buy cheap Vertical deflection and guard circuit Integrated Circuit Chip 110∑ TDA3654 from wholesalers
     
    Buy cheap Vertical deflection and guard circuit Integrated Circuit Chip 110∑ TDA3654 from wholesalers
    • Buy cheap Vertical deflection and guard circuit Integrated Circuit Chip 110∑ TDA3654 from wholesalers

    Vertical deflection and guard circuit Integrated Circuit Chip 110∑ TDA3654

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    Brand Name : Anterwell
    Model Number : TDA3654
    Certification : new & original
    Price : Negotiate
    Payment Terms : T/T, Western Union, Paypal
    Supply Ability : 4800pcs
    Delivery Time : 1 day
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    Vertical deflection and guard circuit Integrated Circuit Chip 110∑ TDA3654


    Vertical deflection and guard circuit (110˚)
    TDA3654
    TDA3654Q

    GENERAL DESCRIPTION
    The TDA3654 is a full performance vertical deflection output circuit for direct drive of the deflection coils and can be used for a wide range of 90° and 110° deflection systems. A guard circuit is provided which blanks the picture tube screen in the absence of deflection current.

    Features
    • Direct drive to the deflection coils
    • 90° and 110° deflection system
    • Internal blanking guard circuit
    • Internal voltage stabilizer

    QUICK REFERENCE DATA
    Output voltage V5-2 max. 60 V
    Output current (peak-to-peak) I5(p-p) max. 3 A
    Supply voltage V9-2 max. 40 V
    Guard circuit output voltage V7-2 max. 5,6 V
    Operating ambient temperature range Tamb −25 to +60 °C
    Storage temperature Tstg −55 to +150 °C

    THERMAL RESISTANCE
    From junction to mounting base Rth j-mb 3,5 to 4 K/W

    PACKAGE OUTLINES
    TDA3654 : 9-lead SIL; plastic power (SOT131) .
    TDA3654Q : 9-lead SIL bent to DIL; plastic power (SOT157) .



    FUNCTIONAL DESCRIPTION

    Output stage and protection circuits

    The output stage consists of two Darlington configurations in class B arrangement. Each output transistor can deliver 1,5 A maximum and the VCEO is 60 V.
    Protection of the output stage is such that the operation of the transistors remains well within the SOAR area in all circumstances at the output pin, (pin 5). This is obtained by the cooperation of the thermal protection circuit, the current-voltage detector and the short circuit protection.
    Special measures in the internal circuit layout give the output transistors extra solidity, this is illustrated in Fig.5 where typical SOAR curves of the lower output transistor are given. The same curves also apply for the upper output device. The supply for the output stage is fed to pin 6 and the output stage ground is connected to pin 4.

    Driver and switching circuit

    Pin 1 is the input for the driver of the output stage. The signal at pin 1 is also applied to pin 3 which is the input of a switching circuit (pin 1 and 3 are connected via external resistors).
    This switching circuit rapidly turns off the lower output stage when the flyback starts and it, therefore, allows a quick start of the flyback generator. The maximum required input signal for the maximum output current peak-to-peak value of 3 A is only 3 V, the sum of the currents in pins 1 and 3 is then maximum 1 mA.

    Flyback generator

    During scan, the capacitor between pins 6 and 8 is charged to a level which is dependent on the value of the resistor at pin 8 (see Fig.1).
    When the flyback starts and the voltage at the output pin (pin 5) exceeds the supply voltage, the flyback generator is activated.
    The supply voltage is then connected in series, via pin 8, with the voltage across the capacitor during the flyback period. This implies that during scan the supply voltage can be reduced to the required scan voltage plus saturation voltage of the output transistors.
    The amplitude of the flyback voltage can be chosen by changing the value of the external resistor at pin 8. It should be noted that the application is chosen such that the lowest voltage at pin 8 is > 1,5 V, during normal operation.

    Guard circuit

    When there is no deflection current, for any reason, the voltage at pin 8 becomes less than 1 V, the guard circuit will produce a d.c. voltage at pin 7. This voltage can be used to blank the picture tube, so that the screen will not burn in.

    Voltage stabilizer

    The internal voltage stabilizer provides a stabilized supply of 6 V to drive the output stage, so the drive current is not affected by supply voltage variations.

    RATINGS
    Limiting values in accordance with the Absolute Maximum System (IEC 134).
    Pins 2 and 4 are externally connected to ground.

    Voltages

    Output voltage V5-4 0 to 60 V
    Supply voltage V9-4 0 to 40 V
    Supply voltage output stage V6-4 0 to 60 V
    Input voltage V1-2 0 to V9-4 V
    Input voltage switching circuit V3-2 0 to V9-4 V
    External voltage at pin 7 V7-2 0 to 5,6 V

    Currents

    Repetitive peak output current ± I5RM max. 1,5 A
    Non-repetitive peak output current (note 1) ± I5SM max. 3 A
    Repetitive peak output current of flyback generator I8RM max. + 1,5 A
    − 1,6 A
    Non-repetitive peak output current of flyback generator (note 1) ± I8SM max. 3 A

    Temperatures

    Storage temperature range Tstg −65 to + 150 °C
    Operating ambient temperature range (see Fig.3) Tamb −25 to + 60 °C
    Operating junction temperature range Tj −25 to + 150 °C
    (the output current at pin 5 should not exceed 2.5A)



























































































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