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TDA4863-2G Folha de dados(PDF) 11 Page - Infineon Technologies AG |
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TDA4863-2G Folha de dados(HTML) 11 Page - Infineon Technologies AG |
11 / 27 page TDA4863-2 Functional Description Data Sheet 11 V1.2, 2004-02 To prevent false tripping the zero current detector is designed as a Schmitt-Trigger with a hysteresis of 0.5 V. An internal 5 V clamp protects the input from overvoltage breakdown, a 0.6 V clamp prevents substrate injection. An external resistor has to be used in series with the auxiliary winding to limit the current through the clamps. 2.8 Restart Timer The restart timer function eliminates the need of an oscillator. The timer starts or restarts the TDA4863-2 when the driver output has been off for more than 150 µs after the inductor current reaches zero. 2.9 Undervoltage Lockout An undervoltage lockout circuitry switches the IC on when V CC reaches the upper threshold V CCH and switches the IC off when VCC is falling below the lower threshold VCCL. During start up the supply current is less then 100 µA. An internal voltage clamp has been added to protect the IC from V CC overvoltage condition. When using this clamp special care must be taken on power dissipation. Start up current is provided by an external start up resistor which is connected from the AC line to the input supply voltage V CC and a storage capacitor which is connected from VCC to ground. Be aware that this capacitor is discharged before the IC is plugged into the application board. Otherwise the IC can be destroyed due to the high capacitor voltage. Bootstrap power supply is created with the previous mentioned auxiliary winding and a diode (see “Application Circuit” on Page 21). 2.10 Gate Drive The TDA4863-2 totem pole output stage is MOSFET compatible. An internal protection ciruitry is activated when V CC is within the start up phase and ensures that the MOSFET is turned off. The totem pole output has been optimized to achieve minimized cross conduction current during high speed operation. Compared to TDA4863 a bigger MOS Transistor can be driven by the TDA4863-2. When a big MOSFET is used in applications with TDA4863, for example SPP20N60C3, the falling edge of the gate drive voltage can swing under GND and can cause false triggering of the IC. To prevent false triggering the gate drive voltage of theTDA 4863-2 at low state and gate current I GT= 0mA is set to VGTL= 0.85V (TDA4863: VGTL=0.25V). The difference between TDA4863-2 and TDA4863 is also depicted in diagramm: gate drive voltage low state on page 20. |
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