STR-A6331 Ver la hoja de datos (PDF) - Sanken Electric co.,ltd.

Número de pieza

componentes Descripción

Fabricante

STR-A6331

Hybrid IC with a built-in power MOSFET and a controller IC

Sanken Electric co.,ltd. 

STR-A6300 Application Notes

（Ver.1.2）

operation. The cancellation of the latch circuit is made by reducing the Vin terminal voltage below 7.9V, and

generally, it is restarted by AC input switch-off of the power supply.

7.5 Thermal Shutdown(TSD) Circuit

TSD circuit makes the latch circuit operate when the frame temperature of the IC is above 135 oC(MIN).

Temperature detection is actually made by the control IC.

7.6 Overvoltage Protection(OVP) Circuit

OVP circuit makes the latch circuit operate when the Vin terminal voltage exceeds 25.5V(TYP), and it

functions as a protection against the overvoltage at the Vin terminal of the control circuit.

In general, the Vin terminal voltage is provided from the drive winding of the transformer and it is proportional

to the output voltage. Therefore, the circuit operates even in the overvoltage output of the secondary side, for

instance, when the voltage detection circuit is open. In this case, the secondary output voltage when the OVP

circuit operates is obtained from;

VOUT at Normal Operation

VOUT (OVP)≒--------------------------------------------------------------- × 22.5V (TYP)

VIN Terminal Voltage at Normal Operation

８ CALCULATION OF PRIMARY INDUCTANCE

Design of the transformer is basically same as that of RCC type power supplies. Assuming D as ON-Duty

decided from the ratio between P winding(Np) and S winding(Ns), the Lp is obtained from the formula below.

Also, due to the fixed OFF-time of the PRC operation, the transformer should be designed in order the drain

current to be un-continuous at the MIN input and MAX load.

LP

=

(VIN ⋅ D)2

2 × fo × Po

×η

（Ｈ）

Po: Maximum Output Power

fo: Minimum Oscillating Frequency

η：: Power supply efficiency=approx. 0.9(In case of CTV), 0.75~0.85(Low Output Voltage)

D: ON-Duty at Vin(AC)

VIN: C1 voltage at Minimum VIN(AC)

9 DESIGN GUIDELINES

9.1 External components

Care needs to be taken in the capacitance, inductance, and allowable dissipation of external components.

For the loss of input/output capacitors to the ripple current and voltage, and for the loss of transformer for

copper and iron, the sufficient margin is to be considered in a power supply. Especially for the OCP resistor,

R5, where high frequency elements flow, a resistor having high internal inductance is likely to cause

malfunctions. Thus a resistor having low internal inductance and high surge energy should be selected.

As switching current contains high frequency elements, the influence of the surface effect is not to be

neglected. Therefore, it is recommended to enlarge the surface area of the transformer winding by using

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