STK400-040 Sanyo Semiconductor Corporation, STK400-040 Datasheet - Page 6

Manufacturer Part Number

STK400-040

Description

af Power Amplifier (25W + 25W +25W)

Manufacturer

Sanyo Semiconductor Corporation

Datasheet

1.STK400-040.pdf (9 pages)

External Circuit Diagram

Heat Radiation Design Considerations

The radiator thermal resistance c-a required for total substrate power dissipation Pd in the STK400-040 is determined as:

Condition 1: IC substrate temperature Tc not to exceed 125°C.

Condition 2: Power transistor junction temperature Tj not to exceed 150°C.

Expressions (1) and (2) can be rewritten based on c-a to yield:

The required radiator thermal resistance will satisfy both of these expressions.

From expressions (1)' and (2)', the required radiator thermal resistance can be determined once the following

specifications are known:

The total substrate power consumption when STK400-040 V

signal, is a maximum of 63W (Fig. 1). In general, when this sort of continuous signal is used for estimation of power

consumption, the Pd used is 1/10th of P

Unit (resistance:Ω, capacitance:F)

Pd x c-a+Ta <125°C ······························· (1)

Pd x c-a+Pd/N x j-c+Ta<150°C·············(2)

•

c-a<(125–Ta)/Pd ······································(1)'

c-a<(150–Ta)/Pd– j-c/N··························(2)'

Supply voltage

Load resistance

Assured ambient temperature Ta

where Ta is set assured ambient temperature.

where N is the number of power transistors and j-c the thermal resistance per power transistor chip.

However, power transistor power consumption is Pd equally divided by N units.

max (slight variation depending on safety standard).

STK400-040

*1 Unnecessary with applications using STK400-010 to STK400-090.

*2 Unnecessary with applications using STK401-010 to STK401-090.

is ±25 V and R

is 6 Ω, for a continuous sine wave

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