stk404-230-e Sanyo Semiconductor Corporation, stk404-230-e Datasheet - Page 8

stk404-230-e

Manufacturer Part Number

stk404-230-e

Description

One-channel Class Audio Power Amplifier 100w

Manufacturer

Sanyo Semiconductor Corporation

Datasheet

1.STK404-230-E.pdf (12 pages)

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[Example]

[Thermal Design Example for STK404-230-E (R L =6Ω)]

The thermal resistance, θc-a, of the heat sink for total power dissipation, Pd, within the hybrid IC is determined as

follows.

Condition 1: The hybrid IC substrate temperature, Tc, must not exceed 125°C.

Condition 2: The junction temperature, Tj, of each power transistor must not exceed 150°C.

However, the power dissipation, Pd, for the power transistors shall be allocated equally among the number of power

transistors.

The following inequalities result from solving equations (1) and (2) for θc-a.

Values that satisfy these two inequalities at the same time represent the required heat sink thermal resistance.

When the following specifications have been stipulated, the required heat sink thermal resistance can be determined

from formulas (1)' and (2)'.

When the IC supply voltage, V CC =±44V and R L is 6Ω, the total power dissipation, Pd, within the hybrid IC, will be a

maximum of 64W at 1kHz for a continuous sine wave signal according to the Pd-Po characteristics.

For the music signals normally handled by audio amplifiers, a value of 1/8P O max (P O =12.5W) is generally used for

Pd as an estimate of the power dissipation based on the type of continuous signal. (Note that the factor used may differ

depending on the safety standard used.)

This is:

The number of power transistors in audio amplifier block of these hybrid ICs, N, is 2, and the thermal resistance per

transistor, θj-c, is 1.6°C/W. Therefore, the required heat sink thermal resistance for a guranteed ambient temperature,

Ta, of 50°C will be as follows.

Therefore, the value of 1.42°C/W, which satisfies both of these formulae, is the required thermal resistance of the heat

sink.

Note that this thermal design example assumes the use of a constant-voltage power supply, and is therefore not a

verified design for any particular user’s end product.

Pd ≈ 45W

From formula (1)'

From formula (2)'

Pd × θc-a + Ta < 125°C ................................................................................................. (1)

Pd × θc-a + Pd/N × θj-c + Ta < 150°C .......................................................................... (2)

θc-a < (125 − Ta)/Pd ...................................................................................................... (1)'

θc-a < (150 − Ta)/Pd − θj-c/N ........................................................................................ (2)'

• Supply voltage

• Load resistance

• Guaranteed ambient temperature

Ta: Guaranteed ambient temperature for the end product

N: Number of power transistors

θj-c: Thermal resistance per power transistor

(when 1/8P O max. = 12.5W, P O max. = 100W).

θc-a < (125 − 50)/45.0

θc-a < (150 − 50)/45.0 − 1.6/4

< 1.66

< 1.42

STK404-230-E

V CC

R L

No. A1244-8/12

stk404-230-e Sanyo Semiconductor Corporation, stk404-230-e Datasheet - Page 8

stk404-230-e

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