TS4890IQT STMicroelectronics, TS4890IQT Datasheet - Page 26

TS4890IQT

Manufacturer Part Number

TS4890IQT

Description

IC AMP AUDIO PWR 1W MONO AB 8DFN

Manufacturer

STMicroelectronics

Type

Class ABr

Datasheet

1.TS4890ID.pdf (32 pages)

Specifications of TS4890IQT

Output Type

1-Channel (Mono)

Max Output Power X Channels @ Load

1W x 1 @ 8 Ohm

Voltage - Supply

2.5 V ~ 5.5 V

Features

Depop, Standby, Thermal Protection

Mounting Type

Surface Mount

Package / Case

8-DFN

For Use With

497-6363 - BOARD DEMO FOR TS489

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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TS4890

Given :

• Load impedance : 8

• Output power @ 1% THD+N : 0.5W

• Input impedance : 10k

• Input voltage peak to peak : 1Vpp

• Bandwidth frequency : 20Hz to 20kHz (0, -3dB)

• THD+N in 20Hz to 20kHz < 0.5% @Pout=0.45W

• Ambient temperature max = 50°C

• SO8 package

First of all, we must calculate the minimum power

supply voltage to obtain 0.5W into 8 . See curves

in fig. 15, we can read 3.5V. Thus, the power

supply voltage value min. will be 3.5V.

Following

equation :

with 3.5V we have Pdissmax=0.31W.

Refer to power derating curves (fig. 24), with

0.31W the maximum ambient temperature will be

100°C. This last value could be higher if you follow

the example layout shows on the demoboard

(better dissipation).

The gain of the amplifier in flat region will be :

We have Rin > 10k . Let's take Rin = 10k , then

Rfeed = 28.25k . We could use for Rfeed = 30k

in normalized value and the gain will be Gv = 6.

In lower frequency we want 20 Hz (-3dB cut off

frequency). Then

So, we could use for Cin a 1µF capacitor value that

gives 16Hz.

In Higher frequency we want 20kHz (-3dB cut off

frequency). The Gain Bandwidth Product of the

TS4890 is 2MHz typical and doesn't change when

the amplifier delivers power into the load.

26/32

Power amplifier design examples

the

Pdiss

OUTPP

INPP

maximum

max

Rin

min.

Vcc

INPP

power

795

OUT

(

)

. 5

dissipation

The first amplifier has a gain of

and the theoretical value of the -3dB cut of higher

frequency is 2MHz/3 = 660kHz.

We can keep this value or limiting the bandwidth

by adding a capacitor Cfeed, in parallel on Rfeed.

Then

So, we could use for Cfeed a 220pF capacitor

value that gives 24kHz.

Now, we can choose the value of Cb with the

constraint THD+N in 20Hz to 20kHz < 0.5% @

Pout=0.45W. If you refer to the closest THD+N vs

frequency measurement : fig. 71 (Vcc=3.3V,

Gv=10), with Cb = 1µF, the THD+N vs frequency

is always below 0.4%. As the behaviour is the

same with Vcc = 5V (fig. 67), Vcc = 2.6V (fig. 67).

As the gain for these measurements is higher

(worst case), we can consider with Cb = 1µF, Vcc

= 3.5V and Gv = 6, that the THD+N in 20Hz to

20kHz range with Pout = 0.45W will be lower than

0.4%.

In the following tables, you could find three

another examples with values required for the

demoboard.

Remark : components with (*) marking are

optional.

Application n°1 : 20Hz to 20kHz bandwidth and

6dB gain BTL power amplifier.

Components :

R7*

Designator

FEED

Rfeed

Rin

FEED

22k / 0.125W

Short Cicuit

(Vcc-Vf_led)/If_led

10k / 0.125W

470nF

100µF

Part Type

265

TS4890IQT STMicroelectronics, TS4890IQT Datasheet - Page 26

TS4890IQT

Specifications of TS4890IQT

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