LM3886 Datasheet, PDF(20/31 Page) National Semiconductor (TI) – Overture TM Audio Power Amplifier Series High-Performance 68W Audio Power Amplifier w/Mute

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LM3886 Datasheet, PDF (20/31 Pages) National Semiconductor (TI) – Overture TM Audio Power Amplifier Series High-Performance 68W Audio Power Amplifier w/Mute

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LM3886

SNAS091C â MAY 1999 â REVISED MARCH 2013

www.ti.com

NOTE

CCIR/ARM: A Practical Noise Measurement Method; by Ray Dolby, David Robinson and

Kenneth Gundry, AES Preprint No. 1353 (F-3).

In addition to noise filtering, differing meter types give different noise readings. Meter responses include:

1. RMS reading,

2. average responding,

3. peak reading, and

4. quasi peak reading.

Although theoretical noise analysis is derived using true RMS based calculations, most actual measurements are

taken with ARM (Average Responding Meter) test equipment.

Typical signal-to-noise figures are listed for an A-weighted filter which is commonly used in the measurement of

noise. The shape of all weighting filters is similar, with the peak of the curve usually occurring in the 3 kHzâ7 kHz

region as shown below.

Figure 51.

SUPPLY BYPASSING

The LM3886 has excellent power supply rejection and does not require a regulated supply. However, to eliminate

possible oscillations all op amps and power op amps should have their supply leads bypassed with low-

inductance capacitors having short leads and located close to the package terminals. Inadequate power supply

bypassing will manifest itself by a low frequency oscillation known as âmotorboatingâ or by high frequency

instabilities. These instabilities can be eliminated through multiple bypassing utilizing a large tantalum or

electrolytic capacitor (10 Î¼F or larger) which is used to absorb low frequency variations and a small ceramic

capacitor (0.1 Î¼F) to prevent any high frequency feedback through the power supply lines.

If adequate bypassing is not provided the current in the supply leads which is a rectified component of the load

current may be fed back into internal circuitry. This signal causes low distortion at high frequencies requiring that

the supplies be bypassed at the package terminals with an electrolytic capacitor of 470 Î¼F or more.

LEAD INDUCTANCE

Power op amps are sensitive to inductance in the output lead, particularly with heavy capacitive loading.

Feedback to the input should be taken directly from the output terminal, minimizing common inductance with the

load.

Lead inductance can also cause voltage surges on the supplies. With long leads to the power supply, energy is

stored in the lead inductance when the output is shorted. This energy can be dumped back into the supply

bypass capacitors when the short is removed. The magnitude of this transient is reduced by increasing the size

of the bypass capacitor near the IC. With at least a 20 Î¼F local bypass, these voltage surges are important only if

the lead length exceeds a couple feet (>1 Î¼H lead inductance). Twisting together the supply and ground leads

minimizes the effect.

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