GA3284 Datasheet, PDF(9/15 Page) ON Semiconductor

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GA3284 Datasheet, PDF (9/15 Pages) ON Semiconductor – Pre-configured DSP System

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INSPIRIA GA3284

â10

â20

â30 Low Level

â40 Gain

â50

â60

Compression

Ratio

Lower

Threshold

High Level

Gain

Upper

Threshold

â70

Squelch

â80

Threshold

â90

â100

â120 â110 â100 â90 â80 â70 â60 â50 â40 â30 â20

INPUT LEVEL (dBV)

Figure 6. Independent Channel I/O Curve Flexibility

The I/O characteristic of the channel processing can be

adjusted in the following ways:

â¢ Squelch threshold (SQUELCHTH)

â¢ Low level gain (LLGAIN)

â¢ Lower threshold (LTH)

â¢ High level gain (HLGAIN)

â¢ Upper threshold (UTH)

â¢ Compression ratio (CR)

To ensure that the I/O characteristics are continuous, it is

necessary to limit adjustment to a maximum of four of the

available five parameters. During Parameter Map creation,

it is necessary to select four parameters as user adjustable,

or fixed, and to allow one parameter to be calculated.

The squelch region within each channel implements a low

level noise reduction scheme (1:2 or 1:3 expansion ratio) for

listener comfort. This scheme operates in quiet listening

environments (programmable threshold) to reduce the gain

at very low levels. When the Squelch and AFC are both

enabled it is highly recommended that the Squelch be turned

on in all channels and that the Squelch thresholds be set

above the microphone noise floor (see Adaptive Feedback

Canceller).

The number of compression channels is programmable in

ARKonlineÂ® and can be 1, 2 or 4.

Telecoil Path

The telecoil input is calibrated during the Cal/Config

process. To compensate for the telecoil/microphone

frequency response mismatch, a first order filter with

500 Hz corner frequency is implemented. Through

ARKonline, it is possible to implement a telecoil

compensation filter with an adjustable corner frequency. To

accommodate for the gain mismatch, the telecoil gain is

adjusted to match the microphone gain at 500 Hz or 1 kHz

(default) and is selectable in ARKonline.

There is also a telecoil gain adjustment parameter that can

be enabled in ARKonline and set in IDS, enabling manual

adjustment of the telecoil gain compensation.

DAI Path

The DAI input can be adjusted using a first order filter

with a variable corner frequency similar to the telecoil

compensation filter. Through ARKonline, it is possible to

implement this DAI filter to set either a static or adjustable

corner frequency.

The Mic plus DAI mode mixes the Mic1 and DAI signals.

The Mic1 input signal is attenuated by 0, â6 or â12 dB before

being added to the DAI input signal. The DAI input also has

gain adjustment in 1 dB steps to assist in matching it to the

Mic1 input level.

Graphic Equalizer

The Inspiria GA3284 has a 12âband graphic equalizer.

The bands are spaced logarithmically, and each one provides

up to 24 dB of gain adjustment in 1 dB increments.

Biquad Filters

Additional frequency shaping can be achieved by

configuring generic biquad filters. The transfer function for

each of the biquad filters is as follows:

H(z)

b0 ) b1

1 ) a1

zâ1 ) b2

zâ1 ) a2

zâ2

Note that the a0 coefficient is hardâwired to always be â1â.

The coefficients are each 16 bits in length and include one

sign bit, one bit to the left of the decimal point, and 14 bits

to the right of the decimal point. Thus, before quantization,

the floatingâpoint coefficients must be in the range

â2.0 â¤ x < 2.0 and quantized with the function:

round Çx 214Ç

After designing a filter, the quantized coefficients can be

entered into the PreBiquads or PostBiquads tab in the

Interactive Data Sheet. The coefficients b0, b1, b2, a1, and

a2 are as defined in the transfer function above. The

parameters meta0 and meta1 do not have any effect on the

signal processing, but can be used to store additional

information related to the associated biquad.

The underlying code in the product components

automatically checks all of the filters in the system for

stability (i.e., the poles have to be within the unit circle)

before updating the graphs on the screen or programming

the coefficients into the hybrid. If the Interactive Data Sheet

receives an exception from the underlying stability checking

code, it automatically disables the biquad being modified

and display a warning message. When the filter is made

stable again, it can be reâenabled.

Also note that in some configurations, some of these

filters may be used by the product component for

microphone/telecoil compensation, lowâfrequency EQ, etc.

If this is the case, the coefficients entered by the user into

IDS are ignored and the filter designed by the software is

programmed instead. For more information on filter design

www.onsemi.com

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