AK4753 Datasheet, PDF(43/85 Page) Asahi Kasei Microsystems – 2-in, 4-out CODEC with DSP Functions

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AK4753 Datasheet, PDF (43/85 Pages) Asahi Kasei Microsystems – 2-in, 4-out CODEC with DSP Functions

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[AK4753]

â Five Programmable Biquads

This block can be used as an equalizer or notch filter. 5-band equalizer (EQ1, EQ2, EQ3, EQ4 and EQ5) is ON/OFF

independently by EQ1, EQ2, EQ3, EQ4 and EQ5 bits. When the equalizer is OFF, the audio data passes this block by

0dB gain. E1A19-0, E1B19-0 and E1C19-0 bits set the coefficient of EQ1. E2A19-0, E2B19-0 and E2C19-0 bits set the

coefficient of EQ2. E3A19-0, E3B19-0 and E3C19-0 bits set the coefficient of EQ3. E4A19-0, E4B19-0 and E4C19-0

bits set the coefficient of EQ4. E5A19-0, E5B19-0 and E5C19-0 bits set the coefficient of EQ5. EQx (x=1~5)

coefficient should be set when EQx bit = â0â or PMDAC bit = â0â. When the SA2 bit = â1â, K1 gain must be set to â1â

for the DSP channel selected by the SA2SEL bit.

fs: Sampling frequency

fo1 ~ fo5: Center frequency

fb1 ~ fb5: Band width where the gain is 3dB different from center frequency

K1 ~ K5 : Gain ( -1 â¤ Kn < 3 )

EQ1: E1A19-0 bits =A1, E1B19-0 bits =B1, E1C19-0 bits =C1

EQ2: E2A19-0 bits =A2, E2B19-0 bits =B2, E2C19-0 bits =C2

EQ3: E3A19-0 bits =A3, E3B19-0 bits =B3, E3C19-0 bits =C3

EQ4: E4A19-0 bits =A4, E4B19-0 bits =B4, E4C19-0 bits =C4

EQ5: E5A19-0 bits =A5, E5B19-0 bits =B5, E5C19-0 bits =C5

(MSB=E1A19, E1B19, E1C19, E2A19, E2B19, E2C19, E3A19, E3B19, E3C19, E4A19, E4B19, E4C19, E5A19,

E5B19, E5C19; LSB= E1A0, E1B0, E1C0, E2A0, E2B0, E2C0, E3A0, E3B0, E3C0, E4A0, E4B0, E4C0, E5A0,

E5B0, E5C0)

An = Kn x

tan (Ïfbn/fs)

1 + tan (Ïfbn/fs)

, Bn = cos(2Ï fon/fs) x

, Cn =

1 + tan (Ïfbn/fs)

1 â tan (Ïfbn/fs)

1 + tan (Ïfbn/fs)

(n = 1, 2, 3, 4, 5)

Transfer function

H(z) = 1 + h1(z) + h2(z) + h3(z) + h4(z) + h5(z)

hn (z) = An

1 â z â2

1â Bnz â1â Cnz â2

(n = 1, 2, 3, 4, 5)

The fbn should be set within the range as follows.

fbn/fs â¤ 0.25

The f0n (center frequency) should be set within the range as follows.

3.125x10-3 â¤ f0n/fs < 0.4969

When the f0n/fs is less than 3.125x10-3, the step width of the f0n which can be set up becomes the biggest in the case of

fbn/fs=0.25. (Table 30)

f0n/fs

8.542x10 -4

1.083x10 -3

1.229x10 -3

3.125x10 -3

f0n(@fs=48kHz) An (dec) (Kn=-1)

Bn (dec)

41Hz

-65536

131070

52Hz

-65536

131069

59Hz

-65536

131068

150Hz

-65536

131047

Table 30. The Center Frequency in the low frequency band

(when the coefficients of An, Bn and Cn is fbn/fs=0.25)

Cn (dec)

Note 22. Translation the filter coefficient calculated by the equations above from real number to binary code (2âs

complement)

X = (Real number of filter coefficient calculated by the equations above) x 217

X should be rounded to integer, and then should be translated to binary code (2âs complement).

MSB of each filter coefficient setting register is sign bit.

MS1311-E-00

- 43 -

2011/07

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