AK4634 Datasheet, PDF(40/77 Page) Asahi Kasei Microsystems – 16-Bit Mono CODEC with ALC & MIC/SPK-AMP

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AK4634 Datasheet, PDF (40/77 Pages) Asahi Kasei Microsystems – 16-Bit Mono CODEC with ALC & MIC/SPK-AMP

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[AK4634]

(3) 5-band Equalizer

This block can be used as Equalizer or Notch Filter. ON/OFF 5-band Equalizer (EQ1, EQ2, EQ3, EQ4 and EQ5) can be

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

by 0dB gain. E1A15-0, E1B15-0 and E1C15-0 bits set the coefficient of EQ1. E2A15-0, E2B15-0 and E2C15-0 bits set

the coefficient of EQ2. E3A15-0, E3B15-0 and E3C15-0 bits set the coefficient of EQ3. E4A15-0, E4B15-0 and E4C15-0

bits set the coefficient of EQ4. E5A15-0, E5B15-0 and E5C15-0 bits set the coefficient of EQ5. Each EQx coefficient

setting must be made when EQx bit (corresponding bit to EQx) is â0â or PMPFIL bit is â0â.

fs : The Sampling frequency

fo1 ~ fo5 : The Center frequency

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

K1 ~ K5 : The Gain ( -1 â¤ Kn < ï 3 )

EQ1: E1A[15:0] bits =A1, E1B[15:0] bits =B1, E1C[15:0] bits =C1

EQ2: E2A[15:0] bits =A2, E2B[15:0] bits =B2, E2C[15:0] bits =C2

EQ3: E3A[15:0] bits =A3, E3B[15:0] bits =B3, E3C[15:0] bits =C3

EQ4: E4A[15:0] bits =A4, E4B[15:0] bits =B4, E4C[15:0] bits =C4

EQ5: E5A[15:0] bits =A5, E5B[15:0] bits =B5, E5C[15:0] bits =C5

(MSB=E1A15, E1B15, E1C15, E2A15, E2B15, E2C15, E3A15, E3B15, E3C15, E4A15, E4B15, E4C15,

E5A15, E5B15, E5C15 ; 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)

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

, Bn = cos(2Ï fon/fs) x

1 + tan (Ïfbn/fs)

, Cn =

1 â tan (Ïfbn/fs)

1 + tan (Ïfbn/fs)

The center frequency should be set as below

fon / fs < 0.497

When gain of K is set to ââ1â, the equalizer becomes notch filter. When it is used as notch filter, central frequency of a

real notch filter deviates from the above-mentioned calculation, if its central frequency of each band is near. The control

soft that is attached to the evaluation board has a function that revises a gap of frequency, and calculates the coefficient.

When its central frequency of each band is near, revise the central frequency and confirm the frequency response.

Note 32.

[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 213

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

MSB of each filter coefficient setting register is sine bit.

Rev. 0.5

- 40 -

2007/10

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