Texas Instruments TLV320AIC3105 Evaluation Module (EVM) and USB motherboard TLV320AIC3105EVM-K TLV320AIC3105EVM-K 데이터 시트
제품 코드
TLV320AIC3105EVM-K
W0002-01
Decay Time
Target
Level
Level
Input
Signal
Output
Signal
AGC
Gain
Attack
Time
STEREO AUDIO DAC
www.ti.com
.........................................................................................................................................
SLAS513B – FEBRUARY 2007 – REVISED DECEMBER 2008
Maximum PGA gain applicable allows the user to restrict the maximum PGA gain that can be applied by the
AGC algorithm. This can be used for limiting PGA gain in situations where environmental noise is greater than
programmed noise threshold. It can be programmed from 0 dB to 59.5 dB in steps of 0.5 dB.
AGC algorithm. This can be used for limiting PGA gain in situations where environmental noise is greater than
programmed noise threshold. It can be programmed from 0 dB to 59.5 dB in steps of 0.5 dB.
Figure 24. Typical Operation of the AGC Algorithm During Speech Recording
Note that the time constants here are correct when the ADC is not in double-rate audio mode. The time
constants are achieved using the f
constants are achieved using the f
S(ref)
value programmed in the control registers. However, if the f
S(ref)
is set in
the registers to, for example, 48 kHz, but the actual audio clock or PLL programming actually results in a different
f
f
S(ref)
in practice, then the time constants would not be correct.
The actual AGC decay time maximum is based on a counter length, so the maximum decay time scales with the
clock setup that is used.
clock setup that is used.
shows the relationship of the NADC ratio to the maximum time available for the
AGC decay. In practice, these maximum times are extremely long for audio applications and should not limit any
practical AGC decay time that is needed by the system.
practical AGC decay time that is needed by the system.
The TLV320AIC3105 includes a stereo audio DAC supporting sampling rates from 8 kHz to 96 kHz. Each
channel of the stereo audio DAC consists of a digital audio processing block, a digital interpolation filter, multibit
digital delta-sigma modulator, and an analog reconstruction filter. The DAC is designed to provide enhanced
performance at low sampling rates through increased oversampling and image filtering, thereby keeping
quantization noise generated within the delta-sigma modulator and signal images strongly suppressed within the
audio band to beyond 20 kHz. This is realized by keeping the upsampled rate constant at 128 × f
channel of the stereo audio DAC consists of a digital audio processing block, a digital interpolation filter, multibit
digital delta-sigma modulator, and an analog reconstruction filter. The DAC is designed to provide enhanced
performance at low sampling rates through increased oversampling and image filtering, thereby keeping
quantization noise generated within the delta-sigma modulator and signal images strongly suppressed within the
audio band to beyond 20 kHz. This is realized by keeping the upsampled rate constant at 128 × f
S(ref)
and
changing the oversampling ratio as the input sample rate is changed. For an f
S(ref)
of 48 kHz, the digital
delta-sigma modulator always operates at a rate of 6.144 MHz. This ensures that quantization noise generated
within the delta-sigma modulator stays low within the frequency band below 20 kHz at all sample rates. Similarly,
for an f
within the delta-sigma modulator stays low within the frequency band below 20 kHz at all sample rates. Similarly,
for an f
S(ref)
rate of 44.1 kHz, the digital delta-sigma modulator always operates at a rate of 5.6448 MHz.
The following restrictions apply in the case when the PLL is powered down and double-rate audio mode is
enabled in the DAC.
enabled in the DAC.
Allowed Q values = 4, 8, 9, 12, 16
Copyright © 2007–2008, Texas Instruments Incorporated
33
Product Folder Link(s):