Coded data generation or conversion – Analog to or from digital conversion – Increasing converter resolution
Reexamination Certificate
2001-08-14
2003-02-04
Wamsley, Patrick (Department: 2819)
Coded data generation or conversion
Analog to or from digital conversion
Increasing converter resolution
C341S143000
Reexamination Certificate
active
06515601
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a noise shaper used in a &Dgr;-&Sgr; (delta-sigma) digital-to-analog (D/A) converter, digital-to-digital (D/D) converter, or the like and, more particularly, to a noise shaper for suppressing the idle pattern by means of a dither signal.
2. Description of the Related Art
A noise shaping technique consisting of reconverting an oversampled signal into a signal of a less number of bits by a quantizer and feeding quantization noise induced by the requantization back into the next signal to shift the quantization error to the higher-frequency side for reducing noise within the signal band is used in &Dgr;-&Sgr; (delta-sigma) D/A conversion and D/D conversion. Where this noise shaping is implemented, an idle pattern having a certain pattern at quite low levels of the input signal is produced. An intrinsic spectrum is produced within the audio band, thus deteriorating the sound quality.
In the past, therefore, a dither generator for supplying a quite low level of dither signal to an input signal at high frequencies has been used. For example, in Japanese Patent Laid-Open No. 102851/1993, a D/A converter for adding a dither signal to a signal that is input to a noise shaper
81
as shown in
FIG. 8
is disclosed, the dither signal being generated by a dither generator circuit
82
.
In the field of digital audio technology, noise shapers of higher orders have been used because further improvement of sound quality has been required. Concomitantly, noise components at higher frequencies have increased. This has placed a great load on the rear-stage, low-pass filter. To solve this problem, an attempt has been made to suppress noise components at high frequencies by the use of a pole-shifted noise shaper in which the pole on the Z-plane of the transfer function of the whole system has been shifted out of the origin. As illustrated in
FIG. 9
, this system implements feedback to an adder
92
from a quantizer
91
by a transfer function G(Z). This is subtracted from the input signal. Thus, feedforward is provided to the quantizer
91
with the transfer function G(Z). The output data Y(n) is herein abbreviated Y and given by
Y
=(
X−Y·H
)·
G+Q
where H is a transfer function H(Z), G is a transfer function G(Z), X is input data X(n), and Q is quantization noise in a quantizer X
1
. Thus, we have
Y
=
G
1
+
G
·
H
X
+
Q
1
+
G
·
H
It can be seen from this that a pole shift has occurred and that the input signal attenuates with increasing the frequency. One example of a pole-shifted noise shaper is shown in FIG.
10
. This is a third-order noise shaper consisting of integrators
101
-
103
, adders
104
-
107
, coefficient multipliers
108
-
111
, and a quantizer
112
. Feedback is provided to the input side from the quantizer
112
. In addition, feedback is provided to the integrator
102
from the integrator
103
via the adder
107
and via the coefficient multiplier
111
.
In the pole-shifted noise shaper, the input signal attenuates with increasing the frequency. Therefore, if the signal to which the dither signal is added as shown in
FIG. 8
is subjected to noise shaping, the dither signal attenuates. Consequently, the idle pattern cannot be suppressed sufficiently.
Furthermore, noise components at higher frequencies are increased by adding the dither signal. This increases the load on the low-pass filter positioned behind the noise shaper. For this reason, if attempts are made to reduce noise components at higher frequencies using a pole-shifted noise shaper, the effect is canceled to some extent.
SUMMARY OF THE INVENTION
The present invention provides a pole-shifted noise shaper in which the pole on the Z-plane of the transfer function has been shifted out of the origin, the noise shaper being characterized in that it is equipped with a dither adder for adding a dither signal to data that is about to be applied to a quantizer. In consequence, the idle pattern can be suppressed more effectively.
Preferably, the above-described dither signal varies periodically regardless of the aforementioned data, and its spectrum is based on a certain frequency that is higher than the audio band and lower than the operating clock frequency.
Preferably, the dither signal is produced based on a certain pattern consisting of combinations of “1” and “0”. The dither adder described above sequentially selects the bits of the certain pattern at the certain frequency, adds a certain level to them, and produces the dither signal.
It is desired that the certain frequency described above be {fraction (1/16)} to ⅛ of the operating clock frequency of the noise shaper.
The level of the above-described dither signal is preferably {fraction (1/16)} to ⅛ of the maximum amplitude, or the most significant bit, of the data described above.
Preferably, the aforementioned noise shaper converts a multi-bit digital signal into a 1-bit digital signal.
REFERENCES:
patent: 4772853 (1988-09-01), Hart
patent: 4839606 (1989-06-01), Hallock
patent: 4968987 (1990-11-01), Naka et al.
patent: 5550544 (1996-08-01), Sakiyama et al.
patent: 5649054 (1997-07-01), Oomen et al.
patent: 5825253 (1998-10-01), Mathe et al.
patent: 5940138 (1999-08-01), Lowe
patent: 6326911 (2001-12-01), Gomez et al.
patent: 05-102851 (1993-04-01), None
Fukuhara Yukio
Toyama Akira
Jordan and Hamburg LLP
Nippon Precision Circuits Inc.
Wamsley Patrick
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