Coded data generation or conversion – Analog to or from digital conversion
Reexamination Certificate
2002-02-01
2004-05-18
Young, Brian (Department: 2819)
Coded data generation or conversion
Analog to or from digital conversion
C341S144000, C341S145000
Reexamination Certificate
active
06738001
ABSTRACT:
This application is based upon and claims priority of Japanese Patent Application Nos. 2000-140034 and 2001-132688, filed on May 12, 2000 and Apr. 27, 2001, the contents being incorporated herein by reference.
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to semiconductor integrated circuits for digital-to-analogue or analogue-to-digital conversion, particularly suitable for use in portable telephones, automobile telephones, cordless telephones, image processors, etc.
2. Description of the Related Art
FIG. 10
shows the construction of a conventional digital-to-analogue (D/A) converting system. A D/A converter (DAC)
101
converts n-bit digital signals D
1
to Dn into an analogue current signal, and then outputs it. A resistance
102
has the function of converting the current signal into a voltage signal. Between both terminals of the resistance
102
, an analogue voltage appears in accordance with the analogue current output by the D/A converter
101
. A low pass filter (LPF)
103
filters the analogue voltage signal generated by the resistance
102
, to pass only its low frequency components. The filter
103
thereby outputs an analogue voltage signal.
An electronic volume
107
comprises a reversal operational amplifier including an operational amplifier
106
, a fixed resistance
104
, and a variable resistance
105
. The ratio of the fixed resistance
104
to the variable resistance
105
determines the amplification factor of the electronic volume
107
. For controlling dispersion in manufacturing process, the output level of each such D/A converting system must be regulated before shipment as products, by changing the value of the variable resistance
105
in the electronic volume
107
.
The electronic volume
107
is thus necessary for controlling dispersion in manufacturing process of such D/A converting systems. But, it requires a large area. More specifically, since the electronic volume
107
includes the operational amplifier
106
, it cannot but occupy a large area on the semiconductor chip. This causes an increase in size of the whole D/A converting system.
Such D/A converting systems are used in portable telephones or the like, and their high speed operation has been required recently. The above-described low pass filter
103
is an RC type low pass filter with its input and output by voltage, and includes about five operational amplifiers in general. Conventionally, these D/A converting systems were operated at a relatively low speed, so the current consumption of each operational amplifier in the low pass filter
103
was little. In recent years, however, because of the demand for high speed operation of these D/A converting systems, the current consumption of each operational amplifier in the low pass filter
103
has increased to the extent of 2 to 3 mA. In addition, the current consumption of the operational amplifier
106
in the electronic volume
107
is also much. Consequently, the power consumption of the D/A converting system becomes much. This causes short battery lives in portable telephones or the like.
Besides, conventionally, discrete cells of an existing D/A converter
101
, an existing low pass filter
103
, and an existing electronic volume
107
which are designed individually, are combined into one semiconductor chip, and a resistance
102
is connected as an external resistance to the semiconductor chip. Such an exterior type resistance
102
can bring about a highly accurate fixed resistance, but causes an increase in size of the whole D/A converting system.
FIG. 11
shows the construction of a conventional analogue-to-digital (A/D) converting system. A low pass filter (LPF)
111
is an RC type low pass filter with its input and output by voltage, like the above-described low pass filter
103
. The filter
111
filters an analogue voltage signal AN to pass only its low frequency components. The filter
111
thereby outputs a filtered analogue voltage signal. An electronic volume
116
includes an operational amplifier
114
, a fixed resistance
112
, and a variable resistance
113
, like the above-described electronic volume
107
. The level of the analogue voltage signal filtered by the low pass filter
111
can be controlled by changing the value of the variable resistance
113
. An A/D converter (ADC)
115
converts the analogue voltage signal whose level has been adjusted by the electronic volume
116
, into n-bit digital signals D
1
to Dn.
Also in this A/D converting system, like the case of the above-described D/A converting system (see FIG.
10
), the electronic volume
116
is necessary for controlling dispersion in manufacturing process of such A/D converting systems, but the electronic volume
116
requires a large area, and thus causes an increase in size of the whole A/D converting system.
Besides, also in this A/D converting system, either of the current consumption of each operational amplifier in the low pass filter
111
and the current consumption of the operational amplifier
114
in the electronic volume
116
is much, and it causes short battery lives in a portable telephone or the like using this A/D converting system.
As described above, in either of the conventional D/A and A/D converting systems, the size of the whole system becomes large because the electronic volume with the operational amplifier occupies a large area.
Besides, since either of the current consumption of each operational amplifier in the low pass filter and the current consumption of the operational amplifier in the electronic volume is much, it causes short battery lives in a portable telephone or the like using such a D/A or A/D converting system.
Furthermore, in the D/A converting system (see FIG.
10
), the D/A converter
101
, the low pass filter
103
, and the electronic volume
107
are provided within one semiconductor chip, and the resistance
102
is connected as an external resistance to the semiconductor chip. This causes an increase in size of the whole D/A converting system.
SUMMARY OF THE INVENTION
It is an object of the present invention to make such an electronic volume as described above with no operational amplifier, thereby realizing reduced-size D/A or A/D converting systems.
It is another object of the present invention to reduce the current consumption of such an electronic volume, thereby realizing D/A or A/D converting systems with their reduced power consumption.
It is still another object of the present invention to reduce the current consumption of such a filter as described above, thereby realizing D/A or A/D converting systems with their reduced power consumption.
It is still another object of the present invention to provide reduced-size D/A converting systems by using an element that has both the function of a resistance for converting an analogue current signal output by a D/A converter, into an analogue voltage signal, and the function of such an electronic volume as described above.
It is still another object of the present invention to provide semiconductor integrated circuits capable of outputting stable voltages irrespective of manufacturing process conditions and/or environmental conditions.
According to an aspect of the present invention, a semiconductor integrated circuit comprises a digital-to-analogue converter for converting a digital signal into an analogue signal to output an analogue current signal, a current-to-voltage converter for converting the analogue current signal output by the digital-to-analogue converter, into an analogue voltage signal whose level has been controlled, and a filter for filtering the analogue voltage signal converted by the current-to-voltage converter. The current-to-voltage converter converts the current signal into the voltage signal in which a factor variable in accordance with manufacturing process conditions and/or environmental conditions has been corrected.
According to another aspect of the present invention, a semiconductor integrated circuit comprises a filter for filtering an input signal to output a filtered analogue curr
Mizutani Toru
Nanba Hiromi
Arent Fox Kintner & Plotkin & Kahn, PLLC
Nguyen John
Young Brian
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