JP5699823B2 - Balanced / unbalanced signal output circuit - Google Patents

Description

  The present invention relates to a balanced / unbalanced signal output circuit.

  Conventionally, a circuit that outputs a balanced signal and an unbalanced signal in an audio apparatus is known.

  6 and 7 show an example of a circuit configuration for outputting a balance signal and an unbalance signal. FIG. 6 shows a configuration when a positive phase signal is output from the D / A converter, and FIG. 7 shows a configuration when a positive phase signal and a negative phase signal are output from the D / A converter.

  In FIG. 6, a positive phase signal DAC + is output from the D / A converter 100. The positive phase signal DAC + is supplied to the amplifiers 102, 104, and 106, respectively. The amplifier 104 is an inverting amplifier. The selector switches 108, 110, and 112 are connected to the output terminals of the amplifiers 102, 104, and 106, respectively, and the ground and the output terminals of the amplifiers 102, 104, and 106 are switched and output. The balance HOT signal is output by switching the changeover switch 108 to the amplifier 102 side. Further, the balance COLD signal is output by switching the changeover switch 110 to the amplifier 104 side. Furthermore, an unbalance signal is output by switching the changeover switch 112 to the amplifier 106 side. Therefore, when outputting a balance signal, the selector switches 108 and 110 are switched to the amplifiers 102 and 104, respectively, and the selector switch 112 is switched to the ground side. When outputting an unbalanced signal, the selector switches 108 and 110 are respectively switched to the ground side, and the selector switch 112 is switched to the amplifier 106 side.

  In FIG. 7, the D / A converter 100 outputs a normal phase signal DAC + and a negative phase signal DAC− whose phase is inverted by 180 °. The positive phase signal DAC + is supplied to the amplifiers 102 and 105, respectively. Further, the negative phase signal DAC− is supplied to the amplifiers 103 and 105, respectively. The amplifier 105 is a differential amplifier, and calculates and outputs the differential between the positive phase signal DAC + and the negative phase signal DAC−. The selector switches 108, 110, and 112 are connected to the output terminals of the amplifiers 102, 103, and 105, respectively, and the ground and the output terminals of the amplifiers 102, 103, and 105 are switched and output. The balance HOT signal is output by switching the changeover switch 108 to the amplifier 102 side. Further, the balance COLD signal is output by switching the changeover switch 110 to the amplifier 103 side. Furthermore, an unbalance signal is output by switching the changeover switch 112 to the amplifier 105 side. Therefore, when outputting a balance signal, the selector switches 108 and 110 are switched to the amplifiers 102 and 103, respectively, and the selector switch 112 is switched to the ground side. When outputting an unbalanced signal, the selector switches 108 and 110 are respectively switched to the ground side, and the selector switch 112 is switched to the amplifier 105 side.

  The following Patent Document 1 discloses that terminals for balanced input and unbalanced input are shared, and the balance input and unbalanced input are switched by switching the switch by manual operation.

  Patent Document 2 discloses switching between balanced connection and unbalanced connection by inserting and removing a pin plug.

Japanese Patent No. 3148532 No. 03-005116

  In the configuration of FIG. 6, the non-inverting amplifier 102 and the inverting amplifier 104 are used to output the balanced HOT signal and the balanced COLD signal, and the balanced outputs are symmetrical because the amplifiers having different configurations are used for the HOT and the COLD. Sex matters.

  Further, in the configuration of FIG. 7, since the non-inverting amplifiers 102 and 103 are both used to output the balanced HOT signal and the balanced COLD signal, there is no problem of symmetry, but three amplifiers are necessary. The configuration becomes complicated and the cost increases due to an increase in the number of parts. In particular, in the unbalanced output, only the differential amplifier 105 contributes to the output operation, and the amplifiers 102 and 103 do not contribute to the unbalanced output at all, resulting in a useless circuit.

  An object of the present invention is to provide a circuit capable of switching and outputting a balance signal and an unbalance signal with a simple configuration while maintaining symmetry of the balance output.

  The balanced / unbalanced signal output circuit of the present invention selects a first amplifier that amplifies an analog positive-phase signal and an analog positive-phase signal or an analog negative-phase signal obtained by inverting the phase of the analog positive-phase signal. A second amplifier for amplifying, a first changeover switch for selectively switching the output from the first amplifier and the ground to output to the balance HOT terminal, and an output for the second amplifier and the ground selectively A second changeover switch that outputs to the balance COLD terminal, a third changeover switch that selectively outputs between the output from the second amplifier and the ground and outputs to the unbalanced terminal, and an output from the first amplifier And a fourth changeover switch that selectively switches between ground and output to the unbalanced terminal.

  In one embodiment of the present invention, in the case of balanced output, the second amplifier amplifies the analog reverse phase signal, and the first changeover switch outputs the output from the first amplifier to the balanced HOT terminal. The second change-over switch outputs the output from the second amplifier to the balance COLD terminal, and the third change-over switch and the fourth change-over switch are both switched to the ground and are in the case of unbalanced output. The second amplifier amplifies the analog positive phase signal, the first changeover switch and the second changeover switch are both switched to the ground, and the third changeover switch outputs the output from the second amplifier. The fourth changeover switch outputs the output from the first amplifier to the unbalanced terminal.

  In another embodiment of the present invention, an inverting element that is provided before the second amplifier and outputs an analog negative-phase signal by inverting the phase of the analog positive-phase signal, the analog positive-phase signal, A fifth selector switch that selectively switches the analog negative-phase signal from the inverting element and outputs the signal to the second amplifier.

In another embodiment of the present invention, a first D / A converter that converts digital data into an analog positive-phase signal and outputs the signal to the first amplifier; and the digital data or inverted digital data obtained by inverting the digital data. A second D / A converter that selectively converts one of the signals and outputs an analog positive-phase signal or an analog negative-phase signal to the second amplifier.
In still another embodiment of the present invention, an inverting element that is provided before the second D / A converter and inverts the digital data, the digital data, and inverted digital data from the inverting element is selected. And a fifth changeover switch that outputs the signal to the second D / A converter.

  According to the present invention, a balanced signal and an unbalanced signal can be switched and output without waste with a simple configuration while maintaining the symmetry of the balance output.

It is a circuit block diagram of the L channel of 1st Embodiment. It is a circuit block diagram at the time of the balance output in 1st Embodiment. It is a circuit block diagram at the time of unbalanced output in 1st Embodiment. It is a circuit block diagram of the L channel of 2nd Embodiment. It is a circuit block diagram of the L channel of 3rd Embodiment. It is a conventional circuit block diagram. It is a conventional circuit block diagram.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

<First Embodiment>
FIG. 1 shows a circuit configuration of a balanced / unbalanced signal output circuit in the present embodiment. The circuit of this embodiment can be incorporated in a digital-analog converter device (DAC component) in an audio system, for example.

  FIG. 1 shows an L channel circuit configuration among L channel and R channel circuit configurations. Since the circuit configuration of the R channel is the same as that of the L channel, description thereof is omitted.

  In FIG. 1, two D / A converters 10 and 12 are provided for L channel digital audio data. The D / A converter (first D / A converter) 10 is supplied with digital audio data (positive phase) and also with each clock signal of word clock and bit clock.

  A digital audio signal (positive phase) is supplied to the D / A converter (second D / A converter) 12 via the inverting element 13 and the changeover switch 14, and each clock signal of the word clock and the bit clock is received. Supplied. The changeover switch 14 has an a contact and a b contact, and when switched to the a contact side, digital audio data (reverse phase) obtained by inverting digital audio data (normal phase) by the inverting element 13 is supplied to the D / A converter 12. When switched to the b contact side, the digital audio data (positive phase) is supplied to the D / A converter 12 as it is.

  An amplifier (first amplifier) 16 is connected to the output terminal of the D / A converter 10, and the output terminal of the amplifier 16 is further connected to the changeover switches 20 and 26.

  An amplifier (second amplifier) 18 is connected to the output terminal of the D / A converter 12, and the output terminal of the amplifier 18 is further connected to the changeover switches 22 and 24.

  The changeover switch (first changeover switch) 20 is a switch for switching between the amplifier 16 side and the ground side, and its output end is connected to a balanced HOT output terminal.

  The changeover switch (second changeover switch) 22 is a switch for switching between the amplifier 18 side and the ground side, and its output end is connected to a balanced COLD output terminal.

  The changeover switch (third changeover switch) 24 is a switch for switching between the amplifier 18 side and the ground side, and its output end is connected to an unbalanced output terminal.

  The changeover switch (fourth changeover switch) 26 is a switch for switching between the amplifier 16 side and the ground side, and its output end is connected to an unbalanced output terminal similarly to the changeover switch 24.

  The changeover switches 20, 22, 24, and 26 also serve as a mute circuit, and when the user desires mute, all the contacts are switched to the ground side.

  Further, the changeover switch (fifth changeover switch) 14 and the changeover switches 20, 22, 24, and 26 are interlocked, and the user switches these changeover switches 14, 20, 22, and 24 by switching a single manual operation switch. , 26 are switched in conjunction with each other.

  Hereinafter, the operation of the circuit in this embodiment will be described separately for the case of outputting a balanced signal and the case of outputting an unbalanced signal.

  FIG. 2 shows a circuit configuration in the case of balanced output. The changeover switch 14 is switched to the a contact side, that is, the inverting element 13 side. Further, the selector switch 20 is switched to the amplifier 16 side, the selector switch 22 is switched to the amplifier 18 side, and the selector switches 24 and 26 are both switched to the ground side.

  Digital audio data (positive phase) is supplied to the D / A converter 10. The D / A converter 10 converts the digital audio data into an analog signal and outputs it to the amplifier 16 as an analog positive phase signal. The amplifier 16 amplifies the analog positive phase signal and outputs it to the changeover switches 20 and 26.

  The D / A converter 12 is supplied with digital audio data inverted by the inverting element 13, that is, digital audio data (reverse phase). The D / A converter 12 converts digital audio data (reverse phase) into an analog signal and outputs the analog signal to the amplifier 18 as an analog reverse phase signal. The amplifier 18 amplifies the analog reverse phase signal and outputs it to the changeover switches 22 and 24.

  Since the switch 20 is switched to the amplifier 16 side and the switch 22 is switched to the amplifier 18 side, the switch 20 outputs the analog positive phase signal from the amplifier 16 to the balance HOT terminal, and the switch 22 is switched from the amplifier 18. Is output to the balanced COLD terminal. On the other hand, since both the changeover switches 24 and 26 are switched to the ground side, they are in a mute state and no signal is output.

  As described above, an analog positive phase signal is output from the balance HOT terminal, and an analog negative phase signal is output from the balance COLD terminal. Note that although not output from the unbalanced terminal, the two amplifiers 16 and 18 are both operating for balanced output. Further, since the amplifiers 16 and 18 for balanced output are the same amplifier, there is no symmetry shift that may occur when one is a non-inverting amplifier and the other is an inverting amplifier.

  FIG. 3 shows a circuit configuration in the case of unbalanced output. The changeover switch 14 is switched to the b contact side. Further, the selector switches 20 and 22 are switched to the ground side, the selector switch 24 is switched to the amplifier 18 side, and the selector switch 26 is switched to the amplifier 16 side.

  Digital audio data (positive phase) is supplied to the D / A converter 10. The D / A converter 10 converts the digital audio data into an analog signal and outputs it to the amplifier 16 as an analog positive phase signal. The amplifier 16 amplifies the analog positive phase signal and outputs it to the changeover switches 20 and 26.

  Digital audio data (positive phase) is also supplied to the D / A converter 12. The D / A converter 12 converts the digital audio data (positive phase) into an analog signal and outputs the analog signal to the amplifier 18 as an analog positive phase signal. The amplifier 18 amplifies the analog reverse phase signal and outputs it to the changeover switches 22 and 24.

  Since the changeover switches 20 and 22 are switched to the ground side, they are in a mute state and no signal is output. The changeover switch 24 outputs the analog positive phase signal from the amplifier 18 to the unbalanced terminal, and the changeover switch 26 outputs the analog positive phase signal from the amplifier 16 to the unbalanced terminal.

  As described above, the analog positive phase signal is output from the unbalanced terminal. Although not output from the balanced terminal, the two amplifiers 16 and 18 are both operating for unbalanced output, and the two amplifiers 16 and 18 both amplify and output an analog positive phase signal. Note that the performance is substantially doubled.

  In this embodiment, the balance signal and the unbalance signal are selectively output, and the balance signal and the unbalance signal are not output at the same time, but it is extremely rare when the balance signal and the unbalance signal are used simultaneously. Therefore, there is no problem in practical use. In addition, since the balance signal and the unbalance signal are selectively output, even if a cable or the like is connected to the balance terminal and the unbalance terminal at the same time, they do not affect each other.

Second Embodiment
Although the D / A converters 10 and 12 are used in the first embodiment, it is not always necessary to use the D / A converter.

  FIG. 4 shows a circuit configuration of a balanced / unbalanced signal output circuit in the present embodiment. The circuit according to this embodiment includes two amplifiers 16 and 18, an inverting element 14, and changeover switches 14, 20, 22, 24, and 26.

  The analog positive phase signal is supplied to the amplifier 16. The analog positive phase signal is supplied to the amplifier 18 via the inverting element 13 and the changeover switch 14.

  An output terminal of the amplifier (first amplifier) 16 is connected to the changeover switches 20 and 26. The output terminal of the amplifier (second amplifier) 18 is connected to the changeover switches 22 and 24.

  The changeover switch (first changeover switch) 20 is a switch for switching between the amplifier 16 side and the ground side, and its output end is connected to a balanced HOT output terminal.

  The changeover switch (second changeover switch) 22 is a switch for switching between the amplifier 18 side and the ground side, and its output end is connected to a balanced COLD output terminal.

  The changeover switch (third changeover switch) 24 is a switch for switching between the amplifier 18 side and the ground side, and its output end is connected to an unbalanced output terminal.

  The changeover switch (fourth changeover switch) 26 is a switch for switching between the amplifier 16 side and the ground side, and its output end is connected to an unbalanced output terminal similarly to the changeover switch 24.

  The changeover switches 20, 22, 24, and 26 also serve as a mute circuit, and when the user desires mute, all the contacts are switched to the ground side.

  Further, the changeover switch (fifth changeover switch) 14 and the changeover switches 20, 22, 24, and 26 are interlocked, and the user switches these changeover switches 14, 20, 22, and 24 by switching a single manual operation switch. , 26 are switched in conjunction with each other.

  The configurations of the amplifiers 16 and 18 and the changeover switches 20 to 26 are the same as those in the first embodiment.

  In the case of balanced output, the changeover switch 14 is switched to the a contact side. Further, the changeover switches 20 and 22 are switched to the amplifiers 16 and 18, respectively, and the changeover switches 24 and 26 are switched to the ground side.

  The amplifier 16 amplifies the analog positive phase signal and outputs it to the changeover switches 20 and 26. The amplifier 18 is supplied with the analog negative phase signal from the inverting element 13, and the amplifier 18 amplifies the analog negative phase signal and outputs it to the changeover switches 22 and 24.

  The changeover switch 20 outputs the analog positive phase signal from the amplifier 16 to the balanced HOT terminal. The changeover switch 22 outputs the analog reverse phase signal from the amplifier 18 to the balance COLD terminal. Since the changeover switches 24 and 26 are switched to the ground side, they are in a mute state and do not output a signal.

  In the case of unbalanced output, the changeover switch 14 is switched to the b contact side. Further, the changeover switches 20 and 22 are switched to the ground side, and the changeover switches 24 and 26 are switched to the amplifiers 18 and 16 side, respectively.

  The amplifier 16 amplifies the analog positive phase signal and outputs it to the changeover switches 20 and 26. The amplifier 18 is also supplied with the analog positive phase signal, and the amplifier 18 amplifies the analog positive phase signal and outputs it to the changeover switches 22 and 24.

  Since the changeover switches 20 and 22 are switched to the ground side, they are in a mute state and do not output a signal. The changeover switch 24 outputs the analog positive phase signal from the amplifier 18 to the unbalanced terminal. The changeover switch 26 outputs the analog positive phase signal from the amplifier 16 to the unbalanced terminal.

  Also in this embodiment, both the balanced output and the unbalanced output are not wasted because the amplifiers 16 and 18 are operating. Even in the case of balanced output, the balance HOT and the balance COLD are both outputs from the same amplifiers 16 and 18, so that symmetry is maintained. Further, in the case of unbalanced output, the balanced output is generated using the two amplifiers 16 and 18, so that drive performance is improved.

<Third Embodiment>
FIG. 5 shows a circuit configuration of a balanced / unbalanced signal output circuit in the present embodiment. The circuit according to this embodiment includes two amplifiers 16 and 18, changeover switches 20, 22, 24 and 26, and changeover switches 28 and 30.

  The analog positive phase signal is supplied to the amplifier 16 and is also supplied to the amplifier 18 via the changeover switch 28. The analog reverse phase signal is supplied to the amplifier 18 via the changeover switch 30.

  An output terminal of the amplifier (first amplifier) 16 is connected to the changeover switches 20 and 26. The output terminal of the amplifier (second amplifier) 18 is connected to the changeover switches 22 and 24.

  The changeover switch (first changeover switch) 20 is a switch for switching between the amplifier 16 side and the ground side, and its output end is connected to a balanced HOT output terminal.

  The changeover switch 22 (second changeover switch) is a switch for switching between the amplifier 18 side and the ground side, and its output end is connected to a balanced COLD output terminal.

  The changeover switch (third changeover switch) 24 is a switch for switching between the amplifier 18 side and the ground side, and its output end is connected to an unbalanced output terminal.

  The changeover switch (fourth changeover switch) 26 is a switch for switching between the amplifier 16 side and the ground side, and its output end is connected to an unbalanced output terminal similarly to the changeover switch 24.

  The changeover switches 20, 22, 24, and 26 also serve as a mute circuit, and when the user desires mute, all the contacts are switched to the ground side.

  Further, the changeover switches 28, 30 and the changeover switches 20, 22, 24, 26 are interlocked, and the user switches these changeover switches 20, 22, 24, 26, 28, 30 by switching a single manual operation switch. Switches in conjunction with each other. The changeover switches 28 and 30 are alternatively opened and closed. When the changeover switch 28 is in an on state, the changeover switch 30 is in an off state, and when the changeover switch 28 is in an off state, the changeover switch 30 is in an on state.

  The configurations of the amplifiers 16 and 18 and the changeover switches 20 to 26 are the same as those in the first embodiment.

  In the case of balanced output, the changeover switch 28 is turned off and the changeover switch 30 is turned on. Further, the changeover switches 20 and 22 are switched to the amplifiers 16 and 18, respectively, and the changeover switches 24 and 26 are switched to the ground side.

  The amplifier 16 amplifies the analog positive phase signal and outputs it to the changeover switches 20 and 26. In addition, an analog negative phase signal is supplied to the amplifier 18 via the changeover switch 30, and the amplifier 18 amplifies the analog negative phase signal and outputs it to the changeover switches 22 and 24.

  The changeover switch 20 outputs the analog positive phase signal from the amplifier 16 to the balanced HOT terminal. The changeover switch 22 outputs the analog reverse phase signal from the amplifier 18 to the balance COLD terminal. Since the changeover switches 24 and 26 are switched to the ground side, they are in a mute state and do not output a signal.

  When unbalanced output is performed, the changeover switch 28 is turned on and the changeover switch 30 is turned off. Further, the changeover switches 20 and 22 are switched to the ground side, and the changeover switches 24 and 26 are switched to the amplifiers 18 and 16 side, respectively.

  The amplifier 16 amplifies the analog positive phase signal and outputs it to the changeover switches 20 and 26. The analog positive phase signal is also supplied to the amplifier 18 via the changeover switch 28, and the amplifier 18 amplifies the analog positive phase signal and outputs it to the changeover switches 22 and 24.

  Since the changeover switches 20 and 22 are switched to the ground side, they are in a mute state and do not output a signal. The changeover switch 24 outputs the analog positive phase signal from the amplifier 18 to the unbalanced terminal. The changeover switch 26 outputs the analog positive phase signal from the amplifier 16 to the unbalanced terminal.

  Also in this embodiment, both the balanced output and the unbalanced output are not wasted because the amplifiers 16 and 18 are operating. Even in the case of balanced output, the balance HOT and the balance COLD are both outputs from the same amplifiers 16 and 18, so that symmetry is maintained. Further, in the case of unbalanced output, the balanced output is generated using the two amplifiers 16 and 18, so that drive performance is improved.

  In addition, as long as the balance / unbalance signal output circuit of the first to third embodiments is a device having a balance output and an unbalance output, any one of the embodiments can be applied.

  10, 12 D / A converter, 13 inverting element, 14 selector switch, 16, 18 amplifier, 20, 22, 24, 26, 28, 30 selector switch.

Claims (5)

A first amplifier for amplifying an analog positive-phase signal;
A second amplifier that selectively amplifies either the analog positive-phase signal or the analog negative-phase signal obtained by inverting the phase of the analog positive-phase signal;
A first changeover switch that selectively switches between the output from the first amplifier and the ground and outputs it to the balance HOT terminal;
A second changeover switch for selectively switching the output from the second amplifier and the ground and outputting it to the balance COLD terminal;
A third changeover switch for selectively switching the output from the second amplifier and the ground and outputting it to the unbalanced terminal;
A fourth changeover switch for selectively switching the output from the first amplifier and the ground and outputting it to the unbalanced terminal;
A balanced / unbalanced signal output circuit comprising: The balanced / unbalanced signal output circuit according to claim 1.
For balanced output,
The second amplifier amplifies the analog negative phase signal,
The first changeover switch outputs an output from the first amplifier to the balance HOT terminal,
The second changeover switch outputs an output from the second amplifier to the balance COLD terminal,
Both the third changeover switch and the fourth changeover switch are switched to the ground,
For unbalanced output,
The second amplifier amplifies the analog positive phase signal,
The first changeover switch and the second changeover switch are both switched to the ground,
The third changeover switch outputs the output from the second amplifier to the unbalanced terminal,
The fourth changeover switch outputs the output from the first amplifier to the unbalanced terminal. A balanced / unbalanced signal output circuit. The balanced / unbalanced signal output circuit according to claim 2,
An inverting element provided in a preceding stage of the second amplifier and inverting the phase of the analog positive phase signal to output an analog negative phase signal;
A fifth selector switch that selectively switches between the analog positive-phase signal and the analog negative-phase signal from the inverting element and outputs the signal to the second amplifier;
A balanced / unbalanced signal output circuit comprising: The balanced / unbalanced signal output circuit according to claim 2,
A first D / A converter for converting digital data into an analog positive-phase signal and outputting the analog data to the first amplifier;
A second D / A converter that selectively converts either the digital data or inverted digital data obtained by inverting the digital data and outputs an analog positive phase signal or an analog negative phase signal to the second amplifier;
A balanced / unbalanced signal output circuit comprising: The balanced / unbalanced signal output circuit according to claim 4,
An inverting element provided in a preceding stage of the second D / A converter and inverting the digital data;
A fifth changeover switch that selectively switches between the digital data and the inverted digital data from the inverting element and outputs to the second D / A converter;
A balanced / unbalanced signal output circuit comprising:

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