JP2657714B2 - Sound generator - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a sound generator, and more particularly to control of a sound volume level.

(Prior art and its problems) As a voice generator used for a voice response device, etc.,
For example, those having the configuration shown in FIG. 1 are often used. This device is a read-only voice memory unit (1) that stores voice data that has been analyzed and digitized in advance.
(ROM), a user program memory unit (2) for determining the selection and reproduction order of audio items, and control for reading data stored in the audio memory unit (1) based on a program in the user program memory unit (2). Circuit part (3)
And a voice synthesizing unit (4) that converts the read digital data into analog and reproduces the voice, and an amplifying unit (5) for the voice analog signal generated here and a speaker (6). Reference numeral (7) denotes a control program memory unit having a control program for instructing the operation of the control circuit unit (3).

By the way, the sound volume level in the above-mentioned sound generating device was initially constant. However, with the recent increase in use of voice response devices and the like, due to noise problems in the use environment, etc., it has been required to enable multi-stage control of the sound volume level so that it can be generated under better conditions. The means for varying the volume level as described below has been put to practical use. In this method, as shown in FIG. 2 (the same reference numerals as in FIG. 1 indicate the same parts), data for determining the volume of the sound is stored in the reproduction program data in the user program memory unit (2), The control circuit part (3)
Data reproduced by the digital-to-analog conversion circuit (8) is converted into analog data by a digital-to-analog conversion circuit (8),
The analog signal generated in step (1) is passed through an analog multiplier (9) to control the output volume.

However, in order to make the volume level variable in a plurality of stages by this method, it is necessary to rewrite the contents of the user program memory section (2) in which the fixed data for determining the volume is stored each time it is changed. . However, this rewriting is not only easy, but also requires an expensive analog multiplier, so that there is a problem to be solved such that the sound generator becomes expensive.

(Object of the Invention) The present invention does not require a troublesome means for rewriting the contents of the user program memory unit one by one every time the volume level is changed as in the above-mentioned conventional method. The present invention has been made to solve the problems of the conventional device by providing a sound generator which can change the maximum level and the minimum level easily by manual operation.

(Means of the Present Invention for Solving the Problems) A feature of the present invention is that, instead of the amplifying unit described with reference to FIG. The feedback resistor is controlled by a control command signal from a user program memory unit read out by a designation by a control circuit unit to vary a sound level. Next, the present invention will be described with reference to examples.

(Embodiment) (Configuration) FIG. 3 is a circuit diagram of an embodiment of the present invention in which the volume level can be controlled in three stages of maximum, normal and minimum as shown in Table 1, and FIG. FIG. 4 is an essential part extract diagram of a user program in a user program memory unit.

In FIG. 3, (1) is an audio memory unit, and (2) is a user program memory unit. As shown in the main part excerpt of the program example shown in FIG. 4, the most significant bit MSB side data line D
And for setting the voice synthesis mode by ₂ D ₃ D _4, the least significant bit LSB
It is composed of volume level selection commands by the side data lines D ₀ and D ₁ . (3) is a control circuit unit, (7) is a control program memory unit, (4) is a voice synthesis unit, (10) is a volume level control unit, (6) is a speaker, and a volume level control unit (10) is It consists of each part. OA is an operational amplifier, R ₁ is a fixed resistor (resistance value r ₁ ), R ₂ is a fixed feedback resistor (resistance value
r ₂ ), VR1 and VR2 are variable feedback resistors (resistance values RVR1 and RVR2),
LA latch circuits, SW1, SW2 is an analog switch, a variable feedback resistor VR1 and the fixed feedback resistor R ₂ is connected between the input and output terminal of the operational amplifier OA is connected in series to the variable feedback resistor VR1 Are connected to the switch SW1 in parallel. The variable feedback resistor VR2 via the switch SW2, is connected in parallel to the fixed feedback resistor R _2.

(Operation) The control circuit (3) reads out the specified voice data from the voice memory unit (1) and reads the voice data from the voice memory unit (1) according to a program from the user program memory unit (2) preliminarily prepared by the user. Add to Then, the voice synthesis unit (4) generates a voice analog signal based on the transmitted voice data. The operational amplifier OA of the volume level control unit (10) amplifies the audio analog signal.

On the other hand, in the present invention, in addition to the same operation as the above-mentioned conventional one, the volume level control unit (10) is controlled based on the volume level control data from the user program memory unit (2) sent from the control circuit unit (3). An operation for determining the amplification factor of the operational amplifier OA is performed. That is, when the volume level up, as in Table 1, the volume level control data line D ₀ D _1, the data to both OFF switches SW1, SW2, by a command from the program memory unit (7) The control circuit section (3) reads out the data and holds it in addition to the latch circuit LA. Thus switch SW1, SW2 is turned together with OFF, the feedback resistance of the operational amplifier OA to RVR1 + r _2. Therefore, the amplification rate is the maximum RVR1 +
r ₂ / r ₁ and this state is maintained until the control circuit (3) reads the minimum or normal control data in Table 1. Next, when specifying the intermediate level, switch SW
The control data that turns 1 ON and SW2 OFF is sent to the control circuit (3).
From the program memory unit (2). Then feedback resistance value is only made gain resistance r ₂ of the fixed feedback resistor R ₂ becomes r ₂ / r _1. To set the minimum level, turn on both switches SW1 and SW2 in the same manner,
Synthesis feedback resistance value becomes _{RVR2 · r 2 / r 2 +} RVR2. Therefore,
Here, when the r ₂ »RVR2, the feedback resistance value becomes RVR2, amplification factor. Therefore RVR2 / r _1, may be a volume level to the minimum. From the above, the maximum level can be varied by controlling the variable feedback resistor VR1, and the minimum level can be adjusted by the variable feedback resistor VR2.

(Effects of the Invention) As is clear from the above, according to the present invention, an arbitrary volume level can be selected by a program set in the user program memory unit, and at the same time, the value of the selected audio level is manually adjusted by the variable feedback resistor. The adjustment can be further adjusted, and finer volume settings can be easily made as compared with the conventional one. Therefore, sound can be generated at an appropriate volume according to the usage environment. In addition, since an expensive analog multiplier is not used, the value of the volume level control unit can be reduced to about 1/3 of a conventional control unit using an analog multiplier.

[Brief description of the drawings]

1 and 2 are circuit diagrams of a conventional device, FIG. 3 is a circuit diagram of an embodiment of the present invention, and FIG. 4 is an example diagram of a user program. (1) Voice memory section, (2) User program memory section, (3) Control circuit section, (4) Voice synthesis section, (5) Amplifier section, (6) Speaker, (7) ...
... Control program memory section, (8) ... Digital / analog conversion circuit section, (9) ... Analog multiplier, (10) ...
… Volume level control unit, OA… Operational amplifier, R ₁ , R ₂ …… Fixed feedback resistors, VR1, VR2 …… Variable feedback resistors, SW1, SW2…
… Analog switch, LA …… Latch circuit.

Claims (1)

(57) [Claims] An audio memory unit (1) for storing data digitized by analyzing voice in advance, and storing audio data stored in the audio memory unit (1) in a user program memory unit (2). , A voice synthesizing unit (4) for converting the read voice digital data into analog and playing back the voice, and a voice analog signal generated by the voice synthesizing unit (4). A sound generator comprising an amplifier (5) and a generation speaker (6), wherein the amplifier (5) is connected in series with a first variable feedback resistor (VR1) and a fixed feedback resistor (R ₂ ). while the operational amplifier having a feedback circuit by the circuit (OA), on and off between the respective Ryotanshi each of said first variable feedback resistor (VR1) and the fixed feedback resistor (R ₂₎ The first switch circuit (SW1 Or the second switch circuit (SW2) is connected and the fixed feedback resistor (R ₂₎ to the second switching circuit (SW2) connected to the second variable feedback resistor (VR2) is connected in series The first switch circuit (SW1) and / or the second switch circuit (SW2) are connected between both terminals of the fixed feedback resistor (R ₂ ). The resistance value of the feedback circuit is set to a required resistance value by controlling according to the command output set in 2), and the first variable feedback resistor (VR1) and / or the second variable feedback resistor ( VR2) by manually adjusting the resistance of the feedback circuit to adjust the amplification factor of the operational amplifier (OA) to adjust the generated audio level.