JPS59230311A - Sound volume controller - Google Patents

Abstract

PURPOSE:To avoid giving unnatural feeling to the listeners by holding the level of sound volume set immediately before the power supply of a digital counter which controls a sound volume controller is turned off to compare the level with the initial set value and supplying the value with which the sound volume is reduced to a digital counter. CONSTITUTION:The count value of an up/down counter 6 is varied by up- and down-keys 1 and 2, and at the same time the signals that turned off the keys 1 and 2 are applied also to a memory control circuit 8. The circuit 8 extracts the count value of the counter 6 in accordance with the signal of that time point in the form of the write data and writes it to a nonvolatile memory 9. Therefore the final value of the counter 6 obtained immediately before a power supply is switched off is always kept at the memory 9. When the power supply is applied again, the circuit 8 reads out the data of the memory 9 and applies it to a comparison setting circuit 7. The circuit 7 compares the held data with the initial value, and the data with which the sound volume is reduced is fetched to the counter 6.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a sound device such as a television, radio, or stereo equipment, and particularly to a volume control device that digitally controls the volume using a count value of a digital counter.

FIG. 1 is a block diagram of a circuit configuration of a conventional digital volume control device. When the power is on, the count value of the up/down counter 6 is increased or decreased by using the up key 1 and the down key 2. For example, up/
Assuming that the count value of the down counter 6 changes in 64 steps from 0 to 63, when the up key 1 is turned on, the up/down counter 6 counts up to the maximum (i![63) in the direction of increasing the count value. Conversely, when the down key 2 is turned on, the up/down counter 6 counts down in the direction of decreasing its count value to the minimum value 0.

The count value of the up/down counter 6 is sent to a digital/analog converter (for example, as a 6-bit data output).
The data is supplied to a D/A converter (D/A converter) 5 and converted into an analog voltage according to the data.

This voltage is smoothed by an integrating circuit 4 and applied to a volume control circuit 3 including a voltage-controlled variable attenuator to control its amount of attenuation. As a result, the audio signal input to the volume control circuit 3 is output as an audio signal output whose volume is controlled to a predetermined value.

By the way, in a digital volume control device having such a configuration, when mi is turned on, that is, when it is turned on from off, the count value of the up/down counter 6 is undefined, and the initial volume output when the power is turned on is The values can be of various magnitudes. Therefore, the conventional volume control device is provided with an initial value setting circuit 10 for determining the count value of the up/down counter when Nw is input, that is, the initial value. This initial value setting circuit 10 operates in response to a power-on signal, and updates/uploads a preset initial value.
This is a circuit that feeds the down counter 6. For example, when the up/down counter changes in 64 steps from O to 63 as described above, if the initial value is set to "21" by the initial value setting circuit 10, the up/down counter changes in 64 steps from O to 63.
The count value of the down counter 6 is always set to the initial value "21".

Therefore, 1! The volume of the output audio when the power is turned on is always one-third of the maximum volume, thereby preventing the problem of the initial volume value becoming unstable.

However, for the viewer, such a conventional configuration is not easy to use, and has the disadvantage that the output volume feels unnatural when the power is turned on again.

This is because devices that include audio output, such as radios and televisions, generally require the iIM to be reactivated after the device is turned off.
When the power is turned on, it is natural that the volume output is the same as when the power was turned off. Particularly if the time that the M'S is turned off is short, the difference in volume between when the power is turned off and when the power is turned on again will make the sound unnatural.

Therefore, the data that should control the volume, that is, the count value of the up/down counter 6, is written to a nonvolatile memory that stores its contents even when the power is off, and when the power is turned on, the count value is read from the nonvolatile memory. Reading 1,
By setting the initial count value of the up/down counter to the count value stored in non-volatile memory, the volume when the device is turned off will be conveniently output as is when the device is turned on again. It is thought that it is.

However, such a configuration has the following drawbacks. For example, if 'IB1g is turned off at the maximum volume, then when wlm is turned on next, the audio at the maximum volume will be output. In this case, if the time from turning off the power to turning it on is extremely short, it will sound natural and there will be no problem.

However, if you turn off the power during the daytime, and then turn it on at night, a loud sound will suddenly be output, which will not only surprise the viewer but also disturb those around you. It may also result in adding more.

5- In the case of a digital volume control device, such as an analog volume control device using a variable resistor, turn the knob while the power is off to adjust the volume when the power is turned on. Therefore, even when the volume was configured so that the volume when the power was turned off was output as is when the power was turned on as described above, the problem still remained.

SUMMARY OF THE INVENTION An object of the present invention is to provide a volume control device that is easy to use and provides a natural feel by eliminating the drawbacks of the conventional digital volume control devices described above.

Simply put, this invention consists of a non-volatile memory that stores the count value of a digital counter immediately before the power is turned off, an initial value setting circuit that sets the initial value of the digital counter, and a non-volatile memory that stores the count value of the digital counter immediately before the power is turned off. This volume control device includes means for comparing the count value read from the digital counter with the initial value set in the initial value setting circuit and setting the initial value of the digital counter using the smaller count value.

The above-mentioned objects and features of this invention can be understood with reference to the drawings. It will become clearer from the description of the following examples.

FIG. 2 is a block diagram of a circuit configuration of a volume control device according to an embodiment of the present invention. The feature of this embodiment is that a comparison setting circuit 7, a memory control circuit 8, and a nonvolatile memory 9 are provided. The memory control circuit 8 extracts the count value of the up/down counter 6 as write data and writes it into the non-volatile memory 9, and reads out the written data from the non-volatile memory 9 in response to a power-on signal and compares it. It operates to give the setting circuit 7. The comparison setting circuit 7 has a function of setting the initial value of the up/down counter,
It has a function of comparing the memory read data given from the memory control circuit 8 with the set initial value and initializing the up/down counter 6 with the smaller value.

The nonvolatile memory 9 is a memory that retains its memory even when the power is turned off. Note that the other circuit configurations are the same as those of the conventional example shown in FIG. 1 described above, and the same parts are given the same numbers and the explanation thereof will be omitted here.

Next, the operation of this circuit will be explained. When the up key 1 is turned on while the power is on, the count value of the up/down counter 6 changes to increase. vice versa,
When the down key 2 is turned on, the count value of the up/down counter 6 changes to decrease. For example, if the count value of the up/down counter changes in 64 steps from 0 to 63, the count value can be set to a predetermined value using the up key 1 or the down key 2.

The set count value of the up/down counter 6 is outputted to the D/A converter 5 as a 6-bit data output, for example.
and is converted into an analog voltage according to the given data. This analog voltage is then applied to the integrator circuit 4.
The signal is smoothed by a voltage-controlled variable attenuator and is applied to a volume control circuit 4 that includes a voltage-controlled variable attenuator. As a result, the audio signal input to the volume control circuit is adjusted to a predetermined level and output.

When changing the count value of the up/down counter 6 using the up key 1 or down key 2, if the up key 1 or down key 2 is turned on, the count value of the up/down counter 6 increases or decreases sequentially. . Then, when the up key 1 or the down key 2 is turned off, the count change of the up/down counter 6 stops. At this time, a signal indicating that the up key or down key is turned off is also given to the memory control circuit 8.

Then, the memory control circuit 8 takes out the current count value of the up/down counter 6 as write data in response to the signal. Then, the count value is written into the nonvolatile memory 9.

To put it more simply, when the count value of the up/down counter 6 is changed using the up key 1 or the down key 2, and the count value of the up/down counter 6 settles to the count value (stops), the count value is changed. The value is written into non-volatile memory 9 by memory control circuit 8.

If the power is turned off after that without changing the count value of the up/down counter 6, that is, without changing the volume of the output audio signal, the non-volatile memory will store the last written count value. is retained as is.

Next, when the voice control device is turned on, a power-on signal indicating that it has been turned on is given to the memory control circuit 8. In response, memory control circuit 8 reads the data written in nonvolatile memory 9 and provides it to comparison setting circuit 7 .

The comparison setting circuit 7 has a preset function, and the initial value of the up/down counter 6 is set in advance. When the comparison setting circuit 7 is given read data from the memory control circuit 8, the comparison setting circuit 7 compares the read data with a set initial value. If the count value read from the non-volatile memory 9 (successive data given by the memory control circuit 8) is smaller, the count value read from the non-volatile memory 9 is set as an initial value in the up/down counter 6. give. Conversely, if the count value read from the non-volatile memory 9 is compared with the set initial value and the set initial value is smaller, the set initial value is stored in the hot 10-up/down counter. 6 as the initial value.

By doing this, if the volume when the power is turned off is smaller than the initial value set in the comparison setting circuit 7, the initial volume when the power is turned on again is the same as the volume when the power was turned off. It will be output as is. Also,
If the volume when the power is turned off is higher than the initial value set in the comparison setting circuit 7, the output volume will be limited to the initial value when the power is turned on again.

Therefore, when the power is turned on again, the volume is output as it was when the power was turned off, within a range that does not exceed the set initial value, and the volume does not give an unnatural feeling to the viewer.

In addition, if the volume when the power is turned off is relatively large and exceeds the initial setting value, the volume will be reduced to the initial setting value when the power is turned on again. This prevents loud sounds from being output, which prevents viewers from being surprised or causing trouble to those around them.

In the embodiment shown in FIG. 2, the present invention is configured in a so-called hardware manner using circuits such as the memory control circuit 8 and the comparison setting circuit 7. However, when this invention is used, for example, in a color television, where a microcomputer is used to control the entire tuning system, the present invention can be implemented by using a microcomputer that controls the entire tuning system. Functions can also be realized. In such a case, the present invention can be realized in a so-called software manner. In addition, if the nonvolatile memory used in the present invention is provided in advance for channel selection, for example, if a part of it is used for volume control, the cost of the equipment itself to which this volume control device is applied can be reduced. It doesn't lead to up.

As described above, the present invention includes a nonvolatile memory that stores the count value of a digital counter immediately before the power is turned off, an initial value setting means that sets the initial value of the digital counter, and a nonvolatile memory that stores the count value of the digital counter immediately before the power is turned off. The count value read out from the initial value setting means and the initial value set by the initial value setting means are not output at the time of comparison, so that the viewer is not surprised and the surrounding people are not disturbed. Furthermore, if the volume when the power is turned off is less than the set value, when the power is turned on again, the same volume as when the power was turned off is output, so that the viewer does not feel uncomfortable. As described above, according to the present invention, it is possible to provide a volume control device with high commercial value.

[Brief explanation of drawings]

FIG. 1 is a block diagram of a circuit configuration of a conventional digital volume control device. FIG. 2 is a circuit configuration block diagram of an embodiment of the present invention. In the figure, 3 is a volume control circuit including a voltage-controlled variable attenuator, 6 is an up/down counter (digital counter), 7 is a comparison setting circuit, 8 is a memory control circuit, and 9 is a nonvolatile memory. Agent Masuo Oiwa 13-

Claims (1)

[Claims] In a volume control device that controls a voltage-controlled variable attenuator with a voltage determined by a count value of a digital counter and adjusts the level of an output audio signal, the count value of the digital counter immediately before the power is turned off. a nonvolatile memory that stores a value and retains the memory even after the power is turned off; an initial value setting means that sets the initial value of the digital counter; The count value is compared with the initial value set in the initial value setting means, and if the count value read from the non-volatile memory is smaller, the digital counter is initialized with that count value, and the non-volatile and a comparison setting circuit that initializes the digital counter with the initial value set in the initial value setting means when the count value read from the digital memory is larger.