JPH06292295A - Speaker equipment - Google Patents

Abstract

PURPOSE:To suppress high frequency instability of an amplifier and to improve sound quantity by absorbing a high frequency power component outputted from the amplifier with a resister so as not feed it back to the amplifier again. CONSTITUTION:A terminating end of a speaker cable is terminated by a resistor 6a whose resistance is 10ohms-1kohm and a resistor 5a whose resistance is >=20ohms by the resistance close to the characteristic impedance of the cable. Then the high frequency power component of the amplifier output to a terminal 9 is absorbed by the resistors 6a, 5a and then is not fed back again to the amplifier. Thus, instability of the amplifier by high frequency is suppressed to improve the sound quality. Moreover, it is prevented that an output impedance of a dividing network circuit 4 gets too small in an audible band by connecting a series capacitor 6b whose capacitance is 100pF-0.1muF with the resistor 6a thereby preventing deterioration in the sound. Furthermore, the output impedance of the circuit 4 is adjusted by connecting the resistors 5a, 5b to the speaker and the signal in a specific band is not strongly current-driven and metallic sound is avoided.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a speaker device.

[0002]

2. Description of the Related Art A conventional speaker device is shown in FIG.
The output of the dividing network circuit 4 is directly connected to the speaker unit as illustrated in FIG.

Since the input impedance of the voice coil of the speaker unit becomes extremely large in the high frequency range, it causes a mismatch with the characteristic impedance of the speaker cable. Therefore, the high-frequency power component output from the amplifier passes through the capacitor 4a of the dividing network circuit 4, is reflected by the high-frequency band speaker unit 2, and is returned to the amplifier output again. Therefore, there is a drawback that the operation of the amplifier in the high frequency region becomes unstable,
The inventors' research has revealed that the sound quality is adversely affected.

Conventionally, in a multi-way system using the dividing network circuit 4, the output impedance of the amplifier is small and the speaker cable 8 and
When the parasitic resistance component of the dividing network circuit 4 is small, there is a drawback that the speaker unit has a metallic tone color. The inventors' research has revealed that this phenomenon is due to the reason described below.

The response of the speaker unit to a signal differs between current driving when the signal source is the current source and voltage driving when the signal source is the voltage source. In the case of current driving, current is forcibly injected into the voice coil regardless of the resistance, inductance, and back electromotive force of the voice coil, so that the response to the rise of the signal becomes greater than that in voltage driving.

Further, in the case of current driving, since the counter electromotive force generated from the voice coil is not short-circuited on the signal source side, the action of electromagnetic braking on the voice coil during voltage driving does not work. Therefore, there are many residual vibrations in which the voice coil vibrates even when the input signal is cut off.

For the above two reasons, when the speaker unit is driven with a current in a specific band, a metallic tone color is obtained.

On the other hand, taking the treble band circuit in the LC / second-order dividing network circuit 4 as an example, the output impedance of the amplifier and the speaker cable 8,
When the parasitic resistance component of the dividing network circuit 4 is sufficiently small, the output impedance of the treble band circuit in the dividing network circuit 4 fluctuates greatly depending on the frequency, as shown in "when there is no resistor 5" in FIG. However, the output impedance is high in the vicinity of the crossover frequency of the dividing network circuit 4, and it becomes the same as the state where current driving is performed in a specific band. This is the reason for the metallic tone color.

However, conversely, the output impedance of the dividing network circuit 4 is too low, and even when it is close to voltage driving, the effect of electromagnetic braking becomes excessive, and the tone color of the speaker unit deteriorates. There is an optimum value for the output impedance of the dividing network circuit for the speaker unit.

[0010]

The problem to be solved by the present invention is that the high frequency power component output from the amplifier is reflected by the high frequency band speaker unit (2) and is returned to the amplifier again, so that the amplifier has a high frequency. It is to prevent unstable operation and improve the sound quality. At the same time, the output impedance of the amplifier is small, and the parasitic resistance component of the speaker cable (8) and the dividing network circuit (4) The object is to prevent the tone color of the speaker unit from becoming metallic when it is small, and to provide a speaker device with good sound quality.

[0011]

In order to achieve the above object, the resistance value of the resistor (6a) is set in the range of 10Ω to 1kΩ, and the capacitance value of the capacitor (6b) is set in the range of 100pF to 0.1μF. The circuit (6) in which the resistor (6a) and the capacitor (6b) are connected in series is connected in parallel to the high frequency band speaker unit (2).

A resistor (6a) and a resistor (5a) which will be described later.
The parallel combined resistance value of is desirable to be close to the characteristic impedance of the speaker cable directly connected to the high-frequency band speaker unit (2), and is equal to the characteristic impedance of the speaker cable directly connected to the high-frequency band speaker unit (2). It is desirable that the speaker cables (8) connecting the speaker device and the amplifier have the same characteristic impedance. Further, it is effective that the circuit (6) in which the resistor (6a) and the capacitor (6b) are connected in series, and the resistor (5a) described later are connected in close proximity to the high frequency band speaker unit (2). .

When the speaker device includes the dividing network circuit (4), resistors (5) having a resistance value of 20Ω or more are connected in parallel to all speaker units or some speaker units in each audio band. Connecting. The resistance value of the resistor (5) does not have to be the same in the speaker unit of each voice band. Furthermore, resistors (5)
May be a variable resistor.

[0014]

With the above-mentioned structure, the end of the speaker cable is made by the resistor (6a) and the resistor (5a).
Since it is terminated with a resistance value close to the characteristic impedance of the speaker cable, the high frequency power component output from the amplifier is absorbed by the resistor (6a) and the resistor (5a) and does not return to the amplifier again. Therefore, the amplifier does not operate unstable in high frequency, and the effect of improving sound quality is great.

Further, since the capacitor (6b) is connected in series to the resistor (6a), the output impedance of the dividing network circuit (4) does not become too small in the audible band, and the timbre deteriorates. Nor.

A resistor (5) in parallel with the speaker unit
Connecting network circuit (4)
The output impedance of the resistor is adjusted by the resistor (5), and the output impedance of the dividing network circuit (4) becomes as shown in "when the resistor 5 is present" in FIG. The value of the resistor (5) at this time is 100Ω. Therefore, the specific band is not strongly driven by the current, and the timbre of the speaker unit does not become metallic.

On the other hand, if the value of the resistor (5) is too small, it approaches the voltage drive and the timbre is impaired. By appropriately selecting the resistance value of the resistor (5), the tone color of the speaker unit can be optimally set.

When the resistor (5) is a variable resistor, the dividing network circuit (by adjusting the resistor 5 as appropriate even when the output impedance of the amplifier or the resistance component of the speaker cable (8) changes. 4)
It is possible to maintain the output impedance of the output signal at the optimum value. Therefore, even if the amplifier or the speaker cable (8) is replaced, the tone color of the speaker unit can be set to the optimum.

[0019]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is an embodiment according to the present invention, in which 1 is a speaker device, 2 is a high frequency band speaker unit, and 3 is a speaker unit.
Is a speaker unit for bass band, 4 is a network circuit, 4a is a capacitor, 4b is a coil, 4c is a coil, 4d is a capacitor, 5 is a resistor according to the present invention and may be a variable resistor, 6a is the present invention. Resistor according to
6b is a capacitor according to the present invention, 7 is an input terminal of the speaker device, 8 is a speaker cable for connecting the speaker device and the amplifier, and 9 is a terminal for connecting the amplifier.

In the first aspect, the reason why the resistance value of the resistor 6a is set in the range of 10Ω to 1kΩ is that the characteristic impedance of the speaker cable that is generally used is in that range.

The reason why the capacitance value of the capacitor 6b is set in the range of 100 pF to 0.1 μF in claim 1 is as follows.

A high frequency component is input from the amplifier through a terminal 9 to which the amplifier is connected, and the reflected power reflected by the high frequency band speaker unit 2 and returned to the amplifier again has a phase shift of 180 ° with respect to the input signal. Then, this is equivalent to a series resonance state and causes an unstable operation of the amplifier at high frequencies, which is harmful. This is the frequency at which the wavelength of the high-frequency component becomes ¼ of the cable length, and this is called λ / 4 resonance.
The frequency f ₍ λ _{/ 4)} that causes the λ / 4 resonance is expressed by Equation 1.

[0023]

[Equation 1]

In order to prevent the reflected power of the high frequency component from adversely affecting the amplifier, the reflected power is absorbed by terminating at an impedance close to the characteristic impedance of the speaker cable at a frequency of f ₍ λ _{/ 4)} or higher. Good.

The length of the speaker cable actually used, the dielectric constant of the insulator, and the range of the characteristic impedance were investigated, and the optimum value was found by experiments. As a result, the capacitance value of the capacitor 6b was 100 pF to 0.1 μF. Became a range. For this reason, the capacitor 6b in claim 1
The capacitance value of was in the range of 100 pF to 0.1 μF.

In the second aspect, the reason why the resistance value of the resistor 5 is set to 20Ω or more is that the resistance value is preferably higher than that for the sense of hearing, and if the resistance value of the resistor 5 is too small, the power of the resistor 5 is reduced. This is because the loss increases, the efficiency decreases, and the load on the amplifier increases.

[0027]

Since the present invention is configured as described above, the high frequency power component output from the amplifier is
It is absorbed by the resistors 6a and 5a and is not fed back to the amplifier again. Therefore, the amplifier does not operate unstable in high frequency, and the effect of improving sound quality is great.

Further, since the resistor 6a is connected in series with the capacitor, the output impedance of the dividing network circuit does not become too small in the audible band, and the output impedance of the dividing network circuit of the resistor 5 is set to the optimum value. It does not impair the action that can be set and does not deteriorate the timbre.

The output impedance of the dividing network circuit is adjusted by the resistor 5, so that the specific band is not strongly driven by the current, and the timbre of the speaker unit does not become metallic. The output impedance of the dividing network circuit can be set to an optimum value by the resistor 5, and the tone color of the speaker unit can be set to the optimum value.

When the resistor 5 is a variable resistor, the output impedance of the dividing network circuit can be maintained at an optimum value even when the resistance component of the amplifier or speaker cable changes. Therefore, even if the amplifier or the speaker cable is replaced, the tone color of the speaker unit can be optimally set.

The claim 1 of the present invention is not limited to the above-mentioned embodiment, but can be applied to a speaker device having no dividing network circuit such as a single cone.

Further, claim 1, claim 2 and claim 3
Although the speaker device of No. 2 has an example of 2 ways, it can be applied to a multi-way speaker device having more speaker units than that.

Further, although the dividing network circuits of claim 1, claim 2 and claim 3 have shown the LC / quadratic example, they can be applied to other order dividing network circuits.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing an embodiment according to the present invention.

FIG. 2 is a circuit diagram showing a conventional speaker device.

FIG. 3 is a frequency characteristic diagram showing an output impedance of a dividing network circuit.

[Explanation of symbols]

REFERENCE SIGNS LIST 1 speaker device 2 treble band speaker unit 3 bass band speaker unit 4 dividing network circuit 4a capacitor 4b coil 4c coil 4d capacitor 5 resistor according to the present invention, which may be a variable resistor 6a resistor according to the present invention 6b Capacitor according to the present invention 7 Input terminal of speaker device 8 Speaker cable for connecting speaker device and amplifier 9 Terminal for connecting amplifier

Claims (3)

[Claims] 1. The resistance value of the resistor (6a) is from 10Ω to 1k.
Set the capacitance value of the condenser (6b) to 100 in the range of Ω.
A speaker device in which a circuit (6) in which a resistor (6a) and a capacitor (6b) are connected in series is connected in parallel to a treble band speaker unit (2) in a range from pF to 0.1 μF. 2. A dividing network circuit (4) is provided, and resistors (5) having a resistance value of 20Ω or more are connected in parallel to all speaker units or some speaker units in each audio band. Claim 1 characterized by
Speaker device. 3. The variable resistor as the resistor (5).
Speaker device.