FR3053186A1 - MODIFIED AMPLIFIER FOR GUITAR AMPLIFIER AND AUDIOS PERIPHERALS USING ELECTRONIC ADAPTER CIRCUIT - Google Patents

Abstract

The present invention relates to a radio device, transistor technology or electron tube, modified guitar amplifier as well as various audio devices such as music players, and which includes an electronic circuit upstream of the volume potentiometer, and downstream of the peripherals audio and guitar, this circuit adapting the output impedance of the guitar to the input impedance of the amplifier circuit of the radio apparatus, as well as modifying the amplitude in voltage of the signal from the guitar, and intended to improve the aesthetics of the sound from the guitar. The device according to the invention is particularly intended to amplify the sound of an electric guitar by giving it a particular aesthetic, as well as various audio devices such as music players.

Description

Field of the invention

The present invention relates to a radio device, transistor technology or electron tube, modified amplifier for guitar or various audio devices music players.

Description of the prior art:

The first amplifier dedicated to the electric guitar was marketed with the Rickenbacker Electro A-22, the first electric guitar, in 1932. This amplifier used the same principle of amplification as the radio devices of the time. At this point, it is obvious to those skilled in the art to conclude that radio apparatus can be used in guitar amplifiers. The skilled person can do this by placing the output of the electric guitar at the input of the audio amplifier of the radio, and more specifically, on the spindles of the volume potentiometer, which can be able to change the sound amplitude . This practice exists but remains marginal. With transistor technology appeared in the 50s, the method remains the same because if the technology changes, the principles remain the same. The transistors were first made from germanium. In the same way as electronic tubes, they present aesthetic sounds appreciated by musicians and audiophiles.

When audio devices such as music players appeared on the market, some have modified radio devices to accommodate these devices. This is the same modification technique as presented for the guitar, namely the connection of the signal to the volume knob. The inventor's prior art searches could not determine the existence of radio apparatus modified to accommodate both an electric guitar and an audio device. However, although this characteristic will be mentioned in the claims of the invention, it will not be the main object, because of its non-inventive nature

I

This method of modification, although functional, presents in the case of the guitar a particular sound aesthetic, which can be improved. This non-optimal aesthetic is explained by the consideration of different audio sources depending on the design of a radio amplifier, or dedicated guitar. In the design of an AM radio, the audio signal source is an RC circuit, with a detector diode, for demodulating the received radio signal. The R and C components are dimensioned to ensure optimal demodulation, and therefore the most accurate frequency reproduction. The audio amplifier of the radio is designed according to this source and intended to faithfully reproduce the signal. In the case dedicated guitar amplifiers, the signal is processed in order to improve the sound of the electric guitar. Amplifiers for audio sources are as in the case of radios designed to reproduce the sound as faithfully as possible. We understand why the basic transformation is less suitable for a guitar than an auxiliary audio source. In addition, this method does not allow adaptation of sound aesthetics, an adaptation that could potentially be sought by a musician. Finally, given the sound levels considered, the basic modification does not allow the musician to play in a noisy environment, such as a group, without having to add a microphone in front of the speaker.

Another method of modification is to bypass, or even replace, the original circuit of the radios, and to use another audio amplification circuit, of modern technology. This solves the compatibility problem, but there is a loss of the basic sound aesthetics of the original radio technologies. Although new technologies allow more or less precise numerical modeling of the behavior of electron tubes or germanium transistors, there is the loss of authenticity, which can be sought by a collector. In these two cases, the addition of a complete circuit considerably increases the cost of the modification, in raw material and possibly in labor.

The problem to be solved by the invention is that of keeping the sound esthetics inherent in the basic technology of the old radio devices, and of improving it, while allowing an adaptation of this sound aesthetic at a lower cost.

The present invention relates to a radio apparatus, with a transistor or electronic tube teehnology, modified as a guitar amplifier as well as for various audio peripherals such as music players, and which comprises an electronic circuit upstream of the volume potentiometer, and downstream of the peripherals. audio and guitar, ee circuit adapting the output impedance of the guitar to the input impedance of the amplification circuit of the radio apparatus, as well as modifying the amplitude in voltage of the signal from the guitar, and intended to improve the aesthetics of the sound from the guitar.

Object of the invention;

The object of the present invention is that the musician can have the sound aesthetic inherent in older radio technology, improved, flexible and lower cost.

Description of the invention

The present invention relates to a radio device, transistor technology or electron tube, modified guitar amplifier and for various audio devices of the music player type, and which comprises an electronic circuit upstream of the volume potentiometer, and downstream peripherals audio and guitar, this circuit matching the guitar output impedance and the input impedance of the amplification circuit of the radio apparatus, as well as modifying the voltage amplitude of the signal from the guitar , and intended to improve the aesthetics of the sound from the guitar. Preliminary study :

It has been found by experience that the guitar sound produced by the basic modification of a radio contains fewer midrange and high frequencies than dedicated guitar amplifiers. One solution envisaged was to replace certain components of the original circuit of the amplifier of the radio, in order to adapt it to a guitar signal. But there were several disadvantages to this solution. Each radio circuit has a different layout, and the diagrams are not always accessible. In electronic tube models, and some transistor models, the components are welded together without printed circuits. The sometimes tedious aspect of the modifications makes the possible costs in labor high. In addition, the circuit becomes less suitable for receiving an audio signal to reproduce faithfully. Finally, this solution is analogous to the design of a guitar amplifier, and therefore has little inventive interest. It is known in the state of the art that one of the differences in the design of the two types of amplifier is the input impedance. It is of the order of 10 ^ ΕΩ, and maximum of the order of 10 ^ ΕΩ for a radio amplifier. The input of an electric guitar amplifier has an impedance generally between 470kΩ and 3Ω. In the case of an audio device, the output impedance is a few Ω, to be adapted in power with the speaker, usually headphones. So we have a boim voltage adaptation, and therefore a good performance for both types of amplifiers. The transducers of the electric guitar however, consist of copper coils, and their impedance is of the order of 10 'ΙίΩ. The voltage adaptation is therefore rather bad with a radio amplifier. Also, the more the frequency of the signal increases, the more the output impedance of the electric guitar increases, because of the inductive effect of these coils. The output impedance becomes higher and higher while the input impedance does not change. We can then think that this is one of the reasons for the loss of signal in high audio frequencies in the case of the electric guitar, but not in the case of an audio device.

The fact of introducing an impedance matching circuit with an AOP makes the output impedance of the guitar negligible, given the characteristic input impedance of an AOP (<10 Mohms), and this, what regardless of the frequency of the audio signal. The sound spectrum is more balanced, and no changes have been made on the original circuit, guaranteeing authenticity, and low cost of raw material and labor.

Description of the circuit:

The circuit comprises a non-inverting amplifier, realized thanks to a PDO, a LM4558> J in the drawing 1 (ICI A and ICI B). It turned out from experience that the sound produced was different according to the reference of the said AOP. The skilled person can therefore appreciate at will the reference to use.

In the case of transistor radios:

The incoming signals are to be connected to PAD1 and PAD2 in the drawings 1 and 2. The outgoing signals are to be connected to PAD3 in the drawings 1 and 2. The reference voltage considered is that of the positive output of the battery circuit, due to the polarity of PNP transistors. The masses of the incoming and outgoing signals are therefore connected to the positive supply pin of ΓΑΟΡ, contrary to the common use of this type of component. Connecting the ground of the incoming signals to the negative power supply pin of the AOP and the mass of the output to the mass of the rest of the circuit is a functional solution, but the signal then contains parasites, which become audible during the sound amplification. The input of ΓΑΟΡ is polarized at -4.5VDC for linear amplification. In order to amplify only the signal and not the bias voltage, which would lead to a systematic saturation of ΓΑΟΡ, a capacitor C3 is placed between the -9V and the resistor R3. The bias voltage is Vcc / 2, so that the value of the signal voltage is the same in absolute value as if we had considered the negative output of the battery circuit as a reference. The resistor R3 and the potentiometer R4 induce a voltage gain of between 1 and 5. The user can adjust the potentiometer R4 to act on the amplitude of the signal. This setting will have a direct impact on the sound produced. Beyond a gain of 5, experience has shown that sound aesthetics was not necessarily improved. To reduce the cost of use of the device, a low voltage socket is added, so that the user is no longer forced to use the batteries.

In the case of radios with electronic tube technology:

The matching circuit is the same, except that the reference voltage is that of the radios' mass, and is connected to the negative power supply pin of ΓΑΟΡ. The power mode of this one also changes. It is not always possible to draw a continuous supply voltage of value corresponding to the operating range of the matching circuit. It had to be created universally. For this, a control circuit has been placed at the output of the filter capacitors of the radio, ensuring a voltage of about 9VDC for any radio powered by a mains voltage of 220VAC.

Embodiment:

In the case of electronic tube radios, it is strongly recommended to change the filter capacitors before switching on. Once the audio amplifier of the radio tested and declared functional, the skilled person can use all known techniques to achieve the circuits of the drawings 1 and 2. The only condition being that the technique used allows to integrate the circuit in the radio enclosure. According to a preferred embodiment, a person skilled in the art will design a printed circuit, in order to weld the components therein. This technique proves to be the most economical in terms of labor costs. PAD4 and PAD5 are to be connected to the pins of the battery, taking into account the switch of the radio, so that the circuit does not consume energy when the device is off. The guitar input is im connector jack 6.35mm female mono, or stereo whose cold point is connected to the ground. It is advisable to the skilled person to use a jack with a cut, which connects to the ground, to limit the noise when the electric guitar is not connected. The audio device input is a cable of at least one meter, with a 3.5mm male jack connector. The two poles are interconnected. When the cable is not in use, it can be connected to a female 3.5mm jack connector, grounded to limit stray noise. In order to allow the musician to be easily heard in a noisy environment, a 6.35 female stereo jack connector is wired as shown in Figure 3. This comiectic can also be used to connect headphones. The skilled person can place these connectors at the place he deems appropriate. According to a preferred embodiment, they are placed on the previously pierced rear face, in order to preserve a maximum of the original visual aesthetic. The matching circuit is then connected to the volume potentiometer of the radio. The output of the circuit replaces the RC circuit and the detector diode. If the matching circuit is made on printed circuit board, it should be fixed, preventing any electrical contact between the card and the fixing point or points. The skilled person can use all known fastening means respecting the above-mentioned condition.

Description of the figures:

Figure 1 ; Diagram of the adaptation circuit for transistor technology substations according to the invention. The industrial references of the components are given as an indication.

Figure 2; Diagram of the adaptation circuit for electronic tube technology stations according to the invention. The industrial references of the components are given as an indication.

Figure 3: Connection diagram of the headphone jack according to the invention. The industrial references of the components are given as an indication.

Claims (2)

1. The device is a radio device, transistor technology or electron tube, modified amplifier for electric guitar as well as various audio devices such as music players, characterized in that the radio device comprises an electronic circuit upstream of the potentiometer volume, and downstream of the audio devices and the guitar, adapting the output impedance of the guitar with the input impedance of the amplifier of the radio apparatus, and making it possible to modify the amplitude of the signal of guitar. 2. Device according to claim 1, characterized in that the electronic circuit for the guitar signal has a voltage gain of between 1 and 5.