JP2015186439A - Power source device with transistor rectification circuit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power source device with a transistor rectification circuit which has little harmful noise, and reduces a harmful component.SOLUTION: It is important than anything else to proceed toward a direction where ripple content of a power source is decreased and a harmful component specific to a power source circuit is reduced as much as possible. In addition, noise of the power source can be reduced as much as possible.

Description

The present invention relates to a power supply device in which a transistor is provided in a power supply circuit.

Conventionally, power rectifiers have been separated without transistors.

This has the following drawbacks. The power supply rectifier could not prevent harmful components. The present invention has been made to eliminate the above drawbacks.

1 uses two transistors (1) temperature compensation circuit (2) zener die (3) autobleeder resistor FIG. 2 uses three transistors (1) temperature compensation circuit (2) zener diode (3 ) Breeder resistor The present invention is a power supply with a transistor rectifier having the above configuration.

Reduces harmful power supply components and reduces noise. In addition, it reduces the temperature of the transistor. Promises a stable voltage supply.

It is an electronic circuit diagram of the present invention. It is an electronic circuit diagram of the present invention.

Hereinafter, modes for carrying out the present invention will be described. In FIG. 1, two transistors are used,
(1) Temperature compensation circuit (2) Zener diode 3) Blider resistor In FIG. 2, three transistors are used. (1) Temperature compensation circuit (2) Zener diode (3) Breeder resistor. Removes harmful components with little noise.
The present invention has the above structure.

FIG.
1 Temperature compensation circuit 2 Zener diode 3 Bleeder resistor Figure 2
1 Temperature Compensation Circuit 2 Zener Diode 3 Blider Resistor

The present invention relates to a power supply rectifier in which a transistor is provided in a power supply circuit.

Conventionally, power rectifiers have been separated without transistors.

JP 2011-101571 A

Power rectifiers have many weaknesses such as harmful components, hum, and noise. If you can alleviate these problems, you can produce great results.

1 uses two transistors (1) temperature compensation circuit (2) Zener diode (3) bleeder resistor FIG. 2 uses three transistors (1) temperature compensation circuit (2) Zener diode (3 ) Breeder resistor The present invention is a power supply with a transistor rectifier having the above configuration.
Unexpected conditions for this circuit to work, high temperature heat, limited lifetime of transistor components. To alleviate these problems, first of all, the use of resistors and an air cooling device using a fan motor are indispensable.

The transistor has excellent performance, durability, durability, utility, and effect. It is used in all directions and is indispensable for this invention.

It is an electronic circuit diagram of the present invention. It is an electronic circuit diagram of the present invention.

By using two transistors and using three Tran diagram stars, a full-wave rectified waveform can be obtained. By using a Zener diode and a bleeder resistor, a rectifier using a transistor has a very important factor.

FIG.
1 Temperature Compensation Circuit 2 Zener Diode 3 Breeder Resistor Figure 2
1 Temperature compensation circuit 2 Zener diode 3 Breeder resistor

There is little noise due to low noise, and in the electronic circuit diagram of each part, very good efficiency can be obtained by using a transistor for the rectifier.

By using this, it becomes possible to use it for DC and AC power supplies, and the performance is considerably improved.

There is no need for a power hum and there is no power consumption of the power supply voltage, leading to cost reduction.
Continue to maintain a stable voltage fluctuation rate of 15%.

It withstands the use of electronic circuits for a long time, and also exhibits excellent performance in the heat-resistant temperature of solder. Dielectric breakdown can be reduced a little.

In addition, an RC circuit is indispensable for holding the transistor in the power supply section.
If resistors, chemicon, diodes, etc. are used, further effects are expected.

My idea is to use a transistor instead of a rectifier for the power supply rectifier. As the waveform, a full-wave rectified waveform can be obtained.
As a result, a gain almost close to DC can be obtained.

Compared with a vacuum tube, a transistor has no power supply hum and consumes less power. Bring it to the rectifier due to the characteristics of the transistor.

The use of FETs improves even better. The use of semiconductors continues to promise the rationality that is necessary for the electron tube amplifier circuit in each part.

When thyristor transistors are also used according to their utility effects, the greatness is read back and the effect of the power rectifier is promised.

From 1 to 10 semiconductor transistors and semiconductor diodes can be used without difficulty, and the performance is quick, reliable, and accurate.

になります。

It becomes.

Transistors have various performances and effects by mixing impurities, and I think that there are no other excellent materials other than transistors.

Unnecessary noise, parasitic vibration is not possible.
There is no more load on electronic components.

I thought that using a transistor for a power supply rectifier was not only due to various characteristics, but also using a semiconductor diode for the radio was a wonderful thing.
Then I came up with a transistor for decades.
It is attractive that there are no bad components peculiar to noise and power supply rectifier.

There is an object other than an electronic circuit called resistor R. It is a really useless ingredient.
There is still a waste component called Small Earl that cannot be removed from a single conductor.
It can be reduced even a little by using a semiconductor transistor directly from the power supply.

I don't know the useful value of semiconductors. The most important thing is to further use the performance and characteristics of semiconductors.

This electric energy lasts a long time with batteries and Alpha semiconductors.
Using a DC power supply has a very good rationality not found in vacuum tubes.

There is also the characteristic that there is little noise, and the aspect that hardly requires the squelch circuit for the noise of the audio equipment comes out.
Noise from the amplifier and hum are completely eliminated.

In addition, if it is a FET semiconductor, electric energy flows intermittently and plays the role of a power supply rectifier. If you use a lot of temperature compensation circuits and diodes for this, it will be excellent as an amplifier circuit.

The most important measure to prevent the heat from rising is to cover with a resistor.
As an urgent measure, it is very important to connect a fan motor to the semiconductor.

By using a semiconductor transistor in the power supply rectifier, it is considered that it will surely become a high temperature state due to heat, and it is possible that the accompanying transistor open will be used for many years. At times like this, using an optical sensor device and attaching an alarm buzzer will spread the sense of security and be safe.

The most important thing for transistors is to use semiconductors that can withstand high temperatures.
As an alternative to this semiconductor, FET and diode can be used together as an auxiliary. This switching can be done by using a switch circuit, leaving the circuit diagram that is no longer necessary, and depressing the switch to a new circuit diagram.
You can then return to the original position in just a few minutes to complete the return process.

It is a semiconductor that inevitably responds efficiently to operating conditions at low temperatures.
If you select and use a material with high heat resistance in a high temperature state, it will work quite well.
In any case, a transistor that can withstand low and high temperatures is the power supply rectifier that can be used in performance, probability, accuracy, and speed.

Currently, semiconductors are usually stored and operated, so the setup must be improved from the beginning to the end.
In case of an emergency, we must make every effort. Better semiconductor transistors must be selected.

Because it can be used for both AC and DC depending on the transistor performance and characteristics, it has excellent effects and is very mobile.

As a result, semiconductors that are very good at rectifiers and withstand long lifetimes will perform better. Currently, semiconductors are a hit product indispensable for computers, and continue to be used with half-wave rectifiers and full-wave rectifiers.

It is economically advantageous to use a rectifier as a transistor.
In addition, the weight can be reduced. As a weak point, the transistor also has a great deal of noise that can be compensated for by the amplifier circuit.

In the 3-stone transistor circuit rectifier, the waveform becomes a multiple full-wave rectified waveform, so there are many excellent direct current components, and an accurate amplification effect can be expected.

By using two or three Zener diodes, a stable voltage can be kept constant.
If you use more than a dozen of Chemicons, capacitors, resistors, etc., you will be even more effective.

験機などの装置をアンプ本体回路図に装備をして、それに、アンメーターを備えるとより、一層の効果が期待されます。

By installing equipment such as a test machine in the circuit diagram of the amplifier body, and providing an ammeter, it is expected to be even more effective.

In addition, an ammeter that is indispensable for the opening of the semiconductors of each part, which allows you to see at a glance that the number of openings is less than the theoretical design value. Semiconductor failures can be quickly and reasonably known.

By using three Zener diodes in the power supply rectifier, a good-quality waveform close to DC can be obtained. If an RC circuit is added to this, a very good Zener diode power supply rectifier exists.

In a computer, there is little current consumption and there is no influence of a power supply hum. There is an advantage in the life of consumable parts.
The amplifier's temperature resistance is also relatively good and lasts a long time.

Less resistance of electronic components. The telegraph waveform is in a very good condition and there is no sign that it will change even after several decades.
If a transistor is used for this power supply rectifier, it will continue to have excellent characteristics. In addition, as research progresses, this method must be realized.

Resistant to strong vibrations and shocks, it can be easily carried around, increasing mobility.
It can be transported comfortably in mountains, the sea, and other places that are inconvenient to carry.
Aside from the vacuum tube type, dry batteries can be used as the power source, leading to a constant voltage in light electrical equipment.

In the 3-stone transistor amplifier, the full-wave rectifier waveform is duplicated, so the direct current is quite high, so the medical examination machine, the surgical knife, and the sea for resource exploration in ocean development are performed without contamination. Used in equipment, used in ultra-precise equipment such as crustal deformation of the seabed.

If a diode is inserted in the bias circuit and used as a temperature compensation circuit, the distortion factor will deteriorate, but as a result, the amplification factor of the transistor circuit will be increased.
A very good gain can be obtained and a good rectifier.

A little expensive bleeder resistor is used to discharge the energy stored in the filter capacitor.
It must be done in such a way that very subtle electrical energy flows and there is no high impact on the components that amplify it.

The hFE = 100 to 200 position of the semiconductor transistor is an ideal current amplification factor.
Select the resistance value with the most resistance value from the one with the most resistance value, and make the current flow the ideal resistance value.
This will improve your circuit design. Everything is made of consumables, so we have to proceed more carefully.

これは、高電圧送電線にも非常に大切な要素が成り立ちます。As you can see from the point of dielectric breakdown, the use of semiconductors significantly increases safety. It consists of the relationship between current and voltage, and maintains a single paper state.

This is also a very important factor for high voltage transmission lines.

When the solder residue adheres to the board, the board is completely shorted. Electronic components are damaged at such times.
In such a case, it is necessary to design with sufficient resistance value.
In an emergency situation, a power supply rectifier with a transistor is required, which is a very important point.

The present invention relates to a power supply rectifier in which a transistor is provided in a power supply circuit.

Conventionally, power rectifiers have been separated without transistors.

JP 2011-101571 A

Power rectifiers have many weaknesses such as harmful components, hum, and noise. If you can alleviate these problems, you can produce great results.

1 uses two transistors (1) temperature compensation circuit (2) Zener diode (3) bleeder resistor FIG. 2 uses three transistors (1) temperature compensation circuit (2) Zener diode (3 ) Breeder resistor The present invention is a power supply with a transistor rectifier having the above configuration.
Unexpected conditions for this circuit to work, high temperature heat, limited lifetime of transistor components. To alleviate these problems, first of all, the use of resistors and an air cooling device using a fan motor are indispensable.

The transistor has excellent performance, durability, durability, utility, and effect. It is used in all directions and is indispensable for this invention.

It is an electronic circuit diagram of the present invention. It is an electronic circuit diagram of the present invention.

By using two transistors and using three Tran diagram stars, a full-wave rectified waveform can be obtained. By using a Zener diode and a bleeder resistor, a rectifier using a transistor has a very important factor.

FIG.
1 Temperature Compensation Circuit 2 Zener Diode 3 Breeder Resistor Figure 2
1 Temperature compensation circuit 2 Zener diode 3 Breeder resistor

There is little noise due to low noise, and in the electronic circuit diagram of each part, very good efficiency can be obtained by using a transistor for the rectifier.

By using this, it becomes possible to use it for DC and AC power supplies, and the performance is considerably improved.

There is no need for a power hum and there is no power consumption of the power supply voltage, leading to cost reduction.
Continue to maintain a stable voltage fluctuation rate of 15%.

It withstands the use of electronic circuits for a long time, and also exhibits excellent performance in the heat-resistant temperature of solder. Dielectric breakdown can be reduced a little.

In addition, an RC circuit is indispensable for holding the transistor in the power supply section.
If resistors, chemicon, diodes, etc. are used, further effects are expected.

My idea is to use a transistor instead of a rectifier for the power supply rectifier. As the waveform, a full-wave rectified waveform can be obtained.
As a result, a gain almost close to DC can be obtained.

Compared with a vacuum tube, a transistor has no power supply hum and consumes less power. Bring it to the rectifier due to the characteristics of the transistor.

The use of FETs improves even better. The use of semiconductors continues to promise the rationality that is necessary for the electron tube amplifier circuit in each part.

When thyristor transistors are also used according to their utility effects, the greatness is read back and the effect of the power rectifier is promised.

From 1 to 10 semiconductor transistors and semiconductor diodes can be used without difficulty, and the performance is quick, reliable, and accurate.

になります。

It becomes.

Transistors have various performances and effects by mixing impurities, and I think that there are no other excellent materials other than transistors.

Unnecessary noise, parasitic vibration is not possible.
There is no more load on electronic components.

I thought that using a transistor for a power supply rectifier was not only due to various characteristics, but also using a semiconductor diode for the radio was a wonderful thing.
Then I came up with a transistor for decades.
It is attractive that there are no bad components peculiar to noise and power supply rectifier.

There is an object other than an electronic circuit called resistor R. It is a really useless ingredient.
There is still a waste component called Small Earl that cannot be removed from a single conductor.
It can be reduced even a little by using a semiconductor transistor directly from the power supply.

I don't know the useful value of semiconductors. The most important thing is to further use the performance and characteristics of semiconductors.

This electric energy lasts a long time with batteries and Alpha semiconductors.
Using a DC power supply has a very good rationality not found in vacuum tubes.

There is also the characteristic that there is little noise, and the aspect that hardly requires the squelch circuit for the noise of the audio equipment comes out.
Noise from the amplifier and hum are completely eliminated.

In addition, if it is a FET semiconductor, electric energy flows intermittently and plays the role of a power supply rectifier. If you use a lot of temperature compensation circuits and diodes for this, it will be excellent as an amplifier circuit.

The most important measure to prevent the heat from rising is to cover with a resistor.
As an urgent measure, it is very important to connect a fan motor to the semiconductor.

By using a semiconductor transistor in the power supply rectifier, it is considered that it will surely become a high temperature state due to heat, and it is possible that the accompanying transistor open will be used for many years. At times like this, using an optical sensor device and attaching an alarm buzzer will spread the sense of security and be safe.

The most important thing for transistors is to use semiconductors that can withstand high temperatures.
As an alternative to this semiconductor, FET and diode can be used together as an auxiliary. This switching can be done by using a switch circuit, leaving the circuit diagram that is no longer necessary, and depressing the switch to a new circuit diagram.
You can then return to the original position in just a few minutes to complete the return process.

It is a semiconductor that inevitably responds efficiently to operating conditions at low temperatures.
If you select and use a material with high heat resistance in a high temperature state, it will work quite well.
In any case, a transistor that can withstand low and high temperatures is the power supply rectifier that can be used in performance, probability, accuracy, and speed.

Currently, semiconductors are usually stored and operated, so the setup must be improved from the beginning to the end.
In case of an emergency, we must make every effort. Better semiconductor transistors must be selected.

Because it can be used for both AC and DC depending on the transistor performance and characteristics, it has excellent effects and is very mobile.

As a result, semiconductors that are very good at rectifiers and withstand long lifetimes will perform better. Currently, semiconductors are a hit product indispensable for computers, and continue to be used with half-wave rectifiers and full-wave rectifiers.

It is economically advantageous to use a rectifier as a transistor.
In addition, the weight can be reduced. As a weak point, the transistor also has a great deal of noise that can be compensated for by the amplifier circuit.

In the 3-stone transistor circuit rectifier, the waveform becomes a multiple full-wave rectified waveform, so there are many excellent direct current components, and an accurate amplification effect can be expected.

By using two or three Zener diodes, a stable voltage can be kept constant.
If you use more than a dozen of Chemicons, capacitors, resistors, etc., you will be even more effective.

験機などの装置をアンプ本体回路図に装備をして、それに、アンメーターを備えるとより、一層の効果が期待されます。

By installing equipment such as a test machine in the circuit diagram of the amplifier body, and providing an ammeter, it is expected to be even more effective.

In addition, an ammeter that is indispensable for the opening of the semiconductors of each part, which allows you to see at a glance that the number of openings is less than the theoretical design value. Semiconductor failures can be quickly and reasonably known.

By using three Zener diodes in the power supply rectifier, a good-quality waveform close to DC can be obtained. If an RC circuit is added to this, a very good Zener diode power supply rectifier exists.

In a computer, there is little current consumption and there is no influence of a power supply hum. There is an advantage in the life of consumable parts.
The amplifier's temperature resistance is also relatively good and lasts a long time.

Less resistance of electronic components. The telegraph waveform is in a very good condition and there is no sign that it will change even after several decades.
If a transistor is used for this power supply rectifier, it will continue to have excellent characteristics. In addition, as research progresses, this method must be realized.

Resistant to strong vibrations and shocks, it can be easily carried around, increasing mobility.
It can be transported comfortably in mountains, the sea, and other places that are inconvenient to carry.
Aside from the vacuum tube type, dry batteries can be used as the power source, leading to a constant voltage in light electrical equipment.

In the 3-stone transistor amplifier, the full-wave rectifier waveform is duplicated, so the direct current is quite high, so the medical examination machine, the surgical knife, and the sea for resource exploration in ocean development are performed without contamination. Used in equipment, used in ultra-precise equipment such as crustal deformation of the seabed.

If a diode is inserted in the bias circuit and used as a temperature compensation circuit, the distortion factor will deteriorate, but as a result, the amplification factor of the transistor circuit will increase.
A very good gain can be obtained and a good rectifier.

A little expensive bleeder resistor is used to discharge the energy stored in the filter capacitor.
It must be done in such a way that very subtle electrical energy flows and there is no high impact on the components that amplify it.

The hFE = 100 to 200 position of the semiconductor transistor is an ideal current amplification factor.
Select the resistance value with the most resistance value from the one with the most resistance value, and make the current flow the ideal resistance value.
This will improve your circuit design. Everything is made of consumables, so we have to proceed more carefully.

これは、高電圧送電線にも非常に大切な要素が成り立ちます。As you can see from the point of dielectric breakdown, the use of semiconductors significantly increases safety. It consists of the relationship between current and voltage, and maintains a single paper state.

This is also a very important factor for high voltage transmission lines.

When the solder residue adheres to the board, the board is completely shorted. Electronic components are damaged at such times.
In such a case, it is necessary to design with sufficient resistance value.
In an emergency situation, a power supply rectifier with a transistor is required, which is a very important point.

If a circuit that converts alternating current to direct current is used as a thyristor semiconductor, direct current conversion can be performed efficiently.
Amplifier amplifier circuits and other electronic circuits are designed to be driven by a DC power supply. Even in such a case, this transistor rectifier is required.

In the AGC circuit, the output voltage of the low-frequency amplifier or the intermediate amplifier is converted to a voltage close to DC by a rectifier, and the bias amount is changed to establish the AGC circuit.
This invention is necessary even at such times.

The voltage adjustment circuit requires a transistor type rectifier because it is turned into direct current by switching control, thyristor phase control, and voltage tap switching.
It can be handled in the same way as a semiconductor transistor.

A smoothing capacitor is not inserted into the output terminal of the rectifier circuit, and waveforms such as a three-phase half-wave rectified waveform and a three-phase bridge rectified waveform can be obtained as the rectification method and ripple amount. There is a waveform very similar to a 3-stone transistor rectifier.

Due to the constant inverter power supply system that is supplied via an inverter, the output voltage is always stable without being affected by fluctuations in the input voltage.
Long battery life with wide input voltage.
If you should be prepared for a power outage, you can use a battery.

Claims (1)

This is a power supply with a transistor rectifier circuit in which a transistor is provided for power rectification.
All over Japan.

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