JPH0138654Y2 - - Google Patents

Description

[Detailed description of the invention] This invention relates to a stabilized power supply circuit used in radio receivers and other equipment, and an object of the present invention is to provide an excellent stabilized power supply that can effectively cancel ripple components appearing on the output side. The purpose is to

A commonly used stabilized power supply circuit is constructed as shown in FIG. That is, in FIG. 1, a is an input terminal, b is an output terminal,
A transistor _Q2 is connected in series between input/output terminals a and b. And the base of transistor Q ₂ is transistor Q ₁ , Zener diode
It is grounded via D ₁ and simultaneously connected to input terminal a via resistor R ₃ . Also, transistor
The connection point of resistors R ₁ and R ₂ connected between output terminal b and ground is connected to the base of Q ₁ .
A capacitor C ₁ is connected in parallel to R ₁ .
Therefore, even in this type of stabilized power supply circuit, the ripple component appearing at the output terminal b is applied to the base of the transistor _Q1 via the capacitor _C1 , where it is inverted and amplified as a direct current, and is applied to the base of the transistor _Q2 . Since the ripple component is applied, it is possible to cancel out the ripple component.

However, in this type of stabilized power supply circuit, as soon as the voltage applied to input terminal a becomes smaller than a specified value, transistor _Q1 is completely turned off, making it impossible to cancel out the ripple component and causing ripple There was a problem that the component was 1/hfe of transistor _Q2 , and it was extremely vulnerable to voltage reduction.

The present invention eliminates the above-mentioned conventional drawbacks and provides an excellent stabilized power supply circuit that is resistant to voltage reduction.

The stabilized power supply circuit of the present invention will be described below with reference to drawings of one embodiment. In FIG. 2, a and b are an input terminal and an output terminal, respectively, and a transistor _Q3 is connected between these terminals a and b. And the base of transistor Q ₃ is grounded through resistor R ₄ Zener diode D, and resistor
The connection point between R ₄ and the Zener diode D is connected to the connection point between the resistor R ₅ and the capacitor C ₂ connected between the input terminal a and the ground. On the other hand, the output terminal b is connected to the base of a separately provided transistor _Q4 via a capacitor _C4 . The emitter of transistor _Q4 is directly grounded, and the collector is connected to the transistor through capacitor _C3 .
Connected to the base of _Q3 .

Note that R ₆ and R ₇ are resistors connected between the collector and output terminal of the transistor Q ₄ and between the base and collector of the transistor Q ₄ , respectively.

In the above embodiment, the ripple component appearing at output terminal b is transferred to the transistor via capacitor _C4 .
It is applied to the base of Q ₄ and is inverted and amplified here.
Since the output is applied to the base of the transistor _Q3 via the capacitor _C3 , the ripple component described above is canceled out. By the way, according to the above embodiment, the base of the transistor _Q3 is grounded via the resistor _R4 and the Zener diode _D2 , and the base of the transistor Q3 is grounded via the resistor _R4 and the Zener diode _D2.
Since the connection point between the resistor _R5 and the capacitor C2 is connected to the connection point between the resistor R5 and the capacitor _C2 , the DC current is stabilized by these circuits. and transistor
Since _Q4 is provided DC-separated from these stabilizing circuits, it is almost never completely turned off even if the voltage applied to input terminal a becomes considerably small, and transistor Q ₄ will continue to contribute to canceling the ripple component. Therefore, according to the above-described embodiment, a stabilized power supply circuit that is extremely resistant to voltage reduction can be obtained, and is particularly effective when used in various devices that use batteries or the like as a power source.

As is clear from the above examples, the stabilized power supply circuit of the present invention applies a DC stabilized voltage using a resistor, Zener diode, etc. to the base of the first transistor connected between the input and output terminals. The ripple component appearing at the output terminal is applied to the base of a separately provided second transistor through a capacitor, and the inverted output obtained by the second transistor is applied to the first transistor. It is configured to apply alternating current to the base of the transistor, and the inverted output of the second transistor, which amplifies the ripple component, is applied to the first stabilizing circuit.
Since the inverted output that is applied to the base of the transistor and the first capacitor of the above-mentioned stabilizing circuit is separated from the stabilized DC voltage, the voltage applied to the input terminal is considerably low. Even then, the transistor is still in the operating region and can sufficiently cancel out the ripple component. Therefore, according to the present invention, it is possible to obtain a stabilized power supply circuit that is extremely strong against voltage reduction, and is extremely advantageous in practical use.

[Brief explanation of the drawing]

FIG. 1 is an electrical wiring diagram of a conventional stabilized power supply circuit, and FIG. 2 is an electrical wiring diagram of an embodiment of the stabilized power supply circuit of the present invention. a...Input terminal, b...Output terminal, Q ₃ , Q ₄ ...
…transistor, D ₂ …zener diode,
_C2 to _C4 ...Capacitor, _R4 to _R7 ...Resistor.

Claims (1)

[Scope of utility model registration request] A first transistor connected between the input and output terminals, a first resistor and a second resistor connected in series between the base of the first transistor and the input terminal, and a connection point between the first resistor and the second resistor. a stabilizing circuit consisting of a Zener diode and a capacitor connected in parallel between a feedback circuit configured to apply the component to the base of a separately provided second transistor via a capacitor, and apply an inverted output of the second transistor to the base of the first transistor in an alternating current manner. stabilized power supply circuit.