KR930004797Y1 - High pass filter circuit - Google Patents

Abstract

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Description

High Pass Rectifier Circuit

1 is a high-pass rectifying circuit diagram according to the present invention.

2 is an input and output waveform diagram of FIG.

* Explanation of symbols for main parts of the drawings

1: differential amplifier 2: active load unit

3: feedback part 4: rectification part

Q ₁ to Q ₁₁ : Transistors I ₁ and I ₂ : Current source

R ₁ : resistor C ₁ : condenser

D ₁ : diode

The present invention relates to a rectifier circuit, and more particularly to a high pass rectifier circuit suitable for detecting and rectifying only a high frequency (AC) component irrespective of a low frequency (DC) component.

In the conventional high-pass rectifier circuit, a diode bridge rectifier circuit is used, which makes it difficult to detect and rectify high frequency components loaded on an impossible power supply.

When the high-pass rectification circuit of the present invention devised to improve the above problems will be described according to the accompanying drawings.

1 shows a high-pass rectifying circuit according to the present invention. Looking at the connection configuration thereof, the collector of the transistors Q ₁ and Q ₂ constituted by the differential amplifier ₁ includes transistors Q ₃ and Q ₄ . An active load unit 2 configured to be connected to a power supply Vcc, a current source I ₁ to a common emitter of transistors Q ₁ and Q ₂ , and the transistor Q ₁ ) The input voltage Vin is connected to the base of the transistor, and the transistor Q ₅ to Q ₇ , diode D ₁ , and current source are connected to the base of the transistor Q ₂ through a resistor R ₁ and a capacitor C ₁ . A feedback section 3 composed of (I ₂ ) is connected, the base of the transistor Q ₅ is connected to the collector of transistor Q ₁ , and the collector of transistors Q ₆ and Q ₇ is a transistor Q _8. ~ a Q ₁₁₎ connected to the holding portion (connection to the power supply terminal 4) (Vcc) consisting of a structure, operating conditions and effects operation of the circuit arrangement If it described with reference to the accompanying drawings as follows.

In a first separate circuit, first look at the operation of the direct current (DC), DC typically is equal to the base voltage of the transistor (Q ₁₎ (Q ₂₎ there is no output (Iont), emergency transistor (Q ₁₎ When the base voltage Vin is higher than the base voltage of the transistor Q ₂ , the transistor Q ₁ is turned on and the transistor Q ₂ is turned off to drive the transistor Q ₅ of the feedback part 3, so that the transistor Q ₅₎ collector voltage is increased to drive the transistor (Q _6), the higher the his-emitter voltage in accordance with the drive of the transistor (Q _6), because it increases the base voltage of the transistor (Q ₂₎ up transistor (Q ₁₎ of the ( The base voltage of Q ₂ ) becomes equal.

In contrast, when the base voltage (Vin) of the transistor (Q ₁₎ to be lower than the base voltage of the transistor (Q ₂₎ transistors (Q ₁₎ is "off" transistor (Q ₂₎ is turned on transistors in the feedback unit (3) base voltage of the collector voltage and low turning off the transistor (Q _6), the transistor (Q ₆₎ its emitter voltage is low the transistor (Q ₂₎ in accordance with the off state of the transistor (Q ₅₎ because off the (Q ₅₎ By lowering the base voltage of the transistors Q ₁ and Q ₂ are equal.

Therefore, the base voltage of the transistors Q ₁ and Q ₂ becomes the same and there is no output Iont.

In operation AC, since the base voltages of the transistors Q ₁ and Q ₂ of the differential amplifier 1 are the same, the base voltage waveform of the transistor Q ₁ becomes as shown in FIG. The base voltage waveform of Q ₂ ) is shown in FIG. 2b by the resistor R ₁ and the capacitor C _1. According to the above, the base voltage Vin of the transistor Q ₁ is applied to the base voltage waveform of the transistor Q ₁ . When the base voltage Vin is higher than the base voltage of the transistor Q ₂ , the transistor Q ₁ is turned on and the transistor Q ₂ is turned off to drive the transistor Q ₅ of the feedback part 3, so that the transistor Q increases the collector voltage of ₅₎ drives the transistor (Q _6), the transistor (Q ₆₎ output (I ₀₎ through the transistor (Q ₁₀₎ (Q ₁₁₎ of the rectifying section 4 in accordance with the drive of the forward current is output, in contrast the base voltage (Vin) of the transistor (Q ₁₎ Transitional Emitter collector voltage of (Q ₂₎ of when lower than the base voltage transistor (Q ₁₎ is because off and the transistor (Q ₂₎ is turned on and off the transistor (Q ₅₎ of the feedback unit (3) transistor (Q ₅₎ the lower transistor (Q ₆₎ to and off, and the transistor (Q ₇₎ in accordance with the off state of the transistor (Q ₆₎ is turned on since the current flows in its collector current is a capacitor (C ₁ via a transistor (Q ₈₎ ) Is charged.

The conduction of the transistor Q ₇ causes the transistors Q ₁₀ and Q ₁₁ to be turned “on” so that the forward output signal is output to the output terminal Iout.

Therefore, the high-pass rectifying circuit according to the present invention, as described above, has the effect that it is possible to detect and rectify the high frequency components loaded on the power source by detecting and rectifying only the high frequency components irrespective of the low frequency components.

Claims (1)

Transistor according to the driving condition of the differential amplifier (1) and the transistor (Q2) of the differential amplifier (1) to output a different phase when the phase of the two inputs using two input and output terminals are different When the driving of Q3 and Q4 is determined, the active load unit 2 which determines the collector voltage of the transistors Q1 and Q2 and the driving of the transistors Q5, Q6 and Q7 according to the driving state of the transistor Q1. When the state is determined, the feedback unit 3 for determining the bias state of the transistor Q2 and the high frequency component regardless of the low frequency component when the driving of the transistors Q8 to Q11 is determined according to the output of the feedback unit 3. A high pass rectifier circuit comprising a rectifier (4) configured to detect and rectify only the bay.