JPH0456450A - Amplifier circuit - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] [Purpose of the invention] (Industrial application field) The present invention relates to an amplification circuit using an amplifier.

(Prior art) For example, in a conventional amplifier circuit, an output resistor is connected to the output terminal of an operational amplifier, which is an amplifier.
It is known that a feedback resistor is connected between the connection point between the output resistor and the output terminal of the operational amplifier and the inverting input terminal of the operational amplifier.

Such an amplifier circuit is used, for example, in a base unit of an intercom for making calls and for ringing. Further, the base unit is connected to a sub-base unit, and the amplification circuits for speech and ringing are each connected to a receiving section of the sub-base unit.

The signal is then amplified by the speech and ringing amplifier circuits of the base unit and transmitted to the receiving section of the sub-base unit.

(Problem to be Solved by the Invention) However, in conventional amplifier circuits, when the voltage applied to the output terminal is higher than the output voltage from the output terminal of the amplifier, reverse current such as backtone occurs in the intercom, and the output The problem is that the impedance is unstable.

The present invention has been made in view of the above problems, and an object of the present invention is to provide an amplifier circuit that can prevent backflow and stabilize output impedance.

[Structure of the invention]

(Means for Solving the Problems) The amplifier circuit of the present invention includes: an amplifier having an inverting input terminal and an output terminal; a current limiting resistor having one end connected to the output terminal of the amplifier and the other end forming an output terminal; The feedback resistor has one end connected to the output terminal of the current limiting resistor and the other end connected to the inverting input terminal of the amplifier.

(Function) In the present invention, even if the potential at the output terminal of the amplifier is higher than the output voltage output from the output terminal of the amplifier, the current limiting resistor prevents the current from flowing back to the output terminal of the amplifier.

Also, by applying feedback from the output terminal, the output impedance is reduced and the output is stabilized.

(Embodiment) Hereinafter, one embodiment of the amplifier circuit of the present invention will be described with reference to the drawings.

First, the operation will be explained with reference to FIGS. 2 to 4.

In Figure 2, OPI is an operational amplifier as an amplifier, and this operational amplifier OPI is
It has a non-inverting input terminal, an inverting input terminal and an output terminal,
A reference voltage VCC of IOV is applied. Further, a plurality of receiving units 1 are connected to the output terminal of the operational amplifier OPI via a current limiting resistor R1, and the impedance of these units is 16Ω. On the other hand, a bias voltage of 5 cm is applied to the non-inverting input terminal of the operational amplifier OPI, and an input resistor R2 of 100 KΩ is connected to the inverting input terminal, and the current limiting resistor R1, the input resistor R2, and the operational amplifier OPI A feedback resistor R3 of 100KΩ is connected between the connection point of the inverting input terminal of
is connected.

In this state, when the input voltage is changed from o to 50 mV, the output voltage A increases linearly to IOV until the input voltage reaches 50 mV, as shown in Figure 2, and then the input voltage Maintains 10V even if the voltage exceeds 50mV.

Further, at this time, as shown in FIG. 4, the output impedance shows a value close to 0 up to 50 mV, and takes a value of 3.2 when it exceeds 50 mV.

That is, until the input voltage reaches 50 mV, the output impedance is approximately 0, and even if the current value changes by ΔI, the voltage value does not change.

Therefore, unstable conditions such as changes in output are eliminated, and stable output can be obtained.

Next, an embodiment in which the above amplifier circuit is used in an intercom will be described with reference to FIG.

In FIG. 1, 11 is a base unit, and the base unit 11 has an operational amplifier 0P11 as a transmitting amplifier.
A current limiting resistor R11 is connected to the output terminal of this operational amplifier OFI+, a bias voltage is input to the non-inverting input terminal, a resistor JII2 is connected to the inverting input terminal, and the inverting input terminal and the resistor R
A feedback resistor RI3 is connected between the connection point of I2 and the output end of resistor R11. Similarly, the operational amplifier 0P12 as a calling amplifier is configured such that a current limiting resistor R14 is connected to the output terminal, and a bias voltage is input to the non-inverting input terminal.
A resistor 1i15 is connected to the inverting input terminal, and a feedback resistor RI6 is connected between the connection point between the inverting input terminal and the resistor R15 and the output end of the resistor 1114. Furthermore, the input resistor R]2 and the input resistor R+5 are both connected to the audio generating circuit I2, and the audio generating circuit 12 includes the following:
A transmitting/calling detection circuit 13 is connected.

In addition, a plurality of sub-main units 21 are connected to the main unit 11 via transmission lines with a line resistance RI of about 10Ω.
It is connected to the. Note that the transmission line I7 is grounded. Between the transmission line 14 and the transmission line 17 of these submaster units 21, there is a transmitter 22, a call switch 23 connected in parallel to the transmitter 22, and a call switch 23 connected in series to the transmitter 22 and the call switch 23. Connected transmitting switch 24
is connected. Furthermore, transmission line 15 or transmission line 1
One end of a receiver 26 is connected to a hook switch 25 which is connected to either one of the receivers 6 and 6, and the other end of the receiver 26 is connected to a transmission line 17.

Next, the operation of the above embodiment will be explained.

First, when calling the sub-base unit 21 from the base unit 11, output is made from the operational amplifier 0P12 for calling, and the receiver 26 of any sub-base unit 21 whose hook switch 25 is switched to the transmission line 16 side is output. generates a ring tone. Thereafter, the hook switch 25 is switched to the transmission line 15 side, and the output from the transmission operational amplifier 0P11 is reproduced by the receiver 26.

Conversely, when transmitting a call from the submaster unit 21 in this state,
The transmission switch 24 is closed, the transmitter 22 transmits, and the voice generation circuit 12 generates voice via the transmission call detection circuit 13 of the base unit 11.

Furthermore, when making a call from the sub-base unit 21, by closing the transmission switch 24 and closing the call switch 23, the transmission line 14 and the transmission line 17 are short-circuited. Upon detection, the voice generating circuit 12 generates a ringing tone.

In addition, in the state shown in Figure 1, the operational amplifier 0
A circuit is formed of PII, current limiting resistor R11, transmission line 15, hook switch 25, receiver 26, transmission line 17, receiver 26, hook switch 25, transmission line 16, and operational amplifier 0P12. Here, the output voltage of operational amplifier 0P12 is 25V2, and the output voltage of operational amplifier 0P11 is 20mV.
If the current limiting resistor 1111 is not provided as in the conventional case, a back tone is generated due to backflow.

However, by connecting the current limiting resistor R11, the current is limited to prevent backflow, and the output impedance is brought closer to 0, thereby reducing the amplitude of the output and stabilizing the output.

The amplifier may have a non-inverting input terminal and a ground terminal and apply a bias voltage, or it may have no non-inverting input terminal and connect a negative power source to the ground terminal.

〔Effect of the invention〕

According to the present invention, by connecting the current limiting resistor to the output terminal of the amplifier and connecting the feedback resistor between the output side of the current limiting resistor and the inverting input terminal, the current can be limited. Since the output impedance can be reduced, backflow can be prevented and the output can be stabilized.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram showing an intercom having an embodiment of the amplifier circuit of the present invention, FIG. 2 is a circuit diagram showing the same amplifier circuit, FIG. 3 is a graph showing the relationship between output voltage and input voltage, and FIG. The figure is a graph showing the relationship between output impedance and input voltage. OPI, 0PII, 0P12...Operational amplifier as an amplifier, R1, R11, R14・Current limiting resistor, R3, RI3, RI6・Feedback resistor.

Claims (1)

[Claims] (1) an amplifier having an inverting input terminal and an output terminal; a current-limiting resistor having one end connected to the output terminal of the amplifier and the other end forming an output terminal; and a current-limiting resistor having one end connected to the output terminal of the current-limiting resistor and the other and a feedback resistor whose end is connected to the inverting input terminal of the amplifier.