JPH0545984Y2 - - Google Patents

Description

[Detailed description of the invention] "Purpose of the invention" (Field of industrial application) This invention relates to an output current detection device for an amplifier, and is particularly suitable for detecting the output current in a balanced power amplifier such as a BTL amplifier. The present invention relates to a suitable output current detection device.

(Prior Art) As an output current detection device for a current amplifier, there is, for example, one configured as shown in the circuit diagram in FIG.

The output current detection device shown in FIG.
, a preamplifier 2 that detects and amplifies the voltage V _I between the terminals of the detection resistor R, and a voltmeter 3 connected to the output side of the preamplifier 2.

When measuring the output current I _L of the unbalanced power amplifier 1 with the output current detection device configured as described above, the resistance value connected in series with the load L is sufficiently small compared to the impedance of the load L. The voltage V _I between the terminals of the detection resistor R with the detection resistor R
When amplified by the _preamplifier 2 which has a gain _A equal to the _reciprocal of the resistance _value of ｜ becomes. This output voltage V _O is |V _O |=|I _L |. Thus, the output voltage V _O is equal to the output current I _L
The output current I _L can be directly read using the voltmeter 3.

(Problem to be solved by the invention) However, in the conventional output current detection device described above, when the amplifier to be measured is an unbalanced type, the detection resistor R is loaded as shown in Fig. 3. It is sufficient to connect it between L and ground and measure the voltage with respect to ground, but for example, in the case of a balanced amplifier such as a BTL amplifier, it is not possible to ground one of the output terminals, so Consequently, there was a drawback that it was not possible to measure the output currents of both unbalanced and balanced amplifiers using the circuit configuration shown in FIG. 4.

This invention was made in view of the above points, and its purpose is to detect and measure the output current of both unbalanced and balanced amplifiers with the same circuit configuration. An object of the present invention is to provide an output current detection device for an amplifier that is capable of detecting an output current of an amplifier.

"Structure of the invention" (Means for solving the problem) The amplifier output current detection device according to this invention is
If the amplifier under test is a balanced amplifier such as a BTL amplifier, connect the output side of one of the amplifiers, and if it is an unbalanced amplifier, connect the ground side of that amplifier to the common terminal. ,
If the amplifier under test is a balanced type, connect the output side of the other amplifier, or if it is an unbalanced type, connect the output side of that amplifier to the input terminal and this input terminal. the load of the amplifier under test, which is connected in series to this load, and the other end connected to a common terminal,
An operational amplifier whose one input is connected to the connection point between this detection resistor and the load, and whose other input is connected to a common terminal via a resistor, and a voltmeter connected between the output of this operational amplifier and the common terminal. It is equipped with the following.

(Function) The amplifier under test that detects the output current is
In the case of a balanced amplifier such as an amplifier, the output of one amplifier constituting the balanced amplifier is connected to a common terminal, and the output of the other amplifier is connected to an input terminal. In this case, the output side of one of the amplifiers connected to the common terminal is used as the voltage reference point when measuring the output current _IL . As a result, the entire circuit configuration for measuring the output current I _L of the amplifier under test can be floated from the ground.

Therefore, when measuring the output current I _L of the amplifier under test, the voltage across the terminals of a detection resistor whose resistance value R is sufficiently small compared to the load impedance is
Detects V _I and inputs it to the operational amplifier. Since this operational amplifier is a preamplifier whose gain is the same as the reciprocal of the resistance value R of the detection resistor, its _output voltage V _O is similar to the conventional example shown in _FIG. =A・I _L /AHowever, A=｜R1｜
Therefore, the value of the output voltage VO is equal to the output current IL, and the output current can be directly read with a voltmeter.

Further, if the amplifier under test for detecting the output current is an unbalanced amplifier, the output of the unbalanced amplifier is connected to the input terminal, and the ground is connected to the common terminal. In this case, as in the conventional example shown in FIG. 4, the output current can be measured by measuring the voltage with respect to the ground connected to the common terminal.

(Example) An example of the output current detection device for an amplifier according to this invention will be described based on FIGS. 1 to 3. FIG. 1 is a circuit diagram showing the overall configuration, FIG. 2 is a circuit diagram showing a measurement state in which a balanced amplifier is connected, and FIG. 3 is a circuit diagram showing a measurement state in which an unbalanced amplifier is connected.

In Fig. 1, is an input terminal, and if the amplifier under test is a BTL amplifier 11 (balanced type) as shown in Fig. 2, one of the amplifiers 11
If the amplifier under test is an unbalanced amplifier 1 as shown in FIG. 3, its output side is connected. is a common terminal, and if the amplifier under test is the BTL amplifier 11 as shown in FIG. 2, the output of the other amplifier 11b of that amplifier is connected; Connect the ground side. R1 is a detection resistor, which has a sufficiently small resistance value (for example, 0.01Ω) compared to the impedance of the load L.
R2 and R3 are resistors that determine the gain A of the operational amplifier 21 (for example, the resistance value of resistor R2 is
99KΩ, and set the resistance value of resistor R3 to 1KΩ).
Therefore, the operational amplifier 21 has a detection resistor R1
The voltage V1 between the terminals of is amplified by a gain A that is the same as the reciprocal of the resistance value of the detection resistor R1, and the output voltage is
V _O = A・V _I = A・I _L /R1 However, the gain A = |R1|, the value of the output voltage V _O is _equal to the output current I _L , and the output current is measured by the voltmeter 3. It is structured so that I _L can be read directly.

When measuring the output current I _L of a BTL amplifier, which is a balanced amplifier, by configuring as described above, as shown in FIG.
The output of one amplifier 11a is connected to an input terminal, and the output of the other amplifier 11b is connected to a common terminal. In this case, the output side of the amplifier 11b connected to the common terminal is used as the voltage reference point when measuring the output current _IL . Due to this,
The entire circuit configured as shown in FIG. 1 for measuring the output current I _L of the BTL amplifier 11 can be floated from earth.

When measuring the output current I _L of an unbalanced amplifier, connect the output side of the unbalanced amplifier 1 to the input terminal and the ground side to the common terminal as shown in Figure 3. Similarly to the conventional example shown in FIG. 4, the output current I _L can be measured.

"Effect of the invention" According to the amplifier output current detection device according to this invention, when measuring the output current of a balanced amplifier such as a BTL amplifier, the voltage reference point is placed on the output side of one amplifier. Therefore, the entire circuit configuration to be measured can be floated from the ground, and the output current of the balanced amplifier can be easily measured. Furthermore, when the output current of an unbalanced amplifier is easily measured, it can be measured in the same manner as before without changing the circuit configuration to be measured. Furthermore, it has a simple circuit configuration in which only one operational amplifier is used in the voltmeter, and can be constructed at low cost, so it has excellent features such as being easy to implement.

[Brief explanation of the drawing]

1 to 3 show an embodiment of this invention, and FIG. 1 is a circuit diagram showing the overall configuration;
FIG. 2 is a circuit diagram showing the connection state when measuring a balanced amplifier, and FIG. 3 is a circuit diagram showing the connection state when measuring an unbalanced amplifier. FIG. 4 shows a conventional example, and is a circuit diagram showing a connection state when measuring an unbalanced amplifier. 1...Unbalanced amplifier, 2...Preamplifier, 3
...Voltmeter, L...Load, R, R1...Detection resistor, ...Input terminal, ...Common terminal, 11...
Balanced amplifier, 21... operational amplifier.

Claims (1)

[Scope of claim for utility model registration] (1) If the amplifier under test is a balanced amplifier such as a BTL amplifier, the output side of one of the amplifiers, or if it is an unbalanced amplifier, the ground side of the amplifier. If the amplifier under test is a balanced type, connect the output side of the other amplifier, or if the amplifier under test is an unbalanced type, connect the common terminal that is connected to each of the common terminals. An input terminal configured as shown in FIG. It is characterized by comprising an operational amplifier in which one input is connected to a connection point and the other input is connected to a common terminal via a resistor, and a voltmeter connected between the output of this operational amplifier and the common terminal. Amplifier output current detection device. (2) The output current detection device for an amplifier according to claim 1, wherein the detection resistor has a sufficiently smaller resistance value than the impedance of the load connected in series. . (3) The amplifier output current detection device according to claim 1, wherein the operational amplifier has a gain that is the same as the reciprocal of the resistance value of the detection resistor.