JP3124321B2 - Automatic current measurement range switching circuit - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION This invention is to switch the current detection resistor value at the current measured at the current measurement, without requiring an external control signal automatically by the amount of current flowing through the current detection resistor The present invention relates to an automatic range switching device for a current measurement circuit that can be used.

[0002]

2. Description of the Related Art As a conventional range switching method, a relay is connected in parallel to each current detecting resistor, and relays other than the necessary range of the detecting resistor are turned on by an external relay control signal.
Then, by flowing a current through the relay, the voltage drop due to the detection resistor is suppressed, and the voltage of the output buffer for supplying the voltage is prevented from becoming saturated.

[0003]

However, in the prior art, since a relay is used, the mounting area of the current detection circuit on the printed circuit board is large, and a control circuit is required to control the relay by a logic signal. Therefore, there is a disadvantage that the entire current detection circuit becomes large and is not suitable for miniaturization of the device. An object of the present invention is to perform range switching without using a relay in order to solve such a conventional disadvantage.

[0004]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, the present invention provides a method of turning on / off a relay at the time of range switching.
Is connected to a diode bridge structure, a constant current source is connected to the diode bridge structure to eliminate leakage due to the forward current of the diode, and the maximum detection range voltage of the current detection resistor is set to reduce the offset error due to the gain of the current detection circuit. Is set to 0.4V.

[0005]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In FIG. 1, a voltage is applied to a load 14 by setting a voltage in a voltage amplifier circuit 1. The voltage drop caused by the current flowing through the current detection resistors 6 and 7 is measured by the current detection circuit 2. In the above configuration, when a large range is used, the analog switch 12 is turned off, the analog switch 13 is turned on, and the voltage of the voltage drop voltage (between the connection points 16 and 17) caused by the current flowing through the detection resistor 7 is detected to measure the current. I do. At this time, the value of the detection resistor 7 is determined so that the maximum detection voltage of the range becomes 0.4 V. When a positive voltage is applied to the load, the diodes 10 and 11 are turned on, and the diodes 8 and 9 are turned off. When a negative voltage is applied, the current flows through the diodes 10 and 11. And 9 flow current. The output voltage 20 of the current buffer 3 is ± VIN (applied voltage) ± 0.4V
± 2V _F (V _F : diode forward voltage) to prevent saturation voltage.

When a small current range is used, the analog switch 12 is turned on and the analog switch 13 is turned off.
Then, the voltage of the voltage drop voltage (between 15 and 17) generated by the current flowing through the current detection resistors 6 and 7 is detected, and the current is measured. The value of the detection resistor at this time is determined so that the maximum detection voltage of the range (between the connection points 15 and 17) becomes 0.4V. Therefore, the value of the detection resistor 7 must be a value that satisfies both ranges. The state of the diode here is R ₁ >>
Since R ₂ (R ₁ and R ₂ are the resistances of the resistors 6 and 7), the voltage between the connection points 15 and 16 is considered to be about 0.4 V at the time of the maximum detection of the range. If ignored, when the positive voltage VIN is applied to the load, the connection point 16
Is about VIN, and the voltage at the connection point 15 becomes V _IN +0.4 V at the time of maximum detection of the range. In this state,
The voltage at the connection point 19 becomes V _IN +0.4 V + V _F (diode forward voltage: about 0.6 V), and a reverse voltage is applied to the diode 8 so that no current flows. The voltage at the connection point 18 is
V _IN + 0.4V - V _F, and the current will also be a reverse voltage across the diode 11 does not flow. Even when a negative voltage is applied to the load, a reverse voltage is applied to the diodes 8 and 11. Therefore, the current flowing through the current detection resistor is
Only the current flowing to the load becomes available, and it operates as a current measuring circuit. In this description, only two ranges are used. However, the present invention can be applied to multiple ranges with the same concept.

[0007]

According to the present invention, a diode is used in place of range switching by a relay, and the detection voltage when the diode is used is increased to reduce the component mounting area. This is an effective circuit.

[Brief description of the drawings]

FIG. 1 is a diagram of a current detection circuit according to the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Voltage amplifier circuit 2 Current detection circuit 3 Current buffer 4, 5 Constant current diode 6, 7 Current detection resistor 8-11 Diode 12, 13 Analog switch 14 Load 15-20 Voltage point of each point

Claims (1)

(57) [Claims] 1. A bridge structure in which first, second, third, and fourth four diodes are annularly arranged in a forward direction, and a bridge, which is a connection portion between the first and second two diodes of the bridge structure. A first current detection resistor provided between the first connection portion and a second connection portion which is a connection portion between the other third and fourth two diodes; Two constant current sources respectively connected to a third connection part which is a connection part and a fourth connection part which is a connection part of the first and fourth diodes, and one end is connected to the first connection part. And said
A second current detection resistor having a lower resistance value than the first current detection resistor, a load provided at the other end of the second current detection resistor, and an input at one end is the load and the second current detection resistor Characterized in that the input at the other end comprises a current detection circuit connected in parallel to the first connection part and the second connection part via analog switches, respectively. Switching device.