JP2576235Y2 - Voltage or current measuring device - Google Patents

Description

[Detailed description of the invention]

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention A measuring device used in an IC testing device or the like, which supplies a predetermined voltage or current corresponding to a DC voltage generated by a D / A converter to a load and converts the current or voltage of the load to A. The present invention relates to a current or voltage measuring device which is measured by a / D converter. In particular, a voltage dropped by a wiring for connecting one end of a load to a common potential point is applied to a cold side input / output terminal of each converter, The error of the / A converter and the A / D converter is prevented from increasing.

[0002]

2. Description of the Related Art A case where a predetermined voltage is generated at both ends of a load and a load current at that time is measured will be described with reference to FIG. A predetermined DC voltage V ₁ corresponding to the input digital signal 2 is supplied from the D / A converter 1 to the inverting input terminal of the operational amplifier A ₁ through the resistor R ₁ , and the amplified output voltage V ₄ is used for measurement. via a resistor R _M, it is supplied to the other end p _a of the load R _L of one p _b is connected to the common potential point G. The other end p _a voltage follower A ₂ and resistor R of the load
₂ successively through the, is connected to the inverting input terminal of the operational amplifier A _1.

[0003] Input and output terminals of the measuring resistor R _M is
It is connected to the input resistors R ₃ and R ₄ of the differential amplifier circuit A ₆ via the voltage followers A ₃ and A ₄ respectively. The voltage followers A ₃ and A ₄ and the differential amplifier circuit A ₆ constitute a differential amplifier circuit 3 having a high input resistance. The output of the differential amplifier circuit 3 is input to the A / D converter 4, the input voltage, hence the digital signal 5 corresponding to the load current I _L is output.

[0004] D / A converter 1 and the A / D converter 4, the ground terminal G _D connected to the common potential point, the cold-side signal line of the electronic circuit 6 unbalanced analog system output or input end _A cold-side output or input terminal GA connected to L _C is provided. The non-inverting input terminal of the operational amplifier A ₁ is directly connected to the signal line L _C. Load R _L end p _b also signal line L _C through a voltage follower A ₅ of
Connected to.

As an example, if the output voltage V ₁ of the D / A converter 1 is 10 V and R ₁ = 1 KΩ, then I ₁ =
Current of V ₁ / R ₁ = 10mA is sucked flows R ₁ -R ₂ to a voltage follower A _2. Since the inverting input terminal is a virtual ground point, its voltage V ₂ ≒ 0. If R ₂ = ₂ KΩ, the voltage drop due to R ₂ is I ₁ R ₂ = 20 V, so that the voltage V ₃ at the output terminal of the voltage follower A ₂ is V ₃ =
−I ₁ R ₂ = −V ₁ (R ₂ / R ₁ ) = − 20 V
Since the voltage drops of the voltage followers A ₂ and A ₅ are zero,
The potential of one end p _b of the load R _L is equal to the potential of the signal line L _C, also the potential of the other end p _a is equal to the potential of the output terminal of the operational amplifier A _2. Thus the load R _L terminal voltage V ₀ which is equal to the output voltage V ₃ = -20 V voltage follower A _{2. Therefore, V 0 = V 3 = -I} 1 R 2 = -V 1 (R 2 / R 1) ...... (1) (1) As is clear from equation, D / A converter 1 is a predetermined voltages V ₁ if the output, regardless of the resistance value of the load, it generates a constant voltage V ₀ across the load.

[0006] the terminal voltage V ₄ -V ₅ of the measuring resistor R _M is input to the differential amplifier circuit 3. In the circuit 3, R ₃ =
Assuming that R ₄ = R ₅ = R ₆ , the output voltage V ₆ becomes V ₆ = −
(V ₄ −V ₅ ). Load current I _L is determined by _{I L = (V 4 -V 5} ) / R M = -V 6 / R M ...... (2). Load current I from A / D converter 4
A digital signal 5 corresponding to _L is supplied to the outside.

The voltage followers A ₂ , A ₃ , A ₄ , A
₅ has an extremely high input impedance and negligible input current. The distance L between the load _RL and the electronic circuit section 6 of the measuring device is relatively long, and a wiring (a resistance component is represented by _Ra ,
Since the a R _b) flowing the load current I _L, voltage drop Δ
V _a, ΔV _b is generated, respectively. Although the [Delta] V _b is applied to the cold-side output terminal G _A of both converters, both the converter if the value is within an allowable range it can operate within tolerance.

According to this measuring device, as is apparent from the equations (1) and (2), as long as the D / A converter 1 and the A / D converter 4 can operate within a predetermined error,
Load R constant voltage V ₀ given to _L can be generated within the tolerance, it is possible to measure the load current I _L at that time in the tolerance. Next, a case where a predetermined current is applied to the load to measure the terminal voltage of the load will be described with reference to FIG. 4 in which portions corresponding to those in FIG.

Now, V ₁ = 0.1 V, R ₁ = 1 KΩ, R ₂
= 2KΩ, V ₂ ≒ 0, so I ₁ = V ₁ /
R ₁ = 0.1 mA, V ₃ = −I ₁ R ₂ = −V ₁ (R ₂ /
R ₁₎ = - it becomes 0.2V. In the differential amplifier circuit 3, R
If _{3 = R 4 = R 5 =} R 6, the gain because it is -1, the input voltage _{V 5 -V 4 = -V 3 =} 0.2V. Assuming that the measuring resistor R _M = 0.2 KΩ, the load current I
_{L I L = (V 4 -V} 5) is _{/ R M = V 3 / R} M = -V 1 (R 2 / R 1 R M) = -1mA ...... (3) (3) clear from equation If the D / A converter 1 outputs the predetermined voltage V ₁ , a constant current I _L can flow regardless of the resistance value of the load R _L.

The terminal voltage V ₀ of the load _RL is a voltage follower A
It is input to the inverting amplifier circuit A ₇ through _2. A ₂ and A ₇
Constitutes the amplifier circuit 8 for measurement. Resistance value R of the circuit 8
_{If 7} = R ₈ , the gain is −1, and the output voltage V
₆ is V ₆ = −V ₀ (R ₈ / R ₇ ) = − V ₀ (4) A digital signal 5 corresponding to the terminal voltage V _{0 of the} load is output from the A / D converter 4 to the outside.

[0011] Figure in the device 4 the load R _L and the resistance component R _a of the wiring connecting the electronic circuit 6, the load current I _L to R _b to flow, the voltage drop [Delta] V _a, [Delta] V _b is generated, the [Delta] V _b but it is applied to the cold-side output terminal G _a of the D / a converter 1 and the a / D converter 4, if the value is within the allowable range, both converters can operate within a predetermined error, the load A predetermined constant current I _L can flow through R _L within a predetermined error, and the terminal voltage V ₀ of the load at that time can be measured within an allowable error.

[0012]

Depending [devised is to solve the above measuring device may increase forced the distance L between the electronic circuit unit 6 and the load R _L, generate the load current I _L flows through the wiring resistance R _b it may be a voltage drop [Delta] V _b for example, also reach 0.5V to. Common potential point of the one end p _b of the voltage load (G)
Voltage with respect to The cold-side signal line L _C of the unbalanced electronic circuit 6 is connected to one end p of the load via a voltage follower A _5.
Since it is connected to _b , the voltage for the common potential point (G) is made equal to the voltage ΔV _{b at the} point p _b . Thus, voltage will be equal to [Delta] V _b for the connected ground terminal G _D to the common potential point of the D / A converter 1 and the A / D converter 4 in the cold side input terminal G _A. If this voltage is, for example, 0.2 V or less, there is no particular problem within the allowable range, but if it becomes, for example, about 0.5 V or more, the analog output voltage V ₁ of the D / A converter ₁ and the digital output The error of 5 becomes considerably large, and the measurement accuracy decreases.

[0013] The purpose of this invention, the voltage for the common potential point (G) of the one end p _b of the load is even greater Nari variable, D
Ground terminal (connected to a common potential point) of cold side input terminal GA of _A / A converter 1 and A / D converter 4
_{The purpose is} to keep the voltage on _D from falling outside of an acceptable range so that errors in these converters do not increase.

[0014]

A current measuring apparatus according to claim 1 Means for Solving the Problems] A, D / A converter and A / D converter each cold-side output terminal G _A of is connected to a common potential point with the ground terminal G _D . A voltage with respect to a common potential point at one end of the load is detected by an inverting amplifier circuit having a high input resistance, and a detection output is supplied to an inverting input terminal of the operational amplifier through a third resistor.

In the voltage measuring device according to the second aspect, D / S
A converter and A / D converter each cold-side output terminal G _A of is connected to a common potential point with the ground terminal G _D. Also, the measurement amplifier circuit has two inputs with high input resistance.
Is a differential amplifier circuit having a terminal, the two input terminals are connected across the load.

[0016]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the embodiment of the invention of claim 1, the same reference numerals are given to the portions corresponding to FIG. 3 in FIG. In this invention, the D / A converter 1 and the A / D converter 4
The cold side input / output terminal G _A is connected to the cold side signal line L _C of the electronic circuit section 6 and at the same time, is connected to the common potential point G together with the ground terminal G _D. One end p _b of the load is connected to the input terminal of the inverting amplifier circuit 7 of the high input resistance is connected to the inverting input terminal of the operational amplifier A ₁ and the output terminal via a resistor R _11. Inverting amplifier circuit 7 is composed of two stages of the voltage follower A ₇ and the inverting amplifier circuit A _8. R ₉ =
Gain of R ₁₀ Tosureba inverting amplifier circuit 7 -R ₁₀ / R ₉ = -
It is one.

Now, as an example, V ₁ = 10 V, R ₁ = 1
If KΩ, R ₂ = R ₁₁ = ₂ KΩ and ΔV _b = 0.5 V, then V ₂ ≒ 0, so that I ₁ = V ₁ / R ₁ = 10 mA,
V ₇ = −ΔV _b = −0.5 V Therefore, the current I of R _11
2 is I ₂ = −V ₇ / R ₁₁ = ΔV _b / R ₁₁ = 0.25 mA. Therefore, the current I ₃ for R _2, I ₃ = I ₁ -I
₂ (= V ₁ / R ₁ −ΔV _b / R ₁₁ ) = 9.75 mA.
Therefore, the voltage V ₃ at the output terminal of the voltage follower A ₂ becomes _{V 3 = -I 3 R 2 =} -9.75 × 2 = -19.5V. Alternatively, if the above equation is modified, V ₃ = −I ₃ R ₂ = − (V ₁ / R ₁ −ΔV _b / R ₁₁ ) R ₂ = −V ₁ (R ₂ / R ₁ ) + ΔV _b = −10 × 2 + 0.5 = -19.5 V (5) The load terminal voltage V ₀ is as follows: V ₀ = V ₃ −ΔV _b = −V ₁ (R ₂ / R ₁ ) + ΔV _b −ΔV _b = −V ₁ (R ₂ / R ₁ ) (6) As is clear from equation (5), one end of the load p _b
If but higher by a voltage [Delta] V _b to the common potential point G, the common potential point voltage for the G at the other end p _a point of load (= V ₃₎
It is also increased by [Delta] V _b, independently of the [Delta] V _b across the load, a constant voltage _{V 0 = -V 1 (R 2} / R 1) is applied.

[0018] Measurement of the load current I _L flowing through the measuring resistor R _M is performed in the same manner as described in the prior art by the differential amplifier circuit 3 and the A / D converter 4. A predetermined current is applied to the load, and the terminal voltage of the load at that time is measured.
An embodiment of the invention will be described with reference to FIG. In FIG. 2, parts corresponding to those in FIGS. 3 and 4 are denoted by the same reference numerals. D
The cold-side input / output terminals G _A of the / A converter 1 and the A / D converter 4 are connected to the cold-side signal line L _C and at the same time to the common potential point G, as in the case of FIG. Both ends p _a and p _b of the load are connected to separate input terminals of a differential amplifier circuit 8 having a high input resistance. p _a , p _b
Voltage V _a and [Delta] V _b for the common potential point of the point are inputted to the voltage follower A _11, A ₁₂ of the differential amplifier circuit 8. The output of the A ₁₂ is input to the inverting amplifier circuit A _13. The output of the output and the inverting amplifier circuit A ₁₃ of the voltage follower A ₁₁ is input to the summing amplifier circuit A _14. Now gain of R ₁₂ = R ₁₃ Tosureba inverting amplifier A ₁₃ are members is -1, the two inputs of the summing amplifier circuit A ₁₄ becomes V _a and - [Delta] V _b. Assuming now that R ₁₄ = R ₁₅ = R ₁₆ , the output voltage V ₆ of the addition amplification circuit A ₁₄ is V ₆ = − (V _a −ΔV _b ) = − V ₀ (7) Therefore, the gain of the differential amplifier circuit 8 is -1. Even when the voltage equal to the voltage drop [Delta] V _b due to the wiring resistance to one end p _b of the load has occurred, by the differential amplifier circuit 8 and the A / D converter 4, the terminal voltage of the load can be measured.

[0019] Figure 1, since the input and output terminals G _A cold side of FIG. 2 D / A converter 1 in each case and the A / D converter 4 is connected to the common potential point with the ground terminal G _D, both No potential difference occurs between them. Therefore, there is no danger that the tolerance will deviate from the allowable range unlike the related art.

[0020]

[Effect of the invention] This invention, since the cold-side output terminal G _A of the D / A converter 1 and the A / D converter 4 is connected to a common potential point with the ground terminal G _D, common in the electronics unit 6 never voltage drop [Delta] V _b of the signal line connecting the one end p _b and load potential point G generated between the G _a and G _D as in the prior art. Therefore, there is no danger that the voltage between G _{D and} G _{A of} the D / A converter 1 and the A / D converter 4 exceeds the allowable range, and therefore, there is no danger that the measurement accuracy will decrease.

[Brief description of the drawings]

FIG. 1 is a circuit diagram showing an embodiment of the invention of claim 1;

FIG. 2 is a circuit diagram showing an embodiment of the invention of claim 2;

FIG. 3 is a circuit diagram of a conventional current measuring device.

FIG. 4 is a circuit diagram of a conventional voltage measuring device.

Claims (2)

(57) [Scope of request for utility model registration] 1. A predetermined DC voltage corresponding to an input digital signal from a D / A converter is supplied to an inverting input terminal of an operational amplifier through a first resistor, and an output voltage of the operational amplifier is supplied through a measuring resistor. ,
One end is supplied to the other end of the load connected to the common potential point, and the other end of the load is connected to the inverting input terminal of the operational amplifier via a voltage follower and a second resistor sequentially, and the measuring resistor A terminal voltage of the device is input to an A / D converter through a differential amplifier circuit having a high input resistance, and a digital signal corresponding to a load current is output. / D converter each cold-side output terminal G _a of being connected to a common potential point with the ground terminal G _D, the voltage with respect to a common potential point of one end of the load is detected by the inverting amplifier circuit with high input resistance, the A current measuring device, wherein a detection output is supplied to an inverting input terminal of the operational amplifier through a third resistor. 2. A predetermined DC voltage according to an input digital signal from a D / A converter is supplied to an inverting input terminal of an operational amplifier through a first resistor, and an output current of the operational amplifier is supplied to a measuring resistor. Through
One end is supplied to the other end of the load connected to the common potential point, the terminal voltage of the measuring resistor is amplified by a differential amplifier circuit having a high input resistance, and the output voltage is passed through a second resistor. The terminal voltage of the load is supplied to the inverting input terminal of the operational amplifier, and the A / D
Is input to the converter, the voltage measurement device configured to output a digital signal corresponding to the terminal voltage of the load, the D / A converter and A / D converter each cold-side output terminal G _A of the ground terminal Connected to a common potential point together with G _D , wherein the measuring amplifier circuit connects two input terminals of high input resistance.
Is a differential amplifier circuit having, characterized in that the two input terminals are connected to both ends of the load, the voltage measuring device.