RU2066068C1 - Current-to-voltage converter - Google Patents

Abstract

FIELD: electric engineering. SUBSTANCE: device has two operational amplifiers, feedback resistor, N+1 scaling resistors which are connected in series, and commutator which has N gates. Direct input of first operational amplifier is connected to common line, its inverting input is input of device; control inputs of gates of commutator are connected to control inputs of converter; second information terminals of gates are joined and connected to output of first operational amplifier; first information terminals of gates are connected to first terminals of N scaling resistors; second terminal of first scaling resistor is connected to inverting inputs of first operational amplifier; output of second operational amplifier is connected to its inverting input through feedback resistor. It is also connected to free terminal of N+1 scaling resistor; direct input of second operational amplifier is connected to common line of converter. EFFECT: decreased influence of residual characteristics of conducting gates, use of gates with optimal characteristics. 1 dwg

Description

 The invention relates to digital measuring equipment, namely, to input devices of analog-to-digital converters.

 To convert to a DC code, it is usually necessary to perform a current-to-voltage conversion, since voltage-to-code converters are most widely used. In the simplest case, the current-voltage converter is simply a resistor through which the measured current flows. The disadvantage of such devices is the high input impedance. This drawback is eliminated in current-voltage converters created using operational amplifiers with a resistor in the feedback circuit (V. Gutnikov. Integrated electronics in measuring devices. L. "Energoatomizdat", 1988, p. 39 40, Fig. 1.16 a) .

 When changing the measured current over a wide range, it is necessary to switch the transfer coefficient of the current-voltage converter. This is done by switching the resistors by the switch in the feedback circuit of the operational amplifier, and in the case of criticality of the dynamic properties of the converter, the switch must be created using high-speed contactless keys with low accuracy characteristics and introducing significant errors into the current-voltage converter (for the most widely used contactless keys on field-effect transistors, the resistance in the closed state reaches several hundred ohms, and the residual current in the open state up to tens of nanoamperes (Zhuravin L.G. et al. Methods of electrical measurements. L. "Energoatomizdat", 1990, p. 65)).

 Closest to the claimed invention, the current-voltage Converter containing an operational amplifier, the inverting input of which is the input of the device, the non-inverting input is connected to the common bus of the device, and the output is the output of the device, N large-scale resistors, the first conclusions of which are combined and connected to the output of the device, and the second conclusions to the first information outputs of the switch keys containing N keys, the second information outputs of which are combined and connected to the input of the device that controls the input Keys are connected to the control input of the converter (Shvetsky B. I. Electronic digital devices. K. "Technique", 1981, p. 187, Fig. 100). This converter is adopted as a prototype.

 The disadvantage of the prototype is the small dynamic range, because at high currents it is necessary to use large-scale resistors of small denominations, which leads to very large errors caused by the resistance of the public key, creating a voltage divider with scale resistors.

 Another disadvantage of this device is the limited accuracy, which is determined by the residual parameters of both the closed keys forming the divider with scale resistors (if the keys have a residual EMF, then it is summed with the output signal of the device), and the residual parameters of the open keys, the currents of which flow through the resistor, connected to the operational amplifier, summing up with the measured current. Moreover, when using keys on field-effect transistors, a decrease in any of these error components leads to an increase in the other (Smolov VB et al. Microelectronic digital-to-analog and analog-to-digital information converters. L. "Energy", 1976, p. 55).

 The task of the invention is the creation of a converter with an extended dynamic range and increased accuracy. The problem is solved by eliminating the influence of the residual parameters of the closed keys and using keys with optimal parameters in the open state.

 To this end, it is proposed to introduce a current-voltage converter into the converter, containing an operational amplifier, the non-inverting input of which is connected to the device common bus, and the inverting one is the converter input, N scale resistors and a switch containing N keys, the control inputs of which are connected to the control inputs of the converter, the first information the inputs of the switch keys are connected to the first outputs of the corresponding large-scale resistors, and the second information outputs of the keys are combined, the second operational gain a feedback resistor and an (N + 1) -th scale resistor, the scale resistors being connected in series, the second output of the first scale resistor is connected to the inverting input of the first operational amplifier, the output of which is connected to the combined information outputs of the switch keys, the output of the second operational amplifier, which is the converter output, is connected through a feedback resistor to its inverting input and to the free output of the (N + 1) -th scale resistor, and its non-inverting input is connected common bus converter.

 The device differs from the prototype and other analogues in that when switching the transmission coefficient, the closed contactless key is included in the output circuit of the operational amplifier and is covered by deep negative feedback, which eliminates the influence on the conversion accuracy of the residual parameters of this closed key and allows the feedback to be used in the circuit communication of this operational amplifier resistors of any arbitrarily small denominations.

 The drawing shows a structural diagram of the device.

The current-voltage converter contains an operational amplifier 1, the non-inverting input of which is connected to the common bus of the device, and the inverting one is the input of the device, switch 2, containing N keys (K ₁ .K _n ), the control inputs of which are connected to the control inputs of the converter, the second information outputs keys are combined and connected to the output of the operational amplifier 1, N of scale resistors 3, the first outputs of which are connected to the first information outputs of the keys of the switch 2, the second output of the first large-scale res Ora 3 is connected to the inverting input of operational amplifier 1, the (N + 1) -th scale resistor 4, scale resistors 3 and scale resistor 4 are connected in series, operational amplifier 5 and feedback resistor 6, the output of operational amplifier 5 through feedback resistor 6 is connected with its inverting input and the free output of the scale resistor 4, the non-inverting input of the operational amplifier 5 is connected to the common bus of the converter.

 The current-voltage Converter operates as follows. The device has N switchable transmission coefficients equal to the number of switch 2 keys. When setting the i-th transfer coefficient, the i-th switch key 2 closes, all other keys of which are open.

резисторы R_i+1. R_n+1 формируют коэффициент усиления инвертирующего усилителя на операционном усилителе 5 с резистором R_ос 6 в цепи обратной связи. Коэффициент усиления этого усилителя

а коэффициент передачи всего устройства составит:

Переключаясь, ключи коммутатора 2 изменяют как коэффициент передачи преобразователя ток-напряжение на операционном усилителе 1, так и коэффициент усиления усилителя на операционном усилителе 2.The closed key divides the scale resistors 3 and 4 into two groups: resistors R ₁ .R _i enter the feedback of the operational amplifier 1 and form a current-voltage converter with a transmission coefficient

resistors R _{i + 1} . R _{n + 1} are formed the gain of the inverting amplifier is an operational amplifier with a resistor R 5 _axes 6 in the feedback loop. Gain of this amplifier

and the transmission coefficient of the entire device will be:

Switching, the keys of the switch 2 change both the transfer coefficient of the current-voltage converter on the operational amplifier 1, and the gain of the amplifier on the operational amplifier 2.

Влияние остаточной ЭДС Е замкнутого ключа тоже будет уменьшено в (1+А) раз, а вызванная ею относительная погрешность при токе на входе I_вх. составит:

Таким образом, при достаточно большом коэффициенте усиления операционного усилителя 1 остаточные параметры замкнутого ключа коммутатора 2 практически не оказывают влияние на точность устройства.The closed switch key 2 is included in the output circuit of the operational amplifier 1 and is covered by deep negative feedback. The resistance of this closed key R _{5 is} summed with the output resistance of the operational amplifier 1, and its influence decreases by (1 + A) times, where A is the gain of the operational amplifier of the operational amplifier 1, and the relative error introduced by this resistance is:

The influence of the residual EMF E of the closed key will also be reduced by (1 + A) times, and the relative error caused by it with the current at the input I input will be reduced _. will be:

Thus, with a sufficiently large gain of the operational amplifier 1, the residual parameters of the closed key of the switch 2 practically do not affect the accuracy of the device.

 The influence of the residual parameters of the open keys of the switch 2 will be similar to the prototype. However, since the errors caused by the residual parameters of these keys in the closed state are negligible, the keys of the switch 2 can be selected according to their parameters in the open state, minimizing the corresponding errors.

Поскольку система имеет N уравнений, а неизвестных N+2, то два необходимо задать.To select the values of the scale resistors 3 and 4 and the feedback resistor 6 (R _OS ), it is necessary to solve a system of N equations relating the converted current I _injj and the output voltage U _outjj for all N transmission coefficients:

Since the system has N equations, and unknowns N + 2, two must be specified.

Claims (1)

 The current-voltage converter contains an operational amplifier, the non-inverting input of which is connected to the common bus of the converter, and the inverting input is the information input of the converter, N scale resistors and a switch containing N keys, the control inputs of which are connected to the control input of the converter, for the first time the information outputs of the switch keys are connected to the first conclusions of the corresponding large-scale resistors, and the second information outputs of the keys are combined, characterized in that it contains there is a second operational amplifier, a feedback resistor, and an (N + 1) -th scale resistor, with the scale resistors connected in series, the second output of the first scale resistor connected to the inverting input of the first operational amplifier, the output of which is connected to the combined information outputs of the switch keys, the output of the second an operational amplifier, which is the output of the converter, is connected through a feedback resistor to its inverting input and to the free output of the (N + 1) -th scale resistor, and its einvertiruyuschy input connected to the common bus converter.