CS259719B1 - Connection of universal controlled current source - Google Patents

Abstract

The circuit relates to the field of controlled current sources. The subject of the solution is the technical problem of implementing a universal, precise and yet simple controlled current source with the possibility of voltage and current control with positive and negative transfer and with both polarities of the output current. The circuits used so far are based on the use of a transistor, while such a source is not sufficiently precise and universal, -or on the use of -operational amplifiers together with transistors, in relatively complex circuits, which are usually not completely universal either. The essence of the solution to this problem lies in the appropriate connection of two inverting summing amplifiers in a loop together with a fourth resistor. With a suitably set value of the seventh resistor, the current source has an infinite output resistance, the possibility of current and voltage control, with inverting and non-inverting transfer. The circuit can be used in all applications where a precise controlled and constant current source with both polarities is needed. When using a sufficiently power-dimensioned first operational amplifier, it can be used in power electronics.

Description

The invention relates to the connection of a universal controlled current source with the possibility of current and voltage control and positive and negative polarity of the output current.

The controlled current sources used so far are based either on a simple implementation with a transistor or on relatively complicated circuits with operational amplifiers and transistors. Realizations of a single transistor current source are poorly accurate and with only one output current direction. Connections with operational amplifiers and transistors are quite complex and not quite versatile and difficult to fully integrate.

The above-mentioned drawbacks solve the connection of the universal controlled current source according to the invention, which is characterized in that the input terminal for voltage control is connected via a first resistor to the input terminal for inverting current control directly connected to the inverting input of the first opamp. the output of the first operational amplifier, which is connected via a fourth resistor to the output terminal of the controlled current source. It is connected to the input terminal for current control and to the inverting input of the second operational amplifier, which is connected via the second resistor to the input terminal for voltage control and through the sixth resistor to the output of the second operational amplifier connected to the inverting input of the first operational amplifiers. Furthermore, the non-inverting inputs of both operational amplifiers are connected to a common terminal.

The main advantage of this circuit is the simplicity of implementation with two operational amplifiers and seven resistors while maintaining precision and complete versatility in terms of control and polarity of the output current.

_ R12R9 _ Ra R12R9 ² ~ RnRio ' ¹ - R10' ^{1 +} RuRsRío where input current to input terminal 4 for non-inverting current control is ill * input current to input terminal 1 for inverting current control,

Ui is the input voltage between the common terminal 5 and the input terminal 3 for non-inverting voltage control, and

UT is the input voltage between the common terminal 5 and the input terminal 2 for inverting voltage control.

The attached drawing shows the wiring of a universal controlled power supply according to the invention. The output of the power supply is on the output terminal 6, the inputs for control with positive or negative voltage or current transfer are on the input terminals 1 to 4.

The controlled current source is formed by two inverting summation amplifiers in a loop with a fourth resistor 10. One amplifier consists of a first operational amplifier 14 and a third resistor 9 and a fifth resistor 11. The second amplifier consists of a second operational amplifier 15, a sixth resistor 12 and a seventh resistor 13. The first resistor 7 and the second resistor 8 provide inputs for voltage control. The current control inputs are connected directly to the inverting inputs of the operational amplifiers.

For the function of the controlled current source it is advantageous to select the same and high value of the third resistor 9, the sixth resistor 12 and the seventh resistor 13. The current source will then operate as ideal with an infinite output resistor, provided the fifth resistor 11 has the same value as The maximum output current of the current source is limited by the value of the fourth resistor 10, the supply voltage of the operational amplifiers and the maximum output current and the allowed power load of the first operational amplifier 14.

Inputs for current control have zero input resistance, inputs for voltage control have input resistance given by the value of the first resistor 7 and the second resistor 8. It follows that it is appropriate to choose the value of all resistors except the fourth resistor 10 as high as possible 1 ΜΩ. The value of the output current I2 is given by the relation

For controlling it is possible to use any of the mentioned control quantities or the sum of their combinations as follows from the given relation.

This connection can be used in any application where a controlled and constant current source of both polarities is required, independent of the connected load. With sufficient power dimensioning of the first operational amplifier 14, the wiring can also be used in power electronics.

Claims (1)

pRedmét i · Universal, controlled current source connection, characterized in that the input terminal (2) for inverting voltage control is connected via a first resistor (7) to the output terminal (1) for inverting current control directly connected to the inverting input of the first operational amplifier (14) and via a third resistor (9) connected to the output of the first operational amplifier (14) which is connected via a fourth resistor (10) to the output terminal (6) of the controlled current source which is connected to the input terminal of the invention (7) ) for current control and inverting input of the second operational amplifier (15) connected via a second resistor (8) to the input terminal (3) for voltage control and via a sixth resistor (12) with the output of the second operational amplifier (15) connected via a fifth resistor (11) to the inverting input of the first opamp (14), the non-inverting input of the first opamp (14), and the non-inverting input of the second opamp (15) is coupled to a common terminal (5).