SU1260695A1 - Optical radiation source - Google Patents

Abstract

The invention relates to photometry and can be used in devices for studying the optical properties of various media. The purpose of the invention is to increase the stability of the incandescent lamp radiation. The device comprises an incandescent lamp connected to a stabilization unit. The stability of the radiation flux is achieved due to the independence of the temperature of the filament of the lamp from the temperature of the medium. The device is equipped with a resistance converter. The filament lamp filament serves as a convertible resistance. The stabilization unit is made in the form of an RC harmonic oscillator. 1 il. (About GcheE O5 about 05 with SP

Description

The invention relates to photometry and can be used in devices for studying the optical properties of various media, as well as for measuring the suspended matter content in liquid media.

The purpose of the invention is to increase the stability of the radiation of the incandescent lamp.

The drawing is a schematic diagram of a radiation source.

The source contains an RC generator, including the amplifiers 1 and 2, circled in the drawing with dashed lines, each of which contains an integrated microcircuit of the differential operational amplifier type 3 and 4, respectively, output push-pull emitter nx) transistor 5, 6 and 7, 8, respectively. As a nonlinear element of the RC generator, a glowing metal object is used, for example, a filament of a filament lamp 9. The RC generator also contains a serial RC circuit consisting of a resistor 10 and a capacitor 11, a parallel RC chain (resistor 12, capacitor 13 ), as well as resistors 14-16. The amplifier 2, the resistors 15, 16 and the lamp 9 form the node 17, circled in the drawing with a dash-dotted line.

The inverting and non-inverting inputs of the amplifiers 1 and 2 coincide with the inputs "-" and "- (- of the corresponding chips 3 and 4, and the outputs of the amplifiers 1 and 2 are the connection points of the emitters of transistors 5, 6 and 7, 8, respectively. Chips 3 and 4 have a large input impedance and a large voltage transfer ratio (on the order of 10,000).

Accordingly, amplifiers 1 and 2 have the same parameters, but their output resistance, due to emitter repeaters, is very small. The lamp 9 plays the role of an inertia-nonlinear element of the generator, ensuring the achievement of the established sinusoidal oscillations. An inertial non-linear element is understood, as usual, to be an object whose resistance changes with a change in the voltage (or current) applied to it, but this change is manifested with a delay. In our case, the lag time should significantly exceed the oscillation period, which is easily achievable for frequencies of the order of 100 Hz and more. The degree of inertial nonlinearity of an object being accumulated is determined by two factors: the dependence of the object resistance on its temperature (temperature coefficient) and the degree of change in the object temperature under the influence of a change in power emitted by the current flowing through it. The inertial-nonlinear properties of the input resistance of the node 17 (between point a and the housing) are better than those of an incandescent lamp 9.

, In the device the steady state is possible only with the same sign

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Resistance of the lamp regardless of the temperature of the medium. In the proposed device, it really occurs. This means that the temperature of the lamp filament is the same in all steady states, and the radiation flux does not depend on the temperature of the medium.

Generators are usually designed to supply external circuits with a stable amplitude sinusoidal voltage.

In the proposed device, the other side of the phenomenon occurring in such generators is used, which is not manifested in its traditional application - independence of the lamp filament temperature from the medium temperature, due to which stability of the radiation flux is achieved. The output voltage of the generator in the proposed device is absolutely not used to power any external circuits.

The output voltage of the generator in the steady state of its operation depends on the temperature of the medium due to the fact that the temperature of the medium naturally affects the temperature of the filament, on which its resistance depends. But the temperature of the thread in the steady state oscillations of the generator does not depend on the temperature of the medium.

In the known RC-generator circuit, the lamp is connected between the inverting input of the amplifier and the housing. In the proposed device, a lamp is connected between the inverting input of amplifier 1 and the output of additional amplifier 2; between the inverting inputs of the amplifiers, the first additional resistor 15 is connected, and between the inverting input of the amplifier 2 and its output - the second additional resistor 16; non-inverting input of amplifier 2 is connected to the housing. Thus, instead of a lamp in the proposed device (compared to the analog) between the inverting input of the amplifier and the body includes the input resistance of the node 17, and the lamp is part of this node.

Node 17 is a drag converter. The usual purpose of resistance converters is to convert the resistance value. In the proposed ykpopostvtve, the filament of the lamp 9 acts as a transformable resistance. However, the conversion of the resistance value itself does not play any role in the proposed device.

The purpose of the node 17 is that its input impedance has a more pronounced inertial nonlinearity compared with a single lamp.

The RBX under the action of the input voltage UBX changes more strongly during the time At than the resistance of a single lamp switched on under the same voltage. The conversion of the resistance value itself is not significant.

Thus, the proposed device provides increased stability of the radiation by reducing the effect on the radiation flux of the ambient temperature. In addition, it is much simpler in construction (contains fewer nodes). The device does not require highly stabilized power sources, since a change in the power supply voltage of the output transistor cascades has almost no effect on the gain of the generator (due to the fact that these stages are part of the amplifiers covered by strong negative feedback). The instability of voltages feeding the microcircuits also has almost no effect on the gain of the generator circuit.

Compared to known generators, which could be used as radiation sources, the design of the proposed device also has several advantages. It provides a more rapid and reliable achievement of the steady state of oscillations, and therefore a better stabilization of the radiation flux. In addition, the circuit reduces the output voltages of the amplifiers necessary to achieve the desired radiation flux, which increases the range of adjustment of the radiation flux and expands the possibility of using chips that ensure the stability of the generator gain and miniaturization, leading to a decrease in the voltage supplying the device, consequently, to reduce its size and weight, which is important for the construction of field photometers. The device is simple to set up, operate and manufacture.

Claims (1)

Invention Formula An optical radiation source containing an incandescent lamp connected to a stabilization unit, characterized in that, in order to increase the stability of the radiation, the stabilization unit is designed as an RC harmonic oscillator, the non-linear element of which is an incandescent lamp An impedance converter is introduced, and the input of the generator inverting operational amplifier and its common bus are connected to the output of the impedance converter. at , " P 11 2 " I T // io