SU1109656A1 - Electromeasuring instrument - Google Patents

Abstract

Electrical appliances, comprising electro-scale with N light emitting diodes, N tranzistorn1h switches whose emitters are through individual current limiting resistors connected to the bus zero potential, and by the individual light emitting diodes electrooptical scale - with corresponding raznopotentsialnymi pin ladder support chain connected between the terminal for connection potential pole the source of the measured voltage and the i Nth light emitting diode, and the source offset and characterized in that, in order to increase efficiency by reducing the consumed current, N bias resistors, N-1 link resistors and NI transistor switches are inserted into it, each bias resistor being connected between the potential pole of the bias source and the base of the corresponding transistor switch , the emitter of each i-ro transistor switch is connected to a common bus of zero potential, the collector is connected to the i-ro base of the transistor switch (L tel, and the base through an individual communication resistor to the collector (i + l) -ro transistor molecular switch. o eaten o:

Description

The invention relates to electrical measuring equipment and can be used in analog devices for measuring constant and alternating voltages. A device for measuring current and voltage containing a reporting and additional compensating linear-gas-discharge indicators, which are connected in series and counter-fed from a common source, is known. For display, this device uses only one linear-discharge indicator, while the other serves as input circuits, allowing current measurement to reduce the voltage drop at the device input. This device without additional intermediate circuits cannot be used to measure the voltage due to the presence of a certain potential difference at its input terminals comparable to the measured voltage caused by the supply current due to incomplete compensation of the variation of parameters and the nonlinear nature of the internal resistance of linear gas-discharge devices. indicators. In measuring current, potential difference with a finite resistance of a signal source is also a source of error. Thus, the measurement error of this device is determined by the error of the linear gas-discharge indicators: the non-linearity of the transformation of the gas-discharge indicators and the read-off error (parallax and blurriness of the end of the light of the pole). Closest to the invention is an electrical measuring device containing an electro-optical scale with N light-emitting diodes, N transistor switches, whose emitters through individual current limiting resistors are connected to a zero-potential bus, and through individual light-emitting diodes of an electro-optical scale with corresponding potential contacts of a multilink reference circuit, connected between the terminal to connect the potential pole of the source of the measured voltage and N th light and a bias source C2}. When using a known device as a voltage measuring device, an increase in the number of switched on LEDs leads to an increase in the amount of current consumed by the device, which increases the measurement error and narrows the area of use of the device. In addition, semiconductor diodes do not allow to obtain a clear fixation of the threshold ignition of the LEDs, which reduces the accuracy of the voltage measurement. The aim of the invention is to reduce the amount of current consumed in all modes and to increase the measurement accuracy. The goal is achieved by the fact that an electrical measuring instrument containing an electro-optical scale with S light emitting diodes, N transistor switches, whose emitters are connected to a zero potential bus through individual current-limiting resistors, and through individual light-emitting diodes of an electro-optical scale with corresponding potential outputs, there are a number of devices that will be used for multiple devices and a number of devices that will be used for multiple devices. connected between the terminal for connecting the potential pole of the source of the measured voltage and the Nth light An emitting diode, and a bias source, introduced N bias resistors, N-1 coupling resistors and N -1 transistor switches, with each bias resistor connected between the potential pole of the bias source and the base of the corresponding transistor switch, the emitter of each i-ro. the transistor switch is connected to the common potential-free bus, the collector is connected to the base of the i-th transistor switch, and the base is connected to the collector of the (i + 1) -th transistor switch via an individual communication resistor. The drawing shows the electrical circuit of the electrical measuring device. The device contains a multilink support chain of Zener diodes 1.1-1, N, the corresponding multi-potential outputs of which through light-emitting diodes 2.1-2.N are connected to the collectors of transistors 3.13 .N, the emitters of which are connected to the bus 5tl-4N through current limiting resistors 5, and the bases through bias resistors 6 with a potential pole of bias source 7 and collectors of transistor switches 8. 1-8. N, the emitters of which are connected to the zero potential bus 5, and the bases through the individual communication resistors 9 to the collectors of (i + l) x transistors. A multilink reference circuit is connected between terminal 0 to connect the potential pole of the source of the measured voltage and the Nth light-emitting diode. The device operates as follows. By the magnitude of the measured voltage at the terminals 10 of the electrical measuring device, equal to or close to zero, the zener diodes 1.I-1.N are locked, which causes the absence of current through the light-emitting diodes 2.1-2.N and transistors 3.1-3 N. An increase in the magnitude of the measured voltage above the voltage of the breakdown of the Zener diode 1.1 leads to a sharp increase in the current through the light emitting diode 2. and transistor 3.1, due to which a light emitting light emitting diode occurs. Subsequently, the transistor switches to the current stabilizer mode, the value of which is set by the voltage and the offset point 7. In the case of a further increase in the measured voltage, there is a direct phase of the Zener diode 1.2, which causes the light-emitting diode 2.2 to glow and the base current flows through the transistor switch 8.1. The latter is observed and by its small internal resistance it shunts the input of the transistor 3.1. Transistor 3.1 closes, light emitting diode 2.1 goes out. The subsequent operation of the device is carried out in a similar way, with the light-emitting diodes 2.3,2.4, ..., 2.N sequentially turning on and the light-emitting diodes 2.2,2.3, ..., 2, (N-1) go out in succession. By using an appropriate number of diodes using the proposed electrical measuring device, any predetermined accuracy of voltage measurement can be ensured. The use of the proposed electrical measuring device allows one to ensure the required accuracy of the voltage measurement and to reduce the amount of current consumed by the device, which expands the range of its use. In addition, with the installation of appropriate current sensors, it is possible to stabilize the output voltage of the positioning control systems.

Claims (1)

An ELECTRICAL MEASURING DEVICE containing an electro-optical scale with N light-emitting diodes, N transistor switches, the emitters of which are connected via an individual current-limiting resistor to a bus of zero potential, and through individual light-emitting diodes of an electro-optical scale, with the corresponding multi-potential terminals of a multi-link reference circuit for connecting between the connected pole between the source of the measured voltage and, Nth light-emitting diode, and the bias source, which, in order to increase efficiency by reducing the current consumption, N bias resistors, N-1 coupling resistors and N-Ι transistor switches are inserted into it, each bias resistor connected between the potential pole of the bias source and the base of the corresponding transistor switch, the emitter of each ί-th transistor switch is connected to a common bus of zero potential, the collector - with the base of the i-ro transistor switch, and the base through an individual communication resistor - to the collector (ϊ + Ts-th transistor switch Atelier.