RU2082955C1 - Device for spark-safe power supply of two-wire pickup - Google Patents

Abstract

FIELD: measurement technology. SUBSTANCE: power supply source is coupled through current converter to anode of first diode which cathode is coupled through network composed of fuse, limiting and ballast resistors to first output of pickup. Second output of pickup is coupled with common point to anode of stabilizer diode and output of power supply source. Cathode of stabilizer diode is coupled to cathode of second diode and through additional resistor and fuse to output of additional voltage of power supply source. Anode of second diode is coupled to common point of ballast and limiting resistors. EFFECT: simplified design, improved operational stability. 1 dwg

Description

 The invention relates to measuring equipment, namely, devices for intrinsically safe power supply of a two-wire sensor, for example, pressure.

A device for intrinsically safe power supply of a two-wire sensor is known, comprising a power source, a fuse and resistors connected in series with one sensor wire, the second end of the sensor and the power source being grounded, and shunt zener diodes [1]
The disadvantage of this device is the low reliability and the occurrence of interference in the system due to the presence of reverse current of the zener diode and interference from grounding.

Closest to the invention is a device containing a power source, a chain of fuse, limiting and ballast resistors, the output of which is connected to one of the sensor wires, and a zener diode, while the second sensor wire, zener diode and power source are connected at one point [2]
The disadvantage of this device is its low reliability and the presence of interference due to the reverse current of the zener diode, which is installed between the sensor wires and interference from grounding.

 The technical effect of the proposal is to increase the reliability of spark protection and increase the accuracy of measurement by eliminating interference when using the device for intrinsically safe supply of two-wire sensors, for example, pressure.

 This effect is achieved by the fact that the intrinsically safe power supply device of a two-wire sensor containing a power source, a chain of fuses, limiting and ballast resistors connected to the positive terminal of the sensor, the negative terminal of the sensor, the power source and the zener diode are interconnected at one point and grounded, according to the invention equipped with a current converter, powered by a positive voltage of the power source, connected in series with an additional fuse and a resistor m, the free end of the additional fuse is connected to the additional output of the positive voltage of the power source and two diodes, the anode of the first diode is connected to the input of the current converter, the cathode to the input of the circuit, the cathode of the second diode is connected to the cathode of the zener diode and the free end of the additional resistor, and anode with a common point of ballast and limiting resistors.

 The drawing shows a diagram of the device.

 The device contains a power source 1, powered by an alternating current main, with a main 2 and additional 3 output of positive voltage and negative voltage output 4, a current converter 5, the input of which is connected to the anode of diode 6, a fuse 7 and a resistor 8 connected in series between the cathode the diode 6 and the anode of the diode 16, the cathode of which is connected to the cathode of the zener diode 14, the anode of which is connected to the output 4 of the power source, between the cathode of the zener diode 14 and the output 3 of the power source 1 is connected connected resistor 13 and fuse 12. The device also contains a limiting resistor 9 connected between the anode of the diode 16 and the positive terminal 10 of the sensor 11, the negative terminal 15 of the sensor 11 is connected to the output 4 of the power source 1, the housing of the sensor 11 and the output 4 of the power source 1 are grounded , the output 17 of the current Converter is the output of the circuit.

 The device operates as follows.

 In normal mode, the nominal range of the measured pressure corresponds to the nominal range of the output current of the sensor 11 (usually from 4 to 20 mA). The voltage at the input of the current transducer 5 is stabilized at such a level that at the maximum output current of the sensor 11, a voltage is provided between its contacts 10 and 15 above the minimum acceptable level (usually 12.5 V).

 The sensor housing is isolated from pins 10 and 15 and is grounded.

 Output 4 of the power supply is grounded.

 The type of zener diode 14 and its reverse current, set by an additional resistor 13 and a positive voltage of the output 3 of the power supply 1, is selected so that, with a minimum output current of the sensor 11, the diode 16 operates in the reverse bias mode.

 Moreover, the properties of the zener diode 14 do not affect the accuracy of the conversion of the current flowing through the sensor 11 into the output current of the device.

 In emergency mode, a voltage may occur at the input of the current converter 5, the amplitude of which is equal in magnitude to the amplitude of the alternating voltage on the secondary winding of the transformer of power supply 1. The negative value of this voltage is not dangerous due to the locking of the first diode 6. The positive value of this voltage due to the limiting resistor 8, the zener diode 14 and the second diode 16 is limited to a value that ensures intrinsic safety. An increased voltage may occur on the resistor 13. However, its resistance can be chosen large enough so that there are no changes in the operating mode of the device. It is easy to calculate the elements of the device so that the permissible parameters are not exceeded for any duration of this mode.

 This effect is achieved due to the fact that the accuracy does not depend on the reverse current of the zener diode, therefore, all resistors can be selected with large ratings at low requirements for their accuracy and to the accuracy of stabilization of the input voltage of the power supply 1. The reverse current of the diode 16 does not affect the accuracy, since this diode is under a very low voltage (less than 5 V, which provides a very low reverse current (less than 1 μA).

 And also by eliminating the occurrence of interference arising in the ground circuits, since the electric circuit along which the sensor current flows is grounded at one point, which allows the intrinsic safety of the sensor power supply when the sensor is significantly removed from the power supply device.

Literature:
1. GOST 22782.5-78.

 2. British patent N 2205699A.

Claims (1)

 An intrinsically safe power supply device for a two-wire sensor containing a power source, a limiting resistor and a zener diode, while the two-wire sensor, a power source and a zener diode are grounded at one point, characterized in that the power supply is made three-output and the device is additionally equipped with a current converter connected to one of the outputs of the positive voltage of the power source, while the output of the current converter is the output of the device, and the input is connected to the anode of the additionally introduced first diode the cathode of which is connected to the first terminal of the fuse, the second terminal of which is connected to the first terminal of the additionally introduced ballast resistor, the second terminal of which is connected to the anode of the second additionally introduced diode and to one of the terminals of the limiting resistor, the other terminal of which is connected to the non-earthed terminal of the sensor, in addition , the cathode of the second additionally introduced diode is connected to the cathode of the zener diode and to the first terminal of the additionally introduced resistor, the second terminal of which is connected to the first terminal to olnitelno introduced fuse, a second terminal connected to the second output of the positive power source voltage, the potential difference between the outputs of the positive power source voltage not exceeding 5 V.