RU2687309C1 - Onboard flight data recording system - Google Patents

Abstract

FIELD: measuring equipment; information technology.

SUBSTANCE: invention relates to information-measuring equipment and can be used in onboard systems for collection, recording and storage of flight data. System interacts with potentiometric sensors of flight information installed onboard the aircraft. System includes an interface module comprising limiting resistors, a parameter conversion unit comprising a measurement module and a stabilized reference voltage source, as well as a parameter registration unit and an information storage unit. Potentiometric sensors are supplied from a stabilized reference voltage source through limiting resistors of the interface module, wherein point of electric connection of ungrounded contact of each potentiometric transducer with appropriate limiting resistor is connected to one of additional measuring inputs of parameter conversion unit. Short-circuiting of the potentiometric transducer does not lead to short-circuiting of the stabilized voltage source, since a corresponding limiting resistor is connected in series with each potentiometric transducer. Besides, power of reference voltage source is selected exceeding its rated value in order to reliably provide mode of reference voltage stabilization at short-circuit of any of potentiometric sensors.

EFFECT: higher reliability.

1 cl, 2 dwg

Description

The present invention relates to information-measuring technology and can be used in onboard multi-channel aircraft systems for measuring, recording and storing flight data, as well as for operational control of aviation equipment.

A multichannel measuring and measuring system is known, which receives measuring information from potentiometric sensors of monitored parameters fed from a stabilized voltage source (see Ed. Sv. USSR No. 542388, UDC 621.316.722.1, publ. 1977). The disadvantage of this system is excessive complexity and low reliability of the device protecting the stabilized voltage source from overheating and leaving the stabilization mode in case of a short circuit of one of the potentiometric sensors.

Also known is the data recording system, which includes a block for collecting and processing information to which the sensors of a controlled aircraft are connected, including potentiometric sensors, as well as onboard data storage devices (see RF Patent No. 2427802, IPC G01D 9/00, publ. 2011). In the event of a short circuit of one of the potentiometric sensors, the fact of the circuit is established in a known system using test signals that periodically come from the output of the monitoring module to the input of the acquisition and conversion module that make up the information collection and processing unit. When a short circuit is detected, a signal about the failure of the potentiometric sensor comes from the monitoring module to the onboard accumulators and is registered by them. A disadvantage of the known system is that the detection and registration of a short circuit of a potentiometric sensor cannot prevent a multiple increase in the current of a stabilized source feeding potentiometric sensors, overheating of the source and its subsequent failure.

Closest to the proposed invention and adopted for the prototype is the on-board system for recording flight parameters of the KDF-8 produced by PJSC Tekhpribor, St. Petersburg (see the Technical Operation Manual 6T1. 412.001 RE, PJSC Tekhpribor). This system is intended for receiving, recording and storing information generated by flight parameters sensors interacting with the system, including potentiometric sensors.

The SDK-8 system includes a parameter conversion unit, to the potentiometric measurement inputs of which the moving contacts of the potentiometric sensors are connected, as well as the parameter registration unit connected to it, connected to the information accumulation unit.

The parameter conversion unit contains a stabilized reference voltage source designed to power the potentiometric sensors.

The disadvantage of the SDK-8 system is the low reliability of its operation in an abnormal mode - with a short circuit of at least one of the potentiometric sensors.

This disadvantage is due to the fact that a short circuit of any potentiometric sensor leads to a sharp increase in the current of the stabilized reference voltage source from the nominal value I _nom to the maximum value I _cz , and the increase in current can be more than tenfold: I _cs / I _nom > 10.

Such an increase in current leads to rapid overheating and subsequent failure of the stabilized reference voltage source, with the result that all potentiometric sensors become de-energized and the SDK-8 system is not able to register monitored flight parameters.

The objective of the invention and its technical result is to increase the reliability of the proposed system when it is operating in an abnormal mode - in case of a short circuit of any of the potentiometric parameters sensors.

To solve this problem, the onboard flight data recording system, which interacts with potentiometric parameter sensors and contains a stabilized reference voltage source, to the output of which said sensors are connected with their ungrounded contacts, the parameter conversion unit, the number of potentiometric measurement inputs equal to the number of potentiometric sensors, and also connected to there is a parameter registration unit connected to an information accumulation unit, moreover, they are mobile The contact of each potentiometric sensor is connected to one of the potentiometric measuring inputs of the parameter conversion unit, supplemented by new elements, connections and a restrictive condition.

The proposed system differs from the prototype in that it additionally includes an interface module containing restrictive resistors, the number of which is equal to the number of potentiometric sensors, and a measurement module is additionally included in the parameter conversion unit; the number of inputs is twice the number of potentiometric sensors. In addition, the parameter conversion unit is equipped with additional measuring inputs, the number of which is equal to the number of limiting resistors, each of the potentiometric sensors is connected to the output of a stabilized voltage source with its ungrounded contact through a corresponding limiting resistor, and the electrical connection point of each limiting resistor with a corresponding potentiometric sensor is connected to one from the additional measuring inputs of the parameter conversion unit, moreover, the power of the stabilized reference voltage source meets the condition:

P = k⋅P _number

where P is the power consumed by the reference voltage source during a short circuit of one of the sensors,

k is the dimensionless power factor (k≥1), and

P _Mr. - the nominal value of the power of the said source in the normal mode of operation of the proposed system.

The composition of the proposed system may also include a monitoring module connected in series with a stabilized reference voltage source and containing an output connected to the corresponding input of the parameter registration unit.

The structure and operation of the proposed system in the normal and non-standard modes is illustrated by drawings.

FIG. 1 is a block diagram of a system interacting with potentiometric parameter sensors, and FIG. 2 shows a fragment of the block diagram of the system containing the control module.

In the drawings, the following notation:

1 - potentiometric sensor parameters

2 - stabilized reference voltage source,

3 - parameter conversion unit,

4 - limiting resistor

5 - interface module,

6 - measurement module

7 - block registration parameters

8 - block accumulation of information

9 - control module.

Each of the n potentiometric sensors 1 interacting with the proposed system is connected by its ungrounded contact to a stabilized reference voltage source 2 located in the parameter conversion unit 3 through one of the n restriction resistors 4 contained in the interface module 5. The movable contact of each potentiometric sensor 1 is connected to one of the potentiometric measuring inputs of the parameter conversion unit 3 and, further, to one of the inputs of the measurement module 6, which is part of the unit Formation of parameters 3, and the point of the electrical connection of the ungrounded contact of each of the potentiometric sensors 1 with the corresponding limiting resistor 4 is connected to one of the additional measuring inputs of this block. Each of the additional measurement inputs of the parameter conversion unit 3 is also connected to the corresponding input of the measurement module 6, and the unit 3 is connected by a two-way information link to the parameter registration unit 7 connected via a similar line to the information storage unit 8. The information accumulation unit 8 is also provided two-way information line with the interacting ground-based ground data processing complex.

The parameter conversion unit 3 may include a monitoring module 9 connected in series with a stabilized reference voltage source 2. Module 9 contains an output connected to the corresponding input of the parameter registration unit 7.

The proposed system works as follows.

In the normal mode, when all potentiometric sensors 1 interacting with the system are in good condition, each of them is powered from a stabilized reference voltage source 2 located in the parameter conversion unit 3, stabilized by a voltage through the corresponding limiting resistor 4 of interface module 5 connected to the ungrounded contact of the potentiometric sensor 1 In this case, the load resistance of source 2 is equal to its nominal value.

Accordingly, the current I of the stabilized source of the reference voltage 2 and the power of this source in the normal mode are also equal to their nominal values.

When the flight parameters, controlled by potentiometric sensors 1, are changed, time-varying informative signals in the form of DC voltages proportional to the values of the monitored parameters are removed from their moving contacts. These voltages are fed to the measuring potentiometric inputs of the parameter conversion unit 3 and, further, to the inputs of the measurement module 6 for measurement and subsequent conversion to the frequency form necessary for recording information signals in the parameter registration unit 7 and storing in the information accumulation unit 8.

Since the power of potentiometric sensors 1 is produced through limiting resistors 4, the actual value of the voltage supplying these sensors is lower than the reference voltage at the output of source 2 by an amount depending on the ratio of the resistances of potentiometric sensor 1 and limiting resistor 4.

For example, in the most common case, when the resistances of potentiometric sensors 1 are equal to the resistances of limiting resistors 4, the values of informative signals taken from the moving contacts of potentiometric sensors 1 are reduced by 2 times.

To restore these values to the level corresponding to the power supply of sensors 1 directly from the source of the reference voltage 2, the measurement module 6 multiplies the value of each of the informative signals generated by potentiometric sensors 1 by the signal recovery factor, which in the given example is equal to number 2.

In an abnormal mode of the system, the load resistance of the stabilized reference voltage source 2 during a short circuit of one of the potentiometric sensors 1 decreases.

Accordingly, the current I of the stabilized source of the reference voltage 2 in the short-circuit mode of the sensor 1 increases in comparison with its nominal value, which is accompanied by an increase in power consumption.

In the proposed system, the short circuit of any potentiometric sensor 1 does not lead to a short circuit of source 2, since A limiting resistor 4 is connected in series with each sensor 1. Therefore, a short circuit of sensor 1 cannot cause a failure of source 2, however it can cause substantial heating of this source and its exit from the stabilization mode of the reference voltage.

To prevent such a situation, the source 2 must be designed for normal operation at a power corresponding to the abnormal mode of operation of the proposed system during a short circuit of potentiometric sensor 1:

where P is the value of the power of the stabilized reference voltage source 2, ensuring its reliable operation in case of short circuit of one of the potentiometric sensors 1,

k is the dimensionless power factor (k≥1), and

R _Mr. - the nominal value of the power source 2 in normal operation of the proposed system.

The value of the coefficient k depends on the number n of potentiometric sensors 1 and in the case when the resistances of these sensors are equal to the resistances of the limiting resistors 4, roundly amounts to:

with n = 1.5: k = 1.5; with 5≤n≤10: k = 1.2; when n> 10: k = 1.

Fulfillment of condition (1) is necessary for reliable operation of the proposed system in abnormal operation.

Since when this condition is met, the stabilized reference voltage source 2 functions normally in an abnormal mode, the proposed system continues to reliably record and store flight parameters in memory, except for the parameter whose potentiometric sensor 1 failed due to a short circuit.

If the control module 9 is additionally introduced into the proposed system, then with an increase in power consumption above the nominal value, this module generates a sensor 1 failure signal, which comes from the output of the control module 9 to the corresponding input of the parameter registration block 7, is registered in this block and stored in information storage unit 8.

Thus, the proposed on-board system for recording flight parameters successfully solved the task of improving the reliability of the system in an abnormal mode - when a short-circuit of one of the potentiometric sensors interacting with it 1.

Claims (4)

1. An onboard flight data recording system that interacts with potentiometric parameter sensors and contains a stabilized reference voltage source, to the output of which said sensors are connected by their ungrounded contacts, a parameter conversion unit, the number of potentiometric measurement inputs equal to the number of potentiometric sensors, as well as a unit connected to it registration of parameters connected to the unit of accumulation of information, and the movable contact of each potentiometer A sensor is connected to one of the potentiometric measurement inputs of the parameter conversion unit, characterized in that it additionally includes a interface module containing limiting resistors, the number of which is equal to the number of potentiometric sensors, and the measurement module additionally includes a measurement module twice the number of potentiometric sensors, while the parameter conversion unit is equipped with additional measuring inputs, the number of which equal to the number of limiting resistors, each of the potentiometric sensors is connected to the output of a stabilized voltage source with its ungrounded contact through a corresponding limiting resistor, the electrical connection point of each limiting resistor with a corresponding potentiometric sensor is connected to one of the additional measurement inputs of the parameter conversion unit, and each of the module inputs measurement is connected to one of the potentiometric or additional of measuring inputs of the parameter conversion unit, and the power of the stabilized reference voltage source meets the condition: P = k⋅P _nom , where P is the power of the stabilized reference voltage source in the mode corresponding to a short circuit of one of the potentiometric sensors, k is the dimensionless power factor (k≥1), and P _nom is the rated value of the power of the stabilized reference voltage source in the normal mode of operation of the on-board system. 2. The on-board system according to claim 1, characterized in that it additionally includes a monitoring module connected in series with a stabilized reference voltage source and containing an output connected to the corresponding input of the parameter registration unit.

Images