RU2208766C2 - Measuuing system - Google Patents

Abstract

FIELD: automotive industry. SUBSTANCE: proposed invention can be used in automobile monitoring and/or control systems. Measuring system includes measuring device with input, group of binary transducers located in different zones to be controlled and connected to input of measuring device. Each transducer has several outputs whose number is not less than number of transducers in group and differing in value of output resistance. Each transducer is connected to measuring device by output whose resistance differs from resistance of outputs through which other transducers are connected to input of measuring device. Resistance values of outputs of each transducer can form geometric progression. Invention solves the problem of creation of measuring system using several binary transducers connected to one input of measuring device with provision of identification of transducer revealing changes in value under checking. EFFECT: enlarged functional capabilities. 2 cl, 1 dwg

Description

 The invention relates to measuring equipment and can be used, for example, in automotive control and / or control systems.

 Technical systems are known (see 1), which include a measuring device and a binary type sensor connected to the input of the measuring device, generating a binary output signal.

 A binary type sensor is understood to mean a sensor that generates an output signal that changes its output resistance stepwise when a controlled physical quantity passes through a threshold value.

 A system for testing emergency sensors is also known, see US Pat. No. 5,345,402, MKI5 G 06 G 7/48, B 60 Q 11/00, B 60 R 21/00, which includes a plurality of binary-type emergency sensors of the same type and a measuring device. Moreover, to identify a triggered sensor, each sensor is connected to a separate input of the measuring device.

 The disadvantage of the system is its complexity due to the use of multiple (in terms of the number of sensors) communication lines and inputs of the measuring device.

 For the prototype of the claimed invention, the automobile detection system was taken, patent JP 5057134 B4, MKI5 B 60 Q 3/02, publ. 08/23/93, which includes a measuring device with an input and several binary type sensors connected to the input of the measuring device.

 This connection allows you to reduce the number of connecting wires and inputs of the measuring device.

 The disadvantage of a measuring system that uses several binary type sensors located in different measurement zones, but connected to the same input of the measuring device, is the inability to identify the sensor that detected a change in the controlled quantity, and therefore, the zone in which the change in the controlled value occurred.

 The objective of the claimed invention is the creation of a measuring system using several binary type sensors connected to one input of the measuring device, with the possibility of identifying a sensor that detects a change in the controlled value.

 This problem is solved in a measuring system, which includes a measuring device equipped with an input, and a group of binary type sensors located in various measurement zones and connected to the input of the measuring device.

 The problem is solved in that each sensor is equipped with several outputs that differ in the value of the output resistance, and the number of outputs is not less than the number of sensors in the group, and each sensor is connected to the measuring device by an output whose resistance differs from the resistance of the outputs by which the others are connected to the input of the measuring device sensors. Moreover, the values of the resistance of the outputs of each sensor can form a geometric progression.

 It should be noted that this invention does not impose restrictions on the use of sensors of one physical quantity of a different type or sensors of different physical quantities. It is only necessary to observe the conditions described below on the characteristics of the outputs of the sensors.

 The drawing shows a diagram of a measuring system.

The invention can be implemented in a measuring system, including a measuring device 1 with an input 2 and at least two sensors 3, 4 of a binary type, located in the measurement zones Z ₁ , Z ₂ .

 To implement the invention, each of the sensors 3, 4 is equipped with at least two outputs 5, 6, 7, 8, characterized by the value of the output resistance.

For better identification in the measuring system of sensors, it is preferable that the values of the output resistance of the outputs of the sensors constitute a geometric progression. In the above example, the resistance of the outputs of the sensors 3, 4 are a sequence of R ₁ and R ₂ , where the value of R ₂ = 2R ₁ .

 The output 5 of the sensor 3 and the output 8 of the sensor 4 are connected to the input 2 of the measuring device 1.

The input 2 of the measuring device 1 can be performed, for example, as an analog input of an ADC (analog-to-digital converter) 9, to which an additional resistor R ₃ is connected, connected by the second output to a reference voltage source Uref (source not shown).

When one or more sensors are triggered, the output resistance of each of the outputs of the triggered sensor changes abruptly from a certain initial state, for example, a high-impedance state, to a specific value of R ₁ and 2R ₁ .

 By measuring device 1, upon the change in the total resistance of input 2 connected to the outputs of the sensors, the sensor / sensors are detected, and by the value of the change in the total resistance Rs of the parallel sensors 3, 4, the triggered sensor / sensors are identified and, accordingly, the measurement zone (or several zones) is identified .

The voltage Us at the input 2 of the measuring device 1 will vary from the reference level Uref when both sensors are in a high impedance state to a certain minimum level Umin, and Umin is equal to Uref • (Rs / Rs + R ₃ ) and equal to Uref • (2 / 3R ₁ / (2 / 3R ₁ + R ₃ )), since Rs, with the simultaneous operation of sensors 3 and 4, is 2 / 3R ₁ (according to the parallel connection formula Rs = 2R ₁ • R ₁ / 3R ₁ ).

 For all other combinations of triggering sensors 3, 4, the voltage Us will be within the range Uref - Umin and differ in magnitude for each combination of triggering sensors 3, 4.

So, for example, when the sensor 3 (Rs = R ₁ ) Us = Uref • (R ₁ / R ₁ + R ₃ ), and when the sensor 4 (Rs = 2R ₁ ) Us = Uref • (2R ₁ / 2R ₁ + R ₃ ). Next, in the ADC 9 of the measuring device 1, analyze a digital code that is proportional to the voltage Us, and determine the number of triggered sensor / sensors 3, 4.

 Thus, using a measuring system equipped with several sensors unified in design of the outputs located in different measurement zones, it is possible to determine the fact of the sensors triggering, as well as the identification of the triggered sensor (or several sensors), and therefore the zones in which the corresponding a change in a controlled physical quantity (or several quantities).

Bibliography
1. Kako N., Yamane Y. Sensors and micro-computers. Per. with japan. - L .: Energoatomizdat. Leningrad Department, 1986, p. 61.

Claims (2)

 1. The measuring system, which includes a measuring device equipped with an input, and a group of binary type sensors located in various measurement zones and connected to the input of the measuring device, characterized in that each sensor is equipped with several outputs, the number of which is not less than the number of sensors in the group differing from each other by the value of the output resistance, and each sensor is connected to the measuring device by an output whose resistance differs from the resistance of the outputs that are connected to ode other sensors measuring device.  2. The measuring system according to claim 1, characterized in that the resistance values of the outputs of each of the sensors form a geometric progression.