DE2300503C3 - Device for measuring the parameters of the components of parallel LC circuits - Google Patents

Description

the switching unit (1) at its fourth input (9) The device for measuring the parameters of the and the second output (11) at its third components of parallel LC circuits contains an input (8), in a calibration time interval (T ₀ ) Switching unit 1 (Fig. 1), consisting of electronic ones after the arrival of the second signal from switches 2, 3, 4 and 5, each of which was known by comparison unit (20) of first output (10) of 50 Kind is made with two transistors. Here switching unit (1) at its second input (7) serves as the first input 6 of the switching unit 1 and the second output (11) of the switching unit (1) input of the switch 2, as the second input 7 of the fourth input ( 9) and when switching unit 1 arrives, the parallel connection of the inputs of the third signal from the comparison unit (20) switches 3 and 4, as the third input 8 the switching the first output (10) of the switching unit (1) to 55 unit 1 the other input of the Switch 4 and as its fourth input (9); and the control fourth input 9 of the switching unit 1 of the other unit (21) the time interval measuring unit (31) so that the switch 2 that controls the input of the switch that coincides with the beginning of the first switch 5 is connected.

to be measured interval of time (*), from its size as the first output 10 of the switching unit 1 of the parameter is one of the components of the parallel ^6o output of the switch 3, and is determined as a second output of the switched LC circuit connected to the switching unit 1 Output of switch 5. The arrival of the first signal from the comparison output of switch 2 is connected to the other input unit (20) as well as the end of the first switch 3 to be measured and the output of switch 4 with the time interval (<, ) connected to the arrival of the other input of switch 5,
second signal from the comparison unit (20); 65 The first input 6 of the switching unit 1 is connected and finally the beginning of the second is to be measured connected to the output of a source 12 linearly verden time interval (t ₂ ), from the size of the parameter changeable voltage, at whose input the measuring meter des second component is determined, trigger signal of an external source (not shown)

23 OO 503
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arrives, the second input 7 to a DC voltage control unit 21 is the zero state. Here halnung source 13 and the dntte input 8 to one of the potentials taken from these triggers, the DC voltage source 14 from ent _f egengesetzt pole switches 2, 3, 4 and 5 of the switching unit 1 in such a larity, while the fourth input 9 is grounded. The positions in which the first output 10 and the second source 12 of linearly variable voltage are connected to the output 11 of the switching unit 1 are placed on the fourth known type on the basis of a direct current output 9

Integrating amplifier executed, the DC voltage The external signal arrives at the inputs of the

sources 13 and 14 are in a known way with half-triggers 22 and 24 and tilts these in the one-to-one

executed ladder elements. _{The status was taken from the} outputs of these triggers.

The first output 10 of the switching unit 1 is by means of io menen potentials change their size, so that the

a parallel LC circuit, which switches the parallel connection of switches 2, 4 and 5. Here

The first output 10 of the switching unit 1 is connected to an inductance coil 15 and a capacitor

16 represents, to the input of a direct current converter whose first input 6 and the second output 11 amplifier 17 with resistance parallel negative feedback of the switching unit 1 to its second input 7 (which is connected to the 15 by switching on a resistor 18. This leads to the parallel connection of the negative feedback circuit of this amplifier reaches the inductance coil 15 with the inductance value L is placed). The second output 11 of the switching unit and the capacitor 16 with the capacitance value C unit 1 is also a linearly variable at the input of the amplifier of the parallel LC circuit

17 placed by means of a normal inductance coil 9. Voltage - kt (k is the steepness of the variable The output of the amplifier 17 is in turn connected to the 20 voltage) from the output of the source 12, which is an input of a comparison unit 20, which is triggered by an external signal, the other input is grounded is. while on the normal inductance coil 19 with the

The DC amplifier 17 and the comparison inductance value L ₀ a DC voltage + E ₀ from

Unit 20 represent an integrated microcircuit. Output of DC voltage source 13 is given.

The device is also equipped with a control unit 21 25 for a better understanding of the operation of the

provided, consisting of flip-flops or triggers, device for measuring the parameters of the building

22, 23, 24, 25, furthermore a calibration time interval generator elements of parallel LC circuits are shown in Fig. 2a,

26, which here is a mono- 2 b and 2 c executed in a known manner, the time diagrams of the voltages U ₁ , U,

stable multivibrator, and one in a known manner or U _a at the first output of the switching unit

executed impulse distributor 27 with two toggle links 30 their second output and at the output of the equal

ding or triggering with arithmetic inputs, with the current amplifier shown. The tensions - kt

The outputs of these triggers with a diode matrix to and + E ₀ are shown on the diagrams α and b .

Decryption or decoding of their state,

are connected. The voltage U ₃ (Fig. 2c) at the output of the

A first output 28 of the pulse distributor 27 is 35 direct current amplifier 17, in its parallel counterpart to the zero input of the trigger 22 and the one-coupling circuit, the resistor 18 is connected to the counter input of the trigger 25. A second outstanding value E ₀ is present, rises abruptly and falls. Output 29 of the impulse distributor 27 is with the zero then gradually decreases (for the correct operation of the trigger 25 and the receipt of the calibration time of the device, the fulfillment of the relationship is interval generator 26, the output of which is connected to 40
the one input of the trigger 23 and the zero input of the trigger 24 is in communication. An E _n 1
The third output 30 of the pulse distributor 27 is V2-L k T ~ f
connected to the zero input of trigger 23. ° 1 / -

45 \ C on the inputs of triggers 22 and 24
given a signal from an external source.

The output of trigger 22 is connected to the control inputs of switches 2 and 4, while required). If this voltage reaches the zero value, the outputs of the triggers 23 and 24 each with the so the comparison unit 20 outputs a signal to the Control inputs of switches 3 and 5 in connection 50 pulse distributor 27, at its first output 28 a stand. Impulse appears, which triggers the trigger 25 of the time interval

The device is also provided with a time interval measuring unit 31, measuring unit 31, which is a known manner. The switch 34 is opened and the quartz pulses carried out with semiconductor components arrive from the output of the quartz generator 32, pulse generator 32, electronic switch 33 and 34, 55 to the input of the digital counter 36, each of which is designed with a transistor, and the measurement of the first time interval t _x (FIG. 2c) begins. Digital counters 35 and 36, which are here in a known manner. In addition, a pulse from the first output 28 is high-frequency decimal pulse counters, of the pulse distributor 27 which contains the trigger 22 to zero. The output of the pulse generator 32 is back with state. Switches 2 and 4 are connected to inputs of switches 33 and 34. 60 switches, and the first output 10 of the switching unit 1 whose outputs each with the inputs of the digital is applied to the fourth input 9, while the valley counter 35 and 36 are connected. The control inputs, the second output 11 of the switching unit 1, are connected to the third input 8 at the inputs of the switches 33 and 34. As a result, outputs of triggers 23 and 25 are connected. the zero potential on the parallel-connected LC circuit

The device according to the invention for measuring 65 tial (Fig. 2a) and to the normal inductance coil

the parameter of the components of parallel LC-19 is the DC voltage-E _n (Fig. 2b) from the output

Circling works as follows: the DC voltage source 14 is applied. the

The initial state of the trigger 22, 23, 24 and 25 voltage U ₃ (Fig. 2c) at the output of the DC

5 6

Current amplifier 17 drops suddenly and the measurement of the time interval t _{2 increases} . Here the

then linearly. Switching back to the initial state.

If this voltage has again reached the zero value, From the obtained and measured time intervals

so the comparison unit 20 delivers a further signal. vallen /, and /., one can clearly determine the value of the

Here appears at the second output 29 of the pulse 5 capacitance C and "the inductance L of the parallel LC

distributor 27 a pulse that determines the trigger 25 in the circle:
Returns the zero state and the calibration time interval

encoder 26 triggers. The switch 34 is blocked and _t = ^k ' ^L n . q .

the digital counter 36 ends the measurement of the time E ₀
Interval t _v io

In a calibrated time interval T ₀ (Fig. 2c) after _ T ₀

the arrival of the second signal from the ver ^f 2 ~ 'L ■

Equal unit 20 supplies the calibration time interval generator 26 °

a pulse that triggers 23 in the one state. The device according to the invention for measuring the

transferred and the trigger 24 in the zero state- 15 parameters of the components of parallel LC circuits

brings back. Here, the switch 33 is opened and has a high operating speed

the digital counter 35 begins the measurement of the second a wide range of applications and a high measuring

Time interval L ₂ (Fig. 2c). In addition, the accuracy.

Switches 3 and 5 are switched over, and the first off When the parameters of individual LC components 10 of the switching unit 1 are measured, 20 elements and the parameters of the components of input 7 are applied to the second output, while the second output IJ is the parallel LC In circles, the switching unit 1 according to the invention ensures a high level of measurement accuracy by being connected to its fourth input 9. This leads to the fact that on the parallel LC-circuit the through the parasitic capacitance of the Indukdie DC voltage + E ₀ (Fig. 2a) from the output activity coils and parasitic inductance of the Konder DC source 13 and to the normal inductors 25 capacitors, due to the instability the response coil 19 of the zero potential (Fig. 2b) is applied threshold of the comparison unit and by the Inwird. The voltage at the output of the DC stability of the supply sources caused errors.
Amplifier 17 begins to decrease, and at the point in time, the device offers the possibility of reducing the power of the parallel LC circuit, the voltage in which this voltage again reaches zero, a third 3 ° is made at the output of the comparison unit 20, which makes it possible , the parameters of the LC thin signal removed, whereby at the third output 30 layer elements are measured and in time intervals that of the pulse distributor 27 a pulse appears to convert the signals from LC micro-transducers.
Trigger 23 returns to the initial state. The device for measuring the parameters of switch 3 will! toggled while the switch stands for components of parallel LC circuits 33 is blocked. The 35 is connected to the parallel LC circuit by means of a simple construction and low down-zero potential, and the digital counter stops measurements.

For this purpose 2 sheets of drawings

Claims (1)

1 2 with the end of the calibration period (T ₉ ) and that Claim · End of the second time interval to be measured (ig) with the arrival of the third signal from the Device for measuring the parameters of the comparison unit (20).
Components of parallel LC circuits, namely 5
the capacitance of the capacitor and the inductance of the coil, characterized by - a switching unit (1) made up of several switches (2
to S) between the inputs and outputs of the Switching unit (1), of which are laid: the first 10 The invention relates to a device geInput (6) to a source (12) linearly variable according to the preamble of the claim,
bar voltage that is caused by one of one by The invention is based on the object of a the operator of the device actuable external device for measuring the parameters of the building signal source is triggered, the two elements of parallel LC circuits, namely the capacitance (7) to a direct voltage source (13) and 15 did the capacitor and the inductance the coil, the third input (8) to develop a DC voltage, in which certain on the measuring circuit, source (14) of a different polarity, while the fourth input (9) connected to the parallel LC circuit to be measured is grounded ; by means of a direct current amplifier (17) acting according to a certain program with resistance parallel counter measures, the measurement of the component coupling, whose input is to be measured by means of the 20 meter of the parallel LC circuit in a short time interval to the parallel LC circuit enable first output with high accuracy. (10) the switching unit (1) and by means of a standard The task is carried out according to the characteristics of the Malinduktivsspule (19) solved its second claim. gang (11) is laid; by a comparison unit The device according to the invention for measuring (20), which is connected to the output of the DC amplifier as the parameters of the components of parallel LC-kers (17); by means of an on the circles enables the measurement of the parameters as output of the comparison unit (20) connected to a short time interval with high accuracy control unit (21) for the switches (2 to 5) and is characterized by the simple construction of the switching unit (1 ), the control unit (21) and small dimensions. They are used in a pulse distributor (27) and downstream mainly for measurements on parallel-connected flip-flops (22 to 26); as well as closed LC resonance circles of different types by an electronic device also directed by the control unit (21), but it can control time interval measuring unit (31) for measuring also for measurements on LC thin-film elements of a first time interval (i _t ) and a second and for the measurement of the signals from LC encoders and th time interval (f ₂ ) in such a way that 35 LC micro encoders are used at zero crossing,
output voltage (U ₃ ) output of the DC The invention is explained below on the basis of the current amplifier (17) the comparison unit (20) writing of an embodiment and the characters supplies the first signal to the control unit (21) which explains the voltage. It shows changes the state of the switching unit (1); that Fig. 1 shows the functional diagram of the inventive sets is: when the measurement trigger signal arrives! «40 would have a device for measuring the parameters of the first output (10) of the switching unit (1) on components of parallel LC circuits,
the first input (6) and the second output F i g. 2 a to 2 c time diagrams of the voltage (11) the switching unit (1) at its second inputs I / ,, U ₂ or U ₃ at the first and second output gang (7); when the first signal arrives from the switch and at the output of the DC converter comparison unit (20), the first output (10) 45 amplifier.