FR2619632A1 - Device for measuring the peak value of a voltage - Google Patents

Abstract

The voltage measuring device comprises a peak detector 4 for detecting the peak values reached successively by an input signal to be measured, the said peak detector 4 comprising a storage capacitor 14 intended to be charged to the peak value of the signal to be measured; it also comprises an analogue-to-digital converter 6 connected to the output of the peak detector 4 and a control unit 7 comprising a first memory 16 for storing the output signals from the analogue-to-digital converter 6 corresponding to the instantaneous value of the measured signal, a second memory 18 for storing the maximum value of the measured voltage and a comparator 17 comparing the contents of the first memory 16 with those of the second memory 18, the said comparator 17 being intended to allow the storage of a value of maximum voltage in the second memory 18 when this value is greater than the maximum value stored in the said second memory 16.

Description

 The present invention relates to voltage measuring devices t relates more particularly to a measuring device which provides 1 display of the highest peak value reached by the voltage measured during a given measurement time interval.

 There are known tension measurement devices of this type comprising a reservoir capacitor intended to charge at the peak voltage of the measured signal, and to keep this peak voltage until a higher peak voltage is reached. applied.

 However, such devices have a number of drawbacks.

 They require the use of high quality capacitors with a low angle of loss and a low leakage current, which considerably increases their cost price.

 Even when using such capacitors, they only retain information for a limited period of time, which results in a decrease in time of the peak value resulting from the initial charge of the capacitor and leads to an erroneous display.

 The invention aims to remedy the drawbacks of the devices of the prior art by creating a peak voltage measurement device which ensures that a measured peak voltage is maintained at a constant value until the appearance of a peak voltage. peak of a higher value.

 It therefore relates to a voltage measurement device. comprising a peak detector intended to detect the peak values successively reached by an input signal to be measured, said peak detector comprising a reservoir capacitor intended to be charged to the peak value of the signal to be measured, characterized in that it further comprises an analog-digital converter connected to the output of the peak detector and a control unit comprising a first memory for storing the output signals of the analog-to-digital converter corresponding to the instantaneous value of the measured signal, a second memory for storing the maximum value of the measured voltage and a comparator for the content of the first memory to that of the second memory, said comparator being intended to authorize the storage of a maximum voltage value in the second memory when this value is greater than the maximum value stored in said second memory.

The invention will be better understood with the aid of the description which follows, given solely by way of example and made with reference to the appended drawings, in which
- Fig.1 is a block diagram of the voltage measuring device according to the invention;
- Fig.2 is a more detailed block diagram of the peak detector and the control unit of the voltage measurement device according to the invention.

 The voltage measurement device shown in Fig.1 includes a switching unit 1 of the cables, to ensure a division of the signal to be measured applied to its input in order to bring it back into a limited dynamic range, for example from t 400 mV.

This division can be a division by
10, 100, 1000, etc.

The output of the switching unit 1 is connected to the input of a rectifier module 2 which allows the device to be used for the measurement of alternating voltages
In parallel, on the rectifying module 2 is connected a switch 3 making it possible to short-circuit said module when the voltage to be measured is a DC voltage.

 The output of the rectification module 2 is connected to the input of a peak detector module 5 intended to detect the maximum values of the voltage to be measured and which will be described in more detail with reference to FIG. 2.

 In parallel to the peak detector module 4 is connected a switch 5 intended to short-circuit it.

 The output of the peak detector module 4 is connected to the input of an analog-digital converter 6, the output of which is connected to a first input of a logic control unit 7 intended to control the switching unit 1, the switches 3 and 5 for short-circuiting the rectification module 2 and the peak detector module 4 as well as a digital display interface 8.

The logic control unit 7 has a second input 9 for activating the operation of the device in peak detection mode.
Finally, to the output of the rectifier module 2 is connected the input of an analog output interface circuit 10 advantageously constituted by an impedance matching amplifier and the output of this circuit is connected to a device 11 to dial and needle such as a galvanometer.

 In Fig.2, there is shown in more detail the peak detector 4 and the logic control unit 7 of the measuring device of Fig.l.

 The peak detector 4 includes an operational amplifier 12 whose non-inverting input is connected to the output of the rectifier module 2 of the device of FIG. 1 and whose output is connected via a diode 13 to a reservoir capacitor 14 intended to charge at the peak value of the signal to be measured.

 The output of diode 13 is also connected to the inverting input of amplifier 12.

Between the capacitor 14 and the input of the analog-digital converter 6 is interposed a switch 15 coupled to the switch 5 for short-circuiting of the peak detector module and intended to prevent the discharge of the capacitor 14 when switching on. short circuit of the peak detector module 4
The logic control unit 7 to which the peak detector module is connected via the analog-digital converter w6, has a first memory 16 whose input is connected to the output of the analog-digital converter 6 and whose a first output is connected to a first input of a binary comparator 17.

 A second output of the first memory 16 is connected to a first input of a second memory 18, a first output of which is connected to a second input of the binary comparator 17.

 The output of the binary comparator 17 is connected to a second display authorization input of the second memory 18 and the output of the latter is connected to the input of the display interface circuit 8 (FIG. 1.

 The control unit 7 furthermore comprises a certain number of components intended to enable it to control the different portions of the device such as the switches 3 and 5.1 switching unit 1 and 1 display interface.

 The measuring device which has just been described operates in the following manner.

 First of all, it is assumed that the device receives an operating instruction in peak detection mode applied in the form of a signal on the input 9 of the control unit 7.

 Then the control unit 7 causes the switching unit 1 to be actuated and if the signal to be measured is an AC voltage, it commands the opening of 1 switch 3 for short-circuiting the rectification module 2 .

Of course, it also controls the opening of 1 switch 5 for short-circuiting the peak detector module 4 and the simultaneous closing of the switch 15 for connection between the capacitor 14 and the analog-digital converter 6
(Fig 2)
The input voltage VE is applied to the input of the switching unit 1 in which it is divided to be brought back in a dynamic range adapted to the capacity of the device.

 The output signal of the switching unit is rectified in the rectification module 2 and applied in the form of direct voltage to the peak detector module i This signal is the image for example of the effective value of the voltage VE to be measured.

 In the peak detector module 4, the output signal from the rectification module 2 causes the capacitor 14 to charge (Fig. 2) which charges at the peak or maximum value taken by the input signal VE. it is then transmitted to the analog-digital converter which converts it to a digital value (binary or BCD ?.

 This numerical value which is the measurement of the maximum value of the input signal VE is transmitted to the logic control unit 7.

 Referring to Fig. 2, it can be seen that the digital output signal from the analog-digital converter 6 is first applied to the first memory 16 and compared in the comparator 17 to a digital value previously stored in the second memory 18 , this second digital value representing the maximum value of the input signal VE previously detected, recorded and transmitted to the display interface 8 (Fig.1 ?.

If the digital value stored in the first memory 16 is less than or equal to the digital value stored in the second memory, the comparator 17 does not deliver a control signal to this second memory 18, so that the value stored therein remains unchanged and the display interface circuit does not transmit any display modification order to the display system (not shown)
The peak value corresponding to the numerical value stored in the second memory therefore remains displayed.

 If the digital value stored in the first memory 16 is greater than the digital value stored in the second memory 18, the comparator 17 delivers a control signal on the second input of the second memory 18 which authorizes the replacement in the latter of the numerical value which it contains by the numerical value stored in the first memory 16.

 This new numerical value corresponding to a new peak value, greater than the previous one reached by the input signal VE is transmitted to the display system of the device by the display interface circuit 8.

 Consequently, on the display system there is a permanent measurement of the maximum value of the input signal VE, this value only undergoing a modification when the maximum value of the signal of input VE increases.

 The output signal from the rectification module 2 is also permanently applied to the analog output interface 10 and transmitted to the galvanometer 11, the needle of which follows the changes in the measured input signal VE.

Instead of the galvanometer 11, it is also possible to connect a graphical recording device to the output of the analog output interface circuit 10,
The dynamic evolution of the instantaneous value of the instantaneous value is thus simultaneously available on the digital display system of the maximum value reached by the measured signal VE during a given measurement time interval and on the galvanometer 11. signal measured.

 When the measuring device according to the invention must not be used in peak detection mode. the control unit 7 controls the closing of the switch 5 which short-circuits the peak detector module 4 and the opening of the switch 15 for connecting the capacitor 14 to the analog-digital converter 6.

The device then works as an analog measuring device and measures the input signal
VE appears on the dial of the galvanometer 11.

 Finally, if the voltage to be measured is a DC voltage, the logic control unit 7 commands the closing of 1 switch 3 which short-circuits the rectification unit 2.

 The device can then operate for the measurement of a DC voltage signal either in maximum value detector mode or in purely analog mode as described above.

 The arrangement which has just been described makes it possible to use for the peak detector module i, a reservoir capacitor of current quality because its time for maintaining a constant charge is limited to the time necessary for the conversion into digital value of the analog value represented by the value to which it is loaded.

 This arrangement also makes it possible to store a peak value without loss of information over time.

 Furthermore, the presence in the measuring device according to the invention of the analog output interface circuit allows the information coming from this circuit to be exploited by a pointer indicator (Fig.l) or by an indicator of the type with light bar display if you add a fast analog-digital converter or another.

Claims (6)

 1. Voltage measuring device, comprising a peak detector (4) intended to detect the peak values successively reached by an input signal (VE) to be measured, said peak detector (4) comprising a reservoir capacitor (14 ) intended to be loaded at the peak value of the signal to be measured, characterized in that it further comprises an analog-digital converter (6) connected to the output of the peak detector (4) and a control unit ( 7) comprising a first memory (16) for storing the output signals of the analog-digital converter (6) corresponding to the instantaneous value of the measured signal, a second memory (18) for storing the maximum value of the measured voltage and a comparator (17) of the content of the first memory (16) to that of the second memory (18), said comparator (17) being intended to authorize the storage of a maximum voltage value in the second memory (18) when this value is greater than the maximum value e stored in said second memory (16).  2. Voltage measuring device according to claim 1, characterized in that at the input of the peak detector (4) is connected a rectification module (2) intended to rectify the input signal (VE) when this signal is an AC voltage signal, a switch (3) controlled by the control unit (7) intended to short-circuit, said rectifier module (2) being connected in parallel thereon.  3. Voltage measuring device according to one of claims 1 and 2, characterized in that it further comprises, at the input of the device a switching unit (1) intended to divide the input signal (VE ) to bring it back into a dynamic compatible with the measurement capacity of the device, said switching unit (1) being controlled by the control unit (7).  4, voltage measuring device according to 1 one of claims 1 to 3, characterized in that it further comprises a switch (5) for short-circuiting the peak detector (4) connected in parallel thereon , said switch (5) being controlled by the control unit (7).  5. Voltage measuring device according to claim 4, characterized in that it further comprises, connected between the reservoir capacitor (14) and the analog-digital converter (4), a switch (15) coupled to the switch (5) short circuit of the peak detector (4) to interrupt the connection between the output of the peak detector (w4) and the input of the analog-digital converter (6) during the short circuit said peak detector  6. Voltage measuring device according to one of the preceding claims, characterized in that it further comprises an analog output interface circuit (10) intended to receive the input signal (VE) to be measured, said analog output interface circuit being connected to the input of the peak detector (4) and having its output connected to a device (11) for measuring instantaneous fluctuations of the sighal to be measured.