DE2319897A1 - ARRANGEMENT FOR MEASURING THE AVERAGE TIME OF AN ELECTRICAL SIGNAL - Google Patents

Description

Arrangement for measuring the mean value time of an electrical signal The invention relates to an arrangement for measuring the mean value time of an electrical Signal with an almost linearly rising and falling edge profile, in particular an arrangement for measuring the mean value of the opening time of a photographic Closure, using the frequency counting method.

The actual opening time of a photographic shutter at a set specific target opening time can, for example, based on an as electrical signal present luminous flux curve can be determined. For identification the duration of such electrical signals with an approximately linear rise and falling edge are usually given two times.

On the one hand, the base time as the time difference between the start the Rising edge and the end of the falling edge of the trapezoidal signal and on the other hand the Mean value time as the time it takes a square wave signal of equal area with the same Height of the amplitude as the trapezoidal signal would assume.

With the known devices, the edge steepness is not known and amplitude height a determination of this mean value time is only approximate possible because the reference point located at half the amplitude height on the respective flank for the mean value time is not available at the point in time when the measurement the mean value time would have to begin. This reference point can only be specified precisely are stopped when the edge rise ends when the full amplitude level is reached is.

The invention is based on the object of creating a measuring arrangement with the despite unknown values for the rise and fall angles of the flanks as well as an exact measurement of the mean value time for the amplitude height and thus for the edge length is possible.

According to the invention, this is achieved in that the measurement frequency exceeds the time of the rise and fall of the edges of a signal to be measured their # th value, preferably to half their value, reduced by a counting device is feedable.

The invention is based on the idea that the timepiece, the usually consists of a digital counter, during the time of the rise and falling edge only half and during the time that the signal is parallel to the abscissa, i.e. the time axis, the full number of effectively elapsed Time units counts.

According to the invention, the arrangement is made for this purpose so that assigned to the same by differentiation of the signal rising and the signal falling edge Pulses of the same duration can be generated, through which during the edge rise and edge fall time, the measuring frequency to its #th value, preferably to its half the value, is reversible.

In particular, this is achieved by using a differentiator for differentiation the signals arriving at its input are switched with its output to a pulse gate is via which a depending on the pulses emitted by the differentiator Frequency generator directly or with the interposition of a frequency divider can be connected to the counting device.

Based on an embodiment shown in the drawing described the invention. The drawing shows in Fig. 1 a timing diagram of the Signal and pulse waveform and FIG. 2 shows a block diagram of the new arrangement.

With the arrangement shown schematically in FIG the mean value time TM of an electrical signal, as shown in FIG. 1 as trapezoidal Luminous flux curve of a photographic shutter is shown, measured accurately will.

This time measurement is independent of the rising edge and -abfallwinkelα, the amplitude height H and the base time TB.

The electrical signal is used to determine the mean value time Luminous flux curve fed to a differentiator 11, in which the rising and falling Edge of the signal can be differentiated.

In a pulse converter 12 connected downstream of the differentiator 11 the positive and negative differentiated rectangular pulse to two only positive or negative impulses are directed only when necessary.

The differentiated pulses are then fed to a pulse gate 13, the counting pulses emitted by a frequency generator 16 from a counting device 14 feeds.

With each differentiated pulse arriving at the pulse gate 13 interrupts the pulse gate 13 is the direct connection of the frequency generator 16 to the counting device 14. Instead, a frequency divider 15 between the frequency generator 16 and the counting device 14 switched on, which for the duration of a differentiated pulse, that is, for the duration of a rising and falling edge, the counting frequency of the frequency generator 16 is reduced to half its value. That way you can with simple means the mean value time of an electrical signal as the sum of the Times for the rising and falling edge determined in the form of counting pulses as well as the curve segment running parallel to the time axis can be measured precisely.

Claims (4)

Claims Arrangement for measuring the mean value time of an electrical signal with an almost linearly rising and falling flank course, in particular an arrangement for measuring the mean value of the opening time of a photographic shutter, using the frequency counting method, d u r c h e k e n n n z e i c h n e t that the measuring frequency over the time of the rise and fall of the edges of a signal to be measured to its 1st value, preferably to half its value, reduced can be fed to a counting device. 2. Arrangement according to claim 1, characterized in that by differentiation the signal rising and the signal falling edge the same associated pulses of the same Duration can be generated by the edge rise and fall time the measuring frequency can be reversed to its nth value, preferably to half its value is. 3. Arrangement according to claims 1 and 2, characterized in that that a differentiator for differentiating the signals arriving at its input is connected with its output to a pulse gate, via which a function the pulses emitted by the differentiator a frequency generator directly or connectable to the counting device with the interposition of a frequency divider is. 4. Arrangement according to claims 1 to 3, characterized in that that a pulse converter connected between the differentiator and the pulse gate is. Blank page