DE19714994C2 - Film transport speed control - Google Patents

Description

The invention relates to an arrangement for generating a reference frequency Control of film transport speed.

Such a circuit arrangement is required, for example, in a film scanner an internally generated, variable pulse train, which serves as a reference for the speed of a film transport system, with an external reference pulse train, which a studio vertical frequency (in the following also as a studio V frequency referred to) to couple. By coupling variable pulse train and external reference pulse sequence makes it possible to scan each scanned film image assign reproducible to certain video image.

Such a coupling can be realized, for example, by a Auxiliary pulse sequence is generated, which has a fixed, integer division ratio both the Studio V frequency and the desired film frame rate. Such an auxiliary pulse sequence is e.g. B. an 8 V / 10 V pulse train, which is eight times Vertical period in a 50 Hz studio environment or ten times the vertical period in a 60 Hz studio environment. By dividing the studio accordingly The reference pulse train has a 8 V / 10 V pulse train in a 50 Hz studio environment Frequency of 6.25 Hz, or a fre in a 60 Hz studio environment frequency of 6.00 Hz. Because of the coupling of auxiliary pulse sequences and image Speed can therefore be measured with an 8 V / 10 V pulse train in a 50 Hz studio Environment Film speeds of 6.25, 12.5, 18.75, 25 or 50 frames / sec and in a 60 Hz study film speeds of 6, 12, 18, 24, 30 or realize 48 frames / sec.  

In order to realize other film speeds, for example, in the film scanner FLH 1000, sold by the applicant, the film speed reference derived from a high reference frequency by means of a counter stage, which results in a can achieve relatively high basic accuracy. A coupling with the studio frequency is produced by setting this counter from the 8 V / 10 V pulse train. In the Practice has shown that the resulting differences between 8 V / 10 V Pulse sequence and the reference frequency derived from the counter stage up to approx. 1/10 television line vary so that when the counter is set a more or less visible ver set of the video image around this residual error occurs. An increase in the time span between the reset intervals of the counter can therefore not be used for a finer gradation of the coupled film speeds can be used because this error would increase accordingly.

From DE 43 36 655 A1 a circuit arrangement for frequency multiplication is known, which is used in a film scanner for regulating the film transport speed. A digital output signal is generated by means of this circuit arrangement, the pulse repetition frequency of which results from that of an input signal by multiplication by an adjustable factor. High frequency accuracy in the output signal is achieved by clocking an input counter with a numerically controlled oscillator and thereby providing the following means for controlling an output counter:

• A register in which counter readings of the input counter are temporarily stored,
• - A comparator, the counter readings with the counter readings of the output counter compares and then gives a pulse when the comparison to a predetermined Result leads
• - A feedback between the comparator and the output counter such that the pulses reset the comparator to its initial state.

The object of the invention is to maintain a studio vertical frequency coupled film frame speeds, a larger selection of film frame speeds to make available, whereby visible image disturbances are avoided as far as possible should be.

This object is achieved by the features of patent claim 1.

The invention is now based on an embodiment shown in the single figure example described and explained in more detail.

A pulse sequence with an n-fold period of the studio V frequency is generated from a studio V frequency V by a programmable divider 1 . This pulse sequence used as an auxiliary reference period V _n has the advantage that significantly more couplable film speeds can be achieved. In the exemplary embodiment, the division factor of the programmable divider 1 can be selected between 1 and 128.

A numerically controlled oscillator 2 generates a pulse train which corresponds to a line clock H _Osc . By dividing the line clock H _Osc by the factor m in a counter 3 , a _{frame rate} V _{Osc is} generated. The use of a numerical oscillator allows a much higher accuracy than the use of conventional counter arrangements.

At the end of the period of the studio reference clock divided by the factor n, a phase comparison stage 4 determines how far the internally generated film speed reference is offset n times the studio vertical period of the studio reference clock. A computing unit 5 uses this to calculate a value for a line frequency and uses this value to control the numerical oscillator 2 . In this way, the two frequencies can be set dynamically to one or two clock periods, where a hard reset, ie synchronization of the numerical oscillator, and thus also prevents image interference.

Claims (1)

Arrangement for generating a reference frequency for controlling the film trans port speed with a first counter that records a studio Reference clock divides by a predeterminable factor n, a numerically controlled Oscillator, its output clock, or one from this output clock by division derived clock is used to control film speed, and one Phase comparison stage, which includes the studio reference clock divided by the factor n compares the output clock of the numerical oscillator, the comparison result is fed to the numerical oscillator as a control variable.