DE3403216A1 - Optoelectronic end-of-tape cutout - Google Patents

Abstract

In the case of an end-of-tape cutout for a video, audio or data recording and/or reproducing apparatus having an optoelectronic device for detecting transparent beginning-of-tape and end-of-tape areas of a recording carrier, the input of a threshold switch, determining the threshold, is coupled to a digital-analog converter which can be controlled by means of a microcomputer. In this arrangement, the microcomputer adaptively sets automatically the interval between the switching thresholds and the quiescent voltage of the optoelectronic device required for error-free detection of the transparent beginning-of-tape and end-of-tape areas.

Description

OPTOELECTRONIC BAND END SWITCHING

DESCRIPTION The invention relates to a tape limit switch for a Video, audio or data recording and / or reproducing device in the preamble of claim 1 specified Art.

From the German application DE 33 09 993 such a belt end shutdown is known. The arrangement described there relates to a recording and / or Playback device in which the tape-shaped recording medium at the beginning and end Has optically reflective switching foils. The one for a safe addressing of the Limit switch-off required adjustment of the switching thresholds takes place automatically.

But there are also known optoelectronic end-of-line shutdowns not the reflection but the transmission properties of certain switching foils exploit. The switching threshold is adjusted manually there. Though the setting of this threshold is less critical because of the differences in the Transparency of the recording medium and the switching foil with the one available up to now Tape material are relatively large. However, the developments and manufacturing processes are aimed new tape-shaped recording medium suggests that the recording density is effective to enlarge. This only works if not just the thickness of the uncoated State of transparent carrier material, but also the thickness of the material to be applied to it magnetic layer, for example by suitable vapor deposition, essential is decreased. However, this increases the transmittance of the optoelectronic Establishment of illuminated recording medium, so that a one-time manual setting the required switching threshold with regard to the tape material that can be used is more critical will. Should also optoelectronic devices be used that are not work in the visible, but for example in the infrared range of light, So it must be taken into account that tape materials that are in the visible frequency range a small degree of transmission have, definitely in the infrared range can have a much higher degree of transmission.

The invention is based on the object of the manual adjustment of the Switching threshold for optoelectronic end-of-line shutdowns that affect the transmission property avoid using certain switching foils.

This object is achieved according to the invention by those specified in claim 1 Features solved. Advantageous further developments of the invention are set out in the subclaims marked.

The optoelectronic tape limit switch according to the invention enables adaptive, automatic adjustment of the switching threshold for the control of the tape transport so that that even when using tape material with different optical transmission properties reliable detection of the start and end of the tape is guaranteed.

Embodiments of the invention are shown below with reference to drawings explained in more detail. The figures show: FIG. 1 basic circuit of an optoelectronic tape limit switch with an optocoupler, a threshold switch and a digital-to-analog converter for the automatic adjustment of the switching threshold, Fig. 2 an optoelectronic end-of-line shutdown with two optocouplers, a threshold switch and a digital-to-analog converter for automatic adjustment of the switching threshold.

Figure l shows the basic circuit of an optoelectronic tape limit switch according to the invention. To detect the area of the recording itself in the transparency distinguishing tape start and end areas of the recording medium is a Optocoupler 1 ', 1 provided. Here is a light emitting diode 1 'with its anode over a resistor 1.9 on the positive pole and with its cathode on the negative Pole of a voltage source 20 connected. As a photoelectric receiver a phototransistor 1 is used, its collector to the positive pole of the voltage source 20 and its emitter to the inverting input of a non-negative feedback operational amplifier 3 as well as a resistor 21 to the negative pole of the voltage source 20 leads.

The operational amplifier has the due to the lack of negative feedback Function of a comparator (threshold switch). During the non-inverting Input of the comparator 3 with the analog output 12 of a digital-to-analog converter (DAC) 11 is in connection, its output is to the control input of a microcomputer 5, which takes over the signal evaluation. To control the automatic adjustment process the switching threshold is the control output 14 of the microcomputer 5 to the digital input 13 of the DAC ll connected.

With such a circuit arrangement, it is possible to use an automatic and optimal adjustment of the switching threshold in an optoelectronic end-of-line shutdown to be carried out in such a way that a reliable detection of transparent tape beginning and end areas is achieved. The circuit arrangement is in the idle state neither of the two transparencies are in the scanning area of the optocoupler and it A quiescent current flows in the collector-emitter branch of the phototransistor 1. Consequently there is an idle voltage U at the inverting input of the comparator 3. This depends essentially on the degree of transmission of the tape and the optoelectronic properties of the optocoupler (tolerances). The sound threshold Ul should depend on the transparency of Tape and the tolerances of the optocoupler always in the optimal distance to the cow tension U are in order to prevent the comparator from being switched to the middle of the band, or to enable the comparator to respond reliably at the start and end of the tape, which is not guaranteed if the switching threshold is very close to U, or is too far from U 0 0. The microcomputer determines during the adjustment process 5 first the open-circuit voltage U by sending it to the digital-to-analog converter 11 the output of which generates a variable, rising or falling voltage, which exactly matches the no-load voltage U when the output signal of the Comparator 3 jumps from "Low" to "High" or from "High" to "Low". With help of the registered voltage value U, the microcomputer 5 determines the switching threshold Ul so that the comparator 3 switches safely when the transparencies in the scanning area of the optocoupler. On the other hand, he chooses the distance between the switching threshold Ul to the rest voltage U 0 so great that the tape transport in the event of fluctuations in the rest voltage U, caused by changing transmission properties of the strip material (e.g.

Contamination) is not undesirably interrupted.

This is an optimal adaptive automatic adjustment of the optoelectronic End-of-line shutdown guaranteed. This adjustment is carried out after each insertion of a Tape into the recorder again performed and also during of the belt passage is constantly controlled by the microcomputer 5.

Figure 2 shows an embodiment of the invention, which is essentially corresponds to the basic circuit according to FIG. The only difference is in that in the arrangement according to Figure 2 instead of an optocoupler two electrical Optocouplers 1 ', 1 and 2', 2 connected in series to distinguish between the beginning of the tape and tape end can be used. Since the transparencies cover the entire Width of the recording medium, the optocouplers must extend against each other be arranged offset in the direction of belt travel. This ensures that the switching foils in each case only in the scanning range of a corresponding to the beginning or the end of the tape The optocoupler and trigger the switching process before they enter the scanning area of the other optocoupler. Since both optocouplers are due to their The arrangement of their send / receive areas does not influence each other, is sufficient it, both to a single, automatically adjusted switching threshold (same threshold switch) to lay.

Claims (6)

OPTOELECTRONIC BELT END SHIFTING PATENTANS INQUIRIES Oil belt limit switch for a video, audio or data recording and / or reproducing device, containing - an optoelectronic device for recognizing the beginning and end of the tape a recording medium, one connected to the optoelectronic device Threshold switch that is activated when a specified input threshold value is reached its output level changes, - a microcomputer that controls the threshold switch incoming signals are processed and sent to the motor electronics that control the conveyor belt forwards, - a digital-to-analog converter (DAC), its input to a control output of the microcomputer and its output to the threshold value the determining input of the threshold switch is connected, characterized in that that the transmitting / receiving arrangement of the optoelectronic device for detection transparent tape start and end is designed, and that the microcomputer (5) the difference between the switching threshold (U1) and the open-circuit voltage (U ) so that it only responds reliably within the transmission range the conveyor limit switch-off takes place. 2. End-of-line shutdown according to claim 1, d a -d u r c h g e k e n n z e i c h n e t that the optoelectronic device is an optocoupler (1, 1 ') which detects the full width of the recording medium. 3. End-of-line shutdown according to claim 1, d a -d u r c h g e k e n n z e i c h n e t that the optoelectronic device is two electrically in series switched optocouplers (1, 1 ') and (2, 2') which are opposed to one another in the direction of tape travel are arranged offset, and both of which cover the full width of the recording medium capture. 4. End-of-line shutdown according to claim 1, 2 or 3, d a d u r c h g e k e n n n n n e i n e t that the microcomputer (5) the switching threshold (U) only then adjusts when the transparency at the beginning or end of the tape is not is located in the optical transmission / reception area of the optoelectronic device. 5. End-of-line shutdown according to claim 4, d a -d u r c h g e k e n n z e i c h n e t that the microcomputer (5) after the end-of-line shutdown has already taken place starts the tape transport again until the transparent film at the beginning or end of the tape of the recording medium no longer in the send / receive area the optoelectronic device is located. 6. End-of-line shutdown according to one or more of claims 1 to 5, that the microcomputer (5) the switching threshold (U1) after each insertion of a tape into the recording and / or reproducing device readjusts and constantly checked while the belt is running.