KR920004222B1 - Tape end checking method of video camera - Google Patents

Abstract

Visible light from a light emitting device (1) passes through the transparent portion of a tape (2) to be supplied to light receiving devices (3)(4), thereby detecting the end portion of the tape (2). The light emitting device (1) radiates visible light with certain periods, and the encountering of the end portion or the beginning portion of the tape is recognized only when the period of the output pulses of the light receiving devices (3)(4) corresponds with the period of the light emissions of the light emitting device (1). The conventional disadvantage of frequent errors is removed.

Description

How to detect tape end of video camera

1 is a state diagram of the light-emitting and light-receiving elements for detecting tape ends.

2 is an external view of a VTR integrated video camera.

3 is a conventional tape end detection circuit diagram.

4 is a tape end detection circuit diagram of the present invention.

5 is a waveform diagram of each part of the present invention.

* Explanation of symbols for main parts of the drawings

1: light emitting element 3, 4: light receiving element

6: VTR integrated camera 7: Windows

LED ₁ : Infrared light emitting diode Q ₁ : Receiving transistor

Q ₂ , Q ₃ : Transistor

The present invention provides a tape end detection method of a VTR integrated camera that detects the end of a tape by using light detection of a light emitting device and a light receiving device. The present invention relates to a tape end detection method of a video camera that detects the end of the tape only when the light receiving cycles of the same coincide with each other.

In general, the VTR integrated camera detects the beginning and the end of the tape to stop at the beginning and the end of the tape. The detection of the beginning and the end of the tape is performed by the light at the beginning and the end of the tape. The transmitted light transmission was used to detect the beginning and the end. That is, as shown in FIG. 1, the light emitting element 1 is installed at the center portion of the video tape 5, and the start portion detection light receiving element 3 and the end portion detection are respectively located at opposite positions with the tape 2 interposed therebetween. After the light receiving element 4 is installed, each of the light emitting element 1 and the light receiving element 3 and 4 is operated so that the light of the light emitting element 1 is emitted at the transparent portion at the beginning and end of the tape 2. The light is applied to the light receiving elements 3 and 4, and light is not applied to other portions.

Therefore, each light receiving element (3) (4) is driven in the transparent portion of the tape at the beginning and end of the tape to stop the drive of the tape in the microcomputer using this. This conventional tape end detection method will be described with reference to FIG.

The tape 2 passes between the infrared light emitting diode LED ₁ , which is the light emitting element ₁ , and the light receiving transistor Q ₁ , which is the light receiving element 3, to which the magnetic coating film of the tape 2 is coated. The light from the infrared light emitting diode LED ₁ is not applied to the light receiving transistor Q ₁ , but in the transparent portion at the end or the beginning of the tape 2, the infrared light emitting diode Q _{1 is} connected to the light receiving transistor Q ₁ . The light of LED ₁ ) is applied.

When the light on the light-receiving transistor (Q ₁₎ is (when the end of the tape, a transparent portion is detected), the light-receiving transistor (Q ₁₎ is by "turning on", "turn off" the transistor (Q ₂₎ is a transistor (Q ₂₎ of the The potential applied to the micom, not shown on the collector side, is applied from the low level to the high level so that the micom recognizes that the end of the tape is detected.

That is, the light of the infrared light emitting diode LED ₁ is applied to the light receiving transistor Q ₁ at the transparent portion at the end of the tape to turn on the light receiving transistor Q ₁ to turn the low level transistor as shown in FIG. thereby applied to the base and the transistor (Q ₂₎ of the (Q ₂₎ is to apply a high level to the microcomputer as shown in Figure 5e is the "turn-off".

In this way, the light receiving transistor Q ₁ is normally "turned off" and then "turned on" at the transparent portion of the tape, and the microcomputer recognizes this to detect the beginning or the end of the tape. However, as shown in FIG. When the VTR integrated camera 6 is placed in a bright place where direct sunlight is strong, strong light enters through the transparent window 7 installed so that the progress of the tape can be seen, and light penetrating through the window 7 is received. The elements 3 and 4 can be driven so that the light receiving elements 3 and 4 behave as if the beginning or end of the tape were detected even though the end of the tape was not actually detected, resulting in recording or fast forwarding. It stops during playback and stops during playback, causing a malfunction that causes the rewinding operation.

That is, if strong light enters through the window 7 of the VTR integrated camera 6, the light emitting device 1 is fixed in order to prevent such a malfunction. Light-receiving operation of light-receiving elements (3) and (4) after being operated in a period of the present invention relates to a tape end detection method of a video camera that does not recognize the end of the tape if it does not match the light-emitting period of the light-emitting element 1.

As described above, the present invention allows the light emitting device that emits light to be “on” and “off” at regular cycles in order to prevent malfunction in detecting the beginning and the end of the tape by strong light such as sunlight in the VTR integrated camera. Only when the output of the light receiving device for detecting the light of the light emitting device is matched with the light emission period of the light emitting device to detect the beginning and end of the tape.

The presented as driven by the infrared light-emitting diode (LED ₁₎ is a transistor (Q ₃₎ as shown in FIG. 4 in order to practice of the invention and at regular intervals in a microcomputer which have the transistor (Q ₃₎ is not shown in "On", " Off ".

In addition, the light of the infrared light emitting diode LED ₁ is applied to the light receiving transistor Q ₁ through the tape 2, and the light receiving transistor Q ₁ controls the driving of the transistor Q ₃ to sense the end of the tape at the micom. The output was applied.

That is, the present invention provides an infrared light emitting diode (LED ₁₎ for using the transistor (Q ₃₎ transistor (Q ₃₎ sikidoe periodically driven in a cycle of operation is presented, such as the Figure 5a in that applied on the microcomputer.

Even when the infrared light emitting diode LED ₁ emits light intermittently as shown in FIG. 5A, if the start or end of the tape 2 is not detected, the light receiving transistor Q ₁ does not operate and thus the high level as shown in FIG. 5B. Is applied to transistor Q ₃ and transistor Q ₂ applies a low level to the microcomputer as shown in FIG. 5C.

However, when the tape is going transparent portion is positioned between the infrared light emitting diode (LED ₁₎ and a light receiving transistor (Q ₁₎ the light of the infrared light emitting diode (LED ₁₎ is to be applied to the light-receiving transistor (Q ₁₎ a light receiving transistor ( Since Q ₁ ) is operated, an output opposite to the emission period of the infrared light emitting diode LED ₁ appears on the collector side of the light receiving transistor Q ₁ as shown in FIG. 5B.

These light-receiving transistor collector output of the (Q ₁₎ by controlling the drive of the transistor (Q ₂₎ to the side of the collector of the transistor (Q ₂₎ outputs a waveform as in the Figure 5c is thereby applied to the microcomputer.

Therefore, in the microcomputer, since the pulse driving the infrared light emitting diode LED ₁ and the pulse received by the light receiving transistor Q ₁ coincide with each other, the microcomputer recognizes the end of the tape and controls the mode.

As such, when the pulse waveform of the microcomputer driving the infrared light emitting diode LED ₁ and the pulse waveform recognized by the light receiving transistor Q ₁ are the same, the microcomputer recognizes the end of the tape to eliminate the malfunction.

On the other hand, even when strong light leaks through the window 7 and operates the light receiving transistor Q ₁ as in the related art, the pulse is not applied to the microcomputer and the voltage is applied at a predetermined level. Therefore, the microcomputer does not detect the end of the tape. .

As described above, the present invention recognizes the end of the tape only when the output of the light receiving device that detects the light of the light emitting device matches the light emitting period of the light emitting device so that the light emitting device emits light at a predetermined period in order to accurately detect the end of the tape. By doing so, the end sensor is malfunctioned by the strong light such as sunlight.

Claims (2)

In the tape end detection method for detecting that the end of the tape when the light of the light emitting element 1 is applied to the light receiving element (3) (4) through the transparent portion of the tape (2), the light emitting element (1) The end of the tape of the video camera to detect that the beginning or end of the tape only when the output pulse period received by the light receiving element (3) (4) after matching the light emission period of the light emitting element (1) Detection method. 2. A video device according to claim 1, wherein the light emitting element (1) consists of an infrared light emitting diode (LED ₁ ) which is driven by a transistor (Q ₃ ) while the transistor (Q ₃ ) is operated by a constant period pulse of the microcomputer. How to detect tape end of camera.

Images