JPH02185703A - Signal transmission equipment for rotary scanner - Google Patents

Abstract

PURPOSE:To obtain multichannel constitution with small capacity and to transmit a low-frequency component which contains a DC component by transmitting a signal between a rotor and a stator through an optical signal transmission system which transmits information with a light signal. CONSTITUTION:An electric signal which is reproduced from a magnetic tape 11 by a video head 3 is amplified by a head amplifier 12 incorporated in the rotor 5 and the amplified signal is applied to a driver 13, whose output drives a light emitting element 8 to convert the signal into signal light. This signal light is converged by a condenser lines 9 and inputted to and converted by a light receiving element 10 into an electric signal. Thus, the electric signal is converted into the light signal, which is sent from the rotor 5 to the stator 6, so the signal which contains the DC component is also transmitted. Consequently, the DC component of the signal can be transmitted, there is no leak from an adjacent channel, and the size is reduced.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a signal transmission device for a rotary scanner such as a rotary head of a VTR. [Prior art] Figure 7 shows ■1 shown in Japanese Utility Model Publication No. 1983-90819.
This is a vertical cross-sectional view of a rotary transformer which is the signal transmission device 6 of R. (hereinafter referred to as "stator winding"), (2) is short ring, (3) is video head, (4) is magnetic core, (5) is rotor, (6) is data, (7a) is rotation The drum (7b) is a fixed drum, and (20) is a rotating shaft.Next, the operation will be explained.The signal recorded on the magnetic tape is transmitted to the video head placed on the outer periphery -E- of the rotating drum (7a). (3) is reproduced by scanning the magnetic data 1''.Next, the reproduced self-generated signal is amplified by a head amplifier (not shown) provided in the rotating drum (7a), and the rotor winding ( 1^).The stator winding (IB) converts changes in the magnetic field into changes in current,
It is input as a signal current to a signal processing system (not shown) or the like. [Problem to be solved by the invention] Since the conventional signal transmission device is configured as follows, it is necessary to prevent magnetic field leakage between adjacent windings (l^) (1B). Therefore, adjacent windings are spaced apart or a short ring (2) is placed. For this reason,
The signal transmission device has become large, and it has been difficult to accommodate the multi-channel signal transmission device within the limited volume of the rotary scanner. Also. Another problem was that low frequency components including DC components could not be transmitted. This invention was made in order to solve the above-mentioned problems, and provides a signal transmission device that is capable of multi-channeling in a small volume and is capable of transmitting low frequency components including DC components. The purpose is to [Means for Solving the Problems] A signal transmission device according to the present invention transmits electrical signals between a rotor and a fixed r via an optical signal transmission system that transmits information using optical signals. It is characterized by being configured to do so. [Function] The signal transmission device according to the present invention transmits an optical signal obtained by converting electrical No. 4E between the rotor and the stator, and converts it into an electrical signal. Therefore, it is possible to transmit electricity (No. 8) including DC components, and in order to collect the signal light with an optical system and prevent it from entering the light receiving element of other channels,
It is possible to prevent signal leakage between channels. Embodiment J of the Invention Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In Fig. 1, the same reference numerals as in Fig. 7 indicate the same components. 1. A light emitting element such as D, (9) a condensing lens, (+01 a ring shaped light receiving element arranged in a recess in the annular light wall (61) formed in the stator (6) The element forms a pair with the light emitting element (8) for each channel, and in this example, it is equipped with a 3-channel optical signal transmission system. Figure 2 shows a signal transmission circuit for another 1-channel of this implementation. In the figure, (11) is a magnetic tape, (12) is a Herad amplifier, (13) is a driver for light emitting element (8), (I4)
is a signal processing circuit. Next, the operation of this embodiment will be explained. The electric signal generated from the magnetic tape (11) by the video head (3) is amplified by the head amplifier (12) built in the rotor (5), and this amplified signal is applied to the driver (13). The light emitting element (8) is driven by the output of this driver (I3) and converted into signal light. This No. 1 light is condensed by a condensing lens (9), enters a light receiving element (10), and is converted into an electrical signal. FIG. 3 is a characteristic diagram showing the relationship between the drive current of the driver (I3) and the light intensity of the signal light. 1n in the figure is the drive current, and when the drive current is iii, the output of the light emitting element (8) The intensity of light is P. It shows that. The light-receiving element (10) converts the incident signal light into electric signal ζ, which is manually input to the signal processing circuit (14) and subjected to predetermined signal processing. In this way, the electrical signal is converted into an optical signal and transmitted from the rotor (5) to the stator (6), so the DC
The signal 5 containing the components is also transmitted as is. Also, a condensing lens (9) and a light wall (51), (6
1) prevents the signal light of the own channel from leaking to the light receiving elements of other channels even if the optical transmission system is densely arranged.
You can do L. In the above embodiment, the light emitting element (8) and the light receiving element (10) are arranged on the flat rotor (5) and stator (6) r1. As shown in FIG.
, a plurality of light emitting elements (8) and a plurality of light receiving elements (1), respectively.
0), and a condensing lens (9) may be used to condense the signal light of each channel and transmit it. Further, as shown in FIG. 5, a light emitting element (8), a condensing lens (9) and a light receiving element (10 )
The playback signal of the video head (3) is taken out to the outside, and the recording signal is taken out from the outside to the video head (3).
It may also be configured to be manually operated. In this way, (2) a signal containing a C component can be input/output to the video head (3). Furthermore, as shown in Fig. 6, the conventional rotor winding (IA)
and stator winding TIB), the light-emitting element (8) described in Example 1, and the condenser lens (
9) and an optical transmission system composed of a light receiving element (10), the low frequency signal component including the DC component may be transmitted by the optical transmission system, and the high frequency component may be transmitted by a low retransmission system. In the above embodiment, the light-receiving element (10) is configured in a ring shape, and continuously receives the output light of the light-emitting element (8) to generate the light (2).
However, if the signal output by the person is an intermittent signal synchronized with the rotation of the drum, a light receiving element (10
), and does not necessarily have to be annular. [Effects of the Invention] As shown in L below, according to the present invention, the signal transmission device for a rotary scanner is an optical signal transmission device comprising a light emitting element, an optical system for condensing the output signal light, and a light receiving element. Since it is constructed using a transmission system, it is possible to transmit a DC component of a signal, there is no leakage from an adjacent channel, and there is an effect that a signal transmission device that can be miniaturized can be obtained.

[Brief explanation of the drawing]

FIG. 1 is a vertical cross-sectional view of an embodiment of the present invention, FIG. 2 is a block diagram of a one-channel electric circuit of this embodiment, and FIG. 3 is a diagram showing the driving current and light output intensity of the light emitting element of this embodiment. FIG. 4, FIG. 5, and FIG. 6 are longitudinal sectional views showing other different embodiments, and FIG. 7 is a longitudinal sectional view of a conventional rotary transformer. +3)-...Video head, (5)...Rotor, (6
)... Stator, (7a)... Rotating drum, (7
b) Fixed drum, (8)--light emitting element, (9)...
Condenser lens, (10)...light receiving element. In each figure, the same reference numerals indicate the same or equivalent parts.

Claims (1)

[Claims] (1) A light emitting element that is installed on at least one of the rotor and stator that constitutes the rotary scanner and converts an input electrical signal into an optical signal and emits it, and condenses the output light of this light emitting element. and a light-receiving element disposed at a position facing the light-emitting element on the rotor or stator and receiving the optical signal focused by the optical system and converting it into an electrical signal. A signal transmission device for a rotary scanner, comprising a signal transmission system and configured to transmit electrical signals between the rotor and the stator via the optical transmission system.