JPH01157689A - Imaging device - Google Patents

Abstract

PURPOSE:To eliminate influence upon a reference signal for controlling due to the fluctuation of a composite video signal input by selecting an input asynchronous with the composite video signal input as a reference signal source for controlling at the time of a memory reading action. CONSTITUTION:When a memory reading condition is set by a control signal 14, the output of a reference signal oscillating circuit 15 is selected as the reference signal for controlling by a reference signal selecting circuit 11. Though the reference signal at such a time is asynchronous with the color burst signal of a composite video input 1, the oscillating frequency of the reference signal oscillating circuit 15 is sufficiently correct and stable. Consequently, a composite video signal output 13 read from a video memory 12 by means of a video memory control circuit 2, D/A-converted and restored is reproduced in maintaining a relative phase relation between the color burst signal and a color signal. Thus, an action is executed asynchronously with the composite video signal input 1, and the influence due to the fluctuation of the composite video signal input 1 can be eliminated.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a printing apparatus using a digitized video memory and having a video signal as an input source.

[Conventional technology]

In digitized video memory circuits for composite video signals used in printing devices that use conventional video signals as input sources, the phase shift of the color signal is used as a reference signal for digitizing the video signal and controlling memory writing and reading. In order to prevent this, a color sub-carrier wave is always oscillated in synchronization with the color burst signal of the input video signal, and the frequency or a signal synchronized with that frequency is used.

[Problem that the invention seeks to solve]

The problem with using a signal that is always synchronized with the color burst signal of the input signal as a reference signal for memory control is that the input signal source switches during the memory read operation.
Or if it is interrupted, the memory control reference signal is disturbed,
Alternatively, it may become undefined and normal memory read operation is no longer guaranteed.

It is an object of the present invention that during a memory read operation,
That is, it is an object of the present invention to provide a printing apparatus that can guarantee stable operation even when fluctuations occur in the input signal source during printing operation.

[Means for solving problems]

The printing apparatus of the present invention includes a chroma filter that separates a color subcarrier component from a composite video signal, a sync separation circuit that separates a composite sync signal from the composite video signal, and a horizontal sync signal that is extracted from the composite sync signal. a horizontal synchronization circuit that extracts a vertical synchronization signal from the composite synchronization signal, a burst gate pulse generation circuit that outputs a burst gate pulse that can be obtained by delaying the horizontal synchronization signal, and a burst gate pulse generation circuit that outputs a burst gate pulse that can be obtained by delaying the horizontal synchronization signal; A color burst signal extraction circuit that extracts a color burst signal from the filter output signal, a color subcarrier oscillation circuit that oscillates in synchronization with the color burst signal extracted from the filter output signal, and a reference signal for digitization and memory control. A frequency conversion/waveform shaping circuit that generates a frequency conversion/waveform shaping circuit, a reference signal oscillation circuit that oscillates a reference signal used during memory read operation, a reference signal oscillation circuit output that selects the subcarrier oscillation circuit output during memory write operation, and a reference signal oscillation circuit output during memory read operation. It is characterized by comprising a reference signal selection circuit for selecting and inputting to the next stage frequency conversion/waveform shaping circuit, a video memory and a video memory control circuit, and printing a video memory output signal asynchronous to the input video signal. shall be.

〔Example〕

FIG. 1 shows an embodiment of the present invention, in which 1 is a composite video signal input, 2 is a video memory control circuit, 3 is a chroma filter, 4 is a color burst signal extraction circuit, 5 is a color subcarrier oscillation circuit, and 6 is a color subcarrier oscillation circuit. Frequency conversion/waveform shaping circuit, 7 synchronous separation circuit, 8 vertical synchronous circuit, 9 horizontal synchronous circuit,
1o is a burst gate pulse generation circuit, 11 is a reference signal selection circuit, 12 is a video memory, 13 is a composite video signal output, 14 is a control signal, and 15 is a reference signal oscillation circuit.

The input composite video signal 1 is distributed to three systems, one is input to the video memory control circuit 2 as video data to be stored, one is input to the video memory control circuit 2 by the chroma filter 3, and one is for synchronous separation. The circuit 7 produces a composite synchronization signal. The composite synchronization signal extracted as described above is distributed into two systems, one is converted into a vertical synchronization signal by the vertical synchronization circuit 8 and inputted to the video memory control circuit, and one is transformed into a horizontal synchronization signal by the horizontal synchronization circuit 9, and then a burst signal is output. The gate pulse generation port 10 generates a burst gate pulse.

The color burst signal extraction circuit 4 extracts a color burst signal from the color subcarrier component signal separated by the chroma filter 3 at the timing of the burst gate pulse output from the burst gate pulse generation circuit 10. The color burst signal is input to the color subcarrier oscillation circuit 5. The color subcarrier oscillation circuit 5 is
Continuous oscillation is performed in synchronization with reference to the color burst signal input from the previous stage. The reference signal oscillation circuit 15 oscillates a signal having the same frequency as the standard color burst signal. The reference signal selection circuit 11 controlled by the memory control circuit 2 is
During a memory write operation, the output of the color subcarrier oscillation circuit 5 is selected, and during a memory read operation, the output of the reference signal oscillation circuit 15 is selected and input to the frequency conversion/waveform shaping circuit 6 at the next stage.

The frequency conversion/waveform shaping circuit 6 uses means such as multiplying the output from the reference signal selection circuit 11 to convert it to an appropriate frequency for digitizing the video signal, and also converts it to an appropriate signal level and waveform. After digitizing the video signal and inputting it to the video memory control circuit 2 as a reference signal for memory control.

The video memory control circuit 2 controls writing to or reading from the memory depending on the state of the control signal 14. The memory read state is a state in which still image data for printing is being output to the composite video output 13. When the memory write state is set by the control signal 14, the reference signal selection circuit 11 selects the output of the color subcarrier oscillation circuit 5 as the control reference signal, so the video memory control circuit 2 selects the composite video signal. The composite video signal 1 is digitized in synchronization with the color burst signal of the human 1, and data for one or two vertical synchronization periods is written into the video memory 12. control signal 14
When the memory read state is set by
The reference signal selection circuit 11 selects the output of the reference signal oscillation circuit 15 as the control reference signal. The control reference signal in case B is asynchronous with the color burst signal of the composite video signal 1, but the reference signal oscillation circuit 1
Because the oscillation frequency of 5 is sufficiently accurate and stable,
A composite video signal output 13 read out from the video memory 12 by the video memory control circuit 2 and restored through D/A conversion is reproduced while maintaining the relative phase relationship between the color burst signal and the color signal. Furthermore, since it operates asynchronously with the composite video signal input 1, it is not affected by fluctuations in the composite video signal input 1 at all.

〔Effect of the invention〕

As described above, according to the present invention, by selecting a reference signal source for control that is asynchronous with the composite video signal input during the memory read operation, the composite video signal input fluctuates during the memory read operation. However, the control reference signal is completely unaffected, that is, the composite video signal output, that is, the image signal for printing is completely unaffected.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of an embodiment of the invention. that's all Applicant: Seiko Epson Corporation

Claims (1)

[Claims] a chroma filter that separates color subcarrier components from a composite video signal; a sync separation circuit that separates a composite sync signal from the composite video signal; a horizontal sync circuit that extracts a horizontal sync signal from the composite sync signal; A vertical synchronization circuit extracts a vertical synchronization signal from a synchronization signal, a burst gate pulse generation circuit outputs a burst gate pulse obtained by delaying the horizontal synchronization signal, and a color burst signal is extracted from the chroma filter output signal. A color burst signal extraction circuit to extract a color burst signal, a color subcarrier oscillation circuit to oscillate in synchronization with the color burst signal extracted by the above, and a frequency conversion/waveform shaping circuit to generate a reference signal for digitization and memory control. , a reference signal oscillation circuit that oscillates a reference signal used during memory read operation, selects the subcarrier oscillation circuit output during memory write operation, selects the reference signal oscillation circuit output during memory read operation, and performs frequency conversion in the next stage. /Equipped with a reference signal selection circuit input to the waveform shaping circuit, a video memory and a video memory control circuit,
A printing device characterized by printing a video memory output signal that is asynchronous with an input video signal.