JPH0233266A - Signal processor - Google Patents

Abstract

PURPOSE:To attain the stable blanking processing and the pedestal signal additional processing for a video signal by combining a blanking circuit and pedestal signal additional circuit. CONSTITUTION:A video signal is sent to a blanking circuit 1 via a band limit circuit 4 and an amplifier circuit 5. The blanking circuit 1 consists of a switching transistor 101, an AC coupling capacitor 103 and a blanking signal input resistor 102. The video signal subject to blanking is sent to a pedestal signal additional circuit 2. The pedestal signal additional circuit 2 consists of a pedestal level setting resistor 201 and an AC coupling capacitor 202. The video signal subject to addition of the pedestal signal and the blanking processing is outputted via a synchronizing signal provision circuit 3.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention is capable of stably operating a video signal blanking operation and a pedestal signal addition operation in an imaging device without changing characteristics due to changes in ambient temperature. The present invention relates to a signal processing device.

2. Description of the Related Art In recent years, video cameras using solid-state imaging devices such as CCDs have rapidly become popular in both the consumer and industrial fields. However, the temperature characteristics of devices such as surveillance cameras, depending on their usage conditions, often pose a problem (in particular, the temperature characteristics of signal processing devices are very important, as they are directly related to image quality.Hereinafter, conventional A signal processing device for an imaging device such as a video camera will be described below. Fig. 2 is a block diagram of a conventional signal processing device, in which 3 is a synchronizing signal addition circuit, 4 is a signal processing device for an imaging device such as a video camera, etc.
1 is a band limiting circuit, 5 is an amplifier circuit, 6 is an input terminal, 7 is an output terminal, 9 is a DC regeneration circuit, 10 is an impedance conversion circuit, 11 is a blanking circuit, and 12 and 13 are external signal input terminals. The imaging signal is inputted from the input terminal 6 and passed through the band limiting circuit 4. Through the amplifier circuit 5, the DC regeneration circuit 9
is input to. In the DC regeneration circuit 9, the external signal input terminal 1
The transistor 901 is turned on and off at the timing of the DC regeneration pulse signal from 2, and the DC is regenerated to the set level.
Blanking circuit 1 via impedance conversion circuit 10
1 is input.

In the blanking circuit 11, a blanking pulse signal inputted from the external signal input terminal 13 causes the transistor 11 to
01 is turned on and off to directly blank the signal line to the set level.

At this time, a pedestal level is added depending on the relationship between the DC reproduction level and the blanking level. Thereafter, a composite synchronization signal is added by the synchronization signal addition circuit 3 and outputted from the output terminal 7 as a composite synchronization signal. As described above, in conventional signal processing circuits, blanking and pedestal signal addition processing are performed in a DC manner by switching transistors, so if the transistor characteristics of the DC regeneration circuit or blanking circuit change due to changes in ambient temperature, There was a problem in that the DC reproduction level and pedestal level fluctuated, which greatly affected the output signal characteristics.

Problems to be Solved by the Invention As mentioned above, conventional signal processing devices have a problem because characteristics such as the DC reproduction level and pedestal level fluctuate due to changes in ambient temperature. The present invention provides a signal processing device that stably performs blanking processing and pedestal signal addition processing regardless of changes in ambient temperature.

Means for Solving the Problems In order to solve the problems described above, the signal processing device of the present invention includes a blanking circuit composed of a capacitor and a switching transistor, and a pedestal signal addition circuit composed of a resistor and a capacitor. It is configured by adding a circuit.

Function: This configuration allows blanking processing with stable temperature characteristics and pedestal signal addition processing regardless of changes in ambient temperature, and is therefore very effective for use in imaging devices such as surveillance cameras.

EXAMPLE Hereinafter, an example of the present invention will be described with reference to the drawings. FIG. 1 is a circuit block diagram of a signal processing device in a CCD video camera which is an embodiment of the present invention.

In FIG. 1, 1 is a blanking circuit, 2 is a pedestal signal addition circuit, 3 is a synchronization signal addition circuit, 4 is a band limiting circuit, 5 is an amplifier circuit, 6 is an input terminal, 7 is an output terminal, and 8
is an external signal input terminal. The operation of the signal processing device of this embodiment will be explained. First, in FIG. 1, when a video signal is input to an input terminal 3 from a CCD imaging circuit of an imaging device, it is transmitted to a blanking circuit 1 via a band limiting circuit 4 and an amplifier circuit 5. The blanking circuit l includes a switching transistor 101 and an AC coupling capacitor 103.
．． It consists of a blanking signal input resistor 102.

When the switching transistor 101 is turned on by the composite blanking signal input from the external signal input terminal 8 via the resistor 102, the capacitor 103 is grounded, and the alternating current component during this period is removed and blanking is performed. Next, the switching transistor is turned off during periods other than the blanking period, and the video signal is directly output from the previous circuit to the subsequent circuit.

The blanked video signal is transmitted to the pedestal signal addition circuit 2. The pedestal signal addition circuit 2 includes a pedestal level setting resistor 201 and an AC coupling capacitor 2.
It consists of 02. Here, the composite blanking signal from the external signal input terminal 8 is added to the video signal in an alternating current manner via the resistor 201, which is set so that the pedestal signal is at the standard level, and the pedestal signal is added.

In this way, the video signal to which the blanking process and the pedestal signal have been added is added with a composite synchronization signal in the subsequent synchronization signal addition circuit 3, and then outputted from the output terminal 7 as a composite video signal.

Effects of the Invention As described above, according to the present invention, by combining a blanking circuit consisting of a switching transistor, a resistor, and a capacitor, and a pedestal signal addition circuit consisting of a capacitor and a resistor, blanking processing of a video signal and Pedestal signal addition processing realizes a signal processing device with stable and excellent temperature characteristics regardless of changes in ambient temperature.

[Brief explanation of the drawing]

FIG. 1 is a circuit block diagram of a signal processing device according to an embodiment of the present invention, and FIG. 2 is a circuit block diagram of a conventional signal processing device. 1... Blanking circuit, 2... Pedestal signal addition circuit, 3... Synchronization signal addition circuit, 4... Bandwidth limiting circuit, 5... ...Amplification circuit, 6...Input terminal, 7...Output terminal, 8...External signal input terminal, 9...DC regeneration circuit, 10 ...Impedance conversion circuit, 11...Blanking circuit, 12.13...
...External signal input terminal.

Claims (1)

[Claims] For a predetermined video signal line, the blanking circuit includes a first capacitor and a transistor switched by an external signal, a resistor, and a second capacitor, and adds current to the external signal to the video signal. A signal processing device comprising a pedestal signal addition circuit.