JP3035929B2 - Video signal output circuit of television camera - Google Patents

Description

The present invention relates to an integrated circuit, and can be applied to, for example, an integrated circuit for signal processing of a television camera.

B. Summary of the Invention The present invention provides a video signal output circuit of a television camera, in which a signal input / output terminal, which is not used when an operation mode is switched, is shared with a mode switching terminal, so that the terminal is effectively used. Utilization can be used to reduce the number of terminals.

C Conventional Technique Conventionally, in an integrated circuit, signal input / output terminals are switched and used in order to effectively avoid an increase in the number of terminals due to an increase in the degree of integration.

For example, as shown in FIG. 4, in the signal processing integrated circuit 1 of the television camera, signal output terminals T1 and T1 are provided.
2, T3 are supplied to the color signals R,
G and B can be output.

On the other hand, the terminal T4 receives the mode switching signal SEL of the integrated circuit 1 and switches the contacts of the selection circuit 2 to convert the color difference signals RY and BY output from the matrix circuit 3 into the color signals. Output from terminals T2 and T3 instead of G and B.

Thus, the terminals T1, T2, T3 are connected to the color difference signals RY, BY.
, And the output terminals of the color signals R, G, and B, the increase in the number of terminals can be effectively avoided even if the degree of integration of the integrated circuit 1 is improved accordingly.

D Problem to be solved by the invention However, even if the terminals are switched and used in this way,
At the time of output of the color difference signals RY and BY, the terminal T1 is left unused and left unsatisfactorily in terms of reducing the number of terminals by effectively using the terminals.

SUMMARY OF THE INVENTION The present invention has been made in view of the above points, and it is an object of the present invention to propose a video signal output circuit of a television camera which can effectively use terminals which are not used when switching operation modes and reduce the number of terminals. Is what you do.

Means for Solving E Problem In order to solve such a problem, in the present invention, among the video signals S1 based on the output of the imaging means 11, the color signals WR, WG,
After clamping the WB at a predetermined level via the clamp circuit 24, the video signal output circuit 10 of the television camera which performs gamma correction on the clamped color signals WR, WG, WB via the gamma correction circuit 30 includes a clamp circuit. A selection circuit 26 that receives the output of the gamma correction circuit 30 at one input terminal and the other input terminal thereof; a first terminal T15, T16, T17 connected to an output terminal of the selection circuit 26; Then, a second terminal T11 to which a clamp level CL obtained by clamping the color signals WR, WG, WB from the clamp circuit 24 is given.
Provided between the clamp circuit 24 and the second terminal T11,
And a comparator circuit 27, 36 for comparing the voltage with a predetermined reference voltage V _REF of the second terminal T11 provided, in accordance with the comparison result of the comparison circuit 27 and 36, the selection circuit 26 is switched to one input end When the operation of the gamma correction circuit 30 is confirmed based on the output of the gamma correction circuit 30 obtained through the first terminals T15, T16, and T17, or when the selection circuit 26 is switched to another input terminal side The white balance of the color signals WR, WG, WB is adjusted based on the output of the clamp circuit 24 and the clamp level CL obtained via the first and second terminals T15, T16, T17, T11.

F action According to the result of comparison between the voltage of the second terminal T11 and the predetermined reference voltage _VREF , when the selection circuit 26 is switched to one input terminal side, it is obtained via the first terminals T15, T16, T17. The operation of the gamma correction circuit 30 is confirmed based on the output of the gamma correction circuit 30, or when the selection circuit 26 is switched to the other input terminal side, via the first and second terminals T15, T16, T17, T11. If the white balance of the color signals WR, WG and WB is adjusted based on the output of the clamp circuit 24 and the clamp level CL obtained as described above, the number of terminals can be reduced by effectively using the second terminals 11. obtain.

G Example Hereinafter, an example of the present invention will be described in detail with reference to the drawings.

In FIG. 1, reference numeral 10 denotes a television camera as a whole, which supplies an image pickup signal S1 output from a solid-state image pickup device 11 composed of a CCD (charge coupled device) to a preprocessing circuit 12.

The preprocessing circuit 12 drives the solid-state imaging device 11, and
Preprocessing such as correction of a signal level is performed on the image pickup signal S1 and output to the integrated circuit 14.

The integrated circuit 14 receives the image signal S1 via the input signal terminal T10.
Upon receiving the signal, predetermined signal processing is performed to output a luminance signal Y and color difference signals RY and BY.

That is, in the integrated circuit 14, the luminance signal processing circuit 16
After synthesizing the luminance signal Y from the imaging signal S1, executes processing such as contour correction and outputs the result from the terminal T11.

The matrix circuit 18 converts the image signal S1 from the color signal R,
After combining G and B, the resultant is output to the variable gain amplifier circuit 20.

The variable gain amplifying circuit 20 switches the gain based on a control signal input from the control circuit 22 via the terminals T12 to T14, and thereby the color signal W corrected to a predetermined signal level.
Outputs R, WG and WB.

The clamp circuit 24 receives the color signals WR, WG, and WB output from the variable gain amplifying circuit 20, and holds the black levels of the color signals WR, WG, and WB at a predetermined level by clamping at a predetermined signal level. .

Further, the clamp circuit 24 provides the clamped color signals WR, W
G and WB are output to the control circuit 22 via the selection circuit 26 and the terminals T15, T16, and T17, and the clamp level is clamped.
CL is output to the control circuit 22 via the amplifier circuit 27 and the terminal T18.

The control circuit 22 outputs a control signal so that the signal levels of the color signals WR, WG, and WB have a predetermined ratio based on the input clamp level CL, and thereby outputs the white signals of the color signals WR, WG, and WB. Adjust the balance.

The gamma correction circuit 30 corrects the gamma of the color signals WR, WG, and WB output from the clamp circuit 24, and
At the same time, the signal is output to the remaining contacts of the selection circuit 26.

The matrix circuit 32 combines the color difference signals RY and BY from the color signals WR, WG and WB output from the gamma correction circuit 30, and outputs the synthesized signals via terminals T20 and T21.

Thus, the television camera 1 converts the color difference signals RY and BY together with the luminance signal Y into a video signal and outputs the video signal.

The comparison circuit 36 compares the reference voltage output from the predetermined reference power supply 38 with the signal level of the terminal T18, and switches the contact of the selection circuit 26 based on the comparison result.

That is, as shown in FIG. 2, the reference power supply 38 has a diode 40 and a constant current source 41 connected in series, whereby the reference voltage V _REF falls from the power supply voltage V _CC by the forward voltage V _{BE of the} diode 40. (V _CC −V _BE ) is applied to the inverting input terminal of the comparison circuit 36.

Therefore, the comparison circuit 36 determines that the voltage VT at the terminal T18 is equal to the reference voltage V
_{When the} signal rises from the _TEF , the selection signal SEL1 is output, thereby switching the contacts of the selection circuit 26, and replacing the color signals WR, WG, and WB output from the clamp circuit 24, the color signal WR output from the gamma correction circuit 30. , WG and WB are output.

On the other hand, the amplifier circuit 27 includes emitter resistors 42 and 43,
Transistors 45 and 46 having a constant current source 44 are configured to constitute a differential amplifier circuit, and a collector output of the transistor 46 obtained through a collector resistor 47 is output through a transistor 48 having an emitter ground circuit. Has been made.

Further, the amplifier circuit 27 connects the emitter of the transistor 48 to the protection diode 49 and the constant current source 50, and outputs a clamp level signal CL via the protection diode 49.

Thus, in the amplifier circuit 27, if the current value of the constant current source 44 is I and the resistance value of the collector resistor 47 is R, the base voltage of the transistor 48 changes in the range of V _{CC to} V _CC -RI. The output terminal voltage of the protection diode 49 is changed to the voltage V _CC −2V _{BE to} V _CC − along with the base voltages of the transistors 45 and 46.
It changes within the range of 2V _BE -RI, thereby outputting a clamp level signal CL.

Therefore, in the amplifier circuit 27, the voltage VT at the terminal T18 is
When the voltage rises to the voltage V _CC −V _BE or higher, the protection diode 49 switches to the off state, and stops the signal output operation of the clamp level.

Thus, when the voltage VT at the terminal T18 rises to the voltage V _CC −V _BE or more, the amplifier circuit 27 switches to the off state, and the terminal
From T15 to T17, γ-corrected color signals WR, WG, and WB can be output.

On the other hand, if no voltage is applied to the terminal T18,
The clamp level signal CL is output from the terminal T18, and the color signals WR, WG, WB before γ correction are output from the terminals T15 to T17.
Is output.

Therefore, the terminal T18 can be shared between the output signal switching control terminal and the clamp level signal output terminal.

In fact, in this type of integrated circuit 14, it is necessary to control the white balance by incorporating it into the television camera 10. In this case, it is necessary to output the color signals WR, WG, WB before the gamma correction and the signal CL of the clamp level. There is.

On the other hand, in the product inspection of the integrated circuit, it is necessary to output the color signals WR, WG, and WB output from the gamma correction circuit 30 in order to confirm the operation of the gamma correction circuit 30.

Therefore, while four signals are required for white balance control, three signals are required for confirming the operation of the gamma correction circuit 30.

Therefore, if the necessary output signals are assigned to separate terminals, a total of seven terminals are required only for white balance control and operation check of the γ correction circuit 30.

However, the color signals WR, WG, WB output from the γ correction circuit 30 via the selection circuit 26 and the color signals WR, W before γ correction are output.
If G and WB are switched and output, the number of output terminals can be reduced by three correspondingly. On the other hand, an input terminal for switching control of the selection circuit 26 is required, and five terminals are required as a whole. Become.

On the other hand, if the terminal T18 is shared by the switching control terminal of the selection circuit 26 and the signal output terminal of the clamp level as in this embodiment, the four terminals T15 to T18
Thus, the operation of the white balance control and γ correction circuit 30 can be confirmed, and the number of terminals can be reduced accordingly.

Thus, when the operation of the γ correction circuit 30 is confirmed, the unnecessary terminal T18 is used as the switching control terminal of the selection circuit 26, so that the number of terminals can be reduced by effectively using the terminals.

In the above configuration, the imaging signal S1 output from the solid-state imaging device 11 is input to the integrated circuit 14 via the preprocessing circuit 12, and the color signals R, G, B and the luminance signal Y are synthesized by the matrix circuit 18. Is done.

The luminance signal Y is output from the integrated circuit 14 via the terminal T11 and is combined with a video signal.

The color signals R, G, B are output to the clamp circuit 24 after white balance adjustment through the variable gain amplifier circuit 20.

Color signals WR, WG, WB clamped by clamp circuit 24
Is output to the control circuit 22 via the selection circuit 26 and the terminals T15 to T17, and at the same time, the clamp level signal CL is output to the control circuit 22 via the terminal T18.

As a result, a control signal is created in the control circuit 22 and the terminal T1
The variable gain control circuit 20 adjusts the white balance of the color signals WR, WG, and WB through 2 to T14.

Color signals WR, WG, WB clamped by clamp circuit 24
Is subjected to gamma correction by the gamma correction circuit 30, then converted into color difference signals RY and BY by the matrix circuit 32, output from the integrated circuit 14, and converted into a video signal together with the luminance signal Y.

On the other hand, in the product inspection stage of the integrated circuit 14, a voltage equal to or higher than the voltage V _CC -V _BE is applied to the terminal T18, and the selection circuit 2
The contact of No. 6 is switched, and the amplifier circuit 27 is switched off.

As a result, the output of the clamp level signal CL is controlled to be stopped, and the gamma-corrected color signals WR, WG, WB are replaced with the terminals T15 to T17 instead of the color signals WR, WG, WB before gamma correction.
From which the gamma correction circuit 30 can be inspected.

According to the above configuration, the output terminal of the signal CL of the clamp level which is not required for the inspection of the γ correction circuit 30 is connected to the selection circuit.
By sharing the 26 switching control terminals, unused terminals can be effectively used and the number of terminals can be reduced.

In the above-described embodiment, the case where the present invention is applied to the integrated circuit in which the signal for inspection of the γ correction circuit 30 and the signal for white balance adjustment are selectively output by the selection circuit 26 has been described. For example, as shown in FIG. 3, the present invention may be applied to an integrated circuit that selectively outputs color signals R, G, B and color signals RY, BY.

That is, as shown in FIG. 4, the same reference numerals are given to the same parts as in FIG. 4, and in the integrated circuit 60, of the color signals R, G, and B input to the matrix circuit 3, green and blue color signals G, B Is output from the terminals T2 and T3 via the selection circuit 61.

Further, the red color signal R among the color signals R, G, and B is supplied to the comparison circuit 36 and the terminal T1 via the amplification circuit 27.

Further, the integrated circuit 60 outputs the color difference signals RY and BY output from the matrix circuit 3 to the terminals via the selection circuit 61.
Output from T2 and T3.

In this case, by raising the voltage of the terminal 1, the contacts of the selection circuit 61 are switched to change the color difference signals RY, B
−Y can be selectively output.

In this way, the terminal 1 can be shared as the output terminal of the red color signal R and the switching control terminal of the selection circuit 61,
Accordingly, the number of terminals of the integrated circuit 60 can be reduced.

Furthermore, in the above-described embodiment, the case where one terminal is shared for signal output and selection circuit switching has been described. However, the present invention is not limited to this, and the signal input terminal is shared for selection circuit switching. You may.

Furthermore, in the above-described embodiment, the case where a desired signal is selectively output from the selection circuit has been described. However, the present invention is not limited to this, and can be applied to a case where an input signal is selectively input.

Furthermore, in the above-described embodiment, the case where one comparison circuit is connected to the shared terminal has been described. However, the present invention is not limited to this, and a plurality of comparison circuits may be connected.

With this configuration, it is possible to switch and control the plurality of selection circuits based on the plurality of comparison results obtained from the plurality of comparison circuits.

Further, in the above-described embodiment, by switching the selection circuit, the mode of the white balance adjustment operation,
The case where the mode is switched between the integrated circuit inspection mode and the integrated circuit inspection mode has been described, but the present invention is not limited to this, and can be widely applied to integrated circuits having various modes.

Further, the present invention can be widely applied to not only the case where the selection circuit is switched but also the case where the selection circuit is not switched as a controlled object.

Furthermore, the number of terminals shared for switching control is not limited to one, and a plurality of terminals may be shared to control a plurality of controlled objects.

Further, in the above-described embodiment, the case where the present invention is applied to the signal processing integrated circuit of the television camera has been described. However, the present invention is not limited to this, and can be widely applied to various integrated circuits.

H Effects of the Invention As described above, according to the present invention, unused terminals are effectively used by sharing signal input / output terminals that are not used when the operation mode is switched to mode switching terminals. Thus, a video signal output circuit of a television camera which can reduce the number of terminals can be obtained.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a television camera according to an embodiment of the present invention, FIG. 2 is a connection diagram showing a part of the television camera in detail, FIG. 3 is a block diagram showing another embodiment, and FIG. FIG. 9 is a block diagram for explaining a conventional technique. 1, 14, 60 ... integrated circuit, 2, 26, 61 ... selection circuit, 27
…… Amplifier circuit, 36… Comparator circuit, T1 to T21 …… Terminals.

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) H04N 9/04-9/11 H04N 9/64-9/78 H04N 5/14-5/208 G01R 31 / 28

Claims (1)

(57) [Claims] 1. A television camera which clamps a color signal of a video signal based on an output of a video means at a predetermined level via a clamp circuit and then gamma corrects the clamped color signal via a gamma correction circuit. A video signal output circuit, a selection circuit receiving the outputs of the clamp circuit and the gamma correction circuit at one input terminal and another input terminal, respectively, a first terminal connected to an output terminal of the selection circuit, and the clamp circuit And a second terminal provided with a clamp level for clamping the color signal from the clamp circuit, and a second terminal provided between the clamp circuit and the second terminal, wherein a voltage of the second terminal and a predetermined reference A comparison circuit for comparing the voltage with the voltage, wherein the selection circuit is switched to the one input terminal side in accordance with a comparison effect of the comparison circuit. Confirm the operation of the gamma correction circuit based on the output of the gamma correction circuit obtained via the first terminal, or the first when the selection circuit is switched to the other input end side
A video signal output signal of a television camera, wherein a white balance of the color signal is adjusted based on the output of the clamp circuit and the clamp level obtained via a second terminal.