JP2626093B2 - Color signal conversion circuit - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a color signal conversion circuit of an image processing apparatus, and more particularly to a color signal conversion circuit before image compression or after image expansion.

[Conventional technology]

Conventionally, the color signal conversion circuit of this type, the entered three primary colors (R, G, B) to each component of the signal intensity by adding over a certain transform coefficients (Y) · color difference (C _b, C _r ) is converted to a signal output, or input luminance (Y) · color difference (C _b, C _r) the three primary colors by adding over a certain transform coefficient to each component of the signal (R, G, B) signal Has been proposed.

Next in the device described above, the three primary colors (R, G, B) luminance from the signal (Y) · color difference (C _b, C _r) When converting into a signal, each component of three primary color signals (R, G, B) against Equation (1).

Here, Y represents luminance signals, C _b, are C _r a color difference signal, also, RG, B is the component of the input three primary color signals, and further,
R _Y , G _Y , B _Y , R _cb , G _cb , B _cb , R _rb , G _rb , and B _rb are conversion coefficients corresponding to each component.

Further, in the above-mentioned apparatus, the luminance (Y) · color difference (C _b, C _r) When converting from a signal of three primary colors (R, G, B) to the signal, the luminance (Y) · color difference (C _b, C _r) signal Is given by the following equation (2).

Here, Y _R , Y _G , Y _B , C _CR , C _CG , C _CB , C _rR , C _rG , C _rB
Is a conversion coefficient corresponding to each component.

As can be understood from the expressions (1) and (2), this device multiplies the expression (1) or (2) by the input signal and the conversion coefficient of each component, and calculates the operation result. The operation is performed by three storing means, and the output from this means is then
This is realized by adding by a stage adder. And, by this device, from three primary color signals to luminance / color difference signals,
Alternatively, the luminance and color difference signals are converted into three primary color signals and output.

[Problems to be solved by the invention]

According to the conventional color signal conversion circuit described above, three means for multiplying and storing the result are required to convert the three primary color signals to the luminance / color difference signal or the luminance / color difference signal to the three primary color signals. In addition, two stages of adders are required, which is very disadvantageous in reducing the scale of the entire circuit.

The present invention solves the disadvantages of the prior art described above,
An object of the present invention is to provide a color signal conversion circuit with a reduced circuit scale.

[Means for solving the problem]

According to the present invention, each component of the input three primary color signals is multiplied by a certain conversion coefficient and added to convert to a luminance / chrominance signal and output, or a constant conversion coefficient is applied to each component of the input luminance / chrominance signal. In the color signal conversion circuit which converts the three primary color signals into three primary color signals by multiplying and adding the three primary color signals, the three primary color signals to be converted and the three component signals constituting the luminance / color difference signals are bidirectionally input. A three-primary-color signal bidirectional register and a luminance / color-difference signal bidirectional register to be output, and (b) a three-primary-color signal or a luminance / color-difference signal to be converted, which are stored in the three-primary-color signal bidirectional register or the luminance / color-difference signal bidirectional register. A signal output means for repeatedly outputting the three component signals a plurality of times in a predetermined order in a predetermined manner in a time-division manner, and And a conversion coefficient for each component of the signal input from the signal output means. The input signal of each component is multiplied by the conversion coefficient of each component, and the result of this multiplication is temporarily stored. Means (d) this first
(E) accumulating means for accumulating and adding the data from the means a predetermined number of times; and (e) after the output result from the accumulating means exceeds a predetermined upper limit or lower limit, a limiter is used to convert the data as a conversion end signal. And a second means for outputting the three component signals to the luminance / color difference signal bidirectional register or the three primary color signal bidirectional registers.

That is, in the present invention, each component of the three primary color signals or each component of the luminance / color difference signal is repeatedly output in a time-division manner a plurality of times, and the first means multiplies the input signal by the conversion coefficient of each component. While holding temporarily, the cumulative addition means cumulatively adds a predetermined number of times, and when the output result from the cumulative addition means exceeds a predetermined upper limit value or lower limit value, a limiter is applied to convert the three components after conversion as a conversion completion signal. It outputs a signal. As a result, since the conversion operation of each signal is performed serially by one circuit, the circuit scale can be reduced. Further, a three-primary-color signal bidirectional register for bidirectionally inputting and outputting three primary-color signals to be converted, and a luminance and bidirectional input and output for three-component signals constituting the luminance and color-difference signals to be converted, respectively. The provision of a color difference signal bidirectional register allows the use of a circuit element that converts three primary color signals into luminance and color difference signals and a circuit element that converts luminance and color difference signals into three primary color signals. Can be reduced in size and cost.

〔Example〕

 Next, an embodiment of the present invention will be described.

 FIG. 1 is a block diagram showing one embodiment of the present invention.

In FIG. 1, the color signal conversion circuit includes three primary colors (R, G,
B) Signal bidirectional bus registers 1-4, ROM5 as first means, accumulator 6 and RO as second means
And M7, and the control unit 8, a luminance (Y) · color difference (C _b, C _r) and a bi-directional bus register 9-11, and a clock generator 12. The bidirectional bus registers 1 to 4 and the bidirectional bus registers 9 to 11 are bus lines capable of transmitting 8-bit signals.
Connected at 13. The input of the ROM 5 is connected to the bus line 13, and data from the bus line 13 is input to the ROM 5. The 12-bit output of the ROM 5 is input to the accumulator 6. The 10-bit output of the accumulator 6 is input to the ROM 7. The 8-bit output from the ROM 7 is output to the bus line 13. Further, the control signal output C ₁ from the control unit 8, bi-directional bus register 1-4 is connected ROM 5, and the input terminal C ₁ of the bidirectional bus register 9-11. Control signal output of control unit 8
C ₂ , C ₃ , C ₄ , and C ₅ are connected to input terminals C ₂ , C ₃ , C ₄ , and C ₅ of the bidirectional bus registers 1, ₂ , ₃ , and ₄ , respectively. The control signal outputs C _{6 to} C ₉ of the control unit 8 are connected to the ROM 5. The control output C ₁₀ of the control unit 8 is connected to the input terminal C ₁₀ of the accumulator 6. Control signal output C ₁₁ , C ₁₂ , C of control unit 8
₁₃ is the input terminals C ₁₁ , C 11 of the bidirectional bus registers 9, 10, ₁₁
Are each connected to _12, C _13. Outputs S ₁ , S ₂ , and S ₃ of the clock generator 12 are connected to input terminals S ₁ , S ₂ , and S ₃ of each component.

 Next, the operation of the embodiment configured as described above will be described.

2 and 3 are timing charts for explaining the operation of the embodiment of the present invention, in which the horizontal axis indicates time, and the vertical axis indicates the signal state of each unit. Also, the second
The figure shows the operation of converting three primary color signals into luminance / color difference signals.
FIG. 3 shows the operation of converting the luminance / color difference signals into three primary color signals.

(R, G, B → Y , C b, the conversion operation to the C _r) First, luminance and color difference three primary colors (RGB) signals _{(Y, C b, C r} )
The operation of converting into a signal will be described with reference to FIG. 1 and FIG.

The 8-bit RGB signal is input to one of the bidirectional bus registers 1 to 4. This input RGB signal is
For example, it is held in the bidirectional bus register 1 and, as shown in FIG.
Is output to This signal is input to ROM5. The ROM 5 multiplies the data (a) by the conversion coefficient of each component by the control signals C _{6 to} C ₉ and outputs the multiplication result as data (b). Cumulative adder 6 to which data (b) is input
As shown in data (c) of FIG. 2, data (b) is cumulatively added in the order of R, G, and B, and data (c) is output. The ROM 7 to which the data (c) is input stores the data (c)
There predetermined upper limit value, multiplied by a limiter for values below the lower limit, Y, C _b, and outputs the value of C _r signal. This output is output as data (d) to the bus line 13 and is held in the bidirectional bus registers 9 to 11 at the timing of the control signal from the control unit 8. And the bidirectional bus register 9
To 11 are output to the outside.

(Conversion operation of Y, C _b , C _r → R, G, B) Next, the luminance / color difference (Y, C _b , C _r ) signal is converted into three primary colors (RGB).
The operation of converting into a signal will be described with reference to FIG. 1 and FIG.

Y, C _b, C _r signal is held in the bi-directional bus register 9-11. Y from the bi-directional bus register 9 to 11, C _b, C _r signal, as shown in the data of FIG. 3, respectively (a), Y,
Output in the order of C _b , _Cr . Data (a) is entered
The ROM 5 multiplies the data (a) by the control coefficients C _{6 to} C ₉ shown in FIG. 3 and the conversion coefficient of each component, and outputs the multiplication result as data (b). The data (b) is stored in the accumulator 6 as Y, C _b , C _r
, Data (b) is cumulatively added, and data (c) is output. The data (c) is subjected to a limiter in the ROM 7 for values exceeding a certain upper limit value and lower limit value, and is output as data (d) as an RGB signal. This RGB signal is transmitted to the bidirectional bus register 1 via the bus line 13, for example.
Is held is selected by a control signal C ₂ -C ₅ from the control unit 8. Thereby, for example, the RGB signal is output from the bidirectional bus register 1.

This embodiment thus has, Y from the RGB signals operate as described above, C _b, the C _r signal or Y, C _b, RGB from C _r signal
It will be converted into a signal.

As described above, in this embodiment, the ROM 5 and the accumulator 6
Since it is possible to convert the input signal to serial using, the ROM5 can be reduced to 1/3 of the conventional one,
The circuit scale can be significantly reduced.

〔The invention's effect〕

As described above, according to the present invention, each component of the three primary color signals or each component of the luminance / color difference signal is repeatedly output in a time-division manner a plurality of times, and the input signal is multiplied by the conversion coefficient of each component by the first means. The result of the multiplication is temporarily held, and is cumulatively added a predetermined number of times by the accumulating means. When the output result from the accumulating means exceeds a predetermined upper limit or lower limit, a limiter is set and a conversion completion signal is output. Since the three-component signal after the conversion is output, the conversion work of each signal is executed by one circuit in a serial manner, which can reduce the circuit scale and cost. Become.

Further, in the present invention, a three-primary-color signal bidirectional register that bidirectionally inputs and outputs three primary-color signals to be converted,
A circuit element for converting the three primary color signals into a luminance / color difference signal because a luminance / color difference signal bidirectional register for bidirectionally inputting / outputting the three component signals constituting the luminance / color difference signal to be converted is prepared, Conversely, a circuit element for converting a luminance / color difference signal into a three primary color signal can be shared, which has the effect of greatly contributing to miniaturization and cost reduction of the device.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention, and FIGS. 2 and 3 are timing charts for explaining the operation of the embodiment. 1-4 bidirectional bus registers, 5 ROM (first means), 6 accumulators, 7 ROM (second means),
8 Control unit, 9 to 11 Bidirectional bus register, 12
Clock generator.

Claims (1)

(57) [Claims] The present invention converts each component of an input three primary color signal into a luminance / color difference signal by multiplying each component by a predetermined conversion coefficient and adds them, and outputs the converted signal, or converts each component of an input luminance / color difference signal into a constant value. A color signal conversion circuit that converts and outputs a three-primary-color signal by multiplying and adding a coefficient, and bidirectionally inputs and outputs the three-primary-color signal to be converted and the three-component signals constituting the luminance / color-difference signal A three-primary-color signal bidirectional register and a luminance / color-difference signal bidirectional register, and a three-component signal constituting a three-primary-color signal or a luminance / color-difference signal to be converted stored in the three-primary-color signal bidirectional register or the luminance / color-difference signal bidirectional register. A signal output means for repeatedly outputting a plurality of times while keeping a certain time in a predetermined order in a time-division manner; And a first means for multiplying the input signal of each component by the conversion coefficient of each component and temporarily holding a result of the multiplication. A cumulative addition means for cumulatively adding the data from the first means a predetermined number of times; and a conversion limit signal when the output result from the cumulative addition means exceeds a predetermined upper limit value or lower limit value by applying a limiter. A second means for outputting the latter three component signals to the luminance / color difference signal bidirectional register or the three primary color signal bidirectional registers.