Variable color display system for comparing exhibited value with limit
First Claim
1. A method for continuously controlling color of an optical device which includes a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color, the method comprising:
- repeatedly defining a cycle by developing a start signal at the beginning of each said cycle;
receiving n-bit data representing in value the portions of a first primary color, where n is an integer having value at least 2;
developing an end signal timed, in relation to said start signal, in accordance with the value of said data;
developing a stable signal of a first level in response to said start signal and a stable signal of an opposite level in response to said end signal;
applying a first control signal, in accordance with said stable signal of said first level, for forwardly biasing said first light emitting diode; and
applying a second control signal, in accordance with said stable signal of said opposite level, for forwardly biasing said second light emitting diode.
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Accused Products
Abstract
A variable color optical device repeatedly develops a start signal and two end signals respectively timed in relation to the start signal in accordance with the values of two sets of data. Two stable signals are developed, each from the start signal to the respective end of signal. Two control signals are applied, in accordance with the two stable signals, for respectively forwardly biasing the light emitting diodes of two primary colors.
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Citations
20 Claims
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1. A method for continuously controlling color of an optical device which includes a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color, the method comprising:
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repeatedly defining a cycle by developing a start signal at the beginning of each said cycle;
receiving n-bit data representing in value the portions of a first primary color, where n is an integer having value at least 2;
developing an end signal timed, in relation to said start signal, in accordance with the value of said data;
developing a stable signal of a first level in response to said start signal and a stable signal of an opposite level in response to said end signal;
applying a first control signal, in accordance with said stable signal of said first level, for forwardly biasing said first light emitting diode; and
applying a second control signal, in accordance with said stable signal of said opposite level, for forwardly biasing said second light emitting diode.
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2. A method for continuously controlling color of an optical device which includes a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color, the method comprising:
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repeatedly defining a cycle by developing a start signal at the beginning of each said cycle;
receiving n-bit data representing in value the portions of a first primary color, where n is an integer having value at least 2;
developing an end signal timed, in relation to said start signal, in accordance with the value of said data;
developing a true output and a complementary output, said true output being set in response to said start signal and reset in response to said end signal, and said complementary output being in the opposite condition;
coupling said true output for forwardly biasing said first light emitting diode when said true output is in its set condition; and
coupling said complementary output for forwardly biasing said second light emitting diode when said complementary output is in its set condition.
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3. A method for continuously controlling color of an optical device which includes a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color, the method comprising:
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repeatedly developing a start signal;
receiving first n-bit data representing in value the portions of a first primary color and second n-bit data representing in value the portions of a second primary color, where n is an integer having value at least 2;
developing a first end signal timed, in relation to said start signal, in accordance with the value of said first n-bit data;
developing a second end signal timed, in relation to said start signal, in accordance with the value of said second n-bit data;
developing a first stable signal in response to said start signal and another signal in response to said first end signal;
developing a second stable signal in response to said start signal and another signal in response to said second end signal;
applying a first control signal, in accordance with said first stable signal, for forwardly biasing said first light emitting diode; and
applying a second control signal, in accordance with said second stable signal, for forwardly biasing said second light emitting diode.
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4. A method for continuously controlling color of an optical device which includes a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color, the method comprising:
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repeatedly developing a first start signal and a second start signal;
receiving first n-bit data representing in value the portions of a first primary color and second n-bit data representing in value the portions of a second primary color, where n is an integer having value at least 2;
developing a first end signal timed, in relation to said first start signal, in accordance with the value of said first n-bit data;
developing a second end signal timed, in relation to said second start signal, in accordance with the value of said second n-bit data;
developing a first stable signal in response to said first start signal and another signal in response to said first end signal;
developing a second stable signal in response to said second start signal and another signal in response to said second end signal;
applying a first control signal, in accordance with said first stable signal, for forwardly biasing said first light emitting diode; and
applying a second control signal, in accordance with said second stable signal, for forwardly biasing said second light emitting diode.
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5. A method for continuously controlling color of an optical device which includes a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color, the method comprising:
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repeatedly defining a cycle by developing a start signal at the beginning of each said cycle;
receiving n-bit data representing in value the portions of a first primary color, where n is an integer having value at least 2;
developing an end signal timed, in relation to said start signal, in accordance with the value of said data;
developing a first stable color control signal from said start signal to said end signal, for forwardly biasing said first light emitting diode; and
developing a second stable color control signal from said end signal to said start signal, for forwardly biasing said second light emitting diode.
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6. A method for continuously controlling color of an optical device which includes a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color, the method comprising:
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repeatedly developing a start signal;
receiving first n-bit data representing in value the portions of a first primary color and second n-bit data representing in value the portions of a second primary color, where n is an integer having value at least 2;
developing a first end signal timed, in relation to said start signal, in accordance with the value of said first n-bit data;
developing a second end signal timed, in relation to said start signal, in accordance with the value of said second n-bit data;
developing a first stable color control signal from said start signal to said first end signal, for forwardly biasing said first light emitting diode; and
developing a second stable color control signal from said start signal to said second end signal, for forwardly biasing said second light emitting diode.
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7. A method for continuously controlling color of an optical device which includes a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color, the method comprising:
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repeatedly developing a first start signal and a second start signal;
receiving first n-bit data representing in value the portions of a first primary color and second n-bit data representing in value the portions of a second primary color, where n is an integer having value at least 2;
developing a first end signal timed, in relation to said first start signal, in accordance with the value of said first n-bit data;
developing a second end signal timed, in relation to said second start signal, in accordance with the value of said second n-bit data;
developing a first stable color control signal from said first start signal to said first end signal, for forwardly biasing said first light emitting diode; and
developing a second stable color control signal from said second start signal to said second end signal, for forwardly biasing said second light emitting diode.
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8. A variable color optical device comprising:
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means for repeatedly defining a cycle by developing a start signal at the beginning of each said cycle;
means for receiving n-bit data representing in value the portions of a first primary color, where n is an integer having value at least 2;
means for developing an end signal timed, in relation to said start signal, in accordance with the value of said data;
a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color;
means for developing a stable signal of a first level in response to said start signal and a stable signal of an opposite level in response to said end signal;
means for applying a first control signal, in accordance with said stable signal of said first level, for forwardly biasing said first light emitting diode; and
means for applying a second control signal, in accordance with said stable signal of said opposite level, for forwardly biasing said second light emitting diode.
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9. A variable color optical device comprising:
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means for repeatedly defining a cycle by developing a start signal at the beginning of each said cycle;
means for receiving n-bit data representing in value the portions of a first primary color, where n is an integer having value at least 2;
means for developing an end signal timed, in relation to said start signal, in accordance with the value of said data;
a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color;
means for developing a true output and a complementary output, said true output being set in response to said start signal and reset in response to said end signal, and said complementary output being in the opposite condition;
first means for coupling said true output for forwardly biasing said first light emitting diode when said true output is in its set condition; and
second means for coupling said complementary output for forwardly biasing said second light emitting diode when said complementary output is in its set condition.
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10. A variable color optical device comprising:
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means for repeatedly developing a start signal;
means for receiving first n-bit data representing in value the portions of a first primary color and second n-bit data representing in value the portions of a second primary color, where n is an integer having value at least 2;
means for developing a first end signal timed, in relation to said start signal, in accordance with the value of said first n-bit data;
means for developing a second end signal timed, in relation to said start signal, in accordance with the value of said second n-bit data;
a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color;
means for developing a first stable signal in response to said start signal and another signal in response to said first end signal;
means for developing a second stable signal in response to said start signal and another signal in response to said second end signal;
means for applying a first control signal, in accordance with said first stable signal, for forwardly biasing said first light emitting diode; and
means for applying a second control signal, in accordance with said second stable signal, for forwardly biasing said second light emitting diode.
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11. A variable color optical device comprising:
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means for repeatedly developing a first start signal and a second start signal;
means for receiving first n-bit data representing in value the portions of a first primary color and second n-bit data representing in value the portions of a second primary color, where n is an integer having value at least 2;
means for developing a first end signal timed, in relation to said first start signal, in accordance with the value of said first n-bit data;
means for developing a second end signal timed, in relation to said second start signal, in accordance with the value of said second n-bit data;
a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color;
means for developing a first stable signal in response to said first start signal and another signal in response to said first end signal;
means for developing a second stable signal in response to said second start signal and another signal in response to said second end signal;
means for applying a first control signal, in accordance with said first stable signal, for forwardly biasing said first light emitting diode; and
means for applying a second control signal, in accordance with said second stable signal, for forwardly biasing said second light emitting diode.
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12. A variable color optical device comprising:
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means for repeatedly defining a cycle by developing a start signal at the beginning of each said cycle;
means for receiving n-bit data representing in value the portions of a first primary color, where n is an integer having value at least 2;
means for developing an end signal timed, in relation to said start signal, in accordance with the value of said data;
a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color;
means for developing a first stable color control signal from said start signal to said end signal, for forwardly biasing said first light emitting diode; and
means for developing a second stable color control signal from said end signal to said start signal, for forwardly biasing said second light emitting diode.
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13. A variable color optical device comprising:
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means for repeatedly developing a start signal;
means for receiving first n-bit data representing in value the portions of a first primary color and second n-bit data representing in value the portions of a second primary color, where n is an integer having value at least 2;
means for developing a first end signal timed, in relation to said start signal, in accordance with the value of said first n-bit data;
means for developing a second end signal timed, in relation to said start signal, in accordance with the value of said second n-bit data;
a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color;
means for developing a first stable color control signal from said start signal to said first end signal, for forwardly biasing said first light emitting diode; and
means for developing a second stable color control signal-from said start signal to said second end signal, for forwardly biasing said second light emitting diode.
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14. A variable color optical device comprising:
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means for repeatedly developing a first start signal and a second start signal;
means for receiving first n-bit data representing in value the portions of a first primary color and second n-bit data representing in value the portions of a second primary color, where n is an integer having value at least 2;
means for developing a first end signal timed, in relation to said first start signal, in accordance with the value of said first n-bit data;
means for developing a second end signal timed, in relation to said second start signal, in accordance with the value of said second n-bit data;
a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color;
means for developing a first stable color control signal from said first start signal to said first end signal, for forwardly biasing said first light emitting diode; and
means for developing a second stable color control signal from said second start signal to said second end signal, for forwardly biasing said second light emitting diode.
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15. In a variable color optical device which includes a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color, the combination comprising:
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means for developing a start signal;
means for receiving first n-bit data representing in value the portion of a first primary color and second n-bit data representing in value the portion of a second primary color, where n is an integer having value at least 2;
means for developing a first end signal timed, in relation to said start signal, in accordance with the value of said first n-bit data;
means for developing a second end signal timed, in relation to said start signal, in accordance with the value of said second n-bit data;
means for applying a first control signal, from said start signal to said first end signal, for forwardly biasing said first light emitting diode; and
means for applying a second control signal, from said start signal to said second end signal, for forwardly biasing said second light emitting diode.
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16. In a variable color optical device which includes a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color, the combination comprising:
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means for developing a start signal;
means for receiving n-bit data representing in value the portion of a primary color, where n is an integer having value at least 2;
means for developing an end signal timed, in relation to said start signal, in accordance with the value of said n-bit data;
means for applying a first control signal, from said start signal to said end signal, for forwardly biasing said first light emitting diode; and
means for applying a second control signal, from said start signal to said end signal, for forwardly biasing said second light emitting diode.
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17. In a variable color optical device which includes a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color, the combination comprising:
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means for developing a first start signal and a second start signal;
means for receiving first n-bit data representing in value the portion of a first primary color and second n-bit data representing in value the portion of a second primary color, where n is an integer having value at least 2;
means for developing a first end signal timed, in relation to said first start signal, in accordance with the value of said first n-bit data;
means for developing a second end signal timed, in relation to said second start signal, in accordance with the value of said second n-bit data;
means for applying a first control signal, from said first start signal to said first end signal, for forwardly biasing said first light emitting diode; and
means for applying a second control signal, from said second start signal to said second end signal, for forwardly biasing said second light emitting diode.
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18. In a variable color optical device which includes a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color, the combination comprising:
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means for developing a first start signal and a second start signal;
means for receiving n-bit data representing in value the portion of a primary color, where n is an integer having value at least 2;
means for developing a first end signal timed, in relation to said first start signal, in accordance with the value of said n-bit data;
means for developing a second end signal timed, in relation to said second start signal, in accordance with the value of said n-bit data;
means for applying a first control signal, from said first start signal to said first end signal, for forwardly biasing said first light emitting diode; and
means for applying a second control signal, from said second start signal to said second end signal, for forwardly biasing said second light emitting diode.
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19. In a variable color optical device which includes a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color, the combination comprising:
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means for developing a first start signal and a second start signal;
means for receiving first n-bit data representing in value the portion of a first primary color and second n-bit data representing in value the portion of a second primary color, where n is an integer having value at least 2;
means for developing a first end signal timed, in relation to said first start signal, in accordance with the value of said first n-bit data;
means for developing a second end signal timed, in relation to said second start signal, in accordance with the value of said second n-bit data;
means for applying a first control signal, from said first start signal to said first end signal, for forwardly biasing said first light emitting diode;
means for applying a second control signal, from said second start signal to said second end signal, for forwardly biasing said second light emitting diode;
said first control signal and said control signal being applied substantially simultaneously.
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20. In a variable color optical device which includes a first light emitting diode for emitting, when forwardly biased, light signals of a first primary color, a second light emitting diode for emitting, when forwardly biased, light signals of a second primary color, and means for combining said light signals to obtain a light signal of a composite color, the combination comprising:
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means for developing a first start signal and a second start signal;
means for receiving n-bit data representing in value the portion of a primary color, where n is an integer having value at least 2;
means for developing a first end signal timed, in relation to said first start signal, in accordance with the value of said n-bit data;
means for developing a second end signal timed, in relation to said second start signal, in accordance with the value of said n-bit data;
means for applying a first control signal, from said first start signal to said first end signal, for forwardly biasing said first light emitting diode;
means for applying a second control signal, from said second start signal to said second end signal, for forwardly biasing said second light emitting diode;
said first control signal and signal being applied substantially simultaneously.
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Specification