Abstract
A new one-chip all solid state line sensor (P/sup 2/CCD-Tricoli) has been realized as a basis for the opto-electronic scanning of colour pictures. The three photosensitive lines for the colour components red, green and blue contain each 652 photo elements. They are arranged in parallel on one silicon crystal, with distances of some 100 ..mu..m. The line sensor is supplied with an extra designed driving circuitry and a signal processing. For colour splitting a colour separating digital phase grating has been developed which generates the three colour components in its three central diffraction orders. Using all the development components ('Tricoli'-line-sensor, electronic circuitry, colour separation grating) a model of a slide scanner has been built up, which succesfully demonstrates the feasibility of the proposed colour scanning system.
Citation Formats
Damann, H, Rabe, G, Zinke, M, Herrmann, M, Imjela, R, Laasch, I, Mueller, J, Neumann, K, Tauchen, G, and Woelber, J.
Opto-electronic scanning of colour pictures with P/sup 2/CCC-all solid state line sensors.
Germany: N. p.,
1982.
Web.
Damann, H, Rabe, G, Zinke, M, Herrmann, M, Imjela, R, Laasch, I, Mueller, J, Neumann, K, Tauchen, G, & Woelber, J.
Opto-electronic scanning of colour pictures with P/sup 2/CCC-all solid state line sensors.
Germany.
Damann, H, Rabe, G, Zinke, M, Herrmann, M, Imjela, R, Laasch, I, Mueller, J, Neumann, K, Tauchen, G, and Woelber, J.
1982.
"Opto-electronic scanning of colour pictures with P/sup 2/CCC-all solid state line sensors."
Germany.
@misc{etde_8136159,
title = {Opto-electronic scanning of colour pictures with P/sup 2/CCC-all solid state line sensors}
author = {Damann, H, Rabe, G, Zinke, M, Herrmann, M, Imjela, R, Laasch, I, Mueller, J, Neumann, K, Tauchen, G, and Woelber, J}
abstractNote = {A new one-chip all solid state line sensor (P/sup 2/CCD-Tricoli) has been realized as a basis for the opto-electronic scanning of colour pictures. The three photosensitive lines for the colour components red, green and blue contain each 652 photo elements. They are arranged in parallel on one silicon crystal, with distances of some 100 ..mu..m. The line sensor is supplied with an extra designed driving circuitry and a signal processing. For colour splitting a colour separating digital phase grating has been developed which generates the three colour components in its three central diffraction orders. Using all the development components ('Tricoli'-line-sensor, electronic circuitry, colour separation grating) a model of a slide scanner has been built up, which succesfully demonstrates the feasibility of the proposed colour scanning system.}
place = {Germany}
year = {1982}
month = {Apr}
}
title = {Opto-electronic scanning of colour pictures with P/sup 2/CCC-all solid state line sensors}
author = {Damann, H, Rabe, G, Zinke, M, Herrmann, M, Imjela, R, Laasch, I, Mueller, J, Neumann, K, Tauchen, G, and Woelber, J}
abstractNote = {A new one-chip all solid state line sensor (P/sup 2/CCD-Tricoli) has been realized as a basis for the opto-electronic scanning of colour pictures. The three photosensitive lines for the colour components red, green and blue contain each 652 photo elements. They are arranged in parallel on one silicon crystal, with distances of some 100 ..mu..m. The line sensor is supplied with an extra designed driving circuitry and a signal processing. For colour splitting a colour separating digital phase grating has been developed which generates the three colour components in its three central diffraction orders. Using all the development components ('Tricoli'-line-sensor, electronic circuitry, colour separation grating) a model of a slide scanner has been built up, which succesfully demonstrates the feasibility of the proposed colour scanning system.}
place = {Germany}
year = {1982}
month = {Apr}
}