Device for modulating the intensity of an optical signal on four different levels

The invention claimed is: 1. Device for modulating the intensity of an optical signal on four different levels, wherein the device comprises: a power divider comprising an input to receive an initial optical signal to be modulated and first and second outputs which each deliver, respectively, first and second optical signals to be modulated, the intensity of each of these first and second optical signals to be modulated being equal to a non-zero fraction of the intensity of the initial optical signal received on the input of the power divider, a first resonant ring modulator comprising: an input port optically coupled to the first output of the power divider to receive the first optical signal to be modulated, a first output port configured to deliver a first intensity-modulated optical signal, constructed by modulating the intensity of the optical signal received on the input port between only a high level and a low level, a control port configured to receive a first binary control signal in response to which the first resonant ring modulator varies the intensity of the first optical signal to be modulated between the high and low levels to obtain the first modulated optical signal, a second output configured to deliver an optical signal complementary to the first modulated optical signal, the intensity of the complementary optical signal being at the low level when the intensity of the first modulated optical signal is at the high level and vice versa, second resonant ring modulator comprising: an input port optically coupled to the second output of the power divider to receive the second optical signal to be modulated, an output port configured to deliver a second modulated optical signal constructed by modulating the intensity of the optical signal received on its input port between only a high level and a low level, a control port configured to receive a second binary control signal in response to which the second resonant ring modulator varies the intensity of the optical signal received on its input port between the high and low levels to obtain the second modulated optical signal, a first optical assembler comprising: a first input optically coupled to one of the first and second output ports of the first resonant ring modulator to receive the first modulated optical signal, a second input optically coupled to the output port of the second resonant ring resonator modulator to receive the second modulated optical signal, and an output configured to generate a first combined optical signal constructed by combining optical signals received on the first and second inputs of the first optical assembler, a second optical assembler comprising: a first input optically coupled to the output port of the first optical assembler a second input optically coupled to the other of the first and second output ports of the first resonant ring modulator, and an output configured to deliver the optical signal of which the intensity is modulated on at most four different levels constructed by combining optical signals received on its first and second inputs. 2. Device according to claim 1 , in which, for at least one of the first and second optical assemblers, the device comprises: a controllable optical phase-shifter coupled to one of the inputs of this optical assembler so as to be passed through by the optical signal which is combined by this optical assembler with the optical signal received on the other of its inputs, this optical phase-shifter being capable of modifying the phase of the optical signal which passes through it by a predetermined quantity set by an adjustment signal, a sensor capable of measuring the intensity of the optical signal restored on the output of this optical assembler, and an electronic circuit configured to acquire the intensity measured by the sensor and to generate, as a function of the acquired measured intensity, a phase-shifter adjustment signal which maximises the intensity of the signal delivered on the output of the optical assembler. 3. Device according to claim 1 , in which, for at least one of the resonant ring modulators the device comprises: an electrical tuner capable of modifying, for a constant value of the control signal of this modulator, wavelength λ 0 for which a transfer function between the intensities of the optical signals received on the input and output ports of this resonant ring modulator exhibits a minimum, this electrical tuner being capable of shifting this wavelength λ 0 by a predetermined quantity set by a setting signal, a sensor of the intensity of the optical signal delivered on an output port of this ring modulator, and an electronic circuit configured to acquire the intensity measured by the sensor and to generate, as a function of this acquired measured intensity, a setting signal which minimises the intensity delivered on this output port. 4. Device according to claim 1 , in which: the first and second resonant ring modulators are capable of modulating the intensity of an optical signal at a wavelength λ 1 and, simultaneously, incapable of modulating the intensity of an optical signal at a wavelength λ 2 spaced apart from the wavelength λ 1 by at least 1 nm, the device also comprises third and fourth resonant ring modulators capable of modulating the intensity of an optical signal at the wavelength λ 2 and, simultaneously, incapable of modulating the intensity of an optical signal at the wavelength λ 1 , the third resonant ring modulator being optically coupled in series with the first resonant ring modulator to form a first modulation block capable of modulating the intensity of the first optical signal to be modulated at the same time as the wavelengths λ 1 and λ 2 , the fourth resonant ring modulator being optically coupled in series with the second resonant ring modulator to form a second modulation block capable of modulating the intensity of the optical signal constructed from the second optical signal to be modulated at the same time as the wavelengths λ 1 and λ 2 . 5. Device according to claim 4 , in which, in a direction of circulation of the optical signal through the second modulation block, the resonant ring modulators of the second modulation block are arranged in a reverse order to an order of the resonant ring modulators of the first modulation block. 6. Device for modulating the intensity of an optical signal on four different levels, wherein the device comprises: a power divider comprising an input to receive an initial optical signal to be modulated and first and second outputs which each deliver, respectively, first and second optical signals to be modulated, the intensity of each of these first and second optical signals to be modulated being equal to a non-zero fraction of the intensity of the initial optical signal received on the input of the power divider, a first resonant ring modulator comprising: an input port optically coupled to the first output of the power divider to receive the first optical signal to be modulated, a first output port capable of delivering a first intensity-modulated optical signal, constructed by modulating the intensity of the optical signal received on the input port between only a high level and a low level, a control port capable of receiving a first binary control signal in response to which the first resonant ring modulator varies the intensity of the first optical signal to be modulated between the high and low levels to obtain the first modulated optical signal, a second output port capable of delivering an optical signal complementary to the first modulated optical signal, the intensity of the complementary optical signal being at the low level when the intensity of the first modulated optical signal is at the high level and vice versa,