System for optically transmitting frequency-division-multiplexed signal and transmitter therefor
Abstract
In an optical transmission system, a multiplexer frequency-division-multiplexes a plurality of signals, and outputs the resultant signal to an FM modulator. The FM modulator converts the frequency-division-multiplexed signal into an FM modulated signal through frequency modulation using the frequency-division-multiplexed signal as an original signal. A frequency-divider converts the FM modulated signal into a frequency-divided FM modulated signal whose frequency is ½ n (n is an integer of not less than 1) the frequency of the FM modulated signal. An optical modulator has a predetermined input-voltage vs. output-optical-power characteristic, and is biased at the minimum point (voltage) about the output optical power. The optical modulator modulates an unmodulated light fed from a light source with the applied frequency-divided FM modulated signal to produce an optical signal whose optical carrier component is suppressed, and sends the optical signal to an optical transmission line. An optical receiver receives the optical signal, and square-law detects the signal to convert into an FM modulated signal. A FM demodulator demodulates the FM modulated signal to reproduce the original frequency-division-multiplexed signal. This configuration makes it possible to narrow the bandwidth of an FM modulated signal while increasing the frequency deviation thereof, and realize high-quality signal transmission as a result.
Claims
exact text as granted — not AI-modified1. A transmission system for optically transmitting a frequency-division-multiplexed signal, which is obtained by frequency-division multiplexing a plurality of signals, said transmission system comprising:
a transmitting end comprising a multiplexer operable to freqeuncy-division multiplex the plurality of signals to produce the frequency-division multiplexed signal, a FM modulator being operable to convert the frequency-division-multiplexed signal into a frequency-modulated signal through frequency modulation using the frequency-division-multiplexed signal as an original signal to output the frequency-modulated signal as a FM modulated signal, and an optical transmitter operable to convert the FM modulated signal into an optical-intensity-modulated signal whose optical carrier component is suppressed in an optical frequency spectrum through optical modulation using the FM modulated signal as an original signal to send the optical-intensity-modulated signal to a receiving end; and said receiving end comprising an optical receiver operable to receive the optical-intensity-modulated signal from said optical transmitter, and convert the optical-intensity-modulated signal into an electrical signal corresponding to the FM modulated signal through photodetection based on a square-law detection characteristic to the output the electrical signal as a received FM modulated signal, and a FM demodulator operable to demodulate the received FM modulated signal to reproduce the frequency-division-multiplexed signal.
2. The transmission system according to claim 1 , wherein said optical transmitter comprises:
a light source being operable to output an unmodulated light; and an optical modulator being operable to modulate the unmodulated light with the FM modulated signal to produce the optical-intensity-modulated signal, said optical modulator having a Mach-Zehnder interferometer structure with a predetermined input-voltage versus output-optical-power characteristic, and being biased in the input-voltage versus output-optical-power characteristic such that an output optical power is at a minimum.
3. The transmission system according to claim 2 , further comprising a frequency-divider provided between said FM modulator and said optical transmitter, said frequency-divider being operable to convert the FM modulated signal outputted from said FM modulator into a frequency-divided FM modulated signal whose frequency is ½ n of a frequency of the FM modulated signal, the n being an integer of not less than 1,
wherein said optical modulator modulates the unmodulated light with the frequency-divided FM modulated signal to produce the optical-intensity-modulated signal.
4. The transmission system according to claim 1 , wherein said optical transmitter comprises:
a light source being operable to output an unmodulated light; an optical branching circuit being operable to branch the unmodulated light fed from said light source into a first unmodulated light and a second unmodulated light; an optical modulator being operable to modulate the first unmodulated light with the FM modulated signal to produce the optical-intensity-modulated signal, said optical modulator having a Mach-Zehnder interferometer structure with a predetermined input-voltage versus output-optical-power characteristic, and being biased in the input-voltage versus output-optical-power characteristic such that an output optical power is at a maximum; and an optical combining circuit being operable to combine the optical-intensity-modulated signal produced by said optical modulator and the second unmodulated light to cancel an optical carrier component to the optical-intensity-modulated signal with the second unmodulated light and output the optical-intensity-modulated signal whose optical carrier component is suppressed.
5. The transmission system according to claim 4 , wherein said optical transmitter further comprises an optical delay circuit provided between said optical branching circuit and said optical combining circuit, said optical delay circuit being operable to adjust a propagation delay of at least one of the first unmodulated light, the second unmodulated light, and the optical-intensity-modulated signal produced by said optical modulator such that the second unmodulated light and the optical carrier component of the optical-intensity-modulated signal produced by said optical modulator are set in opposite phases to each other.
6. The transmission system according to claim 4 , further comprising a frequency-divider provided between said FM modulator and said optical transmitter, said frequency-divider being operable to convert the FM modulated signal outputted from said FM modulator into a frequency-divided FM modulated signal whose frequency is ½ n of a frequency of the FM modulated signal, n being an integer of not less than 1,
wherein said optical modulator modulates the first unmodulated light with the frequency-divided FM modulated signal to produce the optical-intensity-modulated signal.
7. The transmission system according to claim 1 , further comprising a frequency-divider provided between said FM modulator and said optical transmitter, said frequency-divider being operable to convert the FM modulated signal outputted from said FM modulator into a frequency-divided FM modulated signal whose frequency is ½ n of a frequency of the FM modulated signal, n being an integer of not less than 1,
wherein said optical transmitter comprises an optical modulator being operable to produce the optical-intensity-modulated signal through the optical modulation using the frequency-divided FM modulated signal as an original signal.
8. A transmitter for use in a transmission system for optically transmitting a frequency-division-multiplexed signal, which is obtained by frequency-division-multiplexing a plurality of signals, said transmitter comprising:
a multiplexer being operable to frequency-division-multiplex the plurality of signals to produce the frequency-division-multiplexed signal; a FM modulator being operable to convert the frequency-division-multiplexed signal into a frequency-modulated signal through frequency modulation using the frequency-division-multiplexed signal as an original signal to output the frequency-modulated signal as a FM modulated signal; and an optical transmitter being operable to convert the FM modulated signal into an optical-intensity-modulated signal whose optical carrier component is suppressed in an optical frequency spectrum through optical modulation using the FM modulated signal as an original signal to send the optical-intensity-modulated signal to a receiving end.
9. The transmitter according to claim 8 , wherein said optical transmitter comprises:
a light source being operable to output an unmodulated light; and an optical modulator being operable to modulate the unmodulated light with the FM modulated signal to produce the optical-intensity-modulated signal, said optical modulator having a Mach-Zehnder interferometer structure with a predetermined input-voltage versus output-optical-power characteristic, and being biased in the input-voltage versus output-optical-power characteristic such that an output optical power is at a minimum.
10. The transmitter according to claim 9 , further comprising a frequency-divider provided between said FM modulator and said optical transmitter, said frequency-divider being operable to convert the FM modulated signal outputted from said FM modulator into a frequency-divided FM modulated signal whose frequency is ½ n of a frequency of the FM modulated signal, n being an integer of not less than 1,
wherein said optical modulator modulates the unmodulated light with the frequency-divided FM modulated signal to produce the optical-intensity-modulated signal.
11. The transmitter according to claim 8 , wherein said optical transmitter comprises:
a light source being operable to output an unmodulated light; an optical branching circuit being operable to branch the unmodulated light fed from said light source into a first unmodulated light and a second unmodulated light; an optical modulator being operable to modulate the first unmodulated light with the FM modulated signal to produce the optical-intensity-modulated signal, said optical modulator having a Mach-Zehnder interferometer structure with a predetermined input-voltage versus output-optical-power characteristic, and being biased in the input-voltage versus output-optical-power characteristic such that an output optical power is at a maximum; and an optical combining circuit being operable to combine the optical-intensity-modulated signal produced by said optical modulator and the second unmodulated light to cancel an optical carrier component of the optical-intensity-modulated signal with the second unmodulated light, and output the optical-intensity-modulated signal whose optical carrier component is suppressed.
12. The transmitter according to claim 11 , wherein said optical transmitter further comprises an optical delay circuit provided between said optical branching circuit and said optical combining circuit, said optical delay circuit being operable to adjust a propagation delay of at least one of the first unmodulated light, the second unmodulated light, and the optical-intensity-modulated signal produced by said optical modulator such that the second unmodulated light and the optical carrier component of the optical-intensity-modulated signal produced by said optical modulator are set in opposite phases to each other.
13. The transmitter according to claim 11 , further comprising a frequency-divider provided between said FM modulator and said optical transmitter, said frequency-divider being operable to convert the FM modulated signal outputted from the FM modulator into a frequency-divided FM modulated signal whose frequency is ½ n of a frequency of the FM modulated signal, n being an integer of not less than 1,
wherein said optical modulator modulates the first unmodulated light with the frequency-divided FM modulated signal to produce the optical-intensity-modulated signal.
14. The transmitter according to claim 8 , further comprising a frequency-divider provided between said FM modulator and said optical transmitter, said frequency-divider being operable to convert the FM modulated signal outputted from said FM modulator into a frequency-divided FM modulated signal whose frequency is ½ n of a frequency of the FM modulated signal, n being an integer of not less than 1,
wherein said optical transmitter includes an optical modulator being operable to produce the optical-intensity-modulated signal through the optical modulation using the frequency-divided FM modulated signal as an original signal.
15. An optical transmission apparatus comprising:
a multiplexer operable to multiplex a plurality of signals to produce a multiplexed signal; an FM modulator operable to convert the multiplexed signal into a frequency-modulated signal; an electrical-optical modulator operable to convert the frequency-modulated signal into an optical modulated signal whose optical carrier component is suppressed in an optical frequency spectrum; and an optical transmitter operable to transmit the optical modulated signal
16. An optical transmitting method comprising:
multiplexing a plurality of signals to produce a multiplexed signal; FM-modulating the multiplexed signal into a frequency-modulated signal; electrical-optical-modulating the frequency-modulated signal into an optical modulated signal whose optical carrier component is suppressed in an optical frequency spectrum; and transmitting the optical modulated signal.
17. An optical transmission system comprising a transmission apparatus and a receiving apparatus,
said transmission apparatus including:
a multiplexer operable to multiplex a plurality of signals to produce a multiplexed signal;
an FM modulator operable to convert the multiplexed signal into a frequency-modulated signal;
an electrical-optical modulator operable to convert the frquency-modulated signal into an optical modulated signal whose optical carrier component is suppressed in an optical frequency spectrum; and
an optical transmitter operable to transmit the optical modulated signal, and said receiving apparatus including:
a receiver operable to receive the optical modulated signal;
an optical-electrical converter operable to convert the optical modulated signal into the frequency-modulated signal; and an FM demodulator operable to demodulate the frequency-modulated signal to produce the multiplexed signal.
18. An optical transmission/reception method comprising:
multiplexing a plurality of signals to produce a multiplexed signal; FM-modulating the multiplexed signal into a frequency-modulated signal; electrical-optical-modulating the frequency-modulated signal into an optical modulated signal whose optical carrier component is suppressed in an optical frequency spectrum; transmitting the optical modulated signal; receiving the optical modulated signal; optical-electrical converting the optical modulated signal into the frequency-modulated signal; and FM-demodulating the frequency-modulated signal to produce the multiplexed signal.
19. A transmission system for optically transmitting a frequency- division - multiplexed signal, which is obtained by frequency - division multiplexing a plurality of signals, from a transmitting end to a receiving end, comprising: at said transmitting end, a multiplexer for frequency - division multiplexing the plurality of signals to produce the frequency - division - multiplexed signal; an FM modulator for converting the frequency - division - multiplexed signal into a frequency - modulated signal through frequency modulation using the frequency - division - multiplexed signal as an original signal to output the frequency - modulated signal as an FM modulated signal; an optical transmitter for converting the FM modulated signal into an optical - intensity - modulated signal whose optical carrier component is suppressed in an optical frequency spectrum through optical modulation using the FM modulated signal as an original signal to send the optical - intensity - modulated signal to said receiving end; and a frequency - divider provided between said FM modulator and said optical transmitter for converting the FM modulated signal outputted from said FM modulator into a frequency - divided FM modulated signal whose frequency is 1 / 2 n of a frequency of the FM modulated signal, n being an integer of not less than 1 , and at said receiving end, an optical receiver for receiving the optical - intensity - modulated signal from said optical transmitter, and converting the optical - intensity - modulated signal into an electrical signal corresponding to the FM modulated signal through photodetection based on a square - law detection characteristic to output the electrical signal as a received FM modulated signal; and an FM demodulator for demodulating the received FM modulated signal to reproduce the frequency - division - multiplexed signal, wherein said optical transmitter includes: a light source for outputting an unmodulated light; and an optical modulator for modulating the unmodulated light with the FM modulated signal to produce the optical - intensity - modulated signal, said optical modulator having the Mach - Zehnder interferometer structure with a predetermined input - voltage versus output - optical - power characteristic, and being biased in the input - voltage versus output - optical - power characteristic such that an output optical power is at a minimum, and wherein said optical modulator modulates the unmodulated light with the frequency - divided FM modulated signal to produce the optical - intensity - modulated signal.
20. A transmission system for optically transmitting a frequency- division - multiplexed signal, which is obtained by frequency - division multiplexing a plurality of signals, from a transmitting end to a receiving end, comprising: at said transmitting end, a multiplexer for frequency - division multiplexing the plurality of signals to produce the frequency - division - multiplexed signal; an FM modulator for converting the frequency - division - multiplexed signal into a frequency - modulated signal through frequency modulation using the frequency - division - multiplexed signal as an original signal to output the frequency - modulated signal as an FM modulated signal; and an optical transmitter for converting the FM modulated signal into an optical - intensity - modulated signal whose optical carrier component is suppressed in an optical frequency spectrum through optical modulation using the FM modulated signal as an original signal to send the optical - intensity - modulated signal to said receiving end, and at said receiving end, an optical receiver for receiving the optical - intensity - modulated signal from said optical transmitter, and converting the optical - intensity - modulated signal into an electrical signal corresponding to the FM modulated signal through photodetection based on a square - law detection characteristic to output the electrical signal as a received FM modulated signal; and an FM demodulator for demodulating the received FM modulated signal to reproduce the frequency - division - multiplexed signal, wherein said optical transmitter includes: a light source for outputting an unmodulated light; an optical branching circuit for branching the unmodulated light fed from said light source into first and second unmodulated lights; an optical modulator for modulating the first unmodulated light with the FM modulated signal to produce the optical - intensity - modulated signal, said optical modulator having a Mach - Zehnder interferometer structure with a predetermined input - voltage versus output - optical - power characteristic, and being biased in the input - voltage versus output - optical - power characteristic such that an output optical power is at a maximum; and an optical combining circuit for combining the optical - intensity - modulated signal produced by said optical modulator and the second unmodulated light to cancel an optical carrier component of the optical - intensity - modulated signal with the second unmodulated light and output the optical - intensity - modulated signal whose optical carrier component is suppressed.
21. The transmission system according to claim 20 , wherein said optical transmitter further includes an optical delay circuit, provided between said optical branching circuit and said optical combining circuit, for adjusting a propagation delay of at least one of the first unmodulated light, the second unmodulated light, and the optical- intensity - modulated signal produced by said optical modulator such that the second unmodulated light and the optical carrier component of the optical - intensity - modulated signal produced by said optical modulator are set in opposite phases to each other.
22. The transmission system according to claim 20 , further comprising,
a frequency - divider provided between said FM modulator and said optical transmitter for converting the FM modulated signal outputted from said FM modulator into a frequency - divided FM modulated signal whose frequency is 1 / 2 n a frequency of the FM modulated signal, n being an integer of not less than 1 , wherein said optical modulator modulates the first unmodulated light with the frequency - divided FM modulated signal to produce the optical - intensity - modulated signal.
23. A transmission system for optically transmitting a frequency- division - multiplexed signal, which is obtained by frequency - division multiplexing a plurality of signals, from a transmitting end to a receiving end, comprising: at said transmitting end, a multiplexer for frequency - division multiplexing the plurality of signals to produce the frequency - division - multiplexed signal; an FM modulator for converting the frequency - division - multiplexed signal into a frequency - modulated signal through frequency modulation using the frequency - division - multiplexed signal as an original signal to output the frequency - modulated signal as an FM modulated signal; an optical transmitter for converting the FM modulated signal into an optical - intensity - modulated signal whose optical carrier component is suppressed in an optical frequency spectrum through optical modulation using the FM modulated signal as an original signal to send the optical - intensity - modulated signal to said receiving end; and a frequency - divider provided between said FM modulator and said optical transmitter for converting the FM modulated signal outputted from said FM modulator into a frequency - divided FM modulated signal whose frequency is 1 / 2 n a frequency of the FM modulated signal, n being an integer of not less than 1 , and at said receiving end, an optical receiver for receiving the optical - intensity - modulated signal from said optical transmitter, and converting the optical - intensity - modulated signal into an electrical signal corresponding to the FM modulated signal through photodetection based on a square - law detection characteristic to output the electrical signal as a received FM modulated signal; and an FM demodulator for demodulating the received FM modulated signal to reproduce the frequency - division - multiplexed signal, wherein said optical transmitter includes an optical modulator for producing the optical - intensity - modulated signal through the optical modulation using the frequency - divided FM modulated signal as an original signal.
24. A transmitter for use in a transmission system for optically transmitting a frequency- division - multiplexed signal, which is obtained by frequency - division - multiplexing a plurality of signals, from a transmitting end to a receiving end, comprising: a multiplexer for frequency - division multiplexing the plurality of signals to produce the frequency - division - multiplexed signal; an FM modulator for converting the frequency - division - multiplexed signal into a frequency - modulated signal through frequency modulation using the frequency - division - multiplexed signal as an original signal to output the frequency - modulated signal as an FM modulated signal; an opitical transmitter for converting the FM modulated signal into an optical - intensity - modulated signal whose optical carrier component is suppressed in an optical frequency spectrum through optical modulation using the FM modulated signal as an original signal to send the optical - intensity - modulated signal to said receiving end; and a frequency - divider provided between said FM modulator and said optical transmitter for converting the FM modulated signal outputted from said FM modulator into a frequency - divided FM modulated signal whose frequency is 1 / 2 n a frequency of the FM modulated signal, n being an integer of not less than 1 , wherein said optical transmitter includes: a light source for outputting an unmodulated light; and an optical modulator for modulating the unmodulated light with the FM modulated signal to produce the optical - intensity - modulated signal, said optical modulator having a Mach - Zehnder interferometer structure with a predetermined input - voltage versus output - optical - power characteristic, and being biased in the input - voltage versus output - optical - power characteristic such that the output optical power is at a minimum, and wherein said optical modulator modulates the unmodulated light with the frequency - divided FM modulated signal to produce the optical - intensity - modulated signal.
25. A transmitter for use in a transmission system for optically transmitting a frequency- division - multiplexed signal, which is obtained by frequency - division - multiplexing a plurality of signals, from a transmitting end to a receiving end, comprising: a multiplexer for frequency - division multiplexing the plurality of signals to produce the frequency - division - multiplexed signal; an FM modulator for converting the frequency - division - multiplexed signal into a frequency - modulated signal through frequency modulation using the frequency - division - multiplexed signal as an original signal to output the frequency - modulated signal as an FM modulated signal; and an optical transmitter for converting the FM modulated signal into an optical - intensity - modulated signal whose optical carrier component is suppressed in an optical frequency spectrum through optical modulation using the FM modulated signal as an original signal to send the optical - intensity - modulated signal to said receiving end, and wherein said optical transmitter includes: a light source for outputting an unmodulated light; an optical branching circuit for branching the unmodulated light fed from said light source into first and second unmodulated lights; an optical modulator for modulating the first unmodulated light with the FM modulated signal to produce the optical - intensity - modulated signal, said optical modulator having a Mach - Zehnder interferometer structure with a predetermined input - voltage versus output - optical - power characteristic, and being biased in the input - voltage versus output - optical - power characteristic such that an output optical power is at a maximum; and an optical combining circuit for combining the optical - intensity - modulated signal produced by said optical modulator and the second unmodulated light to cancel an optical carrier component of the optical - intensity - modulated signal with the second unmodulated light, and output the optical - intensity - modulated signal whose optical carrier component is suppressed.
26. The transmitter according to claim 25 , wherein said optical transmitter further includes an optical delay circuit, provided between said optical branching circuit and said optical combining circuit, for adjusting a propagation delay of at least one of the first unmodulated light, the second unmodulated light, and the optical- intensity - modulated signal produced by said optical modulator such that the second unmodulated light and the optical carrier component of the optical - intensity - modulated signal produced by said optical modulator are set in opposite phases to each other.
27. The transmitter according to claim 25 , further comprising,
a frequency - divider provided between said FM modulator and said optical transmitter for converting the FM modulated signal outputted from said FM modulator into a frequency - divided FM modulated signal whose frequency is 1 / 2 n a frequency of the FM modulated signal, n being an integer of not less than 1 , wherein said optical modulator modulates the first unmodulated light with the frequency - divided FM modulated signal to produce the optical - intensity - modulated signal.
28. A transmitter for use in a transmission system for optically transmitting a frequency- division - multiplexed signal, which is obtained by frequency - division - multiplexing a plurality of signals, from a transmitting end to a receiving end, comprising: a multiplexer for frequency - division multiplexing the plurality of signals to produce the frequency - division - multiplexed signal; an FM modulator for converting the frequency - division - multiplexed signal to a frequency - modulated signal through frequency modulation using the frequency - division - multiplexed signal as an original signal to output the frequency - modulated signal as an FM modulated signal; and an optical transmitter for converting the FM modulated signal into an optical - intensity - modulated signal whose optical carrier component is suppressed in an optical frequency spectrum through optical modulation using the FM modulated signal as an original signal to send the optical - intensity - modulated signal to said receiving end; and a frequency - divider provided between said FM modulator and said optical transmitter for converting the FM modulated signal outputted from said FM modulator into a frequency - divided FM modulated signal whose frequency is 1 / 2 n a frequency of the FM modulated signal, n being an integer of not less than 1 , and wherein said optical transmitter includes an optical modulator for producing the optical - intensity - modulated signal through the optical modulation using the frequency - divided FM modulated signal as an original signal.
29. An optical transmission apparatus comprising:
a multiplexer operable to multiplex a plurality of signals to produce a multiplexed signal; an FM modulator operable to convert the multiplexed signal into an FM modulated signal; a frequency - divider operable to convert the FM modulated signal into a frequency - divided FM modulated signal whose frequency is 1 / 2 n a frequency of the FM modulated signal, n being an integer of not less than 1 ; an electrical - optical modulator operable to convert the frequency - divided FM modulated signal into an optical modulated signal whose optical carrier component is suppressed in an optical frequency spectrum; and an optical transmitter operable to transmit the optical modulated signal.
30. An optical transmitting method comprising:
multiplexing a plurality of signals to produce a multiplexed signal; FM - modulating the multiplexed signal to produce an FM modulated signal; frequency - dividing the FM modulated signal to produce a frequency - divided FM modulated signal whose frequency is 1 / 2 n a frequency of the FM modulated signal, n being an integer of not less than 1 ; electrical - optical - modulating the frequency - divided FM modulated signal to produce an optical modulated signal whose optical carrier component is suppressed in an optical frequency spectrum; and transmitting the optical modulated signal.
31. An optical transmission system comprising a transmission apparatus and a receiving apparatus,
said transmission apparatus comprising: a multiplexer operable to multiplex a plurality of signals to produce a multiplexed signal; an FM modulator operable to convert the multiplexed signal into an FM modulated signal; a frequency - divider operable to convert the FM modulated signal into a frequency - divided FM modulated signal whose frequency is 1 / 2 n a frequency of the FM modulated signal, n being an integer of not less than 1 ; an electrical - optical modulator operable to convert the frequency - divided FM modulated signal into an optical modulated signal whose optical carrier component is suppressed in an optical frequency spectrum; and an optical transmitter operable to transmit the optical modulated signal, and said receiving apparatus comprising: a receiver operable to receive the optical modulated signal; an optical - electrical converter operable to convert the optical modulated signal into the FM modulated signal; and an FM demodulator operable to convert the FM modulated signal to produce the multiplexed signal.
32. An optical transmission and reception method including a transmitting method and a receiving method,
said transmitting method comprising: multiplexing a plurality of signals to produce a multiplexed signal; FM - modulating the multiplexed signal to produce an FM modulated signal; frequency - dividing the FM modulated signal to produce a frequency - divided FM modulated signal whose frequency is 1 / 2 n a frequency of the FM modulated signal, n being an integer of not less than 1 ; electrical - optical - modulating the frequency - divided FM modulated signal to produce an optical modulated signal whose optical carrier component is suppressed in an optical frequency spectrum; and transmitting the optical modulated signal; and said receiving method comprising: receiving the optical modulated signal; optical - electrical converting the optical modulated signal into the FM modulated signal; and FM - demodulating the FM modulated signal to produce the multiplexed signal.Cited by (0)
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