Optical loop back and line test apparatus
First Claim
1. An apparatus for evaluating the performance of a single cable bi-directional optical transmission system operating in a directional division multiplexing (DDM) mode, said system operating an optical signal transmission cable Joining a line terminal and a network terminal, and transmitting an optical signal in a first wavelength region;
- said apparatus having;
(a) an optical time domain reflectometer (OTDR) operating a test beam in a second wavelength region;
(b) a 1×
2 optical directional coupler provided with a first, a second, and a third coupler terminals;
wherein the coupling ratio is chosen so that the insertion loss between the first coupler terminal and the second coupler terminal is design to be low, and the insertion loss between the third coupler terminal and the first coupler terminal is designed to be slightly less than twice the loss budget between the line terminal and the network terminal, and wherein the first coupler terminal is connected to the user-side of the line terminal; and
(c) a 2×
2 optical switch having;
a first, a second, a third and a fourth switch terminals, whereinthe first switch terminal is connected to the second coupler terminal of said 1×
2 optical directional coupler, a test beam Generated by said OTDR is inputted into the second switch terminal, and the third switch terminal is connected to the third coupler terminal of said 1×
2 optical directional coupler and the fourth switch terminal is connected to the transmission cable;
wherein during the normal signal transmission mode, said first switch terminal and second switch terminal are both optically connected to said fourth switch terminal, and a switch over operation is performed by optically connecting said first switch terminal to said third switch terminal, and optically connecting said second switch terminal to said fourth switch terminal.
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Accused Products
Abstract
A testing apparatus is presented which evaluates the performance of optical signal transmissions in the 1.3 μm wavelength region, independently or simultaneously with signal transmission. An optical signal is transmitted in the network→user direction in a thermo-optic (TO) switch 11, and the signal is also looped in the direction A of an optical directional coupler 3. An optical time domain reflectometer (OTDR) 10 Generates a test beam at 1.55 μm wavelength region, which is reflected by a wavelength selective filter 8 back to the OTDR 10 in the user-network direction. The apparatus is thus able to perform testing of the transmission cable 7 simultaneously with the signal transmission. When an operating problem is to be pinpointed in the system, the optical switch 11 is switched so as to permit the signal from a line terminal LT 1 to transmit in the network→user direction. The signal is attenuated by the same magnitude as the loss budget between the terminals NT 9 and LT1, and is looped back to LT 1, thereby enabling Loop 1 testing at the same signal strength level as in the actual signal transmission.
49 Citations
20 Claims
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1. An apparatus for evaluating the performance of a single cable bi-directional optical transmission system operating in a directional division multiplexing (DDM) mode, said system operating an optical signal transmission cable Joining a line terminal and a network terminal, and transmitting an optical signal in a first wavelength region;
- said apparatus having;
(a) an optical time domain reflectometer (OTDR) operating a test beam in a second wavelength region; (b) a 1×
2 optical directional coupler provided with a first, a second, and a third coupler terminals;
wherein the coupling ratio is chosen so that the insertion loss between the first coupler terminal and the second coupler terminal is design to be low, and the insertion loss between the third coupler terminal and the first coupler terminal is designed to be slightly less than twice the loss budget between the line terminal and the network terminal, and wherein the first coupler terminal is connected to the user-side of the line terminal; and(c) a 2×
2 optical switch having;a first, a second, a third and a fourth switch terminals, wherein the first switch terminal is connected to the second coupler terminal of said 1×
2 optical directional coupler, a test beam Generated by said OTDR is inputted into the second switch terminal, and the third switch terminal is connected to the third coupler terminal of said 1×
2 optical directional coupler and the fourth switch terminal is connected to the transmission cable;wherein during the normal signal transmission mode, said first switch terminal and second switch terminal are both optically connected to said fourth switch terminal, and a switch over operation is performed by optically connecting said first switch terminal to said third switch terminal, and optically connecting said second switch terminal to said fourth switch terminal. - View Dependent Claims (2, 9, 10)
- said apparatus having;
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3. An apparatus for evaluating the performance of a two cable bi-directional optical transmission system operating in a space division multiplexing (SDM) mode, said system operating an optical signal transmission cable joining a line terminal and a network terminal, and transmitting cable joining a line terminal and a network terminal, and transmitting an optical signal in a first wavelength region;
- said apparatus having;
(a) an optical time domain reflectometer (OTDR) generating a test beam in a second wavelength region; (b) a first 2×
2 optical switch having;
a first, a second, a third and a fourth switch terminals, wherein during the normal signal transmission mode, the first and the second switch terminals are both optically connected to the fourth switch terminal, and in a switch over mode, the first and the second switch terminals are connected optically to the third and the fourth switch terminals, respectively, and a test beam generated by said OTDR is inputted into the second switch terminal, and the first switch terminal is connected to an optical transmitter (OS) of said line terminal and the fourth switch terminal is connected to opposite end of the optical signal transmission cable connected to said network terminal;(c) a second 2×
2 optical switch having;a first, a second, a third, and fourth switch terminals, and wherein in the normal signal transmission mode, the first and second switch terminals are both optically connected to the fourth switch terminal, and during a switch over mode, the first and second switch terminals are, respectively, connected optically to the third and fourth switch terminals, respectively, wherein a test beam generated by said OTDR is inputted into the second switch terminal, and the first switch terminal is connected to an optical receiver (OR) terminal of said line terminal and the fourth switch terminal is connected to the transmission cable; (d) an optical attenuator inserted between the third switch terminal of said first 2×
2 optical switch and the third switch terminal of said second 2×
2 optical switch;
said attenuator generating an attenuation magnitude which is slightly smaller than the signal attenuation in the transmission line between said line terminal and network terminal. - View Dependent Claims (4, 13, 14, 17, 18)
- said apparatus having;
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5. An apparatus for evaluating the performance of a single cable bi-directional optical transmission system operating in a directional division multiplexing (DDM) mode, said system operating an optical signal transmission cable joining a line terminal and a network terminal, and transmitting an optical signal in a first wavelength region;
- said apparatus includes;
(a) a 1×
2 optical directional coupler provided with a first, a second and a third coupler terminals wherein the first coupler terminal is connected to a network-side of said network terminal;
said directional coupler havinga coupling ration chosen so that the insertion loss between the first and second coupler terminals is designed to be low, and the insertion loss between the first and third coupler terminals is designed to be slightly less than twice the budget loss between the line terminal and the network terminal, and (b) a 1×
2 optical switch having a first, a third, and a fourth switch terminal;
whereinthe first switch terminal is connected to said second coupler terminal of said 1×
2 optical directional coupler, and the third switch terminal is connected to said third coupler terminal of said 1×
2 optical directional coupler and said fourth switch terminal is connected to the end of the opposite side of the line terminal;
wherein during the normal signal transmission mode, the first switch terminal is connected optically with the fourth switch terminal, and in a switch over mode, the first switch terminals is optically connected with the third switch terminal. - View Dependent Claims (6, 11, 12)
- said apparatus includes;
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7. An apparatus for performing simultaneous loop back test for a two cable bi-directional optical transmission system operating in a space division multiplexing (SDM) mode, transmitting a signal beam in two cables joining a network terminal and a line terminal;
- said apparatus having;
(a) a first 1×
2 optical switch having;
a first, a second, a third, and a fourth switch terminals;
wherein;
in a normal signal transmission mode, the first switch terminal is optically connected to the fourth switch terminal, and in a switch over mode, the first switch terminal is connected optically to the third switch terminal, and said first switch terminal is connected to an optical transmitter (OS) of said network terminal, and said fourth switch terminal is connected to the transmission cable;(b) a second 1×
2 optical switch having;a first, a second, a third, and a fourth switch terminals;
wherein, in a normal signal transmission mode, the first switch terminal is connected optically to the fourth switch terminal, and in a switch over mode, the first switch terminal is connected optically to the third switch terminal, and the first switch terminal is connected to an optical receiver (OR) of said network terminal and said fourth switch terminal is connected to the transmission cable; and(c) an optical attenuator inserted between the third switch terminal of said first 1×
2 optical switch and said third switch terminal of said second 1×
2 optical switch;
said attenuator generating an attenuation whose magnitude is slightly smaller than the loss budget in the transmission cable between said line terminal and the network terminal. - View Dependent Claims (8, 15, 16, 19, 20)
- said apparatus having;
Specification