JP2024060248A - Signal transmission systems and units - Google Patents

Abstract

[Problem] By adding Unit 1 and Unit 2 to multiple existing products that are not compatible with CWDM, the signals can be converted to CWDM-compatible optical signals, reducing the number of wiring to a single optical fiber.
[Solution] Assuming that two different electrical signals are transmitted from a terminal, electrical signal a is transmitted from terminal A to 1*9 optical module A, converted to non-CWDM compatible optical signal a, and transmitted to unit 1. Electrical signal c is transmitted from terminal B to 1*9 optical module B, converted to non-CWDM compatible optical signal c, and transmitted to unit 1. Unit 1 is composed of 1*9 optical module C, 1*9 optical module D, SFP optical module A, SFP optical module B, and multiplexer/demultiplexer A, and solves the problem by enabling transmission over a single optical fiber through multiplexing.
[Selected Figure] Figure 1

Description

The present invention is a multiplexed system for high-speed communications using CWDM.

When transmitting two different electrical signals over optical fiber using existing products, the optical fiber has two cores. When transmitting two different electrical signals over a single-core optical fiber, it is common to use a multiplexer/demultiplexer to multiplex and transmit the optical signals.
However, if the existing product does not support CWDM, it is difficult to multiplex and transmit over a single optical fiber.

Patent Publication No. 2004-228858 Patent Publication No. 2003-283463

The present invention aims to provide a multiplexing device that can solve the following problems.
Even if the existing product does not support CWDM, it will be possible to multiplex and transmit over a single optical fiber.

The explanation will be given using Figures 1 and 2. In a case where a non-CWDM compatible optical signal is transmitted between terminals, it is assumed that electrical signals are transmitted from terminals A and B to terminals C and D, respectively. Electrical signal a is transmitted from terminal A to 1*9 optical module A, and electrical signal c is transmitted from terminal B to 1*9 optical module B, and non-CWDM compatible optical signals are transmitted from 1*9 optical module A and 1*9 optical module B to unit 1.

At this time, unit 1 is composed of 1*9 optical module C, 1*9 optical module D, SFP optical module A, SFP optical module B, and multiplexer/demultiplexer A.
Non-CWDM compatible optical signal a is transmitted to 1*9 optical module C, and an electrical signal is transmitted from 1*9 optical module C to SFP optical module A. At that time, the electrical signal is waveform shaped. Meanwhile, non-CWDM compatible optical signal c is transmitted to 1*9 optical module D, and an electrical signal is transmitted from 1*9 optical module D to SFP optical module B. At that time, the electrical signal is waveform shaped. The waveform-shaped electrical signals e and g are transmitted from SFP optical modules A and B to multiplexer/demultiplexer A. The CWDM compatible optical signal is then multiplexed by the multiplexer/demultiplexer and transmitted from unit 1 to unit 2 via a single optical fiber.

At this time, unit 2 is composed of multiplexer/demultiplexer B, SFP optical module C, SFP optical module D, 1*9 optical module E, and 1*9 optical module F.
The CWDM-compatible optical signal transmitted from unit 1 to unit 2 via a single optical fiber is split into CWDM-compatible optical signals e and g by multiplexer/demultiplexer B. CWDM-compatible optical signal e is transmitted to SFP optical module C, and an electrical signal is transmitted from SFP optical module C to 1*9 optical module E. At that time, the electrical signal is waveform-shaped. Meanwhile, CWDM-compatible optical signal g is transmitted to SFP optical module D, and an electrical signal is transmitted from SFP optical module D to 1*9 optical module F. At that time, the electrical signal is waveform-shaped. After that, non-CWDM-compatible optical signals are transmitted from 1*9 optical module E and 1*9 optical module F to 1*9 optical module G and 1*9 optical module H.

Non-CWDM compatible optical signal e is transmitted to 1*9 optical module G and then transmitted to the terminal as an electrical signal. Non-CWDM compatible optical signal g is transmitted to 1*9 optical module H and then transmitted to the terminal as an electrical signal.
In this way, the above problem is solved by transmitting non-CWDM compatible signals over a single optical fiber.

As is clear from the above explanation, even if the existing terminal does not support CWDM, it is possible to multiplex and transmit data over a single optical fiber. This eliminates the hassle of connecting multiple optical fibers.

FIG. 1 is a diagram showing a terminal to a unit 1 according to an embodiment of the present invention. 2 is a diagram showing a transmission from receiving an optical signal through the single optical fiber in FIG. 1 to a terminal. This is a diagram showing the transmission of two non-CWDM optical signals from a terminal through an optical module. This is a diagram showing how the non-CWDM compatible optical signal in Figure 3 is transmitted through a two-core optical fiber, converted into an electrical signal by an optical module, and transmitted to a terminal. Four electrical signals are transmitted from the terminal, converted to CWDM-compatible optical signals by the SFP optical module, and transmitted to the multiplexer/demultiplexer, and the other electrical signal is also converted to a CWDM-compatible optical signal by the SFP optical module and transmitted to the multiplexer/demultiplexer.Then, the signals are multiplexed by the multiplexer/demultiplexer. The signal is multiplexed by the multiplexer/demultiplexer in Figure 5 and transmitted over a single optical fiber, then split by another multiplexer/demultiplexer to become four CWDM-compatible optical signals, which are then converted into electrical signals by the SFP optical module and transmitted to the terminal. Based on the above, this diagram shows that electrical signals are converted to optical signals between terminals, and that it is difficult to multiplex and transmit non-CWDM compatible optical signals over a single optical fiber, even when using a multiplexer/demultiplexer. A figure showing the same meaning as Figure 7. Figures 1 and 2, 3 and 4, 5 and 6, 7 and 8 are enlarged drawings of one circuit in two stages (two parts) to prevent the circuit from becoming difficult to see due to small details.

1: Terminal A, 2: Terminal B, 3: 1*9 optical module A, 4: 1*9 optical module B,
A: Electrical signal a, B: Electrical signal b, C: Electrical signal c, D: Electrical signal d
E: Non-CWDM optical signal a F: Non-CWDM optical signal b
G: Non-CWDM optical signal c H: Non-CWDM optical signal d
5; 1*9 optical module C; 6; 1*9 optical module D;
I: Waveform-shaped electrical signal e J: Waveform-shaped electrical signal f
K: Waveform-shaped electrical signal g L: Waveform-shaped electrical signal h
7: SFP optical module A, 8: SFP optical module B, M: CWDM compatible optical signal a
N: CWDM compatible optical signal b O: CWDM compatible optical signal c
P: CWDM compatible optical signal d 9: Multiplexer/demultiplexer A, 10: Unit 1
Q: Multiplexed optical signal a R: Multiplexed optical signal b
11: Unit 2 12: Multiplexer/demultiplexer B a: CWDM compatible optical signal e
b; CWDM compatible optical signal fc; CWDM compatible optical signal gd; CWDM compatible optical signal h
13: SFP optical module C, 14: SFP optical module D
e: Waveform-shaped electrical signal if: Waveform-shaped electrical signal j
g; Waveform-shaped electrical signal kh; Waveform-shaped electrical signal l
15; 1*9 optical module E, 16; 1*9 optical module F
i: Non-CWDM optical signal ej: Non-CWDM optical signal f
k: Non-CWDM optical signal gl: Non-CWDM optical signal h
17: 1*9 optical module G, 18: 1*9 optical module H, m: electrical signal m
n; electrical signal no; electrical signal op; electrical signal p
19: Terminal C 20: Terminal D
30: Terminal E, 31: Terminal F, 32: Optical module A, 33: Optical module B,
34: Optical module C, 35: Optical module D, 36: Terminal G, 37: Terminal H,
50: Terminal I, 51: Terminal J, 52: SFP optical module E,
53: SFP optical module F; 54: Multiplexer/demultiplexer C; 55: Multiplexer/demultiplexer D;
56: SFP optical module G, 57: SFP optical module H, 58: terminal K,
59; Terminal L,
70: Terminal M; 71: Terminal N; 72: 1*9 optical module e;
73: 1*9 optical module f; 74: multiplexer/demultiplexer E; 75: multiplexer/demultiplexer F;
76: 1*9 optical module g; 77: 1*9 optical module h; 78: terminal O;
79: Terminal P,

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.
1 is a diagram showing the present invention from the terminal to unit 1 (10), where an electrical signal a (A) is transmitted from terminal A (1), and a non-CWDM compatible optical signal a (E) is transmitted by 1*9 optical module A (3). An electrical signal c (C) is transmitted from terminal B (2), and a non-CWDM compatible optical signal c (G) is transmitted by 1*9 optical module B (4).

Unit 1 is composed of 1*9 optical module C (5), 1*9 optical module D (6), SFP optical module A (7), SFP optical module B (8), and multiplexer/demultiplexer A (9). In this example, transmission from the left side uses Tx, and transmission from the right side uses Rx.
When transmitting from the left, the waveform-shaped electrical signal e (I) is transmitted from the 1*9 optical module C to the SFP optical module A (7). The Tx of the SFP optical module A (7) transmits a CWDM-compatible optical signal a (M) with a wavelength of 1470 nm to the multiplexer/demultiplexer A (9). The waveform-shaped electrical signal g (K) is transmitted from the 1*9 optical module D to the SFP optical module B (8). The Tx of the SFP optical module B (8) transmits a CWDM-compatible optical signal c (O) with a wavelength of 1490 nm to the multiplexer/demultiplexer A (9).
When transmitting from the right, the 1510 nm CWDM compatible optical signal b (N) from the multiplexer/demultiplexer A (9) transmits the waveform-shaped electrical signal f from the Rx of the SFP optical module A (7) capable of receiving wavelengths of 1260 to 1620 nm to the 1*9 optical module C (5). The 1530 nm CWDM compatible optical signal d (P) from the multiplexer/demultiplexer A (9) transmits the waveform-shaped electrical signal B from the Rx of the SFP optical module B (7) capable of receiving wavelengths of 1260 to 1620 nm to the 1*9 optical module D (6).

A single optical fiber carrying multiplexed optical signal a (Q) and multiplexed optical signal b (R) is used for transmission between unit 1 (10) and unit 2 (11).
Unit 2 (11) has the same configuration as unit 1 (10), and when transmitting from the left, it transmits a CWDM-compatible optical signal e (a) with a wavelength of 1470 nm from the multiplexer/demultiplexer B (12) to the SFP optical module C (13). The SFP optical module C (13) transmits a waveform-shaped electrical signal i (e) from its Rx, which can receive wavelengths from 1260 to 1620 nm, to the 1*9 optical module E (15). The multiplexer/demultiplexer B (12) transmits a CWDM-compatible optical signal g (c) with a wavelength of 1490 nm to the SFP optical module D (14). The SFP optical module D (14) transmits a waveform-shaped electrical signal K (g) from its Rx, which can receive wavelengths from 1260 to 1620 nm, to the 1*9 optical module F (16).
When transmitting from the right, the 1*9 optical module E (15) transmits a waveform-shaped electrical signal j (f), which is converted to a wavelength of 1510 nm by the SFP optical module C (13) and transmitted as a CWDM-compatible optical signal b (F) to the multiplexer/demultiplexer B (12). The 1*9 optical module F (16) transmits a waveform-shaped electrical signal l (h), which is converted to a wavelength of 1530 nm by the SFP optical module D (14) and transmitted as a CWDM-compatible optical signal h (d) to the multiplexer/demultiplexer B (12).

The diagrams shown in Figures 1 and 2 are for bidirectional transmission from left to right and from right to left.

Claims (5)

In transmission between multiple terminals using optical signals that do not support CWDM,
Electrical signal a is transmitted from terminal A to 1*9 optical module A mounted on the existing product, and electrical signal c is transmitted from terminal B to 1*9 optical module B mounted on the existing product. Non-CWDM optical signals are transmitted from 1*9 optical module A and 1*9 optical module B to unit 1. At this time, unit 1 is composed of 1*9 optical module C, 1*9 optical module D, SFP optical module A, SFP optical module B, and multiplexer/demultiplexer A. Non-CWDM optical signal a is transmitted to 1*9 optical module C, and is transmitted from 1*9 optical module C to SFP optical module A as waveform-shaped electrical signal e. When transmitted from SFP optical module A to multiplexer/demultiplexer A, it is converted to CWDM-compatible optical signal a. Non-CWDM optical signal c is transmitted to 1*9 optical module D, and is transmitted to 1*9 optical module D. The signal is transmitted from the SFP optical module B as a waveform-shaped electrical signal g, and when it is transmitted from the SFP optical module B to the multiplexer/demultiplexer A, it is converted into a CWDM-compatible optical signal c, which is then multiplexed by the multiplexer/demultiplexer A and transmitted over a single optical fiber from unit 1 to unit 2, and then transmitted to the multiplexer/demultiplexer B of unit 2. Unit 2 is composed of the multiplexer/demultiplexer B, SFP optical module C, SFP optical module D, 1*9 module E, and 1*9 module F, and the CWDM-compatible optical signal e is transmitted from the multiplexer/demultiplexer B to the SFP optical module C, and then transmitted from the SFP optical module C to the 1*9 module E as a waveform-shaped electrical signal i. A CWDM-compatible optical signal g is transmitted from the multiplexer/demultiplexer B to the SFP optical module D, and then transmitted from the SFP optical module D to the 1*9 module F as a waveform-shaped electrical signal k. The signal transmitted from unit 2 is a CWDM-incompatible optical signal, the CWDM-incompatible optical signal e transmitted from the 1*9 module E is transmitted to the 1*9 optical module G and transmitted to terminal C as electrical signal m, and the CWDM-incompatible optical signal g transmitted from the 1*9 module F is transmitted to the 1*9 optical module H and transmitted to terminal D as electrical signal o. This transmission device is characterized in that it can transmit between non-CWDM-compatible terminals using a single optical fiber.
In transmission between multiple terminals using optical signals that do not support CWDM,
An electrical signal n is transmitted from terminal C to 1*9 optical module G mounted on an existing product, and an electrical signal p is transmitted from terminal D to 1*9 optical module H mounted on an existing product. An optical signal not compatible with CWDM is transmitted from 1*9 optical module G and 1*9 optical module H to unit 2. At this time, unit 2 is composed of 1*9 optical module E, 1*9 optical module F, SFP optical module C, SFP optical module D, and multiplexer/demultiplexer B. An optical signal not compatible with CWDM f is transmitted to 1*9 optical module E, transmitted from 1*9 optical module E to SFP optical module C as a waveform-shaped electrical signal j, and converted to a CWDM-compatible optical signal f when transmitted from SFP optical module C to multiplexer/demultiplexer B. An optical signal not compatible with CWDM h is transmitted to 1*9 optical module F, and transmitted to 1*9 optical module F. The signal is transmitted from the SFP optical module D as a waveform-shaped electrical signal l, and when transmitted from the SFP optical module D to the multiplexer/demultiplexer B, it is converted into a CWDM-compatible optical signal h, which is multiplexed by the multiplexer/demultiplexer B and transmitted from unit 2 to unit 1 over a single optical fiber, and then transmitted to the multiplexer/demultiplexer A of unit 1. Unit 1 is composed of the multiplexer/demultiplexer A, SFP optical module A and SFP optical module B, 1*9 module C, and 1*9 module D, and the CWDM-compatible optical signal b is transmitted from the multiplexer/demultiplexer A to the SFP optical module A, and then transmitted from the SFP optical module A to the 1*9 module C as a waveform-shaped electrical signal f. A CWDM-compatible optical signal d is transmitted from the multiplexer/demultiplexer A to the SFP optical module B, and then transmitted from the SFP optical module B to the 1*9 module D as a waveform-shaped electrical signal f. The signal transmitted from unit 1 is a non-CWDM compatible optical signal, the non-CWDM compatible optical signal b transmitted from the 1*9 module C is transmitted to the 1*9 optical module A and transmitted to terminal A as electrical signal b, and the non-CWDM compatible optical signal d transmitted from the 1*9 module D is transmitted to the 1*9 optical module B and transmitted to terminal B as electrical signal d, and thus a transmission device capable of transmitting between non-CWDM compatible terminals using a single optical fiber.
A transmission device characterized by its ability to transmit electrical signals from terminal A to terminal C, from terminal B to terminal D, from terminal C to terminal A, and from terminal D to terminal B over a single optical fiber.
A transmission device characterized in that a multiplexer/demultiplexer A, an SFP optical module A and an SFP optical module B, a 1*9 module C, and a 1*9 module D are configured in the same package.
A transmission device characterized in that a 1*9 optical module E, a 1*9 optical module F, an SFP optical module C, an SFP optical module D, and an optical multiplexer/demultiplexer B are configured in the same package.

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