JP2000101281A - High-speed optical fiber holder - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a high-speed optical fiber holder which can prevent disturbing noise and the interference between transmitting devices and receiving devices. SOLUTION: A high-speed optical fiber holder is constituted in such a way that housing chambers 14a-14d, in which receiving devices 11 and transmitting devices 12 are respectively housed, are formed in a case main body 14 having a recessed connecting section 15 into which the connecting end sections of optical fiber cables can be inserted and fixed. The housing chambers 14a and 14d are formed and shielded by plating on the internal surfaces of the chambers 14a-14d.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ATM (asynchronous transfer) which requires high-speed transmission.
The present invention relates to a holder device for an ATM-compatible high-speed optical fiber used for optical communication corresponding to the “er mode”.

[0002]

2. Description of the Related Art In recent years, the development of optical fiber communication networks has been promoted, and the transmission of signals using optical fibers as communication media has become widespread.

[0003] FIG. 6 shows a digital audio (DA).
1 shows an example of an optical fiber cable for o) and an example of a cable holder device. The optical fiber cable 101 shown in FIG. 6 is a single-core optical fiber cable, and one cable end 101a of the optical fiber cable 101 is attached to the receiving side holder device 102, and the optical fiber cable 10
The other end 101b of the cable is attached to the transmission-side holder device 103.

[0004] The receiving side holder device 102 is a case body 1 having a connection concave portion 102a into which one cable end portion 101a of the optical fiber cable 101 can be inserted and fixed.
02b, a PD (photo diode) not shown
e) and a drive IC (integrat) for driving the
ed circuit) or optical IC
Is a receiver containing such a device. In addition, the transmitting side holder device 103 mounts an LED (light emitting dit not shown) on a case main body 103b having a connection concave portion 103a into which the other cable end portion 101b of the optical fiber cable 101 can be inserted and fixed.
(mode) and a drive IC.

The optical signal is transmitted from the transmitting-side holder device 103 to the receiving-side holder device 1 via the optical fiber cable 101.
02 is transmitted in only one direction and the transmission speed is 6M
bps.

[0006] In the DA optical fiber cable 101 used for such relatively low-speed communication, it is not necessary to take special noise measures for the receiving-side holder device 102 and the transmitting-side holder device 103. These case bodies 102b and 103b are formed of a material such as polycarbonate.

[0007]

On the other hand, a holder device for an ATM-compliant optical fiber cable requiring high-speed transmission is a PN connector based on JIS standard F07, which has a hook function and is shielded. Need to be done.

[0008] For example, in full-duplex transmission based on the specification prepared by the ATM Forum, the received light amount is -26.5 dBm.
(For example, HPCF (Hard Polymer)
Clad Fiber), the error occurrence probability is 1 × 10 ⁻¹⁰ in the bit error rate measurement.
(1E-10) or less is required.

FIG. 7 shows an example of an optical fiber cable compatible with ATM and a cable holder device. The optical fiber cable 111 shown in FIG. 7 is a two-core optical fiber cable. At both ends of the optical fiber cable 111, a cable-side connection part 111c for holding a pair of cable end parts 111a and 111b for transmitting and receiving is provided. And
The cable-side connection portion 111c is mounted on the holder device 112.

The holder device 112 includes a cable-side connection portion 111 provided at an end of the optical fiber cable 111.
A receiving device (not shown) composed of a PD and a drive IC and a transmitting device (not shown) composed of an LED and a drive IC are provided in a case main body 112d having a connection concave portion 112c into which c can be inserted and fixed. Is a transceiver that is stored. The connection concave portion 112a has a cable tip portion 111 of the optical fiber cable 111.
A pair of cable insertion portions 11 for inserting and holding a and 111b
2a and 112b are provided.

As described above, since the holder device 112 for the ATM compatible optical fiber cable has both the receiving device and the transmitting device, full-duplex transmission is possible. In this case, the transmission speed of the optical signal is 156 Mbps. High transmission speed.

In such high-speed optical communication, as described above, when the received light amount is −26.5 dBm (for example, when HPCF is used), the error occurrence probability is 1
It is necessary to achieve × 10 ⁻¹⁰ or less, and as a countermeasure for this, it is necessary to prevent disturbance noise and interference between the transmitting device and the receiving device.

The present invention has been devised in order to achieve such a problem, and an error occurrence probability of 1 × 10 ⁻¹⁰ or less (for example, when HPCF is used) at a received light amount of −26.5 dBm is provided. It is an object of the present invention to provide a high-speed optical fiber holder device capable of preventing disturbance noise and interference between a transmitting device and a receiving device.

[0014]

According to the present invention, there is provided a holder device for a high-speed optical fiber, in which a receiving device and a transmitting device are housed in a case body having a connection portion into which a connection end of an optical fiber cable can be inserted and fixed. A receiving device and a transmitting device are respectively stored in the receiving portions, and the receiving device and the transmitting device are stored in the receiving portions, and the receiving portion is shielded by plating the receiving portion. It is a state. Thereby, disturbance noise and interference between the transmitting device and the receiving device can be prevented. That is, a shielding effect can be obtained.

In the holder device for a high-speed optical fiber according to the present invention, a housing for accommodating each of a receiving device and a transmitting device is provided in a case body having a connecting portion capable of inserting and fixing a connecting end of an optical fiber cable. Formed,
A high-speed optical fiber holder device having a structure in which each of the receiving device and the transmitting device is housed in each of the housing portions, wherein the housing portion is shielded by plating the case body. That is, since the entire case body is plated, the shielding effect can be more reliably obtained.

Further, in the holder device for a high-speed optical fiber according to the present invention, in addition to the above configuration, the plated portion formed by the plating process is electrically connected to a substrate for fixing the case body or a ground portion of a device to be mounted. It was done. Thereby, each of the receiving device and the transmitting device is surrounded by the ground portion, and a shielding effect can be obtained.

Further, in the holder device for a high-speed optical fiber according to the present invention, in addition to the above configuration, the metal rod electrically connected to the plating portion formed by the plating process may be protruded from the bottom surface of the case body. The metal rod is electrically connected by soldering to a grounding portion of a substrate for fixing the case body or a grounding portion of a device to be mounted. Thereby, each of the receiving device and the transmitting device is surrounded by the ground portion, and a shielding effect can be obtained.

Further, in the holder device for a high-speed optical fiber according to the present invention, in addition to the above configuration, the case main body is formed of a conductive member. Thereby, the shielding effect by the conductive member is added to the shielding effect by the plated portion formed by the plating process, so that the shielding effect can be further enhanced.

Further, the high-speed optical fiber holder device of the present invention, in addition to the above-mentioned configuration, has a metal plate electrically connected to a grounding portion attached to a part or all of the inner wall of the housing portion. It is. That is, since the shielding effect of the metal plate is added to the shielding effect of the plated portion, the shielding effect can be further enhanced.

[0020]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, an embodiment of a high-speed optical fiber holder device according to the present invention will be described with reference to the drawings.

FIG. 1 is a perspective view showing an embodiment of a high-speed optical fiber holder device according to the present invention.

The holder device 1 is a holder device for an ATM-compatible two-core optical fiber cable. Since the structure of the optical fiber cable connected to the holder device 1 is the same as that shown in FIG. 7, the description will be made using the reference numerals shown in FIG. 7 when necessary. Detailed description is omitted.

The holder device 1 is formed in a substantially rectangular parallelepiped shape, and has an optical fiber cable 111 on one side.
Is formed with a connection recess 15 in which the cable-side connection portion 111c provided at the end of the connection portion can be inserted and fixed. The connection recess 15 is provided with a pair of cable insertion portions 13a and 13b for inserting and holding the cable tip portions 111a and 111b of the optical fiber cable 111.

The case body 14 includes a receiving device 11 composed of a light receiving element 11a such as a PD and an integrated circuit 11b such as a drive IC, and a light emitting element 12a such as an LED and a drive IC for driving the same. Integrated circuit 12
and storage portions 14a to 14d for storing and holding the respective transmission devices 12 composed of the light receiving element 11a, the integrated circuit 11b, the light emitting element 12a, and the integrated circuit 12b. Each device is housed. Each storage section 14a to 14d
Has an opening on the bottom side of the case body 14, and the devices 11a, 11b, 12a, and 12b are inserted into the respective housings 14a to 14d from the opening. The devices 11a, 11b, 12a, and 12b are formed in the same shape, and can be inserted into the storage sections 14a to 14d without play.

In the case body 14 having the above-described structure, in the present embodiment, as shown by hatching in the drawing, a plating portion is formed by applying plating to each of the storage portions 14a to 14d, and each of the storage portions 14a to 14d is formed. The portions 14a to 14d are in a shielded state to form a shield box.

With this configuration, disturbance noise can be cut off by the shield box, interference between the transmitting device 11 and the receiving device 12 can be prevented, and when the received light amount is −26.5 dBm (for example, H
Error occurrence probability 1 × 1 (when PCF is used)
0 it is possible to achieve a ^-10 or less.

In addition to the storage sections 14a to 14d,
As shown by oblique lines in FIG. 2, a plating portion may be formed by plating the surface of the case main body 14, the case main body 14 may be in a shield state, and a shield box may be formed.

With this configuration, the storage portions 14a to 14a-1
4d and the shield box formed on the case main body 14 can block disturbance noise, so that the received light amount-26.
At 5 dBm (for example, when HPCF is used), an error occurrence probability of 1 × 10 ⁻¹⁰ or less can be achieved.

Also, if a part or the whole of the plated part shown by oblique lines in FIGS. 1 and 2 is electrically connected to the ground part (GND) of the substrate to which the holder device 1 is fixed, the receiving device 11 , And the light emitting element 12a and the integrated circuit 12b forming the transmitting device 12 can be surrounded by the grounding portion, and the plating portion can block noise.

Hereinafter, such a holder device will be described with reference to FIGS. 3 and 4. FIG.

FIG. 3 is a perspective view showing another embodiment of the high-speed optical fiber holder device of the present invention, and FIG. 4 is an explanatory diagram showing a procedure for fixing the holder device shown in FIG. 3 to a substrate. is there.

This holder device 1 is, for example, one in which a metal rod 3 is disposed on the holder device 1 shown in FIG. One end of the metal rod 3 is electrically connected to a shield box formed in the storage portions 14 a to 14 d and a shield box formed in the case main body 14, and the other end is formed on the bottom surface of the main body case 14. It is arranged in a state of protruding from.

In order to fix the holder device 1 to the substrate 2, first, the holder device 1 is placed on the upper surface of the substrate 2 in which a hole (not shown) for inserting the metal rod 3 is provided in advance (FIG. 4).
(See (a)). At this time, the holder body 1 is placed so that the case body thereof comes into contact with the ground part 2 a of the substrate 2. Next, the metal bar 3 protruding from the lower surface of the substrate 2 is soldered to the lower surface of the substrate 2 (see FIG. 4B).

With such a configuration, the storage unit 1
The shield boxes formed in 4a to 14d and the shield box formed in case main body 14 can be electrically connected to ground portion 2a of substrate 2. That is, the light receiving element 11a and the integrated circuit 1 that constitute the receiving device 11
1b, the light emitting element 12a and the integrated circuit 12b that constitute the transmission device 12 can be surrounded by the grounding portion, and noise can be cut off. Note that one end of the metal rod 3 may be electrically connected to a shield box formed in the storage sections 14 a to 14 d or a shield box formed in the case body 14. The grounding part for electrically connecting the plating part is not limited to the grounding part 2a of the substrate 2 to which the holder device 1 is fixed.
May be electrically connected to the grounding part of the device to which the device is mounted, and the same effect can be obtained.

On the other hand, the thickness of the plated portion is such that the ground portion 2a of the substrate 2 to which the holder device 1 is fixed or the ground portion of the device to which the holder device 1 is mounted, and the plated portion have sufficiently the same potential. That's fine.

The case body 14 may be formed of a member having conductivity (hereinafter, simply referred to as “conductive member”). With this configuration, in addition to the shielding effect of the plated portion, the shielding effect of the conductive member can be obtained, and the shielding effect can be enhanced.

Further, a metal plate may be attached to part or all of the inner walls of the storage portions 14a to 14d. FIG. 5 shows a holder device in which the metal plate 4 is adhered to all the inner walls of the storage sections 14a to 14d. With this configuration, in addition to the shielding effect of the plated portion, the shielding effect of the metal plate 4 can be obtained, and the shielding effect can be enhanced.

[0038]

According to the holder device for a high-speed optical fiber of the present invention, the receiving device and the transmitting device are stored in the case body having the connecting portion into which the connecting end of the optical fiber cable can be inserted and fixed. A high-speed optical fiber holder device having a structure in which the receiving device and the transmitting device are stored in these storage portions, respectively, wherein the storage portion is shielded by plating the storage portion. It was done. Thereby, disturbance noise and interference between the transmitting device and the receiving device can be prevented. That is, a shielding effect can be obtained.

In the holder device for a high-speed optical fiber according to the present invention, a housing body for accommodating each of the receiving device and the transmitting device is provided in a case body having a connecting portion capable of inserting and fixing the connecting end of the optical fiber cable. Formed,
A high-speed optical fiber holder device having a structure in which each of the receiving device and the transmitting device is housed in each of the housing portions, wherein the housing portion is shielded by plating the case body. That is, since the entire case body is plated, the shielding effect can be more reliably obtained.

In the holder device for a high-speed optical fiber according to the present invention, in addition to the above configuration, the plated portion formed by the plating process is electrically connected to a substrate for fixing the case body or a ground portion of a device to be mounted. It was done. Thereby, each of the receiving device and the transmitting device is surrounded by the ground portion, and a shielding effect can be obtained.

Further, in the holder device for a high-speed optical fiber according to the present invention, in addition to the above-described configuration, the metal rod electrically connected to the plating portion formed by the plating process may be protruded from the bottom surface of the case body. The metal rod is electrically connected by soldering to a grounding portion of a substrate for fixing the case body or a grounding portion of a device to be mounted. Thereby, each of the receiving device and the transmitting device is surrounded by the ground portion, and a shielding effect can be obtained.

Further, in the holder device for a high-speed optical fiber according to the present invention, in addition to the above configuration, the case main body is formed of a conductive member. Thereby, the shielding effect by the conductive member is added to the shielding effect by the plated portion formed by the plating process, so that the shielding effect can be further enhanced.

The high-speed optical fiber holder device according to the present invention may further comprise a metal plate electrically connected to a grounding portion attached to a part or all of an inner wall of the housing portion, in addition to the above configuration. It is. That is, since the shielding effect of the metal plate is added to the shielding effect of the plated portion, the shielding effect can be further enhanced.

[Brief description of the drawings]

FIG. 1 is a perspective view showing an embodiment of a high-speed optical fiber holder device of the present invention.

FIG. 2 is a perspective view showing another embodiment of the high-speed optical fiber holder device of the present invention.

FIG. 3 is a perspective view showing still another embodiment of the high-speed optical fiber holder device of the present invention.

FIG. 4 is an explanatory view showing a procedure for fixing the holder device shown in FIG. 3 to a substrate.

FIG. 5 is a cross-sectional view showing still another embodiment of the high-speed optical fiber holder device of the present invention.

FIG. 6 is a perspective view showing an example of a DA optical fiber cable and a conventional optical fiber cable holder device.

FIG. 7 is a perspective view showing another example of an ATM compatible optical fiber cable and a conventional holder device for an optical fiber cable.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Holder apparatus 11 Receiving device 11a Light receiving element 11b Integrated circuit 12 Transmitting device 12a Light emitting element 12b Integrated circuit 13a, 13b Cable insertion part 14 Case main body 14a, 14b, 14c, 14d Storage part 15 Connection recessed part 2 Substrate 2a Ground part 3 Metal rod 4 Metal plate

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H04B 10/135 10/13 10/12 F term (Reference) 2H037 AA01 BA02 BA11 DA03 DA04 DA06 DA35 DA40 5E321 AA01 BB23 CC09 CC12 GG01 GG05 GG09 5F073 BA02 5F088 AA01 BB01 JA14 LA01 5K002 AA07 BA14 BA31 CA02 FA01

Claims (6)

[Claims] An enclosure for accommodating each of a receiving device and a transmitting device is formed in a case body having a connection portion into which a connection end of an optical fiber cable can be inserted and fixed. A high-speed optical fiber holder device having a structure in which each of the transmission devices is stored, wherein the storage portion is shielded by plating the inside of the storage portion. 2. A case body for receiving a receiving device and a transmitting device is formed in a case body having a connecting portion into which a connecting end of an optical fiber cable can be inserted and fixed, and the receiving device and the transmitting device are formed in these housing portions. A high-speed optical fiber holder device having a structure in which each of the transmission devices is stored, wherein the storage portion is shielded by plating the case body. 3. The holder device for a high-speed optical fiber according to claim 1, wherein the plated portion formed by the plating process is electrically connected to a substrate for fixing the case body or a ground portion of a device to be mounted. . 4. A metal rod electrically connected to a plating portion formed by the plating process is provided so as to protrude from a bottom surface of the case main body, and the metal rod is provided on a substrate for fixing the case main body. 3. The holder device for a high-speed optical fiber according to claim 1, wherein the holder device is electrically connected to a ground portion or a ground portion of a device to be mounted by soldering. 5. The high-speed optical fiber holder device according to claim 1, wherein said case body is formed of a conductive member. 6. A part or all of an inner wall of the storage part,
6. The holder device for a high-speed optical fiber according to claim 1, wherein a metal plate electrically connected to the grounding portion is attached.