Optical Cable and Accessory for TV Camera

Furukawa’s Optical Cable and Accessory for
TV Camera Supporting
”Digital Broadcasting”and
”High-Definition TV Broadcasting”
s.
s
e
r
g
o
r
p
able
k
r
a
m
e
r
ade
en
e
m
b
s
s
a
a
h
h
e
y
l
cab
bilit
a
e
t
d
i
mm.
n
s
5
e
o
1
b
p
f
d
o
m
e
o
s
z
c
i
u
xim
radi
a
g
m
n
Optical
i
h
d
t
i
n
w
e
mb
u
fiber
l
m
ory
i
a
s
c
n
s
i
i
t
e
m
p
c
o
c
a
A
g
An
and
lizin
e
a
l
e
b
r
a
d
C
e
l
z
i
a
standard TV Camera Optic s.
e
's
a
m
i
t
w
a
e
k
h
t
u
r
f
Fu
ad o
e
h
a
d
e
c
n
has adva
2
Optical Composite Cable for TV Camera (Page 6~9, Page 16~17)
High-quality, high-durability products are achieved from our expertise in
designing and manufacturing world-class quality optical fibers and mobile
equipment cables such as robot cables. The wide array of cable products
in compliance with ARIB*1) and SMPTE*2) standards as well as Furukawa
standard strongly support the customers.
Connector Assembly (Page 10~15)
High reliability is always pursued in connector assemblies as much as for
cables. Development of those for mobile equipment is also aimed at high
durability.
Optical Cable for Information Transmission (Page 18)
Based on the expertise of Furukawa Electric in both optical transmission
and mobile equipment, various multi-fiber optical cables and multi-core
cables have been developed. These high-reliability optical cables for
information transmission with excellent flexibility are based on our
expertise in TV camera cables.
Installation Part (Page 19~27)
A variety of junction boxes with superior workability and compactness are
being developed based on our extensive experience in cable installation.
Panel-integrated optical joint box is one example of the products resulting
from Furukawa's proprietary technology.
Technical Information (Page 28)
Technical information on the basic characteristics of optical fiber and
optical composite cable for TV camera is provided in this Section together
with brief description of technical terms which may be heard frequently.
Technical Reference (Page 29~30)
Brief description is given for work flow from cable laying to finish jointing.
In addition, the methods for testing and confirming the completed cable
system are presented.
*1) ARIB stands for Association of Radio Industries and Businesses.
*2) SMPTE stands for The Society of Motion Picture and Television Engineers.
3
Optical Cable and Accessory for TV Camera
An installation example of a TV camera cable and accessory in stadium
is shown here. Optical composite cables for TV cameras are used to
connect different camera positions around the field with the arrayed
terminal board on the relay mobile. Employment of an optical cable
and accessory for TV camera enables real-time transmission of highquality information.
Connector-Terminated Cable
(P.10~11)
C5
Optical Composite Cable for TV Camera
(P.6~9, 16~17)
C4
C5
C4
Connector Assembly
(P.15~18)
C3
C6
Installation Part
(P.19~25)
C6
C3
Connector Assembly
(P.12~15)
C1 C2 C3
C4 C5 C6
Installation Part
Connector Assembly
(P.19~25)
(P.12~15)
Design and Execution
of Installation Work
(P.29~30)
C1
TV
C2
C1
Termination Box
(P.19~25)
C2
Optical Composite Cable for TV Camera
(P.6~9, 16~17)
An installation example of a TV camera cable and accessory in a
studio is shown here. Camera positions around the studio are
connected with the sub control room using optical composite
cables for TV camera. When patch panel is provided, all kinds of
video images on different channels become available. Employment
of an optical cable and accessory for TV camera enables real-time
transmission of high-quality information.
Base Station
C1 C2 C3
Base Station
C4 C5 C6
Optical Composite Cable for TV Camera
(P.6~9, 16~17)
C2
Connector-Terminated Cable
(P.10~11)
C1
C4
Connector-Terminated Cable
(P.10~11)
C3
Installation Part
(P.12~13, 19~20)
C1 C2 C3
C4 C5 C6
Camera Terminal Board
4
Configuration of Optical Composite Cable for TV Camera
Pattern 1
● Design of the cable with panel mounting connectors.
Optical composite cable for TV camera
Cable with flanged connector
Cable with flanged connector
Pattern 2
● Design of the solution with break out connector and JJ adapter.
optical connector of SC type
J/J
adapter
Connector assembly
J/J
adapter
Receptacle
Optical composite
cable for TV camera
Connector assembly
Pattern 3
● Design of the solution by FOP unit or fusion splicing unit.
FOP unit
FOP unit
J/J
adapter
J/J
adapter
Fusion spliced point
(Fusion splicer)
Optical composite
cable for TV camera
Pattern1
Pattern2
Pattern3
Initial Install cost
◦
△
╳
Initial Install time
◦
◦
△
Cabling by cable ladder
◦
◦
◦
Cabling by Free-access floor
◦
◦
◦
Cabling by cable pipe
╳
╳
◦
Cabling for short length
◦
◦
◦
Cabling for long length
╳
╳
◦
Maintenance cost after install
╳
◦
◦
Remarks
It is up to around 30m
Easy to change the connector
◦ Good
△ Fair
╳ Poor
5
Optical Composite Cable for TV Camera (Japan Standard: ARIB)
Type: 2SM-9.2-37.5
Type: 2SM-16-37.5
Description
This composite cable integrates power line for TV
camera, control line, and optical fiber for video and
audio transmission. The cable is standardized by ARIB
as a cable for TV camera.
*The cable diameter can be changed as requested by using a double
sheath.
*The cable is available in two kinds: mobile cable for use in studios or
relay fields; and static cable for use in fixed installation.
Specifications
●Structure
3
5
Outer sheath
5
6
1
6
Core number
Optical fiber
1
Power line
2
Control line
2
3
Binding tape
4
5
2
5
6
1
Shield
Sheath
6
4
2SM-9.2-37.5
● Optical fiber
Condition Characteristics
Transmission
loss
λ=1.31µm
Item
Type of fiber
Mode field diameter
Clad diameter
Amount of eccentricity
Cutoff wavelength
Coated outside diameter
0.5dB/km≥
Conversion
Condition (km)
Formula
L≥0.4
0.5xLdB≥
L<0.4
0.5x0.4dB≥
Description
Single-mode silica fiber
125±1µm
1.10~1.35µm
0.9±0.1mm
● Power line
Item
Characteristics
37.5Ω /km
Insulation resistance
10,000MΩ·km
AC1,000V/1min.
● Control line
Item
113Ω/km
Insulation resistance
10,000MΩ·km
AC1,000V/1min.
*ARIB stands for Association of Radio Industries and Businesses.
6
Blue
Red
Green
Black
White
● Cable (integrated)
Item
Optical fiber
Power
line
Type
Conductor
Insulation thickness
Control Conductor
line
Insulation thickness
Strength member
Core stranding
Shield
Sheath (Pb-free)
Approximate mass
2SM-9.2-37.5
2SM-16-37.5
See Table on the left See Table on the left
Tin-plated soft copper wire strand
(21wire/0.18mm)
0.4mm nominal
Tin-plated soft copper wire strand
(7wire/0.18mm)
0.3mm nominal
Steel wire: 1.8mm
Sheath outside diameter: 2.5mm
Two cores of optical fiber, four cores of
power line and two cores of control line are
stranded around a strength member
Tin-plated soft copper wire braid
Abrasion-resistant
Abrasion-resistant
sheath
sheath (double)
16.0±0.5mm
9.2±0.3mm nominal
nominal
120kg/km nominal
270kg/km nominal
Operating temp.
-20°C ~ 60°C
Note : E CO specification cables (type EM-) are also available exclusively for fixed
installation.
● Mechanical characteristics
Characteristics
Conductor resistance
Withstand voltage
Yellow
Power line
Finished outside diameter
Conductor resistance
Withstand voltage
5
9.0±1µm
1µm or less
Core color
Control line
4
6
2SM-16-37.5
Core name
Optical fiber
3
Strength member
Item
Applications
■ Multipurpose cable: 2SM-9.2-37.5
This cable is suitable for wide applications such as fixed
installation in facilities, relay cable, handy camera cable and
patch cable.
■ Large-camera cable in studio: 2SM-16-37.5
This is a cable for large-sized TV cameras in studios. The cable
has a larger outside diameter due to the additional sheath on a
multipurpose cable in order not to be jammed between the
camera pedestal dolly and the floor in studios.
Item
Allowable tension
Allowable bending radius
Characteristics
700N
Six times the cable outside diameter or larger
Optical Composite Cable for TV Camera (U.S. Standard: SMPTE)
Type: TV-OM-AMS
Type: TV-OM-SAMS
Description
This composite cable integrates power line for TV
camera, control line, and optical fiber for video and
audio transmission. The cable is standardized by
SMPTE as a cable for TV camera.
*The cable diameter can be changed as requested by using a double
sheath.
Specifications
●Structure
Outer sheath
Optical fiber
Core number
Power line
3
5
Control line
1
5
6
2
6
3
Binding tape
4
Applications
■ Multipurpose cable: TV-OM-AMS
This cable is suitable for wide applications such as fixed
installation in facilities, relay cable, handy camera cable and
patch cable.
■ Multipurpose cable: TV-OM-HAMS, TV-OM-SAMS
This is a cable for large-sized TV cameras in studios. The cable
has a larger outside diameter due to the additional sheath on a
multipurpose cable in order not to be jammed between the
camera pedestal dolly and the floor in studios.
5
1
1
5
2
Sheath
6
3
5
TV-OM-AMS
TV-OM-SAMS
● Optical fiber
Item
Condition Characteristics
Transmission
loss
λ=1.31µm
Item
Type of fiber
0.5dB/km≥
Conversion
Condition (km)
Formula
L≥0.4
0.5xLdB≥
L<0.4
0.5x0.4dB≥
Description
Single-mode fiber
Mode field diameter
9.0±1µm
Clad diameter
125±1µm
Amount of eccentricity
Cutoff wavelength
Coated outside diameter
1µm or less
1.10~1.35µm
0.9±0.1mm
Item
Conductor resistance
Insulation resistance
Withstand voltage
Characteristics
37.5Ω/km
10,000MΩ·km
AC1,750V/1min.
● Control line
Item
Conductor resistance
Insulation resistance
Withstand voltage
Black
White
● Cable (integrated)
Item
Optical fiber
Power
line
Control
line
Type
TV-OM-AMS
Tin-plated soft copper wire strand
(21wire/0.18mm)
Insulation thickness
0.4mm nominal
Tin-plated soft copper wire strand
(7wire/0.203mm)
Conductor
Insulation thickness
Strength member
Core stranding
Shield
Finished outside diameter
Approximate mass
0.33mm nominal
Steel wire: 1.8mm
Sheath outside diameter: 2.5mm
Two cores of optical fiber, four cores of power
line and two cores of control line are stranded
around a strength member
Tin-plated soft copper wire braid
Abrasion-resistant
Abrasion-resistant
sheath
sheath (double)
9.2±0.3mm nominal
16±0.5mm nominal
120kg/km nominal
Operating temp.
113Ω/km
270kg/km nominal
-20°C ~ 75°C
● Mechanical characteristics
Item
Characteristics
TV-OM-SAMS
See Table on the left
Conductor
Sheath (Pb-free)
● Power line
Red
Gray
Power line
6
Strength member
Blue
Yellow
Control line
4
4
Core color
Optical fiber
2
6
Shield
Core name
Characteristics
Allowable tension
Allowable bending radius
700N
Six times the cable outside diameter or larger
10,000MΩ·km
AC1,750V/1min.
*SMPTE stands for The Society of Motion Picture and Television Engineers.
*These cables meet SMPTE311M.
(TV-OM-AMS : AWM21480)
7
Optical Composite Cable for TV Camera (For Fixed Cabling)
Type: 2SM-6.8-98.3
Type: TV-OM-FAMS
Description
TV-OM-FAMS and 2SM-6.8-98.3
Performs a small diameter cable, and with improved
portability and operability. (Cable OD: Φ6.8)
Specifications
●Structure
Intervention
5
2
3
6
Binding tape
5
Shield
Sheath
6
Power line
● Optical fiber
Type of fiber
Characteristics
0.5dB/km≥
Condition (km)
Formula
L≥0.4
0.5xLdB≥
L<0.4
0.5x0.4dB≥
Type
Item
Optical fiber core
Conductor
Description
Single-mode fiber
Mode field diameter
9.0±1µm
Clad diameter
125±1µm
Amount of eccentricity
Cutoff wavelength
Coated outside diameter
Blue
Gray
Green
Red
Red
Black
Black
White
White
1µm or less
Control line
0.6mm nominal
Conductor
Insulation
thickness
Strength member
Core stranding
0.6mm nominal
Steel wire: 1.2mm
Sheath outside diameter: 1.8mm
Two cores of optical fiber, two cores of
power line and two cores of control line
are stranded around a strength member
Tin-plated soft copper wire braid
Abrasion-resistant Sheath
Finished outside diameter
6.8±0.3mm nominal
Approximate mass
● Power line
2SM-6.8-98.3
See Table on the left
Tin-plated soft copper wire strand
(18wire/0.12mm)
Tin-plated soft copper wire strand
(18wire /0.12mm)
1.10~1.35µm
0.9±0.1mm
TV-OM-FAMS
Sheath (Pb-free)
8
Yellow
Yellow
Insulation
thickness
Shield
Item
Conductor resistance
Insulation resistance
Withstand voltage
2SM-6.8-98.3
Blue
● Cable (integrated)
Conversion
Power line
Item
TV-OM-FAMS
Intervention string
TV-OM-FAMS
2SM-6.8-98.3
λ=1.31µm
Control line
4
3
Cable type
Optical fiber
2
Control line
1
Core name
1
Optical fiber
4
Transmission
loss
Characteristics
98.3Ω/km
2,500MΩ·km
AC500V/1min.
Core color
Strength
member
Condition
Item
Conductor resistance
Insulation resistance
Withstand voltage
Core number
Power line
Item
● Control line
65kg/km nominal
● Mechanical characteristics
Characteristics
98.3Ω/km
2,500MΩ·km
AC500V/1min.
Item
Allowable tension
Allowable bending radius
Characteristics
490N
Six times the cable outside diameter or larger
Optical Composite Cable for TV Camera (Furukawa Standard)
Optical Composite Cable for TV Camera
Description
These are reduced-diameter cables and twist-resistant cables for high definition (HD) video signal transmission.
A variety of cables are available including multi-core cables based on Furukawa's original design.
Outside
diameter
(mm)
Product number
Tensile Power line Control line Transmission
Mass
strength resistance resistance
distance
(kg/km)
(N)
(Ω/km)
(Ω/km)
(m)
Remarks
TV-OM-HAMS
12.0
150
700
37.5
113.0
2,000
Double Sheeth
TV-OM-AMS(PE) (PE double sheathed)
12.2
155
700
37.5
113.0
2,000
For fixed installation, lightly water-proof
TV-OM-AMS(LAP)
12.8
190
700
37.5
113.0
2,000
For fixed installation, lightly water-proof
2SM-12-37.5
12.0
180
700
37.5
113.0
2,000
Double Sheeth
9.2
120
700
37.5
113.0
2,000
Cold latitudes use (-40°C)
2SM-9.2-37.5 (PE) (PE double sheathed)
12.2
150
700
37.5
113.0
2,000
For fixed installation, lightly water-proof
2SM-9.2-37.5(LAP)
12.8
190
700
37.5
113.0
2,000
For fixed installation, lightly water-proof
2SM-9.2-37.5 (H)
● Composite Cable with Power Line for Crane
Product number
2SM-9.2-37.5 (with power line for crane)
Outside
diameter
(mm)
15.5
Tensile Power line Control line Transmission
Mass
strength resistance resistance
distance
(kg/km)
(N)
(Ω/km)
(Ω/km)
(m)
320
700
37.5
113.0
2,000
Remarks
2
Power line for crane: 0.52mm x 20wire
Power line for crane (black, white)
Outer sheath
2SM-9.2-37.5
Optical fiber (yellow, blue)
Power line (black, white)
Strength member
Control line (red, green)
Binding tape
Braid
Sheath
2SM-9.2-37.5 (with power line for crane)
●Multi-Core Cable
2SM Series
Outer sheath
Product number
2SM-9.2-37.5
3×2SM-9.2-37.5
5×2SM-9.2-37.5
Mass
(kg/km)
Transmission
distance
(m)
2,000
3×2SM-9.2-37.5
23.0
3×2SM-6.8-98.3
16.8
270
300
5×2SM-9.2-37.5
30.2
1,120
2,000
5×2SM-6.8-98.3
23.2
575
300
450
AMS Series
Product number
OPS series are products of TAJIMI ELECTRONICS CO., LTD.
Outside
diameter (mm)
Outside
diameter (mm)
Mass
(kg/km)
Transmission
distance
(m)
2,000
3×TV-OM-AMS
23.0
3×TV-OM-FAMS
16.8
270
300
5×TV-OM-AMS
30.2
1,120
2,000
5×TV-OM-FAMS
23.2
575
300
450
9
Connector Assembly
Connector-Terminated Cable
Description This cable assembly connects power lines, control lines, and optical fibers. It should be noted that
they are not compatible with each other. Refer to "Selection Table of Connector and Cable" on the
next page, since each connector has its own attachable cables.
3K series (ARIB and SMPTE standards)
■ Multipurpose cable
>
φ28
<Type:FUW-SUS#/AMS****/PUW-SUS
φ24
155
150
FUW Plug
PUW Socket
31
27
■ Cable for large-sized studio camera
<Type:FUW-SUS#( )/SAMS****/PUW-SUS
( )>
Stair-like removal of outer sheath is needed for 3K type connector of large-sized
studio camera. Please order with the indication of length for removal sheath
more than 400mm.
Customer specified (1) #, : Green, Black, Red, Gray, Yellow (Color ring)
(2) ****: Cable length
OPS series
■ Multipurpose cable
>
φ30.0
<Type:OPS-P#/AMS****/OPS-J
φ34.0
126.5
OPS-J Socket
φ31.0
φ30.0
OPS-P Plug
123.0
31.5
33.0
■ Cable for large-sized studio camera
>
φ30.0
107.0
OPS-SJ Socket
φ30.0
OPS-SP Plug
103.5
31.5
10
φ31.0
<Type:OPS-SP#( )/SAMS****/OPS-SJ
φ34.0
33.0
Customer specified (1) #, : Green, Black, Red, Gray, Yellow, Blue, Pink, White (Color ring)
(2) ****: Cable length
Connector-Terminated Cable
Connector series for panel mounting
105
■ Cable with 3K flanged jack (PBW-SUS)
<Type:PBW-SUS>
φ19
φ23
3
19.5
φ16
4×M3
φ23
Dimensions of mounting
27
23
■ Cable with 3K flanged plug (FMW-SUS)
105
<Type:FMW-SUS>
φ19
φ23
3
19.5
φ16
4×M3
φ23
Dimensions of mounting
■ Cable with OPS flanged jack (OPS-PJ)
123.3
<Type:OPS-PJ>
φ21
27
20.6
4×M3
.7
φ21
φ31
23.0
Dimensions of mounting
■ Cable with OPS flanged plug (OPS-PP)
123.3
<Type:OPS-PP>
φ21
4×M3
φ26.4
23.0
φ31
33
Dimensions of mounting
33
11
Connector Assembly
● Selection Table of Connector and Cable
Attachable cable
Product number
(LEMO 3K series connector)
Plug connector, FUW-SUS
Jack connector, PUW-SUS
2SM-9.2-37.5
2SM-16-37.5
TV-OM-AMS
TV-OM-SAMS
Panel plug connector, FMW-SUS
Panel jack connector, PBW-SUS
(TAJIMI OPS series connector)
Plug connector, OPS-P
Jack connector, OPS-J
Panel plug connector, OPS-PP
Panel jack connector, OPS-PJ
2SM-6.8-98.3
TV-OM-FAMS
(LEMO 3K series connector)
Plug connector, FUW-SUS
Jack connector, PUW-SUS
(TAJIMI OPS series connector)
Plug connector, OPS-P
Jack connector, OPS-J
Conversion Connector Series
Description
Every series of 3K, OPS connectors are not interchangeable. Conversion
connectors are needed where different series connectors are used for the
camera head and panel plug receptacles.
Conversion Cable Series
3K
OPS
FUW-SUS#/AMS****/OPS-J※
Type
PUW-SUS※/AMS****/OPS-P#
Note: When ordering, specify the following in the type number.
#: Color of ring for the plug side, i.e. G for green or R for red.
※Color of ring for the jack side, i.e. K for black or N for gray.
****: Length in meter, like 0050 for 50m.
FUW-SUS#/AMS****/OPS-J※
PUW-SUS※/AMS****/OPS-P#
3K and 5K series are products of LEMO S.A. in Switzerland; and OPS series are products of TAJIMI ELECTRONICS CO., LTD. in Japan.
ARIB stands for Association of Radio Industries and Businesses.
SMPTE stands for The Society of Motion Picture and Television Engineers.
12
Cable with other connectors
■ SC-cord cable
■ LC-cord cable
■ SC-connector, C363
■ LC-connector, C351 and C354
■ ST-connector, C381
● Optical characteristics of polished connectors
Type of fiber
SC connector
(IEC61754-4)
GI
SM
FC connector
(IEC61754-13)
GI
SM
ST connector
(IEC60874-10)
GI
SM
LC connector
(IEC61754-20)
GI
SM
Transmission loss
(in dB, not more than)
PC polished
0.3
0.5
0.3
0.5
0.5
0.5
0.5
0.5
SPC polished
—
0.5
—
0.5
—
0.5
0.5
0.5
Reflection loss
(in dB, not more than)
PC polished
25
25
25
25
25
25
25
25
SPC polished
—
40
—
40
—
40
40
40
● Type of ferrule polishing
Type
Flat polishing
Spherical polishing
Angled polishing
Flat
Reflection loss
(dB)
Approx. 14
Name of polishing
Physical contact
25 ~ 40
Super physical contact
40 ~ 55
Angled physical contact
60 ~
Flat polishing
Spherical polishing
Angled polishing
Ferrule
Optical fiber
8°
13
Connector Assembly
Receptacle
Description
These connectors are to be placed on the camera head side of the cable seen from the base station. It should
be noted that every series of connectors are not compatible with each other. Pigtail cords are generally provided
with SC connectors and the like for maintenance consideration i.e exchanging components.
● 3K series (ARIB and SMPTE standards)
● OPS series
<Type: EDW-SUS/##/****>
<Type: OPS-R/##/****>
Optical pigtail cord
■ Dimensions
B
øD
øD
■ Dimensions
B
A
C
A
C
4-F
4-F
øE
øE
G
Dimensions for mounting
G
Dimensions for mounting
■ Connector dimensions and Mounting dimensions
● TV camera connector
Product
number
EDW-SUS
OPS-R
Optical pin Electric pin
count
count
2
4
2
4
A (mm)
B (mm) C (mm) D (mm)
E (mm)
F
G (mm)
Remarks
29.0
37.5
22.5
23.0
18.2
M3
23.0
3K series, stainless steel
29.0
42.4
26.5
21.3
21.7
M3
23.0
OPS2402-R
● Multi-pin connector
Product
number
OPS6-R
EGG8
Optical pin Electric pin
count
count
6
0
8
0
A (mm)
B (mm) C (mm) D (mm)
E (mm) E2 (mm)
29.0
42.4
26.5
21.3
21.7
—
55.0
47.5
19.0
55.0
45.2
42.6
F
M3
—
G (mm)
Remarks
23.0
OPS series
—
5K series
Note: When ordering, specify the following in the type number.
## : Type of connector for optical pigtail fiber or cord, such as FC, SC or NN (for cord only).
****: Length of optical pigtail fiber or cord in millimeter, like 0500 for 500mm.
E2
3K and 5K series are products of LEMO S.A. in Switzerland; and OPS series are products of TAJIMI ELECTRONICS CO., LTD. in Japan.
14
Plug Receptacle
Description
These connectors are to be placed on the base station side of the cable seen from the camera head. It should
be noted that every series of connectors are not compatible with each other. Receptacle and plug connectors
mate with each other as a pair.
● 3K series (ARIB and SMPTE standards)
● OPS series
<Type: FXW-SUS/##/****>
■ Dimensions
<Type: OPS-PR/##/****>
■ Dimensions
øD
øD
øA
B
B
C
A
C
4-F
øE
øE
G
Dimensions for mounting
4-F
Dimensions for mounting
G
■ Connector dimensions and Mounting dimensions
● TV camera connector
Product
number
FXW-SUS
OPS-PR
Optical pin
count
2
2
Electric pin
count
4
4
A (mm)
B (mm)
C (mm)
D (mm)
E (mm)
F
G (mm)
Remarks
38.0
60.0
30.0
38.0
23.0
M3
20.6
3K series, stainless steel
29.0
43.9
21.0
24.0
26.4
M3
23.0
OPS2404-PR
A (mm)
B (mm)
C (mm)
D (mm)
E (mm)
● Multi-pin connector
Product
number
OPS6-PR
FXG8
Optical pin
count
6
8
Electric pin
count
0
0
F
G (mm)
Remarks
29.0
43.9
21.0
24.0
26.4
M3
23.0
OPS series
65.0
100.0
38.5
65.0
42.6
M4
38.0
5K series
Note: When ordering, specify the following in the type number.
## : Type of connector for optical pigtail fiber or cord, such as FC, SC or NN (for cord only).
****: Length of optical pigtail fiber or cord in millimeter, like 0500 for 500mm.
15
Optical Composite Cable for TV Camera (For Fixed Cabling)
Type: TV-OM-LSZH
Type: TV-OM-CMR
Description
This composite cable integrates power line for TV
camera, control line, and optical fiber for video and
audio transmission. For fixed cabling applications, two
grades of cables are available: highly fire-resistant riser
grade (CMR-OF) and low-smoke emission, halogenfree, fire-resistant grade.
● Control line
Item
Conductor resistance
Insulation resistance
Withstand voltage
Core number
Specifications
●Structure
3
5
3
1
5
6
5
Control line
4
Shield
● Cable (integrated)
Sheath
Type
Item
Optical fiber core
Conductor
Power line
● Optical fiber
Transmission
loss
λ=1.31µm
Item
Type of fiber
Mode field diameter
Clad diameter
Amount of eccentricity
Cutoff wavelength
Coated outside diameter
Characteristics
0.5dB/km≥
Conversion
Condition (km)
Formula
L≥0.4
0.5xLdB≥
L<0.4
0.5x0.4dB≥
Description
Single-mode fiber
9.0±1µm
125±1µm
1µm or less
1.10~1.35µm
0.9±0.1mm
● Power line
Item
Conductor resistance
Insulation resistance
Withstand voltage
Black
White
Binding tape
Strength member
Condition
Red
Gray
Power line
6
TV-OM-CMR
TV-OM-LSZH
Item
Blue
Yellow
Control line
4
Power line
Core color
Optical fiber
2
6
2
Core name
1
Optical fiber
Characteristics
113Ω/km
10,000MΩ·km
AC1,750V/1min.
Control line
TV-OM-CMR
See Table on the left
Tin-plated soft copper wire strand
(21wire/0.18mm)
Insulation
thickness
0.4mm nominal
Conductor
Tin-plated soft copper wire strand
(7wire /0.203mm)
Insulation
thickness
Strength member
Core stranding
Shield
Sheath (Pb-free)
Finished outside diameter
0.33mm nominal
Steel wire: 1.8mm
Sheath outside diameter: 2.5mm
Two cores of optical fiber, four cores of
power line and two cores of control line
are stranded around a strength member
Tin-plated soft copper wire braid
Low smokeRizer grade
emission,
flame-resistant
halogen-free,
flame-resistant
9.2±0.3mm nominal
Approximate mass
120kg/km nominal
● Mechanical characteristics
Characteristics
37.5Ω/km
10,000MΩ·km
AC1,750V/1min.
Item
Allowable tension
Allowable bending radius
Characteristics
700N
Six times the cable outside diameter or larger
TV-OM-CMR:CMR-OF
16
TV-OM-LSZH
Type: TV-OM-LSZH-SLA
Type: TV-OM-CMR-SLA
Description
TV-OM-CMR-SLA
This cable will be the cost of cable ‘TV-OM-CMR’.
Performance is equivalent to ‘TV-OM-CMR’.
TV-OM-LSZH-SLA
This cable will be the cost of cable ‘TV-OM-LSZH’.
Performance is equivalent to ‘TV-OM-LSZH’.
3
6
Drain wire
4
Type
Item
Optical fiber
TV-OM-CMR-SLA
TV-OM-LSZH-SLA
● Optical fiber
Condition
Transmission
loss
λ=1.31µm
Item
Type of fiber
Characteristics
0.5dB/km≥
Conversion
Condition (km)
Formula
L≥0.4
0.5xLdB≥
L<0.4
0.5x0.4dB≥
Description
Single-mode fiber
Mode field diameter
9.0±1µm
Clad diameter
125±1µm
Amount of eccentricity
Cutoff wavelength
Coated outside diameter
1µm or less
1.10~1.35µm
0.9±0.1mm
● Power line
Item
Conductor resistance
Insulation resistance
Withstand voltage
Black
White
● Cable (integrated)
Control line
Sheath
Item
Red
Gray
Power line
6
Aluminum Mylar tape
5
6
5
Power line
1
Blue
Yellow
Control line
4
Strength member
Core color
Optical fiber
2
5
Characteristics
113Ω/km
10,000MΩ·km
AC1,750V/1min.
Core name
1
Optical fiber
2
Item
Conductor resistance
Insulation resistance
Withstand voltage
Core number
Specifications
●Structure
3
● Control line
TV-OM-CMR-SLA
TV-OM-LSZH-SLA
See Table on the left
Conductor Tin-plated soft copper wire strand (21wire/0.18mm)
Power
Insulation
line
0.4mm nominal
thickness
Tin-plated soft copper wire strand
Conductor
(7wire /0.203mm)
Control
line
Insulation
0.33mm nominal
thickness
Tin-plated soft copper wire strand
Conductor
(7wire /0.203mm)
Drain wire
Diameter of
0.6mm nominal
conductor
Steel wire: 1.8mm
Strength member
Sheath outside diameter: 2.5mm
Two cores of optical fiber, four cores of power line
Core stranding
and two cores of control line
are stranded around a strength member
Aluminum Mylar tape
0.025mm
Low smoke-emission,
Highly
Sheath (Pb-free)
halogen-free,
flame-resistant
flame-resistant
Finished outside
8.8±0.3mm nominal
diameter
Approximate mass
110kg/km nominal
● Mechanical characteristics
Characteristics
37.5Ω/km
10,000MΩ·km
AC1,750V/1min.
Item
Allowable tension
Allowable bending radius
Characteristics
700N
Six times the cable outside diameter or larger
17
Optical Cable for Information Transmission
Description
These are optical multi-core cables intended for transmission of digital signals including high
definition (HD) video signals. They are flexible optical cables provided with both high reliability
and ease of handling.
4SM-8.6S
Outside
diameter
(mm)
8.6
6SM-8.6S
8.6
Product number
87
Tensile
strength
(N)
490
89
490
Mass
(kg/km)
Power line
resistance
(Ω /km)
—
Control line
resistance
(Ω /km)
Transmission
distance
(m)
—
2,000
SM
4
—
—
2,000
SM
6
Optical fiber
type
Number of
cores
8SM-9.2S
9.2
92
490
—
—
2,000
SM
8
16GI-9.2S
9.2
105
600
—
—
300
GI
16
—
2,000
SM
16
2,000
SM
4
16SM-9.2S
4H-11S-2A16+4A24
9.2
105
600
11.0
162
700
—
14.1
89.2
Control line
Power line
Optical fiber
Optical fiber
(yellow, blue, white)
Strength member
Binding tape
Braid
Sheath
Optical fiber
(tape core)
Intervention
Strength member
Binding tape
Braid
Sheath
Binding tape
Shield
Sheath
Strength member
Intervention
6SM-8.6S
4H-1W-2A16-14A24
16GI-9.2S
● List of Optical Fiber for Selection
Type number
G·3004·1004
Silica fiber, multi-mode (GI)
G62·3516·1505
Silica fiber, single-mode (SM)
Hytrel fiber, single-mode (SM)
Transmission
bandwidth
(MHz·km)
Wavelength
(µm)
3.0
400
0.85
1.0
400
1.3
3.5
160
0.85
1.5
500
1.3
Allowable
bending radius
(mm)
Nominal
NA
Core dia.
(µm)
Clad dia.
(µm)
0.2
50
125
30
0.275
62.5
125
30
S·05
0.5
—
1.31
—
9.5
125
30
FW·05
0.5
—
1.31
—
9.5*
125
15
H
0.5
—
1.31
—
9.5
125
15
Note: *Core diameter (mode field diameter) of FW∙05 is 8.5~9.1μm.
18
Transmission
loss
(dB/km)
Installation Part
Joint Unit for TV Camera Cable
Description
<Direct Joint>
In this joint method, the receptacle on optical fiber cord
is directly fusion spliced with optical fibers in the optical
composite cable, using fusion splicing machine.
Whereas the size of the joint box can be made smaller
in comparison to the joint method using J/J, it becomes
necessary to carry out fusion splicing again when the
receptacle has to be replaced for maintenance.
<J/J Joint >
In this joint method, the receptacle on SC optical cord is
connected with the optical composite cable. Fusion
splicing machine is used to fusion splice the optical
fibers in the cable with the SC cords, and then the
spliced joints are accommodated in the tray in the joint
box to be properly protected. The receptacle is easy to
replace since the SC connector of the receptacle and
the cord with SC connector that is fusion spliced with
the cable can be connected using a J/J adaptor.
Example of joint of cable with
plug receptacle (on-site joint)
Example of joint of cable with
plug receptacle (on-site joint)
D
B
E
C
C
D
A
A
B
◦ Specifications of Joint Unit
Direct
fusion
splicing
After
fusion
splice
with
SC
connector
jointing
No.
Dimensions (mm)
Type
of
number
cable
A (length) B (width) C (height)
Mounting
dimensions (mm)
D
E
Accessories
(pcs)
SC cord *1,*2 Splicing sleeve
Metal connector
SC
Ground
(pcs)
adaptor wire*2
Housing Socket, Pin (dcs) (mm)
1
OPSS-1
280
125
45
240
100
0
3
6P
—
—
30
2
OPSS-2
320
160
80
280
138
0
6
10P
—
—
60
3
OPSS-3
340
200
80
300
178
0
9
10P+6P
—
—
90
4
OPSS-4
340
200
80
300
178
0
12
10P+10P
—
—
120
5
OPSS-5
340
280
80
300
258
0
15
10P+6P
—
—
150
—
6
OPSS-6
340
280
95
300
258
0
18
10P+10P+10P
1
OPIS-1
290
170
60
180
160
1
3
1 pair
5
2
30
2
OPIS-2
290
170
60
180
160
2
6
2 pair
10
4
60
3
OPIS-3
290
220
60
180
210
3
9
3 pair
15
6
90
4
OPIS-4
290
220
60
180
210
4
12
4 pair
20
8
120
5
OPIS-5
290
260
70
180
250
5
15
5 pair
25
10
150
6
OPIS-6
290
260
70
180
250
6
18
6 pair
30
12
180
—
E
180
D
Category
Mounting dimensions
Note: *1 Applicable to optical fiber with maximized bendability of 15-mm radius. *2 Fire-resistant polyethylene sheath (ECO product).
● Dimensions exclude screw heads. ● Use M4 or M5 screws for mounting.
19
Installation Part
Panel-Integrated FOP Unit
Description
The connector panel and termination box are integrated to create this compact unit. With all optical cords equal in
length, workability is improved and installation methods can be unified without much concern over the terminal board
size during design. Moreover, optical cords can be handled without fear of damage when the panel is removed for
maintenance.
● FOP Unit
Category
Dimensions (mm)
No. of cable
Type number
B (width)
C (depth)
1
2U-FOP1/ ＊＊＊ /N
88
142
170
2
2U-FOP2/ ＊＊＊ /N
88
142
170
1
FOP1/ ＊＊＊ /N
132.6
142
110
2
FOP2/ ＊＊＊ /N
132.6
142
110
2U
3U
A (height)
Frame and connector sold separately.
Please specify the frame of the FOP panel.
FOP2 / ＊＊＊ / N
Code type
Connector maker
Connector type
3K series
OPS series
A
Cable type
Code type
PBW-SUS
LPJ
FMW-SUS
LPP
OPS2405-PJ
SPJ
OPS2406-PP
SPP
C
B
Example: FOP2/LPJ/N
Code type specified in the table.
Receptacle type
Connector maker
Connector type
3K series
OPS series
Code type
Accessories (PCS)
*1,*2
Metal connector
15
Splicing sleeve
Housing
LR
1
3
1 pair
5
1
FXW-SUS
LPR
2
6
2 pair
10
2
35
SR
1
3
1 pair
5
1
15
SPR
2
6
2 pair
10
2
35
OPS2402-R
OPS2404-PR
Note : *1 Applicable to optical fiber with maximized bendability of 15-mm radius. *2 Fire-resistant polyethylene sheath (Eco product)
Example: FOP2/LR/N
Code type specified in the table.
20
Groundwire*2
(mm)
EDW-SUS
SC cord
Contact set
SC adaptor
(DCS)
Panel-Integrated FOP Unit, Mounting Frame and Related Member
● FOP-P (Wall mount type Frame)
Main body dimensions
Mounting dimensions
N
B
D
b
d
120
170
C
A
454
468
c
a
55
Example: FOP-P3
Type number
Unit: mm
Mainbody dimensions Mounting dimensions
a
b
c
d
A
B
C
D
N
FOP-P1
180
170
166
120
150
156
166
120
M4
FOP-P2
325
170
312
120
296
156
312
120
M4
FOP-P3
468
170
454
120
438
156
454
120
M4
FOP-P1/2U
180
126
166
80
150
110
166
80
M4
FOP-P2/2U
322
126
312
80
296
110
312
80
M4
FOP-P3/2U
468
126
454
80
438
110
454
80
M4
Example: FOP-P3
● FOP-RP (Rack mount type Frame)
Main body dimensions
Mounting dimensions
132.6
57.15
B
D
b
d
C
A
N
465
483
c
55
a
Example: FOP-RP3
Type number
Mainbody dimensions
a
b
FOP-RP3
483
132.6
FOP-RP3/2U
483
88
FOP-RP3/3H
483
149
FOP-RP3/2H
483
99
c
d
Unit: mm
Mounting
dimensions
A
B
C
D
N
EIA standard size
JIS standard size
M5
M5
M5
M5
Example: FOP-RP3
21
Installation Part
Panel-Integrated FOP Unit, Mounting Frame and Related Member
H
● Blank Panel
W
Type number
W (mm)
H (mm)
2U FOP-BP
142
88.0
FOP-BP
142
132.6
● FOP Tray (For FOP-P, FOP-RP)
143
135.6
60
Accessories
Type
number
Accessories Optical
fiber cord with SC
connector
Splicing
sleeve
Metal connector
Housing
Socket, Pin
SC
adaptor
Ground
wire
FOP1T/C
1
3
1 pair
5
2
15
FOP2T/C
2
6
2 pair
10
4
30
22
FOP Unit with Circuit Breaker
Features
●Surge protection circuit has been combined with the panel-integrated optical joint box, i.e. FOP unit, with a size
increase of only 15mm in the depth.
●Peak surge voltage is suppressed by about half, and the total energy, i.e. voltage multiplied by time, down to 0.1msec
after the outbreak of a surge is reduced by a factor of 7 to 10.
●By manipulating a switch on the panel, the surge ingress circuit is cut off electrically.
Evaluation method: Corresponding to the level 4, i.e. 4kV x 1.2/50µsec by IEC61000-4-5 (Surge immunity test)
● Output waveform
● Applied waveform
4kV
131.2
142
V:1kV/DIV
H:10µsec/DIV
140
123.8
132.6 (3U)
V:1kV/DIV
H:10µsec/DIV
appro. 2kV
120
105
23
Installation Part
Connector Panel
● FSP-panel (Cost down panel)
[ 6 Holes type ]
∙ It is possible to attach a connector 6 to the panel.
∙ Used receptacle relationship during installation and connector with cable
E
D
F
I
H
C
B
A
G
[ 8 Holes type ]
∙ It is possible to attach a connector 8 to the panel.
∙ Used with connector cable when mounting
E
F
D
C
B
A
FSP panel size
Mounting Number of
connector
24
A
B
C
D
E
F
G
H
I
6
482
464
428
57.2
4-13.5×7
132.6
185
60
52.5
8
482
464
428
57.2
4-13.5×7
132.6
—
60
52.5
Compact Joint Unit for High-Strength Optical Fiber
Description
Downsizing of termination space has been achieved by using a high-strength optical fiber that has halved the
allowable bending radius of conventional optical fibers. This compact, user-friendly joint unit allows for ease of
termination work. Exchange of receptacles is easy since J/J adaptors are used for connecting SC-connector cords.
● Dimensions (Common to one-line and two-line cables)
18
94
105
115
180
90
Accessories
No. of cable Type number
Metal connector
Optical fiber
Splicing
SC
cord with SC
sleeve Housing Contact adaptor
*1,*2
connector
set
Ground
wire*2
1
OPISS-1
1
3
1 pair
5
2
30
2
OPISS-2
2
6
2 pair
10
4
60
Note:*1 Applicable to optical fiber with maximized bendability of 15-mm radius.
*2 Fire-resistant polyethylene sheath (ECO product).
● Dimension exclude screw heads. ● Use M4 or M5 screws for mounting.
25
Installation Part
NEW
Smart HDTV Assembly Checker
Description
It can simultaneously check optical insertion loss of fibers, conductivity as well as short-cut/cross over of metal wires
by simply connecting the checker to the cable assembly and pressing a button.
The checker can be used to test LEMO connector (3K) as well as TAJIMI connector (OPS). In addition, it also can be
used to test other connectors if user purchases optional converters (cable or unit). For the detail, please contact your
local representative.
The checker can test maximum 1,000m long cable assembly with two AA batteries.
Compact Design
Type : FMEC-S-S-1
OPS connector type
26
Simple Operation
Direct Results
Type : FMEC-LS-LS-1
LEMO connector type
Operation procedure
1)Adjust optical power level with dialer.
2)Connect the cable assembly and turn the power button on.
3)For metal wires, it shows “passes” if all LED indicators are green.
4)For optical fibers, it shows “pass” if the LED indicators are lit in the green lamps area.
If the indicators are only lit in the red and yellow lamps area, it shows the cleaning or maintenance is required.
How to identify the testing results. (reference)
Optical loss :NG level is from -12dB to -18dB indicated as red LED.
Notice level is from -6dB to -12dB indicated as yellow LED.
Pass level is from -0dB to -6dB indicated as green LED.
Blue LED is for initial adjustment.
Metal wire : No1 case ; The ground wire is not connected .
No2 case ; The power wires are shorted together (short circuit).
Pass
Fail
●
●
1
No1 case
●
●
2
●
●
3
●
●
4
Pass
Fail
●
●
1
No2 case
●
●
2
Flash pattern
●
●
3
●
●
4
Time
◎
●
○
Flash pattern indicates possible failures of the metal lines.
The details are shown in Manual.
27
Technical Information
1
What is the optical fiber with maximized bendability ?
This is a novel optical fiber developed by Furukawa Electric which permits flexible optical wiring.
● The allowable bending radius for the fiber is 15mm, one half the conventional values.
● The fiber can be jointed with conventional single-mode fibers.
● The fiber is in compliance with ITU-T G.652B standard.
● The fiber can be used at a wavelength band of 1280~1625nm.
What is single-mode fiber (SM) or multi-mode (GI) fiber?
● Graded-index fiber, GI fiber
In graded-index fiber, the refraction index in the core is graded to
gradually increase farther to the center. Thus, the refractive index at the
axis is higher slowing the speed of light rays, while that near the
cladding is lower increasing the light speed. Because light speed is
inversely proportional to refractive index, this reduces the arrival time
disparity to have all modes (light rays (1), (2) and (3) in the Figure) arrive
at about the same time, resulting in improved transmission
characteristics or transmission bandwidth. Fibers with a core diameter
of 50µm or 62.5µm are widely used at a transmission wavelength of
0.85µm or 1.3µm.
Higher
refractive
index
Higher refractive
index
Incident optical pulse
3
● Single-mode fiber, SM fiber
Whereas multi-mode fiber supports many modes within its core, fiber
with a much reduced core diameter of, say 10µm, can support only the
fundamental mode of propagation as shown in the Figure. There is no
waveform distortion due to arrival time disparity because only one mode
propagates along the fiber. This type of fiber is called single-mode fiber,
and its refractive index distribution is generally step-like. Single-mode
fiber is suited for high-speed, high-capacity transmission systems
because of its superior transmission characteristics, and is used at a
wavelength of 1.31µm or 1.55µm, at the former of which ordinary silica
fibers have zero chromatic dispersion.
(3)
(2)
(1)
Exit optical
pulse with
reduced distortion
(2)
(1)
Exit optical
pulse
Incident optical pulse
What is transmission bandwidth?
4
Amplitude response
In designing optical fiber communication systems, amplitude response in the baseband is used. Transmission
bandwidth refers to a modulation frequency fb, at which the baseband amplitude response expressed as
log|H(fb)| equals -6 (dB). Thus, it gives a rough estimate of up to which frequency the signals are transmitted
without being distorted.
Modulation frequency
fb
[MHz]
0
-6
[dB]
2
What is transmission loss?
Taking two points Z1 and Z2 along an optical fiber (Z2 > Z1) and letting the magnitudes of optical intensity at these points be P1(Z1) and P2(Z2), respectively,
the transmission loss in this section can be expressed as α= -log (P2/P1) (dB). Thus, it corresponds to the ratio of optical energy being transmitted at these
points. The transmission loss of an optical fiber comprises absorption loss that turns into heat and scattering loss or radiation loss that leaks out of fiber, and
therefore, it depends on the wavelength and spectrum of light source, incident mode distribution and so forth.
What is cutoff wavelength?
What if a heavy Ioad falls onto the optical cable?
7
Optical power
meter
4.5
4.0
3.5
3.0
2.5
2.0
1.5
1.0
0.5
Cable with new fiber
Conventional cable
3.5
3.0
2.5
2.0
1.5
1.0
0.5
0.0
60
30
15
Cable bending diameter (mm)
28
10
15,000
14,000
13,000
12,000
11,000
9,000
10,000
8,000
7,000
6,000
5,000
Load (N)
To what degree of bending can an optical cable resist for light transmission?
The Figure shows the performance of our cable using the new optical fiber
with maximized bendability in comparison with that of conventional ones.
4,000
Light source
3,000
0.0
100mm
2,000
The results will depend on what structure the cable
you stepped on has. As for the cables of the
Company, increase in transmission loss generally
appears at approximately 10,000N as illustrated in
the Figure. But loss increase can appear at around
5,000N depending on the structural design or
material selection.
Load
5.0
1,000
6
Transmission loss of two fibers (dB)
Transmission loss of two fibers (dB)
Cutoff wavelength of a single-mode fiber is the wavelength above which the fiber supports and
propagates only one mode of light. The cutoff wavelength is dependent on the fiber structure such
as refractive index distribution within the core, core dimension and the like.
Transmission loss (dB)
5
Technical Reference
Flowchart from Cable Installation to Completion of Jointing
■ Cable route confirmation
●Does the route have bending?
●What about cable installation conditions such as piping, ladder and rack?
●Is the distance to power lines sufficient?
●Is there no fear of submersion?
●Is there any possible influence of small animals including rat?
■ Specification of terminal board
●What is the size of terminal board? Where is the termination box to be placed?
●What would be the entry route of the cable into the terminal board?
●Is there any coexistence of other cables?
●Does the board have door? What would be the situation when in operation?
●What is the height of the terminal board from the floor?
●Is connector guide bar necessary?
■ Installation
●Is the cable surplus length sufficient for maintenance?
●Can the cable be accommodated without any twist or tight bending?
●Is the metal cable securely terminated without any loosening or misalignment?
●Have the optical fiber fusion splicing procedures been securely carried out?
■ Inspection
Conduction test
Crossed line test
OK
NG
OK
NG
OK
OK
NG
NG
NG
NG
● Measurement using TDR
NG
NG
OK
NG
29
Technical Reference
Withstand voltage test
If not OK, i.e. insufficiently insulated:
V
• It is likely that water has seeped into the cable.
• It is likely that the cable is collapsed.
• It is likely that water or electrically conductive
substance has entered into the cable.
• Some other reasons.
R
The closer is R to infinity, the better.
Optical transmission loss
● Optical power meter method
Measurement of
calibration value
Light
source
Measurement
Light
source
P0
Power meter
Object
under test
Power meter
P1
Optical transmission loss of the object under test is |P0-P1|.
Relationship between optical loss and optical intensity
Optical intensity ratio (%)
100%
80%
60%
40%
20%
0%
0
1
2
3
4
5
6
7
8
9
10
Attenuation (dB)
● Optical Time Domain Reflectomer (OTDR) method
1. Principle
When an optical pulse is input at one end of an optical fiber, the pulse propagates along
the fiber with its intensity being attenuated due to the radiation and absorption losses. On
the other hand, small portions of the light pulse are reflected by such causes as Rayleigh
scattering, fiber fracture and the mirror surface at the output end of the fiber, propagating
back to the input end in succession. These reflected pulses represent, when accumulated
over time and displayed on a screen with respect to fiber length, a waveform from which
useful information on the fiber is obtained including splicing loss, transmission loss, line
length and fault location.
30
Sharp bend
Spliced point
Fault
Spliced point
OTDR
Received optical level (dB)
2. Measurement example
An example of line
measurement is shown in
the Figure.
Distance (km)
Connector
End surface
MEMO
Furukawa group's Distributor
Furukawa Sangyo Kaisha, Ltd. (FSK Japan Headquarters)
21-3-4, Shimbashi Minatoku, Tokyo 105-8630 Japan
Tel: +81-3-5405-7590 Fax: +81-3-5405-7716 http://www.furusan.co.jp/english/
Furukawa Sangyo Shanghai Co., Ltd.
RM.18c Jiu Shi Fu Xing Mansion, No.918, Huai Hai Zhong Road, Shanghai
Tel: +86-21-6415-6394
Furukawa Sangyo Shanghai Co., Ltd. Beijing Representative Office
Room27A, CITIC Building No.19, Jianguomenwai Street, Chaoyang District, Beijing, China 100004
Tel: +86-10-8526-1550 Fax: +86-10-8526-1552
Furukawa Sangyo Kaisha (H.K.) Ltd.
Unit A, 18/f., Empire Land Commercial Centre, No.81-85 Lockhart Road, Wanchai, Hong Kong
Tel: +852-2865-2831 Fax: +852-2861-0549
Furukawa Sangyo Kaisha (H.K.) Ltd. Taiwan Branch
8F-4, No, 167, Fuxing, Rd., Songshan Dist., Taipei City 10547, Taiwan (R.O.C)
Tel: +886-2-2718-1328 Fax: +886-2-2718-8281
Furukawa Sangyo Korea Co., Ltd.
1303 Samho Marathon B/D 1015-3 Ingye-dong, Paldal-gu Suwon-si Gyeonggi-do, Korea
Tel: +82-31-898-7688/7689 Fax: +82-31-898-7690
Furukawa Sangyo Kaisha (Malaysia) Sdn. Bhd.
1106, 11th Floor, Amcorp Tower A, Amcorp Trade Center,18 Jalan Persiaran Barat,
46050, Petaling Jaya,Selangor Darul Ehsan, Malaysia
Tel: +603-7957-7000
Furukawa Sangyo Kaisha India Pvt. Ltd. (FSKI)
Flat no. 1011, Antariksha Bhawan, Kasturab Gandhi Marg, New Delhi-110001 Delhi, India
Tel: +91-11-4717-7100 Fax: +91-11-4717-7113
Furukawa Sangyo Kaisha (Thailand) Ltd.
No.191 Silom Complex Building, 16th Floor, Unit 4, Silom Road, Kwaeng Silom, Khet Bangrak,
Bangkok 10500 Thailand.
Tel: +66-2632-1077 Fax: +66-2632-1078
Furukawa Sangyo Kaisha Philippines, Inc.
1004 Orient Square Bldg. F. Ortigas Jr. Road, Ortigas Center Pasig City, Republic of the Philippines.
Tel: +63-2571-2752 Fax: +63-2571-2701
Furukawa Sangyo North America, Inc. (FSNA)
2041 Mission College Blvd, Suite 155 Santa Clara, CA95054 U.S.A.
Tel: +1-408-496-0051 Fax: +1-408-496-0052
American Furukawa, Inc. (AFI)
47677 Galleon Drive, Plymouth, MI 48170 U.S.A.
Tel: +1-734-446-2200 Fax: +1-734-446-2260 http://www.furukawaamerica.com/
Furukawa Electric Europe Ltd. (FEEL)
3rd Floor, Newcombe Houce, 43-45, Notting Hill Gate, London W11 3FE, U.K.
Tel: +44-20-7313-5300 Fax: +44-20-7313-5310 http://www.furukawa.co.uk/
P.T. Furukawa Electric Indonesia
Registration No:AHU-32328.AH.01.01.Tahun 2010 Sucaco Building, 6th Floor Jl. Kebon Sirih No.71, Jakarta-10340
Tel: +62-21-3190-6212 Fax: +62-21-3190-6407
Produced by
http://www.feic.co.jp/english/
Headquarters
Hiratsuka Works
6-48-10 Higashi-Nippori, Arakawa-ku, Tokyo 116-0014, Japan
Tel: +81-3-3803-1151 Fax: +81-3-3801-0581
5-1-9 Higashi-Yawata, Hiratsuka, Kanagawa, 254-0016, Japan
Tel: +81-463-21-8290 Fax: +81-463-21-8292
The products and their appearances, as described in this brochure, are subject to change for improvement without prior notice.
Company and product names appearing in this brochure are registered trademarks or trademarks of respective companies.
Export Control Regulations
The products and/or technical information presented in this publication may be subject to the application of the Foreign Exchange and Foreign Trade Act and
other related laws and regulations in Japan.
In addition, the Export Administration Regulations (EAR) of the United States may be applicable.
In cases where exporting or reexporting the products and/or technical information presented in this publication, customers are requested to follow the
necessary procedures at their own responsibility and cost.
Please contact the Ministry of Economy, Trade and Industry of Japan or the Department of Commerce of the United States for details about procedures.
This catalogue is printed using environmentally friendly paper and ink.
DE-057 2F6 TR 50