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SDIX-100, SDIX-100C (Ver. 1.2)
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DATA SHEET
Miniature Fiber Optic 3G-SDI Digital Video Extension Modules
Contents
 Description
 Features
 Applications
 Technical Specifications
 Functions
 Drawing
 Fiber Connection
 Environmental Reliability
 Schematic Diagram
 Test Report for SDIX-100
OPTICIS HQ
Opticis Co., Ltd.
# 16Fl, Kins Tower Jeongja 331,
8 Sungnam-daero, Bundang-gu
Sungnam-si, Gyunggi-do, 463-782
South Korea
Te l: +82 (31) 719-8033
Fax: +82 (31) 719-8032
www.opticis.com
[email protected]
Copyright © 2015, All rights reserved by Opticis Co., Ltd.
-1-
2 Jan 2015
SDIX-100, SDIX-100C (Ver. 1.2)
www.opticis.com
Fiber Optic 3G-SDI Extension Module
Description
OPTICIS miniature 3G-SDI extender is an optimized and high-end level solution designed for transmission
of multi-rate 3G-SDI, HD-SDI, DVB-ASI digital video data over both single-mode, multi-mode 1 fiber-optic
cable. Supporting the new 1080p, 3G-SDI format, it converts and transport one(1) channel SMPTE 424M,
3G-SDI, SMPTE-292M HD or SMPTE-295M serial digital video signal perfectly over long distance right
after its transmitter receive the input signal. It also adopts ST terminated fiber-optic connector and HD-SDI
BNC input connector for suitable application and both modules guarantee the signal quality by equalizing
and re-clocking features.
Due to the use of advanced digital fiber optic transmission technology, no user adjustments are required in
the Mini 3G-SDI extender system, enabling quick setup and trouble-free operation and because of latchlocking mechanism for power connector, no power disruption due to miss-handling problem. It comes with
a rugged, standalone, miniature and metal die-casting enclosure type for harsh applications including
broadcasting, medical, military and more for your world.
The modules are consisted of three(3) parts as follows;
-
One transmitter converting digital video signal to optical signals, model name: SDIX-100-T
-
One receiver converting optical signals to digital video signals, model name: SDIX-100-R
-
One receiver converting optical signals to digital video signals including clock recovery,
model name: SDIX-100C-R
The package includes as follows;
-
Two modules of transmitter and receiver
-
Two(2) DC 5V 1.5A Adaptors
-
+12V power supply cable directly from camera (Option)
-
User manual
Features

Supports up to 3G-SDI.

Extends up to 30Km @2.97G.

Transports Multi-rate HD-SDI Digital Video over 1 Fiber.

Latch-Locking Power Connector.

Supports embedded audio (such as embedded AES audio signal).

HD-SDI BNC input connector and ST terminated fiber optical connector.

Robust metal die-casting enclosure for harsh environment.
Copyright © 2015, All rights reserved by Opticis Co., Ltd.
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2 Jan 2015
SDIX-100, SDIX-100C (Ver. 1.2)
www.opticis.com
Applications

Broadcast systems including remote/ENG/EFP and pre/post-production, studio to studio, camera to OB
Vans, stadium to studio 3G-SDI digital video extension.

Fiber optic applications with free-interference using 3G-SDI signals including medical, military,
government and security purposes.
Technical Specifications
-
General Specifications
Components
Electrical
Optical
Connect
-
Parameter
Laser Diodes in TX Module
Photo Diodes in RX Module
Input and Output Signals
Data Transfer Rate (Graphic Data)
Total Jitter at the end of Rx output
Propagation Delay
Link Power Budget
Optical Connector
Electric Connector Type from Modules
Recommended Fiber
Specifications
1310 FP laser diode
InGaAs/InP PIN photo diode
SMPTE 424M/292M/259M
Max. 3Gbps
Max. 0.3UI
Max. 40ns
Min 11dB
ST Connector
75Ohm BNC (Male)
Standard single-mode fiber
Absolute Maximum Ratings
Parameter
Supply Voltage
Operating Temperature
Storage Temperature
Storage Relative Humidity
Symbol
VCC
Top
Tsto
RHsto
Minimum
+ 4.5
0
- 30
10
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Maximum
+5.5
50
+ 70
95*
Units
V
C
C
%RH
2 Jan 2015
SDIX-100, SDIX-100C (Ver. 1.2)
www.opticis.com
Operating Conditions
Transmitter module (E-to-O converter) : SDIX-100-T
-
Power
Supply
Electrical
Link
Optical Link
Parameter
Supply Voltage
Supply Current
Power Dissipation
Power Supply Rejection
(Note1)
Input Signal
Input Impedance
Input Signal Level
Return Loss
Propagation Delay
Data rate
Output Optical Power
Wavelength
Spectral width in RMS
Extinction Ratio
Rising Time (Note2)
Falling Time (Note2)
Jitter in p-p value
Symbol
Vcc
ITCC
PTX
Minimum
4.5
PSR
ZIN
Po


Ext
Trise
Tfall
Tjitter
Typical
5
180
0.9
Maximum
5.5
Units
V
mA
W
50
mVp-p
SMPTE 424M/292M/259M
75
720
800
880
15
1.5
3
-9
-4
1290
1310
1330
5
8
135
135
100
mVp-p
Ω
mVp-p
dB
ns
Gbps
dBm
nm
nm
dB
ps
ps
ps
Note1. Tested with a 50mVp-p sinusoidal signal in the frequency range from 500 Hz to 500 MHz on the V CC supply with the
recommended power supply filter in place. Typically less than a 0.25 dB change in sensitivity is experienced.
Note2. 20% - 80%; Measured unfiltered @ 3Gbps
Receiver module (O-to-E converter): SDIX-100-R
Power
Supply
Electrical
Link
Parameter
Supply Voltage
Supply Current
Power Dissipation
Power Supply Rejection
(Note1)
Output Signal
Output Impedance
Output Signal Level
Return Loss
Propagation Delay
Data rate
Total Jitter
Symbol
Vcc
ITCC
PTX
Minimum
4.5
PSR
ZIN
TRjitter
Units
V
mA
W
Optical Link
mVp-p
SMPTE 424M/292M/259M
75
720
800
880
15
40
3
0.2
0.3
mVp-p
Ω
mVp-p
dB
ns
Gbps
UI
0
dBm
1650
nm
Po
-20
Wavelength

1100
Pbgt
1310
11
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Maximum
5.5
50
Receiving Optical Power
Power Budget
Typical
5
160
0.8
dB
2 Jan 2015
SDIX-100, SDIX-100C (Ver. 1.2)
www.opticis.com
Receiver module (O-to-E converter): SDIX-100C-R
Power
Supply
Electrical
Link
Optical Link
-
Parameter
Supply Voltage
Supply Current
Power Dissipation
Power Supply Rejection
(Note1)
Output Signal
Output Impedance
Output Signal Level
Return Loss
Propagation Delay
Data rate
Total Jitter
Symbol
Vcc
ITCC
PTX
Minimum
4.5
PSR
ZIN
TRjitter
Maximum
5.5
Units
V
mA
W
50
mVp-p
SMPTE 424M/292M/259M
75
720
800
880
15
40
135
0.18
0.3
mVp-p
Ω
mVp-p
dB
ns
ps
UI
0
dBm
1650
nm
Receiving Optical Power
Po
-20
Wavelength

1100
Power Budget
Typical
5
290
1.45
Pbgt
1310
11
dB
Recommended Specifications of Fibre-Optic Cables
Parameters
Fibre Type
Modal Bandwidth
Fiber Cable Attenuation
No. of Ferrules
Skew
Insertion Attenuation
Total Optical Attenuation
Conditions
Glass single-mode Fiber
 = 1310nm, 1550nm
 = 1310nm, 1550nm
ST Connector
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Specifications
9.5±/ 125±2m
Min. 400 MHz km
>0.3dBdB/km
1 ferrules
2%
1.6%
30mm
2 Jan 2015
SDIX-100, SDIX-100C (Ver. 1.2)
www.opticis.com
Drawing of Modules
Dimension [mm]
Note: The transmitter, SDIX-100-T and the receiver, SDIX-100C-R have the same mechanical dimensions.
Drawing of Cable Connections
The diagram shows the connection of transmitter (Tx; plug in PCs) and receiver (Rx; plug in displays)
modules by using 1 ST patch cord fiber.
On
eF
ibe
rC
HD
ni
Mi
ab
le
-T
G
-3
ni
Mi
D
GH
-3
-R
One(1)
3Gb/s HD-SDI
Digital Viedio
Output
One(1)
3Gb/s HD-SDI
Digital Viedio
Intput
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2 Jan 2015
SDIX-100, SDIX-100C (Ver. 1.2)
www.opticis.com
Reliability Test
Opticis utilizes three types of test criteria for a reduction of variability and a continuous improvement of the
process by its FEMA (Failure Mode and Effective Analysis) program.
1) Mechanical test (vibration, shock)
2) Temperature & humidity tests
3) EMC test (FCC class A Verification and CE Documentation)
Mechanical and Temperature & Humidity Test Data
Heading
Test
Conditions
Duration
Sample
Size
Failure
Remarks
Operating at each
Temperature
* -20 ~ 70 °C
(Interval: 10 °C)
30 Min
(Each
Temperature)
n =11
0
Note: Visual Test on the
Display
Pixel Error Rate
High Temperature
* TO = 80 °C
240 HR
n = 10
0
Note: Visual Test on the
Display
Low Temperature
* TS = -30 °C
96 HR
n=2
0
1. TS: Storage Temperature
High Temperature
* TS = 90 °C
96 HR
n=2
0
2. RH: Relative Humidity
High Humidity
High Temperature
* TS: 85 °C
* RH: 85%
96 HR
n=6
0
-
n=2
0
-
n=2
0
Operating
Test
Storage
Test
Mechanical
Shock
Mechanical
Test
Mechanical
Vibration
* Pulse: 11 ms
* Peak level: 30 g
* Shock pulse: 3
times/Axis
* Peak acceleration: 20 g
* Frequency: 20~2000 ㎐
* Sweep time: 30 Minutes
* 4 Times/Axis
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2 Jan 2015
SDIX-100, SDIX-100C (Ver. 1.2)
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EMC Test Data
1) EMI: Meet FCC class A (ICES-003) and CE class A
STANDARDS
EN 55 022 (CISPR22)
FCC; PART 15 SUBPART B
CONDITIONS
CE (Conducted Emission) &
RE (Radiated Emission)
Meet Class A
EN 61000-3-2 (IEC 61000-3-2)
Harmonics
Meet Class A
EN 61000-3-3 (IEC 61000-3-3)
Flickers
Meet Class A
2) EMS: Meet CE standards (EN 55024) and CISPR24 equivalents
STANDARDS
EN 61 000-4-2:1995
EN 61 000-4-3:1996
CONDITIONS
Electrostatic Discharge Immunity
(Air: 8kv, Contact: 4kv)
Radiated RF E-Field (80~1000 MHz)
3V/m (AM 80%, 1kHz)
Meet Criterion B
Meet Criterion A
EN 61 000-4-4:1995
Fast Transients (5kHz, 60Seconds)
Meet Criterion B
EN 61 000-4-5:1995
Surge Transients
Meet Criterion B
EN 61 000-4-6:1996
Conducted Susceptibility (CS)
Radiated Susceptibility (RS)
Meet Criterion A
EN 61 000-4-11:1994
Voltage Dips, Interruption & Variation
Meet Criterion C
Terminology
DDC
DVI-D
EDID
EMI
EMS
HDCP
PDP
RFI
TFT-LCD
TMDS
VCSEL
VESA
Digital Display Channel. Latest specification is DDC2B.
Digital Visual Interface. Digital connection only – no analog.
Extended Display Identification Data. EDID parameters are sent over the DDC link.
Electro Magnetic Interference.
Electro Magnetic Susceptibility.
High Definition Content Protection. These parameters are part of the 2002 High
Definition Multimedia Interface (HDMI) specification for Consumer Electronics.
Plasma Display Panel. Large HDTV panels up to 63” use this display technology.
Radio Frequency Interference.
Thin Film Transistor Liquid Crystal Display – the technology of most computer display
panels with VESA resolutions up to 1600x1200 pixels.
Transmission Minimized Differential Signalling is the Silicon Image Inc. protocol for the
digital signals.
Vertical Cavity Surface Emitting Laser transmitter diode. The receiver diode is the PINPhoto Diode. These components are designed and manufactured by Opticis.
Video Electronics Standards Association.
Copyright © 2015, All rights reserved by Opticis Co., Ltd.
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2 Jan 2015
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