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Video SMPTE SFP

Video SMPTE SFP

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Description

Fiber Optic Transport of HD/SD-SDI It is becoming increasingly necessary and economically feasible to transport HD/SD-SDI signals over fiber instead of coaxial cable. The reasons are many including increased bandwidth, lower cabling cost, noise immunity and greater transmission distances. Prior to 2006, several standards were used to define how SDI signals were to be transported over fiber. Now, there is one standard to define the many aspects and parameters of the fiber optic interface for the transmission and reception of SDI over fiber. SMPTE 297-2006: This standard defines the fiber optic interface for the transmission and reception of SDI signals at various data rates: 12G, 6G, SMPTE 259M: 143 through 360 Mbps SMPTE 344M: 540 Mbps SMPTE 292: 1.485 and 1.485/1.001 Gbps SMPTE 424M: 2.97 and 2.97/1.001 Gbps SMPTE 297-2006 defines many parameters of the optical interface for both a transmitting and receiving device with a fiber optic interface. The input to a fiber Transmitter can be any one of the SMPTE coaxial-based standards indicated above. On the Receiver, the output will be of the same coaxial interface type of the Transmitter. The significance of the new 297 standard is that it allows for interoperability between fiber optic devices from different manufacturers that comply with the standard.

Features
Fiber Optic Transport of HD/SD-SDI
It is becoming increasingly necessary and economically feasible to transport HD/SD-SDI signals over fiber instead of coaxial cable. The reasons are many including increased bandwidth, lower cabling cost, noise immunity and greater transmission distances. Prior to 2006, several standards were used to define how SDI signals were to be transported over fiber. Now, there is one standard to define the many aspects and parameters of the fiber optic interface for the transmission and reception of SDI over fiber.

SMPTE 297-2006: This standard defines the fiber optic interface for the transmission and reception of SDI signals at various data rates: 3G ~ 12G
SMPTE 259M: 143 through 360 Mbps
SMPTE 344M: 540 Mbps
SMPTE 292: 1.485 and 1.485/1.001 Gbps
SMPTE 424M: 2.97 and 2.97/1.001 Gbps

SMPTE 297-2006 defines many parameters of the optical interface for both a transmitting and receiving device with a fiber optic interface. The input to a fiber Transmitter can be any one of the SMPTE coaxial-based standards indicated above. On the Receiver, the output will be of the same coaxial interface type of the Transmitter. The significance of the new 297 standard is that it allows for interoperability between fiber optic devices from different manufacturers that comply with the standard.

Application
¡ñ Video and Studio equipment

Ordering information

SMPTE 12G Digital Video Transceiver, Single TX, Single RX, Dual RX, Dual TX

P/N Package Data Rate Temperature Module Type MSA
12G Video Transceiver SFP+
FT-AM-P-1312G-10-RXX SFP+ 0.27~11.88Gbps C Transceiver MSA
FT-AM-P-1312G-10-RNXX SFP+ 0.27~11.88Gbps C Transceiver NON-MSA
FT-AM-P-1612G-14XRXX CWDM SFP+ 0.27~11.88Gbps C Transceiver MSA
FT-AM-P-1612G-14XRNXX CWDM SFP+ 0.27~11.88Gbps C Transceiver NON-MSA
12G Video Receiver SFP+
FT-AM-P-12G-R-RXX SFP+ 0.27~11.88Gbps C Single receiver MSA
FT-AM-P-12G-R-RNXX SFP+ 0.27~11.88Gbps C Single receiver NON-MSA
FT-AM-P-12G-DR-RNXX SFP+ 1.485~11.88Gbps C Dual receiver NON-MSA
12G Video Transmitter SFP+
FT-AM-P-1312G-T-10-R SFP+ 0.27~11.88Gbps C Single transmitter MSA
FT-AM-P-1312G-T-10-RN SFP+ 0.27~11.88Gbps C Single transmitter NON-MSA
FT-AM-P-1312G-DT-10-RN SFP+ 1.485~11.88Gbps C Dual transmitter NON-MSA
FT-AM-P-1612G-T-XR CWDM SFP+ 0.27~11.88Gbps C Single transmitter MSA
FT-AM-P-1612G-T-XRN CWDM SFP+ 0.27~11.88Gbps C Single transmitter NON-MSA
FT-AM-P-1612G-DT-XYRN CWDM SFP+ 1.485~11.88Gbps C Dual transmitter NON-MSA

When XX=PS (only for transceiver and receiver) represents it supports pathological signals. When XX=blank (only for transceiver and receiver) represents it doesn't support pathological signals. No CDR version (replace "R" in PN with "V") for application when there is CDR in host side.

 

 

 

 

 

Important Notice

Performance figures, data and any illustrative material provided in this data sheet are typical and must be specifically confirmed in writing by F-tone Networks before they become applicable to any particular order or contract. In accordance with the F-tone Networks policy of continuous improvement specifications may change without notice.

The publication of information in this data sheet does not imply freedom from patent or other protective rights of F-tone Networks or others. Further details are available from any F-tone Networks sales representative.

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