PUBLIC REV2017 M Transceiver Product Guide · 2019-07-29 · PUBLIC_REV2017_M TRANSCEIVER PRODUCT GUIDE Skylaneoptics.com. Transceivers for Datacom and Telecom ... ALL PRODUCTS ARE

TransceiverProduct Guide

PUBLIC_REV2017_M

Skylaneoptics.comTRANSCEIVER PRODUCT GUIDE

Transceivers for Datacom and Telecom Applications

Data Center

Optimized fiber optic solution for Data Center Application

FTTH

Broad Product Portfoloio and Technology for FTTH Broadband Networks

Wireless

Enabling Rapid Expnsion of Mobile Broadband

Enterprise - Campus

We provides the enterprise network market with the most comprehensive product combinations

Skylane Optics is a leading provider of transceivers for optical communication. We offer an extensive portfolio for the enterprise, access, and metropolitan fiber optical market.

The offerings provided by Skylane Optics are characterized by high quality and performance. In combination with our strong technical support, we enable our customers to build cost optimized network solutions solving existing and future capacity needs.

Solutions

P01TRANSCEIVER PRODUCT GUIDE

TRANSCEIVER PRODUCT GUIDE

Our Engineering and Logistics Center

> Inventory, logistics, programming and quality > control based in Fraire, Belgium> IQC [Incoming Quality Control] and OQC > [Outgoing Quality Control]> 100% optimized for handling of transceivers> SD [ANSI/ESD S20.20] compliant> Clean room environment; class 100K> Traceability> High Capacity

Products

Our Laboratory

> Lab, based in Fraire, Belgium> Technical support> RMA handling> Qualification tests:

> - Measure performance over the temperature > - range to verify compliance with standards > - Compliance with standards (IEEE, IEC, MSA) > - Power consumption > - Eye diagram > - Sensitivity > - Wavelength

Part Number Nomenclature

P02

TRANSCEIVER PRODUCT GUIDE


Why Skylane Optics ?

Technical SupportHighly experienced Skylane Optics engi-neers will visit your facility to solve your issues.

Mutli CompatibilitySkylane Optics offers the most cost-effec-tive solutions for all major platforms with the proprietary firmware.

CustomizationDue to our high experienced engineers, we are enable to modify the hardware and software of the transceivers. We are also able to produce transceivers with withe labelling.

Quality & AssuranceWe have cutting-edge test equipment to ensure we supply high quality products.

Innovations for Early AdoptersThe manufacturing environment is strictly compliant to most avanced standard, which ensure long term reliability.

Skylane Optics transceivers are certified by TUV.> EN 60950-1:2006 ITE, Safety, General require-

ments> EN 60825-1:2007 Safety of laser products> EN 60825-2:2004 Safety of Optical Fiber Commu-nication Systems

Skylane Optics transceivers are CE and ROHS com-pliant.

Skylane Optics transceivers are certified by UL

Certifications

P03



Products

SFP28 QSFP28 Skygate


1 0 0 G B a s e - S R 4

1 P o w e r d i s s i p a t i o n < 2 W, 0 ° t o 7 0 ° C . 2 C W D M : d i s t a n c e i n d i c a t i v e o n l y 3 O t h e r t e m p e r a t u r e r a n g e s a n d D i g i t a l D i a g n o s t i c o p t i o n s a r e a v a i l a b l e . P l e a s e c o n s u l t t h e p r o d u c t d a t a s h e e t . 4 W o r k s o n l y i n e q u i p m e n t w h e r e S G M I I i s s u p p o r t e d . 5 C o n n e c t o r t y p e : 0 i s L C a n d 3 i s S C . P l e a s e c o n s u l t d a t a s h e e t f o r m o r e i n f o r m a t i o n . 6 T h i s p r o d u c t a l l o w s y o u t o p l u g S F P + i n t o X 2 h o u s i n g . P l e a s e c o n s u l t t h e d a t a s h e e t f o r m o r e i n f o r m a t i o n . 7 C W D M I T U c h a n n e l s a r e 4 7 / 4 9 / 5 1 / 5 3 / 5 5 / 5 7 / 5 9 / 6 1 . O t h e r c h a n n e l s m a y b e a v a i l a b l e , p l e a s e c h e c k d a t a s h e e t . 8 D W D M I T U c h a n n e l s f r o m C - b a n d ( f r o m 1 7 t o 6 1 ) . 9 P o w e r b u d g e t d o e s n o t i n c l u d e d i s p e r s i o n p e n a l t y . P l e a s e c h e c k d a t a s h e e t f o r m o r e i n f o r m a t i o n . 1 0 C - S F P ( C o m p a c t S F P ) a r e a v a i l a b l e a s O p t i o n 2 , M S A c o m p l i a n t . O t h e r a l t e r n a t i v e s , p l e a s e c o n t a c t S k y l a n e O p t i c s . 1 1 x x x i n p a r t n u m b e r i n d i c a t e s c a b l e l e n g t h . 1 2 I T U - T G 6 9 4 . 2 . 1 3 I T U - T G . 6 9 4 . 1 . 1 4 C AT 5 c a b l e . 1 5 S G M I I . 1 6 P r o d u c t u n d e r d e v e l o p m e n t . 1 7 x x x i n p a r t n u m b e r i n d i c a t e s d i s t a n c e . 1 8 O t h e r c o m b i n a t i o n s a r e a v a i l a b l e . 1 9 B r e a k o u t c a b l e . 2 0 C W D M 4 M S A . 2 1 C L R 4 A l l i a n c e . 2 2 C AT 6 c a b l e . 2 3 4 0 K m w i t h F E C 3 0 K m w i t h o u t F E C .


A L L P R O D U C T S A R E D D M ǀ F O R C A B L E S P L E A S E C H E C K T H E R E F E R R E D P R O D U C T G U I D E ǀ S M : S I N G L E M O D E ǀ M M : M U LT I M O D E ǀ � S U P P O R T E D R AT E

QSFP28

CFP

CFP2

CFP4

1 0 0 G B a s e - S R 4 Q 2 8 8 5 P 1 0 C 0 P F 1 0 3 G b / s R i b b o n F i b e r / M M 8 5 0 n m 4 x V C S E L 4 x P I N 1 0 0 m � 0 ° C t o 7 0 ° C M P O

1 0 0 G B a s e - S R 4 / O T U 4 Q 2 8 8 5 P 1 0 C 1 P F 1 1 2 G b / s R i b b o n F i b e r / M M 8 5 0 n m 4 x V C S E L 4 x P I N 1 0 0 M � � 0 ° C t o 7 0 ° C M P O

1 0 0 G B a s e - e S R 4 Q 2 8 8 5 P 3 0 C 0 P F 1 0 3 G b / s R i b b o n F i b e r / M M 8 5 0 n m 4 x V C S E L 4 x P I N 3 0 0 M � 0 ° C t o 7 0 ° C M P O

100GBase-eSR4/OTU4 Q 2 8 8 5 P 3 0 C 1 P F 1 1 2 G b / s R i b b o n F i b e r / M M 8 5 0 n m 4 x V C S E L 4 x P I N 3 0 0 M � � 0 ° C t o 7 0 ° C M P O

1 0 0 G B a s e - P S M 4 Q 2 8 1 3 P 5 0 C 0 P D 1 0 3 G b / s R i b b o n F i b e r / S M 1 3 1 0 n m 4 x D F B 4 x P I N 5 0 0 m � 0 ° C t o 7 0 ° C M P O

1 0 0 G B a s e - C W D M 4 Q 2 8 Q L 0 0 2 C 0 0 F 1 0 3 G b / s D u a l F i b r e / S M 1 2 7 0 / 1 2 9 0 / 1 3 1 0 / 1 3 3 0 n m 4 x C W D M D F B 4 x P I N 2 k m � 0 ° C t o 7 0 ° C L C 2 0

1 0 0 G B a s e - C L R 4 Q 2 8 Q L 0 0 2 C 0 0 D 1 0 3 G b / s D u a l F i b r e / S M 1 2 7 0 / 1 2 9 0 / 1 3 1 0 / 1 3 3 0 n m 4 x C W D M D F B 4 x P I N 2 k m � 0 ° C t o 7 0 ° C L C 2 1

1 0 0 G B a s e - L R 4 Q 2 8 Q D 0 1 0 C 0 0 D 1 0 3 G b / s D u a l F i b r e / S M L A N - W D M 8 0 0 G H z 4 x E M L / D F B 4 x P I N 1 0 k m � 0 ° C t o 7 0 ° C L C

1 0 0 G B a s e - L R 4 / O T U 4 Q 2 8 Q D 0 1 0 C 1 0 D 1 1 2 G b p s D u a l F i b r e / S M L A N - W D M 8 0 0 G H z 4 x E M L 4 x P I N 1 0 k m � � 0 ° C t o 7 0 ° C L C

1 0 0 G B a s e - E R 4 L i t e Q 2 8 Q D 0 4 0 C 0 0 F 1 0 3 G b / s D u a l F i b r e / S M L A N - W D M 8 0 0 G H z 4 x E M L 4 x P I N 4 0 k m � 0 ° C t o 7 0 ° C L C 2 3

100GBase-ER4/OTU4 Lite Q 2 8 Q D 0 4 0 C 1 0 F 1 1 2 G b p s D u a l F i b r e / S M L A N - W D M 8 0 0 G H z 4 x E M L 4 x P I N 4 0 k m � � 0 ° C t o 7 0 ° C L C 2 3

1 0 0 G B a s e - L R 4 C F P Q D 0 1 0 C 0 0 D 1 0 3 G b / s D u a l F i b r e / S M L A N - W D M 8 0 0 G H z 4 x E M L 4 x P I N 1 0 k m � 0 ° C t o 7 0 ° C L C

1 0 0 G B a s e - L R 4 O T U 4 C F P Q D 0 1 0 C 1 0 D 1 1 2 G b p s D u a l F i b r e / S M L A N - W D M 8 0 0 G H z 4 x E M L 4 x P I N 1 0 k m � � 0 ° C t o 7 0 ° C L C

1 0 0 G B a s e - E R 4 C F P Q D 0 4 0 C 0 0 D 1 0 3 G b / s D u a l F i b r e / S M L A N - W D M 8 0 0 G H z 4xCWDM DFB+SOA 4 x P I N 4 0 k m � 0 ° C t o 7 0 ° C L C

1 0 0 G B a s e - E R 4 / O T U 4 C F P Q D 0 4 0 C 1 0 D 1 1 2 G b p s D u a l F i b r e / S M L A N - W D M 8 0 0 G H z 4xCWDM DFB+SOA 4 x P I N 4 0 k m � � 0 ° C t o 7 0 ° C L C

1 0 0 G B a s e - L R 4 C F 2 Q D 0 1 0 C 0 0 D 1 0 3 G b / s D u a l F i b r e / S M L A N - W D M 8 0 0 G H z 4 x E M L 4 x P I N 1 0 k m � 0 ° C t o 7 0 ° C L C

1 0 0 G B a s e - L R 4 / O T U 4 C F 2 Q D 0 1 0 C 1 0 D 1 1 2 G b p s D u a l F i b r e / S M L A N - W D M 8 0 0 G H z 4 x E M L 4 x P I N 1 0 k m � � 0 ° C t o 7 0 ° C L C

1 0 0 G B a s e - E R 4 C F 2 Q D 0 4 0 C 0 0 D 1 0 3 G b / s D u a l F i b r e / S M L A N - W D M 8 0 0 G H z 4xCWDM DFB+SOA 4 x P I N 4 0 k m � 0 ° C t o 7 0 ° C L C

1 0 0 G B a s e - E R 4 / O T U 4 C F 2 Q D 0 4 0 C 1 0 D 1 1 2 G b p s D u a l F i b r e / S M L A N - W D M 8 0 0 G H z 4xCWDM DFB+SOA 4 x P I N 4 0 k m � � 0 ° C t o 7 0 ° C L C

1 0 0 G B a s e - L R 4 C F 4 Q D 0 1 0 C 0 0 D 1 0 3 G b / s D u a l F i b r e / S M L A N - W D M 8 0 0 G H z 4 x E M L 4 x P I N 1 0 k m � 0 ° C t o 7 0 ° C L C

1 0 0 G B a s e - L R 4 / O T U 4 C F 4 Q D 0 1 0 C 1 0 D 1 1 2 G b p s D u a l F i b r e / S M L A N - W D M 8 0 0 G H z 4 x E M L 4 x P I N 1 0 k m � � 0 ° C t o 7 0 ° C L C

1 0 0 G B a s e - E R 4 L i t e C F 4 Q D 0 4 0 C 0 0 F 1 0 3 G b / s D u a l F i b r e / S M L A N - W D M 8 0 0 G H z 4 x E M L 4 x P I N 4 0 k m � 0 ° C t o 7 0 ° C L C 2 3

100GBase-ER4/OTU4 Lite C F 4 Q D 0 4 0 C 1 0 F 1 1 2 G b p s D u a l F i b r e / S M L A N - W D M 8 0 0 G H z 4 x E M L 4 x P I N 4 0 k m � � 0 ° C t o 7 0 ° C L C 2 3

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QSFP+

SFP28

SFP+



A L L P R O D U C T S A R E D D M F O R C A B L E S P L E A S E C H E C K T H E R E F E R R E D P R O D U C T G U I D E ǀ S M : S I N G L E M O D E ǀ M M : M U LT I M O D E ǀ � S U P P O R T E D R AT E

4 0 G B a s e - S R 4 Q F P 8 5 x x x 4 0 P D 4 0 G b / s R i b b o n F i b e r - M M 8 5 0 n m 4 x V C S E L 4 x P I N 1 0 0 / 3 0 0 m � 0 ° C t o 7 0 ° C M P O

4 0 G B a s e - P S M 4 I R 4 Q F P 1 3 C 1 4 4 0 P D 4 0 G b / s R i b b o n F i b e r - S M 1 3 1 0 n m 4 x D F B 4 x P I N 1 , 4 k m � 0 ° C t o 7 0 ° C M P O / A P C

4 0 G B a s e - P S M 4 L R 4 Q F P 1 3 0 1 0 4 0 P D 4 0 G b / s R i b b o n F i b e r - S M 1 3 1 0 n m 4 x D F B 4 x P I N 1 0 k m � 0 ° C t o 7 0 ° C M P O / A P C

4 0 G B a s e - I R 4 Q F P Q L C 1 4 0 0 D 4 0 G b / s D u a l F i b r e - S M 1 2 7 0 / 1 2 9 0 / 1 3 1 0 / 1 3 3 0 n m 4 x C W D M D F B 4 x P I N 1 , 4 k m � 0 ° C t o 7 0 ° C L C

4 0 G B a s e - L X 4 Q F P Q L 0 0 2 4 0 0 D 4 0 G b / s D u a l F i b r e - S M 1 2 7 0 / 1 2 9 0 / 1 3 1 0 / 1 3 3 0 n m 4 x C W D M D F B 4 x P I N 2 k m � 0 ° C t o 7 0 ° C L C

4 0 G B a s e - L R 4 Q F P Q L 0 0 2 4 0 0 U 4 0 G b / s D u a l F i b r e - S M 1 2 7 0 / 1 2 9 0 / 1 3 1 0 / 1 3 3 0 n m 4 x C W D M D F B 4 x P I N 1 0 k m � 0 ° C t o 7 0 ° C L C

4 0 G B a s e - E R 4 Q F P Q L 0 4 0 4 0 0 D 4 0 G b / s D u a l F i b r e - S M 1 2 7 0 / 1 2 9 0 / 1 3 1 0 / 1 3 3 0 n m 4 x C W D M D F B 4 x A P D 4 0 k m � 0 ° C t o 7 0 ° C L C

2 5 G B a s e - S R S 2 8 8 5 P 1 0 2 5 0 F 2 5 G b / s D u a l F i b r e - M M 8 5 0 n m V C S E L P I N 1 0 0 m � - 4 0 ° C t o 8 5 ° C L C

2 5 G B a s e - L R S 2 8 1 3 0 1 0 2 5 0 D 2 5 G b / s D u a l F i b r e - S M 1 3 1 0 n m D F B P I N 1 0 k m � - 4 0 ° C t o 8 5 ° C L C

2 5 G B a s e - E R S 2 8 1 3 0 4 0 2 5 0 F 2 5 G b / s D u a l F i b r e - M M 1 3 1 0 n m E M L A P D 4 0 k m � 0 ° C t o 7 0 ° C L C

2 5 G B a s e - C W D M S 2 C X X 0 1 0 2 5 0 D 2 5 G b / s D u a l F i b r e - S M C W D M I T U c h . C W D M D F B P I N 1 0 k m � - 2 0 ° C t o 8 5 ° C L C

16x F ibe r Channe l SW S P P 8 5 P 1 0 1 6 0 C 1 4 . 0 2 5 G b / s D u a l F i b r e - M M 8 5 0 n m V C S E L P I N 1 0 0 m � � � 0 ° C t o 7 0 ° C L C

1 6 x F i b e r C h a n n e l LW S P P 1 3 0 1 0 1 6 0 C 1 4 . 0 2 5 G b / s D u a l F i b r e - S M 1 3 1 0 n m D F B P I N 1 0 k m � � � 0 ° C t o 7 0 ° C L C

6 G C P R I S R S P P 8 5 P 3 0 L 6 x D 6 . 1 4 4 G b / s D u a l F i b r e / M M 8 5 0 n m V C S E L P I N 3 0 0 m � - 2 0 ° C t o 8 5 ° C L C 1 8

6 G C P R I L R S P P 1 3 0 0 2 L 6 x D 6 . 1 4 4 G b / s D u a l F i b r e - S M 1 3 1 0 n m F P P I N 2 k m � - 4 0 ° C t o 8 5 ° C L C 1 8

6 G C P R I L R S P P 1 3 0 1 0 L 6 2 D 6 . 1 4 4 G b / s D u a l F i b r e - S M 1 3 1 0 n m D F B P I N 1 0 k m � - 4 0 ° C t o 8 5 ° C L C 1 8

1 0 G C P R I S R S P P 8 5 P 3 0 L X 1 D 9 . 8 3 0 G b / s D u a l F i b r e - M M 8 5 0 n m V C S E L P I N 3 0 0 m � - 2 0 ° C t o 8 5 ° C L C 1 8

1 0 G C P R I L R S P P 1 3 0 0 2 L X 2 D 9 . 8 3 0 G b / s D u a l F i b r e - S M 1 3 1 0 n m F P P I N 2 k m � - 4 0 ° C t o 8 5 ° C L C 1 8

1 0 G C P R I L R S P P 1 3 0 1 0 L X 2 D 9 . 8 3 0 G b / s D u a l F i b r e - S M 1 3 1 0 n m D F B P I N 1 0 k m � - 4 0 ° C t o 8 5 ° C L C 1 8

1 0 G B a s e - T S P T 0 0 M 3 0 1 0 0 0 1 0 . 3 G b / s C o p p e r - C o p p e r n / a n / a n / a 3 0 m � � � 0 ° C t o 7 0 ° C R J 4 5 2 2

1 0 G B a s e - S R S P P 8 5 P 3 0 1 0 x D 1 0 . 3 G b / s D u a l F i b r e - M M 8 5 0 n m V C S E L P I N 3 0 0 m � � � � - 4 0 ° C t o 8 5 ° C L C

1 0 G B a s e - L R M S P P 1 3 P 2 2 1 0 x A 1 0 . 3 G b / s D u a l F i b r e - M M 1 3 1 0 n m F P P I N 2 2 0 m � - 4 0 ° C t o 8 5 ° C L C

1 0 G B a s e - L R S P P 1 3 x x x 1 0 x D 1 0 . 3 G b / s D u a l F i b r e - S M 1 3 1 0 n m D F B P I N 1 0 / 2 0 k m � � � � - 4 0 ° C t o 8 5 ° C L C

1 0 G B a s e - E R S P P 1 5 0 4 0 1 0 x D 1 0 . 3 G b / s D u a l F i b r e - S M 1 5 5 0 n m E M L P I N 4 0 k m � � � � - 4 0 ° C t o 8 5 ° C L C

1 0 G B a s e - Z R S P P 1 5 0 8 0 1 0 x D 1 0 . 3 G b / s D u a l F i b r e - S M 1 5 5 0 n m E M L A P D 8 0 k m � � � � - 4 0 ° C t o 8 5 ° C L C

1 0 G B a s e - Z R 1 0 0 S P P 1 5 1 0 0 1 0 0 D 1 0 . 3 G b / s D u a l F i b r e - S M 1 5 5 0 n m E M L A P D 1 0 0 k m � � � � 0 ° C t o 7 0 ° C L C

1 0 G B a s e - C W D M S P C x x B 1 0 1 0 x D 1 0 . 3 G b / s D u a l F i b r e C W D M - S M C W D M I T U c h . C W D M D F B P I N 1 0 d B � � � � - 4 0 ° C t o 8 5 ° C L C 2 , 7 , 9 , 1 2

1 0 G B a s e - C W D M S P C x x 0 4 0 1 0 x D 1 0 . 3 G b / s D u a l F i b r e C W D M - S M C W D M I T U c h . C W D M E M L P I N 1 4 d B / 4 0 k m � � � � - 4 0 ° C t o 8 5 ° C L C 2 , 7 , 9 , 1 2

1 0 G B a s e - C W D M S P C x x 0 7 0 1 0 x D 1 0 . 3 G b / s D u a l F i b r e C W D M - S M C W D M I T U c h . C W D M E M L A P D 2 3 d B / 7 0 k m � � � � - 4 0 ° C t o 8 5 ° C L C 1 2

6 G C P R I C W D M S B H x D x x x L 6 2 D 6 . 1 4 4 G b / s S i n g l e F i b r e C W D M - S M C W D M I T U c h . C W D M D F B P I N 1 0 d B / 1 8 d B � - 4 0 ° C t o 8 5 ° C L C 2 , 7 , 9 , 1 2

6 G C P R I C W D M S B H x U x x x L 6 2 D 6 . 1 4 4 G b / s S i n g l e F i b r e C W D M - S M C W D M I T U c h . C W D M D F B P I N 1 0 d B / 1 8 d B � - 4 0 ° C t o 8 5 ° C L C 2 , 7 , 9 , 1 2

1 0 G B a s e - D W D M S P D x x 0 4 0 1 0 x D 1 0 . 3 G b / s D u a l F i b r e D W D M - S M D W D M I T U c h . D W D M E M L P I N 1 4 d B / 4 0 k m � � � � - 4 0 ° C t o 8 5 ° C L C 8 , 9 , 1 3

1 0 G B a s e - D W D M S P D x x 0 8 0 1 0 x D 1 0 . 3 G b / s D u a l F i b r e D W D M - S M D W D M I T U c h . D W D M E M L A P D 2 3 d B / 8 0 k m � � � � - 4 0 ° C t o 8 5 ° C L C 8 , 9 , 1 3

1 0 G B a s e - Tu n a b l e S P D T U 0 8 0 1 0 x D 1 1 . 3 5 G b / s Tu n a b l e - S M 5 0 G H z D W D M t u n I L M Z A P D 2 3 d B / 8 0 k m � - 4 0 ° C t o 8 5 ° C L C 8 , 9 , 1 3

1 0 G B a s e - B i d i S P B 2 3 x x x 1 0 x D 1 0 . 3 G b / s S i n g l e F i b r e B I D I - S M 1 2 7 0 / 1 3 3 0 n m D F B P I N / A P D 1 0 / 2 0 / 4 0 / 6 0 k m � � � � - 4 0 ° C t o 8 5 ° C L C 1 7

1 0 G B a s e - B i d i S P B 3 2 x x x 1 0 x D 1 0 . 3 G b / s S i n g l e F i b r e B I D I - S M 1 3 3 0 / 1 2 7 0 n m D F B P I N / A P D 1 0 / 2 0 / 4 0 / 6 0 k m � � � � - 4 0 ° C t o 8 5 ° C L C 1 7

1 0 G B a s e - B i d i S P B 4 5 0 8 0 1 0 0 D 1 0 . 3 G b / s S i n g l e F i b r e B I D I - S M 1 4 9 0 / 1 5 5 0 n m E M L A P D 8 0 k m � � � � 0 ° C t o 7 0 ° C L C

1 0 G B a s e - B i d i S P B 5 4 0 8 0 1 0 0 D 1 0 . 3 G b / s S i n g l e F i b r e B I D I - S M 1 5 5 0 / 1 4 9 0 n m E M L A P D 8 0 k m � � � � 0 ° C t o 7 0 ° C L C


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1 0 G B a s e - S R X F P 8 5 P 3 0 1 0 x D 1 0 . 3 G b / s D u a l F i b r e - M M 8 5 0 n m V C S E L P I N 3 0 0 m � - 4 0 ° C t o 8 5 ° C L C

1 0 G B a s e - L R X F P 1 3 0 1 0 1 0 x D 1 0 . 3 G b / s D u a l F i b r e - S M 1 3 1 0 n m D F B P I N 1 0 k m � - 4 0 ° C t o 8 5 ° C L C

1 0 G B a s e - L R / O C - 1 9 2 X F P 1 3 0 1 0 0 H x D 1 1 . 3 5 G b / s D u a l F i b r e - S M 1 3 1 0 n m E M L P I N 1 0 k m � � � - 4 0 ° C t o 8 5 ° C L C 3

1 0 G B a s e - L R X F P 1 3 0 2 0 1 0 x D 1 0 . 3 G b / s D u a l F i b r e / S M 1 3 1 0 n m D F B P I N 2 0 k m � - 4 0 ° C t o 8 5 ° C L C

1 0 G B a s e - E R X F P 1 5 0 4 0 1 0 x D 1 0 . 3 G b / s D u a l F i b r e - S M 1 5 5 0 n m E M L P I N 4 0 k m � - 4 0 ° C t o 8 5 ° C L C

1 0 G B a s e - E R / O C - 1 9 2 X F P 1 5 0 4 0 0 H x D 1 1 . 3 5 G b / s D u a l F i b r e - S M 1 5 5 0 n m E M L P I N 4 0 k m � � � - 4 0 ° C t o 8 5 ° C L C 3

1 0 G B a s e - Z R X F P 1 5 0 8 0 1 0 x D 1 0 . 3 G b / s D u a l F i b r e - S M 1 5 5 0 n m E M L A P D 8 0 k m � - 4 0 ° C t o 8 5 ° C L C

1 0 G B a s e - Z R / O C - 1 9 2 X F P 1 5 0 8 0 0 H x D 1 1 . 3 5 G b / s D u a l F i b r e - S M 1 5 5 0 n m E M L A P D 8 0 k m � � � - 4 0 ° C t o 8 5 ° C L C 3

1 0 G B a s e - C W D M X F C x x B 1 0 1 0 x D 1 0 . 3 G b / s D u a l F i b r e C W D M - S M C W D M I T U c h . C W D M D F B P I N 1 0 d B � - 4 0 ° C t o 8 5 ° C L C 2 , 9 , 1 2

1 0 G B a s e - C W D M X F C x x 0 4 0 1 0 x D 1 0 . 3 G b / s D u a l F i b r e C W D M - S M C W D M I T U c h . C W D M E M L P I N 1 4 d B / 4 0 k m � - 4 0 ° C t o 8 5 ° C L C 2 , 7 , 9 , 1 2

1 0 G B a s e - C W D M X F C x x 0 7 0 1 0 x D 1 0 . 3 G b / s D u a l F i b r e C W D M - S M C W D M I T U c h . C W D M E M L A P D 2 3 d B / 7 0 k m � - 4 0 ° C t o 8 5 ° C L C 2 , 7 , 9 , 1 2

1 0 G B a s e - D W D M X F D x x 0 4 0 1 0 x D 1 0 . 3 G b / s D u a l F i b r e D W D M - S M D W D M I T U c h . D W D M E M L P I N 1 4 d B / 4 0 k m � - 4 0 ° C t o 8 5 ° C L C 8 , 9 , 1 3

10GBase-DWDM/OC-192 X F D x x 0 4 0 0 H x D 1 1 . 3 5 G b / s D u a l F i b r e D W D M - S M D W D M I T U c h . D W D M E M L P I N 1 4 d B / 4 0 k m � � � - 4 0 ° C t o 8 5 ° C L C 8 , 9 , 1 3

1 0 G B a s e - D W D M X F D x x 0 8 0 1 0 x D 1 0 . 3 G b / s D u a l F i b r e D W D M - S M D W D M I T U c h . D W D M E M L A P D 2 3 d B / 8 0 k m � - 4 0 ° C t o 8 5 ° C L C 8 , 9 , 1 3

10GBase-DWDM OC-192 X F D x x 0 8 0 0 H x D 1 1 . 3 5 G b / s D u a l F i b r e D W D M - S M D W D M I T U c h . D W D M E M L A P D 2 3 d B / 8 0 k m � � � - 4 0 ° C t o 8 5 ° C L C 8 , 9 , 1 3

1 0 G B a s e - Tu n a b l e X F D T U 0 8 0 0 H 0 D 1 1 . 3 5 G b / s Tu n a b l e - S M 5 0 G H z D W D M t u n I L M Z A P D 2 3 d B / 8 0 k m � � � 0 ° C t o 7 0 ° C L C 8 , 9 , 1 3

1 0 G B a s e - B i d i X F B 2 3 x x x 1 0 x D 1 0 . 3 G b / s S i n g l e F i b r e ( B I D I ) - S M 1 2 7 0 / 1 3 3 0 n m D F B P I N / A P D 1 0 / 2 0 / 4 0 / 6 0 k m � - 4 0 ° C t o 8 5 ° C L C 1 7

1 0 G B a s e - B i d i X F B 3 2 x x x 1 0 x D 1 0 . 3 G b / s S i n g l e F i b r e ( B I D I ) - S M 1 3 3 0 / 1 2 7 0 n m D F B P I N / A P D 1 0 / 2 0 / 4 0 / 6 0 k m � - 4 0 ° C t o 8 5 ° C L C 1 7

X 2 X 2 S 0 0 0 0 0 1 0 0 D 1 0 . 3 G b / s C o n v e r t e r - n / a n / a n / a n / a n / a � 0 ° C t o 7 0 ° C n / a 6

X e n p a k X P S 0 0 0 0 0 1 0 0 D 1 0 . 3 G b / s C o n v e r t e r - n / a n / a n / a n / a n / a � 0 ° C t o 7 0 ° C n / a 6


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1 0 0 B a s e - L X S F P 1 3 x x x F E x D 1 2 5 M b / s D u a l F i b r e - S M 1 3 1 0 n m F P P I N 2 / 1 0 / 2 0 / 3 0 / 4 0 / 6 0 k m � - 4 0 ° C t o 8 5 ° C L C 3

1 0 0 B a s e - L X S G M I I S G P 1 3 x x x F E x D 1 2 5 M b / s D u a l F i b r e - M M / S M 1 3 1 0 n m F P P I N 2 / 1 0 k m � - 4 0 ° C t o 8 5 ° C L C 4 , 1 5

1 0 0 B a s e - Z X S F P 1 5 0 8 0 F E x D 1 2 5 M b / s D u a l F i b r e - S M 1 5 5 0 n m D F B P I N 8 0 k m � - 4 0 ° C t o 8 5 ° C L C 3

1 0 0 0 B a s e - S X S F P 8 5 P 5 5 G E x D 1 . 2 5 G b / s D u a l F i b r e - M M 8 5 0 n m V C S E L P I N 5 5 0 m � � - 4 0 ° C t o 8 5 ° C L C 3

1 0 0 0 B a s e - L X S F P 1 3 0 0 1 G E x D 1 . 2 5 G b / s D u a l F i b r e - M M 1 3 1 0 n m F P P I N 2 k m � � - 4 0 ° C t o 8 5 ° C L C 3

1 0 0 0 B a s e - L X 4 0 S F P 1 3 x x x G E x D 1 . 2 5 G b / s D u a l F i b r e - S M 1 3 1 0 n m F P P I N 1 0 / 2 0 k m � � - 4 0 ° C t o 8 5 ° C L C 3 , 1 7

1 0 0 0 B a s e - E X S F P 1 3 0 4 0 G E x D 1 . 2 5 G b / s D u a l F i b r e - S M 1 3 1 0 n m D F B P I N 4 0 k m � � - 4 0 ° C t o 8 5 ° C L C 3

1 0 0 0 B a s e - Z X S F P 1 5 x x x G E x D 1 . 2 5 G b / s D u a l F i b r e - S M 1 5 5 0 n m D F B P I N / A P D 6 0 / 8 0 / 1 2 0 k m � � - 4 0 ° C t o 8 5 ° C L C 3 , 1 7

0 C - 4 8 Mult i Rate SX S F P 1 3 0 0 2 PA x D 2 . 6 7 G b / s D u a l F i b r e - S M 1 3 1 0 n m F P P I N 2 k m � � � � � � - 4 0 ° C t o 8 5 ° C L C 3

0 C - 4 8 Mult i Rate L X S F P 1 3 0 2 0 PA x D 2 . 6 7 G b / s D u a l F i b r e - S M 1 3 1 0 n m D F B P I N 2 0 k m � � � � � � - 4 0 ° C t o 8 5 ° C L C 3

OC-48 Mult i Rate LX40 S F P 1 3 0 4 0 PA x D 2 . 6 7 G b / s D u a l F i b r e - S M 1 3 1 0 n m D F B A P D 4 0 k m � � � � � � - 4 0 ° C t o 8 5 ° C L C 3

0 C - 4 8 Mult i Rate E X S F P 1 5 0 4 0 PA x D 2 . 6 7 G b / s D u a l F i b r e - S M 1 5 5 0 n m D F B P I N 4 0 k m � � � � � � - 4 0 ° C t o 8 5 ° C L C 3

0 C - 4 8 Mult i Rate Z X S F P 1 5 0 8 0 PA x D 2 . 6 7 G b / s D u a l F i b r e - S M 1 5 5 0 n m D F B A P D 8 0 k m � � � � � � - 4 0 ° C t o 8 5 ° C L C 3

3 G C P R I B a s e - S X S F P 8 5 P 3 0 L 3 1 D 3 . 0 7 2 G b / s D u a l F i b r e - M M 8 5 0 n m V C S E L P I N 3 0 0 m � - 2 0 ° C t o 8 5 ° C L C 1 8

3 G C P R I S X S F P 1 3 0 0 2 L 3 x D 3 . 0 7 2 G b / s D u a l F i b r e - S M 1 3 1 0 n m F P P I N 2 k m � - 4 0 ° C t o 8 5 ° C L C 1 8

3 G C P R I L X S F P 1 3 0 1 0 L 3 x D 3 . 0 7 2 G b / s D u a l F i b r e - S M 1 3 1 0 n m D F B P I N 1 0 k m � - 4 0 ° C t o 8 5 ° C L C 1 8

1 0 0 0 B a s e - C W D M S F C x x 0 4 0 G E 0 D 1 . 2 5 G b / s D u a l F i b r e C W D M - S M C W D M I T U c h . C W D M D F B P I N 1 6 d B / 4 0 k m � � 0 ° C t o 7 0 ° C L C 2 , 7 , 1 2

1 0 0 0 B a s e - C W D M S F C x x 0 8 0 G E 0 D 1 . 2 5 G b / s D u a l F i b r e C W D M - S M C W D M I T U c h . C W D M D F B P I N 2 4 d B / 8 0 k m � � 0 ° C t o 7 0 ° C L C 2 , 7 , 1 2

1 0 0 0 B a s e - C W D M S F C x x 1 2 0 G E 0 D 1 . 2 5 G b / s D u a l F i b r e C W D M - S M C W D M I T U c h . C W D M D F B A P D 3 2 d B / 1 2 0 k m � � 0 ° C t o 7 0 ° C L C 2 , 7 , 1 2

1 0 0 0 B a s e - C W D M S F C x x 1 6 0 G E 0 D 1 . 2 5 G b / s D u a l F i b r e C W D M - S M C W D M I T U c h . C W D M D F B A P D 4 0 d B / 1 6 0 k m � � 0 ° C t o 7 0 ° C L C 2 , 7 , 1 2

4x Fiber Channel-CWDM S F C x x 0 4 0 4 F 0 D 4 . 2 5 G b / s D u a l F i b r e C W D M - S M C W D M I T U c h . C W D M D F B P I N 1 6 d B / 4 0 k m � � � � 0 ° C t o 7 0 ° C L C 2 , 7 , 1 2

4x Fiber Channel-CWDM S F C x x 0 8 0 4 F 0 D 4 . 2 5 G b / s D u a l F i b r e C W D M - S M C W D M I T U c h . C W D M D F B A P D 2 4 d B / 8 0 k m � � � � 0 ° C t o 7 0 ° C L C 2 , 7 , 1 2

OC-48 Multi Rate CWDM S F C x x 0 4 0 PA x D 2 . 6 7 G b / s D u a l F i b r e C W D M - S M C W D M I T U c h . C W D M D F B P I N 1 6 d B / 4 0 k m � � � � � � - 2 0 ° c t o 8 5 ° C L C 2 , 3 , 7 , 1 2

OC-48 Multi Rate CWDM S F C x x 0 8 0 PA x D 2 . 6 7 G b / s D u a l F i b r e C W D M - S M C W D M I T U c h . C W D M D F B A P D 2 4 d B / 8 0 k m � � � � � � - 2 0 ° c t o 8 5 ° C L C 2 , 3 , 7 , 1 2

3 G C P R I B i d i C W D M S B H x D B 2 2 L 3 2 D 3 . 0 7 2 G b / s S i n g l e F i b r e C W D M - S M C W D M I T U c h . C W D M D F B P I N 2 2 d B � � - 4 0 ° C t o 8 5 ° C L C 2 , 7 , 1 2

3 G C P R I B i d i C W D M S B H x U B 2 2 L 3 2 D 3 . 0 7 2 G b / s S i n g l e F i b r e C W D M - S M C W D M I T U c h . C W D M D F B P I N 2 2 d B � � - 4 0 ° C t o 8 5 ° C L C 2 , 7 , 1 2

1 0 0 0 B a s e - D W D M S F D x x y y y G E 0 D 1 . 2 5 G b / s D u a l F i b r e D W D M - S M D W D M I T U c h . D W D M D F B A P D 8 0 / 1 0 0 / 1 2 0 k m � � 0 ° C t o 7 0 ° C L C 8 , 9 , 1 3

1 0 0 0 B A S E - T S F T 0 0 P 1 0 G E 0 x 1 . 2 5 G b / s C o p p e r - c o p p e r n / a n / a n / a 1 0 0 m � 0 ° C t o 7 0 ° C R J 4 5 1 4

1 0 0 0 B A S E - T S G T 0 0 P 1 0 D R 0 x 1 . 2 5 G b / s C o p p e r - c o p p e r n / a n / a n / a 1 0 0 m � � 0 ° C t o 7 0 ° C R J 4 5 1 4

1 0 0 0 B a s e - B X D S B D 5 3 x x x F E x D 1 2 5 M b / s S i n g l e F i b r e ( B I D I ) - S M 1 5 5 0 / 1 3 1 0 n m F P o r D F B P I N 1 0 / 2 0 / 4 0 / 6 0 k m � - 4 0 ° C t o 8 5 ° C L C / S C 3 , 5 , 1 7

1 0 0 0 B a s e - B X U S B U 3 5 x x x F E x D 1 2 5 M b / s S i n g l e F i b r e ( B I D I ) - S M 1 3 1 0 / 1 5 5 0 n m F P o r D F B P I N 1 0 / 2 0 / 4 0 / 6 0 k m � - 4 0 ° C t o 8 5 ° C L C / S C 3 , 5 , 1 7

1 0 0 0 B a s e - B X D S G M I I S G D 5 3 0 1 0 F E x D 1 2 5 M b / s S i n g l e F i b r e ( B I D I ) - S M 1 5 5 0 / 1 3 1 0 n m F P P I N 1 0 k m � - 4 0 ° C t o 8 5 ° C L C / S C 1 5

1 0 0 0 B a s e - B X U S G M I I S G U 3 5 0 1 0 F E x D 1 2 5 M b / s S i n g l e F i b r e ( B I D I ) - S M 1 3 1 0 / 1 5 5 0 n m F P P I N 1 0 k m � - 4 0 ° C t o 8 5 ° C L C / S C 1 5

1 0 0 0 B a s e - B X D S B D 5 3 x x x G E x D 1 . 2 5 G b / s S i n g l e F i b r e ( B I D I ) - S M 1 5 5 0 / 1 3 1 0 n m D F B P I N 3 / 1 0 / 2 0 / 4 0 / 6 0 k m � � - 4 0 ° C t o 8 5 ° C L C / S C 3 , 5 , 1 7

1 0 0 0 B a s e - B X U S B U 3 5 x x x G E x D 1 . 2 5 G b / s S i n g l e F i b r e ( B I D I ) - S M 1 3 1 0 / 1 5 5 0 n m F P o r D F B P I N 3 / 1 0 / 2 0 / 4 0 / 6 0 k m � � - 4 0 ° C t o 8 5 ° C L C / S C 3 , 5 , 1 7

1 0 0 0 B a s e - B X D S B D 4 3 x x x G E x D 1 . 2 5 G b / s S i n g l e F i b r e ( B I D I ) - S M 1 4 9 0 / 1 3 1 0 n m D F B P I N 1 0 / 2 0 / 4 0 / 6 0 k m � � - 4 0 ° C t o 8 5 ° C L C / S C 3 , 5 , 1 7

1 0 0 0 B a s e - B X U S B U 3 4 x x x G E x D 1 . 2 5 G b / s S i n g l e F i b r e ( B I D I ) - S M 1 3 1 0 / 1 4 9 0 n m F P o r D F B P I N 1 0 / 2 0 / 4 0 / 6 0 k m � � - 4 0 ° C t o 8 5 ° C L C / S C 3 , 5 , 1 7

1 0 0 0 B a s e - B X D S B D 4 3 x x x D R x D 1 . 2 5 G b / s S i n g l e F i b r e ( B I D I ) - S M 1 4 9 0 / 1 3 1 0 n m D F B P I N 1 0 / 2 0 k m � � � - 4 0 ° C t o 8 5 ° C L C / S C 5 , 1 7

1 0 0 0 B a s e - B X U S B U 3 4 x x x D R x D 1 . 2 5 G b / s S i n g l e F i b r e ( B I D I ) - S M 1 3 1 0 / 1 4 9 0 n m F P P I N 1 0 / 2 0 k m � � � - 4 0 ° C t o 8 5 ° C L C / S C 5 , 1 7

1 0 0 0 B a s e - B X D S B D 5 3 x x x D R x D 1 . 2 5 G b / s S i n g l e F i b r e ( B I D I ) - S M 1 5 5 0 / 1 3 1 0 n m D F B P I N 1 0 / 2 0 k m � � � - 4 0 ° C t o 8 5 ° C L C / S C 5 , 1 7

1 0 0 0 B a s e - B X U S B U 3 5 x x x D R x D 1 . 2 5 G b / s S i n g l e F i b r e ( B I D I ) - S M 1 3 1 0 / 1 5 5 0 n m F P P I N 1 0 / 2 0 k m � � � - 4 0 ° C t o 8 5 ° C L C / S C 5 , 1 7

1 0 0 0 B a s e - B X D C S F P S C D 5 3 x x x D R x D 1 . 2 5 G b / s 2xSingle f ibre (C-SFP)-SM 1 5 5 0 / 1 3 1 0 n m D F B P I N 1 0 / 2 0 k m � � � 0 ° C t o 7 0 ° C L C 3 , 1 0 , 1 7

1 0 0 0 B a s e - B X D C S F P S C D 5 3 x x x G E x D 1 . 2 5 G b / s 2xSingle f ibre (C-SFP)-SM 1 5 5 0 / 1 3 1 0 n m D F B P I N 1 0 / 2 0 k m � � 0 ° C t o 7 0 ° C L C 3 , 1 0 , 1 7

1 0 0 0 B a s e - B X D C S F P S C D 4 3 x x x G E x D 1 . 2 5 G b / s 2xSingle f ibre (C-SFP)-SM 1 4 9 0 / 1 3 1 0 n m D F B P I N 1 0 / 2 0 / 4 0 k m � � 0 ° C t o 7 0 ° C L C 3 , 1 0 , 1 7


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PUBLIC REV2017 M Transceiver Product Guide · 2019-07-29 · PUBLIC_REV2017_M TRANSCEIVER PRODUCT GUIDE Skylaneoptics.com. Transceivers for Datacom and Telecom ... ALL PRODUCTS ARE