S19227PBI-2 Applied Micro Circuits Corporation, S19227PBI-2 Datasheet
S19227PBI-2
Manufacturer Part Number
S19227PBI-2
Description
Manufacturer
Applied Micro Circuits Corporation
Datasheet
1.S19227PBI-2.pdf
(5 pages)
Specifications of S19227PBI-2
Lead Free Status / Rohs Status
Not Compliant
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Manufacturer
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Price
Company:
Part Number:
S19227PBI-2
Manufacturer:
MAXIM
Quantity:
576
FINAL/Production Release Information - The information contained
in this document is about a product that has been fully tested, charac-
tereized, and is producted released. All features described herein are
supported. Contact AMCC for updates to this document and the latest
product status.
RUBICON-LH
FEATURES
“Right Sized” Transport of 10GE-LAN signals through
OTN Network
Superb I/O flexibility with industry standard SFI4P1
support on both line and client ports of device.
Integrated Patented Dispersion Compensation Control
Circuitry for Client and Line interfaces (second
generation of AMCC’s DispersionXX solution)
Easy software migration from industry leading AMCC
NIAGARA FEC device
10GE & OC192/48/12/3 DW/FEC/PM and AsyncMap Device with Strong FEC
• GFP encapsulation used for packing 10GE-LAN signal into
• Two different flow-control options used on client to allow for
• 10GE-LAN into OC192C (through GFP) to allow for SONET
• Proprietary 10GE-LAN map to OTU-2 without transport rate
• Proven CMOS I/O from AMCC.
• Provides up to 705Mbps per I/O, covering 11.1GHz operation
• Provides port swapping and output dual feed features for 1 + 1
• Proven in AMCC’s DispersionXX solution (NIAGARA and
• Available with the use of the S3394.
• Available on both client and line interfaces of Rubicon.
• Best-in-class optical fidelity solution providing longest reach
• Significant reuse of the Niagara register map in Rubicon.
“Right Sized” OTU-2 signal resulting in channel rate of 10.7
GHz.
10GE-LAN signal to be packed into OTU-2.
grooming of 10GE client.
increase or client flow control.
for full bandwidth 10GE-LAN client in an OTUk formatted signal
and 11.27GHz operation for 10G Fibre Channel client in an
OTUk formatted signal.
line protection scheme.
S3094).
without regeneration.
O T N N e t w o r k / L i n e
O T N N e t w o r k / L i n e
O T N N e t w o r k / L i n e
O T N N e t w o r k / L i n e
S F I - 4 ( 1 0
S F I - 4 ( 1 0
S F I - 4 ( 1 0
S F I - 4 ( 1 0
G B P S )
G B P S )
G B P S )
G B P S )
I n t e r f a c e
I n t e r f a c e
I n t e r f a c e
I n t e r f a c e
A n a l y s i s
A n a l y s i s
A n a l y s i s
A n a l y s i s
P N g e n
P N g e n
P N g e n
P N g e n
P a t t e r n
P a t t e r n
P a t t e r n
P a t t e r n
E r r I n s
E r r I n s
E r r I n s
E r r I n s
& E r r
& E r r
& E r r
& E r r
R e g i s t e r
R e g i s t e r
R e g i s t e r
R e g i s t e r
B Y P A S S
B Y P A S S
B Y P A S S
B Y P A S S
B Y P A S S
B Y P A S S
B Y P A S S
B Y P A S S
1 6
1 6
u P I / F
u P I / F
u P I / F
u P I / F
M a p
M a p
M a p
M a p
Empowering Intelligent Optical Networks
D e c o d e r
D e c o d e r
D e c o d e r
D e c o d e r
E n c o d e r
E n c o d e r
E n c o d e r
E n c o d e r
E F E C
E F E C
E F E C
E F E C
E F E C
E F E C
E F E C
E F E C
I n t e r r u p t
I n t e r r u p t
I n t e r r u p t
I n t e r r u p t
C o n t r o l
C o n t r o l
C o n t r o l
C o n t r o l
I n g r e s s / E g r e s s
I n g r e s s / E g r e s s
I n g r e s s / E g r e s s
I n g r e s s / E g r e s s
Figure 1: Block Diagram
O D U - 2 O H
O D U - 2 O H
O D U - 2 O H
O D U - 2 O H
A d d / D r o p
A d d / D r o p
A d d / D r o p
A d d / D r o p
B Y P A S S
B Y P A S S
B Y P A S S
B Y P A S S
B Y P A S S
B Y P A S S
B Y P A S S
B Y P A S S
G.709 ODU-2 Synchronous and Asynchronous mapping
G.709 ODU-1 Synchronous and Asynchronous mapping
G.709 Overhead processing
Ingress and Egress Client Data Performance Monitoring
Industry Standard RS(255,239)
6.2 dB Coding Gain
• Minimal effort and maximum benefit upgrade path from original
• 1 x OC192/STM-64 mapping (239,237) per G.709.
• Direct map (239,238) into ODU – 2.
• 1 x OC48/STM-16 mapping (239,238) per G.709.
• Direct map (239,238) into ODU-1.
• Bi-directional add-drop ODU-1, ODU-2.
• Bi-direction G.709 Overhead Processing and optional OTU2
• Dedicated GCC ports.
• 1 x OC192/48/12/3 TOH add-drop and processing.
• 8B/10B Monitoring.
• 10GE Monitoring.
• SONET/SDH section and line termination.
• TOH add-drop port.
• LOS, OOF, LOF detection.
• B1, B2 monitoring with programmable Signal Degrade and Sig-
• J0 Monitoring, SDH and SONET modes.
• K1, K2 monitoring for APS changes, line AIS and line RDI.
• Automatic, interrupt-driven, or manual AIS insertion.
• Frame boundary output.
• G.709 Compliant Frame Structure.
• Compatible with AMCC’s S19203 (HUDSON) and S19208
P M
P M
P M
P M
D u a l 1 0 G E M A C
D u a l 1 0 G E M A C
D u a l 1 0 G E M A C
D u a l 1 0 G E M A C
DispersionXX (NIAGARA and S3094) solution.
Fixed Stuff Columns access.
nal Fail thresholds.
(NIAGARA).
T O H A d d / D r o p
T O H A d d / D r o p
T O H A d d / D r o p
T O H A d d / D r o p
I n g r e s s E g r e s s
I n g r e s s E g r e s s
I n g r e s s E g r e s s
I n g r e s s E g r e s s
P M
P M
P M
P M
S O N E T / S D H
S O N E T / S D H
S O N E T / S D H
S O N E T / S D H
Part Number S19227PBI-2
E n c o d e r
E n c o d e r
E n c o d e r
E n c o d e r
D e c o d e r
D e c o d e r
D e c o d e r
D e c o d e r
F E C
F E C
F E C
F E C
F E C
F E C
F E C
F E C
R - S
R - S
R - S
R - S
R - S
R - S
R - S
R - S
B Y P A S S
B Y P A S S
B Y P A S S
B Y P A S S
B Y P A S S
B Y P A S S
B Y P A S S
B Y P A S S
(at 10
A n a l y s i s
A n a l y s i s
A n a l y s i s
A n a l y s i s
P N g e n
P N g e n
P N g e n
P N g e n
P a t t e r n
P a t t e r n
P a t t e r n
P a t t e r n
E r r I n s
E r r I n s
E r r I n s
E r r I n s
& E r r
& E r r
& E r r
& E r r
C l i e n t o r O T N
C l i e n t o r O T N
C l i e n t o r O T N
C l i e n t o r O T N
-15
CER)
I n t e r f a c e
I n t e r f a c e
I n t e r f a c e
I n t e r f a c e
S F I - 4 ( 1 0
S F I - 4 ( 1 0
S F I - 4 ( 1 0
S F I - 4 ( 1 0
G B P S )
G B P S )
G B P S )
G B P S )
Forward Error Correction
Revision 1.0, March 2006
Product Brief
with
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S19227PBI-2 Summary of contents
Page 1
... G.709 Compliant Frame Structure. • Compatible with AMCC’s S19203 (HUDSON) and S19208 (NIAGARA). Figure 1: Block Diagram Empowering Intelligent Optical Networks Product Brief Part Number S19227PBI-2 Revision 1.0, March 2006 Forward Error Correction -15 (at 10 CER & & & & with ...
Page 2
... Niagara; that is, the line rate will run at 7% above the client rate with the full 10GE-LAN being mapped into an expanded OTU-2 frame. In this mode, the line rate of the Rubicon Empowering Intelligent Optical Networks Product Brief Part Number S19227PBI-2 Revision 1.0, March 2006 ...
Page 3
... Rubicon-LH device in sockets designed for the Niagara chip. This capability will allow the customer to use a more feature rich and lower power dissipation device in the target socket. Empowering Intelligent Optical Networks Product Brief Part Number S19227PBI-2 Revision 1.0, March 2006 - 3 ...
Page 4
... Figure 2: OC192/STM64 to OTU-2 Edge Transponder R ubicon - R ubicon - R ubicon - R ubicon - ispersionXX-2 C hipset D ispersionXX-2 C hipset Empowering Intelligent Optical Networks Product Brief Part Number S19227PBI-2 Revision 1.0, March 2006 S19235 S19235 S19235 S19235 S3394 S3394 S3394 S3394 TU2 TU2 TU2 TU2 10 ...
Page 5
... Maros Maros Maros Maros DispersionXX-2 Chipset DispersionXX-2 Chipset DispersionXX-2 Chipset DispersionXX-2 Chipset Empowering Intelligent Optical Networks Product Brief Part Number S19227PBI-2 Revision 1.0, March 2006 S19235 S19235 S19235 S19235 S19235 S19235 S19235 S19235 S3394 S3394 S3394 S3394 S3394 S3394 S3394 S3394 ...