Telecon and Network Computing Platforms

Telecon and Network Computing Platforms
Telecom & Network
Computing Platforms
Expertise for Modular Mission Critical Computing
CompactPCI Platforms
AdvancedTCA Blades
AdvancedMC Modules
MicroTCA Solutions
Network Application Platforms
www.advantech.com
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Table of Contents
About Telecom & Network Computing Platforms
0-1
Convergence in Communications
0-2
Telecommunication Solutions
0-3
MicroTCA and AdvancedTCA Platforms
0-4
CompactPCI Platforms
0-5
Network Application Platforms
0-6
Advantech Global Services
Support and Manufacturing Services
0-8
Design To Order Services
0-9
Application Stories
Media Gateways
0-10
Network Monitoring & Deep Packet Inspection
0-12
Voice and Data Communications via Satellite
0-13
WiMax Gateway Appliance
0-14
Customized Firewall Systems with Modular Design
0-15
Session Initiation Protocol (SIP) Enabled Firewall Appliance
0-16
All-in-one Unified Threat Management Solution
0-17
Blade Computing Platforms
AdvancedTCA Board
1-0
AdvancedMC Board
1-2
MicroTCA Solution
1-8
6U CompactPCI Boards
1-12
6U CompactPCI Enclosures
1-22
Network Security Platforms
2-0
Network Processor Platform
2-2
2U Rackmount Platforms
2-6
1U Rackmount Platforms
2-8
Tabletop Platforms
2-14
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Telecom & Network
Computing Platforms
Expertise for Modular Mission Critical Computing
CompactPCI Platforms
AdvancedTCA Blades
AdvancedMC Modules
MicroTCA Solutions
Network Application Platforms
www.advantech.com
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About Advantech Telecom and
Network Computing Platforms
Advantech provides mission critical hardware to the world's leading telecom and networking
equipment manufacturers. Whether it’s wired or wireless nodes at the core or edge of the
network, Advantech’s products are embedded in the OEM equipment that our world's
networking and telecommunications infrastructure depends upon.
Our Blade Computing Division, with an extensive CompactPCI deployed base, designs both
standard and customized products for AdvancedTCA, AdvancedMC and MicroTCA. We team
up locally with customers to evaluate project requirements, share design knowledge and
develop optimized solutions together. Our Network Application Platform Division shares the
same principles and engineers X86, network processor and FPGA designs into customized
tabletop, 1U and 2U platforms for the world's leading brands in Network Security.
Advantech's standard commercial off-the-shelf platforms coupled with comprehensive
operating system and middleware support provide the foundations for rapid application
benchmarking. Proof-of-concept systems can be evaluated quickly, allowing a faster timeto-market for OEM and branded product designs or providing the baseline specificiation for a
customized design. Advantech customization services are designed with customer choice and
requirements in mind, allowing our customers to choose the precise level of differentiation or
enhancement they require. This can range from small hardware or mechanical changes, to fullcustom design or complete system branding, bundling and logistics services.
From Reseach & Development and support facilities in the USA, Europe and Asia, our customerfacing project teams link seamlessly into our worldwide network of over 3100 employees. We
manufacture to stringent quality procedures in our own ISO-9001 certified factories in Taiwan
and China and our global integration and logistics centres operate on all continents to provide
unified and localized services for optimum supply chain efficiency.
In this Telecom & Network Computing brochure, Advantech brings together the core
competencies of our Blade Computing Solutions and Network Application Platforms. It mirrors
the changing market requirements we are observing where baseline technologies and platform
scalability needs converge. The products represented here provide a wide range of platform
choices for designers of the next wave of Telecom, Networking and Security appliances.
Advantech-designing a world of products and services for fast and secure global communications.
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Solutions
The Convergence in Communications
IP-based Customer-centric Network Convergence
Voice, data and video networks are converging around the Internet Protocol. Because telecommunications and IT networks were originally
built on separate and disparate technologies with little commonality, it was both complex and costly for service providers to implement new
services. But today, with the convergence to an all-IP network, video, just like voice becomes simply another application which can run on a
standard IT server. Service providers no longer have to rely on customized hardware to create new service offerings and can create customer
value by using software applications to create new services.
A Common Set of Core Technologies
As new multimedia services drive explosive new revenue growth, the use of open-systems internet-base technologies will dramatically reduce
capital and operating costs. In addition the new IP-based applications and services can all employ a common set of core technologies, which
means they can also take advantage of security appliances to handle firewalls, anti-virus, intrusion detection or prevention, spam etc to
mitigate risk.
Synergy and Scalability
Convergence in the network has stimulated synergy between Advantech’s Network Application Platform Division and Blade Computing
Division to propose a scalable offering spanning tabletop appliances for small-to-medium businesses, 1U/2U rack mount appliances for
medium-to-large enterprise and bladed computing elements for large enterprise, data centers and core networks.
Cost Efficiency
Whilst our dedicated appliances target customizable, white-box requirements for cost-effective large volume deployment, our ATCA,
CompactPCI and MicroTCA blades offer a modular, open-standards approach. As MicroTCA is expected to bring greater economies of scale
over time, it will become a key technology for hardware platform convergence by offering common re-usable Advanced Mezzanine Card
technology on a wider scale.
Design Expertise
Our Networking OEM customers are extending their reach into larger-scale enterprise, data center and core network space. Advantech’s
cross-industry expertise in appliances, servers and blade computing elements makes us the ideal technology partner for converged hardware
design expertise. Dedicated software development teams provide Board and Linux Support Packages with pre-tested middleware when
remote platform management and high availability are key requirements.
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Telecommunication Solutions
Open Modular Building Blocks
The telecommunications industry is fundamentally evolving as equipment manufacturers and modular communications platform designers
are repositioned along the telecommunications value chain. Advantech provides foundation building blocks for that value chain in the form of
standard off-the-shelf computing and management blades designed to meet the needs of Telecom Equipment Manufacturers (TEMs). These
building blocks enable our TEM partners to redeploy their resources to focus on differentiated services, such as application development and
network management as they themselves evolve into Telecom solutions providers.
Integration and Partnership
Our Blade Computing Division designs and manufactures blades in AdvancedTCA, AdvancedMC and CompactPCI form factors. We provide
solid and timely technology introductions while designing to stringent industry standard requirements such as NEBS and ETSI. From
experience, we know how to work hand-in-hand with system integrators and TEMs during the pre-certification phase of their integrated
platforms. When standard product adaptation is necessary to meet a TEM partner’s design constraint, Advantech understands how to change,
move or remove connectors and components, re-adjust for EMC and adjust for chassis-specific cooling issues in a timely manner.
Customization
While the AdvancedTCA and MicroTCA ecosystem grows, not all required blade-level functions or elements are available as off-the-shelf
products. That’s why we invested in geo-regional R&D teams to accompany our TEM partners in design-to-order-services (DTOS). Our DTOS
organization offers same time-zone project management for the development of custom or accelerated designs based on our IP design
libraries.
Strong Ecosystem
As TEMs turn their attention to the higher layers of the value chain to create differentiation, we understand that a strong co-working ecosystem
is required to ensure that hardware platforms, operating systems and high-availability middleware components work together. At Advantech
we collaborate closely, and partner with, ecosystem hardware and software vendors to ensure interoperability at the earliest possible stage
in the design cycle. Board Support Packages and Linux Support Packages are developed both internally and in collaboration with the main
industry players. In this way, true time-to-market advantages can be realized.
Economies of Scale
The shift to modular computing and communications platforms is underway. Advantech is firmly committed to helping the telecommunications
industry make a smooth transition to modular platforms, by working closely with the strong worldwide community of hardware developers
and software solutions providers. We acknowledge that through partnership and standards, the telecommunications industry can leverage
enormous horizontal economies of scale to drive down the overall hardware development costs of the next generation of telecommunications
voice and data infrastructure.
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Solutions
MicroTCA & AdvancedTCA Platforms
MicroTCA Overview
MicroTCA has a primary purpose of serving as a platform for telecommunications and enterprise computer network equipment. Its secondary
goal is to function as a platform for other demanding marketplaces, such as Customer Premises Equipment (CPE) and looks set to expand
into a wider cross industry adoption. Ratified in 2006, MicroTCA is complementary to Advanced Telecommunications Computing Architecture
(AdvancedTCA). Where AdvancedTCA is optimized for very high capacity, high performance applications, MicroTCA is designed to address
cost sensitive and physically smaller applications with lower capacity, performance, and perhaps less stringent availability requirements.
MicroTCA preserves many of the important philosophies of AdvancedTCA, including basic interconnect topologies and management structure.
MicroTCA is a highly modular standard where diverse collections of AdvancedMCs (AMCs) in a MicroTCA Shelf provide the foundations for
many different application architectures. The common elements defined by MicroTCA are capable of interconnecting these AMCs in many
interesting ways—powering and managing them, all at high efficiency and low cost. MicroTCA offers a significant advantage because the
same AMCs that connect directly to the MicroTCA Backplane can also be equipped on an AdvancedTCA Carrier Board. At Advantech we are
investing in MicroTCA because we see it as a pervasive convergence technology which will be used on multiple form factor boards in a wide
variety of cross-industry platforms.
AdvancedMCs Are a Leap Forward in Blade Miniaturization, Modularity & Scalability
The ability to use any AMCs that conform to the AMC standard without modification in MicroTCA is an overarching goal of the standard.
Examples of AMCs that could be installed into a MicroTCA shelf include CPUs for control and feature processing; network processing units for
packet processing; DSP AMCs for signal processing; storage AMCs with built-in disk, built-in flash, or external interfaces to storage arrays; and
I/O AMCs for subscriber lines, Ethernet or optical networks. This brochure introduces some of Advantech’s major advances in the MicroTCA
arena.
AdvancedTCA & MicroTCA Product Lines
AdvancedTCA Design
Expertise
MicroTCA System
Management
Scalability and Processing
Density
ATCA solutions are an extension of
Advantech’s
existing
technological
expertise. Over the years, we have
serviced
customers
with
highperformance industrial-grade computing
platforms. With Advantech’s new strength
in AdvancedTCA dual processor designs,
we can help our customers to architect
the exact Telecom control and application
blades that they desire. Our latest
AdvancedTCA CPU boards represent
a clear benchmark for our ATCA design
capabilities.
Our MicroTCA Carrier Hub (MCH) family
combine the control and management
infrastructure and the interconnect fabric
resources needed to support up to twelve
AdvancedMCs. A primary Gigabit Ethernet
fabric interconnects up to 12 AMCs. Onboard Management Controller functions
configure and control the elements and
optionally the shelf. Additional modules
can be added to the MCH for enhanced
switch management, extended fabric
options and external clock connectivity.
For applications where processing power
needs to be scaled to meet changing
application requirements, Advantech’s
processor AMC’s allow highly dense
load-balanced clusters to be built up. Our
processor AMC family provides denselypacked, low power consumption blades
with front or rear GbE connectivity.
Additional PCIe, SATA and USB options
provide a pervasive I/O offering and the
foundation for the multi-core evolution.
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CompactPCI Platforms
Complete CompactPCI Computing Platform Solutions
CompactPCI platforms are widely used for mission-critical telecommunication applications that demand high-serviceability, enhanced
reliability, and vibration/shock resistance. Advantech CompactPCI solutions are designed with the latest technologies and offer excellent
support for rugged design, durability, hot-swapping and CT Buses. All of these great features are available in an easily-expandable
“Eurocard” CompactPCI form factor. Advantech CompactPCI platforms incorporate these characteristics into many unique products,
including processor boards, chassis, rear I/O units, carrier boards and other accessories – and all are designed to bring flexibility and
exceptional value.
Modularized and Customized Design
Advantech understands the variation among applications; therefore, we are committed to provide a complete line-up of CompactPCI
platform solutions to service our customers. Advantech cPCI solutions offer a wide range of 1U to 12U enclosures, as well as both highperformance “professional” and “entry-level” processor boards. Modular design allows customers to mix-and-match solutions based on
specific needs, whether it be CT Bus backplanes or additional enclosed redundant power supplies. For ODM and system integrators,
Advantech offers custom-made equipment tailored to specific applications through Design To Order Services (DTOS). Leveraging the
industry’s leading technology, Advantech can speed your development process and significantly reduce capital investments. We offer
the best combination of technology and price-for-performance. In addition, Advantech provides basic customization services for SBCs,
backplanes, chassis, and system integration.
CompactPCI Product Lines
High Density, Configurable
CompactPCI Enclosures
CompactPCI Single Board
Computers
A Variety of CompactPCI
Peripherals
CompactPCI systems are available in a
full series of 1U to 12U rack-mountable
enclosures. They offer different front/
r e ar pane l I /O s, r e dun dant p owe r
supplies, and cooling mechanisms. The
systems comply with many industr y
standards such as the CompactPCI
packet switching backplane (PICMG
2 .16) t e c h n o l o g y, c P C I h o t - s w a p
(PICMG 2.1) capability and H.110 CT
Bus (PICMG 2.5) specifications. Rugged
design ensures that the enclosures
can provide service in the most severe
environmental conditions and meet the
toughest customer demands.
Intel-based CompactPCI single board
c o m p u t e r s a r e a v a i l a b l e i n m a ny
configurations. The boards range from
high-performance master CPU boards
for mission-critical telecom applications
to more all-round processor boards
for multi-purpose applications. The
high - per for manc e 6U CompactPCI
board features the latest Intel Core 2
Duo processor with exceptional I/O
expandability for VGA/LAN/SCSI/HDD.
These boards are designed to meet
rapidly expanding requirements for
modern Computer Telephony (CT) and
Telecom applications.
Advantech offers a variety of carrier and
interface boards for I/O expansions,
and PMC modules for added platform
features. We provide a complete range
of rear transition boards that interface
with our CompactPCI CPU boards,
plus power supplies and fan modules to
complement the system.
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Solutions
Network Application Platforms
Network Appliances are becoming the mainstream for deploying network security services. Whether it be network security with firewall,
virtual private network (VPN) and intrusion detection/prevention; content security with anti-virus and anti-spam; or network access control
(NAC) content management systems; the use of network appliances lowers maintenance costs compared to traditional software solutions
on standard network servers. As more and more network security functions are delivered via a dedicated appliance, system integrators
need to consider the integration between hardware and software, to provide secure and high-performance network throughput. As
technology progresses, the use of network appliances have moved on to other network application fields, such as traffic management for
WAN optimization and wireless/WiMax gateways.
The Foundation for Secure Networks
Advantech Network Application Platforms are essentially hardware platforms for network appliances. We are dedicated to the research
and development of network security platforms for network security application developers, system integrators and service providers. We
provide a full series of standardised x86-based platforms in tabletop, rackmount 1U and 2U form factors. Our high-performance, rackmountable enterprise platforms feature highly integrated motherboards, LCM control modules and Dual/Quad-core Xeon processor support.
Advantech Network Application Platforms are modular to provide the basis for customized solutions. Our tabletop platforms are compact
and consume minimal power. User-friendly designs satisfy the need of small businesses or home/office applications.
Customization, Design and Integration Capabilities
Based on our standard product lines and form factors, Advantech offers tailor-made products and value-added integration services. Various
customizations are available from chassis color and front cover design, to extensive board-level design innovations. Apart from the standard
x86 platforms, we offer a variety of advanced network security technologies through Design To Order Services. Right from the beginning,
Advantech places you ahead of the competition.
While network convergence is evolving and creates the complexity of network connectivity, the use of network processors has become
an important source of computing power for dealing with such high speed packet processing. Advantech partners with solution vendors
to create the perfect ecosystem to provide the best and innovative solution to the market. Advantech integrates the latest Network
Processing Unit (NPU) with security accelerators and Unified Threat Management (UTM) solutions. The result is a platform that can serve
more advanced network security applications while taking advantage of enhanced network connectivity. Our professional team of experts
understands your computing needs and provides appropriate system integrations and compatibility testing services, so you can focus on
the important innovations that are driving a changing networked world.
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Modular Solutions for Fast & Simple Upgrades
The Advantech network security platform series has a modular design that separates the main processor board from the network expansion
board. The platform can be configured to accommodate a selection of I/O cards with different port densities or types through Advantech’s
proprietary PCI Express (PCIe) interface. Customers may also choose to integrate other vendor’s hardware acceleration solutions through
standard PCI/PCI-X interfaces. This modularity enables our standard platform to be quickly customized for many application-focused
network appliances, offering scalability and flexibility.
This modular design permits quick upgrades to more advanced technologies. So, stepping up to new and innovative requirements for
Internet security applications can be handled efficiently and easily.
PCIe-based Motherboard with Dual-processor Support
High Performance PCIe Ethernet Expansion Boards
PCIe 8-port Copper Module
PCIe 4-port Copper + 4-port
Fiber Module
PCI-X Gigabit Ethernet Expansion Boards
PCI-X 4-port Copper Module
PCI-X 6-port Copper + 2-port
Fiber Module
PCI-X 8-port GbE Copper Module
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Services
Advantech Global Services
Global Presence with a Local Touch
Advantech global services is a comprehensive service model that integrates the three main elements of Advantech’s customer initiation
process, from the product design phase, to manufacturing and after-sales support. Advantech understands the way our customers do
business, and with globalized services, we deliver computing platforms for solution providers around the world faster and more efficiently
than anyone else.
Over the years, advantech has built a strong global network. We have three manufacturing facilities based in Asia, and four design,
service & logistics centers across America, Europe and Asia. We are located in 16 countries and 32 cities. This well established network
helps Advantech develop, design and assemble products to meet our customers’ demanding requirements with maximized flexibility and
efficiency, bringing products to market in a timely and cost-effective manner.
Milpitas, CA, USA
Amberg
Eindhoven, Netherlands
Kunshan, China
Branch
Office
Regional
Logistic
Center
Global
Manufacturing
Center
Design
Center
Taipei, Taiwan
Flexible Global Manufacturing Capability
Advantech complements its design strengths with three world-class production centers in China and Taiwan, ready to meet all your
manufacturing needs. With a full range of products, we can supply large or small volumes, as each customer requires. Each center focuses
on particular production expertise, so we offer top-quality products with faster delivery.
ATMC
Taipei, Taiwan
Land 17,488 m2
Capability • Small Volume Production
• Board & System Products
• ODM/OEM Projects
• Engineering Sample Innovation Services
• Specialized in Complex Product Lines
AKMC
ADMC
66,667 m2
7,000 m2
• Mid-to-High Volume Production
• Board & System Products
• ODM/OEM Projects
• Focused on Mature Product Lines
• Chassis Design & Production
KunShan, China
Dongguan, China
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Design To Order Services
Realize Your Creative Ideas
Advantech Design To Order Services (DTOS) provides a full range of customization services, a one-stop solution for creating system
platforms. We understand the challenges that customers face everyday with respect to the rapid technological changes associated with
complex, evolving designs. As the leading ePlatform services provider, Advantech has the business and technological maturity to work with
you as a long-term ODM partner. Advantech DTOS integrates expert technical knowledge across many application domains with cutting
edge design capabilities and proven industrial ODM processes. DTOS offers the expertise essential for a comprehensive service that can
fulfill many customization demands. Our service benefits clients with faster project development times, lower risks and the assurance of
working with a trusted global leader to achieve win-win solutions.
Advantech DTOS Features
Complete and integrated backend infrastructure to streamline the design process
Board-level customization for diverse applications
Chassis & front panel design and customization
Value-added software and firmware optimization services
Assured reliability and performance benchmarks
Globalized design, service and manufacturing centers
For more information, please go to http://www.advantech.com/DTOS
Focused on High-Performance Computing Applications
Incorporating Advantech’s expertise in Industrial and Network applications, DTOS provides system-level customizations, mainly for the
Network Security, Medical, Telecommunication, Industrial and Public Services markets. Based on different application demands, we offer a
complete range of x86 based industrial boards, available in different sizes and form factors with a wide range of I/O options. For enclosures,
we offer a full range of rackmount & wallmount chassis with front/rear accessible designs. For mission-critical telecommunications,
Advantech offers CompactPCI and AdvancedTCA based board-level solutions that incorporate the latest technology and compliance with
the industry’s latest PICMG standards. For network security applications, Advantech’s x86 based platforms incorporate leading network
accelerators, and tailored add-on expansions that can be configured for various Internet security applications.
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Application
Media Gateways
Customer: Network Equipment Provider
Location: Europe
Introduction
With the growth in data network traffic driving major changes in public networks, the convergence of existing voice traffic onto the
data network infrastructure promises significant benefits (such as reduced costs and simplified network management) for carriers
and enterprises alike. Media gateways that support the integration of Voice over Internet Protocol (VoIP), legacy public switched
telephone network (PSTN), and ATM networks make this convergence possible. A Media Gateway acts as a translation unit between
disparate telecommunications networks and enables multimedia communications via multiple transport protocols. Because a Media
Gateway connects different types of networks, one of its main functions is to convert between the different transmission and coding
techniques. Communication is achieved by means of protocols such as MGCP, Megaco, H.248 and SIP. VoIP Media Gateways
perform the conversion between Time Division Multiplex (TDM) voice to Voice over Internet Protocol (VoIP). Some examples of Media
Gateway applications are:
(1) Multimedia services where callers who wish to select media (such as a radio station, conference broadcast, or song clips)
connect through the Media Gateway to a VoiceXML server for content selection. The Media Gateway then connects the caller to
the desired SIP endpoint, which streams the selected content to the caller.
(2) Contact Centers where calls that arrive over the PSTN are first routed (via SIP signaling) to a speech-enabled self-service
application based on a VoiceXML server. Once it is established that the caller needs to connect to a call agent, the call is
redirected by the Media Gateway to the appropriate agent.
(3) Unified Communications, where voice, voice messaging, email, fax, instant messaging and mobile communications are integrated
to deliver significant productivity gains to employees through a convenient desktop user interface and a separate voice interface
that may also be embedded in business applications.
Solution
One of our European customers, a developer of turn key network equipment solutions needed a hardware partner able to provide a
wide range of scalable platforms for their Media Gateway & Signalling Server product offering. Their platforms needed to scale to 960
ports with multiple T-1/E-1 interfaces for medium and large enterprises deploying a variety of applications such as IP media servers,
remote office connectivity, long-distance consolidation, call centers, messaging, conferencing, self-service, voice portals and more.
The Media Gateway needed to provide PSTN network and signalling with fully integrated gateway and call routing functions. The
Media Gateway also needed to provide SIP and other Internet protocols to provide standards-based interfaces for application servers
and other network resources, including VoiceXML servers and content storage systems.
Entry Level Gateway
Legacy PBX
Media Gateway
ET/T1 Trunks
PSTN
ET/
T1
SS
Trun
ks
ig
7S
na
Firewall & WiFi
lling
IP Media Server
WiFl SIP Handset
SIP Application Server
Office Communication Server
SIP/VolP Terminal
SIP/VolP Softphone
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System
The customer selected the MIC-3392 Intel-based Core 2 Duo CompactPCI blade for the control and application functions along with
two CompactPCI platforms to obtain important scalability. The MIC-3392 blade was selected for its processing power and the ability
to execute Host Media Processing software in certain lower-density, DSP-less configurations. The MIC-3039 2-slot CompactPCI
chassis was chosen as a compact entry-level solution with one available PMC on the MIC-3392 and one free CompactPCI-slot for
gateway and signalling functionality. The MIC-3043D mid-to-high-end platform was chosen for its denser port count and five slots
for gateway, signalling and possible application or media server functionality at a later date. The MIC-3043D is also available in AC
or DC versions and provides two hot-swappable SATA bays for database mirroring requirements. As this system is also expected
to be deployed to Service Providers globally as well as medium and large enterprises, the 1+1 and 2+1 power supply options and
redundant disks provide a higher level of avaibility.
Benefits
Scalable off-the-shelf platforms ranging from low-cost turn-key gateways to service provider approved, large scale gateways
High-performance Dual Core CompactPCI computing blade with pervasive I/O connectivity
Highly available design with disk striping or mirroring and redundant AC or DC power supplies
Higher Density Gateway with Bladed Application Server
Legacy PBX
Media Gateway
& Signalling Server
ET/T1 Trunks
PSTN
T
ET/
un
1 Tr
SS
Firewall/AV/UTM
ks
ig
7S
nal
ling
IP Media server
SIP Application Server
WiFi SIP Handset
Wi
iFi
WiFi Router
Office Communication Server
SIP/VolP Terminal
SIP/VolP Softphone
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Application
Network Monitoring & Deep Packet
Inspection
Customer: Network Equipment Provider
Location: Europe
Introduction
One of our longstanding Industrial PC and CompactPCI customers was looking for a smaller-footprint, modular architecture for their
next generation of deep packet inspection (DPI) equipment. Typically, DPI identifies individual streams of traffic on a per-user and
per-application basis, allowing policy enforcement of quality of service (QOS) and security as well as service quality logging. DPI
essentially provides visibility and control to service providers so they can see what is traversing their networks and take appropriate
action.
DPI applications include traffic management of peer-to-peer (P2P) flows to prevent bandwidth hogging, network security, service
enhancements such as content filtering as well as resource and admission control systems for video stream availability based on
network load.
Solution
The system examines the data and header part of a packet as it passes an inspection point and provides the ability to look at all data
from Layer 2 through Layer 7 of the OSI model. This includes headers and data protocol structures as well as the actual payload of
the message. The DPI identifies and classifies the traffic based on a signature database that includes information extracted from the
data part of a packet, allowing much finer control than classification based only on header information. The chosen system needed
to fit in a reduced 3U height and be able to scale its packet processing power according to network bandwidth. Mutiple network
connection types and a scalable number of physical connections needed to be accomodated. A custom MicroTCA system was
designed to provide the density and necessary infrastructure to support expandable high speed WAN and LAN connectivity, and
between two and six processor AMC blades for wire-speed packet analysis.
System
The customer selected a 3U MicroTCA system based on a custom-developed 12-slot chassis and six MIC-5601 Processor AMCs.
The 10 GbE Controllers and OC-3/STM1 boards were developed specifically by the customer and associated 3rd parties. Advantech's
UTCA-5503 provides the MicroTCA Carrier Hub management and GbE switching between all elements with a 10GbE version under
definition. Only one MCH is required as redundancy and high availability is not needed. For logging purposes, two SATA/SAS drives
provide for up to 1/2 a terabyte of packet recording. The system provides one further slot for connection to four T1/E1's should this
become a service provider requirement at a later date. Future versions of the Processor AMC with Intel Core 2 Duo based Processor
AMCs are currently in design at Advantech for the next generation system. The availability of both AC and DC versions of the chassis
were key to customer deployment in central offices as well as data centers.
Benefits
Globalized R&D with Local Project Management for engineer-to-engineer support in the same time zone
Access to innovative new technology allows early market entry for hi-density next generation system
Scalable design allows processing performance and I/O matching
IPTV / Video Server
Peering Server
Cable Modem
PSTN Interconnect
EnterprisePABX
Cellular Interconnect(RNC)
Power
Module
2
Power
Module
1
10GE
OC-3
CPU1
CPU2
SAS HDD
CPU3
CPU4
SAS HDD
CPU5
T1/E1
CPU6
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Voice and Data Communications
via Satellite
Customer: Telecommunication Service Provider
Location: South Africa
Introduction
Today, there are hundreds of commercial satellites in operation around the world. These satellites are used for diverse applications
such as wide-area network communications, weather forecasting, television broadcasting, amateur radio communications, Internet
access and the Global Positioning Systems (GPS). The introduction of the Very Small Aperture Terminal (VSAT), has successfully
opened access to communication networks in rural and remote areas. VSAT is a fixed satellite terminal that provides interactive or
one-way communications. VSATs operate with ground stations that use small dish antennas less than 3 meters in diameter for point
to point and/or multiple point communications. VSAT is most commonly used for applications that require a wide area of network
coverage, especially in locations where local terrestrial communications infrastructures are unavailable. Satellite communications
has had great success complementing the existing terrestrial infrastructure because it is readily available and offers a reliable
terrestrial-free network for secured multi-cast content distribution.
Solution
Our customer is a leading Telecommunications service provider that is looking for a solution to bring new services, like Internet
access, email and fax, to citizens in rural areas of Africa within a short span of time. Due to the remote geographic setting and lack
of existing infrastructure, the obvious choice for establishing rapid access was the use of a Satellite Internet Network. To setup such
a comprehensive network, apart from traditional satellite antennas and receivers, requires a high-performance platform to serve as
a reliable backend data support center.
CompactPCI blade servers were selected for this task since they are reliable, stable and readily-available for real-time data
communications. Multiple blade servers can fit into a single chassis and each can act as an independent system, with their own
processors, memory, storage, network controllers, operating systems and applications. The slim, hot-swappable nature of blade
servers is convenient for creating complex cabled platform racks, which are easily accessed for adding or removing server boards.
With switches and power units shared, precious space is freed up to offer higher densities with far greater ease.
System
Advantech offers a complete platform solution based on Advantech’s MIC-3369C 6U CompactPCI Intel Pentium M-based
processor board. This unit provides an ideal application blade for integrating systems that require high performance yet low power
consumption. Paired with the RIO-3309 rear transition board, the platform provides additional Gigabit Ethernet connectivity to
manage the high data throughput that the networks demand. To finish the system, and offer a reliable platform-level solution, the
server blades are enclosed in the MIC-3042 4U CompactPCI enclosure.
Benefits
A comprehensive product line for board-level and system-level solutions
Fast design and integration service for quick deployment
Cost-effective solutions and service for customers worldwide through global logistics and localized customer support
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Application
WiMAX Gateway Appliance
Customer: Network Equipment Provider
Location: United States
Introduction
As more users demand broadband access on the move, WiMAX technology (Worldwide Interoperability for Microwave Access)
shows great potential for service providers to deliver cost-effective broadband access over a wide geographic area. It often serves
as a substitute for DSL (Digital Subscriber Line) to extend Internet services to rural areas, or as a WiFi hotspot backhaul which is
less expensive than wired public networks.
Solution
A WiMAX network is built from many Access Service Networks (ASNs) that encompass a number of base stations. Each ASN has
an ASN gateway that is used to control the transition of users from one base station to another. The ASN gateway must be built
on an industrial-grade IP networking platform that is highly reliable and available. Based on the diverse requirements for WiMAX
deployments in different towns or campuses, the platform must be scalable from small deployments of only a few base stations, to
nationwide deployments involving a large number of base stations.
System
The Advantech NCP-3120 is designed for ASN gateways that require high network throughput and computing power. The NCP-3120
is a 1U platform based on the industry leading Cavium OCTEON Network Services Processor. This multi-core MIPS64 processor
provides excellent hardware-based network acceleration functions, including TCP offload, security encryption, pattern matching
and more. The system has two CN3800 NSP processors offering stable computing power to manage network traffic from all twenty
Gigabit Ethernet ports on the system. A PMC expansion slot supports LAN or HDD expansions. Also, redundant power supply and
hot-swappable fans in the system bring greater reliability and availability to the system. Apart from the hardware design and system
integration, Advantech's own software team also developed the boot loader and device drivers to make it easier for the customer to
port software. In addition, the platform is NEBs level 3 compliant, making it the ideal solution for WiMAX deployment.
ASN
...
ASN
WLAN
ASN Gateway
ISP/Metro
Network
ASN Gateway
Backbone
Network
Home Agent
AAA Sever
ASN
IP Terminal
Base Stations
Portable Mobility
CSN
...
Application Sever
ASN Gateway
Benefits
Network processor based platform offers performance at wire-speed for small packet traffic
Validated boot loader and device driver helps customer software development
Modular power supplies, fans and HDDs reduces maintenance costs once deployed
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Customized Firewall Systems with
Modular Design
Application Field: Network Security Solution
Location: China
Introduction
Solution providers in the Network Security field are always looking for new and innovative hardware solutions that can fulfill
diverse firewall solutions. Customers need different hardware platforms to fulfill their needs depending on the market segment,
business size, network environment and physical environment. Advantech can provide copper or fiber LAN interfaces, a range
of computing power in a selection of form factors from rackmountable 1U or 2U platforms to compact tabletop designs. Solution
providers are searching for a modular and scalable platform that is able to fulfill complex demands while simplifying product and
stock management.
Solution
Our customer is a major network appliance solution provider who is looking for a platform that can complete their line up of firewalls.
The customer was looking for an industrial-grade platform with long life support that was designed for mainstream use. This
platform must have computing power that is scalable from entry-level mid-level to high-level processing performance. Additionally,
the platform must offer a range of port densities and expansion capabilities to suit various applications. Our customer chose
Advantech, because they were familiar with Advantech design excellence and modularity in Network Application Platforms.
System
The customer has chosen Advantech's 1U Rackmount Platform, the FWA-3710, to implement a complete line of Firewall products for
different business segments. The FWA-3710 is modular and uses PCI Express interface technology as a base for communication.
With the use of a specially customized LAN expansion board, Advantech offers a selection of platforms with different LAN interface
options, from 4 fiber or copper ports or a mixture of the two.
In addition, Advantech designed a new 2U rackmount chassis, which accommodates the main board, the expansion board and
redundant power supply to create a complete enterprise-level solution based on the same platform configuration. The new system
has been fully qualified through strict reliability testing, and is already EMC and safety certified.
Since most of the solution comes from an existing platform, our customer was able to receive the first sample within 8 weeks. After
a minor modification for final confirmation, the system was ready for production within 5 months of project kick-off.
Benefits:
Fast design and integration service for quick deployment, because the product was based on design of the existing FWA-3710
PCI Express based module provides additional high-speed GbE ports for added flexibility
Modular design offers unlimited opportunities for customers to design their desired platforms
0-15
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Application
Session Initiation Protocol (SIP)
Enabled Firewall Appliance
Application Field: Network Security Solution
Location: United States
Introduction
Real-time communications have become an essential requirement for most enterprises. Whether it is through VOIP, multimedia
conferences or instant-messaging, individuals and businesses can enjoy instant communications to save time and money.
Generally, almost all instant communication connections are controlled by the Session Initiation Protocol (SIP), that initiates,
modifies and terminates sessions between the participants. However, conventional network firewalls do not recognize SIP media,
and whenever the firewall must relay SIP media packets for inspection, delays are caused during real-time communications. To
speed up the inspection process, some firewalls create an automatic bypass for media packets, which creates a potential loophole
for security threats.
Solution
Our customer develops network firewalls and is a leader for the industry. They are looking into products that can enable SIPbased live communications while maintaining control and network security. The solution Advantech helped to develop can be
a stand-alone firewall or a SIP proxy that complements existing firewalls. The company was searching for two platforms, one
that was suitable for Small to Mid-size Business (SMB) and another to target large organizations or enterprises. Based on these
requirements, they chose the FWA-3140 and the FWA-6280 network platforms as ideal solutions. They both command high levels
of computing power, which makes them suitable for a stand-alone firewall application or a complementary proxy server to support
existing firewalls.
System
The customer’s enterprise-level security application was powered by the Advantech FWA-6280-AF platform with the highperformance Intel Xeon processor. The platform is capable of managing the busy traffic of large enterprises and handles up to
1500 concurrent VoIP calls (e.g. RTP sessions). The SMB solution is powered by the Advantech FWA-3140-C, and the system can
handle up to 240 concurrent RTP sessions. The platform is designed for the Intel Pentium 4 processor and supports 4 GbE LAN
ports for fast and robust connectivity. Both platforms can be used as independent firewalls dedicated to SIP media inspections, or
to complement existing enterprise firewalls by off-loading SIP media sessions.
Advantech also offers system integration services, which includes software installation and final system testing. Network systems
are turnkey solutions that are ready to go. This service helps customers to focus on their software development to maintain their
competitive edge, and leave the rest of the turnkey configuration work up to Advantech.
Benefits
High performance computing can provide real-time threat management solutions
Supports best-performing Intel Pentium and Intel Xeon processors for maximum platform efficiency and reliability
Advantech offers a full range of network security platforms to service diverse applications
0-16
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All-in-one Unified Threat
Management Solution
Application Field: UTM Solution
Location: Taiwan
Introduction
Unified Threat Management (UTM) is a term introduced in 2004, to describe a network appliance that has many security features
built into a single box. It aims to provide an integrated and comprehensive solution rather than the limited “point solution” that a
traditional firewall offers. However, there is a trade off between security and connectivity. As all security functions demand a lot
of system resources, they inevitably reduce throughput, which is not desirable for real-time network management. Therefore, the
ideal UTM solution must provide all-round protection without undermining the performance of network traffic. For this application,
hardware acceleration delivers the greatest network performance improvement.
Solution
Our customer has introduced a new UTM device, called the “USM” (Unified Security Management) appliance. USM is capable
of generating a network-traffic forensic analysis that provides a detailed on-going analysis of any system anomaly. This forensic
analysis distinguishes the USM device from competitors by providing an extra layer of protection that has never been seen before.
Even with the enhanced security features, the overall efficiency of the system must be maintained as the number of security
signatures increases. The use of hardware security performance enhancers, including security accelerators, x86 processors or
FPGA processors, can significantly improve network efficiency.
System
The customer has chosen Advantech’s 1U Rackmount Platform, the FWA-3700, to implement a complete line of USM products
for different business usage. Powered by Intel Pentium M processors, the new system supports high-speed PCI Express (PCIe)
connectivity and a LAN Bypass function for consistent network connectivity. The customer selected the Pentium M 1.73 GHz and
Celeron M 1.5 GHz processors for their performance and mainstream platforms respectively. Accommodating variations in system
memory and application features, a total of six platform versions are available to meet various user applications and segments.
In addition, the FWA-3700 has one proprietary PCIe x4 connector for further LAN expansions. Advantech offers a LAN module with
a built-in encryption/decryption accelerator to increase hardware security performance. Customers may also develop and integrate
their custom-built security acceleration modules to meet unique processing needs.
Benefits
High-performance computing provides real-time security management solutions
The PCIe based module provides additional high-speed GbE ports as well as VPN accelerators
Modular design offers unlimited opportunities for customers to design their desired platforms
0-17
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Advantech Headquarters
No. 1, Alley 20, Lane 26, Rueiguang Road
Neihu District, Taipei, Taiwan 114, ROC
Tel: 886-2-2792-7818
Fax: 886-2-2794-7301
www.advantech.com
Greater China
Asia Pacific
Europe
Americas
Regional Service &
Customization Center, China
Global Manufacturing Center, Kunshan China
Regional Service &
Customization Center, Taiwan
Global Manufacturing Center, Taiwan
Regional Service &
Customization Center, Netherlands
Regional Service &
Customization Center, USA
Regional Service &
Customization Center, China
Global Manufacturing Center, Dongguan China
Advantech Japan
Tokyo ePlatform Office
Regional Service Center, Poland
Advantech U.S.A
eAutomation Group
Cincinnati Office
No. 600, Han-Pu Road, Yu-Shan,
Kunshan, Jiang Su, China
Tel: 86-512-5777-5666
Fax: 86-512-5778-5388
Tiesong Area, Qingxi Town,
Dongguan City, Guangdong, 523642 China
Tel: 86-769-8730-8088
Fax: 86-769-8731-4440
Regional Service &
Customization Center, Taiwan
Global Manufacturing Center, Taiwan
No. 1, Alley 20, Lane 26, Rueiguang Road
Neihu District, Taipei, Taiwan 114, R.O.C.
Tel: 886-2-2792-7818
Fax: 886-2-2794-7301
Advantech Beijing Office
6th Street No. 7, Shang Di Zone,
Hai-Dian District
100085 Beijing, China
Tel: 86-10-6298-4346
Fax: 86-10-6298-4342
www.advantech.com.cn
Advantech Shanghai ePlatform Office
7F Longfeng Tower
No. 1566 Yan'an West Road,
200052 Shanghai, China
Tel: 86-21-6294-9911
Fax: 86-21-6294-9911
Advantech Shanghai eAutomation Office
19F, No. 08-14, HaoRan Building
No.55, West Guangyuan Rd.
200030 Shanghai, China
Tel: 86-21-6282-8959
Fax: 86-21-6282-8925
Advantech Shenzhen Office
B1811#-1812#, Tian An
Cyber Park High-tech Tower,
Futian District, 518040 Shenzhen, China
Tel: 86-755-8212-4222
Fax: 86-755-2586-7910
Advantech Chengdu Office
Room #708, #709, #710
Bainaohui Information Plaza
No. 118, Moziqiao New South Road,
610041, Chengdu Sichuan, China
Tel: 86-28-8545-0198
Fax: 86-28-8543-5101
Advantech Hong Kong Office
Flat 1108, 11/F, No 113 Argyle Street,
Mong Kok, Kowloon, Hong Kong
Tel: 852-2720-5118
Fax: 852-2720-8013
Advantech Taipei ePlatform Office
No. 1, Alley 20, Lane 26, Rueiguang Road,
Neihu District, Taipei Taiwan 114, R.O.C.
Tel: 886-2-2792-7818
Fax: 886-2-2794-7301
Email: sales@advantech.com.tw
www.advantech.tw
Advantech Taipei eAutomation Office
4F No. 108-3, Ming-Chuan Road,
Shing-Tien City, Taipei Taiwan 231, R.O.C.
Tel: 886-2-2218-4567
Fax: 886-2-2218-3650
Toll Free: 0800-55-77-99
Email: taiwan@advantech.com.tw
www.eAPro.com.tw
Advantech Taichung Office
13F-2, No. 497, Chung-Ming South Road,
Taichung Taiwan 403, R.O.C.
Tel: 886-4-2378-6250
Fax: 886-4-2378-6260
Advantech Kaohsiung Office
11F-7, No. 56, Ming-Sheng 1st Road,
Kaohsiung Taiwan 800, R.O.C.
Tel: 886-7-229-3600
Fax: 886-7-227-0217
Advantech Hsinchu Office
Room 1, 6F, No. 81, Shueili Road,
Hsinchu City, Taiwan 300 R.O.C.
Tel : 886-3-516-9320
Fax: 886-3-516-9243
No. 1, Alley 20, Lane 26, Rueiguang Road,
Neihu District, Taipei, Taiwan 114, R.O.C.
Tel: 886-2-2792-7818
Fax: 886-2-2794-7301
12F, Iwanamisyoten Hitotsubashi Bldg.
2-5-5, Hitotsubashi Chiyoda-Ku,
Tokyo 101-0003, Japan
Tel: 81-3-5212-5789
Fax: 81-3-5212-5788
Email: ajp_sales@advantech.com
www.advantech.co.jp
Tokyo eAutomation Office
3F, Iwanamisyoten Hitotsubashi Bekkan
2-4-4, Hitotsubashi Chiyoda-Ku,
Tokyo 101-0003, Japan
Tel: 81-3-5212-5789
Fax: 81-3-5212-5790
Osaka Office
6F, Minamisenba M21 Bldg.
1-10-20 Minamisenba,
Chuo-Ku, Osaka, 542-0081 Japan
Tel: 81-6-6267-1887
Fax: 81-6-6267-1886
Advantech Korea
12F, Ace Techno Tower 684-1
Deungchon-Dong, Kangseo-Ku
Seoul 157-721, Korea
Tel: 82-2-3663-0405
Fax: 82-2-3663-4955
Email: info@advantech.co.kr
www.advantechkorea.co.kr
Advantech Singapore
750D Chai Chee Road,
#03-06 Technopark @Chai Chee,
Singapore (469004)
Tel: 65-6442-1000
Fax: 65-6442-1001
Email: sg@advantech.com.
www.advantech.com/sg
Advantech Malaysia
Kuala Lumpur Office
No 21, Jalan PJS 11/18, Bandar Sunway
46150 Petaling Jaya, Selangor Darul Ehsan,
Malaysia
Tel: 60-3-5621-0602
Fax: 60-3-5621-0603
Email: sales@advantech.com.my
www.advantech.com.my
Penang Office
25, Medan Kurau 3, Chai Leng Park
13700 Prai, Penang, Malaysia
Tel: 60-4-397-3788, 397-4188
Fax: 60-4-399-6488
Advantech Thailand
24F, Chamnan Phenjati Business Center
65/205 Rama IX Road,
Huay-kwang, Bangkok 10320, Thailand
Tel: 66-2-248-3140
Fax: 66-2-248-2424
Email: sales@advantech.co.th
www.advantech.co.th
Advantech India
Bangalore ePlatform Office
Krupa Arcade
No. 438/14, 6th Main, 17th Cross,
Rajajinagar 2nd Stage, Malleshwaram West Post,
Bangalore 560055, India
Tel: 91-80-2337-4567
Fax: 91-80-2337-5898
Email: sales@advantech.in
www.advantech.in
Chennai eAutomation Office
T-1, 3rd Floor, Mandakani Apts
8, 4th Main Road,
Raja Annamalai Puram
Chennai 600 028, India
Tel: 91-44-4230-3878
Fax: 91-44-4230-3898
Mumbai Office
No. 1604, Norita, Hiranandani Gardens,
Powai, Mumbai 400076, India
Email: salesbom@advantech.com
Ekkersrijt 5708 Science Park
Eindhoven 5692 EP Son
The Netherlands
Tel: 31-40-267-7000
Fax: 31-40-267-7001
ul. Matuszewska 14, budynek 34
03-876 Warsaw, Poland
Tel: 48-22-33-23-730
Fax: 48-22-33-23-732
Email: rma@advantech.pl
www.advantech.pl
Advantech Europe Design Center
Fuggerstr. 9, D-92224 Amberg, Germany
Tel : 49-9621-9732 -100
Fax : 49-9661-9732-199
Email: aedc@advantech.de
Advantech Germany
Munchen ePlatform Office
Hans Riedl Str. 23
85622 Feldkirchen, Germany
Tel: 49-89-12599-0
Fax: 49-89-12599-220
Email: epc@advantech.de
www.advantech.de
Düsseldorf eAutomation Office
Kolberger Strasse 7
40599 Düsseldorf, Germany
Tel: 49-211-97477-0
Fax: 49-211-97477-319
Email: iag@advantech.de
Advantech France
Paris ePlatform Office
71B rue des Hautes Pâtures
92737 Nanterre cedex, France
Tel: 33-1-4119-4666
Fax: 33-1-4119-7929
Email: afr@advantech.fr
www.advantech.fr
380 Fairview Way
Milpitas, CA 95035, USA
Tel: 1-408-519-3800
Fax: 1-408-519-3801
1320 Kemper Meadow Dr., Suite 500
Cincinnati, OH 45240, USA
Tel: 1-513-742-8895
Fax: 1-513-742-8892
Toll Free: 1-800-800-6889
Call Center: 1-800-205-7940
RMA/Tech Support: 1-877-451-6868
Email: info@advantech.com
www.advantech.com/ea
Milpitas Office
380 Fairview Way
Milpitas, CA 95035, USA
Tel: 1-408-519-3891
Fax: 1-408-519-3888
Embedded & Network Computing Group
15375 Barranca Parkway, Suite A-106
Irvine, CA 92618, USA
Tel: 1-949-789-7178
Fax: 1-949-789-7179
Toll Free: 1-800-866-6008
Email: ctinfo@advantech.com
www.advantech.com/epc
Industrial Computing Group
380 Fairview Way
Milpitas, CA 95035, USA
Tel: 1-408-519-3898
Fax: 1-408-519-3899
Toll Free: 1-888-576-9668
Email: info@eplatformpro.com
http://www.ePlatformPro.com
Grenoble eAutomation Office
115 Rue de la liberté
38180 Seyssins, France
Tel : +334-7670-4700
Fax : +334-7648-3681
E-mail : afr-eA@advantech.fr
Advantech Italy
Arezzo ePlatform Office
F.lli Lumiere, 19, 52100 Arezzo, Italy
Tel: 39-0575-98661
Fax: 39-0575-986681
Email: info.ePlatform@advantech.it
www.advantech.it
Milano eAutomation Office
Via Roma, 74
20060 Cassina de' Pecchi, Milano, Italy
Tel: 39-02-9544-961
Fax: 39-02-9544-9650
Email: info.eAutomation@advantech.it
Advantech Benelux & Nordics
Breda ePlatform Office
Bijster 20a, 4817 HX, Breda
The Netherlands
Tel: 31-76-523-1270
Fax: 31-76-523-1280
Email:eplatform@advantech.nl
www.advantech.nl
Roosendaal eAutomation Office
Vlierwerf 7a, 4704 SB, Roosendaal
The Netherlands
Tel: 31-165-550-505
Fax: 31-165-567-504
Advantech UK
5 Cheapside Court, Sunningdale Road
Ascot,Berkshire SL5 7RF, United Kingdom
Tel: 44-1344-989-500
Fax: 44-1344-989-650
Email: info@advantech-uk.com
www.advantech-uk.com
Advantech Russia
Room 648, 6F, Profsoyuznaya Str., 108
Moscow 117437, Russian Federation
Tel: 7-495-232-1692
Fax: 7-495-232-1693
www.advantech.ru
Advantech Australia
Melbourne Office
Unit 1/3 Southpark Cl,
Keysborough VIC 3173, Australia
Tel: 61-3-9797-0100
Fax: 61-3-9797-0199
Email: info@advantech.net.au
www.advantech.net.au
Sydney Office
Unit 1, 14 Leighton Place
Hornsby NSW 2077, Australia
Tel: 61-2-9482-2999
Fax: 61-2-9477-2521
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Contents
MIC-5301 2
MIC-5602 2
MIC-5601 4
MIC-5401 6
UTCA-55038
UTCA-553310
MIC-3392MIL
14
MIC-3392 Rev.2 16
MIC-3390 18
MIC-3369C20
MIC-3043 24
MIC-3042 26
MIC-3927 28
RIO-3309/331030
RIO-3392MIL
Memo
32
33
NCP-5120 2
NCP-3108 4
FWA-6480 6
FWA-3800 8
FWA-3240 10
FWA-3710 12
FWA-710 14
Memo
16
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AdvancedTCA® Dual-Core Low Voltage
Intel® Xeon® Processor Board with Two
AMC Slots
MIC-5301
Features
 Two Dual-Core Intel® Xeon® processors LV 2.0 GHz
 Intel E7520® chipset supports 667 MHz FSB
 Dual channel DDR2 400 MHz ECC Registered SDRAM, configurable up to 16
GB
 Four 1000Base-BX ports on Fabric interface
 Two 1000Base-Tx ports on Base interface
 Two PCI Express x4 (PCIe) AMC slots with style B/B+ connector
 Supports optional Serial Attached SCSI (SAS) module
 SAS ports module to Rear-Transition Module (RTM)
 One serial port for IPMI on front panel
 Two USB 2.0 ports in front and in RTM; One 2.5" SATA/SAS HDD on RTM
RoHS
COMPLIANT
2002/95/EC
Introduction
Advantech’s MIC-5301 single-slot AdvancedTCA® processor blade combines computing performance with I/O flexibility in a power efficient quad core, dual AMC design. Featuring
two high performance Dual-Core Intel® Xeon® LV processors, the MIC-5301 facilitates the consolidation of multiple single core designs and frees up valuable system slots for
increased processing power or I/O connectivity.
The MIC-5301’s overall design flexibility positions it for use as a common processing blade for multiple applications. As architecture re-use means gains in economies of scale,
the MIC-5301 is ideally suited for a wide range of application processing needs. Two single full-size AMC sites support the use of a variety of AMC modules such as coprocessors,
TCP/IP offload engines, physical disks, LAN or WAN adapters. Packet throughput is increased by enhanced fabric connectivity with four Gigabit Ethernet ports to the fabric interface
in addition to the two Gigabit Ethernet ports to the base interface.
An Intel E7520 Memory Controller Hub MCH and Intel 6300ESB I/O Controller Hub provide high-end server class support for the two dual-core processors. The E7520 addresses
up to 16 GB of dual channel DDR2 ECC Registered SDRAM in 4 DIMM sockets. Further connectivity is supported via an optional Serial Attached SCSI (SAS) module with SAS ports
connected to a Rear Transition Module mounted SAS drive. IPMI 1.5 support is assured by a PigeonPoint System® (PPS) Solution on a Renesas H8S/2167.
Advantech offers a range of innovative ATCA customization services specifically targeted at Telecommunications Equipment Manufacturers (TEMs). Advantech’s Design To Order
Services (DTOS) team partners with TEMs to evaluate project requirements and develop TEM-specific solutions in order to improve overall operating costs. The MIC-5301 is an
example where proven core engineering IP can be re-used as a base for a TEM specific design.
Connector to Fabric
& Base Interface
Four DDR2
memory sockets
Connector to RTM
-48 V power and
IPMI connector
RJ-45 COM2 port for
IPMI program & terminal
Two AdvancedMC
slots
20 Status
indicators
Two USB
2.0 ports
RJ-45
COM1 port
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MIC-5301
Specifications
Processor System
Bus
Memory
Ethernet
Front I/O Interface
Operating System
IPMC
Watchdog Timer
AMC
Miscellaneous
RTM
Physical Characteristics
Environment
Compliance
CPU
Max. Speed
Chipset
BIOS
Front Size Bus
Technology
Max. Capacity
Socket
Two Dual-Core Intel Xeon LV processors
2.0 GHz
Intel E7520 MCH
Dual 4Mbit FWHs with AMI embedded BIOS
667 MHz
Dual channel DDR2 400 MHz SDRAM (72-bit ECC Registered)
Configurable up to 16 GB
4
Two 10/100/1000Base-TX ports for base interface; Four 1000Base-BX ports for fabric interface (compliant
Interface
with PICMG 3.1 option 2)
Controller
BCM5715S (PCIe x4) and BCM5715C (PCIe x4)
Serial (COM)
1 (RS-232, RJ-45 connector)
Serial (BMC)
1 (RS-232, RJ-45 connector)
USB 2.0
2
Compatibility
Windows 2000; Windows 2003; Linux
BMC Controller
Renesas H8S/2167
IPMI
Compliant with IPMI 1.5 using Pigeon Point System® (PPS) Solution
Hardware Monitor
LM93
Output
System reset; system power down
Interval
Set in BIOS menu for 10 sec, 30 sec, 1 min and 5 min
Site
2
Interface
PCI Express x4
Power limit
30 watts
Solid State Disk
One CompactFlash socket
LED Indicator
20
Storage module
SAS daughter module with four ports up to 3 Gb/s for each
Real Time Clock
Built-in
Two external SAS ports
Real I/O interface
Two USB 2.0 port
Storage Site
One 2.5" SATA/SAS HDD (HDD not included)
Node blade: 294.56 x 322.25 mm (11.60" x 12.69")
Dimensions (W x D)
RTM: 94 x 322.25 mm (3.7" x 12.69")
Node blade: 2 kg (4.41 lb)
Weight
RTM: 0.275 kg (0.61 lb)
Operating
Non-operating
Temperature
0 ~ 65° C (32 ~ 149° F)
- 40 ~ 70° C (-40 ~ 158° F)
Humidity
NA
95% @ 60° C (non-condensing)
Shock
20 G
50 G
Vibration (5 ~ 500 Hz)
1.5 Grms
2G
PICMG 3.0 R2.0 AdvancedTCA Base Specification
PICMG 3.1 R1.0 Ethernet/Fibre Channel for ATCA Systems
PICMG AMC.0 R1.0 Advanced Mezzanine Card Base Specification
PICMG AMC.1 R1.0 PCI Express and Advanced Switching
Two external SAS ports
2.5" SATA or SAS HDD
Two USB 2.0 ports
MIC-5301 Rear Transition Module (RTM)
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MIC-5602
Advanced Mezzanine Card
Intel® Core™ 2 Duo Processor AMC
Features
NEW
 Supports Intel Core 2 Duo Duo processor Low Voltage and Ultra Low
Voltage
 Intel® 3100 chipset 400/533 MHz FSB
 Up to 2 GB DDR2 400 MHz SDRAM with ECC
 One Gigabit Ethernet (RJ-45), one USB 2.0 port, and one console port
(mini-USB) to front panel
 AMC connector routes dual Gigabit Ethernet SerDes (x2), SATA (x2),
USB (x2), dual PCIe x4, or single PCIe x8
 Boot from network, CompactFlash, SATA, USB or onboard flash disk
 Supports IPMI v1.5 and Serial-over-LAN function
 AMC.0, AMC.1, AMC.2 and AMC.3 compliant
RoHS
COMPLIANT
2002/95/EC
Introduction
The MIC-5602 is a highly integrated single-width, mid-size, processor AMC. Its design is based on the low-power, high-performance Intel Core 2 Duo LV and ULV processors
combined with the high-performance Intel 3100 chipset. The board includes 1 or 2 GB of soldered DDR2 400 MHz memory with ECC for higher MTBF and optimum cooling. To
facilitate development, test and integration whilst offering typical network connectivity once deployed, the front panel provides a gigabit Ethernet connector, a serial port and a USB
2.0 host port.
The MIC-5602 maximizes AMC edge connector connectivity for the best design flexibility. When redundancy or two separate interconnects are required, the board can be configured
with two PCI Express x4 ports or with a single PCI Express x8 port when throughput is essential. Two gigabit Ethernet ports provide AMC.2 compliance and offer control and data
plane connectivity to facilitate the migration of existing applications. Both ports connect to the 3100 chipset via PCI Express for maximum data throughput. Dual SATA interfaces
provide AMC.3–compliant storage and two USB ports offer further connectivity opportunities.
A dedicated Module Management Controller (MMC) monitors onboard conditions and manages hot swap operation for field upgrades or module replacement without the need to
power down the underlying system.
Specifications
Processor System
CPU
Chipset
BIOS
Bus
Memory
Ethernet
Mass Storage
SATA Interface
Serial Interface
USB Interface
Watchdog Timer
Hardware Monitor
Firmware
Operating System
Form Factor
Miscellaneous
Power Requirement
Front Side Bus
PCI Express
Technology
Max. Capacity
Controller
Interface
CompactFlash
Onboard
AMC edge connector
Other
I/O
I/O
AMC edge connector
Controller
Source Code
Update Standard
Compatibility
AMC
Interface
LEDs
Configuration
Consumption
Intel Core 2 Duo ULV (U7500) and LV (L7400) up to 1.5 GHz
Intel 3100
AMI (1. Dual images with update rollback, 2. CMOS settings can be changed over IPMI, and 3. CMOS backup works
without battery)
400/533 MHz
PCI Express rev1.0a : one x8 and two x4 routed to AMC connector
DDRII 400 with ECC
2 GB
Intel 82571EB dual-port Gigabit Ethernet controller (support 802.3d compliant link aggregation)
One GbE accessible on front panel via RJ-45 and two SerDes links to AMC common options region ports 0 and 1
Optional expansion board with CF type-1 B socket
1GB industrial grade internal flash disk (used as NV storage, emergency boot disk or diagnostics boot media)
Two SATA interfaces to common ports region 2-3
One SATA routed to CF daughter board
Routed to front panel as USB Slave interface through onboard USB to Serial converter
One USB 2.0 compliant host port (standard USB Connector) on front panel
Two USB 2.0 ports connect to rear AMC edge connector
AMC compliant watchdog
IPMI v1.5 compatible MMC
Pigeon Point System-based
HPM.1 compliant
Carrier Grade Linux (Wind River Platform for Network Equipment, Linux Edition 2.0)
Mid-size, single width
AMC.0 compliant
x1 blue for hot swap, x1 red/amber for failure and OOS, x1 green for general purpose
Core™ 2 Duo L7400 + 3100 + 1 GB on-board DDR2 SDRAM
38.5 watts
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MIC-5602
Block Diagram
COM2
Core2 Duo LV or ULV
1GB
Flash Disk
FSB
DDR PLL
(option expansion Module)
USB1
SATA21
DDR2
DRAM
IPMB-L
MMC
DDR-II
LPC
c
c
r
SATA to PATA
Converter
CF Disk
AMC Con
FWH
TPM (optional)
Intel 3100
USB2 & USB3
Mini USB
Con.
USB-Serial
Converter
USB Con.
USB0
Port 16
SATA 0 & SATA1
COM1
IICH
Ports 2,3
One PCIe x8 or two PCIe x4
IMCH
PCIe x4
Ports 4..11
SERDES
Dual GbE
Ports 0,1
RJ45 w/
X’mr
FrontPanel
Clock Generator
Physical
Environment
Regulatory
Compliance
Dimension
Temperature
Humidity
Vibration (5 ~ 500 Hz)
Shock
Altitude
Conformance
NEBS Level 3
Standards
DC/DC Converter
180.6 mm x 73.5 mm
Operating
Non-operating
-5 ~ 55° C (23 ~ 122° F)
-40 ~ 70° C (-40 ~ 140° F)
IEC60068-2-78 (95%RH @ 40° C)
IEC60068-2-6 ( 0.002 G2/Hz, 1 Grms)
IEC60068-2-27 (10 G, 11 ms)
300 m below sea level to 4,000 m above sea level
10,000 above sea level
UL94V0, FCC Class B, CE, RoHS & WEEE Ready
Designed for GR-63-CORE and GR-1089-CORE
PICMG AMC.0, AMC.1, AMC.2, AMC.3, IPMI v1.5, HPM.1
Ordering Information
Model Number
On-Board Option
CPU
Core2 Duo LV 1.5 GHz (L7400)
Core2 Duo LV 1.5 GHz (L7400)
Core2 Duo ULV 1.06 GHz (U7500)
Core2 Duo ULV 1.06 GHz (U7500)
MIC-5602A-M1E
MIC-5602A-M2E
MIC-5602B-M1E
MIC-5602B-M2E
Notes:
1. TPM support will be available as an option.
2. Full size front panel design will be available upon request.
3. CF module available as an option.
4. Low cost Celeron M ULV 1.06 GHz (423) on request.
Memory
1 GB DDR2 with ECC
2 GB DDR2 with ECC
1 GB DDR2 with ECC
2 GB DDR2 with ECC
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MIC-5601
Advanced Mezzanine Card
Intel® Pentium® M Processor AMC
Features
NEW
 Supports Intel® Pentium® M processor Low Voltage or Celeron® M
processor Ultra Low Voltage
 Intel® 3100 chipset 400/533 MHz FSB
 Up to 2 GB DDR2 400 MHz SDRAM with ECC
 One Gigabit Ethernet (RJ-45), one USB 2.0 port, and one console port
(mini-USB) to front panel
 AMC connector routes dual Gigabit Ethernet SerDes (x2), SATA (x2),
USB (x2), dual PCIe x4, or single PCIe x8
 Boot from network, CompactFlash, SATA, USB or onboard flash disk
 Supports IPMI v1.5 and Serial-over-LAN function
 AMC.0, AMC.1, AMC.2 and AMC.3 compliant
RoHS
COMPLIANT
2002/95/EC
Introduction
The MIC-5601 is a highly integrated single-width, mid-size, processor AMC. Its design is based on the low-power, high-performance Intel Celeron M ULV and Pentium M LV
processors combined with the high-performance Intel 3100 chipset. The board includes 1 or 2 GB of soldered DDR2 400 MHz memory with ECC for higher MTBF and optimum
cooling. To facilitate development, test and integration whilst offering typical network connectivity once deployed, the front panel provides a gigabit Ethernet connector, a serial port
and a USB 2.0 host port.
The MIC-5601 maximizes AMC edge connector connectivity for the best design flexibility. When redundancy or two separate interconnects are required, the board can be configured
with two PCI Express x4 ports or with a single PCI Express x8 port when throughput is essential. Two gigabit Ethernet ports provide AMC.2 compliance and offer control and data
plane connectivity to facilitate the migration of existing applications. Both ports connect to the 3100 chipset via PCI Express for maximum data throughput. Dual SATA interfaces
provide AMC.3–compliant storage and two USB ports offer further connectivity opportunities.
A dedicated Module Management Controller (MMC) monitors onboard conditions and manages hot swap operation for field upgrades or module replacement without the need to
power down the underlying system.
Specifications
Processor System
CPU
Chipset
BIOS
Bus
Memory
Ethernet
Mass Storage
SATA Interface
Serial Interface
USB Interface
Watchdog Timer
Hardware Monitor
Firmware
Operating System
Form Factor
Miscellaneous
Power Requirement
Front Side Bus
PCI Express
Technology
Max. Capacity
Controller
Interface
CompactFlash
Onboard
AMC edge connector
Other
I/O
I/O
AMC edge connector
Controller
Source Code
Update Standard
Compatibility
AMC
Interface
LEDs
Configuration
Consumption
Intel Celeron M ULV (373) or Pentium M LV (738) up to 1.4 GHz
Intel 3100
AMI (1. Dual images with update rollback, 2. CMOS settings can be changed over IPMI, and 3. CMOS backup works
without battery)
400/533 MHz
PCI Express rev1.0a : one x8 and two x4 routed to AMC connector
DDR2 400 with ECC
2 GB
Intel 82571EB dual-port Gigabit Ethernet controller (support 802.3d compliant link aggregation)
One GbE accessible on front panel via RJ-45 and two SerDes links to AMC common options region ports 0 and 1
Optional expansion board with CF type-1 B socket
1GB industrial grade internal flash disk (used as NV storage, emergency boot disk or diagnostics boot media)
Two SATA interfaces to common ports region 2-3
One SATA routed to CF daughter board
Routed to front panel as USB Slave interface through onboard USB to Serial converter
One USB 2.0 compliant host port (standard USB Connector) on front panel
Two USB 2.0 ports connect to rear AMC edge connector
AMC compliant watchdog
IPMI v1.5 compatible MMC
Pigeon Point System-based
HPM.1 compliant
Carrier Grade Linux (Wind River Platform for Network Equipment, Linux Edition 2.0)
Mid-size, single width
AMC.0 compliant
x1 blue for hot swap, x1 red/amber for failure and OOS, x1 green for general purpose
Pentium M 738 LV + 3100 + 1 GB on-board DDR2 SDRAM
31.2 watts
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MIC-5601
Block Diagram
Pentium M
Celeron M
COM2
1GB
Flash Disk
FSB
DDR PLL
(option expansion Module)
USB1
SATA21
DDR2
DRAM
IPMB-L
MMC
DDR-II
LPC
SATA to PATA
Converter
c
c
r
CF Disk
AMC Con
FWH
TPM (optional)
Intel 3100
USB2 & USB3
Mini USB
Con.
USB-Serial
Converter
USB Con.
USB0
Port 16
SATA 0 & SATA1
COM1
Ports 2,3
One PCIe x8 or two PCIe x4
IMCH
PCIe x4
IICH
Dual GbE
Ports 4..11
SERDES
Ports 0,1
RJ45 w/
X’mr
FrontPanel
Clock Generator
Physical
Environment
Regulatory
Compliance
Dimension
Temperature
Humidity
Vibration (5 ~ 500 Hz)
Shock
Altitude
Conformance
NEBS Level 3
Standards
DC/DC Converter
180.6 mm x 73.5 mm
Operating
Non-operating
-5 ~ 55° C (23 ~ 122° F)
-40 ~ 70° C (-40 ~ 140° F)
IEC60068-2-78 (95%RH @ 40° C)
IEC60068-2-6 ( 0.002 G2/Hz, 1 Grms)
IEC60068-2-27 (10 G, 11 ms)
300 m below sea level to 4,000 m above sea level
10,000 above sea level
UL94V0, FCC Class B, CE, RoHS & WEEE Ready
Designed for GR-63-CORE and GR-1089-CORE
PICMG AMC.0, AMC.1, AMC.2, AMC.3, IPMI v1.5, HPM.1
Ordering Information
Model Number
On-Board Option
CPU
Pentium M LV 1.4 GHz (738)
Pentium M LV 1.4 GHz (738)
Celeron M ULV 1 GHz (373)
MIC-5601A-M1E
MIC-5601A-M2E
MIC-5601B-M1E
Notes:
1. TPM support will be available as an option.
2. Full size front panel design will be available upon request.
3. CF module available as an option.
Memory
1 GB DDR2 with ECC
2 GB DDR2 with ECC
1 GB DDR2 with ECC
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MIC-5401
Advanced Mezzanine Card
SAS/SATA Storage AMC
Features
NEW
 Single-width mid-size AMC form factor
 SAS or SATA 2.5" hard disk drive compatible
 Hot-swap capable
 AdvancedTCA and MicroTCA compatible
 Dual port SAS drive support
 3.0 Gb/s interface speed support
 Two thermal sensors to monitor on-board temperatures
 System management compliant to PICMG3.0 R2.0, AMC.0 R2.0, AMC.3 R1.0,
and IPMI1.5
 Power-on hour counter
 HPM.1 compliant firmware upgrade and rollback support through IPMB
RoHS
COMPLIANT
2002/95/EC
Introduction
The Advantech MIC-5401 is a single-width/mid-size Advanced Mezzanine Card (AMC) designed to support a 2.5" SAS or SATA hard disk drive to work as an enterprise storage module
on an ATCA platform or in a MicroTCA shelf. The 2.5" hard disk drive is connected to the AMC port 2 (SAS and SATA) and port 3 (SAS only) according to the AMC.3 specifications.
Dual port SAS drives may be used on the MIC-5401 to increase the interface bandwidth of failover support between dual hosts in fault tolerant environments. Like all other standard
AMC modules, an IPMI-based module management controller (MMC) is also implemented on the MIC-5401 to serve as a communication interface to the Carrier Management
Controller on an ATCA platform, or to the MicroTCA Carrier Management Controller on the MicroTCA Carrier Hub in a MicroTCA shelf. As a local IPMI controller on the AMC, it
manages all hot-swap activities, E-keying, and hardware heath monitoring such as voltages (12V, 5V, and management power 3.3V) and on-board temperatures (including hard disk
drive’s ambient temperature). The MIC-5401’s mechanical design is optimized for a maximum of shock and vibration durability combined with a user- and service friendly mounting
process for the disk drive.
Specifications
AMC Module
Storage Device Supported
System Management
Monitor
Watchdog
Thermal Sensor
Environmental Conditions
Regulatory
Compliance
Single width, mid-size form factor (full-size front panel available as an option)
2.5" SAS or SATA hard disk drives, or 2.5" SATA SSD (solid state drive)
PICMG 3.0 R2.0, AMC.0 R2.0, and IPMI 1.5 compliant
Redundant firmware images based on Pigeon Point Systems’ solution supporting HPM.1 compliant upgrades and manual/automatic rollback
Power-on hour counter
Voltage: 12 V, 5 V, and 3.3 V management power
Temperature: two on-board locations
AMC compliant watchdog
LM75/DS75 (x2)
Temperature and humidity
GR-63-CORE, Issue 3, R4-7 (-5° C ~ 55° C; 5% ~ 95%RH)
(operating)
Temperature and humidity
GR-63-CORE, Issue 3, R4-7 (-40° C ~ 70° C; 95%RH)
(non-operating)
Altitude
GR-63-CORE, Issue 3, R4-8, R4-9, R4-10, R4-11, R4-12 (-60 m ~ 4000 m)
Vibration (operating)
IEC 60068-2-64 (0.002G2/Hz, 1 Grms, 5 ~ 500 Hz)
Vibration (non-operating)
IEC 60068-2-6 (2 G, 5 ~ 500 Hz, 1 Octave/min)
Shock (operating)
IEC 60068-2-27 (half-Sine, 10 G, 11 ms)
Shock (non-operating)
IEC 60068-2-27 (half-Sine, 30 G, 11 ms)
Conformance
UL94V0, FCC Class B, CE, RoHS & WEEE compliant
NEBS Level 3
Designed for GR-63-CORE and GR-1089-CORE
Standards
PICMG 3.0 R2.0, AMC.0 R2.0, AMC.3 R1.0, IPMI1.5, and SCOPE AdvancedMC Hardware Profile V1.0
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MIC-5401
Mechanical Adapter
Block Diagram
2.5" SAS/SATA Hard Disk Drive
or
2.5" SSD Drive
Latch
Buffer
GPIO
Module
Management
Control
IPMB-L
Control
Power (5V)
Local
DC/DC
Converter
Status
Payload Power (12V)
Port3
Port 2
Seccondary SAS
SATA/Primary SAS
Ordering Information
Model Number
MIC-5401-0000E
Front Panel
Mid-Size
Note:
1. AMC modules with pre-installed hard disk or solid state disk drives are available on
request. Please contact Advantech sales representative for further detail.
2. Full size front panel is available on request.
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UTCA-5503
MicroTCA™ Carrier Hub:
Layer 2 GbE switch with MCMC
Features
 Layer 2 GbE switch for up to 12 AdvancedMC™ modules on Common
Options Fabric A
 MCH Update channel for Carrier Hub redundancy
 Front panel GbE uplink over RJ-45 or SFP
 Pigeon Point based MCMC with direct or switched 10/100 Management LAN
port available on front panel
 IPMB-0 / IPMB-L for complete carrier management
 Built-in expandability for future pluggable enhancements
 Switch Management and Extended Fabric switching
 Customizable clock module and front panel I/O
 Compliant with PICMG MTCA.0 R1.0 specification
Introduction
The Advantech MicroTCA™ Carrier Hub UTCA-5503 combines into a single AdvancedMC Module that controls and manages infrastructure and the interconnect fabric resources
necessary to support up to twelve AdvancedMCs in a MicroTCA shelf:
 A Primary Gigabit Ethernet fabric on Common Options Fabric A
 MicroTCA Carrier Management Controller (MCMC) functions to configure and control the elements
Where redundancy is required, two MCHs permit the creation of highly reliable systems.
Basic Interconnect Fabric, Control and
Management Infrastructure
Enhanced Options
MicroTCA Carrier Management Controller (MCMC)
The UTCA-5503 provides extension connectors between PCB1, 2 and 3 for clocks and
enhanced processing functions such as Level 2/3 switch management, authentication and
encryption; TPM facilities for server/cluster security; or HPI-over-IP remote management.
It can also provide PCB3 switching for fat pipe PCI Express, SRIO, GbE or 10 GbE. A PCB2
module can be added for clock distribution and external clock connectivity. The front panel
design offers flexibility for clock, I/O and alarm panel requirements.
The first element on the MCH is the MicroTCA Carrier Management Controller (MCMC).
It is the central authority in a MicroTCA Shelf and has the ability to monitor and control
the constituent AdvancedMCs. This control function makes use of IPMI Links to each
AdvancedMC, as well as presence detect, enable, and Geographic Address signals.
When redundant MCHs are installed, failures in the management circuitry on one MCH
can be handled by a failover to the other MCH. The MCMC LAN interface is available for
optional remote management via the front panel RJ-45 connector or for optional routing
to the Base Fabric switch.
E-Keying
Electronic keying (E-Keying) is the responsibility of the Carrier Manager and ensures that
all AdvancedMCs and MCHs installed in a Shelf are compatible before they are permitted
to power-up and enable their fabric links.
Switch Management and Fat Pipe Fabrics
Clocks and Alarms
An additional PCB2 module can be added to the MCH for enhanced clock distribution and
external clock connectivity depending on customer specific requirements. Flexibility has
been built into the Front PCB2 module design in order to meet a wide range of current
and future Clock, I/O and Alarm panel requirements.
Basic Interconnect Fabric
In its basic configuration, the MCH acts as the Gigabit Ethernet hub of a star network,
providing centralized switching and high-speed connectivity to each AdvancedMC. The
Gigabit Ethernet Switch on the MCH provides an unmanaged layer 2, non-blocking,
low-latency Gigabit Ethernet Switch.
Two MCHs can be used to implement a dual-star topology required for reliability. This
is further enhanced by a Gigabit Ethernet Update Channel Port between the two MCHs.
A front panel RJ-45 or SFP provides further network expandability with Gigabit Ethernet
uplink ports for external interconnects.
This basic configuration provides a solid solution to the most cost sensitive application
requirements.
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UTCA-5503
Block Diagram
To PCB 3 CPU and Fabric Extension
LAN 1
SMSC
LAN9115
Fabric A to 12 AMC Slots
Marvell
6185 x 2
PHY
LAN 2
To PCB 2 Clock Module
Update Channel to MCH #2
GbE
Switch
PHY
Console
MCMC
IPMB-L to all AMCs
IPMB-0 to Power & Cooling
I2C to Carrier FRU
Ordering Information
Model Number
MCMC
LAN1 RJ-45
LAN2 RJ-45
LAN2 SFP
Fabric A GbE Switch
Comments
UTCA-5503-1000E
Yes
Yes
Yes
-
Yes
Management and Switch
UTCA-5503-2000E
Yes
Yes
-
Yes
Yes
Management and Switch
Note: Model with management only (no switch) will be available upon request. Please contact local sales representative for details.
Expansion Options
Several options are currently under definition and planning for PCB 2 Clock modules, PCB 3 Processing and Switch management as well as Fat Pipe Fabric switching. Please contact
your local sales representative for further details.
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UTCA-5533
MicroTCA Carrier Hub:
Optional PCIe Switching on UTCA-5503
Features
NEW
 Fat pipe switching capabilities for PCI-Express protocol on MCH PCB Level
3 with tongue 3 and 4 plug connectors
 Low power and high performance PCIe switch silicones
 PCI-Express x4 links to up to 12 AdvancedMCs on Fat Pipe Fabric
 On-board spread spectrum clock generator
 Optional clock input/output from/to PCB Level 2
 Reliable mezzanine mounting design to minimize the induced stresses in the
PCBs and the board-to-board connectors during the MCH insertion to the
backplane
 Benefits of all the features on UTCA-5503
 Compliant with PICMG MTCA.0 R1.0 specification and PCI Express Base
Specification r1.1
RoHS
COMPLIANT
2002/95/EC
Introduction
The Advantech UTCA-5533 is a PCI-Express fabric extension module implemented on the PCB Level 3 of the MicroTCA Carrier Hub. It is to be bundled with the UTCA-5503 to provide
the control and management infrastructure and the interconnection to support up to twelve AdvancedMCs in a MicroTCA shelf:
 A Primary Gigabit Ethernet fabric on common Options Fabric A
 MicroTCA Carrier Management Controller (MCMC) functions to configure and control the element
 PCIe switching capabilities on Fat Pipe Fabric
Specifications
MCH Module
Application
Bus Interface
Ethernet
System Management
Watchdog
PCIe Switching
Thermal Sensor
Environmental Conditions
Regulatory
Compliance
Standard MCH module (PCB Level 1+ PCB Level 3), single width, full size
Fat pipe switching for PCIe protocol
COM1 exposed to front panel as USB Slave interface through onboard USB/Serial converter, USB1.1 compliant
10/100BT Management LAN on Front panel (RJ45, labeled as LAN1, which may also be 10/100/1000BT Fabric LAN when MLAN is routed
through base fabric switch )
10/100/1000BT Fabric LAN on Front panel (RJ45 or SFP, labeled as LAN2)
1000BX GBE base fabric interface to backplane (12x)
1000BX GBE update channel to other MCH
Management LAN may be routed through base fabric switch (option)
SGMII Interface from PCB Level 3 into base fabric switch
Pigeon Point System based firmware solution
Carrier manager
Shelf manager (by default); optional to exclude uShM
A programmable watchdog is implemented in MCMC
PCIe x4 links to up to 12 AMCs
LM75/DS75 (x2)
Temperature and humidity
GR-63-CORE, Issue 3, R4-7 (-5° C ~ 55° C; 5% ~ 95%RH)
(operating)
Temperature and humidity
GR-63-CORE, Issue 3, R4-7 (-40° C ~ 70° C; 95%RH)
(non-operating)
Altitude
GR-63-CORE, Issue 3, R4-8, R4-9, R4-10, R4-11,R4-12 (-60 m ~ 4000 m)
Vibration (operating)
IEC 60068-2-64 (0.002 G2/Hz, 1 Grms, 5 ~ 500 Hz)
Vibration (non-operating)
IEC 60068-2-6 (2 G, 5 ~ 500 Hz, 1 Octave/min)
Shock (operating)
IEC 60068-2-27 (half-Sine, 10 G, 11 ms)
Shock (non-operating)
IEC 60068-2-27 (half-Sine, 30 G, 11 ms)
Conformance
UL94V0, FCC Class B, CE, RoHS & WEEE compliant
NEBS Level 3
Designed for GR-63-CORE and GR-1089-CORE
Standards
PICMG MicroTCA.0 R1.0, PCI-Express R1.1
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UTCA-5533
Block Diagram
Control
6x (PCle x4)
Control
HS_Clock_Out
M
U
X
PCle Packet
Suitch
HS_Clock_In
Power
Control
Payload Power
12C
FRU
EEPROM
Local DC/DC
Converter
Status
Control
I/O Expander
6x (PCle x4)
Plug 3
Plug 4
Tongue 3 and Tongue 4
Plug Connectors
Board to Board Connector
PCB 1 (UTCA-5503)
Clock
Gen
Ordering Information
Model Number
PCIe Switches MCMC
LAN1 RJ-45 LAN2 RJ-45 LAN2 SFP Fabric A GbE Switch
UTCA-5533-1000E
Yes
Yes
Yes
Yes
Yes
UTCA-5533-2000E
Yes
Yes
Yes
Yes
Yes
Note: Model with management only (no switch) will be available upon request. Please contact local sales representative for details.
Comment
Management and switch
Management and switch
Tongue 3 and Tongue 4 Plug Connectors
UTCA-5533 PCB Level 3
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6U CompactPCI Boards
Selection Guide
Specifications
Slot Width
PICMG 2,16 Compliant
Chipset
CPU (Not Included)
No. of CPUs
CPU Front Side Bus
Max. CPU Speed
L2 Cache
Technology
Max. Capacity
On-board
Socket
Bus Speed
Controller
Mode
Controller
VRAM
Controller
Interface
No. of Ports
PCI Bus Speed
LAN3
Output
Interval
Mode
CPU
Memory
PCI-to-PCI Bridge
Graphic
Ethernet
Watchdog Timer
Channel
EIDE
CompactFlash Socket
2.5" Drive Bay
VGA
LAN
PMC Site
Serial
Parallel
Front Panel I/O
USB
PS/2
SCSI
Audio Interface
Controller
Hardware Monitor
Monitor
Rugged Conduction Cooling
Pre-heating
SODIMM Gluing Service
SCSI Controller Option
Miscellaneous
Compliant Standard
MIC-3392MILS (Standard CompactPCI)
1
Yes
Intel 945GME
Intel LV Core Duo
Intel ULV Core 2 Duo
1
533/667 MHz
1.66 GHz
2 MB
DDR2 533/667 MHz non-ECC SDRAM
3 GB
2 GB
Optional 2 GB
64-bit/66 MHz
PLX PCI 6540
Universal (System/Peripheral)
Intel 945GME Integrated
Dynamic
Intel 82571EB/Intel 82546GB
10/100/1000Base-TX
2/2
PCI-Express x4 / PCI 32-bit/33 MHz
System Reset
Programmable 0 ~ 255 sec.
SATA/PATA
1 (SATA)
1 (PATA)
1
1 (SATA)
1
2 (USB 2.0)
Winbond W83627HG
CPU temperature
Optional (on SODIMM purchased from Advantech)
-
MIC-3392MILC (Conduction Cooled)
1
Yes
Intel 945GME
Intel ULV Core 2 Duo
1
533/667 MHz
1.06 GHz
2 MB
DDR2 533/667 MHz non-ECC SDRAM
2 GB
2 GB
64-bit/66 MHz
PLX PCI 6540
Universal (System/Peripheral)
Intel 945 GME Integrated
Dynamic
Intel 82571EB/Intel 82546 GB
10/100/1000Base-TX
2/2
PCI-Express x4 / PCI 32-bit/33 MHz
System Reset
Programmable 0 ~ 255 sec
SATA/PATA
1 (SATA)
1 (PATA)
1
Winbond W83627HG
CPU temperature
Yes
Yes
-
LED Indicator
HDD, BMC heartbeat, power, system/peripheral
-
USB Channel
Real Time Clock
Audio Output
PICMG 2.0 R3.0 cPCI Spec.
PICMG 2.1 R2.0 cPCI Hot
Swap Spec.
PICMG 2.9 R1.0 cPCI
SystemManagement Spec.
PICMG 2.16 R1.0 cPCI
Packet Switching Backplane
Spec.
ANSI/VITA30.1-2002
MIL-I-46058C and
MIL-STD-810B
2 on RTM panel / 2 on RTM board
Built-in
Reserved
Yes
2 on RTM panel / 2 on RTM board
Built-in
Reserved
Yes
Yes
Yes
Yes (IPMI 1.5)
-
Yes
Yes
-
Yes
Rear Transition Board
Enclosure
-
Yes
RIO-3392MIL-A1E (No Coating)
RIO-3392MIL-A2E (Conformal Coating)
MIC-3039-BE
MIC-3056A/4-2RE
MIC-3042AE
MIC-3042A-xE
MIC-3042BE
MIC-3042B-xE
MIC-3043AE
MIC-3043BE
MIC-3043CE
MIC-3043DE
MIC-3043x-BE
MIC-3081B/8-10AE
MIC-3081B/8-10RE
RIO-3392MIL-A1E (No Coating)
RIO-3392MIL-A2E (Conformal Coating)
-
-
-
PMC Module
-
-
Note
-
Used on customized conduction cool enclosure
Reference Page
1-14
1-14
Yes: Supported, -: Unsupported
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MIC-3392A Rev.2
1
Yes
Intel 945GME
Intel Core 2 Duo, Core Duo
Intel ULV Core 2 Duo, LV Core Duo
1
533/667 MHz
2.16 GHz
4 MB
DDR2 533/667 MHz SDRAM
3 GB
1GB/2GB
Optional 2 GB
64-bit/66 MHz
PLX PCI 6540
Universal (System/Peripheral)
Intel 945GME Integrated
Dynamic
Intel 82573E x 2
10/100/1000Base-TX
2
PCI Express x1
Yes (FE, Intel 82562GT)
System reset
Programmable 0 ~ 255 sec.
SATA/PATA
1 (SATA)
1 (PATA)
1
1 (SATA)
1
2
1
1
2 (USB 2.0)
Winbond W83627DHG
CPU temp. +3.3/+5/+12 V
Rear I/O
HDD, BMC heartbeat, power, hot swap,
system/peripheral
2 (USB 2.0)
Built-in
Yes
MIC-3392B Rev.2
1
Yes
Intel 945GME
Intel Core 2 Duo, Core Duo
Intel ULV Core 2 Duo, LV Core Duo
1
533/667 MHz
2.16 GHz
4 MB
DDR2 533/667 MHz SDRAM
3 GB
1 GB/2 GB
Optional 2 GB
64-bit/66 MHz
PLX PCI 6540
Universal (System/Peripheral)
Intel 945GME Integrated
Dynamic
Intel 82573E x 2
10/100/1000Base-TX
1
PCI Express x1
Yes (FE, Intel 82562GT)
System reset
Programmable 0 ~ 255 sec.
SATA/PATA
1 (SATA)
1 (PATA)
1
1
2
1
Winbond W83627DHG
CPU temp. +3.3/+5/+12 V
Rear I/O
HDD, BMC heartbeat, power, hot swap,
system/peripheral
Rear I/O
Built-in
Yes
MIC-3390
1
Yes
Intel 915GME
MIC-3369C
1
Yes
Intel E7501 + ICH4
Intel Pentium M
Intel Pentium M
1
400/533 MHz
2.0 GHz
1 MB/ 2 MB
DDR2 400/533 MHz SDRAM
2 GB
Optional 2 GB
64-bit/66 MHz
PLX6254
Universal (System/Peripheral)
Intel 915GME Integrated
Dynamic
Intel 82573E x 2
10/100/1000Base-TX
2
PCI Express x1
Yes (FE, Intel 82562GT)
System reset
Programmable 0 ~ 255 sec.
SATA/PATA
1 (SATA)
1 (PATA)
1
1 (SATA)
1
2
1
1
2 (USB 2.0)
Winbond W83782D
CPU temp. +3.3/+5/+12 V
Rear I/O
1
400/533 MHz
1.6/2.0 GHz (400/533 MHz FSB)
1 MB/ 2 MB
DDR 266 MHz SDRAM with ECC support
2 GB
512 MB/1 GB/2 GB
64-bit/66 MHz
PLX6254
Universal (System/Peripheral)
ATI RageXL
8 MB dedicated
Intel 82546 GB
10/100/1000Base-TX
1
64-bit/133 MHz
Yes (FE, Intel 82562GT)
System reset
Programmable 0 ~ 255 sec.
ATA 33/66/100
2
HDD, power, hot swap, system/peripheral
HDD, power, hot swap
2 (USB 2.0)
Built-in
Yes
2 (USB 2.0)
Built-in
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
-
Yes
Yes
Yes
Yes
-
-
-
-
-
-
-
-
RIO-3310S-A1E
RIO-3310S-A2E
RIO-3310AE
MIC-3039-BE
MIC-3056A/4-2RE
MIC-3042AE
MIC-3042A-xE
MIC-3042BE
MIC-3042B-xE
MIC-3043AE
MIC-3043BE
MIC-3043CE
MIC-3043DE
MIC-3043x-BE
MIC-3081B/8-10AE
MIC-3081B/8-10RE
MIC-3665-AE
MIC-3665-BE
RIO-3310S-A1E
RIO-3310S-A2E
RIO-3310AE
MIC-3039-BE
MIC-3056A/4-2RE
MIC-3042AE
MIC-3042A-xE
MIC-3042BE
MIC-3042B-xE
MIC-3043AE
MIC-3043BE
MIC-3043CE
MIC-3043DE
MIC-3043x-BE
MIC-3081B/8-10AE
MIC-3081B/8-10RE
MIC-3665-AE
MIC-3665-BE
RIO-3310S-A1E
RIO-3310S-A2E
RIO-3310AE
MIC-3039-BE
MIC-3056A/4-2RE
MIC-3042AE
MIC-3042A-xE
MIC-3042BE
MIC-3042B-xE
MIC-3043AE
MIC-3043BE
MIC-3043CE
MIC-3043DE
MIC-3043x-BE
MIC-3081B/8-10AE
MIC-3081B/8-10RE
MIC-3665-AE
MIC-3665-BE
RIO-3309C-AE
RIO-3309S-A1E
RIO-3309S-A2E
MIC-3039-BE
MIC-3056A/4-2RE
MIC-3042AE
MIC-3042A-xE
MIC-3042BE
MIC-3042B-xE
MIC-3043AE
MIC-3043BE
MIC-3043CE
MIC-3043DE
MIC-3043x-BE
MIC-3081B/8-10AE
MIC-3081B/8-10RE
MIC-3665-AE
MIC-3665-BE
1-16
1-16
1-18
1-20
1
1
1
1
1
1
2 (USB 2.0)
Winbond W83782D
CPU temp. +3.3/+5/+12 V
Rear I/O
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MIC-3392MIL
6U CompactPCI Intel® Core™ 2 Duo
Rugged Processor Blade
Features
NEW
 Supports Intel® Core™ Duo Low Voltage or Core™2 Duo Ultra Low Voltage
mobile processor
 Intel® 945GME chipset supports 533/667 MHz FSB
 Up to 3GB (DDR2 533/667) memory with SODIMM expansion
 Conduction cooled with ANSI/VITA30.1-2002 compliancy
 Pre-heat circuitry for reliable cold-booting in low temperature environment,
or optional support for IPMI v1.5 without pre-heat
 Boot from network, Compact Flash, or local 2.5" SATA HDD
 Four GbE ports, two USB 2.0 ports, two DVI-I ports, one P/S2 port, and
one COM interface to the Rear Transition Module
 Optional one VGA port and two USB 2.0 ports to front panel
 Optional conformal coating and SODIMM gluing service
 PICMG 2.16 R1.0, PICMG 2.1 R2.0, PICMG 2.6 R1.0 compliant
RoHS
COMPLIANT
2002/95/EC
Introduction
MIC-3392MIL, a CompactPCI PICMG 2.16 compliant single slot 6 U CPU board, comes with three different configurations that meet a wide range of environmental requirements
from ruggedized applications. Based on the Intel Core Duo LV or Core 2 Duo ULV processor, it offers a low power dissipation design without the need of on-board forced ventilation.
Ruggedized requirements are addressed by a conduction cooled design and extended operating temperature range (-40° C ~ 70° C). Shock and vibration resistances of the board
are increased by using wedge locks and a single-piece CNC-milled aluminum alloy plate that conforms to the major IC packages. With highly integrated functional capabilities, the
MIC-3392MIL fully utilizes the I/O features of the Intel chipsets. It supports up to 3 GB of 667 MHz DDR2 RAM, an onboard 2.5" Serial ATA HDD, a CompactFlash slot, and a set of
I/O functions brought through the backplane to a unique rear transition module, which contains four LAN ports, two DVI-I ports, two USB 2.0 ports, one P/S2 port, and one RS232
port on the panel.
Specifications
Processor System
CompactPCI Interface
PCI-X to cPCI Bridge
Bus
Memory
CPU
Chipset
BIOS
J1 Connector
J2 Connector
J3~J5 Connectors
Controller
Interface
Front Side Bus
PCI
Technology
Max. Capacity
Socket
Graphic
Ethernet
Storage
Controller
VRAM
Resolution
Controller
Interface
I/O Connector
Controller
Interface
I/O Connector
Mode
Channel
Storage Site
Mode
Channel
Storage Site
Intel Core 2 Duo ULV or Core Duo LV up to 1.6 GHz (2 MB L2 cache)
Intel945GME/ICH7M
Award 4Mb flash
32-bit PCI local bus
64-bit PCI local bus
PICMG2.16 + RTM area
PLX PCI 6540CB
Master/Drone
533/667 MHz
Up to 64-bit/66 MHz
DDR2 533/667 MHz
3 GB
SODIMM x1
2 GB memory integrated on board
Intel 945GME integrated
Dynamic
Up to 2048 x 1536, 64k color at 75 Hz
Intel 82571EB dual-port Gigabit Ethernet controller
10/100/1000Base-TX Ethernet (on PCIe x4 channel)
PICMG2.16 and RJ-45 x2 (RTM rear panel)
Intel 82546GB dual-port Gigabit Ethernet controller
10/100/1000Base-TX Ethernet (on PCI 32bits/33Mhz)
RJ-45 x2 (RTM rear panel)
SATA
2 interfaces to CompactPCI connector
1 SATA connector and space reserved for a 2.5" HDD on one of the two channels (optional for non-conduction
cooled product configuration)
IDE
1 interface to CompactPCI connector
1 on-board CompactFlash socket on the same channel
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MIC-3392MIL
Specifications
Hardware Monitor
USB 2.0
DVI-I
Serial
Parallel, FDD, PS2
Output
Interval
Controller
BMC
Controller
Operating System
Compatibility
Front Panel LEDs
(standard cPCI SKU only)
Configuration
TDP
Dimension
Expansion I/O
Watchdog Timer
Miscellaneous
Power Requirement
Physical
2 host ports (std. USB connectors) on front panel and 4 host interfaces to cPCI connectors
2 interfaces to CompactPCI connector
3 interfaces to CompactPCI connector (1 reserved for BMC IPMI F/W update)
Each with 1 interface to CompactPCI connector
Local Rest and Interrupt
Programmable 1s ~ 255s
Winbond 83627HG
Renesas H8S 2167, IPMIv1.5 compliant for standard CompactPCI SKU/Pre-heat F/W for conduction-cool SKU,
mutually exclusive
Windows® XP/2000, Linux, VxWorks 6.4 (on request)
x1 blue/yellow for Hot Swap/HDD, x1 green for Master/Drone, x1 yellow BMC Heartbeat, and x1 green for Power
Conduction cooled SKU (with Intel U7500 processor)
37 watts (thermal model available on request)
160.0 mm x 233.35 mm
Operating
Non-operating
0 ~ 70° C (std CompactPCI SKU)
-50 ~ 80° C
-40 ~ 70° C (conduction-cool with pre-heat)
5 ~ 85 % @ 45° C, non-condensing
10 ~ 95 % @ 45° C, non-condensing
1.5 Grms (without on-board 2.5" SATA HDD)
2G
20G (without on-board 2.5" SATA HDD)
50 G
300m below sea level to 4,000m above sea level
10,000m above sea level
(without conformal coating)
FCC Class A, CE, RoHS
Designed for GR-63-CORE and GR-1089-CORE
PICMG 2.0 R3.0, PICMG 2.1 R.0, PICMG 2.9 R1.0 (std cPCI SKU), PICMG 2.16 R1.0, ANSI/VITA 30.1-2002
Temperature
Humidity
Vibration (5-500 Hz)
Shock
Environment
Altitude
Conformance
NEBS Level 3
Standards
Regulatory
Compliance
Recommended Configurations
CPU Board
MIC-3392MILS-PxE Series
MIC-3392MILC-P1E
Rear I/O Board
RIO-3392MIL-AxE Series
RIO-3392MIL-AxE Series
Enclosure
MIC-3039-BE, MIC-3042A/B, MIC-3043A/B/C/D, MIC-3056A, MIC-3081B
Customized conduction cool enclosure
Ordering Information
Front Panel
System Board
Model Number
VGA
MIC-3392MILS-P1E
MIC-3392MILS-P2E
MIC-3392MILC-P1E
RTM
Model Number
RIO-3392MIL-A1E
RIO-3392MIL-A2E
1
1
-
USB2.0
BMC Reset
2
2
-
Yes
Yes
-
System
Reset
Yes
Yes
-
Conduction
Cool
Yes
Intel U7500
Intel L2400
Intel U7500
Rear Panel
LAN
4
4
COM
1
1
DVI-I
2
2
PS2
1
1
USB
2
2
IDE
1
1
CPU
FDD
1
1
Main On-board Features
Storage
Channel
2 GB
1
1
2 GB
1
1
2 GB
1
Memory CF Socket
Conformal
Coating
SODIMM
Socket
1
1
-
On-board Header/Socket/Connector
CPCI
COM
Console
USB
Conn.
LPT SATA
Interface Interface Interface
1
2
1
1
2
J3 ~ J5
1
2
1
1
2
J3 ~ J5
Yes
Conformal
Coating
Yes
One CF socket
Memory DIMM
socket
One DB-15
VGA port
Two USB2.0 ports
One passive
CPU heatsink
MIC-3392MILS-PxE Series
MIC-3392MILC-P1E
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MIC-3392 Rev.2
6U CompactPCI Intel® Core™2 Duo
Processor-based Board with Dual
PCIe GbE/DDR2/SATA/PMC
Features
 Supports Intel® Core™2 Duo processor
 Intel 945GME chipset supports 533/667 MHz FSB
 Up to 3 GB (DDR2 533/667) memory with SODIMM expansion
 Comprehensive I/O capability, dual Gigabit Ethernet, SATA, CompactFlash
 One 64-bit/66 MHz PMC expansion slot, and optional second 64-bit/66 MHz
PMC expansion slot
 PICMG 2.16, R1.0 Packet Switching Backplane Specification compliant
 PICMG 2.9, R1.0 IPMI Specification compliant
 PICMG 2.1, R2.0 Hot-Swap Specification compliant
 Selectable System/Peripheral mode
RoHS
COMPLIANT
2002/95/EC
Introduction
The MIC-3392 is a high performance, power efficient CompactPCI single board computer based on the Intel Core 2 Duo processor. It combines the benefits of two execution cores
with intelligent power management features to deliver significantly greater performance per watt over previous Intel processors. The two execution cores share a power-optimized 667
MHz front side bus to access the same system memory. To save power, address and data buffers are turned off when there is no activity.
The MIC-3392 uses PCI Express (PCIe) technology to maximize I/O throughput. It supports up to 3 GB of 667 MHz DDR2 RAM (6.4 GB/s throughput), an onboard 2.5" Serial ATA
HDD and a CompactFlash slot. Two front-accessible PCI Express (PCIe) Gigabit Ethernet (GbE) ports provide a bidirectional bandwidth of 2 Gb/s. In addition, the MIC-3392 supports
Rear Transition Boards and PCI Mezzanine Cards for further expansion options.
Specifications
CPU (Not Included)
Processor System
Bus
Memory
Max. Speed
Chipset
BIOS
Front Side Bus
PCI
Technology
Max. Capacity
Socket
Graphic
Ethernet
Storage
Bridge
I/O Interface
Operating System
Hardware Monitor
Watchdog Timer
PMC
Controller
VRAM
Resolution
Interface
Controller
I/O Connector
Mode
Channels
Storage Site
Bus
Interface
Serial (COM1)
Compatibility
Controller
Monitor
Output
Interval
Site
Interface
Signal
Intel Core Duo T2500/L2500 or Intel Core 2 Duo T7400/L7400 processor (Enclosure with forced air cooling
is required)
2.16 GHz (2 MB up to 4 MB L2 cache)
Intel 945GME
AMI 8 Mbit flash
533/667 MHz
Up to 64-bit/100 MHz
DDR2 533/667 SDRAM
3 GB
SODIMM x 1
1 GB/ 2 GB memory integrated on board
Intel 945GME integrated
Dynamic
Up to 2048 x 1536, 64k color at 75 Hz
10/100/1000Base-TX Ethernet
Intel 82573E x 2
RJ-45 x 2 (front)
SATA
2
One SATA connector and space reserved for embedded 2.5" HDD
PCI 64-bit/66 MHz
Universal (System/Peripheral mode capability)
RJ-45 x 1 (front)
Windows® Vista/XP/2000, Linux Fedora Core 5
Winbond W83627DHG
CPU temperature, +3.3 V, +5 V, +12 V
System reset
Programmable, 0 ~ 255 sec.
1 or 2
IEEE1386.1 64-bit/66 MHz on A version
PMC1 and PMC2 are 64-bit/66 MHz on B version
+5 V/+3.3 V compliant
1-16
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MIC-3392 Rev.2
Specifications Cont.
Solid State Disk
LEDs
USB 2.0
Real Time Clock
Voltage
Typical
Maximum
Dimensions
Weight
Miscellaneous
Power Requirement
(Intel Core 2 Duo 2 GHz
with 2 GB memory)
Physical
One CompactFlash socket
HDD, Power, Hot Swap, system/peripheral
2 channels
Built-in to the South Bridge
+3.3 V
+5 V
+12 V
- 12V
2.66 A
3.04 A
0.39 A
0A
3.17 A
7.16 A
0.40 A
0A
233.35 x 160 mm (9.19" x 6.3"), 1-slot width
0.8 kg (1.76 lb)
Operating
Non-Operating
0 ~ 55° C (32 ~ 122° F)
-20 ~ 60° C (-4 ~ -140° F)
95% @ 60° C (non-condensing)
20 G
50 G
1.5 Grms
2.0 G
60 m below sea level to 4000 m above sea level
FCC Class A, CE
Design for GR-63-core & GR-1089-core
PICMG 2.0, R3.0 CompactPCI Specification
PICMG 2.1, R2.0 Hot-Swap Specification
PICMG 2.9, R1.0 IPMI Specification
PICMG 2.16, R1.0 Packet Switching Backplane Specification
Temperature *
Humidity
Shock
Vibration(5 ~ 500 Hz)
Altitude
Conformance
NEBS Level 3
Environment
Regulatory
Compliance
Standard
* Optional large heatsink available but only adapted to single PMC model. Please contact your local distributor for ordering information.
Recommended Configurations
CPU Board
MIC-3392A2-MxE,
MIC-3392B2-MxE
PMC Module
Rear I/O Board
RIO-3310AE, RIO-3310S-A1E,
RIO-3310S-A2E
MIC-3665-AE, MIC-3665-BE
Enclosure
MIC-3039-B, MIC-3042, MIC-3043, MIC-3081B, MIC-3056
Rear Transition Board
Rear Panel
COM2
KB & Mouse
GbE LAN VGA USB
*
RIO-3310S-A1E 1
1
2
1
1
RIO-3310S-A2E 1
1
2
1
1
RIO-3310AE
1
1
2
1
1
* Optional 3rd LAN port occupies the rear COM2 port
** Internal Ultra 320 SCSI port with optional external rear I/O port
Model
10/100Base-T
LAN
1
1
1
SCSI
**
1
-
IDE
1
1
1
Onboard Header/Socket/Connector
Slot
SATA FDD SCSI** PRT USB
Width
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Conn.
J3/J5
J3/J5
J3/J5
Ordering Information
Model Number
MIC-3392A2-M1E
MIC-3392A2-M2E
MIC-3392B2-M1E
MIC-3392B2-M2E
Front Panel I/O
LAN
COM
PMC
USB
VGA
CPU
2
2
1
1
1
1
1
1
1
1
2
2
2
2
-
1
1
-
-
Main Onboard Features
Storage
Memory
CF Socket
Channel
1 GB
1
1
2 GB
1
1
1 GB
1
1
2 GB
1
1
One CompactFlash
socket
Memory
DIMM socket
1
1
1
1
One DB-15 VGA port
Two USB 2.0 ports
Two RJ-45 Gigabit
LAN ports
One passive CPU
heatsink
Slot Width
One PMC knockout
One RJ-45
COM1 port
Online Download www.advantech.com/products
1-17
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MIC-3390
6U CompactPCI® Intel® Pentium®
M Processor-based Board with
Dual PCIe GbE/DDR2/SATA/PMC
Features
 Supports low-power Intel® Pentium® M processor at up to 2.0 GHz in a
479-pin Micro-FCPGA socket
 PCI Express dual Gigabit Ethernet on board
 Dual channel DDR2 400/533 MHz SDRAM up to 2 GB
 PICMG 2.16 R1.0 CompactPCI® Packet Switching Backplane Specification
compliant
 PICMG 2.9 R1.0 CompactPCI System Management Specification compliant
 PICMG 2.1 R2.0 CompactPCI Hot Swap Specification compliant
 Onboard SATA 2.5" HDD bay, PMC connector and CompactFlash socket
RoHS
COMPLIANT
Introduction
2002/95/EC
The MIC-3390 single board computer is designed to offer embedded system builders the best value in low-power Intel Pentium M computing. The Intel Pentium M processor, Mobile
Intel 915GME Express chipset and Intel I/O Controller Hub ICH6M, enables the MIC-3390 to deliver great computing performance, connectivity and throughput without compromising
system thermal design. The MIC-3390 Graphic Memory Controller Hub and ICH6M provide an optimized integrated memory, graphics and I/O solution. The MIC-3390 is validated
for all Intel Pentium M processors, and supports up to 2 GB of 400/533 MHz DDR2 memory in dual-channel SODIMMs.
The MIC-3390 maximizes I/O throughput with the ICH6-M’s PCI Express (PCIe) ports. The two Intel 82573E Ethernet controllers are linked directly using PCIe connectivity for a total
bidirectional peak bandwidth of 2 Gb/s. Another PCIe lane connects to a PCIe to PCI-X Bridge to provide a 64-bit / 100 MHz data path for the PMC and a 64-bit / 66 MHz data path
for the CompactPCI Bridge. The flexibility of the bridge allows the MIC-3390 to be used in a system slot or a peripheral slot as an intelligent I/O processor or as an application blade
in a multi-processor or clustered architecture. In addition to a full array of industry standard I/O features, ICH6M provides two Serial ATA ports for high speed data transfers up to
150 MB/s. One port is routed to rear I/O and the other port is routed to both the onboard 2.5" SATA drive and rear I/O for a greater choice of connectivity. With an optional mezzanine
card, the MIC-3390 provides a fully compatible IPMI 2.0 interface with LAN and serial port support for out-of-band management.
Specifications
Processor System
Bus
Memory
Graphic
Ethernet
Storage
Bridge
I/O Interface
Operating System
Hardware Monitor
Watchdog Timer
PMC
CPU (Not Included)
Max. Speed
Chipset
BIOS
Front Side Bus
PCI
Technology
Max. Capacity
Socket
Controller
VRAM
Resolution
Interface
Controller
I/O Connector
Mode
Channels
Storage Site
Bus
Interface
Serial (COM1)
Compatibility
Controller
Monitor
Output
Interval
Site
Interface
Signal
Intel Pentium M Processor (Socket 479)
2.0 GHz (2 MB L2 cache)
Intel 915GME
Award™ 8 Mbit flash
400/533 MHz
Up to 64-bit/100 MHz (PCI-X support)
DDR2 400/533 MHz SDRAM
2 GB
SODIMM x 2
Integrated in Intel 915GME
Dynamic
Up to 2048 x 1536, 64k color at 75 Hz
10/100/1000Base-TX Ethernet
Intel 82573E x 2
RJ-45 x 2 (front)
SATA
2
One SATA connector and space reserved for embedded 2.5" HDD
PCI 64-bit/66 MHz
Universal (System/Peripheral mode capability)
RJ-45 x 1 (front)
Windows® XP/2000/NT 4.0, Red Hat Fedora Core 3
Winbond W83782D
CPU temperature, +3.3 V, +5 V, +12 V
System reset
Programmable, 0 ~ 255 sec.
1
PCI Mezzanine (IEEE1386.1 compliant)
+5 V/+3.3 V compliant
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MIC-3390
Specifications Cont.
Solid State Disk
LED Indicator
USB 2.0
Real Time Clock
Voltage
Typical
Maximum
Dimensions (W x D)
Weight
One CompactFlash socket
HDD, Power, Hot swap, system/peripheral
2 channels
Built-in
+3.3 V
+5 V
4A
4A
4.2 A
6.2 A
233.35 x 160 mm (9.19" x 6.3"), 1-slot width
0.8 kg (1.76 lb)
Operating
Temperature
0 ~ 65° C (32 ~ 149° F)
Humidity
Shock
20 G
Vibration (5 ~ 500 Hz) 1.5 Grms
Altitude
60 m below sea level to 4000 m above sea level
Airflow
300 LFM=1.54 m/s
Conformance
FCC Class A, CE
NEBS Level 3
Design for GR-63-core & GR-1089-core
PICMG 2.0 R3.0 CompactPCI Specification
PICMG 2.1 R2.0 CompactPCI Hot Swap Specification
PICMG 2.9 R1.0 CompactPCI System Management Specification
PICMG 2.16 R1.0 CompactPCI Packet Switching Backplane Specification
Miscellaneous
Power Requirement
(Intel 1.8 GHz with 1 GB
memory)
Physical Characteristics
Environment
Regulatory
Compliance
+12 V
< 12 mA
< 20 mA
-12 V
< 65 mA
< 57 mA
Non-Operating
-40 ~ 70° C (-40 ~ 140° F)
95% @ 60° C (non-condensing)
50 G
2.0 G
Recommended Configurations
CPU Board
PMC Module
MIC-3390E, MIC-3390-AE
MIC-3665-AE, MIC-3665-BE
Rear I/O Board
RIO-3310AE, RIO-3310S-A1E,
RIO-3310S-A2E
Enclosure
MIC-3039-B, MIC-3042, MIC-3043, MIC-3081B, MIC-3056
Rear Transition Board
Part Number
RIO-3310AE
RIO-3310S-A1E
RIO-3310S-A2E
KB &
Mouse
1
1
1
COM2*
1
1
1
GbE
LAN
2
2
2
Rear Panel
VGA USB
1
1
1
1
1
1
10/100Base-T
LAN
1
1
1
Onboard Header/Socket/Connector
SCSI** IDE
SATA
FDD COM1 SCSI** PRT
USB
Conn.
1
1
1
1
1
1
1
1
1
1
J3/J5
J3/J5
J3/J5
1
1
1
1
1
1
1
1
1
1
1
Slot
Width
1
1
1
* Optional 3rd LAN port occupies the rear COM2 port
** Internal Ultra 320 SCSI port with optional external rear I/O port
Ordering Information
Part Number
MIC-3390E
MIC-3390-AE
One CompactFlash
socket
Two DIMM sockets
LAN
2
2
COM
1
1
Front Panel I/O
PMC
USB
1
2
1
2
VGA
1
1
CPU
-
One 64-bit/66 MHz
PMC connector
Memory
-
Main Onboard Features
CF Socket
IDE Channel
1
2.5" SATA HDD
1
2.5" SATA HDD
Slot Width
1
1
IPMI BMC Module
1
One PMC knockout
Two RJ-45 Gigabit LAN ports
Two USB 2.0 ports
One passive CPU
heat sink
One DB-15 VGA port
One RJ-45 COM1 port
Online Download www.advantech.com/products
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MIC-3369C
6U CompactPCI® Intel® Pentium® M
Processor-based Board with VGA/Dual
PCI GbE/PMC (PICMG 2.16)
Features
 Supports Intel® Pentium® M 760 processor (2.0 GHz, 2 MB L2 cache)
 Supports 400/533 MHz FSB
 Supports dual Gigabit LAN ports on the rear
 Up to 2 GB (DDR 200/266 MHz) onboard memory with ECC
 PICMG 2.16 R1.0 CompactPCI Packet Switching Backplane Specification
compliant
 PICMG 2.1 R2.0 CompactPCI Hot Swap Specification compliant
 Onboard 2.5" HDD bay, PMC connector and CompactFlash socket
RoHS
COMPLIANT
2002/95/EC
Introduction
The MIC-3369C is a highly integrated and cost effective CompactPCI single board computer based on the Intel Pentium M processor. It is an ideal application blade for integration
into products where performance and low power consumption are key requirements. The Intel E7501 chipset delivers 4.3 GB/s bandwidth across a 400/533 MHz front side bus. The
Pentium M processor has 32 KB of level 1 cache, 1 MB/2 MB of level 2 advanced transfer cache and up to 4.3 GB/s of bandwidth across dual data rate memory channels. The MIC3369C supports up to 2 GB of ECC DDR 266 onboard memory.
The MIC-3369C uses Intel’s I/O controller hub technology to provide 64-bit data buses. The onboard dual Gigabit Ethernet controller is connected via a 64-bit / 133 MHz PCI-X bus
for maximum sustained packet throughput. A full array of industry standard I/O features, onboard 2.5" hard disk drive bay and a 64-bit/66 MHz PMC site enables the MIC-3369C to
meet the most flexible and demanding I/O processing needs. The MIC-3369C can be used in either a system slot or peripheral slot, making it an ideal choice for applications requiring
PICMG 2.16 CompactPCI Packet Switching Backplane support for Gigabit switched-fabric interconnection between blades. The MIC-3369C is perfect for mission critical telecom and
data communication applications such as 3G wireless infrastructure, Voice-over-IP, media gateways, soft switches and triple-play server clusters.
Specifications
Processor System
Bus
Memory
Graphic
Ethernet
EIDE
PCI-to-PCI Bridge
Front I/O Interface
Operating System
Hardware Monitor
Watchdog Timer
PMC
CPU (Not Included)
Speed
L2 Cache
Chipset
BIOS
Front Side Bus
PCI
Technology
Max. Capacity
Integrated
Controller
VRAM
Interface
Controller
I/O Connector
Mode
Channel
Connector
Interface
Controller
Bus
PMC
VGA
USB
Serial (COM1)
LAN
Compatibility
Controller
Monitor
Output
Interval
Site
Interface
Signal
Intel Pentium M processor (Socket 479)
Up to 2.0 GHz
1 MB on 1.6 GHz CPU or 2 MB on 2.0 GHz CPU
Intel E7501 + ICH4
Award™ 4 Mbit flash (network booting/console redirection on request)
400/533 MHz
64-bit/133 MHz (PCI-X support)
DDR 200/266 MHz SDRAM with ECC support
2 GB
512 MB / 1 GB / 2 GB memory on board (no DIMM socket)
ATI RageXL™
8 MB dedicated
10/100/1000Base-TX Ethernet
Intel 82546GB (Dual GbE ports)
RJ-45 x 1 (front)
ATA 33/66/100
2
One IDE connector and space reserved for embedded 2.5" HDD
Universal (System/Peripheral mode capability)
PLX6254
64-bit / 66 MHz
1
1
2 (USB 2.0)
1 (RS-232, RJ-45 connector)
1
Windows® XP/2000/NT 4.0, Red Hat Linux 9.0, VxWorks
Winbond® W83782D
CPU temperature, +3.3 V, +5 V, +12 V
System reset
Programmable, 0 ~ 255 sec.
1
64-bit/66 MHz PCI Mezzanine (IEEE1386.1)
+5 V/+3.3 V compliant
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MIC-3369C
Specifications Cont.
Solid State Disk
LED Indicator
USB 2.0
Real Time Clock
Voltage
Maximum
CompactFlash socket
HDD, Power, Hot Swap
2 channels
Built-in
+3.3 V
+5 V
5.18 A
4.19 A
Operating
Temperature
0 ~ 65° C (32 ~ 149° F)
Humidity
Shock
20 G
Vibration (5 ~ 500 Hz)
1.5 Grms
Altitude
60 m below sea level to 4000 m above
Dimensions (W x D)
233.35 x 160 mm (9.2" x 6.3"), 1-slot width
Weight
0.8 kg (1.76 lb)
PICMG 2.0 R3.0 CompactPCI Specification
PICMG 2.1 R2.0 CompactPCI Hot Swap Specification
PICMG 2.16 R1.0 CompactPCI Packet Switching Backplane Specification
Miscellaneous
Power Requirement (Intel Pentium M 1.6 GHz)
Environment
Physical Characteristics
Compliance
+12 V
38 mA
-12 V
< 25 mA
Non-Operating
-40 ~ 70° C (-40 ~ 158° F)
95% @ 60° C (non-condensing)
50 G
2.0 G
Recommended Configurations
CPU Board
MIC-3369C-MxE
PMC Module
MIC-3665-AE, MIC-3665-BE
Rear I/O Board
RIO-3309C-AE, RIO-3309S-AxE
Enclosure
MIC-3039-B, MIC-3056, MIC-3042, MIC-3043, MIC-3081B
Rear Transition Board
RIO-3309C-AE
KB & Mouse
1
COM2*
1
Rear Panel
GbE LAN
VGA
2
1
USB
1
10/100 LAN**
1
SCSI
-
IDE
1
Onboard Header/Socket/Connector
FDD
SCSI COM1
USB
PRT
1
1
1
1
RIO-3309S-A1E
1
1
2
1
1
1
-
1
1
1
1
1
1
RIO-3309S-A2E
1
1
2
1
1
1
1
1
1
-
1
1
1
Part Number
Conn.
J3/J5
J1/J2/
J3/J5
J1/J2/
J3/J5
Slot Width
1
1
1
* RS-232/422/485 selectable
** Optional 3rd LAN port occupies the rear COM2 port
Ordering Information
Front Panel I/O
LAN
COM
PMC
USB
MIC-3369C-M0E
1
1
1
2
MIC-3369C-M1E
1
1
1
2
MIC-3369C-M2E
1
1
1
2
Note: The above part numbers do not include the CPU, please order separately.
Part Number
VGA
1
1
1
Memory
512 MB
1 GB
2 GB
Onboard Header/Socket/Connector
IDE Channel
CF Socket
2.5" HDD
1
2.5" HDD
1
2.5" HDD
1
Slot Width
1
1
1
One PMC knockout
One DB-15 VGA port
Two USB 2.0 ports
One RJ-45 COM1 port
One RJ-45 Gigabit
LAN port
One
Micro-FCPGA
One 64-bit/66 MHz
CompactFlash
socket
PMC connector
socket
Onboard memory One 2.5" IDE socket
One 2.5" HDD bay
One passive CPU heatsink
Online Download www.advantech.com/products
1-21
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6U CompactPCI Enclosures
MIC-3043 Series
Selection Guide
4U Enclosure
Specifications
Model Name
MIC-3043B/MIC-3043B-BE
MIC-3043C/MIC-3043C-BE
Height (1U = 1.75")
4U
4U
6U Slot
PCI Bus
Backplane
Drive Bay
Cooling
6
6
32-bit/33 MHz
32-bit/33 MHz
64-bit/66 MHz
64-bit/66 MHz
H.110 CT Bus
Yes
-
PICMG 2.16
-
-
VI/O Voltage
3.3 V/5 V
3.3 V/5 V
5.25"
-
-
3.5" HDD Bracket
2 IDE removable
2 SCSI
hot-swappable
Slim FDD
-
-
Slim CD-ROM
1 USB
1 USB
No. of Fans
2
2
Fan Air Flow Rate
193 CFM, 61.3 CFM
193 CFM, 61.3 CFM
AC (100 ~ 240 V)
Hot-swap AC cPCI 500 W + 250 W (2+1)
Hot-swap AC cPCI 500 W + 250 W (2+1)
DC (-48 V)
Hot-swap DC cPCI 500 W + 250 W (2+1)
Hot-swap DC cPCI 500 W + 250 W (2+1)
MIC-3392
Yes
Yes
MIC-3390
Yes
Yes
MIC-3369C
Yes
Yes
Yes
Yes
Yes
Max. Power Supply
CPU Board
RIO Card
PCI Carrier Board
MIC-3961
Yes
Media Carrier Board
MIC-3960
-
-
Dual PMC Carrier Board
MIC-3951
Yes
Yes
MIC-3927AE
-
-
MIC-3927BE
-
-
MIC-3927CE
Yes
Yes
Chassis Management
Module
MIC-3927
mm
440 x 177 x 320
440 x 177 x 320
inch
17.3 x 7 x 12.6
17.3 x 7 x 12.6
kg
18
18
lb
39.7
39.7
RoHS Compliance
RoHS
RoHS
Reference Page
1-24
1-24
Dimensions (W x H x D)
Weight
Yes: Supported; -: Unsupported; : CPU board and chassis don’t support HDD
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MIC-3042 Series
MIC-3043 Series
4U Enclosure
MIC-3043DE/MIC-3043D-BE
MIC-3042AE/MIC-3042A-xE
MIC-3042BE/MIC-3042B-xE
MIC-3043AE/MIC-3043A-BE
4U
4U
4U
4U
6
8
8
6
32-bit/33 MHz
32-bit/33 MHz
32-bit/33 MHz
32-bit/33 MHz
64-bit/66 MHz
64-bit/66 MHz
64-bit/66 MHz
64-bit/66 MHz
-
Yes
Yes
Yes
-
-
-
-
3.3 V/5 V
3.3 V/5 V
3.3 V/5 V
3.3 V/5 V
-
-
-
-
2 SATA (IDE or SATA interface
optional)
hot-swappable
-
-
2 IDE removable
-
-
-
-
1 USB
-
-
1 USB
2
2
2
2
193 CFM, 61.3 CFM
193 CFM, 61.3 CFM
193 CFM, 61.3 CFM
193 CFM, 61.3 CFM
Hot-swap AC cPCI 500 W + 250 W
(2+1)
Hot-swap AC cPCI 500 W + 250 W
(2+1)
Hot-swap AC cPCI 500 W + 250 W
(2+1)
Hot-swap AC cPCI 500 W + 250 W
(2+1)
Hot-swap DC cPCI 500 W + 250 W
(2+1)
Hot-swap DC cPCI 500 W + 250 W
(2+1)
Hot-swap DC cPCI 500 W + 250 W
(2+1)
Hot-swap DC cPCI 500 W + 250 W
(2+1)
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
-
Yes
Yes
-
Yes
Yes
-
Yes
Yes
Yes
Yes
-
-
-
-
-
-
-
-
Yes
Yes (optional)
Yes (optional)
Yes (optional)
440 x 177 x 320
440 x 177 x 320
440 x 177 x 320
440 x 177 x 320
17.3 x 7 x 12.6
17.3 x 7 x 12.6
17.3 x 7 x 12.6
17.3 x 7 x 12.6
18
18
18
18
39.7
39.7
39.7
39.7
RoHS
RoHS
RoHS
RoHS
1-24
1-26
1-26
1-24
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MIC-3043
4U CompactPCI® Enclosure with cPCI
Power Supply and Removable HDD Bay
(CT Bus or Non-CT Bus)
Features
 6-slot 6U CompactPCI® backplane
 Supports two hot-swappable SCSI/SATA or removable IDE HDD bays
 Built-in IDE slim-type CD-ROM
 AC cPCI 250 W + 250 W redundant (1+1) power supplies
 Supports hot-swappable fan modules
 PICMG 2.5 (CompactPCI Computer Telephony) compliance
 Built-in alarm module (MIC-3924L-AE)
RoHS
COMPLIANT
2002/95/EC
Introduction
The MIC-3043 is a 4U enclosure designed for mission-critical and high-reliability applications such as Networking, Telecommunication, Computer Telephony Integration, and Image
Processing. It is equipped with a hot-swappable CompactPCI redundant power supply and hot-swappable fan modules to minimize MTTR (Mean-Time-to-Repair). The MIC-3043
supports IEEE 1101.11 rear I/O transition boards. Users can route I/O signals to the rear transition boards for simplified system cabling. Front boards pop in and out without any
hardwiring. The MIC-3043 has two hot-swappable SCSI/SATA or removable IDE HDD bays and one slim CD-ROM as standard.
The MIC-3043 has a high-quality backplane that supports impedance control and 64-bit / 66 MHz cards for full compatibility. The H.110 CT Bus complies with PICMG 2.5, which is
an open architecture ideal for telecom solutions or development platforms.
Specifications
MIC-3043A
MIC-3043B
MIC-3043C
MIC-3043D
System x 1, Peripheral x 5, Rear transition x 6 (80 mm, IEEE1101.11 compliant)
Yes
Yes
Yes
Backplane
32-bit/33 MHz, 64-bit/66 MHz
+3.3 V/+5 V (selectable)
Cooling
2 (front: 193 CFM, rear: 61.3 CFM)
2 (IDE)
2 (IDE)
2 (SCSI)
2 (SATA)
Drive Bay
1
1
1
1
Management Interface
2 (fan failure and system overheating)
AC 100 ~ 240 V @ 50 ~ 60 Hz, full range (MIC-3043X-XX)
AC cPCI 250 W redundant power module
Power Supply
+3.3 V
+5 V
+12 V
-12 V
Max. Load
36 A
50 A
10 A
1A
Min. Load
0A
2.0 A
0A
0A
MTBF
Backplane
Fan module
Power supply
Reliability
800,000 hours
50,000 hours @ 25° C
100,000 hours @ 70%
Operating
Non-Operating
Temperature
0 ~ 45° C, (32 ~ 113° F)
-20 ~ 60° C, (-4 ~ 140° F)
Environment
Humidity
10 ~ 95% @ 40° C, non-condensing
Shock
10 G
30 G
Vibration (5 ~ 500 Hz)
1.0 Grms*
2.0 G
Dimensions (W x H x D) 440 x 177 x 320 mm (17.3" x 7" x 12.6")
Physical Characteristics
Weight
18 kg (39.7 lb )
PICMG 2.0 R3.0 CompactPCI Specification
PICMG 2.1 R2.0 CompactPCI Hot Swap Specification
PICMG 2.11 R3.0 Front-Access Power Connectors Specification
Compliance
PICMG 2.5 R1.0 CompactPCI Computer Telephony Specification (MIC-3043B is not compliant with PICMG 2.5)
RoHS, CE, FCC, UL, CCC
* Without SCSI/IDE/SATA HDD
6U Slot
H.110 CT Bus
Bus
V (I/O)
Fan
3.5" HDD
Slim CD-ROM
Alarm indicators
Input
Output
1-24
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MIC-3043
Backplane Information Physical Number
6
5
4
3
2
1
MIC-3811, CT Bus backplane (for MIC-3043A/C/D)
MIC-3812, non-CT Bus backplane (for MIC-3043B)
Function
I/O slot
System slot
I/O slot
I/O slot
I/O slot
I/O slot
Recommended Configurations
Enclosure
MIC-3043AE
MIC-3043A-BE
MIC-3043BE
MIC-3043B-BE
MIC-3043CE
MIC-3043C-BE
MIC-3043DE
MIC-3043D-BE
CPU Board
MIC-3369C-MxE, MIC-3358A-MxE
MIC-3390E, MIC-3390-AE
MIC-3392A-MxE, MIC-3392B-MxE
MIC-3369C-MxE, MIC-3358A-MxE
MIC-3390E, MIC-3390-AE
MIC-3392A-MxE, MIC-3392B-MxE
MIC-3369C-MxE, MIC-3358A-MxE
MIC-3390E, MIC-3390-AE
MIC-3392A-MxE, MIC-3392B-MxE
MIC-3369C-MxE, MIC-3358A-MxE
MIC-3390E, MIC-3390-AE
MIC-3392A-MxE, MIC-3392B-MxE
Rear I/O Board
RIO-3309C-AE, RIO-3309S-A2E, RIO-3309S-A1E
Chassis Management Module
RIO-3310AE, RIO-3310S-A2E, RIO-3310S-A1E
RIO-3309C-AE, RIO-3309S-A2E, RIO-3310S-A1E
RIO-3310AE, RIO-3310S-A2E, RIO-3310S-A1E
RIO-3309S-A1E
Included
MIC-3924L-AE
Optional
MIC-3924A-BE
MIC-3927AE
RIO-3310S-A1E
RIO-3309S-A1E, RIO-3309C-AE, RIO-3309S-A2E
RIO-3310S-A1E, RIO-3310S-A2E, RIO-3310AE
Ordering Information
Part Number
PICMG 2.5
HDD Bay
Media Support
Chassis Management Module
MIC-3043AE
Yes
IDE
Slim CD-ROM
MIC-3924L-AE
MIC-3043A-BE
Yes
IDE
Slim CD-ROM
MIC-3924L-AE
MIC-3043BE
IDE
Slim CD-ROM
MIC-3924L-AE
MIC-3043B-BE
IDE
Slim CD-ROM
MIC-3924L-AE
MIC-3043CE
Yes
SCSI
Slim CD-ROM
MIC-3924L-AE
MIC-3043C-BE
Yes
SCSI
Slim CD-ROM
MIC-3924L-AE
MIC-3043DE
Yes
SATA
Slim CD-ROM
MIC-3924L-AE
MIC-3043D-BE
Yes
SATA
Slim CD-ROM
MIC-3924L-AE
Note: Please contact your local distributor to order AC 500W + 250W (2+1) redundant power suppliers.
cPCI Power Supply
Hot-swap AC cPCI 250 W + 250 W
Hot-swap AC cPCI 250 W + 250 W
Hot-swap AC cPCI 250 W + 250 W
Hot-swap AC cPCI 250 W + 250 W
Accessories
Part Number
1757000190G
1757000011
968A390022
MIC-3927CE
Description
One AC cPCI 250 W redundant power module (included)
One DC cPCI 250 W redundant power module
MIC-3924L-AE alarm module (included)
MIC-3927 intelligent chassis management module (IPMI)
Built-in alarm module (MIC-3924L-AE)
Hot-swappable
rear fan
Supports IEEE 1101.11
rear I/O transition boards
Two hot-swappable SCSI/SATA or
removable IDE HDD bays
6-slot 6U cPCI backplane AC cPCI 500 W + 250 W
redundant (2+1) power supplies
Online Download www.advantech.com/products
One slim-type CD-ROM
Hot-swappable 193-CFM
fan module
1-25
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MIC-3042
4U CompactPCI® Enclosure with cPCI
Power Supply (CT Bus or PICMG 2.16)
Features
 8-slot 6U CompactPCI® backplane
 AC cPCI 500 W + 250 W redundant (2+1) power supplies
 PICMG 2.16 (CompactPCI Packet Switching Backplane) compliance
 PICMG 2.5 (CompactPCI Computer Telephony) compliance
 Built-in alarm module (MIC-3924L-AE)
RoHS
COMPLIANT
2002/95/EC
Introduction
The MIC-3042 is a 4U enclosure designed for standard cPCI power supplies. It is equipped with a cPCI 500 W redundant 2+1 power supply with hot-swap support. The system has
8 slots for CompactPCI boards and 6 slots for IEEE 1101.11 rear I/O transition boards. The MIC-3042 comes with a built-in high quality backplane that supports 64-bit / 66 MHz PCI
cards. The standard configuration includes a H.110 CT Bus that complies with PICMG 2.5, which is the open architecture used to build telecom solutions.
Specifications
Backplane
Cooling
Power Supply
Environment
Physical Characteristics
Reliability
Serviceability
Compliance
MIC-3042A
MIC-3042B
System x 1, Peripheral x 6, Switch x 1, Rear
System x 1, Peripheral x 6, Media x 1, Rear
6U slot
transition x 8 (80 mm, IEEE1101.11 compliant)
transition x 7 (80 mm, IEEE1101.11 compliant)
Blade Server Support
Yes
Bus
Up to 64-bit/66 MHz PCI bus
H.110 CT Bus
Yes
Yes
V (I/O)
+3.3 V/+5 V (selectable)
Fan
2 (front: 193 CFM, rear: 61.3 CFM)
Input
AC 100 ~ 254 V @ 50 ~ 60 Hz, full range (MIC-3042X-A)
Output
AC cPCI 250 W redundant power module
+3.3 V
+5 V
+12 V
-12 V
Max. Load
36 A
50 A
10 A
1A
Min. Load
0A
2.0 A
0A
0A
Operating
Non-Operating
Temperature
0 ~ 45° C (32 ~ 113° F)
-20 ~ 60° C (-4 ~ 140° F)
Humidity
20 ~ 90% @ 40° C, non-condensing
10 ~ 95% @ 40° C, non-condensing
Shock
10 G
30 G
Vibration (5 ~ 500 Hz)
1.0 Grms
2.0 G
Dimensions (W x H x D)
440 x 177 x 320 mm (17.3" x 7" x 12.6")
Weight
18 kg (39.7 lb)
MTBF
Backplane
Fan module
Power supply
800,000 hours
50,000 hours @ 25 °C
100,000 hours @ 70% load
MTTR
5 minutes
PICMG 2.0 R3.0 CompactPCI Specification
PICMG 2.1 R2.0 CompactPCI Hot Swap Specification
PICMG 2.5 R1.0 CompactPCI Computer Telephony Specification
PICMG 2.11 R3.0 Front-Access Power Connectors Specification
PICMG 2.16 R1.0 CompactPCI Packet Switching Backplane Specification (MIC-3042B is not compliant with PICMG 2.16)
RoHS, CE, FCC, UL, CCC
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MIC-3042
Backplane Information
Physical Number
8
7
6
5
4
3
2
1
Function
Switch slot
I/O slot
I/O slot
I/O slot
I/O slot
I/O slot
I/O slot
System slot
Physical Number
8
7
6
5
4
3
2
1
MIC-3042A, PICMG 2.16 / CT backplane (for MIC-3042A series)
Function
I/O slot
I/O slot
I/O slot
I/O slot
I/O slot
I/O slot
System slot
Media blade slot
MIC-3042B, CT backplane (for MIC-3042B series)
Recommended Configurations
Enclosure
CPU Board
MIC-3369C-MxE
MIC-3358A-MxE
MIC-3390E, MIC-3390-AE
MIC-3392A-MxE, MIC-3392B-MxE
MIC-3369C-MxE
MIC-3358A-MxE
MIC-3390E, MIC-3390-AE
MIC-3392A-MxE, MIC-3392B-MxE
MIC-3042AE
MIC-3042A-AE
MIC-3042BE
MIC-3042B-AE
Rear I/O Board
RIO-3309C-AE, RIO-3309S-A2E
RIO-3309C-AE, RIO-3309S-A2E
RIO-3310S-A2E
RIO-3309C-AE, RIO-3309S-A2E
RIO-3309C-AE, RIO-3309S-A2E
Chassis Management Module
Included
MIC-3924L-AE
or
Optional
MIC-3927CE
RIO-3310S-A2E
Ordering Information
Part Number
PICMG 2.16 PICMG 2.5
PCI
MIC-3042AE
MIC-3042A-AE
MIC-3042BE
MIC-3042B-AE
Yes
Yes
-
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Switch Board
Support
Yes
Yes
-
Media Blade
Support
Yes
Yes
Chassis Management
Module
MIC-3924L-AE
MIC-3924L-AE
MIC-3924L-AE
MIC-3924L-AE
cPCI Power Supply
AC cPCI 500 W + 250 W redundant (2+1)
AC cPCI 500 W + 250 W redundant (2+1)
Accessories
Part Number
1757000190G
968A390022
MIC-3927CE
Description
One AC cPCI 250 W redundant power module (included)
MIC-3924L-AE alarm module (included)
MIC-3927 intelligent chassis management module (IPMI)
LED
board
Hot-swappable
193-CFM fan module
AC cPCI 500 W + 250 W
redundant (2+1) power supplies
Built-in alarm board
(MIC-3924L-AE)
Hot-swappable
rear fan
Supports IEEE
1101.11 rear I//O
transition boards
Online Download www.advantech.com/products
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MIC-3927
CompactPCI® Intelligent Chassis
Management Module (PICMG® 2.9)
Features
 Compatible with PICMG 2.1, 2.16, and 2.9-compliant components
 Monitors via the Intelligent Platform Management Bus (IPMB) protocol
 Provides isolated IPMI signals for each slot for maximum security and
reliability
 Out-of band management interface
 Hot swap support for IPMI based field replaceable components
 Alarm cut off push button on the front panel
 Standalone system monitoring: no driver needed, independent OS
RoHS
COMPLIANT
2002/95/EC
Introduction
The MIC-3927 is a proprietary form factor Chassis Management Module (CMM) intended for use with PICMG* 2.1, 2.16, and 2.9-compliant systems (the CompactPCI* Hot Swap,
Packet Switching Backplane, and System Management specifications respectively). The MIC-3927 plugs into a dedicated slot in compatible systems. It provides centralized management
and alarm notification for system power supplies and fans as well as single board operation status. The CMM may be paired with a backup for high-availability applications.
The MIC-3927 is essentially a special-purpose single board computer with a CPU, some memory, a PCI bus, an operating system and peripherals. The MIC-3927 monitors and
configures IPMI-based components in the chassis. When the thresholds for temperature and voltage limitations are reached or when failure occurs, the CMM will capture an event.
At the same time, the MIC-3927 sends SNMP traps and drives the Telco alarm relays that trigger onboard LEDs. The CMM can query FRU information (such as serial number, model
number, manufacture date, etc.), detect presence of components (such as fan tray, CPU board, etc.), and monitor the status of each component.
The MIC-3927 also has a built-in Web-based administration interface that allows users to monitor the system’s operation from any place with Internet connectivity. The MIC-3927
adds another dimension to the reliability of your most critical applications.
*IPMI function only supported for MIC-3390 and MIC-3392
Sensor Specifications
Voltage
Temperature
Fan Speed
Power Good
CPU Board Health
Digital Input/Output (optional)
Input
Input
Sensor
Interface
Range
Input
Range
Input
Range
Interface
Input
Max. SBC Monitoring
Input
Output
+3.3 VDC, +5 VDC, -5 VDC, +5 VSB, +12 VDC, -12 VDC, VBat
1 (onboard)
Thermistor
I2C
-40 ~ 120° C (-40 ~ 248° F)
9
700 ~ 10000 rpm
4
High > 2.4 VDC, Low < 0.8 VDC
I2C
CPU Vcore, CPU fan, CPU temperature (up to 2 CPUs), DC +5 V, DC -5 V, V (I/O), DC +12 V, DC -12 V
8 boards
4
4
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MIC-3927
Hardware Specifications
CPU
Firmware
Memory
Interface
Interface
Baud Rate
Buzzer support
Time-out Signal for watchdog
timer detection
Charge Time
Battery Type
Capacity
Battery Life
Typical
Processor System
Ethernet
Serial Port
Miscellaneous
Battery
Power Requirement
Environment
Temperature
Humidity
Physical Characteristics
Dimensions (W x D)
RDC2880
2 MB Embedded Flash ROM
2 MB SRAM
10/100Base-T
RS-232
9600 bps
Yes
Yes
24 hr
Ni-MH
1500 mA-H (full charged, for 15~20 minutes operation, depending on the system configuration)
80% capacity @ 20° C after 1000 cycles of charge and discharge
5 V @ 550 mA
Operating
Non-Operating
0 ~ 60° C (-32 ~ 140° F)
-20 ~ 70° C (-4 ~ 158° F)
5 ~ 95 % RH, non-condensing
Kernel module: 40.5 x 93 mm (1.6" x 3.7")
Carrier module: 100 x 95 mm (3.9" x 3.7")
Ordering Information
Part Number
MIC-3927AE
MIC-3927BE
MIC-3927CE
Description
MIC-3927 alarm module for MIC-3056, MIC-3081
MIC-3927 alarm module for MIC-3038, MIC-3041
MIC-3927 alarm module for MIC-3042, MIC-3043
Firmware Specifications
System Status Monitoring and
Management
Alarm Notification
Supported Protocol
Management Function
Real-time system status monitoring: provides real-time status display in HTTP/Java graphical format
Monitor the temperature, fan speed and system voltage
Alarm event record display
E-mail: can setup up to 4 addresses to receive notification e-mails
Audible alarm sound
SMS support for receiving short message through mobile phone
TCP, UDP, IP, ICMP, DHCP, BOOTP, ARP, SNMP, HTTP, Telnet
Web-based remote configuration, control and monitor
Remote power up and power down
Firmware upgrade from serial port and Ethernet port
Supports Time Sync with system board
The SSL and SSH secure communications across Internet
RS-232 COM port
LAN port
Onboard Battery
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RIO-3309/3310
Introduction
The RIO series of rear transition boards provide rear-panel access to the I/O interfaces of
Advantech’s CompactPCI CPU boards.
6U CompactPCI® Rear Transition Boards
Features
 External rear-panel interface connectors for CPU boards
RIO-3309C/3309S is designed for the MIC-3358A and MIC-3369C series.
 Onboard CompactFlash socket
RIO-3310S/3310A is designed for the MIC-3390 and MIC-3392 series.
 Ultra 320 SCSI interface
 Supports SATA interface
RoHS
COMPLIANT
2002/95/EC
Specifications
CompactPCI Connector
SCSI Controller
Power
Environment
Physical Characteristics
RIO-3309C: J3, J5; RIO-3309S: J1/J2/J3/J5; RIO-3310S: J1/J2/J3/J5; RIO-3310A: J3/J5
RIO-3309S: Adaptec AIC-7901 Ultra 320 SCSI controller chip supports RAID 0, 1, 10
RIO-3310S: Adaptec AIC-7901 Ultra 320 SCSI control chip supports RAID 0, 1, 10
Power Consumption
+3.3 V
+5 V
3A
2A
Operating
Temperature
0 ~ 60° C (32 ~ 140° F)
Humidity
Dimensions (W x D)
233.35 x 80 mm (9.2" x 1.5"), 1-slot width
Weight
0.4 kg (0.88 lb)
+12 V
1A
Non-Operating
-20 ~ 80° C (-4 ~ 176° F)
5 ~ 95%, non-condensing
RIO-3309C-AE
RIO-3309S-A1E
RIO-3309S-A2E
RIO-3310S series
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RIO-3309/3310
I/O Interfaces
Connector
I/O
Interface Location
RIO-3309C
RIO-3309S
RIO-3310S
RIO-3310A
RIO-3309C
RIO-3309S
RIO-3310S
RIO-3310A
Keyboard
J5
J5
J5
J5
Rear panel
Rear panel
Rear panel
Rear panel
Mouse
J5
J5
J5
J5
Rear panel
Rear panel
Rear panel
Rear panel
COM1
J5
J5
J5
J5
Internal
Internal
Rear panel
Rear panel
FDD
J3
J3
J3
J5
Internal
Internal
Internal
Internal
IDE
J3
J3
J3/J5
J3/J5
Internal
Internal
Internal
Internal
Rear panel
(optional)
Rear panel
(optional)
FE LAN
-
J5
J5
J5
-
Rear panel
(optional)
GbE LAN
J5
J5
J5
J5
Rear panel
Rear panel
Rear panel
Rear panel
USB
J5
J5
J5
J5
Rear panel/ Internal
Rear panel
Rear panel
Rear panel
VGA
J5
J5
J5
J5
Rear panel
Rear panel
Rear panel
Rear panel
COM2
J5
J5
J5
J5
Rear panel
Rear panel
Rear panel
Rear panel
Ultra 320 SCSI
(controller chip on board)
-
J1/J2
J1/J2
-
-
Rear panel/internal
Internal
-
Parallel
-
J3
J3
J3
-
Internal
Internal
Internal
SATA
-
-
-
-
-
-
Internal
Internal
Ordering Information
Rear Panel I/O
Part Number
On-board Header
Keyboard
Mouse
COM
USB
LAN
RIO-3309C-AE
1*
1*
1
1
RIO-3309S-A1E
1*
1*
1
1
RIO-3309S-A2E
1*
1*
1
RIO-3310S-A1E
1*
1*
RIO-3310S-A2E
1*
1*
RIO-3310AE
1*
1*
VGA
SCSI
COM
USB
SCSI
2 (GbE) 1
-
1
1
-
2 (GbE) 1
-
1
1
1***
1
2 (GbE) 1
1***
1
1
2
1
2 (GbE) 1
-
-
2
1
2 (GbE) 1
1***
-
2
1
2 (GbE) 1
-
-
IDE
Slot Width
FDD
Parallel
1
1
1**
1
1
1
1
1
-
1
1
1
1
1
1***
2
1
1
1
1
-
2
1
1
1
1
-
2
1
1
1
40-pin
* Y cable is included.
** An optional extension adapter will extend a 2-slot width panel.
*** Only RIO-3310S has the SCSI chipset on board.
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RIO-3392MIL
6U CompactPCI® Rear Transition
Board for MIC-3392MIL
Features
NEW
 External rear-panel interface connectors for the MIC-3392MIL CPU board
 On-board battery
 Supports SATA, IDE, FDD, LPT, USB2.0, COM, and audio interfaces
 4 RJ-45 ports on the rear-panel
 2 DVI-I ports on the rear panel
RoHS
COMPLIANT
2002/95/EC
Introduction
RIO-3392MIL is designed specifically for the MIC-3392MIL series. It contains a rich variety of I/O interfaces and ports on the external rear panel, extending the functional features
of MIC-3392MIL.
Specifications
CompactPCI Connector
J3/J4/J5
Environment
Temperature
Humidity
Dimensions (W x D)
Weight
Physical Characteristics
Operating
-40 ~ 70° C (-40 ~ 158° F)
5 ~ 85 % @ 45° C, non-condensing
233.35 mm x 80 mm (9.2" x 1.5"), 1-slot width
0.305 kg (0.672 lbs)
Non-Operating
-50 ~ 80° C (-58 ~ 176° F)
10 ~ 95 % @ 45° C, non-condensing
Recommended Configurations
Rear I/O Board
RIO-3392MIL-AxE Series
RIO-3392MIL-AxE Series
CPU Board
MIC-3392MILS-PxE Series
MIC-3392MILC-PxE Series
Enclosure
MIC-3039-BE, MIC-3042A/B, MIC-3043A/B/C/D, MIC-3056A, MIC-3081B
Customized conduction cool enclosure
Ordering Information
RTM
Model Number
RIO-3392MIL-A1E
RIO-3392MIL-A2E
Rear Panel
LAN
4
4
COM
1
1
DVI-I
2
2
PS2
1
1
USB
2
2
IDE
1
1
FDD
1
1
On-board Header/Socket/Connector
CPCI
COM
Console
USB
Conn.
LPT SATA
Interface Interface Interface
1
2
1
1
2
J3 ~ J5
1
2
1
1
2
J3 ~ J5
v
IDE Interface
Audio Interface
Four RJ45 ports
COM port
USB Interface
FDD
Interface
PS2 Keyboard &
Mouse port
Two DVI-I ports
Two USB2.0 ports
Conformal
Coating
Power & HDD LEDs
LPT
Two SATA
Interfaces
Console Interface
COM Interface
Note: final production will not contain J1 and J2 connectors.
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Memo
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Network Security Platforms
NCP-5120
NCP-3108
FWA-6480
Selection Guide
Network Processor Platform
Model Name
Specification
Processor System
Memory
x86 Processor Platforms
NCP-5120
NCP-3108
FWA-6480
CPU
Cavium OCTEON CN3860
Cavium OCTEON CN3860
Dual-Core/Quad-Core Dual
Intel® Xeon™ 5200/5400
Max. Speed
1G
500 MHz
3.0 GHz/2.83 GHz
L2 Cache
2 MB
2 MB
6 MB/12 MB
Technology
DDR2 400 ECC
Registered
DDR2 400/533/677 ECC
Registered
DDR2 DIMM, support ECC/
Registered, 533 MHz or 667
MHz
Max. Capacity
8 GB
4 GB
16 GB
Interface
100/1000Base-T
100/1000BaseT
10/100/1000Base-TX
Controller
Cortina IXF1010 x 2
Cavium OCTEON CN3860
Intel 82571 x 4
Intel 82573
Connector
RJ-45 x 20
RJ-45 x 4
SFP x 4
RJ-45 x 8
(SFP x 4)
Connector
RJ-45 x 1
DB9 x 1
RJ-45 x 2
LCD
-
1
16 Characters,
2 Lines
PCI Express
-
-
PCIe x 8 x 2
PCI
-
-
1
PMC Slot
1
-
-
PCI-X
-
1
-
USB
-
2
2
Ethernet
Console & Management
Port
Miscellaneous
Dimensions (W x H x D)
Weight
Reference Page
mm
426 x 44 x 456
426 x 44 x 403.6
430 x 88 x 515
inches
16.8 x 1.7 x 18
16.8 x 1.7 x 15.9
17 x 3.5 x 20.2
kg
10
5 kg
18
lb
22
11
40
2-2
2-4
2-6
2-
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FWA-3800
FWA-3240
FWA-3710
x86 Processor Platforms
FWA-710
Tabletop Platforms
FWA-3800
FWA-3240
FWA-3710
FWA-710
Intel Core 2 Duo/
Pentium D/Pentium 4
Intel EP80579 Integrated Processor
(Tolapai) supports 600/1066/1200
MHz processor
Intel Pentium M/
Celeron M
Intel Pentium M/Celeron M processor
2.66 GHz/3.4 GHz/
3.4 GHz
1.2 GHz
2.0 GHz/1.5 GHz
2.0 GHz/1.5 GHz
2 MB/4 MB/2 MB
256 KB
2 MB/512 KB
2 MB/512 KB
DDR2 533/400 SODIMM
DDR2 533/400
SODIMM
DDR2 533/667/800
DIMM
DDR2 800/667/533/400 MHz SODIMM
4 GB
2 GB
2 GB
2 GB
10/100/1000Base-TX
10/100/1000Base-T
10/100/1000Base-TX
10/100/1000Base-TX
Intel 82573 x 6
3 x GE from Intel EP80579 Integrated
Processor + Marvell 88E1111 PHY
1 x GE from Intel 82574L
Intel 52573 x 4
Intel 82562FE x 1
Intel 52573 x 4
Intel 82562FE x 1
RJ-45 x 6
RJ-45 x 4
RJ-45 x 5
RJ-45 x 5
RJ-45 x 1
RJ-45 x 1
DB9 x 1
DB9 x 1
16 Characters,
2 Lines
16 Characters, 2 Lines
16 Characters,
2 Lines
-
PCIe x4
PCIe x4
PCIe x4
-
MINI PCI
-
MINI PCI
-
-
-
-
1
2
2
430 x 44 x 435
426 x 44 x 236
426 x 44 x 280
252 x 44 x 167
17 x 1.7 x 17.1
16.8 x 1.7 x 9.3
16.7 x 1.7 x 11
9.9 x 1.7 x 6.6
4.5
4.2
4.5
1.2
9.9
9.3
9.9
2.6
2-8
2-10
2-12
2-14
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NCP-5120
Dual Cavium OCTEON™ MIPS64 Multi-core
Processor-based Network Appliance
Features
NEW
 Dual 1 GHz OCTEON™ MIPS64 Processors with 16 cores each
 Supports security and de/compression engine
 Up to 20 Gigabit Ethernet ports
 Supports one 64-bit/66 MHz PMC Slot
 Supports one 2.5" SATA HDD
 One 10/100 Mbps Ethernet port for management function
 Designed for NEBS
RoHS
COMPLIANT
2002/95/EC
Introduction
The NCP-5120 is a 1U rackmount network applications platform designed for mission-critical performance-demanding applications. With the increasing demand and complexity in
networking environments, system integrators and solution providers are seeking platforms that can manage high-speed packet processing.
Based on a new generation high-performance OCTEON network processors, the NCP-5120 offers up to sixteen 1 GHz cores. The chipset supports a variety of I/O interfaces from
Gigabit Ethernet interfaces and SPI 4.2 to PCI-X. The built-in security and compression/decompression engine provides reliable security functions at top speed.
The NCP-5120 comes with specially designed platform features, including redundant power supplies and a front-accessible HDD bay. In addition, a uniquely-designed thermal
mechanism and hot-swappable fan modules enhance platform reliability.
Specification
Processor System
System Memory
Boot Flash
Processor
Max. Speed
Processor Cores
Encryption Engine
Reg-ex Acceleration
TCP Acceleration
Inter Processor
Communication
Memory Socket
Memory type and capacity
Flash Type
Max Flash Size
Data Port Controller
Networking Interface
Ethernet Data Port
Management Port Controller
Management Port
Expansion
Storage System
I/O Interface
Miscellaneous
PMC Slot
Controller
Storage Interface
Serial Port
Debug Port
Hardware Monitor
EEPROM
CPLD
Dual Cavium OCTEON CN38XX/CN58XX series
1 GHz
4 – 16
Yes
Yes
Yes
Direct, multi-channel SPI 4.2 between OCTEON processors
(Primary configured as host and secondary configured as target mode)
Eight 240-pin DIMM slots
ECC registered DDR2 400 MHz DIMMs, up to 8 G per processor
4 x S29GL01GP
4 GB
Intel® IXF1010 10-port 100/1000 Gigabit Ethernet MAC x 2
Broadcom® BCM5488 8-port Gigabit Ethernet Transceiver x 2
Broadcom® BCM5482 dual-port Gigabit Ethernet Transceiver x 2
100/1000 Base-T ports x 20 with LED indicators
Supports 802.1Q, 802.1P and 802.3AD in software and CPLD
Intel 82545GM PCI-X 64/66 GbE LAN
10/100/1000Base-T port x 1 with LED indicator
Supports 802.1Q and 802.1P
One 64-bit/66 MHz PMC Slot
Silicon Image SiI 3124-2 SATA PCI 64-bit/66 MHz
One 2.5" SATA removable HDD tray
RJ-45 RS-232 x 2, one for each processor
JTAG pin header x 2, one for each processor
Winbond W83791G x 1
Atmel® AT24C256 x 3
Xilinx® XC2C284-7FT256C x 1
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NCP-5120
456
479.1
Dimensions
426
479.9
Unit: mm (inch)
Specifications Cont.
Type/Watt
Input
CPU Heatsink
Cooling
Fan
Bootloader
SW support
Operating system
Operating Enviroment
Environment
Storage Temperature
Dimension (W x H x D)
Physical Dimensions
Weight
Power
20 GbE ports
Status indicators
1 + 1 redundant hot-swappable SPS / 250 W + 250 W
AC 90 ~ 264 VAC full range
Passive copper fin heatsink
4 x hot-swappable fans
Cavium SDK 1.4 U Boot 1.1
Linux Kernel 2.6.14 Debian MIPS
Temperature: 0 to 40° C
Temperature: -20 to 70° C
426 x 44 x 456 mm (16.8" x 1.7" x 18")
10 kg (22 lb)
64-bit/66 MHz PMC
expansion slot
Humidity: 20% to 90% RH
Humidity: 5% to 95% RH
Power supply
CompactFlash socket
Removable HDD bay
Management LAN port
Redundant power supply
4 x Hot-swappable fan module
Dual Multi-core
network processors
2 x RJ-45 RS-232 COM ports
Ordering Information
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NCP-3108
Single Multi-core MIPS64-based Cavium
OCTEON™ Network Appliance
Features
NEW
 OCTEON™ MIPS64 processor with 16 cores
 Up to 8 Gigabit Ethernet ports
 Supports one 64-bits/66 MHz PCI-X slot
 Supports one 3.5" SATA HDD or two 2.5" SATA HDD
 Supports security, regular expression and de-/compression engine
RoHS
COMPLIANT
2002/95/EC
Specifications
Processor System
System Memory
RLDRAM
Boot Flash
Processor
Max Speed
Processor Cores
Encryption Engine
Reg-ex Acceleration
TCP Acceleration
Technology
Capacity
Memory Socket
RLDRAM type
Size
Flash type
Max Flash size
Networking Interface
Ethernet Port
Expansion
PCI-X Slot
Controller
Storage Interface
Compact Flash Socket
Serial Port
USB
LCM Module
Storage System
Peripheral
Notification LED
Power
Cooling
Physical Characteristics
Type/Watt
Input
CPU Heatsink
Fan
Dimension (W x D x H)
Weight
Operating
Environment
Non-Operating
Cavium OCTEON CN3860
500 MHz
16
Yes
Yes
Yes
ECC registered DDR2 400/533/667 MHz DIMMs
Up to 8 GB
Four 240-pin DIMM slots
MT49H32M9BM-33
256 MB
S29JL064H x 1
8 MB
Option I.
Eight 100/1000 Base T Gigabit Ethernet Ports.
Option II.
Four 100/1000 Base T Gigabit Ethernet Ports
Four SFP connectors.
One 64-bits/66 MHz PCI-X Slot
Silicon Image Sil3124-II SATA PCI 64-bits/66 MHz
One 3.5" SATA HDD Bay or two 2.5" SATA HDD Bay
1CF socket typeII
1 x DB9 RS-232
2
1
16 x LAN activity and connection
3 x Power, HDD and system status
AC: Zippy H1U-6250P 250 W/DC: DP1A-6251F
AC 100 ~ 264 Vac Full Range/DC -36 ~ -72 VDC (-48 V normal)
Passive copper fin heatsink with heatpipe
2
426 x 403.6 x 44 mm (16.8" x 15.9" x 1.7")
8 KG
Temperature: 0 to 40° C
Humidity: 20 % to 90 % RH
Temperature: -20 to 70° C
Humidity: 5% to 95 % RH
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NCP-3108
Dimensions
403.6
Unit: mm (inch)
44.0
482.0
465.0
426.0
PCI-X expansion slot
USB ports
PCI-X expansion
slot
Console port
3.5" SATA HDD
tray
LCM module
Gigabit Ethernet ports
& status indicators
System status indicators
Power switch
3.5" SATA HDD tray or
two 2.5" SATA HDD tray
compatible
Cooling fans
250 W PSU
Ordering Information
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FWA-6480
Two Dual/Quad-Core Intel® Xeon®
Processor-based 2U Rackmount Platform
with up to 8 PCIe GbE LAN Ports
Features
NEW
 Dual Intel® Xeon® Processors with 4/6 MB L2 cache, FSB support
1066/1333 MHz
 Support Dual-Core/Quad-Core Intel® Xeon® 5100/5200/5300/5400 series
processors
 DDR2 533/667 ECC Registered Memory, up to 16 GB
 Eight 10/100/1000 Mbps LAN ports with LAN bypass
 Supports 8 RJ-45 connectors or 4 SFP’s and 4 RJ-45 connectors
 Supports PCIe or PCI-X add-in cards
 Supports two hot-swappable front 3.5" SATA HDD
RoHS
COMPLIANT
2002/95/EC
Introduction
Built with functionality and availability in mind, the FWA-6480 Network Application Platform provides high-performance and an abundant feature set for enterprise-level network
communication appliances. Designed with the Intel 5100 MCH chipset, the FWA-6480 can support both single or dual processors with Intel Xeon 64-bit Quad-Core or Dual-Core
5400/5300/5200/5100 series processors. Utilizing Intel VT technology, it significantly improves system performance for networking environments. Incorporating an Intel I/O controller
Hub, ICH9R and other I/O subsystems, the system provides optimized computing efficiency and high-speed I/O bandwidth ideal for networking applications.
The FWA-6480 supports DDR2 533/667 MHz ECC registered memory, Serial ATA and PCI Express technologies, which optimize the system for space constrained installations. It
supports different I/O combinations, as the Intel 5100 MCH can provide either three PCIe x8 interfaces or 6 PCIe x4. Furthermore, this ultra dense platform is built with a redundant
power supply, which further increases the system's fault tolerance level.
This 2U rackmount system supports two hot-swappable 3.5" SATA HDD’s and CompactFlash for OS and network security applications. Also located on the front panel is an RJ-45
serial port, a 10/100 management LAN port, two USB ports and an LCD module for local system management, maintenance, and diagnostics.
Specifications
Processor System
Memory
CPU
Max. Speed
Front Side bus
Chipset
Technology
Capacity
PCI-E
BUS
Ethernet
Storage
Peripheral
Power
Environment
Physical
Riser Card
PCI
Management Port
Interface
SATA
Compact Flash socket
USB
Serial
LCD Module
Watt
Input
Temperature
Humidity
Dimension (W x H x D)
Weight
2 x Intel Dual-Core 5100/5200 Series and Intel Quad-Core 5300/5400 series processor
Dual-Core up to 3.0 GHz and Quad-Core up to 2.8 GHz
1066/1333MHz
Intel 5100P (San Clemente) + ICH9R
Dual Channel DDR2 533/677 MHz ECC registered
Up to 16 GB with 4 DIMMs, 4G dual rank memory module
2 x PCIe x8 connects to IO board
5 x PCIe x1 connects to IO board
1 x PCIe x8 slot for riser card
2 x PCI-E x8 slots
Supports full-height cards and external access, such as 10 G Ethernet card
1 x PCI 32-bit/33 MHz slot
1 x Intel 82573E 10/100/1000Base-T Ethernet
4 x 10/100/1000BaseT via RJ-45 interface and
4 x GbE via SFP interface from Intel 82571 Ethernet Controller supports 2 LAN Bypass Segements
Supports 2 x 3.5" hot-swappable SATA HDD, front accessible
1 x CF socket
1 x USB2.0 in the front
1 x Console port in the front by RJ-45 connector
1
500 W, 2U height (1+1 redundant, 500 W each)
AC 100 ~ 240 V @ 50 ~ 60 Hz, full range
Operating
Non-Operating
0 ~ 40° C (32 ~ 104° F)
-20 ~ 75° C (-4 ~ 167° F)
5 ~ 85% @ 40° C (104° F)
5 ~ 95%
430 x 88 x 515 mm (16.9" x 3.5" x 20.3")
18 kg (40 lb)
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FWA-6480
Dimensions
515 (20.3)
Unit: mm (inch)
88
(3.5)
482 (19.0)
465 (18.3)
430 (13.9)
HDD status LED
LCD display module
(16 characters, 2 lines)
RJ-45 console port
Power LED
8 LAN ports
Management LAN port
Two USB 2.0 ports
Two Hot-swappable HDDs
Ordering Information
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FWA-3800
1U Rackmount Intel® Core™2 Duo
Processor-based Platform with 6 PCIe
LAN Ports
Features
NEW
 Supports Intel® Core™2 Duo Processor
 Intel® Q965 chipset, 1066 MHz FSB
 Dual-channel DDR2 memory, up to 4 GB
 6 x PCIe GbE LAN ports w/LAN bypass
 1 x proprietary PCIe x4 connector for LAN expansion board
 Supports 1 x 3.5" SATA HDD
RoHS
COMPLIANT
2002/95/EC
Introduction
A high-performance and power-efficient network security platform, the FWA-3800 is specifically designed for advanced Internet security applications where performance is in high
demand. The FWA-3800 adopts the latest Intel Core 2 Duo processor and Intel Q965 chipset. This supports up to 4 GB of dual-channel DDR2 SDRAM on two DIMMs. The platform
reserves space for one 3.5" SATA HDD and one CompactFlash slot for storing or upgrade OS and other network security applications. By leveraging PCI Express (PCIe) technology, the
FWA-3800 takes full advantage of the ICH8D0 PCIe capability to maximize I/O throughput. The platform has six PCIe x1 lanes connected directly to the Intel 82573 Ethernet controllers
to offer 6 ports of Gigabit Ethernet at wire speed. For easy access, the front panel also has an RJ-45 console port and LCD Module for local system management, maintenance, and
diagnostics. It is FCC, CE, UL, CCC and RoHS compliant.
Specifications
Processor System
Memory
Onboard Expansion
Ethernet
Storage
Peripheral
Power
Environment
Physical
CPU
Intel Core 2 Duo / Intel Pentium D 4
Max Speed
2.66 GHz/ 3.4 GHz/ 3.4 GHz
Chipset
Intel Q965 and ICH8D0
Front Side Bus
1066/ 800 MHz
BIOS
Award™ 16 Mbit SPI
Technology
Dual-channel DDR2 533/ 667/ 800 MHz
Max. Capacity
Up to 4 GB with 2 slots
PCI Express (PCIe)
1 proprietary internal PCIe x4 connector for LAN expansion board
Riser Card
2 PCI-X 100 slots (Option) support full-height cards and external access
Mini PCI
One 32-bit/33 MHz Mini PCI slot
Interface
6 x 10/100/1000 Mbps Intel 82573 PCIe-based ports
LAN Bypass
3 segments in pairs
SATA
Supports 1 x 3.5" SATA HDD. Max. data transfer rate 300 MB/s
CompactFlash Socket
1 CF socket
USB
1 (USB2.0)
Serial
1 (RJ-45)
LCD Module
1
Watt
250 W
Input
AC 100 ~ 240 V @ 50 ~ 60 Hz, full range
Operating
Non-Operating
Temperature
0 ~ 40° C (32 ~ 104° F)
-20 ~ 75° C (-4 ~ 167° F)
Humidity
5 ~ 85 % @ 40° C (104° F)
5 ~ 95 %
Dimensions (W x H x D)
430 x 44 x 435 mm (17" x 1.7" x 17.1")
Weight
4.5 kg (9.9 lb)
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FWA-3800
Dimensions
429
485.10
437.80
Unit: mm (inch)
Ordering Information
Accessories
Part Number
LAN
LAN Bypass
Power Supply
PCI-X / PCI slot
Part Number
Description
FWA-3860E
6
3
250 W
N/A
1702002600
3P 180 cm, USA
FWA-3860RE
6
3
250 W
2 (PCI only
support 3.3 V)
1702002605
3P 180 cm, Europe
1702031801
3P 180 cm, UK
1700000237
3P 180 cm, JP
LCD display module
(16 characters, 2 lines)
PCIe Gigabit Ethernet ports
RJ-45 console port
Power LED HDD LED
One USB 2.0 ports
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FWA-3240
1U Rackmount Intel Tolapai-based Platform
with 4 Front LAN Ports & LCD Display
Features
NEW
 1U Rackmount Network Application Platform
 Intel EP80579 Integrated Processor (Tolapai) solution
 One internal proprietary PCIe x4 expansion slot
 Single channel DDR2 SODIMM support up to 2 GB
 4 x 10/100/1000 Mbps GbE LAN ports
 Console port for local setting
RoHS
COMPLIANT
2002/95/EC
Introduction
The FWA-3240 incorporates Intel’s Tolapai System-on-Chip which combines Intel’s QuickAssist Technology and integrates an Intel Pentium M class core, memory controller and I/O
controller. The high-performance CPU core supplies the horse power needed to perform deep packet inspection and other complex operations and is particularly optimized for entry
to mid-range network security appliances.
Security applications can run existing x86 software applications because of backward code compatible with earlier Intel processors. Most network security platforms already run on
Intel x86 processors and can run existing software applications on Tolapai because it is backward compatible with earlier Intel processors. Typical appliance workloads which require
IP-SEC encryption, acceleration and compression of content can offload processing on to the QuickAssist Integrated Accelerator which increases the effective data throughput and
performance and reduces the overall power consumption of a given application.
The FWA-3240 features a low-power design, and supports up to 2 GB DDR2 on one single-channel SO-DIMM. It provides a total of four GbE LANs, three of which are from the Tolapai
on-chip MACs (Intel 82574-derived) and the fourth from a PCIe-based Intel 82574 Ethernet controller.
The on-chip MACs are routed to 3 Marvell PHY devices.
The system supports one 2.5” SATA HDD and CompactFlash for OS and/or Internet security applications. The front panel provides a RS-232 serial port with RJ-45 socket, 2 USB
ports and a LCD Module for local system management, maintenance and diagnostics. The system is fully FCC, CE and RoHS compliant.
Specifications
Processor System
Memory
Expansion
Ethernet
CPU & Chipset
Max. Speed
Front Side Bus
BIOS
Technology
Capacity
Onboard Expansion slots
Interface
Controller
SATA
Storage
Peripheral
Power
Environment
Physical
Controller
Compact Flash Socket
USB
Serial
LCD Module
Pin headers
Watt
Input
Temperature
Humidity
Dimensions (W x H x D)
Weight
Intel EP80579 Integrated Processor (Tolapai) supports 600/1066/1200 MHz processor
1.2 GHz
400/533 MHz
Award™ 4 Mbit Flash
Single channel DDR2 800/667/533/400 MHz SODIMM
Up to 2 GB with 1 slot
One proprietary internal PCIe x4 connector
4 x 10/100/1000Base-T
Three GbE from Intel EP80579 Integrated Processor + Marvell 88E1111 PHY
One GbE from Intel 82574, with bypass function
1 x 2.5" HDD bay
Max. data transfer rate at 150 MB/sec
JMicron (SATA to IDE bridge)
1 x CF socket on IDE 0 (Primary)
2 x USB 2.0
1 x RS-232 with RJ-45 connector
16 characters, 2 lines, 5 buttons
K/B, Mouse, LPT, COM
180 W
90 ~ 240 V AC, auto range
Operating
Non-Operating
0 ~ 40° C (32 ~ 104° F)
-20 ~ 75° C (-4 ~ 167° F)
5 ~ 85 % @ 40° C (104° F)
5 ~ 95 %
426 x 44 x 236 mm (16.8" x 1.7" x 9.3")
4.2 kg (9.3 lb)
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FWA-3240
236 (9.3)
Dimensions
44.4 (1.7)
426 (16.8)
Unit: mm (inch)
Block Diagram
SATA connector
JM20330
150 MB/s SATA 0
400/533/667/800 MHz
DDR2 SODIMM
USB 2.0
2 x USB
COM 1
RJ-45
COM 2
Pin-header
Intel Tolapai
BIOS
PCIe x1
GbE 0
Marvell
88E1111
GbE 1
Marvell
88E1111
GbE 2
Marvell
88E1111
GbE 3
Intel
82574
PCIe x4
RGMII
GPIO
KB/Mouse/LPT
RGMII
Super I/O
W83627
RGMII
33/66/100 MB/s
LPC Bus
CompactFlash
Socket
150 MB/s SATA 1
Proprietary
connector
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FWA-3710
1U Rackmount Intel® Pentium® M
Processor-based Platform with
4 PCIe LAN Ports
Features
 Supports Intel® Pentium® M or Celeron® M Processor
 Dual-channel DDR2 400/533 SODIMM, up to 2 GB
 Four 10/100/1000 Mbps LAN ports
 One proprietary PCIe expansion connector onboard
 Supports one fixed 3.5" IDE or SATA HDD
 One 10/100 Mbps LAN port for management
RoHS
COMPLIANT
2002/95/EC
Introduction
Conceived as a powerful but low power consumption rackmount Internet security platform, the FWA-3710 series was specifically designed for mainstream IDS/IPS, Anti-virus, VPN
gateway and Unified Threat Management (UTM) applications. Using the latest Intel Pentium M processor combined with the Mobile Intel 915GM Express chipset and Intel’s ICH6M
I/O Controller Hub, the FWA-3710 series provides unprecedented performance, connectivity and throughput without compromising on system thermal design. It supports up to 2 GB
of DDR2 system memory at 400 or 533 MHz on dual-channel SODIMM banks. By leveraging PCI Express technology, the platforms maximize I/O throughput by taking full advantage
of the ICH6-M’s PCI Express (PCIe) capability. Four PCIe lanes connect directly to the Ethernet controllers to provide bi-directional 2 Gb/s peak bandwidth for Gigabit Ethernet support
at wire speed. The system supports one optional 3.5" IDE or SATA HDD, and CompactFlash for OS and Internet security applications. The front panel has a 9-pin RS-232 serial port
and one 10/100 managed LAN port, with an LCD module for local system management, maintenance and diagnostics. It is FCC, CE, CCC, and UL compliant.
Specifications
Processor System
Memory
CPU
Max. Speed
Chipset
Front Side Bus
BIOS
Technology
Capacity
Expansion
Onboard Expansion Slots
Ethernet
Fast Ethernet
Gigabit Ethernet
GbE Controller
LAN Bypass
Controller
Storage
SATA
Peripheral
CompactFlash Socket
USB
Serial
LCD Module
K/B, Mouse, LPT, CRT, COM
Intel Pentium M / Celeron M processor
2.0 GHz/1.5 GHz
Intel 915GM + ICH6M
533/400 MHz
Award™ 4 Mbit Flash
Dual-channel DDR2 533/400 SODIMM
Up to 2 GB with 2 slots
1 proprietary internal PCIe x4 connector
1 32-bit/33 MHz Mini PCI Slot
1 10/100 Intel 82562 FE port for management
4 10/100/1000 Mbps PCIe GbE ports
4 x Intel 82573
2 segment on GbE ports
Supports 3.5" HDD x 1 on IDE 0, or SATA HDD x 1
- ATA100 connector x 1 on IDE 0 (Secondary)
- Max. data transfer rate 100 MB/s
- Supports 3.5" ATA HDD
SATA interface
- SATA connector x 1 on separate SATA channels
- Max. data transfer rate 150 MB/s
- Support 3.5" SATA HDD
1 CF socket on IDE 0 (Primary/Master)
2 (USB 2.0)
1 (RS-232)
1
Pin Headers
2-12
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FWA-3710
278.80 (11.00")
Dimensions
426.00 (16.80")
44.20 (1.74")
Unit: mm (inch)
Specifications Cont.
Watt
Input
Power
Environment
Temperature
Humidity
Dimensions (W x H x D)
Weight
Physical Characteristics
180 W
90 ~ 240 V AC, auto range
Operating
0 ~ 40° C (32 ~ 104° F)
5 ~ 85 % @ 40° C (104° F)
426 x 44 x 280 mm (16.7" x 1.7" x 11")
4.5 kg (9.9 lb)
Ordering Information
Part Number Processor LAN
FWA-3710E
5
Packing List
Power Supply Ethernet Controller
180 W
4 x Intel 82573
Accessories
Part Number
1702002600
1702002605
1702031801
1700000237
Part Number
1701160101
1703080160
1703092000
Description
VGA port cable (for system installation use)
PS/2 Y cable mini-DIN 16 cm
Console cable D-sub 9-pin 2 m
Description
3P 180 cm, USA
3P 180 cm, Europe
3P 180 cm, UK
3P 180 cm, JP
LCD display module
(16 characters, 2 lines)
Power
LED
Non-Operating
-20 ~ 75° C (-4 ~ 167° F)
5 ~ 95 %
HDD
LED
Two USB
2.0 ports
RS-232
console port
Four LAN ports
Management
LAN port
One 15-CFM
cooling fans
3.5" HDD bay
Online Download www.advantech.com/products
Power supply
2-13
Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com
Tabletop Intel® Pentium® M
Processor-based Platform
with 4 PCIe LAN Ports
FWA-710
Features
 Supports Intel® Pentium® M or Celeron® M Processor
 Dual-channel DDR2 400/533 SODIMM, up to 2 GB
 Four 10/100/1000 Mbps LAN ports
 One MINI PCI Slot
 Supports one fixed 2.5" IDE HDD
 One 10/100 Mbps LAN port for management
RoHS
COMPLIANT
2002/95/EC
Introduction
Conceived as an exceptional but low power consuming tabletop Internet security platform, the FWA-710 series was specifically designed for SMBs/SOHOs that require a single device
to combine functions such as IDS/IPS, anti-virus, VPN gateway and Unified Threat Management (UTM) in to a multi-functional gateway. Using the latest Intel Pentium M processor
combined with the Mobile Intel 915GM Express chipset and Intel ICH6M I/O Controller Hub, the FWA-710 series provides unprecedented performance, connectivity and throughput without
compromising on system thermal design. It supports up to 2 GB of DDR2 system memory at 400 or 533 MHz on dual-channel SODIMM banks. By leveraging PCI Express technology, the
platforms maximizes I/O throughput by taking full advantage of the ICH6-M’s PCI Express (PCIe) capability. Four PCIe lanes connect directly to the Ethernet controllers to provide
bi-directional 2 Gb/s peak bandwidth for Gigabit Ethernet support at wire speed. The system supports one optional 2.5" IDE HDD, and one CompactFlash device for OS and Internet
security applications. The rear I/O panel has a 9-pin RS-232 serial port and one 10/100 managed LAN port. It is FCC, CE, UL, CCC, and RoHS compliant.
Specifications
Processor System
Memory
Expansion
Ethernet
Storage
Peripheral
Power
Environment
Physical
CPU
Max. Speed
Chipset
Front Side Bus
BIOS
Technology
Capacity
Onboard Expansion Slot
Fast Ethernet
Gigabit Ethernet
GbE Controller
LAN Bypass
Controller
IDE
CompactFlash Socket
USB
Serial
K/B, Mouse, LPT, CRT, COM
Watt
Input
Temperature
Humidity
Dimensions (W x H x D)
Weight
Intel Pentium M/Celeron M processor
2.0 GHz/1.5 GHz
Intel 915 GM + ICH6-M
533/400 MHz
Award™ 4 Mbit Flash
Dual-channel DDR2 533/400 SODIMM
Up to 2 GB with 2 slots
One 32-bit/33 MHz Mini PCI slot
One 10/100 Intel 82562 FE port for management
Four 10/100/1000 Mbps GbE ports
4 x Intel 82573
Two segment on GbE ports
Supports 2.5" HDD x 1 on IDE 0
ATA100 connector x 1 on IDE 0 (Secondary)
Max. data transfer rate 100 MB/s
Supports 2.5" ATA HDD
1 CF socket on IDE 0 (Primary/Master)
2 USB 2.0
1 RS-232
Pin headers
65 W
100 ~ 240 V AC, auto-range
Operating
0 ~ 40° C (32 ~ 104° F)
5 ~ 85 % @ 40° C (104° F)
252 x 44 x 167 mm (9.9" x 1.7" x 6.6")
1.2 kg (2.6 lb)
Non-Operating
-20 ~ 75° C (-4 ~ 167° F)
5 ~ 95 %
2-14
Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com
FWA-710
166.5
Dimensions
42
44.2
250
251.5
Unit: mm (inch)
Packing List
Ordering Information
Part Number
Processor
LAN
AC Adapter
FWA-710E
-
5
65 W
Accessories
Part Number
1700001947
1700001948
1700001949
1700002141
Ethernet
Controller
4 x Intel 82573
Part Number
1701160101
1703080160
1703092000
1701440054
Description
VGA port cable (for system installation use)
PS/2 Y cable mini-DIN 16 cm
Console cable d-sub 9-pin 2 m
Flat cable 44 pin, 2.0 mm pitch connectors 5 cm
Description
2P 180 cm, USA
2P 180 cm, Europe
2P 180 cm, UK
2P 180 cm, JP
Intel Pentium M CPU
Sixteen LED Indicators for Power,
HDD and LAN status
2.5" IDE HDD
Removable cover allows easy maintenance and software upgrade
Two USB 2.0 ports
RS-232 console port
Management
LAN port
Four LAN ports
CompactFlash socket
Online Download www.advantech.com/products
SDRAM socket
2-15
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Memo
2-16
Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com
Regional Service & Customization Centers
China
China
Kunshan
86-512-5777-5666
Taiwan
Dongguan
86-769-8730-8088
Netherlands
Taipei
886-2-2792-7818
Poland
Eindhoven
31-40-267-7000
USA
Warsaw
48-22-33-23-730
Milpitas, CA
1-408-519-3800
Worldwide Offices
Greater China
Asia Pacific
China
Singapore
Beijing
Shanghai
Chengdu
Shenzhen
Hong Kong
86-10-6298-4346
86-21-6294-9911
86-28-8545-0198
86-755-8212-4222
852-2720-5118
Malaysia
886-2-2792-7818
886-4-2378-6250
886-7-229-3600
886-3-518-9320
Korea
Taiwan
Taipei Neihu
Taichung
Kaohsiung
Hsinchu
Kuala Lumpur
Europe
65-6442-1000
Germany
München
60-3-8075-7035
Tokyo
Osaka
81-3-5212-5789
81-6-6267-1887
USA
49 89-12-599-0
Irvine, CA
1-949-789-7178
France
Paris
Japan
Americas
33-1-4119-4666
Hungary
Budapest
36-1-264-3333
Italy
Seoul
82-2-3663-0405
Thailand
Bangkok
Arezzo
39-0575-98661
Benelux & Nordics
66-2-248-3140
India
Breda
31-76-523-1270
UK
Bangalore
91-80-2337-4567
Australia
Sydney
Melbourne
61-2-9482-2999
61-3-9797-0100
Ascot
44-1344-989-500
Russia
Moscow
7-495-232-1692
www.advantech.com
Please verify specifications before quoting. This guide is intended for reference purposes only.
All product specifications are subject to change without notice
No part of this publication may be reproduced in any form or by any means, electronic, photocopying, recording or otherwise,
without prior written permission of the publisher.
All brand and product names are trademarks or registered trademarks of their respective companies.
© Advantech Co., Ltd. 2008
2000007687
Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com
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