DSS NETWORKS Gig-cPCI-3U Bedienungsanleitung PDF herunterladen (Seite 61)

product selection guide · summer 2007 |

i / o & c o m m u ni c a t i o n s

Notes

MFIO-C6

6U CompactPCI multi-function I/O card with 8 analog inputs, 7 open collector 250mA outputs, 48 LVTTL I/O channels, 5 LVDS output ports, 2 LVDS input ports, 2

10/100BaseT interfaces and 6 serial ports; PowerQUICC II processor; 3 axis accelerometer; air-cooled and conduction-cooled formats available

PMC-ECAN-2

PMC with two CAN 2.0 interfaces

PMCD3

Multifunction PMC with Gigabit Ethernet, sync/async serial and IEEE 1394 (Firewire) interfaces; air-cooled and conduction-cooled formats available

Other I/O

GE Fanuc Embedded Systems offers a variety of highly reliable, high-performance I/O solutions

for embedded computing applications.

MicroTCA

™

is a new system architecture in

which AdvancedMC

™

cards plug into their

own backplane. System packaging options

range from rack-mounted enclosures all the

way down to tiny “pico” enclosures that are

not much bigger than a laptop. MicroTCA

™

(µTCA) systems are self-contained, with their

own power supply and cooling capabilities.

MicroTCA

™

inherits a wealth of capabilities

from AdvancedTCA

, its parent speciﬁcation.

These include fabric-based interconnects

in place of a traditional bus architecture,

carrier-grade redundancy options, IPMI-

based management and JTAG, Open Source

software resources, high-speed data transfer

in the 1 GB to 10 GB range, scalability and

serviceability (modular, hot swap capabilities).

The µTCA speciﬁcation allows for a great deal

of leeway in how µTCA can be implemented,

particularly in regard to levels of redundancy

and in the physical packaging of the system

itself. As a result of this ﬂexibility, µTCA

systems are well suited to many applications

outside the telecom environment.

For example, medical imaging equipment

such as MRI and CT continues to move out

from the hospital setting into clinics and

mobile environments. A small yet extremely

capable architecture like µTCA can be appro-

priate for these applications, especially in

rural locations and developing countries.

In addition, the communication needs of a

network-connected military force may be

fulﬁlled by µTCA, particularly in less rigorous

environments such as satellite stations,

WLANs, radar and naval applications like

sonar and shipboard communications

networks. Many of these applications require

high bandwidth and compute density, which

µTCA delivers in a compact, affordable and

ﬁeld-serviceable package.

The µTCA architecture can also be appro-

priate in certain industrial environments.

Semiconductor manufacturing, for example,

is conducted in a clean, temperature-

controlled environment and does not require

rugged computing equipment — ideal for

µTCA-based solutions.

The µTCA architecture offers all the capa-

bilities required in a telecom network, and

is thus capable of handling many IT func-

tions. µTCA-based solutions can be applied

to VOIP-based telephony, as well as being

appropriate for other parts of the network

such as Ethernet routers, storage servers and

WLAN applications.

There is little question that µTCA offers

features which simply are not available

in other embedded architectures. With

its signiﬁcant ﬂexibility in packaging from

“pico” systems all the way up to large rack

mounted arrays, and its use of mezzanine

modules, which are intentionally designed to

be low cost items, it is ‘operating system and

backplane fabric agnostic — a blank slate on

which system designers may draw the new,

exciting systems of the future.

MicroTCA

™

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