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The Station Automation Series COM600 is a dedicated system for providing interoperability between industrial or utility substation IEDs (Intelligent Electronic Devices) and local or higher-level systems, such as local operator interfaces or higher-level Network Control Centres (NCC) or Distributed Control Systems (DCS). The series features gateway functionality supporting a variety of commonly used substation device communication protocols. The COM600 series comprises three products, the Control and Monitoring Unit COM605, the Communication Gateway COM610 and the Station Computer COM615.
(Note: link has been corrected)
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Don't Settle for an RTU - Use a Complete SEL Integrated Solution for Remote SCADA, Protection Settings Maintenance, Oscillographic Event Retrieval and Analysis, Sequential Event Reporting, and More. Simple, Complete Integration. Link all substation Intelligent Electronic Devices (IEDs) into a single, low-cost configurable contact point for SCADA, local Human-Machine Interface (HMI), dial-in access, dial-out notification, and overall substation integration applications. Link multiple communications processors to provide redundant communications paths when necessary. Sixteen additional optoisolated inputs and four programmable output contacts. SEL-2701 Ethernet Processor. SEL-2711 Modbus Plus Protocol Card. Connect IEDs that do not support Modbus to a Distributed Control System (DCS). The communications processor provides faster updates to the DCS than would a multidrop system because it groups data for more efficient multiple-register or block access. Arithmetic functions can change scaling, calculate virtual analog inputs, and compare analog values to thresholds. Use SELOGIC control equations to combine digital inputs to initiate and qualify automatic control, or for interlocks.
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The Intel® IXC1100 control plane processor extends the benefits of Intel XScale® technology, including its rich set of development tools, to meet the processing needs of multi-service switches, VoIP media gateways, wireless infrastructure and other networking equipment.
The Intel® IXC1100 Control Plane Processor offers a choice of multiple clock speeds up to 533 MHz, with both commercial and extended temperature options. The Intel IXC1100 control plane processor feature
set integrates an Intel XScale core, highperformance PCI interface, USB controller and two 10/100 Ethernet MACs. The control plane processor enables cost-effective implementations that extend the performance and flexibility of the processor into targeted markets.
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The award-winning PowerPC 400 product line has proven, best-in-class-technology and has achieved mass-market acceptance from major networking, storage and consumer OEMs. The acquisition is highly synergistic with AMCC’s existing communications and storage IC portfolio, providing AMCC with immediate access to an extensive set of control plane applications in the networking, storage and consumer markets.
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LSI offers a diverse portfolio of tributary aggregation devices aimed at processing data and voice into PDH and SONET/SDH transmission protocols.
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- Blackfin® Processors embody a new breed of 16/32-bit embedded processor, ideally suited for products where a convergence of capabilities are necessary - multi-format audio, video, voice and image processing.
- SHARC® Processors, dominate the floating-point Digital Signal Processing market, delivering exceptional core and memory performance complemented by outstanding I/O throughput.
- TigerSHARC® Processors provide the highest performance density for multiprocessing applications with peak performance well above a billion floating-point operations per second.
- ADSP-21xx Processors, are code- and pin-compatible families of Digital Signal Processors with performance up to 160MHz and power as low as 184 micro-amps.
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The MSC8122 is a highly integrated system-on-a-chip that combines four StarCore SC140 extended cores with an RS-232 serial interface, four time-division multiplexed (TDM) serial interfaces, thirty-two general-purpose timers, a flexible system interface unit (SIU), an Ethernet interface, and a multi-channel DMA controller. The four extended cores can deliver a total 4800/6400/8000 DSP MMACS performance at 300/400/500 MHz.
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Fully integrated, high performance, 8-bit MCUs based on an advanced 40 MIPs platform with USB-JTAG interface for Flash programming/debugging. The ideal "single-chip solution" for instrumentation and control applications in the embedded data acquisition market.
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Many storage, networking, and embedded applications require fast I/O throughput for optimal performance. Intel® I/O processors allow servers, workstations and storage subsystems to transfer data faster, reduce communication bottlenecks, and improve overall system performance by offloading I/O processing functions from the host CPU.
The table below provides a quick overview of the Intel I/O processor family. The Intel® IOP34x family of processors, with Intel XScale® microarchitecture, builds on more than a decade of leadership in I/O processor technology.
Learn more about Intel I/O Processors based on Intel XScale® Technology, or get an overview of all our I/O processors in our I/O Processor Overview brochure.
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Intel provides an extended family of network and communications processors that meet the increasing processing demands created by faster line speeds, the deeper packet inspection requirements of content-based services and the need to support multiple protocols and evolving industry standards.
Built on a high-performance fully programmable architecture, Intel network processors offer the speed, flexibility, and ease-of-use/reuse you need to accelerate time-to-market, extend time-in-market, and to enable a broad range of services from the customer premises to the core of the network.
Intel® IXP2XXX: Versatile, high-performance, and scalable network processors designed for network access, edge, and core applications from T1/E1 to OC-192 GbE.
Intel® IXP4XX: Network processors optimized for home, small-to-medium enterprise, and networked embedded applications.
Intel® IXP12XX: Flexible wire-speed processing for OC-3 to OC-12 multiservice network applications.
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µPD77111 Family (µPD77110,77111,77112) ;µPD77111 Family (µPD77113A,77114,77115);µPD77210 Family (µPD77210,77213)
Development Tools (for µPD77111 Family) ;Development Tools (for µPD77210 Family)
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The PC202, PC203, and PC205 family of multi-core DSP chips provides designers with an unprecedented ability to meet the complete range of wireless systems solutions in applications like WiMAX and WCDMA. The new family incorporates picoChip's innovative high performance picoArray™ for flexible signal processing along with accelerator blocks and an ARM9 processor for integration of MAC functions. The picoChip devices give a 10x performance advantage compared with standard DSP's and competitive pricing of $1/GMAC in high volume. The new family of devices is based on the same proven DSP technology already in service in high performance WiMAX basestations.
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IDT offers a range of integrated communications processors and development tools based on the MIPS® ISA, and partners with industry-leading software and hardware vendors to deliver system platforms that accelerate intelligent packet processing.
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Vitesse offers a complete portfolio of products to address a variety of transport processing requirements, including:
Vitesse's SONET/SDH framers, Virtual Concatenation mappers, and pointer processors provide connectivity to Vitesse's synchronous TDM switching fabrics, NPUs and packet/cell fabrics through POS-PHY interfaces or to Ethernet MACs for full-featured Ethernet-over-SONET solutions.
Vitesse's upper layer processing devices include flexible, high-performance NPUs and low-power, comprehensive Traffic Management packet processing devices. These devices integrate easily into a wide range of intelligent enterprise and edge network products.
Forward Error Correction (FEC) devices from Vitesse can extend link distances at data rates from 155 Mbps to 10.7 Gbps using sophisticated standard based or proprietary based encoding algorithms.
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austriamicrosystems%u2019 highly flexible and fully integrated audio processor systems combine strong calculating power and high performance audio feature sets with system power management options for battery powered devices, to serve the evolving needs of advanced mobile platforms.
AS3524: Advanced Audio Processor System
AS3525: High performance single-chip solution for portable audio
AS3527: High performance single-chip solution for portable audio
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Tensilica's Diamond Standard Series processor family of synthesizable cores range from the industry's smallest 32-bit, ultra-low power, cache-less RISC controller to the industry's highest performance licensable DSP and most popular audio processor and an exciting video processor family. The Diamond Standard family covers the broadest range of performance of any embedded computing architecture and have been proven in our customers designs.
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Tensilica's Xtensa LX2 processor takes application performance to new heights. It is the only processor core for system-on-chip (SOC) designs that provides the I/O bandwidth, compute parallelism, and low-power optimization equivalent to hand-optimized, RTL-designed non-programmable hardware blocks.
With Tensilica's unique XPRES Compiler and automated processor generator, every Tensilica customer is able to quickly generate a tailored version of the Xtensa LX2 optimized for their particular application, Ideal for handling traditional SOC embedded processor control tasks as well as compute-intensive datapath hardware tasks, the Xtensa LX2 processor is the basic building block for complex SOC design.
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89TTM553 (Traffic Manager)
Description Traffic manager co-processing engine Market Group SSP
Additional Info Expands per flow queuing granularity when used with 89TTM552. Enables support of 1M flows and offers up to 5 levels of queue hierarchy.
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