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NcPCI-PMC

The NCPCI-PMC is a carrier for PCI Mezzanine Cards (PMC) in 6U CompactPCI form-factor. Unlike the traditional PMC carriers, the NCPCI-PMC is well suited for running on telecommunication platforms.

The board offers the H.110 bus (PICMG2.5) allowing TDM data from and to the two PMC sites to be distributed among different peripheral boards, such as line interfaces and DSP processing boards, using this standardized bus. Due to the fact that the power consumption of PPMCs (Processor PMCs) is higher than traditional PMCs, the NCPCI-PMC incorporates a special power supply circuitry. Thus the NCPCI-PMC is able to support PPMC modules with a power consumption up to 30W in total for both slots.

PCI Interface and Compliance
– cPCI: Intel 21555,PCI-PCI bridge (cPCI bus->internal PCI bus 1), 64 Bit / 66MHz, hot swapable

internal PCI bus:
– 64 bit/66 MHz PCI bus, which connects the i21555 PCI to PCI bridge to the 2 PMC slots, implemented according to IEEE P1386.1 / draft 2.4a

internal SCSA:
– 2 internal SCSA interfaces implemented, one each for every PMC I/O connector

I/O
– H.110: 32 bis H.110 interface implemented according to PICMG2.5 R1.0

NAT-MCH

Overview
The NAT-MCH is a MicroTCA (uTCA/MTCA) Carrier Hub in the form factor of a single or double width, mid- or full-size Advanced Mezzanine Card (AMC). It provides the central management and data switching entity for all MicroTCA systems. The NAT-MCH comprises of a base module and numerous optional daughter cards which can be mounted on the base module. The NAT-MCH is MTCA.0, MTCA.1, MTCA.2, MTCA.3 and MTCA.4 compliant and delivers switching and hub functionality for the various system fabrics as defined in the AMC.x standard series or custom protocols based on Xilinx Kintex-7 FPGA.

CPU, memory and O/S
The NAT-MCH base board is equipped with a CPU of the Freescale ColdFire family of processors. The CPU operates at core frequency of 266 MHz. The NAT-MCH provides 32/64MB SDRAM and 16/32/64MB FLASH memory. The NAT-MCh operates on the field proven real-time kernel OK1.

Gigabit Ethernet Switch and 10GbE (XAUI) Support
The Gigabit Ethernet Switches incorporated in the NAT-MCH both provide a layer 2, non-blocking, low-latency Gigabit Ethernet switches, supporting VLAN as well as a port based rate control. The NAT-MCH supports Fabric A (1GbE) and Fabrics D-G (10GbE, XAUI) according to MTCA.0, MTCA.1 and MTCA.4 and PICMG SFP.1 R1.0, serving up to 13 AMCs as well as the update channel from the second MCH in redundant environments. Also supported are uplink ports at the front panel of the NAT-MCH in order to interconnect to other carriers, shelves or systems.

PCI Express Gen 3 Switch
The PCI Express Switching option allows PCIe Gen 3 connectivity for up to 12 AMCs at PCIe rates from x1 to x4. The PCIe chipsets provide a Quality of Service (QoS) module and are configurable in terms of a non-transparent port for multi-host support. The PCIe option can optionally provide a PCIe clock by a Spread Spectrum Clock (100MHz mean) or a fixed 100MHz clock. The clock can be provided compliant to HCSL or MLVDS signaling levels. The PCIe hub provides clustering support for six independent clusters with one configurable non-transparent upstream port. Each cluster offers its own transparent upstream port.

SRIO Gen 2 Switch
Alternatively the NAT-MCH can be equipped with a Serial Rapid I/O (SRIO Gen 2) daughther board to support uncontended low latency point-to-point connectivity between up to 12 AMC pipes. The SRIO hub supports x1 and x4 fat pipe transport density. A mixture of AMC modules with SRIO Gen 1 & Gen 2 is supported.

The Z-PACK 2mm HM Hard Metric connector system is designed to meet the current and future needs of telecommunication, computer and instrumentation applications — providing excellent electrical and mechanical characteristics at an economical price. It is a high-performance, high-density system with flexible configuration that offers upgradeability. The connector system is fully supported by Tyco Electronics spice models.

Z-PACK 2mm HM connector complies with the requirements of IEC 917 and IEC 61076-4-101. Valuable product extensions provide great flexibility in the range of applications. The system can provide the following options:

– Backplane and daughtercard connections in standard and reverse sex
– Parallel daughtercard connection
– Midplane connections in both planar and cross connect configuration
– Cable connections for backplane rear and front of daughtercards
– Extender card connections. These variations can be arranged for signal contacts, and for backplanes, power, coax and fiber optic cable and board connections