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Performance CPC324 Hardware Manual

24-port t1/e1/j1 edge processor
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  • Page 1 Artisan Technology Group is your source for quality new and certified-used/pre-owned equipment. • FAST SHIPPING AND SERVICE CENTER REPAIRS WE BUY USED EQUIPMENT! DELIVERY Experienced engineers and technicians on staff Sell your excess, underutilized, and idle used equipment. at our full-service, in-house repair center We also offer credit for buy-backs and trade-ins! •...
  • Page 2 24-Port T1/E1/J1 Edge Processor Hardware Manual Performance Technologies 205 Indigo Creek Drive Rochester, NY 14626 USA 585.256.0248 support@pt.com www.pt.com © 2009 Performance Technologies, Inc. All Rights Reserved. Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...
  • Page 3 Errors and Omissions Although diligent efforts are made to supply accurate technical information to the user, occasionally errors and omissions occur in manuals of this type. Refer to the Performance Technologies, Inc. Web site to obtain manual revisions or current customer information: http://www.pt.com.

  • Page 4: Table Of Contents

    CPC324 Functional Blocks ........
  • Page 5 Installing the CPC324 in a Non Hot-Swap Chassis ....... .
  • Page 6 Contents Software Reset ............. . . 78 Watchdog Timer Reset .
  • Page 7 Contents 10/100/1G BASE-T Ethernet Loopback Plug Configuration ......111 T1/E1/J1 Loopback Plug Configuration ........112 19"...
  • Page 8 Table 2-12: CPC324 Sensors ........
  • Page 9 Tables Table 3-7: BUSMODE Configuration Encoding ........63 Table 3-8: SW5 Settings .
  • Page 10 Tables Table 6-12: RJ21 P1 Pinout............109 Table 6-13: RJ21 P2 Pinout.
  • Page 11 Tables Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...
  • Page 12 Figure 2-2: CPC324 Functional Block Diagram ........
  • Page 13 Figures Figure 3-7: Top View of CPC324 (One of two PMC card slots shown) ..... . 72 Figure 3-8: PMC Card Side View........... 73 Figure 3-9: Side View PMC Card Installation .

  • Page 14: Chapter 1: About This Guide

    19” Break Out Box. Chapter 7, “References,” on page 115 lists standards and specifications pertinent to the CPC324 and provides links to datasheets for components used on the CPC324. Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...

  • Page 15: Compliance With Rohs And Weee Directives

    Performance Technologies' complete position statements on the RoHS and WEEE Directives can be viewed on the Web at: http://pt.com/page/about-us/ehsms/. RoHS/Non-RoHS Versions This manual covers only the RoHS version of the CPC324. The following table lists the RoHS and Non-RoHS related part numbers. Item...

  • Page 16: Customer Support And Services

    (Monday to Friday, 8 a.m. to 8 p.m. Eastern Standard Time) Eastern Standard Time) If you are located outside North America, we encourage you to contact the local Performance Technologies’ distributor or agent for support. Many of our distributors or agents maintain technical support staffs.

  • Page 17: Product Warranty

    Performance Technologies within 12 months of shipment, or in the case of software and integrated circuits within ninety (90) days of shipment and provided said nonconforming products are returned F.O.B.

  • Page 18: Chapter 2: Introduction

    C h a p t e r Introduction Overview This chapter provides an introduction to the CPC324 24-Port T1/E1/J1 Edge Processor. It includes a product definition, Figure 2-1, “CPC324 Front Panel,” on page 19, a list of product features, Figure 2-2, “CPC324 Functional Block Diagram,” on page 21 and a description of each functional block.
  • Page 19 • Switch Line Carrier - 96 (SLC-96) A Zarlink MT90866 digital timeslot switch provides switching capacities of: • 4,096 x 2,432 channels between the H.110 backplane and the CPC324’s local streams • 2,432 x 2,432 channels among local streams •...

  • Page 20: Figure 2-1: Cpc324 Front Panel

    The 10/100/1G Ethernet is pinned on J4 with pin assignments defined the same as PTMC Configuration 5. See Chapter 5, “Connectors,” on page 79 for more information. Figure 2-1: CPC324 Front Panel PTMC Slot PTMC Slot 10/100/1G BASE-T Ethernet Management...

  • Page 21: Cpc324 Features

    Chapter 2: Introduction CPC324 Features • PIC Industrial Computers Manufactures Group Implementations: • PICMG 2.0 CompactPCI • PICMG 2.1 Hot Swap • PICMG 2.5 Computer Telephony • PICMG 2.9 System Management • PICMG 2.15 PTMC Carrier • PICMG 2.16 CompactPCI Packet Switching Backplane (CPSB) Node Card. 24-Port (Span),...

  • Page 22: Cpc324 Functional Blocks

    CPC324 Functional Blocks CPC324 Functional Blocks Figure 2-2, “CPC324 Functional Block Diagram,” presents the functional blocks of the CPC324. The topics following the figure provide an overview of each functional block found on the CPC324. Figure 2-2: CPC324 Functional Block Diagram •...

  • Page 23: Introduction

    Chapter 6, “Rear Transition Module,” on page The CPC324 is a universal I/O blade, with no key on J1, accepting either 5V or 3.3V for the PCI I/O signals. Three on-board octal T1/E1/J1 LIU and framers receive and transmit framed, serialized T1/E1/ J1 bit streams, recover timing information, and demultiplex the T1/E1/J1 data directly to the DS0 level.

  • Page 24: Amcc 440Gx

    PTMC sites and the external CompactPCI 2.16 backplane connections. An option on the RTM allows the 2.16 connections to be routed out the RTM's face plate to allow connection to external connections. The CPC324 also supports an Ethernet management port on its front panel.

  • Page 25: Table 2-1: Local Bus Devices

    Chapter 2: Introduction Local CompactPCI Bus Devices The AMCC 440GX processor performs PCI configuration cycles to assign addresses to its devices. This is implemented by connecting the higher order PCI address/data bits to the IDSEL inputs of the devices. This is summarized in Table 2-1, “Local Bus Devices,”...

  • Page 26: Local Pci And Compactpci Buses

    CPC324 Functional Blocks Table 2-2: AMCC 440GX Processor Interrupts (Continued) Interrupt Source Request IRQ10 BCM5388 IRQ11 Not used (pin shared with PCI Request) IRQ12 Not used (pin shared with PCI Grant) IRQ13 PMC INT A 1 IRQ14 PMC INT A 2...

  • Page 27: Memory Components

    Memory Components Boot Flash The CPC324 has one 8 MB boot flash device, an Intel StrataFlash 28F640J3-120. This part is 64 Mb, organized 8 M x 8, with 120 ns access time. Boot flash is supported on the peripheral bus only. The PCI bus boot option is not supported and expansion ROM is disabled on the PCI bus.

  • Page 28: Gigabit Ethernet Switch

    Figure 2-3: Ethernet Block Diagram The CPC324 uses an 8-port, gigabit Ethernet switch, implementing seven ports of IP connectivity between the processor, the two PTMC mezzanines, the two PICMG 2.16 link ports (or rear I/O) and the management port. The Broadcom BCM5388 is used for this function. The BCM5388 integrates the switch with four 10/100/1000 Mbps PHYs and four RGMII ports.

  • Page 29: Figure 2-4: Rj45 Management Port And Led Location

    Normal SPI and fast SPI are supported. These two mechanisms should not be mixed in the implementation – the master should always initiate transfers consistently with only one of the two mechanisms. The EEPROM interface is not supported on the CPC324. Processor peripheral support by the SPI interface is outlined in “SPI Interface,”...
  • Page 30 PTMC Ethernet Ports Two PTMC configuration 2 mezzanine sites are provided on the CPC324. Each site provides support for MAC based RMII interfaces and 10/100/1000Base-T interfaces. The RMII interfaces are pinned on J3 per the PTMC Configuration 2 definition. The 10/100/1G Ethernet is pinned on the configuration 2 user defined J4 connector, with pin assignments defined the same as PTMC configuration 5.

  • Page 31: T1/E1/J1 Framers And Liu

    Chapter 2: Introduction T1/E1/J1 Framers and LIU Three IDT 82P2288 octal transceivers provide framing and line interface functionality for 24- port connectivity on 24 T1, E1 or J1 telecom trunks. Each octal transceiver has the capability of providing any two of eight recovered clocks to the local reference (LREF) inputs of the Zarlink H.110 switch.
  • Page 32 CPC324 Functional Blocks Line Transmit Signal Path In the transmit path LIU data is encoded using AMI or B8ZS (for T1/J1) and HDB3 (for E1) line code rules. A transmit jitter attenuator is available to provided a FIFO in the transmit data path.
  • Page 33 Chapter 2: Introduction LOCAL TDM Connections On the local side of the TDM bus the IDT82P2288 is hardware configured to operate in the transmit/receive multiplexed mode. Two 128 TS input (MRSDA1_x and MRSDA2_x) and two 128 TS output (MTSDA1_x and MTSDA2_x) buses are used to transfer data between the Zarlink MT90866 TDM switch and the eight links of the IDT framer.

  • Page 34: Tdm Clock Distribution And Control

    The IDT82P2288 itself supports two modes of parallel bus operation, Motorola or Intel. The CPC324 makes use of the Motorola mode of operation. Each framer has an interrupt output that is connected directly to the 440GX.
  • Page 35 Chapter 2: Introduction Table 2-5: H.110 DPLL Operating Specifications (Continued) Parameter Value Jitter Transfer Rate limited by Phase Slope Limiter to 4.6 ns/125 µs. Jitter Transfer Function Cutoff frequency 1.52 Hz with slope of 20 db/decade. Refer to the datasheet for the actual curves and the UI calculations.

  • Page 36: Table 2-6: Mt90866 Local Reference Sources

    CPC324 Functional Blocks The MT90866 has two interrupts that are associated with the detection of the primary or secondary reference loss. They are FAIL_PRI and FAIL_SEC. They are connected directly to the AMCC 440GX’s external interrupt inputs. CT Clock and Frame Monitor Circuits These monitor circuits check the period of the CTC8_A and the CTC8_B clocks and the CTFRMA# and CTFRMB# frame pulses.
  • Page 37 Chapter 2: Introduction When it is operating in CT bus master mode, the H.110 switch accepts two of several local clock references that may be recovered by the E1/T1/J1 framers, provided by the PTMC module or generated by an optional local precision oscillator. These are divided down to create an 8 KHz clock reference.
  • Page 38 CPC324 Functional Blocks Figure 2-6: CPC324 TDM Clock Tree Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...

  • Page 39: H.110 Switch

    On the CPC324 the MT90866 switch connects to the IDT 82P2288 framers local side TDM bus, the mindspeed multichannel communications controllers TDM connections, and the CPLD TDM mux, which ultimately allow both PTMC slots to have a flexible TDM I/O connection.

  • Page 40: Figure 2-7: H.110 Data And Control Block Diagram

    CPC324 Functional Blocks Figure 2-7: H.110 Data and Control Block Diagram Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...

  • Page 41: Table 2-7: Tdm Interrupt Mapping

    Chapter 2: Introduction Processor Interface There is a parallel connection to the AMCC 440GX CPU. This connection is used for the configuration and control of the TDM switch. For information on how to use the registers in the H.110 TDM switch, refer to the Zarlink Semiconductor MT9866 WAN Access Switch Datasheet.

  • Page 42: Figure 2-8: Musycc Function Block Diagram

    CPC324 Functional Blocks T1/E1/J1 Layer 2 Communications Controller The CPC324 utilizes three Mindspeed CN8478 8-port multichannel synchronous communications controllers (MUSYCC) that manage linked lists of channel data buffers in host memory by performing direct memory access (DMA) on HDLC channels. Each MUSYCCs chip formats and de-formats up to 256 HDLC channels.

  • Page 43: Figure 2-9: Musycc Block Diagram

    Chapter 2: Introduction System Interconnection Figure 2-9, “MUSYCC Block Diagram,” illustrates how the three MUSYCCs are connected on the CPC324. Figure 2-9: MUSYCC Block Diagram Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...

  • Page 44: Table 2-8: Musycc Interrupt Mapping

    CPC324 Functional Blocks Interrupts The MUSYCC provides an interrupt pin that must be programmed using the interrupts of the AMCC 440GX processor to use this function. The MUSYCC should be taken out of reset prior to setting the local enable (or clearing the local mask) of the interrupt.
  • Page 45 The IPMC includes support for storing and accessing multiple sets of non-volatile field replaceable unit (FRU) information for CPC324. The FRU data includes information such as serial number, part number, and model. IPMC FRU information can be made accessible via the IPMB and IPMC.

  • Page 46: Figure 2-10: Zircon Ul Block Diagram

    CPC324 Functional Blocks • Two identical master/slave I2C supporting a variety of bus speed modes • One I2C interface supports the IPMB backplane connection • One I2C interface supports the local resources and Local CPU communication connection. Bus is 3.3V, 7-bit addressing at 400 KHz clock rate.

  • Page 47: Figure 2-11: Power Distribution Block Diagram

    Chapter 2: Introduction Power Distribution The power input block consists of the backplane power connections, voltage regulators for operating, I/O and core voltages and a 3.3 V power monitor. See Figure 2-11, “Power Distribution Block Diagram,” below. Figure 2-11: Power Distribution Block Diagram The primary power is sourced from the CompactPCI VSM pin on J1-A4.

  • Page 48: Figure 2-12: Flash Device Implementation

    CPC324 Functional Blocks Flash Memory The memory block consists of an AM 29LV800B-90 flash device from the Spansion line of Advanced Micro Devices (AMD). It has a 512Kx16 bit data configuration, which is also the maximum address capability of the Zircon’s external bus for an individual chip selection. The memory read mode access time is 90 ns maximum.
  • Page 49 Chapter 2: Introduction UL I2C Bus Operation The Zircon UL provides two I2C ports, each port having master and slave capability. A master- slave port contains a master engine and a slave engine where each engine contains one 8-byte deep physical FIFO used for sending (TX) and receiving (RX) bytes to and from the I2C bus. For the FIFO of each master and slave engine, hardware generates a set of FIFO status flags that are relevant when the FIFO is receiving data, and a separate set of status flags that are relevant when the FIFO is transmitting data.
  • Page 50 CPC324 Functional Blocks The I2C1 also has a unique feature that allows it to isolate itself from the parts of the entire local I2C bus. This is done primarily to enable the Zircon UL to operate and perform the PM function while the main part of the PCB is in a powered down or failed mode.

  • Page 51: Table 2-9: Supported Ipmi Commands

    Chapter 2: Introduction Serial EEPROM The Serial EEPROM is located on the local I2C bus. It is a 1-megabit device that is used to store the custom Field Replacement Unit (FRU) data. It also be used to store blade-specific data and records as the need arises. The EEPROM is powered from the PM V3V bus. The EEPROM operates at the local bus rate of 400 KHz and offers the required 7-bit addressing mode.

  • Page 52: Table 2-10: Supported Ctca Platform Specific Command Extensions

    CPC324 Functional Blocks Table 2-9: Supported IPMI Commands (Continued) Get FRU Inventory Area Info 0x10 Read FRU Data 0x11 Write FRU Data 0x12 SDR Device Commands Enter SDR Repository Update Mode 0x2A Exit SDR Update Mode 0x2B Table 2-10, “Supported cTCA Platform Specific Command Extensions,”...

  • Page 53: Table 2-11: Custom Command Structure

    Chapter 2: Introduction IPMI Custom Commands The Zircon UL PM supports the following IPMI commands that are issued by PM on the local I2C bus to the local CPU. Table 2-11, “Custom Command Structure,” outlines the custom command structure: Table 2-11: Custom Command Structure Command Name Comment OEM Commands (NetFN=0x30)

  • Page 54: Table 2-12: Cpc324 Sensors

    FRNT PNL EJECT Front Panel Eject Switch Interpreting Sensor Events Performance Technologies adopts the following philosophy with respect to threshold sensor event severity levels: • Non-critical — A warning that things are somewhat out of normal range, but not really a “problem”...
  • Page 55 This section describes the front panel LED indicators on the CPC324. Hot-Swap LED The blue hot-swap LED, when illuminated, indicates that the CPC324 can safely be hot swapped (electrically). The impact on system operation depends on the application software being run.
  • Page 56 CPC324 Functional Blocks Figure 2-4, “RJ45 Management Port and LED Location,” on page CPSB Link Ports A and B There is a separate ACT/LNK LED for the Link Ports A and B. The LEDs are PICMG 2.16 CPSB connected directly to the BCM5388 Ethernet Switch and illuminate green when an Ethernet link is established.
  • Page 57 Chapter 2: Introduction Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...
  • Page 58 15). Caution: To reduce the risk of damage to the CPC324, this equipment must be protected from electrostatic discharge (EMC) and physical shock. Never remove any of the socketed parts except in a static-free environment. Use the anti-static bag shipped with the product to handle the blade.

  • Page 59: Table 3-1: Blade Power Consumption

    System Requirements Rear Access In a rear access configuration, the CPC324 is installed in the front of the card cage and an RTM324 is installed in the rear part of the card cage. For more information about the RTM, see Chapter 6, “Rear Transition Module,”...

  • Page 60: Figure 3-1: Cpc324 Switch Locations

    Switches Figure 3-1: CPC324 Switch Locations Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...

  • Page 61: Table 3-2: Sw1 Settings

    FORCE POWER ON - This switch bypasses the CompactPCI hot- Disabled Enabled swap BDSEL# signal. It is used to force the CPC324 to power on regardless of backplane or chassis type. It should be normally disabled. • Enabled - Force blade to power on.

  • Page 62: Table 3-3: Ptmc A /B Ethernet Port Configuration Options

    Switches PTMC Ethernet Ports Two PTMC Configuration 2 mezzanine sites are provided on the CPC324. Each site provides support for MAC based RMII interfaces and 10/100/1000Base-T interfaces. The interface is selected by user switch SW1 positions 4, 5, and 6, described in Table 3-2, “SW1 Settings,”...

  • Page 63: Table 3-4: Sw2 Settings

    Off = 1 On = 0 BUSMODE 4 signal to PTMC A slot. SW3-4 PMEN - CPC324 power management may be controlled by the Disable Enable CPC324's on board Intelligent Platform Management Controller (IPMC) or off board by an Intelligent Shelf Manager (ISM) located elsewhere in the same card rack.

  • Page 64: Table 3-6: Sw4 Settings

    Switches Table 3-6: SW4 Settings Switch Description Off (1) On (0) SW4-1 Off = 1 On = 0 PMC BUSMODE 2 signal to PTMC B slot (see Table 3-7 below). SW4-2 Off = 1 On = 0 PMC BUSMODE 3 signal to PTMC B slot (see Table 3-7 below).

  • Page 65: Table 3-8: Sw5 Settings

    Enabled generate HEALTHY# in non-standard systems. When enabled, HEALTHY# will be generated, but only if the if the CPC324’s hot- swap controller has established that blade power is good. • On = Generate override HEALTHY#. • Off = Generate normal HEALTHY#. Normal position.

  • Page 66: Figure 3-2: Sw6 Reset Switch Location

    Switches Power Control Switch Configurations The CPC324 offers the following types of power control on the blade: • Option override - blade powers up regardless of any other option settings • ISM power control • IPMC power control Option Override Setting switch SW1-2 to the ON position forces the blade to power up regardless of any other option settings.

  • Page 67: Figure 3-3: Ejector Handle Type Samples

    Ordinary amounts of static electricity generated by your clothing or work environment can damage the electronic equipment. It is required that when installing the CPC324 in a system that anti-static grounding straps and anti-static mats are used to help prevent damage due to electrostatic discharge.
  • Page 68 3. Select an available 6U, 32-bit (or 64-bit) CompactPCI slot. 4. Cock the ejector handles into the open position and slide the CPC324 into the chassis. Make sure the front plate on the CPC324 blade mounts flush with the chassis panel opening by using the ejector/ injector handle to firmly seat the blade by locking the ejectors into the latched position.

  • Page 69: Figure 3-4: Installing The Cpc324

    Following is the installation procedure for the CPC324: 1. Configure the CPC324 as described in the following tables: • Table 3-2, “SW1 Settings,” on page 60 • Table 3-3, “PTMC A /B Ethernet Port Configuration Options,” on page 61 •...
  • Page 70 7. Reconnect any cables from peripheral devices. Blade Extraction Hot-Swap Extraction Following are instructions for extracting the CPC324: 1. Locate the blade to be removed. 2. Unscrew the front plate screws. 3. Open the ejector/injector handle just enough to unlock the handle but not enough to actually remove the blade.

  • Page 71: Figure 3-5: Compactpci Chassis

    Chapter 3: Getting Started Figure 3-5: CompactPCI Chassis RTM Required for Rear Access Chassis Rear Side Chassis Front Side Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...

  • Page 72: Figure 3-6: Cpc324 Front Panel

    Blade Extraction Figure 3-6: CPC324 Front Panel Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...

  • Page 73: Figure 3-7: Top View Of Cpc324 (One Of Two Pmc Card Slots Shown)

    Following are instructions on installing a PMC module: 1. This view of the CPC324 shows the front panel opening, the voltage key post and the PMC signal connectors. Remove the filler plate from the front panel of the CPC324.

  • Page 74: Figure 3-8: Pmc Card Side View

    Installing a PMC/PTMC/PPMC Module Figure 3-8: PMC Card Side View Figure 3-9: Side View PMC Card Installation Front Panel CPC324 PMC Card Key Post PMC Connectors 3. The plastic cover must be removed to apply the PMC card screws. Begin by removing the two plastic rivets that hold the plastic cover in place.

  • Page 75: Figure 3-10: Plastic Rivet Removal Example

    Figure 3-11: Side View of PMC Card Mounting Screws Front Panel PMC Card Connectors CPC324 Mounting Screws 6. Rotate the plastic cover back into proper position and reinstall the screws and plastic rivets. We suggest using fresh rivets rather than struggling with the deformed barrels of the used rivets. The rivet barrel must be positioned first, then using the handle of a large screwdriver apply pressure to the rivet center pin until it snaps into place.

  • Page 76: Figure 3-12: Side View Of Rivet Seating

    Handle Keys The CPC324 is shipped with no handle keys installed. A bag of eight handle keys (Rittal 3684325) is provided with the CPC324. If it is desired to differentiate slot-specific, user-defined I/O functions, these keys can be installed by the user per PICMG 2.10 Keying of CompactPCI...
  • Page 77 Chapter 3: Getting Started Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...
  • Page 78 “Push-button Reset,” on page 78 Reset This section describes the initial state of the CPC324 after power-up reset or hardware reset, and describes the initialization of CPC324 peripherals and configuration registers required for application execution. In general, the contents of registers and other facilities within the 440GX core and external devices are configured to reset default states.
  • Page 79 Chapter 4: Reset Reset Operation All devices on the CPC324, with the exception of the IPMC management controller may be reset by depressing the momentary push-button reset switch, SW6 located behind the front panel faceplate. This switch is connected to the system reset input on the 440GX MPU. When the system reset signal is asserted the 440GX responds by performing a board-level system reset.

  • Page 80: Table 5-1: Connector Assignments

    C h a p t e r Connectors Overview The CPC324 includes several connectors to interface with application-specific devices. A brief description of each connector is given in Table 5-1, “Connector Assignments,” below. A detailed description and pinout for each connector is given in the following topics.

  • Page 81: Table 5-2: Micro Db9F Console Port Pinout

    An RS232 interface to the 440GX MPU and the Zircon UL IPMC management controller is provided by a 9-pin micro D connector, located on the CPC324 front panel. Use PTI console port cable part number PT-ACC324-11977 (included with the software connectivity kit). The factory default console port baud rate is 9600.

  • Page 82: Table 5-3: 10/100/1G Management Connections

    Front Panel Connectors 10/100/1G BASE-T Ethernet Management Port Port 6 of the Broadcom BCM5388 Ethernet switch can be accessed through J7, an RJ45 connector located on the CPC324 faceplate. See Figure 2-4, “RJ45 Management Port and LED Location,” on page 29.

  • Page 83: Table 5-4: Generic Signals On Ptmc J11/J21 And J12/J23 Connectors

    The local PCI interface signals to the PTMC slots originate from the secondary PCI bus. A PCI bus controller is provided by a PLX PCI6254 dual PCI bridge. The CPC324 acts as the host processor and operates with PTMC mezzanine and PMC Processor cards configured as non- monarchs.
  • Page 84 Internal Connectors Table 5-4: Generic Signals on PTMC J11/J21 and J12/J23 Connectors (Continued) V3V (VI/O) AD[15] AD[14] AD[13] AD[12] AD[11] GND (M66EN) AD[10] AD[9] AD[8] 3.3V C/BE[0]# AD[7] REQB# AD[6] AD[5] 3.3V GNTB# AD[4] (PMC-Reserved) V3V (VI/O) AD[3] (PMC-Reserved) EREADY AD[2] AD[1] RESETOUT#...

  • Page 85: Figure 5-3: Ptmc Slot And Connector Locations

    Chapter 5: Connectors Figure 5-3: PTMC Slot and Connector Locations PTMC A PTMC B Battery Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...

  • Page 86: Table 5-5: Connector Ptmc Signal Support List

    Table 5-5, “Connector PTMC Signal Support List,” outlines how the Processor PMC (PrPMC) signals are supported on the CPC324 PTMC J11/J21 and J12/J22 connectors for each PTMC slot. These signals are generally per the PCI local bus specification except where noted.
  • Page 87 RESETOUT# Open drain PrPMC output signal indicating that the PrPMC Pulled up by the CPC324 module is signaling the CPC324 to reset itself and read by a register location. 3.3V 3.3V power 5V power V3V(VI/O) PCI VIO hard wired to 3.3V...

  • Page 88: Table 5-6: Ptmca J13 - J14 Connectors

    These signals are generally per the PCI Telecom Mezzanine/Carrier Card Specification, PICMG 2.15 and its ECN. The major exception to the standard is that the CPC324 supports type 2 mapping on J13/J23 and the type 5 mapping on J14/J24. The type 2 mapping was chosen to support the existing RMII type interface between the PTMC and the baseboard.

  • Page 89: Table 5-7: Ptmcb J23 - J24 Connectors

    Chapter 5: Connectors Table 5-7: PTMCB J23 – J24 Connectors J23 Signal J24 Signal MDIO LPa_DA+ LPa_DC+ nc (STX) LPa_DA- LPa_DC- nc (SRX) RXER LPa_DB+ LPa_DD+ PTID2 TXD0 LPa_DB- LPa_DD- PTGNDZ TXD1 REFCLK USER USER RXD0 USER USER LCT_FA RXD1 LCT_FB USER USER...

  • Page 90: Table 5-8: Ptmc To H.110 Switch Tdm I/O Lines

    Internal Connectors The CPC324 internal TDM operates at 8.192 MHz and each bus bit stream can carry 128 TDM timeslots. On the TDM switch there are seven input and seven output streams allocated for PTMC operation. This allows for 896 TDM inputs and 896 TDM outputs. These available streams can be divided between the two PTMC slots on a stream-by-stream basis.
  • Page 91 Figure 5-3, “PTMC Slot and Connector Locations,” on page Caution: The CPC324 contains a lithium battery. There is a danger of explosion if the battery is incorrectly replaced or handled. Do not disassemble or recharge the battery. Do not dispose of the battery in fire.

  • Page 92: Figure 5-4: Compactpci Connector Locations

    CompactPCI Connectors CompactPCI Connectors The CPC324 implements CompactPCI connectors J1 through J5. See Figure 5-4, “CompactPCI Connector Locations,” below. Their pin assignments are presented in the following sections. Figure 5-4: CompactPCI Connector Locations Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...

  • Page 93: Table 5-9: Compactpci J1 Pinouts

    Chapter 5: Connectors CompactPCI J1/J2 The CompactPCI J1/J2 connectors are implemented as a standard 64-bit CompactPCI interface. Refer to the CompactPCI Specification PICMG 2.0 Revision 3.0 for the definition of the signals. The pinout is listed in Table 5-9, “CompactPCI J1 Pinouts,” Table 5-10, “CompactPCI J2 Pinout,”...

  • Page 94: Table 5-10: Compactpci J2 Pinout

    CompactPCI Connectors Table 5-10: CompactPCI J2 Pinout Row Number Ground Ground Ground Ground Ground EVIO Reserved CEB7# Ground CEB6# Ground CEB5# 64EN# EVIO CEB4# PAR64 Ground AD63 AD62 AD61 Ground AD60 Ground AD59 Ground EVIO AD58 AD57 Ground AD56 AD55 AD54 Ground AD53...

  • Page 95: Table 5-11: Compactpci J3 Pinout

    Chapter 5: Connectors CompactPCI J3 The CompactPCI J3 connector provides the PICMG 2.16 dual Ethernet bus and accepts the RTM ID bits. Table 5-11, “CompactPCI J3 Pinout,” lists the J3 pinouts. Table 5-11: CompactPCI J3 Pinout Row Number LPa DA+ LPa DA- LPa DC+ LPa DC-...

  • Page 96: Table 5-12: Compactpci J4 Pinout

    CompactPCI Connectors CompactPCI J4 The CompactPCI J4 connector carries the H.110 CT Bus, which is implemented according to the CompactPCI Computer Telephony Specification, PICMG 2.5 R1.0. Refer to the specification for signal details. Table 5-12, “CompactPCI J4 Pinout,” lists the J4 pinouts. Table 5-12: CompactPCI J4 Pinout Number SGA4...

  • Page 97: Table 5-13: Compactpci J5 Pinout

    Transition Module (RTM). The RTM provides transient voltage suppression, fuses, and isolation transformers to insure galvanic isolation from harmful electrical impulses that might occur on the trunk wires under fault cases. The CPC324 provides the first eight of 24 trunk connections.
  • Page 98 “Cabling Reference,” on page 111 • “19" Break Out Box (BOB),” on page 113 Feature Summary The CPC324 uses the 24-port RTM324 (PT-RTM324-11965) for I/O connectivity. See Figure 6-1, “RTM324 Front Panel,” on page 98 for connector locations on the RTM324. The RTM324 contains the following features: •...

  • Page 99: Figure 6-1: Rtm324 Front Panel

    Chapter 6: Rear Transition Module Figure 6-1: RTM324 Front Panel 12 T1/E1/J1 Ports (RJ21) Two 10/100/1G Ethernet Ports (RJ45) 12 T1/E1/J1 Ports (RJ21) Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...

  • Page 100: Figure 6-2: Rtm324 Block Diagram

    References References • PICMG 2.0 R 3.0 CompactPCI Core Specification • PICMG 2.16 R1.0 CompactPCI Packet Switch Backplane • IEEE Std. 802.3ab 2000 Edition CSMA/CD Access Method and Physical Layer Specification • Teccor Electronics SIDACtor Data Book and Design Guide (http://www.teccor.com) •...

  • Page 101: Figure 6-3: Rtm324 Jumper Location

    Chapter 6: Rear Transition Module Figure 6-3: RTM324 Jumper Location K1 Jumper Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...

  • Page 102: Table 6-1: Rtm Identifier

    Figure 6-4: Magnetics and Protection for T1/E1/J1 Ports In addition, two RJ45 connectors on the RTM faceplate provide 10/100/1G Ethernet connectivity. The magnetics for Ethernet reside on the CPC324 blade. An 8-bit RTM identifier code is determined by factory installed zero ohm resistors and a switch for Ethernet routing.

  • Page 103: Figure 6-5: Rtm Switch Flow Diagram

    Chapter 6: Rear Transition Module Switches and Jumper 10/100/1G BASE-T Ethernet Interface Configuration The RTM324 has two Ethernet port connections that can be set to exit through a pair of RJ45 connectors mounted on the rear panel or through the RJ3 backplane connections. See Figure 6-5, “RTM Switch Flow Diagram,”...
  • Page 104 Switches and Jumper Figure 6-6: RTM324 Switch Locations Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...

  • Page 105: Table 6-2: Sw1 For Ethernet Port A Routing

    Chapter 6: Rear Transition Module Switch Settings The following tables (Table 6-2 Table 6-3) show the switch settings for Port A options. Table 6-2: SW1 for Ethernet Port A Routing Switch Section CPSB 2.16 Backplane Connection External (Rear Exit) SW1-1 SW1-2 SW1-3 SW1-4...

  • Page 106: Table 6-6: Sw4 For Ethernet Configuration Identifier

    Switches and Jumper Table 6-6, “SW4 for Ethernet Configuration Identifier,” shows the switch settings for Ethernet configuration identification. Table 6-6: SW4 for Ethernet Configuration Identifier Switch Section CPSB 2.16 Backplane Connection External (Rear Exit) SW4-5 Off (not used) On (not used) SW4-6 Off* 1.

  • Page 107: Table 6-8: Compactpci Rj3 Pinout

    Chapter 6: Rear Transition Module Connector Pinouts • “CompactPCI RJ3 Pinout,” on page 106 • “CompactPCI J5 Pinout,” on page 107 • “Ethernet J1 and J2 Pinout,” on page 108 • “RJ21 P1 and P2 Pinout,” on page 109 CompactPCI RJ3 Pinout The RJ3 accepts the PICMG 2.16 dual Ethernet bus and RTM ID bits.

  • Page 108: Table 6-9: Compactpci J5 Pinout

    T1/E1/J1 trunks and their pin assignments. The addition of the dark shaded cells are a trunk configuration for the CPC324, which allow J5 to carry all 24 trunks. The table cells not shaded are PICMG recommended pinouts to meet TNV1-SELV requirements.

  • Page 109: Table 6-10: J1 Ethernet Connector Pinout

    Chapter 6: Rear Transition Module Ethernet J1 and J2 Pinout The RTM Ethernet port A and port A are wired as MDI. Table 6-9, “CompactPCI J5 Pinout,” Table 6-11, “J2 Ethernet Connector Pinout,” show the pinout for these connections. Figure 6-1, “RTM324 Front Panel,” on page 98 for connector location information.

  • Page 110: Table 6-12: Rj21 P1 Pinout

    Connector Pinouts RJ21 P1 and P2 Pinout Applicable to the 24-port RTM324, 50-pin female RJ21 connectors P1 and P2 permit attachment to a pair of T1/E1/J1 Hydra cables, each terminating in 12 RJ48C receptacles. P1 supports ports 1-12 and P2 supports ports 13-24. The P1 pinout is shown in Table 6-12, “RJ21 P1 Pinout,”...

  • Page 111: Table 6-13: Rj21 P2 Pinout

    Chapter 6: Rear Transition Module Table 6-13: RJ21 P2 Pinout Pin Number Signal Signal Pin Number Channel 13 TX1 Ring Channel 13 TX1 Tip Channel 13 RX1 Ring Channel 13 RX1 Tip Channel 14 TX1 Ring Channel 14 TX1 Tip Channel 14 RX1 Ring Channel 14 RX1 Tip Channel 15 TX1 Ring...

  • Page 112: Table 6-14: Ethernet Rj45 Connector

    Cabling Reference Cabling Reference • “10/100/1G BASE-T Ethernet RJ45 Plug Pin Assignments,” on page 111 • “10/100/1G BASE-T Ethernet Loopback Plug Configuration,” on page 111 • “T1/E1/J1 Loopback Plug Configuration,” on page 112 10/100/1G BASE-T Ethernet RJ45 Plug Pin Assignments Figure 6-7: Eight Position RJ45 Plug Pin Assignments RJ45 Pin 1...

  • Page 113: Table 6-15: T1/E1/J1 Rj48C Connector

    Chapter 6: Rear Transition Module T1/E1/J1 Loopback Plug Configuration To create a looback plug, connect the following RJ48C pins together. Figure 6-8, “RJ48C Plug Pin Assignment,” Table 6-15, “T1/E1/J1 RJ48C Connector,” below. Figure 6-8: RJ48C Plug Pin Assignment RJ48C Pin 1 1 White / Orange 2 Orange 3 nc...

  • Page 114: Figure 6-9: Front And Back View Of 19" Break Out Box

    RTM324 to the two RJ21 connections on the BOB via two RJ21-to-RJ21 cables (ACC324- 11968). This permits the use of RJ48C jacks from the 24 ports of the CPC324. The BOB could also be used with the CPC308, if desired, utilizing the first eight ports only. The BOB is shown in Figure 6-9, “Front and Back View of 19"...
  • Page 115 Chapter 6: Rear Transition Module Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...
  • Page 116 C h a p t e r References Overview The following topics are covered in this chapter: • “Standards/Specifications,” on page 115 • “Additional Reference Documents,” on page 116 Standards/Specifications • ECTF H.110 Hardware Compatibility Specification: CT Bus revision 1.0 •...
  • Page 117 Chapter 7: References Additional Reference Documents Broadcom Components For more information about the following Broadcom components, refer to the Broadcom Web site: • Broadcom BCM5388 Single-chip 8-port Gigabit Switch Datasheet • Broadcom BCM5461s 10/100/1000 BASE-T Gigabit Ethernet Transceiver with SerDes •...
  • Page 118 Artisan Technology Group is your source for quality new and certified-used/pre-owned equipment. • FAST SHIPPING AND SERVICE CENTER REPAIRS WE BUY USED EQUIPMENT! DELIVERY Experienced engineers and technicians on staff Sell your excess, underutilized, and idle used equipment. at our full-service, in-house repair center We also offer credit for buy-backs and trade-ins! •...

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