BPC7009 PCI EXPRESS 14 SLOT BACKPLANE COMBO SERVER / GRAPHICS CLASS | SYSTEM HOST BOARD | PICMG 1.3, TRENTON TECHNOLOGY SYSTEM HOST BOARD SINGLE BOARD COMPUTER

Transit Case and Rack System Integration

SINGLE BOARD COMPUTERS & ACTIVE / PASSIVE BACKPLANES

FEATURES

•	14-slot form factor supports one JXT6966 SHB
•	Doubles the available PCI Express bandwidth
•	Supports PCI Express Gen 2.0 or 1.1 option cards
•	Enables PCI Express link expansion using the Chassis Plans PEX10 and IOB33 modules
•	Nine x16 PCIe mechanical slots plus one x8 slot
•	Nine x4 PCIe and one x1 PCIe electrical slots
•	One 10/100/1000Base T backplane Ethernet port
•	Four USB 2.0 backplane I/O connections
•	Five year factor warranty
•	Design, manufactured and supported in the US

** Optional USB and Ethernet connectivity provided by PICMG 1.3 SHB. Not all SHBs support this capability.
Slot PCIe10 is a PCIe 1.1 slot only
Slots PCIe1 through PCIe4 and PCIe6 through PCIe9 may operate as either PCIe 2.0 or 1.1 slots depending on the end point devices connected to these slots.
A system's off-board video card must be placed in the PCIe6 through PCIe10 slots.
Nominal PCB thickness: 0.080"
Connector spacing: 0.800"
Mounting holes: 0.156" dia
All dimensions are inches

Note: Connectors are populated based on model.

TEN SLOT PCI EXPRESS COMBO BACKPLANE
Chassis Plans' BPC7041 is a passive backplane with a PCI Express 2.0 link design. The PCIe 2.0 approach doubles the available communication bandwidth between a single board computer and the option cards used in an industrial computer system. The backplane's nine x16 PCIe mechanical option card slots connect directly to the Jasper Forest processors on Chassis Plans' JXT6966 single board computer. The net result is faster SBC to option card communication speeds using x4 PCI Express 2.0 links directly from the CPUs. PCIe links integrated into the CPUs automatically matches an option card's PCI Express link type and speed via the interface's built-in auto-training capability. This SBC and backplane design feature maximizes system flexibility by enabling PCI Express Gen 2.0 or Gen 1.1 option cards with various PCIe electrical interfaces such as x16, x8, x4 and x1 PCIe links. The x8 slot uses a x1 PCIe link to connect to the SBC's Platform Controller Hub (PCH) via an IOB33 module.

APPLICATION EXAMPLES
Any system design that only deploys PCI Express option cards is a good candidate for the BPC7041 backplane. The passive backplane design ensures reliable PCI Express link routings while eliminating bridge and switching devices. Automatically supporting either PCI Express Gen 2.0 or 1.1 cards on the BPC7041 with varying PCIe link constructions builds added scalability into any COTS rackmount computer system. The backplane's smaller 14-slot form factor lends itself well to medical diagnostics, military/aerospace, and communication system designs. The cutout at the lower right corner of the backplane enables the backplane to drop into a variety of computer chassis designs with ease. The BPC7041's ability to support up to ten PCI Express COTS cards, coupled with the advanced PCI Express features on the Chassis Plans JXT6966 SBC enable COTS rackmount computer designs that maximize speed, reliability and system flexibility.

PCI EXPRESS OPTION CARD SLOTS
Server or Graphics class: Nine PCIe x4 (x16 Mechanical) slots driven directly from the SHB plus one additional x8 mechanical slot driven with either a x1 PCIe link from an IOB33 module.

Note 1: Optional IOB33 module required to provide a x1 PCIe electrical link to backplane slot PCIe5.
Note 2: Optional PEX10 module provides additional PCIe Gen 2.0 bandwidth to the backplane when used on the Chassis Plans' JXT6966 SHB.
PRINTED CIRCUIT LAYERS
The backplane is a six-layer, .080” thick board with three separate signal, power (+5V/+12V, +3.3V ) and ground layers. Multi-layer backplane construction provides excellent noise immunity.
The PCB is 12.3 x 12.9-inches.

POWER INDICATORS
Surface-mount LEDs provide a convenient visual check for +5V, +5V AUX,+12V, -12V and +3.3V power connection and status. CAUTION: Never install or remove an SHB or any option card from any segment when any LED is illuminated.
ENVIRONMENTAL
Operating Temp: 0°C to 60°C
Storage Temp: -40° to 70°C
Humidity: 5% to 90% non-condensing
Chassis Plans' BPC7041 is a lead free, RoHS compliant backplane.

POWER CONNECTORS
ATX/EPS power source - one right angle or vertical 24-position ATX/EPS connector.

+12V AUX power source - one right angle or vertical 8-position connector.

Extended power source - one 10-position terminal block to supply additional power if needed.

CONNECTING POWER
A new approach is required to connect system power due to the combination of new power supply technologies and the soft-power control signals available via the Advanced Configuration and Power Interface (ACPI). ACPI signals are now supported by PICMG 1.3 SHBs and backplanes. Auxiliary power connectors located on the PICMG 1.3 backplanes now deliver all of the power directly to the edge connectors of the SHB.

Auxiliary power connectors on the backplane are provided to help improve system Mean Time To Repair (MTTR). All power can be delivered to the SHB via the board's edge connectors. Chassis Plans' PICMG 1.3 SHBs and backplane SHB edge connector slots have ample power pins available to meet the power demands of high-performance dual-processor SHBs. The ATX/EPS and +12V power connectors on the BPC7041 backplane also have an ample number of power pins available to meet these demands. The system designer needs to be aware of the potential power demands of the entire system, including the particular SHB, to ensure that both the power supply and the power connectors in the cable harness can safely deliver the necessary power to drive the entire system.

Specific implementations of ACPI signals, ATX/EPS power supply type and the operating system software will determine the specific connection method for the power supply. For example the use of the Power Good (PWRGD), Power Supply On (PSON#), Five Volt Standby (5VSB) and the Power Button (PWRBT#) ACPI or soft power control signals require the following connection method:

ACPI signal usage is optional and may be turned off using the SHB’s BIOS and/or signal jumpers. Specific power connections and BIOS parameters will differ depending on unique system design requirements. Refer to the Appendix B (Power Connection) and Advanced Setup BIOS sections found in the Technical Reference Manual for your specific Chassis Plans system host board for more information.
AGENCY APPROVALS
Designed for UL60950 and CAN/CSA C22.2 No.60950-00, EN55022:1998 Class B, EN61000-4-2:1995, EN61000-4-3:1997, EN61000-4-4:1995, EN61000-4-5:1995, EN61000-4-6:1996, EN61000-4-11:1994

SUGGESTED SHB/SBCs
• Combo-class models - JXT6966, JXTS6966

MODEL#	MODEL NAME	*DESCRIPTION (Server-class Configurations)**
S7041-CST	BPC7041-CST	ATX/EPS and 12V AUC vertical power connectors and one terminal block