Advanced Mezzanine Card Explained

Advanced Mezzanine Cards are printed circuit boards (PCBs) that follow a specification of the PCI Industrial Computers Manufacturers Group (PICMG). Known as AdvancedMC or AMC, the official specification designation is AMC.x. Originally AMC was targeted to requirements for carrier grade communications equipment, but later used in other markets.

AMC modules are designed to work standalone, hot pluggable on any carrier card (base boards and system carrier boards in AdvancedTCA Systems) or as a hot pluggable board into a backplane directly as defined by MicroTCA specifications.The AMC standard differs from other mezzanine card standards such as PCI Mezzanine Card (PMC), PCIexpress Mezzanine Card XMC and FMC – FPGA Mezzanine Card by the 0 degree instead of 90 degree orientation of its connector enabling hot plug of the AMC.

Specifications

R1.0 adopted January 3, 2005

ECN-001 adopted June 2006

R2.0 adopted November 15, 2006An AMC card can use proprietary LVDS-based signaling, or one of the following AMC specifications:

Sizes

There are six types of AMC cards ("Module") available. A Full-size Module is the most common, allowing up to 23.25 mm high components (from centerline of PCB). A Mid-size Module allows component heights maxed at 11.65 to 14.01 mm (depending on board location). A Compact Module allows only 8.18 mm.

AMCs used in AdvancedTCA systems

To use AMCs in ATCA-systems a special carrier card known as hybrid or cutaway carrier is required to hold one Full-size Module or two Compact-size (see connectors below). Each height is paired with a width, single or double, describing how many carrier slots the board fills. A double width card allows more component space, but does not provide any additional power or bandwidth because it only uses a single connector.

The pinout of the AMC electrical connector on an ATCA-AMC carrier or motherboard is fairly complex, with up to 170 signal traces. There are four different lengths the traces can be, which allows hot swapping by knowing in advance which traces will become active in which order upon insertion. To help reduce cost for mass production, a card may only require the traces on one side (pins 1 to 85). The possibility of using only half the pin locations, combined with various height combinations, results in four different connector types that are available on the carrier card:

Connector StylePinsMating Card Type
B85One module that only needs pins 1-85
B+170One module card that uses all available pins (1–170)
AB170Two adjacent modules that each only need pins 1-85
A+B+340Two adjacent modules that use all available pins (1–170)

Bay sizes:[2]

BayApertureConnectorCompact ModuleMid-size ModuleFull-size Module
Compact Conventional Bay3B, B+Slot B--
Mid-size Conventional Bay4B, B+Convert face plate to mid-sizeSlot B-
Single Slot Cutaway Bay6B, B+Convert face plate to full-sizeConvert face plate to full-sizeSlot B
Dual Slot Cutaway Bay6AB, A+B+Slots A and BConvert face plate to full-sizeSlot B

AMCs used in MicroTCA systems

The AdvancedMC card is considered powerful enough that there are situations where the processing functionality is the only requirement. The MicroTCA standard is targeted at supplying a COTS chassis that will allow AMC cards to function without any AdvancedTCA carrier card. The function of the ATCA carrier board and of the ATCA shelf manager are concentrated on one board, which is called the MicroTCA Carrier Hub (MCH). On July 6, 2006, MicroTCA R1.0 was approved. Since this approval, companies like Advantech, Kontron, N.A.T., Annapolis Micro Systems, VadaTech Inc., have launched AMC and MCH products.

Versions of MicroTCA with fewer AdvancedMC card slots are informally known as NanoTCA and PicoTCA.

References

  1. Web site: Advanced Mezzanine Card Base Specification AMC.0 R2.0. PICMG.
  2. PICMG Advanced Mezzanine Card AMC.0 R2.0, Table 2-1

External links