Honeywell Mark III manual Other Interfaces

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an extensive amount of ARINC 429 broadcast data providing aircraft performance related data. All of the ARINC 429 broadcast data is available via the FIDB to be used by both the HGI and the AMI.

Cabin Terminal

The Mark III CMU can be configured to support up to two Cabin Terminals operating as end systems.

Electronic Library System (ELS)

Although there are no ELS systems in use today which interface to CMUs, the Mark III CMU can be configured in the future to interface with a single ELS operating as an end system via high speed ARINC 429.

Cockpit Voice Recorder (CVR)

The industry is developing ARINC Specification 757 which defines a Cockpit Voice Recorder or Digital Data and Voice Recorder (DDVR) capability. The Mark III CMU provides a single low speed ARINC 429 interface that can be used to interface with an ARINC 757 compliant device. This capability will require a software upgrade.

Global Positioning Satellite System Unit (GPSSU)

The Mark III CMU can accept high speed ARINC 429 broadcast data from ARINC 743 compliant GPSSU(s).

2.2.4 Other Interfaces

The Mark III CMU also supports the following interfaces:

Aircraft Personality Module (APM)

ARINC 607 defines the characteristics of an Aircraft Personality Module which contains aircraft and system configuration information and makes this information available to the CMU. The Mark III CMU supports a single interface to an ARINC 607 compliant APM.

Dual CMU

The Mark III CMU is capable of operating in either a standalone or dual configuration. The Mark III CMU hardware includes interfaces to support dual CMU operation. The interface between the onside and offside CMUs is via a high speed ARINC 429 cross-talk bus along with discretes that indicate active and standby states.

In a dual CMU configuration, the left CMU is normally considered the Active unit and the right CMU is normally considered the Standby unit. The Active CMU is the one that communicates with the subnetworks.

There are three possible dual CMU configurations; cold spare, warm spare, and hot spare.

The Cold Spare Configuration is the configuration in which the two CMUs on the aircraft do not communicate datalink information with each other. In the event of a failure of the Active CMU, the Standby CMU must be manually configured (via a cockpit switch) to be the Active CMU.

The Warm Spare Configuration is the configuration in which the two CMUs exchange datalink information. In the event that a fault occurs in the Active CMU, the Standby CMU will automatically be configured as the Active CMU.

The Hot Spare Configuration is the configuration in which the Standby CMU is monitoring all configuration and traffic so that it can seamlessly assume the role of Active CMU in case of a failure of the Active CMU.

The baseline Mark III CMU supports cold spare operation. Other dual operations are waiting on industry definition. The ARINC Datalink Subcomittee is planning on updating the ARINC 758 characteristic in the

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Contents Honeywell Aerospace Electronic Systems Honeywell Aerospace Electronic Systems Mark III CMU Overview IntroductionDatalink Capability for Today and Tomorrow Honeywell Datalink Experience, Products, and Services Page Arinc Hardware OverviewMark III CMU Interfaces Device System InterfacesArinc Interface Baseline Specificati GrowthArinc VDR SDU Hfdr Subnetwork InterfacesCMU Arinc 750 VHF Data Radio VDRUHF Flight Deck Devices InterfacesMcdu Midu CDU Control and Display Unit CDUFlight Management Computer FMC LRU InterfacesPerformance Computer PZ Aircraft Condition Monitoring System AcmsOther Interfaces MIL-STD-1553B Software OverviewPcmcia OooiVIA CMFDatabase Design CMU AOC HGI AMI Fidb GbstCertification AOA VDLM2 Baseline FunctionalityUplink Processing OperationsWorld Regions Downlink ProcessingDMT and DLT System PagesBite Growth Functionality VDL ModeAPM Data LoadingArinc 761 Satcom Pcmcia Data LoadingMil-STD Weather GraphicsATN Encryption/AuthenticationRRI Page Fidb DatabasesFidb Architecture GbstFidb HGI AMI Main Menu MenusMain Menu CDU Main Menu Supporting Regional / Business Jet CDUs ATS Menu System Menu Clearance Uplink UplinksClearance Message Elements Clearance Message References Reject Reasons Reject Reasons Values Diversion Report Downlink DownlinksDiversion Reasons Divert Message Elements Logic Units Print DefinitionOooi Logic Unit Preferred Channel ManagementRegions US Map Areas Interconnect CCA Mechanical DesignProcessor CCA Power Supply CCAInput/Output CCA Detailed Interface Definition Spare CCAs GrowthPrntr McduCMC ADLOooi SDI PGM VHF PGMVOICE/DATA MON SEL CMUUnit Connectors and Mounts Mechanical Packaging Unit WeightUnit Size Cooling RequirementsEnvironmental Specifications Induced Signal Susceptibility DO-160D Section Power Input DO-160D SectionWaterproofness DO-160D Section Fluids Susceptibility DO-160D Section1 115 Vac Input Power Requirements Power Requirements2 28 Vdc Input Power Requirements Power Interrupt Requirements 3 28 Vdc Backup Input Power RequirementsTechnical Summary