EMS Technologies Canada JETWAVE KA Band Aviation Radio User Manual 23 15 29R001

EMS Technologies Canada, Ltd. KA Band Aviation Radio 23 15 29R001

Contents

Manual part3

SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-141 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-34.  JetWave™ System Interconnect Diagram - FMA (KRFU Inside Aircraft Fuselage) (Sheet 1 of 8)DEVELOPMENT - Release - 23 Sep 2014 12:14:52 MST - Printed on 14 Nov 2014E90400259-1-A
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-142 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-143 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-34.  JetWave™ System Interconnect Diagram - FMA (KRFU Inside Aircraft Fuselage) (Sheet 2 of 8)E90400259-2-A
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-144 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-145 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-34.  JetWave™ System Interconnect Diagram - FMA (KRFU Inside Aircraft Fuselage) (Sheet 3 of 8)E90400259-3-A
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-146 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-147 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-34.  JetWave™ System Interconnect Diagram - FMA (KRFU Inside Aircraft Fuselage) (Sheet 4 of 8)E90400259-4-A
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-148 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-149 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-34.  JetWave™ System Interconnect Diagram - FMA (KRFU Inside Aircraft Fuselage) (Sheet 5 of 8)E90400259-5-A
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-150 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-151 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-34.  JetWave™ System Interconnect Diagram - FMA (KRFU Inside Aircraft Fuselage) (Sheet 6 of 8)E90400259-6-A
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-152 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-153 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-34.  JetWave™ System Interconnect Diagram - FMA (KRFU Inside Aircraft Fuselage) (Sheet 7 of 8)E90400259-7-A
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-154 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-155 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-34.  JetWave™ System Interconnect Diagram - FMA (KRFU Inside Aircraft Fuselage) (Sheet 8 of 8)E90400259-8-A
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-156 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-157 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-35.  JetWave™ System Interconnect Diagram - Boeing Specific FMA (External KRFU) (Sheet 1 of 8)E90401047-1-C
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-158 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-159 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-35.  JetWave™ System Interconnect Diagram - Boeing Specific FMA (External KRFU) (Sheet 2 of 8)E90401047-2-C
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-160 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-161 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-35.  JetWave™ System Interconnect Diagram - Boeing Specific FMA (External KRFU) (Sheet 3 of 8)E90401047-3-C
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-162 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-163 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-35.  JetWave™ System Interconnect Diagram - Boeing Specific FMA (External KRFU) (Sheet 4 of 8)E90401047-4-C
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-164 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-165 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-35.  JetWave™ System Interconnect Diagram - Boeing Specific FMA (External KRFU) (Sheet 5 of 8)E90401047-5-C
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-166 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-167 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-35.  JetWave™ System Interconnect Diagram - Boeing Specific FMA (External KRFU) (Sheet 6 of 8)E90401047-6-C
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-168 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-169 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-35.  JetWave™ System Interconnect Diagram - Boeing Specific FMA (External KRFU) (Sheet 7 of 8)E90401047-7-C
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-170 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-171 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-35.  JetWave™ System Interconnect Diagram - Boeing Specific FMA (External KRFU) (Sheet 8 of 8)E90401047-8-C
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-172 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-173 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-36.  JetWave™ System Interconnect Diagram - A350 FMA (Sheet 1 of 10)E90403590-1-C
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-174 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-175 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-36.  JetWave™ System Interconnect Diagram - A350 FMA (Sheet 2 of 10)E90403590-2-C
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-176 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-177 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-36.  JetWave™ System Interconnect Diagram - A350 FMA (Sheet 3 of 10)E90403590-3-C
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-178 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-179 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-36.  JetWave™ System Interconnect Diagram - A350 FMA (Sheet 4 of 10)E90403590-4-C
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-180 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-181 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-36.  JetWave™ System Interconnect Diagram - A350 FMA (Sheet 5 of 10)E90403590-5-C
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-182 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-183 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-36.  JetWave™ System Interconnect Diagram - A350 FMA (Sheet 6 of 10)E90403590-6-C
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-184 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-185 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-36.  JetWave™ System Interconnect Diagram - A350 FMA (Sheet 7 of 10)E90403590-7-C
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-186 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-187 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-36.  JetWave™ System Interconnect Diagram - A350 FMA (Sheet 8 of 10)E90403590-8-C
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-188 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-189 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-36.  JetWave™ System Interconnect Diagram - A350 FMA (Sheet 9 of 10)E90403590-9-C
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-190 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-191 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Figure 2-36.  JetWave™ System Interconnect Diagram - A350 FMA (Sheet 10 of 10)E90403590-10-C
SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ SystemPage 2-192 16 Sep 2015© Honeywell International Inc. Do not copy without express permission of Honeywell.23-15-29Blank Page
Page 3-116 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.JETWAVE™ AES SYSTEM CONFIGURATION1. Provisioning of User ServicesWithin the JetWaveTM system, the Modman LRU is responsible for bringing Inmarsat satellite network IP access to onboard users through In-flight Entertainment Systems or through Onboard Network Systems. The Modman LRU coordinates with the Inmarsat Satellite Access Station (SAS) for modulation, demodulation, power control, terminal authentication, configuration, IP communication, QoS aspects and initiating tracking and beam switching for JetWaveTM system. The commencement of RF transmission and reception of JetWaveTM system during normal operation is as follows:• Satellite Search: The JetWaveTM system is looking for the correct satellite. In this state, the JetWaveTM system does not transmit.• Global Signaling Channel: The JetWaveTM system is in this state when it successfully locks to the GSC signal. The Global Signaling Channel is used by the Inmarsat GX network to inform the JetWaveTM system terminal of the current satellite configurations and location. Inmarsat satellite generates a global beam which illuminates the entire service region in the satellite’s footprint. Global Signaling Channel makes the frequencies and locations of each spot beam known to the JetWaveTM system and allows automatic network configuration and rapid network log-in.• Data Communication: The JetWaveTM system is logged into the network, and is sending and receiving data. In the data communication state, the JetWaveTM system may be switched from one data carrier to another. This can occur for either load balancing reasons, or because of the JetWaveTM system moved into a different spot beam. During this transition, the JetWaveTM system continues transmitting normally. At some point, depending on the aircraft movements, directed satellite handover is used when the JetWaveTM system needs to switch between the satellites. The antenna re-pointing is required. The frequency band of the transmissions shifts and the KANDU will track on the new carrier.  During this satellite transition, there will be a momentary disruption to the IP data connectivity.Inmarsat GX Aviation services operate as a managed subscription service model and the services are provisioned through various Value Added Resellers / Distribution partners. To provision the user services, the Airline Operator need to associate the JetWaveTM system with any of the Value Added Resellers or Distribution Partners and subscribe to the desired Service Subscription Package services. The following is the current list of Value Added Resellers for AT&R market and Distribution Partners for BGA market:NOTE:  The list of Value Added Resellers and Distribution Partners is correct at the time of publishing but may change. • Value Added Resellers:•OnAir •GoGo
Page 3-216 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.• ARINC• MCN  (for the China market)• INMARSAT  (for Lufthansa, Germanwings, Swiss, Austrian, and Eurowings)• Distribution Partners:•Satcom1• Satcom Direct•SITA OnAir• Gogo Business Aviation• ARINC DirectThe actual throughputs achieved by the GXA terminal are dependent on the Airline Operator subscription. Each subscription will have a defined Committed Information Rate  which is the minimum throughput guaranteed to each subscriber.  The delivered services will be able to exceed those CIRs where the resources allow up to maximum spot beam capacity. All instantaneous demand will be matched to provisioned CIRs  for every priority level before any remaining bandwidth is allocated to satisfy any provisioned Maximum Information Rates. The user connectivity is provided by the Modman LRU of the JetWaveTM system. The Modman traffic ports to which these user devices gets connected is configurable through the ground based NMS of the Value Added Resellers / Distribution Partners of Inmarsat GX network. This over the air configuration functionality supports the ARINC 791 domain segregation and other VAR/ DP requirements. In addition, the VAR /DPs may also gather statistics on the user domain ports of the JetWaveTM system for reporting at their NMS.On initial power-up of the system, after uploading the JetWaveTM system configuration files and entering the aircraft tail no, the JetWaveTM system first gets associated to the Inmarsat test network. On the next power up the system is associated to the appropriate VAR / DP network, where the Service Level Agreements, the aircraft tail no and the pre-assigned JetWaveTM system terminal ids are linked for billing and service. 2. About Installation and RegistrationThe JetWave™ subsystem LRUs that follow support registration of hardware targets with the FIND protocol in accordance with the A615A data load protocol:(1) Modman(2) KANDU(3) OAE- either FMA or TMA.3. Product Support ServicesA. Customer Support Overview
Page 3-316 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.The JetWave™ system is manufactured by Honeywell as sole supplier of Inmarsat GX Aviation equipment. Honeywell manufactures and sells this hardware to end customers, as well as to VARs and DPs. B. Customer Support Contacts:If you purchased your JetWave™ hardware from any of the Inmarsat GX Aviation VARs/DPs, please contact their customer support phone number for all JetWave™ installation, integration, configuration, service activation, and troubleshooting issues.If however, you purchased your JetWave™ hardware directly from Honeywell, please contact Honeywell Customer Support according to the information provided at the time of your JetWave™ system activation. 4. AES Configuration DataNOTE: Any tools for preparing the config files for the terminal must be licensed from Honeywell.The AES configuration data is a set of configuration files, stored on the APM. Each configuration file contains a set of airplane-unique parameters. The parameters define the configuration of the AES necessary for the initialization and operation of the Honeywell JetWave™ AES system. The AES configuration data holds information such as:• Aircraft registration number • Aircraft blockage information• ARINC 429 label set for positioning and steering used by the KANDU• WOW input and polarity etc • USER operational preferences.The details of ARINC 429 lables required for the JetWave™ System are mentioned in the table below.Table 3-1.  ARINC429LabelListLabel SetRequired ARINC 429 Labels Description SourceMaximum Transmit Delay (M Sec)Maximum Transmit Interval (Msec) Approximate ResolutionPrimary Label For best accuracy Preferred Label Set150 Yes  UTC Time  1000 1 sec260 Yes Date  1000 1 day270 Yes Status  500 500254 Yes Present position – latitude Hybrid 160 100 0.000172 degrees255 Yes Present position – longitude Hybrid 160 100 0.000172 degrees261 Yes Altitude  Hybrid 65 40 0.125 ft
Page 3-416 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.A. Aircraft IDThis section describes the AES System configuration setting to be carried out on completion of LRU installation activities for updating the aircraft tail number.Aircraft tail number is the unique identifier used by the Inmarsat system to identify the user aircraft within the network. The aircraft ID file contains aircraft identity information as follows (columns are Item, LRU, Data):To update the aircraft tail number in AES system, maintenance level access is required through the web based GUI. Refer to Accessing the Maintenance Interface on page 3-33.The GUI AES status summary screen lets the maintainer navigate to all applicable options. At the maintenance level, the Other Information & Control has an option to display/update the current Aircraft ID stored in the AES Configuration data. Refer to Figure 3-1 to change the AES aircraft ID information.To just view the aircraft tail number information, the user level is required. (1) At the GUI login, the username is "User" and there is no password.The GUI AES status summary screen lets the user navigate to all applicable options. At the User level, the Other Information & Control has an option to display the current Aircraft ID stored in the AES Configuration data. Refer to Figure 3-1 for the AES aircraft ID information page.132 Yes  True heading  Hybrid 110 50 0.0055 degrees324 Yes Pitch angle  INS  50 20 0.011 degrees325 Yes Roll angle  INS  50 20 0.01 degrees330 Yes Yaw rate  INS  50 20 0.015 degrees/sec326 Yes Pitch rate  INS  50 20 0.015 degrees/sec327 Yes Roll rate  INS  50 20 0.015 degrees/sec331 Yes Body longitudinal acceleration INS  60 20 0.001 g332 Yes Body lateral acceleration INS  60 20 0.001 g333 Yes Body vertical Acceleration INS  60 20 0.001gSecondary Label Same accuracy as Primary110 GNSS latitude  GNSS  1000 20 0.000172 degrees111 GNSS longitude  GNSS  1000 20 0.000172 degrees76 GNSS altitude (MSL)GNSS  1000 20 0.125 ft
Page 3-516 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Figure 3-1.  AES User Level, Aircraft ID Display/Update Information PageB. View AES System ConfigurationsThe AES system configuration includes the aircraft installation information. NOTE: The AES System configuration file update is not a field activity. This is done by the equipment supplier as part of production process. On completion of AES system installation activities, the installer can view and verify the AES configuration settings through the GUI as described in this section.To view and make sure the AES configuration data is correct, navigate to the "Configuration Files" information pages under the "Other Information & Control" menu. Figure 3-1 shows the typical configuration file Information page. NOTE: The AES system does not lose its configuration data because of the loss of its primary power. The validity of the AES configuration content is determined by the AES system with a checksum process. The checksum is done at the time of each power-up. An invalid checksum results in the AES system reverting to the default values.C. Regulatory Log Configuration ParametersThe regulatory log configuration parameters file contains details of the remote server to use to transfer the regulatory log data.D. Aircraft Service Configuration
Page 3-616 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.There are a number of functions that an Ethernet port can support namely, data traffic, data loading, GUI, AES logs extraction (maintenance function) and status/control (through the SNMP). The terminal can be configured to indicate whether an Ethernet port supports traffic, data loading, SNMP etc, such as AG1 SNMP, and data loading, EG1 traffic, using the aircraft service configuration file.Once the items have been loaded into the APM the Modman reads the APM once at power-on and passes the appropriate data to the relevant LRU or uses the information locally. A Honeywell proprietary configuration tool is used to generate the JetWave™ configuration files, which are typically stored on the Airplane Personality Module (APM) LRU of the JetWave™ system. The tool then takes these configuration files and produces an ARINC 665 package of files compatible with the Modman LRU 615A data loader. Figure 3-2 shows the JetWave™ Configuration Tool GUI interface. Figure 3-2.  AES Configuration ToolThe following airframe specific information is required for creating the JetWave™ configuration files:• Applicable ARINC 429 Label sets from Aircraft IRS/ IRU and GNSS
Page 3-716 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.• Weight on Wheels discrete input availability and its polarity• User Ethernet Ports which are to be configured and the type of services to be enabled (such as Dataload, SNMP and GUI).• Particulars of VAR/DPs providing the IP services• Aircraft blockage data.Refer to APPENDIX E on page D-1 for more details.5. ARINC 615A Software Dataload ProcessA. IntroductionThe JetWave™ LRUs are preloaded with a full software load and there is no need to perform field dataload under normal conditions during installation.On completion of physical installation and interconnection of JetWave™ LRUs in the aircraft, it is to be verified that the appropriate version of the JetWave™ LRU operational data and APM configuration file is data loaded onto the JetWave™ LRUs.The JetWave™ LRU operational data and APM configuration file are supplied as a media file. The software data load can be carried out when the media files are issued separately along with Service Bulletins for any in-service system updates. Only Honeywell approved software is loadable onto JetWave™ LRUs. This section of the document supplies information on how to accomplish ARINC 615A data loading of JetWave™ system in the field. The data loading of JetWave™ system is done while the aircraft is on ground. During the data load, there will not be any RF transmission. B. System RequirementsFor data load, the data loader is to be interfaced with Modman through the ARINC 600 Modman AV1 Ethernet port. The AES JetWave™ Modman is designed to enter into data load mode when the discrete signal interface for Data load Enable is asserted (grounded) by ARINC 615A compliant data loading utility. The discrete input electrical specification is in accordance with the specification in ARINC 763 Section 2.9.6. It is recommended that the Modman AV1 Maintenance port and Modman Data Load Enable discrete interface be wired for JetWave™ AES data load and AES log extraction. An ARINC 615A compliant data loading utility is recommended to be used for JetWave™ AES data loading. The data loading software-based utility may be hosted on a PC architecture device such as an Electronic Flight Bag (EFB) or other portable computing device, an on-board portable device, or an avionics device. Since the Aircraft loading procedures can vary due to different type of uploading means, it is recommended to refer to the appropriate Aircraft Maintenance Manual before attempting data loading of JetWave™ AES system. C. Procedure
Page 3-816 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.This section contains the instructions for data loading of JetWave™ software to any of the JetWave™ LRUs through the ARINC 600 AV1 (Maintenance Port) Ethernet interface of Modman. Data loading of JetWave™ system can be performed while:• JetWave™ system is in normal operation  • During system initialization • When in critical fault mode. The maintenance operator is responsible for determining which loads are presented to the JetWave™ AES system through Modman for data load. JetWave™ AES system in turn will determine the files required to meet the data load request. The JetWave™ AES system data loading of all LRUs including uploading of the AES configuration data can be performed through Modman. For data load purpose, Modman acts as a gateway to JetWave™ LRUs and LRUs themselves do the data load. It is not recommended to attempt field data load of JetWave™ LRUs directly other than through Modman. The system configuration file is stored in nonvolatile memory in the APM and does not lose its contents due to the loss of APM power. On transfer of the loaded software, the Modman makes sure that the software presented by the data loader has been loaded correctly before responding that the load is complete and will report part numbers of the loaded software. For illustration purpose, snap shots of AIT make F-SIM-LDR ARINC 615A data loader simulator are included as part of this document. (1) Parts Needed:• Object Media CD • ARINC 615A compliant data loading utility. The JetWave™ AES system software is loaded through the Modman. The JetWave™ AES loadable software part, part number varies for each release. (2) System Software/Database UpdatesUnder normal circumstances, time required to carry out data load operation of all JetWave™ AES LRUs will not exceed 45 minutes for a fuselage mount systems and 60 minutes for a tail mount system. The data sets as shown in Table 3-2 can be transferred through the data load port in Modman:Table 3-2.  Data SetsLRU Data Set Transfer ProcessModman JetWave™ Modman LRU Operational file Upload onlyAPM APM configuration file Upload only, through the Modman
Page 3-916 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.In the above listing, upload is defined as the transfer of a data set from the ARINC 615A data loader and a download is defined as the transfer of a data set from Modman to the ARINC 615A data loader. For JetWave™ AES LRUs where data download operation is not supported, the system will return 0x1002 status code. The ARINC 665 media package include *.LUM files for each of JetWave™ LRUs. This along with LOADS.LUM and FILES.LUM are assembled to form a 665 package which include a manifest file as a compressed file format. The ARINC 665 media set of JetWave™ system comprises of: • LOADS.LUM: Describes the loads that the media device carries, one or more. • FILES.LUM: Lists all the files, excluding itself, on the media. • *.LUH is the load part index file which the LOADS.LUM points to. • *.LUP is the data file which contains compressed software image/images and manifest files. During the data loading process, the respective LRU unzips the file and extracts the manifest file and the images. Each LRU identifies the part for itself from the manifest file. The .LUP files that follow are included as part of ARINC665 media file for different AES LRUs. • Modman operational data • AES configuration data• KRFU operational image • KANDU operational image • OAE-TMA operational image • OAE- FMA operational image.NOTE: More than one CONFIG sub parts may be present in a configuration load, one per AES configuration file type. For the ARINC 615A data load operations, an A615A target connection must be defined. Target connection defines a TFTP client on the Modman and TFTP server on the data loader that will be used for file transfer. KANDU JetWave™ KANDU LRU operational file Upload only, through the ModmanKRFU JetWave™ KRFU LRU operational file Upload only, through the ModmanOAE-FMAorOAE-TMAJetWave™ OAE LRU operational file Upload only, through the ModmanTable 3-2.  Data Sets(Cont)LRU Data Set Transfer Process
Page 3-1016 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.D. JetWave™ Data Load Procedure(1) General Preparation(a) Power up the AES system. (b) Power up the ARINC 615A compliant data loader and ensure data loader is interfaced with Modman and is ready to upload. (c) Load the media CD with the copy of the released JetWave™ software and configuration file. The media (CD) contains a configuration file and a file containing the software to be uploaded. The configuration file is located in the root directory of the media and is named CONFIG.LDR. This configuration file contains information for the data loader to configure itself for operation. The data loader reads the configuration file and initializes itself according to the parameters read. (d) Make sure that the AES system hardware configuration is correct. Refer to the Service Bulletin for part number validity. (e) The dialog box for the ATI make F-SIM-LDR ARINC 615A data loader is shown in Figure 3-3.Figure 3-3.  AIT F-SIM-LDR ARINC 615A Dialog Box
Page 3-1116 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(2) Preparation for Loading Software (a) Click to bring up the 665 Media window on the data loader. (b) Select Media Repository and click OK button. Most of the data loader will automatically select the media repository folder and brings up the Select Media Set window. (c) In the Select Media Set window, the operator will be able to see the packaged software data files. (3) FIND Loadable Targets (a) The ARINC 615A FIND operation is used to identify available loadable target systems. The loadable targets responding to the FIND request will be shown after the timeout on the data loader, indicating target identification and source address (IP) information. Figure 3-4 shows the screen shot of AIT F-SIM-LDR ARINC 615A FIND dialog box. Figure 3-4.  AIT F-SIM-LDR ARINC 615A Find Dialog Box(b) For Data load operation, following static IP addresses are assigned to JetWave™ AES LRUs. Modman IP address: 172.29.55.1/24 KANDU IP address: 172.29.55.2/24 OAE IP address: 172.29.55.3/24.
Page 3-1216 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(4) Getting Target Information(a) The ARINC 615A INFORMATION operation is used to retrieve software configuration information from a loadable target. (b) The Modman advertise two data load hardware targets, one for the Modman and the other for the AES Configuration, as follows: Modman LRU: • Target Hardware Identifier: "HNIGXMODMAN0" • Target Type Name: "MODMAN" • Target Position: "0" • Literal Name: "JetWave™ MODMAN" • Manufacture Code: "HNI".APM Configuration Data: • Target Hardware Identifier: "HNIGXCONFIG0" • Target Type Name: "APM"• Target Position: "0" • Literal Name: "JetWave™ APM" • Manufacture Code: "HNI". (5) Data Upload
Page 3-1316 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(a) The ARINC 615A UPLOAD operation is used to transfer the data files to the Modman. The AIT F-SIM-LDR ARINC 615A data upload information dialog box screen shot is shown in Figure 3-5. Figure 3-5.  AIT F-SIM-LDR ARINC 615A Data Upload Information Dialog Box(b) The UPLOAD process is initiated by selecting an individual LSAP or ARINC 665 media set containing one or more LSAPs. (c) In the Upload File Selection dialog, the Files of type: drop down list can be used to select if either a Media set (Loads(*.LUM)) or an individual LSAP (Header Files (*.LUH)) will be selected for the UPLOAD. (d) In the ARINC-665 Upload File Selection dialog window, the operator can view the list of files. 1The files can be selected either as a media set or an individual LSAP for the UPLOAD. 2Individual LSAPs are selected by choosing the Load Header (.LUH) (Header Files (*.LUH)) file associated with the load. 3For loading entire JetWave™ AES media set, the Loads.LUM file at the root of the media set must be selected (Loads (*.LUM)).
Page 3-1416 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(e) Update the field for target IP address of the JetWave™ Modman as 172.29.55.1 for loading the entire JetWave™ AES media set. (f) Update the field for target IP address of the JetWave™ LRUs for respective LRU IP address and by choosing the Load Header (.LUH) (Header Files (*.LUH)) file associated for data load of respective JetWave™ AES LRUs. (g) Click Upload LSAPs. (h) The data loader application initializes the uploading through an initialization message to Modman to determine if it is operational. 1On indication of the acceptance or the denial of this message request, the data loader application notifies the status to the operator. (i) If the Initialization step is accepted, the data loader application will initiate the load list transfer by sending the list of loads which are to be uploaded which is analyzed by the Modman and sends its status. 1If one of the loads is not accepted, it is recommended to reject the complete list. (j) When the upload is complete, the Status Description field will display the message: “Upload Operation completed successfully”. (k) Close the LSAP upload/upload schedule display. On completion of the data load, the software part numbers which are loaded into the system can be verified through the AES GUI interface or through the SNMP service. 6. Cable CalibrationThe Modman will not transmit until it has been calibrated, with the transmit cable calibration. After the AES is physically installed and connected, the Modman will automatically initiate cable calibration during start-up.The transmit cable calibration calibrates the terminal to allow accurate control of transmitter power, taking into account IF output loss, cable loss, and KRFU (BUC) performance. Transmit cable calibration uses the Open BMIP BUC interface. During calibration, the power amp of the BUC is disabled and the BUC must support PA disable. For the Modman to operate normally:• The Modman-ACM board calibration file must be present • The KRFU-BUC calibration file must be present and the serial number must be equal to the BUC reported serial number• The IF calibration file must be present.If any of the conditions are not met, the Modman-ACM enters an inactive state, and deletes any IF calibration files. The ACM declares itself in need of calibration. When this occurs, the ACM enters a state whereby it awaits the command to proceed with the calibration, typically through the AES Menu Access System.
Page 3-1516 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.When calibration is completed successfully, the ACM proceeds to its configured mode of operation as if it had been restarted. When commissioning is not completed successfully, either due to an error condition or a user cancellation, the ACM enters an inactive state.One Touch Commissioning (OTC) is available on the AES Menu Access System.7. Post Installation System Checkout ProceduresA. General OverviewThis section supplies the information required to determine the operational readiness of the JetWave™ system, made up of the Modman, APM, KRFU, KANDU, and OAE FMA or OAE TMA.The installed LRUs require operational and diagnostic testing for one of the reasons listed below: • Operational verification tests that verify the operational readiness of the unit after installation on an aircraft. • Fault verification and diagnostics to verify that a fault exists and produce system reports for trouble shooting purposes • Operational verification of repairs that verify the operational readiness of units that have been repaired before re-installation on an aircraft. Only qualified technical personnel, familiar with avionics systems, should perform the test procedures provided in this document. Before performing any test or fault isolation procedures, read the safety advisories. B. System Power SupplyThe JetWave™ system LRUs are shipped with the operational software preloaded. Make sure that the JetWave™ LRUs are wired and all the receptacles are connected in accordance with applicable interconnection diagram. Power up the JetWave™ LRUs, close applicable aircraft circuit breakers to supply power. After 5 minutes, check the Modman front panel for the Modman status. There are two LEDs on the front panel of Modman. One is for the power and the second one is for status. Use Table 3-11 to identify the current operating mode of Modman with the power LED indicating powered up status. Table 3-11.  Modman LED Status IndicationsStatus LED ModeOff No electrical power / electrical power is supplied but prior to boot.Flash green at a minimum of 10 seconds Modman initialization On - green Modman in normal operationOn - red Modman in Fault Mode
Page 3-1616 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.On completion of AES system installation activities, the installer can view and make sure that the JetWave™ LRUs status, AES configuration settings, discrete input and output status, and antenna alignment status through the GUI as described in this section.Once the Modman is powered up, the JetWave™ GUI page can be accessed. The JetWave™ system GUI service is supported on AV1 10/100 Base T Ethernet interface. The Modman static IP address assigned is 172.29.55.1 and the port no for the AES GUI service is 80. Connect a laptop to the AV1 port of Modman through aircraft Ethernet interface. It is recommended to use a laptop computer with the following minimum requirements: • Intel i5 CPU • 8 GB of RAM • At least 500 MB of available hard drive space • An available 10/100/1000 Ethernet interface • Windows 7 operating system, 64-bit. On any of the Internet browser (Internet Explorer 8 compatible), open the link "index.html". Login page will be presented as the root page, allowing entry of the user name and password. Figure 3-6 shows the login page. Figure 3-6.  AES GUI Login Page(l) The GUI is configured to have the login accounts that follow: • User interface with Username: "User" and Password: empty (no) password• Maintenance interface with Username: "Maintenance" and Password: "Earthbound".On successful login, the AES Home page screen is shown. Refer to Figure 3-7.The information supplied on the AES Home page is as follows:• Network status
Page 3-1716 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.• Ground status • Mute Reason • Link start and end time• Heath status of the system LRUs.The GUI AES Home page screen, as shown in Figure 3-7, lets the operator navigate to all applicable options depending on the access level.Figure 3-7.  AES Home and Status Info PageView and verify the AES configuration data, navigate to the "Configuration Files" formation pages under the other information and control menu. The typical configuration file information page is shown in Figure 3-8. To view and make sure that the AES configuration settings are current, click the AES configuration file to display.
Page 3-1816 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Figure 3-8.  View Configuration Files PageTo view the health status of the JetWave™ system, navigate to the "AES Summary and Link Status" under the Health Statuses menu on the left. This will let you to view and make sure of the health status of the JetWave™ system. The AES summary and interlink status are shown in Figure 3-9.
Page 3-1916 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Figure 3-9.  Health Statuses (excerpt), AES Summary and Link StatusesTo see the AES LRUs hardware and software version and part number, navigate to the Version and Manufacturing Information menu. Figure 3-10 shows the typical Modman Version and Manufacturing Information page.Make sure the vesion and manufacturing information are current for all the LRUs.
Page 3-2016 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Figure 3-10.  AES Modman and Manufacturing Information PageUpdate the aircraft tail number, navigate to the "Aircraft Tail Number" page under the other information and control menu. The aircraft tail number page is shown in Figure 3-11.Figure 3-11.  Aircraft Tail Number Page
Page 3-2116 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Modman Reset Input(1) Activate the Modman Reset by toggling Modman reset switch on the JetWave™ AES control panel. (2) Monitor the Modman ”power” and “status” LEDs flash continuously. (3) Toggle the Modman Reset switch on the Satcom test panel to the open/non-grounded position. (4) Monitor the “status” LED on the front of the Modman, progresses from red color to steady state green as seen during initial power-on. (5) Check for the Aircraft Tail number page and make sure that the aircraft tail number page is updated with the aircraft Tail number. Navigate to the AES Summary and Link Status page and scroll down to see the ARINC 791 Discrete input and output state of the JetWave™ system. Refer to Figure 3-12.For illustration, the figure that follows shows the AES discrete signal state. Use the wired aircraft interfaces to toggle and see if the applicable discrete are asserted or de-asserted.Figure 3-12.  Discrete I/O StateC. ARINC 429 Input Interface TestingFor the operation of JetWaveTM system,  the aircraft must have a functional IRS providing ARINC 429 labels to KANDU. Functional IRS is interfaced with the KANDU through Receive only ARINC
Page 3-2216 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.429 interface through which the required ARINC 429 labels as defined in APM configuration file are made available.Navigate to the AES Summary and Link Status page and scroll down to see the aircraft status. Refer to Figure 3-13. This page will be updated with current latitude and longitude position of the aircraft. Once the JetWave™ system starts receiving the valid navigational input from aircraft IRS system,  make sure that the values are correct as compared to the aircraft navigational system outputs.Figure 3-13.  Aircraft StatusesD. Manual Steering of the AntennaTo do a commanded test to manually steer the antenna, navigate to "Manual Antenna Steering" under the commanded test menu. Monitor the antenna movement in accordance with the commanded test fed through the GUI tool. Refer to Figure 3-14.NOTE:  In order to see the antenna movement, the radome can be removed. If it is an OAE-TMA, Honeywell recommends manually steering the TMA through GUI to a safe antenna orientation position before removal. The TMA parking position is included in the AES System Configuration File, which can be accessed through the GUI web interface and by navigating to Configuration File page. Consult aircraft specific SDIM for detailed instructions.
Page 3-2316 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Figure 3-14.  Manual Antenna Steering E. Antenna Calibration TestingDo the Antenna Calibration in accordance with the detailed instructions in TMA Alignment or FMA Alignment section. Navigate to Antenna Calibration Status under the commanded test menu and make sure that the current calibration status, calibration is “Aligned”. F. Cable Calibration TestingDo the cable calibration, navigate to the "Calibrate Transmit Cable" page under the commanded test menu. Make sure that the cable calibration is completed successfully. The cable calibration page is shown in Figure 3-15.
Page 3-2416 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Figure 3-15.  Calibrate Transmit Cable Status PageG. ARINC 615 Data LoadDo the data load as detailed in ARINC 615A Software Dataload Process section. Make sure that the data load operation is completed successfully. H. System Available (Cockpit Control Panel) OutputOnce the JetWave™ system is powered up, monitor the “System Available” status discrete. Make sure that the discrete state agrees with the discrete output in the GUI. I. Data Link Available (Control Panel) OutputOnce the network connectivity is achieved, the “Datalink Available” discrete output on the ARINC 791 page will be asserted. To see the “Datalink Available” discrete output, navigate to the AES Summary and Link Status page and scroll down to see the ARINC 791 page and make sure the discrete output status is asserted, Refer to the Discrete I/O state page Figure 3-12.Make sure the “Datalink Available” status is indicated in control panel. J. Network StatusNavigate to the AES Summary and Link Status page and scroll down to see the Network status of the JetWave™ system. An example of a AES network status is shown in Figure 3-16.
Page 3-2516 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Make sure that the network connectivity in accordance with the aircraft configuration plan. With the use of another laptop, make sure that the network connectivity on each active port once the data link available output is available. Begin a two way (Rx and Tx) video conference call with a tool such as Microsoft Lync or Skype. Make sure that the availability of the uninterrupted data connectivity. Monitor the Kilobytes sent and received fields on the home page. While the JetWave™ system is up and connectivity to internet is established, move the aircraft around in a circular 360 degree pattern (no faster than 3° per second). Verify that the connectivity remains available through the 360 degrees turn by monitoring the datalink status discrete.Connect to each of the configured Ethernet port to make sure there is data connectivity. Figure 3-16.  Network StatusesK. EMC Interference to Other Systems(1) Power up the system and let it acquire to the network. (2) Begin a two way (Rx and Tx) video conference call with a tool such as Microsoft Lync or Skype. (3) Test the functioning of other communication systems with antennas installed adjacent to the FMA or TMA and observe for any mutual interference. (4) Monitor the link signal quality C/N and Eb/No parameters. These parameters are found under Aircrarft Statuses as part of the AES Summary and Link Status page. Refer to Figure 3-13.
Page 3-2616 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(5) In case of any RF interference, there will be significant variation of the C/N and Eb/No parameters.8. Post-Installation TroubleshootingA. System Fails Post-installation Checks(1) To make sure that the system is correctly installed, do as follows:(a) Make sure that the APM has been correctly configured and loaded. Refer to “ARINC 615A Software Dataload Process”and "Troubleshooting"  to access the GUI to check that the correct APM version is installed. (b) Make sure that all the LRUs and connections have been correctly installed.1Do continuity checks on wiring, test RF cables with specialized RF cable testers, and do power on and ground checks with LRUs disconnected for the check.(c) Make sure that all LRUs power up.1System status can be viewed at the AES Home and Status Info Page Figure 3-7(d) Make sure that the cable calibration procedure been done. Refer to Cable Calibration on page 3-14.(e) Make sure that the navigation data is correct and the antenna alignment has been done. • Refer to Installation Section 4.Q. TMA and FMA Antenna Alignment Procedure on  page 2-36.(f) Check for system internal interconnect faults. Refer to JetWave™ System Fault Codes on page 3-41.(g) Make sure the system is connected correctly to the navigation busses, check the system for No traffic faults on the A429 ports. If No traffic faults are received, do as follows:1 Check wiring and or make sure that the APM is configured for how the system is wired.(h) Check the system for User port Ethernet No layer 1 faults. If faults are received, do as follows:1Check the APM for correct configuration.2Make sure that the connecting equipment is operating correctly. 3Check the wiring.(i) Make sure that the system has the correct software loaded. If so, do as follows:1Check for LRU software errors.2Check for LRU hardware / software incompatibilities.3Check the system for software incompatibilities.B. Incorrect Navigation Data
Page 3-2716 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(1) If the system is reporting labels missing, do as follows:(a) Check that the APM is configured to have correct labels on the correct bus.(b) Make sure that the labels are present on bus.(2) If the system is reporting an incorrect label status on the bus (FW, NCD, FT), do as follows:(a) Wait for equipment providing the labels to report Normal Operation.C. System Will Not Connect to the Network(1) View the AES Home and Status Info Page Figure 3-7 to see reason transmission is muted and address the reasons.(2) Make sure the system is not limited by geographical restraints.The system can only transmit in authorized areas and will report if it cannot transmit for this reason.(3) Make sure you have clear line of sight to the satellite.(4) Make sure the system has been activated by the ISP.(5) Make sure that the system is not configured for data loading.The system will not transmit while the local data enable switch is closed.D. Connectivity of Each Ethernet PortNOTE: The JetWave™ system configuration files are update by the field. The creation files are not loaded by the field. This is done at the factory as part of production process with a Honeywell proprietary tool. Honeywell can be contacted for generating the creation file. On completion of AES system installation activities, the installer can view and verify the AES configuration settings through the GUI as described in this section.To view and verify the AES system configuration, a web based GUI is supplied. The JetWave™ Ethernet configuration data can be viewed and verified by navigating to the “Contents of Aircraft Services Configuration Files” page from "Configuration Files" under the Other Information & Control menu. Figure 3-8 shows the typical configuration file Information page. The network status and the VLAN ID can be viewed as shown in Figure 3-16.The IP address assigned can be viewed by pressing the “Display” tab of Contents of Aircraft Configuration File as shown in Figure 3-17.
Page 3-2816 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Figure 3-17.  Contents of Aircraft Services Configuration FileThere are a number of functions that an Ethernet port can support namely, data traffic, data loading, GUI, AES logs extraction (maintenance function) and status/control (through the SNMP). The terminal can be configured to indicate whether an Ethernet port supports traffic, data loading, SNMP, etc, such as port PA1 configured for engineering SNMP and AES access services. Refer to Figure 3-16. It contains the parameters that follow:• User Port PA1/2/3/4/PG1/EN5/6/7/8/EG1/AV1/2/3/AG1 data load• Data Load IP Modman• Data Load IP KANDU• Data Load IP OAE• User Port PA1/2/3/4/PG1/EN5/6/7/8/EG1/AV1/2/3/AG1 AES services config Modman• User Port PA1/2/3/4/PG1/EN5/6/7/8/EG1/AV1/2/3/AG1 AES services config KANDU• User Port PA1/2/3/4/PG1/EN5/6/7/8/EG1/AV1/2/3/AG1 AES services config OAE• User Port PA1/2/3/4/PG1/EN5/6/7/8/EG1/AV1/2/3/AG1 AES services IP Modman• User Port PA1/2/3/4/PG1/EN5/6/7/8/EG1/AV1/2/3/AG1 AES services IP KANDU• User Port PA1/2/3/4/PG1/EN5/6/7/8/EG1/AV1/2/3/AG1 AES services IP OAE• User Port AES services IP subnet• User Port PA1/2/3/4/PG1/EN5/6/7/8/EG1/AV1/2/3/AG1 traffic services
Page 3-2916 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.• User Port IP filter 1 thru 150.Once the items have been loaded into the APM the Modman reads the APM once at power-on and passes the appropriate data to the relevant LRU or uses the information locally.(1) If the Ethernet port is not active, do as follows:(a) Check the APM settings, as follows:1Make sure that the port is enabled.2Check system errors.3Check  for system reporting No layer 1 or No traffic faults.(b) Is the device connecting to it operating correctly? If so, check the wiring.(2) It there is poor performance on one port only, do as follows: (a) Check for port reporting high packet loss. If so, check wiring and verify that there is traffic. (3) If not supplying access to the correct services, do as follows:(a) Make sure the APM is configured for the correct services.(b) Make sure the APM is configured to access the correct VLANs.(c) Check with the service provider to make sure that the  VLANs have been correctly configured for the terminal.9. Maintenance and RepairA. Maintenance Requirements(1) The maintenance-free design of the JetWave™ AES system does not require field maintenance to maintain airworthiness. (2) Maintenance for the JetWave™ AES system is limited to replacement of LRUs on verified failure. (3) Field lubrication or other maintenance procedures are not required for fuselage mount antenna assembly / tail mount antenna assembly where there are moving mechanical parts.(4) If functional problems occur, the BITE can identify the faulty JetWave™ AES LRU and the Modman collates this BIT information which can be accessed through the GUI provided. Refer to theRefer to BITE Philosophy on page 3-41 of this document for information on how to access the BIT data. If replacement of the unit is deemed necessary, in consultation with Honeywell product support, It is strongly recommended that all repairs be performed only at the Honeywell authorized facility.B. Continued Airworthiness, FAR 25.1529 The sections that follow supply instructions for continued airworthiness for the JetWave™ AES system. The sections that follow are supplied in response to Federal Aviation Regulation 25.1529, Instructions for Continued Airworthiness.
Page 3-3016 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.C. Airworthiness Limitations(1) Installation of the JetWave™ AES OAE assembly and LRUs on an aircraft by supplemental type certificate (STC) or Form 337 obligates the aircraft operator to include the maintenance information supplied by this manual in the operator’s Aircraft Maintenance manual and the operator’s Aircraft Scheduled Maintenance Program.(2) It is recommended that this section be appended to the Airplane Maintenance Manuals. The information contained herein supplements the Airplane Maintenance Manuals in areas covered by the JetWave™ AES FMA/TMA installation. (3) It is recommended to consult basic Airplane Maintenance Manuals for limitations and procedures not contained in this supplement. The inspections and airworthiness limitations specified in this section are FAA approved. (4) This section and the sections that follow specifies the inspections and other maintenance required under sections 433.16 and 91.403 of the Federal Aviation Regulations unless an alternative program has been FAA approved. Initial and recurring inspections of the JetWave™ AES OAE assembly and LRUs and its associated provisions are required. Specific inspection intervals are contained in Table 3-12.D. General Instructions for InspectionThis section provides general instructions for the inspection of the JetWave™ AES OAE assembly and LRUs . (1) Gain access to the installation location on the fuselage for fuselage mount antenna assembly or to the top of the aircraft vertical stabilizer in the case of tail mount antenna assembly(2) Clean all visible surfaces of the antenna, radome assembly, and base plate.(a) Do the inspections and checks presented in Electrical and Mechanical Inspection and Check.E. Electrical and Mechanical Inspection and Check Periodic inspections of the mechanical and electrical interfaces of the JetWave™ AES OAE assembly and LRUs to the aircraft should be completed as defined by the governing airworthiness body (such as Transport Canada, the FAA, or the JAA) Instructions for Continued Airworthiness for the installation. For the general guidelines refer to Visual Inspection and Check and Scheduled Maintenance and Inspections sections. F. Scheduled Maintenance and Inspections(1) The JetWave™ AES system does not require routine maintenance for continued airworthiness. (2) Scheduled inspections items in Table 3-12 must be done at a minimum of once a year - preferably scheduled along with the other annual maintenance activities. (3) It is recommended to periodically check JetWave™ AES cable connectors and, if required, tighten connectors to recommended value.
Page 3-3116 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(4) It is recommended to follow the Standard Practices Chapter of the Aircraft Maintenance Manual and do all required inspections and repairs.G. Unscheduled Maintenance(1) Follow the Standard Practices Chapter of the Aircraft Maintenance Manual and do all the required inspections and repairs, as shown in Table 3-13.Table 3-12.  Scheduled MaintenanceSI No. Item Interval Potential Damage Inspection InspectionLightning diverters In accordance with the aircraft inspection schedule and after flying in known conditions of lightningPaint damage, structural damage, de-lamination External visualFuselage mount radome exterior, radome skirt exterior / tail mount radome exteriorIn accordance with the aircraft inspection schedule and after flying in known conditions of lightning/hail.Paint damage, structural damage, de-lamination, punctureExternal visualAntenna interface mount  In accordance with the aircraft inspection scheduleCorrosion, loose, or missing fasteners External visualOAE – FMA/TMA connectors In accordance with the aircraft inspection scheduleCorrosion, loose, or missing connectors External visualOAE-FMA/TMA grounding and bondingIn accordance with the aircraft inspection scheduleNon conform electrical bonding External visual and 5 mΩ testOAE-FMA/TMA wiring In accordance with the aircraft inspection scheduleChafing, cracks in insulation, breaks External visualKANDU connectors In accordance with the aircraft inspection scheduleCorrosion, loose, or missing connectors External visualKANDU grounding and bonding In accordance with the aircraft inspection scheduleNon conform electrical bonding External visual and 5 mΩ testModman and APM connectors In accordance with the aircraft inspection scheduleCorrosion, loose, or missing connectors External visualModman and APM grounding and bondingIn accordance with the aircraft inspection scheduleNon conform electrical bonding External visual and 5 mΩ test
Page 3-3216 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(2) JetWave™ AES system status can be viewed through the GUI. Refer to Checking Status Information section for description.(3) On the Modman LRU the status indicator LED is on the Modman front panel. The various Modman status indications are shown in Table 3-14. H. Repair Requirements(1) The BITE functionality of JetWave™ AES system can identify the faulty LRU in case any occurrence of functional problems and this can be accessed through Modman. (2) In accordance with continued airworthiness instructions, if a JetWave™ AES system is inoperative, use Standard Practices Chapter of the Aircraft Maintenance Manual to:• Remove the unit • Secure cables and wiring • Collar applicable switches and circuit breakers, and placard them as “inoperative”.Before flight, revise the equipment list and weight and balance data as applicable, and record the removal of the unit in the log book. Refer to section 91.213 of the FAR or the aircraft’s minimum equipment list. All repairs must be done at the Honeywell factory.10. Troubleshooting This section supplies troubleshooting procedures for JetWave™ system. Airline maintenance engineers can troubleshoot JetWave™ system on the ground, with the Health Status Information and Fault Details and Isolation assistance displayed on the AES GUI.Table 3-13.  Unscheduled MaintenanceItem Potential Damage InspectionJetWave™ AES FMA OAE/TMA OAE Heavy rain / hail Paint erosion External visualbird strike Paint damage/radome puncture External visualJetWave™ AES system Failure NA NA RemovalTable 3-14.  Modman LED Status IndicationsStatus LED ModeOff No electrical power / electrical power is supplied but prior to boot.Flash green at a minimum of 10 seconds Modman initialization On - green Modman in normal operationOn - red Modman in Fault Mode
Page 3-3316 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Only qualified avionics personnel who are knowledgeable in the technical and safety issues related to the troubleshooting of aircraft communications equipment should do the troubleshooting procedures supplied in this manual.NOTE: If any of the KANDU unmonitored voltage rails are not working the troubleshooting output of the JetWave™ system would not identify the problem directly.A. Accessing the Maintenance Interface(1) For maintenance activities, the JetWave™ system can be accessed through a GUI. (2) The GUI service is supported on AV1 and AG1 10/100 Base T Ethernet interface. NOTE: Once the configuration file is loaded, the ports where the GUI is available on can be different.(3) The Modman static IP assigned is 172.29.55.1 and the port number for the AES GUI service is port 80.NOTE:  This port is configured by the AES configuration user port services support information.(4) On any of the Internet browsers (Internet Explorer 8 compatible), open the link "index.html".(5) Login page will be shown as the root page, for you to enter the user name and password. Refer to Figure 3-18 for the screen-shot of the login page.Figure 3-18.  AES GUI Login Page(6) Use the applicable login account with well defined password in the login page for accessing the interface level required. The login for the maintenance interface and user interface is as follows:• Access maintenance interface with Username: "Maintenance" and Password: "Earthbound".
Page 3-3416 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.• Access the user interface with Username: "User" and no password.(7) User may press Log out button to log out. Upon logging off, log in page will be presented by default. Figure 3-19 shows the log out page.Figure 3-19.  JetWave™ Logout PageB. Checking Status Information(1) The health status of the JetWave™ system can be monitored by selecting AES Summary and Link Status under the Health Status pane menu. Figure 3-20 shows the GUI page listing the health status of JetWave™ system LRUs. (a) In the health status page, the GUI lists the last five AES failure codes. (b) The JetWave™ system will enter into critical fault mode when critical LRU fault encountered or the AES Configuration data is missing or invalid. (c) The JetWave™ system will be back to normal operation mode only when all the LRU critical faults are removed, receiving valid navigation information, and a valid AES configuration data is supplied. Figure 3-20 shows the AES Summary and Link Status page.
Page 3-3516 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Figure 3-20.  JetWave™ Summary and Link Status (Sheet 1 of 2)
Page 3-3616 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Figure 3-18.  JetWave™ Summary and Link Status (Sheet 2 of 2)(2) The JetWave™ system status can be viewed through the GUI. Refer to AES system status verification section on page 3-5 for description.C. Downloading LRU Logs(1) To view the hystorical fault logs, under the AES historical logs pane, select the "Fault Log". A screenshot of fault log page is shown in Figure 3-19.NOTE: The JetWave™ System Usage log and the Operational log can be downloaded through GUI with User access level. For downloading the JetWave™ System Fault log and the Security records, the system must be accessed through the Maintenance access level on the GUI.(2) The log files can be viewed a number of ways. You can choose how many resords as follows: • Since power on• Number of days and select actual number of days from the dropdown• Number of latest records and select the number of records form the dropdown(3) Select the record order by clicking on latest first or oldest first.(4) Select the Apply button.
Page 3-3716 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Figure 3-19.  JetWave™ Fault Log Download Configuration Page(5) The fault log contains the details that follow:• LRU POST and BITE fault codes• Watch dog reset events• Software exception events• LRU Recorded Temperature, if available• LRU Recorded Time, if available• LRU Antenna pointing information, if applicable• Fault count.Refer to Figure 3-20 for an example of a viewable fault log.
Page 3-3816 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Figure 3-20.  JetWave™ Fault Log Data (6) To download the fault log data for analysis and trouble shooting, press the “Download” button. The window as shown in Figure 3-21 will come into view. Save to the computer to open and view the fault log.Figure 3-21.  JetWave™ Fault Log Download Page
Page 3-3916 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.D. System Dataload Failure(1) Make sure that the system is configured for ground operation.(2) Make sure that the local data load enable switch is closed.(3) Make sure that the 615A data loader is connected to the correct port:NOTE: AV1 by default, but this may have been modified by the configuration loaded on the APM.(4) Make sure you are trying to load a valid set of files into the correct LRU.11. Network MonitoringThe JetWave™ system supplies network performance data to SNMP applications. The available MIB objects and traps can be found in APPENDIX B on page B-1.12. System ResetThe JetWave™ system can be reset with any of the methods that follow: • Through the Web GUI• Through the SNMP• By closure of the Modman reset pin (MP10C) to ground.NOTE: The maintenance technician can attempt to cycle power to the Modman in case the system fails to respond to the reset. If the problem persists, the respective AES sub assembly needs to be  replaced. Honeywell Field Support Engineers can be contacted for further support.A. Electrical and Mechanical Inspection and Check Periodic inspections of the mechanical and electrical interfaces of the JetWave™ AES OAE assembly and LRUs to the aircraft should be completed as defined by the governing airworthiness body (such as Transport Canada, the FAA, or the JAA) Instructions for Continued Airworthiness for the installation. For the general guidelines, refer to Visual Inspection and Check and Scheduled Maintenance and Inspections sections. B. Instructions for Continued Airworthiness This section supplies the special instructions and maintenance requirements for continued airworthiness of the JetWave™ AES subsystems.(1) JetWave™ AES OAE assembly and LRUs are considered on-condition units. No additional or routine maintenance is required for the on-condition JetWave™ AES OAE assembly and LRUs.(2) If a JetWave™ AES OAE assembly or an LRU is inoperative, do as follows:
Page 3-4016 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(a) Remove the unit (b) Secure cables and wiring (c) Collar applicable switches and circuit breakers (d) Placard the JetWave™ AES LRU and associated items as “inoperative” in accordance with the aircraft maintenance manual(e) Before flight, do as follows: 1Record the removal of the unit in the log book 2Revise the equipment list. Refer to section 91.213 of the FAR or the aircraft’s minimum   equipment list.3Revise the weight and balance data as applicable.(3) JetWave™ AES system LRUs are not field-repairable. Return the faulty LRUs or sub assembly to the Honeywell authorized facility for repair. (4) Install repaired LRUs on the aircraft in accordance with the installation instructions supplied in this manual.(5) Make sure that all repaired units operate correctly before you approve them for return to service, with the operational verification tests and procedures provided in this SDIM. Approval for return to service must be entered in the logbook as required by section 43.9 of the FAR. (6) Enter the approval for return to service in the appropriate logbook as required by FAR Section 43.9.(7) Add the scheduled maintenance tasks to the aircraft operator’s appropriate aircraft maintenance program as follows:(a) Recommended periodic scheduled servicing tasks: None required. (b) Recommended periodic inspections: • Scheduled maintenance inspections supplied in Table 3-12 and in accordance the aircraft’s inspection and maintenance schedule. (c) Recommended periodic scheduled preventative maintenance tests (to determine system condition and/or latent failures): None required.C. Visual Inspection and Check Do the procedures that follow to examine the JetWave™ AES OAE assembly and LRUs after installation of the unit onto the aircraft. Follow all approved safety standards and practices during the inspection.CAUTION: FAILURE TO DISCONNECT CIRCUIT BREAKERS CAN LEAD TO INJURY TO THE OPERATOR AND DAMAGE TO THE EQUIPMENT. (1) Disconnect all circuit breakers to the JetWave™ AES OAE assembly, LRUs and associated systems.
Page 3-4116 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(2) Visually examine the FMA or TMA radome for any damage or defects. (a) Remove the JetWave™ AES OAE FMA  or TMA assembly and LRUs from service if you find: • Punctures in the radome • Cracks in the radome • Chips, nicks, or gouges more than 0.250 inch (6.35 mm) across in any direction • Erosion lamination because of impact more than 0.250 inch (6.35 mm) across in any direction • Erosion of lamination because of impact more than 0.031 inch (0.79 mm) from the exterior surface of the radome• Damaged areas within 4 inches (101.6 mm) of each other • Any damage because of lightning. (3) Examine the connection for loose, damaged, or missing hardware. (4)  Examine each lightning diverter strip. (a) Remove the JetWave™ AES OAE FMA or TMA assembly from service if:• Three or more sequential buttons are missing on a lightning diverter strip • More than 10 percent of the buttons are missing on a lightning diverter strip • The lightning diverter strip is burned or scorched through to the radome material.(5) Examine the base plate. (a) Remove the JetWave™ AES OAE FMA or TMA assembly from service if:• A corrosion area is greater than 1/8 inch (3.16 mm) across • There is damage to greater than 10 percent of the area thickness.(6) Examine cables and connections. (a) Contact Honeywell to gauge the severity of the damage if you find: •Corrosion•Chafing•Wear• Damage.(7) Tighten any loose connectors to the manufacturer’s recommended value.13. JetWave™ System Fault CodesA. BITE Philosophy(1) Description
Page 3-4216 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(a) The JetWave™ AES consists of the Modman, KANDU, KRFU, TMA or FMA LRUs, plus the APM.(b) The APM is a simple memory device with no software and performs no BITE by itself. Any BITE required for the APM is performed by the Modman. The APM is not shown in these diagrams.(c) The BITE system divides the responsibility for BITE and historical logs in a BITE hierarchy as illustrated in Figure 3-22.Figure 3-22.  Bite Hierarchy(d) In charge of JetWave™ system is the AES controller. This controller is in charge of the LRUs of the JetWave™ system, and it:• Maintains the overall state of the AES system• Controls the initialization and operation of the system• Generates BITE events applicable to the system level• Records BITE events reported by a LRU and itself in an AES historical log.(e) Each LRU has a LRU controller that:• Maintains the state of the LRU• Generates BITE events applicable to the LRU• Sends relevant BITE events to the AES controller (for the AES controller to make a decision on overall AES state, and for it to record in its AES historical log).(f) The diagram that follows is a detailed description of how the AES controller, the LRU controllers, the historical logs, and the means of access to those logs interact. Refer to Figure 3-23.
Page 3-4316 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Figure 3-23.  AES and LRU Controller Interaction(g) The AES Controller resides in the Modman LRU.(h) Each LRU Controller monitors the LRU for BITE events. BITE events are classified into two categories:• Faults: These are BITE events which have a SET state (occurring) or CLEAR state (fault has disappeared).•  Events: These are BITE events which occur but do not have a set or clear state.(i) The LRU records the BITE event into a specific LRU log, dependent on the type of fault or event.NOTE: Not all BITE events indicate an error situation. BITE events are also used for storing significant events in the historical logs, either on the LRU or in the AES controller, or for informing the AES controller of important system wide information.(j) BITE events are sent to the AES controller. The AES controller may react to an event by changing the overall state of the AES system. Actions include disabling the system, rebooting the system, etc.
Page 3-4416 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(k) The AES controller has a sub-part called the AES controller fault and event handler which is in charge of responding to BITE events reported by the AES controller or a LRU controller. This is mentioned in some reaction tables described below.(l) The AES controller has its own historical logs which allow it to record events about the whole system.(m) Included on the diagram are the Secure File Transport Protocol (SFTP) services and the GUI services which allow the users to access the AES and LRU historical logs.• AES controller logs are available from the Modman LRU GUI or SFTP service, accessible through one of the Ethernet connections on the Modman.• Modman LRU logs are available from the Modman LRU SFTP service, accessible through one of the Ethernet connections on the Modman.• KANDU LRU Logs and KRFU LRU Logs are available from the KANDU LRU SFTP service, accessible through one of the Ethernet connections on the Modman.• TMA/FMA LRU Logs are available from the TMA/FMA LRU SFTP service, accessible through one of the Ethernet connections on the Modman.(n) The LRU and AES remember information about BITE events that have occurred, in both non-volatile memory and volatile memory.(o) The historical logs are kept by the LRU and AES controller.(p) Each BITE event is described by an LRU code, encoded in three numbers (L1, L2 and L3) to uniquely identify the event.(q) Section 5 has more details on the format of this LRU code system.(r) The BITE events themselves have a description of the L1 thru L3 code and the additional text to be used for that event.(s) Each BITE event is also associated with a reaction table which describes the confirmation actions, and event actions, the LRU should take when this BITE event occurs.   For events that are reported to the AES controller, there is a reaction table describing what the AES controller should do when the event is reported to it.
Page 3-4516 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(2) Status Memory(a) The AES Controller remembers the following information:• The AES Controller maintains an overall mode of operational state, of UNKNOWN (Default), DATA LOAD, CRITICAL FAULT, COMMANDED MODE, OPERATIONAL MODE.• The AES controller maintains an overall service state, of AVAILABLE (default) or UNAVAILABLE. This service state, when set to UNAVAILABLE, disables user servicer and transmission.• For each unique L1 thru L3 code, maintained across reset/power down, it records if the code has occurred (SET), cleared after occurring (CLEAR), or never seen (NO_ERROR).• For each unique L1 thru L3 code, maintained across reset/power down, it records the number of occurrences and the time of the last occurrence.• For every link in the system, it records the status: UNKNOWN (default after power on), DISABLED, INACTIVE, NO_LAYER_1 (when applicable), HIGH_PACKET_LOSS, ACTIVE (normal). It also records the time of the last report, and the long term link status: NOFAULT, FAULT.• For every ARINC 429 label the AES accepts on a per LRU basis, it records the status: DISABLED, UNKNOWN (default after power on), ACTIVE, SSMERROR, MISSING.• For every input discrete the AES LRUs possesses, it records the status: UNKNOWN (default after power on), ASSERTED, DEASSERTED.• For every temperature sensor on every LRU the AES controller records its status: NORMAL (default after power on), WARNING, CRITICAL.• For the Modman, KRFU, KANDU, TMA, FMA the AES controller records it overall hardware state: NORMAL (default after power on), WARNING, FAILED.• The AES controller maintains in memory the mute state of each LRU, and the reason for mute. Default is "INITIALIZATION".(b) The LRUs remembers the following information:• For each unique L1 thru L3 code, maintained across reset/power down, it records if the code has occurred (SET), cleared after occurring (CLEAR), or never seen (NO_ERROR).• For each unique L1-L3 code, maintained across reset/power down, it records the number of occurrences and the time of the last occurrence.• For every link the LRU has, it records the status: UNKNOWN (default after power on), DISABLED, INACTIVE, NO_LAYER_1 (when applicable), HIGH_PACKET_LOSS, ACTIVE (normal). It also records if the link is causing a mute of the system.
Page 3-4616 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.• For every ARINC 429 label the LRU understands, it records the status: DISABLED, UNKNOWN (default after power on), ACTIVE, SSMERROR, MISSING. It also records if the label is causing a mute of the system.• For every input discrete the LRU possesses, it records the status: ASSERTED, DEASSERTED.• The LRU maintains in memory the reason, if any, for muting.B. LRU CodesBITE event information is encoded by the LRUs in three values. The values are named L1 thru L3:• L1 denotes the LRU or interface (generated by an LRU on its behalf) which is generating the event• L2 denotes the Shop Replaceable Module within an LRU for a event relating to an LRU, or for interfaces it denotes an particular part of the interface which is generating the event.• L3 further defines the unique event that occurred.Each fault or event also has an additional text field which can carry additional information helpful to understand the fault or event that happened.The combination of L1 thru L3 alone uniquely identifies a BITE event in the system.C. L1 Codes(1) The event L1 code uses two hexadecimal digits to identify a LRU or an interface within an AES LRU, coded as follows:Table 3-15.  L1 Codes Group L1 Code L1 DescriptionSystem 0x 00 SystemThe L1 code of 00 shall be used if the LRU is unknown or if the error is applicable to a system level, such as an invalid or unknown system configuration error, or a system event not specific to an LRU.AES 0x 01 Modman0x 02 KRFU0x 03 TMA0x 04 FMA0x 05 APM0x 06 KANDU
Page 3-4716 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Intra-system Interconnect 0x 20 Modman KANDU Ethernet bus0x 21 Modman APM serial bus0x 24 Modman output discretesIntra-system Interconnect 0x 30 KANDU OAE Ethernet Bus0x 31 KANDU OAE Serial Control Bus 0x 32 KANDU OAE serial IMU bus0x 33 KANDU KRFU serial bus0x 34 KANDU input discretes from OAE0x 35 KANDU input discretes from Modman0x 36 KANDU input discretes from KRFU0x 41 KRFU input discretes from KANDU0x B0 RF TX Modman to KRFU0x B1 RF TX KRFU to OAE0x B2 RF RXAircraft Interconnect 0x 70 IRU input bus0x 71 Aircraft state input bus0x 72 Modman aircraft discrete input0x 73 KANDU aircraft discrete inputAISD Network 0x 80 AISD Network: Ethernet AG10x 81 AISD Network: Ethernet AV10x 82 AISD Network: Ethernet AV20x 83 AISD Network: Ethernet AV3PIESD Network 0x 88 PIESD Network: Ethernet EG10x 89 PIESD Network: Ethernet EN50x 8A PIESD Network: Ethernet EN60x 8B PIESD Network: Ethernet EN70x 8C PIESD Network: Ethernet EN8Table 3-15.  L1 Codes (Cont)Group L1 Code L1 Description
Page 3-4816 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.NOTE: All other codes not explicitly stated are spare.D. L2 Codes(1) The event L2 code uses two hexadecimal digits to identify a shop-replaceable module within an AES LRU, coded as follows:PODD Network 0x 90 PODD Network: Ethernet PG10x 91 PODD Network: Ethernet PA10x 92 PODD Network: Ethernet PA20x 93 PODD Network: Ethernet PA30x 94 PODD Network: Ethernet PA4Table 3-16.  L2 Codes – Module within a AES LRU L1 L2 Code L2 DescriptionSystem (00) 0x 00 Unknown0x 01 Mode0x 02 AES menu access level0x 03 Configuration0x 04 AES SFTP0x 05 SNMP engineering0x 06 SNMP ARINC 7910x 07 Regulatory logs0x 08 Information eventsModman (01) 0x 00 Unknown0x 01 ACM0x 02 Controller/Router0x 03 Power supply unit0x 04 Backplane0x FA Operational information0x FB IP security0x FC Reset0x FD Software configuration0x FE Software runtimeTable 3-15.  L1 Codes (Cont)Group L1 Code L1 Description
Page 3-4916 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Modman (01) 0x FF TemperatureKRFU (02) 0x 00 Unknown0x 01 Power supply unit0x 02 Block up converter0x 04 Power amplifier0x 05 Monitor and control0x 07 Fan0x 08 Failed on start-up0x 2A BDC0x FA Operational information0x FC Reset0x FD Software configuration0x FE Software runtime0x FF TemperatureTMA (03)FMA (04) 0x 00 Unknown or not applicable0x 03 Low noise amplifier0x 04 Motors and sensors0x 05 Position control unit0x 06 Power supply unit0x 0B MDU0x 0C R2D0x FA Operational information0x FB IP security (FMA only)0x FC Reset0x FD Software configuration0x FE Software runtime0x FF TemperatureAPM (05) 0x FA Operational information0x FD Software configurationTable 3-16.  L2 Codes – Module within a AES LRU (Cont)L1 L2 Code L2 Description
Page 3-5016 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(2) The event L2 code further identifies specific inter LRU interfaces, coded as follows:KANDU (06) 0x 00 Unknown or not applicable0x 01 ASC0x 02 Power supply unit0x 11 ASC BITE EMIFA0x 12 ASC BITE A429 IRS0x 13 ASC BITE A429 AUX0x 14 ASC BITE Ethernet switch0x FA Operational information0x FB IP security0x FC Reset0x FD Software configuration0x FE Software runtime0x FF TemperatureTable 3-17.  L2 Codes – Inter LRU Interfaces L1 L2 Code L2 DescriptionModman KANDU Ethernet bus (20) 0x 01 Modman input0x 02 KANDU inputModman APM Serial Bus (21) 0x 01 Modman inputModman Output: Discrete from Modman (24) 0x 01 Reset0x 02 ARINC TX mute0x 03 Filter select0x 04 Keyline transmit0x 05 System available0x 06 Data link availableKANDU OAE Ethernet Bus (30) 0x 01 KANDU input0x 02 OAE inputKANDU OAE Serial Control Bus (31) 0x 01 KANDU input0x 02 OAE inputTable 3-16.  L2 Codes – Module within a AES LRU (Cont)L1 L2 Code L2 Description
Page 3-5116 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(3) The event L2 code further identifies ARINC 429 and ARINC 791 discrete interfaces, coded as follows:KANDU OAE Serial IMU Bus (32) 0x 01 KANDU input0x 02 OAE inputKANDU KRFU Serial Bus (33) 0x 01 KANDU input0x 02 KRFU inputKANDU Input: Discrete from OAE (34) 0x 01 FMA TX mute inputKANDU Input: Discrete from Modman (35) 0x 01 Reset0x 02 ARINC TX mute0x 03 Filter select0x 04 TX MuteKANDU Input: Discrete from KRFU (36) 0x 00 UnknownKRFU Input: Discrete from KANDU (41) 0x 01 Reset0x 02 KRFU TX mute0x 03 Filter selectRF TX Modman to KRFU (B0) 0x 00 UnknownRF TX KRFU to OAE (B1) 0x 00 UnknownRF RX(B2) 0x 00 UnknownTable 3-18.  L2 Codes – ARINC Discrete InterfacesL1 L2 Code L2 DescriptionIRU Input Bus (70)Aircraft state Bus (71)0x 00 Unknown0x 01 Pitch angle label0x 02 Roll angle label0x 03 Pitch rate label0x 04 Roll rate label0x 05 Yaw rate label0x 06 Body longitudinal acceleration0x 07 Body vertical acceleration0x 08 True heading labelTable 3-17.  L2 Codes – Inter LRU Interfaces (Cont)L1 L2 Code L2 Description
Page 3-5216 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(4) The event L2 code further identifies user interfaces, coded as follows:IRU Input Bus (70)Aircraft state Bus (71)0x 09 Body lateral acceleration0x 11 Latitude label0x 12 Longitude label0x 13 Altitude0x 14 Vertical velocity0x 15 N-S velocity0x 16 E-W velocity0x 21 Horizontal stabilization0x 31 Time label0x 32 Date label0x 41 Flight phase label0x 42 MLG ground condition0x 80 GNSS sensor status word 0x 81 IRS discrete word #1Modman Aircraft Discrete Input (72) 0x 06 WOW0x 07 Cell TX OK0x 08 Ground transmit enable0x 09 Public services disable0x 0A Remote manager0x 0B Cooling available0x 0C Local data loadKANDU Aircraft Discrete Input (73) 0x 0C TX controlTable 3-18.  L2 Codes – ARINC Discrete InterfacesL1 L2 Code L2 Description
Page 3-5316 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.E. L3 Codes (1) The L3 code is four hexadecimal digits, used to uniquely identify the fault or event against an L1, L2 code pair.(2) Each LRU defines their own L3 codes. These are given in the fault table, refer to Table 3-20.Table 3-19.  L2 Codes – User InterfaceL1 L2 Code L2 DescriptionAISD Network: Ethernet AG1 (80)AISD Network: Ethernet AV1 (81)AISD Network: Ethernet AV2 (82)AISD Network: Ethernet AV3 (83)PIESD Network: Ethernet EG1 (88)PIESD Network: Ethernet EN5 (89)PIESD Network: Ethernet EN6 (8A)PIESD Network: Ethernet EN7 (8B)PIESD Network: Ethernet EN8 (8C)PODD Network: Ethernet PG1 (90)PODD Network: Ethernet PA1 (91)PODD Network: Ethernet PA2 (92)PODD Network: Ethernet PA3 (93)PODD Network: Ethernet PA4 (94)0x 01 Modman inputTable 3-20.  L3 Codes L1 L2 L3 Code L3 Description Repair ActionSystem (00) Unknown (00) 0x 0001 OAE not pointed correctlyTry a manual point and see if it works.Mode (01) 0x 0000 Critical fault mode entry - Info events - Recording what happened in the LRU.- If it is a warning, It is info only.0x 0001 Dataload mode entry0x 0002 Commanded mode entry0x 0003 Normal mode entryAES menu access level (02)0x 0000 Maintenance0x 0001 Factory0x 0002 Engineering0x 0021 Log clearance AES operational historical log0x 0022 Log clearance AES fault historical log
Page 3-5416 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.System (00) AES menu access level (02)0x 0023 Log clearance AES usage historical log- Info events - Recording what happened in the LRU.- If it is a warning, It is info only.Configuration (03) 0x 0000 Tail number missing Use the AES Menu interface at maintenance level to enter the valid tail number of the aircraft0x 0001 Configuration file missing- First fit: Data load the configuration data to the Modman LRU with the 615A data loading process.- After operational: Replace the APM LRU (presume its broke since the APM should not forget an APM file), do the first fit operation again.0x 0002 Inter LRU SW incompatibilityVerify versions of SW with the GUI or AES menu tool on all LRUs and replace with correctly configured set of SW.0x 0003 Geographical map missingNO ACTION – this will be updated when the system is in operation.0x 0004 Configuration file in APM missing- First fit: Data load the configuration data to the Modman LRU with the 615A data loading process.- After operational: Replace the APM LRU (presume its broke since the APM should not forget an APM file), do the first fit operation again.AES SFTP (04) 0x 0000 Maintenance - Info events - Recording what happened in the LRU.- If it is a warning, It is info only.0x 0001 Factory0x 0002 EngineeringSNMP Engineering (05)0x 0000 Maintenance0x 0001 Factory0x 0002 Engineering0x 0021 Log clearance AES operational historical log0x 0022 Log clearance AES fault historical log0x 0023 Log clearance AES usage historical logSNMP ARINC 791 (06)0x 0000 Maintenance0x 0001 Factory0x 0002 EngineeringTable 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-5516 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.System (00) Regulatory Log (07)0x 0000 Regulatory log upload failureNO ACTION –System will continue to try and upload the file as directed by the regulatory log requirements on frequency of upload attempts.0x 0001 Reg log full0x 0002 FTP address invalid NO ACTION - These are warnings0x 0003 FTP connection refused0x 0004 FTP records misalignment- Info events - Recording what happened in the LRU.Information Events (08)0x 0000 User service enabled NO ACTION: - This is AES Information Event0x 0001 User service disabled NO ACTION: - Will recover next time0x 0002 Geographic map stored - Info events - Recording what happened in the LRU.0x 0003 Geographic map received corruptedNO ACTION: - Will recover next timeModman (01) Unknown (00) 0x 0000 Mute state Info events - Recording what happened in the LRU.0x 0011 LRU menu access - maintenance0x 0012 LRU menu access - factory0x 0013 LRU menu access - engineering0x 0014 LRU SFTP access - maintenance0x 0015 LRU SFTP access - factory0x 0016 LRU SFTP access - engineering0x 0021 Log clearance LRU operational0x 0022 Log clearance LRU faultACM (01) 0x 0001 ACM not responding Hardware faults and events:- Replace the Modman.0x 0002 ACM BIST fault0x 0003 ACM over tempController/router (02)0x 0001 DSP Fault0x 0002 Ethernet Main Switch0x 0003 Ethernet PODD SwitchTable 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-5616 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Modman (01) Controller/router (02)0x 0004 Ethernet PIES Switch Hardware faults and events:- Replace the Modman.0x 0005 Ethernet AISD Switch0x 0006 Down converter0x 0007 NOR flash0x 0008 NAND flash0x 0009 A429 driver0x 000B Reset control I/O0x 000C Board config I/O0x 000D Ethernet FP PHY0x 000E Ethernet ACM PHY0x 000F Ethernet EN3 PHY0x 0010 Ethernet Server PHY0x 0011 Ethernet AV1 PHY0x 0012 Ethernet AV2 PHY0x 0013 Ethernet AV3 PHY0x 0014 Ethernet AG1 PHY0x 0015 Ethernet EN5 PHY0x 0016 Ethernet EN6 PHY0x 0017 Ethernet EN7 PHY0x 0018 Ethernet EN8 PHY0x 0019 Ethernet EG1 PHY0x 001A Ethernet PA1 PHY0x 001B Ethernet PA2 PHY0x 001C Ethernet PA3 PHY0x 001D Ethernet PA4 PHY0x 001E Ethernet PG1 PHY0x 001F MM & ACD ETH link status IO0x 0020 PIES/PODD ETH link status IO0x 0021 BITE status inputs IO0x 0022 Server card in/out IOTable 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-5716 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Modman (01) Controller/router (02)0x 0023 RSSI control in/out IO Hardware faults and events:- Replace the Modman.0x 0024 Unique ID chip0x 0030 5V ISO good - power fail0x 0031 12V ISO good - power fail0x 0032 1V2 AR power good - power fail0x 0033 APM power good - power fail0x 0034 RSSI VDD power good - power fail0X0035 RSSI +1V3 power good - power failPower supply unit (03)0x 0001 PSU input power fail0x 0002 PSU good power failBackplane (04) 0x 0001 ACM 18V power goodOperational information (FA)0x 0000 Mode Transition Info events - Recording what happened in the LRU.0x 0001 Parameter0x 0002 Operational event0x 0004 Connect event0x 0005 Disconnect event0x 0006 User Bytes passed0x 000A Standard electronic information0x 000B Honeywell electronic information0x 000C Subassembly informationIP security (FB) 0x 0000 IP security event Use a well defined port and IP address0x 0001 Segregation fault Use a well defined IP address0x 0020 Configuration fault Use correct network configurationReset (FC) 0x 0000 Power Cycle Info events - Recording what happened in the LRU.0x 0001 Watchdog0x 0002 Software CommandTable 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-5816 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Modman (01) Reset (FC) 0x 0003 Reset Pin Info events - Recording what happened in the LRU.0x 0004 SW exceptionSoftware configuration (FD)0x 0001 HW SW compatibility Reload compatible software with the A615A data loading process.0x 0002 LRU SW compatibility0x 0003 Configuration parameter missingReload the configuration data with the A615A data loading process.0x 0004 Primary image corruption warning- Reboot the LRU to load valid primary image and check if fault goes away. - If not, then a fresh data load of software is required to load the fresh image.0x 0005 No valid image Reload compatible software with the A615A data loading process.0x 0006 LRU PRI-SEC image mismatch- Reboot the LRU to load valid primary image and check if fault goes away. - If not, then a fresh data load of software is required to load the fresh image.0x 0007 Data load  Unit configuration events:- Critical, something needs to be done (reload software).- Warning, then the event was unexpected, but will sort itself out.- Info, recording what happened in the LRU.0x 0008 Data loader connect0x 0009 Data loader disconnect0x 000A Operating image list0x 000B Secondary image corruption warningA fresh data load of software is required to load the fresh image.Software runtime (FE)0x 0000 Heartbeat failure Software events:- Critical, will cause the unit to reset.-Warning, then the event was unexpected, but will sort itself out. -Info, recording what happened in the LRU.(For software faults there is no reason to return box.)0x 0001 GENERAL module failure0x 0020 Missing KANDU information0x 0021 File system full0x 0022thru0x 007FOther SW errorsTemperature (FF) 0x 0001 C/R temperature sensor - If it is a warning, It is info only.- If it is critical, the LRU will shut down functionally: The LRU is not correctly installed or there can be a fault in the box generating the heat.0x 0002 PSU temperature sensorTable 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-5916 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.KRFU (02) Unknown (00) 0x 0000 Mute state Info events - Recording what happened in the LRU.0x 0001 Primary power interruptionPower supply (01) 0x 0002 Power supply internal faultHardware faults and events:- Replace the KRFUBlock up converter (02)0x 0001 BUC lockloss: Transmit BITE status0x 0002 BUC lockloss: Transmit BITE statusPower amplifier (04)0x 0002 PA overdriven: Transmit BITE statusMonitor and control (05)0x 0001 Flash fault0x 0002 RAM fault0x 0003 Watchdog resetFan (07) 0x 0000 FanFailed on startup (08)0x 0000 Failed on startup BDC (2A) 0x 0001 BDC lockloss: Receive BITE statusOperational information (FA)0x 000A Standard electronic informationInfo events - Recording what happened in the LRU.0x 000B Honeywell electronic informationReset (FC) 0x 0001 Watchdog0x 0002 Software command0x 0004 SW exception0x 0005 Power cycle or Reset pinSoftware configuration (FD)0x 0001 HW SW compatibility Reload compatible software with the A615A data loading process.0x 0004 Primary image corruption warning- Reboot the LRU to load valid primary image and check if fault goes away. - If not, then a fresh data load of software is required to load the fresh image0x 0005 No valid image Reload compatible software with the A615A data loading process.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-6016 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.KRFU (02) Software configuration (FD)0x 0006 LRU PRI-SEC image mismatch- Reboot the LRU to load valid primary image and check if fault goes away. - If not, then a fresh data load of software is required to load the fresh image.0x 0007 Data load Unit configuration events:- Critical, something needs to be done (reload software).- Warning, then the event was unexpected, but will sort itself out.- Info, recording what happened in the LRU.0x 000A Operating image list0x 000B Secondary image corruption warningA fresh data load of software is required to load the fresh image.Software runtime (FE)0x 0000 Heartbeat failure Software events:- Critical, will cause the unit to reset.-Warning, then the event was unexpected, but will sort itself out. -Info, recording what happened in the LRU.(For software faults there is no reason to return box.)Temperature (FF) 0x 0001 KRFU main temperature sensor- If is a warning, it is for info only.- If it is critical the LRU will shut down functionally: suggest the LRU is not correctly installed or there can be a fault in the box generating the heat.TMA (03) Unknown (00) 0x 0001 Primary power interruptionInfo events - Recording what happened in the LRU.0x 0011 LRU menu access - maintenance0x 0012 LRU menu access - factory0x 0013 LRU menu access - engineering0x 0014 LRU SFTP access - maintenance0x 0015 LRU SFTP access - factory0x 0016 LRU SFTP access - engineering0x 0021 Log clearance LRU operational0x 0022 Log clearance LRU faultTable 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-6116 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.TMA (03) LNA (03) 0x 0001 LNA current Hardware faults and events:- Replace the TMA.NOTE: Before removing the Tail Mount Radome, Honeywell recommends manually steering the TMA through GUI to a safe antenna orientation position. The TMA parking position is included in the AES System Configuration File, which can be accessed through the GUI web interface and by navigating to Configuration File page. Consult aircraft specific SDIM for detailed instructions.Motor and sensors (04)0x 0001 AZ sensor detection0x 0002 EL INIT sensor detection0x 0003 EL LIMIT sensor detectionPosition control unit (05)0x 0001 DSP fault Hardware faults and events:- Replace the TMA.NOTE: Before removing the Tail Mount Radome, Honeywell recommends manually steering the TMA through GUI to a safe antenna orientation position. The TMA parking position is included in the AES System Configuration File, which can be accessed through the GUI web interface and by navigating to Configuration File page. Consult aircraft specific SDIM for detailed instructions.0x 0002 AZ motor current draw0x 0003 El motor current draw0x 0004 Initialization incompletePSU (06) 0x 0003 OMAP PWR 3.3V: Out-of Spec0x 0004 OMAP PWR 5V: Out-of Spec0x 0005 MOT PWR 12V: Out-of Spec0x 0006 LNA PWR 12V: Out-of SpecOperational information (FA)0x 0000 Mode transition Info events - Recording what happened in the LRU0x 0001 Parameter0x 0002 Event0x 000A Standard electronic information0x 000B Honeywell electronic information0x 000C Subassembly informationIP Security (FB) 0x 0000 IP Security event Use well defined port and IP AddressReset (FC) 0x 0000 Power cycle Info events - Recording what happened in the LRU0x 0001 Watchdog0x 0002 Software command0x 0003 Reset pinTable 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-6216 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.TMA (03) Software Configuration (FD)0x 0003 Configuration parameter missingReload the configuration data with the A615A data loading process.0x 0004 Primary image corruption warning- Reboot the LRU to load valid primary image and check if fault goes away. - If not, then a fresh data load of software is required to load the fresh image.0x 0005 No valid image Reload software with the A615A data loading process.0x 0006 TMA PRI-SEC image mismatch- Reboot the LRU to load valid primary image and check if fault goes away. - If not, then a fresh data load of software is required to load the fresh image.0x 0007 Data load Unit configuration events:- Critical, something needs to be done (reload software).- Warning, then the event was unexpected, but will sort itself out.- Info, recording what happened in the LRU.0x 0008 Data loader connect0x 0009 Data loader disconnect0x 000A Operating image list0x 000B Secondary image corruption warningA fresh data load of software is required to load the fresh image.Software runtime (FE)0x 0000 Heartbeat failure Software events:- Critical, will cause the unit to reset.-Warning, then the event was unexpected, but will sort itself out. -Info, recording what happened in the LRU.(For software faults, there is no reason to return box.)0x 0001 DSP task timeout0x 0002 ARM-DSP communication0x 0003 DSP task timeout0x 0004 ARM-DSP communication0x 0020thru0x 007FOther SW errorsTemperature (FF) 0x 0001 Motor driver circuit - If is a warning, it is for info only.- If it is critical, the LRU will shut down functionally: suggest the LRU is not correctly installed or there can be a fault in the box generating the heat.0x 0002 AmbientFMA (04) Unknown (00) 0x 0001 Enter shed load Info events - Recording what happened in the LRU.0x 0002 Exit shed load0x 0011 LRU menu access - maintenanceTable 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-6316 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.FMA (04) Unknown (00) 0x 0012 LRU menu access - factoryInfo events - Recording what happened in the LRU0x 0013 LRU menu access - engineering0x 0014 LRU SFTP access - maintenanceFMA (04) Unknown (00) 0x 0015 LRU SFTP access - factoryInfo events - Recording what happened in the LRU0x 0016 LRU SFTP access - engineering0x 0021 Log clearance LRU operational0x 0022 Log clearance LRU fault0x 0081 Azimuth home find fail Hardware faults and events:- Replace the FMA.0x 0082 Elevation home find failPosition Control Unit (05)0x 0001 DSP fault0x 0081 1.2V voltage0x 0082 1.5V voltage0x 0083 1.8V voltage0x 0084 3.3V voltage0x 0085 5V positive voltage0x 0086 1.2V current0x 0087 1.5V current 0x 0088 1.8V current0x 0089 3.3V current0x 008A 5V positive currentPSU (06) 0x 0003 PSU low power detected0x 0004 PSU low power not detected0x 0005 PSU LNA current eventMDU (0B) 0x 0001 1.25V voltage0x 0002 1.5V voltage0x 0003 3.3V voltageTable 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-6416 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.FMA (04) MDU (0B) 0x 0004 12V positive voltage Hardware faults and events:- Replace the FMA.0x 0005 12V negative voltage0x 0006 38.5V voltage0x 0007 1.5V current0x 0008 3.3V current0x 0009 12V positive current 0x 000A 12V negative current0x 000B Serial communications failure0x 000C Azimuth motor current 0x 000D Elevation motor current 0x 000E Serial communications failure0x 000F CCA initialization failed0x 0010 Azimuth axis low temperature high currentR2D (0C) 0x 0001 1.5V voltage0x 0002 3.3V voltage0x 0003 5V digital voltage0x 0004 5V positive voltage0x 0005 5V negative voltage0x 0006 12V positive voltage0x 0007 12V negative voltage0x 0008 1.5V current0x 0009 3.3V current0x 000A 12V positive current0x 000B 12V negative current0x 000F Serial communications failure0x 0010 CCA initialization failed0x 0011 Azimuth axis resolver reading error0x 0012 Elevation axis resolver reading errorTable 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-6516 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.FMA (04) Operational information (FA)0x 0000 Mode transition Info events - Recording what happened in the LRU0x 0001 Parameter0x 0002 Event0x 000A Standard electronic information0x 000B Honeywell electronic information0x 000C Subassembly informationIP security (FB) 0x 0000 IP security eventReset (FC) 0x 0000 Power cycle0x 0001 Watchdog0x 0002 Software command0x 0004 SW exceptionSoftware configuration (FD)0x 0001 HW SW Compatibility Reload compatible software with the A615A data loading process.0x 0002 LRU SW Compatibility0x 0003 Configuration parameter missingReload the configuration data with the A615A data loading process.0x 0004 Primary image corruption warning- Reboot the LRU to load valid primary image and check if fault goes away. - If not, then a fresh data load of software is required to load the fresh image.0x 0005 No Valid Image Reload software with the A615A data loading process.0x 0006 LRU PRI-SEC image mismatch- Reboot the LRU to load valid primary image and check if fault goes away. - If not, then a fresh data load of software is required to load the fresh image.0x 0007 Data load  Unit configuration events:- Critical, something needs to be done (reload software).- Warning, then the event was unexpected, but will sort itself out.- Info, recording what happened in the LRU.0x 0008 Data loader connect0x 0009 Data loader disconnect0x 000A Operating image list0x 000B Secondary image corruption warningA fresh data load of software is required to load the fresh image.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-6616 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.FMA (04) Software runtime (FE)0x 0000 Heartbeat failure Software events:- Critical, will cause the unit to reset.-Warning, then the event was unexpected, but will sort itself out. -Info, recording what happened in the LRU.(For software faults there is no reason to return box.)0x 0001 General module failure0x 0020 File system full0x 0021thru0x 007FOther SW errorsTemperature (FF) 0x 0001 PCU CCA - If is a warning, it is for info only.- If it is critical the LRU will shut down functionally: suggest the LRU is not correctly installed or there can be a fault in the box generating the heat.0x 0004 R2D CCA0x 0005 MDU CCA0x 0006 Azimuth Motor0x 0007 Elevation MotorAPM (05) Software configuration (FD)0x 0007 Data load  Info events - Recording what happened in the LRUOperational information (FA)0x 000A Standard electronic information0x 000B Honeywell electronic informationKANDU (06) Unknown (00) 0x 0000 Mute State0x 0001 Primary power interruption0x 0011 LRU menu access - maintenance0x 0012 LRU menu access - factory0x 0013 LRU menu access - engineering0x 0014 LRU SFTP access - maintenance0x 0015 LRU SFTP access - factory0x 0016 LRU SFTP access - engineering0x 0021 Log clearance LRU operational0x 0022 Log clearance LRU faultASC (01) 0x 0020 ASC 1.2 V: Out-of-spec Hardware faults and events:- Replace the KANDU.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-6716 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.KANDU (06) ASC (01) 0x 0021 ASC 1.5 V: Out-of-spec Hardware faults and events:- Replace the KANDU.0x 0022 ASC 1.8 V: Out-of-spec0x 0023 ASC 2.5 V: Out-of-spec0x 0024 ASC 3.3 V: Out-of-spec0x 0025 ASC 5.0 V: Out-of-spec0x 0026 ASC 12 V input: Out-of-spec0x 0027 ASC 1.2 V current: Out-of-spec0x 0028 ASC 1.5 V current: Out-of-spec0x 0029 ASC 1.8 V current: Out-of-spec0x 002A ASC 2.5 V current: Out-of-spec0x 002B ASC 3.3 V current: Out-of-spec0x 002C ASC 5 V current: Out-of-specPower supply unit (02)0x 0000 Power supply out of regulationASC (05) 0x 001A RAM faultASC BITE EMIFA (11)0x 0000 EMIFA unresponsive0x 0001 EMIFA incorrect data0x 0002 EMIFA OK0x 0003 EEPROM unresponsive0x 0004 EEPROM Incorrect Data0x 0005 EEPROM OKASC BITE A429 IRS (12)0x 0000 ARINC 429 IRS post unresponsive0x 0001 ARINC 429 IRS incorrect data0x 0002 ARINC 429 IRS post OKTable 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-6816 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.KANDU (06) ASC BITE A429 AUX (13)0x 0000 ARINC 429 AUX post unresponsiveHardware faults and events:- Replace the KANDU.0x 0001 ARINC 429 AUX incorrect data0x 0002 ARINC 429 AUX post OKASC BITE Ethernet switch (14)0x 0000 Ethernet MDIO unresponsiveHardware faults and events:- Replace the KANDU.0x 0001 Ethernet MDIO unexpected data0x 0002 Ethernet MDIO OKOperational information (FA)0x 0000 Mode Transition Info events - Recording what happened in the LRU.0x 0001 Parameter0x 0002 Event0x 000A Standard electronic information0x 000B Honeywell electronic information0x 000C Subassembly informationIP security (FB) 0x 0000 IP security event Use well defined port and IP AddressReset (FC) 0x 0001 Watchdog Info events - Recording what happened in the LRU.0x 0002 Software command0x 0004 SW exception0x 0005 Power cycle or reset pinSoftware configuration (FD)0x 0001 HW SW Compatibility Reload compatible software with the A615A data loading process.0x 0002 LRU SW Compatibility0x 0003 Configuration parameter missingReload the configuration data with the A615A data loading process.0x 0004 Primary image corruption warning- Reboot the LRU to load valid primary image and check if fault goes away. - If not, then a fresh data load of software is required to load the fresh image.0x 0005 No Valid Image Reload software with the A615A data loading process.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-6916 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.KANDU (06) Software configuration (FD)0x 0006 LRU PRI-SEC image mismatch- Reboot the LRU to load valid primary image and check if fault goes away. - If not, then a fresh data load of software is required to load the fresh image.Software configuration (FD)0x 0007 Data load  Unit configuration events:- If it is critical, something needs to be done (reload software).- If it is a warning, then the event was unexpected, but will sort itself out.- If it is info, recording what happened in the LRU.0x 0008 Data loader connect0x 0009 Data loader disconnect0x 000A Operating image list0x 000B Secondary image corruption warningA fresh data load of software is required to load the fresh image.0x 0080 No valid alignment data Reload the configuration data with the A615A data loading process.Software runtime (FE)0x 0000 Heartbeat failure Software events:- Critical, will cause the unit to reset.-Warning, then the event was unexpected, but will sort itself out. -Info, recording what happened in the LRU.(For software faults there is no reason to return box.)0x 0001 General module failure0x 0002 RSSI failure0x 0003 OPENAmip failure0x 0004 Pointing failure0x 0005 IMU failure0x 0020thru0x 007FOther SW errorsTemperature (FF) 0x 0001 ASC main temperature sensor- If is a warning, it is for info only.- If it is critical the LRU will shut down functionally: suggest the LRU is not correctly installed or there can be a fault in the box generating the heat.0x 0002 KANDU PSU remote temperatureModman KANDU Ethernet bus (20)Modman input (01)0x 0000 Ethernet no layer 1 Indicates nothing is connected:- Check wiring between boxes.- Check TX box is operating.- Check RX box is operating.0x 0001 Ethernet no traffic Is a warning that on traffic has been seen on the bus, but layer 1 is established so a physical link exists 0x 0002 Ethernet high packet lossThere is an intermittent wiring problem or hardware fault.0x 0003 Ethernet normal System is good.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-7016 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Modman KANDU Ethernet bus (20)KANDU input (02) 0x 0000 Ethernet no layer 1 Indicates nothing is connected:- Check wiring between boxes.- Check TX box is operating.- Check RX box is operating.0x 0001 Ethernet no traffic Is a warning that on traffic has been seen on the bus, but layer 1 is established so a physical link exists.0x 0002 Ethernet high packet lossThere is an intermittent wiring problem or hardware fault.0x 0003 Ethernet normal System is good.Modman APM Serial Bus (21)Modman input (01)0x 0001 APM serial inactive Is a warning that on traffic has been seen on the bus:- Far end is not talking.- Wiring problem.- Input problem.0x 0003 APM serial normal System is good.Modman Output: Discretes from Modman (24)Reset (01) 0x 0002 Input output mismatch Modman faultARINC TX Mute (02)0x 0002 Input output mismatch Modman fault0x 0003 Modman/KANDU input output mismatchModman/KRFU wiring faultFilter Select (03) 0x 0002 Input output mismatch Modman fault0x 0003 Modman/KANDU input output mismatchModman/KRFU wiring faultKeyline Transmit (04)0x 0002 Input output mismatch Modman faultBUC mute (04) 0x 0003 Modman/KANDU input output mismatchModman/KRFU wiring faultSystem available (05)0x 0002 Input output mismatch Modman faultData link available (06)0x 0002 Input output mismatch Modman faultKANDU OAE Ethernet Bus (30)KANDU input (01) 0x 0000 Ethernet no layer 1 Indicates nothing is connected:- Check wiring between boxes.- Check TX box is operating.- Check RX box is operating.0x 0001 Ethernet no traffic Is a warning that on traffic has been seen on the bus, but layer 1 is established so a physical link exists 0x 0002 Ethernet high packet lossThere is an intermittent wiring problem or hardware fault.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-7116 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.KANDU OAE Ethernet Bus (30)KANDU input (01) 0x 0003 Ethernet normal System is good.OAE input (02) 0x 0000 Ethernet no layer 1 Indicates nothing is connected:- Check wiring between boxes.- Check TX box is operating.- Check RX box is operating.0x 0001 Ethernet no traffic Is a warning that on traffic has been seen on the bus, but layer 1 is established so a physical link exists.0x 0002 Ethernet high packet lossThere is an intermittent wiring problem or hardware fault.0x 0003 Ethernet normal System is good.KANDU OAE Serial Control Bus (31)KANDU input (01) 0x 0001 Serial Inactive Is a warning that on traffic has been seen on the bus:- Far end is not talking.- Wiring problem.- Input problem.0x 0002 Serial High packet loss There is an intermittent wiring problem or hardware fault.0x 0003 Serial Normal System is good.OAE input (02) 0x 0001 Serial Inactive Is a warning that on traffic has been seen on the bus:- Far end is not talking.- Wiring problem.- Input problem.0x 0002 Serial High packet loss There is an intermittent wiring problem or hardware fault.0x 0003 Serial Normal System is good.KANDU OAE Serial IMU Bus (32)KANDU input (01) 0x 0001 Serial Inactive Is a warning that on traffic has been seen on the bus:- Far end is not talking.- Wiring problem.- Input problem.0x 0002 Serial High packet loss There is an intermittent wiring problem or hardware fault.0x 0003 Serial Normal System is good.OAE input (02) 0x 0001 Serial Inactive Is a warning that on traffic has been seen on the bus:- Far end is not talking.- Wiring problem.- Input problem.0x 0002 Serial High packet loss There is an intermittent wiring problem or hardware fault.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-7216 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.KANDU OAE Serial IMU Bus (32)OAE input (02) 0x 0003 Serial Normal System is good.KANDU KRFU Serial Bus (33)KANDU input (01) 0x 0001 Serial Inactive Is a warning that on traffic has been seen on the bus:- Far end is not talking.- Wiring problem.- Input problem.0x 0002 Serial High packet loss There is an intermittent wiring problem or hardware fault.0x 0003 Serial Normal System is good.KRFU input (02) 0x 0001 Serial Inactive Is a warning that no traffic has been seen on the bus:- Far end is not talking.- Wiring problem.- Input problem.0x 0002 Serial High packet loss There is an intermittent wiring problem or hardware fault.0x 0003 Serial Normal System is good.KANDU Input: Discretes from OAE (34)FMA transmit mute (01)0x 0001 Mute line not asserting at 180Check the FMA, FMA to KANDU wiring and the KANDU0x 0002 Mute line asserting at 0KANDU Input: Discretes from Modman (35)Reset (01) 0x 0000 Asserted System interconnect:Is a Debug aid to allow maintainer or installer to see inputs on various boxes on system interconnect.If not working correctly:- Check cables.- Check TX LRU.- Check RX LRU.0x 0001 De-assertedARINC TX mute (02)0x 0000 Asserted0x 0001 De-assertedFilter Select (03) 0x 0000 Asserted0x 0001 De-assertedTX Mute (04) 0x 0000 Asserted0x 0001 De-assertedKRFU Input Discrete from KANDU (41)Reset (01) 0x 0000 Asserted0x 0001 De-assertedKRFU TX mute (02)0x 0000 Asserted0x 0001 De-asserted0x 0003 KRFU not muted during system testTable 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-7316 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.KRFU Input Discrete from KANDU (41)Filter Select (03) 0x 0000 Asserted System interconnect:Is a Debug aid to allow maintainer or installer to see inputs on various boxes on system interconnect.If not working correctly:- Check cables.- Check TX LRU.- Check RX LRU.0x 0001 De-assertedIRU Input Bus (70)Unknown (00) 0x 0000 Inactive link Aircraft Interconnect.Means no labels on the bus:- Check wiring- Check source- Check KANDU and Modman.Pitch angle label (01)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-7416 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.IRU Input Bus (70)Roll angle label (02)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Pitch rate label (03)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-7516 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.IRU Input Bus (70)Pitch rate label (03)0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. Pitch rate label (03)0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Roll rate label (04) 0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-7616 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.IRU Input Bus (70)Roll rate label (04) 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Yaw rate label (05) 0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Body longitudinal acceleration (06)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-7716 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.IRU Input Bus (70)Body longitudinal acceleration (06)0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Body vertical acceleration (07)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-7816 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.IRU Input Bus (70)Body vertical acceleration (07)0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.True heading label (08)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-7916 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.IRU Input Bus (70)Body lateral acceleration (09)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Latitude label (11) 0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-8016 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.IRU Input Bus (70)Latitude label (11) 0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Longitude label (12)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-8116 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.IRU Input Bus (70)Longitude label (12)0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Altitude (13) 0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-8216 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Blank PageIRU Input Bus (70)Vertical velocity (14)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.N-S velocity (15) 0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-8316 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.IRU Input Bus (70)N-S velocity (15) 0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.E-W velocity (16) 0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-8416 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.IRU Input Bus (70)E-W velocity (16) 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Horizontal stabilization (21)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-8516 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.IRU Input Bus (70)Time label (31) 0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Date label (32) 0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-8616 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.IRU Input Bus (70)Date label (32) 0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Flight phase (41) 0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-8716 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.IRU Input Bus (70)Flight phase (41) 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.MLG ground condition (42)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.GNSS sensor status word (80)0x 0000 Self test mode Will be available in future revision0x 0001 Initialization mode0x 0002 Acquisition mode0x 0003 Navigational mode0x 0004 Attitude aiding modeTable 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-8816 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.IRU Input Bus (70)GNSS sensor status word (80)0x 0007 Fault Will be available in future revisionIRS discrete word (81)0x 0000 Align mode/Not ready0x 0001 Revisionary altitude mode0x 0002 Normal modeAircraft State Input Bus (71)Unknown (00) 0x 0000 Inactive link Aircraft Interconnect.Means we see no labels on the bus:- Check wiring- Check source- Check KANDU and Modman. Pitch angle label (01)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-8916 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Aircraft State Input Bus (71)Roll angle label (02)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Pitch rate label (03)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-9016 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Blank PageAircraft State Input Bus (71)Pitch rate label (03)0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Roll rate label (04) 0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-9116 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Aircraft State Input Bus (71)Roll rate label (04) 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Yaw rate label (05) 0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-9216 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Aircraft State Input Bus (71)Body longitudinal acceleration (06)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Body vertical acceleration (07)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-9316 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Aircraft State Input Bus (71)Body vertical acceleration (07)0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.True heading label (08)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-9416 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Aircraft State Input Bus (71)True heading label (08)0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Body lateral acceleration (09)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-9516 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Aircraft State Input Bus (71)Latitude label (11) 0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Longitude label (12)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-9616 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Aircraft State Input Bus (71)Longitude label (12)0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Altitude (13) 0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-9716 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Aircraft State Input Bus (71)Altitude (13) 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Vertical velocity (14)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-9816 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Aircraft State Input Bus (71)N-S velocity (15) 0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.E-W velocity (16) 0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-9916 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Aircraft State Input Bus (71)E-W velocity (16) 0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Horizontal stabilization (21)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-10016 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Aircraft State Input Bus (71)Horizontal stabilization (21)0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Time label (31) 0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-10116 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Aircraft State Input Bus (71)Date label (32) 0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.Flight phase (41) 0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-10216 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Aircraft State Input Bus (71)Flight phase (41) 0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.MLG ground condition (42)0x 0001 Missing Expected label is not there:- Make sure that the system configuration expects the correct label.- Check aircraft system is supplying the correct label on the bus.If fault is critical, the system will not work.If fault is a warning, the label is expected but not there, the system will continue to operate.0x 0002 SSM FT Expected label is in functional test:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. 0x 0003 SSM NCD Expected label is in no computed data:This is expected, but is recorded as a debug aid.If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate. Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-10316 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Aircraft State Input Bus (71)MLG ground condition (42)0x 0004 SSM FW Expected label is in failure warning:If a fault is critical, the system will not work.If the fault is a warning, the label is expected but not there, system will continue to operate.0x 0005 SSM NO Normal operation, system is good.GNSS sensor status word (80)0x 0000 Self test mode Will be available in future revision 0x 0001 Initialization mode 0x 0002 Acquisition mode0x 0003 Navigational (normal) mode0x 0004 Altitude aiding mode0x 0007 FaultModman Aircraft Discrete Input (72)WOW (06) 0x 0000 Asserted Aircraft interconnect:This is an aid to installation. Lets the installer and /or maintainer check the system to see the state of the lines coming into it.- If not tracking, -- Check the interconnect and what is driving it.-- Check the KANDU or Modman for error on input not working.0x 0001 De-assertedCell TX OK (07) 0x 0000 Asserted0x 0001 De-assertedGround transmit enable (08)0x 0000 Asserted0x 0001 De-assertedPublic Svr disable (09)0x 0000 Asserted0x 0001 De-assertedRemote manager (0A)0x 0000 Asserted0x 0001 De-assertedCooling available (0B)0x 0000 Asserted0x 0001 De-assertedLocal data load (0C)0x 0000 Asserted0x 0001 De-assertedKANDU Aircraft Discrete Input (73)TX control (0C)  0x 0000 Asserted Aircraft interconnect:This is an aid to installation. Lets the installer and /or maintainer check the system to see the state of the lines coming into it.- If not tracking, -- Check the interconnect and what is driving it.-- Check the KANDU or Modman for error on input not working.0x 0001 De-assertedTable 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-10416 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.AISD Network: Ethernet AG1 (80)Modman Input (01)0x 0000 Ethernet no layer 1 Indicates nothing is connected:- Check wiring between boxes.- Check TX box is operating.- Check RX box is operating.0x 0001 Ethernet no traffic Is a warning that on traffic has been seen on the bus, but layer 1 is established so a physical link exists.0x 0002 Ethernet high packet lossThere is an intermittent wiring problem or hardware fault.0x 0003 Ethernet normal System is good.AISD Network: Ethernet AV1 (81)Modman Input (01)0x 0000 Ethernet no layer 1 Indicates nothing is connected:- Check wiring between boxes.- Check TX box is operating.- Check RX box is operating.0x 0001 Ethernet no traffic Is a warning that on traffic has been seen on the bus, but layer 1 is established so a physical link exists.0x 0002 Ethernet high packet lossThere is an intermittent wiring problem or hardware fault.0x 0003 Ethernet normal System is good.AISD Network: Ethernet AV2 (82)Modman Input (01)0x 0000 Ethernet no layer 1 Indicates nothing is connected:- Check wiring between boxes.- Check TX box is operating.- Check RX box is operating.0x 0001 Ethernet no traffic Is a warning that on traffic has been seen on the bus, but layer 1 is established so a physical link exists.0x 0002 Ethernet high packet lossThere is an intermittent wiring problem or hardware fault.0x 0003 Ethernet normal System is good.AISD Network: Ethernet AV3 (83)Modman Input (01)0x 0000 Ethernet no layer 1 Indicates nothing is connected:- Check wiring between boxes.- Check TX box is operating.- Check RX box is operating.0x 0001 Ethernet no traffic Is a warning that on traffic has been seen on the bus, but layer 1 is established so a physical link exists.0x 0002 Ethernet high packet lossThere is an intermittent wiring problem or hardware fault.0x 0003 Ethernet normal System is good.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-10516 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.PIESD Network: Ethernet EG1 (88)Modman Input (01)0x 0000 Ethernet no layer 1 Indicates nothing is connected:- Check wiring between boxes.- Check TX box is operating.- Check RX box is operating.0x 0001 Ethernet no traffic Is a warning that on traffic has been seen on the bus, but layer 1 is established so a physical link exists.0x 0002 Ethernet high packet lossThere is an intermittent wiring problem or hardware fault.0x 0003 Ethernet normal System is good.PIESD Network: Ethernet EN5 (89)Modman Input (01)0x 0000 Ethernet no layer 1 Indicates nothing is connected:- Check wiring between boxes.- Check TX box is operating.- Check RX box is operating.0x 0001 Ethernet no traffic Is a warning that on traffic has been seen on the bus, but layer 1 is established so a physical link exists.0x 0002 Ethernet high packet lossThere is an intermittent wiring problem or hardware fault.0x 0003 Ethernet normal System is good.PIESD Network: Ethernet EN6 (8A)Modman Input (01)0x 0000 Ethernet no layer 1 Indicates nothing is connected:- Check wiring between boxes.- Check TX box is operating.- Check RX box is operating.0x 0001 Ethernet no traffic Is a warning that on traffic has been seen on the bus, but layer 1 is established so a physical link exists.0x 0002 Ethernet high packet lossThere is an intermittent wiring problem or hardware fault.0x 0003 Ethernet normal System is good.PIESD Network: Ethernet EN7 (8B)Modman Input (01)0x 0000 Ethernet no layer 1 Indicates nothing is connected:- Check wiring between boxes.- Check TX box is operating.- Check RX box is operating.0x 0001 Ethernet no traffic Is a warning that on traffic has been seen on the bus, but layer 1 is established so a physical link exists.0x 0002 Ethernet high packet lossThere is an intermittent wiring problem or hardware fault.0x 0003 Ethernet normal System is good.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-10616 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.PIESD Network: Ethernet EN8 (8C)Modman Input (01)0x 0000 Ethernet no layer 1 Indicates nothing is connected:- Check wiring between boxes.- Check TX box is operating.- Check RX box is operating.0x 0001 Ethernet no traffic Is a warning that on traffic has been seen on the bus, but layer 1 is established so a physical link exists.0x 0002 Ethernet high packet lossThere is an intermittent wiring problem or hardware fault.0x 0003 Ethernet normal System is good.PODD Network: Ethernet PG1 (90)Modman Input (01)0x 0000 Ethernet no layer 1 Indicates nothing is connected:- Check wiring between boxes.- Check TX box is operating.- Check RX box is operating.0x 0001 Ethernet no traffic Is a warning that on traffic has been seen on the bus, but layer 1 is established so a physical link exists.0x 0002 Ethernet high packet lossThere is an intermittent wiring problem or hardware fault.0x 0003 Ethernet normal System is good.PODD Network: Ethernet PA1 (91)Modman Input (01)0x 0000 Ethernet no layer 1 Indicates nothing is connected:- Check wiring between boxes.- Check TX box is operating.- Check RX box is operating.0x 0001 Ethernet no traffic Is a warning that on traffic has been seen on the bus, but layer 1 is established so a physical link exists.0x 0002 Ethernet high packet lossThere is an intermittent wiring problem or hardware fault.0x 0003 Ethernet normal System is good.PODD Network: Ethernet PA2 (92)Modman Input (01)0x 0000 Ethernet no layer 1 Indicates nothing is connected:- Check wiring between boxes.- Check TX box is operating.- Check RX box is operating.0x 0001 Ethernet no traffic Is a warning that on traffic has been seen on the bus, but layer 1 is established so a physical link exists.0x 0002 Ethernet high packet lossThere is an intermittent wiring problem or hardware fault.0x 0003 Ethernet normal System is good.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-10716 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.14. SNMPRefer to APPENDIX B on page B-1 for MIB and SNMP information and instructions.PODD Network: Ethernet PA3 (93)Modman Input (01)0x 0000 Ethernet no layer 1 Indicates nothing is connected:- Check wiring between boxes.- Check TX box is operating.- Check RX box is operating.0x 0001 Ethernet no traffic Is a warning that on traffic has been seen on the bus, but layer 1 is established so a physical link exists.0x 0002 Ethernet high packet lossThere is an intermittent wiring problem or hardware fault.0x 0003 Ethernet normal System is good.PODD Network: Ethernet PA4 (94)Modman Input (01)0x 0000 Ethernet no layer 1 Indicates nothing is connected:- Check wiring between boxes.- Check TX box is operating.- Check RX box is operating.0x 0001 Ethernet no traffic Is a warning that on traffic has been seen on the bus, but layer 1 is established so a physical link exists.0x 0002 Ethernet high packet lossThere is an intermittent wiring problem or hardware fault.0x 0003 Ethernet normal System is good.RF TX Modman to KRFU (B0)Unknown (00) 0x 0001 TX IF Check the interconnecting RF connection between the Modman and KRFU LRUs.0x 0002 50 MHz RefRF TX KRFU to OAE (B1)Unknown (00) 0x 0001 TX Ka Band Check the interconnecting RF connection between the KRFU and OAE LRUs.RF RX (B2) Unknown (00) 0x 0001 RX cabling Check the interconnecting RF connection between the effected LRUs.Table 3-20.  L3 Codes (Cont)L1 L2 L3 Code L3 Description Repair Action
Page 3-10816 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.© Honeywell International Inc. Do not copy without express permission of Honeywell.© Honeywell International Inc. Do not copy without express permission of Honeywell.Blank Page
Page A-116 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.APPENDIX A1. RTCA/DO-160G Environmental CharacteristicsA. ModmanSection Condition Category4 Temperature and altitude A1(V)NOTE: Below 5˚F (-15˚C), user services are not offered. Altitude test extended to 50,000 feet (15,240 m). Overpressure 28.9 PSI (199 kPa), Decompression 6,000 to 55,000 (1828.8 to 16,764 m) in 2 seconds.5 Temperature variation B6 Humidity B7 Operational shocks and crash safety B8 Vibration CAT S, CURVE B29 Explosive atmosphere X - not required10 Waterproofness Y 11 Fluids specification X - not required12 Sand and dust X - not required13 Fungus resistance F14 Salt fog X - not required15 Magnetic effect A16 Power input A (WF) HLPINOTE: Extended low frequency operation to 320 Hz.17 Voltage spike ANOTE: Extended to 1,000 volts.18 Audio frequency conducted susceptibility KNOTE: Amplitude of applied signal to be 10% of nominal AC voltage.19 Induced signal susceptibility ZWNOTE: Extended low frequency operations to 320 Hz.
Page A-216 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.20 Radio frequency susceptibility RR (custom)NOTE: Radiated: Additional subjectionsSW: 0.4 to 8 GHz: 28 V/m (1 kHz square mod with greater than 90% depth switched on and off at 1 Hz rate and 50% duty cycle).PM: 0.4 to 8 GHz: 150 V/m (Pulse repetition frequency of 1 kHz and a duty cycle of 1%, switched on and off at 1 Hz rate and 50% duty cycle). Pulse width is 10 µsec (1% of 1 kHz).PM: 0.3 to 6 GHz: 20 V/m, (Pulse repetition frequency of 200 Hz and a duty cycle of 12.5%). Pulse width is 625 μsec (12.5% of 200Hz).21 Emissions of RF energy M22 Lightning induced transient susceptibility A2K2L3NOTE: Modified to extend single stroke to waveform 3 level 3 and multi-stroke to waveform 4 level 2.23 Lightning direct effects X - not required24 Icing X - not required25 Electrostatic discharge A26 Fire, flammability C - covers 14 CFR 25.853Section Condition Category
Page A-316 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.B. APMSection Condition Category4 Temperature and altitude A1(V)NOTE: Altitude test extended to 50,000 feet (15,240 m). Overpressure 28.9 PSI (199 kPa), Decompression 6,000 to 55,000 (1828.8 to 16,764 m) in 2 seconds.5 Temperature variation B6 Humidity B7 Operational shocks and crash safety B8 Vibration CAT S, CURVE B29 Explosive atmosphere  X - not required10 Waterproofness Y11 Fluid susceptibility X - not required12 Sand and dust X - not required13 Fungus resistance F14 Salt fog X - not required15 Magnetic effect A16 Power input X - not required17 Voltage spike X - not required18 Audio frequency conducted susceptibility X - not required19 Induced signal susceptibility ZC20 Radio frequency susceptibility RR21 Emissions of RF energy M22 Lightning induced transient susceptibility A2K2L3NOTE: Modified to extend single stroke to waveform 3 level 3 and multi-stroke to waveform 4 level 2.23 Lightning direct effects X - not required24 Icing X - not required25 Electrostatic discharge A26 Fire, flammability C - covers 14 CFR 25
Page A-416 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.C. KANDUSection Condition Category4 Temperature and altitude D2NOTE: Altitude test extended to 51,000 feet (15,544.8 m). Overpressure 28.9 PSI (199 kPa), Decompression 6,000 to 55,000 (1,828.8 to 16,764.0 m).5 Temperature variation A6 Humidity B7 Operational shocks and crash safety E and B8 Vibration CAT R, CURVE ECAT R, CURVE E1NOTE: The sinusoidal sweep rate not to exceed 0.5 octaves/minute.9 Explosive atmosphere E10 Waterproofness Y and R11 Fluid susceptibility F NOTE: De-ice Ethylene Glycol, Hydraulic fluid phosphate ester AS1241 Type IV and V.12 Sand and dust D13 Fungus resistance F14 Salt fog S15 Magnetic effect Z16 Power input A (WF) HZPINOTE: Extended low frequency operation to 320 Hz.NOTE: Power factor – leading greater than 0.98.17 Voltage spike A (modified to 1,000 volts)18 Audio frequency conducted susceptibility K (WF)NOTE: RMS amplitude of the audio signal extended to not less than 10% of the maximum normal AC input voltage and with a power source frequency of 320 Hz in addition to 360 Hz and 800 Hz.19 Induced signal susceptibility CWNOTE: Extended low frequency operation to 320 Hz.NOTE: With current and distance modified to 50 A at a distance of 0.4 inch (10 mm) for section 19.3.1.
Page A-516 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.20 Radio frequency susceptibility RYNOTE:- 0.4 to 8 GHz: 150 V/m (Pulse repetition frequency of 1 kHz and a duty cycle of 1%, switched on and off at a 1 Hz rate and 50% duty cycle). Pulse width is 10 μsec (1% of 1 kHz).- 0.3 to 6 GHz: 20 V, (Pulse repetition frequency of 200 Hz and a duty cycle of 12.5%). Pulse width is 625 μsec (12.5% of 200 Hz).21 Emissions of RF energy QNOTE: Extension of conducted emissions limits to 200 MHz at 20 dBμA and power line limits from 30 MHz to 108 MHz at 20 dBμA.Extension of radiated emissions to start at 45 dBμV/m at 150 kHz to 40 dBμV/m at 2 MHz, and at 30 dBμV/m at 2 MHz to 25 dBμV/m at 25 MHz, and at 25 dBμV/m at 25 MHz to 26.3 dBμV/m at 30 MHz, and at 36.3 dBμV/m at 30 MHz to 44.5 dBμV/m at 100 MHz.All conducted emissions limits, including interconnecting bundles limits, are set in accordance with Category Q power line limit levels.22 Lightning induced transient susceptibility A3K3L3NOTE: Extended to include pin injection waveform 5A level 2.23 Lightning direct effects X - not required24 Icing A25 Electrostatic discharge A26 Fire, flammability C - covers 14 CFR 25.853Section Condition Category
Page A-616 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.D. KRFUSection Condition Category4 Temperature and altitude D2NOTE: Altitude test extended to 51,000 feet (15,544.8 m). Overpressure 28.9 PSI (199 kPa), Decompression 6,000 to 55,000 (1,828.8 to 16,764.0 m).5 Temperature variation A6 Humidity BNOTE: At least six spot checks required.7 Operational shocks and crash safety E and B8 Vibration CAT R, CURVE ECAT R, CURVE E1NOTE: The sinusoidal sweep rate not to exceed 0.5 octaves/minute.9 Explosive atmosphere E10 Waterproofness Y and R11 Fluid susceptibility F NOTE: Ethylene Glycol, Propylene Glycol, AEA Type 1, AEA Type 2.12 Sand and dust D13 Fungus resistance F14 Salt fog S15 Magnetic effect Z16 Power input A (WF) HZPINOTE: Extended low frequency operation to 320 Hz.NOTE: Power Factor – leading greater than 0.98.17 Voltage spike A (modified to 1,000 volts)18 Audio frequency conducted susceptibility K (WF)NOTE: RMS amplitude of the audio signal extended to not less than 10% of the maximum normal AC input voltage and with a power source frequency of 320 Hz in addition to 360 Hz and 800 Hz.19 Induced signal susceptibility CWNOTE: Extended low frequency operation to 320 Hz.NOTE: Section 19.3.1 performed with 50 A at a distance of 0.4 inch (10 mm).
Page A-716 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.20 Radio frequency susceptibility MYNOTEL:- 0.4 to 8 GHz: 150 V/m (Pulse repetition frequency of 1 kHz and a duty cycle of 1%, switched on and off at a 1 Hz rate and 50% duty cycle). Pulse width is 10 μsec (1% of 1 kHz).- 0.3 to 6 GHz: 20 V/m, (Pulse repetition frequency of 200 Hz and a duty cycle of 12.5%). Pulse width is 625 μsec (12.5% of 200 Hz).21 Emissions of RF energy PNOTE:Extension of conducted emissions limits to 200 MHz at 20 dBμA and power line limits from 30MHz to 108MHz at 20 dBμA.Extension of radiated emissions to start at 45 dBμV/m at 150 kHz to 40 dBμV/m at 2 MHz, and at 30 dBμV/m at 2 MHz to 25 dBμV/m at 25 MHz, and at 25 dBμV/m at 25 MHz to 26.3 dBμV/m at 30 MHz, and at 36.3 dBμV/m at 30 MHz to 44.5 dBμV/m at 100 MHz.22 Lightning induced transient susceptibility A3K3L3NOTE: Extended to include pin injection waveform 5A level 2.23 Lightning direct effects X - not required24 Icing A25 Electrostatic discharge A26 Fire, flammability C - covers 14 CFR 25.853Section Condition Category
Page A-816 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.E. TMASection Condition Category4 Temperature and altitude F25 Temperature variation A6 Humidity B7 Operational shocks and crash safety E8 Vibration CAT R, CURVE ECAT R, CURVE E19 Explosive atmosphere E and H10 Waterproofness Y and W11 Fluid susceptibility F (de-icing fluids)NOTE: Ethylene Glycol.12 Sand and dust D13 Fungus resistance F14 Salt fog S15 Magnetic effect A16 Power input X - not required17 Voltage spike ANOTE: Do DO-160G/17.0 on TMA with the KANDU attached as the UUT. The length of test cable between TMA and KANDU shall be 40 ft (12 m).18 Audio frequency conducted susceptibility RNOTE: A. Frequency range from 324 Hz to 650 Hz.B. Do DO-160G/18.0 on TMA with the KANDU attached as the UUT. The length of test cable between TMA and KANDU shall be 40 ft (12 m).19 Induced signal susceptibility ZC20 Radio frequency susceptibility YQ (custom)NOTE: Q (custom) only - SW/CW (un-modulated) signal Operational:200V/m for 100 MHz to 12 GHz0.1 V/m 12 GHz to 16.6 GHzNo damage:200V/m for 12 GHz to 16.6 GHz0.1 V/m for 16.6 GHz to 18 GHz21 Emissions of RF energy H
Page A-916 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.22 Lightning induced transient susceptibility A3K3L3 modifiedNOTE: Pin Injection waveform 5A level 2. Single stroke WF 4, level 3 (extended to 300V/1000A), Multi-stroke WF4 level 3 (extended to 120V/400A 1st stroke, 75V/150A subsequent strokes), Extend WF5A level 3 (extended 120V/400A 1st stroke, 75V/150A subsequent strokes).23 Lightning direct effects X - not required24 Icing B25 Electrostatic discharge A26 Fire, flammability C - covers 4 CFR 25.853Section Condition Category
Page A-1016 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.F. FMASection Condition Category4 Temperature and altitude F2NOTE: Extended operating high to 194˚F(90˚C).5 Temperature variation A6 Humidity BNOTE: At least six spot checks are required.7 Operational shocks and crash safety B and E8 Vibration CAT S, CURVE CCAT R, CURVE C1NOTE: The sinusoidal sweep rate not to exceed 0.5 octaves/minute9 Explosive atmosphere E10 Waterproofness Y and W11 Fluid susceptibility - De-ice fluids only F12 Sand and dust D13 Fungus resistance F14 Salt fog S15 Magnetic effect B16 Power input X - not required17 Voltage spike X - not required18 Audio frequency conducted susceptibility X - not required19 Induced signal susceptibility ZC20 Radio frequency susceptibility YQNOTE: Q (custom) only - SW/CW (un-modulated) signal Operational:200V/m for 100 MHz to 12 GHz0.1 V/m 12 GHz to 16.6 GHzNo damage:200V/m for 12 GHz to 16.6 GHz0.1 V/m for 16.6 GHz to 18 GHz
Page A-1116 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.21 Emissions of RF energy HNOTE:Extension of conducted emissions limits to 200 MHz at 20 dBμA and power line limits from 30MHz to 152MHz at 20 dBμA.All conducted emissions limits, including interconnecting bundles limits, are set in accordance with Category H power line limit levels.Radiated emissions to start at 40 dBμV/m at 2 MHz to 35 dBμV/m at 25 MHz, and at 35 dBμV/m at 25 MHz to 44.6 dBμV/m at 100 MHz22 Lightning induced transient susceptibility A3K3L3NOTE: Pin Injection waveform 5A level 125V/125A and 400V/4A. Single stroke WF 4, level 3 (extended to 300V/1000A), Multi-stroke WF4 level 3 (extended to 120V/400A 1st stroke, 60V/120A subsequent strokes).23 Lightning direct effects X - not required24 Icing B25 Electrostatic discharge A26 Fire, flammability C - covers 14 CFR 25.853Section Condition Category
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Page B-116 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.APPENDIX B1. MIB ObjectsA. MIB Structure(1) SNMP applications can monitor the MIB objects. The Modman implements the Honeywell engineering SNMP MIB with OIDs as shown in Figure B-1.Figure B-1.  MIB Object Structure(2) The Honeywell engineering SNMP service provides information to the external entity covering two areas of concern, link/service status and maintenance/BITE status. The data is provided through the SERVICE MIB and MAINTENANCE MIB. (3) Access to the branches on the MIB is controlled by having four levels of user access that range from the lowest of “User” to ‘“Maintenance” followed by “Factory” and to the highest level of “Engineering”. The “User” level is not password protected but the other levels require a password to access the services. To access the User or Maintenance levels do as follows:• Access the user interface with Username: "User" and no password.• Access maintenance interface with Username: "Maintenance" and Password: "Earthbound".
Page B-216 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.B. Detailed MIB Definition(1) Object TypesThis section describes all the special object types in individual sections and tables, which are not defined in the SNMP and MIB standard.(a) Link Status Type Definician The SNMP Type HonAkSatLinkState reports the network link state and link state of the terminal. It is an enumerated integer value with the structure shown in Table B-1. Table B-1.  Link Status Related Object  (b) Temporary Service Unavailable Reason Type DefinitionThe temporary service unavailable reason will be reflected by the type honAkServUnavailReason. It is an enumerated integer value with the structure shown in Table B-2.Table B-2.  Temporary Service Enumeration TypesSNMP Type Number DescriptioninNetwork 1 In network (service is available)inAcquisition 2 In acquisition mode (modem state transition)waitingForAcquisition 3 Waiting for acquisition (modem state transition)Detected 4 Link detected (modem state transition)waiting For Rx Lock 5 Waiting for RX lock (modem state transition)rxOnly 6 RX only (modem state transition)wrongNetwork 7 Wrong Network accessedUnavailable 8 Link status unavailableFault 9 AES is in critical fault modenotActive 10 Modem not active yetuserServiceDisabledRegulatoryLogs 11 User service is disabled due to failure to upload regulatory logs – System will be active only to try and upload the logsserviceDisabled 12 Service is disabled – see AKMuteStateReasonSNMP Type Number Descriptionundefined (1) 1 Default state startingUp (2) 2 System is in Boot state or communication has not established between LRUsshortWithSelfRecovery (3) 3 Service unavailable as Cabin attempt to hold services due to RF blockage, Handover, power interruptions blockageZone (4) 4Blockage Zoneindefinite (5) 5Service unavailable as Crew Muted using TX Control discreteonGroundMute(6)6If landing Terminate any existing services on JetWave™, choose an alternative path while on ground, monitor for state change, If takeoff, services were never set upgeographicRestrictions (7) 7Service restricted because of Geographical constraints.noLineOfSight(8) 8 Link loss due to antenna in key hole situation, insufficient elevation to the satellite or any other equivalent
Page B-316 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(c) Health Status Type definitionThe SNMP type HonAkHealthStatus report the health status of the AES. It is an enumerated integer value with the structure as shown in Table B-3.Table B-3.  Health Status Enumeration Type(d) Thermal State DefinitianThe SNMP Type HonAkThermalState reports the thermal status of the Modman. It is an enumerated integer value with the structure as shown in Table B-4.Table B-4.  Thermal State Enumeration Type(e) Discrete Input State Type DefinitionThe SNMP type HonAkDiscreteInputState reports the value of the input discrete. It is an enumerated integer value with the structure as shown in Table B-5.Table B-5.  Discrete Input State Enumeration Type  (f) Discrete Output State Type definitionThe SNMP type HonAkDiscreteOutputState reports the value of the output discrete. It is an enumerated integer value with the structure as shown in Table B-6.Table B-6.  Discrete Output State Enumeration TypeSNMP Type Number Descriptionnormal 1The item is OKwarning 2 The item is in WARNINGfailed 3The item has FAILEDUnavailable 4 LRU only, not AES: The LRU health state is not availableSNMP Type Number Descriptionnormal 1The unit is functioning within its normal operating temperature rangewarning 2 The unit is functioning but outside of its normal operating temperature rangecritical 3 The unit is critical and may be in shutdown due to operating outside of its normal operating temperature rangeSNMP Type Number DescriptionGround 1 Discrete is in the ground state – requirement text indicates what ground state means for a particular discrete.Open 2 Discrete is in the open state.SNMP Type Number Descriptionground 1 Discrete is in the ground state open 2 Discrete is in the open state.Fail 3 Failed to set output discrete
Page B-416 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(g) Tenths Unsigned32 Type definitionThe SNMP type HonAkTenthsUnsigned32 cause an Unsigned32 that expresses something in tenths to be displayed in a floating point way.• For example, consider the case where an object that uses this TC and contains a value of '1234'. This object would be displayed as '123.4'.(h) Tenths Integer32 Type definitionThe SNMP type HonAkTenthsInteger32 cause an Integer32 that expresses something in tenths to be displayed in a floating point way.• For example, consider the case where an object that uses this TC and contains a value of '-1234'.  This object would be displayed as '-123.4'.(i) IRS Status definitionThe SNMP honAkIrsStatus reports the IRS status. It is an enumerated integer value with the structure as shown in Table B-7.Table B-7.  IRS Status Enumeration Type (j) Mute Reason Type definitionThe SNMP honAkTxMutedReason report the reason the terminal has self muted. It is an enumerated integer value with the structure as shown in Table B-8.Table B-8.  Mute Reason Enumeration TypeSNMP Type Number Descriptionok 1 IRS is active and OKIRS Aligning 2 IRS is in alignmentIRS Inactive 3 IRS is not active and not reporting dataIRS Fail 4 IRS has indicated failureSNMP Type Number DescriptionnotMuted(1) 1 Not muted, transmittingskewAngle(2) 2 Muted because skew angle exceeds regulatory limitsnotLocked(3) 3 Not lockednotPointing(4) 4 Not currently pointedstructureBlockage(5) 5 Aircraft structure blockageonGround(6) 6 On-groundfault(7) 7 FaultnotReady(8) 8 Not Ready for operation, booting etcgeoRestriction(9) 9 Service is disabled due to Geographic position inside a restricted region
Page B-516 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(k) Satellite Handover Type definitionThe SNMP honAkSatHandoverPending reports the satellite handover state. It is an enumerated integer value with the structure as shown in Table B-9.Table B-9.  Satellite Handover Enumeration Type(l) Transmission State on Ground Type DefinitionThe SNMP honAkServTxOnGround report if transmission on the ground is allowed. It is enabled by discrete input. It is an enumerated integer value with the structure as shown in Table B-10.Table B-10.  Transmission State on Ground Enumeration Type(m)  Port link status Type definitionThe SNMP honAkPortInfoOperStatus indicates the current link status of the port. That is, whether the port is currently passing data in either direction within a 10 second trailing window. It is an enumerated integer value with the structure as shown in Table B-11.Table B-11.  Port Link Status Enumeration Types(2) MIB Object Under Mandatory BranchesThis section contains various branches detailing what is in each branch and the parameters /meanings.(a) MIB Version Related Objects The .honAkVersion (1) folder contains only one object .honAkEngMibVer as shown in the detail below:(b) Service Related objectsThe .honAkService (2) folder contains all service relevant information and some configurable parameters that can be set by a client application as follows:1Link Status Related Sub BranchSNMP Type Number Descriptionyes 1 Satellite Handover is pending.no 2 Satellite Handover is not pendingunavailable 3 Satellite Handover information not availableSNMP Type Number DescriptiontxAllowed 1RF Transmission is allowed on the groundtxInhibited 2 RF Transmission is not allowed on the groundSNMP Type Number Descriptionactive 1Port Link Status is activeinactive 2 Port Link Status is not activeObject Identifier Type Range Description.honAkEngMibVer (1) Unsigned32 This object defines the version number of this MIB
Page B-616 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.The .honAkLinkStatus (1) folder contains object as shown in the details below:2System Related Sub BranchThe .honAkSystem (2) folder contains objects as shown in the details below:3Service Notification configuration Related Sub BranchThe .honAkServTrapsConfig (3) folder contains objects as shown details below:(c) Maintenance Related objectsThe .honAkMaintenance (3) folder contains all maintenance relevant information including system health status, interface status, link status, equipment information and some configurable parameters that can be set by a client application.1Operation Status Related Sub BranchThe .honAkInstallAndCalibration (1) folder contains objects as shown in the detail below:2System Health Related Sub BranchThe .honAkSystemHealth (2) folder contains objects as shown in the details below:Object Identifier Type Range Description.honAkServSatLinkState (1) HonAkSatLinkStateThis object shows the state of the satellite link. .honAkServTxOnGround (2) honAkServTxOnGroundThis object indicates whether RF Transmission is allowed on Ground or not. Object Identifier Type Range Description.honAkServSysManufacture (1) DisplayString 0..32 ASCII String with up to 32 characters to reports the name of the system manufacture..honAkServUnavailReason (2) honAkServUnavailReasonThe reason the Internet service is not available. Object Identifier Type Range Description.honAkServTrapsDestIpAddr (1) IpAddress The destination IP Address for Service traps. If the value of the object is 0.0.0.0, the trap will not be sent..honAkServTrapsDestPort (2) Unsigned32  0..65535 The destination port number for Service traps. Default on reset 162.Object Identifier Type Range Description. honAkInstallNoOae (1) TruthValue Default on reset is False, True means operation without an OAE operation is allowedObject Identifier Type Range Description.honAkAesHealthStatus(1) HonAkHealthStatus This object reports the health status of the AES. It is an enumerated integer. Normal during initialization.
Page B-716 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell..honAkModmanHealthStatus(2) HonAkHealthStatus This object reports the health status of Modman. Normal during initialization..honAkKanduHealthStatus(3) HonAkHealthStatus The health status of the KANDU. Unavailable is to be reported when the KANDU is not in communication with the Modman.honAkKrfuHealthStatus(4) HonAkHealthStatus The health status of the KRFU. Unavailable is to be reported when the KRFU is not in communication with the Modman.honAkOaeHealthStatus(5) HonAkHealthStatus The health status of the OAE. Unavailable is to be reported when the OAE is not in communication with the Modman.honAkApmHealthStatus(6) HonAkHealthStatus The health status of the APM. .honAkAesFailureCode(7) DisplayString Last system failure code. The failure code is a 12-digit hexadecimal number. When there is no fault, all Octets will be set to zero..honAkAesFailureText(8) DisplayString A textual description of the last system failure code.honAkModmanToKanduEthernet(9) TruthValue Report Modman to Kandu Ethernet status. True = Okay/Not Available, False = Failed.honAkModmanToKanduTxFilterSelectRs422(10) TruthValue The Modman to KANDU transmit filter select RS422 state. True = Okay/Not Available, False = Failed.honAkModmanToKanduTxKeylineRs422(11) TruthValue The Modman to KANDU transmit keyline RS422 state. True = Okay/Not Available, False = Failed.honAkKanduToKrfuRs422(12) TruthValue The KANDU to KRFU RS422 serial data state. True = Okay/Not Available, False = Failed.honAkKrfuToKanduRs422(13) TruthValue The KRFU to KANDU RS422 serial data state. True = Okay/Not Available, False = Failed.honAkKanduToFmaEthernet(14) TruthValue The KANDU to FMA Ethernet data state. True = Okay/Not Available, False = Failed.honAkKanduToOaeRs422(15) TruthValue The KANDU to OAE RS422 serial data state. True = Okay/Not Available, False = Failed.honAkOaeToKanduRs422(16) TruthValue The OAE to KANDU RS422 serial data state. True = Okay/Not Available, False = Failed.honAkKanduToOaeImuRs422(17) TruthValue The KANDU to OAE IMU RS422 serial data state. True = Okay/Not Available, False = Failed.honAkOaeImuToKanduRs422(18) TruthValue The OAE IMU to KANDU RS422 serial data state. True = Okay/Not Available, False = Failed
Page B-816 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.3In Service Related Sub BranchThe .honAkInService (3) folder contains objects to supports in-service status and statistics for the maintenance branch of the MIB as shown in the below details:.honAkModmanToKrfuRfLink(19) TruthValue The Modman to KRFU RF link state. True = Okay/Not Available, False = Failed.honAkKrfuToModmanRfLink(20) TruthValue The KRFU to Modman RF link state. True = Okay/Not Available, False = Failed.honAkOaeToKrfuRfLink(21) TruthValue The OAE RF Link to KRFU state. True = Okay/Not Available, False = Failed.honAkApmToModman(22) TruthValue The APM to Modman serial data state. True = Okay/Not Available, False = Failed.honAkIrsStatus(23) honAkIrsStatus This object reports the IRS status. IRS inactive is to be reported if the KANDU is not in communication with the Modman and it is the IRS source..honAkAesReset(24) TruthValue Write = True cause a system reset, a write = False causes no action. A read always returns false and perform no Action..honAkModmanThermalState(25) HonAkThermalStatethe thermal state of the Modman.honAkKanduThermalState(26) HonAkThermalStatethe thermal state of the KANDU.honAkKrfuThermalState(27) HonAkThermalStatethe thermal state of the KRFU.honAkOaeThermalState(28) HonAkThermalStatethe thermal state of the OAEObject Identifier Type Range Description.honAkMaintSatLinkState(1) HonAkSatLinkState The state of the satellite link.honAkTxMuted(2) TruthValue Whether or not the terminal has muted the satellite transmission. True = muted, False = may be transmitting.honAkTxMutedReason(3) honAkTxMutedReason Reason for muting the satellite transmission.honAkSatHandoverPending(4) honAkSatHandoverPendingwhether a satellite handover is expected shortly.honAkLinkStartTime(5) DateAndTime RFC2759 Time at which the current satellite was established, or 1/1/1970 after a reset or if the link is not active.honAkLinkEndTime(6) DateAndTime RFC2759 Time at which the satellite link was closed. After a reset and before a satellite has been established, the value will equate to 1/1/1970.
Page B-916 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell..honAkLinkTxCount(7) Unsigned32 The total number of kilobytes transmitted over the currently active satellite link. This object is reset to zero when the satellite link is closed.honAkLinkRxCount(8) Unsigned32 The total number of kilobytes received over the currently active satellite link.honAkLinkSignalQuality(9) HonAkTenthsUnsigned32 The carrier to noise signal quality in tenths of a db/Hz. zero if no signal is being received.honAkLinkSignalLevel(10) HonAkTenthsInteger32 The Signal level of the satellite link in tenths of a dBm. zero if no downlink carrier is being received.honAkLinkEbNoSignalQuality(11) HonAkTenthsUnsigned32 Calculated satellite link EB/No signal quality in tenths of a dB.honAkTxCtrlState(12) HonAkDiscreteInputState whether or not satellite transmission control analogue input to KANDU is enabled.honAkWowState(13) HonAkDiscreteInputState whether or not there is weight on wheels.honAkCellularTxState(14) HonAkDiscreteInputState Indicates whether or not cellular transmission is enabled.honAkGroundTxState(15) HonAkDiscreteInputState whether or not satellite transmission is allowed while on the aircraft is ground.honAkPublicServState(16) HonAkDiscreteInputState whether or not Public Service is enabled.honAkCoolingSysAvailState(17) HonAkDiscreteInputState whether or not aircraft cooling availability is enabled.honAkRemoteMgrState(18) HonAkDiscreteInputState whether or not remote management is enabled.honAkLocalDataLoadState(19) HonAkDiscreteInputState whether or not local data loading is enabled.honAkFactoryBenchModeState(20) HonAkDiscreteInputState whether or not Factory/Bench Mode is enabled.honAkArincTxMuteState(21) HonAkDiscreteOutputState whether or not the ARINC transmission is muted.honAkSysAvailState(22) HonAkDiscreteOutputState status of system availability.honAkDataLinkAvailState(23) HonAkDiscreteOutputState status of the data link.honAkAircraftLatitude(24) Integer32 -999999 | -324000..324000The latitude position of the aircraft in arc seconds. -999,999 indicates that the data is not available.honAkAircraftLongitude(25) Integer32 -999999 | -647999..648000The longitude position of the aircraft in arc seconds. -999,999 indicates that the data is not available..honAkAircraftAltitude(26) Integer32 -999999 | -10000..100000The altitude of the aircraft in feet.honAkAircraftRollAngle(27) HonAkTenthsInteger32 -999999 | -900..900The roll angle of the aircraft in tenths of a degree.honAkAircraftPitchAngle(28) HonAkTenthsInteger32 -999999 | -900..900The pitch angle of the aircraft in tenths of a degree.honAkAircraftTrueHeading(29) HonAkTenthsUnsigned32 0..3599 | 9999The true heading of the aircraft in tenths of a degree. 9,999 indicates that the data is not available
Page B-1016 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.4System Configuration Related Sub BranchThe .honAkSystemConfiguration (4) folder contains objects to supports the system configuration for the maintenance branch of the MIB as shown in the below details:.honAkAircraftOnGround(30) TruthValue Indicates whether or not the aircraft is on the ground.honAkAircraftGroundSpeed(31) Unsigned32 0..1500 | 9999Reports the ground speed of the aircraft. The range of the object is from 0 to 1,500 knots. 9,999 indicates that the data is not availableObject Identifier Type Range Description.honAkModmanLruName(1) DisplayString 0..32 ASCII String with up to 32 characters to show the Modman LRU name. Empty if no Standard Electronic Information is stored in the Modman..honAkModmanOemHwPn(2) DisplayString 0..32 ASCII String with up to 32 characters to show Modman OEM hardware part number..honAkModmanSn(3) DisplayString 0..32 ASCII String with up to 32 characters to show Modman serial number..honAkModmanSwPnSwValid(4) DisplayString 0..32 ASCII String with up to 32 characters to show Modman software part number and software validity..honAkModmanSwSubpartVer(5) DisplayString 0..255 The Modman software sub part version number.honAkModmanOemId(6) DisplayString 0..32 ASCII String with up to 32 characters to show Modman OEM identifier..honAkModmanHoneywellHwPn(7) DisplayString 0..32 ASCII String with up to 32 characters to show Modman Honeywell-specific part identifier..honAkModmanSubassemblyId(8) DisplayString 0..32 ASCII String with up to 32 characters to show Modman sub-assembly ID..honAkKanduLruName(9) DisplayString 0..32 ASCII String with up to 32 characters to show the KANDU LRU name. Empty if no Standard Electronic Information is stored in the KANDU or the KANDU is not attached or powered up..honAkKanduOemHwPn(10) DisplayString 0..32 ASCII String with up to 32 characters to show KANDU OEM hardware part number..honAkKanduSn(11) DisplayString 0..32 ASCII String with up to 32 characters to show KANDU serial number..honAkKanduSwPnSwValid(12) DisplayString 0..32 ASCII String with up to 32 characters to show KANDU software part number and software validity..honAkKanduSwSubpartVer(13) DisplayString 0..255 The KANDU software sub part version number.honAkKanduOemId(14) DisplayString 0..32 ASCII String with up to 32 characters to show KANDU OEM identifier..honAkKanduHoneywellHwPn(15) DisplayString 0..32 ASCII String with up to 32 characters to show KANDU Honeywell-specific part identifier..honAkKanduSubassemblyId(16) DisplayString 0..32 ASCII String with up to 32 characters to show KANDU sub-assembly ID..honAkKrfuLruName(17) DisplayString 0..32 ASCII String with up to 32 characters to show the KRFU LRU name. Empty if no Standard Electronic Information is stored in the KRFU or the KRFU is not attached or powered up..honAkKrfuOemHwPn(18) DisplayString 0..32 ASCII String with up to 32 characters to show KRFU OEM hardware part number..honAkKrfuSn(19) DisplayString 0..32 ASCII String with up to 32 characters to show KRFU serial number.
Page B-1116 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.5Network Configuration Related Sub BranchThe .honAkNetworkConfiguration(5) folder contains the following:aPort info NumberThe .honAkPortInfoNumber (1) object report the number of supported Ethernet ports. Nominal is 14..honAkKrfuSwPnSwValid(20) DisplayString 0..32 ASCII String with up to 32 characters to show KRFU software part number and software validity..honAkKrfuSwSubpartVer(21) DisplayString 0..255 The KRFU software sub part version number.honAkKrfuOemId(22) DisplayString 0..32 ASCII String with up to 32 characters to show KRFU OEM identifier..honAkKrfuHoneywellHwPn(23) DisplayString 0..32 ASCII String with up to 32 characters to show KRFU Honeywell-specific part identifier.honAkOaeLruName(24) DisplayString 0..32 ASCII String with up to 32 characters to show the OAE LRU name. Empty if no Standard Electronic Information is stored in the OAE or the OAE is not attached or powered up..honAkOaeOemHwPn(25) DisplayString 0..32 ASCII String with up to 32 characters to show OAE OEM hardware part number..honAkOaeSn(26) DisplayString 0..32 ASCII String with up to 32 characters to show OAE serial number..honAkOaeSwPnSwValid(27) DisplayString 0..32 ASCII String with up to 32 characters to show OAE software part number and software validity..honAkOaeSwSubpartVer(28) DisplayString 0..255 The OAE software sub part version number. Empty if the OAE is not attached or powered up.honAkOaeOemId(29) DisplayString 0..32 ASCII String with up to 32 characters to show OAE OEM identifier..honAkOaeHoneywellHwPn(30) DisplayString 0..32 ASCII String with up to 32 characters to show OAE Honeywell-specific part identifier..honAkOaeSubassemblyId(31) DisplayString 0..32 ASCII String with up to 32 characters to show OAE sub-assembly ID. Empty if the OAE is not attached or powered up.honAkApmLruName(32) DisplayString 0..32 ASCII String with up to 32 characters to show the APM LRU name. Empty if no Standard Electronic Information is stored in the APM or the APM is not attached..honAkApmOemHwPn(33) DisplayString 0..32 ASCII String with up to 32 characters to show APM OEM hardware part number..honAkApmSn(34) DisplayString 0..32 ASCII String with up to 32 characters to show APM serial number..honAkApmOemId(35) DisplayString 0..32 ASCII String with up to 32 characters to show APM OEM identifier..honAkAircraftTailNbr(36) DisplayString 0..32 ASCII String with up to 32 characters to show aircraft tail number.honAkCfgInfo(37) DisplayString 0..255 ASCII String to show overall configuration data part numbers and CRCs.honAkGeoRestriction(38) DisplayString 0..255 ASCII String to show state of the geographic restriction map
Page B-1216 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.bPort Info TableThe .honAkPortInfoTable (2) table supports information pertaining to various Ethernet ports. This table has objects as shown in the below detail:6Maintenance Traps Configuration Related Sub BranchThe .honAkMaintTrapsConfig(6) folder contain objects as shown in the below details:Object Identifier Type Range Description.honAkPortInfoIndex(1) Unsigned32 1..4294967295The index for an entry that represents a particular Ethernet port..honAkPortInfoName(2) DisplayString  0..16 ASCII string with up to 16 characters to show the name of the port.honAkPortInfoUserDataSupported(3) TruthValue whether or not the port is configured for user data operation.honAkPortInfoOperStatus(4) honAkPortInfoOperStatusreport the port link status (active if the port is passing data in either direction in the last 10 seconds).honAkPortInfoVlanIdList(5) DisplayString 0..255 Report list of VLAN IDs currently assigned to the port. Empty string indicates no VLAN IDs assigned to this port..honAkPortInfoDataLoadSupported(6) TruthValue Report whether or not data load is supported.honAkPortInfoArinc791SnmpSupported(7) TruthValue Report whether or not ARINC 791 SNMP is supported.honAkPortInfoMaintSnmpSupported(8) TruthValue Whether or not maintenance/engineering SNMP is supported.honAkPortInfoMagic839Supported(9) TruthValue Report whether or not MAGIC 839 client is supported.honAkPortInfoAesAccessServSupported(10) TruthValue Whether or not AES-level access services are supported.honAkPortInfoLruAccessServSupported(11) TruthValue  whether or not LRU-level access services are supported.honAkPortInfoGuiSupported(12) TruthValue Report whether or not the GUI is supported.honAkPortInfoDevelServSupported(13) TruthValue Report whether or not development services are supportedObject Identifier Type Range Description..honAkMaintTrapsDestIpAddr (1)IpAddress RFC 2578This object to configure the IP address that maintenance notification traps are sent to and if they are enabled (0.0.0.0 means do not send traps and is the default after reset), as an IPAddress (RFC 2578) value..honAkMaintTrapsDestPort (2) Unsigned32  0 - 65535This object configure which IP port traps are addressed to (0-65535, default on reset 162), as an Unsigned32 value
Page B-1316 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.(3) Traps under Engineering Notification BranchThis honAkEngNotifications(3) branch contain service and maintenance notification’s folder for maintenance and service related traps.(a) Service Trap Related Sub BranchThe .honAkServTrap(0)Branch contains the object as shown in the below details:(b) Maintenance Trap related sub branchThe .honAkMaintTrap(0) branch contains the objects as shown in the below details:Trap (OID) Monitored Objects Description.honAkServLinkStateChgTrap (1) honAkServSatLinkState  This trap has to be sent, when the value of the link state of terminal object changesTrap (OID) Monitored Objects Description.honAkMaintLinkStateChgTrap (1) honAkMaintSatLinkStatus This trap has to be sent, if satellite link changes.honAkMaintTxMuteChgTrap (2) honAkTxMutedReasonThis trap has to be sent, if transmit mute reason changes.honAkMaintSysAvailChgTrap (3) honAkSysAvailState This trap has to be sent if system availability changes.honAkMaintDataLinkAvailChgTrap (4) honAkDataLinkAvailStateThis trap has to be sent, if the data link availability changes.honAkMaintAesHealthStatusChgTrap (5)honAkAesHealthStatusThis trap has to be sent, if the AES health status changes.
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Page C-116 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.APPENDIX CNOTE: The JetWave™ LRU labels do contain data such as Software Part No., Software Version No. or Software Mod dots. To see the JetWave™LRUs hardware and software version and part number, navigate to the Version and Manufacturing Information menu on the GUI.1. Aircraft Information Sheet 2. JetWave™ AES Subsystem Components A. JetWave™ AES OAE - FMA/TMA Installation Information Sheet B. JetWave™ AES KANDU Installation Information Sheet C. JetWave™ AES KRFU Installation Information Sheet OwnerTail NumberSerial NumberModel/TypePart NumberSerial NumberHardware Revision Mod StatusPart NumberSerial NumberHardware Revision Mod StatusPart NumberSerial NumberHardware Revision Mod Status
Page C-216 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.D. JetWave™ AES Modman Installation Information Sheet E. JetWave™ AES APM Installation Information Sheet Part NumberSerial NumberHardware Revision Mod StatusPart NumberSerial NumberHardware Revision Mod Status
Page D-1 16 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.APPENDIX D1. Installation Checklist A. OAE-TMA Checklist Aircraft Identification:Name Signature DateInstallation/Checks completed by:Approved/Witnessed by:Section Parameter Item NA √ValueA. Maintenance Panel Applicability  If the system is not wired to another aircraft system, a maintenance panel is required.Discrete output connections  System available (Modman MP13E) connected to a lampData link available (Modman MP13F) connected to a lampDiscrete input connections Local data load enable (Modman MP10B) connected to a normally open switchGround transmit enable (Modman MP11D) connected to a normally open switchPublic service disable (Modman MP11E) connected to a normally open switchModman reset (Modman MP10C) connected to a normally open switchEthernet port connections AV1 (Modman TP BB1 thru 4) connected to a RJ45 Ethernet connectorAdditional electrical wiring Electrically wire and interconnect in accordance with Figure 2-33.
Page D-2 16 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.B. Modman Physical Examine for physical damage.Environmental conditions, refer to Figure 2-24.Mounting tray Install applicable 4-MCU tray, supplied by customer.Clearance Minimum 1 inch (25.4 mm) from top surface and 0.5 inch (12.7 mm) from all other surfacesElectrical connector ARINC 600 mating connector and pins, refer to Table 2-1. ARINC 600 ConnectorsARINC 600 polarized pinsElectrical bonding Bonding, refer to page 2-5.Electrical wiring Electrically wire and interconnect in accordance with Figure 2-24 and Figure 2-33.Electrical RF coaxial Equalizer in the TX pathTX path loss, refer to Table 2-2. Modman Cable Loss ValuesAttenuator in the RX pathRX path loss, refer to Table 2-2. Modman Cable Loss ValuesC. APM Physical  Examine for physical damage.Environmental conditions, refer to Figure 2-25Mounting Can be installed in any orientation, refer to Figure 2-25.Use 0.164-32 UNC-2A corrosion resistant mounting fasteners. Do not exceed 25 in-lb (2.8 Nm) when you torque the screws.Electrical bonding Electrically bond in accordance with page 2-6.Section Parameter Item NA √Value
Page D-3 16 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.C. APM (Cont) Electrical wiring Electrically wire and interconnect in accordance with Figure 2-25 and Figure 2-33.Electrical wiring - APM to ModmanConnect the APM to the Modman with two twisted shielded 24 AWG pairs with Teflon insulation or aerospace grade shielded CAT5/CAT5e cable, maximum length 9.8 feet (3 m).D. KANDU Physical Examine for physical damage.Environmental conditions, refer to Figure 2-26Electrical wiring Electrically wire and interconnect in accordance with Figure 2-26 and Figure 2-33.Mounting Install location of KANDU is airframe specific. KANDU could be installed in unpressurized area near the tail empennage of the aircraft or inside pressurized area of the aircraft. In case of KANDU install location is inside pressurized location, the KANDU to KRFU and KANDU to TMA interconnect may be routed through a Bulkhead Interface connector.Electrical wiring - KANDU to TMARefer to JetWave™ System LRU Installation, KANDU on page 2-6.Electrical wiring - KANDU bulkhead interfaceRefer to JetWave™ System LRU Installation, KANDU on page 2-6.Section Parameter Item NA √Value
Page D-4 16 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.E. KRFU Physical Examine for physical damage.Environmental conditions, refer to Figure 2-27, Figure 2-28, or Figure 2-29 depending on configuration used.Install the thermal pad in accordance with KRFU Thermal Pad Kit on page 2-9.The KRFU is installed with the TMA, refer to OAE TMA Installation Procedure on page 2-15.The KRFU feet are configured differently depending on the part number ordered. Make sure feet are in the correct configuration for the aircraft application.Waveguide Make sure the waveguide is connected before powering the KRFU.Waveguide - KRFU to TMA Connection must be WR28 for TX and coaxial cable for RX.The TX interconnect path lossThe RX interconnect path lossRX connection at the KRFU requires a WR42 to coax transition adapter at the KRFU J4Electrical wiring Electrically wire and interconnect in accordance with outline drawing Figure 2-27, Figure 2-28, or Figure 2-29 and interconnect drawing Figure 2-33.Electrical bonding Electrically bond in accordance with page 2-9.J. OAE TMA Installation Procedure Physical Refer to OAE TMA Installation Procedure.TMA mounting Refer to OAE TMA Installation Procedure.TMA interface mount brackets Refer to OAE TMA Installation Procedure.Section Parameter Item NA √Value
Page D-5 16 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.J. OAE TMA Installation Procedure (Cont) TMA install Refer to JetWave™ System LRU Installation, OAE TMA Installation Procedure.TMA radome and radome fairingDepending on the airframe, there may be a need to install radome fairing which adapts to the tail empennage of the aircraft, consult aircraft OEM.Radome and fairing installation is aircraft specific. Refer to aircraft specific SDIM for details.NOTE: Before removing the Tail Mount Radome, Honeywell recommends manually steering the TMA to a safe antenna orientation position using the JetWave™ GUI.  The TMA parking position is included in the AES System Configuration File, which can be accessed through the GUI web interface and by navigating to Configuration File page. Consult aircraft specific SDIM for detailed instructions.TMA bonding Electrically bond in accordance with page 2-15.TMA alignment Automatic alignment, manual alignment, or command, refer to TMA Alignment on page 2-20 and TMA and FMA Antenna Alignment Procedure on page 2-36Section Parameter Item NA √Value
Page D-6 16 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.B. A791 Based OAE-FMA with the AIM Checklist Section Parameter Item NA √ValueA. Maintenance Panel Applicability  If the system is not wired to another aircraft system, a maintenance panel is required.Discrete output connections  System available (Modman MP13E) connected to a lampData link available (Modman MP13F) connected to a lampDiscrete input connections Local data load enable (Modman MP10B) connected to a normally open switchGround transmit enable (Modman MP11D) connected to a normally open switchPublic service disable (Modman MP11E) connected to a normally open switchModman reset (Modman MP10C) connected to a normally open switchEthernet port connections AV1 (Modman TP BB1 thru 4) connected to a RJ45 Ethernet connectorAdditional electrical wiring Electrically wire and interconnect in accordance with Figure 2-33.B. Modman Physical Examine for physical damage.Environmental conditions, refer to Figure 2-24Mounting tray Install applicable 4-MCU tray, supplied by customer.
Page D-7 16 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.B. Modman (Cont) Clearance Minimum 1 inch (25.4 mm) from top surface and 0.5 inch (12.7 mm) from all other surfacesElectrical connector ARINC 600 mating connector and pins, refer to Table 2-1. ARINC 600 ConnectorsARINC 600 polarized pinsElectrical bonding Bonding, refer to page 2-5Electrical wiring Electrically wire and interconnect in accordance with Figure 2-24 and Figure 2-34, Figure 2-35, or Figure 2-36.Electrical RF coaxial Equalizer in the TX pathTX path loss, refer to Table 2-2. Modman Cable Loss ValuesAttenuator in the RX pathRX path loss, refer to Table 2-2. Modman Cable Loss ValuesC. APM Physical  Examine for physical damage.Environmental conditions, refer to Figure 2-25Mounting Can be installed in any orientation. Refer to Figure 2-25.Use 0.164-32 UNC-2A corrosion resistant mounting fasteners. Do not exceed 25 in-lb (2.8 Nm) when you torque the screws. Electrical bonding Electrically bond in accordance with page 2-6.Electrical wiring Electrically wire and interconnect in accordance with Figure 2-25 and Figure 2-34, Figure 2-35, or Figure 2-36.Section Parameter Item NA √Value
Page D-8 16 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.C. APM (Cont) Electrical wiring - APM to ModmanConnect the APM to the Modman with two twisted shielded 24 AWG pairs with Teflon insulation or aerospace grade shielded CAT5/CAT5e cable, maximum length 9.8 feet (3 m).D. KANDU Physical Examine for physical damage.Environmental conditions, refer to Figure 2-26Mounting Install location of KANDU is airframe specific. The KANDU is installed inside a pressurized location, the KANDU to KRFU and KANDU to FMA interconnect are routed through a Bulkhead Interface connectors.Electrical Wiring KANDU-FMARefer to JetWave™ System LRU Installation, KANDU on page 2-6.E. KRFU Physical Examine for physical damage.Environmental conditions, refer to Figure 2-27, Figure 2-28, or Figure 2-29 depending on configuration used.Install the thermal pad in accordance with KRFU Thermal Pad Kit on page 2-9.The KRFU is installed with the FMA, refer to FMA Installation Procedure on page 2-29.The KRFU feet are configured differently depending on the part number ordered. Make sure feet are in the correct configuration for the aircraft application.Waveguide Make sure the waveguide is connected before powering the KRFU.Waveguide - KRFU to FMA Connection must be WR28 for TX and coaxial cable for RX.The TX interconnect path lossSection Parameter Item NA √Value
Page D-9 16 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.C. Non-A791 Based OAE-FMA with the LAIM Checklist E. KRFU (Cont) Waveguide - KRFU to FMA (Cont)The RX interconnect path lossRX connection at the KRFU requires a WR42 to coax transition adapter at the KRFU J4.Electrical wiring Electrically wire and interconnect in accordance with outline drawing Figure 2-27, Figure 2-28, or Figure 2-29 and interconnect drawing Figure 2-34, Figure 2-35, or Figure 2-36.Electrical bonding Electrically bond in accordance with page 2-9.N. FMA Installation ProcedurePhysical Examine the FMA AIM for physical damage.Examine the FMA assembly for physical damage.Examine the radome for physical damage. Refer to Figure 2-32.Environmental conditions, refer to Figure 2-31Positioning The aircraft fuselage mount OAE must be mounted on the top of the fuselage.FMA AIM Refer to Fuselage Mount Antenna (8).FMA Install  Refer to Fuselage Mount Antenna (8).FMA radome Attach the radome assembly onto the AIM.FMA bonding Electrically bond in accordance with page 2-29.FMA alignment Automatic alignment, manual alignment, or command, refer to FMA Alignment on page 2-35 and TMA and FMA Antenna Alignment Procedure on page 2-36.Section Parameter Item NA √Value
Page D-10 16 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell. Section Parameter Item NA √ValueA. Maintenance Panel Applicability  If the system is not wired to another aircraft system, a maintenance panel is required.Discrete output connections  System available (Modman MP13E) connected to a lampData link available (Modman MP13F) connected to a lampDiscrete input connections Local data load enable (Modman MP10B) connected to a normally open switchGround transmit enable (Modman MP11D) connected to a normally open switchPublic service disable (Modman MP11E) connected to a normally open switchModman reset (Modman MP10C) connected to a normally open switchEthernet port connections AV1 (Modman TP BB1 thru 4) connected to a RJ45 Ethernet connectorAdditional electrical wiring Electrically wire and interconnect in accordance with Figure 2-33.B. Modman Physical Examine for physical damage.Environmental conditions, refer to Figure 2-24Mounting tray Install applicable 4-MCU tray, supplied by customer.Clearance Minimum 1 inch (25.4 mm) from top surface and 0.5 inch (12.7 mm) from all other surfacesElectrical connector ARINC 600 mating connector and pins, refer to Table 2-1. ARINC 600 ConnectorsARINC 600 polarized pins
Page D-11 16 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.B. Modman (Cont) Electrical bonding Bonding, refer to page 2-5Electrical wiring Electrically wire and interconnect in accordance with Figure 2-24 and Figure 2-34, Figure 2-35, or Figure 2-36.Electrical RF coaxial Equalizer in the TX pathTX path loss, refer to Table 2-2. Modman Cable Loss ValuesAttenuator in the RX pathRX path loss, refer to Table 2-2. Modman Cable Loss ValuesC. APM Physical  Examine for physical damage.Environmental conditions, refer to Figure 2-25Mounting Can be installed in any orientation. Refer to Figure 2-25.Use 0.164-32 UNC-2A corrosion resistant mounting fasteners. Do not exceed 25 in-lb (2.8 Nm) when you torque the screws. Electrical bonding Electrically bond in accordance with page 2-6.Electrical wiring Electrically wire and interconnect in accordance with Figure 2-25 and Figure 2-34, Figure 2-35, or Figure 2-36.Electrical wiring - APM to ModmanConnect the APM to the Modman with two twisted shielded 24 AWG pairs with Teflon insulation or aerospace grade shielded CAT5/CAT5e cable, maximum length 9.8 feet (3 m).Section Parameter Item NA √Value
Page D-12 16 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.D. KANDU Physical Examine for physical damage.Environmental conditions, refer to Figure 2-26Electrical wiring Electrically wire and interconnect in accordance with Figure 2-26 and Figure 2-34, Figure 2-35, or Figure 2-36.Mounting Install location of KANDU is airframe specific. The KANDU is installed inside a pressurized location, the KANDU to KRFU and KANDU to FMA interconnect are routed through a Bulkhead Interface connectors.Electrical wiring - KANDU -FMA Refer to KANDU (1).Electrical bonding Electrically bond in accordance with page 2-7.KANDU bonding to the aircraft must be achieved through the mounting structure (fasteners) and KANDU A3J1-A.The bulkhead interface connectors should be electrically bonded to the aircraft.E. KRFU Physical Examine for physical damage.Environmental conditions, refer to Figure 2-27, Figure 2-28, or Figure 2-29 depending on configuration used.Install the thermal pad in accordance with KRFU Thermal Pad Kit on page 2-9.The KRFU is installed with the FMA. refer to FMA Installation Procedure on page 2-29.Section Parameter Item NA √Value
Page D-13 16 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.E. KRFU (Cont) Physical (Cont) The KRFU feet are configured differently depending on the part number ordered. Make sure feet are in the correct configuration for the aircraft application.Waveguide Make sure the waveguide is connected before powering the KRFUWaveguide - KRFU to FMA Connection must be WR28 for TX and coaxial cable for RX.The TX interconnect path lossThe RX interconnect path lossRX connection at the KRFU requires a WR42 to coax transition adapter at the KRFU J4.Electrical wiring Electrically wire and interconnect in accordance with outline drawing Figure 2-27, Figure 2-28, or Figure 2-29 and interconnect drawing Figure 2-34, Figure 2-35, or Figure 2-36.Electrical bonding Electrically bond in accordance with page 2-9.N. FMA Installation Procedure Physical Examine the FMA AIM for physical damage.Examine the FMA assembly for physical damage.Examine the radome for physical damage. Refer to Figure 2-32.Environmental conditions, refer to Figure 2-31Positioning The aircraft fuselage mount OAE must be mounted on the top of the fuselage for clear satellite communications.FMA LAIM Refer to Fuselage Mount Antenna (8).Install radome skirt fairing Install and attach the radome skirt fairing to fuselage with 39 fasteners.Section Parameter Item NA √Value
Page D-14 16 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.N. FMA Installation Procedure (Cont) Install radome skirt fairing Install and attach the radome skirt fairing to fuselage with 39 fasteners.FMA install Refer to Fuselage Mount Antenna (8).FMA radome Attach the radome assembly onto the radome skirt fairing.FMA bonding Electrically bond in accordance with page 2-29.FMA alignment Automatic alignment, manual alignment, or command, refer to FMA Alignment on page 2-35 and TMA and FMA Antenna Alignment Procedure on page 2-36.Section Parameter Item NA √Value
Page E-116 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.APPENDIX E1. List of Airframe Specific Information Required for JetWave™ System ConfigurationA Honeywell proprietary configuration tool is used to generate the JetWave™ configuration files. Information as listed in the tables below is to be provided to Honeywell for generation of JetWave™ configuration files.Aircraft Information:Aircraft Model/TypeTail Number:Serial Number:Value Added Reseller (VAR/DP)Name of the Service ProviderARINC 429 Labels ARINC 429 Interface Speed Interface Bus SpeedARINC 429 Label No. ARINC 429 Label Name AccuracyARINC 429 Label Latency Total Latency (in Msec)ARINC 429 Minimum Transmission Rate (in Msec) Jitter (Uncertainty in Delay)150 UTC Time 260 Date 270 Status 254 Present Position – Latitude 255 Present Position – Longitude 261 Altitude 132 True Heading 324 Pitch Angle 325 Roll Angle 330 Yaw rate 326 Pitch rate 327 Roll rate 331 Body longitudinal Acceleration 332 Body lateral Acceleration 333 Body vertical  Acceleration 110 GNSS  Latitude 111 GNSS  Longitude 76 GNSS Altitude (MSL)
Page E-216 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.Weight on WheelsWeight on Wheels Discrete Input Available Yes/No Polarity of Weight on Wheels Discrete SignalUser  Ethernet Port ConfigurationUser Ethernet Port Enable/ Disable User Services to be EnabledUser TrafficYes/No DataloadYes/No SNMPYes/No GUIYes/NoEN5 PIESD EthernetEN6 PIESD EthernetEN7 PIESD EthernetEN8 PIESD EthernetAV1 AISD  Ethernet AV2 AISD  Ethernet AV3 AISD  Ethernet PA1 PODD EthernetPA2 PODD EthernetPA3 PODD EthernetPA4 PODD EthernetPG1 PODD Gigabit Ethernet EG1 PIESD Gigabit Ethernet AG1 AISD Gigabit Ethernet Airframe  Structural Blockage InformationBlockage Angle Value in Degrees RemarksBlockage Angle a Angle "a" is the angle between the horizontal plane where the antenna emitting point is located and outer tip of the Horizontal Tail Plane (HTP).Blockage Angle b Angle "b" is between horizontal plane where antenna emitting point is located and outer tip of wing (including vortex eliminators, if present).
Page E-316 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.NOTE:• All zenith view (from above) angles, except for “e,” are measured from the aircraft longitudinal axis, being 0 degrees at the stern.• All side view angles are measured from the aircraft longitudinal axis, being 0 degrees at the plane where the antenna emitter is located.• Refer to ARINC Characteristic 791 Mark I Aviation Ku-band and Ka-Band Satellite Communica-tion System, Part 1- Physical Installation and Aircraft Interfaces for Aircraft blockage map parameters.Blockage Angle c Angle "c" refers to the point of the wing, where an antenna radiating at -10 degrees elevation would find the wing’s leading edge.Blockage Angle d Angle "d" refers to the outer, aft-most tip of the wing (including vortex eliminators, if present).Blockage Angle e Angle "e" provides the azimuth range of the Vertical Tail Plane (VTP) region of blockage in its broadest case.Blockage Angle f Angle "f" is between the fuselage centerline and the outer, forward-most tip of the HTP.Blockage Angle h Angle “h” provides the Vertical Tail Plane (VTP) region of blockage in elevation from -10 degrees up.Blockage Angle i Angle "i" is between the horizontal plane where the antenna emitting point is located and upper, forward-most part of the fuselage.Blockage Angle k Angle "k" is the angle between the horizontal plane where the antenna emitting point is located and the aft-most tip of the HTP.Blockage Angle m Angle "m" is between the horizontal plane where the antenna emitting point is located and the HTP leading edge root (forward-most joint to fuselage). Blockage Angle p Angle "p" is from the emitter point to upper, aft-most wing tip (including vortex eliminators, if present).
Page E-416 Sep 201523-15-29SYSTEM DESCRIPTION AND INSTALLATION MANUALJetWave™ System© Honeywell International Inc. Do not copy without express permission of Honeywell.© Honeywell International Inc. Do not copy without express permission of Honeywell.Blank Page

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