User's Manual
Table Of Contents
- Introduction
- System Description
- 1. Purpose of Equipment
- 2. Equipment Covered
- 3. Equipment Description
- A. Applicable Documents
- B. Reference Documents
- C. Equipment Specifications
- D. Mechanical Description
- E. Electrical Description
- F. System Interface Descriptions
- G. User Interfaces
- (1) Stand-Alone Mode User Interfaces
- (2) Collins Cooperative Mode User Interfaces
- (3) Honeywell Combined Mode User Interfaces
- (4) Selective Mode User Interfaces
- (5) Multi-Channel Configurations
- (6) ISDN Circuit-Switched Data Interface
- (7) RS-232 Interface
- (8) Ethernet Data Interface
- (9) ISDN S/T Interface
- (10) Maintenance Port Interface
- H. Initiated-Self-Test
- I. Owner Requirements Table
- 4. Inmarsat System Overview
- 5. HSD Modes and Configuration Descriptions
- System Operation
- 1. Introduction
- 2. Activating HSD Transceivers
- 3. Configuring HSD Systems
- 4. Using the HSD System
- Installation
- 1. Introduction
- 2. Advisories
- 3. Pre-Installation Inspection
- 4. Unpacking and Inspecting Equipment
- 5. Cabling and Connector Requirements
- 6. ARINC 600 Trays and Connectors
- 7. Mechanical Installation
- 8. Electrical Installation
- 9. Outline/Installation and Interconnection/Contact Assignment Diagrams
- Test and Fault Isolation
- 1. Introduction
- 2. Operational and Diagnostic Testing
- 3. Troubleshooting and Fault Isolation
- 4. Adjustment/Alignment Procedures
- 5. Modification History
- Maintenance and Repair
- 1. General
- 2. Maintenance
- 3. Repair
- 4. Instructions for Continued Airworthiness, FAR 25.1529
- Appendix A: Inmarsat Satellite Beam Coverage
- Appendix B: Troubleshooting Checklist
- Appendix C: RJ-45 Cable Termination Details
- Appendix D: Installation Checklist
- Appendix E: Record of Accomplishment
- Appendix F: RF Splitter
Page 4–63
18 September 2007
SYSTEM DESCRIPTION, INSTALLATION, AND MAINTENANCE MANUAL
eNfusion™ HSD-128 High-speed Data Terminal
(b) Checking EIRP power
Check EIRP power values during system operation using the HSD Maintenance
Port Utility program. Place a number of call types and combinations while using
the “reports” function of the HSD Maintenance Port Utility program and record
the reported values in
"Installation Checklist" on page D-1.
(c) Test Set-up Procedure
1. With the Maintenance Port Utility program activated (MAINT password
access), press the equals sign (=) to activate the “Reports”.
2. Press Ctrl+N to scroll to report 78.
3. To toggle on the vt100 EIRP/power report, type 78.
Report 78 toggles ON.
4. Press Esc. The “Reports” for vt100 EIRP/power appears on screen. The
“Reports” screen refreshes every few seconds.
(d) EIRP Test Procedures
1. Place an HSD ISDN voice call using channel card one (repeat procedure
placing a call using the second channel card), and then place a multi-link
PPP ISDN data call (128 kbps ISDN) to confirm bonding is operational.
• Confirm that the EIRP/Watts value begins at approximately 20 to 22.5 W
until it stabilizes to a lower power usage value of approximately 17.0 W
until the end of the call.
• Confirm that the HPA value is in the range of 11 W to 16 W during the call.
2. Place two simultaneous HSD Swift64 ISDN voice calls (one call from each
channel card) and while both calls are connected, confirm that the
EIRP/Watts value is reported similar to the values presented in Figure 4–36
and Figure 4–37.
3. Place one Aero H/H+ call.
The Aero Watts value should initially increase to a value of 8 to 10 W and
then stabilize to lower watt value of 1.5 to 2.5 W when the call has stabilized.
Refer to Figure 4–38 and Figure 4–39.
4. Place two simultaneous Aero H/H+ calls.
The Aero H/H+ Watts value should initially increase to a value of 8 to 10 W
and then stabilize to lower watt value of 1.5 to 2.5 W when the call has
stabilized. Refer to Figure 4–40. Keeping the two Aero H/H+ calls up, place
one HSD Swift64 ISDN call. Refer to Figure 4–41.
5. Place two HSD Swift64 ISDN voice calls (one call from each channel card)
and while both calls are connected, place an Aero H/H+ voice call.
The Aero Watts value should initially increase to a value of 8 to 10 W and
then stabilize to lower watt value of 1.5 to 2.5 W when the call has stabilized.
Refer to Figure 4–42.