ATCBI-6: Difference between revisions

From FortWiki
Jump to navigation Jump to search
← Older edit
John Stanton (talk | contribs)
interwiki
130,496 edits
No edit summary
John Stanton (talk | contribs)
interwiki
130,496 edits
No edit summary
 
(23 intermediate revisions by the same user not shown)
Line 4: Line 4:
'''{{PAGENAME}} Long-Range Beacon Radar Set''' - A Long-Range Air Traffic Control Beacon Interrogator Model 6 (ATCBI-6) radar set built by the Raytheon Company.
'''{{PAGENAME}} Long-Range Beacon Radar Set''' - A Long-Range Air Traffic Control Beacon Interrogator Model 6 (ATCBI-6) radar set built by the Raytheon Company.


The Federal Aviation Administration (FAA) selected the Raytheon Company's ATCBI-6 beacon system on 4 Aug 1998  to replace the aging ATCBI-3, ATCBI-4, and ATCBI-5 beacon sets in the en route Air Traffic Control System. The FAA awarded a contract potentially worth US$180 million to manufacture and install up to 152 ATCBI-6 systems. DT&E was completed in September 1999, and OT&E began in October 1999. Key site commissioning took place in April 2000.
The Federal Aviation Administration (FAA) selected the Raytheon Company's ATCBI-6 beacon system on 4 Aug 1998  to replace the aging ATCBI-3, ATCBI-4, and ATCBI-5 beacon sets in the en-route Air Traffic Control System. The FAA awarded a contract potentially worth US$180 million to manufacture and install up to 152 ATCBI-6 systems. DT&E was completed in September 1999, and OT&E began in October 1999. Key site commissioning took place in April 2000.


In August 2002, the FAA commissioned into service the first production ATCBI-6 system at Tinker AFB, Oklahoma.
In August 2002, the FAA commissioned into service the first production ATCBI-6 system at Tinker AFB, Oklahoma. The last ATCBI-6 system was commissioned in FY 2013,
== Operation ==
== Operation ==
The ATCBI-6 Beacon, with Mode S selective addressing capability, obtains information from en route aircraft, including identification, altitude, airspeed, and direction. The ATCBI-6 system integrates with existing primary surveillance radars (ARSR-4, CARSR, and FPS-117) operated by the FAA and the Department of Defense (DoD).
The ATCBI-6 Beacon, with Mode S selective addressing capability, obtains information from en-route aircraft, including identification, altitude, airspeed, and direction. The ATCBI-6 system integrates with existing primary surveillance radars (ARSR-4, CARSR, and FPS-117) operated by the FAA and the Department of Defense (DoD). The ATCBI-6M version supports the Mode 4 operation and appears to be deployed with all the [[ARSR-4]] CONUS Sets (42). The regular ATCBI-6 is deployed at [[CARSR]] sites.


The ATCBI-6 provides four commonly used modes, mode 1, mode 2, mode 3/A, and mode C. Mode 1 is used to ID military targets. Mode 2 is used to identify military aircraft missions. Mode 3/A is used to identify each aircraft in the radar's coverage area. Mode C is used to report an aircraft's altitude. Mode 3/A is designated as the common military/civil mode for air traffic control use.
The ATCBI-6 includes most of the functionality of a traditional Mode S interrogator but it doesn’t have the data link feature, causing some to call it "Mode S lite." It does not appear that the first 23 FAA long range radar sites to be equipped with the initial Mode S equipment have been changed to use the ATCBI-6.


Mode 4 and mode S, are not considered part of the ATCRBS system, but they use the same transmit and receive hardware. Mode 4 is used by military aircraft for the Identification Friend or Foe (IFF) system. Mode S is a discrete selective interrogation that ignores interrogations not addressed with a unique identity code.
The ATCBI-6 provides four commonly used modes, mode 1, mode 2, mode 3/A, and mode C. Mode 1 is used to ID military targets. Mode 2 is used to identify military aircraft missions. Mode 3/A is used to identify each aircraft in the radar's coverage area. Mode C is used to report an aircraft's altitude. Mode 3/A is designated as the common military/civil mode for air traffic control use. The distribution of Mode 3/A codes is governed by The National Beacon Code Allocation Plan (NBCAP) laid out in FAA orders. Mode S is a discrete selective interrogation that ignores interrogations not addressed with a unique identity code.


Mode 4 is not considered part of the ATCRBS system, but it uses the same transmit and receiver hardware. Mode 4 is used by military aircraft for the Identification Friend or Foe (IFF) system.
Mark XII Mode 4 technology is the current military standard for U.S. and NATO countries. In 1995 the US Joint Chiefs of Staff ordered the development of a new Mode 5 to replace the current Mode 4 system. The transition to the new Mark XIIA Mode 5 equipment is now in process and will require a major effort for the U.S. military over the next 10-15 years.
== ATCBI-6 Sustainment Program ==
From the FY 2020 President’s Budget Submission to Congress:
<blockquote>The ATCBI-6 is a Monopulse Secondary Surveillance Radar (MSSR) with selective interrogation capability that significantly improves the accuracy of aircraft position and altitude data provided to ATC automation systems. The ATCBI-6 program commissioned the first system in FY 2002 and the last system in FY 2013. This technology refresh activity will determine the retrofit requirement for the 132 operational and seven support ATCBI-6 systems, keeping the systems operational until SENSR deployment. For FY 2020, $3.0 million is requested to support the Final Investment Decision (FID). This includes Contractor Support and Benefit Analysis, Program Management, Logistics, and Sustainability Study, System Engineering and Second Level Engineering Analysis, Shortfall Analysis, the development of an Independent Government Cost Estimate, Business Case Analysis Report, and the Initial Implementation Strategy and Planning Document. FID is planned for December 2021.
</blockquote>
== Training ==
The FAA conducts in-house training on the ATCBI-6/6M beacon system in Course FAA40675 titled "ATCBI-6/6M EHOT". The course is 120 hours long with 16 hours of lecture and 88 hours of lab work. Class size is 4 persons and they plan to conduct 10 classes in calendar year 2019 at their training academy. See [[FAA En-Route Radar Site Maintenance Training]].
<!--
<!--
{|{{FWpicframe}}
{|{{FWpicframe}}
Line 23: Line 33:
|}
|}
-->
-->
== ATCBI-6 Beacon Radar ==
== ATCBI-6 Beacon Radar ==
{| width="800px"
{| width="800px"
Line 44: Line 55:
| Type || Beacon ||
| Type || Beacon ||
|-
|-
| Number Made|| 152~ ||
| Number in NAS|| 87~ ATCBI-6<br>42  ATCBI-6M ||
|-
|-
| Target Capacity || 1,400 ||
| Target Capacity || 1,400 ||
Line 50: Line 61:
| IEEE Band || L-Band ||
| IEEE Band || L-Band ||
|-
|-
| Frequency || 1,030 & 1,090 MH ||
| Transmit Frequency || 1,030 MHz ||
|-
|-
| PRF || ||
| Receive Frequency || 1,090 MHz ||
|-
|-
| Pulse Width || ||  
| Antenna || MonoPulse ||  
|-
|-
| Rotation Speed || ||
| Waveform || ATCBI-6  ATCRBS/Mode S<br>ATCBI-6M ATCRBS/Mode S/Mode 4 ||  
|-
|-
| Power || ||  
| Power || ||  
|-
|-
| Range || 225 mi (362 km)|| Long-Range
| Range || 225 mi (362 km) Long-Range ||
|-
|-
| Altitude || ||
| Altitude || 100k Feet ||
|-
|-
| Introduced ||  First production Model Commissioned August 2002 at Tinker AFB||
| Introduced ||  First production Model Commissioned August 2002 at Tinker AFB||


|}
|}
| width="50%" |
| valign="top" width="50%" |
<!--[[...jpg|thumb|left|350px|ATCBI-6]]-->
<br>
[[File:ATCBI-6.jpg|thumb|left|350px|Early View of ATCBI-6.]]
|}
|}
<!--[[File:ATCBI-6 System.png|thumb|center|800px|FPS-3 System Components]]-->
<!--[[File:ATCBI-6 System.png|thumb|center|800px|FPS-3 System Components]]-->
Line 76: Line 88:
'''See Also:'''
'''See Also:'''
* [[US Radar Sets]]
* [[US Radar Sets]]
'''Sources:'''  
'''Sources:'''  
 
* [https://www.faa.gov/documentLibrary/media/Order/2019-05-02_7110.66F_NBCAP_final.pdf FAA Order JO7110.65F Effective 3 Jun 2019 - National Beacon Code Allocation Plan (NBCAP)]
* [http://tfmlearning.faa.gov/publications/atpubs/ATC/atc0502.html FAA Order JO7110.65T, Effective 11 Feb 2010, Subject: Air Traffic Control, Section2. Beacon Systems.]
* [https://www.raytheon.com/capabilities/products/iff Raytheon - Identification Friend or Foe (IFF)]
* [https://www.telinstrument.com/avionics-news/industry-articles/101-iff-and-mode-5-past-present-and-future.html TelInstrument - Mode 5]
'''Links:'''  
'''Links:'''  
* [https://www.aviationtoday.com/2003/04/01/europes-energized-mode-s-program/ Aviation Today - Mode S Lite in the United States]
* [https://www.forecastinternational.com/archive/disp_pdf.cfm?DACH_RECNO=565 Forecast International - ATCBI-6 (2005)]
* [https://www.forecastinternational.com/archive/disp_pdf.cfm?DACH_RECNO=565 Forecast International - ATCBI-6 (2005)]
* [https://rosap.ntl.bts.gov/view/dot/12229 AN/UPX-41(C) Digital Interrogator System Compatibility with the National Airspace System: Top-Level Test Plan, DoT, FAA, Op-Level Test Plan Chesapeake Fixed-Base Experiment, 4 Aug 2014, page 72.]
* [https://www.academy.jccbi.gov/catalog/CPNT/Details/3930?sortOrder=start_date FAA Classes.]
__NOTOC__
__NOTOC__
<!--65 hits 29 Jun 2019-->


{{PageFooter}}
{{PageFooter}}
[[Category:Radar Sets]]
[[Category:Radar Sets]]
[[Category:ATCBI-6]]
[[Category:ATCBI-6]]

Latest revision as of 16:23, 27 October 2019


ATCBI-6 Long-Range Beacon Radar Set - A Long-Range Air Traffic Control Beacon Interrogator Model 6 (ATCBI-6) radar set built by the Raytheon Company.

The Federal Aviation Administration (FAA) selected the Raytheon Company's ATCBI-6 beacon system on 4 Aug 1998 to replace the aging ATCBI-3, ATCBI-4, and ATCBI-5 beacon sets in the en-route Air Traffic Control System. The FAA awarded a contract potentially worth US$180 million to manufacture and install up to 152 ATCBI-6 systems. DT&E was completed in September 1999, and OT&E began in October 1999. Key site commissioning took place in April 2000.

In August 2002, the FAA commissioned into service the first production ATCBI-6 system at Tinker AFB, Oklahoma. The last ATCBI-6 system was commissioned in FY 2013,

Operation

The ATCBI-6 Beacon, with Mode S selective addressing capability, obtains information from en-route aircraft, including identification, altitude, airspeed, and direction. The ATCBI-6 system integrates with existing primary surveillance radars (ARSR-4, CARSR, and FPS-117) operated by the FAA and the Department of Defense (DoD). The ATCBI-6M version supports the Mode 4 operation and appears to be deployed with all the ARSR-4 CONUS Sets (42). The regular ATCBI-6 is deployed at CARSR sites.

The ATCBI-6 includes most of the functionality of a traditional Mode S interrogator but it doesn’t have the data link feature, causing some to call it "Mode S lite." It does not appear that the first 23 FAA long range radar sites to be equipped with the initial Mode S equipment have been changed to use the ATCBI-6.

The ATCBI-6 provides four commonly used modes, mode 1, mode 2, mode 3/A, and mode C. Mode 1 is used to ID military targets. Mode 2 is used to identify military aircraft missions. Mode 3/A is used to identify each aircraft in the radar's coverage area. Mode C is used to report an aircraft's altitude. Mode 3/A is designated as the common military/civil mode for air traffic control use. The distribution of Mode 3/A codes is governed by The National Beacon Code Allocation Plan (NBCAP) laid out in FAA orders. Mode S is a discrete selective interrogation that ignores interrogations not addressed with a unique identity code.

Mode 4 is not considered part of the ATCRBS system, but it uses the same transmit and receiver hardware. Mode 4 is used by military aircraft for the Identification Friend or Foe (IFF) system.

Mark XII Mode 4 technology is the current military standard for U.S. and NATO countries. In 1995 the US Joint Chiefs of Staff ordered the development of a new Mode 5 to replace the current Mode 4 system. The transition to the new Mark XIIA Mode 5 equipment is now in process and will require a major effort for the U.S. military over the next 10-15 years.

ATCBI-6 Sustainment Program

From the FY 2020 President’s Budget Submission to Congress:

The ATCBI-6 is a Monopulse Secondary Surveillance Radar (MSSR) with selective interrogation capability that significantly improves the accuracy of aircraft position and altitude data provided to ATC automation systems. The ATCBI-6 program commissioned the first system in FY 2002 and the last system in FY 2013. This technology refresh activity will determine the retrofit requirement for the 132 operational and seven support ATCBI-6 systems, keeping the systems operational until SENSR deployment. For FY 2020, $3.0 million is requested to support the Final Investment Decision (FID). This includes Contractor Support and Benefit Analysis, Program Management, Logistics, and Sustainability Study, System Engineering and Second Level Engineering Analysis, Shortfall Analysis, the development of an Independent Government Cost Estimate, Business Case Analysis Report, and the Initial Implementation Strategy and Planning Document. FID is planned for December 2021.

Training

The FAA conducts in-house training on the ATCBI-6/6M beacon system in Course FAA40675 titled "ATCBI-6/6M EHOT". The course is 120 hours long with 16 hours of lecture and 88 hours of lab work. Class size is 4 persons and they plan to conduct 10 classes in calendar year 2019 at their training academy. See FAA En-Route Radar Site Maintenance Training.

ATCBI-6 Beacon Radar

ATCBI-6 Beacon Radar
Element Value Notes
Nomenclature ATCBI-6
Origins ATCBI-3
ATCBI-4
ATCBI-5
Variants ATCBI-6M
Manufacturer Raytheon
Type Beacon
Number in NAS 87~ ATCBI-6
42 ATCBI-6M
Target Capacity 1,400
IEEE Band L-Band
Transmit Frequency 1,030 MHz
Receive Frequency 1,090 MHz
Antenna MonoPulse
Waveform ATCBI-6 ATCRBS/Mode S
ATCBI-6M ATCRBS/Mode S/Mode 4
Power
Range 225 mi (362 km) Long-Range
Altitude 100k Feet
Introduced First production Model Commissioned August 2002 at Tinker AFB


Early View of ATCBI-6.


See Also:

Sources:

Links:


Retrieved from "https://fortwiki.com/index.php?title=ATCBI-6&oldid=133592"