FRA DOTX 219

FRA DOTX 219 T-19
DOTX 219 in Muskogee, OK, 2026
Type and origin Builder ENSCO Plasser American Colorado Railcar Total produced 1
Specifications Gauge 1,435 mm (4 ft 8+1⁄2 in) Wheel diameter 3 ft (0.91 m) Minimum curve 20° Wheelbase: ​  • Axle spacing (Asymmetrical) 8 ft 2.5 in (2.502 m) Length: ​  • Over couplers 91 ft 10 in (27.99 m)  • Over body 86 ft 11 in (26.49 m) Width 10 ft 6 in (3.20 m) Height 15 ft 4 in (4.67 m) Axle load 52,300 lb (23,700 kg) Service weight 212,700 lb (96,500 kg) Fuel capacity 1,050 US gal (4,000 L; 870 imp gal) Train brakes Air; 1 disc per axle
Performance figures Brakeforce Service: 2.5 mph/s (4.0 km/(h⋅s)) Emergency: 2.8 mph/s (4.5 km/(h⋅s))
Career Operators FRA (under ATIP) Delivered 2007 First run 2007

FRA DOTX 219 (commonly shortened to DOTX 219; originally known as T-19) is a self-propelled track geometry car owned by the Automated Track Inspection Program (ATIP), a division of the Federal Railroad Administration (FRA) in the United States. DOTX 219 measures several different aspects of track geometry, such as track gauge and rail cant. DOTX 219 was built by ENSCO, Plasser American, and Colorado Railcar, and began service in late April 2007. DOTX 219 and its collected data has had several uses, such as in train derailment investigations.

Specifications

DOTX 219 has several systems onboard for measuring different aspects of track geometry. ^{[1] [2] : 1} The Track Geometry Measurement System (TGMS) measures track gauge (the width between the rails), rail cant (how much higher one rail is to the other), and calculates speed limits for curves; the Differential Global Positioning System DGMS/LDS (DGPS) uses a geographic coordinate system to give coordinates to a track defect; and the Ride Quality Measurement System (RQMS) measures the ride quality for passenger trains. ^{[2] : 1  [3]} DOTX 219 is able to use its measurement systems in real time up to 125 miles per hour (201 km/h), and is able to process data up to 200 miles per hour (320 km/h). ^{[3] [4] [5]} DOTX 219 can move under its own power, but it can also be towed by a locomotive. ^{[6] [7] [a]}

DOTX 219 uploads its collected track data to the Track Data Management System (TDMS) – an archive of track data collected since 1998 – via the satellite-based Mobile Broadband Internet System (MBIS). ^[b] The crew of DOTX 219 uses the Digital Survey Log (DSL) to log information about a survey's progress and delays. The crew also uses the Digital Track Notebook (DTN), a handheld computer which can be used as a reference manual for railroad regulations, and can synchronize data from the aforementioned measurement systems. ^{[2] : 1} DOTX 219 can determine if track is defective; however, it cannot determine if faultless track is about to become defective. ^{[4] [5]}

The amenities inside of DOTX 219 include closets, five lockers, one bathroom, a galley, a server room, and a rear observation area. ^{[2] : 2  [1]} DOTX 219 has operating controls on the front end only. ^[9] DOTX 219 has seating for 20 people, including the engineer: eight people in the rear observation area, four in the galley, four in the server room, and four in the front end. ^{[2] : 2  [1]} DOTX 219 is not fitted with cab signalling, automatic train stop, or automatic train control. ^[9]

History

DOTX 219 and DOTX 223 being towed by an EMD GP40-3 in Decatur, AL, 2016

The Automated Track Inspection Program (ATIP) is a division of the Federal Railroad Administration (FRA) which oversees automated track inspections on railroads in the United States. At the time, the FRA focused its automated track inspections for frequently used railroad lines, especially lines which carried hazardous materials and passengers. Track inspections would have to be automated, as opposed to regular inspections where subtle track defects would be difficult to identify. ^[3]

DOTX 219 was built by ENSCO, Plasser American, and Colorado Railcar, as part of a contract for two new track geometry cars, with the other of which being DOTX 220. ^{[10] [11] [12] : 223} DOTX 219 and 220 were originally designated as T-19 and T-20 respectively. ^{[3] [13]} While DOTX 219 was under construction in March 2006, it was scheduled to be shipped from Linz, Austria to Galveston, Texas on December 15, 2006. ^[13] DOTX 219 was delivered to the FRA in 2007. ^{[11] [1] [12] : 223} The FRA anticipated DOTX 219 to enter service on March 1, 2007. ^[13] DOTX 219 entered service in late April 2007. ^[3]

The predominant use of DOTX 219 is to measure track geometry in the United States. ^{[10] [6] [1]} After DOTX 219 and 220 were delivered, there were five track geometry cars owned by the FRA; three were owned by ATIP and two were owned by the Office of Policy and Development. ^[c] After DOTX 219 entered service, the FRA would increase the frequency of its track inspections; DOTX 219 travelled 9,872 miles (15,887 km) in FY2008–09, and travelled 17,941 miles (28,873 km) in FY2009–10. ^{[12] : 223}Since 2015, ^[update] DOTX 219 surveys about 30,000 miles (48,000 km) of track annually. ^{[1] [10]} From January 27, 2016, to February 4, 2026, DOTX 219 was used for over 1,400 reports for track defects. ^[14]

DOTX 219 has had several uses since it entered service. In 2011, DOTX 219 was used to identify locations of rail seat deterioration on tracks with concrete crossties. ^{[15] [d]} In 2014, DOTX 219 ran with a DOT-111 tank car – which had been fitted with strain gauges, accelerometers, and a transducer for brake pressure – in order to determine the cause for fracturing on stub sills. ^{[16] : 4–16, 23} The data collected by DOTX 219 has been used in cataloging the condition of railroad tracks in train derailment investigations, such as one by the FRA for a 2015 derailment in Riddleville, Georgia, and one by the National Transportation Safety Board (NTSB) for a 2019 derailment in Fort Worth, Texas. ^{[17] : 1, 8  [18]} DOTX 219 is frequently paired with DOTX 223 – a buffer car with no measurement systems – during inspections. ^{[19] [8] [20] [14]}

Notes

1. Some track geometry cars – such as DOTX 217, 218, and 219 – are self-propelled, while others – DOTX 216, 220, and 221 – require towing by a locomotive; however, all cars can be operated while being towed. ^{[7] [8]}
2. The contents of the TDMS can be viewed and edited with the Windows-based program GeoEdit. ^{[2] : 1}
3. Several track geometry cars were subsequently obtained by the FRA, including DOTX 221, 225, and 226. ^[7] The FRA also obtained the buffer car DOTX 223 and the hi-rail trucks DOTX 304 and 305. ^[8]
4. DOTX 219 cannot directly measure rail seat deterioration; instead, its rail profile measurements were used to infer possible locations for rail seat deterioration. ^[15]

References

1. Zamora, Eric (May 30, 2015). "Federal 'safety train' rolls through Fresno". Fresno, California: The Fresno Bee. Archived from the original on January 31, 2026. Retrieved January 31, 2026.
2. FRA DOTX 219 Track Geometry Car System Capabilities (PDF). Federal Railroad Administration; Office of Safety; Automated Track Inspection Program (Report). Department of Transportation. 2007. pp. 1–2. Retrieved January 31, 2026.
3. "Deploy two additional automated track geometry inspection vehicles". FY 2009 Congressional Budget Submission (PDF). United States Department of Transportation; Federal Railroad Administration (Budget Request). 2008. p. 121. Retrieved February 3, 2026.
4. Ho, Carlton; Hyslip, James; Davis, David (March 7, 2008). "Ground Acceleration Based Characterization of High-Speed Rail Track Bed" . GeoCongress 2008. American Society of Civil Engineers: 52–59. doi:10.1061/40972(311)7 . Retrieved February 4, 2026.
5. Ho, Carlton; Hyslip, James; Li, Dingqing (January 2009). "Spectral Analysis of Ground Acceleration-Based Testing" . Transportation Research Record: Journal of the Transportation Research Board. 2117 (1): 50–56. doi:10.3141/2117-07 . Retrieved February 4, 2026.
6. Billingsley, Richard (2021). CSX Transportation. Amberley Publishing. ISBN   978 1 4456 9710 9 . Retrieved February 3, 2026.
7. "Chapter 3: Track Geometry Inspection Car Operation". Track and Rail and Infrastructure Integrity Compliance Manual (PDF) (Report). Vol. 1. Federal Railroad Administration. July 2012. p. 1.3.3. Retrieved January 31, 2026.
8. "Exhibit D. FRA's ATIP Fleet, as of October 2021". FRA Uses Automated Track Inspections To Aid Oversight but Could Improve Related Program Utilization Goals and Track Inspection Reporting (PDF) (Report). Federal Railroad Administration. April 27, 2022. p. 31. ST2022028. Retrieved January 31, 2026.
9. "37. Handling of FRA Track Geometry Inspection Cars". System Special Instructions (PDF) (Report). BNSF Railway. April 7, 2010. Retrieved January 31, 2026.
10. "В США усиливают меры безопасности при перевозках опасных грузов" [The United States strengthens security measures when transporting dangerous goods] (in Russian). Zdmira. March 13, 2023. Archived from the original on January 31, 2026. Retrieved January 31, 2026.
11. "ENSCO wins $67m contract with the Federal Railroad Administration". track and signalling. Rail Technology Magazine. July 24, 2007. Retrieved January 31, 2026.
12. "Table 1: Typical Production Miles, FY 2009 to FY 2010". Railroad Safety Strategy: Progress Assessment – FY 2011 (PDF) (Report). United States Department of Transportation; Federal Railroad Administration. February 2011. p. 223. Retrieved January 31, 2026.
13. Knollenberg, John; Wolf, Frank; Rogers, Harold; Tiahrt, Todd; Northup, Anne; Aderholt, Robert; Sweeny, John; Olver, John; Hoyer, Steny; Pastor, Ed; Kilpatrick, Carolyn; Clyburn, James; Rothman, Steven; Culberson, John; Regula, Ralph (2006) [March 7, 2006]. Hearings Before a Subcommittee of the Committee on Appropriations. Departments of Transportation, Treasury, HUD, The Judiciary, District of Columbia, and Independent Agencies Appropriations for 2007 (Report). Washington: U.S. Government Printing Office. pp. 175–176. Retrieved February 3, 2026.
14. Defects and Violations (Dataset). Railroads. Federal Railroad Administration; United States Department of Transportation. February 6, 2026 [August 22, 2022]. Retrieved February 6, 2026.
15. Track Safety Standards; Concrete Crossties. Federal Register (Rule). United States Department of Transportation; Federal Railroad Administration. September 9, 2011. pp. 55819–55825. FRA-2009-0007, Notice No. 4. Retrieved January 31, 2026.
16. Sundaram, Narayana (December 2016) [July 2014]. Force Environment Evaluation of Stub Sills on Tank Cars Using Autonomous Over-the-Road Testing of the Instrumented Tank Car (PDF). ENSCO (Technical Report). United States Department of Transportation; Federal Railroad Administration. pp. 4–16, 23. DOT/FRA/ORD-11/39. Retrieved February 2, 2026.
17. Accident Investigation Report (PDF). Federal Railroad Administration; Office of Railroad Safety, Accident and Analysis Branch (Report). Riddleville, Georgia: United States Department of Transportation. August 7, 2015. pp. 1, 8. FRA File #HQ-2015-1082. Retrieved January 31, 2026.
18. Rail Investigation (Report). Fort Worth, Texas: National Transportation Safety Board. August 19, 2021 [2019-07-19]. RRD19FR007. Retrieved January 31, 2026.
19. Notice of Intent under the Automated Track Inspection Program (ATIP) (Report). System for Award Management . Retrieved January 31, 2026.
20. Rocky Mountain Railroad Club (October 2015). "Information For The Railroad Enthusiast" (PDF). Rocky Mountain Rail Report. No. 651. Denver, Colorado. p. 10. ISSN   1040-9223 . Retrieved February 3, 2026.