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Budd RDC
Detroit Diesel Dual 6cyl Prime Movers
The Budd Rail Diesel Car, RDC or Buddliner is a self-propelled diesel multiple unit (DMU) railcar. Between 1949 and 1962, 398 RDCs were built by the Budd Company of Philadelphia, Pennsylvania, United States. The cars were primarily adopted for passenger service in rural areas with low traffic density or in short-haul commuter service, and were less expensive to operate in this context than a traditional diesel locomotive-drawn train with coaches. The cars could be used singly or coupled together in train sets and controlled from the cab of the front unit. The RDC was one of the few DMU trains to achieve commercial success in North America. RDC trains were an early example of self-contained diesel multiple unit trains, an arrangement now in common use by railways all over the world.
Budd RDCs were sold to operators in North America, South America, Asia, and Australia. They saw extensive use in the Northeast United States, both on branch lines and in commuter service. As passenger service declined in the United States the RDC was often the last surviving conveyor of passengers on a particular route. Most RDCs were retired by the 1980s. In Canada, RDCs have remained in continuous use since their introduction in the 1950s.
Recorded from Reading and Northern RDC 9168
This project is a normal idle version. It has single exhaust stacks per motor.
"Reverser In Center Position". When pressing F24 while stopped, the motor will lock so you can throttle through the notches like the prototype in neutral. F24 must be turned off to begin moving.
This project has "Run 8" mode. When turning on F26 with F28 off, the prime mover goes to run 8. Turning off F26 returns the prime mover sounds back to normal mode.
This project has "Coast" mode. When turning on F27 with F28 off, the prime mover goes to idle for coasting purposes. Turning off F27 returns the prime mover sounds back to normal mode.
You can still use F26 and F27 for manual nothing. You have to keep both F26 and F27 off before pressing F28 to turn on manual notching. Once F28 is on, you can use F26 to notch up and F27 to notch down. F26, F27, and F28 must be turned off to return to normal mode.
This project has "Load" mode. When turning on F29 with F15, F24, F26, F27, F28 off, the prime mover goes into load mode. While you are using load mode, the prime mover will notch up 1 or more notches based on primary load settings(CV104). The throttle notches up using speed instead of requested speed while using the load feature. F29 must be turned off to return to normal mode.
1st Gen Horn Pack 1
Horns (SoundCV9):
CV163=0 Leslie A-125
CV163=1 Leslie A-200
CV163=2 Leslie S-2M
CV163=3 Leslie S-3K
CV163=4 Leslie S-3L
CV163=5 Leslie S-5T
CV163=6 Nathan M3
CV163=7 Nathan M3H
CV163=8 Nathan M5
CV163=9 Nathan P5 (Old Cast)
CV163=10 Nathan P5R24 (Old Cast)
CV163=11 Nathan P3 (Old Cast)
CV163=12 Nathan P3-R4 (Old Cast)
CV163=13 Nathan P5A (Old Cast)
CV163=14 Wabco E-2
CV163=15 Nathan K3HA
CV163=16 Nathan K3L
CV163=17 Nathan K3H
CV163=18 Nathan K5H
EMD 1st Generation Bell Template Pack 2
Bells (SoundCV10):
CV164=0 EMD 8004156 Bronze Bell 011
CV164=1 EMD 8475495 Steel Bell 007
CV164=2 EMD 8004156 Bronze Bell 012
CV164=3 EMD 8475495 Steel Bell 009
CV164=4 EMD 8004156 Bronze Bell 013
CV164=5 EMD 8475495 Steel Bell 010
Auto Bell:
Many Second and Third Generation locomotives have been fitted with an Automatic Bell that is triggered when the horn is blown. In MANY cases this cannot even be bypassed on modern locos. Before the FRA mandated this feature on new locomotives the bell was of course turned on and off separately. Some locomotives were delivered with a manual bell and have been converted to an automatic bell. This creates a challenge in sound file creation.
We realize that not every loco with a particular prime mover had this feature. As such we have built in an option to turn the feature on and off. We will set the default in the file to be what is most appropriate for the particular file.
To turn the feature OFF - Auto Bell OFF:
1. Remove the Auto bell sound slot from the function mapping chart
CV31 = 16, CV32 = 8
----------------------
CV311 = 4
2. Change the sound configuration of the Auto bell sound slot
CV31 = 16, CV32 = 1
----------------------
CV287 = 0
To turn the feature ON - Auto Bell ON:
1. ADD the Auto bell sound slot from the function mapping chart
CV31 = 16, CV32 = 8
----------------------
CV311 = 12
2. Change the sound configuration of the Auto bell sound slot
CV31 = 16, CV32 = 1
----------------------
CV287 = 1
Auto Bell Timer:
The Bell timer is amount of time the bell will play after the horn if the auto timer is active. The timer is broken down into 1/4 of a second increments.
CV169=4 - 1 Second
CV169=8 - 2 Seconds
CV169=12 - 3 Seconds
CV169=16 - 4 Seconds
CV169=20 - 5 Seconds - Default
Etc...
1st Gereration Brake Squeal Template Pack 1
Brake Squeal (SoundCV11)
CV165=0 Composition Shoe
CV166=1 Cast Iron Shoe
EMD 1st Generation Air Dryer Template Pack 1
Air Dryer (SoundCV12)
CV166=0 F7A Air Dryer 1
CV166=1 GP7 Air Dryer 1
CV166=1 GP7U Air Dryer 1
CV166=1 GP7U Air Dryer 2 Hide description more…
The GE "Genesis" series of Locomotives was developed to be the main locomotives for Amtrak. Amtraks EMD F40PH locomotives were aging fast and GE came to the rescue with a more powerful and more fuel efficient design. Some P42 Locomotives were built with a Dual Mode capability utilizing a 3rd Rail shoe for collecting electricity. These engines run on the North East Corridor on Amtrak and on Metro North. The ESU version is the DC model which is much more common. It can be used to represent the P42s used by Amtrak, Via, NJT and Conn DOT. It can also be used in the non-electrified Areas of Metro North.
The P42 has a Very Specific Sound set. No Generic GE sound is correct for it. We have gone out of our way to make sure the sound we provide is as accurate as possible. We’ve even had the opportunity to take a cab in a P42 and take note of exactly how the engine was operated so that we could produce a sound that is absolutely true to the prototype.
This project is a normal idle version. It has a single late (silenced) exhaust stack.
File also contains an "Isolation Switch" Mode on F15 when Standing Still.
Pressing F15 while not moving will lower the prime mover and lock the motor. F15 must be turned off to begin moving.
Another Mode is "Reverser In Center Position". When pressing F24 while stopped, the motor will lock so you can throttle through the notches like the prototype in neutral. F24 must be turned off to begin moving.
You can still use F26 and F27 for manual nothing. You have to keep both F26 and F27 off before pressing F28 to turn on manual notching. Once F28 is on, you can use F26 to notch up and F27 to notch down. F26, F27, and F28 must be turned off to return to normal mode.
This project has "Load" mode. When turning on F29 with F15, F24, F26, F27, F28 off, the prime mover goes into load mode. While you are using load mode, the prime mover will notch up 1 or more notches based on primary load settings(CV104). The throttle notches up using speed instead of requested speed while using the load feature. F29 must be turned off to return to normal mode.
This file has a Special feature providing the sounds and operation of the Head End Power unit. This is used on the prototype loco to provide electricity to the coaches as these locos are almost always used in passenger service.
To engage HEP you must be stopped in Idle. Pressing F26 (Shift 2) will engage the HEP unit and allow the prime mover to run at a higher RPM.
When in stations often the engineer will go into Standby mode to preserve fuel and to allow the noise levels to come down a little. Pressing F27 on the throttle once HEP has already been engaged will allow the prime mover to come down a little. Again this can only be done while sitting still as on the prototype there is not enough RPM to provide power to the coaches and traction motors at the same time in Standy Mode.
3rd Gen Horn Pack 1
Horns (SoundCV9):
CV163=0 Leslie S-3L-R
CV163=1 Leslie S-5T-RRO-R
CV163=2 Nathan K-2H
CV163=3 Nathan K-3H-L
CV163=4 Nathan K-3L
CV163=5 Nathan K-3LA
CV163=6 Nathan K-5HL
CV163=7 Nathan K-5H-R24
CV163=8 Nathan K-5L
CV163=9 Nathan K-5LA
CV163=10 Nathan K-5LA-R24
CV163=11 Nathan K-5L-LA
CV163=12 Nathan K-5L-R24
CV163=13 Nathan P-3
CV163=14 Nathan P-5-R24
GE Modern Auto Bell On/Off Trigger Template Pack 2
Bells (SoundCV10):
CV164=0 GE M 6731022A Steel Bell 031
CV164=1 GE M 6731022A Steel Bell 033
CV164=2 Graham-White E-Bell 001
CV164=3 Graham-White E-Bell 002
CV164=4 Graham-White E-Bell 008
Auto Bell:
Many Second and Third Generation locomotives have been fitted with an Automatic Bell that is triggered when the horn is blown. In MANY cases this cannot even be bypassed on modern locos. Before the FRA mandated this feature on new locomotives the bell was of course turned on and off separately. Some locomotives were delivered with a manual bell and have been converted to an automatic bell. This creates a challenge in sound file creation.
We realize that not every loco with a particular prime mover had this feature. As such we have built in an option to turn the feature on and off. We will set the default in the file to be what is most appropriate for the particular file.
To turn the feature OFF - Auto Bell OFF:
1. Remove the Auto bell sound slot from the function mapping chart
CV31 = 16, CV32 = 8
----------------------
CV311 = 4
2. Change the sound configuration of the Auto bell sound slot
CV31 = 16, CV32 = 1
----------------------
CV287 = 0
To turn the feature ON - Auto Bell ON:
1. ADD the Auto bell sound slot from the function mapping chart
CV31 = 16, CV32 = 8
----------------------
CV311 = 12
2. Change the sound configuration of the Auto bell sound slot
CV31 = 16, CV32 = 1
----------------------
CV287 = 1
Auto Bell Timer:
The Bell timer is amount of time the bell will play after the horn if the auto timer is active. The timer is broken down into 1/4 of a second increments.
CV169=4 - 1 Second
CV169=8 - 2 Seconds
CV169=12 - 3 Seconds
CV169=16 - 4 Seconds
CV169=20 - 5 Seconds - Default
Etc...
3rd Gereration Brake Squeal Template Pack 1
Brake Squeal (SoundCV11)
CV165=0 Composition Shoe #1
CV166=1 Composition Shoe #2
GE Modern Air Dryer Template Pack 1
Air Dryer (SoundCV12)
CV166=0 AC4400CW Air Dryer 1
CV166=1 AC4400CW Air Dryer 2
CV166=2 AC4400CW Air Dryer 3
CV166=3 E4C6T Air Dryer 1 Hide description more…
The EMD GP39-2 is a 4-axle diesel locomotive built by General Motors Electro-Motive Division between 1974 and 1984. 239 examples of this locomotive were built for American railroads. Part of the EMD Dash 2 line, the GP39-2 was an upgraded GP39. The power for this locomotive was provided by a turbocharged 12-cylinder EMD 645E3 diesel engine, which could produce 2,300 horsepower.
GP39, GP39-2, SD39, SDL39, CIE 071, EMD GT22, British Rail Class 57, V/Line N class, New Zealand DFT class, JT22CW, V/Line A class
This would also be VERY close to a GP49.
Recorded from a EMD SD39
This project is a normal idle version. It has a single turbo early exhaust stack.
File also contains an "Isolation Switch" Mode on F15 when Standing Still.
Pressing F15 while not moving will lower the prime mover and lock the motor. F15 must be turned off to begin moving.
Another Mode is "Reverser In Center Position". When pressing F24 while stopped, the motor will lock so you can throttle through the notches like the prototype in neutral. F24 must be turned off to begin moving.
This project has "Run 8" mode. When turning on F26 with F28 off, the prime mover goes to run 8. Turning off F26 returns the prime mover sounds back to normal mode.
This project has "Coast" mode. When turning on F27 with F28 off, the prime mover goes to idle for coasting purposes. Turning off F27 returns the prime mover sounds back to normal mode.
You can still use F26 and F27 for manual nothing. You have to keep both F26 and F27 off before pressing F28 to turn on manual notching. Once F28 is on, you can use F26 to notch up and F27 to notch down. F26, F27, and F28 must be turned off to return to normal mode.
This project has "Load" mode. When turning on F29 with F15, F24, F26, F27, F28 off, the prime mover goes into load mode. While you are using load mode, the prime mover will notch up 1 or more notches based on primary load settings(CV104). The throttle notches up using speed instead of requested speed while using the load feature. F29 must be turned off to return to normal mode.
2nd Generation Horn Pack 2
Horns (SoundCV9):
CV163=0 Leslie S-3E
CV163=1 Leslie S-3L
CV163=2 Nathan K-3H-A
CV163=3 Nathan K-5H-R24
CV163=4 Nathan Nathan K-5L
CV163=5 Nathan Nathan K-5LA-R23
CV163=6 Nathan K-5LA-R24
CV163=7 Nathan M-5
CV163=8 Nathan P-2-R2 (Temp Nathan P-3-OC)
CV163=9 Nathan P-3-OC
CV163=10 Nathan P5
CV163=11 Nathan P-5-OC
CV163=12 Nathan P-5-R24-OC
CV163=13 Prime PM-920 (Temp Leslie S-3L)
CV163=14 Prime PM-990
EMD 2nd Generation Bell Template Pack 3
Bells (SoundCV10):
CV164=0 EMD 8475495 Steel Bell 057
CV164=1 EMD 8004156 Bronze Bell 005
CV164=2 EMD 8004156 Bronze Bell 039
CV164=3 EMD 8475495 Steel Bell 059
CV164=4 EMD 8004156 Bronze Bell 045
CV164=5 UKM B443 Steel Bell 004
2nd Gereration Brake Squeal Template Pack 1
Brake Squeal (SoundCV11)
CV165=0 Composition Shoe #1
CV166=1 Cast Iron Shoe #1
EMD 2nd Generation Air Dryer Template Pack 3
Air Dryer (SoundCV12)
CV166=0 GP39 Air Dryer 1
CV166=1 GP39-2 Air Dryer 1
CV166=2 SD38 Air Dryer 1
CV166=3 SD38-2 Air Dryer 1 Hide description more…
The EMD 567 family of Prime Mover was one of the most widely used in the world! From F-Units to Geeps this popular power house can still be found in many locomotives riding the rails today. Our EMD 12cyl version of the 567B would be appropriate for the following locomotives:
SW7, SW9, NW2, NW3, NW5, RS1325
Although the following locomotives used a slightly different variation of the EMD 12cyl 567, our sound file would be acceptable in the following as well:
SW-1200, GMD1, LWT12 (Aerotrain)
Recorded from a EMD SW9
File also contains an "Isolation Switch" Mode on F15 when Standing Still.
Pressing F15 while not moving will lower the prime mover and lock the motor. F15 must be turned off to begin moving.
Another Mode is "Reverser In Center Position". When pressing F24 while stopped, the motor will lock so you can throttle through the notches like the prototype in neutral. F24 must be turned off to begin moving.
This project has "Run 8" mode. When turning on F26 with F28 off, the prime mover goes to run 8. Turning off F26 returns the prime mover sounds back to normal mode.
This project has "Coast" mode. When turning on F27 with F28 off, the prime mover goes to idle for coasting purposes. Turning off F27 returns the prime mover sounds back to normal mode.
You can still use F26 and F27 for manual nothing. You have to keep both F26 and F27 off before pressing F28 to turn on manual notching. Once F28 is on, you can use F26 to notch up and F27 to notch down. F26, F27, and F28 must be turned off to return to normal mode.
1st Generation Switcher Horn Pack 1
Horns (SoundCV9):
CV163=0 Handcock 4700 Whistle (Temp No Loop)
CV163=1 Leslie A-125
CV163=2 Leslie A-200
CV163=3 Leslie S-25 (Temp Leslie S-2M)
CV163=4 Leslie S-2M
CV163=5 Leslie S-3K
CV163=6 Leslie S-3L
CV163=7 Nathan M-3
CV163=8 Nathan M-5
CV163=9 Nathan P-2 (Temp Nathan P-3-OC)
CV163=10 Nathan P-3-OC
CV163=11 Nathan P-5-OC
CV163=12 Wabco A2
CV163=13 Wabco AA-2 (Temp Wabco A2)
CV163=14 Wabco E-2
EMD 1st Generation Switcher Bell Template Pack 1
Bells (SoundCV10):
CV164=0 EMD 8004156 Bronze Bell 007
CV164=1 EMD 8475495 Steel Bell 011
CV164=2 EMD 8004156 Bronze Bell 008
CV164=3 EMD 8475495 Steel Bell 034
Switcher Brake Squeal Template Pack 1
Brake Squeal (SoundCV11)
CV165=0 Composition Shoe #1
CV166=1 Cast Iron Shoe #1
EMD 1st Generation Switcher Air Dryer Template Pack 1
Air Dryer (SoundCV12)
CV166=0 NW2 Air Dryer 1
CV166=1 NW5 Air Dryer 1
CV166=2 SW7 Air Dryer 1
CV166=3 SW10 Air Dryer 1 Hide description more…
EMD SD90MAC-H Phase II or SD70ACe-T4?
The SD70ACe-T4 is the Tier 4 emissions standards-compliant version of the SD70ACe. The first locomotive, EMDX 1501, was built in summer 2015, and made its debut at the Railway Interchange Expo in Minneapolis, Minnesota during the weekend of October 3–4, 2015. It features a new 4-stroke engine called the EMD 12-1010 "J" series - a V12 with 1010 cu.in displacement for each cylinder. This new prime mover has a two-stage turbocharger system consisting of three turbos; one turbo (the primary/high pressure turbo) for low-mid RPM and two turbos (the secondary/low pressure turbos) for mid-high RPM. The results of this setup are higher power throughout a broader RPM range, better fuel efficiency, and lower emissions. An EGR system is applied as well, allowing the engine to achieve Tier 4 without the use of urea aftertreatment. Another new feature of this engine is the Double-Walled Fuel Injection System that increases safety and provides simplified maintenance works.
The EMD 12-1010 is capable of producing 4,600 hp, but only 4,400 tractive horsepower.[15] With a new computer software for the on-board computer and one inverter per axle (or "P6"; EMD named it "Individual Axle Control") - unlike most of previous EMD locomotives that use one inverter per truck, the SD70ACe-T4 is capable of generating 200,000 lbf. (889.64 kN.) of starting tractive effort, and 175,000 lbf. (778.75 kN.) of continuous tractive effort. Meanwhile, its dynamic braking effort is as much as 105,000 lbf. (467.25 kN.) The amount of starting tractive effort is equal to that of the 6,000 hp SD90MAC-H while, on the other hand, its continuous tractive effort is higher than that of the SD90MAC-H (175,000 lbf. vs. 165,000 lbf.). The units are also equipped with "radial bogies" which offer increased adhesion and better ride quality.
While it retains the basic SD70 designation, the locomotive has several major new features that set it apart from its successful ancestor such as a vibration-isolated powertrain, and alternator start capability. In addition, it features a newly redesigned cab reminiscent of the earlier SD70M, featuring the classic "teardrop" windshields first introduced on the FP45 in December 1967; new fabricated trucks; a longer frame (76 ft. 8 in / 23.37 m); longer radiators with three radiator fans instead of two; an additional step on the front and rear; and a smoother long hood roofline.
Fifteen SD70ACe-T4 demonstrators were built at Muncie, IN by November 2016. Union Pacific Railroad is the first customer to order SD70ACe-T4's. UP 3012-3014, the first production SD70ACe-T4's, were assigned to active service in early November 2016.
Union Pacific will acquire 100 SD70ACe-T4's: 12 former demonstrators will be rostered as UP 3000-3011, and 88 production units (3012-3099). 3012-3056 were built at Bombardier's Sahagun, Mexico plant. 3057-3099 will be built at Muncie, IN, following completion of the Tier 4 credit SD70ACe's UP 8997-9096. All UP SD70ACe-T4's are classified as SD70AHs.
EMDX 1501 will remain in Progress Rail Services ownership as a test bed.
SD70ACeP4-T4's EMDX 1603 and 1604 were built and painted as demonstrators for the BNSF Railway. These units have a B1-1B wheel arrangement akin to the SD70ACe-P4.
In August 2018, CSX Transportation ordered 10 SD70ACe-T4's, of which all have now been delivered. They are classified by CSX as ST70AH.
Norfolk Southern initially also ordered 10 SD70ACe-T4's, but later cancelled the order, instead opting for more SD70ACe Tier-4 credit locomotives.
Text is available under the Creative Commons Attribution-ShareAlike License
Locomotives:
EMD SD70ACE T4
SD70ACeP4-T4
EMD ST70AH
SD90MAC-H Phase II
While not exactly the same, The EMD 12-1010J prime mover sounds very much like the EMD GM16V265H used in the SD90MAC-H Phase II locomotives. While the prime mover has been discontinued and mostly scrapped in the US there are a few operating examples in China and Australia. Hopefully someday a true recording can be acquired but for now this is quite close!
As no models have been created for the SD70ACe T4 at the time of this file release we have set up the function mapping and horn and bell sounds to work with the Athearn SD90MAC-H Phase II locomotives.
Recorded from an EMD SD70ACE T4
File also contains an "Isolation Switch" Mode on F15 when Standing Still.
Pressing F15 while not moving will lower the prime mover to a "Low Idle" and lock the motor. F15 must be turned off to begin moving.
Another Mode is "Reverser In Center Position". When pressing F24 while stopped, the motor will lock so you can throttle through the notches like the prototype in neutral. F24 must be turned off to begin moving.
This project has "Run 8" mode. When turning on F26 with F28 off, the prime mover goes to run 8. Turning off F26 returns the prime mover sounds back to normal mode.
This project has "Coast" mode. When turning on F27 with F28 off, the prime mover goes to idle for coasting purposes. Turning off F27 returns the prime mover sounds back to normal mode.
You can still use F26 and F27 for manual nothing. You have to keep both F26 and F27 off before pressing F28 to turn on manual notching. Once F28 is on, you can use F26 to notch up and F27 to notch down. F26, F27, and F28 must be turned off to return to normal mode.
This file is also equipped with a Smart Start feature that cycles the prime mover on and off at intervals of your choice if the throttle is left at Idle and the loco is stopped.
Smart Start (Sound CV14):
CV168=0 No Smart Start Cycle - Default
CV168=1 - 3 Minute Cycle
CV168=2 - 6 Minute Cylcle
CV168=3 - 9 Minute Cylcle
CV168=4 - 12 Minute Cylcle
Etc.....
CV168=255 - 765 Minute Cycle
SD70ACE/SD70M-2 Horn Pack
Horns (SoundCV9):
CV163=0 Nathan P5
CV163=1 Nathan K5LA
CV163=2 Nathan M3H
CV163=3 Leslie RS-2M
CV163=4 Nathan K3HA - Default
CV163=5 Nathan K3L
CV163=6 Nathan K3H
CV163=7 Nathan K5H
CV163=8 Nathan P5A
CV163=9 Nathan P5 (Old Cast)
CV163=10 Nathan M3RT1
CV163=11 Leslie S3L
CV163=12 Leslie S5T
CV163=13 Nathan K5LR24
CV163=14 Leslie S5TRF
CV163=15 Nathan K5LLA #1
CV163=15 Nathan K5LLA #2
CV163=15 Nathan K5LLA #3
CV163=15 Nathan K5LLA #4
CV163=15 Nathan K5LLA #5
CV163=15 Nathan K5LLA #6
EMD 3rd Generation Bell Template Pack 2
Bells (SoundCV10):
CV164=0 EMD 8475495 Steel Bell 049
CV164=1 EMD 8475495 Steel Bell 066
CV164=2 EMD 8475495 Steel Bell 068
CV164=3 Graham-White E-Bell 006
CV164=4 Graham-White E-Bell 009
3rd Gereration Brake Squeal Template Pack 1
Brake Squeal (SoundCV11)
CV165=0 Composition Shoe #1
CV166=1 Composition Shoe #2
EMD 3rd Generation Air Dryer Template Pack 1
Air Dryer (SoundCV12)
CV166=0 GP60 Air Dryer 1
CV166=1 SD60E Air Dryer 2
CV166=2 SD70M-2 Air Dryer 3
CV166=3 SD70MAC Air Dryer 4 Hide description more…
Beginning in the 1950s, the Union Pacific Railroad sought higher and higher horsepower ratings from its locomotives to help move increasingly heavier and longer trains. Gas-Turbine Electric Locomotives (GTEL) technology promised much higher horsepower ratings over the diesel-electric locomotive designs of the time. General Electric (GE) and American Locomotive Co. (ALCO) built the first GTEL design, a double-ended, 4,500 horsepower, B+B – B+B unit, delivered as UP #50 in 1949.
This groundbreaking design would kick off the “Turbine Era” on the UP, which saw GE building successively larger and more powerful GTELs that would power UP’s hottest trains over the next two decades. The basic principal of the GTEL saw a GE-designed and built gas turbine… essentially a type of jet engine… driving a generator that produced electricity , which was fed to the traction motors on the locomotive’s axels. This design offered several advantages over more conventional diesel-electric locomotive designs of the era, particularly in horsepower. While competing cab and hood designs of the era boasted 1,500 – 1,750 hp, the first GTELs boasted 4,500 hp. Another advantage of the GTEL was it being designed to burn Bunker C heavy fuel oil, which, at the time, was much less expensive compared to conventional diesel fuel oil. GE would build successive batches of GTELs for UP, with each new design featuring improvements and design changes learned from experience from their predecessors.
Despite their outstanding performance, the “Big Blows” were to have relatively short careers. One of the contributing factors to this was rising fuel costs; the once-cheap Bunker C fuel oil the turbines were designed to burn, which refiners practically couldn’t give away early on, saw its price per gallon rise dramatically in the 1960s, eventually negating the fuel cost advantage the turbines enjoyed over their diesel-electric contemporaries. Rising maintenance costs compared to diesel-electrics also became an issue. The turbine engines were complex pieces of machinery compared to a typical diesel prime mover, in particular the delicate turbine fan blades. These factors, along with advances in diesel-electric locomotive horsepower, and limitations on where the GTELs could operate, saw the first of the “Big Blows”, UP 1-4, retired in August of 1968, after scarcely 10 years of service. Their numbers continued to dwindle over the last few years of the decade, with UP #7 holding the distinction of being the last “Big Blow” to operate, pulling its last train on December 26th, 1969. All were officially retired by February 1970, closing out the loud and exciting Turbine Era on the Union Pacific.
As the Evolution of the GTEL Turbines progressed multiple versions were created. Among these were Single Unit and A-B sets with the Hostler Motor in the A unit and the Turbine in the B Unit. The file contains both Hoslter Motor and Turbine in one decoder. If modelling a Single unit just plug in and go! If using this in an A-B set 2 decoders will be needed. Simply turn the volume of the Turbine down in the A Unit decoder, and turn the volume of the Hostler Motor to 0 in the B Unit. DO NOT DISABLE them from function mapping as the Hostler motor sounds "talk" to the Turbine sounds inside the sound schedules within the decoder.
This file does contain "Full Throttle" capabilities. While the Turbine does not go up and down once turned on the Full Throttle abilities allow the Turbine to be Consisted with Diesels as this became a common practice in the late 1950's
2nd Generation Horn Template Pack 2
Horns (SoundCV9):
CV163=0 Nathan P5
CV163=1 Nathan K5LA
CV163=2 Nathan M3H
CV163=3 Leslie RS-2M
CV163=4 Nathan K3HA
CV163=5 Nathan K3L
CV163=6 Nathan K3H
CV163=7 Nathan K5H
CV163=8 Nathan P5A
CV163=9 Nathan P5 (Old Cast)
CV163=10 Nathan M3RT1
CV163=11 Leslie S3L
CV163=12 Leslie S5T
CV163=13 Nathan K5LR24
CV163=14 Leslie S5TRF(Default)
GE Modern Bell Template Pack 1
Bells (SoundCV10):
CV164=0 GE M 6731022A Steel Bell 026
CV164=1 GE M 6731022A Steel Bell 028
CV164=2 GE M 6731022A Steel Bell 030
CV164=3 Graham-White E-Bell 001
CV164=4 Graham-White E-Bell 002
CV164=5 Graham-White E-Bell 008
1st Generation Brake Squeal Template Pack 1
Brake Squeal (SoundCV11)
CV165=0 Composition Shoe
CV166=1 Cast Iron Shoe
FULL THROTTLE features:
Drive Hold: Sound Slot 2 Mapped to F9
Independent Brake: Sound Slot 11 Mapped to F10
Run 8: Sound Slot 20 (not Mapped)
Coast: Sound Slot 21 (not Mapped)
Please Note:
ESU is working hard to utilize all of the abilities of the LokSound 5 technology by mastering brand new files from original audio. As this process takes time we understand that customers may wish to have files that are not yet mastered. For this reason, this file is a converted LokSound 4 file so it can be used on LokSound 5 state of the art decoders. Once the new version of this file has been remastered to the full LokSound capabilities you can use the ESU LokProgrammer to upgrade your decoder for free! Hide description more…
First made in the late 1930's the EMD 12cyl 567 Prime Movers were the power houses in many of EMD's Switchers. At the same time EMD found they could put 2 of these Prime movers together in one carbody to create a more powerful locomotive. Often geared for passenger service the E Units were created.
Locomotives:
E3
E4
E5
E6
E7
E8
E9
1st Generation Horn Template Pack 1
Horns (SoundCV9):
CV163=0 Leslie A-125
CV163=1 Leslie A-200
CV163=2 Leslie S-2M
CV163=3 Leslie S-3K
CV163=4 Leslie S-3L
CV163=5 Leslie S-5T
CV163=6 Nathan M3
CV163=7 Nathan M3H
CV163=8 Nathan M5
CV163=9 Nathan P5 (Old Cast)
CV163=10 Nathan P5R24 (Old Cast)
CV163=11 Nathan P3 (Old Cast)
CV163=12 Nathan P3-R4 (Old Cast)
CV163=13 Nathan P5A (Old Cast)
CV163=14 Wabco E-2
EMD 1st Generation Bell Template Pack 3
Bells (SoundCV10):
CV164=0 EMD 8004156 Bronze Bell 014
CV164=1 EMD 8475495 Steel Bell 013
CV164=2 EMD 8004156 Bronze Bell 015
CV164=3 EMD 8475495 Steel Bell 024
CV164=4 EMD 8475495 Steel Bell 028
CV164=5 Graham-White E-Bell 005
1st Generation Brake Squeal Template Pack 1
Brake Squeal (SoundCV11)
CV165=0 Composition Shoe
CV166=1 Cast Iron Shoe
FULL THROTTLE features:
Drive Hold: Sound Slot 2 Mapped to F9
Independent Brake: Sound Slot 11 Mapped to F10
Run 8: Sound Slot 20 (not Mapped)
Coast: Sound Slot 21 (not Mapped) Hide description more…
Locomotives:
VO-1000
1st Generation Horn Template Pack 1
Horns (SoundCV9):
CV163=0 Leslie A-125
CV163=1 Leslie A-200
CV163=2 Leslie S-2M
CV163=3 Leslie S-3K
CV163=4 Leslie S-3L
CV163=5 Leslie S-5T
CV163=6 Nathan M3
CV163=7 Nathan M3H
CV163=8 Nathan M5
CV163=9 Nathan P5 (Old Cast)
CV163=10 Nathan P5R24 (Old Cast)
CV163=11 Nathan P3 (Old Cast)
CV163=12 Nathan P3-R4 (Old Cast)
CV163=13 Nathan P5A (Old Cast)
CV163=14 Wabco E-2
Bells (SoundCV10):
CV164=0 Baldwin Brass Bell 001
CV164=1 UKM B443 Steel Bell 005
CV164=2 Steam Loco Air Bell
CV164=3 Steam Loco Rope Bell
1st Generation Brake Squeal Template Pack 1
Brake Squeal (SoundCV11)
CV165=0 Composition Shoe
CV166=1 Cast Iron Shoe
FULL THROTTLE features:
Drive Hold: Sound Slot 2 Mapped to F9
Independent Brake: Sound Slot 11 Mapped to F10
Run 8: Sound Slot 20 (not Mapped)
Coast: Sound Slot 21 (not Mapped)
Please Note:
ESU is working hard to utilize all of the abilities of the LokSound 5 technology by mastering brand new files from original audio. As this process takes time we understand that customers may wish to have files that are not yet mastered. For this reason, this file is a converted LokSound 4 file so it can be used on LokSound 5 state of the art decoders. Once the new version of this file has been remastered to the full LokSound capabilities you can use the ESU LokProgrammer to upgrade your decoder for free! Hide description more…
The EMD 710 is a line of diesel engines built by Electro-Motive Diesel (EMD). Introduced in 1985, the 710 series replaced the earlier EMD 645 series. Since its introduction, EMD has continually upgraded the 710G diesel engine. Power output has increased from 3,800 horsepower on 1985's 16-710G3A to 4,500 horsepower on 2012's 16-710G3C-T2. Over the production span of certain locomotive models, upgraded engine models have been fitted when these became available. For example, an early 1994-built SD70MAC had a 16-710G3B, whereas a later 2003-built SD70MAC would have a 16-710G3C-T1.
In 2005 EMD was released a Tier 2 710 prime mover for thier upcoming SD70M-2 and SD70ACe models. The SD70M-2 is a DC traction version of the SD70ACe, and the two models are nearly identical in every other respect. Like the SD70ACe, the SD70M-2 models are equipped with the 16-710G3C-T2 prime mover which is rated at 4,300 horsepower. One of the main differences in the SD70M-2/SD70ACes from previous SD70s is the addition of Air Start. This loud burst of air in the start sequence is not present on most earlier EMD locomotives. All SD70M-2s and SD70ACes, except for the ones bought by CITX, are equipped with the Airchime model K5LLA air horn and an electronic bell. Due to this Air Start these locomotives have a period of High Idle just after start up to recharge the air and warm up the locomotive.
Locomotives:
SD70M-2, SD70ACe
Recorded from a EMD SD70ACE
File also contains an "Isolation Switch" Mode on F15 when Standing Still.
Pressing F15 while not moving will lower the prime mover to a "Low Idle" and lock the motor. F15 must be turned off to begin moving.
Another Mode is "Reverser In Center Position". When pressing F24 while stopped, the motor will lock so you can throttle through the notches like the prototype in neutral. F24 must be turned off to begin moving.
This project has "Run 8" mode. When turning on F26 with F28 off, the prime mover goes to run 8. Turning off F26 returns the prime mover sounds back to normal mode.
This project has "Coast" mode. When turning on F27 with F28 off, the prime mover goes to idle for coasting purposes. Turning off F27 returns the prime mover sounds back to normal mode.
You can still use F26 and F27 for manual nothing. You have to keep both F26 and F27 off before pressing F28 to turn on manual notching. Once F28 is on, you can use F26 to notch up and F27 to notch down. F26, F27, and F28 must be turned off to return to normal mode.
This file is also equipped with a Smart Start feature that cycles the prime mover on and off at intervals of your choice if the throttle is left at Idle and the loco is stopped.
Smart Start (Sound CV14):
CV168=0 No Smart Start Cycle - Default
CV168=1 - 3 Minute Cycle
CV168=2 - 6 Minute Cylcle
CV168=3 - 9 Minute Cylcle
CV168=4 - 12 Minute Cylcle
Etc.....
CV168=255 - 765 Minute Cycle
SD70ACE/SD70M-2 Horn Pack
Horns (SoundCV9):
CV163=0 Nathan P5
CV163=1 Nathan K5LA
CV163=2 Nathan M3H
CV163=3 Leslie RS-2M
CV163=4 Nathan K3HA
CV163=5 Nathan K3L
CV163=6 Nathan K3H
CV163=7 Nathan K5H
CV163=8 Nathan P5A
CV163=9 Nathan P5 (Old Cast)
CV163=10 Nathan M3RT1
CV163=11 Leslie S3L
CV163=12 Leslie S5T
CV163=13 Nathan K5LR24
CV163=14 Leslie S5TRF
CV163=15 Nathan K5LLA #1
CV163=15 Nathan K5LLA #2
CV163=15 Nathan K5LLA #3
CV163=15 Nathan K5LLA #4
CV163=15 Nathan K5LLA #5
CV163=15 Nathan K5LLA #6 - Default
EMD 3rd Generation Bell Template Pack 2
Bells (SoundCV10):
CV164=0 EMD 8475495 Steel Bell 049
CV164=1 EMD 8475495 Steel Bell 066
CV164=2 EMD 8475495 Steel Bell 068
CV164=3 Graham-White E-Bell 006
CV164=4 Graham-White E-Bell 009
3rd Gereration Brake Squeal Template Pack 1
Brake Squeal (SoundCV11)
CV165=0 Composition Shoe #1
CV166=1 Composition Shoe #2
EMD 3rd Generation Air Dryer Template Pack 1
Air Dryer (SoundCV12)
CV166=0 GP60 Air Dryer 1
CV166=1 SD60E Air Dryer 2
CV166=2 SD70M-2 Air Dryer 3
CV166=3 SD70MAC Air Dryer 4 Hide description more…
Introduced in 2012, General Electric's Tier 4 GEVo Series represents the latest in diesel-electric locomotive technology. The GE Tier 4 GEVo is designed to meet increasingly stringent Environmental Protection Agency (EPA) emissions regulations.
The EPA “Tier” emissions standards are a series, or Tiers, of allowable emissions levels based upon a locomotives’ date of manufacture. The highest and most stringent tier level, Tier 4, sets maximum allowable NOx and hydrocarbon emissions levels for locomotives built for domestic use 2015 onward.
While similar in appearance to previous GE GEVo designs, the Tier 4 models featured a longer frame compared to their predecessors. This allows for a larger radiator “cab” (GE refers to the various sections of the long hood as “cabs”), and a "hump" over the engine cab for advanced exhaust treatment equipment.
Initially, a boxy housing filled the entire roofline on the blue-painted field test/demonstrator units. Due to changes in treatment equipment and clearance issues, the "hump" would decrease in size and shape into a boxy compartment around the exhaust on initial production units. This culminated in an angled compartment surrounding the exhaust manifold on the latest production versions (2016+).
Despite boxier engine cab rooflines and a radically styled radiator cab, the basic Tier 4 design shares a family appearance with GE safety cab-equipped units going back to the DASH-9s of the 1990s. It even includes the same 12-cylinder GEVo-12 series prime mover and 4,400hp as its predecessor model.
The Tier 4 units have proven to be popular with the major railroads including BNSF Railway, Canadian National, CSX Transportation, Norfolk Southern, and Union Pacific. While GE has settled on a basic carbody design to keep production costs down, there are notable variations and detail differences due to customer specifications.
With many units built for railroads across the US and in Canada, the Tier 4 GEVo can be seen operating nationwide in a variety of assignments.
3rd Generation Horn Template Pack 1
Horns (SoundCV9):
CV163=0 Nathan P5
CV163=1 Nathan K5LA
CV163=2 Nathan M3H
CV163=3 Leslie RS-2M
CV163=4 Nathan K3HA
CV163=5 Nathan K3L
CV163=6 Nathan K3H
CV163=7 Nathan K5H
CV163=8 Nathan P5A
CV163=9 Nathan P5 (Old Cast)
CV163=10 Nathan M3RT1
CV163=11 Leslie S3L
CV163=12 Leslie S5T
CV163=13 Nathan K5LR24
CV163=14 Leslie S5TRF
CV163=15 Nathan K5HLL #1
CV163=16 Nathan K5HLL #2(Default)
GE Modern Bell Template Pack 2
Bells (SoundCV10):
CV164=0 GE M 6731022A Steel Bell 031
CV164=1 GE M 6731022A Steel Bell 033
CV164=2 Graham-White E-Bell 001
CV164=3 Graham-White E-Bell 002(Default)
CV164=4 Graham-White E-Bell 008
3rd Generation Brake Squeal Template Pack 1
Brake Squeal (SoundCV11)
CV165=0 Composition Shoe #1
CV166=1 Composition Shoe #2
FULL THROTTLE features:
Drive Hold: Sound Slot 2 Mapped to F9
Independent Brake: Sound Slot 11 Mapped to F10
Run 8: Sound Slot 20 (not Mapped)
Coast: Sound Slot 21 (not Mapped)
Please Note:
ESU is working hard to utilize all of the abilities of the LokSound 5 technology by mastering brand new files from original audio. As this process takes time we understand that customers may wish to have files that are not yet mastered. For this reason, this file is a converted LokSound 4 file so it can be used on LokSound 5 state of the art decoders. Once the new version of this file has been remastered to the full LokSound capabilities you can use the ESU LokProgrammer to upgrade your decoder for free! Hide description more…
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