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In October 1956 the NSWGR took delivery of 4301, the first unit of an order for six locomotives to be built by A Goninan and Co at their Broadmeadow plant in suburban Newcastle. In June 1957 the last of the class, 4306, entered service. They were fitted with an Alco 244 engine and were rated at 1600hp (1193kW) for traction.
While recorded from a 43 Class this 12cyl 244 prime mover sound file would also work in the following locomotives.
RS-2, RSC-2, RS-3, RSC-3, RS-10, RSC-2, RSC-3, RSD-4, RSD-5, MRS-1, RSC-24, FCA-3, DL-500, And others!
Although there are slight differences, this sound file could also be used in the following locomotives:
FA-1, FB-1, FA-2, FB-2, FPA-2, FPB-2
As there are no 16cyl 244 equipped locos remaining, the 12cyl 244 would be a close stand in for the following Locomotives:
PA-1, PB-1, PA-2, PB-2, RSD-7
Recorded from 4306 at the Rail Transport Museum at Thirlmere.
This project is a normal idle version. It has a single 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.
Australia Horn Pack 1
Horns (SoundCV9):
CV163=0 Australian Leslie S-2M (Leslie S-2M)
CV163=1 Australian Leslie S-3K-R (Leslie S-3K-R)
CV163=2 Australian Nathan K5H (Nathan K-5H)
CV163=3 Australian Nathan M3 (Nathan M-3)
CV163=4 Australian Nathan M3H (Nathan M-3H)
CV163=5 Australian Nathan M5 (Nathan M-5)
CV163=6 Australian Nathan P5( Nathan P5)
CV163=7 Australian Nathan P5 (Old Cast) (Nathan P-5-OC)
CV163=8 Directional RVB Hurricane 5-Chime (RVB Hurricane 5-Chime)
CV163=9 RVB Hurricane 3 Chime (RVB Hurricane 5-Chime)
CV163=10 RVB Hurricane 5-Chime
CV163=11 RVB Hurricane 5-Chime V2 (RVB Hurricane 5-Chime)
CV163=12 Twin RVB Hurricane 5-Chime (RVB Hurricane 5-Chime)
CV163=13 Wabco AABB #1
CV163=14 Wabco AABB #2
CV163=15 Westinghouse Single A-B (Wabco AABB #2)
CV163=16 Kockum Sonics 5 Chime
CV163=17 Nathan Airchime K2
CV163=18 Nathan K5UL-AU-LS
Australia Bell Template Pack 1
Bells (SoundCV10):
CV164=0 ALCO Bronze Bell 010
CV164=1 GE M 6731022A Steel Bell 001
CV164=2 EMD 8004156 Bronze Bell 001
CV164=3 EMD 8004156 Bronze Bell 009
CV164=4 EMD 8475495 Steel Bell 002
CV164=4 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 #1
CV166=1 Cast Iron Shoe #1
ALCO Air Dryer Template Pack 1
Air Dryer (SoundCV12)
CV166=0 S-1 Air Dryer 1
CV166=1 C-425 Air Dryer 1
CV166=2 RS-18 Air Dryer 1
CV166=3 RS-18 Air Dryer 2 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…
The Heisler locomotive was the last variant of the three major types of geared steam locomotives.
Charles L. Heisler received a patent for the design in 1892, following the construction of a prototype in 1891. Somewhat similar to a Climax locomotive, Heisler's design featured two cylinders canted inwards at a 45-degree angle to form a 'V-twin' arrangement. Power then went to a longitudinal drive shaft in the center of the frame that drove the outboard axle on each powered truck through bevel gears in an enclosed gearcase riding on the axle between the truck frames. The inboard axle on each truck was then driven from the outboard one by external side (connecting) rods.
In 1897, Heisler received a patent on a three-truck locomotive. As with Class C Shay locomotives, the tender rode on the third truck. Unlike the Shay, Heisler's design did not have a continuous string of line shafting running the length of the engine. Instead, the tender truck was driven by a line shaft above the shaft driving the main engine trucks, connected to it through spur gears. This patent also covered use of a 4-cylinder 'vee four' cylinder configuration.
The Heisler was the fastest of the geared steam locomotive designs, and yet was still claimed by its manufacturer to have the same low-speed hauling ability.
Whistles:
CV163=0 SP 4449 Daylight
CV163=1 DRG&W 5 Chime
CV163=2 SOO Line 1003 - Default
CV163=3 DL&W 5 Chime
CV163=4 WM 6 Chime
CV163=5 Heisler
Bells:
CV164=0 Pnuematic Bell 1
CV164=1 Pnuematic Bell 2
CV164=2 Pnuematic Bell 3
CV164=3 Steam Loco Rope Pull Bell
CV164=4 SOO Line 1003 Bell - Default
CV164=5 DRG&W K27 Bell
CV164=6 Heisler
Air Pumps
CV166=0 Cross Compound #1 Heisler
CV166=1 Cross Compound #2 K27 463
CV166=2 Single Stage #1 Z27
CV166=3 Single Stage #2 T16.1
The ESU Full Throttle Steam files now include a few new logic features for added operational realism while still leaving you in control of HOW YOU wish to run your locomotive.
Heavy Load: F9 by default.
Similar to the “Drive Hold” button on the Full Throttle Diesel files “Heavy Load” allows you to adjust the “Steam Cut Off Valve” at any speed allowing for a fierce full chuff or drifting with snifters and rod clanks. Heavy load can also act as an offset allowing speed adjustments when engaged if desired.
Coast: F4 by default.
Opposite of “Heavy Load” Coast allows for a negative offset allow drifting sounds of Rods and snifter valves at any speed. You again have the option to hold the speed to adjust the speed with this offset active. Even allowing for an increase of speed with no chuffs as if drifting downhill.
Independent brake: F10 by default
Identical to the Full Throttle Diesel files. This allows for the locomotive to stop more quickly than its regular momentum would normally carry it. This one is pretty self-explanatory – just press the brake and come to a stop! For additional options there are 3 Braking rates that can be set up for user preference.
Articulation: Sound Slot 2
By adding Sound Slot 2 to the F8 Function Mapping and enabling the "Secondary Trigger" (CV250) you can add a second set of drivers making any ESU Steam File articulated.
Function Mappable Air Horn: F21 by default
Sound Slot 21.
Many Steam locomotives had a single chime airhorn equipped. Those modelling SP, MILW, and others can now have this feature and put it where they would like in the function mapping in addition to the whistle.
S0787 - Release Notes
===================================================
V-3 R-3:
===================================================
- updated independent brake
- updated boiler hiss
- updated steam chuff sound slot
V-4 R-4:
===================================================
- changed whistle sound slot 3 maximum sound slot speed to 128 Hide description more…
N.S.W.G.R. Class Z27 2705
**Please Note**
Responding to user feedback this file uses "Standard North American Function Mapping".
This is a template used for all steam files from ESU LLC.
While we realize most Australian Locomotives do not use Bells or Air Horns they are included in the mapping due to the template used. This is easily changable so the user can set the function mapping work as desired.
The Z27 class (formerly G.1204 class) was a class of steam locomotives built by Hunslet Engine Company for the New South Wales Government Railways of Australia. One example is preserved in #2705 at the New South Wales Rail Transport Museum.
Whistles:
CV163=0 UP 844 "Steamboat"
CV163=1 SP&S 3 Chime
CV163=2 Steamboat 3 Chime
CV163=3 SP 4449 Daylight
CV163=4 DRG&W 5 Chime
CV163=5 SOO Line 1003
CV163=6 DL&W 5 Chime
CV163=7 WM 6 Chime
CV163=8 Z27 Class 2705 - Default
Bells:
CV164=0 Pnuematic Bell 1
CV164=1 Pnuematic Bell 2
CV164=2 Pnuematic Bell 3
CV164=3 Steam Loco Rope Pull Bell - Default
CV164=4 SOO Line 1003 Bell
CV164=5 UP 844 Air Ringer Bell
CV164=6 SP 4449 Bell
CV164=7 DRG&W K27 Bell
Dynamos:
CV165=0 Soo Line 1003 Dynamo
CV165=1 K27 463 Dynamo
CV165=2 SPTriple Dynamo
CV165=3 UP Dual Dynamo
CV165=4 Z27 Dynamo - Default
CV165=5 T16.1 Dynamo
Air Pumps
CV166=0 Cross Compound #1 Soo Line 1003
CV166=1 Cross Compound #2 K27 463
CV166=2 Cross Compound #3 SP 4449
CV166=3 Cross Compound #4UP 844
CV166=4 Single Stage #1 Z27 - Default
CV166=5 Single Stage #2 T16.1
The ESU Full Throttle Steam files now include a few new logic features for added operational realism while still leaving you in control of HOW YOU wish to run your locomotive.
Heavy Load: F9 by default.
Similar to the “Drive Hold” button on the Full Throttle Diesel files “Heavy Load” allows you to adjust the “Steam Cut Off Valve” at any speed allowing for a fierce full chuff or drifting with snifters and rod clanks. Heavy load can also act as an offset allowing speed adjustments when engaged if desired.
Coast: F4 by default.
Opposite of “Heavy Load” Coast allows for a negative offset allow drifting sounds of Rods and snifter valves at any speed. You again have the option to hold the speed to adjust the speed with this offset active. Even allowing for an increase of speed with no chuffs as if drifting downhill.
Independent brake: F10 by default
Identical to the Full Throttle Diesel files. This allows for the locomotive to stop more quickly than its regular momentum would normally carry it. This one is pretty self-explanatory – just press the brake and come to a stop! For additional options there are 3 Braking rates that can be set up for user preference.
Articulation: Sound Slot 2
By adding Sound Slot 2 to the F8 Function Mapping and enabling the "Secondary Trigger" (CV250) you can add a second set of drivers making any ESU Steam File articulated.
Function Mappable Air Horn: F21 by default
Sound Slot 21.
Many Steam locomotives had a single chime airhorn equipped. Those modelling SP, MILW, and others can now have this feature and put it where they would like in the function mapping in addition to the whistle.
S0740 - Release Notes
===================================================
V-2 R-2:
===================================================
- updated independent brake
- updated boiler hiss
V-3 R-3:
===================================================
- updated steam chuff sound slot
V-4 R-4:
===================================================
- changed whistle sound slot 3 maximum sound slot speed to 128 Hide description more…
The Norfolk and Western Class Y6b was a class of 2-8-8-2 Mallets built between 1948-1952 with a total of 30 examples built for the Norfolk and Western Railway.
The Y6b was known as the workhorse of the Norfolk and Western Railway and the epitome of the compound mallet development design.
They were an improvement of the previous Y6a class with the only difference between the Y6as and the Y6bs was that the Y6bs were longer than the Y6as, had a larger firebox and had a greater tractive effort. With the Y6as only generating a tractive effort of 166,000 lbf (738.5 kN) and the Y6bs generating a tractive effort of 170,000 lbf (756.2 kN). The locomotives delivered 5,500 horsepower. The weight of a Y6b locomotive about 582,900 lbs with 522,850 lbs directly on the drivers.
When the Norfolk and Western Railway ceased their mainline steam operations in 1959, 50 of the Y6s were still running out serviceable miles in the coal fields waiting for the final order of diesels to replace them. The last of the Class Ys were retired in the summer of 1960.
Whistles:
CV163=0 N&W Y6B
CV163=1 N&W Hooter
CV163=2 N&W #475
CV163=3 N&W Boiler Crane
CV163=4 Hooter
CV163=5 PRR Flat Top Single-Chime Banshee Ed2
CV163=6 CN #89 Hooter
CV163=7 UP #4014 Hancock 3-Chime
CV163=8 UP #844
CV163=9 GSMR #1702
Bells:
CV164=0 #3 N&W Y6B Bell
CV164=1 #765 NKP Bell
CV164=2EV #11 Bell
Brake Squeal:
CV165=0 Brake Squeal #1 Long
CV165=1 Brake Squeal #1 Short
CV165=2 Brake Squeal #2 Long
CV165=3 Brake Squeal #2 Short
CV165=4 Brake Squeal #3 Long
CV165=5 Brake Squeal #4Short
Dynamos:
CV166=0 Soo Line 1003 Dynamo
CV166=1 K27 463 Dynamo
Air Pumps
CV167=0 Cross Compound #2 K27 463
CV167=1 Cross Compound slow #2 SP 4449
CV167=2 Westinghouse Single Stage 9" Air Pump HVSR #3
Reversers
CV168=0 Johnson Bar
CV168=1 Power Reverse
The ESU Full Throttle Steam files now include a few new logic features for added operational realism while still leaving you in control of HOW YOU wish to run your locomotive.
Heavy Load: F9 by default.
Similar to the “Drive Hold” button on the Full Throttle Diesel files “Heavy Load” allows you to adjust the “Steam Cut Off Valve” at any speed allowing for a fierce full chuff or drifting with snifters and rod clanks. Heavy load can also act as an offset allowing speed adjustments when engaged if desired.
Coast: F4 by default.
Opposite of “Heavy Load” Coast allows for a negative offset allow drifting sounds of Rods and snifter valves at any speed. You again have the option to hold the speed to adjust the speed with this offset active. Even allowing for an increase of speed with no chuffs as if drifting downhill.
Independent brake: F10 by default
Identical to the Full Throttle Diesel files. This allows for the locomotive to stop more quickly than its regular momentum would normally carry it. This one is pretty self-explanatory – just press the brake and come to a stop! For additional options there are 3 Braking rates that can be set up for user preference.
Articulation: Sound Slot 2
By adding Sound Slot 2 to the F8 Function Mapping and enabling the "Secondary Trigger" (CV250) you can add a second set of drivers making any ESU Steam File articulated.
Function Mappable Air Horn: F21 by default
Sound Slot 21.
Many Steam locomotives had a single chime airhorn equipped. Those modelling SP, MILW, and others can now have this feature and put it where they would like in the function mapping in addition to the whistle.
S0557 - Release Notes
===================================================
V-1 R-1:
===================================================
- new project Hide description more…
New Orleans' St. Charles Streetcar Line is the world's oldest continuously operated electric railway line. Electric operation began in 1893, when streetcars took over after 20 years of horsecar operation. In 1922, operation of all New Orleans streetcar lines was taken over by New Orleans Public Service Inc., or NOPSI for short. In 1923, the current streetcars, designed and built by the Perley Thomas Car Company of High Point, North Carolina, were introduced. In 1973, the St. Charles Line and the remaining fleet of 35 Perley Thomas cars received national recognition when they were named to the National Register of Historic Places.
Many of these cars are still in use today!
This ESU Sound file is set up for the Bowser HO Cars but it can be used in similar cars in any scale.
This car has direction gong bells and operates much like the Original car it was recorded from.
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 Shay locomotive was the most widely used geared steam locomotive. The locomotives were built to the patents of Ephraim Shay, who has been credited with the popularization of the concept of a geared steam locomotive.
Shay locomotives had regular fire-tube boilers offset to the left to provide space for, and counterbalance the weight of, a two or three cylinder "motor," mounted vertically on the right with longitudinal drive shafts extending fore and aft from the crankshaft at wheel axle height. These shafts had universal joints and square sliding prismatic joints to accommodate the swiveling trucks. Each axle was driven by a separate bevel gear, with no side rods.
The strength of these engines is that all wheels, including, in some engines, those under the tender, are driven so that all the weight develops tractive effort. A high ratio of piston strokes to wheel revolutions allowed them to run at partial slip, where a conventional rod engine would spin its drive wheels and burn rails, losing all traction.
Shay locomotives were often known as sidewinders or stemwinders for their side-mounted drive shafts. Most were built for use in the United States, but many were exported, to about thirty countries, either by Lima, or after they had reached the end of their usefulness in the US.
Whistles:
CV163=0 SP 4449 Daylight
CV163=1 DRG&W 5 Chime
CV163=2 SOO Line 1003 - Default
CV163=3 DL&W 5 Chime
CV163=4 WM 6 Chime
CV163=5 Shay
CV163=6 Shay #2
Bells:
CV164=0 Pnuematic Bell 1
CV164=1 Pnuematic Bell 2
CV164=2 Pnuematic Bell 3
CV164=3 Steam Loco Rope Pull Bell
CV164=4 SOO Line 1003 Bell - Default
CV164=5 DRG&W K27 Bell
CV164=6 Shay
Air Pumps
CV166=0 Cross Compound #1 Heisler
CV166=1 Cross Compound #2 K27 463
CV166=2 Single Stage #1 Z27
CV166=3 Single Stage #2 T16.1
The ESU Full Throttle Steam files now include a few new logic features for added operational realism while still leaving you in control of HOW YOU wish to run your locomotive.
Heavy Load: F9 by default.
Similar to the “Drive Hold” button on the Full Throttle Diesel files “Heavy Load” allows you to adjust the “Steam Cut Off Valve” at any speed allowing for a fierce full chuff or drifting with snifters and rod clanks. Heavy load can also act as an offset allowing speed adjustments when engaged if desired.
Coast: F4 by default.
Opposite of “Heavy Load” Coast allows for a negative offset allow drifting sounds of Rods and snifter valves at any speed. You again have the option to hold the speed to adjust the speed with this offset active. Even allowing for an increase of speed with no chuffs as if drifting downhill.
Independent brake: F10 by default
Identical to the Full Throttle Diesel files. This allows for the locomotive to stop more quickly than its regular momentum would normally carry it. This one is pretty self-explanatory – just press the brake and come to a stop! For additional options there are 3 Braking rates that can be set up for user preference.
Articulation: Sound Slot 2
By adding Sound Slot 2 to the F8 Function Mapping and enabling the "Secondary Trigger" (CV250) you can add a second set of drivers making any ESU Steam File articulated.
Function Mappable Air Horn: F21 by default
Sound Slot 21.
Many Steam locomotives had a single chime airhorn equipped. Those modelling SP, MILW, and others can now have this feature and put it where they would like in the function mapping in addition to the whistle.
S0514 - Release Notes
===================================================
V-6 R-2:
===================================================
- updated independent brake
- updated boiler hiss
V-7 R-3:
===================================================
- updated independent brake
V-8 R-4:
===================================================
- changed whistle sound slot 3 maximum sound slot speed to 128 Hide description more…
The 2-8-2 wheel configuration on steam locomotives was one of the most highly used configurations made. This type of locomotive with 2 pilot wheels, 8 drive wheels, and 2 trailing wheels to support a larger firebox was first built for the Emperor of Japan, thus the name Mikado type. The first Mikado built for service in the US was built in 1901 and was owed by the Bismarck, Washburn and Great Falls until 1904 when it was acquired by the Soo Line.
This recording comes from the newer L-1 Class SOO Line 2-8-2 #1003. The SOO #1003 is a very average 2-8-2 not much different than the USRA light Mikado design. It does have slightly larger cylinders and a boiler pressure of about 170 PSI.
Originally delivered with a Westinghouse Cross Compound Air Pump, Walschaerts valve gear, an oil headlight, and a manual Johnson Bar, it was gradually upgraded to include a Power Reverse gear and electric headlights and class lights by about 1920.
It is important to note that wheel arrangement does very little to change the sounds of a steam locomotive. (Articulation aside). Boiler pressure, Stack size, Cylinder size and even the engineer at the throttle can all have more effect on the sound of locomotive than how many wheels are beneath it. While our dedication to accuracy is paramount, causing us to release very specific files, we will also be releasing some more generic files to try to give broad range to locomotives owned by MANY railroads. While this is a fairly common design and the sounds are similar to many locomotives, this ESU Full Throttle File is quite specific to the SOO #1003. We've included a few extra whistles for some variation.
Whistles:
CV163=0 UP 844 "Steamboat"
CV163=1 SP&S 3 Chime
CV163=2 Steamboat 3 Chime
CV163=3 SP 4449 Daylight
CV163=4 DRG&W 5 Chime
CV163=5 SOO Line 1003 - Default
CV163=6 DL&W 5 Chime
CV163=7 WM 6 Chime
Bells:
CV164=0 Pnuematic Bell 1
CV164=1 Pnuematic Bell 2
CV164=2 Pnuematic Bell 3
CV164=3 Steam Loco Rope Pull Bell
CV164=4 SOO Line 1003 Bell - Default
CV164=5 UP 844 Air Ringer Bell
CV164=6 SP 4449 Bell
CV164=7 DRG&W K27 Bell
Dynamos:
CV165=0 Soo Line 1003 Dynamo
CV165=1 K27 463 Dynamo
CV165=2 SPTriple Dynamo
CV165=3 UP Dual Dynamo
CV165=4 Z27 Dynamo
CV165=5 T16.1 Dynamo
Air Pumps
CV166=0 Cross Compound #1 Soo Line 1003
CV166=1 Cross Compound #2 K27 463
CV166=2 Cross Compound #3 SP 4449
CV166=3 Cross Compound #4UP 844
CV166=4 Single Stage #1 Z27
CV166=5 Single Stage #2 T16.1
The ESU Full Throttle Steam files now include a few new logic features for added operational realism while still leaving you in control of HOW YOU wish to run your locomotive.
Heavy Load: F9 by default.
Similar to the “Drive Hold” button on the Full Throttle Diesel files “Heavy Load” allows you to adjust the “Steam Cut Off Valve” at any speed allowing for a fierce full chuff or drifting with snifters and rod clanks. Heavy load can also act as an offset allowing speed adjustments when engaged if desired.
Coast: F4 by default.
Opposite of “Heavy Load” Coast allows for a negative offset allow drifting sounds of Rods and snifter valves at any speed. You again have the option to hold the speed to adjust the speed with this offset active. Even allowing for an increase of speed with no chuffs as if drifting downhill.
Independent brake: F10 by default
Identical to the Full Throttle Diesel files. This allows for the locomotive to stop more quickly than its regular momentum would normally carry it. This one is pretty self-explanatory – just press the brake and come to a stop! For additional options there are 3 Braking rates that can be set up for user preference.
Articulation: Sound Slot 2
By adding Sound Slot 2 to the F8 Function Mapping and enabling the "Secondary Trigger" (CV250) you can add a second set of drivers making any ESU Steam File articulated.
Function Mappable Air Horn: F21 by default
Sound Slot 21.
Many Steam locomotives had a single chime airhorn equipped. Those modelling SP, MILW, and others can now have this feature and put it where they would like in the function mapping in addition to the whistle.
S0574 - Release Notes
===================================================
V-3 R-3:
===================================================
- updated independent brake
- updated boiler hiss
V-4 R-4:
===================================================
- updated steam chuff sound slot
V-5 R-5:
===================================================
- changed whistle sound slot 3 maximum sound slot speed to 128 Hide description more…
Southern Pacific 4449, also known as the Daylight, is the only surviving example of Southern Pacific Railroad's GS-4 class of steam locomotives and one of only two GS-class locomotives surviving, the other being GS-6 4460. The locomotive is a streamlined 4-8-4 "Northern"-type steam locomotive. GS is abbreviated from "Golden State", a nickname for California (where the locomotive was operated in regular service), or "General Service".
The locomotive was built by Lima Locomotive Works in Lima, Ohio, for SP in May 1941; it received the red-and-orange "Daylight" paint scheme for the passenger trains of the same name which it hauled for most of its service career. No. 4449 was retired from revenue service in 1956 and put into storage. In 1958, the SP donated the locomotive to the City of Portland, Oregon. The City then put the locomotive on static display in Oaks Amusement Park, where it remained until 1974.
The locomotive was then restored to operation for use in the American Freedom Train, which toured the 48 contiguous United States as part of the nation's 1976 Bicentennial celebration. The engine has operated in excursion service throughout that area since 1984.
The locomotive's operations are based at the Oregon Rail Heritage Center in Portland, Oregon, where it is maintained by a group of volunteers named the Friends of SP 4449. In 1983, a poll of Trains magazine readers selected 4449 as being the most popular locomotive in the nation.
This recording comes from SP 4449.
Whistles:
CV163=0 UP 844 "Steamboat"
CV163=1 SP&S 3 Chime
CV163=2 Steamboat 3 Chime
CV163=3 SP 4449 Daylight - Default
CV163=4 DRG&W 5 Chime
CV163=5 SOO Line 1003
CV163=6 DL&W 5 Chime
CV163=7 WM 6 Chime
Bells:
CV164=0 Pnuematic Bell 1
CV164=1 Pnuematic Bell 2
CV164=2 Pnuematic Bell 3
CV164=3 Steam Loco Rope Pull Bell
CV164=4 SOO Line 1003 Bell
CV164=5 UP 844 Air Ringer Bell
CV164=6 SP 4449 Bell - Default
CV164=7 DRG&W K27 Bell
Dynamos:
CV165=0 Soo Line 1003 Dynamo
CV165=1 K27 463 Dynamo
CV165=2 SPTriple Dynamo - Default
CV165=3 UP Dual Dynamo
CV165=4 Z27 Dynamo
CV165=5 T16.1 Dynamo
Air Pumps
CV166=0 Cross Compound #1 Soo Line 1003
CV166=1 Cross Compound #2 K27 463
CV166=2 Cross Compound #3 SP 4449 - Default
CV166=3 Cross Compound #4UP 844
CV166=4 Single Stage #1 Z27
CV166=5 Single Stage #2 T16.1
The ESU Full Throttle Steam files now include a few new logic features for added operational realism while still leaving you in control of HOW YOU wish to run your locomotive.
Heavy Load: F9 by default.
Similar to the “Drive Hold” button on the Full Throttle Diesel files “Heavy Load” allows you to adjust the “Steam Cut Off Valve” at any speed allowing for a fierce full chuff or drifting with snifters and rod clanks. Heavy load can also act as an offset allowing speed adjustments when engaged if desired.
Coast: F4 by default.
Opposite of “Heavy Load” Coast allows for a negative offset allow drifting sounds of Rods and snifter valves at any speed. You again have the option to hold the speed to adjust the speed with this offset active. Even allowing for an increase of speed with no chuffs as if drifting downhill.
Independent brake: F10 by default
Identical to the Full Throttle Diesel files. This allows for the locomotive to stop more quickly than its regular momentum would normally carry it. This one is pretty self-explanatory – just press the brake and come to a stop! For additional options there are 3 Braking rates that can be set up for user preference.
Articulation: Sound Slot 2
By adding Sound Slot 2 to the F8 Function Mapping and enabling the "Secondary Trigger" (CV250) you can add a second set of drivers making any ESU Steam File articulated.
Function Mappable Air Horn: F21 by default
Sound Slot 21.
Many Steam locomotives had a single chime airhorn equipped. Those modelling SP, MILW, and others can now have this feature and put it where they would like in the function mapping in addition to the whistle.
S0737 - Release Notes
===================================================
V-3 R-3:
===================================================
- updated independent brake
- updated boiler hiss
V-4 R-4:
===================================================
- updated steam chuff sound slot
V-5 R-5:
===================================================
- changed whistle sound slot 3 maximum sound slot speed to 128 Hide description more…
Cab Forwards were designed to keep the crews from getting asfixiated from smoke while long tunnels. While a few other railroads considered purchasing the design, only the Southern Pacific Railroad ever bought any. Many wheel arrangements were used but most of them were of the 4-8-8-2 design.
AC-6 through AC-12 Cab Forwards Used a Saturated airpump mounted on the front of the boiler. These had a very distinct sound which we have gone through great lengths to duplicate.
Whistles:
CV163=0 UP 844 "Steamboat"
CV163=1 SP&S 3 Chime
CV163=2 Steamboat 3 Chime
CV163=3 SP - Default
CV163=4 DRG&W 5 Chime
CV163=5 SOO Line 1003
CV163=6 DL&W 5 Chime
CV163=7 WM 6 Chime
Bells:
CV164=0 Pnuematic Bell 1
CV164=1 Pnuematic Bell 2
CV164=2 Pnuematic Bell 3
CV164=3 Steam Loco Rope Pull Bell
CV164=4 SOO Line 1003 Bell
CV164=5 UP 844 Air Ringer Bell
CV164=6 SP 4449 Bell - Default
CV164=7 DRG&W K27 Bell
Dynamos:
CV165=0 Soo Line 1003 Dynamo
CV165=1 K27 463 Dynamo
CV165=2 SPTriple Dynamo - Default
CV165=3 UP Dual Dynamo
CV165=4 Z27 Dynamo
CV165=5 T16.1 Dynamo
Air Pumps
CV166=0 Cross Compound #1 Soo Line 1003
CV166=1 Cross Compound #2 K27 463
CV166=2 Cross Compound #3 SP 4449
CV166=3 Cross Compound #4UP 844
CV166=4 Dual Pumps CabForward- Default
CV166=5 Single Stage #2 T16.1
The ESU Full Throttle Steam files now include a few new logic features for added operational realism while still leaving you in control of HOW YOU wish to run your locomotive.
Heavy Load: F9 by default.
Similar to the “Drive Hold” button on the Full Throttle Diesel files “Heavy Load” allows you to adjust the “Steam Cut Off Valve” at any speed allowing for a fierce full chuff or drifting with snifters and rod clanks. Heavy load can also act as an offset allowing speed adjustments when engaged if desired.
Coast: F4 by default.
Opposite of “Heavy Load” Coast allows for a negative offset allow drifting sounds of Rods and snifter valves at any speed. You again have the option to hold the speed to adjust the speed with this offset active. Even allowing for an increase of speed with no chuffs as if drifting downhill.
Independent brake: F10 by default
Identical to the Full Throttle Diesel files. This allows for the locomotive to stop more quickly than its regular momentum would normally carry it. This one is pretty self-explanatory – just press the brake and come to a stop! For additional options there are 3 Braking rates that can be set up for user preference.
Articulation: Sound Slot 2
By adding Sound Slot 2 to the F8 Function Mapping and enabling the "Secondary Trigger" (CV250) you can add a second set of drivers making any ESU Steam File articulated.
Function Mappable Air Horn: F21 by default
Sound Slot 21.
Many Steam locomotives had a single chime airhorn equipped. Those modelling SP, MILW, and others can now have this feature and put it where they would like in the function mapping in addition to the whistle.
S0509 - Release Notes
===================================================
V-4 R-4:
===================================================
- updated independent brake
- updated boiler hiss
- updated steam chuff sound slot
V-5 R-5:
===================================================
- changed whistle sound slot 3 maximum sound slot speed to 128 Hide description more…
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