Cummins B Series engine

The Cummins B Series is a family of diesel engines produced by American manufacturer Cummins. In production since 1984, the B series engine family is intended for multiple applications on and off-highway, light-duty, and medium-duty. In the automotive industry, it is best known for its use in school buses, public service buses (most commonly the Dennis Dart) in the United Kingdom and Dodge/Ram pickup trucks.

Cummins B Series engine
6.7 Euro 4 / 4+
Overview
ManufacturerCummins
Also called4B/6B/6BT/6BTA,
ISB, ISBe
Production1984–present
Layout
ConfigurationInline-4 and Inline-6
Displacement
  • 3.3 L; 200 cu in (3,300 cc)
  • 3.9 L; 239.3 cu in (3,922 cc)
  • 5.9 L; 359.0 cu in (5,883 cc)
  • 6.7 L; 408.2 cu in (6,690 cc)
Cylinder bore
  • 102 mm (4.02 in)
  • 107 mm (4.21 in)
Piston stroke
  • 120 mm (4.72 in)
  • 124 mm (4.88 in)
Block materialCast iron
Head materialCast iron
ValvetrainCam-in-block 2 or 4 valves x cyl.
Compression ratio17.2:1, 17.3:1, 17.5:1
Combustion
TurbochargerHolset Engineering (variable)
Fuel systemCommon rail High pressure Direct injection, symmetrical combustion chamber with 7-hole injectors
ManagementBosch Mechanical with electronic advance
Fuel typeDiesel
Oil systemWet sump
Cooling systemWater-cooled
Output
Power output215–400 hp (160–298 kW)
Torque output440–1,000 lb⋅ft (597–1,356 N⋅m)
Dimensions
Dry weight1,100 lb (499 kg)
Emissions
Emissions control technologyElectric fuel control, DPF and EGR

Since its introduction, three generations of the B series engine have been produced, offered in both inline-four and inline-six configurations in multiple displacements.

General engine features

The B-series features engine bores machined directly into the block (rather than the wet liners used on earlier Cummins engines). It was also set apart by the use of a shallow one-piece head, requiring closer tolerances than in other Cummins products.[1] The engine was first manufactured in Rocky Mount, North Carolina, and other plants were later added in Mexico, Turkey, and Darlington, UK.[2]

Every Cummins powered Dodge Pickup (since initial production in 1989) has come equipped with a turbocharger. It uses a gear-drive camshaft for extra reliability. Also specified is a deep-skirt engine block and extra-strong connecting rods. A Holset turbocharger is used. The original B Series was updated with 24 valves and an electronic engine management system to become the ISB in 1998.

First generation

5.9 Cummins in 1991 Dodge Ram with the valve covers removed exposing the valvetrain

3.9L/4BT

The 3.9L/4BT Cummins is an engine in the same family as the 5,883 cc (5.9 L; 359.0 cu in) Cummins turbo-diesels. The 3.9L/4B is an inline four-cylinder turbodiesel that was popular for many step van applications, including bread vans and other commercial vehicles. Additionally it has seen broad usage in agricultural equipment. It has also gained popularity as an engine swap into smaller trucks. The lowest powered 4B produces 53 hp (40 kW).[1]

6BT

More Details
5.9-liter B series Cummins

Production: 1984–1998
Camshaft drive: Gear driven
Crankshaft: Forged steel, 7 main bearings
System capacity with filter: 3.5 US gal (13 l; 2.9 imp gal)
Cooling system: 6 US gal (23 l; 5.0 imp gal) coolant
System capacity incl heater: 6.5 US gal (25 l; 5.4 imp gal) coolant
Power output: 230 hp (172 kW) at 2500 rpm (5.9 L)
Torque: 440 lb⋅ft (597 N⋅m) at 1600 rpm (5.9 L)
Compression ratio: 17.5:1

The 5,883 cc (5.9 L; 359.0 cu in) 6BT, also known as the Cummins "12-valve" (since it has 2 valves per cylinder) was the first member of the "B" engine family to be used in a light truck vehicle. The 6BT used Bosch fuel systems, injector, and VE rotary pump and P7100 inline injection pumps. Some early 6BTs were supplied with CAV rotary pumps instead, before the Bosch system became the sole standard. This engine started life in 1984 designed as an agricultural engine, for use in Case agricultural equipment.[3] After 1989, the 6BT engine was used in light duty, medium duty and select heavy duty trucks and buses. The 6BT engine has recently become very popular for use in repowering various vehicles, in the UK they have proven very popular in the Land Rover community, commonly known as the ‘good’ conversion.

Appearing in the 1989–1998 Dodge Ram pickup truck, it became a popular alternative to the large gasoline V8 engines normally used in full-size pickup trucks, since it produced the torque at low engine speeds, and significantly better fuel mileage. During that time, the Dodge Ram was the only diesel pickup that did not rely on glowplugs for cold weather starting.[3]

ISB 5.9

5.9 Cummins Common rail fuel injection system
More Details
5.9-liter ISB Cummins

Production: 1998.5–2007
Camshaft drive: Gear driven
Crankshaft: Forged steel, 7 main bearings
System capacity with filter: 3 US gal (11 l; 2.5 imp gal)
Fuel system: Common rail High pressure direct injection, symmetrical combustion chamber
Management: Bosch Mechanical with electronic advance
Power output: 325 hp (242 kW) at 2900 rpm
Torque: 610 lb⋅ft (827 N⋅m) at 1600 rpm
Compression ratio: 17.2:1
Emissions control: Electric fuel control

The 5.9 L; 359.0 cu in (5,883 cc) ISB (Interact System B) is one of the largest straight-six engines used for light truck vehicles and school buses, and the improved high output 600 version was on the Ward's 10 Best Engines list for 2004.

One unusual feature of the ISB is that it is a multi-valve pushrod engine design, with 4 valves per cylinder (it is thus sometimes called the "24-valve" Cummins). The engine displaces 5.9 L; 359.0 cu in (5,883 cc), with a 102 mm × 120 mm (4.02 in × 4.72 in) cylinder bore and piston stroke. A turbocharger is used to increase the output in the high-compression (17.2:1 in recent versions) diesel. It is an all-iron engine with forged steel connecting rods, an assembled camshaft, and a cast aluminum intake manifold. The engine is produced in Columbus, Indiana.

The ISB uses electronically controlled Bosch fuel systems, unlike the 6BT systems which were mechanical. Early ISB engines utilize Bosch injectors and a Bosch VP44 high pressure pump. Later ISB designs have common rail fuel injection, Bosch injectors, and a Bosch CP3 high pressure pump.[3]

QSB

The 5.9 L; 359.0 cu in (5,883 cc) QSB (Quantum System B) is the off-road, heavy duty version of the ISB. Typically used in marine, agricultural, and construction applications, these engines share many of the same parts as the ISB and utilize the same Bosch fuel system.

Dodge Ram ISB

Midway through model year 1998, the Dodge Ram switched from the 6BT to the ISB to meet updated emissions requirements. Like other ISB's, these engines started out using the Bosch VP44 rotary injection pump. The VP44 setup meant that timing and fuel could be precisely controlled, which led to cleaner emissions. However, VP44 failure rates were higher than the older P7100 injection pump. The compression ratio in these engines was 17.2:1. The 1998–2000 ISB was rated at 215 hp (160 kW; 218 PS) and 420 lb⋅ft (569 N⋅m) when equipped with the 47RE automatic transmission. The 1998–2000 ISB was rated at 235 hp (175 kW; 238 PS) and 460 lb⋅ft (624 N⋅m) when equipped with a manual transmission. For the 2001–2002 model years, a standard output and a high output ISB Cummins engine were offered. The standard output, which was the same as the previous engines was rated to 235 hp (175 kW; 238 PS) and 460 lb⋅ft (624 N⋅m) when equipped with either a manual transmission or automatic. The high output ISB was rated at 245 hp (183 kW; 248 PS) and 505 lb⋅ft (685 N⋅m), with only a NV5600 six-speed manual transmission available. The high output engine was different in a few ways from the standard output engine; it had higher compression (17.3:1), powdered metal valve seat inserts, a larger flywheel, the Bosch fuel system was reworked to allow higher fuel flows, and fuel-injection timing was altered.

Dodge Ram ISB CR

For the 2003 model year, the Cummins was introduced with Bosch high pressure common rail fuel injection, again increasing power output. On automatic equipped vehicles, the 47RE was upgraded internally to increase durability and torque capacity, now known as the 48RE. The 2003 rating for the Dodge truck was released at 305 hp (227 kW; 309 PS) and 555 lb⋅ft (752 N⋅m). Midway through the 2004 model year, the Cummins 600 was introduced, producing 325 hp (242 kW; 330 PS) at 2,900 rpm and 600 lb⋅ft (813 N⋅m) at 1,600 rpm. This engine was noticeably quieter than the previous engines.[4]

ISB 6.7

6.7 Demo
More Details
6.7-liter ISB Cummins

Production: 2007–present
Displacement: 6.7 L; 408.2 cu in (6,690 cc)
Bore x stroke: 107 mm × 124 mm (4.21 in × 4.88 in)
Max power: 150–400 hp (112–298 kW; 152–406 PS) at 2800 rpm
Torque: 610–1,000 lb⋅ft (827–1,356 N⋅m) at ~1600 rpm
Compression ratio: 17.3:1
Emissions control: EGR and DPF
Turbocharger: Holset Engineering (variable)
Fuel system: Common rail High pressure direct injection with 7-hole injectors
Camshaft drive: Gear driven
Crankshaft: Forged steel, 7 main bearings
Oil System capacity with filter: 3 US gal (11 l; 2.5 imp gal)

The B6.7 is the latest version of the B Series. It is currently the largest straight-six engine produced for a light duty truck or school bus. It produces 350 hp (261 kW; 355 PS) and 650 lb⋅ft (881 N⋅m) in the 2007.5 and newer Dodge 2500/3500 pickup trucks with the Chrysler-built six-speed 68RFE automatic transmission built at the Kokomo Transmission plant in Kokomo, Indiana. Engine torque is slightly reduced with the Mercedes G56 6-speed manual transmission at 350 hp (261 kW; 355 PS) and 610 lb⋅ft (827 N⋅m). The 2007 and newer 3500 Cab & Chassis trucks only get the 305 hp (227 kW; 309 PS) and 610 lb⋅ft (827 N⋅m) version of the B6.7, whether it has the Aisin AS68RC or the Mercedes G56 6-speed manual transmission. As for the 2008 4500/5500 medium duty Chassis Cabs or the Sterling Bullet Trucks, they receive the 350 hp (261 kW; 355 PS) and 610 lb⋅ft (827 N⋅m) version of the B6.7, whether it has the Aisin AS68RC or the Mercedes G56 6-speed manual transmission. Late model 2011 Ram trucks produce 350 hp (261 kW; 355 PS) and 800 lb⋅ft (1,085 N⋅m), with the exhaust brake rating boosted from 150 hp (112 kW; 152 PS) to 222 hp (166 kW; 225 PS).[5]

For 2020 this engine has been updated to produce 400hp and 1000 ft-lb torque.

It is also used in the Blue Bird Vision, Thomas Saf-T-Liner C2, and IC CE school buses

Changes over the 5.9

There are many changes over the previous B5.9 for the Dodge truck, the most obvious being the larger displacement. The B6.7 had an increase of cylinder bore and piston stroke to 107 mm × 124 mm (4.21 in × 4.88 in), respectively, thereby giving a displacement of 6.7 L; 408.2 cu in (6,690 cc).[6]

With the 6.7 L Cummins Engine came the introduction of the Variable Geometry Turbocharger (VGT). The VGT Turbocharger was introduced to reduce turbo lag by adjusting the vanes by sliding a steel ring in the exhaust housing dependent on engine RPM creating more or less pressure inside the exhaust housing and controlling the speed of the turbocharger. It also works as an integrated exhaust brake system and is all controlled by an electronic actuator on the turbocharger. This VGT system has been an extremely common issue with the 6.7L Cummins platform and is typically diagnosed by the loss of the trucks exhaust brake.[7]

4-cylinder

The two-thirds version of the ISB is the 4-cylinder 4.5-liter at 185 hp (138 kW), used in the New Routemaster, a series hybrid diesel-electric doubledecker bus in London.[8][9][10]

Fuel System

Mechanical Injection with Mechanical Timing

In the earlier models of the Cummins B Series Engine, it was almost entirely mechanical including its fuel system. The fuel pump used in these engines was the P7100 injection pump, this pump is driven off the camshaft gear and drives it own internal camshaft to inject fuel to the individual injectors.[11] This pump itself was one of the most popular options for fueling for the B Series Engines because of this simplistic design and how reliable it was. The P7100 injection pump also allows for large amounts of fuel to be delivered into the system with simple tweaking to the system to allow for larger injection events.

Mechanical Injection with Electronic Timing

In the later models of B Series Engine, the fuel system was switched from mechanical injection and timing to mechanical injection with electronic timing. This was all thanks to Bosch’s new VP44 injection pump. The VP44 injection pump is driven at half the camshaft speed and produces fuel pressure at about 4,500 psi to pop the vertically centered injectors in the engine.[12]  These injection pumps need to have constant fuel pressure behind them of at least 10psi at all times to maintain the priming of the system.[12] If you run these pumps dry it can cause your pump to fail quickly. The VP44 injection pumps were the first pumps placed in the Cummins engine to have an FPCM. FPCM stands for the fuel pressure control module, and this is responsible for maintaining and controlling the fuel pressure of the system. However, even though this new technology to control fuel pressure was convenient, it had a major downfall. The problem was them was that they were unable to be serviced without replacing the entire fuel pump. Another important piece of the puzzle that is responsible for the longevity and functionality of the VP44 was the fuel transfer pump mounted on the side of the block next to the ECM. This electronically driven vane pump is what supplies that minimum of 10psi to the injection pump so it maintains constant fuel pressure as well, as cools itself, and lubricates itself. [12]

Mechanical Injection with Electronic Timing and Common Rail Pressurization

The most recent method of fuel injection that is still in use today is called common rail injection. Common rail injection is a completely revolutionary design to fuel injection since a fuel pump is now used to pressurize a rail and then from there sends the fuel to each injector. A major benefit of switching over to this fueling system was how it allowed for much less leakage into the cylinders pre and post ignition. This is all possible since this fuel system operated upwards of 2600 bar so they are able to set spring tension higher in each injector to allow for more precise fuel injection and timing.[13] Another benefit of using common rial injection and having one rail pressurized compared to pressurizing each individual injector is that it is more reliable since it allows for more consistent fuel delivery to each injector.[14]

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gollark: What would the people of Eßolangs suggest I use for webserver-type things?
gollark: Seems reasonable.
gollark: An argument about C, which we seem to have resolved now.
gollark: Technically you can run Rust on the frontend now, and even C if you're insane.

References

  1. Kennett, Pat (June 1986). "The Cummins Beat". TRUCK. London, UK: FF Publishing Ltd: 54–55.
  2. Kennett, p. 57
  3. Cummins 5.9-liter and 6.7-liter inline six-cylinder diesel engines. Allpar.com. Retrieved on 2011-08-04.
  4. "ISB web". Retrieved 30 April 2012.
  5. 2011 Ram 2500 and 3500 – Capability – Powertrain Archived 2011-02-24 at the Wayback Machine. Ramtrucks.com. Retrieved on 2011-08-04.
  6. Cummins Engines Archived 2009-04-25 at the Wayback Machine. Everytime.cummins.com. Retrieved on 2011-08-04.
  7. "Turbo Failure on your 6.7L Cummins? Here's what you need to know". Dirty Diesel Customs. Retrieved 2019-11-05.
  8. "New Bus for London: Your New Routemaster questions answered". CBS Interactive. January 5, 2012. Retrieved 2017-11-27.
  9. "LESA44T" (PDF). Wrights Group Limited. 2014. Retrieved 2017-11-27.
  10. Wrights Hybrid Wrightbus
  11. "Bosch P7100 Fuel Pump Information". Big Bear Engine Company. 2017-04-10. Retrieved 2020-04-29.
  12. "StackPath". www.searchautoparts.com. Retrieved 2020-04-29.
  13. "Common Rail Systems". Cummins Inc. Retrieved 2020-04-29.
  14. "CP3 injection pump system". Dodge Cummins Diesel Forum. Retrieved 2020-04-29.
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