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4.6 L Northstar engine
|Cylinder bore||87 mm (3.43 in)|
89.5 mm (3.52 in)
91 mm (3.58 in)
93 mm (3.66 in)
|Piston stroke||84 mm (3.31 in)|
92 mm (3.62 in)
|Valvetrain||DOHC 4 valves x cyl. with VVT|
|Compression ratio||9.0:1, 9.3:1, 10.0:1, 10.3:1, 10.5:1|
|Supercharger||In 4.4 L versions|
|Turbocharger||Twin-turbo in 2000 Northstar LMP program only|
|Fuel system||AC Rochester Sequential FI|
|Power output||215–469 hp (160–350 kW)|
|Torque output||234–439 lb⋅ft (317–595 N⋅m)|
The Northstar engine was a family of high-performance 90° V engines produced by General Motors between 1993 and 2011. Regarded as GM's most technically complex engine, the original double overhead cam, four valve per cylinder, aluminum block/aluminum head V8 design was developed by Oldsmobile R&D, but is most associated with Cadillac's Northstar series.
Displacing 4.6 L; 278.6 cu in (4,565 cc) in its basic form, the direct family line transitioned to longitudinal and 4.4 L; 266.7 cu in (4,371 cc) supercharged versions. Variants were used at Oldsmobile (as the Aurora L47 V8 and "Shortstar" LX5 V6), as well as in several top-end 2000s Pontiacs and Buicks.
The related Northstar System was Cadillac's trademarked name for a package of performance features introduced in mid-1992 that coupled the 4T80E transmission, a 100,000 mile service interval, road sensing suspension, variable power steering, and 4-wheel disc brakes to the Division's high-output and high-torque Northstar engines.
GM ceased production of the Northstar in 2011. The final cars to receive it, the Cadillac DTS, Buick Lucerne, and Cadillac STS, rolled off the line in 2011. It was replaced by the GM LS small-block OHV engine, used in newer Cadillac V8 models like the CTS-V, marking a step back to a simpler, more reliable pushrod engine design. These LS V8 engines were the only V8 engines used by Cadillac for the next eight years, until the new Blackwing V8 was introduced in 2018 in the 2019 Cadillac CT6-V. The Blackwing was effectively the successor to the Northstar V8, though not mechanically related. It was the first Cadillac-exclusive V8 since the Northstar's discontinuation in 2011.
Development and features
GM initiated what ultimately became the Northstar's design at Oldsmobile R&D some time in 1984 in anticipation of the advanced dual overhead cam V8 engines to be introduced by European and Japanese competitors later in the decade. At that time, Cadillac was using the aluminum HT Overhead Valve (OHV) V8 which GM pushed hastily into production because the CAFE standards for 1982 would preempt using 1981's V8-6-4. At the time it was GM's corporate policy not to pass the gas guzzler tax on to the consumer.
Cadillac was developing new models which they hoped would compete against the best luxury cars from BMW, Mercedes-Benz, and Asian rivals like Lexus, Acura, and Infiniti. GM developed a laundry list of items to be included in the Allanté and updated Eldorado and Seville STS, including sophisticated steering, braking, and suspension technologies, and an engine exclusive to "Cadillac" the Division's dealers were clamoring for. This group of features became known as the Northstar System. Central to it was a high-tech V8 with the performance and sophistication to compete with an ever-expanding list of imported challengers.
Capable of producing 300 hp (224 kW) out of its 4.6 L; 278.6 cu in (4,565 cc) displacement, the Northstar featured a cast aluminum 90° V8 block with 4 in (101.6 mm) bore spacing split into unitary upper and lower halves. The lower crankcase assembly supported the crankshaft without conventional main bearing caps. An oil manifold plate with an integrated silicone gasket forms the oil gallery under this. A typical oil change used 7.5–8 US qt (7.1–7.6 L; 6.2–6.7 imp qt) of oil.
GM specified cast-iron cylinder liners and the cast aluminum pistons included valve clearance. Northstar is an interference engine: the valves will strike the pistons if they lose timing. It has bronze piston pin bushings and free-floating piston pins. GM used cast aluminum cylinder heads featuring 4 valves per cylinder. The heads used dual overhead cams driven through the "maintenance-free" cam-drive chain case. The cams act directly on hydraulic lifters on the ends of the valves and are fed with a lubrication passage drilled through the cylinder head lengthwise. The intake valves are inclined at 25°, while the exhaust valves are canted to 7° with center-mounted platinum-tipped spark plugs. The cam covers are magnesium for light weight and sound damping.
Sequential fuel injection was delivered via eight thermoplastic tubes. Ignition was distributorless, with a waste spark setup. The powertrain control module (PCM) controlled spark and fuel injection timing as well as the shift points for the new four-speed, transverse GM 4T80 transmission. All engines of this family share the same Northstar bellhousing pattern.
One notable feature advertised at the time was the "limp home" fail-safe mode, which allowed the engine to continue running for a limited time without any coolant. Supplying fuel to only one cylinder bank in turn, the engine would "air cool" the inactive bank. This technique, combined with its all-aluminum construction and large oil capacity, allows the engine to maintain safe temperatures, allowing a Northstar-equipped car to be driven with no coolant for about 100 mi (161 km) without damage. Another unusual feature of some heavily electronic-laden Northstar-equipped cars such as the Seville, DeVille, and Eldorado is a liquid-cooled alternator. Although this was intended to prolong alternator life, GM reverted to a traditional air-cooled setup for 2001 to eliminate potential leak points and extraneous tubing.
Later developments included direct coil-on-plug ignition, roller lifters, and variable valve timing, which can vary intake by up to 40° and the exhaust by up to 50°. VVT was devised for the longitudinal LH2 version, and has not, to date, been used on the transverse front wheel drive engines due to packaging considerations.[clarification needed]
The engine was introduced in mid-1992 in the 1993 Cadillac Allanté; in 1996 the Northstar became the standard engine on all Cadillacs except the Fleetwood, but is now phased out of all Cadillac models. The 275 hp (205 kW) Northstar engine was used on all Northstar equipped Cadillac's while the Deville Concours, Eldorado ETC's and Seville STS's and in 2000 the Deville DTS's were fitted with the 300 hp (224 kW) version. The original Northstar Allanté also introduced the Northstar System which included traction control, adaptive suspension, and antilock brakes. Early Northstar required premium grade gasoline to run safely.
The Northstar was sold exclusively by that name by Cadillac for over a decade before being introduced in the 2004-2005 Pontiac Bonneville and 2006 Buick Lucerne. However, the 4.0 L; 243.8 cu in (3,995 cc) L47 V8 Northstar variant was used in the Oldsmobile Aurora and the 3.5L LX5 V6 in the Oldsmobile Intrigue. The engine received a forged steel crankshaft in October 2003. Cadillac had planned to introduce a V12 Northstar this decade, likely for use in the Escalade, but economics and new CAFE standards killed the idea.
Most Northstar engines produce 275 to 300 hp (205 to 224 kW). The engines were revised for 2000 with coil-on-plug ignition and roller follower valvegear for improved fuel economy and reduced emissions. Though power output did not change, this update made premium fuel merely recommended, rather than required.
All but the supercharged Northstars displaced 4.6 L; 278.6 cu in (4,565 cc) with a 93 mm × 84 mm (3.66 in × 3.31 in) bore and stroke. For better head gasket sealing between cylinders, the supercharged version is de-bored to 91 mm (3.58 in) for a total displacement of 4.4 L; 266.7 cu in (4,371 cc). The block is believed to be capable of expansion up to 5.4 L, though no such engine has been produced.
The Northstar was on the Ward's 10 Best Engines list for 1995, 1996, and 1997.
The Northstar System included the following components:
- L37 high-output 300 hp (224 kW) and 295 lb⋅ft (400 N⋅m)
- LD8 high-torque 275 hp (205 kW) and 300 lb⋅ft (407 N⋅m)
- Variable Valve Timing (VVT), a continuously variable system throughout the rpm range, increasing fuel economy.
- GM engines use the double overhead cam, varying both intake and exhaust for better performance.
- GM 4T80-E 4-speed automatic transmission
- Road Sensing Suspension, which monitored damping rates of the shock absorbers every 15 milliseconds, selecting between two settings.
- RSS was available in both standard and CV-RSS (continuously-variable) systems.
- 4-wheel disc brakes with Bosch antilock brakes
- Magnasteer speed-variable power steering, which combines conventional hydraulic power steering and magnetized "doughnuts" mounted around the output shaft, which stiffen the steering as vehicle speed increases.
Later versions of the Northstar engine included the 4.6L 320 hp (239 kW) and 315 lb⋅ft (427 N⋅m) LH2 which began in 2004, and supercharged 4.4L 469 hp (350 kW) LC3 created for the STS-V which are detailed below.
The 4.6 L; 278.6 cu in (4,565 cc) L37 (VIN "9") was the original Northstar. It is tuned for responsiveness and power, while the later LD8 is designed for more sedate use. The L37 code had been used on all high-output transverse Northstars, even as the exact engine specifications evolved. The compression ratio for the L37 is 10.3:1 for engines built prior to 2000, and 10.0:1 afterwards.
The original L37 was specified at 290 hp (216 kW), but 1993 production examples were rated at 295 hp (220 kW). The engine topped out at 300 hp (224 kW) from 1996 through 2004 on the STS, DTS and ETC models, making these some of the most powerful domestic front wheel drive cars ever built. For 2005 the high output Northstar became Northstar NHP, and was downrated to 290 hp (216 kW) under the new SAE certified horsepower rating system. In 2006, the updated DTS "Performance Package" model got a slight bump to 292 hp (218 kW). Vehicles using the L37 include:
|1993||Cadillac Allanté||295 hp (220 kW) @ 5600 rpm||290 lb⋅ft (393 N⋅m) @ 4400 rpm|
|1993–1994||Cadillac Eldorado ETC||295 hp (220 kW) @ 5600 rpm||290 lb⋅ft (393 N⋅m) @ 4400 rpm|
|1995–2002||300 hp (224 kW) @ 6000 rpm||295 lb⋅ft (400 N⋅m) @ 4400 rpm|
|1993-1994||Cadillac Seville STS||295 hp (220 kW) @ 5600 rpm||290 lb⋅ft (393 N⋅m) @ 4400 rpm|
|1995–2004||300 hp (224 kW) @ 6000 rpm||295 lb⋅ft (400 N⋅m) @ 4400 rpm|
|1996–2004||Cadillac DeVille Concours/DTS|
|2005||Cadillac DeVille DTS||290 hp (216 kW) @ 5600 rpm||285 lb⋅ft (386 N⋅m) @ 4400 rpm|
|2006–2011||Cadillac DTS Performance||292 hp (218 kW) @ 6300 rpm||288 lb⋅ft (390 N⋅m) @ 4500 rpm|
|2008–2011||Buick Lucerne Super|
The 4.6 L; 278.6 cu in (4,565 cc) LD8 (VIN "Y") is a transverse V8 for front-wheel drive cars. Introduced in 1994, it is designed to provide more torque than the high-revving L37. The LD8 code had been used on all torque-tuned transverse Northstars, even as the exact engine specifications evolved. Compression ratio is 10.3:1 for engines built prior to model year 2000, and 10.0:1 for those built afterwards. The 1998 revision is quieter than previous Northstar engines, due to hydraulic engine mounts, and performs better due to a tuned intake system.
Most LD8 Northstars are rated at 275 hp (205 kW) and 300 lb⋅ft (407 N⋅m).
|1994||Cadillac Eldorado||270 hp (201 kW)||300 lb⋅ft (407 N⋅m)|
|1995–2001||Cadillac Eldorado ESC||275 hp (205 kW) @ 5750 rpm|
|2002||275 hp (205 kW) @ 5600 rpm||300 lb⋅ft (407 N⋅m) @ 4000 rpm|
|1993-1994||Cadillac Seville SLS||270 hp (201 kW)||300 lb⋅ft (407 N⋅m)|
|1995–2004||275 hp (205 kW) @ 5600 rpm||300 lb⋅ft (407 N⋅m) @ 4000 rpm|
|1994||Cadillac DeVille Concours||270 hp (201 kW)||300 lb⋅ft (407 N⋅m)|
|1995||275 hp (205 kW) @ 5750 rpm|
|1996–2001||Cadillac DeVille||300 lb⋅ft (407 N⋅m) @ 4000 rpm|
|2002–2005||275 hp (205 kW) @ 5600 rpm|
|2006–2011||Cadillac DTS||275 hp (205 kW) @ 6000 rpm||295 lb⋅ft (400 N⋅m) @ 4400 rpm|
|2004–2005||Pontiac Bonneville GXP||275 hp (205 kW) @ 5600 rpm||300 lb⋅ft (407 N⋅m) @ 4000 rpm|
|2006–2007||Buick Lucerne CXL (optional)/CXS||275 hp (205 kW) @ 6000 rpm||295 lb⋅ft (400 N⋅m) @ 4400 rpm|
LH2 (VIN "A")
The 4.6 L; 278.6 cu in (4,565 cc) Northstar was designed originally for transverse front-wheel drive applications. It was modified substantially in 2004 for longitudinal rear- and all-wheel drive use in the STS, SRX, and XLR, as well as receiving continuously variable valve timing on both intake and exhaust sides. The RWD (LH2) Northstar produces 320 hp (239 kW) and 315 lb⋅ft (427 N⋅m). The addition of variable valve timing enables most of the increase in power from the L37 and LD8 Northstars.
|2004–2009||Cadillac SRX||320 hp (239 kW) @ 6400 rpm||315 lb⋅ft (427 N⋅m) @ 4400 rpm|
|2004–2009||Cadillac XLR||310 lb⋅ft (420 N⋅m) @ 4400 rpm|
|2005–2010||Cadillac STS||315 lb⋅ft (427 N⋅m) @ 4400 rpm|
|2007–2009||Cadillac SLS (China)|
A 4.4 L; 266.7 cu in (4,371 cc) supercharged Northstar was used in the 2006 Cadillac STS-V and Cadillac XLR-V. The bore was reduced for increased strength and improved head gasket sealing. Variable valve timing is used on both the intake and exhaust sides. The STS-V engine produces 469 hp (350 kW) at 6400 rpm and 439 lb⋅ft (595 N⋅m) at 3900 rpm with 9.0:1 compression and the XLR-V engine produces 443 hp (330 kW) at 6400 rpm and 414 lb⋅ft (561 N⋅m) at 3900 rpm.
|2006–2009||Cadillac STS-V||469 hp (350 kW) @ 6400 rpm||439 lb⋅ft (595 N⋅m) @ 3900 rpm|
|2006–2009||Cadillac XLR-V||443 hp (330 kW) @ 6400 rpm||414 lb⋅ft (561 N⋅m) @ 3900 rpm|
The L47 Aurora engine was a special V8 designed for the Oldsmobile Aurora, based on the Northstar engine, used during the 1995-1999 and 2001-2003 model years. It is a DOHC 4.0 L; 243.8 cu in (3,995 cc) V8 which produced 250 hp (186 kW) and 260 lb⋅ft (353 N⋅m) of torque. The bore and stroke was 87 mm × 84 mm (3.43 in × 3.31 in). The L47 had a 10.3:1 compression ratio and used premium fuel.
Although most of the Northstar's features, including the coolant loss system, remained intact, the decreased bore increased weight unacceptably. To reduce it, Oldsmobile used a one-piece glass-filled thermoplastic intake manifold and simplified AC Rochester sequential fuel injection. A new die-cast structural aluminum oil pan incorporated baffling to reduce oil starvation in hard driving. A starter interlock prevented the starter from engaging if the quiet L47 was already running.
An early version or prototype of this engine was used in the 2nd generation Oldsmobile Aerotech. A highly modified 650 hp (485 kW) version of this engine was used by General Motors racing division initially for IMSA sports car competition in an Oldsmobile Aurora GTS-1 and Riley&Scott LMP prototypes in 1995, Indy Racing League competition starting in 1997, then was later used in the Cadillac Northstar LMP program in 2000. Both engines retained the 4.0 L displacement, but the Northstar LMP version was twin-turbocharged. The Aurora was also used in the Shelby Series 1 car. In the inaugural DTM season, Opel would debut his Astra with a V8 derived from the L47.
The Aurora engine was introduced in 1994 for the 1995 model year, and General Motors has not used this engine since the retirement of Oldsmobile in 2004.
|1995–2003||Oldsmobile Aurora||250 hp (186 kW) @ 5600 rpm||260 lb⋅ft (353 N⋅m) @ 4400 rpm|
|1999–2005||Shelby Series 1||320 hp (239 kW) @ 6500 rpm||290 lb⋅ft (393 N⋅m) @ 5000 rpm|
The LX5 is a DOHC V6 from Oldsmobile, introduced in 1999 with the Intrigue. It was produced by the Premium engine group at GM and was thus called the Premium V6, or PV6, while it was being developed. It is based on the L47 Aurora V8, which is itself based on the Northstar engine, so engineers called it the Short North, though Oldsmobile fans have taken to calling it the Shortstar.
It is not a simple cut-down V8. Although it has a 90° vee-angle like the Northstar, the engine block was engineered from scratch, so bore centers are different. It has chain-driven dual overhead cams and four valves per cylinder, but is an even-firing design with a split-pin crankshaft similar to the Buick 3800 engine. The LX5 displaced 3.5 L; 211.9 cu in (3,473 cc) and produced 215 hp (160 kW) at 5,600 rpm and 234 lb⋅ft (317 N⋅m) at 4,400 rpm. Bore and stroke is 89.5 mm × 92 mm (3.52 in × 3.62 in). It was also one of GM's first engines to use coil-on-plug ignition. Compression ratio is 9.3:1.
The cost of building this engine was high, and it was not used in many vehicles. It was said at the time that a family of premium V6s would follow, with displacements ranging from 3.3 L to 3.7 L, but only the LX5 was ever produced before GM axed the Shortstar in favor of their current flagship V6, the High Feature, in 2004.
The LX5 was entirely different from any other V6 in the GM inventory - the only other DOHC V6 engines ever offered by GM included the Chevrolet Twin Dual Cam produced from 1991-1997, which was made by modifying the traditional Chevy 60-degree OHV block for the dual overhead cams rather than building a DOHC engine from the ground up, and the Cadillac/Holden HFV6 available from 2004 to the present day. These three designs are completely unrelated and oddly enough leave two gaps in 1998 and 2003 where no DOHC V6 was available from GM (except for the 54 degree Opel V6 used most notably in the first generation Cadillac CTS at launch as well as the Saturn L Series and Catera). This contrasts starkly with competitors practices of evolving engineering over multiple, continuously improving designs. As with the Aurora V8, production stopped with the demise of Oldsmobile.
|1999–2002||Oldsmobile Intrigue||215 hp (160 kW) @ 5600 rpm||234 lb⋅ft (317 N⋅m) @ 4400 rpm|
The 3.5L LX5 was on the Ward's 10 Best Engines list for 1999, 2000, 2001, and 2002.
Head gasket issues
Many Northstar engines became well known for their tendencies to experience head gasket failure. The issue manifested itself not as a "true" head gasket failure, but as a head bolt failure. The problem would occur when the engine, being of an aluminum construction, ran hot for periods of time; the head bolts would "pull" out of the "softer" aluminum block (as compared to iron blocks), resulting in a loss of coolant into the combustion chamber. This can be seen in Northstar-powered cars with heavy, sweet-smelling white smoke coming out of the exhaust pipes. These failures caused engines to run very hot and overheat, furthering the problem. Repairs are notoriously expensive, as the engine itself needs to be completely removed from the chassis to do a proper repair.
The most common years of the head gasket issue, by far, are 1997-1999. In 2000, Cadillac lengthened the head bolts, which decreased the chance of having the failure; however, it did not eliminate the issue entirely. Starting in model year 2004-5, the head bolts were once again replaced, this time using GM's small-block V8 "LS6" head bolts, which were longer than the originals but also crucially had a coarser thread with superior grip. This effectively mitigated the issue, making the 2005-2011 Northstar V8s no more prone to head gasket failure than other production aluminum V8 engines; these Northstars are the most desirable versions for their longevity and reliability.
- GM 60-degree DOHC V6 engine
- GM High Feature engine
- Cadillac V8 engine
- GM Ultra Engine
- List of GM engines
- "Report: GM's venerable Northstar going out of production in July, replacement not yet announced". Autoblog. Archived from the original on 2011-02-21. Retrieved 2012-06-04.
- Weitzman, Larry (2001).The Aurora by Oldsmobile (2001), Better in every respect. Autochannel. Retrieved on June 28, 2009.
- "Cadillac Overheating - Northstar Head Gasket Leaks". Northstar Performance.
- Frank Markus. "1993 Technical Highlights". Car and Driver (October 1992): 59–60.
- "Technical Highlights". Car and Driver (October 1993): 115.
- Joel D. Pietrangelo. "Northstar is heart of Allante re-do for '93 - V-8 engine, General Motors' Cadillac Motor Car Div.'s new model roadster". Ward's Auto World (February 1992).
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