| Holden V8 engine | |
|---|---|
_02.jpg) 5000i engine installed in a1990 Calais | |
| Overview | |
| Manufacturer |  Holden (General Motors) |
| Production | 1969–2000 |
| Layout | |
| Configuration | Naturally aspirated 90°V8 |
| Displacement |
|
| Cylinder bore |
|
| Piston stroke |
|
| Cylinder block material | Cast iron |
| Cylinder head material | Cast iron |
| Valvetrain | OHV 2 valves per cyl. |
| Combustion | |
| Fuel system | |
| Management | Delco |
| Fuel type | Gasoline |
| Oil system | Wet sump |
| Cooling system | Water-cooled |
| Chronology | |
| Predecessor | GM SBC |
| Successor | GMGeneration III LS1 |
TheHolden V8 engine, also known colloquially as theIron Lion (versions from 1969–1985 were also often called theHolden 253 orHolden 308 depending on their capacity), is anoverhead valve (OHV)V8 engine that was produced by the AustralianGeneral Motors subsidiary,Holden (GMH), between 1969 and 2000.
The engine was initially fitted to theHolden HT series in 1969 and was later utilised in a series of updated versions in theTorana andCommodore ranges. The final iteration, the heavily revisedHEC 5000i, was phased out of Holden passenger vehicles with the release of theVT Series II Commodore and theWH Statesman and Caprice in June 1999, both of which featured the 5.7LGen III V8 imported from the United States. However, the engine remained in production for a little while longer and continued to be available in theCommodore VS Series III utility (which sold alongside the VT sedan and wagon as no similar vehicle was available in that range) until the new generationVU Ute debuted in late 2000.
In addition to being Holden's mainstream performance engine throughout its production run, higher performance versions were fitted to limited-edition vehicles available throughHolden Dealer Team Special Vehicles (HDT) and laterHolden Special Vehicles (HSV). It was also utilised within limited production vehicles from other manufacturers as well as inkit cars.
The engine has a successful history in various forms ofmotorsport, most notably inTouring Car racing through theAustralian Touring Car Championship and theBathurst 1000 until 1995, as well as inFormula 5000 and other racing applications such asSports Sedans.
It can also be found in Australianpowerboats fitted withinboard engines, especially those used forwater skiing.[1]
In 1964Ford andChrysler in the US released V8 versions of their respectiveFalcon andValiant models which Holden expected to soon be released in locally assembled or produced versions. In response, in January 1965 the company's engineering division initiated a forward engine program review and concluded that by 1969 a V8 option was a necessity for Holden, with forecasts of 35 per cent of all Holdens sold in 1970 to be V8s, rising to 50 per cent by 1975. Initially six capacities from 237–308 cu in (3,880–5,050 cc) were planned over a 12-year life cycle, but early in the design phase this was reduced to just two, an 'economy' 253ci (4143cc) and an enlarged 'performance' 308ci (5044cc) version, which became known as the 4.2L[a] and 5.0L respectively.[2]
Design targets of a weight of 525 lb (238 kg), which was lighter than equivalent US engines, and a net output of and 161 hp (120 kW) at 4000rpm and 263 lb⋅ft (357 N⋅m) at 2400rpm were set for the 308, which was mechanically identical to the 253 except for a larger bore and bigger pistons, along with heavier counterweights on the crankshaft to compensate for the increased reciprocating mass. Originally an alloy inlet manifold was specified to reduce weight, but this was changed to iron when problems were encountered in the casting process. The exhaust manifolds were also cast iron but the timing case cover remained as an alloy item.[2][3]
The initial pre-production engine was the 253, which not only met but greatly exceeded the design targets. The complete engine assembly from fan to flywheel and all auxiliaries weighed in at 460 lb, around 12% less than the design target, while net output for the higher compression (9.0:1) version fitted with a 2-barrel carburettor[b] was 185 hp (138 kW) with 262 lb.ft of torque, which matched or exceeded the targets set for the larger 308. The design was also very compact with a width of 22 inches, and was only 80 lb heavier than the 186 cu in (3,050 cc) straight six, but producing over 40% (55 hp (41 kW)) more power than that engine in standard form. The first running engine was delivered in October 1966. Unfortunately, the engine failed after just four days testing from a seized oil pump; however, the problem was found to be caused by swarf residue rather than a fault in the design or the quality of the components. Further testing proved that the engine was smoother and more durable than Holden's six cylinder, no mean feat as the 186 was considered a smooth and reliable engine in its day.[3][5]
The new engines were initially intended to be offered as part of the 1968Holden HK range, but production issues caused the project to run behind schedule and consequently 307ciChevrolet engines imported from Canada were used instead. Initially the 283ci engine was to be used but it was replaced in North America for the 1968 GM model year with the 307ci engine hence it was used instead for HK. GMH had already planned to use the 327ci Chevrolet engine in the HK GTS327 and it would have originally been fitted in the HK range alongside 253 and 308 if things had gone as planned. The 253 made its public debut in theHolden Hurricane concept car at the 1969Melbourne International Motor Show, albeit it in a highly modified form featuring increased 10.1:1 compression, big cam and solid lifters, and producing over 250 hp (190 kW). The new engines saw their production release soon after in theHT model range, with the 253 being used for manual vehicles whilst the 307 SBC was retained for automatic vehicles. The 308 however debuted in the HT Brougham at the same time but as automatic only (two different imported 350ci Chevrolet engines (auto and manual versions) replaced the 327 and thus the HK GTS327 became the HT GTS350). The 253 was initially only available with a 2-barrel carburettor while the 308 was only ever available with a 4-barrel carburettor (except for when it was used in Bedford trucks in the late 70's).[2] Once the Canadian 307ci engines were used up the 308 became available across all models in the HT range, including the 2-doorMonaro coupe. At the same time an automatic option was made available behind the 253 and a manual was available behind the 308 (previously automatic only when 308 was only available in Brougham).
_02.jpg)
The 253 and 308 soldiered on essentially unchanged into the HG Holden and HQ Holden Series. The V8 engine also appeared from 1971 in theStatesman range of large size luxury cars which Holden established as a separate marque replacing the Holden-badgedBrougham. Initially both the 253 and 308 (and imported 350ci engine) were offered in the HQ V8 Statesman model and 308 standard in HQ Deville but after HQ both the 6cyl and V8 Statesman (Custom) models were dropped leaving the 308 powered HJ Statesman Deville as the base Statesman variety. This continued for theHX,HZ andWB.
At the end of HQ (and earlier for LH Torana release) the 253 and 308 engines were referred to by their metric names: 4.2L and 5.0L. Apart from minor external changes like cable throttle and things to make it fit the Torana properly the 4.2L engine in HJ and LH was the same as the HQ engine. At the HQ to HJ transition GMH changed the power output figures on all engines from "advertised horsepower" to proper GM20 test "SAE Gross hp". The power ratings on all engines dropped. The HT-HQ advertised power figures for the 253 and 308 were respectively: 185 hp and 240 hp. The SAE Gross figures for these engines was 175 hp and 227 hp. GMH Technical and Engineering literature shows these revised power figures for HJ but it took a while for it to appear in Sales literature - LX Torana release information shows the 4.2L as 175 hp and the 5.0L as 250 hp. The HJ 5.0L was a very different engine to the HT-HQ 308 though. It got a raise in compression from 9:1 to 9.7:1 and got a new camshaft which was basically the same valve timing as used in the HK-HQ SBC engines (prior to HJ the 308 used the 253's smaller camshaft but retarded 5 degrees). The revised 5.0L was SAE Gross rated as 250 hp which was a 23 hp gain on the HQ 308. In LH SLR5000 Toranas built after HJ release and LX SLR5000 and SS with RPO L31 built prior to HX Holden this revised 5.0L engine created a very fast car. The revised 5.0L engine performed so well that GMH dropped the planned 400ci engine from HJ Caprice and other optioned HJ Holden as the emissions strangled 400ci SBC out of North America was no benefit over the local 5.0L. The flip side of the extra power and torque meant that the Trimatic transmission that was used prior to HJ was not strong enough for the revised 5.0L in a full size Holden or Statesman so it was replaced with the imported TH400 transmission.
In 1974, both the 253 and 308 engines (now called 4.2L and 5.0L) were added to theTorana range for the first time in theLH series (after an aborted attempt byHolden Dealer Team bossHarry Firth to introduce the V8 to the smallerLJ in 1972 which was stopped by the "supercar scare"). In fact the SLR5000 only weighed 40kg more than the XU-1. Some of the lower performance Toranas were light, but the six-cylinder LJ XU-1 weighs 1140 kg while the SLR5000 L34 only weighed 1180 kg with the high performance V8. The engines were also offered on the revisedLX released in 1976, which from July of that year saw emission-controlled versions of the 'Red' engines introduced to comply with the newADR27A regulations on fuel and exhaust emissions. The V8 was dropped as an option in the final model in the Torana series, theUC released in 1978. There was a high performance version of the 308 engine built in 1973 by Repco for the Formula 5000 series. It was built as a 302ci (4940cc) engine using a slightly smaller bore than the production 308 (3.960" versus the 308's 4"). It was a far stronger block than the production block and featured 4 bolt mains and 11.7:1 compression with either Lucas fuel injection or Weber carburettors. GMH asked REPCO to use some of the ideas and parts for this engine and produced the higher performance 308 engine (engine code L34). The LH SLR5000 was released that used a standard 5.0L engine. A little while into LH, GMH built a limited number of SLR5000 vehicles (263) with an engine code L34 along with a whole host of other parts fitted to it for manufacturers championship endurance rounds. And you had to use the complete car complianced with the motor. The whole car was homoligated. In the A9X they had to use the L34 motor. Due to the Supercar scare the car which was the fastest production car in the world (in the future all hot 308s were aftermarket delivered not Holden Production line) still lower in HP.HDT HSV. It had more power than most of its combinations in the future mainly due to its high compression motor. It had larger valves, and a four-barrel inlet, 750cfm carb. Due to the rules of the day race teams could put any carby with same number of venturies and modify the exhaust from the first join. So the as delivered headers were not that good lowering the as delivered cars power down to near stock. But when set up for race it had excessive amounts of power. Cam and carby were open as well so the cars internals where heavy duty and designed to flow. But cam carby and exhaust due to cams rules could keep it tame. The L34 was never advertised except when wheels found out about it. Only cams licensed teams could buy one. The car eventually was nicknamed the L34 The letters L34 were the engine code and thats how the L34 got its name. The L34 had the code on the model plate there is nothing on an A9X that states its an A9X and the A9X had to use the L34 motor from an L34 to rsce.
In 1978 with the introduction of the new smallerCommodore as Holden's family car, the final versions of the 'Red' 253 and 308 were available with the initialVB. In 1980 the revisedVC saw the introduction of the revised 'Blue' series of engines, available in both capacities, which continued through to theVH in 1982. The VC also saw the introduction of high-performance versions of the engine but mostly L34 parts still. All performance parts on parts list at HDT state L34. in limited-edition vehicles produced in partnership withPeter Brock'sHolden Dealer Team (HDT), with various models subsequently appearing through to theVL range in 1987, when relations between the two companies soured and Holden severed its ties with HDT.
With the release of the 'Black' engine in theVK Commodore in 1984, the 253 was dropped as an option and the 308 was the only capacity of the V8 now available in the Commodore. However, the smaller engine continued to be available in theHolden WB commercial vehicles e.g. the One Tonnercab chassis until the end of 1984. In 1985, a destroked version of the 308, known as the 304 (4980cc) but still sold as a 5.0L engine, was introduced to allow the VK to compete with a lower minimum weight (1,325 kg (2,921.1 lb), a saving of 75 kg) under the 4501-5000cc regulations ofGroup Atouring car racing (in Group A racing, the destroked 'HDT' version of the engine was known as a 4.9 litre).[6]
In 1988fuel injection appeared for the first time on a Holden V8 engine, on theVL Commodore SS Group A produced byHolden Special Vehicles (HSV), Holden's new performance partnership with British-basedTom Walkinshaw Racing (TWR); however, this was not a standard production engine, which still continued to feature a carburettor. Later that year theVN introduced the 5000i engine with new cylinder heads and multi-point fuel injection which represented the most extensive redesign of the standard production Holden V8 since its launch in 1969. This engine continued in all subsequent Commodores until 1999 (2000 for the VS Series III Ute), when it was replaced by the US-made all-alloyGen III LS1 5.7L V8 in theVT Series II.
The Holden V8 is a water-cooled naturally-aspirated 4-stroke gasoline engine featuring eight cylinders arranged in a 90 degrees vee-formation. It is an overhead valve design featuring two valves per cylinder with a camshaft centrally located in the engine block above the crankshaft, driven by a timing chain attached to toothed sprockets, with the camshaft in turn driving the distributor and oil pump. Valve actuation is by hydraulic lifters and pushrods to rocker arms (roller lifters in some models) in the cylinder heads; the lifter bore angle in the engine block is 45 degrees from the block centerline. A belt-driven radiator fan and water pump are located on the front of the engine block taking drive from the main pulley, as is the alternator. The cast iron engine block features a separate pressed steel non-stress bearing sump assembly with the crankshaft located within five main bearing journals secured with 2-bolt bearing caps; 4-bolt main bearing caps featured on later performance versions.[2][3]
The cast iron cylinder heads are a cross-flow design with wedge-shaped combustion chambers and a single spark plug. In early versions of the engine the inlet and exhaust valves were arranged in a "mirrored" configuration around a longitudinal midpoint in each head i.e. I-E-I-E-E-I-E-I. The co-located exhaust valves in the two centre combustion chambers resulted in a "hot spot" making the heads prone to warping or cracking, especially in performance versions of the engine. For the fuel-injected 5000i version introduced in the 1988 VN Commodore, the cylinder heads were redesigned to a repeated I-E design (a similar layout was previously utilised for the HSV VL Group A SV) for all combustion chambers, delivering better heat distribution and thus greater reliability.[2][7]
Depending upon the application, induction was either carburettor or fuel-injection (multi-point or sequential, depending on the year). For the 1986 VL Commodore, the engine was modified to run on unleaded fuel which carried forth to all subsequent models.[2][4][7][8][9]
Initially offered in 4.1 and 5.0 L; 252.8 and 307.8 cu in (4,142 and 5,044 cc) versions, the engines were intended to be offered as part of the 1968Holden HK range, but the project ran behind schedule and instead became part of the 1969 HT model range. In the HT, the Holden V8 sold alongside the 350-cubic-inch (5.7 L)Chevrolet Small-Block engine until 1974 with the introduction of theHJ series.[10]
The V8 engine also appeared from 1971 in theStatesman range of large size luxury cars which Holden established as a separate marque, replacing the Holden badged Brougham. In 1974, both the 253 and 308 engines were added to theTorana range for the first time in the LH series (after an aborted attempt byHolden Dealer Team bossHarry Firth to introduce the V8 to the smallerLJ Torana range in 1972 which was stopped by theSupercar scare). The engines were also offered on the LX model range introduced in 1976, but not the final UC range which appeared in 1978.
Both engine capacities were offered on the firstVB Commodores which appeared in 1978. The 253 version was not available in theVK Commodore range, released in 1984, but continued inHolden WB commercials until their cessation in late 1984. In 1985, the special editions modified by Holden and their official after-market tuner,Peter Brock'sHDT Special Vehicles, began introducing the 304 cu in (4,980 cc) version of the engine, created to slip underneath the 305 cu in (5,000 cc) engine capacity cut-off inGroup Atouring car regulations, allowing Commodore competitors to run at a lower competition weight. This slight shrinking of the traditional Holden 308 saw the Group A Commodore's racing weight drop from 1,400 to 1,325 kg (3,086 to 2,921 lb). Due to the complex Group A regulations, this also allowed the racing cars to run bigger wheels and tyres without any drop in power. Indeed, theVK Commodore SS Group A was one of the fastest cars in the world of Group A racing when it hit the tracks in 1986.
HDT Special Vehicles also offered a more powerful version of the engine enlarged to 5.6 L; 344.4 cu in (5,643 cc) in some of itsVL models between 1986 and 1988, including the controversial Calais Director. This engine, making as much as 231 kW (310 hp), was an expensive option, particularly once Holden severed ties with HDT in February 1987, which drastically increased the prices of all HDT models, and consequently very few of the 5.6-litre motors were made. Bore and stroke is 102.4 mm × 85.7 mm (4.03 in × 3.37 in).
Fuel injection replaced thecarburettors initially on theVL Commodore SS Group A SV, again with Group A touring car racing in mind, this car produced by Holden's new performance vehicle partnerHolden Special Vehicles (HSV) in partnership with British-basedTom Walkinshaw Racing (TWR). While Group A disappeared after theVN model range, the fuel injected 5.0-litre; 304.3-cubic-inch (4,987 cc) engine, often referred to by its nickname,The Iron Lion, was offered in Commodores until theVS III Commodore utility in 2000, although there were no longer V8 VS III utilities available for sale during the latter part of 2000.
HSV vehicles featured a variety of more powerful versions of the 5.0-litre, which were also available on regular V8 Holdens as part of the SV Enhanced package. Additionally, from 1994 with theVR series, a 5.7-litre; 349.8-cubic-inch (5,733 cc) "stroker" was standard on theHSV GTS and optional on theSenator, and later on the Statesman/Caprice-based Grange from that its introduction in 1996.
Introduced in theHolden HT alongside the308 in 1969, later being addedLH Torana in 1974 and 1978 for theVB Commodore. The 253 was dropped Torana range in 1978 with theUC Torana, it continued to be used until 1985 for theHolden WB and 1984 for theVH Commodore
| Year(s) | Model | Power | Torque |
|---|---|---|---|
| 1969–1970 | Holden HT | 138 kW (185 hp) at 4400rpm | 262 lb⋅ft (355 N⋅m) at 2400 rpm |
| 1970–1971 | Holden HG | 138 kW (185 hp) at 4400rpm | 262 lb⋅ft (355 N⋅m) at 2400 rpm |
| 1971-1974 | Holden HQ | 138 kW (185 hp) at 4400rpm | 262 lb⋅ft (355 N⋅m) at 2400 rpm |
| 1974–1976 | Holden LH Torana | 138 kW (185 hp) at 4400rpm | 262 lb⋅ft (355 N⋅m) at 2400 rpm |
| 1974–1976 | Holden HJ | 138 kW (185 hp) at 4400rpm | 262 lb⋅ft (355 N⋅m) at 2400 rpm |
| 1976–1978 | Holden LX Torana | 138 kW (185 hp) 83 kW (111 hp) | 262 lb⋅ft (355 N⋅m) at 2400 rpm |
| 1976–1977 | Holden HX | 120 kW (160 hp) at 4550rpm | 240 lb⋅ft (325 N⋅m) at 2600 rpm |
| 1977–1980 | Holden HZ | 120 kW (160 hp) at 4550rpm | 240 lb⋅ft (325 N⋅m) at 2600 rpm |
| 1980–1985 | Holden WB | 100 kW (130 hp) at 4200rpm (single exhaust) 115 kW (154 hp) at 4400rpm (dual exhaust) | 269 lb⋅ft (365 N⋅m) at 2000 rpm (single exhaust) 289 lb⋅ft (392 N⋅m) at 3200 rpm (dual exhaust) |
| 1978–1980 | Holden VB Commodore | 87 kW (117 hp) at 4000rpm | 271 N⋅m (200 lb⋅ft) at 2000 rpm |
| 1980–1981 | Holden VC Commodore | 100 kW (130 hp) at 4200rpm (single exhaust) 115 kW (154 hp) at 4400rpm (dual exhaust) | 269 N⋅m (198 lb⋅ft) at 2000 rpm (single exhaust) 289 N⋅m (213 lb⋅ft) at 3200 rpm (dual exhaust) |
| 1981–1984 | Holden VH Commodore | 100 kW (130 hp) at 4200rpm (single exhaust) 115 kW (154 hp) at 4400rpm (dual exhaust) | 269 N⋅m (198 lb⋅ft) at 2000 rpm (single exhaust) 289 N⋅m (213 lb⋅ft) at 3200 rpm (dual exhaust) |
Introduced in 1985, in theVK Commodore forPeter Brock'sHDT Special Vehicles, created to slip underneath the 5,000 cc (305 cu in) engine capacity cut-off inGroup Atouring car regulations, allowing Commodore competitors to run at a lower competition weight. Discontinued in December 2000 with the release of theVU Ute for Coupé utilites and June 1999 for the rest of the line with the release of theVT II Commodore andWH Caprice.
| Year(s) | Model | Power | Torque |
|---|---|---|---|
| 1985–1986 | Holden VK Commodore | ? | ? |
| 1986–1988 | Holden VL Commodore | 122 kW (164 hp) at 4400rpm | 323 N⋅m (238 lb⋅ft) at 3200 rpm |
| 1988–1991 | Holden VN Commodore | 165 kW (221 hp) at 4400rpm | 385 N⋅m (284 lb⋅ft) at 3600 rpm |
| 1990–1994 | Holden VQ Caprice | 165 kW (221 hp) at 4400rpm | 385 N⋅m (284 lb⋅ft) at 3600 rpm |
| 1991–1993 | Holden VP Commodore | 165 kW (221 hp) at 4400rpm | 385 N⋅m (284 lb⋅ft) at 3600 rpm |
| 1993–1995 | VR Commodore | 165 kW (221 hp) at 4800rpm | 385 N⋅m (284 lb⋅ft) at 3600 rpm |
| 1995–1997 | Holden VS Commodore | 165 kW (221 hp) at 4400rpm (series I) 168 kW (225 hp) at 4400rpm (series II) 179 kW (240 hp) at 4400rpm (series III) | 385 N⋅m (284 lb⋅ft) at 3600 rpm (series I) 395 N⋅m (291 lb⋅ft) at 3600 rpm (series II) 400 N⋅m (295 lb⋅ft) at 3600 rpm (series III) |
| 1997–1999 | Holden VT Commodore | 179 kW (240 hp) at 4400rpm | 400 N⋅m (295 lb⋅ft) at 3600 rpm |
| Year(s) | Model | Power | Torque |
|---|---|---|---|
| 1969–1971 | Holden HT | 179 kW (240 hp) at 4000rpm | 315 lb⋅ft (427 N⋅m) at 3000 rpm |
| 1970–1971 | Holden HG | 179 kW (240 hp) at 4000rpm | 315 lb⋅ft (427 N⋅m) at 3000 rpm |
| 1971-1974 | Holden HQ | 179 kW (240 hp) at 4800rpm | 315 lb⋅ft (427 N⋅m) at 3000 rpm |
| 1974–1976 | Holden LH Torana | 179 kW (240 hp) at 4800rpm | 315 lb⋅ft (427 N⋅m) at 2400 rpm |
| 1974–1976 | Holden HJ | 179 kW (240 hp) at 4800rpm | 315 lb⋅ft (427 N⋅m) at 3000 rpm |
| 1976–1978 | Holden LX Torana | 179 kW (240 hp) at 4800rpm 126 kW (169 hp) | 315 lb⋅ft (427 N⋅m) at 3400 rpm |
| 1976–1977 | Holden HX | 161 kW (216 hp) at 4800rpm | 295 lb⋅ft (400 N⋅m) at 3100 rpm |
| 1977–1980 | Holden HZ | 161 kW (216 hp) at 4800rpm | 295 lb⋅ft (400 N⋅m) at 3100 rpm |
| 1980–1985 | WB Statesman | 126 kW (169 hp) at 4400rpm | 361 lb⋅ft (489 N⋅m) at 2800 rpm |
| 1978–1980 | Holden VB Commodore | 114 kW (153 hp) at 4000rpm | 344 N⋅m (254 lb⋅ft) at 2200 rpm |
| 1980–1981 | Holden VC Commodore | 126 kW (169 hp) at 4200rpm | 325 N⋅m (240 lb⋅ft) at 2600 rpm |
| 1981–1984 | Holden VH Commodore | 126 kW (169 hp) at 4200rpm | 361 N⋅m (266 lb⋅ft) at 2800 rpm |
| 1984–1986 | Holden VK Commodore | 126 kW (169 hp) at 4200rpm 177 kW (237 hp) at 4800rpm | 361 N⋅m (266 lb⋅ft) at 2800 rpm 419 N⋅m (309 lb⋅ft) |
| Year(s) | Model | Power | Torque |
|---|---|---|---|
| 1987 | HDT VL Director | 231 kW (310 hp) at 5400rpm | 536 N⋅m (395 lb⋅ft) at 3200 rpm |
| 1987 | HDT VL Aero | 225 kW (302 hp) at 4400rpm | 536 N⋅m (395 lb⋅ft) at 3200 rpm |
| 1987 | HDT VL Bathurst | 225 kW (302 hp) | ? |
HSV vehicles featured a variety of more powerful versions of the 5.0-litre, which were also available on regular V8 Holdens as part of the SV Enhanced package. Additionally, from 1994 with theVR series, a 5.7-litre; 349.8-cubic-inch (5,733 cc) "stroker" was standard on the HSV GTS and optional on the HSV Senator, and later on the Statesman/Caprice-based Grange from its introduction in 1996.
| Year(s) | Model | Power | Torque |
|---|---|---|---|
| 1994–1995 | HSV VRGTS /Senator 215i | 215 kW (288 hp) at 4800rpm | 475 N⋅m (350 lb⋅ft) at 3600 rpm |
| 1995–1999 | HSV VSGTS /GTS-R /Senator 215i /Grange 215i | 215 kW (288 hp) at 4800rpm | 475 N⋅m (350 lb⋅ft) at 3600 rpm |
| 1997–1999 | HSV VTGTS /Senator 220i | 220 kW (300 hp) at 4800rpm | 475 N⋅m (350 lb⋅ft) at 3600 rpm |