Hyundai Beta engine

The Hyundai Beta engines are 1.6 L to 2.0 L I4 built in Ulsan, South Korea.

      
β engine
Beta Engine
Overview
ManufacturerHyundai Motor Company
Production1995-2012
Layout
ConfigurationInline-4
Displacement1.6 L (1,599 cc)
1.8 L (1,795 cc)
2.0 L (1,975 cc)
Cylinder bore77.4 mm (3.05 in) (1.6L)
82 mm (3.2 in) (1.8L/2.0L)
Piston stroke85 mm (3.3 inches) (1.6L/1.8L)
93.5 mm (3.68 inches) (2.0L)
Block materialCast Iron
Head materialAluminum alloy
ValvetrainDual Overhead Camshaft (DOHC)
Compression ratio9.85:1 (1.6L)
10.0:1 (1.8L)
10.3:1 (2.0L)
RPM range
Idle700 ± 100 rpm
800 ± 100 rpm
Combustion
Fuel systemMultipoint Injection
ManagementSiemens
Fuel typePetrol
LPG
Oil systemWet sump
Cooling systemLiquid Cooled
Output
Power output90–143 PS (66–105 kW; 89–141 hp)
Torque output12.8–19 kg⋅m (93–137 lb⋅ft; 126–186 N⋅m)
Dimensions
Length496.40 mm (19.543 in) (2.0L)
Width624.80 mm (24.598 in) (2.0L)
Height672.00 mm (26.457 in) (2.0L)
Dry weight144 kg (317 lb) (2.0L)
Emissions
Emissions control technologyPCV valve
Catalytic Converter
Chronology
PredecessorMitsubishi Sirius engine
SuccessorTheta
Nu

All Beta engines are dual overhead camshaft valvetrain (DOHC) design. The Beta engine uses a direct-acting overhead cam valvetrain arrangement which places the camshaft in the cylinder head above the pistons and combustion chamber and operates the valve tappets/lifters directly.

The Beta engine's ignition system is designed to ignite the fuel/air charge that enters each cylinder by producing a high voltage spark at the exact moment for maximum efficiency.

All Beta versions are equipped with a Distributorless Ignition System (DIS). The system consist of the ignition coil assembly, Camshaft Position Sensor (CMP), Powertrain Control Module (PCM), spark plug wires and spark plugs.

The Beta engine family includes the following engine codes: G4GR, G4GB, G4GC, G4GF and G4GM.

Beta

1.6L (G4GR)

The 1.6-liter Beta (Engine code: G4GR) is an in-line, spark-ignition 4-stroke, dual overhead camshaft (DOHC) 16 valve engine and had two (2) variants depending on the vehicle's sub-model. Advertised power was 66 kW/ 89 hp/ 90 PS (ECE) and 126 Nm/ 93 lb-ft of torque or 84 kW/113 hp/114 PS (ECE) with 143 Nm / 105 lb-ft of torque depending on market and application.

The engine was assembled from 1995 to 2001 at the Ulsan plant. Unlike other representatives of the Beta series, this engine did not receive the second generation and was replaced by the power unit Alpha II. In a number of markets, a deferred version of 90 hp was sold.[1]

Specification:
Cylinder bore: 77.40 mm/ 3.051 in
Stroke: 85.00 mm/ 3.346 in
Engine Displacement: 1599 cm3 / 97.9 cui
Compression Ratio: 9.85
Firing Order: 1-3-4-2
Idle RPM: 800°± 100
Ignition Timing at idling speed: BTDC 7°± 5°/800 rpm(Limit: BTDC 10°± 5°/800 rpm)
Cylinder bore: 77.40 mm -77.43 mm
Out-of-roundness and taper of cylinder bore: 0.01 mm
Clearance with piston: 0.02mm - 0.04 mm

Piston:
Piston O.D.: 77.37-77.40 mm
Piston Service size: 0.25, 0.50, 0.75, 1.00 mm (0.010, 0.020, 0.030, 0.039 in.) oversize

Valve Guide:
Installed dimension O.D. (Intake): 14 mm (0.551 in.)
Installed dimension O.D. (Exhaust): 14 mm (0.551 in.)
Service size: 0.05, 0.25, 0.50 mm (0.002, 0.010, 0.020 in.) oversize

The 2nd generation Elantra (J2) and 1997-2000 Hyundai Coupe (RD) were equipped with Beta I G4GR engine and were distributed primarily within the European, Russian, Middle East and parts of Asian General Market. The vehicles sold in this market were equipped with an Adjusting Potentiometer, idle mixture. All models except the engine in the Hyundai Coupe did not include a Mass Air Flow (Air Mass) sensor which can be purchased separately. For aftermarket barometric pressure (MAP) sensor installation, an integrated Manifold Absolute Pressure (MAP) and the Intake Air Temperature (IAT) sensor is available.

Applications

1.8L (G4GM)

The 1.8-liter Hyundai G4GM engine was manufactured from 1995 to 2003 at the Ulsan enterprise and was put on several popular models of the Korean concern, for example the Elantra and Coupe. The motor was assembled for eight years and after it was replaced with the 1.8L Beta II engine.

Specification:

Cylinder bore: 82 mm (3.228 in.)
Stroke: 85 mm (3.346 in.)
Engine Displacement: 1795cc (109.54 cu.in.)
Compression Ratio: 10.0
Firing Order: 1-3-4-2
Idle RPM: 800°± 100
Ignition Timing at idling speed: BTDC 10°±5°/800 rpm
Cylinder bore: 82.00-82.03 mm (3.2283 - 3.2295 in.)
Out of-roundness & taper of cylinder bore: Less than 0.01 mm (0.0004 in.)
Clearance with piston: 0.02-0.04 mm (0.0008 - 0.0016 in.)

Applications

2.0L (G4GF)

The G4GF (also called the 2.0 D) is the 2.0L (1975cc) version, having debuted in 1997 for the Hyundai Tiburon. It shares the 82 mm bore of the 1.8 but is stroked to 93.5 mm. It has a cast iron engine block and aluminum DOHC cylinder head. It uses MFI fuel injection, has four valves per cylinder and features powdered cast steel connecting rods. OPA Output is 140 hp (102 kW) at 6000 rpm and 133 pound force-feet (180 N⋅m)

The 2.0-liter Hyundai G4GF engine was assembled from 1996 to 2001 at an enterprise in Ulsan. The motor was replaced by 2.0L Beta II engine.

Applications

Beta II

1.8L (G4GB)

The 1.8-liter Hyundai G4GB engine was manufactured from 2000 to 2010. The motor belonged to the Beta II series therefore had an upgraded design relative to its predecessors.

Applications

2.0L (G4GC)

The 2.0-liter Hyundai Beta II engine was produced from 2001 to 2012. The power unit since 2003 it was equipped with the CVVT timing system. The engine is life expectancy of 300,000 km.

Four-stroke, four-cylinder petrol with electronic control system of fuel injection and ignition, with in-line arrangement of cylinders and pistons rotating one common crankshaft, with the top arrangement of two camshafts (with the CVVT system). The engine has a closed-type liquid cooling system with forced circulation. The lubrication system is combined: under pressure and spraying.

The head of the block of cylinders is made of an aluminum alloy. The drive of the camshafts is carried out by a toothed belt. The belt itself drives only the exhaust camshaft and the intake camshaft is driven from the exhaust by means of a chain, it is in the rear of the cylinder head as is the mechanism for changing the valve timing. On the engine there are no hydraulic compensators, adjustment of backlashes of valves is required every 90,000 km.

During 2001-2002, the engine made its debut in models such as the (XD) Elantra and (GK) Tiburon. Output is 138 hp (102 kW) at 6000 rpm with 136 pound force-feet (184 N⋅m) of torque at 4500 rpm. It has a cast iron engine block and aluminum DOHC cylinder heads.

For the latest version the following changes were noted:

  • Redesigned block with external contouring of cylinder bores (instead of flat sides), extra ribbing and one extra transaxle fixing point (now 5)(less NVH)
  • Crankshaft now has 8 counterweights instead of 4.(NVH)
  • Cast & ribbed aluminium sump pan (instead of pressed steel sheet) with stronger joint to transaxle (NVH)
  • Reshaped combustion chambers, ports & pistons (performance, [fuel] economy, emissions)
  • 20 mm (0.8 in) longer intake rams, 8% smaller surge tank, resonator added, spark timing and valve lift optimized, lighter valve springs, denser conrod bearings, returnless fuel system (instead of return type) with higher fuel pressure and smaller injectors (torque spread and economy)
  • Cylinder head machined to more precise tolerances
  • Head gasket now 2-layer (instead of 3)
  • Idle speed reduced to 700 rpm from 800 rpm (NVH)
  • Hydraulic engine mounts (4) instead of rubber (NVH)
  • Heat shield installed between engine and air filter, reducing heating of induction air.
  • New camcover with I-piece high-specific gravity polypropylene baffle (ilo 2-piece pp)
  • Oil flow reduced (economy)
  • Mechanical valve lash adjusters (solid lifters) replace hydraulic, improving valve clearance precision (durability).
  • Lower valve spring load reduces valve train friction (performance).
  • Engine cover installed (NVH and dress up engine bay)
  • Catalytic converter now upstream adjoining exhaust manifold (ilo under car) (emissions)
  • Other detail changes to: alternator, intake manifold brace, power steering & a/c pulleys, idle speed actuator, oil filler cap & drive plate between engine & torque converter

In 2008 the Beta II was modified to produce 142 horsepower (106 kW) and 137 lb⋅ft (186 N⋅m) of torque.

Applications

Beta LPG

2.0L (L4GC)

The 2.0 L (1,975 cc) engine features LPI injection and makes 123 PS (90 kW; 121 hp) at 5,500 rpm with 17.5 kg⋅m (127 lb⋅ft; 172 N⋅m) of torque at 3,000 rpm.

Applications

See also

References

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