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51-629: The Luxgen URX is a 7-seater mid-size crossover SUV produced by the Taiwanese car company Luxgen . The URX was developed under Yulon 's R&D center, HAITEC . Based on the same platform as, but being positioned above the Luxgen U6 compact crossover, the URX crossover can provide up to 7 seats and even a special platform in the luggage area for wheelchair and cargo storage. It was first launched in Taiwan in 2019, and

102-480: A power valve system to get similar results to VVT. The valves within an internal combustion engine are used to control the flow of the intake and exhaust gases into and out of the combustion chamber . The timing, duration and lift of these valve events has a significant impact on engine performance. Without variable valve timing or variable valve lift , the valve timing is the same for all engine speeds and conditions, therefore compromises are necessary to achieve

153-474: A 4.4 L engine for a proposed replacement for the existing 30-98 model to be called the H-Type. In this engine the single overhead camshaft was to move longitudinally to allow different camshaft lobes to be engaged. It was in the 1920s that the first patents for variable duration valve opening started appearing – for example United States patent U.S. patent 1,527,456 . In 1958 Porsche made application for

204-478: A German Patent, also applied for and published as British Patent GB861369 in 1959. The Porsche patent used an oscillating cam to increase the valve lift and duration. The desmodromic cam driven via a push/pull rod from an eccentric shaft or swashplate . It is unknown if any working prototype was ever made. Fiat was the first auto manufacturer to patent a functional automotive variable valve timing system which included variable lift. Developed by Giovanni Torazza in

255-415: A VVT system requires a complex system, such as multiple cam profiles or oscillating cams. Late intake valve closing (LIVC) The first variation of continuous variable valve timing involves holding the intake valve open slightly longer than a traditional engine. This results in the piston actually pushing air out of the cylinder and back into the intake manifold during the compression stroke. The air which

306-533: A cam phaser, controlled by the ECM, which continuously varies advancement or retardation of the camshaft timing. In 2007, Caterpillar developed the C13 and C15 Acert engines which used VVT technology to reduce NOx emissions, to avoid the use of EGR after 2002 EPA requirements. In 2010, Mitsubishi developed and started mass production of its 4N13 1.8 L DOHC I4, the world's first passenger car diesel engine that features

357-521: A conventional cam lobe, while others use an eccentric cam lobe and a connecting rod. The principle is similar to steam engines, where the amount of steam entering the cylinder was regulated by the steam "cut-off" point. The advantage of this design is that adjustment of lift and duration is continuous. However, in these systems, lift is proportional to duration, so lift and duration cannot be separately adjusted. The BMW ( valvetronic ), Nissan ( VVEL ), and Toyota ( valvematic ) oscillating cam systems act on

408-447: A mechanical VVT system. The system was engineered by Ing Giampaolo Garcea in the 1970s. All Alfa Romeo Spider models from 1983 onward used electronic VVT. In 1989, Honda released the VTEC system. While the earlier Nissan NVCS alters the phasing of the camshaft, VTEC switches to a separate cam profile at high engine speeds to improve peak power. The first VTEC engine Honda produced was

459-403: A variable valve timing system. Manufacturers use many different names to describe their implementation of the various types of variable valve timing systems. These names include: This method uses two cam profiles, with an actuator to swap between the profiles (usually at a specific engine speed). Cam switching can also provide variable valve lift and variable duration, however the adjustment

510-673: Is a battery-electric SUV for which preorders opened in September 2022. Luxgen's first production model was the Luxgen7 MPV minivan . It was officially shown to the public for the first time on August 19, 2009, and went on sale in Taiwan on September 19, 2009. The vehicle was based on the Renault Espace III . In Taiwan, by March 2010, more Luxgen7 MPVs had sold than the entire Hyundai lineup. In December 2009, luxury CEO (built-to-order) and electric EV+ models were unveiled publicly at

561-445: Is a subcompact crossover based on the S3's platform. Luxgen U5 was discontinued in 2020. The Luxgen MBU debuted in 2019. The MBU is a concept performance crossover on a new platform that is intended for future vehicles. Variable valve timing Variable valve timing ( VVT ) is the process of altering the timing of a valve lift event in an internal combustion engine , and

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612-471: Is acted on by two lobes simultaneously. Each camshaft has a phasing mechanism which allows its angular position relative to the engine's crankshaft to be adjusted. One lobe controls the opening of a valve and the other controls the closing of the same valve, therefore variable duration is achieved through the spacing of these two events. The drawbacks to this design include: This system is not known to be used in any production engines. The operating principle

663-419: Is discrete rather than continuous. The first production use of this system was Honda's VTEC system. VTEC changes hydraulic pressure to actuate a pin that locks the high lift, high duration rocker arm to an adjacent low lift, low duration rocker arm(s). Many production VVT systems are the cam phasing type, using a device known as a variator which changes the phase (Phase refers to the relative timing between

714-429: Is driven by the crankshaft through timing belts , gears or chains . An engine requires large amounts of air when operating at high speeds. However, the intake valves may close before enough air has entered each combustion chamber, reducing performance. On the other hand, if the camshaft keeps the valves open for longer periods of time, as with a racing cam, problems start to occur at the lower engine speeds. Opening

765-449: Is expelled fills the manifold with higher pressure, and on subsequent intake strokes the air which is taken in is at a higher pressure. Late intake valve closing has been shown to reduce pumping losses by 40% during partial load conditions, and to decrease nitric oxide ( NOx ) emissions by 24%. Peak engine torque showed only a 1% decline, and hydrocarbon emissions were unchanged. Early intake valve closing (EIVC) Another way to decrease

816-413: Is freed from this constraint, allowing performance to be improved over the engine operating range. Piston engines normally use valves which are driven by camshafts . The cams open ( lift ) the valves kind for a certain amount of time ( duration ) during each intake and exhaust cycle. The timing of the valve opening and closing, relative to the position of the crankshaft, is important. The camshaft

867-569: Is integrated and projected on the HUD head-up display through AR augmented reality, and a 12-inch HD touch screen is used to display various items of driving information and adjust the settings of various functions of the vehicle. The central control touch screen host has introduced the Luxgen Think+ 5.0 human factor interface, and increased the resolution of the AR view to 1.2 million pixels. Luxgen Luxgen

918-446: Is of this type. Also known as "combined two shaft coaxial combined profile with helical movement", this system is not known to be used in any production engines. It has a similar principle to the previous type, and can use the same base duration lobe profile. However instead of rotation in a single plane, the adjustment is both axial and rotational giving a helical or three-dimensional aspect to its movement. This movement overcomes

969-404: Is often used to improve performance, fuel economy or emissions. It is increasingly being used in combination with variable valve lift systems. There are many ways in which this can be achieved, ranging from mechanical devices to electro-hydraulic and camless systems. Increasingly strict emissions regulations are causing many automotive manufacturers to use VVT systems. Two-stroke engines use

1020-514: Is priced at NT$ 848,000 to NT$ 1.12 million (US$ 28,021 to US$ 37,009). The URX is powered by a turbocharged 1.8 liter engine with 204 hp (152 kW) and 300 N⋅m (221 lbf⋅ft). Gearbox is a 6-speed manumatic transmission. The URX received a facelift for the 2023 model year called the URX Neo. The URX Neo features a redesigned front fascia and full-width tail lights while powertrain remains unchanged. The redesigned instrument panel information

1071-405: Is that it significantly lowers the temperature of the combustion chamber, which can increase hydrocarbon emissions. Early intake valve opening Early intake valve opening is another variation that has significant potential to reduce emissions. In a traditional engine, a process called valve overlap is used to aid in controlling the cylinder temperature. By opening the intake valve early, some of

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1122-435: Is that the cam and follower profiles must be carefully designed to minimise contact stress (due to the varying profile). Ferrari is commonly associated with this system, however it is unknown whether any production models to date have used this system. This system is not known to be used in any production engines. It consists of two (closely spaced) parallel camshafts, with a pivoting follower that spans both camshafts and

1173-408: Is that the one follower spans the pair of closely spaced lobes. Up to the angular limit of the nose radius the follower 'sees' the combined surface of the two lobes as a continuous, smooth surface. When the lobes are exactly aligned the duration is at a minimum (and equal to that of each lobe alone) and when at the extreme extent of their misalignment the duration is at a maximum. The basic limitation of

1224-414: Is two eccentric drives and controllers are needed for each cylinder (one for the intake valves and one for the exhaust valves), which increases complexity and cost. MG Rover is the only manufacturer that has released engines using this system. This system consists of a cam lobe that varies along its length (similar to a cone shape). One end of the cam lobe has a short duration/reduced lift profile, and

1275-610: The B16A which was installed in the Integra , CRX , and Civic hatchback available in Japan and Europe. In 1992, Porsche first introduced VarioCam , which was the first system to provide continuous adjustment (all previous systems used discrete adjustment). The system was released in the Porsche 968 and operated on the intake valves only. Variable valve timing has been applied to motorcycle engines but

1326-417: The camshaft 25 times per second, so the valve timing events have to occur at precise times to offer performance benefits. Electromagnetic and pneumatic camless valve actuators offer the greatest control of precise valve timing, but, in 2016, are not cost-effective for production vehicles. The history of the search for a method of variable valve opening duration goes back to the age of steam engines when

1377-548: The 1920s when maximum allowable RPM limits were generally starting to rise. Until about this time an engine's idle RPM and its operating RPM were very similar, meaning that there was little need for variable valve duration. The first use of variable valve timing was on the 1903 Cadillac Runabout and Tonneau created by Alanson Partridge Brush Patent 767,794 “INLET VALVE GEAR FOR INTERNAL COMBUSTION ENGINES” filed August 3, 1903, and granted August 16, 1904. Some time prior to 1919 Lawrence Pomeroy, Vauxhall's Chief Designer, had designed

1428-658: The Dominican Republic. In 2011, Luxgen topped the J.D. Power Customer Service Index (CSI) in Taiwan among locally produced car brands. Luxgen repeated as the highest-scoring marque among Mass Market Brands in the J.D. Power 2018 Taiwan CSI Study. Luxgen entered the Russian market in 2013 followed by the Iranian market in 2017. In 2020, Luxgen announced that the manufacturer would exit from China market due to low sales. The Luxgen U6 compact crossover debuted in 2013, using

1479-658: The Dubai Motor Show; the EV+ was developed in collaboration with AC Propulsion . When the styling was updated in 2014, the MPV was renamed to Luxgen M7 . Luxgen M7 was discontinued in 2021. The Luxgen U7 is Luxgen's second product. It was unveiled as the Luxgen7 SUV at the Dubai Motor Show in December 2009 and released on June 4, 2010. The name was changed to U7 during the facelift. Both

1530-612: The M7 and U7 are powered by a 2.2 L turbocharged 4-cylinder petrol engine developed in collaboration with Le Moteur Moderne, using turbos manufactured by Garrett , and meeting Euro4 emissions standards. Luxgen U7 was discontinued in 2020. Originally launched as the Luxgen5 Sedan, the compact sedan was unveiled in November 2011 at the Taipei Auto Show and then officially launched in

1581-493: The camshaft by the governor. The Serpollet steamcars produced very hot high pressure steam, requiring poppet valves, and these used a patented sliding camshaft mechanism, which not only varied the inlet valve cut-off but allowed the engine to be reversed. An early experimental 200 hp Clerget V-8 from the 1910s used a sliding camshaft to change the valve timing . Some versions of the Bristol Jupiter radial engine of

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1632-430: The desired result in intake and exhaust efficiency . This has been described in simulations. Practical results will vary based on available ambient combustion cycle gases in a naturally aspirated system, or forced air geometry as well as fuel pulse width timing and other factors which may or may not be available on vehicles equipped with variable valve timing. An engine equipped with a variable valve timing actuation system

1683-479: The development of the Corliss valve . These were widely used in constant speed variable load stationary engines, with admission cutoff, and therefore torque, mechanically controlled by a centrifugal governor and trip valves . As poppet valves came into use, a simplified valve gear using a camshaft came into use. With such engines, variable cutoff could be achieved with variable profile cams that were shifted along

1734-470: The early 1920s incorporated variable valve timing gear, mainly to vary the inlet valve timing in connection with higher compression ratios. The Lycoming R-7755 engine had a Variable Valve Timing system consisting of two cams that can be selected by the pilot. One for take off, pursuit and escape, the other for economical cruising. The desirability of being able to vary the valve opening duration to match an engine's rotational speed first became apparent in

1785-421: The exhaust valve opens, and exhaust gas is pushed out of the cylinder and into the exhaust manifold by the piston as it travels upward. By manipulating the timing of the exhaust valve, engineers can control how much exhaust gas is left in the cylinder. By holding the exhaust valve open slightly longer, the cylinder is emptied more and ready to be filled with a bigger air/fuel charge on the intake stroke. By closing

1836-550: The inert/combusted exhaust gas will back flow out of the cylinder via the intake valve, where it cools momentarily in the intake manifold. This inert gas then fills the cylinder in the subsequent intake stroke, which aids in controlling the temperature of the cylinder and nitric oxide emissions. It also improves volumetric efficiency, because there is less exhaust gas to be expelled on the exhaust stroke. Early/late exhaust valve closing Early and late exhaust valve closing timing can be manipulated to reduce emissions. Traditionally,

1887-437: The inlet and exhaust camshafts, expressed as an angular measure.) of the camshaft and valves. This allows continuous adjustment of the cam timing (although many early systems only used discrete adjustment), however the duration and lift cannot be adjusted. These designs use an oscillating or rocking motion in a part cam lobe, which acts on a follower. This follower then opens and closes the valve. Some oscillating cam systems use

1938-687: The intake valve while the exhaust valve is still open may cause unburnt fuel to exit the engine, leading to lower engine performance and increased emissions. According to engineer David Vizard's book "Building Horsepower", when both intake & exhaust are open simultaneously, the much-higher-pressure exhaust pushes the intake-charge back, out from the cylinder, polluting the intake-manifold with exhaust, in worst cases. Early variable valve timing systems used discrete (stepped) adjustment. For example, one timing would be used below 3500 rpm and another used above 3500 rpm. More advanced "continuous variable valve timing" systems offer continuous (infinite) adjustment of

1989-412: The intake valves only. Eccentric cam drive systems operates through an eccentric disc mechanism which slows and speeds up the angular speed of the cam lobe during its rotation. Arranging the lobe to slow during its open period is equivalent to lengthening its duration. The advantage of this system is that duration can be varied independent of lift (however this system does not vary lift). The drawback

2040-421: The late 1960s, the system used hydraulic pressure to vary the fulcrum of the cam followers (US Patent 3,641,988). The hydraulic pressure changed according to engine speed and intake pressure. The typical opening variation was 37%. Alfa Romeo was the first manufacturer to use a variable valve timing system in production cars (US Patent 4,231,330). The fuel injected models of the 1980 Alfa Romeo Spider 2000 had

2091-483: The other end has a longer duration/greater lift profile. In between, the lobe provides a smooth transition between these two profiles. By shifting area of the cam lobe which is in contact with the follower, the lift and duration can be continuously altered. This is achieved by moving the camshaft axially (sliding it across the engine) so a stationary follower is exposed to a varying lobe profile to produce different amounts of lift and duration. The downside to this arrangement

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2142-616: The pumping losses associated with low engine speed, high vacuum conditions is by closing the intake valve earlier than normal. This involves closing the intake valve midway through the intake stroke. Air/fuel demands are so low at low-load conditions and the work required to fill the cylinder is relatively high, so Early intake valve closing greatly reduces pumping losses. Studies have shown early intake valve closing reduces pumping losses by 40%, and increases fuel economy by 7%. It also reduced nitric oxide emissions by 24% at partial load conditions. A possible downside to early intake valve closing

2193-528: The same platform and 1.8 and 2.0 L VVT turbo engines as the S5. The U6 GT and U6 GT225 models are equipped with the smaller and larger engine, respectively. The U6 was facelifted in 2017, adding a 1.6 L engine from PSA Group . The Luxgen URX debuted in 2019. The URX is a midsize crossover based on the U6's platform. It could be the first Luxgen vehicle exported to Europe. The Luxgen n7 debuted in 2023. The n7

2244-493: The scheme is that only a duration variation equal to that of the lobe nose true radius (in camshaft degrees or double this value in crankshaft degrees) is possible. In practice this type of variable cam has a maximum range of duration variation of about forty crankshaft degrees. This is the principle behind what seems to be the very first variable cam suggestion appearing in the USPTO patent files in 1925 (1527456). The "Clemson camshaft"

2295-570: The second quarter of 2012, followed by a China release in July 2013. It was the first wholly self-developed Taiwanese car. The Neora EV concept, shown at Auto Shanghai in April 2011, was adapted for production as the Luxgen5, equipped with conventional 1.8 L and 2.0 L turbocharged petrol engines with variable valve timing . After a design refresh in 2015, the sedan was renamed to Luxgen S5 . Luxgen S5

2346-435: The valve opening duration was referred to as "steam cut-off ”. The Stephenson valve gear , as used on early steam locomotives, supported variable cutoff , that is, changes to the time at which the admission of steam to the cylinders is cut off during the power stroke. Early approaches to variable cutoff coupled variations in admission cutoff with variations in exhaust cutoff. Admission and exhaust cutoff were decoupled with

2397-437: The valve slightly early, more exhaust gas remains in the cylinder which increases fuel efficiency. This allows for more efficient operation under all conditions. The main factor preventing this technology from wide use in production automobiles is the ability to produce a cost-effective means of controlling the valve timing under the conditions internal to an engine. An engine operating at 3000 revolutions per minute will rotate

2448-422: The valve timing. Therefore, the timing can be optimized to suit all engine speeds and conditions. The simplest form of VVT is cam-phasing , whereby the phase angle of the camshaft is rotated forwards or backwards relative to the crankshaft. Thus the valves open and close earlier or later; however, the camshaft lift and duration cannot be altered solely with a cam-phasing system. Achieving variable duration on

2499-986: Was considered a non-useful "technological showpiece" as late as 2004 due to the system's weight penalty. Since then, motorcycles including VVT have included the Kawasaki 1400GTR/Concours 14 (2007), the Ducati Multistrada 1200 (2015), the BMW R1250GS (2019) and the Yamaha YZF-R15 V3.0 (2017), the Suzuki GSX-R1000R 2017 L7, the Moto Guzzi V85TT, the Harley Davidson Milwaukee-Eight, the KTM 1390 Super Duke. Variable valve timing has begun to trickle down to marine engines. Volvo Penta 's VVT marine engine uses

2550-463: Was discontinued in 2020. The Luxgen V7 is basically a wheelchair accessible version of the M7 which has a lower extended tailgate and extended roof. The V7 was later revealed in production version during the 2016 Taipei Auto Show. Luxgen V7 was discontinued in 2021. Luxgen S3 is a sub-compact sedan which was released in 2016. Luxgen S3 was discontinued in 2020. The Luxgen U5 debuted in Q3, 2017. The U5

2601-662: Was founded in 2009, and the company's motto is "Think Ahead." From 2010 to 2020, Luxgen vehicles were manufactured and marketed in China by Dongfeng Yulon . Currently, Luxgen products are primarily manufactured and marketed in Taiwan. Luxgen made its first overseas sale in Oman in 2010, as part of a plan to focus on the Middle East, Latin America, Central America and South America, Russia, China and Southeast Asia car markets. Further sales were made in

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