Thursday, April 28, 2011

Turbo V8 Facts of Life


Have you ever ridden in a vehicle powered by a properly engineered twin-turbo V8? No, a single-turbo V8, or heaven forbid, a single-turbo four cylinder is not the same thing, not even close.
We’ve all heard the wisdom that there’s no substitute for cubic inches, but cubic inches of what? Is it cubic inches of engine that count, or cubic inches of air in the combustion chamber? It’s obviously the latter. So consider this, 15 psi of boost effectively doubles the size of an engine. That means 15 psi of boost will make a 350-cubic-inch performance engine seem like a 700-cubic-inch performance engine!

Actually, this picture isn’t accurate. If you understand engines, you’ll immediately realize that 15-psi boost more than doubles the performance an engine. It does this for two reasons: first, the internal friction of the engine remains largely the same regardless of boost, so the extra power from turbocharging is almost totally available to power the vehicle; and second, the 15 psi of boost in the induction system actually helps push the pistons down on the intake stroke whereas the intake stroke created a pumping loss (negative torque) when the engine was normally aspirated.
Now you may be thinking that the turbochargers create exhaust backpressure that increases the pumping loss on the exhaust stroke, but let’s go back to the first sentence of this discussion — we’re talking about a “properly engineered” system. That means the exhaust restriction created by the dual turbos will be minor, and that boost pressure will always exceed exhaust system backpressure. Simply translated, in terms of performance, a good twin-turbo 350 V8 will turn your inside out!
Okay, just for fun, let’s compare our 350 twin-turbo V8 at 15-psi boost to a 120-cubic-inch compact four cylinder running 30 psi of boost — twice that of the V8. By our rule of thumb, the little four-banger will now be flowing air equivalent to a 360-cubic-inch normally aspirated engine. That’s impressive for a small engine, but it will still have only half the power potential of our twin-turbo V8 running at half the boost. If you push the V8 to 30-psi boost, you’ll have the equivalent of 1050 cubic inches and over 1500 hp, if it is done correctly.
By now you get the point. Bigger engines add power, but turbocharging bigger engines really gets the job done. Happily, there’s more good news associated with turbocharging the small-block Chevy V8, and almost all of it comes down to durability. To begin, the performance industry offers a variety of high-strength cylinder blocks in both iron and aluminum. Thicker main webs and four-bolt main caps are just what a turbocharged engine needs. Next, the small-block Chevy uses five head bolts or studs surrounding each cylinder to help secure head gaskets. And of course, the aftermarket has a variety of premium head gaskets too. Then there are other heavy-duty parts readily available, such as forged crankshafts, forged connecting rods, forged pistons, special piston pins, and premium rings and bearings.
Finding all of these things is difficult for other engines, especially for four-cylinder engines.
Of course, the small-block Chevy V8 also benefits from a wide variety of high-performance cylinder heads, intake manifolds, and valvetrain pieces. Simply stated, nearly everything that improves airflow on a normally aspirated engine will also improve total flow on a turbocharged engine.
The next good news is that extreme duty drivetrain parts are readily available for rear-wheel-drive vehicles with V8 engines. This includes clutches, transmissions, u-joints, differentials and axles. Most of this was developed for drag racing or circle track racing. Such strength and durability is important when dealing with real power. For example, a 350-cubic-inch V8 running at 20-psi boost is capable of roughly 900 lb-ft of torque! You don’t feed that through a front-wheel drive transaxle to high-traction tires — at least not more than once.

Turbocharging is fun. It’s addictive.

1UZ V8 Engine
Haltech Platinum 2000
1000cc injectors
Turbos Bulleyes
Custom Intake
Custom Turbo Manifold and Coatings
Throttle Body 90mm
JE Pistons
Eagle Rods
Twin Walbro Pump
E85 Race Fuel

TH400 Auto Trans
High Stall Converter
Adapterplate 1UZ to TH400

5800 Rpm 750whp 20psi Boost!!!! Max 7500Rpm....


Internal Forged Kit

Adapter Plate 1UZ to TH400

High Stall Torque Converter

TH400 Trans

1UZ High Cams

B&M Shift Gear


Tuesday, April 26, 2011

Methanol Tuning

APTuning have tested methanol fuel extensively over the last five years and have learned how to set up engines and carburetors for most engine applications. The following is a list of tips that every methanol fuel user should be aware of.

          Preliminary Facts Regarding Methanol
    Methanol fuel is generally harder to set up for than gasoline, therefore APT recommend its use for experienced tuners only. If you are not proficient in Fuel Injection System and evaluating engine performance then it is best to gain these experiences with gasoline first. Methanol fuel is recommended for short duration racing only such as drag racing or short sprint racing, you will consume twice the amount of alcohol fuel for any given horsepower output when compared to gasoline, so the range of your fuel tank is basically cut in half. Because methanol is "hygroscopic" meaning it absorbs water, it requires special handling procedures. The number one piece of advise is to buy only as much fuel as you will use in a week, and buy the fuel from a reputable vendor who stores the fuel in sealed metal drums. It is preferable to store methanol in a sealed metal container. Plastic is OK for short term storage only, but put the container on wood, not on the ground. Be sure to keep your container sealed at all times. In addition to attracting water, methanol is corrosive to metals, gaskets and seals. In four stroke engines it is recommended that you use a "top lube" or methanol fuel treatment in order to VP Racing Methanol must be drained from the fuel system at the end of the day every day. This is especially important in the coastal climates. Because fuel tanks and carburetors are ventilated to the atmosphere the methanol inside will absorb water and corrode costly fuel system components. Once the methanol has been drained from the entire fuel system you will have to put gasoline into the carburetors and run the engine. Start the engine and run it for two or three minutes, leave the gasoline in the fuel system until the next ride.
    Engine and Fuel System Set Up
    Because alcohol fuels burn so much cooler and slower than gasoline APT recommend that you increase the compression of the engine to maximize performance, there will be little or no advantage to running methanol on a stock compression ratio. We suggest first checking your cranking compression and then consulting your engine builder before running methanol, some engines will tolerate less compression than others. Advance the ignition timing. Your results may vary depending upon compression ratio and the sophistication of the ignition system. Proceed carefully and document the timing change by measurement, either by degrees of crank rotation or by millimeters before top dead center. Minimize flow restrictions between the fuel tank and the carburetors. Remove the petcock from the fuel tank and cut off the filter screen and the reserve stand pipe. Remove any in-line fuel filters or petcocks, use as large a fuel line as you can fit over the fittings on the carbs and petcock. Check the operation of the slide, make sure that it opens all the way to clear the bore of the carburetor or injectors, this is particularly important with modified or bored carbs. In our experience a methanol equipped Mechanical Fuel Pump
    Procedures For Tuning Methanol
    Even if you are an experienced tuner, you will want to read up on your particular engine design before you proceed with methanol testing. Methanol fuels are less tolerant of a lean air/fuel ratio than gasoline and will detonate violently. Fortunately methanol detonation or pinging is quite audible, so if you hear any "rattle" you must stop immediately and richen the fuel settings. Some words about the power jet. The power jet is essentially another fuel circuit in addition to the slow and main circuits, the power jet is throttle position sensitive and generally only comes in from 3/4 throttle and up. Many power jets have a screw type adjuster on them so you can vary the amount of fuel they deliver, turn the screw out from seated in order to increase the fuel fuel flow. The power jet will allow you to keep the slow and mid throttle settings clean/ correct and still allow enough fuel flow for wide open high rpm power. If you are running into a lean condition at wide open throttle (WOT) and you are getting no results and make the engine breaks, you have reached the fuel flow limit of the big size injectors.Better for 4cyliders 8 injectors 1600cc each.New Siemens injector 2000cc are there. Now, for methanol, the ratio for stoichiometric combustion is somewhere in the neighborhood of 6.5:1. So if we were running an engine on pure methanol, we'd have calibrated our wideband controller such that  produces a display of 6.5. Hypothetically, if we were to take that same engine and run it on gasoline, then a stoichiometric mixture of gasoline and air, despite being 14.7:1 in reality, would still produce a display of 6.5.
     Normally aspirated
    Engines often need a LOT of advance as either the compression is to low or the piston domes to get really high compression interferes with flame travel. With wedge heads some tuners use a slot cut through the dome between the spark plug electrode and the far side of the chamber. Methanol really only starts working OK at over 12:1 and gains all the way to 16:1 or higher, depending on chamber shape and plug location. When effectiv compression rato gets up around 18 or 2:1 is when you need the 4.5 or 5:1 A:F ratio.

    A lot to rich (not just a bit rich for safety) creates problems with bore wear due to wash down and oil dilution resulting in the oil turning into a custard like consistency. Heavily diluted oil if left in the engine can corrode things, especially in the ring lands and the bearing shells.
    Timing starting from 33-36deg on full boost,but can go 40deg looking your engine design
    Part For Metahnol Fuel System
    1.Engine Management Haltech,Microtech,Motec or Vi-PEC
    2.Mechanical Fuel Pump and Gear(belt)
    3.Injectors 1600cc  8 injectors
    4.Methanol Regulator x 2pc
     5.Bigger fuel line
    6.Aluminium Fuel Tank
      2000cc injectors
      Power Pump Methanol
      Mechanical Pump
      Methanol Regulator
        3TC Haltech P1000 Methanol
        Rotar 13b Haltech P2000 Methanol


        Honda Turbo Methanol







        For Ethanol or Methanol Price Pls Contact

        Email: advancedperformancetuning@gmail.com


Sunday, April 24, 2011

Knock Amplifer Kit

Knock Amplifer Kit



ViPEC Knock Amplifier has been designed as a knock tuning tool as well as a knock control interface. This flexibility allows the ViPEC Knock Amplifier to be used as a tuning tool for every day workshop and dyno use, as well as a permanently installed knock controller.

The ViPEC Knock Amplifier can act as knock detection interface for Vi-PEC ECUs. The ViPEC Knock Amplifier connects directly with the knock sensor and provides the ECU with an accurate measurement of engine knock. The ECU can then be configured for closed loop knock control, allowing the ignition timing to be advanced and retarded to maintain output power while protecting the engine. Additionally, the supplied knock light can be mounted on the dash to provide the driver with a visible warning in the event of engine knock.

The ViPEC Knock Amplifier can be used as a knock tuning tool. Connected to a correctly positioned knock sensor the ViPEC Knock Amplifier will provide a clear audio output with a crisp distinction between normal engine sounds and knock. This will allow the tuner to safely optimise ignition timing and mixtures when tuning an engine.


The kit includes:
. Molded plastic case with foam cutouts
. Digital Knock Amplifier
. Noise canceling headset
. Bosch knock sensor
. Knock indication light
. Cables
. Batteries
. Manual

Key Features:
· Two Knock Sensor Inputs
· 105mW RMS Low Distortion Audio Output
· ANC (Active Noise Cancellation) Detection Mode
· 40MHz Digital Signal Micro-Processor
· Analogue 0V to 5V Output for Interfacing to an After-market Gauge or Engine Management System
· Digital Window Input for Time Window Data Capture and Individual Cylinder Knock Control
· Digital Window Output for Interfacing to Vi-PEC VX ECUs
· External Knock Indication Light
· Fifteen User Selectable Digital Filters
· Selectable Detection Gain from 1 to 64
· Internal 9V Battery Compartment for Quick Setup
· Low Power Mode for Extended Battery Life (audio only)
· Ergonomic and Robust ABS Case with Plush Hand Grips



Specifications:
· 120mm x 80mm x 25mm
· 8V to 18V supply input range

· 160g with 9V Battery

Saturday, April 23, 2011

Vi-PEC Engine Management

ViPec Engine Management
The V44 standalone has 4 injector and 4 ignition outputs. The plug-in ECU based on the V44 have six injector and six ignition outputs. The V88 model has 8 injector and 8 ignition outputs. Also it has knock control and DBW throttle control. Both ECU have motorsport features like antilag, WOT shift, launch control.

These ECU use a 32 bit microcontroller running at 42Mhz. This processor is designed for engine control and has the power and speed to work with crank and cam trigger signals in real time. It does not use the time based system like the Autronic. The result is far more stable ignition and injector control. On engines with multitooth crank triggers the ECU reads and uses every signal for maximum resolution.

Some of the features are,
Missing tooth engines can run wasted spark without a sync signal.
User can set reluctor input signal threshold. (this lets you tune out any interference)
Variable cam control for up to four cams. (V88 only)
Outputs can be controlled by GPC tables or PID with feedback.
ECU case is extruded with water proof connectors. Case is small and not box shaped (looks very good).
V44 has one connector and the V88 has two connectors.
Idle control is very very good and very easy to setup.
No popping in the exhaust on overrun with smooth transition in and out of over run
Fixed duty boost control.
Different boost in each gear.
Dual fuel and Ignition tables that can be externally switched.
Up to 12 cylinder multi coil engine support
DBW throttle control (V88)
QuickTune (Autotune) feature on both V44 and V88.




Inputs and Outputs:


V44 injector = 4
V44 ignition = 4
V44 analog inputs = 3/4*
V44 temp inputs = 2
V44 digital inputs = 3/4*
V44 AUX outputs =8
V44 Connector pin number = 34 (one connecter)


*one Digital input shares the same pin as one analogue input


V88 injector = 8
V88 ignition = 8
V88 analog inputs = 11
V88 temp inputs = 4
V88 digital inputs = 10
V88 AUX outputs = 10
V88 Knock input = 2
V88 Connectors pin number = 2 x 34 (two connecter)
V88 has:
- E-Throttle (drive by wire throttle)
- Peak & Hold (individual P&H current control)
- Dual Knock
- 4MB of logging memory


Both ECU's have:
- 8V out
- 5V out
- Trigger in = 2
- USB Coms connector
- Can Bus Coms connector


- All spare injection and ignition channels can be auxiliary outputs




Trigger support for the following patterns:


All Mitsubishi 4 and 6 cylinder.
All Subaru 4 and 6 cylinder
All Nissan optical
BMW S50
Buick 3.8L
Ford TFi 4, 6 and 8 cylinder
Ford 36-1
Ford Cosworth RS500
GM LS1
GM LS7
GM LT1
Honda K20
Honda S2000
Honda V6
Motronic 60-2
MX5
Porsche 944
RX7
Suzuki Baleno
Toyota 36-2
Toyota 2NZ VVTi
Toyota 1ZZ VVTi
Toyota 3SGTE VVTi
Toyota 1UZ VVTi
Toyota 1JZ-GTE and 2JZ-GTE
Toyota 1JZ-GTE VVTi
Toyota 2JZ-GTE VVTi


Other patterns can be added quickly with the correct information supplied.


Plug-in ECU:


Subaru 1994-96 (V44)
Subaru 1997-98 (V44)
Subaru 1999-00 (V44)
Subaru 2001-05 2L (V44)
Subaru 2005-2007 2.5L (V88 with DBW)
Mitsubishi EVO 1 to 6 (V44)
Mitsubishi EVO 7 to 8 (V44)
Mitsubishi EVO 9 (V88)
Nissan N14 (V44)
Nissan S13 (V44)
Nissan S14 (V44)
Nissan S15 (V44)
Nissan GTiR (V44)
Nissan GT-R (R32-R34) (V88)
Nissan GTS (R32-R33) (V88)
Mazda MX5 1.6L (V44)
Mazda MX5 1.8L (V44)
Mazda 323 GTX (V44)
Mazda RX7 (V44)
Toyota MR2 SW20 (V44)
Toyota Celica ST185 (V44)
Toyota Celica ST205 (V44)





Price Starting from RM5XXX for
ECU,Harness,3bar map,Air Temp Sensor,Water Temp Sensor,Manual Instruction and USB cable.















Tuesday, April 19, 2011

Tuning your Engine with E85(Ethanol)

Tuning with E85 nets big power!



Q & A About E85(110 octane)

Q: Why should I switch to E85?
A: E85 is a renewable fuel source that is also environmentally friendly. Its performance is comparable to race gas at a fraction of the cost. Your engine will run cooler and your ETs will be less affected by atmospheric changes. E85 is not corrosive like methanol and does not leave carbon deposits like gas so maintenance is reduced across the board. With the proper tune-up your oil stays looking like new. 
Q: What is the difference in ethanol and methanol?
A: Both fuels have an excellent intake air charge cooling effect. Ethanol (grain or ethyl alcohol) is a biofuel made through the distillation of renewable resources like corn, sugar cane and switch grass. Yes, this is the same process they use to make alcoholic beverages like liquor. Fuel ethanol is 180 proof when produced. 15% regular 87 octane gasoline is added to E100 to add a little lubricant as well as ease the initial cold startup. Methanol (wood alcohol) is produced through a chemical process. By its nature methanol is more corrosive and provides 35% less energy then E85 so you have to burn 35% more of it to make comparable power. E85 cost RM15.00 a liter, Methanol cost RM10.00 a liter,VP Q16 cost RM25.00 a liter.   
Q: What type of performance can I expect from making the switch to E85?
A: It has been our experience that E85 with its 105 octane rating and high tolerance to detonation is superior to premium pump gas and equal to and in most cases better than 110 octane race gas. We picked up a tenth of a second and 2 to 3 miles per hour in the eighth mile after switching to E85 from 110 race gas and our engine runs 20 degrees cooler.
Q: Don’t I have to replace all the “rubber” in my fuel system so it want be eaten up by the alcohol in E85?
A: NO!!! We started out on this journey with a complete gasoline system. We upped the flow 30% to compensate for the lower heat energy output of ethanol and left everything else the same just to see the effects. We switched to E85 at the end of the 2006 racing season and to date we have found zero deterioration or corrosion anywhere in our fuel system. We leave it in the system all the time. We don’t drain anything between races or use any type of fuel lube.
Q: How much compression can I run with E85 fuel just the way it comes out at my local?
A: This is one question I don't have a concrete answer for. We are running it in engines up to 14.5:1 naturally aspirated and some fairly high boost forced induction applications with great results. I have seen charts that draw the line at 16:1 but there again I just don’t have the data yet of a failure directly due to the compression limit of pump grade E85 being reached.
Q: Where can I find E85 in this area?
A: You can find E85 at APTuning and Email for the price.


At APTuning we are never satisfied with good enough and we love to experiment. In home of our Tuning  Facility, we have a ready supply of corn juice,sugar cane E85.E85 is a blend of 85% ethanol and 15% gasoline. Originally developed as a bio-fuel for “flex fuel”, E85 has become the alternative fuel of choice for performance enthusiast. The allure of this biofuel comes from its high octane compared to regular pump fuels – 91 to 94 compared to 105 – and a very low price compared to higher octane race fuels. When compared to RM25 to RM28 a liter quality high octane race fuels E85 represents a huge bargain. If you don’t know about E85 you’re naturally asking the question “why am i not running e85 every day?”. The answer is you can’t. Most stock vehicles are not calibrated or equipped to utilize ethanol based fuels.
Despite having a higher octane rating, E85 has a lower overall energy density than pure pump fuel. Pure gasoline contains approximately 125,000 BTUs per gallon, while E85 contains approximately 84,000. This means that a greater volume of E85 must be utilized to realize the same energy content. This lower hydrocarbon content is mirrored by the stoichiometry of E85 and pure unleaded gasoline. Complete combustion of pure gasoline requires 14.7 parts air (mixed gas air with 23 percent oxygen) with one part fuel. In contrast, complete combustion of E85 requires a much higher relative content of fuel with only 9.7 parts air required. The distillation of this information means that larger volumes of E85 are required for equivalent combustion when compared to pure pump fuel. Thus, the cost savings associated with lower E85 prices is offset by an overall reduction in fuel economy.

This is really impressive for turbocharger 4G63 running E85 and pump gas. On this tune the customer swapped out the header and it appears we lost some bottom end power over the old but peak power stayed about the same (on pump gas).Runing on same boost 26psi the 97octane(1000cc)we have 450hp Dyno Dynamic.Change to E85,big injectors 1500cc,Twin Walbro pump intank and fuel trim on Haltech Platinum Sprint 500 the engine produce 532hp.Safe your engine,more power,more torque,more boost and more ignitinion timing goes up.


4G63 turbo E85


4G63 turbo engine

E85 Drag 4G63



Tuesday, April 12, 2011

Bullet Solid Block

Bullet Racing Block


BCH designs, models and manufactures billet engine blocks to suit many applications. The example pictured is a Nissan SR20 Billet Aluminium Block. We are currently prototyping the Toyota 2JZ, Nissan RB26 and Mitsubishi 4G63. The blocks are made of air craft quality 6061T billet aluminum for ultimate strength. Modular design allows for different bell housing configurations. The SR20 Billet Block is currently offered with Nissan rear and front wheel drive as well as Chevrolet bell housing configurations. The 5 main caps are machined as a one piece cradle providing maximum rigidity. The block is fitted with Darton nodular iron sleeves and 4 ARP 7/16" main studs per journal. Head studs are 1/2" providing increased clamping force on the head gasket.

The factory oil pump and sump will fit without modification.
Water jackets are machined into the block and then sealed with a cover plate. An electric water pump must be used. There is sufficient cooling for all types of racing and street use.


BCH can do for solid block
  • SR20 BILLET ALUMINIUM CYLINDER BLOCK
  • 2JZ BILLET ALUMINIUM CYLINDER BLOCK
  • RB26 BILLET ALUMINIUM CYLINDER BLOCK
  • 4G63 BILLET ALUMINIUM CYLINDER BLOCK
  • 4G93 BILLET ALUMINIUM CYLINDER BLOCK






APTuning working  closely with BCH for CNC block and better quality

We do for serious customers only.Take 3-4 weeks for delivery to your door step.

Competition Coatings

Why Coating?



Competition Coatings have a selection of high performance ceramic coatings for HEAT, WEAR and FRICTION applications for use in all engines.
Two major targets of engine builders are increasing HORSEPOWER and DURABILITY. Usually when achieving an increase in horsepower, you lose some durability, but by using competition coatings you can increase horse power and gain durability. The ceramic coating protects engine parts from heat and wear, while reducing friction, increasing thermal efficiency and overall reliability.




The advantages of coating intake manifolds with a combination of coatings is that it allows intake manifolds to run cooler, there by enhancing performance.
 
The bottom and head flange areas are coated with a lubricated thermal barrier.This coating will dissipate heat more rapidly then bare metal. In addition to allowing the manifold to "run cooler" the coating provides excellent protection against corrosion and is unaffected by fuels and solvents normally used around the engine. the rest of the manifold exterior is coated with a ceramic thermal barrier and is a must, where higher bonnet temperatures are a problem. Manifolds coated in this way will provide a denser air/fuel mixture and improved performance.
The process of coating intake manifolds is applicable to all cast iron and aluminium manifolds, or any custom fabricated intake such as the one shown above



Testing has shown significant power increases on a dyno. In addition certain changes can be made in such areas as tolerances, timing, jetting and the lubricants used, that will increase torque and Horse Power and are only possible through the use of the Competition Coatings. Horsepower gains of up to 20 hp have been measured in independent dyno testing.
Parts will run cooler. Engine oil and water temperatures have shown a reduction. On exhausts the radiated heat will be substantially reduced leading to a lower underbonnet temperature and less heat absorption by nearby parts and surfaces



The advantage of coating pistons with BOTH Ceramic Thermal Barrier and Dry Film friction reducing coatings are:

Pistons are the engines weakest link when it comes to heat. How often will you read of competitors dropping out of races because of burned pistons. All good engine builders know that tunig an engine for “optimum lean”, maximizes horsepower by generating more heat in the combustion chamber. However, if too lean a mixture is run, pistons will be heat damaged (black death, skirt scuffing, “holed” pistons or missing top ring gland). Oxygen and fuel is spark ignited under compression to generate heat. The heat causes gaseous products of combustion to expand rapidly, forcing the piston downwards for the power stroke. Generating more heat causes more gas volume expansion (more H.P) but can also melt or burn aluminum pistons. Leaning down the air-fuel mixture to where oxygen is proportionally too high can cause metal to be burned away (oxidized), just like an oxy-acetylene cutting torch. Competition Coatings Ceramic Thermal Barrier will insulate from excessive heat and effectively protect from oxidation.










We have two type of Coating,Ceramic Coating and Colour Coating
All machining work should be done BEFORE coating.
All Coating process we do in Australia take 2-3week back to you

Pls Contact
APTuning for more imformation
advancedperformancetuning@gmail.com

Friday, April 8, 2011

Proton CamPro Tuning

Cam Pro BOT kit

Custom turbo kits are our specialty.  We can fabricate a one off turbo kit for your vehicle from scratch. We can design and build a turbo system for your car that will look like a work of art and will out perform any competition.APTuning using good Turbo technology will not let you down.  We can size just the right turbo for your needs.  Depending on whether you want a fun fast street car, or an all out drag racing beast, we've got what you need. 



The next most important is the exhaust manifold.  You have a choice of an equal length custom setup fabricated from schedule 40 stainless steel piping and half inch flanges, or the cheaper alternative of a log manifold.  We will help you pick the best possible combination for your goals.






Gen2 Spec

1.Gen2 Stock Engine 1.6L
2.Custom Turbo Manifold
3.Custom Intake Manifold
4.Works Fuel Rail
5.Fuel Regulator
6.Injectors 410cc Modern Injectors
7.Turbo TD05
8.Intercooler and Custom Intercooler Piping
9.Silicon Hose and Clips
10.Tial Wategate 38mm
11.HKS BOV
12.Haltech Sprint 500 engine management system
13.Stock Fuel Pump good for 1bar boost
14.Boost 0.8bar

All OEM sensor runing normal and NO engine check light ONN.....
Daily driving and Cool with your Air-conditioning.

Cost variation is still rated a cheaper and reliable, we had a good Pakage and including Dyno tuning.BOV and Wastgate your choice
1.Turbo Kit

2.Piping Intercooler Kit
3.Haltech Sprint 500/sport 1000


Satria Neo 1000km Race.

Haltech Sprint500.

Proton BLM 121whp



BLM COP

BLM Haltech Sprint 500
Engine Spec:
Campro 1.3L engine
Piston Campro 1.3 BLM
Stock Intake and Oversize TB
Stock Cam
Extreme Clucth
Haltech Sprint 500
Tuning on Dyno Jet 121whp



Satria Neo 132hp 



Haltech S500

S500 done

S500 Piggy Back Style


S500 on Dyno Tuning

Engine Spec:
Campro 1.6L engine
Stock bore Piston Campro 1.3 BLM
Stock Intake and TB
1st stage Regrind Cam
Extreme Clucth
Haltech Sprint 500
Tuning on Dyno Jet 132hp



''Dating Car" Full Body Gen2 Drag

125.83whp 15.94 Torque

Dating Car Full Body

2nd Place Melaka Drag


Engine Spec:
Campro 1.6L engine
Stock bore Piston Campro 1.3 BLM
Stock Intake and TB
Stock Cams
Exedy 4 pad Clucth
Haltech Sprint 500
Tuning on Dyno Jet 125.83whp
Torque 15.94
Fuel Petronas 97




Pls Contact
APTuning For More Information
advancedperformancetuning@gmail.com