Wednesday, 3 October 2018

Brazilian UGA Engine differences

The Brazilian Bay 1600cc Dual Port UGA model engine differs from the Standard 1600cc Dual Port engine fitted to "German built" used on Bay window & late beetles.

The main difference is around the Fuel / Air mixture as the Brazilian engine uses a ECU fuel injection system instead of the carburetors.

There are a few more subtle differences which this post aims to highlight.

This is a guide will be useful to anyone who is replacing a UGA code engine to AD code engine.


Crankcase

  • The crankcase is a Dual relief case with UGA code stamp. It appears to be similar to a standard AS41 crankcase
  • No Bus mounting points on the rear as the Brazilian bay does not use a mounting bar.
  • M10 x 1.0mm threaded tapped hole (lower right hand corner) of sump for fitting the Coolant (Oil) Temperature Sensor (CTS)

Cooling Tinware

The main differences around the Tinware are the obvious size and shape of the fan housing with its lack of air heater outlets and overall shape. The rear of the fan housing and oil cooler is very different in design. 
  • Dog house fan housing no air heater outlet pipes
  • Dog house oil cooler housing smaller and all built in
  • Dog house cooling exits fan housing via a circular pipe (with rubber coupling)
  • Dog house cooling exits via a circular pipe in front tinware
  • Oil cooler is a smaller single port (1200cc) design
  • Oil cooler mounts to crankcase via a different adapter than the DP larger version.
  • Lower cooling - Cool tins fitted underneath cylinders.
  • Lower cooling - No rear deflectors on left and right cylinders
  • Lower cooling - No thermostat or flaps are used.
  • Lower cooling - The lower sledge shaped cooling scoops are not made of metal. Plastic form covered in aluminium foil on outside and some form of fabric material
  • Rear cooling - The tinware which seals against the rear valance is beetle shaped with no air heater cutouts and no breather cutout.

Alternator

  • The alternator is a standard Bosch 55A.
  • The Alternator stand is different design. It has a round base and O-Ring to seal instead of a square gasket to seal against crankcase.
  • The Oil deflection plate is in the stand and is made of black plastic.
  • The Alternator clamp is two parts which clamp to the sides of the stand, like two fingers which hook under the stand. Very different to the large round jubliee clamp.
  • Alternator is fitted with a finned bladed pulley wheel for cooling.
  • Crankcase breather is part of the oil filler neck through a Positive Crankcase Valve (PCV) which circulates back to intake air system just above the throttle body intake.

Fuel Pump

  • There is no mechanical fuel pump. The fuel pump is fitted to the fuel tank top side under and inspection plate above.
  • The hole and a single gasket fitted to the crankcase
  • The gasket and hole are covered by the Inlet manifold mounting bracket.

Intake Manifold

  • The intake manifold is a twin pipe construction with a central plenum under the throttle body
  • The twin pipes go to twin pipes on the cylinder head manifolds
  • There is a twin dual boots to connect the inlet manifold with the cylinder manifolds.
  • The manifold boots are the same as a Mexican beetle and do not use any jubliee clamps.
  • The inlet manifold has ports for Throttle Body, Brake servo, Evap, Manifold pressure sensor and fuel pressure regulator
  • All ports except the servo are push on barbed ports. The servo uses a quick release push fit, the same as the fuel lines in rigid hoses.

Ignition

  • Hall effect distributor (no points just a electronic sensor for position 1)
  • Standard rotor arm and distributor cap & HT leads.
  • No advance mechanism (ECU does all advance timing)
  • Square mounted coil on fan housing. Uses ECU signal for triggering coil
  • Coil has three pin connections

Air Filter

  • Cylinder shaped air filter mounted in drum housing mounted on upper left hand engine bay roof.
  • Air from filter comes down a large rubber pipework onto top of Throttle body, secured with a jubliee clip
  • Idle Stabilization Valve (ISV) take air from pipe to bypass the throttle body for idling.
  • PSV pipework connects to air inlet.
  • A center mounted throttle body which has a butterfly valve connecting to the accelerator cable.
  • Throttle Position Sensor (TPS) mounted to right hand side of throttle body measures accelerate position.
  • Air Temperature Sensor (ATS) is mounted at the front of throttle body
  •  Idle stabilization valve (ISV)mounted behind the throttle body for controlling idle.
  • Manifold Absolute Pressure sensor (MAP) connects to lower manifold to measure manifold pressure. The MAP is mounted to the right next to ECU above battery.

Fuel System

  • Fuel pump is located within the petrol tank
  • Pump pressurizes the fuel system to 3 Bar or 2.5 Bar at idle
  • Fuel is pump from pump to fuel filter mounted on left side of engine
  • The output of the filter goes to the left hand fuel rail then onto the right hand fuel rail via a pipe at the front of the engine bay.
  • The left fuel rail outlet goes to a Fuel Pressure regulator (FPR) and is mounted on the right hand of the fan housing
  • Mounted on the fuel rails are 4 Bosch EV6 injectors. One injector per cylinder.
  • Injectors pulse width is controlled by ECU.
  • Bosch Injectors EV6 have narrow spray pattern of 5 Degrees (Stream) design.
  • The stream pattern is fired directly into the manifolds onto the inlet valves and into the air flow. 
  • The FPR connects to the inlet manifold vacuum so when idling the fuel is returned back to the tank at a pressure of 2.5Bar
  • As rpm increases the Vacuum reduces and fuel pressure is regulated to 3 Bar.
  • The fuel system uses speed fit push fit connectors and high pressure hoses. The locking clips are internal locking type (no the external type which you use special pliers)

ECU

  • The Brazilian engine use a Bosch MP9 Monotronic ECU
  • The ECU controls all engine functions especially Fuel mixture ratio, Timing etc.
  • VAG COM (VCDS) diagnostics is available via an ODBII connector mounted in front of ECU above the battery on the top right hand side of the engine bay.

Exhaust

  • No heat exchangers are used. J-Tube with a flange mounting are located under the left and right cylinder heads.
  • Lambda sensor mounted at collector exhaust manifold before catalytic converter
  • Manifold connects to a catalytic converter
  • Catalytic converter connects to two silencer boxes on the left and right sides before exiting the van n the right hand side. 

Hope information is useful.

Next post is related to the changes you will require when replacing your UGA Brazilian engine with a AD German engine.

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