VaporWorx Electronic Fuel Pump Speed Control Systems
Many of today’s new vehicles have 100,000 mile warranties. These warranties cover fuel systems as well. So, the question is how do the OEM’s get 100,000 mile reliability while still being able to have a pumping system capable of 750+ horsepower and not overheat the fuel? Modern electronics is the answer.
In the mechanical regulator section it was discussed how fuel was routed through the regulator and bypassed back to the fuel tank. If the fuel pump is running at full speed, as is the case in most all aftermarket/hot rod applications, this can add a significant amount of heat to the fuel load. Most of the time very little fuel is needed, but a pump of sufficient capacity is needed to supply the engine at wide open throttle. Add in the heat picked up in the engine compartment by the circulating fuel, and the fuel in the tank starts to get very warm in a hurry. It is common to find many hot rods with large fuel pumps on the side of the road with an overheated fuel pump. The trick is to regulate the speed of the pump in a way such that it only pumps what the engine needs and no more. This reduces heat generation to a minimum.
The way the OEM’s control the speed of the pump is by using pulse width modulation (PWM.) PWM is like turning a switch on and off very quickly. For example, if a switch is turned on for 10ms, then off for 10ms, and the cycle repeated, the pump is working at a 50% duty cycle. Unlike a simple voltage reduction, which leads to high amperage/heat generation, PWM creates very little heat. Utilizing feedback from pressure sensors the PWM controller changes the speed of the fuel pump to supply the jet/transfer pumps and engine demand, and no more. Figure 1 shows graphically the power signals that are sent to the pump.
Figure 1. Typical PWM signals that the fuel pump would operate under.
There are various sensors available to provide feedback signals that can be used to change the speed of the pump. Throttle position sensors can be used but the fuel demand at WOT at low engine speeds is much different than WOT at higher engine speeds. Ignition signals are also not reflective of what the engine fuel needs are since downshifting can make the pump run very fast but little fuel is needed. All of them require a return type system since the amount of fuel pumped exceeds the needs of the engine. Hence, external regulators, return lines, and the associated hardware are required.
The most reliable method of determining the actual engine demand is fuel pressure. The OEM’s utilize fuel pressure signal feedback and PWM to control the speed of the fuel pump.
With the combination of PWM and fuel pressure feedback a large-volume pump that normally would produce excessive heat during low fuel demand can be slowed down. In effect, the PWM system gives a large pump a dual personality: Slow it down for cruise and minimize heat generation, then speed it up for high fuel demand.
In order for this system to work the normal mechanical pressure regulator must be removed. It also means that a single line to the fuel rail is needed since no bypass is available. This system simplifies and reduces the cost of the plumbing since no external filters, pressure regulators, return lines, etc. are needed, just a pressure line from the fuel module to the engine fuel rail.
There are two fuel pressure control strategies available on all VaporWorx PressureWorx PWM control systems. The first is a constant (static) pressure system that mimics the output of the Corvette C5 fuel filter/pressure regulator. The other is a manifold referenced option that provides an approximate 1:1 fuel vs. manifold pressure rising rate fuel pressure system. In other words, if the manifold pressure increases, then the fuel pressure increases the same amount.
The PressureWorx system uses the engine Manifold Absolute Pressure (MAP) sensor signal to adjust the pressure output of the fuel pump accordingly.
The PressureWorx system consists of a PWM control module, GM pressure sensor, Delphi-sealed wiring harnesses, and hardware.
The FlowWorx and PressureWorx systems will work with the 5th-generation Camaro LS3 and ZL1 fuel modules. If a higher capacity fuel pump is needed then the Cadillac CTS-V pump can be used. The CTS-V module can supply 304lph/hr and mount in same basic envelope dimensions as the 5th-generation Camaro.
Unlike the 5th-generation Camaro LS3/L99 fuel module, running the ZL1 or CTS-V pump with an adapted 60psi mechanical regulator in not recommended. First, The ZL1 and CTS-V required 17-19A to drive at battery voltage. That means even more heat when running at full speed all the time. It’s the equivalent of putting a 240 watt light bulb in the fuel tank. Second, there is no regulator that will easily swap out and replace the CTS-V poppet valve and have an acceptable pressure curve. The 58psi regulator that does fit the CTS-V module will drop 13-15psi before full pump output is achieved. That is too much of a pressure drop to be effective in a high-output engine.
Both the 5th-generation Camaro and CTS-V fuel modules have a safety/poppet valve installed that looks like a traditional fuel pressure regulator. In the 5th-generation LS3/L99 module this poppet valve is replaced with a 4th-generation Camaro fuel pressure regulator when the module is used when running at full battery voltage and a 58psi output. The removed poppet valve has an 88psi bypass pressure, far too high for engine needs. However this high bypass pressure is needed in the PWM systems so that the fuel pressure sensor can work without the chance of the mechanical regulator/bypass coming into play. What the poppet valve does is help relive fuel pressure once the ignition key is turned off. When the ignition is turned off, the fuel injectors immediately shut and the power to the pump is turned off. However, the pump is still spinning due to inertia, hence the fuel pressure will spike. The safety valve bleeds off excessive fuel pressure.
With the PressureWorx PWM systems the safety valve is not replaced. The module is used as it would be as delivered from GM.
A typical complete VaporWorx PWM system is shown in Photo 1 below. This kit contains extra parts that are not included in the standard kit. However, it is a representation of everything necessary to make the PWM system work.
Photo 1. This kit includes all of the components necessary to drive the fuel module electrically. The minimum power rating for the PWM controller is 65A, more than 3x that of some other systems. Higher power systems are available from VaporWorx.
The basics for connecting the VaporWorx PWM are performed as follows:
- Connect battery power to the PWM controller (+ and – in)
- Connect output power to the fuel pump using the pre-installed OE sealed Delphi connector (+ and – out)
- Screw the pressure sensor into a 1/8”-NPT female thread on the pressure side of the fuel system near the outlet of the fuel module.
- Plug in the pre-installed OE sealed Delphi plug into the fuel pressure sensor.
- Connect the three-wire wire bundle from the fuel pressure sensor to the to the PWM controller using the supplied six-cavity sealed Delphi connector.
- Connect the white and violet MAP sensor ground and signal output to the six cavity connector (manifold referenced only, leave disconnected for constant pressure.)
- Connect the blue wire to the ECM fuel pump turn-on circuit.
Figure 2 shows the connections outlined above.
Figure 2: Basic electrical connections needed for the VaporWorx PWM controller
Another feature of PWM control is the reduction in the electrical requirement. For example, the 5th-generation pump requires 10 amps to run at full speed at 58psi. At cruise the PWM systems requires approximately 3-5 amps depending on if the system has a manifold referenced or static fuel pressure. This reduction in power also means greater alternator life.
When does it make sense to choose a mechanical or PWM control system? If the car is just a weekend cruiser, the engine is under 600 horsepower, and naturally aspirated, then the LS3/L99 fuel module with the adapted mechanical system will work fine. If long pump life, long road trips, minimal pump noise, and higher horsepower are desired, then the PWM systems are the natural choice.
Basic part numbering system for a VaporWorx PWM kit is:
- PW=PressureWorx PWM kit assembly
- CTSV/ZL1/LS3 = fuel module used.
- 3B = Engine MAP sensor range
- 25 = Length of the short wiring harness that stays with the tank during R&R.
- For LS3 and ZL1 modules, TM = Top Mount fuel level sensor, IT = GM 40-250 ohm In-Tank fuel level sensor. CTS-V is Top Mount sensor by default.
- Very low heat generation.
- Longer pump life.
- Less electrical load.
- Lower noise.
- Simple plug-and-play design.
- Single fuel line, true returnless system.
- Higher horsepower systems available (CTS-V)
- Possible higher cost depending on components used.
- Additional wiring.