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Line 1: In [[turbocharger\|turbocharged]] [[internal combustion engine]]s, a '''boost controller''' is a device sometimes used to increase the [[Turbocharger#boost\|boost pressure]] produced by the turbocharger. It achieves this by reducing the boost pressure seen by the wastegate. ~~{{Refimprove\|date=January 2017}}~~ A '''boost controller''' is a device to control the [[Turbocharger#Pressure increase / boost\|boost]] level produced in the [[intake manifold]] of a [[Turbocharger\|turbocharged]] or [[supercharger\|supercharged]] engine by affecting the air pressure delivered to the pneumatic and mechanical [[wastegate]] actuator. A boost controller can be a simple manual control which can be easily fabricated, or it may be included as part of the engine management computer in a factory turbocharged car, or an aftermarket electronic boost controller. == Operation == Line 8 ⟶ 5: [[Image:4portsolenoid.jpg\|thumb\|220px\|A 4-port solenoid-type boost controller (used for a dual-port wastegate)]] The purpose of a boost controller is to reduce the boost pressure seen by the [[wastegate]]'s reference port, in order to trick the wastegate into allowing higher boost pressures than it was designed for.<ref>{{cite web \|title=Manual & Electronic Boost Controllers \|url=https://www.summitracing.com/search/part-type/boost-controllers \|website=www.summitracing.com \|access-date=17 April 2022}}</ref> Many boost controllers use a [[needle valve]] that is opened and closed by an electric [[Solenoid valve\|solenoid]]. By varying the [[pulse width]] to the solenoid, the solenoid valve can be commanded to be open a certain percentage of the time. This effectively alters the flow rate of air pressure through the valve, changing the amount of air that is bled out instead of going to the wastegate's reference port. Solenoids may require small diameter restrictors be installed in the air control lines to limit airflow and even out the on/off nature of their operation. Two-port solenoid bleed systems with a [[PID controller]] tend to be common on factory turbocharged cars.{{citation needed\|date=April 2022}} An alternative design is to use a [[stepper motor]]. These designs allow fine control of airflow based on position and speed of the motor, but may have low total airflow capability. Some systems use a solenoid in conjunction with a stepper motor, with the stepper motor allowing fine control and the solenoid coarse control. At the component level, boost pressure can either be bled out of the control lines or blocked outright.{{citation needed\|date=April 2022\|reason=Needs references supporting that blocking designs are commonplace.}} Either can achieve the goal of reducing pressure pushing against the wastegate. In a bleed-type system air is allowed to pass out of the control lines, reducing the load on the wastegate actuator. On a blocking configuration, air traveling from the charge air supply to the wastegate actuator is blocked while simultaneously bleeding any pressure that has previously built up at the wastegate actuator. === Control system === Most modern designs are ''electronic boost controllers'' that use an [[electronic control unit]] to control the boost via a [[solenoid]] or [[stepper motor]]. The operating principle is the same as older ''manual boost controllers'', which is to control the air pressure presented to the wastegate actuator. Electronic controllers add greater flexibility in management of boost pressures, compared with the manual controllers.<ref>{{cite web \|title=How Turbo Boost Control Works \|url=https://www.haltech.com/how-turbo-boost-control-works/ \|website=www.haltech.com \|access-date=17 April 2022 \|date=13 August 2019}}</ref> The actuation of an electronic boost controller can be managed by one of two control systems: Line 24 ⟶ 19: === Advantages === By keeping the wastegate in a closed position more often, a boost controller causes more of the exhaust gas to be routed through the turbocharger, thus reducing [[Turbocharger#Turbocharger_lag\|turbo lag]] and lowering the [[Boost (automotive engineering)#Boost threshold\|boost threshold]]~~.{{citation needed}} A boost controller also reduces the need for a stiffer spring to be used in the wastegate~~.{{citation needed\|~~reason~~date=~~References are needed to show what benefits this results~~April ~~in.~~2022}} === Disadvantages === Line 31 ⟶ 26: To prevent excessive boost pressures in the event of a failure, the boost controller needs to be designed such that [[failure mode]] do not result in any pressure being bled off. For instance, a solenoid-type boost controller should direct all air to the wastegate when it is in the non-energized position (the common failure mode for a solenoid). Otherwise, the boost controller could get stuck in a position that lets no boost pressure reach the wastegate, causing boost to quickly rise out of control. Also, the electronic systems, extra hoses, solenoids and control systems add cost and complexity. Nonetheless, in recent times most automobile manufacturers use boost controllers on their turbocharged engines.{{citation needed\|date=April 2022}} == Alternatives == Line 37 ⟶ 32: [[Variable geometry turbocharger]] can be used to manage boost levels, negating the need for an external boost controller. Also, the [[wastegate]] itself has a similar function to a boost controller, in that it is used to manage the turbocharger's boost pressure. ~~== See also ==~~ * [[Automatic Performance Control]] * [[Boost gauge]] ==References== <references/> {{Automotive engine \|~~collapsed~~expanded}}▼ ~~== External links ==~~ [http://nxsmotorsports.com/content/installation-and-setup-guide MBC Concept Overview, Installation, and Setup] [http://www.addictiveperformance.com/Hallman-Installation.php How To Guide - Manual Boost Controller Installation] at addictiveperformance.com. ▲{{Automotive engine \|collapsed}} [[Category:Automotive engine technologies]]