The definitive EPC guide

The Definitive EPC Guide

The following is the definitive guide to the Electronic Power Control (EPC), but before we continue, let me expound on what this guide is and what it's not. The very purpose of a guide is to provide information; to aid, give direction, to grant assistance, to facilitate, to support and to help you towards a solution or provide you with an explanation or an answer. However, even though this guide may furnish you with several answers, not every question can be satisfied by the same answers, though it could possibly steer you in the right direction. Hopefully you'll find this EPC guide definitive enough to provide you with the necessary knowledge to fix your Volkswagen, Audi, Seat or Skoda's EPC problem. Or at the very least, steer you in the right direction or share the lingo with which to discuss your EPC problem with your mechanic. 

But before I continue, let me first explain what EPC is. EPC stands for Electronic Power control and is a subsection of the OBDII. OBDII sometimes writen as OBD2 stands for On-Board diagnostics 2, which is composed of mandatory equipment installed in every motor vehicle manufactured since 1996. The purpose of this real time OBDII system is to control harmful exhaust emissions, by rigorously controlling the moment of combustion as close to the Stoichiometric  ideal as possible. Stoichiometric combustion is therefore controlled by an ECU (Electronic Computer Unit) in conjunction with the mass air flow components and the lambda oxygen sensors through constant feed-back in order to increases or decrease the short term fuel trim.  

To define an ECU instance, one could say that it consists of one microcontroller with its peripheral chips and its configured  software application.  This also implies that if more than one microcontroller in packaged in the same ECU housing, each microcontroller requires its own description of said instance. As such, each ECU forms an integral part of the OBD2 system, with strong interaction between hardware sensors and actuators; constantly monitoring and controlling several other engine components to provide the best engine performance at the most efficient fuel use , as well as provide the driver with the best driving experience. Another part of the OBD2 system is its network bus which interconnects several distributed computerized modules, ECUs, sensors and actuators, collectively geared towards better functionality and passenger safety. But before I get carried away, let me return to EPC.

The EPC sub circuit when triggered turns on the EPC light or LED which displays the letters EPC quite brightly in the display console. Many VAG car owners have asked “What's the meaning of EPC warning light when it comes on in a Volkswagen"? Short answer; it’s just a caution light like any other warning light, drawing your attention to a possible problem but with one exception. This exception is that the EPC light is an amber/yellow light and not red. 

Much like road signs that have different colour boards for danger/warning than for  prohibitory/restrictive signs  or than for  service/information  purposes, the automotive sector uses, red lights to signify danger/warning which warrants immediate attention and amber/yellow lights for informative/attention which also requires your attention, though not immediate. When the ECU detects that the engine oil is low for example, it turns on a red light – red oil-can image – which implies that it's dangerous to drive the car in that condition because its engine could seize and therefore begs you to respond and remedy this situation immediately. 

Likewise when your handbrake in engaged, a red light – red disk with a P or exclamation mark inside –  is displayed, implying that it's dangerous to drive with the handbrake engaged, expecting you to release it immediately. Disregarding this red light and driving the car with the handbrake engaged could cause the brake pads to overheat and fail to function when needed but that’s to say if the car would even move from its stationery position with the brake engaged. Headlights on the other hand are indicated by a green dashboard light or a blue dashboard light when the Brights are switched on, neither implying danger nor attention. So in that sense, the yellow EPC light is just an attention light, much like the yellow safety-belt-light provides information that you haven’t bucked up or the yellow reserve-fuel tank-light informing you that you would have to add fuel shortly.  

Very importantly, a yellow light doesn't mean disregard, because disregarding a fuel tank yellow light could leave you stranded without fuel along the roadside. Or disregarding the yellow seat belt light could result in a traffic fine for non compliance to traffic laws. Therefore do not disregard the yellow EPC light and have the possible problem seen to at your earliest convenience. I hear you asking “What can I do when the Yellow EPC light comes on"? Normally when the EPC light comes on, it is accompanied by "Limp-mode home" and sets a DTC in the ECU non-volatile memory. So you need to have your car scanned with a diagnostic tester to determine and analyse the DTC error. 

I hear you asking "What is limp mode". Short answer, when the ECU detects a problem in the toque circuit it prevents the engine from revving above 2000rpm. In effect, it limits the electronically controlled throttle valve – Drive-by-wire – from opening wider.  “So what’s this Drive-by-wire thing”? you may ask.  Well the drive-by-wire circuit is a sub circuit of the EPC circuit and it simulates an accelerator cable, where the depression of the accelerator pedal is monitored by the ECU which in turns drives the throttle body valve open, in unison with the pedal action without any physical cable connection. Essentially it's an electronic version of an accelerator cable /acceleration process. Its electronic circuit is composed of dual sensors constantly monitored by the ECU, and any interruption in its data, will more-likely-than-not trigger "Limp-mode home", turn on the EPC light and set a DTC.

The ECU also constantly monitors the dual sensors in the throttle body as well as  the motor that drives the throttle body butterfly valve. Any interruption in its data will more-likely-than-not trigger "Limp-mode home", turn on the EPC light and set a DTC. This is a safety feature built into OBD2 to prevent the car from going into runaway mode with the possibility risk of injury. Image what would happen when a frayed accelerator cable jams inside its armoured sleeve, unable to decelerate the engine whilst travelling at a speed in excess of 72kph. Considering more than 50% of all accidents in rural areas happens at speeds between 72kmph and 80kmph whereas 70% of all fatal crashes on the freeway occurs at speed of 100kmph or higher.

Continue to part TWO.... Here!