Brake Discs

The mechanical and thermal stresses acting on the brake disc are extremely high. So it’s important they’re up to the job, and perform just as intended. Like all of our braking products, our discs are made to mirror the OE. So whatever the technology, you can be assured that every Delphi disc has been designed, engineered and manufactured to provide the very best braking performance. Just like the OE. Be it coated, cross drilled or high-carbon…it’s a given.
delphi-brake-disc

ECE R90 certified brake discs

It should come as no surprise that our brake discs for new vehicles launched post 1 st November 2016 are R90 certified, alongside a range for popular older applications. After all, we’ve been meeting these quality standards for many years. The only difference today: our discs now undergo official ECE R90 testing schedules including performance, dynamic friction comparison, high load integrity and thermal fatigue analysis to certify that they perform to a prescribed tolerance of the OE part.

Learn more about Delphi’s R90 certified brake discs and why it matters.

Fully coated brake discs

Thanks to a special zinc-flake, silver Geomet coating, our coated brake discs offer greater and longer-lasting corrosion protection compared with many oil-dipped or partially painted and coated equivalents, whilst also being more cosmetically appealing. And because they have no oil to clean off, they save valuable labour and service time. All this makes for a better protected disc that’s easier to install, easier to dismount as well as being easy on the eye too.

Read more about Delphi’s coated brake discs.

High-carbon brake discs

The added carbon content in our high-carbon discs helps to both reduce the risk of thermal cracking under high-temperature loads, and allows the discs to operate at a cooler temperature, for a more consistent braking performance. It also increases their resistance to distortion or warping for added durability, while delivering noise and judder free braking.

Cross-drilled brake discs

As well as looking cool from behind your wheels, our cross-drilled discs will keep your brakes feeling the same way – cool. The cross-drilled holes dissipate heat, brake dust and gases, helping to keep the pad surface cool and clean and reducing the risk of thermal distortion and warping. These same holes also prevent a film of water forming during wet conditions for improved braked response.

Vented brake discs

Our vented discs feature special internal cooling passages to maximise airflow. By continually moving air across the disc’s surface or through the disc itself, they allow more heat to be dissipated, improving both cooling capacity and resistance to cracking from thermal shock.

Brake discs with bearings

To avoid damage to the bearing during removal, and ensure the correct pressing in into the new, we offer a range of discs with these safety critical components already pre-mounted. They also include both toothed and magnetic ABS sensor rings, as per the OE, and the relevant fixing accessories. All for quick and accurate installation.

One-piece cast iron brake discs

Our one-piece cast iron discs offer an aftermarket alternative to BMW’s patented two-piece bi-metallic composite disc. Engineered from a single piece of cast iron, they deliver the same standards of consistency, longevity and braking performance as the two-piece disc, but at a fraction of the price. And to top it off, they come with fixing screws for quicker and easier fitting.

The Delphi Difference

  • 100 years of OE experience, supplier to the world’s top automakers
  • OE heritage and knowledge built into every aftermarket part
  • Comprehensive portfolio for a wide range of vehicles and model years
  • Streamlined SKUs for easy inventory management
  • Support through tools, tips and training
delphi-difference

Related product resources and downloads

Part resource centre tech tips header
Braking 4 min read

A quick guide to ADAS

Share Resource:
General Maintenance and Tips Braking ADAS ADAS Calibration Braking Technical Tip Distributors DIYers Drivers Shop Owners Technicians 4 min read

Resource Highlights

In this article you will find a detailed guide on Advanced Driver Assistance Systems (ADAS). Here we talk you through the main systems available on the market today. And just how these smart, connected technologies are helping to both assist drivers, and improve traffic safety.

As the world’s leading automotive companies continue to develop safer, future-ready vehicles, Advanced Driver Assistance Systems (ADAS for short) will become increasingly commonplace. Here we talk you through the main systems available on the market today. And just how these smart, connected technologies are helping to both assist drivers, and improve traffic safety.

Anti-Lock Brake Systems (ABS)

Standard on many vehicles today, ABS prevents the wheels from locking up during emergency stops, by detecting differences in wheel speeds, and then rapidly pulsing the brakes until the wheel is turning at the same speed as the others.

Brake Assist (BA)

BA or Emergency Brake Assist (EBA), is designed to recognize an emergency brake, by using data from the accelerometer and front radar or ultrasonic sensors. If the driver has not applied sufficient force, the emergency braking system kicks in, working in conjunction with the ABS, to provide extra braking power. 

Electronic Stability Program (ESP)

Also known as Electronic Stability Control (ESC), ESP is designed to reduce the risk of skidding by applying the brakes to the relevant wheel(s), and decreasing engine power, if it detects an over or understeer when cornering, an evasive maneuver or a sudden change in road conditions or traction. Note, it’s important to have any accessories i.e. a tow bar, fitted and programmed correctly. When a trailer or caravan is connected, the ESP is automatically configured to consider the additional weight load and distribution.

Adaptive Cruise Control (ACC)

Otherwise known as autonomous cruise control, active cruise control, intelligent cruise control or radar cruise control, ACC automatically adjusts the vehicle’s speed to maintain a safe distance from traffic ahead.  Most systems automatically turn off below a certain speed, however, some offer a ‘Stop & Go’ or ‘Queue Assist’ function for use in slow-moving traffic to help the driver slow or stop the vehicle.

Forward Collision Warning (FCW)

Also referred to as collision avoidance or collision mitigation system, FCW continually monitors the road ahead to detect objects in the vehicle’s path, such as pedestrians, animals or other vehicles. In the event of an imminent collision, the system warns the driver through audio or visual signals, so that they can take evasive action i.e. by applying the brakes or steering.

Autonomous Emergency Braking (AEB)

Also referred to as automatic emergency braking, AEB is an evolution of the collision warning system. Instead of providing just a warning to the driver, it engages the braking and/or steering, without driver input, to help lessen the impact of a crash, or even prevent it from happening in the first place. 

Lane Departure Warning (LDW)

LDW systems are designed to prevent drivers from unintentionally straying out of their lane. If the system detects that the vehicle is drifting, without any appropriate signals, it generates an audio-visual alarm so that the driver can take corrective action.

Lane Keep Assist (LKA)

LKA or Lane Keeping Systems are a step on from Lane Departure Warning systems. Rather than simply warning a driver of a lane departure, LKA corrects the line of travel automatically, steering it back into position without any driver input.  Some vehicles also have an advanced version of this called Adaptive Lane Guidance. This constantly makes adjustments to keep the driver in the center of their lane at all times. 

Lane Change Assistance

Commonly known as a Blind Spot Detection or Blind Spot Monitoring, lane change assistance uses sensors to monitor the surrounding view of the vehicle for any lane movement. If the system determines that it’s unsafe to change lanes, because of another vehicle in the intended lane, especially in the driver’s blind spot, it signals an alarm.

Intelligent Speed Assistance/Adaptation (ISA)

ISA helps the driver to maintain a safe and/or legal speed. If the vehicle exceeds this limit, the system will either alert the driver or take action to reduce the speed by limiting engine power.

Traffic Sign Recognition (TSR)

By scanning the road ahead, TSR helps drivers identify upcoming road signs such as changes in speed limits or potential hazards. The system interprets the sign and relays it onto the dashboard and/or infotainment display, to alert the driver.

Adaptive Headlights

Using input on the vehicle’s steering, speed, and elevation, adaptive headlight technology keeps the vehicle’s headlights on the road at all times. As well as improving visibility in low-light conditions, it also reduces glare for oncoming drivers.

Tire Pressure Monitoring Systems (TMPS)

TMPS warns the driver if one or more tires are underinflated by measuring either the rate of revolution or pressure within, each tire. As well as improving safety, the system helps to reduce emissions and fuel usage.

Night Vision

Featuring thermographic cameras, night vision systems can detect objects beyond the reach of the vehicle’s headlights, alerting the driver to potential collisions in low-light or poor weather conditions.

Parking Assistance

One of the more common ADAS technologies, parking assistance ranges from rearview cameras that simply provide audio or visual signals to the driver on the proximity of any obstacles, to fully autonomous vehicle systems that physically steer the vehicle into and out of the space. 

Driver drowsiness

Also called driver awareness detection, these systems can detect the onset of fatigue by observing the driver's behavior at the start of and during every trip. If any signs are spotted the system sends a warning signal to the driver.

ADAS systems are classified as levels 1 – 5 by the Society of Automotive Engineers, the following is a guide to those levels.

Level

Definition 

Guidelines

0No automationDriver warning or minor intervening
1Hands onThe driver and vehicle share control, example Adaptive cruise (ACC, TACC)
2Hands offThe automated system may take full control, the driver must be ready to intervene immediately
3Eyes offThe driver can turn their attention away from driving, the driver must be able to take over given reasonable notice
4Mind offThe driver may do other tasks ie. go to sleep, this maybe in pre-determined geofenced areas
5No steering wheel requiredNo driver is required

 

    training portal

    Visit our Technician Library for access to Documents and Downloads

    Get in touch

    I have read and accept the <a href="/legal/terms-conditions">Terms of Use</a> and <a href="/legal/privacy-policy">Privacy Policy</a>

    The specified form no longer exists or is currently unpublished.
    where to buy

    Find out where to buy Delphi parts

    where to repair

    Find your nearest Service Centre

    Select your Region