Automotive glass – Head Up Display windscreens | Luc Moeyersons

Date: 30 May 2023
  • By Luc Moeyersons

Date: 30 May 2023

Automotive Glass Laminating Guide – Part 6

Author: Luc Moeyersons

Thanks to Juan Pablo Suarez (R&D Manager at AGP) for his info on most modern HUD systems and to Francis Serruys (Saint Gobain Glass) for proof reading.

This information corresponds to our current knowledge on this subject. It is offered solely to provide possible suggestions for your own experimentations. It is not intended, however, to substitute for any testing you may need to conduct to determine for yourself the suitability of our advice for your particular purposes.

This information may be subject to revision as new knowledge and experience become available. Since we cannot anticipate all variations in actual end-use conditions, LAMI-Solutions makes no warranties and assumes no liability in connection with any use of this information.

Nothing in this publication is to be considered as a license to operate under or a recommendation to infringe any patent right.

  • HUD Definition
  • HUD history and background.
  • HUD concept
  • HUD technical/optical challenges

HUD Definition 

Head-up display or heads-up display is any transparent display that represents data without requiring users to look away from their usual viewpoints.

The origin of the name stems from a pilot being able to view information with the head positioned "up" and looking forward, instead of angled down looking at lower instruments. A HUD also has the advantage that the pilot's eyes do not need to refocus to view the outside after looking at the optically nearer instruments.(Wikipedia) 

Refocussing the eyes takes some tenths of a second, at a speed of (military) planes this means a few hundred meters.

HUD history and background.(Wikipedia)

Head-up display is a recent technology, coming from experience during the second world war. Royal Air Force night fighter pilots were having a hard time reacting to verbal instructions of the radio operator as they approached their targets. Also looking up from a lit screen into the dark sky created viewing problems.

In October 1942 they successfully combined the image from a radar tube with a projection on a flat area of the plane windscreen.

In 1955 the US Navy office of naval Research and development did research with mock up HUD concept unit to ease the pilot’s burden flying modern jet aircraft and make the instrumentation less complicated during flight, While their research was never incorporated in any aircraft at that time, the crude HUD mock up had all features of today’s modern HUD units.

Prototype of HUD were experimented in Buccaneer aircraft (Royal Navy) , designed to fly at very low altitudes and very high speeds and drop bombs in engagements, lasting seconds.

Automotive glass – Head Up Display windscreens

The wooden fighter plane Haviland Mosquito was also equipped with a system that could be considered a true HUD.

Automotive glass – Head Up Display windscreens

In 1958 HUD were integrated in fighter planes and built by Rank Cintel.

Elliot Flight automation took over Cintel HUD business, still initial HUD were in service nearly 25 years later. 

BAE systems , as successor of Elliots via GEC Marconi Avionics has a claim to the world’s first HUD in operational services.

In the 1970’s HUD was introduced to commercial aviation and in 1988 the Oldsmobile Cutlass Supreme became the first production car with Heads-up Display.

Delphi and General Motors (after acquisition of Hughes Aircraft – the builder of the “Spruce Goose” and having patents on HUD concepts) were the first companies engaging in commercial use of HUD in automotive cars. Nissan came with HUD around the same time in model 240SX and Maxima.

Automotive glass – Head Up Display windscreens

HUD Concept:

An image is projected from the dashboard onto the windscreen.

The windscreen act as an image combiner and screen:

The 2 outer surfaces of the windscreen are reflecting the projected image, both images should perfectly fall together (as seen by the driver).

Automotive glass – Head Up Display windscreens

In the early HUD days, Japanse OEM suppliers were introducing a PET film between 2 PVB layers and as a consequence creating one single screen.

This PET film was approximately 30 x 20 cm (A4 size) and was very visible from the outside.

As a consequence this concept disappeared soon from the market.

HUD Challenges:

Due to the fact that the windscreen is not perfectly flat at the projection area, the “projection” mirror needs to resemble the windscreen curvature so that the focal distance, regardless of the place on the image/mirror, is equal.

If not, the projected image on the windscreen might appear twice (“ghosting”) or especially illuminated subjects (like traffic lights) might appear twice (“Double Vision”) This is also creating a major technical challenge to enlarge the projected image on the windscreen while maintaining one single two-dimensional perfect image.

It is clear that every car model has its own HUD specification, due to the various different positioning of HUD projection unit position as well as the mirrors and the windscreen (installation angle and curvature).

In that sense, it is very difficult for ARG (Automotive Replacement Glass) market producer to produce a perfect HUD windscreen (without design details from car manufacturer).

Optical challenge:

Optical challenge


Traditional Display Concept

Traditional Display Concept

Head-Up Display Concept

Head-Up Display Concept

HUD Concept (in real life)

HUD Concept (in real life)

HUD Concept (in real life)

HUD Deliveries.(customer needs)


  • Projection of information (minimize re-focus time)
  • Eyes stay on the road (road scene awareness enhanced)
  • No obscuration by the steering wheel (information easy to find)

Information Content & Management.

  • Provides useful information
  • Provides timely and specific warnings

Resulting Attributes

  • Information Access Time Improved (allows response time improvement)
  • Offers Convenience, Comfort and Safety (an Aid to driving)
  • HUD brings the information to the driver (Visual accommodation)

HUD Augmented Reality (Sekurit Saint Gobain)

Standard HUD

  • Image distance: app. 2 meter
  • Virtual image size 200 X 70 mm


  • Image distance; 2 to 5 meter
  • Virtual Image size: 400 X 100 mm/700 X 370 mm

AR HUD (Augmented Reality HUD)

  • Image distance : 7 meter
  • Virtual image size: 1800 X 900 mm
  • Much more detailed and active display especially concentrating on navigation.
Courtesy of Mercedes
Courtesy of Mercedes

Holographic Enabled Transparent Display

  • Eastman with Ceres Holographics
  • Holographic film laminated in between the PVB.
  • First display on Consumer Electronics Show (CES) in Las Vegas from 5th – 8th of January 2023.
  • Image distance; ?
  • Virtual Image size: ?
Courtesy of Ceres Holographics
Courtesy of Ceres Holographics

Holographic Enabled Virtual Image HUD

  • AGP with WayRay
  • Description: similar to the one described as Holographic Enabled Transparent Display (Eastman with Ceres); the difference is that instead of the image being seen on the surface of the glass (i.e. transparent display, not virtual), in this case a virtual image is created and seen several meters in front of the vehicle (ahead of the eye). No wedge angle is required in both cases because the specular reflection (coming from the glass) is directed out of the eyebox.
  • It is done by a similar process of introducing a photopolymer with a recorded Holographic Optical Element (HoE) inside the laminate.
  • Virtual image distance: normally 15m; however, can be setup between 0m (transparent display) up to infinity, enabling real augmented reality.
  • FOV: 12° x 5°
  • Virtual image area: 4.13m²


  • AGP and other glass manufacturers.
  • Description: Conventional reflection HUD systems described earlier in this blog (including Standard HUD, Big HUD and AR HUD, with exception of the Holographic Enabled Transparent Display), are all based on the same principle: Non polarized or s-polarized light is reflected by the inner surface of the laminate (glass surface #4) and directed to the occupant eye creating a virtual image at certain distance in front of the eye.  Unfortunately, a portion of light is also reflected by the outer surface of the laminate (glass surface #1) and therefore may create the double vision phenomenon (read earlier in this blog), currently solved to certain extent by incorporating a PVB with a certain specific wedge angle.
  • An increasing concern with such incorporated PVB with a wedge angle, is that the HUD image visibility while wearing polarized sunglasses is very low, or even not perceptible.  
  • P-polarized light at certain angles has extremely low reflection on glass, basically negligible; therefore, if p-pol is used instead of s-pol or non-pol, at the correct incidence angle, and a special p-pol reflecting surface is introduced either by a coating on glass or the use of a special film, there will be only the reflection coming from that surface and no reflection coming from the glass surfaces (# 1 and #4).  With this solution the HUD virtual image has good visibility even when wearing sunglasses, additionally there is no need for introducing a wedge angle between inner and outer surfaces (by using a special wedge shape PVB).
  • Similar performances can be achieved to Standard HUD, Big HUD and AR HUD depending on the WS size and geometry.
  • Virtual image distance: 2m up to 10m, depending on the WS size and geometry.

car companies

Automotive Brands with HUD Windscreen and suppliers

(+ECE R43 qualification)

(Confirmed during Autosalon from Brussels on 17/01/2022)

Automotive Brands with HUD Windscreen and suppliers

Automotive Brands with HUD Windscreen and suppliers

Automotive Brands with HUD Windscreen and suppliers

Head Up Display as of 1995 through Wedge PVB shape (mostly sold as option)

Year 2000: > 100 M vehicles

Year 2005: > 250 M vehicles

Year 2010: > 600 M vehicles

Year 2015: > 1 MM vehicles

Year 2020: > 1.2 MM vehicles

Year 2025 prediction: > 1.5 MM vehicles

Head Up Display as of 1995 through Wedge PVB shape

Managing the optical Challenge:

  • Determining the Proper Wedge Design
  • Manufacturing Challenges
  • Commercial Experience

Determining the Proper Wedge Design

Determination of the windscreen wedge angle required for zero optical displacement.

  • Car model and windscreen installation angle dependent.
  • Dependent on the projection angle of the HUD device.

Determination of the wedge angle in the PVB film which will yield the desired wedge angle through the lamination process of the finished windscreen.

  • Influence from PVB shaping, lamination, autoclaving on the initial wedge angle (change of angle but also increase in variability).

Ghosting Phenomenon

Ghosting Phenomenon

Double Vision Phenomenon

Double Vision Phenomenon

PVB producer approach

Full Wedge

  • Can exceed desired windscreen thickness
  • Poor roll formation
  • Head Injury Citeria
  • Double Vision risk

Partial Wedge

  • Less bulky
  • More safe in roll handling

PVB Product Type

  • Adhesion control
  • Surface pattern control
  • PVB caliper control - At product development, establish and maintain different wedge angles during the extrusion campaign.
  • High extrusion transition losses. Conversion between “flat sheeting” and “wedge angle sheeting”. Also between different wedge angles

PVB handling at laminator.

  • Web handling issues of a non uniform caliper roll.
  • Roll formation: Standard PVB product > Partial Wedge > Full Wedge
  • Roll length can depend on the requested wedge angle (and consequent PVB caliper)
  • Roll handling issues (uneven roll formation, vertical versus horizontal storage,...)
  • Shaping is different then flat sheeting.
  • Each production/handling step CAN influence the wedge angle of the final windscreen
  • Consistent lay up and lamination process needed.
  • Optics need to be verified according to OEM requirements
  • Identical windscreens at different laminators may require different wedge angles.

Typical Development Program

  • Car manufacturer defines the HUD positioning and consequent windscreen wedge angle.
  • Laminator reviews car manufacturing needs and evaluates his process potential.
  • Car manufacturer (and HUD supplier) support actively the development program (a confidentiality agreement can be established).
  • Agreement is made on the wedge design.
  • PVB producer produces 1 or 2 rolls of the requested wedge angle (and preferably also of slightly different angle (limit to be defined at process evaluation).
  • Based upon the joint optical evaluation of the produced wedge windscreens (and evaluated variability in optics) jointly decides the “right” wedge angle for this model/laminator.
  • Specifications are agreed.


ECE Symbols and contracting parties

E1 Germany

E2 France

E3 Italy

E4 The Netherlands

E5 Sweden

E6 Belgium

E7 Hungary

E8 Czech Republic

E9 Spain

E10 Serbia

E11 United Kingdom

E12 Austria

E13 Luxemburg

E14 Switzerland

E16 Norway

E17 Finland

E18 Denmark

E19 Rumania

E20 Poland

E21 Portugal

E22 Russian Federation

E23 Greece

E24 Ireland

E25 Croatia

E26 Slovenia

E27 Slovakia

E28 Belarus

E29 Estonia

E30 Republic of Moldavia

E31 Bosnia & Herzegovina

E32 Latvia

E34 Bulgaria

E35 Kazakhstan

E36 Lithuania

E37 Turkey

E39 Azerbaijan

E40 North Macedonia

E43 Japan

E45 Australia

E47 South Africa

E48 New Zealand

E49 Cyprus

E50 Malta

E51 Republic of Korea

E52 Malaysia

E53 Thailand

E54 Albania

E55 Armenia

E56 Montenegro

E57 San Marino

E58 Tunesia

E60 Georgia

E62 Egypt

E63 Nigeria

E64 Pakistan

List is derived from official publication which is named as

ECE/TRANS/WP.29/343/Rev.30/Add.1 (March 2nd 2022 by ECE)

600450 Automotive glass – Head Up Display windscreens | Luc Moeyersons

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Joe Anderson
Wed, 21/06/2023 - 00:52

This is so cool. I'm so excited about its implementation! 

Tyra Wells
Thu, 15/02/2024 - 03:47

Agree! You can help maintain the integrity and functionality of your automotive glass, particularly your HUD windshield, ensuring optimal visibility and safety while driving.



Tyra ~ Landscaping North Shore

Yolanda E Harper
Wed, 27/03/2024 - 21:20

thanks for sharing this post in detail about the Automotive glass  Head Up Display windscreens and the detail is informational for us to know about these glass. Also his response to this post is good and people can see what you have in your mind while writing this article.

Caddie Johnson
Thu, 18/04/2024 - 04:17

This helps.. Automotive glass with Head-Up Display (HUD) technology, such as the windscreens developed by Luc Moeyersons, represents an exciting advancement in vehicle safety and convenience. HUD windshields provide drivers with essential information directly within their line of sight, enhancing situational awareness and reducing distractions. It's impressive to see innovations like these improving the driving experience and prioritizing safety on the road.


C.J., small business coach sydney

Kaye Cole
Thu, 09/05/2024 - 12:39

Yes! IT offers insights into modern HUD systems, but it's important to conduct your own testing to determine suitability for your specific needs. As new knowledge becomes available, this information may be subject to revision. LAMI-Solutions assumes no liability, and nothing in this publication should be construed as a license to operate under or a recommendation to infringe any patent right. The history and background of HUD technology highlight its evolution from World War II experiences to today's sophisticated units, with the aim of enhancing pilot efficiency and safety.

Kaye/bathroom renovations sydney

Rain Fuente
Thu, 23/05/2024 - 01:11

Automotive glass with Head-Up Display (HUD) technology, like the ones developed by Luc Moeyersons, offers a promising advancement in vehicle safety and convenience. By projecting essential information directly onto the windshield, HUDs can enhance driver awareness without diverting attention from the road. This innovation has the potential to improve driving experience and reduce distractions, ultimately contributing to safer roads.


Rain (sydney food trucks)