In an automobile, an electronic instrument cluster, digital instrument panel or digital dash for short, is a set of instrumentation, including the speedometer, that is displayed with a digital readout rather than with the traditional analog gauges. Many refer to it simply as a digital speedometer.
When accelerating, digital speedometers generally step through a freeze frame of whole numbers at a constant sample rate. It is as precise as the number displaced, whereas a gauged speedometer pointer could sweep through an infinite range between its major markings at 10 mph or 20 km/h intervals. The latter provides a sense of continuous acceleration albeit with less precision: a gauge reading could only be estimated to the pointer's nearest halfway point between the markings. Digital dashes were considered to be unpopular during the years when they were widely produced, and were heavily criticized by reviewers in automotive magazines. Some of the criticism they received was as follows:
They were hard to see in the strong sunlight or other bright light
They took away the sense of continuous acceleration that is provided by an analog speedometer.
They were expensive to repair in the event of a malfunction
As a result of these issues, digital instrument panels were phased out of vehicles throughout the 1990s, and have been replaced with traditional analog gauges in most vehicles, including those from luxury divisions. However, many vehicles are made today with a standard or optional trip computer located independently from the speedometer. Digital units received information from a variety of sensors installed throughout the engine and transmission, while traditional analog units were attached to a cable that provided information from the transmission. Modern analog displays receive information in the same manner as the digital units, with very few manufacturers still using the speedometer cable method. In the 2000s, digital speedometers were produced in some hybrid vehicles, including the Toyota Prius and Honda Insight. Most digital speedometers have had green numbers displayed on a dark green or black background. The 8th and 9th generation Honda Civic have a "two-tier" instrument panel. The upper digital dashboard with white numbers against a blue screen, digital fuel and temperature gauges. The lower dashboard has an analog tachometer and digital odometer. The 10th and present generation saw the two-tier design replaced with a single instrument panel, which in higher tiers is a fully digital and partially customizable design. Automotive head-up displays have seen applications in several cars, augmenting analog gauges with a digital readout on the windshield glass. Many modern motorcycles are now equipped with digital speedometers, most often these are sports bikes. Toyota is using electronic instruments for showing the cars parameters for its Yaris/Vitz model, the car employs a Vacuum fluorescent display to indicate the speed, RPM, fuel level, odometer, etc. For the 2011 model year, Chrysler began using a common dashboard across their model line that has an integrated trip computer in addition to the analog gauges. This trip computer can also be used to show a digital speedometer, making these hybrid digital-analog dashboards. the speedometer needle to be too wide, they are relying on the digital speedometer more than the analog gauge. The French manufacturer Citroën, is using digital indicators as speedometer for many models in its range, including the C2, C3, C4 and C6.
LCDs
Vehicle instruments have been augmented by software-powered display panels conveying information on display panels. Digital instruments present data in the form of numeric parameters, textual messages, or graphical gauges. Unlike the electro-mechanical instrument clusters of the past, these interactive displays are much more versatile and flexible. In 2014, Audi launched its 'virtual cockpit' on Audi TT, and has later introduced it to the several other models. The technology has been developed together with the Finnish company Rightware, using its Kanzi software suite.
Railway applications
Electronic instrument clusters are being increasingly common features on railway vehicles, in which individual instruments are replaced by various forms of digital readouts. Early uses of instrument clusters often employed LEDs to display analog-type or numeric readings for pressure gauges, electrical gauges, and other displays. They have been increasingly integrated with various cab signalling systems and together with the installation of multi-function displays, have simplified the cab layout and improved user interaction with the engineer.