9+ Unlock Full Screen Android Auto in Your RAM 1500!

The integration of the Android Auto platform to utilize the entire display area of the infotainment system, specifically within the Ram 1500 vehicle, is the central concept. This functionality allows for a more immersive and visually appealing user experience by maximizing the screen real estate available for navigation, media playback, and other supported applications. This contrasts with implementations where Android Auto only occupies a portion of the screen, leaving unused or vehicle-specific interface elements visible.

The appeal lies in improved usability and aesthetics. A full-screen implementation minimizes distractions and presents information in a clearer, more organized manner. Drivers benefit from larger map displays, easier-to-read text, and a more intuitive interface for controlling music and accessing communication features. Historically, Android Auto implementations were often limited due to compatibility issues with vehicle manufacturers’ existing infotainment systems and display resolutions. Over time, advancements in software and hardware integration have facilitated the development of solutions that enable full-screen functionality.

The following sections will delve into specific methods for achieving this enhanced integration, including software updates, aftermarket solutions, and potential compatibility considerations for different model years of the Ram 1500.

1. Compatibility Considerations

The ability to achieve full-screen Android Auto functionality in a Ram 1500 is fundamentally dependent on compatibility between the vehicle’s infotainment system and the Android Auto software. This compatibility is not universal and is influenced by several factors, necessitating careful consideration before attempting to implement a full-screen solution.

Uconnect Version

The specific version of the Uconnect infotainment system installed in the Ram 1500 plays a critical role. Older Uconnect versions may lack the necessary software architecture or hardware capabilities to properly support full-screen Android Auto. Later versions are more likely to include the required APIs or display drivers. For example, a 2018 Ram 1500 with an older Uconnect system might require an aftermarket adapter or software update to enable full-screen, while a 2022 model may support it natively.
Android Auto Software Version

The version of the Android Auto application running on the connected smartphone is another significant factor. Google frequently releases updates to Android Auto, some of which include improvements to screen scaling and display compatibility. An outdated version of the Android Auto application may not be optimized for the Ram 1500’s display, leading to compatibility issues such as display artifacts or incomplete screen utilization. Keeping the Android Auto app updated is thus essential.
Screen Resolution and Aspect Ratio

The resolution and aspect ratio of the Ram 1500’s infotainment screen must be compatible with the Android Auto output. If the aspect ratios are significantly different, the Android Auto interface may be stretched or distorted to fit the screen, resulting in a sub-optimal user experience. Even if the screen resolution is technically supported, the way Android Auto scales its interface to fit that resolution can impact the overall visual quality and usability.
Vehicle-Specific Software Overlays

Ram, like other vehicle manufacturers, often incorporates its own custom software overlays and interfaces within the infotainment system. These overlays may interfere with Android Auto’s ability to take over the entire screen. Some vehicle manufacturers intentionally limit Android Auto’s display area to maintain access to vehicle-specific functions or to preserve a consistent brand identity within the infotainment system. Overcoming these limitations may require advanced software modification or the use of unofficial workarounds, which can potentially void warranties or introduce system instability.

In summary, achieving full-screen functionality is contingent upon a confluence of factors relating to the vehicle’s embedded system, the Android Auto software, and the inherent design choices made by the vehicle manufacturer. Thoroughly investigating these compatibility considerations is paramount before attempting to implement a full-screen Android Auto solution in a Ram 1500.

2. Resolution Optimization

Resolution optimization is a critical aspect of achieving a seamless and visually pleasing full-screen Android Auto experience in a Ram 1500. Without proper optimization, the Android Auto interface may appear distorted, pixelated, or improperly scaled, negating the benefits of utilizing the entire display area.

Native Resolution Matching

Ideally, the resolution output by Android Auto should match the native resolution of the Ram 1500’s infotainment screen. This ensures that each pixel in the Android Auto interface corresponds directly to a pixel on the display, resulting in the sharpest possible image. When there is a mismatch, the system must scale the image, which can introduce artifacts and reduce clarity. For instance, if the screen’s native resolution is 1280×720 and Android Auto outputs at 800×480, the image will be stretched, leading to a blurry or pixelated appearance.
Aspect Ratio Correction

Maintaining the correct aspect ratio is essential to prevent distortion of the Android Auto interface. The aspect ratio defines the proportional relationship between the width and height of the screen. If Android Auto outputs an aspect ratio that differs from the screen’s aspect ratio, the image will be either stretched or compressed, leading to a distorted view. Example: A 16:9 screen displaying a 4:3 image will either stretch the image horizontally or add black bars on the sides, both of which are undesirable.
DPI Scaling Considerations

Display density (DPI – dots per inch) affects the size of text and icons within the Android Auto interface. If the DPI setting is not appropriate for the screen size and resolution, elements may appear too small or too large, impacting usability. Proper DPI scaling ensures that text is legible and icons are easily identifiable without being overly prominent. The appropriate DPI setting is dependent on both the screen’s physical size and its resolution, and should be configured to provide a comfortable viewing experience.
Graphics Processing Capabilities

The Ram 1500’s infotainment system must possess sufficient graphics processing capabilities to handle the full-screen Android Auto interface at the desired resolution. Insufficient processing power can lead to lag, stuttering, and reduced responsiveness. This is especially relevant when running graphically intensive applications such as navigation software with detailed map displays. An older or underpowered system may struggle to maintain a smooth and fluid user experience at higher resolutions.

In conclusion, resolution optimization is paramount for maximizing the visual fidelity and usability of Android Auto in a Ram 1500. By ensuring that the output resolution, aspect ratio, and DPI settings are correctly configured, and that the system has sufficient processing power, a driver can significantly enhance their in-vehicle infotainment experience.

3. Software Updates

Software updates play a pivotal role in enabling and enhancing full-screen Android Auto functionality within Ram 1500 vehicles. These updates, released by both Google (for Android Auto) and Stellantis (for the Uconnect system), introduce new features, improve compatibility, and address bugs that can directly impact the Android Auto user experience, including its ability to utilize the entire display area.

Operating System and Firmware Enhancements

Updates to the Uconnect operating system and vehicle firmware can introduce underlying support for newer Android Auto features and display protocols. These updates may include modified display drivers or system APIs that allow Android Auto to properly interface with the Ram 1500’s screen at its native resolution. For example, a Uconnect update might enable a previously unsupported display mode, thereby unlocking full-screen capability for Android Auto.
Android Auto Application Updates

Google regularly releases updates to the Android Auto application itself. These updates can include improvements to screen scaling algorithms, bug fixes related to display issues, and support for new screen resolutions and aspect ratios. A specific Android Auto update might address a compatibility problem with certain Ram 1500 models, resolving issues where the interface was previously confined to a portion of the screen. The application is intended to operate better overall.
Bug Fixes and Stability Improvements

Software updates frequently address bugs and stability issues that can indirectly affect Android Auto’s performance and display. A system-level bug causing intermittent display flickering or crashes could prevent Android Auto from consistently maintaining full-screen mode. Resolving these underlying issues through software updates can significantly improve the reliability and stability of the Android Auto experience.
Security Patches and System Integrity

Applying the latest security updates on both the smartphone and in the UConnect system contributes to the overall system security of the device. System updates are intended to patch vulnerabilities in the security framework to prevent exploitation. If the smartphone or vehicle systems are compromised, the functionality of core features like “android auto full screen ram 1500” may suffer.

In summary, consistent and timely software updates from both Google and Stellantis are essential for ensuring optimal compatibility, performance, and stability of full-screen Android Auto functionality within Ram 1500 vehicles. Keeping both the Uconnect system and the Android Auto application up-to-date is a proactive measure that can mitigate compatibility issues and enhance the overall user experience.

4. Aftermarket Adapters

Aftermarket adapters provide a pathway to achieve full-screen Android Auto functionality in Ram 1500 models where native support is either absent or limited. These devices serve as intermediaries, bridging the gap between the vehicle’s existing infotainment system and the desired Android Auto output, offering a solution for older models or those with restrictive Uconnect configurations.

Hardware Interfacing and Signal Conversion

Aftermarket adapters often incorporate hardware components designed to interface with the Ram 1500’s existing wiring harness and display connections. These adapters may perform signal conversion, translating the Android Auto video output into a format compatible with the vehicle’s screen. For example, an adapter might convert a USB-based video signal into an LVDS signal required by the Ram 1500’s display, enabling the presentation of the Android Auto interface on the full screen.
Software Emulation and Protocol Translation

In addition to hardware interfacing, aftermarket adapters may employ software emulation and protocol translation to bypass limitations imposed by the Uconnect system. This could involve emulating specific Uconnect protocols or intercepting and modifying communication between the Android Auto device and the vehicle’s head unit. An adapter might, for instance, emulate the presence of a native navigation system, tricking the Uconnect system into allowing Android Auto to utilize the full display area.
Bypass of OEM Restrictions

Vehicle manufacturers often implement restrictions on third-party software integration to maintain control over the infotainment experience and protect proprietary systems. Aftermarket adapters sometimes include mechanisms to circumvent these restrictions, enabling full-screen Android Auto functionality that would otherwise be blocked by the Uconnect system. These bypass techniques can range from simple software hacks to more complex hardware modifications, potentially impacting system stability and warranty coverage.
Feature Enhancement and Customization

Beyond enabling full-screen display, some aftermarket adapters offer additional features and customization options, such as wireless Android Auto connectivity, improved audio processing, and the ability to integrate additional vehicle data into the Android Auto interface. These enhancements aim to provide a more comprehensive and user-friendly experience, extending the capabilities of the original infotainment system.

The use of aftermarket adapters represents a viable solution for achieving full-screen Android Auto in Ram 1500 models lacking native support. However, it is crucial to carefully evaluate the compatibility, reliability, and potential risks associated with these devices before installation, as improper implementation can lead to system instability or void warranties.

5. Display Calibration

Display calibration is a critical, yet often overlooked, factor influencing the perceived quality and accuracy of the Android Auto full-screen experience within a Ram 1500. Proper calibration ensures that the colors, brightness, and contrast displayed by the infotainment screen accurately represent the intended output, leading to a more visually pleasing and informative experience.

Color Accuracy and Representation

Calibration corrects any deviations from standard color spaces, such as sRGB, ensuring that colors within the Android Auto interface appear as intended. Without calibration, colors may be skewed, impacting the accurate representation of navigation maps, application icons, and other visual elements. For instance, an uncalibrated display might render road colors inaccurately, potentially affecting driver awareness and decision-making.
Brightness and Contrast Optimization

Calibration involves adjusting brightness and contrast levels to ensure optimal visibility under varying ambient lighting conditions. A properly calibrated display will maintain adequate brightness during daylight hours without appearing washed out, while also dimming sufficiently at night to avoid causing glare or distraction. In the context of “android auto full screen ram 1500,” optimized brightness and contrast enhance readability of maps and text, particularly during nighttime driving.
Gamma Correction and Grayscale Tracking

Gamma correction addresses the non-linear relationship between input signal and display brightness, ensuring that grayscale tones are reproduced accurately. Proper gamma tracking is essential for rendering shadow details and subtle gradations within the Android Auto interface. When gamma is improperly calibrated, images may appear too dark or washed out, obscuring important visual information.
Addressing Display Aging and Degradation

Over time, the characteristics of a display can shift due to aging and environmental factors. Calibration can compensate for these changes, maintaining consistent color accuracy and brightness throughout the lifespan of the Ram 1500’s infotainment system. Regular calibration ensures that the “android auto full screen ram 1500” experience remains visually consistent, even as the display ages.

The benefits of proper display calibration extend beyond mere aesthetics; it contributes to a safer and more user-friendly “android auto full screen ram 1500” experience by ensuring that visual information is presented accurately and consistently. Neglecting calibration can lead to misinterpretation of displayed data, potentially impacting driver awareness and decision-making capabilities.

6. Connectivity Stability

Connectivity stability is a foundational element for the seamless and reliable operation of Android Auto, particularly when implemented in full-screen mode within a Ram 1500. A stable connection ensures uninterrupted access to navigation, media, communication, and other supported applications, contributing significantly to a positive user experience.

Data Transmission Integrity

Stable connectivity ensures the consistent and accurate transmission of data between the Android device and the vehicle’s infotainment system. Interruptions in the data stream can lead to lag, stuttering, or even complete failure of the Android Auto interface, hindering access to essential functions such as real-time traffic updates or turn-by-turn navigation. For example, a weak or intermittent Bluetooth connection might cause frequent disconnections, requiring the driver to repeatedly re-establish the link, disrupting their focus and increasing frustration.
Bandwidth Availability and Performance

Android Auto relies on sufficient bandwidth to support the demands of various applications, including streaming media, voice recognition, and map rendering. A stable connection provides consistent bandwidth, ensuring smooth performance and preventing buffering or delays. In the context of “android auto full screen ram 1500”, the larger display area amplifies the need for adequate bandwidth, as the system must render higher-resolution images and more complex interfaces. Insufficient bandwidth can result in a sluggish and unresponsive experience, diminishing the value of the full-screen implementation.
Protocol Compatibility and Handshake Reliability

Stable connectivity depends on the reliable establishment and maintenance of communication protocols between the Android device and the Uconnect system. Incompatible protocols or unreliable handshakes can lead to connection failures or intermittent disruptions. For example, conflicting Bluetooth profiles or outdated USB drivers might prevent the Android device from properly pairing with the Ram 1500’s infotainment system. Ensuring protocol compatibility and reliable handshakes is crucial for a consistent and trouble-free “android auto full screen ram 1500” experience.
Mitigation of Interference and External Factors

Connectivity stability can be affected by various external factors, such as electromagnetic interference, network congestion, and physical obstructions. A robust and well-designed connection system mitigates these external influences, ensuring a consistent and reliable signal. In a vehicle environment, factors such as the placement of the Android device, the presence of other electronic devices, and even the vehicle’s metal structure can impact connectivity. Effective shielding and signal amplification techniques are necessary to maintain a stable connection in the face of these challenges, particularly when leveraging the full potential of “android auto full screen ram 1500”.

These elements collectively contribute to a reliable and predictable Android Auto experience in the Ram 1500. Without a stable connection, the benefits of the full-screen implementation are compromised, leading to a frustrating and potentially unsafe driving experience. Thus, ensuring robust connectivity is paramount for maximizing the value and usability of “android auto full screen ram 1500”.

7. User Interface Customization

User interface customization, within the context of “android auto full screen ram 1500,” directly influences the driver’s interaction with the infotainment system and its efficiency. Full-screen implementations inherently provide more screen real estate, creating expanded opportunities for customization. This includes options for widget placement, shortcut configurations, and information display priorities. Consequently, effective customization enables drivers to tailor the Android Auto interface to their specific needs and preferences, improving both usability and situational awareness. Failure to provide adequate customization options negates some of the advantages of the larger display, potentially leading to a cluttered or inefficient interface. For example, a driver primarily using navigation might prioritize map display and traffic information widgets, while a driver focused on entertainment may prioritize media controls and playlist access. The system’s ability to accommodate these varying needs defines the value of customization.

Practical applications of user interface customization extend to safety and convenience features. Customizable voice command shortcuts, for instance, can enable drivers to execute frequent actions, such as initiating phone calls or adjusting climate control, without diverting their attention from the road. Moreover, the arrangement of application icons and widgets can be optimized for quick access and intuitive navigation, reducing cognitive load and improving response times. Consider the customization of notification settings; drivers may choose to filter or prioritize notifications based on importance, minimizing distractions while ensuring they receive critical alerts. These practical applications underscore the importance of a flexible and well-designed customization framework within the Android Auto ecosystem.

In summary, user interface customization is not merely an aesthetic enhancement but a crucial component of a functional and safe “android auto full screen ram 1500” integration. It directly impacts usability, situational awareness, and driver satisfaction. Challenges lie in providing a balance between flexibility and simplicity, ensuring that customization options are both comprehensive and intuitive to use. Ultimately, the successful implementation of customization features contributes significantly to the overall value and appeal of the full-screen Android Auto experience in Ram 1500 vehicles.

8. App Scaling

App scaling is intrinsically linked to the successful implementation of “android auto full screen ram 1500.” The enlarged display area necessitates that applications adapt their user interfaces to maintain legibility and usability. Without proper app scaling, elements may appear excessively small, pixelated, or disproportionate, negating the advantages of the expanded screen real estate. This presents a cause-and-effect relationship: the availability of a full screen creates the need for effective app scaling to deliver a functional and aesthetically pleasing user experience. The absence of scaling renders the increased screen size largely ineffective, resulting in a substandard user experience. As an example, consider navigation apps; improperly scaled map displays may feature illegible street names or obscured points of interest, hindering effective navigation.

The practical significance of understanding this connection is multifaceted. Developers must optimize their Android Auto applications to dynamically adjust to different screen sizes and resolutions. Vehicle manufacturers must ensure their infotainment systems support a range of scaling options. Users benefit from improved clarity and accessibility, enhancing the overall driving experience. Moreover, accurate app scaling is crucial for maintaining driver safety. Oversized elements can obstruct the driver’s view, while undersized elements may require excessive visual focus, diverting attention from the road. Successfully implemented app scaling features improve accessibility and ease of use.

In conclusion, app scaling is not merely a cosmetic consideration but a critical element in realizing the full potential of “android auto full screen ram 1500.” Its influence extends from basic legibility to driver safety, demanding careful attention from both developers and vehicle manufacturers. Challenges remain in ensuring consistent and effective scaling across a diverse range of applications and screen resolutions, however, continued focus on app scaling techniques represents a crucial step toward optimizing the user experience in full-screen Android Auto environments.

9. Voice command integration

Voice command integration serves as a crucial, enabling component of the “android auto full screen ram 1500” experience. Its impact stems from the fundamental principle that a full-screen display, while visually advantageous, can potentially demand increased driver attention for interaction. Robust voice command capabilities mitigate this demand, allowing drivers to manage navigation, communication, and entertainment functions without averting their gaze from the road. The availability of an expansive screen enhances the visual feedback provided during voice interactions, such as displaying search results or confirmation prompts, thereby improving the overall user experience. Consider a scenario where a driver, utilizing “android auto full screen ram 1500,” requests directions to a destination. Effective voice command integration allows for hands-free input and confirmation, while the large display provides a clear, easily interpretable map view. Without voice command functionality, the driver would be compelled to manually input the destination, increasing distraction and potential safety risks. Thus, voice control and full screen capability have a strong relationship.

Practical applications of optimized voice command integration are numerous and far-reaching. Customizable voice shortcuts can be programmed to execute frequent tasks, such as initiating phone calls to specific contacts or adjusting vehicle climate control settings. The system can provide verbal confirmation of these commands, reducing ambiguity and ensuring accurate execution. Furthermore, advanced natural language processing enables the system to understand complex requests and contextual cues, further minimizing the need for manual input. Effective voice command integration also extends to third-party applications, allowing drivers to control music playback, send messages, and access other supported services through voice alone. A driver could command the system to “play the latest episode of [Podcast Name] on Spotify,” and the system would seamlessly initiate playback without requiring any manual intervention. These examples illustrate the far-reaching benefits of voice command in a mobile environment.

In summary, voice command integration constitutes an indispensable element of a safe and efficient “android auto full screen ram 1500” implementation. Its presence directly addresses the potential challenges associated with managing an expanded display while driving, enabling drivers to maintain focus on the road. While challenges remain in perfecting natural language processing and ensuring seamless integration across all applications, continued focus on voice command technology represents a vital step toward maximizing the usability and safety of full-screen Android Auto systems. Effective voice command support enables an environment where a full screen delivers on its intended promise, with less compromise.

Frequently Asked Questions

The following questions and answers address common concerns and provide clarification regarding the implementation and functionality of Android Auto in full-screen mode within Ram 1500 vehicles.

Question 1: Is full-screen Android Auto natively supported on all Ram 1500 model years?

No, native support for full-screen Android Auto is not universal across all Ram 1500 model years. Compatibility is dependent on the Uconnect system version and the Android Auto software version. Older Ram 1500 models may require aftermarket adapters or software updates to achieve full-screen functionality.

Question 2: What Uconnect version is required for native full-screen Android Auto support?

Specific Uconnect versions offering native full-screen Android Auto support vary. Consult the vehicle manufacturer’s documentation or contact a Ram dealership for precise information regarding Uconnect compatibility for the target Ram 1500 model year. Generally, newer Uconnect versions are more likely to provide native support.

Question 3: Will a software update guarantee full-screen Android Auto functionality?

A software update can enable or improve full-screen Android Auto functionality, however, it is not a guaranteed solution. The success of a software update depends on the specific Uconnect version and the compatibility of the update with the vehicle’s hardware and software architecture. Check release notes of an update prior to installation.

Question 4: Are there any risks associated with using aftermarket adapters to enable full-screen Android Auto?

The utilization of aftermarket adapters carries potential risks, including system instability, reduced performance, and potential voiding of the vehicle’s warranty. It is crucial to select reputable adapters and ensure professional installation to minimize these risks.

Question 5: How does screen resolution impact the full-screen Android Auto experience?

Screen resolution directly impacts the visual clarity and sharpness of the Android Auto interface. Higher resolutions generally result in a more detailed and visually pleasing experience. Ensure that the Android Auto output resolution matches the native resolution of the Ram 1500’s infotainment screen for optimal results.

Question 6: What steps can be taken to improve the stability of the Android Auto connection?

To enhance connection stability, verify that both the Android device and the Uconnect system are running the latest software versions. Use a high-quality USB cable (if applicable), avoid physical obstructions that may interfere with wireless signals, and ensure that the vehicle’s electrical system is functioning properly.

These answers provide a foundational understanding of common inquiries related to achieving a full-screen Android Auto experience within Ram 1500 vehicles. Proper research, careful consideration of compatibility factors, and adherence to best practices are essential for a successful implementation.

The subsequent section will address potential troubleshooting steps for common issues encountered during the installation and use of full-screen Android Auto on Ram 1500 vehicles.

Achieving Optimal “Android Auto Full Screen Ram 1500” Integration

The following tips offer guidance on maximizing the functionality and performance of Android Auto in full-screen mode within Ram 1500 vehicles. These recommendations are based on technical considerations and aim to enhance the user experience.

Tip 1: Verify Uconnect Compatibility Before Attempting Installation. Before pursuing any modifications or upgrades, ascertain the precise Uconnect system version installed in the Ram 1500. Consult the vehicle’s documentation or contact a certified Ram technician to determine whether the Uconnect version natively supports full-screen Android Auto or requires additional steps.

Tip 2: Prioritize Official Software Updates. Ensure that both the Uconnect system and the Android Auto application are running the latest official software versions. Software updates often include compatibility improvements, bug fixes, and performance enhancements that directly impact the stability and functionality of Android Auto. Refrain from installing unofficial or beta software, as these may introduce instability and compromise system integrity.

Tip 3: Select Aftermarket Adapters with Careful Consideration. When native support is lacking, exercise caution when selecting aftermarket adapters. Research the adapter’s specifications, compatibility, and user reviews thoroughly before making a purchase. Prioritize adapters from reputable manufacturers with proven track records. Professional installation by a qualified technician is strongly recommended to minimize the risk of damage or system malfunction.

Tip 4: Optimize Display Resolution Settings. Confirm that the Android Auto output resolution matches the native resolution of the Ram 1500’s infotainment screen. Mismatched resolutions can lead to distortion, pixelation, or a sub-optimal viewing experience. Adjust the resolution settings within the Android Auto application or the vehicle’s infotainment system to achieve the best possible visual clarity.

Tip 5: Maintain a Stable and Reliable Connection. A stable connection is essential for seamless Android Auto operation. Use a high-quality USB cable (if applicable) and avoid physical obstructions that may interfere with wireless signals. Regularly check for interference from other electronic devices and ensure that the vehicle’s electrical system is functioning properly to provide consistent power to the infotainment system.

Tip 6: Utilize Proper App Scaling When a new app or even a familiar app appears to be rendered in an awkward size, look for resolution and scaling options within the app. Check display settings and the Android Auto environment as a whole.

Adhering to these tips can significantly enhance the integration and performance of Android Auto in full-screen mode within Ram 1500 vehicles, providing a more reliable, visually pleasing, and user-friendly experience. Following these steps minimizes compatibility challenges and maximize available vehicle technologies.

The information provided establishes a solid foundation for successfully implementing and managing full-screen Android Auto functionality within Ram 1500 vehicles. Future developments in both Android Auto software and vehicle infotainment systems will likely introduce new possibilities and refinements.

Conclusion

The preceding analysis has detailed the various aspects of achieving optimal “android auto full screen ram 1500” integration. Key determinants include Uconnect compatibility, software versions, resolution optimization, connectivity stability, and aftermarket adapter considerations. These elements, when properly managed, contribute to a functional and user-friendly in-vehicle experience.

As technology evolves, continued vigilance and proactive adaptation are essential. Monitor software updates, carefully evaluate hardware options, and remain cognizant of potential system limitations. Such diligence will ensure a safer and more effective utilization of “android auto full screen ram 1500” capabilities, maximizing the benefits of this technology within the Ram 1500 vehicle.