Search
Close this search box.

Novastar A9s LED Receiving Card

A9s LED Receiver Card is a small-size, feature-rich solution that enhances the performance, flexibility, and reliability of LED display systems. With its pixel-level calibration, 3D function, advanced module management, and various backup mechanisms, the A9s provides users with unprecedented control, exceptional image quality, and seamless operation.
Novastar A9s LED Receiving Card

Overview

The Novastar A9s LED Receiving Card is a high-end small receiving card developed by Novastar, designed to enhance LED display performance and user experience. With its impressive features and advanced technology, the A9s delivers exceptional image quality, precise calibration, and reliable operation. The A9s supports up to 512×512 pixels (PWM IC), 32 groups of parallel RGB data, or 64 groups of serial data (expandable to 128 groups), offering a versatile solution for a wide range of LED display applications.

Features

Pixel Level Brightness and Chroma Calibration

The A9s, in conjunction with NovaLCT and NovaCLB, provide pixel-level brightness and chroma calibration. This feature enables precise adjustment of each LED, eliminating color discrepancies and ensuring consistent brightness and chroma across the entire display. By delivering improved color accuracy and image quality, the A9s create stunning visuals that captivate viewers.

Quick Adjustment of Dark or Bright Lines

To optimize the visual experience, the A9s offers a convenient function for adjusting dark or bright lines caused by cabinet or module splicing. This user-friendly feature allows for immediate adjustment, resulting in a seamless and uniform display without distracting lines. With just a few simple steps, the A9s enhances the overall visual impact of the LED display.

3D Function

The A9s supports 3D image output by working in tandem with a Novastar independent controller (Such as MCTRL4K, NovaPro UHD​ Jr, MX40 Pro, or VX1000) that specifically supports 3D functionality. This capability allows for the creation of immersive and engaging visual content, adding depth and dimension to the displayed images. With the A9s, LED displays can deliver a captivating visual experience that leaves a lasting impression.

Image Rotation in 90° Increments

Offering flexibility in display orientation, the A9s enables image rotation in increments of 90°, providing multiple options for display configuration. Whether it’s a landscape, portrait, or any other customized orientation, the A9s adapt effortlessly to meet the specific requirements of the LED display installation. This versatility ensures optimal viewing angles and accommodates diverse display setups.

Smart Module (Supported by Dedicated Firmware)

The A9s seamlessly integrates with the smart module, unlocking a range of advanced functionalities. With this combination, the receiving card supports module ID management, storage of calibration coefficients and module parameters, monitoring of module temperature, voltage, and flat cable communication status, LED error detection, and recording of module run time. This comprehensive module management system simplifies operation, enhances efficiency, and improves the overall performance of the LED display.

Automatic Module Calibration

Installing a new module to replace an old one is effortless with the A9s. The receiving card automatically uploads the calibration coefficients stored in the flash memory of the module upon power-on, eliminating the need for manual calibration. This feature ensures consistent performance and reduces maintenance time, making the A9s an ideal choice for hassle-free module replacement.

Module Flash Management

The A9s offers efficient management of modules equipped with flash memory. It allows users to store and retrieve vital information such as calibration coefficients and module IDs. By providing easy access to module-specific data, the A9s simplifies configuration and ensures accurate module management for seamless integration within the LED display system.

One-Click Calibration Coefficient Application

For modules with flash memory, the A9s introduces a convenient one-click application of calibration coefficients stored in the module’s flash memory. In the event of an Ethernet cable disconnection, users can simply press and hold the self-test button on the cabinet to upload the calibration coefficients to the receiving card. This feature ensures uninterrupted functionality and streamlines the calibration process.

Mapping Function

To simplify the management and configuration of receiving cards, the A9s incorporates a mapping function. This function displays the receiving card number and Ethernet port information on the cabinets, allowing users to easily identify the locations and connection topology of the receiving cards. With this mapping function, configuring and troubleshooting the LED display becomes more efficient, saving valuable time and effort.

Pre-Stored Image Customization

The A9s offers the flexibility to customize the image displayed on the screen during startup or when the Ethernet cable is disconnected or no video signal is present. Users can define and set a pre-stored image according to their preferences or branding requirements. This feature enables a personalized touch to the LED display and ensures a visually engaging experience even in the absence of an active video source.

Temperature and Voltage Monitoring

Monitoring the temperature and voltage of the receiving card is made simple with the A9s. Without the need for additional peripherals, users can easily keep track of the operating conditions and performance of the receiving card. Real-time temperature and voltage readings enable proactive maintenance and ensure the longevity and reliability of the LED display system.

Cabinet LCD Display

The A9s is equipped with a cabinet LCD module that provides valuable information at a glance. The LCD display shows essential details such as the temperature, voltage, single run time, and total run time of the receiving card. This feature allows for convenient on-site monitoring and quick assessment of the receiving card’s status, facilitating prompt troubleshooting and maintenance when necessary.

Firmware Program Readback

With the A9s, users have the ability to read back and save the firmware program of the receiving card to their local computer. This feature ensures the preservation of the firmware version and facilitates easy firmware updates or rollbacks when required. It provides users with peace of mind knowing that they have control over the firmware management process, allowing for seamless integration with their LED display system.

Configuration Parameter Readback

The A9s empowers users with the capability to read back and save the configuration parameters of the receiving card to their local computer. This functionality ensures that crucial configuration settings are securely stored and easily accessible for backup or replication purposes. With the ability to retrieve and restore configuration parameters, users can swiftly recover or replicate settings, minimizing downtime and optimizing system performance.

LVDS Transmission (Supported by Dedicated Firmware)

The A9s utilizes Low-Voltage Differential Signaling (LVDS) transmission, a specialized firmware-supported feature. LVDS transmission reduces the number of data cables required from the hub board to the module, effectively increasing the transmission distance and enhancing the signal transmission quality. By leveraging LVDS technology, the A9s improves the electromagnetic compatibility (EMC) of the LED display system, ensuring reliable and stable performance.

Dual Card Backup and Status Monitoring

In applications where high reliability is paramount, the A9s offers dual card backup functionality. Two receiving cards can be mounted onto a single hub board, providing a backup solution in case of a primary card failure. With the dual card setup, uninterrupted operation of the display is ensured, guaranteeing continuous content delivery without disruption. Furthermore, the status of the main and backup receiving cards can be easily monitored through the NovaLCT V5.2.0 software or later versions, allowing for proactive system management and maintenance.

Status Detection of Dual Power Supplies

The A9s includes a feature to detect the working status of dual power supplies. By monitoring the power supply status, the receiving card provides essential information about the power sources and ensures that the LED display system operates within optimal power conditions. This feature adds an extra layer of reliability and safeguards the system against potential power-related issues.

Loop Backup

To ensure uninterrupted display performance, the A9s LED Receiver Card employs a loop backup mechanism. The LED receiving card and the LED sending card form a loop through the main and backup line connections. In the event of a fault occurring at any point in the loop, the screen continues to display the image seamlessly without any interruption. This loop backup feature guarantees reliable and continuous operation, minimizing the impact of potential failures and enhancing the overall resilience of the LED display system.

Dual Backup of Configuration Parameters

The A9s offers dual backup functionality for configuration parameters, providing an added layer of data redundancy. The receiving card stores configuration parameters in both the application area and the factory area simultaneously. By having duplicate copies of the configuration parameters, users can easily switch between the application and factory areas as needed. This dual backup system ensures that configuration settings are securely stored and readily available for quick restoration, streamlining the configuration management process.

Dual Backup of Application Program

To prevent any issues that may arise during program updates, the A9s implements dual backup of the application program. Two copies of the application program are stored in the receiving card at the factory, eliminating the risk of the receiving card becoming unresponsive due to program update exceptions. This safeguard ensures the uninterrupted and smooth operation of the LED display, providing peace of mind to users and minimizing potential disruptions.

Dual Backup of Calibration Coefficients

Calibration coefficients, crucial for accurate color reproduction, are subject to dual backup in the A9s. The receiving card stores calibration coefficients in both the application area and the factory area simultaneously. Typically, users utilize the calibration coefficients in the application area. However, if necessary, users can restore the calibration coefficients from the factory area to the application area. This dual backup system ensures consistent and reliable color performance, maintaining the visual integrity of the LED display over time.

Appearance

Appearance of Novastar A9s LED Receiver card

Dimensions

Dimensions Chart of Novastar A9s LED Receiver card

Specification / Datasheet

User Manual

Firmware

Frequently Asked Questions

The A9s can support a maximum pixel capacity of 512×512 pixels (PWM IC).

Yes, the A9s supports pixel-level brightness and chroma calibration, ensuring consistent and accurate color reproduction.

Yes, the A9s can work with an independent controller to support 3D image output, adding depth and dimension to the display.

Yes, the A9s can automatically upload calibration coefficients from newly installed modules with flash memory, simplifying the setup process.

Yes, the A9s allows for real-time monitoring of the receiving card’s temperature and voltage without the need for additional peripherals.

Yes, the A9s can be equipped with two receiving cards mounted on a single hub board, ensuring uninterrupted display operation in case of a main card failure.

The Novastar A9s LED Receiving Card is available at a competitive price range, typically ranging from $40 to $60. Please note that the actual price may vary depending on various factors such as the supplier, location, and quantity ordered. For accurate and up-to-date pricing information, it is advisable to contact us.

The A9s LED Receiving Card exclusively supports NOVALCT and NOVACLB software, providing users with comprehensive control and customization options for their LED display systems.

The A9s LED Receiving Card is designed to be compatible exclusively with Novastar’s software solutions, such as NOVALCT and NOVACLB. Third-party applications, including Linsn, HUIDU, and Colorlight, are not supported for controlling the A9s.

Novastar A9s LED Receiving Card

A9s LED Receiver Card is a small-size, feature-rich solution that enhances the performance, flexibility, and reliability of LED display systems. With its pixel-level calibration, 3D function, advanced module management, and various backup mechanisms, the A9s provides users with unprecedented control, exceptional image quality, and seamless operation.
Novastar A9s LED Receiving Card

Overview

The Novastar A9s LED Receiving Card is a high-end small receiving card developed by Novastar, designed to enhance LED display performance and user experience. With its impressive features and advanced technology, the A9s delivers exceptional image quality, precise calibration, and reliable operation. The A9s supports up to 512×512 pixels (PWM IC), 32 groups of parallel RGB data, or 64 groups of serial data (expandable to 128 groups), offering a versatile solution for a wide range of LED display applications.

Features

Pixel Level Brightness and Chroma Calibration

The A9s, in conjunction with NovaLCT and NovaCLB, provide pixel-level brightness and chroma calibration. This feature enables precise adjustment of each LED, eliminating color discrepancies and ensuring consistent brightness and chroma across the entire display. By delivering improved color accuracy and image quality, the A9s create stunning visuals that captivate viewers.

Quick Adjustment of Dark or Bright Lines

To optimize the visual experience, the A9s offers a convenient function for adjusting dark or bright lines caused by cabinet or module splicing. This user-friendly feature allows for immediate adjustment, resulting in a seamless and uniform display without distracting lines. With just a few simple steps, the A9s enhances the overall visual impact of the LED display.

3D Function

The A9s supports 3D image output by working in tandem with a Novastar independent controller (Such as MCTRL4K, NovaPro UHD​ Jr, MX40 Pro, or VX1000) that specifically supports 3D functionality. This capability allows for the creation of immersive and engaging visual content, adding depth and dimension to the displayed images. With the A9s, LED displays can deliver a captivating visual experience that leaves a lasting impression.

Image Rotation in 90° Increments

Offering flexibility in display orientation, the A9s enables image rotation in increments of 90°, providing multiple options for display configuration. Whether it’s a landscape, portrait, or any other customized orientation, the A9s adapt effortlessly to meet the specific requirements of the LED display installation. This versatility ensures optimal viewing angles and accommodates diverse display setups.

Smart Module (Supported by Dedicated Firmware)

The A9s seamlessly integrates with the smart module, unlocking a range of advanced functionalities. With this combination, the receiving card supports module ID management, storage of calibration coefficients and module parameters, monitoring of module temperature, voltage, and flat cable communication status, LED error detection, and recording of module run time. This comprehensive module management system simplifies operation, enhances efficiency, and improves the overall performance of the LED display.

Automatic Module Calibration

Installing a new module to replace an old one is effortless with the A9s. The receiving card automatically uploads the calibration coefficients stored in the flash memory of the module upon power-on, eliminating the need for manual calibration. This feature ensures consistent performance and reduces maintenance time, making the A9s an ideal choice for hassle-free module replacement.

Module Flash Management

The A9s offers efficient management of modules equipped with flash memory. It allows users to store and retrieve vital information such as calibration coefficients and module IDs. By providing easy access to module-specific data, the A9s simplifies configuration and ensures accurate module management for seamless integration within the LED display system.

One-Click Calibration Coefficient Application

For modules with flash memory, the A9s introduces a convenient one-click application of calibration coefficients stored in the module’s flash memory. In the event of an Ethernet cable disconnection, users can simply press and hold the self-test button on the cabinet to upload the calibration coefficients to the receiving card. This feature ensures uninterrupted functionality and streamlines the calibration process.

Mapping Function

To simplify the management and configuration of receiving cards, the A9s incorporates a mapping function. This function displays the receiving card number and Ethernet port information on the cabinets, allowing users to easily identify the locations and connection topology of the receiving cards. With this mapping function, configuring and troubleshooting the LED display becomes more efficient, saving valuable time and effort.

Pre-Stored Image Customization

The A9s offers the flexibility to customize the image displayed on the screen during startup or when the Ethernet cable is disconnected or no video signal is present. Users can define and set a pre-stored image according to their preferences or branding requirements. This feature enables a personalized touch to the LED display and ensures a visually engaging experience even in the absence of an active video source.

Temperature and Voltage Monitoring

Monitoring the temperature and voltage of the receiving card is made simple with the A9s. Without the need for additional peripherals, users can easily keep track of the operating conditions and performance of the receiving card. Real-time temperature and voltage readings enable proactive maintenance and ensure the longevity and reliability of the LED display system.

Cabinet LCD Display

The A9s is equipped with a cabinet LCD module that provides valuable information at a glance. The LCD display shows essential details such as the temperature, voltage, single run time, and total run time of the receiving card. This feature allows for convenient on-site monitoring and quick assessment of the receiving card’s status, facilitating prompt troubleshooting and maintenance when necessary.

Firmware Program Readback

With the A9s, users have the ability to read back and save the firmware program of the receiving card to their local computer. This feature ensures the preservation of the firmware version and facilitates easy firmware updates or rollbacks when required. It provides users with peace of mind knowing that they have control over the firmware management process, allowing for seamless integration with their LED display system.

Configuration Parameter Readback

The A9s empowers users with the capability to read back and save the configuration parameters of the receiving card to their local computer. This functionality ensures that crucial configuration settings are securely stored and easily accessible for backup or replication purposes. With the ability to retrieve and restore configuration parameters, users can swiftly recover or replicate settings, minimizing downtime and optimizing system performance.

LVDS Transmission (Supported by Dedicated Firmware)

The A9s utilizes Low-Voltage Differential Signaling (LVDS) transmission, a specialized firmware-supported feature. LVDS transmission reduces the number of data cables required from the hub board to the module, effectively increasing the transmission distance and enhancing the signal transmission quality. By leveraging LVDS technology, the A9s improves the electromagnetic compatibility (EMC) of the LED display system, ensuring reliable and stable performance.

Dual Card Backup and Status Monitoring

In applications where high reliability is paramount, the A9s offers dual card backup functionality. Two receiving cards can be mounted onto a single hub board, providing a backup solution in case of a primary card failure. With the dual card setup, uninterrupted operation of the display is ensured, guaranteeing continuous content delivery without disruption. Furthermore, the status of the main and backup receiving cards can be easily monitored through the NovaLCT V5.2.0 software or later versions, allowing for proactive system management and maintenance.

Status Detection of Dual Power Supplies

The A9s includes a feature to detect the working status of dual power supplies. By monitoring the power supply status, the receiving card provides essential information about the power sources and ensures that the LED display system operates within optimal power conditions. This feature adds an extra layer of reliability and safeguards the system against potential power-related issues.

Loop Backup

To ensure uninterrupted display performance, the A9s LED Receiver Card employs a loop backup mechanism. The LED receiving card and the LED sending card form a loop through the main and backup line connections. In the event of a fault occurring at any point in the loop, the screen continues to display the image seamlessly without any interruption. This loop backup feature guarantees reliable and continuous operation, minimizing the impact of potential failures and enhancing the overall resilience of the LED display system.

Dual Backup of Configuration Parameters

The A9s offers dual backup functionality for configuration parameters, providing an added layer of data redundancy. The receiving card stores configuration parameters in both the application area and the factory area simultaneously. By having duplicate copies of the configuration parameters, users can easily switch between the application and factory areas as needed. This dual backup system ensures that configuration settings are securely stored and readily available for quick restoration, streamlining the configuration management process.

Dual Backup of Application Program

To prevent any issues that may arise during program updates, the A9s implements dual backup of the application program. Two copies of the application program are stored in the receiving card at the factory, eliminating the risk of the receiving card becoming unresponsive due to program update exceptions. This safeguard ensures the uninterrupted and smooth operation of the LED display, providing peace of mind to users and minimizing potential disruptions.

Dual Backup of Calibration Coefficients

Calibration coefficients, crucial for accurate color reproduction, are subject to dual backup in the A9s. The receiving card stores calibration coefficients in both the application area and the factory area simultaneously. Typically, users utilize the calibration coefficients in the application area. However, if necessary, users can restore the calibration coefficients from the factory area to the application area. This dual backup system ensures consistent and reliable color performance, maintaining the visual integrity of the LED display over time.

Appearance

Appearance of Novastar A9s LED Receiver card

Dimensions

Dimensions Chart of Novastar A9s LED Receiver card

Specification / Datasheet

User Manual

Firmware

Frequently Asked Questions

The A9s can support a maximum pixel capacity of 512×512 pixels (PWM IC).

Yes, the A9s supports pixel-level brightness and chroma calibration, ensuring consistent and accurate color reproduction.

Yes, the A9s can work with an independent controller to support 3D image output, adding depth and dimension to the display.

Yes, the A9s can automatically upload calibration coefficients from newly installed modules with flash memory, simplifying the setup process.

Yes, the A9s allows for real-time monitoring of the receiving card’s temperature and voltage without the need for additional peripherals.

Yes, the A9s can be equipped with two receiving cards mounted on a single hub board, ensuring uninterrupted display operation in case of a main card failure.

The Novastar A9s LED Receiving Card is available at a competitive price range, typically ranging from $40 to $60. Please note that the actual price may vary depending on various factors such as the supplier, location, and quantity ordered. For accurate and up-to-date pricing information, it is advisable to contact us.

The A9s LED Receiving Card exclusively supports NOVALCT and NOVACLB software, providing users with comprehensive control and customization options for their LED display systems.

The A9s LED Receiving Card is designed to be compatible exclusively with Novastar’s software solutions, such as NOVALCT and NOVACLB. Third-party applications, including Linsn, HUIDU, and Colorlight, are not supported for controlling the A9s.

Related Post

Contact Us

Our sale team will give full support and price you needed.