HIGH DEMANDS CALL FOR PREMIUM PERFORMANCE
HIGH DEMANDS CALL FOR PREMIUM PERFORMANCE
PRELUDE TO POWER
PRELUDE TO POWER
No matter how refined the associate amplifiers, capable the loudspeakers, or resolute the video display, they cannot alone or collectively reclaim what a subpar preamplifier fails to retain.
Hyperion preamplifier-processors utilize precision digital signal processing topologies that suppress jitter-related time-domain errors preserving phase alignment, full dynamic range, and accurate harmonic structure for transparent, lossless signal delivery to the amplification stage.
CAREFULLY SELECTED INTERNALS
CAREFULLY SELECTED INTERNALS
CAREFULLY SELECTED INTERNALS
Hyperion preamplifier-processors utilize precision digital signal processing topologies that suppress jitter-related time-domain errors preserving phase alignment, full dynamic range, and accurate harmonic structure for transparent, lossless signal delivery to the amplification stage.
Hyperion preamplifier-processors utilize precision digital signal processing topologies that suppress jitter-related time-domain errors preserving phase alignment, full dynamic range, and accurate harmonic structure for transparent, lossless signal delivery to the amplification stage.
Hyperion preamplifier-processors utilize precision digital signal processing topologies that suppress jitter-related time-domain errors preserving phase alignment, full dynamic range, and accurate harmonic structure for transparent, lossless signal delivery to the amplification stage.
HIGH PERFORMANCE DAC
HIGH PERFORMANCE DAC
HIGH PERFORMANCE DAC
Hyperion engineers selected the Hyperstream IV ESS SABRE ES9039Q2M 32-bit, 2-channel audio D/A converters for their measured performance parameters, including an ultra-high dynamic range of +130dB and an extremely low total harmonic distortion plus noise (THD+N) of -120dB.
Hyperion engineers selected the Hyperstream IV ESS SABRE ES9039Q2M 32-bit, 2-channel audio D/A converters for their measured performance parameters, including an ultra-high dynamic range of +130dB and an extremely low total harmonic distortion plus noise (THD+N) of -120dB.
Hyperion engineers selected the Hyperstream IV ESS SABRE ES9039Q2M 32-bit, 2-channel audio D/A converters for their measured performance parameters, including an ultra-high dynamic range of +130dB and an extremely low total harmonic distortion plus noise (THD+N) of -120dB.
GALLIUM NITRIDE AMPLIFICATION
GALLIUM NITRIDE AMPLIFICATION
GALLIUM NITRIDE AMPLIFICATION
A first-of-its-kind AV receiver featuring fully GaN-based amplification across 11 discrete channels for high-bandwidth, 3D-immersive audio and beyond. Gallium nitride power transistors achieve faster switching speeds and lower distortion, resulting in a nearly perfect amplified reproduction of the audio signal, enabling the RVC-11 to provide performance that rivals premium separate components in an AVR.
A first-of-its-kind AV receiver featuring fully GaN-based amplification across 11 discrete channels for high-bandwidth, 3D-immersive audio and beyond. Gallium nitride power transistors achieve faster switching speeds and lower distortion, resulting in a nearly perfect amplified reproduction of the audio signal, enabling the RVC-11 to provide performance that rivals premium separate components in an AVR.
A first-of-its-kind AV receiver featuring fully GaN-based amplification across 11 discrete channels for high-bandwidth, 3D-immersive audio and beyond. Gallium nitride power transistors achieve faster switching speeds and lower distortion, resulting in a nearly perfect amplified reproduction of the audio signal, enabling the RVC-11 to provide performance that rivals premium separate components in an AVR.
ARM PROCESSING
ARM PROCESSING
ARM PROCESSING
The soul of a Hyperion surround sound processor is its System on a Chip (SoC) quad-core, ARM-based design. The SoC/ARM RISC (Reduced Instruction Set Computer) microarchitecture design emphasizes system speed processing with much lower power and thermal envelopes.
The soul of a Hyperion surround sound processor is its System on a Chip (SoC) quad-core, ARM-based design. The SoC/ARM RISC (Reduced Instruction Set Computer) microarchitecture design emphasizes system speed processing with much lower power and thermal envelopes.
The soul of a Hyperion surround sound processor is its System on a Chip (SoC) quad-core, ARM-based design. The SoC/ARM RISC (Reduced Instruction Set Computer) microarchitecture design emphasizes system speed processing with much lower power and thermal envelopes.
DUAL-DSP ENGINES
DUAL-DSP ENGINES
DUAL-DSP ENGINES
Hyperion employs a parallel-architecture DSP division strategy that apportions complex tasks for efficient processing of high computational demands by 3D immersive audio formats like Dolby Atmos and DTS:X.
Hyperion employs a parallel-architecture DSP division strategy that apportions complex tasks for efficient processing of high computational demands by 3D immersive audio formats like Dolby Atmos and DTS:X.
Hyperion employs a parallel-architecture DSP division strategy that apportions complex tasks for efficient processing of high computational demands by 3D immersive audio formats like Dolby Atmos and DTS:X.
PSU ISOLATION
PSU ISOLATION
PSU ISOLATION
The power supply was designed to ensure the analog path is completely isolated from both the power ground and the digital signal.
Why? Noise.
By designing a PSU to ensure the analog and digital signal never meet, no digital noise is introduced to the analog signal.
The power supply was designed to ensure the analog path is completely isolated from both the power ground and the digital signal.
Why? Noise.
By designing a PSU to ensure the analog and digital signal never meet, no digital noise is introduced to the analog signal.
The power supply was designed to ensure the analog path is completely isolated from both the power ground and the digital signal.
Why? Noise.
By designing a PSU to ensure the analog and digital signal never meet, no digital noise is introduced to the analog signal.
ANALOG SIGNAL SILENCE
ANALOG SIGNAL SILENCE
ANALOG SIGNAL SILENCE
Our obsession with silence was brought to the entire analog input and output paths as well. The analog signal path is completely isolated from the chassis ground thus ensuring no ground loops occur. Nor can any digital noise creep into the analog signal path.
Our obsession with silence was brought to the entire analog input and output paths as well. The analog signal path is completely isolated from the chassis ground thus ensuring no ground loops occur. Nor can any digital noise creep into the analog signal path.
Our obsession with silence was brought to the entire analog input and output paths as well. The analog signal path is completely isolated from the chassis ground thus ensuring no ground loops occur. Nor can any digital noise creep into the analog signal path.
EFFICIENT PROCESSING OF HIGH COMPUTATIONAL DEMANDS
EFFICIENT PROCESSING OF HIGH COMPUTATIONAL DEMANDS
The soul of a Hyperion surround sound processor is its System on a Chip (SoC) quad-core, ARM-based design. Hyperion engineers custom-authored the Linux-based operating system in tandem with the platform's evolution, heavily optimizing the software to utilize multiple processor cores effectively.
The SoC/ARM RISC (Reduced Instruction Set Computer) microarchitecture design emphasizes system speed processing with much lower power and thermal envelopes. Robust hardware acceleration supports specialized 1 GHz DSP chipsets for high-throughput performance with computational speed equivalent to X86 CPU-based processing.
WEB GUI
WEB GUI
To maintain flawless video fidelity, Hyperion engineers specifically declined to inject onscreen display circuitry into the signal path. Hyperion is configured and managed by a comprehensive web GUI.
To maintain flawless video fidelity, Hyperion engineers specifically declined to inject onscreen display circuitry into the signal path. Hyperion is configured and managed by a comprehensive web GUI.
REAL-TIME CONTROL
REAL-TIME CONTROL
Hyperion leverages Google GO programming language together with gRPC (Google Remote Procedure Call) framework to support high-performance operations, including real-time control with sub-millisecond latency, instantaneous feedback for mobile and tablet clients, cloud-native backend updates, continuous streaming diagnostic analytics, and streamlined API catalog integration, conveniently enhancing efficiency and scalability for system integrators.
Hyperion leverages Google GO programming language together with gRPC (Google Remote Procedure Call) framework to support high-performance operations, including real-time control with sub-millisecond latency, instantaneous feedback for mobile and tablet clients, cloud-native backend updates, continuous streaming diagnostic analytics, and streamlined API catalog integration, conveniently enhancing efficiency and scalability for system integrators.
CLOUD CONNECTIVITY
CLOUD CONNECTIVITY
With IoT connectivity and cloud updating, Hyperion software engineers incorporated modern Internet interactivity capabilities into the processor’s operating system while simultaneously ensuring system stability and end-user security.
Built-in safeguards against injection, Personally Identifiable Information attacks, or any unauthorized access enable Hyperion to detect abnormal cyber activity and automatically restrict unit access until the threat is resolved.
With IoT connectivity and cloud updating, Hyperion software engineers incorporated modern Internet interactivity capabilities into the processor’s operating system while simultaneously ensuring system stability and end-user security.
Built-in safeguards against injection, Personally Identifiable Information attacks, or any unauthorized access enable Hyperion to detect abnormal cyber activity and automatically restrict unit access until the threat is resolved.
seamless communication between systems
seamless communication between systems
Hyperion APIs can connect with nearly any system, easily accessed for third-party control by automation systems, such as RTI, Control4, Savant, etc.
©Copyright Hyperion 2025 | An AVPro Global Brand
©Copyright Hyperion 2025 | An AVPro Global Brand
©Copyright Hyperion 2025 | An AVPro Global Brand