Anticipating the rapid growth of connected devices, Synaptics introduces its Veros Wi-Fi 7 system-on-a-chip series, aiming to address the pressing demand for faster, more reliable wireless communication in the expanding Internet of Things (IoT) sector. The launch aims to power a new class of high-resolution entertainment, security, and gaming applications, while also meeting the stringent requirements of future consumer electronics. With interoperability and energy efficiency at the forefront, these processors could influence how manufacturers develop and integrate IoT solutions globally.
Prior product launches by major wireless technology companies were primarily centered on Wi-Fi 6 and incremental advances in throughput and efficiency. Synaptics’ earlier wireless chips targeted consumer electronics but did not broadly address the flexibility demanded by modern IoT standards or offer built-in artificial intelligence features at this scale. Unlike past efforts, the Veros Wi-Fi 7 introduction places special emphasis on multilink operations, edge AI computing, and compatibility with smart home protocols—a marked shift compared to announcements from rivals, who have only recently started unveiling Wi-Fi 7 solutions focused on specific market segments.
What Makes Veros Wi-Fi 7 Chips Stand Out?
The Veros Wi-Fi 7 family features dual flagship models, SYN4390 and SYN4384, engineered to deliver ultra-low latency and support peak wireless speeds. Both chips operate across 2.4 GHz, 5 GHz, and 6 GHz bands with 2×2 MIMO and multilink capabilities, accommodating seamless band switching to reduce congestion and optimize performance. Synaptics integrates the IEEE 802.15.4 standard and support for protocols like Thread, Zigbee, and Matter, targeting a wide range of IoT applications from consumer hubs to compact, always-on devices.
How Do These Processors Address IoT Demands?
To handle resource-intensive tasks and future data processing needs, Veros Wi-Fi 7 processors are designed to be backward compatible with earlier Wi-Fi technologies while boosting bandwidth with 4096-QAM modulation and 320MHz channels. The inclusion of Astra Machina edge AI functionality enables on-device data processing, which helps minimize latency and strengthens security by reducing reliance on remote servers.
“With Veros, we’re ensuring that devices not only connect faster, but also manage data more securely and intelligently,”
a company representative said. These attributes align with the requirements of industries adopting 8K video streaming, generative AI, and demanding real-time applications.
How Does Synaptics See Its Role in the Wi-Fi 7 Market?
As Wi-Fi 7 adoption grows, Synaptics positions itself as an early supplier capable of meeting both volume and technical needs. The company points to significant improvement in throughput and device capacity compared to Wi-Fi 6-based solutions, coupled with enhancements in energy management and compact design.
“Our SYN4390 and SYN4384 are built for longevity in performance-intensive environments and evolving smart ecosystems,”
Synaptics stated. Their approach is to support the rapid pace of market expansion, which industry forecasts suggest will see billions of Wi-Fi 7 devices coming online within a few years.
Examining these developments, it becomes clear that the Veros Wi-Fi 7 series represents a pivot toward catering to diverse IoT deployments. The company’s dual-chip strategy—targeting both high-performance consumer hubs and low-power, always-on devices—reflects an understanding of the heterogeneous nature of modern connected environments. Combining multilink support across three frequency bands and direct AI processing with established IoT protocols positions Synaptics to compete effectively as demand for high-capacity, low-latency solutions accelerates. In practical terms, vendors and integrators may now have greater flexibility in designing ecosystems that balance efficiency with performance. Those tracking the fast-moving Wi-Fi chipset market should note how broad protocol support and on-device intelligence are becoming priorities, reflecting shifting demands in wireless infrastructure for smart homes, offices, and industrial IoT deployments.
