TI Radar Coverage

Solutions across multiple TI radar product paths.

Wavvar covers 6843 sensing modules, 6432 radar boards, and integrated WDR systems inside one deployment-ready platform story.

Covered products

MINI

RTP

RTL

CFH

RPI

ML6432A

ML6432A_BO

WDR

Solutions Platform

Research-grade mmWave solutions platform, ready for market.

Wavvar provides deployable mmWave solutions across 6843 and 6432 platforms, with open device control, high-rate research workflows, and hardware paths built for scale.

Talk to Us Read Docs View on GitHub

MMWK hardware architecture with ESP application control and radar processing layers

6843 + 6432 One solutions story across high-performance spatial sensing and low-power embedded paths.

Open control Operate hardware through UART, MQTT, raw capture, OTA, and a shared CLI surface.

For developers Built for integrators, researchers, and teams shipping real radar-backed products.

Ready for market Move from lab workflows to deployment paths without rebuilding everything around the radar.

Featured Example · ROID

ROID makes high-rate vital-sign research easier to scale.

ROID is a Wavvar featured example for contactless vital-sign research. It shows how the platform can support both 6843 and 6432 solution paths, reduce dependence on fragmented capture workflows, and make large-scale experiments, deployment, and productization much easier.

Across 6843 and 6432

Use one Wavvar solutions narrative across multiple hardware paths instead of treating research as a single-board experiment.

High-rate research without extra fragmentation

ROID is designed to shorten the path between signal exploration, repeatable experiments, and product-facing development.

Structured output for real workflows

Support raw and compute-oriented flows for teams doing signal analysis, edge processing, and solution iteration.

Why teams care

Built to move beyond evaluation.

Wavvar solutions are shaped for teams that need research credibility, deployable hardware, and commercial continuity in the same stack.

Less lab friction

Spend less time stitching together external research tooling and more time validating useful signals.

Better deployment continuity

Carry the same platform story from experiments to field-ready systems.

Stronger market signal

Use featured solutions like ROID to show customers and partners something closer to a real product path.

Deployment Readiness

Ready to deploy. Ready to scale.

Wavvar shortens the distance between radar validation and market deployment with deployable hardware, standardized operating flows, and solution paths built for integration teams.

Keep the radar layer moving

Move faster from validation to product integration without treating deployment as a separate reinvention project.

Operational stack included

Use UART, MQTT, OTA, raw capture, and configuration workflows as part of the product path instead of bolted-on tooling.

Choose the right path for the market

Select compact modules, integrated systems, or specialized devices depending on where the opportunity is.

An open control plane for developers and AI agents

./mmwk_cli.sh device hi -p /dev/cu.usbserial-0001
./mmwk_cli.sh network mqtt --mqtt-uri mqtt://broker:1883 -p /dev/cu.usbserial-0001
./mmwk_cli.sh radar flash --fw radar.bin --cfg radar.cfg -p /dev/cu.usbserial-0001
./mmwk_cli.sh collect --duration 12 --data-output ./data.sraw --resp-output ./cmd.log -p /dev/cu.usbserial-0001

Open Control Plane

mmwk_cli gives humans and agents the same operational surface.

Control MMWK hardware over UART and MQTT through an open-source CLI designed for structured control. Flash firmware, inspect status, configure networking, capture raw output, and automate bring-up without building custom glue first.

Open-source mmwk_cli

A documented control surface for daily development, debugging, deployment, and support workflows.

Agent-friendly by design

Structured commands, CLI JSON semantics, and MCP compatibility make the platform workable for autonomous tooling.

Commands that map to operations

Discovery, flash, OTA, raw capture, and runtime control live on the same operational path.

Hardware Paths

Choose the hardware path that fits the job.

These are the primary MMWK hardware paths. Use the buy button on each card to open a purchase inquiry.

RPX product line Buy module

RPX Series

For independent sensing modules and compact development platforms, including the 6843 branch and the RPI 6432 platform.

6432 radar board Buy module

ML6432Ax Series

For standalone 6432 radar-board integration paths, including ML6432A and ML6432A_BO for low-power presence and vital-sign-oriented applications.

Integrated systems Buy module

WDR System

For connected deployments that need integrated controller, radar, and communication layers in one WDR product path.

Product Design Service

ID / MD services for product-ready radar hardware.

Some Wavvar modules already have designed enclosures. Wavvar also provides industrial design and mechanical design services to carry radar modules into manufacturable products, with room for installation, protection, cable routing, and product-identity requirements.

Existing enclosure baselines

MINI, PRO, and RPI already have enclosure references that can shorten concept work and pilot delivery.

Design around deployment constraints

Adapt the radar subsystem for mounting, industrial packaging, field use, and the physical realities of the final product.

From module to finished device

Treat the radar module as one subsystem inside a complete product instead of leaving enclosure and integration work for later.

Discuss Product Design

6843 compact Reference shell

MINI Enclosure

A compact housing reference for fast integration, pilot hardware, and space-sensitive product concepts.

6843 performance Reference shell

PRO Enclosure

A more capable packaging direction for richer I/O, industrial integration, and product-ready system design.

6432 embedded Reference shell

RPI Enclosure

A 6432-class enclosure baseline for embedded sensing products that need a cleaner path to finished hardware.

R&D Services

Algorithms, firmware, and applications built with the hardware.

Wavvar provides algorithm development and application R&D on top of the modules, from radar sensing logic to device software, cloud services, and mobile applications that make the sensing stack usable in real products.

Radar algorithms

Develop and tune vital-sign, presence, people-tracking, and custom sensing pipelines around the target use case.

Device-side engineering

Build ESP-side control logic, high-frequency radar firmware on supported configurations, data flows, OTA paths, and custom protocol layers.

Application delivery

Ship dashboards, cloud integrations, mobile apps, and business-facing workflows that turn radar output into usable product behavior.

Start an R&D Conversation

What it changes

One partner across sensing, software, and deployment.

Instead of stopping at boards, Wavvar can help shape the full solution path from sensing behavior to device logic, application UX, and deployment integration.

Research to deployment continuity

Keep the same platform story while moving from experiments to pilots and scaled rollouts.

Fewer handoffs

Tune hardware, algorithms, and application surfaces together instead of across disconnected vendors.

Customization for the real job

Shape sensing output, operator workflows, and integration points around the product that actually needs to ship.

Next Step

Bring your radar workflow to market.

Talk with Wavvar about evaluation hardware, solution fit, deployment support, and productization. If you prefer to explore first, the docs and open-source CLI are ready.