Tracking products live or die on radio choice, power budget, and the realism of the testing they survive before shipping. Here's the stack we bring to your project.
Most logistics tracking problems can be solved by combining two or three of these radios well. Our engineers have shipped commercial designs across every one on this list.
GPS, GLONASS, Galileo, BeiDou. Multi-band and assisted-GPS designs for fast, accurate outdoor positioning.
Long-range BLE 5, mesh, and direction-finding. The right backbone for in-warehouse, pallet-level, and yard-scale visibility.
Multi-kilometre range and multi-year battery life. Ideal for sparse, low-bandwidth telemetry across yards, ports, and rural routes.
Centimetre-level precision indoors. We design tag and anchor hardware tuned for dense industrial environments.
RFID and BLE readers tuned for hundreds-to-thousands of tags in sight at once — conveyor pass-throughs, dock doors, sortation lines.
Low-power wide-area for in-transit telemetry. Multi-band, multi-network failover, eSIM provisioning at factory.
Wi-Fi BSSID positioning when GNSS isn't viable, plus CAN / OBD-II integration for vehicle-side telematics designs.
Temperature, humidity, IMU, light, tamper, e-ink display, vibration — combined where the application calls for it.
A tracking device is an RF problem, a power problem, a mechanical problem, and a firmware problem at once. The teams that own each discipline sit together — and that shows in how cleanly the trade-offs land.
Layout, matching, and shielding tuned for the radios you're combining — and the certifications your target markets require.
Bare-metal and RTOS. Aggressive duty-cycling, signed-firmware updates, hardware secure-element integration.
From wall-mount housings to belt-clip tags to in-vehicle modules. Ingress, drop, vibration, and thermal all considered up front.
RF-clean stack-ups, controlled impedance, dense BGA fan-out, and DFM that survives the move to volume manufacturing.
The engineers who designed your device sit a corridor away from the SMT lines that build it. When something needs fixing — yield, RF performance, test coverage — there's nobody to escalate to. They're already in the room.
Reflow-optimised SMT placement for high-density logistics-grade boards. Scaled for pilots through high-volume runs.
Through-hole, mechanical, enclosure, gasket, and label work — fixture-driven for repeatable quality at volume.
Per-unit RF tuning, GNSS receiver calibration, sensor offset trim. Calibration data signed onto the device at factory.
End-of-line functional test against your spec, plus optional burn-in / aging runs for safety-critical applications.
Tracking hardware that performs in a clean lab can quietly fail in a warehouse with twenty other readers, a forklift with a four-foot drop, or a conveyor with three pass-throughs per second. We test in conditions that match the field.
A non-exhaustive sample of device families we routinely engineer and manufacture for partners. Your design might look nothing like these — that's fine. The capabilities underneath are the same.
Long-life GPS / LTE-M / NB-IoT trackers for containers, trailers, and high-value cargo. Designed for sealed-for-life deployment with multi-year battery budgets.
Temperature, humidity, and location monitors for pharma, food, and high-value perishable cargo. Probe support down to cryogenic ranges.
OBD-II and CAN-bus telematics for trucks, vans, and commercial vehicles. Engine, position, and driver-behavior data into your platform.
Illustrative reference designs. The product we build for you is yours alone, under your brand.
Send us a description of what you'd like to build, the radios you have in mind (or want us to recommend), and your target environment. We'll respond with a path.