Our team of professionals helps defense-hardware teams develop and industrialize their devices. Mechanical, electronics, firmware and optics.
You're juggling five different vendors: PCB design and production, CNC, sheet metal and plastics, plus thermal management. How do you tie them all together without missing the deadline?
You built a working prototype. Now what? How do you scale it into a robust, manufacturable product?
You have so many things to handle: investor relations, potential customers to focus on. How do you handle all this on top of the development process?
Kii.am is a boutique Israeli design-and-manufacturing house with every discipline under one roof: mechanical engineering, electronics and PCB design, firmware, optical engineering — plus in-house prototyping and serial production from hundreds to tens of thousands of units.
Three steps from where you are to a field-ready product.
Tell us what you're building. We'll come back within one business day with a real answer, not a sales pitch.
Mechanical, electronics, firmware and optics, one accountable team, not five vendors.
Alpha → Beta → series production, in Israel or overseas, with documentation that passes any audit.
Mechanical, electronics, firmware and optics share a lead, a model, and a deadline. The team is unified around a single outcome: getting your product to the field. Single accountability, aligned incentives, shared timeline — from ideation to production.
Every discipline you need — integrated, not stitched.
Handheld and benchtop electromechanical devices. Motors and drivers (servo, stepper, brushed, brushless), liquid and air pumps, solenoids and tubing. Precision metalwork, sheet metal, seals and elastomers, plastics design — ruggedized to MIL-STD-810.
Schematic to layout: mixed-signal, RF, power and motor control. Battery systems with wired and wireless charge/discharge. Bluetooth links, complex synchronous and asynchronous buck-boost, LED drivers. Design-for-EMC toward MIL-STD-461.
Active and passive cooling that keeps the electronics alive in the field. Heatsinks, conduction paths, fan and airflow design, thermal-interface material selection, validated by thermal-imaging tests.
Treatment timing, motor and pump control, sensor fusion, Bluetooth and USB interfaces, touchscreen UIs. Bare-metal or RTOS — whichever the platform calls for.
LED selection, reflector design, beam collimation, power-density tuning. Optics designed alongside the mechanics and electronics — not bolted on after.
Touch-sense buttons, rugged mechanical keys, touchscreens, panels with status LEDs, simple LCDs. Designed to work under gloves and in harsh field conditions.
Prototyping at every stage of the project — from quick PoCs, to dazzling mock-ups, to near-final working products. In-house FDM and SLA 3D printing, CNC, PCB prototyping, rapid injection moulding, custom jigs and fixtures.
Hundreds to tens of thousands of units, Israel and overseas, with ISO 13485-aligned QA documentation that passes any audit.
Schematics and layouts done in-house, with design-for-EMC discipline baked in from the first revision. Validated through accredited test labs toward MIL-STD-461.
Mechanical, electronics, firmware and optics designed as one system. One accountable team — not five vendor handoffs.
Our ISO 13485 medical pedigree is the traceability and reliability discipline that ruggedized, life-critical field hardware demands.
Design-to-MIL-STD-810 (environmental) and design-for-EMC toward MIL-STD-461, validated through accredited test labs.
From a single prototype to tens of thousands of units — in Israel or overseas — with the QA documentation to back it.
An LED array tuned by the optics team, driven by a board laid out by electronics, mounted on a precision sub-frame from mechanical, kept cool by an assembly the firmware team learned to throttle. Different disciplines, one whiteboard, a product that works.
A structured path that de-risks cost, schedule and quality from day one.
Architecture, risk and regulatory planning.
Functional prototype that proves core concepts.
Market-ready prototype for demonstrations.
Full manufacturing line with QA and testing.
In-house FDM/SLA 3D printing, CNC, PCB prototyping, rapid injection molding, and the jigs & fixtures that make production repeatable — all under the same roof as the engineers iterating on the next revision.
Ask us anything. We answer the technical questions other shops dodge.
Ask a questionWe also plug in as a sub-assembly partner — control panels, control modules, sensor housings, ruggedized boxes, motorized assemblies. Full mech + PCB + firmware + optics under one ISO-certified roof.
Talk to us about sub-assemblies
That's the only outcome that matters. We make it predictable.
Ask a question and we'll come back within one business day with a real answer — not a sales pitch.
