Smartwatch for Snowsports
Smartwatch for Snowsports
Smartwatch for Snowsports
Control your music, activate GoPro, or walkie-talkie with friends without taking your gloves off.
Scope: From inception to 20 Beta units in the field. Low power electronics with BLE, waterproofing, mechanical design, firmware, and assembly of units.
Control your music, activate GoPro, or walkie-talkie with friends without taking your gloves off.
Scope: From inception to 20 Beta units in the field. Low power electronics with BLE, waterproofing, mechanical design, firmware, and assembly of units.
Control your music, activate GoPro, or walkie-talkie with friends without taking your gloves off.
Scope: From inception to 20 Beta units in the field. Low power electronics with BLE, waterproofing, mechanical design, firmware, and assembly of units.
Novel Molecule Detection Device
Novel Molecule Detection Device
Novel Molecule Detection Device
This invention is a molecule detection technology using High-Field Asymmetric Waveform Ion Mobility Spectrometry at atmospheric pressure.
Scope: Our client had a scientific team and a wealth of ideas but needed a bridge between concept and functional prototypes. We translated their research into engineered prototypes and collaborated with their team to validate the science, ultimately leading to the development of their core technology. The complexity of both the science and engineering required a structured, iterative approach over 1.5 years, involving hundreds of prototypes and experiments that systematically led to a breakthrough in the field of molecule detection.
The system incorporated advanced features such as flash heating, micron-level precision mechanics, exotic materials with specialized surface finishes, power electronics generating several Kilo Volts at 0.8-2.5 MHz with variable frequency and duty cycle, an ionizer, optimized aerodynamic flow, optically isolated electronics, and a cooling system.
This invention is a molecule detection technology using High-Field Asymmetric Waveform Ion Mobility Spectrometry at atmospheric pressure.
Scope: Our client had a scientific team and a wealth of ideas but needed a bridge between concept and functional prototypes. We translated their research into engineered prototypes and collaborated with their team to validate the science, ultimately leading to the development of their core technology. The complexity of both the science and engineering required a structured, iterative approach over 1.5 years, involving hundreds of prototypes and experiments that systematically led to a breakthrough in the field of molecule detection.
The system incorporated advanced features such as flash heating, micron-level precision mechanics, exotic materials with specialized surface finishes, power electronics generating several Kilo Volts at 0.8-2.5 MHz with variable frequency and duty cycle, an ionizer, optimized aerodynamic flow, optically isolated electronics, and a cooling system.
This invention is a molecule detection technology using High-Field Asymmetric Waveform Ion Mobility Spectrometry at atmospheric pressure.
Scope: Our client had a scientific team and a wealth of ideas but needed a bridge between concept and functional prototypes. We translated their research into engineered prototypes and collaborated with their team to validate the science, ultimately leading to the development of their core technology. The complexity of both the science and engineering required a structured, iterative approach over 1.5 years, involving hundreds of prototypes and experiments that systematically led to a breakthrough in the field of molecule detection.
The system incorporated advanced features such as flash heating, micron-level precision mechanics, exotic materials with specialized surface finishes, power electronics generating several Kilo Volts at 0.8-2.5 MHz with variable frequency and duty cycle, an ionizer, optimized aerodynamic flow, optically isolated electronics, and a cooling system.
Salad & Bowl Making Robot
Salad & Bowl Making Robot
Salad & Bowl Making Robot
REMY automates salad and bowl preparation by receiving orders online or through restaurant POS systems. Its ingredient-agnostic dispensing technology ensures rapid and precise portioning, regardless of ingredient size, shape, or texture.
Scope: From concept to field testing in operation. The subsystems developed include Dispensing module (core technology), bowl denester, magnetic conveying system, bowl elevator, web based operator user interface, machine learning ready data collection, cloud connection and APIs, ROS II middleware, Firmware in Python and C, remote diagnostic and updates, power panel electronics, refrigeration, designed for food safety and easy cleanability, containerized software stack and modular hardware for rapid development and scalability.
REMY automates salad and bowl preparation by receiving orders online or through restaurant POS systems. Its ingredient-agnostic dispensing technology ensures rapid and precise portioning, regardless of ingredient size, shape, or texture.
Scope: From concept to field testing in operation. The subsystems developed include Dispensing module (core technology), bowl denester, magnetic conveying system, bowl elevator, web based operator user interface, machine learning ready data collection, cloud connection and APIs, ROS II middleware, Firmware in Python and C, remote diagnostic and updates, power panel electronics, refrigeration, designed for food safety and easy cleanability, containerized software stack and modular hardware for rapid development and scalability.
REMY automates salad and bowl preparation by receiving orders online or through restaurant POS systems. Its ingredient-agnostic dispensing technology ensures rapid and precise portioning, regardless of ingredient size, shape, or texture.
Scope: From concept to field testing in operation. The subsystems developed include Dispensing module (core technology), bowl denester, magnetic conveying system, bowl elevator, web based operator user interface, machine learning ready data collection, cloud connection and APIs, ROS II middleware, Firmware in Python and C, remote diagnostic and updates, power panel electronics, refrigeration, designed for food safety and easy cleanability, containerized software stack and modular hardware for rapid development and scalability.
Microfluidic Breath
Analyzer
Microfluidic Breath
Analyzer
Microfluidic Breath
Analyzer
The technology uses microfluidic sensors with machine learning algorithms to analyze breath and included a sterilization module, sample preparation stage, device recovery station and integrated battery charging system.
Scope: We designed and build several rounds of prototypes to validate and improve the technology. The prototypes included soft molded mechanical enclosure, all electronics, actuators, all internal mechanical components and chambers, microfluidic sensor design, pneumatics and pressure tanks, battery charging and purge station, and casing design. Once technology was proven with early prototypes, a team was formed around it to support the product development.
The technology uses microfluidic sensors with machine learning algorithms to analyze breath and included a sterilization module, sample preparation stage, device recovery station and integrated battery charging system.
Scope: We designed and build several rounds of prototypes to validate and improve the technology. The prototypes included soft molded mechanical enclosure, all electronics, actuators, all internal mechanical components and chambers, microfluidic sensor design, pneumatics and pressure tanks, battery charging and purge station, and casing design. Once technology was proven with early prototypes, a team was formed around it to support the product development.
The technology uses microfluidic sensors with machine learning algorithms to analyze breath and included a sterilization module, sample preparation stage, device recovery station and integrated battery charging system.
Scope: We designed and build several rounds of prototypes to validate and improve the technology. The prototypes included soft molded mechanical enclosure, all electronics, actuators, all internal mechanical components and chambers, microfluidic sensor design, pneumatics and pressure tanks, battery charging and purge station, and casing design. Once technology was proven with early prototypes, a team was formed around it to support the product development.
Femto Current Amplifier for Ion Detection
Femto Current Amplifier for Ion Detection
Femto Current Amplifier for Ion Detection
Thee linear, low-noise transconductance amplifiers with sensitivity at several femto Amps range with digital output.
Scope: Our client initially engaged a subcontractor for the design, and we managed the project from its early stages. Through extensive testing, redesign, and optimization, we significantly improved performance by enhancing sensitivity, reducing noise, and minimizing susceptibility to electromagnetic interference (EMI).
Thee linear, low-noise transconductance amplifiers with sensitivity at several femto Amps range with digital output.
Scope: Our client initially engaged a subcontractor for the design, and we managed the project from its early stages. Through extensive testing, redesign, and optimization, we significantly improved performance by enhancing sensitivity, reducing noise, and minimizing susceptibility to electromagnetic interference (EMI).
Thee linear, low-noise transconductance amplifiers with sensitivity at several femto Amps range with digital output.
Scope: Our client initially engaged a subcontractor for the design, and we managed the project from its early stages. Through extensive testing, redesign, and optimization, we significantly improved performance by enhancing sensitivity, reducing noise, and minimizing susceptibility to electromagnetic interference (EMI).
Automated Bike Lock Station
Automated Bike Lock Station
Automated Bike Lock Station
Lock your bike at our network of secure parking locations.
Scope: From idea to first unit in the filed including conceptualization, mechanical and electro-mechanical design, sourcing and manufacturing parts from trusted partners, and assembling and testing the first unit. Client had a lot of ideas and we helped refine concepts through customer discovery.
Lock your bike at our network of secure parking locations.
Scope: From idea to first unit in the filed including conceptualization, mechanical and electro-mechanical design, sourcing and manufacturing parts from trusted partners, and assembling and testing the first unit. Client had a lot of ideas and we helped refine concepts through customer discovery.
Lock your bike at our network of secure parking locations.
Scope: From idea to first unit in the filed including conceptualization, mechanical and electro-mechanical design, sourcing and manufacturing parts from trusted partners, and assembling and testing the first unit. Client had a lot of ideas and we helped refine concepts through customer discovery.
Breath Collection Device
Breath Collection Device
Breath Collection Device
The Breath Collection Device is used to collect breath samples from the field onto a novel cartridge. The BCU measures data such as sample volume, flow, temperature, and amount of CO2 to ensure that samples are standardized.
Scope: From first prototype to clinical studies. The first prototype was outsourced due to time limitations. After initial testing and science experimentation using the first prototype, changes to the cartridges and sample collection methodology was needed. Combination designed and build several rounds of prototypes to validate and improve the technology. Our work played a pivotal role in core technology development to clinical study readiness.
The Breath Collection Device is used to collect breath samples from the field onto a novel cartridge. The BCU measures data such as sample volume, flow, temperature, and amount of CO2 to ensure that samples are standardized.
Scope: From first prototype to clinical studies. The first prototype was outsourced due to time limitations. After initial testing and science experimentation using the first prototype, changes to the cartridges and sample collection methodology was needed. Combination designed and build several rounds of prototypes to validate and improve the technology. Our work played a pivotal role in core technology development to clinical study readiness.
The Breath Collection Device is used to collect breath samples from the field onto a novel cartridge. The BCU measures data such as sample volume, flow, temperature, and amount of CO2 to ensure that samples are standardized.
Scope: From first prototype to clinical studies. The first prototype was outsourced due to time limitations. After initial testing and science experimentation using the first prototype, changes to the cartridges and sample collection methodology was needed. Combination designed and build several rounds of prototypes to validate and improve the technology. Our work played a pivotal role in core technology development to clinical study readiness.
Precision High-Voltage and Mixed Signal Electronics
Precision High-Voltage and Mixed Signal Electronics
Precision High-Voltage and Mixed Signal Electronics
This power board supplies power up to a few Kilo Volts with 0.1V control accuracy. The processor, analog, and digital circuitry are optically isolated.
Scope: From concept to highly reliable prototypes in the field.
This power board supplies power up to a few Kilo Volts with 0.1V control accuracy. The processor, analog, and digital circuitry are optically isolated.
Scope: From concept to highly reliable prototypes in the field.
This power board supplies power up to a few Kilo Volts with 0.1V control accuracy. The processor, analog, and digital circuitry are optically isolated.
Scope: From concept to highly reliable prototypes in the field.
Smart Insoles
Smart Insoles
Smart Insoles
Comfortable insoles that measure biomechanics with precision.
Scope: The project included feasibility studies, prototype development, design of mechanical insole and pod, early production of mechanical parts (50 units), and supervision of sub-contactor for electronics. We contributed to the core technology (under NDA).
Comfortable insoles that measure biomechanics with precision.
Scope: The project included feasibility studies, prototype development, design of mechanical insole and pod, early production of mechanical parts (50 units), and supervision of sub-contactor for electronics. We contributed to the core technology (under NDA).
Comfortable insoles that measure biomechanics with precision.
Scope: The project included feasibility studies, prototype development, design of mechanical insole and pod, early production of mechanical parts (50 units), and supervision of sub-contactor for electronics. We contributed to the core technology (under NDA).
Novel Laboratory Instrument for Breath Analysis
Novel Laboratory Instrument for Breath Analysis
Novel Laboratory Instrument for Breath Analysis
The Mass Spectrum (MS) Breath Sampler is a novel interface designed for mass spectrometers, optimized for breath analysis. It also offers a unique capability for clinical and toxicology laboratories, the ability to analyze nonvolatile species in breath.
Scope: Our client had a scientific team and a vision for the technology. We translated their concepts into engineered prototypes and collaborated closely to validate the science. The engineering involved temperature control, ionization, fluidic and gas flow regulation, precision mechanics, power electronics, geometry optimization, and seamless integration with a mass spectrometer. Through multiple iterations and extensive experimentation, we refined the design and functionality, leading to a breakthrough product that became a core part of the client’s technology portfolio.
The Mass Spectrum (MS) Breath Sampler is a novel interface designed for mass spectrometers, optimized for breath analysis. It also offers a unique capability for clinical and toxicology laboratories, the ability to analyze nonvolatile species in breath.
Scope: Our client had a scientific team and a vision for the technology. We translated their concepts into engineered prototypes and collaborated closely to validate the science. The engineering involved temperature control, ionization, fluidic and gas flow regulation, precision mechanics, power electronics, geometry optimization, and seamless integration with a mass spectrometer. Through multiple iterations and extensive experimentation, we refined the design and functionality, leading to a breakthrough product that became a core part of the client’s technology portfolio.
The Mass Spectrum (MS) Breath Sampler is a novel interface designed for mass spectrometers, optimized for breath analysis. It also offers a unique capability for clinical and toxicology laboratories, the ability to analyze nonvolatile species in breath.
Scope: Our client had a scientific team and a vision for the technology. We translated their concepts into engineered prototypes and collaborated closely to validate the science. The engineering involved temperature control, ionization, fluidic and gas flow regulation, precision mechanics, power electronics, geometry optimization, and seamless integration with a mass spectrometer. Through multiple iterations and extensive experimentation, we refined the design and functionality, leading to a breakthrough product that became a core part of the client’s technology portfolio.
Main Processing Board
Main Processing Board
Main Processing Board
This PCB includes processing & connectivity, power distribution, battery charger, analog and digital circuits to sense and control actuators on a portable device.
Scope: From concept to production of 20 units, we managed every stage of development, including component selection, schematic and PCB design, and subcontracting a rush order for fully assembled boards. Rigorous testing and validation ensured seamless functionality before deployment.
This PCB includes processing & connectivity, power distribution, battery charger, analog and digital circuits to sense and control actuators on a portable device.
Scope: From concept to production of 20 units, we managed every stage of development, including component selection, schematic and PCB design, and subcontracting a rush order for fully assembled boards. Rigorous testing and validation ensured seamless functionality before deployment.
This PCB includes processing & connectivity, power distribution, battery charger, analog and digital circuits to sense and control actuators on a portable device.
Scope: From concept to production of 20 units, we managed every stage of development, including component selection, schematic and PCB design, and subcontracting a rush order for fully assembled boards. Rigorous testing and validation ensured seamless functionality before deployment.
Industrial Food Dispensing Machine
Industrial Food Dispensing Machine
Industrial Food Dispensing Machine
Proof of concept ingredient dispensing machine for food packing and meal prep operations. Alpha prototype validated.
Scope: feasibility study, proof of concept renderings, Alpha prototype development for customer presentation, developed the core "Ingredient agnostic" technology.
Proof of concept ingredient dispensing machine for food packing and meal prep operations. Alpha prototype validated.
Scope: feasibility study, proof of concept renderings, Alpha prototype development for customer presentation, developed the core "Ingredient agnostic" technology.
Proof of concept ingredient dispensing machine for food packing and meal prep operations. Alpha prototype validated.
Scope: feasibility study, proof of concept renderings, Alpha prototype development for customer presentation, developed the core "Ingredient agnostic" technology.
