egrabau
New member
- Location
- Provo, UT, USA
Hello all!
I am the lead engineer at an innovative start-up company. We are looking to hire a computer or electrical engineer who can improve upon our current early stage prototype to get it ready for manufacturing. We are currently using an Arduino Nano with some off the shelf peripheral components for our sensor, and a Raspberry Pi board for our base station. The Aruino communicates with the Raspberry pi using Zigbee Radio frequency. The tasks we need would include the following:
1) Create a breadboard prototype of our current system with the individual components of each. For example, use an Atmel 8 bit microprocessor in line with all the resistors and capacitors we need to run the circuit without the Arduino Nano board. The same would go for the raspberry pi board.
2) Add in power management components for the Arduino (our goal is to get at least 6 month battery life for the sensor)
3) Choose the right peripheral components that will reduce cost and fit our specs for the final prototype.
4) Write the firmware for the system with the new peripherals.
5) Layout custom pcb's for the sensor and the base station, and design them for ICT.
6) Create a transferable document that we can send off to our manufacturer.
We can pay competitively for your service. Please contact me if you are interested in the job.
I am the lead engineer at an innovative start-up company. We are looking to hire a computer or electrical engineer who can improve upon our current early stage prototype to get it ready for manufacturing. We are currently using an Arduino Nano with some off the shelf peripheral components for our sensor, and a Raspberry Pi board for our base station. The Aruino communicates with the Raspberry pi using Zigbee Radio frequency. The tasks we need would include the following:
1) Create a breadboard prototype of our current system with the individual components of each. For example, use an Atmel 8 bit microprocessor in line with all the resistors and capacitors we need to run the circuit without the Arduino Nano board. The same would go for the raspberry pi board.
2) Add in power management components for the Arduino (our goal is to get at least 6 month battery life for the sensor)
3) Choose the right peripheral components that will reduce cost and fit our specs for the final prototype.
4) Write the firmware for the system with the new peripherals.
5) Layout custom pcb's for the sensor and the base station, and design them for ICT.
6) Create a transferable document that we can send off to our manufacturer.
We can pay competitively for your service. Please contact me if you are interested in the job.
