jgabcgr
Newbie level 4
This is a simple breakout board based on TI's CC1310.
It's a single chip cost-effective and ultra-low power solution of sub-1GHz and intended for IoT applications such as buildings automations and robust data broadcasting.
Incorporating a powerfull ARM Cortex-M3 up to 48MHz, a complete RF system, an on-chip DC to DC converted and a few peripherals that makes it capable of handling wide variety applications like temperature and humidity monitoring, remote control or any M2M communications.
The pcb is 4 layer and designed for as low as possible EMC emissions and contains very few passive components in order to be cheaper for developers. The pcb stack is considered to match the external antenna impedance at 50 ohms, after the balun. The balun placement has already reviewed by Johanson technology. The whole physical size ended up in very tiny dimensions.
Is not complete yet, and I haven’t built it either. I’m looking forward for your comments.
schematic and board
github: **broken link removed**
It's a single chip cost-effective and ultra-low power solution of sub-1GHz and intended for IoT applications such as buildings automations and robust data broadcasting.
Incorporating a powerfull ARM Cortex-M3 up to 48MHz, a complete RF system, an on-chip DC to DC converted and a few peripherals that makes it capable of handling wide variety applications like temperature and humidity monitoring, remote control or any M2M communications.
The pcb is 4 layer and designed for as low as possible EMC emissions and contains very few passive components in order to be cheaper for developers. The pcb stack is considered to match the external antenna impedance at 50 ohms, after the balun. The balun placement has already reviewed by Johanson technology. The whole physical size ended up in very tiny dimensions.
Is not complete yet, and I haven’t built it either. I’m looking forward for your comments.
schematic and board
github: **broken link removed**
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