onsemi RSL10 Multi-Protocol BLUETOOTH® System-in-Package
onsemi RSL10 Multi-Protocol BLUETOOTH® 5 System-In-Package (SiP) is a complete solution that provides an easy way to integrate Bluetooth Low Energy (BLE) technology into a wireless application. The RSL10 SiP integrates the RSL10 SoC, an onboard antenna, and all necessary passive components in one package to help minimize overall system size. Already fully qualified to FCC, CE, and other regulatory standards, the onsemi RSL10 Multi-Protocol BLUETOOTH 5 System-In-Package (SiP) removes the need for additional antenna design considerations or RF certifications.Features
- Fully certified to worldwide regulatory standards
- BLUETOOTH 5
- QDID
- Declaration ID
- FCC, CE, IC, MIC, KC
- Ultra-low power:
- 5.6mA (1.25V VBAT) peak Rx current
- 3.0mA (3V VBAT) peak Rx current
- 8.9mA (1.25V VBAT) peak Tx current (0dBm)
- 4.6mA (3V VBAT) peak Tx current (0dBm)
- Deep sleep current consumption (1.25V VBAT):
- 50nA deep sleep, IO wake−up
- 300nA deep sleep, 8kB RAM retention
- Current consumption (3V VBAT):
- 25nA deep sleep, IO wake-up
- 100nA deep sleep, 8kB RAM retention
- 1090 EEMBC ULPMark core profile (3.0V)
- 1360 EEMBC ULPMark core profile (2.1V)
- Complete solution
- RSL10 radio SoC
- Fully-integrated antenna
- All passive components
- Advanced multi-protocol wireless functionality
- Supports BLUETOOTH low energy and 2.4GHz proprietary/custom protocols
- -94dBM Rx sensitivity
- -17dBm to +6dBm transmitting power
- Supports Firmware Over The Air (FOTA)
- Built-in power management
- Advanced dual-core architecture
- 1.1V to 3.3V supply range
- 384kB flash, 76kB program memory, 88kB data memory
- IP protection feature to secure flash contents
- Configurable analog and digital sensor interfaces (GPIOs, LSADs, I2C, SPI, PCM)
Applications
- IoT edge-node applications
- Bluetooth low energy technology
- Energy harvesting
- Wearables
- Fitness and trackers
- Wellness monitors
- Smart matches
- Smart locks
- Appliances
- Lighting applications
Videos
Block Diagram
Published: 2018-07-17
| Updated: 2023-01-26