Heltec STM32L151CCU6 + SX1276 LoRaWAN Node Ultra-low Power Module Support 2AA Lithium Sub Battery Power Supply

Heltec STM32L151CCU6 + SX1276 LoRaWAN Node Ultra-low Power Module Support 2AA Lithium Sub Battery Power Supply
Heltec STM32L151CCU6 + SX1276 LoRaWAN Node Ultra-low Power Module Support 2AA Lithium Sub Battery Power Supply Heltec STM32L151CCU6 + SX1276 LoRaWAN Node Ultra-low Power Module Support 2AA Lithium Sub Battery Power Supply Heltec STM32L151CCU6 + SX1276 LoRaWAN Node Ultra-low Power Module Support 2AA Lithium Sub Battery Power Supply



Feature:

-CE Certificate;
-Microprocessor: STM32L151CCU6(ARM® Cortex®-M3 32-bit RISC core,support DFU mode) , with LoRa® node chip SX1276/SX1278;
-Onboard user resources available: 256 Kbytes of Flash memory with ECC; 32 Kbytes of RAM; 8 Kbytes of true EEPROM with ECC; 128-byte backup register.
-Micro USB interface with a complete voltage regulator, ESD protection, short circuit protection, and other protection measures;
-1/2 AA battery shell, use 1/2 AA Lithium chlorine sulfite battery (this battery can’t charge, but onboard USB / battery power automatic switching allows connect USB when the battery is assembled);
-Reserve SMA antenna interface for LoRa use
-Download the firmware via DFU or ST-LINK;
-Provide complete LoRaWAN(ClassA/C) source code(support ABP and OTAA);
-With good RF circuit design and basic low-power design (sleep current: 1.8uA), it is convenient for IoT application vendors to quickly verify solutions and deploy applications;

SourceParameter
MCUSTM32L151CCU6(Ultra-low-power 32-bit MCU ARM®-based Cortex®-M3)
LoRa chipSX1276/SX1278
LoRa bandsEU_433, CN_470_510, EU_863_870, US_902_928 four bands optional
LoRa maximum output power18dB ± 2dB
Hardware ResourceUSART x 3; SPI x 2; I2C x 2; I2S x 2; USB 2.0 x 1
12 – bits ADC; 12 – bits DAC
DMA controller
38 general GPIO
Flash256KB FLASH; 32KB SRAM; 8KB EEPROM; 128B BACKUP REGISTER
InterfaceMicro USB x 1; LoRa antenna(SMA) x 1
Size56.6 x 24 x 20 mm
battery type1/2 AA Lithium chlorine sulfite battery
Battery detection circuit
External device power control(Vext)
Low power designDeep Sleep: 2.5uA

Electrical characteristicsConditionMinimumTypicalMaximum
Power SupplyUSB powered(≥500mA)4.7V5V6V 
Lithium powered(≥250mA)3.3V3.6V4.2V
3.3V(pin)powered(≥150mA)2.7V3.3V3.5V
5V(pin)powered(≥500mA)4.7V5V6V
Power consumption(mA)LoRa 10dB emission  50mA  
LoRa 12dB emission  60mA  
LoRa 15dB emission  110mA  
LoRa 20dB emission  130mA  
Output3.3V pin output    500mA
5V pin output (USB powered only)  Equal to input current  
External device power control (Vext 3.3V)    350mA

Package includes:

1 x Power Supply Module

File support:

LoRa Node 151 Example Code: 
LoRa Node 151 basic hardware test example (only hardware layer LoRa signal send and receive, need at least two board to test): https://docs.heltec.cn/download/LoRa_Node_151_basic_hardware_test.zip
LoRa Node 151 didn’t have a UART-USB bridge, users can print data via virtual serial port, here is the project package: https://docs.heltec.cn/download/L151_USB.zip
 
How to Download Firmware into LoRa Node 151: 
 
STM32 Cube Programmer: 
ST provided writing and verifying device memory through both the debug interface (JTAG and SWD) and the bootloader interface (UART, USB DFU, I2C, SPI, and CAN): www.st.com/stm32cubeprog
 
LoRa Node 151 Pinout Diagram: 
 
Summary of Common Problems: 
 
AutoCAD: 
AutoCAD 2017 version drawding: docs.heltec.cn/download/LoRa_Node_151.dwg
 




















Heltec STM32L151CCU6 + SX1276 LoRaWAN Node Ultra-low Power Module Support 2AA Lithium Sub Battery Power Supply Buy Now