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sensor:energy_harvesting [2025/02/19 19:40] – [LTC-3588 Nanopower Energy Harvesting Power Supply] vamsansensor:energy_harvesting [2025/02/19 22:02] (current) – [Typical application] vamsan
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 One of the first examples of ambient energy being used to produce electricity was the successful use of electromagnetic radiation (EMR) to generate the crystal radio. One of the first examples of ambient energy being used to produce electricity was the successful use of electromagnetic radiation (EMR) to generate the crystal radio.
  
-==== LTC-3588 Nanopower Energy Harvesting Power Supply ====+===== LTC-3588 Nanopower Energy Harvesting Power Supply =====
 {{anchor:ltc_3588}} {{anchor:ltc_3588}}
 +{{ :sensor:ltc_3588_1.png|LTC-3588}}
 The **LTC®3588-1** integrates a low-loss full-wave bridge rectifier with a high efficiency buck converter to form a complete energy harvesting solution optimized for high output impedance energy sources such as piezoelectric, solar, or magnetic transducers. An **ultralow quiescent current undervoltage lockout** (//UVLO//) mode with a wide hysteresis window allows charge to accumulate on an input capacitor until the buck converter can efficiently transfer a portion of the stored charge to the output.  The **LTC®3588-1** integrates a low-loss full-wave bridge rectifier with a high efficiency buck converter to form a complete energy harvesting solution optimized for high output impedance energy sources such as piezoelectric, solar, or magnetic transducers. An **ultralow quiescent current undervoltage lockout** (//UVLO//) mode with a wide hysteresis window allows charge to accumulate on an input capacitor until the buck converter can efficiently transfer a portion of the stored charge to the output. 
  
-{{ :sensor:ltc_3588_1.png?400|LTC-3588}} 
 In regulation, the LTC3588-1 enters a sleep state in which both input and output quiescent currents are minimal. The buck converter turns on and off as needed to maintain regulation. Four output voltages, 1.8V, 2.5V, 3.3V and 3.6V, are pin selectable with up to 100mA of continuous output current; however, the output capacitor may be sized to service a higher output current burst.  In regulation, the LTC3588-1 enters a sleep state in which both input and output quiescent currents are minimal. The buck converter turns on and off as needed to maintain regulation. Four output voltages, 1.8V, 2.5V, 3.3V and 3.6V, are pin selectable with up to 100mA of continuous output current; however, the output capacitor may be sized to service a higher output current burst. 
  
 An input protective shunt set at 20V enables greater energy storage for a given amount of input capacitance. An input protective shunt set at 20V enables greater energy storage for a given amount of input capacitance.
  
 +===== Typical application =====
 +{{ :sensor:ltc_3588_2.png |LTC-3588 typical application}}
  
- +More information: https://www.analog.com/en/products/ltc3588-1.html
- +
-Description[[https://www.yunzhan365.com/basic/83969503.html|YR-3180 Intelligent weighing sensor module]] \\+
  
 ===== Sensor topics on lamaPLC ===== ===== Sensor topics on lamaPLC =====
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-{{tag>communication modbus RTU sensor weight YR-3180 Arduino TTL }}+{{tag>communication Arduino sensor energy_harvesting energy ambient_power}}
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