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| sensor:energy_harvesting [2025/02/19 21:54] – vamsan | sensor:energy_harvesting [2025/04/27 20:27] (current) – 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 Features ===== | ||
| + | **V< | ||
| + | **I< | ||
| + | **PZ1, PZ2:** 0V .. V< | ||
| + | **D0, D1:** –0.3V .. [Lesser of (V< | ||
| + | **CAP:** [Higher of –0.3V or (V< | ||
| + | **V< | ||
| + | **V< | ||
| + | **PGOOD:** –0.3V to Lesser of (V< | ||
| + | ===== Pin functions ===== | ||
| + | |||
| + | {{ : | ||
| + | |||
| + | * **PZ1 (Pin 1):** Input connection for piezoelectric element or other AC source (used in conjunction with PZ2). | ||
| + | * **PZ2 (Pin 2):** Input connection for piezoelectric element or other AC source (used in conjunction with PZ1). | ||
| + | * **CAP (Pin 3):** Internal rail referenced to VIN to serve as gate drive for buck PMOS switch. A 1µF capacitor should be connected between CAP and VIN. This pin is not intended for use as an external system rail. | ||
| + | * **VIN (Pin 4):** Rectified Input Voltage. A capacitor on this pin serves as an energy reservoir and input supply for the buck regulator. The VIN voltage is internally clamped to a maximum of 20V (typical). | ||
| + | * **SW (Pin 5):** Switch Pin for the Buck Switching Regulator. A 10µH or larger inductor should be connected from SW to VOUT. | ||
| + | * **VOUT (Pin 6):** Sense pin used to monitor the output voltage and adjust it through internal feedback. | ||
| + | * **VIN2 (Pin 7):** Internal low voltage rail to serve as gate drive for buck NMOS switch. Also serves as a logic high rail for output voltage select bits D0 and D1. A 4.7µF capacitor should be connected from VIN2 to GND. This pin is not intended for use as an external system rail. | ||
| + | * **D1 (Pin 8):** Output Voltage Select Bit. D1 should be tied high to VIN2 or low to GND to select desired VOUT (see Table 1). | ||
| + | * **D0 (Pin 9):** Output Voltage Select Bit. D0 should be tied high to VIN2 or low to GND to select desired VOUT (see Table 1). | ||
| + | * **PGOOD (Pin 10):** Power good output is logic high when VOUT is above 92% of the target value. The logic high is referenced to the VOUT rail. | ||
| + | * **GND (Exposed Pad Pin 11):** Ground. The Exposed Pad should be connected to a continuous ground plane on the second layer of the printed circuit board by several vias directly under the LTC3588-1. | ||
| ===== LTC-3588 Nanopower Energy Harvesting Power Supply ===== | ===== LTC-3588 Nanopower Energy Harvesting Power Supply ===== | ||
| {{anchor: | {{anchor: | ||
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| ===== Typical application ===== | ===== Typical application ===== | ||
| {{ : | {{ : | ||
| + | ==== LTC-3588 with Solar-Powered 2.5V Supply ==== | ||
| + | {{ : | ||
| + | 5V to 16V Solar-Powered 2.5V Supply with Supercapacitor for Increased Output Energy Storage and Battery Backup | ||
| + | ==== LTC-3588 with Thermoelectric ==== | ||
| + | {{ : | ||
| + | Thermoelectric Energy Harvester | ||
| + | ==== LTC-3588 with Piezoelectric ==== | ||
| + | {{ : | ||
| + | Piezoelectric Energy Harvester with ±3.3V Outputs | ||
| + | \\ | ||
| + | \\ | ||
| + | More information: | ||
| ===== Sensor topics on lamaPLC ===== | ===== Sensor topics on lamaPLC ===== | ||