This Lithium Ion Capacitor solar charger is designed to replace primary cells and power low current devices like sensor nodes that consume around 200µA on average. We have two versions, the C116 with a linear regulator and the C117 with the e-Peas AEM10941 energy harvesting chip, which replaces primary cells with an energy harvesting solution to last 10+ years. Includes a 250F Lithium Ion Capacitor and has an unregulated 2.5 - 3.8V output.
The C116 Base system includes:
- 0.3 Watt, 6 Volt Solar Panel Mounted on Enclosure
- 250F Lithium Ion Capacitor solar charger with 2.5 - 3.8V unregulated output
- IP67 ASA Waterproof Enclosure with Pole Mount Attachments
The C117 Base system includes:
- 0.3 Watt, 2 Volt Solar Panel Mounted on Enclosure
Size and Weight
- Solar Panel: 52 x 52 x 3mm
- Lithium Ion Capacitor: 20 x 65 x 15mm
- Enclosure: 100 x 100 x 40mm
- Total Weight: 150g
Output
- Unregulated Voltage Output: 2.5 - 3.8V
- Maximum Output Current: 750mA
- Minimum voltage in: 4.5V
- Maximum voltage in: 16V
- Maximum input current: 0.25A
- Input / Output connectors: JST PH 2.0mm
Safety and Performance
- Temperature range: -25°C to 85°C
- Protections: Over temperature, under temperature, short circuit, over voltage, under voltage
- Cycle Life: 50,000 Rating
Solar Panel Options
- P122 - 0.3 Watt, 6 Volt ETFE Laminate Panel
- P121 - 0.3 Watt 2 Volt ETFE Laminate Panel - with the e-PEAS
Expected power output varies based on time of year, local weather conditions, orientation of panel, and shading factors.
Enclosure Options
- E311 - Micro Solar Ready Enclosure
Storage
- Vinatech 250F VEL13353R8257G Lithium Ion Capacitor
Other Included Items
- Vent on Enclosure
- PG9 Output Gland for Power or Sensor
Expected Applications
- Level Sensing
- Asset Tracking
- Soil Moisture Monitoring
- Parking Sensors
This Lithium Ion Capacitor solar charger is designed to replace primary cells and power low current devices like sensor nodes that consume around 200µA on average. We have two versions, the C116 with a linear regulator and the C117 with the e-Peas AEM10941 energy harvesting chip, which replaces primary cells with an energy harvesting solution to last 10+ years. Includes a 250F Lithium Ion Capacitor and has an unregulated 2.5 - 3.8V output.
The C116 Base system includes:
- 0.3 Watt, 6 Volt Solar Panel Mounted on Enclosure
- 250F Lithium Ion Capacitor solar charger with 2.5 - 3.8V unregulated output
- IP67 ASA Waterproof Enclosure with Pole Mount Attachments
The C117 Base system includes:
- 0.3 Watt, 2 Volt Solar Panel Mounted on Enclosure
Size and Weight
- Solar Panel: 52 x 52 x 3mm
- Lithium Ion Capacitor: 20 x 65 x 15mm
- Enclosure: 100 x 100 x 40mm
- Total Weight: 150g
Output
- Unregulated Voltage Output: 2.5 - 3.8V
- Maximum Output Current: 750mA
- Minimum voltage in: 4.5V
- Maximum voltage in: 16V
- Maximum input current: 0.25A
- Input / Output connectors: JST PH 2.0mm
Safety and Performance
- Temperature range: -25°C to 85°C
- Protections: Over temperature, under temperature, short circuit, over voltage, under voltage
- Cycle Life: 50,000 Rating
Solar Panel Options
- P122 - 0.3 Watt, 6 Volt ETFE Laminate Panel
- P121 - 0.3 Watt 2 Volt ETFE Laminate Panel - with the e-PEAS
Expected power output varies based on time of year, local weather conditions, orientation of panel, and shading factors.
Enclosure Options
- E311 - Micro Solar Ready Enclosure
Storage
- Vinatech 250F VEL13353R8257G Lithium Ion Capacitor
Other Included Items
- Vent on Enclosure
- PG9 Output Gland for Power or Sensor
Expected Applications
- Level Sensing
- Asset Tracking
- Soil Moisture Monitoring
- Parking Sensors
1 Review
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0.3 WATT 3.3 VOLT SOLAR POWER SYSTEM
Posted by Claus KühnelSolar-powered LiPo battery as power supply for IoT node. A very comfortable case with the required add-ons for placing outside.