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Details
| Topologie | Aufwärtswandler |
| Eingangsspannung | 0.02 V |
| Ausgang 1 | 2.35 V |
| Ausgang 2 | 4.1 V |
| Ausgang 3 | 5 V |
| Ausgang 4 | 3.3 V |
| IC-Revision | B |
Beschreibung
The LTC®3109 is a highly integrated DC/DC converter ideal for harvesting surplus energy from extremely low input voltage sources such as TEGs (thermoelectric generators) and thermopiles. Its unique, proprietary autopolarity topology* allows it to operate from input voltages as lowas 30mV, regardless of polarity.Using two compact step-up transformers and external energy storage elements, the LTC3109 provides a complete power management solution for wireless sensing and data acquisition. The 2.2V LDO can power an externalmicroprocessor, while the main output can be programmed to one of four fixed voltages. The power good indicator signals that the main output is within regulation. A second output can be enabled by the host. A storage capacitor (or battery) can also be charged to provide power when theinput voltage source is unavailable. Extremely low quiescent current and high efficiency maximizes the harvested energy available for the application.The LTC3109 is available in a small, thermally enhanced 20-lead (4mm × 4mm) QFN package and a 20-lead SSOP package.
Eigenschaften
- Operates from Inputs as Low as ±30mV
- Less Than ±1°C Needed Across TEG to Harvest Energy
- Proprietary Auto-Polarity Architecture
- Complete Energy Harvesting Power Management System
- Selectable VOUT of 2.35V, 3.3V, 4.1V or 5V
- 2.2V, 5mA LDO
- Logic-Controlled Output
- Energy Storage Capability for Operation During Power Interruption
- Power Good Indicator
- Uses Compact Step-up Transformers
- Small, 20-lead (4mm × 4mm) QFN Package or 20-Lead SSOPREMARKS:-ReferTable 5.Recommended TransformersPage no.15
Typische Anwendungen
- Radio Power
- Automatic Metering
- Building Automation
- Industrial Wireless Sensing
- HVAC Systems
- Remote Sensor
Weiterführende Informationen
Artikeldaten
Artikel Nr. | Datenblatt | Downloads | Status | Produktserie | L1(µH) | L2(µH) | n | IR 1(A) | ISAT1(A) | RDC1 typ(Ω) | RDC2 typ(Ω) | RDC1 max(Ω) | RDC2 max(Ω) | Muster | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
 | WE-EHPI Energy Harvesting Doppeldrossel, 7 µH, 70000 µH | Status Aktivi| Produktion ist aktiv. Erwartete Lebenszeit: >10 Jahre. | ProduktserieWE-EHPI Energy Harvesting Doppeldrossel | Induktivität 17 µH | Induktivität 270000 µH | Übersetzungsverhältnis1 : 100 | Nennstrom 11.9 A | Sättigungsstrom 11.3 A | Gleichstromwiderstand 10.085 Ω | Gleichstromwiderstand 2205 Ω | Gleichstromwiderstand 10.095 Ω | Gleichstromwiderstand 2240 Ω | |||
| WE-EHPI Energy Harvesting Doppeldrossel, 13 µH, 33000 µH | Status Aktivi| Produktion ist aktiv. Erwartete Lebenszeit: >10 Jahre. | ProduktserieWE-EHPI Energy Harvesting Doppeldrossel | Induktivität 113 µH | Induktivität 233000 µH | Übersetzungsverhältnis1 : 50 | Nennstrom 11.7 A | Sättigungsstrom 11 A | Gleichstromwiderstand 10.09 Ω | Gleichstromwiderstand 2135 Ω | Gleichstromwiderstand 10.1 Ω | Gleichstromwiderstand 2155 Ω | |||
| WE-EHPI Energy Harvesting Doppeldrossel, 25 µH, 10000 µH | Status Aktivi| Produktion ist aktiv. Erwartete Lebenszeit: >10 Jahre. | ProduktserieWE-EHPI Energy Harvesting Doppeldrossel | Induktivität 125 µH | Induktivität 210000 µH | Übersetzungsverhältnis1 : 20 | Nennstrom 11.5 A | Sättigungsstrom 10.7 A | Gleichstromwiderstand 10.2 Ω | Gleichstromwiderstand 242 Ω | Gleichstromwiderstand 10.24 Ω | Gleichstromwiderstand 248 Ω |