Datasheet Texas Instruments TLV61220
Manufacturer | Texas Instruments |
Series | TLV61220 |
Low Input Voltage Step-UP Converter in 6 pin TSOT-23 package
Datasheets
TLV61220 Low-Input Voltage Step-Up Converter in Thin SOT-23 Package datasheet
PDF, 1.6 Mb, Revision: A, File published: Dec 29, 2014
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Status
TLV61220DBVR | TLV61220DBVT | |
---|---|---|
Lifecycle Status | Active (Recommended for new designs) | Active (Recommended for new designs) |
Manufacture's Sample Availability | No | Yes |
Packaging
TLV61220DBVR | TLV61220DBVT | |
---|---|---|
N | 1 | 2 |
Pin | 6 | 6 |
Package Type | DBV | DBV |
Industry STD Term | SOT-23 | SOT-23 |
JEDEC Code | R-PDSO-G | R-PDSO-G |
Package QTY | 3000 | 250 |
Carrier | LARGE T&R | SMALL T&R |
Device Marking | VUAI | VUAI |
Width (mm) | 1.6 | 1.6 |
Length (mm) | 2.9 | 2.9 |
Thickness (mm) | 1.2 | 1.2 |
Pitch (mm) | .95 | .95 |
Max Height (mm) | 1.45 | 1.45 |
Mechanical Data | Download | Download |
Parametrics
Parameters / Models | TLV61220DBVR | TLV61220DBVT |
---|---|---|
Duty Cycle(Max), % | 90 | 90 |
Iq(Typ), mA | 0.005 | 0.005 |
Operating Temperature Range, C | -40 to 85 | -40 to 85 |
Package Group | SOT-23 | SOT-23 |
Rating | Catalog | Catalog |
Regulated Outputs | 1 | 1 |
Special Features | Enable,Light Load Efficiency | Enable,Light Load Efficiency |
Switch Current Limit(Min), A | 0.2 | 0.2 |
Switch Current Limit(Typ), A | 0.4 | 0.4 |
Switching Frequency(Max), kHz | 2000 | 2000 |
Switching Frequency(Min), kHz | 500 | 500 |
Type | Converter | Converter |
Vin(Max), V | 5.5 | 5.5 |
Vin(Min), V | 0.7 | 0.7 |
Vout(Max), V | 5.5 | 5.5 |
Vout(Min), V | 1.8 | 1.8 |
Eco Plan
TLV61220DBVR | TLV61220DBVT | |
---|---|---|
RoHS | Compliant | Compliant |
Application Notes
- Calculating and Measuring the No Load Input Current of the Boost ConverterPDF, 143 Kb, File published: Sep 23, 2016
- How to Select a Proper Inductor for Low Power Boost ConverterPDF, 120 Kb, File published: Jun 3, 2016
- Accurately measuring efficiency of ultralow-IQ devicesPDF, 254 Kb, File published: Jan 22, 2014
- Automated Frequency Response AnalyzerPDF, 939 Kb, File published: Oct 9, 2013
This application report discusses a new method of doing stability Analysis testing by using basic labequipment, while not requiring any specific instruments. - Five Steps to a Good PCB Layout of the Boost ConverterPDF, 701 Kb, File published: May 3, 2016
- Minimizing Ringing at the Switch Node of a Boost ConverterPDF, 201 Kb, File published: Sep 15, 2006
The application report explains how to use proper board layout and/or a snubber to reduce high-frequency ringing at the switch node of a boost converter. - Design considerations for a resistive feedback divider in a DC/DC converterPDF, 393 Kb, File published: Apr 26, 2012
- Basic Calculation of a Boost Converter's Power Stage (Rev. C)PDF, 186 Kb, Revision: C, File published: Jan 8, 2014
This application note gives the equations to calculate the power stage of a boost converter built with an IC with integrated switch and operating in continuous conduction mode. It is not intended to give details on the functionality of a boost converter (see Reference 1) or how to compensate a converter. See the references at the end of this document if more detail is needed. - Optimizing Transient Response of Internally Compensated DC-DC Converters (Rev. A)PDF, 1.1 Mb, Revision: A, File published: May 11, 2015
- Extending the Soft Start Time Without a Soft Start Pin (Rev. B)PDF, 387 Kb, Revision: B, File published: Jun 15, 2017
- IQ: What it is what it isn’t and how to use itPDF, 198 Kb, File published: Jun 17, 2011
- Performing Accurate PFM Mode Efficiency Measurements (Rev. A)PDF, 418 Kb, Revision: A, File published: Dec 11, 2018
When performing measurements on DC-DC converters using pulse frequency modulation(PFM)or any power save mode proper care must be taken to ensure that the measurements are accurate. An accurate PFM mode efficiency measurement is critical for systems which require high efficiency at low loads such as in smart home systems tablets wearables and metering.
Model Line
Series: TLV61220 (2)
Manufacturer's Classification
- Semiconductors> Power Management> Non-isolated DC/DC Switching Regulator> Step-Up (Boost)> Boost Converter (Integrated Switch)