TPS63060DSCT


YeeHing #: Y012-TPS63060DSCT
Inventory: 8400

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Description

TPS63060DSCT Texas Instruments - Yeehing Electronics

2.5V to 12V input voltage, 93% Efficient, 2.25A Switch Current Limit, Buck-Boost Converter

Pricing (USD)

Quantity Unit Price
1 — 99 2.196
100 — 249 1.924
250 — 999 1.349
1,000 + 0.76

The above prices are for reference only.

Specifications

Manufacturer Texas Instruments
Product Category Switching Voltage Regulators
RoHS Y
Mounting Style SMD/SMT
Package / Case WSON-10
Output Voltage 2.5 V to 8 V
Output Current 2.25 A
Number of Outputs 1 Output
Input Voltage MAX 12 V
Topology Boost, Buck
Input Voltage MIN 2.5 V
Switching Frequency 2.4 MHz
Minimum Operating Temperature - 40 C
Maximum Operating Temperature + 85 C
Series TPS63060
Packaging Reel
Input Voltage 2.5 V to 12 V
Operating Temperature Range - 40 C to + 85 C
Product Voltage Regulators
Type Voltage Converter
Brand Texas Instruments
Development Kit TPS63060EVM-619
Moisture Sensitive Yes
Operating Supply Current 30 uA
Product Type Switching Voltage Regulators
Factory Pack Quantity 250
Subcategory PMIC - Power Management ICs
Unit Weight 0.000631 oz

For more information, please refer to datasheet

Documents

TPS63060DSCT Datasheet

More Information

The TPS6306x devices provide a power supply solution for products powered by either three-cell up to six-cell alkaline, NiCd or NiMH battery, or a one-cell or dual-cell Li-Ion or Li-polymer battery. Output currents can go as high as 2 A while using a dual-cell Li-Ion or Li-polymer battery, and discharge to 5 V or lower. The buck-boost converter is based on a fixed frequency, pulse width modulation (PWM) controller using synchronous rectification to obtain maximum efficiency. At low load currents, the converter enters power save mode to maintain high efficiency over a wide load current range. The power save mode can be disabled, forcing the converter to operate at a fixed switching frequency. The maximum average current in the switches is limited to a typical value of 2.25 A. The output voltage is programmable using an external resistor divider, or is fixed internally on the chip. The converter can be disabled to minimize battery drain. During shutdown, the load disconnects from the battery.

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