TCV7107F Datasheet, PDF(1/17 Page) Toshiba Semiconductor

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TCV7107F Datasheet, PDF (1/17 Pages) Toshiba Semiconductor – Buck DC-DC Converter IC

TOSHIBA CMOS Integrated Circuit Silicon Monolithic

TCV7107F

Buck DC-DC Converter IC

The TCV7107F is a single-chip buck DC-DC converter IC.

The TCV7107F contains high-speed and low-on-resistance power

MOSFETs for the main switch and has switchable operation mode,

synchronous and non-synchronous. So the TCV7107F can achieve high

efficiency in the large load current range.

Features

ï· Enables up to 3A (@ VIN = 5V) ï¼2.5A (@ VIN = 3.3V) of load

current (IOUT) with a minimum of external components.

ï· High efficiency: ï¨ = 95% (typ.)

HSON8-P-0505-1.27

Weight: 0.068 g (typ.)

(synchronous mode @VIN = 5V, VOUT = 3.3V, IOUT = 0.7A)

ï· High efficiency in the large load current range is realized because of switchable operation mode, synchronous and

non-synchronous.

ï· Operating voltage range: VIN = 2.7V to 5.6V

ï· Low ON-resistance: RDS (ON) = 0.18â¦ (high side) ï¯ 0.12â¦ (low-side) typical (@VIN = 5V, Tj = 25Â°C)

ï· Oscillation frequency: fOSC = 550kHz (typ.)

ï· Feedback voltage: VFB = 0.8V Â± 1% (@Tj = 0 to 85Â°C)

ï· Uses internal phase compensation to achieve high efficiency with a minimum of external components.

ï· Allows the use of a small surface-mount ceramic capacitor as an output filter capacitor.

ï· Housed in a small surface-mount package (SOP Advance) with a low thermal resistance.

Part Marking

TCV

7107F

Pin Assignment

Part Number (or abbreviation code)

LX EN MODE VFB

Lot No.

The dot (ï·) on the top surface indicates pin 1.

PGND VIN1 VIN2 SGND

The lot number consists of three digits. The first digit represents the last digit of the year of manufacture, and the

following two digits indicates the week of manufacture between 01 and either 52 or 53.

Manufacturing week code

(The first week of the year is 01; the last week is 52 or 53.)

Manufacturing year code (last digit of the year of manufacture)

This product has a MOS structure and is sensitive to electrostatic discharge. Handle with care.

The product(s) in this document (âProductâ) contain functions intended to protect the Product from temporary

small overloads such as minor short-term overcurrent, or overheating. The protective functions do not necessarily

protect Product under all circumstances. When incorporating Product into your system, please design the system to

avoid such overloads upon the Product, and to shut down or otherwise relieve the Product of such overload

conditions immediately upon occurrence. For details, please refer to the notes appearing below in this document and

other documents referenced in this document.

2011-11-05

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