TLE6389G 50-1 Infineon Technologies, TLE6389G 50-1 Datasheet - Page 20

TLE6389G 50-1

Manufacturer Part Number

TLE6389G 50-1

Description

IC CONV DC/DC BUCK PDSO-14

Manufacturer

Infineon Technologies

Type

Step-Down (Buck), Step-Up (Boost)r

Datasheet

1.TLE6389G_50.pdf (23 pages)

Specifications of TLE6389G 50-1

Internal Switch(s)

Yes

Synchronous Rectifier

Number Of Outputs

Voltage - Output

Current - Output

Frequency - Switching

360kHz

Voltage - Input

5 ~ 60 V

Operating Temperature

-40°C ~ 150°C

Mounting Type

Surface Mount

Package / Case

DSO-14

Output Voltage

5 V

Output Current

3 A

Input Voltage

5 V to 60 V

Mounting Style

SMD/SMT

Maximum Operating Temperature

+ 125 C

Minimum Operating Temperature

- 40 C

For Use With

DEMOBOARDTLE6389-3GV50IN - BOARD DEMO FOR TLE 6389-3 GV50DEMOBOARDTLE6389-2GVIN - BOARD DEMO FOR TLE 6389-2GVDEMOBOARDTLE6389-2GV50IN - BOARD DEMO FOR TLE 6389-2 GV50

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Power - Output

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

SP000015001
TLE6389G501NT
TLE6389G501T

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Target Datasheet Rev. 1.7

4.5

The device’s typical quiescent current is 50µA. However, actual applications draw

additional current to supply MOSFET switching currents, FB pin current, or external

feedback resistors (if used), and both the diode and capacitor leakage currents. For

example, with VS at 13.5V and VOUT at 5V, typical no-load supply current for the entire

circuit is TBDµA. When designing a circuit for high-temperature operation, select a

Schottky diode with low reverse leakage.

5.1

Select an output voltage between 5V and 15V by connecting FB to a resistor-divider

between the output and GND. Select feedback resistor R2 in the 5k

R1 is then given by:

R1 = R2 [(VOUT / VFB) - 1]

where VFB = 1.25V. Add a small ceramic capacitor around 47pF to 100pF in parallel

with R1 to compensate for stray capacitance at the FB pin and output capacitor

equivalent series resistance (ESR).

5.2

Choose input- and output-filter capacitors to service inductor currents with acceptable

voltage ripple. The input-filter capacitor also reduces peak currents and noise at the

voltage source. In addition, connect a low-ESR bulk capacitor (>10µF suggested) to the

input. Select this bulk capacitor to meet the input ripple requirements and voltage rating,

rather than capacitor size. Use the following equation to calculate the maximum RMS

input current:

IRMS = IOUT[VOUT (VIN - VOUT)]1/2 · VIN

it as the product of the ripple current and the ESR of the output capacitor.

VRIPPLE = [VOUT (VIN - VOUT)] / [2 · fOSC(L) (VIN)] · ESRCOUT

values of COUT provide improved output ripple and transient response. Lower oscillator

frequencies require a larger-value output capacitor. Verify capacitor selection with light

loads during PFM operation, since output ripple is higher under these conditions. Low-

ESR capacitors are recommended. Capacitor ESR is a major contributor to output ripple

(usually more than 60%). Ordinary aluminum-electrolytic capacitors have high ESR and

should be avoided. Low-ESR aluminum-electrolytic capacitors are acceptable and

relatively inexpensive. Low-ESR tantalum capacitors are better and provide a compact

When selecting an output capacitor, consider the output- ripple voltage and approximate

where ESRCOUT is the equivalent-series resistance of the output capacitor. Higher

Quiescent Current

Application Information

Output Voltage Selection (TLE6389GV only)

Output Capacitor Selection

to 500k

TLE 6389

2001-09-17

range.

TLE6389G 50-1 Infineon Technologies, TLE6389G 50-1 Datasheet - Page 20

TLE6389G 50-1

Specifications of TLE6389G 50-1

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