TLE6389G 50-1 Infineon Technologies, TLE6389G 50-1 Datasheet - Page 18

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

Current page: 18 of 23
Download datasheet (122Kb)

Target Datasheet Rev. 1.7

4.1

4.1.1

The TLE6389 uses a slope-compensated, current-mode PWM controller capable of

achieving 100% duty cycle. The device uses an oscillator-triggered, minimum on-time,

current-mode control scheme. The minimum on-time is approximately 200ns unless in

dropout. The maximum on-time is greater than 1/fOSC, allowing operation to 100% duty

cycle. Current-mode feedback provides cycle-by-cycle current limiting for superior load-

and line-response and protection of the external MOSFET and rectifier diode. At each

falling edge of the internal oscillator, the oscillator cell sends a PWM ON signal to the

control and drive logic, turning on the external P-channel MOSFET. This allows current

to ramp up through the inductor to the load, and stores energy in a magnetic field. The

switch remains on until either the current-limit comparator is tripped or the PWM

comparator signals that the output is in regulation. When the switch turns off during the

second half of each cycle, the inductor’s magnetic field collapses, releasing the stored

energy and forcing current through the rectifier diode to the output-filter capacitor and

load. The output-filter capacitor stores charge when the inductor current is high and

releases it when the inductor current is low, thus smoothing the voltage across the load.

During normal operation, the TLE6389 regulates output voltage by switching at a

constant frequency and then modulating the power transferred to the load each cycle

using the PWM comparator. A multi-input comparator sums three weighted differential

signals: the output voltage with respect to the reference, the main switch current sense,

and the slope-compensation ramp. It modulates output power by adjusting the inductor-

peak current during the first half of each cycle, based on the output-error voltage.

4.1.2

The TLE6389 operates with a duty cycle up to 100%. This feature extends allows to

operate with the lowest possible drop at low battery voltage as it occurs at cold ambient

temperatures. The MOSFET is turned on continuously when the supply voltage

approaches the output voltage. This services the load when conventional switching

regulators with less than 100% duty cycle would fail. Dropout voltage is defined as the

difference between the input and output voltages when the input is low enough for the

output to drop out of regulation. Dropout depends on the MOSFET drain-to-source on-

resistance, current-sense resistor, and inductor series resistance, and is proportional to

the load current:

Dropout Voltage = I

Operating Modes

PWM Control Scheme

100% Duty-Cycle Operation and Dropout

OUT

x (R

DS(ON)

+ R

SENSE

+ R

INDUCTOR

)

TLE 6389

2001-09-17

TLE6389G 50-1 Infineon Technologies, TLE6389G 50-1 Datasheet - Page 18

TLE6389G 50-1

Specifications of TLE6389G 50-1

Related parts for TLE6389G 50-1