TLE 6368G1 Infineon Technologies, TLE 6368G1 Datasheet - Page 53

TLE 6368G1

Manufacturer Part Number

TLE 6368G1

Description

Manufacturer

Infineon Technologies

Datasheet

1.TLE_6368G1.pdf (59 pages)

Specifications of TLE 6368G1

Packages

P-DSO-36

Comment

Successor: TLE6368G2

Vq (max)

5.0 V, 3.3/2.6 V, 3.3/2.6 V

Iq (max)

1,500.0 mA

Iq (typ)

30.0 µA

Output

Linear (Buck Preregulator)

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5.2.5

The voltage at the Bootstrap capacitor does not exceed 15V, a ceramic type with a

minimum of 2% of the buck output capacitance and voltage class 16V would be

sufficient.

5.2.6

Out of the feedback voltage the charge pump generates a voltage between 8 and 10V.

The fly capacitor connected between C+ and C- is charged with the feedback voltage

level and discharged to achieve the (almost) double voltage level at CCP. C

to 100nF and C

The connection of CCP to a voltage source of e.g. 7V (take care of the maximum

ratings!) via a diode improves the start-up behavior at very low battery voltage. The diode

with the cathode on CCP has to be used in order to avoid any influence of the voltage

source to the device’s operation and vice versa.

5.2.7

At the input of Buck converters a square wave current is observed causing

electromagnetical interference on the battery line. The emission to the battery line

consists on one hand of components of the switching frequency (fundamental wave) and

its harmonics and on the other hand of the high frequency components derived from the

current slope. For proper attenuation of those interferers a -type input filter structure is

recommended which is built up with inductive (L

higher values might not be necessary, C

input capacitance with very low ESR should be chosen and placed as close to the input

of the Buck converter as possible.

Inexpensive input filters show due to their parasitics a notch filter characteristic, which

means basically that the lowpass filter acts from a certain frequency as a highpass filter

and means further that the high frequency components are not attenuated properly. For

that reason the TLE 6368 G1 / SONIC offers the possibility of current slope adjustment.

The current transition time can be set by the external resistor (located on the SLEW pin)

to times between 20ns and 80ns by varying the resistor value between 0

transition) and 20k (slowest transition).

5.2.8

To decrease the switching losses to a minimum the external components R

and D

where the Diode D

If this feature is not needed the three components are not needed and the Boost pin (33)

can be connected directly to the IN pins(32, 30).

Data Sheet

). The inductance can be chosen up to the value of the Buck converter inductance,

Boost

Bootstrap capacitor (C

External charge pump capacitors (C

Input filter components for reduced EME (C

Feedback circuit for minimum switching loss (R

are needed. The current though the feedback resistor R

CCP

Boost

to 220nF, both ceramic types.

and the capacitor C

BTP

)

and C

Boost

FLY

run a part of the load current.

) and capacitive components (C

should be ceramic types and for C

, C

CCP

)

, C

Boost

, C

, L

Boost

Rev. 2.2, 2006-12-01

TLE 6368 / SONIC

Boost

, R

is about a few mA

, D

Slew

Boost

FLY

)

Boost

)

is chosen

(fastest

, C

Boost

TLE 6368G1 Infineon Technologies, TLE 6368G1 Datasheet - Page 53

TLE 6368G1

Specifications of TLE 6368G1

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