DEMOBOARD TLE 6365 G Infineon Technologies, DEMOBOARD TLE 6365 G Datasheet
DEMOBOARD TLE 6365 G
Specifications of DEMOBOARD TLE 6365 G
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DEMOBOARD TLE 6365 G Summary of contents
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Step Down Voltage Regulator with Reset Features • Step down converter • Supply Over- and Under-Voltage-Lockout • Low Output voltage tolerance • Output Overvoltage Lockout • Output Under-Voltage-Reset with delay • Overtemperature Shutdown • Wide Ambient operation range -40 C ...
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Pin Configuration Figure 1 Pin Configuration (top view) Table 1 Pin Definitions and Functions Pin No. Symbol Function 1 R Reference Input; an external resistor from this pin to GND determines the reference current and so the oscillator / switching ...
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Block Diagram BUC Figure 2 Block Diagram Data Sheet Biasing V and REF 3 Buck Converter TLE 6365 G V Internal Reference Current Undervoltage 1 R Generator Reset and Generator Oscillator 4 GND 3 TLE 6365 6 ...
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Table 2 Absolute Maximum Ratings Parameter Voltages Supply voltage Buck output voltage Buck driver supply voltage Buck compensation input voltage Logic supply voltage Reset output voltage Current reference voltage ESD-Protection (Human Body Model; All pins to GND Temperatures Junction temperature ...
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Table 3 Operating Range Parameter Supply voltage Supply voltage Supply voltage Supply voltage Buck output voltage Buck driver supply voltage Buck compensation input voltage Logic supply voltage Reset output voltage Current reference voltage Junction temperature Thermal Resistance Junction ambient Data ...
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Table 4 Electrical Characteristics < < 4.75 V < S with respect to ground; positive current defined flowing into the pin; unless otherwise specified Parameter Symbol Current Consumption I Current consumption; see Figure 6 I ...
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Table 4 Electrical Characteristics (cont’ < < 4.75 V < S with respect to ground; positive current defined flowing into the pin; unless otherwise specified Parameter Symbol Buck-Converter; BUO, BDS, BUC and V Logic supply ...
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Table 4 Electrical Characteristics (cont’ < < 4.75 V < S with respect to ground; positive current defined flowing into the pin; unless otherwise specified Parameter Symbol Reset Generator Reset threshold; V decreasing ...
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Circuit Description Below some important sections of the TLE 6365 are described in more detail. Power On Reset In order to avoid any system failure, a sequence of several conditions has to be passed case of power down ...
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Buck Converter A stabilized logic supply voltage (typ for general purpose is realized in the system by a buck converter. An external buck-inductance DMOS power transistor with the programmed frequency (pin R). The buck converter uses the temperature ...
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Figure 4 Buck Converter Block Diagram Data Sheet 11 TLE 6365 Rev. 1.9, 2007-07-30 ...
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V O and V Error V max V min OCLK H L PWM BUO I BUOC I DBU V BUO Figure 5 Most Important Waveforms of the Buck Converter Circuit Data Sheet Error ...
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Application Circuit ZD1 Batt µF Biasing V and REF 3 BUC Buck Converter TLE 6365 470 nF V Internal Reference Current 1 R Generator ...
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Diagrams: Oscillator and Boost/Buck-Converter Performance In the following the behaviour of the Boost/Buck-converter and the oscillator is shown. Efficiency Buck vs. Boost Voltage Load Feedback Voltage vs. ...
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Current Consumption vs. Junction Temperature Boost 2.5 Boost ON Buck boost 1.5 1 0.5 -50 - 100 ˚C 150 Efficiency Buck ...
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Package Outlines 1.27 +0.1 0.41 -0.06 Index Marking 1) Does not include plastic or metal protrusion of 0.15 max. per side 2) Lead width can be 0.61 max. in dambar area Figure 7 PG-DSO-8-16 (Plastic Dual Small Outline) Green Product ...
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Revision History Version Date Rev. 1.9 2007-07-30 Initial version of RoHS-compliant derivate of TLE 6365 Data Sheet Changes Page 1: AEC certified statement added Page 1 and Page 16:RoHS compliance statement and Green product feature added Page 1 and Page ...
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... Infineon Technologies Office. Infineon Technologies components may be used in life-support devices or systems only with the express written approval of Infineon Technologies failure of such components can reasonably be expected to cause the failure of that life-support device or system or to affect the safety or effectiveness of that device or system. Life support devices or systems are intended to be implanted in the human body or to support and/or maintain and sustain and/or protect human life ...