6711 G/GL Multifunctional Voltage Regulator Watchdog Automot
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Data Sheet, Rev. 3.4, August 2007
6711 G/GL
Multifunctional Voltage Regulator Watchdog
Automotive Power
Multifunctional Voltage Regulator Watchdog
6711 6711
Features Step converter (Boost Voltage) Boost Over- Under-Voltage-Lockout Step down converter (Logic Voltage) output voltage tolerance Logic Over- Under-Voltage-Lockout Overtemperature Shutdown Power ON/OFF reset generator Digital window watchdog System Enable Output Ambient operation temperature range Wide Supply voltage operation range Very current consumption Very small PG-DSO-14-1 package Green Product (RoHS Compliant) Qualified
P/PG-DSO-14-3, -11,
Description 6711 G/GL multifunctional power supply circuit especially designed automotive applications. delivers programmable step voltage (Boost) precise fully short circuit protected output voltage (Buck).
P/PG-DSO-20 -14, -15, -17,
6711 G/GL contains power reset feature start system, integrated digital window watchdog monitor connected microcontroller system enable output indicate microcontroller window watchdog faults. device based Infineon's power technology SPT® which allows bipolar CMOS control circuitry integrated with DMOS power devices same monolithic circuitry. very small PG-DSO-14-1 packages meet application requirements. Furthermore, build-in features like under- overvoltage lockout boost- buck-voltage overtemperature shutdown feature increase reliability 6711 G/GL supply system.
Type 6711 6711 Data Sheet
Package PG-DSO-14-1 PG-DSO-20-36 Rev. 3.4, 2007-08-16
6711
Block Diagram
Block Diagram
6711
BOFB Boost Converter BOGND
Biasing
VBoost
VREF
Buck Converter
VBOOST
VInternal
Reference Current Generator Oscillator Reset, Window Watchdog System Enable
AEB02949
Figure
Block Diagram (pinning valid PG-DSO-14-1)
Data Sheet
Rev. 3.4, 2007-08-16
6711
Configuration
Configuration
Assignment
AEP02960
BOGND BOFB
VBoost
Figure
Configuration PG-DSO-14-1 (top view)
BOFB VBOOST
Figure
Configuration PG-DSO-20-36 (top view)
Data Sheet
Rev. 3.4, 2007-08-16
6711
Configuration
SO-14
Definitions Functions
SO-20 Symbol Function Reference Input; external resistor from this determines reference current oscillator frequency Reset Output; open drain output from reset comparator with internal pull-up resistor Watchdog Input; input watchdog control signal from controller Ground; analog signal ground
System Enable Output; open drain output from Watchdog fail-circuit with internal pull-up resistor Buck-Converter Compensation Input; output internal error amplifier; loop-compensation connect external R-C-series combination Supply Voltage Output; buck converter output; external blocking capacitor necessary Buck Converter Output; source integrated power-DMOS Boost Converter Input; input supply voltage coming from boost converter output voltage; buck converter input voltage Buck Driver Supply Input; voltage drive buck converter powerstage Boost Status Output; open drain output from boost comparator Boost Converter Feedback Input; connect boost voltage divider this pin; internal reference boost feedback threshold VBOFBTH Boost-Ground; power signal ground; source boost converter power-DMOS Boost Converter Input; drain integrated buck converter power-DMOS
VBOOST
BOFB BOGND
Data Sheet
Rev. 3.4, 2007-08-16
6711
General Product Characteristics
General Product Characteristics
Absolute Maximum Ratings
Absolute Maximum Ratings
+150 voltages with respect ground, positive current flowing into
(unless otherwise specified) Pos. Voltages 3.1.1 3.1.2 3.1.3 3.1.4 3.1.5 3.1.6 3.1.7 3.1.8 3.1.9 3.1.10 3.1.11 3.1.12 3.1.13 3.1.14 3.1.15 3.1.16 Buck compensation input voltage Logic supply voltage Reset output voltage System Enable output voltage Current reference voltage Watchdog input voltage output voltage Junction Temperature Storage Temperature pins Boost input voltage Boost output voltage Boost feedback voltage Buck output voltage Buck driver supply voltage Parameter Symbol Min. Limit Values Max. Human Body Model; Unit Conditions
VBOI VBOOST VBOFB VBUO VBDS VBUC VSEN VWDI VOVL Tstg VHBM
-0.3 -0.3 -0.3 -0.3 -0.3 -0.3 -0.3 -0.3 -0.3 -0.3 -0.3
Temperatures
Susceptibility
subject production test, specified design.
Attention: Stresses above ones listed here cause permanent damage device. Exposure absolute maximum rating conditions extended periods affect device reliability. Attention: Integrated protection functions designed prevent destruction under fault conditions described data sheet. Fault conditions considered "outside" normal operating range. Protection functions designed continuous repetitive operation.
Data Sheet
Rev. 3.4, 2007-08-16
6711
General Product Characteristics
Pos. 3.2.1 3.2.2 3.2.3 3.2.4 3.2.5 3.2.6 3.2.7 3.2.8 3.2.9 3.2.10 3.2.11 3.2.12 3.2.13 3.2.14 3.2.15 3.2.16 3.2.17
Operating Range
Parameter Boost input voltage Boost input voltage; (normal operation) Boost input voltage; (normal operation) Boost input voltage Boost feedback voltage Buck output voltage Buck driver supply voltage Buck compensation input voltage Logic supply voltage Reset output voltage System Enable output voltage Watchdog input voltage Current reference voltage Junction temperature Junction ambient PG-DSO-14-1 Junction ambient PG-DSO-20-36 Symbol Min. Limit Values Max. 6.25 -0.3 -0.3 -0.6 -0.3 4.00 -0.3 -0.3 Unit Conditions
VBOI VBOOST VBOOST VBOOST VBOFB VBUO VBDS VBUC VSEN VWDI Rthj-a Rthj-a
VBOOST increasing VBOOST decreasing
Boost- BuckConverter
Thermal Resistance
Note: operating range, functions given circuit description fulfilled.
Data Sheet
Rev. 3.4, 2007-08-16
6711
Circuit Description
Circuit Description
Power Reset
Below some important sections 6711 G/GL described more detail.
order avoid system failure, sequence several conditions passed. case power down (VCC tRR) logic signal generated reset external microcontroller. When level reaches reset threshold VRT, signal remains Power-up reset delay time before switching HIGH. drops below reset threshold time extending reset reaction time tRR, reset circuit activated power down sequence period initiated. reset reaction time avoids wrong triggering caused short "glitches" VCC-line.
typ. 4.65 Start-Up Power Delay
Delay Started Invalid
Delay Stopped Invalid
Invalid
Start-Up Normal
Failed Failed
Normal
AET02950
Figure
Reset Function
Watchdog Operation
watchdog uses hundred oscillator's clock signal period timebase, defined watchdog cycle time tCYL. After power-on, reset output signal (microcontroller reset) kept reset delay time tRD, i.e. cycles. With HIGH transition signal device starts closed window time cycles. trigger signal within this window interpreted pretrigger failure according figures shown below. After closed window open window with duration started. open window lasts minimum until trigger process occurred, maximum cycles. HIGH transition watchdog trigger signal taken trigger. avoid wrong triggering parasitic glitches HIGH samples followed samples (sample period tCYL) decoded valid trigger. trigger signal appears watchdog input during open window power up/down occurs, watchdog window signal reset closed window follows. reset generated goes LOW) there trigger pulse during open window pretrigger occurs during closed window. This reset happens after cycles after latest valid closed window start time lasts further cycles. triggering correct also, first three samples (two HIGH LOW) trigger pulse inside closed window only fourth sample (the second sample) taken open window. addition microcontroller reset signal device generates system enable signal SEN. Data Sheet Rev. 3.4, 2007-08-16
6711
Circuit Description HIGH system enable goes active HIGH with first valid watchdog trigger pulse WDI. output goes immediately pretrigger, missing trigger power down reset occurs.
128*tCYL 64*tCYL tCW=32*tCYL definition
closed window
tWDR 64*tCYL
tOW=32*tCYL
open window
definition
reset start delay time after window watchdog timeout
reset duration time after window watchdog time-out
worst case fOSC=fOSCmax
tECW
open window
(CW+OW)min
Example with: tCYL=1ms =10% (oscillator deviation)
fOSC=fOSCmin
CWmax
OWmin
Figure Window Watchdog Definitions
t(CW+OW)min =(tCW+tOW)*(1-)= =(32+32)x0,9= 57,6ms tCWmax tCW(1+)=32*1,1=35,2ms
Closed window
Open window
Watchdog trigger signal
Open window
Closed window
Valid Indifferent valid
AET02952
Watchdog decoder sample point
Figure
Window Watchdog Definitions
Data Sheet
Rev. 3.4, 2007-08-16
6711
Circuit Description
Perfect Triggering after Power Reset
Cycles
Cycles WDWI Cycles System Failed Incorrect Triggering tWDR Cycles
System Failed
System Enable
Cycles
Cycles
Cycles
WDWI
Cycles
Pretrigger
Legend: WDWI Internal Watchdog Window Open Window (trigger signal WDI) Closed Window (trigger signal WDI) Sample Point AED02945
Incorrect trigger duration within watchdog open window tHIGH Cycles Incorrect trigger duration within watchdog open window tLOW Cycles Missing trigger
Figure
Window Watchdog Function
Data Sheet
Rev. 3.4, 2007-08-16
6711
Circuit Description
Boost Converter
6711 G/GL contains fully integrated boost converter (except boost-diode), which provides supply voltage energy reserve e.g. airbag firing system. regulated boost output voltage VBOOST programmable divider network (external resistors) providing feedback voltage boost feedback BOFB. energy which stored external electrolytic capacitor VBOOST guarantees accurate airbag firing, even battery disconnected crash. boost inductance (typ. PWM-switched integrated current limited power DMOS transistor with programmable (external resistor frequency. internal bandgap reference provides temperature independent, chip trimmed reference voltage regulation loop. error amplifier compares reference voltage with boost feedback signal VBOFB from external divider network (determination output boost voltage VBOOST). Application note programming output voltage VBOOST: BOOST BOFBTH
With (Pulse Width Modulation) comparator output error amplifier compared periodic linear ramp, provided sawtooth signal oscillator connected logic signal with variable pulse width generated. passes through logic circuits (sets output latch PWM-FF) driver circuits power switching DMOS. Schmitt-trigger output resets output flip-flop PWM-FF signal gated NAND guarantee dominant reset.
COMP when NAND VBoost VthOV COMP
when
when VBoost Error Gate Error-FF when when Error Error PWM-FF Gate Driver COMP
VBoost VthUV
when VBoost when Overcurrent
Power D-MOS
NAND1 Error
NAND
Pullup
BOFB
COMP
VthOC
Error-Signal Error-Ramp
VREF
when Error-Signal Error-Ramp
14.5 BOGND
Sense
Oscillator Schmitt-trigger Ramp Vhigh Unlock Detector
Vmax Vmin
Boost Status Battery Disconnected
Vlow
Clock when Outputcurrent
AEB02946
Figure
Boost Converter Block Diagram
Figure shows most important waveforms during operation; low, medium high loads overload condition. output transistor switched immediately overcurrent comparator detects overcurrent level power DMOS sense output switches induced VBOOST undervoltage command. Data Sheet Rev. 3.4, 2007-08-16
6711
Circuit Description 6711 G/GL also protected against several boost loop errors: case feedback interruption pull-up current source (IFB typ. µA), integrated BOFB pulls voltage feedback BOFB above reference voltage. boost output switched high error voltage which controls PWM-Comparator zero duty cycle. case resistive loop error caused leakage currents ground, boost output voltage would increase very high values. order protect VBOOST input well external load against catastrophic failures, overvoltage protection provided which switches output transistor soon voltage VBOOST exceeds internal fixed overvoltage threshold VBOOVOFF typ. Application Note short circuit from VBOOST ground will destroy however, damage external boost diode boost inductance there overcurrent limitation that path.
Error Voltage
VError
OCLK
BOLI
VBOI VBOOST
Overcurrent Threshold Exceeded Load-Current Increasing with Time; Controlled Error Controlled Overcurrent Comp
AED02672
Figure
Most Important Waveforms Boost Converter Circuit
Data Sheet
Rev. 3.4, 2007-08-16
6711
Circuit Description
4.3.1
Boost Status Output
supervision Boost output voltage open drain DMOS output used. output high impedance normal operation during warning. goes comparator output (see Figure remains HIGH clock time period. This occurs when Error-Signal falls below minimum value Error-Ramp, this mean that Boost voltage falls below certain threshold voltage. output used warning insufficient Boost voltage.
Buck Converter
stabilized logic supply voltage (typ. general purpose realized system buck converter. external buck-inductance switched high side DMOS power transistor with programmed frequency (pin buck regulator supply given boost converter output VBOOST, case battery power-down stored energy boost converter capacitor used. Like boost converter, buck converter uses temperature compensated bandgap reference voltage (typ. regulation loop. This reference voltage connected non-inverting input error amplifier internal voltage divider supplies inverting input. Therefore output voltage fixed internal resistor ratio typ. output error amplifier goes inverting input comparator well buck compensation output BUC. When error amplifier output voltage exceeds sawtooth voltage output power MOS-transistor switched duration output transistor conduction phase depends level. logic signal with variable pulse width generated.
39.7k
VCC3
VCC4 10.3k
VthOV
Prot1
when Overcurrent Error
VCC1 VCC2
when Error- COMP Error-Signal Signal Error-Ramp ErrorRamp
Output Stage when PWM-FF Gate Driver Power D-MOS
VREF
when
Error-FF when
NAND
Oscillator
Schmitt-trigger
Vmax Vmin
Ramp
Vhigh Vlow
Clock
AEB02947
Figure
Buck Converter Block Diagram
Data Sheet
COMP when
COMP when VBoost
VthUV
when Overcurrent
VBoost
COMP
VthOC
Sense
Boost Driver Supply
Rev. 3.4, 2007-08-16
6711
Circuit Description External loop compensation required converter stability, formed connecting compensation resistor-capacitor series-network (RBUC, CBUC) between GND. case overload short-circuit (the output current exceeds buck overcurrent threshold IBUOC) DMOS output transistor switched overcurrent comparator immediately. pulse width then controlled overcurrent comparator seen before boost description. order protect input well external load against catastrophic failures, overvoltage protection provided which switches output transistor soon voltage exceeds internal fixed overvoltage threshold VBUOVOFF typ.
Error Voltage
VError
OCLK
BULI
VBUO VBOOST
VCC5
Overcurrent Threshold Exceeded Load-Current Increasing with Time; Controlled Error Controlled Overcurrent Comp
AED02673
Figure
Most Important Waveforms Buck Converter Circuit
Data Sheet
Rev. 3.4, 2007-08-16
6711
Circuit Description
Electrical Characteristics
Note: listed characteristics ensured over operating range integrated circuit. Typical characteristics specify mean values expected over production spread. otherwise specified, typical characteristics apply given supply voltage. Electrical Characteristics: Current Consumption
4.75 5.25 VBoost +150 voltages with respect ground, positive current flowing into (unless otherwise specified)
Pos. 4.5.1 4.5.2 Parameter Current consumption; application circuit Current consumption; application circuit Symbol Min. Limit Values Typ. Max. Unit Conditions
IBoost IBoost
IBoLoad IBoLoad
Electrical Characteristics: Under- Over-Voltage Lockout VBOOST
4.75 5.25 VBoost +150 voltages with respect ground, positive current flowing into (unless otherwise specified)
Pos. 4.5.3 4.5.4 4.5.5 4.5.6 4.5.7 4.5.8 Parameter voltage; boost buck conv. voltage; boost buck conv. Hysteresis voltage Symbol Min. Limit Values Typ. Max. Unit Conditions
VBOUVON
VBOOST increasing VBOOST decreasing
VBOUVOFF
VBOUVHY voltage; boost conv. VBOOVOFF voltage; boost conv. VBOOVON Hysteresis voltage VBOUVHY
VBOOST increasing VBOOST decreasing
Electrical Characteristics: Over-Voltage Lockout
4.75 5.25 VBoost +150 voltages with respect ground, positive current flowing into (unless otherwise specified)
Pos. 4.5.9 4.5.10 4.5.11 Parameter voltage; buck conv. voltage; buck conv. Hysteresis voltage Symbol Min. Limit Values Typ. 5.75 0.25 Max. 6.25 0.50 Unit Conditions
VBUOVOFF VBUOVON 5.25 VBUOVHY 0.10
increasing decreasing
Data Sheet
Rev. 3.4, 2007-08-16
6711
Circuit Description
Electrical Characteristics: Boost-Converter; BOI, BOFB VBOOST
4.75 5.25 VBoost +150 voltages with respect ground,
positive current flowing into (unless otherwise specified) Pos. 4.5.12 Parameter Boost voltage; application circuit Boost Voltage; application circuit Efficiency; see. appl. circuit Power-Stage resistance Power-Stage resistance Boost overcurrent threshold Feedback threshold voltage Feedback input current Symbol Min. Limit Values Typ. 27.5 Max. 31.0 IBOOST VBatt IBOOST VBatt 24.0 Unit Conditions
VBOOST
4.5.13
VBOOST
4.5.14 4.5.15 4.5.16 4.5.17 4.5.18 4.5.19
2.55
-0.4
0.75 2.85
RBOON RBOON IBOOC VBOFBTH
IBOOST IBOI IBOI
VBOI IBOOST VBOFB
Electrical Characteristics: Buck-Converter; BUO, BDS,
4.75 5.25 VBoost +150 voltages with respect ground,
positive current flowing into (unless otherwise specified) Pos. 4.5.20 Parameter Logic supply voltage Symbol Min. Limit Values Typ. Max. see. appl. circuit Unit Conditions
4.5.21 4.5.22 4.5.23 4.5.24 4.5.25 4.5.26
Efficiency; see. appl. circuit Power-Stage resistance Power-Stage resistance Buck overcurrent threshold Input current Buck Gate supply voltage; VBGS VBDS VBOOST
0.38 0.95
RBUON RBUON IBUOC VBGS
VBoost IBUO IBUO
Data Sheet
Rev. 3.4, 2007-08-16
6711
Circuit Description
Electrical Characteristics: Reference Input; (Oscillator; Timebase Boost- Buck-Converter, Reset Watchdog)
4.75 5.25 VBoost +150 voltages with respect ground, positive current flowing into (unless otherwise specified)
Pos. 4.5.27 4.5.28 4.5.29 4.5.30 Parameter Voltage Symbol Min. Limit Values Typ. 1.05 Max. Unit Conditions
Oscillator frequency fOSC Oscillator frequency fOSC Cycle time watchdog reset tCYL
timing
tCYL 100/fOSC
Electrical Characteristics: Reset Generator;
4.75 5.25 VBoost +150 voltages with respect ground, positive current flowing into (unless otherwise specified)
Pos. 4.5.31 Parameter Reset threshold; decreasing/increasing Symbol Min. Limit Values Typ. 4.65 Max. 4.75 4.50 Unit Conditions
transition; remains down IROL IROL IROH
4.5.32 4.5.33 4.5.34 4.5.35 4.5.36 4.5.37
Reset voltage Reset voltage Reset high voltage Reset pull-up current Reset Reaction time Power-up reset delay time
VROL VROL VROH
tCYL
Electrical Characteristics: Watchdog Generator;
4.75 5.25 VBoost +150 voltages with respect ground, positive current flowing into (unless otherwise specified)
Pos. 4.5.38 4.5.39 4.5.40 4.5.41 Parameter H-input voltage threshold L-input voltage threshold Watchdog period Start reset; after watchdog time-out Symbol Min. Limit Values Typ. Max. Unit Conditions
VWDIH VWDIL
tCYL tCYL
Data Sheet
Rev. 3.4, 2007-08-16
6711
Circuit Description Electrical Characteristics: Watchdog Generator; (cont'd)
4.75 5.25 VBoost +150 voltages with respect ground, positive current flowing into (unless otherwise specified)
Pos. 4.5.42 4.5.43 4.5.44 4.5.45 Parameter Reset duration; after watchdog time-out Open window time Closed window time Window watchdog trigger time Symbol Min. Limit Values Typ. 46.4 Max. Unit Conditions
tWDR
tCYL tCYL tCYL tCYL
Electrical Characteristics: System Enable Output;
4.75 5.25 VBoost +150 voltages with respect ground, positive current flowing into (unless otherwise specified)
Pos. 4.5.46 4.5.47 4.5.48 4.5.49 Parameter Enable voltage Enable voltage Enable high voltage Enable pull-up current Symbol Min. Limit Values Typ. Max. Unit Conditions
VSENL VSENL VSENH ISEN
ISENL ISENL ISENH
VSEN
Electrical Characteristics: Boost Status Output;
4.75 5.25 VBoost +150 voltages with respect ground, positive current flowing into (unless otherwise specified)
Pos. 4.5.50 4.5.51 Parameter Enable voltage Boost feedback threshold voltage Symbol Min. Limit Values Typ. 2.45 Max. Unit Conditions
VOVLL VOVLTH
IOVLL
application circuit
Electrical Characteristics: Thermal Shutdown (Boost Buck-Converter OFF)
4.75 5.25 VBoost +150 voltages with respect ground, positive current flowing into (unless otherwise specified)
Pos. 4.5.52 4.5.53 4.5.54 Parameter Thermal shutdown junction temperature Thermal switch-on junction temperature Temperature hysteresis Symbol Min. Limit Values Typ. Max. Unit Conditions
TjSD TjSO
Data Sheet
Rev. 3.4, 2007-08-16
6711
Application Information
Application Information
Note: following information given hint implementation device only shall regarded description warranty certain functionality, condition quality device. Figure shows application circuit 6711 G/GL with suggested external parts.
BOLoad
VBatt
CBO1
6711
BOFB Boost Converter
CBO1 CBO2 4700
VBOOST
BOGND
Biasing
VBoost
CBOT
VBOOST
VREF
Buck Converter
CBUC
CBU1
CBU2
System Enable Output Watchdog Trigger Input
VInternal
Reference Current Generator Oscillator Reset Window Watchdog System Enable
Reset Output Boost Status Output
Device Type BAW78C BAW78C BAW78B SS14
Supplier Remarks Infineon SOT-89 Infineon SOT-89 Infineon SOT-89 multiple Schottky; Schottky;
B82442-A1104 EPCOS 0.25 1.28 Do3316P-104 Coilcraft 0.28 B82442-H1224 EPCOS 0.24 2.72 Do3316P-224 Coilcraft 0.61
AEB02948
Figure
Application Circuit (pinning valid PG-DSO-14-1)
Data Sheet
Rev. 3.4, 2007-08-16
6711
Diagrams: Oscillator Boost/Buck-Converter Performance
Diagrams: Oscillator Boost/Buck-Converter Performance
Boost Feedback Current Junction Temperature
-200 -300
AED02939
following behaviour Boost/Buck-converter oscillator shown. Oscillator Frequency Deviation Junction Temperature
Referred
AED02938
-400
-500
-600
-700
Current Consumption Junction Temperature
Boost Buck boost
AED02940
Efficiency Buck Load
AED02942
Boost
LOAD
Data Sheet
Rev. 3.4, 2007-08-16
6711
Diagrams: Oscillator Boost/Buck-Converter Performance Efficiency Buck Boost Voltage
AED02941
Oscillator Frequency Resistor from
1000
AED02982
fOSC
Load
VBoost
1000
Efficiency Boost Input Voltage
AED02943
Boost Output Voltage Load
AED02944
Boost
VBoost
VBatt
LOAD
Data Sheet
Rev. 3.4, 2007-08-16
6711
Diagrams: Oscillator Boost/Buck-Converter Performance Boost Logic Output Voltage Junction Temperature
AED02983
Boost Buck Overcurrent Threshold Junction Temperature
AED02985
VBoost
Boost
BOOC (Boost-Converter)
5.025 5.000 4.975 4.950
BUOC (Buck-Converter)
Boost Buck Resistance Junction Temperature
1000
AED02984
BOON
BUON
Data Sheet
Rev. 3.4, 2007-08-16
6711
Package Outlines
Package Outlines
0.35
1.75 MAX.
0.175 ±0.07 (1.47)
-0.2
1.27 0.41+0.10 -0.06
6±0.2
0.64 ±0.25
8.75 -0.2
Index Marking Does include plastic metal protrusion 0.15 max. side Lead width 0.61 max. dambar area
GPS01230
8°MAX.
0.19 +0.06
Dimensions
Figure
PG-DSO-14-1 (Plastic Dual Small Outline Package)
2.65 MAX.
0.35 -0.2
2.45 -0.2
-0.1
1.27 0.35 +0.15
+0.8 10.3 ±0.3
12.8 -0.2 Index Marking Does include plastic metal protrusion 0.15 max. side Does include dambar protrusion 0.05 max. side
GPS05094
0.23 +0.09
Dimensions
Figure
PG-DSO-20-36 (Plastic Dual Small Outline Package)
Green Product (RoHS compliant) meet world-wide customer requirements environmentally friendly products compliant with government regulations device available green product. Green products RoHS-Compliant (i.e Pb-free finish leads suitable Pb-free soldering according IPC/JEDEC J-STD-020).
Data Sheet
MAX.
Rev. 3.4, 2007-08-16
6711
Revision History
Revision History
Changes
Revision Date
2007-08-16 Initial version RoHS-compliant derivate 6711. Page certified statement added. Page Page RoHS compliance statement Green product feature added. Page Page Packages changed RoHS compliant version. Disclaimer updated. 2006-03-16 Page Figure corrected, tCYL. Page Figure corrected, Inductor type EPCOS B82442-H1224.
Data Sheet
Rev. 3.4, 2007-08-16
Edition 2007-08-16 Published Infineon Technologies 81726 Munich, Germany 2007 Infineon Technologies Rights Reserved. Legal Disclaimer information given this document shall event regarded guarantee conditions characteristics. With respect examples hints given herein, typical values stated herein and/or information regarding application device, Infineon Technologies hereby disclaims warranties liabilities kind, including without limitation, warranties non-infringement intellectual property rights third party. Information further information technology, delivery terms conditions prices, please contact nearest Infineon Technologies Office (www.infineon.com). Warnings technical requirements, components contain dangerous substances. information types question, please contact nearest Infineon Technologies Office. Infineon Technologies components used life-support devices systems only with express written approval Infineon Technologies, failure such components reasonably expected cause failure that life-support device system affect safety effectiveness that device system. Life support devices systems intended implanted human body support and/or maintain sustain and/or protect human life. they fail, reasonable assume that health user other persons endangered.
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