Triple Voltage Regulator TLE 4418 G Target Data Features • Triple Output voltage 2.6 V(1.2 A), 3.3 V(1.2 A) and 8.0 V(0.2 A) • Wide input voltage range • Overtemperature protection • Short circuit proof • SMD-Power package Type TLE 4418 G Ordering Code P-SFMG-7-1 Package P-SFMG-7-1 (SMD) New type Functional Description The TLE 4418 G is a monolithic integrated voltage regulator with a fixed triple output voltage of 2.6 V with max. 1.2 A, 3.3 V with max. 1.2 A and 8.0V with max. current 0.2 A. The regulator is supplied by two input voltages: VCC (nominal 5 V)= 4.75 V to 40 V and VDD (nominal 12 V)= 10.8 V to 40 V. It can also be operated without the VDD input voltage resulting in a reduced output voltage precision/ higher drop voltage. The IC is short circuit proof due to its integrated overcurrent and overtemperature protection circuits. The operating temperature range extends from TJ=0°C to 125°C with a thermal shutdown disabling all output voltages at typ. 150°C. Target Data Sheet Rev. 0.1 1 2001-12-10 TLE 4418 G GND3 Q3 VCC GND8 Q8 VDD Q2 1 Figure 1 Pin Configuration (top view) Pin Definitions and Functions Pin No. Symbol Function 1 GND3 Ground for Q2 and Q3 2 Q3 Output 3.3 V; connect to GND via a capacitor CQ3³2.2 µF, ESR£ 4 W. 3 VCC Supply Input; 5V nominal input voltage. Block to GND directly at the IC with a 100 nF ceramic capacitor. 4 GND8 Ground for Q8 5 Q8 Output 8 V; connect to GND via a capacitor CQ8³2.2 µF, ESR£ 4 W 6 VDD Supply Input; 12V nominal input voltage. Block to GND directly at the IC with a 100 nF ceramic capacitor. 7 Q2 Output 2.6 V; connect to GND via a capacitor CQ2³2.2 µF, ESR£ 4 W. Target Data Sheet Rev. 0.1 2 2001-12-10 TLE 4418 G Circuit Description Each of the output voltages features a reference voltage kept highly accurate by internal resistance adjustment. An error amplifier compares this reference voltage to the divided output voltage and drives the base of the Darlington power element. Over-saturation of the power element is prevented by an integrated saturation control circuit. While the output current is driven by VCC maintaining a reasonable power dissipation the higher voltage level at VDD allows to keep the drop voltage relatively low and supplies the 8.0 V output. The regulation loops are kept stable even for low output capacitances down to 2.2 µF (ESR £ 4 W). 5 VDD Q8 C u rren t an d S atu ra tion C o ntrol, O v erc urre nt P ro tec tion B a n dg ap R efe re nc e 4 2 VCC G ND8 Q3 P re -d riv e r C u rren t an d S atu ra tion C o ntrol, O v ertem p e ra ture an d O ve rcu rre nt P ro tec tion B a n dg ap R efe re nc e 7 Q2 P re -d riv e r C u rren t an d S atu ra tion C o ntrol, O v ertem p e ra ture an d O ve rcu rre nt P ro tec tion B a n dg ap R efe re nc e R Q ,Q 2 R G ,Q 2 1 GND3 Figure 2 Block Diagram Target Data Sheet Rev. 0.1 3 2001-12-10 TLE 4418 G Absolute Maximum Ratings 0 °C < Tj < 150 °C Parameter Symbol Limit Values Unit Remarks min. max. VCC ICC – 0.3 40 V – – 20 * mA *internally limited VDD IDD – 0.3 40 V – – 20 * mA *internally limited VQ2 IQ1 – 0.3 16 V – – 20 * mA *internally limited VQ3 IQ3 – 0.3 16 V – – 20 * mA *internally limited VQ8 IQ8 – 0.3 16 V – – 20 * mA *internally limited Tj Tstg 0 150 °C – – 65 150 °C – VCC Input Voltage Current VDD Input Voltage Current Output Q2 Voltage Current Output Q3 Voltage Current Output Q8 Voltage Current Temperatures Junction temperature Storage temperature Target Data Sheet Rev. 0.1 4 2001-12-10 TLE 4418 G Absolute Maximum Ratings (cont’d) 0 °C < Tj < 150 °C Parameter Symbol Limit Values Unit Remarks min. max. – 65 K/W 300 mm2 heat sink area1) – 50 K/W 600 mm2 heat sink area1) Thermal Resistances Junction ambient 1) Rthja Worst case in still air according to JEDEC JESD51-2. Note: Maximum ratings are absolute ratings; exceeding any one of these values may cause irreversible damage to the integrated circuit . Operating Range Parameter Symbol Limit Values Unit Remarks min. max. 4.75 40 V – 10.8 40 V – Input voltage VDD VCC VDD VDD 0 10.8 V reduced output voltage precision Junction temperature Tj 0 150 °C – Input voltage VCC Input voltage VDD Target Data Sheet Rev. 0.1 5 2001-12-10 TLE 4418 G Electrical Characteristics VCC=5.0V; VDD=12.0V; 0 °C < Tj < 125 °C; unless otherwise specified; all voltages with respect to ground; positive current defined flowing into pin Parameter Symbol Limit Values Unit Test Condition min. typ. max. 2.60 2.65 V 1mA£IQ2£1.2 A; 4.75V£VCC£5.25V 2.65 V VDD=0V, IQ2=500 mA Output Q2 Output voltage VQ2 2.55 Output voltage VQ2 2.20 Output current limit IQ2max 1.5 – – A VQ2=2.4V Line Regulation DVQ2,Li – – 5 mV 4.75V£VCC£5.25V; 10.8V£VDD£13.2V Load Regulation DVQ2,Lo – – 10 mV 10mA£IQ2£1.5A Drop Voltage VDRQ2 – – 1.7 V IQ2=1.2A1) Output voltage VQ3 3.20 3.30 3.40 V 1mA£IQ3£1.2 A; 4.75V£VCC£5.25V Output voltage VQ3 2.90 3.40 V VDD=0V, IQ3=500 mA Output current limit IQ3max 1.5 – – A VQ3=3.1V Line Regulation DVQ3,Li – – 7 mV 4.75V£VCC£5.25V; 10.8V£VDD£13.2V Load Regulation DVQ3,Lo – – 15 mV 10mA£IQ3£0.7A Drop Voltage VDRQ3 – – 1.5 V IQ3=1.2 A1) Output voltage VQ8 7.76 8.00 8.24 V 1 mA£IQ8£200 mA; 10.8 V£VDD£13.2 V Output current limit IQ8max 250 – – mA VQ8=7.66 V Line Regulation DVQ8,Li – – 16 mV 4.75V£VCC£5.25V; 10.8V£VDD£13.2V Load Regulation DVQ8,Lo – – 32 mV 10 mA£IQ8£200 mA Drop Voltage VDRQ8 – – 2.2 V IQ8=200 mA1) Output Q3 Output Q8 Target Data Sheet Rev. 0.1 6 2001-12-10 TLE 4418 G Electrical Characteristics (cont’d) VCC=5.0V; VDD=12.0V; 0 °C < Tj < 125 °C; unless otherwise specified; all voltages with respect to ground; positive current defined flowing into pin Parameter Symbol Limit Values Unit Test Condition min. typ. max. – 1.75 2.6 mA IQ2=IQ3=IQ8=100µA – 1.80 3.0 mA IQ2=IQ3=IQ8=100µA Supply Voltage Current Consumption Current Consumption 1) ICC IDD measured where the output voltage has dropped 1% below its nominal value Application Information The output capacitors CQ2, CQ3 and CQ8 are required with a capacitance of CQ2/3/8³2.2 µF and an ESR £ 4 W in order to maintain the stability of the regulation loop under all operating conditions. The output capacitors should be placed nearby the corresponding output voltage pin. For the Inputs VCC and VDD a ceramic capacitor in the range of 100 nF... 470 nF connected to GND close to the pins is needed in order compensate line influences. Target Data Sheet Rev. 0.1 7 2001-12-10 TLE 4418 G P-SFMG-7-1 (SMD Package) 9.398 ±0.127 1.905 ±0.127 6 x 1.27 0.08 ±0.05 0.92 ±0.127 9.02 ±0.127 0.254 ±0.051 8 ±0.127 10.541±0.127 9.017 ±0.127 0.25 7 x 0.711±0.051 6 MAX. Target Data Sheet Rev. 0.1 8 2001-12-10 TLE 4418 G Typical Performance Characteristics Output Voltage VQ2 versus Input Voltage VCC Output Voltage VQ3 versus Input Voltage VCC T L E 44 18 _ V Q 2 _v s _V C C 5 RL,Q2= 2.2 9 VQ2 V 4 3 3 V DD= 0 V V DD= 1 2 .0 V V DD= 0 V V DD= 1 2 .0 V 2 1 0 RL,Q3= 3.0 9 VQ3 V 4 2 T L E 44 18 _ V Q 3 _v s _V C C 5 1 0 1 2 3 4 0 5 V 6 VCC Target Data Sheet Rev. 0.1 0 1 2 3 4 5 V 6 VCC 9 2001-12-10 TLE 4418 G Edition 2001-12-10 Published by Infineon Technologies AG, St.-Martin-Strasse 53, D-81541 München, Germany © Infineon Technologies AG 12/10/01. All Rights Reserved. Attention please! The information herein is given to describe certain components and shall not be considered as warranted characteristics. Terms of delivery and rights to technical change reserved. We hereby disclaim any and all warranties, including but not limited to warranties of non-infringement, regarding circuits, descriptions and charts stated herein. Infineon Technologies is an approved CECC manufacturer. Information For further information on technology, delivery terms and conditions and prices please contact your nearest Infineon Technologies Office in Germany or our Infineon Technologies Representatives worldwide (see address list). Warnings Due to technical requirements components may contain dangerous substances. For information on the types in question please contact your nearest Infineon Technologies Office. Infineon Technologies Components may only be used in life-support devices or systems with the express written approval of Infineon Technologies, if a 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. If they fail, it is reasonable to assume that the health of the user or other persons may be endangered. Target Data Sheet Rev. 0.1 10 2001-12-10