TLE42062GXUMA1

1-A DC Motor Driver for Servo Driver Applications TLE 4206-2G Overview Features • • • • • • • • • • • • Optimized for headlight beam control applications Delivers up to 0.8 A continuous Low saturation voltage; typ.1.2 V total @ 25 °C; 0.4 A Output protected against short circuit Overtemperature protection with hysteresis Over- and undervoltage lockout No crossover current Internal clamp diodes Enhanced power packages Range low-voltage detection with hysteresis Green Product (RoHS compliant) AEC Qualified PG-DSO-14 Type Ordering Code Package TLE 4206-2G on request PG-DSO-14 Description The TLE 4206-2G is a protected H-Bridge Driver designed specifically for automotive headlight beam control and industrial servo control applications. The part is built using Infineons bipolar high voltage power technology DOPL. The standard enhanced power PG-DSO-14 package meets the application requirements and saves PCB-board space and costs. The servo-loop-parameter pos.- and neg. Hysteresis, pos.- and neg. deadband and angle-amplification are programmable with external resistors. An internal windowcomparator controls the input line. In the case of a fault condition, like short circuit to GND, short circuit to supply-voltage, and broken wire, the TLE 4206-2G stops the motor immediately (brake condition). Data Sheet 1 V1.4, 2018-07-02 TLE 4206-2G Furthermore the built in features like over- and undervoltage-lockout, short-circuitprotection and over-temperature-protection will open a wide range of automotive- and industrial applications. The TLE 4206-2G is a design-version of the TLE 4206. In the TLE 4206-2G, the current peak blanking Pin is disconnected. A hysteresis is introduced at the lower RANGE threshold. This allows reliable de-activation of the device by pulling the RANGE input to GND also under critical application conditions. PG-DSO-14 FB HYST GND GND GND OUT1 n.c. CPB 1 2 3 4 5 6 7 14 13 12 11 10 9 8 REF RANGE GND GND GND OUT2 VS AEP02261 Figure 1 Pin Configuration (top view) Pin Definitions and Functions Pin No. PG-DSO-14 Symbol Function 1 FB Feedback Input 2 HYST Hysteresis I/O 3, 4, 5, 10, 11, 12 GND Ground 6 OUT1 Power Output 1 7 n.c. Not connected 8 VS Power Supply Voltage 9 OUT2 Power Output 2 13 RANGE Range Input 14 REF Reference Input Data Sheet 2 V1.4, 2018-07-02 TLE 4206-2G Vs 8 TLE 4206-2G RANGE REF FB 13 RangeAMP HalfBridge 14 1 ServoAMP OUT1 Protection and Logic HalfBridge HYST 2 6 9 OUT2 HystAMP 3,4,5, 10,11,12 GND Note: Pin 7 is not connected Figure 2 Data Sheet Block Diagram 3 V1.4, 2018-07-02 TLE 4206-2G Absolute Maximum Ratings Parameter Symbol Limit Values Unit Remarks min. max. – 0.3 45 V – –1 – V t < 0.5 s; IS > – 2 A – 0.3 20 V – Voltages Supply voltage Supply voltage Logic input voltages (FB, REF, RANGE, HYST, CPB) VS VS VI Currents Output current (OUT1, OUT2) IOUT – – A internally limited –1 1 A – –2 –6 2 6 mA mA t < 2 ms; t/T < 0.1 Tj Tstg – 40 150 °C – – 50 150 °C – Junction pin (PG-DSO-14) Rthj-pin – 25 K/W measured to pin 5 Junction ambient (PG-DSO-14) RthjA – 65 K/W – Output current (Diode) Input current (FB, REF, RANGE, HYST) IOUT IIN Temperatures Junction temperature Storage temperature Thermal Resistances Note: Maximum ratings are absolute ratings; exceeding any one of these values may cause irreversible damage to the integrated circuit. Data Sheet 4 V1.4, 2018-07-02 TLE 4206-2G Operating Range Parameter Symbol Supply voltage VS Limit Values Unit Remarks min. max. 8 18 V After VS rising above VUV ON Supply voltage increasing VS – 0.3 Outputs in tristate – 0.3 VUV ON VUV OFF V Supply voltage decreasing VS V Outputs in tristate – 0.8 0.8 A – – 50 500 μA – – 40 150 °C – Output current Input current (FB, REF) Junction temperature Data Sheet IOUT1-2 IIN Tj 5 V1.4, 2018-07-02 TLE 4206-2G Electrical Characteristics 8 V < VS < 18 V; IOUT1-2 = 0 A; – 40 °C < Tj < 150 °C (unless otherwise specified) Parameter Symbol Limit Values Unit Test Condition min. typ. max. – 12 20 mA – Supply current IS IS – 20 30 mA IOUT1 = 0.4 A IOUT2 = – 0.4 A Supply current IS – 30 50 mA IOUT1 = 0.8 A IOUT2 = – 0.8 A – 7.4 8 V 6.3 6.9 – V – 0.5 – – 20.5 23 V 17.5 20 – V – 0.5 – V Current Consumption Supply current Over- and Under Voltage Lockout UV Switch ON voltage UV Switch OFF voltage UV ON/OFF Hysteresis OV Switch OFF voltage OV Switch ON voltage OV ON/OFF Hysteresis Data Sheet VUV ON VUV OFF VUVHY VOV OFF VOV ON VOVHY 6 V VS increasing VS decreasing VUV ON – VUV OFF VS increasing VS decreasing VOV OFF – VOV ON V1.4, 2018-07-02 TLE 4206-2G Electrical Characteristics (cont’d) 8 V < VS < 18 V; IOUT1-2 = 0 A; – 40 °C < Tj < 150 °C (unless otherwise specified) Parameter Symbol Limit Values min. typ. max. Unit Test Condition Outputs OUT1-2 Saturation Voltages Source (upper ) IOUT = – 0.2 A VSAT U – 0.85 1.15 V Tj = 25 °C Source (upper ) VSAT U – 0.90 1.20 V Tj = 25 °C VSAT U – 1.10 1.50 V Tj = 25 °C VSAT L – 0.15 0.23 V Tj = 25 °C Sink (lower) IOUT = 0.4 A VSAT L – 0.25 0.40 V Tj = 25 °C Sink (lower) VSAT L – 0.45 0.75 V Tj = 25 °C VSAT VSAT VSAT – 1.0 1.4 V – 1.2 1.7 V – 1.6 2.5 V VSAT = VSAT U + VSAT L VSAT = VSAT U + VSAT L VSAT = VSAT U + VSAT L VFU ILKU VFL – 1 1.5 V – – 5 – 0.9 1.4 IOUT = – 0.4 A Sink (upper) IOUT = – 0.8 A Sink (lower) IOUT = 0.2 A IOUT = 0.8 A Total drop Total drop Total drop IOUT = 0.2 A IOUT = 0.4 A IOUT = 0.8 A Clamp Diodes Forward voltage; upper Upper leakage current Forward voltage; lower Data Sheet 7 IF = 0.4 A mA IF = 0.4 A V IF = 0.4 A V1.4, 2018-07-02 TLE 4206-2G Electrical Characteristics (cont’d) 8 V < VS < 18 V; IOUT1-2 = 0 A; – 40 °C < Tj < 150 °C (unless otherwise specified) Parameter Symbol Limit Values Unit Test Condition min. typ. max. VREFq RREF – 200 – mV IREF = 0 μA – 6 kΩ VFBq RFB – 200 – mV IFB = 0 μA – 6 kΩ 0 V < VFB < 0.5 V Current Amplification AHYST = IHYST / (IREF – IFB) AHYST 0.8 0.95 1.1 − – 20 μA < IHYST < – 10 μA; 10 μA < IHYST < 20 μA; IREF = 250 μA VHYST = VS / 2 Current Offset IHYSTIO –2 0.35 3 μA IREF = IFB = 250 μA VHYST = VS / 2 Threshold voltage High VHYH / VS VDBH / VS VDBL / VS VHYL / VS VHYW / VS VDBW / VS – 52 – % – – 50.4 – % – – 49.6 – % – – 48 % – Input-Interface Input REF Quiescent voltage Input resistance – 0 V < VREF < 0.5 V Input FB Quiescent voltage Input resistance – Input/Output HYST Deadband voltage High Deadband voltage Low Threshold voltage Low Hysteresis Window Deadband Window Data Sheet – 3 4 5 % (VHYH – VHYL)/ VS 0.4 0.8 1.2 % (VDBH – VDBL)/ VS 8 V1.4, 2018-07-02 TLE 4206-2G Electrical Characteristics (cont’d) 8 V < VS < 18 V; IOUT1-2 = 0 A; – 40 °C < Tj < 150 °C (unless otherwise specified) Parameter Symbol Limit Values min. Unit Test Condition typ. max. Input RANGE Input current Switch-OFF voltage High Switch-OFF voltage Low IRANGE VOFFH VOFFL –1 – 1 μA – 25 0 100 mV refer to VS 310 390 490 0 V < VRANGE < VS mV refer to GND, VRANGE decreasing Switch-ON voltage Low VONL 400 500 550 mV refer to GND, VRANGE increasing VOFFLHYS 50 110 - mV see Figure 6 Thermal shutdown junction temperature TjSD 150 175 200 °C – Thermal switch-on junction temperature TjSO 120 – 170 °C – Temperature hysteresis ΔT – 30 – K – Low-threshold hysteresis Thermal Shutdown Data Sheet 9 V1.4, 2018-07-02 TLE 4206-2G Figure 3 Data Sheet Application Circuit 10 V1.4, 2018-07-02 TLE 4206-2G VMotor = VOUT1 - VOUT2 Motor Status Turn CW -2.0% (VREF -VFB )/VS -0.4% 0.4% 2.0% Brake Turn CCW DBW DBL DBH HYW HYL HYH AED02260 Expressions: HY = Hysteresis DB = Deadband H = High L = Low W = Window Figure 4 Data Sheet Hysteresis, Phaselag and Deadband-Definitions 11 V1.4, 2018-07-02 TLE 4206-2G Testconditons: VOFFH VS = VB; no reverse polarity voltage diode RHYH = RHYL = 100 kΩ RREF = RFB = 50 kΩ VS(t) VREF(t) VHYH VDBH VDBL VFB(t) VHYL VONL VOFFL t Start-Command Stop-Command VOUT2 H L t B CCW B CW B VOUT1 CW B CCW Motor Status B H L t B = Brake Figure 5 Data Sheet AET02798-2 Timing and Phaselag 12 V1.4, 2018-07-02 TLE 4206-2G Test Conditions RANGE Hysteresis Definition VRANGE RANGE VOFFLHYS VONL VOFFL Voltage Ramp t open open REF VOUT2 FB H L HYST Motor Status t CCW Brake CCW VOUT1 H 37,5% VS L t Note: Test Temperature 125°C Figure 6 Data Sheet RANGE Hysteresis and Test Conditions 13 V1.4, 2018-07-02 TLE 4206-2G Package Outlines PG-DSO-14 (Plastic Green - Dual Small Outline Package) Figure 7 PG-DSO-14 (Plastic/Plastic Green - Dual Small Outline Package) Green Product (RoHS compliant) To meet the world-wide customer requirements for environmentally friendly products and to be compliant with government regulations the device is available as a green product. Green products are RoHS-Compliant (i.e Pb-free finish on leads and suitable for Pb-free soldering according to IPC/JEDEC J-STD-020). You can find all of our packages, sorts of packing and others in our Infineon Internet Page “Products”: http://www.infineon.com/products. Dimensions in mm SMD = Surface Mounted Device Data Sheet 14 V1.4, 2018-07-02 TLE 4206-2G Revision History Version Date Rev. 1.1 2007-08-10 RoHS-compliant version of the TLE 4206-2 • All pages: Infineon logo updated • Page 1: “AEC qualified” and “RoHS” logo added, “Green Product (RoHS compliant)” and “AEC qualified” statement added to feature list, package names changed to RoHS compliant versions, package pictures updated, ordering codes removed • Page 14: Package names changed to RoHS compliant versions, “Green Product” description added • Revision History added • Legal Disclaimer added Rev. 1.2 2008-02-04 • Editorial change: deleted "fully" (The term "fully protected" often leads to misunderstandings as it is unclear with respect to which parameters); page 1 • Update Package picture; page1 • Update Figure 1; page 2 Rev. 1.3 2017-05-19 • Package suffix deleted Rev. 1.4 2018-07-02 • Page 14: New package drawing Data Sheet Changes 15 V1.4, 2018-07-02 Edition 2018-07-02 Published by Infineon Technologies AG 81726 Munich, Germany © 2018 Infineon Technologies AG All Rights Reserved. Legal Disclaimer The information given in this document shall in no event be regarded as a guarantee of conditions or characteristics. With respect to any examples or hints given herein, any typical values stated herein and/or any information regarding the application of the device, Infineon Technologies hereby disclaims any and all warranties and liabilities of any kind, including without limitation, warranties of non-infringement of intellectual property rights of any third party. Information For further information on technology, delivery terms and conditions and prices, please contact the nearest Infineon Technologies Office (www.infineon.com). Warnings Due to technical requirements, components may contain dangerous substances. For information on the types in question, please contact the nearest Infineon Technologies Office. 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