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TLS850D0TAV33ATMA1

TLS850D0TAV33ATMA1

  • 厂商:

    EUPEC(英飞凌)

  • 封装:

    TO263

  • 描述:

    IC REG LIN 3.3V 500MA TO263-7-1

  • 数据手册
  • 价格&库存
TLS850D0TAV33ATMA1 数据手册
Low Dropout Linear Voltage Regulator TLS850D0TA TLS850D0TAV50 TLS850D0TAV33 Linear Voltage Regulator Data Sheet Rev. 1.0, 2015-12-01 Automotive Power TLS850D0TA Table of Contents Table of Contents 1 Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 2 Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 3 3.1 3.2 Pin Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 Pin Assignment TLS850D0TAV50 and TLS850D0TAV33 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 Pin Definitions and Functions TLS850D0TAV50 and TLS850D0TAV33 . . . . . . . . . . . . . . . . . . . . . . . 6 4 4.1 4.2 4.3 General Product Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Absolute Maximum Ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Functional Range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Thermal Resistance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 Block Description and Electrical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Voltage Regulation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Typical Performance Characteristics Voltage Regulator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Current Consumption . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Typical Performance Characteristics Current Consumption . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Typical Performance Characteristics Enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Typical Performance Characteristics Reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 10 13 16 17 18 19 20 25 6 6.1 6.2 6.2.1 6.2.2 6.3 6.4 6.5 Application Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Application Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Selection of External Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Input Pin . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Output Pin . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Thermal Considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Reverse Polarity Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Further Application Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 26 26 26 26 27 28 28 7 Package Outlines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29 8 Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 Data Sheet 2 7 7 8 9 Rev. 1.0, 2015-12-01 Low Dropout Linear Voltage Regulator 1 TLS850D0TA Overview Features • Wide Input Voltage Range from 3.0 V to 40 V • Fixed Output Voltage 5 V or 3.3 V • Output Voltage Precision ≤ ±2 % • Output Current Capability up to 500 mA • Ultra Low Current Consumption typ. 40 µA • Very Low Dropout Voltage typ. 70 mV @100 mA • Stable with Ceramic Output Capacitor of 1 µF • Delayed Reset at Power-On with 2 Programmable Delay Times 8.5 ms / 16.5 ms • Adjustable Reset Threshold down to 2.50 V • Enable, Undervoltage Reset, Overtemperature Shutdown • Output Current Limitation • Wide Temperature Range • Green Product (RoHS compliant) • AEC Qualified Data Sheet Figure 1 3 PG-TO263-7 Rev. 1.0, 2015-12-01 TLS850D0TA Overview Functional Description The TLS850D0TA is a high performance very low dropout linear voltage regulator for 5 V (TLS850D0V50) or 3.3 V (TLS850D0V33) supply in a PG-TO263-7 package. With an input voltage range of 3 V to 40 V and very low quiescent of only 40 µA, these regulators are perfectly suitable for automotive or any other supply systems connected to the battery permanently. The TLS850D0TA provides an output voltage accuracy of 2 % and a maximum output current up to 500 mA. The new loop concept combines fast regulation and very good stability while requiring only one small ceramic capacitor of 1 µF at the output. At currents below 100 mA the device will have a very low typical dropout voltage of only 70 mV (for 5 V device) and 80 mV (for 3.3 V device). The operating range starts already at input voltages of only 3 V (extended operating range). This makes the TLS850D0TA also suitable to supply automotive systems that need to operate during cranking condition. The device can be switched on and off by the Enable feature as described in Chapter 5.5. The output voltage is supervised by the Reset feature, including Undervoltage Reset, delayed Reset at Power-On and an adjustable lower Reset Threshold, more details can be found in Chapter 5.7. Internal protection features like output current limitation and overtemperature shutdown are implemented to protect the device against immediate damage due to failures like output short circuit to GND, over-current and over-temperatures. Choosing External Components An input capacitor CI is recommended to compensate line influences. The output capacitor CQ is necessary for the stability of the regulating circuit. TLS850D0TA is designed to be also stable with low ESR ceramic capacitors. Type Package Marking TLS850D0TAV50 PG-TO263-7 850D0V50 TLS850D0TAV33 PG-TO263-7 850D0V33 Data Sheet 4 Rev. 1.0, 2015-12-01 TLS850D0TA Block Diagram 2 Block Diagram I Q Current Limitation Reset EN RO RADJ Enable Bandgap Reference Temperature Shutdown DT GND Figure 2 Data Sheet Block Diagram TLS850D0TAV50 and TLS850D0TAV33 5 Rev. 1.0, 2015-12-01 TLS850D0TA Pin Configuration 3 Pin Configuration 3.1 Pin Assignment TLS850D0TAV50 and TLS850D0TAV33 1 2 3 45 6 7 Q DT RADJ GND RO EN I Figure 3 Pin Configuration 3.2 Pin Definitions and Functions TLS850D0TAV50 and TLS850D0TAV33 Pin Symbol Function 1 I Input It is recommended to place a small ceramic capacitor (e.g. 100 nF) to GND, close to the IC terminals, in order to compensate line influences. See also Chapter 6.2.1 2 EN Enable (integrated pull-down resistor) Enable the IC with high level input signal; Disable the IC with low level input signal; 3 RO Reset Output (intergrated pull-up resistor to Q) Open collector output; Leave open if the reset function is not needed 4 GND Ground 5 RADJ Reset Threshold Adjustment Connect to GND to use standard value; Connect an external voltage divider to adjust reset threshold 6 DT Delay Timing (integrated pull-down resistor) Connect to GND or Q to select Reset timing acc. to Table 8 7 Q Output Voltage Connect output capacitor CQ to GND close to the IC’s terminals, respecting the values specified for its capacitance and ESR in “Functional Range” on Page 8 Heat Slug – Heat Slug Connect to heatsink area; Connect to GND Data Sheet 6 Rev. 1.0, 2015-12-01 TLS850D0TA General Product Characteristics 4 General Product Characteristics 4.1 Absolute Maximum Ratings Table 1 Absolute Maximum Ratings1) Tj = -40 °C to +150 °C; all voltages with respect to ground (unless otherwise specified) Parameter Symbol Values Min. Typ. Max. Unit Note / Number Test Condition VI, VEN -0.3 – 45 V – P_4.1.1 VQ, VRO -0.3 – 7 V – P_4.1.3 Input I, Enable EN Voltage Output Q, Reset Output RO Voltage Delay Timing DT, Reset Threshold Adjustment RADJ Voltage VDT, VRADJ -0.3 – 7 V – P_4.1.6 Tj Tstg -40 – 150 °C – P_4.1.7 -55 – 150 °C – P_4.1.8 -2 – 2 kV 2) HBM CDM P_4.1.10 CDM P_4.1.12 Temperatures Junction Temperature Storage Temperature ESD Absorption VESD ESD Susceptibility to GND VESD ESD Susceptibility Pin 1, 7 (corner pins) VESD1,7 ESD Susceptibility to GND -500 – 500 V 3) -750 – 750 V 3) P_4.1.9 to GND 1) Not subject to production test, specified by design. 2) ESD susceptibility, HBM according to ANSI/ESDA/JEDEC JS001 (1.5 kΩ, 100 pF) 3) ESD susceptibility, Charged Device Model “CDM” according JEDEC JESD22-C101 Note: 1. Stresses above the ones listed here may cause permanent damage to the device. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. 2. Integrated protection functions are designed to prevent IC destruction under fault conditions described in the data sheet. Fault conditions are considered as “outside” normal operating range. Protection functions are not designed for continuous repetitive operation. Data Sheet 7 Rev. 1.0, 2015-12-01 TLS850D0TA General Product Characteristics 4.2 Functional Range Table 2 Functional Range Tj = -40 °C to +150 °C; all voltages with respect to ground (unless otherwise specified) Parameter Symbol Input Voltage Range VI VI,ext VEN CQ Values Min. Extended Input Voltage Range Enable Voltage Range Output Capacitor’s Requirements for Stability ESR Junction Temperature 1) 2) 3) 4) Typ. VQ,nom + Vdr – Unit Note / Test Condition Number V 1) – P_4.2.1 – P_4.2.3 Max. 40 3.0 – 40 V 2) 0 – 40 V – 1 ESR(CQ) – Tj -40 P_4.2.5 – – µF 3)4) – 100 Ω 3) – 150 °C – – – P_4.2.6 P_4.2.7 P_4.2.9 Output current is limited internaly and depends on the input voltage, see Electrical Characteristics for more details. When VI is between VI,ext,min and VQ,nom + Vdr, VQ = VI - Vdr. When VI is below VI,ext,min, VQ can drop down to 0 V. Not subject to production test, specified by design. The minimum output capacitance requirement is applicable for a worst case capacitance tolerance of 30% Note: Within the functional or operating range, the IC operates as described in the circuit description. The electrical characteristics are specified within the conditions given in the Electrical Characteristics table. Data Sheet 8 Rev. 1.0, 2015-12-01 TLS850D0TA General Product Characteristics 4.3 Thermal Resistance Note: This thermal data was generated in accordance with JEDEC JESD51 standards. For more information, go to www.jedec.org. Table 3 Thermal Resistance Parameter Symbol Values Unit Note / Test Condition Number P_4.3.6 Min. Typ. Max. – 3 – K/W 1) – 21 – K/W 1)2) Junction to Ambient RthJC RthJA RthJA – 75 – Junction to Ambient RthJA – 42 Junction to Ambient RthJA – 34 Package Version PG-TO263-7 Junction to Case Junction to Ambient – 2s2p board P_4.3.7 K/W 1)3) 1s0p board, footprint only P_4.3.8 – K/W 1)3) 1s0p board, 300 mm2 heatsink area on PCB P_4.3.9 – K/W 1)3) P_4.3.10 1s0p board, 600 mm2 heatsink area on PCB 1) Not subject to production test, specified by design 2) Specified RthJA value is according to Jedec JESD51-2,-5,-7 at natural convection on FR4 2s2p board; The Product (Chip+Package) was simulated on a 76.2 x 114.3 x 1.5 mm³ board with 2 inner copper layers (2 x 70µm Cu, 2 x 35µm Cu). Where applicable a thermal via array under the exposed pad contacted the first inner copper layer. 3) Specified RthJA value is according to JEDEC JESD 51-3 at natural convection on FR4 1s0p board; The Product (Chip+Package) was simulated on a 76.2 × 114.3 × 1.5 mm3 board with 1 copper layer (1 x 70µm Cu). Data Sheet 9 Rev. 1.0, 2015-12-01 TLS850D0TA Block Description and Electrical Characteristics 5 Block Description and Electrical Characteristics 5.1 Voltage Regulation The output voltage VQ is divided by a resistor network. This fractional voltage is compared to an internal voltage reference and the pass transistor is driven accordingly. The control loop stability depends on the output capacitor CQ, the load current, the chip temperature and the internal circuit design. To ensure stable operation, the output capacitor’s capacitance and its equivalent series resistor (ESR) requirements given in “Functional Range” on Page 8 have to be maintained. For details, also see the typical performance graph “Output Capacitor Series Resistor ESR(CQ) versus Output Current IQ” on Page 15. As the output capacitor also has to buffer load steps, it should be sized according to the application’s needs. An input capacitor CI is recommended to compensate line influences. In order to block influences like pulses and HF distortion at input side, an additional reverse polarity protection diode and a combination of several capacitors for filtering should be used. Connect the capacitors close to the component’s terminals. In order to prevent overshoots during start-up, a smooth ramp up function is implemented. This ensures almost no output voltage overshoots during start-up, mostly independent from load and output capacitance. Whenever the load current exceeds the specified limit, e.g. in case of a short circuit, the output current is limited and the output voltage decreases. The overtemperature shutdown circuit prevents the IC from immediate destruction under fault conditions (e.g. output continuously short-circuit) by switching off the power stage. After the chip has cooled down, the regulator restarts. This leads to an oscillatory behavior of the output voltage until the fault is removed. However, junction temperatures above 150 °C are outside the maximum ratings and therefore significantly reduce the IC’s lifetime. Supply II I Q Current Limitation Reset EN CI RO RADJ Enable VI Bandgap Reference Temperature Shutdown Regulated Output Voltage IQ C VQ ESR DT LOAD CQ GND Figure 4 Voltage Regulation V VQ,nom VI,ext,min VI Vdr VQ t Figure 5 Data Sheet Output Voltage vs. Input Voltage 10 Rev. 1.0, 2015-12-01 TLS850D0TA Block Description and Electrical Characteristics Table 4 Electrical Characteristics Voltage Regulator 5 V version Tj = -40 °C to +150 °C, VI = 13.5 V, all voltages with respect to ground (unless otherwise specified) Typical values are given at Tj = 25 °C Parameter Symbol Unit Note / Test Condition Number Min. Typ. Max. Output Voltage Precision VQ 4.9 5.0 5.1 V 0.05 mA < IQ < 500 mA 5.95 V < VI < 28 V P_5.1.3 Output Voltage Precision VQ 4.9 5.0 5.1 V 0.05 mA < IQ < 200 mA 5.44 V < VI < 40 V P_5.1.4 Output Voltage Start-up slew rate dVQ/dt 3.0 7.5 18 V/ms VI > 18 V/ms CQ = 1 µF 0.5 V < VQ < 4.5 V Output Current Limitation IQ,max 501 ∆VQ,load -20 650 1100 mA 0 V < VQ < 4.8 V P_5.1.9 -1.5 5 mV P_5.1.11 Line Regulation steady-state ∆VQ,line -20 0 20 mV P_5.1.13 Dropout Voltage Vdr = VI - VQ Vdr – 175 425 mV IQ = 0.05 mA to 500 mA VI = 6 V VI = 8 V to 32 V IQ = 5 mA 1) IQ = 250 mA Dropout Voltage Vdr = VI - VQ Vdr – 70 170 mV 1) IQ = 100 mA P_5.1.17 Power Supply Ripple Rejection PSRR – 59 – dB 2) fripple = 100 Hz P_5.1.18 Load Regulation steady-state Values Overtemperature Shutdown Threshold Tj,sd 151 – 200 °C Overtemperature Shutdown Threshold Hysteresis Tj,sdh – 15 – K Vripple = 0.5 Vpp 2) Tj increasing 2) P_5.1.7 P_5.1.16 P_5.1.19 Tj decreasing P_5.1.20 1) Measured when the output voltage VQ has dropped 100 mV from the nominal value obtained at VI = 13.5V 2) Not subject to production test, specified by design Data Sheet 11 Rev. 1.0, 2015-12-01 TLS850D0TA Block Description and Electrical Characteristics Table 5 Electrical Characteristics Voltage Regulator 3.3 V version Tj = -40 °C to +150 °C, VI = 13.5 V, all voltages with respect to ground (unless otherwise specified) Typical values are given at Tj = 25 °C Parameter Symbol Unit Note / Test Condition Number Min. Typ. Max. Output Voltage Precision VQ 3.23 3.3 3.37 V 0.05 mA < IQ < 500 mA 4.23 V < VI < 28 V P_5.1.23 Output Voltage Precision VQ 3.23 3.3 3.37 V 0.05 mA < IQ < 200 mA 3.72 V < VI < 40 V P_5.1.24 Output Voltage Start-up slew rate dVQ/dt 3.0 7.5 18 V/ms VI > 18 V/ms CQ = 1 µF 0.33 V < VQ < 2.97 V Output Current Limitation IQ,max 501 ∆VQ,load -20 650 1100 mA 0 V < VQ < 3.1 V P_5.1.29 -1.5 5 mV P_5.1.31 Line Regulation steady-state ∆VQ,line -15 0 15 mV Dropout Voltage Vdr = VI - VQ Vdr – 200 430 mV IQ = 0.05 mA to 500 mA VI = 6 V VI = 8 V to 32 V IQ = 5 mA 1) IQ = 250 mA Dropout Voltage Vdr = VI - VQ Vdr – 80 175 mV 1) IQ = 100 mA P_5.1.37 Power Supply Ripple Rejection PSRR – 63 – dB 2) fripple = 100 Hz P_5.1.38 Load Regulation steady-state Values Overtemperature Shutdown Threshold Tj,sd 151 – 200 °C Overtemperature Shutdown Threshold Hysteresis Tj,sdh – 15 – K Vripple = 0.5 Vpp 2) Tj increasing 2) P_5.1.27 P_5.1.33 P_5.1.36 P_5.1.39 Tj decreasing P_5.1.40 1) Measured when the output voltage VQ has dropped 100 mV from the nominal value obtained at VI = 13.5V 2) Not subject to production test, specified by design Data Sheet 12 Rev. 1.0, 2015-12-01 TLS850D0TA Block Description and Electrical Characteristics 5.2 Typical Performance Characteristics Voltage Regulator Typical Performance Characteristics Output Voltage VQ versus Junction Temperature Tj (3.3 V version) Output Voltage VQ versus Junction Temperature Tj (5 V version) 3.5 IQ = 100mA 3.45 5.15 3.4 5.1 3.35 5.05 VQ [V] VQ [V] IQ = 100mA 3.3 5 3.25 4.95 3.2 4.9 3.15 4.85 3.1 0 50 Tj [°C] 100 4.8 150 Dropout Voltage Vdr versus Junction Temperature Tj (3.3 V version) 0 100 150 Dropout Voltage Vdr versus Junction Temperature Tj (5 V version) 350 350 IQ = 100 mA IQ = 100 mA 300 50 Tj [°C] IQ = 250 mA 300 IQ = 250 mA 250 250 200 200 Vdr [mV] Vdr [mV] VQ = 3.3 V 150 150 100 100 50 50 0 −40 Data Sheet 0 50 Tj [°C] 100 0 −40 150 13 0 50 Tj [°C] 100 150 Rev. 1.0, 2015-12-01 TLS850D0TA Block Description and Electrical Characteristics Load Regulation ∆VQ,load versus Output Current Change IQ Line Regulation ∆VQ,line versus Input Voltage VI 8 0 Tj = −40 oC IQ = 5 mA −2 Tj = 25 oC 6 Tj = 150 oC −4 4 2 −8 ΔVQ,line [mV] ΔVQ,load [mV] −6 −10 −12 0 −2 −14 VI = 6 V −16 −4 o Tj = −40 C Tj = 25 oC −18 −6 o Tj = 150 C −20 0 100 200 300 IQ [mA] 400 −8 500 Output Voltage VQ versus Input Voltage VI (3.3 V version) 10 15 20 VI [V] 25 30 Output Voltage VQ versus Input Voltage VI (5 V version) 4 6 Tj = −40 °C Tj = −40 °C Tj = 25 °C 3.5 Tj = 25 °C Tj = 150 °C Tj = 150 °C 5 IQ = 100 mA 3 IQ = 100 mA 4 VQ [V] VQ [V] 2.5 2 3 1.5 2 1 1 0.5 0 0 Data Sheet 1 2 3 VI [V] 4 5 0 6 14 0 1 2 3 VI [V] 4 5 6 Rev. 1.0, 2015-12-01 TLS850D0TA Block Description and Electrical Characteristics Power Supply Ripple Rejection PSRR versus ripple frequency f Output Capacitor Series Resistor ESR(CQ) versus Output Current IQ 3 80 10 VQ = 3.3 V VQ = 5 V 70 Unstable Region 2 10 60 1 ESR(CQ) [Ω] PSRR [dB] 50 40 30 10 Stable Region 0 10 20 −1 IQ = 10 mA CQ = 1 μF Vripple = 0.5 Vpp Tj = 25 oC 10 0 −2 10 10 CQ = 1 μF Tj = 25 oC −2 −1 10 0 1 10 10 2 10 10 3 10 0.05 1 10 IQ [mA] f [kHz] Maximum Output Current IQ versus Input Voltage VI 100 500 Dropout Voltage Vdr versus Output Current IQ 1200 500 VQ = 3.3 V 450 VQ = 5 V 1000 Tj = 25 oC 400 350 300 Vdr [mV] IQ,max [mA] 800 600 250 200 400 150 VQ = 0 V 100 Tj = −40 oC 200 Tj = 25 oC 50 Tj = 150 oC 0 0 Data Sheet 10 20 VI [V] 30 0 40 15 0 100 200 300 IQ [mA] 400 500 Rev. 1.0, 2015-12-01 TLS850D0TA Block Description and Electrical Characteristics 5.3 Current Consumption Table 6 Electrical Characteristics Current Consumption Tj = -40 °C to +150 °C, VI = 13.5 V (unless otherwise specified) Typical values are given at Tj = 25 °C Conditions of other pins: DT = GND Parameter Symbol Values Min. Typ. Max. Unit Note / Test Condition Number Current Consumption Iq = II Iq,off – 1.3 5 µA VEN = 0 V; Tj < 105 °C P_5.3.1 Current Consumption Iq,off – – 8 µA VEN = 0.4 V; Tj < 125 °C P_5.3.3 Iq – 40 52 µA P_5.3.4 Current Consumption Iq = II - IQ Iq – 62 77 µA Current Consumption Iq = II - IQ Iq – 62 82 µA IQ = 0.05 mA Tj = 25 °C IQ = 0.05 mA Tj < 125 °C 1) IQ = 500 mA Tj < 125 °C Iq = II Current Consumption Iq = II - IQ P_5.3.7 P_5.3.11 1) Not subject to production test, specified by design Data Sheet 16 Rev. 1.0, 2015-12-01 TLS850D0TA Block Description and Electrical Characteristics 5.4 Typical Performance Characteristics Current Consumption Typical Performance Characteristics Current Consumption Iq versus Output Current IQ Current Consumption Iq versus Input Voltage VI 200 100 Tj = −40 °C Tj = 25 oC 90 180 70 140 60 120 Iq [uA] Iq [μA] Tj = 150 °C 160 80 50 80 30 60 20 40 10 20 0 Data Sheet 100 200 300 IQ [mA] 400 0 500 17 VEN = 5 V IQ = 50 uA 100 40 0 Tj = 25 °C 5 10 15 20 25 VI [V] 30 35 40 Rev. 1.0, 2015-12-01 TLS850D0TA Block Description and Electrical Characteristics 5.5 Enable The TLS850D0TA can be switched on and off by the Enable feature: Connect a HIGH level as specified below (e.g. the battery voltage) to pin EN to enable the device; connect a LOW level as specified below (e.g. GND) to shut it down. The enable has a built in hysteresis to avoid toggling between ON/OFF state, if signals with slow slopes are applied to the EN input. Table 7 Electrical Characteristics Enable Tj = -40 °C to +150 °C, VI = 13.5 V, all voltages with respect to ground (unless otherwise specified) Typical values are given at Tj = 25 °C Parameter Symbol VEN,H Low Level Input Voltage VEN,L Enable Threshold Hysteresis VEN,Hy High Level Input Current IEN,H High Level Input Current IEN,H Enable internal pull-down resistor REN High Level Input Voltage Data Sheet Values Unit Note / Test Condition Number P_5.5.1 Min. Typ. Max. 2 – – V – – 0.8 V VQ settled VQ ≤ 0.1 V 100 – – mV – P_5.5.3 – – 3.5 µA P_5.5.4 – – 22 µA VEN = 3.3 V VEN ≤ 18 V 0.95 1.5 2.6 MΩ – P_5.5.7 18 P_5.5.2 P_5.5.6 Rev. 1.0, 2015-12-01 TLS850D0TA Block Description and Electrical Characteristics 5.6 Typical Performance Characteristics Enable Typical Performance Characteristics Input Current IIN versus Input Voltage VIN (condition: VEN = 0 V) Enabled Input Current IEN versus Enabled Input Voltage VEN 50 30 Tj = −40 °C Tj = 25 °C 25 Tj = −40 °C 45 Tj = 150 °C Tj = 25 °C Tj = 150 °C 40 VEN = 0V 35 20 IEN [uA] IIN [uA] 30 15 25 20 10 15 10 5 5 0 0 10 20 VIN [V] 30 Output Voltage VQ versus time (EN switched ON, 5 V version) 0 6 6 5 5 4 4 3 2 10 20 VEN [V] IQ = 100 mA Tj = −40 °C Tj = −40 °C Tj = 25 °C Tj = 25 °C 1 Tj = 150 °C Tj = 150 °C VEN 0 0 Data Sheet 500 1000 t [us] 1500 40 3 2 IQ = 100 mA 1 30 Output Voltage VQ versus time (EN switched ON, 3.3 V version) VQ, VEN [V] VQ, VEN [V] 0 40 VEN 0 2000 19 0 500 1000 t [us] 1500 2000 Rev. 1.0, 2015-12-01 TLS850D0TA Block Description and Electrical Characteristics 5.7 Reset The TLS850D0TA’s output voltage is supervised by the Reset feature, including Undervoltage Reset, delayed Reset at Power-On and an adjustable Reset Threshold. The Undervoltage Reset function sets the pin RO to LOW, in case VQ is falling for any reason below the Reset Threshold VRT,low. When the regulator is powered on, the pin RO is held at LOW for the duration of the Power-On Reset Delay Time trd. I Q RRO,int Control OR R CQ RO S Reference VDD optional Supply Reset IRO Q RADJ,1 OR MicroController RADJ IRADJ GND BlockDiagram_ResetAdjust_TLS850D0.vs d optional Timer DT RADJ,2 Figure 6 GND Block Diagram Reset Circuit Reset Delay Time The pin DT is used to set the desired Reset Delay Time trd. Connect this pin either to GND or Q to select the timing according to Table 8. Table 8 Reset DelayTime Selection DT connected to trd GND 16.5 ms Q 8.5 ms Power-On Reset Delay Time The power-on reset delay time is defined by the parameter trd and allows a microcontroller and oscillator to start up. This delay time is the time period from exceeding the upper reset switching threshold VRT,high until the reset is released by switching the reset output “RO” from “LOW” to “HIGH”. Undervoltage Reset Delay Time Unlike the power-on reset delay time, the undervoltage reset delay time is defined by the parameter trd and considers an output undervoltage event where the output voltage VQ trigger the VRT,low threshold. Reset Blanking Time The reset blanking time trr,blank avoids that short undervoltage spikes trigger an unwanted reset “low” signal. Data Sheet 20 Rev. 1.0, 2015-12-01 TLS850D0TA Block Description and Electrical Characteristics Reset Reaction Time In case the output voltage of the regulator drops below the output undervoltage lower reset threshold VRT,low, the reset output “RO” is set to low, after the delay of the internal reset reaction time trr,int. The reset blanking time trr,blank is part of the reset reaction time trr,int. Reset Output “RO” The reset output “RO” is an open collector output with an integrated pull-up resistor. In case a lower-ohmic “RO” signal is desired, an external pull-up resistor can be connected to the output “Q”. Since the maximum “RO” sink current is limited, the minimum value of the optional external resistor “RRO,ext” is given in Table “Reset Output RO” on Page 23. Reset Output “RO” Low for VQ ≥ 1 V In case of an undervoltage reset condition reset output “RO” is held “low” for VQ ≥ 1 V, even if the input voltage VI is 0 V. This is achieved by supplying the reset circuit from the output capacitor. Reset Adjust Function The undervoltage reset switching threshold can be adjusted according to the application’s needs by connecting an external voltage divider (RADJ1, RADJ2) at pin “RADJ”. For selecting the default threshold connect pin “RADJ” to GND. The reset adjustment range for the TLS850D0TAV50 is given in Reset Threshold Adjustment Range. The reset adjustment range for the TLS850D0TAV33 is given in Reset Threshold Adjustment Range. When dimensioning the voltage divider, take into consideration that there will be an additional current constantly flowing through the resistors. With a voltage divider connected, the reset switching threshold VRT,new is calculated as follows (neglecting the Reset Adjust Pin Current IRADJ): VRT,lo,new = VRADJ,th × (RADJ,1 + RADJ,2) / RADJ,2 (1) with • • • VRT,lo,new: Desired undervoltage reset switching threshold. RADJ,1, RADJ,2: Resistors of the external voltage divider, see Figure 6. VRADJ,th: Reset adjust switching threshold given in Reset Adjustment Switching Threshold. Data Sheet 21 Rev. 1.0, 2015-12-01 TLS850D0TA Block Description and Electrical Characteristics VI t VQ t < trr,blank VRH VRT,hi gh VRT,low 1V t trd trr,int trd trr,int trd trr,int VRO trd VRO,low 1V t Thermal Shutdown Figure 7 Data Sheet Input Voltage Dip Undervoltage Spike at output Over load Typical Timing Diagram Reset 22 Rev. 1.0, 2015-12-01 TLS850D0TA Block Description and Electrical Characteristics Table 9 Electrical Characteristics Reset Tj = -40 °C to +150 °C, VI = 13.5 V, all voltages with respect to ground (unless otherwise specified) Typical values are given at Tj = 25 °C Parameter Symbol Values Unit Note / Test Condition Min. Typ. Max. Number Output Undervoltage Reset 5V Version only Output Undervoltage Reset Upper Switching Threshold VRT,high 4.6 4.7 4.8 V VQ increasing P_5.7.1 Output Undervoltage Reset Lower Switching Threshold - Default VRT,low 4.5 4.6 4.7 V VQ decreasing P_5.7.2 Output Undervoltage Reset Switching Hysteresis VRT,hy 60 100 – mV RADJ connected to GND P_5.7.3 Output Undervoltage Reset Headroom VQ - VRT VRH 200 400 – mV RADJ = GND P_5.7.4 RADJ = GND Output Undervoltage Reset 3V3 Version only Output Undervoltage Reset Upper Switching Threshold VRT,high 3.08 3.15 3.22 V VQ increasing P_5.7.5 Output Undervoltage Reset Lower Switching Threshold - Default VRT,low 3.0 3.05 3.13 V VQ decreasing P_5.7.6 Output Undervoltage Reset Switching Hysteresis VRT,hy 60 100 – mV RADJ connected to GND P_5.7.7 Output Undervoltage Reset Headroom VQ - VRT VRH 100 250 – mV RADJ = GND P_5.7.8 VRADJ,th 1.15 1.20 1.25 V – P_5.7.9 Reset Threshold Adjustment Range VRT,range 2.5 – 4.4 V for VQ,nom = 5 V P_5.7.10 Reset Threshold Adjustment Range VRT,range 2.5 – 2.9 V for VQ,nom = 3.3 V P_5.7.11 P_5.7.40 RADJ = GND Reset Threshold Adjustment Reset Adjustment Switching Threshold Reset Output RO Reset Output Low Voltage VRO,low – 0.2 0.4 V 1 V ≤ VQ ≤ VRT; RRO ≥ 5.1 kΩ Reset Output Internal Pull-Up Resistor RRO,int 13 20 36 kΩ internally connected to Q P_5.7.41 Reset Output External Pull-up Resistor to VQ RRO,ext 5.1 – – kΩ 1 V ≤ VQ ≤ VRT ; VRO ≤ 0.4 V P_5.7.42 trd,slow trd,fast 13.2 16.5 19.8 ms DT connected to GND P_5.7.37 6.8 8.5 10.2 ms DT connected to Q P_5.7.38 µs 1) for VQ,nom = 3.3 V P_5.7.22 Reset Delay Timing Reset Delay Time Reset Delay Time Reset blanking time trr,blank – 6 – Reset blanking time trr,blank – 7 – µs 2) for VQ,nom = 5 V P_5.7.46 Internal Reset Reaction Time trr,int trr,int – 7 20 µs for VQ,nom = 3.3 V P_5.7.23 – 10 33 µs for VQ,nom = 5 V P_5.7.36 Internal Reset Reaction Time Reset Delay Input DT Data Sheet 23 Rev. 1.0, 2015-12-01 TLS850D0TA Block Description and Electrical Characteristics Table 9 Electrical Characteristics Reset (cont’d) Tj = -40 °C to +150 °C, VI = 13.5 V, all voltages with respect to ground (unless otherwise specified) Typical values are given at Tj = 25 °C Parameter Symbol Values Min. Unit Note / Test Condition Number P_5.7.29 Typ. Max. Delay Input DT High Signal Valid VDT,H 2.0V – – V Delay Input DT Low Signal Valid VDT,L – – 0.80 V P_5.7.30 Delay Input DT Signal Slew Rate dVDT/dt 1 – – V/µs VDT,L < VDT < VDT,H P_5.7.35 High Level Input Current IDT,H RDT – – 3.5 µA VDT = 3.3 V P_5.7.32 0.9 1.5 2.6 MΩ Delay Input DT internal pull-down resistor – P_5.7.33 1) Not subject to production test, specified by design. 2) Not subject to production test, specified by design. Data Sheet 24 Rev. 1.0, 2015-12-01 TLS850D0TA Block Description and Electrical Characteristics 5.8 Typical Performance Characteristics Reset Typical Performance Characteristics Undervoltage Reset Threshold VRT versus Junction Temperature Tj (5 V version) 3.5 5 3.4 4.9 3.3 4.8 3.2 4.7 3.1 4.6 VRT [V] VRT [V] Undervoltage Reset Threshold VRT versus Junction Temperature Tj (3.3 V version) 3 2.9 4.5 4.4 2.8 4.3 IQ = 1 mA VQ = 3.3 V RADJ set to GND 2.7 VRT, high 2.6 IQ = 1 mA VQ = 5 V RADJ set to GND 4.2 VRT, high 4.1 VRT, low 2.5 0 50 Tj [°C] 100 VRT, low 4 150 Power On Reset Delay Time trd versus Junction Temperature Tj 0 50 Tj [°C] 100 150 Internal Reset Reaction Time trr,int versus Junction Temperature Tj 20 25 VQ = 3.3 V fast slow IQ = 1 mA 18 VQ = 5 V 16 20 14 trr,int [us] trd [ms] 12 15 10 8 6 10 4 2 5 Data Sheet 0 50 Tj [°C] 100 0 150 25 0 50 Tj [°C] 100 150 Rev. 1.0, 2015-12-01 TLS850D0TA Application Information 6 Application Information 6.1 Application Diagram Note: The following information is given as a hint for the implementation of the device only and shall not be regarded as a description or warranty of a certain functionality, condition or quality of the device. Supply I Q D I1 Current Limitation DI2 C I2 C I1
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