Infineon Technologies AG Power - Power Supply ICs - OPTIREG™ PMIC - TLE7368-3E TLE7368-3E

Description
The TLE7368-3E device is a multifunctional power supply circuit especially designed for Automotive powertrain systems using a standard 12 V battery. The device is intended to supply and monitor next generation 32-bit microcontroller families (13 μm lithography) where voltage levels such as 5 V, 3.3 V or 1.3 V are required. The regulator follows the concept of its predecessor TLE6368, where the output of a pre-regulator feeds the inputs of the micro’s linear supplies. In detail, the TLE7368 cascades a Buck converter with linear regulators and voltage followers to achieve lowest power dissipation. This configuration allows to power the application even at high ambient temperatures. he step-down converter delivers a pre-regulated voltage of 5.5 V with a minimum peak current capability of 2.5 A. Supplied by this step down converter two low drop linear post-regulators offer 5 V and 3.3 V (2.6 V) with high accuracy. The current capability of the regulators is 800 mA and 700 mA. The 3.3 V (2.6 V) linear regulator does have its own input allowing to insert a dropper from the Buck output to reduce the on chip power dissipation if necessary. For the same reason, reduction of on chip power dissipation, the core supply (1.5 V, 1.2 V or 1.3 V) follows the concept of integrated control circuit with external power stage. Implementing the on board and microcontroller supplies in this way described, allows operation even at high ambient temperatures.The regulator system contains the so called power sequencing function which provides a controlled power up sequence of the three output voltages. In addition to the main regulators the inputs of two voltage trackers are connected to the 5.5 V Buck converter output voltage. Their protected outputs follow the main 5 V linear regulator with high accuracy and are able to drive loads of 50 mA and 105 mA. To monitor the output voltage levels of each of the linear regulators two independent undervoltage detection circuits are available. They can be used to implement the reset or an interrupt function.For energy saving reasons, e.g. while the motor is turned off, the TLE7368 offers a stand-by mode. The standby mode can be enabled and disabled either by battery or the microcontroller. In this stand-by mode just the standby regulator remains active and the current drawn from battery is reduced to a minimum for extended battery lifetime. A selection pin allows to configure the output voltages of the stand-by regulator to the application’s needs. The input of the stand-by regulator is separated from the high power input of the pre-/post-regulator system. The TLE7368 is based on Infineon’s Power technology SPT™ which allows bipolar, CMOS and power DMOS circuitry to be integrated on the same monolithic chip/circuitry. Summary of Features High efficient next generation microcontroller power supply system Wide battery input voltage range < 4.5 V up to 45 V Operating temperature range Tj = -40 °C to +150 °C Pre-regulator for low all over power loss: Integrated current mode Buck converter 5.5 V/2.5 A Post-regulators, e.g. for system and controller I/O supply: LDO1: 5V ±2%, 800 mA current limit, LDO2: 3.3 V ±2% or 2.6V ±2% (selectable output), 700 mA current limit Integrated linear regulator control circuit to supply controller cores: LDO3 control for an external NPN power stage: 1.3V ±2% Post-regulators for off board supply: 2 Tracking regulators following the main 5 V, 105 mA and 50 mA Stand-by regulator with lowest current consumption: Linear voltage regulator as stand-by supply for e.g.memory circuits :Hardware selectable output voltages as 1.0 V or 2.6 V, 30 mA, Independent battery input, separated from Buck regulator input Hardware controlled on/off logic Undervoltage detection: Undervoltage reset circuits with adjustable reset delay time at power up ,Undervoltage monitoring circuit on stand-by supply Window watchdog circuit Overcurrent protection on all regulators Power sequencing on controller supplies Overtemperature shutdown Packages: Low Rthja Power-P-DSO-36; small exposed pad PG-DSO-36 PG-DSO-36 only: Green Product (RoHS compliant) AEC Qualified Benefits Powertrain: Transmission, EMS Safety: EPS Potential Applications High efficiency for complex supply systems Low current consumption in stand-by Easy realization of multiple supply rail systems Monitoring and control of µC by reset generator and window-watchdog Thermal enhanced exposed-pad package for wide temperature range Family Overview For different output voltage and package variants please click here. Applications Automatic transmission hydraulic system Automotive Diesel direct injection EV traction inverter On-board charging (OBC) for electric vehicles Designers who used this product also designed with TLE4253E | OPTIREG™ linear voltage regulators (LDO) IPD60N10S4L-12 | Automotive MOSFET IPB80N06S2L-11 | Automotive MOSFET IPG20N06S4L-26A | Automotive MOSFET TLE42764DV | OPTIREG™ linear voltage regulators (LDO) BSP76 | Classic HITFET™ 12V | automotive smart low-side switches BTS6133D | Classic PROFET™ 12V | automotive smart high-side switch IPD25N06S4L-30 | Automotive MOSFET IPD50N04S4L-08 | Automotive MOSFET TLE4953C | Magnetic speed sensors IPG20N06S4L-26 | Automotive MOSFET TLE42744GS V33 | OPTIREG™ linear voltage regulators (LDO) SAK-TC1782F-320F180H R BA | TC1784/82 (AUDO MAX) TLE42744G V33 | OPTIREG™ linear voltage regulators (LDO) TLE8242-2L | Constant current control IC for transmission TLE4253E | OPTIREG™ linear voltage regulators (LDO) IPD60N10S4L-12 | Automotive MOSFET IPB80N06S2L-11 | Automotive MOSFET IPG20N06S4L-26A | Automotive MOSFET TLE42764DV | OPTIREG™ linear voltage regulators (LDO) BSP76 | Classic HITFET™ 12V | automotive smart low-side switches BTS6133D | Classic PROFET™ 12V | automotive smart high-side switch IPD25N06S4L-30 | Automotive MOSFET 1 2 3 4
Request a Quote Datasheet
Description
The TLE7368-3E device is a multifunctional power supply circuit especially designed for Automotive powertrain systems using a standard 12 V battery. The device is intended to supply and monitor next generation 32-bit microcontroller families (13 μm lithography) where voltage levels such as 5 V, 3.3 V or 1.3 V are required. The regulator follows the concept of its predecessor TLE6368, where the output of a pre-regulator feeds the inputs of the micro’s linear supplies. In detail, the TLE7368 cascades a Buck converter with linear regulators and voltage followers to achieve lowest power dissipation. This configuration allows to power the application even at high ambient temperatures. he step-down converter delivers a pre-regulated voltage of 5.5 V with a minimum peak current capability of 2.5 A. Supplied by this step down converter two low drop linear post-regulators offer 5 V and 3.3 V (2.6 V) with high accuracy. The current capability of the regulators is 800 mA and 700 mA. The 3.3 V (2.6 V) linear regulator does have its own input allowing to insert a dropper from the Buck output to reduce the on chip power dissipation if necessary. For the same reason, reduction of on chip power dissipation, the core supply (1.5 V, 1.2 V or 1.3 V) follows the concept of integrated control circuit with external power stage. Implementing the on board and microcontroller supplies in this way described, allows operation even at high ambient temperatures.The regulator system contains the so called power sequencing function which provides a controlled power up sequence of the three output voltages. In addition to the main regulators the inputs of two voltage trackers are connected to the 5.5 V Buck converter output voltage. Their protected outputs follow the main 5 V linear regulator with high accuracy and are able to drive loads of 50 mA and 105 mA. To monitor the output voltage levels of each of the linear regulators two independent undervoltage detection circuits are available. They can be used to implement the reset or an interrupt function.For energy saving reasons, e.g. while the motor is turned off, the TLE7368 offers a stand-by mode. The standby mode can be enabled and disabled either by battery or the microcontroller. In this stand-by mode just the standby regulator remains active and the current drawn from battery is reduced to a minimum for extended battery lifetime. A selection pin allows to configure the output voltages of the stand-by regulator to the application’s needs. The input of the stand-by regulator is separated from the high power input of the pre-/post-regulator system. The TLE7368 is based on Infineon’s Power technology SPT™ which allows bipolar, CMOS and power DMOS circuitry to be integrated on the same monolithic chip/circuitry. Summary of Features High efficient next generation microcontroller power supply system Wide battery input voltage range < 4.5 V up to 45 V Operating temperature range Tj = -40 °C to +150 °C Pre-regulator for low all over power loss: Integrated current mode Buck converter 5.5 V/2.5 A Post-regulators, e.g. for system and controller I/O supply: LDO1: 5V ±2%, 800 mA current limit, LDO2: 3.3 V ±2% or 2.6V ±2% (selectable output), 700 mA current limit Integrated linear regulator control circuit to supply controller cores: LDO3 control for an external NPN power stage: 1.3V ±2% Post-regulators for off board supply: 2 Tracking regulators following the main 5 V, 105 mA and 50 mA Stand-by regulator with lowest current consumption: Linear voltage regulator as stand-by supply for e.g.memory circuits :Hardware selectable output voltages as 1.0 V or 2.6 V, 30 mA, Independent battery input, separated from Buck regulator input Hardware controlled on/off logic Undervoltage detection: Undervoltage reset circuits with adjustable reset delay time at power up ,Undervoltage monitoring circuit on stand-by supply Window watchdog circuit Overcurrent protection on all regulators Power sequencing on controller supplies Overtemperature shutdown Packages: Low Rthja Power-P-DSO-36; small exposed pad PG-DSO-36 PG-DSO-36 only: Green Product (RoHS compliant) AEC Qualified Benefits Powertrain: Transmission, EMS Safety: EPS Potential Applications High efficiency for complex supply systems Low current consumption in stand-by Easy realization of multiple supply rail systems Monitoring and control of µC by reset generator and window-watchdog Thermal enhanced exposed-pad package for wide temperature range Family Overview For different output voltage and package variants please click here. Applications Automatic transmission hydraulic system Automotive Diesel direct injection EV traction inverter On-board charging (OBC) for electric vehicles Designers who used this product also designed with TLE4253E | OPTIREG™ linear voltage regulators (LDO) IPD60N10S4L-12 | Automotive MOSFET IPB80N06S2L-11 | Automotive MOSFET IPG20N06S4L-26A | Automotive MOSFET TLE42764DV | OPTIREG™ linear voltage regulators (LDO) BSP76 | Classic HITFET™ 12V | automotive smart low-side switches BTS6133D | Classic PROFET™ 12V | automotive smart high-side switch IPD25N06S4L-30 | Automotive MOSFET IPD50N04S4L-08 | Automotive MOSFET TLE4953C | Magnetic speed sensors IPG20N06S4L-26 | Automotive MOSFET TLE42744GS V33 | OPTIREG™ linear voltage regulators (LDO) SAK-TC1782F-320F180H R BA | TC1784/82 (AUDO MAX) TLE42744G V33 | OPTIREG™ linear voltage regulators (LDO) TLE8242-2L | Constant current control IC for transmission TLE4253E | OPTIREG™ linear voltage regulators (LDO) IPD60N10S4L-12 | Automotive MOSFET IPB80N06S2L-11 | Automotive MOSFET IPG20N06S4L-26A | Automotive MOSFET TLE42764DV | OPTIREG™ linear voltage regulators (LDO) BSP76 | Classic HITFET™ 12V | automotive smart low-side switches BTS6133D | Classic PROFET™ 12V | automotive smart high-side switch IPD25N06S4L-30 | Automotive MOSFET 1 2 3 4
Request a Quote Datasheet

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Company
Product
Description
Supplier Links
Power - Power Supply ICs - OPTIREG™ PMIC - TLE7368-3E - TLE7368-3E - Infineon Technologies AG
Neubiberg, Germany
Power - Power Supply ICs - OPTIREG™ PMIC - TLE7368-3E
TLE7368-3E
Power - Power Supply ICs - OPTIREG™ PMIC - TLE7368-3E TLE7368-3E
The TLE7368-3E device is a multifunctional power supply circuit especially designed for Automotive powertrain systems using a standard 12 V battery. The device is intended to supply and monitor next generation 32-bit microcontroller families (13 μm lithography) where voltage levels such as 5 V, 3.3 V or 1.3 V are required. The regulator follows the concept of its predecessor TLE6368, where the output of a pre-regulator feeds the inputs of the micro’s linear supplies. In detail, the TLE7368 cascades a Buck converter with linear regulators and voltage followers to achieve lowest power dissipation. This configuration allows to power the application even at high ambient temperatures. he step-down converter delivers a pre-regulated voltage of 5.5 V with a minimum peak current capability of 2.5 A. Supplied by this step down converter two low drop linear post-regulators offer 5 V and 3.3 V (2.6 V) with high accuracy. The current capability of the regulators is 800 mA and 700 mA. The 3.3 V (2.6 V) linear regulator does have its own input allowing to insert a dropper from the Buck output to reduce the on chip power dissipation if necessary. For the same reason, reduction of on chip power dissipation, the core supply (1.5 V, 1.2 V or 1.3 V) follows the concept of integrated control circuit with external power stage. Implementing the on board and microcontroller supplies in this way described, allows operation even at high ambient temperatures.The regulator system contains the so called power sequencing function which provides a controlled power up sequence of the three output voltages. In addition to the main regulators the inputs of two voltage trackers are connected to the 5.5 V Buck converter output voltage. Their protected outputs follow the main 5 V linear regulator with high accuracy and are able to drive loads of 50 mA and 105 mA. To monitor the output voltage levels of each of the linear regulators two independent undervoltage detection circuits are available. They can be used to implement the reset or an interrupt function.For energy saving reasons, e.g. while the motor is turned off, the TLE7368 offers a stand-by mode. The standby mode can be enabled and disabled either by battery or the microcontroller. In this stand-by mode just the standby regulator remains active and the current drawn from battery is reduced to a minimum for extended battery lifetime. A selection pin allows to configure the output voltages of the stand-by regulator to the application’s needs. The input of the stand-by regulator is separated from the high power input of the pre-/post-regulator system. The TLE7368 is based on Infineon’s Power technology SPT™ which allows bipolar, CMOS and power DMOS circuitry to be integrated on the same monolithic chip/circuitry. Summary of Features High efficient next generation microcontroller power supply system Wide battery input voltage range < 4.5 V up to 45 V Operating temperature range Tj = -40 °C to +150 °C Pre-regulator for low all over power loss: Integrated current mode Buck converter 5.5 V/2.5 A Post-regulators, e.g. for system and controller I/O supply: LDO1: 5V ±2%, 800 mA current limit, LDO2: 3.3 V ±2% or 2.6V ±2% (selectable output), 700 mA current limit Integrated linear regulator control circuit to supply controller cores: LDO3 control for an external NPN power stage: 1.3V ±2% Post-regulators for off board supply: 2 Tracking regulators following the main 5 V, 105 mA and 50 mA Stand-by regulator with lowest current consumption: Linear voltage regulator as stand-by supply for e.g.memory circuits :Hardware selectable output voltages as 1.0 V or 2.6 V, 30 mA, Independent battery input, separated from Buck regulator input Hardware controlled on/off logic Undervoltage detection: Undervoltage reset circuits with adjustable reset delay time at power up ,Undervoltage monitoring circuit on stand-by supply Window watchdog circuit Overcurrent protection on all regulators Power sequencing on controller supplies Overtemperature shutdown Packages: Low Rthja Power-P-DSO-36; small exposed pad PG-DSO-36 PG-DSO-36 only: Green Product (RoHS compliant) AEC Qualified Benefits Powertrain: Transmission, EMS Safety: EPS Potential Applications High efficiency for complex supply systems Low current consumption in stand-by Easy realization of multiple supply rail systems Monitoring and control of µC by reset generator and window-watchdog Thermal enhanced exposed-pad package for wide temperature range Family Overview For different output voltage and package variants please click here. Applications Automatic transmission hydraulic system Automotive Diesel direct injection EV traction inverter On-board charging (OBC) for electric vehicles Designers who used this product also designed with TLE4253E | OPTIREG™ linear voltage regulators (LDO) IPD60N10S4L-12 | Automotive MOSFET IPB80N06S2L-11 | Automotive MOSFET IPG20N06S4L-26A | Automotive MOSFET TLE42764DV | OPTIREG™ linear voltage regulators (LDO) BSP76 | Classic HITFET™ 12V | automotive smart low-side switches BTS6133D | Classic PROFET™ 12V | automotive smart high-side switch IPD25N06S4L-30 | Automotive MOSFET IPD50N04S4L-08 | Automotive MOSFET TLE4953C | Magnetic speed sensors IPG20N06S4L-26 | Automotive MOSFET TLE42744GS V33 | OPTIREG™ linear voltage regulators (LDO) SAK-TC1782F-320F180H R BA | TC1784/82 (AUDO MAX) TLE42744G V33 | OPTIREG™ linear voltage regulators (LDO) TLE8242-2L | Constant current control IC for transmission TLE4253E | OPTIREG™ linear voltage regulators (LDO) IPD60N10S4L-12 | Automotive MOSFET IPB80N06S2L-11 | Automotive MOSFET IPG20N06S4L-26A | Automotive MOSFET TLE42764DV | OPTIREG™ linear voltage regulators (LDO) BSP76 | Classic HITFET™ 12V | automotive smart low-side switches BTS6133D | Classic PROFET™ 12V | automotive smart high-side switch IPD25N06S4L-30 | Automotive MOSFET 1 2 3 4

The TLE7368-3E device is a multifunctional power supply circuit especially designed for Automotive powertrain systems using a standard 12 V battery.

The device is intended to supply and monitor next generation 32-bit microcontroller families (13 μm lithography) where voltage levels such as 5 V, 3.3 V or 1.3 V are required. The regulator follows the concept of its predecessor TLE6368, where the output of a pre-regulator feeds the inputs of the micro’s linear supplies. In detail, the TLE7368 cascades a Buck converter with linear regulators and voltage followers to achieve lowest power dissipation. This configuration allows to power the application even at high ambient temperatures. he step-down converter delivers a pre-regulated voltage of 5.5 V with a minimum peak current capability of 2.5 A. Supplied by this step down converter two low drop linear post-regulators offer 5 V and 3.3 V (2.6 V) with high accuracy. The current capability of the regulators is 800 mA and 700 mA. The 3.3 V (2.6 V) linear regulator does have its own input allowing to insert a dropper from the Buck output to reduce the on chip power dissipation if necessary. For the same reason, reduction of on chip power dissipation, the core supply (1.5 V, 1.2 V or 1.3 V) follows the concept of integrated control circuit with external power stage. Implementing the on board and microcontroller supplies in this way described, allows operation even at high ambient temperatures.The regulator system contains the so called power sequencing function which provides a controlled power up sequence of the three output voltages. In addition to the main regulators the inputs of two voltage trackers are connected to the 5.5 V Buck converter output voltage. Their protected outputs follow the main 5 V linear regulator with high accuracy and are able to drive loads of 50 mA and 105 mA. To monitor the output voltage levels of each of the linear regulators two independent undervoltage detection circuits are available. They can be used to implement the reset or an interrupt function.For energy saving reasons, e.g. while the motor is turned off, the TLE7368 offers a stand-by mode. The standby mode can be enabled and disabled either by battery or the microcontroller. In this stand-by mode just the standby regulator remains active and the current drawn from battery is reduced to a minimum for extended battery lifetime. A selection pin allows to configure the output voltages of the stand-by regulator to the application’s needs. The input of the stand-by regulator is separated from the high power input of the pre-/post-regulator system. The TLE7368 is based on Infineon’s Power technology SPT™ which allows bipolar, CMOS and power DMOS circuitry to be integrated on the same monolithic chip/circuitry.


Summary of Features

  • High efficient next generation microcontroller power supply system
  • Wide battery input voltage range < 4.5 V up to 45 V
  • Operating temperature range Tj = -40 °C to +150 °C
  • Pre-regulator for low all over power loss: Integrated current mode Buck converter 5.5 V/2.5 A
  • Post-regulators, e.g. for system and controller I/O supply: LDO1: 5V ±2%, 800 mA current limit, LDO2: 3.3 V ±2% or 2.6V ±2% (selectable output), 700 mA current limit
  • Integrated linear regulator control circuit to supply controller cores: LDO3 control for an external NPN power stage: 1.3V ±2%
  • Post-regulators for off board supply: 2 Tracking regulators following the main 5 V, 105 mA and 50 mA
  • Stand-by regulator with lowest current consumption: Linear voltage regulator as stand-by supply for e.g.memory circuits :Hardware selectable output voltages as 1.0 V or 2.6 V, 30 mA, Independent battery input, separated from Buck regulator input
  • Hardware controlled on/off logic
  • Undervoltage detection: Undervoltage reset circuits with adjustable reset delay time at power up ,Undervoltage monitoring circuit on stand-by supply
  • Window watchdog circuit
  • Overcurrent protection on all regulators
  • Power sequencing on controller supplies
  • Overtemperature shutdown
  • Packages: Low Rthja Power-P-DSO-36; small exposed pad PG-DSO-36
  • PG-DSO-36 only: Green Product (RoHS compliant)
  • AEC Qualified

Benefits

  • Powertrain: Transmission, EMS
  • Safety: EPS

Potential Applications

  • High efficiency for complex supply systems
  • Low current consumption in stand-by
  • Easy realization of multiple supply rail systems
  • Monitoring and control of µC by reset generator and window-watchdog
  • Thermal enhanced exposed-pad package for wide temperature range

Family Overview


For different output voltage and package variants please click here.


Applications

  • Automatic transmission hydraulic system
  • Automotive
  • Diesel direct injection
  • EV traction inverter
  • On-board charging (OBC) for electric vehicles

Designers who used this product also designed with


  • TLE4253E |
    OPTIREG™ linear voltage regulators (LDO)
  • IPD60N10S4L-12 |
    Automotive MOSFET
  • IPB80N06S2L-11 |
    Automotive MOSFET
  • IPG20N06S4L-26A |
    Automotive MOSFET
  • TLE42764DV |
    OPTIREG™ linear voltage regulators (LDO)
  • BSP76 |
    Classic HITFET™ 12V | automotive smart low-side switches
  • BTS6133D |
    Classic PROFET™ 12V | automotive smart high-side switch
  • IPD25N06S4L-30 |
    Automotive MOSFET
  • IPD50N04S4L-08 |
    Automotive MOSFET
  • TLE4953C |
    Magnetic speed sensors
  • IPG20N06S4L-26 |
    Automotive MOSFET
  • TLE42744GS V33 |
    OPTIREG™ linear voltage regulators (LDO)
  • SAK-TC1782F-320F180HR BA |
    TC1784/82 (AUDO MAX)
  • TLE42744G V33 |
    OPTIREG™ linear voltage regulators (LDO)
  • TLE8242-2L |
    Constant current control IC for transmission
  • TLE4253E |
    OPTIREG™ linear voltage regulators (LDO)
  • IPD60N10S4L-12 |
    Automotive MOSFET
  • IPB80N06S2L-11 |
    Automotive MOSFET
  • IPG20N06S4L-26A |
    Automotive MOSFET
  • TLE42764DV |
    OPTIREG™ linear voltage regulators (LDO)
  • BSP76 |
    Classic HITFET™ 12V | automotive smart low-side switches
  • BTS6133D |
    Classic PROFET™ 12V | automotive smart high-side switch
  • IPD25N06S4L-30 |
    Automotive MOSFET

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Supplier's Site Datasheet

Technical Specifications

  Infineon Technologies AG
Product Category IC Power Supplies
Product Number TLE7368-3E
Product Name Power - Power Supply ICs - OPTIREG™ PMIC - TLE7368-3E
Package Type Other; PG-DSO-36
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