Power management Guide - STMicroelectronics
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Power management Guide
Contents
4 Introduction 54 Products
54 AC-DC conversion ICs
6 Applications 60 Battery management ICs
6 Energy generation and distribution
62 DC-DC switching conversion ICs
12 Power supplies
64 Digital power controllers and
33 Wearable devices - power management
microcontrollers
34 LED lighting and controls
68 Diodes and rectifiers
41 Electro-Mobility
70 Hot-swap power management
48 Industrial power & tools
72 IGBTs
51 Major home appliances
74 Intelligent power module - SLLIMMTM
53 Software tools 75 Intelligent power switches
53 eDesignSuite 76 LED drivers
81 Linear voltage regulators
82 LNB supplies
83 Photovoltaic ICs
84 Power MOSFETs
87 Power over ethernet ICs
88 Protection devices
90 STDRIVE MOSFET and IGBT gate drivers
91 USB Type-C and power delivery controllers
Introduction There is no secret when designing a power management
system or sub-system: regardless of the final use,
whether it is an energy generation or distribution
system, a power supply or a LED driving circuit, an
industrial SMPS or an electric vehicle power application,
it must provide high efficiency and low standby power,
as well as high power density, reliability and safety,
while respecting specific cost constraints.
The key enablers for any such system with the
above features are discrete and integrated power
semiconductors, which play a crucial role in every step
along the energy supply chain and, when applied in
conjunction with advanced control technologies, can
drive continuous improvement in energy savings for
homeowners and communities, and ultimately for the
entire planet.
The technological innovation that has been at the core
of ST’s strategy for more than 25 years is the reason
why ST today can offer an extensive range of cutting-
edge products for power and energy management. ST’s
portfolio includes higher-efficiency power technologies
such as :
• Silicon carbide power • DC-DC converters
discretes • Linear voltage regulators
• HV and LV power MOSFETs • Analog ICs
IGBTs
• Battery management ICs
• Customized power modules
• Digital controllers
• Diodes
• STM32 microcontrollers
• Protection devices
• MOSFET and IGBT gate
• AC-DC converters and drivers
controllers
Moreover, ST offers a variety of high performance
sensors as well as wireless and wired connectivity
ICs to complement the latest smart power electronics
More than 30 years of technology applications with additional sensor-driven features and
innovation in power management directly monitoring functions.
ST is also committed to the development of GaN power
resulting in value creation for our customers, devices, which represent a major step forward in power
from products to system solutions electronics by providing high-frequency operation with
increased efficiency and higher power density than
silicon based transistors.
Additionally, we provide a comprehensive range
of reference designs and hardware and software
evaluation and development tools, including the
eDesignSuite tool that can help engineers design and
optimize their high efficiency power solutions.
4 5
Applications Typical Block Diagram for Central Inverter
Remote
Input Line Grid Monitoring AC grid
Relay Filter Relay
Inverter
DC-DC DC-AC
EMC = = EMC
Smart Filter Filter
String = 3 ~
Combiner
Box Optional
ENERGY GENERATION AND Input Input AC Line AC Line
Smart
Meter
AC
Disconnect
DC-DC DC-AC
DISTRIBUTION Junction Junction
Voltage Current Current Voltage
Sensing Sensing Sensing Sensing MOS/IGBT Drivers MOS/IGBT Drivers
Protections Aux PS
Box Box
DC bus
Solar Centralized Generation - Solar Sensing Signal DC-DC DC-AC
EEPROM Connectivity
Conditioning MCU MCU
Inverters (String and Central)
String and central inverters are the most common Junction Junction
power conversion systems used for gridconnected Box Box
solar applications. They comprise a DC-DC
Solar Data logger / Internet Gateway
conversion stage, to adapt voltage levels and Junction Junction Tracker
implement the Maximum Power Point tracking Box Box Motor CTRL MCU Local Monitoring
(MPPT) function to maximize energy transfer String 1 String n
Motion Connectivity EEPROM
Internet Access
from the panel, and a DC-AC conversion stage to PV panels Sensors
Environmental Protections Aux PS
correctly shape current and voltage waveforms Sensors
Connectivity
transferred to the AC grid. The inverter has an anti- AUX PS
Remote Monitoring
islanding function that guarantees safety in case Internet Access
of AC disconnection. With power ranging from a Communication Path
Power Path
few kilowatts for string and multi-string inverters
to tens or hundreds of kilowatts for central inverter
solutions, the trend is to use topologies with very ST’S product offering for String and Central Solar Inverter
high input voltages (up to 1500 V).
Power MOSFFETs IGBTs Power Modules Diodes & Discretes
We offer a broad range of silicon-carbide (SiC) power 600 V-650 V MDmesh DM2 600 V V series 600 V Ultrafast
MOSFETs - with the industry’s highest operating STG*V60DF STTH*06
ST*60DM2, ST*65DM2 STTH*R06
junction temperature of 200 °C - and trench-gate ACEPACK
600 V-650 V MDmesh DM6 650 V HB series
field-stop IGBTs, that can be also combined into our high-efficiency ACEPACK power modules. Together with galvanically- Power Modules 1200 V Ultrafast
ST*60DM6, ST*65DM6 STG*H65DFB
STTH*12
isolated gate drivers and high-performance STM32 microcontrollers we enable engineers to design high-efficiency string and 650 V HB2 series A1P50S65M2
central inverters. In addition we have a range of wireless and wired connectivity solutions. 650 V MDmesh M5 STG*H65DFB2 A1P25S12M3 100 V Power Schottky
Inverter Power Stage
ST*65M5 A1P35S12M3 STPS*100
DC-DC and DC-AC 650 V M series
Typical Block Diagram for String Inverter 1200 V MDmesh K5 STG*M65DF2 A2P75S12M3 SiC Diodes
ST*N120K5 A1P25M12W2-11 STPSC*065
Remote 1200 V H series STPSC*H12
Bulk Caps A1P18M65W2-11
DC Link Monitoring AC grid SiC MOSFETs STG*H120DF2
TVS for Power MOSFET & IGBT
DC-DC with MPPT DC-AC SCT*N65G2, SCT*N120, 1200 V M series Protection
Inverter Line Grid SCT*N120G2 STG*M120DF3 SMA4F, SMA6F, SMB15F series
Power Filter Relay
Diodes
Transistors Power MCUs MOSFET and IGBT Gate Drivers Protections Connectivity
Transistors
HV HB Gate Drivers
and STM32F334
Power L649* TVS for Power Rail Surge
Modules STM32G4 Isolated Gate Drivers Protection
DC-DC with MPPT
Inverter STM32H7 STGAP* SMA4F, SMA6F, SMB15F,
Power Smart AC Bluetooth Low Energy
Diodes Diodes SMC30J series
Transistors Meter Disconnect Driving & Control stage STM32F3 Multiple LS Gate Drivers BlueNRG, STM32WB
Junction Junction STM32F4 PM8834 ESD and High Speed Port series
Box Box
Input Input AC Line AC Line Single LS Gate Drivers for Ethernet and USB Protection Power Line Transceivers
DC-DC DC-AC Protections Aux PS STM32F7 ST8500, ST7580
Voltage Current Current Voltage
MOS/IGBT Drivers MOS/IGBT Drivers
PM88*1
Sensing Sensing Sensing Sensing
MCUs EEPROM Protections RS-422 and RS-485
DC bus STM32F0
Sensing ST3485*, STR485*
Signal DC-DC DC-AC
Junction Junction Conditioning MCU MCU
EEPROM Connectivity Sensors Data Logger/Internet STM32G0 ESD and High Speed Port series
Standard Serial EEPROM
Box Box Gateway STM32F1 for Ethernet and USB Protection
Data logger / Internet Gateway STM32F3
Junction Junction Motor CTRL Motion Sensors Enviromental Sensors Connectivity
Box Box MCU Accelerometer
Local Monitoring
String 1 String 2 Internet Access IIS3DHHC, IIS2DH, IIS2ICLX Pressure - LPS22HH
PV panels PV panels Connectivity EEPROM
3-phase Field Oriented Control Magnetometer-IIS2MDC Pressure water proof - LPS33W Bluetooth Low Energy
Solar Tracker
Protections Aux PS (FOC) eCompass-ISM303DAC Temperature - STTS22H BlueNRG, STM32WB
6 axis IMU-ISM330DLC , Humidity - HTS221
Remote Monitoring ISM330DHCX
Communication Path Internet Access Note: * is used as a wildcard character for related part number 1 samples available in Q4 2020
Power Path
6 7
Solar Distributed Generation - Microinverter Solar Distributed Generation - Power Optimizer
In residential photovoltaic systems Microinverters are often used as an alternative to string inverters to perform the DC to AC In architectures based on the use of power optimizers, the maximum power point tracking (MPPT) function is performed at the
power conversion at panel level, helping maximize energy yield and mitigate problems related to partial shading, dirt or single level of photovoltaic panels, individually operating each one at its optimal I-V point which ensures maximum power generation.
panel failures. A microinverter consists of a DC-DC converter - implementing maximum power point tracking (MPPT) - and This results in an improved energy yield of the overall solar system compared to traditional string or central inverter based
a DC-AC inverter to shape current and voltage for injection into the AC grid. Data – including voltage, current and power architectures.
generated - from all the microinverters in the installation are collected by a concentrator and dispatched to a local or remote Power optimizers can help minimize a system’s design constraints as well as improve reliability and safety – by helping ensure
monitoring and control access point. compliance with the latest NEC 2017 regulations that require rapid shut-down in the event of grid disconnection, while at the
Our solution includes MDmesh and STripFET power MOSFETs, high-voltage, galvanically isolated gate drivers, high-voltage same time reducing maintenance costs.
silicon-carbide (SiC) diodes together with high-performance STM32 microcontrollers - providing a set of dedicated peripherals We provide high-performance STM32 microcontrollers as well as high-efficiency STripFET F7 LV Power MOSFETs, Diodes, SiC
to help implement complex power conversion control algorithms. A range of wireless and wired connectivity solutions including MOSFETs and trench-gate field-stop IGBTs, galvanically-isolated gate drivers and power line communication solutions to help
multi-standard power line modems complete the solution. achieve superior efficiency and reliability for power optimizer based architectures.
ST’s product offering for Microinverter ST’s product offering for Power Optimizer
Power MOSFFETs Diodes Protections Signal Conditioning
MCUs Power MOSFETs Gate Drivers By Pass Diodes Diodes Protections Connectivity
60 V-100 V STripFET F7
ST*N6F7, ST*N8F7, ST*N10F7 600 V Ultrafast Bluetooth Low Energy
600 V-650 V MDmesh DM2 STTH*R06 STM32F334 60 V to 100 V 30 V to 45 V 100 V to 200 V BlueNRG, STM32WB
ST*60DM2, ST*65DM2 1200 V Ultrafast STripFET F7 Power Schottky Power Schottky Power Line Transceivers
TVS for Power MOSFET and STM32F0
600 V-650 V MDmesh DM6 STTH*S12 Precision Op Amps (
Energy Distribution - Home & Commercial Battery Storage Typical Block Diagram - Commercial Battery Storage System
Systems
DC-DC Converter Bidirectional DC-AC Converter
AC grid
The adoption of energy storage devices, whose reserve capacity can DC-DC Converter Bidirectional DC-AC Converter
be used for balancing purposes, peak-load shaving or to shift loads, is DC-DC Converter Bidirectional DC-AC Converter
increasingly widespread in energy distribution networks. String MOSFET/IGBT Power MOSFET/IGBT
SiC FETs/IGBT
Combiner Drivers Transistors Drivers
Two use cases are particularly important: the use in residential or Box
Diodes Diodes
commercial building to help reduce consumers’ electricity bills by
MCU MCU
reducing energy consumption from the grid during peak hours and to Smart Meter
Bidirectional DC-DC Converter
help avoid stability and voltage drop issues associated with the fast- Connectivity
Signal
Bidirectional DC-DC Converter Connectivity
Signal
Conditioning Conditioning
charging schedules of the increasing number of electric vehicles (EV). Bidirectional DC-DC Converter
Aux PS Protections Aux PS Protections
By interacting with the grid, batteries and potentially solar panels, Junction Junction
MOSFET/IGBT Power
Drivers Transistors
power converters are at the heart of these systems and must operate Box Box Sensors Sensors
with high-efficiency and superior reliability over time. Diodes
We can provide a range of power discretes including silicon-carbide MCU Remote Monitoring
Bidirectional
(SiC) and silicon power transistors, ACEPACK power modules, silicon- Bidirectional Signal DC-DC
Internet Access
Junction Junction DC-DC Connectivity
carbide (SiC) and silicon diodes, isolated gate drivers and high- Conditioning Converter
Box Box Converter
performance STM32 microcontrollers as well as energy metering ICs to Aux PS Protections Data logger / Internet Gateway
help develop high-efficiency commercial battery storage systems. Junction Junction Battery 1 Battery 2 Sensors Battery n
Box Box MCU Local Monitoring
Connectivity EEPROM
Typical Block Diagram - Home Battery Storage System PV panels PV panels
Protections Aux PS
devices
Communication Path
Power Path
Remote Monitoring
Bidirectional Hybrid Inverter Internet Access
Battery bank DC/DC DC/AC ST’s product offering for Home & Commercial Battery Storage Systems
Temperature Power
Sensors Transistors AC grid Power MOSFETs IGBTs Power Modules MOSFET and IGBT Gate Drivers Diodes & Discretes
DC-DC Converter
40 V-100 V STripFET F71
Power & Bidirectional ST*N4F7, ST*N6F7, ST*N8F7, 600 V Ultrafast
Diodes Transistors DC-DC Converter ST*N10F7 STTH*06
600 V-650 V MDmesh M2 STTH*R06
Power Stage ST*60M2, ST*65M2 ACEPACK
MOS/IGBT HV HB Gate Drivers 800 V to 1200 V Ultrafast
Smart Power Modules
Drivers 600 V-650 V MDmesh M6 600 V V series L649* STTH*08
Meter ST*60M6, ST*65M6 STG*V60DF STTH*10
Isolated Gate Drivers STTH*12
600 V-650 V MDmesh DM2 650 V HB series A1P50S65M2
ST*60DM2, ST*65DM2 STG*H65DFB STGAP*
Diodes A1P25S12M3 SiC Diodes
DC/DC DC-AC 600 V-650 V MDmesh DM6 650 V HB2 series A1P35S12M3 Multiple LS Gate Drivers STPSC*065
Remote Converter ST*60DM6, ST*65DM6 STG*H65DFB2 A2P75S12M3 PM8834 STPSC*H12
Power Monitoring 800 V to 1200 V MDmesh K5 650 V M series A1P25M12W2-13 Single LS Gate Drivers TVS for Power MOSFET
Transistors Power Stage ST*80K5, ST*9*K5 STG*M65DF2 A1P18M65W2-13 PM88*1 & IGBT Protection and for
String ST*105K5, ST*120K5
1200 V H series Power Rail Surge Protection
Combiner Local Monitoring Remote Monitoring SiC MOSFETs STG*H120DF2
Diodes MOS/IGBT
Box SCT*N65G2
1200 V M series
SMA4F, SMA6F, SMB15F,
Drivers SCT*N120 series
SCT*N120G2 STG*M120DF3
PV panels MOS/IGBT
Drivers MCUs Signal Conditioning EEPROM Sensors Connectivity
STM32F334 Standard Serial
Precision Op Amps EEPROM
STM32G4 Pressure - LPS22HH Power Line Transceivers
(
POWER SUPPLIES Non Isolated Auxiliary SMPS
Auxiliary SMPS In a number of applications the reference of the secondary circuit is connected to the same reference as the primary – the AC
mains. In such cases, an off-line non-isolated auxiliary power supply can be used to provide a regulated DC voltage using an
Many appliances and equipment require the availability of a switch-mode power supply (SMPS) that works separately from the
inductor or low-cost transformer – with simplified isolation – as an energy transfer element by modulating the power supply’s
main power supply to support, for instance, stand-by operation. Power ratings can vary from a few watts to tens of watts for
duty-cycle.
these auxiliary supplies, which can be either isolated or non-isolated. To ensure good performance, engineers must choose
the power topology – including fixed frequency or quasiresonant flyback – that best meets the efficiency, size, safety and cost A buck – step-down – topology can be used to generate a positive output with respect to the common terminal and a buck-
requirements. boost when the output voltage needs to be negative. A non-isolated flyback converter is the alternative when a higher output
ST offers a wide portfolio of highly-integrated high voltage converters for applications up to 20 W, with an extremely low total power is required.
stand-by consumption – down to less than 4 mW – and breakdown voltages as high as 1050 V. In addition to PWM switching
controllers, power MOSFETs and diodes, we offer an extensive set of evaluation and development tools as well as reference ST’s recommended products for Non-Isolated Auxiliary SMPS
designs to help engineers develop high-efficiency and compact auxiliary power supply solutions.
HV converters VIPer Protection Reverse blocking diodes Output diodes LDO
Isolated Auxiliary SMPS
Buck 600 V Ultrafast STTH*06
In the power range up to 20 W, ST helps the designers of high-power-density and cost-effective isolated auxiliary power supplies
with higher switching frequencies solutions to minimize transformer and output capacitor size. The power stage is managed by a 800 V to 1200 V Ultrafast
Buck-boost VIPer0P STTH*08
high voltage converter. Low Dropout (LDO) Linear
VIPer*1 STTH*10
In the 20 to 75 W power range, the need to meet increasingly tight efficiency and stand-by requirements for auxiliary power Regulators
supplies has pushed the use of quasi-resonant topologies replacing more mainstream fixed frequency based designs. The power VIPer*6 600 V Ultrafast STTH*06
VIPer122 Schottky, FERD LDF, LDFM, LDK220,
stage is managed by an off-line controller coupled with HV power MOSFETs. 800 V to 1200 V Ultrafast LDK320, LDL212
VIPer222 SMA4F, SMA6F, SMB15F STPS*
Non-isolated flyback STTH*08
series FERD*45, FERD*50,
ST’s recommended products for Isolated Auxiliary SMPS STTH*10 FERD*60, FER*100
STTH*12
Offline MOSFET Voltage Ref Output
HV converters HV Power MOSFETs Synch Rect LDO
controllers Protection CC/CV Ctrl diodes Note: * is used as a wildcard character for related part number
PSR-CV HVLED001* Power MOSFET
Protection: Typical configurations for Non-Isolated Auxiliary Power Supply
800 V to 1700 V MDmesh K5 SMA4F, SMA6F, SR Controllers Low
VIPer0P
ST*80K5, ST*9*K5, SMB15F series Voltage Schottky, SRK1000*,SRK1001 Dropout
ST*105K5, ST*120K5, (LDO)
VIPer*1 Reverse blocking Reference FERD
LV Power MOSFETs Linear AC VOUTDC AC
ST*150K5, ST*12N170K5 diodes T*431 STPS*
Isolated VIPer*6 Regulators
flyback Regulation VIPer*5 VIPer122 STCH03 600 V-650 V MDmesh M6 600 V Ultrafast T*432 FERD*45 40 V-100 V
LDF
L6566B FERD*50 STripFET F7
with VIPer*7 VIPer222 L6566BH ST*60M6, ST*65M6 STTH*06 LDFM
optocoupler VIPer*8 ALTAIR* 800 V to 1200 V Voltage and FERD*60 ST*N4F7, ST*N6F7,
L6565 Current Ctrl FER*100 LDK220
SiC MOSFET Ultrafast ST*N8F7, LDK320
TSM*, IC Supply & Feedback
SCT*N65G2 STTH*08
SEA05* ST*N10F7 LDL212 PWM
STTH*10 Controller
STTH*12
Direct feedback VOUTDC
Note: * is used as a wildcard character for related part number PWM HV Converter
Controller +
Typical configuration for Isolated Auxiliary Power Supply up to 20 W based on VIPerPlus or 75W and more based on
PWM Controllers HV Converter Flyback Converter
Buck Converter
AC VOUTDC
MCU
or
ASIC AC
Synch. Rect. MAIN EVALUATION BOARDS
Controller
Gate Drivers
STEVAL-VP12201B
Connectivity ICs IC Supply & Feedback 15 V / 200 mA buck converter
PWM
Vref or Controller
CC/CV Ctrl Sensors
PWM HV Converter VOUTDC
User Interface ICs
Controller
STEVAL-ISA178V1
HV Converter 5 V / 0.2 A buck converter
MAIN EVALUATION BOARDS AND REFERENCE DESIGNS Buck-Boost Converter
STEVAL-VP26K01F STEVAL-ISA181V1 STEVAL-VP26K03F EVAL-STCH03-45W
Three outputs, isolated SSR flyback 12 V / 600 mA isolated SSR Double output isolated PSR flyback 45 W / 12 V QR flyback STEVAL-VP22201B
converter with extended input flyback converter with Zero converter with extended input with adaptive synchronous 5 V / 0.36 A
voltage range for Smart Meter and Power remote control voltage range rectification buck converter
Power Line Communication
STEVAL-ISA196V1
5 V / 1.2 A non-isolated flyback converter
12 13
Smart Chargers and Adapters Typical block diagram with Certified Source and Sink Standalone Controllers
Today, many device charging technologies and standards designed to ensure interoperability and improve convenience and Source port Sink port (high power up to 100 W (20 Vbus))
ease of use are available , including wireless charging, quick charge and USB Type-C and Power Delivery.
ST can help engineers design charging solutions that meet requirements set by the mainstream standards – as well as USB Type-C receptacle USB Type-C receptacle
proprietary charging protocols – with innovative converter architectures enabling best-in-class energy efficiency and power
density as well as ensuring the lowest possible stand-by power.
SRC path VBUS VBUS SINK path
USB Type-C™ PD Adapters and Quick Chargers DC/DC Load
The new slim and reversible USB Type-C™ connector with USB Power Delivery (PD) feature provides up to 100 W (20 V, 5 A)
enabling a faster and more efficient charging solution. Having considerably expanded the capability of USB devices, these
connectors are now widely found in wall chargers and adapters.
Designers of USB Type-C™ and Power Delivery compliant adapters and wall chargers can benefit from stand-alone CC CC
STUSB47 STUSB45
controllers, from STM32 microcontrollers and their associated protocol stack, our STSAFE secure element as well as a
specifically developed range of protection and filtering devices.
ST’s recommended products for USB Type-C Power Delivery Subsystem
Type-C and USB-PD Controllers Protections
Programmable Solutions Single and multi lines Type C Port protection
Authencitcation High surge
Standalone protection for MCUs Over voltage protection LDO
Type-C Controller/ & Secure MCUs Vrm current compact
MCUs Solutions Communication Channel (CC) for USB-C and PD 3.0
interface protection (VBUS)
and Side Band Use (SBU) controllers
STUSB1600 ESDA25P35-1U1M ESDL20-1BF4 Power supply Consumer device
STM32G0, STM32G4, STM32L5 20 V
STUSB1700 ESDA24P140-1U3M ESDA25W ST715 standalone PD controller standalone PD controller
STUSB4500L ESDA17P100-1U2M LDK320
15 V ESDA17P20-1U1M
STUSB4500 STSAFE-A ESDA15P50-1U1M TCPP01-M12
STM32F0 Load Switch
STUSB1602A STUSB4700 9 V ESDA13P70-1U1M
STM32F3
STUSB4710 ESDA6V1L MAIN EVALUATION BOARDS AND REFERENCE DESIGNS
5 V ESDA7P120-1U1M STELPD01
STUSB4761 ESD051-1F4
STEVAL-ISC004V1 STEVAL-ISC005V1 EVAL-SCS001V1 EVAL-SCS002V1
STUSB4710A USB Power Delivery STUSB4500 USB Power Delivery 5V-20V SINK USB-PD reference 5V SINK USB-C reference design
Typical configuration evaluation board (with on-board evaluation board design (migration from DC barrel) (migration from USB micro-B)
DC-DC)
Primary Secondary
Authentification
PFC Secondary
Controller One Chip
Primary USB Power Dp/Dn
Controller Delivery
USB Type-CTM CC lines USB X-NUCLEO-USBPDM1 X-NUCLEO-DRP1M11
MOSFETs Controller
Interface (PHY) Protections Type-CTM USB Type-C™ Power Delivery USB Type-C Power Delivery Dual
MOSFETs receptacle SINK expansion board based on Role Power expansion board based
TCPP01-M12 on TCPP03-M201
Diodes VBus
Diodes Power
Load switch
Management
MAIN EVALUATION BOARDS AND REFERENCE DESIGNS
STEVAL-USBPD45C EVLSTCH03-45WPD STEVAL-USBPD27S X-NUCLEO-SRC1M11 Note: 1 available in Q4 2020
45 W USB Type-C™ Power Delivery 45 W USB Type-C™ Power Delivery 27 W USB Type-C™ Power USB Type-C Power Delivery
3.0 adapter reference design with 3.0 adapter reference design with Delivery 3.0 adapter with PPS Source expansion board based on
programmable controller (MCU) certified standalone controller fetature TCPP02-M181
Note: 1 available in Q4 2020
14 15
Automotive-grade USB Type-C and Power Delivery solution Adapters for Tablets, Notebook and All-in-One (AIO) Computers
The USB Type-C and USB Power Delivery specifications allow smarter connectivity with fewer cables, less connectors and Power AC-DC adapters for notebooks, tablets and AIO need to be small, thin, lightweight and provide excellent EMI
universal chargers. performance as well as ultra-low, highly efficient standby power, regardless of the load conditions.
The Type-C connector supports all the features of previous standards, and ports can be configured to only supply power in a A typical high-efficiency design includes a flyback stage with synchronous rectification and for higher power, a Power Factor
Provider role,only sink power in a Consumer role, or be able to switch between both in a Dual role. Both data and power roles Corrector (PFC) working in Transition Mode (TM) followed by a flyback, forward or half-bridge LLC resonant stage with
can be independently and dynamically swapped using the USB Power Delivery protocol. Most of the automotive applications synchronous rectification.
require support for the Provider role only. When a USB device is connected, the Provider and the device (Consumer) negotiate ST offers a broad range of high-voltage MDmesh™ and low-voltage STripFET power MOSFETs as well as standard and
a contract for the power objects through configuration channels. field-effect rectifiers (FERD). Our offering also includes a range of PFC, PWM primary controllers, synchronous rectification
controllers, and single-chip analog and digital combo controllers.
Typical Block Diagram for Automotive grade USB Power Delivery
ST’s recommended products for Tablets, Notebook and AIO Adapters
Controllers Power MOSFETs Diodes
600 V-650 V MDmesh M2
+12 V Step Down ST*60M2, ST*65M2, ST*60M2-EP
TM Analog Controllers 600 V Ultrafast for TM
3.3 V Switching 5 V
PFC L6562A*, L6563*, L6564* 600 V-650 V MDmesh M6 STTH*L06, STTH*06, STTH15AC06*
Power Supply Regulator
Block ST*60M6, ST*65M6
Protections L5964 Low dropout
CCM Analog Controllers 600 V Ultrafast for CCM
SM6T28AY L4981*, L4984D 650 V MDmesh M5 STTH*R06, STTH*T06
regulator
ST*65M5
LD1117A
Ballast Load switch
Converters & Controllers Power MOSFETs Diodes & Discretes Voltage Reference, CC/CV Ctrl
2STN1360 3.3 V TVS 800 V to 950 V MDmesh K5 Output Diodes for Flyback Voltage Reference
STD28P3LLH6AG SM4T26AY HV Converters for Flyback
ST*80K5, ST*9*K5 Schottky, FERD, STPS*, T*431, T*432
NPN SPI USB Type-C STD45P4LLF6AG SSR: VIPer*5, VIPer*7, VIPer*8
PSR: VIPer0P, VIPer*1, VIPer122, VIPer222, FERD*45, FERD*50,
controller 600 V-650 V MDmesh M2 Voltage and Current Ctrl
Data ESD Protection USB Type C VIPer*6, ALTAIR* ST*60M2, ST*65M2, ST*60M2-EP
FERD*60, FERD*100
Control STUSB1702 TSM*, SEA05*
USBLC6-2SC6Y Flyback Controllers Clamping Diodes for Flyback
Unit Current Sense STCH03, L6566A, L6566B, L6565 600 V-650 V MDmesh M6 Post Regulation
600 V to 1000 V Ultrafast
IC
2
USB Type-C TSC1031IYPT ST*60M6, ST*65M6
STTH*06, STTH*08, STTH*10
Isolation PFC & LLC
SPC58 TVS DC-DC Converters
controller Load switch Stage Combo Controllers 600 V-650 V MDmesh DM2
Output Diodes for LLC
Chorus SM4T26AY STCMB1, STNRG011 ST*60DM2, ST*65DM2 ST1S*, ST1S40, ST1S50
STUSB1702 STD28P3LLH6AG Schottky, FERD
SPI LLC Analog Controllers STPS* Low Dropout (LDO)
STD45P4LLF6AG ESD Protection USB Type C
600 V MDmesh DM6
L6599*, L6699 ST*60DM6 FERD*45, FERD*50, Linear Regulators
Data USBLC6-2SC6Y SR Analog Controllers FERD*60, FERD*100 ST715
40 V-100 V STripFET F7
SRK1000, SRK1001 for Flyback MOSFET protection for Flyback LDK320
ST*N4F7, ST*N6F7, ST*N8F7,
SRK2000A, SRK2001, SRK2001A for LLC SMA6F, SMB15F series
ST*N10F7
Complete USB Power Delivery version 2.0 including software stack available in AutoDevKit. Note: * is used as a wildcard character for related part number
Typical Block Diagram with PFC Front-End
AEK-POW-L5964V1
Alternative to LLC Converter
AC Input Rect. PFC LLC Flyback Output Rect. VOUTDC
TM/CCM PFC LLC Flyback Synch. Rect.
AEK-USB-2TYPEC1 controller controller controller controller
Analog/Digital combo controller
AEK-MCU-C4MLIT1
MAIN EVALUATION BOARDS AND REFERENCE DESIGNS
EVLSTCH03-36W-SR EVLCMB1-90WADP EVLSTNRG011-150 EVL400W-EUPL7
Digitally controlled dual-channel DC-DC suitable for USB Power Delivery 3.0
36W USB charger with selectable 19 V - 90 W adapter based on 12 V - 150 W power supply 12 V - 400 W adapter based on
output voltage (5-9-12 V @3A) TM PFC and HB LLC analog based on TM PFC and HB LLC CCM PFC and HB LLC analog
KEY FEATURES based on QR flyback with adaptive combo controller digital combo controller controller
• Dual independent channel up to 3A each • PPS-V: PWM programmable output voltages with 20 synchronous rectification
• Compatible with both 12V and 24V input mV steps
• Combined channels for up to 100W • PPS-I: PWM programmable output current with 50
mA steps
• Digitally selectable fixed output voltages: More details available on AN5362
3.3 - 5 - 9 - 15 - 20 V
Note: EU CoC ver. 5 Tier 2 and EuP lot 6 Tier 2 compliance ensured
16 17
Wireless Charging Desktop PCs Power Supply
Wireless chargers are expected to become ubiquitous in hotels, airports, cafes and other public places as they enable topping The requirements for the standard ATX PC power market are a small form factor with better performance.
off the batteries of portable and wearable devices, letting the user forget about cables. An intelligent control scheme that enables the adaption of load variation to minimize power consumption, together with
In a wireless battery charging system, power is transferred by electromagnetic induction (inductive power transfer) between optimized power semiconductors, is the key in meeting market demands. The smart analog and digital controllers, such as the
STCMB1 and the STNRG011, the high-voltage MDmesh™ Power MOSFETs used for the PFC and DC-DC stages, the low-
a transmitting pad - or dongle (TX) - and the batterypowered device (RX), such as a smartphone, smartwatch or sports gear.
voltage STripFET Power MOSFETs for synchronous rectification, and SiC diodes (STPSC*) help designers develop the best PC
The power transmitter unit controls the current in the transmitting coil to transfer the correct amount of power as required by power supply solutions to improve efficiency. ST’s DC-DC converters guarantee high power density for the post-regulation.
the receiver unit that continuously provides this information to the transmitter by modulating the transmitter carrier frequency
through controlled resistive or capacitive load insertion. Generating the correct amount of power guarantees the highest level ST’s recommended products for Desktop PC’s Power Supply
of end-to-end energy efficiency and helps limit the device’s operating temperature.
Controllers Power MOSFETs Diodes & Discretes Opamp V/I Sensing
We have a range of wireless battery charging solutions including transmitters and receivers providing low stand-by power and
600 V Ultrafast for TM Precision Op Amps (Server & Telecom Power ST’S product offering for Server and Telecom AC-DC PSU
AC-DC PSU & DC-DC power distribution SCRs Diodes
Data centers house thousands of servers, usually built in very dense Input Stage
Bridge Rectifier Diodes
network farms. Data center power requirements are constantly (Rect. & inrush
STBR*08, STBR*12
increasing and traditional power systems are no longer sufficient to meet current limiter)
Controllers High Temp. SCR Diodes & Discretes MOSFET and IGBT Gate Drivers
this growing demand. The power distribution chain, from the front-end TN*015H-6, TN*050H-8,
AC-DC stage to the back-end DC-DC power distribution, needs to 600 V Ultrafast for CCM HV HB Gate Drivers
TN*050H-12W L649*
deliver the best performance in terms of efficiency, power density and STTH*R06
ability to interface with the digital world. STTH*T06 Isolated Gate Drivers
In telecom system power, the use of complex digital ASICs for managing CCM Analog Controllers SiC Diodes STGAP*
growing data traffic is pushing further the power envelope. Telecom L4981*, L4984D Power MOSFETs STPSC*065 Multiple LS Gate Drivers
power management systems have to be highly energy-efficient and very 600 V-650 V MDmesh M2 PM8834
MCUs & Digital Controllers TVS for Power MOSFET and Power Rail
PFC Block ST*60M2, ST*65M2
dense to deliver the required high levels of power, while maintaining STM32F0, STM32G0, Surge Protection Single LS Gate Drivers
reasonable power consumption. STM32F301, STM32F334, STM32G4, 600 V-650 V MDmesh M6 SMA4F, SMA6F, SMB15, series PM88*1
STNRG388A, STNRGPF01, ST*60M6, ST*65M6
ST offers an extensive product and solution coverage to ensure the most Opamp V/I Sensing eFuses
STNRGPF12
optimized power design across the entire distribution chain. Our digital 650 V MDmesh M5
and analog controllers combined with MOSFETs and drivers are key ST*65M5 Precision Op Amps (Power Distribution for Modern Data Center Typical Configuration for Switched-Tank Converter (STC) System - 48 V to 12 V non isolated unregulated IBC
To support the evolution and expansion of cloud services, the internet ST*N6F7, ST*N8F7
of things, mobile apps and new generation of telecommunication Bootstrap Power MOSFTEs
infrastructure, the demand for data centers performance is growing VIN
exponentially with more powerful CPUs, and this segment is
expanding in artificial intelligence and machine learning. M1 M2 M3 M4
Hot
In the newest architecture a 48 V DC rail is generated from the AC-DC Swap Fly MOSFETs M5 M7 M9
power supply unit that will then be converted to provide the number Driver
of DC rails needed to supply the variety of loads and circuits in the
STPRDC02
server. This conversion must meet stringent efficiency targets requiring
innovative architectures like those developed by ST.
We offer a wide range of high-efficiency regulated and unregulated
To M3, M4 Driver Bootstrap
DC-DC conversion solutions including STB, STC, HSTC for 48 V to 12V
intermediate bus conversion. STNRG328A M6 M8 M10
STPRDC02
Moreover we offer 12V to Point of Load conversion including To M7, M8 Driver
To M9, M10 Driver Synch MOSFETs
multi-phase digital controller and Smart Power Stages (SPS) to support Driver
the most recent INTEL and AMD CPU specifications.
Finally, ST offers direct conversion solutions, from 48V to the point of
load, based on the Power Stamp Alliance (PSA) products.
Typical Configuration for STBUCK - 48 V to 12 V non isolated regulated IBC
Power Delivery for Modern Data Center
VIN
2° Stage (12 V) ST*N8F7 - ST*N10F7
Power MOSFETs
SPS PM70x
1° Stage (IBC) SPS PM70x
HGX
LOUT
STC SPS PM70x PHX
Multiphase VCPU/DDR/ASIC
Dual Stage 48 V STBuck* 5 V - 15 V SPS PM70x
Controller PWM1
Conversion PM67x SPS PM70x STPRDC02 LGX
Transformer Based*
Note: * ST Patented Architecture
SPS PM70x
Un-Regulated SPS PM70x HGY
Regulated SPS PM70x
PHY STbuck Phase
Digital VMI0 COUT
Direct 48 V Direct Conversion* VCPU/DDR/ASIC Controller
Conversion (Isolated/Non-Isolated) PM6764
PM677*
Stacked Buck Switched Tank Converter HGX
(STB) (STC) LOUT
Regulated Conversion Unregulated Conversion PHX
Direct Conversion Digital Power PWM2 STPRDC02
from 48V to POL Distribution from 12 V Bus
LGX
HGY AUX
LGY DRV Buck Phase
Note: * is used as a wildcard character for related part number
22 23Typical Configuration for 48 V Isolated Direct Conversion SSD Power Management
Solid State Drives (SSD) serve the same function as Hard Disk Drives,
400 230
MV 48 V DC 48 V but they have a different set of internal components; they have no
VAC VAC AC/DC DC/DC
moving parts and data is stored in flash memory. SSDs can access
48 V 48 V 48 V 48 V 48 V 48 V data faster than HDDs and have several other advantages such as
2 Cells 4 Cells 2 Cells 2 Cells 4 Cells 2 Cells better performance and robustness and lower power consumption.
48 V PSU SSDs are widely used in desktop and notebook computers as well as
CPU CPU for storage in data centers.
Generator + 48 V/12 V Others CPU rails ST offers state-of-the-art products for SSD system architecture
Battery -
1 Cell Aux rails including Power Management ICs featuring protections and
Stand-by rails communication bus. Our portfolio of high-quality components allows
48 V - 40 V BBS 48 V/5 V the design of solutions meeting the most demanding requirements of
1 Cell both consumer SSD and enterprise-grade SSDs.
48 V/1 V ST device family is ideal to design advanced power management
ASIC/FPGA/GPU
1 Cell solutions for microcontroller, DDR, Flash memory, on SSD server and
consumer applications.
The IC series features multiple Buck and LDOs with programmable
outputs and supports conversions from a wide range of input voltage
ST*N4LF7 buses as 12V, 5V and 3.3V.
ST*N6F7 ST*N6F7
High switching frequency eases the design of compact application
ST*N10F7 ST*N10F7
while specific control techniques ensures best in class efficiency at
heavy and light load operation.
Full programmability via high speed serial interfaces as I2C and
PMBus® allows configurability to fit different application requirements.
Full Bridge
driver Rectifier
Typical Block Diagram for SSD Power Management
STPRDC02 STPRDC01
Load
12V
eFuse & Power Power Loss
5.0V Protection &
Load Switch Management ICs PLP Cap
Data & Power Cap Health Monitor
Connectors 3.3V
Digital Digital
Isolator controller SATA / SAS /
PCle / NVMe
(optional) STPDDC60
DRAM SSD Controller Flash
(SOC)
Note: * is used as a wildcard character for related part number
24 25STPMIC06 Power over Ethernet (PoE)
VIN = 4.5V to 15.6 V Power over Ethernet (PoE) is a widely adopted technology used to transfer power and
supply the powered device (PD) including wireless access points, VoIP phones over an
RJ-45 cable also carrying data as described in the IEEE 802.3 standard and its evolutions
including IEEE 802.3bt, IEEE 802.3at and IEEE 802.3af.
PMBUSTM We offer a range of products providing a complete interface with all the functions required
VOUTA by the communication standard, including detection and classification as well as
BUCK A BUCK C VOUTC protection features such as under-voltage lockout (UVLO) and in-rush current limitation. In
3A NVM
3A addition, these products can control hot-swap power MOSFETs that can greatly simplify
the development of IEEE 802.3 compliant solutions for powered devices (PD).
STPMIC06
Typical block biagram for PoE Power Management
VOUTB BUCK B BUCK D VOUTD
3A 3A
PM8805 48 V Conversion and Utilization
48 V
PoE front-end SiP DC-DC
Ethernet switch Dual MOS Converter
UPS
VOUTA-D = 0.5V to 5.4V Active Bridge L7987*
PoE end-span Output
STPMIC07M Hot-swap MOSFET PWM
switch (PSE) Power Rect.
Controller
PoE interface MOSFETs SRK100*
VIN = 2.6V to 5.5 V PM8804
802.3BT ST*N*F7
Mid-span
PoE injector (PSE) Led Driver
Protections LED6000
SM15T68CA LED6001
I2C PDs HVLED002
BUCK 1 NVM BUCK 2 PM8800,
PM8801, PM8803
PoE front-end with
Indoor/outdoor 5G Network Commercial
STPMIC07M PWM Controller
camera Lighting
Hot-swap MOSFET
BUCK 3 BUCK 4
PoE interface Output
Diode Bridge 802.3BT Power Rect.
Access Video/call STPSxx/60/100 MOSFETs SRK100*
LDO1 LDO2 LDO3 point systems PWM controller ST*N*F7
Power Data
MAIN EVALUATION BOARDS AND REFERENCE DESIGNS
L7292
STEVAL-POE001V1 STEVAL-POE002V1 STEVAL-POE003V1
2.7V to 5.5 V
Power Over Ethernet (PoE) - 5 V/8 A, synchronous flyback 5 V/20 A, active clamp forward
IEEE 802.3bt compliant interface converter, Power over Ethernet (PoE) converter, Power Over Ethernet (PoE)
IEEE 802.3bt compliant reference - IEEE 802.3bt compliant reference
design design
I2C
BUCK 1 NVM BUCK 2
L7292 STEVAL-POE005V1 STEVAL-POE006V1
12 V/8 A, active clamp forward 3.3 V/20 A, active clamp forward
BUCK 3 BUCK 4 converter, Power Over Ethernet (PoE) converter, Power Over Ethernet (PoE)
IEEE 802.3bt compliant reference IEEE 802.3bt compliant reference
design design
BUCK5
Note: * is used as a wildcard character for related part number
26 27LED TV Power Supply Typical Block Diagram: Analog Control Solutions with no Aux supply, for Small/Medium Panel Size
Beyond their outstanding image quality, new-generation televisions
have a very thin design, are highly power-efficient and feature a stand- VOUTDC
by power mode. Power Supply Units (PSUs) play a key role in ensuring AC Input Rect. PFC LLC Output Rect.
TVs meet market requirements and have an elegant form factor.
To achieve these stringent requirements, PSUs typically have a Power
Factor Corrector (PFC) stage and use advanced topologies, like half-
TM/CCM PFC LLC Synch. Rect.
bridge LLC (HB-LLC) resonant.
controller controller controller
ST offers a broad portfolio of high-voltage MDmesh™ and low-voltage
STripFET™ power MOSFETs, field-effect rectifier diodes (FERD),
Schottky and Ultrafast diodes, a full range of protection ICs as well as
dedicated analog and digital switching controllers which negate the Analog/Digital combo controller
necessity of auxiliary power by consuming very low power at no load.
In addition, STM32 microcontrollers enable developers to exploit the
full potential of digital PSU implementations.
Typical Block Diagram for Digital Control Solutions for Medium/Large Panel Size
ST’s recommended products for LED TV Power Supply
Interleaved VOUTDC
Controllers Power MOSFETs Diodes Opamp V/I Sensing AC Input Rect. LLC Output Rect.
PFC
TM Analog Controllers 600 V Ultrafast for TM
L6562A*, L6563*, L6564* STTH*L06 Precision Op Amps (DC-DC Conversion ST’s product offering for Switching Converters (DC-DC)
A DC-DC switching converter is used to locally supply any component or part of a system with the desired DC voltage and 24 V Bus
current. Depending on the application's relationship between the input and output voltage, engineers have to choose the best IOUT
power topology – buck, boost, buck-boost or inverting, with or without synchronous rectification. In addition, they can decide L7987
to use an implementation based on monolithic ICs or with discrete power switches and controllers – or even an advanced ST1S14
digital implementation. Whatever the choice, the right semiconductor products are key to meet the specific efficiency and size L5964*
design targets. 3A L6983
ST’s broad product portfolio includes highly-integrated DC-DC converters and PWM controllers, power MOSFETs and L5963
rectifiers, protection ICs, linear voltage regulators, to address a wide range of topologies and power requirements. We also L7986
provide a comprehensive range of hardware and software evaluation and development tools including our eDesignSuite that L7981
helps engineers design high-efficiency DC-DC converters. 2.5 A L5974D/5AD
L7987L
Typical buck configuration: up to 61 Vin/3 A Iout 2A
L6986
Vin Vout Vin Vout L7985
L7980
1.5 A L5972D/3AD
L6986F
Controller Controller STPS* 1A L5970D/0AD
500 mA L6985F
400 mA L6984
300 mA L7983
Synchronous buck converter Asynchronous buck converter
3.5 V 4 V 4.5 V 5.5 V 28 V 36 V 38 V 48 V 60 V 61 V VIN
Typical multi-phase configuration: up to 12 Vin, very high Typical single phase discrete configuration: up to
output current 18 Vin, high output current Post-Regulation (Typical 48 Vin, up to 65 W Pout, Synchronous Flyback configuration WEARABLE DEVICES - POWER MANAGEMENT
48 V Input Flyback Converter Output Wearable devices, by their very nature, must be compact and comfortable for the user. They need to deliver precise
Input Filter Filter information about the user states and conditions, have low power consumption and the right level of performance to make
them convenient and easy to use. ST’s products for wearable devices are designed to meet the needs of the most demanding
Load systems with a portfolio covering smart watches, fitness trackers, heart-rate monitors, sports equipment and a variety of other
Active Clamp wearable devices. Our portfolio includes digital processing, sensors, connectivity, security and power management solutions
Snubber that can make the difference in a challenging and competitive market.
Specifically for power management, ST provides a range of solutions to match the needs of very small form factor with
N-channel Mosfet outstanding efficiency performance and longer battery life.
PWM peak current ST*N4F7
PM8804
mode controller ST*N6F7 Typical Block Diagram of Smart Watch
SRK1000
User Interface
Synchronous Adjustable shunt LCD STLDC08
VCC Rectification Voltage Reference Display + STLED524
Touch Backlight LED1202
Feedback Controller
Feedback OLED PSU
Circuit
STOD32W
(TS431AILT)
Optocoupler Sensors Wireless
Motion Connectivity
Motion
Algorithms
Bluetooth
Typical 48 Vin, > 65 W Pout, Active Clamp Forward configuration Environmental Antenna
Low Energy
48 V Input Forward Converter Microphone Audio
NFC Antenna
Input Filter Algorithms
Proximity GPS Antenna
Synchronous Output
Active Clamp Rectification Filter GSM / UMTS
MCU
Reset Audio
Load Speaker Amplifier
eSIM
N-channel Mosfet
PWM peak current ST*N4F7 RTC Security
PM8804
mode controller ST*N6F7 Protections
Secure NFC
Memory
Charging Station Power / Battery Management
STBC02
AC – DC STBC03
VCC Voltage Reference Integrated PMUs
Converter RX Wireless STNS01
Main Battery SPV1050
Feedback
Feedback TX Wireless Charger
Circuit Battery Charger DC-DC LDO Smart Reset
Battery Charger
(TS431AILT) SR1, SR2
Optocoupler STM65*
STWBC-WA STWLC68 L6924D ST1PS01
L6924U ST1PS02
MAIN EVALUATION BOARDS STBC08 L6926
LD39015/J
LD39020
LD3985
LD590x
LDK120
LDLN0x
STBC15 L6928 LD39030SJ LDBL20 STLQ020
STEVAL-ISA203V1 STEVAL-ISA204V1 STC4054 ST1S09 LD39115J
STCC2540 ST1S12XX
• Input Voltage range: 42 - 56 V DC • Input Voltage range: 42 - 56 V DC ST2S06
• Switching Frequency - 250 kHz • Switching Frequency - 250 kHz ST2S08B
• Output: • Output:
• Power - 60 W • Power - 100 W MAIN EVALUATION BOARDS AND REFERENCE DESIGNS
• Voltage - 12 V DC • Voltage - 5 V DC
• Current - 5A • Current - up to 20 A STEVAL-1PS01AJR/1PS01DJR/1PS01EJR STEVAL-1PS02B STEVAL-LDO001V1
• Peak Efficiency > 94% • Peak Efficiency > 94%
Evaluation board based on the ST1PS01 400 Evaluation board based on the ST1PS2 Quad high performance LDO evaluation
mA nano-quiescent synchronous step-down 400 mA nano-quiescent synchronous board based on LDBL20, LDLN025,
converter with digital voltage selection step-down converter with digital voltage LD39130S and STLQ020
selection and AUX switch
Note: * is used as a wildcard character for related part number
32 33LED LIGHTING AND CONTROLS ST’S product offering for LED General Illumination
Controllers Power MOSFETs Diodes MOSFET and IGBT Gate Drivers
LED General Illumination
800 V to 1200 V MDmesh K5
TM Analog Controllers ST*80K5, ST*9*K5, ST*105K5, 600 V Ultrafast for TM
LED lamps and bulbs can have a number of different form-factors depending on the specific use, size and dimension of the L6562*, L6563*, L6564* STTH*L06, STTH*06,
ST*120K5
application, including retrofit bulbs, high-bay lights, low-bay lights, emergency lights. Driving a string of LEDs involves AC-DC 600 V-650 V MDmesh M2 STTH15AC06*
CCM Analog Controllers
and DC-DC conversion – designed using non-isolated, isolated, single stage or multi-stage topologies – which must ensure L4981*, L4984D ST*60M2, ST*65M2, ST*60M2- Single LS Gate Drivers
PFC Block EP 600 V Ultrafast for CCM
high efficiency and reliability at a competitive cost point. PM88*1
MCUs & Digital Controllers 600 V-650 V MDmesh M6 STTH*R06, STTH*T06
Modern applications include a range of connectivity features to implement remote monitoring and control, making LED lighting STM32F0, STM32G0, STM32F301, ST*60M6, ST*65M6
STM32F334, STM32G4, STLUX, STNRG388A, SiC Diodes
a pillar of the smart home, smart building and smart city environment. ST’s portfolio includes a variety of RF transceivers, SiC MOSFET STPSC*065
STNRGPF*2
wireless MCUs, network processor ICs and fully certified modules for key wireless connectivity technologies. Our embedded SCT*N65G2
software for BLE Mesh enables mesh networking of connected smart lighting end products. Controllers & Converters Power MOSFETs Diodes & Discretes Voltage Reference, CC/CV Ctrl
For the LED driving stage we have a range of pulse-width modulation (PWM) and power factor correction (PFC) controllers, Offline LED Drivers 800 V to 950 V MDmesh K5 Clamping Diodes for Flyback
HVLED001B, HVLED001A, HVLED007, HVLED8* 600 V to 1000 V Ultrafast
power MOSFETs and diodes as well as a comprehensive set of hardware evaluation and development tools including reference ST*80K5, ST*9*K5
STTH*06, STTH*08, Voltage Reference
designs to help developers design high-efficiency LED lighting solutions. HV Converters 950V MDmesh DK5 STTH*10 T*431, T*432
VIPer0P, VIPer*1, VIPer*6, VIPer122, VIPer222, ST*95DK5
VIPer*5, VIPer*7, VIPer*8 Output Diodes for Flyback Voltage and Current Ctrl
Typical Block Diagram 600 V-650 V MDmesh M2
LLC Analog Controllers ST*60M2, ST*65M2, Schottky, FERD, Ultrafast TSM*, SEA05*
L6599*, L6699 ST*60M2-EP STPS*, FERD*, STTH*
LED General Illumination PFC & LLC/LCC
Isolation Stage 600 V-650 V MDmesh M6 Output Diodes for LLC/LCC
Combo Controllers ST*60M6, ST*65M6 Schottky, FERD MOSFET and IGBT Gate Drivers
Power Supply Block STCMB1, STNRG011, , STNRG0121 STPS*
MCUs & Digital Controllers 600 V-650 V MDmesh DM2 HV HB Gate Drivers
FERD*45, FERD*50,
~AC STM32F0, STM32G0, STM32F301, STM32F334, ST*60DM2, ST*65DM2
FERD*60, FERD*100
L649*
PFC Block STM32G4, STM8S, STLUX, STNRG388A 600 V MDmesh DM6 Isolated Gate Drivers
Clamp ST*60DM6 MOSFET Protection for STGAP*
SR Analog Controllers Flyback
Circuit SRK1000, SRK1001 for Flyback 60 V-100 V STripFET F7
SMA4F, SMA6F, SMB15F
SRK2000A, SRK2001, SRK2001A for LLC ST*N6F7, ST*N8F7, ST*N10F7 Multiple LS Gate Drivers
series PM8834
Schottky Diodes STPS*
CC/CV 600 V-650 V MDmesh M2 FERD Diodes HV HB Gate Drivers
Offline LED Drivers ST*60M2, ST*65M2, FERD* L649*, L6395
Rectifier HVLED002 ST*60M2-EP ≥ 200 V Ultrafast Diodes
Multiple strings STTH* Single LS Gate Drivers
MCUs & Digital Controllers 600 V-650 V MDmesh M6
management ST*60M6, ST*65M6 DC-DC LED Drivers PM88*1
STM32F0, STM32G0, STM32F334, STM32G4,
STM8S, STLUX, STNRG388A STripFET F7 LED5000, LED600, Multiple LS Gate Drivers
ST*N6F7, ST*N10F7 ST1CC40, LED2000, PM8834
PWM LED2001
Controller 2.4 GHz Multi Standard
Bluetooth Low Energy (BLE MESH) Sub-1GHz
(ZigBee, Thread, 802.15.4)
HV Converter BLE 5.0 SoC Sub-1GHz Wireless MCU
BlueNRG-1, BlueNRG-2 STM32WL
Optocoupler BLE 4.2 SoC BlueNRG Modules Sub-1GHz Transceivers
BlueNRG-MS BlueNRG-M0, S2-LP, SPIRIT1 SPSGRF
BlueNRG-M2 2.4 GHz (868 and 915
Wireless Baluns Dual Core STM32 Wireless Sub-1GHz Transmitters MHz)
STM32 Wireless Wireless Module STS1TX, S2-LPTX
Connectivity BALF-NRG-0*D3, BALF-NRG-02J5 SPSGRFC (433,
Analog and Digital Module MCUs STM32WB5MMG1 MCUs
Connectivity Dual core MCUs BLE 5.0 STM32WB5MMG1 STM32WB 868 and 915
Controller STM32WB STM32F0, STM32G0, STM32L0 MHz)
Baluns
Isolated LED Lighting System IPD (Integrated Passive Device) BALF-SPI-0*D3,
MLPF-WB55-01E3, MLPF-WB55-02E3 BALF-SPI2-0*D3
Note: 1 available in Q4 2020
Power Supply Block MAIN EVALUATION BOARDS
~AC
PFC Block EVLHVLED007W35F EVAL-PSR01B-35W EVAL-IBD002-35W
35 W LED driver with very low THD, based on 35 W LED Driver with very high effciency based 35 W Inverse buck with LED current control
Transition Mode Flyback converter (CVout) on QR flyback converter with PSR (CVout) and with Analog/PWM dimming
DC Input
Option
PWM
Connectivity
Controller STEVAL-ILL070V4 STEVAL-LLL004V1 STEVAL-ILL078V1
35 W LED Driver with very high effciency 75 W AC-DC digitally controlled non isolated 1A, up to 60 V Vin, buck LED driver with
based on CC QR flyback converter constant current LED driver digital dimming
Non-Isolated LED Lighting System
34 35LED Street Lighting ST’S product offering for LED Street Lighting
Street lighting installations have evolved from basic energy-hungry illumination spots to central devices enabling a set of Controllers Power MOSFETs Diodes & Discretes MOSFET and IGBT Gate Drivers
services, such as presence and traffic level monitoring and incident detection surveillance, while optimizing illumination levels 600 V Ultrafast for TM PFC Single LS Gate Drivers
TM PFC Analog Controllers
to specific road and weather conditions to support administrations transforming cities in Smart Cities. L6562*, L6563*, L6564* STTH*L06, STTH*06, PM88*1
800 V to 1050 V MDmesh K5
We have a broad range of wired and wireless connectivity, power management and LED driving solutions. A range of high- ST*80K5, ST*9*K5, ST*105K5 STTH15AC06*
CCM PFC Analog Controllers Multiple LS Gate Drivers
performance and low-power STM32 microcontrollers together with presence, proximity, camera and environmental sensors L4981*, L4984D 600 V Ultrafast for CCM PFC PM8834
950V MDmesh DK5
as well as MEMS microphones enable design of advanced street lighting systems. ST*95DK5 STTH*R06, STTH*T06
Offline LED drivers HV HB Gate Drivers
HVLED001B, HVLED001A, SiC Diodes L649*
Typical Block Diagram HVLED007
600 V-650 V MDmesh M2
ST*60M2, ST*65M2, ST*60M2-EP STPSC*065
Isolated Gate Drivers
LED Street Lighting PFC & LLC/LCC Output Diodes for Flyback STGAP*
Combo Controllers 600 V-650 V MDmesh M6
ST*60M6, ST*65M6 Schottky, FERD, Ultrafast Voltage Reference, CC/CV Ctrl
Power Power Supply
STCMB1, STNRG011, STNRG0121
STPS*, FERD*, STTH*
Protection LED Driver
Supply LLC/LCC Controllers 600 V-650 V MDmesh DM2
Switch ST*60DM2, ST*65DM2 Clamping Diodes for Flyback
L6599A*, L6699
600 V to 1000 V Ultrafast
MCUs & Digital Controllers 600 V MDmesh DM6 STTH*06, STTH*08, STTH*10 Voltage Reference
Voltage and STM32F0, STM32G0, STM32F301, ST*60DM6 T*431, T*432
Driver Voltage and STM32F334, STM32G4, Output Diodes for LLC/LCC
Current STLUX, STNRG388A SiC MOSFET Schottky, FERD
Current Controller Voltage and Current Ctrl
Controller SCT*N65G2 STPS* , FERD*45, FERD*50, TSM*, SEA05*
SR Analog Controllers FERD*60, FERD*100
SRK1000, SRK1001 for Flyback 60 V-100 V STripFET F7
SRK2000A, SRK2001, ST*N6F7, ST*N8F7, ST*N10F7 MOSFET Protection for Flyback
SRK2001A for LLC SMA4F, SMA6F, SMB15F series
12 V Controllers DC-DC Buck LED Drivers DC-DC Boost LED Drivers LED Array Drivers
Solar DCDC Offline LED drivers LED5000, LED6000, ST1CC40, STP04/08/16/24, STCS*,
Converter 3.3 V LED Driver
HVLED002 LED2000, LED2001
LED6001, LED7707, LED7708
LED8102S
Control
Temperature Temperature Sensors Control Unit Protection Switch Diodes & Discretes
Mains enable Unit
Sensor Sensing, STLM20
Power Processing, MCUs 60 V-100 V STripFET F7
STTS751 LBP01
Switch Control, STM32F0, STM32G0 ST*N6F7, ST*N8F7, ST*N10F7
Connectivity LED Bypass LM135Z
(Wired/Wireless) Wired - Power Line
Wireless - Sub-1GHz Wireless - Sigfox Wireless - LoRA
Communication
Sub-1GHz Wireless MCU Sub-1GHz Wireless MCU
MAIN EVALUATION BOARDS STM32WL STM32WL
Sub-1GHz Transceivers Sub-1GHz Transceivers
STEVAL-LLL008V1 STEVAL-LLL006V1 STEVAL-LLL004V1 S2-LP, SPIRIT1 S2-LP LoRa Wireless MCU
100 W - 1.4 A constant current LED Driver 75 W LED driver (CC/CV) with Sub-1GHz 75 W AC-DC digitally controlled non isolated Sub-1GHz Transmitters STM32WL
Sub-1GHz Transmitters
with Sub-1GHz connectivity based on QR connectivity constant current LED driver STS1TX, S2-LPTX S2-LPTX MCUs
Flyback and inverse buck converters.
Sub-1GHz Wireless MCU STM32L0, STM32L1, STM32L4
Power Line Transceivers Sub-1GHz Wireless MCU
Connectivity STM32WL
ST7570, ST7580, ST7590 STM32WL Embedded Software
MCUs I-CUBE-LRWAN
STM32F0, STM32G0, STM32L0 MCUs
STM32L0, STM32L4 Secure MCUs
Balun STSAFE-A100
BALF-SPI-0*D3, BALF-SPI2-0*D3 Baluns
EVL80WLED-STCH03 EVL150W-HVSL EVL6699-HVSL BALF-SPI2-01D3
Certified Modules
80 W -1 A primary side current loop control 150 V - 1 A LED driver featuring TM 150 V - 1 A LED driver featuring TM SPSGRF (868 and 915 MHz) Secure MCUs
LED driver based on QR flyback converter PFC and LCC resonant converter with PFC and LCC resonant converter with SPSGRFC (433, 868 and 915 MHz) STSAFE-A100
STCMB1 combo controller L6699 Note: * is used as a wildcard character for related part number 1 available in Q4 2020
STEVAL-ILL066V2 STEVAL-ILL053V2
100 W LED street lighting with DALI2.0 48 V - 130 W high efficiency converter with
communication interface using the STLUX385A PFC for LED street lighting
digital controller
36 37LED POE Lighting Lighting Controls
Power over Ethernet (PoE) is a widely adopted technology used to Lighting controls have evolved from simple triac dimmers to more sophisticated architectures including light sensors, digital
supply a powered device (PD) over an RJ-45 cable while carrying data. and PWM dimmers, DALI network-based systems and wireless programming solutions.
Described in the IEEE 802.3 standard and its enhancements including ST's long-term partnerships with major lighting suppliers combined with our leadership in discrete and integrated power
IEEE 802.3bt, IEEE 802.3at and IEEE 802.3af, this technology is devices enable us to offer high efficiency and cost-optimized solutions for all types of lighting applications and their control –
becoming attractive for LED lighting. both wired (e.g. Powerline) or wireless (RF) – for industrial, residential, commercial, and architectural lighting applications.
We have a range of products providing a complete interface with all the
functions required by the communication standard including detection DALI Lighting Solution
and classification, protection features such as under-voltage lockout Digital Addressable Lighting Interface (DALI) is a trademark for a network-based technology used to effectively control lighting
(UVLO) and in-rush current limitation as well as the control of the hot- in building automation. Originally defined in IEC 60929 standards, it’s updated in IEC 62386 which includes LED device types.
swap power MOSFETs that can greatly simplify the development of
We provide a range of analog and digital controllers including the STLUX family and the STM32 microcontrollers to implement
IEEE 802.3 compliant solutions for powered devices (PD). We also have
the AC-DC and DC-DC power converter and run the DALI protocol.
high-efficiency, optimized DC-DC conversion solutions for supplying
the LEDs.
Typical Block Diagram for DALI Lighting System
Typical Block Diagram DALI Lighting Solution
LED POE Lighting 85-305 V (AC) Power
Bluetooth® Management
Auxiliary PS
low energy
3.3 V 48 V (DC)
48 V IEEE 802.3xx PoE 48 V
interface
LED Driver TX-RX
KNX KNX
Network DALI IC LED Driver
Transceiver
ST’S product offering for LED PoE Lighting
PoE Interface Protections Auxiliary Power Supply LED Driver
IEEE 802.3bt
DALI
PM8805 Network
Buck 60 V-100 V STripFET F7
TVS for Power Rail Surge LED6000 ST*N6F7, ST*N8F7, ST*N10F7
IEEE 802.3at Buck
Protection
PM8803, PM8801
SMA4F, SMB15F
L7987L Inverse Buck Schottky Diodes ST’S product offering for Lighting Controls
IEEE 802.3af HVLED002 STPS*
LED Driver Power Management KNX Transceiver
PM8800A
Digital Controllers MCUs TVS Protection on KNX Bus
Note: * is used as a wildcard character for related part number STLUX STM32F1, STM32L1, STM8 SMAJ40CA-TR
Refer to LED General Illumination
Development Tools Embedded Software section
STSW-STLUXLIB02, STSW-DALI002, STSW-DALI001, STKNX
STSW-STLUXSMED02 STSW-STM8025
MAIN EVALUATION BOARDS
STEVAL-POEL45W1 STEVAL-ILL078V1
45 W PoE powered LED lighting with BLE control 1 A, up to 60V Vin, buck LED driver board based on MAIN EVALUATION BOARDS
the LED6000
STEVAL-ILL066V2 STEVAL-ILM001V1
100 W LED street lighting evaluation board with DALI2.0 Plug-in hardware module for the
communication interface using the STLUX385A digital STM8S-DISCOVERY interface for
controller DALI communication
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