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Products and solutions
for Smart industry
Content
Introduction ............................................................................... 3
More efficient ............................................................................ 4
Motor drivers .................................................................................. 4
Gate drivers .................................................................................... 7
IGBTs and Power MOSFETs .............................................................. 8
Diodes and SiC rectifiers ............................................................... 11
SiC MOSFETs ................................................................................. 12
Intelligent power modules ............................................................ 13
Thyristors and AC switches ............................................................ 14
AC/DC and DC/DC regulators ..................................................... 17
Power management ICs .............................................................. 20
More Intelligent & Aware .................................................. 22
MCUs ........................................................................................... 23
STM32-SafeSIL ............................................................................... 27
Widest portfolio of RTC offers unlimited design solutions ............... 31
Serial EEPROM ............................................................................. 32
Signal conditioning ...................................................................... 33
Analog and digital inputs ............................................................ 37
Intelligent power switches (IPS) .................................................... 39
Isolation ....................................................................................... 41
Motion sensors ............................................................................. 42
Environmental sensors .................................................................. 43
Evaluation boards for sensors ....................................................... 43
More connected ..................................................................... 46
IO-Link .......................................................................................... 46
Fieldbus ........................................................................................ 48
Bluetooth ...................................................................................... 50
Sub-1GHz...................................................................................... 52
ST contactless technology............................................................ 54
ESD & EMI protection .................................................................... 55
Proximity sensor protection ........................................................... 57
3
The Industrial world is changing in a trend that goes under a variety of names including Industry 4.0, the
4th industrial revolution, Industrial Internet of Thing (IIoT) and smart manufacturing. At ST we call this trend
Smart Industry. We believe that it is a (r)evolution that builds on the many different technology advances
over the past decades but which will fundamentally change the way factories and workplaces function.
For us “Smart” means doing things more efficiently, more flexibly and in a more environmentally friendly
manner. It also means the manufacturing will be safer for people working there.
Introduction
To achieve this we see industrial infrastructure evolving in three directions:
More Efficient
With factories accounting for 40% of the
world's energy consumption, reducing their
energy use will play a major role in putting
the planet on a more sustainable course.
Higher efficiency can be improved at all
points in power usage with a particular focus
on power conversion & energy harvesting,
power management, power storage and
motor control. This is implemented in the
factory by retrofitting existing machinery with
new inverters and power boards containing
the latest generation of ICs or silicon-
carbide power devices, leading to improved
efficiency, thermal management, size and
cost.
More intelligent and aware
Machines are aware of the humans around
them and provide new interfaces such
as smart tools, augmented reality and
touchless interfaces for easier and safer
interactions. Sensors collect information
about every machine all the time. Then
safe & secure distributed local processing
allows data to be turned into information,
allowing real-time monitoring and predictive
maintenance and repair. Products contain
the instructions for their manufacturing and
carry that information with them throughout
their lifecycle. This will be achieved through
the addition of local processing and sensor/
actuator capabilities through the factory and
connecting them in an efficient manner.
More Connected
Machines are connected inside the factory
to the larger supply chain and to the cloud.
When orders can be customized in real time
and only what is needed is actually made,
this enables optimal planning and flexibility
in manufacturing. Real-time communication
down to the lowest level of sensors and
actuators, ensuring optimal reactivity and
real-time analysis processes. And of course
all of these communications are secure. To
achieve this the existing industrial networking
standard are still valid, but more is needed
in modern factories improve cooperation
among machines so they can decide
where resources are needed and adapt the
workload to better serve critical processes.
This is done using fieldbus protocols with advanced Machine-to Machine M2M communication systems based on IO-Link and industrial wireless
networks.
Smart Industry focuses on data management. Instead of being the vertex of the computer-integrated manufacturing (CIM) pyramid model, this
creates a new paradigm where the supervisor level is now the backbone, ensuring the continuity between the two worlds. For instance, with
communication protocols such as OPC Unified Architecture or IPv6-based network infrastructures.
Safety is also a key function which is pervasive and transversal to all levels of Smart Industry. Safety is implemented in many different ways
ranging from ICs with an extended voltage range matching IEC 61508 requirements, to new hardware architectures, which help developers
meet the challenges of qualifying their systems to SIL requirements.
Semiconductors are a key enabler behind this new Smart Industry, pervasive through the industrial infrastructure and behind the digital
intelligence that it makes possible throughout the entire supply chain. As a supplier with over 30 years’ experience in developing products
for factory automation and industrial applications, ST is playing a leadership role with its catalog of products that help make smart industry a
reality, today. Our goal is to provide products and solutions to support developers of the factory of tomorrow including product evaluation boards,
prototyping systems and online design tools.
This document is organized in three main parts, each of them focusing on the Smart Industry’s
targets to become:
More efficient by improving performance at all points in power usage, from power
conversion and management to motion control
More intelligent and aware through the use of sensors, MCUs and industrial IOs to collect
information about every machine and the development of distributed local processing to turn
data into information
And more connected by creating networks between machines inside the factory, with the
larger supply chain, and to the cloud
4
This section on how to become more efficient focuses on the capability to delivery and manage power
in ever smart ways.
ST’s latest inverter and energy harvesting technologies as well as wide bandgap materials such as Silicon
Carbide are key enablers in this domain. Solutions based on these are addressed here with a selection
of our ICs, highlighting the latest technologies for motion control systems.
You will find System-in-package solutions as well as isolated gate drivers and the latest power switches
combined in our full featured power modules.
An overview of our power management ICs is also included.
Motor drivers
SiC MOSFETs
Gate drivers
Power &
discrete modules
IGBTs &
Power MOSFETs
AC/DC &
DC/DC regulators
Diodes and
SiC rectifiers
Power
management ICs
Thyristors &
AC switches
Display and LED
controllers
MOTOR DRIVERS
MAIN APPLICATIONS
Industrial and robotics
Textile, sewing and pick-and-place
machines
Stage lighting
Printers and 3D printers
Security and surveillance
Power MOSFET
Power MOSFET
H-bridge
H-bridge
Analog
control core
Brushless DC motors
DC motors
Stepper motors
More efficient
Our line-up of STSPIN motor control ICs has been developed with the objectives of modularity, scalability and robustness
to provide designers a wide choice of solutions to fit different requirements and system architectures. All products have
comprehensive built-in protection and diagnostic schemes to help attain the level of long term reliability and robustness
requested to cope with harsh factory automation environments.
Available in a wide selection of space-saving, thermally-optimized packages, you are sure to find a device in our STSPIN line-up that addresses
your motor or motion control system requirements.
5
QFN 11 x 14
HTSSOP38
QFN 3 x 3
Dip20
POWERSO36
SO24
Stepper motor drivers
Scalable and robust portfolio featuring accurate positioning and smooth motion profile with up to 256 micro-steps per step.
All the devices listed in the following tables (stepper, brushless DC and brushed DC motor drivers) work in the -40 to 150 °C operating
temperature range.
Part number Package General description RDSON (Ω) Supply voltage (V) Output Current - Max (A) - RMS max
STSPIN220 VFQFPN 16 3x3x1.0 Low-voltage driver up to 256 microsteps 0.2 1.8 to 10 1.3
L6472 HTSSOP28 Full-featured driver up to 16 (or 128 with the
L6470) microsteps with SPI, motion engine
and advanced current control
0.3 8 to 45 3
L6470 PowerSO 36
L6474 HTSSOP28; PowerSO 36 Driver up to 16 microsteps with SPI and
advanced current control 0.3 8 to 45 3
L6228 PDIP24, PowerSO 36, SO-24,
VFQFPN 32 5x5x1.0 (L6228Q) Driver with embedded current control 0.7 8 to 52 1.4
L6228Q
L6208 PDIP24, PowerSO 36, SO-24,
VFQFPN 48 7x7x1.0 (L6208Q) Driver with embedded current control 0.3 8 to 52 2.8
L6208Q
powerSTEP01 QFN 11x14 System-in-package integrating 10 A power
MOSFETs 0.016 7.5 to 85 10
L6480
HTSSOP38
Controller with SPI, motion engine, gate
drivers advanced current control featuring
16 or 128 (L6480) microsteps
- 7.5 to 85 -
L6482
L6506 PDIP 18, SO-20 Stepper motor controller - 4.5 to 7 -
L297 PDIP 20, SO-20 Stepper motor controller - 4.75 to 7 -
Brushless DC motor drivers
Extensive diagnostics and fully-protected to reduce the number of external components, cost and complexity.
Part number Package General description RDSON (Ω) Supply
voltage (V)
Output Current -
Max (A) - RMS max
Output Current -
Max (A) max peak
STSPIN230 VFQFPN 16 3x3x1.0 Low-voltage triple half-bridge motor driver 0.2 1.8 to 10 1.3 -
L6229 PDIP24, PowerSO 36, SO-24,
VFQFPN 32 5x5x1.0 (L6229Q) 6-step brushless motor driver with Hall decoding 0.7 8 to 52 1.4 3.55
L6229Q
L6235 PDIP24, PowerSO 36, SO-24,
VFQFPN 48 7x7x1.0 (L6235Q) 6-step brushless motor driver with Hall decoding 0.3 8 to 52 2.8 7.1
L6235Q
L6230 PowerSO 36,
VFQFPN 32 5x5x1.0 Triple half-bridge motor driver 0.7 8 to 52 1.4 3.55
L6234 PDIP 20, PowerSO-20 Triple half-bridge motor driver 0.3 7 to 52 2.8 5
6
Brushed DC motor drivers
Simple, reliable and cost-effective solution to drive one or more brushed DC motors over a wide current and voltage range.
Part number Package General description RDSON (Ω) Supply
voltage (V)
Output Current -
Max (A) - RMS max
Output Current -
Max (A) max peak
STSPIN240 VFQFPN 16 3x3x1.0 Low-voltage dual brushed DC motor driver 0.2 1.8 to 10 1.3 -
STSPIN250* VFQFPN 16 3x3x1.0 Low-voltage brushed DC motor driver 0.2 1.8 to 10 2.6 -
L6227 PDIP24, PowerSO 36, SO-24,
VFQFPN 32 5x5x1.0 (L6227Q)
DMOS dual full-bridge driver with PWM
current controller 0.7 8 to 52 1.4 3.55
L6227Q
L6226 PDIP24, PowerSO 36, SO-24,
VFQFPN 32 5x5x1.0 (L6226Q)
DMOS dual full bridge driver with PWM
current controller
0.7 8 to 52 1.4 3.55
L6226Q
L6225 PDIP24, PowerSO 36, SO-24 0.7 8 to 52 1.4 3.55
L6206 PDIP24, PowerSO 36, SO-24,
VFQFPN 48 7x7x1.0 (L6206Q) 0.3 8 to 52 2.8 7.1
L6206Q
L6205 PDIP20, PowerSO-20, SO-20 0.3 8 to 52 2.8 7.1
L6201 PowerSO-20, SO-20
DMOS full-bridge driver
0.3 12 to 48 1 5
L6202 PDIP 18 MW 11L (L6203) 0.3 4.5 to 36 1 10
L6203
L298 MW 15L, PowerSO-20 Dual full-bridge driver - 4.5 to 36 2 -
L293E PDIP 20, PDIP 16 (L293B) Push-pull 4-channel driver with diodes - 4.5 to 36 1 2
L293B
L293D PDIP 16, SO-20 Push-pull 4-channel driver with diodes - 4.5 to 36 0.6 1.2
L2293Q VFQFPN 32 5x5x1.0 Push-pull 4-channel driver with diodes - 2.8 to 36 0.6 1.2
To make it easier for developers to put their hands on our devices, a wide collection of Discovery kits, STM32 Nucleo boards and evaluation
boards are available. They all are part of an ecosystem designed to speed up development time.
A typical evaluation board setup consists of the evaluation software, a companion board (when needed) and the evaluation board itself. When
connected to the motor, and thanks to the sample application software available free online, you have all the ingredients to get started with your
design.
The STM32 Nucleo ecosystem covers all of our motor driver families with expansion boards available for brushed DC, stepper and brushless DC
motor drivers as well as for our complete line-up of STSPIN motor drivers. Visit st.com and enter the IC’s part number in the search engine and
browse through our comprehensive offering on the Resource tab.
Moreover, when using one of our more than 30 different Discovery kits, there is no need for a companion board.
Discovery boards with an embedded STM32 MCU are available with the following drivers: L6470, L6472, L6480 and L6482.
Evaluation software
Evaluation software
USB
USB
Discovery kit
X-NUCLEO expansion board
plugged on STM32 Nucleo board
10- or 30-
pole connector
Evaluation board
STEVAL-PCC009V2
Companion board (if needed)
Evaluation software USB
7
Part
number Package General description
Supply
voltage
(V) Typ.
Supply
voltage
(V) Range
Supply
Current
(mA)
Output
Current
Max (A)
STGAP1S SO-24 gapDRIVE: galvanically isolated single gate driver 15 4.5 to 36 6 5
L6384E DIP-8, SO-8 High-voltage high- and low-side driver with embedded bootstrap diode 12 11.5 to 17 - 0.65
L6386AD SO-14 High-voltage high- and low-side driver with embedded comparator and bootstrap diode 9.6 9.1 to 17 - 0.65
L6393 SO-14 Half-bridge gate driver 9.5 9 to 20 - 0.43
L6385E DIP-8, SO-8 High-voltage high- and low-side driver with embedded bootstrap diode 9.6 9.1 to 17 - 0.65
L6391 SO-14 High-voltage high- and low-side driver 12 11.5 to 20 - 0.43
L6390 SO-16 High-voltage high- and low-side driver 12 11.5 to 20 - 0.43
L6395 SO-8 High-voltage high- and low-side driver 9.5 9 to 20 - 0.43
L6388E DIP-8, SO-8 High-voltage high- and low-side driver with embedded bootstrap diode 9.6 9.1 to 17 - 0.65
L6491 SO-14 High-voltage high- and low-side 4 A gate driver 15 10 to 20 - 4
L6386E SO-14 High-voltage high- and low-side driver with embedded comparator and bootstrap diode 12 11.5 to 17 - 0.65
L6398 DIP-8, SO-8 High-voltage high- and low-side driver 9.5 9 to 20 - 0.43
L6387E DIP-8, SO-8 High-voltage high- and low-side driver 6 5.5 to 17 - 0.65
L6392 SO-14 High-voltage high- and low-side driver 12 11.5 to 20 - 0.43
TD310 PDIP-16, SO-16 Triple IGBT/MOSFET driver with current sense - - 2 -
TD220 SO-8 Gate driver with VREG and 2-point regulator - - 1 -
TD351 SO-8 Advanced IGBT/MOSFET driver - - 2.5 -
TD352 SO-8 Advanced IGBT/MOSFET driver - - 2.5 -
TD221 SO-8 Gate driver with VREG and 2-point regulator - - 1 -
TD350E SO-14 Advanced IGBT/MOSFET driver 26 - - 2.3
GATE DRIVERS
The STDRIVE family covers devices with higher ratings for motion control systems. Available in a wide selection of current output
drive capabilities and configurations – independently driven high and low side or with on-chip dead time – the STDRIVE high-
voltage drivers include on-chip op amps and comparators to help design converter protection circuits.
All the devices above listed work in the -40 to 125 °C operating temperature range. The TDxx family works in the -40 to 150 °C range, except
for the TD350E which works in the -40 to 125 °C range.
A very efficient 3-phase PMSM can be designed using a reference design with the STEVAL-IHM021V2 evaluation board with an L6392 and two
L6391 high-voltage, high- and low-side drivers, in single shunt configuration. This board also integrates our discrete IGBT to ensure high-level
performance.
L6391
HV BUS
3-phase
MOTOR
Control
L6391 L6392
8
Order code Core product Description
EVAL6393FB L6393D 600 V full-bridge reference design featuring L6393; suitable for FANs and DC motors control
EVAL6491HB L6491D Evaluation board for L6491 gate driver
EVALSTGAP1S STGAP1S Evaluation board for STGAP1S galvanically isolated 1.5 kV gate driver
STEVAL-IHM021V2 L6390D 100 W 3-phase inverter reference design for FOC controlled PMSM; based on L6390 advanced half-bridge gate driver and MOSFET
STEVAL-IHM023V3 L6390D 1 kW 3-phase reference design for single shunt FOC controlled PMSM; based on L6390 advanced half-bridge gate driver and IGBT
STEVAL-IHM032V1 L6391D,
L6392D
150 W 3-phase inverter reference design for FOC and trapezoidal control:
based on L6391 and L6392 advanced half-bridge gate drivers and IGBT
The 3-phase stand-alone power stage is suitable for FOC (Field Oriented Control) using our STM32 MCUs, with the following features:
Fast torque and speed control
High accuracy
No need for position sensors
Sensing and amplification provided by op-amp and two comparators
This results in a very compact solution for FOC that significantly reduces BOM and PCB costs, eliminates the need of a heatsink for thermal
spread and ensures superior EMI performance.
Here is a list of the most commonly used evaluation boards. For a full list of available boards and tools, please visit our website.
In many cases, several evaluation tools are associated to a single part number. This is the case of our STGAP1S galvanically isolated single gate
driver, where the EVALSTGAP1S evaluation board is connected in a multiple configuration.
EVAL6491HB EVALSTGAP1S EVAL6393FB
SPI
STEVAL-PCC009V2
interface board (if needed)
Evaluation software USB
IGBTs AND POWER MOSFETs
ST’s portfolio of Insulated Gate Bipolar Transistors (IGBT) contains a comprehensive range of devices based on various process technologies with
breakdown voltages from 300 to 1200 V and higher, offered as bare dice and/or as discrete components.
Our technology portfolio:
Planar punch-through (PT) IGBTs
Automotive-grade IGBTs (AEC-Q101)
Trench-gate field-stop (TFS) IGBTs
ST’s IGBTs feature the best trade-off between conduction and switch-off energy loss tailored for different applications:
General-purpose inverters
Motor control
Home appliances
UPS/SMPS
Welding and induction heating
Solar inverters
Automotive
EVALSTGAP1S
-——T—U _ Q
9
Naming convention for trench-gate field-stop (TFS) products:
100 kHz
30 kHz
600 V 650 V 1200 V 1250 V
Switching
frequency
Breakdown Voltage
V series
50 - 100 kHz
20 - 80 A
Welding, AC-DC,
PFC-CCM
Home appliances
(Fans, Pumps,
Washing machines,
Dryers)
H series
8 - 30 kHz
5 - 20 A
Solar, Welding,
Washing machines,
PFC-CCM, UPS, Aircon
H series
20 -100 kHz
15 A, 25 A, 40 A
Induction heating,
Microwaves, Printers
IH series
8 - 60 kHz
20 A, 28 A
HB series
16 - 60 kHz
20 - 80 A
Solar, Welding, Aircon,
Washing machines,
PFC-CCM,
Induction heating,
Microwaves, Printers
Solar,
Home appliances,
Motor control,
UPS, Aircon
M series
2 - 20 kHz
4 - 120 A
Solar,
Motor control, UPS,
Aircon
M series
2 - 20 kHz
8 A, 15 A
25 A, 40 A
Motor control,
Industrial drives,
Aircon
S series
Up to 8 kMz
15 A, 25 A, 40 A
Package
BD2PAK
DDPAK
FTO-220FP
FW TO-3PF
PTO-220
WTO-247
WA TO-247 Long Leads
WT TO-3P
YA Max247® Long Leads
Max continuos
current @ 100 °C
Breakdown
voltage ÷ 10
Technology
generation
Diode options
DVery fast rescovery
DL Low forward voltage*
FTrench gate field stop
IGBT series
H 600 V Medium speed (8 ÷ 30 kHz)
H...B High speed (16 ÷ 60 kHz)
VVery high speed (50 ÷ 100 kHz)
MLow loss (2 ÷ 20 kHz)
SLow drop (up to 8 kHz)
H 1200 V Highest speed (20 ÷ 100 kHz)
IH Soft switching (8 ÷ 60 kHz)
STG x 60 H 65 DD F z
Note: * For soft-switching applications only
Improve your application efficiency with TO247-4 package: separating emitter pin into driving emitter (kelvin) and power emitter, this new
package will reduce parasitic stray inductance contribution, with a great benefit in turn on switching losses, as shown in the diagram below
(STGW40H65DFB-4, turn-on switching comparison, 3 vs 4 leads configuration).
300
Eon (µJ)
IC (A)
200
3 Leads
4 Leads
100
010 15 20 25 30
VGE = 15 V, TJ = 25 °C, VCC = 400 V, RG = 5 Ω
35
> 50%
turn-on
energy
reduction
_—_——_-
10
For further information about our IGBT product portfolio, visit www.st.com/IGBT or download our IGBT Finder smartphone app by scanning the
QR codes below:
ST's offering of power MOSFETs includes hundreds of devices. The naming convention below highlights the diversity of our portfolio with its
different packages and our latest silicon technologies.
Package
RSOT-23
TSOT-23-6L
NSOT-223
SSO-8
DDPAK
("D..T4" for older P/N)
L
PowerFLAT™
2x2; 3.3x3.3;
5x5; 5x6; 8x8
LD PowerFLAT™
dual side cooling
BD2PAK
("B..T4" for older P/N)
EISOTOP®
FTO-220FP
FH TO-220FP wide creepage
FI I2PAKFP
FU TO-220FP narrow leads
FW TO-3PF
HH2PAK-2 H2PAK-6
II2PAK
KLFPAK
OTO-LL
PTO-220
QTO-92
UIPAK (-S for short leads)
VPowerSO-10™
WTO-247 (-4 for 4 leads)
WA TO-247 long leads
YMax247®
Indicative
current range
Breakdown voltage ÷ 10
(with the exception
of non 10 multiples)
Technology
H5 STripFET™ H5 (12 V, 30 V)
H6 STripFET™ H6 (-30 V, 30 V)
H7 STripFET™ H7 (-20 V, 30 V)
F3 STripFET™ F3 (40 V to 100 V)
F5 STripFET™ F5 (40 V)
F6 STripFET™ F6 (-100 V to 80 V)
F7 STripFET™ F3 (40 V to 120 V)
M2 MDmesh™ M2 (400 V to 650 V)
DM2 MDmesh™
DM2 Series ≥ 400 up to 650 V
M2-EP MDmesh™ M2 EP (650 V)
M6 MDmesh™ M6 (≥ 650 V up to 700 V
M5 MDmesh™ M5 (550 V, 650 V)
K3 SuperMESH™ K3 ≥ 400 V
K5
MDmesh™ K5 (800 V to 1500 V)
DK5
MDmesh™ DK5 (≥ 950 V up to 1050 V)
Channel polarity
NN-channel
PP-channel
N...N Two different N-channel dice
N...P Complementary pair
DN
or DP Dual N-Ch or dual P-Ch
NS or
PS
N-Ch or P-Ch plus Schottky Diode
(electrically connected, monolithic included)
Special features
CCurrent sensing
DFast recovery diode
LLogic level 5 V drive optimized
LL Logic level 4.5 V drive optimized
TTemperature sensing
VSuper logic level (2.5 V - 2.7 V drive)
UUltra logic level (1.8 V drive)
ZClamped by Zener diode (33 V)
ST x 20 N95 y K5
IGBT P/N BVCES ICN 1VCE(sat) 2Eon 3Eoff 3 FRD Option
(V) (A) (V) (mJ) (mJ)
STGW40H65DFB-4 650 40 1.6 0.2 0.41 Very Fast
STGW60H65DFB-4 650 60 1.6 0.35 1.16 Very Fast
STGW80H65FB-4 650 80 1.6 - 1.7 -
STGW80H65DFB-4 650 80 1.6 1.00 1.7 Very Fast
TO247-4 product portfolio
Signal Schot diodes
11
Based on the advanced and innovative properties of wide bandgap materials, ST’s silicon carbide (SiC) MOSFETs feature very low RDS(on) for
the 1200 V rating combined with excellent switching performance, translating into more efficient and compact systems. Compared with silicon
MOSFETs, SiC MOSFETs exhibit low on-state resistance * even at high temperatures and excellent switching performance versus the best-in-
class 1200 V IGBTs in all temperature ranges, simplifying the thermal design of power electronic systems.
The main features and benefits of our SiC MOSFETs include:
Very high temperature handling capability
(TJmax = 200 °C) leading to reduced
PCB form factors (simplified thermal
management) as well as improved system
reliability
Significantly reduced switching losses
(minimal variation versus temperature)
resulting in more compact designs (with
smaller passive components)
Low on-state resistance (80 mΩ typical
at 25 °C) resulting in higher system
efficiency (reduced cooling requirements)
Simple to drive (cost-effective network
driving)
Very fast and robust intrinsic body diode
(no need for external freewheeling diode,
thus more compact systems)
ST offers Schottky and ultrafast rectifier solutions for all market requirements. ST’s latest developments include our M series, based on Schottky
technology, with improved avalanche rating and the integration of higher currents in low-profile PowerFLAT™ packages. Our range of small-
signal Schottky diodes with flip-chip packages helps meet the most stringent space saving requirements, especially for portable communication
equipment. For high-efficiency rectification or freewheeling functions, our new field-effect rectifier diodes, the FERD family improve the power
density capability of converters.
For power converter applications where silicon diodes reach the limits of their operating temperature and power density, ST offers the low VF and
high surge series of silicon carbide rectifiers.
Part number Package VDSS (V) RDS(on) (at VGS = 10 V)
max (Ω)
Drain current (Dc) (ID)
max (A)
Total power dissipation
(PD) max (W)
Total gate charge (Qg)
VGS = 4.5 V (nC)
STW20N90K5 900 0.26 20
STW40N90K5 900 0.099 40
STW12N120K5 TO-247 1200 0.69 12 250 44.2
STW12N150K5 TO-247 1500 1.9 7 250 47
STW21N150K5 TO-247 1500 0.9 14 410 95
STW3N170 TO-247 1700 13 2.6 160 44
STFW3N170 TO-3PF 1700 13 2.6 63 44
DIODES AND SIC RECTIFIERS
This overview of ST’s diode portfolio gives an idea of how many part numbers are available to fit all application needs.
For more information, please visit www.st.com/diodes
240 A
200 A
60 A
20 A
4 A
3 A
1 A
>1 A
60 V
15 V 40 V 100 V 150 V 200 V 600 V 1000 V 1200 V
Power Schottky diodes Ultrafast bipolar
rectifiers
IO (A)
VRRM (V)
Signal Schottky
diodes
Field-effect
rectifiers SiC diodes
12
Automotive grade
Void standard diode
-Y automotive-grade
diode
STaa bb c ddd e f g h
Technology
STPS Power Schottky
STPSC SiC
STTH Ultrafast
FERD
Field effect rectifier
Packing option
Void for axis-bulk
Void for SMA/B/C:
tape and reel
Void for other packages: tube
RL tape and reel, for axial
packages
TR tape and reel, for other
packages
Breakdown voltage
STPS (power Schottky)
code: VRRM = 15 V to 600 V
STPSC (SiC)
code: VRRM = 600 V/1200 V
Hhigh surge
Blank
series
low Vf
STTH (ultrafast)
code: VRRM divided by 100
200 V to 1200 V
02 to 12
FERD
code: VRRM
divided 45 V to 100
Current rating
Current: 0.5 A to 240 A
Code: 0.5 to 240
Connection type
Void Two-lead configuration
Cdual common cathode
Ssingle in three-lead package
Series
For Schottky diodes (STPS)
Void medium VF/IH
Hhigh temperature (<120 V only)
Llow VF from IO/2 to IO (<120 V only)
Mlow VF from IO/4 to IO2
Slow leakage current
SM low VF up to IO/4
For ultrafast diodes (STTH)
Void medium VF and Qrr
Llow VF (600 V mainly)
Rlow Qrr recovery
Note: trade-off mainly used for
400 V and 600 V
FERD
Mlow IR
SM medium VF/IR
UUltra low VF
Packing type
Through-hole packages
Void Axial: D0-41, DO-15, DO-201
DTO-220AC
DI TO-220I
TTO-220AB
FP TO-220FPAB
PI DOP3I
RI2PAK
HIPAK
WTO-247, DO-247
SMD packages
ASMA
USMB
SSMC
BDPAK
GD2PAK
TV1 ISOTOP (longitudinal)
TV2 ISOTOP (lateral)
DJF Powerflat 5x6
DEE Powerflat 3.3x3.3
ST’s silicon-carbide diodes take advantage of SiC’s superior physical characteristics over silicon, with 4 times better dynamic
characteristics and 15% less forward voltage (VF).
Their low reverse recovery characteristics make ST’s SiC diodes a key contributor to energy savings in SMPS applications and
in emerging domains such as solar energy conversion, EV or HEV charging stations, and other applications such as welding
equipment and air conditioners.
ST’s SiC product portfolio is now up to 40 A at 650 V and in the range from 6 to 20 A at 1200 V, housed in DPAK HV and TO-220AC packages.
SiC
SIC MOSFETs
Based on the advanced and innovative properties of wide bandgap materials, ST’s silicon carbide (SiC) MOSFETs feature very low
RDS(on)* area for the 1200 V rating combined with excellent switching performance, translating into more efficient and compact
systems. Compared with silicon MOSFETs, SiC MOSFETs exhibit low on-state resistance* area even at high temperatures and
excellent switching performances versus the best-in-class 1200 V IGBTs in all temperature ranges, simplifying the thermal design
of power electronic systems.
The main features and benefits of our SiC MOSFETs include:
Very high temperature handling capability
(Tjmax = 200 °C) leading to reduced
PCB form factors (simplified thermal
management) as well as improved system
reliability
Significantly reduced switching losses
(minimal variation versus temperature)
resulting in more compact designs (with
smaller passive components)
Low on-state resistance (80 mΩ typical
at 25 °C) resulting in higher system
efficiency (reduced cooling requirements)
Simple to drive (cost-effective network
driving)
Very fast and robust intrinsic body diode
(no need for external freewheeling diode,
thus more compact systems)
Part number IDmax (A) (@ 25 °C) VDSS (V) RDS(on) (max (Ω) (@ VGS = 20 V) Total gate charge Qg typ (nC) Tjmax (°C) Package
SCT10N120 1200 12 0.69 22 200 HiP247™
SCT20N120 1200 20 0.239 45 200 HiP247™
SCT30N120 1200 45 0.1 105 200 HiP247™
SCT50N120 1200 65 0.069 122 200 HiP247™
SCTWA50N120 1200 65 0.069 122 200 HiP247™ long leads
13
INTELLIGENT POWER MODULES
ST offers a family of IPMs (Intelligent Power Modules), called SLLIMM™ (Small Low Loss Intelligent Molded Module).
The range of SLLIMM families cover all motor control applications working in a power range up to more than 3.0 kW.
Today we offer SLLIMM nano products, IGBT, MOSFET and SJ MOSFET based switches, with different package options
in order to cover power range from a few watts up to 500/600 W with the last 2nd series nano products. The latest SLLIMM 2nd series covers
a power range from 0.5 KW to more than 3 KW reaching the lowest Rthjc on the market, thanks to the double packages offer (full molded and
DBC). The optimum compromise between conduction and switching energy, with high robustness and EMI performance, makes the new SLLIMM
series ideal to enhance the efficiency of home appliances and motor drives working up to 20 kHz in hard-switching circuitries.
A new plastic power module family called ACEPACK™ (Adaptable Compact Easier package) has been developed to address mainly
industrial applications such as industrial motor drives, solar panels, welding and power management solutions (DC-DC, AC-DC converters for
UPS, chargers, etc.).
1 kW500 W200 W100 W50 W 2 kW 3 kW
Small pumps
Refrigerators
Power tools
Washing machines
Room A/C
Small industrial
inverters & pumps SLLIMM 2nd series DBC
SLLIMM 2nd series
Full Molded
SLLIMM-nano
2nd series
SLLIMM
SLLIMM-nano and SLLIMM-nano SMD
Package A/C
End Products
Power
ACEPACK™2
ACEPACK™1
Battery chargers
Welding
Solar
Industrial
Automation
Motor
drives
Fan
UPS
A new plastic power module
family called ACEPACK™
(Adaptable Compact Easier package)
has been developed to address
mainly industrial applications such as
industrial motor drives, solar panels,
welding and power management
solutions (DC-DC, AC-DC converters
for UPS, chargers, etc.).
Two packages, ACEPACK™ 1 and
ACEPACK™ 2 have been introduced,
both with Six-pack and converter
inverter brake (CIB) topologies.
With ACEPACK™ are going to be
released the STEVAL-CTM001V1
and the STEVAL-CTM002V1,
respectively a galvanically isolated
driving and control stage and the
power board capable to host the
new A2C35S12M3-F (1200 V, 35
A) in CIB (Converter Inverter Brake)
configuration.
1K
14
THYRISTORS AND AC SWITCHES
ST offers a complete range of thyristors (silicon controlled rectifiers), TRIACs and AC switches with voltage ratings up to 1200
V, current ratings up to 80 A and a selection of packages from miniature mounted packages to high power dissipation isolated
packages.
ACST AC switch H Series TRIAC High-voltage TRIAC
Solid state relays ••• •••
Heating (1 phase current) •• •••
Heating (3 phases current) •••
Motor starter •• •••
Motor soft start ••• ••
Inrush current limiter motor drive •••
TRIACs and AC switches
For low-power industrial applications (current rating < 25 A), ST has developed overvoltage-protected AC switches, high-temperature H series
TRIACs and high-voltage operation TRIACs and alternistors.
Every application needs the right TRIAC or AC switch. The following table provides ST’s recommended series for industrial applications:
ACST AC switch: Overvoltage protection and high application robustness
The ACST series, with integrated overvoltage crowbar protection and snubberless™
operations, eliminates the need for additional external protection to support IEC 61000-4-4
and IEC 61000-4-5 standards (Control Board Compliance). It makes for easier design, smaller
boards and therefore more cost-effective projects.
The ACST AC switches can handle surges of 2000 V with a clamping voltage (VCL) of 850 V.
ACST SERIES
YOUR DESIGN, SIMPLIFIED
Auto-protected against AC line
overvoltage surges
Enables compliance with IEC
61000-4-4 and -4-5 disturbances
No need for additional components
(RC network, MOV)
Easy control board design
Part number
Package
IT (RMS)
(A)
VDRM/VRRM
(V)
IGT
(mA)
dV/dt (V/µs)
(125°C/150 °C)
(dI/dt)c (A/ms)
(125 °C/150 °C)
Tjmax
(°C)
TO-220AB
TO-220AB Ins.
DPAK
D2PAK
ACST435-8 FP B 4 800 35 1000 5 125
ACST610-8 FP T G 6 800 10 500 3.5 125
ACST830-8 FP T G 8 800 30 2000 8 125
ACST1035-8 FP T 10 800 35 4000/2000 10/5 150
ACST1235-7 T G 12 700 35 2000 14 125
ACST1235-8 FP 12 800 35 4000/2000 12/6 150
ACST1635-8 FP 16 800 35 1000/300 12/4 150
15
H Series TRIACs: High Temperature and High Application Robustness
The H Series TRIACs are specified for a maximum junction temperature of 150 °C. They are
particularly suited to hot environments and to PCB designs requiring high power density, with a
current rating up to 30 A. They are available in D2PAK and TO-220 packages.
These “No Compromise, no nonsense” devices offer high thermal cycling performance and high
turn-off commutation capability, making them the most rugged range of TRIACs in the industry.
All the part numbers listed in the following table operate at Tjmax = 150 °C.
High-voltage TRIACs: 1200 V capability and high application robustness
The new T2550-12 TRIAC has been designed for industrial applications such as 3-phase
motor soft-starters, contactors and protectors, with the market’s first 25 A, 50 mA, 1200 V
TRIAC. Thanks to its high current robustness (withstands 6 million cycles of repetitive inrush
current at 50 A), the T2550-12 prolongs the lifetime and extends the current rating of 3-phase
motor starters and controllers. In its D2PAK package variant, it allows a more compact design
compared to mechanical contactors.
H SERIES
NO COMPROMISE,
NO NONSENSE
High reliability
High turn-off performance
High noise immunity
High current density
High current surge performance
Heatsink reduction
Surface Mount Design compatible
(D2PAK)
T1225-12G SMD TRIAC FOR
1200 V APPLICATIONS
Compact D2PAK package
Robust turn-off commutation
Outstanding immunity
performance
Part number
Package
IT (RMS) (A) VDRM/VRRM (V) IGT (mA) dV/dt (V/µs)
150 °C
(dI/dt)c (A/ms)
150 °C
TO-220AB
TO-220AB Ins.
D2PAK
T835H-6 T I G 8 600 35 1000 11
T850H-6 T I G 8 600 50 1500 14
T1035H-6 T I G 10 600 35 1000 13
T1050H-6 T I G 10 600 50 1500 18
T1235H-6 T I G 12 600 35 1000 16
T1250H-6 T I G 12 600 50 1500 21
T1635H-6 T I G 16 600 35 1000 21
T1650H-6 T I G 16 600 50 1500 28
T2035H-6 T I G 20 600 35 1000 27
T2050H-6 T I G 20 600 50 1500 36
T3035H-6 T I G 30 600 35 1000 33
T3050H-6 T I G 30 600 50 1500 44
Part number Package IT (RMS)
(A)
VDRM/VRRM
(V)
IGT
(mA)
dV/dt (V/µs)
125 °C
(dI/dt)c (A/ms)
125 °C
Tjmax
(°C)
1200 V low-sensitivity industrial TRIACs
T2550-12G D2PAK 25 1200 50 2500 20 125
T2550-12T TO-220AB 25 1200 50 2500 20 125
T2550-12I TO-220AB Ins. 25 1200 50 2500 20 125
1200 V alternistors
TXDV1212 TO-220AB Ins. 12 1200 100 2000 15 125
TPDP1225 TOP3 Ins. 25 1200 150 2000 20 125
TPDV1240 TOP3 Ins. 40 1200 200 200 35 125
fl W W
16
SCR thyristors
ST is proud to offer the most innovative silicon-controlled rectifier (SCR) portfolio for industrial applications. Indeed, ST is the first to offer a
sensitive SCR with 1250 V surge capability (TS110) as well as fully qualified automotive-grade SCR for medium power (TN550H-12WY).
High surge capability SCR TS110
The TS110 is a unique offering for industrial automation. Thanks to highly sensitive triggering levels, it is suitable for circuit breaker
applications where the available gate current is limited. Such applications include GFCI (ground fault circuit interrupter), AFCI (arc fault
circuit interrupter), RCD (residual current device), and RCBO (residual current circuit breaker with overload protection).
The 1250 V surge voltage capability of the TS110 enables high robustness of the whole circuit breaker. The low leakage current of the
TS110 reduces power consumption over the entire lifetime of the circuit breaker.
High-temperature SCR thyristors
Our high-temperature SCR series work at Tjmax = 150 °C. It is ideal, whether for mixed bridges
in motor drive boards or for AC switch operations above 20 A (IT (RMS)). The high-temperature
SCR thyristor series is available in through-hole (for legacy designs) and SMD (for modern,
compact designs) packages.
TN3050H-12GY, TN3050H-12WY and TN5050H-12WY are fully qualified automotive-grade
devices at Tj = 150 °C (AGAC).
TS110
ULTIMATE CIRCUIT
BREAKER SCR
Resists to applicative 5 kV surge
& 4 kV burst tests
Directly driven by RCD – AFCI
circuit
Low losses of the circuit breaker
High surge current: 25 A – 10 ms
TN3050H-12GY:
FIRST MEDIUM-POWER
D2PAK AUTOMOTIVE SCR
AGAC certified
1200 V (direct, reverse)
Reduced stand-by losses, lower
leakage
Compact cooling system
Part number
Package
IT (RMS) (A) VDRM/VRRM (V) IGT (µA) dV/dt (V/µs)
125 °C Tjmax (°C)
TO-92 "GAK"
TO-92 "KGA"
SMBflat-3L
TS110-7 A1 UF 1.25 700 100 15 125
TS110-8 A1 A2 UF 1.25 800 100 200 125
Part number
Package
IT (RMS)
(A)
VDRM/VRRM
(V) IGT (mA) dV/dt (V/µs)
150 °C Tjmax (°C)
TO-220AB
TO-220FPAB
TO-247
D2PAK
D3PAK
TN1205H-6 T G 12 600 5 100 150
TN1605H-6 FP 16 600 5 200 150
TN1610H-6 T FP 16 600 10 1000 150
TN2015H-6 T FP 20 600 15 750 150
TN3050H-12 WY* GY* 30 1200 50 1000 150
TN4015H-6 T G 40 600 15 500 150
TN5050H-12 WY* 50 1200 50 1000 150
TM8050H-8 D3 80 600 50 1000 150
Note: * Automotive grade (AGAC)
_"’1— i K‘ " VIPEIPLUS
17
VIPERPLUS & ALTAIR
PWM controller + HV power MOSFET in the same package
V800 V AR MOSFET for high robustness
Extreme-low consumption
High integration level for minimal BoM
Flexible and easy to use
SUPPORTED TOPOLOGIES
Isolated
Regulation with optocoupler
using all ICs
PSR-CV (VIPer0P, VIPer*1,
VIPer*6)
PSR-CC/CV with high accuracy
(ALTAIR)
Non isolated MOSFET for high
robustness
Flyback with direct feedback,
buck, buck-boost (VIPer0P,
VIPer*1, VIPer*6)
AC/DC AND DC/DC REGULATORS
Focus on AC-DC converters
ST’s high-voltage AC-DC converters combine an advanced pulse width modulation (PWM) controller with a high-voltage power MOSFET in
a single package. This makes them ideally suited for off-line switch mode power supplies (SMPS) with output power spanning from a few to
twenty watts.
The VIPerPlus series (VIPer0P, VIPer*1, VIPer*5, VIPer*6, VIPer*7, VIPer*8 families) features an 800 V avalanche-rugged power MOSFET and
leading-edge PWM controller and consumes less than 4 mW for VIPer0P, 10 mW for VIPer*1 and 30 mW in standby for the others.
It also comes with the largest choice of protection schemes and supports different topologies.
The Altair series has a built-in 800/900 V avalanche-rugged power MOSFET and a PWM controller specifically designed to work in constant
current/constant-voltage primary-side regulation (PSR-CC/CV). It means opto-less implementation, thus significantly reducing component count.
PWM
controller
Feedback
VIPerPlus
...directly from
AC mains voltage
Input rectification
and filtering
Output rectification
and filtering
...to ± DC bus
(3 V, 5 V, 12 V) to supply:
• Microcontroller
• PWM driver
• Relay
Note: * Coming soon
Different MOSFET size for different output power capabilities
Fly-back Converter
Wide range VAC
30 Ω/350 mA
4 W
24 Ω/400 mA
6 W
20 Ω/400 mA
8 W
14 Ω/700 mA
12 W
7 Ω/700 mA 4.5 Ω/1 A
15 W
Buck Converter 150 mA 200 mA 200 mA 350 mA
Max RDSON / IDLIM
Different features for different controllers
VIPer0P
Zero-Power Mode
VIPer series 1
Low VCC voltage
VIPer series 5
Quasi-resonant
VIPer series 6
Smart features
VIPer series 7
Brown-out
VIPer series 8
Peak power
Altair
PSR CC/CV
VIPer01 VIPer11*
VIPer0P
Altair04 Altair05
VIPer28
VIPer27
VIPer26
VIPer25
VIPer38
VIPer37
VIPer35
VIPer06 VIPer16
VIPer17
18
The L7987/L offers the following features:
3.3 V output voltage, 3 A DC output
current
4.5 to 60 V input voltage
500 kHz switching frequency
3.5 ms programmed soft-start
switch-over for improved efficiency at
light load
180° out of phase synchronization available
Open-drain PGOOD pin available
Auto-recovery overcurrent and thermal
protection
Explore all these features using the STEVAL-ISA152V1 (for the L7987) and the STEVAL-ISA198V1 (for the L7987L).
When looking for energy-saving synchronous step-down monolithic converters, the L6986, housed in a HTSSOP16 package, fits many
applications in the factory automation environment. With its P-channel integrated power MOSFET, an ideal duty cycle pushed up to 100%
guarantees output voltage from 0.85 V to VIN or 38 V.
Focus on DC-DC converters
ST’s DC-DC converters for industrial buses offer a wide choice of input voltage ranges (VIN(max) from 38 to 61 V) and features. The 61 V series
(L7987/L) is designed to provide maximum reliability in fail-safe applications. The new synchronous DC-DC converter for industrial applications,
the L6986, is the best choice when efficiency is of prime importance, both at full load (thanks to synchronous rectification) and at light load
(thanks to the low standby consumption). Evaluation boards are available upon request. There are multiple package options, all offering
compactness and high thermal performance to fit different applications.
The highest efficiency is achieved with
quiescent current as low as 30 µA and a
low-consumption mode specific for light
loads. Moreover, a significant reduction in
passive components cost and size is can be
achieved thanks to a switching frequency up
to 2 MHz. All these features are can be seen
in the STEVAL-ISA156V1 evaluation board.
Digital I/O
Sensors
Analog output
modules 1..
Analog output
modules #
DC-DCVin
Power supply line
12 V - 24 V
The 61 V series (L7987/L) is
designed to provide maximum
reliability in fail-safe applications.
19
Architecture Harvesting Source Target Battery Other features
SPV1040 Boost PV Any type* Over-current and Over-temperature protection,
Input reverse polarity protection
SPV1050 Boost/Buck-Boost PV and TEG Any type (including supercap) Over-voltage and under-voltage battery protection,
2 embedded LDOs (1.8 and 3.3 V)
Note: * A CC-CV battery charger is needed to apply a lithium battery charging profile
STEVAL-IDS002V1
Multi-sensor sub-1 GHz
RF node powered by PV cells
STEVAL-IDS003V1
Multi-sensor sub-1GHz
RF node powered by a
thermo-electric generator
Environmental energy harvesting from light and thermal gradients are the most effective ways
to gather free energy if accompanied by very high efficiency and ultra-low power battery
chargers.
To fit critical requirements in sensing networks for factory automation, ST offers specific DC-DC
converters such as the SPV1040 (outdoor solar harvester with proprietary MPPT for loads up to
about 3 W) and the SPV1050 (indoor ultra-low power solar and TEG energy-harvester for any
battery type and supercapacitor with embedded MPPT and LDOs for loads up to about 350 mW).
The working principle of both devices is designed to optimize energy-wise system autonomy,
while ensuring a fast and safe battery charge without shortening its lifetime. In particular, the SPV1050 is suitable for any type of battery and
supercap, and embeds two LDOs to boost system integration and reliability, and cuts down the BOM. This makes it possible for any companion
chip like a transceiver, microcontroller or sensors to be flexibly powered by the power manager.
The table below summarizes the key features and main differences between the SPV1040 and the SPV1050.
Two fully autonomous multi-sensor node reference designs based on a full ST components package are available for your evaluation. They embed
an SPV1050 ultra-low-power energy harvester and battery charger with embedded MPPT and LDOs, STM32 microcontroller, SPIRIT1 low-data-rate
low-power sub-1GHz transceiver, accelerometer, temperature sensor and air-pressure sensor.
Part
Number
Maximum
current (mA)
Quiscent
Current (uA)
Typ Vdrop at
max load (mV)
Input Voltage
Range (V)
PSRR typ
@ 1 kHz
Noise
(uVrms) Package Feature
STLQ50 50 3.5 400 2.3-12 30 560 SOT323-5L Ultra Low Iq
LDK715 85 5 500 4.3-24 45 95 SOT23-5L, DFN8 3x3 Ultra Low Iq, High Vin
ST715 85 3.8 500 2.5-24 45 95 SOT23-5L, DFN8 3x3 Ultra Low Iq, High Vin
LD39015 150 18 80 1.5-5.5 65 29 SOT23-5L, Flip Chip 4 High PSRR, Tiny Package
LD39115 150 20 80 1.5-5.5 74 30 Flip Chip 4 High PSRR, Tiny Package
LD59015 150 31 150 2.3-5.5 76 20 SOT323-5L High PSRR, Low Noise
LDCL015 150 120 50 1.8-5.5 52 40 SOT23-5L Capless
LDLN015 150 35 86 2.1-5.5 92 6.3 DFN6 2x2 High PSRR, Ultra Low Noise
STLQ015 150 1 115 1.5-5.5 40 75 SOT23-5L Ultra Low Iq
LD39020 200 20 200 1.5-5.5 80 45 SOT23-5L, DFN4 1x1 High PSRR, Tiny Package
LDK120 200 30 150 1.9-5.5 60 51 SOT23-5L, SOT323-5L,
DFN6 1.2x1.3 Cost Effective, Tiny Package
LDBL20 200 20 200 1.5-5.5 80 45 STSTAMP™ High PSRR, Tiny Package
LDK220 200 55 200 2.5-13.2 55 20 SOT23-5L, SOT323-5L,
SOT-89, DFN6 1.2x1.3 Cost Effective, Tiny Package
LDK320 200 60 200 2.5-18 65 60 SOT23-5L, SOT-89 Cost Effective, High PSRR
STLQ020 200 0.3 160 2-5.5 40 135 DFN6 2x2, Flip Chip 4 Ultra Low Iq, Tiny Package
LDLN025 250 12 120 1.5-5.5 65 6.5 DFN4 1x1, Flip Chip 4 High PSRR, Ultra Low Noise
LD39030 300 20 300 1.5-5.5 80 45 DFN4 1x1 High PSRR, Tiny Package
LD39030SJ 300 20 200 1.5-5.5 62 30 Flip Chip 4 High PSRR, Tiny Package
LD39130 300 1 300 1.4-5.5 70 38 DFN4 1.2x1.3, Flip Chip 4 Ultra Low Iq, Tiny Package
LDK130 300 30 200 1.9-5.5 60 51 SOT23-5L, SOT323-5L, DFN6 1.2x1.3 Cost Effective, Tiny Package
LDFM 500 150 125 2.5-16 62 45 DFN6 2x2, DFN6 3x3, DPAK, PPAK High Vin
ST1L08 800 35 70 1-5.5 80 45 DFN8 2x3 Ultra LDO, High PSRR
LDF 1000 150 200 2.6-16 62 45 DFN6 2x2, DFN6 3x3, DPAK, PPAK High Vin
LD39100 1000 20 200 1.5-5.5 65 30 DFN6 3x3 Low Noise, Low Iq
LDL112 1200 35 350 1.6-5.5 57 135 DFN6 2x2, DFN6 3x3, SO-8, PPAK Low Iq, Reverse Current
Protection
LDL212 1200 250 350 2.5-18 70 75 DFN6 2x2, DFN6 3x3, SO-8 Cost Effective, High PSRR
LD39200 2000 100 110 1.25-6 70 45 DFN6 3x3, DFN8 4x4 Ultra LDO, High PSRR,
Reverse Current Protection
STEVAL-ISA156V1
23; # T D D h"
20
POWER MANAGEMENT ICs
ST offers a very broad portfolio of power management ICs.
For fault management, the E-fuses replace larger conventional fuses, offering complete and flexible management of the fault (overcurrent/
overvoltage), without replacement after actuation.
E-fuse
Vcc
COUT LoadR-lim
CIN
CdV/dT
EN/fault
dV/dT
I-limit
Vcut/Source
GND
Controller
3.3 V 5 V 3.3 V/5 V
(low quiescent
current)
8 to 48V
(fully program.)
Rail
12 V
STEF033 STEF05
STEF05L
STEF4S STEF12 STEF01
Connected in series to the power rail, ST’s Power Breakers disconnect the load if power consumption exceeds a programmed limit: the
integrated power switch is automatically opened and notifies the remote monitoring feature.
The STPW05 (5 V rails) and the STPW12
(12 V rails), exhibit features like:
Auto-retry function with
programmable delay
Adj precise power limitation from
11 to 16 W
Integrated N-channel power MOSFET
Power breakers offer also: programmable power limit masking time, over-temperature protection and internal under-voltage lockout.
Current limiter ICs are designed to work with an external MOSFET to protect power supplies from anomalous external current demands.
In order to match the industrial application
range, the STFC01 is a reliable current
limiter featuring:
Wide VCC range from 10 to 48 V
Fully programmable current limitation
P-channel MOSFET driving capability
Remote ON/OFF control
Latch, autoretry or foldback configuration
Analog and digital current monitoring
(status telemetry)
Under-voltage lockout
EN
Rdelay GND
PWM
VIN
VOUT
Rset
Cset
VIN
Monitor/Fault
Thermal
shutdown
PWM
LOGIC
UVLO
UVLO
HYS
I_REF TON
Vcc
Vcc
TOFF
Vcc
TC_OFF
STSGND TM
TC_ON
SET_FLB
SET_STS
Telecommand
interface
COMP
VD
Vg
TMS-
ISNS-
ISNS+
TMS+
CURRENT LIM
and DRIVER
Trip-OFF
Circuitry STATUS
Telemetry
Analog
Telemetry
OpAmp
Sense
Power Supply Section
(Pre-Reg, Reference, Bias)
CORE
LOGIC
UVLO
The industrial power rail range is fully
covered with the STEF01, which is
usable throughout the 8 to 48 V range
thanks to its programmability options.
21
Display backlighting, signage and industrial panel applications demand reliability and efficiency
that is delivered by dedicated LED drivers.
Ideal for parallel and series configurations, they enable high-efficiency, high-current accuracy,
low-noise and small-size solutions. Topologies include buck regulator, boost regulator, offline
LED drivers, and more.
The LED1642GW is a monolithic, low voltage, low current power 16-bit shift register designed for LED panel displays. The LED1642GW
guarantees 20 V output driving capability allowing the user to connect several LEDs in series. In the output stage, 16 regulated current sources
provide from 3 to 40 mA constant current to drive the LEDs. The current is programmed through an external resistor and can be adjusted by a
7-bit current gain register in two subranges. The brightness can be adjusted separately for each channel through 12-/16-bit grayscale control.
40 72 80 90 100 400 mA/channel
8
4
16
24
Channels
STP08
STP16CPC26
LED2472G STP24DP05
STP16C*/D*
STP04
LED1642GW
STP16C*/D*
LED8102S
DC-DC LED drivers converters
DC-DC LED drivers controllers
Buck Buck-boost VinMax
Dimming
LED2000
LED2001
ST1CC40
Synchronous
18 V
18 V
18 V
LED5000
LED6000
48 V
61 V
IoutMax
3 A
4 A
3 A
3 A
3 A
STLDC08
STLD40D
Reverse
buck Buck-boost Boost & Sepic
HVLED002
LED6001
30 V
36 V
VinMax
Dimming
5.5 V
3.6 V
22
More Intelligent and Aware is a trend where machines are aware of the humans around them and
provide new interfaces such as smart tools, augmented reality and touchless interfaces for easier and
safer interactions. This will be achieved through the addition of local processing and sensor/ actuator
capabilities through the factory and connecting them in an efficient manner.
MCUs and motion, environmental and ranging sensors play a key role in this scenario, as well as
peripherals, like industrial I/Os, which make it possible to drive loads efficiently and safely.
Safety is also key and at we offer new devices that meet the latest safety standards.
RTC and memories
MCUs Secure MCUs
Motion MEMS
Signal conditioning
Environmental sensors
Analog and
digital inputs
Ranging sensors
Intelligent
power switches Isolation
More Intelligent & Aware
23
MCUs
The STM32 family of 32 bit Flash microcontrollers based on the ARM® Cortex® M processor is designed to offer new degrees of freedom to
MCU users. It offers a 32 bit product range that combines very high performance, real-time capabilities, digital signal processing, and low power,
low voltage operation, while maintaining full integration and ease of development.
The unparalleled and large range of STM32 devices, based on an industry-standard core and accompanied by a vast choice of tools and
software, makes this family of products the ideal choice, both for small projects and for entire platform decisions.
High performance
Mainstream
Ultra-low-power
Cortex-M0/-M0+ Cortex-M3 Cortex-M4 Cortex-M7
Note: * From CCM-SRAM
75 CoreMark
32 MHz
26 DMIPS
93 CoreMark
32 MHz
33 DMIPS
273 CoreMark
80 MHz
100 DMIPS
106 CoreMark
48 MHz
38 DMIPS
177 CoreMark
72 MHz
61 DMIPS
245 CoreMark*
72 MHz
90 DMIPS*
398 CoreMark
120 MHz
150 DMIPS
608 CoreMark
180 MHz
225 DMIPS
1082 CoreMark
216 MHz
462 DMIPS
2010 CoreMark
400 MHz
856 DMIPS
h Available on {he I
24
To help developers choose the best solution
for their applications, the ST-MCU-FINDER
application lets them explore the complete
portfolio of STM32 ARM® Cortex®-M and
STM8 microcontrollers and development
boards (only on mobile version) from any
mobile device or directly from the developer’s
desktop environment.
ST-MCU-FINDER features easy-to-
use selection tools, self-maintaining
documentation, and connections to MCU
communities. Developers find the MCU part
number that best fits their application thanks
to an easy search with multiple criteria
including core type, CPU frequency, memory,
price, package, I/Os, temperature grade and
peripherals such as control, timers, analog,
connectivity, multimedia and security. You
can also buy devices online using the ST
MCU Finder.
Developers can quickly access data
and technical resources to support
their microcontroller projects. The
technical documentation for a selected
device (including datasheets, reference
manuals, application notes, user manuals,
programming manuals, and errata sheets)
is available in one place and can be
downloaded for off-line viewing. Documents
are automatically updated with the latest
version.
In the desktop version, the development
begins immediately after device selection by
launching the STM32CubeMX initialization-
code generator directly from the application.
ST-MCU-FINDER connects users with
developer communities on popular social
platforms such as Facebook, Twitter, the
STM32 YouTube channel, and ST Community.
Complete hardware tools and ecosystem
ST’s microcontrollers are supported by a complete range of high-end and low-cost Discovery Kit evaluation tools. They implement the full
range of device peripherals and features of each product line. The evaluation tools also come complete with third-party solutions that use an
integrated development environment and in-circuit debugger/programmer featuring the JTAG application interface. Developers who are new to
these microcontroller cores and families can also benefit from the range of starter kits that are specially designed to help them evaluate device
features and start their own applications.
ABS Ewan: X 2. I “‘H/ Mm“: \a E" W “"1de chu. ARM'm bed‘ MATI AB SIML'I INK
25
STM32 ECOSYSTEM
Hardware tools
www.st.com/stm32hardwaretools
Flexible prototyping Creative demos
Discovery kitSTM32 Nucleo board Evaluation board
Full-feature evaluation
Software tools
www.st.com/stm32softwaretools
Embedded software
www.st.com/stm32embeddedsoftware
STM32Cube HAL and middleware
Std Libraries
CMSIS and
mbed SDK
High optimization
low portability
Average optimization
STM32 portability
Low optimization
ARM portability
Low optimization
large portability
Virtual machines
and models
STM32Cube LL
(Low Layer)
STM32CubeMX Partners IDEs STMStudio
Configure and generate code Compile and debug Monitor
Assistance Conseil
Systèmes
Free IDE
macOS™ Note : Free full version of Keil MDK-ARM on all STM32L0 and STM32F0
ST COMMUNITY
Ask, learn, share, discuss, become famous and engage with the community of STM32 enthusiasts on community.st.com
Nucle07144 ; J; [ff-31:. 5 3- u o I. _ :l .3 I I n -'- I I
26
STM32 Nucleo development boards
The highly affordable STM32 Nucleo development boards allow anyone to try out new ideas and to quickly create prototypes with any
STM32 MCU.
Sharing the same connectors, STM32 Nucleo development boards can easily be extended with a large number of specialized application
hardware add-ons such as the STM32 Nucleo expansion boards (Nucleo-64 boards include Arduino Uno rev3 & ST morpho connectors,
Nucleo-32 boards include Arduino Nano connectors). STM32 Nucleo development boards integrate an ST-Link debugger/programmer, so there
is no need for a separate probe.
A comprehensive STM32 software HAL
library together with various software
examples are provided with the STM32
Nucleo boards, and seamlessly work with
a wide range of development environments
including IAR EWARM, Keil MDK-ARM, mbed
and GCC/LLVM-based IDEs.
All STM32 Nucleo users have free access to
the mbed online resources (compiler, C/C++
SDK, and developer community) at www.
mbed.org allowing you to build a complete
application in only a few minutes.
Mainstream Ultra-low-power High-performance
Legend:
256 K
128 K
192 K
32 K
64 K
512 K
2 M
1 M
Flash size (bytes)
Nucleo type
NUCLEO-F091RC
NUCLEO-L073RZ
NUCLEO-F072RBNUCLEO-F070RB
NUCLEO-F410RBNUCLEO-F103RB
NUCLEO-L053R8NUCLEO-F334R8
NUCLEO-F302R8NUCLEO-F030R8
NUCLEO-F446RE
NUCLEO-F411RENUCLEO-F401RE
NUCLEO-L152RENUCLEO-F303RE
NUCLEO-L476RG
Nucleo-64
NUCLEO-L031K6
NUCLEO-F042K6
NUCLEO-F031K6
NUCLEO-F303K8
Nucleo-32
NUCLEO-F303ZE NUCLEO-F446ZE
NUCLEO-F429ZI NUCLEO-F767ZI
NUCLEO-F412ZG
NUCLEO-F746ZG
NUCLEO-F207ZG
Nucleo-144
NUCLEO-L011K4
NUCLEO-L432KC
16 K
QFN
version
LQFP
version
my
27
STM32-SafeSIL
Functional safety manuals to achieve IEC 61508 Safety Integrity Level (SIL2/3)
certification with STM32
On the basis of the ST Quality foundations, the STM32 product portfolio and the STM32
embedded safety features, the STM32-SafeSIL functional safety manuals help customers
to quickly market safety-critical STM32-based systems, targeting the industry standard IEC
61508 Safety Integrity Level (SIL2/3).The Altair series has a built-in 800/900 V avalanche-
rugged power MOSFET and a PWM controller specifically designed to work in constant current/
constant-voltage primary-side regulation (PSR-CC/CV). It means opto-less implementation,
thus significantly reducing component count.
STM32Cube development software
STM32Cube is a set of free tools and embedded software bricks to enable fast and easy development on the STM32 platform which simplifies
and speeds up developers’ work.
The embedded software bricks include a Hardware Abstraction Layer (HAL) for easy porting from one STM32 device to another and middleware
bricks for the most common functions (such as RTOS, USB, file system, TCP/IP stack, touch sensing or graphics).
A large number of use-case code examples are also included, making it even easier to get started.
Find out more at www.st.com/stm32cube
Tools & IDEs
Application examples
STM32 Nucleo expansion boards (X-NUCLEO)
STM32 Nucleo development boards
Hardware
Sample applicationsApplications
IAR EWARM, Keil MDK-ARM, GCC-based IDEs
(e.g. AC6 System Workbench for STM32)
STM32Cube Hardware Abstraction Layer (HAL)
STM32Cube
middleware
Upper level middleware
Middleware
Hardware
Abstraction
STM32Cube expansion middleware
ST Quality foundations
SIL2/SIL3
Development
Safety manuals
Safety features
Product portfolio
KEY FEATURES
Detailed list of safety requirements (conditions of use) and examples to guide
STM32 users to achieve Safety Integrity Level 2/3 according to IEC 61508 for the
application-dependent layer (e.g. peripherals, watchdog)
Available for STM32F0, STM32F1, STM32F2, STM32F3, STM32F4, STM32L0 and
STM32L1 microcontroller series
28
IPMSM MTPA 3shunt Digital PFC3Motor profiler
Sensor-less
(STO + Cordic) FreeRTOS Dual FOC HFI1
Startup on-the-fly ICS
Max FOC2
F103 ~ 23 kHz
F2xx ~ 40 kHz
Max FOC2
F3xx ~ 30 kHz
F4xx ~ 50 kHz
1shunt
3shunt4Flux weakening
Feed forward Sensor-less
(STO + PLL)
Encoder Hall sensors
ST MC workbench
support
USART based com
protocol add-on
Max FOC2
F100 ~ 11 kHz
F0xx ~ 12 kHz
Max Dual FOC2
~ 23 kHz
Max Dual FOC2
F103 ~ 20 kHz
F2xx ~ 36 kHz
Max Dual FOC2
F3xx ~ 27 kHz
F4xx ~ 45 kHz
STM32F100x, STM32F0xx
STM32F103x LD/MD
STM32F103x, HD/XL, STM32F2xx
STM32F4xx, STM32F3xx
STM32 dedicated motor control libraries
A complete motor control ecosystem (software, hardware, development tools, and documentation) helps designers to develop motor control
applications faster.
The STM32 PMSM FOC SDK is a Motor Control Software Development Kit (SDK) for 3-phase permanent magnet synchronous motors
(PMSM) based on field-oriented control (FOC) supporting STM32F103, STM32F100, STM32F2xx, STM32F4xx, STM32F0xx and STM32F30x
microcontrollers.
Note: 1 High frequency injection 2 Max FOC estimated in sensorless mode 3 STM32F03xC/D/E/F/G and STM32F303xB/C 4 No for STM32F100 New
Motor control SDK workflow
Set up the HW Send commands with serial
communication
Use motor specs or identity
the motor using Motor profiler
Finalize the project
with Workbench
STM8 8-bit MCU family
ST’s 8-bit microcontroller platform is
implemented around a high-performance
8-bit core and a state-of-the-art set of
peripherals. This platform is manufactured
using an ST-proprietary 130 nm embedded
non-volatile memory technology. It is able to
reach 1.6 cycles per instruction and up to
24 MHz clock frequency, allowing customers
to run their applications at low speed with
high performance.
Mainstream
Industrial and consumer
Robust and reliable
Up to 125 °C
Ultra-low-power
High-end analog IPs
Active halt
<1 µA
STM8AL
AEC-Q100
Ultra-low-power
STM8AF
AEC-Q100
Up to 150 °C
Automotive
STM8 microcontroller platform
STM8 core
Up to 24 MHz
130 nm EEPROM
techology
Debug module Tools
Peripherals Robustness
STM8 L
29
The flexibility of the architecture minimizes switching noise, resulting in improved system robustness and lower power consumption.
An innovative clock implementation provides benefits such as fast wake-ups in only 4 μs. It enables immediate on-the-fly clock switching to
allow clock accelerations for PWM or calculation routines.
The 32-bit robust NVM memory addressed through a 3-stage pipeline interface, the 16-bit index registers and stack pointers and the advanced
instruction set with hardware multiplication/division are key elements that significantly improve the efficiency of this 8-bit device family.
The STM8 allows fast and safe development through enhanced stack pointer operations, advanced addressing modes and new instructions.
The STM8 offer consists of a large product portfolio.
Performance line Access line Application specific line Value line
Legend:
128 K
32 K
64 K
8 K
16 K
Flash size (bytes)
Pin count
20-pin
TSSOP/QFN/SO
32-pin
LQFP/QFN/SDIP
44-pin
LQFP
48-pin
LQFP
64-pin
LQFP
80-pin
LQFP
4 K STM8S103F2
STM8S105K4 STM8S105S4 STM8S105C4
STM8S003F3 STM8S003K3
STM8S103F3 STM8S103K3
STM8S903F3 STM8S903K3
STM8S007C8
STM8S207K8 STM8S207S8 STM8S207C8 STM8S207R8 STM8S207M8
STM8S208S8 STM8S208C8 STM8S208R8 STM8S208M8
STM8S207SB STM8S207C8 STM8S207R8 STM8S207M8
STM8S208SB STM8S208CB STM8S208RB STM8S208MB
STM8S005K6 STM8S005C6
STM8S105K6 STM8S105S6 STM8S105C6
STM8S207K6 STM8S207S6 STM8S207C6 STM8S207R6
STM8S208S6 STM8S208C6 STM8S208R6
Security matters: STM32 & STSAFE™ security package
With the deployment of an increasing number of connected devices in the industrial environment, both the factory manufacturing infrastructure
as well as the supporting process infrastructure offer more opportunities for cyber-attacks, making security a major topic to be addressed.
Smart Industry devices such as sensors, switches or motor control boxes, must be trusted and protected against cloning and counterfeiting, and
must exchange data with control and supervisor servers in a secure manner.
ST offers a wide range of secure solutions ensuring security for the protection of objects and Smart Industry networks at field, control and
supervisor levels against attacks such as:
Device cloning and counterfeiting
User data corruption
Device malfunction
Service and network access corruption
To address the many new smart industry threats, ST offers a wide range of security solutions from embedded STM32 security features to a full
ecosystem with ready-to-use Common Criteria certified STSAFE turnkey solutions.
Developers can strengthen system security by providing faster, more reliable and more robust applications through the use of an STM32
microcontroller combined with an STSAFE™ secure element, which provides state-of-the-art security with a Common Criteria certified solution
for secure storage and crypto-services.
@fialfi gage ma
30
Control layer Supervisor layer
Gateway
Gateway
STSAFE-J
STSAFE-TPM STSAFE-TPM
STM32
STM32 Control unit
STSAFE-A STM32
Field layer
Smart objects
Smart objects
Smart objects
STSAFE-A
STSAFE-A
STM32
STM32
Sense Process Connect Power Secure Process Connect Power Secure Connect Power Secure
The complete range of STSAFE-A, STSAFE-J and STSAFE-TPM solutions covers all the security requirements in field, control and supervisor
layers.
Cross-layer design for end-to-end security
The STSAFE secure element family ranges from optimized to flexible Java-based and TCG-compliant TPM solutions.
Relying on CC EAL5+ certified chips running an ST-developed secure operating system, our solutions ensure state-of-the-art security for
protecting Smart Industry networks and objects against main threats such as device cloning, counterfeiting, data corruption and eavesdropping.
Developers benefit from a comprehensive set of development tools and services:
Expansion boards compatible with STM32
Nucleo and Arduino boards and kits
Example code and software libraries
to be embedded in the application
microcontrollers
Personalization services for trusted storage
of secrets
STSAFE-A
STSAFE-A is an optimized solution providing strong authentication services. Its command set is tailored to address
authentication, establish a secure channel in the scope of a TLS session, verify signatures, and offer secure storage as
well as decrement counters for usage monitoring.
Relying on a Common Criteria EAL5+ platform, STSAFE-A is a highly secure authentication solution whose security is
certified by independent parties.
Particularly well suited for applications exposed to fraud or counterfeiting, such as consumables like printer cartridges,
accessories for phones or gaming, USB Type-C devices, IoT objects running critical credential or operating valuable
services, STSAFE-A is the ideal solution for customers wishing to build a secure ecosystem and to focus on their
application.
STSAFE-A100 is provided with a complete ecosystem including:
An STM32 Nucleo expansion board (X-NUCLEO-STA100) allowing to connect the
STSAFE-A100 to a STM32 MCU on and STM32 Nucleo development board via its I2C
interface
A software package including STM32 software to generate and run referenced
STSAFE-A100 applications. The package is composed of:
STSAFE command wrapper
STSAFE reference example use case such as peripheral authentication, TLS handshake
secure channel establishment, secure data storage with access control, local wrap/
unwrap envelopes.
ARM mbed reference resources
31
WIDEST PORTFOLIO OF RTC OFFERS UNLIMITED DESIGN SOLUTIONS
In applications where the clock must not drift and correct time must be kept over long periods while unplugged and with minimal
battery backup, a standalone real-time clock (RTC) offers significantly higher performance than an embedded RTC in the MCU.
An extended range of products with the latest technological innovations is available, including ultra-low-power devices, embedded
crystal oscillators, analog and digital calibration.
RTC functions include programmable alarm, battery switchover and many useful supervisory functions that enhance the application’s reliability
such as oscillator fail detect, battery low detect, early power fail warning, reset, watchdog, and more (www.st.com/rtc).
STSAFE-J
With a flexible Global Platform and Java 3.0.4 -compliant command set, STSAFE-J is the new generation of KERKEY™ versatile secure
solutions offering a wide range of cryptographic and secure services for applications which need to comply with pre-established schemes.
Moreover, its EAL5+ Common Criteria certificate enables it to serve the market requiring strong security in concentrators, gateways, and IoT
devices.
Moreover to ease development, ST provides a complete set of tools for the integration of STSAFE-J including a set of drivers, a software library
(STLIBP11) running on Linux or Windows 7 or 10, and a development board for connecting a Raspberry Pi board.
STSAFE-TPM
STSAFE-TPM, ST’s Trusted Platform Module, is an EAL4+ Common Criteria–certified solution in compliance with the TPM 1.2
& 2.0 TCG (Trusted Computing Group) standard designed to protect users' assets by monitoring platform integrity from the boot
phase.
Used in devices where firmware integrity is a must, TPMs are largely deployed in desktops, notebooks, tablets, and servers and
continue to spread into today's connected world, expanding from PCs to phones to home gateways to cars to infrastructures and more.
STSAFE-A100 STSAFE-J100 STSAFE-TPM
Typical applications • Consumers, industrial objects,
• USB-C PD3.0 authentication • Gateways
• Computers
• Gateways
• Servers
Features
• Authentication (generic, USB-C)
• Signature verification
• Secure channel establishment with distant server (TLS)
• Secure data storage
• Decrement counter
• Flexible crypto services (Java
Card 3.0.4+ GP 2.1.1 + applet) • TCG compliant TPM 1.2 & 2.0
Personalization service at ST Yes Yes Yes
Certification CC EAL5+ HW CCEAL5+ HW
CC EAL5+ Platform CCEAL4+ & TCG1.2 & 2.0
Cryptography ECC, AES RSA, AES, ECC, SHA AES, 3DES, RSA, SHA-1, SHA-256, ECC
Temp. range –40 to 105 °C –40 to 85 °C –40 to 105 °C
Package SO8N
DFN (2 x 3 mm)
VQFN 32
DFN8 (4 x 4.2 mm)
TSSOP28
VQFN32
Comm. I/F I2C I2C SPI, I2C
Sub-families Part numbers Key features Applications
Low-power M41T6x
Low standby current
World’s smallest RTC with crystal oscillator
Small packages
Portable HMI
Enhanced industry standard
M41T81S
M41T00S
M41T01
M41T80
M41T11
M41T82/83/93
M41T00CAP
Automatic battery switchover
Analog calibration
Embedded crystal oscillator
Sub-metering
HMI
Highly-integrated
M41ST85W
M41T94
M41ST87W
Embedded NVRAM
Internal and external RAM clear
MCU supervisor functions
Tamper detect with timestamp
PLC
Local control
Servers
Data storage
Security
Battery with crystal oscillator M4T28
M4T32
Battery backup power
Keyed insertion
Removable battery
Sub-metering
Portable HMI
Local control
Key RTC products
32
Lockable
page
million
cycles
Up to
2Mb
1 Kb 2 Kb 4 Kb 8 Kb 16 Kb 32 Kb 64 Kb 128 K 256 K 512 K 1 Mb 2 Mb
I2C
SO8N ••••••••••••
TSSOP •••••••••••
DFN8 •••••••••
DFN5 •••••••
WLCSP •••••••••
SPI
SO8N ••••••••••••
TSSOP •••••••••••
DFN8 •••••••••
WLCSP ••••••
Microwire
SO8N •••••
TSSOP •••••
DFN8 • •
1 Kb 2 Kb 4 Kb 8 Kb 16 Kb 32 Kb 64 Kb 128 K 256 K 512 K 1 Mb 2 Mb
I2CSO8N •••••••••
TSSOP •••••••••
SPI SO8N •••••••••
TSSOP •••••••••
Key features Benefits
Complete range 2 Kbit to 2 Mbit in SPI and I2C Flexibility in design and memory size upgrades without PCB upgrade
SO8N, TSSOP, DFN8, DFN5 Robust molded packages for harsh environments
Operating from -40 up to +105 °C Adapted to new industrial requirements
200 Years data retention
4 Million Erase/Write Cycles Highest level of reliability for long lasting systems
Lockable and Identification page System integrity and basic security identification
SERIAL EEPROM
STMicroelectronics offers a complete range of Serial EEPROM densities and packages which
brings flexibility in smart industry designs. ST's Standard series proposes Industrial grade
EEPROMs that enlarge capabilities to safely store and refresh information coming from
network modules and sensors.
On each ST Serial EEPROM device, more than 100 million samplings and updates are possible
over an extended temperature range up to 105 °C.
Datalog in ST’s serial EEPROM makes your network infrastructure flexible, efficient and reliable over time.
Industrial grade lines offer robust devices from 1 Kbit to 2 Mbit with I2C, SPI and Microwire serial interfaces. All products feature up to 4 million
write/erase cycles per byte, over 100 million cycles per device and 200 years data retention. The wide power supply range 1.7 V to 5.5 V fits
any supply available on board.
Industrial 85 °C line offers competitive products with focus on low voltage and the smallest form factor. Packages such as DFN8, DFN5 and
WLCSP ensure that they can fit in the tiniest modules.
Industrial 105 °C line offers robust products in SO8N and TSSOP8 packages to fit industrial applications requiring extended operating
temperature ranges, improved traceability (lockable page) and long data retention after cycling.
Lockable identification page offered on I2C and SPI Industrial-Plus products, allow to store sensitive information or identification data and lock it
in read only mode. It helps increasing system integrity and gives basic security identification.
Read more at http://www.st.com/en/memories/standard-serial-eeprom.html
Product Selection guide – Datasheets – Application notes
Retention
200 years
Op Amps
33
Electrochemical gas sensor evaluation pack
The P-NUCLEO-IKA02A1 is an evaluation pack composed of the gas sensing expansion
board and NUCLEO-L053. The STM32 Nucleo pack for electrochemical toxic gas sensors
expansion board with CO sensor provides reference design for various electrochemical
sensors.
Two TSU111 operational amplifiers are used for signal conditioning. They are ideal for
electrochemical sensing thanks to high precision and low power consumption.
Information on how to obtain the board can be found at www.st.com/x-nucleo under the
reference P-NUCLEO-IKA02A1.
Multifunctional Op Amps expansion board for STM32 Nucleo
The X-NUCLEO-IKA01A1 is a multifunctional STM32 Nucleo expansion board based on
STMicroelectronics operational amplifiers. It provides an affordable and easy-to-use solution
for various use cases with your STM32 Nucleo development board.
The board contains seven predefined configurations based on three different operational
amplifiers
TSZ124 for instrumentation amplifier and current sensing configurations
TSU104 for a window comparator function and photodiode or UV sensor configurations
TSV734 for LED driver and buffer configurations
Information on how to obtain the board can be found at
www.st.com/x-nucleo under the reference X-NUCLEO-IKA01A1
SIGNAL CONDITIONING
Operational amplifiers
ST is a high-volume supplier of both standard and high-performance op amps (www.st.com/opamps):
Complete 5 V and 16 V CMOS portfolio
including precision and power-saving
op amps
Brand new 40 V BiCMOS technology
offering:
High ratios of performance-to-power
consumption
Outstanding robustness
(ESD tolerance 4 kV HBM)
Outstanding stability of performance
versus temperature changes
Space-saving packages such as
DFN, QFN, SOT-23 and SC-70
5 V CMOS
Precision chopper TSZ182
Nano power TSU111
16 V CMOS
High precision TSX711
High bandwidth TSX921
Bipolar and JFET
Industrial standards
LM324 LM358 LM2904 TL084
40 V BiCMOS
Low power TSB611
Rail-to-rail TSB572
Op amp series Main feature Application
TSB611 Supply range up to 36 V,
2.5 MHz bandwidth, 4 kV ESD
Power applications: 24 V ±15 V,
High-voltage signal conditioning
TSB572
TSX921
Supply range up to 16 V, bandwidth up to 16 MHz,
input offset down to 200 µV
Power applications: 12 V ±5 V,
AFE for high-voltage sensors
TSX9291
TSX711
TSZ181
TSZ121
Supply range up to 5.5 V, input offset down to 5 µV,
supply current down to 580 nA, bandwidth up to 20 MHz
Low voltage sensor signal
conditioning. Interface with
microcontrollers.
TSU111
TSU101
TSV631
TSV991
Note: Check out www.st.com for all commercial products and package options.
34
Comparators
TS861/2/4
TS7211/7221
TS3011
TS881/2/4
TS3021/2
TS372/374
LM393/339
LM2901/2903
TS391
TSX339/393
TSX3702/4
TS3702/3704
TS339/393
TS331/2/4 LMV331/393/339
1.0 µA 10 µA 50 µA 100 µA 500 µA
1 µs
500 ns
100 ns
10 ns
Icc
Response time
Vcc 5 V Vcc 10 V Vcc 16 V Vcc 36 V
Legend:
New
ST is a leading supplier of comparators with a portfolio that offers:
High-speed comparators with response
times as fast as 8 ns
Micropower comparators with operating
currents as low as 210 nA
High-temperature (150 °C)
qualified devices
Guaranteed specified min/max electrical
performance
Outstanding robustness (ESD
tolerance 4 kV HBM)
Space-saving packages such as
DFN, QFN, SOT-23 and SC-70
Comparators series* Main feature Application
TS881/2/4 Nanopower
Very low voltage
Gas, CO detectors
Battery-operated security systems
TS3011 Nano-second response time
High efficiency
Optical modules
High-frequency systems
TS3021/2
TSX3702/4 Micropower, 16 V operating
High ESD tolerance
Voltage detector
Motor control
TSX339/393
Note: Check out www.st.com for all commercial products and package options.
35
High-side current sensing
Accurate sensing of currents is central to enhancing application safety. Controlling the current within set boundaries avoids overheating and
short circuits. Current measurement is also an essential part of energy metering.
The main features of our growing high-side current-sense amplifier portfolio are:
Up to 70 V line monitoring
Integrated solutions (for example, inclusion of EMI filtering on output) for faster design times and a reduced BOM
Robust devices that do not require external protection
Automotive-grade qualified current-sense amplifiers
Vsense
GND
GND
Microcontroller
TSCxxx
Out
5 V
Iload
Vcc
Vout
Vm
Vcc
Vp
Rsense
Battery or power
source
Load
Vreg
ADC
HIGHLIGHT: TSC103
Common-mode voltage:
2.9 to 70 V
Optional dual-supply configuration
to reach -2.1 V to 65 V
common-mode range
Rugged input pin sustain
-16 to +75 V and 2.5 kV ESD
Pin-selectable gain: 20 V/V, 25 V/V,
50 V/V, 100 V/V
Low current consumption: 360 µA
Part number Max.
ICC (µA)
Common mode operating range (V) VCC (V) Voltage gain
(V/V)
Operating temperature (°C)
Package
Min. Max. Min. Max. Min. Max.
Hide side current sensing
TSC101 300 2.8 30 4 24 20, 50, 100 -40 125 SOT23-5
TSC888 1000 2.8 24 4 24 20, 50, 100 -40 125 SOT23-5
TSC102 420 2.8 30 3.5 5.5 Adjustable -40 125 TSSOP8, SO8
TSC1021 300 2.8 30 3.5 5.5 20, 50 -40 125 TSSOP8
TSC103 360 2.9 70 2.7 5.5 20, 25, 50, 100 -40 125 TSSOP8, SO8
TSC1031 360 2.9 70 2.7 5.5 50, 100 -40 125 TSSOP8, SO8
Order code Description Documentation
STEVAL-ISQ007V1 High-side current-sense amplifier demonstration board based on TSC101 AN2727
STEVAL-ISQ010V1 High-side current-sense amplifier demonstration board based on TSC102 DB0982
STEVAL-ISQ013V1 Low-side current sensing based on TS507 AN3222
STEVAL-ISQ014V1 Low-side current sensing based on TSZ121 UM1737
Evaluation boards
36
The ST Op Amps Mobile App
The ST Op Amps app (ST-OPAMPS-APP) is a free all-in-one design
toolkit and smart selector for smartphones and tablets.
You can select the best product from among our operational amplifier,
comparator, current-sensing, power and high-speed amplifiers portfolios
for your application.
Sort, compare and filter electrical parameters or use the smart component value calculator
with interactive schematics. Search using the competitor cross-reference tool and access 3D
package data and product datasheets while away from the desk.
The ST Op Amps App is available on GooglePlay and AppStore
www.st.com/opamps-app
Data communication interface ICs USB transceivers and interfaces
ST’s USB interface family includes high-speed USB OTG ULPI transceivers, full speed OTG transceivers and USB charger detection interfaces.
They provide a complete solution to connect a digital USB-OTG and ULPI controller to the physical universal serial bus.
For example, the diagram below shows a typical application circuit using the STUSB03E.
The STUSB03E is a single-chip transceiver that complies with the physical layer specifications of the Universal Serial Bus (USB) v2.0 standard. It
has an integrated 5 V to 3.3 V regulator which allows direct powering from VBUS. The transceiver has an integrated voltage detector to detect the
presence of VBUS and features an internal D+ pull-up resistor implemented in accordance with the 27% resistor ECN.
For advanced protection devices, the SLVU2.8 series has been designed to protect Ethernet lines. Their low capacitance makes them compatible
with gigabit Ethernet.
System
Supply voltage
CS24770
4.7 µF
RS = 20
RS = 20
+ +
1 µF
USB
controller
VIF
VM
SPD
VBUSDET
RSEL
VCC
CON
D+
D-
VBUS
VBUS
D+
D-
GND
VTRM
VPU
OE#
RCV
VP
SUS GND
@ RJ45 —||—E
37
The following table presents some examples of decreasing complexity of dedicated ICs, such as the ST485Ex, a family of ±15 kV ESD protected,
low-power RS-485/RS-422 transceivers, for industrial applications (www.st.com/interface).
In this family, the SLVU2.8-4A1 is designed to be compatible with gigabit Ethernet and gigabit PoE by using two SO-8 packages, and can be
used on 10/100 Mbit/s Ethernet with a single device. Surge capability is compatible with IEC 61000-4-5 class 2 (1 kV, 42 Ω, 24 A).
The diagram shows the use of the SLVU2.8-4A1, implementing 10/100 Mbit/s Ethernet protection.
Secondary protection Primary protection
V
RJ45
Transceiver
Part number Temperature
range (°C)
Supply voltage
(V)
Data rate min
(Mbit/s)
Communication
standard supported
Number of
nodes
Number of
drivers/receivers Package
ST4485EBDR -40 ÷ 105 3.3 20 RS485, RS422 64 1/1 SO-8
ST3485EIDT -40 ÷ 125 3.3 12 RS485, RS422 64 1/1 SO-8
ST485EBDR -40 ÷ 85 5 5 RS485, RS422 256 1/1 SO-8
ST485EXDR -55 ÷ 125 5 5 RS485, RS422 256 1/1 SO-8
ST232EB -40 ÷ 85 5 0.23 RS232 . 2/2 SO-16, TSSOP 16
CLT01-38S4 wiring diagram
UVA SPI
VCS
RS
RPD
VCC VC
RC
VI
RIVIN IN1
IN8
8-input
Type 1/3
CLT
LD8
LD1
REF
Voltage
regulator
VDD
COMS
CLT01-38S4
8/16-bit
State transfer
SPI
CPHA = 0
CPOL = 0 MOSI
SPM
O-T = opto-transistor or isolator
MISO
/CS
SCK
Field bus
Controller
COMP
DVR
O-T
O-T
O-T
RREF
ANALOG AND DIGITAL INPUTS
Modern control systems are highly complex applications. The current trend is to use as many integrated solutions as possible in such designs,
either to increase the density or to reduce the physical dimensions of the modules.
Either way results in more stringent requirements regarding the total power dissipation of the module. Current-limiting termination (CLT) devices
form a new series of intelligent protected terminations designed for digital-input modules and proximity-sensor interfaces in industrial and
building automation systems. Today’s designers face the challenge of increasing the number of I/Os per volume unit and increasing the I/O-
interface features. The CLT series offers highly robust EMC compliant solutions in accordance with:
Surge IEC 61000-4-5: 1 kV ESD IEC 61000-4-2: 15 kV EFT burst IEC 61000-4-4: 4 kV
Robustness is also a key parameter for CLT devices, including the CLT01-38S4, which operates with all types of sensors compliant with IEC
61131-2, type 1 and 3, with a 2.35 mA limited current, and type 2, using two inputs per sensor with the correct RREF.
I Avmlabh: on the . App Store El" .'EI
38
xCLT product CLT3-4BT6 PCLT-2AT4 SCLT3-8 CLT01-38
Number of inputs 4 2 8 8
Input IEC 61131-2 Type 1 and 3 Type 1, 2 and 3 Type 1, 2 and 3 Type 1, 2 and 3
Output type Isolated Isolated,
Non-isolated
Isolated,
Non-isolated
SPI serialized transfer
Isolated,
Non-isolated
SPI serialized transfer
Output drive Opto transistor Opto transistor,
CMOS compatible
Opto transistor,
Electromagnetic isolator
CMOS compatible
Opto transistor,
Electromagnetic isolator
CMOS compatible
Input current limiter 2.8 mA 2.5 to 7.5 mA 2.35 mA 2.35 mA
Current tolerance 25% 18% 10% 10%
Front-end LED status Yes,
using type 1 Yes Yes Yes
Surge level > 1 kV Type 3: 1 kV
Type 2: 0.5 kV > 1 kV > 1 kV
ESD level 8 kV 15 kV 15 kV 15 kV
Package TSSOP-20 TSSOP-14 HTSSOP-38
QFN 7x7
HTSSOP-38
QFN 7x7
Input datarate 10 kbit/s 10 kbit/s 40 kbit/s 400 kbit/s
Application note AN2527 AN2482 AN2846 and AN3031 AN4625
Evaluation board STEVAL-IFP008V1 STEVAL-IFP004V1 STEVAL-IFP007V1,
STEVAL-IFP030V1
STEVAL-IFP023V1,
STEVAL-IFP031V1,
X-NUCLEO-PLC01A1
The CLT series and its related evaluation boards, as well as the basic documentation, is shown in the table below, together with their most
important features.
Additional information about current limiters is available at www.st.com/protection.
The X-NUCLEO-PLC01A1 is an industrial input/output STM32 Nucleo expansion board based on the CLT01-38SQ7 and VNI8200XP for STM32
Nucleo. Compatible with the Arduino UNO R3 connector, it can be used as a simple PLC (programmable logic controller) in few steps and can be
associated with an app available for Android and iOS devices.
The board is equipped with a set of diagnostic and activity LEDs to facilitate application debugging. The X-NUCLEO-PLC01A1 can be used
to rapidly evaluate the ICs on the board performing a basic set of PLC operations in conjunction with the X-CUBE-PLC1 software package.
X-NUCLEO-PLC01A1 is not intended to evaluate single devices at their full specifications. The VNI8200XP includes advanced protection and
fault detection features. The CLT01-38SQ7 provides protection and isolation in industrial operating conditions as well as an 'energy-less' status
indication for each of the eight input channels, featuring minimal power consumption; it is designed for situations that are required to pass the
IEC61000-4-2 8 kV and 15 kV test standards.
39
INTELLIGENT POWER SWITCHES (IPS)
Digital outputs
ST offers a large family of intelligent power
switches (IPS) that integrate a control part
(logic interface, high-side drivers, and
protection) with a power stage. IPS are based
on ST-patented technologies, including
bipolar, multipower BCD and VIPower M0
technologies. This provides increased
system reliability, part count reduction,
space saving and built-in protection, as well
as smaller IPS devices that are housed in
tiny, flat, no-lead plastic packages (DFN,
QFN). The high thermal performance of
the power packages such as PowerSO-36,
PowerSSO24 and PowerSSO12 allows the
absorption of high-energy pulses when an
inductive load is driven without any external
freewheeling diode. As an example, the block
diagram below shows one of our latest IPSs,
the VN808, designed using our proprietary
VIPower technology.
Logic
Vcc
GND
OUT
X8
VN808
IN 2
IN 8
IN 1
Status
Undervoltage
Vcc
clamp
Clamp
Case temperature
detection
Current limitation
Junction temperature
detection
Popular single-channel IPSs
Popular multi-channel IPSs
Part number VCC RDSON (Ω) IOUT (A) Technology Package Channels
TDE1737DP 8 ÷ 50 - 0.5/Adjust Bipolar DIP-8 Low side
TDE1747FP 10 ÷ 60 - 0.45/Adjust Bipolar SO-14 High side
TDE1787ADP 6 ÷ 60 - 0.3/Adjust Bipolar DIP-8 High side
TDE1798DP 6 ÷ 50 - 0.5/0.7 Bipolar DIP-8 High side
L6370Q 9.5 ÷ 50 0.10 2.5/Adjust MultiBCD QFN 48L 7x7 High side
L6375D 8 ÷ 50 0.40 0.5/0.75 MultiBCD SO-20 High side
L6377D 8 ÷ 50 0.40 0.5/Adjust MultiBCD SO-14 High side
VN751PT/S 5.5 ÷ 41 0.060 2/2.5 VIPower PPAK/SO-8 High side
IPS160H 8 ÷ 60 0.060 2/2.6 VIPower PSO12 High side
IPS161H 8 ÷ 60 0.060 0.5/0.7 VIPower PSO12 High side
Part number VCC RDSON (Ω) IOUT (A) Technology Package Channels
VNI2140J 9 ÷ 36 0.08 1.0 VIPower PowerSSO-12 2
L6374 10.8 ÷ 35 4.0 0.1 MultiBCD SO-20 4
L6376 9.5 ÷ 35 0.64 0.5 MultiBCD PowerSO-20 4
VNI4140K 10.5 ÷ 36 0.08 0.7 VIPower PowerSSO-24 4
VNI4140K-32 10.5 ÷ 36 0.08 1.0 VIPower PowerSSO-24 4
VNQ860 5.5 ÷ 36 0.27 0.25 VIPower SO-20/PowerSO-10 4
VN808/-32 10.5 ÷ 36 0.15/0.16 0.7/1.0 VIPower PowerSO-36 8
VN808CM/-32 10.5 ÷ 36 0.15/0.16 0.7/1.0 VIPower PowerSO-36 8
VNI8200XP/-32 45 0.11 0.7/1.0 VIPower PowerSSO-36 8
ISO8200B 45 0.11 0.7 MultiBCD + VIPower PowerSSO-36 8
ISO8200BQ 45 0.11 0.7 MultiBCD + VIPower QFN 7x7 32L 8
40
The VNI8200XP is an octal, high-side smart-power solid-state relay, with a serial/parallel selectable interface on chip (8-/16-bit SPI interface
for IC command and control diagnostics). The IC, built using ST’s VIPower™ technology, is designed to drive any kind of load with one side
connected to ground. Active channel current limitation combined with thermal shutdown, independent for each channel, and automatic restart,
protect the device against overload. Additional embedded functions include:
Loss-of-GND protection that automatically turns off the device
outputs should ground be disconnected,
Undervoltage shutdown with hysteresis,
Power good diagnostic for valid supply voltage range recognition,
Output enable function for immediate power output on/off
programmable watchdog function for MCU safe operation
IPS devices are designed to safely drive every kind of load in low-voltage applications (up to 55 V), handling data in and out of the
microcontroller by means of status/input signals. IPS devices are designed to comply with the following international standards:
IEC 61000-4-4 (electrical fast transient/burst)
IEC 61000-4-2 (ESD, immunity test contact/air)
IEC 61000-4-5 (surge test immunity requirements)
IEC 61000-4-6 (current injection test)
IEC 61131-2 (programmable controller, equipment requirements
and tests)
IPS devices come with evaluation boards available on Internet (www.st.com/ips).
SEL1/IN1
FB
PHASE
COL0
COL1
BOOT
DCVDD
VREF
PG
VCC
FAULT
GND
TWARN
WD_EN/IN2
OUT_EN/IN3
WD/IN4
ROW0
ROW1
ROW2
ROW3
VREG
SDI/IN5
CLK/IN6
SS/IN7
SDO/IN8
SEL2
SPI
LED
driving
DC/DC
converter
Case temp
detection
Junction temp
detection
Pull-down
resistor
Undervoltage and
power good
Current limiter
Clamp power
VCC clamp
OUT1
OUT2
OUT3
OUT4
OUT5
OUT6
OUT7
OUT8
Logic
ENE
41
ISOLATION
A recent introduction to the IPS family is the ISO8200B, a galvanic isolated 8-channel driver featuring a very low RDS(on) for the
power stage. It contains 2 independent galvanic isolated voltage domains (VCC for the power stage and VDD for the digital stage).
Additional embedded functions are loss-of-GND and loss-of-channel overtemperature protection and case overtemperature
protection, undervoltage shutdown with hysteresis, reset function for IC output disable, overvoltage protection (VCC clamping), direct
and synchronous control mode, fast demagnetization for inductive loads, and ESD protection. The IC is intended to drive any kind of load with
one side connected to ground with 3.3/5 V compatible inputs. Active channel current limitation combined with thermal shutdown (independent
for each channel) and automatic restart protect the device against overload and short circuits. In overload conditions, if the junction temperature
exceeds the threshold, the channel involved is turned off and then automatically on again after the IC temperature decreases below the reset
threshold. If this condition causes the case
temperature to reach the threshold limit,
TCR, the overloaded channel is turned
off and only restarts when the case and
junction temperature decrease below the
reset thresholds. Non-overloaded channels
continue to operate normally. An internal
circuit provides an OR-wired unlatched
common fault indicator signaling the
channel overtemperature. The fault pin is an
open-drain active-low fault indication pin.
The device is today available also with the
new 7 x 7 mm QFN package, referenced as
ISO8200BQ.
The X-NUCLEO-OUT01A1 is an Industrial Digital output STM32 Nucleo expansion board based on ISO8200BQ.
It provides an affordable and easy-to-use solution involving galvanic insulation embedded in industrial power switch driver applications.
The Arduino™ UNO R3 connector compatibility allows to connect the following STM32 Nucleo development boards:
NUCLEO-F103RB, NUCLEO-F302R8 and NUCLEO-F401RE.
The X-NUCLEO-OUT01A1 can be connected to the X-NUCLEO-PLC01A1 to get an industrial PLC prototype with 8 inputs and 16 outputs.
ISO8200B block diagram
IN 8
FAULT
GNDdd
Rpd
SYNC
Vdd Vcc
GNDcc
LOAD
OUT_EN
IN 1 Logic
Power
management
Logic
Undervoltage
detection
Case
temperature
detection
Junction
temperature
detection
Outpup clamp
OUTi
Current limit
Vcc clamp
Part number IOUT (per channel) Application note or
relevant document Evaluation board(s)
L6360 0.5 AN4075
AN5041
STEVAL-IFP016V1
STEVAL-IDP004V1
L6362A 0.3 DB2848
AN5041
STEVAL-IFP017V3
STEVAL-IDP003V1
TDE1708DFT 0.3 AN2679 STEVAL-IFS006V2
IPS160H 2.5 AN4781 STEVAL-IFP028V1
IPS161H 0.7 STEVAL-IFP034V1
L6370Q 2.5 AN3978 STEVAL-IFP020V1
VN751PT 2.5 DB0862 STEVAL-IFP005V2
VNI2140J 1 AN2985 STEVAL-IFP010V3
IPS4260L 3 STEVAL-IFP029V1(*)
VNI4140K 0.7 AN2684 STEVAL-IFP006V1
VNI4140K-32 1 AN4009 STEVAL-IFP019V1
VN808 0.7 AN2208 STEVAL-IFP002V1
VN808CM 0.7 AN2443 STEVAL-IFP001V1
VNI8200XP 0.7 AN4284 STEVAL-IFP022V1
X-NUCLEO-PLC01A1
VNI8200XP-32 1 DB2828 STEVAL-IFP032V1
ISO8200B 0.7 AN4373 STEVAL-IFP015V2
ISO8200BQ 0.7 DS10781 STEVAL-IFP033V1
X-NUCLEO-OUT01A1
42
MOTION SENSORS
ST’s motion sensor portfolio includes accelerometers, gyroscopes, microphones, digital compasses and inertial
modules (www.st.com/mems). ST is a worldwide leader in these devices thanks to:
A high-performance and accuracy, unique sensor portfolio, from discrete to fully-integrated solutions, to meet
every design need
High-volume manufacturing capacity to provide cost-competitive solutions, fast time-to-market and security of supply
High-performance sensor fusion to further improve the accuracy of multi-axis sensor systems to enable new
emerging and highly demanding applications such as indoor navigation, location-based services and industrial controls
High-level quality products, already tested in different application fields including mobile, portable, gaming, consumer, automotive, healthcare
and industrial segments (more than 13 billion parts shipped worldwide)
Robotics and automation
(accelerometers, gyroscopes)
Predictive maintenance
Inertial navigation, to increase the
accuracy of wheel encoders and self-
balancing robots
Condition monitoring of industrial
equipment and transportation (high-g
accelerometers)
Asset and parcel tracking and
monitoring (high-g accelerometers,
gyroscopes)
Impact detection and logging
Building and structure monitoring
(accelerometers)
Vibration and tilt monitoring
Vibration monitoring
Environmental noise-level detection
(microphones)
Drills (accelerometers, gyroscopes)
Tilt detection
Part number Full scale Noise density
(Typ.) Package size (mm) Key features
Accelerometers
IIS2DH1±2, ±4, ±8, ±16 g 250 µg/√Hz 2 x 2 x 1 LGA-12 Ultra-low-power high-performance 3-axis accelerometer
with digital output for industrial applications
IIS328DQ1±2, ±4, ±8 g 218 µg/√Hz 4 x 4 x 1.8 QFPN-24 High-performance ultra-low-power 3-axis accelerometer
with digital output for industrial applications
IIS3DHHC1, 2 ±2, ±5, ±8 g 65 µg/√Hz 5 x 5 x 1.7 LGA-16 16-bit, very-low-noise, high-stability MEMS digital output motion
sensor (inclinometer) for double signal integration
Gyroscopes
L20G20IS ±100, ±200 dps 0.0038 °/s/√Hz 2.0 x 2.0 x 0.7 LGA-16L Ultra-compact, two-axis gyroscope for closed loop controls
I3G4250D1±245, ±500, ±2000 dps 0.03 °/s/√Hz 4 x 4 x 1.1 LGA-16 Three-axis digital output gyroscope for industrial applications
Magnetometer
IIS2MDC1±50 gauss 2 x 2 x 0.7 LGA-12 16-bit data output, interrupt generator, self-test
Digital compasses
ISM303DAC1±2, ±4, ±8, ±16 g
±50 gauss
90 µg/√Hz
3.5 mgauss 2 x 2 x 1 LGA-12 Ultra-compact, high-performance e-compass 3D accelerometer and
3D magnetometer module
LSM303AH ±2, ±4, ±8, ±16 g
±50 gauss
90 µg/√Hz
3.5 mgauss 2 x 2 x 1 LGA-12 Ultra-compact, high-performance e-compass 3D accelerometer
and 3D magnetometer module
Inertial modules
ISM330DLC1±2, ±4, ±8, ±16 g ±125, ±245, ±500,
±1000, ±2000 dps 0.0038 °/s/√Hz 13 x 13 x 2 PCB iNEMO inertial module: 3D accelerometer and 3D gyroscope
with digital output for industrial applications
Note: 1 These part numbers are part of the ST 10-years longevity program.
Note: 2 This sensor cannot be evaluated with the X-Nucleo system.
43
X-NUCLEO-IKS01A2
ENVIRONMENTAL SENSORS
STMicroelectronics offers a full range of environmental sensors, including pressure, humidity and temperature sensors. These sensors rely on
dedicated mechanical structures that optimize performance even in challenging environmental conditions.
EVALUATION BOARDS FOR SENSORS
The STEVAL-MKI109V3 is the default evaluation tool with which all ST’s sensors can be evaluated and are supported.
Alternatively, The X-NUCLEO-IKS01A2 is an STM32 Nucleo expansion board for inertial and environmental sensor evaluation and software
tuning. It is compatible with the Arduino UNO R3 connector layout and is designed around some consumer grade devices. Nevertheless, ST
industrial sensors are fully supported thanks to the DIL24 adapter.
The X-NUCLEO-IKS01A2 interfaces with the STM32 microcontroller via the I2C pin, and it is possible to change the default I2C port.
Microphones based on MEMS technology offer excellent audio quality and fidelity. They are less susceptible to mechanical vibrations,
temperature variations and electromagnetic interference compared to traditional electret microphones. Their use in industrial domains might be
suitable in applications like ambient noise measurements or early detection of faulty equipment condition (pattern detection).
Part number Full scale Accuracy (Typ.) Package size (mm) Key features
Environmental sensors
HTS221 -40 to +120 ºC ± 3.5 % rH
± 0.5 ºC 2 x 2 x 0.9 HLGA-6L Capacitive digital sensor for relative humidity and temperature
LPS22HB -40 to +85 ºC ± 0.1 hPa 2 x 2 x 0.76 HLGA-10L 260-1260 hPa absolute digital output barometer
(MEMS nano pressure sensor)
LPS33HW -40 to +85 ºC ± 0.1 hPa 2 x 2 x 0.76 HLGA-10L Harsh environment 260-1260 hPa absolute digital output barometer
STLM20 -55 to +130 ºC Accuracy: 1.50 ºC max
at 25 ºC (± 0.5 ºC typ.)
1 x 1.3 x 0.5 UDFN-4L
2 x 2.1 SOT323-5L Ultra-low current 2.4 V precision analog temperature sensor
STTS751 -40 to +125 ºC Accuracy: ±1 ºC (typ.)
0ºC to +85º
2 x 2 x 0.5 UDFN-6L,
2.9 x 2.8 SOT323-6L 2.25 V low-voltage local digital temperature sensor
Part number SNR (dB) Sensitivity (dBV) Package size (mm) Key features
MEMS Microphones
MP23AB01DH 65dB -38 dB ± 1 dB 3.35 x 2.5 x 0.98 Bottom port, analog differential output, and very high AOP (135 dBSPL)
Open Software Expansion
The Open Software Expansion development suite offers drivers, middleware and application software to start your STM32 design with ST
products including MEMS, Bluetooth Low Energy modules, sensors, etc. It enables fast prototyping using the STM32 Open Development
Environment with leading-edge components that can quickly be transformed into final designs. The Open Software Expansion environment is
made up of several free libraries including:
Open.MEMS:
Sensor fusion library for STM32
platform (osxMotionFX)
Sensor carrying position for STM32
platform (osxMotionCP)
Sensor activity recognition for STM32
platform (osxMotionAR)
Sensor gesture recognition for STM32
platform (osxMotionGR)
Open.RF: BlueNRG Bluetooth Low Energy library for the most commonly-used BT smart
profiles
Open.Audio:
Real-time beam forming algorithm for STM32 platform (osxAcousticBF)
Real-time sound source localization algorithm for STM32 platform (osxAcousticSL)
Real-time echo cancellation routine for STM32 platform (osxAcousticEC)
Bluetooth Low Energy and microphones for STM32 platform (osxBlueVoice)
44
X-CUBE-MEMS-XT1
The X-CUBE-MEMS-XT1 expansion software
package for STM32Cube runs on the
STM32 and includes drivers that recognize
the industrial sensors not included in the
X-NUCLEO-IKS01A2 shield.
The expansion is built on STM32Cube
software technology to ease portability
across different STM32 microcontrollers.
STM32 Nucleo expansion boards
X-NUCLEO-IKS01A1 (Sense)
X-NUCLEO-IKS01A2 (Sense).
Hardware
The software comes with sample
implementation and runs connected to
a NUCLEO-F401RE, NUCLEO-L053R8,
NUCLEO-L152RE or NUCLEO-L476RG
development boards.
The software provides advanced motion
libraries together with sample applications available only for NUCLEO-F401RE and NUCLEO-L476RG. The motion libraries include MotionAC
(accelerometer calibration library), MotionAR (activity recognition library), MotionAW (activity recognition for wrist library), MotionCP (carrying
position library), MotionEC (eCompass library), MotionFA (fitness activities library), MotionFD (fall detection library), MotionFX (sensor fusion
library), MotionGC (gyroscope calibration library), MotionGR (gesture recognition library), MotionID (intensity detection library), MotionMC
(magnetometer calibration library), MotionPE (pose estimation library) and MotionPM (pedometer library), MotionSD (standing and sitting desk
detection library), MotionTL (tilt sensing library).
Key Features
Several examples to show the innovative inertial and environmental sensors
Sample application to transmit real-time sensor data to a PC
Compatible with the Unicleo-GUI graphical user interface to display sensor data and configure outputs
Advanced motion libraries with sample applications available only for NUCLEO-F401RE and NUCLEO-L476RG
Easy portability across different MCU families, thanks to STM32Cube
Free, user-friendly license terms
Application
STM32 Nucleo expansion boards
X-NUCLEO-IKS01A1 (Sense)
X-NUCLEO-IKS01A2 (Sense)
STM32 Nucleo development board
Hardware
Applications
STM32Cube Hardware Abstraction Layer (HAL)
Middleware
Hardware
Abstraction
MotionPE MotionPM MotionSD MotionTL
MotionGC MotionGR MotionID MotionMC
MotionEC MotionFA MotionFD MotionFX
MotionAC MotionAR MotionAW MotionCP
45
STEVAL-MKI109V3
Professional MEMS Tool
The Professional MEMS Tool (STEVAL-MKI109V3 “Profi MEMS Tool”) is a motherboard designed to provide a complete ready-to-use
development platform for MEMS devices mounted on adapter boards. It uses an STM32F401VE high-performance ARM Cortex™-M4
microcontroller which functions as a bridge between the sensor on the adapter board and the PC on which it is possible to use the UNICO
graphical user interface (GUI) downloadable from the ST website or dedicated software routines for customized applications.
Multi-sensor, Bluetooth application development platform
The BLUEMICROSYSTEM1 framework uses Bluetooth Low Energy, inertial (e.g. motion MEMS) and environmental (e.g. humidity, pressure,
temperature) sensors. It enables fusing together and transmitting real-time sensor data to a smartphone (Android or iOS based) via Bluetooth.
BLUEMICROSYSTEM1 provides an implementation example for the STM32F4 Nucleo platform equipped with the STM32 Nucleo MEMS and
environmental sensor expansion board (X-NUCLEO-IKS01A1) and the STM32 Nucleo Bluetooth Low Energy expansion board
(X-NUCLEO- IDB04A1).
BLUEMICROSYSTEM1 is suitable for all applications and markets, including IoT and wearables, which need to effectively sense, process and
transmit valuable information with very low power consumption and high performance.
Open.Framework:
BlueMicrosystem1 Application example
STM32CubeF4
BASIC FEATURES:
Compatible with all available ST MEMS
adapter boards with digital output
Controlled by the high-performance
STM32F401VET6 ARM Cortex™-M4
microcontroller
Includes a DIL24 socket for easy
MEMS adapter connection
3.6 V on-board linear voltage regulator
for microcontroller power supply
DFU compatible for USB
microprocessor firmware update
USB 2.0 full-speed compliant
Debugging connector for SWD/JTAG
Connection pins for UART
communication (Bluetooth, serial port)
RoHS compliant
46
More Connected focuses on machine-to-machine communication. Well known by the acronym M2M,
ST has been developing solutions that allow machines to communicate for many years now. This means
that machines can cooperate with other machines in order to optimize the workload, perform predictive
maintenance which goes in the direction of longer life for machines that can autonomously check their
status as well as faults, and communicate to upper levels that it’s time for a check-up.
M2M is about establishing communications between manufacturing and the back office. This one of the
major evolutions in Smart Industry where the new PLC becomes the bridge between these two worlds.
IO-Link
NFC
Fieldbus
RFID
Wi-Fi
Secure MCUs
Bluetooth
ESD & EMI Protection
Sub-GHz
More connected
IO-Link
IO-Link is a powerful bidirectional point-to-point serial communication protocol that connects
sensors and actuators. It was defined from the start with the following key benefits in mind:
Plug-and-play capability
Integrated diagnostics
Remote parameterization and calibration
Backwards compatibility
IO-Link allows three types of data to be exchanged – Process data (about the state of sensors
or actuators), service data (device information, configuration, detailed diagnostics or status),
and events (alarms or informational messages that should be delivered as soon as something
happens).
ST offers a number of solutions for IO-Link to help customers quickly and easily prototype and
develop their products.
The IO-Link Transceivers L6360 and L6362A enable a master and device solution for IO-Link.
These products feature a wide application spectrum thanks to their voltage range and current-
handling capabilities, maximum design flexibility, minimum power dissipation, and maximum
efficiency. Designed in BCD technology that allows the design of the logic part, and robust
low-voltage power MOSFETs in the same chip these solutions offers an efficient, compact and
cost-effective way to drive any 3-wire digital sensor.
47
These ICs ensure that IO-Link sensors and actuators can communicate without the need for special cables (standard M8 or M12 cables and
connectors can be used). They feature an advanced solution that can be integrated even in legacy systems, that is neutral to any fieldbus, and
maintains P2P communication.
Industrial transceiver ICs are compliant with burst tests, surge tests and ESD immunity tests, based on the IO-Link specification and SIO mode
requirements.
Evaluation boards are available for our L6360 and L6362A I/O industrial transceiver ICs.
Part number Supply voltage (V) VDD (V) Output current (A) Imax linear reg. (mA) Technology Output channels Input channels Package
L6360 (Master) 18 to 32.5 3.3 / 5 0.5 65 MultiPower BCD 2 2 QFN 26L
3.5 x 5 mm
L6362A (Device) 5 to 40 3.3 / 5 0.2 8 MultiPower BCD 1 1 DFN 12L
3 x 3 mm
Order code Description Application notes
STEVAL-IFP016V2 IO-Link communication master transceiver demonstration board based on the L6360 AN4075
STEVAL-IFP017V3 IO-Link communication device transceiver demonstration board based on the L6362A AN4828
STEVAL-IDP004V1 IO-Link master multi-port evaluation board based on L6360 AN5041
STEVAL-IDP003V1 IO-Link industrial modular sensor board based on L6362A AN5041
ST IO-Link demonstration kit with STEVAL-IDP004V1 on the left and STEVAL-IDP003V1D on right.
The IO-Link protocol is the perfect
match for Industry 4.0 hot topics like
ad-hoc communication, predictive
maintenance and data analytics.
VCC
VDD1
UART
GPIO
I2C
8- or 32-bit
microcontroller L6360
L+
3-wire
cable
Process variables
(proximity, pressure,
temperature)
Industrial
sensor
L-
C/Qo
I/Q
C/Qi
Inputs
OL
L6362A
L+
I/Q
OUTH
GND
OUTL
VCC
8- or 32-bit
microcontroller
Diodes and
protection
Signal
conditioning
Analog
front-end
48
FIELDBUS
ST provides fieldbus communication solutions with many valued development partners which provide protocol stacks for our STM32 as well as
STM8 MCUs.
Provider Solution name Application Model Cost
Availability for STM32 series
F0 F1 F2 F3 F4 F7 L0 L1 L4
Andrea Informatique DLMS/COSEM Metering Binaries
License
N1Y Y N1Y N1N1Y N1
CMX CMX-CANopen Automation, medical
Source
N Y Y Y Y Y N N N1
eCosCentric
eCosPro-CAN Factory Automation N Y Y Y Y Y N N Y
CANopen Factory Automation N Y Y Y Y Y N N Y
eCosPro-ModbusTCP Factory Automation N N Y Y Y Y N N Y
emtas
CANopen Automation, medical Y Y Y N Y N1N N Y
J1939 Commercial vehicles Y Y Y N Y N1N N Y
EnergyBus Commercial vehicles Y Y Y N Y N1N N Y
EtherCAT2Automation, medical Y Y Y Y Y Y Y Y Y
Hilscher
PROFIBUS DP Master2
Fieldbus Factory
automation
Source + Binary3
YYYYYYYYY
PROFIBUS DP Slave2YYYYYYYYY
CANopen Master2YYYYYYYYY
CANopen Slave2YYYYYYYYY
DeviceNet Master2YYYYYYYYY
DeviceNet Slave2YYYYYYYYY
CC-Link Slave2YYYYYYYYY
OPC UA Server2
IIoT YYYYYYYYY
MQTT Client2YYYYYYYYY
PROFINET RT/IRT IO-Device2
Industrial real-time
Ethernet
Factory automation
YYYYYYYYY
PROFINET RT/IRT IO-Controller2YYYYYYYYY
EtherCAT Slave2YYYYYYYYY
EtherCAT Master2YYYYYYYYY
Ethernet/IP Scanner2YYYYYYYYY
Ethernet/IP Adapter2YYYYYYYYY
sercos Master2YYYYYYYYY
sercos Slave2YYYYYYYYY
POWERLINK Controlled Node2YYYYYYYYY
Varan Client2YYYYYYYYY
Open ModbusTCP2YYYYYYYYY
HMS
IXXAT® CANopen Automation, medical
Source
N Y Y Y Y Y N N Y1
IXXAT® SAE J1939 Transportation N Y Y Y Y Y N N Y1
EtherNet/IP Adapter Factory automation N Y1Y N Y Y N N Y1
EtherNet/IP Scanner Factory automation N Y1Y N Y Y N N Y1
IXXAT® IEEE1588 Factory automation N Y1Y N Y Y N N Y1
IXXAT® Safety over EtherCAT Automation N Y1Y N Y Y N N Y1
IXXAT® CIP Safety
(EtherNet/IP, sercos) Automation N Y1Y N Y Y N N Y1
49
In addition to the long list of solutions for STM32 microcontrollers, many partners develop fieldbus solutions for the STM8 microcontroller family.
Provider Solution name Application Model Cost
STM8 series
S A L
SEGGER emModbus Factory automation Source License Y Y Y
ST DALI Lighting Source Free Y N2N2
TEConcept IO-Link Device Factory automation Source License Y N1Y
TMGTE IO-Link Device Factory automation Source License Y N1Y
TAPKO KAIstack KNX Building automation Binaries /Source License+Royalties N N Y
Note: 1 Supplier to be contacted 2 Can be easily ported
Provider Solution name Application Model Cost
Availability for STM32 series
F0 F1 F2 F3 F4 F7 L0 L1 L4
Matrikon OPC UA Server Factory automation
Source
License N Y Y N Y Y N N N
MESCO HART Slave Process automation Lic.+Royal. Y Y Y Y Y N1Y Y N1
MicroControl
CANopen Automation, medical
License
YYYYYYNNY
J1939 Commercial vehicles Y Y Y Y Y Y N N Y
EtherCAT1
Factory automation
Y2Y2Y2Y2Y2Y2Y2Y2Y2
PROFINET N Y Y N Y Y N N N
Micrium µC/Modbus Y Y Y Y Y Y Y Y Y
Port
CANopen Y Y Y Y Y Y N N Y
EtherCAT1Binaries/Source Y1YYYYY1N N Y1
PROFINET
Source
N N N N Y Y1NNN
EtherNet/IP5NNNNY1Y4,1 NNN
POWERLINK N N Y1NNNNNN
SEGGER emModbus Y Y Y Y Y Y Y Y -
ST
DALI6Lightning
Free
N Y N N N N N Y N
DMX6Lighting/home & building
automation N5Y N5N5N5N5N5N5N5
TAPKO KAIstack KNX Building automation Binaries/Source License +
royalties YYYYYYY1Y1Y1
TEConcept
IO-Link Device
Factory automation
Source
License
Y Y N N N N Y N N
IO-Link Master N Y N Y Y Y N N N
TMGTE
IO-Link Device Y Y Y Y Y Y Y Y Y
IO-Link Master N Y Y Y Y Y N N N
Profibus DP Y Y Y Y Y Y Y Y Y
Profinet License +
royalties
N N Y N Y Y N N N
Ethernet/IP N N Y N Y Y N N N
Weinzierl KNX Home and Building
automation License Y Y N5N5N5N N5Y N5
Note: 1 Supplier to be contacted 2 Requires external hardware 3 Source for STM32, binary for external hardware
4 PTPd ported on STM32 by ST 5 Can be ported 6 Provided on demand to sales office
50
KEY FEATURES
State of the art Security and privacy
features
Data length extension for faster data
transfer
Extends battery life
Robust and reliable RF connections
A full-featured SDK, including:
Templates, examples and iOS/
Android apps
High-level abstraction layer APIs (no
BLE expertise required)
Real-time debug capabilities
IAR, Keil, and Atollic support
KEY BENEFITS
Single-core, ultra-low-power 32-bit ARM®
Cortex®-M0
Up to 256 Kbytes of Flash memory,
24 Kbytes of ultra-low-leakage RAM (with
full data retention)
Operating temperature range up to +105 °C
Ultra-low-power, sub-μA power current
consumption in Sleep mode
Ultra-fast sleep-to-active and active-to
sleep switching
Up to +8 dBm maximum output power
On-chip PDM interface for digital MEMS
microphone interfacing
Embedded battery monitor and
temperature sensor
Integrated DC/DC step-down converter
and linear regulator
On-chip ADC analog front end with
10-bit resolution
Up to 15 (QFN32) or
26 GPIOs (QFN48 package)
QFN32 (5 x 5 x 1 pitch 0.5 mm),
WLCSP34 (2.69 x 2.56 x 0.5 pitch 0.4
mm), QFN48 (6 x 6 x 1 pitch 0.5 mm)
(BlueNRG-2 only)
BLUETOOTH
BlueNRG-1 and BlueNRG-2: Ultra-low-power Bluetooth® Low Energy System-on-Chip
ST’s BlueNRG Bluetooth® Low Energy System-on-Chip solutions, are based
on 32-bit ARM® Cortex®-M0 and offering unique combination of low power
consumption, scalable GPIO pins, with high radio performance, and large
integrated memory and come with Bluetooth 5.0 certification. In addition, the
latest evolution of the BLE stack adds state-of-the-art security and privacy communication along
with a faster data transfer. BlueNRG SoC provide the solution perfectly suited for replacing cable
in industrial automation, enabling predictive maintenance applications, and seamless interfacing with sensors for remote monitoring.
Evaluation platforms are available (order code STEVAL-IDB007V1 and STEVAL-IDB008V1) for enabling evaluation and helping in prototype building.
KEY FEATURES
Bluetooth® 4.1 compliant master and
slave roles simultaneously
Embedded Bluetooth® Low Energy
protocol stack: GAP, GATT, SM, L2CAP,
LL and RF-PHY
On-chip non-volatile upgradable
memory
7.3 mA RX current consumption
8.2 mA TX current consumption
at 0 dBm
96 dB of RF link budget
Up to +8 dBm available output power
(at antenna connector)
16- or 32-MHz low-cost crystal oscillator
32-kHz crystal oscillator or integrated
low frequency ring oscillator
Battery monitoring and temperature sensor
Operating supply voltage from
1.7 up to 3.6 V
Available in QFN32 (5 x 5 mm) and
WCSP34 (2.66 x 2.56 mm) packages
KEY BENEFITS
Significantly extends battery life
Long communication range in real-life
environment
Excellent co-existence performance in
crowded 2.4 GHz bandwidth
Single firmware for supporting master
and slave roles
Easy firmware upgrades in the
field to maintain compliance with
future releases of the Bluetooth®
specification
BlueNRG-MS: Bluetooth® smart network processor
Among a plethora of Bluetooth® 4.1 compliant devices, the BlueNRG-MS IC, exhibiting an
unparalleled low current consumption, is the ideal solution for all applications (Bluetooth®
smart devices) that need to operate for months or even years while being powered from a
small coin cell battery. The BlueNRG-MS runs the complete Bluetooth® Low Energy stack on an
embedded Cortex®-M0 core and it is also connected through a proprietary SPI-based interface
to a host MCU running the application. Supporting both master and slave roles, the BlueNRG-
MS can operate as a central (managing up to 8 peripherals) or peripheral device without any change in the firmware. The Bluetooth® profiles are
provided separately and meant to run in the host MCU.
9 Bluetooth' .3 9 Bluetooth' 9 Bluetooth' W
51
BLUETOOTH CLASSIC MODULE FEATURES:
Compliant with latest Bluetooth Classic 3.0 version
Embedded firmware, including BT stack and profile, SPP and iAP* and a simple,
easy-to-use interface AT command set
RF certified according to CE, FCC, IC, and TELEC
Low-power mode supported
Smart cable and remote mode supported
BLUETOOTH LOW ENERGY MODULE FEATURES:
Based on BlueNRG-MS (without MCU)
Host interface: SPI
BlueNRG-MS embeds all the Bluetooth Smart 4.1 protocol stack
CE, FCC, and IC certified
Output power +4 dBm (up to + 8dBm)
Receiver sensitivity -88 dBm
Supply voltage from 1.7 to 3.6 V
Bluetooth modules
ST offers Bluetooth modules both for Bluetooth Classic as well as Bluetooth Low Energy.
SPBT2632 B3 SPP/iAP
SPBTLE-RF
BLUETOOTH LOW ENERGY V4.2 MODULE FEATURES:
Bluetooth v4.2 compliant module SPBTLE-1S
High performance, ultra-low power Cortex-M0 32-bit based architecture core
Programmable embedded 160 KB Flash
24 KB embedded RAM with data retention
Interfaces:
· 1 x UART, 2 x I2C, 1xSPI, 14 x GPIO, 2 x multifunction timer, 10-bit ADC,
Watchdog & RTC, DMA controller, PDM stream processor, SWD debug Interface
Max Tx power: + 5 dBm
Excellent link reliability
On-board chip antenna
Small form factor: 11.5 mm x 13.5 mm
Complemented with Bluetooth low energy protocol stack library (GAP, GATT, SM,
L2CAP, LL)
Certifications:
· EU (RED) Type certificate
· FCC, IC modular approval certification
· SRRC Chinese Certification
· BT SIG End Product QDID
Pre-programmed UART bootloader
Operating supply voltage: from 1.7 to 3.6 V
SPBTLE-1S
52
SPSGRF-868 (868 MHz)
SPSGRF-915 (915 MHz)
SUB-1GHZ
The Industrial, Scientific and Medical (ISM) unlicensed frequency bands below 1 GHz are widely used by wireless communication
systems mainly in industrial, home and building automation as well as automatic meter reading applications. The flexibility offered
by national regulations in selecting physical layer characteristics such as output transmitted power, modulation scheme, data rate
and channel bandwidth, together with the possibility to develop proprietary protocols lets users find the best solution for their
needs as well as unmatchable performance and system efficiency at the expense of interoperability and development efforts. Moreover, either a
star or mesh network topology can be implemented and, in principle, without any limitations in the number of nodes connected simultaneously.
Based on sub-1GHz systems, certain standards target specific application cases. Such standards guarantee interoperability between nodes
from different manufacturers or system providers, but at the same time achieve high protocol efficiency for the dedicated use case. Among
others, the Wireless M-Bus is an open standard developed for very power efficient smart metering and Advanced Metering Infrastructure
(AMI) applications and it is quickly spreading in Europe for gas, water and heat metering. Sub-1GHz proprietary solutions are widely used for
the wireless connection of nodes in home networks and building automation systems as well as in industrial process applications. Real-time
monitoring and control of thousands of nodes enables process optimization, more efficient resource management, prevents breakdowns and
saves energy (Smart Factory).
SPIRIT1 TRANSCEIVER,
STM32L1 MCU AND BALF-SPI BALUN/FILTER:
AT command set
Output power up to +11.6 dBm
CE compliant and FCC certified
Air data rate up to 500 Kbit/s
Modulation schemes:
2-FSK, GFSK, MSK, GMSK, OOK,
1.8 to 3.6 V supply voltage
Operating temperature: -40 to 85 °C
SPIRIT1 TRANSCEIVER
AND BALF-SPI-01D3
BALUN/FILTER:
SPI host interface
Output power up to +11.6 dBm
Rx: 9 mA, Tx: 21 mA @ +11 dBm
CE compliant and FCC certified
Air data rate up to 500 Kbit/s
Receiver sensitivity: -118 dBm
Shutdown: 2.5 nA
Operating temperature: -40 to 85 °C
Antenna
GPIO (3) 50 MHz
SP1RIT1
Balun
Filter
GPIO (2)
GND
GPIO (1)
GPIO (0)
Vin
SDN
SPLCS
SPLMOSI
SPLMSO
SPLCLK
1
2
3
4
56
11
10
9
8
7
SP1ML-868 (868 MHz)
SP1ML-915 (915 MHz)
S2-LP : Ultra-low-power, long range sub-1GHz RF transceiver
The ST ultra-low power sub-1GHz transceiver S2-LP is the ideal solution for
allowing smart connected object to operate for up 10 years without replacing
batteries, while the receiver sensitivity of -130dBm enables wide-area coverage.
It supports point-to-point, star, as well as mesh networking topologies thus
resulting in a very flexible wireless transceiver perfectly suited for building and factory
automation, smart grid, alarm and security, and IoT applications.
Moreover the S2-LP enables connectivity to the Sigfox global network, which is being rolled out
worldwide to provide a reliable cost- and energy-efficient communication solution for billions of
sensors and smart things.
53
For fast prototyping and easy evaluation, evaluation platforms are also available covering different ISM Sub-1GHz bandwidth (order code
STEVAL-FKI433V1, STEVAL-FKI868V1, STEVAL-FKI915V1).
KEY BENEFITS
Ultra-low-power design for
prolonged battery lifetime in
applications with sensors in the
Smart Industry, Home and Building
automation applications, Smart City
Built-in support for Sigfox
simplifying access to reliable,
efficient, and cost-effective IoT
connectivity
Very flexible device supporting
multiple protocol and multiple
Sub-1GHz bandwidth
KEY FEATURES
Frequency bands:
430-470 MHz, 860-940 MHz
Modulation schemes:
2(G)FSK, 4(G)FSK
OK, ASK
Air data rate from 0.3 to 500 kbps
Ultra-low current consumption:
7 mA RX and
10 mA TX @ +10 dBm
Excellent receiver sensitivity
down to-130 dBm
Programmable RF output power
up to +16 dBm
Automatic packet acknowledgment
and retransmission
Embedded timeout protocol engine
Antenna diversity algorithm
Fully integrated ultra-low power RC
oscillator
QFN 24 4 x 4 package
Application scenarios are: wireless sensor nodes, asset trackers, remote diagnostics, finder/tags, smart parking, smart objects.
Combo-radio IoT node
Dual-Radio turn-key solution application example
Smartphone
• User interface
• Configurability
• Local monitoring
• Diagnostics
• Firmware upgrade
Cloud
• Remote monitoring
Tracking and positioning
• Notifications of events
• Data aggregation
• Diagnostics and assistance
IoT Node
BLE/LPWAN
Dual-Radio
mems.Sensors Dual-chip programmable solution
Evaluation tools for wireless modules
To quickly get started with our connectivity modules and devices, here is a list of suggested evaluation tools.
Evaluation tools for Connectivity modules Balun /filter
STEVAL-SPBT3ATV3 USB dongle for Bluetooth Classic V3.0 modules USBUF01W6
STEVAL-SPBT4ATV3
X-NUCLEO-IDB05A1 STM32 Nucleo Expansion board and USB dongle for
SPBTLE-RF module BALF-NRG01D3
STEVAL-IDB006V1M
STEVAL-IDW001V1 Daughter Board for Wi-Fi modules usable with
STEVAL-PCC018V1 or with the STM32F0-Discovery USBUF01W6
STEVAL-PCC018V1
STEVAL-SP1ML915 USB dongle for SP1ML modules USBUF01W6 on USB side
BALFSPI01D3 onantenna side
STEVAL-SP1ML868
X-NUCLEO-IDS01A5 (4) STM32 Nucleo Expansion board and
USB dongle for SPSGRF modules BALF-SPI01D3
STEVAL-IDS01V5M (4M)
CM Fm Nm N
54
ST CONTACTLESS TECHNOLOGY
Contactless technology in the smart industry domain is about object tracking and recognition as well as granting people access or even
configuring boxed electronic product along the production line.
KEY FEATURES
Best-in-class RF performances
HF 13.56 MHz frequency
High reliable EEPROM with data
protection
I2C/SPI serial interface
Energy harvesting capabilities
Fast Transfer Mode
Extended Temperature Range
Tamper detection feature
10-year longevity commitment
Automatic Antenna Tuning
High and Dynamic Power Output
Part number Mode Protocol Serial interface Key features Package
ST25R3911B
ST25R3912
ST25R3913
Reader/Writer
P2P
ISO14443A/B
ISO15693, FeliCa SPI Automatic Antenna Tuning, 1.4 W Dynamic Power Output,
Very High Baud Rate 6.8 Mbps, Capacitive & Inductive wake-up QFN32 (5x5mm)
ST25R3910 Reader/Writer ISO14443A/B
ISO15693, FeliCa SPI Automatic Antenna Tuning, 0.7 W Power Output, Inductive wake-up QFN32 (5x5mm)
CR95HF
ST95HF
Reader/Writer
Card Emulation
ISO14443A/B
ISO15693, FeliCa SPI 0.23 W Power Output, Inductive wake-up QFN32 (5x5mm)
ST25DV Dynamic Tag ISO15693 I2C
EEPROM 4 kb, 16 kb & 64 kb, Fast Transfer Mode (256 B buffer),
64-bit password, Energy Harvesting, GPO MCU wake-up,
Up to 105/125 °C operation, NFC Forum Certified
SO8, TSSOP8,
FPN8, FPN12
M24LR Dynamic Tag ISO15693 I2CEEPROM 4 kb, 16 kb & 64 kb, 32-bit password, Energy Harvesting,
GPO MCU wake-up SO8, TSSOP8, FPN8
M24SR Dynamic Tag ISO14443A I2C EEPROM 4 kb, 16 kb & 64 kb, 128-bit password. GPO MCU wake-up SO8, TSSOP8, FPN8, Die
ST25TA Tag ISO14443A NA EEPROM 512 b, 2 kb, 16 kb & 64 kb, 128-bit password, 20-bit Counter,
GPO MCU wake-up, NFC Forum Certified Die, FPN5
ST25TV Tag ISO15693 NA EEPROM 512 b, 2 kb & 64 kb, 64-bit password, Tamper Detect loop,
20-bit Counter, GPO MCU wake-up, NFC Forum Certified Die, FPN5
NFC/RFID Tags, Dynamic Tags & Readers
ST offers a comprehensive portfolio of NFC/RFID products, which operate at 13.56 MHz
frequency and are based on NFC and ISO standards:
NFC/RFID Tags, ideal for wireless pairing (Bluetooth or Wi-Fi) and product identification,
feature counters, data protection (password) and able to wake-up the Host chip thanks to a
General Purpose Output
Dynamic NFC tags, featuring a reliable EEPROM memory with data protection (password), an
I2C interface to connect to a MCU and a RFID/NFC tag interface, enabling multiple use cases
for Consumer, Industrial and IoT.
NFC/RFID Readers, which support multiple NFC protocols in Reader or Peer-to-Peer modes,
accessed by SPI interface and able to cope with the most challenging environment thanks to
High RF performances and advanced features
ST also offers a large range of discovery kits, Nucleo shields, reference software and
documentations in order to ease the design process.
X-NUCLEO-NFC04A1
ST25DV-based NFC/RFID Dynamic
Tag Nucleo expansion board
X-NUCLEO-NFC05A1
ST25R3911B-based NFC/RFID Reader
Nucleo expansion board
CLOUD-ST25TA
ST25TA-based NFC/RFID
Tag evaluation board
ST25TV e-SEAL
ST25TV-based NFC/RFID
Tag evaluation board
KO OF
55
Power lines
Overvoltages and glitches appearing on power mains are modeled by the IEC 61000-4-5 international standard, also known as an 8/20 μs current
waveform. Able to protect up to 500 A (8/20 μs), the STIEC45 series is the ideal surge suppressor solution for factory automation power lines.
Data lines
Communication buses, with long wires lengths, are particularly sensitive to electrostatic discharge (ESD). ST proposes multiline solutions in a
single package, with various parasitic capacitance and voltage compromises, to address a wide range of industrial communication interfaces as
shown below.
As well as robust and reliable performance during voltage surges, ST’s discrete TVS (transient voltage suppressor) devices exhibit excellent power
derating versus temperature. As an example, ST’s SM15T series (1500 W, 10/1000 μs) operates at full performance up to 115 °C.
ESD & EMI PROTECTION
Power and data line protection
In harsh factory automation environments, protection devices are the key to system reliability.
ST offers a wide range of protection devices dedicated to power and data lines.
More at www.st.com/protection
Order code
VBR @ IRVCL @ IPP 8/20 μs, 1.2/50 μs
Min. Typ. Max. Max.
V mA V A
STIEC45-24AS 26.7 28.2 29.5 1 42
500
STIEC45-26AS 28.9 30.3 31.9 1 45
STIEC45-27AS 30 31.6 33.2 1 47
STIEC45-28AS 31.1 32.6 34.3 1 49
STIEC45-30AS 33.3 35 36.8 1 55
STIEC45-33AS 36.7 38.6 40.6 1 59
Peak pulse power dissipation versus initial junction temperature (printed circuit board)
2000
1500
1000
500
00 25 50 75 100 125 150 175
10/1000 µs
PPP (W)
Tj (°C)
ASI interface
Actuator and sensor Interface
SMM4F33A
ESD with ± 30 kV contact
Seriplex interface
ESDA14/25xx
ESD protection in SOT666/323/23
DATA
CLK
V+
COM
SHIELD
RS-232 interface
Modbus®
ESDA6V1/14/25xx
ESD protection in SOT666/323/23
GND
CTS
TxD
RTS
RxD
RS-422 and RS-485 interface
Modbus®, Modbus Plus™, PROFIBUS®
ESDA6V1/14/25xx
ESD protection in SOT666/323/23
RxD-
TxD-
RxD+
TxD+
RTS+
RTS-
CST+
CST-
GND
ESDA6V1L/ESDALC6V1
ESD protection in SOT666/23
CAN interface
CANopen, DeviceNet™
CAN_H
CAN_L
SO-8 package
Ethernet protection
SLVU2.8 or DSL01
3 triple Trisil in one SO8/Transil + Trisil in one package
Up to 1 Gbps
SLVU2.8-4A1
100 Mbps Ethernet Transceiver
100 Mbps Ethernet Transformer
RJ45 connector
A+
A-
SOT666 packageSOT23 package
56
ASI interface
Actuator and sensor Interface
SMM4F33A
ESD with ± 30 kV contact
Seriplex interface
ESDA14/25xx
ESD protection in SOT666/323/23
DATA
CLK
V+
COM
SHIELD
RS-232 interface
Modbus®
ESDA6V1/14/25xx
ESD protection in SOT666/323/23
GND
CTS
TxD
RTS
RxD
RS-422 and RS-485 interface
Modbus®, Modbus Plus™, PROFIBUS®
ESDA6V1/14/25xx
ESD protection in SOT666/323/23
RxD-
TxD-
RxD+
TxD+
RTS+
RTS-
CST+
CST-
GND
ESDA6V1L/ESDALC6V1
ESD protection in SOT666/23
CAN interface
CANopen, DeviceNet™
CAN_H
CAN_L
SO-8 package
Ethernet protection
SLVU2.8 or DSL01
3 triple Trisil in one SO8/Transil + Trisil in one package
Up to 1 Gbps
SLVU2.8-4A1
100 Mbps Ethernet Transceiver
100 Mbps Ethernet Transformer
RJ45 connector
A+
A-
SOT666 packageSOT23 package
SSSSSS
57
PROXIMITY SENSOR PROTECTION
ST has developed specific and dedicated 200 W (10/1000 μs) multi-line TVS for 2 and 3-wire proximity sensors. The SPT series provides
reverse polarity and surge protection in compliance with IEC 61000-4-5, IEC 61131-2 and EN 60947-5-2.
The SEL-PROT-TVS transient voltage suppressor smart selection tool helps designers select the right TVS for their application with just a few
clicks. Only two application parameters are necessary for device selection. The first parameter is the type of protection required, such as
automotive, power line, analog or digital line. The second is the signal standard, e.g. CAN, USB, SD-Card, 10/1000 μs or custom.
2 FEATURES:
Surge protection
Reverse battery protection
3-wire sensor: SPT01-335DEE
HS
V+
D2 D1
D3
V-
A
LS
Power supply
Load
HS K
GND
Sensor
output stage
LS
Input
VS-
VS+
VCC
VCC
2-wire sensor: SPT02-236DDB
HS
LS
Detector
Sensor Process control
D2
D1
Load
Power supply
GND
VCC
FACTORY AUTOMATION NEEDS:
2-/3-line protection
36 V VRM required (even if Vsupply = 24 V typ)
VCL @ IPP = 46 V @ 2 A
Diode specified in forward mode
11fe.ougmen’red
© STMicroelectronics - August 2018 - Printed in United Kingdom - All rights reserved
The STMicroelectronics corporate logo is a registered trademark of the STMicroelectronics group of companies
All other names are the property of their respective owners
For more information on ST products and solutions, visit www.st.comOrder code: BRSI0818

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