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2. electronic components

ST Highlights
Committed to excellence
Technology & Application
Solutions at a Glance
®
Consult | Components | Logistics | Support
Committed to excellence
STM32 Cortex™ M3 32-Bit MCU
05 - 07
Consult – Know-how. Built-in.
STM8 8-Bit MCU
08 - 10
The technical competence from Rutronik
Microcontroller RF Wireless
11
Pan-European and individual consulting on the spot: by
Dual Interface EEPROM RFID
12
competent sales staff, application engineers and product
SiC Diodes
13
High Temperature Triacs
14
High-efficiency SMPS PFC
15
High-voltage Power MOSFET
16 - 17
Discrete IGBT’s
18
mechanical components, wireless technologies, lighting and
Intelligent Power Modules
19
photovoltaic solutions for optimum coverage of your needs.
Automotive High-Side Switches
20
Automotive 32-bit Flash MCUs
21
MEMS
22 - 23
Offline Auxiliary Power Supply IC’s
24
DC/ DC Converter
25
LED Driver for Retrofit Lamps
26
Power Line Modem
27
Microstepping Motor Driver
28
Technical support: through online services, seminars, PCNs,
Intelligent Power Switches
29
quality management and much more.
specialists.
Components – Variety. Built-in.
The product portfolio from Rutronik
Wide product range of semiconductors, passive and elec-tro-
Logistics – Reliability. Built-in.
The delivery service from Rutronik
Innovative and flexible solutions: in supply chain management
through individual logistics systems.
Digital Inputs in the PLC
Applications
30
Support – Support. Built-in.
The qualification drive from Rutronik
Wolfgang Sayer
ST Linemanager Rutronik
Doris Hartmann
Key Account STMicroelectronics
Rutronik and STMicroelectronics – A strong partnership
STMicroelectronics is one of Rutronik´s most important franchise partners.
We have been cooperating successfully since Rutronik was founded in 1973.
Together we offer well tuned system solutions for all electronic applications in
fast growing markets. We provide local support by experienced sales and
applications teams with excellent product and marketing knowledge coupled
with outstanding customised warehouse capabilities.We invite you to benefit
from this unique offer.
Our
Product portfolio
Semiconductors
Passive
Components
Electromechanical
Components
STMicroelectronics:
A broad portfolio
Displays & Boards
Interfaces
Sensors
Analog Front End
Motion
Pressure
Acoustic
Touch
Proximity
Temperature
Current
Voltage
Energy
Low Noise Amplifier
Amplifier/Comparator
Analog Switch
ADC
Analog Back End
Amplifier
DAC
RF Link
Storage
Technologies
Control
Unit
STM8 | STM 32
Digital
Signal
Processor
Power Discrete
Transistor
Bipolar
IGBT
MOSFET
Rectifiers
Thyristors
Protection
Wireless
Technologies
Lighting
Solutions
Photovoltaic
Solutions
Power Management ICs
Linear and Switching regulators | Voltage reference
3
Rutronik & ST Microelectronics
A strong partnership for your success
IN THE CAR
Engine Control and Powertrain | Car Body
and Safety | Navigation and other Infotainment
IN THE HOME
Entertainment | Comfort | Security
Appliances | Energy Savings | Communication
ON THE GO
Mobile Phones | PDAs
MP3 Players | Bank Cards
OUR PLANET
Energy Saving Processing | Smart Drives
+ Transportation + Lighting | Solar Power
Greener Cars
AT WORK OR SCHOOL
Printers | PCs | Climate Control
Energy Savings | Networking
OUR HEALTH
Medical Imaging | Telemedicine | Fitness Aids
Portable Diagnosis | Defibrillators
4
STM 32 KEY BENEFITS
Real-time performance
+ ART Accelerator | Multi-AHB bus matrix | excellent real time | 120 MHz/
150 DMIPS at zero-wait state execution performance from Flash
Outstanding power efficiency
< 1 μA V BAT with RTC | ultra-low dynamic power consumption
1.65 to 3.6 V V DD
Superior and innovative peripherals
USB-OTG High Speed | camera interface | Ethernet | CAN
crypto/hash processor | external memory interface
Maximum integration
1-Mbyte Flash, 128-Kbyte SRAM, 512 OTP bytes, 4-Kbyte backup
SRAM, reset ciruitry, voltage regulator, 1 % RC oscillator, PLL
Extensive tools and software
Various IDE starter kits, libraries, RTOS and stacks
STM32F-2 Series – high-performance Cortex™-M3 MCUs
The STM32 F-2 series complements our STM32 product
portfolio by offering devices with close pin-to-pin compatibility, with more performance, more Flash and SRAM memories, and advanced peripherals such as a camera interface,
crypto/hash processor, full/high speed USB-OTG, Ethernet,
CAN, and external memory interface.
This enhancement expands the number of addressable
applications in the industrial, consumer, and medical
segment. Based on Cortex™-M3 core running at 120 MHz,
the STM32 F-2 series allows a performance equivalent to
zero-wait state execution from Flash using the adaptive
real-time ART Accelerator™ technology.
The STM32 F-2 series includes devices with 128 Kbytes to
1 Mbyte of on-chip Flash memory, 64 Kbytes to 128 Kbytes
of SRAM, and 15 communication interfaces. LQFP64,
LQFP100, LQFP144, WLCSP64 (< 4 x 4 mm) and UFBGA176 packages are available.
Applications
■ Industrial
PLC
Inverters
Power meters
Printers, scanners
Industrial networking
System
ART AcceleratorTM
Power supply, 1.2 V regulator
POR / PDR / PVD
Up to 128-Kbyte SRAM
FSMC/SRAM/NOR/NAND/CF/
LCD parallel interface
Xtal oscillators
32 kHz + 4 ~26 MHz
Internal RC oscillators
32 kHz + 16 MHz
PLL
128-Kbyte
Up to 1-Mbyte Flash memory
ARM Cortex™-M3
CPU 120 MHz
80-yte + 4-Kbyte
backup SRAM
512 OTP bytes
Clock control
RTC/AWU
■ Building
and security
Alarm systems
Access systems
HVAC
Connectivity
SysTick timer
2x watchdogs
(independent and window)
51/82/114/140 I/Os
Cyclic redundancy check
(CRC)
Camera interface
Nested vector interrupt
controller (NVIC)
3x SPI, 2x I²S, 3x I²C
MPU
Ethernet MAC 10/100
with IEEE 1588
JTAG / SW debug / ETM
2x CAN 2.0B
1x USB 2.0 OTG FS/HS1
■ Medical
High-end glucose meters
Power meters
Battery-operated
applications
■ Appliances
Motor drive
Application control
■ Consumer
PC peripherals, gaming
Digital cameras
GPS platforms
Home audio
Multi-AHB bus matrix
1x USB 2.0 OTG FS
SDIO
16-channel DMA
Control
2x 16-bit motor control
PWM
Synchronized AC timer
6x USART LIN, smartcard,
IrDA, modem control
Crypto / hash processor2
3DES, AES 256
SHA-1, MD5, HMAC
Analog
2-channel 2x 12-bit DAC
3x 12-bit ADC
24 channels / 2 MSPS
10x 16-bit timers
2x 32-bit timers
True random number
generator (RNG)
Temperature sensor
STM32 F-2 block diagram
5
STM32F-1 – Value Line 32-bit Microcontrollers
for greater Choice in cost-sensitive Applications
The STM32 Value line complements our STM32 Cortex™-M3 microcontroller product portfolio by offering a low-cost product
line that is pin-to-pin compatible with the STM32 portfolio. It brings new features such as new 16-bit timers and CEC function to
expand the range of applications addressed in consumer, appliance and industrial segments. Based on the ARM Cortex™-M3 core
running at up to 24 MHz, the STM32 Value line offers excellent cost-performance-peripherals trade-off. It provides all the essential
features to make it the perfect choice to develop cost-effective applications traditionally addressed by 16-bit microcontrollers.
Applications
STM32 Value line block diagram
■ Consumer
System
A/V receivers, TVs
Blu-ray disc players
Printers
Remote controls
Toys
16- to 128-Kbyte
Flash memory
Power supply, 1.2 V regulator
POR / PDR / PVD
4- to 8-Kbyte SRAM
20-byte backup data
Xtal oscillators
32 kHz + 4 ~24 MHz
ARM Cortex™-M3
CPU 24 MHz
Internal RC oscillators
40 kHz + 8 MHz
Clock control
3x USART
RTC/AWU
■ Industrial
■ Appliances
48 pins
64 pins
100 pins
Home appliances
Motor control
Power tools
A/D
inputs
2x I2C
2x watchdogs
(independent and window)
37/51/80 I/Os
Nested vector interrupt
controller (NVIC)
Cyclic redundancy check (CRC)
JTAG / SW debug
Analog
2-channel 12-bit DAC
Control
Flash
memory
[Kbit]
RAM
[Kbit]
STM32F100C4
16
4
10x12-bit
6x16-bit (16/16/21)
STM32F100C6
32
4
10x12-bit
6x16-bit (16/16/21)
STM32F100C8
64
8
10x12-bit
7x16-bit (18/18/21)
STM32F100CB
128
8
10x12-bit
7x16-bit (18/18/21)
Part number
2x SPI
SysTick timer
Electricity meters
Low-end UPS
Timer functions
12 or 16-bit
(IC/OC/PWM)
STM32F100R4
16
4
16x12-bit
6x16-bit (16/16/21)
STM32F100R6
32
4
16x12-bit
6x16-bit (16/16/21)
STM32F100R8
64
8
16x12-bit
7x16-bit (20/20/23)
STM32F100RB
128
8
16x12-bit
7x16-bit (20/20/23)
STM32F100V8
64
8
16x12-bit
7x16-bit (20/20/26)
STM32F100VB
128
8
16x12-bit
7x16-bit (20/20/26)
Others
2xWDG
RTC
24-bit down
counter
2x16 bit
basic timers
Connectivity
Consumer electronics
control (CEC)
PLL
16-bit motor control | PWM
Synchronized AC timer
AHB bus matrix
6x 16-bit timer
7-channel DMA
Serial
interface
1xSPI, 1xI2C,
CEC, 2xUSART
(IrDA, ISO 7816)
I/Os
(high
current)
Temperature sensor
Packages
37 (37)
LQFP48
37 (37)
LQFP48
37 (37)
LQFP48
37 (37)
LQFP48
51 (51)
LQFP64,
TFBGA64
51 (51)
LQFP64,
TFBGA64
2xSPI, 2xI2C,
CEC, 3xUSART
(IrDA, ISO 7816)
51 (51)
LQFP64,
TFBGA64
51 (51)
LQFP64,
TFBGA64
2xSPI, 2xI2C,
CEC, 3xUSART
(IrDA, ISO 7816)
80 (80)
LQFP100
80 (80)
LQFP100
2xSPI, 2xI2C,
CEC, 3xUSART
(IrDA, ISO 7816)
2
1xSPI, 1xI C,
CEC, 2xUSART
(IrDA, ISO 7816)
12-bit ADC
16 channels
Supply
voltage
[V]
2.0 to 3.6
Special features
24 MHz CPU speed
2-channel DAC
Vbat pin
low -power features
embedded POR
PDR and PVD
8MHz and 40 kHz internal
RC oscillator
4-24 MHz main oscillator
dedicated 32 kHz oscillator
-40 to 85 °C or -40 to 105 °C
Device summary
6
STM32L-1 Series – ultra-low-power MCU Family
The STM32L MCU family, based on the Cortex™-M3 core, extends the ultra-low-power portfolio in performance, features,
memory size and package pin count. The STM32L family combines very high performance and ultra low power consumption,
using optimized architecture and our proprietary ultra low leakage process, shared with the STM8L family. The STM32L
family is available in three different lines, so optimizing the STM32F family for many applications requiring performance
with special care on power savings.
Description
■ ARM Cortex™-M3 32 MHz CPU
■ 32 to 384 Kbytes of embedded Flash, up to 48 Kbytes
of SRAM and up to 12 Kbytes of data EEPROM
■ Three lines: pin-to-pin, software and peripheral compatibility
■ Pin-to-pin compatibility with STM32F series
(except VBAT not present on the STM32L)
■ Ultra low energy consumption: down to
180 μA/DMIPS from flash
■ Supply voltage: 1.65 to 3.6 V
■ Six ultra-low-power modes: down to 300 nA
■ Ultra-low-power dynamic modes: low power run down
to 9 μA; low power sleep down to 4.9 μA with one timer
■ Economical run mode consumption down to
230 μA/MHz from flash at zero wait state with
dynamic voltage scaling (3 ranges)
■ Rich set of high-end analog and digital peripherals
■ 40 to +85 °C operating temperature range
System
Power supply
Internal regulator
POR / PDR / PVD/BOR
Xtal oscillators
32 kHz + 1 ~24 MHz
Internal RC oscillators
37 kHz + 16 MHz
Internal multispeed
ULP RC oscillator
64 kHz to 4 MHz
PLL
Clock control
RTC/AWU
2x watchdogs
(independent and window)
ARM Cortex™-M3
CPU 32 MHz
Nested vector interrupt
controller (NVIC)
32- to 384-Kbyte Flash
memory, dual bank, RWW
10- to 48-Kbyte SRAM
Up to 128-byte backup data
JTAG / SW debug
4- to 12-Kbyte EEPROM
Embedded Trace
Macrocell (ETM)
Boot ROM
Memory protection
unit (MPU)
Connectivity
FSMC
AHB bus matrix
USB 2.0 FS
3 to 5x USART
7-channel DMA
Touch sensing
37/51/83/109/115 I/Os
Analog I/O groups
Cyclic redundancy check (CRC)
Up to 39 touchkeys
2 to 3x SPI
2x I2C
SDIO
Analog
Voltage scaling 3 modes
Display
Control
LCD driver (8x40 / 4x44)
2x 12-bit DAC
12-bit ADC
Up to 40 channels
2x comparators
8x 16-bit timer
Encryption
1x 32-bit timer
AES (128 bits)
3x op-amps
Temperature sensor
STM32L block diagram
STM32L enriches ultra-low-power Platform and STM32 Portfolio
The STM32L15x/STM32L16x extends both STMicroelectronics ultra-low-power platform and the STM32 portfolio. The
STM32L microcontroller, powered by the ARM Cortex™-M3, offers more features and performance compared to the
STM8L. It complements the STM32 portfolio with lower overall power consumption, new ultra-low-power modes (low
power run, low power sleep), new peripherals (LCD, comparators), and new ultra-low-power architecture (voltage scaling,
ultra low-power MSI oscillator). The pin-to-pin compatibility between the STM32L and STM32F gives greater flexibility to
the application designer and supports a strategy based on a unique platform. The STM32L152 has an additional LCDsegment driver compared to the STM32L151. The STM32L162 embeds a 128-bit AES.
7
STM8S – general-purpose 8-bit MCUs
STMicroelectronics’ STM8S family of general-purpose 8-bit Flash microcontrollers offers ideal solutions for industrial
and appliance market requirements. An advanced core version combined with a 3-stage pipeline ranks the STM8S microcontroller in the top position for performance. The true embedded EEPROM and the calibrated RC oscillator bring
significant cost effectiveness to the majority of applications. An easy-to-use and intuitive development environment
contributes to improving time to market.
Description
Upgrade to a higher or downgrade to a lower memory size,
or use a different package across lines without changing the
initial layout or software.
■ STM8 24 MHz CPU
■ 8 to128 Kbytes of embedded Flash, up to 6 Kbytes
of SRAM
■ Supply voltage: 2.95 to 5.5 V
■ Up to four low-power modes: down to 4 μA
with complete context retention
■ State-of-the-art digital and analog peripherals
■ Specific interfaces such as IrDA and smartcard
for support of consumer applications
■ -40 to +85 °C, or up to 125 °C temperature range
■ Free Class B self diagnostic library for
IEC 60335/IEC 60730 compliant applications
Applications
■ Appliances, power tools
■ Motor control
■ HVAC
■ Toys and games sensors
■ Power management
■ Power supplies
■ Lighting factory
automation
■ User interfaces
System
4- to 128-Kbyte
Flash memory
Power supply 2.95 to 5.5 V
(1.8 V internal regulator)
POR /BOR
Up to 6-Kbyte SRAM
Up to 2-Kbyte EEPROM
Boot ROM
Xtal oscillator 1-24 MHz
Internal RC oscillators
128 kHz and 16 MHz
Connectivity
Clock control
Clock detector
AWU
STM8 CPU
Up to 24 MHz
2x watchdogs
(independent and window)
2xU(S)ART
LIN
Smartcard/IrDA
SPI
Up to 68 I/Os
I 2C
Control
Analog
16-bit timer, 4 CAPCOM +
3 comparator outputs
2x16-bit timer
2/3 CAPCOM
CAN 2.0 B
10-bit ADC
16 channels
8-bit timer
Nested vector interrupt
controller (NVIC)
Beeper 1/2/4 kHz
SWIM debug module
STM8S Block diagram
8
STM 8L15x consumption value
Typical @ 25 °C
192 μA/MHz
90 μA/MHz
Dynamic
Run
From
Flash
5.1 μA
Dynamic
Run
From
RAM
3.0 μA
Low-power
Run
@ 32 kHz
1.2 μA
Low-power
Wait
@ 32 kHz
Active
Halt with
RTC
0.4 μA
Halt
STM8L ultra-low power EnergyLite™ 8-bit MCUs
STMicroelectronics proposes an ultra-low power family of MCUs based on the STM8 core. The STM8L family combines
high performance and ultra-low power consumption using a new proprietary ultra-low leakage process and optimized
architecture. This family is available in four different lines, making the STM8L an optimal family to support many applications with special care on power savings. The STM8L101 is the entry point for the ultra-low power 8-bit portfolio. It is
cost-optimized and offers a high level of integration in an ultra small footprint. The STM8L151 is the feature rich 8-bit
solution. The STM8L152 has an additional segment LCD driver compared to the STM8L151. The STM8L162 has an
additional 128-bit encryption (AES) feature compared to the STM8L152.
Description
Power saving Features
■
■
■
■
■
■
■
■
and Benefits
STM8 16 MHz CPU
4 to 64 Kbytes of embedded flash, up to 4 Kbytes of SRAM and up to 2 Kbytes of EEPROM
Four lines: pin-to-pin, software and peripheral compatibility across lines
Supply voltage: 1.65 to 3.6 V
Up to four ultra-low power modes: down to 350 nA with SRAM and context retention
Run mode dynamic consumption down to 150 μA/MHz
State-of-the-art digital and analog peripherals
-40 to +85 °C, or up to 125 °C operating temperature range
The STM8L lines embed up
to 4 different ultra-low power
modes to offer users a high
level of flexibility for their
applications. In addition, the
dynamic run consumption
has been optimized.
Product Line-up
STM 8L 162
Common core peripherals
and architecture
STM8 core
@ 16 MHz
Communication peripherals
USART, SPI, I2C
Internal 16 MHz and
38 kHz RC oscillators
Reset circuitry POR/PDR
2x comparators
Touch-sensing
(up to 16 channels)
Up to
4-Kbyte
SRAM
Reset
+
BOR
PVD
Main osc.
input
1-16 MHz
Up to
2-Kbyte
data
EEPROM
RTC
with
32 kHz
osc.
Up to
4 channels
DMA
12-bit
ADC (1μs)
Temp.
sensor
12-bit
DAC
LCD
8 x 40
Up to
4-Kbyte
SRAM
Reset
+
BOR
PVD
Main osc.
input
1-16 MHz
Up to
2-Kbyte
data
EEPROM
RTC
with
32 kHz
osc.
Up to
4 channels
DMA
12-bit
ADC (1μs)
Temp.
sensor
12-bit
DAC
LCD
8 x 40
Up to
4-Kbyte
SRAM
Reset
+
BOR
PVD
Main osc.
input
1-16 MHz
Up to
2-Kbyte
data
EEPROM
RTC
with
32 kHz
osc.
Up to
4 channels
DMA
12-bit
ADC (1μs)
Temp.
sensor
12-bit
DAC
AES
128-bit
STM 8L 152
Multiple 16-bit timer
Watchdog
(dual watchdogs on
STM8L15x/16x)
Up to
64-Kbyte
Flash
STM8 core
@ 16 MHz
+
Up to
64-Kbyte
Flash
STM 8L 151
STM8 core
@ 16 MHz
Up to
64-Kbyte
Flash
STM 8L 101
STM8 core
@ 16 MHz
Up to
8-Kbyte
Flash*
Up to
1.5-Kbyte
SRAM
Abbreviations: AES:
BOR:
Osc.:
POR:
PDR:
PVD:
RCT:
Advanced encryption standard
Brown-out reset
Oscillator
Power-on reset
Power-down reset
Programmable voltage detector
Real-time clock
Note: *Embedded EEPROM in the Flash
9
STM8A – Automotive 8-bit MCUs
This product line of 8-bit Flash microcontrollers responds
to the specific needs of automotive applications. From product specifications, on through design and manufacturing,
the focus is on reliability, application robustness and low
system cost.
The integrated true data EEPROM features top notch endurance and data retention throughout the full temperature
range. With its extended temperature range up to 150 °C
ambient temperature, the STM8A is the ideal and economic
solution for the growing market of automotive 8-bit applications. Newly introduced, the ultra-low-power STM8AL
is now available for sampling. With the multiplication of
electronic subsystems, saving power is becoming a key
consideration, and this product line responds to the specific
needs of low power in automotive applications.
Description
Upgrade to a higher or downgrade to a lower memory size
or use a different package across lines without changing the
initial layout or software.
■ STM8 up to 24 MHz CPU
■ 8 to 128 Kbytes of embedded Flash, up to 6 Kbytes
of SRAM and up to 2 Kbytes of data EEPROM
■ Packages up to 80 pins
■ Supply voltage: 2.95 to 5.5 V for STM8AF, 1.65 to 3.6 V
for STM8AL
■ Up to four low power modes: down to 1 μA with
complete context retention
■ State-of-the-art digital and analog peripherals
■ Up to 150 °C ambient temperature
■ Qualified according AEC-Q100 Certified CAN drivers
■ Free certified LIN drivers
■ Touch sensing and LCD lines
STM8Ax features and benefits
Features
Benefits
Integrated true data EEPROM
Reduced system cost
International supervisor circuits: power-on reset, window watchdog and standard watchdog timers, supply brown-out reset
Integrated, factory-trimmed 16 MHz, 128 kHz or 32 kHz RC oscillators
Injection robust I/Os
Product line compatibility enabling application scalability
Short development cycles
Advanced development tools
Flash program memory for easy software development and product qualification
Efficient STM8 core: 10 MIPS at 16 MHz
Independent watchdog timers and clock security system
High application safety,
power and robustness
LIN 2.1 with auto-synchronization on STM8AF products
Modern core and peripherals
Design longevity
AES-Q100 grade 0 (150 °C) on STM8AF or grade 1
LCD on STM8AL
User interface
Capacitive sensing on STM8AL
Ultra-low-power STM8AL category
10
Low standby current consumption
STM32W – 32-bit ARM IEEE 802.15.4 SoC
With these new members, the STM32 family is expanding to the wireless network domain, bringing outstanding radio and
low-power microcontroller performances in a single system-on-chip (SoC). With a configurable total link budget of up to
109 dB and the efficiency of the ARM Cortex™-M3 core, the STM32W is the perfect fit for the wireless sensor network market.
Compliant with the IEEE 802.15.4 radio standard, this open and flexible platform supports the most popular protocol stacks
such as RF4CE, ZigBee-PRO, LoWPAN and more. Coming with a complete and low-cost development tool offer, the
STM32W takes full advantage of the unrivalled ST ARM Cortex™-M3 portfolio.
Key Features
Development Tools
Key Benefits
■ Outstanding 2.4 GHz radio
performances to IEEE 802.15.4
■ Best-in-class code density,
thanks to its ARM Cortex™-M3 core
■ Low-power architecture
■ Open platform with extra resources
for application integration:
Configurable I/Os, ADC,
timers, SPI, UART
Main software libraries:
EmberZNet PRO, RF4CE,
IEEE 802.15.4 MAC
Available in both SoC (QFN48)
and coprocessor (QFN40) versions
■ STM32W-RFCKIT: low-cost
RF control kit with 2 boards
(control/ receive)
■ STM32W108B-SK: complete kit
to evaluate and develop on the
STM32W108, including two
application boards, one STM32Primer2 with an STM32W108
extension board, RF network
analyzer and IAR C-compiler
■ STM32W108B-KEXT: set of four
additional application boards to build
a mesh network (2 standard boards +
2 with power amplifiers)
■ Cost efficiency through a true SoC
■ Open platform supporting IEEE
802.15.4 based protocol stacks
■ Wide STM32 Cortex™-M3
developers community
■ Unmatched network throughput
and latency
■ Longer battery lifetime
Part number
Package
Flash
size
[Kbit]
Internal
RAM
size
[Kbit]
Timer functions
16-bit
(IC/OC/
PWM)
Others
A/D
Converter
I/Os
(high
current)
Serial
interface
Target Applications and Profiles
■
■
■
■
Smart energy networks, metering
Home automation
Consumer electronics, remote controls
Healthcare and medical equipment
Supply
voltage
[V]
Supply current (ICC)
Lowest
power
mode [μA]
Run mode
(per MHz)
[μA]
RF FW libary
STM32W108 Wireless line – IEEE 802.15.4 – 24 MHz CPU
STM32W108C8
VFQFPN48
(7x7)
64
8
2x16-bit
WDG, RTC,
IEEE 802.15.4
radio
6x12-bit
24
Up to 2xI2C,
up to 2xSPI,
1xUART
2.1 to 3.6
0.4
250
STM32W108CB
VFQFPN48
(7x7)
128
8
2x16-bit
WDG, RTC,
IEEE 802.15.4
radio
6x12-bit
24
Up to 2xI2C,
up to 2xSPI,
1xUART
2.1 to 3.6
0.4
250
STM32W108HB
VFQFPN40
(6x6)
128
8
2x16-bit
WDG, RTC,
IEEE 802.15.4
radio
6x12-bit
24
Up to 2xI2C,
up to 2xSPI,
1xUART
2.1 to 3.6
0.4
250
ZigBee PRO,
RF4CE,
Contiki +
ZigBEE App
Profiles
11
DUAL Interface EEPROM – Two worlds connected
Dual EEPROM M24LR64 –
64-Kbit EEPROM with I²C and 13.56 MHz ISO 15693 RF
The innovative family of Dual Interface EEPROM provides new features and capabilities. The EEPROM memory bank
can be accessed either by a standard I²C interface or by an ISO 15693 RF interface operating at 13.56 MHz. In addition,
the family features a 32-bit password protection mechanism.
Key Features
Key Benefits
■ Industry standard interfaces:
I²C: 400 kHz, from 1.8 to 5.5 V
ISO 15693: 53 Kbit/s data rate, up to 1 m remote
access range
■ 64-Kbit EEPROM user memory
■ 64-bit unique identifier
■ 32-bit password protection
■ 13.56 MHz carrier frequency
■ Most flexible solution for parameter updates
■ Passive RFID technology: no on-board power
required to access the device in RF mode
■ High reliability EEPROM
■ Flexible password protection scheme
■ Simple and cost-effective implementation
■ Enabling new functions and capabilities for:
Parameter update
Firmware update
Device calibration
Product activation
Traceability information management
Asset tracking
Identification
Two Worlds connected
The ability to program or read a memory using either an
RF or a wired interface enables designers to imagine and
develop new functions and capabilities for their products.
It is a good fit for a wide range of applications including:
■ Medical equipment
■ Industrial equipment
■ Factory and building automation
■ Computers and peripherals
■ Consumer electronics
Device summary
Part number
RF interface
Serial interface
Memory size
[Kbit]
Clock frequency
[kHz]
Password
Supply voltage
[V]
Package
M24LR64-RMN6T/2
ISO 15693
I2C
64
400
Yes
1.8 to 5.5
SO8
M24LR64-RDW6T/2
ISO 15693
2
IC
64
400
Yes
1.8 to 5.5
TSSOP8
M24LR64-RMB6T/2
ISO 15693
I2C
64
400
Yes
1.8 to 5.5
MLP2X3
M24LR64-RS185/2
ISO 15693
2
IC
64
400
Yes
1.8 to 5.5
Sawn wafer inkless
M24LR64-RZ185/2
ISO 15693
I2C
64
400
Yes
1.8 to 5.5
Sawn wafer inked
12
Reverse recovery comparison
STPSCxx06
SiC
VR=400 V, IF=8 A, Tj=125 °C, di/dt=-200 A/μs
SiC
Tandem
STTH806DTI
Si
Instant switching
SiC Diodes – When the Technology makes the Difference
Thanks to exceptional reverse recovery performances, the new silicon carbide (SiC) diodes of ST represent a key contributor
to energy savings in SMPS applications and in emerging domains, such as solar energy conversion. The SiC diode portfolio
of ST comprises 600 V types with current capability ranging from 4 to 20 A, with a complete offer of through-hole (TO-247,
TO-220) and SMD packages (DPAK, D²PAK). Design and diffusion are made 100% in-house by ST.
Key Features
Key Benefits
■
■
■
■
■ Efficiency increased by up to 1% vs conventional
ultrafast silicon diodes
■ Less EMI in application
■ Permits reduction in associated filter size and cost
■ Indispensable when power density increase is crucial
No or negligible reverse recovery
Reverse recovery unaffected by dI/dt and forward current
Switching behavior independent of temperature
The lowest VF today on the market
Target Applications
■ Photovoltaic inverter
■ High-end SMPS
■ High-frequency motor control drives
Product Portfolio
Part Number
TO-247
TO-220AC
2
D PAK
STPSC406
(600V / 4A)
STPSC406D
STPSC606
(600V / 6A)
STPSC606D
STPSC606G
STPSC806
(600V / 8A)
STPSC806D
STPSC806G
STPSC1006D
STPSC1006G
STPSC1006 (600V / 10A)
STPSC1206 (600V / 12A)
STPSC2006 (600V / 20A)
DPAK
STPSC406B
STPSC1206D
STPSC2006CW
13
Full performance up to 150°C
150°C
140°C
130°C
120°C
110°C
Sensitive high Tj triacs
High Temperature Triacs
The new high-temperature series represents the state-of-the-art of discrete triacs available today on the market. Thanks to
unique process features, the family supports operating junction temperature up to 150 °C. Peculiarity of the new technology is the enhanced dynamic performances, in particular the maximum turn-off current capability and the noise immunity
level, which have been improved along the entire temperature range. The devices are full specified up to 150 °C, eliminating
thus the need of tedious derating calculations, mandatory for devices specified up to lower junction temperatures.
Key Features
Key Benefits
Key Applications
■ TJ max = 150 °C (versus 125 °C
of standard triacs)
■ Standard gate(35 mA, 50 mA) and
sensitive gate (10 mA) versions
■ Improved turn-off capability
■ Enhanced noise immunity
■ Specified up to 150 °C
■ Perfect choice for hot
temperature environments
■ Allows heatsink reduction
in application
■ High current density application
■ No need of derating calculations
up to 150 °C
■ Universal motor control (vacuum
cleaners, washing machines)
■ Hot environment (cookers, ovens,
hobs, coffee machines)
■ High power density on PCB
(heater, high power motors)
Product Portfolio
IT(RMS)
VRRM/VDRM
ITSM
IGT max
(di/dt)c min
dV/dt min
Quadrants
Tj
Packages
[A]
[V]
[A]
[mA]
[A/ms]
[V/μs]
[°C]
D2PAK
4
600
40
10
5.7
75
I – II – III
150
T410H-6T
6
600
60
10
8.7
75
I – II – III
150
T610H-6T
TO-220AB
TO-220AB Ins.
8
600
80
10
11.4
75
I – II – III
150
T810H-6G
T810H-6T
8
600
80
35
11.0
1000
I – II – III
150
T835H-6G
T835H-6T
T835H-6I
8
600
80
50
14.0
1500
I – II – III
150
T850H-6G
T850H-6T
T850H-6I
10
600
100
10
14.4
75
I – II – III
150
T1010H-6G
T1010H-6T
10
600
100
35
13.0
1000
I – II – III
150
T1035H-6G
T1035H-6T
T1035H-6I
10
600
100
50
18.0
1500
I – II – III
150
T1050H-6G
T1050H-6T
T1050H-6I
12
600
120
35
16.0
1000
I – II – III
150
T1235H-6G
T1235H-6T
T1235H-6I
12
600
120
50
21.0
1500
I – II – III
150
T1250H-6G
T1250H-6T
T1250H-6I
16
600
160
35
21.0
1000
I – II – III
150
T1635H-6G
T1635H-6T
T1635H-6I
16
600
160
50
28.0
1500
I – II – III
150
T1650H-6G
T1650H-6T
T1650H-6I
20
600
200
35
27.0
1000
I – II – III
150
T2035H-6G
T2035H-6T
T2035H-6I
T2050H-6G
20
600
200
50
36.0
1500
I – II – III
150
T2050H-6T
T2050H-6I
30
600
270
35
33.0
1000
I – II – III
150
T3035H-6T
T3035H-6I
30
600
270
50
44.0
1500
I – II – III
150
T3050H-6T
T2050H-6I
14
Full performance up to 150°C
SPMS efficiency (%)
95,5
BC2 solution
95,0
94,5
Output power (W)
94,0
93,5
Output power (W)
93,0
0
Sensitive high Tj triacs
200
400
600
800
1000
BC2: High-efficiency SMPS PFC
BC² is an innovative energy-recovery circuit, dedicated to any kind of hard-switching power converter. It is a patented
solution of ST based on silicon rectifiers plus few external passive components, aimed at replacing 600 V SiC diodes
enabling similar performances and a decisive price advantage. Our marketing strategy is clear: whenever a 600 V SiC diode
should be used, BC² could be the winning solution. BC² is the solution of ST with the highest performance-to-cost ratio for
the PFC section of high-efficient power supply.
DB
Key Features
■ Optimized PFC topology
for efficient converters
■ Based on silicon rectifiers
■ 100% inductive energy
recovery with zero losses
■ All technical support
provided by ST
D2
VL
Input: 90 VAC to 264 VAC
D1
Key Benefits
■ Efficiency increased by up to
2% vs standard PFC topologies
■ Superior performance/cost ratio
vs silicon-carbide solutions
■ Reduced working temperature
vs standard topologies
D2
STTH3BCF060U
V RRM = 600 V
I F(AV) = 3 A
SMB package
STTH5BCF060
V RRM = 600 V
I F(AV) = 5 A
Axial DO-201AD package
DB
Recommended
power range
STTH10BC065CT
= 2 x 5 A, V RRM = 650 V, TO-220AB
280 W to 600 W
STTH16BC065CT
I F(AV) = 2 x 8 A, V RRM = 650 V, TO-220AB
400 W to 1.0 kW
IF(AV)
STTH8BC060D
I F(AV) = 8 A, V RRM = 600 V
STTH8BC065DI
I F(AV) = 8 A, V RRM = 650 V
TO-220AC
TO-220ACIns
800 W to 2.0 kW
Target Applications
■ Converters operating in
hard-switching mode
■ Solar inverters
■ Servers & telecom base stations
15
High-Voltage Power MOSFETs
STMicroelectronics is the worldwide leading supplier of high-voltage Power MOSFETs. With a product portfolio comprising
devices ranging from 400 V up to 1500 V, in both standard-planar and superjunction technologies, and with the widest package
portfolio today on the market, ST is able to provide HV Power MOSFETs tailored for almost any application of today’s life.
Power MOSFET MDmesh™ V
Key Features
Flagship of HV MOSFETs portfolio of ST is the MDmesh™V
family, the 5th generation of ST proprietary MDmesh™
superjunction technology. With RDS(ON) values around
30% less than previous generation, MDmesh™ V is a real
breakthrough addressing applications where superior
power density and the highest efficiency are required.
MDmesh™ V portfolio contains today more than 40 types,
all in mass production.
■ Lowest RDS(ON) today on the market
in the most popular packages
■ Superior switching performances
■ 100% avalanche tested
BVDSS [V]
650
16
Key Benefits
■ Higher BVDSS margin in application
■ Easy-to-drive
■ Less EMI sensitive
RDS(on)(max) [Ω]
P/N
Packages
Target Applications
0.022
STY112N65M5
MAX247
PV-Inverter, Server, UPS
0.039
STW77N65M5
TO-247
PV-Inverter, Server, UPS
0.057
STW60N65M5
TO-247
PV-Inverter Server, SMPS, Telecom, PS
2
2
0.079
STx42N65M5
TO-220/TO-220FP/D PAK/I PAK/TO-247
PV-Inverter Server, SMPS, Telecom, PS
0.099
STx35M65M5
TO-220/TO-220FP/TO-247/D2PAK/I2PAK
Server SMPS, Telecom PS
0.119
STx32N65M5
TO-220/TO-220FP/D2PAK/I2PAK/TO-247
SMPS, Server
0.139
STx30N65M5
TO-220/TO-220FP/D2PAK/I2PAK/TO-247
SMPS, Server
2
2
0.179
STx21N65M5
TO-220/TO-220FP/D PAK/I PAK/TO-247
SMPS, HID
0.299
STx16N65M5
TO-220/TO-220FP/I2PAK/DPAK/IPAK
HID, SMPS
0.430
STx12N65M5
TO-220/TO-220FP/I2PAK/DPAK/IPAK
FLBallast, HID, SMPS
0.600
STx8N65M5
TO-220/TO-220FP/I2PAK/DPAK/IPAK
HID, Adapters, SMPS
Power MOSFET MDmesh™ II
In order to provide a complete portfolio of new HV superjunction MOSFETs at 500 V and 600 V, ST is extending the previous
generation of MDmesh™II devices with excellent performance-to-cost ratio. The devices listed in the below tables should be
the preferred selection for new designs whenever performance/cost is the key issue.
BVDSS
[V]
600
RDS(on)
(max) [Ω]
Sales Type
Package
0.9
STx7NM60N
DPAK/TO-220/TO220-FP
0.7
STx9NM60N
DPAK/TO-220/TO220-FP
0.55
STx10NM60N
DPAK/TO-220/TO220-FP
0.360
STx13NM60N
DPAK/TO-220/TO220-F
0.285
STx18NM60N
0.22
BVDSS
[V]
RDS(on)
(max) [Ω]
Sales Type
Package
0.75
STx8NM50N
DPAK/TO-220/TO-220FP
0.60
STx10NM50N
DPAK/TO-220/TO-220FP
0.45
STx11NM50N
DPAK/TO-220/TO-220FP
D2PAK-TO-247-TO-220/FP
0.29
STx14NM50N
D2PAK,DPAK/TO-220/TO-20FP
STx22NM60N
D2PAK-TO-247-TO-220/FP
0.25
STx19NM50N
D2PAK-TO-247-TO-220/FP
0.19
STx24NM60N
D2PAK-TO-247-TO-220/FP
0.19
STx23NM50N
D2PAK-TO-247-TO-220/FP
0.165
STx26NM60N
D2PAK-TO-247-TO-220/FP
0.105
STx34NM60N
D2PAK-TO-247-TO-220/FP
0.15
STx28NM50N
D2PAK-TO-247-TO-220/FP
500
PowerFLATTM 8x8 HV
STMicroelectronics is today one of the two suppliers
offering a new innovative SMD package tailored for
HV MOSFETs. The PowerFLATTM 8x8 HV is an innovative, 1mm-thin, leadless SMD package which is now
featured with ST 550V/650V MDmesh™V and 850V
SuperMESHTM5 technologies.
Visit the ST web page (www.st.com) for the updated
PowerFLATTM 8x8 HV product portfolio!
17
Booming Applications for new Discrete IGBT’s
The new HF-Series of discrete IGBT’s of ST improves the power efficiency in high frequency applications by minimizing
the turn-off energy losses. Compared to the previous generation, the new HF-Series exhibits improved performances in
both static (around 10% less losses) and dynamic conditions (around 20% less losses).
The series permits moreover an easy paralleling operation
of the device. Dedicated anti-parallel diode (in either ultrafast or low-drop soft-recovery options) makes this family
suitable for many applications of the industrial world, like
welding, induction heating, solar inverters, UPS, PFC and
many more.
Target Applications
■
■
■
■
Photovoltaic inverter
Induction heating
Low-power motor control
Welding & UPS
Part Number
BV
IC
Package
Frequency
STGW35HF60WD/DI (*)
600 V
35 A
TO-247
Up to 100 kHz
STGWA35HF80WDI
600 V
35 A
TO-247
long-lead
Up to 100 kHz
STGW35HF60W
600 V
35 A
TO-247
Up to 100 kHz
STGW45HF60WD/DI (*)
600 V
45 A
TO-247
Up to 100 kHz
STGWA45HF60WDI
600 V
45 A
TO-247
long lead
Up to 100 kHz
STGW50HF60SD
600 V
50 A
TO-247
Up to 10 kHz
STGD3HF60HD
600 V
3A
DPAK
Up to 50 kHz
(*) – D : Ufast anti-parallel diode for hard switching topologies
DI: low drop soft recovery anti-parallel diode
High Frequency Leg
Low Frequency Leg
Key Features & Benefits
■ Improved static and dynamic performances
■ Supports paralleling operation under VCE(SAT)
classification (made by ST)
■ Enhanced process robustness
■ Fast and low-drop devices
■ Different free-wheeling diode options
■ STGW50HF60SD – ideal as low-drop switch
for mixed frequency topologies
Ii
+
vi | 2
S 1+
D 1+
S 2+
D 2+
C+
–
i0
a
vi
+
v0
N
b
–
+
vi | 2
C–
–
S 1+
D 1+
S 2+
D 2+
Full Bridge Mixed Frequency
18
˜
˜
Microcontroller
Bridge rectifier
Gate driver
Half bridge
Gate driver
Half bridge
Gate driver
Half bridge
NTC
temperature
monitoring
M
Intelligent power module
Feedback
IPMs – Intelligent Power Modules
ST has recently introduced a new family of 600 V compact, high efficiency, dual-in-line IPMs (Intelligent Power Modules)
with the brand name SLLIMM™ (Small, Low Losses, Intelligent, Molded Modules). The SLLIMM™ combines a 3-phase
inverter bridge (IGBT-based) and dedicated driving ICs in the same package. A set of superior protection features complements the offer.
Target Applications
Key Features
■ Home appliances: washing machine, dishwashers,
refrigerators
■ Air conditioning compressors
■ Low-power industrial applications, like sewing
machines, pumps, industrial fans
■ Power stage
six short-circuit rugged IGBT’s
six freewheeling diodes
■ Driving network
three high voltage gate drivers
discrete gate resistors
three bootstrap diodes
■ Protection and optional features
Embedded operational amplifier for
advanced current sensing
Embedded comparators for fault protection
NTC sensor for temperature control
Smart shutdown function (ST patent)
Dead time, interlocking function and
undervoltage lockout
Basic Version
Full-Features Versions
STGIPS10K60A
STGIPS14K60
STGIPL14K60
STGIPS20K60
STGIPL20K60
Voltage (V)
600
600
600
600
600
Current @ 25°C (A)
10
14
15
18
20
Package
SDIP-25L
SDIP-25L
SDIP-38L
SDIP-25L
SDIP-38L
DBC Substrate
YES
YES
YES
YES
YES
19
VIPower – The Automotive Smart Power Device
High-side switches, with their additional integrated features, are power switches that can switch high currents into grounded
loads safely and in compliance with the harsh automotive environment. ST offers a wide range of fully-protected, smart highside switches based on VIPower (vertical intelligent power) technology. This proprietary technology allows integration of
complete digital and analog control and protection circuits driving a vertical structure power MOSFET, all on the same chip.
Vcc
High-side switches only require a simple TTL logic input, and
incorporate a diagnostic output status to the microcontroller.
They can easily drive both inductive and resistive loads.
Signal clamp
Undervoltage
Control and diagnostic
Power
clamp
Driver
IN
For full protection of the application, these devices have built-in:
■ Over-temperature protection
■ Open-load detection for both on and off states
■ Shorted-load protection
■ Overvoltage and undervoltage shutdown
■ Protection against loss of ground and loss of Vcc
■ Low standby power dissipation
Reverse
battery
protection
Von
limitation
Overtemperature
Current
limitation
Off state
open load
CS_DI
VSENSEH
CS
Current
sense
Logic
Typical block diagramm for single channel options
They are designed to work from -40 to +150 °C. ST‘s highside switch product portfolio includes single, dual and
quad drivers with digital or analog status and on-resistance
values ranging from 4 mΩ to 500 mΩ. Different packages
Part number
Package
VN5E160xS-E
VN5E050xJ-E
OUT
Overload protection
(active power limitation)
GND
are available for this product family. They are used in many
power applications in automotive body electronics such
as junction boxes, interior lighting and motor control.
Channels
Operating voltage
range VCC [V]
Max on state resistance
RDS (on) (max) [mΩ]
Digital status
Analog
current sense
SO-8
1
4.5 - 28
160
x
x=A
PowerSSO-12
1
4.5 - 28
50
x
x=A
VN5E025AJ-E
PowerSSO-12
1
4.5 - 28
25
x
VN5E01xAH-E
HPAK
1
4.5 - 28
10 or 16
x
VN5E006ASP-E
SO-8
1
4.5 - 28
6
VND5E160xJ-E
PowerSSO-12
2
4.5 - 28
160
x
x=A
VND5E050x
PowerSSO-12 or 24
2
4.5 - 28
50
x
x=A
VND5E025AK-E
PowerSSO-24
2
4.5 - 28
25
x
VND5E0xxAY-E
PowerSSO-36
2
4.5 - 28
x=12 or x=08
x
VND5E006ASP-E
PowerSO-16
2
4.5 - 28
6
x
VND5E004A-E
PQFN
2
4.5 - 28
4
x
VNQ5E250AJ-E
PowerSSO-12
4
4.5 - 28
250
VNQ5E160xK-E
PowerSSO-24
4
4.5 - 28
160
x
x=A
VNQ5E050xK-E
PowerSSO-24
4
4.5 - 28
50
x
x=A
20
x
x
SPC56xB –
Automotive 32-bit Flash MCUs for Car Body Applications
STMicroelectronics’ SPC56xB/C/D family of 32-bit flash microcontrollers is dedicated to the specific needs of body and
convenience applications. The modularity and compatibility of the product family portfolio is set to an unmatched level.
A new state-of-the-art technology, combined with a high-performance core
and tailor-made peripherals, make this family of products the perfect platform
solution, achieving the best equilibrium between system cost and performance.
From product specification, on through design and manufacturing, focus is on
reliability, application robustness and added value.
Use of an industry standard PowerArchitecture® core, sharing standard peripherals with similar products across all application fields, increases integration,
maximizes design reuse and shortens time to market.
Applications
■
■
■
■
■
■
Car body controllers
Smart junction boxes
Comfort modules
Gateways
Security/access
Door and seat with
sensorless positioning
Benefits
Reduced system cost
Power and robustness
Improved time to market
Reduced cost of non-quality
■ Up to 60 PWM channels
with ADC triggering
capability for lighting
control and diagnostic
■ RWW Data Flash with
100K w/e cycles for E2
emulation
■ Improved EMI
■ Innovative centralized
power management
with standby < 20 uA
■ Dual on-chip RC oscillators
■ Z0h-Z4d Power
Architecture® CoreDual core options
■ ECC on all memories
■ Memory/register
protection functions
■ Clock security system/
backup oscillator
■ CPU clock independent
watchdog
■ Injection robust I/Os
■ Standard core for
maximum reuse
■ Designed for AUTOSAR
■ Memory/pinout/
performance scalability
■ Compatibility of
product family
■ Existing tools ecosystem
and know-how
■ Zero defect strategy from
design to production
■ Latest 90 nm automotive
focused technology
■ Co-development of
technology with Freescale
■ Supply chain strengthened
via dual source capability
SPC56 Development Tool
A comprehensive development tools offer
Designed for AUTOSAR
The SPC56 product is supported by a wide range of development tools using a vast network of 3rd parties. This includes classical C compilers, debuggers and emulators, as well
as advanced tools such as configuration tools or auto-code
generators. Evaluation boards are available from ST.
All products are designed
fulfill AUTomotive Open
System Architecture requirements.
21
L3G4200D 3-axis digital gyroscope
LIS3DH
The one-stop MEMS Supplier
Based on our advanced proprietary technologies, ST‘s MEMS
address the most innovative features required on the market,
ranging from mobile and consumer applications to the
innovative needs of the healthcare and automotive markets.
Housed in ultra-compact packages, MEMS achieve a high
level of motion-control detection, embedding the most useful
smart functions and minimizing the power consumption.
Currently ST produces almost 50 million MEMS Motion
Sensors a month.
4 new Products are now available:
■ LIS3DH: Very low power digital 3-axis accelerometer
■ L3G4200D: High performance and high stability digital
3-axis gyroscope
■ LSM303DLM: Digital E-compass combining 3-axis
accelerometer and 3-axis magnetometer
■ MP45DT02: Compact digital MEMS microphone
MEMS Accelerometer Product Focus: LIS3DH
MEMS Gyroscope Product Focus: L3G4200D
LIS3DH is a SPI/I2C output 3-axis accelerometer.
ST LIS3DH enable wide range of applications as smart
power management, enhanced human interface
management, shock and vibrations monitoring.
L3G4200D is a SPI/I2C output 3-axis gyroscope. ST gyroscope reacts in response to angular rotation. It is used for
consumer and industrial applications, including gaming
and smart user interface and for advanced pointing devices.
Key Features
Key Features
■ Able to measure accelerations with
4 selectable full scale: ±2, 4, 8 and 16 g
■ High resolution (up to12 bit)
■ Very low power consumption: 2 μA in low power
mode (1 Hz), 11 μA in normal mode (50 Hz) and
5 μA in power down mode
■ High flexibility:
8 ODR user selectable:
1/10/25/50/100/400/1600/5000 Hz
Bandwidth up to 2.5 KHz
FIFO and 3 ADC inputs
Wide power supply range 1.71 to 3.6 V
Self test function
■ Small size package 3x3x1 (in mm)
■ High precision, 16 bit resolution
■ 4 output data rates:100, 200, 400, 800 Hz
■ Able to measure rotations with 3 selectable
full scale: ±250°/s, ±500°/s and ±2000°/s
■ Power down and sleep modes
■ Interrupt lines
■ High performances and high stability
over temperature
■ Programmable low and high pass filters
■ Wide power supply range: 2.4 to 3.6 V
■ FIFO and temperature output
■ Self test function
■ Small package 4x4 LGA
22
LSM303DLM
MP45DT02
MEMS E-compass Product Focus: LSM303DLM
MEMS Microphone Product Focus: MP45DT02
LSM303DLM is the geo-magnetic module featuring
compensated compass, map rotation and position
detection, magnetic signature recognition and 6 degrees
of freedom for movement reconstruction, recognition.
MP45DT02 is a compact top-port microphone, pulse
density modulation single bit output with stereo support.
It enables excellent sound quality with amplified output
in an ultra-compact size. Suitable for SMD soldering,
it enables high stability of sensitivity over temperature,
humidity, time and reflow and is has very stable unit to
unit performance.
Key Features
Key Features
■ ±1.3 to ±8.1 gauss magnetic field full-scale
■ Magnetic resolution: 5mgauss
■ ±2 g/±4 g/±8 g acceleration dynamically selectable
full-scale
■ Accelerometer sensitivity: 1 mg/digit
■ I2C serial interface
■ 2 independent programmable interrupts
■ Generators for free-fall and motion detection
■ Omni-directional sensitivity
■ High level performance for:
Signal to noise ratio: 58 dB (@1 KHz)
Sensitivity: - 26 dBFS
Acoustic overload point: 120 dBSPL
Power supply rejection: -70 dBFS
10 ms wake-up time
■ High frequency response:
Voice / hearing range 20 Hz to 10 kHz
Tools:
Applications
ST proposes a complete set of tools enabling evaluation and
development on ST MEMS & sensors. STEVAL-MKI109 is a
STM32-based MEMS motherboard.
■ Compatible with accelerometers, gyro & e-compass
ST MEMS adapter boards
■ Includes a DIL24 socket for easy MEMS adapter connection
■ Controlled by the STM32F102R8 ARM Cortex™-M3
■ 3 V on-board linear voltage regulator
■ DFU compatible for USB microprocessor firmware update
■ USB 2.0 full-speed compliant
■ Debugging connector for SWD/JTAG
■ Software
■ Application notes
■
■
■
■
■
■
■
■
■
■
■
■
■
■
Data integrity protection and shock monitoring
Human-machine interfaces
Navigation systems
Anti-theft systems, home alarms
Vibration monitoring systems
Remote control
Sport and health monitoring systems
Compass compensation
Motion-activated power-saving systems
Context awareness
Personal navigation
Noise cancellation, beam forming
E-call
Motion & position sensing, IMU
23
SMPS topology and main applications
High features – Isolated Fly-back
VIPer17
VIPer27
VIPer37
coming soon
VIPer15
Auxiliary PS, STB, DVD, Games console, LCD TV,
major appliances, Motor control, Power Meter,
Chargers, Adapters, PC Stand-by
Quasi Resonant – Isolated Fly-back
Auxiliary PS, STB, DVD, Games console, LCD TV,
major appliances, Motor control, Power Meter,
Chargers, Adapters, PC Stand-by
VIPer25
Altair05T-800
Altair04-900
Peak Power Isolated Fly-back
DVD, Printer, ATX
VIPer28
Quasi Resonant – Isolated Fly-back
VIPer06
coming soon
DIP7
SSO10
VIPer16
VIPer26
DIP7
SO16N
DIP7
SO16N
Auxiliary PS, STB, DVD, Games console, LCD TV,
major appliances, Motor control, Power Meter,
Chargers, Adapters, PC Stand-by
(1)
1 W…
Basic features – Isolated Fly-back
SDIP10
…15W /30W
(2)
Auxiliary PS, STB, DVD, Games console, LCD TV,
major appliances, Motor control, Power Meter,
Chargers, Adapters, PC Stand-by
New VIPerPlus and Altair Family for Auxiliary Power Supplies
STMicroelectronics is a leading supplier of semiconductors for efficient and robust offline auxiliary power supply ICs. A wide
range of application boards supports the wide range of products. Two product families of integrated offline converters are available.
VIPerPlus Family:
ALTAIR Family:
■
■
■
■
■
■
■
■
■
■ High-voltage primary switchers intended for operating
directly from the rectified mains with minimum external
parts.
■ Combination of a high-performance low-voltage PWM
controller chip and an 800 V (ALTAIR05-800) or 900 V
(ALTAIR04-900), avalanche-rugged power MOSFET in
the same package.
■ Current-mode controller IC specifically designed for
offline quasi-resonant ZVS (Zero Voltage Switching at
switch turn-on) flyback converters.
■ Unique capability of providing constant output voltage
(CV) and constant output current (CC) regulation using
primary-sensing feedback.
■ Elimination of the opto-coupler, the secondary voltage
reference, as well as the current sensor, still maintaining
accurate regulation.
Off-line converters with 800 V
Avalanche rugged power section
PWM controller
User defined over current
Protection against feedback network disconnection
Hysteretic thermal protection
Soft start up and safe auto restart.
Advance frequency jittering reduces EMI filter cost.
Burst mode operation and device very low consumption
helps to meet the stand by energy saving regulation.
■ Two levels of over current protection VIPerx7 series
provides highest ruggedness and protection features.
■ VIPerx6 series is able to power itself directly from the
rectified mains, eliminating the need for an auxiliary bias
winding. This series is also ideal for offline supplies in
buck topology.
■ Quasi resonant control method of the VIPerx5 series
increases the efficiency and reduces EMI filter cost.
D8
Vout
+
+
+
DC Input high voltage
wide range
DC Output voltage
DC Input high voltage
wide range
C6
-
-
GND
Rcdc Caux
VIPer+
Daux
Raux
Rzcd
ALTAIR
Rfb
Ccomp
Rcomp Cref
24
Rsense
Vin
55V
L497x
48V
ST1S14
38V
L7985
36V
L7986
L597x
28V
L7980/1
18V
L598x
ST1S10 Synch
L5988/9D Synch
4V5
ST1S30
2V9
2V7
2A
3A
Iout
5A
3.5A 4A
DC/DC Converters Portfolio for Power Management
A wide range of highly efficient synchronous and non-synchronous monolithic DC-DC converters satisfies all needs for
power management and supply in the input voltage range from 2.7 V to 55 V.
L598x Family
L7980/L7981
ST1S14
The L598x family supports input voltages from 2.9 to 18 V and up to 3 A
current:
■ High switching frequency
(250 KHz, adjustable up to 1 MHz)
■ P-channel power MOSFET:
no bootstrap capacitor and
up to 100% duty cycle
■ Internal soft-start
The new released L7980/L7981 converters provide advanced features in
the input voltage range 4.5 V to 28 V:
■ 2 A DC output current
■ 4.5 V to 28 V input voltage
■ Output voltage adjustable from 0.6 V
■ 250 kHz switching frequency,
programmable up to 1 MHz
■ Internal soft-start and enable
■ Low dropout operation:
100% duty cycle
■ Voltage feed-forward
■ Zero load current operation
■ Overcurrent and thermal protection
■ VFQFPN3x3-8L and HSOP8 package
The ST1S14 is a step down monolithic power switching regulator able
to deliver up to 3 A DC. The high
current level is also achieved thanks
to an HSOP8 package with exposed
frame:
■ Operating input voltage from
5.5 to 48 V
■ 850 kHz internally fixed
switching frequency
■ Internal soft start
■ Power good open collector output
■ Embedded compensation network
■ Zero load current operation
■ Internal current limiting
■ 2 mA max. quiescent current over
C1
VCC
INH
C1
GND
FSW SYNCH
8
6
OUT
2
L1
VIN=0.6V to VIN
1
D1
7
C2
FB
5
VCC
EN
3
4
VIN=4.5V to 28V
R1
COMP
GND
Cin
1
8
3
L7980-1
2
7
6
4
5
C4
U1
VIN=0.6V to VCC
1
VIN
SYNCH
D1
7
Cout
5
3
R1
FB
C2
C3
R3
R2
VIN
EN2
EN1
SW
PGOOD
GND
FB
L1
8
8.5uH
2
R3
47K
4
R1
4.7K
D1
C4
GND
VOUT
C5
100uF
10uF 100nF
R2
C5
C3
ST1S14
BOOT
6
FSW COMP
R4
L1
OUT
STPS3L60U
VIN=2.9V to 18V
PGOOD
100nF
R2
2.7K
small signal
GND
power plane
25
Innovative LED Drivers for Retrofit Lamps
ST is offering new LED drivers both for offline retrofit LED lamps and low voltage halogen replacement lamps.
HVLED805
ST1CC40
The innovative HVLED805 is a high-voltage primary switcher
intended for operating directly from the rectified mains with
minimum external parts to provide an efficient, compact
and cost effective solution for LED driving. It combines a
high-performance low-voltage PWM controller chip and
an 800 V, avalanche-rugged power MOSFET, in the same
package.
The ST1CC40 is a fixed frequency step-down DC-DC
converter designed to operate as constant current source.
With an input voltage range between 3.5 and 18 V it is
suitable to drive LEDs from rectified 12 V AC halogen
transformer supplies. The device is able to provide up to
3 A output current with accurate regulation which makes
it suitable to drive high power LEDs. Synchronous rectification improves overall system performance.
Key Features
Key Features
■ Accurate primary current control avoids the use of
secondary sensing, reducing costs and complexity
■ Internal 800 V avalanche rugged power MOSFET
■ High-voltage start-up allows compact applications
■ Quasi resonant zero voltage switching improves efficiency
■ Reduced external part count allows very small form factors
■ Save against open or shorted LEDs
■ Reference designs STEVAL-ILL037V1 and
EVAL HVLED805
■
■
■
■
■
■
■
■
■
Step down current mode PWM regulator
3.5 V to 18 V input voltage
High efficiency up to 95%
Current sensing 100 mV Typ. with 5% tolerance
Stand-by supply current: 6 μA
Up to 3 A LED current
Cycle by cycle current limit with frequency foldback
Integrated 95 mΩ and 69 mΩ power MOSFETs
Small packages VFQFPN8 and SO8
VIN=3.5V to 18V
VINSW
INH
AC IN
VINA
6
7
2
ST1CC40
1
8
AC IN
PGND
VDD
DMG
COMP
26
DRAIN
HVLED805
GND
LED
SOURCE
LED
SW
4
3
FB
AGND
VSENSE
Power Line Modem STarGRID™ ST75xx
The most integrated Power Line Communication Solution
STarGRID is a flexible, scalable and future-proof power-line communication system-on-chip platform to effectively address
demanding smart-metering and smart-grid application requirements and related standards.
By optimizing power consumption and system cost, the
platform is also ideal for many other green applications, e.g.
smart-energy control in photovoltaic modules. STarGRID
combines a high-performance DSP core with a programmable
protocol engine, along with the full analog front end (AFE)
and power-line driver in a single chip, for a complete, flexible
and cost-effective narrowband power-line communication
solution.
In particular ST7570 performs a spread frequency shift
keying (S-FSK) modulation compliant to IEC 61334-5-1
standard which is robust against narrowband interferes.
Additional protocol services such as alarm messages
management, repeater call and intelligent synchronization
are also embedded.
The ST758x performs multiple phase shift keying modulation (MPSK) as well as FSK modulation for backward
compatibility to ST7538/40 and is compliant to Meters
and More standard, reaching a maximum baud rate of
28.8 kbps.
All the devices are able to estimate the signal-to-noise ratio
and receiving quality and to combine that information for
automatic best coding/decoding algorithm and transmission
level adoption.
Key Features
■ Fully integrated narrow-band power line PLC SoC
■ High performing DSP engine for multiple modulation
schemes
■ 8-bit protocol engine compliant to multiple standards
■ Host controller UART interface
■ Fully integrated analog front end (AFE) with high
sensitivity receiver and High linearity transmitter
with intelligent gain control
■ Signal to noise ratio (SNR) estimation and Receiving
Signal Strength Indication
■ Fully integrated power amplifier for line driving with
configurable active filtering topology and an output
capability of up to 1 Arms and 14 Vpp
■ Embedded temperature sensor for safe operation
■ Integrated 5 V and 1.8 V linear regulators for AFE and
digital core supply
The ST7590 is performing an orthogonal frequency-division
multiplexing (OFDM) modulation scheme compliant to the
PRIME alliance specification. The device is compliant to IEC
61334-4-32 as well as to IP protocols and includes a self organizing networking layer. The maximum baud rate is 129 kbps.
27
3 V Volt.
Reg.
Charge
Pump
ADC
Programmable
speed profile
Voltage mode
driving
16 MHz
Oscillator
dSPIN
core
POWER
STAGE
Microstepping
SPI
Comprehensive
command set
Thermal
protection
DAC &
Comp
Current
sensing
Protections
The new State of the Art in μstepping Drivers
dSPIN™ – Single Chip μStepping Motor Control Solution
The L6470 dSPIN™ motor driver provides fully digital motion control with no need for a dedicated MCU to perform speed
profile and positioning calculations. The digital control core, together with the innovative voltage-mode driving operation,
result in a position resolution of up to 128 micro-steps and smoother motion. The fast SPI interface, with daisy-chain
capability, allows a single MCU to control multiple devices. Reduced resonance, noise and vibration at low speed make the
overall application much simpler and lighter.
Key Features
Applications
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
Monolithic digital micro-stepping driver
Fully programmable speed profile and positioning
Voltage-mode driving, featuring up to 128 micro-steps
8-bit 5 MHz SPI interface (daisy-chain compatible)
Sensorless stall detection
Integrated current sensing (no external shunt)
Full set of embedded diagnostic and protection functions
Integrated 16 MHz oscillator, 5-bit ADC and 3 voltage regulator
HTSSOP, POWERSO and compact QFN packages
X-Y position and rotation systems
NC drills
Sewing machine
Stag lighting
Security camera
Satellite and antennas
Robotics (24 V based)
Pick & place (PCB manufacturing)
Camera positioning and focusing systems
EMC/ESD Robustness based on STEVAL6470
Electrostatic discharge (ESD) immunity; IEC 61000-4-2
■ Stepper motor outputs: immunity up to ± 8 kV in contact
Electrical transient (Burst) immunity; IEC 61000-4-4
■ Board power supply lines (CM): criteria A up to ± 8 kV
■ Stepper motor outputs (CM): criteria C up to ± 8 kV
Surge immunity; IEC 61000-4-5
■ Board power supply lines (DM) 1): criteria A
up to ± 2 kV and criteria B up to ± 3 kV
■ Note 1: The board was additionally protected
by a transil SM6T36A
Part Number
Package
Opering
Voltage
[V]
RDS (on)
[Ω]
Current
Rating [A]
packaging
Evalution
software
Evaluation
boards
L6470H
L6470HTR
HTSSOP28
8-45
0.28
3RMS
7 peak
Tube
Tape&reel
Free download
www.st.com/dspin
EVAL6470 evaluation board
STEVAL-PCC009V2 STM32 μC-Board
L6470Q*
L6470QTR
QFN 7X7 48
8-45
0.28
3RMS
7 peak
Tube
Tape&reel
Free download
www.st.com/dspin
EVAL6470 evaluation board
STEVAL-PCC009V2 STM32 μC-Board
L6470*
L6470DTR
PowerSO36
8-45
0.28
3RMS
7 peak
Tube
Tape&reel
Free download
www.st.com/dspin
EVAL6470 evaluation board
STEVAL-PCC009V2 STM32 μC-Board
28
Digital Outputs in the PLC Application
ST offers a series of intelligent power switches (IPS) for high-side and low-side configurations. These devices integrate the
control section (logic interface, drivers, diagnostic and protection features) and the power stage on the same chip, with benefits
in terms of compactness, increased system reliability and cost effectiveness.
Description
VNI4140K Key Feautures
Industrial 24 V digital output boards in IP25, IP65 and
IP67 packages are shrinking in size while the number of
output ports is steadily increasing. This results in a higher
power density/cm³. In the development of next-generation
IPS products, ST has paid particular attention to thermal
management, system diagnostics and overall design costs.
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
■
Benefits
The new VNI4140K, VNI2140J are designed to minimize total
power loss and to provide advanced diagnostics and thermal
management at product and application level. Both products are
designed to meet all state of the art EMC industrial standards.
High runner IPS Portfolio
Part
VCC
DDSON [Ω] IOUT [A]
Technology Package
Channels
VNI2140J
9+36
0.8
1
VIPower
PowerSSO-12
2
L6374
10.8+35
4
0.1
MultiBCD
SO-20
2
L6376
9.5+35
0.64
0.5
MultiBCD
PowerSO-20
4
VN330
VN330-32
10+36
0.2
0.7
1
VIPower
PowerSO-10
4
VN340
VN340-33
10+36
0.2
0.7
1
VIPower
PowerSO-10
4
VNI4140K
10.5+36
0.08
0.7
VIPower
PowerSSO-24
VN808
VN808-32
10.5+36
10.5+36
0.15
0.7
1
VIPower
PowerSO-36
VN808CM
10.5+36
VN808CM-32 10.5+36
0.15
0.7
1
VIPower
PowerSO-36
RDS(on)= 80 mΩ @ 25 °C, 140 mΩ @ 125 °C
Quiescent current: IQ = 4.8 mA
Output current 0.7 A per channel
Current limitation: 1.1 A typical
Four independet diagnostic outputs
Shorted load protecion
Junction overtemperate protection
Case overtemperature protection
Thermal independence of the channels
Protection against loss of ground
Undervoltage shutdown
Open drain diagnostic outputs
3.3 V CMOS/TTL-compatible inputs
Fast demagnetisation of inductive loads
Exposed slug design for optimal thermal performane
Conforms to IEC 61131-2
Evaluation-Board
Ordering Code
VN340SP
STEVAL-IFP003V1
VN808
STEVAL-IFP002V1
4
VN808CM
STEVAL-IFP001V1
8
VN751PT
STEVAL-IFP005V1
VNI4140K
STEVAL-IFP006V1
VNI2140J
STEVAL-IFP010V2
8
IPS market introduction
Part
RDSON [Ω]
Package
Datasheet
Samples
Comment
VNI4140K-32
0.08
PowerSSO-24
Available
Q1/2011
Quad 1 A per channel
VNI8200
0.110
PowerSSO-36
Available
Q3/2011
Octal serial/parallel
L6370Q
0.1
QFN 7x7mm
Available
Q1/2011
Application space saving
29
CLT series
SCLT3-8BT8
Protected input for automation
Serialized digital termination
Digital Inputs in the PLC Application
Digital Inputs in the PLC Application
Key Features
Current-limiting terminations for automation digital inputs,
shrink the I/O module size and increase its EMI immunity
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/Ointerface features. The CLT series offers compact, highlyimmune solutions which resist transient disturbances such
as those described in the IEC 61000-4 standard. As a result,
the CLT series cuts losses of the digital input by more than 2.
The SCLT3-8B, is a serialized 8-input termination circuit,
new addition to the CLT3-4B and PCLT-2A range.
Multi-channel IEC 61131-2 type 1, 2, 3 inputs.
EN60947-5-2 sensor interface
■ Active current-limiting input
Fixed or adjustable current setting
Low limitation tolerance: 25 % to 10 %
■ Front-end on-chip LED visual status driver
■ Settable input digital-noise filter, SCLT3-8
■ Several output configurations:
Opto-coupler drive: CLT3-4 and PCLT-2
CMOS compatible: PCLT-2
2 MHz SPI serial interface: SCLT3-8
■ Wide input voltage range:
-30 to +35 V
Activated input above 11 V
■ Wide temperature range: -25 to +85 °C
Development tools
Evaluation-Board
Description
Ordering Code
CLT3-4B
4-bit PLC Digital Input based on CLT3-4
STEVAL-IFP008V1
PCLT-2A
2-bit PLC Digital Input based on PCLT-2
STEVAL-IFP004V1
SCLT3-8
16-bit PLC Digital Input based on SCLT3-8
STEVAL-IFP007V1
CLT3-4B
With a front
end visual
led -type 1
operation
30
PCLT-2A
Designed to pass
EMC tests in Opto
and CMOS mode
SCLT3-8A
Designed to meet
real environment
conditions.
■ EMI proof
above 4kv EFT
■ Using optotransistor with 8ma
Electronics worldwide
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31
Germany – Headquarters
Rutronik Elektronische Bauelemente GmbH | Industriestraße 2 | 75228 Ispringen / Pforzheim
Tel. +49 (0) 7231 801-0 | Fax +49 (0) 7231 82282 | E-Mail: [email protected] | www.rutronik.com
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etage 8
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Photovoltaic & Lighting Solutions
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Rome
Via Del Maggiolino, 125
00155 Roma (RO)
Tel. +39 06 228 782-1
Turin
Strada Torino, 43/45
Europalace
10043 Orbassano (TO)
Tel. +39 011 9 02 20 00
Lithuania
Rutronik Elektronische
Bauelemente GmbH
Raudondvario pl.76
47182 Kaunas
Tel. +370 37 26 17 80
Mexico
Rutronik Mexico S.A. DE C.V.
Ecuador Nº 4
Lomas de Queretaro
76190 Queretaro
Tel. +52 442 242 5361
Norway
Rutronik Elektronische
Bauelemente GmbH
Olav Helsets vei 6, 0694 Oslo
Tel. +47 22 76 79 20
Netherlands
Rutronik Elektronische
Bauelemente GmbH
Papland 4a
4206 CL Gorinchem
Tel. +31 183 64 60-50
Bologna
Via Gazzani, 8/2 - Z.I. Bargellino
40012 Calderara di Reno (BO)
Tel. +39 051 6 46 32 00
Poland
Rutronik Polska Sp. z o.o.
ul. Bojkowska 37
44-101 Gliwice
Tel. +48 32 4 61 20 00
Florence
Via V. Emanuele, 33
50041 Calenzano (FI)
Tel. +39 055 8 82 73 32
Gdynia
ul. Batorego 28-32
81-366 Gdynia
Tel. +48 58 7 83 20-20
Naples
Via Arcora, 110, Palazzo Gecos
80013 Casalnuovo di Napoli (NA)
Tel. +39 081 5 22 87 09
Warsaw
ul. Patriotów 110
04-844 Warszawa
Tel. +48 22 3 32 73-70
Bucureşti
Tel. +40 314 25 38 39
Russia
Rutronik
Beteiligungsgesellschaft mbH
Leningradskoje Chaussee 16
Building 3, Office 403
125171 Moscow
Tel. +7 495 7 86 28 02
San Sebastián
Po Ubarburu, 71 - 1oE
20115 Astigarraga
Tel. +34 943 40 45 28
Switzerland
Rutronik Elektronische
Bauelemente AG
Volketswil
Hölzliwisenstr. 5, 8604 Volketswil
Tel. +41 44 9 47 37 37
Yverdon-les-Bains
Rue Galilée 15,
1400 Yverdon-les-Bains
Tel. +41 24 4 23 91 40
Turkey
Partner of Rutronik group:
Elektro Elektronik San. Tic. A.S.
Burhaniye Mah. Bahceler
Sokak No:10
Beylerbeyi 34676 Uskudar/Istanbul
Tel. +90 216 557 67 00
Serbia
Rutronik Elektronische
Bauelemente GmbH
YUBC Bul. Mihajla Pupina 10z/IV
11070 Beograd
United Kingdom & Ireland
Tel. +381 11 311 33 66-3
Rutronik UK Ltd.
Deakins Business Park,
Blackburn Road, Egerton
Slovakia
BL7 9RP Bolton, Lancashire
Rutronik Elektronische
Tel. +44 1204 60 22 00
Bauelemente GmbH, o.z.
Lazovná 11
97401 Banská Bystrica
Tel. +421 48 4 72 23-00
Slovenia
Rutronik Elektronische
Bauelemente GmbH
Motnica 5, 1236 Trzin
Tel. +386 1 5 61 09 80
Spain
Rutronik España S.L.
Barcelona
C/ Marqués de Sentmenat 54 - 58,
3a Planta - 1o, 08029 Barcelona
Tel. +34 93 4 44 24 12
L09 | INT | Specifications subject to change without notice. Please note that there are limitations for ST product lines in some European countries. Please contact our sales team.
International branches: