brochure wearables

Products and solutions for
Wearable devices
Content
Introduction................................................................................ 3
Motion MEMS & environmental sensors ........................... 4
Signal conditioning.................................................................. 9
Microcontrollers....................................................................... 11
Connectivity............................................................................. 18
Power management.............................................................. 22
User interface........................................................................... 26
ESD protection.......................................................................... 28
EMI filtering............................................................................... 29
Design support......................................................................... 30
Introduction
STMicroelectronics offers smart solutions for wearable devices
Leveraging its long experience in a wide range of technologies, ST offers a selection of products
specifically designed for wearable devices targeting applications such as:
• Consumer fitness and wellness
• Healthcare
• Portable infotainment
• Monitoring and safety in Industrial
In these applications high precision, low power consumption, compact form factor and outstanding
performance are a must and ST’s products take into account the needs of the most recent and
innovative wearable devices.
32-bit
ULP MCUs
Motion and
environmental
MEMS sensors
Digital
sensors
GPS/GNSS
receivers
Signal
transducers
Switches
MEMS
microphones
Led drivers
User
interface
Microcontroller
Analog
front-end
Analog
sensors
Power
management
Bluetooth
SMART
Connectivity
Sub 1 GHz
Real-time clock
Wi-Fi
Modules
Power
management ICs
Battery
management &
monitoring ICs
Audio
amplifiers
Smart reset &
Current
sensing
Protections
Thin-film
battery
NFC & RFID
ESD Protections
EMI Filter &
RF-IPD
3
Motion MEMS
& environmental sensors
The one-stop MEMS supplier
4
ST has shipped more than 9 billion micro-electromechanical sensors and has one of the industry’s most
extensive MEMS portfolio including accelerometers, gyroscopes, digital compasses, inertial modules,
MEMS microphones, and environmental sensors including pressure, temperature, UV index sensors and
humidity sensors.
• A unique sensor portfolio, from discrete
to fully-integrated solutions, to meet all
design needs
• High-volume manufacturing capacity to
provide cost competitive solutions, fast
time-to-market and security of supply
• High-performance sensor fusion to improve
the accuracy of multi-axis sensor systems
in order to enable emerging and highlydemanding applications, such as indoor
navigation and location-based services
• High-quality products, already tested
in different application fields, including
mobile, portable, gaming, consumer,
automotive and health care segments
• Multiple sites dedicated to MEMS, with
full in-house dual-sourcing, guaranteeing
100% security of supply
•
•
•
Movement recognition through
shoes and wearable sensors
(AXL, GYRO, PS)
Golf and tennis swing detection
(AXL, GYRO, MAG)
Body tracking recognition
(AXL, GYRO, MAG, PS)
• Large sensor portfolio
• Integrated hardware and
software solutions
• 100% security of supply
• Scalability of solutions
• Quality is a must for ST
• ST is MEMS market leader
Sensors for improving wearable applications
• Athlete performance monitoring
Complete solution
• Watches, personal navigation devices,
PND and pedometers (AXL, GYRO,
MAG, PS)
• Map orientation
• Heading and navigation
• Power-saving using auto-wake-up
functionality
• Taps display activation
Accelerometers
Key Features
ST’s state-of-the-art MEMS accelerometers
include analog and digital sensors featuring
up to ±400g acceleration full scale and from
1.71 to 3.6 V supply voltage. Accelerometers
have advanced power-saving features that
make them suitable for ultra-low-power
applications. These features include
low-power mode, auto wake-up function
and a FIFO buffer that can be used to store
data, thus reducing the host processor
loading and system power consumption. The
small size and embedded features of ST’s
accelerometers make them an ideal choice
for wearable applications and where long
battery life is required.
Part number
• Low power consumption and
smart ultra-low-power operating
modes including Always-on
• High resolution: accuracy and
stability
• Selectable full-scale up to 16g
• Smart embedded features for less
power hungry systems
• Ultra compact devices in packages
smaller than 4 mm3
• Advanced digital features
Package size (mm)
Full-scale typ (g)
Noise RMS (mg)
Key features
LIS2DS12
2 x 2 x 0.86
±2; ±4; ±8; ±16
0.65**
14-bit, embedded temperature compensation,
long FIFO, Smart features and pedometer
LIS2DH12
2x2x1
±2; ±4; ±8; ±16
3
12-bit, ultra low power
LIS2DE12
2x2x1
±2; ±4; ±8; ±16
9
8-bit, ultra low power
Note:Only tape and reel versions available
** RMS noise @ 50Hz FS 2g, 14 bit setting
Gyroscopes
5
ST’s new digital gyroscopes are a perfect synthesis of accuracy and design flexibility as a result
of their unique and patented mechanical structure based on a single driving mass. They offer
superior stability over time and temperature, with a noise density lower than 0.01 dps/√Hz for
zero-rate level.
Key Features
• Low power consumption lengthens
battery life
• Embedded FIFO for smart data
storage and power saving
• High performance in terms of
accuracy, resolution and stability
• Ultra compact device
Part number
L3GD20H
Package size (mm)
Full-scale typ (g)
Noise density (An) typ (µg/√ Hz)
Key features
3 x 3 x 1.0
± 245/±500/±2000
0.011
Embedded FIFO
Note: Only tape and reel versions available
Digital compasses
ST’s digital compasses include combo solutions, with an accelerometer and magnetic sensor integrated in a single LGA package and standalone
magnetometer, to give the possibility of designing a solution locating the magnetic sensor in the best position on the board in order to minimize
magnetic interference.
Key Features
• Superior sensing precision
combined with low power
consumption
• Temperature detection for
advanced thermal drift
compensation
• Extended magnetic-scale range
• Very small package to address
footprint reduction
Part number
LSM303C
Package size (mm)
Full-scale typ (g)
Magnetic Range(M_FS) typ (Gauss)
Noise density (An) typ (µg/√ Hz)
Key features
LGA-12 (2 x 2 x 1)
±2/±4/±8
16
140
3D accelerometer and
3D magnetometer
Note: Only tape and reel versions available
iNEMO® inertial modules
6
iNEMO inertial modules integrate
complementary types of sensors to offer
more compact, robust and easy-to-assemble
solutions compared to discrete MEMS
products. iNEMO solutions bring motion
sensing systems to the level required for the
most demanding applications.
The new LSM6DS3 6 axes accelerometer
and gyroscope offers best-in-class accuracy,
stability and resolution ensuring ultra low
power always on activity for advanced
tracking and smart motion capture.
Ultra
low power
Industry-leading low-power performance for 3A+3G combo Down to 0.6 mA in Always-on mode
20% better than the best alternative solution
Ultra
small size
Tiny size to fit in the smallest, slimmest mobile, wearable and Internet of Things devices
2.5 x 3.0 x 0.83 mm
Ultra
performing
Industry-best resolution for gyroscope and accelerometer
Gyroscope rate noise down to 0.007 dps/√Hz typical
Ultra
capable
8-Kbyte “smart” FIFO memory to batch more data before system wake-up
2 times larger than the best alternative solution
Ultra
smart
Embedded efficient and reliable motion tracking, pedometer and context awareness
Saving power and enabling faster system reaction time
Ultra
scalable
Ideal companion for the ultra-low-power STM32 family of microcontrollers
The best combination of 6-axis sensor plus sensor hub
Pressure sensors
BENEFITS
ST’s absolute digital output barometer
integrates ST’s consolidated pressure sensor
with a new fully-molded package to further
improve robustness, reliability and moisture
resistance while reducing package thickness.
Part number
• Low-power consumption
• Fully-molded package ensure
stability in any condition and water
resistance
General description
LPS25H
LPS25HB
• Ultra-small footprint
Package (mm)
RMS Noise with
embedded filter
Supply voltage
min-max (V)
Current consumption (operating
@ high resolution) typ (µA)
HCLGA-10L, 2.5 x 2.5 x 1.0
260-1260 hPa absolute
digital output barometer
1 Pa
HLGA-10L, 2.5 x 2.5 x 0.76
LPS22HB
HLGA-10L, 2 x 2 x 0.8
25
1.7-3.6
0.75 Pa
15
Note: a complete list of part numbers is available at www.st.com/pressure
Humidity and temperature sensors
BENEFITS
The HTS221 is an ultra-compact sensor that
measures relative humidity and temperature.
Housed in a tiny but robust HLGA package
(2 x 2 x 0.9 mm), the HTS221 is suitable
for wearable and portable devices and all
applications where comfort, health and safety
might be negatively impacted by humidity and
temperature variations.
Part number
HTS221
• Ultra-small footprint
• Low-power consumption to
address wearable devices
• Allows customized calibration for
best design flexibility
7
General description
Package
Supply voltage
min-max (V)
Humidity (RH)
min-max (% RH)
Interfaces
Capacitive digital sensor for relative
humidity and temperature
HLGA-6L 2 x 2 x 0.9 mm
1.7-3.6
0-100
SPI, I2C
UV Index Sensors
STMicroelectronics' new family of UV Index sensors provides a direct digital output of the
ultraviolet index (UVI), the international measurement of the strength of ultraviolet (UV) radiation.
Leveraging ST's proprietary technology, UV Index devices are sensitive to UV waves from UV-A
(315-400 nm) to UV-B (280-315 nm) wavelengths that are of greatest concern to human
health-related effects. The UVIS25 allows the measurement of the UV Index, without the
need of a dedicated algorithm to calculate the UV Index, nor specific calibrations at customer
manufacturing facilities.
Part number
UVIS25
General description
Supply voltage (Vcc)
min-max (V)
Interface
Package
Current consumption typ
(µA)
Digital UV Index sensor:
0 - 15 UV Index output range
1.7-3.6
I2C; SPI
LGA 2.5 x 2.5 x 0.8
10L TRANSP MOLD
10
MEMS microphones
Key Features
Voice control is a wide spreading trend
across many portable applications, making
the interaction easier, faster and smoother. It
enables fashionable designs by reducing the
number of button.
• Tiny packages
• Low power consumption
• High performance
• Solution to integrate more sensors
in a single package
Part number
Sensitivity
(dBV)
SNR
(dB)
AOP
(dB)
Supply voltage
range (V)
Supply current
(µA)
Dual
mode
Package (mm)
-38±3
64
125
1.6-3.6
150
-
RHLGA metal cap
2.5 x 3.35 x 0.98
MP23AB02B
TEMPERATURE SENSORS
STMicroelectronics’ temperature sensors
include both analog and digital temperature
sensor ICs.
DIGITAL TEMPERATURE
SENSORS BENEFITS
ANALOG TEMPERATURE
SENSORS BENEFITS
• One-shot mode for power saving
• Ultra small package:
UDFN-4L (1 x 1.3 mm)
• Dual alarm
• Ultra-Low supply current:
• Tiny package
4.8 µA typ.
• Oper. temperature:
-55°C to 130°C
• Programmable resolution
• Low supply current
8
Package
General description
I/O Interface
Operating voltage
min-max (V)
Standby current
(μA typ)
Operating
current (μA typ)
STTS751
UDFN-6L
(2 x 2 mm)
2.25 V low-voltage local digital
temperature sensor
SMBus/I2C compatible
2.25-3.6
3
15
STLM20
UDFN-4L
(1 x 1.30 mm)
Ultra-low current 2.4 V precision
analog temperature sensor
-
2.4-5.5
-
4.8
Part number
Signal conditioning
ST’s product portfolio contains a comprehensive range of op amps, comparators and current-sense
amplifiers.
In addition to our broad portfolio of mainstream devices, ST offers a range of high-performance products
specifically designed to meet the tight requirements of the wearable market.
The main features of our growing portfolio are:
• Low power
• High precision
• Tiny packages
OPERATIONAL AMPLIFIERS
Key Features
Analog sensors need signal transducers to
deliver the information for digital processing.
ST offers a dedicated set of operational
amplifiers suitable for wearable devices with
excellent features.
• Very high accuracy and stability
• Low supply voltage and low power
consumption for battery operation
• Rail-to-rail inputs and outputs
• High tolerance to ESD
• Extended temperature range
• Tiny packages
Part
number
Number of
channels
Input offset voltage
Input bias
(mV) @ 25 °C
current (pA) typ
9
Supply current
x channel (µA)
Supply voltage
(V)
ΔVio/ΔT
(µV/°C)
GBWP (kHz)
Package (mm)
OA1NP
1
0.1
1
0.6
1.5 to 5.5
5
8
SC70-5 (2.0 x 2.1 x 0.9)
OA2NP
2
0.1
1
0.6
1.5 to 5.5
5
8
DFN8 (2.0 x 2.0 x 0.75)
MiniSO8 (3.0 x 4.9 x 1.1)
OA4NP
4
0.1
1
0.6
1.5 to 5.5
5
8
QFN16 (3.0 x 3.0 x 0.9)
OA1MPA
1
0.2
1
9
1.5 to 5.5
10
120
SC70-5 (2.0 x 2.1 x 0.9)
OA2MPA
2
0.2
1
9
1.5 to 5.5
10
120
DFN8 (2.0 x 2.0 x 0.75)
MiniSO8 (3.0 x 4.9 x 1.1)
OA4MPA
4
0.2
1
9
1.5 to 5.5
10
120
QFN16 (3.0 x 3.0 x 0.9)
OA1ZHA
1
0.1
50
28
1.5 to 5.5
0.01
400
SC70-5 (2.0 x 2.1 x 0.9)
OA2ZHA
2
0.1
50
28
1.5 to 5.5
0.01
400
DFN8 (2.0 x 2.0 x 0.75)
MiniSO8 (3.0 x 4.9 x 1.1)
OA4ZHA
4
0.1
50
28
1.5 to 5.5
0.01
400
QFN16 (3.0 x 3.0 x 0.9)
CURRENT SENSORS
Key Features
Battery and energy management in wearable
devices is critical whether for wired or
wireless battery chargers or precision current
sources from sensors.
• Up to 70 V line monitoring
• Independent supply and common
mode voltages
• Selectable gains
• Low power
Common mode
operating range (V)
Current
consumption (µA)
Gain (V/V)
Temperature range
(°C)
Supply voltage
(V)
Package (mm)
CS30
2.8 to 30
165
20 to 100
-40 to 125
4 to 24
SOT23-5 (2.9 x 2.8 x 1.2)
CS70
2.9 to 70
200
20 to 100
-40 to 125
2.7 to 5.5
TSSOP8 (6.4 x 3.0 x 1.2)
Part number
ANALOG SWITCHES
In portable devices, switches are used to route a great variety of signals such as audio to
speakers/headphones or other signals to and from sensors. ST’s analog switch line-up is
meant to cover all the possible signal typologies from audio to USB.
Key Features
• Ultra-low power dissipation
• Low on-resistance
• Wide operating voltage range
• USB (2.0) high-speed (480 Mbit/s)
signal switching compliant
• Integrated fail-safe function
• Tiny packages
10
Logical function
Propagation delay
Tphl typ (ns)
Supply voltage (V)
Supply current (µA)
Off Isolation (dB)
Package (mm)
AS21P2THB
Dual SPDT
0.13
1.65 to 4.3
0.2 (max)
-78 @ 1 MHz
QFN10L (1.8 x 1.4 x 0.5)
AS11P2TLR
Single SPDT
0.13
1.65 to 4.5
0.1 (max)
-75 @ 100 kHz
DFN6L (1.2 x 1.05 x 0.5)
AS21P2TLR
Dual SPDT
0.3
1.65 to 4.3
0.05
-66 @ 100 kHz
QFN10L (1.8 x 1.4 x 0.5)
Part number
Microcontrollers
STM32 SMART AND WIDE CHOICE OF SOLUTIONS FOR WEARABLE DEVICES
By choosing one of ST's microcontrollers for your embedded application, you
gain from our leading expertise in MCU architecture, technology, multi-source
manufacturing and support. ST's product portfolio contains a comprehensive
stm32
range of microcontrollers, from robust, low-cost 8-bit MCUs up to 32-bit ARM®®
based Cortex -M0 and M0+, Cortex®-M3, Cortex®-M4 and Cortex®-M7 Flash microcontrollers
with a great choice of peripherals. Leveraging its wide and market-proven portfolio, ST offers
a selection of STM32 microcontrollers perfectly fitting wearable devices targeting applications
such as:
• Wide range of processing
• Healthcare and consumer fitness and wellness
• RTC with Calendar
performance
• Low power and energy efficiency
• Multiple and flexible power modes
• Wide voltage operation range
• Batch Acquisition Mode (BAM)
• LCD drivers
• Serial Audio Interfaces
• Medical
• Multiple peripherals
• Portable infotainment
• Advance analog features
• Monitoring and safety in Industrial
• WLCSP packages
• Small and thin UQFN packages
In these applications high precision, low power consumption, compact form factor and
outstanding performances are a must and ST’s products take into account the needs of the
most recent and innovative wearable devices.
8-bit MCUs
32-bit MCUs
11
stm8
Ultra-low-power
Mainstream
How to make your selection?
The ST MCU Finder is a free app for smartphones and tablets, guiding you through the
portfolio of more than 600 STM32 and STM8 MCUs, to select the best fit for your application.
The selection results can be shared and technical features and documentation can be instantly
accessed. An integrated feed provides up-to-date worldwide and local news around STM32
and STM8 MCUs. Supported languages are English, Chinese and Japanese.
The ST MCU Finder is currently available on GooglePlay, AppStore and Windows Store.
www.st.com/stmcufinder
High-performance
STM32 – The reference in sensor hubs
Key Features
• A complete microcontroller offer including ultra-low-power
STM32L as well as high-performance and power-efficient
STM32F401/411 to address sensor hub applications in
smartphones, tablets and wearable devices. STM32 sensor hub
microcontrollers enable low power, low latency sensor fusion and implements an innovative
Batch Acquisition Mode (BAM) allowing ultra-low-power sensor data acquisition. The
application range is wide and covers from simple activity monitoring bands implementing
a single accelerometer up to smartphones with 9-axis accelerometer, gyroscope &
magnetometer combined with environmental sensor and audio with MEMS microphones.
• STM32 sensor hub microcontrollers are available with 3rd party motion processing libraries
including Always-on sensor fusion, gesture recognition, activity & sleep monitoring, context
awareness and indoor navigation with map matching on both AndroidTM and Windows®
platforms.
• Cortex®-M0+, M3 and M4 devices
• Up to 100 MHz with FPU
• Up to 125 DMIPS, 339 CoreMark
• Up to 1 Mbyte of Flash memory
and 128 Kbytes of RAM
• Batch Acquisition Mode (BAM)
• Current down to 87 µA/MHz in
Run mode
• Current down to 300 nA in Stop
mode
• I2C, SPI/I2S, USB, USART, SDIO
• ADC, DFSDM (PDM to PCM)
• Down to WLCSP25 to 2x2.2mm
Sensors
G sensors
Gyroscope
Compass
Proximity
12
I2C (1 Mbit/s)
SPI (42 Mbit/s)
12-bit ADC
Motion coprocessor
Main processor
1.8/3.3 V
1.8 V
STM32
I2C (1 Mbit/s)
SPI (42 Mbit/s)
USB OTG FS
Application
processor
Pressure
Ambient light
Gesture recognition
Micro
Context awareness
Sensor fusion
STM32 Dynamic Efficiency™
Less dynamic power
More performance
STM32L
Ultra-low-power MCUs
Indoor navigation
STM32 – the reference in advanced graphic user interfaces
Enhanced user experience with the Chrom-ART Accelerator™
STM32 high-performance products take full advantage of ST’s
proprietary Chrom-ART Accelerator™ to offer advanced graphic
capabilities with minimum processing overhead.
Through the combination of processing acceleration, rich
connectivity and optimized architecture, STM32 high-performance MCUs can handle both the
demanding real-time processing and enhanced GUI that would otherwise require even more
powerful – and more power-hungry – processors.
Key Features
• Chrom-ART Accelerator™
enabling efficient 2D copy,
transparency effects and pixel
format conversion independently
from the main CPU
• MIPI-DSI controller supporting up
to 720 p / 30 Hz resolution
• TFT-LCD controller supporting up
to XGA resolution
• LCD parallel interface supporting
8080/6800 modes
• Power efficiency
• Maximum integration
13
Support for the most advanced display technology
ST introduced the world's first MIPI-Display Serial Interface (DSI) -enabled microcontroller, opening the door to the most advanced displays from
the mobile phone industry with higher pixel density and lower power consumption. Efficiently combining the Chrom-ART Accelerator™ and
the new MIPI-DSI interface, ST's latest STM32 high-performance microcontrollers enable high resolution and enhanced user experience in the
smallest product form factors.
Rich graphic ecosystem
The STM32 ecosystem offers a large choice of advanced graphic libraries taking the full advantage of the Chrom-ART Accelerator™ and
simplifying your GUI design.
STM32 – the reference in audio and voice
Low-power audio DSP replacement
STM32L4 ultra-low-power and STM32F4 Dynamic Efficiency™
product lines combine advanced processing capabilities,
outstanding low power consumption and maximum integration to
offer the ideal low-power audio and voice solutions for wearable
applications.
Leveraging ST’s proprietary ART Accelerator™, the two product lines achieve zero wait
state execution from internal Flash memory and deliver the full processing capabilities of the
Cortex-M4 core running at up to 80 and 100 MHz. The Cortex-M4 DSP instruction set and
the embedded floating point unit boost the performance capabilities, enabling advanced audio
processing.
STM32L4 ultra-low-power and STM32F4 Dynamic Efficiency™ access lines achieve an
outstanding 100 µA/MHz power consumption in Run mode and offer a Batch Acquisition Mode
(BAM) enabling extended battery life by exchanging batches of data through communication
peripherals while maintaining the rest of the system, including the CPU, in power-saving
modes.
Always-on acquisition
(PDM to PCM & signal conditioning)
< 410 µA
Low-power sound detector
• 100/125 DMIPS
• DSP & FPU
• 100 µA/MHz in Run mode
• Batch Acquisition Mode
• Maximum integration
Voice trigger detection
< 22 mA
Sub-microwatt acquisition thanks to Batch Acquisition Mode (BAM)
14
Wide range of processing performance, connectivity features and optimized software
ST's scalable STM32 microcontroller portfolio offers a wide range of processing performance and embedded SRAM sizes to meet a large
number of audio application requirements. In addition, STM32 microcontrollers embed numerous audio interfaces with I2S, TDM and PDM
support as well as audio dedicated PLLs to achieve audio accuracy.
STM32 microcontrollers also offer rich connectivity features with USB, SDMMC, camera, and display interfaces to meet the requirements for the
most advanced applications.
Equally important, the STM32 software ecosystem facilitates the development of audio and voice applications by providing optimized internal
and third-party audio software as well as hardware kits for prototyping. The software offer includes internal voice and audio codecs with MP3,
AAC, WMA, Speex, ADPCM, G711 and G726 support. It also includes synchronization software, as well as audio post-processing solutions
with SRC, equalization, bass management, smart volume control and visualization. The STM32 ecosystem also gives access to a wide range of
optimized third-party software including voice command solutions.
STM32 and STM8 – the references in touch sensing and wireless
STM32 and STM8L families: Integrated touch-sensing functions
Certain STM32 microcontrollers feature a full
hardware touch-sensing acquisition module
stm8 l
based on self-capacitance technology. These
devices include several I/Os (up to 24 channels)
for integrating multiple touch keys and providing developers with a single-device solution.
14ch
12ch
STM32F3x
STM32F0x
24ch
24ch
12ch
14ch
STM32L4
STM32L0
24ch
Microcontroller-based I/Os internally
coupled to touch sensing controller
with up to 24 channels
24ch
Touch sensing acquisition
< 5% CPU load.
Based on charge transfer acquisition
Free-of-charge software libraries
(C source code, firmware examples)
Self -capacitance
Adapted development tools:
STM-STUDIO and STM32CubeMX
STM8 - STM32 families: Wireless charging system
From basic waveform generation for low-end devices up to complex waveform generation, our
MCU mainstream series ensures extreme flexibility for the digital control of the coil.
Timers with flexible PWM generation,
dead time management or
complemented output.
• ARM Cortex-M4 + FPU at 72 MHz – 90 DMIPS
• From 16 to 512 Kbytes of Flash memory
• Mixed-signals: CCM-SRAM, 16-bit ADC ∑∆, HR-timer…
• ARM Cortex-M3 at 72 MHz – 61 DMIPS
• From 16 Kbytes to 1 MB byte of Flash memory
• STM32 foundation: USB, Ethernet, CEC…
• ARM Cortex-M0 at 48 MHz – 38 DMIPS
• From 16 to 256 Kbytes of Flash memory
• Entry-level, cost-sensitive: 32-bit MCU at 32 cents, USB, CAN…
• STM8 core at 24 MHz
stm8 s
• From 4 to 128 Kbytes of Flash memory, plus E2Data
• Robust and reliable for basic functions
15
STM32 and STM8 – the references in power management
• Entry-level in ultra-low-
STM8L family: 8-bit ultra-low-power MCU family
The STM8L, based on the 8-bit STM8 core, benefits from our proprietary ultra-low-leakage
process, shared with the STM32L family, and features an ultra-low power consumption of
0.30 µA with the lowest power mode.
STM32L family: the 32-bit ultra-low power mcu family
ST’s ultra-low-power MCU platform is based on a proprietary ultra-low-leakage technology.
STM32L0 (ARM® Cortex®-M0+), STM32L1 (Cortex-M3), STM32L4 (Cortex-M4) and the
STM8L (8-bit proprietary core) represent a large range of devices addressing devices supplied
from batteries or through energy harvesting and grant an optimized cost/performance ratio in
all kinds of low-power applications.
This ultra-low-power platform with the industry’s lowest current variation between
25 and 125 °C warrants outstandingly low current consumption at elevated temperatures.
The MCUs reach the industry's lowest power consumption of 350 nA in Stop mode (with
SRAM retention), while maintaining the wakeup time as low as 3.5 µs.
The new STM32L4 is the convergence of the ultra-low-power and high performance providing
100 DMIPS with DSP instructions and floating point unit, more memory (up to 1 Mbyte of
Flash) and innovative features.
DMIPS
Performance
stm8 l
power performance
• Targeting cost-sensitive
applications
• Ultra-low-power
market-proven solutions
• Best in class in
ultra–low-power
performance
• 32-bit ARM Cortex-M4 + FPU at 80 MHz
• From 256 Kbytes to 1 Mbyte of Flash
• Lowest power mode + RAM + RTC: 0.6 µA
100
100
• 32-bit ARM Cortex-M3 at 32 MHz
• From 32 to 512 Kbytes of Flash
75
• Lowest power mode + RAM + RTC: 1.2 µA
16
26
25
0
• 32-bit ARM Cortex-M0+ at 32 MHz
L4
50
5
STM8L
16
L0
32
• From 8 to 192 Kbytes of Flash
33
• Lowest power mode + RAM + RTC: 0.8 µA
L1
• 8-bit STM8 core at 16 MHz
stm8 l
32
80
MHz
• From 2 to 64 Kbytes of Flash
• Lowest power mode + RAM +RTC: 0.5 µA
STM32CubeMx power consumption calculator wizard
With the STM32CubeMX configuration and initialization C code generator, select your chip and configure its peripherals and power supply. Then
use its Power Consumption Calculator wizard to define a sequence of steps representing your application and analyze its power consumption
and battery life results.
17
Connectivity
Wireless connectivity
ST’s portfolio offers a variety of wireless ICs and modules to address the needs of designers for their
applications. Low-power wireless connectivity represents the key technology for connecting smart objects
to the internet and the cloud. As a matter of fact, wireless connectivity is not dominated by one single
technology. Depending on application needs or technology constraints, different hardware and software
integration requirements must be considered.
SPWF01S series of Wi-Fi Modules
The SPWF01S series of Wi-Fi modules offers a fast, flexible and affordable Plug&Play solution
for integration of 802.11 b/g/n and TCP/IP technologies in IoT devices. The modules integrate
a complete TCP/IP stack and a user-friendly application layer that ensures a simple and
effective way to use the modules via AT commands. The modules are configured around a
single-chip 802.11 transceiver with integrated PA and an STM32 32-bit microcontroller with
extensive GPIO support. The modules also incorporate timing clocks and voltage regulators.
Multiple antenna options are available.
Order code
18
Description
SPWF01SA.11
SPWF01SC.11
SPWF01SA.21
SPWF01SC.21
Extended Flash, Integrated Antenna, AT Full Stack
Extended Flash, Integrated U.F.I. connector, AT Full Stack
Integrated Antenna, AT Full Stack
Integrated U.F.I. connector, AT Full Stack
BlueNRG-MS Bluetooth Smart network processor
Key Features
ST’s BlueNRG-MS Bluetooth Low Energy network processor, compliant with Bluetooth 4.1
core specifications, is able to support master and slave roles simultaneously. It is ideal for
all applications that need to operate for months or even years while being powered from a
small coin cell battery. It also allows easy
firmware upgrades in the field through an
OTA mechanism, a perfect solution for IoT
applications.
• Significantly extends battery life
• 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
• Embedded Bluetooth® Low Energy
protocol stack: GAP, GATT, SM,
L2CAP, LL and RF-PHY
• 96 dB of RF link budget
RX
TX current
Operating Standby
RX
Output Operating
current @ 0 dBm
Order code
volatge current
sensitivity power temperature Package
typ
output
(V)
typ (µA)
typ (dBm) (dBm)
(°C)
(mA) power (mA)
VFQFPN32
BLUENRG-MSQTR
5x5x0.9
1.7 to 3.6
1.7
7.3
8.2
-88
-18 to 8 -40 to 85
WLCSP
BLUENRG-MSCSP
2.66x2.56
Companion baluns
Part number
General description
Integrated
harmonic filter
Insertion loss(IL)
max (dB)
Operating frequency(f)
min (GHz)
Operating frequency(f)
max (GHz)
Package
BALF-NRG-01D3
50 Ω nominal input / conjugate match
balun to BlueNRG transceiver
Y
1.1
2.4
2.5
WLCSP
SPBTLE-RF very low power module for Bluetooth® Smart v4.1
The SPBTLE-RF is an easy-to-use Bluetooth® Smart master/slave network processor module compliant with Bluetooth® v4.1. The SPBTLE-RF is
designed around ST’s BlueNRG-MS network processor and takes advantage of its enhanced features to create a complete RF platform in a tiny
form factor. Integrating radio, antenna, high frequency and LPO oscillators, the SPBTLE-RF offers a certified (ETSI, FCC, IC) solution to optimize
the time to market of the final applications and to simplify the RF and wireless design, allowing engineers to concentrate on creating innovative
IoT applications.
Key Features
• E Significantly extends battery life
• Master, slave role support
• Bluetooth radio performance:
•
•
•
•
•
Embedded ST BlueNRG-MS
BQE End-Product qualified
(in progress)
Tx power: + 4 dBm
Rx sensitivity: -88 dBm
Link budget up to 92 dB with
excellent link reliability
• Fully RF certified
ETSI Certified
FCC ID: S9NSPBTLERF
• IC ID: 8976C-SPBTLERF
• Operating supply voltage:
from 1.7 to 3.6 V
• Operating temperature range:
-40 °C to 85 °C
•
•
SPIRIT1 RF TRANSCEIVER
ST’s SPIRIT1 transceiver is intended for RF wireless-sensor node applications in the sub-1 GHz band, such as Automatic Meter Infrastructure,
alarm and security systems, home and building automation, and industrial monitoring and control. It combines excellent receiver sensitivity
with a very low current consumption. Additional embedded features include a "Listen-before-talk" with CSMA/CA engine, AES-128-bit data
encryption, error correction and detection, FIFO memory blocks, as well as a highly flexible and programmable data packet which contributes to
further reducing the computational load of the host microcontroller and the overall system power consumption. SPIRIT1 is designed to operate
within the ISM and SRD sub-1 GHz frequency bands namely at 169, 315, 433, 868, and 915 MHz. Several software stacks are available, such
as the 6LoWPAN protocol stack enabling low-power devices to participate in the IoT.
Key Features
• Frequency bands: 150-174 MHz,
300-348 MHz, 387-470 MHz,
779-956 MHz
• Ultra low current consumption
(9mA RX and 21 mA TX @ +11 dBm)
• Excellent sensivity
-122 dBm @ 1.2 Kbit/s (1% BER)
• ETSI, FCC and ARIB compliant
• Wireless MBUS, 6LowPan
• QFN 20 4 x 4 package
Companion baluns
General description
Integrated
harmonic filter
Insertion loss(IL)
max (dB)
Operating frequency(f)
min (MHz)
Operating frequency(f)
max (MHz)
Package
BALF-SPI-01D3
50 Ω nominal input / conjugate match
balun to SPIRIT1
Y
2
868
915
WLCSP
BALF-SPI-02D3
50 Ω / Conjugate match to SPIRIT1
433 MHz Balun Transformer &
Integrated Filtering
Y
3
390
470
WLCSP
Part number
19
Sub-GHz modules
10 mm
SP1ML-868 / SP1ML-915 modules
The SP1ML-868 and SP1ML-915 are ultra-low-power and fully integrated RF modules
operating respectively in the 868 MHz SRD and 915 MHz ISM bands.
Thanks to their small compact size, on-board antenna and easy-to-use interface, these
modules let you easily add wireless connectivity to your design without requiring in-depth RF
experience. They also come with the necessary FCC modular approvals and CE compliance,
reducing your time to market. These modules
embed a SPIRIT1 RF transceiver with
ANTENNA
integrated SMPS, an STM32L1
ultra-low-power microcontroller, an
FILTER/
integrated filter/balun and a chip antenna.
BALUN
The UART host interface ensures a simple
connection to an external microcontroller
STM32L
SPIRIT1
using standard firmware with an AT
command set for easy RF configuration, data
transmission and reception.
14 mm
20
SPSGRF-868 AND SPSGRF-915 modules
The SPSGRF-868 and SPSGRF-915 are
ultra-low-power sub-GHz modules based
on ST’s SPIRIT1 RF transceiver, operating
respectively in the 868 MHz SRD and
915 MHz ISM bands. These modules
provide a complete RF platform for wireless
connectivity in a tiny form factor and include
4 programmable I/O pins and SPI serial
interfaces. Being an FCC, IC, and CE certified
solution, the SPSGRF series reduces the
time-to-market of end applications.
Antenna
GPIO (3)
GPIO (2)
GPIO (1)
GPIO (0)
Vin
1 50 MHz
11
2
10
SP1RIT1
3 Balun
9
4 Filter
8
6
5
7
GND
SDN
SPLCS
SPLMOSI
SPLMSO
SPLCLK
Key Features
• 1.8 V to 3.6 V supply - Low power
consumption
• Output power up to +11.6 dBm
• Air data rates up to 500 kbit/s
• Operating temperature:
-40 to 85 °C
• Standard firmware with AT
command set, interface via UART
for configuration and point-to-point
RF data communication
Features
Applications
• Module based on:
• AMR (automatic meter reading)
SPIRIT1 low-data-rate, low-power
sub-GHz transceiver
• BALF-SPI-01D3 868/915 MHz
balun with integrated harmonic filter
• On-board antenna and crystal
oscillator
• Modulation schemes: 2-FSK, GFSK,
MSK, GMSK, OOk, and ASK
• Air data rate from 1 to 500 kbit/s
• Receiver sensitivity: -118 dBm
• Programmable RF output power
up to +16 dBm
• 1.8 V to 3.6 V supply - Low power
consumption
• RX: 9 mA, Tx: 21 mA @ +11 dBm
•
• Home and building automation
• WSN (wireless sensor network)
• Industrial monitoring and control
• Wireless fire and security alarm
systems
• Point-to-point wireless links
Benefits
• Add wireless capability to any
electronic device without requiring RF
experience
• Compact size
• CE compliant
• SPSGRF-915 is FCC-certified
(FCC ID: S9NSPSGRF) and
IC-Certified (IC ID: 8976C-SPSGRF)
Baluns
ST's balun tranformers and balanced filters integrate specific complex impedances for the main Bluetooth and Wi-Fi chips offered by major
manufacturers. They boost RF performance and simplify RFIC to antenna implementation thanks to its highly integrated technology.
Part number
General description
BAL-CC1101-01D3
BAL-CC25-01D3
BALF-CC25-02D3
BAL-NRF01D3
BAL-NRF02D3
BALF-2690-02D3
Match balun to CC1101
Match balun to CC253x, CC254x, CC257x, CC852x, CC853x
Match balun to CC2541
50 Ω nominal input / conjugate match balun to nRF24LE1 & nRF51822-QFAA
50 Ω nominal input / conjugate match balun to nRF51822-CEAA
50 Ω nominal input / conjugate match balun to STLC2690
50 Ω nominal input / conjugate match balun to nRF51822-QFAAG0,\
rnRF51822-QFAB0, nRF51422-QFAAE0 / integrated harmonic filter
50 Ω/ Conjugate match to nRF51822-QFAAG0, nRF51822-QFABB0 balun
transformer with integrated harmonic filter
BALF-NRF01D3
BALF-NRF01E3
Integrated Insertion Operating
Operating
harmonic loss(IL) frequency(f) frequency(f)
filter
max (dB) min (GHz)
max (GHz)
Y
1.9
0.779
0.928
Y
0.73
2.379
2.507
Y
0.73
2.379
2.507
Y
1.3
2.4
2.54
Y
1.9
2.4
2.54
Y
1.8
2.4
2.48
Package
WLCSP
WLCSP
WLCSP
WLCSP
WLCSP
WLCSP
Y
2
2.4
2.54
WLCSP
Y
2
2.4
2.54
WLCSP
NFC & RFID
ST offers a comprehensive portfolio of NFC products, which operate at 13.56 MHz frequency
and are based on industry standards:
Key Features
• Dynamic tags, featuring a reliable EEPROM memory bank, an I C interface and an NFC /
• 13.56 MHz based NFC interface
• Best-in-class RF performance
2
• I2C, SPI serial interface
RFID tag interface
• 128-bit password
• Transceivers, which support multiple NFC protocols in Reader, Card Emulation and
• Reliable EEPROM
Peer-to-Peer modes, accessed by SPI and UART interfaces
• Energy harvesting (M24LR)
• Tags, ideal for wireless handover (Bluetooth or Wi-Fi), feature a user-programmable output
(MCU wake-up), counters, data protection (password)
ST also offers a large range of evaluation boards, reference drivers and antennas in order to
ease the design process
Part number
RF Protocol
RF mode
Serial interface
Memory size
ST95HF
ISO14443A/B
ISO15693
ISO18092
Reader, card emulation,
peer-to-peer
SPI
528-Byte
RAM buffer
CR95HF
ISO14443A/B
ISO15693
ISO18092
Reader
SPI, UART
528-Byte
RAM buffer
M24LR
ISO15693
Tag
I2C
Up to 64-Kbit
EEPROM
M24SR
ISO14443A
Tag
I2C
Up to 64-Kbit
EEPROM
ST25TA
ISO14443A
Tag
None
Up to 64-Kbit
EEPROM
21
GPS/GNSS RECEIVERS
Teseo III is a GNSS positioning receiver family supporting GPS, Galileo, GLONASS, BeiDou,
QZSS and SBAS systems
Key Features
• Best in class positioning accuracy
• Best stand-by current <10 uA
• Small footprint
• Smart power management
teseo III
Part number
Voltage supply range
Peripherals
Options
Package
STA8090FG
1.6 - 4.3 V
#3 UARTs, USB, SPI, I2C,
SDMMC, PPS
FreeRTOS SDK offer
TFBGA99 5 x 6 x 1.2 mm
0.5 mm pitch
STA8090WG
1.6 - 4.3 V
#3 UARTs, USB, SPI, I2C, PPS
GNSS ROM
WLCSP77 3.9 x 3.9 x 0.6 mm
0.4 mm pitch
Power management
High integration combined with a broad IP portfolio, complete system competency and state-of-the-art
technology.
ST is a leading supplier in power management and mixed-signal ICs for mobile applications, offering a
wide range of products from simple power management ICs up to highly-integrated devices that mix
power management blocks with advanced analog and digital functionality.
LDOs
• Wide product selection
• Unique bump-less technology
allows the smallest form factor
DC-DC converters
• High frequency high dynamic
performance fSW = 6 MHz
• Buck-Boost converter with Vout up
to 5.5 V
Smart reset
• Customizable products providing
safe and convenient reset
22
Battery management ICs
• Advanced embedded features
(power path, shipping mode,
protection circuit module PCM)
• EnFilm™ thin-film batteries
Energy harvesting
Wireless charging
• Energy harvested from PV and
thermo-electric generator (TEG)
• Smart power management
architecture (Boost/Buck-boost based
on the available energy source)
• TX and RX architectures supported
• Compliant with PMA and Qi
standards
BATTERY Management
ST’s battery management devices provide high efficiency, power density and low standby power consumption. Our product portfolio includes
complete solutions for battery chargers: switching chargers that offer charge currents up to 1.2 A, integrating in the same chip a fuel gauge
function; linear chargers with charge currents from 15 mA to 1.1 A and wireless chargers compliant with PMA and Qi standards. By combining
wireless power technology with high efficiency and smart charging, ST creates easier, faster, innovative, ways to power up smartphones, tablets
and other mobile devices.
Part
number
L6924D
L6924U
STBCFG01
STNS01
STWBC
STBC02*
STBC03*
STWLC*
General description
Single Cell Li Ion battery Charger
Single Cell Li-Ion Battery Charger IC for USB
port and AC Adapter
Switch-mode Single Cell Li+ Battery Charger
with OTG Boost, Voltage Mode Fuel Gauge and
LDO
Li-Ion Linear Battery Charger with LDO
Digital controller for wireless battery charger
(WBC) transmitters Qi 1.1.2 A11 certified, PMA
compatible
Li-Ion Linear Battery charger with LDO,
Load Switches, Battery Protection and Reset
Generator
Li-Ion Linear Battery charger with LDO, Load
Switches and Battery Protection
Dual mode Qi/PMA wireless power receiver
Note: * in development
Operating Supply
Supply
temperature current voltage (VDD)
Package
min max (bat) min max
(°C) (°C) typ (µA) (V)
(V)
-40
85
0.25
2.5
12 VFQFPN 16
2.5
12
Integrated PCM
Power path
Push button
-40
85
0.25
-40
85
10
3.78 5.95 Flip-Chip25
-30
85
6
4.55
-40
105
-
3
5.5 VFQFPN 32
Adjustable VBATT
floating voltage
-40
85
4
4.55
5.4 Flip-chip30
Fuel gauge
-40
85
4
4.55
5.4 Flip-chip30
-40
85
3
-
5.4
20
VFQFPN 16
Feature
DFPN 12
3x3
Flip-chip77
User benefit
Allows using bare Li-Ion cell
batteries without any protection IC
Allows system start-up with
depleted/dead battery
System wakes up without a USB
supply / MCU intervention
10 nA shutdown
Extends shelf-battery life
current
Embedded 4 kV No need for external ESD
ESD protection protection ICs
S-wire
Minimal MCU resources allocated
Different Li-Ion chemistries can
be used and battery aging can be
compensated
No fuel gauge algorithm is
required on the MCU
EnFilm™ thin-film battery
• ST’s EnFilm™ thin-film batteries are a
new concept of extremely thin (220 µm),
rechargeable solid-state batteries with fast
constant-voltage recharge and a lifetime of
more than 10 years or 4000 cycles.
• They feature a LiCoO2 cathode, LiPON
ceramic electrolyte and a lithium anode,
on a 25.7 x 25.7 mm footprint, so are
completely safe from risks of burning or
explosion.
Part number
EFL700A39
Dimensions
Resistance(R) (Internal) (ohm)
Battery type
Battery capacity (mAh)
25.7x25.7x0.2 mm
100
Lithium
0.7
Operating temperature
min (°C)
max (°C)
-20
60
Energy harvesting
• Energy harvesting from light
The SPV1050 takes energy from the
environment and converts it into useful
electrical energy, thus making a wireless
sensor node fully autonomous. The SPV1050
is an ultra-low-power energy harvester and
battery charger that captures the maximum
energy from a photovoltaic (PV) cell or a
thermo-electric generator (TEG).
Part number
SPV1050
General description
or thermal gradient with 90%
conversion efficiency over a wide
input power range
• Boost and buck-boost topologies
fitting indoor and outdoor
conditions
• Maximizes harvested energy with
up to 60% energy gain during the
charge process • Enhanced battery longevity
Input voltage Operating
Input duty
Regulated
(Vin)
temperature cycle voltage output voltage
min
(V)
Ultra low power energy
harvester and battery charger 0.18
with embedded MPPT and LDOs
max
(V)
min
(°C)
max
(°C)
min
(V)
8
-40
85
0.18
max
min (V) max (V)
(V)
8
2.5
5.3
Output
Current-Max
(IOUT) (A)
0.07
23
Regulator
switching Efficiency Disable
frequency nom (%)
Pin
max (MHz)
1
90
No
DC-DC oR Point of Load
ST’s DC-DC synchronous converters are designed for consumer and portable applications. Buck, buck-boost and boost switching regulators
must provide low power consumption, high-efficiency power conversion, and be available in very small packages from standard leadless plastic
to flip-chip pure bumped silicon. The switching frequency control loop guarantees high dynamic response with very small inductor size. All
products are optimized to work with Li-ion batteries, USB sources or the latest battery chemistries.
Feature
User benefit
Syncronous rectification and high switching frequency
PCB Miniaturization with less passive components. Chip coil inductor can be used for ST1S15
Automatic PWM and PSM mode
Maximizes efficency over the whole load range
Low quiescent current
Extends system battery life
Programmable output voltage
One/two/three pins allow selecting the required output voltage
Automatic transition between buck and boost mode
Allows using battery over the entire operating voltage range.
Low output voltage ripple for noise sensitive systems
No secondary stage regulation is needed STBB2/STBB3
By-pass mode
Reduced power consumption for long live battery
Part
number
General description
min (V)
max (V)
Output
Current-Max
(IOUT) (A)
Input voltage (Vin) Regulated output voltage
min (V) max (V)
Quiescent
current(Iq)
typ (µA)
Switching
frequency typ
(KHz)
Package
ST1S15
500 mA, 6 MHz synchronous
step-down converter
2.3
5.5
1.82
1.82
0.5
45
6000
Flip-Chip 6
STBB2
800 mA 2.5 MHz, high efficiency
dual mode buck-boost DC-DC
with by-pass mode
2.3
5.5
1.2
4.5
0.8
35
2500
Flip-Chip20
STBB3J
2 A, 2 MHz, high efficiency
dual mode buck-boost DC-DC
converter
1.8
5.5
1.2
5.5
2
35
2000
Flip-Chip20
2 A, high efficiency single inductor
buck-boost DC-DC converter and
High Brightness White LED Driver
1.8
5.5
1.2
5.5
2
35
2000
Flip-Chip20
24
STBB3JCC
Low-dropout regulator (LDO)
ST offers a complete portfolio of high-performance LDOs, with state-of-the-art figures on the key merit parameters fitting into the smallest
packages available. ST’s ultra-small, high-performance LDOs are particularly suitable for the latest generation of portable devices
Part
number
General description
200 mA very low
quiescent current Linear
regulator IC
300 mA low quiescent
LD39030SJ current soft-start, low
noise voltage regulator
150 mA low quiescent
LD39115J
current low noise
voltage regulator
300 mA very low
quiescent current
LD39130S
Linear regulator IC with
automatic Green mode
150 mA low noise high
LD59015
PSRR linear voltage
regulator
200 mA very low
LDBL20*
quiescent current Linear
regulator IC
200 mA low quiescent
LDK120
current very low noise
LDO
300 mA low quiescent
LDK130
current very low noise
LDO
150 mA - ultra low
LDLN015
noise - high PSRR linear
voltage regulator IC
150 mA - ultra low
STLQ015
quiescent current linear
voltage regulator
50 mA, 3µA Supply
STLQ50
current low drop linear
regulator
LD39020
Output
DC input
voltage
voltage
(VOUT)
max (V)
(V)
Supply
Operating
Output Adjustable voltage Dropout
Quiescent temperature
Output
current regulated Rejection voltage
current
tolerance
(IOUT)
output Ratio (SVR) (VD) nom
(Iq) typ
min max
(%) typ
(mA)
voltage (@ 10 kHz)
(V)
(µA)
(°C) (°C)
typ (dB)
Package
5.5
0.8 : 5
200
No
67
0.2
0.5
20
-40
125
DFN4 1x1
5.5
1 : 3.3
300
No
62
0.2
2
20
-40
125
Flip-Chip 4
5.5
1.2 : 3.3
150
No
67
0.09
2
20
-40
125
Flip-Chip 4
5.5
1.2 : 3.3
300
No
65
0.3
1
1
-40
125
Flip-Chip 4;
DFN6 1.2 x 1.3
5.5
0.8 : 3.3
150
No
76
0.15
1.8
31
-40
125
SOT323-5L
5.5
0.8 : 5.5
200
No
67
0.2
0.5
20
-40
125
STSTAMP™
5.5
0.8 : 3.5
200
Yes
36
0.1
2
30
-40
125
SOT23-5L; SOT323-5L;
DFN6 1.2x1.3
5.5
0.8 : 3.3
300
Yes
35
0.2
2
30
-40
125
SOT23-5L; SOT323-5L;
DFN6 1.2x1.3
5.5
1 : 3.3
150
No
89
0.086
1
35
-40
125
DFN6 2x2
5.5
1.2 : 3.3
150
No
30
0.112
2
1
-40
125
SOT23-5L
12
1.8 : 5
50
Yes
20
0.2
2
3
-40
125
SOT323-5L
Note: * in development
Smart Reset
Key Features
ST’s smart reset ICs extend the functional
capacity of existing control buttons to give
users the possibility of resetting a device,
should it be frozen because of any possible
misuse.
• Choice of a single button or two
simultaneous buttons to signal a
reset
• Support for applications where the
battery cannot be removed
• Tiny packages
Number of
reset button
Number of
power button
Reset setup delay typ (sec)
Reset pulse width (ms)
Supply voltage (V)
Package (mm)
SR1
1
-
(1.5-10)
Push button controlled or fixed time
2 to 5.5
DFN6 (1x1.45)
SR2
2
-
(4-10)
Push button controlled or fixed time
1.65 to 5.5
DFN6 (1x1.3)
SRC0
1
1
Selectable via ext. capacitor
360
1.65 to 5.5
DFN12 (2x3)
Part number
25
User interface
Audio amplifiers
Key Features
ST’s wide audio IC portfolio includes low-power headphone amplifiers specifically designed for
wearable devices.
• High efficiency
• Battery-operated features
• Tiny packages
• Superior audio quality
Part number
26
A21SP16
A22H165M
A22H165
Description
Channels Output power (W) Supply voltage (V) SNR @ 1 kHz (dB) Stby current (µA)
3 W filter-free class D
with standby
High-performance
class-G headphone amplifier
High-performance
class-G headphone amplifier
with I2C volume control
1
1x3
2 to 6
85
<1
2
2 x 0.25
2.3 to 4.8
100
0.6
2
2 x 0.25
2.3 to 4.8
100
0.6
Package (mm)
Flip-chip 9x500u
(1.60 x 1.60 x 0.6)
Flip-chip 16x400u
(1.65 x 1.65 x 0.6)
Flip-chip 16x400u
(1.65 x 1.65 x 0.6)
LED / OLED
ST provides monolithic OLED power management devices that add value to new designs by simplifying power-supply circuitry and also
maximizing battery life for feature-rich portable products. Yet, ST’s intelligent LED drivers provide the necessary voltage to power multiple LEDs
that can be arranged in different configurations.
AMOLED Power Supply
• World’s best product portfolio
• Outstanding electrical performance
•
•
90% efficiency in worst case
TDMA noise control to minimize
display flickering
LCD backlight
• Series and parallel LED
configuration powered by linear or
switching architectures
• Superior brightness control
• 1% current matching
• High resolution PWM dimming
• Full LED diagnostics for service
and production
Matrix LED drivers
• High level of integration with
embedded power rail
• Adaptive power rail to maximize
efficiency
• Analog and digital PWM dimming
for optimum color calibration
• LED failure detection
OLED
Part
number
STOD1317B
STOD32W
General description
170 mA 13 V, high
efficiency boost converter
+ LDO
100 mA triple DC-DC
converter for
powering AMOLED displays
Output voltage Output voltage Quiescent
Input voltage (Vout) (positive)
variation
current (Iq)
(Vcc) min (V)
(positive)
typ (mA)
min (V) max (V)
typ (%)
Switching
frequency
typ (MHz)
Topology
Efficiency
max (%)
Package
2.6
6
13
-1.0, +1.0
1
1.2
Boost cascaded
with an LDO
85
DFN12
2.9
4.577
4.623
-0.5, +0.5
-
1.55
Boost +
Inverting
92
Flip-Chip 12
LED drivers
Output
current-Max
(IOUT) nom (mA)
Output
current
accuracy
typ (%)
5.5
480
7.5
5x24
5.5
120
7
4
Input voltage
(Vcc)
Part
number
General description
STLED524
Intelligent matrix LED display driver
2.7
STP4CMP
Low voltage 4-channel constant
current LED driver with charge pump
2.7
min (V) max (V)
Switching
Number of
frequency
LEDs max ()
typ (MHz)
LED
configuration
Package
2.4
Matrix
CSP 56 3.4 x 3.0 mm,
pitch 0.4 mm
-
Parallel
QFPN 20 3.2 x 1.8
FingerTip touchscreen controllers
ST’s FingerTip® family of touch controllers provides true multi-touch capability, supporting unlimited simultaneous touches. These devices
represent a marked improvement by providing an optimal mix of low power, small size and highly-precise multiple finger tracking in a single chip.
Key Features
• Small touch screen size with round or
square form factor
• Support all types of Touch ITO
• Support multi-finger, thick glove, wet
fingers and 1 mm passive pen
• Ultra-low power for longer battery life
• Noise immunity to all sources
• High SNR
• Scan rate >150 Hz
• GPIO for button support
• I2C interface
• Small and thin QFN 4x4x0.4 mm
The latest FingerTip series is available for selected customers for high volume. For more information, contact your ST sales office.
REAL-TIME CLOCK
BENEFITS
ST’s M41T62LC6F real-time clock is the
perfect match for wearable devices when
size, weight, and power-efficiency matters.
It offers a very low frequency error at
25 °C which equates to about 5 seconds
per month, an ultra-low power consumption
of 350 nA in stand-by, and comes in an
ultra-small 1.5 x 3.2 mm package with an
embedded crystal oscillator.
Part
number
M41T62
General description
Package
Ultra low-power
serial real-time clock
LCC8
(3.2 x 1.5mm)
• Ultra-small package
Battery supply Data Bus
current (nA typ.)
type
350
I 2C
Supply Voltage
min-max (V)
1.3-4.4
with embedded crystal
1.5 x 3.2 x 0.8mm
• Ultra-low power consumption
350nA
• Timekeeping voltage down to 1 V
• Programmable alarms with wakeup functions
• +/- 2PPM accuracy by digital
calibration
• Compatible with Li-Ion battery
voltages
27
ESD protection
ESD protection devices
Wearable devices are by nature vulnerable to ESD. Indeed, they are small integrated devices using ESD-sensitive ICs with thin lithography
technologies and in close contact with electrostatic charges that a human can develop in low relative humidity. The risk of ESD damage is then
very high.
Benefits of ST's current ESD protection devices:
• High efficiency of protection with low clamping voltages
• Transparency to high-speed signals with ultra-wide bandwidth up to 13 GHz
• Flexibility and Integration with single- or multi-line products from 01005 package size
• High robustness against surges with capability up to 30 kV
• High Ipp versions to combine EOS and ESD in smallest packages
Part number
Number of lines
Directionality
Breakdown
voltage min
(VBR in V)
Capacitance line
to GND (Cline in pF)
Clamping voltage
max (VCL @30ns
for 8 kV in V)
IEC 61000-4-2
min (contact
discharge) in kV)
Package & size
(mm x mm)
General purpose ESD protection
28
ESDA5-1BF4
1
Bi-Directional
5.8
45
11
8
ESDALC5-1BF4
1
Bi-Directional
5.8
10
14
16
ESDAVLC6-1V2
1
Uni-Directional
6
5
33
8
ESDALC14-1BF4
1
Bi-Directional
13
22
18
25
ESDALC5-4BN4
4
Bi-Directional
5.5
13
13.9
30
ST0201
0.6x0.3
ST0201
0.6x0.3
ST01005
0.2x0.45
ST0201
0.6x0.3
uQFN-4L
1.0x0.8
High-speed signals ESD protection
ESDAULC5-1BF4
1
Bi-Directional
4.8
1.5
11
30
ESDARF02-1BU2CK
1
Bi-directionnal
5
0.25
19
8
HSP051-4N10
4
Uni-Directional
4.5
0.4
13
8
USBULC6-2N4
2
Uni-Directional
6
0.6
17
12
ST0201
0.6x0.3
ST0201
0.6x0.3
uQFN-10L
1.9x1.0
uQFN-4L
1.0x0.8
Vbus and Vbat ESD & EOS protection
ESDA7P60-1U1M
1
Uni-Directional
6.8
8
30
SM3Q24A*
1
Uni-directionnal
26.8
32
30
Note: * New product to be released in Q4’2015
ST1608
1.6x0.8
QFN
2x2
EMI filtering
EMI and common-mode filters
Wearable devices are sensitive to electro-magnetic interference. They are small integrated devices with a high density of components mounted
on PCB. The risk of antenna desense and EMI coupling must be mitigated.
ST offers a wide range of EMI and common-mode filters (ECMF™) with the following benefits:
• Drastically reduce radiated noise and antenna de-sense with unique extra large rejection band or extra deep rejection at selected frequencies
• High integration: 1mm2 for 2 differential lines for ECMF™
• High quality of protection with low clamping voltages
EMI Filters
Target interface
Number
of lines
Number of
integrated discrete
components
EMIF02-SPK03F2
Speaker
2
10
EMIF04-EAR02M8
Audio jack
4
20
EMIF06-USD04F3
Micro-SD card
6
24
Part number
Clamping voltage max
(VCL @30ns in V)
16.7 V for 30 kV contact
surge
9.2 V for 8 kV contact
surge
24.9 V for 8 kV contact
surge
IEC 61000-4-2 min
(contact discharge)
in kV)
Package
Package size
(mm x mm)
30
WLCSP
0.89 x 1.26
30
uQFN-8L
1.5 x 1.7
8
WLCSP
1.54 x 1.54
29
Common-mode filters
IEC 61000-4-2 min
Bandwidth
Clamping voltage max
(contact discharge)
(@-3dB) in MHz
(VCL @30ns in V)
in kV)
Package
Package size
(mm x mm)
8
uQFN-6L
1.35 x 1.60
30
8
WLCSP
1.35 x 0.83
4200
13.1
8
uQFN-10L
1.35 x 2.60
900
N/A
N/A
WLCSP
1.2 x 0.74
Number of
lines
Attenuation @ Frequency
ECMF02-2HSMX6
2
-20 dB @ 2400 MHz
3200
26.8
ECMF02-3F3
3
-30 dB @ 900 MHz
1800
ECMF04-4HSWM10
4
-28 dB @ 2.4 GHz
CMF02-0650A09H3*
2
-20 dB from 600 MHz to 5 GHz
Part number
Note: * New product to be released in Q4’2015
Design support
ST has a wide product portfolio for Wearable applications and provides solution to solve the most
complex design challenge:
• Single Product Evaluation Boards
• Fast prototyping and Development Boards
• Solution Evaluation Boards
• An affordable software design suite to start with Power Management, Battery Chargers and Analog Filters
Product Evaluation Boards
ST proposes a wide range of evaluation boards that may be used to perform a comprehensive evaluation of ST's products reducing your
development time. These evaluation boards help you evaluate the features and performance of selected products, all of them have published
online fully tested schematics, BOMs and Gerber files to facilitate your hardware design. Many, where appropriate, also have demonstration
software packages available as well.
STM32 Open Development Environment
30
The STM32 Open Development Environment is a fast and affordable way to prototype and develop innovative applications with state-of-art ST
components based on the STM32 32-bit microcontroller family and a comprehensive set of functions for sensing, connectivity, power, audio,
motor control and more. The combination of a broad range of expandable hardware based on leading-edge commercial products and modular
software, from driver to application level, enables fast prototyping of ideas that can be smoothly transformed into final designs.
STM32 Nucleo
development boards
STM32 Nucleo
expansion boards
STM32 Open
development environment
STM32Cube
software
STM32Cube
expansion software
The STM32 Open Development Environment is compatible with a number of IDEs including IAR EWARM, Keil MDK-ARM, ARM® mbed™
and GCC-based environments.
What you want to do
Process
What we provide
Ultra-low power
High performance
Motion sensors
Sense
motion, pressure, humidity, & Environmental sensors
temperature, distance, light,
Proximity sensors
sound
Microphone
Bluetooth Low Energy 4.0
Bluetooth Low Energy 4.1
Wi-Fi
Connect
Sub-GHz radio
wireless or wired
NFC
Move/Actuate
Power/Drive
Translate
signal conditioning
Motor driver
Actuator
Energy management & battery
LED Lighting
Audio processing
OpAmp
Industrial Input/Output
Components
STM32 L0 - ARM® Cortex®-M0+ ultra-low power 32-bit MCU
STM32 F401 - ARM® Cortex®-M4 high-performance 32-bit MCU
LSM6DS0 3-axis accelerometer + 3-axis gyroscope & LIS3MDL 3-axis magnetometer,
HTS221 humidity and temperature & LPS25HB pressure
LSM6DS3 3-axis accelerometer + 3-axis gyroscope (add-on module on X-NUCLEO)
VL6180X FlightSense™ proximity, gesture and ambient light sensor
MP34DT01-M digital microphone
BlueNRG Bluetooth Low Energy (V4.0) network coprocessor
BlueNRG-MS based Bluetooth Low Energy (V4.1) Module
Wi-Fi module
SPIRIT1 RF SPSGRF-915 and SPSGRF-868 modules
M24SR Dynamic NFC tag
M24LR Dynamic NFC tag
NFC Reader
L6474 Stepper motor driver
powerSTEP01 High power stepper motor driver Microstepping driver, DC motor driver, 2-axes motor driver
Protected switches for load ON/OFF control and load/device diagnostic
Battery and power management components
Single channel LED driver with integrated boost controller
High-efficiency digital audio system
Operational Amplifiers
CLT01 Protected digital termination array and VNI8200XP smart power solid state relay
Availability
Available
Available
Available
Available
Available
Available
Available
Available
H2 2015
Available
Available
H2 2015
H2 2015
Available
Available
H2 2015
Q1 2016
H2 2015
H2 2015
H2 2015
H2 2015
H2 2015
Wearable Solution Evaluation Board
ST is offering also a reference platform for easy development of wearable applications, thanks
to its design: compact solution, ultra-low power hardware and firmware features, a complete
set of firmware example and turnkey software on host device (i.e. an Smartphone or Tablet).
The STEVAL-WESU1* is an Evaluation Board designed to provide a cost effective solution for
precise motion sensing. The system is featuring a low power ARM Cortex-M3 microcontroller
unit (STM32L151), an iNEMO inertial module (LSM6DS3), a high performance magnetometer
(LIS3MDL), a barometric pressure sensor (LPS25HB), a Bluetooth® low energy wireless network
processor (BlueNRG-MS) and power management circuitry that allows fast charging and
precise energy estimation (STNS01 and STC3115). The connectivity granted by the best in
class BlueNRG and supported by the integrated balun (BALF-NRG-01D3) permit to maximize
the RF performances with low area occupancy and design effort and pass the RF Test for FCC
and IC certification.
An Android and iOS APP, available on Google Play and Apple Store, can be used for displaying
information sent by the STEVAL-WESU1* through BLE connectivity as well as for setting
operative modes.
Note: * under development
31
© STMicroelectronics - August 2015 - 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
Order code: BRWEARABLE0815
For more information on ST products and solutions, visit www.st.com