Upload
others
View
27
Download
0
Embed Size (px)
Citation preview
Analog & Sensor Highlights
Your Reliable Source for Analog & Sensor Solutions
V6.1
Committed to excellence
RUTRONIK SMART is a new range of bundled hardware, software and services, bringing together entire solutions, consisting of selected Sensors, Wireless Components, Security Solutions and Cloud Services for devices on the Internet of Things. The featured products are optimized for the typical requirements like space limitations, ultra-low power and offer a high level of integration.
What is SMART ?
CloudSensors Security
Discover the Internet of Things
Design SMART Products
Wireless
Consult – Know-how. Built-in. The Technical Competence from RUTRONIK
Worldwide and individual consulting on the spot: by competent
sales staff, application engineers and product specialists.
Logistics – Reliability. Built-in. The Delivery Service from RUTRONIK
Innovative and flexible solutions: from supply chain management
to individual logistics systems.
Components – Variety. Built-in. The Product Portfolio from RUTRONIK
Wide product range of semiconductors, passive and electro-
mechanical components, displays & monitors, boards & systems,
storage and wireless technologies for optimum coverage of
your needs.
Quality – Security. Built-in.Quality Management without Compromise
The integrated management system (IMS) encompasses
quality control, information security, environmental protection,
occupational health and safety.
Our Product Portfolio
Our Initiatives
Committed to ExcellenceSemiconductors
Passive Components
ElectromechanicalComponents
Boards & Systems
Displays & Monitors
Wireless Technologies
Storage Technologies
www.rutronik.com www.rutronik24.com
Follow us www.facebook.com/rutronik
https://twitter.com/Rutronik
www.youtube.com/user/Rutronik24
https://rutronik-tec.com
www.linkedin.com/company/rutronik
2 Analog & Sensor Highlights
Analog Sensors
3Analog & Sensor Highlights
Rutronik AnalogRutronik Analog Connects the World between Analog & DigitalOperational Amplifier & Comparators, Logic ICs, Converter & Digital Potentiometer, Voltage References & Supervisor as well as Timer IC and Interfaces – this is our comprehensive Analog offer.
Analog products connect the physical and the digital worlds by translating sensor signals into 1s and 0 s to be used in electronics. A broad selection of devices that are characterized by small footprint, high level of integration and low power consumption will help you to solve design challenges.
Rutronik SensorsRutronik – THE Sensor DistributorThis is our self-conception when it comes to sensors. An industry leading sensor portfolio combined by state of the art products and an exemplified solution selling approach makes it easy for you to realise your sensing application. Let‘s go and appeal to all senses!
Analog & Sensor HighlightsYour Reliable Source for Analog & Sensor Solutions
Analog Sensors
Analog
Sensors
Analog Portfolio
Signal Sensor Logic
Voltage Reference & Supervisor
Digital Potentiometer
DigitalProcessing Amplifier
A/DConverter
D/AConverter
4 Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
A Automotive qualified preferred I Industrial
Products Page Bosch AE Diodes Infineon Intel Melexis NJRC Renesas Rohm ST Toshiba Vishay Products
Amplifier 8 Amplifier
Comparators A I A I I A I A I Comparators
Current Shunt Amplifier A I I A I Current Shunt Amplifier
Operational Amplifier A I A I A I A I A I Operational Amplifier
Logic 16 Logic
Buffer I A A I Buffer
Decoder A I A I Decoder
I/O Expander I I I I/O Expander
Inverter I A I Inverter
Shift I A A I Shift
Analog Switches / Multiplexer I I A I A I A I Analog Switches / Multiplexer
Converter & Digital Potentiometer 19 Converter & Digital Potentiometer
A/D-Converter A I A I I A/D-Converter
D/A-Converter A I I D/A-Converter
Digital Potentiometer I Digital Potentiometer
Voltage References & Supervisor 22 Voltage References & Supervisor
Supervisor I A I I A I A I Supervisor
Voltage References A I I A I Voltage References
Timer 23 Timer
Oscillator i I I Oscillator
Real Time Clock I I II A I Real Time Clock
Interface 25 Voltage References & Supervisor
CAN A I A I A I CAN
Ethernet I I Ethernet
FlexRay A FlexRay
IO-Link I IO-Link
LIN A I A I A LIN
Media I I I Media
RS (-232, -485, -422) I I RS (-232, -485, -422)
USB I USB
Digital Potentiometer Digital Potentiometer
Amplifier
Amplifier
Interface Timer
5Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Products Page Bosch AE Diodes Infineon Intel Melexis NJRC Renesas Rohm ST Toshiba Vishay Products
Amplifier 8 Amplifier
Comparators A I A I I A I A I Comparators
Current Shunt Amplifier A I I A I Current Shunt Amplifier
Operational Amplifier A I A I A I A I A I Operational Amplifier
Logic 16 Logic
Buffer I A A I Buffer
Decoder A I A I Decoder
I/O Expander I I I I/O Expander
Inverter I A I Inverter
Shift I A A I Shift
Analog Switches / Multiplexer I I A I A I A I Analog Switches / Multiplexer
Converter & Digital Potentiometer 19 Converter & Digital Potentiometer
A/D-Converter A I A I I A/D-Converter
D/A-Converter A I I D/A-Converter
Digital Potentiometer I Digital Potentiometer
Voltage References & Supervisor 22 Voltage References & Supervisor
Supervisor I A I I A I A I Supervisor
Voltage References A I I A I Voltage References
Timer 23 Timer
Oscillator i I I Oscillator
Real Time Clock I I II A I Real Time Clock
Interface 25 Voltage References & Supervisor
CAN A I A I A I CAN
Ethernet I I Ethernet
FlexRay A FlexRay
IO-Link I IO-Link
LIN A I A I A LIN
Media I I I Media
RS (-232, -485, -422) I I RS (-232, -485, -422)
USB I USB
6 MEMS | Environmental | Optical | Magnetic | Current |
Sensor Portfolio
A Automotive qualified preferred I Industrial
Sensor Products Page Bosch AE Bosch Sensortec BYD Comus Diodes Epson Everlight Honeywell Infineon LiteOn Melexis Murata NJRC Omron Osram Panasonic Renesas Rohm Sensirion ST TDK /
Micronas Toshiba Vishay Sensor Products
MEMS 32 MEMSAbsolute Orientation I I Absolute OrientationAcceleration A I I I I I A I Acceleration
eCompass I I I eCompass
Gyroscope A I I I I I A I GyroscopeIMU (Acceleration + Gyro) A I I I I I I IMU (Acceleration + Gyro)Microphone I I I MicrophoneEnvironmental 42 EnvironmentalAir-Flow I I I Air-FlowGas I I I GasHumidity I I A I I HumidityPressure A I I I I A I A I I I I I I PressureTemperature I I I I I A I TemperatureParticulate Matter I I IOptical 61 OpticalAmbient Light I I I A I A I A I I A I Ambient LightCamera Modules I I I Camera ModulesFar Infrared / Infrared I A I A I I A I I I A I Far Infrared / InfraredFingerprint I FingerprintImage I I I I I ImageProximity I I I A I I A I I A I I I A I A I ProximityRadar A I I RadarReflective I I I A I I A I I I I ReflectiveTime-of-flight A I A I I A I Time-of-flightTransmissive I I I I A I I A I TransmissiveUltrasonic I IMagnetic 71 MagneticGeomagnetic I I Geomagnetic
Hall Linearnon programmable I I A I A I I non programmable
Hall Linearprogrammable A I A I A I programmable
Hall Switch
single A I A I A I A I A I A I A I A I single
Hall Switchdual I I A I A I dualspeed I A I A I speedprogrammable I A I A I programmable
Magnetoresistive
switch I I switch
Magnetoresistive3D switch I 3D switchlinear A I linear2D sensor I A I A I 2D sensor
Multiaxis Hall A I A I A I Multiaxis HallTMR I ICurrent 94 CurrentHall based ICs I A I A I Hall based ICsSensor Modules I A I Sensor ModulesShunt Monitors Shunt Monitors
Analog Sensors
7MEMS | Environmental | Optical | Magnetic | Current |
Sensor Products Page Bosch AE Bosch Sensortec BYD Comus Diodes Epson Everlight Honeywell Infineon LiteOn Melexis Murata NJRC Omron Osram Panasonic Renesas Rohm Sensirion ST TDK /
Micronas Toshiba Vishay Sensor Products
MEMS 32 MEMSAbsolute Orientation I I Absolute OrientationAcceleration A I I I I I A I Acceleration
eCompass I I I eCompass
Gyroscope A I I I I I A I GyroscopeIMU (Acceleration + Gyro) A I I I I I I IMU (Acceleration + Gyro)Microphone I I I MicrophoneEnvironmental 42 EnvironmentalAir-Flow I I I Air-FlowGas I I I GasHumidity I I A I I HumidityPressure A I I I I A I A I I I I I I PressureTemperature I I I I I A I TemperatureParticulate Matter I I IOptical 61 OpticalAmbient Light I I I A I A I A I I A I Ambient LightCamera Modules I I I Camera ModulesFar Infrared / Infrared I A I A I I A I I I A I Far Infrared / InfraredFingerprint I FingerprintImage I I I I I ImageProximity I I I A I I A I I A I I I A I A I ProximityRadar A I I RadarReflective I I I A I I A I I I I ReflectiveTime-of-flight A I A I I A I Time-of-flightTransmissive I I I I A I I A I TransmissiveUltrasonic I IMagnetic 71 MagneticGeomagnetic I I Geomagnetic
Hall Linearnon programmable I I A I A I I non programmable
Hall Linearprogrammable A I A I A I programmable
Hall Switch
single A I A I A I A I A I A I A I A I single
Hall Switchdual I I A I A I dualspeed I A I A I speedprogrammable I A I A I programmable
Magnetoresistive
switch I I switch
Magnetoresistive3D switch I 3D switchlinear A I linear2D sensor I A I A I 2D sensor
Multiaxis Hall A I A I A I Multiaxis HallTMR I ICurrent 94 CurrentHall based ICs I A I A I Hall based ICsSensor Modules I A I Sensor ModulesShunt Monitors Shunt Monitors
Analog Sensors
Audio Amplifiers
Operational Amplifiers & Comparators
Class-D audio amplifier solutions from Diodes Incorporated maximize battery life, reduce power lost as heat, and minimize printed circuit board (PCB) area while providing high quality audio performance.
Industry-standard general-purpose op-amps and comparators: AS3xx/LM290x series Industry-standard low-voltage general-purpose op-amps and comparators: LMV3, AZV8 and AZV3 series Single, dual and quad configurations Automotive compliant LM290xQ family
Features Output powers from 1.5W to 30W/channel Filterless design allows direct drive of speakers Anti-saturation and power limit functionality improves audio quality Small footprint and highly integrated devices Automotive Compliant versions available and in development
Our filterless, low electromagnetic interference (EMI) modu-lation architecture delivers efficiencies of up to 92%, and elimi-nates the large inductors and capacitors between the amplifier and the speaker that traditional Class-D amplifiers require. Products include both mono and stereo speaker drivers with maximum out-put power ranging from 1.5W to 32W and typical total harmonic distortion plus noise (THD+N) of less than 0.5%.
Part Number
Min. VDD (V)
Max. VDD (V)
Iq (mA)
Power/Ch (W)
Mono or
StereoBTL SE
Class-D or AB
Power Limit
Anti-Sat
Head-phone
out
Effici-ency
%
Volume/ Gain
SNR (dB)
PSRR (dB) Package
PAM8001 2.5 5.5 11.5 3 S Yes No D Yes Yes No 89 64Step DC 86 70 SSOP-24
PAM8003 2.5 5.5 4 3 S Yes No D No No No 87 65Step DC 86 70 SO-16
PAM8004 2.5 5.5 4 3 S Yes No D No No No 87 Fixed 86 70 SO-16
PAM8007 2.5 5.5 12 3 S Yes No D No No Yes 92 64Step DC 97 63 SSOP-24
PAM8008 2.5 5.5 8 3 S Yes No D yes No No 87 64Step DC 95 70 SOP-16L
PAM8009 2.8 5.5 7 3 S Yes Yes D yes No Yes 90 64Step DC 89 75 SO-24, QFN4040-20
PAM8010 2.5 5.5 10 3 S Yes No D yes No Yes 90 64Step DC 95 80 SSOP-24
PAM8019 2.8 5.5 4 3 S Yes Yes D yes No Yes 90 64Step DC 83 61 QFN4040-20
PAM8100 2.5 5 10 - S No Yes AB No No No Rin adj 105 70 TSSOP-14
PAM8124 10 26 25 18 S No Yes D No No No 90 4-Settings 92 52 TSSOP-24EP
PAM8404 2.5 5.5 11 3 S Yes No D No No No 89 4-Settings 87 63 U-QFN4040-20
PAM8406 2.5 5.5 10 5 S Yes No D/AB No No No 90 Rin adj 90 70 SO-16
PAM8407 2.5 6 8 3 S Yes No D No No No 87 Up/Down 95 70 SO-16
PAM8408 2.5 6 8 3 S Yes No D No No No 87 Up/Down 90 70 SO-16
PAM8009 2.5 5.5 8 3 S Yes No D Yes Yes 87 DC 95 70 QFN4040-20, SO-24
PAM8620 8 26 16.5 10 S Yes No D Yes No No 90 Fixed 90 65 QFN5050-32
PAM8908 2.5 5.5 4 - S No Yes D No No Yes 4-Settings 100 75 U-QFN3030-16
PAM8012 2.5 5.5 4.2 2 M Yes No D Yes Yes No 90 Fixed 95 95 MSOP-10EP
PAM8301 2.5 5.5 4 2 M Yes No D No No No 88 Fixed 78 50 TSOT26
PAM8302A 2 5.5 4 3 M Yes No D No No No 85 Fixed NA 50 SO-8, MSOP-8, U-DFN3030-8
PAM8303C 2.8 5.5 7.5 3 M Yes No D No No No 90 Rin adj NA 63 U-DFN3030-8; MSOP-8
PAM8304 2.8 6 5 3 M Yes No D No No No 93 Rin adj NA 70 U-DFN3030-8; MSOP-8
PAM8320 4.5 15 15 20 M Yes No D No No No 95 Rin adj 95 60 SO-16EP
PAM8904 2.3 5.5 1 - M Yes No D No No No NA 3- Step NA NA U-QFN3030-16, U-QFN3030-12
PAM8904Q 2.3 5.5 1 - M Yes No D No No No NA 3- Step NA NA U-QFN3030-16
PAM8945 2.8 5.2 4 4 M Yes No D No No No 86 AGC 95 70 W-QFN2030-12
8 Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Operational Amplifiers & Comparators
Analog Sensors
ZXCT Current Monitors
Operational Amplifiers & Comparators
ZXCT current monitors convert a high-side current measurement to a ground referred current/voltage output; greatly simplifying high-sided current measurements.
Industry-standard general-purpose op-amps and comparators: AS3xx/LM290x series Industry-standard low-voltage general-purpose op-amps and comparators: LMV3, AZV8 and AZV3 series Single, dual and quad configurations Automotive compliant LM290xQ family
Features Measures current without upsetting the ground reference point Current output versions provide simple programmability of gain
Part Number
Autom.Compliant PPAP &
AEC-Q100
Output Type
Min. VCC/VB Supply Voltage
(V)
Max. VCC/VB Supply Voltage
(V)
Min. S+ Common-Mode Sen-se Voltage
(V)
Max. S+ Common-Mode Sen-se Voltage
(V)
Maxi-mum
Output Voltage
(V)
Max. Sense
Voltage (V)
Accu-racy @ VSENSE =100 mV(%)
Quie-scent
Current (µA)
Gain Out-put/VSENSE
Band-width (MHz)
Ambient Temperature Range (°C)
Packages
ZXCT1008 ZXCT1008Q Current N/A N/A 2.5 20 Vs+ -2.5 0,5 2,5 4 10mA/V 2 -40 to +125 SOT23
ZXCT1009 ZXCT1009Q Current N/A N/A 2.5 20 Vs+ -2.5 2,5 2,5 4 10mA/V 2 -40 to +85 SM-8
ZXCT1010 N Current N/A N/A 2.5 20 Vs- -1 2,5 2,5 3,5 10mA/V 2 -40 to +85 SOT25
ZXCT1011 N Current N/A N/A 2.5 20 Vs- -1 0,5 0,5 4 10mA/V 1,5 -40 to +125 SOT25
ZXCT1020 N Current 2.7 20 2.5 Vb Vs- -1 0,5 0,5 25 Ext. Resistor 3 -40 to +125 SOT25
ZXCT1021 N Voltage 2.5 20 2.5 20 Vs- -1 1,5 - 25 25 1 -40 to +85 SOT25
ZXCT1022 N Voltage 2.5 20 2.5 20 Vs- -1 0,18 - 25 100 1 -40 to +85 SOT25
ZXCT1023 N Voltage 2.5 20 2.5 20 Vs- -1 0,38 - 3,5 50 1 -40 to +85 TDFN1812-4
ZXCT1030 N Voltage 2.2 20 2.2 Vcc Vcc -2 0,5 - 270 10 6 -40 to +85 SO-8
ZXCT1032 N Voltage 9.5 21 9.5 21 Vs- -1 0,25 - 1600 N/A - -40 to +85 SOT25
ZXCT1041 N Voltage N/A N/A 2.7 20 Vs- -1 0,8 - 35 10 0,3 -40 to +85 SOT25
ZXCT1050 N Current 2.7 20 0 Vcc-2 Vcc -2 0,5 3 50 Ext. Resistor 0,8 -40 to +125 SOT25
ZXCT1051 N Voltage 2.5 20 0 Vcc-2 Vcc-2 0,3 3 50 10 2 -40 to +125 SOT25
ZXCT1080 ZXCT1080Q Voltage 4.5 12 3 60 Vs- -1.5 0,15 - 30 10 0,5 -40 to +125 SOT25
ZXCT1081 ZXCT1081Q Voltage 4.5 12 3 40 Vs- -1.5 0,15 - 30 10 0,5 -40 to +125 SOT25
ZXCT1082 ZXCT1082Q Current 2.7 60 2.7 60 Vs- -1 0,5 2 2 Ext. Resistor 0,5 -40 to +125 SOT25
ZXCT1083 ZXCT1083Q Current 2.7 40 2.7 40 Vs- -1 0,5 2 2 Ext. Resistor 0,5 -40 to +125 SOT25
ZXCT1084 ZXCT1084Q Voltage 2.7 60 2.7 60 Vs- -1 0,5 2 2 25 0,5 -40 to +125 SOT25
ZXCT1085 ZXCT1085Q Voltage 2.7 40 2.7 40 Vs- -1 0,5 2 2 25 0,5 -40 to +125 SOT25
ZXCT1086 ZXCT1086Q Voltage 2.7 60 2.7 60 Vs- -1 0,5 2 2 50 0,2 -40 to +125 SOT25
ZXCT1087 ZXCT1087Q Voltage 2.7 40 2.7 40 Vs- -1 0,5 2 2 50 0,2 -40 to +125 SOT25
ZXCT1107 ZXCT1107Q Current N/A N/A N/A 36 Vs+ -2.5 0,8 3,4 3 4mA/V 0,3 -40 to +125 SOT23
ZXCT1109 ZXCT1109Q Current N/A N/A N/A 36 Vs+ -2.5 0,8 3,4 3 4mA/V 0,3 -40 to +125 SOT23
ZXCT1110 ZXCT1110Q Current N/A N/A N/A 36 Vs- -1 0,8 1,8 3 4mA/V 0,3 -40 to +125 SOT23 - 5
Voltage output versions reduces com-ponent count ZXCT1008/1009/1107/1109 in tiny SOT23 package
ZXCT108x common-mode sensing up to 60V lines ZXCT1xxxQ Automotive-compliant versions supporting PPAP documentation
9Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Current Monitors – The Diodes Advantage
Analog Sensors
Part Number
Output Type
Cha
nnel
s
Res
pons
e Ti
me
[ns]
Supp
ly C
urre
nt
[mA]
Ope
ratin
g
Volta
ge [V
]
Vio
max
[mV]
Ope
ratin
g Te
mpe
ratu
re
[°C
]
Package Specification Applications
NJM2903C
Open-Collector
21300
0.452.0 to 36 5 -40 to 125
SOP8 DMP8
MSOP8(TVSP8) SSOP8
EQFN14-D7
Single Power Supply Open Collector Output Direct Interface to TTL, MOS and Bipolar Technology
Portable and Battery-Powered Applications Alarm and Surveillance Circuits Industrial Instruments Sensor Applications
NJM2901C 4 0.8 SSOP14 SOP14
NJU7116
Push-Pull 1 3300 0.001 1.8 to 3.6 2.5 -40 to 105 SOT-23-5 DFN6-G1(ESON6-G1)
Single Power Supply Push-Pull Output Low Operating Current Low Bias Current (1pA typ) CMOS
NJU77230
Push-Pull1
7800.006
1.8 to 5.5 6 -40 to 125
SOT-23-5 SC-88A
Rail-to-Rail Input Push-Pull Output Low power CMOS
NJU77231 SOT-23-5 SC-88A
DFN6-G1(ESON6-G1)
NJU77232 2 0.012 MSOP8(TVSP8) DFN8-U1(ESON8-U1)
NJU77240
Open-Drain1
8400.006
SOT-23-5 SC-88A
Rail-to-Rail Input Open-Drain Output Low power CMOS
NJU77241 SOT-23-5 SC-88A
DFN6-G1(ESON6-G1)
NJU77242 2 0.012 MSOP8(TVSP8) DFN8-U1(ESON8-U1)
10 Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
New Japan Radio is a leading analog/linear semiconductor manufacturer holding the 3rd position in the worldwide operational amplifier and comparator market. More than 50 years experience in analog technology, its own wafer diffusion with in-house assembly and a commitment to highest quality results in a very high customer satisfaction. Especially in times with dramatic changes in the semi conductor vendor landscape a long-time supply commitment becomes more and more important to customers in most industries. NJR offers a wide product range of operational Amplifiers and comparators with a rich feature mix including: Rail to Rail Input/Output, High RF immunity, Low Noise, Low Power, High Precision, High Efficiency, Small sized packages, J-FET / Bipolar and CMOS technologies.
If you are you looking for a second source in order to secure your production?Then you should check NJRs competitive operational amplifiers and comparators which could replace products from other vendors by offering a flexible pinning compatible with many products on the market.
Comparators
Operational Amplifiers & Comparators
Analog Sensors
11Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Types
No.
Of C
hann
els
GB
W [M
Hz]
Slew
rat
e
[V/µ
sec]
Ope
ratin
g Vo
ltage
[V
]
Supp
ly C
urre
nt
[mA]
Vio
max
[mV]
Volta
ge N
oise
[n
v/√
Hz]
Ope
ratin
g
Tem
pera
ture
[°C
]
Package Specification Applications
PRECISION
NJU7076 1
1.3 0.5 2.2 to 5.5
0.60.15
10 -40 to 125
SOT-23-5 Precision, Low Noise,
Rail-to-Rail Output, RF Noise Immunity,
CMOS
Thermocouple Amplifier Strain Gauge Amplifier Photo Diosde Amplifier Medical Instrumentation Precision Current Sensing High Precision Data Acquisition High Precision Current Sensing Handheld Test Equipment Low Side Current Sensing
NJU7077 2 1.2 MSOP8(VSP8)
NJU7078 4 2.3 0.2 SSOP14
NJU7098A 1 2 - 5 3 3 to 10 0.7 0.015 120 -40 to 105 SOT-23-6-1
Zero-Drift, Single Supply Rail-to-Rail Output, Shutdown mode,
RF Noise Immunity, CMOS
LOW POWER
NJU77000 10.001 0.001
1.5 to 5.5
0.00029 1.8 600
-40 to 105
SOT-23-5
Ultra Low Power, Rail-to-Rail Input/Output
RF Noice Immunity CMOS
Battery powered Instruments Micro power oxygen and gas sensor Power line monitoring Micropower current sensing Healthcare instruments
NJU77001 1 SOT-23-5; SC-88A
NJU77002 20.001 0.001
0.00046 2700
SOP8 JEDEC 150mil MSOP8(TVSP8)
DFN8-U1(ESON8-U1)
NJU77004 4 0.00092 2.2 SSOP14
NJU7026 1
0.16 0.05 1.8 to 5.5
0.013
4 50 -40 to 125
SC-88A; SOT-23-5 Ultra Low Power 13µA/ch, Rail-to-Rail Output RF Noise Immunity
CMOS
Battery-powered instruments Current sensor amplifiers Voltage/current monitoring Power line monitoring Photodiode amplifiers
NJU7027 2 0.026 DFN8-U1(ESON8-U1) MSOP8(TVSP8)
NJU7028 4 0.048 SSOP14
NJU77550 1
1.6 0.7 1.8 to 5.5
0.045
5 24 -40 to 125
SC-88A; SOT-23-5Low Power,
High GBW @ 45uA/ch RF Noise Immunity
Rail-to-Rail Input/Output
Battery-Powered Equipment Audio, Healthcare, Security Systems Smart Meter, Sensor Interfaces Gas/Smoke Sensor, Active Filter Photodiode Amplifier
NJU77551 1 0.045 SC-88A; SOT-23-5
NU77552 2 0.090 SOP8; MSOP8(TVSP8)
NJU77554 4 0.18 SSOP14
LOW NOISE
NJU77806 1 4.4 1.1 1.8 to 5.5 0.5 2 5.5 -40 to 105 SC-88A
Low Noise, low Power, Rail-to-Rail Output, RF Noise Immunity,
CMOS
Low-noise microphone amplifier Photodiode preamplifier Sensor application Security equipment Wireless LAN Radio systems
NJM8530 1
1 0.4 1.8 to 14
0.32
4 10 -40 to 125
SOT-23-5
Low Noise / Low Power Wide Bandwidth
Rail-to-Rail Input/Output
Battery-powered instruments, Audio, Sensor applications, Medical, Security High-side/Low-side Current sensing amplifiersActive Filters Analog-to-digital / Digital-to-analog Buffers, Handheld Test Equipment
NJM8532 2 0.58 MSOP8(TVSP8); DMP8, SSOP8
NJM8534 4 1.2 SSOP14
HIGH SLEW RATE
NJU77701 1 34 35 2.4 to 5.5 3.8 1.5 5 -40 to 125 SOT-23-5
High GBW, High-Speed, Low-Noise Rail-to-Rail I/O ,
RF Noise Immunity CMOS
Low noise signal processing, ADC buffers DAC output amplifier, Current Sense amplifier Radio systems
NJU7046 1
5 9 2.7 to 5.5
1.4
5 20 -40 to 125
SOT-23-5; SC-88A
High-Speed, Rail-to-Rail I/O, RF Noise Immunity,
CMOS
High speed sensor amplifiers Current sensor amplifiers Photodiode amplifiers ADC front ends Battery-powered instruments
NJU7047 2 2.7 SOP8 JEDEC 150mil
MSOP8(TVSP8) DFN8-U1(ESON8-U1)
NJU7048 4 5.3 SOP14; SSOP14
Operational Amplifiers
Pin compatibility – 2 types of pin connection in SOT-23 and SC-88A
TI, etc... Others...TI, etc...TI, AD etc...
1
2
3
5
4
V+
V-
OUTPUT-INPUT
+INPUT
(Top View)
1
2
3
5
4
V+
V-
OUTPUT+INPUT
-INPUT
(Top View)
1
2
3
5
4
V+
V-
OUTPUT-INPUT
+INPUT
(Top View)
1
2
3
5
4
V-
V+OUTPUT
-INPUT+INPUT
(Top View)
NJU77550 NJU77000
NJU77551 NJU77001 NJU77230 NJU77240
Push-Pull output Open-Drain output
NJU77231 NJU77241
Push-Pull output Open-Drain output
Replace all imeges to the same aspect ratio. (I will leave the color up to you.)
1
2
3
5
4
V+
V-
OUTPUT-INPUT
+INPUT
(Top View)
1
2
3
5
4
V+
V-
OUTPUT+INPUT
-INPUT
(Top View)
1
2
3
5
4
V+
V-
OUTPUT-INPUT
+INPUT
(Top View)
1
2
3
5
4
V-
V+OUTPUT
-INPUT+INPUT
(Top View)
NJU77550 NJU77000
NJU77551 NJU77001 NJU77230 NJU77240
Push-Pull output Open-Drain output
NJU77231 NJU77241
Push-Pull output Open-Drain output
Replace all imeges to the same aspect ratio. (I will leave the color up to you.)
1
2
3
5
4
V+
V-
OUTPUT-INPUT
+INPUT
(Top View)
1
2
3
5
4
V+
V-
OUTPUT+INPUT
-INPUT
(Top View)
1
2
3
5
4
V+
V-
OUTPUT-INPUT
+INPUT
(Top View)
1
2
3
5
4
V-
V+OUTPUT
-INPUT+INPUT
(Top View)
NJU77550 NJU77000
NJU77551 NJU77001 NJU77230 NJU77240
Push-Pull output Open-Drain output
NJU77231 NJU77241
Push-Pull output Open-Drain output
Replace all imeges to the same aspect ratio. (I will leave the color up to you.)
1
2
3
5
4
V+
V-
OUTPUT-INPUT
+INPUT
(Top View)
1
2
3
5
4
V+
V-
OUTPUT+INPUT
-INPUT
(Top View)
1
2
3
5
4
V+
V-
OUTPUT-INPUT
+INPUT
(Top View)
1
2
3
5
4
V-
V+OUTPUT
-INPUT+INPUT
(Top View)
NJU77550 NJU77000
NJU77551 NJU77001 NJU77230 NJU77240
Push-Pull output Open-Drain output
NJU77231 NJU77241
Push-Pull output Open-Drain output
Replace all imeges to the same aspect ratio. (I will leave the color up to you.)
Analog Sensors
High Performance Op-Amps High Performance Comparators
Nano Power
High Performance Op-Amps 3
TSB9 (*)
TSV9
TSX9
TSB7 (*)
Micro Power
Low Power Zero Drift Precision Energy
effective Fast
TSU TSV6
TSX6
TSB6
TSV8 TSZ TSV7
TSX7
TSB5
TSV5
TSX5
5V
16V
36V
AECQ-100 (*) Under development
High-performance Comparators 5
TS881TS882TS884
TSX393TSX339
TSX3702TSX3704
TS3021TS3022
TS331TS332TS334
TS3011
Responsetime (s)
1µs
500 ns
100 ns
10 ns 1.0 µA 10 µA 50 µA 100 µA 500 µA
LMV331LMV393LMV339
Supply current (Icc)
AECQ-1002µs
TS985
5V 16V
12 Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
OpAmps Comparators A broad range of industry-standard devices High-speed comparators Micropower comparators Space-optimized solutions, with tiny DFN, SC-70 and 6-Bump CSP packages High-temperature (+150 °C) qualified devices A large portfolio of automotive qualified comparators
Series Main Features Ideal for
TSB5 TSB6
36 V BiCMOS New generation of high-voltage op amps
Industrial Automotive
TSV5 – TSV6 TSV8 – TSV9
Micropower 5 V CMOS Low voltage
Sensor signal conditioning Battery operated devices
TSV7 TSZ1
High precision Micropower 5 V CMOS
Sensor signal conditioning Medical instrumentation Handheld equipment High precision current sensing
TSX5 – TSX6 TSX7 – TSX9
Micropower 16 V CMOS Excellent power/ Bandwidth ratio
Power applications (12 V, 15 V, +/- 5 V) AFE for High Voltage sensor
TSU1 Ultra low current consumption Gas, CO, Smoke detectors Energy harvesting systems Battery operated systems
Series Main Features Ideal for
TS881TS882TS884
Nanopower Very low voltage
Gas, CO, Smoke detectors Battery operated security system
TS3011TS3021
Nano Second response time High efficiency
Optical modules High frequency system
TS985 Micropower Tiny packages
Smartphones, smartwatches Digital cameras Internet of Things (IoT) devices Portable test equipment
TSX393 - TSX339TSX3702 - TSX3704
Micropower Fast response time High ESD tolerance
Industrial equipment Automotive equipment
Operational Amplifiers & Comparators
The largest portfolio of micropower OpAmps for battery-powered, portable devices An ever-increasing range of precision amplifiers Space-optimized solutions, with tiny DFN, QFN and SC-70 packages Extensive choice of low- and high-voltage rail-to-rail OpAmps Industry-standard OpAmps High-temperature (+150°C) qualified devices Large portfolio of automotive qualified OpAmps
Analog Sensors
High-performance Comparators 5
TS881TS882TS884
TSX393TSX339
TSX3702TSX3704
TS3021TS3022
TS331TS332TS334
TS3011
Responsetime (s)
1µs
500 ns
100 ns
10 ns 1.0 µA 10 µA 50 µA 100 µA 500 µA
LMV331LMV393LMV339
Supply current (Icc)
AECQ-1002µs
TS985
5V 16V
13Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
High - Precision Operational Amplifiers
Precision OpAmpsTSV7 Series Low offset voltage: Vio = 200 µV max Low input offset voltage drift: dVio/dT = 10 µV/°C max Operating voltage: Down to 1.5 V up to 5.5 V Excellent speed / power ratio:
10 µA (typ at 5 V) / 120 kHz for TSV71x 60 µA (typ at 5 V) / 850 kHz for TSV73x
Low bias current 1 pA Rail to rail input & output High ESD protection 4 kV HBM Tiny packages SC70 / SOT23-5 / DFN8
Handheld devices Precision medical system / glucose meter Test & measurement equipment Factory automation Telecom infrastructure Optical networking
Multifunctional Expansion BoardBased on ST’s operational amplifiers: TSZ124 TSU104 TSV734
Applications
Dual High Bandwidth Chopper OpAmpTSZ182 Series Very high accuracy and stability Offset voltage 25 µV max at 25 °C, 35 µV over full trange Gain bandwidth product: 3 MHz Low supply voltage: 2.2 V to 5.5 V Low power consumption: 1 mA max. at 5 V Smallest package in the market (DFN8 2x2) Save board space (no external trimming components) Accuracy virtually unaffected by temperature change Automotive-qualified variant
Current measurement in automotive for motor control Industrial sensors and instrumentation Medical devices, body-signal monitors
Applications
X-NUCLEO-IKA01A1
Analog Sensors
Nano-Power Comparators
TS88 Series Ultra low current consumption: 210 nA typ. Propagation delay: 2 μs typ. Rail-to-Rail inputs Push-Pull output Supply operation from 0.85 V to 5.5 V Wide temperature range: -40 to +125 °C ESD tolerance: 8 kV HBM / 300 V MM Tiny package : SC70-5, SOT23-5L, MiniSO8 and DFN8 (2 x 2 mm)
14 Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Portable systems Signal conditioning Medical equipment Automotive
Applications
Nano - Power Operational Amplifiers & Comparators
Nano-Power OpAmps
TSU111 Series Nano power consumption 900 nA Low offset voltage reduces output error 150 µV max at 25 °C 235 µV max -40 to 85 °C Low noise over 0.1 to 10 Hz bandwidth: 3.6 µVpp Low supply voltage: 1.5 V to 5.5 V Rail-to-Rail input & output GBP 11.5 kHz Tiny packages: DFN6 (1.2 x 1.3 x 0.5 mm), SOT323-5L
Applications Gas/water metering systems Battery/solar operated systems Alarm & monitoring systems Portable medical equipment
ST Op Amps AppAll-in-one design toolkit and smart selector on tablets and smartphones.
P-NUCLEO-IKA02A1
Demo Board PackageSTM32 Nucleo pack for electrochemical gas sensors expansion board for CO sensor. Can be extended with SubGHz or Wi-Fi board to become a cloud sensor.
Analog Sensors
16 V Precision OpAmp
TSX7 Series Low input offset voltage: 200 µV max. Rail-to-Rail input and output Low current consumption: 800 µA max. Gain bandwidth product: 2.7 MHz Low supply voltage: 2.7 - 16 V Unity gain stable Low input bias current: 50 pA max. High ESD tolerance: 4 kV HBM Extended temp. range: -40 °C to +125 °C Automotive qualification Available in tiny packages: SOT23
Nano-Power Comparators 36 V Low Power OpAmps
TSB5 / TSB6 Series Rail to rail input and output (TSB5) Wide supply voltage: 2.7 V up to 36 V (TSB6) Excellent speed / power ratio: 380 µA / 2.5 MHz for TSB57x / - 125 µA / 560 kHz for TSB611 Stable @ high cap values (TSB5) High ESD protection 4 kV HBM Both qualified AEC-Q100 Tiny packages: SOT23-5 for TSB611 (single) Mini-SO8 & DFN-8 for TSB572 (dual)
Videos: How to tame offset, drift, CMRR, PSRR and noise?
What does precision mean for an op amp?
Visit: www.youtube.com/c/stmicroelectronics
15Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Applications Battery powered instrumentation High independence sensor interface Current sensing (high and low side)
High - Voltage CMOS for Robust Circuit Design
Applications Industrial Power supplies Automotive
Active filtering Low side and high side current sense
For industrial and smart home applications.
Analog Sensors
16 Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Mixed SignalDiodes Incorporated is able to offer a portfolio of devices that meet the requirements of a wide range of electronic applications by addressing these competing design criteria to produce elegant and practical solutions.
High speed switches (USB2/3/3.1/C signal, HDMI/DP video switches, VGA & LAN switches) High speed signal Multiplexers LVDS receivers/transceivers
PCIe packet switches PCIe-PCI/PCIX bridges PCIe to UART PCIe to USB/PCIe
PCIe Linear ReDrivers 10 Gb Ethernet Linear ReDrivers USB 3.0/3.1 Linear ReDrivers SATA 2.0/3.0 ReDrivers
Timing IC (clock generators, buffers, 555) Real time clocks Crystals and crystal oscillators (XO, VCXO, TCXO)
Switching Connectivity
Signal Integrity Timing SAS 2.0/3.0 Linear Combo ReDrivers HDMI / Display Port ReDrivers
Analog Sensors
17Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Logic Components by DiodesDiodes Incorporated’s logic products are offered in a wide variety of packages to meet the design needs of both cutting-edge and legacy products.
Diodes Incorporated‘s experienced design team has created popular functions in four major logic families: Advanced Ultra-low Power AUP Low-Voltage CMOS LVC Standard High Speed CMOS Logic HC / HCT Advanced High-speed CMOS AHC(T)
Single-gateAvailable in AHC, AHCT, LVC and AUP families. Most are available in the world’s smallest DFN0808 package.
Dual-gateLVC and AUP families. The DFN0910 at 0.9 mm x 1.0 mm is the smallest available foot print.
Standard LogicAvailable in HC, HCT, AHC, AHCT, LV and LVC families. TSSOP-14,16, 20 and SO-14, SO-16 products available.
Voltage Translators Diodes Incorporated offers a variety of voltage level translation ICs that provide mixed signal (I²C, SMBus, MDIO, SPI, SIM I/F, TTL, HSTL and SSTL) as well as multiple supply voltages (5 V, 3.3 V, 2.5 V, 1.8 V, 1.2 V and 0.9 V).
General Logic Interface LogicDiodes offers high-speed voltage translators, performance logic and other specialty Interface IC solutions for memory modules. These products offer high performance 5 V, 3.3 V, 2.5 V and 1.8 V with propagation delays down to < 2.0ns. They support 8-bit, 16-bit, 18-bit and 32-bit functions.The Logic interface family gives high-performance at 5 V, 3.3 V, 2.5 V, & 1.8 V with propagation delays down to < 2.0 ns. The family supports 8-bit, 16-bit, 18-bit, 24-bit, and 32-bit functions with a performance mix of voltage translators.
I2C Mux/Switch I2C Multiplexers / Switches for various applications Multiplexer, 2-channel, 2:1 Multiplexer, 4-channel, 2:1 Multiplexer, 8-channel, 2:1 Switch, 2-channel, 2:1 Switch, 4-channel, 2:1 Switch, 8-channel, 2:1
IO Expanders 8 and 16 Single Ended Channels IO Expanders are offered Diodes IO Expanders (GPIO) products are available with I2C bus interface and 2 to 48 IOs. Some of the products feature an additional INT (INTerrupt) output and/or a REST or OE (Output Enable) input signals. The output is used to signal the microcontroller when any of the inputs state has been changed (from 1 to 0 or 0 to 1). The RESET input can be used to initia-lize the device to its default state without powering down.
GTL Gunning Transceiver Logic (GTL) is a device with a low voltage open drain interface with externally supplied threshold voltage and normally combined with a push-pull I/O as an interface to LVTTL signal levels.GTL devices are used in point to point applications.
Family Device Type Diodes
AHC1G Single Gate 74AHC1Gxx
AHCT1G Single Gate 74AHCT1Gxx
AUP1G Single Gate 74AUP1Gxx
AUP2G Dual Gate 74AUP2Gxx
LVC1G Single Gate 74LVC1Gxx
LVC1T Single Translator 74LVC1Txx
LVC2G Dual Gate 74LVC2Gxx
AHC Standard Logic 74AHCxxx
AHCT Standard Logic 74AHCTxxx
HC Standard Logic 74HCxxx
HCT Standard Logic 74HCTxxx
LVC Standard Logic 74LVCxxx
Diodes Logic is compatible with:
Analog Sensors
18 Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Analog Switch Product Families Built on Advanced Silicon Process The new enhanced family of analog switches and multiplexers is designed on a high-density 18 V process. The process not only offers an upgrade path for customers using Vishay’s current 12 V series products, but also enables Vishay to develop new precision analog products with higher complexity for sensitive analog designs.
Enhanced Performance ProductsFeatures Extended operation to 16 V single power supply and ± 8 V dual power supplies Enhanced ESD / HBM from 2 to 2.5 kV Enhanced latch-up capability from 200 to 300 mA (400 mA) Lower switch on-resistance with improved tolerance Reduced switch leakage limits by 50 %
Applications Test equipment and data acquisition Audio and video signal routing Industrial process control and automation Medical and healthcare equipment Communication systems
DG408LE, DG409LE – Pin-compatible with current DG408L, DG409L series
DG411LE, DG412LE, DG413LE – Pin-compatible with current DG411L, DG412L, DG413L series
DG411LE, DG412LE, DG413LE – Pin-compatible with current DG441L, DG442L series
DG408L Series DG409L Series
Package Existing Part Number New Enhanced Part Number Existing Part Number New Enhanced Part Number
TSSOP16 DG408LDQ-E3 DG408LEDQ-GE3 DG409LDQ-E3 DG409LEDQ-GE3
TSSOP16 DG408LDQ-T1-E3 DG408LEDQ-T1-GE3 DG409LDQ-T1-E3 DG409LEDQ-T1-GE3
SOIC16 DG408LDY-E3 DG408LEDY-GE3 DG409LDY-E3 DG409LEDY-GE3
SOIC16 DG408LDY-T1-E3 DG408LEDY-T1-GE3 DG409LDY-T1-E3 DG409LEDY-T1-GE3
QFN16 DG408LEDN-T1-GE4 DG409LEDN-T1-GE4
DG441L DG442L Series
Package Existing Part Number New Enhanced Part Number Existing Part Number New Enhanced Part Number
PDIP16 DG441LDJ-E3 DG441LEDJ-GE3 DG442LDJ-E3 DG442LEDJ-GE3
TSSOP16 DG441LDQ-E3 DG441LEDQ-GE3 DG442LDQ-E3 DG442LEDQ-GE3
TSSOP16 DG441LDQ-T1-E3 DG441LEDQ-T1-GE3 DG442LDQ-T1-E3 DG442LEDQ-T1-GE3
SOIC16 DG441LDY-E3 DG441LEDY-GE3 DG442LDY-E3 DG442LEDY-GE3
SOIC16 DG441LDY-T1-E3 DG441LEDY-T1-GE3 DG442LDY-T1-E3 DG442LEDY-T1-GE3
DG411L Series DG412L Series DG413L
Package Existing Part Number
New Enhanced Part Number
Existing Part Number
New Enhanced Part Number
Existing Part Number
New Enhanced Part Number
PDIP16 DG411LDJ-E3 DG411LEDJ-GE3 DG412LDJ-E3 DG412LEDJ-T1-GE3 DG413LDJ-E3 DG413LEDJ-GE3
TSSOP16 DG411LDQ-E3 DG411LEDQ-GE3 DG412LDQ-E3 DG412LEDQ-GE3 DG413LDQ-E3 DG413LEDQ-GE3
TSSOP16 DG411LDQ-T1-E3 DG411LEDQ-T1-GE3 DG412LDQ-T1-E3 DG412LEDQ-T1-GE3 DG413LDQ-T1-E3 DG413LEDQ-T1-GE3
SOIC16 DG411LDY-E3 DG411LEDY-GE3 DG412LDY-E3 DG412LEDY-GE3 DG413LDY-E3 DG413LEDY-GE3
SOIC16 DG411LDY-T1-E3 DG411LEDY-T1-GE3 DG412LDY-T1-E3 DG412LEDY-T1-GE3 DG413LDY-T1-E3 DG413LEDY-T1-GE3
Analog Sensors
19Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
NJU9101The NJU9101 is an Analog Front End (AFE) ideal for low power sensor applications providing a signal processing solution.
AFE Conditions – An Analog Sensor Signal for MCU Processing
Analog Signal Conditioning
NJU9103The NJU9103 is a sophisticated Analog Front End (AFE) in a small package offering a high gain PGA, a 16-Bit ΔΣ ADC and best in class RF immunity characteristics.
The NJU9101 offers two low-power / low-noise operational amplifiers connected to a 16bit ΔΣ ADC which can be used to build e.g. an electrochemical gas sensor. Integrated input filter offers best in class RF-immunity and make the IC suitable for applications operated close to RF transceiver.
External sensors can be connected as single-ended, differential or pseudo-differential input.The NJU9103 can operate as frontend providing the optimum gain to e.g. pressure sensors, flow sensors by a wide and flexible range of gain settings.
Features Supply voltage +2.7 V to +3.6 V (-40 °C to +125 °C) ADC resolution 16-Bit (No missing codes) Conversion rate 0.814 ksps to 6.51 ksps PGA 1 V/V to 512 V/V System calibration for offset & gain drift Conversion mode single / continuous Interface SPI Package DFN8 (ESON8-V1) or SSOP8
Applications Pressure sensors Flowmeters Thermostat
Applications Gas monitor Current- / photodiode Sensing systems
PLC Digital panel meters
Blood glucose meter Portable & low power systems
MODE1
- 1 -
242322212019
1
2
3
4
5
6
789101112
18
17
16
15
14
13
I2 C
OSC
POR
INTREF
PREAMP
Temp
ADC
Con
trol
Cal
ibra
tio
SCL
SDA
EXSCL
EXSDA
AD0
AD1
AD
2
TES
T
VD
D
VR
EFA
+
VR
EFI
N
BO
UT
BIN-
BIN+
SWS
SWD
AIN+
AIN-
AO
UT
AU
XIN
-
AU
XIN
+
VR
EFA
-
GN
D
RD
YB
OPA
OPB
EEPROM
MCU
8pinAFE
- 1 -
VINP
VINN
VREF
VDD
MUX
1
2
3
4
EMIFilter
+-
-+
PGA2
PGA1
∆Σ ADC
Digital Filterand
Calibration
Interfaceand
Control
InternalOscillator
POR
SCK
SDI
SDO / RDYB
GNDVDD
VREF
PGIN1=x1, x2, x4, x8, x16,x32, x64, x128
PGIN2=x1, x2, x4
0.814ksps to [email protected]
GND
8
7
6
5
SW
SW
VDD Bridge circuit
MCU
Features Supply voltage (+2.4 V to +3.6 V) / (-40 °C to +85 °C) Low current consumption / low noise amplifier Unique RF immunity characteristics On-chip temperature sensor & AUX Input Programmable cell bias voltage & gain pre-amplifier High resolution programmable gain ADC System calibration for offset & gain drift Interface I2C for MCU and I2C master for EEPROM Package (EQFN-24-LE (4 mm x 4 mm))
NJU9101 – Analog Front End IC NJU9103 – Analog Front End IC
Analog Sensors
Delta-Sigma A/D Converters Low-Noise 24-bit Delta Sigma ADCRenesas precision data converter product offerings for industrial and instrumentation applications are expanding rapidly. All utilize robust state-of-the-art submicron mixed-signal processes which allow us to offer industry-leading performance and cost-effective feature sets, with competitive specifications which ensure measurement accuracy and longevity in the industrial environment.
Features Ultra-Low Noise: <6nVrms @ 2.5 sps (128x) Noise Free Bits vs. Word Rate & Gain
Output word rate: 2.5 – 4000 sps Programmable gain: 1 – 128x Low Drift Chopper Stabilized Front-end 2 or 4 channel differential input multiplexer Internal temperature and VDD monitors Low-side switch for load cell power management ESD rating: 7.5 kV (HBM) Temperature range: -40 … +105 °C Packages: 24-Ld / 28-Ld TSSOP
Applications Weight scales Load safety systems Industrial process control Temperature monitor and controls Pressure sensors
Selection Guide
Word Rate 2.5 sps 4 ksps
Gain = 1x 22.2-bits 17.8-bits
Gain = 128x 19.9-bits 15.0-bits
Device Channels Conv. Rates Analog Supply Digital Supply Package
ISL26102AVZ 2 2.5 – 4,000 4.75 – 5.25 2.7 – 5.25 24-Ld TSSOP
ISL26104AVZ 4 2.5 – 4,000 4.75 – 5.25 2.7 – 5.25 28-Ld TSSOP
ISL26132AVZ 2 10, 80 4.75 – 5.25 2.7 – 5.25 24-Ld TSSOP
ISL26134AVZ 4 10, 80 4.75 – 5.25 2.7 – 5.25 28-Ld TSSOP
Related Products ISL21090 – Low noise bandgap reference ISL28617 – Low noise 40 V in-amplifier ISL28134 – Low noise chopper amplifier ISL28127/227 – Low noise OpAmp
Why Renesas? Ultra low noise (up to 22.2-bits, noise-free) Easy to use with high reliability (7.5 kV ESD) Experienced applications support with over 25 years supporting ΔΣ converters
ISL26102 / 104
20 Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Analog Sensors
Digitally Controlled Potentiometers (DCPs) The World’s Largest Selection of Digitally Controlled Potentiometers
ISL23318 - Single, 128-taps Low Voltage XDCP™
Key Features I²C serial interface: - No additional level translator for low bus supply - Two address pins allow up to four devices per bus Power supply: VCC = 1.7 V to 5.5 V analog, VLOGIC = 1.2 V to 5.5 V I²C bus/logic Wiper resistance: 70Ω typical @ VCC = 3.3 V Shutdown Mode: forces the DCP into an end-to-end open circuit and RW is shorted to RL internally Power-on preset to mid-scale (64 tap position) Shutdown and standby current <2.8 μA max DCP terminal voltage from 0 V to VCC 10 kΩ, 50 kΩ or 100 kΩ total resistance Extended industrial temperature range: -40 … +125 °C 10 Ld MSOP or 10 Ld μTQFN packages
Why Renesas?
Low voltage, low power consumption are ideal for battery operated equipment Small μTDFN package for space constrained applications Low Noise VLOGIC pin allowing down to 1.2 V bus operation eliminating the need for a voltage level shifter
Part Number
Resistance Option (kΩ)
Temp. Range (°C)
Package
ISL23318TFUZ 100 -40 to +125 10 Ld MSOP
ISL23318UFUZ 50 -40 to +125 10 Ld MSOP
ISL23318WFUZ 10 -40 to +125 10 Ld MSOP
ISL23318TFRUZ-TK 100 -40 to +125 10 Ld 2.1x1.6 UTQFN
ISL23318UFRUZ-TK 50 -40 to +125 10 Ld 2.1x1.6 UTQFN
ISL23318WFRUZ-TK 10 -40 to +125 10 Ld 2.1x1.6 UTQFN
Applications Gain adjustment in battery powered instruments Trimming sensor circuits Power supply margining RF power amplifier bias compensation
21Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Renesas offers the widest selection of low-to-high resolution digital potentiometers in single, dual and quad configurations. Available in both linear and non-linear tapers, these digital potentiometers replace mechanical potentiometers and trim resistors in appli cations where digital control allows microprocessor interfacing and extended functionality. Electronic potentiometers have many benefits over mechanical potentiometers. They are more accurate, easy to adjust, and eliminate the need of human labor.
Analog Sensors
22 Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Voltage ReferencesDiodes’ voltage references are cost-effective industry standard pin out shunt references providing excellent temperature stability. ZXRE330 provides an accurate 3.3 V reference voltage with only a 1 µA minimum cathode current.
Voltage References & Shunt Regulators
Shunt Voltage RegulatorsDiodes’ shunt regulator range covers Industry standard 2.5V (AS431 and AN431) and 1.24V (AZ431L) versions with extended temperature ranges for industrial and com-mercial applications. For applications requiring lower standby currents the AP431S operates with lower cathode currents. For Automotive applications Diodes has its Automotive-compliant ZTL431Q, ZTL432Q and TLV431Q in SOT23 and SOT25.
Features 2.5 V (TL431), 1.24 V (TLV431) equiv. shunt regulators Extra low cathode current (IK) AP431S Shunt Regulator
Features LM4040/1 equivalents with automotive compliant versions Low cathode current 1.2, 2.5, 3.3 and 5 V shunt references 1 µA cathode current 3.3 V shunt reference
Automotive Compliant (Q) Shunt regulators
Benefits of Shunt Regulators & Voltage References Wide temperature range, most with -40 to 125 °C Simplifies component choice and stocking 0.2%, 0.5% and 1% tolerance references Matches needs of a wide range of applications ZRx references provide lower minimum operating currents Suitable for portable/battery powered applications Automotive-compliant versions (AEC-Q100 Grade 1) LM4040Q/41Q, ZTL431Q/432Q and TLV431Q Suitable for automotive applications SOT23, SOT25 and SOT363 package options (plus TO92) Small, cost effective surface mount options
Voltage References
STMicroelectronics offers a wide range of fixed and adjustable voltage references, ranging from general-purpose high-power shunts, suitable for industrial, automotive and SMPS applications, to high-precision and low-consumption devices, suitable for battery-powered applications.
The TS4061 and LM4041 are low power shunt voltage references providing a stable 1.225 V or 1.25 V output voltage over an extended temperature range. Available in SOT23 and SC70 surface mount packages, they can be designed in applications where high precision and space saving are critical.
General Features Max. cathode current up to 100 mA Min. cathode current as low as 40 µA Output voltage from 0.6 to 36 V Initial precision as low as 0.1 % Packages: SO-8, TO92, SOT23 and SOT323
LM4041 Fixed 1.225 V typical output voltage SC70 or SOT23 package Low operating current: 40 µA at 25 °C High precision: 0.1 % @ 25 °C Extended temp.range: -40 to +125 °C 36 ppm typ. temperature coefficient
TS4061 Fixed 1.225 V and 1.25 V typ. output voltage SC70 or SOT23 package Ultra low operating current: 10 µA at 25 °C High precision: 0.1% @ 25 °C Temp. range: -40 to +85 °C 10 ppm typ. temperature coefficient
These cost-effective devices offer reliabi-lity and service performance thanks to ST’s high-volume production capacity, integrated front-end and multiple back-end lines, as well as partnerships with major subcon-tractors.
Analog Sensors
RTC Modules with Embedded Crystal and Temperature Compensation
ISL12022M ±5ppm Accuracy (-40 … +85 °C)
- Factory programmed RTC for optimal accuracy - Onboard temperature sensor - Embedded crystal Reliable timekeeping & power management
- Backup battery management - Vdd and battery status monitors and switchover timestamp - Battery ResealTM function extends battery shelf life User Programmability
- I²C Interface - 128 bytes battery-backed user SRAM
World’s Smallest, Low Cost & Low Power RTC
ISL12058 Low Power – Time keeping current = 650 nA max @ 1.8 V Ideal for Portable Applications – Operates over 1.4 V to 3.6 V supplies 56% Smaller than competitive solutions – 8-μTDFN (2x2x0.55mm) Easy to Design-in – Pin-to-pin replacement: 8-tDFN (3x3mm), 8-MSOP, 8-SOIC User Programmability – I²C interface – Selectable frequency outputs and alarms
High accuracy even in extreme temperature conditions Add battery backup to a low cost RTC without a VBAT input
Real Time Clocks The Renesas family of Real Time Clock products offer a wide variety of useful industry-standard functions and features. They include clocks and calendars, programmable alarms with event recording, non-volatile memory for system personality data and unique device IDs, and power supervision with backup battery and system shutdown management. The 3-in-1 Module products features an integrated 32kHz crystal with onboard temperature sensor, to maintain high accuracy over the rated temperature range without user calibration.
Target Applications Handheld, portable devices Industrial, communications, specialty
High volume consumer Residential, industrial power meter
23Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Analog Sensors
The selection of the oscillator for electronic devices is a major factor for the system performance. In electronics and especially synchronous digital circuits, a clock signal is a particular type of signal that oscillates between a high and a low state and is utilized like a metronome to coordinate actions of digital circuits. Circuits using the clock signal for synchronization.
Type Advantages Applications Supplier
Ceramic Resonators
Cost savings Quicker rise of oscillation then a crystal resonator Mechanical stability/high shock resistance Load capacitance included
Consumer electronics TV, games, radios
Kyocera Murata
Crystal Very accurate Microcontroler Watches
EpsonHKC
KyoceraMurata
Quartz Oscillators Very accurate Ultra-low phase jitter
Networking High speed telecommunications
EpsonHKC
Kyocera
Timer
Low frequency for kHz Very simple to use Programmed by external resistors and capacitor Timing from microseconds to hours
General timing applications Pulse generation Sequential timing Time delay generation Pulse wide modulation Pulse position modulation Missing pulse detector
DiodesNJRC
Renesas
Real Time Clocks (RTC)
Provides critical real time information The Real Time Clock tracks time with seperate registers for hours, minutes and seconds RTC has calendar registers for date, month, year and days Fully accessessible trough the serial Interface I2C Selectable frequency outputs Oscillator temperature compensation
Any system utilizing time information will need an RTC: Utility Meters POS Equipment Printers and Copiers HVAC Equipment Audio/Video Components Home Appliances Smart Meters Smart Grids Medical Handhelds GPS Digital Cameras
RenesasSTM
RTC
I²C
24 Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Clock & Timing Solutions
Real Time Clocks are Present in Any Electronic Devices that Needs to Keep Accurate Time
Select the Right Timing Solutions for Your Application
Analog Sensors
A transceiver is a device which contains a transmitter and a receiver in a single housing. Forward communication / commands of the µC to the data lines.
TYPE RS-232 RS-485 USB CAN CAN FDTechnology RS-232 RS-485 Universl Serial Bus Controller Area Network CAN with Flexible Date-Rate
Suppliers Renesas STMicroelectronics
Renesas STMicroelectronics STMicroelectronics Infineon
MelexisInfineonMelexis
Datarate 200 khz 12 MBps max.10 MBs 1 MBit/s 5 MBit/sNode 2 32 127 100 100Length 15 m 1200 m 25 m max. 40 m * max.25 m*Transmission serial serial serial serial serial
Description
Interface between computer and peripherals Max. 2 devices Classic standard, but NRND
Extended version of RS-232 1
Standard to connect different computer and peripherals
Backbone bus for automotive Reduced wire harness and therefore cost and weight
Extension to the CAN bus for more accurate, „real-time“ data Faster version of CAN
Applications Printer Computer peripherals
Cheap device for industry network extended range of RS-232
Tablet eReader Camera terminal
Robust vehicle standard: ABS, EPS, Airbag…
Control unit, diagnosis, industrial automation, medical equipment
* = depends on datarateTYPE LIN Flexray Ethernet IOLINK PROFIBUSTechnology Local Interconnect Network FlexRay Ethernet Controller IO-Link Process Field BusSuppliers Infineon Infineon Intel STMicroelectronics SiemensDatarate 20 Kb/s 10 Mbit 1Gbit 230 Kbaud max.12 MHzNode 16 64 1024 - 126Length 40 m 22 m CAT6 cable: 100m, fiber cable: 10 km 20 m 100 m – 1.2 kmTransmission serial serial serial frame point to point, serial serial
Description
Robust and inexpensive Automotive local interconnect network LIN (Local Interconnect Network) bus for local communication between actuators, sensors or switches and an ECU Cheaper option Can used at local sensors in cars
Serial, determini-stic bus system for real-time con-trol applications It provides fault-tolerant communi-cation for safety related applica-tions
MDI (Copper) standard IEEE 802.3 Ethernet interface for 1000BASE-T, 100BASE-TX, 10BASE-T connections (IEEE 802.3, 802.3u, 802.3ab) PCI Express* v 2.1 with 5.0 Gt/s and 2.5 Gt/s support for x1, x2, x4 links widths Flexible I/O virtualization for port partitioning and on-controller quality of service (QoS) of up to 32 virtual ports Scalable iSCSI performance delivering cost-effective SAN connectivity
IO-Link is the first I/O technology for communicating With sensors and actuators to be adopted as an international stan-dard. IO-Point-to-Link is a point to point connection parallel wiring technology based on the traditio-nal interconnection between sen-sor and control, a 3 wired cable
Process Field Bus is a standard for fieldbus communication in the automatization technology. It is the only fieldbus, that can be used both in the production automation and in the process automation Real Time Ethernet Protocol for industry Seamless integration to fieldbus systems RS-485 conform
Applications
Used in local sensors in Cars: heatings, fans, lamps, lights, door locks, power seats, etc.
Engine control ABS Break control Suspension control
Industry-leading Ethernet connectivity for network appliances, high-performance Ethernet adapters, dense rack architectures, and embedded applications. Industrial networks, factory automation, motor control, motion control, general embedded appl.
Standard industrial cabling, which makes IO-Link a universal solution that is extremely easy to inte-grate in existing infrastructures. Communication standard for factory & process automation
Building automation Factory automation
Interfaces
1) When serial, wired data transmission is needed over long distances, or at multi-megabit per second data rates, or in harsh environments a single ended transmission standard like RS-232 does not work.
25Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Interfaces and TransceiversAlways the Right Connection – The Perfect Match for Networking
Analog Sensors
Low-side power switches are typically used in engine management control units. They control all kinds of loads and functions around the engine. Enhanced monitoring functions ensure safe operation.Both devices are controlled via micro second channel bus (MSC). In addition, CJ960 offers an optional SPI control mode. For safe operation, supply voltage and MSC bus are permanently monitored. If supply voltage gets out of range or communication is interrupted, outputs will be disabled.Diagnostic functions include detection of short circuit to bat-tery, short circuit to ground, open load or over-temperature.
System Basis ICsCY326 and CY327
Low-side Power SwitchesCJ950 and CJ960
ICs for Automotive and Industrial Use
System Basis ICs for powertrain and transmission control combine several important ECU functions in one central chip: Power supply to the µC, other on-board devices and peripheral sensors. All voltages are permanently monitored; an intelligent watchdog (VDA E-Gas-compliant) checks the microcontroller for proper function. Main relay control allows power-saving deactivation of the entire board, a digital stop counter with 1s resolution enables long-time measurements. Communication between µC and CY326/7 is controlled via SPI interface. Integrated CAN and LIN drivers support the bus communication with other control units.
18 Fold Low-side Power Switch CJ950
8 Fold Low-side Power Switch CJ960
Parameter Unit Out 1.3
Out 2.4
Out 5..10
Out 11..14
Out 15..16
Out 17..18
Ron (25 °C) mΩ 150 260 500 500 1800 1800
Iout (nominal) A 4 / 8 3 2.2 2.2 0.6 0.6
Parameter Unit Out 1..4 Out 5..6 Out 7..8
Ron (25 °C) mΩ 230 700 550
Iout (nominal) A 3 1 1
Features CY326 CY327
Pre-regulatorBoost & buck regulator
for battery voltages down to 4 V
Boost & buck regulator for battery voltages down to 3 V
Supply voltages
Linear regulators: 5.0 V, 3.3 V, 2,6 V, 1.5 V
1 V (Standby)
Linear regulators: 5.0 V, 3.3 VExternal linear regulator MOSFET
switchable between 3.3 V and 5.0 VCore supply: Buck regulator, can be
set to 0.9 V to 1.525 V ±2% via 3 pins
Quiescent current 60 µA typically 50 µA typically
Coordinated soft start Yes for all regulators Yes for all regulators
External sensor supply 2 x 5 V 3 x 5 V and one diagnosis pin
for external voltage tracker
Main relay control Yes Yes
Reset circuit Yes Yes
Intelligent Watchdog Yes Yes
SPI control interface Yes Yes
Communication interface None 1 x LIN 2.1
1 x CAN driver with wake-up capability
Timer 22-bit stop counter with 1sec res. and wake-up
24-bit stop counter with 1sec resolution and wake-up
Ignition input Yes Yes
Wake-up input1 x Wake-up
1 x additional wake-up input for CAN signal
3 x Wake-up
Operating temp. -40 °C to +150 °C -40 °C to +150 °C
Package TQFP64 with exposed pad TQFP64/100 with exposed pad
Features Clamping voltage on all outputs: 55 V Operating temp.: -40 °C...+150 °C Package: TQFP64 with exposed pad
Features Clamping voltage on all outputs: 55 V Operating temp.: -40 °C ... +150 °C Package: PSO36
26 Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Analog Sensors
8 Fold Low-side Power Switch CJ960
27Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Parameter Value
Power stage active at 4.5 to 28 V
Load dump pulse robustness 40 V
Inverse current robustness on VS 5 A
Half bridge resistance at 3 Arms, 150°C Max. 540 mΩ
Current limit setting, 3 ranges 4 to 8.6 A
Continuous load current 3 Arms
Digital supply voltage 4.5 to 5.3 V
Junction temperature -40 to 150 °C
Output switching frequency Max.20 kHz
Output rise/fall slew rate setting at 3 A Typ. 1.7to 45 V/µs
CJ260 can drive either BLDC motors up to 60W with 3 pha-ses (in B6 bridge mode) or DC motors (in H-bridge mode). It includes protection against unwanted driver activation in case of over-/undervoltage, overcurrent, overtemperature or short circuit and can detect open loads.
Features Integrated drivers Direct µC control Dual release concept for safety Diagnosis and recovery functions Slew rate control, four stages SPI interface, compatible with 3.3 and 5 V logic µC Package: PowerSSO-36, Body 7.5 mm x 10.3 mm
Benefits Pre-drivers, logic and HS/LS powerstages in one package Extensive protection and diagnosis features B6 operation for higher torque
B6 Bridge ICCJ260
Analog Sensors
CAN, LIN & FlexRay
Because of the ever-increasing demand for data exchange in modern vehicles, the auto motive industry implemented networks like CAN (Controller Area Network), LIN (Local Interconnect Network) and FlexRay protocol-based bus systems.
Automotive Transceivers
Features & Benefits Broad product portfolio Outstanding ESD robustness Excellent EMC performance Low quiescent currents Worldwide OEM approval Highest quality Transceiver family concept
Selection Tree Transceivers
High-speed CAN(ISO 11898)
Up to 10 Mbit/s
LIN(LIN 1.3/2.1/2.2/2.2A;
SAE-J2602)
No wakeWake
FlexRay(EPL 3.0.1)
DualSingle LINLIN LDO
Automotive Transceivers
TLE8458GTLE8458GV33TLE8457ASJTLE8457ALETLE8457BSJTLE8457BLE
TLE7257SJTLE7257LETLE7258SJTLE7258LETLE7258D
TLE7259-3GETLE7259-3LE
TLE7269GTLE7268SKTLE7268LC
TLE6251DTLE6251DSTLE6251-2GTLE6251-3GTLE7251VSJTLE7251VLETLE8251VSJ
TLE9251SJ/VSJTLE9251LE/VLETLE9255WSKTLE9255WLCTLE9252VSKTLE9252VLC
TLE6250G/GV33TLE7250G/GVIOTLE8250G/GVIOTLE7250SJ/VSJTLE7250LE/VLE
TLE7250XSJTLE7250XLE
TLE8250SJ/VSJTLE8250XSJ
TLE9250SJ/VSJTLE9250LE/VLE
TLE9250XSJTLE7250XLE
TLE9221SXTLE9222PXTLE9222LC
Infineon is offering a broad product portfolio of automotive transceivers for these different automotive bus segments, that are perfectly suited and designed to withstand the harsh auto-motive environment. Dependent on the respective vehicle network architecture and the related ECU supply path, different transceiver types are used. Infineon transceivers ensure reliable communication and help minimize the current consumption and the related CO²-emissions at the vehicle level. The Infineon transceiver products provide the best value through high performance, ruggedness and reliable communication.
28 Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Analog Sensors
CAN
Product Interfaces Features
CF151 5 V μC interface High/low speed Slew rate control
CF160 5 V μC interface Supports up to 1 MBaud Optimized slew rate
CF163 3.3 V μC interface Supports up to 1 MBaud Optimized slew rate
CF173 3.3 V μC interface
Supports up to 1 MBaud Optimized slew rate Standby mode Wake-up detection Suitable also for truck applications
CF175 5 V μC interface
Supports up to 1 MBaud Optimized slew rate Standby mode Wake-up detection Suitable also for truck applications
CC750 1 x SPI Programmable global mask 15 message objects of 8-byte data length Programmable bit rate
CC7701 x SPI;
4 x parallel bus 2 x 8-bit I/O
Programmable global mask 15 message objects of 8-byte data length Programmable bit rate Flexible CPU interface Programmable clock output
Controller Area Network (CAN) Is a high-integrity serial data communications bus for real-time applications Operates at data rates of up to 1 Megabits per second Has excellent error detection and confinement capabilities Was originally developed by Bosch for use in cars Is now being used in many other industrial automation and control applications Is an international standard: ISO 11898
Features & Specifications
From the beginning, Bosch has been the driving force for CAN bus applications in automotive and industrial environment. A wide range of transceivers with individual features covers all applications. All devices feature a short circuit protection for the CAN bus lines.
CAN transceivers for partial networking are improving energy efficiency andmaking cars greener.
CAN transceivers for flexible data-rate are making CAN faster and do support data-rates up to 5 Mbits/s.
Classical CAN transceivers are available in standard DSO-8 and DSO-14 packages, along with thiny leadless TSON-8 packages.
Infineon offers a complete LIN transceiver family and introduces new LON LDO devices in DSO-8 and tiny TSON-8 packages.
Infineon provides FlexRay transceivers in SSOP-16, TSSOP-14 and the world‘s smallest FlexRay in TSON-14 package for reliable reliable communica-tion in safety-related applications.
29Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Analog Sensors
Type Intel® Ethernet Con-troller I210-IS
Intel® EthernetController I210-IT
Intel® Ethernet Controller I210-AT
Intel® Ethernet Controller I211-AT
Order Code WGI210IS WGI210IT WGI210AT WGI211AT
OperatingTemperature Range -40°C to 85°C -40°C to 85°C 0°C to 70°C 0°C to 70°C
Networking Specifications
# of Ports Single Single Single Single
System Interface Type PCIe v2.1 (2.5GT/s) PCIe v2.1 (2.5GT/s)
PCIe v2.1 (2.5GT/s)
PCIe v2.1 (2.5GT/s)
NC Sideband Interface Yes Yes Yes No
Jumbo Frames Supported Yes Yes Yes Yes
SGMII Interface Yes
SERDES Interface Yes
1000Base-T Yes Yes Yes
Speed & Slot Width 2.5 GT/s, x1 Lane
Package Specifications
Package Size 9 mm x 9 mm 9 mm x 9 mm 9 mm x 9 mm 9 mm x 9 mm
Low Halogen Options Available See MDDS See MDDS See MDDS See MDDS
MACsec IEEE 802.1 AE No No No No
IEEE 1588 Yes Yes Yes Yes
Fiber Channel over Ethernet No
iWARP/RDMA No
Whether you are looking for single, dual or quad port Ethernet controller, Intel is committed to solving your industrial Ethernet needs by providing solutions in various temperature ranges and package options.
The Intel® Ethernet Controller I210 family was designed for single-port GbE LOM applications. These controllers offer a fully integra-ted GbE media access control (MAC) and either a 1000BASE-T physical layer (PHY) port or SGMII/SerDes port that can be connected to an external PHY. These controllers support advanced features such as IEEE 802.3az (EEE), 802.1AS, and 802.1Qav (AVB). The Intel® Ethernet Controller I210 family supports management interfaces through NC-SI, SMBus, and MCTP over PCIe* and SMBus for flexible interfaces to external BMCs.
The Intel® Ethernet Controller I211-AT is for single-port GbE LOM designs. The compact (9 mm x 9 mm 64-pin QFN), low-power controller offers a fully integrated GbE media access control (MAC) and physical layer (PHY) port. It supports advanced features such as ECC packet buffers, IEEE 802.3az (EEE), 802.1AS, and an integrated non-volatile memory.
Intel® Ethernet Controller
Benefits Expected discontinuance Q1-29 Integrated triple-speed Base-T Phy Audio-Video Bridging (AVB) IEEE 1588/802.1AS time stamping Filled with performance optimization capabilities Small footprint Low cost Superior energy efficiency
Applications Industrial networks Factory automation Motor control Motion control General embedded applications
I210 and I211 Family
The Intel® Ethernet Controller I350 family builds on Intel’s history of delivering Ethernet products with flexible design and in-box driver support. Run up to four 1 GbE ports with enhanced power-saving and market-leading flexible I/O virtualization, including Virtual Machine Device Queues (VMDQ) and single root I/O virtualization (SR-IOV). Intel’s software drivers and support are unmatched for virtual or non-virtualized environments.
1350 Family
Key Features Flexible I/O virtualization for port partitioning and on-controller quality of service (QoS) of up to 32 virtual ports Scalable iSCSI performance delivering cost-effective SAN connectivity MDI (Copper) standard IEEE 802.3 Ethernet interface for 1000BASE-T, 100BASE-TX, 10BASE-T connections (IEEE 802.3, 802.3u, 802.3ab) PCI Express v 2.1 with 5.0 Gt/s and 2.5 Gt/s support for x1, x2, x4 links widths
30 Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Analog Sensors
Industrial TransceiversThe trend in industrial PC designs towards smaller form factors and more communication versatility is driving the development of modern bus transceivers. The industry’s most commonly used serial interface standards are RS-232 and RS-485
RS-232, RS-485 & RS-422
ISL4221E – RS-232 Transceiver in Ultra Small QFN Package
Renesas has over 100 different transceivers for data communication and industrial applications. Whether you‘re using RS-485/RS-422 protocol or RS-232 for portable or computing designs, we have the right solution.
Key Features Wide power supply range: +2.7 V to +5.5 V Very low, 300µA supply current Meets EIA/TIA-232 spec. down to VCC = 3.0 V Ultra small QFN package -40% smaller package than 20-lead TSSOP
Applications Space constrained system requiring RS-232 ports Battery powered and portable equipment Hand-held products (GPS receivers, bar code scanners, etc.) PDAs and palmtops, data cables Cellular/mobile phones, digital cameras
RS-232, RS-485 & RS-422
Part Number
No.Tx/Rx
Vcc [V]
Data Rate [Mbps min]
ESD [kV] Duplex Tx/Rx
EN Package Standard
ST485ABx
1/1 4.75-5.25
30 2
Half duplex Yes SO8 RS422,
RS485ST485x 2.5
ST485Ex 5 15
ST485ERx 2.5 15/8
ST1480Ax 1/1 3-3.6 12 15/8 Half duplex Yes DIP8, SO8 RS422,
RS485
ST3485Ex 1/1 3-3.6 200 2 Half duplex Yes SO16,
TSSOP16RS422, RS485
ST490ABx 1/1 4.5-5.5 25 3.5 Full duplex No SO8, DIP8 RS422,
RS485
ST26C31Bx 4/0 4.5-5.5 NA Yes DIP16, SO16, TSSOP16 RS422
ST26C32ABx 0/4 4.5-5.5 NA Yes DIP16, SO16, TSSOP16
RS422, RS423
RS-232 RS-485 & RS-422
The interface IC portfolio of STMicroelectronics includes a wide variety of devices needed in applications such as factory automation, set-top boxes, mobile devices, and communication infrastructure.
Part Number
No.Tx/Rx
Vcc [V]
Data rate [Kbps min]
ESD [kV] Package
ST202x2/2 4.5 - 5.5
200 2SO16 – TSSOP16
ST202Ex 230 15
ST207Ex 5/3 4.5 - 5.5 150 15 SSOP24
ST232Ax
2/2 4.5 - 5.5
200 2 SO16 – TSSOP16
ST232x 120 2 SO16, TSSOP, SO16L
ST232Ex 230 15 SO16
ST3222x2/2 3 - 5.5
240 2 TSSOP20
ST3222Ex 250 15/8 TSSOP20, SSOP20
ST3232x2/2 3 - 5.5
300 SO16, TSSOP16, SO16L
ST3232Ex 250 15/8 SO16, TSSOP16
ST3237Ex 5/3 3 - 5.5 250 1Mbps 15/8 SO28, SSOP28
ST3241Ex 3/5 3 - 5.5 250 15/8 SSOP28
ST3243Ex 3/5 3 - 5.5 250 15/8 TSSOP28
31Amplifier | Logic | Converter & Digital Potentiometer | Voltage References & Supervisor | Timer | Interface
Analog Sensors
Bosch Sensortec’s portfolio of motion sensors includes products for motion, orientation and gesture detection. Motion sensors are designed for several consumer electronics and IoT applications in the field of smartphones, wearables, smart home, drones, toys, virtual and augmented reality, gaming, as well as industrial applications.
Product Digital Resolution Zero-B Offset Magnetic Range
(typ.) Digital Interfaces Temperature Range (°C)
Average Current Consumption Package (mm³) Supply Voltage
BMM150 0.3 μT ±40 μT ±1300 μT (x,y-axis) ±2500 μT (z-axis)
I² C and SPI (2 interrupt pins) –40 to +85 170 μA (low-power preset)
500 μA (normal mode)CSWLP- (12 pin)
1.56 × 1.56 × 0.6VDD: 1.62 … 3.6 V VDDIO: 1.2 … 3.6 V
Geomagnetic Sensors
Inertial Measurement Units
Pro-duct
Acceleration Gyroscope Tempe-rature range (°C)
Supply Voltage (V)
Digital inputs/ outputs Power Consumption
LGA Package (mm³)
Digital Res. Range
Zero-g Offset (typ.)
Noise Density (typ.)
Digi-tal
Res.Range
Zero-g Ofset (typ.)
Noise Density (typ.)
BMI055 12 bit ±2 g, ±4 g, ±8 g, ±16 g
±70 mg
150 μg/√Hz
16 bit
±125, ±250, ±500, ±1000,
±2000 °/s±1 °/s 0.014
°/s/√Hz –40 …
+85VDD: 2.4 … 3.6
VDDIO: 1.2 … 3.6SPI, I²C,
4 × digital interruptsFull operation: 5.15 mA Suspend mode: 6 μA
3.0 × 4.5 × 0.95
BMI160 16 bit ±2 g, ±4 g, ±8 g, ±16 g
±40 mg
180 μg/√Hz
16 bit
±125, ±250, ±500, ±1000,
±2000 °/s±3 °/s 0.007
°/s/√Hz –40 …
+85VDD: 1.71...3.6
VDDIO: 1.2 … 3.6SPI, I²C,
4 × digital interruptsFull operation: 925 μA Suspend mode: 3 μA
2.5 × 3.0 × 0.83
Acceleration Sensors
Product Digital Resolution Range
Zero-g offset (typ.)
Noise density (typ.)
Bandwidths Inter-faces
Tempe-rature range
Supply Voltage
LGA Package (mm³)
FIFO Features/ Interrupts Power
BMA253 12 bit
±2 g, ±4 g, ±8 g, ±16 g
±80 mg 220 μg/√Hz 8 Hz ... 1000 Hz
SPI & I²C, 2 × digital interrupt
pins
–40 … +85 °C
VDD: 1.62 … 3.6 V
VDDIO: 1.2 … 3.6 V
2.0 × 2.0 × 0.95
32 Frames
Any-/no-motion Freefall Orientation/Flat Low-g/High-g Tab/Double Tab
Full operation: 130 μA
(@ 2 kHz data rate)Low-power mode:
6.5 μA (@ 40 Hz data rate)
BMA280 14 bit ±50 mg 120 μg/√Hz 8 Hz ... 500 Hz
BMA423 12 bit ±80 mg 140 μg/√Hz
5 ... 684 Hz (ODR: 0.8 ...1600 Hz)
2.0 × 2.0 × 0.95
1 KB
Step Counter (for wearables) Tilt on wrist Tab/Double Tab Any-/no-motion
Full operation: 150 μA
Low-power mode: 13 μA
(@ 50 Hz data rate)BMA456 16 bit ±20 mg 120
μg/√Hz5 ... 684 Hz
(ODR: 0.8 ... 1600 Hz)2.0 × 2.0 × 0.65
ProductDigital resolu-
tionRange
Zero-g Offset (typ.)
Zero-rate Offset Over
Temperature
Noise density (typ.)
Date Rates (programmable) Interfaces
Tempe-rature range
Supply VoltageLGA
Package (mm³)
Power
BMG250 16 bit±125, ±250, ±500, ±1000,
±2000 °/s±3 °/s 0.05 °/s/K 0.007
°/s/√Hz
25 … 3.200 Hz for
UI IF 6.400 Hz for OIS/EIS IF
For primary UI IF: I² C up to 1 MHz 3w / 4w SPI 2 × digital interrupts for secondary
OIS/EIS IF: 3w SPI up to 10 MHz
–40 … +85 °C
VDD: 1.7 … 3.6 V VDDIO: 1.2 … 3.6 V
2.5 × 3.0 × 0.8
Full operation: 850 μA
Suspend mode: 3 μA
Gyroscopes
32 MEMS | Environmental | Optical | Magnetic | Current |
Inertial Sensors At the Core of Everyday Life
Analog Sensors
Product Acceleration Gyroscope Geomagnetic Hardware Fusion SW Power Consumption Interfaces Voltage Temperature
RangePackage Size
(mm³)
BMF055 14 bit 16 bit±1300 μT (x,y-axis)
±2500 μT (z-axis)ARM Cortex M0+ no Depends on the custom
specific sensor fusion
I² C UART
HID-I2C
VDD 2.4 to3.6 V VDDIO:
1.7 to 3.6 V–40 to +85 °C 3.8 × 5.2 × 1.13
BNO055 14 bit 16 bit
±1300 μT (x,y-axis)
±2500 μT (z-axis)
ARM Cortex M0+ yes
Suspend mode: 40 μA
9DOF @100Hz Output data rate:
12.3 mA
I² C UART
HID-I2C
VDD 2.4 to 3.6 VDDIO:
1.7 to 3.6 V–40 to +85 °C 3.8 × 5.2 × 1.13
The portfolio of intelligent sensor hubs is specifically designed for always-on sensor applications in smartphones, wearables and tracking devices. It offers flexible, low-power solutions for motion sensing and sensor data processing. The family of Application Specific Sensor Nodes (ASSNs) provides an intelligent 9-axis “Absolute Orientation Sensor”, including an accelerometer, gyroscope, magnetometer and a microcontroller running the BSX sensor data fusion in a single package.
Application Specific Sensor Nodes (ASSNs)
Product Acceleration Gyroscope Integrated MCU
Integrated SW & Algos
Power Consumption (including MCU) Interfaces Supply
VoltageTemperature
RangePackage Size
(mm³)
BHA250 14 bit n/a
32 bit floating-point ARC EM4 MCU running
at 10 MHz. 96 kByte ROM 48 kByte RAM
BSX fusion Activity recognition Gesture recognition
Step detector Step counter
Suspend mode: 11 μA Hub+Acc @100 Hz
ODR: 430 μA
I² C up to 3.4 MBit/s
3 × GPIO, 1× Host-INT
VDD: 1.71 ... 3.6 V VDDIO: 1.20 ... 3.6 V –40 … +85 °C 2.2 × 2.2 × 0.95
BHI160 16 bit 16 bit
32 bit floating-point ARC EM4 MCU running
at 10 MHz. 96 kByte ROM 48 kByte RAM
BSX fusion Activity recognition Gesture recognition
Step detector Step counter
Suspend mode: 11 μA Hub+IMU @100 Hz
ODR: 1.2 mA
I² C up to 3.4 MBit/s
3 × GPIO, 1× Host-INT
VDD: 1.71 ... 3.6 V VDDIO: 1.20 ... 3.6 V –40…+85°C 3.0 × 3.0 × 0.95
Smart Hubs
33MEMS | Environmental | Optical | Magnetic | Current |
Smart Sensors Enablers for the I oT
Analog Sensors
Vehicle comfort features like navigation, tilt or inclination measurement, telematics, car key modules, car alarm or eCall systems are a rapidly growing field of application for MEMS sensors. Typically, the required performance level for these MEMS sensors is lower compared to sensors for sophisticated safety applications like airbag or vehicle stability systems. Therefore, Bosch developed the con-cept for a set of highly effective MEMS sensors for motion detection in comfort applications.
Automotive MEMS – SMI130, SMG130, SMA130
6-axis Inertial SensorSMI130Features 6-axis inertial module 3-axis accelerometer / 3-axis gyroscope Programmable measurement ranges: ± 125 dps to ± 2000 dps (gyro) / ± 2 g to ± 16 g (accel.) 8 bit temperature sensor output Embedded filters with programmable bandwidth & self-test Interface: SPI and I2C Digital resolution: 16 bit (gyroscope), 12 bit (accelerometer) Ambient temperature: -40 °C … +85 °C Supply voltage (VDD): 2.4 - 3.6 V Supply current: gyroscope: <6.5 mA / accelerometer: <0.2 mA Package: LGA-16 (3.0 x 4.5 x 0.95 mm3)
3-axis AccelerometerSMA130*Features 3-axis accelerometer Programmable measurement ranges: ± 2 g to ± 16 g 8 bit temperature sensor output Embedded filters with programmable bandwidth Embedded self-test Interface: SPI and I2C Digital resolution: 14 bit Ambient temperature: -40 °C … +85 °C Supply voltage (VDD): 1.62 - 3.6 V Supply current: 130 µA (power-safe modes: 1 µA … 66 µA) Package: LGA-12 (2.0 x 2.0 x 0.95 mm3)
Benefits Extremely flexible application options Cost-effective Ultra compact sensor design gives small footprint Low power consumption – also at system level Billion-fold applied technology (due to CE background) RoHS compliant and AEC-Q100 qualification
Applications Car alarm, car key module Telematics and tolling systems Navigation (dead reckoning) eCall Vehicle dynamics data logging
* Sensor variant with reduced performance also available: SMA131
SMG130 SMG130 is a derivate of the SMI130 with disabled acceler-ometer. Sensing element, ASIC, specification and package stay the same, but come at reduced costs.
Benefits Extremely flexible application options Cost-effective Ultra compact sensor design gives small footprint Low power consumption – also at system level Billion-fold applied technology (due to CE background) RoHS compliant and AEC-Q100 qualification
Applications Navigation (dead reckoning) Telematics and tolling systems eCall Vehicle dynamics data logging Platform stabilization and Car alarm
non-safetyautomotive applications
Automotive
e.g. ESP®
safety-critical– long product availability– AEC-Q100 qualification
e.g. smartphoneno safety relevance– short product availability– very small footprint– low power consumption
Consumer
AEC-Q100 qualification Product availability > 10 years Increased testing scope Different quality and change management
34 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
MEMS Sensors
AccelerometerSCA3300 – Digital 3-axis Accelerometers User selectable measurement range: ±1.5 g, ±3 g, ±6 g Extensive self-diagnostics features Mechanically damped sensing element design for superior tolerance against mechanical shocks and vibrations SPI digital interface −40 °C to +125 °C operating range 3.0 V-3.6 V supply voltage with 1 mA current consumption Proven capacitive 3D-MEMS technology AEC-Q100 qualified
Benefits Excellent bias stability Low noise level Vibration robustness
Applications Professional leveling Angle measurement and control Inertial Measurement Units for heavy machine and automotive (ADAS) Tilt compensation Motion analysis and control Intelligent transmission control Navigation systems
InclinometerSCA103T – High Performance Differential 1-axis Inclinometer Most accurate single axis MEMS inclino meter with differential outputs that can be converted to single ended by using an external differential amplifier Digital 11-bit (SPI) and analog interface Temperature compensated output Available in measurement ranges of ±15 and ±30 degrees Size 11.31 x 15.58 x 5.08 mm³ (w x l x h) 7 μg/√Hz noise density -0.001º resolution (10 Hz BW, analog output) Offset temperature dependency (-25 to 85 °C) ± 0.002 °/°C RoHS compliant
Benefits Robust design High performance
Applications Heavy duty vehicles Platform levelling and stabilization Rotating laser levels Leveling instruments
Acceleration & GyroscopeSCC2000 – Combined X or Z-axis Gyroscope and 3-axis Accelerometer
Gyroscope ±125°/s or ±300°/s FS Accelerometer ±2 g or ±6 g FS SPI digital interface User selectable low pass filter via SPI −40 °C...+125 °C operating range 3.0 V – 3.6 V supply voltage Size 15.0 x 8.5 x 4.35 mm (l x w x h) AEC-Q100 qualified
Benefits Extensive self diagnostics features Excellent bias stability, low noise level and good vibration robustness Proven capacitive 3D-MEMS technology
Applications Inertial measurement units (IMUs) for highly demanding environments Platform stabilization and control Machine control systems Electronic Stability Control (ESC) Hill Start Assist (HSA) Roll over detection Navigation systems
35MEMS | Environmental | Optical | Magnetic | Current |
Murata develops and produces high performance and highly reliable accelerometers, gyro sensors and inclinometers. Murata MEMS sensors are robust structures that are very sensitive to inertial forces but are insensitive to other environmental variables and causes of failure. Murata's silicon capacitive sensors are made of single crystal silicon and glass. These materials and proprietary sensor designs ensure reliability, high accuracy and excellent stability over time and temperature. Murata’s inertial sensors robustness and design make them suitable for their target markets with stringent operating conditions such as safety critical automotive, industrial and medical applications.
Analog Sensors
ST has shipped more than 13 billion micro-electromechanical sensors and has one of the industry‘s most extensive sensor portfolio including proximity and MEMS accelerometers, gyroscopes, digital compasses, inertial modules, microphones, and environmental sensors such as pressure, temperature and humidity sensors.
MEMS & SensorsThe Most Diversified and Complete MEMS and Sensors Supplier
Benefits 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 highly-demanding 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
Sensors for Improving Wearable ApplicationsAthlete performance monitoring Movement recognition through shoes and wearable sensors (AXL, GYRO, PS) Sport equipment swing detection swing detection (AXL, GYRO, MAG) Body tracking recognition (AXL, GYRO, MAG, PS)
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
Complete Solution Large sensor portfolio 100% security of supply Integrated hardware and software solutions Scalability of solutions Quality is a must for ST ST is MEMS market leader
Move / Actuate
Connect
Power
Sense
Process
Accelerometer, gyroscope
Inertial modules, magnetometerPressure, temperature, humidity
Proximity, microphone
Bluetooth LE, Sub-GHz radio
NFC, Wi-Fi, GNSS
Energy management & battery
COLLECT
TRANSMIT
ACCESS
CREATE
POWER
PROCESS
Software
General-purpose MCUs
Secure MCUs
Audio amplifier
Touch controller
Operation AmplifierTranslate
Stepper motor driverDC & BLDC motor driverIndustrial input / output
STM32 Open Development Environment
36 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
ST’s industrial MEMS sensors offer superior accuracy, flexibility and high quality required to satisfy Industry 4.0 requirements and are part of ST’s 10-year product longevity commitment program.
MEMS Sensors for Smart Industry 4.0High-performance & Ultra-low-power Sensing Solutions
Key Applications Predictive maintenance and early failure detection Industrial IoT and connected devices Robotics, automation and drones Power saving and motion-activated functions Appliances Inertial navigational systems and motion tracking Antenna and platform pointing, leveling and stabilization Precision inclinometer and leveling instruments Optical image and lens stabilization Anti-tampering in smart meters Positional and distance sensor Presence detection, magnetic switch Variable magnetic field monitoring
Benefits of 10-Year Product Longevity Commitment Program
ST’s broad range of sensors includes 3-axis miniaturized accelerometers, 6-axis inertial modules, magnetometers / eCompass and pressure sensors. Scalable modules with up to 6 axis (3 axis accelerometer + 3 axis gyroscope or 3 axis magnetic, 3 axis magnetic, 1 pressure or temperature) with drivers as well as ST’s Open. MEMS catalog of free and easy-to-use software libraries and the STM32 Open Development Environment.
Industry
Part Number Description IDD (mA) Key Parameters Package
IIS2DH 3-axis accelerometer with digital output 0.011 HP mode 50 Hz ODR
3 uA current consumption at 10Hz ODR; 185 uA current consumption at wide bandwidth and ODR 5.3 Khz LGA-12L 2.0 x 2.0 x 1 mm
I3G4250D 3-axis gyroscope with digital output 6.1 FS ±250/±500/±2000; Stability over temperature LGA-16L 4 x 4 x 1.1 mm
IIS328DQ 3-axis accelerometer with digital output for industrial applications 0.250 Operating temperature up to 105 °C QFN-24L
4 x 4 x 1.8 mm
ISM330DLC iNEMO inertial module: 3-axis accelerometer and 3-axis gyroscope 0.75 combo HP mode Rate noise density in high-performance mode (HPM) Gyroscope:
3.8 mdps/√Hz; Accelerometer: 90 ug/√HzLGA-14L
2.5 x 3 x 0.83 mm
IIS3DHHC High-performance 3-axis inclinometer with digital output 2.5 Meas. range: FS ± 2.5 g Offset change with Temp <0.4 mg/C
Noise density: 45 µg/√HzCC LGA-16
5 x 5 x 1.7 mm Ceramic
IIS2MDC High accuracy , ultra-low-Power, 3-axis: Digital output Magnetometer
0.2 HP 0.05 LP
± 50 gauss magnetic dynamic range. 3 magnetic field channels Noise 3mGauss (rms)
LGA-12 2.0 x 2.0 x 0.7 mm
ISM303DACeCompass 3-axis magnetometer+3axis accelerometer High performance, low power, compact
0.032 LP combo mode 1.45 HP combo mode
3-axis mag. FS ±50Ga 3-axis axl FS ±16g High resolution,High frequency and Low Power modes
LGA-12L 2.0 x 2.0 x 1 mm
BENEFITS OF ST’S 10-YEAR PRODUCT LONGEVITY COMMITMENT PROGRAM
DESIGN AND MANUFACTURING
FOR HIGHER ROBUSTNESS & PERFORMANCES
CALIBRATION & TESTING FOR
HIGHER ACCURACY & QUALITY
EXTENDED TEMPERATURE
RANGE AND ENDURANCE
TO SHOCK AND VIBRATION
10-YEAR LONGEVITY FROM
PRODUCT INTRODUCTION
DATE
Robotics Appliances Building automation DefenseMedical Navigation
BENEFITS OF ST’S 10-YEAR PRODUCT LONGEVITY COMMITMENT PROGRAM
DESIGN AND MANUFACTURING
FOR HIGHER ROBUSTNESS & PERFORMANCES
CALIBRATION & TESTING FOR
HIGHER ACCURACY & QUALITY
EXTENDED TEMPERATURE
RANGE AND ENDURANCE
TO SHOCK AND VIBRATION
10-YEAR LONGEVITY FROM
PRODUCT INTRODUCTION
DATE
Robotics Appliances Building automation DefenseMedical Navigation
BENEFITS OF ST’S 10-YEAR PRODUCT LONGEVITY COMMITMENT PROGRAM
DESIGN AND MANUFACTURING
FOR HIGHER ROBUSTNESS & PERFORMANCES
CALIBRATION & TESTING FOR
HIGHER ACCURACY & QUALITY
EXTENDED TEMPERATURE
RANGE AND ENDURANCE
TO SHOCK AND VIBRATION
10-YEAR LONGEVITY FROM
PRODUCT INTRODUCTION
DATE
Robotics Appliances Building automation DefenseMedical Navigation
BENEFITS OF ST’S 10-YEAR PRODUCT LONGEVITY COMMITMENT PROGRAM
DESIGN AND MANUFACTURING
FOR HIGHER ROBUSTNESS & PERFORMANCES
CALIBRATION & TESTING FOR
HIGHER ACCURACY & QUALITY
EXTENDED TEMPERATURE
RANGE AND ENDURANCE
TO SHOCK AND VIBRATION
10-YEAR LONGEVITY FROM
PRODUCT INTRODUCTION
DATE
Robotics Appliances Building automation DefenseMedical Navigation
BENEFITS OF ST’S 10-YEAR PRODUCT LONGEVITY COMMITMENT PROGRAM
DESIGN AND MANUFACTURING
FOR HIGHER ROBUSTNESS & PERFORMANCES
CALIBRATION & TESTING FOR
HIGHER ACCURACY & QUALITY
EXTENDED TEMPERATURE
RANGE AND ENDURANCE
TO SHOCK AND VIBRATION
10-YEAR LONGEVITY FROM
PRODUCT INTRODUCTION
DATE
Robotics Appliances Building automation DefenseMedical Navigation
BENEFITS OF ST’S 10-YEAR PRODUCT LONGEVITY COMMITMENT PROGRAM
DESIGN AND MANUFACTURING
FOR HIGHER ROBUSTNESS & PERFORMANCES
CALIBRATION & TESTING FOR
HIGHER ACCURACY & QUALITY
EXTENDED TEMPERATURE
RANGE AND ENDURANCE
TO SHOCK AND VIBRATION
10-YEAR LONGEVITY FROM
PRODUCT INTRODUCTION
DATE
Robotics Appliances Building automation DefenseMedical Navigation
BENEFITS OF ST’S 10-YEAR PRODUCT LONGEVITY COMMITMENT PROGRAM
DESIGN AND MANUFACTURING
FOR HIGHER ROBUSTNESS & PERFORMANCES
CALIBRATION & TESTING FOR
HIGHER ACCURACY & QUALITY
EXTENDED TEMPERATURE
RANGE AND ENDURANCE
TO SHOCK AND VIBRATION
10-YEAR LONGEVITY FROM
PRODUCT INTRODUCTION
DATE
Robotics Appliances Building automation DefenseMedical Navigation
BENEFITS OF ST’S 10-YEAR PRODUCT LONGEVITY COMMITMENT PROGRAM
DESIGN AND MANUFACTURING
FOR HIGHER ROBUSTNESS & PERFORMANCES
CALIBRATION & TESTING FOR
HIGHER ACCURACY & QUALITY
EXTENDED TEMPERATURE
RANGE AND ENDURANCE
TO SHOCK AND VIBRATION
10-YEAR LONGEVITY FROM
PRODUCT INTRODUCTION
DATE
Robotics Appliances Building automation DefenseMedical Navigation
BENEFITS OF ST’S 10-YEAR PRODUCT LONGEVITY COMMITMENT PROGRAM
DESIGN AND MANUFACTURING
FOR HIGHER ROBUSTNESS & PERFORMANCES
CALIBRATION & TESTING FOR
HIGHER ACCURACY & QUALITY
EXTENDED TEMPERATURE
RANGE AND ENDURANCE
TO SHOCK AND VIBRATION
10-YEAR LONGEVITY FROM
PRODUCT INTRODUCTION
DATE
Robotics Appliances Building automation DefenseMedical Navigation
BENEFITS OF ST’S 10-YEAR PRODUCT LONGEVITY COMMITMENT PROGRAM
DESIGN AND MANUFACTURING
FOR HIGHER ROBUSTNESS & PERFORMANCES
CALIBRATION & TESTING FOR
HIGHER ACCURACY & QUALITY
EXTENDED TEMPERATURE
RANGE AND ENDURANCE
TO SHOCK AND VIBRATION
10-YEAR LONGEVITY FROM
PRODUCT INTRODUCTION
DATE
Robotics Appliances Building automation DefenseMedical Navigation
37MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
ST has shipped more than 13 billion micro-electromechanical sensors and has one of the industry‘s most extensive sensor portfolio including proximity and MEMS accelerometers, gyroscopes, digital compasses, inertial modules, microphones, and environmental sensors such as pressure, temperature and humidity sensors.
LIS2DW12Flexible Ultra-low-power 3-axis Smart Accelerometer in a 2 x 2 x 0.7 mm Package
Key Features Acceleration range: ±2/±4/±8/±16 g Multiple operating modes with multiple bandwidths 32-level FIFO Noise density (accel.): 90 μg/√Hz Very low noise down to 1.3 mg RMS in low power mode 16-bit output resolution Ultra-low power consumption:
Power-down mode: 50 nA Low-power mode: < 1 µA @ ODR = 12.5 Hz
Supply voltage range: 1.62 to 3.6 V Temperature range: -40 to +85 °C I²C/SPI digital interfaces LGA-12 package (2 x 2 x 0.7 mm)
Enhanced Flexibility with Eembedded FIFO32-level first-in, first-out (FIFO) buffer allowing the user to store data in order to limit intervention by the host processor.
Higher Thermal StabilityOver the entire operating tempera-ture range from -40 to +85 °C
Ultra-low Power Consumption High-performance mode: 90 µA @ ODR = 12.5 to 1600 Hz Low-power mode: 5 µA @ ODR = 100 Hz 3 µA @ ODR = 50 Hz 1 µA @ ODR = 12.5 Hz 0.38 µA @ ODR = 1.6 Hz Power-down mode: 50 nA
Advanced Digital FeaturesDedicated internal engine to process motion and acceleration detection: Free-fall wakeup 6D/4D orientation Tap and double-tap recognition Activity/inactivity recognition Portrait/landscape detection
Key Applications Motion detection for wearables Gesture recognition and gaming Motion-activated functions and user interfaces Display orientation Tap/double-tap recognition Free-fall detection Smart power saving for handheld devices Impact recognition and logging Hearing aids Portable healthcare devices Wireless sensor nodes Motion-enabled metering devices
Advanced Applications
Parameter High-perf. Mode
Low-power Mode 4
Low-power Mode 3
Low-power Mode 2
Low-power Mode 1
Resolution 14-bit 14-bit 14-bit 14-bit 12-bit
Noise density (µg/√Hz) 110 160 210 300 550
Parameter High-perf. Mode
Low-power Mode 4
Low-power Mode 3
Low-power Mode 2
Low-power Mode 1
Resolution 14-bit 14-bit 14-bit 14-bit 12-bit
Noise density (µg/√Hz) 90 130 180 240 450
Ope
ratin
g M
odes
Low-noise Mode>Disabled<
Low-noise Mode>Enabled<
38 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
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 accele-rometers make them an ideal choice for wearable applications and where long battery life is required.
ST’s digital compasses include combo solutions, with an accele-rometer 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.
iNEMO System-in-packages (SiP) combine accelerometer, gyro-scope and magnetometer in a monolithic 6-axis or 9-axis solution. The integration of multiple sensor outputs bring motion sensing systems to the level of accuracy required for the most demanding applications, such as enhanced gesture recognition, gaming, aug-mented reality, indoor navigation and localization-basd services.
Motion Sensors
Features Low power consumption and smart ultra-low-power operating modes including Always-on High resolution: accuracy and stability Smart embedded features for less power hungry systems Ultra compact devices in packages smaller than 4 mm3
Selectable full-scale up to 16g Advanced digital features Pin to pin compatible product family
Features Ultra-compact high-performance magnetometer module Wide magnetic sensor dynamic range and ultra low magnetic offset Pin to pin compatible product family Embedded self test and temp. compensated
Features Always-on 3D accelerometer and 3D gyroscope Android M compliant Pedometer, step detector and step counter Rate noise density 4mdps/√Hz (High Perf. Mode) Embedded self test and temperature sensor
Part Number DescriptionPower cons. in PDLow Power ModeNormal Mode (µA)
Key Parameters Package Size (mm)
LIS2DW12 3-axis accelerometer, 12 to 14 bit resolution
0.05 0.38 @1.6Hz, 3 / 16 @50Hz
120 in HPM @50Hz
32-level, FIFO, self test, temp sensor, high resolution very low power LGA-12, 2 x 2 x 0.7
LIS2DH12 3-axis accelerometer, 8 to 12 bit resolution
0.5 2 @1Hz, 6 @ 50Hz,
11 @50Hz
32-level, FIFO, self test, temp sensor, 12-bit resolution, low power, cost effective LGA-12, 2 x 2 x 1
LIS2DE12 3-axis accelerometer, 8 bit resolution
0.5 2 @1Hz, 6 @50Hz
32-level, FIFO, self test, temp sensor, 8 bit resolution, low power LGA-12, 2 x 2 x 1
Part Number Full Scale Noise Density (Typ.) Package Size (mm) Key Features
LSM303AGR 2, ±4, ±8, ±16 g±50 gauss
220 μg/√Hz3 mgauss LGA-12, 2 x 2 x 1 Ultra-low-power, high-performance,
3D digital accelerator sensor and 3D digital magnetic sensor
LSM303AH ±2, ±4, ±8, ±16 g±50 gauss
120 μg/√Hz3 mgauss LGA-12, 2 x 2 x 1 Ultra-compact, high-performance e-compass 3D accelerometer
and 3D magnetometer module
LIS2MDL ±50 gauss full scale 3 mgauss LGA-12, 2 x 2 x 0.73-axis magnetometer standalone,
power consumption (@ODR=20Hz): 200 µA in high resolution,50 µA in low power & 2 µA in power down
Part Number Description IDD (mA) Key Parameters Package
LSM6DSL iNEMO inertial module: 3-axis accelerometer and 3-axis gyroscope
0.65 combo HP mode
Rate noise density in high-performance mode (HPM) Gyroscope: 4 mdps/√Hz
Accelerometer: 90 ug/√Hz
LGA-14L 2.5 x 3 x 0.83 mm
LSM6DSM iNEMO inertial module: 3-axis accelerometer and 3-axis gyroscope
0.65 combo HP mode
Optimized for Optical Image Stabilization Gyroscope: 3.8 mdps/√Hz Accelerometer: 90 ug/√Hz
LGA-14L 2.5 x 3 x 0.83 mm
Accelerometers
Digital Compasses
iNEMO® Inertial Modules
39MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
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 and Software Development Tools.
Design Support
Product Evaluation BoardsST 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 sche-matics, BOMs and Gerber files to facilitate your hardware design. Many, where appropriate, also have demonstration software packages available as well.
Sensors Ecosystem: HW + SW
STM32 Open Development EnvironmentThe STM32 Open Development Environment is a fast and affordable way to prototype and develop innovative applica-tions with state-of-art ST components based on the STM32 32-bit micro controller 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 NucleoDevelopment boards
• Set of boards based onSTM32 microcontrollerfamilies
• Debugger/programmerfunctionality
• Expansion capabilities
X-NUCLEOSTM32 Nucleo expansion boards
STM32CubeDevelopment software
• Set of boards with additionalfunctions to STM32 Nucleoones
• Pluggable boards on top ofthe STM32 Nucleo or stackedon another expansion board
• SW libraries for each STM32microcontroller family
X-CUBESTM32Cube expansion software
• SW drivers of eachX-NUCLEO
STM32 NucleoDevelopment boards
• Set of boards based onSTM32 microcontrollerfamilies
• Debugger/programmerfunctionality
• Expansion capabilities
X-NUCLEOSTM32 Nucleo expansion boards
STM32CubeDevelopment software
• Set of boards with additionalfunctions to STM32 Nucleoones
• Pluggable boards on top ofthe STM32 Nucleo or stackedon another expansion board
• SW libraries for each STM32microcontroller family
X-CUBESTM32Cube expansion software
• SW drivers of eachX-NUCLEO
The STM32 Open Development Environment is compatible with a number of IDEs including IAR EWARM, Keil MDK-ARM, ARM® mbed™ and GCC-based environments.
Sensors Ecosystem: HW + SW
ST Morpho connector
Arduino UNO R3 connector
DIL 24-pin
Sensor drivers and examples in source code
SW Libraries: sensor fusion, man activity, calibration
High level ready to use applications
HumidityPressure
6-axis IMUE-Compass Unicleo-GUI
Graphical User Interface
Sensors Ecosystem: HW + SW
ST Morpho connector
Arduino UNO R3 connector
DIL 24-pin
Sensor drivers and examples in source code
SW Libraries: sensor fusion, man activity, calibration
High level ready to use applications
HumidityPressure
6-axis IMUE-Compass Unicleo-GUI
Graphical User Interface
Sensors Ecosystem: HW + SW
ST Morpho connector
Arduino UNO R3 connector
DIL 24-pin
Sensor drivers and examples in source code
SW Libraries: sensor fusion, man activity, calibration
High level ready to use applications
HumidityPressure
6-axis IMUE-Compass Unicleo-GUI
Graphical User Interface
Sensor drivers and examples in source code
SW Libraries: sensor fusion, man activity, calibration
High level ready to use applications
Unicleo-GUI Graphical User Interface
Unicleo-GUI Graphical User Interface
40 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
The STEVAL-BCNKT01V1 integrated development and prototyping platform for augmented acoustic and motion sensing for IoT applications builds on the listening and balancing capabilities of the human ear.
BlueCoin Development Kit
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.
Features 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) Output Package (mm)
MP23AB01DH -38 ±1 65 135 2.3 – 3.6 220 Differential RHLGA metal cap, 2.5 x 3.35 x 0.98
MP34DT01-M -26 ±3 61 120 1.64 – 3.6 650 PDM HCLGA-4LD, 3 x 4 x 1
MP34DT05-A -26 ±3 64 122.5 1.6 – 3.6 650 PDM HCLGA-4LD 3 x 4 x 1.06
MEMS Microphones
BlueCoin Development Kit PreviewAugmented hearing and motion sensing
4x Microphone
Bluetooth Low Energy processor
Balun FilterSMD Antenna
Barometer3D accelerometer 3D magnetometer
3D accelerometer & gyroscope
STM32 performance MCU
Power management
Expansion connectors2x buttons
8 LEDs
25 mm
Augmented Hearing and Motion Sensing
Beamforming
reference audio
Acoustic Echo Cancellation
Source Localization
4 MEMS Microphones
Array
• User-selectable angle resolution• User-selectable activation threshold• Based on 4 MEMS microphones• 360° localization range
• User-selectable beam direction• User-selectable beamforming algorithm• Based on 4 MEMS microphones• GUI highlights the chosen microphone couple
• Based on a single MEMS microphone• Reference audio is stored on STM32 FLASH• Uses Audio OUT to play back audio while
streaming cleaned speech on USB
Smart Acoustic1 Software Package
41MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Barometric pressure sensors are a key component in engine management. They measure the current ambient barometric pressure, which continuously fluctuates based on altitude, weather conditions and ambient temperature. The engine management system utilizes the sensor data to seamlessly adjust the optimum air-fuel mixture. This reduces fuel consumption as well as CO2 emissions and other pollutants. Having the ideal air-fuel mixture also helps to maximize engine performance and lowers engine noise. As well as helping with engine management, the latest sensor generation, SMP580, can also be used in dynamic multi-contour seats. The sensors are integrated into the air chambers of the multi-contoured air cushioned seats, and ensure that the seats adapt to the anatomy of the driver and front-seat passenger.
Barometric Pressure Sensorsfor Automotive Applications
SMD288 – Analog Output
Features Measurement range: 40 … 115 kPa Accuracy: 1.5 kPa (0 °C … 85 °C) Ratiometric analog output Ambient temperature: -40 °C … +125 °C Supply voltage (VDD): 5 V Supply current: <12.0 mA Package: PM8 (10.5 x 6.9 x 4.6 mm3)
Benefits High measurement accuracy and long-term stability Fast analog technology Open circuit detection capability Short circuit and ESD protected Customized pressure ranges upon request RoHS compliant and AEC-Q100 qualification
Applications Engine management Navigation (height measurement)
42 MEMS | Environmental | Optical | Magnetic | Current |
SMP580 – Digital Output
Features Measurement range:
40 … 115 kPa (engine management) 60 … 165 kPa (seating systems)
Accuracy: <1.0 kPa (0 °C … 85 °C) Interface: SPI Digital resolution: 10, 12 or 16 bit Ambient temperature: -40 °C … +125 °C Supply voltage (VDD): 3.3 – 5 V Supply current: ≤5 mA Package: SOIC8 (4.9 x 3.9 x 1.5 mm3)
Benefits Very high measurement accuracy and long-term stability Digital interface for pressure and temperature output Very robust design Customized pressure ranges and transfer functions upon request RoHS compliant
Applications Engine management Seat comfort systems
Analog Sensors
Our portfolio of environmental sensors includes barometric pressure sensors, as well as integrated environmental sensors. These integrated environmental sensors combine barometric pressure, relative humidity, gas and ambient temperature sensing functions. Environmental sensors are ideally suited for indoor air quality measurement, sport & fitness monitoring, weather forecast, home automation control, Internet of Things, GPS-enhancement and indoor navigation.
Environmental Sensorsfor I oT & Consumer Electronics Applications
Barometric Pressure Sensors
Integrated Environmental Units
Product Operation Range
Relative Accuracy 700 … 900 hPa(Temperature = +25 … +40 °C)
Absolute Accuracy
(-20 … +65°C)
Power Consumption
Supply Voltage Noise*
Long Term Stability (1 yrs)
TCO Inter-face
Package Dimensions
(mm3)
BMP280 300 … 1100 hPa ±0.12 hPa (±1 m) ±1 hPa 2.74 μA @ 1Hz VDDIO: 1.2 ... 3.6 V
VDD: 1.71 ... 3.6 V 0.2 Pa ±1 hPa ±1.5 Pa/K I² C and SPI
8-Pin LGA with metal 2.0 × 2.5 × 0.95
BMP388 300… 1250 hPa
±0.06 hPa(equivalent to
±50 cm)±0.50 hPa 2.0 μA @ 1 Hz VDDIO: 1.2 V … 3.6 V
VDD: 1.65 V … 3.6 V 0.03 Pa ±0.33 hPa0.75 Pa/K
(equivalent to ± 6.3 cm/K)
I²C and SPI
10-pin LGA with metal lid
2.0 x 2.0 x 0.75 mm³
Product
Humidity Pressure
Interface Power
Package Dimensions
Range Response (mm3)
RangeResponse
Time (t0 - 63 %)
Accuracy Tolerance Hysteresis Range Noise* TCO Relative
Accuracy
BME280 0 ... 100 % rH 1 s ±3 % relative
humidity≤1 % relative
humidity 300 … 1100 hPa 0.2 Pa ±1.5 Pa/K ±0.12 hPa (±1 m) I²C and SPI
Sleep mode 0.1 μA 1.8 μA @ 1 Hz (H, T);
3.6 μA @ 1 Hz (H, P, T)2.5 × 2.5 × 0.93
Product
Gas Humidity Pressure Temp.Inter-face Power
Package Dimensions
(mm³)RangeResponse
Time (t33 - 63 %)
Power Consumption RangeResponse
Time (t0-63 %)
Accuracy Tolerance Range Relative
Accuracy
Absolute accu-racy
BME6800.2 ... 100 g/m³
<1 s for new sensors
Ultra-low power mode (ULP): <0.1 mA
Low-power mode (LP): <1 mA
0 ... 100 % rH 8 s
±3 % relative humidity
300 ... 1100 hPa
±0.12 hPa (±1m) ± 0.5 °C
I²C and SPI
Sleep mode 0.1 μA 1.8 μA @ 1 Hz (H, T);
3.7 μA @ 1 Hz (H, P, T) 0.1 ... 16 mA (Gas, H, P, T)
depending on operation mode
3.0 x 3.0 x 0.93
* Lowest Bandwidth, Highest Resolution
* Lowest Bandwidth, Highest Resolution
43MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Series
Accuracy (+/-) Out-
put
Supply Voltage
PackageFilter Op.
Temp.
% RH °C VDC Filter Condens.Resistant °C
HIH6020-021
4.5 0.5 I2C; SPI
2,3 to 5.5
SIP4; SOIC8 no no
-40 to 100
HIH6021-021 SIP4; SOIC8 yes yesHIH6030-021 SIP4; SOIC8 no noHIH6030-000 SIP4; SOIC8 no noHIH6031-021 SIP4; SOIC8 yes yesHIH6031-000 SIP4; SOIC8 yes yesHIH7120-021
3 1
I2C SIP4 no no
-40 to 125
HIH7121-021 I2C SIP4 yes yesHIH7130-021 I2C SOIC8 no noHIH7130-000 SPI SOIC8 no noHIH7131-021 I2C SOIC8 yes yesHIH7131-000 SPI SOIC8 yes yesHIH8120-021
2 0.8
I2C SIP4 no noHIH8121-021 I2C SIP4 yes yesHIH8130-021 I2C SOIC8 no noHIH8130-000 SPI SOIC8 no noHIH8131-021 I2C SOIC8 yes yesHIH8131-000 SPI SOIC8 yes yesHIH9120-021
1.7 0.6
I2C SIP4 no noHIH9121-021 I2C SIP4 yes yesHIH9130-021 I2C SOIC8 no noHIH9130-000 SPI SOIC8 no noHIH9131-021 I2C SOIC8 yes yesHIH9131-000 SPI SOIC8 yes yes
Digital Humidity / Temperature SensorsHIH6000, HIH7000, HIH8000 & HIH9000 Series
Honeywell HumidIcon Digital Humidity/Temperature Sensors, HIH6000-, HIH7000-, HIH8000-, and HIH9000 Series, are digital Output-type relative humidity (RH) and temperature sensors combined in the same package. These sensors provide accuracy levels depended of the series between (±)4.5%RH to (±)1.7%RH.
Features & Benefits Industry-leading long-term stability (1.2 % RH over five years) Industry-leading reliability (MTTF 9, 312, 507 HR) Resitance to most application hazards Lowest total cost solution (comboned humidity / temperature sensor) Energy Efficent, low supplyy voltage, low power consumption High resolution: 14-bit
Industrial Applications HVAC Air compressors Weather stations
Medical Applications Medical respiratory Incubators Microenvironments
Telecom cabinets Industrial incubators Microenvironments
Sleep apnea machines Ventilators Spirometers
44 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Flow MetersZephyr™ HAF, AWM1000, AWM2000 & AWM3000 Series
Airflow Sensors contain advanced microstructure tech nology to provide a sensitive and fast response to flow, amount/direction of air or other gases. Potential applications include HVAC, gas metering, chromatograhpy, vent hoods, and medical equipment.
Series Zephyr™ HAF AWM1000 AWM2000 AWM3000
Signal conditioning amplified, digital unamplified, compensated unamplified, compensated amplified
Technology silicon die with thermally isolated heater
silicon die silicon die silicon die
Flow/pressure range ±50 SCCM to ±750 SCCM ±200 SCCM; 1000 SCCM to -600 SCCM; ±5.0 mbar [2.0 in H20]; ±10.0 mbar [4.0 in H20]
±30 SCCM; ±1000 SCCM; ±10.0 mbar [4.0 in H20]
30 SCCM; 200 SCCM; 1000 SCCM; 0 mbar to 1,25 mbar [0 in H20 to 0.5 in H20]; 0 mbar to 5.0 mbar [0 in H20 to 2 in H20]; 5.0 mbar [2.0 in H20]
Output analog (Vdc), digital (I²C) analog analog analog
Power consumption
3.3 Vdc: 40 mW typ. (no load) (analog) 23 mW typ. (no load) (digital) 5.0 Vdc: 55 mW typ. (no load) (analog) 38 mW typ. (no load) (digital)
30 mW typ. 30 mW typ. 50 mW or 100 mW typ.
Port style long port, short port straight straight straight
Media compatibility
dry non-corrosive gases dry gas only dry gas only dry gas only
Operating temperature range -20 … 70 °C -25 … 85 °C -25 … 85 °C -25 … 85 °C
Measurements (H x W x D)
long port: 20 mm x 36 mm x 19.9 mm short port: 17.6 mm x 28.8 mm x 19.9 mm
12.7 mm x 54.4 mm x 31.5 mm 12.7 mm x 54.4 mm x 31.5 mm 12.7 mm x 54.4 mm x 31.5 mm
Features high accuracy; high sensitivity at very low flows; high stability; low pressure; linear output; customizable; full calibration and temperature compensation
sensitivity to low flows; enhanced response time; low power consumption; analog output; bidirectional sensing capability
sensitivity to low flows; enhanced response time; low power consumption; analog output; bidirectional sensing capability
sensitivity to low flows; fast response time; low power consumption; analog output; amplified
45MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Basic ABP, TBP & NBP Series Board Mount Pressure Sensors
(Un-)Compensated / (Un-)AmplifiedBasic Board Mount Pressure Sensors, NBP Series, are designed for customers that require the following:
Simple Cost-effective Basic performance
Durable - Wide operating temperature range from -40 … 125 °C - Media compatibility options: 1) Non-gel coating: Input port limited to non-corrosive, non-
ionic media (i.e., dry air/gases) and should not be exposed to condensation; gases limited to media compatible with high temperature polyamide, silicone, alumina ceramic, silicon, gold, glass.
2) Gel coating: Uses the same materials in the wetted media path but is protected from condensation by a silicone-based gel coating; allows use where condensation can occur.
Robust Reflow mounting J-STD-020D, MSL 1 and rapid stabilization after reflow soldering allow calibration immediately after mounting. Flexible Numerous package styles, pressure ranges, housings, gel coating, and porting options simplify integration into the device manufacturer’s application.
ApplicationsIndustrial HVAC transmitters
mV output Unamplified Uncompensated
High quality High resol ution
Medical Wound therapy machine Hospital beds Oxygen concentrator
Ideal for customers who want to do their own compensation, calibration, and amplification to make use of the maximum resolution of the bare sensor output, leveraging a custom algorithm required for the application. Fills a gap in Honeywell’s board mount pressure sensor portfolio by providing customers who want to do their own compensation, calibration, and amplification with a cost-effective, basic-perfor-ming device for the high-volume, economical board mount pres-sure sensor segment. Cost-effective These devices provide a cost-effective pressure sensing solution with a variety of options that allow customers to meet their speci-fic application needs. Small package size
- Very small when compared to most board mount pressure sensors - Occupies less PCB space and typically eases placement
46 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
PX3, HP, HE, LP, LE SeriesHeavy Duty Pressure Transducers
Honeywell Pressure Switches are durable, reliable electromechanical gauge pressure on/off switches that are available with either single pole single throw (SPST) normally open or normally closed circuitry, or single pole double throw (SPDT) circuitry. Their IP67 environ-mental sealing and high proof pressure and burst pressure ratings allow for use in many rugged applications that require the making or breaking of an electrical connection in response to a pressure change of the system media.
Features & Benefits Life cycle rating: up to 2 million IP67 sealing rating Operating temperature range: -40 … 120 °C Proof pressure: 10000 psi [689 bar] (High Pressure), 500 psi [34,47 bar] (Low Pressure) Burst pressure: 20000 psi [1379 bar] (High Pressure), 750 psi for 3.5 psi to 22 psi, 1250 psi > 22 psi (Low Pressure) Hysteresis option (HP Series and LP Series only) Variety of pressure ports and electrical terminations Pressure switching set point range: Factory set 150 psi to 4500 psi [10,34 bar to 310,26 bar] (High Pressure), 1 bar to 46 bar or factory set or field adjust-able 3.5 psi to 150 psi [0,24 bar to 10,34 bar] (Low Pressure) Switching point accuracy: up to ±2 %
Transportation Applications Agricultural machinery Heavy duty construction machinery Heavy duty trucks Lawn & garden Marine vessels Material handling machinery Railway
Industrial Applications CNC machines Compressors, boilers Fracking equipment Food & beverage equipment Generators HVAC equipment Mud pumps Pneumatic equipment Presses and punches Pressure washers Trash compactors Water jet cutting machines Water pumps
47MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Trustability® HSC, SSC,TSC & NSC SeriesBoard Mount Pressure Sensors
(Un-)Compensated / (Un-)AmplifiedThe HSC, SSC,TSC & NSC Series are piezoresistive silicon pressure sensors offering a digital or analog output for reading pressure over the specified full scale pressure span and temperature range. They are intended for use with non-corrosive, non-ironic working fluids.
Features & Benefits The HSC, SSC,TSC & NSC Series combines high sensitivity with high overpressure and burst pressure that protects the sensor with-out sacrificing the ability to sense very small changes in pressure Minimizes system calibration needs, maximizes system performance, and helps support system uptime Provides Total Error Band so sensors can be implemented quickly and easily Extremely tight accuracy of ±0.25 %FSS BFSL (Full Scale Span Best Fit Straight Line) Endures a wide range of conditions while maintaining a high level of sensitivity Allows ultra-low pressure sensors to be used continuously well above the calibrated pressure range
Applications
Medical Ventilator Anesthesia machines Spirometers Nebulizers Hospital room air pressure
Industrial VAV (Variable Air Volume) control Static dust pressure Clogged HVAC filter detection HVAC transmitters Indoor air quality
Allows design engineers to choose from over 50,000 possible configurations Provides excellent repeatability, high accuracy and reliability under many demanding conditions Typically allows for the removal of signal conditioning components from the PCB From ±2.5 mbar to ±40 mbar [±1 inH20 to ±30 inH20] ultra low pressure sensors & ±60mbar to ±10 bar (non ultra low pressure sensors) Avoid the thermal and mechanical damage during solder reflow attachment and/or repair that lesser rated products would incur I²C- or SPI-compatible 14-bit digital output Extremely low power consumption
48 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
MPR SeriesMicroPressure Board Mount Pressure Sensors
The MPR Series is a piezoresistive silicon pressure sensor with a very small package that enables portability by addressing weight, size and space restrictions. The MPR´s plug and play feature eases implementation and system level connectivity. The MPR Series enhances performance through reduced conversion requirements and a direct interface to microprocessors. It meets IPC/JEDEC J-STD-020D as well as Moisture Sensitivity Level 1 requirements.
Key Features 5 mm x 5 mm [0.20 in x 0.20 in] package footprint Calibrated and compensated ±40 mbar to ±2.5 bar | ±4 kPa to ±250 kPa | ±0.6 psi to ±30 psi 24-bit digital I²C or SPI-compatible output IoT (Internet of Things) ready interface Low power consumption (<10 mW typ.), energy efficient Stainless steel pressure port Medical and food grade gel options Compatible with a variety of liquid media Absolute and gage pressure types Total Error Band after customer auto-zero: As low as ±1.5 %FSS Compensated temperature range: 0 °C to 50 °C REACH and RoHS compliant Meets IPC/JEDEC J-STD-020D. Moisture Sensitivity Level 1
The MPR Series is energy efficient by reducing system power requirements and enables extended battery life.The MPR Series has a digital output and comes fully calibrated, compensated and amplified. Its application-specific design addresses various application needs and challenges. It provides true performance over compensated temperature range, which minimizes the need to test and calibrate every sensor, thereby potentially reducing manufacturing cost, improving sensor accuracy, and offers ease of sensor interchangeability due to minimal part-to-part variation
Applications Blood pressure monitoring Negative-pressure wound therapy Breast pumps Mobile oxygen concentrators CPAP water tanks Coffee machines Humidifiers Air beds Washing Machines Dishwashers Air braking systems Gas and water meters
49MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Digital Barometric Air Pressure SensorInfineon’s digital barometric air pressure sensors are best choice for enhanced navigation experience, activity level monitoring,gesture recognition and weather monitoring just as well as for mobile applications and wearables.
DPS310DPS310 provides ultra-high precision up to ±5 cm and ±0.06 hPa relative accuracy. The pressure sensing element is based on a unique capacitive principle, which is totally different from piezoelectric technology employed in most of the pressure sensors available in today’s market. The capacitive technology enables high accuracy during temperature changes, which is important for smartphones, wearable and personal navigation devices.
DPS422The DPS422 is a Monolithic chip solution and ultra- small critical area ( sensitive area) and offers robustness against environment. It is capable of measuring both pressure and temperature. Pressure sensing is carried out using a capacitive sensor element, guaranteeing high accuracy over temperature. The small 2.0 x 2.5 x 0.73 mm package makes the DPS422 ideal for mobile applications and wearable devices
Target Aplications Internet of Things Wearable electronics e.g. health and sports gadgets Indoor navigation floor detection e.g. in shopping malls and parking garages Outdoor navigation in personal navigation devices Dead-reckoning e.g. in tunnels Local weather station
Specifications
Application Benefits Ultra-high precision High measurement accuracy over wide pressure and temperature range Easy implementation due to compact size Low system level energy consumption due to FIFO
Functional Block Diagram
Infineon’s digital barometric air pressure sensors are best choice for enhanced navigation experience, activity level monitoring, gesture recognition and weather monitoring just as well as for mobile applications and wearables.
DPS310 provides ultra-high precision up to ±5 cm and ±0.06 hPa relative accuracy. The pressure sensing element is based on a unique capacitive principle, which is totally different from piezoelectric technology employed in most of the pressure sensors available in today’s market. The capacitive technology enables high accuracy during temperature changes, which is important for smartphones, wearable and personal navigation devices.
The DPS422 is a Monolithic chip solution and ultra- small critical area ( sensitive area) and offers robustness against environment. It is ca-pable of measuring both pressure and temperature. Pressure sensing is carried out using a capacitive sensor element, guaranteeing high accuracy over temperature. The small 2.0 x 2.5 x 0.73 mm package makes the DPS422 ideal for mobile applications and wearable devices.
Target applications › Internet of the Things › Wearable electronics e.g. health and sports gadgets › Indoor navigation floor detection e.g. in shopping malls and parking garages › Outdoor navigation in personal navigation devices
› Dead-reckoning e.g. in tunnels › Local weather station
Application benefits › Ultra-high precision › High measurement accuracy over wide pressure and tempera-ture range › Easy implementation due to compact size › Low system level energy consumption due to FIFO
Orderable part number › DPS310: DPS310XTSA1 › DPS422: not available yet
Infineon’s digital barometric air pressure sensor
Functional block diagram
Application circuit example (in I2C configuration) Pin configuration (Top view)
Pin Name Function1 GND Ground
2 CSB Chip Select
3 SDI Serial Data In/Out
4 SCK Serial Clock
5 SDO Serial Data Out
6 VDDIO Digital Interface Supply
7 GND Ground
8 VDD Analog Supply
I2C/SPI
VDDIO
VDD
Temperaturesensor
Digital signalprocessing
Calibrationcoefficients
FIFO
Capacitivepressure sensor
Digital core
Memoryinterface
Voltageregulators
Digital interfaceMUX ADC
4
3
2
1
5
6
7
8 GND
CSB
SDI
SCK
VDD
GND
VDDIO
SDO
Vent hole
SCK
INT
SDAI2C serial interface
C
SDO
SCK
SDI
CSB
GND
GND
VDD
VDDIO
Pressuresensor
ProcessorVDDIO
1.7 … 3.6 V
1.2 … 3.6 V
C
R
VDDIO
R
N.C.
Interrupt (optional)
Key product features DPS310 DPS422Operating pressure range 300…1200 hPa
Operating temperature range -40 …85ºC
Pressure level precision < 0.5 Pa 0.5 Pa
Temperature accuracy 0.5º < 0.4ºC
Pressure temperature sensitivity 0.5 Pa/K
Measurement time, low power mode 3 ms
Average current consumption, low power mode, 1 Hz
3 µA
Standby current < 1 µA
Supply voltage VDDIO: 1.2 – 3.6 V; VDD: 1.7 – 3.6 V
Operating modes Command ( manual), background ( automatic), standby
Interface I²C and SPI, both with optional interrupt
Package 8 pins LGA: 2.0 x 2.5 x 1.0 mm
8 pins WLGA 2.0 x 2.5 x 0.73 mm
Infineon’s digital barometric air pressure sensors are best choice for enhanced navigation experience, activity level monitoring, gesture recognition and weather monitoring just as well as for mobile applications and wearables.
DPS310 provides ultra-high precision up to ±5 cm and ±0.06 hPa relative accuracy. The pressure sensing element is based on a unique capacitive principle, which is totally different from piezoelectric technology employed in most of the pressure sensors available in today’s market. The capacitive technology enables high accuracy during temperature changes, which is important for smartphones, wearable and personal navigation devices.
The DPS422 is a Monolithic chip solution and ultra- small critical area ( sensitive area) and offers robustness against environment. It is ca-pable of measuring both pressure and temperature. Pressure sensing is carried out using a capacitive sensor element, guaranteeing high accuracy over temperature. The small 2.0 x 2.5 x 0.73 mm package makes the DPS422 ideal for mobile applications and wearable devices.
Target applications › Internet of the Things › Wearable electronics e.g. health and sports gadgets › Indoor navigation floor detection e.g. in shopping malls and parking garages › Outdoor navigation in personal navigation devices
› Dead-reckoning e.g. in tunnels › Local weather station
Application benefits › Ultra-high precision › High measurement accuracy over wide pressure and tempera-ture range › Easy implementation due to compact size › Low system level energy consumption due to FIFO
Orderable part number › DPS310: DPS310XTSA1 › DPS422: not available yet
Infineon’s digital barometric air pressure sensor
Functional block diagram
Application circuit example (in I2C configuration) Pin configuration (Top view)
Pin Name Function1 GND Ground
2 CSB Chip Select
3 SDI Serial Data In/Out
4 SCK Serial Clock
5 SDO Serial Data Out
6 VDDIO Digital Interface Supply
7 GND Ground
8 VDD Analog Supply
I2C/SPI
VDDIO
VDD
Temperaturesensor
Digital signalprocessing
Calibrationcoefficients
FIFO
Capacitivepressure sensor
Digital core
Memoryinterface
Voltageregulators
Digital interfaceMUX ADC
4
3
2
1
5
6
7
8 GND
CSB
SDI
SCK
VDD
GND
VDDIO
SDO
Vent hole
SCK
INT
SDAI2C serial interface
C
SDO
SCK
SDI
CSB
GND
GND
VDD
VDDIO
Pressuresensor
ProcessorVDDIO
1.7 … 3.6 V
1.2 … 3.6 V
C
R
VDDIO
R
N.C.
Interrupt (optional)
Key product features DPS310 DPS422Operating pressure range 300…1200 hPa
Operating temperature range -40 …85ºC
Pressure level precision < 0.5 Pa 0.5 Pa
Temperature accuracy 0.5º < 0.4ºC
Pressure temperature sensitivity 0.5 Pa/K
Measurement time, low power mode 3 ms
Average current consumption, low power mode, 1 Hz
3 µA
Standby current < 1 µA
Supply voltage VDDIO: 1.2 – 3.6 V; VDD: 1.7 – 3.6 V
Operating modes Command ( manual), background ( automatic), standby
Interface I²C and SPI, both with optional interrupt
Package 8 pins LGA: 2.0 x 2.5 x 1.0 mm
8 pins WLGA 2.0 x 2.5 x 0.73 mm
Infineon’s digital barometric air pressure sensors are best choice for enhanced navigation experience, activity level monitoring, gesture recognition and weather monitoring just as well as for mobile applications and wearables.
DPS310 provides ultra-high precision up to ±5 cm and ±0.06 hPa relative accuracy. The pressure sensing element is based on a unique capacitive principle, which is totally different from piezoelectric technology employed in most of the pressure sensors available in today’s market. The capacitive technology enables high accuracy during temperature changes, which is important for smartphones, wearable and personal navigation devices.
The DPS422 is a Monolithic chip solution and ultra- small critical area ( sensitive area) and offers robustness against environment. It is ca-pable of measuring both pressure and temperature. Pressure sensing is carried out using a capacitive sensor element, guaranteeing high accuracy over temperature. The small 2.0 x 2.5 x 0.73 mm package makes the DPS422 ideal for mobile applications and wearable devices.
Target applications › Internet of the Things › Wearable electronics e.g. health and sports gadgets › Indoor navigation floor detection e.g. in shopping malls and parking garages › Outdoor navigation in personal navigation devices
› Dead-reckoning e.g. in tunnels › Local weather station
Application benefits › Ultra-high precision › High measurement accuracy over wide pressure and tempera-ture range › Easy implementation due to compact size › Low system level energy consumption due to FIFO
Orderable part number › DPS310: DPS310XTSA1 › DPS422: not available yet
Infineon’s digital barometric air pressure sensor
Functional block diagram
Application circuit example (in I2C configuration) Pin configuration (Top view)
Pin Name Function1 GND Ground
2 CSB Chip Select
3 SDI Serial Data In/Out
4 SCK Serial Clock
5 SDO Serial Data Out
6 VDDIO Digital Interface Supply
7 GND Ground
8 VDD Analog Supply
I2C/SPI
VDDIO
VDD
Temperaturesensor
Digital signalprocessing
Calibrationcoefficients
FIFO
Capacitivepressure sensor
Digital core
Memoryinterface
Voltageregulators
Digital interfaceMUX ADC
4
3
2
1
5
6
7
8 GND
CSB
SDI
SCK
VDD
GND
VDDIO
SDO
Vent hole
SCK
INT
SDAI2C serial interface
C
SDO
SCK
SDI
CSB
GND
GND
VDD
VDDIO
Pressuresensor
ProcessorVDDIO
1.7 … 3.6 V
1.2 … 3.6 V
C
R
VDDIO
R
N.C.
Interrupt (optional)
Key product features DPS310 DPS422Operating pressure range 300…1200 hPa
Operating temperature range -40 …85ºC
Pressure level precision < 0.5 Pa 0.5 Pa
Temperature accuracy 0.5º < 0.4ºC
Pressure temperature sensitivity 0.5 Pa/K
Measurement time, low power mode 3 ms
Average current consumption, low power mode, 1 Hz
3 µA
Standby current < 1 µA
Supply voltage VDDIO: 1.2 – 3.6 V; VDD: 1.7 – 3.6 V
Operating modes Command ( manual), background ( automatic), standby
Interface I²C and SPI, both with optional interrupt
Package 8 pins LGA: 2.0 x 2.5 x 1.0 mm
8 pins WLGA 2.0 x 2.5 x 0.73 mm
Orderable Part Number ››DPS310: DPS310XTSA1 ››DPS422: on request
50 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Air Quality and Environment Sensors
Air Quality Sensor B5W-LD0101
Monitoring environmental conditions in our surroundings greatly increase our comfort and quality of life. For example, we can use weather information to plan outdoor activities or create a comfortable sleeping environment. The superior sensitivity and performance offered by Omron sensors help manufacturers to create more effective air purifiers and air quality control systems.
Omron’s environment sensor provides reliable tracking infor-mation of six environmental parameters: temperature, light, UV Index, humidity, barometric pressure and noise. This information can be uploaded to a smartphone app using the Bluetooth low energy interface, recorded and used to create status updates and alerts.
Air pollution from vehicle emissions as well as many industrial sources became a major concern for the health. Public authori-ties and consumers in general are more aware of the impor-tance of implementing solutions in their daily life to improve air quality. Omron´s B5W-LD0101 offers a High sensitivity and performance solution for air quality applications.
Omron’s air quality sensor module has high sensibility event while utilizing LED, and can detect particles as small as half a micron (up to 0.5 um diameter), which surpasses by far the PM2.5 standard for fine particulate matter specified by European Union regulations.
The module’s original duet structure can breathe in air stably and effectively allows particulates to flow through the sensor, making it much more responsive to environmental changes. Its size 52.3 mm x 39.3 mm x 17.6 mm provides high flexibility for designs.
Applications Air purifiers/Air conditioners Air quality monitoring HVAC
2JCIE Environment Sensor
Applications Room condition monitoring Monitoring of infants, elders and pets Heatstroke prevention Weather alert UV alert
Features Power supply: Button lithium battery rated at 3.0V Sensors: Temperature, humidity, light, UVI, barometric pressure and noise Communication range: Approx. 10 m Operating temperature: -10 to 60 °C Operating humidity: 30 to 85 % RH Battery life: Approx. 6 months (5min. measurement interval ) Dimensions: Approx. 46 x 39 x 15 mm
51MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Pressure Sensors
Miniature Gauge Pressure Sensor 2SMPP-02
The new 2SMP-02 Pressure Sensor measures atmospheric pressure and temperature with high precision. It can be used as an altimeter in position detection, making it ideal for weather stations, barometers, GPS navigation and activity monitoring equipment. Its tiny size makes it perfect for wearable devices. It is also used in portable games, smartphones and tablets.
Omron´s miniature 2SMPP pressure sensor combines low tem-perature influence, small offset and span voltage variation and low power consumption. Its compactness and precision make it ideal for many medical applications, including respiratory machines and pumps, laboratory and diagnostic equipment and home care devices. As it accurately controls air movement, leaks and levels, the 2SMPP is also widely used in industrial and environmental control systems.
Applications Respiratory devices and anesthesia Laboratory/diagnostic equipment and home care Home appliance Air movement control Level indicators Leak detection Pressure controller
Barometric Pressure Sensor 2SMP-02
Applications Altitmeter Indoor navigation (floor detection) Car navigation (to distinguish highway & frontage road) Building automation
Features Pressure Range from 30 kPa to 110 kPa Maximum Pressure 800 kPa Measurement type: Absolute pressure MEMS Piezoresistive type with digital control and output via I2C/SPI interface Operating voltage 1.8 V (Typ.) Operating temperature: -40 to 85 °C Two available versions 2SMPB-02B and 2SMPB-02E. 2SMPB-02E has a calibration parameter for wider pressure & temperature range Absolute pressure accuracy ± 50 Pa (typ.) (2SMPB-02E) Relative pressure accuracy ± 3.9Pa (33 cm) (Ultra High Accuracy Mode) Low power 4.1 µA (1 sample/sec. High Speed Mode) Small package 2.0 x 2.5 x 0.85 mm
Features Pressure range: 0 to 37 kPa Pressure type: Gauge Pressure MEMS Piezoresistive type Small Package: 6.1 × 4.7 × 8.2 mm Low Power consumption of 0.2 mW Sensing type: Piezoresistive Withstand Pressure Max. 53 kPa Ambient operating temperature range 0 to 50 °C (with no condensation or icing) Ambient operating humidity range 15 % to 95 % (with no condensation or icing)
Smartphone/Tablet Drones Activity monitor (to detect up and down of stairs) Weather forecast navigation
52 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Digital Differential Pressure Sensor D6F-PHFeatures & Benefits The D6F-PH provides differential pressure measurement based on Omron‘s MEMS thermal flow chip. It features a new digital correction algorithm that achieves 3% RD precision, contributing to optimization of control efficiency. Stable measurement with 0.5 % repeatability over wide temperature range is compensated by incorporated ASIC. Internal microprocessor carries out digital correction and enables cutting-edge performance burt also add new functionalities. High flow impedance to reduce the influence of bypass configuration: By increasing the sensor‘s flow resistance, the influence of bypass pipe length and diameter has been reduced, leading to more stable measurement. The sensor‘s dimensions were reduced to 26 x 22 x18 mm to increase installation flexibility. Anomaly detection: Sensor element „open,“ „short circuit,“ and „power supply voltage“ anomaly detection provides greatly enhanced reliability.
Model D6F-PH0025AD1
D6F- PHO505AD3
D6F-PH5050AD3
Measurement range 1 0 to 250Pa +/-50Pa +/- 500Pa
Calibration gas 2 Air
Port type Barb joint, maximum outside diameter: 4.9 mm
Power supply 2.3 to 3.6 VDC
Current consumption20 mA max.
With no load and Vcc of 3.3 VDC, GND=OVDC, 25 °C
Resolution 12-bit
Zero point toleration +/- 0.2Pa
Span tolerance +/- 3%R.D.
Temperature compensation Yes
Span shift due to temp. variation <+/-0.5% R.D. per 10 °C
Response time25 ms typ. at 12-bit resolution (50 ms maximum)
The processing time is 6 ms typical at 12-bit resolution
Gas flow through sensor <63 mL/min <23 mL/min <100 mL/min
Interface I²C
Case material PPS
Degree of protection IEC IP40
Withstand pressure 10kPa
Operating temperature -20 to +80 °C (with no condensation or icing)
Operating humidity 35 % to 80 % RH (with no condensation or icing)
Storage temperature -40 to +80 °C (with no condensation or icing)
Storage humidity 35 % to 80 % RH (with no condensation or icing)
Insulation resistance Between sensor outer cover and lead terminals:20Ω min (500 VDC)
Dielectric strengthBetween sensor outer cover and lead terminals:
500 VAC, 50/60 Hz min. for 1 minute (leakage current: 1 mA max.)
Weight 5.2 g
1) At standard atmospheric pressure (1013.25 hPa)2) Dry gas not containing dust, oil, or mist
Specifications
The D6F-PH is a thermal flow-type sensor that measures with superior sensitivity and reproducibility in low pressure environ-ments and with a wider pressure range than the commonly-used capacitance-type and piezoelectric-type differential pressure sensors. Embedded ASICs carry out digital correction making the D6F-PH more precise and less influenced by temperature than conventional analog output sensors.The D6F-PH will make it possible to optimize business and household air conditioning and ventilation control in order to maximize energy efficiency, and also increase the accuracy of gas flow control and monitoring in digital medical equipment and industrial applications.
Miniature Gauge Pressure Sensor 2SMPP-02
53MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
We Measure the Key Environmental Parameters
Environmental Sensing
Environmental conditions have a major impact on our well-being, comfort, and productivity. Sensirion’s sensor solutions provide detailed and reliable data on key environmental parameters such as humidity, temperature, volatile organic compounds (VOCs), particulate matter (PM2.5), and CO2. Environmental Sensing opens up new possibilities to create smarter devices that improve our comfort and well-being as well as increase energy efficiency in a wide variety of applications.
Temperature Sensor STS3xThe functionality of Sensirion’s new STS3x temperature sensor includes enhanced signal processing, two distinctive and user-select-able I²C addresses, and communication speeds of up to 1 MHz. The dual-flat no-leads (DFN) package has a footprint of 2.5 × 2.5 mm² while retaining a height of 0.9 mm, allowing easy integration into various applications. Additionally, the wide supply voltage range of 2.4 to 5.5 V and its low current consumption (2 µA typical average current at 1 measurement per second) guarantees compatibility for a wide range of applications.
Features Output: I²C Voltage range: 2.4 to 5.5 V Operating range: -40 to + 125 °C (-40 to 257 °F) Response time: 2 s (tau63%) 2 available versions STS30: Typ. temperature accuracy of ± 0.2 °C @ 0-65 °C STS31: Typ. temperature accuracy of ± 0.2 °C @ 0 to 90 °C
Applications Automotive Appliances / smart home HVAC Consumer electronics Medical Data logging
54 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Traditional metal-oxide gas sensors suffer from poor long-term stability. This degradation is caused through contamina-tion by certain chemical compounds like siloxanes which are common in applications. The SGP30 solves this long-standing stabi-lity problem, enabling new possibilities for indoor air quality measurement. The long-term stable metal-oxide gas sensor features multiple sensing elements on one chip; the SGP30 provides in-depth information on air quality.
PM Sensor SPS30 Sensirion´s particle matter Sensor will define new market standards for accurate and reliable detection of PM2.5 and PM10. PM2.5 and PM10 stand for Particulate matter with dia meter up to 2.5 microns and 10 microns, respectively, being these among the most dangerous air pollutants. Due to their small size, PM2.5 particles can travel deep into the human lung and cause a variety of health issues. Sensirion’s new PM2.5 sensor so-lution will enable the implementation of innovative air quality monitoring devices that prevent air pollution damage.
Features Outstanding long-term stability I²C interface with TVOC and CO2eq output signals Very small 6-pin DFN package: 2.45 x 2.45 x 0.9 mm Low power consumption: 48 mA at 1.8 V Tape and reel packaged, reflow solderable
CO2 Sensor SCD30Houses have become increasingly energy-efficient, but the air quality can deteriorate rapidly. Carbon Dioxide is a key indicator for indoor air quality. Active ventilation is needed to maintain a comfortable and healthy indoor environment, and improve the well-being and productivity of the inhabitants. Sensirion sensor solutions offer an accurate and stable monitoring of CO2 in the air, as well as temperature and humidity.
SGP30 Multi-Pixel Gas Sensor
55MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Humidity SensorsSensirion is a leading manufacturer of digital relative humidity sensors. By pioneering digital humidity sensors 15 years ago, Sensirion has defined an industry standard with the SHTxx series. Best-in-class products, unprecedented experience, and excellent application support make Sensirion the no. 1 partner for humidity sensing. Each sensor is individually calibrated and tested for quality and accuracy. Additionally, the reliability is demonstrated by qualification based on the AEC-Q100 automotive standard.
Top Products
Digital Humidity Sensor SHT3X (RH/T)The SHT3x humidity sensor series consists of a low-cost version with the SHT30 humidity sensor, a standard version with the SHT31 humidity sensor, and a high- end version with the SHT35 humidity sensor. The SHT3x also has two protec-tives options: A PTFE filter membrane to protect the sensor opening from water and dust according to IP67 and a polyimide protective cover that acts as a reliable shield against pollution during SMT assembly of the sensor and subsequent processes, such as conformal coating or potting.
Product Typ. Accuraccy (%RH)
Typ. Temp. Accuraccy (°C)
Vdd Range (V) Interface Aplications
SHT30 ±2 @10-90% RH ±0.2 @0-65°C 2.4 to 5.5 I²C, analog Automotive Appliances/Smart Home HVAC Consumer Electronics Medical Data logging
SHT31 ±2 @0-100% RH ±0.2 @0-90°C 2.4 to 5.5 I²C, analog
SHT35 ±1.5 @0-80% RH ±0.1 @20-60°C 2.4 to 5.5 I²C
SHTW2 ±3 @20-80% RH ±0.3 @0-60°C 1.62 to 1.98 I²C Internet of things Wearable Mobile Markets
SHTC1 ±3 @20-80% RH ±0.3 @5-60°C 1.62 to 1.98 I²C
Consumer electronics Wearables Smartphones Appliances/Smart Home
56 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Differential Pressure SensorsSensirion’s differential pressure sensors are fully calibrated and temperature compensated. Their excellent accuracy, long-term stability and no zero-point drift make them the perfect choice for any application. The sensors of the SDP3x and SDP800 series come either with a digital I²C interface or analog voltage output. The digital versions offer measurement speeds up to 2 kHz, smart averaging functions and multiple measurement modes.
Extremely Small Differential Pressure Sensor SDP3X
The SDP3x differential pressure is ideal for the measurement of mass flow in a bypass configuration. The sensor is reflow solde-rable, and provides extended functionality, such as multiple I²C addresses and interrupt functions as well as fast sampling time. The SDP3x features excellent accuracy and long-term stability and has no zero-point drift. Thanks to its small size, the SDP3X creates new dimensions of integration and application possibilities, where small size is essen-tial. The sensor is based on the next generation of the CMOSens® sensor chip and is the heart of Sensirion‘s new sensor platform for measuring differential pressure and mass flow.
The SDP800 series is based on Sensirion’s patented CMOSens® Technology, which combines the sensor element, signal processing and digital calibration on a small CMOS chip. The differential pressure is measured by a thermal sensor element using the flow-through principle. Thanks to this, Sensirion’s CMOSens® differential pressure sensors outperform traditional piezo- resistive membrane sensors in terms of sensitivity at low differential pressures, offset drift and hysteresis as well as position sensitivity, shock resistance and temperature variations.
Features Smallest size (5 x 8 x 5 mm) Measurement range ±500 Pa (±2 in. H2O) or ±125 Pa (±0.5 in. H2O) Excellent accuracy and repeatability, even below 1Pa No zero-point offset, no drift Calibrated and temperature compensated Fast sampling time of 2 kHz at 16 bit resolution Digital I²C and analog output versions Reflow solderable, shipped in tape and reel for pick and place
Features No offset, no zero-point drift, hysteresis free Outstanding accuracy and long-term stability Digital (I²C) or analog output Pressure range of up to ±500 Pa Excellent accuracy and repeatability (even below 1 Pa) Fully calibrated and temperature compensated For air and non-aggressive gases Manifold or tube connection
Applications Medical home care applications Portable medical devices Smart Inhalers Lifestyle and consumer (IoT)
Applications HVAC Gas boilers, pellet stoves and fuel cells Filter Monitoring VAV control Heat recovery Medical
Differential Pressure Sensors SDP800
Appliances Drones Wind speed meters
57MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
ST’s absolute digital output barometer integrates ST’s consolidated pressure sensor with the new fully molded package to further improve robustness, reliability and moisture resistance while reducing package thickness. The device may be configured to generate interrupt events based on: threshold crossing, availability of new set of data and FIFO status.
Environmental SensorsCollect Humidity, Atmospheric Pressure and Temperature Accurate Data for Environmental Awareness
Benefits Ultra-small footprint Low-power consumption Fully-molded package ensure stability and robustness in any condition and water resistance
Part Number Description IDD Key Parameters Package
LPS22HB High-accuracy miniature pressure sensor in fully molded package
15 µA (HP mode) 3 µA (LP mode)
Nosie RMS (HPM): 0.75 hPaAbsolute accuracy: ± 1hPa
HLGA-10L2.0 x 2.0 x 0.76 mm
LPS33HW Pressure sensor water resistant up to 10 ATM ceramic package with metal lid
15 µA (HP mode) 3 µA (LP mode)
Absolute accuracy: ± 2.5 hPa Noise RMS: 0.8 Pa
CCLGA-10L3.3 x 3.3 x 2.9 mm
Pressure Sensors
CCLGA-10L
LPS22HBThe LPS22HB is housed in a fully molded package that provides the best thermal and mechanical robustness (high shock survivability > 20,000 g). This new MEMS technology called “Bastille” allows the use of fully molded HLGA (Holed Land Grid Array) packages, that in contrast to a traditional cavity package protect the ASIC and the bond wires from aggressive gases or water.
HLGA-10L
LPS33HW The LPS33HW shows resistance also to chemicals like chlorine, bromine and salt water, making it the ideal sensor for swimming in pools and sea. It is also resistant to soaps and detergents used when showering or cleaning. Gel inside the IC contributes to its resistance of up to 10 bar water or air pressure.
Gel
MEMS
ASIC
Metal
58 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
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.
STMicroelectronics’ temperature sensors include both analog and digital temperature sensor ICs.
Benefits Ultra-small footprint Low-power consumption to address wearable devices Allows customized calibration for best design flexibility
Digital Temperature Sensor One-shot mode for power saving Dual alarm Tiny package
Analog Temperature Sensor Ultra small package: UDFN-4L (1 x 1.3 mm) Ultra-Low supply current: 4.8 µA typ. Operating temperature: - 55 °C to 130 °C
Part Number General Description Supply Voltage min-max (V)
Humidity (RH) min-max (% RH) Interfaces Package
HTS221 Capacitive digital sensor for relative humidity and temperature 1.7 – 3.6 0 – 100 SPI, I²C HLGA-6L
2 x 2 x 0.9 mm
Part Number Description Voltage RangeCurrent Temp. Range Accuracy Resolution Package
STTS751 Programmable digital temperature sensor
2.25 V ... 3.6 VIdd 20 µA –40°C ... +125°C ±1.0°C @ 25°C (typ),
±2.5°C @ 125°C (max) 9 ... 12 bit UDFN-6L 1.0 x 1.3 x 0.5 mm
STLM75 Digital temperature sensor 2.7 V ... 5.5 V125 µA (typ) –55°C ... +125°C ±0.5°C (typ),
±3.0°C (max) 9 bit MSOP-8 3.0 x 3.0 x 1.1 mm
STLM20W87F Analog temperature sensor 2.4 V ... 5.5 VIq 4.8 µA –55°C ... +130°C ±0.5°C @ 25°C (typ),
±2.5°C @ 130°C (max) analog SOT323-5L 1.8 x 1.15 x 0.8 mm
STLM20DD9F Analog temperature sensor 2.4 V ... 5.5 VIq 4.8 µA –40°C ... +85°C ±0.5°C @ 25°C (typ),
±2.1°C @ 85°C (max) analog UDFN-4L 1.0 x 1.3 x 0.5 mm
Humidity & Temperature Sensors
Temperature Sensors
Programmable resolution Low supply current
59MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Pressure Sensor
BM1383GLVPiezo-resistive Pressure Sensor
Features Piezo-resistive pressure sensor Pressure range is from 300 hPa to 1100 hPa Built-in temperature and offset compensation function I²C interfaces Small package 2.5 x 2.5 x 1 mm³ Temp. range -40 °C to 85 °C Voltage supply 1.7 V to 3.6 V
CONFIDENTIAL ROHM CO.,LTD
TENTATIVE ROHM CO.,LTD
SensorTemperature
signalprocessing
I2CSCLSDA
NC1NC0
INTPressure Sensor
Memory
Clock
TOUT
TEST1TEST0
TIN
VDD
VSS
DREG
HOST
BM1383
Mux ADC
Rohm’s BM1383GLV piezo-resistive pressure sensors offers a pressure accuracy and stable measurement at both low and high temperatures due to a built-in temperature correction function. The piezo-resistive sensing element provides a signal that is proportional to atmospheric pressure. This signal is processed by integrated logic to yield accurate pressure information which is stable for the full temperature range. The sensor offers low power consumption especially for high accurate measurements.
The build-in I²C interface provides access to the measurement results in any kind of mobile or battery driven application.
The sensor can detect differences in height (altitude) through pressure changes and capture movement data which suit them for use in wearable devices, activity monitors, altimeters and advanced detection for indoor navigation in smartphones and tablets.
Key Specifications Pressure range: 300 hPa to 1100 hPa Relative pressure accuracy: ±0.12 hPa (Typ) Absolute pressure accuracy: ± 1 hPa (Typ) Average current consumption: 3 μA (Typ)
60 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Optical Sensors
BH1790GLCSensor IC for Heart Rate Monitoring
BH1790GLC is an optical sensor for heart rate monitoring in which LED driver and green light detection photo-diode are incorporated. This device drives LED and measures the intensity of light reflected from body. LED brightness can be adjusted by LED driver current and light emitting period. The photodiode having the high sensitivity for green light, excellent wavelength selectivity and excellent lrcut characteristics achieves accurate pulse wave detection.
Features Green filter with excellent wavelength selectivity Built-in IR cut filter LED driver with current selection Correspond to 1.8 V I2C interface VCC1 voltage range: 2.5 V to 3.6 V VCC2 voltage range: 1.7 V to 3.6 V Current consumption: 200 μA (Typ) Standby mode current: 0.8 μA (Typ) WLGA010V28 (2.8 x 2.8 x max. 1.0 mm) Operating temperature range: -20 °C to +85 °C
Applications Wearable device
BH1745Color Sensor
BH1745NUC is digital color sensor IC with I²C bus interface. This IC senses Red, Green and Blue light and converts them to digital values.
Features Excellent Ircut Characteristics Ircut Filter High Sensitivity and Wide Dynamic Range (0.005 – 40 k lx) Supports Low Transmittance Window I²C Bus Interface (f/s mode support) Low Current by Power Down Function Rejecting 50 Hz/60 Hz Light Noise 1.8V Logic Interface Programmable Interrupt Function Selection of 2 I²C slave addresses
Applications LCD TV Mobile phone NOTE PC Tablet PC Portable game machine Digital camera Digital video camera PDA LCD display
Smart phone Tablet / PC
61MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Time of Flight (ToF) Signal Processing ICs
ISL29501The Renesas ISL29501 is equipped with an I²C interface for configuration and control. Use of an external photo-diode and emitter allows the user to optimize the system design for performance, power consumption, and distance measurement range that suit their industrial design.
The ISL29501 is wavelength agnostic and permits the use of other optical wavelengths if better suited for applications.
SFH 4550 – Infrared Emitter (850 nm)Features High Power Infrared LED Narrow emission angle ± 3° Very high radiant intensity UL version available (details & test conditions on request)
Applications Infrared Illumination for cameras Data transmission Sensor technology Smoke detectors
SFH 213 FA – Silicon PIN PhotodiodeFeatures Wavelength range (S10%) 750 nm to 1100 nm Short switching time (typ. 5 ns) 5 mm LED plastic package
Applications High speed photointerrupters Industrial electronics For control and drive circuits
RENESAS
Breakthrough ToF IC for Object Detection & Distance Measurement
OSRAM
Emitters and Detectors for Discrete ToF Solutions
Features Enables proximity detection and distance measurement Modulation frequency of 4.5 MHz Emitter DAC with programmable current up to 255 mA Operates in Continuous and Single Shot mode On-chip active ambient light rejection Auto gain control mechanism Interrupt controller Supply voltage range of 2.7 V to 3.3 V I²C interface supporting 1.8 V and 3.3 V bus Low profile 24 Ld 4x5 QFN package
Applications Mobile consumer applications Industrial proximity sensing
Power management Home automation
The Time of Flight ICs enable low cost, low power, and long range optical distance sensing when combined with an external emitter and detector. The Renesas ISL29501 has a built-in current DAC circuit that drives an external LED or laser. With Osram you can find the perfect fit within the Rutronik portfolio for emitters and detectors for your personal designed Time of flight solution. This gives you more freedom to choose your parameters.
62 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Osram Opto Semiconductors presents two new sensors for monitoring fitness levels. Their main benefit is the excellent signal quality for heart rate measurements, which allows the derivation of secondary measurement parameters such as blood pressure. The SFH 7072 has also been further optimized for determining the oxygen saturation of blood (SpO2).
Optical Sensors for Health Monitoring and Fitness Tracking
Features Multi chip package featuring two green emitters, one photodiode with IR filter, one red, one IR emitter and one broadband photodiode Package size: 7.5 x 3.9 x 0.9 mm Wavelengths 950 nm / 660 nm / 530 nm
ApplicationsHeart rate monitoring & Pulse oximetry for: Wearable devices (e.g. smart watches, fitness trackers, ...) Mobile devices
SFH 7070The SFH 7070 is a sensor specifically designed for pulse rate measurements at the wrist. It consists of two green emitters and one photodiode, the sensitivity of which is very high in the green spectrum and is greatly suppressed for infrared light. This mini-mizes the noise signal on the detector, which is created when ambient light penetrates the part of the body being measured and is dispersed. This effect is particularly strong for infrared wave-lengths. Compared to the previous version, the SFH 7051, the arrangement of the individual components has also been opti-mized with regard to signal quality. The green emitters sit on both sides of the photodiode – separated by optical barriers. That way more light hits the detector and there are fewer measurement artifacts caused by the user’s movements. The photodiode is almost twice the size of the one in the SFH 7051, which significantly increases the signal strength. What’s more, the emitters in the new sensor produce almost four times more brightness per chip – an optical output of 11.7 mW at a current of 20 mA for each chip. This has been achieved by larger chips and a white housing which absorbs less light. Thanks to this, a sensor could be created which ensures excellent signal quality even at a low operating current.
SFH 7072The new features described for the SFH 7070 have also been implemented in the SFH 7072. This sensor has the same dimensions as the SFH 7070.
Apart from two green emitters and one photodiode with an infrared filter, it also contains one red and one infrared emitter as well as a broadband photodiode. The distance between the three latter components was increased so that more light is reflected onto the detector.
The improved signal quality of the measurements with infrared and red light simplifies the calculation of the oxygen saturation of blood (SpO2).
ApplicationsHeart rate monitoring for: Wearable devices (e.g. smart watches, fitness trackers, ...) Mobile devices
Features Multi chip package featuring two green emitters and one detector Package size: 7.5 x 3.9 x 0.9 mm Light Barriers to block optical crosstalk Optimized for strong PPG signal Wavelength 530 nm
63MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Addresses growing demands seen across numerous applications for thermal analysis. The sensor provides enhanced resolution while still occupying an attractive price point. Primary applications for this device include people detection, fire prevention, building automation, lighting control, surveillance and air conditioning systems.
Features & Benefits -40 °C to 85 °C operational temperature range, allows deployment in difficult industrial environments Can measure object temperatures between -40 °C and 300 °C A typical target object temperature accuracy of ±1 °C, precision across its full measurement scale Noise equivalent temperature difference (NETD) of just 0.1K RMS at a 1Hz refresh rate, offers superior noise performance Unlike microbolometer solutions, this sensor does not need re-calibration to specific temperature requirements ensuring greater convenience and lowering operational expense Two different field of view (FoV) options - standard 55° x 35° version and a 110° x 75° wide angle version Supplied in a 4-pin TO39 package, with the compact dimensions lowering the overall cost of the thermal imaging system I²C compatible digital interface, simplifying integration
Applications Home Appliances & Smart Building MLX90640’s ability to detect, count and localize people and provide a detailed temperature map of the room makes it i deal for smart & green HVAC (Heat-Ventilation–AirCo) systems. It can also detect food temperature in (microwave) ovens. Fire Fighting & Fire Detection With its wide temperature range MLX90640 can help firefighters detecting hot spots and victims in very difficult conditions Automotive Enables passenger/driver detection and acts as input sensor for the HVAC control system
32X24 Pixel Thermal Imager MLX90640 Infrared (IR) Array
64 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
MLX75023 TOF sensor together with MLX75123 companion chip provides a complete Time-of-Flight solution. The MLX75023 TOF sensor supports up to QVGA resolution with unpaired ambient light rejection. The MLX75123 controls the TOF sensor, the illumination unit and streams data to the host processor. The chipset offers performance, flexibility, simplifies the design and allows a very compact 3D camera.
MLX75023 ToF Sensor 1/3” optical time-of-flight sensor (4.8 x 3.6 mm²) QVGA resolution, 320 x 240 pixels 15µm pixel pitch Quad channel analog output Up to 600 Hz raw correlation frame rate Wafer level glass BGA package 6.6 x 5.5 x 0.6 mm Demodulation frequency up to 40 MHz Integrated optical filter Up to 120 klux background light robustness
MLX75123 Companion Chip Controller for MLX75023 and illumination Programmable modulation frequencies Up to 8 raw phases per frame Pre-processed difference and sum output modes to reduce data bandwidth Continuous or triggered operation modes Region of Interest (ROI) selection Per-phase statistics & diagnostics 12-bit parallel camera interface up to 80 Mpix/s Configurable over I²C up to 400 kHz
Evaluation BoardEVK75123 is available to evaluate MLX75023 and MLX75123 TOF chipset under challenging ambient light conditions.
The flexible design enables any designer to develop the necessary system know-how and experience for use in their application. Its modular concept allows to use the chipset board standalone and combine it with user’s illumination and image processing solution.
32X24 Pixel Thermal Imager MLX90640 Infrared (IR) Array
QVGA Time-Of-Flight Chipset MLX75023 & MLX75123 – Real-Time- 3D Imaging with Time-of-Flight Sensor
TOF SENSOR MLX75023
TOF CCMLX75123
MCUOR LINK TO
HOST SYSTEM
RECEIVINGOPTICS
BEAM LED OR VCSELILLUMINATION
SHAPING OPTICS
SCENE
65MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Microwave Distance Measurement Modules & Sensors
NJR4262Features & Benefits Analog signal output Miniaturized RF circuit with MMIC technology High accurate I-Q mixer High reliability and low deviation Built-in low noise voltage regulator Long-term frequency stability Built-in patch antenna EU Certification & FCC Part 15.245
Applications Lighting equipment Safety and security systems Energy saving management Entrance and exit management
NJR4234Features Digital output Measures distances up to 30 m All-in-one solution: Antenna, Microwave RF circuit, Base-band IF circuit, MCU and signal processing are integrated in a low-profile package Low power consumption: 37 mA @ 3.3 V power supply Unique signal processing / algorithm installation Distance measurement signal processing
NJR4265Features & Benefits Digital output All-in-one solution: Antenna, RF circuit, IF amp, MCU and voltage regulator are integrated in a small package (14 x 20.4 x 8.8 mm) Identification of movement direction (approaching and leaving) Low voltage & low power consumption Communication with PC/MCU is available by UART interface, but stand alone operati on is also possible EU Certification & FCC Part 15.245
Applications Energy saving managent Room access control Human detection sensor for various instruments
NJR4266Features & Benefits Digital output All-in-one solution: Antenna, Microwave RF circuit, IF amp, MCU and voltage regulator are integrated in a low-profile package (17.2 x 27.3 x 5.2 mm) Low power consumption: 1.9 mA min. @ 3.3 V Sleep mode for power reduction Identification of direction for moving objects (approaching and leaving) Interface selectable from UART and digital output / analog sensitivity setting EU Certification & FCC Part 15.245
Applications Lighting equipment Entrance and exit management Safety and security systems Energy saving management
24 GHz Microwave Motion Sensors
24GHz Microwave Distance Measurement Sensor
High sensitivity for mobile object detection (Patented technology) Automatic calibration and gain control Radio interference prevention Adopted UART and digital CMOS output for interface Usable for indoor and outdoor applications Versions with additional stationary object detection available EU Certification & FCC Part 15.245
Applications Various equipment controlled by moving objects detection and distance measurement Security equipment Traffic control systems FA robot Industrial drone Parking management system
66 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Optical Sensors
NJL5820R Linear and rotary position detection Resolution of 50LPI (2 Line pairs per mm) Recommended strip width: 0.25 mm High speed resolution of 300 KHz (50000 rpm) Digital A/B phase output Detection of direction and speed Wide distance operation
Applications Motor speed measurement Rotor position sensing Linear position sensing Operation dial
NJL5901R-2 Output current: 165 µA - 412 µA Operation Dark Current: 5 µA max. Package Size: 1.4 x 1.0 x 0.6 mm
NJ5902R-2 Output Current: 62 µA – 155 µA Operation Dark Current: 0.5 µA max. Package Size: 1.7 x 1.2 x 0.6 mm
NJL5905R Output Current: 270 µA - 567 µA Operation Dark Current: 0.2 µA max. Package Size: 2.3 x 1.8 x 0.6 mm
NJL5909RL-4 Optical Lenses Focus distance: 4 mm Output Current: 35 µA - 175 µA Operation Dark Current: 0.2 µA max. Package Size: 2.6 x 1.9 x 1.6 mm
Applications Object detection Lens Location detection Motor rotation detection Paper edge detection Optical end switch Replacement of fork light barrier
NJL3301FV1 Current @1000 lx: 1.0 mA Half Angle: ± 40° Package: PLCC (5 x 5.3 x 0.95 mm
NJL3302FV1 Digital Output Half Angle: ± 40° Package: PLCC (5 x 5.3 x 0.95 mm)
NJL6502R-1 Current@1000 lx: 0.42 µA Package: COBP (1.7 x 1.2 x 0.65 mm)
NJL7502L Current@1000 lx: 330 µA Half Angle: ± 20° Package: Lead Pin type (3mm Ø)
Applications CCTV control Sun shade control Home automation Lighting equipment Ambient/backlight light control
Position Encoder Reflective Sensors Ambient Light Sensors
67MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
HVC-P2 (Human Vision Components)Benefits People‘s conditions recognizable simply by mounting an HVC on equipment, regardless of the CPU performance of a customer‘s equipment, simply mounting an HVC on the equipment enables the customer to obtain the results of advanced image processing as a sensor output. Full range of functions, ten different sensing functions are incorporated to recognise the intentions and conditions of people from a variety of perspectives. High precision: accurate recognition of people‘s conditions and intentions is enabled under a variety of situations in which a customer‘s equipment is used
Specifications
Outdoors Estimate interest and purchase behaviour of oepole to store goods of interest Vending machines recommending drinks to people
Home Home appliances matching movement of people AC units targeting people Robots matching people Lights targetting only people
Workplace AC units targeting people Lights targetting only people Hands free machine operation Doors opening to registered people
Facial Pose Estimation
Face Detection
Gaze Estimation
Face Recognition Gender Estimation
Hand Detection
Age Estimation
Human Body Detection
Expression Estimation
Blink Estimation
Jane Happy 25 Female
Right 30°
Part Number B5T-007001-010
Horizontal Detection Area (angle of view) 50 deg: 54°±3°; 90 deg: 94°±5°
Vertical Detection Area (angle of view) 50 deg: 41°±3°, 90 deg: 76°±5°
Detection Distance (differs per function) 3.2-16.7 m (HVC-P2 50 deg), 1.6-8.6 m (HVC-P2 90 deg)
Dimensions (WxLxH) 45 x 45 x 8.2mm (main board for both types), 25 x 25 x 8.7mm (camera board 50deg type), 25 x 25 x 15.7mm (camera board 90deg type)
Function Result
Face Detection, Body Detection, Hand Detection
Result count (max:35), Center coordinates (X & Y), Detection size (pixel), Degree of confidence
Face Direction Estimation Yaw degree, Pitch degree, Roll degree, Degree of confidenceGaze Estimation Yaw degree, Pitch degreeBlink Estimation Blink degree (left-side eye/right-side eye)Age Estimation Age, degree of confidenceGender Estimation Gender, degree of confidenceExpression Estimation 5 expressions: “neutral”, “happiness”, “surprise”, “anger”, “sadness”
and their respective score, Expression degree (positive/negative)Face Recognition Individual recognition result, scoreImage output Choose one: none, 160 × 120 pixels, 320 × 240 pixels
Image format: 8-bit Y data
Main Features Camera module angle of view: 2 models (50deg. and 90deg.) available Multiple functions (10 functions): Body Detection, Face Detection, Hand Detection, Face Direction Estimation, Gaze Estimation, Blink Estimation, Age Estimation, Gender Estimation, Expression Estimation and Face Recognition User friendly: Easy implemenation through UART or USB
68 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
High Precision Infrared Array Sensor Grid-EYE 2nd GenerationSmallest Size Solution for Infrared Detection
Panasonic Grid-EYE is an infrared array sensor and the first ever 64 pixel IR camera in an all-in-one compact SMD package. Based on Panasonic‘s MEMS technology, it can measure temperature of the entire specified area without any contact.
Features Dimensions: 11.6 x 4.3 x 8.0mm (LxHxW) Operating voltage: 3.3 V or 5.0 V (depends on P/N) Current consumption: - Typ. 4.5mA (normal mode); - 0.8 mA (stand-by mode), - 0.2 mA (sleep mode) Field of view: 60° (vertical & horizontal) External interface: I²C (fast mode)
Occupancy detection People counting, multiple person detection
Safety
Cooking stoves Microwave ovens Air conditioners Heating systems
Household
Patient detection Movement detection Thermal imaging Position detection
Medical Systems
Energy savings Detection without movement Consumer Comfort
Lighting Control
Industrial process management & control Contact-less temp. measurement Hot spot detection
Industrial Temp. Measurement
Interested in an evaluation board? Please refer to your local RUTRONIK contact.
More info about the Grid-EYE Evaluation Kit on eu.industrial.panasonic.com/grideye-evalkit
Temperature range of measuring object with amplification factor - High gain: 0 to 80 °C - Low gain: -20 °C to 100 °C Number of pixels: 64 (vertical 8 x horizontal 8) Frame rate: 1 or 10 frames/s Typical absolute temperature accuracy: Typ. ±2.5 °C (depends on P/N)
Type Moving Object Motionless Object Moving Direction Temp. Measuring Thermal Image
Pyroelectric Thermopile (single element)
Grid-EYE
Product Name Number of Pixels Operating Voltage Amplification Factor Model No.
Infrared array sensor Grid-EYE
64(vertical and horizontal
8 x 8 matrix)
3.3V DCHigh gain AMG8833
Low gain AMG8834
5.0V DCHigh gain AMG8853
Low gain AMG8854
Applications
69MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
World’s Smallest Time-of-Flight (ToF) Ranging Sensor
Key Benefits Absolute distance provided (in mm) up to 2 meters in less than 30 ms Fast mode: quick ranging oper. at 50 Hz High accuracy Low power 4.4 x 2.4 x 1 mm reflowable package Advanced ambient light rejection 940 nm invisible light emission Works with cover glass
Targeted Applications Camera assist (ultra-fast autofocus and depth map) User detection for power saving in smartphones or laptops Gesture control Drones Robotic and industrial control IoT Domestic appliance
The VL53L0X is the Second-generation Laser-ranging Sensor Based on ST’s Patented FlightSenseTM Technology
The VL53L0X is the smallest time-of-flight (ToF) sensor on the market today. It is fully integrated and embeds an infrared, eye-safe laser, advanced filters and an ultra-fast photon detection array. It enhances the ST FlightSenseTM product family by enabling measurements of much longer distances with a fast, accurate and robust solution, opening the door to new applications.
TechnologyThe VL53L0X contains an array of SPAD (single photon avalanche diode) detectors and an integrated 940 nm light source based on an eye-safe Class 1 VCSEL (vertical cavity surface-emitting laser) which, when used with algorithms running on an embedded microcontrol-ler, can directly determine the distance to a target object in millimeters, even in challenging operating conditions and independent of target reflectivity.
System Block Diagram
Part Number Package Size Operating Range Power Consumption Supply
VoltageOptimum
Operating Temp.
VL53L0CXV0DH/1 4.4 x 2.4 x 1mm up to 2 meters HW standby (typ): 5µARanging: < 20mW (*)
2.6 to 3.5 V -20 to +70 °C
* Average power consumption at 10Hz, with 33ms ranging operation
VL53L0X silicon
940 nm
VL53L0X module
I2C
INT
ROM
RAM
Microcontroller
Non VolatileMemory
VCSEL Driver
IR-IR+
RESET
AVDD
GND
Detection Array
Single PhotonAvalanche Diode (SPAD)
AdvancedRanging Core
VL53L0X MODULE
The VL53L0X is designed with an ultra-low-power system architecture, which is ideally suited for wireless and IoT use cases. The VL53L0X is supplied with a complete documentation package, example source code and a software API (application programming interface) which is compatible with a range of microcontrollers and processors. VL53L0X
EVALUATION KIT X-NUCLEO-53L0A1
d
70 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
The VL53L0X is the Second-generation Laser-ranging Sensor Based on ST’s Patented FlightSenseTM Technology
VL53L0X MODULE
VL53L0X EVALUATION KIT X-NUCLEO-53L0A1
Transmissive Optical SensorsThe new TCUT transmissive sensors in a compact transmissive sensor include two infrared emitters and three or four phototransistor detectors, located face-to-face in a surface mount package.
Featuring Filtron technology, the sensor combines photo detectors for proximity and ambient light, a signal conditioning IC.
3-Channel Transmissive Optical Sensor for „Turn and Push“ Encoding
TCUT1630X01Features Combines infrared emitter and 3 phototransistors Dimensions (L x W x H in mm): 5.5 x 5.85 x 7 AEC-Q101 qualified Gap (in mm): 3 Aperture (in mm): 0.3 Typical output current under test: IC = 1.3 mA Emitter wavelength: 950 nm Operating temp.: -40 to +105 °C Moisture sensitivity level (MSL): 1
Applications Sensors for motion, speed, and direction Steering Angle detection (ESP) Sensors for “turn and push” encoding Position sensors in climate control panels
4-Channel Transmissive Optical Sensor for Absolute and Incremental Encoding
TCUT1800X01Features Combines 2 infrared emitters and 4 phototransistors Dimensions (L x W x H in mm): 5.5 x 5.85 x 7 AEC-Q101 qualified Gap (in mm): 3 Aperture (in mm): 0.3 Typical output current under test: IC = 1.3 mA Emitter wavelength: 950 nm Operating temp.: -40 to +105 °C Moisture sensitivity level (MSL): 1
Applications Optical encoders that requires high resolution (can detect upto 16 postions) Ignition locks and adaptive headlights Encoder for interior turn knobs (climate panel, e-shifter, iDrive) Control system valve or vane feedback position sensing
New Fully Integrated Automotive Grade Proximity and Ambient Light Sensor for Gesture Recognition
VCNL4035X01Features Offers excellent background light cancellation capabilities AEC-Q101 qualified Supports I²C bus communication interface High object detection distances up to 500 mm Ambient light photo diode offers detection from 0.004 lx to 4.2 klx High accuracy of ± 10 % Excellent temperature compensation: -40 to +105 °C Proximity function uses intelligent cancellation to elimi nate cross-talk Supply voltage range of 2.5 V to 3.6 V I²C bus voltage range from 1.8 V to 5 V A 16-bit ADC, and a driver for up to three exter nal IREDs in one compact 4 mm by 2.36 mm by 0.75 mm surface-mount package.
VEML6030
Fully Integrated Proximity & Ambient Light Sensors
VCNL4035 Board
71MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
72 MEMS | Environmental | Optical | Magnetic | Current |
Supp
lier
Series
Magnetic Characteristics Typical @25 °C Type
Configuration Package
Tempera-ture Range Application
Bon
(mT)
Boff
(mT)
Unip
olar
Bipo
lar
Latc
h
Om
nipo
lar
Diff
eren
tial
CJ
(°C
)
Posi
tion
dete
ctio
n
Dire
ctio
n de
tect
ion
RPM
Brus
hles
s D
C M
otor
Rota
ting
Spee
d
Win
dow
Li
fter
Hall Switches
Mic
rona
s
HAL1xy 2.6 to 34 -14 to 24 x x 3-Wire TO92; SOT89 -20 to 125 x x xHAL2xy -5.2 to 34 -14 to 27.1 x x 3-Wire TO92; SOT89 -40 to 140 x x x xHAL5xy -5.5 to 46.6 -14 to 52.5 x x x 2-Wire; 3-Wire TO92; SOT89 -40 to 170 x x x x xHAL15xy 0.5 to 27 -13.5 to 27 x x x 3-Wire TO92; SOT23 -40 to 170 x x x x xHAL100x Programmable x x 3-Wire TO92 -40 to 170 x x x
Infin
eon
TLE49x5 -6 to 26 -26 to 16 x x x 3-Wire P-SSO-3 -40 to 170 x x x x xTLE49x6 1 to 19 -19 to 12 x x x 2-; 3-; 4-Wire P-SSO-3; P-SSO-4; SC59 -40 to 170 x x x x x xTLx496x -0.2 to 38.8 -19.8 to 31.2 x x x 3-Wire P-SSO-3; SC59; SOT23; TO92 -40 to 170 x x x x xTLE491x 2 to 7 1.2 to 6 x 3-Wire TSOP6; SC59 -40 to 170 x x x
TLE492x n.a n.a x 3-Wire; 4-Wire P-SSO-3; P-SSO-4; PG-SSOM-2-11; PG-SSOM-3-11 -40 to 170 x x x
TLE494x n.a n.a x 3-Wire PGSS0M-2; PG-SSO-2 -40 to 170 x x x xTLE495x n.a n.a x 3-Wire P-SSO-2; PG-SSO-2; PGSS0M-3 -40 to 170 x x xTLE498x Programmable x x 3-Wire P-SSO-3 -40 to 170 x x
Mel
exis
MLX922xx 2 to 12.5 -2 to 11.5 x x x 2-Wire; 3-Wire TO92; TSOT23 -40 to 170 x x x x xMLX9225x 0.6 to 10 -40 to -0.6 x x 4-Wire TSOT-5 -40 to 170 x x x x xMLX90224 0.6 to 10 -10 to -0.6 x x 4-Wire TSOT-5 -40 to 170 x x x xMLX92232/42 Programmable x x 2-Wire; 3-Wire TO92; SOT23 -40 to 170 x x x x xMLX90217/54 n.a n.a x 3-Wire; 4-Wire TO92 -40 to 170 x x xUSx88x -6 to 1 -4.5 to - 6 x 3-Wire TO92; TSOT-3L -40 to 170 x x x x xMLX90248 -1 to -6 -0.8 to 5.7 x 3-Wire SOT-3L; UTQFN-6L -40 to 105 x x x
Hone
ywel
l
SL353 -11 to 6 -9.5 to 4.5 x 3-Wire SOT23 -40 to 105 x x xSSx0 4.5 to 11 13 to 5.0 x 3-Wire SIP3; SOT89; SOT23 -40 to 125 x x x xSS3xy 6 to 39 -18 to 23.5 x x x x 3-Wire SIP3; SOT89; SOT23 -40 to 170 x x x xSS4xy 6 to 39 -18 to 23.5 x x x x 3-Wire SIP3; SOT89; SOT23 -40 to 170 x x x xSSx1 15 -14 x 3-Wire TO92; SOT89 -40 to 170 x x x x
VF526DT 13 -13 x 3-Wire SOT89 -40 to 150 x x
Diod
es
AH1xyz 6 to 13 > 1 x x x x 3-Wire SIP3; SC59; SOT23; DFN2020 -40 to 105 x x x xAH9xyz 0.9 to 2.7 0.4 to 2.2 x 3-Wire SC59; TO92; SOT23 -40 to 105 x x x xAH2xy 10 10 x 4-Wire SIP4 -20 to 105 x x x xAH3xyz 4 to 15 3 to 9 x x x 3-Wire SIP3; SC59; SOT23; DFN2020 -40 to 170 x x x xAH9xy 4 to 15 3 to 9 x x x 3-Wire SIP3; SC59; SOT23; DFN2020 -40 to 150 x x x xATS1xy 0.5 to 2.5 -10 x x 3-Wire SIP3; SC59; -20 to 105 x x x x
Rohm BU52xyzq 3 to 6.3 -6.3 to -3 x x x 4-Wire SSOP5; VCSP50L; HVSOF5;… -40 to 105 x x x x
BD7411G 3.4 -3.4 x 4-Wire SSOP5 -40 to 105 x x x
Pana
soni
c AN812xyUA-NL 3 24 x x 3-Wire SOIC8 -40 to 125 x x x x x
AN89xyzA-NL 3 24 x x 3-Wire SOIC8 -40 to 105 x x x x x
AN488xyA-NL 4 to 8 -4 to -8 x 3-Wire SMINI-5DE -40 to 105 x x x x
Tosh
iba TCS1xy 1.8 0.8 x 3-Wire UFV; SOT23F -40 to 105 x x x x
TCS20 3.4 2 x 3-Wire UFV; SOT23F -40 to 105 x x x x
MR Switches
Hone
y-w
ell 2SS52M 2.5 4 x 3-Wire SIP3 -40 to 125 x x x
SM35xSL 0.3 to 1.1 0.2 to 0.5 x 3-Wire SIP3 -40 to 85 x x xSS552MT 2.5 4 x 3-Wire SOT89 -40 to 125 x x x
Mur
ata VF401 n.a n.a x 2-Wire TO92 -40 to 150 x x x
MRMSxyz 0.5 2.5 x 3-Wire 2.8 x 2.9 x 1.1 -40 to 85 x x xMRUSxyz 0.5 4.7 x 3-Wire 1.5 x 1.8 x 0.8 -40 to 85 x x x
Buckle switch Flow meter Motor commutation
Gear box Fan control Backlight (car)
Roller shutter ABS
Refrigerator light control
Magnetic Sensors
Hall Switches – easy replacement of micro switches, fast implementation
Hall & MR Switches
Hall switches are commonly used for end-position detec-tion. The sensor detects the presence of a magnetic field and signalizes ON or OFF state. How the sensor detects the field depends on the sensor technology. Hall sensors measure vertical magnetic fields, MR sensors in contrast detect parallel fields.
Analog Sensors
73MEMS | Environmental | Optical | Magnetic | Current |
Magnetic Sensors
Linear & Angular Sensors
In many applications, linear sensors are used to provide a signal proportional to the linear movement being measured. The output signals can be analog or digital. Linear Hall effect sensors are widely used to replace con vent ional potentiometers.
Supplier Series Pro-gramm-
able
Magnetic Range
Type Confi guration Package Dual Die
Junction Temp.
Applications Angular Measurem.
(mT)
Setp
oint
s
Anal
og
PWM
Seria
l
Diff
eren
tial
LIN
SEN
T
CJ
(°C
)
Line
ar M
ovem
ent
Cur
rent
Mea
sure
m.
Rota
ry P
ositi
on
Leve
ling
Torq
ue M
easu
rem
.
< 90
°
< 18
0°
360°
Linear Hall Sensor
Micronas
HAL8xy x -150 to 150 2; 32 x x 2-Wire; 3-Wire TO92; SOT89; SOIC8 -40 to 170 x x x x x x
HAL18xy x -160 to 160 2 x 3-Wire TO92; SOT89 -40 to 170 x x x x
HAL28xy x -160 to 160 2 x x 3-Wire TO92 -40 to 170 x x x x x x
HAL24xy x -160 to 160 2; 16 x x 3-Wire TO92; SOIC8; TSSOP14 x -40 to 170 x x x x x x x
Infineon TLE499x x -200 to 200 2 x x x 3-Wire PG-SSO-3-10; SOIC8 x -40 to 170 x x x x x x
Melexis MLX902xy x -15 to 400 2 x x x 2-Wire; 3-Wire TO92; SOT23 -40 to 170 x x x x x x
Honeywell
SS49x -84 to 84 x 3-Wire SIP3 -40 to 150 x x x x x x
SS39; SS49; SS59 -65 to 65 x 3-Wire SOT23; SOT89; TO92 -40 to 100 x x x x x
91SS -40 to 40 x 3-Wire SIP3 -40 to 150 x x x x x
Diodes AH49xyz -65 to 100 x 3-Wire TO92; SOT23 -40 to 105 x x x x x
AH850x 37 to 43 x 3-Wire U-DFN2020-6 -40 to 85 x x x x x
Vishay981HE x x 3-Wire Module -45 to 125 x x x x x
20LHE x x 3-Wire Module -45 to 85 x x x x x x
2D / 3D Hall Sensor
Micronas
HAL36xy x -150 to 150 32 x x 3-Wire SOIC8 -40 to 170 x x x x x x
HAx37xy x -100 to 100 33 x x x 3-Wire TO92; SOIC8 x -40 to 170 x x x x x x x x
HAL38xy x -100 to 100 32 x x 3-Wire TO92; SOIC8 -40 to 170 x x x x x x x x
Infineon TLV493D -130 to 130 x 3-Wire PG-TSOP-6-6-5 -40 to 125 x x x x x x x x
Melexis MLX903xy x progr. 16 x x x x 3-Wire TSSOP16 x -40 to 170 x x x x x x x x
GMR Sensor
Infineon TLx50xy x -200 to 200 2 x x x SOIC8 x -40 to 170 x x x x x x
AMR Sensor
Honeywell APS00B -19 to 19 x SOIC8 -40 to 150 x x x x x
Infineon TLE5309D x SOIC8 -40 to 150 x x x x x
Diodes ZMZ-20 x 4-Wire TO92 -40 to 150 x x x x x x
MI Sensor
Rohm BM1422GMV x - 1.2 to 1.2 2 x 3-Wire MLGA010V020A -40 to 85 x x x x
Applications Throttle position sensor Steering torque sensor Accelerator pedal module Gear position sensor
Transmission tange sensor Exhaust gas recirculation system Headlight adjustment
Suspension control Bending light module Fuel tank level
Throttle flap Gas pedal
Steering angle Rotary position sensor
Throttle cable
Analog Sensors
74 MEMS | Environmental | Optical | Magnetic | Current |
Part Number
Hall Effect Switch Type Output Type
Magnetic Characteristic Vdd Idd Temp. Range
PackageBon (G) Boff (G)(V) (mA) (°C)
min max min max
AH3362Q Unipolar Single Open Drain 15 45 5 35 3 to 28 3 -40 to 150 SIP3; SOT23; SC59AH3363Q Unipolar Single Open Drain 38 72 20 50 3 to 28 3 -40 to 150 SIP3; SOT23; SC59AH3364Q Unipolar Single Open Drain 60 100 40 80 3 to 28 3 -40 to 150 SIP3; SOT23AH3365Q Unipolar Single Open Drain 80 120 60 100 3 to 28 3 -40 to 150 SIP3; SOT23AH3366Q Unipolar Single Open Drain 65 135 50 120 3 to 28 3 -40 to 150 SIP3; SOT23; SC59AH3367Q Unipolar Single Open Drain 95 140 70 120 3 to 28 3 -40 to 150 SIP3; SOT23; SC59AH3368Q Unipolar Single Open Drain 130 180 90 160 3 to 28 3 -40 to 150 SIP3; SOT23AH3369Q Unipolar Single Open Drain 150 220 105 180 3 to 28 3 -40 to 150 SIP3; SOT23AH3390Q Unipolar Single Open Drain 180 240 155 220 3 to 28 3 -40 to 150 SIP3; SOT23; SC59AH3391Q Unipolar Single Open Drain 235 300 210 275 3 to 28 3 -40 to 150 SIP3; SOT23AH3762Q Latch Open Drain 10 40 -40 -10 3 to 28 3 -40 to 150 SIP3; SOT23; SC59AH3763Q Latch Open Drain 15 30 -30 -15 3 to 28 3 -40 to 150 SIP3; SOT23; SC59AH3764Q Latch Open Drain 20 60 -40 -20 3 to 28 3 -40 to 150 SIP3; SOT23; SC59AH3765Q Latch Open Drain 50 90 -90 -50 3 to 28 3 -40 to 150 SIP3; SOT23; SC59
AH3766Q Latch Open Drain 80 140 -140 -80 3 to 28 3 -40 to 150 SIP3; SOT23AH3767Q Latch Open Drain 110 140 -140 -110 3 to 28 3 -40 to 150 SIP3; SOT23AH3768Q Latch Internal pull up 140 200 -200 -140 3 to 28 3 -40 to 150 SIP3; SOT23AH3769Q Latch Internal pull up 170 250 -250 -170 3 to 28 3 -40 to 150 SIP3; SOT23
High-Performance Automotive Hall Effect Switch ICsAH376xQ & AH336xQ Families
Wide Range of Sensitivity OptionsDiodes Incorporated (Nasdaq: DIOD), a leading global manufacturer and supplier of high-quality application specific standard products within the broad discrete, logic and analog semiconductor markets, today introduced the AH376xQ & AH336xQ families of AECQ100-qualified hall effect switches. These devices offer eight magnetic sensitivity options to cover the requirements of numerous automotive applications. Such automotive applications include commutation, encoding and position control of the various motors, pumps, fans and valves found in vehicle cabins, and operating windows, sun roofs, seats, tailgates and air-conditioning. These Hall effect switches can also be used in the engine bay for steering and sensing the speed and position of the crankshaft, camshafts, cooling fans, and water, oil and fuel pumps.
Analog Sensors
75MEMS | Environmental | Optical | Magnetic | Current |
Part NumberVdd Idd Typical Sensitivity
Null Output VoltageMagnetic Flux Temp. Range
Package(V) (µA) (mV/Gauss) (Gauss) (°C)
AH8500 1.6 to 3.6 12 2.1 Vdd/2 370 tp 430 -40 to 85 U-DFN2020-6AH8501 1.6 to 3.6 12 2.25 Vdd/2 388 to 400 -40 to 85 U-DFN2020-6AH8502 1.6 to 3.6 13 2.1 Vdd/2 370 to 430 -40 to 85 U-DFN2020-6AH8503 1.6 to 3.6 13 2.25 Vdd/2 388 to 400 -40 to 85 U-DFN2020-6
Linear Hall Effect SensorsAH850x-Series
The AH850x are a high accuracy, low power linear Hall effect sensors with output voltage of 8-bit resolution. The output voltage is ratiometric to the supply voltage and proportional to the magnetic flux density perpendicular to the part marking surface. The output null point is at half the supply voltage.
AH850x are trimmed devices with sensitivities of 2.1 mV/G to 2.25 mV/G and 3.55 mV/G to 3.8 mV/G at 1.8 V and 3 V with accuracy of 3% . The devices has typical input referred rms noise of 0.36G and 0.24G at 1.8V and 3.0V
Applications High Accuracy Level, Proximity, Position and Travel Detection Button Press Detection in Digital Still, Video Cameras and Handheld Gaming Consoles Accurate Door, Lids and Tray Position Detection
Liquid Level Detection Joy Stick Control – Gaming and Industrial Applications Contact-Less Level, Proximity and Position Measurement in Home Appliances and Industrial Applications
Analog Sensors
76 MEMS | Environmental | Optical | Magnetic | Current |
Medical Applications Hearing aid Exercise equipment Infusion
Drug carts Hospital bed
Industrial Applications Metering Security Industrial fire alarms
Power tools White goods Consumer electronics
Magnetoresistive Sensor ICsSM35x / SM45x – Nanopower & Standard Power Series
Type SM351LT SM353LT SM351RT SM353RT SM451R SM453R
Supply Voltag [V] 1.6 to 5.5 1.6 to 5.5 3 to 24 3 to 24 3 to 24 3 to 24
Operate [mT] 0.7 1.4 0.7 1.4 0.7 1.4
Release [mT] 0.48 0.93 0.48 0.93 0.48 0.93
Averag Current [µA] 0.360 0.310 2500 2500 2500 2500
Sleep Time [ms] 100 100 n/a n/a n/a n/a
Operational Temperature [°C] -40 to 85 -40 to 85 -40 to 85 -40 to 85 -40 to 85 -40 to 85
Package SOT23 SOT23 SOT23 SOT23 TO92 TO92
Honeywell’s Nanopower AMR Sensor ICs and Standard Power Series are ultra-sensitive devices designed to accommodate a wide range of applications with large air gaps, small magnetic fields and low power requirements. These Magnetoresistive Sensor ICs, Nanopower Series, are supplied in the subminiature SOT-23 surface mount package or in TO-92 style on tape and reel (3000 units per reel), for use in automated pick-and-place component installation.
Analog Sensors
77MEMS | Environmental | Optical | Magnetic | Current |
Two-In-One Double Hall SensorTLE4966: Sensor to detect Rotation Direction and Rotation Speed
TLE4966 features two integrated, calibrated sensor elements for detecting direction and counting indexes. This two-in-one feature eliminates the need for a second sensor, which in turn cuts engineering and production costs. Using just one sensor also raises system quality and reliability. The vertical orientation of the Hall plates of TLE4966V enable measurement of magnetic fields, in parallel to package and PCB surface. This brand-new sensor concept helps customers designing automotive systems, being previously not feasible. All devices are AECQ-100 qualified.
Features Two Hall probes Excellent matching between the two Hall probes Hall plate distance of 1.45 mm Industry standard Outstanding quality Information on direction and speed TSOP6 package AECQ100
Applications Window lifter (index counting) Power closing (index counting) Driver controls (index counting)
Product Type Operating Point BOP
Release Point BRPHysteresis
∆BHYAutomotive Package
TLE4966K/L Double Hall, speed and direction output 7.5 -7.5 15 x TSOP6/PG-SSO-4
TLE4966-2K Double Hall, two independent outputs 7.5 -7.5 15 x TSOP6
TLE4966-3K Double Hall, speed and direction output 2.5 -2.5 5 x TSOP6
TLE4966V-1K Vertical Double Hall, speed and direction output 2.5 -2.5 5 x TSOP6
2 Hall ProbesIntegrated
Speed
+10
0
Position
Direction
t
t
RotationDirection
N
N
NN
N
S
S
S
S
S
-10
2 Hall ProbesIntegrated
Speed
+10
0
Position
Direction
t
t
RotationDirection
N
N
NN
N
S
S
S
S
S
-102 Hall ProbesIntegrated
Speed
+10
0
Position
Direction
t
t
RotationDirection
N
N
NN
N
S
S
S
S
S
-102 Hall Probes
integrated
Analog Sensors
78 MEMS | Environmental | Optical | Magnetic | Current |
Product Type Operating Point BOP Release Point BRP Hysteresis ∆BHY Automotive Package
TLE4961-1M/L Latch 2.0 -2.0 4.0 x SOT23/PG-SSO-3TLE4961-2M Latch 5.0 -5.0 10.0 x SOT23TLE4961-3M Latch 7.5 -7.5 15.0 x SOT23TLE4961-3M/L Latch 7.5 -7.5 15.0 x SOT23/PG-SSO-3
TLE4961-4M Latch 10.0 -10.0 20.0 x SOT23
TLE4961-5M Latch 15.0 -15.0 30.0 x SOT23
TLE4964-1M Switch 18.0 12.5 5.5 x SOT23TLE4964-2M Switch 28.0 22.5 5.5 x SOT23
TLE4964-3M Switch 12.5 9.5 3.0 x SOT23TLE4964-4M Switch 10.0 8.5 1.5 x SOT23TLE4964-5M Switch 7.5 5.0 2.5 x SOT23TLE4964-6M Switch 3.5 2.5 1.0 x SOT23TLE4968-1M/L Bipolar 1.0 -1.0 2.0 x SOT23/PG-SSO-3
Integrated Hall effect sensors specially designed for highly accurate applications
Hall Switches in SOT23Fit for future: Energy Efficient Hall Switch Family TLE496x-xM/L
Features Current consumption of just 1.6 mA 3 V to 32 V supply voltage range 7kV ESD protection (HBM) Overtemp. and overcurrent protection Temperature compensated Automotive qualified Temperature range -40 … 170 °C
Benefits Energy saving: With current consumption of 1.6 mA, TLE496x-xM/L products can cut energy consumption by up to 50 percent compared with similar competitor products Precise: Small magnetic hysteresis enables precise switching points in the system. The integrated temperature profile compensates magnetic drifts and enables stable performance over temperature and lifetime
Applications Window lifter (index counting) Robotics (index counting) Power closing (index counting) System position (position detection) Gear stick (position detection) Seat belt (position detection) Brushless DC motor commutation Flap and valve position
Compact: Offered in the smallest package SOT23, thus reducing height by 10 percent compared with predecessor products The new Hall Switch sensors also feature an integrated functionality test for better system control Wide portfolio of productive devices
Analog Sensors
79MEMS | Environmental | Optical | Magnetic | Current |
TLV496x-xTA/BHall Switches in Leaded Package for Consumer Applications
The TLV496x-xTA/B Hall sensor family comprises a line of Hall switches for contactless position sensing.
The sensors are specially designed to provide an easy-to-use and cost effective solution for position sensing applications.They are available in T092 package with straight and banded leads.
TLE496x-xM / TLI496x-xM5V Hall Switched for Automotive / Industrial ApplicationsIntegrated Hall effect sensors specially designed for highly accurate applications. The sensors provide an easy-to-use and cost effective solution for position sensing applications, requiring high temperature stability of the magnetic threshold. By offering an excellent magnetic behavior Infineon’s switches are ideally suited for: Index counting application with a pole wheel Rotor position detection (BLDC motors) Open/close detection
High Precision Hall Effect Sensors
Features 3.0 to 26 V operating supply voltage Low current consumption 1.6 mA ESD protection 4 kV HBM Operating temperature range: -40 °C to 125 °C Leaded package PG-TO92S
Features 3.0 V to 5.5 V operating supply voltage Low current consumption 1.4 mA ESD protection 4 kV HBM
Operating temperature range: TLE496x-xM -40 °C to 170 °C TLI496x-xM -40 °C to 125 °C
Small SMD package SOT23 AEC-Q100 qualified
Product Type Operating Point BOP Release Point BRP Hysteresis ∆BHY Automotive Industrial Consumer Package
TLE496x-xMTLE4963-1M Latch 2.0 -2.0 4.0 x x x PG-SOT23-3-15TLE4963-2M Latch 5.0 -5.0 10.0 x x x PG-SOT23-3-15TLE4965-5M Unipolar switch 7.5 5.0 2.5 x x x PG-SOT23-3-15TLI496x-xMTLI4963-1M Latch 2.0 -2.0 4.0 x x PG-SOT23-3-15TLI4963-2M Latch 5.0 -5.0 10.0 x x PG-SOT23-3-15TLI4965-5M Unipolar switch 7.5 5.0 2.5 x x PG-SOT23-3-15TLV496x-xTA/BTLV4961-1TA Latch 2.0 -2.0 4.0 x PG-TO92S-3-1TLV4961-1TB Latch 2.0 -2.0 4.0 x PG-TO92S-3-2TLV4961-3TA Latch 7.5 -7.5 15.0 x PG-TO92S-3-1TLV4961-3TB Latch 7.5 -7.5 15.0 x PG-TO92S-3-2TLV4964-4TA Unipolar switch 10.0 8.5 1.5 x PG-TO92S-3-1TLV4964-4TB Unipolar switch 10.0 8.5 1.5 x PG-TO92S-3-2TLV4964-5TA Unipolar switch 7.5 5.0 2.5 x PG-TO92S-3-1TLV4964-5TB Unipolar switch 7.5 5.0 2.5 x PG-TO92S-3-2TLV4968-1TA Latch 1.0 -1.0 2.0 x PG-TO92S-3-1TLV4968-1TB Latch 1.0 -1.0 2.0 x PG-TO92S-3-2
Analog Sensors
TLE4921-5UHighly Robust and Cost-Effective Speed Sensor
Features Good sensing performance and high sensitivity Well suited to harsh environments thanks to dynamic offset cancelation, EMI robustness, reverse polarity and overvoltage protection Configurable interface: two-wire, three-wire Automotive qualified
TLE4921-5U is a highly robust and cost-effective solution for measuring speed in a wide range of automotive and industrial applications.
This differential Hall sensor delivers outstanding performance while enabling simple, low-cost magnetic circuit designs, making it ideal for all entry-level speed sensing applications.
Application Engine speed and position (e.g. crankshaft) Transmission speed Speedometer Industrial speed and position sensing Wheel speed (e.g. ABS)
Product ATV Sensor Technology Industrial AEC-Q100 Qualified RoHS HAL free Product Status
TLE4921 yes Differential Hall yes yes yes yes In Production
TLE4922 yes Mono-Hall yes yes yes yes In Production
TLE4924 yes Differential Hall yes yes yes yes In Production
TLE4926 yes Differential Hall yes yes yes In Production
TLE4927 yes Differential Hall yes yes yes yes In Production
TLE4928 yes Differential Hall yes yes yes In Production
TLE4941 yes Differential Hall yes yes yes yes In Production
TLE4941plusC yes Differential Hall yes yes yes yes In Production
TLE4942 yes Differential Hall yes yes yes yes In Production
TLE4951 yes Differential Hall yes yes yes yes In Production
TLE4953 yes Differential Hall yes yes yes In Production
TLE4954 yes Differential Hall yes yes yes yes In Production
TLE4957 yes Differential Hall yes yes yes yes In Production
TLE4983 yes Mono-Hall yes yes yes In Production
TLE4984 yes Mono-Hall yes yes yes In Production
TLE4986 yes Mono-Hall yes yes yes In Production
TLE5025 yes iGMR yes yes yes In Production
TLE5027 yes iGMR yes yes yes In Production
TLE5041plusC yes iGMR yes yes yes In Production
TLE5045iC yes iGMR yes yes yes In Production
TLE5046iC yes iGMR yes yes yes In Production
80 MEMS | Environmental | Optical | Magnetic | Current |
Infineon’s Hall- and GMR-based magnetic speed sensors are designed to measure speed in safety and powertrain applications such as speedometers, ABS, camshafts/crankshafts and automatic transmissions. They are also used in similar applications in the industrial sector. The sensors use a ferromagnetic gear tooth or encoder structure to measure linear or rotational speed and position. Hall sensor measuring rotational speed with a gear tooth and a magnetic encoder wheel.
Magnetic Speed Sensors
Analog Sensors
TLE4941plusCAnalog and Digital Signal Processing One a Single Chip
TLE4924/26/27/28CHigh-Performance Speed Sensor Family
Features Two-wire current interface for minimum wiring Dynamic self-calibration principle to compensate for offsets High sensitivity for large air gap applications Suitable for encoders and tonewheels, and also available with an integrated magnet for back bias applications Integrated 1.8nF overmolded capacitor enhances EMC & microbreak resistance with no external components needed
Features High sensitivity and large operating air gaps Excellent switching performance down to a 1Hz cut-off frequency Strong EMC robustness and micro-cut performance thanks to module-style package with integrated 47 nF/4.7 nF capacitors Automotive qualified
TLE4941plusC is a differential Hall sensor that magneti-cally measures a car’s wheel speed. It is the latest addition to Infineon’s extremely successful TLE4941 family and also its drop-in replacement.Like its predecessors, TLE4941plusC is a single-chip solution that combines Hall sensor elements as well as analog and digi-tal signal processing on a single chip. Its differential principle makes it immune to any kind of undesired magnetic fields and disturbances. The distance between Hall elements has been reduced to 2 mm, thus making it suitable for smaller encoders.
Infineon’s TLE492x differential Hall speed sensors are designed for a broad range of speed sensing applications. Thanks to the hysteresis and dynamic selfcalibration algorithm, they are ideally suited to high-performance speed sensing applications in harsh environments. All sensors have a three-wire voltage interface, fast start-up time, symmetrical switching thresholds and optional south or north pole pre-induction.
Application Engine speed and position (i.e. crankshaft) Transmission speed Speedometer Industrial speed and position sensing
Application Wheel speed sensing in automotive applications Antilock Braking Systems (ABS) Electronic Stability Programs (ESP) Automatic transmissions Industrial speed sensing
Typical Application of a Magnetic Differential Sensor
Ba ck Bias Magnet Encoder Wheels
Gear WheelMagnet Wheel
N (S)
S (N) Permanent Magnet
Hall Sensor 2Hall Sensor 1
SignalProcessingCircuitry
SignalProcessingCircuitry
Hall Sensor 2Hall Sensor 1
Type Hysteresis Comment PackageStandard
TLE4924C-1 Visible fixed PG-SSO-3-9
TLE4924C-2 Visible adaptive PG-SSO-3-9
TLE4926C Hidden fixed PG-SSO-3-9
TLE4926C-HT Hidden fixed High temp. PG-SSO-3-9
TLE4927C Hidden adaptive PG-SSO-3-9
TLE4928C Hidden fixed 200ms watchdog reset PG-SSO-3-9
81MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
The sensor is specially designed to provide an easy-to-use, robust and cost effective solution for vehicle or industrial speed sensing applications. Therefore, TLE4922 can be back biased, using a simple, low-cost bulk magnet while providing good air gap perfor-mance and switching accuracy. Its hidden adaptive hysteresis and calibration algorithm enable good accuracy over air gap jumps and immunity to vibration and run-out events.
Mono - Hall Speed SensorTLE4922 – Highly Robust, easy to use with Twist Independent Mounting
With the use of mono-cell design, the TLE4922 is the perfect choice for applications requiring twist independent mounting. As a result, the TLE4922 is well suited for repla-cing passive sensors like variable reluctance (VR) sensors, in automotive and 2-wheeler applications by providing the user with higher accuracy and better jitter performance.
The improved EMC, ESD and temperature robustness fit perfectly for usage in harsh environmental conditions prevalent in automotive or dedicated industrial applications. The TLE4922 is delivered in a thin 4-pin PG-SSO-4-1 package using a standard 3-wire voltage interface.
Features Large operating air gap capability Twist independent mounting Hidden adaptive hysteresis Low current consumption Reverse magnetic polarity capability Advanced protection technology - Reverse voltage protection at Vs-pin - Short circuit protection - Over temperature protection Wide operating temperature ranges of -40 °C ≤ Tj ≤ ±150 °C High ESD robustness up to ±4 kV HBM 3-wire PWM voltage interface
Applications 2-wheeler Automotive vehicle speed Industrial applicationsChopped
Hall Probe
AnalogSupply
TrackingADC
HallSupply
DigitalSupply
OpenDrain
Vout
GND
VS
D-Core(Min/Max, Oset,
Comparator)
82 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Angle Sensors iGMR Based Angle Sensors
Infineon’s iAMR sensors are ideal for applications with the highest accuracy requirements. Their iAMR technology offers best performance over temperature, lifetime and magnetic field range. They are pre-calibrated and ready to use.
iAMR Sensors
TLE5009Analog iGMR Sensor with Temperature Compensation
TLE5309D180° iAMR and GMR Sensor with Analog Interface
TLE5109A16Analog iAMR Sensor with Temperature Compensation
TLE5009 features a differential or single-en ded analog interface for sine and cosine values as well as internal temperature drift compensation for gain and offset. Also available in Dual-Sensor package.
Features a differential or single-ended analog interface for sine an cosine values Internal temperature drift compensation for gain and offset Also available as a dual-sensor-package ISO 26262 ready
Differential or single-ended analog interface for sine and cosine values Internal temperature drift compensation for gain and offset Dual-sensor with technology diversity
TLE5012B(D)iGMR Sensor with Integrated Angle Calculation and Multiple Interfaces
Integrated angle calculation 42μs update rate at 15bit resolution Range of selectable interfaces SPI, bi-directional up to 8Mbit/s Pulse Width Modulation (PWM) Hall Switch Mode (HSM) for motor commutation
Incremental interface (IIF) Temperature compensation and auto- calibration algorithm Diagnostic function for sensor elements and circuitry with PRO-SIL™ support Dual-sensor SMD package (TLE5012BD) Redundancy (TLE5012BD)
Infineon’s iGMR sensors are ideal for applications with a wide angle range, for example BLDC motor or steering sensors. They are pre-calibrated and ready to use. Different levels of signal processing integration enable designers to optimize system partitioning.
83MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
TLE5014 magnetic angle sensors meet ISO 26262 ASIL C for the single die and ISO 26262 ASIL D for the dual die versions. Therefore, all products are ready for applications with the highest functional safety requirements. The sensors show an extremely small angle error of less than 1° across the entire temperature profile and lifetime. This is particularly helpful in applications with the need for very accurate position sensing such as steering angle sensing or motor commutation. Further application areas range from rotor position measurement, EPS (Electric Power Steering), pedal position to any other kind of position measurement.
The TLE5501 family consists of two derivatives TLE5501 E0001 and TLE5501 E0002 TLE5501 E0001: the AEC-Q100 compliant QM version (pin-compatible to TLE5009) TLE5501 E0002: the ISO26262 ASIL D-compliant version (requires use of external safety mechanisms)
General Features Integrated magnetic field sensing for angle measurement High voltage and reverse polarity capability EEPROM for storage of configuration (e.g. zero angle) and customer-specific ID
Infineon’s New Digital GMR Angle Sensor for Functional Safety Applications
Angle Sensors XENSIV™ TLE5014(D)
XENSIV™ TLE5501
Product Technology Die configuration ISO 26262 Sin/cos output Angle output Second interface Accuracy Package
TLE5009 GMR Single die Ready Analog sin/cos - - 0.9° DSO-8
TLE5009A16(D) GMR Dual die Ready Analog sin/cos - - 1.0° TDSO-16
TLE5011 GMR Single die Ready SSC (SPI) - - 1.6° DSO-8
TLI5012B GMR Single die Ready SSC (SPI) SSC (SPI) PWM/IIF/SPC/HSM 1.9° DSO-8
TLE5012B(D) GMR Single & dual die Ready SSC (SPI) SSC (SPI) PWM/IIF/SPC/HSM 1.0° DSO-8/ TDSO-16
TLE5014C16(D) GMR Single & dual die Compliant - SPC - 1.0° TDSO-16
TLE5014P16(D) GMR Single & dual die Compliant - PWM - 1.0° TDSO-16
TLE5014S16(D) GMR Single & dual die Compliant - SENT - 1.0° TDSO-16
TLE5109A16(D) AMR Single & dual die Ready Analog sin/cos - - 0.5° TDSO-16
TLE5309D AMR + GMR Dual die Ready Analog sin/cos SSC (SPI) - AMR 0.5°, GMR 1.0° TDSO-16
TLE5501 TMR Single die Compliant Analog sin/cos - - 1.0° DSO-8
Features Large output signals of up to 0.37 V/V for direct microcontroller connection Discrete bridge with differential sine and cosine output Supply current: ~2 mA
Magnetic field range (20 to 100 mT) Typ. angle error ~ 1.0 ° (overtemperature and lifetime) Designed for Safety: 2 independent dual channel sensors
12-bit representation of absolute angle value on the output Max. 1° angle error over lifetime and temperature range Developed according to ISO 26262 with process complying to ASIL D Interfaces: PWM, SPC, SENT (based on SAE J2716-2010) Available as single and dual die product
DSO-8 package Automotive qualified Q100, Grade 0: TA = -40 to 150°C (ambient temperature) Functional safety: safety manual and safety analysis summary report available on request
84 MEMS | Environmental | Optical | Magnetic | Current |
XENSIV™ TLE5501 – Infineon’s First Analog TMR Angle Sensor
iGMR, iAMR & iTMR Sensor Technologies
Tunnelin magneto-resistive technologay
Analog Sensors
3D Magnetic Sensor 2GO Kit
The TLx493D sensor realizes accurate three-dimensional sensing with extremely low power consumption in a small 6-pin package. Capable of detecting the magnetic field in the x, y, and z-direction, the sensor is ideally suited for the measurement of linear travel, rotational or 3 dimensional movements.Thanks to its small package and low power consumption, the TLx493D family can be used in new applications, replacing potentio-meter and optical solutions – in consumer, industrial and automotive applications. Featuring contactless position sensing and high temperature stability of the magnetic threshold, this system concept keeps getting smaller, more accurate and more robust. The sensor provides a standard 2-wire digital I²C interface, which enables high speed bi-directional communication between the sensor and microcontroller.
Budget-priced evaluation board equipped with Infineon magnetic sensor combined with an ARM® Cortex™-M0 CPU. 2 Go Kit has a complete set of on-board devices, including an on-board debugger. A dedicated GUI can be downloaded from
https://www.infineon.com/cms/en/product/promopages/sensors-2go/
for evaluation Available with TLV493D-A1B6, TLE493D-A2B6 and TLE493D-W2B6 TLE493D-W2B6 3D 2GO KIT (SP001707578) TLV493D-A1B6 3D 2GO KIT (SP001707574) TLE493D-A2B6 3D 2GO KIT (SP001707582)
3D Hall Sensor Product ID Qualification Linear MagneticRange Resolution Temperature
Range Matching drift IDD
TLI493D-A2B6 SP001689844 JESD47 ± 160 mT (min) 130uT/LSB 65uT/LSB1 -40 to 105°C
X/Y: ±3.5% XY/Z: ±15% 7 nA – 3.3 mA
TLV493D-A1B6 SP001286056 JESD47 ± 130 mT (typn) 98µT/LSB -40 to 125°CX/Y: typ. ±5%
XY/Z: typ. ±20% 7 nA – 3.3 mA
TLE493D-W2B6 A0 SP001605334 AECQ-100 ± 160 mT (min) 130uT/LSB -40 to 125°C X/Y: ±3.5% 7 nA – 3.3 mA
TLE493D-W2B6 A1 SP001605340 AECQ-100 ± 160 mT (min) 65uT/LSB1) -40 to 125°C XY/Z: ±15% 7 nA – 3.3 mA
TLE493D-W2B6 A2 SP001605344 AECQ-100 ± 160 mT (min) 130uT/LSB -40 to 125°C X/Y: ±3.5% 7 nA – 3.3 mA
TLE493D-W2B6 A3 SP001605348 AECQ-100 ± 160 mT (min) 65uT/LSB1) -40 to 125°C XY/Z: ±15% 7 nA – 3.3 mA
TLE493D-A2B6 SP001689848 AECQ-100 ± 160 mT (min) 130uT/LSB -40 to 125°C X/Y: ±3.5% 7 nA – 3.3 mA
3D Magnetic Measurements in Consumer, Industrial & Automotive Applications
3D Hall Magnetic Sensors XENSIV™ TLx493D
3D-movement e.g. top column module
Angle measurement e.g. control button
Linear measurement e.g. gear stick
85MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
The MLX90393 is offering maximal flexibility at minimal size. With its 3x3mm footprint, it can fit in the tiniest of assemblies. It provides a digital output proportional to the sensed magnetic flux density along the 3 perpendicular axes of symmetry of the sensor.
Features & Benefits Micropower (2.2 V – 3.6 V, 2.5 μA idle current) Low-voltage I/O (1.8 V – Vdd) SPI (3+4-wire) & I²C interface, slave node 16-bit XYZ magnetic and thermal measurement QFN3x3 package, 16 leads In-application programmable (gain, mode, axes, …) Ta = -20 ... 85 °C
Applications Sensing element for the Internet of Things (IoT) Metering
Impeller-based meters 360° impeller position detection incl. anti tampering Meter mechanical counter digit readout General tri-axial anti tampering detection Gauss-meter
HMI Joystick w/ Push Rotary knob w/ Push Lever / slide switch linear stroke
Valve position, industrial sensing Robotics & factory automation Home security
Tamper proof door/window opening detection
But the miniature sensor is mostly characterized by the fact that it can interchange measurement speed for both current consumption and noise on the digital output signal, making it the raw building block for any magnetic sensing application up to 85°C. An external microcontroller can then combine the measurement data in order to define the position of the magnet with respect to the sensor. All this at a selectable dutycycle of 0.1% to 100%.
HMI: Human-Machine InterfaceThe MLX90393 lends itself for a wide variety of Human-Machine Interfaces such as joystick (Gimball, Ball&Socket) with Push detection, Rotary knobs with Push function and linear strokes by levers or sliding switches.
Micropower Triaxis MagnetometerMLX90393 – World smallest 3D Magnetometer for Position Sensing
MLX92211-B
Melexis presents a revolutionary concept: a perfectly customized Hall latch or switch for your applications. A virtually unlimited set of versions at a great price.
FOR MORE INFORMATION: WWW.MELEXIS.COM
ONE HYPERFLEXIBLE PRODUCT FAMILY …EXACTLY MATCHES YOUR REQUIREMENTS
MLX92211/21/31/32/41/42
HALL LATCH & SWITCHES
PROGRAMMABLE &PRE-PROGRAMMED Th
e ha
mm
erhe
ad sh
ark
is a
ble
to d
etec
t ele
ctro
nic
sign
als
of n
o m
ore
than
hal
f a b
illio
nth
of a
vol
t. Th
e pr
oces
s us
es sp
ecia
lized
ele
ctro
rece
ptor
s to
dete
ct a
nd lo
cate
th
e so
urce
of a
n ex
tern
al e
lect
ric
field
in it
s env
ironm
ent.
Wha
t bet
ter a
nim
al to
refle
ct o
ur se
nsin
g ca
paci
ties
?
k 2-wire latch / switch: MLX92242
k 3-wire latch / switch: MLX92232
k 2-wire latch: MLX92221
k 2-wire switch: MLX92241
k 3-wire latch: MLX92211
k 3-wire switch: MLX92231
OFFER
k Rapid prototyping
k High accuracy
BENEFITS
k Drop-in replacements and second sourcing
k Total cost of ownership (TCO) optimization
BENEFITS
OFFER
You programme the latch / switch. Melexis programmes the latch / switch.
PROGRAMMABLE PRE-PROGRAMMED
MLX92211-A MLX92232-B MLX92241-A
MLX92242-A
MLX92242-BMLX92221-A
MLX92221-B MLX92231-A MLX92232-A
MLX92231-B
MLX92241-B
86 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Melexis presents a revolutionary concept: a perfectly customized Hall latch or switch for your applications. A virtually unlimited setof versions at a great price.
Applications Sensing element for the Internet of Things (IoT) Metering
Impeller-based meters 360° impeller position detection incl. anti tampering Meter mechanical counter digit readout General tri-axial anti tampering detection Gauss-meter
HMI Joystick w/ Push Rotary knob w/ Push Lever / slide switch linear stroke
Valve position, industrial sensing Robotics & factory automation Home security
Tamper proof door/window opening detection
ProgrammableYou programme the latch / switch.
Available Types 2-wire latch / switch: MLX92242 3-wire latch / switch: MLX92232
Benefits Rapid prototyping High accuracy Evaluation Tool
Key Applications Smart appliances and consumer devices Building automation and energy Industry and medical Automotive and transportation
Key Specifications Wide magnetic latch range: ±0.4 mT to ±80 mT Wide magnetic switch range: ±1.5 mT to ±66 mT Programmable hysteresis: 0 mT to 36 mT Programmable magnet TC coefficient: 0 to -2000 ppm/°C Wide operating voltage range: from 2.7 V to 24 V
Pre-programmedMelexis programmes the latch / switch.
Available Types 2-wire latch: MLX92221 2-wire switch: MLX92241 3-wire latch: MLX92211 3-wire switch: MLX92231
Benefits Drop-in replacements and second sourcing Total cost of ownership (TCO) optimization
Micropower Triaxis MagnetometerMLX90393 – World smallest 3D Magnetometer for Position Sensing
Hall Latch & SwitchesMLX92211/21/31/32/41/42– Programmable & Pre-programmed
MLX92211-B
Melexis presents a revolutionary concept: a perfectly customized Hall latch or switch for your applications. A virtually unlimited set of versions at a great price.
FOR MORE INFORMATION: WWW.MELEXIS.COM
ONE HYPERFLEXIBLE PRODUCT FAMILY …EXACTLY MATCHES YOUR REQUIREMENTS
MLX92211/21/31/32/41/42
HALL LATCH & SWITCHES
PROGRAMMABLE &PRE-PROGRAMMED Th
e ha
mm
erhe
ad sh
ark
is a
ble
to d
etec
t ele
ctro
nic
sign
als
of n
o m
ore
than
hal
f a b
illio
nth
of a
vol
t. Th
e pr
oces
s us
es sp
ecia
lized
ele
ctro
rece
ptor
s to
dete
ct a
nd lo
cate
th
e so
urce
of a
n ex
tern
al e
lect
ric
field
in it
s env
ironm
ent.
Wha
t bet
ter a
nim
al to
refle
ct o
ur se
nsin
g ca
paci
ties
?
k 2-wire latch / switch: MLX92242
k 3-wire latch / switch: MLX92232
k 2-wire latch: MLX92221
k 2-wire switch: MLX92241
k 3-wire latch: MLX92211
k 3-wire switch: MLX92231
OFFER
k Rapid prototyping
k High accuracy
BENEFITS
k Drop-in replacements and second sourcing
k Total cost of ownership (TCO) optimization
BENEFITS
OFFER
You programme the latch / switch. Melexis programmes the latch / switch.
PROGRAMMABLE PRE-PROGRAMMED
MLX92211-A MLX92232-B MLX92241-A
MLX92242-A
MLX92242-BMLX92221-A
MLX92221-B MLX92231-A MLX92232-A
MLX92231-B
MLX92241-B
87MEMS | Environmental | Optical | Magnetic | Current |
One Hyperflexible Product Family –
Exactly Matches your Requirements
Analog Sensors
88 MEMS | Environmental | Optical | Magnetic | Current |
MRMS591A
Part NumberSupply Voltages Current Operation Magnetic Field VCH VCH Operating Temp.
min [V] typ [V] max [V] [µA] [HON] [HOFF] [V] [V] [°C]
MRMS591A 3.1 3.3 3.5 5 6 0.8 3 0.8 -40 to 85
360° Magnetic Field Detection Sensor
Murata has developed the world’s first AMR sensor with 3D sensing capabilities supporting 360-degree magnetic field detection with uniform sensitivity in all directions. Magnetic field detection in three-dimensional space previously required the use of multiple magnetic sensors in combination, but the new sensor makes 3D magnetic field detection possible using a single device.
Applications Magnetic tampering detection in power, gas, and water meters; security devices; game machines Position detection White goods Turnrate measurement
Schematic Diagram
Features
Coplanarity: less than 0.1 mm (including under reflow condition)
Analog Sensors
89MEMS | Environmental | Optical | Magnetic | Current |
Murata has Developed World’s First Surface Mount Ultrasonic SensorThrough the use of an exclusive structural design, including the ceramic element, Murata Manufacturing has succeeded in developing what it believes to be the world’s first surface-mount device (SMD)-type ultrasonic sensor. Since it is a surface-mount device (SMD), the new sensor requires minimal mounting space, and it enables improved functionality for distance measurement and position detection through the use of ultrasonic waves.
Murata has Expand Their AMR Sensor PortfolioSuitable for non-contact sensor in combination with a magnet, high sensitivity and low current consumption, independent of magnetic pole and competitive price.
Partnumber MA40S4R MA40S4S MA40H1S-R
Type Lead Type Lead Type SMD TypeS / R Receiver Transducer Transducer
Norminal Frequenzy 40kHz 40kHz 40kHzSensitivity -63dB typ. NA TBD
Sound Pressure Level NA 120 dB typ. 100 dB typ.
Directivity 80° (typ) 80° (typ) 80° (typ)Capacitance 2550 pF 2550 pF 4500 pF
Operating Temp -40 … 85 °C -40 … 85 °C -20 … 60 °CMax. Input Voltage 20 Vp-p 6 Vp-p
Applications Metering Position detection
Part NumberSensitivity Supply Voltage Frequency Size Production
Status Axis[mT] [V] min [Hz] W x L x H [mm]
MRMS201A>= 2.5
1.6 to 3.5 8
2.9 x 2.8 x 1.1 x
1
MRMS501A 1.45 x 1.45 x 0.55 xMRMS601A 1.0 x 1.6 x 0.37 xMRMS211H/M/L H => 1.4
M >= 1.8 L >= 2.2
2.9 x 2.8 x 1.1 xMRMS511H/M/L 1.45 x 1.45 x 0.55 xMRMS611H/M/L 1.0 x 1.6 x 0.37 xMRUS52F >= 2.2 1.6 to 3.6 500 2.0 x 2.0 x 0.37 xMRMS205A >= 2.5 3.0 to 5.5
82.9 x 2.8 x 1.1
x
MRMS215H/M/LH => 1.4 M >= 1.8 L >= 2.2
3.0 to 5.5 x
MRMS571A >= 1.8 2.4 to 5.5 1.45 x 1.45 x 0.55 x
MURS72S >= 2.5 2.4 to 3.6
30k 1.5 x 1.8 x 0.8
xMRUS72X >= 1.4 2.4 to 3.6 x 2MRUS74S >= 2.5 2.0 to 3.6 x 1MRUS74X >= 1.4 2.0 to 3.6 x 2MRSS29DR >= 3.2 3.5 to 30 5k 2.9 x 2.8 x 1.1 x 1
Motor control Coffee machine
5.2x5.2x1.15 mm40 kHT
Surface Mounted Ultrasonic & AMR Sensors
Analog Sensors
Direct and Universal Brush/Brushless/Stepper Motor Control (sensored/sensorless) 300/600mA integrated half bridges (0.6/1A peak) for small motors Virtual star point and comparators Current scaling and shaping
Direct 9-18V Operation Dual-mode SMPS and regulators Switchable BVDD power supply output
HVC4223FFor Embedded Motor Control
Target Applications AGM/AGS (Grille Shutter) Adaptive Headlights & -Fan HVAC flap control EPS force feedback Automatic Flap Exhaust Gas / Re-circle Cover of Rear View Camera Milimetric Wace Radar Unit
32-bit ARM Cortex M3 and Toolchain 32 KB Flash, 2 kB RAM, 512 byte of EEPROM On-chip oscillators with active EMI suppression
Built-in Safety Features Protection logic, supply/clock/temp supervision, Start-stop retention mode ASILA
Host Interfaces LIN 2.1 & SAE J2602-2 compliant transceiver PWM, UART, analog in
PQFN40 6x6 mm² Package Operation -40 °C to 155 °C junction temperature
90 MEMS | Environmental | Optical | Magnetic | Current |
All in One
Analog Sensors
Features & Benefits ASIL A ready device Very low current consumption of typ. 1.6 mA (3-wire) Wide supply voltage operation from 2.7 V to 24 V, over voltage protection capability up to 40 V Highest HBM ESD performance ±8 kV Reverse-voltage protection at supply pin Operating with static and dynamic magnetic fields up to 12 kHz at lowest output jitter of max. 0.72µs (RMS) Temperature range: Tj. -40 ->170 °C SOT23 Jedec TO92UA package
HAL 15xy SeriesFirst ISO 26262 Compliant Low Power Hall Switch
Applications Buckle switch Seat track position Gear shift lever Window lifter (index counting) BLDC motor commutation Brake light switch Clutch pedal position
91MEMS | Environmental | Optical | Magnetic | Current |
Version Type Switching Behavior
Switching Points (typ.)TC ppm/K 2-wire
Isup lowBON BOFF
3-wire
HAL1502 latching 2.5mT -2.5mT -1000 na
HAL1501 bipolar 0.4mT -0.4mT 0 na
HAL1503 unipolar 5.5mT 3.7mT -1000 na
HAL1507 unipolar 28.2mT 23.9mT -300 na
HAL1504 latching 7.6mT -7.6mT -1200 na
HAL1505 latching 13.5mT -13.5mT -1200 na
HAL1506 unipolar 18.9mT 17.3mT -1200 na
HAL1508 unipolar -5.5mT -3.7mT -1000 na
HAL1509 unipolar inverted 3.7mT 5.5mT -1000 na
HAL1510 unipolar 12mT 7mT -1200 na
HAL1514 latching 5mT -5mT 0 na
2-wire
HAL1561 latching 4mT -4mT 0 5 to 7mA
HAL1563 unipolar inverted 7.6mT 9.4mT 0 5 to 7mA
HAL1564 unipolar inverted 4.1mT 6mT -1000 2 to 5mA
HAL1562 latching 12mT -12mT 0 5 to 7mA
HAL1565 unipolar 6mT 4.1mT -1000 2 to 5mA
HAL1566 unipolar 9.4mT 7.6mT 0 5 to 7mA
Analog Sensors
High Precision and Robust Multi-purpose Linear Hall Sensors For Distance & Small Angle Measurements
HAL83x Robustness Proven in UseThat family brings over 10 years know-how and a proven-in-use quality experience. It can work in harsh environment due to high temperature stability and offer flexibility thanks to the selectable output (analogue & PWM) of the HAL835.
Device Characteristics Output Package
HAL830 ± 30 to 100mT magnetic range Analog (12-bits) TO92-UT
HAL835 ± 15 to 150mT magnetic range Analog (12-bits) & PWM (125Hz, 11bits) TO92-UT
HAL2420 ± 25 to 200 mT magnetic rangeProgrammable temperature compensation for sensitivity and offset Continuous self-test
Analog (12-bits) TO92-UT, SOIC8
HAL2425 Analog (12-bits) with 16 programmable set points TO92-UT, SOIC8
HAL2455 PWM (2kHz, 12-bits) with 16 programmable set points TO92-UT, SOIC8
HAC 830 Proven Linear Technology in smallest form factor on the market including capacitors
HAR 24xyRedundancy in a very thin package
HAL 24xy Versatile and High-PrecisionThe versatile HAL24x5 family offers extended measurement for distance up to 2 times magnet length & angle up to 180° and state-of-the-art diagnostic functions for applications under stringent conditions.
Target Applications Pedal Throttle EGR
Turbo charger Transmission Joystick
92 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
Multi-Axis Sensor For Direct Angle and Linear Position
HAL 37xy / HAR 37xy / HAC 37xy
Target Applications Clutch position EGR Valve Turbo charger actuators
Device Number Output Format Magnetic Field Axis Accuracy [%FS] Min. Magnetic Field Amplitude [mT] Setpoints Magnetic Setup
HAL/HAR/HAC3725
Analog
XY ± 0.75
± 20 33
End of shaft
HAL/HAR/HAC3726 YZ ** Off-axis or linear position
HAL/HAR/HAC3727 XZ ** Off-axis or linear position
HAL/HAR/HAC3735PWM or
SENT SAE-J2716 Rev. 2010
XY ± 0.5 % End of shaft
HAL/HAR/HAC3736 YZ ** Off-axis or linear position
HAL/HAR/HAC3737 XZ ** Off-axis or linear position
** Available on request. Depends on magnetic setup
Key Features Unique „Virtual Offset Feature“ to - reduce magnet size & cost - Accuracy of <0.5 % full scale for linear or angular measurements No output linearization required for rotary applications High ESD protection according to stringent requirements of the automotive industry - ESD protection 8 kV (active Pins) Wide junction temp. range from -40 to 170 °C SOIC-8 SMD and TO92-UP four pin l eaded package “Open source” programming interface & software
Additional Features Supply voltage range 4.5 V to 5.5 V Programming via sensors output TTL-Level (0 V… 5 V) Memory w. redundancy & lock function AEC-Q100 qualification
Various Safety Features Wire-break & Over/Undervoltage detection Full signal path & memory supervision Overflow and state machine self-test Magnet lost detection
Transmission Chassis position sensors
Various valves for engine management Fuel level and Steering angle
HAC 37xy SOP
HAC 37xy Integrated Caps in robust
and compact single mold leaded
package TO92UF
HAR 37xy Redundancy in SOIC8 Package thanks to stacked die Technology
93MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
TLI4970: ±25/50A (AC/DC), up to ±1%
The TLI4970 is a highly accurate current sensor based on Infineon’s well established Hall technology. The coreless concept allows significant miniaturization compared to existing products. It is a fully digital solution, easy to use, no need for external calibration. Additionally a separate interface pin (OCD) provides a fast output signal in case the current measured by the sensor exceeds a predefined threshold. The small QFN-like package allows standard SMD assembly.
Product Highlights AC & DC measurement range up to ±50 A Highly accurate over temperature range and lifetime (max. 1.0 % (0 h), 1.6 % (over lifetime) of indicated value) Low offset error (max. 25 mA) High magnetic stray field suppression Fast overcurrent detection with configurable threshold Galvanic isolation ≤ 2.5 kV max. rated isol. voltage (UL1577) Wide portfolio of productive devices 16-bit digital SPI output (13-bit current value) Small 7.0 x 7.0 mm SMD package
VDD
MUXT
S
Reset, Oscillator,Bandgap
EEPROM
Supply, Biasing,
DSP Digital IF
DAC
ADC
ADCCS
GND
Compensation
Fast Overcurrent Detection (open-drain)
IP+
IP-
GalvanicSeparation
DOUT
SCLK
FOC
Di.Hall
TLI4970 Block Diagram
High-Precision Current Sensor
Product Accuracy Current Range Bandwidth [kHz] Resolution [mA] Automotive Industrial Package
TLI4970- D050T4 ±1.6 ±50 18 12.5 x PG-TISON-8
TLI4970- D050T5 ±3.5 ±50 18 12.5 x PG-TISON-8
TLI4970- D025T4 ±1.6 ±25 18 6.25 x PG-TISON-8
TLI4970- D025T5 ±3.5 ±25 18 6.25 x PG-TISON-8
TLE4970- D050T4 ±1.6 ±50 1 12.5 On request PG-TISON-8
TLE4970- D025T4 ±1.6 ±25 18 6.25 On request PG-TISON-8
Applications AC and DC current measurement Photovoltaic inverters PFC power supplies Automotive and industrial battery chargers Torque control for electrical drives
The TLI4970 provides superior accuracy compared to exist-ing open or closed loop systems with magnetic cores. It has additional functionality such as overcurrent detection, zero crossing detection and programmable filters, but offers a sig-nificantly smaller footprint and power consumption.
94 MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
MLX91210 Makes Current Sensing Easy
Meeting the needs of modern power monitoring, the MLX91210 delivers a fully integrated and factory calibrated current sensor that provides fast and accurate results. It combines the sensing element, the signal conditioning and the voltage isolation in one SMD pack-age. Ideal for modern, compact, applications the Plug and Power concept does not need any additional components such as a shunt resistor or ferromagnetic core.
Integrated, Calibrated and Compact Current Sensor
Features and Benefits For currents up to 30ARMS From DC to 100 kHz, 5µs response time One small IC integrates all Analog voltage output Calibrated by Melexis Robust against external fields and cross-talk by differential measurement Lowest electrical resistance: 0.8 mΩ Voltage isolation of 2.1 kVRMS Operating temperature -40 to 125 °C
Applications Energy, consumer, industrial, automotive Power monitoring (BLDC) motor current control, load detection Inverters incl. solar power Electric vehicles, e-bikes Server farms, motherboards Metering Power supplies Overcurrent detection
SOIC8 Version Max readout ±25 A: MLX91210KDC-CAS-101-RE Max readout ±50 A: MLX91210KDC-CAS-102-RE Max readout ±62.5 A: MLX91210KDC-CAS-104-RE
SOIC16 Version Max readout ±25 A: MLX91210KDF-CAS-101-RE Max readout ±50 A: MLX91210KDF-CAS-102-RE
95MEMS | Environmental | Optical | Magnetic | Current |
Analog Sensors
96 RUTRONIK Initiatives
RUTRONIK InitiativesAUTOMOTIVE, EMBEDDED, POWER & SMART
AUTOMOTIVE
RUTRONIK AUTOMOTIVE offers innovative pro- ducts of leading manufacturers for the automotive industry. RUTRONIK AUTOMOTIVE brings together entire solutions for the following topics:
Body & Convenience Drive Train Chassis & Safety Connected Car eMobility Consulting
RUTRONIK EMBEDDED will provide specific support to manufacturers of machines with focus on professional and robust applications.
Digital Signage Industrial Control Medical Transportation
Combine Technologies
Realize EMBEDDED Designs
More information: www.rutronik.com/automotive
More information: www.rutronik.com/embedded
Discover Innovation in Motion
AUTOMOTIVE Products
Connected Car
Body & Convenience
Drive Train Chassis & Safety
eMobility Consulting
Analog Sensors
97RUTRONIK Initiatives
s the RUTRONIK POWER brings the latest know-ledge, scalable solutions and efficient support for innovative power electronic components together – not only in the focus markets:
Industrial eMobility Home Appliance
RUTRONIK SMART offers you a new range of bundled hardware, software and services. RUTRONIK SMART brings together entire solutions to build applications for:
Health Home Retail Tracking
Efficient. Robust. Scalable.
Design your IdeasDiscover the Internet of Things
Design SMART Products
CloudSensors WirelesseMobilityIndustrial Home Appliance
More information: www.rutronik.com/power
More information: www.rutronik.com/smart
Security
Analog Sensors
98 RUTRONIK24
Catalog
2. All Roads Lead to Us.
Are you looking for a particular electronic component? Our Rutronik24 catalog will guide you reliably to the right choice: Our Product Groups Search will enable you to find the product you are looking for in a maximum of three steps. The product groups are divided into semiconductors, passive and electro mechanical components, storage technologies, displays & boards as well as wireless technologies. Using the full-text and part number search, you can select results after entering parts of the product or manufacturer‘s name.
Procurement
3. Everything at a Glance.
The Rutronik24 “Procurement” module provides you with a complete overview of your orders, item lists, stocks, contracts and delivery times. You can conve-niently download all the lists in Excel format and import them into your inventory control system, for example. Take the opportunity to save time.
Personal Support1. You Got it.With Rutronik24 we have created a modular platform that significantly simplifies your business processes. The advantages of rapid online orders are combined with a personal advisory service, tailored to your needs. This has not replaced our personal service; on the contrary: We are adding to it.
Five Good Reasons for Choosing Rutronik24Order online and receive personalised on-site support. We offer Catalog, Procurement, Mass Quotation and Product Change Notifications.
Analog Sensors
99RUTRONIK24
Mass Quotation
4. Everything in Just a Few Seconds.
Rutronik24 offers you the opportunity to access all the information about our products very quickly. We have developed the “Mass quotation” tool for the fast and simple evaluation of your individual material. Upload your comprehensive item lists to our system in one file and this will then be returned to you, complete with current prices and additional infor mation, just a few moments later.
PCN
5. Everything from a Single Source.
Be fully informed of changes. Our Rutronik24 “PCN” module keeps you up-to-date with current product changes from our manufacturers. Not only do you have access to an extensive PCN database, but the product changes are also linked directly to the respective pro-duct. This gives you the opportunity to react in good time to the changes.
for Developers
Search and filter according to a maximum of 12 technical parameters
Full text and part number search Data sheets, product links, application manuals Alternative replacement items suggested, e.g.
with discontinued components
for Buyers
Quotation request or direct ordering with the delivery and payment conditions agreed with Rutronik
Position your complete component list in the mass quotation tool and receive a complete offer
Direct contact with your Rutronik contact person – worldwide
Advantages
Visit us atwww.rutronik24.com
Analog Sensors
Committed to excellence
S09
ENG
| K
NA
| Spe
cific
atio
ns s
ubje
ct to
cha
nge
with
out n
otic
e.
Plea
se n
ote,
ther
e co
uld
be s
ome
limita
tions
for
som
e fr
anch
ised
pro
duct
line
s in
sev
eral
cou
ntrie
s. F
or m
ore
info
rmat
ion,
ple
ase
cont
act o
ur s
ales
team
.
Germany – Headquarters
Rutronik Elektronische Bauelemente GmbH | Industriestraße 2 | 75228 Ispringen / PforzheimTel. +49 7231 801-0 | Fax +49 7231 82282 | E-Mail: [email protected] | www.rutronik.com
Berlin Justus-von-Liebig-Straße 7 12489 Berlin Tel. +49 30 8 09 27 16-0
Dresden Radeburger Straße 172 01109 Dresden Tel. +49 351 20 53 30-0
Erfurt Flughafenstraße 4 99092 Erfurt Tel. +49 361 2 28 36-30
Frankfurt Frankfurter Straße 151 c 63303 Dreieich Tel. +49 6103 2 70 03-0
Freiburg Basler Landstraße 8 79111 Freiburg Tel. +49 761 61 16 77-0
Hamburg Neue Gröningerstraße 10 20457 Hamburg Tel. +49 40 3 59 60 06-20
Hannover Rendsburger Straße 32 30659 Hannover Tel. +49 511 228507-0
Mannheim Amselstraße 33 68307 Mannheim Tel. +49 621 76 21 26-0
München Landsberger Straße 392 81241 München Tel. +49 89 88 99 91-0
Nürnberg Südwestpark 10/12 90449 Nürnberg Tel. +49 911 6 88 68-0
Gütersloh Brockweg 133 33332 Gütersloh Tel. +49 5241 2 32 71-0 Ratingen Gothaer Straße 2 40880 Ratingen Tel. +49 2102 99 00-0
RUSOL GmbH & Co. KG Industriestraße 2 75228 Ispringen Tel. +49 7231 801-2910 [email protected] www.rusol.com
Spain Rutronik España S.L.
Barcelona C/ Marqués de Sentmenat 54 - 58 3° 1a 8, 08029 Barcelona Tel. +34 93 4 44 24 12
Madrid C/ Santa Leonor 65, Parque Empresarial Avalon, Edificio A, 4a Planta, 28037 Madrid Tel. +34 91 3 00 55 28
San Sebastian P0 Ubarburu 39 - Polígono 27 office 303 20014 Donostia Tel. +34 943 5095-00
Sweden Rutronik Nordic AB Kista Science Tower Färögatan 33, 16451 Kista Tel. +46 8 50 55 49 00
Switzerland Rutronik Elektronische Bauelemente AG
Volketswil Brunnenstrasse 1 8604 Volketswil Tel. +41 44 9 47 37 37
Turkey Rutronik Elektronische Bauelemente GmbH
Barbaros Mahallesi, Ardic Sokak, Varyap Meridian G2 Blok, No.: 09 34746 Bati Atasehir, Istanbul [email protected]
United Kingdom & Ireland Rutronik UK Ltd.
Headquarters UK The Valley, Bolton 1-3 Courtyard, Calvin Street BL1 8PB, Lancashire, UK Tel. +44 1204 602200
Swindon Whitehill Way Windmill Hill Business Park SN5 6QR Swindon Tel. +44 1793 441885
France Rutronik S.A.S 6, Mail de l’Europe 78170 La Celle St Cloud Tel. +33 1 30 08 33 00 [email protected] Tel. +33 5 57 26 40 00Grenoble Tel. +33 4 76 61 00 90Le Mans Tel. +33 2 43 78 16 97Lyon Tel. +33 4 72 76 80 00Rennes Tel. +33 2 23 45 14 40Strasbourg Tel. +33 3 88 78 12 12
Hungary Rutronik Magyarország Kft. Alíz utca 1, 1117 Budapest Tel. +36 12 31 33 49
Italy Rutronik Italia S.r.l. Via Caldera 21 Centro Direzionale S.Siro 20153 Milano (MI) Tel. +39 02 4 09 51-1 [email protected] Tel. +39 051 64 63 20 1Florence Tel. +39 055 8 82 73 32Padua Tel. +39 049 8 69 78 00Rome Tel. +39 06 228 782-1
Turin Tel. +39 011 9 02 20 00
Lithuania Rutronik Elektronische Bauelemente GmbH Jonavos g. 30, 44262 Kaunas Tel. +370 37 261780
Netherlands Rutronik Elektronische Bauelemente GmbH Takkebijsters 51a 4817BL Breda Tel. +31 76 57 230 00
Norway Rutronik Elektronische Bauelemente GmbH Olaf Helsets vei 6, 0694 Oslo Tel. +47 22 76 79 20
Austria Rutronik Elektronische Bauelemente Ges. m. b. H. Durisolstraße 11 4600 Wels Tel. +43 7242 4 49 01
Belgium Rutronik Belgium BVBA Keppekouter 1 Ninovesteenweg 198 9320 Erembodegem-Aalst Tel. +32 53 73 99 71
Bulgaria Rutronik Elektronische Bauelemente GmbH Blvd. Nikola Vaptzarov 35 Business Center Lozenetz Floor 1, Office No 1B 1407 Sofia Tel. +359 2 974 86 46
Czech Republic Rutronik Elektronische Bauelemente CZ s.r.o.
Brno Pražákova 1008/69, 15. f loor 639 00 Brno Tel. +420 5 4 54 24-681
Prague Na Pankraci 1638/43 140 00 Praha 4 Tel. +420 2 33 34 31 20
Denmark Rutronik Elektronische Bauelemente GmbH Herstedøstervej 27-29 2620 Albertslund Tel. +45 7020 19 63
Estonia Rutronik Elektronische Bauelemente GmbH Vaksali 17A 50410 Tartu Tel. +372 7370951
Finland Rutronik Elektronische Bauelemente GmbH Malminkaari 5 00700 Helsinki Tel. +358 9 32 91 22 00
USA Rutronik Inc.
Dallas 2745 North Dallas Parkway, Parkway Centre III, Suite 660, 75093 Plano, TX Tel. +1 469 782 0917
California 6203 San Ignacio Ave., Suite 110 95119 San Jose, CA Tel. +1 669 247 5098
Massachusetts 300 Baker Avenue, Suite 300 01742 Concord, MA
Mexico Rutronik Mexico S.A. DE C.V.
Prolongacion Tecnologico Norte 950B int. 1, PISO 11-C, Colonia San Pablo 76130 Querétaro, Tel. +52 442 103 1805
China Rutronik Electronics (Shenzhen) Co., Ltd
Shenzhen Room 807, No.98 Fuhua 1 Road Futian District, 518048 Shenzhen City Tel. +86 755 8240 7106
Shanghai Room 1010, Dongchen Tower, No. 60 Mudan Road, Pudong New District Shanghai 201204 Tel. +86 21 38867-888
Chengdu Room 1408, Building E, China Overseas International Center, No. 333 Jiaozi Avenue, 610041 Chengdu Tel. +86 28 8651 2664
Hong Kong Rutronik Electronics Asia HK Ltd
54/F, Hopewell Centre 183 Queens Road East, Wan Chai Hong Kong, Tel.+852 3602 3135
Singapore Electronics Singapore Pte Ltd
10 ANG MO KIO Street 65 Techpoint #06-02A/03A 737854 Singapore
Taiwan – Taipei Rutronik Electronics Asia HK Ltd
Room 810, 8F, No. 367, Fuxing N. Rd. Songshan Dist, Taipei City, 10543 New Taipei Tel. +886 2 2175 2936
Thailand – Bangkok Rutronik Electronics Asia HK Ltd
2/1 Soi Rom Klao 25/2 Rom Klao Road, Khlongsamprawet Ladkrabang, 10520 Bangkok Tel. +66 2 737 6423
Poland Rutronik Polska Sp. z o.o. ul. Bojkowska 37 44-101 Gliwice Tel. +48 32 4 61 20 00
Gdynia ul. Batorego 28-32 81-366 Gdynia Tel. +48 58 7 83 20-20
Warszawa ul. Broniewskiego 3 01-785 Warszawa Tel. +48 22 462 70-50
Portugal Rutronik Elektronische Bauelemente GmbH Avenida Marechal Humberto Delgado Porta 8, 1ºAndar, Sala R 4760-012 Vila Nova de Famalicão Tel. +351 252 312-336/337
Romania Rutronik Elektronische Bauelemente GmbH Martin Luther Str. no. 2, 3rd floor 300054 Timişoara Tel. +40 25 6401240
Bucureşti Tel. +40 21 3000141
Russia Rutronik Beteiligungsgesellschaft mbH
Moscow Leningradskoye shosse 57 125195 Moskwa Tel. +7 499 9633184
Saint Petersburg Newsky Ave 10 191186 Saint Petersburg Tel. +7 812 3320073
Serbia Rutronik Elektronische Bauelemente GmbH Maglajska 24a, 11000 Belgrade Tel. +381 (11) 40412 90
Slovakia Rutronik Elektronische 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
European Branches International Branches