Product Catalog Sensing Networks Low Power Reliability Flexibility Ve r. 2 . 0 - 2 0 1 5 Introduction Applications Wrist Watch ROHM Semiconductor, a world leading manufacturer of semiconductor devices is providing a wide line-up of low power products like Sensors, Low Power MCUs and Wireless Communication ICs which are a perfect choice for any kind of battery operated application. Sensors ROHM Semiconductor offers a broad portfolio of sensors like Hall ICs, Ambient Light Sensor ICs, Optical Proximity Sensor ICs, Temperature Sensor ICs, Amplifier for Human Body Detector, Capacitive Switch Control ICs, Touch Screen Control ICs, MEMS Sensors and Optical Sensors (Sensor Modules). In addition Kionix, a member of the ROHM Group, provide MEMS accelerometers with industry-leading performance and quality for consumer electronics, industrial, healthcare and fitness applications. MCU ROHM Semiconductor and LAPIS Semiconductor offer a large selection of ultra low power MCUs based on proprietary low power technology. The low power consumption and a large set of peripherals like embedded LCD drivers, sound playback or encryption functions make them the perfect choice for any battery operated application. Wireless Communication ICs ROHM Semiconductor offers a wide range of Wireless RF ICs developed by LAPIS Semiconductor. These products combine the long experience of LAPIS Semiconductor in wireless technology with the latest ultra low power processes. Featured products support Bluetooth LE v4.0 and various subGHz Low Power Radio standards 1 Data Logger Fitness Providing a complete Sensors to Ultra Low Power Content Product Map Portfolio from Sensors like Accelerometers or Light MCUs and Wireless Communication Devices Table of Contents ROHM Sensor IC Overview ROHM Sensors in Development Kionix Accelerometers Low Power MCUs Bluetooth® SMART Sub GHz Wireless 03 05 05 07 09 10 2 ROHM Sensor Overview Sensing ROHM Semiconductor offers a broad portfolio of sensors, Hall ICs, Ambient Light Sensor ICs, Optical Proximity Sensor ICs, Temperature Sensor ICs, Amplifier for Human Body Detector, Capacitive Switch Control ICs, Touch Screen Control ICs, MEMS Sensors and Optical Sensors (Sensor Modules). Ambient Light Sensors and Proximity Sensors ROHM Ambient Light sensors feature optical characteristics close to the human eye, enabling automatic backlight adjustment in displays for lower power consumption and optimum visibility. Key Features: Analog and digital interface available Human eye characteristic Small packages Low power consumption 50/60Hz filter to avoid flickering Proximity sensing option available (based on IR light reflection) Lineup: Output Type Supply Voltage [V] current(source) 2.4 to 5.5 ±15 3step 0-100,000 -40 to +85 WSOF6 current(source) 2.4 to 5.5 ±15 3step 0-100,000 -40 to +85 WSOF5 current(source) 2.4 to 5.5 ±15 3step 0-100,000 -40 to +85 WSOF5 BH1715FVC I2C I/F 2.4 to 3.6 - 0-65,000 -40 to +85 WSOF6 BH1721FVC I2C I/F 2.4 to 3.6 ±15 ±15 - 0-65,000 -40 to +85 WSOF5 BH1750FVI I2C I/F 2.4 to 3.6 ±20 - 0-65,000 -40 to +85 WSOF6I BH1751FVI I2C I/F 2.4 to 3.6 ±20 - 0-65,000 -40 to +85 WSOF6l BH1780GLI I2C I/F 2.3 to 3.0 ±20 - 0-65,000 -40 to +85 WLGA04 BH1730FVC I2C I/F 2.4 to 3.6 ±15 - 0.008-65535 -40 to +85 WSOF6 2.5 to 3.6 ±40 - 0-43,000 -25 to +85 SON Part Number Type BH1603FVC ALS BH1620FVC (Analog) BH1680FVC ALS (Digital) ALS+PS (Digital) RPR-0521RS 2 I C I/F Sensitivity Output Illuminance Temperature Variations Sensitivity Measurement Operating Package [%] Gain Step Range[lx] Range [℃] ALS: Ambient Light Sensors PS: Proximity Sensors Temperature Sensors ROHM temperature sensor ICs integrate a temperature detection function and digital signal output on a single chip, reducing mounting area and cost. Key Features: Thermostat devices for standalone operation Low power consumption (down to 7.5µA) Small footprint 3 Lineup: Type Family Supply Voltage (V) Supply current (uA) Temp. Sensitivity (mV/℃) Analog Output voltage (@30℃) (V) Detection Temperature (℃) Package HVSOF5 Analog BD1020HFV 2.4 to 5.5 4 -8.2 1.3 -30 to 100 Trigger BDExxxG 2.9 to 5.5 16 -10.68 1.753 -20 to 120 SSOP5 Trigger BDJxxxHFV 2.4 to 5.5 7.5 0.3 ±2.5 55 to 90 HVSOF5 ROHM Sensor Overview Hall Sensors For applications requiring open/close or slide detection (i.e. in mobile phones), ROHM Semiconductor offers magnetic switch and latch Hall ICs. Lineup: Type Dual pole detection Unipolar detection Key Features: Part Number Power Supply Operate Point Hysteresis Supply Current Package BU52011HFV 1.65 to 3.3V +/-3.0mT 0.9mT 5μA HVSOF5 BU52015GUL 1.65 to 3.3V +/-3.0mT 0.9mT 5μA VCSP50L1 BU52021HFV 2.4 to 3.6V +/-3.7mT 0.8mT 8μA HVSOF5 BU52051NVX 1.65 to 3.3V +/-3.0mT 0.9mT 5μA SSON004X1216 BU52054GWZ 1.65 to 3.6V +/-6.3mT 0.9mT 5μA UCSP35L1 BU52055GWZ 1.65 to 3.6V +/-4.1mT 0.8mT 5μA UCSP35L1 BU52061NVX 1.65 to 3.6V +/-3.5mT 1.0mT 9μA SSON004X1216 BD7411G 4.5 to 5.5V +/-3.4mT 0.8mT 3mA SSOP5 S pole BU52002GUL detection BU52012HFV 2.4 to 3.3V +/-3.7mT 0.8mT 6.5μA VCSP50L1 1.65 to 3.3V +/-3.0mT 0.9mT 3.5μA HVSOF5 N pole BU52003GUL detection BU52013HFV 2.4 to 3.3V +/-3.7mT 0.8mT 6.5μA VCSP50L1 1.65 to 3.3V +/-3.0mT 0.9mT 3.5μA HVSOF5 BU52004GUL 2.4 to 3.3V +/-3.7mT 0.8mT 8μA VCSP50L1 BU52014HFV 1.65 to 3.3V +/-3.0mT 0.9mT 5μA HVSOF5 BU52040HFV 1.65 to 3.3V +/-3.0mT 6.0mT 200µA HVSOF5 BU52742GUL 2.4 to 3.6V +/-10.0mT 20.0mT 7.5mA VCSP50L1 Dual pole detection Bipolar latch Ultra small packages (down to 0.8x0.8mm CSP) Low power consumption due to 50ms intermediate operation Digital CMOS output High reliability 8kV ESD resistance New Sensors Release Geomagnetic Sensor BM1422GMV Built-in ultra high precision MI element reaches less than ±1° measurement precision. Key Features: Less than ±1° detection High speed response: 0.5msec Low power consumption: 150µA Operation: 1.7 to 3.6V Magnetic Sensitivity: 0.042µT / LSB Applications: Smartphones, Tablet Wearable Devices Games Wristwatch Pressure Sensor BM1383GLV Color Sensor IC BH1745NUC Built-in temperature compensation enables high accurate measurement over wide range. Built-in IR cutoff filter allows high precision color sensing. Key Features: Key Features: ±0.024hPa (±20cm) relative pressure accuracy Built-in temperature compensation function Small package Pressure Range: 300hPa to 1100hPa Absolute Pressure Accuracy: ± 1hPa (Typ.) Current Consumption: 3.7µA Applications: Smart Phones / Tablet Wearables / Activity Tracker High infrared removal Rate with high accuracy RGB component measurement Measures color temperature and luminance Works with dark optical windows Maximum Sensitivity : 0.005lx / step Current Consumption : 130µA Applications: Color management during the production process Dimming control for lighting 4 Accelerometers from Kionix Sensing Kionix Accelerometers Kionix accelerometers provide industry-leading performance and quality for consumer electronics, industrial, health & fitness and automotive applications. Kionix accelerometers are available in 2x2x0.9 mm, 3x3x0.9 mm, 3x5x0.9 mm and 5x5x1.2 mm packages. Standard - Lineup: Product G Range Interface Output Size, Pins, and Package Type Current Consumption Features KX022 User-selectable 2g, 4g, 8g Digital SPI/I²C 2x2x0.9mm, 12-pin, LGA 10-130 μA Small Footprint, Directional Tap/Double-Tap™, Excellent Temperature Performance, Embedded FIFO/FILO buffer, Digital High-Pass Filter Outputs, User-configurable wakeup function KX023 User-selectable 2g, 4g, 8g Digital SPI/I²C 3x3x0.9mm, 16-pin, LGA 10-130 μA Directional Tap/Double-Tap™, Device Orientation Detection, Excellent Temperature Performance, Low Current Consumption, Embedded FIFO/FILO buffer, Digital High-Pass Filter Outputs, User-configurable wake-up function KX23H User-selectable 2g, 4g, 8g Digital SPI/I²C 3x3x0.9mm, 16-pin, LGA 10-135 μA Low Noise, Enhanced integrated Directional Tap/Double-Tap™, and Device-orientation Algorithms KXCNL User-selectable 2g, 4g, 6g, 8g Digital (I²C) 3x3x0.9mm, 16-pin, LGA 8-250 µA Dual User-programmable State Machines, Low Power, Low Noise, Unmatched User Flexibility and Programmability KXTJ2 User-selectable 2g, 4g, 8g Digital (I²C) 2x2x0.9mm, 12-pin, LGA 10-135 μA High Stability, Low Power, Low Noise, Wakeup Interrupt, Small Footprint KXCJK User-selectable 2g, 4g, 8g Digital (I²C) 3x3x0.9mm, 16-pin, LGA 10-135 μA High Stability, Wakeup Interrupt, Excellent Temperature Performance, Low Current Consumption KXCJ9 User-selectable 2g, 4g, 8g, 16g Digital (I²C) 3x3x0.9mm, 10-pin, LGA 10-135 μA High Stability, Low Power, Low Noise, Wakeup Interrupt, Excellent Temperature Performance KXTIK User-selectable 2g, 4g, 8g Digital (I²C) 3x3x0.9mm, 16-pin, LGA 100-325 μA Directional Tap/Double-Tap™, Detection Algorithm, Device Orientation Detection, Active/Inactive Algorithms KXTC9 1.5g - 6g Analog 3x3x0.9mm, 10-pin, LGA 170-310 μA Low Power, Factory Programmable Internal Low Pass Filter KXR94 1.0g - 4g Multiplexed 5x5x1.2mm, Analog or Digital 14-pin, DFN (SPI) 500-1400 μA Excellent Temperature Performance, Low Noise Density MEMS Sense Element • Proprietary design, technology and manufacturing Mixed-Signal IC • Mixed-signal IC design in standard 0.18µm processes Package • Standard LGA and DFN In addition to proven expertise in accelerometer design, Kionix also provides embedded algorithms, such as tap detection, screen rotation, gesture recognition and activity monitoring, thus supplying additional value to our customers. 5 Accelerometers from Kionix Sensor Hub - Accelerometer with embedded MCU The KX23H is an integrated sensor hub device combining an high performance, very low power 3-axis accelerometer with a 32 bit ARM cortex microcontroller in a single 3mm x 3mm x 0.9mm package. The KX23H also includes a library of advance motion processing software, providing the user with pedometer and caloric counting algorithms, as well as activity monitoring and the ability to detect differences among states such as Stop/Walk/Run/Car/Train etc. In addition, the KX23H includes embedded algorithms for Tap/Double Tap, screen rotation or tilt and even the integration of customized functions is possible. Lineup: Product KX23H G Range User-selectable 2g, 4g, 8g Interface Output Digital SPI/I²C Size, Pins, and Package Type Current Consumption 3x3x0.9mm, 16-pin, LGA Features Embedded Cortex M0-MCU, Low Noise, Enhanced integrated Directional Tap/Double-Tap™, and Device-orientation Algorithms 10-135 μA Key Features: ARM Cortex™-M0 32MHz 128 kB Flash ROM / 16 kB SRAM Power consumption (MCU): 2.5μA (sleep); 1.5mA @ 32kHz; 6mA @ 32MHz Power consumption (accelerometer): 1μA@ standby; 2μ[email protected]; 146μ[email protected] ±2g, 4g, 8g full scale Data Rate 0.781Hz to 1.6KHz 16-bit resolution Internal voltage regulator High Shock Survivability (10,000g) Excellent Temperature Performance 6-axis Combo Devices Kionix' new 6-axis combo devices are the latest additions to our product line and provide customers with unparalleled performance. Kionix’ newest combination product is the KMX61G accelerometer/magnetometer, with integrated Sensor Fusion software, creating the industry’s first magnetic gyro solution. Lineup: Part Number Axis Current Acceleromet er G-Range Magnetometer Range Angular Velocity Range Size, Pins, and Package Type Features KMX61G 6 1 µA - 450 µA (dependent on use) 2g, 4g, 8g ±1200 µT 2000 DPS Max 3x3x0.9mm, 16-pin, LGA Magnetic Gyro Solution KMX61 6 1 µA - 450 µA (dependent on use) 2g, 4g, 8g ±1200 µT N/A 3x3x0.9mm, 16-pin, LGA E-compass Solution Key Features: 6-Axis Accelerometer/Magnetometer with Sensor Fusion Software Ultra Low Power: 1 μA in standby; 130 μA (accelerometer only), 350 μA (magnetometer only) and 450μA Max (combined) Digital (I2C), 3x3x0.9mm, 16-Pin, LGA 512-byte FIFO buffer with watermarking capability User-selectable ± 2g, 4g, 8g full-sale accelerometer range Embedded temperature sensor User-selectable ODR from 0.781Hz to 1.6KHz Outputs with up to 14-bit resolution Supply voltages between 1.8 V and 3.3 V 6 Ultra Low Power MCUs Processing LAPIS Semiconductor ROHM/LAPIS Semiconductor offers a large selection of ultra low power MCUs based on proprietary low power technology. The low power consumption and a large set of peripherals like embedded LCD drivers, sound playback or encryption functions make them the perfect choice for any battery operated application. ML630790/ML610790 Family: Low Power and High Performance Sensor Hub MCUs 32bit ML630790 / 8bit ML610790 family include interfaces for connecting to sensors as well as the main chipset, allowing integrated control of multiple sensors with low power consumption. These MCUs make it possible to separate the continuously operating sensors in smartphones and wearable devices from the main chipset, lightening host processor load and prolonging battery life. Based on application requirements, customers can select the ML610790 family, equipped with LAPIS Semiconductor's original U8 core CPU, or the ML630790 family, which utilizes the ARM® Cortex ® -M0 CPU. Lineup: Part No. Description ML610Q793 8bit Low Power Microcontroller ML610Q794G 8bit Low Power Microcontroller ML630Q791 32bit Low Power Microcontroller 7 Io Halt Features Down-to 0.6uA Flash ROM: 64KB RAM: 4KB Interface: I2C, UART, SSIO; SAC type ADC Others: Host interface, Arithmetic processor Down-to 1.1uA Flash ROM: 64KB RAM: 4KB Interface: I2C, UART, SSIO; SAC type ADC Others: Host interface, Arithmetic processor Down-to 2.5uA Flash ROM: 128KB RAM: 16KB Interface: I2C, UART Others: Host interface, Arithmetic processor Ultra Low Power MCUs ML620400/ ML620500 Series: Ultra Low Power MCU with improved performance The ML620400 series and ML620500 series are LAPIS's new high performance and ultra low power 16-bit microcontrollers equipped with LAPIS Semiconductor's original 16-bit RISC CPU "U16 Core". These microcontroller series performs ultra low power consumption such as 0.45µA in Halt mode and 250µA/MHz in operating mode up to 16MHz-operating frequency. All MCUs of this series feature embedded Flash memory for storing customer's program and data with self-programming feature. The ML620400 series and ML620500 series Benefit High performance helps to reduce average current consumption in addition to its low power consumption in HALT mode. CPU Operation CPU Operation CPU Operation Current Average Current Current CPU Operation Reduce average current Average Current Halt Halt Deep Halt Halt-H Lineup: Part No. ML620Q504 ML620Q503 ML620Q419 ML620Q418 ML620Q416 Description Low Power 16bit Microcontroller Low Power 16bit Microcontroller Built-in dot matrix CCD driver Io Halt Features Down-to 0.45uA Flash ROM:32KByte to 64KByte RAM: 2KByte to 7KByte Interface: I2C; UART, SSIO; RC and SAC type ADC Others; Intergrated oscillators, BLD, Timers Down-to 0.45uA LCD driver: up to 2048 dots Flash ROM: 128 KByte to 512 KByte RAM: 12KByte Interface: I2C; UART, SSIO; RC and SAC type ADC Others; Intergrated oscillators, BLD, Timers Key Features: Low Power Consumption: 0.45uA current consumption in Halt mode 250uA/MHz in operating mode Operating frequency: 16MHz(Max.) Operating voltage: 1.8V to 3.6V Successive approximation type 12bit A/D converter RC oscillator-type 24bit A/D converter I2C, SPI, UART(Full duplex buffer system) and etc. Build-in LCD Driver (The ML620400 series) Low Speed Clock: 32kHz crystal / internal RC oscillator High Speed Clock : 16MHz crystal / internal RC oscillator U16 core has same instruction set und uses same development suite of the U8 core. ML610100 Series: 8bit MCU with High Noise Immunity The ML620100/ML610100 series achieves both low power consumption and high noise immunity, ideal for industrial equipment and home appliances. The ML620100/ML610100 series has excellent noise immunity and some products are qualified for high temperature (up to 105°C). Lineup: Part No. ML610Q1xx Series Description 5V type Low power Microcontroller Io Halt Down-to 2µA Features Flash ROM: 4kB to 128kB (incl. self-writing) RAM: 256B to 4kB SAC type ADC Operating Frequency: 32kHz to 8MHz Interface: I2C; UART,SSIO Others: Integrated oscillators, BLD, Timers, Small LCD driver 8 Wireless Communication: Bluetooth® SMART Sensing ROHM Semiconductor offers a wide range of Wireless RF ICs developed by LAPIS Semiconductor. These products combine the long experience of LAPIS Semiconductor in wireless technology with the latest ultra low power process. Bluetooth® SMART IC: ML7105-00x LAPIS Semiconductor ML7105-00x is a 2.4GHz band wireless communication LSI compatible with Bluetooth® SMART (master and slave) with built-in RF and baseband. The IC includes the hardware and firmware required for Bluetooth® Low Energy v4.0 communications as standard feature. This provides a solid base system which allows customers to create their own application software. What is Bluetooth® SMART ? Bluetooth® SMART Module: MK71050-03 LAPIS Semiconductor continues to develop new products for Bluetooth® SMART. The next Generation of products which is currently under development will support Bluetooth® Low Energy CoreSpec. V 4.1 and will feature even lower power consumption. LAPIS Semiconductor provides a wide range of low power sub-GHz RF Communication ICs. They are ideal for data collection and device control applications because they are less sensitive to obstacles like walls. So a single device can cover a larger area compared to 2.4GHz solutions. Key Features: Baseline product, ML7105-002, Pattern Antenna integrated Metal shield case type Radio Certification (Telec, FCC, CE) Support Bluetooth v4.0 single mode (slave/master) I2C/SPI/UART/GPIO 10.7 x 13.6 x 1.78mm 52pin 9 Wireless Communication: Sub GHz Wireless IEEE 802.15.4g Transceiver - ML7396 family ML7396x is a wireless communication IC meeting the smart meter standard ( IEEE 802.15.4g ). The lineup includes the products for Japan ( ML7396B ), USA ( ML7396A ) and Europe ( ML7396E ). Key Features: Frequency band possible setting frequency range: 750MHz to 1,000MHz Modulation scheme 2-(G)FSK/(G)MSK Data rate: 50kbps ⁄ 100kbps ⁄ 200kbps ⁄ 400kbps Transmission Power: 20mW ⁄ 10mW ⁄ 1mW Rx sensitivity : -102dBm ( 200kbps , m=1 , BER=0.1% ) -106dBm ( 100kbps , m=1 , BER=0.1% ) -108dBm ( 50kbps , m=1 , BER=0.1% ) Current consumption: Transmitting: 20mW>32mA; 10mW>24mA; 1mW>13mA Receiving : 15mA; Sleep mode : 0.9µA Wireless M-BUS Transceiver: ML7406 and ML7344/ ML7345 family Wireless M-BUS Communications ICs are developed for Smart Meter Low Power Radio supporting Smart Meter Standards for Europe, Japan, China and US. ML7406 family ML7344/ ML7345 family The ML7406 family supports short range wireless communications in the range of 750MHz to 960MHz, which is applicable to the European smart metering market (868MHz Wireless M-bus). Built-in Wireless Mbus packet handler allows the reduction of MCU utilization and power consumption up to 20%. The ML7344 family supports short range wireless communications in the frequency band from 160MHz to 510MHz. It performs the industry lowest power consumption of 5.9mA (RX) and has a high speed carrier checking function which realizes less than 0.8ms carrier detection time. 10 The information contained in this document is provided as of 1st May, 2015. The information contained herein is subject to change without notice. Before you use our Products, please contact our sales representative (as listed below) and verify the latest specifications. Although ROHM is continuously working to improve product reliability and quality, semiconductors can break down and malfunction due to various factors. Therefore, in order to prevent personal injury or fire arising from failure, please take safety measures such as complying with the derating characteristics, implementing redundant and fire prevention designs, and utilizing backups and fail-safe procedures. ROHM shall have no responsibility for any damages arising out of the use of our Products beyond the rating specified by ROHM. Examples of application circuits, circuit constants and any other information contained herein are provided only to illustrate the standard usage and operations of the Products. The peripheral conditions must be taken into account when designing circuits for mass production. The technical information specified herein is intended only to show the typical functions of and examples of application circuits for the Products. ROHM does not grant you, explicitly or implicitly, any license to use or exercise intellectual property or other rights held by ROHM or any other parties. ROHM shall have no responsibility whatsoever for any dispute arising out of the use of such technical information. The Products are intended for use in general electronic equipment (i.e. AV/OA devices, communication, consumer systems, gaming/entertainment sets) as well as the applications indicated in this document. The Products specified in this document are not designed to be radiation tolerant. For use of our Products in applications requiring a high degree of reliability (as exemplified below), please contact and consult with a ROHM representative: transportation equipment (i.e. cars, ships, trains), primary communication equipment, traffic lights, fire/crime prevention, safety equipment, medical systems, servers, solar cells, and power transmission systems. Do not use our Products in applications requiring extremely high reliability, such as aerospace equipment, nuclear power control systems, and submarine repeaters. 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