onsemi Solutions for Smart Buildings & Cities
onsemi Solutions for Smart Buildings and Cities are essential building blocks of Smart cities that are meant to make urban living more intelligent. A Smart building is based on an intelligent network fabric to enable IoT products to communicate with each other and over the Internet. This design allows remote sensing, control, or programming of an array of automated electronic devices in the home or building.
Overview
RSL10
Radio SoC, BLUETOOTH® 5.2 Certified, SDK 3.6
RSL10 is a Bluetooth 5.2, multi-protocol radio System on Chip (SoC) bringing ultra-low-power Bluetooth Low Energy to wireless applications RSL10 enables advanced wireless features while optimizing system size and battery life. The highly-integrated radio SoC features a dual-core architecture and a 2.4GHz transceiver, providing the flexibility to support Bluetooth® Low Energy and 2.4GHz custom protocols.
RSL15
Bluetooth 5.2 Secure Wireless MCU
RSL15 is an ultra−low power secure Arm® Cortex®−M33 processor−based Bluetooth Low Energy 5.2 wireless MCU designed for connected smart devices. With built-in power management, a wide supply voltage range, a flexible GPIO and clocking scheme, and an extensive set of peripherals, the RSL15 offer maximum design flexibility for high-performance and ultra-low-power applications. The RSL15 includes 80kB RAM and is available in 284kB or 512kB Flash options.”
NCL30000
LED Driver, Dimmable, Power Factor Corrected
The NCL30000 is a switch mode power supply controller for low to medium power single stage power factor (PF) corrected isolated flyback LED Drivers. It employs a Critical Conduction Mode (CRM) control technique to ensure near unity power factor across a wide range of input voltages and output power.
NCL31001
Intelligent LED Driver, Multi-Channel Enabled with Precision Dimming, Diagnostics, and Pow
The NCL31001 is an intelligent LED driver coupled with the NCL31000 in multi-channel applications. The NCL31001 incorporates a high-efficiency buck LED driver that supports high-bandwidth analog and PWM dimming down to zero current. Diagnostics are included to measure input and output currents, voltage, and LED temperature.
NCL31010
PoE Interface LED Driver, Visible Light Communication Capable
The NCL31010 comprises all elements needed to design a connected and managed lighting system via Power-over-Ethernet (PoE), including Visible Light Communication and Indoor Positioning capabilities. Certified to the IEEE802.3bt/at/af standards, over 90W of system power can be delivered.
NCN26010
Ethernet Controller, 10Mb/s, Single-Pair, MAC + PHY, 802.3cg, 10BASE−T1S Compliant
The NCN26010 device is an IEEE 802.3cg compliant Ethernet Transceiver, including a Media Access Controller (MAC), a PLCA Reconciliation Sublayer (RS), and a 10BASE−T1S PHY designed for industrial multi−drop Ethernet. It provides all physical layer functions needed to transmit and receive data over a single unshielded twisted pair. NCN26010 communicates to host MCUs via Open Alliance MAC PHY SPI protocol.
NCP1680
Totem Pole Critical Conduction Mode (CrM) Power Factor Correction Controller
The NCP1680 is a CrM PFC controller IC designed to drive the bridgeless totem-pole PFC topology. The bridgeless totem-pole PFC is a power factor correction architecture that consists of a fast-switching leg driven at the PWM switching frequency and a second leg that operates at the AC line frequency. This topology eliminates the diode bridge at the input of a conventional PFC circuit, allowing significant improvement in the efficiency of the power stage.
ECS640A
ecoSpin™ BLDC motor controller +MCU, 600V
ecoSpin™ is a 3−phase BLDC motor controller that integrates an ultra-low-power optimized Arm Cortex-M0+ microcontroller, three sense amplifiers and a reference amplifier (NCS20034), three bootstrap diodes, and a high-voltage gate−driver designed for high-voltage, high-speed operation, with the ability to drive MOSFETs and IGBTs operating up to 600V (FAN73896). Six gate driver outputs provide sink/source of 350 mA/650 mA (typical) gate current to external power devices. The device includes Hall Sensor inputs to support either sensored or sensorless operation. Three independent low−side source pins allow for single or multiple shunt measurements.
Rx sensitivity (Bluetooth Low Energy Technology Mode, 1 Mbps): −94dBm