Smart Cities

SoM powers AI-enabled cameras

Thu, Nov 11, 2021

A system on module (SoM) by Smart Wireless Computing, the Inforce 6403, is based on Qualcomm’s QCS610. It enables advanced visual computing for AI-enabled surveillance camera and edge appliances, connected body cameras, smart displays, and other IoT wireless network edge devices, says the company. 

Engineers can use the Inforce 6403 SoM to bring on-device AI and machine learning (ML) to cameras and displays, while enabling multiple connectivity options for critical data transfer. 

It supports 4K UltraHD (HEVC) video capture and playback to enable video analytics applications integrated into smart cameras, such as face detection and object tracking. High-bandwidth connectivity options include Ethernet RGMIII, 802.11nac Wi-Fi, Bluetooth 5.x, USB-C, and LTE Cat 4 via a carrier board.

The compact LGA package measures just 43 x 32.5mm (1.69 x 1.28 inches), allowing it to integrate into camera housings and systems, particularly in applications where a soldered connection is required for a rugged end-product.

The module comes with a software package that includes integration with Google Firebase and a sample application to upload or stream videos in real time. Google Firebase is a unified backend-as-a-service (BaaS) platform for mobile and web developers that integrates with other Google services.

The Qualcomm QCS610 SoC integrates a Qualcomm Kryo 460 CPU with independent efficiency and power clusters. There are also dual 14-bit Qualcomm Spectra 230 image signal processors which support up to 24Mpixels for simultaneous concurrent cameras capturing sharp images.

The Qualcomm Adreno 612 GPU provides efficient rendering of advanced 3D graphics.

The SoC also leverages Qualcomm Hexagon Vector eXtensions (HVX) on Hexagon 685 DSP enable accelerated machine learning through deep neural network models and with advanced Qualcomm neural processing engine SDK support and TensorFlow Lite.

A secure processing unit enables secure boot, DRM and content protection for a secure environment for the camera system.

The Inforce 6403 SoM incorporates enhanced EMI shielding for RF noise protection, while also improving heat dissipation to improve performance.

A reference design based on the SoM is available.

https://www.inforcecomputing.com

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NFC Type 2 tag IC has permanent write locks and configurable kill mode

Thu, Nov 11, 2021

Consumer engagement, production information and brand protection are offered with the ST25TN512 and ST25TN01K NFC Forum Type 2 tag ICs by STMicroelectronics. They can also be used for access control.

The ST25TN512 and ST25TN01K NFC tag ICs support multiple user-protection and privacy mechanisms including a 7-bit unique chip-identifier code, TruST25 digital signature, NFC Forum T2T permanent write locks at block level, and a configurable kill mode that permanently deactivates the tag.

The two ICs are certified to NFC Forum Type 2 specifications and leverage ISO 14443 standards. They can be used with NFC-compatible mobiles or a dedicated short-range reader. The embedded device memory includes up to 208 bytes (1664 bits) dedicated to user content.

There is also support for messages in NFC data exchange format (NDEF) which triggers native actions on a smartphone without needing a dedicated app, such as launching a web browser or starting Bluetooth pairing. Augmented NDEF (ANDEF) enables reading dynamic information such as custom messages and unique tap codes without explicitly updating the EEPROM.

The ST25TN512 and ST25TN01K are produced by a new in-house manufacturing process. Both NFC tag ICs contain an internal tuning capacitance of 50pF, which allows plug-and-play integration by inlay manufacturers. The tags harvest energy from the 13.56MHz RF transmitter field and require only an antenna to complete the design.

They also have a long data retention and operate over a wide temperature range of -40 to +85 degrees C. The ICs can be supplied in sawn and bumped wafer format or housed in a DFN5 package.

Both the ST25TN512 and ST25TN01K are available in volume production.

http://www.st.com

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High inrush capability relay protects smart lighting controls

Wed, Nov 10, 2021

Smart building automation systems require a high inrush performance, which has prompted the design of the G5RL-EL latching relay by Omron Electronic Components Europe. 

The low profile power relay controls capacitive loads and is suitable for controlling fluorescent and LED lamps. Its single contact structure makes it a competitive product proposition, says the company. 

The 16A G5RL-K-EL latching type relay is approved to IEC60669-1 and has a high inrush current capability up to 255A. This equips it for demanding switching environments where loads vary enormously. The device is also compatible with the International Safety Standard for Electrical / Electronic Household Appliances (IEC60335-1). The latching design saves energy as there is no hold current to keep the relay open.

The device expands Omron’s G5RL relay family. Andries de Bruin, senior European product marketing manager at Omron, observed: “Smart building systems can reduce the need to touch shared surfaces – an important safety measure as we return to working life after COVID-19. So, facilities managers are increasingly turning to automated lighting to increase safety as well as save energy”. He adds that the highly variable loads typical of these systems demand specialist components and that the G5RL-K-EL “is a smart solution to this growing challenge”.

Omron Electronic Components Europe specialises in electromechanical PCB relays, and supplies components such as micro switches, MOSFET relays, DIP switches, photo-microsensors and connectors. It has a portfolio of innovative technologies including MEMS based pressure, flow and thermal measurement sensors, human face and gesture recognition modules, vibration and tilt sensors.

Omron Electronic Components Europe supports its customers in Western and Eastern Europe, Russia and the CIS (Commonwealth of Independent States) through eight regional offices, a network of local offices and partnerships with specialist, local, regional and global distributors.  

Omron Electronic Components Europe is a subsidiary of Omron, operating in the field of automation. Omron’s business fields cover a broad spectrum, ranging from industrial automation and electronic components to social infrastructure systems, healthcare, and environmental solutions. 

Established in 1933, Omron operates in around 120 countries and regions. In the field of industrial automation and supports manufacturing innovation by providing advanced automation technologies and products, as well as extensive customer support.

http://components.omron.eu   

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Cross-domain automotive control microcontrollers enhance ECU integration

Wed, Nov 10, 2021

Microcontrollers designed to address the growing need to integrate multiple applications into a single chip and unify the electronic control unit (ECU) in vehicles, make up the RH850/U2B series.

Renesas says the cross-domain microcontrollers are built for the rigorous workloads required by vehicle motion in hybrid ICE and xEV traction inverter, high-end zone control, connected gateway and domain control applications. 

They join the company’s RH850/U2A microcontrollers for body and chassis control systems. Customers can also combine the microcontrollers with Renesas’ R-Car S4 SoC devices for automotive central gateway systems for scalable electronic / electrical architectures that are deemed the architectures for future vehicle generations. 

Naoki Yoshida, vice president, automotive digital products marketing division at Renesas, said: “The RH850/U2B microcontrollers . . . performance, memory integration and hardware-based support for new zone- and domain-control applications, particularly for powertrain and HEV/EV, while maintaining the stringent cost, safety, and security parameters required for these automotive systems”.

Designed for zone and domain applications, the 28nm RH850/U2B microcontrollers build on key functions from Renesas’ RH850/E2x series for powertrain and RH850/C1M-Ax series for HEV/EV motor control. At the same time they add enhancements including an accelerator IP, higher performance levels and increased security. This feature set enables users to integrate multiple ECU functions into a single ECU while adhering to stringent automotive-grade safety, security and real-time operation requirements.

The integrated hypervisor hardware-based virtualisation assist function allows multiple software systems with up to ISO26262 ASIL D functional safety levels to operate independently, without interference. It also reduces the virtualisation overhead to maintain real-time execution. Quality-of-service (QoS) provides a latency monitor and regulation function for all bus masters to ensure minimum bandwidth is always available. The RH850/U2B microcontrollers support safe and rapid full no-wait over the air (OTA) software updates with dual-bank embedded flash that allows the ECU to update and save images while the microcontrollers are in active mode and enables the ECU to operate from the original code if a failure occurs. Integrated motor control accelerator IP (EMU3S) works in conjunction with multiple dedicated motor control timer structures like GTM v4.1 and TSG3 to reduce CPU processing loads while achieving high-speed rotation. Dedicated data flow processor (DFP) accelerator IP enables the CPU to offload compute-heavy operations for complex control. 

The microcontrollers have up to eight 400MHz performance cores with four of them in lockstep architecture, with built-in flash targeting ASIL-D and ASIL-B applications. Integrated security functions support the Evita Full standard, including elliptic curve cryptography. There are multiple instances of AES128 lock-step modules for conflict-free, deterministic safe and secure communication.

The dedicated resolver / digital converter accelerator IP (RDC3X) processes analogue signals from a motor rotational angle sensor (resolver) or an inductive position sensor. 

The DR1000C is a RISC-V-based parallel co-processor IP with vector extension (DFP), licensed from NSITEXE, which supports the fast execution of complex mathematical algorithms.

Communication interfaces include Gigabit Ethernet TSN with switch support. 

The RH850/U2B microcontrollers will be sampling from April 2022. 

http://www.renesas.com

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