Smart Cities

STMicro packages MEMS pressure sensor in water-resistant package

Fri, Jun 02, 2023

Suitable for gas and water metering equipment, weather monitoring, air conditioning, and home appliances, the ILPS28QSW is believed to be the market’s first MEMS water / liquid-proof absolute pressure sensor. It is available from STMicroelectronics and has a 10-year longevity programme for the industrial market.

“With the spread of the Industrial Internet of Things, companies are seeking to gather data from throughout their operations, often in challenging environments both indoors and outdoors,” said Simone Ferri, general manager, AMS MEMS sub-group, STMicroelectronics. The waterproof MEMS pressure sensors provide the environmental robustness needed to power digital transformation everywhere, with the long-term availability needed to protect customers’ designs, he added.

The ILPS28QSW sensor is provided in a sealed, cylindrical, surface mount package. It features a ceramic substrate that provides high resistance to liquid permeability and a robust potting gel, proven in automotive applications, to protect the internal circuitry. The lid, made from high-grade surgical steel, is sealed with an o-ring and secured with epoxy adhesive. This package design ensures an ingress protection rating of IP58 to withstand immersion in over one meter of water, certified according to IEC 60529 and ISO 20653. In addition, the sensor can sustain up to 10Bar over-pressure.

The ILPS28QSW provides absolute pressure readings, accurate to within 0.5hPa, with selectable full-scale range of 260 to 1260hPa and 260 to 4060hPa. It has a wide operating temperature range of -40 to +105 degrees C. 

The sensor also features ST’s Qvar electrostatic charge sensing channel, allowing developers to create additional value in their applications through features such as liquid leakage detection. When Qvar is combined with the pressure signal it enables monitoring of both liquid level and even the tiniest of leaks in home appliances and industrial processes.

Operating current is as low as 1.7 microA, suitable for power-conscious applications. The ILPS28QSW also integrates digital features that simplify system design and management. For example, temperature compensation, FIFO memory, and an I2C / MIPI-I3C digital communication interface are all built-in and the output data rate is selectable from 1.0Hz to 200Hz.

The ILPS28QSW is in production now.

http://www.st.com 

> Read More

Integrated, low power, single-chip LCOS panel fits into AR/XR/MR glasses

Fri, Jun 02, 2023

The OP03011 liquid crystal on silicon (LCoS) panel integrates the array and frame buffer into an ultra-compact single-chip solution that is lightweight and low-power for smart glasses

The OP03011 is a single chip, 648p LCoS panel for next generation augmented reality (AR), extended reality (XR) and mixed reality (MR) glasses and head-mounted displays. The LCOS panel features 3.8 micron pixels in what is claimed to be one of the world’s smallest 0.14-inch optical formats. The low power, lightweight design is intended for next-generation glasses that can be worn 24/7, said Omnivision.

The growing interest in AR glasses has led OEMs to design more functionality into slim, fashionable designs that consume very little power and are lightweight, allowing them to be worn for long periods. The OP03011 is designed in a compact format for applications requiring a smaller field of view and lower resolution, making it well suited for some of the sleekest, most innovatively designed AR glasses, said Devang Patel, marketing director for the IoT and emerging segment, Omnivision. “The OP03011 supports applications of next-generation smart glasses, like displaying notifications in the user’s field of view and access to GPS for maps and directions directly from the glasses, so the user never needs to pull out their smartphone,” he said.

The OP03011 features 648 x 648 resolution at 120Hz and comes in a small FPCA package. It supports a single-lane MIPI-DSI interface. 

Samples are available now, and the OP03011 will be in mass production in Q4 of 2023.

Omnivision is a fabless semiconductor company that develops advanced digital imaging, analogue and touch and display solutions for multiple applications and industries, including mobile phones, security and surveillance, automotive, computing, medical, and emerging applications. 

http://www.ovt.com

> Read More

Cadence introduces tools for Arm TCS23 for a fast path to tapeout

Fri, Jun 02, 2023

Cadence has finetuned its RTL-to-GDS digital flow and delivered corresponding 3nm and 5nm rapid adoption kits (RAKs) for Arm Cortex-X4, Cortex-A720 and Cortex-A520 CPUs and Immortalis-G720, Mali-G720 and Mali-G620 GPUs.

This part of Cadence Design Systems’ expanding collaboration with Arm to advance mobile device silicon, providing customers with a faster path to tapeout through the use of Cadence digital and verification tools and the new Arm Total Compute Solutions 2023 (TCS23) for the cores and GPUs.

Cadence delivered comprehensive RTL-to-GDS digital flow RAKs for 3nm and 5nm nodes to help customers achieve power and performance goals using the new Arm TCS23. The Cadence tools optimised for the new Arm TCS23 include the Cadence Cerebrus Intelligent Chip Explorer, Genus Synthesis, Modus DFT software, Innovus implementation system, Quantus extraction, Tempus timing signoff and ECO Option, Voltus IC Power Integrity, conformal equivalence checking and conformal low power. Cadence Cerebrus provided Arm with AI-driven design optimisation capabilities that resulted in 50 per cent better timing, a 10 per cent reduction in cell area and 27 per cent improved leakage power on the Cortex-X4 CPU, empowering Arm to achieve power, performance and area (PPA) targets faster, reported Cadence.

The digital RAKs provide Arm TCS23 users with benefits, for example the AI-driven Cadence Cerebrus automates and scales digital chip design, providing customers with improved productivity versus a manual, iterative approach. Cadence iSpatial technology provides an integrated implementation flow, offering improved predictability and PPA, leading to faster design closure. The RAKs also incorporate a smart hierarchy flow that enables accelerated turnaround times on large, high-performance CPUs. The Tempus ECO Option, which provides path-based analysis, is integrated into the flow for signoff-accurate, final design closure. Finally, the RAKs use the GigaOpt activity-aware power optimisation engine, incorporated with the Innovus implementation system and the Genus Synthesis to dramatically reduce dynamic power consumption.

Arm used the Cadence verification flow to validate the Cortex-X4, Cortex-A720 and Cortex-A520 CPU-based and Immortalis-G720, Mali-G720 and Mali-G620 GPU-based mobile reference platforms. The Cadence verification flow supports Arm TCS23 and includes the Cadence Xcelium logic simulation platform, Palladium Z1 and Z2 Enterprise emulation platforms, Helium Virtual and Hybrid Studio, JasperÒ formal verification platform and Verisium Manager planning and coverage closure tools.

The Cadence verification flow lets Arm TCS23 users improve overall verification throughput and leverage advanced software debug capabilities. Cadence also validated that Cadence Perspec system verifier, VIP and System VIP tools all support TCS23-based designs to enable customers to accelerate time to market when assembling TCS23-based SoCs. The virtual and hybrid platform reference designs include the Arm Fast Models to enable early software development and verification through the Cadence Helium Studio as well as the Cadence Palladium and Protium platforms, also known as the dynamic duo.

The Cadence digital and verification flows support the Cadence Intelligent System Design strategy, which enables customers to achieve SoC design excellence. 

http://www.cadence.com 

> Read More

Renesas adds three motor control MCU groups drawn from multiple families

Wed, May 31, 2023

Targeting motor control applications, Renesas Electronics has introduced three microcontroller (MCU) groups, including devices from its RX and RA families.

There are two new MCU groups from the RA family of Arm Cortex-M devices. The RA4T1 Group delivers 100MHz performance with up to 256kbyte of flash and 40kbyte SRAM. The MCUs are based around 100MHz Arm Cortex-M33 CPU cores with TrustZone and have integrated flash memory options from 128kbyte to 256kbyte and 40kbyte SRAM. In addition to an integrated trigonometric function unit as a hardware accelerator, they feature integrated analogue functions, including 12bit ADC, PGA, comparator and 12bit DAC. The MCUs are available in 32- to 64-pin packages options.

The second addition is the RA6T3 Group which offers 200MHz operating frequency and provides 256kbyte of flash and 40kbyte SRAM. These are based around a 200MHz Arm Cortex-M33 CPU core with TrustZone and have integrated flash memory of 256kbyte and 40kbyte SRAM.  They have the same analogue functions as the RA4T1 Group and integrated communications options including USB 2.0, CAN FD, I3C, SCI and SPI. They are available in package options from 32- to 64-pin.

Both new groups offer features and functions specifically for motor control applications, including trigonometric function units (TFUs) for acceleration, advanced ADC with integrated PGA (programmable gain amplifier), with a choice of communication interfaces including CAN FD. 

The MCUs are supported by the Renesas Flexible Software Package (FSP) to allow designers to port designs from other RA family devices.

Another introduction is the RX26T Group of MCUs from the RX family operating at 120MHz with up to 512kbyte of flash memory and 64kbyte SRAM. Renesas claimed that it has industry-leading real-time performance of 120MHz with no-wait flash memory access. The MCUs support 5.0V power supplies with high noise immunity and control accuracy, added Renesas. They also provide TFUs, on-chip timing, and interrupt control. Designers using Renesas’ RX24T MCUs can scale designs to the RX26T devices to take advantage of existing design software while realising performance and control efficiency improvements, said Renesas. 

All of the new MCUs are available now and supported by Renesas’ Flexible Motor Control development kit that enables easy evaluation of motor control using permanent magnet synchronous motors (brushless DC motors), and the Renesas Motor Workbench development tool.

http://www.renesas.com 

> Read More

About Smart Cities

This news story is brought to you by smartcitieselectronics.com, the specialist site dedicated to delivering information about what’s new in the Smart City Electronics industry, with daily news updates, new products and industry news. To stay up-to-date, register to receive our weekly newsletters and keep yourself informed on the latest technology news and new products from around the globe. Simply click this link to register here: Smart Cities Registration