April 10, 2018 Volume 14 Issue 14

Electrical/Electronic News & Products

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What's a strain wave harmonic gearing torque sensor?

Strain wave harmonic gearing sensors from FUTEK are an alternative to six-degrees-of-freedom (DOF) sensors used in applications such as robotic arms that are used in surgery. For example, during some laparoscopic surgery procedures, surgeons must hold the position of the end effector (the instrument inside the abdominal cavity) while the robot arm is moving. This maneuver is difficult to perform with 6-DOF sensors only, because it requires torque measurement on each joint. Strain wave harmonic gearing sensors can handle it, and they are less expensive to implement because torque measurement can be obtained for selected joints only if necessary.
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Raspberry Pi: Pico microcontroller

The Raspberry Pi Pico is built around the brand-new Raspberry Pi RP2040 microcontroller, delivering a flexible, highly affordable development platform that can also be directly deployed into end products -- all for 4 bucks. At the heart of the Raspberry Pi Pico is RP2040, which features two ARM Cortex-M0+ cores clocked at 133 MHz; 264 kB of on-chip SRAM; 30 multifunction GPIO pins; dedicated hardware for commonly used peripherals alongside a programmable I/O subsystem for extended peripheral support; a four-channel ADC with internal temperature sensor; and built-in USB 1.1 with host and device support. Also look for the RP2040 chip to be sold as a standalone product very, very soon.
Learn more from Newark.
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New robust angle sensors for off-highway and more

Novotechnik, U.S. introduces the RFE 3200 Series of resilient, touchless Hall-Effect angle sensors. These sensors are specifically designed to operate in demanding environments like off-highway equipment and feature ingress protection to IP69K, EMC immunity, and a decoupled sensor/magnet. The RFE Series measures from 0 to 360 deg and can be ordered with one (partially redundant) or two (fully redundant) channels. High resolution with great dynamic response, large mechanical tolerances, and feasibility of customer-specific output options are added benefits of this wear-free technology.
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Automotive single-chip solution for ultra-wide touch displays

Microchip Technology has just announced its maXTouch MXT2912TD-UW touchscreen controller. This is the industry's first automotive-qualified, single-chip solution that addresses display sizes up to 45 in. with a very wide aspect ratio, supporting LCD and OLED display technologies. This controller reduces the need for multiple touch controllers within a vehicle's HMI display. It provides the highest report rate for wide displays and is independent of the display resolution.
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Automotive antenna-on-package mmWave sensors with Texas Instruments RFIC

D3 Engineering, a Texas Instruments platinum design partner, recently announced their DesignCore RS-1843AOP and RS-1843AOPU mini mmWave Radar Sensors. They feature a 1-in. cube form factor, heat-spreading metal body, and mounting tabs. They may be used with a PC or embedded platform to facilitate field testing, sensing evaluation, algorithm development, and application demonstrations. Automotive applications include parking assist and collision avoidance. Other applications include robotics, autonomous machines, industrial vehicle systems, and facility monitoring, as well as people counting and tracking.
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Pinpoint the leading cause of Industrial Ethernet failures

Fluke Networks introduces the LinkIQ-IE Cable+Network Industrial Ethernet Tester designed to troubleshoot network cabling, the leading cause of Industrial Ethernet failures. With Ethernet-based technologies increasingly the default for automation networks, the need for easy-to-use tools to troubleshoot these networks is growing rapidly. By combining Fluke Networks' state-of-the-art cable measurement technology and basic tests for Industrial Ethernet switches, LinkIQ-IE speeds and simplifies the discovery of network failures in a simple-to-use touchscreen interface akin to a smartphone.
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Premium Hi-Temp ETX Series thermoelectric coolers

Laird Thermal Systems has developed a thermoelectric module series that is rated for high temperature in emerging optoelectronic applications, including LiDAR and CMOS sensors for autonomous systems in vehicles and drones, digital light processors (DLP) used in 3D machine vision and advanced lighting systems, and optical transceivers. The HiTemp ETX Series thermoelectric cooler has a robust construction that allows it to survive in temperatures up to 150 C, exceeding most outdoor applications. These solid-state heat pumps are assembled with advanced materials that boost cooling capacity by up to 10% compared to traditional thermoelectric coolers.
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Compact power module with side flange mounting

SCHURTER's proven power entry module, series DD11, provides a high level of functional integration in the most minimal of package dimensions. The power module is ideally suited for equipment with low-profile panels. Consisting of an IEC appliance inlet (C14), which is compatible with cord retention, 1- or 2-pole fuse holder, and power ON/OFF switch, the DD11 is now available with side mounting flanges in addition to the existing model with top and bottom flanges. The new model is designed to minimize height when vertically mounted. Applications include medical, IT and telecom, office and household equipment, and automation systems.
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Automotive Ethernet cables

The ODU MINI-SNAP for Single Pair Ethernet (SPE) enables Ethernet connections via copper cables with a single twisted wire pair, while allowing for the voltage supply of terminal devices via PoDL (Power over Data Line). The simpler design of the new generation of connectors and the associated weight and space reduction are good for designers and developers in various areas. SPE is currently being introduced in new automotive generations, replacing CAN and other bus systems. In the future, communication, controls, and security functions will be managed uniformly via Ethernet.
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Cool Tools: Complete 3D scan and reverse engineering suite for under 15 grand

Verisurf Software is offering special limited-time pricing on its 3D scanning and reverse engineering solution bundle. It has everything needed to quickly deploy the system, including: Verisurf Scan Data and Reverse Engineering Suite with Quick Surface, Verisurf online training, Peel 2 3D handheld scanner, 1-year hardware warranty, and Peel 2 and Verisurf installation and setup video. The Verisurf Scan Data Reverse Engineering Suite is part of the recently released Verisurf 2020, the only measurement, inspection, and reverse engineering software dedicated to Model-Based Definition (MBD) and built on a CAD/CAM platform.
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Asset tracking down to the centimeter

ON Semicon-ductor's Quuppa Intelligent Locating System enables real-time tracking of Bluetooth tags and devices -- with centimeter-level accuracy even in challenging environments. Quuppa technology allows positioning updates to be sent up to 50 times per second, providing a reliable and versatile Real-Time Locating System (RTLS) solution for all industries. Users can design ultra-low-power indoor asset-tracking applications with Direction Finding features and advanced Angle of Arrival (AoA) technology.
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Noncontact measurement of speed and length

With the SPEETEC, SICK has expanded its product range for speed and length measurement of objects moving in a linear path to include technology that measures directly on the material surface. The non-contact sensor is able to measure a wide range of web and continuous materials, as well as blanks, with incredible accuracy. This speed sensor closes the gap between tactile, indirect-measuring encoder solutions and laser velocimeters, which are often expensive to purchase and require considerable effort to integrate and operate.
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Displays: New HMI and drive faceplates

ABB's CP600 Gen 2 HMIs offer NEMA 4X rating, an expanded temperature range, 33% brighter screens, additional communications ports, and integral web server capability, allowing users to expand HMI usage into more applications. Available in 7-, 10-, and 15-in. sizes, the CP600 Gen2 HMI units join the CP600-eCo units and the CP600-Pro units to cover the full range of industrial display needs.
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Cool Tools: Hexagon RS6 high-speed laser scanner

The handheld or arm-mounted RS6 laser scanner available from Exact Metrology is designed for high-speed and high-accuracy scanning. When compared to other scanners, the RS6 has a 3x faster frame rate, a 30% wider laser stripe, and excellent scanning performance on difficult surfaces (including glossy black plastic automotive body parts or molded carbon fiber components). Its unique SHINE technology allows you to scan 99% of parts without touching the scanner exposure. It scans up to 1.2 million points/sec with a scan rate of 300 Hz.
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New Intellistat Ion Air Gun for static elimination

EXAIR's patented Intellistat Ion Air Gun is a handheld and lightweight solution for static elimination in clean processes or sensitive assembly work such as scientific and electronic test facilities, laboratories, and clean rooms. The Intellistat was designed to consume minimal compressed air while simultaneously delivering precise blow-off, and exceptional static decay rates capable of reducing 1000 V to less than 100 V in less than a second at up to 24 in. away.
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Researchers demonstrate existence of new form of electronic matter

Researchers at the University of Illinois Urbana-Champaign have produced a "human scale" demonstration of a new phase of matter called quadrupole topological insulators (QTIs) that was recently predicted using theoretical physics. These are the first experimental findings to validate this theory.

The researchers reported their findings in the journal Nature.

The team's work with QTIs was born out of the decade-old understanding of the properties of a class of materials called topological insulators. "TIs are electrical insulators on the inside and conductors along their boundaries, and may hold great potential for helping build low-power, robust computers and devices, all defined at the atomic scale," said mechanical science and engineering professor and senior investigator Gaurav Bahl.

The uncommon properties of TIs make them a special form of electronic matter. "Collections of electrons can form their own phases within materials. These can be familiar solid, liquid, and gas phases like water, but they can also sometimes form more unusual phases like a TI," said co-author and physics professor Taylor Hughes.

TIs typically exist in crystalline materials (and other studies confirm TI phases present in naturally occurring crystals), but there are still many theoretical predictions that need to be confirmed, Hughes said.

A dipole moment can be represented by two charges, one positive and one negative, separated in one dimension. A quadrupole moment can be represented by four charges separated in two dimensions, etc. [Graphic courtesy: Kitt Peterson]

 

 

 

 

One such prediction was the existence of a new type of TI having an electrical property known as a quadrupole moment. "Electrons are single particles that carry charge in a material," said physics graduate student Wladimir Benalcazar. "We found that electrons in crystals can collectively arrange to give rise not only to charge dipole units -- that is, pairings of positive and negative charges -- but also high-order multipoles in which four or eight charges are brought together into a unit. The simplest member of these higher-order classes are quadrupoles in which two positive and two negative charges are coupled."

It is not currently feasible to engineer a material atom by atom, let alone control the quadrupolar behavior of electrons. Instead, the team built a workable-scale analog of a QTI using a material created from printed circuit boards. Each circuit board holds a square of four identical resonators -- devices that absorb electromagnetic radiation at a specific frequency. The boards are arranged in a grid pattern to create the full crystal analog.

"Each resonator behaves as an atom, and the connections between them behave as bonds between atoms," said Kitt Peterson, the lead author and an electrical engineering graduate student. "We apply microwave radiation to the system and measure how much is absorbed by each resonator, which tells us about how electrons would behave in an analogous crystal. The more microwave radiation is absorbed by a resonator, the more likely it is to find an electron on the corresponding atom."

A single circuit board, foreground, that when joined with others forms the experimental array of the quadrupole topological insulator. [Photo by L. Brian Stauffer]

 

 

 

 

The detail that makes this a QTI and not a TI is a result of the specifics of the connections between resonators, the researchers said.

"The edges of a QTI are not conductive like you would see in a typical TI," Bahl said, "Instead, only the corners are active, that is, the edges of the edges, and are analogous to the four localized point charges that would form what is known as a quadrupole moment. Exactly as Taylor and Wladimir predicted."

"We measured how much microwave radiation each resonator within our QTI absorbed, confirming the resonant states in a precise frequency range and located precisely in the corners," Peterson said. "This pointed to the existence of predicted protected states that would be filled by electrons to form four corner charges."

Those corner charges of this new phase of electronic matter may be capable of storing data for communications and computing. "That may not seem realistic using our ‘human scale' model," Hughes said. "However, when we think of QTIs on the atomic scale, tremendous possibilities become apparent for devices that perform computation and information processing, possibly even at scales below that we can achieve today."

The researchers said the agreement between experiment and prediction offered promise that scientists are beginning to understand the physics of QTIs well enough for practical use.

"As theoretical physicists, Wladimir and I could predict the existence of this new form of matter, but no material has been found to have these properties so far," Hughes said. "Collaborating with engineers helped turn our prediction into reality."

The National Science Foundation and U.S. Office of Naval Research supported this study.

Source: University of Illinois Urbana-Champaign

Published April 2018

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