Smart Cities

PMICs monitor deep learning SoCs 

Wed, Jul 25, 2018

Two power management ICs (PMICs) from Maxim Integrated provide power management for deep-learning SoCs, FPGAs and multimedia application processors. The MAX77714 and MAX77752 can help mobile systems designers to maximise performance per watt while increasing system efficiency, says the company.

The MAX77714 and MAX77752 address a spectrum of applications ranging from augmented reality/virtual reality (AR/VR), gaming, solid-state drives (SSDs), security and industrial internet of things (IIoT) to handheld devices such as cameras and home automation hubs. They have been developed with architecture that consumes 40 per cent less power than standard solutions, claims Maxim, to extend battery life and to provide a compact form factor.

The move towards higher performance application processors is increasing computational power in consumer electronics and mobile devices, which is at odds with user expectations that battery-operated, always-on electronics run cool and for long periods of time. Designers are faced with the challenge of reducing board space and component cost, while delivering high efficiency, high horsepower and flexible power sequencing.

The MAX77714 PMIC enables multi-core processor-based systems to operate at maximum performance with greater than 90 per cent efficiency at 3.6V in, 1.1V out. The 70-bump, 4.1 x 3.25 x 0.7mm WLP enables thinner, smaller devices and extends battery life up to 40 per cent compared to standaone solutions, claims Maxim. In addition, it reduces design cycle time, component count, and bill of material (BoM) costs compared to discrete solutions by integrating 13 regulators, including nine low-dropout linear regulators, real-time clock (RTC), back-up battery charger, watchdog timer, flexible power sequencing and eight general purpose input/outputs (GPIOs), adds the company.

The MAX77752 is a multi-channel PMIC designed for applications with multiple power rails and hot-plugging capabilities. It improves efficiency up to 90 per cent at 3.6Vin, 1.8V out for longer battery life and includes a flexible power sequencer (FPS) to allow hardware- or software-controlled power up. It reduces design cycle time, component count and BoM costs by integrating three buck regulators (with high-accuracy brown-out comparators), one low-dropout linear regulator, two dedicated load switch controllers, one in-rush current limiter, two external regulators to enable outputs, voltage monitor for back-up power control and a dedicated digital output resource for logic control. The MAX77752 comes in a compact 40-pin, 5.0 x 5.0 x 0.8mm, 0.4mm-pitch TQFN package.

http://www.maximintegrated.com

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MEN adds BC51M box PC for mobile communications

Mon, Jul 23, 2018

MEN adds the BC51M box PC to its modular family range. The fanless and maintenance-free device is used in graphics and memory-intensive applications in trains, buses or commercial vehicles. It offers a choice of communications interfaces and is scalable, adds the company.

The BC51M is based on the Intel Atom E3900 series processors, optionally with two or four cores, up to 1.6GHz. With 8Gbyte DDR3 SDRAM, a rear accessible SD card, an integrated eMMC memory and an optional SATA HDD/SSD, the BC51M box PC has sufficient storage capacity for entertainment servers or video surveillance systems.

The BC51M was designed for mobile use in trains, buses or commercial vehicles and manages wireless on-board functions such as internet on board, positioning via GNSS, entertainment or predictive maintenance. The box PC supports up to two DisplayPort interfaces with a maximum resolution of 4K, as well as two Gigabit Ethernet (GbE) interfaces, one USB 2.0, one HD audio and two variable connections for serial I/O, CAN bus, MVB or IBIS.

Two PCI Express Mini Card slots and two micro-SIM slots provide flexibility in implementing mobile service standards up to 4G LTE or WLAN.

The system is designed for fanless operation at temperatures from -40 to +85 degree C. The integrated 30W/24V DC power supply means the box PC complies with the railway standard EN 50155 and ISO 7637-2 for road vehicles.

MEN Mikro Elektronik was founded in 1982. The company has approximately 300 employees worldwide manufacturing embedded COTS boards and devices used in extreme environmental conditions found in mobile, industrial and safety-critical applications.

For individual requirements, starting with development through design-in and beyond, MEN provides its customers with advice and support as well as with system design, configuration and environmental qualification in accordance with industry standards.

The company’s core competencies encompass x86 and RISC processor architectures, development rules for safe applications, analogue I/O design, FPGA technology and Windows, Linux and real-time operating systems (RTOS). Additional expertise includes RAMS and obsolescence management as well as the development of computing hardware for operation in harsh and extreme environmental conditions.

http://www.men.de

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Single power monitoring IC is industry-first, claims Microchip

Fri, Jul 20, 2018

Claimed to be the industry’s first two-channel device with native 16bit resolution, the PAC1932, and the three-channel PAC1933 are single power monitoring ICs by Microchip.

The power monitoring devices measure from 0 to 32V on a single chip, enabling designers to improve power measurement accuracy. The two-channel device is believed to be the industry’s first with native 16bit resolution, providing leading flexibility across a wide measurement range.   

The PAC1932/33 devices include what is needed to measure power on a single IC, integrating multiple channels in a single package for applications such as point of sale (PoS) systems, ATMs and building automation. This reduces costs for system designers, consolidates the bill of materials (BoM) as the measurement of sub-1.0 to 20V voltage rails normally require separate components to measure each rail efficiently, points out Microchip. The PAC1932/33 measure voltage rails up to 32V and also relieves developers from having to reconfigure measurement resolution between low and high current load events.

As the industry’s only two-channel device with 16-bit power measurement, the PAC1932 can measure without host intervention for 17 minutes, relieving developers from adjusting voltage or current range to measure power and energy. The devices include two 16bit analogue to digital converters (ADCs) that can measure voltage and current simultaneously, enabling developers to extract a true power measurement. According to Microchip, developers can design systems to efficiently save power.

As applications continue to seek ways to reduce power consumption, precision DC power measurement has grown as a key element for energy savings.  Microchip also offers a four-channel PAC1934 for improved power measurement for Windows 10 devices; the PAC1932/33 two and three channel power monitoring ICs offer improved power measurement for low voltage, high power applications in markets such as embedded computing and networking.

The PAC1932/33 work in conjunction with Linux and Windows 10 software drivers. The ADM00805 register-compatible evaluation board can be used to start development with a graphical user interface reporting Vsense, Vbus, power and accumulated power.

The two-channel PAC1932 and three-channel PAC1933 power monitoring ICs are available now for sampling and in volume production.

http://www.microchip.com/PAC1932

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Scalable digital controllers simplify power supply design, says Renesas Electronics

Thu, Jul 19, 2018

Two PMBus-compliant, digital DC/DC controllers released by Renesas Electronics, provide single output point of load (PoL) conversions for FPGAs, DSPs, ASICs, network processors and general purpose system rails. The ISL68300 has integrated MOSFET drivers while the ISL68301 has PWM output to simplify the design of power supplies for data centre, wired and wireless communications, and factory automation equipment.

The ISL68300 can drive discrete external MOSFETs directly, while the ISL68301 pairs with Renesas’ smart power stages or DrMOS power stages to create a complete voltage regulator solution.

The ISL68300 and ISL68301 digital controllers feature a high-speed current share bus that parallels up to eight controllers in an eight-phase 240A+ current share configuration. Both controllers implement Renesas’ digital ChargeMode control modulation, which responds to load transients in a single switching cycle, and provides an inherently stable control loop without requiring external compensation. This modulation architecture significantly reduces output capacitor requirements and minimises V out undershoot and overshoot, claims Renesas.

The scalability of the ISL68300 and ISL68301 single output digital controllers is claimed to provide industry leading performance and support a range of load currents.   

Engineers can use the PowerNavigator GUI with the ISL68300 and ISL68301 to simplify power supply set-up, sequencing, configuration and monitoring, including all device parameters and telemetry. Full schematic designs are completed in minutes, and the GUI with PMBus makes it easy to control the entire design and change features without soldering components or rework, adds Renesas.

The ISL68300 and ISL68301 digital controllers can parallel up to eight controllers in a single droop-less current sharing output. Output voltage range is 0.45 to 5.5V and input range is 4.75 to 16V or 4.5 to 5.5V.

The proprietary single-wire Digital-DC (DDC) serial bus enables voltage sequencing and fault spreading with other Renesas digital power ICs. Another feature is the cycle-by-cycle inductor peak current protection and configurable fault protection for Vout under-voltage, over-voltage, V in under-voltage/over-voltage and temperature. The non volatile memory stores operating parameters and records telemetry fault events.

In a typical FPGA power supply, the ISL68300 and ISL68301 digital controllers provide single output 10 to 40A+ for auxiliary rails, DDR memory, and system rails. The companion Renesas digital multiphase controllers use smart power stages to provide dual output 15 to 70A, or higher core power.

The ISL68300 is available now in a 4.0 x 4.0, 24-lead QFN package. The ISL68301 with PWM output for pairing with ISL99227B smart power stages or DrMOS power stages is available now in a 4.0 x 4.0mm, 24-lead QFN package.

Single-phase and two-phase evaluation boards are also available.

http://www.renesas.com

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