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Railways, Maharashtra, Haryana, AP in semis

first_imgPatna, Nov 29 (PTI) Indian Railways, Andhra Pradesh, Haryana and Maharashtra today entered semi-finals of the 64th Senior National Women Kabaddi Championship here.Star-studded Indian Railways moved into semi-final defeating Punjab by 45-30 in the championship being played at the Patliputra Sports Complex. In the first quarter final match of the day, Indian Railways took lead 18-13 at the half time.Randeep Kaur worked hard for Punjab team scoring 22 points but it proved not enough. Finally, Railways beat Punjab 45-30.Railways bagged 8 bonus and 6 lona points while Punjab earned 10 bonus points and 2 lona.In the second match, Andhra Pradesh defeated Uttar Pradesh by 27-20. At the Half time score was 9-8.Uttar Pradesh earned 11 bonus points while Andhra Pradesh bagged 4 bonus points and 2 lona.In other two matches, Haryana beat Himachal Pradesh by 32-24. In a closely-fought match, Himachal Pradesh took lead 15-14 but failed to maintain it in the second half. Haryana girls came from behind to snatch lead with 5 bonus and 4 lona points finished with 32-24 points.In the fourth match, Maharashtra pipped Chandigarh 36-19 in a one-sided match taking 13-9 lead at the half time. PTI AB SNS NN PDSlast_img read more


New adaptive analog power management ICs save time and money

first_img Log in to Reply “This looks really interesting, but it’s one of those things that will have to rattle around in my head for a while until I figure out what to do with it.nHow much does the Amplink adapter cost? I’m curious as to why there are so many pins on the interfac Log in to Reply December 15, 2016 at 9:54 am December 16, 2016 at 8:33 pm December 15, 2016 at 2:14 am Log in to Reply “Rcurl, the AmPLink adapter and DemoBoard costs are shown on the Shop page of the AnDAPT website. The AmPLink 20-pin connector pins include SPI for configuring the AmP Platform or FLASH chip, I2C and PMBus controls, 4 chip selects and 5 & 3.3 Volt supplies JohnBirkner says: 11 thoughts on “New adaptive analog power management ICs save time and money” JohnBirkner says: elizabethsimon says: “Nothing on the roadmap to cover 15V input???nnWhere I work, we have an internally developed supply that delivers 15V to our boards…nnAlso, those of us who power things off car batteries would be more interested if you had something that would work f Log in to Reply “@Antedeluvian: “you need to register before you can even glimpse a data sheet.”nI took a chance and applied for an account last night, but I still have not received my validation email so I can’t log in. “ “Hi! I’m currently doing a blog on their tech. Hope you don’t mind me mentioning your opinions on this matter.nnThanks a lot!nJustin” Rcurl says: JohnBirkner says: “Crusty, the QFN package is designed to minimize inductance, Rdson, size and power dissipation with a thermal pad for the enterprise market. Visible pins are not available at this time. AnDAPT provides a DemoBoard for experimentation mode that includes eas Rcurl says: Log in to Reply December 16, 2016 at 8:37 pm Leave a Reply Cancel reply You must Register or Login to post a comment. This site uses Akismet to reduce spam. Learn how your comment data is processed. Log in to Reply Share this:TwitterFacebookLinkedInMoreRedditTumblrPinterestWhatsAppSkypePocketTelegram Tags: Analog, Digital, EDA, Power Crusty says: “Rcurl, your validation email has been sent, thank you for registering.” Continue Reading Previous The Write Stuff: Don’t stall the readerNext 64GB DDR4 very-low-profile RDIMM and mini-RDIMM modules now available “Looks intriguing. I poked around on the web site and of course it is all wine and roses, but there are quite a few products that are undescribed (look at battery chargers), so I suppose I will have to wait.nnAn irritant is that you need to register befo antedeluvian says: coldmama9 says: December 15, 2016 at 2:01 pm December 15, 2016 at 2:42 pm December 22, 2016 at 12:47 am December 16, 2016 at 9:18 pm Log in to Reply JohnBirkner says: Log in to Reply The folks at AnDAPT have just introduced a family of adaptive analog power management ICs that combine analog proficiency with digital flexibility to provide programmable off-the-shelf solutions that will displace existing “catalog” power devices and offer capabilities approaching those of full-custom PMICs (power management ICs).These adaptive multi-rail power (AmP) platforms take analog power designs to a new level of flexibility. Designers can, on-demand, select and integrate multiple heterogeneous application-targeted power components on a single device. AmP platforms may be thought of as analog FPGAs for power, which is somewhat ironic since the power market is about 6X larger than the FPGA market.In order to set the scene, let’s first take a step back and consider the fact that every electronic system requires some form of power supply and power management. In the case of simple products like an Arduino Uno, for example, the power may come from an external 9V wall wart, which is conditioned by on-board 5V and 3.3V regulators.By comparison, more-sophisticated boards may well present significantly more complicated power requirements, such as a couple of rails at 60A, six to eight rails at 1A to 10A, and a bunch of rails at 0.5A to 1A. For products that are expected to sell in high volumes (hundreds of millions of units), it may be worth the time and expense to create a full-custom PMIC. For the vast majority of products, however, system architects and power-supply designers are typically obliged to employ off-the-shelf (“catalog”) power devices in the form of regulators, sequencers, sensors, supervisors, timers, level-shifters, monitors, and MOSFETs. In addition to requiring a high level of design expertise, power systems created using these catalog devices increase development time, effort, and cost; increase inventory costs; and consume valuable real estate on the circuit board.The first family of AmP devices — the AmP 12V family — support an input voltage from 5V to 12V and are targeted at enterprise, industrial, medical, and Internet of Things (IoT) applications. The AmP product roadmap includes the AmP 60V family supporting an input voltage from 24V to 60V, the AmP 5V family supporting am input voltage from 1.8V to 9V, and the AmP 110V family supporting an input voltage of 110V.(Source: AnDAPT) In the case of the AmP 12V family, there are nine members supporting four, eight, and twelve power blocks, where each block can handle one, three, or six amps.(Source: AnDAPT) Each power block contains a MOSFET augmented with current sensing capabilities for monitoring, protection, and current sharing capabilities. Of particular interest is the fact that the MOSFETs in multiple power blocks can be ganged together to increase the device’s current-driving capabilities. For example, the 12 MOSFETs in an AmP12D6 device can be combined to provide 12 x 6 = 72A.Now let’s look at an AmP8Dx device in a little more detail as illustrated below. The analog and digital general-purpose input/outputs (GPIOs) are on the north and south sides of the chip, while the power paths are on the east and west sides.(Source: AnDAPT) In addition to the eight power blocks themselves, the device contains programmable analog fabric, programmable digital fabric, sensors, a timer array, and configuration RAM (CRAM). There’s also an SPI port that is used to configure the device, and an I2C port that can be used to monitor and control every power rail on a rail-by-rail basis (the I2C address of the device is loaded as part of the configuration).Speaking of configuration, an AmP device can be configured from an external source using its SPI port, where such configuration takes only a few microseconds. Alternatively, AmP devices also contain an internal ROM, so once the design has been completed and verified, the folks at AnDAPT can provide a pre-programmed ROM version of the chip that doesn’t require SPI configuration.AmP adaptive multi-rail power platforms are supported by WebAmP cloud-based tools that offer a user-friendly, drag-and-drop GUI along with integrated power analysis capabilities.(Source: AnDAPT) The WebAmP tools include an extensive library of pre-built and proven “Power Components,” which are used to configure the power blocks and sensor blocks along with the programmable analog fabric and the programmable digital fabric.(Source: AnDAPT) AnDAPT also offers the AmPLink adapter, which can be used to download the users’ power designs into their AmP platforms.(Source: AnDAPT) Using AmP devices to create power supply and management solutions will decrease development time, effort, and cost; decrease inventory costs; and free-up valuable real estate on the circuit board. These devices won’t completely remove the need for specialist expertise, but they will allow power supply designers to become much more productive.Personally, I think AnDAPT’s AmP technology has the potential to be a real game-changer, because it will allow every product to benefit from the advantages offered by custom PMICs without incurring the associated costs in terms of money, time, and resources. What do you think? December 16, 2016 at 9:22 pm March 11, 2017 at 3:11 pm December 16, 2016 at 8:30 pm antedeluvian says: Log in to Reply “I just had a look at the Terms and Conditionsnhttps://www.andapt.com/?page_id=1492nSomething to think about. Normally the IP is buried in the cost of a non-configurable chip. I am not sure I understand this model.nnIt’s a bit “Applish” since you Log in to Reply “By registering with AnDAPT you will not receive any additional documentation. The sole purpose of registering is to protect AnDAPT’s and our customeru2019s intellectual property. We are working on many new power components such as battery charger to be Log in to Reply “As Rcurl says this looks interesting. nAs you know I have moved on from Atmel to Cypress PSoC devices like the PSoC 5 this is a great chip as I can have 4 different voltages for the 4 banks of I/O pins. Along with the ability to work on voltages up to 5last_img read more