picoChip and Entuple Technologies to bring femtocell technologies to India
July 28, 2010 // Phil Ling
picoChip has signed an agreement with Entuple Technologies to develop and bring to market what it claims will be the world's most advanced 3G and 4G femtocell technologies, for Indian industry and academia.
Under the agreement, Entuple will provide sales, engineering and systems integration support, covering HSPA+ femtocells, rural femtocells and LTE technology.
Entuple Technologies, headquartered in Bangalore, is a holistic solutions enabler in system design technologies with a team of experienced engineers and frontline staff. The company has established partnerships with a range of companies in its core technology areas including next generation silicon platform solutions with a focus on the wired and wireless communications market.
Speaking at the launch of “Enabling Innovation India”, part of this week’s UK-India Government Summit, Nigel Toon, CEO of picoChip, said, “The pool of talent and expertise in wireless technology development that lies within India is astonishing, and it is no surprise that the subcontinent is evolving into a centre of excellence for wireless expertise and development. The expertise, talent and collaborative spirit of the Entuple team is a formidable asset in driving picoChip’s ambitions and plans for the Indian market.”
“Entuple's mission is to front next generation technology products for systems design, along with best-in-class technical support and focused solutions,” said Rajesh Agarwal, Entuple’s Director of Sales. “Partnerships with niche technology leaders such as picoChip are a fundamental part of our strategy and we look forward to enabling effective adoption of these technologies in system design here, while catalyzing the growth of the technical capabilities of the design community.”
The Indian mobile market is witnessing significant growth, with analyst firm Gartner estimating 55.9 percent growth in mobile penetration in India in 2010, and double-digit growth rates till the end of 2012. There are a growing number of firms developing 3G services, which are expected to launch over the next 18 months across the country.
ADCs for high dynamic range – successive-approximation or sigma-delta?
September 01, 2014
Maithil Pachchigar, an applications engineer with Analog Devices Inc., looks at trade-offs that must be considered when choosing ...
Microchip in Pursuit of CSR
Samsung Funds III-V FinFETs in US Lab
A question of Europe
Trinamic's stepper motor package gets you started
Winged parcel delivery: Google's way
August 29, 2014
While there is still debate about if legislation would ever allow swarms of commercial drones to fly over our heads, Google ...
Two-inch Super AMOLED display fits Samsung smartwatch plans
UK armed forces consider lithium sulfur batteries
Small cell market to hit $4.8 billion in five years
- Power Modules: The New Super Power
- Digital Power Management Reduces Energy Costs While Improving System Performance
- Using RF Recording Techniques to Resolve Interference Problems
- How to Protect & Monetize Android Apps
InterviewA question of Europe
Sir Peter Bonfield sits on the board and has advisory roles in many international companies and universities. With more than 45 years of experience in electronics, computers and communications, here he ...
Filter WizardCheck out the Filter Wizard Series of articles by Filter Guru Kendall Castor-Perry which provide invaluable practical Analog Design guidelines.
Linear video channel
READER OFFERRead more
This month, Trinamic Motion Control is offering you to win one of four TMCM-1043 development kits for its highly integrated, NEMA 17-compatible TMCM-1043 stepDancer stepper motor module.
Offering designers an easy-to-use PC-based GUI that allows one-click modification of motor drive current, micro-stepping and other key parameters, the intuitive kits are custom designed and developed for...MORE INFO AND LAST MONTH' WINNERS...
December 15, 2011 | Texas instruments | 222901974
Unique Ser/Des technology supports encrypted video and audio content with full duplex bi-directional control channel over a single wire interface.