today announced sample availability of its first reference design for ultra-low-cost handsets. Using Infineon’s new ULC reference platform, which is based on a single-chip GSM solution, costs for GSM handsets with SMS functionality could be reduced by nearly one half in the near future, from $35 to below $20.
These costs cover the entire mobile phone, including all electronic components, printed-circuit-board, connectors, casing with keypad and display, all software components, rechargeable batteries, charger, packaging and documentation.
Infineon claims that it’s ULC reference platform provides all the electronic hardware and software components needed in dual-band handsets complying with the GSM900/1800 and GSM850/1900 standards.
It includes a single-chip GSM radio/baseband, other RF components, power supply, memory, operating system, hardware drivers, GSM protocol stack and a reference MMI (Man Machine Interface) for simple use of SMS and telephone functionalities. Volume production is expected to start in the first quarter of 2006, which means that ultra-low-cost handsets could be in the shops a few months later.
Infineon says that there are currently about 1.8 billion mobile phone users worldwide. The demand for low-cost and easy-to-operate handsets with SMS functionality is increasing. Many people want to enjoy the benefits of mobile communications, but place little value on applications such as camera and video features, web browser, music player and games. Ultra low-cost handsets target at these mainstream and new mobile phone users.
“There are around 3.5 billion people living in areas with mobile phone coverage who cannot afford their own handset,” said Ameet Shah, Chief of Strategy for Emerging Markets Handsets at the GSM Association. “Ultra low-cost handsets are a key initiative to extend the benefits of communications to more of the world’s population.”
The US market research company Strategy Analytics expects that more than 150 million ultra low-cost handsets, costing less than US $50 wholesale, will be sold throughout the world in 2010.
At present, a simple GSM mobile phone with SMS functionality needs around 150 to approximately 200 electronic components. With Infineon’s new platform the number is reduced to below 100, housed in an area of just 3cm x 3cm, about a third of the area used today.
Infineon’s integrated reference platform is said to make it possible to use low-cost processes when manufacturing mobile phones. For example, components are placed on only one side of the board, the time taken to carry out calibration tests is reduced from 60 seconds to just 1 second, and component logistics are simplified.
The platform’s power consumption has been optimised so that cheap rechargeable batteries – such as nickel metal hydride (NiMH) AAA micro-cells – can be used to power the ultra low-cost phone. With standard rechargeable mobile phone batteries, Infineon estimates a standby time of more than ten days and talk-time of more than four hours.
Infineon’s platform design for ultra-low-cost handsets supports black & white and colour displays, together with different voice codecs such as Enhanced Full Rate (EFR), Full Rate (FR), Half Rate (HR), and Adaptive Multi-Rate (AMR). Network operators can manage voice quality and subscriber capacity in line with how much the network is being used, reducing the network operator’s subscriber costs.
The solution consists of the E-GOLDradio (PMB 7870) together with the E-Powerlite power-management component (PMB 6814).
The E-GOLDradio, a monolithic GSM single-chip, combines a quad-band RF transceiver and a baseband processor. It enables the baseband and RF functionality to be realised on a board space which is about 30 percent less than the area previously occupied by two-chip solutions. This is because external components such as capacitors and discrete components are not needed for communication between RF and baseband logic within a mobile phone.
E-Powerlite provides all necessary power supply to the processor and the entire mobile phone system including electromechanical audio components, display and keypad illumination, as well as the SIM card and regulates the use and charging of Lithium Ion and NiMH batteries.
Today’s simple GSM mobile phone with SMS functionality needs around 150 to approximately 200 electronic components
With Infineon’s ULC mobile phone platform the number of electronic components is reduced to below 100, from around 150 to approximately 200