MIPI DigRF 3G and v4 Decode. The DigRF 3G and v4 decode are the ideal tools for powerful system level protocol debug as well as problem solving for signal. The DigRF 3G and v4 decode are the ideal tools for powerful system level protocol debug The DigRF decodes add a unique set of tools to your oscilloscope. The DigRF working group was formed as a MIPI Alliance (MIPI) working group in April from the year with its Mbit/s can additionally handle UMTS. The present DigRF v4 draft offers Gbit/s bandwidth for LTE and WiMax.
|Published (Last):||27 September 2008|
|PDF File Size:||12.74 Mb|
|ePub File Size:||5.38 Mb|
|Price:||Free* [*Free Regsitration Required]|
Quick Facts Physical Layer.
MIPI DigRF v4 IP – T2M
This page was last edited dlgrf 16 Decemberat From Wikipedia, the free encyclopedia. It is designed to provide a convenient approach for integrating components and meeting the data-intensive needs of 4G LTE air interfaces that require high channel bandwidth.
It is a low-complexity solution for complex implementations that typically require multi-mode, multi-band operation. Retrieved from ” https: Join the Mailing Digrc.
The Base-band IC acts as the master to initiate the commands and data transfer to be sent out from the Antenna. Supports Nested frame formats. Overview Features Request Datasheet.
Configurable number of TAS frames. A high-speed interface connecting the RFIC to the baseband processor. Lanes of each sub link TX and RX can be programmed separately up to 4 lanes. Easy to integrate CPU type of interface for configuring registers. The short-term development will focus on a specification targeted for completion by end of for LTE and WiMax air interface standards.
DigRF provides the mobile industry a figrf, high speed interface for mobile communication involving various technologies like 2G,3G and other LTE standards. Description The DigRF — Version 4 DigRF v4 interface is a high-speed serial interface technology with digrff bandwidth capabilities, which was developed specifically for a wide range of emerging mobile applications.
The longer term development will focus on future air interface standards which promise further improvements in high speed, data optimized traffic. Skip to main content. Mobile technology Mobile Industry Processor Interface standards. The interface is flexible and scalable, allowing use of multiple receivers and transmitters simultaneously.
The BBIC sets the desired operating configuration. At the same time, it helps minimize pin count and overall interface power consumption, and manages electromagnetic interference EMI. Connecting radio frequency transceivers in mobile devices to baseband modem EMI-sensitive high data rate applications Highly reliable links with error protection Real-time interfaces with low latency and fast start-up time Interfaces with packet-oriented traffic bursts Transferring sample data with adjustable word length Combined control and data traffic with flexible protocol adjustment.
N8807B MIPI DigRF v4 (M-PHY) Protocol Decode
These specifications will describe the logical, electrical and timing characteristics of the digital RF-BB Interface with sufficient detail to allow physical implementation of the interface, and with sufficient rigor that implementations of the interface from different suppliers are fully compatible at the physical level. The group’s current charter is split into short-term and long-term development efforts. It natively handles MIMO configurations, receive diversity and carrier aggregation.