Easy-to-Use, Ultra-Tiny, Differential, 16-Bit Delta Sigma ADC With I2C Interface
The LTC2453 is an ultra-tiny, fully differential, 16-bit, analog-to-digital converter. The LTC2453 uses a single 2.7V to 5.5V supply and communicates through an I2C interface. The ADC is available in an 8-pin, 3mm x 2mm DFN package. It includes an integrated oscillator that does not require any external components. It uses a delta-sigma modulator as a converter core and has no latency for multiplexed APPlications. The LTC2453 includes a proprietary input sampling scheme that reduces the average input sampling current several orders of magnitude lower than conventional delta-sigma converters. Additionally, due to its architecture, there is negligible current leakage between the input pins.
This document contains a description of the CAN Reference Model. This document is
part of a set of documents that standardize the CAN Application Layer for Industrial
APPlications.
EBOOK: ARM SYSTEM DEVELOPER S GUIDE
The ARM architecture is not a static constant but is being developed and improved to suit the
APPlications required by today’s consumer devices.
Core JSP
In recent years, a large amount of software development activity has migrated from
the client to the server. The client-centric model, in which a client executes complex
programs to visualize and manipulate data, is no longer considered appropriate for the
majority of enterprise APPlications. The principal reason is deployment—it is a
significant hassle to deploy client programs onto a large number of desktops, and to
redeploy them whenever the application changes. Instead, APPlications are redesigned
to use a web browser as a "terminal". The application itself resides on the server,
formatting data for the user as web pages and processing the responses that the user fills into web forms.
Java & XML 2nd Edition
New chapters on Advanced SAX, Advanced DOM, SOAP and data binding, as well as new examples throughout, bring the second edition of Java & XML thoroughly up to date. Except for a concise introduction to XML basics, the book focuses entirely on using XML from Java APPlications. It s a worthy companion for Java developers working with XML or involved in messaging, web services, or the new peer-to-peer movement
A distributed, peer-to-peer, server-less communication & messaging solution for JAVA (JMS), C++ and .NET APPlications, integrates with JBoss, WebLogic & WebSphere. Offers guaranteed delivery, security and transactions. Supports TCP, SSL & HTTP protocols
This document is intended for consumption by:
• Web Server and Application Server vendors that want to provide Servlet Engines that conform
with this specification.
• Web Authoring Tool developers that want to generate Web APPlications that conform to this
specification
• Sophisticated Servlet authors who want to understand the underlying mechanisms of Servlet
technology.
Please note that this specification is not a User’s Guide and is not intended to be used as such.
風險財務控制庫
Risk Quantify is an open source financial library, with a focus on
managing the risk of financial instruments. The aim of this project is
to provide people working in the financial industry with a good base to
use in building their own APPlications. Risk Quantify provides pricing
routines, term structure building and management, calendar routines,
asset management routines and more.
The PCI Local bus concept was developed to break
the PC data I/O bottleneck and clearly opens the door
to increasing system speed and expansion capabilities.
The PCI Local bus moves high speed peripherals
from the I/O bus and places them closer to the system’s
processor bus, providing faster data transfers
between the processor and peripherals. The PCI Local
bus also addresses the industry’s need for a bus standard
which is not directly dependent on the speed,
size and type of system processor. It represents the
first microprocessor independent bus offering performance
more than adequate for the most demanding
APPlications such as full-motion video.
The PCI Local bus concept was developed to break
the PC data I/O bottleneck and clearly opens the door
to increasing system speed and expansion capabilities.
The PCI Local bus moves high speed peripherals
from the I/O bus and places them closer to the system’s
processor bus, providing faster data transfers
between the processor and peripherals. The PCI Local
bus also addresses the industry’s need for a bus standard
which is not directly dependent on the speed,
size and type of system processor. It represents the
first microprocessor independent bus offering performance
more than adequate for the most demanding
APPlications such as full-motion video.
Hardware reference
