Honeywell manual PW-6000 and PW-5000, Port Settings

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PW-6000 Installation

Product Overview

Customer shall not copy the design of any of the Products or use or cause to be used any Product design or related materials for its own benefit or for the benefit of any other party. The covenants contained in this section shall remain effective throughout the term of this Agreement and thereafter unless specifically waived by Honeywell Integrated Security in writing.

2 Product Overview

The Intelligent Controller is the heart of the PW-6000 and provides the real time processing for the connected I/O interfaces.

The PW-6000 is designed to operate without the need for a PC. It can be connected to a Pro-Watch host computer using direct serial communication, dial-up modem, or TCP/IP network connection. The PW-6000 holds the database for the subsystem configuration and card holders, and the event log buffer, which is in battery-backed memory.

Note: Please refer to the Pro-Watch Software Suite Guide for details on using the Pro-Watch interface.

2.1PW-6000 and PW-5000

The PW-6000 controller configuration and operation is similar to the PW-5000 controller; both use the Pro-Watch at the front end.

You can use the PW-5000 controller interface to configure the PW-6000 hardware settings.

2.2Port Settings

Port 0 provides the host-embedded Ethernet interface.

Port 1 is for RS-232 or RS-485 2-wire serial interface connections. An optional Lantronix CoBox-Micro interface daughter board (10Base-T/100Base-TX) is also supported on Port 1.

Ports 2 and 3 are for RS-485 2-wire downstream support for connecting 32 I/O devices. Note that the I/O communications must be mapped differently in Pro-Watch, according to the following table:

PW-6000 Port

Pro-Watch Port

 

 

2

4

 

 

3

6

 

 

See Table 1 'PW-6000 Jumper Settings' on page 8 for more information on how to configure the port settings.

PW-6000 Installation Guide, Document 800-00005, Revision A

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Contents PW-6000 Intelligent Controller Copyright 2007 Honeywell. All rights reserved Page Contents List of Figures List of Tables Page Before Installation Fire Safety and Liability NoticeDamage During Shipment Electro Static Discharge Earth Grounding Use SuppressorsUnpacking Procedure Disclaimer Product Liability Mutual IndemnificationShipping Instructions Limited Warranty ConfidentialityPort Settings PW-6000 and PW-5000Other PW-6000 Connections, LEDs, and DIP Switches Setting Up the PW-6000 Hardware Setting the JumpersSetting the DIP Switches PW-6000 DIP Switch SettingsSet the S4-S3-S2-S1 combination to off-off-off-off Technical Specifications Clock Backup PortsStatus LEDs InitializationSupplying Power to the PW-6000 Interface Run TimeSupplying Power to the PW-6000 InterfaceCommunications Wiring Cabinet Tamper and Power Failure Input WiringMemory and Real Time Clock Backup Battery Connecting to Acdsm for the First Time LoginHome PW-6000 Web Server HomeNetwork Settings Dynamic IP Configuration MethodStatic IP Configuration Method Host PortIP Server Connection Type None IP Client Connection Type PW-6000 Installation Device Information PW-6000 Web Server Device HW Info ScreenUser Configuration Adding a UserRestore Default Screen Editing a UserDeleting a User Apply Setting Screen Log OutPW-6000 Installation Appendix a Page Honeywell Access Systems

PW-6000 specifications

The Honeywell PW-6000 is a modern turbofan engine designed to meet the rigorous demands of regional and business aviation. Engineered with advanced technologies and features, the PW-6000 offers exceptional performance, reliability, and efficiency.

One of the standout attributes of the PW-6000 is its high-thrust capability, making it ideal for a variety of aircraft including regional jets and mid-size business jets. The engine is available in multiple thrust ratings, enabling operators to select the optimal configuration for their specific needs. This flexibility is a key advantage for airlines and operators seeking to maximize performance while maintaining operational efficiency.

The PW-6000 is built with advanced materials and technologies that enhance engine durability and reduce maintenance costs. The use of single crystal superalloys in the turbine section provides better thermal resistance, leading to longer life cycles. Additionally, the engine incorporates a sophisticated cooling system that optimizes the thermal efficiency, contributing to lower overall operating costs.

Another significant feature of the PW-6000 is its advanced digital control system. The Full Authority Digital Engine Control (FADEC) ensures precise engine management, enhancing both performance and fuel efficiency. This technology allows for real-time monitoring of engine parameters, resulting in improved safety and reliability. Operators benefit from reduced pilot workload, as the system automatically adjusts parameters to optimize performance under varying conditions.

Noise reduction is another critical aspect of the PW-6000, as it adheres to stringent noise regulations. The engine employs innovative noise reduction technologies, such as advanced fan blade designs and efficient nacelle configurations, which minimize noise both during takeoff and landing. This makes the PW-6000 a favored choice for operations in noise-sensitive environments.

The PW-6000 is designed with a focus on environmental sustainability. Its high bypass ratio improves fuel efficiency, leading to lower carbon emissions. Furthermore, its operational efficiency contributes to reduced fuel consumption, aligning with the aviation industry's current push towards greener technologies.

In summary, the Honeywell PW-6000 is a state-of-the-art turbofan engine that combines high thrust capabilities, advanced materials, and superior noise reduction. Its digital control system enhances performance and reliability, while its environmentally friendly design meets the industry's push for sustainability. As regional and business aviation continues to evolve, the PW-6000 stands out as a leading choice for operators seeking efficiency, reliability, and performance.