General Information | Philips LBB 5800 instruction

DP 6000 DIGITAL PAGING SYSTEM

INSTALLATION

INSTRUCTIONS

December 1997 Page 1 of 15

FIELD CONTROL PANEL

LBB 6005

INSTALLATION INSTRUCTIONS

1 GENERAL INFORMATION

For a detailed description of DP 6000 paging calls refer to Installation Instruction No. 63 for the High Performance Control Desk (LBB 5800).

holder, whereas in the latter, the PST holder must, within a predetermined time, acknowledge that a call has been received by pressing the Alarm Reset Button on the PST.

When the auto-scan facility is programmed and set for user enable/inhibit, the auto-scan facility will be activated by pressing the channel Auto-Scan key on the FCP, pressing Auto-Scan key again this will disable the auto-scan activity and so on.

1.1Description

Philips Personal Security System PS 6000 combines paging functions with portable alarm facilities for people on the move in hazardous environments or are liable to incur some personal risk. The system is based upon Personal Security Transceivers (PST), a High Performance Desk and a Field Control Panel (FCP). The system incorporates security facilities such as manual alarm and automatic system scanning. In addition, a detector circuit is built into the transceiver which will initiate an alarm procedure when no movement of the transceiver is detected.

Communication between the PST and the FCP is always via the LBB 5800 Desk. Each FCP monitors the status of its own PSTs programmed into the system. An FCP can be programmed to monitor the PST’s fully automatically without any action by the operator or PST holder, and also by manual confirmation of the PST holder.

1.2System size

Each Field Control Panel can cater for up to 16 PSTs and the PSTs are programmed to react to their dedicated call buttons and LEDs on that particular panel. Up to 31 FCPs can be interconnected via the desk.

A High Performance Desk LBB 5800 can supply enough power to support only one FCP. If more than one FCP is used in the system, they must be powered via an external supply unit.

The RS 422 communication bus can be used to connect all the FCPs together, in parallel, to the LBB 5800 Desk (see page 15 for system set up).

1.3System Scanning

The FCP can be programmed to scan the PST’s in the system at preprogrammed intervals and check the status of each. An automatic or an additional manual response from the PST to this check call can be programmed, for each individual channel, into the FCP. In the former instance, the PST will automatically send the status information back to the FCP without disturbing the PST

1.4Field Alarm Calls

The FCP can be programmed to react to an Alarm Call from the PST in several ways; When the Alarm LED lights, a Direct Call can be transmitted to establish contact with the PST holder. This call will be initiated by using the Direct Call Key for that channel. If no action is taken by the operator within a predetermined time, a preprogrammed alarm call can be automatically routed to another PST. A built in delay timer can activate one to three relay outputs in the FCP, which can be used to activate some other device e.g. telephone exchange. The relay function can be programmed for continuously ON or pulsed ON.

2 PROGRAMMING THE FCP

2.1General

All programming of the FCP must be carried out via the LBB 5800 desk. The FCP must first be set “present” by the allocation of a dedicated address and all the various functions required by the customer must be done by further software programming. Only one uninitialised FCP may be connected to the RS 422 line at any given time.

When an uninitialised FCP is powered up, the top row of LEDs will all blink slowly. When initialised, the FCP address LED will be illuminated during power up. These are represented by the top two rows of LEDs (1 - 31) reading from top left to bottom right. The power LED in the top left corner will be illuminated. (Powering up the desk with an FCP connected takes max. 60 sec.)

2.2Editor

The Editor function of the desk is the means by which the system variables are programmed into the FCP.

When the Editor is opened, the program variables can be entered via the keyboard and the desk bleeper gives an audible indication of correct or incorrect entries.

The normal sequence of programming the FCP is to first enter the required MENU followed by the menu COMMAND DIGIT, followed by the PROGRAM VARIABLE(S).

Philips

Communication &

Security Systems

DP 6000, LBB 5800 specifications

The Philips LBB 5800 and DP 6000 represent a groundbreaking evolution in audio and communication technology, designed specifically for public address systems, professional sound reinforcement, and communication in diverse environments. These devices cater to a wide range of applications, ensuring superior performance and clarity for users in various sectors, including education, healthcare, and corporate environments.

One of the main features of the Philips LBB 5800 is its user-friendly interface, which facilitates easy operation for individuals of all skill levels. The device boasts a robust design, ensuring durability and reliability even in demanding situations. The LBB 5800 is equipped with a powerful amplifier capable of delivering clear, crisp sound across large areas, making it an ideal choice for auditoriums, conference halls, and outdoor events.

The DP 6000, on the other hand, is a sophisticated digital audio processing unit that allows for enhanced sound quality and flexibility in audio management. It features advanced signal processing technology, enabling users to tailor audio output to suit specific environments or audiences. This adaptability ensures that every sound is transmitted accurately, minimizing distortion and maximizing clarity.

Both the LBB 5800 and DP 6000 incorporate cutting-edge digital signal processing (DSP) capabilities, which elevate the overall listening experience. With intelligent feedback suppression, automatic gain control, and equalization options, these devices can dynamically adjust audio output based on real-time environmental conditions, ensuring optimal sound quality at all times.

Another noteworthy characteristic is the connectivity options available with these systems. The LBB 5800 and DP 6000 support various input and output formats, including XLR, RCA, and network audio solutions. This makes integration with existing sound systems or expansion options simple and efficient.

Furthermore, both models are designed with scalability in mind, allowing users to expand their system as needed. This is particularly beneficial for growing organizations that require flexible solutions to adapt to changing needs. The ability to connect multiple units seamlessly enhances the overall capabilities of a sound system.

In conclusion, the Philips LBB 5800 and DP 6000 provide a powerful combination of features, advanced technologies, and characteristics that make them a top choice for professionals seeking high-quality audio and communication solutions. Their durability, flexibility, and superior sound processing capabilities ensure they meet the demands of various applications, delivering exceptional performance every time.