ADC 3600, 1600 manual Web-Local Craft Terminal, Transaction Language TL1

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LoopStar® Network Management

LoopStar 800/1600/3600 Provide Flexible Options for Network Management

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The LoopStar EMS is a Windows®-based software application designed to operate in standard client-server-based configurations. The system is a scalable platform consisting of a central database/server software application with options for multiple client servers hosted from the central server. The total number

of LoopStar 800/1600/3600 elements to be managed by a common LoopStar EMS is a function of the server/client system and memory capacity. Standard network configurations

are approximately 1-32 systems per LoopStar 800 EMS.

Communications between the LoopStar EMS and network LoopStar 800/1600/3600 systems is via TL1 or SNMP message control over Ethernet LAN/WAN communications. The LoopStar EMS can also funnel network configuration, alarms and performance monitoring information to higher-order network management systems via TL1/CORBA/MML north-bound LAN/WAN

interface communications.

The LoopStar EMS-LCT is a PC-based software application designed to work on Windows 2000 or Windows XP system. The LoopStar EMS- LCT provides management and configuration functions at the NE layer to a single concurrent session.

Web-Local Craft Terminal

The Web-LCT is a JavaScript application embedded in LoopStar Network Element (NE) software. Through the Web-LCT, customers can manage, maintain and configure the LoopStar 800 using Microsoft Internet Explorer. Users can access the LoopStar 800 and configure services or query alarms on it just by opening Microsoft Internet Explorer on their terminal computers and then entering the IP address of the NE. Once accessed, the Web-LCT provides configuration management, fault management, performance monitoring, security and testing management. Web-LCT

will be available on the LoopStar 1600 in the near future.

Transaction Language (TL1)

TL1 is a derivation of the CCITT Man-Machine Language (MML). The LoopStar SONET product family TL1 specification is derived from Telcordia standards referenced in the TL1 Command

Set Technical Publication. The LoopStar 800/1600/3600 can be managed directly via TL1 commands by technicians who log into the NE LAN port using terminal emulation on a PC. They can perform all of the network management functions referenced in the EMS/ EMS-LCT section of this document. Using TL1 the LoopStar 800 has complete integration into Telcordia ‘s TIRKS and NMA OSS systems for inventory and network monitoring.

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Contents Spec Sheet LoopStar EMS and EMS-Local Craft Terminal LCT 8 1 0 1 7 0 9 a E LoopStar Network ManagementTransaction Language TL1 Web-Local Craft TerminalWeb-LCT LoopStar EMS

3600, 1600 specifications

The ADC 1600 and ADC 3600 are high-performance analog-to-digital converters designed for various applications in the fields of telecommunications, industrial control, and data acquisition. These converters are known for their exceptional accuracy, fast conversion rates, and reliability in diverse environments.

One of the key features of the ADC 1600 is its ability to provide a 16-bit resolution. This high-level resolution allows for the precise measurement of analog signals, making it suitable for applications where accuracy is critical. The ADC 1600 operates at a sampling rate of up to 100 kSPS, ensuring that fast-changing signals can be captured accurately. With integrated noise filtering technologies, it minimizes the effects of unwanted noise, providing cleaner and more accurate digital outputs.

In contrast, the ADC 3600 pushes the performance envelope further with a remarkable 18-bit resolution. This level of precision is particularly advantageous in applications such as medical imaging and high-fidelity audio processing, where even the smallest variations in signal must be captured. The ADC 3600 boasts a sampling rate of up to 250 kSPS, catering to systems that require rapid data acquisition without sacrificing precision.

Both the ADC 1600 and 3600 utilize advanced delta-sigma modulation technology. This method not only enhances the resolution but also improves linearity and dynamic range. The converters feature built-in digital filtering capabilities that yield superior signal processing performance, thus simplifying the design requirements for systems integrating these ADCs.

Furthermore, power consumption is a critical consideration in many designs, and both devices are optimized for low power operation. This is essential for battery-powered devices and portable applications, ensuring that designers achieve optimal performance without compromising battery life.

In terms of interfacing, the ADCs provide various options, including serial and parallel communication protocols, making them compatible with multiple platforms and microcontrollers. This flexibility allows designers to integrate the ADC 1600 and 3600 seamlessly into their systems, facilitating easier implementation.

In summary, the ADC 1600 and ADC 3600 stand out in the market for their high-resolution capabilities, fast sampling rates, advanced modulation technologies, and low power consumption. These characteristics make them ideal choices for a wide range of applications where performance and accuracy are paramount. Whether used in industrial automation, scientific research, or consumer electronics, these ADCs continue to set benchmarks in analog-to-digital conversion technology.