ADC and Manageable T1 Deployment Hdsl Transmission Line Code, Media, Output Signal, Input Level

Page 3

7 / 0 8 • 1 0 6 6 6 9 A E HiGain® HDSL

HiGain® HDSL

Fast, Economical, Reliable and Manageable T1 Deployment

Specifications

HDSL Transmission

 

Line Code:

784 kbps 2B1Q

Transmission:

dual-duplex

Media:

two non-loaded two-wire metallic cable pairs

Output Signal:

+13.5 dBm ±0.5 dB into 135Ω

Maximum Provisioning Loss:

35 dB @ 196 kHz, 135Ω

DSX-1 Interface (CO Side)

 

Output Level:

6 Vpk-pk, pre-equalized for 0 - 655 ft of ABAM cable

Input Level:

+1.5 to -7.5 db DSX

Impedance:

100Ω

Line Rate:

1.544 Mbps ±200 bps

Line Format:

AMI, B8ZS or ZBTSI

Frame Format:

ESF, SF and unframed

DS1 Interface (Remote Side)

 

Output Level:

6 to -7.5 Vpk-pk

Input Level Sensitivity:

> -22.5 dB

Line Rate:

1.544 Mbps ±200 bps

Line Format:

AMI, B8ZS or ZBTSI

Frame Format:

ESF, SF and unframed

Output Level:

0, -15 dB (selectable)

System

 

One-way DS1 Delay:

<200 μs (HLU and HRU) + <80 μs (HDU)

Wander (looped):

0.3 UI max (1 UI = 648 ns)

Wideband Jitter (looped):

0.2 UI max

Narrowband Jitter (looped):

0.1 UI max

Reach

 

Each Span:

CSA design rules, e.g. 9 kft on 26 AWG or 12 kft on 24 AWG,

 

no load coils, bridged taps per CSA guidelines

Number of Spans:

5 total, 4 line powered

DSX-1 Test Access (CO Side)

 

“210” Bantam jacks:

bridging, splitting/line, splitting/drop

DS1 Test Access (Remote Side)

 

“210” Bantam Jacks:

bridging (monitor and test)

Alarms

 

Fuse Open:

LLOS, RLOS, LOSW, BER, margin, power feed short or ground

Loopbacks

 

Direction:

NI, CI

Inband:

generic HiGain, intelligent repeater, T1 standard

HiGain:

activated from craft port (HLU and HRU),

 

system options buttons (HLU), or loopback button (HRU)

User Interfaces (CO Side)

 

Craft Port:

RS-232 (DCE)

Front Panel:

four-character display, status LED, system options buttons

w w w . a d c . c o m

+ 1 - 9 5 2 - 9 3 8 - 8 0 8 0

1 - 8 0 0 - 3 6 6 - 3 8 9 1

3

Image 3
Contents Fast, Economical, Reliable, and Manageable T1 Deployment Spec SheetDescription Catalog Number Fast, Economical, Reliable and Manageable T1 DeploymentDS1 Test Access Remote Side Bantam Jacks Output SignalSystem One-way DS1 Delay DSX-1 Test Access CO Side Bantam jacksSpecifications Contd

Fast, and Manageable T1 Deployment, Reliable, Economical specifications

Adaptive Digital Converters (ADC) and Manageable T1 Deployment are crucial components in modern telecommunications and data transmission. As industries demand faster, more reliable, and cost-effective communication solutions, these technologies continually evolve to meet expectations.

ADCs convert analog signals to digital formats, allowing for enhanced data processing and transmission efficiencies. Their main characteristics include high-speed conversion, precision, and an ability to handle a variety of signal types. The implementation of advanced ADC architectures, such as delta-sigma and successive approximation register (SAR), allows for improved performance in diverse applications like audio processing, telecommunications, and sensor interfacing.

On the other hand, Manageable T1 systems represent a reliable telecommunications standard that supports the transmission of data over copper or fiber-optic cabling. T1 lines can transmit data at a rate of 1.544 megabits per second, making them ideal for businesses requiring stable and high-throughput network connections. Features of Manageable T1 deployment include remote monitoring and management capabilities, which enable organizations to maintain optimal performance and quickly address any potential issues.

Economical deployment of ADC and T1 technology plays a fundamental role in enabling organizations to optimize costs while maintaining peak performance. With growing needs for high fidelity and low latency connections, companies are investing in innovative technologies that provide a strong return on investment. The convergence of ADC and T1 technologies can reduce infrastructure costs and streamline operations.

Reliability is another paramount characteristic of these technologies. ADCs equipped with built-in error correction can ensure accurate data transmission, while T1 lines are known for their stable performance and low likelihood of downtime. By combining these attributes, businesses can support critical applications that require uninterrupted service.

Fast implementation of these technologies enhances operational agility. Businesses can quickly deploy ADCs into existing systems, and manage T1 connections can be set up rapidly. This rapid deployment ensures that organizations remain competitive in a fast-paced market, as they can adapt to new challenges and opportunities without lengthy delays.

In conclusion, the integration of ADCs with Manageable T1 Deployment creates a powerful solution for enterprises needing economical, reliable, and fast communication systems. With cutting-edge features and technologies, this synergy propels businesses forward, ensuring they are equipped to meet the demands of the digital age.