The phrase 40.0 UHF 2G EchoStar Technologies LLC 186217 appears technical and complex at first glance, but it represents an important combination of wireless communication concepts, regulatory identifiers, and industrial technology practices. This topic is often associated with radio frequency usage, satellite and communication hardware, legacy cellular standards, and manufacturer identification within regulated systems.
This in-depth article explains the meaning, context, and relevance of 40.0 UHF, 2G technology, EchoStar Technologies LLC, and the numeric identifier 186217.
Introduction to Technical Identifiers in Communication Systems
Modern communication systems rely heavily on precise technical identifiers. These identifiers help engineers, regulators, and manufacturers track frequencies, equipment capabilities, and compliance standards.
A string such as 40.0 UHF 2G EchoStar Technologies LLC 186217 combines multiple layers of information into a compact reference that can be used across technical, regulatory, and operational contexts.
Understanding the Meaning of 40.0 in Communication Contexts
The value 40.0 typically refers to a measurement or specification within a technical system. In radio and communication environments, numeric values like this may relate to power levels, bandwidth, signal parameters, or configuration settings.
Such values are not arbitrary; they are chosen to meet performance requirements while remaining within regulatory limits.
Overview of UHF Frequency Band
UHF stands for Ultra High Frequency. It is a portion of the electromagnetic spectrum commonly used for wireless communication, broadcasting, and data transmission.
UHF frequencies are known for their balance between range and data-carrying capability. They penetrate buildings better than higher frequencies and are less susceptible to interference than lower-frequency bands.
Role of UHF in Modern Communication Systems
UHF plays a crucial role in many communication applications. These include broadcasting signals, two-way radios, satellite downlinks, and various industrial communication systems.
The use of UHF allows systems to maintain reliable connectivity across diverse environments, including urban, rural, and mobile settings.
Interpreting 2G Technology
The term 2G refers to second-generation cellular technology. It represents an early stage of digital mobile communication that replaced analog systems.
2G networks introduced digital voice transmission, improved call quality, and basic data services. Although newer generations have largely replaced 2G, it remains relevant in specific industrial and legacy applications.
Why 2G Is Still Used in Certain Systems
Despite the advancement of 3G, 4G, and newer technologies, 2G continues to be used in some specialized contexts. Its advantages include low power consumption, wide coverage, and simplicity.
For machine-to-machine communication, remote monitoring, and legacy hardware, 2G can remain a practical solution.
Combination of UHF and 2G Concepts
When UHF and 2G appear together, it often suggests a system that blends radio frequency transmission with cellular-era communication standards.
Such systems may be used for control signaling, telemetry, or data exchange in environments where newer technologies are unnecessary or impractical.
Introduction to EchoStar Technologies LLC
EchoStar Technologies LLC is a well-known entity in the field of satellite communication and related technologies. The company has historically been involved in the design, manufacturing, and deployment of communication equipment.
Its name is frequently associated with satellite systems, receivers, transmitters, and infrastructure supporting broadcast and data services.
EchoStar’s Role in Communication Hardware Development
EchoStar has contributed to advancements in communication hardware by integrating radio frequency engineering with digital signal processing.
Equipment associated with EchoStar often reflects a focus on reliability, scalability, and compliance with regulatory standards.
Industrial and Commercial Applications of EchoStar Systems
EchoStar-related systems are used in a variety of applications, including broadcasting, remote communication, and specialized data transmission environments.
These systems are designed to operate efficiently over long distances and under varying environmental conditions.
Significance of the Numeric Identifier 186217
The number 186217 functions as an identifier. In technical and regulatory contexts, numeric identifiers are used to distinguish specific devices, filings, certifications, or configurations.
Such identifiers help ensure accurate documentation and traceability across systems and organizations.
Purpose of Equipment and Filing Identifiers
Identifiers like 186217 allow engineers and regulators to reference exact equipment models or approval records without ambiguity.
They support compliance verification, maintenance tracking, and lifecycle management of communication systems.
Regulatory Environment for UHF and 2G Systems
UHF frequencies and 2G technologies operate within regulated environments. Authorities define how frequencies can be used to prevent interference and ensure public safety.
Manufacturers and operators must design systems that meet these regulatory requirements.
Compliance and Certification Processes
Before communication equipment can be deployed, it typically undergoes testing and certification. These processes verify that the equipment operates within allowed frequency ranges and power limits.
Identifiers such as 186217 often appear in documentation related to these approvals.
Technical Architecture of UHF-Based Systems
UHF systems rely on antennas, transmitters, receivers, and control units. Each component must be precisely engineered to maintain signal quality and stability.
The integration of these components determines overall system performance.
Signal Characteristics in UHF Communication
UHF signals are known for moderate range and good penetration. They are suitable for environments where obstacles such as buildings or terrain would limit higher-frequency signals.
These characteristics make UHF a preferred choice for many practical communication applications.
Power and Efficiency Considerations
Systems operating at UHF and using 2G-era technologies often emphasize efficiency. Lower power consumption reduces operational costs and extends equipment lifespan.
This is especially important in remote or continuously operating systems.
Reliability in Long-Term Operations
One reason legacy technologies remain in use is reliability. Mature systems like 2G have well-understood behavior and predictable performance.
For mission-critical applications, stability can be more important than cutting-edge speed.
Integration with Other Communication Systems
UHF and 2G-based systems may operate alongside newer technologies. Hybrid setups allow organizations to balance legacy compatibility with modern capabilities.
Such integration requires careful planning and engineeringा
