Manufacturer Part Number
LFCN-1200+
Manufacturer
mini-circuits
Introduction
The LFCN-1200+ is a low pass filter designed for efficiently filtering frequencies up to 1.2GHz. It is part of mini-circuits' broad range of ceramic filters.
Product Features and Performance
Designed for surface mount applications
Low insertion loss of 1dB, optimizing signal throughput
Operates effectively at a frequency of 1.2GHz
Integrated with 50Ohm impedance for compatibility with standard RF applications
Comes in a compact 4-SMD, No Lead package for easy integration into various circuits
Product Advantages
Minimal signal degradation with low insertion loss
High-performance filtering capability for 1.2GHz frequency signals
Compact size enables easy incorporation into space-constrained designs
Engineered for reliability and durability in demanding environments
Key Technical Parameters
Frequency: 1.2GHz
Impedance: 50Ohm
Insertion Loss: 1dB
Filter Type: Low Pass
Mounting Type: Surface Mount
Size / Dimension: 0.126" L x 0.063" W (3.20mm x 1.60mm)
Height (Max): 0.037" (0.94mm)
Quality and Safety Features
Manufactured to meet rigorous quality standards
Constructed with materials ensuring reliability and performance stability
Compatibility
Ideal for integration with a wide range of RF circuit designs
Compatible with surface mount technology for broad application scope
Application Areas
Communication systems
RF signal processing
Electronics testing and measurement equipment
Broadband and wireless infrastructure
Product Lifecycle
Status: Active
Continuously supported and manufactured without any current indications of discontinuation
Availability of replacements or upgrades as technology advances
Several Key Reasons to Choose This Product
High filtering efficiency allows for cleaner signal transmission
Low insertion loss ensures minimal signal power is wasted
Compact and surface mountable design fits a wide range of applications
Backed by mini-circuits' reputation for high-quality RF and microwave components
Ensures compatibility and performance stability across various systems and applications
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