Fiber Optics - Attenuators

Image	Part Number	Description / PDF	Quantity	Rfq
	HRFC-AT11K-A01(60) Hirose	CONN FC ATTENUATOR 1DB	0
	HSC-AT11CS-A16 Hirose	CONN SC ATTENUATOR 16DB 250MW	0
	HSC-AT11CS-A15 Hirose	CONN SC ATTENUATOR 15DB 250MW	0
	HSC-AT11K-A09 Hirose	CONN SC ATTENUATOR 9DB 250MW	0
	HSC-AT11CS-A30 Hirose	CONN SC ATTENUATOR 30DB 250MW	0
	HSC-AT11U-A02 Hirose	CONN SC ATTENUATOR 2DB 250MW	0
	HSC-AT11U-A05 Hirose	ATTENUATOR F/OPTIC 5.0DB	0
	HSC-AT11CS-A14 Hirose	CONN SC ATTENUATOR 14DB 250MW	0
	HSC-AT11U-A30 Hirose	CONN SC ATTENUATOR 30DB 250MW	0
	HSC-AT11CS-A10 Hirose	CONN SC ATTENUATOR 10DB 250MW	0
	HSC-AT11CS-A08 Hirose	CONN SC ATTENUATOR 8DB 250MW	0
	HSC-AT11K-A25 Hirose	CONN SC ATTENUATOR 25DB 250MW	0
	HSC-AT11K-A01 Hirose	CONN SC ATTENUATOR 1DB 250MW	0
	HSC-AT11U-A00 Hirose	CONN SC ATTENUATOR 0DB 250MW	0
	HSC-AT11CS-A20 Hirose	CONN SC ATTENUATOR 20DB 250MW	0
	HRFC-AT11K-A03(60) Hirose	CONN FC ATTENUATOR 3DB	0
	HRFC-AT11K-A15(60) Hirose	CONN FC ATTENUATOR 15DB	0
	HRFC-AT11K-A07(60) Hirose	CONN FC ATTENUATOR 7DB	0
	HSC-AT11CS-A05 Hirose	ATTENUATOR F/OPTIC 5.0DB	0
	HSC-AT11K-A05 Hirose	ATTENUATOR F/OPTIC 5.0DB	0

Fiber Optics - Attenuators

1. Overview

Fiber optic attenuators are passive optical components designed to reduce signal power in fiber optic transmission systems. They achieve controlled light intensity reduction through absorption, scattering, or reflection mechanisms. These devices play a critical role in maintaining optimal signal levels for receivers in telecommunications, data centers, and sensor networks.

2. Major Types and Functional Classification

Type	Functional Characteristics	Application Examples
Fixed Attenuators	Precise attenuation values (1-30 dB)	Signal balancing in PON networks
Variable Attenuators	Adjustable attenuation (0.1-0.5 dB resolution)	System testing and calibration
In-line Attenuators	DIN/FC/SC interface compatibility	Telecom backbone networks
Fiber Pigtail Attenuators	Weldable pigtail cables	Optical amplifier gain control

3. Structural Composition

Typical construction includes: 1) Ceramic ferrule with precision aperture 2) Attenuation medium (doped glass/metallic films) 3) Connector housing (zirconia or stainless steel) 4) Strain relief boot. Advanced designs incorporate angle-polished facets to minimize back reflection.

4. Key Technical Specifications

Parameter	Significance	Typical Range
Wavelength Range	Determines compatibility with transmission bands	1250-1650 nm
Attenuation Range	Defines signal reduction capability	1-30 dB
Accuracy	Critical for precise network planning	0.2 to 0.5 dB
Return Loss	Measures reflected signal suppression	>60 dB
Operating Temperature	Environmental stability indicator	-40 to +85 C

5. Application Domains

Telecommunications: DWDM network power equalization
Data Centers: 100G/400G transceiver signal conditioning
Medical: Laser protection in endoscopic systems
Industrial: Sensor network calibration
Military: High-power laser beam control

6. Leading Manufacturers and Products

Manufacturer	Product Series	Key Features
Keysight Technologies	81500 Series	Dynamic range: 70 dB
Thorlabs	FA Series	FC/PC and LC interfaces
Finisar	FADxxx	DWDM-optimized
Corning	SMF-28 Attenuators	Low PDL: <0.05 dB

7. Selection Guidelines

Match attenuation value to link budget calculations
Verify wavelength compatibility with system requirements
Choose connector type (SC/LC/MPO) based on infrastructure
Evaluate environmental specifications (temperature/humidity)
Consider certification standards (Telcordia GR-1221)

8. Industry Trends

Current development directions include: 1) Miniaturization for high-density MPO systems 2) Smart attenuators with integrated monitoring 3) Broadband devices covering O+E+S+C+L bands 4) Radiation-hardened components for aerospace applications. Market growth is projected at 7.2% CAGR through 2027, driven by 5G and hyperscale data center expansions.