セブンシックス Product Lineup

We would like to introduce the "Boxed Wideband Photodetector" that we handle. This product is a boxed version of the Coherent XPDV series wideband photodetector module, which incorporates a current sensor range adjustment knob. It is compatible with various single photodetector products from Coherent. Please feel free to contact us if you have any inquiries. 【Features】 - Built-in power supply, monitor display, and current sensor range adjustment knob - Battery-operated with low noise - Supports various series of single photodetectors such as XPDV4121, 3120, 3320, 2120, etc. *For more details, please download the PDF (English version) or feel free to contact us.

• diode

We would like to introduce the "O-band 100GHz Ultra-Wideband Photodetector" that we handle. This photodetector module achieves a high-level frequency response characteristic of 100GHz in the O-band, which is among the best in the world, and maintains excellent high output characteristics with linearity up to an optical input power of +10dBm. When inputting short pulses, it is possible to obtain an output voltage amplitude of over 0.5Vpp without degradation of pulse response. Designed with a non-hermetic structure prioritizing RF performance, it exhibits almost no ringing in pulse response. 【Features】 ■ 3dB cutoff frequency typ 100GHz ■ Operating wavelength range 1260–1360nm ■ Flat frequency response characteristic ■ Average optical input max 10dBm, high linearity ■ Evaluation board support *For more details, please download the PDF (English version) or feel free to contact us.

• diode

We would like to introduce the "145GHz Ultra-Wideband C-band Photodetector" that we handle. This photodetector module achieves a high-level frequency response characteristic of 145GHz, which is among the best in the world, and maintains linearity up to an optical input power of +13dBm with very excellent high output characteristics. When short pulse inputs are applied, it is possible to obtain an output voltage amplitude of over 0.5Vpp without degradation of the pulse response. It is designed with a non-hermetic structure that prioritizes RF performance, and almost no ringing occurs in the pulse response. 【Features】 ■ Achieves extremely flat frequency response characteristics in both amplitude and phase ■ 3dB cutoff frequency typ 145GHz ■ Operating frequency range 1490–1620nm ■ Average optical input max 13dBm, high linearity ■ Compatible with 0.8mm RF connectors ■ Evaluation boards are also supported *For more details, please download the PDF (English version) or feel free to contact us.

• filter

The "WaveShaper 1000A" is an ultra-high-resolution spectral and dispersion control processor with a central operating wavelength of 1556nm (bandwidth 20nm). It enables the generation of extremely steep filter slopes, contributing to advanced optical network research and development, as well as fields such as optical frequency combs in microphotonics. Equipped with arbitrary waveform shaping capabilities, it allows for independent control of attenuation and phase. It is compatible with single-mode fiber (SMF) and operates with both polarizations, and it also supports a monitor port (10%). 【Features】 ■ Central operating wavelength 1556nm (bandwidth 20nm), wavelength resolution 5GHz ■ Arbitrary waveform shaping capability, independent control of attenuation and phase ■ SMF compatible, operates with both polarizations ■ Monitor port support (10%) *For more details, please download the PDF (English version) or feel free to contact us.

• filter

"What is a data center and what does it do?" "What is the difference from the cloud?" There may be some of you who have such questions. This document will explain the basics of data centers, including their advantages and disadvantages, types of services, and how to choose one. [Contents] ■ The role of data centers and their importance as social infrastructure ■ Communication performance and technical requirements for data centers ■ Future trends of data centers towards higher speed and energy efficiency *For more details, please download the PDF or feel free to contact us.

• Communications

Lasers are active in various situations such as processing and measurement. The generation of lasers involves keywords such as "excitation," "spontaneous emission," "stimulated emission," "inversion distribution," and "amplification." In this article, we will explain how lasers are created while touching on these keywords and the principles of laser generation. [Contents] ■ Basic principles and conditions for laser generation ■ The roles of stimulated emission, inversion distribution, and resonators ■ Classification and characteristics of laser generation methods (CW and pulse) *For more details, please download the PDF or feel free to contact us.

• Other processing machines

There are many types of lasers, including "solid-state lasers," "gas lasers," "liquid lasers," "fiber lasers," and "semiconductor lasers." Each type of laser has different structures for the laser medium and oscillator, resulting in variations in the wavelengths produced. This article will provide a detailed explanation of the types of lasers and their applications. [Contents] - Types of lasers and their characteristics - Use of lasers in research, measurement, and medical fields *For more details, please download the PDF or feel free to contact us.

• Laser marker
• Communications

This article explains the characteristics and applications of millimeter waves, which are gaining attention in 5G communication, and terahertz waves, which are expected to be an even more advanced area. Additionally, this time we also touch on applications outside the communication field. [Contents] ■ About millimeter waves, terahertz waves, and microwaves ■ Overview of generation and detection technologies for millimeter and terahertz waves ■ Examples of applications in non-destructive testing, measurement, and communication fields *For more details, please download the PDF or feel free to contact us.

• Communications
• Image Processing

This article explains the principles and applications of white lasers. Unlike conventional white light sources (LEDs and halogen lamps), white lasers are characterized by their ability to generate broad-spectrum and coherent light. Focusing on the supercontinuum method, which is obtained by passing ultrashort pulse lasers through nonlinear media, we will clearly introduce the generation mechanism, main application fields (such as communications, medical, precision measurement, and LiDAR), and the challenges in commercialization. [Contents] ■ What is a white laser and its generation method ■ Basics of ultrashort pulse lasers and nonlinear optical processes ■ Application fields of white lasers ■ Commercialization and technical challenges *For more details, please download the PDF or feel free to contact us.

• Laser microscope

A fiber optic coupler is a device capable of branching and combining light. It allows for the integration of light-emitting and light-receiving elements alongside optical waveguides, making it a crucial component in the future development of optical communication and laser technology. How is it made, and what types are available? Additionally, we will explain the important factors to consider when choosing one. [Contents] ■ Basic structure and role of fiber optic couplers ■ Operating principles and branching methods of fiber optic couplers ■ Types of fiber optic couplers and differences in characteristics ■ Main applications and selection points in optical communication and measurement fields *For more details, please download the PDF or feel free to contact us.

• Coupler

As a representative example of applications, optical modulators for optical high-speed communication are mentioned. An optical modulator refers to a device that generates high-speed time signals through modulation. Generally incorporated into optical communication systems, it is a device that encodes the desired signal onto light by temporally varying the intensity, phase, or frequency of the light. This document will explain the basic principles. [Contents] ■ Basic concepts and roles of optical modulators ■ Principles of optical modulation and representative methods (intensity, phase, frequency modulation) ■ Types of optical modulators and differences in device structures ■ Applications of optical modulators in optical communication and measurement fields *For more details, please download the PDF or feel free to contact us.

• Communications

An optical connector is a component used to connect optical fibers, consisting of the "connector body," the "ferrule" that secures the fiber, and the "coupling mechanism" that provides a mechanical connection between the connector body and the device. There are various types depending on the type of fiber, its applications, and the usage environment, playing an important role in the configuration of optical communication systems and optical systems. This document explains the basic knowledge of optical connectors. [Contents] ■ Basic structure and role of optical connectors ■ Connection methods and optical characteristics of optical connectors ■ Types and standards of representative optical connectors ■ Selection points and handling precautions by application *For more details, please download the PDF or feel free to contact us.

• Optical Connector

Optical fibers are now used in various places. This document explains the basic principles of optical fibers, the types that exist, and how they are actually used. [Contents] ■ Basic structure of optical fibers and the mechanism of light transmission ■ Differences between single-mode fibers and multi-mode fibers ■ Main characteristics and performance indicators of optical fibers ■ Applications of optical fibers in the fields of optical communication and measurement *For more details, please download the PDF or feel free to contact us.

• Communications
• Other measurement, recording and measuring instruments

A semiconductor laser (LD: laser diode) is a laser that uses a semiconductor as the medium. It has low power consumption and comes in compact sizes, making it widely used in various fields. This document will explain the handling and lifespan of laser diodes. [Contents] ■ Average lifespan of laser diodes ■ Precautions for using laser diodes ■ Cases where the laser may be damaged *For more details, please download the PDF or feel free to contact us.

• diode

Laser diodes and LEDs (light-emitting diodes). Both include "diode" in their names, but how do they differ? This article will explain these differences. [Contents] ■ Differences in the light emission principles of laser diodes and LEDs ■ Comparison of light characteristics (directionality, spectral width, coherence) ■ Differentiation of laser diodes and LEDs in terms of performance and applications ■ Considerations for selecting the optimal light source based on application *For more details, please download the PDF or feel free to contact us.

• LED lighting
• LED Module

Even when we talk about optical filters in a nutshell, there are many types that change colors or brightness. In this document, we will explain which filters are used for what purposes. [Contents] ■ The basic roles and necessity of optical filters ■ The operating principles and spectral characteristics of optical filters ■ Types and features of representative optical filters (bandpass, longpass) ■ Key points for selecting optical filters based on application *For more details, please download the PDF or feel free to contact us.

• filter

A semiconductor laser (LD: Laser Diode) is a device that generates laser oscillation by passing current through a circuit element made of semiconductor material. It may also be referred to as a laser diode. This document introduces the basic emission principles and application examples of laser oscillators using semiconductors. [Contents] ■ Basic structure and emission principles of semiconductor lasers (laser diodes) ■ Differences between semiconductor lasers and LEDs ■ Types of semiconductor lasers and differences in oscillation structures ■ Main applications and fields of use *For more details, please download the PDF or feel free to contact us.

• LED

Light is an essential element in our lives. By using this light, various measurements can be conducted, such as the analysis of material components and the measurement of waveforms. In this article, we will explain the important concept of the light spectrum used in such measurements. [Contents] ■ Basic concepts of the light spectrum ■ Differences between continuous spectrum and line spectrum ■ Major spectrum measurement methods ■ Optical solutions supporting high-precision spectrum measurements *For more details, please download the PDF or feel free to contact us.

• Optical Measuring Instruments

Laser (LASER) is an acronym derived from Light Amplification by Stimulated Emission of Radiation. A laser is an artificially generated electromagnetic wave that occurs by supplying energy, such as electricity or light, to a specific material to excite it. It has characteristics such as monochromaticity, high directionality, and coherence. This document explains the mechanisms and principles of lasers, providing useful knowledge for research and development settings. [Contents] - The mechanism and basic principles of lasers (stimulated emission, inverted population) - Characteristics of laser light and differences from ordinary light - Classification of lasers and representative types - Application fields and trends of laser technology *For more details, please download the PDF or feel free to contact us.

• Laser marker
• Communications
• Other measurement, recording and measuring instruments

A pulse laser is a type of fiber laser that outputs light at a constant repetition frequency. It is categorized into microsecond lasers, nanosecond lasers, picosecond lasers, and femtosecond lasers based on differences in pulse width. This document explains the basic principles, methods of pulse oscillation, and examples of configurations. [Contents] ■ Definition and basic principles of pulse lasers ■ Methods of pulse oscillation and examples of configurations ■ Features and types of short pulse lasers ■ Typical applications of pulse lasers *For more details, please download the PDF or feel free to contact us.

• Laser marker
• Laser microscope

A fiber laser is a type of laser that amplifies light using optical fibers as the medium, allowing for high output at specific wavelengths. This article will explain not only the principles and characteristics of fiber lasers but also their types and applications. [Contents] - Basic concepts and oscillation principles of fiber lasers - Strengths in features and performance - Types and oscillation methods of fiber lasers - Main applications and fields of use *For more details, please download the PDF or feel free to contact us.

• Laser marker
• Other processing machines

There are many types of methods used for three-dimensional measurement of objects. In this document, we will highlight non-contact measurement methods that use light and introduce their characteristics and applications. We will also explain points to consider when introducing three-dimensional measurement devices. [Contents] ■ Basic concepts and necessity of 3D measurement ■ Representative 3D measurement methods and their principles (triangulation method, ToF method) ■ Characteristics of 3D measurement using lasers ■ Main application fields and uses of 3D measurement technology *For more details, please download the PDF or feel free to contact us.

• 3D measuring device

We would like to introduce our "Multicore Fiber Fanout, Wavelength: 1500–1650nm." We can accommodate small lots for various research and development prototypes, with custom designs available for 4 to 12 cores. In addition to communications, it can be applied to various sensing applications that require significant reductions in installation space, and it is possible to engrave FBGs and provide various customizations. 【Features】 ■ Customizable for 4 to 12 cores ■ Shape detection ■ Photosensitive core for FBG transfer ■ Multicore fiber with activated carbon or rare earth elements is also possible *For more details, please refer to the related links or feel free to contact us.

• Laser Components

We would like to introduce the "Er-doped Double-Clad Multi-Core Fiber, Wavelength: 1500–1650nm" that we handle. It can be customized for small lots for research and development prototypes, with options for 4 to 12 cores. The manufacturer is iXBlue SAS. The company develops special fibers in-house, including space-certified and radiation-resistant optical fibers, as well as photonic crystal fibers. 【Features】 ■ Customizable for 4 to 12 cores ■ Shape detection ■ Photosensitive core for FBG transfer ■ Actively provides multi-core fibers with added rare earth elements according to your requirements *For more details, please refer to the related links or feel free to contact us.

• Laser Components

We would like to introduce our "Radiation-Resistant Rare Earth-Doped Fiber Er/Er & Yb Doped PMF." This rare earth-doped fiber enables high cumulative radiation dose tolerance. It is well-suited for the construction of space-grade fiber lasers and amplifiers in harsh environments. 【Model Numbers】 ■IXF-RAD-AMP-1-PM ■IXF-RAD-AMP-2-PM ■IXF-2CF-EY-PM-6-130-LNF-RAD ■IXF-2CF-EY-PM-12-130-RAD ■IXF-2CF-Yb-PM-6-130-RAD ■IXF-2CF-Yb-PM-10-130-RAD *For more details, please refer to the related links or feel free to contact us.

• Laser Components

We would like to introduce our "Radiation-Resistant Rare Earth-Doped Fiber Er/Er & Yb Doped SMF." This rare earth-doped fiber is capable of withstanding high cumulative radiation doses. It is designed for the construction of space-grade fiber lasers and amplifiers in harsh environments. Please feel free to consult us when you need assistance. 【Model Numbers】 ■IXF-RAD-AMP-1 ■IXF-RAD-AMP-2 ■IXF-RAD-AMP-3 ■IXF-2CF-EY-O-6-130-LNF-RAD ■IXF-2CF-EY-O-12-130-RAD *For more details, please refer to the related links or feel free to contact us.

• Laser Components

We would like to introduce our "1.5um Band 28 Gbaud-PAM4 Modulator Box, Wavelength: 1270–1330nm." This is a PAM4-optimized optical transmitter that generates high-quality optical signals up to 56GBand. It is a turnkey optical modulation unit with very high-quality waveforms, low jitter, short rise/fall times, and high linearity. 【Features】 ■ 850nm Reference Transmitter ■ PAM-4 Maximum 28Gbaud ■ NRZ Maximum 28Gb/s ■ Highly reliable and reproducible measurements ■ High eye diagram stability ■ Variable extinction ratio *For more details, please download the PDF (English version) or feel free to contact us.

• Other electronic parts

We would like to introduce the "1.5um Band 12.5/28Gbps DPSK Modulator Box, Wavelength: 1530–1565nm (C Band)" that we handle. It supports a transmission rate of 12.5/28Gbps DPSK. Options for integrating DFB lasers, tunable lasers, and PDs are available. The manufacturer is iXBlue SAS. Please feel free to consult us when you need assistance. 【Features】 ■ Full C Band reference transmitter ■ Analog modulation up to 10GHz ■ High reliability and reproducibility in measurements ■ High eye diagram stability *For more details, please download the PDF (English version) or feel free to contact us.

• Other electronic parts

We would like to introduce our "2um Band 100MHz/10GHz Phase Modulator Wavelength: 1900–2200nm Bandwidth: Up to 12GHz." The MPX2000 and MPZ2000 operate in the 2.0μm wavelength range, performing modulation from low frequencies up to 10GHz. They incorporate a waveguide specifically designed for 2.0μm and are pigtailed with 2.0μm polarization-maintaining fiber. 【Features】 ■ Low insertion loss ■ Low Vπ ■ Design specialized for 2μm *For more details, please download the PDF (English version) or feel free to contact us.

• Other electronic parts

We would like to introduce our "1.5um Band 150MHz to 33GHz Phase Modulator, Wavelength: 1530 to 1625nm, Bandwidth: Up to 33GHz." It is suitable for high bandwidth operation up to 1GHz, 10GHz, 20GHz, and 40GHz. Additionally, it features a high impedance input that is ideal for modulation frequencies below 150MHz. It is easy to operate and integrate, delivering top-level performance across a wide range of applications, from laboratory experiments to demanding industrial systems. 【Features】 ■ Low and wide electro-optical bandwidth ■ C & L band ■ Low insertion loss ■ Low Vπ *For more details, please download the PDF (English version) or feel free to contact us.

• Other electronic parts

We would like to introduce our "800nm Band 5GHz/10GHz/20GHz Phase Modulator Wavelength: 780–890nm Bandwidth: Up to 20GHz." This phase modulator is designed to operate in the 800nm wavelength range. It supports a variety of modulation bandwidths from low frequencies up to over 20GHz. By adopting a proton exchange-based waveguide process, it achieves exceptional stability and a high optical refractive threshold. 【Features】 ■ High optical power handling ■ High bandwidth (>18GHz) ■ High stability ■ Low Vπ ■ Low insertion loss *For more details, please download the PDF (English version) or feel free to contact us.

• Other electronic parts

We would like to introduce the "2um band 1GHz/10GHz intensity modulator, wavelength: 1900–2200nm, bandwidth: up to 12GHz" that we handle. The MX2000-LN series from iXBlue Photline is an LN intensity modulator specifically designed and manufactured for a wavelength of 2.0um. We offer 1.10GHz as a standard product. Additionally, we can accommodate requests for 20GHz. 【Features】 ■ Low insertion loss ■ Low Vp ■ Designed specifically for 2µm *For more details, please download the PDF (English version) or feel free to contact us.

• Other electronic parts

We would like to introduce our "1.5um Band 10GHz/20GHz/40GHz High Extinction Ratio Intensity Modulator, Wavelength: 1530–1625nm, Bandwidth: Up to 40GHz." The high ER modulator is suitable for applications such as short pulse generation and pulse picking, and can be proposed in combination with a bias controller, RF amplifier, etc. This device is ideal for applications that require high extinction ratio (contrast) and wide bandwidth. 【Features】 ■ High extinction ratio: 40dB ■ Wide bandwidth ■ High stability with X-cut ■ Low driving voltage ■ Low insertion loss *For more details, please download the PDF (English version) or feel free to contact us.

• Other electronic parts

We would like to introduce our "1.5um Band 10GHz/20GHz/30GHz Intensity Modulator, Wavelength: 1530–1625nm, Bandwidth: Up to 40GHz." This intensity modulator, made with lithium niobate (LiNbO3), is suitable for optical transmission from 10Gb/s to 44Gb/s. This Mach-Zehnder modulator achieves stability under a wide range of operating conditions and zero chirp performance through its X-cut design. 【Features】 ■ High bandwidth ■ High stability due to X-cut ■ Low driving voltage ■ Low insertion loss *For more details, please download the PDF (English version) or feel free to contact us.

• Other electronic parts

We would like to introduce our "1.3um Band 10GHz/20GHz/30GHz Intensity Modulator, Wavelength: 1270-1330nm, Bandwidth: Up to 30GHz." This Mach-Zehnder modulator uses optical waveguides optimized for the O-Band and fibers compatible with 1310nm. With its X-cut design, this modulator achieves unparalleled stability and zero chirp performance across a wide range of operating conditions. 【Features】 ■ High stability X-cut ■ Low drive voltage ■ Low insertion loss ■ Waveguide and fiber specialized for the O-band *For more details, please download the PDF (English version) or feel free to contact us.

• Other electronic parts

We would like to introduce our "1um Band 20GHz Intensity Modulator Wavelength: 950–1150nm Bandwidth: Up to 20GHz." We offer a variety of modulation bandwidths from low frequency to over 20GHz. Like other iXblue near-infrared (NIR) modulators, the NIR-MPX series employs a proton exchange-based waveguide process, demonstrating unparalleled stability even during high-output operation. 【Features】 ■ High optical output: 25dBm ■ High bandwidth version >20GHz ■ High stability ■ Low Vπ ■ Low insertion loss *For more details, please download the PDF (English version) or feel free to contact us.

• Other electronic parts

We would like to introduce our "800nm Band 10GHz/20GHz Intensity Modulator, Wavelength: 780-850nm, Bandwidth: Up to 25GHz." The advantages of lithium niobate (LiNbO3) modulators include high modulation, high bandwidth, high contrast, and ease of use. They utilize a proton exchange waveguide process on doped LiNbO3 substrates, achieving stability and excellent optical power handling. 【Features】 ■ High bandwidth ■ High stability due to X-cut ■ High optical power handling ■ Low drive voltage ■ Low insertion loss *For more details, please download the PDF (English version) or feel free to contact us.

• Other electronic parts

We would like to introduce our ultra-broadband thin-film LN modulator, the 'TFLN-G2-1310-W', designed for the O-band. This thin-film LN modulator achieves significant miniaturization and efficiency compared to conventional LN modulators. It is available for C-band, L-band, and O-band wavelengths. For packaged products, the driving voltage is 3V, with an option of around 2V. The included RF terminal features a 1mmW connector and a polarization-maintaining fiber output with an FC/APC optical connector. 【Features】 ■ Significant miniaturization and efficiency compared to conventional LN modulators ■ Available wavelengths include C-band, L-band, and O-band ■ 3dB electro-optic bandwidth of >80GHz, with >110GHz at 4.5dB ■ For packaged products, the driving voltage is 3V, with an option of around 2V ■ Included RF terminal features a 1mmW connector *For more details, please download the PDF (English version) or feel free to contact us.

• Other optical parts

We would like to introduce our ultra-broadband thin-film LN modulator 'TFLN-G2-1550-W' for the C-band. The 3dB electro-optic bandwidth is >80GHz, and the bandwidth exceeds 110GHz at 4.5dB. The supported wavelengths include C-band, L-band, and O-band products. For packaged products, the driving voltage is 3V, with an option of around 2V. The included RF terminal is a 1mmW connector, and the output is a polarization-maintaining fiber with an FC/APC optical connector. 【Features】 ■ Significantly miniaturized and more efficient than conventional LN modulators ■ Supported wavelengths include C-band, L-band, and O-band products ■ 3dB electro-optic bandwidth is >80GHz, and the bandwidth exceeds 110GHz at 4.5dB ■ For packaged products, the driving voltage is 3V, with an option of around 2V ■ The included RF terminal is a 1mmW connector *For more details, please download the PDF (English version) or feel free to contact us.

• Other optical parts

We would like to introduce our "Piezo Actuator-Based Matrix Optical Switch with Wavelength: 1260–1675nm and Maximum Ports: 576x576." This optical switch employs a piezo actuator to couple the beam directly to the output fiber, minimizing loss and providing a structure that is resistant to vibrations. It supports various port configurations from 8x8 to 576x576, and also accommodates a single-sided NxCC configuration that allows users to freely reconfigure the port arrangement. 【Features】 ■ Non-blocking matrix optical switch from 8x8 to a maximum of 576x576 ■ Single-sided NxCC compatible, allowing users to freely reconfigure the port arrangement ■ Low insertion loss ■ Optional support for optical power monitoring, VOA, and shutter functions ■ Compatible with NETCONF and RESTCONF control interfaces *For more details, please download the PDF (English version) or feel free to contact us.

• switch

We would like to introduce the "Handy OTDR Series" handled by Seven Six Co., Ltd. Wavelength: 1310 to 1650 nm. We offer a lineup of OTDRs with various functions and dynamic ranges. These optical measuring instruments are expected to perform well in various scenarios, including long-distance fiber optic line measurements, fault detection, OTDR measurements before and after PON, as well as power meter functions and core reference light sources. 【Specifications】 ■ Compatible Fiber: SMF, MMF ■ Compatible Core Count: 1 to 12 ■ Compatible Cladding Diameter (um): 125 ■ Compatible Wavelength (nm): 1310 to 1650 ■ Fiber Type: SMF *For more details, please download the PDF or feel free to contact us.

• Other measurement, recording and measuring instruments

We would like to introduce the "Fully Automatic Fiber Preprocessing Machine for Coating Removal/Cleaning/Cutting" handled by Seven Six Co., Ltd. The process of preparing optical fibers with a fiber diameter of 125um and a coating diameter of 250um before fusion is fully automated. The skills that depend on each operator are standardized, allowing anyone to maintain a consistent quality. The time for the process, from coating removal to cleaning and cutting, is approximately 23 seconds, which also promises an improvement in production efficiency. 【Features】 ■ Easy operation ■ Easy-to-read display *For more details, please refer to the related links or feel free to contact us.

• Other processing machines

We would like to introduce the "Ultrasonic Cleaner for Optical Fibers" handled by Seven Six Co., Ltd. This ultrasonic cleaner for optical fibers washes away coating removal debris without directly touching the fiber. By using a fiber holder, you can easily perform a series of tasks including coating removal, cleaning, cutting, and fusion. It allows for the setting of cleaning time and intensity. 【Features】 ■ Easy operation when combined with a fiber holder ■ Equipped with a timer ■ Adjustable cleaning intensity *For more details, please refer to the related links or feel free to contact us.

• Ultrasonic Cleaner

We would like to introduce the "Fiber Optic Recoater Mold Diameter: 195/255/280/450/670/1000μm" handled by Seven Six Co., Ltd. This device is used to reapply ultraviolet curing resin coating on the fusion splice of fiber optics. It can be used not only as a recoater but also as a testing device for fiber optic cores. It is suitable for applications such as OCT, sensing/device evaluation, bio/medical/imaging, and laser processing. 【Features】 ■ Reduced curing time ■ Compatible with colored coatings ■ Mold, resin tank, and pump are interchangeable ■ Minimization of bubble formation *For more details, please refer to the related links or feel free to contact us.

• Testing Equipment and Devices

We would like to introduce the "Single-Core/Multi-Core Reinforcement Sleeve for Clad Diameters: 250–900um" handled by Seven Six Co., Ltd. This is a protective sleeve for the connection points of single-core and tape core wires to protect them after fusion. We also offer a compact type in the FPS series. It is suitable for applications such as OCT, sensing/device evaluation, bio/medical/imaging, and laser processing. 【Features】 ■ Heat shrink type ■ Includes a semi-circular glass plate to prevent bending *For more details, please refer to the related links or feel free to contact us.

• Other consumables