1.Gyts fiber optic cable. 2.Application:aerial, duct. 3.Long-distance communication, lan etc. 4.Armored steel tape. 1/2/3 km per a wooden drum
Telecommunications long-distance optical transmission
Cable type G.652d/g657a, pvc, lszh, simplex or duplex, 0.9, 2.0, 3.0mm Fiber type Smf-28e, sm 9/125um, mm 50&62.5/125um Polish method Upc, pc, spc, apc Connector Fc, sc, lc, st, e2000, din, d4, sma, fddi, mpo/mtp Insertion loss 0.1db (for single mode master) 0.25db (for single mode standard) 0.25db (for multimode) Return loss (for single mode) Upc 50db Spc 55db Apc 60db (typ.65db) Repeatability ¡¨¤0.1db Operating temperature -40 c to 85 ¡ãc Geometry requirement (for single mode) Ferrule end face radius7mm r 12mm (for apc) 10mm r 25mm (for standard) Apex offset 30 |¨¬m (for master) Apex offset 50 |¨¬m (for standard) Undercut -50nm u 50nm 1pc/plastic bag, 1500pcs/carton box
Fiber optic adapter Connector: sc, fc, lc, st, e2000, mu, mtrj, d4, din, sma, bare fiber adapter, hybrid adapter, plastic adapter- optional Parameter Single mode Multimode Insertion loss(db) 1 0.25 Exchangeability(db) 1 0.20 Repeatability/500 remates(db) 1 0.30 Sleeve material Zirconia Phosphor bronze Housing material Plastic Metalic Operating temperature -40¡ãc to +80¡ãc Storage temperature -40¡ãc to +80¡ãc 10pcs/blister box, 3000pcs /carton box
•spectral measurements of c&l-band dwdm passive components •noise simulation in dwdm systems •raman amplifier gain and gain flatness test. Obtain a corrugated cardboard shipping carton with inside dimensions that are at least 3 in. (6.5cm) taller
The fibers, 250¦ìm, are positioned in a loose tube made of a high modulus plastic. The tubes are filled with a water-resistant filling compound. The tube is wrapped with a layer of psp longitudinally. Between the psp and the loose tube water-blocking material is applied to keep the cable compact and watertight. Two parallel steel wires are placed at the two sides of the steel tape. The cable is completed with a polyethylene (pe) sheath. Charicteristic: good mechanical and temperature performance high strength loose tube that is hydrolysis resistant special tube filling compound ensure a critical protection of fiber crush resistance and flexibility psp enhancing moisture-proof two parallel steel wires ensure tensile strength Wooden drum
Production Technology & Attributes (**Recommend**) i. High-density Triple-layer Copper Shielding maximizes rejection of EM and RF interference for enhanced signal integrity. ii. 99.7% Oxygen Free Copper Vapor-Infused catalyst for improved Signal Transfer. iii. Vapor-Infused dielectric provides higher velocity of propagation for maximum signal strength iv. Premium metal housing & 24K Gold plated connector HDMI 19 pins/ HDMI 19 pins design specs. v. Heavy Duty PVC Jacket with integrated strain relief & Nylon Mash protects against wire damage for consistently high-quality audio video. vi. HDMI ATC 1.3B & 1.4 ,CE, UL,Rohs compliant vii. For the use of all HDMI devices including Blu-Ray player, Digital Receivers, HDMI enabled gaming consoles, Computers, TV, Mobile, Laptop,Camera, etc. Features i. Best Video Quality -1080p to 1600p Our Certified HDMI 1.3b cable supports maximum pixel clock rate of 340 MHz 10.2 Gbit/s which allows for WQXGA (2560X1600), or up to 1600p. ii. This future proofs your cable beyond today 1080p. iii. Backward support for 1080i, 720p, 720i, 480p & 480i iv. Supports 12-bit color, also known as Deep Color v. Highest Sound Quality - Latest lossless surround sound technology Enables highest sound quality: vi. Ultra-lifelike 192/24 Dolby TrueHD and DTS-HD lossless surround sound, available on Blu-ray Disc and HD DVD movies. vii. Life Time Warranty At anytime during your use of our cable if you are for any reason unhappy with it, contact us and we will provide you with free replacement. Key Difference with our cable i. In the world of P&A HDMI Cables, production technology and raw materials used determines the overall quality of your cable. ii. In terms of technology, our cables are manufactured under the strict P&A guideline & production technology as one of the most well known Home Video and Audio peripherals companies in the world. iii. In terms of raw materials used, we do no cut corners and only give you the best. That is why our HDMI Cable gives you the best dollar for dollar value. Polybag
FBG (Fiber Bragg Grating) Alxenses’s offers a series of fiber-optics products based on Fiber Bragg Grating (FBG) technology. FBG is produced in optical silica fibers by creating periodic refractive index variations in the fiber core using UV laser light. FBG is an in-line optical filter and its reflection wavelength and spectral shape depends on the periodicity, length as well as depth of the refractive index changes of the grating structure. FBG exhibits very low loss and is low-cost compared to the bulk-optics counter parts. By altering the grating periodicity and refractive index change, FBGs for various fiber-optics communication and sensing applications can be easily produced. Features: •High reliability and stability •High reflectivity •High side-lobe suppression ratio •Low insertion loss •Narrow bandwidth optical filter •Immunity to EMI •Multiplexing capability Applications: •Strain fiber optics sensor •Temperature fiber optics sensor •Displacement fiber optics sensor •Humidity fiber optics sensor Both Acrylate and Polyimide coated FBGs are available. Note: Acrylate and polyimide are the two common coating materials for optical fiber. The polyimide coating withstands higher operating temperature (up to 300°C) than Acrylate material (up to 85°C). Features: •High reliability and stability •High reflectivity •High side-lobe suppression ratio •Low insertion loss •Narrow bandwidth optical filter •Immunity to EMI •Multiplexing capability Applications: •Strain fiber optics sensor •Temperature fiber optics sensor •Displacement fiber optics sensor •Humidity fiber optics sensor
Chirped FBG (Fiber Bragg Grating) Alxenses’s Chirped fiber Bragg grating is an in-fiber broadband reflective optical filter. Using advanced fabrication technique and production facilities, grating period and refractive index modulation depth along the length of FBG can be precisely controlled to produce chirped fiber Bragg grating with different spectral and dispersion characteristic. The broad bandwidth and customizable spectral shape of chirped fiber Bragg grating is particularly effective in gain and spectral flattening of EDFA or ASE optical source. Features: •Low insertion loss •Customize reflection spectrum •Wide bandwidth Applications: •ASE filtering •EDFA gain flattening •Broadband reflector for fiber laser •Dispersion compensation
Fbg (fiber bragg grating) array Alxenses’s fiber bragg grating (fbg) array is produced using advanced fabrication technique to write many fbgs in a single strand of optical fiber without any splicing points. The mechanical strength of alxenses’s fbg arrays is therefore significantly better than fbg arrays produced by slicing many fbg arrays produced by slicing many fbgs together. The high quality fbg array with customized wavelength and spacing allow distributed measurement over long distance. Fbg arrays are particular suitable for large-scale sensing in strain, temperature or pressure monitoring in oil, gas, civil engineering, aviation and marine industries. Features: •low insertion loss •spliceless fbg array •customized fbg array configuration •accurate fbg wavelength and reflectivity Applications: •large-scale strain and temperature monitoring in oil, gas, civil engineering, aviation and marine industries.
Short-Length FBG Alxenses’s short-length FBG is fabricated based on advanced FBG fabrication technique and production facilities. The Bragg wavelength and length of the FBG can be controlled precisely while maintaining high reflectivity and side-lobe suppression ratio. The standard length of short-length FBG is 3mm and can be customized to various lengths upon request. The short-length FBG allows smaller form-factor housing to be used for FBG packaging that is necessary when sensor size is a concern. Short-length FBG is suitable for building small sensors for temperature and strain measurements and compact sensor arrays for distributed monitoring applications. Features: •Short length •Low insertion loss •Multiplexing of FBG sensors in single fiber Applications: •Small form-factor sensor packaging Note: In general, the bandwidth becomes wider when the length of FBG gets shorter.
FBG Interrogator Alxenses¡¦s FBG Interrogators are accurate measuring instrument with multi-channel of multi-sensor. These FBG Interrogators provides complete and reliable resolution to FBG Sensor Measurement System.
Features Core to core alignment by pas technology ( pas:profile alignment system) Digital fusion splicer with automatic focus function Fiber core can be display clearly Single x or y view and x & y view simultaneously Auto detect cleaved endface fault Display fiber cleaved and offset angle Display core and clad offset 5.6 inch tft color lcd monitor with clear digital image display  Usb & vga interface Software upgrade via usb interface Specifications Model Kl-300t Applicable fibersSm(itu-t g.652), mm(itu-t g.651), ds(itu-t g.653), nzds(itu-t g.655) Fiber cleaved length8~16mm(coating diameter: 250µm)    16mm(coating diameter: 250 ~ 1000µm) Fiber diameterCladding diameter:80 ~150µm  coating diameter:100~ 1000¦ìm Fiber countSingle Fiber aligning methodCore or clad aligning Image processing methodDigital Actual average splice loss0.02db(sm),  0.01db(mm), 0.04db(ds),  0.04db(nzds) Splicing timeTypical 9 sec, with standard sm fiber Splicing mode53(templet), 40(user) Splice loss estimateMore accurate Return loss>60db Storage of splice result4000 results, 20 parameter per result Fiber display and magnification300x(x or y view), 150x(x and y view) Tube heating timeTypical 30 sec Tube heating mode9(templet), 24(user) Tube heating temperatureCan be adjusted Applicable protection sleeve length60mm, 40mm and a series of micro sleeves Tension test2n Electrode life2500 No.Of splice/heating with batteryTypical 150 cycles (splice/tube heat) with inner li-battery Display screen5.6 tft inch color lcd monitor Image change overThe fiber image is turned upside down TerminalsUsb 1.1 and vga Operating condition0 ~ 5000m above sea level,  0 ~ 95%rh and -10¡«50¡æ,  respectively,  max. Wind velocity of 15m/s Power supplyAc 100-240v with ac adapter inner li-battery(6600mah) Dimensions150mm(l) x150mm (w) x150mm (h) Weight2.7 kg excluding battery, 3.2 kg including battery.
Features Rugged construction providing shock, dust and moisture resistance Dual monitor position with automatic image orientation Automatic arc calibration and iber identiication User-selectable iber clamping method sheath clamp or fiber holders Auto-start tube heater feature Color LCD display with anti-relective coating for excellent visibility in bright sunlight Simultaneous battery charge and splicer operation Long life battery (up to 160 splice/heat cycles per charge) Detachable work table incorporated into the transit case Data and video download software and splicer upgrade software included; software upgrades through PC application via the internet Green friendly RoHS & WEEE compliant Specifications Model FSM-60S Applicable Fibers SM(G.652),MM(G.651), DS(G.653),NZ-DS(G.655) Cladding Diameter 80 um to150 um Coating Diameter 100 um to 1000 um Fiber Cleave Length 8 to 16mm with 250um coating diameter, 16mm with 900um coating diameter Typical Average Splice Loss 0.02dB with Sm, 0.01dB with mm, 0.04dB with DS, 0.04dB with NZDS Splicing Time Typical 9 seconds with standard single-mode fiber Arc Calibration method Automatic, real-time and by using results of previous splice when in AUTO mode, manual arc calibration function available Splicing modes 100 preset and user programmable modes Splice Loss Estimate Based upon dual camera core alignment data Storage of Splice Result Last 2000 results to be stored in the internal memory Fiber Display X or Y, or both X and Y simultaneously. Front or rear monitor display options with automated image orientation Magnification 300X for single X or Y view, or 187X for X and Y view Viewing method Dual cameras with 4.1 inch TFT color LCD monitor Operating Condition 0 to 5,000 m above sea level, 0 to 95 % RH and -10 to 50°C respectively mechanical Proof Test 1.96 to 2.25N Tube Heater Built-in tube heater with 30 heating modes; auto-start function Tube Heating Time Typical 30 seconds with FP-03 sleeve, 35 seconds with FP3(40), 35-55 seconds with Fujikura micro sleeves Protection Sleeve Length 60mm, 40mm, micro Splice Cycles with Battery Typical 160 cycles with power save functions activated Power Supply Auto voltage selection from 100 to 240V AC or 10 to 15V DC with ADC-11, 13.2V DC with BTR-08 battery Terminals USB 1.1 (USB-B type) for PC communication. Mini-DIN (6-pin) for HJS-02/03 and SH-8 tube heater Wind Protection Max. wind velocity of 15m/s. (34 mph) Dimensions (W × D × H ) 136 × 161 × 143 mm; 5.3 × 6.3 × 5.6 inches Weight 2.3 kg (5.1 lbs) with AC adapter; 2.7 kg (5.9 lbs) with BTR-08 battery.
Features Fiber core can be display clearly Single x or y view and x & y view simultaneously Auto check quality of , cleaved end face Auto select best splicing program 9 seconds splice time and 30 seconds heat time Small bulk and light weigh 5 inch color lcd monitor with clear digital image display Simple operation menu Specifications ModelKl-280 Applicable fibersSm(itu-t g.652), mm(itu-t g.651), ds(itu-t g.653), nzds(itu-t g.655) Fiber cleaved length8~16mm(coating diameter: 250µ,m) 16mm(coating diameter: 250 ~ 1000µ,m) Fiber diameterCladding diameter: 80 ~150µ,m coating diameter: 100~ 1000¦ìm Fiber countSingle Fiber aligning method Core , aligning Return loss>60db Actual average splice loss0.02db(sm), 0.01db(mm), 0.04db(ds), 0.04db(nzds) Splicing modeAuto Splicing mode12(templet), 188(user) Typical splicing timeTypical 9 sec, with standard sm fiber Protection sleeve length60mm, 40mm and a series of micro sleeves Storage of splice result5000 results, 3 parameter per result Tension test2n Fiber display and magnification400x(x or y view), 200x(x and y view) Tube heating timeTypical 30 sec Electrode life2500 No.Of splice/heating with batteryTypical 130 cycles (splice/tube heat) with inner li-battery Display screen5 inch color lcd monitor Image change overThe fiber image is turned upside down TerminalsRs 232 Operating condition0 ~ 5000m above sea level, 0 ~ 95%rh and -10 50c, respectively, max. Wind velocity of 15m/s Power supplyAc 100-240v with ac adapter,inner li-battery(6600mah) Dimensions150mm(l) x150mm (w) x160mm (h) Weight3.52 kg including battery.
Features Color LCD monitor & 256 magnification Compact & light weight Reversible monitor with control panel on each side Max. Wind velocity of 15m/s. 8 sec. Splice time, 40 sec. Tube-heat time Simultaneous x and y views Large capacity internal battery System test ensures the best working condition User programmable Auto check fiber end face Auto calibrate parameters Store 8000 groups of splice results Multiple language options Specifications ModelDvp-730 Applicable fibersSm, mm, ds, nz-ds, edf Cladding diameter100 to 150um Coating diameter100 to 1000um Fiber cleaved length8-22mm (standard) Splicing modeAuto & manual Average splice loss0.02db(sm), 0.01db(mm), 0.04db(ds), 0.04db(nzds) Return loss 60db Environment conditions-25-+50(operation temperature), 0-95%rh(humidity), 0-5000m (altitude) Storage environment-40-+80(temperature), 0-95rh (humidity) Protection sleeve length20mm, 40mm, 60mm Tension test2.0n (standard) LanguageEnglish, chinese, korea, russian, spanish etc. InterfaceRs232 interface & video output Power supplyAc adaptor: 85-260v input voltage Internal battery: 12v voltage, 10ah, up to 200 times of continuous splices and heatsdc adaptor: 12v voltage, optional multipurpose external battery Dimensions170(w)140(h)170(d)mm Weight3.3kg.
Fiber patch cord Fiber optic accessories.