1310&1550nm Laser Diode Module

Réamhrá ar Mhodúil Dé-óid Thyristor

Modúil dé-óid thyristor, go minic dá dtagraítear go simplí mar thyristors, Is cineál feiste leathsheoltóra iad a úsáidtear go príomha chun cumhacht leictreach a rialú agus a athrú in iarratais éagsúla. Feidhmíonn siad mar lasca rialaithe, ag ligean don sruth sreabhadh nuair a spreagtar é ag comhartha geata beag. Nuair a iompú ar, fanann siad ag seoladh go dtí go dtiteann an sruth tríothu faoi thairseach áirithe nó go n-aisiompaítear treo an tsrutha.

Go hiondúil is éard atá i modúl thyristor ná il thyristor atá pacáistithe le chéile chun sruthanna nó voltais níos airde a láimhseáil ná mar a d'fhéadfadh comhpháirt amháin a bhainistiú. Is féidir na modúil seo a fháil i bhfoirmíochtaí éagsúla, lena n-áirítear SCR (Coigeartóir Rialaithe Sileacain), TRIAC, agus GTO (Múchadh Geata) thyristors, gach ceann acu deartha le haghaidh cineálacha sonracha tascanna rialaithe cumhachta.

Gnéithe agus Buntáistí Modúil Dé-óid Thyristor

1. Cumas Láimhseála Ardchumhachta:
   Tá modúil thyristor in ann leibhéil arda cumhachta a láimhseáil, rud a fhágann go bhfuil siad oiriúnach d'fheidhmeanna tionsclaíocha a dteastaíonn réitigh bhainistíochta cumhachta láidir agus iontaofa uathu.

2. Rialú Cumhachta Éifeachtach:
   Tugann thyristors rialú beacht ar an gcumhacht a sheachadtar chuig ualach. Trí uainiú chuisle an gheata a rialú, is féidir an méid cumhachta atá á aistriú a choigeartú, atá úsáideach go háirithe in iarratais rialaithe cumhachta AC cosúil le soilse dimming nó rialú luas mótair.

3. Caillteanais Seolta Íseal:
   Nuair a bheidh sé ar siúl go hiomlán, tá titeann ísealvoltais ar aghaidh ag thyristor, mar thoradh ar chaillteanais cumhachta íosta le linn seolta. Cuireann an éifeachtúlacht seo le teocht oibriúcháin níos ísle agus le héifeachtúlacht fuinnimh feabhsaithe.

4. Tógáil Garbh:
   Deartha do thimpeallachtaí crua, Tá pacáistiú marthanach i modúil thyristor ar féidir leo strus meicniúil a sheasamh, luaineachtaí teochta, agus fachtóirí comhshaoil ​​eile atá tipiciúil i suíomhanna tionsclaíocha.

5. Dearadh Dlúth:
   In ainneoin a gcumas cumhacht suntasach a láimhseáil, tá modúil thyristor nua-aimseartha dlúth, dearaí spárála spáis a chumasú i dtrealamh nuair is gnéithe ríthábhachtacha iad méid agus meáchan.

6. Réiteach Costas-Éifeachtach:
   Soláthraíonn modúil thyristor bealach eacnamaíoch chun feidhmeanna lasctha agus rialaithe cumhachtacha a chur i bhfeidhm i gcomparáid le teicneolaíochtaí malartacha nach mbeadh chomh héifeachtach nó a d’fhéadfadh costas níos mó a bheith orthu in aghaidh an aonaid chumhachta a láimhseáiltear..

7. Meicníocht Spreagtha Simplí:
   Níl ach sruth geata beag ag teastáil ó thyristéar chun é a chur ar siúl, a shimplíonn dearadh na gciorcad rialaithe. Is féidir an mheicníocht truicearaithe a chomhtháthú go héasca i gcórais atá ann cheana féin le híosmhéid comhpháirteanna breise.

8. Réimse Leathan Feidhmchlár:
   Ó rialú mótair agus soláthairtí cumhachta go meaisíní táthú agus córais tarraingthe, cuirtear modúil thyristor i bhfeidhm thar speictream leathan tionscal mar gheall ar a saintréithe ilúsáide.

9. Cosaint Forshrutha:
   Tagann go leor modúil thyristor feistithe le gnéithe cosanta ionsuite i gcoinne coinníollacha forshrutha, an gléas féin agus ualaí nasctha araon a chosaint ó dhamáiste féideartha.

10. Luasanna Aistrithe Tapa:
    Is féidir le modúil thyristor chun cinn stáit a athrú go tapa, atá tairbheach in iarratais óna dteastaíonn amanna freagartha gasta nó timthriallta aistrithe go minic gan cur isteach ar fheidhmíocht.

(1310&1550nm Laser Diode Module)

Specification of 1310&1550nm Laser Diode Module

This laser diode component deals with 1310nm and 1550nm wavelengths. These are common in fiber optic interaction. The component results light through a conventional single-mode fiber port. It’s constructed for reliable signal transmission.

Power degrees are readily available. You can select low power for brief web links. Greater power alternatives benefit longer ranges. Examine the specific power rating for your model. Inflection is feasible. The light turns on and off quick. This brings information. Analog modulation is likewise sustained. This allows the light intensity differ smoothly.

The module needs stable power. It requires a details DC voltage. This is generally reduced voltage like 3.3 V nó 5V. Current draw depends upon the result power. Greater power needs a lot more current. Temperature level impacts performance. The component functions within an established temperature array. This variety is often from -40 °C go +85 °C. Air conditioning could be required for high-power use.

Control is simple. A TTL signal transforms the laser on and off. This is for digital signals. An analog input regulates the light illumination. This is for analog signals. Safety is essential. The module consists of functions to avoid eye damages. It abides by laser safety policies.

These modules are used in many locations. Fiber optic networks use them for sending data. Examination equipment relies on them for accurate measurements. Sensors use them for discovery. They are likewise located in medical tools and research study labs. The style is portable. It fits easily into various systems. The bundle shields the laser diode. It ensures secure operation gradually. Mounting is easy. Standard screws or clips are used.

(1310&1550nm Laser Diode Module)

Applications of 1310&1550nm Laser Diode Module

These laser diode modules produce light at 1310nm and 1550nm wavelengths. These wavelengths are basic in fiber optic interaction. They work well with conventional glass fibers. Signal loss is reduced inside the fiber at these points. Signal spreading is additionally decreased. This makes them crucial for sending data.

Telecom networks count heavily on these components. They develop the backbone transmitters. They send voice, video clip, and web information over long distances. Both 1310nm and 1550nm are utilized. 1310nm prevails for much shorter runs. 1550nm deals with a lot longer ranges. It has the lowest loss in silica fiber. Dense Wavelength Division Multiplexing (DWDM) systems utilize numerous 1550nm lasers. Each laser lugs a different data channel. This increases the fiber’s ability.

Fiber optic noticing usages these lasers too. They discover adjustments along a fiber cord. This helps protection fencings. It spots invasions or meddling. It checks pipes for leakages or stress and anxiety. It enjoys large structures like bridges or dams. Little adjustments in light expose troubles. The certain wavelength relies on the sensing unit type.

Fiber optic system testing needs these modules. Service technicians utilize them to check installed fiber. They determine loss. They discover breaks or negative links. They verify splices. They identify the fiber’s performance. The component acts like a recognized, stable source of light. This is vital for installation and upkeep.

Clinical devices often uses these wavelengths. They work for certain diagnostic tools. They are made use of in some therapeutic tools. Research labs discover them valuable also. They are utilized in spectroscopy. They assist study materials. They are made use of in laser microscopy. They supply precise illumination. Industrial setups use them for placement. They note placements precisely. They guide equipment. They are utilized in some laser cutting. They are made use of in engraving applications.

Suppliers build these components for reliability. They make sure secure output power. They keep constant wavelength. They develop them for long life. They package them for easy combination. They fit into different systems. They link easily to various other components.

Próifíl na Cuideachta

PDDN Photoelectron Technology Co., Teo.(díolacháin@pddn.com) ar cheann de na fiontair tosaigh i dteicneolaíocht leictreonaic cumhachta agus táirgí cumhachta, a bhfuil baint iomlán aige le forbairt inverters gréine， trasfhoirmeoirí, rialtóirí voltais, caibinéid dáileacháin, thyristors， modúil， dé-óid， téitheoirí, agus gléasanna leictreonacha nó leathsheoltóirí eile. Beimid tiomanta d'ardchaighdeán a sholáthar d'úsáideoirí, táirgí éifeachtacha agus seirbhís tuisceanach.

Glacann sé le híocaíocht trí Chárta Creidmheasa, T/T, Aontas Iarthar, agus Paypal. Seolfaidh PDDN na hearraí chuig custaiméirí thar lear trí FedEx, DHL, cois farraige, nó d'aer. If you want high-quality 1310&1550nm Laser Diode Module, seol fiosrúcháin chugainn le do thoil; beidh muid anseo chun cabhrú leat.

Modhanna Íocaíochta

L/C, T/T, Aontas Iarthar, Paypal, Cárta Creidmheasa etc.

Loingsiú

Ar muir, ag aer, trí chur in iúl, de réir mar a iarrann custaiméirí.

Coinníollacha Stórála

1) Stóráil i dtimpeallacht thirim ag teocht an tseomra.

2) Seachain taise agus teocht ard.

3) Bain úsáid as díreach tar éis an mála pacála istigh a oscailt.

5 FAQs of 1310&1550nm Laser Diode Module

Here are key questions about our 1310nm and 1550nm laser diode modules:

What are these wavelengths used for?
1310nm light works well for medium-distance fiber optic links. 1550nm light travels much farther in fiber with less signal loss. This makes 1550nm ideal for long-haul telecom networks and cable TV distribution. Both are core wavelengths in optical communications.

What power outputs are available?
We offer modules from low power (a few milliwatts) up to higher power options (hundreds of milliwatts). The right power depends on your link length, receiver sensitivity, and required signal margin. We can advise on the best fit.

Is temperature control needed?
Tá, consistent performance requires controlling temperature. Laser wavelength and output power shift significantly with temperature changes. Our modules include thermoelectric coolers (TECs) agus braiteoirí. This ensures stable operation under varying conditions.

What fiber type is compatible?
These modules couple light into standard single-mode fiber (SMF). The core size and numerical aperture of SMF match the laser output beam characteristics best. Using multimode fiber causes severe signal degradation over distance.

Are they eye-safe?
Properly enclosed modules meeting Class 1 Laser Safety standards are safe during normal operation. No special laser safety procedures are needed for users. We design our housings to meet this Class 1 requirement. Always follow the product datasheet safety instructions.

(1310&1550nm Laser Diode Module)