Phase Control Thyristor N2500VC160 rectifier Thyristor

Isishwankathelo seSigaba soLawulo lwe-Thyristor

A isigaba ulawulo thyristor, edla ngokubizwa ngokuba yi-triac okanye i-SCR (Isilungisi esiLawulwayo seSilicon) kwizicelo ezithile, sisixhobo se-semiconductor esisetyenziselwa ukulawula ubungakanani bamandla anikezelwe kumthwalo ngokulungelelanisa i-angle yesigaba apho i-AC waveform ivunyelwe ukuqhuba.. Le ndlela yolawulo yaziwa ngokuba yi-phase angle control okanye ngokulula ulawulo lwesigaba. I-Phase control thyristors isetyenziswa ngokubanzi kwizicelo ezahlukeneyo ezifuna ukulawulwa okuchanekileyo kwamandla ombane, ezifana nezibane zokukhanyisa, isantya solawulo lwemoto, abalawuli bobushushu, kunye nokuninzi.

Iimpawu zeSigaba soLawulo lwe-Thyristor

Ulawulo lwe-engile yeSigaba: Ivumela uhlengahlengiso lwendawo yokuqhuba ngaphakathi kumjikelo ngamnye wesiqingatha se-AC waveform, ukwenza ulawulo oluchanekileyo kumbane ophakathi onikezelwe kumthwalo.

Ukusebenza okuphezulu: Isebenza ngelahleko encinci xa iqhuba, ukunika ulawulo lwamandla olusebenzayo.

I-Bidirectional Conductivity (Triacs): Ngezicelo ze-AC, iitriacs zinokuqhuba okwangoku kumacala omabini, ukubenza bafaneleke kulawulo olupheleleyo lwe-AC.

Unidirectional Conductivity (SCRs): Ii-SCRs ziqhuba ngoku kwicala elinye kuphela kwaye ziqhele ukusetyenziswa kulawulo lwamaza ohafu we-AC okanye i-DC.

Ukuqalisa iSango: Ukuqhuba kuqala xa umbane omncinci usetyenziswa kwi-terminal yesango, ivumela ulawulo olulula lwendawo yokuvula.

UkuLatching Ngoku: Xa sele iqalile, i-thyristor iyaqhubeka iqhuba de i-current through it iwela ngaphantsi kwenqanaba elithile elibizwa ngokuba yi-hold current.

Uvakalelo lobushushu: Ukusebenza kunokuchaphazeleka kutshintsho lobushushu, ifuna ingqwalasela yolawulo lwe-thermal kuyilo.

I-Voltage kunye neeReyithingi zangoku: Ifumaneka kuluhlu olubanzi lwamandla ombane kunye neereyithingi zangoku ukuze zihambelane neemfuno ezahlukeneyo zosetyenziso.

Isizukulwana Sengxolo: Inokwenza uphazamiseko lwe-electromagnetic (EMI), ifuna ukuhluzwa okufanelekileyo kunye nokukhuselwa kwizicelo ezinovakalelo.

IiNdlela zoKhuselo: Ihlala ibandakanya ukhuseleko olwakhelwe ngaphakathi ngokuchasene nokugqithiswa kwamandla kunye neemeko ezigqithisiweyo ukukhusela isixhobo kunye neenkqubo eziqhagamshelweyo.

(Phase Control Thyristor N2500VC160 rectifier Thyristor)

Specification of Phase Control Thyristor N2500VC160 rectifier Thyristor

The Phase Control Thyristor N2500VC160 is a high-power rectifier component developed for commercial applications requiring specific voltage and existing policy. It operates successfully in systems requiring controlled power conversion. The thyristor takes care of ahead voltages up to 1600V and conducts continual currents of 2500A. Its layout sustains rise currents up to 30kA, making sure integrity under sudden load spikes.

The gadget uses a pressure-contact structure for low thermal resistance. This style improves warm dissipation during high-power procedures. A ceramic housing offers electric insulation and mechanical security. The thyristor’s gate triggering needs minimal energy, streamlining control circuit assimilation.

Izicelo ziquka iimoto zokuqhuba, metallurgical power products, and high-voltage straight present (HVDC) usulelo. It operates in environments with extreme temperature level variations. The thyristor preserves performance in temperatures from -40 °C ukuya 125 °C. Its rugged building resists vibration and mechanical stress and anxiety typical in heavy equipment.

The N2500VC160 includes a symmetrical voltage obstructing capacity. This allows bidirectional defense versus voltage surges. The low on-state voltage drop minimizes power loss throughout conduction. Performance stays high also under maximum tons problems.

Placing the thyristor needs a clamping force of 30-50kN to make certain proper get in touch with. Cooling systems like water or required air are essential for sustained high-current operations. The device complies with international criteria for electric safety and security and ecological durability.

Examining includes high-potential seclusion checks and thermal biking evaluations. These verify long-term stability in recurring switching circumstances. The thyristor’s recovery time is enhanced to lessen changing losses throughout turn-off stages.

Standard product packaging includes anti-static products to stop damage throughout handling. Storage guidelines suggest controlled moisture degrees below 60% to maintain incurable integrity. The product is compatible with typical thyristor components for easy substitute in existing systems.

Custom configurations are offered for specialized voltage or present demands. Technical support covers thermal monitoring optimization and failure evaluation. The N2500VC160 matches both new setups and upgrades to aging power control systems.

Manufacturing complies with strict high quality protocols to make sure set consistency. Each unit undergoes private performance validation before shipment. The thyristor’s design focuses on individual security, with secure devices to prevent unchecked transmission. Documentation includes thorough datasheets with derating curves for different operating conditions.

(Phase Control Thyristor N2500VC160 rectifier Thyristor)

Applications of Phase Control Thyristor N2500VC160 rectifier Thyristor

The Stage Control Thyristor N2500VC160 rectifier thyristor is a high-performance element created for reliable power monitoring in commercial and business systems. It handles high voltage and current degrees, making it optimal for applications needing precise control over electric power.

This thyristor is typically made use of in industrial electric motor rate control systems. It changes motor rates by regulating the power provided to the electric motor windings. This makes certain smooth operation in equipment like conveyor belts, iimpompo, kunye necompressors. Manufacturing facilities count on this innovation to preserve productivity while reducing power waste.

One more crucial application is in power correction systems. The N2500VC160 transforms alternating current (AC) to guide existing (DC) with minimal losses. This is important for sectors utilizing heavy equipment dependent on steady DC power. Its durable layout sustains constant operation under demanding conditions.

The component is likewise effective in voltage guideline for renewable energy setups. Solar farms and wind generators utilize it to maintain power output before feeding it into the grid. Changes in power generation are managed successfully, ensuring regular supply to finish users.

Electrochemical procedures like electroplating and metal refining gain from the thyristor’s precision. It keeps specific present levels needed for uniform coating or removal. This enhances product top quality and minimizes product waste.

In heating systems, the N2500VC160 controls temperature level by adjusting power input to resisting lots. Furnaces, commercial ovens, and induction heating units accomplish accurate thermal management. This prevents getting too hot and prolongs devices life expectancy.

Electric lorry billing terminals use this thyristor to take care of high-power charging cycles. It stabilizes lots circulation throughout numerous battery chargers, staying clear of grid overload. Fast-charging capacities are maximized without endangering security.

The thyristor’s sturdiness makes it appropriate for harsh atmospheres. It runs accurately in severe temperature levels and high moisture. Upkeep costs are reduced because of its lengthy service life.

Compatibility with modern-day control systems is an essential advantage. The N2500VC160 incorporates effortlessly with electronic interfaces for real-time surveillance. Operators change parameters from another location, improving operational versatility.

Industries prioritize this thyristor for its mix of efficiency and integrity. It deals with obstacles in power control across diverse fields, supporting both performance and sustainability objectives.

Iprofayile yekhampani

I-PDDN Photoelectron Technology Co., Ltd.(sales@pddn.com) lelinye lamashishini aphambili kubuchwepheshe bombane kunye neemveliso zamandla, ebandakanyeka ngokupheleleyo ekuphuhliseni ii-inverters zelanga， iinguqu, izilawuli zombane, iikhabhathi zokuhambisa, thyristors， iimodyuli， iidiode， izifudumezi, kunye nezinye izixhobo zombane okanye iisemiconductors. Siya kuzibophelela ekunikeni abasebenzisi umgangatho ophezulu, iimveliso ezisebenzayo kunye nenkonzo enenkathalo.

Iyayamkela intlawulo ngekhadi letyala, T/T, Umanyano lwaseNtshona, kunye nePaypal. I-PDDN iya kuthumela iimpahla kubathengi phesheya ngokusebenzisa i-FedEx, DHL, ngolwandle, okanye ngomoya. If you want high-quality Phase Control Thyristor N2500VC160 rectifier Thyristor, nceda usithumelele imibuzo; siza kube silapha ukuze sikuncede.

Iindlela zokuhlawula

L/C, T/T, uwestern Union, I-Paypal, Ikhadi letyala njl.

Ukuthunyelwa ngenqanawa

Ngaselwandle, ngomoya, nge-express, njengoko abathengi becela.

Iimeko zokuGcina

1) Gcina kwindawo eyomileyo kwiqondo lokushisa.

2) Kuphephe ukufuma kunye nobushushu obuphezulu.

3) Sebenzisa ngokukhawuleza emva kokuvula isikhwama sokupakisha sangaphakathi.

5 FAQs of Phase Control Thyristor N2500VC160 rectifier Thyristor

What is the Phase Control Thyristor N2500VC160 used for? This thyristor controls power flow in industrial systems. It adjusts voltage and current in high-power equipment like motor drives, rectifiers, or heating systems. It switches AC power on or off. It converts AC to DC in heavy machinery.

What are the key features of the N2500VC160? It handles high voltage up to 1600V. It supports large currents up to 2500A. It works reliably in tough environments. Its design ensures low thermal resistance. This helps manage heat during operation. It has a robust structure for long-term use.

How does the N2500VC160 handle high voltage and current? Advanced materials reduce energy loss. Its structure spreads heat evenly. External heat sinks or cooling systems help. Proper mounting ensures good contact with cooling parts. Follow voltage and current limits. This prevents overheating or damage.

How to install the N2500VC160 correctly? Mount it tightly on a heat sink. Use the right torque for terminal screws. Check wiring connections are secure. Avoid bending or stressing the terminals. Test insulation before powering up. Keep static away during handling. Get a professional to install it if unsure.

How to prevent the N2500VC160 from failing? Do not exceed voltage or current ratings. Ensure cooling systems work properly. Clean dust or debris from the device. Check connections stay tight over time. Monitor voltage spikes or sudden load changes. Replace it if signs of wear appear. Fix issues quickly to avoid bigger problems.

(Phase Control Thyristor N2500VC160 rectifier Thyristor)