Original Energy Semiconductor 5SGA20H2501 SCR Thyristor TRIAC Phase Control for 6500V Rectifiers for Inverter Applications

Nchịkọta nke Thyristor njikwa usoro

A na-achịkwa usoro thyristor, A na-akpọkarị triac ma ọ bụ SCR (Ihe nrụpụta Silicon na-achịkwa) na ụfọdụ ngwa, bụ ngwaọrụ semiconductor ejiri maka ịchịkwa ọnụọgụ ike ewepụtara na ibu site n'ịgbanwe akụkụ akụkụ nke a na-ahapụ AC waveform ka ọ na-eduzi.. A maara usoro njikwa a dị ka njikwa akụkụ akụkụ ma ọ bụ naanị njikwa oge. A na-eji thyristors njikwa oge eme ihe n'ọtụtụ ebe na ngwa dị iche iche nke chọrọ nhazi nke ọma nke ike eletrik, dị ka ọkụ dimmers, njikwa ọsọ moto, ndị na-ahụ maka okpomọkụ, na ndị ọzọ.

Akụkụ nke njikwa usoro Thyristor

Njikwa akụkụ akụkụ usoro: Na-enye ohere ịhazigharị ebe ntụgharị n'ime ọkara okirikiri ọ bụla nke ụdị ebili mmiri AC, na-eme ka njikwa ziri ezi na nkezi ike ewepụtara na ibu ahụ.

Ịrụ ọrụ dị elu: Na-arụ ọrụ na obere mfu mgbe ọ na-eduzi, na-enye njikwa ike nke ọma.

Ihe omume bidirectional (Triacs): Maka ngwa AC, triacs nwere ike iduzi ugbu a n'akụkụ abụọ ahụ, na-eme ka ha dị mma maka njikwa ọkụ zuru oke nke ibu AC.

Omume Unidirectional (Ndị SCR): Ndị SCR na-eduzi ugbu a n'otu ụzọ naanị ma a na-ejikarị ya maka njikwa ọkara ebili mmiri nke ibu AC ma ọ bụ DC.

Na-akpalite ọnụ ụzọ ámá: Nduzi na-amalite mgbe a na-etinye obere mmiri ọkụ na ọnụ ụzọ ámá, na-enye ohere maka njikwa dị mfe nke ntụgharị ntụgharị.

Latching Ugbu a: Ozugbo kpaliri, thyristor na-aga n'ihu na-eduzi ruo mgbe nke ugbu a site na ya daa n'okpuru ọkwa ụfọdụ a na-akpọ njide nke ugbu a.

Mmetụta okpomọkụ: Enwere ike imetụta arụmọrụ site na mgbanwe okpomọkụ, na-achọ echiche njikwa thermal na imewe.

Voltaji na ọkwa dị ugbu a: Dị n'ụdị voltaji na ọkwa dị ugbu a iji kwado mkpa ngwa dị iche iche.

Ọgbọ mkpọtụ: Nwere ike ịmepụta nnyonye anya electromagnetic (EMI), na-achọ nzacha na nchekwa kwesịrị ekwesị na ngwa nwere mmetụta.

Usoro nchekwa: Ọtụtụ mgbe na-agụnye nchedo arụnyere n'ime ya megide oke voltaji na ọnọdụ nfefe iji chekwaa ngwaọrụ na sistemu ejikọrọ.

(Original Energy Semiconductor 5SGA20H2501 SCR Thyristor TRIAC Phase Control for 6500V Rectifiers for Inverter Applications)

Specification of Original Energy Semiconductor 5SGA20H2501 SCR Thyristor TRIAC Phase Control for 6500V Rectifiers for Inverter Applications

The Original Power Semiconductor 5SGA20H2501 is a high-power SCR thyristor made for phase control in demanding industrial applications, specifically 6500V rectifiers made use of in inverter systems. This robust element makes certain specific power policy, reliable changing, and reliable performance in high-voltage settings. Its advanced design satisfies sectors requiring stable and efficient power conversion, such as renewable resource, industrial electric motor drives, and heavy-duty electrical framework.

** Key Specs: **.
– ** Ogo voltaji: ** The thyristor includes a repetitive optimal reverse voltage (Vrrm) and ahead blocking voltage (Vdrm) of 6500V, making certain toughness in high-voltage rectifier circuits.
– ** Existing Handling: ** With a typical forward existing (IT( OF)) of 2000A and a rise existing (ITSMM) ability of as much as 20kA, it sustains heavy-load procedures and short-term overloads.
– ** Gateway Trigger Parameters: ** An entrance trigger present (Igt) of 200mA and gateway trigger voltage (Vgt) of 3V allow efficient control with very little drive circuit complexity.
– ** Thermal Efficiency: ** Junction-to-case thermal resistance (Rthjc) bụ 0.05 Celsius C/W, paired with an optimum operating junction temperature level of 125 Celsius C, ensuring warmth dissipation in high-power scenarios.
– ** Plan: ** Housed in a press-pack module, it supplies mechanical stability and smooth assimilation right into cooling systems for optimal thermal management.
– ** Compliance: ** Fulfills global criteria, consisting of IEC, UL, and RoHS, making certain safety and security and ecological compatibility.

** Ngwa: **.
Suitable for 6500V rectifiers in inverter-based systems, this thyristor is matched for commercial motor control, electrical automobile charging stations, ndị na-agbanwe ume ọhụrụ (wind/solar), and high-voltage DC transmission. Its stage control capacity enables accurate change of power output, boosting efficiency in variable-load environments.

** Perks: **.
The 5SGA20H2501 masters dependability under severe electric and thermal anxiety, using low conduction losses and rapid changing. Its tough building and construction guarantees longevity in harsh conditions, reducing maintenance prices. By making it possible for accurate power modulation, it improves power effectiveness and system responsiveness, making it a crucial part for contemporary high-voltage power electronic devices.

Engineered for efficiency and longevity, this SCR thyristor is a keystone modern technology for sectors prioritizing effectiveness, scalability, and operational security in high-power inverter and rectifier applications.

(Original Energy Semiconductor 5SGA20H2501 SCR Thyristor TRIAC Phase Control for 6500V Rectifiers for Inverter Applications)

Applications of Original Energy Semiconductor 5SGA20H2501 SCR Thyristor TRIAC Phase Control for 6500V Rectifiers for Inverter Applications

The Original Power Semiconductor 5SGA20H2501 is a high-voltage SCR (Silicon-Controlled Rectifier) and TRIAC (Triode for Alternating Current) thyristor designed for stage control in demanding 6500V rectifier systems, especially within inverter applications. Engineered for accuracy and toughness, this element masters atmospheres calling for durable power administration, reliable energy conversion, and trustworthy performance under severe electrical and thermal tension. Its 6500V obstructing voltage capability makes it perfect for high-power commercial and commercial systems where voltage security and control are essential.

** Key Applications **.
The 5SGA20H2501 is widely made use of in inverter-based systems that transform DC power to adjustable a/c output, such as electric motor drives for hefty machinery, ndị inverters ume ọhụrụ (anyanwụ/ifufe), and high-voltage DC (HVDC) transmission infrastructure. In rectifier circuits, it allows precise phase-angle control to regulate result voltage and present, making certain smooth power shipment to downstream inverters. This is vital for applications like electric automobile billing stations, traction systems in railways, and grid-tied energy storage services. Its ability to deal with high surge currents and reverse voltage stopping also makes it appropriate for arc furnaces, ngwá ọrụ ịgbado ọkụ, and uninterruptible power products (UPS).

** Technical Advantages **.
With a tough layout maximized for 6500V operation, the 5SGA20H2501 minimizes switching losses and takes full advantage of thermal performance, even in high-frequency changing situations. The gadget sustains specific gate triggering, allowing fine-tuned phase control to maximize power element adjustment and harmonic decrease. Its reduced gateway drive needs streamline control wiring, ibelata mgbagwoju anya usoro. Advanced thermal administration makes sure stable efficiency in extreme temperature levels, prolonging operational lifespan in rough industrial settings.

** Advantages for Inverter Equipments **.
By incorporating this thyristor right into rectifier-inverter arrangements, individuals attain boosted power performance, decreased electromagnetic disturbance (EMI), and boosted system integrity. Its high voltage tolerance and surge strength protect delicate components from transients, while its small design supports space-constrained setups. Whether in clever grids, ulo oru akpaaka, or renewable resource projects, the 5SGA20H2501 provides the precision and longevity required for contemporary high-voltage power conversion, making it a keystone of reliable, scalable inverter applications.

Nkọwapụta Ụlọ ọrụ

Ụgwọ nke ụlọ ọrụ Luoyang Datang Energy Tech Co.,Ltd(sales@pddn.com) bụ otu n'ime ụlọ ọrụ na-eduga na teknụzụ ọkụ eletrik na ngwaahịa ike, nke na-etinye aka n'ụzọ zuru ezu n'ịmepụta ihe ntụgharị anyanwụ， ihe ntụgharị, ndị na-achịkwa voltaji, nkesa kabinet, thyristors， modul， diodes， ndị na-ekpo ọkụ, na ngwaọrụ eletrọnịkị ndị ọzọ ma ọ bụ semiconductors. Anyị ga-agba mbọ ịnye ndị ọrụ oke mma, ngwaahịa na-arụ ọrụ nke ọma na ọrụ nlezianya.

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5 FAQs of Original Energy Semiconductor 5SGA20H2501 SCR Thyristor TRIAC Phase Control for 6500V Rectifiers for Inverter Applications

What is the maximum voltage and current rating of the 5SGA20H2501 SCR Thyristor?
The 5SGA20H2501 is designed for high-voltage applications, with a repetitive peak off-state voltage (VDRM) of 6500V and a maximum average forward current (ITAV) of 20A. It can handle surge currents up to 250A, making it suitable for demanding industrial environments requiring robust voltage and current handling.

What applications is this SCR Thyristor best suited for?
This thyristor is optimized for phase control in high-power rectifiers and inverters, such as those used in industrial motor drives, high-voltage DC (HVDC) power transmission, and heavy-duty power supplies. Its 6500V rating makes it ideal for systems requiring precise AC power regulation in mining, metallurgy, or renewable energy infrastructure.

How does the phase control functionality work in this device?
Phase control is achieved by adjusting the gate trigger timing relative to the AC waveform’s phase. By delaying or advancing the gate pulse, the thyristor regulates the conduction angle, controlling the power delivered to the load. This enables smooth voltage and current modulation for applications like motor speed control or temperature regulation in heating systems.

What thermal management is required for reliable operation?
The device operates efficiently within a junction temperature range of -40°C to 125°C. Proper heatsinking with thermal interface materials is critical to dissipate heat, especially during high-current surges. Forced-air cooling or liquid cooling may be necessary in continuous high-load scenarios to prevent thermal runaway and ensure longevity.

Is the 5SGA20H2501 compliant with industry standards for reliability?
Ee, it meets stringent industrial certifications for surge resilience, voltage endurance, and thermal cycling. The thyristor’s rugged construction ensures resistance to mechanical stress and electrical transients, backed by rigorous testing under IEC and UL standards. Its design prioritizes long-term stability in harsh environments, minimizing downtime in critical applications.

(Original Energy Semiconductor 5SGA20H2501 SCR Thyristor TRIAC Phase Control for 6500V Rectifiers for Inverter Applications)