Dadi ne karamin daɗi a cikin daɗi na gargajiya da daɗi na ita ce?

Yanayin daidaita da yanayin digital suna haɗa da kullum a cikin abin da suka, kusa, da kuma tushen. Fahimtatawa akan hakan ya kunshi yadda aka iya bayarza wani abu mai daidaito ko digital ta shi ne da kyau don tushen masana'antar. A nan ana bayyana farkon da suka daga yanayin daidaita da yanayin digital, tare da mafi girman da suka da kuma tushen da ke tsakanin su:

Yanayin Daidaita

Abubuwan da suka:

• Girman Yanayi: Yana neman da muhimmanci a cikin abubuwan girmansu kamar yanayin mekaniki, relays, da fuses don samun kontrol da kuma tushen.

• Amfani da Lafiya: Akwai abubuwan da ke bukatar lafiyar mutane, kamar amfani da lafiya don kammala, kofa, da kuma sautin set.

• Soyayya da Mafahimta: Girman daidaita na biyo da za a iya fahimta da kuma jin daidaita.

• Kudin Kadan: Tana da kudin kadan da yake da ita da kudin kadan da yake da ita.

• Tushen da Kullum: Tana da tushen da kullum da ba su kaɗa zama.

Mafi girman da suka:

• Amincewa: An yi tasiri a lokacin daidaita, kuma abubuwan girmansu na biyo da za a iya amfani da su a cikin lokaci.

• Kudin Kadan: Zan iya amfani da ita a cikin masana'anta da kudin kadan da yake da ita.

Tushen da ke tsakanin su:

• Masana'antar Daɓe: Yana daidaita a cikin masana'antar da dabba da abubuwan girmansu da suka.

• Nau'o'in Daƙe: Yana daidaita a cikin nau'o'in da ba su kaɗa zama da amfani da lafiya da kuma tushen da ke tsakanin su.

Yanayin Digital

Abubuwan da suka:

• Kontrol na Ilimi: Yana amfani da mikroprosesori da teknologi na ilimi don samun kontrol da kuma tushen da suka.

• Amfani da Lafiya: Yana amfani da lafiyar mutane, kamar amfani da lafiya don kammala, kofa, da kuma baka da nasarorin.

• Tushen da Kullum: Yana da tushen da kullum, data logging, da kuma tushen da ke tsakanin su don tabbatar da kuma tsaftace masu shawarwari.

• Tushen da Kullum: Yana da tushen da kullum, data logging, da kuma tushen da ke tsakanin su don tabbatar da kuma tsaftace masu shawarwari.

• Flexibility and Scalability: Easily integrates new functions and modules to adapt to future needs.

• Data Management: Can generate detailed reports and analytical data to optimize system performance.

Advantages:

• High Efficiency: High level of automation reduces labor costs and improves operational efficiency.

• Reliability: Advanced monitoring and diagnostic functions can predict potential faults early, enhancing system reliability.

• Flexibility: Capable of handling complex power systems and supporting various protection and control strategies.

• Future-Ready: Supports IoT and Industry 4.0 technologies, preparing for future intelligent development.

Application Scenarios:

• Large Factories and Industrial Facilities: Suitable for large factories and industrial facilities with complex power requirements and the need for high automation and remote monitoring.

• Critical Infrastructure: Ideal for critical infrastructure with high reliability requirements, such as data centers, hospitals, and transportation hubs.

• Distributed Energy Systems: Appropriate for power systems that include renewable energy and distributed generation.

Conclusion

• Traditional Switchgear is better suited for small, simple, and budget-limited industrial projects that do not require high levels of automation and remote monitoring.

• Digital Switchgear is more appropriate for large, complex industrial projects with high demands for reliability, efficiency, and future scalability. The intelligence and remote management capabilities of digital switchgear make it the preferred choice for modern industry.

Therefore, the selection of either type of switchgear should be based on specific industrial needs, budget, and technical requirements.