{"id":31849,"date":"2025-05-14T11:16:43","date_gmt":"2025-05-14T03:16:43","guid":{"rendered":"https:\/\/www.tstcables.com\/o-inovador-fio-eletromagnetico-extrudado-pi-de-cobre-plano-da-tst-cables-esmaga-o-tipo-enrolado-tradicional\/"},"modified":"2025-05-16T16:03:13","modified_gmt":"2025-05-16T08:03:13","slug":"o-inovador-fio-eletromagnetico-extrudado-pi-de-cobre-plano-da-tst-cables-esmaga-o-tipo-enrolado-tradicional","status":"publish","type":"post","link":"https:\/\/www.tstcables.com\/pt-br\/o-inovador-fio-eletromagnetico-extrudado-pi-de-cobre-plano-da-tst-cables-esmaga-o-tipo-enrolado-tradicional\/","title":{"rendered":"O inovador fio eletromagn\u00e9tico extrudado PI de cobre plano da TST Cables esmaga o tipo enrolado tradicional"},"content":{"rendered":"\n

No sistema “cora\u00e7\u00e3o” dos equipamentos el\u00e9tricos modernos, o fio de cobre isolado com poliimida (PI) \u00e9 como um “vaso sangu\u00edneo”, respons\u00e1vel pela transmiss\u00e3o de energia e sinais, e seu desempenho afeta diretamente a qualidade e a efici\u00eancia dos equipamentos el\u00e9tricos. O fio de cobre PI enrolado tradicional possui excelente resist\u00eancia a altas temperaturas, isolamento el\u00e9trico e outras propriedades, mas ainda apresenta muitos problemas, como altos custos de uso e manuten\u00e7\u00e3o, baixa resist\u00eancia ao desgaste e aplica\u00e7\u00e3o limitada em certos cen\u00e1rios espec\u00edficos.Diante das defici\u00eancias do fio de cobre PI enrolado tradicional, a TST Cables explora profundamente as potenciais vantagens da poliimida, um material polim\u00e9rico de alto desempenho, e utiliza um processo de fabrica\u00e7\u00e3o completamente diferente para maximizar seu desempenho. O inovador fio de cobre plano isolado com poliimida extrudada pode ser considerado o rei da rela\u00e7\u00e3o custo-benef\u00edcio na ind\u00fastria de fios eletromagn\u00e9ticos, superando o fio de cobre PI enrolado tradicional em todos os aspectos. Hoje, a TST CABLES explicar\u00e1 em detalhes: <\/p>\n\n

Fio plano de cobre PI extrudado da TST CABLESEfici\u00eancia de produ\u00e7\u00e3o e alta resist\u00eancia \u00e0 compress\u00e3oExtrus\u00e3o por fus\u00e3o: O fio plano de cobre PI extrudado consiste na fus\u00e3o da resina PI em alta temperatura e no revestimento direto do condutor de cobre por meio de uma extrusora de parafuso, formando uma estrutura densa em n\u00edvel molecular.Sem estratifica\u00e7\u00e3o na interface: A camada de isolamento e o condutor s\u00e3o combinados perfeitamente para eliminar o microespa\u00e7o de ar causado pela liga\u00e7\u00e3o entre camadas no tipo de enrolamento (o espa\u00e7o de ar \u00e9 propenso a causar descarga parcial).Efici\u00eancia de produ\u00e7\u00e3o: O modo de produ\u00e7\u00e3o cont\u00ednua totalmente automatizado \u00e9 adotado, e a velocidade de produ\u00e7\u00e3o pode atingir 10-50 m\/min. Isso permite a produ\u00e7\u00e3o em massa de alta qualidade em larga escala. <\/p>\n\n

Fio de cobre PI com enrolamento tradicionalEmpilhamento de filme: O filme PI \u00e9 enrolado na superf\u00edcie do condutor em m\u00faltiplas camadas e a colagem \u00e9 feita por sinteriza\u00e7\u00e3o em alta temperatura (300\u00b0C+).Risco de interface: A for\u00e7a de colagem entre camadas \u00e9 fraca, a toler\u00e2ncia de empilhamento \u00e9 grande (\u00b10,05 mm) e a estratifica\u00e7\u00e3o ou res\u00edduos vol\u00e1teis s\u00e3o propensos a ocorrer em altas temperaturas.Efici\u00eancia de produ\u00e7\u00e3o: Durante o processo de produ\u00e7\u00e3o do fio de cobre PI enrolado, s\u00e3o necess\u00e1rias a substitui\u00e7\u00e3o manual da bobina e o ajuste da taxa de sobreposi\u00e7\u00e3o, e a velocidade de produ\u00e7\u00e3o \u00e9 de cerca de 10-15 m\/min. A efici\u00eancia da produ\u00e7\u00e3o e a qualidade do produto s\u00e3o amplamente afetadas por fatores humanos. <\/p>\n\n

\"\"<\/figure>\n\n

O fio plano de cobre PI extrudado da TST CABLES tem desempenho l\u00edder em todos os aspectos<\/p>\n\n

Isolamento ultrafino e alta densidade de pot\u00eanciaA espessura da camada de isolamento do fio de cobre PI extrudado pode ser de 0,08 mm ou menos, enquanto a espessura m\u00ednima do tipo enrolado \u00e9 de 0,20 mm. Sob a mesma \u00e1rea de se\u00e7\u00e3o transversal, a rela\u00e7\u00e3o condutora do fio de cobre PI extrudado aumenta em 30%-40%, melhorando significativamente a densidade de pot\u00eancia do motor, reduzindo a resist\u00eancia e o aumento de temperatura. Al\u00e9m disso, suas caracter\u00edsticas de baixa perda diel\u00e9trica (tan\u03b4 < 0,02%) podem reduzir efetivamente as perdas de alta frequ\u00eancia e se adaptar a sistemas de alta tens\u00e3o de 800 V. <\/p>\n\n

Desempenho mais est\u00e1velA estrutura de isolamento uniforme e densa permite que o fio de cobre extrudado PI tenha um bom desempenho em ambientes de alta frequ\u00eancia, alta tens\u00e3o ou alta vibra\u00e7\u00e3o. Essa estrutura reduz significativamente o risco de descarga parcial e garante a estabilidade do desempenho el\u00e9trico. Seja dentro de um motor de alta velocidade ou em um ambiente com forte interfer\u00eancia eletromagn\u00e9tica, o fio de cobre extrudado PI pode transmitir energia e sinais de forma confi\u00e1vel. <\/p>\n\n

Resist\u00eancia ao Corona e ao EnvelhecimentoAo incorporar cargas em nanoescala (como Al\u2082O\u2083, SiO\u2082) na matriz de PI, o valor de PDIV (tens\u00e3o de inicia\u00e7\u00e3o de corona) do fio de cobre PI extrudado chega a 1500 V ou mais, e a vida \u00fatil da resist\u00eancia ao corona excede 1000 horas, enquanto o tipo enrolado \u00e9 geralmente inferior a 500 horas. Sua estrutura cont\u00ednua sem furos pode permanecer est\u00e1vel em altas temperaturas (380 \u2103), e a taxa de atenua\u00e7\u00e3o de PDIV \u00e9 inferior a 5%, enquanto a atenua\u00e7\u00e3o do tipo enrolado ap\u00f3s envelhecimento em alta temperatura \u00e9 superior a 20%. Em contraste, o fio de cobre PI extrudado pode trabalhar por um longo tempo, sob altas cargas e com alta estabilidade. <\/p>\n\n

Alta resist\u00eancia \u00e0 compress\u00e3oA camada isolante do fio de cobre PI extrudado \u00e9 densa e sem espa\u00e7os de ar, o que torna sua tens\u00e3o de ruptura cerca de 15 a 25% maior do que a do tipo enrolado. Essa alta resist\u00eancia \u00e0 compress\u00e3o o torna particularmente adequado para uso em inversores de alta tens\u00e3o, motores de tra\u00e7\u00e3o ferrovi\u00e1ria de alta velocidade e outros cen\u00e1rios com requisitos de press\u00e3o extremamente altos, garantindo efetivamente a opera\u00e7\u00e3o segura do equipamento. <\/p>\n\n

Confiabilidade mec\u00e2nicaA resist\u00eancia \u00e0 tra\u00e7\u00e3o do fio de cobre PI extrudado \u00e9 superior a 350 MPa, enquanto a do tipo enrolado \u00e9 de cerca de 200 MPa. Ap\u00f3s sofrer um estiramento de 25%, o fio de cobre PI extrudado n\u00e3o trinca e se adapta bem ao ambiente de vibra\u00e7\u00e3o de alta frequ\u00eancia do motor. Al\u00e9m disso, seu raio de curvatura pode atingir 3 vezes o tamanho do condutor, enquanto o tipo enrolado geralmente requer mais de 6 vezes, o que torna o fio de cobre PI extrudado mais adequado para enrolamentos de motores compactos, atendendo \u00e0s necessidades de desenvolvimento de miniaturiza\u00e7\u00e3o e redu\u00e7\u00e3o de peso dos equipamentos el\u00e9tricos modernos. <\/p>\n\n

Melhor ades\u00e3o do isolamentoA camada isolante formada sob maior press\u00e3o confere ao fio de cobre PI extrudado uma liga\u00e7\u00e3o firme. Mesmo quando torcido ou dobrado, produz grande deforma\u00e7\u00e3o, seu desempenho de isolamento n\u00e3o ser\u00e1 afetado. Essa excelente ades\u00e3o do isolamento garante que o fio de cobre ainda possa manter um bom desempenho de isolamento em um ambiente de estresse mec\u00e2nico complexo. <\/p>\n\n

Superf\u00edcie lisa e resistente a arranh\u00f5esA densidade da camada isolante do fio de cobre PI extrudado \u00e9 maior, a superf\u00edcie \u00e9 mais lisa e a resist\u00eancia a arranh\u00f5es e impactos \u00e9 aumentada em 30-50%. Essa caracter\u00edstica permite que ele resista eficazmente ao atrito externo e ao impacto em ambientes de vibra\u00e7\u00e3o, como autom\u00f3veis, ferrovias de alta velocidade e aeroespacial, prolongando sua vida \u00fatil. <\/p>\n\n

Ampla adaptabilidade \u00e0 faixa de temperaturaA faixa de temperatura operacional do fio de cobre PI extrudado \u00e9 de -269\u00b0C a 380\u00b0C, enquanto a do tipo enrolado \u00e9, em sua maioria, de -250\u00b0C a 260\u00b0C. Essa ampla adaptabilidade \u00e0 faixa de temperatura permite que o fio de cobre PI extrudado atenda \u00e0s necessidades de \u00e1reas espec\u00edficas, como equipamentos de refrigera\u00e7\u00e3o de ultrabaixa temperatura aeroespacial. <\/p>\n\n

Melhor adaptabilidade ambientalA densa estrutura da camada isolante permite que o fio de cobre PI extrudado resista com maior efic\u00e1cia \u00e0 polui\u00e7\u00e3o por \u00f3leo e \u00e0 corros\u00e3o \u00e1cida e alcalina. Em ambientes agressivos, como produtos qu\u00edmicos e navios, sua vida \u00fatil pode ser estendida em cerca de 20%. Al\u00e9m disso, como n\u00e3o h\u00e1 volatiliza\u00e7\u00e3o de res\u00edduos entre as camadas de envolt\u00f3rio, ele tamb\u00e9m \u00e9 adequado para ocasi\u00f5es com requisitos extremamente elevados de limpeza ambiental, como fabrica\u00e7\u00e3o de semicondutores e ambientes de v\u00e1cuo em naves espaciais. <\/p>\n\n

Limpo e ecol\u00f3gicoO fio de cobre PI extrudado \u00e9 feito de um \u00fanico material e de alta pureza. Nenhuma outra subst\u00e2ncia nociva \u00e9 produzida no processo de produ\u00e7\u00e3o ou no cen\u00e1rio de uso, sendo altamente ecol\u00f3gico. No entanto, devido \u00e0 presen\u00e7a de materiais de camada adesiva, o tipo enrolado n\u00e3o atende aos requisitos de uso em algumas ocasi\u00f5es especiais com rigorosos requisitos de prote\u00e7\u00e3o ambiental. <\/p>\n\n

A diferen\u00e7a entre “vencedores e perdedores” em cen\u00e1rios de aplica\u00e7\u00e3o de pontaVe\u00edculos de nova energia: o “cora\u00e7\u00e3o” dos sistemas de alta tens\u00e3o de 800 VNo campo de ve\u00edculos de nova energia, com a populariza\u00e7\u00e3o gradual dos sistemas de alta tens\u00e3o de 800 V, o fio de cobre PI extrudado tornou-se o material preferido para motores de acionamento de alta tens\u00e3o de 800 V. Ele pode atender \u00e0s necessidades de alta tens\u00e3o de pulso (1500 V) e espa\u00e7o compacto, proporcionando uma forte garantia para a opera\u00e7\u00e3o eficiente de ve\u00edculos de nova energia. O fio de cobre PI enrolado \u00e9 adequado apenas para motores de baixa pot\u00eancia ou como solu\u00e7\u00e3o de backup e est\u00e1 gradualmente sendo marginalizado em aplica\u00e7\u00f5es convencionais.(>1500V) <\/p>\n\n

Aeroespacial: “Especialista em Sobreviv\u00eancia” em Ambientes Extremos<\/p>\n\n

Os requisitos de desempenho dos materiais na \u00e1rea aeroespacial s\u00e3o extremamente exigentes. O isolamento ultrafino e a resist\u00eancia \u00e0 radia\u00e7\u00e3o do fio de cobre PI extrudado o tornam insubstitu\u00edvel nessa \u00e1rea. Ele pode se adaptar ao ambiente de h\u00e9lio l\u00edquido de -269\u00b0C e atender aos requisitos de opera\u00e7\u00e3o de equipamentos aeroespaciais em condi\u00e7\u00f5es extremas. O fio de cobre PI enrolado \u00e9 usado principalmente em circuitos auxiliares que exigem prote\u00e7\u00e3o multicamadas e executa tarefas relativamente pequenas. <\/p>\n\n

Inversor industrial: “rei da durabilidade” em alta frequ\u00eancia<\/p>\n\n

Em inversores industriais, o fio de cobre PI extrudado apresenta resist\u00eancia \u00e0 corona est\u00e1vel sob acionamento IGBT de alta frequ\u00eancia, o que pode reduzir significativamente os custos de opera\u00e7\u00e3o e manuten\u00e7\u00e3o. O fio de cobre PI enrolado \u00e9 mais adequado para cen\u00e1rios de sobrecarga de curto prazo, mas apresenta uma certa lacuna em compara\u00e7\u00e3o com o fio de cobre PI extrudado em termos de opera\u00e7\u00e3o est\u00e1vel a longo prazo. <\/p>\n\n

Transformador especial: “jogador completo” em ambientes extremos<\/p>\n\n

Para transformadores especiais, o fio de cobre PI extrudado atinge alta densidade de pot\u00eancia com seu isolamento ultrafino e pode se adaptar a ambientes extremos, como navios e plat\u00f4s. O fio de cobre PI enrolado \u00e9 adequado apenas para enrolamentos convencionais de transformadores imersos em \u00f3leo, sendo dif\u00edcil atender \u00e0s necessidades em cen\u00e1rios de aplica\u00e7\u00f5es especiais. <\/p>\n\n

Compara\u00e7\u00e3o de custos com valor de longo prazo<\/p>\n\n

Valor Econ\u00f4micoO custo inicial do tipo extrudado \u00e9 apenas 20% a 30% maior que o do tipo enrolado, mas sua vida \u00fatil \u00e9 de 2 a 5 anos maior que a do tipo enrolado. O tipo enrolado necessita de inspe\u00e7\u00e3o regular e substitui\u00e7\u00e3o parcial durante sua vida \u00fatil, enquanto o tipo extrudado n\u00e3o necessita de manuten\u00e7\u00e3o por 10 anos. Durante a vida \u00fatil do fio eletromagn\u00e9tico, o custo m\u00e9dio do tipo extrudado \u00e9 muito menor que o do tipo enrolado. <\/p>\n\n

Benef\u00edcios ecol\u00f3gicosEm termos de consumo de energia na produ\u00e7\u00e3o, o fio de cobre PI extrudado adota um processo cont\u00ednuo com baixo consumo de energia, sem gases de escape ou descarte de res\u00edduos durante o processo de produ\u00e7\u00e3o, o que permite uma produ\u00e7\u00e3o sustent\u00e1vel e ecologicamente correta. O fio de cobre PI enrolado adota enrolamento intermitente e requer sinteriza\u00e7\u00e3o em alta temperatura, o que acarreta alto consumo de energia. Seu grau de prote\u00e7\u00e3o ambiental tamb\u00e9m depende da composi\u00e7\u00e3o do material da camada adesiva, sendo relativamente desvantajoso em termos de prote\u00e7\u00e3o ambiental.Em resumo, o fio plano de cobre poliimida extrudado apresenta vantagens significativas em termos de isolamento ultrafino, alta confiabilidade e ampla faixa de temperatura. \u00c9 insubstitu\u00edvel no setor de equipamentos de ponta (como ve\u00edculos de nova energia, trens de alta velocidade e aeroespacial) e \u00e9 a principal for\u00e7a motriz para a promo\u00e7\u00e3o da atualiza\u00e7\u00e3o da tecnologia el\u00e9trica. O fio de cobre PI enrolado ocupa uma certa fatia de mercado nos mercados de m\u00e9dio e baixo custo e em cen\u00e1rios especiais de reparo, contando com sua vantagem de custo. Com a crescente popularidade dos sistemas de alta tens\u00e3o de 800 V e dos semicondutores de banda larga, espera-se que a tecnologia de extrus\u00e3o original da TST Cables domine ainda mais o mercado de fios eletromagn\u00e9ticos de alta qualidade e traga novas mudan\u00e7as para o desenvolvimento da ind\u00fastria el\u00e9trica.Se voc\u00ea deseja saber mais sobre o produto inovador da TST Cables, “fio de cobre plano com isolamento de poliamida extrudada”, escaneie o c\u00f3digo QR abaixo e adicione “atendimento oficial ao cliente da TST Cables” para obter informa\u00e7\u00f5es sobre novos produtos e or\u00e7amentos! <\/p>\n","protected":false},"excerpt":{"rendered":"

No sistema “cora\u00e7\u00e3o” dos equipamentos el\u00e9tricos modernos, o fio de cobre isolado com poliimida (PI) \u00e9 como um “vaso sangu\u00edneo”, 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cables chu\u00e0ngx\u012bn j\u01d0 ch\u016b x\u00edng di\u00e0nc\u00ed xi\u00e0n PI bi\u01cen t\u00f3ng xi\u00e0n sh\u00edl\u00ec ni\u01cen y\u0101 chu\u00e1nt\u01d2ng r\u00e0o b\u0101o x\u00edng z\u00e0i xi\u00e0nd\u00e0i di\u00e0nq\u00ec sh\u00e8b\u00e8i de \u201cx\u012bnz\u00e0ng\u201d x\u00ect\u01d2ng zh\u014dng, j\u00f9 xi\u0101n y\u00e0 \u00e0n (PI) ju\u00e9yu\u00e1n t\u00f3ng xi\u00e0n ji\u00f9 r\u00fat\u00f3ng \u201cxi\u011bgu\u01cen\u201d, f\u00f9z\u00e9 chu\u00e1nsh\u016b di\u00e0nl\u00ec h\u00e9 x\u00ecnh\u00e0o, q\u00ed x\u00ecngn\u00e9ng zh\u00edji\u0113 y\u01d0ngxi\u01ceng di\u00e0nq\u00ec sh\u00e8b\u00e8i de p\u01d0nzh\u00ed h\u00e9 sh\u01d0y\u00f2ng xi\u00e0ol\u01dc. Chu\u00e1nt\u01d2ng r\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n y\u01d0j\u012bng j\u00f9b\u00e8i p\u014d w\u00e9i ch\u016bs\u00e8 de n\u00e0i g\u0101ow\u0113n, di\u00e0n ju\u00e9yu\u00e1n d\u011bng x\u00ecngn\u00e9ng, d\u00e0n h\u00e1i c\u00fanz\u00e0i sh\u01d0y\u00f2ng h\u00e9 w\u00e9ih\u00f9 ch\u00e9ngb\u011bn g\u0101o, n\u00e0i m\u00f3 x\u00ecngch\u00e0, m\u01d2u xi\u0113 t\u00e8d\u00ecng ch\u01cengj\u01d0ng y\u00ecngy\u00f2ng sh\u00f2u xi\u00e0n d\u011bng zh\u016bdu\u014d w\u00e8nt\u00ed. Zh\u0113ndu\u00ec chu\u00e1nt\u01d2ng r\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n de b\u00ecb\u00ecng,TST cables sh\u0113nd\u00f9 w\u0101ju\u00e9 j\u00f9 xi\u0101n y\u00e0 \u00e0n zh\u00e8 zh\u01d2ng g\u0101o x\u00ecngn\u00e9ng g\u0101o f\u0113nz\u01d0 c\u00e1ili\u00e0o de qi\u00e1nz\u00e0i y\u014dush\u00ec, sh\u01d0y\u00f2ng ji\u00e9r\u00e1n b\u00f9t\u00f3ng de zh\u00eczu\u00f2 g\u014dngy\u00ec ji\u0101ng q\u00ed x\u00ecngn\u00e9ng f\u0101hu\u012b d\u00e0o j\u00edzh\u00ec, chu\u00e0ngx\u012bn tu\u012bch\u016b de j\u01d0 ch\u016b x\u00edng j\u00f9 xi\u0101n y\u00e0 \u00e0n ju\u00e9yu\u00e1n bi\u01cen t\u00f3ng xi\u00e0n k\u0101n ch\u0113ng di\u00e0nc\u00ed xi\u00e0n ji\u00e8 d\u00ec x\u00ecngji\u00e0b\u01d0 zh\u012b w\u00e1ng, f\u0101ngf\u0101ngmi\u00e0nmi\u00e0n sh\u00edl\u00ec ni\u01cen y\u0101 chu\u00e1nt\u01d2ng r\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n. J\u012bnti\u0101n,TST CABLES l\u00e1i w\u00e9i d\u00e0ji\u0101 xi\u00e1ngx\u00ec ji\u011bd\u00fa\u2014\u2014 TST CABLES j\u01d0 ch\u016b x\u00edng PI t\u00f3ng bi\u01cen xi\u00e0n sh\u0113ngch\u01cen xi\u00e0ol\u01dc h\u00e9 p\u01d0nzh\u00ed de sh\u00edl\u00ec ni\u01cen y\u0101 r\u00f3ngr\u00f3ng j\u01d0 y\u0101: J\u01d0 ch\u016b x\u00edng PI bi\u01cen t\u00f3ng xi\u00e0n sh\u00ec ji\u0101ng PI sh\u00f9zh\u012b t\u014dnggu\u00f2 g\u0101ow\u0113n r\u00f3ngr\u00f3ng h\u00f2u, j\u012bng lu\u00f3g\u0101n j\u01d0 ch\u016b j\u012b zh\u00edji\u0113 b\u0101o f\u00f9 t\u00f3ng d\u01ceot\u01d0, x\u00edngch\u00e9ngf\u00e8n z\u01d0 j\u00ed zh\u00ecm\u00ec ji\u00e9g\u00f2u. W\u00fa ji\u00e8mi\u00e0n f\u0113n c\u00e9ng: Ju\u00e9yu\u00e1n c\u00e9ng y\u01d4 d\u01ceot\u01d0 w\u00fa f\u00e8ng ji\u00e9h\u00e9, xi\u0101och\u00fa r\u00e0o b\u0101o x\u00edng y\u012bn c\u00e9ng ji\u0101n zh\u0101n ji\u0113 d\u01ceozh\u00ec de w\u00e9i q\u00ec x\u00ec (q\u00ec x\u00ec y\u00ec y\u01d0nf\u0101 j\u00fab\u00f9 f\u00e0ngdi\u00e0n). Sh\u0113ngch\u01cen xi\u00e0ol\u01dc: C\u01ceiy\u00f2ng qu\u00e1n z\u00ecd\u00f2nghu\u00e0 li\u00e1nx\u00f9 sh\u0113ngch\u01cen m\u00f3sh\u00ec, sh\u0113ngch\u01cen s\u00f9d\u00f9 k\u011b d\u00e1 10 - 50m\\\/min. N\u00e9ngg\u00f2u sh\u00edxi\u00e0n g\u0101o zh\u00ec li\u00e1ng gu\u012bm\u00f3 li\u00e0ng ch\u01cen. Chu\u00e1nt\u01d2ng r\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n b\u00f3m\u00f3 di\u00e9ji\u0101: Ji\u0101ng PI b\u00f3m\u00f3 du\u014d c\u00e9ng ch\u00e1nr\u00e0o z\u00e0i d\u01ceot\u01d0 bi\u01ceomi\u00e0n, y\u012bl\u00e0i g\u0101ow\u0113n sh\u0101oji\u00e9 (300\u2103+) sh\u01d0 b\u00f3m\u00f3 ni\u00e1n h\u00e9. Ji\u00e8mi\u00e0n f\u0113ngxi\u01cen: C\u00e9ng ji\u0101n ji\u00e9h\u00e9 l\u00ec ru\u00f2, di\u00e9ji\u0101 g\u014dngch\u0101i d\u00e0 (\u00b10.05Mm), g\u0101ow\u0113n xi\u00e0 y\u00ec ch\u016bxi\u00e0n f\u0113n c\u00e9ng hu\u00f2 hu\u012bf\u0101 w\u00f9 c\u00e1nli\u00fa. Sh\u0113ngch\u01cen xi\u00e0ol\u01dc: R\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n z\u00e0i sh\u0113ngch\u01cen gu\u00f2ch\u00e9ng zh\u014dng, x\u016by\u00e0o r\u00e9ng\u014dng j\u00ecnx\u00edng hu\u00e0n p\u00e1n h\u00e9 ti\u00e1ozh\u011bng di\u00e9 b\u0101o l\u01dc, sh\u0113ngch\u01cen s\u00f9d\u00f9 yu\u0113 w\u00e8i 10 - 15m\\\/min. Sh\u0113ngch\u01cen xi\u00e0ol\u01dc h\u00e9 ch\u016bp\u01d0n p\u01d0nzh\u00ed sh\u00f2u r\u00e9nw\u00e9i y\u012bns\u00f9 y\u01d0ngxi\u01ceng ji\u00e0o d\u00e0. TST CABLES j\u01d0 ch\u016b x\u00edng PI t\u00f3ng bi\u01cen xi\u00e0n qu\u00e1n f\u0101ngw\u00e8i d\u00ec x\u00ecngn\u00e9ng l\u01d0ngxi\u0101n ch\u0101o b\u00f3 ju\u00e9yu\u00e1n y\u01d4 g\u0101o g\u014dngl\u01dc m\u00ecd\u00f9 j\u01d0 ch\u016b x\u00edng PI t\u00f3ng xi\u00e0n de ju\u00e9yu\u00e1n c\u00e9ng h\u00f2ud\u00f9 k\u011b zu\u00f2 d\u00e0o 0.08Mm j\u00ed y\u01d0xi\u00e0, \u00e9r r\u00e0o b\u0101o x\u00edng zu\u00ecxi\u01ceo 0.20Mm. Z\u00e0i t\u00f3ngd\u011bng ji\u00e9 mi\u00e0nj\u012b de q\u00edngku\u00e0ng xi\u00e0, j\u01d0 ch\u016b x\u00edng PI t\u00f3ng xi\u00e0n de d\u01ceot\u01d0 zh\u00e0n b\u01d0 t\u00edsh\u0113ng 30% - 40%, xi\u01cenzh\u00f9 t\u00edg\u0101o di\u00e0nj\u012b de g\u014dngl\u01dc m\u00ecd\u00f9, ji\u00e0ngd\u012b di\u00e0nz\u01d4 h\u00e9 w\u0113n sh\u0113ng. C\u01d0w\u00e0i, q\u00ed d\u012b ji\u00e8 s\u01d4n t\u00e8x\u00ecng (tand1500V) h\u00e9 j\u01d0nc\u00f2u k\u014dngji\u0101n de x\u016bqi\u00fa, w\u00e8i x\u012bn n\u00e9ngyu\u00e1n q\u00ecch\u0113 de g\u0101oxi\u00e0o y\u00f9nx\u00edng t\u00edg\u014dngle y\u01d2ul\u00ec b\u01ceozh\u00e0ng. \u00c9r r\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n j\u01d0n sh\u00ecy\u00f2ng y\u00fa d\u012b g\u014dngl\u01dc di\u00e0nj\u012b hu\u00f2 zu\u00f2w\u00e9i b\u00e8iy\u00f2ng f\u0101ng'\u00e0n, z\u00e0i zh\u01d4li\u00fa y\u00ecngy\u00f2ng zh\u014dng zh\u00faji\u00e0n ch\u01d4y\u00fa bi\u0101nyu\u00e1n d\u00ecw\u00e8i. H\u00e1ngk\u014dng h\u00e1ngti\u0101n: J\u00eddu\u0101n hu\u00e1nj\u00ecng de \u201csh\u0113ngc\u00fan zhu\u0101nji\u0101\u201d h\u00e1ngk\u014dng h\u00e1ngti\u0101n l\u01d0ngy\u00f9 du\u00ec c\u00e1ili\u00e0o d\u00ec x\u00ecngn\u00e9ng y\u0101oqi\u00fa j\u00edw\u00e9i k\u0113k\u00e8. J\u01d0 ch\u016b x\u00edng PI t\u00f3ng xi\u00e0n de ch\u0101o b\u00f3 ju\u00e9yu\u00e1n h\u00e9 k\u00e0ng f\u00fash\u00e8 t\u00e8x\u00ecng sh\u01d0 q\u00ed z\u00e0i zh\u00e8 y\u012b l\u01d0ngy\u00f9 w\u00fa k\u011b t\u00ecd\u00e0i, n\u00e9ngg\u00f2u sh\u00ecy\u00ecng -269\u2103y\u00e8 h\u00e0i hu\u00e1nj\u00ecng, m\u01cenz\u00fa h\u00e1ngk\u014dng h\u00e1ngti\u0101n sh\u00e8b\u00e8i z\u00e0i j\u00eddu\u0101n ti\u00e1oji\u00e0n xi\u00e0 de g\u014dngzu\u00f2 x\u016bqi\u00fa. R\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n z\u00e9 zh\u01d4y\u00e0o y\u00ecngy\u00f2ng y\u00fa x\u016by\u00e0o du\u014d c\u00e9ng f\u00e1ngh\u00f9 de f\u01d4zh\u00f9 di\u00e0nl\u00f9 zh\u014dng, ch\u00e9ngd\u0101n xi\u0101ngdu\u00ec c\u00ec y\u00e0o de r\u00e8nw\u00f9. G\u014dngy\u00e8 bi\u00e0np\u00edn q\u00ec: G\u0101o p\u00edn xi\u00e0 de \u201cn\u00e0iji\u01d4 zh\u012b w\u00e1ng\u201d z\u00e0i g\u014dngy\u00e8 bi\u00e0np\u00edn q\u00ec zh\u014dng, j\u01d0 ch\u016b x\u00edng PI t\u00f3ng xi\u00e0n z\u00e0i g\u0101o p\u00edn IGBT q\u016bd\u00f2ng xi\u00e0, n\u00e0i di\u00e0n y\u016bn x\u00ecngn\u00e9ng w\u011bnd\u00ecng, n\u00e9ngg\u00f2u xi\u01cenzh\u00f9 ji\u00e0ngd\u012b y\u00f9n w\u00e9i ch\u00e9ngb\u011bn. R\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n z\u00e9 g\u00e8ng sh\u00ecy\u00f2ng y\u00fa du\u01cen sh\u00ed gu\u00f2z\u01cei ch\u01cengj\u01d0ng, d\u00e0n z\u00e0i ch\u00e1ngq\u00ed w\u011bnd\u00ecng y\u00f9nx\u00edng f\u0101ngmi\u00e0n, y\u01d4 j\u01d0 ch\u016b x\u00edng PI t\u00f3ng xi\u00e0n xi\u0101ng b\u01d0 c\u00fanz\u00e0i y\u012bd\u00ecng ch\u0101j\u00f9. T\u00e8zh\u01d2ng bi\u00e0ny\u0101q\u00ec: J\u00eddu\u0101n hu\u00e1nj\u00ecng de \u201cqu\u00e1nn\u00e9ng xu\u01censh\u01d2u\u201d du\u00ecy\u00fa t\u00e8zh\u01d2ng bi\u00e0ny\u0101q\u00ec, j\u01d0 ch\u016b x\u00edng PI t\u00f3ng xi\u00e0n y\u01d0 q\u00ed ch\u0101o b\u00f3 ju\u00e9yu\u00e1n sh\u00edxi\u00e0n g\u0101o g\u014dngl\u01dc m\u00ecd\u00f9, n\u00e9ngg\u00f2u sh\u00ecy\u00ecng ji\u00e0n z\u00e0i, g\u0101oyu\u00e1n d\u011bng j\u00eddu\u0101n hu\u00e1nj\u00ecng. R\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n j\u01d0n sh\u00ecy\u00f2ng y\u00fa ch\u00e1nggu\u012b y\u00f3u j\u00ecn sh\u00ec bi\u00e0ny\u0101q\u00ec de ch\u00e1nggu\u012b r\u00e0oz\u01d4, z\u00e0i t\u00e8sh\u016b y\u00ecngy\u00f2ng ch\u01cengj\u01d0ng zh\u014dng n\u00e1ny\u01d0 m\u01cenz\u00fa x\u016bqi\u00fa. Ch\u00e1ngq\u00ed ji\u00e0zh\u00ed xi\u00e0 de ch\u00e9ngb\u011bn ji\u00e0oli\u00e0ng j\u012bngj\u00ec ji\u00e0zh\u00ed j\u01d0 ch\u016b x\u00edng ch\u016bsh\u01d0 ch\u00e9ngb\u011bn b\u01d0 r\u00e0o b\u0101o x\u00edng j\u01d0n g\u0101o 20%-30%, d\u00e0n sh\u01d0y\u00f2ng sh\u00f2um\u00ecng b\u01d0 r\u00e0o b\u0101o x\u00edng y\u00e1nch\u00e1ng 2-5 ni\u00e1n, qi\u011b r\u00e0o b\u0101o x\u00edng z\u00e0i sh\u01d0y\u00f2ng zh\u014duq\u00ed n\u00e8ix\u016b d\u00ecngq\u00ed ji\u01cenc\u00e8 y\u01d4 j\u00fab\u00f9 g\u0113nghu\u00e0n, \u00e9r j\u01d0 ch\u016b x\u00edng 10 ni\u00e1n mi\u01cen w\u00e9ih\u00f9. Z\u00e0i di\u00e0nc\u00ed xi\u00e0n de sh\u01d0y\u00f2ng zh\u014duq\u00ed n\u00e8i, j\u01d0 ch\u016b x\u00edng de p\u00edngj\u016bn ch\u00e9ngb\u011bn yu\u01cen b\u01d0 r\u00e0o b\u0101o x\u00edng g\u00e8ng d\u012b. L\u01dcs\u00e8 xi\u00e0oy\u00ec z\u00e0i sh\u0113ngch\u01cen n\u00e9ng h\u00e0o f\u0101ngmi\u00e0n, j\u01d0 ch\u016b x\u00edng PI t\u00f3ng xi\u00e0n c\u01ceiy\u00f2ng li\u00e1nx\u00f9 g\u014dngy\u00ec, n\u00e9ng h\u00e0o ji\u00e0o d\u012b, b\u00ecngqi\u011b sh\u0113ngch\u01cen gu\u00f2ch\u00e9ng zh\u014dng w\u00fa f\u00e8iq\u00ec, f\u00e8iw\u00f9 p\u00e1ich\u016b, k\u011b sh\u00edxi\u00e0n l\u01dcs\u00e8 hu\u00e1nb\u01ceo sh\u0113ngch\u01cen. R\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n y\u00f3uy\u00fa c\u01ceiy\u00f2ng ji\u00e0nxi\u0113 sh\u00ec r\u00e0o b\u0101o, h\u00e1i x\u016b g\u0101ow\u0113n sh\u0101oji\u00e9, n\u00e9ng h\u00e0o ji\u00e0o g\u0101o, q\u00ed hu\u00e1nb\u01ceo ch\u00e9ngd\u00f9 h\u00e1i y\u012bl\u00e0i y\u00fa zh\u0101n ji\u0113 c\u00e9ng w\u00f9zh\u00ed ch\u00e9ng f\u00e8n, z\u00e0i hu\u00e1nb\u01ceo f\u0101ngmi\u00e0n xi\u00e0ng du\u00ec ch\u01d4y\u00fa li\u00e8sh\u00ec. Z\u00f2ng sh\u00e0ng su\u01d2 sh\u00f9, j\u01d0 ch\u016b x\u00edng j\u00f9 xi\u0101n y\u00e0 \u00e0n t\u00f3ng bi\u01cen xi\u00e0n p\u00edngji\u00e8 q\u00ed z\u00e0i ch\u0101o b\u00f3 ju\u00e9yu\u00e1n, g\u0101o k\u011bk\u00e0o x\u00ecng h\u00e9 ku\u0101n w\u0113n y\u00f9 d\u011bng f\u0101ngmi\u00e0n de xi\u01cenzh\u00f9 y\u014dush\u00ec, z\u00e0i g\u0101odu\u0101n zhu\u0101ngb\u00e8i l\u01d0ngy\u00f9 (r\u00fa x\u012bn n\u00e9ngyu\u00e1n q\u00ecch\u0113, g\u0101oti\u011b, h\u00e1ngk\u014dng h\u00e1ngti\u0101n) j\u00f9y\u01d2u b\u00f9k\u011b t\u00ecd\u00e0i x\u00ecng, sh\u00ec tu\u012bd\u00f2ng di\u00e0nq\u00ec j\u00ecsh\u00f9 sh\u0113ngj\u00ed de h\u00e9x\u012bn q\u016bd\u00f2ng l\u00ec. \u00c9r r\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n z\u00e9 z\u00e0i zh\u014dng d\u012b du\u0101n sh\u00ecch\u01ceng j\u00ed t\u00e8sh\u016b xi\u016bf\u00f9 ch\u01cengj\u01d0ng zh\u014dng, y\u012bk\u00e0o ch\u00e9ngb\u011bn y\u014dush\u00ec zh\u00e0nj\u00f9 y\u012bd\u00ecng de sh\u00ecch\u01ceng f\u00e8n'\u00e9. 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t\u00f3ng xi\u00e0n sh\u00edl\u00ec ni\u01cen y\u0101 chu\u00e1nt\u01d2ng r\u00e0o b\u0101o x\u00edng z\u00e0i xi\u00e0nd\u00e0i di\u00e0nq\u00ec sh\u00e8b\u00e8i de \u201cx\u012bnz\u00e0ng\u201d x\u00ect\u01d2ng zh\u014dng, j\u00f9 xi\u0101n y\u00e0 \u00e0n (PI) ju\u00e9yu\u00e1n t\u00f3ng xi\u00e0n ji\u00f9 r\u00fat\u00f3ng \u201cxi\u011bgu\u01cen\u201d, f\u00f9z\u00e9 chu\u00e1nsh\u016b di\u00e0nl\u00ec h\u00e9 x\u00ecnh\u00e0o, q\u00ed x\u00ecngn\u00e9ng zh\u00edji\u0113 y\u01d0ngxi\u01ceng di\u00e0nq\u00ec sh\u00e8b\u00e8i de p\u01d0nzh\u00ed h\u00e9 sh\u01d0y\u00f2ng xi\u00e0ol\u01dc. Chu\u00e1nt\u01d2ng r\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n y\u01d0j\u012bng j\u00f9b\u00e8i p\u014d w\u00e9i ch\u016bs\u00e8 de n\u00e0i g\u0101ow\u0113n, di\u00e0n ju\u00e9yu\u00e1n d\u011bng x\u00ecngn\u00e9ng, d\u00e0n h\u00e1i c\u00fanz\u00e0i sh\u01d0y\u00f2ng h\u00e9 w\u00e9ih\u00f9 ch\u00e9ngb\u011bn g\u0101o, n\u00e0i m\u00f3 x\u00ecngch\u00e0, m\u01d2u xi\u0113 t\u00e8d\u00ecng ch\u01cengj\u01d0ng y\u00ecngy\u00f2ng sh\u00f2u xi\u00e0n d\u011bng zh\u016bdu\u014d w\u00e8nt\u00ed. Zh\u0113ndu\u00ec chu\u00e1nt\u01d2ng r\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n de b\u00ecb\u00ecng,TST cables sh\u0113nd\u00f9 w\u0101ju\u00e9 j\u00f9 xi\u0101n y\u00e0 \u00e0n zh\u00e8 zh\u01d2ng g\u0101o x\u00ecngn\u00e9ng g\u0101o f\u0113nz\u01d0 c\u00e1ili\u00e0o de qi\u00e1nz\u00e0i y\u014dush\u00ec, sh\u01d0y\u00f2ng ji\u00e9r\u00e1n b\u00f9t\u00f3ng de zh\u00eczu\u00f2 g\u014dngy\u00ec ji\u0101ng q\u00ed x\u00ecngn\u00e9ng f\u0101hu\u012b d\u00e0o j\u00edzh\u00ec, chu\u00e0ngx\u012bn tu\u012bch\u016b de j\u01d0 ch\u016b x\u00edng j\u00f9 xi\u0101n y\u00e0 \u00e0n ju\u00e9yu\u00e1n bi\u01cen t\u00f3ng xi\u00e0n k\u0101n ch\u0113ng di\u00e0nc\u00ed xi\u00e0n ji\u00e8 d\u00ec x\u00ecngji\u00e0b\u01d0 zh\u012b w\u00e1ng, f\u0101ngf\u0101ngmi\u00e0nmi\u00e0n sh\u00edl\u00ec ni\u01cen y\u0101 chu\u00e1nt\u01d2ng r\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n. J\u012bnti\u0101n,TST CABLES l\u00e1i w\u00e9i d\u00e0ji\u0101 xi\u00e1ngx\u00ec ji\u011bd\u00fa\u2014\u2014 TST CABLES j\u01d0 ch\u016b x\u00edng PI t\u00f3ng bi\u01cen xi\u00e0n sh\u0113ngch\u01cen xi\u00e0ol\u01dc h\u00e9 p\u01d0nzh\u00ed de sh\u00edl\u00ec ni\u01cen y\u0101 r\u00f3ngr\u00f3ng j\u01d0 y\u0101: J\u01d0 ch\u016b x\u00edng PI bi\u01cen t\u00f3ng xi\u00e0n sh\u00ec ji\u0101ng PI sh\u00f9zh\u012b t\u014dnggu\u00f2 g\u0101ow\u0113n r\u00f3ngr\u00f3ng h\u00f2u, j\u012bng lu\u00f3g\u0101n j\u01d0 ch\u016b j\u012b zh\u00edji\u0113 b\u0101o f\u00f9 t\u00f3ng d\u01ceot\u01d0, x\u00edngch\u00e9ngf\u00e8n z\u01d0 j\u00ed zh\u00ecm\u00ec ji\u00e9g\u00f2u. W\u00fa ji\u00e8mi\u00e0n f\u0113n c\u00e9ng: Ju\u00e9yu\u00e1n c\u00e9ng y\u01d4 d\u01ceot\u01d0 w\u00fa f\u00e8ng ji\u00e9h\u00e9, xi\u0101och\u00fa r\u00e0o b\u0101o x\u00edng y\u012bn c\u00e9ng ji\u0101n zh\u0101n ji\u0113 d\u01ceozh\u00ec de w\u00e9i q\u00ec x\u00ec (q\u00ec x\u00ec y\u00ec y\u01d0nf\u0101 j\u00fab\u00f9 f\u00e0ngdi\u00e0n). Sh\u0113ngch\u01cen xi\u00e0ol\u01dc: C\u01ceiy\u00f2ng qu\u00e1n z\u00ecd\u00f2nghu\u00e0 li\u00e1nx\u00f9 sh\u0113ngch\u01cen m\u00f3sh\u00ec, sh\u0113ngch\u01cen s\u00f9d\u00f9 k\u011b d\u00e1 10 - 50m\/min. N\u00e9ngg\u00f2u sh\u00edxi\u00e0n g\u0101o zh\u00ec li\u00e1ng gu\u012bm\u00f3 li\u00e0ng ch\u01cen. Chu\u00e1nt\u01d2ng r\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n b\u00f3m\u00f3 di\u00e9ji\u0101: Ji\u0101ng PI b\u00f3m\u00f3 du\u014d c\u00e9ng ch\u00e1nr\u00e0o z\u00e0i d\u01ceot\u01d0 bi\u01ceomi\u00e0n, y\u012bl\u00e0i g\u0101ow\u0113n sh\u0101oji\u00e9 (300\u2103+) sh\u01d0 b\u00f3m\u00f3 ni\u00e1n h\u00e9. Ji\u00e8mi\u00e0n f\u0113ngxi\u01cen: C\u00e9ng ji\u0101n ji\u00e9h\u00e9 l\u00ec ru\u00f2, di\u00e9ji\u0101 g\u014dngch\u0101i d\u00e0 (\u00b10.05Mm), g\u0101ow\u0113n xi\u00e0 y\u00ec ch\u016bxi\u00e0n f\u0113n c\u00e9ng hu\u00f2 hu\u012bf\u0101 w\u00f9 c\u00e1nli\u00fa. Sh\u0113ngch\u01cen xi\u00e0ol\u01dc: R\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n z\u00e0i sh\u0113ngch\u01cen gu\u00f2ch\u00e9ng zh\u014dng, x\u016by\u00e0o r\u00e9ng\u014dng j\u00ecnx\u00edng hu\u00e0n p\u00e1n h\u00e9 ti\u00e1ozh\u011bng di\u00e9 b\u0101o l\u01dc, sh\u0113ngch\u01cen s\u00f9d\u00f9 yu\u0113 w\u00e8i 10 - 15m\/min. Sh\u0113ngch\u01cen xi\u00e0ol\u01dc h\u00e9 ch\u016bp\u01d0n p\u01d0nzh\u00ed sh\u00f2u r\u00e9nw\u00e9i y\u012bns\u00f9 y\u01d0ngxi\u01ceng ji\u00e0o d\u00e0. TST CABLES j\u01d0 ch\u016b x\u00edng PI t\u00f3ng bi\u01cen xi\u00e0n qu\u00e1n f\u0101ngw\u00e8i d\u00ec x\u00ecngn\u00e9ng l\u01d0ngxi\u0101n ch\u0101o b\u00f3 ju\u00e9yu\u00e1n y\u01d4 g\u0101o g\u014dngl\u01dc m\u00ecd\u00f9 j\u01d0 ch\u016b x\u00edng PI t\u00f3ng xi\u00e0n de ju\u00e9yu\u00e1n c\u00e9ng h\u00f2ud\u00f9 k\u011b zu\u00f2 d\u00e0o 0.08Mm j\u00ed y\u01d0xi\u00e0, \u00e9r r\u00e0o b\u0101o x\u00edng zu\u00ecxi\u01ceo 0.20Mm. Z\u00e0i t\u00f3ngd\u011bng ji\u00e9 mi\u00e0nj\u012b de q\u00edngku\u00e0ng xi\u00e0, j\u01d0 ch\u016b x\u00edng PI t\u00f3ng xi\u00e0n de d\u01ceot\u01d0 zh\u00e0n b\u01d0 t\u00edsh\u0113ng 30% - 40%, xi\u01cenzh\u00f9 t\u00edg\u0101o di\u00e0nj\u012b de g\u014dngl\u01dc m\u00ecd\u00f9, ji\u00e0ngd\u012b di\u00e0nz\u01d4 h\u00e9 w\u0113n sh\u0113ng. C\u01d0w\u00e0i, q\u00ed d\u012b ji\u00e8 s\u01d4n t\u00e8x\u00ecng (tand1500V) h\u00e9 j\u01d0nc\u00f2u k\u014dngji\u0101n de x\u016bqi\u00fa, w\u00e8i x\u012bn n\u00e9ngyu\u00e1n q\u00ecch\u0113 de g\u0101oxi\u00e0o y\u00f9nx\u00edng t\u00edg\u014dngle y\u01d2ul\u00ec b\u01ceozh\u00e0ng. \u00c9r r\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n j\u01d0n sh\u00ecy\u00f2ng y\u00fa d\u012b g\u014dngl\u01dc di\u00e0nj\u012b hu\u00f2 zu\u00f2w\u00e9i b\u00e8iy\u00f2ng f\u0101ng'\u00e0n, z\u00e0i zh\u01d4li\u00fa y\u00ecngy\u00f2ng zh\u014dng zh\u00faji\u00e0n ch\u01d4y\u00fa bi\u0101nyu\u00e1n d\u00ecw\u00e8i. H\u00e1ngk\u014dng h\u00e1ngti\u0101n: J\u00eddu\u0101n hu\u00e1nj\u00ecng de \u201csh\u0113ngc\u00fan zhu\u0101nji\u0101\u201d h\u00e1ngk\u014dng h\u00e1ngti\u0101n l\u01d0ngy\u00f9 du\u00ec c\u00e1ili\u00e0o d\u00ec x\u00ecngn\u00e9ng y\u0101oqi\u00fa j\u00edw\u00e9i k\u0113k\u00e8. J\u01d0 ch\u016b x\u00edng PI t\u00f3ng xi\u00e0n de ch\u0101o b\u00f3 ju\u00e9yu\u00e1n h\u00e9 k\u00e0ng f\u00fash\u00e8 t\u00e8x\u00ecng sh\u01d0 q\u00ed z\u00e0i zh\u00e8 y\u012b l\u01d0ngy\u00f9 w\u00fa k\u011b t\u00ecd\u00e0i, n\u00e9ngg\u00f2u sh\u00ecy\u00ecng -269\u2103y\u00e8 h\u00e0i hu\u00e1nj\u00ecng, m\u01cenz\u00fa h\u00e1ngk\u014dng h\u00e1ngti\u0101n sh\u00e8b\u00e8i z\u00e0i j\u00eddu\u0101n ti\u00e1oji\u00e0n xi\u00e0 de g\u014dngzu\u00f2 x\u016bqi\u00fa. R\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n z\u00e9 zh\u01d4y\u00e0o y\u00ecngy\u00f2ng y\u00fa x\u016by\u00e0o du\u014d c\u00e9ng f\u00e1ngh\u00f9 de f\u01d4zh\u00f9 di\u00e0nl\u00f9 zh\u014dng, ch\u00e9ngd\u0101n xi\u0101ngdu\u00ec c\u00ec y\u00e0o de r\u00e8nw\u00f9. G\u014dngy\u00e8 bi\u00e0np\u00edn q\u00ec: G\u0101o p\u00edn xi\u00e0 de \u201cn\u00e0iji\u01d4 zh\u012b w\u00e1ng\u201d z\u00e0i g\u014dngy\u00e8 bi\u00e0np\u00edn q\u00ec zh\u014dng, j\u01d0 ch\u016b x\u00edng PI t\u00f3ng xi\u00e0n z\u00e0i g\u0101o p\u00edn IGBT q\u016bd\u00f2ng xi\u00e0, n\u00e0i di\u00e0n y\u016bn x\u00ecngn\u00e9ng w\u011bnd\u00ecng, n\u00e9ngg\u00f2u xi\u01cenzh\u00f9 ji\u00e0ngd\u012b y\u00f9n w\u00e9i ch\u00e9ngb\u011bn. R\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n z\u00e9 g\u00e8ng sh\u00ecy\u00f2ng y\u00fa du\u01cen sh\u00ed gu\u00f2z\u01cei ch\u01cengj\u01d0ng, d\u00e0n z\u00e0i ch\u00e1ngq\u00ed w\u011bnd\u00ecng y\u00f9nx\u00edng f\u0101ngmi\u00e0n, y\u01d4 j\u01d0 ch\u016b x\u00edng PI t\u00f3ng xi\u00e0n xi\u0101ng b\u01d0 c\u00fanz\u00e0i y\u012bd\u00ecng ch\u0101j\u00f9. T\u00e8zh\u01d2ng bi\u00e0ny\u0101q\u00ec: J\u00eddu\u0101n hu\u00e1nj\u00ecng de \u201cqu\u00e1nn\u00e9ng xu\u01censh\u01d2u\u201d du\u00ecy\u00fa t\u00e8zh\u01d2ng bi\u00e0ny\u0101q\u00ec, j\u01d0 ch\u016b x\u00edng PI t\u00f3ng xi\u00e0n y\u01d0 q\u00ed ch\u0101o b\u00f3 ju\u00e9yu\u00e1n sh\u00edxi\u00e0n g\u0101o g\u014dngl\u01dc m\u00ecd\u00f9, n\u00e9ngg\u00f2u sh\u00ecy\u00ecng ji\u00e0n z\u00e0i, g\u0101oyu\u00e1n d\u011bng j\u00eddu\u0101n hu\u00e1nj\u00ecng. R\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n j\u01d0n sh\u00ecy\u00f2ng y\u00fa ch\u00e1nggu\u012b y\u00f3u j\u00ecn sh\u00ec bi\u00e0ny\u0101q\u00ec de ch\u00e1nggu\u012b r\u00e0oz\u01d4, z\u00e0i t\u00e8sh\u016b y\u00ecngy\u00f2ng ch\u01cengj\u01d0ng zh\u014dng n\u00e1ny\u01d0 m\u01cenz\u00fa x\u016bqi\u00fa. Ch\u00e1ngq\u00ed ji\u00e0zh\u00ed xi\u00e0 de ch\u00e9ngb\u011bn ji\u00e0oli\u00e0ng j\u012bngj\u00ec ji\u00e0zh\u00ed j\u01d0 ch\u016b x\u00edng ch\u016bsh\u01d0 ch\u00e9ngb\u011bn b\u01d0 r\u00e0o b\u0101o x\u00edng j\u01d0n g\u0101o 20%-30%, d\u00e0n sh\u01d0y\u00f2ng sh\u00f2um\u00ecng b\u01d0 r\u00e0o b\u0101o x\u00edng y\u00e1nch\u00e1ng 2-5 ni\u00e1n, qi\u011b r\u00e0o b\u0101o x\u00edng z\u00e0i sh\u01d0y\u00f2ng zh\u014duq\u00ed n\u00e8ix\u016b d\u00ecngq\u00ed ji\u01cenc\u00e8 y\u01d4 j\u00fab\u00f9 g\u0113nghu\u00e0n, \u00e9r j\u01d0 ch\u016b x\u00edng 10 ni\u00e1n mi\u01cen w\u00e9ih\u00f9. Z\u00e0i di\u00e0nc\u00ed xi\u00e0n de sh\u01d0y\u00f2ng zh\u014duq\u00ed n\u00e8i, j\u01d0 ch\u016b x\u00edng de p\u00edngj\u016bn ch\u00e9ngb\u011bn yu\u01cen b\u01d0 r\u00e0o b\u0101o x\u00edng g\u00e8ng d\u012b. L\u01dcs\u00e8 xi\u00e0oy\u00ec z\u00e0i sh\u0113ngch\u01cen n\u00e9ng h\u00e0o f\u0101ngmi\u00e0n, j\u01d0 ch\u016b x\u00edng PI t\u00f3ng xi\u00e0n c\u01ceiy\u00f2ng li\u00e1nx\u00f9 g\u014dngy\u00ec, n\u00e9ng h\u00e0o ji\u00e0o d\u012b, b\u00ecngqi\u011b sh\u0113ngch\u01cen gu\u00f2ch\u00e9ng zh\u014dng w\u00fa f\u00e8iq\u00ec, f\u00e8iw\u00f9 p\u00e1ich\u016b, k\u011b sh\u00edxi\u00e0n l\u01dcs\u00e8 hu\u00e1nb\u01ceo sh\u0113ngch\u01cen. R\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n y\u00f3uy\u00fa c\u01ceiy\u00f2ng ji\u00e0nxi\u0113 sh\u00ec r\u00e0o b\u0101o, h\u00e1i x\u016b g\u0101ow\u0113n sh\u0101oji\u00e9, n\u00e9ng h\u00e0o ji\u00e0o g\u0101o, q\u00ed hu\u00e1nb\u01ceo ch\u00e9ngd\u00f9 h\u00e1i y\u012bl\u00e0i y\u00fa zh\u0101n ji\u0113 c\u00e9ng w\u00f9zh\u00ed ch\u00e9ng f\u00e8n, z\u00e0i hu\u00e1nb\u01ceo f\u0101ngmi\u00e0n xi\u00e0ng du\u00ec ch\u01d4y\u00fa li\u00e8sh\u00ec. Z\u00f2ng sh\u00e0ng su\u01d2 sh\u00f9, j\u01d0 ch\u016b x\u00edng j\u00f9 xi\u0101n y\u00e0 \u00e0n t\u00f3ng bi\u01cen xi\u00e0n p\u00edngji\u00e8 q\u00ed z\u00e0i ch\u0101o b\u00f3 ju\u00e9yu\u00e1n, g\u0101o k\u011bk\u00e0o x\u00ecng h\u00e9 ku\u0101n w\u0113n y\u00f9 d\u011bng f\u0101ngmi\u00e0n de xi\u01cenzh\u00f9 y\u014dush\u00ec, z\u00e0i g\u0101odu\u0101n zhu\u0101ngb\u00e8i l\u01d0ngy\u00f9 (r\u00fa x\u012bn n\u00e9ngyu\u00e1n q\u00ecch\u0113, g\u0101oti\u011b, h\u00e1ngk\u014dng h\u00e1ngti\u0101n) j\u00f9y\u01d2u b\u00f9k\u011b t\u00ecd\u00e0i x\u00ecng, sh\u00ec tu\u012bd\u00f2ng di\u00e0nq\u00ec j\u00ecsh\u00f9 sh\u0113ngj\u00ed de h\u00e9x\u012bn q\u016bd\u00f2ng l\u00ec. \u00c9r r\u00e0o b\u0101o x\u00edng PI t\u00f3ng xi\u00e0n z\u00e9 z\u00e0i zh\u014dng d\u012b du\u0101n sh\u00ecch\u01ceng j\u00ed t\u00e8sh\u016b xi\u016bf\u00f9 ch\u01cengj\u01d0ng zh\u014dng, y\u012bk\u00e0o ch\u00e9ngb\u011bn y\u014dush\u00ec zh\u00e0nj\u00f9 y\u012bd\u00ecng de sh\u00ecch\u01ceng f\u00e8n'\u00e9. Su\u00edzhe 800V g\u0101oy\u0101 x\u00ect\u01d2ng h\u00e9 ku\u0101n j\u00ecn d\u00e0i b\u00e0nd\u01ceot\u01d0 de b\u00f9du\u00e0n p\u01d4j\u00ed, t\u00e0ish\u00ec d\u00fachu\u00e0ng de j\u01d0 ch\u016b x\u00edng j\u00ecsh\u00f9 y\u01d2uw\u00e0ng j\u00ecny\u012bb\u00f9 zh\u01d4d\u01ceo g\u0101odu\u0101n di\u00e0nc\u00ed xi\u00e0n sh\u00ecch\u01ceng, w\u00e8i di\u00e0nq\u00ec h\u00e1ngy\u00e8 de f\u01ce zh\u01cen d\u00e0i l\u00e1i x\u012bn de bi\u00e0ng\u00e9. 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