412

Experimental results and computer simulation of multi-stage composite transistors are 
presented.  To  study  the  volt  -  ampere  characteristics  of  multistage  composite  transistors,  a 
dialogue  computer  simulation  program,  the  Delphi  programming  environment,  has  been 
developed.  It  is  shown  that  the  proposed  multistage  composite  transistors  can  improve 
manufacturability  in  its  industrial  production.  It  is  shown  that  multistage  homostructure
transistors according to the Darlington and Shiklai circuits operate stably at collector -emitter 
voltages five times higher than in the case of individual transistors. The  power dissipated on the 
collector  is  3  times  higher  than  the  rated  value  of  the  maximum  permissible  power  of  the 
composite transistors.  It is established that the efficiency of the method of stabilizing the emitter 
current of a three-link homostructure transistor is 7 times higher in voltage and three orders of 
magnitude  higher  in  temperature  compared  to  a  conventional  composite  transistor.  The 
proposed  homostructure  transistors  are  designed  to  operate  in  terminal  stages  of  power 
amplifiers,  radio  transmitting  devices,  electronic  equipment  of  industrial  and  automotive 
electronics.

  • Internet havola
  • DOI
  • UzSCI tizimida yaratilgan sana 23-01-2020
  • O'qishlar soni 398
  • Nashr sanasi 12-12-2019
  • Asosiy tilIngliz
  • Sahifalar33-43
Ўзбек

Maqolada  ko‘p  kaskadli  tarkibiy  tranzistorlarning  eksperimental  va  kompyuterda 
modellashtirish  natijalari  keltirilgan.  Ko‘p  kaskadli  tarkibiy  tranzistorlarning  volt  -  amper 
tavsiflarini  tadqiq  etish  uchun,  Delphi  dasturlash  muhitida  muloqatli  kompyuterda 
modellashtirish dasturi ishlab chiqilgan. Taklif etilayotgan ko‘p kaskadli tarkibiy tranzistorlarni 
sanoat  ishlab  chiqarish  texnologiyasini  oshiradi.  Ko‘p  kaskadli  gomo  tarkibiy  Darlington  va 
Shiklai sxemalari asosidagi tranzistorlar, alohida olingan tranzistorlarga qaraganda, kollektoremitter  kuchlanish  qiymatlari  bo‘yicha  barqaror  ishlashi  besh  marotabaga  oshirilishi 
keltirilgan. Tarkibiy tranzistorlarning pasport bo‘yicha talab etilgan quvvat qiymatlaridan, taklif 
etilgan  tranzistorlarning  kollektordagi  sarflanish  quvvati  3  marotabaga  oshadi.  Oddiy 
tranzistorlarga  qaraganda  uch  zvenoli  gomo  tarkibiy  tranzistorlarning  emitter  tokini 
barqarorlash  uslubining  samaradorligi,  kuchlanish  bo‘yicha  7  martaga   va  temperaturasi 
bo‘yicha  3  marotabaga  yuqoridir.  Taklif  etilayotgan  gomotarkibiy  tranzistorlar  quvvat 
kuchaytirgichlarning  chiqish  kaskadlarida,  radiouzatish  qurilmalarida,  sanoat  va  atomobil 
elektronika qurilmalarida qo‘llash uchun mo‘ljallangan.

Kalit so'z
English

Experimental results and computer simulation of multi-stage composite transistors are 
presented.  To  study  the  volt  -  ampere  characteristics  of  multistage  composite  transistors,  a 
dialogue  computer  simulation  program,  the  Delphi  programming  environment,  has  been 
developed.  It  is  shown  that  the  proposed  multistage  composite  transistors  can  improve 
manufacturability  in  its  industrial  production.  It  is  shown  that  multistage  homostructure
transistors according to the Darlington and Shiklai circuits operate stably at collector -emitter 
voltages five times higher than in the case of individual transistors. The  power dissipated on the 
collector  is  3  times  higher  than  the  rated  value  of  the  maximum  permissible  power  of  the 
composite transistors.  It is established that the efficiency of the method of stabilizing the emitter 
current of a three-link homostructure transistor is 7 times higher in voltage and three orders of 
magnitude  higher  in  temperature  compared  to  a  conventional  composite  transistor.  The 
proposed  homostructure  transistors  are  designed  to  operate  in  terminal  stages  of  power 
amplifiers,  radio  transmitting  devices,  electronic  equipment  of  industrial  and  automotive 
electronics.

Русский

В  статье  приведены  экспериментальные  результаты  и  компьютерного 
моделирования  многокаскадных  составных  транзисторов.  Для  исследования,  вольт  -амперных  характеристик  многокаскадных  составных  транзисторов  разработана 
диалоговая  компьютерная  моделирующая  программа  среда  программирования  Delphi. 
Показано,  что  предлагаемые  многокаскадные  составные  транзисторы  позволяют 
повысить  технологичность  при  его  промышленном  изготовлении.  Показано,  что 
многокаскадные  гомосоставные  транзисторы  по  схеме  Дарлингтона  и   Шиклаи 
устойчиво  работают  при  значениях  напряжения  коллектор-эмиттер  в  пять  раз  более 
высоких,  чем  в  случае  отдельно  взятых  транзисторов.  Рассеиваемая  на  коллекторе 
мощность  в  3  раза  превышает  паспортное  значение  предельно  допустимой  мощности 
составных  транзисторов.  Установлено,  что  эффективность  метода  стабилизации 
тока  эмиттера   трехзвенного  гомосоставного  транзистора  по  сравнению  с  обычным 
составным  транзистором  по  напряжению  в  7  раз  больше,   а   по  температуре  на  три 
порядка  больше.  Предложенные  гомосоставные  транзисторы  предназначены  для 
работы  в  оконечных  каскадах  усилителей  мощности,  радиопередающих  устройствах, 
электронном оборудовании промышленной и автомобильной электронике.

Kalit so'z
Muallifning F.I.Sh. Lavozimi Tashkilot nomi
1 Yarmukhamedov A.A. dotsent TDTU
2 Zhabborov A.B. asistent TDTU
3 Turimbetov B.M. Bugalter TDTU
Havola nomi
1 1. Yarmuhamedov A.A. The study of a composite bipolar transistor according to the Shiklai scheme // Uzbek journal "Problems of Informatics and Energy". - Tashkent, 2001.- No. 3-4, - S. 95-98. 2. Bustonov Kh.Kh., Yarmukhamedov A.A. Investigation of the output stage on an injection -voltaic transistor. Proceedings of the international scientific conference "The Role and Importance of Telecommunications and Information Technologies in Modern Society" I vol. -Tashkent, 2005. - P. 136-138. 3. Alimova NB, Toshmatov Sh. T., Yarmukhamedov A.A. Emitter stabilization of a power amplifier by an RD circuit // Bulletin of TUIT. - Tashkent, 2010. No. 4.- S. 41-45. 4. Aripov Kh.K., Alimova NB, Fazilzhanov I.R., Yarmukhamedov A.A. Bipolar drifts transistor volt-ampere characteristic blue ҳisoblash daturi / Davlat patent and “Electron обisoblash machine lari uchun yaratilgan dasturning razmiy ўykhatdan казtkazilganligi terisidagi” GUVONOMA №. DGU 02064, 29.09. 2010 th. 5. Preliminary patent of the Republic of Uzbekistan No. IDP 05016. Complementary emitter repeater / Aripov Kh.K., Atakhanov Sh.N., Bustanov Kh.Kh., Kasimov SS, Fazilzhanov I.R. // Bull. No. 6, 31.12.2001. 6. Fadeeva N.E. "Development and study of functional units for telecommunication systems based on refined models of field-effect transistors" // Abstract for the degree of candidate of technical sciences. Novosibirsk, 2002, 19 p. 7. Alimova N.B., Aripova U.Kh., Agabekova Z.E. Mathematical model of volt -ampere characteristics of field-effect transistors // Proceedings of the international conference "Technique and technology of distance learning". Tashkent. 2002. S. 213-214. 8. Alimova N.B., Aripova U.Kh., Makhsudov Zh.T., Usmanov B.Sh., Khudoyberdiev Sh.Sh. Mathematical modeling of semiconductor processes, devices, circuits // Proceedings of the international conference "Technique and technology of distance learning". Tashkent. 2002. S. 214. 9. Alimova N.B., Aripov Kh.K., Rakhmatov Sh.B. Mathematical model of current -voltage characteristics of field-effect transistors // Abstract. Republican scientific conference "Mathematical modeling and computational experiment". Tashkent. 2002. S. 19-20. 10. Alimova N.B., Aripov Kh.K., Usmanov B.Sh. Mathematical modeling of semiconductor processes-devices-circuits // Tez. Dokl. Republican scientific conference "Mathematical modeling and computational experiment". Tashkent. 2002.S. 241-242. 11. Alimova N.B., Aripov Kh.K., Rakhmatov Sh.B. Mathematical model of current -voltage characteristics of field-effect transistors // Abstract. Republican scientific conference "Mathematical modeling and computational experiment". Tashkent. 2002.S. 19-20. 12. Preliminary patent of the Republic of Uzbekistan No. IDP 05126. Complementary emitter repeater / Aripov Kh.K., Busstan Kh.Kh., Kasimov S.S., Fazilzhanov I.R // Bull. No. 2, April 30, 2002. 13. Fazilzhanov I.R. A complementary emitter repeater with an extended range of stable operation // Fourth International Scientific and Technical Conference of Students, Postgraduates and Young Specialists of the CIS Countries. “Engineering and communication technology”, Proceedings of the conference - Almaty, 2002.- S. 362-364. 14. Aripov Kh.K., Fazilzhanov I.R. Investigation of a quasi -complementary emitter follower with an extended range of stable operation // Uzbek journal "Problems of Informatics and Energy". - Tashkent, 2002, No. 5.- S. 25-30. 15. Aripov Kh.K., Busstan Kh.Kh., Kasimov S.S., Fazilzhanov I.R. Quasi -complementary emitter repeater with an extended range of stable operation // 1st International Radio-Electronic Forum “Applied Radioelectronics. Status and development prospects. " MYFF - 2002. Sat. scientific labor. Part 2.- Kharkov: AN PRE, KHNURE. 2002, S. 460-463. Aerospace engineering 43 16. Fazilzhanov I.R. A complementary emitter repeater with an extended range of stable operation // Uzbek journal “Problems of Informatics and Energy.” - Tashkent, 2003, No. 4.- P. 56-61. 17. Fazilzhanov I.R. Investigation of a complementary emitter repeater with an extended range of stable operation // International Forum. "New infocommunication technologies: achievements, problems, prospects." Volume 3. "Technique and technology of communication." Thes. doc. International scientific and technical conference of students, graduate students and young specialists of the CIS countries. - Novosibirsk: SibGUTI. 2003.S. 33-35. 18. Nasyrhodzhaev F.R. Elemental base based on the injection-voltaic effect // Proceedings of the 5th international technical conference "Communication Engineering and Technology", SibGUTI, Novosibirsk, 2003, pp. 144-146.
Kutilmoqda