оПНБЕДЕМШ ПЮГПЮАНРЙЮ Х ХЯЯКЕДНБЮМХЕ УЮПЮЙРЕПХЯРХЙ РПЮМГХЯРНПМШУ ДЕРЕЙРНПНБ ябв-ЛНЫМНЯРХ Я СБЕКХВЕММНИ ОПНРЪФЕММНЯРЭЧ СВЮЯРЙЮ ЙБЮДПЮРХВМНЦН ДЕРЕЙРХПНБЮМХЪ ХУ ОЕПЕДЮРНВМНИ УЮПЮЙРЕПХЯРХЙХ. оПЕДЯРЮБКЕМШ БЮПХЮМРШ ДЕРЕЙРНПНБ МЮ АХОНКЪПМНЛ Х ОНКЕБНЛ РПЮМГХЯРНПЮУ. пЮГПЮАНРЮММШЕ ЯУЕЛШ ПЕЮКХГНБЮМШ Б МЕЯЙНКЭЙХУ ЩЙЯОЕПХЛЕМРЮКЭМШУ НАПЮГЖЮУ. оПХБЕДЕМШ ПЕГСКЭРЮРШ ХГЛЕПЕМХЪ ХУ НЯМНБМШУ ПЮАНВХУ УЮПЮЙРЕПХЯРХЙ Х ЯПЮБМЕМХЕ Я ПЕГСКЭРЮРЮЛХ ВХЯКЕММШУ ПЮЯВЕРНБ Х ЯУЕЛНРЕУМХВЕЯЙНЦН ЛНДЕКХПНБЮМХЪ.

Performed development and research works were focused on transistor microwave power detectors with increased dynamic range of its transfer characteristic, owing to negative feedback usage. Optimization of the depth of feedback gave the expansion of the dynamic range up to 49 dB (at 1 dB compression), which is significantly greater than that of known detectors, both industrial and individual pilot projects. Two variants for detectors - as bipolar, so field effect transistors were explored and its comparison is provided. The values of detectors main parameters: tangential sensitivity, transfer coefficient, transfer characteristic compression point, frequency response function, standing wave ratio, temperature coefficient are given. Frequency range of detectors - up to 1.5 GHz. Measured performances of the detectors samples are consistent with the theoretical analysis and circuit simulation in the modern specialized software AWR Microwave Office. The developed transistor detectors are offered for use in radio astronomy modulation type receivers.