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2024³â¿¡ 60¾ï ´Þ·¯·Î ÃßÁ¤µÇ´Â ±º¿ë ¼Û¼ö½Å ¸ðµâ ¼¼°è ½ÃÀåÀº 2024³âºÎÅÍ 2030³â±îÁö CAGR 4.4%·Î ¼ºÀåÇÏ¿© 2030³â¿¡´Â 78¾ï ´Þ·¯¿¡ ´ÞÇÒ °ÍÀ¸·Î ¿¹ÃøµË´Ï´Ù. ÀÌ º¸°í¼­¿¡¼­ ºÐ¼®ÇÑ ºÎ¹® Áß ÇϳªÀÎ ¹«¼± ÁÖÆļö Åë½ÅÀº CAGR 5.2%¸¦ ±â·ÏÇÏ¸ç ºÐ¼® ±â°£ Á¾·á½Ã¿¡´Â 53¾ï ´Þ·¯¿¡ ´ÞÇÒ °ÍÀ¸·Î ¿¹ÃøµË´Ï´Ù. ±¤Åë½Å ºÎ¹®ÀÇ ¼ºÀå·üÀº ºÐ¼® ±â°£ µ¿¾È CAGR 2.8%·Î ÃßÁ¤µË´Ï´Ù.

¹Ì±¹ ½ÃÀåÀº 16¾ï ´Þ·¯, Áß±¹Àº CAGR 8.2%·Î ¼ºÀå ¿¹Ãø

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¼¼°èÀÇ ±º¿ë ¼Û¼ö½Å ¸ðµâ ½ÃÀå µ¿Çâ°ú ÃËÁø¿äÀÎ Á¤¸®

±º¿ë ¼Û¼ö½Å ¸ðµâÀ̶õ ¹«¾ùÀ̸ç, ¿Ö ÇÊ¿äÇÑ°¡?

±º¿ë ¼Û¼ö½Å(T/R) ¸ðµâÀº ·¹ÀÌ´õ, Åë½Å, ÀüÀÚÀü ½Ã½ºÅÛ¿¡¼­ Áß¿äÇÑ ±¸¼º¿ä¼ÒÀ̸ç, ±¹¹æ ¾ÖÇø®ÄÉÀ̼ǿ¡¼­ ¾ÈÀüÇÏ°í °í¼º´ÉÀÇ ½ÅÈ£ ¼Û¼ö½ÅÀ» °¡´ÉÇÏ°Ô ÇÕ´Ï´Ù. ÀÌ ¸ðµâÀº ÃֽŠ±º¿ë ·¹ÀÌ´õ ½Ã½ºÅÛ¿¡ »ç¿ëµÇ´Â AESA(Active Electronic Scan Array)ÀÇ ±¸¼º¿ä¼Ò·Î ÀÛµ¿Çϸç, ¸ñÇ¥¹° ŽÁö, ÃßÀû ¹× °¨½Ã¸¦ À§ÇÑ °í±Þ ±â´ÉÀ» Á¦°øÇÕ´Ï´Ù. ¶ÇÇÑ À§¼ºÅë½Å, ¾ÈÀüÇÑ Àü¼ú ³×Æ®¿öÅ©, ¹Ì»çÀÏ À¯µµ ½Ã½ºÅÛ¿¡µµ ÇʼöÀûÀ̸ç, ÀüÅõ ȯ°æ¿¡¼­ ¿øÈ°ÇÏ°í ¾ÈÁ¤ÀûÀÎ µ¥ÀÌÅÍ Àü¼ÛÀ» º¸ÀåÇÕ´Ï´Ù.

T/R ¸ðµâÀÇ Á߿伺Àº ¿ªµ¿ÀûÀÎ ÀüÀå »óȲ¿¡¼­ È¿À²¼º, Á¤È®¼º, ÀûÀÀ¼ºÀ» Çâ»ó½ÃÅ°¸é¼­ ±º¿ë Åë½Å ¹× ·¹ÀÌ´õ ½Ã½ºÅÛÀÇ ¼º´ÉÀ» °­È­ÇÏ´Â ´É·Â¿¡ ÀÖ½À´Ï´Ù. ±âÁ¸ÀÇ ·¹ÀÌ´õ ¹× Åë½Å ±â¼úÀº ±â°èÀûÀ¸·Î Á¶Á¾µÇ´Â ¾ÈÅ׳ª¿¡ ÀÇÁ¸ÇÏ¿© ¼Óµµ°¡ ´À¸®°í ÀüÀÚÀû ´ëÀÀ Á¶Ä¡¿¡ Ãë¾àÇß½À´Ï´Ù. ¹Ý¸é, T/R ¸ðµâÀ» ÅëÇØ AESA ·¹ÀÌ´õ´Â ½Å¼ÓÇÑ ºö Á¶Çâ, ½ÅÈ£ ¼±¸íµµ Çâ»ó, ¹æÇØ ÀüÆÄ ³»¼º °­È­¸¦ ½ÇÇöÇÏ¿© ¹æ°ø, Çرº ÀÛÀü, °øÁß Á¤Âû¿¡ ÇʼöÀûÀÎ ¿ªÇÒÀ» ÇÏ°í ÀÖ½À´Ï´Ù.

Çö´ëÀüÀÇ º¹ÀâÈ­¿¡ µû¶ó °íÁÖÆÄ, °æ·®, Àü·Â È¿À²ÀÌ ³ôÀº T/R ¸ðµâ¿¡ ´ëÇÑ ¼ö¿ä°¡ Áõ°¡ÇÏ°í ÀÖ½À´Ï´Ù. ÀÌ·¯ÇÑ ¸ðµâÀº ¼º´É ÀúÇÏ ¾øÀÌ °í¿Â, ÀüÀڱ⠰£¼·, ÀÛµ¿ ½ºÆ®·¹½º¿Í °°Àº °¡È¤ÇÑ È¯°æ Á¶°ÇÀ» °ßµ®³»¾ß ÇÕ´Ï´Ù. ±¹¹æ ±â°üÀÌ ³×Æ®¿öÅ© Á᫐ ¿î¿µ ¹× ÅëÇÕ ÀüÅõ °ü¸® ½Ã½ºÅÛÀ» ¿ì¼±½ÃÇÏ´Â °¡¿îµ¥, ¾ÈÀüÇÑ ½Ç½Ã°£ Åë½Å ¹× °¨½Ã¿¡¼­ T/R ¸ðµâÀÇ ¿ªÇÒÀÌ ±× ¾î´À ¶§º¸´Ù Áß¿äÇØÁö°í ÀÖ½À´Ï´Ù.

±â¼ú ¹ßÀüÀº ±º¿ë T/R ¸ðµâ ½ÃÀåÀ» ¾î¶»°Ô Çü¼ºÇÏ°í Àִ°¡?

±º¿ë T/R ¸ðµâ ½ÃÀåÀº ¹ÝµµÃ¼ ±â¼ú, Àü·Â È¿À², ¼ÒÇüÈ­ÀÇ ±Þ¼ÓÇÑ ¹ßÀüÀ» ¸ñ°ÝÇÏ°í ÀÖÀ¸¸ç, ±¹¹æ ½Ã½ºÅÛÀÇ ¼º´ÉÀ» Å©°Ô Çâ»ó½ÃÅ°°í ÀÖ½À´Ï´Ù. °¡Àå ÁÖ¸ñÇÒ ¸¸ÇÑ Çõ½Å Áß Çϳª´Â °¥·ýºñ¼Ò(GaAs)¿¡¼­ ÁúÈ­°¥·ý(GaN) ±â¹Ý T/R ¸ðµâ·ÎÀÇ ÀüȯÀÔ´Ï´Ù. GaN ±â¼úÀº ±âÁ¸ GaAs ¸ðµâ¿¡ ºñÇØ ¿ì¼öÇÑ Àü·Â ¹Ðµµ, °íÈ¿À², Çâ»óµÈ ¿­ ¼º´ÉÀ» Á¦°øÇÕ´Ï´Ù. ÀÌ´Â ½ÅÈ£ ÁõÆø Çâ»ó, ·¹ÀÌ´õ °¨Áö ¹üÀ§ È®´ë, ¿­ ¹æÃâ °¨¼Ò·Î À̾îÁ® GaN ±â¹Ý ¸ðµâÀº Àå°Å¸® ·¹ÀÌ´õ ¹× ÀüÀÚÀü ½Ã½ºÅÛ°ú °°Àº °íÃâ·Â ¾ÖÇø®ÄÉÀ̼ǿ¡ ÀÌ»óÀûÀÔ´Ï´Ù.

¶Ç ÇϳªÀÇ Å« ±â¼ú µ¿ÇâÀº ¼ÒÇÁÆ®¿þ¾î Á¤ÀÇ T/R ¸ðµâÀÇÀÇ °³¹ßÀÔ´Ï´Ù. ÀÌ ¸ðµâÀ» ÅëÇØ ±¹¹æ ±â°üÀº ·¹ÀÌ´õ ¹× Åë½Å ½Ã½ºÅÛÀ» ½Ç½Ã°£À¸·Î µ¿ÀûÀ¸·Î À籸¼ºÇÒ ¼ö ÀÖ½À´Ï´Ù. ±âÁ¸ÀÇ Çϵå¿þ¾î ±â¹Ý ¼Ö·ç¼Ç°ú ´Þ¸® ¼ÒÇÁÆ®¿þ¾î Á¤ÀÇ T/R ¸ðµâÀº ´Ù¾çÇÑ ¹Ì¼Ç ¿ä±¸ »çÇ׿¡ ÀûÀÀÇÒ ¼ö ÀÖ¾î ´ÙÀç´Ù´ÉÇÏ°í ºñ¿ë È¿À²ÀûÀÔ´Ï´Ù. ÀÌ ½Ã½ºÅÛÀº ÀΰøÁö´É(AI)°ú ¸Ó½Å·¯´× ¾Ë°í¸®ÁòÀ» È°¿ëÇÏ¿© ½ÅÈ£ 󸮸¦ ÃÖÀûÈ­ÇÏ°í, ÀÌ»ó ¡Èĸ¦ °¨ÁöÇÏ°í, ÀûÀÇ ¹æÇØ È°µ¿¿¡ È¿°úÀûÀ¸·Î ´ëÀÀÇÒ ¼ö ÀÖ½À´Ï´Ù.

¶ÇÇÑ, ¸ÖƼ ¹êµå ¹× ´Ù±â´É T/R ¸ðµâÀÇ ÅëÇÕµµ ÁøÇàµÇ°í ÀÖ½À´Ï´Ù. Çö´ëÀÇ ±º»ç ÀÛÀü¿¡¼­´Â °¨½Ã, Á¶ÁØ, Åë½ÅÀ» À§ÇØ ¿©·¯ ÁÖÆļö ´ë¿ª¿¡¼­ ÀÛµ¿ÇÒ ¼ö ÀÖ´Â ´É·ÂÀÌ ÇÊ¿äÇÕ´Ï´Ù. ¸ÖƼ¹êµå T/R ¸ðµâÀº ÇϳªÀÇ ·¹ÀÌ´õ ¹× Åë½Å ½Ã½ºÅÛ¿¡¼­ ¼­·Î ´Ù¸¥ ÁÖÆļö ´ë¿ªÀ» ÀüȯÇÒ ¼ö ÀÖ¾î À¯¿¬¼ºÀÌ Çâ»óµÇ°í ¿©·¯ Çϵå¿þ¾î ±¸¼ºÀÇ Çʿ伺ÀÌ ÁÙ¾îµì´Ï´Ù. ÀÌ´Â ¿øÈ°ÇÑ ¸ÖƼ µµ¸ÞÀÎ ¿î¿µ¿¡ ÀÇÁ¸ÇÏ´Â ½ºÅÚ½º Ç×°ø±â, ÇÔÁ¤, Áö»ó ¹æ°ø ½Ã½ºÅÛ¿¡ ƯÈ÷ À¯¿ëÇÕ´Ï´Ù.

¶ÇÇÑ, ´õ ³ª¾Æ°¡ T/R ¸ðµâÀÇ ¼ÒÇüÈ­´Â ÀÛ°í °¡º­¿î ·¹ÀÌ´õ ¹× Åë½Å ½Ã½ºÅÛÀ» ¹èÄ¡ÇÒ ¼ö ÀÖ°ÔÇÔÀ¸·Î½á ±¹¹æ ¾ÖÇø®ÄÉÀ̼ǿ¡ Çõ¸íÀ» ÀÏÀ¸Å°°í ÀÖ½À´Ï´Ù. º¸´Ù ¼ÒÇüÈ­µÈ T/R ¸ðµâÀº Â÷¼¼´ë UAV, º´»ç Âø¿ëÇü Åë½ÅÀåºñ, °íµµ ¹Ì»çÀÏ À¯µµ ½Ã½ºÅÛ¿¡ ÅëÇÕµÇ¾î ±âµ¿¼º°ú ÀÛÀü È¿°ú¸¦ Çâ»ó½ÃÅ°°í ÀÖ½À´Ï´Ù. 3D ÆÐŰ¡ ¹× Ĩ ½ºÄÉÀÏ ÅëÇÕÀÇ Ã·´ÜÈ­°¡ ÀÌ·¯ÇÑ Ãß¼¼¸¦ ÁÖµµÇÏ°í ÀÖÀ¸¸ç, ¼º´É ÀúÇÏ ¾øÀÌ ¼ÒÇüÈ­¸¦ ½ÇÇöÇÏ°í ÀÖ½À´Ï´Ù.

±º¿ë T/R ¸ðµâ ½ÃÀåÀÌ Á÷¸éÇÑ ÁÖ¿ä °úÁ¦´Â ¹«¾ùÀΰ¡?

±º¿ë T/R ¸ðµâÀÇ Ã¤ÅÃÀÌ Áõ°¡ÇÏ°í ÀÖÀ½¿¡µµ ºÒ±¸ÇÏ°í ½ÃÀåÀº ºñ¿ë, °ø±Þ¸Á Á¦¾à ¹× ±â¼ú º¹À⼺°ú °ü·ÃµÈ ¸î °¡Áö ¹®Á¦¿¡ Á÷¸éÇØ ÀÖ½À´Ï´Ù. ÁÖ¿ä ¿ì·Á »çÇ× Áß Çϳª´Â GaN ±â¹Ý T/R ¸ðµâÀÇ ³ôÀº ºñ¿ëÀÔ´Ï´Ù. GaN ±â¼úÀº ¿ì¼öÇÑ ¼º´ÉÀ» Á¦°øÇÏ´Â ¹Ý¸é, ±âÁ¸ GaAs ¸ðµâ¿¡ ºñÇØ Á¦Á¶ ºñ¿ëÀÌ Å©°Ô ³ô½À´Ï´Ù. ƯÈ÷ ¿¹»êÀÌ ÇÑÁ¤µÈ ±¹¹æ ±â°üÀ̳ª ºñ¿ë È¿À²ÀûÀÎ ·¹ÀÌ´õ ¹× Åë½Å ¼Ö·ç¼ÇÀ» ¿øÇÏ´Â ±â°üÀÇ °æ¿ì, ÀÌ·¯ÇÑ ºñ¿ë ¿ä¼Ò´Â GaN ±â¹Ý T/R ¸ðµâÀÇ º¸±ÞÀ» Á¦ÇÑÇÒ ¼ö ÀÖ½À´Ï´Ù.

¶Ç ´Ù¸¥ Å« °úÁ¦´Â Ư¼ö ¹ÝµµÃ¼ °ø±Þ¸Á¿¡ ´ëÇÑ ÀÇÁ¸ÀÔ´Ï´Ù. °í¼º´É T/R ¸ðµâÀ» Á¦Á¶Çϱâ À§Çؼ­´Â ÷´Ü ¹ÝµµÃ¼ Á¦Á¶ ¼³ºñ, Èñ¼Ò¼º ÀÖ´Â Àç·á, Àü¹® Á¦Á¶ ±â¼ú¿¡ ´ëÇÑ Á¢±ÙÀÌ ÇÊ¿äÇÕ´Ï´Ù. ¼¼°è °ø±Þ¸ÁÀÇ È¥¶õ, ¹«¿ª Á¦ÇÑ, ÁöÁ¤ÇÐÀû ±äÀåÀº ÇÙ½É ºÎÇ°ÀÇ ºÎÁ·, »ý»ê Áö¿¬, ¹æÀ§ »ê¾÷üÀÇ ºñ¿ë Áõ°¡¸¦ ÃÊ·¡ÇÒ ¼ö ÀÖ½À´Ï´Ù. ¹Ì±¹, À¯·´, Áß±¹ µî ÁÖ¿ä ¹æ»ê ½ÃÀå¿¡¼­ÀÇ ±¹³» ¹ÝµµÃ¼ Á¦Á¶ÀÇ ÃßÁøÀº ÀÌ·¯ÇÑ Ãë¾àÁ¡À» ÇØ°áÇϱâ À§ÇÑ °ÍÀÌÁö¸¸, Àå±âÀûÀÎ Á¢±Ù ¹æ½ÄÀÓ¿¡´Â º¯ÇÔÀÌ ¾ø½À´Ï´Ù.

¿­ °ü¸®¿Í Àü·Â È¿À²µµ T/R ¸ðµâ ¼³°èÀÇ °úÁ¦°¡ µÇ°í ÀÖ½À´Ï´Ù. °íÃâ·Â ·¹ÀÌ´õ ¹× Åë½Å ½Ã½ºÅÛÀº Å« ¿­À» ¹ß»ý½ÃÄÑ ½Ã½ºÅÛ ¼º´É ¹× ¼ö¸í¿¡ ¿µÇâÀ» ¹ÌÄ¥ ¼ö ÀÖ½À´Ï´Ù. °í±Þ ¹æ¿­ÆÇ ¹× ¾×·©½Ä ³Ã°¢ ÀåÄ¡¿Í °°Àº È¿°úÀûÀÎ ³Ã°¢ ¼Ö·ç¼ÇÀ» T/R ¸ðµâ ¼³°è¿¡ ÅëÇÕÇÏ¿© °¡È¤ÇÑ Á¶°Ç¿¡¼­ ¾ÈÁ¤ÀûÀÎ ÀÛµ¿À» º¸ÀåÇØ¾ß ÇÕ´Ï´Ù. ¶ÇÇÑ, Àü·Â È¿À²À» ÃÖÀûÈ­ÇÏ´Â °ÍÀº ±º»ç Ç÷§ÆûÀÇ ¿¡³ÊÁö ¼Òºñ¸¦ ÁÙÀÌ´Â µ¥ ¸Å¿ì Áß¿äÇϸç, ƯÈ÷ Àü·Â °¡¿ë¼ºÀÌ Áß¿äÇÑ ¿ä¼ÒÀÎ Ç×°ø±â ¹× Çرº ¾ÖÇø®ÄÉÀ̼ǿ¡¼­ Àü·Â È¿À²À» ÃÖÀûÈ­ÇÏ´Â °ÍÀº ¸Å¿ì Áß¿äÇÕ´Ï´Ù.

ÀüÀÚÀüÀÇ À§Çù°ú »çÀ̹ö º¸¾ÈÀÇ À§Ç輺Àº ¶Ç ÇϳªÀÇ °úÁ¦ÀÔ´Ï´Ù. Çö´ëÀÇ ±º»ç ½Ã½ºÅÛÀº Åë½Å ¹× ·¹ÀÌ´õ ±â´ÉÀ» ¹æÇØÇÒ ¼ö ÀÖ´Â ±³¶õ, ½ºÇªÇÎ, »çÀ̹ö °ø°Ý¿¡ Á÷¸éÇØ ÀÖ½À´Ï´Ù. T/R ¸ðµâÀÌ ÀÌ·¯ÇÑ À§ÇùÀ» °ßµô ¼ö ÀÖµµ·Ï Çϱâ À§Çؼ­´Â °í±Þ ½ÅÈ£ ó¸® ¾Ë°í¸®Áò, ¾Ïȣȭ ¸ÞÄ¿´ÏÁò, AI ±â¹Ý ´ëÃ¥ÀÌ ÇÊ¿äÇÕ´Ï´Ù. ÀüÀå¿¡¼­ ¿ìÀ§¸¦ À¯ÁöÇϱâ À§Çؼ­´Â Àç¹Ö ¹æÁö ¹× »çÀ̹ö º¸¾È Åë½Å ±â¼úÀÇ Áö¼ÓÀûÀÎ ¿¬±¸°³¹ß(R&D)ÀÌ ÇÊ¿äÇÕ´Ï´Ù.

±º¿ë T/R ¸ðµâ ½ÃÀåÀÇ ÁÖ¿ä ¼ºÀå ÃËÁø¿äÀÎÀº ¹«¾ùÀΰ¡?

±º¿ë T/R ¸ðµâ ½ÃÀåÀÇ ¼ºÀåÀº ±¹¹æ ¿¹»êÀÇ Áõ°¡, ÷´Ü ·¹ÀÌ´õ ¹× Åë½Å ½Ã½ºÅÛ¿¡ ´ëÇÑ ¼ö¿ä Áõ°¡, ÀüÀÚÀü ´É·ÂÀ¸·ÎÀÇ ÀüȯÀ¸·Î ÀÎÇÑ °ÍÀÔ´Ï´Ù. Àü ¼¼°è ±º´ë°¡ ±¹¹æ ÀÎÇÁ¶ó¸¦ Çö´ëÈ­ÇÔ¿¡ µû¶ó °í¼º´É T/R ¸ðµâ, ƯÈ÷ ¹æ°ø, ÇØ»ó ÀüÅõ ¹× ¿ìÁÖ ±â¹Ý °¨½Ã ¾ÖÇø®ÄÉÀ̼ǿ¡ ´ëÇÑ ¿ä±¸°¡ °è¼Ó Áõ°¡ÇÏ°í ÀÖ½À´Ï´Ù.

°¡Àå Áß¿äÇÑ ÃËÁø¿äÀÎ Áß Çϳª´Â AESA ·¹ÀÌ´õ ½Ã½ºÅÛÀÇ È®´ëÀÔ´Ï´Ù. AESA ·¹ÀÌ´õ´Â ¶Ù¾î³­ Ç¥Àû ŽÁö ´É·Â, ÃßÀû ¼Óµµ, ¹æÇØ ÀüÆÄ ³»¼ºÀ¸·Î ÀÎÇØ ±âÁ¸ÀÇ ±â°è½Ä ½ºÄ³´× ·¹ÀÌ´õ¸¦ ´ëüÇÏ°í ÀÖ½À´Ï´Ù. T/R ¸ðµâÀº AESA ·¹ÀÌ´õÀÇ ÇÙ½É ºÎÇ°À¸·Î, ±ºÀÌ Â÷¼¼´ë ÀüÅõ±â, ¹Ì»çÀÏ ¹æ¾î ½Ã½ºÅÛ, Çرº °¨½Ã Ç÷§Æû¿¡ ÅõÀÚÇÔ¿¡ µû¶ó ¼ö¿ä°¡ ±ÞÁõÇÒ °ÍÀÔ´Ï´Ù. ÇöÀç ÁøÇà ÁßÀÎ F-35 ÀüÅõ±â, Ãֽſ¹ Çرº ±¸ÃàÇÔ, ÅëÇÕ¹æ°ø¸Á Á¶´ÞÀÌ ÀÌ·¯ÇÑ Ãß¼¼¿¡ ¹ÚÂ÷¸¦ °¡ÇÏ°í ÀÖ½À´Ï´Ù.

´Ù¿µ¿ª ÀÛÀü(MDO)°ú ³×Æ®¿öÅ© Á᫐ ÀüÀïÀÌ Á߽õǰí ÀÖ´Â °Íµµ Å« ¼ºÀå ¿äÀÎÀ¸·Î ÀÛ¿ëÇÏ°í ÀÖ½À´Ï´Ù. Çö´ëÀÇ ±º»ç Àü·«Àº À°, °ø, ÇØ, ÇØ, ¿ìÁÖ, »çÀ̹ö ´É·ÂÀ» ¿øÈ°ÇÏ°Ô ÅëÇÕÇØ¾ß Çϸç, ÀÌ ¸ðµç °ÍÀº ºü¸£°í ¾ÈÀüÇÑ Åë½Å ³×Æ®¿öÅ©¿¡ ÀÇÁ¸ÇÏ°í ÀÖ½À´Ï´Ù. T/R ¸ðµâÀº ½Ç½Ã°£ µ¥ÀÌÅÍ °øÀ¯, Àå°Å¸® Åë½Å, Á¤¹Ð Á¶ÁØ µîÀ» °¡´ÉÇÏ°Ô ÇÏ¿© ÀüÀå ÀüüÀÇ ¿¬°è¸¦ °­È­ÇÕ´Ï´Ù. Áö±¸ ±Ëµµ(LEO) ±º¿ë À§¼º ¹× ¿ìÁÖ ±â¹Ý ·¹ÀÌ´õÀÇ ºÎ»óÀ¸·Î °íÁÖÆÄ ¹× ¹æ»ç¼± ³»¼º T/R ¸ðµâ¿¡ ´ëÇÑ ¼ö¿ä°¡ ´õ¿í Áõ°¡ÇÏ°í ÀÖ½À´Ï´Ù.

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Global Military Transmit and Receive Module Market to Reach US$7.8 Billion by 2030

The global market for Military Transmit and Receive Module estimated at US$6.0 Billion in the year 2024, is expected to reach US$7.8 Billion by 2030, growing at a CAGR of 4.4% over the analysis period 2024-2030. Radio Frequency Communication, one of the segments analyzed in the report, is expected to record a 5.2% CAGR and reach US$5.3 Billion by the end of the analysis period. Growth in the Optical Communication segment is estimated at 2.8% CAGR over the analysis period.

The U.S. Market is Estimated at US$1.6 Billion While China is Forecast to Grow at 8.2% CAGR

The Military Transmit and Receive Module market in the U.S. is estimated at US$1.6 Billion in the year 2024. China, the world's second largest economy, is forecast to reach a projected market size of US$1.6 Billion by the year 2030 trailing a CAGR of 8.2% over the analysis period 2024-2030. Among the other noteworthy geographic markets are Japan and Canada, each forecast to grow at a CAGR of 1.8% and 3.5% respectively over the analysis period. Within Europe, Germany is forecast to grow at approximately 2.6% CAGR.

Global Military Transmit and Receive Module Market - Key Trends & Drivers Summarized

What Are Military Transmit and Receive Modules and Why Are They Essential?

Military transmit and receive (T/R) modules are critical components in radar, communication, and electronic warfare systems, enabling secure and high-performance signal transmission and reception in defense applications. These modules function as the building blocks of active electronically scanned arrays (AESA) used in modern military radar systems, providing advanced capabilities for target detection, tracking, and surveillance. They are also integral to satellite communications, secure tactical networks, and missile guidance systems, ensuring seamless and reliable data transmission in combat environments.

The importance of T/R modules lies in their ability to enhance the performance of military communication and radar systems while improving efficiency, accuracy, and adaptability in dynamic battlefield conditions. Traditional radar and communication technologies relied on mechanically steered antennas, which were slower and more vulnerable to electronic countermeasures. In contrast, T/R modules enable AESA radars to achieve rapid beam steering, improved signal clarity, and enhanced jamming resistance, making them indispensable for air defense, naval operations, and airborne surveillance.

With the increasing complexity of modern warfare, the demand for high-frequency, lightweight, and power-efficient T/R modules is growing. These modules must withstand extreme environmental conditions, including high temperatures, electromagnetic interference, and operational stress, without compromising performance. As defense agencies prioritize network-centric operations and integrated battle management systems, the role of T/R modules in secure, real-time communication and surveillance becomes more critical than ever.

How Are Technological Advancements Shaping the Military T/R Module Market?

The military T/R module market is witnessing rapid advancements in semiconductor technologies, power efficiency, and miniaturization, significantly enhancing the performance of defense systems. One of the most notable innovations is the shift from gallium arsenide (GaAs) to gallium nitride (GaN)-based T/R modules. GaN technology offers superior power density, higher efficiency, and enhanced thermal performance compared to traditional GaAs modules. This translates to improved signal amplification, greater radar detection range, and reduced heat dissipation, making GaN-based modules ideal for high-power applications such as long-range radars and electronic warfare systems.

Another major technological trend is the development of software-defined T/R modules, which allow defense agencies to dynamically reconfigure radar and communication systems in real time. Unlike traditional hardware-based solutions, software-defined T/R modules can adapt to different mission requirements, making them more versatile and cost-effective. These systems leverage artificial intelligence (AI) and machine learning algorithms to optimize signal processing, detect anomalies, and counter enemy jamming efforts more effectively.

The integration of multi-band and multi-functional T/R modules is also gaining traction. Modern military operations require the ability to operate across multiple frequency bands for surveillance, targeting, and communication. Multi-band T/R modules allow a single radar or communication system to switch between different frequency ranges, enhancing flexibility and reducing the need for multiple hardware configurations. This is particularly valuable for stealth aircraft, naval vessels, and ground-based air defense systems that rely on seamless multi-domain operations.

Additionally, the miniaturization of T/R modules is revolutionizing defense applications by enabling the deployment of compact, lightweight radar and communication systems. Smaller T/R modules are being integrated into next-generation UAVs, soldier-worn communication devices, and advanced missile guidance systems, improving mobility and operational effectiveness. Advancements in 3D packaging and chip-scale integration are driving this trend, allowing for reduced size without compromising performance.

What Are the Key Challenges Facing the Military T/R Module Market?

Despite the increasing adoption of military T/R modules, the market faces several challenges related to cost, supply chain constraints, and technological complexity. One of the primary concerns is the high cost of GaN-based T/R modules. While GaN technology offers superior performance, it is significantly more expensive to manufacture compared to traditional GaAs modules. The cost factor can limit the widespread adoption of GaN-based T/R modules, particularly for defense agencies with budget constraints or those seeking cost-effective radar and communication solutions.

Another major challenge is the dependency on a specialized semiconductor supply chain. The production of high-performance T/R modules requires access to advanced semiconductor fabrication facilities, rare materials, and specialized manufacturing expertise. Global supply chain disruptions, trade restrictions, and geopolitical tensions can create shortages of critical components, delaying production and increasing costs for defense contractors. The push for domestic semiconductor manufacturing in key defense markets such as the U.S., Europe, and China is aimed at addressing these vulnerabilities, but it remains a long-term effort.

Thermal management and power efficiency also pose challenges in T/R module design. High-power radar and communication systems generate significant heat, which can affect system performance and longevity. Effective cooling solutions, such as advanced heat sinks and liquid cooling mechanisms, must be integrated into T/R module designs to ensure reliable operation under extreme conditions. Additionally, optimizing power efficiency is crucial to reducing energy consumption in military platforms, particularly for airborne and naval applications where power availability is a critical factor.

Electronic warfare threats and cybersecurity risks present another challenge. Modern military systems face increasingly sophisticated jamming, spoofing, and cyberattacks that can disrupt communication and radar functionality. Ensuring that T/R modules are resistant to these threats requires advanced signal processing algorithms, encryption mechanisms, and AI-driven countermeasures. Continuous research and development (R&D) in anti-jamming and cyber-secure communication technologies are necessary to maintain battlefield superiority.

What Are the Key Growth Drivers for the Military T/R Module Market?

The growth in the military T/R module market is driven by rising defense budgets, increasing demand for advanced radar and communication systems, and the shift toward electronic warfare capabilities. As military forces worldwide modernize their defense infrastructure, the need for high-performance T/R modules continues to rise, particularly in air defense, naval warfare, and space-based surveillance applications.

One of the most significant drivers is the expansion of AESA radar systems. AESA radars are rapidly replacing conventional mechanically scanned radars due to their superior target detection, tracking speed, and resistance to jamming. T/R modules are the core components of AESA radars, making their demand surge as militaries invest in next-generation air superiority fighters, missile defense systems, and naval surveillance platforms. The ongoing procurement of F-35 fighter jets, advanced naval destroyers, and integrated air defense networks is fueling this trend.

The increasing emphasis on multi-domain operations (MDO) and network-centric warfare is another major growth factor. Modern military strategies require seamless integration of land, air, sea, space, and cyber capabilities, all of which rely on high-speed, secure communication networks. T/R modules enable real-time data sharing, long-range communication, and precision targeting, enhancing overall battlefield coordination. The rise of low-Earth orbit (LEO) military satellites and space-based radars is further driving demand for high-frequency, radiation-hardened T/R modules.

The growing adoption of unmanned systems and autonomous defense platforms is also boosting the T/R module market. UAVs, unmanned ground vehicles (UGVs), and autonomous naval vessels require compact, lightweight radar and communication systems to operate effectively. The integration of advanced T/R modules in drone-based surveillance, target acquisition, and electronic warfare applications is expected to accelerate as unmanned systems become a staple of modern defense forces.

Government initiatives and defense contracts for domestic semiconductor production are playing a crucial role in ensuring supply chain resilience and reducing dependency on foreign suppliers. Programs such as the U.S. CHIPS Act, European semiconductor initiatives, and China's push for self-sufficiency in military electronics are expected to enhance the availability of critical semiconductor components for defense applications. As domestic production capabilities expand, the cost of high-performance T/R modules is expected to decline, driving wider adoption.

In conclusion, the military T/R module market is experiencing significant growth due to advancements in radar, electronic warfare, and secure military communications. While challenges such as high costs, supply chain constraints, and cybersecurity threats persist, ongoing R&D efforts and government investments are driving innovation in the sector. As defense agencies worldwide prioritize next-generation military technologies, the demand for advanced T/R modules will continue to rise, ensuring strategic superiority and enhanced battlefield capabilities.

SCOPE OF STUDY:

The report analyzes the Military Transmit and Receive Module market in terms of units by the following Segments, and Geographic Regions/Countries:

Segments:

Communication Medium (Radio Frequency Communication, Optical Communication, Hybrid Communication); Application (Radar Application, Communication Application, Electronic Warfare Application, Surveillance Application, Other Applications)

Geographic Regions/Countries:

World; United States; Canada; Japan; China; Europe (France; Germany; Italy; United Kingdom; Spain; Russia; and Rest of Europe); Asia-Pacific (Australia; India; South Korea; and Rest of Asia-Pacific); Latin America (Argentina; Brazil; Mexico; and Rest of Latin America); Middle East (Iran; Israel; Saudi Arabia; United Arab Emirates; and Rest of Middle East); and Africa.

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TABLE OF CONTENTS

I. METHODOLOGY

II. EXECUTIVE SUMMARY

III. MARKET ANALYSIS

IV. COMPETITION

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