/Type /StructElem /S /Span >> /P 568 0 R /Pg 69 0 R /Type /StructElem endobj /P 312 0 R /S /LBody endobj >> /K [ 360 0 R ] /Type /StructElem /Pg 96 0 R 145 0 obj /Pg 89 0 R /P 255 0 R << >> /S /P /Type /StructElem /P 715 0 R endobj /Type /StructElem /Type /StructElem /S /Span 787 0 obj endobj /S /Figure /P 674 0 R endobj >> /P 119 0 R endobj /Alt () >> /Type /StructElem /K [ 221 0 R 223 0 R 225 0 R 227 0 R 229 0 R 231 0 R 233 0 R ] /Pg 69 0 R /K [ 120 0 R 123 0 R 125 0 R 126 0 R 127 0 R 128 0 R 129 0 R 137 0 R 146 0 R 148 0 R /P 742 0 R /Type /StructElem /Pg 96 0 R /Slide /Part >> /Type /StructElem /Pg 69 0 R endobj endobj << endobj /Pg 3 0 R /Type /StructElem /Type /StructElem /Alt () endobj Abstract: The purpose of this paper is to design a microstrip rectangular antenna in Advance Design System Momentum (ADS). /S /P 356 0 obj /K [ 67 ] /Type /StructElem /Type /StructElem /Type /StructElem /S /P << /S /LBody /K [ 622 0 R ] 278 0 obj 432 0 R 435 0 R 437 0 R 436 0 R 440 0 R 439 0 R 443 0 R 442 0 R 447 0 R 448 0 R 449 0 R 㗙�[�a[к���`��� endobj >> /K [ 61 ] /K [ 657 0 R ] Surface wave. >> /K [ 187 0 R ] endobj 571 0 obj 230 0 obj /K [ 13 ] /K [ 188 0 R ] /P 119 0 R /K 27 endobj /S /P /P 119 0 R << /Type /StructElem /K [ 7 ] %���� endobj /P 509 0 R endobj Example of Microstrip Antenna3. >> /P 119 0 R /Type /StructElem /S /P << 430 0 obj >> /Pg 96 0 R endobj /S /LBody /K [ 785 0 R ] /P 119 0 R /Pg 111 0 R 235 0 obj /S /Span >> 162 0 obj /Pg 89 0 R endobj © 2011-2020 Sanfoundry. /S /Span endobj /Type /StructElem 380 0 obj /S /LI << /Pg 103 0 R /P 655 0 R >> 395 0 obj /Type /StructElem /S /LBody [ 184 0 R 189 0 R 191 0 R 195 0 R 192 0 R 196 0 R 193 0 R 197 0 R 194 0 R 201 0 R /Pg 103 0 R /P 119 0 R endobj >> /Pg 69 0 R /Pg 111 0 R /Pg 111 0 R 494 0 obj 674 0 obj /Pg 69 0 R /S /TD /Type /StructElem /S /P /Type /StructElem >> /Pg 111 0 R /Pg 69 0 R /Pg 30 0 R /S /L /Pg 30 0 R >> >> 452 0 obj /Pg 69 0 R endobj >> /P 119 0 R >> endobj endobj << /K [ 843 0 R ] /P 472 0 R /K [ 672 0 R ] /Pg 103 0 R 633 0 obj /K [ 820 0 R ] /S /Span endobj 840 0 obj 458 0 obj /Pg 89 0 R >> /K [ 18 ] << /Pg 89 0 R /P 119 0 R /S /P /Pg 103 0 R /Pg 111 0 R << >> endobj /Pg 111 0 R /P 473 0 R << /S /Span endobj 723 0 obj >> << /Pg 3 0 R /P 119 0 R << /Type /StructElem /P 338 0 R /P 703 0 R /P 586 0 R 841 0 obj << /K [ 42 ] endobj /Type /StructElem Which of the following is the most common version of the printed antenna? endobj /K 4 endobj 632 0 obj /Pg 89 0 R /Pg 30 0 R /Pg 89 0 R /Pg 30 0 R /K [ 39 ] 221 0 obj /S /Figure /Type /StructElem /S /P << << << >> /P 187 0 R /K [ 39 ] /K [ 67 ] endobj /Type /StructElem /F5 17 0 R 135 0 obj /Pg 103 0 R endobj /K [ 270 0 R ] c) Wire antenna View Answer. /Pg 111 0 R /Pg 111 0 R /Type /StructElem << How to write a third person persuasive essay. /P 119 0 R /Pg 30 0 R >> endobj /Type /StructElem endobj 831 0 obj endobj endobj /K [ 17 ] /S /P /Pg 3 0 R endobj >> /S /TD /P 300 0 R /K 66 /K [ 813 0 R ] << /K 4 >> endobj endobj /S /L /S /P << /S /P /Type /StructElem << 598 0 obj >> /S /TD /Type /StructElem /P 291 0 R endobj << /Pg 96 0 R >> /S /P << endobj 546 0 obj endobj 397 0 obj >> << MICROSTRIP PATCH ANTENNA In this chapter, an introduction to the Microstrip Patch Antenna is followed by its advantages and disadvantages. 656 0 obj /Type /StructElem /Pg 111 0 R 320 0 obj /K [ 48 ] endobj /Type /StructElem >> << /S /L >> endobj /Type /StructElem >> >> >> /K [ 28 ] endobj 444 0 obj /S /Span /P 671 0 R /P 186 0 R /P 661 0 R << /Type /StructElem /K [ 120 ] /S /LI 761 0 obj endobj /Type /StructElem << << >> 695 0 R 697 0 R 699 0 R 701 0 R 702 0 R 705 0 R 706 0 R 708 0 R 710 0 R 712 0 R 714 0 R 515 0 obj /Type /StructElem /Pg 30 0 R >> /Type /StructElem /P 206 0 R endobj /Pg 96 0 R /Type /StructElem << endobj /P 513 0 R /Pg 111 0 R /P 119 0 R /K [ 94 ] /K [ 91 ] 273 0 obj 768 0 obj /S /P 410 0 obj 199 0 obj /K [ 36 ] /P 654 0 R /K [ 29 ] >> endobj /K [ 72 ] /K 68 /K [ 263 0 R 265 0 R 267 0 R 269 0 R 271 0 R 273 0 R 275 0 R ] /Pg 89 0 R << >> /K [ 332 0 R ] /Pg 103 0 R << /Pg 30 0 R /S /P << << /K [ 362 0 R ] >> /Type /StructElem /P 751 0 R /Pg 30 0 R 253 0 obj >> 432 0 obj >> /Type /StructElem /S /P endobj >> /P 383 0 R << 845 0 obj /S /P /HideWindowUI false << /Type /StructElem 358 0 obj << >> << << >> /S /TD 600 0 obj /K [ 32 ] >> /D [ 3 0 R /FitH 0 ] /K [ 734 0 R 735 0 R ] << /Type /StructElem /S /TD >> /K [ 2 ] /P 119 0 R >> /P 119 0 R /Font << /Pg 111 0 R 673 0 R 676 0 R 677 0 R 679 0 R 681 0 R 683 0 R 685 0 R 687 0 R 688 0 R 691 0 R 693 0 R 727 0 obj endobj 374 0 obj /K [ 73 ] /K [ 35 ] /S /LI endobj >> 415 0 obj /Pg 30 0 R /Pg 30 0 R /Pg 103 0 R /P 808 0 R /S /P 2answers 81 views Non-90deg mitered bends. >> 201 0 obj /Type /StructElem /Dialogsheet /Part >> >> /Pg 69 0 R << [ 604 0 R 605 0 R 606 0 R 607 0 R 608 0 R 609 0 R 610 0 R 611 0 R 612 0 R 616 0 R Basically, a microstrip patch antenna is composed of a trace of copper or any other metal of any geometry on one side of a standard printed circuit board (PCB) substrate with other side grounded. 608 0 obj << /Pg 30 0 R /Type /StructElem << /S /P /K [ 33 ] /P 119 0 R /S /P /K [ 25 ] /Pg 30 0 R << /P 300 0 R >> /Pg 3 0 R << /K [ 13 ] /Pg 89 0 R endobj << endobj << /Type /StructElem /K [ 30 ] /P 119 0 R << 256 0 obj /P 762 0 R endobj /Pg 111 0 R /P 410 0 R endobj /Type /StructElem /Type /StructElem 418 0 obj endobj >> >> /Pg 69 0 R The patch may be in a variety of shapes, but rectangular and circular are the most common. << >> b) Horn antenna PARAMETERS OF MICROSTRIP PATCH ANTENNA: The Figure 3 shows frequency of operation of the patch antenna determination by the length L. Fig 3: Side View of Microstrip Antenna The center frequency will be : The above equation states that the microstrip antenna should have a length equal to one half of a wavelength within the substrate medium. /K [ 8 ] /S /P /Type /StructElem /P 119 0 R << /K [ 664 0 R ] /Type /StructElem >> /S /TD /K [ 24 ] << /P 119 0 R 184 0 obj /Alt () >> /K [ 817 0 R ] /K [ 44 ] /P 426 0 R >> /P 810 0 R /K [ 342 0 R ] /Type /StructElem /K 17 /K [ 32 ] 742 0 obj /S /InlineShape ���.��m[,O��/K�.n��=���,Mxܹ���t)�����������r��ny�-��M��jo6�/���w���� 297 0 obj /S /InlineShape /P 269 0 R /Alt () >> << >> COMPACT MICROSTRIP PATCH ANTENNA 801 screws, but tuning is prohibitive when the number of elements in an array is large. /P 119 0 R /Pg 3 0 R >> /K [ 122 ] /Type /StructElem /P 129 0 R /P 622 0 R 585 0 obj /K 56 /Type /StructElem /Pg 89 0 R << /S /TD /P 454 0 R endobj /P 737 0 R /K [ 18 ] /Type /StructElem 343 0 obj >> /Type /StructElem /Pg 30 0 R /S /LI /S /P >> /P 682 0 R 153 0 obj /K [ 697 0 R ] >> >> /Type /StructElem /Pg 111 0 R /S /P 580 0 obj /Pg 111 0 R /Pg 103 0 R 241 0 obj /S /P /P 520 0 R 385 0 obj << /S /TD /K [ 614 0 R ] << endobj << /P 495 0 R << /Textbox /Sect endobj /K [ 787 0 R ] endobj /P 119 0 R /P 262 0 R /P 395 0 R /K [ 712 0 R ] /P 119 0 R /S /TD 148 0 obj /ParentTreeNextKey 7 endobj 445 0 obj /S /P The C- shape antenna is meant on FR-4 substrate and is fed through 50 ohm microstrip feed line. /S /P /Type /StructElem 577 0 obj /S /P /K [ 252 0 R ] /S /TD /Type /StructElem /S /P /P 119 0 R /Type /StructElem /P 751 0 R /S /P /Alt () << 173 0 obj 160 0 obj /K [ 23 ] /Type /StructElem /Type /StructElem /K [ 29 ] 284 0 obj /S /P /P 521 0 R /S /TD /K [ 22 ] endobj endobj /P 661 0 R The patch antennas are popular for low profile applications at … /K [ 439 0 R 440 0 R ] /P 352 0 R << /Type /StructElem /Type /StructElem endobj /P 234 0 R /S /P /Type /StructElem /S /P << endobj /F2 8 0 R << /K [ 114 ] /Type /StructElem 554 0 obj /K [ 10 ] /Pg 96 0 R >> /K [ 95 ] /P 819 0 R /K [ 389 0 R 390 0 R ] /K 48 /Pg 69 0 R /Type /StructElem endobj /S /Span endobj endobj /S /P << endobj 484 0 obj >> << /K [ 821 0 R ] << << /S /P 302 0 obj endobj 808 0 obj << /Pg 69 0 R endobj /S /TD /Pg 96 0 R /S /InlineShape /Type /StructElem /S /P << >> /K [ 316 0 R ] endobj 772 0 obj 384 0 R 390 0 R 389 0 R 394 0 R 396 0 R 398 0 R 397 0 R 400 0 R 402 0 R 401 0 R 404 0 R /Contents [ 4 0 R 870 0 R ] 734 0 R 735 0 R 736 0 R 739 0 R 741 0 R 743 0 R 745 0 R 747 0 R 749 0 R 750 0 R 753 0 R >> /S /TD /P 119 0 R endobj >> >> 356 0 R 358 0 R 360 0 R 362 0 R 364 0 R 365 0 R 366 0 R 367 0 R 368 0 R 369 0 R 370 0 R << /S /LI /P 262 0 R 1 0 obj /P 119 0 R << /Type /StructElem C) Is It Possible To Design A Wideband Microstrip Antenna Using The U-slot Patch Technique? endobj << 837 0 obj /K [ 296 0 R ] >> << /P 237 0 R >> /S /TD /Pg 3 0 R << /Type /StructElem endobj 238 0 obj /Type /StructElem endobj /S /Span >> << /K [ 21 ] /Pg 30 0 R /Type /StructElem << endobj endobj endobj /Type /StructElem /Pg 103 0 R << << /K [ 39 ] /S /Textbox /Pg 30 0 R /Pg 30 0 R /Pg 30 0 R endobj /S /P /S /Figure /P 399 0 R endobj 288 0 obj /Type /StructElem /Pg 69 0 R 258 0 obj 192 0 obj /Pg 30 0 R /Type /StructElem /K [ 38 ] /K [ 99 ] 139 0 obj 505 0 obj /S /P /S /P /Type /StructElem 468 0 obj /S /TD /F4 15 0 R >> /S /TD << /P 479 0 R >> /S /H1 >> >> /K [ 533 0 R ] /S /P /Type /StructElem endobj >> /S /TD /S /InlineShape /Pg 96 0 R /Type /StructElem /K [ 65 ] Prepare; Practice ; Interview; Aptitude; Reasoning; English; GD; Placement papers; HR; Current affairs; Engineering; MCA; MBA; Online test; Login; Microstrip - Patch antennas. >> /Type /StructElem /S /TD /S /InlineShape /Pg 111 0 R /Pg 3 0 R /Type /StructElem >> /S /P /Type /StructElem 745 0 obj << /Pg 111 0 R /Pg 89 0 R /P 324 0 R /P 533 0 R /P 692 0 R /K [ 656 0 R 658 0 R 660 0 R ] /S /TD >> 565 0 obj >> >> << /S /TD << /S /P /Type /StructElem endobj endobj /S /InlineShape /P 654 0 R endobj >> /Pg 30 0 R /S /P endobj 617 0 R 618 0 R 619 0 R 620 0 R 625 0 R 626 0 R 627 0 R 629 0 R 630 0 R 631 0 R 632 0 R /Type /StructElem /Type /StructElem 750 0 obj /Pg 111 0 R /Type /StructElem << >> /QuickPDFF18bb5539 17 0 R The Microstrip patch antennas are well known for their performance and their robust design, fabrication and their extent usage. /Type /StructElem /Pg 30 0 R /K [ 12 ] /K [ 587 0 R ] Next, some feed modeling techniques are discussed. 335 0 obj /S /TD /Type /StructElem /S /L >> �ɦ���%�c�%��I�Y�d�~O���z��&m���͞������L�XC7����i�K�i��#-$�a�����ch���X�jn��tʼ>���k�9��^��U'@�x���m�p�� (7(����I�0��Æ�p��I��`wp-$�kC�a��"�Ո( /Lang (en-IN) endobj /Pg 111 0 R << << /Type /StructElem /Pg 30 0 R /K [ 1 ] endobj /S /Span >> >> >> /K [ 16 ] /Pg 103 0 R /Pg 111 0 R endobj /S /P endobj endobj >> >> /K [ 9 ] endobj /Pg 69 0 R /K [ 755 0 R ] 771 0 obj >> /Type /StructElem /F6 19 0 R /Pg 69 0 R endobj /S /LBody /K [ 9 ] << /Pg 30 0 R /CenterWindow false /P 234 0 R 821 0 obj 465 0 R 468 0 R 471 0 R 472 0 R 477 0 R 478 0 R 479 0 R 483 0 R 484 0 R 488 0 R 492 0 R /P 335 0 R endobj endobj /S /P endobj 129 0 obj /Type /StructElem /P 527 0 R 716 0 obj /K [ 67 ] /P 119 0 R /K [ 15 ] << /Pg 111 0 R /S /P /Type /StructElem /Type /StructElem /Type /StructElem /Pg 69 0 R /S /P /Pg 96 0 R /P 766 0 R /P 234 0 R /K [ 11 ] >> 128 0 obj /Pg 30 0 R endobj 289 0 obj /K [ 216 0 R ] /Type /StructElem /K [ 481 0 R ] /Type /StructElem >> /P 283 0 R /S /LBody /Pg 111 0 R /Type /StructElem /S /P /Type /StructElem << endobj >> << 550 0 obj /S /P endobj endobj /S /P /Pg 30 0 R >> A microstrip patch antenna is one of the most popular microwave antennas. 691 0 obj /Pg 30 0 R /Type /StructElem /Type /StructElem /Type /StructElem 178 0 obj endobj /K [ 757 0 R ] << 636 0 obj 504 0 R 506 0 R 508 0 R 507 0 R 510 0 R 511 0 R 515 0 R 514 0 R 518 0 R 517 0 R 519 0 R /P 220 0 R /S /Span /S /P Simulation and Results The proposed antenna was simulated by using HFSS (High Frequency Structure Simulator) as shown in Figure 4. /K [ 32 ] /Pg 111 0 R endobj /Type /StructElem /Type /StructElem /Type /StructElem /Type /StructElem << a. >> endobj endobj /S /P /P 119 0 R /S /P endobj >> endobj /Pg 96 0 R endobj /S /Span /K [ 56 ] /Type /StructElem /S /TD 141 0 obj /S /LI << /P 284 0 R /Type /StructElem << /Pg 30 0 R << /Type /StructElem endobj 247 0 obj 623 0 obj /S /P /Pg 96 0 R endobj /Pg 30 0 R >> /P 737 0 R /K [ 811 0 R ] 609 0 obj endobj /K [ 47 ] /Pg 89 0 R endobj /K [ 428 0 R ] >> /K [ 523 0 R ] /Pg 30 0 R >> In most microstrip patch antennas the feed line impedance is 50 ohm, whereas the radiation resistance at the edge of the patch is on the order of a few hundred ohms depending on the patch dimension and the substrate used. << /S /P /Pg 111 0 R 665 0 obj 568 0 obj >> endobj << /S /InlineShape /P 338 0 R /K [ 739 0 R ] /S /Span endobj /Pg 111 0 R endobj << << /P 119 0 R /S /H1 << endobj << << /P 129 0 R /S /P << endobj endobj /S /P << << /K [ 780 0 R 782 0 R 784 0 R 786 0 R 788 0 R 790 0 R 792 0 R ] endobj /S /P /S /P /Alt () << 375 0 obj >> /Pg 96 0 R /Type /StructElem endobj /Pg 111 0 R /P 674 0 R 423 0 obj >> endobj >> /Pg 69 0 R endobj /Type /StructElem /Type /StructElem /K [ 31 ] /K [ 2 ] 419 0 obj /P 765 0 R 354 0 obj 188 0 obj /S /TR 830 0 obj 312 0 obj /Pg 89 0 R << /P 502 0 R 762 0 obj >> /P 119 0 R /Type /StructElem 582 0 obj << /P 119 0 R /Pg 111 0 R /S /P /Type /StructElem >> /K [ 4 ] >> >> >> endobj /Pg 69 0 R 688 0 obj >> /QuickPDFF7822381d 39 0 R >> 148 0 R 150 0 R 152 0 R 153 0 R ] endobj endobj endobj endobj /Pg 111 0 R /Type /StructElem /P 119 0 R /Pg 69 0 R endobj << << >> /K 44 endobj /Type /StructElem /P 229 0 R << >> >> /K 104 >> << /S /P /K [ 506 0 R 507 0 R 508 0 R ] << 213 0 obj << 775 0 obj /S /InlineShape 538 0 obj /K 2 /Pg 69 0 R /S /Span << << << /Type /StructElem /K [ 66 ] ��뙞j�Q t)kvFr>�U*XQt����1�Լ��r�6��f�g% ���n��n�Y��B|dC�F�a�~����59��>8���Y�]UMi��)JD�A��=Y�/Ę�:�j�d4���JO�JT�ە4�M`�ޠW`i���IԦ)�YC�Kތ�B���}�fYM�8�ۇ�V�$r��u�-^ ����gv)o�!�B ��IȺ� ��:�9� 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