| |
| Contents of Volume I | p. vii |
| Foreword | p. xvii |
| Preface | p. xix |
| Phase-Shifter Circuits Using Switching Devices | p. 389 |
| Introduction | p. 389 |
| Reflection-Type Circuits | p. 390 |
| Transmission-Type Circuits | p. 396 |
| Circulator Coupled Phase-Shifter Circuits | p. 399 |
| Hybrid Coupled Phase-Shifter Circuits | p. 403 |
| Switched Line Phase-Shifter Circuits | p. 406 |
| Loaded Line Phase-Shifter Circuits | p. 408 |
| High-Pass Low-Pass Phase-Shifter Circuits | p. 411 |
| Other Switched Network Phase Shifters | p. 414 |
| Concluding Remarks | p. 416 |
| References | p. 416 |
| P-I-N Diode Phase Shifters | p. 419 |
| Introduction | p. 419 |
| P-I-N Diode and Its Equivalent Circuit | p. 419 |
| Switched-Line Stripline and Microstrip Phase Shifters | p. 421 |
| Series-Diode Switched Line Circuit | p. 422 |
| Shunt-Diode Switched Line Circuit | p. 424 |
| Other Switched Line Configurations | p. 426 |
| Broadbanding Techniques | p. 428 |
| Insertion Loss and Peak Power Capacity | p. 436 |
| Design Examples | p. 439 |
| Typical Circuit Layout | p. 444 |
| Hybrid Coupled Stripline-Like and Microstrip-Line Phase Shifters | p. 445 |
| Branchline Hybrid Coupled Phase Shifter | p. 445 |
| Backward-Wave Hybrid Coupled Phase Shifter | p. 453 |
| Rat-Race Hybrid Coupled Phase Shifter | p. 455 |
| Optimization of Bandwidth | p. 459 |
| Insertion Loss and Power-Handling Capability-- Approximate Formulas | p. 462 |
| Loaded-Line Stripline and Microstrip Phase Shifters | p. 463 |
| General Analysis | p. 463 |
| Loaded Line Circuits | p. 469 |
| Loaded Line Circuits for Large Phase Bits | p. 473 |
| Design Example | p. 476 |
| Slot-Microstrip Coupled Phase Shifter | p. 478 |
| Fin-Line Phase Shifter | p. 479 |
| Driver Circuit Considerations | p. 483 |
| Comparison of Various Phase Shifters | p. 486 |
| References | p. 490 |
| FET Phase Shifters | p. 493 |
| Introduction | p. 493 |
| Single-Gate MESFET Characteristics | p. 493 |
| Basic Operation and Equivalent Circuit | p. 493 |
| MESFET as a Passive Switch | p. 497 |
| MESFET as an Active Switch | p. 499 |
| Single-Gate MESFET Switching Amplifier | p. 500 |
| Amplifier Circuit | p. 500 |
| Considerations as Amplifier-Cum-Switch | p. 506 |
| Dual-Gate MESFET Characteristics | p. 507 |
| Basic Operation | p. 507 |
| Equivalent Circuit | p. 509 |
| Operation as Amplifier-Cum-Switch | p. 511 |
| Passive Phase Shifters | p. 513 |
| Single-Gate MESFET Biasing Considerations | p. 513 |
| Single-Gate MESFET Phase Shifters | p. 515 |
| Active FET Phase Shifters | p. 518 |
| Single-Gate MESFET Digital Phase Shifter | p. 518 |
| Dual-Gate MESFET Digital Phase Shifter | p. 520 |
| Analog Phase-Shifting Schemes | p. 521 |
| 360[degree] Analog Vector Phase Shifters | p. 522 |
| References | p. 524 |
| Varactor Diode Phase Shifters | p. 527 |
| Introduction | p. 527 |
| Varactor Diode Equivalent Circuit | p. 527 |
| Reflection-Type Phase Shifters | p. 529 |
| Variable Reactance as Reflective Termination | p. 529 |
| Termination Using a Varactor in Series with a Shorted Stub | p. 530 |
| Reflective Termination Using Two Series-Tuned Varactors | p. 532 |
| Transmission-Type Phase Shifters | p. 536 |
| Varactor-Loaded Transmission Line Circuits | p. 536 |
| Varactor-Controlled FET Phase Shifter | p. 537 |
| Comparison With P-I-N Diode Phase Shifters | p. 538 |
| References | p. 539 |
| Monolithic Phase Shifters | p. 541 |
| Introduction | p. 541 |
| Materials and Process Technology | p. 542 |
| Materials | p. 542 |
| GaAs Technology | p. 544 |
| Circuit Elements for Monolithic Phase Shifters | p. 545 |
| Planar Transmission Lines | p. 545 |
| Lumped and Distributed Passive Elements | p. 547 |
| GaAs MESFET | p. 551 |
| Other Active Devices | p. 554 |
| Typical MMIC Process | p. 559 |
| Monolithic Passive Phase Shifters | p. 561 |
| Digital Phase Shifters | p. 562 |
| Analog Phase Shifters | p. 570 |
| Monolithic Active Phase Shifters | p. 574 |
| Dual-Gate FET Phase Shifters | p. 574 |
| Optically-Controlled Phase Shifters | p. 577 |
| Performance Summary | p. 581 |
| References | p. 581 |
| Millimeter-Wave Phase Shifters | p. 585 |
| Introduction | p. 585 |
| Ferrite Phase Shifters | p. 585 |
| Semiconductor Device Phase Shifters | p. 586 |
| Dielectric-Plasma Guide Phase Shifters | p. 587 |
| Semiconductor-Slab-Loaded Waveguide Phase Shifter | p. 591 |
| Active Phase Shifter Using Varactor-Controlled Gunn | p. 593 |
| Suspended Slot and Microstrip Transmission Lines With Magnetized Semiconductor Substrates | p. 594 |
| References | p. 598 |
| Surface Acoustic Wave and Magnetostatic Wave Delay-Line Phase Shifters | p. 601 |
| Introduction | p. 601 |
| Basics of Surface Acoustic Waves | p. 601 |
| Piezoelectricity | p. 601 |
| Properties of Surface Acoustic Waves | p. 602 |
| SAW Delay Lines | p. 606 |
| Interdigital Transducer | p. 606 |
| Characteristics of SAW Delay Lines | p. 614 |
| Microwave SAW Delay Lines | p. 620 |
| Basics of Magnetostatic Waves | p. 623 |
| Materials | p. 623 |
| Fundamental MSW Modes | p. 623 |
| MSW Delay Lines | p. 626 |
| MSW Guiding Structures | p. 626 |
| Transducers | p. 637 |
| Practical MSW Delay Lines | p. 642 |
| Comparison of SAW and MSW Delay Lines | p. 645 |
| References | p. 647 |
| Selection Criteria for Phase Shifters in Systems | p. 651 |
| Introduction | p. 651 |
| Selection Criteria for Digital Phase Shifters | p. 652 |
| Selection Criteria for Analog Phase Shifters | p. 657 |
| References | p. 659 |
| Index | p. 661 |
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