диафрагмированные волноводные фильтры / 72230e1b-a784-4f98-b036-71d1da262411
.pdfIMS 2021 Detailed Author Index |
[Page 111 / 148] |
||
|
|
|
|
Shi, Yu |
(University of Notre Dame, USA) |
A |
|
717 |
C Photo-Induced Coded-Aperture Imaging at 740GHz Using Mesa Arrays for Achieving |
||
|
Subwavelength Resolution (Th1B-4) |
||
Shibata, Hironobu (Mitsubishi Electric, Japan) A |
|||
835 |
C An X-Band High Power Tile-Type GaN TR Module for Low-Profile AESA (Th2F-3) |
||
Shih, Hung-Tse |
(NYCU, Taiwan) A |
|
|
(MWCL) |
C 5G Millimeter-Wave Substrate-Integrated Waveguide Quad-Channel Diplexer with |
||
|
High In-Band and Wideband Isolation (Tu1C-1) |
||
Shin, Jaekyung |
(Sungkyunkwan University, Korea) A |
||
649 |
C Hybrid ET Supply Modulator IC with an Adaptive Quiescent Current Controller for its |
||
|
Linear Amplifier (WeIF1-51) |
|
|
Shirane, Atsushi |
(Tokyo Tech, Japan) |
A |
|
799 |
C A Ka-Band 16-Element Deployable Active Phased Array Transmitter for Satellite |
||
|
Communication (Th2D-2) |
|
|
Shivan, T. (FBH, Germany) A |
|
||
290 |
C High Conversion Gain Up-Converter with +5 dBm OP1dB in InP DHBT Technology for |
||
|
Ultra Capacity Wireless Applications (We1F-2) |
||
(MWCL) |
C A Highly Linear Dual-Stage Amplifier with Beyond 1.75-THz Gain-Bandwidth Product |
||
|
(Th1E-1) |
|
|
Shrestha, Pawana |
(University of California, Santa Barbara, USA) A |
||
(MWCL) |
C 6.2W/mm and Record 33.8% PAE at 94GHz from N-Polar GaN Deep Recess MIS-HEMTs |
||
|
with ALD Ru Gates (We2F-3) |
||
Shu, Yonghui (Eravant, USA) A |
|
||
559 |
C Robust Contactless Waveguide Flange for Fast Measurements (WeIF1-25) |
[Search] |
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
IMS 2021 Detailed Author Index |
[Page 112 / 148] |
|
|
|
|
|
||||||||
|
|
|
|
|
||||||||||
Sideris, Constantine |
(University of Southern California, USA) |
A |
|
|
||||||||||
128 |
C |
High-Order Accurate Integral Equation Based Mode Solver for Layered Nanophotonic |
||||||||||||
|
|
Waveguides (Tu3A-3) |
|
|
|
|
|
|
|
|
|
|||
Sieganschin, Anton |
(Technische Universität Hamburg-Harburg, Germany) |
A |
||||||||||||
(MWCL) |
C |
A Compact K-/Ka-Band Rectangular-to-Coplanar Waveguide Transition with |
||||||||||||
|
|
Integrated Diplexer (We1C-5) |
|
|
|
|
|
|
|
|
||||
489 |
C |
A Compact SIW K-/Ka-Band Diplexer with Integrated Reactive Power Divider (WeIF1-6) |
||||||||||||
Sielck, Noah |
(Technische Universität Hamburg-Harburg, Germany) |
A |
|
|||||||||||
489 |
C |
A Compact SIW K-/Ka-Band Diplexer with Integrated Reactive Power Divider (WeIF1-6) |
||||||||||||
Silvestri, Lorenzo |
(Università di Pavia, Italy) |
A |
|
|
|
|
|
|
||||||
400 |
C |
Microwave-Microfluidic Sensor in Hybrid 3-D Printing and Laminate Technology for |
||||||||||||
|
|
Chemicals Monitoring from Di erential Reflection (We3B-3) |
|
|||||||||||
Simoncini, G. |
(Università di Perugia, Italy) |
A |
|
|
|
|
|
|
|
|||||
823 |
C |
A Wireless MEMS Humidity Sensor Based on a Paper-Aluminium Bimorph Cantilever |
||||||||||||
|
|
(Th2E-4) |
|
|
|
|
|
|
|
|
|
|
|
|
Simpson, Dakotah |
(University of Colorado Boulder, USA) |
A |
|
|
|
|
||||||||
158 |
C |
Hybridly-Integrated Quasi-Elliptic-Type Bandpass Filters with Symmetrical |
||||||||||||
|
|
Quasi-Reflectionless Characteristics (Tu3C-5) |
|
|
|
|
|
|||||||
Simsek, Arda |
(University of California, Santa Barbara, USA) |
A |
|
|
|
|||||||||
713 |
C |
A Packaged 135GHz 22nm FD-SOI Transmitter on an LTCC Carrier (Th1B-3) |
||||||||||||
Singh, Tejinder |
(University of Waterloo, Canada) |
A |
|
|
|
|
|
|||||||
420 |
C |
Scalable Non-Volatile Chalcogenide Phase Change GeTe-Based Monolithically |
||||||||||||
|
|
Integrated mmWave Crossbar Switch Matrix (We3D-1) |
|
|
||||||||||
Siriburanon, Teerachot |
(University College Dublin, Ireland) |
A |
|
|
|
|||||||||
635 |
C |
Cryogenic Low-Drop-Out Regulators Fully Integrated with Quantum Dot Array in |
||||||||||||
|
|
22-nm FD-SOI CMOS (WeIF1-46) |
|
|
|
|
|
|
|
|
||||
[Search] |
|
A B |
C |
D |
E F G |
H I J |
K |
L |
M N |
O |
P |
Q |
R S |
T U V W X Y Z |
IMS 2021 Detailed Author Index [Page 113 / 148]
Sivanesan, Kathiravetpillai |
(Intel, USA) |
A |
|||||
108 |
C |
High Accuracy RF-PUF for EM Security Through Physical Feature Assistance Using |
|||||
|
|
Public Wi-Fi Dataset (Tu2D-1) |
|
||||
Slovin, Greg (Tower Semiconductor, USA) |
A |
||||||
424 |
C |
Switch Stacking for OFF-State Power Handling Improvements in PCM RF Switches |
|||||
|
|
(We3D-2) |
|
|
|
|
|
428 |
C |
Multi-Throw SPNT Circuits Using Phase-Change Material RF Switches for 5G and |
|||||
|
|
Millimeter Wave Applications (We3D-3) |
|||||
431 |
C |
Wideband SPDT and SP4T RF Switches Using Phase-Change Material in a SiGe BiCMOS |
|||||
|
|
Process (We3D-4) |
|
|
|
||
Smith, Connor |
(University of Florida, USA) |
A |
|||||
323 |
C |
Batch-Fabricated Substrate-Embedded Ka Band Self-Biased Circulators Using |
|||||
|
|
Screen-Printed Strontium Hexaferrite/PDMS Composite (We2B-1) |
|||||
Song, Ho-Jin |
(POSTECH, Korea) |
A |
|
|
|||
142 |
C |
THz-Wave Waveguide Packaging with Multiple THz On-Chip Transitions Integrated in |
|||||
|
|
Single Chip (Tu3B-5) |
|
|
|||
Song, P. |
(Wolfspeed, USA) |
A |
|
|
|
|
|
531 |
C |
Investigation on a Desirable DPD Architecture and Trapping Characteristics for GaN |
|||||
|
|
Power Amplifier Linearization (WeIF1-17) |
|||||
Sorocki, Jakub |
(AGH UST, Poland) |
A |
|
||||
400 |
C |
Microwave-Microfluidic Sensor in Hybrid 3-D Printing and Laminate Technology for |
|||||
|
|
Chemicals Monitoring from Di erential Reflection (We3B-3) |
|||||
Sow, Ousmane |
(X-FAB, France) |
A |
|
|
|||
20 |
C |
5.9–7.1GHz High-Linearity LNA Using Innovative 3D Device Level Co-Integration of |
|||||
|
|
GaN HEMT and RF-SOI (Tu1B-1) |
|||||
[Search] |
A B C D |
E |
F |
G |
H I J |
K L M N O P Q R S T U V W X Y Z |
IMS 2021 Detailed Author Index |
[Page 114 / 148] |
||||
|
|
|
|||
Soylu, Utku |
|
(University of California, Santa Barbara, USA) A |
|||
378 |
C |
A 200GHz InP HBT Direct-Conversion LO-Phase-Shifted Transmitter/Receiver with |
|||
|
|
15dBm Output Power (We2F-2) |
|||
787 |
C |
A 190–210GHz Power Amplifier with 17.7–18.5dBm Output Power and 6.9–8.5% PAE |
|||
|
|
(Th2C-2) |
|
|
|
Sriperumbuduri, Venkata Pawan |
(BTU, Germany) A |
||||
355 |
C |
Modeling Base-Collector Heterojunction Barrier E ect in InP DHBTs for Improved |
|||
|
|
Large Signal Performance (We2D-3) |
|||
Stadius, Kari |
(Aalto University, Finland) A |
||||
784 |
C |
Characterization of an Antenna Cluster and Transmitter IC with a Modulated Signal |
|||
|
|
(Th2A-5) |
|
|
|
Stadler, Bethanie |
(University of Minnesota, USA) A |
||||
(MWCL) |
C |
Study of Nanowire-Based Integrated via Technology for CMOS Application in |
|||
|
|
Millimeter-Wave Frequencies (Tu3B-4) |
|||
Staszewski, R. Bogdan |
(Equal1 Labs, Ireland) A |
||||
635 |
C |
Cryogenic Low-Drop-Out Regulators Fully Integrated with Quantum Dot Array in |
|||
|
|
22-nm FD-SOI CMOS (WeIF1-46) |
|||
Stelzer, Andreas |
(Johannes Kepler Universität Linz, Austria) A |
||||
756 |
C |
High Angular Resolution Digital Beamforming Method for Coherent FMCW MIMO |
|||
|
|
Radar Networks (Th1D-5) |
|||
Sterzl, Georg |
(Universität Stuttgart, Germany) A |
||||
(MWCL) |
C |
Subnanoliter Sensing of Dielectric Properties of Liquid-in-Flow at 190GHz (Tu4D-1) |
|||
Su, Huan-Min |
(National Tsing Hua University, Taiwan) A |
||||
393 |
C |
A 64-Gbaud Transimpedance Amplifier in 130nm SiGe Technology with E ective |
|||
|
|
Broadband Techniques (We2G-4) |
|||
[Search] |
|
A B |
C D |
E F G |
H I J K L M N O P Q R S T U V W X Y Z |
IMS 2021 Detailed Author Index |
[Page 115 / 148] |
|
|
|
|
Su, Wei |
(CAEP, China) A |
|
566 |
C A High E ciency D-Band 32-Channel Radial Waveguide Power Divider/Combiner |
|
|
(WeIF1-27) |
|
Suárez, Almudena (Universidad de Cantabria, Spain) A
(MWCL) C Nonlinear Analysis of a High-Power Oscillator Inductively Coupled to an External Resonator (Tu4A-1)
180 C Analysis of Noise and Dynamical E ects in Zero-IF Self-Oscillating Mixers (Tu4A-3)
Sugiyama, Hiroki (NTT, Japan) A
(MWCL) C 220–325-GHz 25-dB-Gain Di erential Amplifier with High Common-Mode-Rejection Circuit in 60-nm InP-HEMT Technology (We3F-2)
Suto, Yuki (Fujikura, Japan) A
(MWCL) C Antenna-in-Package Integration for a Wideband Scalable 5G Millimeter-Wave Phased-Array Module (Th3E-1)
Swaminathan, Madhavan (Georgia Tech, USA) A
16 C Machine Learning Based Uncertainty Quantification of Extrapolated Design Space and Frequency Response for RF Structures (Tu1A-5)
339 C Substrate Integrated Waveguides in Glass Interposers for mmWave Applications
(We2C-2)
[Search] |
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
IMS 2021 Detailed Author Index [Page 116 / 148]
T
Tabrizian, Roozbeh |
(University of Florida, USA) |
A |
|
|||||||
(MWCL) |
C |
Ferroelectric-on-Si Super-High-Frequency Fin Bulk Acoustic Resonators with |
||||||||
Tahar, Fairus |
Hf0.5Zr0.5O2 Nanolaminated Transducers (WeIF1-61) |
|||||||||
(Kyushu University, Japan) |
A |
|
|
|
||||||
54 |
C |
E cient and Compact Dual-Band Wireless Power Transfer System Through Biological |
||||||||
|
|
Tissues Using Dual-Reference DGS Resonators (Tu1D-1) |
||||||||
Takahashi, Hiroyuki |
(NTT, Japan) |
A |
|
|
|
|
|
|||
(MWCL) |
C |
220–325-GHz 25-dB-Gain Di erential Amplifier with High Common-Mode-Rejection |
||||||||
|
|
Circuit in 60-nm InP-HEMT Technology (We3F-2) |
||||||||
Takahashi, Yuta |
(Tokyo Tech, Japan) |
A |
|
|
|
|
||||
799 |
C |
A Ka-Band 16-Element Deployable Active Phased Array Transmitter for Satellite |
||||||||
|
|
Communication (Th2D-2) |
|
|
|
|
|
|||
Takano, Kohei |
|
(Saitama University, Japan) |
A |
|
|
|||||
(MWCL) |
C |
A Novel Deep-Q-Network-Based Fine-Tuning Approach for Planar Bandpass Filter |
||||||||
|
|
Design (Tu2A-1) |
|
|
|
|
|
|
||
Takano, Kyoya |
|
(Tokyo University of Science, Japan) |
A |
|||||||
705 |
C |
A 258-GHz CMOS Transmitter with Phase-Shifting Architecture for Phased-Array |
||||||||
|
|
Systems (Th1B-1) |
|
|
|
|
|
|
||
Takeda, Shinji |
|
(Tokyo Tech, Japan) |
A |
|
|
|
|
|
||
799 |
C |
A Ka-Band 16-Element Deployable Active Phased Array Transmitter for Satellite |
||||||||
|
|
Communication (Th2D-2) |
|
|
|
|
|
|||
Takenaka, Kiichiro |
(Murata Manufacturing, Japan) |
A |
||||||||
523 |
C |
Parallel Plate Coupler Based Doherty Power Amplifier Design for 5G NR Handset |
||||||||
|
|
Applications (WeIF1-15) |
|
|
|
|
|
|
||
[Search] |
A |
B C |
D E F G |
H |
I |
J |
K L |
M |
N O P Q R S T U V W X Y Z |
IMS 2021 Detailed Author Index |
[Page 117 / 148] |
|
|
|||||||
|
|
|
|
|||||||
Takenouchi, Yoshimitsu |
(Murata Manufacturing, Japan) |
A |
|
|||||||
523 |
C |
Parallel Plate Coupler Based Doherty Power Amplifier Design for 5G NR Handset |
||||||||
|
|
Applications (WeIF1-15) |
|
|
|
|
||||
Tamiazzo, Stefano |
(CommScope, Italy) |
A |
|
|
|
|||||
(MWCL) |
C |
A True Inline Coaxial-Cavity Filter with Two Symmetric Zeros (Tu3C-1) |
||||||||
Tamura, Masaya |
(Toyohashi University of Technology, Japan) |
A |
||||||||
58 |
C |
Design of Disposable Film-Type Capacitive Wireless Charging for Implantable Medical |
||||||||
|
|
Devices (Tu1D-2) |
|
|
|
|
|
|||
Tanaka, Satoshi |
(Murata Manufacturing, Japan) |
A |
|
|
||||||
791 |
C |
A Bandwidth-Optimized Transformer-Based Doherty Power Amplifier for 5G Power |
||||||||
|
|
Class 2 Handset Operation at 2.2GHz–2.7GHz (Th2C-4) |
||||||||
Tang, A. |
(Jet Propulsion Laboratory, USA) |
A |
|
|
|
|||||
(MWCL) |
C |
A 0.1–4.0-GHz Inductorless Direct-Sequence Spread-Spectrum-Based |
||||||||
|
|
Ground-Penetrating Radar System-on-Chip (Th1D-3) |
||||||||
811 |
C |
Surface Cancellation in Wideband Ground Penetrating Radar Employing Genetic |
||||||||
|
|
Algorithm AI for Waveform Synthesis (Th2E-1) |
|
|
||||||
Tang, Youxi |
(UESTC, China) |
A |
|
|
|
|
||||
446 |
C |
A High-Accuracy Digital Predistorter Constructed by Reproducing Iterations of ILC |
||||||||
|
|
with Cascade Architecture (We3E-5) |
|
|
|
|||||
614 |
C |
An Out-of-Band Digital Predistortion Scheme and its Verification for Power Amplifiers |
||||||||
|
|
with Strong Nonlinearity (WeIF1-40) |
|
|
|
|||||
Tanoi, Satoru |
|
(NICT, Japan) |
A |
|
|
|
|
|||
458 |
C |
A 213–233GHz ×9 Frequency Multiplier Chain with 4.1dBm Output Power in 40nm |
||||||||
|
|
Bulk CMOS (We3F-5) |
|
|
|
|
||||
705 |
C |
A 258-GHz CMOS Transmitter with Phase-Shifting Architecture for Phased-Array |
||||||||
|
|
Systems (Th1B-1) |
|
|
|
|
||||
[Search] |
|
A |
B |
C D |
E |
F G H I |
J K L |
M N |
O |
P Q R S T U V W X Y Z |
IMS 2021 Detailed Author Index |
[Page 118 / 148] |
|||
|
|
|||
Tao, Han-Yu |
(University of Virginia, USA) A |
|||
665 |
C |
Terahertz Input-Reflectionless Waveguide Filter (WeIF1-57) |
||
Tao, Ye |
(Carleton University, Canada) |
A |
||
241 |
C |
Multilevel Parameterized Model Order Reduction for Variability Analysis of Circuits |
||
|
|
(We1B-4) |
|
|
Tarar, Mohsin |
(Universität Ulm, Germany) A |
|||
23 |
C |
A -115dBc/Hz Integrated Optoelectronic Oscillator in a BiCMOS Silicon Photonic |
||
|
|
Technology (Tu1B-2) |
|
|
Taravati, Sajjad |
(University of Toronto, Canada) A |
|||
412 |
C |
Experimental Demonstration of Enhanced E ciency Non-Magnetic Time-Modulated |
||
|
|
Circulator (We3C-3) |
|
|
416 |
C |
Lightweight Low-Profile Highly-E cient Magnetless Isolator Comprising Two |
||
|
|
Time-Modulated Loops (We3C-4) |
||
Tarui, Yukinobu |
(Mitsubishi Electric, Japan) A |
|||
835 |
C |
An X-Band High Power Tile-Type GaN TR Module for Low-Profile AESA (Th2F-3) |
||
Tavakoli Taba, M. |
(University of Michigan, USA) A |
|||
752 |
C |
Broadband Sub-THz Chirp Linearization Using Particle Swarm Optimization for |
||
|
|
Precision Metrology Applications (Th1D-4) |
||
Tawa, Noriaki |
(NEC, Japan) A |
|
||
541 |
C |
28GHz Distributed-MIMO Comprehensive Antenna Calibration for 5G Indoor Spatial |
||
|
|
Division Multiplex (WeIF1-20) |
[Search] |
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
IMS 2021 Detailed Author Index [Page 119 / 148]
Tentzeris, Manos M. |
(Georgia Tech, USA) |
A |
|
|
||||||
82 |
C |
Ultra-Low-Cost Passive 3D-Printed Vibration Transducers for Condition Monitoring by |
||||||||
|
|
Means of Wireless Chipless Transponders (Tu2B-1) |
|
|||||||
86 |
C |
A Novel Additively 4D Printed Origami-Inspired Tunable Multi-Layer Frequency |
||||||||
|
|
Selective Surface for mm-Wave IoT, RFID, WSN, 5G, and Smart City Applications |
||||||||
|
|
(Tu2B-2) |
|
|
|
|
|
|
|
|
(MWCL) |
C |
5.8-GHz Low-Power Tunnel-Diode-Based Two-Way Repeater for Non-Line-of-Sight |
||||||||
|
|
Interrogation of RFIDs and Wireless Sensor Networks (We1E-2) |
|
|||||||
327 |
C |
In-Package Additively Manufactured Sensors for Bend Prediction and Calibration of |
||||||||
|
|
Flexible Phased Arrays and Flexible Hybrid Electronics (We2B-2) |
|
|||||||
661 |
C |
A Machine Learning Approach-Based Chipless RFID System for Robust Detection in |
||||||||
|
|
Real-World Implementations (WeIF1-56) |
|
|
||||||
Terranova, S. |
|
(Università di Pisa, Italy) |
A |
|
|
|
|
|||
90 |
C |
3D Printed Chipless Tag Based on Spectral Encoding Scheme (Tu2B-3) |
||||||||
Thangarasu, Bharatha Kumar |
(SUTD, Singapore) |
A |
|
|||||||
709 |
C |
A 24.6–32.5GHz Millimeter-Wave Frequency Synthesizer for 5G Wireless and 60GHz |
||||||||
|
|
Applications (Th1B-2) |
|
|
|
|
|
|||
Tharpe, Troy |
|
(University of Florida, USA) |
A |
|
|
|
||||
(MWCL) |
C |
Ferroelectric-on-Si Super-High-Frequency Fin Bulk Acoustic Resonators with |
||||||||
|
|
Hf0.5Zr0.5O2 Nanolaminated Transducers (WeIF1-61) |
|
|||||||
Thayyil, Manu Viswambharan (Technische Universität Dresden, Germany) |
A |
|||||||||
286 |
C |
A 60GHz Folded Switching Stage Down-Conversion Mixer with 21dB Conversion Gain |
||||||||
|
|
in 22nm FDSOI Technology (We1F-1) |
|
|
||||||
Thome, Fabian |
(Fraunhofer IAF, Germany) |
A |
|
|
||||||
(MWCL) |
C |
A 75–305-GHz Power Amplifier MMIC with 10–14.9-dBm Pout in a 35-nm InGaAs |
||||||||
|
|
mHEMT Technology (We3F-1) |
|
|
|
|
||||
[Search] |
|
A |
B C |
D E F |
G H |
I |
J |
K L M |
N O P Q R S T |
U V W X Y Z |
IMS 2021 Detailed Author Index [Page 120 / 148]
Thorsell, Mattias |
(Saab, Sweden) |
A |
|
|
|
|
|||||
(MWCL) |
C |
Instinctual Interference-Adaptive Low-Power Receiver with Combined Feedforward |
|||||||||
|
|
and Feedback Control (We3G-1) |
|
|
|
||||||
Tien, Chao-Jen |
(NYCU, Taiwan) |
|
A |
|
|
|
|
||||
768 |
C |
A 0.6-V VDD, 3.8-dB Minimum Noise Figure, 19.5–62.5-GHz Low Noise Amplifier in |
|||||||||
|
|
28-nm Bulk CMOS (Th1F-3) |
|
|
|
|
|||||
Tkach, Alexander |
(Universidade de Aveiro, Portugal) |
A |
|||||||||
258 |
C |
Barium Strontium Titanate Thick Films for Tunable Software-Defined Radio |
|||||||||
|
|
Front-Ends (We1D-2) |
|
|
|
|
|
||||
Tolani, Harshita |
(ISRO, India) |
A |
|
|
|
|
|
||||
827 |
C |
Hermetically Sealed S-Band LTCC Based Transmit/Receive Module with Integrated |
|||||||||
|
|
Self-Calibration Circuitry for Space-Borne SAR (Th2F-1) |
|||||||||
Tomassoni, Cristiano |
(Università di Perugia, Italy) |
A |
|||||||||
150 |
C |
Spurious Suppression Through the Control of Their Couplings: Application to TM |
|||||||||
|
|
Cavity Filters (Tu3C-3) |
|
|
|
|
|||||
(MWCL) |
C |
3-D-Printed Dual-Mode Filter Using an Ellipsoidal Cavity with Asymmetric Responses |
|||||||||
|
|
(Tu4B-1) |
|
|
|
|
|
|
|
||
Tong, Zikang |
|
(Stanford University, USA) |
A |
|
|
|
|||||
725 |
C |
Wideband Class Φ2 Power Amplifier for HF Applications (Th1C-1) |
|||||||||
Traore, Emile |
|
(University of Waterloo, Canada) |
A |
|
|
||||||
869 |
C |
Experimental Study of the E ects of Antenna Crosstalk on the Linearity and E ciency |
|||||||||
|
|
of 5G Sub-6GHz Wideband 2×2 Transmitter Arrays (Th3E-2) |
|||||||||
Trinchero, Riccardo |
(Politecnico di Torino, Italy) |
A |
|
||||||||
13 |
C |
Compressed Machine Learning-Based Inverse Model for the Design of Microwave |
|||||||||
|
|
Filters (Tu1A-4) |
|
|
|
|
|
|
|||
[Search] |
|
A |
B |
C |
D E F |
G |
H I |
J K |
L |
M |
N O P Q R S T U V W X Y Z |