phase shift module

{{redirect|Phase shifter|the type of electric utility transformer|quadrature booster}}

File:General Microwave Phase Shifter.png

A phase shift module is a microwave network module which provides a controllable phase shift of the RF signal.Microwave Solid State Circuit Design, 2nd Ed., by Inder Bahl and Prakash Bhartia, John Wiley & Sons, 2003 (Chapter 12)RF MEMS Theory, Design and Technology by Gabriel Rebeiz, John Wiley & Sons, 2003 (Chapter 9-10)Antenna Engineering Handbook, 4th Ed., by John Volakis, McGraw-Hill, 2007 (Chapter 21) Phase shifters are used in phased arrays.Phased Array Antennas, 2nd Ed., by R. C. Hansen, John Wiley & Sons, 1998Phased Array Antenna Handbook, 2nd Ed., by Robert Mailloux, Artech House, 2005Phased Array Antennas by Arun K. Bhattacharyya, John Wiley & Sons, 2006

Classification

=Active versus passive=

Active phase shifters provide gain, while passive phase shifters are lossy.

Active:
Applications: active electronically scanned array (AESA), passive electronically scanned array (PESA)
Gain: The phase shifter amplifies while phase shifting
Noise figure (NF)
Reciprocity: not reciprocal
Passive:
Applications: active electronically scanned array (AESA), passive electronically scanned array (PESA)
Loss: the phase shifter attenuates while phase shifting
NF: NF = loss
Reciprocity: reciprocal

=Analog versus digital=

Analog phase shifters provide a continuously variable phase shift or time delay.[http://www.herley.com/index.cfm?act=app_notes¬es=iqv_phaseshift Microwave Phase Shifter] {{Webarchive|url=https://web.archive.org/web/20030327163207/http://www.herley.com/index.cfm?act=app_notes¬es=iqv_phaseshift |date=2003-03-27 }} information from Herley General Microwave
Digital phase shifters provide a discrete set of phase shifts or time delays. Discretization leads to quantization errors. Digital phase shifters require parallel bus control.
Differential, single-ended or waveguide:
Differential transmission line: A differential transmission line is a balanced two-conductor transmission line in which the phase difference between currents is 180 degrees. The differential mode is less susceptible to common mode noise and cross talk.
Antenna selection: dipole, tapered slot antenna (TSA)
Examples: coplanar strip, slotline
Single-ended transmission line: A single-ended transmission line is a two-conductor transmission line in which one conductor is referenced to a common ground, the second conductor. The single-ended mode is more susceptible to common-mode noise and cross talk.
Antenna selection: double folded slot (DFS), microstrip, monopole
Examples: CPW, microstrip, stripline
Waveguide
Antenna selection: waveguide, horn

=Frequency band=

=One-conductor or dielectric transmission line versus two-conductor transmission line=

One-conductor or dielectric transmission line (optical fibre, finline, waveguide):
Modal
No TEM or quasi-TEM mode, not TTD or quasi-TTD
Higher-order TE, TM, HE or HM modes are distorted
Two-conductor transmission line (CPW, microstrip, slotline, stripline):
Differential or single-ended
TEM or quasi-TEM mode is TTD or quasi-TTD
Phase shifters versus TTD phase shifter
A phase shifter provides an invariable phase shift with frequency, and is used for fixed-beam frequency-invariant pattern synthesis.
A TTD phase shifter provides an invariable time delay with frequency, and is used for squint-free and ultra wideband (UWB) beam steering.

=Reciprocal versus non-reciprocal=

Reciprocal: T/R
Non-reciprocal: T or R

=Technology=

Non semi-conducting (ferrite, ferro-electric, RF MEMS, liquid crystal):
Passive
Semi-conducting (RF CMOS, GaAs. SiGe, InP, GaN or Sb):
Active: BJT or FET transistor based MMICs, RFICs or optical ICs
Passive: PIN diode based hybrids

=Design=

Loaded-line:
Distortion:
Distorted if lumped
Undistorted and TTD if distributed
Reflect-type:
Applications: reflect arrays (S₁₁ phase shifters)
Distortion:
Distorted if S₂₁ phase shifter, because of 3 dB coupler
Undistorted and TTD if S₁₁ phase shifter
Switched-network
Network:
High-pass or low-pass
$\pi$ or T
Distortion:
Undistorted if the left-handed high-pass sections cancel out the distortion of the right-handed low-pass sections
Switched-line
Applications: UWB beam steering
Distortion: undistorted and TTD
Vector summing

Figures of merit

Number of effective bits, if digital [bit]
Biasing: current-driven, high-voltage electrostatic [mA, V]
DC power consumption [mW]
Distortion: group velocity dispersion (GVD) [ps²/nm]
Gain [dB] if active, loss [dB] if passive
Linearity: IP3, P1dB [dBm]
Phase shift / noise figure [°/dB] (phase shifter) or time delay / noise figure [ps/dB] (TTD phase shifter)
Power handling [mW, dBm]
Reliability [cycles, MTBF]
Size [mm²]
Switching time [ns]

References

External links

[https://www.microwaves101.com/encyclopedias/phase-shifters "Phase Shifters"], Microwaves101.com
[https://web.archive.org/web/20030327163207/http://www.herley.com/index.cfm?act=app_notes¬es=iqv_phaseshift Microwave Phase Shifter] information from Herley General Microwave
[http://www.activefrance.com/Antennas/Phase_Shifter8.pdf] A low cost electro-mechanical phase shifter design, including a brief summary of solid state methods @ www.activefrance.com{{deadlink|date=July 2019}}

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Category:Microwave technology