RF Phase Shifters Specifications

See All Suppliers In This Area
Fill out as many options as you want. Click "Run Search Filter" at any time.

Phase Shifter Types:

Help

Frequency Range:

Help

Phase Shift Range:

Help

Insertion Loss:

dB
Help

Input VSWR:

:1
Help

Input Power:

Help

Control Voltage (for Analog Phase Shifters):

Help

Number of Bits (for Digital Phase Shifters):

Help

Package Type:

Help

RF Connector:

Help
View All RF Phase Shifters Suppliers
View RF Phase Shifters Datasheets

Help with RF Phase Shifters specifications:

Phase Shifter Types
   Phase Shifter Types       
   Your choices are...         
   Analog       The control element is a continuous signal (voltage, current, etc.). 
   Digital       The control element is a digital signal.  The number of bits of the controller sets the steps in the phase changes. 
   Other       Other, not listed, types. 
   Search Logic:      All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches.
Back to Top
Phase Shifter Performance
   Frequency Range:       The frequency range for which the phase shifter will meet all guaranteed specifications. 
   Search Logic:      User may specify either, both, or neither of the limits in a "From - To" range; when both are specified, matching products will cover entire range. Products returned as matches will meet all specified criteria.
   Phase Shift Range:      The maximum phase shift in degrees that the phase shifter can produce.
   Your choices are...         
   90º       The phase shift range is 90°. 
   180º       The phase shift range is 180°. 
   270º       The phase shift range is 270°. 
   360º       The phase shift range is 360°. 
   Other       Other unlisted phase shift ranges 
   Search Logic:      Products with the selected attribute will be returned as matches. Leaving or selecting "No Preference" will not limit the search criteria for this question; products with all attribute options will be returned as matches.
   Insertion Loss       Insertion Loss (in dB) it defined as the measured power loss through the device. It is calculated as the ratio of power output to power input. 
   Search Logic:      All matching products will have a value less than or equal to the specified value.
   Input VSWR       VSWR (Voltage Standing Wave Ratio) is a unitless ratio ranging from 1 to infinity, expressing the amount of reflected energy at the input of the device.  A value of one indicates that all the energy will pass through, while any other value indicates that a portion of the energy will be reflected. 
   Search Logic:      All matching products will have a value less than or equal to the specified value.
   Input Power       The maximum amount of RF power (in Watts) that can be applied to the device without causing excessive heating. 
   Search Logic:      All matching products will have a value greater than or equal to the specified value.
   Tables:         
   VSWR vs. Return Loss     

VSWR

Return Loss (dB)

Reflected Power (%)

VSWR

Return Loss (dB)

Reflected Power (%)

1.00

infinity

0.000

1.38

15.94

2.55

1.01

46.06

0.005

1.39

15.75

2.67

1.02

40.09

0.010

1.40

15.56

2.78

1.03

36.61

0.022

1.41

15.38

2.90

1.04

34.15

0.040

1.42

15.21

3.03

1.05

32.26

0.060

1.43

15.04

3.14

1.06

30.71

0.082

1.44

14.88

3.28

1.07

29.42

0.116

1.45

14.72

3.38

1.08

28.30

0.144

1.46

14.56

3.50

1.09

27.32

0.184

1.47

14.41

3.62

1.10

26.44

0.228

1.48

14.26

3.74

1.11

25.66

0.276

1.49

14.12

3.87

1.12

24.94

0.324

1.50

13.98

4.00

1.13

24.29

0.375

1.55

13.32

4.8

1.14

23.69

0.426

1.60

12.74

5.5

1.15

23.13

0.488

1.65

12.21

6.2

1.16

22.61

0.550

1.70

11.73

6.8

1.17

22.12

0.615

1.75

11.29

7.4

1.18

21.66

0.682

1.80

10.88

8.2

1.19

21.23

0.750

1.85

10.51

8.9

1.20

20.83

0.816

1.90

10.16

9.6

1.21

20.44

0.90

1.95

 9.84

10.2

1.22

20.08

0.98

2.00

 9.54

11.0

1.23

19.73

1.08

2.10

 9.00

12.4

1.24

19.40

1.15

2.20

 8.52

13.8

1.25

19.08

1.23

2.30

 8.09

15.3

1.26

18.78

1.34

2.40

 7.71

16.6

1.27

18.49

1.43

2.50

 7.36

18.0

1.28

18.22

1.52

2.60

 7.04

19.5

1.29

17.95

1.62

2.70

 6.76

20.8

1.30

17.69

1.71

2.80

 6.49

22.3

1.31

17.45

1.81

2.90

 6.25

23.7

1.32

17.21

1.91

3.00

 6.02

24.9

1.33

16.98

2.02

3.50

 5.11

31.0

1.34

16.75

2.13

4.00

 4.44

36.0

1.35

16.54

2.23

4.50

 3.93

40.6

1.36

16.33

2.33

5.00

 3.52

44.4

1.37

16.13

2.44

6.00

 2.92

50.8
Back to Top
Control Signal
   Control Voltage (for Analog Phase Shifters):       The voltage range used to change the output signal phase by certain range. 
   Search Logic:      User may specify either, both, or neither of the limits in a "From - To" range; when both are specified, matching products will cover entire range. Products returned as matches will meet all specified criteria.
   Number of Bits (for Digital Phase Shifters):       The number of bits of the digital control signal used to change the output phase in a phase shifter. If n is the number of bits of the digital control signal, then the number of output states (phase changes) is 2n
   Search Logic:      All matching products will have a value greater than or equal to the specified value.
Back to Top
Package Type
   Package Type:       
   Your choices are...         
   Surface Mount Technology (SMT)       Surface mount technology (SMT) adds components to a printed circuit board (PCB) by soldering component leads or terminals to the top surface of the board. SMT components have a flat surface that is soldered to a flat pad on the face of the PCB. Typically, the PCB pad is coated with a paste-like formulation of solder and flux. With careful placement, SMT components on solder paste remain in position until elevated temperatures, usually from an infrared oven, melt the paste and solder the component leads to the PCB pads.   Industry-standard pick-and-place equipment can mount SMT components quickly, accurately, and cost-effectively. SMT is a widely used alternative to mounting processes that insert pins or terminals through holes and solder leads into place on the opposite side of the board. 
   Flat Pack       Flat pack (FPAK) devices have gull wing or flat leads on two or four sides. They provide exceptional thermal and electrical performance and are available in cavity-up and cavity-down configurations. Flat pack devices are typically ceramic, hermetic, and surface-mounted. They are available in a variety of body sizes and pin counts. 
   Through Hole Technology (THT)       Through hole technology (THT) mounts components on a printed circuit board (PCB) by inserting component leads through holes in the board and then soldering the leads in place on the opposite side of the board. 
   Connectorized       Connectorized devices attach with coaxial or other types of connectors. 
   Waveguide Assembly       Waveguide assemblies are used in microwave waveguide systems. They consist of a hollow metallic conductor with a rectangular, elliptical, or circular cross-section. Some conductors contain solid or gaseous dielectric materials. 
   Other       Other unlisted package types. 
   Search Logic:      All products with ANY of the selected attributes will be returned as matches. Leaving all boxes unchecked will not limit the search criteria for this question; products with all attribute options will be returned as matches.
   RF Connector:       
   Your choices are...         
   BNC       Bayonet Neil-Concelman (BNC) connectors were designed for military applications, but are used widely in video and RF applications to 2 GHz. BNC connectors have a slotted outer conductor and a plastic dielectric that causes increasing losses at higher frequencies. BNC connectors are usable above 4 GHz as long as the slots radiate signals; however, these devices may not be mechanically stable to 10 GHz. Both 50Ω  and 75Ω BNC connectors are available. BNC connectors are also known as bayonet navy connectors or baby Neil connectors. 
   MCX       Miniature coaxial (MCX) connectors provide broadband capability through 6 GHz and are used in applications where weight and physical space are limited. They provide good electrical performance and are used to address the rapid implementation of the U.S. digital cellular PCN infrastructure. MCX connectors are also used in global positioning systems (GPS) and wireless LAN  (WLAN) applications. 
   Mini UHF       Mini-UHF connectors are a miniature version of the original UHF connector. They feature a threaded coupling mechanism for reliable mating. Mini-UHF connectors are designed for use in cellular mobile telephone systems where size, weight and cost are critical. With crimp cable termination for low installation costs, these connectors provide excellent RF performance in applications through 2.5 GHz. 
   MMCX       Micro-miniature coaxial (MMCX) connectors are smaller than MCX connectors and feature a more robust interface for greater durability. They are ideal for high volume, wireless SMT or PCMCIA applications in cellular base stations, cellular phones and personal communicators. MMCX connectors are also used in global positioning systems and wireless LAN (WLAN) applications. 
   SMA       Subminiature-A (SMA) connectors are intended for use on semi-rigid cables in components. They directly interface the cable dielectric without air gaps.  They are not intended for permanent connections. 
   SMB       Subminiature-N (SMB) connectors are snap-mount connectors that are available either in 50Ω or 75Ω impedances.  They are used for frequencies from DC to 4GHz. 
   SMP       Subminiature P (SMP) connectors are rated to 40 GHz and, depending on detent type, can withstand from 100 to 1,000 interconnect cycles. 
   TNC       Threaded Neil-Concelman (TNC) connectors are similar in size to BNC connectors but feature a threaded coupling nut for applications that require performance to 11 GHz. TNC connectors are durable, reliable devices that are widely used in the cellular and mobile communication industry for equipment cabling and antenna interfaces. 
   Type F       Type F connectors have a screw-type coupling and frequency range up to 1.5 GHz. Applications include CATV, TV, and antennas. 
   Type N       Type N connectors include an integrated gasket to protect against environmental ingress and create an air gap between the center and the outer conductor. They primarily have 50Ω impedance, but 75Ω versions for CATV, are available. 
   UHF       Ultra high frequency (UHF) connectors are economical, all-purpose connectors designed with non-constant impedance for use in comparatively low voltage and low frequency applications such as citizens' band (CB) communications systems. UHF connectors are also used in public address systems, closed circuit television (CCTV), civil defense, landing systems, ground control apparatus, ship-to-shore communications, and mobile radio equipment hookups between antenna and transmitters or receivers. 
   1.6 / 5.6       1.6 / 5.6 connectors are mechanically sturdy devices that feature a coupling mechanism. They are often used with equipment that requires resistance against environmental and mechanical stress. 1.6 / 5.6 connectors are also suitable for handling RF analog and digital signals in telecommunications systems. 
   7-16       7-16 connectors are designed for use in medium to high power communication systems. These connectors perform exceptionally well in multichannel cellular systems where power levels approximate 100 watts per channel. Designed for both flexible as well as corrugated cables, these connectors are used in a variety of cellular base station and broadcast communication applications. 
   Other       Other unlisted connectors. 
   Search Logic:      Products with the selected attribute will be returned as matches. Leaving or selecting "No Preference" will not limit the search criteria for this question; products with all attribute options will be returned as matches.
Back to Top