Wednesday, December 16, 2015

Directional Couplers 500 MHz to 6 GHz by Werbel Microwave


WMDC20-0.5-6.0-X


The WMDC20-0.5-6.0-X series directional couplers cover the continuous band of 500 MHz to 6-GHz with 20 ± 1.0 dB nominal coupling and ± 0.5 dB typical flatness.  The unit is useable to 8 GHz with degradation of performance.  Directivity is 20 dB typical (15 min).  VSWR at all ports is specified 1.3:1 maximum.  Insertion loss is 0.5 typical at the high frequency.  Designed for 100 watts or less.  May be customized with N or SMA female connectors.  Made in Livingston N.J. USA by Werbel Microwave LLC.

MEASURED Main Line VSWR and INSERTION LOSS Response
The main line input and output return loss measurements are displayed in the upper-left and right windows, respectively.  The main line insertion loss is shown in the bottom window.  Markers are placed at the worst-case points, showing a worst-case insertion loss of less than 0.6 dB.



MEASURED COUPLING and DIRECTIONALITY Parameters

In the following screen, the memory trace (lower window) depicts the coupling response.  The directionality parameter is displayed in the upper-left window and measured as reverse isolation, divided by the memorized coupling response.  This mathematical operation is performed point-for-point during the sweep by the network analyzer.  Coupled port return loss is shown in the upper-right window.

OR FURTHER INFORMATION

Write or call Werbel Microwave LLC, Livingston, New Jersey, USA.

Thursday, December 10, 2015

Sync your Test Equipment with a 10-MHz Splitter/Combiner from Werbel Microwave


WMPD08-0.01-X

 

The WMPD08-0.01-X series power divider is a laboratory-grade 10-MHz splitter/combiner for synchronizing test equipment clock signals.  It offers typical channel isolation > 35 dB (22 dB minimum), maximum insertion loss of 0.6 dB, and maximum port SWR of 1.25.  Phase and amplitude balance are < 1 degree and < 0.1 dB at all ports.  May be customized with BNC, N or SMA female connectors.  Made in USA by Werbel Microwave LLC.

 

 

Saturday, October 31, 2015

High-Directivity Directional Couplers Cover 1-18GHz, Useable 0.5-20GHz.

 
Werbel Microwave LLC is developing a new series of high-directivity directional couplers for laboratory use.  The series is designed to operate over the frequency band 1-18GHz but the devices are useable over 0.5-20GHz with some performance roll-off.  Currently available in 10 and 20 dB units.  Directivity is 15 dB minimum and VSWR is 1.5:1 maximum over the entire band.  Coupling flatness is +/- 0.5dB nominal within a +/- 1.0 dB window.  Made in Livingston, NJ, USA.



Test Data Below: Click Images to Enlarge


 
Coupling

 
 
Directivity

 
 
Return Loss: Main Line
 
 
 
Return Loss: Coupled Port
 
 
 
Insertion Loss









 

Sunday, July 26, 2015

WMPD06-0.5-6-S - Six-way power divider from Werbel Microwave

The 6-way power divider model WMPD06-0.5-6-S is the newest edition to the 500-6,000MHz family of power dividers from Werbel Microwave LLC.  This unit comes with SMA connectors; type N is also available.  Measures 9.0 x 6.0 x 0.9 inches.  Input and output return loss is -11 and -15 dB typ. respectively, isolation is -20 dB typ. and insertion loss is 2.2 degrees max.  Phase and amplitude balance are typically 3deg/0.4 dB.  Rated ta 50 watts input power as a splitter only.  Part of Werbel Microwave's growing series to meet the needs of 5G, this unit is usable down to 250-MHz with some degradation of performance.

Input Return Loss:

 
Isolation:

 
 
Phase:
 

 
 
Output Return Loss:

 
Insertion Loss:
 
 



Thursday, June 25, 2015

Werbel Microwave - WMDC10-0.3-2.7-S - 10-dB Directional Coupler - 300-2700MHz

 
 
Directivity -20dB min, -25dB typ.
 
 
 
Insertion Loss 1.0dB max.
 
 
Return Loss -20dB min., -27 dB typ.


Sunday, June 7, 2015

IEEE 30th Annual Mini-Show in East Hanover NJ


Werbel Microwave – Table 45

IEEE 30th Annual Mini-Show

Hanover Manor, 16 Eagle Rock Ave, East Hanover, N.J. 07936

Thursday, October 1, 2015

Thursday, May 28, 2015

Werbel Microwave Breaks into HF,VHF,UHF Applications.

Werbel Microwave is developing a new series of directional couplers and power dividers to cover the frequency range 1-520 MHz.  Current applications are on a "design to order" basis, however a standard product line is coming soon. 

Now is your chance to get in on this new development that will effectively double Werbel's current Directional Coupler and Power Splitter product lines. 

Call (973) 900-2480 for more information and to request a quote.

Wednesday, May 27, 2015

Werbel Microwave Bias Tees Extend to 6-GHz

Werbel Microwave's line of bias tees are available as a custom, built-to-order product.  DC voltage may be interfaced via feed-through or RF connector.  Available in SMA or N.

Current series extends to cover 380MHz to 6-GHz.  Designed for upper VHF, UHF, Public Safety, Cellular, Wi-Max, PCS and UMTS applications.

Call (973) 900-2480 for more information and to request a quote.

Tuesday, May 26, 2015

New Broadband Power Divider Series Covers 500 MHz to 6 GHz

Werbel Microwave's new series of power dividers cover 500 MHz to 6 GHz continuously.  Designed for use in Public Safety, LTE, Cellular, SMR, PCS, UMTS, Wi-Max and many more applications.  Available in configurations up to 8-way splitting with either SMA or N connectors.

WMPD02-0.5-6-N = 2-way N
WMPD02-0.5-6-S = 2-way SMA
WMPD03-0.5-6-N = 3-way N
WMPD03-0.5-6-S = 3-way SMA
WMPD04-0.5-6-N = 4-way N
WMPD04-0.5-6-S = 4-way SMA
WMPD06-0.5-6-N = 6-way N
WMPD06-0.5-6-S = 6-way SMA
WMPD08-0.5-6-N = 8-way N
WMPD08-0.5-6-S = 8-way SMA

Call (973) 900-2480 for more information or to request a quote.

Monday, May 25, 2015

Attenuators on VNA Cables when testing Passive Devices

Our article as published "In my Opinion" in the March 2015 issue of Microwave Product Digest.


Attenuators on VNA Cables when testing Passive Devices

 

Some difficulty in acquiring reliable measurements triggered a point of interest from previous experiences.  Why did some technicians place precision attenuators on one or both VNA cables as part of a setup for measuring passive devices?  “It’s always been there.”  But like all things, there must be a reason.

 

Protection of equipment from power overload sensibly applies to active devices.  Since I had been employed at companies that manufactured both active and passive devices, I wondered if it was merely convenient to leave it on all the time.  But what effect would this have on production testing of passive devices?  And what advantages or problems, if any, come from this?

 

A question on Linked In quickly erupted into an elaborate, technical discussion about the benefits and drawbacks of calibrating through precision attenuators on VNA cables.  I thank all those who contributed their insight.  Following this, I experimented on the subject, to arrive at some conclusion on the effect of calibration and production testing.  More importantly, how it might help improve reliability of measurements with our VNA.

 

The characteristic return loss of any cable contains ripple; and this becomes more pronounced with length.  Of course, the lower to the noise floor this ripple is, the better.  But even with lower grade cables, the VNA calibration sets the reference planes beyond the cable, thereby eliminating this from the measurement.  Or does it?

 

The importance of phase and amplitude stability is emphasized in the quality of the test cables.  As vectors are comprised of magnitude and phase, an unexpected variation would invalidate measurements.  Bending and flexing a cable, even slightly will introduce a variation against the calibrated values.  Not to mention temperature and humidity drifting.  And when an imperfect DUT is introduced, the problem compounds.

 

An indoor office environment can be made relatively stable, at least for a timeframe long enough to acquire measurements.  So I am not too worried about temperature and humidity fluctuations immediately following calibration.  However, slight bends in cables are unavoidable, particularly when DUT ports are located on several different mounting faces.  Fixtures can aid.  We found clamping the cable gently in a vise during and after calibration to be particularly helpful in securing cables while minimizing bends. 

 

That being established, we conducted some experiment to observe the ripple effect, and answer the question as to the benefit, if any, provided by calibrating through attenuators on VNA cables.

 

In the experiment, we considered both 2-way and 4-way Wilkinson power dividers and a 10-dB directional coupler of our own design covering 2-18GHz, a pair of 3-foot test cables, and a pair of 10-dB attenuators specified to 18GHz.

 

In the first pass, an SOLT calibration was performed using both cables only.  With the 2-way splitter connected directly, VSWR measured 1.4:1 or better at all ports, which is reasonable and expected for the DUT.  However, there was noticeable ripple of many peaks in the through measurement, superimposed upon the expected characteristic ripple caused by multiple Wilkinson sections.

 

We then measured our 4-way model.  There was still some cable-induced ripple present, but less pronounced, down at -6.5dB.  When we measured a precision -10dB attenuator, or our 10-dB directional coupler model for that matter, the ripple was barely noticeable.  So for us, this was a problem when measuring relatively low-value attenuation.

 

The VNA was then recalibrated SOLT with 10-dB precision attenuators on each cable end that would interface to the DUT.  It is important to note the attenuators remained as part of the test set for the entire calibration.  The 2-way DUT was reconnected with the padded cables.  VSWR was identical to the non-cable measurements, thereby verifying the calibration.  The cable-induced ripple was almost non-existent, except at the highest frequencies (above 13-GHz, probably beginning to cross over the attenuator element despite being rated to 18-GHz).

 

We performed one more experiment using a connector saver adapter so the DUT could be connected directly onto the VNA port 1, using only one cable without attenuator on port 2.  As with the first experiment, there was ripple at -3.5 and -6.5 dB, but not as pronounced as with two, unpadded cables.

 

It would appear to me that even though the SOLT calibration cancels out the effect of cable ripple initially, when reflections exist on the line caused by an imperfect DUT or cable flexure, these reflections get summed with the ripple of the cable, and are reintroduced into the measurement.  The attenuators proved to be a useful ripple buffer in taking S21 measurements at the expense of a reduction in dynamic range.  In fact, there was noticeable noise appearing in S11 and S22 windows as high as -40dB, making this approach impractical for high-attenuation DUT’s such as our upcoming 50-dB directional coupler. 

 

Of course, using a large smoothing aperture when recording passband ripple is cheating, and nobody ever does that.  An improvement to the setup perhaps, will be to use lower value attenuators, such as 6-dB or even 3-dB, to assist in clean, passive measurements without the use of smoothing.  Please write to me with your comments and suggestions.

 

 

Ernest Werbel

Werbel Microwave LLC

Wednesday, March 4, 2015

Wideband 8-Way Power Divider 8PA1000 (SMA-Female 2,000-18,000MHz)

Wideband 8-Way Power Divider 8PA1000 (SMA-Female 2,000-18,000MHz)


No lab test setup is complete without the 8PA1000 from Werbel Microwave.  Operating continuously from 2-18GHz, this 8-way SMA splitter has low insertion loss, excellent branch balance and high isolation.  Order yours today!  Made only in the United States.

Wideband 4-Way Power Divider 4PA1000 (SMA-Female 2,000-18,000MHz)

Wideband 4-Way Power Divider 4PA1000 (SMA-Female 2,000-18,000MHz)
 

Werbel Microwave expands its series of 2-18GHz coverage with the new, model 4PA1000 four-way SMA splitter.  Can be optimized using our trade techniques to meet strict amplitude and phase balance per customer requirements.  High isolation, typically 22 dB or more between all branches.  Great for lab test setups, made in USA.

Tuesday, February 24, 2015

Wideband 2-Way Power Divider 2PA1000 (SMA-Female 2,000-18,000MHz)

Model 2PA1000 is a new 2-way SMA power divider from Werbel Microwave covering 2-18 GHz continuously in a compact package measuring 2 x 1 x 0.5 inches with SMA female connectors.  Low insertion loss, excellent balance and high isolation.  Great for lab testing environments.  Each unit is hand-crafted with pride in the United States.

Wide Band Directional Coupler 10CA1000 (SMA-Female 2,000-18,000MHz)

New from Werbel Microwave, model 10CA1000 is an SMA directional coupler covering 2-18 GHz continuously at a nominal coupling value of 10 ± 1.00 dB.  Directivity and return losses are -15 dB or better throughout the entire 2-18 GHz range.  Measures 5.0 x 0.6 x 0.5 inches.  Designed for indoor laboratory testing environments, and of course, hand-crafted in USA.

Thursday, February 5, 2015

Werbel Microwave Unveils 20-dB 2-18GHz Coupler

 
New for February 2015, the model 20CA1000 directional coupler from Werbel Microwave covers the entire 2-18GHz at a nominal 20 ± 1.00 dB coupling.  Port return losses are 1.5:1 or better, and directivity is typical 20 dB. 

But don't take my word for it... just look at the plots below of our prototype.



Coupling




Directivity




Insertion Loss




Return Loss: Main Line





Return Loss: Coupled Port




Mechanical Outline





Friday, January 23, 2015

1/23/15 Directional Coupler 20dB 700-2700 MHz



Werbel Microwave LLC thanks High Frequency Electronics magazine for sharing our new directional coupler, model 20CH170 on page 44 of their print edition.

Model 20CH170 is a single directional coupler covering 700-2700 MHz.  Coupling is 20 ± 1.25 dB throughout the 700-2700 MHz band with 22 dB  minimum directivity / directionality.  Return loss is 1.2:1 (-20dB) or better.  Rated at 100 watts on the main line and designed by material selection for low PIM performance.  Standard with N-female connectors.  Measures 4.5 x 2.0 x 0.8 inches.  Hand-crafted in USA.

This and many more directional couplers are available for your consideration on our web site, www.WerbelMicrowave.com.  Custom configurations are available.  We can custom design and build to your order within 2 months or less, design-to-delivery time frame.  Don't wait, call the number on this datasheet and order yours today!