Snap On Split Beads

Coax Jumper Choke - RG-8X - RFI Range: 1.8-65 MHz, -30 dB Noise Reduction, 1.5KW PEP, Magnetic Loop, Antenna Choke

SKU JC-1-1500-3
$29.95
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Coax Jumper Choke - RG-8X - RFI Range: 1.8-65 MHz, -30 dB Noise Reduction, 1.5KW PEP, Magnetic Loop, Antenna Choke
Product Details
MPN: JC-1-1500
Country/Region of Manufacture: USA

Simple Jumper Feed Line Choke

The simplest, most cost effective feed line choke is a ferrite ring installed as shown in the picture (at the antenna feed point) to stop feed line radiation or at the radio end of the coax to suppress common mode coax noise current on the coax braid.

Improves antenna pattern by preventing your dipole from becoming a tripole

Suppresses pesky coax braid radiation and RFI

Reduces coax braid common mode current up to -30 dB ( 6 "S" units) on receive

Use one choke for each antenna feed line

Add a double female barrel connector to act as an "extension" of the existing coax.

Magnetic Loop Users: use 1 JC-1-1500 at the antenna feed point to keep all of transmit power on antenna and another at radio end to remove common mode noise received on the coax braid.

Need the ring only and not the jumper, select F240-31-1 as the part #.

Question: Assuming the JC-1-1500 uses mix 31, why is the effective range 1.8-65MHz instead of 1-300MHz?

Answer: Look at measurement chart to see the answer - it takes at least -12 dB of common mode rejection to see/hear a noticeable difference with and without choke. Yes the spec for mix 31 say it is good to 300 mhz but at that frequency the CMRR is very small and hasn't much of effect on common mode rejection. Also when you form a choke with coax your are actually creating a parallel tuned circuit at a certain resonant frequency determined by the coax capacitance of approximately 28 pf/foot and the inductance of the coil. The graph shown that the max CMRR is roughly -30 dB between 1-21 MHz and slightly less as you go higher in freq (the resonant freq of the JC-1-1500 is roughly 10 MHZ and broad banded by the use of the ferrite). Above 6 meters CMRR becomes low so as not to be very effective. If you want to use the choke on higher bands you need to change ferrite mix and the number of turns of the choke so the center resonant freq is higher.

Ferrite are in reality frequency dependent resistors and the specs say they have a resistive component above 1 mHz and under 300 mHz but the resistance (or CMRR) has to be high enough to be effective. We publish the effective range so you know what to expect when used.


Often it is difficult to slip beads on a cable because of a plug or connector. Split beads solve this problem. They come in two halves that fit over the cable. A plastic snap cover holds the two halves together and holds the assembly on the cable.

For RFI use, mix 31 is effective from 1-300 Mhz, mix 43 works from 20-250 Mhz, Mix 61 is for 200-2000 Mhz, and mix 77 favors .1-20 MHz. These frequencies are those of the interfering signal to be eliminated, not the operating frequencies of the equipment to be protected.

Not sure of what sizes you need or solving a RFI problem with devices using multiple size cables?  Try the Ferrite Snap On Combo Pack which has sizes from 1/4″ to 3/4″ with either Mix 31 (1-300 MHz) or Mix 61 (200-2000 MHz) or Mix 75 (150 KHz – 10 MHz).

 NOW WITH QUANTITY PRICING FOR CLUB , VOLUME PURCHASERS!

Bead dimensions are shown in the picture below and in the table as A, B, C

FAIR RITE 185M CLIP ON FERRITE BEAD SPLIT CORE - Snap On Split Beads

Ferrite Split Bead Dimensions

Application Notes

Application Note for using these Snap On split beads: How Many Chokes do I need?

You can very effectively increase the choking impedance of smaller cable by using a large hole ferrite bead and wrapping the cable through several times.  For particularly difficult common mode current/RFI problems you may need a choking impedance as high as 5-10K ohms.  Using multiple beads and multiple turns through each bead will give higher impedances up to a point.  At higher frequencies, when the number of turns approaches an electrical wavelength, the choke becomes resonant due to stray capacitance and the inductance of the cable and limits the high end impedance values to less than the above table points.

Some example of ways to wrap cable are shown below.

Ferrite Split Beads with multiple turns of RG-58/59

FSB14 1 150x150 - Snap On Split Beads

FSB-1/4 – 1 turn

FSB 12 1 150x150 - Snap On Split Beads

FSB-1/2 1 turn

FSB12 1 Open 150x150 - Snap On Split Beads

FSB-1/2 Open Shell

FSB 12 2 150x150 - Snap On Split Beads

FSB-1/2 2 turns

FSB 12 3 150x150 - Snap On Split Beads

FSB-1/2 3 turns

FSB12 4 150x150 - Snap On Split Beads

FSB-1/2 4 turns

—–//—–

More examples of split bead use

20131210 1148191 300x180 - Snap On Split Beads

Ethernet Cable on FSB-1/4

20131210 114800 300x180 - Snap On Split Beads

Ethernet Cable on FSB-1/2 – 3 turns for 9X Impedance good filter for 15-30 mhz between 2K-3K ohms choking Z

Three Effective Radio Interference Filters

Effective RFI/EMI Chokes

20131219 110956 150x150 - Snap On Split Beads

FSB-1/4 or FSB-1/2 4 turns for 14-50 Mhz 2K-3K Z

20131219 111243 150x150 - Snap On Split Beads

FSB-1/2-5 turns for 10-30 Mhz 2K-4.5K choking Z

20131219 105947 150x150 - Snap On Split Beads

FT240-43 – 14 turns for 3-14 Mhz or use two FT240-43 for 1.8-10 Mhz

These snap-on chokes are useful for reducing RFI in public address system amplifiers, speaker wires, mic cables, mixer panels, coax cable, telephone wires, computer sound card speakers, dsl/cable connections, remote control heads for ham transceivers (Especially FT-100, FT900, IC-706, IC-7000), AC power cables, DC power cables, home theater cables, video cables, HI Fi cables, guitar amps, linear amp cables, etc.

 

They are also helpful in suppressing common mode noise/RFI in radio and TV receivers, audio and RF amplifiers.  They can also help suppress noise generated by treadmills, exercise equipment, fish tank heaters, oil heater pumps, fluorescent lights, motors, cable modems, DSL modems, computers, and many other electrical devices.  Common mode current reduction in computer cables often helps speed up computers.