RF Current Meter

By popular request. The RF.Guru RF Current Meter was developed as a practical replacement for the discontinued MFJ-854, one of the most requested tools from our readers, customers, and field users. Pre-order launch discount until June 1, 2026. The RF.Guru RF Current Meter is available at a reduced pre-order introductory price for orders placed on or before June 1, 2026. After that date, the regular price applies. Goods will start shipping from June 1, 2026. Handmade in Belgium. This is a pre-order launch batch. Fulfilment starts from June 1, 2026, and shipping times may vary depending on order volume. Please allow 1–2 weeks for assembly and dispatch once fulfilment begins. If you would like a more precise estimate, feel free to contact us before ordering. Related RF.Guru reading CMC Is the Biggest Problem in Ham Radio Common Mode and Return Currents on Coax: Your Feedline Is Fighting You Common-Mode Current Issues in EFHWs vs. Off-Center-Fed Antennas Optimal Common-Mode RF Current and Noise Elimination for TX Antennas The RF.Guru RF Current Meter is a fully passive analog field tool for finding unwanted RF current on coax shields, control cables, USB cables, audio leads, tuner lines, power leads, and other conductors where RF should not be flowing. It is not designed as a laboratory-calibrated ammeter. Its real job is more practical and often more important: helping you find return current, common-mode current, and unwanted RF leakage in real installations. When a coax shield, control line, or equipment cable becomes part of the antenna system, the result can be RFI, distorted radiation patterns, noisy receive performance, hot microphones, unstable tuners, erratic USB devices, or strange behavior that disappears only when the station is rewired. This meter helps you locate those current paths quickly. Replace the current Video Overview block with this playlist embed: Video Playlist Not About Absolute Current ... About Current Where It Should Not Be A perfect coaxial feedline carrying only differential RF current has equal and opposite currents inside the cable structure. From outside the cable, those currents mostly cancel. But when RF current flows on the outside of the shield, the cable becomes part of the antenna system. The RF.Guru RF Current Meter is made to reveal that problem. Move it along the coax, around grounding conductors, near equipment leads, or across suspected return paths and watch the analog meter respond. The goal is to find where RF is escaping, returning, coupling, or being forced through places it should not use. Specs at a Glance Feature Specification Product Type Passive RF current indicator / common-mode current detector Primary Use Finding unwanted RF current on coax shields, cables, and conductors Frequency Coverage Useful from HF through VHF and into lower UHF, including typical 70 cm amateur-band troubleshooting. Practical sensitivity depends on the cable, coupling, current level, and measurement setup. Ferrite Material #31 ferrite material, chosen for broadband common-mode current sensing and suppression work across HF, VHF, and lower UHF Power Requirement None ... 100% passive, no battery required Display Analog meter movement Sensitivity Control Front-panel sensitivity knob for relative current indication Maximum Cable / Conductor Diameter Up to approximately 2 cm / 0.7 inches Sensor Type Large ferrite-core RF current pickup with passive detector and analog indication Measurement Type Relative RF current indication, not a calibrated absolute current measurement Typical Applications Coax common-mode current checks, choke placement, return-current hunting, RFI diagnosis, station grounding verification, tuner/feedline troubleshooting Operating Ranges Three selectable ranges: SENS / Low Power, MID / General Use, and QRO / High Power Suggested Power Use SENS up to about 20 W, MID around 20–200 W, QRO around 100 W–2 kW. These are practical operating ranges, not wattmeter calibration values. Protection Built-in overload and transient protection for normal field use, with a sensing circuit designed to remain safely loaded during operation Why We Built It The discontinued MFJ-854 left a real gap in the ham-radio toolbox. For years, operators used it to find RF current on feedlines and station wiring. Since it is no longer produced, many customers and readers asked us for a modern RF.Guru alternative. So we made one: simple, passive, analog, sensitive, and built around a large #31 ferrite core so it can be used on real-world cables without needing to dismantle half the station. HF, VHF, and Lower UHF Use The RF.Guru RF Current Meter is intended for practical current-hunting across the bands where common-mode current causes real station problems: HF antennas, VHF feedlines, and lower-UHF installations such as 70 cm systems. The large #31 ferrite core gives useful broadband response for this type of field troubleshooting. At the higher end of UHF, the reading should be treated as a practical indication rather than a calibrated measurement. The purpose remains the same: finding unwanted RF current paths and comparing one point in the station to another. What the Meter Actually Shows High indication on coax shield ... likely common-mode current or shield current. Change after adding a choke ... useful for checking whether the choke is actually reducing current at that point. Different readings along the same feedline ... helps reveal standing common-mode current and unwanted feedline radiation. Current on USB, audio, power, or control cables ... often points toward RFI entry or exit paths. Unexpected current on grounding or bonding conductors ... may indicate that the station ground is becoming part of the RF return path. Passive Analog Design The RF.Guru RF Current Meter requires no battery, no charger, no firmware, and no menu system. The RF energy picked up by the ferrite-core sensor is rectified and smoothed by a passive detector circuit, then displayed on the analog meter. The front-panel sensitivity knob lets you adjust the indication so you can compare one location to another. This makes it ideal for practical troubleshooting: before and after a choke, near and far from the shack, with and without radials, or with different cable routing. Large Ferrite Core for Real Installations Many current probes are useful on small coax but become awkward when the installation uses thick coax, bundled cables, control lines, or larger feed arrangements. The RF.Guru RF Current Meter uses a large ferrite core so it can handle cables or cable bundles up to approximately 2 cm / 0.7 inches in diameter. This makes it suitable not only for typical ham-radio coaxial feedlines, but also for larger station wiring, multi-cable bundles, grounding conductors, tower control lines, rotator cables, and other places where unwanted RF current can hide. Built-In Protection and Three Operating Ranges The RF.Guru RF Current Meter includes internal protection for normal field use, accidental overloads, and the kind of RF spikes that can occur when testing real antenna systems. The sensing circuit is designed so it always has a safe load while in use, helping protect the meter and pickup assembly during range changes. To make the meter useful from low-power troubleshooting to high-power station checks, it has three practical operating ranges: SENS / Low Power ... the most sensitive range, intended for low-power testing and finding smaller unwanted RF currents. Best used with transmitter power up to about 20 W. MID / General Use ... a balanced range for everyday station troubleshooting, choke comparison, and medium-power testing. Best used around 20 W to 200 W. QRO / High Power ... the least sensitive but most rugged range, intended for high-power checks and large common-mode currents. Use this range for 100 W to 2 kW station operation. When the RF power level is unknown, start in the QRO / High Power range, then reduce power or change to a more sensitive range if needed. The range markings are practical operating guidance, not wattmeter calibration. The meter responds to unwanted RF current through the core, not directly to transmitter output power. The built-in protection is intended for measurement safety and overload tolerance. It is not lightning protection and the instrument should not be left permanently connected as a station protection device. Typical Uses Checking coax shield current on EFHW, OCF, vertical, inverted-L, and multiband wire antennas Finding the best choke location instead of guessing where the common-mode current is highest Comparing choke performance before and after installation Tracking RFI paths on USB, audio, control, CAT, Ethernet, and power cables Investigating RF in the shack when microphones, speakers, interfaces, or computers behave strangely Checking return-current behavior around tuners, ununs, baluns, counterpoises, and radial systems Locating unintended radiating conductors in portable, field-day, club, contest, and home-station setups How to Use It in Practice Clamp around one cable or conductor at a time whenever possible. Transmit at low power first and increase only if needed for a useful indication. Adjust the sensitivity knob so the meter gives a readable relative indication. Move along the feedline to find where current rises, falls, or peaks. Install or move a choke, then repeat the measurement to see whether the unwanted current has actually changed. Compare readings relatively rather than treating the scale as an absolute current value. Important Measurement Note This instrument is designed to detect net RF current through the ferrite core. When equal and opposite currents pass through the core together, they can cancel. That is why a coax feedline with no external shield current may show little indication, while the same coax with common-mode current on the outside of the shield can produce a clear reading. That is exactly what makes this type of tool valuable. It helps you detect the current that should not be there. What It Is Not It is not a calibrated laboratory RF ammeter. It is not intended to replace a VNA, spectrum analyzer, or calibrated current probe. It is not meant to prove antenna efficiency from one reading. It is not a magic SWR tool. It is a practical diagnostic meter for one of the most common real-world RF problems: current flowing on cables and conductors that were never meant to be part of the antenna. Included with the Product Complete RF.Guru RF Current Meter Large #31 ferrite-core sensing assembly Analog meter with sensitivity control Fully passive detector circuit Mini-FAQ Is this a replacement for the MFJ-854? ... yes, it was developed as a practical RF.Guru replacement for the discontinued MFJ-854-style RF current meter. Does it measure exact RF current? ... no, it is a relative RF current indicator, not a calibrated laboratory ammeter. What is it mainly used for? ... finding unwanted RF current on coax shields, station wiring, control cables, power leads, and other conductors. Does it need a battery? ... no, it is 100% passive and requires no battery. What frequency range can it sense? ... it is useful from HF through VHF and into lower UHF, including typical 70 cm amateur-band troubleshooting. The reading should be treated as a relative indication, not a calibrated UHF measurement. Which ferrite material does it use? ... it uses a large #31 ferrite core, chosen for broadband common-mode current sensing and suppression work. How large can the measured cable be? ... the large ferrite core allows measurements around cables or bundles up to approximately 2 cm / 0.7 inches in diameter. Can I use it to test chokes? ... yes, it is very useful for comparing current before and after a choke and for finding better choke placement. Can it help with RFI problems? ... yes, it can help locate RF current on cables that may be carrying RF into or out of equipment. Is it suitable for portable use? ... yes, because it is passive, analog, and battery-free, it is very convenient for field and portable troubleshooting. Interested in more technical content? Subscribe to our updates for deep-dive RF articles and lab notes. Questions or experiences to share? Feel free to contact RF.Guru. Written by Joeri Van Dooren, ON6URE – RF engineer, antenna designer, and founder of RF.Guru, specializing in high-performance HF/VHF antennas and RF components.