Tag Archives: Spectrum Analyzer

A pocket-sized 5.35 GHz USB spectrum analyzer!

Always on the lookout for useful, but inexpensive test equipment, I recently ran across the Triarchy Technologies USB spectrum analyzer, model TSA5G35. The one thing that really struck me was the whole thing was built into a USB dongle, just a little larger than a memory stick. What’s more, the advertised frequency range was 1 MHz to 5.35 GHz. This, I had to see for myself.

So, is a spectrum analyzer no larger than a pack of chewing gum that you can carry in your pocket good enough for EMC analysis and troubleshooting? For a total cost of $599 (through their store on eBay), I decided to take a chance and run this remarkable PC-based analyzer through the ringer.

IMG_1482Figure 1 – Photo showing the analyzer with supplied USB extension cable and 30 dB attenuator.

16 MHz Osc with Mkr-600Figure 2 – A screen capture of a series of 16 MHz oscillator harmonics.

SPECIFICATIONS – Basic specifications include frequency coverage of 1 MHz to 5.35 GHz, resolution bandwidths of 50 through 500 kHz (not selectable), frequency spans from 1 MHz to 1 GHz, input level range of -110 to +30 dBm (using the supplied 30 dB attenuator for the higher power levels), and typical noise levels of -80 to -100 dBm (depending on the span and RBW). The maximum power level is +20 dBm for 1 minute (without the external attenuator) and +/- 25 VDC, which is excellent protection for this little instrument. The reference level range is -60 dBm to 0 dBm (no external attenuator) or -30 dBm to +30 dBm (with the external attenuator. the usable display range is 80 dB with a noise floor of -115 dBm at a 5 MHz span and -60 dBm reference level at 1 GHz. Amplitude accuracy is specified at less than 3 dB. All in all, not to bad for this little guy.

For more of this hands-on review on Test & Measurement World, click here…

Review: The Rigol $1,295 DSA815TG Spectrum Analyzer

If there’s been one spectrum analyzer that’s created buzz lately, it’s the recently announced Rigol DSA815 budget ($1,295) spectrum analyzer, which tunes from 9 kHz to 1.5 GHz. A tracking generator option will run an extra $200 and the EMI option, which provides quasi-peak detection and the three EMI bandwidths (and especially excites us EMC engineers), is an extra $600. There are a number of other options available. I was able to get my hands on a review unit and have put it through its paces during some recent EMC seminars and client projects. More…

Figure 1 – The Rigol DSA815TG (with tracking generator). 

Characterizing a Simple Dipole Antenna

As EMC engineers, we use many types of antennas – many broadband, these days. As a traveling EMC troubleshooter/consultant, I reply on small collapsible DIY antennas for troubleshooting, as described in an earlier blog posting.

In order to characterize these adjustable antennas versus frequency, it’s useful to be able to measure them with different element lengths extended, so that you know about where to set the length for the specific harmonics of interest. Using the new Rigol DSA815TG spectrum analyzer with tracking generator, and VSWR (voltage standing wave ratio) option, you can determine both the resonant frequency and VSWR, or how well the antenna is matched to the 50-Ohm coax cable. more…

The RF Explorer 3G Released Today

RF Explorer is a handheld digital spectrum analyzer covering 15 MHz to 2.7 GHz. It is based on a highly integrated frequency synthesizer and double balanced mixer which offers high performance, compact size, low consumption and low cost. I’ve been beta-testing the unit for some time now and can confirm it works well as an affordable general-purpose analyzer.

Being battery-operated (chargeable via USB), it makes a great EMC troubleshooting tool. Probably, the major disadvantage is the limited user interface, being just seven push buttons, but there is available freeware PC and Mac remote client software to run and display waveforms. The display is also limited in resolution, but for the price, it’s tough to complain too much!

To read a review of the older model, which is very similar, click here…

The new RF Explorer is available now through SeeedStudio for $269.

$129 Spectrum Analyzer???


Yes, it’s true. I ordered this ultra low cost analyzer from http://www.seeedstudio.com for a mere $129 just to play and found out that, despite some serious weaknesses, it is actually a useful tool.

There are five models, four single-band units, covering each of the most-used ISM bands (433, 868, 915 MHz and 2.4 GHz), and one model that encompasses all the bands, except 2.4 GHz. The 2.4 GHz band may be retrofitted into the latter for an extra 55 USD. They are all based on Silicon Labs Si4431 receiver chip (240 to 960 MHz). I purchased the model WSUB1G that tunes from 240 to 960 MHz.

To see the whole review, please jump over to Test & Measurement World

Low-Cost Handheld Spectrum Analyzer

The Thurlby Thander Instruments model PSA2701T. Photo courtesy TTi.

One specialty I offer my clients is troubleshooting and determining potential fixes for their products in order to get them to comply with worldwide EMC standards. Ideally, we want to do this prior to going out for compliance verification testing. As I travel a lot in my job, I like to take the minimum amount of test equipment possible. One of the fundamental pieces of gear is the spectrum analyzer, but they usually weigh a ton and are usually quite expensive.

About three years ago, I ran into quite a deal on a handheld spectrum analyzer that truly fit into my hand – unlike so-called “handhelds” that require both hands! Manufactured by Thurlby Thander Instruments, and virtually unknown here in the States, it’s distributed by well-known Newark Electronics, under the AIM-TTI brand (although, the actual unit is still branded TTi).

There are two models offered and I’ve had a chance to try both. The PSA1301T covers 100 kHz to 1.3 GHz ($1,500) and the PSA2701T covers 1 MHz to 2.7 GHz ($1,950). The leather case, which I recommend, runs $137.

In this review, I’ll cover the PSA2701T, which I have used for a couple years now. The PSA1301T is similar in specs; mainly the frequency range is different.

This is one clever little design. If examined closely, you’ll discover the entire user interface – controls and screen – is actually an embedded Palm TX PDA! By opening a couple side latches and lifting off the top cover, the PDA simply unplugs from the base unit. The PDA includes all the usual Palm applications, including Wi-Fi, so once you’re done measuring EMC, you can use the unit to check email and browse the Web! The product even comes with the original packaging and accessories for the Palm.

The spectrum analyzer circuitry resides in a fully shielded base section with an SMA connector for the RF input.The Palm uses custom software to turn the unit into a fully-featured spectrum analyzer. The unit even includes AM/FM demodulator circuitry and an earphone jack at the top for evaluating potential commercial ambient signals.There are a few key hardware controls, but most are touch-sensitive soft-keys.

Here are the key specifications:

★ Frequency range: 1 MHz to 2.7 GHz (100 kHz to 1.3 GHz for the PSA1301T)
★ Resolution bandwidths of 15 kHz, 280 kHz or 1 MHz (PSA1301T lacks 1 MHz)
★ Can read out in dBm or dBuV
★ Can enter frequency limits of “center-span” or “start-stop” ranges in 1 kHz steps
★ -96 dBm typical noise floor at -20 dBm reference level
★ Sweep modes of normal, single, peak hold and average
★ Zero span mode with AM and FM demodulation (1/8” earphone jack)
★ Two variable markers that read out either absolute or differential values
★ Marker “peak search” and peak tracking
★ Reference waveform display in a contrasting color
★ Programmable limit lines with limit line editor and store/recall
★ Unlimited storage of waveforms, setups and screens (can store to SD card)
★ 3.5-inch TFT touchscreen (64,000 colors)
★ Display resolution of 320 x 480 pixels (graticule area is 320 x 300 pixels)
★ Data transfer to a PC for analysis, documentation or printing (via SD memory card)
★ Battery operation of about 4 hours (includes AC power adapter/charger)

Troubleshooting with the PSA2701T and attached probe is fast and easy. No heavy instruments to lug out to the measurement chamber or open site and no line cords to plug in. Just turn it on and go! I found I can quickly zero in on an emissions issue, even during characterization or pre-qualification testing.

Emissions can be recorded via screen shots (bmp format) or tables of comma-delimited (or separated) variables (csv), which may be saved and imported into your favorite spreadsheet.What I especially like is the unlimited number of instrument setups I can save. Favorites of include 1 to 30 MHz for conducted emissions, 30 to 200 for low-frequency emissions, 100 to 500 MHz for a lot of my typical troubleshooting and 2.4 to 2.7 GHz for Wi-Fi and Bluetooth sniffing.

Screen capture of a Wi-Fi (violet) and Bluetooth (green) signal. Peak hold was used to allow the spread-spectrum signals to “fill in” the signal envelope. The Bluetooth signal was saved as a reference waveform.

The unit is sensitive enough with the larger 2-turn Beehive loop probe I recommend, that a preamplifier is usually unnecessary. By attaching a probe directly to the analyzer, you have the perfect handheld emissions detector! However, for some signals, such as some current probes or smaller loop probes, additional amplification may be required. I use the low-noise Mini-Circuits ZX60-3018G-S+ amplifier module as reviewed in a separate document, “Low-Cost Wide-Band Preamplifier” on my Web site (under Technical Papers). This amplifier module covers 20 to 3000 MHz with a gain of 18 to 23 dB and noise figure of 2.7 dB. Beehive Electronics also has a low-cost model 150A that covers 100 kHz to 6 GHz at 30 dB gain. I’ll be posting some info on this in the near future.

While the unit lacks the standard EMI bandwidths (for example, 200 Hz, 9 kHz and 120 kHz) or quasi-peak detection, I don’t find this to be a limitation during the troubleshooting process. What you’re typically looking for is “how much leakage is there now, and how much is there once I apply this fix?” Once the fixes are implemented, that’s when it’s time to measure your product in a semi-anechoic chamber with the proper measurement equipment as specified in the appropriate standards.

Closeup showing the Beehive probe and analyzer showing emissions leakage from a seam.

The analyzer includes a number of very handy features for general EMC troubleshooting. Features like markers, peak search, averaging, peak hold, waveform memory, amplitude scale in dBm or dBuV, screen capture and instrument setup memory – not to mention extreme portability – are found only in the higher-priced units. This is a very powerful tools for the EMC engineer. Using this low-cost instrument to perform the initial troubleshooting prior to moving the product out to a compliance test facility will save both money and time. This truly handheld spectrum analyzer may be purchased for about the monthly cost of renting a bench-top analyzer. Highly recommended.

Web site: http://www.tti-test.com/products-tti/rf/spectrum-analyzer.htm