|
Spectrum ANALYSIS
|
Real ANALYSYS:
Professional RF measurement devices use a frequency dependant measurement approach,
the so-called spectrum analysis.
In a certain frequency range, the individuals signals and their respective strengths are being
broken down, for example into a "bargraph" display (see SPECTRAN® screenshots on the right).
The height of the individual bars represents the corresponding signal strength. For the
3 strongest signal sources, SPECTRAN® automatically displays the exact frequency and
signal level, thanks to its "Auto Marker" feature.
Of course, you can also setup the filter width and the frequency range to be analysed as
you like.
In the EMF (LF) spectrum shown here, a frequency range of approx. 20Hz to 60Hz from left to right
is being analysed. During analysis, the Auto Marker feature has determined - fully automatic -
two main signal sources:
Signal#1=30Hz at 45µT
Signal#2=50Hz (mains power) at 75µT
In the RF spectrum shown, a frequency range of approx. 100MHz to 7GHz from left to right
is being analysed (full sweep). During analysis, the Auto Marker feature has determined - fully automatic -
three main signal sources:
Signal#1=942MHz (GSM communications) at -63dBm
Signal#2=2024MHz (UMTS) at -23dBm
Signal#3=5832MHz (802.11a WLan) at -42dBm
Thanks to its DIRECT frequency display of the individual signal sources, a mapping of
measurement results to the corresponding radiation sources is possible.
|
Spectrum display and automatic multi-marker display on the digital screen of a NF-SPECTRAN® (Screenshot)
Spectrum display and automatic triple multi-marker display on the digital screen of a HF-SPECTRAN® (Screenshot)
Well visible: "Frequency hopping" of a DECT portable phone between 1890 and 1900 MHz (Screenshot)
|
NOTE:
The very common low cost BROADBAND MEASUREMENT DEVICES (especially common among novice users) do not
give you too valuable information at all. You do receive a measurement result (for example, 500nT),
but what is the frequency ? Of how many radiation sources is this result composed? What
causes the radiation ? Are there multiple sources ? Is the reading maybe even composed of
several signal sources ? What is the corresponding exposure limit for this reading ? What IS
the exposure limit if a mixture of several frequencies is present ? Questions and yet more
questions WITHOUT an answer. In contrast, using a SPECTRUM analyzer, you will ALSO
consider the frequency of the signal sources, as the frequency is JUST as important as
the signal strength itself. ONLY using the frequency information, a radiation source
can be isolated reliably, and ONLY using the frequency, calculation of frequency-dependant
exposure limits can be accomplished.
Due to the MISSING frequency reference with low cost broadband units, DRAMATIC misinterpretations
can arise: when exposure limits are calculated, these can be wrong by MORE than
a factor of 1000!! (this is NOT an error, we do really mean ONE THOUSAND).
|
|
LONG-TERM MEASUREMENT (Data logging feature)
|
For SERIOUS measurements:
SPECTRAN® measurement devices with data logger allow long-term recordings of measurement
results over a freely adjustable period of time. This is particularly indispensable
for SERIOUS evaluation of exposure by appliances and machinery which have a changing power
consumption or radiation strength over time.
Examples for these include railroads, power lines and plants, but also home appliances and
their respective power cables, and various high-frequency transmission facilities like
mobile phone transmission towers, mobile phones, radar etc.
Depending on the time of day, CONSIDERABLE variation of exposure can occur (see attached
graphics).
WITHOUT long-term recordings, MASSIVE misinterpretation of total exposure can occur. With
long-term data logging using SPECTRAN®, the daily variation of exposure can be
recorded and analysed. Thus, the ACTUAL total exposure can be evaluated precisely.
With this functionality, you can even discover sporadic EMC problems which would otherwise
be very hard to detect.
Even though SPECTRAN® units "only" last 4 or 7 (depending on model) hours with one
battery charge, the intelligent "Powerdown mode" enables much longer data logging and
measurement timespans. Finally, if this is not enough, the external power supply
can be used to extend the recording timespan infinitely.
|
Daily variation of various radiation sources discloses MASSIVE variation in exposure
Daily variation of this RF transmitter discloses EXTREME variation in time
|
NOTE:
Long-term recording with SPECTRAN® units is particularly INDISPENSIBLE with measurements
of appliances and their cabling if their power output or radiation varies considerably with
time.
The attached screenshots show the EXTREME variations which can occur in the course of a day.
This is a fact widely unknown by many users. In the worst case, measured at the "wrong" time of day,
very low levels could be measured, even though the exposure, not to talk about peak exposure,
might be higher by a factor of ONE HUNDRED THOUSAND (this is NOT an error) at a different
time of day.
Great caution needs to be taken, especially if measurement is performed as a commercial
service: The very common practice of short-term measurements (being more cost-effective)
often cannot evaluate the ACTUAL daily level of exposure.
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|
EXPOSURE LIMITS
|
At the push of a button:
Exposure limit calculation used to be a complex and awkward procedure even for the professional,
as most of the time, a chaotic mixture of an abundance of different frequencies,
modulations and signal strengths is present.
The indispensible, highly complex calculation of frequency-dependant exposure limits
can ONLY be performed CONFORMING TO STANDARDS by a spectrum analyzer with high-performance software.
Not a problem for SPECTRAN® units:
They can calculate even several authoritative exposure limits, precautionary limits and
recommendations (simply selectable via a button) and display
these as a practical bargraph display (including convergence display in percent!),
while the measurement is running.
The attached SPECTRAN® screenshot demonstrates how it works: At the push of a button,
the ICNIRP exposure limit has been chosen among the various available exposure limits.
SPECTRAN® now automatically calculates convergence of this limit. For
achieving this, often thousands of complex calculations have to be performed per second,
and a steady scan of the entire frequency range needs to be performed. A true nightmare
for every processor. In our test case, the graphic display shows an approximation towards
the ICNIRP limit by 6,06%. If you use a HF-6080 or NF-5030 you can even cover the total ICNIRP-banwidth (depending on frequency).
Hence, even the novice can perform exposure limit
calculations ACCORDING TO STANDARDS without having to use complex tables and calculators.
It really can't get any simpler.
|
Graphic display of frequency-dependant exposure limits. They disclose the INDISPENSIBLE consideration
of signal frequency
SPECTRAN® displays exposure limits both as percentage as well as a bargraph display.
Our example shows approximation to the ICNIRP exposure limits by 6,06%. (Screenshot)
|
NOTE:
The very common low cost BROADBAND MEASUREMENT DEVICES (especially common among novice users) do not
give you too valuable information at all.
Due to the MISSING frequency reference with low cost broadband units, DRAMATIC misinterpretations
can arise: when exposure limits are calculated, these can be wrong by MORE than
a factor of 1000!! (this is NOT an error, we do really mean ONE THOUSAND).
|
|
The new standard: 3D MEASUREMENT
|
3D magnetic field measurement:
Mismeasurement caused by wrongly adjusting the measurement device in space or troublesome
and complex 3D calculations with a calculator are a problem of the past from now on, thanks
to SPECTRAN® EMF (LF) measurement devices.
All SPECTRAN® EMF measurement devices can measure magnetic fields directly in 3D! Starting
with the SPECTRAN® NF-1010E, field strengths of the individual X, Y and Z axes can even
be shown seperately.
This has become possible thanks to the newest development from the Aaronia laboratories: Our
high-tech REAL 3D miniature sensor coil. Consisting of a specially crafted nylon base with
3 independant windings made of ultra-thin, 0,05 mm! wire, it impresses with its
extremely high sensitivity. It allows measurement of magnetic fields in all 3 spacial
dimensions. The signal processor (DSP) of the SPECTRAN® performs the resulting
highly complex calculations. You receive perfect 3D measurement results which can
otherwise only be achieved by using highly professional equipment.
|
Aaronia REAL-3D magnetic field sensor
|
NOTE:
Units commonly found on the market which are particularly in use by novices for "EMF measurement"
can, for the most part, ONLY measure magnetic fields in ONE dimension. Hence, by misaligning
the measurement device in space, SERIOUS mismeasurement can occur: in extreme cases, no
magnetic field might be shown at all even though an extremely high exposure is present. Tedious and
complex 3D measurements are often not performed at all, or wrongly (especially by the novice).
In contrast, SPECTRAN® can performs magnetic field measurements in 3D and thus offers
PROFESSIONAL measurement right from the start!
|
|
PROFESSIONAL PC analysis software included for free
|
Simply AMAZING:
The PROFESSIONAL PC analysis software demonstrates SPECTRAN's vast capabilities. This software
can be used IN ADDITION to SPECTRAN and offers an incredible amount of features. All this for FREE.
Just download it from our homepage, and your PC turns into a real spectrum analyzer with a huge display:
- MULTI-device capability!!! Remote control of SEVERAL SPECTRAN units. These can be controlled and their data displayed AT ONCE on a single PC.
- HIGH-RESOLUTION!, freely scalable, coloured spectrum display with falloff function..
- Display of CHANNEL IDENTIFIERS!!! for EXACT identification of providers. Channel numbers etc. freely programmable and extensible!
- Up to 10! markers with frequency and level display.
- Intuitive zoom control with very comfortable frequency adjustment.
- High quality "waterfall"-display with TIMECODE. Colour scale freely configurable. Size freely scalable. Optional display of data DIRECTLY ON TOP OF THE GRAPH by pointing with your mouse and CTRL-clicking!
- High-resoution SLOT analyzer with 3D display!!
- SUPER-LOGGER: ALL data can be written to disk continuously. File format is readable by spreadsheet applications, for creating custom reports, etc.
- Freely positionable windows for comfortable entry of frequency, RBW, sweeptime etc. etc.
- Various pre-defined profiles for DECT, UMTS, GSM, WLan etc. etc. for instant recall. Incl. optimal parameters and extensive channel information! Freely programmable and extensible!
- Independant main display with SIMULTANEOUS display of dBm, dBµV, V/m, W/m2 and A/m, each with AUTORANGE. Freely transposable and scalable.
- SUPERB exposure limit display with various profiles (ICNIRP, Salzburg precautionary values, ECOLOG, etc. etc.). Freely programmable with a virtually infinite amount of display options.
- Functionality to update SPECTRAN measurement device firmwares.
- Freely programmable key assignments and labels for SPECTRAN measurement devices.
- Filemanager and COMPILER for creation and management of YOUR OWN PROGRAMS for SPECTRAN measurement devices.
- "Rename" option for renaming any of your SPECTRAN units (for example, including location) for better identification
- etc. etc. etc.
|
AMAZING: The PROFESSIONAL PC software for SPECTRAN. Get to know SPECTRAN's real capabilities!
|
|
HUGE digital LC display
|
Pure luxury:
The huge, high resoution digital LC display more than 80x60 mm in size! It has been developed especially for SPECTRAN® by Aaronia. Needless to say, is uses FSTN quality for crystal clear display.
It covers a vast amount of display capabilities (listed from top to bottom):
- Big graphics display (pixel display) with 51x25 pixels (can be used for complex spectrum and exposure limit display, convenient menu navigation, etc.)
- HUGE numeric display (4 digits, max. 9999)
- Large, high-resolution bargraph (50 segments) for very responsive trend display
- Various function and mode indication display blocks (AUDIO, MODE, MEMORY etc.)
- Large multi-function text display (6 text fields / e.g. for displaying units, service information, etc.)
- Three further big numeric displays (4 digits each, each max. 9999 / e.g. for simultaneous display of MIN, MAX, AVG values, 3 marker values, etc.)
- Triple multi-function text displays (Next to each of the previously described numeric displays / 3x3 text fields each / used e.g. for unit display for markers, etc.)
- Three more multi-function text displays (directly beneith the previously described displays / 3x6 text fields each / e.g. ADDITIONAL values AND unit display for markers, etc.)
- Battery status and charging display (incl. "CHARGING" and "LOW")
- 6 numerical displays for flexible bargraph scaling (incl. multiplication factor and percentage display)
Thanks to the vast amount of flexible display options, this device can display various readings,
a bargraph AND a spectral display (starting from NF-1010E resp. HF-2025E) SIMULTANEOUSLY, without
bothersome switching back and forth.
Using SPECTRAN®, the user is supplied with virtually ALL information AT ONCE, without
the hassle of switching back and forth. Where else can you find such luxury at a similar price ?
|
The COMPLETE digital multifunction display of SPECTRAN® at a glance
|
Overview of features SPECTRAN® RF spectrum analyzers / REVISION 3
APPLICATION EXAMPLES:
Measurement of (active) radar, mobile communications, mobile phones, UMTS, DECT phones, transmission towers, WLan, Wifi, Bluetooth, microwave ovens, amateur radio, TETRA, radio/TV broadcast stations, etc.
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HF-2025
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HF-2025E
|
HF-4040
|
HF-4060
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HF-6060
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HF-6080
|
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SPECIFICATIONS base unit*
|
For the NOVICE
|
For the INTERMEDIATE
|
For the PROFESSIONAL
|
|
Frequency range Min
|
700MHz
|
700MHz
|
10MHz
|
10MHz
|
1MHz
|
1MHz
|
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Frequency range Max
|
2,5GHz
|
2,5GHz
|
4GHz
|
6GHz
|
6GHz
|
7GHz*
|
|
Optional PEAK Power-Detector (Maximum usable frequency)***
|
-
|
2,5GHz
|
4GHz
|
6GHz
|
6GHz
|
10GHz
|
|
Level [dBm] range (typical) Min
|
-80dBm
|
-80dBm
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-90dBm
|
-90dBm
|
-90dBm
|
-90dBm
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|
Level [dBm] range (typical) Max
|
0dBm
|
0dBm
|
0dBm
|
0dBm
|
0dBm
|
30dBm**
|
|
Power flux density [W/m²] Range Min
|
10nW/m²
|
10pW/m²
|
10pW/m²
|
10pW/m²
|
10pW/m²
|
0,01pW/m²
|
|
Power flux density [W/m²] Range Max
|
1W/m²
|
1W/m²
|
10W/m²
|
10W/m²
|
10W/m²
|
100W/m²
|
|
Filter bandwidth Min
|
1MHz
|
1MHz
|
100kHz
|
100kHz
|
100kHz
|
100kHz
|
|
Filter bandwidth Max
|
50MHz
|
50MHz
|
50MHz
|
50MHz
|
50MHz
|
50MHz
|
|
Accuracy base unit (typical)
|
+/-4dB
|
+/-4dB
|
+/-3dB
|
+/-3dB
|
+/-3dB
|
+/-3dB
|
|
Vector power measurement (I/Q) and True RMS
|
-
|
-
|
ü
|
ü
|
ü
|
ü
|
|
FFT (Resolution in points)
|
-
|
-
|
-
|
-
|
256
|
256
|
|
FEATURES
|
|
Standards-conformant exposure limits (ICNIRP, BGV B11, BlmSchV etc.)
|
-
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
Extended full ICNIRP range
|
-
|
-
|
-
|
-
|
-
|
ü
|
|
Fast ZERO-SPAN sweep
|
-
|
-
|
ü
|
ü
|
ü
|
ü
|
|
PULSE mode
|
ü
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
ADVANCED HOLD mode (HOLD function)
|
-
|
-
|
ü
|
ü
|
ü
|
ü
|
|
INTERNAL data logger (long-term measurements)
|
-
|
-
|
ü
|
ü
|
ü
|
ü
|
|
FLASH memory including firmware update (over the Internet)
|
-
|
16K
|
64K
|
64K(1MB)
|
64K(1MB)
|
64K(1MB)
|
|
“Clear text” signal identification with direct frequency display
|
-
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
TIME-SLOT-ANALYZER
|
-
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
Internal speaker
|
Piezo
|
Piezo
|
ü
|
ü
|
ü
|
ü
|
|
Configurable antenna and cable calibration data
|
-
|
-
|
ü
|
ü
|
ü
|
ü
|
|
Audio demodulation
|
AM
|
AM
|
AM&FM
|
AM&FM
|
AM&FM
|
AM&FM
|
|
DISPLAY
|
|
DIRECT RF spectrum display
|
-
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
Exposure limits display with simultaneous percentage display
|
ü
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
Main display in dBm, V/m, A/m and dBµV (switchable)
|
-
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
ADDITIONAL display in W/m2 with AUTORANGE (pW, µW etc.)
|
-
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
High-resolution 50 segment bargraph (trend display)
|
-
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
3fold marker display (ex. 3x power & frequency at once)
|
-
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
INTERFACES / CONNECTORS
|
|
USB 2.0 interface (computer connection)
|
ü
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
Audio output
|
ü
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
DC input (max. 15V) for external power supply
|
ü
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
SMA RF input (F)
|
ü
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
JOG DIAL (multi-function rotary control) for single-hand control
|
-
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
OPTIONS (extra charge)
|
|
Option 001 (1MB memory expansion)
|
-
|
-
|
-
|
ü
|
ü
|
ü
|
|
Option 002 (5ppm time base / offers higher accuracy)
|
-
|
-
|
-
|
-
|
ü
|
ü
|
|
Option 201-205 (REALTIME broad band power-detector)
|
-
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
INCLUDED ACCESSORIES in addition to the base unit
|
|
Miniature SMA rod antenna
|
ü
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
HyperLOG EMC directional LogPer antenna (model) & SMA-cable
|
7025
|
7025
|
7040
|
7060
|
7060
|
6080
|
|
Aaronia 7,2V high-performance battery (1300mAh) & charger
|
ü
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
Aluminum carrycase incl. custom padding
|
ü
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
PROFESSIONAL PC analysis software (windows, download via internet)
|
ü
|
ü
|
ü
|
ü
|
ü
|
ü
|
* Further spectrum analyzers up to 9,4GHz are already in development. Please contact us for further details!
Range and accuracy can change depending on frequency, antenna and used parameters. Precision values are based on Aaronia calibration-reference and only valid under specific
test conditions. Unless otherwise stated, these specifications apply for the reference condition: ambient temperature 22±3°C,
relative air humidity 40% to 60%, continuous wave signal (CW), RMS detection
** Internal: +10dBm. External (with optional 20dB precision attenuator): +30dBm.
*** Depending on frequency the optional power detector offers sensetivity up to -50dBm and max. +10dBm input power with an extremely fast reaction time.
The NEW Revision3 offers a lower noise level and a optional REAL TIME power detector.
Specifications as of 1.11.2007.
© Aaronia AG, DE-54597
|
Overview of features SPECTRAN® EMF (NF) spectrum analyzers
APPLICATION EXAMPLES:
Measurement of traction power, power lines, power cables, lamps, power supplies, transformer stations, various appliances in households, offices and manufacturing
|
|
|
NF-1010*
|
NF-1010E*
|
NF-3010*
|
NF-3020*
|
NF-5010*
|
NF-5030*
|
|
SPECIFICATIONS base unit*
|
For the NOVICE
|
For the INTERMEDIATE
|
For the PROFESSIONAL
|
|
Frequency range Min
|
10Hz
|
10Hz
|
10Hz
|
10Hz
|
1Hz
|
1Hz
|
|
Frequency range Max
|
10kHz
|
100kHz
|
400kHz
|
400kHz
|
1MHz
|
30MHz**
|
|
Range electrical field [V/m] (typical) Min (1D)
|
1V/m
|
1V/m
|
0,1V/m
|
0,1V/m
|
0,1V/m
|
0,1V/m
|
|
Range electrical field [V/m] (typical) Max (1D)
|
2kV/m
|
2kV/m
|
5kV/m
|
5kV/m
|
5kV/m
|
20kV/m
|
|
Range magnetic field [Tesla] (typical) Min (3D!)
|
10nT
|
10nT
|
1nT
|
1nT
|
1nT
|
1pT**
|
|
Range magnetic field [Tesla] (typical) Max (3D!)
|
100µT
|
100µT
|
100µT
|
100µT
|
100µT
|
2mT
|
|
Range magnetic field [Gauss] (typical) Min (3D!)
|
100µG
|
100µG
|
10µG
|
10µG
|
10µG
|
10nG**
|
|
Range magnetic field [Gauss] (typical) Max (3D!)
|
1G
|
1G
|
1G
|
1G
|
1G
|
20G
|
|
Filter bandwidth Min
|
5Hz
|
5Hz
|
1Hz
|
1Hz
|
1Hz
|
1Hz
|
|
Filter bandwidth Max
|
10kHz
|
100kHz
|
300kHz
|
300kHz
|
1MHz
|
1MHz
|
|
Accuracy base unit (typical)
|
5%
|
5%
|
5%
|
3%
|
3%
|
3%
|
|
FFT (Resolution in points)
|
64
|
64
|
64
|
64
|
1024
|
1024
|
|
Vector power measurement (I/Q) and True RMS
|
-
|
-
|
ü
|
ü
|
ü
|
ü
|
|
FEATURES
|
|
Standards conformant exp. limits (ICNIRP, BGV B11, BlmSchV etc.)
|
-
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
Extended full ICNIRP range
|
-
|
-
|
-
|
-
|
-
|
ü
|
|
Isotropic (3D) AC magnetic field measurement
|
ü
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
Supports custom P-Code software
|
|
|
ü
|
ü
|
ü
|
ü
|
|
ADVANCED HOLD mode (HOLD function)
|
-
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
INTERNAL data logger (long-term measurements)
|
-
|
-
|
ü
|
ü
|
ü
|
ü
|
|
FLASH memory including firmware update (over the Internet)
|
-
|
16K
|
64K
|
64K
|
64K(1MB)
|
64K(1MB)
|
|
“Clear text” signal identification with direct frequency display
|
-
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
Integrated battery charging circuitry
|
-
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
Internal speaker
|
Piezo
|
Piezo
|
ü
|
ü
|
ü
|
ü
|
|
Audio demodulation
|
AM
|
AM
|
AM
|
AM
|
AM&FM
|
AM&FM
|
|
DISPLAY
|
|
Fast FFT or DFT spectrum analyses
|
-
|
ü
|
ü
|
ü
|
ü
|
ü
|
|
Limit calculation with simultaneous percentage display
|
ü
|
ü
|
ü
|
ü
|
ü
|
ü
|
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X, Y, Z Axis display or Vectorproduct (only M.-Field)
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-
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ü
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ü
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ü
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ü
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ü
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Main display in V/m, Tesla, Gauss or A/m (switchable)
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-
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ü
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ü
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ü
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ü
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ü
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High-resolution 50 segment bargraph (trend display)
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ü
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ü
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ü
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ü
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ü
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ü
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3fold marker display (ex. 3x field strength & frequency at once)
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-
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ü
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ü
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ü
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ü
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ü
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INTERFACES / CONNECTORS
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Fast USB 2.0 interface (computer connection)
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-
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ü
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ü
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ü
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ü
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ü
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Audio output
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ü
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ü
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ü
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ü
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ü
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ü
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DC input (max. 15V) for external power supply
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ü
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ü
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ü
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ü
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ü
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ü
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External ultra sensetive signal input (SMA input) with max. 0,2V
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-
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-
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-
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-
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ü
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ü
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Jog Dial (Multi-functional dial) for "one-hand operation"
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-
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-
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ü
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ü
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ü
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ü
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OPTIONS (extra charge)
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Option 001 (1MB memory expansion)
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-
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-
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-
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-
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ü
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ü
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Option 005 (12Bit DDC / offers ultra high sensetivity up to 1pT)
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-
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-
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-
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-
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-
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ü
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Option 006 (Measure 3D static magnetic fields)*
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-
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-
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-
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-
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-
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ü
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Option 008 (Expanded frequency range up to 30MHz e.g. RFID)
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-
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-
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-
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-
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-
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ü
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Option 009 (Ultra high 24Bit resolution on static magnetic fields)
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-
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-
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-
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-
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-
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ü
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INCLUDED ACCESSORIES in addition to the base unit
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Aaronia 7,2V high-performance battery (1300mAh) + charger
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-
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ü
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ü
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ü
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ü
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ü
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Aluminum design transport case incl. padding inlays
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opt.
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ü
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ü
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ü
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ü
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ü
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PROFESSIONAL PC analysis software (Windows, download via Internet)
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-
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ü
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ü
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ü
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ü
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ü
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*Preliminary specifications as of 1.11.2007. ONLY the NF-50xx series with option 005 and latest BETA-Firmware is available. ALL other options are available for this
series too. The BETA firmware is in continuous development. Some functionality may still be limited and not fully to specifications (BETA status).
By regularly checking our homepage for updates, you can always keep your measurement device up-to-date. As soon as version 1.0 of the firmware is released,
all functionality and features will be fully available.
Range and accuracy can change depending on frequency, sensor and used parameters. Precision values are based on Aaronia calibration-reference and only valid under
specific test conditions. Unless otherwise stated, these specifications apply for the reference condition: ambient temperature 22±3°C,
relative air humidity 40% to 60%, continuous wave signal (CW), RMS detection
Option 006 offers a range of 100µG-6G (10nT-600µT). You can "zero" the static field sensor (Option 006) by using our "Zero Gauss" chamber.
**Standard: 1MHz. Only with option 008 up to 30MHz. / Standard: 1nT. Only with option 005 up to 1pT.
© Aaronia AG, DE-54597
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Download specifications for SPECTRAN® units (515KB / Last update 1.11.2004)
