Specifications
Frequency range:
0.15~1050MHz
Stability:
10ppm/year
Aging:
2ppm each year
Resolution of frequency display:
10kHz
(5 1/2 digit)
Readout accuracy:
2%* swee5*
-3
10 *CF+10kHz
CF adjustment range:
0.15~1050MHz
Frequency synthesize:
TCXO, DDS
Sweep width range:
zero steps and 1-1000
MHz
(1-2-5 steps)
Sweep width accuracy:
10%
Resolution bandwidth:
400kHz , 20kHz
Video-Filter bandwidth:
4kHz
Sweep time:
20ms
Amplitude specifications:
0.15~1050MHz
Range:
-13dBm
Display:
CRT, 8*10div
Display calibration:
10dB/div, logarithmic
Display range:
80dB
(10dB/div)
Amplitude frequency response:
10dB
Attenuation, Zero Step, Resolution
Bandwidth 400kHz, Signal -17dBm:
4dB
LCD display:
2*16, Center frequency,
Sweep frequency width, Reference Level
Input attenuator:
0~40dB
(4*10dB)
Accuracy
(Input attenuation)
:
2
dB/10dB
Reference level range:
-27dBm~+13dBm
(each 10dB)
Accuracy:
(Reference level)
500MHz
(CF)
,
Zero step, RBW400kHz:
2dB
Average noise level:
-90dBm
(RBW20kHz VBW4kHz)
Third order intermod.:
at -27dBm two
signal
3MHz apart
:
-60dBc
nd
2 harmonic suppression:
-27dBm, 0dB
attenuation,
-50dBc
VSWR
(Attenuation
10dB)
:
typ. 1.5:1
Input/output
Signal input:
N connector
Impedance:
50
Max. continuous RF input level:
10~40dB attenuation:
+20dBm
(0.1W)
0dB attenuation: +10dBm
Max. DC input voltage:
25V
DC output:
DC power supply 6V FOR
DC
AZ530 Probe
Audio output:
3.5mm
ö,
speaker connector
Turning knob control:
Center frequency
Tracking generator
(AT6011 only)
Signal out put:
N connector
Impedance:
50
Frequency range:
0.15~1050MHz
Output level range:
-50dBm to +1dBm
Frequency response:
2dB
Output attenuator:
0 to 40dB
(4*10dB)
Output attenuator accuracy:
2dB
Radio frequency interference
(RFI)
:
20dBc
Others
Operation temperature:
+10
~+40
Storage temperature:
-40
~+70
Line Voltage range:
220VAC
10%, 50Hz
~60Hz
Size
(W*H*D)
:
285*125*380mm
Weight:
AT6010 about 8.0kgs
AT6011 about 8.5kgs
Near Field Sniffer Probes AZ530
(Optional)
Near Field Sniffer Probes AZ530 The AZ530
is the ideal toolkit for the investigation of RF
electromagnetic fields. Lt is indispensable of
EMI pre-compliance testing during product
development, prior to third party testing. The
set includes 3 hand-held probes with a built-in
pre-amplifier covering the frequency range
from 100KHz to over 1000MHz.
The probes-ove magnetic field probe, one
electric field probe, and one high impedance
Probe are all matched to the 50
inputs of
Spectrum analyzers or RF-receivers. The
power can be supplied either from batteries,
Ni-Cads or through a power cord directly
connected to an AT6010/AT6011 series
spectrum analyzer.
Signal feed via a 1.5m BNC-cable. When used
in connection with a spectrum analyzer or
measuring receiver, the probes cable used to
locate and qualify EMI sources, as well as
evaluate EMC problems at the breadboard and
prototype level. They enable the user to
evaluate radiated fields and perform shield
effectiveness comparisons. Mechanical
screening performance and immunity tests on
cables and components are easily performed.
Frequency range:
0.1~1000MHz
(lower frequency limit depends on type)
Output impedance:
50
Output connector:
BNC-jack
Input capacitance:
2Pf
(high impedance probe)
Max. In put level:
+10dBm
(without destruction)
DC-input voltage:
20V max
Supply Voltage:
6VDC
4AA size batteries
Supply-power of Analyzer
Supply Current:
8mA
(M-Field Probe)
5mA
(E-Field probe)
24mA
(High imp probe)
Probe Dimensions
(W*D*L)
:
40*19*195mm
Housing:
Plastic
(electrically shielded internally)
Package contents:
Carrying case
1 H-Field Probe
1 E-Field Probe
1 High Impedance Probe
1 BNC cable (1.5m)
1 Power Supply Cable
(Batteries or Ni-Cads are not included)
Specifications
The H-Field Near-Field probe
The H-Field probe provides a voltage to the
connected measurement system which is
proportional to
the magnetic radio
frequency
(RF)
field
strength existing at the
probe location, With this
probe, circuit therefore sources may be
localized in close proximity of each other. The
H-Field will decrease as the cube of the
distance from the source, A doubling of the
distance will reduce the H-field by a factor of
3
eight
(H=1/d ).
where d is the distance.
In the actual use of the H-field sensor one
observes therefore a rapid increase of the
probe's output voltage as the interference
source is approached. While investigating a
circuit board, the sources are immediately
obvious. It is easily noticed which component
(i.e.IC)
causes interference and which does not.
in addition. by use of a spectrum analyzer the
maximum amplitude as a function of
frequency is easily identified. Therefore, one
can eliminate early in the development
components which are not suitable for EMC
purposes. The effectiveness of
countermeasures can be judged easily. One can
investigate shields for
eaking
areas and
cables or wires for conducted interference.
AZ530-M
The High-Impedance probe
The high-impedance probe
(Hi-Z)
permits the
determination
of the radio
frequency
interference
(RFI)
on
individual contacts or
printed circuit traces. It is a direct-contact
probe. The probe is of very high impedance
(near the insulation resistance of the printed
circuit material)
and is loading the test point
with only 2pF
(80
at 1GHz)
. Thereby one
AZ530-H
