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Precision Test
Systems manufacture complete frequency distribution
systems.
A
system will typically consist of a redundant GPS
disciplined, rubidium frequency standard and redundant
distribution amplifiers. Often systems will have
hundreds of outputs.
Problems to be
overcome in a frequency distribution system
There
are many problems to be overcome and some include:
-
Distribution amplifiers may need to be operated in
series. Phase noise increased every time an
amplifier is placed in series with another. So
this should be kept to a minimum with ultra low
phase noise amplifiers.
-
Amplifiers can become un-stable, when operated in
series. So amplifiers should have the correct
gain and be stable to prevent this from happening.
Ideally amplifiers should have automatic gain
control circuitry so the gain of the overall system
is automatically set.
-
Isolation between the outputs should be high, so any
noise accidentally injected into one output does not
affect any other outputs.
- As
the outputs will be connected to different types of
equipment, each channel of the distribution
amplifier should have an output level control.
This enables each channel output to be adjusted to
match the equipment connected to it.
-
All amplifier outputs must be stable into different
load impedances.
-
Often equipment to be synchronized is located in
different buildings that may be located a long way
from each other. The system designer must
ensure noise is not picked up along long cable
lengths.
-
Precision Test Systems have designed systems with
hundreds of outputs. Distribution amplifiers
have been located in different buildings. Low
phase noise has been retained despite all the
amplifiers being inter-connected.
Case history 1. Our first ever installation,
sill going ten years later
Our
first ever frequency distribution system consisted
of eighteen RF test chambers. Each chamber was
used to align two-way radios and the RF chambers had
over 120 dB isolation. This was necessary so
each chamber didn't interfere with each other.
As
each chamber would effectively be connected to the
other chambers via the distribution amplifier
outputs, it was essential that the distribution
amplifiers had very high isolation, otherwise the
shielding of the test chamber would be compromised.
We
installed a rubidium frequency standard and twenty
distribution amplifiers and over 6 km of double
screened high quality coaxial cable.
Once
the installation was installed, we had to
prove to the customer that our system hadn't
compromised the shielding. We confirmed this
by generating a 20 watt RF signal (+43 dBm) signal
inside each RF chamber and using a spectrum
analyzer, checking for any radiation outside the
chamber. We could effectively measure to over
150 dB. The RF test chambers still made the
screening specification (125 dB) and we had a happy
customer.
Case History Two. Our toughest installation
A
satellite company approached us and said they
required a frequency distribution system with about
500 outputs.
The
reference for this system was a 10 MHz OXCO
oscillator with ultra low phase noise. We
didn't supply the oscillator but were told it had
cost them over USD 20, 000 as it was so state of the
art.
We had
to distribute this 10 MHz to over 500 outlets,
located in many different buildings. That's
the easy part. The hard part is that we had to
maintain the phase noise of the reference (about
-115 dBc/Hz @ 1 Hz offset) as the 10 MHz would
eventually be multiplied to around 40 GHz.
We
calculated we needed a distribution amplifier with a
-130 dBc/Hz phase noise (at a 1 Hz offset) and a
-165 dBc/Hz floor noise.
The
customer also wanted AGC (automatic gain control)
and high channel and reverse isolation.
Our
existing amplifiers didn't achieve these
specifications. Moreover , this amplifier had to
achieve this ultra low phase noise, under vibration.
The customer wouldn't allow an cooling fans to be
used.
So we
developed a new distribution amplifier and the
DA1-100-10 was the result.
We
shipped off about 45 pieces and the customer
installed this system.
This
was a few years ago and this is what the customer
has told us:
We finished our FAT of the first project a few weeks
ago and it went extremely well. Phase noise of the
system was extremely good and very predictable,
which was a pleasant surprise to me. The DA1-100-10
units behaved extremely well functionally and their
performance was excellent and consistent with the
data and specs for the units.
Later on they wrote:
I was just thinking about your DA1-100-10
distribution amps. We are currently having trouble
with some amps from one of your competitors.
I was extremely impressed with how well your
amplifiers worked in series - one amp feeding
another, feeding another, which seems to be where my
coworkers are running into trouble. There are no
issues with your amps. The systems are installed in
the field.
Our DA1-100-10 is now
our top selling distribution amplifier and is
proving to be a reliable unit.
Summary
Precision Test Systems has had a lot of experience
in designing frequency distribution systems.
We specialize in designing bespoke systems at a
cost- effective price.
We guarantee our
distribution amplifiers for three years.
Distribution Amplifiers -
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