DISTRIBUTION AMPLIFIERS
A complete range of distribution amplifiers are made by Precision
Test Systems. A distribution amplifier is used to distribute the output of a
frequency reference to many different places. Usually the frequency is 5 or 10
MHz but we manufacture distribution amps from DC to over 150 MHz.
Click Here for our Distribution
Amplifier Comparison Chart
Key Features
include:
-
MTBF of over 500000 hours. Three year warranty on most
distribution amplifiers.
-
Units available in standard frequencies of 1 pps, 100 kHz, 5 MHz,
10 MHz, 15 MHz. Wideband models (1 MHz to 150 MHz) also available.
-
AGC controlled. Output level remains constant even if input level
varies. Removes any AM noise from the input.
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Five to thirty isolated outputs.
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Sinewave or Squarewave Outputs.
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Independent adjustment of each output level on most models.
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BNC, TNC or SMA connectors available.
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Pure 10 MHz output. Harmonics are -70 dBc (-25 dBc on some
models).
-
Switchable squarewave outputs from 10 MHz, 5 MHz, 2 MHz, 1 MHz, 100
kHz and 1 Hz (PTS50 and DA101010).
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Units can be interconnected for up to > 1000 outputs.
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Very
Low Phase Noise.
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Option to have any or all connectors isolated from earth.
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Alarm relay output option.
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Backup internal 10 MHz option (not available
on all models).
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2nd or 3rd input with automatic switchover.
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Redundancy
Option (not available on all models).
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Power Operates from 100 - 240 VAC (usable 90 - 260 VAC) supply or
optional external 12 V DC supply.
What to look for in a Frequency Distribution System.
The important things to look for in a distribution amplifier
are:
-
Gain. It's important that the amplifier doesn't just
have 0 dB gain, but rather a figure of at least 5 dB. This allows the output of
the frequency reference to be increased to the desired level. Also see
AGC.
-
AGC (automatic gain control). As already mentioned,
some gain is needed in an amplifier. On top of this, some type of AGC should be
incorporated. An amplifier with AGC has a fixed output level even if the input
level varies by a few dB. Amplifiers with 0 dB gain will have fluctuating
outputs should the input level vary. This will have an impact on timing
issues.
-
Variable output levels. Again, amplifiers with 0 dB
gain don't allow the output levels to be individually optimized. Most of our
distribution amplifiers allow every output to be set to a different output
level. This is important to optimize for different cable lengths and for the
different types of equipment to be connected to the amplifier.
-
Phase Noise. Phase noise is often overlooked but is
a very important parameter of a frequency distribution system. Unless the
distribution amplifier has low phase noise it will impair the quality of the
frequency reference. Our DA1-100-10 series have some of the lowest phase noise
specifications available in today's market. Phase noise of < 130 dBc/Hz at a
1 Hz offset and floor noise of -170 dBc is available from Precision Test Systems
on their high performance amplifier range.
-
Channel and Reverse Isolation. It's important that
the reference frequency standard connected to the frequency distribution system
is protected against noise, shorts and poor VSWR's of the equipment that may be
connected to the system. Channel isolation should be at least 40 dB for a
standard amplifier and 90 dB for a high performance amplifier. Reverse
isolation should be at least 90 dB and ideally better than 125 dB to make sure
the reference is well protected.
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