B
1502154 Rev D
Specifications
B-7
Specifications subject to change without notice
11.
Systems operating with digitally compressed channels or equivalent broadband noise from 550 to 870MHz at
levels 6dB below equivalent video channels will experience a composite distortion (CIN) appearing in the 54 to
550 frequency spectrum.
12.
The Noise Figure and C/N specifications are typical within specified passband.
13.
The cable loss includes both the factory alignment cable loss of 13dB at 1002MHz and the cable equivalent loss
of the GEQC-1GHz-090 (9dB) for a total of 22dB.
14.
The forward bridger port gain and flatness is 9 ±1.0dB as referenced to the trunk port.
15.
The return bridger port gain and flatness is 0 ±0.5dB as referenced to the trunk port.
16.
All testpoints are directional and referenced to their associated RF port. For “H” output option, all forward and
return testpoints are internal and only accessible with the housing lid open. For “P” output option, all forward
testpoints are external and all return testpoints are internal.
17.
Power requirements indicated are with the HEPS790–2.3 power supply 122027–05. See 333995–17 for additional
information. For 60VAC Powering: AC Power consumption in Watts divided by a factor of
43 = Amps required. For 90VAC Powering: For
≤
67VAC, 1.03 x (AC Power consumption in watts divided by voltage)
= Amps required. For 67 - 90VAC, AC Power consumption in watts divided by 65 = Amps required.
18.
ALC pilot level range is based on a nominal pilot level of 34 dBmV for pilot frequencies
≤
499.25 MHz or 31 dBmV
for pilot frequencies > 499.25 MHz. C-COR recommends that if the pilot level, from a design standpoint, is more
than +2/-1 dBmV from nominal, the ALC PAD should be changed to optimize the ALC pilot level range. This should
alleviate any possible ALC setup and/or operation issues due to typical system level variations caused by system
components flatness characteristics. See the FM901e equipment manual for correct selection of ALC PAD value to
insure proper ALC setup and operation.
19.
For ALC pilot frequencies of
≤
499.25 MHz, the ALC pilot filter is a single channel device. This means that the
adjacent channels will have no affect on the RF power level that the RF detector is measuring. For ALC pilot
frequencies > 499.25 MHz, the ALC pilot filter is not a single channel device. This means that the adjacent QAM
channels will have an affect on the RF power level that the RF detector is measuring. C-COR recommends that the
adjacent QAM channels be present on the system before the ALC system of the amplifier station is balanced. This
will avoid station re-balance in the future when those QAM channels would be added to the system.
Summary of Contents for Flex Max901e
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Page 3: ...Flex Max901e 1GHz Amplifiers Trunks FMTE and Bridgers FMBE 1502154 Revision D...
Page 10: ...viii Flex Max901e 1GHz Trunk and Bridger Amplifiers 1502154 Rev D...
Page 20: ...1 1 10 Flex Max901e 1GHz Trunk and Bridger Amplifiers 1502154 Rev D...
Page 56: ...4 4 20 Flex Max901e 1GHz Trunk and Bridger Amplifiers 1502154 Rev D...
Page 102: ...7 7 14 Flex Max901e 1GHz Trunk and Bridger Amplifiers 1502154 Rev D...
Page 142: ...B B 32 Flex Max901e 1GHz Trunk and Bridger Amplifiers 1502154 Rev D...
Page 146: ...C C 4 Flex Max901e 1GHz Trunk and Bridger Amplifiers 1502154 Rev D...
Page 160: ...D D 14 Flex Max901e 1GHz Trunk and Bridger Amplifiers 1502154 Rev D...
Page 164: ...E E 4 Flex Max901e 1GHz Trunk and Bridger Amplifiers 1502154 Rev D...
Page 170: ...Index 4 Flex Max901e 1GHz Trunk and Bridger Amplifiers 1502154 Rev D...
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