Cisco Cisco 870 MHz GainMaker Amplifiers Hoja De Datos
GainMaker
®
- High Gain Balanced Triple - 5-55/70-1002 MHz
3
Specifications
General Station Performance
Units
Forward
Reverse
Notes
Pass Band
MHz
70-1002
5-55
Amplifier Type
---
GaAs FET
PP
Frequency Response
dB
±0.5
±0.4
Auto Slope and Gain Range
dB
±5.5
n/a
Return Loss
dB
16
16
7
Max AC Through Current (continuous)
Amps
15
-
Max AC Through Current (surge)
Amps
25
-
Hum Modulation @ 12 A
(over specified frequency range)
(over specified frequency range)
dB
70 (70-870 MHz)
60 (870-1002 MHz)
60 (5-10 MHz)
70 (11-55 MHz)
Hum Modulation @ 15 A
(over specified frequency range)
(over specified frequency range)
dB
65 (70-870 MHz)
60 (870-1002 MHz)
60 (5-10 MHz)
65 (11-55 MHz)
Test Points (
± 0.5 dB)
dB -20
-20
Reference Output Level @… 1002 MHz
870 MHz
dBmV
49.5
47.5
47.5
35 (@ 55 MHz)
750 MHz
45.7
650 MHz
44.0
550 MHz
42.5
70 MHz
35.3
35 (@ 5 MHz)
Reference Output Tilt (70-1002 MHz)
dB
14.2
-
1
Forward Station Performance
Units
Auto/Thermal
with 10.5 dB I/S EQ
Notes
Operational Gain (minimum)
dB
41
2
Internal Tilt (
± 0.5 dB)
dB 14.8 3
Noise Figure @ 70 MHz
dB
8.5
2
Noise Figure @ 1 GHz
dB
8.0
2
64 PAL B/G Channels (CW) with digital
4
Composite Triple Beat
dB
79
Cross Modulation
dB
70
5
Composite Second Order (high side)
dB
70
64 PAL I Channels (CW) with digital
10
Composite Beat
dB
72
8
Cross Modulation
dB
69
5
42 CENELEC Channels (CW)
9
Composite Triple Beat
dB
112.5
Cross Modulation
dB
111.5
5
Composite Second Order
dB
115
78 NTSC Channels (CW) with digital
11
Composite Triple Beat
dB
78
Cross Modulation
dB
69
5
Composite Second Order (high side)
dB
70
Reverse Station Performance
Units
Notes
Operational Gain (minimum)
dB
19.5
6,7
Internal Tilt (
± 0.5 dB)
dB 0 3
Noise Figure
dB
12.5
6,7
CENELEC Distortions
9
Discrete Third Order
dBuV
114
Discrete Second Order
dBuV
120
6 NTSC Channels (CW)
Composite Triple Beat
dB
92
Cross Modulation
dB
80
5
Composite Second Order (high side)
dB
82
Unless otherwise noted, specifications reflect typical performance and are referenced to 68
°F (20°C). Specifications are based
upon measurements made in accordance with SCTE/ANSI standards (where applicable), using standard frequency assignments.