Professional M2M amplifier for router and modems
Made in EU!
Specifications:
FLAVIA M2M-G GSM 4G LTE 900MHz amplifier
Frequency
|
880-960MHz
|
Gain
|
UP: >20dB
DL: >20dB
|
Pass band ripple
|
<2dB
|
Impedance
|
50Ω
|
max. Signal strength
|
Uplink: 26dBm
Downlink: 25dBm
|
Operating temperature
|
-30ºC bis +70ºC
|
Power input
|
110 - 240V AC
|
Power output
|
12V DC
|
Oscillation control
|
automatic
|
Level control
|
automatic
|
AGC range
|
25dB
|
Surge protection
|
SMA connectors DC grounded / 12V DC port MOV protected
|
Dimensions
|
13,7 x 13 x 3,5cm
|
Power supply
AC
|
100-240V
50-60Hz
|
DC
|
12V
1,25A
|
Power consumption
|
10W
|
FLAVIA M2M-W 3G UMTS / 4G LTE 2100MHz amplifier
Frequency
|
1920-2170MHz
|
Gain
|
UP: >20dB
DL: >20dB
|
Pass band ripple
|
<2dB
|
Impedance
|
50Ω
|
max. Signal strength
|
Uplink: 26dBm
Downlink: 25dBm
|
Operating temperature
|
-30ºC bis +70ºC
|
Power input
|
110 - 240V AC
|
Power output
|
12V DC
|
Oscillation control
|
automatic
|
Level control
|
automatic
|
AGC range
|
25dB
|
Surge protection
|
SMA connectors DC grounded / 12V DC port MOV protected
|
Dimensions
|
13,7 x 13 x 3,5cm
|
Power supply
AC
|
100-240V
50-60Hz
|
DC
|
12V
1,25A
|
Power consumption
|
10W
|
FLAVIA M2M-GW GSM, 3G UMTS, 4G LTE 2100MHz Dualband amplifier
Frequency
|
880-960MHz
1920-2170MHz
|
Gain
|
UP: >20dB
DL: >20dB
|
Pass band ripple
|
<2dB
|
Impedance
|
50Ω
|
max. Signal strength
|
Uplink: 26dBm
Downlink: 25dBm
|
Operating temperature
|
-30ºC bis +70ºC
|
Power input
|
110 - 240V AC
|
Power output
|
12V DC
|
Oscillation control
|
automatic
|
Level control
|
automatic
|
AGC range
|
25dB
|
Surge protection
|
SMA connectors DC grounded / 12V DC port MOV protected
|
Dimensions
|
13,7 x 13 x 3,5cm
|
Power supply
AC
|
100-240V
50-60Hz
|
DC
|
12V
1,25A
|
Power consumption
|
15W
|
The device has a valid CE certificate! Please note that for the operation of repeater stations in all countries certain approval requirements must be met. We assume no liability for improper commissioning of this system! In Austria, the current legal situation stipulates that such systems must be approved by the competent telecommunications authority before they are put into operation!