Features
- When installed at the breaker panel/fuse box, attenuates X10 signal from entering or leaving an installation.
- Couples X10 signals across phases in multi-phase installations.
- Rated at 230V AC 63A.
The
transmission of high frequency signals via the mains network (such as
those used to carry X10) can be affected by active or passive
interference. When used correctly, the filter/phase coupler will
extensively suppress these interferences.
Typical
active interference sources are appliances that do not dispose of a
regular interference suppression according to the norms, as well as
wireless intercomm systems which use mains borne signaling, as they
transmit high frequency signal as interference into the mains network.
These disturbances are usually carried into the house network from the
outside. eg. From neighbours or industrial installations. They are
suppressed by the filter/coupler. Remaining interferences generated
within the house network are without significance as the special
dynamic filtering techniques of the X10 system ensure undisturbed
performance.
The
unit also includes the ability to couple X10 signals across phases. For
installation with three phases, use three FD10 filters and couples the
filters by connecting their terminals K to the next phase respectively.
Dimensions
Dimensions: Length 80, Width 35, Height 65 mm
Supply Voltage
Supply voltage: 230V +10%/-15% 50Hz
Maximum current: 63A
Filter centre freq: 120KHz
Filter bandwidth: 5KHz min. (3dB points)
Forward attenuation: 20dB min. at zero current 15dB min. at 63A
Reverse attenuation: 15dB min.
EMC emission: According to EN50081-1
EMC immunity: According to EN50082-1
Electrical safety: According to EN60950 and EN60065
Forward input imp: 20 Ohms min. at 120KHz
Coupling loss: 2dB max. at 120KHz
Connections: Screw type terminals for phase (supply), phase (house), neutral, coupling
Ambient temperature: -10C to +40C (operation) -20C to +70C (storage)
This product is CE approved for use in the EU
Applications
Whole house filtering and coupling X10 signals from one phase to another.
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