Patent ID: 6049693
Filing Date: 2000-04-11
Classification: H04N

Abstract:
An ingress noise blocker to be used in a bidirectional TV cable system having a headend, said ingress noise blocker comprising:a high pass filter for passing downstream, from said headend, signals above a predefined frequency said ingress noise blocker being connected serially between a shared bidirectional subsystem and a subscriber subsystem outside of the premises of said subscriber subsystem; anda bypass section connected in parallel across said high pass filter, said bypass section including:a low pass filter means for passing, upstream to the headend, signals from the subscriber subsystem and for blocking transmission of switching artifacts above said preselected frequency which originate on the subscriber side of said bypass section; anda remotely operable attenuator serially connected to said low pass filter to selectively pass upstream signals in response to receipt by said attenuating device of a locally-originated remote control signal via said serial connection, said attenuating device being powered by said remote control signal, said remotely operable attenuator including a tone detector to monitor said remote control signal for presence of a tone having a frequency lower than a lowest frequency in any upstream signal frequency band, said tone providing said control signal and said power, a gate section in said remotely controllable attenuator and serially coupled to said low pass filter, said gate section being non-conductive to upstream signals in absence of applied power of said control signal and conductive upon application of power in the form of said control signal; anda rectifier circuit coupled to said gate section and to said tone detector to convert a detected tone into a DC power signal that powers said gate section in response to said tone without the need of an internal or an external power source;wherein said low pass filter includes:a first low pass filter section; anda second low pass filter section serially connected with said first low pass filter section and having substantially the same response characteristics as said first low pass filter section; andwherein said remotely operable attenuator is serially connected intermediate said first and second low pass filter sections, said attenuator incorporating therein a depletion mode FET switch suited to being powered on through energy from a rectified signal applied to said signal line.