Claims
- 1. A cross-point switch comprising:
a signal input port; a signal equalizer connected to the signal input port for compensating for low pass attenuation effects on an input signal present at the signal input port; a switch fabric connected to the signal equalizer; and a switch output port coupled to the switch fabric.
- 2. A cross-point switch as claimed in claim 1, further comprising a switch fabric control bus connected to the switch fabric.
- 3. A cross-point switch as claimed in claim 2, further comprising an address controller connected to the switch fabric control bus.
- 4. A cross-point switch as claimed in claim 1, wherein the signal equalizer is one of a plurality of signal equalizers, each connected to the signal input port.
- 5. A cross-point switch as claimed in claim 4, further comprising a multiplexer connected to each signal equalizer of the plurality of signal equalizers.
- 6. A cross-point switch as claimed in claim 5, further comprising a multiplexer output connected to the switch fabric and a multiplexer input selection control connected to the multiplexer.
- 7. A cross-point switch as claimed in claim 1, further comprising at least one additional signal input port connected to the switch fabric through at least one additional signal equalizer.
- 8. A cross-point switch as claimed in claim 1, further comprising at least one additional output port coupled to the switch fabric.
- 9. A cross-point switch comprising:
a signal input port; a signal equalizer comprising differentially connected transistors connected to the signal input port for compensating for low pass attenuation effects on an input signal present at the signal input port; a switch fabric connected to the signal equalizer; and a switch output port coupled to the switch fabric.
- 10. A cross-point switch comprising:
a signal input port; a signal equalizer comprising differentially connected transistors connected in a common emitter configuration, each of the differentially connected transistors including a base, collector, and emitter terminal connected to the signal input port for compensating for low pass attenuation effects on an input signal present at the signal input port; a switch fabric connected to the signal equalizer; and a switch output port coupled to the switch fabric.
- 11. A cross-point switch as claimed in claim 10, wherein at least one of the collector terminals is connected to a supply voltage through a load resistor, and wherein at least one of the emitter terminals is connected to a common voltage through a current source.
- 12. A method for switching signals through a cross-point switch, the method comprising:
applying an input signal to a cross-point switch input port; compensating the input signal for low pass attenuation effects to produce a compensated input signal; applying the compensated input signal to a switch fabric; and switching the compensated input signal through the switch fabric to an output port.
- 13. The method of claim 12, further comprising multiplexing between the plurality of individual signal equalizers.
- 14. An cross-point switch input section comprising:
a plurality of signal input ports including a first input port and a second input port; a first signal equalizer connected to the first input port; a second signal equalizer connected to the second input port; a first compensated signal output for coupling a first compensated signal to a switch fabric; and a second compensated signal output for coupling a second compensated signal to the switch fabric.
- 15. A cross-point switch signal input section according to claim 14, further comprising:
a third signal equalizer connected to the first input port; and a multiplexer connected to the first and third signal equalizers, the multiplexer including a multiplexer output for connection to the switch fabric.
- 16. A cross-point switch signal input section according to claim 14, further comprising
a multiplexer input selection control connected to the multiplexer.
- 17. A cross-point switch signal input section according to claim 14, further comprising
a third signal equalizer cascaded with the first signal equalizer.
- 18. A cross-point switch signal input section according to claim 14, wherein the first signal equalizer comprises differentially connected transistors.
- 19. A cross-point switch input section comprising:
a plurality of signal input ports including a first input port and a second input port; a first signal equalizer comprising differentially connected transistors connected in a common emitter configuration, each of the differentially connected transistors including a base, collector, and emitter terminal connect to the first input port; a second signal equalizer connected to the second input port; a first compensated signal output for coupling a first compensated signal to a switch fabric; and a second compensated signal output for coupling a second compensated signal to the switch fabric.
- 20. A cross-point switch signal input section according to claim 19, wherein at least one of the collector terminals is connected to a supply voltage through a load resistor, and wherein at least one of the emitter terminals is connected to a common voltage through a current source.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This Application is related to Ser. No. 09/261,043, filed Mar. 2, 1999 and titled “Monolithic Fixed Active Equalizer”.