Claims
- 1. An electronic probe comprising:
a probe tip; a transmission line having a transmission line first end and a transmission line second end, said transmission line first end being connected to said probe tip; a termination portion comprising a termination portion first end and a termination portion second end, said termination portion first end being connected to said transmission line second end, said termination portion second end being connected to a common node, said termination portion comprising a termination resistor and a termination capacitor connected in series between said termination portion first end and said termination portion second end; and a filter comprising a filter first end and a filter second end, said filter first end being connected to said transmission line second end, and said filter second end being connected to a probe output, said filter comprising a filter resistor connected in parallel with a filter capacitor and a filter inductor connected in series with said filter resistor and filter capacitor combination; and an impedance device connected between said probe output and said common node.
- 2. The electronic probe of claim 1 and further comprising a tip resistor connected between said probe tip and said transmission line first end.
- 3. The electronic probe of claim 2, wherein said tip resistor in integral to said probe tip.
- 4. The electronic probe of claim 2, wherein the value of said tip resistor is approximately four-hundred twenty-two ohms.
- 5. The electronic probe of claim 1, wherein said impedance device is a resistor.
- 6. The electronic probe of claim 1, wherein said probe output is electrically connectable to an electronic device having an input capacitance associated therewith, and wherein the value of said filter inductor is approximately equal to 0.4 multiplied by the value of said termination resistor squared multiplied by the value of said filter capacitor in parallel with said input capacitance.
- 7. The electronic probe of claim 1, wherein the value of said filter inductor is approximately ten nanohenries.
- 8. The electronic probe of claim 1, wherein the value of said filter resistor is approximately 33.64 kilohms.
- 9. The electronic probe of claim 1, wherein the value of said filter capacitor is approximately one-hundred sixty-eight picofarads.
- 10. The electronic probe of claim 1, wherein at least one pole is associated with said filter in conjunction with said impedance device, wherein at least one zero is associated with said termination portion and wherein the frequency of said at least one pole is substantially equivalent to the frequency of said at least one zero.
- 11. The electronic probe of claim 1, wherein said probe has a gain associated therewith between said probe tip and said probe output and wherein said gain is approximately uniform over a frequency spectrum of direct current to a preselected frequency.
- 12. The electronic probe of claim 1, wherein said probe output is electrically connectable to an electronic device having an input capacitance associated therewith, wherein at least one pole is associated with said filter in conjunction with said impedance device and said electronic device, wherein at least one zero is associated with said termination portion, and wherein the frequency of said at least one pole is substantially equivalent to the frequency of said at least one zero.
- 13. An electronic probe comprising:
a probe tip; a tip resistor having a tip resistor first end and a tip resistor second end, said tip resistor first end being connected to said probe tip; a transmission line having a transmission line first end and a transmission line second end, said transmission line first end being connected to said tip resistor second end; a termination portion comprising a termination portion first end and a termination portion second end, said termination portion first end being connected to said transmission line second end, said termination portion second end being connected to a common node, said termination portion comprising a termination resistor and a termination capacitor connected in series between said termination portion first end and said termination portion second end; and a filter comprising a filter first end and a filter second end, said filter first end connected to said transmission line second end, and said filter second end connected a probe output, said filter comprising a filter resistor connected in parallel with a filter capacitor and a filter inductor connected in series with said filter resistor and filter capacitor combination; and an impedance device connected between said probe output and said common node; wherein at least one zero is associated with said termination portion; wherein at least one pole is associated with said filter in combination with said impedance device; and wherein the frequency of said at least one pole is substantially equivalent to the frequency of said at least one zero.
- 14. The electronic probe of claim 13, wherein said tip resistor is integral to said probe tip and wherein said transmission line first end is connected to said probe tip.
- 15. The electronic probe of claim 13, wherein said impedance device is a resistor.
- 16. The electronic probe of claim 13, wherein said filter output is connectable to an electronic device having an input capacitance associated therewith.
- 17. An electronic probe comprising:
a probe tip; a transmission means for transferring electromagnetic signals, said transmission means having a transmission means first end and a transmission means second end, said transmission means first end being connected to said probe tip; a termination means electrically connected to said transmission means second end, said termination means for terminating said transmission means, said termination means being a block to direct current and having at least one zero associated therewith; and a filter means electrically connected to said transmission means second end, said filter means having at least one pole associated therewith, said at least one pole being at approximately the same frequency as said at least one zero; said filter means comprising at least one inductive means; said filter means comprising an output being electrically connectable to an electronic device having in input capacitance; said inductive means for compensating for said input capacitance of said electronic device.
Parent Case Info
[0001] This application is a Continuation-in-Part of U.S. application Ser. No. 09/183,468 filed on Oct. 30, 1998, which is hereby incorporated by reference for all that is disclosed therein.
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
09183468 |
Oct 1998 |
US |
Child |
09755265 |
Jan 2001 |
US |