Oximeter sensor adapter with coding element
First Claim
1. An oximeter adapter, comprising:
- at least first and second oximeter LED drive input lines connectable to oximeter LED drive output lines;
a pair of probe output lines connectable to probe LED drive input lines of an oximeter probe;
a coding element connected across said oximeter LED drive input lines;
an LED drive circuit, connected between said coding element and said pair of probe output lines, for providing a drive signal to said pair of probe output lines in response to signals on said oximeter LED drive input lines.
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Accused Products
Abstract
An oximeter sensor adapter which allows a sensor without a resistor in parallel with its LEDs to operate with an oximeter expecting such a resistor in parallel. The adapter includes LED drive electronics and appropriate oximeter drive current sensing circuitry for converting the drive signals from the oximeter into appropriate LED drive signals for the sensor. Instead of a resistor being on the sensor in parallel with one or more of the LEDs, the resistor is placed across the leads in front of the LED drive electronics and oximeter drive current sensing circuitry, on the oximeter side of the adapter. By providing LED drive electronics and oximeter drive current sensing circuitry which do not draw significant current at a low voltage, the oximeter is able to measure the resistor independently just as if it were in parallel with the LEDs.
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Citations
14 Claims
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1. An oximeter adapter, comprising:
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at least first and second oximeter LED drive input lines connectable to oximeter LED drive output lines;
a pair of probe output lines connectable to probe LED drive input lines of an oximeter probe;
a coding element connected across said oximeter LED drive input lines;
an LED drive circuit, connected between said coding element and said pair of probe output lines, for providing a drive signal to said pair of probe output lines in response to signals on said oximeter LED drive input lines. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
an LED drive sensing circuit coupled between said oximeter LED drive input lines and said LED drive circuit.
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8. The oximeter adapter of claim 7 wherein said LED drive sensing circuit includes a pair of optical isolator elements.
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9. The oximeter adapter of claim 1 further comprising:
a conversion circuit coupled between a photodetector output from said probe and a photodetector input to an oximeter for modifying a detector signal to account for differences between a wavelength of an LED in said probe and a wavelength expected by said oximeter.
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10. An oximeter system comprising:
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(a) an oximeter including an LED drive circuit, with a pair of oximeter LED drive output lines;
a photodetector sensor circuit, connected to a photodetector input line; and
(b) an oximeter adapter, including a pair of oximeter LED drive input lines connectable to said oximeter LED drive output lines;
a pair of probe output lines connectable to LED drive input lines of an oximeter sensor;
a coding element connected across said oximeter LED drive input lines;
an LED drive circuit, connected between said coding element and said pair of probe output lines, for providing a drive signal to said pair of probe output lines in response to signals on said oximeter LED drive input lines. - View Dependent Claims (11, 12, 13, 14)
an LED drive sensing circuit coupled between said oximeter LED drive input lines and said LED drive circuit.
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13. The oximeter system of claim 12 wherein said LED drive sensing circuit includes a pair of optical isolator elements.
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14. The oximeter system of claim 10 wherein said oximeter adapter further comprises:
a conversion circuit coupled between a photodetector output from said probe and a photodetector input to said oximeter for modifying a detector signal to account for differences between a wavelength of an LED in said probe and a wavelength expected by said oximeter.
Specification