Interconnect circuit between non-compatible oximeter and sensor
First Claim
1. An oximeter sensor adapter, comprising:
- a pair of first and second oximeter input lines connectable to oximeter LED drive output lines;
a pair of sensor output lines connectable to LED drive input lines of an oximeter sensor;
a sensing circuit, coupled to said first and second oximeter input lines, to detect when a signal on said first input line exceeds a first predetermined level and when a signal on said second input line exceeds a second predetermined level;
a coding element; and
a switching circuit, having a control input connected to said sensing circuit, having a first pair of switch inputs coupled to said first and second oximeter input lines, a first pair of switch outputs connected to said sensor output lines, a second pair of switch outputs coupled to said coding element, and being configured to switch between said first and second pairs of switch outputs in response to a signal on said control input.
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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 has a switching circuit which has inputs connected to the LED drive outputs of the oximeter. The switching circuit has two pairs of outputs, one connected to the LED drive lines of the sensor, and the other connected to a resistor in the adapter itself. The switching circuit is controlled by a sensing circuit which senses when a signal on the input lines drops below a predetermined level, such as 0.5 volts. The sensing circuit, in response to a low voltage (corresponding to an attempt to read a resistor in parallel with the LEDs), will provide a signal to a switching circuit. The switching circuit will switch the resistor onto the input lines so that it can be read. When a higher voltage returns to the input lines, the switching circuit switches back to the LEDs themselves.
170 Citations
11 Claims
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1. An oximeter sensor adapter, comprising:
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a pair of first and second oximeter input lines connectable to oximeter LED drive output lines;
a pair of sensor output lines connectable to LED drive input lines of an oximeter sensor;
a sensing circuit, coupled to said first and second oximeter input lines, to detect when a signal on said first input line exceeds a first predetermined level and when a signal on said second input line exceeds a second predetermined level;
a coding element; and
a switching circuit, having a control input connected to said sensing circuit, having a first pair of switch inputs coupled to said first and second oximeter input lines, a first pair of switch outputs connected to said sensor output lines, a second pair of switch outputs coupled to said coding element, and being configured to switch between said first and second pairs of switch outputs in response to a signal on said control input. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
at least one differential amplifier coupled to said input lines; and
at least one comparator coupled to an output of said differential amplifier.
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9. The oximeter sensor adapter of claim 1 wherein said switching circuit comprises:
at least first and second optical switches.
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10. The oximeter sensor adapter of claim 1 further comprising:
a conditioning circuit, coupled between a sensor detector line and an oximeter detector line, for varying a photo-detected signal level.
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11. An oximeter system comprising:
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(a) an oximeter including an LED drive circuit, with a pair of LED drive output lines;
a photodetector sensor circuit, connected to a photodetector input line; and
(b) an oximeter sensor adapter, including a pair of first and second oximeter input lines connectable to oximeter LED drive output lines;
a pair of sensor output lines connectable to LED drive input lines of an oximeter sensor;
a sensing circuit, coupled to said first and second oximeter input lines, to detect when a signal on said first input line exceeds a first predetermined level and when a signal on said second input line exceeds a second predetermined level;
a coding element; and
a switching circuit, having a control input connected to said sensing circuit, having a first pair of switch inputs coupled to said first and second oximeter input line, a first pair of switch outputs connected to said sensor output lines, a second pair of switch outputs coupled to said coding element, and being configured to switch between said first and second pairs of switch outputs in response to a signal on said control input.
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Specification