Pulse oximetry sensor adapter
First Claim
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1. An adapter configured to connect one noninvasive optical sensor from a variety of possible noninvasive optical sensors to one patient monitor from a variety of possible patient monitors to create a pulse oximetry system, the adapter comprising:
- a first connector adapter attachable to a monitor;
a second connector adapter attachable to a sensor; and
a sensor adapter cable coupled between the first connector adapter and the second connector adapter, wherein the sensor adapter cable comprises;
a monitor selector that senses a drive configuration or drive levels of the monitor;
a sensor selector that determines a light emitting diode configuration;
a plurality of adapter elements that modify signals between the monitor and the sensor for compatible operations;
a first switching circuit that couples a selected adapter element to the first connector adapter based on outputs from the monitor selector and the sensor selector, wherein the selected adapter element is one of the plurality of adapter elements; and
a second switching circuit that couples the selected adapter element to the second connector adapter.
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Accused Products
Abstract
An adapter allows the interconnection of a sensor originating from one manufacturer to be coupled with conventionally incompatible monitors originating from other manufacturers to form a properly functioning pulse oximetry system. The adapter matches a sensor driver in a monitor to the current requirements and light source configuration of a sensor. The adapter also matches a sensor'"'"'s light detector signal level to the dynamic range requirements of a monitor preamplifier. Further, the adapter provides compatible sensor calibration, sensor type and security information to a monitor. The adapter may have a self-contained power source or it may derive power from the monitor, allowing both passive and active adapter components. The adapter is particular suited as an adapter cable, replacing a conventional patient cable or sensor cable as the interconnection between a sensor to a monitor in a pulse oximetry system.
607 Citations
15 Claims
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1. An adapter configured to connect one noninvasive optical sensor from a variety of possible noninvasive optical sensors to one patient monitor from a variety of possible patient monitors to create a pulse oximetry system, the adapter comprising:
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a first connector adapter attachable to a monitor; a second connector adapter attachable to a sensor; and a sensor adapter cable coupled between the first connector adapter and the second connector adapter, wherein the sensor adapter cable comprises; a monitor selector that senses a drive configuration or drive levels of the monitor; a sensor selector that determines a light emitting diode configuration; a plurality of adapter elements that modify signals between the monitor and the sensor for compatible operations; a first switching circuit that couples a selected adapter element to the first connector adapter based on outputs from the monitor selector and the sensor selector, wherein the selected adapter element is one of the plurality of adapter elements; and a second switching circuit that couples the selected adapter element to the second connector adapter. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method to connect one sensor from a variety of possible sensors to one monitor from a variety of possible monitors to form an operable pulse oximetry system capable of monitoring blood parameters of a patient, the method comprising:
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attaching a patient monitor to a first end of an adapter cable; attaching a sensor to a second end of the adapter cable; sensing a driver configuration of the monitor based on a first set of signal lines at the first end of the adapter cable; sensing a light emitting diode configuration of the sensor based on a second set of signal lines at the second end of the adapter cable; selecting an adapter element from a plurality of adapter elements in the adapter cable to provide drive signals from said monitor to properly drive light source elements of said sensor and to provide detector signals from said sensor to properly be received by signal conditioning elements of said monitor to form an operable pulse oximetry system from said monitor, said adapter cable, and said sensor. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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15. A method of providing appropriate communication between a blood parameter monitor and a noninvasive sensor, the method comprising:
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attaching a monitor to a first standard connector at a first end of a sensor adapter cable; attaching a sensor to a second standard connector at a second end of the sensor adapter cable; testing a first set of signal lines in the first standard connector to determine monitor type; testing a second set of signal lines in the second standard connector to determine sensor type; and based on said testing of the first and second set of signal lines, electrically connecting adapter elements to provide appropriate communication from said monitor to said sensor to drive light source elements and to provide appropriate communication from said sensor to said monitor to convey detector element signals to circuit conditioning elements of said monitor in a manner usable to determine one or more blood parameters from said detector element signals.
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Specification
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Current AssigneeMasimo Corporation
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Original AssigneeMasimo Corporation
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InventorsKiani, Massi E., Smith, Robert A., Tobler, David R.
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Primary Examiner(s)Winakur; Eric F
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Application NumberUS11/341,999Publication NumberTime in Patent Office1,768 DaysField of Search600/310, 600/322, 600/323, 600/344US Class Current600/310CPC Class CodesA61B 2562/222 Electrical cables or leads ...A61B 5/14551 for measuring blood gasesA61B 5/14552 Details of sensors speciall...Y10S 439/909 Medical use or attached to ...
