Ambulatory recorder having a real time and non-real time processors
First Claim
1. An ambulatory medical data recorder for recording at least one physiological signal sensed in a patient by a sensor, the recorder comprising:
- a sensor input for receiving the at least one sensed physiological signal;
at least one battery for providing a source of electrical current;
a first real time processor for controlling acquisition of the at least one sensed physiological signal during first data acquisition phases of predetermined first durations and first frequencies, the first processor being operably connected to the sensor input and powered by the at least one battery, the first processor being configured to receive, during a first awake mode, the at least one physiological signal from the sensor input and perform at least a first process thereon to yield a first data set and store same in a first memory during the data acquisition phases, anda second non-real time processor operably connected to the first data processor and powered by the at least one battery, the second processor being configured to receive, in a second awake mode, the first data set from the first processor during second data processing and storage phases of predetermined second durations and second frequencies and perform at least a second process thereon to yield a second data set and store same in a second memory during the second data processing and storage phases;
wherein the first processor is configured to enter a first sleep mode for reducing battery power consumption after the first data set has been transferred to the second processor and the second processor is operating in the second awake mode, and further wherein the second processor is configured to enter a second sleep mode for reducing battery power consumption when the first sleep mode ends and the first Processor is operating in the first awake mode.
1 Assignment
0 Petitions
Accused Products
Abstract
An ambulatory recorder having real time non-real time processors is described. The real time processor handles sampling functions while the non real time processor handles other functions, such as high processing operations associated with multitasking, graphical user interface, floating point calculation, Infra Red communication and long term memory storage. The second processor is primarily provided to operate a Windows CE operating system as well as one or more embedded applications. Through this design, electrical power provided by a battery is only consumed by those components essential to device operation at any particular time.
-
Citations
10 Claims
-
1. An ambulatory medical data recorder for recording at least one physiological signal sensed in a patient by a sensor, the recorder comprising:
-
a sensor input for receiving the at least one sensed physiological signal; at least one battery for providing a source of electrical current; a first real time processor for controlling acquisition of the at least one sensed physiological signal during first data acquisition phases of predetermined first durations and first frequencies, the first processor being operably connected to the sensor input and powered by the at least one battery, the first processor being configured to receive, during a first awake mode, the at least one physiological signal from the sensor input and perform at least a first process thereon to yield a first data set and store same in a first memory during the data acquisition phases, and a second non-real time processor operably connected to the first data processor and powered by the at least one battery, the second processor being configured to receive, in a second awake mode, the first data set from the first processor during second data processing and storage phases of predetermined second durations and second frequencies and perform at least a second process thereon to yield a second data set and store same in a second memory during the second data processing and storage phases; wherein the first processor is configured to enter a first sleep mode for reducing battery power consumption after the first data set has been transferred to the second processor and the second processor is operating in the second awake mode, and further wherein the second processor is configured to enter a second sleep mode for reducing battery power consumption when the first sleep mode ends and the first Processor is operating in the first awake mode. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
-
Specification