JP2020535941A5 - - Google Patents

Description

Although the described form factors provide a compact design that makes the defibrillator itself very portable and easy to use, it should be understood that a variety of different form factors can be used in alternative embodiments. Similarly, we have described specific electronics, defibrillator control logic, and user interfaces, but it should be understood that all of these features can be broadly modified. Accordingly, this embodiment should be considered exemplary and not limiting, and the invention is not limited to the details given herein, and the appended claims and equality. Can be modified within the object.
The technical ideas included in this disclosure are described below as an appendix.
(Appendix 1)
Defibrillator system
A base defibrillator unit that constitutes a fully functional defibrillator that can independently determine when a defibrillation shock is recommended and deliver the defibrillation shock. A capacitor unit suitable for delivering a defibrillation shock and the capacitor unit can independently store sufficient energy to facilitate charging to a level suitable for delivering the defibrillation shock. With a base defibrillator unit, including a capable battery,
An interface unit attached to the base defibrillator unit, wherein the base defibrillator unit and the attached interface unit form at least a portion of a single portable unit. As described above, attached to and detachably coupled to the base defibrillator unit, the interface unit includes a communication module that facilitates wireless communication with a remote server. , The interface unit has no substantive function other than operating in association with the defibrillator, but is not required for the defibrillator to operate properly, with the interface unit.
Defibrillator system.
(Appendix 2)
Defibrillator,
With a capacitor unit configured to store and discharge enough energy to deliver a defibrillation shock to the patient,
A charging circuit configured to charge the capacitor unit to a voltage suitable for delivering the defibrillation shock.
A discharge circuit suitable for discharging the capacitor unit to deliver the defibrillation shock,
A speaker for transmitting voice instructions to the user while using the defibrillator,
(I) The speaker is provided with information that causes the user to transmit voice instructions while the defibrillator is in use and (ii) facilitates the display of graphic user instructions on an external device that is synchronized with the voice instructions. With a defibrillator controller configured to send to an external device
Defibrillator, equipped with.
(Appendix 3)
Defibrillator,
With a capacitor unit configured to store and discharge enough energy to deliver a defibrillation shock to the patient,
A charging circuit configured to charge the capacitor unit to a voltage suitable for delivering the defibrillation shock.
A discharge circuit suitable for discharging the capacitor unit to deliver the defibrillation shock,
With a first connector suitable for electrically coupling the interface unit to the defibrillator when the interface unit is physically attached to the defibrillator.
A second connector suitable for electrically coupling an external device different from the interface unit to the defibrillator.
With a defibrillator controller configured to facilitate communication with the interface unit and facilitate communication with the external device when the interface unit is physically attached to the defibrillator.
Defibrillator equipped with.
(Appendix 4)
Defibrillator,
Defibrillator controller and
With a capacitor unit configured to store and discharge enough energy to deliver a defibrillation shock to the patient,
A charging circuit configured to charge the capacitor unit to a voltage suitable for delivering the defibrillation shock.
A discharge circuit suitable for discharging the capacitor unit to deliver the defibrillation shock,
A battery configured to power the defibrillator and charge the capacitor unit.
A battery charger configured to charge the battery using power drawn from an external device, and
When the external device is connected to the defibrillator while charging the capacitor unit, the power received from the external device may be in parallel with or from the battery. Instead, with a bypass circuit configured to supply to the charging circuit to facilitate charging of the capacitor unit.
Defibrillator, equipped with.
(Appendix 5)
The base defibrillator unit is configured to transmit information to the interface unit during emergency use of the defibrillator system, and the base defibrillator unit is of the defibrillator. The defibrillator system according to Appendix 1, which does not require or utilize control instructions from the attached interface unit or other external device during emergency use.
(Appendix 6)
The defibrillator according to any one of Appendix 1 to 5, wherein the defibrillator is fully functional in the absence of the interface unit or external device.
(Appendix 7)
The defibrillator is configured not to utilize control instructions from an attached interface unit or other external device during emergency use of the defibrillator, any one of Appendix 1-6. Defibrillator as described in section.
(Appendix 8)
The defibrillator controller further comprises a speaker.
The speaker is made to transmit a voice instruction to the user during use of the defibrillator.
Information that facilitates the display of graphic user instructions on at least one of the external devices and interface units that are synchronized with the voice instructions is transmitted to at least one of the external devices and interface units.
The defibrillator according to any one of Appendix 1 to 7, which is configured as described above.
(Appendix 9)
The defibrillator according to any one of Appendix 1 to 8, wherein the external device is a mobile phone or other mobile communication device.
(Appendix 10)
The mobile phone or other mobile communication device
With the defibrillator support application installed on it,
A processor for running the defibrillator support application,
With display screen
Including
The defibrillator support application controls the processor to display on the display screen graphic instructions that are synchronized with the voice instructions provided by the defibrillator during emergency use of the defibrillator. The defibrillator according to Appendix 9, which is configured as described above.
(Appendix 11)
The external unit has no substantive function other than operating in cooperation with the defibrillator, but is not required for the defibrillator to operate properly. The defibrillator according to Appendix 2 or 4.
(Appendix 12)
The defibrillator according to any one of Appendix 1, 3, and 5 to 11, wherein the interface unit is attached to the defibrillator and is detachably attached to the defibrillator. ..
(Appendix 13)
Defibrillator system
A base defibrillator unit that constitutes a fully functional defibrillator that can independently determine when a defibrillation shock is recommended and deliver the defibrillation shock. A capacitor unit suitable for delivering a defibrillation shock and the capacitor unit can independently store sufficient energy to facilitate charging to a level suitable for delivering the defibrillation shock. A base defibrillator unit, including a capable battery and a base unit housing,
An interface unit attached to and detachably coupled to the base defibrillator unit during emergency use of the defibrillator system based on information received from the base defibrillator unit. The base defibrillator unit includes a display screen suitable for displaying graphic instructions to the user, but does not provide control to the base defibrillator unit during emergency use of the defibrillator system. Is not required for proper operation, with an interface unit
Defibrillator system with.
(Appendix 14)
The defibrillator according to any one of Appendix 3 and 5 to 13, wherein the interface unit further includes a communication module that facilitates wireless communication with a remote server.
(Appendix 15)
The interface unit includes complementary connectors that engage a first connector on the defibrillator when the interface unit is attached to the defibrillator, appendix 1, 3, and 5 to. The defibrillator according to any one of 14.
(Appendix 16)
The defibrillator controller is further configured to transmit incident information to the interface unit during emergency use of the defibrillator, the interface unit (a) the incident information to the remote server. It is configured to both transmit at least a portion of the incident information and (b) display at least a portion of the incident information to the user in response to a user request for such information. The defibrillator according to any one of 1, 3 and 5 to 15.
(Appendix 17)
The defibrillator includes a defibrillator battery and is configured to draw power from the interface unit or external device, (a) selectively supplying auxiliary charging power during charging of the capacitor unit. (B) The power drawn out can be selectively utilized for both (b) selectively supplying power for recharging the defibrillator battery, according to Appendix 1-16. The defibrillator according to any one item.
(Appendix 18)
The defibrillator includes a defibrillator battery, the interface unit includes an interface unit battery, and the defibrillator does not draw power from the defibrillator battery. The defibrillator according to any one of Appendix 1 to 17, which is configured to allow the interface unit battery to be recharged at a selected time when the device is coupled to a charger. Defibrillator.
(Appendix 19)
The defibrillator provides at least one of the defibrillator status information and instructions to the interface unit or external device to facilitate synchronized display of graphic instructions on the interface unit or external device. The defibrillator according to any one of Appendix 1 to 18, which is configured to be.
(Appendix 20)
The defibrillator state information or instructions are periodically updated to help ensure that the graphic instructions on the external device are synchronized with the voice instructions provided by the defibrillator. , The defibrillator according to Appendix 19.
(Appendix 21)
The exemption according to Appendix 20, wherein the external device is configured to stop displaying the synchronized graphic instructions if no updates are received from the defibrillator for a period of time that exceeds a specified timeout threshold. Defibrillator.
(Appendix 22)
The defibrillator state information or instructions are at least 3 per second to help ensure that the graphic instructions on the external device are synchronized with the voice instructions provided by the defibrillator. The defibrillator according to any one of Appendix 19 to 21, which is updated at a frequency of one update.
(Appendix 23)
The defibrillator according to Appendix 22, wherein the defibrillator status information or indication is updated at a frequency of at least 10 updates per second.
(Appendix 24)
Further comprising a connector suitable for electrically coupling the external device to the defibrillator, the connector is configured to facilitate communication between the defibrillator controller and the external device. The defibrillator according to any one of Appendix 1, 2, and 4 to 23.
(Appendix 25)
The connector is to receive power from the external device that can be (i) assisted in charging the capacitor unit or (ii) selectively used to recharge the defibrillator battery. The defibrillator according to Appendix 3 or 24, which is further configured in.
(Appendix 26)
The connector or the second connector is
With USB connector
With lightning connector
The defibrillator according to any one of Appendix 3, 24, or 25, which is selected from the group consisting of.
(Appendix 27)
The connector or the second connector is a USB connector selected from the group consisting of a USB-C connector, a USB2.0 connector, a USB3.0 connector, a USB3.1 connector, a USB mini connector, and a micro USB connector. The defibrillator according to Appendix 26.
(Appendix 28)
It further comprises an additional connector suitable for electrically coupling a second external device to the defibrillator, the additional connector being different from the connector or the second connector and the capacitor. The defibrillator according to any one of Supplementary note 3 or 24 to 27, which is configured to receive power from the second external device that can be used to assist in charging the unit.
(Appendix 29)
The defibrillator according to any one of Appendix 1 to 28, further comprising a rechargeable battery and a charge management module configured to control the recharge of the rechargeable battery.
(Appendix 30)
The defibrillator according to Appendix 29, further comprising a wireless charging receiver configured to receive power from the wireless charger to facilitate charging of the rechargeable battery.
(Appendix 31)
The defibrillator according to any one of Appendix 1 to 30, further comprising a wireless communication module configured to communicate with said interface unit or external device using wireless communication.
(Appendix 32)
The wireless communication unit uses a communication protocol selected from the group consisting of Bluetooth, Near Field Communication (NFC), Jigby Communication, Dedicated Short Range Communication (DSRC), Cellular Communication, Wi-Fi, and Satellite Communication. The defibrillator according to Appendix 31, which is configured to communicate with the external device.
(Appendix 33)
The defibrillator housing further comprises the defibrillator controller, the capacitor unit, the charging circuit, and the discharging circuit, and the connector is exposed to the outside of the defibrillator housing, Appendix 1 to 32. The defibrillator according to any one item.
(Appendix 34)
33. The defibrillator according to Appendix 33, further comprising an electrode pad cartridge housed in a cartridge container in the housing, wherein the electrode pad cartridge comprises an electrode pad and scissors.
(Appendix 35)
The bypass circuit adjusts the power drawn from the external device so that the power drawn from the external device does not exceed the specified current supply threshold associated with the external device, any of appendices 4 to 34. The defibrillator described in paragraph 1.
(Appendix 36)
If the external device is connected to the defibrillator and the battery is completely discharged during charging of the capacitor unit, only the bypass circuit is used to charge the capacitor unit. Defibrillator according to 4 or 35.
(Appendix 37)
Further equipped with a shock-capable rhythm detector, the defibrillator allows a patient to be shocked without input from the external device, regardless of whether the external device is electrically connected to the defibrillator. The defibrillator according to any one of Supplementary note 1 to 36, which is configured to determine whether or not the defibrillator has a proper rhythm.
(Appendix 38)
A defibrillator interface unit adapted to be attached to a fully functional base defibrillator unit without a defibrillator interface unit.
A housing that is attached to the base defibrillator unit and is configured to provide a portable modular defibrillator that combines the base defibrillator unit and the defibrillator interface unit.
When the defibrillator interface unit is attached to the base defibrillator unit, a processor configured to communicate with the defibrillator controller on the base defibrillator unit.
A communication module configured to facilitate communication between the defibrillator interface unit and one or more remote servers using a communication protocol.
With a power storage unit that supplies power to the interface unit
Defibrillator interface unit.
(Appendix 39)
A defibrillator interface unit adapted to be attached to a fully functional base defibrillator unit without a defibrillator interface unit.
A housing that is attached to the base defibrillator unit and is configured to provide a portable modular defibrillator that combines the base defibrillator unit and the defibrillator interface unit.
Display screen and
With a processor configured to communicate with a defibrillator controller on the base defibrillator unit when the defibrillator interface unit is attached to the base defibrillator unit.
The processor displays on the display screen graphic instructions synchronized with voice instructions provided by the base defibrillator unit during use of the defibrillator interface unit in a potential cardiac incident. A defibrillator interface unit that is further configured to do so.
(Appendix 40)
The defibrillation according to Appendix 39, further comprising a communication module configured to facilitate communication between the defibrillator interface unit and one or more remote servers using a communication protocol. Motivational interface unit.
(Appendix 41)
The defibrillator interface unit according to any one of Appendix 38 to 40, wherein the defibrillator interface unit is not a general-purpose mobile phone, a tablet computer, or a personal computer.
(Appendix 42)
A defibrillator interface unit adapted to be attached to a base defibrillator unit.
A housing that is attached to the base defibrillator unit and is configured to provide a portable modular defibrillator that combines the base defibrillator unit and the defibrillator interface unit.
Display screen and
A communication module configured to facilitate communication between the defibrillator interface unit and one or more remote servers using a communication protocol.
Externally exposed on the housing of the interface unit so as to engage the complementary connector on the base defibrillator unit when the housing of the interface unit is attached to the base defibrillator unit. With the adapted first connector,
With the processor housed in the housing
The processor is configured to communicate with a defibrillator controller on the base defibrillator unit when the defibrillator interface unit is attached to the base defibrillator unit. And
The defibrillator interface unit is not a general purpose mobile phone, tablet computer, or personal computer.
(Appendix 43)
The defibrillator interface unit according to any one of Appendix 38 to 42, wherein the defibrillator interface unit has no substantial function other than being used in combination with the base defibrillator unit.
(Appendix 44)
Further comprising a display screen, the processor displays graphic instructions synchronized with voice instructions provided by the base defibrillator unit during use of the defibrillator interface unit in a potential cardiac incident. The defibrillator interface unit according to any one of Supplementary note 38, 42, or 43, which is further configured to be displayed on the screen.
(Appendix 45)
The defibrillator interface unit according to any one of Appendix 39, 42, or 44, wherein the display screen is a touch-sensitive display screen.
(Appendix 46)
The defibrillator interface unit is configured to receive self-test information from the base defibrillator unit and report the self-test information to a remote server, any of Appendix 38-45. The defibrillator interface unit described in item 1.
(Appendix 47)
A server further comprising a GNSS sensor, the defibrillator interface unit using the GNSS sensor to determine the position of the defibrillator interface unit and the location of the defibrillator interface unit at a remote location. The defibrillator interface unit according to any one of Supplementary note 38 to 46, which is configured to report to.
(Appendix 48)
The defibrillator interface unit according to any one of Appendix 38 and 40 to 47, wherein the communication module facilitates at least one of cellular communication and WiFi communication.
(Appendix 49)
Externally exposed on the housing of the interface unit so as to engage the complementary connector on the base defibrillator unit when the housing of the interface unit is attached to the base defibrillator unit. The defibrillator interface unit according to any one of Appendix 38-41 and 43-48, further comprising a adapted first connector.
(Appendix 50)
The defibrillator interface unit according to Appendix 42 or 49, wherein the first connector is configured to facilitate communication between the processor and the defibrillator controller.
(Appendix 51)
The defibrillator interface unit according to any one of Supplementary note 42, 49 or 50, wherein the first connector facilitates the transfer of electric power between the interface unit and the base unit.
(Appendix 52)
The defibrillator interface unit according to any one of Appendix 42 or 49-51, wherein the connector comprises at least two communication line contacts, a power line contact, and a ground line contact.
(Appendix 53)
The defibrillator interface unit according to any one of Supplementary note 38 to 52, wherein the defibrillator interface unit is further configured to determine whether or not a base unit is attached.
(Appendix 54)
The defibrillator interface unit according to any one of Supplementary note 38 to 53, wherein the processor, the communication unit, and the power storage unit are all contained in the housing at least partially.
(Appendix 55)
The defibrillator interface unit does not send control instructions to the base defibrillator unit during emergency use of the base defibrillator unit and is not required for the operation of the base defibrillator unit. The defibrillator interface unit according to any one of Appendix 38 to 54.
(Appendix 56)
The defibrillator interface unit according to any one of Appendix 38 to 55, wherein the housing is configured to be detachably attached to the base defibrillator unit.
(Appendix 57)
The processor periodically receives defibrillator status information from the base defibrillator unit and periodically transmits the defibrillator status information to one or more of the remote servers. The defibrillator interface unit according to any one of Appendix 38 to 56, which is configured in the above.
(Appendix 58)
The defibrillator interface unit according to Appendix 57, wherein the defibrillator status information is received from the base defibrillator unit and transmitted to one or more of the remote servers once daily.
(Appendix 59)
The power storage unit is an interface unit configured to be recharged while coupled to the base defibrillator unit without drawing power from any power storage unit on the base defibrillator unit. The defibrillator interface unit according to any one of Appendix 38 to 58, which is a battery.
(Appendix 60)
The defibrillator interface unit according to any one of Appendix 38 to 59, wherein the interface unit does not draw power from the base defibrillator unit during operation of the modular defibrillator.
(Appendix 61)
The defibrillator interface unit according to any one of Supplementary note 38 to 60, further comprising a battery charger configured to recharge the power storage unit.
(Appendix 62)
When the defibrillator unit is charged and connected to an external power source, it is configured to recharge the power storage unit using power reception via the base defibrillator, Appendix 38-61. The defibrillator interface unit according to any one of the above.
(Appendix 63)
The defibrillator interface unit according to any one of Appendix 38 to 62, wherein the defibrillator interface unit can supply power to the base defibrillator unit.
(Appendix 64)
Item 3. Defibrillator interface unit as described in.
(Appendix 65)
The defibrillator app is configured to display on the display screen graphic instructions that supplement the voice instructions provided by the base defibrillator unit while the base defibrillator unit is in use. , The defibrillator interface unit according to Appendix 64.
(Appendix 66)
The processor
Upon receiving the indicated state identifier from the defibrillator controller,
The graphic instruction corresponding to the instruction state identifier is searched from the memory of the interface unit, and the graphic instruction is searched.
The searched graphic instructions are displayed on the display screen to facilitate the synchronized display of the graphic instructions on the defibrillator interface unit.
The defibrillator interface unit according to Appendix 65, which is configured as described above.
(Appendix 67)
The processor is configured to periodically receive an updated instruction state identifier from the defibrillator controller and update the displayed graphic instruction based on the updated instruction state identifier. , Defibrillator interface unit according to Appendix 65 or 66.
(Appendix 68)
Addendum 38-to, which is configured to receive a defibrillator software update from the remote server and send the software update to the base defibrillator unit for installation on the base defibrillator unit. Defibrillator interface unit according to any one of 67.
(Appendix 69)
Further comprising a defibrillator support application having programmed instructions suitable for storing in at least one memory of the interface unit or the external device, the defibrillator support application is on the processor. When executed, in response to receiving instruction information from the base defibrillator unit regarding the current voice instruction state of the base defibrillator unit, the interface unit is informed of the present of the defibrillator. The defibrillator or interface unit according to any one of Supplementary note 1 to 69, which is configured to display a graphic instruction corresponding to the voice instruction state of the above on the display screen.
(Appendix 70)
Defibrillator system
A base defibrillator unit that constitutes a fully functional defibrillator that can independently determine when a defibrillation shock is recommended and deliver the defibrillation shock. A capacitor unit suitable for delivering a defibrillation shock and the capacitor unit can independently store sufficient energy to facilitate charging to a level suitable for delivering the defibrillation shock. A base defibrillator unit, including a capable battery and a battery charger,
The auxiliary battery pack attached to the base defibrillator unit, such that the base defibrillator unit and the attached auxiliary battery pack form a single unit that can be carried together as a portable unit. Auxiliary battery packs that are attached to and removable from the base defibrillator unit,
The defibrillator battery charger is a defibrillator system configured to recharge the defibrillator battery using electricity from the auxiliary battery pack.
(Appendix 71)
The battery charger is configured to draw power from the auxiliary battery pack to charge the defibrillator battery when it is determined that the charge level of the first battery has fallen below a designated charge threshold. The defibrillator system according to Appendix 70.
(Appendix 72)
80 or 71, wherein the base defibrillator unit further comprises an auxiliary charging circuit configured to draw power directly from the auxiliary battery pack to assist charging of the capacitor unit during a treatment event. Defibrillator system.
(Appendix 73)
A defibrillator support application with programmed instructions suitable for storing in the memory of a device having a display screen and a processor suitable for executing the programmed instructions and executed on said processor. In response to receiving instruction information from the defibrillator regarding the current voice instruction state of the defibrillator, the device is given a graphic instruction corresponding to the current voice instruction state of the defibrillator. A defibrillator support application that is configured to display on the display screen.
(Appendix 74)
The instruction information received from the defibrillator includes a defibrillator state identifier.
The programmed instruction causes the processor to search the memory of the device for the graphic instruction corresponding to the received defibrillator state identifier, and sets the searched graphic instruction as the current voice instruction state. The defibrillator support application according to Appendix 73, which is configured to be synchronously displayed on the display screen.
(Appendix 75)
The programmed instruction corresponds to the current voice-instructed state if the device does not receive a valid defibrillator state identifier from the defibrillator for a period of time that exceeds the specified timeout threshold. The defibrillator support application according to Appendix 73 or 74, which is further configured to stop displaying the graphic instructions.
(Appendix 76)
The device is a mobile phone or other mobile communication device, and the defibrillator support application is installed on the mobile phone or other mobile communication device, according to any one of Appendix 73-75. Defibrillator support application.
(Appendix 77)
The device is an interface unit configured to be coupled to a fully functional defibrillator without the interface unit, the interface unit having the defibrillator support application installed on it. The defibrillator support application according to any one of Appendix 73 to 75.
(Appendix 78)
It's a method
(A) A step of transmitting status information from the base defibrillator unit to the interface unit attached to the base defibrillator unit, wherein the interface unit is necessary for the operation of the base defibrillator unit. Instead, the step of transmitting, not providing control instructions to the base defibrillator unit during emergency use of the base defibrillator unit,
(B) A step of transmitting at least a part of the status information received by the interface unit to one or more remote servers.
(C) A step of periodically transmitting status information from the base defibrillator unit to the one or more remote servers by periodically repeating steps (a) and (b).
Including methods.
(Appendix 79)
The method of Appendix 78, wherein the step of receiving and transmitting the status information is repeated once daily.
(Appendix 80)
The status information is
(I) The battery charge level of the base defibrillator unit and
(Ii) The charging status of the base defibrillator unit and
(Iii) The version of the firmware installed in the base defibrillator unit,
(Iv) The latest firmware installation date and time,
(V) The hardware version of the base defibrillator unit and
(Vi) The serial number of the base defibrillator unit and
(Vii) A set of recent base defibrillator unit self-test results,
(Viii) With the functional status of the base unit
The method according to Appendix 78 or 79, comprising one or more of the above.
(Appendix 81)
The step of receiving software updates from a remote software update server in the interface unit, and
The step of transmitting the software update from the interface unit to the base defibrillator unit, and
With the steps to install the software update on the base defibrillator unit
80.
(Appendix 82)
It's a method
(A) A step of transmitting incident information from the base defibrillator unit to an interface unit attached to the base defibrillator unit during emergency use of the base defibrillator unit. Is not required for the operation of the base defibrillator unit and does not provide control instructions to the base defibrillator unit during emergency use of the base defibrillator unit, and a step of transmitting.
(B) A step of transmitting at least a part of the received incident information from the interface unit to one or more remote servers.
Including methods.
(Appendix 83)
The incident information is
(I) The operating state of the base defibrillator unit and
(Ii) A sign of the current instruction currently issued to the user by the base defibrillator unit, and
(Iii) A time stamp indicating when the base defibrillator unit was put into emergency mode,
(Iv) An indicator indicating whether or not a defibrillation shock has been delivered, and if a defibrillation shock has been delivered, a time stamp indicating the time when each defibrillation shock was delivered.
(V) The energy level delivered for each shock and
(Vi) Waveforms associated with each shock delivered,
(Vii) Shock / no shock classification of detected ECG analysis,
(Viii) Detected ECG analysis cardiac rhythm classification,
(IX) Timestamps or equivalents associated with the detected ECG analysis,
(X) With one or more recorded ECG samples,
(Xi) With a report of a defect detected during the startup of the base defibrillator unit.
82. The method of Appendix 82, comprising one or more of the above.
(Appendix 84)
It's a method
(I) A step of causing the automatic external defibrillator to generate a voice instruction during emergency use of the automatic external defibrillator.
(Ii) A step of transmitting information indicating the voice instruction from the automatic external defibrillator to an external device having a display screen.
(Iii) A step of causing the external device to display a graphic instruction related to the voice instruction on a display screen, and the displayed graphic instruction is displayed and displayed during a period related to the voice instruction. Steps and
(Iv) A plurality of external devices to display graphic instructions synchronized with the voice instructions generated by the automatic external defibrillator during emergency use of the automatic external defibrillator. With the step of repeating steps (i)-(iii) for different voice instructions
Including methods.
(Appendix 85)
The automatic external defibrillator periodically sends information indicating the current defibrillator state to the external device, the current defibrillator state being the available defibrillator state. It was selected from the set and
The external device uses information indicating the current defibrillator state to determine if there is a graphic instruction associated with the current defibrillator state, and if so, the associated graphic. The method of Appendix 84, wherein the instructions are displayed.
(Appendix 86)
If the external device does not receive valid information from the defibrillator indicating the current defibrillator state for a period of time exceeding the specified timeout threshold, it indicates the current defibrillator state. 8. The method of Appendix 84 or 85, further comprising a step of stopping the display of synchronized graphic instruction information.
(Appendix 87)
The current defibrillator state is at least 3 per second to help ensure that the graphic instructions displayed on the external device are synchronized with the voice instructions provided by the defibrillator. The method according to any one of Appendix 84 to 86, which is updated at a frequency of one update.
(Appendix 88)
The external device is a mobile phone or other mobile communication device in which the defibrillator support application is stored, and the defibrillator support application receives voice instructions received from the automatic external defibrillator. The method according to any one of Supplementary notes 84 to 87, which is configured to determine an appropriate graphic instruction to be displayed on the display screen based on the information shown.
(Appendix 89)
The external device is a purpose-built interface unit coupled to the automated external defibrillator.
The interface unit is configured to determine an appropriate graphic instruction to be displayed on the display screen based on information indicating a voice instruction received from the automatic external defibrillator.
The method of any one of Appendix 84-87, wherein the defibrillator is fully functional without the interface unit coupled.
(Appendix 90)
A method of managing the power received by a defibrillator unit from an external device electrically connected to the defibrillator unit, where the defibrillator is a suitable capacitor to deliver a defibrillator shock. The defibrillator unit comprises a unit and a rechargeable battery, the defibrillator unit is configured to selectively supply power from the battery to charge the capacitor unit.
When the defibrillator unit is not in the capacitor charging state, it is determined that the step of determining whether the rechargeable battery needs to be recharged and the step of determining whether the rechargeable battery needs to be recharged. A method comprising drawing power from the external device to recharge the rechargeable battery, if the case.
(Appendix 91)
90. The method of Appendix 90, further comprising drawing power from the external device to charge the capacitor unit or assisting in charging the capacitor unit when the defibrillator unit is in a capacitor charging state. ..
(Appendix 92)
The method according to Appendix 90 or 91, wherein the external device is a mobile communication device.
(Appendix 93)
The method according to Appendix 90 or 91, wherein the external device is an auxiliary battery pack.
(Appendix 94)
The external device is an interface unit that is attached to the defibrillator unit and detachably attached to the defibrillator unit, wherein the defibrillator unit is based on the interface unit for defibrillation. The method of Appendix 90 or 91, which has a first connector that engages with a complementary connector of the interface unit when attached to a device unit.
(Appendix 95)
The external device is electrically connected to the defibrillator unit via the USB connector, and the power drawn from the external device is any of the appendices 90 to 94 drawn through the USB connector. The method described in paragraph 1.
(Appendix 96)
The external device has a display screen, the method of which is during use of the defibrillator during a potential cardiac arrest event.
A step of transmitting voice instructions to the user through one or more speakers of the defibrillator unit.
A step of transmitting a graphic instruction to the user via the display screen
The method according to any one of Appendix 90 to 95, wherein the graphic instruction is synchronized with the voice instruction.
(Appendix 97)
An interface unit having an interface unit battery is attached to the defibrillator, and the method is such that the defibrillator unit is not in a capacitor charged state and the defibrillator unit has a rechargeable battery. 28. The method of any one of Appendix 90-96, further comprising the step of drawing power from the external device to recharge the rechargeable interface unit battery only if recharging is not required.
(Appendix 98)
A rechargeable battery pack is attached to the defibrillator, the method of which the defibrillator unit is not in a capacitor charged state and the rechargeable battery of the defibrillator unit is charged. 28. The method of any one of Appendix 90-96, further comprising the step of drawing power from the external device and recharging the rechargeable battery pack only when it is not needed.
(Appendix 99)
The defibrillator is fully functional without the interface unit or external device.
The defibrillator, which does not require or depend on commands from the interface unit or external device during emergency use, according to any one of Appendix 78-98. the method of.
(Appendix 100)
A modular defibrillator system configured to perform the method according to any one of appendices 78-99.
(Appendix 101)
The base defibrillator unit is fully functional in the absence of the interface unit or external device.
The defibrillator system according to Appendix 1, wherein the base defibrillator unit does not utilize control instructions from an attached interface unit or other external device during emergency use of the defibrillator.
(Appendix 102)
The base defibrillator unit includes a speaker, and the defibrillator controller (a) causes the speaker to transmit voice instructions to the user during use of the defibrillator system, and (b) the voice. It is configured to transmit information to the interface unit that facilitates the display of graphic user instructions synchronized with the instructions on the interface unit.
The interface unit includes a display screen and is configured to display graphic instructions to the user during emergency use of the defibrillation system based on information received from the base defibrillator unit. , The defibrillator system according to Appendix 1.
(Appendix 103)
The base defibrillator unit periodically transmits state information or instructions utilized by the interface unit to the interface unit to display corresponding to the current voice instructions provided by the defibrillator. The defibrillator system according to Appendix 102, which determines the graphic instructions to be made.
(Appendix 104)
It further comprises a connector suitable for electrically coupling the external device to the base defibrillator unit, which facilitates communication between the defibrillator controller and the external device and the external. The appendix 1, wherein the device is configured to (i) assist in charging the capacitor unit or (ii) receive power that may be selectively used to recharge the defibrillator battery. Defibrillator system.
(Appendix 105)
The base defibrillator unit includes a defibrillator controller configured to transmit incident information to the interface unit during emergency use of the defibrillator system, wherein the interface unit is (a). Both send at least a portion of the incident information to the remote server and (b) display at least a portion of the incident information to the user in response to a user request for such information. The defibrillator system according to Appendix 1, which is configured in.
(Appendix 106)
The base defibrillator unit includes a defibrillator battery, the interface unit includes an interface unit battery, and the base defibrillator unit does not draw power from the defibrillator battery. The defibrillator according to Appendix 1, which is configured to allow the interface unit battery to be recharged at a selected time when the base defibrillator unit is coupled to a charger. Defibrillator system.
(Appendix 107)
The interface unit further includes a GNSS sensor, which uses the GNSS sensor to determine the position of the defibrillator interface unit and determines the position of the defibrillator interface unit. The defibrillator system according to Appendix 1, which is configured to report to a remote server.
(Appendix 108)
The base defibrillator unit includes a defibrillator housing including a defibrillator controller, the capacitor unit, a charging circuit, a discharge circuit, and an electrode pad cartridge, wherein the cartridge includes an electrode pad. Defibrillator system as described in.
(Appendix 109)
The interface unit is adapted to be attached to a base defibrillator unit, and the defibrillator interface unit is further adapted.
A housing that is attached to the base defibrillator unit and is configured to provide a portable modular defibrillator that combines the base defibrillator unit and the interface unit.
Display screen and
Externally exposed on the housing of the interface unit so as to engage the complementary connector on the base defibrillator unit when the housing of the interface unit is attached to the base defibrillator unit. With the adapted first connector,
With the processor housed in the housing
The processor is configured to communicate with a defibrillator controller on the base defibrillator unit when the defibrillator interface unit is attached to the base defibrillator unit. The defibrillator system according to Appendix 1.
(Appendix 110)
The processor
Upon receiving the indicated state identifier from the defibrillator controller,
The graphic instruction corresponding to the instruction state identifier is searched from the memory of the interface unit, and the graphic instruction is searched.
The searched graphic instruction is displayed on the display screen, facilitating the display of the synchronized graphic instruction on the interface unit.
The defibrillator interface unit according to Appendix 109, which is configured as described above.
(Appendix 111)
The defibrillator system according to Appendix 1, wherein the interface unit does not draw power from the base defibrillator unit during operation of the defibrillator system.
(Appendix 112)
The defibrillator housing further comprises a module receptacle configured to accommodate the interface unit and reliably attach the interface unit to the defibrillator housing, the module receptacle having a floor. When the interface unit is fixed to the module receiver, the first connector exposed on the floor of the module receiver engages with the complementary connector of the interface unit to defibrillate the interface unit to the base. The defibrillator according to Appendix 108, which is configured to be electrically connected to the instrument unit.

Claims (59)

Defibrillator system
A base defibrillator unit that constitutes a fully functional defibrillator that can independently determine when a defibrillator shock is recommended and deliver the defibrillator shock. A capacitor unit suitable for delivering a defibrillator shock and the capacitor unit can independently store sufficient energy to facilitate charging to a level suitable for delivering the defibrillation shock. look including a battery that can be, and the is further configured to provide voice instructions during emergency use of the defibrillator system, the base defibrillator unit,
An interface unit attached to the base defibrillator unit, wherein the base defibrillator unit and the attached interface unit form at least a portion of a single portable unit. As described above, attached to and detachably coupled to the base defibrillator unit, the interface unit facilitates wireless communication with the display screen and remote server. Including a communication module, the interface unit causes the display screen to display graphic instructions synchronized with the voice instructions provided by the base defibrillator unit during emergency use of the base defibrillator unit. The defibrillator is configured and comprises an interface unit that is not required for the base defibrillator unit to operate properly during emergency use of the base defibrillator unit. system. Defibrillator system
A base defibrillator unit that constitutes a fully functional defibrillator that can independently determine when a defibrillation shock is recommended and deliver the defibrillation shock. A capacitor unit suitable for delivering a defibrillation shock and the capacitor unit can independently store sufficient energy to facilitate charging to a level suitable for delivering the defibrillation shock. With a base defibrillator unit, including a capable battery,
An interface unit attached to the base defibrillator unit, wherein the base defibrillator unit and the attached interface unit form at least a portion of a single portable unit. As described above, with an interface unit that includes a communication module that is attached to and detachably coupled to the base defibrillator unit and facilitates wireless communication with a remote server.
With
The base defibrillator unit is configured to transmit information to the interface unit during emergency use of the base defibrillator unit, and the base defibrillator unit is configured to transmit the base defibrillator unit. During emergency use of the instrument unit, control instructions from the mounted interface unit are not required or utilized.
The interface unit has no substantive function other than operating in association with the base defibrillator unit, but the base defibrillator unit is suitable during emergency use of the base defibrillator unit. Not required to work with,
Defibrillator system. Defibrillator,
With a capacitor unit configured to store and discharge enough energy to deliver a defibrillation shock to the patient,
A charging circuit configured to charge the capacitor unit to a voltage suitable for delivering the defibrillation shock.
A discharge circuit suitable for discharging the capacitor unit to deliver the defibrillation shock,
Defibrillator controller and
With a speaker for transmitting voice instructions to the user during emergency use of the defibrillator
With
The defibrillator controller
(I) Have the speaker transmit a voice instruction to the user during emergency use of the defibrillator.
(Ii) The defibrillator is configured to repeatedly output a defibrillator instruction state identifier associated with the voice instruction during emergency use of the defibrillator, and the defibrillator instruction state identifier. Is suitable for use by an external device having a display screen that receives the output defibrillator instruction state identifier and displays a graphic user instruction synchronized with the voice instruction on the display screen.
The defibrillator controller
(Iii) During the emergency use of the defibrillator, the defibrillation is performed during the emergency use of the defibrillator by repeating (i) to (ii) for a plurality of different voice instructions in a series of voice instructions. It is configured to facilitate the external device to display a corresponding set of graphic user instructions that are synchronized with the voice instructions generated by the device.
The defibrillator does not require or utilize control instructions from the external device during emergency use of the defibrillator, and the external device is during emergency use of the defibrillator. Not required for the operation of the defibrillator during emergency use of the defibrillator, including the transmission of voice instructions.
The defibrillator is a defibrillator that does not transmit graphic instructions to the external device during emergency use of the defibrillator. The defibrillator according to claim 3 , wherein the external device is a mobile phone or other mobile communication device. The mobile phone or other mobile communication device
With the defibrillator support application installed on it,
A processor for running the defibrillator support application,
Including display screen
The defibrillator support application controls the processor to display on the display screen graphic instructions that are synchronized with the voice instructions provided by the defibrillator during emergency use of the defibrillator. The defibrillator according to claim 4 , which is configured as described above. Wherein the interface unit is adapted to engage a complementary connector on the base defibrillator unit if the interface unit is attached to the defibrillator, the said interface unit base defibrillator unit The defibrillator system according to claim 1 or 2 , comprising a connector that facilitates communication with . Defibrillator controller, wherein is further configured to transmit the incident information during emergency use of the defibrillator interface unit or external device, the interface unit or the external device, (a) the far septum It is configured to both send at least a portion of the incident information to the server and (b) display at least a portion of the incident information to the user in response to a user request for such information. The defibrillator or defibrillator system according to any one of claims 1 to 6 . The defibrillator or base defibrillator unit is configured to draw power from the interface unit or the external device to selectively supply an auxiliary charging power during charging (a) the capacitor unit That, (b) the power drawn for both the defibrillator or the selective supply of power for recharging the battery of the base defibrillator unit can be selectively utilized. The defibrillator or defibrillator system according to any one of claims 1 to 7 . The base defibrillator unit includes a defibrillator battery, the interface unit includes an interface unit battery, and the base defibrillator unit does not draw power from the defibrillator battery. Claims 1-2 or 6 are configured to allow the interface unit battery to be recharged at a selected time when the base defibrillator unit is coupled to a charger. The defibrillator system according to any one of 8 to 8 . The defibrillator provides at least one of an instruction state identifier, a defibrillator state information, and an instruction to the interface unit or external device to synchronize graphic instructions on the interface unit or external device. The defibrillator system according to any one of claims 1-2 or 6-9 , which is configured to facilitate display. The instruction state identifier, defibrillator state information or instruction is periodically updated so that the graphic instruction on the interface unit or external device is synchronized with the voice instruction provided by the defibrillator. The defibrillator or defibrillator system according to claim 10 , which assists in ensuring. The interface unit or the external device, if the update from the defibrillator for a period of time greater than the specified timeout threshold is not received, is configured to stop displaying the synchronized graphics instruction, claim 11 Defibrillator or defibrillator system as described in. The instruction state identifier, defibrillator state information or instruction ensures that the graphic instructions on the external device are synchronized with the voice instructions provided by the defibrillator or base defibrillator unit. The defibrillator or defibrillator system according to any one of claims 10-12 , which is updated at least three times per second to assist in defibrillators. Further comprising an external device to the defibrillator or base defibrillator unit connector suitable for electrically coupling said connector, facilitates communication between the defibrillator controller and the external device The defibrillator or defibrillator system according to any one of claims 1 to 13 , wherein the defibrillator or defibrillator system is configured to be. The connector is to receive power from the external device that can be (i) assisted in charging the capacitor unit or (ii) selectively used to recharge the defibrillator battery. The defibrillator or defibrillator system according to claim 14 , further configured in. The connector is,
With USB connector
The defibrillator or defibrillator system according to claim 14 or 15 , which is selected from the group consisting of a lightning connector. A second external device further comprising an additional connector suitable for electrically coupling to said defibrillator, said additional connector is different from the said connector, the charging of the capacitor unit the power that can be used to assist and is configured to assume only the second external device or et received, defibrillator or defibrillator according to any one of claims 14 to 16 Defibrillator system . A rechargeable battery, further comprising a charging management module configured to control the recharging of該再rechargeable battery, defibrillator according to any one of claims 1 to 17 or Defibrillator system . The defibrillator or defibrillator system according to claim 18 , further comprising a wireless charging receiver configured to receive power from the wireless charger to facilitate charging of the rechargeable battery. The defibrillator or defibrillator system uses radio communication, further comprising a wireless communication module configured to communicate with interface unit or external device, any one of claims 1 to 19 Defibrillator or defibrillator system as described in section. The defibrillator or base defibrillator unit includes a defibrillator housing, which houses the interface unit and securely attaches the interface unit to the defibrillator housing. The first connector exposed on the floor of the module receiver has a module receiver configured as described above, the module receiver has a floor, and the first connector exposed on the floor of the module receiver is described when the interface unit is fixed to the module receiver. Any one of claims 1-20, configured to engage the complementary connector of the interface unit to electrically connect the interface unit to the defibrillator or base defibrillator unit. Defibrillator or defibrillator system as described in section. A battery configured to power the defibrillator or base defibrillator unit and provide power to charge the capacitor unit.
A battery charging controller configured to receive power from a battery-powered portable external device and use the power received from the battery-powered portable external device to facilitate charging of the battery.
The power received from the battery-powered portable external device is used to facilitate selective charging of the discharge capacitor unit using the power drawn from the power receiver during emergency use of the defibrillator. With a bypass circuit configured to selectively supply to the charging circuit without going through the battery charging controller
The defibrillator or defibrillator system according to any one of claims 1 to 21, further comprising. 22. The defibrillation of claim 22, wherein the bypass circuit adjusts the power drawn from the external device so that the power drawn from the external device does not exceed a designated current supply threshold associated with the external device. Defibrillator or defibrillator system . If the external device is connected to the defibrillator during charging of the capacitor unit and the battery is completely discharged, only the bypass circuit is used to charge the capacitor unit, claim. Item 22 or 23. The defibrillator or defibrillator system . The interface unit further includes a processor.
The processor
Upon receiving the indicated state identifier from the defibrillator controller on the base defibrillator unit,
The graphic instruction corresponding to the instruction state identifier is searched from the memory of the interface unit, and the graphic instruction is searched.
The searched graphic instruction is displayed on the display screen to facilitate the display of the synchronized graphic instruction on the interface unit.
The defibrillator system according to any one of claims 1 to 2 or 6 to 24. The interface unit further
A housing configured to attach to the base defibrillator unit,
Exposed externally on the outer surface of the interface unit housing and engages with a complementary connector on the base defibrillator unit when the interface unit housing is attached to the base defibrillator unit. With a first connector adapted to
With the processor housed in the housing
The processor is to communicate with a defibrillator controller on the base defibrillator unit when the defibrillator interface unit is attached to the base defibrillator unit. The defibrillator system according to any one of claims 1-2 or 6-25, which is configured. 1. The interface unit is further configured to transfer at least a portion of the information received from the base defibrillator unit to the remote server during emergency use of the base defibrillator unit. The defibrillator system according to any one of 2 or 6 to 25. A defibrillator interface unit adapted to be attached to a base defibrillator unit that can operate independently as an automatic external defibrillator (AED) without a defibrillator interface unit. ,
Attached to the base defibrillator unit to form at least a portion of a single portable modular defibrillator system that combines the base defibrillator unit and the defibrillator interface unit. With a housing configured to
Display screen and
If the defibrillator interface unit is attached to the base defibrillator unit during emergency use of the portable modular defibrillator system, it receives communications from the base defibrillator unit. During an emergency use of the portable modular defibrillator system, at least in part based on communications received from the base defibrillator unit during emergency use of the portable modular defibrillator system. A processor configured to display operator instructions on the display screen,
A communication module configured to facilitate communication between the defibrillator interface unit and one or more remote servers using a communication protocol.
A defibrillator interface unit including a power storage unit that supplies electric power to the defibrillator interface unit. Attached to and detachably coupled to the base defibrillator unit so that the base defibrillator unit and the attached interface unit form at least part of a single portable defibrillator system. A defibrillator interface unit configured to
A communication module that facilitates wireless communication with one or more remote servers,
With display screen
The defibrillator interface unit comprises displaying on the display screen a graphic instruction synchronized with a voice instruction provided by the base defibrillator unit during emergency use of the base defibrillator unit. Is composed of
The interface unit is configured to receive information from the base defibrillator unit during emergency use of the defibrillator system, and the interface unit is configured to receive information from the base defibrillator unit during emergency use of the defibrillator system. Without providing control instructions to the base defibrillator unit
The interface unit has no substantial function other than that the defibrillator interface unit operates in association with the base defibrillator unit, but said during emergency use of the defibrillator system. A defibrillator interface unit that is not required for the base defibrillator unit to operate properly. The defibrillator interface unit according to claim 28 or 29 , wherein the defibrillator interface unit is not a general-purpose mobile phone, a tablet computer, or a personal computer. The defibrillator interface unit is configured to receive self-test information from the base defibrillator unit and report the self-test information to one or more remote servers. , The defibrillator interface unit according to any one of claims 28 to 30. A server further comprising a GNSS sensor, the defibrillator interface unit using the GNSS sensor to determine the position of the defibrillator interface unit and the location of the defibrillator interface unit at a remote location. The defibrillator interface unit according to any one of claims 28 to 31 , which is configured to report to one or more of. Externally exposed on the housing of the interface unit so as to engage the complementary connector on the base defibrillator unit when the housing of the interface unit is attached to the base defibrillator unit. Further equipped with a adapted first connector,
The first connector facilitates communication between (a) the processor of the interface unit and the defibrillator controller, and (b) the power between the interface unit and the base defibrillator unit. that it is configured to facilitate transfer, defibrillator interface unit according to any one of claims 28 to 32. The defibrillator interface unit does not send control instructions to the base defibrillator unit during emergency use of the base defibrillator unit and is not required for the operation of the base defibrillator unit. The defibrillator interface unit according to any one of claims 28 or 30 to 33. The processor of the interface unit periodically receives defibrillator status information from the base defibrillator unit and periodically sends the defibrillator status information to one or more of the remote servers. The defibrillator interface unit according to any one of claims 28 to 34 , which is configured to transmit. Charge reservoir unit, the base defibrillator without drawing power from any power storage unit on the unit, the base defibrillator configured interface unit to be recharged while it is coupled to the unit The defibrillator interface unit according to any one of claims 28 to 35 , which is a battery. The interface unit during emergency operation of the base defibrillator unit, the base does not draw power from the defibrillator unit, defibrillator interface unit according to any one of claims 28 to 36. The base defibrillator unit is charged, when connected to an external power source, the base defibrillator unit using the power received through the further configured to recharge the charge reservoir unit, wherein Item 2. The defibrillator interface unit according to any one of Items 28 to 37. The defibrillator interface unit according to any one of claims 28 to 38 , wherein the defibrillator interface unit can supply power to the base defibrillator unit. The defibrillator interface unit is further configured to display on the display screen graphic instructions that supplement the voice instructions provided by the base defibrillator unit during use of the base defibrillator unit. The defibrillator interface unit according to any one of claims 28 to 39. The processor is
Upon receiving the indicated state identifier from the defibrillator controller on the base defibrillator unit,
The graphic instruction corresponding to the instruction state identifier is searched from the memory of the interface unit, and the graphic instruction is searched.
The searched graphic instructions are displayed on the display screen, and the voice instructions generated by the base defibrillator unit on the defibrillator interface unit and the synchronized display of the graphic instructions can be easily displayed. The defibrillator interface unit according to any one of claims 28 to 40. The processor is configured to periodically receive an updated instruction state identifier from the defibrillator controller and update the displayed graphic instruction based on the updated instruction state identifier. The defibrillator interface unit according to claim 41. 28. Claim 28, which is configured to receive a defibrillator software update from the remote server and send the software update to the base defibrillator unit for installation on the base defibrillator unit. The defibrillator interface unit according to any one of ~ 42. A defibrillator support application with programmed instructions suitable for storing in the memory of a device having a display screen and a processor suitable for executing the programmed instructions and executed on said processor. In response to receiving instruction information from the defibrillator regarding the current voice instruction state of the defibrillator, the device is given a graphic instruction corresponding to the current voice instruction state of the defibrillator. A defibrillator support application that is configured to display on the display screen. The instruction information received from the defibrillator includes a defibrillator state identifier.
The programmed instruction causes the processor to search the memory of the device for the graphic instruction corresponding to the received defibrillator state identifier, and sets the searched graphic instruction as the current voice instruction state. The defibrillator support application according to claim 44 , which is configured to be synchronously displayed on the display screen. The programmed instruction corresponds to the current voice-instructed state if the device does not receive a valid defibrillator state identifier from the defibrillator for a period of time that exceeds the specified timeout threshold. The defibrillator support application according to claim 44 or 45 , which is further configured to stop displaying the graphic instructions. The device is a mobile phone or other mobile communication device, and the defibrillator support application is installed on the mobile phone or other mobile communication device, according to any one of claims 44 to 46. The defibrillator support application described. The device is configured interface unit to be coupled to a defibrillator fully functional without interface unit, the interface unit has the defibrillator support applications it is installed, The defibrillator support application according to any one of claims 44 to 47. It's a method
(A) The base defibrillator unit and the attached interface unit are attached to and removable from the base defibrillator unit so as to form at least a portion of a single portable unit. The step of transmitting status information from the base defibrillator unit to the interface unit, the interface unit is not necessary for the operation of the base defibrillator unit, and the base defibrillator unit Steps to send, do not provide control instructions to the base defibrillator unit during emergency use,
(B) A step of transmitting at least a part of the status information received by the interface unit to one or more remote servers.
(C) A step of periodically transmitting status information from the base defibrillator unit to the one or more remote servers by periodically repeating steps (a) and (b). Method. The status information is
(I) The battery charge level of the base defibrillator unit and
(Ii) The charging status of the base defibrillator unit and
(Iii) The version of the firmware installed in the base defibrillator unit,
(Iv) The latest firmware installation date and time,
(V) The hardware version of the base defibrillator unit and
(Vi) The serial number of the base defibrillator unit and
(Vii) A set of recent base defibrillator unit self-test results,
(Viii) The method of claim 49 , comprising one or more of the functional status of the base defibrillator unit. The step of receiving software updates from a remote software update server in the interface unit, and
The step of transmitting the software update from the interface unit to the base defibrillator unit, and
The method of claim 49 or 50 , further comprising installing the software update on the base defibrillator unit. It's a method
(A) during the emergency use of the base defibrillator unit, sending incident information from the attached to the base defibrillator unit, and the base defibrillator unit to removably attached interface unit The base defibrillator unit and the attached interface unit form at least a part of a single portable unit, and the interface unit is necessary for the operation of the base defibrillator unit. Instead, the step of transmitting, which does not provide control instructions to the base defibrillator unit during emergency use of the base defibrillator unit,
(B) A method comprising transmitting at least a portion of received incident information from the interface unit to one or more remote servers during emergency use of the base defibrillator unit. The incident information is
(I) The operating state of the base defibrillator unit and
(Ii) A sign of the current instruction currently issued to the user by the base defibrillator unit, and
(Iii) A time stamp indicating when the base defibrillator unit was put into emergency mode,
(Iv) An indicator indicating whether or not a defibrillation shock has been delivered, and if a defibrillation shock has been delivered, a time stamp indicating the time when each defibrillation shock was delivered.
(V) The energy level delivered for each shock and
(Vi) Waveforms associated with each shock delivered,
(Vii) Shock / no shock classification of detected ECG analysis,
(Viii) Detected ECG analysis cardiac rhythm classification,
(IX) Timestamps or equivalents associated with the detected ECG analysis,
(X) With one or more recorded ECG samples,
(Xi) The method of claim 52 , comprising reporting one or more of defects detected during activation of the base defibrillator unit. It's a method
(I) A step of causing the automatic external defibrillator to generate a voice instruction during emergency use of the automatic external defibrillator.
(Ii) A step of repeatedly transmitting a defibrillator state identifier related to the voice instruction from the automatic extracorporeal defibrillator to an external device having a display screen, wherein the external device is the defibrillator. Not integrated with the defibrillator and not required for the operation of the defibrillator during emergency use of the defibrillator, including the transmission of the voice instructions during emergency use of the defibrillator. Steps to send and
(Iii) In response to receiving the transmitted defibrillator state identifier, the external device is a step of displaying a graphic instruction related to the voice instruction on the display screen, and the displayed graphic instruction is , The displayed graphic instructions are not received from the defibrillator during emergency use of the defibrillator, and are displayed during the period associated with the voice instruction.
(Iv) so that the external device displays a series of graphic instructions synchronized with the voice instructions generated by the automatic external defibrillator during emergency use of the automatic external defibrillator. A method comprising repeating steps (i)-(iii) for a plurality of different voice instructions. The automatic external defibrillator periodically sends information indicating the current defibrillator state to the external device, the current defibrillator state being the available defibrillator state. It was selected from the set and
The external device uses information indicating the current defibrillator state to determine if there is a graphic instruction associated with the current defibrillator state, and if so, the associated graphic. 54. The method of claim 54, which displays instructions. If the external device does not receive valid information from the defibrillator indicating the current defibrillator state for a period of time exceeding the specified timeout threshold, it indicates the current defibrillator state. 54. The method of claim 54 or 55 , further comprising a step of stopping the display of synchronized graphic instruction information. The current defibrillator state is at least 3 per second to help ensure that the graphic instructions displayed on the external device are synchronized with the voice instructions provided by the defibrillator. The method according to any one of claims 54 to 56 , which is updated at a frequency of one update. Said external device is a mobile telephone or other mobile communications device defibrillator support application is stored, the defibrillator support application, a voice instruction received from the automatic external defibrillator The method according to any one of claims 54 to 57 , which is configured to determine an appropriate graphic instruction to be displayed on the display screen based on the information shown. The external device is a purpose-built interface unit coupled to the automated external defibrillator.
The interface unit is configured to determine an appropriate graphic instruction to be displayed on the display screen based on information indicating a voice instruction received from the automatic external defibrillator.
The method of any one of claims 54-57 , wherein the defibrillator is fully functional without the interface unit coupled.