JPWO2022249117A5 - - Google Patents

Description

The digital control circuitry may include a pulse width modulated driver for the heater of the humidifier configured to generate a high frequency pulse width modulated signal and a low frequency pulse width modulated signal.

The digital control circuitry may include a pulse width modulated driver for the heater of the conduit configured to generate a pulse width modulated signal.

Battery operation of the device 10 may enable a patient within a hospital to be moved to another location within the hospital (e.g. to a recovery ward) while treatment (and humidified gas) is being provided, such that treatment can continue to be provided prior to transfer (e.g. operating from mains power), while the patient is being transferred (e.g. operating from battery power), and after transfer (e.g. operating from mains power ) .

An example of device 10 as a humidifier (i.e., without an airflow generator) is shown in Figures 2A and 2B . The device includes a connector that pneumatically connects conduit 16 (described in more detail above) to the outlet of humidification chamber 31 (as the gas outlet of the device). Conduit 16 may be the inspiratory limb of a patient circuit, i.e. configured to deliver humidified gases to a user, for example via a patient interface (not shown). Conduit 16 may include a conduit heater 16a (e.g., described elsewhere herein).

As shown in Figures 2A and 2B , the device 10 further includes a panel 9 that may be used to mount patient displays and controls. For example, various dials, switches, and other inputs may be used to control the operation of the device. Additionally or alternatively, a touch screen display may be used. The user display may display system parameters, warnings if any errors or anomalies occur, prompts when user action is required, etc. If a touch screen display is used, the same display may be used, at least in part, to present information to the user and receive input from the user (e.g., as described elsewhere herein). The humidification device shown in Figures 2A and 2B may include multiple sensors. For example, the humidifier 12 may include a flow sensor, one or more temperature sensors, one or more pressure sensors, and one or more humidity sensors. In one exemplary configuration, the humidifier includes at least a temperature sensor located in or near the inlet and a temperature sensor in or near the outlet of the chamber 300. Optionally, the humidifier may include a flow sensor in or near the outlet of the chamber 300. Additionally, another flow sensor may be located in or near the inlet 8. Optionally, the humidifier may include one flow sensor located in the inlet or outlet. The humidifier may additionally include one or more humidity sensors, which may be located in or near either the inlet or outlet, or in the inlet and outlet. There may also be an additional air temperature sensor. The humidifier may also include additional sensors associated with the heater, for example a temperature sensor related to the heater.

In some configurations, the device 10 shown in Figures 2A and 2B may include a battery (discussed in more detail below).

The surgical humidifier may have any combination of the humidifier features disclosed with respect to the humidifier of Figures 2A and 2B.

The device may be configured to detect whether the device is operating on battery or mains power. As shown in Figures 4 and 4A, the device 10 may include a power source detection circuit 510. The power source detection circuit 510 may include one or more of a voltage detection circuit and/or one or more current detection circuits. Although the power source detection circuit 510 is shown passing power from the battery 125 and the mains power source 501, it should be understood that this is a high level diagram and that in some embodiments the power source detection circuit 510 may include one or more switches configured to connect the control circuitry to the appropriate power source.

The communications module 15 may use one or more communications protocols known in the art, such as Wi - Fi® , Bluetooth®, Zigbee® , cellular (such as 3G, 4G, or 5G).

A communication module 15 may enable communication between the device and a mobile device (eg a phone or tablet via Bluetooth® or Wi- Fi® ) .

A second control scheme may involve providing a low frequency pulse width modulated signal to the humidifier heater.

The second control scheme 602' includes controlling the humidifier heater by digital control by providing a pulse width modulated signal (optionally a low frequency pulse width modulated signal). The second control scheme 602' further includes controlling the conduit heater by digital control by providing a pulse width modulated signal (optionally a low frequency pulse width modulated signal as described elsewhere).

The device may then (optionally after a predetermined time) control the humidifier heater and/or conduit heater to a desired value (e.g., to reach a desired power, or a desired treatment parameter) or a percentage of a desired value, as shown in step 913 of Figure 8. The device may control the humidifier heater and/or conduit heater by increasing a control signal, e.g., a digital control signal or an analog control signal, to increase the control signal to the desired value. This prevents activation of the heater from exceeding the peak rating of the battery.

Digital control may include, for example, pulse width modulation (e.g., as shown in Figures 7A and 7B), however, it should be understood that in some configurations, digital control may include pulse density modulation (PDM) and pulse frequency modulation (PFM).

7A and 7B show examples of low and high frequency pulse width modulated signals, respectively, and relative to each other.

For example, as previously discussed, high frequency pulse width modulation can produce more EMI as compared to low frequency pulse width modulation or analog control (especially when used to provide power to heaters in conduits).

4 and 4A, the apparatus 10 includes a conduit heater analog control circuitry 512. The conduit heater analog control circuitry 512 may include, for example, voltage conversion (described in more detail below). The conduit heater analog control circuitry 512 is configured to generate an analog control signal for the conduit heater. In some configurations, the conduit heater analog control circuitry may vary the analog control signal for the conduit heater based on the output from the controller.

4 and 4A , the apparatus 10 includes a conduit heater digital control circuitry 513. The conduit heater digital control circuitry is configured to generate a pulse width modulated signal for the conduit heater. In some configurations, the conduit heater digital control circuitry may vary the duty cycle of the pulse width modulated signal for the conduit heater based on the output from the controller.

4 and 4A , device 10 includes humidifier heater digital control circuitry 511. Humidifier heater digital control circuitry 511 is configured to generate a pulse width modulated signal for the humidifier heater. In a first control scheme, humidifier heater digital control circuitry 511 is configured to generate a low frequency pulse width modulated signal, and in a second control scheme, humidifier heater digital control circuitry 511 is configured to generate a high frequency pulse width modulated signal.

The controller 13 may control the duty cycle of the pulse width modulated signal (optionally the low frequency pulse width modulated signal and/or the high frequency pulse width modulated signal, ie in the examples shown in Figures 5 and 5B).

The voltage converter may be, or may be part of, analog control circuitry.
According to this specification, the configurations described in the following items are also disclosed.
(Item 1)
1. A respiratory assistance apparatus comprising: a humidifier pneumatically connected to an airflow generator and configured to humidify a gas flow generated by the airflow generator, the humidifier including a heater;
the respiratory assistance apparatus is configured to be connected to a conduit that transports the gas flow;
the respiratory aid apparatus includes a battery, the respiratory aid apparatus being configured to be powered by the battery or a mains power source;
the respiratory assistance apparatus including a controller configured to control the heater of the humidifier according to at least a first control scheme and a second control scheme;
when the respiratory assistance apparatus is powered by the battery, the controller is configured to control the heater of the humidifier in accordance with the first control scheme, the first control scheme comprising providing a high frequency pulse width modulated signal to the heater of the humidifier;
when the respiratory assistance apparatus is powered by the mains power source, the controller is configured to control the heater of the humidifier in accordance with the second control scheme, the second control scheme comprising providing a low frequency pulse width modulated signal to the heater of the humidifier;
the frequency of the high frequency pulse width modulated signal is higher than the frequency of the low frequency pulse width modulated signal;
Breathing assistance equipment.
(Item 2)
2. A respiratory assistance device as described in claim 1, wherein the frequency of the low frequency pulse width modulated signal of the first control scheme is less than about 20 Hz or between about 20 Hz and about 1 kHz.
(Item 3)
2. The respiratory assistance device of claim 1, wherein the frequency of the high frequency pulse width modulated signal of the second control scheme is about 25 kHz or between about 1 kHz and about 50 kHz.
(Item 4)
2. The respiratory assistance device of claim 1, wherein the frequency of the high frequency pulse width modulated signal is approximately 1250 times higher than the frequency of the low frequency pulse width modulated signal.
(Item 5)
2. The respiratory assistance device of claim 1, wherein the frequency of the high frequency pulse width modulated signal is about 50 to about 2000 times higher than the frequency of the low frequency pulse width modulated signal.
(Item 6)
2. The respiratory assistance device of claim 1, wherein the controller controls the duty cycle of the low frequency pulse width modulated signal and/or the high frequency pulse width modulated signal based on one or more treatment parameters, optionally the one or more treatment parameters being a therapeutic humidity level, optionally the therapeutic humidity level being a relative or absolute humidity, or a dew point.
(Item 7)
2. A respiratory assistance device as described in item 1, wherein the controller controls the duty cycle of the low frequency pulse width modulated signal and/or the high frequency pulse width modulated signal based on a desired power of the heater of the humidifier.
(Item 8)
2. The respiratory assistance device of claim 1, wherein the controller is configured to measure the power provided to the heater of the humidifier and to control the duty cycle of the low frequency pulse width modulated signal and/or the high frequency pulse width modulated signal based on the measured power provided to the heater of the humidifier and a desired power of the heater of the humidifier.
(Item 9)
2. A respiratory assistance device as described in claim 1, wherein the controller controls the duty cycle of the low frequency pulse width modulated signal and/or the high frequency pulse width modulated signal based on a desired temperature of the heater of the humidifier.
(Item 10)
8. A respiratory assistance apparatus as described in item 7, wherein the desired power demand and/or desired temperature is based on one or more treatment parameters of the respiratory assistance apparatus.
(Item 11)
a humidifier pneumatically connected to the flow generator and configured to humidify the gas flow generated by the flow generator;
At least one heater;
A respiratory assistance apparatus comprising:
the respiratory assistance apparatus is adapted to be connected to a conduit that transports the gas flow;
the respiratory aid apparatus includes a battery, the respiratory aid apparatus being configured to be powered by the battery or a mains power source;
the respiratory assistance apparatus including a controller configured to control the at least one heater according to at least a first control scheme and a second control scheme;
when the respiratory assistance apparatus is powered by the battery, the controller is configured to control the at least one heater in accordance with the first control scheme, the first control scheme including controlling the at least one heater by analog control;
A respiratory assistance apparatus, wherein when the respiratory assistance apparatus is powered by the main power source, the controller is configured to control the at least one heater in accordance with the second control scheme, the second control scheme including controlling the at least one heater by digital control (optionally, the digital control includes pulse width modulation).
(Item 12)
12. A respiratory assistance apparatus as described in claim 11, wherein the at least one heater includes a heater of the humidifier.
(Item 13)
13. A respiratory assistance apparatus as described in claim 12, wherein the heater of the humidifier includes a heater plate, the heater plate configured to heat a fluid in a humidification chamber to humidify the gas flow.
(Item 14)
12. A respiratory assistance apparatus as described in claim 11, wherein the heater of the humidifier comprises an electrically conductive heating element.
(Item 15)
12. A respiratory assistance apparatus as described in claim 11, wherein the at least one heater includes a conduit heater configured to heat the gas flow in the conduit.
(Item 16)
16. A respiratory assistance apparatus as described in claim 15, wherein the heater in the conduit comprises a heater wire, the heater wire being an electrically conductive heating element.
(Item 17)
The heater wire is
a) within the lumen of the conduit;
b) within the wall of the conduit;
c) embedded in the wall of the conduit;
d) embedded in a bead that optionally forms a breathing conduit, said bead configured to provide structural support to said conduit;
e) disposed on an exterior surface of the conduit;
f) any combination of a) to e);
17. A respiratory assistance device according to item 16.
(Item 18)
12. A respiratory assistance apparatus as described in claim 11, wherein controlling the heater of the conduit by analog control comprises providing an analog control signal to the heater of the conduit and/or the heater of the humidifier.
(Item 19)
20. A respiratory assistance device as described in claim 18, wherein the analog control signal is a voltage signal or a current signal.
(Item 20)
20. A respiratory assistance apparatus as described in claim 18, wherein the analog control signal is generated by voltage modulation, current modulation, or resistance modulation.
(Item 21)
19. The respiratory assistance device of claim 18, wherein the controller controls the analog control signal provided to the heater of the conduit based on one or more treatment parameters (optionally the one or more treatment parameters are a treatment temperature of the gas provided to the user).
(Item 22)
20. A respiratory assistance apparatus as described in claim 18, wherein the analog control signal is controlled based on a desired power of the heater in the conduit.
(Item 23)
19. A respiratory assistance apparatus as described in claim 18, wherein the controller is configured to measure the power provided to the heater of the conduit, and the analog control signal is controlled based on the measured power provided to the heater conduit and a desired power of the heater of the conduit.
(Item 24)
20. A respiratory assistance apparatus as described in claim 18, wherein the analog control signal is controlled based on a desired conduit end temperature of the gas flow within the conduit.
(Item 25)
20. The respiratory assistance apparatus of claim 18, wherein the respiratory assistance apparatus includes analog control circuitry.
(Item 26)
26. Respiratory assistance apparatus as described in claim 25, wherein an analog control circuit is controlled by said analog control circuitry.
(Item 27)
27. A respiratory assistance apparatus as described in claim 26, wherein the analog control signal is controlled by one or more voltage converters of the analog control circuitry.
(Item 28)
27. A respiratory assistance apparatus as described in claim 26, wherein the analog control circuitry is disabled when the respiratory assistance apparatus is controlling the heater of the conduit according to a second control scheme.
(Item 29)
12. A respiratory assistance apparatus as described in claim 11, wherein digitally controlling the at least one heater includes providing a pulse width modulated signal to the heater of the conduit.
(Item 30)
30. A respiratory assistance device as described in claim 29, wherein the frequency of the pulse width modulated signal is less than about 20 Hz or between about 20 Hz and about 1 kHz.
(Item 31)
30. A respiratory assistance apparatus as described in claim 29, wherein the controller controls the duty cycle of the pulse width modulated signal provided to the at least one heater via the second control scheme in accordance with a humidity control algorithm.
(Item 32)
30. A respiratory assistance device as described in claim 29, wherein the controller controls the duty cycle of the pulse width modulated signal provided to the at least one heater by the second control scheme based on one or more treatment parameters (optionally the one or more treatment parameters are a treatment temperature of the gas provided to the user).
(Item 33)
30. A respiratory assistance apparatus as described in claim 29, wherein the controller controls the duty cycle of the pulse width modulated signal provided to the at least one heater based on a desired conduit end temperature of the gas flow in the conduit via the second control scheme.
(Item 34)
30. A respiratory assistance apparatus as described in claim 29, wherein the duty cycle of the pulse width modulated signal is based on a desired power of the at least one heater.
(Item 35)
35. A respiratory assistance apparatus as described in claim 34, wherein the controller is configured to measure the power provided to the at least one heater and to control a duty cycle of the pulse width modulated signal based on the measured power provided to the at least one heater and the desired power of the at least one heater.
(Item 36)
12. The respiratory assistance device of claim 11, wherein the first control scheme includes providing a low frequency pulse width modulated signal to the at least one heater and the second control scheme includes providing a high frequency pulse width modulated signal to the at least one heater, the frequency of the high frequency pulse width modulated signal being higher than the frequency of the low frequency pulse width modulated signal.
(Item 37)
1. A respiratory assistance apparatus comprising: a humidifier pneumatically connected to an airflow generator and configured to humidify a gas flow generated by the airflow generator, the humidifier including a heater;
the respiratory assistance apparatus is configured to be connected to a conduit transporting the gas flow, the conduit including a heater configured to heat the gas flow within the conduit;
the respiratory aid apparatus includes a battery, the respiratory aid apparatus being configured to be powered by the battery or a mains power source;
the respiratory assistance apparatus including a controller configured to control the heater of the conduit and the heater of the humidifier according to at least a first control scheme and a second control scheme;
when the respiratory assistance apparatus is powered by the battery, the controller is configured to control the heater of the conduit and the heater of the humidifier according to a first control scheme, the first control scheme comprising controlling the heater of the conduit by analog control and providing a high frequency pulse width modulated signal to the heater of the humidifier;
when the respiratory assistance apparatus is powered by the mains power supply, the controller is configured to control the heater of the conduit according to a second control scheme, the second control scheme comprising controlling the heater of the conduit by digital control (optionally by providing a pulse width modulated signal) and providing a low frequency pulse width modulated signal to the heater of the humidifier;
the frequency of the high frequency pulse width modulated signal is higher than the frequency of the low frequency pulse width modulated signal;
Breathing assistance equipment.
(Item 38)
1. A respiratory assistance apparatus comprising: a humidifier pneumatically connected to an airflow generator and configured to humidify a gas flow generated by the airflow generator, the humidifier including a heater;
the respiratory assistance apparatus is configured to be connected to a conduit transporting the gas flow, the conduit including a heater configured to heat the gas flow within the conduit;
the respiratory aid apparatus includes a battery, the respiratory aid apparatus being configured to be powered by the battery or a mains power source;
the respiratory assistance apparatus including a controller configured to control the heater of the conduit and the heater of the humidifier according to at least a first control scheme and a second control scheme;
when the respiratory assistance apparatus is powered by the battery, the controller is configured to control the heater of the conduit and the heater of the humidifier according to a first control scheme, the first control scheme including controlling the heater of the humidifier by analog control and controlling the heater of the humidifier by digital control;
When the respiratory assistance device is powered by the main power source, the controller is configured to control the heater according to a second control scheme, the second control scheme including controlling the heater of the conduit and the heater of the humidifier by digital control.
(Item 39)
2. A respiratory assistance apparatus as described in claim 1, wherein the heater of the humidifier includes a heater plate, the heater plate configured to heat a fluid in a humidification chamber to humidify the gas flow.
(Item 40)
40. A respiratory assistance apparatus as described in claim 39, wherein the heater of the humidifier comprises an electrically conductive heating element.
(Item 41)
2. A respiratory assistance apparatus as described in claim 1, wherein the heater in the conduit comprises a heater wire, the heater wire being an electrically conductive heating element.
(Item 42)
The heater wire is
a) within the lumen of the conduit;
b) within the wall of the conduit;
c) embedded in the wall of the conduit;
d) embedded in a bead that optionally forms a breathing conduit, said bead configured to provide structural support to said conduit;
e) disposed on an exterior surface of the conduit;
f) any combination of a) to e);
42. A respiratory assistance device according to item 41.
(Item 43)
2. The respiratory assistance apparatus of claim 1, comprising an airflow generator configured to generate the gas flow.
(Item 44)
2. The respiratory assistance apparatus of claim 1, wherein the respiratory assistance apparatus is configured to detect whether the respiratory assistance apparatus is powered by the battery or the mains power source.
(Item 45)
45. The respiratory aid apparatus of claim 44, wherein the respiratory aid apparatus is configured to operate from the battery when the mains power source is not detected.
(Item 46)
2. The respiratory assistance apparatus of claim 1, wherein the respiratory assistance apparatus is configured to operate from the battery based on input from a user (optionally via a user interface).
(Item 47)
2. The respiratory assistance apparatus of claim 1, wherein the battery is disposed within the respiratory assistance apparatus (and optionally within a housing of the respiratory assistance apparatus).
(Item 48)
2. The respiratory assistance device of claim 1, wherein the battery comprises at least one battery.
(Item 49)
2. The respiratory assistance apparatus of claim 1, wherein the battery is configured to be connectable and disconnectable to the respiratory assistance apparatus (and optionally to a housing of the respiratory assistance apparatus), or wherein the battery is not connectable and disconnectable to the respiratory assistance apparatus (and optionally to the housing of the respiratory assistance apparatus).
(Item 50)
2. The respiratory assistance device of claim 1, wherein the battery is a battery module.
(Item 51)
2. The respiratory assistance apparatus of claim 1, wherein the respiratory assistance apparatus includes one or more power rail capacitors.
(Item 52)
The one or more power rail capacitors include:
a) at the output of the battery
b) to the output of said mains power supply
c) to one or more of the output of the battery or the output of the mains conversion circuit.
d) Any combination of a) to c)
52. The respiratory assistance device of claim 51, which can be configured to be deployed.
(Item 53)
2. The respiratory assistance apparatus of claim 1, comprising digital control circuitry configured to generate a pulse width modulated signal and/or a high frequency pulse width modulated signal and/or a low frequency pulse width modulated signal for the heater of the conduit.
(Item 54)
54. A respiratory assistance device as described in claim 53, wherein the digital control circuitry includes one or more switching circuits.
(Item 55)
54. A respiratory assistance apparatus as described in claim 53, wherein the digital control circuitry includes one or more pulse width modulated drivers.
(Item 56)
54. A respiratory assistance device as described in claim 53, wherein the digital control circuitry includes a pulse width modulated driver for the heater of the humidifier configured to generate the high frequency pulse width modulated signal and/or the low frequency pulse width modulated signal.
(Item 57)
54. A respiratory assistance apparatus as described in claim 53, wherein the digital control circuitry includes a pulse width modulated driver for the heater of the conduit configured to generate the pulse width modulated signal.
(Item 58)
58. A respiratory assistance apparatus as described in claim 57, wherein the pulse width modulated driver for the heater of the conduit is disabled when the respiratory assistance apparatus is controlling the heater of the conduit according to a first control scheme.
(Item 59)
2. The respiratory assistance apparatus of claim 1, wherein the respiratory assistance apparatus includes a housing, and the airflow generator and/or the humidifier are disposed within the housing (optionally a separate housing).
(Item 60)
2. The respiratory assistance apparatus of claim 1, wherein the respiratory assistance apparatus includes a gas inlet and a gas outlet, the conduit being configured to be connected to the gas outlet.
(Item 61)
When the respiratory assistance apparatus is initially powered by the battery, the controller
disabling the heater of the humidifier and/or the heater of the conduit, and then
Controlling the heater of the humidifier and/or the heater of the conduit to a desired value or a percentage of a desired value.
2. The respiratory assistance device of item 1, configured as follows:
(Item 62)
62. A respiratory assistance apparatus as described in claim 61 , wherein disabling the humidifier heater and/or the heater of the conduit comprises disabling control circuitry and/or providing an off control signal.
(Item 63)
62. The respiratory assistance apparatus of claim 61, wherein the respiratory assistance apparatus is configured to control the heater of the humidifier and/or the heater of the conduit to a desired value or a percentage of the desired value after a predetermined time.
(Item 64)
Item 62. A respiratory assistance apparatus as described in item 61, wherein the controller is configured to control the heater of the humidifier and/or the heater of the conduit to the desired value or to a percentage of the desired value, at a predetermined rate or less.
(Item 65)
62. The respiratory assistance apparatus of claim 61, wherein when the respiratory assistance apparatus is initially powered by the battery, the controller is configured to prioritize delivery of power to the airflow generator over the heater of the humidifier and/or the heater of the conduit.
(Item 66)
2. A respiratory assistance apparatus as described in item 1, wherein the battery has a power budget indicating the power that can be supplied by the battery, and the power budget is allocated to the airflow generator in priority to the heater of the humidifier and/or the heater of the conduit.
(Item 67)
67. A respiratory assistance apparatus as described in claim 66, wherein the power delivered to the heater of the humidifier and/or the heater of the conduit is based on a remaining power of the power budget, the remaining power of the power budget being the power budget less the power required to power the flow generator.
(Item 68)
68. A respiratory assistance apparatus as described in claim 67, wherein if the remaining power is greater than the combined desired power of the heater of the humidifier and/or the heater of the conduit, the controller is configured to reduce the power provided to the heater of the humidifier and/or the heater of the conduit (optionally to the remaining power budget).
(Item 69)
A respiratory assistance device as described in any one of items 1, wherein if the respiratory assistance device is initially powered by the battery, the controller is configured to disable the humidifier and/or the heater of the conduit when a threshold battery charge is reached.
(Item 70)
70. A respiratory assistance apparatus as described in claim 69, wherein the threshold value is between about 5% and about 40%, or between about 10% and about 30%, or about 20%.
(Item 71)
1. A respiratory assistance apparatus comprising: a humidifier pneumatically connected to an airflow generator and configured to humidify a gas flow generated by the airflow generator, the humidifier including a heater;
the respiratory assistance apparatus is configured to be connected to a conduit transporting the gas flow, the conduit including a heater configured to heat the gas flow within the conduit;
the respiratory aid apparatus includes a battery, the respiratory aid apparatus being configured to be powered by the battery or a mains power source;
The respiratory assistance apparatus includes a controller;
When the respiratory assistance apparatus is initially powered by the battery, the controller
disabling the heater of the humidifier and/or the heater of the conduit, and then
Controlling the heater of the humidifier and/or the heater of the conduit to a desired value or a percentage of a desired value.
1. A respiratory assistance apparatus configured as follows.
(Item 72)
1. A respiratory assistance apparatus comprising: a humidifier pneumatically connected to an airflow generator and configured to humidify a gas flow generated by the airflow generator, the humidifier including a heater;
the respiratory assistance apparatus is configured to be connected to a conduit transporting the gas flow, the conduit including a conduit heater configured to heat the gas flow within the conduit;
the respiratory aid apparatus includes a battery, the respiratory aid apparatus being configured to be powered by the battery or a mains power source;
The respiratory assistance apparatus includes a controller;
The respiratory assistance apparatus, when the respiratory assistance apparatus is initially powered by the battery, the controller is configured to prioritize delivery of power to the airflow generator over the heater of the humidifier and/or the heater of the conduit.

Claims (15)

1. A respiratory assistance apparatus comprising: a humidifier pneumatically connected to an airflow generator and configured to humidify a gas flow generated by the airflow generator, the humidifier including a heater;
the respiratory assistance apparatus is configured to be connected to a conduit transporting the gas flow, the conduit including a heater configured to heat the gas flow within the conduit;
the respiratory aid apparatus includes a battery, the respiratory aid apparatus being configured to be powered by the battery or a mains power source;
the respiratory assistance apparatus including a controller configured to control the heater of the conduit and the heater of the humidifier according to at least a first control scheme and a second control scheme;
when the respiratory assistance apparatus is powered by the battery, the controller is configured to control the heater of the conduit and the heater of the humidifier according to a first control scheme, the first control scheme comprising controlling the heater of the conduit by analog control and providing a high frequency pulse width modulated signal to the heater of the humidifier;
when the respiratory assistance apparatus is powered by the mains power source, the controller is configured to control the heater of the conduit and the heater of the humidifier according to a second control scheme, the second control scheme comprising controlling the heater of the conduit by providing a pulse width modulated signal under digital control, and providing a low frequency pulse width modulated signal to the heater of the humidifier;
the frequency of the high frequency pulse width modulated signal is higher than the frequency of the low frequency pulse width modulated signal;
Breathing assistance equipment. the heater of the humidifier includes a heater plate, the heater plate configured to heat a fluid in a humidification chamber to humidify the gas flow;
2. A respiratory aid apparatus as claimed in claim 1, wherein the heater of the humidifier comprises an electrically conductive heating element. the heater in the conduit comprises a heater wire;
The heater wire is
a) within the lumen of the conduit;
b) within the wall of the conduit;
c) embedded in the wall of the conduit;
d) embedded in beads forming said conduit, optionally said beads configured to provide structural support to said conduit;
e) disposed on an exterior surface of the conduit;
The respiratory assistance device of claim 1, wherein f) any combination of a) to e). The respiratory assistance device of claim 1, wherein the respiratory assistance device includes an airflow generator configured to generate the gas flow. the respiratory aid apparatus is configured to detect whether the respiratory aid apparatus is powered by the battery or the mains power;
2. A respiratory aid apparatus as claimed in claim 1, wherein the respiratory aid apparatus is configured to operate from the battery when no mains power source is detected. The respiratory assistance device of claim 1, wherein the respiratory assistance device is configured to be battery operated based on input from a user (optionally via a user interface). The respiratory assistance device of claim 1, wherein the battery is disposed within the respiratory assistance device (and optionally within a housing of the respiratory assistance device). The respiratory assistance device of claim 1, wherein the respiratory assistance device includes at least one battery as part of a battery module. The respiratory assistance device of claim 1, wherein the battery is configured to be connectable and disconnectable to the respiratory assistance device (and optionally to a housing of the respiratory assistance device). The respiratory assistance apparatus includes one or more power rail capacitors;
The one or more power rail capacitors include:
A respiratory assistance device as described in claim 1, configured to be placed: a) at the output of the battery; b) at the output of the mains power supply; c) at one or more of the output of the battery or the output of a mains power conversion circuit; or d) at any combination of a) to c). the respiratory assistance device comprises digital control circuitry configured to generate the pulse width modulated signal and/or the high frequency pulse width modulated signal and/or the low frequency pulse width modulated signal for the heater of the conduit;
the digital control circuitry includes one or more switching circuits and/or one or more pulse width modulation drivers;
2. A respiratory assistance device as claimed in claim 1. the digital control circuitry includes a pulse width modulated driver for the heater of the humidifier configured to generate the high frequency pulse width modulated signal and/or the low frequency pulse width modulated signal;
12. A respiratory assistance apparatus as claimed in claim 11, wherein the digital control circuitry includes a pulse width modulated driver for the heater of the conduit configured to generate the pulse width modulated signal. The respiratory assistance apparatus of claim 12, wherein the pulse width modulated driver for the heater of the conduit is disabled when the respiratory assistance apparatus is controlling the heater of the conduit according to a first control scheme. The respiratory assistance device according to claim 1, wherein the respiratory assistance device includes a housing, and the airflow generator and/or the humidifier are disposed within the housing. The respiratory assistance device of claim 1, wherein the respiratory assistance device includes a gas inlet and a gas outlet, and the conduit is configured to be connected to the gas outlet.