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BATTERY GUIDE
USING STAND-ALONE, DEEP-CYCLE BATTERIES
ResMed 9001 Spectrum Center Boulevard, San Diego, CA 92123 Tel. 800-424-0737 198103/7 2018-08
INTRODUCTION This guide provides details on operating your ResMed device from a stand-alone, deep-cycle battery for a single night before recharging. Begin with the Getting Started section to determine your needs and identify the type of battery required for your ResMed device. The tables in this guide contain technical details relating to the battery requirements for specific types of ResMed devices. Refer to the Frequently Asked Questions section near the end of this guide for answers to your questions. NOTE: This guide contains details for devices currently supported by ResMed. If you have an older device not listed in this guide, please contact your home medical equipment provider for assistance.
CONTENTS INTRODUCTION... 2 CONTENTS ... 2 QUICK OVERVIEW ... 3 GETTING STARTED ... 4 Converter or Inverter? ... 4 Using a Converter ... 4 Using an Inverter ... 5
Converter Battery Tables ... 6 AirMini ... 6 Stellar series ... 6 Air10 series ... 7 S9 Series ... 8 Inverter Battery Tables ... 9 S9 series ... 9 VPAP III series ... 10 AutoSet CS2 and VPAP Adapt ... 10 Stellar series ... 10
FREQUENTLY ASKED QUESTIONS ... 11 BATTERIES ... 6 BATTERY SELECTION CHART... 14
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QUICK OVERVIEW The following overview describes selection of a deep-cycle battery suitable for operating your ResMed device for 8 hours using an appropriate ResMed DC-to-DC converter. NOTE: If you plan on using a DC-to-AC inverter or need more detailed instructions, see the “Getting Started” section on the next page.
1. Obtain appropriate DC-to-DC converter for your ResMed device.
5. Locate treatment pressure (or next highest value) in table and read across to the required battery size in amp hours (AH). Example: AirStart 10 with a pressure of 10cmH2O requires a 7AH deep-cycle battery:
ResMed DC-to-DC converter (example) 2. Obtain a cable adapter to connect your DCto-DC converter to a battery.
AirStart 10 DC-to-DC converter battery table 6. Assemble all the components.
Cable adapter 3. Identify your device’s treatment pressure. 4. Go to the “Converter Battery Tables” and locate appropriate table for your device.
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Battery, cable adapter, converter, and device
3
GETTING STARTED We provide two different solutions for connecting your device to a stand-alone battery. One solution uses DC-toDC converters and the other uses DC-to-AC inverters. Before getting started, let’s review some basic assumptions upon which we base our recommendations in this guide. You will: •
power your device using a stand-alone, deep-cycle battery,
•
use your device for an 8-hour period,
•
recharge your battery every day after use,
•
use only the components we describe in this guide.
Converter or Inverter? We strongly recommend using DC-to-DC converters to power your ResMed device from a battery rather than DCto-AC inverters. Let’s start with a couple questions to help identify which process steps to follow. 1. Will you be able to recharge the battery daily after use? •
YES – Go to step 2
•
NO – Contact your home medical equipment or battery provider to discuss your options for power as this guide only applies to identifying battery sizes sufficient to power a ResMed device for 8 hours between charges. See also the “Frequently Asked Questions” at the end of this guide.
2. Will you use a DC-to-DC converter or a DC-to-AC inverter? •
Converter – Follow the steps in the “Using a Converter” section below.
•
Inverter – Follow the steps in the “Using an Inverter” section later in this guide.
Using a Converter The following questions step you through identification of the appropriate battery for use with a DC-to-DC converter to power your ResMed device. NOTE: This section applies to the following ResMed products: AirMini, AirSolutions 10, S9, and Stellar series. 1. Do you have an appropriate DC-to-DC converter for your ResMed device? •
YES – Go to step 2.
•
NO – Review the list below and contact your home medical equipment provider for the converter appropriate to your ResMed device and then go to step 2: •
Air10 series – Air10 DC/DC converter (p/n 37297)
•
AirMini series – AirMini DC/DC converter (p/n 38839)
•
S9 series – DC/DC converter 24V/90W (p/n 36970)
•
Stellar series – Stellar DC/DC converter (p/n 24922)
2. Do you have a cable adapter to connect your DC-to-DC converter to a battery? •
YES – Go to step 3.
•
NO – Obtain an appropriate cable adapter from your home medical equipment or battery provider. Go to step 3.
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3. Do you know the treatment pressure set on your device? •
YES – Go to step 4.
•
NO – Contact your home medical equipment or healthcare provider and request your treatment pressure then go to step 4.
4. Go to the “Converter Battery Tables” section and locate the appropriate table for your device. Locate your treatment pressure (or next highest value) in the table and read across to identify the required battery size in amp hours (AH). This is the size battery you will need to operate your device for 8 hours.
Using an Inverter While we recommend using DC-to-DC converters, if you must use a DC-to-AC inverter, you can do so with some ResMed devices. The following questions step you through identification of the appropriate battery for use with a DC-to-AC inverter to power your ResMed device. We recommend using a pure sine wave inverter with a continuous power rating of 300 watts and a peak/surge rating of 500 watts. WARNING: We recommend only using an inverter certified by an accredited testing and certification organization, such as VDE, TSU or BSI in addition to CE markings for EU countries or UL markings for the USA. NOTE: The steps in this section apply to the following ResMed products: S9, VPAP III, AutoSet CS2, VPAP Adapt series used with appropriate humidifiers (HumidAire 2i, H4i, or H5i only). These steps also apply to the Stellar series. 1. Do you have a pure sine wave DC-to-AC inverter with a continuous power rating of 300 watts and a peak/surge rating of 500 watts? •
YES – Go to step 2.
•
NO – Contact your battery or electrical supplies provider for assistance in obtaining the appropriate type of inverter. NOTE: The following ResMed devices without humidifiers can operate using a 150 watt modified sine wave inverter: VPAP III, AutoSet CS2, VPAP Adapt series. S9 series with H5i humidifiers can also operate from this inverter type.
2. If required, do you have a cable adapter to connect your DC-to-AC inverter to a battery? •
YES – Go to step 3.
•
NO – Obtain an appropriate cable adapter from your home medical equipment or battery provider. Got to step 3.
3. Do you know the treatment pressure set on your device? •
YES – Go to step 4.
•
NO – Contact your home medical equipment or healthcare provider and request your treatment pressure then go to step 4.
4. Go to the Inverter “Battery Tables” section and locate the appropriate table for your device. Locate your treatment pressure (or next highest value) in the table and read across to identify the required battery size in amp hours (AH). This is the size battery you will need to operate your device for 8 hours. Please be aware of the following related to use of inverters with ResMed products: WARNING: •
Other ResMed heated humidifiers must not be used with inverters. Damage to the unit or serious injury to the user may result. If you are using another brand of heated humidifier, check with the manufacturer for their recommendation.
•
The original HumidAire™ must not be used with inverters.
CAUTION: Do not use the C-Series Tango heated humidifier with an inverter. This humidifier can only be used on mains AC power, not battery power.
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BATTERIES As we mentioned earlier, this guide provides instructions for using a stand-alone, deep-cycle battery to power your ResMed device. To use the tables in this section, first determine if you will be using a DC-to-DC converter or a DC-to-AC inverter. Next, select the appropriate set of tables (converter or inverter) and locate the table for your ResMed device. Once you have identified the appropriate table, locate your device within the “Product” column. There may be various entries depending on model, use of a humidifier, and tubing choice. Next, locate your pressure setting (or the next highest if yours is not listed) in the “Pressure” column. Read across the table to identify the battery size in amp hours (AH). This tells you the deep-cycle battery size you will need to power your device for 8-hours. CAUTION: •
Match the voltage of your battery with the voltage requirement of your converter or inverter.
•
Always check with the battery manufacturer for discharge rates and charging instructions. Damage to the battery may result from excessive discharge or incorrect charging.
•
Always follow the battery manufacturer’s instructions for maintenance and storage of the battery.
Converter Battery Tables This section contains a series of tables for identifying the deep-cycle battery size (in AH) required to power your ResMed device at a given treatment pressure using the appropriate ResMed DC-to-DC converter. All battery sizes are based on 8-hour usage and include a 50% safety margin. Devices in this section include: •
AirMini
•
Stellar series
•
Air10 series
•
S9 series
CAUTION: These tables only apply to use with the appropriate ResMed DC-to-DC converter. If you will be using a DC-to-AC inverter, see the “Inverter Battery Tables” later in this guide.
AirMini Product
Stellar series Treatment Pressure (cm H2O)
Battery Size (AH)
Current draw @ 12 V DC (amps)
IPAP Pressure (cm H2O)
Battery Size (AH)
Current draw @ 12 V DC (amps)
6
4
0.37
10
8
0.66
8
5
0.40
15
10
0.76
10
5
0.45
20
11
0.86
12
6
0.50
25
12
0.97
16
8
0.63
30
14
1.11
0.76
35
15
1.24
40
17
1.38
AirMini
20
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Product
9
Stellar
6
Air10 series Product
AirStart 10 and AirSense 10. Product
AirStart 10 + SlimLine tubing
AirStart 10 + SlimLine tubing, humidifier (@ 4)
AirStart 10 + SlimLine tubing, humidifier (@ 8)
AirSense 10 CPAP AirSense 10 Elite AirSense 10 AutoSet AirSense 10 AutoSet for Her + All above with ClimateLineAir (@ 30°C)
IPAP Pressure (cm H2O)
Battery Size (AH)
Current draw @ 12 V DC (amps)
6
5
0.39
8
6
0.48
10
7
0.53
12
8
0.61
16
10
0.80
20
13
1.01
6
16
1.28
8
18
1.49
10
20
1.66
12
23
1.84
16
28
2.28
20
32
2.66
6
38
3.14
8
40
3.31
10
42
3.44
12
45
3.67
16
48
4.00
20
53
4.34
6
13
1.06
8
15
1.20
10
19
1.52
12
24
1.96
16
33
2.68
20
42
3.50
Table continues in next column
AirSense 10 CPAP AirSense 10 Elite AirSense 10 AutoSet AirSense 10 AutoSet for Her
Battery Size (AH)
Current draw @ 12 V DC (amps)
6
9
0.70
8
10
0.79
10
12
0.93
12
13
1.06
+ All above with SlimLine tubing
16
15
1.23
20
20
1.66
AirSense 10 CPAP AirSense 10 Elite AirSense 10 AutoSet AirSense 10 AutoSet for Her
6
21
1.73
8
24
2.00
10
28
2.30
12
32
2.61
16
40
3.33
20
51
4.19
6
42
3.44
+ All above with SlimLine tubing, humidifier (@ 4) AirSense 10 CPAP AirSense 10 Elite AirSense 10 AutoSet AirSense 10 AutoSet for Her + All above with SlimLine tubing, humidifier (@ 8)
8
42
3.49
10
44
3.66
12
47
3.86
16
51
4.18
20
56
4.59
6
38
3.12
8
43
3.55
10
46
3.77
+ All above with ClimateLine Air tubing, humidifier (@ Auto)
12
49
4.02
16
51
4.21
20
53
4.35
AirSense 10 CPAP AirSense 10 Elite AirSense 10 AutoSet AirSense 10 AutoSet for Her
6
57
4.71
8
58
4.77
10
60
4.92
12
62
5.12
16
65
5.37
20
68
5.61
AirSense 10 CPAP AirSense 10 Elite AirSense 10 AutoSet AirSense 10 AutoSet for Her
+ All above with ClimateLine Air tubing (@30°C), humidifier (@ 8)
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IPAP Pressure (cm H2O)
7
S9 Series
Product
S9 AutoSet S9 Elite S9 Escape S9 Escape Auto
S9 AutoSet S9 Elite S9 Escape S9 Escape Auto + All above with H5i (@ 3)
S9 AutoSet S9 Elite S9 Escape S9 Escape Auto + All above with H5i (@ 6)
S9 AutoSet S9 Elite S9 Escape S9 Escape Auto + All above with H5i, Climate control (@ 30° C)
Treatment Pressure (cm H2O)
Battery Size (AH)
Current draw @ 12 V DC (amps)
6
5
0.39
8
6
0.46
10
7
0.55
12
8
0.65
16
11
0.90
20
13
1.00
6
15
1.25
8
20
1.62
10
25
2.03
12
29
2.39
16
39
3.19
20
49
4.03
6
56
4.61
8
59
4.84
10
60
4.99
12
63
5.17
16
67
5.58
20
73
6.04
6
52
4.27
8
61
5.08
10
67
5.58
12
70
5.77
16
74
6.15
20
79
6.59
S9 VPAP S S9 VPAP ST
S9 VPAP S S9 VPAP ST + All above with H5i (@ 3)
7
59
4.87
15
62
5.10
+ All above with H5i (@ 6)
20
72
5.95
25
77
6.35
S9 VPAP S S9 VPAP ST
10
56
4.66
15
69
5.69
20
74
6.10
25
77
6.41
+ All above with H5i, Climate control (@ 30° C)
EPAP pressure (cm H2O) S9 VPAP S9 Adapt SV-A S9 AutoSet CS/CS-A
10
0.80
20
15
1.17
25
19
1.57
10
17
1.41
15
23
1.90
20
37
3.07
25
42
3.44
8
0.61
10
10
0.76
15
12
0.95
5
30
2.45
10
37
3.05
+ All above with H5i (@ 3)
15
45
3.75
S9 VPAP S9 Adapt SV-A S9 AutoSet CS/CS-A
5
54
4.47
10
63
5.24
+ All above with H5i (@ 6)
15
73
6.06
5
71
5.85
10
77
6.35
15
85
7.05
S9 VPAP S9 Adapt SV-A S9 AutoSet CS/CS-A + All above with H5i, Climate control (@ 30° C)
Max IPAP pressure (cm H2O) S9 VPAP Auto
S9 VPAP Auto + H5i (@ 3)
S9 VPAP Auto + H5i (@ 6)
Table continues in next column S9 VPAP Auto + H5i, Climate control (@ 30° C)
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S9 VPAP S9 Adapt SV-A S9 AutoSet CS/CS-A
0.52
15
Current draw @ 12 V DC (amps)
10
S9 VPAP S S9 VPAP ST
IPAP pressure (cm H2O) 10
Treatment Battery Pressure Size (cm H2O) (AH) IPAP pressure (cm H2O)
Product
Where the H5i is being used figures will vary dependent upon relative humidity.
15
7
0.54
20
9
0.75
25
12
1.00
15
16
1.27
20
25
2.01
25
28
2.26
15
47
3.89
20
62
5.10
25
65
5.42
15
37
3.05
20
52
4.29
25
65
5.34
8
Inverter Battery Tables This section contains a series of tables for identifying the deep-cycle battery size (in AH) required to power your ResMed device at a given treatment pressure using a DC-to-AC inverter. All battery sizes are based on 8-hour usage and include a 50% safety margin. Devices in this section include: •
S9 Series
•
VPAP III Series
•
AutoSet CS2
•
VPAP Adapt
•
Stellar Series
CAUTION: These tables only apply to use with a DC-to-AC inverter. If you will be using a DC-to-DC converter, see the “Converter Battery Tables” earlier in this guide. NOTE: Automatic device treatment pressures vary-95th percentile pressure used for all AutoSet products.
S9 series Product
S9 Elite S9 AutoSet + All above with (EPR @ 0)
S9 Elite S9 AutoSet + All above with H5i (EPR @ 0, H5i @ 3)
S9 Elite S9 AutoSet + All above with H5i (EPR @ 0, H5i @ 6)
S9 Elite S9 AutoSet + All above with H5i and Climate control (EPR @ 0, CC @ 27° C)
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Treatment Pressure (cm H2O)
Battery Size (AH)
Current draw @ 12 V DC (amps)
6
11
0.89
8
12
0.95
10
12
1.02
12
13
1.08
16
15
1.23
20
17
1.41
6
31
2.57
8
33
2.76
10
36
3.01
12
40
3.32
16
45
3.77
20
49
4.10
6
59
4.94
8
65
5.45
10
71
5.90
12
74
6.18
16
78
6.47
20
80
6.69
6
37
3.05
8
44
3.69
10
49
4.12
12
54
4.48
16
73
6.06
20
87
7.25
Product
S9 Elite S9 AutoSet + All above with H5i and Climate control (EPR @ 0, CC @ 30° C)
Treatment Pressure (cm H2O)
Battery Size (AH)
Current draw @ 12 V DC (amps)
6
40
3.32
8
45
3.78
10
50
4.20
12
57
4.71
16
68
5.68
20
78
6.49
10
15
1.19
15
16
1.29
20
17
1.40
25
18
1.47
30
23
1.90
5
20
1.66
10
28
2.33
15
37
3.01
5
36
2.93
10
43
3.53
15
58
4.79
IPAP pressure (cm H2O)
S9 VPAP ST-A S9 COPD
EPAP pressure (cm H2O) S9 VPAP Adapt SV-A S9 AutoSet CS-A S9 VPAP Adapt SV-A S9 AutoSet CS-A + All above with H5i (@ 3) S9 VPAP Adapt SV-A S9 AutoSet CS-A
5
60
4.94
10
67
5.51
+ All above with H5i (@ 6)
15
84
6.95
S9 VPAP Adapt SV-A S9 AutoSet CS-A
5
88
7.28
+ All above with H5i, ClimateLine (@ 30°C)
10
97
8.04
15
108
8.94
9
Stellar series
VPAP III series The values in the table are based on a respiratory rate of 20 breaths per minute. Power consumption (and recommended battery capacity) will increase with higher respiratory rates. Product
IPAP Pressure (cm H2O)
Battery Size (AH)
Current draw @ 12 V DC (amps)
5
20
1.65
10
22
1.86
15
25
2.11
20
29
2.41
25
33
2.76
30
38
3.15
5
48
4.04
10
51
4.25
15
54
4.49
20
58
4.79
25
62
5.15
30
66
5.54
VPAP III ST-A VPAP III ST-A with QuickNav
VPAP III ST-A VPAP III ST-A with QuickNav + All above with HumidAire 2i
Product
Stellar
Stellar + H4i (@ 4)
IPAP Pressure (cm H2O)
Battery Size (AH)
Current draw @ 12 V DC (amps)
10
16
1.25
15
16
1.27
20
18
1.42
25
20
1.59
30
22
1.77
35
27
2.21
40
30
2.47
10
87
7.21
15
94
7.79
20
103
8.57
25
112
9.31
30
127
10.55
35
142
11.82
40
150
12.49
AutoSet CS2 and VPAP Adapt Product
AutoSet CS2 VPAP Adapt
AutoSet CS2 VPAP Adapt + All above with H2i
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EEP (cm H2O)
Median Pressure Support (cm H2O)
Battery Size (AH)
Current draw @ 12 V DC (amps)
4
6
23
1.88
6
6
24
1.97
8
6
26
2.11
10
5
27
2.23
4
6
56
6
6
57
8
6
58
10
5
60
10
FREQUENTLY ASKED QUESTIONS Find help with the following questions and answers. For questions not answered in this guide, please contact your home medical equipment or battery provider. Must I use a stand-alone battery to power my ResMed device? You can use a ResMed DC-to-DC converter to connect your device to the DC power receptacle of an operating vehicle such as a car, boat, or RV. As long as the vehicle remains operating, the vehicle’s battery will continue to charge. Powering your device from a non-operating vehicle may discharge the vehicle’s battery resulting in damage to the battery. For times when the vehicle will not be operating, we recommend using a separate, standalone, deep-cycle battery to power your device. WARNING: Do not attempt to start the vehicle engine while using your ResMed device powered from the vehicle battery. Dangerous voltage spikes may damage the device. What type of battery should I get? We recommend using a deep-cycle battery to power your device outside of an operating vehicle. Determine the battery size (rated in amp-hours or AH) necessary for your specific device using the charts in the “Batteries” section of this guide. Can I use a stand-alone car battery to power my device? No. This guide provides information about powering ResMed devices using deep-cycle batteries rated at specific amp-hours (AH). Automotive batteries are designed to be continually charged and deep discharges (as would occur when using the battery by itself) significantly decrease the life of the battery. Further, automotive batteries are rated in cold cranking amps (CCA) which is not equivalent to the AH ratings of deep-cycle batteries. Where do I get a battery? You can purchase a battery from camping stores or other retailers who offer deep-cycle batteries of sufficient size to meet the power needs of your ResMed device. What is a deep-cycle battery? Deep-cycle batteries use thick lead plates in each cell of the battery and can regularly experience deep discharges of 80% or more before recharging. Deep-cycle batteries are rated (or sized) in amp hours (AH). This is the “battery size” value we list in our tables. What is a marine battery? Marine batteries are similar to, but not true deep-cycle batteries. Like deep-cycle batteries, marine batteries are rated (or sized) in amp hours but generally should not be discharged beyond 60% before recharging. What are amp hours? Amp hours (AH) describe the “size” or capability of a battery. The AH rating defines the current that can be drawn from the battery for a specified time. For example, a battery rated at 50 AH can supply 1 amp for 50 hours, or 2 amps for 25 hours and so on. This only works up to a point, as there are constraints on the maximum performance. Are cold cranking amps the same as amp hours? No. Cold cranking amps (CCA) describe the capability of automotive batteries. Specifically, CCA describes the number of amps the battery can supply at 0°F for 30 seconds while maintaining a voltage of 7.2 volts. What if I cannot charge my battery every day? You may still be able to use a single battery to power your ResMed device. The tables in this guide provide the AH requirement for a deep-cycle battery to power a device for one day (8 hours). Multiplying the required AH value for your device/pressure combination by the number of days between charges, results in the AH rating of the deep-cycle battery to meet your needs. CAUTION: Be sure to confirm with your battery provider that this approach applies to your usage scenario and the deep-cycle battery you wish to use. Should I use a converter or inverter? Whenever possible, we strongly recommend the use of a DC-to-DC converter to power your ResMed device. Converters are more efficient than inverters with less potential for unexpected results which can occur from using the wrong type of inverter.
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What are the benefits of using a converter instead of an inverter? The benefits of using converters instead of inverters include: •
Converters are more efficient than inverters.
•
Converters provide electrical protection to the device if the leads are incorrectly connected to the battery.
•
Converters provide regulation of the battery voltage.
•
Converters shutdown automatically when the voltage drops below a certain threshold and protects the battery from damage by not allowing a full discharge.
•
Converters provide electrical isolation to the device.
The following illustrates a ResMed DC-to-DC converter:
What is the difference between a pure and modified sine wave inverter? A pure sine wave inverter produces a smooth output waveform matching that of a domestic power outlet. By comparison, modified sine wave converters alternate voltage in steps which can damage sensitive electronics. How do I connect my converter to a stand-alone battery? All ResMed converters have one cable that connects to your device and another cable that plugs into a vehicle’s DC power outlet (cigarette lighter receptacle). You will need a cable adapter to connect the converter to a standalone battery. The cable adapter has a DC power outlet at one end and a pair of alligator clips at the other. You plug the converter DC power plug into the DC power outlet of the cable adapter and then connect the alligator clips of the cable adapter to the appropriate terminals of your battery.
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How do all the components connect together? Assemble your components as follows: 1. Connect the alligator clips of your cable adapter to the appropriate terminals on your stand-alone, deep-cycle battery (be sure to properly align the positive and negative clips to the appropriate terminals on the battery). 2. Plug the DC-source plug from your ResMed DC-to-DC converter into the DC power outlet on the cable adapter attached to your battery. 3. Connect the device power cord from the DC-to-DC converter into the power port of your ResMed device. NOTE: With inverters, plug the ResMed device AC power supply into the inverter and the device. The following image illustrates a Stellar connected to a battery using a converter and cable adapter:
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BATTERY SELECTION CHART This chart shows how to identify an appropriate battery size to power your ResMed device. Begin at the “Start” bubble and work your way through the questions until you reach the “End” bubble.
Start
Obtain Minimum Required Inverter (pure sine wave, 300 watt continuous, peak/surge 500W)
Recharge Battery Daily?
Yes
Yes
No
Stellar?
No
S9?
No (Device Only)
Obtain Appropriate Converter for Device
Yes
Contact HME Provider for Treatment Pressure
No
Yes Locate Appropriate Inverter Battery Table for Device (pages 9-10)
Identify Battery Size in AH Based on Your Treatment Pressure
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Using Converter or Inverter?
Converter
Obtain Minimum Required Inverter (modified sine wave, 150 watt)
Treatment Pressure Known?
Contact HME or Battery Provider for Assistance
Yes
Inverter
Device AND Humidifier?
No
No
Treatment Pressure Known?
Yes Locate Appropriate Converter Battery Table for Device (pages 6-8)
Contact HME Provider for Treatment Pressure
End
Identify Battery Size in AH Based on Your Treatment Pressure
14