BiPAP

Medical equipment rental, medical equipment rental shop & medical equipment rental supplies

BiPAP rental

We offer rental BiPAP and CPAP machines at competitive rates of 3500 Rs and 3000 Rs per month, respectively. Our selection includes popular brands like ResMed, Philips, and Nisco med, with modes like S, ST, T, V, Auto, and APAP. Accessories include NIV Mask Vented & Hose. For more details, contact us.

Product Description

BiPAP rental and medical equipment rental cost in Bangalore by leading medical equipment suppliers

If you need a bipap rental, look no further we are here to help you with the best rates. Call us for medical equipment rental and bipap rental, avoids losing value since medical equipment have low resale value & high depreciation. Enjoy an easy therapy experience with a rented BiPAP, knowing a technician is always available for support. We are the right medical equipment suppliers in Bangalore to choose from.

BiPAP rental for all modes per month Rs 4500 with humidifier

Auto BiPAP machine Rs 4000

Invasive trachea ventilation rent Rs 8000 per month

Accessories: BiPAP mask & Hose pipe

BiPAP rental in Bangalore
BiPAP rent in Bangalore

Medical equipment rental type BiPAP

Modes: S, ST, T, V & Auto.

Brands: ResMed, Philips, Nisco med

Accessories: NIV Mask Vented & Hose

BiPAP filter for ResMed

Medical equipment suppliers rent 3500 Rs rent per month.

Modes: Auto & APAP

Brands: ResMed, Philips, Nisco med

Accessories: NIV Mask Vented & Hose

CPAP filter for ResMed

Medical equipment suppliers rent: bipap rental 3000 Rs rent per month

medical equipment

Why BiPAP machine for rent is a good choice?

BiPAP rental is the best choice for short-term recovery. Many patients won’t need a BiPAP machine after recovery, so renting is cost-effective. For example, a one-month rental is only Rs 3500, much less than the Rs 85000 cost of buying.

ISO-Certified Equipment Maintenance: Our rental machines adhere to ISO standards, ensuring top-notch BiPAP machine rent in Bangalore.

Rigorous Disinfection Protocols: Rest easy knowing our bipap rental machines are thoroughly disinfected for your safety.

Cutting-Edge BiPAP Rentals: Access the latest BiPAP machines available for rent.

Patient-Centric Support: Phone and video call support to help patients by medical equipment suppliers

Data Retrieval Assistance: We help you retrieve vital data post-usage for better monitoring.

Local Language Support: Communicate comfortably in Kannada, Tamil, Telugu, Hindi, or Malayalam.

Affordable Rates: BiPAP rental starts from just 100 Rs per day.

Comprehensive Respiratory Care: We give end-to-end respiratory care solutions.

Popular Bands:

Resmed

Lowenstein

Nidek

Oxymed

Ventmed

BiPAP machines come in various types, each offering different modes to cater to specific patient needs.

The most common modes include ST, S, V, SV, and Auto. For instance, the ST (Spontaneous/Timed) mode is often recommended for patients with lung issues.

This mode delivers breaths both spontaneously and at timed intervals, ensuring adequate ventilation. However, it will not be suitable for everyone, so it should only be used based on medical advice.

On the other hand, the S (Spontaneous) mode provides mandatory breaths if the patient’s breathing pauses due to obstructive sleep apnea (OSA) or central sleep apnea (CSA), helping in maintaining proper ventilation.

Moreover, the V (Volume) mode is designed to deliver a set volume of air per breath, ensuring that the patient receives the correct amount of air.

In contrast, the Auto BiPAP mode adjusts breath delivery within a preset range, based on the patient’s needs. To achieve optimal performance and comfort, using the right mask and accessories is crucial.

It is advisable to select BiPAP masks, hoses, and machines from the same vendor during bipap rental period.

This choice ensures a proper fit and effective BiPAP pressure delivery. Masks are available in Small, Medium, and Large sizes, which are based on the nasal bridge rather than face size.

Additionally, they are categorized as Full Face Masks, Nasal Masks, and Nasal Pillow Masks, allowing for customization based on individual needs and preferences.PChanging the modes on a BiPAP machine is not straightforward; it requires entering the clinical menu to adjust settings hence please contact your medical equipment suppliers.

You can access this menu by pressing and holding two buttons together. On most BiPAP machines, you press and hold down the HOME and Volume keys together for 12 seconds to enter the clinical menu.

Once inside, you’ll find options to switch between modes ST, S, V, AVAPS, AUTO, and CPAP, among others. Additionally, you can control the humidification settings here. For instance, you can adjust the heat delivered by the humidifier from 0 to 7 on most models.

The clinical menu allows to set the ramp settings, which control how pressure increases over a chosen period.

The most important settings in a clinical menu is IPAP (Inspiratory Positive Airway Pressure) and EPAP (Expiratory Positive Airway Pressure). IPAP determines the pressure the machine provides when you inhale, while EPAP controls the pressure maintained during exhalation.

By understanding and configuring these BiPAP settings, you can significantly enhance the effectiveness and comfort of your BiPAP therapy.

Units: cm H2O and hPa (1 cm H2O = 0.98 hPa)

Power Supply:

90W power supply unit

AC input: 100–240V, 50–60Hz, 1.0–1.5A, Class II

Aircraft input: 115V, 400Hz, 1.5A, Class II (nominal)

DC output: 24V, 3.75A

Typical power consumption: 53W (57VA)

Peak power consumption: 104W (108VA)

Operating temperature: +5°C to +35°C

Device air flow can be higher than room temperature.

Remains safe up to 40°C ambient temperature.

Operating humidity: 10 to 95% relative humidity, non-condensing

Operating altitude: Sea level to 2,591 m (air pressure range: 1013 hPa to 738 hPa)

Storage/Transport Temperature: -20°C to +60°C

Storage/Transport humidity: 5 to 95% relative humidity, non-condensing

Complies with IEC 60601-1-2:2014 for residential, commercial, and light industry environments.

Keep mobile communication devices at least 1 m away from the device.

Classification:

EN60601-1:2006/A1:2013, Class II (double insulation), Type BF, Ingress protection IP22.

Internal, 0 to 40 cm H2O (0 to 40 hPa), analog gauge pressure type.

Pressure sensor:

Flow sensor:

Internal, -70 to +180 L/min, digital mass flow type.

Device shuts down if steady pressure exceeds:

30 cm H2O (30 hPa) for more than 6 seconds.

40 cm H2O (40 hPa) for more than 1 second.

SlimLine tubing:

Pressure: 25 dBA (± 2 dBA uncertainty)

Power: 33 dBA (± 2 dBA uncertainty)

Standard tubing:

Pressure: 25 dBA (± 2 dBA uncertainty)

Power: 33 dBA (± 2 dBA uncertainty)

With humidification:

Pressure: 27 dBA (± 2 dBA uncertainty)

Power: 35 dBA (± 2 dBA uncertainty)

Dimensions: 116 mm (H) x 255 mm (W) x 150 mm (D)

Weight: 1248 g (with cleanable humidifier)

Air outlet: 22 mm (ISO 5356-1:2015 compliant)

Housing: Flame-retardant engineering thermoplastic

Water capacity: 380 mL (maximum fill line)

Humidifier material: Injection-molded plastic, stainless steel, silicone seal

Maximum heater plate temperature: 68°C

Cut-out temperature: 74°C

Maximum gas temperature: ≤ 41°C

Standard filter: Polyester non-woven fiber, >75% efficiency for ~7 micron dust

Hypoallergenic filter: Acrylic and polypropylene fibers, >98% efficiency for ~7-8 micron dust, >80% efficiency for ~0.5 micron dust

Complies with FAA requirements (RTCA/DO-160, section 21, category M) for air travel.

Technology used: 4G, 3G, 2G

Device should be at least 2 cm from the body during operation (except for masks, tubes, or accessories).

Mask pressure: 2–25 cm H2O (2–25 hPa), resolution 0.1 cm H2O

Flow-derived values:

Leak: 0–120 L/min, resolution 1 L/min

Tidal volume: 0–4000 mL, resolution 1 mL

Respiratory rate: 0–50 BPM, resolution 1 BPM

Minute ventilation: 0–30 L/min, resolution 0.1 L/min

Ti: 0.1–4.0 sec, resolution 0.1 sec

I:E ratio: 1:100 – 2:1, resolution 0.1

Pressure measurement: Mask pressure ±[0.5 cm H2O (0.5 hPa) + 4% of measured value]

Flow and flow-derived values:

Flow: ±6 L/min or 10% of reading (whichever is greater) for 0 to 150 L/min

Leak: ±12 L/min or 20% of reading (whichever is greater) for 0 to 60 L/min

Tidal volume: ±20%

Respiratory rate: ±1.0 BPM

Minute ventilation: ±20%

Time: ±10 ms

Flow: ±1.5 L/min or ±2.7% of reading

Volume (< 100 mL): ±5 mL or 6% of reading

Volume (≥ 100 mL): ±20 mL or 3% of reading

Static pressure: ±0.15 cm H2O (hPa)

Dynamic pressure: ±0.27 cm H2O (hPa)

Power Supply

90W unit

AC input range: 100–240V, 50–60Hz, 1.0–1.5A, Class II

AC input for aircraft use: 115V, 400Hz, 1.5A, Class II

DC output: 24V, 3.75A

Typical power usage: 53W (57VA)

Peak power consumption: 104W (108VA)

Pressure Sensor at Air Outlet

Mask pressure: 2–25 cm H2O (2–25 hPa)

Display resolution: 0.1 cm H2O (0.1 hPa)

Flow-Derived Values

Leak: 0–120 L/min, resolution: 1 L/min

Tidal volume: 0–4000 mL, resolution: 1 mL

Respiratory rate: 0–50 breaths per minute (BPM), resolution: 1 BPM

Minute ventilation: 0–30 L/min, resolution: 0.1 L/min

Inspiratory time (Ti): 0.1–4.0 sec, resolution: 0.1 sec

I:E ratio (inspiration/expiration): 1:100 to 2:1, resolution: 0.1

Measurement Accuracy

Mask pressure: ±[0.5 cm H2O (0.5 hPa) + 4% of measured value]

Flow: ±6 L/min or 10% of reading, whichever is greater, at 0 to 150 L/min

Leak: ±12 L/min or 20% of reading, 0–60 L/min

Tidal volume: ±20%

Respiratory rate: ±1 BPM

Minute ventilation: ±20%

Results expressed at STPD (Standard Temperature and Pressure, Dry)

Measurement System Uncertainties (per ISO 80601-2-70:2015)

Flow measures: ±1.5 L/min or ±2.7%

Volume (<100 mL): ±5 mL or 6%

Volume (≥100 mL): ±20 mL or 3%

Pressure measures: ±0.15 cm H2O (0.15 hPa)

Time measures: ±10 milliseconds

Pressure Accuracy

Maximum static variation at 10 cm H2O: ±0.5 cm H2O

Consistent with or without humidification

Environmental Conditions

Operating temperature: +5°C to +35°C

Operating humidity: 10% to 95% relative humidity, non-condensing

Operating altitude: Sea level to 8,500 feet (2,591 m)

Storage temperature: -20°C to +60°C

Storage humidity: 5% to 95% relative humidity, non-condensing

Electromagnetic Compatibility

Compliant with IEC 60601-1-2:2014 standards

Recommended to keep mobile communication devices at least 1 m away

Classification (per EN60601-1:2006/A1:2013)

Class II (double insulation), Type BF

Ingress protection rating: IP22

Sensors

Pressure sensor: Internally located at outlet, 0–40 cm H2O range

Flow sensor: Located at inlet, -70 to +180 L/min range

Sound Levels (per ISO 80601-2-70:2015)

SlimLine air tubing: 25 dBA (±2 dBA)

Standard tubing: 25 dBA (±2 dBA)

With humidification: 27 dBA (±2 dBA)

Physical Dimensions

Device with humidifier: 116 mm (H) x 255 mm (W) x 150 mm (D)

Weight: 1268 g (device and humidifier)

Water Reservoir

Maximum fill line: 380 mL

Filters

Standard: Polyester non-woven fibre, 75% arrestance for ~7-micron dust

Hypoallergenic: Acrylic and polypropylene fibres, 98% efficiency for ~7-8 micron dust

Aircraft Compliance

Meets FAA requirements for air travel

Wireless Module

Technology: 2G, 3G, 4G (LTE)

Pressure Accuracy for Bilevel Modes

Inspiratory and expiratory pressure accuracy varies based on breath rates and tubing type (Standard or SlimLine)

Flow and Compliance Characteristics

Resistance and compliance of tubing vary based on flow and tubing type (Standard, SlimLine, ClimateLineAir)

Philips Dream station: Available for BiPAP rental

Specifications:

Environmental:

Operating Temperature: 5° to 35° C (41° to 95° F)

Storage Temperature: -20° to 60° C (-4° to 140° F)

Relative Humidity (operating & storage): 15 to 95% (non-condensing)

Atmospheric Pressure: 101 to 77 kPa (0 – 2286 m / 0 – 7500 ft)

Physical:

Dimensions: 15.7 x 19.3 x 8.4 cm (6.2” L x 7.6” W x 3.3” H)

Weight (Device with power supply): Approximately 1.33 kg (2.94 lbs)

Service Life:

The expected service life of the DreamStation Therapy Device and Link Module is 5 years.

Standards Compliance:

IEC 60601-1: General Requirements for Basic Safety and Essential Performance of Medical Electrical Equipment

ISO 80601-2-70: Sleep Apnea Breathing Therapy Equipment

ISO 80601-2-74: Medical Electrical Equipment – Part 2-74: Particular Requirements for Basic Safety and Essential Performance of respiratory humidifying equipment

EN 60601-1-2: Electromagnetic Compatibility

RTCA/DO-160G section 21, category M: Emission of Radio Frequency Energy

IEC 60601-1 Classification:

Type of Protection Against Electric Shock: Class II Equipment

Degree of Protection Against Electric Shock: Type BF Applied Part

Degree of Protection Against Ingress of Water: IP22 (Device, Link Module, and 80W power supply are drip-proof)

Mode of Operation: Continuous

Electrical:

AC Power Consumption (with 80W power supply): 100 – 240 VAC, 50/60 Hz, 2.0-1.0 A

DC Power Consumption: 12 VDC, 6.67 A

Fuses: No user-replaceable fuses

Radio Specifications:

Operating Frequency Range: 2402 – 2480 MHz

Maximum Output Power: <10 dBm

Modulation: GFSK, P/4 DQPSK, 8DQPSK

Intake Port Filters:

Pollen Filter: 100% Polyester, 88% Efficient @ 7-10 micron size

Ultra-fine Filter: Blended Synthetic Fiber, 95% Efficient @ 0.5-0.7 micron size

Declared Dual-Number Noise Emissions Values (ISO 4871):

A-weighted sound pressure level:

Device: 27 dB(A) with an uncertainty of 2 dB

Device with Humidifier: 29 dB(A) with an uncertainty of 2 dB

A-weighted sound power level:

Device: 35 dB(A) with an uncertainty of 2 dB

Device with Humidifier: 37 dB(A) with an uncertainty of 2 dB

Noise test code as per ISO 80601-2-70:2015, ISO 3744, and ISO 4871

Pressure Accuracy:

Pressure Increments: 4.0 to 20.0 cm H2O (in 0.5 cm H2O increments)

Maximum static pressure accuracy (ISO 80601-2-70:2015):

10 cm H2O ± 0.5 cm H2O (± 1.0 cm H2O with 12 mm standard tubes)

Measurement uncertainty: 3.7%

Dynamic Pressure Accuracy:

Maximum dynamic pressure variation (ISO 80601-2-70:2015):

Pressure (10 BPM, 15 BPM, 20 BPM):

<10 cm H2O: ± 0.4, ± 0.5, ± 0.8 cm H2O

≥10.0 to 20 cm H2O: ± 0.5, ± 0.8, ± 1.0 cm H2O

Measurement uncertainty: 4.3%

Maximum Flow Rate (typical):

Test pressures (cm H2O):

4.0 | 8.0 | 12.0 | 16.0 | 20.0

22 mm tubing:

Measured pressure at the patient connection port (cm H2O): 3.7 | 7.7 | 11.2 | 14.9 | 18.9

Average flow at the patient connection port (l/min): 85 | 124 | 131 | 132 | 128

15 mm tubing (heated or non-heated):

Measured pressure at the patient connection port (cm H2O): 3.7 | 7.4 | 10.9 | 14.9 | 18.8

Average flow at the patient connection port (l/min): 86 | 127 | 134 | 133 | 117

12 mm tubing:

Measured pressure at the patient connection port (cm H2O): 4.0 | 7.0 | 11.0 | 15.0 | 19.0

Average flow at the patient connection port (l/min): 85 | 95 | 94 | 100 | 102

Tubing Specifications:

12 mm performance tubing (PR12):

Tubing resistance: @30 l/min: 0.03 hPa/l/min (cm H2O/l/min)

Tubing compliance (@ 60 hPa): 0.44 ml/hPa (ml/cm H2O)

15 mm performance tubing (PR15):

Tubing resistance: @15 l/min: 0.006 hPa/l/min | @30 l/min: 0.01 hPa/l/min

Tubing compliance (@ 60 hPa): 0.52 ml/hPa (ml/cm H2O)

22 mm performance tubing:

Tubing resistance: @15 l/min: 0.00 hPa/l/min | @30 l/min: 0.003 hPa/l/min

Tubing compliance (@ 60 hPa): 0.73 ml/hPa (ml/cm H2O)

Cleaning and Disinfection Guidelines

WARNINGS!

Regular cleaning of the device and its accessories is crucial to prevent respiratory infections.

Always unplug the device before cleaning to avoid electric shock.

Use mild, non-toxic soap for cleaning.

Follow manufacturer instructions for cleaning the mask and tubing, including the frequency of cleaning.

Ensure the device is disconnected from power, and the water chamber and heating plate have cooled to room temperature to avoid burns.

Do not open or modify the device, as there are no user-serviceable parts inside. Only authorized service agents should perform repairs.

Never service or maintain the device while it’s in use by a patient.

CAUTIONS!

Overheating may shorten the lifespan of materials.

Avoid using cleaning solutions containing chlorinated lime, chlorine, or aromatic agents, as they may harden materials or reduce their lifespan. Do not use soaps containing moisturizing agents or antimicrobials.

Avoid cleaning or drying the device and its accessories in temperatures above 80°C (176°F) as this will reduce product life.

Never immerse the device in any fluids.


1. Cleaning the Mask and Headgear
Refer to the user manual for specific mask-cleaning instructions.

2. Cleaning the SpO2 Kit
Refer to the user manual for instructions on cleaning the SpO2 Kit.

3. Cleaning the Water Chamber

Open the water chamber as illustrated.

Clean the water chamber with a soft cloth that will not scratch it. If needed, dip the cloth in mild soap, then rinse thoroughly and wipe dry.

Follow instructions to reassemble the water chamber.

WARNINGS!

Daily emptying and cleaning of the water chamber helps prevent mold and bacteria growth.

Allow the water chamber to cool before removing it from the device.

CAUTIONS!

Ensure the water chamber is completely cool before cleaning. Avoid letting water enter the device.

Rinse thoroughly after cleaning to prevent soap residue buildup, then wipe it dry with a lint-free cloth.

Inspect the water chamber regularly for leaks or damage. Replace if necessary.

Daily cleaning of the water chamber is recommended.

Cleaning the Transfer Box

Remove the water chamber first, then remove the transfer box.

Rinse the transfer box with clean water or clean it with a soft cloth. Rinse thoroughly and dry with a soft cloth.

Reinstall the transfer box.

CAUTION!

Clean the transfer box weekly.

5. Cleaning the Device Enclosure

Wipe the device’s surface with a soft, slightly damp cloth.

CAUTIONS!

Ensure the enclosure is dry before using the device again to prevent moisture from entering.

Clean the enclosure weekly.

Cleaning the Tubing

Remove the tubing from both the device and mask.

Clean the tubing with warm water and a mild detergent, then rinse thoroughly.

Air-dry the tubing in a cool, well-ventilated area, avoiding direct sunlight. Ensure the tubing is completely dry before reuse.

CAUTION!

Clean the tubing weekly of bipap rental machine.

Replacing the Air Filter / PM2.5 Filter

Attach the air filter to the filter cap and install it in the device.

Replace the air filter with the PM2.5 filter as needed.

CAUTIONS!

Keep spare filters away from direct sunlight, humidity, and freezing temperatures.

Replace the air filter or PM2.5 filter every six months, or more frequently depending on sanitary conditions.

Using a dirty air filter may hinder device performance or cause damage.


Disinfection Guidelines

If the cleaning instructions are followed diligently, disinfection of the device or water chamber is usually unnecessary. However, if the device becomes contaminated or is used in clinical trials, disinfectants can be purchased to sanitize the device.

Clean the water chamber of the BiPAP rental machine, following the instructions provided in the cleaning section.

For heat disinfection, soak the water chamber in water at 75°C ± 2°C for 30 minutes.

Mild disinfectants can also be used as per manufacturer instructions.

Disinfection of the SpO2 Probe:

Refer to the user manual for specific disinfection instructions for the SpO2 probe.

WARNINGS!

Thoroughly rinse disinfected components, especially those that come into direct contact with the patient (mask, headgear, tubing), to remove disinfectant residue. This prevents skin or respiratory irritation and allergic reactions.

Only recommended sterilization methods should be used for the device and its components.

To prevent cross-infection, a Breathing System Filter (BSF) certified to ISO 23328-1:2003 and ISO 23328-2:2002 standards can be used.

Always replace the BSF when using the device for different patients.

Monitor BSF resistance increase and blockage to ensure the device maintains normal pressure delivery.

CAUTIONS: Contact medical equipment suppliers

Disinfectants may damage materials and reduce their lifespan. Choose disinfectants carefully and follow the manufacturer’s guidelines.

After disinfection, inspect components for damage and replace any faulty parts immediately.


Traveling with the Device: Contact medical equipment suppliers

Use the provided carrying case to transport the device and accessories. Avoid checking them in your luggage.

The device is compatible with power supplies ranging from 100 – 240 V and 50 / 60 Hz, making it suitable for worldwide use. You may need a power socket adapter.

Bring spare air filters and necessary emergency documentation from your physician.

At security stations, the device is labeled as a medical device, which may help streamline the screening process. It’s helpful to carry this manual for reference.

CAUTIONS: Contact medical equipment suppliers

Always empty the water chamber before traveling to prevent water from entering the device.

Verify the device’s altitude setting when traveling to avoid incorrect airflow pressures.

If atmospheric pressure is outside the specified range, it may affect the accuracy of the leak alarm.


Transferring the Device to Another Patient: Contact medical equipment suppliers

Replace the mask, headgear, tubing, and air filter before transferring the device to another patient to prevent cross-infection.

Contraindications:

Clinicians should be aware that this device can deliver pressures up to 20 cmH2O, with a possible maximum of 40 cmH2O in certain fault conditions.

Studies indicate that the following pre-existing conditions may contraindicate CPAP therapy:

Bullous Lung Disease

Pathologically Low Blood Pressure

Bypassed Upper Airway

Pneumothorax

Pneumocephalus has been reported in patients using nasal Continuous Positive Airway Pressure (CPAP). Caution should be exercised for patients with the following conditions:

Cerebral Spinal Fluid (CSF) leaks

Abnormalities of the cribriform plate

History of head trauma

Pneumocephalus

The use of positive airway pressure therapy may be temporarily contraindicated if you show signs of:

Sinus infection

Middle ear infection

This device is not for use with patients whose upper airways are bypassed.

Always contact your healthcare professional if you have questions about your therapy.

STOP:

Error data is saved in the non-volatile memory (NVRAM).

Device enters a “Safe State” where only limited functions are available (serial communication, turning off alarm, and powering down).

REBOOT:

Error information is logged in NVRAM, and the device automatically reboots.

Can be escalated to a STOP error if the “Verbose Mode” is enabled.

CONTINUE:

Error is logged in NVRAM, but the device continues functioning as normal.

Can also be escalated to a STOP error with the “Verbose Mode” setting.

LOG_ONLY:

Error is recorded in NVRAM, and the device operates without interruption.

Not escalated to a STOP error even in Verbose Mode.


E-1: Software issue causing a complete STOP.

E-3: Internal RAM error requiring reboot.

E-4: Null pointer error leads to reboot.

E-5: Data error requiring a reboot.

E-6: State machine issue leading to reboot.

E-7: Software-related error causing a reboot.


E-10: Watchdog RAM test failure—requires a reboot.

E-11: Watchdog test failure—triggers reboot.

E-12: Watchdog failure due to no card—requires reboot.

E-13: Watchdog failure related to SD card—reboot needed.

E-14: Low-resolution timer watchdog failure—requires reboot.

E-15: Cycle handler overrun—requires reboot.

E-16: Timeout during RASP restore—device continues operating.

E-17: Onems handler overrun—causes reboot.

E-19: Watchdog timeout—leads to reboot.


E-20: Low motor flux during spin-up—requires reboot.

E-21: High motor voltage (Vbus)—results in STOP.

E-22: Flux magnitude error in motor—causes reboot.

E-23: Motor overspeed—triggers reboot.

E-24: Reverse motor speed—leads to reboot.

E-25: Open thermistor in motor—device continues.

E-26: Shorted thermistor in motor—device continues.

E-27: Motor RL not converging—results in STOP.

E-28: Negative quadrature voltage—causes reboot.

E-29: Vbus gain set to zero—reboot required.

E-30: High motor flux during spin-up—triggers reboot.


E-40: NVRAM error—reboot needed.

E-41: Storage unit RAM failure—requires reboot.

E-42: Unable to obtain bus—results in reboot.

E-43: No callback occurred for NVRAM—requires a reboot.

E-44 to E-47: Various NVRAM buffer and callback issues—require reboot.


E-50: Corrupt daily values—logged only.

E-51: Corrupt compliance log—device continues operating.

E-52: Compliance callback error—device continues.

E-53: Compliance log request overflow—requires reboot.

E-54: Therapy queue full—device continues.

E-56 to E-58: Various compliance log and session errors—reboot required.


E-60: Unsupported hardware—reboot required.

E-61: PLL unlocked—causes reboot.

E-62: Stuck ramp key—device continues.

E-63: Stuck knob key—device continues.

E-64: PWM overtime—causes reboot.

E-65 & E-66: Stuck encoder issues—device continues.


E-70: Pressure sensor missing—results in STOP.

E-72: Unable to obtain bus for pressure sensor—reboot required.

E-73: Pressure sensor offset error—leads to STOP.


E-80: Unable to initialize flow sensor—causes reboot.

E-81: Flow sensor table error—device continues.

E-82: Flow sensor offset—device continues.

E-83: Unable to obtain bus for flow sensor—reboot required. Second failure escalates to STOP.

E-84: Flow sensor stopped—results in STOP.

E-85: Flow sensor occluded—device continues.

E-86 & E-87: Flow sensor issues—device continues.


E-90 & E-91: OTP not configured or misconfigured—results in STOP.

E-93: RTC value error—device continues.

E-94: RTC stopped—device continues.


E-100: No heat from humidifier—device continues.

E-101: Humidifier temperature too high—leads to STOP.

E-102 to E-105: Various thermistor and communication errors—device continues.


E-110 to E-125: Various stack overflow, underflow, and exception handling errors—reboot required.

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