7ETO-100 Ethylene Oxide Gas Sensor For Medical Device Sterilization Pharmaceutical Manufacturing

Name: 7ETO-100 Ethylene Oxide Gas Sensor For Medical Device Sterilization Pharmaceutical Manufacturing
Brand: ShenzhenYijiajie Electronic Co., Ltd.
SKU: 7eto-100
Price: 18.00 USD
Availability: InStock

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7ETO-100 Ethylene Oxide Gas Sensor For Medical Device Sterilization Pharmaceutical Manufacturing

Grande immagine : 7ETO-100 Ethylene Oxide Gas Sensor For Medical Device Sterilization Pharmaceutical Manufacturing

Dettagli:

Luogo di origine:	Cn
Numero di modello:	7eto-100

Termini di pagamento e spedizione:

Quantità di ordine minimo:	1pcs
Prezzo:	Negoziabile
Imballaggi particolari:	Imballaggio standard
Tempi di consegna:	5-8 giorni di lavoro
Termini di pagamento:	L/C, D/A, D/P, T/T, Western Union, MoneyGram
Capacità di alimentazione:	5000pcs

Contatto

7ETO-100 Ethylene Oxide Gas Sensor For Medical Device Sterilization Pharmaceutical Manufacturing

descrizione

Risoluzione:	≤ 1 ppm	Tempo di risposta (T90):	≤ 30 secondi
Tempo di recupero (T10):	≤ 60 secondi	Temperatura operativa:	-10 ° C a +50 ° C.
Umidità operativa:	15% ~ 90% RH	Pressione atmosferica:	86~106 kPa
Evidenziare:	ethylene oxide gas sensor medical sterilization , gas sensor pharmaceutical manufacturing , 7ETO-100 ethylene oxide sensor

7ETO-100 Ethylene Oxide Gas Sensor For Medical Device Sterilization Pharmaceutical Manufacturing

The 7ETO-100 operates on the electrochemical detection principle, leveraging a three-electrode cell immersed in an electrolyte solution:

Gas Diffusion: Ethylene oxide gas in the environment diffuses through a porous membrane (gas-permeable membrane) into the sensor’s internal electrolyte.
Electrochemical Reaction: At the working electrode (cathode), ETO undergoes oxidation, producing electrons, protons (H⁺), and harmless byproducts (e.g., CO₂, H₂O).
Current Generation: The electrons generated by the oxidation reaction flow through an external circuit to the counter electrode (anode), creating a measurable electrical current. The magnitude of this current is linearly proportional to the concentration of ETO in the sample gas (per Faraday’s Law of Electrolysis).
Stability Maintenance: The reference electrode provides a stable voltage reference, preventing drift in the working electrode’s potential and ensuring long-term measurement accuracy.

4. Typical Applications

The 7ETO-100 is engineered for scenarios requiring ETO monitoring, with core use cases including:

4.1 Medical Sterilization Industry

Ethylene oxide is widely used to sterilize heat-sensitive medical devices (e.g., surgical instruments, syringes, implants). The 7ETO-100 is integrated into:

Sterilization Chamber Monitors: Real-time tracking of ETO concentration during the sterilization cycle to ensure effective microbial inactivation.
Post-Sterilization Ventilation Systems: Detection of residual ETO in sterilized equipment or exhaust air, ensuring levels meet safety standards (e.g., ≤ 1 ppm for personnel exposure) before devices are used or air is released.

4.2 Chemical & Pharmaceutical Manufacturing

In facilities producing ETO or using ETO as a raw material (e.g., for ethylene glycol synthesis, detergent production):

Fixed-Point Leak Detectors: Installation near pipelines, valves, or reaction vessels to trigger alarms if ETO leaks occur (preventing toxic exposure or fire risks).
Process Control Systems: Monitoring ETO concentration in reaction streams to optimize production efficiency and ensure product quality.

4.3 Environmental & Occupational Safety

Portable Gas Detectors: Used by maintenance workers, laboratory staff, or emergency responders to monitor personal exposure to ETO in confined spaces (e.g., sterilization rooms, chemical storage areas) or during leak investigations.
Indoor Air Quality (IAQ) Monitors: In facilities where ETO may accumulate (e.g., hospitals, pharmaceutical plants), the sensor ensures indoor ETO levels comply with occupational health regulations (e.g., OSHA’s permissible exposure limit (PEL) for ETO: 1 ppm over an 8-hour workday).

4.4 Food Processing (Optional)

In some food sterilization applications (e.g., low-temperature sterilization of packaged foods), the 7ETO-100 monitors residual ETO to ensure food safety and compliance with global food standards.

5. Installation & Operation Guidelines

5.1 Installation Notes

Location: Mount the sensor in areas where ETO is likely to accumulate (e.g., near sterilization chambers, ETO storage tanks) or where personnel frequent. Avoid direct sunlight, extreme temperatures, or high-humidity (condensing) environments.
Gas Inlet: For diffusion-type sensors, ensure unobstructed air flow around the sensor (minimum 5 cm clearance from walls/obstacles). For pump-type sensors, connect the gas inlet tube to the sampling point (tube length ≤ 2 meters to avoid response delay).
Wiring: Follow the sensor’s pinout diagram (provided in the datasheet) for power and signal connections. Use shielded cables for analog signals to reduce electromagnetic interference (EMI).

5.2 Calibration

Initial Calibration: Perform a two-point calibration (zero calibration with clean air, span calibration with a known ETO concentration gas) before first use.
Routine Calibration: Recalibrate every 3–6 months (or as required by local regulations) to maintain accuracy. Calibration gas should be certified (NIST-traceable or equivalent) with a concentration close to the sensor’s full scale (e.g., 80 ppm for a 0–100 ppm sensor).

5.3 Maintenance

Cleaning: Periodically wipe the sensor’s exterior with a dry, lint-free cloth. Do not use solvents or water on the gas inlet membrane.
Replacement: Replace the sensor if: (1) response time exceeds 60 seconds, (2) accuracy deviates by >10% of FS after calibration, or (3) the sensor reaches its rated lifespan.

6. Safety Precautions

Toxic Gas Risk: Ethylene oxide is toxic and carcinogenic—always wear appropriate PPE (e.g., gas mask, gloves) when handling ETO or performing sensor maintenance in potentially contaminated areas.
Flammability: ETO is flammable (explosion limit: 3%–100% by volume in air)—avoid installing the sensor near open flames, sparks, or high-temperature surfaces.
Sensor Handling: Do not disassemble the sensor (risk of electrolyte leakage, which may cause skin irritation). Dispose of old sensors in accordance with local hazardous waste regulations.

Parameter Category	Parameter Name	Specification	Unit	Remarks
Target Gas & Sensing Principle	Target Gas	Ethylene Oxide (EO/ETO)	-	Specialized for EO detection; not compatible with other toxic gases
	Sensing Principle	Electrochemical (Three-electrode Structure: Working/Counter/Reference Electrodes)	-	Ensures high selectivity and low signal drift
Measurement Performance	Detection Range	0 ~ 100	ppm	Custom ranges (0~50 ppm, 0~200 ppm) available upon request
	Resolution	≤ 0.1	ppm	Minimum detectable concentration change
	Accuracy	±5% FS (Full Scale) or ±2 ppm, whichever is larger	-	Tested under standard conditions (25℃, 1 atm, 50% RH)
	Response Time (T90)	≤ 30	Seconds	Time to reach 90% of stable output signal
	Recovery Time (T10)	≤ 60	Seconds	Time to drop to 10% of stable output signal
Electrical Characteristics	Power Supply Voltage	5.0 ± 0.2	V (DC)	Regulated power required; avoid overvoltage
	Operating Current	≤ 50	mA	Typical value during continuous operation
	Output Signal Type	Option 1: Analog (4 ~ 20 mA DC); Option 2: Analog (0 ~ 5 V DC); Option 3: Digital (UART/I2C)	-	Select output type when ordering
	Signal Linearity	≥ 99%	-	Factory-calibrated; no external linearization needed
Environmental Adaptability	Operating Temperature Range	-10 ~ 50	℃	Avoid condensation or extreme temperature fluctuations
	Storage Temperature Range	-20 ~ 60	℃	Store in dry, dust-free environment
	Operating Humidity Range	15 ~ 90	% RH	Non-condensing; humidity >90% RH may affect accuracy
	Atmospheric Pressure Range	86 ~ 106	kPa	Suitable for most low-altitude industrial/medical sites
Mechanical & Physical Specs	Housing Material	Option 1: ABS Plastic (Standard); Option 2: 316L Stainless Steel (Harsh Environment)	-	Stainless steel option resists corrosion
	Gas Intake Mode	Option 1: Diffusion (Passive); Option 2: Pump-driven (Active)	-	Diffusion for general use; pump-driven for long-distance sampling
	Overall Dimensions (L×W×H)	45 × 30 × 20 (ABS version); 50 × 35 × 25 (Stainless Steel version)	mm	Excludes connector/probe; refer to 2D drawing for exact size
	Weight	≤ 30 (ABS version); ≤ 80 (Stainless Steel version)	g	Net weight (excluding cables/fittings)
Lifespan & Maintenance	Typical Operational Lifespan	≥ 2	Years	Under continuous operation in clean air (EO concentration < 1 ppm); lifespan shortens in high-concentration EO
	Calibration Interval	3 ~ 6	Months	Recommended for maintaining accuracy; use NIST-traceable EO calibration gas

7ETO-100 Ethylene Oxide Gas Sensor For Medical Device Sterilization Pharmaceutical Manufacturing 0

Prodotto Tag:

Persona di contatto: Miss. Xu

Telefono: 86+13352990255

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