Features
* oxygen pressure range 2 mbar - 3bar
* zirconium dioxide (zro2) sensing elements
* non-consumption technology
* integral heating element
* no need for temperature stabilisation
* no reference gas required
* high accuracy
* linear output signal
* operates with external interface boards
* m18x1.5 screw mount
Specifications
Heater voltage* 4.35v dc +/- 0.1v dc (1.85a)
Stand by 2v dc (0.85a)
Features
* oxygen pressure range 2 mbar - 3bar
* zirconium dioxide (zro2 ) sensing elements
* non-consumption technology
* integral heating element
* no need for temperature stabilisation
* no reference gas required
* high accuracy
* linear output signal
* operates with external interface boards
* 80mm, 220mm and 400mm probes available
Specifications
Heater supply*
Porous lid cap 4v dc +/- 0.1v dc (1.7a)
Stand by 1.65v dc (0.7a)
Full porous cap 4.35v dc +/- 0.1v dc (1.85a)
Stand by 2v dc (0.85a)
The Probe Range of zirconium dioxide oxygen sensors are available in three lengths. Suitable for aggressive and polluted applications such as boiler exhausts. Longer probes are an ideal solution for thicker walled, insulated flue pipes.
FEATURES
* Zirconium dioxide (ZrO2) sensing elements
* Long life, non-depleting technology
* Integral heating element
* High accuracy
* Requires an external interface board to operate
BENEFITS
* No reference gas required
* No need for temperature stabilisation
* Compact enclosure
OUTPUT VALUES
Oxygen pressure range 2mbar ~ 3bar max
Accuracy 5mbar max
Internal operational temperature 700'C
Response time (10 - 90% step)
Standard response sensor < 15s
Fast response sensor < 4s
Warm up time (prior to sensor operation) 60s
Warm up time (from standby) 20s
Output stabilisation time ~ 180s
Features
* oxygen pressure range 2 mbar - 3bar
* zirconium dioxide (zro2 ) sensing elements
* non-consumption technology
* integral heating element
* no need for temperature stabilisation
* no reference gas required
* high accuracy
* linear output signal
* operates with external interface boards
Specifications
Heater voltage:
Porous cap (15mm): 4.35v dc +/- 0.1v dc (1.85a)
Stand by: 2v dc (0.85a)
Pump resistance @ 700'C: < 6kOhm
Permissible gas temperature: -100 to 250C
Gas flow rate: 0 to 10 m/s
Repetitive permissible acceleration: 5 g
Incidental permissible acceleration: 30 g
FEATURES
* Oxygen pressure range 2 mbar - 3bar
* Zirconium dioxide (ZrO2 ) sensing elements
* Non-consumption technology
* Integral heating element
* No need for temperature stabilisation
* No reference gas required
* High accuracy
* Linear output signal
* Operates with external interface boards
SPECIFICATIONS
Heater Voltage
Porous Cap (15mm) 4.35V DC ± 0.1V DC (1.85A)
Stand by 2V DC (0.85A)
Pump resistance @ 700'C < 6kâ?¦
Permissible gas temperature -100 to 250'C
Gas flow rate 0 to 10 m/s
Repetitive permissible acceleration 5 g
Incidental permissible acceleration 30 g
Features
* oxygen pressure range 2 mbar - 3bar
* zirconium dioxide (zro2 ) sensing elements
* non-consumption technology
* integral heating element
* no need for temperature stabilisation
* no reference gas required
* high accuracy
* linear output signal
* operates with external interface boards
* pcb mountable
Specifications
Heater supply*
Porous lid cap 4vdc +/- 0.1vdc (1.7a)
Stand by 1.65vdc (0.7a)
Full porous cap 4.35v dc +/- 0.1v dc (1.85a)
Stand by 2v dc (0.85a)
The miniature zirconium dioxide oxygen sensors can be pcb mounted and are used when measuring ambient gas with the complete sensor immersed in the atmosphere which is to be measured.
Features
* zirconium dioxide (zro2 ) sensing elements
* long life, non-depleting technology
* integral heating element
* high accuracy
* requires an external interface board to operate
Benefits
* no reference gas required
* no need for temperature stabilisation
* pcb mountable
Technical specifications
Heater voltage
Standard response sensor: 4v dc â± 0.1v dc (1.7a)
Standby: 1.65v dc (0.7a)
Fast response sensor: 4.35v dc â± 0.1v dc (1.85a)
Standby: 2v dc (0.85a)
Pump impedance at 700'c: < 6k
Permissible gas temperature: -100'c to +250'c
Gas flow rate : 0 - 10 m/s
Repetitive permissible acceleration: 5g
Incidental permissible acceleration: 30g
Output values
Oxygen pressure range: 2mbar - 3bar max
Accuracy: 5mbar max
Internal operational temperature: 700'c
Response time (10 - 90% step)
Standard response sensor:
Thank you for purchasing and using our company's ultrasonic oxygen concentration / flow sensor.
1, please carefully read the instructions and fully understand the contents of the sensor after operation and maintenance. Improper use may cause damage to the sensor. (no violent impact and falling ground)
2, without the consent of the company, it is strictly prohibited to alter the structure and components of the sensor without authorization. The company is not responsible for any personal safety incidents or sensor abnormalities caused by unauthorized alterations.
3, the specifications and instruction contents of this sensor may be changed due to the technical improvement of the product.
4, this instruction manual must be handed to the actual user of the sensor and stored in it, and placed at any time where the actual user of the sensor can access it.
5, the company has the right to interpret the instructions for the sensor.
2ã??technical parameter
Measurement parameters measuring method range Resolution accuracy
O2 Ultrasonic 20.5%-95.6% 0.1% �±1.8%FS 5-45â??
Note: the range can be customized according to customer requirements.
Sample gas requirements Water removal (no condensation); dust filtration (
The flange mount zirconium dioxide oxygen sensor is designed for easy sealing into a manifold or sampling chamber. Favoured by ssts aerospace customers and in applications that require high temperature and pressure operation.
O2s-fr-t4-4p flange zirconia o2 sensors features
Zirconium dioxide (zro2) sensing elements
Long life, non-depleting technology
Integral heating element
High accuracy
Requires an external interface board to operate
O2s-fr-t4-4p flange zirconia o2 sensors benefits
No reference gas required
No need for temperature stabilisation
Flange mounting
O2s-fr-t4-4p flange zirconia o2 sensors technical specifications
Heater voltage
Operating: 4.35vdc ± 0.1vdc (1.85a)
Standby: 2vdc (0.85a)
Pump impedance at 700'c: < 6k
Permissible gas temperature: -100'c to +400'c
Gas flow rate: 0 - 10 m/s
Repetitive permissible acceleration : 5g
Incidental permissible acceleration: 30g
O2s-fr-t4-4p flange zirconia o2 sensors output values
Oxygen pressure range: 2mbar - 3bar max
Accuracy: 5mbar max
Internal operational temp: 700'c
Response time (10 - 90% step): < 4s
Warm up time (prior to sensor operation): 60s
Warm up time (from standby): 20s
Output stabilisation time: ~ 180s
Performance
Output î¼a @ 20.9% o2 80 to 120
Response time t90 (s) from 20.9% to 0% o2 < 15
Zero current î¼a in n2 < 2.5
Linearity % o2 deviation @ 10% o2 0.6
Lifetime
Output drift % change in output @ 3 months < 1
Operating life months until 85% original output of 20.9% o2 > 24
Environmental
Humidity sensitivity % o2 change: 0% to 95% rh @ 40â?? < 0.7
Co sensitivity % (change o2 reading) / % co2 @ 5% co2 0.1
Pressure sensitivity (% change of output)/(% change of pressure) @ 20kpa < 0.1
Features
* zirconium dioxide (zro2) sensing elements
* long life, non-depleting technology
* integral heating element
* high accuracy
* requires an external interface board to operate
Benefits
* no reference gas required
* no need for temperature stabilisation
* two lengths available; 220mm and 400mm
Technical specifications
Heater voltage
Operating: 4v dc ± 0.1v dc (1.7a)
Standby: 1.65v dc (0.7a)
Pump impedance at 700'c: < 6k
Permissible gas temperature
Standard temperature: -100'c to +250'c
High temperature: -100'c to +400'c
Gas flow rate: 0 - 10 m/s
Repetitive permissible acceleration: 5g
Incidental permissible acceleration: 30g
Output values
Oxygen pressure range: 2mbar - 3bar max
Accuracy: 5 mbar max
Internal operational temperature: 700'c
Response time (10 - 90% step): < 15s
Warm up time (prior to sensor operation): 100s
Warm up time (from stand by): 20s
Output stabilisation time: ~ 180s
FEATURES
* Zirconium dioxide (ZrO2) sensing elements
* Long life, non-depleting technology
* Integral heating element
* High accuracy
* Requires an external interface board to operate
BENEFITS
* No reference gas required
* No need for temperature stabilisation
* Two lengths available; 220mm and 400mm
TECHNICAL SPECIFICATIONS
Heater voltage
Operating 4V DC ± 0.1V DC (1.7A)
Standby 1.65V DC (0.7A)
Pump impedance at 700'C < 6kohm
Permissible gas temperature
Standard temperature -100'C to +250'C
High temperature -100'C to +400'C
Gas flow rate 0 - 10 m/s
Repetitive permissible acceleration 5g
Incidental permissible acceleration 30g
OUTPUT VALUES
Oxygen pressure range 2mbar - 3bar max
Accuracy 5 mbar max
Internal operational temperature 700'C
Response time (10 - 90% step) < 15s
Warm up time (prior to sensor operation) 100s
Warm up time (from stand by) 20s
Output stabilisation time ~ 180s
Oxygen sensor o2 gas sensor for portable gas detector
Model number: o2-a2
Performance
Output µa @ 20.9% o2 80 to 120
Response time t90 (s) from 20.9% to 0% o2 < 15
Zero current µa in n2 < 2.5
Linearity % o2 deviation @ 10% o2 0.6
Lifetime
Output drift % change in output @ 3 months < 1
Operating life months until 85% original output of 20.9% o2 > 24
Environmental
Humidity sensitivity % o2 change: 0% to 95% rh @ 40°c < 0.7
Co2 sensitivity % (change o2 reading) / % co2 @ 5% co2 0.1
Pressure sensitivity (% change of output)/(% change of pressure) @ 20kpa < 0.1
Key specifications
Temperature range °c -30 to 55
Pressure range kpa 80 to 120
Humidity range % rh continuous (0 to 99% rh short term) 5 to 95
Storage period months @ 3 to 20°c (store in sealed pot, open circuit) 6
Load resistor o (recommended) 47 to 100
Diameter mm (including label) 20.0
Height mm (including foam ring) 17.4
Weight g < 16
1.General description
The luminox family (lox) is a range of factory calibrated oxygen sensors which measure ambient oxygen partial pressure (ppo2) levels using the principle of fluorescence quenching by oxygen.
By default luminox measures ppo2 (mbar) and temperature (°c). An optional pressure sensor enables luminox to also measure barometric pressure (mbar) and to convert the ppo2 reading to an oxygen concentration (o2%).
The sensor benefits from low power operation, traditionally associated with electrochemical sensors, while providing a much longer lifetime due to the non-depleting sensing principle.
Luminox is ppo2 and temperature compensated, enabling accurate operation over a wide environmental range without the need for additional system components. Unlike other sensor technologies, luminox is very stable and robust, does not contain lead or any other
Hazardous materials and has negligible cross sensitivity to other gases.
2.Cleaning
The housing of the sensor can be cleaned using a damp cloth. The sensor should not be immersed in any cleaning media.
Full application and technical support can be provided by our knowledgable and highly experienced engineering team if required.
3.Benefits
-low power
-can also measure o2% & barometric pressure (lox-02)
-suitable for battery power use
-long life
- high accuracy
- small & compact
- low cost
-maintenance free contains no hazardous materials
-connects directly to microcontroller
- without any additional circuitry.
- factory calibrated
4.Applications
-oxygen detection
-portable equipment
- breathing apparatus
- inerting
- medical
-lab equipment
- agriculture
-incubation
-fire prevention
- flue gas in condensing boilers
optical oxygen sensor O2 Gas sensor LOX-02
Description
The LuminOx Family is a range of factory calibrated optical sensors which measure ambient O2levels using the principle of fluorescence quenching by oxygen.
Our unique patented process allows us to produce an oxygen sensor that benefits from low power, traditionally associated with electrochemical sensing devices, while providing a much longer lifetime due to the non-depleting sensing principle.
Applications
Typical applications for the Cheap Price Oxygen Sensor LOX-02 are;
Oxygen detection
Portable equipment
Breathing apparatus
Inerting
Medical
Lab equipment
Agriculture
Incubation
Fore prevention
Flue gas in condensing boilers
Screw connection oxygen sensor ke-25f3
Model number: ke-25/ke-25f3
Features:
* long life - 2.5~10 years in ambient air
* virtually no influence from co2, co, h2s, nox, h2
* low cost
* operates in normal ambient temperatures
* stable output signal
* no external power supply required for sensor operation
* no warmup time is required
Applications:
* medical - anesthetic instruments, respirators, oxygen-enrichers
* biotechnology - oxygen incubators
* food industry - refrigeration, greenhouses
* safety - air conditioners, oxygen detectors, fire detectors020406080100120020406080100120output
Description
Gs oxygen sensor ke series (ke-12, ke-25, and ke-50) are unique galvanic cell type oxygen sensors developed in japan in 1985. Their most notable features are long life expectency, excellent chemical durability, and no influence by co2. Ke series oxygen sensors are ideal to meet the ever-increasing demand for oxygen monitoring in various fields such as combustion gas monitoring, the biochemical field, medical applications, domestic combustion appliances, etc.
KE-25 5 years long life
KE-50 10 years long ilfe
KE-25-F3 screw-thread type, 5 years long life
Description:
Based on the fuel cell and lead acid battery technologies(eletrochemical principle); The sensor life is very long(5 years and 10 years,depending on the environment); Measurement range by 0-100% O2;
Specifications:
1) range:0 ~ 100% O2
2) accuracy : KE-25 +/-1% FS; KE-50 +/-2% FS
3) temperature:5-40°C
4) response time:KE-25 14+/-2S; KE-50 60+/-5S
5) initial output voltage under standard test conditions:
KE-25 10-15.5mv ; KE-50 47 ~65mv
Features:
1) Long life :KE-25 - 5 years / KE-50 - 10 years in ambient air
2) Virtually no influence from CO2, CO, H2S, NOx, H2
3) Low cost; Stable output signal
4) Operates in normal ambient temperatures
5) No external power supply required for sensor operation
6) No warmup time is required
Applications:
Medical - Anesthetic instruments, respirators, oxygen-enrichers;
Biotechnology - Oxygen incubators;
Food industry - Refrigeration, greenhouses;
Safety - Air conditioners, oxygen detectors, fire detectors
