Greisinger OXY 3690 MP, OXY 3690 S MP User guide

T02.0.4X.6C-09
WEEE-Reg.-Nr. DE 93889386
Measuring transducer for air oxygen
OXY 3690 MP
as of version V1.3 operating manual
GREISINGER electronic GmbH
D - 93128 Regenstauf, Hans-Sachs-Straße 26
Tel.: +49 9402 / 9383-0, Fax: +49 9402 / 9383-33, eMail: info@greisinger.de
T02.0.4X.6C-09 page 2 of 6
Disposal notes
This device and the sensor must not be disposed as „residual waste‟. According to the ElektroG (law for bringing into market, the return and the environmentally friendly disposal
of electronic equipment) we accept the return of this device and/or the sensor, please send it directly
to us (adequately stamped). We will dispose it appropriately and environmentally friendly.
Safety instructions:
This device has been designed and tested in accordance with the safety regulations for electronic devices. However, its trouble-free operation and reliability cannot be guaranteed unless the standard safety measures and special safety advises given in this manual will be adhered to when using the device.
1. Trouble-free operation and reliability of the device can only be guaranteed if the device is not subjected to any other climatic conditions than those stated under "Specification". If the device is transported from a cold to a warm environ­ment condensation may cause in a failure of the function. In such a case make sure the device temperature has ad­justed to the ambient temperature before trying a new start-up.
2. General instructions and safety regulations for electric, light and heavy current plants, including domestic safety regu­lations (e.g. VDE), have to be observed.
3. If device is to be connected to other devices (e.g. via PC) the circuitry has to be designed most carefully. Internal con­nection in third party devices (e.g. connection GND and earth) may result in not-permissible voltages impairing or de­stroying the device or another device connected.
4. If there is a risk whatsoever involved in running it, the device has to be switched off immediately and to be marked accordingly to avoid re-starting. Operator safety may be a risk if:
- there is visible damage to the device
- the device is not working as specified
- the device has been stored under unsuitable conditions for a longer time.
In case of doubt, please return device to manufacturer for repair or maintenance.
5. This device only serves as supervision by the monitoring of essential or other for the customer important systems. It must not be used instead of compulsory approval monitoring devices and it is not designed for that purpose. If this device is used for the monitoring of such systems on its own, the manufacturer will not assume liability for damages whatsoever.
6. Caution, acid! The sensor contains KOH. This can cause severe chemical burns. If leaking, avoid contact!
If there was contact:
- to skin: Flush contacted area with large amounts of water for several minutes.
- to clothing: remove contaminated clothing.
- to eyes: Flush with large amounts of water for several minutes, obtain medical treatment.
After swallowing:
- give large volumes of water. DO NOT induce vomiting!
- Obtain medical treatment.
7. Warning: Do not use these product as safety or emergency stop devices, or in any other application where failure of the product could result in personal injury or material damage.
Failure to comply with these instructions could result in death or serious injury and material damage.
T02.0.4X.6C-09 page 3 of 6
display dissolved oxygen
display sensor temperature
display electrode rating
Display
Meaning
Possible fault causes
Remedy
CFE.1
temperature out of allowed range
temperature has to be within 5 to 40°C
calibrate again at correct tempera­ture
sensor error
temperature sensing defective
check cable & connection, replace sensor if necessary
CFE.3
wrong signal: to low
sensor element used up
replace sensor element
CFE.4
wrong signal: to high
calibration surrounding not valid
check Calibration surrounding
CFE.6
instable signal
calibration surrounding not valid
check Calibration surrounding
Assignment of elbow-type plug:
2-wire connection (4-20mA) 3-wire connection (voltage) 4-wire connection (voltage)
1 = supply voltage +Vs 1 = signal + 1 = signal + 2 = GND / signal 3 = supply voltage +Vs 2 = signal -
(4) = supply voltage -Vs 3 = supply voltage +Vs signal - (4) = supply voltage -Vs
General installation instructions:
To mount the connection cable (2-, 3-, or 4-wire depending on type of device) the elbow-type plug screw has to be loosened and the coupling insert has to be removed by means of a screw driver at the position indicated (arrow). Pull out connection cable through PG glanding and connect to the loose coupling insert as described in the wiring diagram. Replace loose coupling insert onto the pins at the transducer housing and turn cover cap with PG glanding in the direction desired till it snaps on (4 different starting positions at 90° intervals). Re-tighten the screw at the angle plug.
Display functions:
During normal operation the oxygen content of the air is displayed in the unit [%]. By pressing the Key 2 (down) the temperature at the sensor can be shown, pressing key 3 (up) shows the electrode rating in [%]. The electrode rating is calculated and stored during the calibration (see below). The displays of the rating and the temperature of the sensor are marked by small arrows at the upper end of the display. After 5 seconds the transducer display switches automatically back to the oxygen value.
Calibration of the sensor:
Expose sensor to the ambient air, wait until the temperature has adopted to the ambient conditions. Press key "SET" for 2 sec., The display shows "CAL". After approx. 10 sec‟s the transducer is calibrated or a referring error message will be shown:
During calibration the rating of the electrode is evaluated: 100% means perfect state, 40 % means e.g. sensor element has a weak output signal and needs to be replaced soon (p.r.t. sensor manual). The electrode rating can be displayed with key 3 (down).
T02.0.4X.6C-09 page 4 of 6
Display
Description
Possible fault cause
Remedy
FE 1
measuring range exceeded
Calibration is wrong
Recalibrate the transducer.
FE 2
Measuring values below measuring range
Wrong signal
Check the connections, cable and sen­sor.
FE 7
System fault
Error in device
Disconnect from supply and reconnect. If error remains: return to manufacturer
FE 9
Input signal is not valid
Sensor not connected or cable defective Temperature out of range
Check sensor, cable and connections Check temperature
8.8.8.8
Segment test
The transducer performs a display test for 2 seconds after power up. After that it will change to the display of the measuring.
Input signal is not valid Sensor not connected
Check sensor, cable and connections
Permissible input range is ex­ceeded
Check if not a wrong sensor is con­nected.
Replace sensor.
Altitude [m]
Pabs [mbar)
Altitude [m]
Pabs [mbar)
Altitude [m]
Pabs [mbar)
-100
1025 600
943 1600
835
0
1013 700
932 1800
814
100
1001 800
920 2000
794
200
989 900
909 2500
746
300
977 1000
898 3000
701
400
966 1200
877 4000
616
500
954 1400
856
Configuration of the device
For the correct function of the device in its application, it has to be configured to meaningful settings. For doing this the cover has to be removed. Then the jumper J1 right above of key 2 has to be set.
Then use following configuration procedure:
1. Press key one more than 4 sec‟s until PAbS appears in the display Now PAbS and the referring setting are shown alternating
I.) Average ambient absolute pressure „PAbS“ (function of the altitude above sea level):
Necessary for a correct evaluation of the electrode rating. If the application works for example at an altitude of 275 m above sea level, 980mbar is a correct setting. Please refer to Appendix A
2. Enter the desired value by using keys 3 (up) and 2 (down). Input range: 500...2000 mbar
3. Acknowledge the value with key 1 (set).
4. The settings are stored. The unit starts up again. (8888 in display)
Attention: Bring back the jumper j1 to the ‚parking position‘ after configuration (one contact connected, the
second contact ‚on air‘)!
Then the device can be calibrated by key 1 and the configuration data is protected.
Error and System Messages
Appendix A: abs. ambient pressure as a function of the altitude above sea level
Values between are to be interpolated
T02.0.4X.6C-09 page 5 of 6
Appendix B: oxygen sensor
General information about the oxygen sensors
I.) Lifetime:
At the end of life time the sensor signal drops relatively fast. The electrode evaluation in % therefore just can be used for orientation. An evaluation of 70% does not mean that 70% of life time are remaining, but 70% of the reference signal are available, which happens normally at the end of life time.
Note: The electrode evaluation is updated by the instrument every time, when the calibration of the sensor was performed
successfully. (please also see the referring manual of the instrument)
The nominal life time can be shortened significantly by usage. Influencing factors are:
- Storage- / Operation temperature
- Humidity of measured gas: If permanently used with dry gases (technical gases, bottled gas) the life time decreases
considerably. It helps, if the sensor is brought to normal humid ambient air in measuring breaks (“flush” system with fresh air).
II.) Operating position:
The optimum operation position is with the sensor inlet pointing downwards, maximum differential pressure to ambient is 250 mbar.
III.) Measuring precision:
The measuring precision can be influenced by:
- Liquids at the sensor inlet. Rinse the inlet and dry with lint-free cloth.
Attention: avoid liquids of any kind at the contacts
- Gas and sensor temperature have to be at same level. Best precision, when calibrated at measuring temperature.
- Pressure fluctuations: The sensor is originally a partial pressure sensor, i.e. changes in the absolute pressure are influencing
the measuring result directly proportional. A pressure change of 1% will cause a additional measuring error of 1%! For optimum precision calibrate at the same conditions at which You want to measure.
Application of the different sensor types GGO... /MU (standard) and GOO... / MU (option)
GGO... (closed sensor)
For measurements at atmosphere and in systems without over or under pressure the GGO is sufficient. Additionally the GGO can be screwed impermeable to systems with low over or under pressure. Attention! If the sensor cannot be calibrated at exactly the same pressure, the measurement will be faulty! For such appli­cations we have integrated a manual pressure compensation. Then the GGO can be connected to systems with a known pressure (Attention: please note the specified operating pressure for one-sided strain). The pressure can be entered to the device an will compensated by the device such no additional measuring error will occur.
GOO... (open sensor)
The sensor is equipped with drillings at the end and because of its special construction the measuring gas streams opti­mally around the sensor. No pressure can appear while gas blows to the sensor, which otherwise would result in errone­ous measures. The temperature compensation speed of the sensor also is optimised by this design. The measuring gas escapes into the air. Especially the measuring of gases from compressed gas bottles, where the expansion of the gas leaving the bottle lowers the temperature, is optimised with regard to the temperature compensation and pressure errors. The gas flow should be chosen in a suitable range, where no overpressure can happen, esp. if the sensor is connected directly to the source e.g. by means of a tube.
Oxygen measuring notes
Calibration and measuring are depending of the absolute pressure at the sensor.
Therefore check the absolute pressure before calibration and measuring.
Sensor temperature and gas temperature should be the same.
Temperature differences may cause additional measuring errors! In worst case conditions it may take up to several hours until both temperatures are adjusted. A suitable flow of the gas around the sensor element increases the adjustment sig­nificantly.
T02.0.4X.6C-09 page 6 of 6
Specification: OXY 3690 MP OXY 3690 S MP
Display range: 0,0 - 100,0 % air oxygen 0,0 - 100,0 % air oxygen Rec. sensor meas. range: 0,0 - 100,0 % air oxygen 0,0 - 25,0 % air oxygen
Sensor name: (Standard) GGO 370 / MU GGO 369 S / MU
Sensor type: electrochemical partial oxygen pressure sensor electrochemical partial oxygen pressure sensor Meas. range O2-Concentration: 0,0 ... 100,0 % O2 (gaseous) 0,0 ... 25,0 % O2 (gaseous) Electrolyte: basic acid Response time: 90% at <10sec., depending on temperature 90% at <15sec., depending on temperature Linearity: < 2 % O2 ± 0.1 % O
< 25 % O > 25 % O
2 2
± 0.5 % O2 ± 0.5 % O2 ± 1.0 % O2 not specified
Cross sensitivities: signal of <0.1 % O2 at
15% CO 3000ppm C3H8 in N2, 500ppm H2S in N 1000ppm Benzene in N
2
in N2, 10% CO in N2, 3000ppm NO in N2, 100% CO2, 100% CO, 3000ppm NO in N2,
2
, 1000ppm H2 in N
2
2
Operating pressure: 0.5 to 2.0 bar absolute (at one-sided strain: max. 0.25 bar over-/under-pressure) Warranty period: 12 months (assuming appropriate usage according to the manual) Nominal sensor life: approx. 2 years at nominal condition Temperature compensation
: integrated in oxygen sensor
Sensor connection: 5-pole screwable socket
± 0.1 % O2
signal of <0.002 % O2 at:
, 100% C3H8, 2000ppm H2S in N2,
2
2000ppm SO2 in N2, 1000ppm Benzene in N
2
Device accuracy:
Display ±0,1% oxygen ±1digit (adjusted device, at nominal temperature = 25°C) add. output signal: ±0,2 % FS
Output signal: refer to type plate
Connection: 4 - 20 mA (2-wire)
Voltage (3- or 4-wire)
Auxiliary energy: (supply voltage) Uv = 12 - 30 V DC (4-20mA)
Uv = 18 - 30 V DC (0-10V) or refer to type plate
Electric isolation: input electrically isolated Reverse voltage protection: 50V permanent
Perm. impedance (at 4-20mA): RA(Ohm) < ( (Uv - 12V) / 0.02A )
Example: for Uv = 18V: RA < (18V - 12V) / 0.02A => RA < 300 Ohm
Permissible load (at 0-...V): RL(Ohm) > 3000 Ohm
Display: approx. 10 mm high, 4-digit LCD-display Working conditions: 0 to 45°C, 0 to 95 %RH (non-condensing) Storage temperature: -20 to 70°C (sensor: -15 to 50°C) Housing: ABS (IP65 - with the exception of sensor and temperature probe connection sockets)
Dimensions: 82 x 80 x 55 mm (without elbow-type plug and sensor sockets) Mounting: with fixing holes for wall mounting (in housing - accessible after cover has been removed) Mounting distance: 50 x 70mm, max. shaft diameter of mounting screws is 4 mm.
Sensor dimensions: GGO369..: approx. Ø 36 mm x 95 mm (150 mm incl. anti-buckling glanding),
GOO369..: approx. Ø 40 mm x 105 mm (160 mm incl. anti-buckling glanding) Housing with M16 x 1-screw thread (sensor can be connected to line tubes by means of an additional adapter)
Electric connection: elbow-type plug conforming to DIN 43650 (IP65),
max. wire cross section: 1.5 mm², wire/cable diameter from 4.5 to 7 mm
EMC: The
device corresponds to the essential protection ratings established in the Regulations of the Council for the Approximation of Legislation for the member countries regarding electromagnetic compatibility (89/336/EWG). In accordance with EN50081-1 and EN50082-1 Additional error: <1%
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