tgs813, Ham- CB Radio, Karty katalogowe
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FIGARO
PRODUCT INFORMATION
TGS 813 -
for the detection of Combustible Gases
Features:
Applications:
* General purpose sensor with sensitivity
to a wide range of combustible
gases
* High sensitivity to methane, propane,
and butane
* Long life and low cost
* Uses simple electrical circuit
* Domestic gas leak detectors and
alarms
* Portable gas detectors
The sensing element of Figaro gas sensors is a tin dioxide (SnO
2
) semiconductor
which has low conductivity in clean air. In the presence of a detectable gas,
the sensor's conductivity increases depending on the gas concentration in
the air. A simple electrical circuit can convert the change in conductivity to
an output signal which corresponds to the gas concentration.
The
TGS 813
has high sensitivity to methane, propane, and butane, making it
ideal for natural gas and LPG monitoring. The sensor can detect a wide range
of gases, making it an excellent, low cost sensor for a wide variety of
applications. Also available with a ceramic base which is highly resistant to
severe environments up to 200
°
C (model# TGS 816).
The figure below represents typical sensitivity char-
acteristics, all data having been gathered at standard
test conditions (see reverse side of this sheet). The Y-axis
is indicated as sensor resistance ratio (Rs/Ro) which is
defined as follows:
Rs = Sensor resistance of displayed gases at
various concentrations
Ro = Sensor resistance in 1000ppm methane
The figure below represents typical temperature and
humidity dependency characteristics. Again, the Y-axis is
indicated as sensor resistance ratio (Rs/Ro), defined as
follows:
Rs = Sensor resistance at 1000ppm of methane
at various temperatures/humidities
Ro = Sensor resistance at 1000ppm of methane
at 20
°
C and 65% R.H.
Sensitivity Characteristics
:
Temperature/Humidity Dependency
:
10
Air
2.0
Carbon
Monoxide
1.5
0
%
R.H.
1
Methane
Ethanol
Propane
Isobutane
Hydrogen
20% R.H.
1.0
0.90
40% R.H.
65% R.H.
100% R.H.
0.80
0.1
0.70
500
1000
3000 5000
10000
-10
0
10
20
30
40
50
Concentration (ppm)
Ambient Temperature (°C)
IMPORTANT NOTE:
OPERATING CONDITIONS IN WHICH FIGARO SENSORS ARE USED WILL VARY WITH EACH CUSTOMER’S SPECIFIC APPLICATIONS. FIGARO STRONGLY
RECOMMENDS CONSULTING OUR TECHNICAL STAFF BEFORE DEPLOYING FIGARO SENSORS IN YOUR APPLICATION AND, IN PARTICULAR, WHEN CUSTOMER’S TARGET
GASES ARE NOT LISTED HEREIN. FIGARO CANNOT ASSUME ANY RESPONSIBILITY FOR ANY USE OF ITS SENSORS IN A PRODUCT OR APPLICATION FOR WHICH SENSOR HAS
NOT BEEN SPECIFICALLY TESTED BY FIGARO.
1
Structure and Dimensions:
9.5
1
Sensing Element:
SnO
2
is sintered to form a thick film on
the surface of an alumina ceramic tube
which contains an internal heater.
6
1
5
2
2
Cap:
4
3
Nylon 66
3
Sensor Base:
Nylon 66
4
Flame Arrestor:
100 mesh SUS 316 double gauze
17
±
0.5
um : mm
Pin Connection and Basic Measuring Circuit:
The numbers shown around the sensor symbol in the circuit diagram at the
right correspond with the pin numbers shown in the sensor's structure drawing
(above). When the sensor is connected as shown in the basic circuit, output
across the Load Resistor (V
RL
) increases as the sensor's resistance (Rs) de-
creases, depending on gas concentration.
Basic Measuring Circuit:
Standard Circuit Conditions:
Item
Symbol
Rated Values
Remarks
Heater Voltage
VH
5.0±0.2V
AC or DC
Circuit Voltage
VC
Max. 24V
AC or DC
*PS 15mW
Load Resistance
R
L
Variable
*PS 15mW
Electrical Characteristics:
Item
Symbol
Condition
Specification
Sensor Resistance
Rs
Methane at 1000ppm/Air
5k ~ 15k
Change Ratio of
Sensor Resistance
Rs/Ro
Rs (Methane at 3000ppm/Air)
Rs (Methane at 1000ppm/Air)
0.60 ± 0.05
Heater Resistance
R
H
Room temperature
30.0 ± 3.0
Heater Power
Consumption
P
H
VH=5.0V
835 ± 90mW
Standard Test Conditions:
TGS 813 complies with the above electrical characteristics
when the sensor is tested in standard conditions as speci-
fied below:
Test Gas Conditions: 20
Sensor Resistance (Rs) is calculated by
the following formula:
5%R.H.
Circuit Conditions: V
C
= 10.0
±
0.1V (AC or DC),
V
H
= 5.0
±
0.05V (AC or DC),
R
L
= 4.0k
W±
1%
Preheating period before testing: More than 7 days
°±
2
°
C, 65
±
Rs = (
V
C
V
RL
-1) x R
L
Power dissipation across sensor electrodes
(Ps) is calculated by the following formula:
2
V
C
x Rs
2
(Rs + R
L
)
FIGARO USA, INC.
3703 West Lake Ave. Suite 203
Glenview, Illinois 60025
Phone: (847)-832-1701
Fax: (847)-832-1705
email: figarousa@figarosensor.com
Ps =
For information on warranty, please refer to Standard Terms and
Conditions of Sale of Figaro USA Inc.
REV: 9/99
V
H
V
C
RL
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