THERMAL CONDUCTIVITY GAS ANALYZER <THERMOMAT>
DATA SHEET
ZAF-3
Thermal conductivity gas analyzer is a gas analyzer which
quantitatively measures gas concentration by utilizing a causal
relationship that the temperature of a heated platinum wire
changes with gas concentration.
The analyzer continuously measures the concentration of
gases such as H2, He, and Ar with high stability.
FEATURES
1.
2.
3.
4.
Easy-to-see large LCD is helpful for efficient operation.
Measured value is output as a linearized output signal.
Line voltage lies within 100 V to 240 V AC, 50/60 Hz.
External dimensions are the same as those of the preceding type.
5. Zero point and span can be automatically calibrated (at
option).
6. Other gases’ interference is correctable (at option).
7. Communicable with other system through an RS-232C
interface (MODBUSTM)(at option).
SPECIFICATIONS
Standard Specifications
Measuring principle:
Measurement of thermal conductivity
Measurable component:
He, Ar, H2, CH4, CO2
Measurable range:
Refer to Table 1
Output signal:
4 to 20 mA DC, 0 to 1 V DC, 0 to 10 mV
DC
Isolated output
(Any one-output signal specifiable in
CODE SYMBOLS)
Allowable load resistance:
550 Ω max. (in 4 to 20 mA DC output)
Output resistance:
100 kΩ (in 0 to 1 V DC or 0 to 10 mV DC
output)
Display unit:
LCD with backlight
Display of measured value:
Max. 4 digits
Display language:
English
Output signal holding:
In both manual and automatic calibrations,
output value just before calibration can
be held.
Power supply:
100 to 240 V AC, 50/60 Hz
Power consumption:
Approx. 50 VA
Warm-up time: At least 30 min
Ambient temperature:
–5 to 45˚C
Ambient humidity:
Less than 90% RH (condensation unallowable)
Storage conditions:
–20 to 60˚C, less than 95% RH (condensation unallowable)
Mounting:
Flush mounting on panel
α
∠α=90°
External dimensions (H x W x D):
240 x 192 x 213 mm
Mass:
Approx. 5 kg
Finish color:
Off-white (equivalent to 10Y7.5/0.5)
Housing:
Steel-plate case, indoor use type
Material of gas-contacting parts:
JIS SUS304, platinum, platinum iridium,
silver, fluororubber, epoxy resin, nickel,
tin
Gas inlet/outlet, purge port:
Rc1/4 or NPT1/4 (whichever specified)
External connection terminal:
M3.5 screw terminal (9-pin D-sub connector for RS-232C)
Purge gas flow rate:
Approx. 1 L/min (for measurement of
combustible gases)
Performance
Repeatability:
Linearity:
Drift:
± 1% of F.S.
± 2% of F.S.
Zero point : within ± 2% of full scale/week
(H2 meter, reference gas N2)
Span : within ± 2% of full scale/week (H2
meter, reference gas N2)
EDS3-127c
Date
Apr. 1, 2011
ZAF-3
Response time (90% response):
High speed within 10 sec (at flow rate
1L/min), allowed only for H2 meter (reference gas N2, without interference compensation)
Standard within 60 sec (at flow rate 0.4
L/min)
Other gases’ interference:
Indication error of each measured value
(vol%)
Interference
component
H2
meter
CH4
meter
Ar
meter
CO2
meter
H2
1%
–
+5.8
–6.5
–8.0
CH4
1%
+0.17
–
–1.15
–1.38
SO2
1%
–0.31
–1.8
+2.1
+2.5
+1.2
Ar
1%
–0.15
–0.87
–
CO2
1%
–0.125
–0.725
+0.83
–
O2
1%
+0.019
+0.11
–0.125
–0.15
–
–
–
–0.56
H2O 1.5°C saturation
<3> Suction pump OFF output in automatic calibration
(reray “ON” immediately after
turnning on power supply)
<4> Upper limit (1 point) concentration
alarm output
<5> Lower limit (1 point) concentration
alarm output
<6> Upper/Lower limit (1 point) concen
-tration alarm output
<7> Upper limit (1 point) and lower limit
(1 point) concentration alarm output
(Total 2 points)
<8> High-high limit (1 point at each
step) concentration alarm output
(Total 2 points)
<9> Low-low limit (1 point at each
step) concentration alarm output
(Total 2 points)
<10> Analyzer error or automatic calibration error alarm output
<11> Calibrating status output
<12> Range information output (only with
2-range meter)
Standard Gas Measurement Conditions
Temperature:
Gas flow rate:
0 to 50˚C
Constant at 0.4 ± 0.05 L/min
Constant at 1 ± 0.05 L/min(High responce)
Dust:
Less than 100 µg/Nm3 with a particle size
of 0.3 µm max
Pressure:
10 kPa max
Mist:
Unallowable
Oxygen gas:
No oxygen should be contained in measured combustible gases.
Moisture:
Below saturation at 2˚C
Corrosive gas: Unallowable
Standard gases for calibration:
Zero gas : same as reference gas or as
specified
Span gas : Concentration within 90 to
100% of measuring range
(Positive range)
Concentration beyond 100%
is inapplicable
Installation Conditions
• The analyzer should not be exposed to direct sunlight or
radiation from a hot object.
• A place subjected to heavy vibrations should be avoided.
A location with clean atmosphere should be selected.
• Before measuring combustible gases, the existing gases
should be purged from the analyzer using air or N2.
• When the analyzer is installed outdoors, it should be sheltered with a housing or cover to protect it from rain and
wind.
Optional Specifications
Relay contact output:
5 SPST relay contact outputs
Relay contact capacity; 220 V AC/2 A (resistive load)
Isolated with relay between contacts, and
between contacts and internal circuit.
Max. 5 points are selectable among
those listed below.
<1> Zero-side solenoid valve drive output for automatic calibration
<2> Span-side solenoid valve drive output for automatic calibration
2
Contact input:
3 non-voltage contact inputs
ON; 0 V, OFF; 5 V DC, current at ON; 5
mA
Isolated with photo coupler between inputs and internal circuit. Not isolated
between contact inputs.
The following actions can be input
<1> Remote holding of measured value
output
<2> Remote range changeover (only with
2-range meter)
<3> Remote start of automatic calibration
Interference gas measured value input:
Analog input for H2 meter interference
correction (1 to 5 V DC, 1 range)
Either CO2 or CH4 component of an external gas analyzer is to be input.
Adjustment is required at Fuji Electric’s
factory.
Details of measurement gas will be
checked when receiving an order.
Automatic calibration function:
Zero and span calibrations are automatically carried out at the predetermined intervals.
Calibration gases are flowed sequentially
by driving the externally installed solenoid
valves.
Communicating function:
RS-232C (9-pin D-sub output)
Half duplex, asynchronous
MODBUS TM protocol, communication
speed 9600 bps
Contents of communication:
Reading/writing of measured
concentration values and various set values, and output of
device status
Remarks: For connection in RS-485,
RS-232C/RS-485 converter
should be provided seperately
Explanation of Functions
Output signal
holding
When holding is set (user setting is turned ON), the latest measured value output just before output
signal holding will be held during manual or automatic calibration, or by remote output holding input.
In this status, indicated values will not be held.
Remote output
holding input
Upon short-circuiting the remote output holding input terminal when holding is set (user setting is
turned ON), the latest measured value output will be held.
Holding continues while the contact input terminal is close-circuited.
In this period, indicated values will not be held.
Remote range
changeover input
When remote range setting is selected (user setting is turned ON) for two rang type, range will be
changed over according to the external signal input (non-voltage contact) applied to the remote range
changeover input terminal.
In this mode, range cannot be changed manually.
When close-circuiting the contact input terminal, the first range is selected, and the second range is
selected at open circuit.
Range identification
signal output
With two rang type, the current measuring range identification is output in contact signal.
The contact output terminal is closed for the first range, and open for the second range.
Automatic
calibration
Zero and span calibrations are automatically carried out by outputting the signal for driving the
externally installed solenoid valves for calibration gases at the set start time and interval or through
input of the remote calibration start signal.
• Calibration channel: 1 component
• Calibration accuracy: ±0.2% of F.S.
• Zero calibration point settable range: 0 to 100% of F.S.
• Span calibration point settable range: 1 to 100% of F.S.
• Calibration interval settable range: 1 to 99 hours (1 hour step) or 1 to 40 days (1 day step)
• Calibration gas injection time settable range: 60 to 599 sec (in sec)
• Calibration start: Internal timer or remote calibration start input
• Solenoid valve drive signal output: SPST contact (zero x 1, span x 1)
• Suction pump OFF output in calibration: SPST contact (suction pump OFF x 1)
• Remote calibration start input: No-voltage contact input
Automatic calibration is started by applying a non-voltage rectangular wave to the remote calibration
start input terminal (opened after close-circuiting for 1.5 sec or longer).
When contacts open, automatic calibration is carried out once.
• Automatic calibration error alarm output: SPST contact
Contacts close when the quantity of zero or span calibration exceeds 50% of full scale from the level of
previous calibration, and contacts open when there is no abnormalities.
When automatic calibration is abnormal, measurement output depends on the previous calibration
values.
• Automatic calibration status output: SPST contact
During automatic calibration, contacts close, and open when within 50%.
Upper/lower limit,
Alarm contact output is issued with reference to the set upper/lower limit for alarm. Hysteresis is
upper limit and lower settable.
limit alarm output
When measuring value exceed alarm setting value, contacts close, and open when not exceeded.
SPST contact
Analyzer error
When the analyzer or automatic calibration is abnormal, contacts close, and open when normal.
SPST contact
Interference
correction by
interference gas
measured value
input
Correction is made using either CO2 or CH4 component for H2 measurement.
Measured H2 gas concentration is corrected in response to a concentration change of interference gas
within its concentration range measured and set in advance.
External interference gas measured value input : 1 to 5 V DC, 1range
Interference gas fluctuation range : Reference concentration ± 20% F.S.
H2 gas concentration correcting range : Reference concentration ± 25% F.S.
Correction accuracy : ±5% F.S.
(Note 1) Enter in the sample gas component check list on the back cover.
(Note 2) Correction accuracy value is larger when other interference gas is contained in the sample gas.
3
ZAF-3
This thermal conductivity gas analyzer measures gas concentration by utilizing the different thermal conductivities
of 2 gas components. In the detector, there are reference
and measuring chambers in each of which a thin platinum
wire is stretched. The reference chamber is filled with reference gas and through the measuring chamber, sample
gas is flowed. Each platinum wire composes a bridge circuit in combination with an external fixed resistor, and it is
heated by flowing a constant current. When there is a change
in the concentration of the component under measurement,
the thermal conductivity of sample gas will change to affect the temperature of the platinum wire in the measuring
chamber. The resulting thermal change is taken out as a
change in electric resistance, according to which the concentration of measured gas is calculated.
MEASURING PRINCIPLE
Measuring
chamber
Sample gas
Reference
chamber
Thermal Conductivity Ratio of Gases
Comparative thermal conductivity
(0°C) when replacing thermal
conductivity of air
(2.41 x 10-2 w/(m.k) with 1
Gases
DC
constant
current
Sulfur dioxide gas
Carbon dioxide gas
Argon
Carbon monoxide
Steam (100°C)
Air
Nitrogen
Oxygen
Methane
Hydrogen
DC amplifier
Fixed resistor
SO2
CO2
Ar
CO
H2O
N2
O2
CH4
H2
Table 1: Measurable Component and Measurable Range
Reference gas
component (Note 1)
Measured gas
Range
ratio(Note 2)
Measurable range
H2
N2, (CO2, Ar, He)
0 to 3, 5, 10, 20, 50, 80, 100%
100 to 90, 100 to 80%
1 : 10
He
N2, (CO2, Ar) O2,
Air
0 to 5, 10, 20, 30, 40, 50, 80, 100%
100 to 90, 100 to 80%
1 : 10
Ar
N2, O2, Air, (He)
0 to 10, 20, 50, 80, 100%
100 to 90, 100 to 80%
1:5
CH4
N2, (CO2, Ar, He)
0 to 20, 40, 50, 60, 80, 100%
100 to 80%
1:5
CO2
N2, O2, Air, (He)
0 to 10, 20, 50, 100%
100 to 90, 80%
1:5
(Note 1) Contact us for the components in the parentheses. H2 contained in O2 cannot be measured.
(Note 2) Range ratio stands for maximum value.
GAS SAMPLING SYSTEM DIAGRAM (EXAMPLE)
Example of gas measurement in industrial furnace, sintering furnace, etc.
Suction pump OFF signal in automatic calibration
Sample
gas
(Note 1)
Flow
checker
Gas
aspirator
Membrane
filter
ZAF
Exhaust
0.4L/min (Note 3)
or 1L/min
Mist
filter
(Note 2)
Peltier gas
cooler
Mist
filter
Span calibration signal
(Note 2)
Zero calibration signal
Drain pot
Solenoid valve
1L/min
Purging
air or
nitrogen
Pressure reducing valve
Span
gas
4
Zero
gas
(Note 1) Dust must be purged adequately
(for protection of the pump, flowmeter, etc.).
(Note 2) Unnecessary if sample gas is dry.
(Note 3) Select the one with no pulsating flow within the specified
flow rate range.
CODE SYMBOLS
ZAF
9 10 11 12 13
14
4 5 6 7 8
3 –
–
Digit
Description
4 <Indication, response>
(Note 1)
Indication in English, standard response
E
Indication in English, high-speed response
H
5 <Measured component>
H2
K
Ar
L
He
M
CH4
E
CO2 (reference gas Ar unallowable)
A
Other
Z
(Note 2)
6 <Reference gas>
N2
4
Air (incompatible with H2/CH4 measurement)
5
O2 (incompatible with H2/CH4 measurement)
6
Other
Z
7 <Power supply, connection port size>
AC100 to 240V 50/60Hz, Rc1/4
0
AC100 to 240V 50/60Hz, NPT1/4
1
8 <Revision No.>
3
9 <Measuring range (1st range)>
0 to 3% (H2)
0 to 5% (H2 ,He)
0 to 10% (H2, He, Ar, CO2)
0 to 20%
0 to 30%
0 to 50%
0 to 80%
0 to 100%
100 to 90% (H2, He, Ar)
100 to 80% (H2, He, Ar,CH4)
Other
10 <Measuring range (2nd range)>
(Note 3)
None
0 to 5% (H2 , He)
0 to 10% (H2, He, Ar)
0 to 20% (H2, He, Ar, CO2)
0 to 30%
0 to 50%
0 to 80%
0 to 100%
Other
11 <Measured value output>
DC4 to 20 mA
DC0 to 1V
DC4 to 20 mA + RS-232C communication
DC 0 to 1 V + RS-232C communication
DC0 to 10mV
12 <Linearization>
(Note 4)
Provided
13 <H2 meter interference corrective calculation> (Note 5)
None
Provided
14 <Input/output contacts>
None
Automatic calibration
Automatic calibration
Concentration alarm
See table below.
Concentration alarm
Q
L
M
N
V
P
T
J
9
8
Z
Y
L
M
N
V
P
T
J
Z
A
B
C
D
E
A
Y
A
Y
A
B
C
D
E
F
Contact output selection
Contact output selection
(Note 1) High-speed response is for H2 meter
used for reference gas N2 only.
(Note 2) Reference gas refers to gas other
than the component to be
measured in sample gas.
("Z" must be specified when interference
gas is to be contained.)
(Note 3) The ratio of maximum range to
the first range is as given below.
For CO2, Ar or CH4 measurement
: 1st range x 5 (times)
For He or H2 measurement
: 1st range x 10 (times)
A range from 0 to ...%
cannot be combined with
that from 100 to ...%.
1st range < 2nd range
(Note 4) Specify Y if linearization in the 12th digit
is not required.
(Note 5) A CO2 or CH4 meter needs to be
prepared separately.
A reverse range such as 100 to 0%
cannot be specified.
Input signal is 1 to 5 V DC.
Adjustment is required at Fuji Electric’s
factory.
Details of measurement gas will be
checked when receiving an order.
Reverse range such as 100% to 0%
cannot be specified.
Cannot be specified if high-speed
response is selected.
14th digit : A 14th digit : B 14th digit : C 14th digit : D 14th digit : E 14th digit : F
Automatic calibration
Concentration alarm
Contact output selection (Note 7)
Automatic Zero gas valve drive
—
(DO1)
—
(DO1)
calibration Span gas valve drive
—
(DO2)
—
(DO2)
—
(DO3)
—
Suction pump OFF in automatic calibration
(DO3)
Contact
input
Contact output
Input/output contact specifications
—
Concentra- Upper limit (1 point) concentration alarm
Lower limit (1 point) concentration alarm
—
tion
Upper/lower limit (1 point as a set)
—
alarm
concentration alarm
Upper limit (1 point) and lower limit
—
(1 point) concentration alarm
2-step upper limit (1 point each)
—
concentration alarm
2-step lower limit (1 point each)
—
concentration alarm
Other
Calibration status
(DO4)
Range information (2-range meter) (Note 3) —
(DO5)
Analyzer error or automatic calibration error
Remote automatic calibration start (Note 4)
(DI3)
(DI2)
Remote range changeover (2-range meter) (Note 5)
(DI1)
Remote measured value output holding (Note 6)
—
—
—
—
—
—
(DO4)
—
(DO5)
(DI3)
(DI2)
(DI1)
Any one
alarm
settable
on screen
(DO1, 2)
2 Point
(NO) Contact
(DO4)
(DO3)
(DO5)
(DI3)
(DI2)
(DI1)
Any one
alarm
settable
on screen
(DO1, 2)
2 Point
(NC) Contact
Any one
alarm
settable
on screen
2 Point
(NO) Contact
Any one
alarm
settable
on screen
2 Point
(NC) Contact
(DO4)
—
(DO5)
(DI3)
(DI2)
(DI1)
(DI3)
(DI2)
(DI1)
(DI3)
(DI2)
(DI1)
(Note 1) Mark : Normally Open (NO) contact
(Note 2) Mark : Normally Closed (NC) contact,after turning on power supply
(Note 3) Low range : Contacts close, High range : Contacts open
(Note 4) When contacts open 1.5 sec after their closure, automatic calibration starts.
(Note 5) Contacts closed : Low range, Contacts open : High range
(Note 6) Contacts closed : Holding, Contacts open : Holding canceled
(Note 7) Up to 5 contact output points can be selected.
5
ZAF-3
ZRJ
OUTLINE DIAGRAM (Unit : mm)
Panel
1.6 < t < 10
192
193
169
140
(24)
t
240
230
(248)
(268)
GAS ANALYZER
MODE
ESC
ZERO
ENT
SPAN
Mounting brackets
Front view
Side view
(43)
External terminal (option)
M3.5 screw
Rc1/4 or NPT1/4 (whichever specified)
INLET
Panel cutout
+2
230
240
(35)
184 0
1 11
2 12
3 13
4 14
5 15
6 16
7 17
8 18
9 19
10 20
130
232
+2
0
INLET
OUTLET
1 2 3 4 5
PURGE
182
192
Rc1/4 or NPT1/4 (whichever specified)
OUTLET
Rc1/4 or NPT1/4 (whichever specified)
Purging port
RS-232C/Dsub 9P (whichever specified)
External terminal (standard)
M3.5 screw
Rear view
CONNECTION DIAGRAM
(Standard)
1 L
2 N
3 E
4 +
5 –
(Option) 13th digit A and 14th digit A, B, C, D, E, F
1 11 DO1
Power supply 100 to 240V AC, 50/60Hz
Grounding terminal
Measured value output (as specified)
4 to 20mA DC
0 to 1V DC
0 to 10mV DC
Interference correcting
input 1 to 5V DC
Remote output holding
Remote range changeover
Remote automatic calibration start
AIN+
AIN–
DI1
DI1
DI2
DI2
DI3
DI3
2 12 DO1
3 13 DO2
4 14 DO2
Contact output 1
Contact output 2
5 15 DO3
6 16 DO3
Contact output 3
7 17 DO4
8 18 DO4
Contact output 4
9 19 DO5
10 20 DO5
Contact output 5
Refer to “Input/output contact specifications” in CODE SYMBOLS.
6
SCOPE OF DELIVERY
Analyzer main unit
Panel mounting brackets (1 set)
2 power fuses (250 V AC, 1 A)
Instruction Manual
ITEMS TO BE PREPARED SEPARATELY
Gas sampling equipment, standard gas, receiving instrument,
etc.
With interference corrective calculation: CH4 or CO 2 gas
analyzer
ORDERING INFORMATION
1.
2.
3.
4.
Analyzer type
Gas component to be measured
Measuring range
Gas component other than measured
Very important information required to achieve intended
accuracy of the instrument.
(Enter in “Table for checiking sample gas component”on
the next page.)
7
ZAF-3
<Table for checking sample gas component of thermal conductivity gas analyzer (ZAF-3)>
Let us check your sample gas for safe use of Fuji Electric’ gas analyzer.
Make entries where you can answer. If there is any question, contact our salesperson in charge of your company.
The analyzer may not provide full performance depending on other gas components contained in sample gas.
Date
Item
Description
Name of customer at
delivery destination
Application, purpose
Gas component to be
measured
Sample gas
Minimum
concentration (%)
Normal
concentration (%)
Maximum
concentration (%)
Remarks
Component to be
measured
Other
component gas
Other
component gas
Interference gas
input
Measuring range
0-
CO2 meter or
CH4 meter
Your question,
etc.
Customer
information
Company name
Section
Address
TEL
Person in charge
Fuji Electric’s salesperson in charge of your company
Caution on Safety
*Before using this product, be sure to read its instruction manual in advance.
International Sales Div
Sales Group
Gate City Ohsaki, East Tower, 11-2, Osaki 1-chome,
Shinagawa-ku, Tokyo 141-0032, Japan
http://www.fujielectric.com
Phone: 81-3-5435-7280, 7281 Fax: 81-3-5435-7425
http://www.fjielectric.com/products/instruments/
Information in this catalog is subject to change without notice.
Printed in Japan