Fischer pressure transmitter
Base mea-suring range
Pa- 25...+ 25, adjusted to - 7...+ 18
Max. static
operating bar1.0
pressure
Max. safe
bar1.7
pressure
Straight line
%FS1.0
error (max.)!
Repeatability!a%FS0.
TC span and
%FS
0.6
offset
10K
max.!a
Operating temp. (ambient)
-10 ... 70!a
Operating temp. (media)
-20 ... 70!a
Storage temperature
IP 65 acc. to DIN EN 60529
Protection class housing
Electrical
24 V AC / DC
Nominal supply voltage
20 ... 32 V AC / DC
Operating supply voltage
0...10 V, 3-wire 4...20 mA, 3-wire
Output signal
> 2 kOhm R > 500 Ohm
R
Output signal
load impedance
L L
Display
26 LEDs
Connections, Materials, Mounting
Electrical connection1 round-shell connector M12 (5 pin, male)
Pressure connectionsScrew clamp connectors
A combination of indicating and swit-ching instrument for pressure, differential pressure and partial vacuum. Pressure chamber and measuring dia-
phragm are available in different materi-als to meet various requirements. Construction and Operation This differential pressure instrument is based on a rugged and uncomplicated diaphragm movement, suitable for over-pressure, partial vacuum and differential pressure measurements. The system's operating principle is identical for all applications of this type.
Main Features
High repeatability of switching points
Long service life
Multiple applications
High overpressure protection
Typical Applications
Measurement of differential pressure between forward and return flow in heating systems
Observation of filters and pumps
The differential pressure transmitter DE13 for differential, negative and positive
pressure measurement using a diaphragm system with liquid filling. The
instrument transmits a standard electrical signal.
Typical Applications
• Monitoring filter condition
• Flow control
• Monitoring p at valves
• Pump control
Application
Typical application of this instrument is monitoring of pressure, differential pressure and partial vacuum in tanks, hydraulic and fluid technology systems,
filters and blowers. This instrument offers high repeatability of switching points in rugged design during long service life. Pressure chamber and measuring dia-
phragm are available in several materials to enable adapting the instrument to various applications.
Function:
Valve I=equalization valve
Valve II=shut-off and connection valves
ValveIII=blow-out valve
Operating instructions: Three-spindle-, four-spindle valve
1. Valve I is to be opened before the effective pressure pipes are connected.
2.Valves II are also to be opened before the effective pressure pipes are connected.
3.The differential pressure gauge will be mounted and pressure will be admitted.
Steps 45 apply to the four-spindle-valve, only
4.Valve III is to be opened for ventilating the whole measuring system.
5.Valve III is to be closed.
6.Valve I is to be closed for indicating the differential pressure.
The valves II remain in opened condition.
Dismounting of the differential pressure gauge:
1. Valve I is to be opened.
2.Valves II are to be closed.
3.Device-sited screwings are to be slackened.
The differential pressure gauge can be removed.
Fitting for connection and commissioning of differential pressure transmitters of the series DE01.
Design and mode of operation In a block casing there are three valve components with which the measuring lines can be blocked on the process side and pressure can be compensated on the transmitter side. The valves should have metal seals. The valve spindles contain rotating ball bearings that form a
wear-free seal to the block casing. The valve spindles are sealed to the outside with O-rings. The hand wheels can be lead-sealed or detached for safety purposes.
Technical data
General
Admissible ambient temperature -
Admissible media temperature -
Admissible storage temperature -
Nominal pressure PN40
Nominal diameter DN3
Pressure connection
on process side Inner thread G 1/4
Connecting port G1/4 or G1/2
Cutting ring screw connections 1.4571 for 6,8 or 10 mm pipe
on transmitter side Nipple with union nut G?, O-ring seal in the nipples
Materials
casing/ contact with media Brass, CuZn40 Pb
FISCHER (Pressure gauge 、Pressure transmitter、 Pressure switch)
Pressure gauge:FISCHER MA07 MA12 MA13 MA32 ME01 MA15 MD03 MD26-36 MD28-38 ME01 MS10 Pressure transmitter:ME11 ME69 ME12 ME49 ME50 ME67 ME69 ME71 MS12Pressure switch:MS11 MS12Accessories:MZ
FISCHER F(Differential pressure gauge、Differential pressure transmitter)
FISCHER Differential pressure gauge:DA01 DA03 DA09 DA12 DA30 DA08
Differential pressure transmitter:FISCHER DE16 FISCHER DE23 DE25 DE28 DE38 DE44 DE45 DE46 DE50 DE61 DE03 DE13 FISCHER DE39 DE70Differential pressure switch:DS11 DS13 DS31 DS35 DS21
Accessories Valve manifolds:DZ23/24 DZ43/44 DZ93/94
FISCHER(Resistance thermometer、Thermocouple)
FISCHER Thermometer:TE01 TA TK
FISCHER Resistance thermometer:FISCHER TW27 FISCHER TW30 FISCHER TW31 FISCHER FISCHER TW32 FISCHER TW35 TW36 TW40 TW45 TW46 TW50 TW55 TW56 TW68 TW70 TW71 TW72 TW73
FISCHER Temperature switch:TS01 TS61
FISCHER Thermocouple:TT30 TT31 TT32 TT35 TT36 TT40 TT45 TT46 TT50 TT55 TT56 Accessories Temperature transmitter:TE41 TE42
FISCHER (Control valve with electric actuator、Control valve with pneumatic actuato)
FISCHER Control valve with electric actuator:BR206_316GF BR216_316MZ BR216_316RA
Display and switching device for measurement of differential pressures with mainly neutral liquid and gaseous media.
Areas of Application:
• Filling level measuring technology for technical gases
Design and Mode of Operation
The device is based on a robust and durable diaphragm measuring unit that is suitable for measuring overpressure, underpressure and differential
pressure. The pressures to be compared have an effect on a spring mounted measuring diaphragm. In case of equal pressure, the measuring dia-
phragm is in its idle state. In case of pressure difference, the force acting on the measuring diaphragm causes it to be moved towards the side of
the lower pressure until the spring forces compensate this force. This movement is transferred via atappet into the core of the inductive displacement
sensor. The linear movement of the core is proportional to the applied differential pressure. The electronics integrated into the device evaluate this
movement and transform it into signals on the display, switch contacts and an optional output signal.
Important features
Robust design;over-pressure protected
maintenance-free through wear-free inductive pickup
switchab
Gas Alarm India offers Fischer Germany's DA01 used for indication and switching differential pressure of gaseous and liquid media.
Construction and Operation: The pressures to be compared act on flexible stainless steel diaphragms on either side of the sensing capsule. The two diaphragms are mechanically linked by a rigid connecting rod. To compensate for high static pressures, the cavity between the two diaphragms is filled with hydraulic fluid. When pressures are equal on both diaphragms, they are at zero position. When there is a difference in pressures acting on the two diaphragms, they are deflected away from the high pressure side, towards the lower pressure side, causing a displacement of the connecting rod.
Features:
Measuring range: 0-60mbar to 0-1600kPa (other ranges on request)
Max. pressure load: Overpressure safe up to max. operating pressure
Max. static operating pressure: PN 250; PN 400
Indication: Circular dial type 100 or 160 diameter; Scale design acc. to DIN, 270°
Accuracy: ± 1.6% FS
Perm. ambient temperature (housing): -20 to +80°C
Perm. medium temperature: -20 to +80°C
Zero adjustment: Accessible through marginal openings of the
Explosion-proof Differential Pressure Gauge And Switch ATEX-DA03ATEX. Gas Alarm offer Fischer Germany differential pressure gauge and switch for Explosion-hazardous Areas per Directive 94/9/EC (ATEX).
Switching Contacts (Non-electrical Device): DA03 0A: Explosion-hazardous areas zone 1 and 2, as well as 21 and 22, endangerment by gases and dry dusts. EX II 2 GD c 95°C IP65
Differential Pressure Gauge with Built-in Contacts: DA03 1B: Simple electrical equipment per EN50020 para. 5.4 for usage in explosion- hazardous areas zone 1 and 2.Ex II 2 G c 95°C IP65
Differential Pressure Gauge with Built-in Inductive Proximity Switch: DA03 1C: Explosion-hazardous areas zone 1 and 2, as well as 21 and 22, endangerment by gases and dry dusts. EX II 2 GD c 95°C IP65
EC-type approval of inductive proximity switch
PTB 99 ATEX 2219X
EX II 2 G EEx ia IIC T6 and Zelm 03 ATEX 0128 X EX II 1 D Ex ia D 20T..°C
Differential Pressure Gauge with Built-in Capacitive Electrical Position Transducer (KINAX 3W2): DA03 2D: Explosion-hazardous areas zone 1 and 2, endangerment by gases.
EX II 2 G c 95°C IP65
EC-type approval of built-in capacitive electrical position transducer
PTB 97
Gas Alarm offer Fischer Germany differential pressure gauge DA12 is suitable for measurement of pressure, differential pressure and partial vacuum in field of industrial and sanitary techniques. Typical applications are measurements of differential pressure between forward- and return flow in heating systems and monitoring of filters, compressors and blowers. Measuring system and pressure chamber are available in different materials to meet various requirements.
Principles of Operation: This differential pressure instrument is based on a rugged and uncomplicated diaphragm movement, suitable for overpressure-, partial vacuum- and differential pressure measurements. Operating principle of system is identical for all applications of this type.
Features:
Measuring ranges: 0-400 mbar to 0-25 bar (see Ordering Code)
Nominal pressure: 25 bar
Max. static operating pressure: acc. to measuring range (see Ordering Code)
Max. pressure load: one-sided overpressure protected up to nominal pressure on (+)- and (−)-side of diaphragm, partial vacuum protected.
Perm. ambient temperature: -10...+70°C (max. 55°C in case of SEV-approval)
Perm. medium temperature: 70°C
Prot
Gas Alarm India offer Fischer Germany differential pressure transmitter / transducer DE03 for high performance demanding application. DE 03 Electronic Differential Pressure Transmitter combines electronic measurement with a rugged sensor design, resulting in high accuracy, high differential and static rating, and ability to handle difficult media. It is available with local digital readout and electronic limit detection relays, with measuring range of 0 – 40 mbar to 0 – 25 bar. DE 03 Transmitters are suitable for a wide range of applications.
Applications:
Water and effluent treatment plants, and other filtration applications
For monitoring condition of filters
Flow monitoring in sprinkler systems
Flow measurement of steam and hot water, using differential pressure flow sensors, in remote heating systems
Monitoring pressure drop across valves
Pump control dependent on differential pressure in block unit heating power stations
Features:
Highly corrosion resistant
Rugged, wear resistant sensor design
Low hysteresis
Easily cleaned pressure chamber
Unaffected by fouling
Measuring ranges: 0 – 40 mbar to 0 – 25 bar (see Ordering Code)
Nominal p
The differential pressure transmitter DE13 for differential, negative and positive
pressure measurement using a diaphragm system with liquid filling. The
instrument transmits a standard electrical signal.
Typical Applications
• Monitoring filter condition
• Flow control
• Monitoring p at valves
• Pump control
Main Features
highly corrosion resistant
rugged, wear resistant sensor design
low hysteresis
easy to rinse pressure chambers
unaffected by fouling
Differential pressure instrument for liquid and gaseous media. Construction and Operation. The instrument is based on an electronic module which interprets the analogue signals from the integrated pressure sensors. These signals may be displayed separately. It is the electronic module's main task to compute the pressure difference, which can be displayed and processed. The interpretation allows to set two independent switching points and provides an electrical output signal proportional to the differential pressure.
Features
Large bright LED display
Selectable pressure units
2 independent limits with a choice of logic modes
Digitally programmable zero adjustment and filtering
Optional analogue signal output, with userprogrammable scaling, linearization, inversion,
and offset adjustment.
User-defined signal conversion look-up table (up
to 30 points)
Fully programmable from a PC, using the optional
Model EU03 PC Adaptor
Separate display of each pressure possible
Typical Applications
Differential pressure measurement of highly
contaminated media
Filter condition monitoring
Hydrostatic level measurement
Simplified pump con
Fischer DE70 differential pressure transmitter uses a capacitance type sensor and modern microprocessor technology. It is ideally suited for differential pressure applications such as measurement of:
Positive pressure
Differential pressure
Liquid level
Where a high degree of accuracy is required. It is optionally available in versions certified for use in hazardous locations, zone 1, zone 2, intrinsically safe area, with ATEX certification.
Features:
Robust, wear resistant sensor
High resistance to corrosion
Low hysteresis
Not affected by fouling of pressure chambers
Capacitance type silicon sensor
Microprocessor technology
Principles of Operation: The type DE 70 differential pressure transmitter uses a silicon capacitance sensor with a bridge measuring circuit, the output of which changes when the pressure changes. Modern microprocessor technology is used to convert the bridge output to a standard 4-20 mA signal, which permits the measured value to be transmitted over long distances. A hart interface is also available, using an optional communication module installed in the transmitter. With the hart interface, digitally transmitted p
