FISCHER DE38 Instruction Manual

Page 1

12.1.10 DB_BA_GB_DE38_R.fm 09005062

1. Safety Instructions

1.1. General

This manual contains detailed information about the product and instructions for its installation, operation and main-

tenance. Operators and other technical personnel responsible for the equipment must read this thoroughly before attempting to install or operate this equipment. A copy of this manual must always be kept accessible at the place of work for reference by concerned personnel.

Chapter 1 (sections 1.2 through 1.7) contains general as well as specific safety instructions. Chapters 2 through 10, covering topics ranging from intended purpose of the equipment to its final disposal, also include important points relating to safety. Overlooking or ignoring any of these safety points can endanger humans and animals, and possibly cause damage to other equipment.

1.2. Personnel Qualification

Personnel responsible for installation, operation, maintenance and inspection of this product must have the qualifications, training and experience necessary to carry out such work on this type of equipment.

Qualified personnel are people who are able to judge delegated work and possible dangers due to technical education, proficiency and experiences and especially by knowledge about the relevant norms.

When working with explosion proof constructed instruments personnel needs to be educated or instructed resp. have the authorisation to work with explosion proof instruments in explosionhazardous plants.

Table of Contents

1. Safety Instructions

2. Intended Applications

3. Product Description and Functions

4. Installation

5. Commissioning

6. Maintenance

7. Transport

8. Service

9. Accessories

10. Disposal

11. Specifications

12. Dimensions

13. Ordering Code

14. Declaration of Conformity

II 3 G c

EEx nA IIC T4

-10CT

amb

60C

Data Sheet and Instruction Manual

DE38 Digital Differential Pressure Transmitter / Switch

DE38#######KR###

Gas Explosion Proof to Zone 2

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1.3. Risks of Disregarding Safety Instructions

Disregarding safety instructions, use of this product for purposes for which it is not intended, and/or operation of this product outside the limits specified for any of its technical parameters, can result in harm to persons, the environment, or the plant on which it is installed. Fischer Mess- und Regeltechnik GmbH will not be responsible for consequences in such circumstances.

1.4. Safety Instructions for Operators

Safety instructions for the proper use of this product must be followed. This information must be available at all times by personnel responsible for installation, operation, maintenance and inspection of this product. Adequate steps must be taken to prevent the occurrence of hazardous conditions that can be caused by electric energy and the convertible energy of the process media. Such conditions can, for example, be the result of improper electrical or process connections. Detailed information is available in relevant published norms (DIN EN, UVW in Germany; and equivalents in other countries), industrial standards such as DVWG, Ex-, GL-, VDE guidelines, as well as regulations of the local authorities (e.g., EVUs in Germany).

The instrument must be put out of action and protected against accidental use if safe operation can not be guaranteed anymore. A reason for this might be one of the following incidents:

• apparent damage of instrument

• failure of electrical function

• longer storage periods at temperatures higher than 85C

• bad packaging during transport

Repairing is only allowed to be done by Fischer Messund Regeltechnik GmbH.

Before the instrument is put into operation again a professional routine test acc. to DIN EN61010, part 1 needs to be done. This inspection should necessarily be done by Fischer Mess- und Regeltechnik GmbH. Appropiate transport and professional storage of instrument are understood.

1.5. Modifications Forbidden

Modification or other technical alteration of the product is not permissible. This also applies to the use of unauthorized spare parts for repair / maintenance of the product. Any modifications to this product, if and as necessary, should be done only by Fischer Mess- und Regeltechnik GmbH.

1.6. Operational Restrictions

The operational reliability of the product is guaranteed only when used for intended purposes. The product must be selected and configured for use specifically with

defined process media. The limiting values of operating parameters, as given in the product specification sheet, must never be crossed.

1.7. Safety Considerations during Installation and Maintenance

The safety instructions given in this manual, existing national regulations relating to accident prevention, and the internal safety rules and procedures of the user organization regarding safety during installation, operation and servicing must all be followed meticulously.

It is the responsibility of the users to ensure that only suitably qualified and experienced technical personnel are used for installation, operation and servicing of this equipment.

2. Intended Applications

Display and limit detection of differential pressure of gases and fluids. The DE38 must be used only for applications and under conditions specified by the manufacturer.

Classification of Explosion-Hazardous Area

The differential pressure switch / transmitter DE38 is suitable as „electrical equipment for use in explosionhazardous areas“, zone 2.

Declaration per Directive 94/9/EC (ATEX)

II 3 G c EEx nA IIC T4

3. Product Description and Functions

3.1. Functional Scheme

3.2. Principles of Operation

The instrument uses a tough, flexible sensing diaphragm embedded between stiffening plates and balanced by springs on either side. The diaphragm is at zero position when pressures on either side of the diaphragm are equal. Inequality of pressures results in deflecting the diaphragm towards the lower pressure side until a new equilibrium determined by the changed balance of forces

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is reached. Fastened to the center of the diaphragm is an axial rod, the other end of which forms the moving core of a precision LVDT displacement sensor element. The linear displacement of the LVDT core is proportional to the pressure difference across the diaphragm. This displacement is converted by the transmitter's electronic module to a standard electrical signal output. An optional output signal can be slew rate limited, spreaded, inverted and piecewise transformed nonlinearly by means of a table function.

4. Installation

The electronic module is mounted on a flat plate or panel, for which it has 4 holes at the rear for self-tapping screws 3.5mm.

A wall-mounting rear adaptor plate is available as an option (s. 13. Ordering Code).

The pressure transmitters are calibrated at the factory while mounted vertically, pressure ports downward. However, they can be mounted in any orientation. If they are installed with any orientation other than vertical (pressure ports downward), the zero point must be re-set (s. 5.3.2.).

IP65 protection for the housing is guaranteed only if suitable connecting cable is used.

4.1. Process Connection

• Only qualified technicians authorized for this type of work should undertake installation.

• Ensure that process equipment and pressure lines are at atmospheric pressure before making pressure connections.

• The instrument should be provided with suitable protection against pressure surges (e.g., snubber or pulsation damper).

• Ensure that the mechanical configuration and materials of construction of the instrument are compatible with the process media.

• Ensure that process pressure is always less than the specified safe pressure rating.

• Carefully check the pressure-tightness of all pressure connections before start-up.

4.2.Electrical Connection, Safety Precautions for Explosion Prevention

• Only qualified technicians authorized for this type of work should undertake installation.

• Switch off electrical power to the plant before attempting electrical installation work of any kind.

• Do not disconnect plug live wire.

• To ensure safe operation supply wiring system must meet specifications for zone 2, class 3. Electrical connections must comply with relevant international and local regulations and norms relating to electrical and instrumentation installations in hazardous areas (e.g.: EN 60079-14, EN 50014).

• Operating supply voltage (24 V DC/AC) must not excess 32 V DC - neither per temporary interferences! Supply wiring system must be fused by 200 mA inert.

• For recommended current supply see 11. Specifications.

• Parameterisation by PC serial interface adaptor EU03.F300 is permitted only in safe areas outside explosion-hazardous areas zone 2.

5. Commissioning

• Power supply and signal cabling to the transmitter must be correctly selected to meet operational requirements, and installed in a way that does not cause physical stress to the instrument.

• Pressure lines must have a downward gradient throughout from the pressure instrument to the process vessel / pipe. This is to prevent formation of air / gas pockets (for liquid applications) and liquid plugs (for air / gas applications). If this continuous downward gradient cannot be provided for any reason, then suitable water and / or air separation devices must be inserted into the pressure lines.

• Pressure lines must be kept as short as possible and must not have short bends to avoid measurement errors induced by pressure line delays.

5.1. Pressure Connections

The instruments pressure ports are marked by "" and "" symbols. For differential pressure applications the "" port must be connected to the higher pressure and the "" port should be connected to the lower pressure.

If the pressure transmitter is subjected to pressure when it is started up, zero point checking and adjustment is not possible. In such cases, only electrical connections of the instrument should be made, but not the pressure connections.

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5.2. Display

The 3½ digit LED display normally indicates the current differential pressure. The backlit symbols to the right of the 3½ digit LED display indicate the unit of pressure measurement. (Note: the units shown in the illustrations of this document can be different from those of the actual instrument). The two LED lamps above the 3½ digit LED display respectively indicate the status of the two limit relays / solid-state switches   (LED on = relay contacts closed / solid-state switch on).

While the instrument is in set-up mode, the 3½ digit LED display either indicates the selected menu option or a set-up parameter value. The instrument continues its pressure monitoring functions even while it is in set-up mode, except under either of two circumstances.

One is when the limit switching delay time is changed: the existing delay must time out first. The other is when the look-up table (for conversion of measured values) is re-programmed (s. 5.3.7.). In these circumstances, the output signal value and the limit relay/switch states are frozen until the changes are finalized.

5.3. Set-up

The instrument has comprehensive set-up options by means of which it can be optimized for any specific measuring or control application. This section of the document provides information and instructions about each of the set-up parameters.

Depending on the instrument configuration ordered (e.g.: without transmitter signal output / with voltage signal output / with current signal output) some of

the menu options may not available. Some set-up parameters may be consequentially excluded. For example, if the instrument is ordered without a transmitter output, all signal conversion programming options are omitted in the set-up menu (s. 5.3.6. Signal Conversion and Transfer Functions).

All instrument settings can be conveniently done from a PC connected to the instrument through a serial interface adaptor. All set-up parameters can be viewed and changed on the PC screen. Also, the entire instrument set-up configuration can be loaded, stored on the PC's hard disk drive, and printed out for plant / process

documentation purposes. Further information about this PC software is given in the software documentation.

5.3.1. Selecting the Unit of Pressure Measurement

Make the necessary electrical connections (signal, power supply) to the instrument. Its pressure sensor must be pressure-free (i.e. vented to atmosphere; typically by disconnecting the pressure line/s).

The current valid unit of measurement is indicated by one of the back-lighted symbols to the right of the digital display. To change the unit of measurement, first press û then search for parameter EIN using þ . Next press û again and select another unit of measurement using þ or ÿ . Then presse again û to store the selection, and

EIN will appear again in the digital display.

To exit the set-up mode, press ÿ until ESc appears, and then press û. The current pressure measured value is indicated again, and the appropriate symbol of the unit of measurement (to the right of the digital display) is lighted.

The digital display is limited to a count of ±1999. Therefore, all the available units of measurement may not be suitable for selection for a given application.

5.3.2. Zero Point Checking and Adjustment

If the instrument has been de-pressurized (vented to atmosphere) and does not indicate precisely zero, note this non-zero value. Using the set-up parameter OF1, you can trim this offset to exactly zero. If the indicated non-zero value is positive, this value must be entered and stored as a negative offset value, and vice versa.

If the instrument was in use before zero setting is done, values of set-up parameters OF1 and nP would have been previously programmed. In this case, set both values to zero, read the

actual zero offset, and then use this value for OF1 for zero point correction, as described in the previous paragraph.

Note: The registered value is a pure number: no decimal point is indicated.

After correcting the zero offset, the pressure connections can be made again.

5.3.3. Damping and Zero Stabilization

If the media is subject to excessive pressure fluctuations, the displayed readings and the transmitter output signal can be stabilized using the instrument's DAM and NP setup parameters.

The set-up parameter DAM has the effect of a pulsation damper (on the displayed measurements, output signal and limit detection, - not on the sensor itself!). It adds a

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time-constant (averaging filter) in the user selectable range of 0.0 to 100.0 secs. When the damping is set to maximum, it took more than 2 minutes to reach the final value for a full scale pressure jump.

In many cases fluctuating pressure readings do not cause a problem, except when the plant / equipment is at zero (differential) pressure condition and readings fluctuate near about zero value. The set-up parameter NP is meant to take of this. Its value defines the number range across zero (similar to the zero offset correction number), within which the measured value is forced to zero. If a value of 8 is set for NP any pressure measurement in the range -0.08 to +0.08 bar (or -8 to +8 kPa) displayed as zero. Only when the actual pressure is outside this range will the display indicate a non-zero value. The actual and displayed pressures will agree starting from double the value of the

NP setting (in the given example: 0.16 bar or 16 kPa).

5.3.4. Output Signal Setting

The transmitter output signal depends primarily on the measured pressure. However, this signal can be adapted to meet users' application requirements precisely. The basic pressure range (as marked on the product identification label) and the type of output signal (voltage or current) always remain unchanged for a particular instrument unit.

The set-up parameters MA (measuring range starting point) and ME (measuring range end point) specify the pressure values between which the measurements are expected to be. Both values can selected anywhere within the specified measuring range of the instrument (e.g., 400 kPa). This user-programmed pressure range will correspond to the output signal (current or voltage) range, which will be as specified on the product identification plate: i.e., 0 - 10V or 4 - 20 mA.

If MA is lower than ME, the signal is said to have a positive slope: i.e., the output signal increases as the pressure increases. If ME is lower than MA, the output signal has a negative slope: i.e., the output signal decreases as the pressure increases.

The difference between the values of MA and ME must be at least 25% of the specified measuring range of the instrument (100 kPa for 400 kPa instrument example mentioned above). The software does not permit a smaller pressure span to be entered (the instrument will not allow storing of, nor exit from an invalid span).

Note: If you change MA and/or ME the look-up table (s .5.3.6., 5.3.7.) that existed up to that instant is deleted!

5.3.5. Output Signal Limiting (Namur)

The three set-up parameters oG1, oG2 and oEr specify the limits of the signal output current or voltage that are not to be exceeded, irrespective of the actual pressure.

These limit values have higher priority than the MA and

ME pressure span settings.

These settings serve mainly to prevent control systems from interpreting brief pressure excursions outside the measuring range as error / fault events. oG1 sets the output signal minimum value, and is useful only for a 4 - 0 mA current signal, because sometimes a value below 3.8 mA is defined as a sensor fault condition. oG2 sets the upper signal limit and is valid for either current or voltage signal (e.g., voltage signal output can be limited at 10.2 V).

An instrument fault condition can be transmitted as an output signal value set as parameter oEr. However, it should be understood that not all instrument fault and error conditions can be detected and signaled by the selfdiagnostic functions of the instrument.

5.3.6. Signal Conversion and Transfer Functions

In certain cases other process variables are derived from primary pressure measurement. Examples are flow rate derived from differential pressure across an orifice plate, and liquid level derived from hydrostatic pressure of liquid measured at the bottom of the tank. Such derivations often involve non-linear transfer functions, while it is necessary for the output signal to be linearly proportional to the derived variable (e.g. liquid volume in a tank in m3, or flow rate in cm3/sec).

The set-up parameter F allows the user to select the appropriate signal conversion function from those available:

• F = 0: Linear characteristic (default)

• F = 1: Square root extraction

• F = 2: Horizontal cylindrical tank

• F = 3...30: Look-up table with 3 to 30 pairs of values The tables generated by functions F = 0, F = 1 and F = 2

are not visible. For these functions, internal values are used for table computation. These values cannot be modified directly in the table by the user.

For all conversion functions, when the actual pressure is equal to the MA value, the output signal will be at the lowest end of its range (0 V, 0 mA or 4 mA). When the actual pressure is equal to the ME value, the output signal will be at the highest end of its range (10 V or 20 mA). The user can enter only the 1...28 intermediate values of

the look-up table function F = 3....30. The parameters MA

and ME relate to the start and end values of the look-up table. A change in either of these parameter values causes the conversion function to be re-set to F = 0.

Whenever the value of F is changed, the instrument internally generates a new look-up table. All previous table values are deleted and replaced by new linear progression values.

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5.3.7. Look-up Table Programming (F = 3..30)

If the value of set-up parameter F is selected equal to or greater than 3, a sub-menu LIn is invoked. Through this sub-menu all the required look-up table values can be entered, except the first and last pairs of table values (respectively corresponding to MA and ME). This sub-menu has its own entry and exit points, the latter being the last of the value pairs to be entered. The table is stored only when the user exits to the sub-menu prompt LIn, by pressing û. If the table is not correctly entered, the display will indicate Err, indicating an error condition. If this happens, it is not possible to exit this sub-menu mode until the error is corrected.

The table entries consist of 1 to 28 pairs of values. Values

I02 through I29 (or u02 through u29) specify the

amplitude of the out the signal output, and the values P02 through P29 are the corresponding pressure values.

Entering or changing table values through the instrument's membrane keyboard is a tedious and error-prone method. It should only be used as a stopgap method when a PC and/or the PC interface module is not available.

The table is accepted as correct if each output value is larger than its preceding value. Pressure values can be steadily increasing or steadily decreasing. However, a transition from falling to rising pressure values is not permitted; nor are pressure values allowed to turn back along the same curve.

5.3.8. Limit Setting

The two limit switching outputs   (relay contacts or solid-state switches) are each configured by four set-up parameters:

Switching output 1 is configured by parameters R1A,

R1E, R1D

and R1F.

Switching output 2 is configured by parameters R2A,

R2E, R2D

and R2F.

The turn-on and turn-off points of switching output 1 are defined respectively by parameters R1A and R1E. The values for these are set in the currently valid unit of measurement (indicated by the lighted symbol to the right of the digital display).

The two parameters R1A and R1E together determine the logic of switching output 1:

If R1A is smaller than R1E, the output turns on when the measured value exceeds R1E. It turns off again only when the measured value falls below R1A (hysteresis function).

If R1A and R1E have the same value, there is no hysteresis: the switching output turns on when the measured value exceeds R1A / R1E, and turns off again when the measured value falls below R1A / R1E.

If R1A is larger than R1E, the switching output turns on when the measured value falls between R1A and R1E: i.e., when R1E < measured value < R1A (window limit function).

Both parameters can be independently adjusted over the full measuring range.

If the unit of measurement is changed, the switching points are changed accordingly. In this event, rounding error can cause a deviation in the least significant (rightmost) digit.

The value of the set-up parameter R1D determines the delay time for switching output 1, after the measured value reaches the switching point. The delay value can be selected in the range 0.0 to 100.0 secs. This value applies equally to turn on and turn off.

The set-up parameter R1F determines the action of the switching output. If R1F = 1, the switching output acts as normally open (NO) contacts. If R1F = 2, it acts as normally closed (NC) contacts.

5.3.9. Password

The last set-up parameter allows a password to be entered. A password value of 001 to 999 can be selected. A value of 000 disables the password function.

If a password was set previously the digital display indicates PAS after Esc is displayed and û is pressed. The password is then entered, by pressing û and then

þ, ÿ. Only then will the set-up menu options be acces-

sible. If an incorrect password is entered, the display jumps back to beginning of the menu (i.e., Esc).

New Functions! (as of April 2008)

5.3.10. D0 – Display options

This parameter allows smoothing the displayed values in cases where they are frequently deviating. The filter function is similar to the dAM function, but acts only upon the display, having no impact on the output signal. Additionally the display can be turned off partially (D0 = -1, only the setpoint LEDs are driven) or completely (D0 = -2).

5.3.11. res – Reset to default values

This function will reset all parameters to default when activated. Default values can be defined only by using the PC interface.

5.3.12. MAF, MEF, dPF – Free Unit

If the device is configured to have a “free“ third unit (symbol: ) then the display can be scaled as desired by using these three parameters. The measuring range as defined by parameters MA and

ME is rescaled to MAF and MEF. If the table function ( F )

is enabled, table values will be taken into account too. The dPF value controls the position of the decimal point.

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5.4. Overview of Set-up Parameters

the instrument is turned on, it briefly displays the software version number, and then switches automatically to normal operating mode. Pressing û causes the set-up menu to be called up, indicated by Esc on the digital display. After that, by pressing þ repeatedly, each of the set-up parameters is called up in sequence:

Note: Depending on the version of the instrument that was ordered, some of the individual parameters might not be available.

• PAS Password input (appears only if password

function has been enabled). Values: 001 to 999

• DAM Damping (time constant). Range of values

= 0.0 to 100.0 secs

• D0 Damping (display only), range of values 0..100.

Additional: -1 = no digital value and -2 = display turned off completely.

• R1A Switching output 1: turn-off point.

• R1E Switching output 1: turn-on point.

• R1D Switching output 1: delay. Range of values =

0.0 to 100.0 sec. This values applies equally for turn-on and turn-off delays.

• R1F Switching output 1 action. If R1F = 1, acts as NO contacts. If R1F = 2, acts as NC contacts.

• R2A Switching output 2: turn-off point.

• R2E Switching output 2: turn-on point.

• R2D Switching output 2: delay. Range of values =

0.0 to 100.0 sec. This values applies equally for turn-on and turn-off delays.

• R2F Switching output 2 action. If R1F = 1, acts as NO contacts. If R1F = 2, acts as NC contacts.

• EIN Unit of measurement. The selection is indicated by the lighted symbol to the right of the digital display. A particular unit can be selected only if it can be meaningfully represented within the basic measuring range of the instrument.

• MA Measuring range start point. The value of the measured variable corresponding with the minimum value of the output signal (0 V, 0 mA or 4 mA, depending on the instrument version).

• ME Measuring range end point. The value of the measured variable corresponding with the maximum value of the output signal (10 V or 20 mA, depending on the instrument version).

• dPF Position of decimal place for free unit.

• MAF Measuring range start point (displayed value) for free unit.

• MEF Measuring range end point (displayed value)

for free unit.

• NP Zero stabilization. Range = 0 to 100 counts.

The value spans symmetrically around the actual zero point.

• OF1 Zero offset correction, input 1. Range = -100 to

+100 counts.

• F Signal conversion function. (0 = linear,

1 = square root, 2 = horizontal cylindrical tank,

3..30 = look-up table)

• lIn Look-up table entry (sub-menu)

• oG1 Output signal limiting, minimum

• OG2 Output signal limiting, maximum

• OEr Fault signaling (output signal value on detec-

tion of instrument fault).

• res Reset all values to default. (Default values can

be defined only by using the PC interface.)

• -P- Password setting. Permissible password valu-

es = 001 to 999. "000" disables password protection.

If the password is lost, the instrument can be unlocked only through a serial interfaced PC, or the instrument has to be sent to the manufacturer for this purpose.

If oG1 and oG2 are both set to "0", the output signal will not be subjected to limiting.

If oG1 is set at the maximum value (11 V or 21 mA), the output signal can be adjusted using oG2 to any arbitrary value between zero and maximum val-

ue, irrespective of pressure measurement. This feature enables the instrument to be used as a simulated signal source to test signal lines and other instruments or systems.

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5.5. Electrical Connections, Switching Outputs

Switching outputs:

Switching output 1 is configured by parameters R1A,

R1E, R1D,

and R1F.

Switching output 2 is configured by parameters R1A,

R1E, R1D,

and R1F.

Power supply voltage and output signal load:

Nominal supply voltage and the operating supply voltage range are indicated under 11. Specifications.

The maximum output signal loads are indicated under

11. Specifications.

The signal ground line is internally connected to the instrument ground, and serves only as an alternative ground connection for the output signal. This usually increases the noise margin.

6. Maintenance

The instrument is inherently maintenance-free.

However, to ensure reliable operation and maximize the operating life of the instrument, it is recommended that the instrument, its external electrical and process connections, and external connected devices be regularly inspected, e.g.:

• Check the display.

• Check the switching function in connection with external devices.

• Check all pressure connections for leak-tightness.

• Check the integrity of all electrical connections of the instruments.

Inspection and test schedules depend on operating and site conditions. The operating manuals of other equipment to which the transmitter is connected must be read thoroughly to ensure that all of them work correctly when connected together.

7. Transport

The product must be protected against shock and vibration during transport. It must therefore be properly pakked, preferably in the original factory packaging, whenever it is to be transported.

8. Service

Any defective devices or devices with missing parts should be retourned to Fischer Mess- und Regeltechnik GmbH. For quick service contact our service department.

Remaining medium in and on dismantled measuring instruments may cause danger to persons, environment and equipment. Take reasonable precautions! Clean the instrument thoroughly if necessary.

9. Accessories

• Wall mounting adaptor plate (s. Ordering Code)

• M12 connectors with pre-wired cable lengths (on request)

• PC serial interface adaptor with software: model EU03.F300

10. Disposal

Protect your environment! Use the product in accordance with relevant regulations. Please be aware of environmental consequences of disposal at the end of the product's life, and take care accordingly.

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11. Specifications

General

Measuring

range

mbar 0-400 0-600 0-1000 0-1600

bar 0-1.000 0-1.600 0-2.50 0-4.00 0-6.00

max. static

operating

pressure

bar 16 bar

straight line

error (max.)°

%FS 2.5 %

Straight line

error (typ.)°

%FS 0.8 %

Tc span (max.)°°

%FS

10K

0.8 % 0.4 %

Tc span

(typ.)°°

%FS

10K

0.2 %

Tc zero point

(max.)°°

%FS

10K

0.8 % 0.5 %

Tc zero point

(typ.)°°

%FS

10K

0.2 %

Operating temp.

(ambient)

Operating temp.

(media)

Storage temperature

Protection class (housing)

-10CT

amb

60C

-10CT

amb

60C

-20 ... 70°C IP 65 acc.to DIN EN 60529

Electrical Data

Nominal supply voltage

Operating supply voltage

Output signal

24 V DC / AC 12 ... 32 V DC / AC 0 ... 20 mA, 4 ... 20 mA, 0 ... 10 V DC 3-wire

Output signal

load

For output current RL  (UB - 4V) / 0.02A (UB  26V), else RL  1100  For output voltage R

 2 K (UB  15V), RL  10 K (UB = 12 …15V)

Power consumption approx. 2 W / VA

Switching contacts 2 programmable voltage free MOSFET switch outputs; NO/NC

U = 3 … 32 V DC/AC, I

max

= 0.25 A, P

max

= 8 W/VA, RON  4 

Display 3½ digit LED

Connections, Materials, Mounting

Electrical connections Two round-shell multi-pin connector sockets (M12, male)

Connector 1: 5-pin: power input and analog signal output Connector 2: 4-pin: relay contacts / solid-state switch outputs

Pressure connections G 1/8 female threads with optional cutting ring fittings for 6 or 8 mm tube

Materials, housing

Materials, media

contact

Polyamid PA6.6 Brass, Viton®, NBR

Mounting Wall mountable using adaptor plate

Declaration per Directive 94/9/EC (ATEX) II 3Gc EEx nA IIC T4

Power supply Only a CE-conformal power supply may be used.

Supply wiring system must be fused with 200 mA inert.

°: Straight line error = nonlinearity + hysteresis; at 25°C; pressure within specified range (characteristic linear, not spreaded)

°°: Pressure within specified range (characteristic linear, not spreaded); compensated temperature range 0 to 60°C

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11.1. Programming

Via membrane key-switches or by using PC-programming interface (accessory), programming mode can be password protected.

Notes: (1) Measured value deviations up to 100 counts symmetric about zero are set to zero. Used for zero drift suppression. (2) Maximum effective turn-down ratio = 4:1. Only the output signal is affected.

Transfer function is inverted if start value > end value.

(3) Zero calibration setting may change with mounting orientation.

12. Dimensions (all units in mm unless stated otherwise)

Settings:

Input filtering 0.0 ... 100.0 secs (10 / 90% step response time) for signal output, display seperated

Relay / switch 1 / 2 activation point, de-activation point, response time delay (0.0 ... 100.0 secs),

logic (N/O or N/C)

Measurement unit selection bar / kPa / „free unit“ start value, end value and decimal place for „free unit“

Zero suppression 0 ... 100 counts (1)

Output signal start / end value can be set at any point of measuring range (2)

Zero pressure calibration ±100 counts (3)

Output characteristic linear, square rooted, horizontal cylindr. tank, table (3...30 entries)

Password range 001 ... 999 (000 = password protection disabled)

Electrical Connection / Switching Function

M 12 connector

Holes for sheet metal screws:

3.5 mm dia.

connector 1

connector 2

G1/8 female

cutting ring fittings for 6 or 8 mm tubes

Wall mounting adaptor

plate (optional)

Rear view without

wall mounting adaptor plate

(standard)

Page 11

13. Ordering Code

Digital Differential Pressure Transmitter / Switch DE38

Measuring Range

0 . . 400 mbar...........................................................................................> 8 3

0 . . . . 0.6 bar...........................................................................................> 0 1

0 . . . . 1 bar...........................................................................................> 0 2

0 . . . . 1.6 bar...........................................................................................> 0 3

0 . . . . 2.5 bar...........................................................................................> 0 4

0 . . . . 4 bar...........................................................................................> 0 5

0 . . . . 6 bar...........................................................................................> 0 6

Sensor Materials

Pressure chambers, diaphragm, gaskets: brass / NBR .............................................> M

Pressure chambers, diaphragm, gaskets: brass / Viton®.......................................... > N

Pressure Connections

G 1/8 female thread .....................................................................................................................> 0 0

Brass cutting ring fitting for 6 mm tube ........................................................................................> 2 8

Brass cutting ring fitting for 8 mm tube ........................................................................................> 2 9

Signal Output

No signal output ............................................................................................................................................ > 0

Current output: 0 - 20 mA linear, 3-wire........................................................................................................ > A

Voltage output: 0 - 10 V DC linear, 3-wire .................................................................................................... > C

Current output: 4 - 20 mA linear, 3-wire........................................................................................................ > P

Supply Voltage

24 V DC/AC (12-32 V DC/AC) ............................................................................................................................... > K

Customized Number

This addition defines all customised features

Marking for usage in zone 2 - hazardous gases CE II 3 Gc EEx nA IIC T4 ................................................. >

Display and Limit Switching Points ................................................................................................................>

Electrical Connection .............................................................................................................................................. >

Mounting........................................................................................................................................................................... >

13.1. Accessories

Ordering Code Designation Pins Application Length

06401993

cable with M12 connector 4-pin for relay / switch

2 m

06401994

cable with M12 connector 4-pin for relay / switch

5 m

06401995

cable with M12 connector 5-pin for supply / signal

2 m

06401996

cable with M12 connector 5-pin for supply / signal

5 m

EU03.F300 PC-programming interface with SW

# K R

Page 12

Technische Änderungen vorbehalten • Subject to change without notice • Changements techniques sous réserve

Fischer Mess- und Regeltechnik GmbH • Bielefelder Str. 37a • D-32107 Bad Salzuflen • Tel. +49 5222 9740 • Fax +49 5222 7170

eMail: info@fischermesstechnik.de • www.fischermesstechnik.de

14. Declaration of Conformity