Echotel® Model 335
Installation and Operating Manual
Non-Contact Ultrasonic Transmitter For Level, Volume, and Open Channel Flow Measurement
�Read this Manual Before Installing This manual provides information on the Echotel Model 335 Non-Contact Ultrasonic Transmitter. It is important that all instructions are read carefully and followed in sequence. Detailed instructions are included in the Installation section of this manual. Conventions Used in this Manual Certain conventions are used in this manual to convey specific types of information. General technical material, support data, and safety information are presented in narrative form. The following styles are used for notes, cautions, and warnings. Notes Notes contain information that augments or clarifies an operating step. Notes do not normally contain actions. They follow the procedural steps to which they refer. Cautions Cautions alert the technician to special conditions that could injure personnel, damage equipment, or reduce a component’s mechanical integrity. Cautions are also used to alert the technician to unsafe practices or the need for special protective equipment or specific materials. In this manual, a caution box indicates a potentially hazardous situation which, if not avoided, may result in minor or moderate injury. Warnings Warnings identify potentially dangerous situations or serious hazards. In this manual, a warning indicates an imminently hazardous situation which, if not avoided, could result in serious injury or death. Safety Messages Follow all standard industry procedures for servicing electrical equipment when working with or around high voltage. Always shut off the power supply before touching any components. WARNING! Explosion hazard. Do not connect or disconnect equipment unless power has been switched off or the area is known to be non-hazardous.
Low Voltage Directive For use in Installation Category II, Pollution Degree 2. If equipment is used in a manner not specified by the manufacturer, protection provided by the equipment may be impaired. Notice of Trademark, Copyright, and Limitations Magnetrol & Magnetrol logotype, and Echotel are registered tradenames of Magnetrol International, Incorporated. Copyright © 2011 Magnetrol International. All rights reserved. Performance specifications are effective with date of issue and are subject to change without notice. Magnetrol reserves the right to make changes to the product described in this manual at any time without notice. Magnetrol makes no warranty with respect to the accuracy of the information in this manual. Warranty All Magnetrol electronic level and flow controls are warranted free of defects in materials or workmanship for one full year from the date of original factory shipment. If returned within the warranty period; and, upon factory inspection of the control, the cause of the claim is determined to be covered under the warranty; then, Magnetrol will repair or replace the control at no cost to the purchaser (or owner) other than transportation. Magnetrol shall not be liable for misapplication, labor claims, direct or consequential damage or expense arising from the installation or use of equipment. There are no other warranties expressed or implied, except special written warranties covering some Magnetrol products. Quality Assurance The quality assurance system in place at Magnetrol guarantees the highest level of quality throughout the company. Magnetrol is committed to providing full customer satisfaction both in quality products and quality service. The Magnetrol Corporate quality assurance system is registered to ISO 9001 affirming its commitment to known international quality standards providing the strongest assurance of product/service quality available.
51-637 Echotel Model 335 Ultrasonic Transmitter
�Echotel Model 335 Non-Contact Ultrasonic Transmitters
Table of Contents
1.0 Installation 1.1 Unpacking ...............................................................4 1.2 Mounting and Application Considerations ..............4 1.2.1 Position........................................................4 1.2.2 Orientation ..................................................4 1.2.3 Temperature.................................................4 1.2.4 Obstructions ................................................5 1.2.5 Standpipes....................................................5 1.2.6 Foam............................................................5 1.2.7 Vapors..........................................................5 1.2.8 Wind ...........................................................5 1.2.9 Open Channel Flow Measurement ..............5 1.3 Electrostatic Discharge (ESD) Handling Procedure..6 1.4 Wiring .....................................................................6 1.5 Configuration ..........................................................7 1.5.1 LCD Module ...............................................7 1.5.2 QuickSet Configuration .................................9 1.5.3 Basic Functions ..........................................10 1.5.4 Setting QuickSet Configuration Parameters .10 1.6 Complete Configuration........................................12 1.6.1 Measurement Configuration Parameters ....13 1.6.2 mA Current Output Settings .....................19 1.6.3 SPDT Relay Configuration........................20 1.6.4 Performance Enhancement ........................21 1.6.5 Volume Configuration ...............................26 1.6.6 Open Channel Flow Configuration ...........27 1.6.7 Linearization Table.....................................31 1.6.8 Information Parameters..............................32 1.6.9 Open Channel Flow Head and Totalizers ..34 1.6.10 Output Test Parameters..............................34 1.6.11 Simulation Mode .......................................35 1.6.12 Additional Software Parameters..................36 1.7 Diagnostic Error Codes..........................................37 2.0 Reference Information 2.1 Description ............................................................38 2.2 Theory of Operation..............................................38 2.3 Performance ...........................................................38 2.4 Measurement Range Calculations ..........................39 2.5 Velocity of Sound in Gases other than Air .............40 2.6 Specifications .........................................................40 2.6.1 Performance ................................................40 2.6.2 Transmitter..................................................41 2.6.3 Transducer ..................................................41 2.6.4 Physical .......................................................42 2.7 Model Number ......................................................42 2.8 Configuration Parameter Worksheet ......................43
51-637 Echotel Model 335 Ultrasonic Transmitter
�1.0
Installation
Caution: If equipment is used in a manner not specified by manufacturer, protection provided by equipment may be impaired.
1.1
Unpacking Unpack the instrument carefully. Inspect all units for damage. Report any concealed damage to carrier within 24 hours. Check the contents of the packing slip and purchase order. Check and record the serial number for future reference when ordering parts.
Caution: Do not discard the shipping container until all parts are checked.
1.2
Mounting and Application Considerations
Caution: Unit should only be hand-tightened (4 –12 ft-lbs) into the process connection. The wrench flats should only be used when removing the unit. Overtightening will cause transducer errors and will void the warranty.
There are several application considerations that should be evaluated prior to installing a non-contact ultrasonic transmitter. The next few pages should be read thoroughly to ensure that the Model 335 will perform as expected in the given application. Section 2.4, Measurement Range Calculations, provides measurement range calculations that should be used to determine the maximum potential range in difficult applications.
1.2.1 Position
The optimum mounting position of the Model 335 is between 1⁄2 of the radius and 2⁄3 diameter of the (cylindrical) tank. This will position the unit to minimize any interference that the 7° beam (3.5° half angle) has with the tank walls or any agitator blades that exist in the tank. Refer to beam angle figure on page 38.
1.2.2 Orientation
The face of the transducer must be parallel to the liquid surface within ±2° to 3°.
1.2.3 Temperature
Sunshade
Ensure that the transmitter will be protected against overheating by direct sunshine. When the unit will be subjected to severe direct sun, the use of a sunshade is recommended.
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51-637 Echotel Model 335 Ultrasonic Transmitter
�1.2.4 Obstructions
Ensure that no obstacles (e.g., fill pipes, ladders, bracing members, thermometers, etc.) protrude into the ultrasonic beam. Although one fixed object in the tank can be blocked out by appropriate programming, it is advised to avoid these obstructions.
1.2.5 Standpipes
In applications where the material level may come into the deadband, the transducer must be mounted in a standpipe. Refer to Section 1.6.1, Measurement Configuration Parameters, P05: Deadband for deadband value. The inner rim of the standpipe must be smooth and free of burrs. The minimum diameter for a given length of standpipe is shown at left.
1.2.6 Foam
Diameter
Standpipe Length
6" (150 mm) 8" (200 mm) 10" (250 mm) 12" (300 mm) 14" (350 mm)
Minimum Diameter
3" (75 mm) 3" (75 mm) 4" (100 mm) 5" (125 mm) 5" (125 mm)
Foaming of the liquid surface may render ultrasonic level measurement impossible. If possible, a mounting location should be found, where foaming is at a minimum. Another alternative is to install the transducer in a stilling well that extends below the lowest level to be measured in the tank.
1.2.7 Vapors
Length
Closed tanks that contain chemicals or other liquids that create vapors, may severely reduce the maximum measuring range. Refer to the Section 2.4, Measurement Range Calculations for more information.
1.2.8 Wind
Intensive moving of the air in the vicinity of the ultrasonic beam is to be avoided. A strong wind may not allow the return echo to be received by the ultrasonic transducer.
1.2.9 Open channel flow measurement
For the best accuracy, install the transducer as close as possible above the expected maximum water level in the flume or weir. Install the Model 335 upstream of the flume throat or weir crest in the location defined by the manufacturer of the primary measuring device. The unit should also be aligned with the longitudinal axis of the flume or weir.
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�1.3
Electrostatic Discharge (ESD) Handling Procedure Magnetrol electronic instruments are manufactured to the highest quality standards. These instruments use electronic components that may be damaged by static electricity present in most work environments. The following steps are recommended to reduce the risk of component failure due to electrostatic discharge. Ship and store circuit boards in anti-static bags. If an antistatic bag is not available, wrap the board in aluminum foil. Do not place boards on foam packing materials. Use a grounding wrist strap when installing and removing circuit boards. A grounded workstation is recommended. Handle circuit boards only by the edges. Do not touch components or connector pins. Make sure that all electrical connections are completely made and none are partial or floating. Ground all equipment to a good, earth ground.
1.4
Wiring
Caution: Power must be switched off before wiring the unit. OBSERVE ALL APPLICABLE ELECTRICAL CODES AND PROPER WIRING PROCEDURES. Caution: Terminal blocks must be removed with needle nose pliers. Forcing them out with a screwdriver will cause damage and void the warranty.
7
COM
Display Module Connector Relay1
8 9 NO NC
Power supply
12
4 ... 20 mA Output 4 5
+I 10 11
COM
Relay2 1/2" NPT 1/2" NPT
12
M20x1.5
M20x1.5
GND
1. Unscrew the housing cover and remove the LCD module to access the removable terminal blocks (TB) position 1–9. 2. Use of 16–22 AWG wire is recommended. 3. The 4–20 mA signal cable should be separated from the supply voltage and relay cabling. Using a different conduit opening is recommended for the 4–20 mA cable. 4. TB 1/2 is used for the 85 to 255 VAC (Model # 335AA1A-G5P) or 20 to 28 VDC (Model # 335-AD1A-G5P) supply voltage. 5. Terminals 4 (+) and 5 (–) connect the 4–20 mA signal. 6. Use the wiring diagram at left to terminate the relay wires. TB 7/8/9 is a 3-amp SPDT relay. TB 10/11/12 is a 1-amp SPDT bistable relay. A bistable (remanent) relay does not return to rest upon loss of power.
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51-637 Echotel Model 335 Ultrasonic Transmitter
�1.5
Configuration There are two methods of configuring the Echotel Model 335 transmitter: 1. QuickSet Configuration that allows an extremely basic level application configuration. 2. Complete Configuration which is used for most level applications, and any volume or open channel flow configuration.
1.5.1 LCD Module
The LCD module can be used to set any of the configuration parameters used with the 335 transmitter. The LCD module can also be removed from the transmitter to configure other 335 transmitters, or as a precautionary measure to avoid unauthorized changes to the configuration data. It is not necessary to power down the 335 prior to removing or replacing the LCD module. The 335 is fully functional without the plug-in LCD module. The LCD module consists of a bar graph that indicates echo strength or level as a percentage of span, and a custom graphics display that shows all configuration, measurement, and diagnostic data. The symbols below are used in the LCD module: DIST = Distance from the face of the transducer to the liquid surface LEV = Level measurement from the bottom of the vessel VOL = Volume of liquid in the vessel FLOW = Flow measurement in the flume or weir PROG = Programming mode (transmitter is being programmed) RELAY = Relay is energized T1 = Displays the volume in the resettable totalizer T2 = Displays the volume in the non-resettable totalizer FAIL = A diagnostic failure has been detected = Indicates increasing level in the vessel = Indicates decreasing level in the vessel = Indicates stable level in the vessel
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�The middle row of the LCD module consists of a 6-digit alphanumeric display of all data. Engineering units for the numeric data are printed above and below the LCD. Two pointers are used to indicate which units pertain to the display that is currently being viewed. The pointer in the upper right portion of the module indicates: M = Metric (numbers displayed can be either cubic meters, meters, cm, or liters) US = US (numbers displayed can be either cubic feet, feet, inches, or gallons) Programming with the LCD module involves pressing one or two (simultaneously) of the four push buttons. The push buttons can also be used to access data while in the normal operating mode as shown below.
Push Button ENTER While Configuring Unit QuickSet Configuration: saves the displayed data and proceeds to the next parameter register Complete Configuration: switches between the parameter value and the parameter register Shifts the blinking digit one position to the left Used to increase the value of the blinking digit Used to decrease the value of the blinking digit In Normal Mode Not used
NEXT UP DOWN
Switches between measurement modes (level, distance, volume, flow) Displays the temperature reading Displays the current (mA) reading
ENTER
UP
NEXT
DOWN
There are three LEDs in the LCD module. The ECHO LED will be continuously lit when the 335 is receiving a good signal back from a stable level surface. The ECHO LED will blink when it is receiving a signal back from a decreasing or increasing level surface. When the ECHO LED is not lit the 335 has lost the signal, and cannot make a reliable measurement. The IrDA LED is only used at the factory for software upgrades. The COM LED is not used.
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51-637 Echotel Model 335 Ultrasonic Transmitter
�1.5.2 QuickSet Configuration
Some very basic level applications can be easily set-up by using the QuickSet Configuration. Open channel flow, volume, or more detailed level configuration is performed by using Section 1.6, Complete Configuration. The following eight parameters are set by using QuickSet: 1. Engineering units of feet or meters (other units can be selected by using the Complete Configuration) 2. Range (maximum measuring distance) 3. 4 mA setpoint 4. 20 mA setpoint 5. 6. 7. 8. Failsafe indication of 3.6 mA, 22 mA, or “Hold” Damping time of up to 60 seconds Level value that will energize the SPDT relays Level value that will de-energize the SPDT relays The Model 335 is shipped with “Level” as the default for the LCD, bargraph, and mA current output. The factory default values for the QuickSet Configuration data are: Engineering units of feet Range of 26 feet 4 mA set at 0 feet 20 mA set at 24.8 feet (Range – 14" deadband) Failsafe set for “Hold” last value Damping time of 60 seconds
1. 2. 3. 4. 5. 6.
7. Relay energize value of 0 feet 8. Relay de-energize value of 0 feet Holding the and buttons down at the same time for 3 seconds allows entry into the QuickSet menu. The instructions for entering or exiting QuickSet are also printed on a label under the housing cover, just above the LCD module.
51-637 Echotel Model 335 Ultrasonic Transmitter
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�1.5.3 Basic Functions
The commands below set the basic functions of the 335 transmitter during QuickSet Configuration.
Push Button Keys ENTER + DOWN (press for 3 seconds) UP or DOWN Function Enter or exit QuickSet Configuration menu Increase or decrease value of blinking digit, or scroll up/down to change parameters Move the blinking digit to the left (to change its value) Saves the value currently being displayed and moves to the next QuickSet parameter
NEXT ENTER
Shown below are some additional commands that can be used while in the QuickSet menu. Keystrokes for displaying the "Get Level" command described below are also printed on the label just below the LCD module. The “Get Level” command is especially useful if the level or distance parameter is unknown, and the liquid is at the proper height in the tank.
Push Button Keys UP + DOWN (press for 3 seconds) Function Accesses the "Get Level" screen to display the actual measured level or distance currently being measured by the Model 335 transmitter Reset parameter back to the previously saved value Reset the currently displayed parameter back to the factory default value
NEXT NEXT
+ UP + DOWN
1.5.4 Setting QuickSet Configuration Parameters
The table on page 11 shows how to set all eight of the QuickSet Configuration parameters.
NOTE: Current output can also be programmed for inverted operation: 4 mA = 100% (Full), 20 mA = 0% (Empty) NOTE: If a parameter value is not accepted by the LCD module, the existing parameter value will keep blinking. This is due to:
1. The value is out of range (example would be trying to enter a range value larger than 26.00 feet) 2. The parameter value is not valid for this screen
10
51-637 Echotel Model 335 Ultrasonic Transmitter
�NOTE: If no push buttons are pressed for 30 minutes, the transmitter will automatically return to the measurement mode, and operate with the parameters entered during the last completed programming.
To enter or exit the QuickSet Configuration menu press ENTER + DOWN keys for 3 seconds. The LCD module should now display the level of the liquid media.
Display Ap:xxyy Actions Application xx: Select “EU” (European) for metric or “US” for US engineering units by using UP / DOWN keys yy: Select “LI” for liquid or “So” for solids level applications (Note: Solids are not currently supported) Factory Default Value: US and LI After selecting the desired value press the ENTER to save the value and proceed to the next parameter. H: xxxx Range (maximum measuring distance) Distance between transducer face and bottom of the tank. Manual Entry: Set value using UP / DOWN / NEXT keys and save it with the ENTER key. Automatic Entry: Use the “Get Level” function (UP + DOWN ) to obtain the actual measured value in the tank, or to a fixed target, i.e., wall. Press ENTER to save value and proceed to the next parameter Note: The “Get Level” feature only works if the Echo LED is lit. Factory Default Value: 26 feet (maximum range) 4: xxxx Level value assigned to 4 mA current output Manual Entry: Set level value using UP / DOWN / NEXT keys and save it with the ENTER key. Automatic Entry: Use the “Get Level” function (UP + DOWN ) to display the actual measured value with level in the tank or to a fixed target. Press ENTER to save value and proceed to the next parameter. Note: The “Get Level” feature only works if the Echo LED is lit. Factory Default Value: 0 feet (0% value or, empty tank) 20: xxxx Level value assigned to 20 mA current output Manual Entry: Set level value using UP / DOWN / NEXT keys and save it with the ENTER key Automatic Entry: Use the “Get Level” function (UP + DOWN ) to display the actual measured value with level in the tank or to a fixed target. Press ENTER to save value and proceed to the next parameter. Note: The “Get Level” feature only works if the Echo LED is lit. Factory Default Value: 24.8 feet (100% full tank, this value is range minus the deadband of 14") Er is the failsafe Error indication value. Select “Hold”, “3.6” mA or “22.0” mA by using the UP / DOWN keys, and press ENTER to save the value and proceed to the next parameter. Factory Default Value: "Hold" last mA current value dt is the damping time (in seconds) required for the level application Select 0, 3, 6, 10, 30, or 60 seconds by using the UP / DOWN keys) and press ENTER to save it as above. Factory Default Value: 60 seconds rE is the level value that will energize the SPDT relay. When the level in the tank exceeds this value the relay will energize. Select the desired value by using the UP / DOWN / NEXT keys and save it with the ENTER key. Factory Default Value is 00.00 rd is the level value that will de-energize the SPDT relay. When the level in the tank gets below this value the relay will de-energize. Select the desired value by using the UP / DOWN / NEXT keys and save it with the ENTER key. Factory Default Value is 00.00
H:xxxx
4:xxxx
20:xxxx
Er:xxxx
dt:xxxx
rE:xxxx
rd:xxxx
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�1.6
Complete Configuration Open channel flow, volume, and more advanced level applications are configured using the Complete Configuration Menu. To enter (or exit from) this menu press the ENTER + NEXT keys simultaneously for 3 seconds. While programming the 335 in this menu, the display will indicate: yy is the Parameter Register xxxx is the Parameter Value
yy:xxxx
NOTE: While in the programming mode, the 335 will continue to measure level based on pre-existing configuration parameters. New configuration parameters will be used after exiting the programming mode.
The following keystrokes can be used while programming in the Complete Configuration Menu:
Keystrokes ENTER + NEXT (press for 3 seconds) UP / DOWN ENTER Action when Parameter Register is blinking Enter or exit Complete Configuration Menu Scroll up or down Parameter Registers Switches blinking digit to the Parameter Value side of the display Move blinking digit one position to the left Cancel programming changes made to all registers and revert back to previous parameter values. Must press for 3 seconds until CANCEL is displayed in LCD. Resets entire unit back to the Factory Default Values. Since this will reset all parameters, "LOAD" will appear on the display: • Press ENTER to confirm this reset • Press any other key to CANCEL and escape The only exception is clearing TOT1 (Parameter P77) Action when Parameter Value is blinking Nothing – Parameter Register must be blinking to enter or exit the Complete Configuration menu Increase or decrease Parameter Value Saves changes to the Parameter Value and switches back to the Parameter Register side of the display Move blinking digit one position to the left Cancel programming changes made to all registers and revert back to previous parameter values. Must press for 3 seconds until CANCEL is displayed in LCD. Displays the default of the Parameter Value • Press ENTER to save the default value • Press UP / DOWN to change to another value
NEXT NEXT + UP (press for 3 seconds)
NEXT
+ DOWN
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51-637 Echotel Model 335 Ultrasonic Transmitter
�1.6.1 Measurement Configuration Parameters
The following pages explain how to configure each of the parameters in the Complete Configuration. Since some of the Parameter Registers are not used by the 335, several parameters are skipped. Refer to Configuration Parameter Worksheet, Section 2.8, for a complete listing of all the parameters. Many of the registers have multiple configurations within the same register. For example, P00 below is used to select Metric or US, the engineering units, and the application. Since some registers only have one configuration (“a”), and some have more than one, the digit order for each register is d, c, b, a. P00: - cba Application and Engineering Units Factory default value for P00 is: 000
Measuring System Metric US
c 0 1
b 0 1
Engineering Units (see “c”) English Metric feet meter inch cm
a 0 1
Application* Liquid level measurement Solid level measurement
Display Indication “Li” “So”
*NOTE: The 335 does not support solids level measurement at this time.
51-637 Echotel Model 335 Ultrasonic Transmitter
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�P01: - ba
Bar Graph and Measurement Mode Factory default value for P01 is: 11
The bar graph can be set at “0” to indicate the strength of the return echo, or to “1” to indicate the mA current output as a percentage of the span. The Measurement Mode configures the 335 for the desired application. If “0” is selected the only measurement value that will be displayed is distance. Selecting other values will allow distance, level, and volume or flow measurements to be displayed alternatively by using the NEXT key in the operating mode. The value of “a” in P01 also determines the values of registers P40 through P48. If “3” or “4” is selected these values will be volume parameters, and if “5” is selected these values will be flow parameters.
b 0 1 a 0 1 2 3 4 5 Bar Graph Indication Echo strength Current output Measurement Mode Distance Level Level in percentage Volume Volume in percentage Flow Displayed Measurements DIST LEV, DIST LEV%, LEV, DIST VOL, LEV, DIST VOL%, VOL, LEV, DIST FLOW, T1, T2, LEV, DIST
NOTE: Tank or flume/weir dimensions must be entered prior to displaying volume or open channel flow values. Programming for these parameters begins with P40.
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51-637 Echotel Model 335 Ultrasonic Transmitter
�P02: - cba
Calculation Units Factory default value for P02 is: 000
Engineering units for volume are selected in “b”, and units for open channel flow are selected using “b” and “c”. Metric or US for “b” is selected by the value of “c” in P00. The volume can also be displayed in units of weight by setting “b” and entering the density of the fluid in P32. The value of “a” determines the temperature units when the UP key is pressed in the operating mode.
c 0 1 2 3 Time Sec Min Hour Day
b 0 1
Volume Weight (set also P32) Open Channel Flow US Metric US Metric US Metric 3 3 3 ft m lbs (pounds) – ft /time m3/time gallons liter tons tons gallons/time liter/time a 0 1 Temperature °C °F
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�P03: - a
Displayed Values (Rounding & Decimal Position) Factory default value for P03 is: 0
Level and distance applications do not use P03 since the biggest number that can be displayed on the 6 digit LCD is 800 cm, or 315 inches. Displayed values for volume and open channel flow applications can become quite large, and for this reason it may be easier to read the LCD if rounding is used. Rounding
a 0 1 2 3 4 5 Displayed Value Steps 1 = no rounding 2 5 10 20 50
Fractional inch changes in a large tank will cause rapid fluctuations in the LCD when measuring volume. Turbulence in a tank or open channel flow element may also cause unwanted display fluctuations. Rounding values (2, 5, 10, 20, 50) represent the numeric steps the calculated value will change in the last one (or two) digit(s). Examples: P03 = 1 steps by 2: 1,000 ⇒ 1,002 ⇒ 1,004 ⇒ 1,006 P03 = 5 steps by 50: 1,000 ⇒ 1,050 ⇒ 1,100 ⇒ 1,150 Displayed VOL or FLOW
Displayed Value 00.000 – 9.999 10.000 – 99.999 100.000 – 999.999 1000.000 – 9999.999 100000.000 – 99999.999 1 million – 9.99999*109 over 1*1010 Decimal Position x.xxx xx.xx xxxx. xxxxx. xxxxxx. x.xxxx : e (exponential form) (overflow) Err4
As the numeric display becomes larger in volume and open channel flow applications, the decimal point is automatically shifted over to accommodate the larger numbers in the 6 digit LCD. Values over one million will be displayed in exponential format where the value (e) represents the exponent. Once over the value of 1x1010 Err4 (overflow) will be displayed.
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51-637 Echotel Model 335 Ultrasonic Transmitter
�P04:
Range
Range is the maximum measuring distance. For level and volume applications this is the distance from the face of the transducer to the bottom of the tank. LEVEL = P04 (programmed) – DISTANCE (as measured from transducer face to liquid surface) Since the measurement accuracy of the 335 depends on a correct value of P04, it is critical to know the exact distance between the face of the transducer and the bottom of the tank. If this value is unknown, it can be set using the “GET LEVEL” command. Make sure the tank is empty, or at the 0% level mark. While in P04, press the ENTER key so that the four digit parameter is blinking. Press the UP + DOWN keys simultaneously for 3 seconds, and the unit will display the measured distance between the transducer face and the bottom of the tank. If satisfied with the displayed value press the ENTER key to accept this as the range value. The factory default range value of 26 feet (8 meters) can be displayed while in P04. Press the ENTER key until the four-digit parameter is blinking, and then simultaneously press the NEXT + DOWN keys. The default value will be shown. Press the ENTER key to accept this value, or input the appropriate value for the specific application. Range values will be displayed as shown.
Engineering Unit m cm ft inch Display Format x.xxx or xx.xx xxx.x xx.xx or xxx.x xxx.x
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�P05:
Deadband Factory default value for P05 is: 14.0 inches
Deadband (P05)
DIST=distance (measured)
Range (P04) Span (P04-P05)
Non-contact ultrasonic transmitters require a “deadband” or “blind space” between the face of the transducer and the maximum liquid level. The minimum deadband for the Model 335 is 14" (35 cm), as shown in the drawing at left. The 335 will not process any ultrasonic signals within the deadband. For this reason, it may be necessary to mount the transducer in a standpipe to enable the 335 to measure all the way to the top of a tank. Refer to Section 1.2.4, Standpipes, for information on mounting in standpipes. For most applications the factory default value of 14" (35 cm) is used, which allows the unit to have the smallest possible deadband. Entering a value larger than 14" (35 cm) allows the unit to block out any false echoes originating from the bottom rim of a standpipe, or from any object protruding into the ultrasonic beam close to the transducer. Since the 335 will not measure any value inside the deadband, the full tank (usually 20 mA) value will need to be adjusted if the deadband value is changed. P06: Far-end Blocking Factory default value for P06 is: 00
LEV=level (P04-DIST)
Far End Blocking (P06)
Level or Volume Applications Far end blocking is used to ignore false reflections caused by objects at the bottom of the tank. This can be helpful with tanks that have heaters, or other objects at the bottom of the tank, and also with conical bottom tanks where level measurement may not be necessary below a preset level. P06 is entered as the distance from the bottom of the tank to top of the interfering object. If the liquid level falls below this preset level, and enters the far end blocking section of the tank: 1. “Sub 0” will be shown in the LCD 2. “FAIL” will blink on/off 3. The mA output will hold the value that corresponds to the far end blocking level
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51-637 Echotel Model 335 Ultrasonic Transmitter
�Open Channel Flow Applications Far end blocking is used in open channel flow applications to force a zero flow value when the level is below the chosen value. This allows the totalizer to stop recording flow when the level drops below the preset value. If the liquid level in the flume or weir falls below this value the 335 will: 1. Indicate “No Flow” on the LCD module 2. Hold last valid mA current value
NOTE: When the liquid level is above the far end blocking section the calculation of level, volume, or open channel flow is based on the programmed tank dimensions; therefore, the measured or calculated process values are not influenced by the far end blocking value. NOTE: P07, P08, and P09 are not currently used with the Model 335 transmitter.
1.6.2 mA Current Output Settings
P10: P11:
4 mA current output value 20 mA current output value
The mA current output values are calculated according to the Measurement Mode that was selected in P01. If LEV was selected, then the 4 & 20 mA will be in level units, if VOL was selected then use volume units, and if FLOW was selected then use flow units. For % measurements (LEV or VOL) the 4 mA and 20 mA values are entered in the relevant engineering units of LEV (ft, in, m, or cm) or VOL (gal, ft3, m3, or liters). Though P10 and P11 are usually set with 4 mA at the bottom of the tank and 20 mA at the top, they can be reversed with 20 mA at the bottom and 4 mA at the top. P12: -a Failsafe Indication Factory default value for P12 is: 0
The Model 335 continuously performs diagnostic checks on the electronics and transducer, and confirms that the unit has been configured properly. Refer to Section 1.8, Diagnostic Error Codes, for a listing of all the errors codes that can be displayed by the 335 transmitter. P12 is used to set the desired mA output value if any faults are detected. The fail-safe mA values shown below are in accordance with the NAMUR NE 43 standards.
c 0 1 2
51-637 Echotel Model 335 Ultrasonic Transmitter
Fault Values Hold last value 3.6 mA 22 mA
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�1.6.3 SPDT Relay Configuration
P13: - a
Relay Operation Factory default value for P13 is: 2
The 3-amp SPDT relay can be configured to be a wide differential level alarm, a diagnostic alarm for echo loss indication, or a pulsed relay for remote flow totalization. The 1-amp SPDT relay mimics the state of the 3-amp SPDT, but does not change state in the event of a power loss.
a 0 Relay Function Set register 13 to a value of 0 to use the Level relay as a level alarm. The relay is energized when the level exceeds the value set in P14, and de-energized when the level falls under the value set in P15. Relay Also Set
P14 P15 Time Energized: De-Energized:
NO NC
P14 and P15 Note: Minimum hysteresis is .75" (2 cm) between P14 and P15
1 2 3
Setting register 13 to a value of 1 makes the relay energize during an Echo Loss. Setting register 13 to a value of 2 makes the relay de-energize during an Echo Loss. Remote totalization can be used in open TOT 20m 10m P16 channel flow applications. Setting register 10m Time 13 to a value of 3 will generate a 140 msec Energized: Relay pulse every 1, 10, 100, 1,000 or 10,000 De-Energized: volume units according to P16. NO NC
3 3 3
140 msec
Not applicable Not applicable Set P16 as follows: P16= 0: 1 volume units P16= 1: 10 volume units P16= 2: 100 volume units P16= 3: 1,000 volume units P16= 4: 10,000 volume units
P14: _ _ _
Level setpoint value that will energize the relay Factory default value for P14 is: 0 Level setpoint value that will de-energize the relay Factory default value for P15 is: 0 Pulse rate for remote totalization (see P13 above) Factory default value for P16 is: 0
P15: _ _ _
P16: _ _ _
NOTE: Volume units for P16 are in accordance with the value set in P02 and P00. Choices are gallons or ft3 for US, liters or m3 for metric.
20
51-637 Echotel Model 335 Ultrasonic Transmitter
�1.6.4 Performance Enhancement
Registers 20 through 33 can be used to enhance the performance of the Model 335 in specific applications. P20: - - - a Damping Factory default value for P20 is: 5 (60 seconds). Parameter register 20 can be used to reduce undesired fluctuations of the display and output, and enhance performance in turbulent applications.
a 0 1 2 3 4 5 Damping time Little to no Moderate to heavy (seconds) turbulence/agitation turbulence/agitation no filtering only used for testing purposes 3 acceptable not recommended 6 recommended acceptable 10 recommended recommended 30 recommended recommended 60 recommended recommended
P22: - - - a Dome top tank compensation Factory default value for P22 is: 0. Non-contact ultrasonic transmitters can occasionally receive two or more echoes when the transducer is mounted in the center of a domed top tank. If the transducer can not be positioned away from the center of the domed top, the 335 provides compensation to reduce the effects of multiple echoes.
a 0 Compensation OFF Situation Use when the Model 335 can be mounted off center in the domed top tank Use when the Model 335 is mounted in the center of a domed top tank
1
ON
P23: - - - a Register P23 is not used with the Model 335 Factory default value for P23 is: 0.
51-637 Echotel Model 335 Ultrasonic Transmitter
21
�P24: - - - a Target tracking speed Factory default value for P24 is: 0.
a 0 1 2 Tracking Speed Application Conditions Standard For most applications Fast For fast changing level Special Used only in special applications. The measuring window (see P25) becomes inactive, and the 335 responds instantly to any target. This can be used for extremely fast target tracking, but is not recommended for level applications. Note: The maximum range is reduced in half when this is used.
P25: - - - a
Echo selection within the measurement window Factory default value for P25 is: 0.
Received signal amplitude
Echo 2 Echo 1
Advanced digital signal processing within the 335 forms a measurement “window” around the echo that is reflected off the surface of the liquid. This measurement window determines the distance that is used to calculate the level, volume or open channel flow. A visual of this window is shown at left as it would be seen on an oscilloscope.
t
"t" ultrasound flight time
Some applications may have multiple echoes that result from false targets or noise within the vessel. Register P25 provides three different echo selection modes for the 335 to use in forming the measurement window around the proper signal.
a 0 1 Echo Selected Echo with the highest amplitude First echo Largest echo Application This default value is used for most Model 335 applications. For applications where false targets may create multiple echoes. Not recommended unless advised by factory.
2
22
51-637 Echotel Model 335 Ultrasonic Transmitter
�P26: (m/hr) Vessel fill rate Factory default value for P26 is: 2000 m/hr (6562 ft/hr). P27: (m/hr) Vessel drain rate Factory default value for P27 is: 2000 m/hr (6562 ft/hr). Parameters P26 & P27 can be used to set the rate of filling or draining a vessel. Typical values for P26 & P27 are anywhere from 60 m/hr (200 ft/hr) to 2000 m/hr (6562 ft/hr). Entering fill and drain rate values can also provide additional protection against echo loss in applications involving vapors or turbulence. It is extremely important that the values of P26 & P27 not be smaller (slower) than the fastest possible filling/emptying rate of the specific application, or the ultrasonic signal will be lost. P28 - - - a Echo loss error reporting Factory default value for P28 is:
a 0 Echo loss error reporting mode Conditions Delayed Initially, the delayed mode will hold the display and 4-20 mA output at their last value during an echo loss. If the echo loss continues for a period of time 10 seconds longer than the damping set in P20, then the display will change to “no ECHO” and the 4-20 mA output will change according to the “Error Indication Mode” set in P12. None The display and 4-20 mA output hold their last value until the echo loss clears and a valid echo is received by the 335. Advance to full If an echo loss occurs while the vessel is filling, the display and 4-20 mA value change to indicate a full vessel as configured in P04 and P05. The full vessel is indicated at the fill rate as preset in P26. Immediate During an echo loss, the display will immediately change to “no ECHO” and the 4-20 mA will change according to the “Fault Value” preset in P12. Advance An echo loss may occur in completely to empty empty vessels with a spherical or conical bottom due to deflection of the ultrasonic signal. If the echo is lost when the vessel is completely empty, the display and 4-20 mA will immediately change to indicate an empty vessel.
1
2
3
4
51-637 Echotel Model 335 Ultrasonic Transmitter
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�P29
False target # 1 Factory default value for P29 is: 0.0 False target # 2 Factory default value for P30 is: 0.0
P30
Up to two fixed objects in the tank can be blocked out if they are within the ultrasonic beam angle, and are creating false echoes. Measure the distance of the object from the face of the transducer, and enter this into P29 or P30. P31 Speed of sound through gas Factory default value for P31 is: 1,128 ft/sec (US units), or 343.8 m/sec (metric units)
NOTE: The default value should not be changed unless instructed to do so by the factory. Changing the default value of P31 will alter all measurements made by the Model 335.
Parameter P31 can be used if ultrasonic signal will be traveling through a vapor other than air. The default value of 1,128 ft/sec (343.8 m/sec) assumes that the ultrasonic signal will be traveling through air. Since the speed of sound is different in gases other than air, P31 allows an adjustment to be made for this difference. This parameter should only be used if the gas is homogenous throughout the tank. It should not be used if there are stratified layers of a gas in the tank. Refer to Section 2.5, Velocity of Sound In Gases Other Than Air, enter the new speed of sound in P31. P32 Specific gravity Factory default value for P32 is: 0.00
Entering a value other than the default of 0.00, will allow the 335 to display the weight of the material in the tank. Prior to displaying weight, the 335 must be configured for volume by following these steps: 1. Set the measurement mode for volume in P01. 2. Select the weight units in P02. 3. Configure the tank shape by entering values in P40 – P45. 4. Enter the density (specific gravity) value in P32. After completing the above four steps, return to the measurement mode. The LCD will indicate VOL, but there will not be pointer at the ft3/m3 section of the LCD. Depending on the value entered in P02, the unit will display weight in either tons or pounds. When displaying tons, the LCD will have a triangle pointing to the “t” in the lower left side of the display. When displaying pounds, this pointer does not appear.
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51-637 Echotel Model 335 Ultrasonic Transmitter
�P33
Manual echo selection Factory default value for P33 is: 0
NOTE: Manual echo selection should not be used unless instructed to do so by the factory. Changing the default value of P33 will alter all measurements made by the Model 335.
A "measuring window" is formed around the ultrasonic echo, as shown in the diagram below. The distance of the target is calculated from the speed of sound (P31), and the position of the measuring window. P33 can be used if the 335 is selecting the wrong echo. An example of this could be when the correct echo reflected from the surface is much weaker than an interfering echo. This scenario is shown at left and below.
#1 #2
When the distance of the correct echo is entered in P33, the software will move the measuring window and calibrate itself to the proper echo. To determine the distance of the correct echo, either measure the distance with an appropriate device, or use the Echo Map information shown in P70, and enter this value in P33. When the default value of P33 is changed, its value will continuously update with the proper echo position. Should power be lost to the transmitter, the 335 will restart the signal processing with the measuring window at the last updated position. To turn off Manual Echo Selection, simply reset P33 to zero.
Weak echo from the surface Eg.: 3.85 meters #1 Interfering echo Eg.: 5.2 meters
Received signal amplitude
#2 (flight time) t
Measuring window signal
measuring window is locked on the interfering echo
Displayed DIST of the interfering echo
5.2
t
Setting P33 = 4.00 results in shifting the measuring window to 4m
Measuring window signal
t
Measuring window finds the proper echo from the surface
Measuring window signal
Displayed DIST Value is now correct
3.85
51-637 Echotel Model 335 Ultrasonic Transmitter
25
�1.6.5 Volume Configuration
P40
Tank shape Factory default value for P40 is: 00
Volume can be displayed by entering the shape and dimensions of the tank. Most common tank shapes can be configured by using parameters P40 to P45. The Model 335 also has a 32-point linearization table (P47 & P48) for unusual tank shapes that are not included in P40 to P45. A two-digit number is entered into P40 to define the tank shape. P40 values of 01, 02, and 04 are simply entered as 01, 02, or 04. For b0 and b3 the value of “b” must also be selected from the shapes shown below.
P40 b0 01 02 b3 04 Tank Shape Vertical cylindrical tank with hemispherical bottom Vertical cylindrical tank with conical bottom Vertical rectangular tank/silo (with or without chute) Horizontal cylindrical tank Spherical tank Also to be set P40(b), P41 P41, P43, P44 P41, P42, (P43, P44, P45) P40(b), P41, P42 P41
P41 – 45
Tank dimensions Factory default values for P41 – 45 are: 0.00
Enter appropriate dimension as shown below for the tank.
P04
P41 P04
P41
P04
P41
P42 If no chute P43, P44 and P45 = 0
P43 b=0 b=1 b=3 b=2 P43 P44 Vertical Rectangular Tank or Silo with or without Chute P45
P04
P44 Vertical Cylindrical Tank with Conical Bottom
Vertical Cylindrical Tank with Hemispherical Bottom
P40
b=3 b=2 b=1 b=0
P41
P04 P04
P41
P42 Horizontal Cylindrical Tank Spherical Tank
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51-637 Echotel Model 335 Ultrasonic Transmitter
�1.6.6 Open Channel Flow Configuration
P40
Primary flow elements, formulas, and data Factory default value for P40 is: 00
Open channel flow measurement is accomplished by entering the type of primary flow element being used in P40, and the flume or weir dimensions in P41 though P45.
NOTE: P40 = 00 to P40 = 08 are not used for open channel flow applications.
P40 09 10 11 12 13 14 15 16 17 18 19 20 21
Primary element (Flume/Weir) Parshall flume (for any size Parshall flume) Palmer-Bowlus flume (D/2) Palmer-Bowlus flume (D/3) Palmer-Bowlus flume (rectangular) Khafagi Venturi flume Bottom-step weir Rectangular weir without end contractions (suppressed) Trapezoidal weir Cipolletti trapezoidal (4:1) weir V-notch weir (angle degrees entered in P42) 90° V-notch weir Circular weir General flow formula: Q[l/s] = 1000*P41*hP42, h [m]
Also set: P46, P42 P46, P41 P46, P41 P46, P41, P42 P46, P42 P46, P42 P46, P41, P42 P46, P41, P42 P46, P42 P46, P42 P46 P46, P41 P46, P41, P42
P41 – 45
Flume/weir dimensions Factory default values for P41 – 45 are: 00
Enter the appropriate dimensions into P41 through P45 depending on which type of primary flow element is being used.
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�P46
Reference distance Factory default value for P46 is: 0.00
Reference is the distance from the face of the transducer to the point where the flow rate becomes zero. This distance is different for each type of flume or weir. Measure the reference distance as shown in the following pages of flumes and weirs, and enter into P46. Flume/Weir Dimensions P40 = 00 to P40 = 08 P40 = 00 to P40 = 08 are not used for open channel flow applications.
A
P40= 09 Parshall flume
P42
2
/3 A
Sensor
Parshall flume sizes are designated by their throat width. This width is entered in P42, using the same units as selected in P00. The reference distance must also be entered in P46. The sensor is mounted over the flume at a distance of 2⁄3(A) behind the throat. The head (h) is also shown at left. When configuration is completed, the head value can be viewed in P76. P40= 10 Palmer-Bowlus flume with (D/2)
Sensor P46 h
P04 P42 D P41 D/2 D/10 h P46
Palmer-Bowlus flumes make a transition from a circular bottom section to a raised trapezoidal throat, and then transition back to the circular bottom section. The range (P04) value is larger than the reference distance (P46) as shown at left. Enter values for P40, P41, P42, and P46. P41 is the conduit diameter. P40= 11 Palmer-Bowlus flume with (D/3)
P04 D P41 D/3 D/10 1 2 h P46
Palmer-Bowlus flumes make a transition from a circular bottom section to a raised trapezoidal throat, and then transition back to the circular bottom section. The range (P04) value is larger than the reference distance (P46) as shown at left. Enter values for P40, P41, P42, and P46. P41 is the conduit diameter.
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51-637 Echotel Model 335 Ultrasonic Transmitter
�P40= 12
P04 P42 D P41 D/2 D/10 h P46
Palmer-Bowlus flume (rectangular)
Palmer-Bowlus flumes make a transition from a circular bottom section to a raised trapezoidal throat, and then transition back to the circular bottom section. The range (P04) value is larger than the reference distance (P46) as shown at left. Enter values for P40, P41, P42, and P46. P41 is the conduit diameter. P40= 13 Khafagi Venturi flume
15 cm
P42 Sensor
The flow through a Khafagi Venturi flume is derived from the following equation: Q[m3/s] = P42*1.744*h1.5 + 0.091*h2.5 Enter the values for P42 and P46 as shown at left. P40= 14
P42
Sensor P46 h
Bottom step weir
P46 h
0.0005 < Q[m3/s] < 1 0.3 < P42[m] < 15 0.1 < h[m] < 10 Q[m3/s] = 5.073*P42*h1.5 Enter the values for P42 and P46 as shown at left. P42 is the crest length.
P42 P46 P04 P41 h
P40= 15
Rectangular weir without end contractions
0.001 < Q[m3/s] < 5 0.15 < P41[m] < 0.8 0.15 < P42[m] < 3 0.015 < h[m] < 0.8 Q[m3/s] = 1.7599*[1+(0.1534/P41)]*P42*(h+0.001)1.5 The range (P04) value is larger than the reference distance (P46) as shown at left. P41 is the crest height, and P42 is the crest length. For proper flow conditions P41 should, at a minimum, be twice the value of the maximum Head (h). Enter values for P40, P41, P42, and P46.
51-637 Echotel Model 335 Ultrasonic Transmitter
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�P40= 16
P46 P04 h P41 P42
Trapezoidal weir
0.0032 < Q[m3/s] < 82 20 < P41[°] < 100 0.5 < P42[m] < 15 0.1 < h[m] < 2 Q[m3/s] = 1.772*P42*h1.5 + 1.320*tg(P41/2)*h2.47 The range (P04) value is larger than the reference distance (P46) as shown at left. Enter values for P40, P41, P42, and P46. P40= 17 Cipoletti trapezoidal (4:1) weir
P46 P04 h
1 4 P42
0.0018 < Q[m3/s] < 50 0.3 < P42[m] < 10 0.1 < h[m] < 2 Q[m3/s] = 1.866*P42*h1.5 The range (P04) value is larger than the reference distance (P46) as shown at left. Enter values for P40, P42, and P46. P40= 18 V-notch weir
P46 P04 h P42
0.0002 < Q[m3/s] < 1 20 < P42[°] < 100 0.05 < h[m] < 1 Q[m3/s] = 1.320*tg(P42/2)*h2.47 The range (P04) value is larger than the reference distance (P46) as shown at left. P42 is the angle of the V-notch. Enter values for P40, P42, and P46. P40= 19 90° V-notch weir
P46 P04 h 90
0.0002 < Q[m3/s] < 1 0.05 < h[m] < 1 Q[m3/s] = 1.320*h2.47 The range (P04) value is larger than the reference distance (P46) as shown at left. Enter values for P40 and P46. P40= 20 Circular weir
P46 P04 h P41
0.0003 < Q[m3/s] < 25 0.02 < h[m] < 2 Q[m3/s] = m*b*D2.5 M = 0.555+0.418h/P41+(P41/(0.11*h)) The range (P04) value is larger than the reference distance (P46) as shown at left. Enter values for P40, P41, and P46.
30
51-637, Echotel Model 335 Ultrasonic Transmitter
�1.6.7 Linearization Table
Linearization Table (Flow Example)
Points 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 Head (ft.) 0.00 0.05 0.11 0.16 0.22 0.27 0.33 0.38 0.44 0.49 0.54 0.60 0.65 0.71 0.76 0.82 0.87 0.93 0.98 1.03 1.09 1.14 1.20 1.25 1.31 1.36 1.42 1.47 1.52 1.58 1.63 1.69 CFS 0.00 0.08 0.30 0.68 1.20 1.88 2.71 3.69 4.82 6.10 7.53 9.11 10.84 12.72 14.76 16.94 19.27 21.76 24.39 27.18 30.12 33.20 36.44 39.83 43.37 47.06 50.90 54.89 59.03 63.32 67.76 72.35
P47
Linearization Factory default value for P47 is: 0
The Model 335 offers a 32-point linearization table for primary flow elements (open channel flow) or tank shapes (volume) that are not in the standard software. This table can also be used for establishing a level to level relationship, if the speed of sound (see P31) is not known for a vapor. To enable the linearization feature, change the value of P47 from 0 to 1.
P47 0 1 Linearization Off (factory default) On
P48
Linearization table Factory default value for P48 is: 0
The linearization table is developed by pairing level values, with known volume or open channel flow values. Read below and next page prior to constructing the table. Data is entered into the table in a 2 � 32 matrix, consisting of two columns:
Left column “L” Level measured by the 335 Right column “r” Volume, Flow or Level to be transmitted and displayed
The left column (indicated as “L” in the display) contains the level values measured by the Model 335 unit. The right column (indicated as “r” in the display) contains the volume, open channel flow, or level value corresponding to that height in the vessel or primary flow element. The figure below shows how to enter data into P48.
NOTE: P46 must also be set if the table is for open channel flow.
Number of programmed data pairs in the table ENTER (Enter table) ENTER + DOWN (Exit table)
Address (Serial number) of the data pair
LEVEL Left Measurement Column value
Right Column
LEVEL VOLUME FLOW
to be transmitted and displayed
48:_ _xx
yy .. xxxx
ENTER
L .. xxxx
ENTER
r .. xxxx
ENTER
UP + DOWN
UP, DOWN, NEXT (Enter values) UP + DOWN (Copy present measurement) ENTER + UP Copy value of previous address NEXT + DOWN (Load a "0" to close table) NEXT + UP (Cancel modification of this data)
yy .. xxxx
51-637 Echotel Model 335 Ultrasonic Transmitter
31
�The linearization table must start off with a value being assigned to zero level in the vessel or primary flow element. . This zero level is assigned to data pair point 01 as “L: . 000.0” and “r: xxxx” filled in with the volume, open channel flow, or level value corresponding to the zero level value.
Data pair point 01: 02: : 31: 32: Left column “L” L: 000.0 L: xxxx : L: xxxx L: xxxx Right column “r” r: xxxx r: xxxx : r: xxxx r: xxxx
The table must be terminated either by completed all 32 data pair points, or if the table contains less than 32 points, the table must be closed by a zero level value. For example, a 16 point linearization table would have data . pair point 16 as “L: 000.0.” After data pair point 01, the 335 will ignore any data in the linearization table after recognizing an “L” level value of 000.0. An error code will be displayed if the above format is not followed when entering values into the linearization table.
1.6.8 Information Parameters
Parameters P60 through P75 are used for viewing unit operating conditions, and transmitter diagnostics.
Parameter P60 P61 P62 P63 Units Hours Hours Hours Cycles Description Total operating hours of unit Elapsed time since unit was last powered-up Operating hours of the relay Number of relay cycles (energize/deenergize)
The display format for P60 – P63 varies depending on how long the unit has been operating. The table below shows the display format:
Operating hours 0 to 999.9 hours 1000 to 9999 hours Over 9999 hours Display format xxx.x xxxx X.XX:E (meaning x.xx 10e)
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51-637 Echotel Model 335 Ultrasonic Transmitter
�P64 – P66 indicate temperatures that the transducer has been exposed to:
Parameter Units Description P64 ° F or ° C Current temperature of the transducer Maximum temperature the transducer has P65 ° F or ° C been exposed to Minimum temperature the transducer has P66 ° F or ° C been exposed to
Should the platinum temperature sensing element become damaged, "PtErr" will be displayed. Refer to Section 1.8, Diagnostic Error Codes, for a listing of all the error codes. P70 Echo Map
P70 displays the number of echoes being detected by the transmitter. Entering P70 will save the current echo map, and the distance and amplitude of each echo can be individually displayed.
Number of echoes in the echo map NEXT
70:_ _xx
ENTER
yy: xxxx
(distance)
NEXT
yy: xxxx
(amplitude)
YY serial number of the echo xx value of DIST or AMPL
UP, DOWN
UP, DOWN
yy: xxxx
(distance)
NEXT
yy: xxxx
(amplitude)
ENTER
The Measuring Window can be manually moved to one of the echoes displayed in the echo map: 1. Select an echo in the echo map (display indicates the distance of the selected echo) 2. Press the UP + DOWN keys simultaneously (display will indicate “Set 33”) 3. The selected echo is loaded into the P33 parameter (see P33) Parameters P71 through P73 display data concerning the Measuring Window that is described in P33. These are readout only parameters.
Parameter P71 P72 P73 Description Distance of the Measuring Window Amplitude of the echo in the Measuring Window Position of the echo (in milliseconds)
P74 Signal to Noise Ratio P74 gives an indication of the ratio between the return ultrasonic signal received by the transducer, and the amount of electrical and acoustic noise that is also being received.
S/N Ratio Over 70 Between 70 and 30 Under 30 Measurement conditions Excellent Good Unreliable
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�P75 Actual Deadband Distance P05 is used to set the deadband distance. P75 is a readout only parameter that shows the actual deadband value that the unit uses for diagnostic purposes.
1.6.9 Open Channel Flow Head and Totalizers
P76
Head of Flow
Head is the “h” value used in the calculation formula selected in P40. It is the distance from the zero flow elevation in the flume or weir, to the surface of the water. P76 displays the current head value based on the level in the flume or weir, and the values that were put in for P40 – P46. If the unit has not been set up for open channel flow use, the value of P76 will be 0.00. P77 Resettable totalizer (T1)
P77 displays the value of the resettable totalizer used for open channel flow. To reset T1: 1. While in P77, press NEXT + DOWN simultaneously 2. The display will indicate “t1 CLr” 3. Press ENTER to clear (reset) the totalizer P78 Non-resettable totalizer (T2)
P78 displays the value of the non-resettable totalizer used for open channel flow.
1.6.10 Output Test Parameters
P80
Current (mA) output test
P80 can be used to test the mA current output from the transmitter, to make sure it agrees with an external meter. When entering P80, the actual mA current output will be displayed. Press to set any value between 3.8 and 20.5 mA. Check the mA current output by using either a multimeter or an external display. Return to the parameter address (P80) by pressing ENTER .
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51-637 Echotel Model 335 Ultrasonic Transmitter
�P81 Relay output test The state of the relay can be seen in P81 according to the table below and presence of a 0 or 1 in the display. The relay can be tested by pressing UP and DOWN to switch P81 from a value of 1 to 0 and back. As the relay energizes and de-energizes the RELAY LED will turn on and off, and the resistance can be checked by a multimeter.
P81 0 1 Relay state De-energized Energized
1.6.11 Simulation Mode
The Simulation Mode enables the user to test the settings of the outputs. Once configured, the Model 335 is able to simulate a static or continuous change of level.
LEV (m)
P84
Simulation type Factory default value for P84 is: 0
P87
P84 is used to select the type of simulation that is desired as described below:
P86 P85 t (sec)
P84 0 1
2
Simulation type No simulation (factory default) Level changes continuously up and down between the level values set in P86 and P87 with a cycle time as set in P85 Static level simulation - the level will be the value set in P86
Enter values in P85 – P87 as described below to complete the simulation mode configuration. Note that the simulation levels must be within the programmed values for measuring range (P04) and deadband (P05).
Parameter P85 P86 P87 Default Value 10 0.00 0.00 Description Cycle time (in seconds) for simulation Simulated low level value Simulated high level value
To start the simulation mode, return to the measurement mode. While in simulation mode the DIST, LEV or VOL symbol will be blinking. To quit the simulation mode, reset P84 back to zero.
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�1.6.12 Additional Software Parameters
P97 Software Code P97 stores the software revision number. P99 Password Protection P99 allows the entry of a password to protect all of the software configuration data. This provides protection against accidental (or intentional) re-programming of any parameters. The password can be any numeric value other than 0000. After setting a password, the password protection will automatically be activated when the unit is returned to the Measurement Mode. If password protection is activated, the software parameters can only be viewed; this is indicated by a flashing colon “:” between the parameter address and the parameter value. In order to program a unit that has password protection, first enter the password in P99. The password protection is re-activated each time the unit is returned to the Measurement Mode. To delete the password protection feature, enter the password in P99. After confirming it with , re-enter parameter P99 as 0000 as shown below: [enter password] ¦ ¦ protection is turned off. ¦ [0000] ¦ password
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51-637 Echotel Model 335 Ultrasonic Transmitter
�1.7
Diagnostic Error Codes There are a total of 13 different error codes that the Model 335 will produce depending on what type of malfunction occurs. Should this table not resolve the issue with the Model 335, please contact the factory for further assistance. Any returns to the factory must be accompanied by an RMA (return material authorization) number, which can be obtained by our Customer Satisfaction Department.
Code 1 “No Echo” or 2 3 4 5
Error description Memory error Echo loss Hardware error Overflow Code referring to transducer error. Can be due to improper installation/mounting, or level in the deadband (see P05) Measurement is at the reliability threshold (only for solids level applications) No signal received within the measuring range specified in P04 and P05. Linearization table error: L(01) and L(02) are both zero (no valid data pairs) Linearization table error: there are two same left column L(xx) data in the table Linearization table error: the right column r(xx) values are not in increasing order Linearization table error: measured level is higher than the last volume or flow data-pair The checksum of the program in the EEPROM is wrong Break in the temperature sensor circuit
6 7 12
Causes and actions to be done Contact local representative or the factory No echo received (no reflection) Contact local representative or the factory Check settings Check for correct transducer mounting & operation. Verify that that the liquid level is not inside the deadband set in P05. Re-aim the transducer, or try to find a better mounting location Review programming, also look for any installation mistakes See section 1.67 on Linearization Table See section 1.67 on Linearization Table See section 1.6.7 on Linearization Table See section 1.6.7 on Linearization Table
13
14
15
16 “PtErr”
Contact local representative or the factory Contact local representative or the factory
51-637 Echotel Model 335 Ultrasonic Transmitter
37
�2.0
2.1
Reference Information
Description The Model 335 ultrasonic transmitter performs level, volume, and open channel flow measurement of liquids. Measurement based on non-contact ultrasonic technology is especially suited for applications where no physical contact can be made to the surface of the liquid material to be measured. This is especially important in applications containing corrosive materials, suspended solids or coating media.
2.2
Theory of Operation Non-contact ultrasonic measurement is made by emitting an ultrasonic pulse from the transducer and measuring the time required for the echo to reflect from the liquid surface and return to the transducer. The powerful electronics measure the time of the round trip pulse and, by knowing the speed of sound, calculates the distance. Since speed of sound is temperature dependent, the transducer also measures the temperature in the vessel to provide compensation for changing temperature. By inputting the type and geometry of the vessel, the intelligent electronics can calculate the liquid volume in the vessel. In a similar operation, the Model 335 can perform open channel flow measurement by converting the level reading into units of volume per time. Common tank shapes, flumes, and weirs are stored in the 335 software. A 32-point linearization table is also available for unusual tanks or primary flow elements.
2.3
Performance Model 335 Transmitters are high performance units that feature a powerful 50 kHz transducer, highly collimated beam angles, and advanced digital signal processing. These features allow the 335 to accurately track the liquid level in difficult applications involving agitation and light foam. The extremely narrow 7° beam angle, shown at left, allows the 335 to be used in applications where other units with wider beam angles fail due to false reflections.
10 feet
r=7 inches
15 feet
r=11 inches
20 feet r
r=14 inches
25 feet
r=18 inches
Beam Radius vs. Distance
38
51-637 Echotel Model 335 Ultrasonic Transmitter
�2.4
Measurement Range Calculations Ultrasonic non-contact transmitters are typically rated for a maximum range in ideal conditions. Experience has shown that maximum range must be reduced for certain factors. Although the maximum range rating is somewhat conservative, each application must be evaluated for specific conditions in the tank. Several application parameters that affect ultrasonic performance are shown in the tank at the left. Each of these parameters is assigned a Performance Multiplier in the chart below. Multiply the maximum potential range (26 feet or 8 meters) of the Model 335 by each of the applicable Performance Multipliers to calculate the maximum allowable range for the application.
Beam spread interference
Beam spread interference
Vapors Foam Surface agitation
Operating parameter SURFACE AGITATION: Surface agitation or waves can degrade the performance. Moderate agitation results in only slight degradation of performance. The worst case is when the surface is a good reflector, but in the wrong direction. VAPORS AND STEAM: Vapors can cause problems when the liquid process temperature is well above the temperature of the airspace. The greater the difference, the more expected vapor problems. The problems result from condensation or layering in the sound path, both of which attenuate the sound signal, and degrade performance. If a vent is used, be sure that it is well away from the transducer. BEAM SPREAD INTERFERENCE: It is recommended that no obstructions, such as ladder rungs, fill pipes, support struts, etc., be allowed within the 7° ultrasonic beam. If an obstruction is unavoidable, make it as far away as possible from the transducer. Interference from agitator blades is only an intermittent interference that usually has little effect on performance. A special software algorithm can also help suppress false echoes from agitator blades that are within the beam angle. FOAM: Foam can attenuate the ultrasound and render the system inoperative. If possible, moving the transducer to an area in the tank where there is less foam will improve the performance. Thick, heavy-density foams can sometimes produce a reflection from the top of the foam.
Performance Condition multiplier Smooth, glass-like surface . . . . . . . . . . . . . . . . . . . . .1.0 Slight agitation, choppiness . . . . . . . . . . . . . . . . . . .0.9 Heavy agitation . . . . . . . . . . . . . . . . . . . . . . . . . . . .0.8 Slight vortex . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .0.7 No condensation . . . . . . . . . . . . . . . . . . . . . . . . . . .1.0 Little condensation . . . . . . . . . . . . . . . . . . . . . . . . . .0.9 Much condensation / foggy appearance . . . . . . . . . .0.8
No interference within 3.5° half beam angle . . . . . .1.0 Agitator at speed less than 60 RPM . . . . . . . . . . . . .1.0 Interference outside 2°, . . . . . . . . . . . . . . . . . . . . . .0.8 far from transducer (in bottom third of range) Interference outside 2°, . . . . . . . . . . . . . . . . . . . . . .0.5 near to transducer (in top third of range) Agitator at speed greater than 60 RPM . . . . . . . .C/F No foam . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1.0 Light froth, less than 0.25" thick . . . . . . . . . . . . . . .0.8 Light foam, less than 0.5" thick . . . . . . . . . . . . . . . .0.5 Light foam, more than 1" thick . . . . . . . . . . . . . . . .0.1
EXAMPLE: A heavily agitated 15' tank with no condensation, no interference, and a light froth on the surface. Maximum allowable range: 26’ × 0.8 × 1.0 × 1.0 × 0.8 = 16.6 feet Since the maximum allowable range is 16.6 feet, the 335 is suitable for this 15 foot tank.
NOTE: The multipliers shown above are general guidelines. For further assistance consult the factory.
51-637 Echotel Model 335 Ultrasonic Transmitter
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�2.5
Velocity of Sound in Gases other than Air The velocity of sound through air is 1,128 ft/sec (343.8 m/sec) as indicated in P31. This velocity is used for all measurements made by the Model 335 transmitter. The table below contains the velocity of sound for various gases measured @ +68° F (+20° C). These velocities can be used in P31 if the gas exists as a homogeneous layer in the tank.
Velocity (ft/sec) 829.4 1118.2 1410.5 1047.0 601.7 880.3 1145.7 492.8 697.9 700.2 1074.2 877.0 1080.8 3263.0 1053.5 1461.7 1138.5 1475.1 1145.4 1135.2 1078.1 808.8 452.1 Velocity (m/s) 252.8 340.8 429.9 319.1 183.4 268.3 349.2 150.2 212.7 213.4 327.4 267.3 329.4 994.5 321.1 445.5 347 449.6 349.1 346 328.6 246.5 137.8
Gases Acetaldehyde Acetylene Ammonia Argon Benzene Carbon dioxide Carbon monoxide Carbon tetrachloride Chlorine Dimethyl ether Ethane Ethanol Ethylene Helium Hydrogen sulphide Methane Methanol Neon Nitrogen Nitrous oxide Oxygen Propane Sulfur hexafluoride
Chemical Formula C2H4O C2H2 NH3 Ar C6H6 CO2 CO CCl4 Cl2 CH3OCH3 C2H6 C2H3OH C2H4 He H2S CH4 CH3OH Ne N2 N2O O2 C3H8 SF6
2.6
Specifications Accuracy (±0.2% of the measured distance, plus 0.05% of the range) 1 mm for up to 6.5 feet (2 m) 2 mm for 6.5 to 16.4 feet (5 m) 5 mm for 16.4 to 26 feet (8m)
2.6.1 Performance
Resolution
40
51-637 Echotel Model 335 Ultrasonic Transmitter
�2.6.2 Transmitter
Supply voltage
Output signal Fault detection
Relays
Failsafe User Interface:
Keypad Display
LED status indication Ambient temperature Enclosure Electrical connections
2.6.3 Transducer
85 to 255 VAC (2 VA) (Input power code A) (Input power code D) 20 to 28 VDC (3W) 4-20 mA isolated, 600 ohm load Configurable 3 amp SPDT relay, LED, and 3.6 or 22 mA (NAMUR NE 43) One, 3 Amp SPDT, 250 VAC, and one 1-amp SPDT, 30 VDC Software selectable 4-button menu-driven data entry Removable 6 digit LCD module with dual function bar graph Echo strength -22° to +160° F (-30° to 70° C) Cast aluminum (IP 67) Two – 1⁄2" NPT and Two – M20 × 1.5 26 feet (8 meters) 14 inches (350 mm) 50 kHz 2 inch NPT (flanges optionally available) -22° to +195° F (-30° to +90° C) Atmospheric to 44 psi (3 bar) 7 degrees conical Automatic over the operating temperature range of the transducer Polypropylene (IP 68)
Maximum range Deadband Frequency Process connection Process temperature Process pressure Ultrasonic beam angle Temperature compensation
Transducer
These units have been tested to EN 50081-2 and EN 50082-2 and are in compliance with the EMC Directive 89/336/EEC.
51-637 Echotel Model 335 Ultrasonic Transmitter
41
�2.6.4 Physical
3.75 (95)
M20 x 1.5 (2) 5.8 (148)
1/2"
NPT (2)
2" NPT
3.1 (80)
2.1 (54)
2.7
Model Number
BASIC MODEL NUMBER 335 Integrally mounted transmitter with 50 kHz transducer, aluminum housing, polypropylene transducer ELECTRONICS HOUSING A Cast aluminum dual compartment INPUT POWER A D 85 to 255 VAC 20 to 28 VDC SIGNAL OUTPUT 1 4–20 mA & SPDT relay ACCESSORIES 0 A No digital display/programming module Digital display/ programming module included AGENCY APPROVALS G General purpose (NEMA 6) MOUNTING 5 2" NPT TRANSDUCER P Polypropylene
3
42
3
5
A
1
G
5
P
51-637 Echotel Model 335 Ultrasonic Transmitter
�2.8
Par. P00 P01 P02 P03 P04 P05 P06 P07 P08 P09 P10 P11 P12 P13 P14 P15 P16 P17 P18 P19 P20 P21 P22 P23 P24 P25 P26 P27 P28 P29 P30 P31 P32 P33 P34 P35 P36 P37 P38 P39 P40 P41 P42 P43 P44 P45 P46 P47 P48 P49 P50 P51
Configuration Parameter Worksheet
Page 13 14 15 16 17 18 18 Description Application and Engineering Units Bar Graph and Measurement Mode Calculation Units Displayed Values (rounding) Range Deadband Far-end Blocking not used not used not used 4 mA Current Output Value 20 mA Current Output Value Failsafe Indication Relay Operation Relay Setpoint Value Relay Setpoint Value Relay Pulse Rate (remote totalizer) not used not used not used Damping not used Dome Top Tank Compensation not used with the 335 Target Tracking Speed Echo Selection in Measurement Window Vessel Fill Rate Vessel Drain Rate Echo Loss Error Reporting False Target # 1 False Target # 2 Speed of Sound Through Gas Specific Gravity Manual Echo Selection not used not used not used not used not used not used Shape of Tank, Flume, or Weir Dimensions of Tank, Flume or Weir Dimensions of Tank, Flume or Weir Dimensions of Tank, Flume or Weir Dimensions of Tank, Flume or Weir Dimensions of Tank, Flume or Weir Reference Distance Linearization Linearization Table not used not used not used Value Par. P52 P53 P54 P55 P56 P57 P58 P59 P60 P61 P62 P63 P64 P65 P66 P67 P68 P69 P70 P71 P72 P73 P74 P75 P76 P77 P78 P79 P80 P81 P82 P83 P84 P85 P86 P87 P88 P89 P90 P91 P92 P93 P94 P95 P96 P97 P98 P99 Page Description not used not used not used not used not used not used not used not used Total Unit Operating Hours Elapsed Time Since Powered-up Operating Hours of the Relay Number of Relay Cycles Current Temperature of the Transducer Maximum Temperature of the Transducer Minimum Temperature of the Transducer not used not used not used Echo Map Distance of the Measuring Window Amplitude of Echo in Measuring Window Position of Echo Signal to Noise Ratio Actual Deadband Distance Head of Flow Resettable Totalizer (T1) Non-resettable Totalizer (T2) not used Current (mA) Output Test Relay Output Test not used not used Simulation Type Cycle Time for Simulation Simulated Low Level Value Simulated High Level Value not used not used not used not used not used not used not used not used not used Software Code not used Password Protection Value
19 19 19 20 20 20 20
32 32 32 32 33 33 33
21 21 22 22 23 23 23 24 24 24 24 25
33 33 33 33 33 34 34 34 34 34 35
35 35 35 35
26 26 26 26 26 26 28 31 31
36 36
51-637 Echotel Model 335 Ultrasonic Transmitter
43
�ASSURED QUALITY & SERVICE COST LESS
Service Policy Owners of Magnetrol may request the return of a or any part of a control for complete rebuilding or replacement. They will be rebuilt or replaced promptly. Controls returned under our service policy must be returned by prepaid transportation. Magnetrol will repair or replace the control at no cost to the purchaser (or owner) other than transportation if: 1. Returned within the warranty period; and 2. The factory inspection finds the cause of the claim to be covered under the warranty. If the trouble is the result of conditions beyond our control; or, is NOT covered by the warranty, there will be charges for labor and the parts required to rebuild or replace the equipment. In some cases it may be expedient to ship replacement parts; or, in extreme cases a complete new control, to replace the original equipment before it is returned. If this is desired, notify the factory of both the model and serial numbers of the control to be replaced. In such cases, credit for the materials returned will be determined on the basis of the applicability of our warranty. No claims for misapplication, labor, direct or consequential damage will be allowed.
Return Material Procedure So that we may efficiently process any materials that are returned, it is essential that a “Return Material Authorization” (RMA) number be obtained from the factory, prior to the material’s return. This is available through a Magnetrol local representative or by contacting the factory. Please supply the following information: 1. 2. 3. 4. 5. Company Name Description of Material Serial Number Reason for Return Application
Any unit that was used in a process must be properly cleaned in accordance with OSHA standards, before it is returned to the factory. A Material Safety Data Sheet (MSDS) must accompany material that was used in any media. All shipments returned to the factory must be by prepaid transportation. All replacements will be shipped F.O.B. factory.
5300 Belmont Road • Downers Grove, Illinois 60515-4499 • 630-969-4000 • Fax 630-969-9489 • www.magnetrol.com 145 Jardin Drive, Units 1 & 2 • Concord, Ontario Canada L4K 1X7 • 905-738-9600 • Fax 905-738-1306 Heikensstraat 6 • B 9240 Zele, Belgium • 052 45.11.11 • Fax 052 45.09.93 Regent Business Ctr., Jubilee Rd. • Burgess Hill, Sussex RH15 9TL U.K. • 01444-871313 • Fax 01444-871317
Copyright © 2011 Magnetrol International, Incorporated. All rights reserved. Printed in the USA.
BULLETIN: 51-637.1 EFFECTIVE: May 2011 SUPERSEDES: March 2011
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