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1 | Users Manual Rev 2 | Users Manual | 390.95 KiB | May 23 2013 |
TMWLM-003E Rev0:Jan.31,2012 Rev8:May.14.2013 ATSUSHIMA INSTRUCTION MANUAL FOR MICROWAVE LEVEL METER TYPE MWLM-PR26 Contents Safety precautions 1 1Overview2 2Measurement principle2 3Specifications 2 4System configuration4 5Dimensions5 6Installation 8 7Wiring11 8LCD adjustment unit 12 9Start-up12 10Parameter setting 13 11Troubleshooting 20 12Menu structure 21 MATSUSHIMA An operator should read carefully this instruction manual and conduct correct handing. MACHINERY LABORATORY CO.,LTD. 1-8-18 Norimatsu-Higashi,Yahatanishi-ku,Kitakyushu 807-0837 Japan Phone No.(8193)691-3731 Fax No.(8193)691-3735 E-mail: info@matusima.co.jp Safety precautions
Be sure to thoroughly read the instruction manual before using the products.
Keep the instruction manual in a safe, convenient location for future reference.
All or part of the contents described in this manual may be changed without any notice.
Due to our constant striving for further improvement of products, parts or products that differ from those Make sure a correct wiring before applying power source. Do not have a shock or strong impact to the equipment. Carry out wiring work correctly with reference to a proper drawing. Never disassemble the equipment. Be sure to turn off the power source before wiring, mounting and transportation work.
(Failure to observe this WARNING may result in an electric shock/ injury or equipment damage due to Do not open the cover under an explosive environmental condition when power is entered.
(Failure to observe this WARNING may result in an injury or equipment damage.) Do not place or store the equipment in any hostile environmental place where it will be subjected to Be sure to connect necessary terminals (grounding, etc.). Remove all wiring to the equipment before doing electrical welding work near the equipment. Do not forcedly bend or pull the lead wire also do not use unnecessarily long wire. Tighten the cover, lead outlet, etc. properly so that dust, rainwater, etc. do not enter inside the equipment. Do not use the equipment under a corrosive condition (NH3, SO2, CI2, etc.). Be sure to tighten the cable grand so that outer air does not enter inside the equipment. When applying piping connection such as conduit, etc. instead of cable gland, apply putty or equivalents described in this manual may be substituted. WARNING (Failure to observe this WARNING may cause a fatal or serious injury.) Be sure to confirm that any peripheral equipment does not move before installation work. In addition, observe safety requirements for installation work where high-place work is expected. short-circuit.)
(Failure to observe this WARNING may result in an electric shock.) direct sunlight, rain, water droplet, hazardous gas / water, etc.. CAUTION (Failure to observe this CAUTION may cause a moderate injury or equipment damage.) Do not use the equipment for any purpose other than the original purpose of use. Be sure to confirm the specification of equipment and use the equipment within the range of specification.
(Mounting conditions such as temperature, power source, frequency, etc.)
(Failure to observe this CAUTION may result in equipment damage.) On the cable entry so that outer air does not enter inside the equipment. IMPORTANT (indicates notes or information to help customers.) Warranty period shall be one year from the date of delivery (ex-factory). Any damage of any other products that have occurred for use of the equipment is not covered by this warranty. Also any loss induced by failure or malfunction of the equipment is not covered by this warranty. a. Modification or repair by a party other than MATSUSHIMAs authorized personnel, or replacement of b. Inadequate storage, installation, use, inspection or maintenance that does not comply with specifications. c. Cause for any peripheral equipment or device. d. Accident beyond control and force majeure (fire, earthquake, flood, riots, etc.). Lack of instructions to MATSUSHIMA for information or safety requirements that can be predicted only by customers side. This warranty conditions do not limit customers legal right. Price for the equipment does not include any charge for services such as commissioning, supervising, etc.. Failure or malfunction caused by following are not covered by this warranty:
parts not recommended by MATSUSHIMA. Limitations of Warranty:
1 1. Overview Microwave level meter measures level of bulk solids and liquids in the storage vessels without physical contact to measuring material. This model of level meter doesn't need separate output unit, which 4..20mA current output signal is carried by same two wires for power supply. 2. Measurement principle The level meter transmits microwaves at constant intervals, and receives echoes (reflection of transmitted waves) from the surface of material under measurement. The time difference between transmission and reception of microwave is processed by microcomputer to accurately determine level of stored materials. 3. Specifications 3-1.General Specifications Table1. Standard specification MWLM-PR26C1G MWLM-PR26H1G MWLM-PR26H3G / F / S MWLM-PR26H7G / F / S For liquid For powder Mounting2 G2 screws G1 screws Dead Zone 0.5m below the antenna 0.3m below the antenna Max Measurable Distance3 10m DC 20 to 32V Max. 704mW GG1 1/2 screws FJIS5K65A flange S JIS10K100A swiveling flange GG1 1/2 screws FJIS10K100A flange S JIS10K100A swiveling flange 35m Approx. 26GHz Every 83ms 70m Model Applications Small Antenna Corn Power Supply1 Power consumption Transmitting frequency Transmitting cycle Bean angle-3dB Resolution Allowable Fluctuation Rate Accuracy 3 Repeatability Temp. error Ambient Temp. 4 Housing Antenna Approx. 24deg. Approx. 14deg. Approx. 8deg.
(Approx.48deg. side beam)
(Approx.28deg. side beam)
(Approx.16deg. side beam) 1mm 10cms Within 2m or less30mm Within 2m or more20mm or 0.04% of measurement range (Whichever is greater) 0.06%10K
-4060(With LCD-2060)(Note1h warm-up operation required at -40) Allowable pressure 500kPa 1MPa
-40 to 150 G1MpaF490kPa,S10kPa G1Mpa F250kPa,S10kPa Material Protection 5 Lead outlet Output signal Integral Time Housing ADC Antenna PTFE SUS304 SUS316L Housing Antenna IP67 IP66 (Housing cover and lead outlet must be closed.) 1-G1/2 (Applicable size812mm) DC4 to 20mA1 (Resistive load Max.499) Mass Approx. 1.9kg Approx. 1.6kg 0999s GApprox. 2.3kg FApprox. 4.4kg SApprox. 5.6kg GApprox. 2.7kg FApprox. 5.3kg SApprox. 6.0kg Accessoriesoption 1) Power supply ripple voltage must be less than 0.2Vp-p. Noise and surges should not be interfered. (Recommended) PC Adjustment software (MDTM) LCD Adjustment unit (GRAPHIC COM2)Data communication cable (HM-USB-ISO) e c n a t s s e r p o o L i 900 863 499 381 250 0 18 20 20.9 24 32 33 21.4 Loop voltage (V) Fig.1. Loop voltage versus loop resistance 2 2) When mount on a short stand pipe, install the level meter so that the end of the antenna protrude from the short stand pipe. 3) The measurement range and accuracy are guaranteed only when, antenna is pointed at an angle perpendicular to the material surface, temperature is normal (15), permittivity is more than two at high pressure, and no any presence of airborne dust, vapor, and agitated foam. If these conditions are not satisfied, the measurement range and accuracy may differ according to the measurement conditions. 4) Ensure that freezing and/or condensing will not occur inside the electronic unit. 5) Take care that water may enter and damage the equipment, if lead outlet not tighten firmly or loosen. When the equipment operated in the presence of process gases and/or fluids, those materials may penetrate through resin of cone antenna and damage the equipment, specially corrosive gases such as H2S, HCl and HF. 3-2. Authentication FCC and IC conformity (only for USA/Canada) This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Changes or modifications not expressly approved by the manufacturer could void the users authority to operate the equipment This device complies with Industry Canada licence-exempt RSS standard(s). Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. FCC IDPVK-MWLM-PR26 IC 10700A-MWLMPR26 RF Exposure: A distance of 20 cm shall be maintained between the antenna, and the transmitter may not be co-located with any other transmitter or antenna. This device shall be installed and operated in a completely enclosed container to prevent RF emissions, which otherwise can interference with aeronautical navigation. Installation shall be done by trained installers, in strict compliance with the manufactures instructions. This device shall be installed only by professionally training individuals inside closed containers at permanent fixed positions, pointing in a downward direction. The use of this device is on a no-interference, no protection basis. That is, the user shall accept operations of high-powered radar in the same frequency band which may interfere with or damage this device. However, level probing devices found to interference with primary licensing operations will be required to be removed at the users expense. 3 4. System configuration This device is two wired which 4..20mA current output signal and power supply are carried on the same two wire cable. Power supplyNominal DC 24V Output current signalDC 4 to 20mA Load resistanceMax. 499 Ohm for 24V (total of load resistor 250 Ohm plus cable resistance). For other configurations, please refer to graph shown in Fig.1. Cable size0.3mm2 to 1.25 mm2 (AWG 22 to 16) When communicating to HART network, loop resistor of 250 Ohm must be connected at power supply side Level meter Balanced type shielded wire DC24V Loop power supply D-class grounding LCD adjustment unit
(Optional) HART modem Ammeter DC4 to 20mA AC power Adjustment PC Optional products for adjustment of level meter LCD adjustment unit HART modem Software for the PC adjustment Fig. 2. System configuration example 4 5. Dimensions (Units : mm) Liquid
) 4 0 1
(
) 3 1 2
(
5 2
) 0 9
(
Lead outlet G1/2 Cable 812mm Earth terminalM4 Transparent window: PC Housing/Cover: ADC Housing/Cover: ADC
(82)
) 4 0 1
(
Lead outlet G1/2 Cable 812mm Earth terminalM4 Transparent window: PC Housing/Cover: ADC
(82)
) 9 9 1
(
Hex-head opposite side 70 5 2
) 0 7
(
Measurement reference point Measurement reference point G1 Boss/Antenna:
SUS304 24 G2 Boss/Antenna:
PTFE 45 Fig. 3. External dimensions for liquid type Refer to external dimensions for measurement reference point. Basically upper part of mounting compartment is measurement reference point. 5
) 4 0 1
(
) 5 5 2
(
0 2 2 Solid-1 Lead outlet G1/2 Cable 812mm Earth terminalM4 Transparent window: PC Housing/Cover: ADC
(82) Max.10 Hex-head opposite side 50 0 1
) 8 2
(
8-19 Mounting hole Antenna:
SUS316L JIS10K100A flange with Swivelling mechanism SUS304 4 1 PCD175 210
) 2 9 1
(
4-15 Mounting hole JIS5K65A SUS304 PCD130 155 Measurement reference point
) 4 0 2
(
0 2 Purge hole G1/8 G1 1/2 4-M4 Bolt Boss:
SUS304
(56) Fig. 4-1. External dimensions for solid type Refer to external dimensions for measurement reference point. Basically upper part of mounting compartment is measurement reference point. 6
) 4 0 1
(
) 5 5 2
(
1 4 4 Solid-2 Lead outlet G1/2 Cable 812mm Earth terminalM4 Transparent window: PC Housing/Cover: ADC
(82) 0 2 Purge hole G1/8 G1 1/2 4-M4 Bolt Boss:
SUS304 JIS10K100A flange with Swivelling mechanism SUS304 0 1 PCD175 210 8-19 Mounting hole
) 3 3 4
(
JIS10K100A SUS304 PCD175 210 Measurement reference point
) 9 4 4
(
Max.10 Hex-head opposite side 50 0 1
) 8 2
(
8-19 Mounting hole Antenna:
SUS316L
(98) Fig. 4-2. External dimensions for solid type Refer to external dimensions for measurement reference point. Basically upper part of mounting compartment is measurement reference point. 7 6. Installation 6-1. Installation If material surface enter to the blind sector, a stand pipe shall be used to ensure that material surface can not reach the blind sector of the level meter. But if the material surface will not enter the blind sector, then stand pipe should not be used. Fig. 5. Installation for liquid and for solid Blind sector 0.5m Blind sector 0.3m If length of stand pipe is longer than required, such that antenna end is not protruded from stand pipe, 0 1 5 2 45 98 then it causes malfunction of instrument. When required stand pipe length is longer than antenna, please use cone shape stand and ensure radiation angle including the side beam. Keep radiation free of interference from the stand pipe. Recommended height of stand pipe Solid: The end of the horn antenna must be protruded a minimum of 10mm from the stand pipe. Liquid: The end of the antenna must be protruded a minimum of 25mm from the stand pipe. Calculation of radiation angle expansion Solid Distance from meas. reference point tan1698 (Antenna diameter) Solid Distance from meas. reference point tan2856 (Antenna diameter) LiquidDistance from meas. reference point tan4845 (Antenna diameter) 100Radiation angle 50Side beam 8 6-2. Installation precautions Fig. 6. Radiation angle and side beam reference Set the value of 100%(20mA) level so that the blind sector is secured. Setting the 100%(20mA) level within the blind sector will cause a malfunction of the instrument. Avoid too long stand pipe to prevent malfunction of the instrument. Blind sector Fig. 7. Installation precaution (1) Antenna burying Long stand pipe Do not install instrument close to inlet of material under measurement. Do not install any interfering instruments within the side beam, because reflections from beams, pipes, and other supports within the tank will cause false echoes. Fig. 8. Installation precaution (2) Provide shielding to minimize noise or unwanted reflections, when crossbeams, and other supports are installed within the tank. 9 Fig. 9. Installation precaution (3) False reflections In environments where interfering signals are generated, level meter may indicate incorrect measurements results. False reflections up to a certain level of strength can be suppressed by executing the echo learning function. However, the level meter's installed position must be changed if true echoes cannot be received or if the reflection level (measured in dB) is extremely low. When there are obstructions such as crossbeams, pipes, or level switches in the tank, install the level meter in a position where there is no obstruction within its radiation angle. ImportantIt is not possible to specify the range of false reflections in dB that can be
!
suppressed by the learning function because the level of true echo from the surface of material differs depending on the level meter installation conditions and measuring material type. The general guideline for the level of false reflections that can be suppressed by the learning function is one third (1/3) of true echo level. Install protection such as a simple roof above the Level Meter to avoid exposure to direct sunlight. Simple cover Fig. 10. Installation precaution (4) 10 7. Wiring 7-1. Unscrew the cover. (Rotate counterclockwise) 7-2. If an optional LCD adj. unit is attached, remove it.
(Rotate counterclockwise or to direction OPEN"). 7-3. Open the wire entry of terminal block by pushing on the actuating lever with flat screwdriver.
(Recommended flat screwdriver:
Axis diameter3mm and blade tip size 2.6mm) 7-4. Insert wires as shown on the panel, positive (+) to terminal entry No.1 and negative (-) to terminal No.2. Please wire so that there is no mistake. Release actuating lever of the terminal. 7-5. Connect the ground wire to internal earth ground terminal. 7-6. Attach the LCD adj. unit if it had been installed. 7-7. Screw the cover on tightly.
!
!
Important:
The size of the acceptable cable is max. 1.25mm2 (0.3mm2 to 1.25 mm2).
(AWG22 to 16) Warning:
Do wiring when the instrument is powered OFF. Avoid short circuit and reverse polarity. The instrument must be supplied with DC power supply, do not apply different voltage. Tighten the cover and lead outlet firmly after wiring completed. Cover LCD adj. unit Lead outlet Fig. 11. Cover detaching Flat screwdriver DC24V Current Loop supply Fig. 12. Wiring technique AC Power Ammeter DC420mA Left figure shows that LCD Adj. unit removed. Do not touch to the LCD Adj. unit connection terminal, while instrument is powered on. HART I/F Power supply DC24V , 4..20mA LCD MWLM -PR26 1 2
+ -
D-class groundingM4 Fig. 13. Connection example 11 8. LCD adjustment unit (GRAPHIC COM II) Optional Table 2. Key functions No. 1. Key Esc 2. 3. 4. 5. Ent Display Function
- Interrupt entry (cancel)
- Returns to previous screen
- Moves cursor
- Change value
- Change Y axis (reflection) of waveform
- Moves cursor to the left
- Change X axis (distance) of waveform
- Enters to menu
- Accepts value
- Shifts to next screen Displays parameters and waveforms Fig. 14. LCD adjustment unit 9. Start - up N N N Wiring confirmation Power supply turning on Power supply confirmation Error code output Distance display confirmation Adjsutment with LCD Adj. unit or PC OK Y OK Y Ready to start level measurement Level meter installation Wiring 0m Reflection (dB) OK Y 10020mA Reflection echo 04mA 70m Fig. 16. Measurement range
"LCD adj. unit" ,"Software for PC adjustment" and
"HART modem" are optional products. For the error code details, please refer to Instruction manual for LCD adjustment unit and Operating manual for adjustment software Matsushima DTM. 12 Fig.15. Start - up 10. Parameter setting 10.1 Measurement span Sets measurement span corresponding to the process level of 100% and 0%. Distance: Distance from level meter measuring reference point to material surface Measurement screen Distance APS Ent 1 Menu 0 1.Identification setting 2.Basic setting 3.Sensor adjustment 4.Graph display 5.Self test 6.Reset 1 Menu 0 1.Identification setting 2.Basic setting 3.Sensor adjustment 4.Graph display 5.Self test 6.Reset Ent 1 Basic setting 2 1.Application 2.Meas.range span 3.Damping 1 Basic setting 2 1.Application 2.Meas.range span 3.Damping Ent 1 Measurement range span 2.2 1.Full setting Distance =1.000m Percent =100.00%
2.Empty setting Distance =70.000m Percent =0.00%
Ent 1.000m is changed to 2.000m as an example. 70.000m is changed to 6.000m as an example. Measurement range span 2.2 1.Full setting Distance =1.000m Percent =100.00%
2.Empty setting Distance =70.000m Percent =0.00%
1 Measurement range span 2.2 1.Full setting Distance =2.000m Percent =100.00%
2.Empty setting Distance =70.000m Percent =0.00%
Ent 1 2 Measurement range span 2.2 1.Full setting Distance =2.000m Percent =100.00%
2.Empty setting Distance =70.000m Percent =0.00%
Ent 1 Measurement range span 2.2 1.Full setting Distance =2.000m Percent =100.00%
2.Empty setting Distance =70.000m Percent =0.00%
and Several time Ent 1 Measurement range span 2.2 1.Full setting Distance =2.000m Percent =100.00%
2.Empty setting Distance =6.000m Percent =0.00%
Setting of the measuring span has been completed. Please return to the measurement screen. Esc
>3 Measurement screen (Omitted) 13 1 10-2. Damping Sets time constant for the damping filter. The damping filter smooth the response to a sudden change in process level. This time can be set between 0 and 999 seconds. Keep in mind that the reaction time of the entire measurement will be longer and the sensor will react to measured value changes with a delay) Measurement screen Damping 2.3
=000sec 30sec is changed to 0sec as an example. and Several time Ent 1 Damping 2.3
= 30sec Setting of the damping has been completed. Please return to the measurement screen. Esc
>3 Measurement screen (Omitted) Distance APS Ent 1 Menu 0 1.Identification setting 2.Basic setting 3.Sensor adjustment 4.Graph display 5.Self test 6.Reset 1 Menu 0 1.Identification setting 2.Basic setting 3.Sensor adjustment 4.Graph display 5.Self test 6.Reset Ent 1 Basic setting 2 1.Application 2.Meas.range span 3.Damping 2 Basic setting 2 1.Application 2.Meas.range span 3.Damping Ent 1 Damping 2.3
= 0sec Ent 1 14 10-3. Current output Selects the 4..20mA current output mode corresponding to the process level 0-100% and alarm current value. Measurement screen Distance APS Ent 1 Menu 0 1.Identification setting 2.Basic setting 3.Sensor adjustment 4.Graph display 5.Self test 6.Reset 2 Menu 0 1.Identification setting 2.Basic setting 3.Sensor adjustment 4.Graph display 5.Self test 6.Reset Ent 1 Sensor adjustment 3 1.Current output set 2.Meas. adjustment Ent 1 Current output set 3.1 1.Current output sel
=4-20mA 2.Alarm output sel
=Hold 3.Max current sel
=20mA 4.Min current sel
=4mA 5.Sel.alarm current val.
=22mA Ent 1 Meaning of Current output sel item 4-20mA100Level(Upper level) : 20mA 0Level(Lower level) : 4mA 20-4mA100Level(Upper level) : 4mA 0Level(Lower level) : 20mA 20-4mA is changed to 4-20mAas an example. Setting of the current output set has been completed. Please return to the measurement screen. Current output set 3.1 1.Current output sel
=4-20mA 2.Alarm output sel
=Hold 3.Max current sel
=20mA 4.Min current sel
=4mA 5.Sel.alarm current val.
=22mA Ent 1 1 Current output set 3.1 1.Current output sel
=20-4mA 2.Alarm output sel
=Hold 3.Max current sel
=20mA 4.Min current sel
=4mA 5.Sel.alarm current val.
=22mA
>3 Esc Measurement screen (Omitted) Current output set other settings
"2.Alarm output sel". Selects alarm current value to output whenever measured value is not correct due to loss echo or other erroneous condition. Possible selection: Hold / Sel.val / Max. / Min. Hold Output remains at previous measured result. Sel.val Value set by "5.Sel.alarm current val"
is output. Max. Value set by "3.Max.current sel" is output. Min. Value set by "4.Min.current sel" is output.
"3.Max.current sel". Selects current value to output when "Max." is selected by "2.Alarm output sel". Possible selection: 20mA / 20.5mA / 22mA
"4.Min.current sel ". Selects current value to output when "Min." is selected by "2.Alarm output sel". Possible selection: 4mA / 3.6mA / 3.8mA
"5.Sel.alarm current val". Sets current value to output when "Sel.val" is selected by "2.Alarm output sel". Setting range: 3.6mA to 22.0mA 15 10-4. Echo learning of false echo Sets mask to unwanted reflections (false echoes or noise echoes) being received from obstructions within a tank. ImportantIn most cases sets distance from level meter to unwanted reflections as echo learning distance. If there is true echo between the level meter and the masking distance, then echo learning distance shall be set as distance to true echo. Actual distance to mask will be around 1m less than the entered value.
!
Measurement screen Distance APS Ent 1 Menu 0 1.Identification setting 2.Basic setting 3.Sensor adjustment 4.Graph display 5.Self test 6.Reset 2 Menu 0 1.Identification setting 2.Basic setting 3.Sensor adjustment 4.Graph display 5.Self test 6.Reset Ent 1 Sensor adjustment 3 1.Current output set 2.Meas. adjustment 1 Sensor adjustment 3 1.Current output set 2.Meas. adjustment Ent 1 Meas. adjustment 3.2 1.Echo learning 2.TW Adjustment Ent 1 Echo learning 3.2.1 Distance = 0.00m Execution=
OK Ent 1 Echo learning 3.2.1 Distance =_0.00m Execution=
OK 2.00m is changed to 0.00m as an example. Ent and 1 Several time Echo learning 3.2.1 Distance = 2.00m Execution=
OK 1 Continue on next page. 16 Continued from previous page. 1 Echo learning 3.2.1 Distance = 2.00m Execution=
OK Ent 1 Echo learning 3.2.1 Distance = 2.00m Execution=
OK It changes from the display of "" to the display of "Update". 2 Echo learning 3.2.1 Distance = 2.00m Execution=Update OK
'Ent' The button is pushed, and "Update"
is selected. Ent 1 Echo learning 3.2.1 Distance = 2.00m Execution=Update OK 1 Echo learning 3.2.1 Distance = 2.00m Execution=Update OK Ent 1
"Selectable execution ClearUpdateAddition Clear Deletes all echo learning data. Update Deletes current echo learning data and writes new data. Addition Addition of echo learning data The data that had been input in the past is not deleted and new data is added. Echo learning 3.2.1 Distance = 2.00m Execution=Update OK Echo learning When echo learning ends, the message
"Echo learning" at lower screen will be cleared. Echo learning 3.2.1 Distance = 2.00m Execution=Update OK Setting of the echo learning was completed. Please return to the measurement screen. 17 Esc
>3 Measurement screen (Omitted) 10-5. Reset There are two reset options. Use "Measuring reset" to restart measurement without affecting parameters. Use "Parameter reset" to reset parameters to the default settings.
!
Important"Parameter reset"
Parameter reset returns various parameters to instrument default. Please take note of current settings before execute parameter reset. It is possible to clear echo learning range and strength by using the optional PC software, but echo learning setting described in article 10-4 does not clear even when reset is executed. There are two reset types described above, but there is menu item "Factory reset" might be displayed. This reset type used at factory setting and user can not apply this reset. Measurement screen Distance Ent APS 1 Menu 0 1.Identification setting 2.Basic setting 3.Sensor adjustment 4.Graph display 5.Self test 6.Reset 5 Menu 0 1.Identification setting 2.Basic setting 3.Sensor adjustment 4.Graph display 5.Self test 6.Reset Ent 1 Reset 6 Reset selection Execution
=
OK Ent 1 2 Reset 6 Reset selection Execution
=Parameter reset OK Ent 1 Reset 6 Reset selection Execution
=Parameter reset OK 1 Reset 6 Reset selection Execution
=Parameter reset OK Ent 1 Reset 6 Reset selection Execution
=Parameter reset OK __During communication___ Parameter reset is changed to as an example. When reset completed, Communication" display will be cleared. Reset 6 Reset selection Execution
=Parameter reset OK Click Esc three times to return to measurement screen. Esc
>3 Measurement screen (Omitted) 18 10-6. Current output test Allows you to input simulation value in order to test the functioning of the current output. ImportantWhen you are ready to end the simulation, click on 'Esc' to return the instrument to the actual level measurement.
!
Measurement screen Distance APS Ent 1 Menu 0 1.Identification setting 2.Basic setting 3.Sensor adjustment 4.Graph display 5.Self test 6.Reset 6 Menu 0 2.Basic setting 3.Sensor adjustment 4.Graph display 5.Self test 6.Reset 7.Current output test Ent 1 Current output test 7 Percent =100.00 Current = 20.000mA OK Output =
Current = mA Ent 1 Current output test 7 Percent =100.00 Current = 20.000mA OK Output =
Current = mA Current output test 7 Percent = 50.00 Current = 12.000mA OK Output =
Current = mA 2 Current output test 7 Percent = 50.00 Current = 12.000mA OK Output =
Current = mA Ent 1 Current output test 7 Percent = 50.00 Current = 12.000mA OK _________Testing_________ Output = 50.00 Current = 12.000mA The message Testing blinks during simulation. Click Esc to interrupt simulation. Esc
>3 Measurement screen (Omitted) 50% is output as an example. and 1 Several-time 19 Ent In this manual, only setup steps of the typical parameters have been described. Please refer to "Instruction manual for LCD adjustment unit" and "Operating manual for adjustment software Matsushima DTM" for other settings. 11Troubleshooting If you encounter any problems, first check if they are described in this section, then execute suggested corrective actions. Table 3. Troubleshooting No. 1 Problem Check the following Corrective actions Powered ON the device, but screen is blank Are wiring connections correct ?
Check whether the power is supplied to the device?
Correct the wiring Supply power to the device 2 Measured level reading higher than material level Are there any obstructions between antenna and material surface to be measured ?
Are there any inlet streams of material the under measurement within radiation angle Execute echo learning to mask false echo from the obstacle Change the level meter position 3 Measured level reading lower than material level Check whether the material surface entered to the blind sector ?
Change level meter installation Table 4. Error codes Description Corrective actions No. 1 2 3 4 5 6 7 8 9 Error type SRAM Error EEPROM Error Error code E8000 E4000 E2000 MIC Error Trig Error E1000 LCD Error E0800 E0400 Charge Error E0200 S.CPU S.I2C I2C Checksum error Level responding I2C Checksum error meter not 10 E0080 Lost echo 11 E0008 Min. meas. limit over 12 E0004 Max. meas. limit over 13 E0002 Upper range limit over
(100 over) Lower range limit over
(0 over) SRAM failure EEPROM failure MIC unit failure Trigger signal lost LCD adj. unit failure Charge circuit failure Communication between level meter and LCD adj. unit failed No response from level meter Communication between level meter and LCD adj. unit failed Reflection echo is currently being detected There is no reflection echo There is no reflection echo in the measurement span Measured distance is lower than
"Min. meas. limit"
Measured distance is higher than
"Max. meas. limit". Measured distance exceeds "Upper range limit over (100% over)". Measured
"Lower range limit over (0% over)". undergoes distance Turn off device power and turn on again Ensure LCD adj. unit attached properly Turn off device power and turn on again Ensure LCD adj. unit attached properly Check whether there are adhesives in the horn antenna. If there is adhesives, clean the horn antenna Optimize measurement span Check setting for Min. and Max.meas. limit over, and Upper and Lower range limit over. If you set invalid then error message must be clear. Please note that those settings can be altered by optional PC software only. You can not change by LCD adj. unit 14 E0001 Error message No.11 to 14 will be displayed, only when appropriate settings are set to "Valid" by PC adjustment software Matsushima DTM. The default settings are "Invalid". If problem persists, please contact your local Matsushima sales office. Table 5. Periodic inspection Item Check of No. 1 Confirm whether there is damage on housing etc. Descriptions Interval (standard) Every 12 months 20 appearance Tighten the cover and lead outlet Tighten the bolt for installation fixture 2 Check of antenna Clean the antenna (Solid: InsideLiquid: Outside) Every 6 to 12 months Important: Standard periodic inspection interval differs depending on measurement condition and measuring material.
!
12Menu structure
All values shown here are parameter defaults. Main menu Menu 0 1.Identification setting 2.Basic setting 3.Sensor adjustment 4.Graph display 5.Self test 6.Reset 7.Current output test 8.HART communication 9.Sensor information 10.Display 11.Service Identification setting 1 1.Tag=SENSOR 2.Description=PULSE-RADAR 3.Message=LEVEL METER 4.Installation Day=2011/01/01 1.1 Tag change SENSOR 1.2 Description change PULSE-RADAR 1.3 Message change LEVEL METER Basic setting 2 1.Application 2.Meas.range span 3.Damping 2.1 Application 1.Meas.unit=m 2.Measuring object=Liquid 3.Level change rate=Normal<1m/min Input range Setting range Meas. Unit Measuring objectLiquidSolid Level change rate Normal1mmin Fast1mmin 2.2 Meas. range span 1.Full setting Distance =0m Percent =100%
2.Empty setting Distance =70m Percent =0%
2.3 Damping 0s Setting range Full setting Distance Percent Empty setting Distance Percent Setting range Sensor adjustment 3 1.Current output set 2.Meas.adjustment 3.1 Current output set 1.Current output sel =4-20mA 2.Alarm current sel =Hold 3.Max.Current sel =20mA 4.Min.Current sel =4mA 5.Sel.alarm current val=22mA 21 Setting range Current output sel. Alarm current sel. Max. current sel. Min. current sel. Sel. Alarm current val. 4-20mA20-4mA HoldSel..valMaxMin 20mA,20.5mA,22mA 4mA3.6mA3.8mA 3.6mA22.0mA 3.2 Meas. adj. 1.Echo learning 2.TW adjustment 3.2.1 Echo learning Distance = 0.000m Setting range Distance 3.2.2 TW adjustment Distance = 0.000m Setting range Distance Graph display 4 1.Echo curve(EC) 2.Echo detection curve +EC+TW Screen of echo curve Screen of EDC+ECTW Self test 5 OK Diagnosis result Reset 6 Reset selection
=Measuring reset Reset Measuring reset Parameter reset Factory reset Current output test 7 1.Percent = 100 2.Current = 20.000mA Output range Percent Current HART communication 8 1.Polling address = 0 2.Preamble number = 5 Setting range Polling address Basis Preamble number Basis It is not possible to set it. Sensor information 9 Manufacturer = Matsushima Device type = MWLM-PR26 Serial number = 0 Firmware version = 1.00 Order number = 0 Factory adj.date = 2010/5/26 Display 10 1.Display setting = Distance 2.Language = English Setting range Display settingDistance Level distance Level Current LanguageEnglishJapanese 22
1 | External Photos Rev 2 | External Photos | 191.31 KiB | May 23 2013 |
TYPEMWLM-PR26H7 Surface Back 1 2013. 2. 4 T.Iwamoto T.Shigeeda 2012.11.2 T.Iwamoto T.Shigeeda CHECK REV.No. REVISION DATE MESSRS. ORDER NO. EST.NO.V120018 ACCEPT NO. TITLE DWG.No. D APPD REV.No. Microwave Level Meter External Photo Data V120018-BA 1
(1/3) MATSUSHIMA MACHINERY LAB.CO.,LTD. TYPEMWLM-PR26H7 Top Name Plate 1 2013. 2. 4 T.Iwamoto T.Shigeeda 2012.11.2 T.Iwamoto T.Shigeeda CHECK REV.No. REVISION DATE MESSRS. ORDER NO. EST.NO.V120018 ACCEPT NO. TITLE DWG.No. D APPD REV.No. Microwave Level Meter External Photo Data V120018-BA 1
(2/3) MATSUSHIMA MACHINERY LAB.CO.,LTD. TYPEMWLM-PR26H7 Label 1 2013. 2. 4 T.Iwamoto T.Shigeeda 2012.11.2 T.Iwamoto T.Shigeeda CHECK REV.No. REVISION DATE MESSRS. ORDER NO. EST.NO.V120018 ACCEPT NO. TITLE DWG.No. D APPD REV.No. Microwave Level Meter External Photo Data V120018-BA 1
(3/3) MATSUSHIMA MACHINERY LAB.CO.,LTD. TYPEMWLM-PR26H3 Surface Back 1 2013. 2. 4 T.Iwamoto T.Shigeeda 2012.11.2 T.Iwamoto T.Shigeeda CHECK REV.No. REVISION DATE MESSRS. ORDER NO. EST.NO.V120018 ACCEPT NO. TITLE DWG.No. D APPD REV.No. Microwave Level Meter External Photo Data V120018-BB 1
(1/3) MATSUSHIMA MACHINERY LAB.CO.,LTD. TYPEMWLM-PR26H3 Top Name Plate 1 2013. 2. 4 T.Iwamoto T.Shigeeda 2012.11.2 T.Iwamoto T.Shigeeda CHECK REV.No. REVISION DATE MESSRS. ORDER NO. EST.NO.V120018 ACCEPT NO. TITLE DWG.No. D APPD REV.No. Microwave Level Meter External Photo Data V120018-BB 1
(2/3) MATSUSHIMA MACHINERY LAB.CO.,LTD. TYPEMWLM-PR26H3 Label 1 2013. 2. 4 T.Iwamoto T.Shigeeda 2012.11.2 T.Iwamoto T.Shigeeda CHECK REV.No. REVISION DATE MESSRS. ORDER NO. EST.NO.V120018 ACCEPT NO. TITLE DWG.No. D APPD REV.No. Microwave Level Meter External Photo Data V120018-BB 1
(3/3) MATSUSHIMA MACHINERY LAB.CO.,LTD. TYPEMWLM-PR26H1 Surface Back 1 2013. 2. 4 T.Iwamoto T.Shigeeda 2012.11.2 T.Iwamoto T.Shigeeda CHECK REV.No. REVISION DATE MESSRS. ORDER NO. EST.NO.V120018 ACCEPT NO. TITLE DWG.No. D APPD REV.No. Microwave Level Meter External Photo Data V120018-BC 1
(1/3) MATSUSHIMA MACHINERY LAB.CO.,LTD. TYPEMWLM-PR26H1 Top Name Plate 1 2013. 2. 4 T.Iwamoto T.Shigeeda 2012.11.2 T.Iwamoto T.Shigeeda CHECK REV.No. REVISION DATE MESSRS. ORDER NO. EST.NO.V120018 ACCEPT NO. TITLE DWG.No. D APPD REV.No. Microwave Level Meter External Photo Data V120018-BC 1
(2/3) MATSUSHIMA MACHINERY LAB.CO.,LTD. TYPEMWLM-PR26H1 Label 1 2013. 2. 4 T.Iwamoto T.Shigeeda 2012.11.2 T.Iwamoto T.Shigeeda CHECK REV.No. REVISION DATE MESSRS. ORDER NO. EST.NO.V120018 ACCEPT NO. TITLE DWG.No. D APPD REV.No. Microwave Level Meter External Photo Data V120018-BC 1
(3/3) MATSUSHIMA MACHINERY LAB.CO.,LTD. TYPEMWLM-PR26C1 Surface Back CHECK REV.No. REVISION DATE MESSRS. ORDER NO. EST.NO.V120018 ACCEPT NO. 2013. 2. 4 T.Iwamoto T.Shigeeda 2013.1.29 T.Iwamoto T.Shigeeda 2012.11.2 T.Iwamoto T.Shigeeda TITLE DWG.No. D APPD REV.No. Microwave Level Meter External Photo Data V120018-BD 2
(1/3) MATSUSHIMA MACHINERY LAB.CO.,LTD. TYPEMWLM-PR26C1 Top Name Plate CHECK REV.No. REVISION DATE MESSRS. ORDER NO. EST.NO.V120018 ACCEPT NO. 2013. 2. 4 T.Iwamoto T.Shigeeda 2013.1.29 T.Iwamoto T.Shigeeda 2012.11.2 T.Iwamoto T.Shigeeda TITLE DWG.No. D APPD REV.No. Microwave Level Meter External Photo Data V120018-BD
(2/3) MATSUSHIMA MACHINERY LAB.CO.,LTD. 2 TYPEMWLM-PR26C1 Label CHECK REV.No. REVISION DATE MESSRS. ORDER NO. EST.NO.V120018 ACCEPT NO. 2013. 2. 4 T.Iwamoto T.Shigeeda 2013.1.29 T.Iwamoto T.Shigeeda 2012.11.2 T.Iwamoto T.Shigeeda TITLE DWG.No. D APPD REV.No. Microwave Level Meter External Photo Data V120018-BD 2
(3/3) MATSUSHIMA MACHINERY LAB.CO.,LTD.
1 | Label Artwork Rev 1 | ID Label/Location Info | 166.14 KiB | May 23 2013 |
MATSUSHIMA Machinery Lab CO., Ltd. Kitakyushu Japan MWLM-PR26H7 MWLM-PR26H3 MWLM-PR26H1 MWLM-PR26C1 1.5:1 2012.11.1 H.Shigeeda mm T.Iwamoto T.Shigeeda Dimension Diagram of Nameplate V120018-10 1.5:1 2013. 2.4 H.Shigeeda mm T.Iwamoto T.Shigeeda Dimension Diagram of Label V120018-11
1 | Label Location Rev 1 | ID Label/Location Info | 637.26 KiB | May 23 2013 |
MATSUSHIMA Machinery Lab CO., Ltd. Kitakyushu Japan 2013.2.4 T.Iwamoto T.Shigeeda 1:4 mm Nov.1.2012 T.Shigeeda T.Iwamoto T.Iwamoto DIMENSION DIAGRAM OF MICROWAVE LEVEL METER V120018-A MATSUSHIMA Machinery Lab CO., Ltd. Kitakyushu Japan 2013.2.4 T.Iwamoto T.Shigeeda 1:4 mm Nov.1.2012 T.Shigeeda T.Iwamoto T.Iwamoto DIMENSION DIAGRAM OF MICROWAVE LEVEL METER V120018-B MATSUSHIMA Machinery Lab CO., Ltd. Kitakyushu Japan 2013.2.4 T.Iwamoto T.Shigeeda 1:4 mm Nov.1.2012 T.Shigeeda T.Iwamoto T.Iwamoto DIMENSION DIAGRAM OF MICROWAVE LEVEL METER V120018-C MATSUSHIMA Machinery Lab CO., Ltd. Kitakyushu Japan 2013.2.4 T.Iwamoto T.Shigeeda 1:4 mm Nov.1.2012 T.Shigeeda T.Iwamoto T.Iwamoto DIMENSION DIAGRAM OF MICROWAVE LEVEL METER V120018-D
1 | Authority Letter | Cover Letter(s) | 44.79 KiB | May 23 2013 |
THIS MUST BE SIGNED BY THE APPLICANT AND SHOULD BE PLACED ON APPLICANTS LETTERHEAD ONLY IF AGENT IS SUBMITTING APPLICATION to Act as Agent Date: 23 MAY, 2013 American Certification Body, Inc. 6731 Whittier Avenue Suite C110 McLean, VA 22101 To Whom It May Concern:
RF Technologies, Ltd. is authorized to act on our behalf, until otherwise notified, for applications to American Certification Body, Inc. (ACB). We certify that we are not subject to denial of federal benefits, that includes FCC benefits, pursuant to Section 5301 of the Anti-Drug Abuse Act of 1988, 21 U.S.C. 862. Further, no party, as defined in 47 CFR 1.2002 (b), to the application is subject to denial of federal benefits, that includes FCC benefits. Thank you, Agency Agreement Expiration Date: 31 JULY.2013 By: < / A Adnee takashi Iwamoto
(Signature) (Print name) Title: Deputy General Manager Technical Dept. On behalf of: Matsushima Machinery Laboratory Co., Ltd.
(Company Name) Telephone: +81-93-691-3731
'. Must be signed by applicant contact given for applicant on the FCC site, or by the authorized agent if an appropriate authorized agent letter has been provided. Letters should be placed on appropriate letterhead. 022311 -6
1 | Confidentiality Letter Rev 1 | Cover Letter(s) | 85.49 KiB | May 23 2013 |
THIS MUST BE SIGNED BY THE APPLICANT/AGENT AND SHOULD BE PLACED ON APPROPRIATE LETTERHEAD Request _for Confidentiali Date: 1 December, 2012 Subject: Confidentiality Request for: Pulse Rader Type Microwave Level Meter (FCC ID: PK V-MWLM-PR26) Pursuant to FCC 47 CRF 0.457(d) and 0.459 and IC RSP-100, Section 10, the applicant requests that a part of the subject FCC application be held confidential. Type of Confidentiality Requested Exhibit
[] Short Term R Permanent Block Diagrams
[_] Short Term External Photos LJ Short Term (7 Permanent Internal Photos L] Short Term XX] Permanent Operation Description/Theory of Operation
[] Short Term &] Permanent Parts List & Placement/BOM
[] Short Term XX Permanent Tune-Up Procedure CJ Short Term XX] Permanent Schematics
(1 Short Term Test Setup Photos LJ Short Term [] Permanent* Users Manual
*Note: __(Insert Explanation as Necessary) Matsushima Machinery Laboratory Co., Ltd, has spent substantial effort in developing this product and it is one of the first of its kind in industry. Having the subject information easily available to "competition" would negate the advantage they have achieved by developing this product. Not protecting the details of the design will result in financial hardship. Permanent Confidentiality:
The applicant requests the exhibits listed above as permanently confidential be permanently withheld from public review due to materials that contain trade secrets and proprietary information not customarily released to the public. Short-Term Confidentiality:
The applicant requests the exhibits selected above as short term confidential be withheld from public view for a period of __(specify number of days not to exceed 180) ____ days from the date of the Grant of Equipment Authorization and prior to marketing. This is to avoid premature release of sensitive information prior to marketing or release of the product to the public. Applicant is also aware that they are responsible to notify ACB in the event information regarding the product or the product is made available to the public. ACB will then release the documents listed above for public disclosure pursuant to FCC Public Notice DA 04-1705. NOTE for Industry Canada Applications:
The applicant understands that until such time that IC distinguishes between Short Term and Permanent Confidentiality, either type of marked exhibit above will simply be marked Confidential when submitted to IC. Sincerely, By: Zp. JL wamety Takashi Iwamoto
(Signature/Title) (Print name)
? . The asterisked items (*) require further justification before permanent confidentiality will be allowed. These also currently require review by the FCC under their Permit-But-Ask policy before the grant is issued and can delay completion of an application, Further justification should be added to the note above. One such example for a potted device would be: The EUT is FULLY potted using a non-removable epoxy based material. Removal of potting material causes irreparable damage to internal circuitry. See photographs exhibits that outline the device before and after potting. 3 _ Please refer to http://acbcert.com/documents/misc-docs/Memo-Short-Term-Vs-Standard-Confidentiality.pdf for complete details.
* _ Must be signed by applicant contact given for applicant on the FCC site, or by the authorized agent if an appropriate authorized agent letter has been provided. Letters should be placed on appropriate letterhead. 022311 -6
frequency | equipment class | purpose | ||
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1 | 2013-05-23 | 25500 ~ 25500 | DXX - Part 15 Low Power Communication Device Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2013-05-23
|
||||
1 | Applicant's complete, legal business name |
Matsushima Measure Tech Co., Ltd.
|
||||
1 | FCC Registration Number (FRN) |
0022067607
|
||||
1 | Physical Address |
1-8-18 Norimatsu-higashi
|
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1 |
Kitakyushu, Fukuoka, N/A 807-0837
|
|||||
1 |
Japan
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app s | TCB Information | |||||
1 | TCB Application Email Address |
h******@acbcert.com
|
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1 | TCB Scope |
A2: Low Power Transmitters (except Spread Spectrum) and radar detectors operating above 1 GHz
|
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app s | FCC ID | |||||
1 | Grantee Code |
PVK
|
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1 | Equipment Product Code |
MWLM-PR26
|
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app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
T******** I****
|
||||
1 | Telephone Number |
+81-9********
|
||||
1 | Fax Number |
+81-9********
|
||||
1 |
m******@matusima.co.jp
|
|||||
app s | Technical Contact | |||||
1 | Firm Name |
RF Technologies Ltd.
|
||||
1 | Name |
K******** O********
|
||||
1 | Physical Address |
472, Nippa-cho, Kohoku-ku
|
||||
1 |
Yokohama, 223-0057
|
|||||
1 |
Japan
|
|||||
1 | Telephone Number |
81455********
|
||||
1 | Fax Number |
81455********
|
||||
1 |
o******@rft.jp
|
|||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DXX - Part 15 Low Power Communication Device Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Microwave Level Meter | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | This device is authorized for use only with the antenna(s) listed within this filing. This transmitter must be installed in an enclosed containers made of metal, concrete, or polypropylene only. This transmitter must be installed in a vertical downward direction as tested in the certification filing. Any other use is prohibited. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
SGS Japan Inc. Yokohama Lab
|
||||
1 | Name |
T**** I****
|
||||
1 | Telephone Number |
81(0)********
|
||||
1 | Fax Number |
81(0)********
|
||||
1 |
t******@sgs.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 25500.00000000 | 25500.00000000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC