Hach FLODAR24 24GHz battery-powered water flow sensor User Manual CERTIFICATE OF COMPLIANCE

Hach Company 24GHz battery-powered water flow sensor CERTIFICATE OF COMPLIANCE

User Manual

Rhein Tech Laboratories, Inc.
Client:
Hach Company
360 Herndon Parkway
Model:
FLO-DAR Sensor, 24GHz
Suite 1400
Standards:
FCC 15.245, IC RSS-210
Herndon, VA 20170
http://www.rheintech.com
ID’s:
VIC-FLODAR24/
6149A-FLODAR24
Report #: 2009165
Page 27 of 52
Appendix K: Manual
Please see the following pages.
DOC026.53.00786
FLO-DAR™
Open Channel Non-Contact Radar Sensor
with Optional Surcharge Velocity Sensor
USER MANUAL
August 2009, Edition2
© HACH Company, 2008. All rights reserved. Printed in the U.S.A.
3
Table of contents
Section 1 Specifications.................................................................................................................... 5
Section 2 General information......................................................................................................... 7
2.1 Safety information ........................................................................................................................ 7
2.1.1 Use of hazard information................................................................................................... 7
2.1.2 Precautionary labels ........................................................................................................... 7
2.1.3 Confined space precautions ............................................................................................... 8
2.1.4 FCC Regulations................................................................................................................. 8
2.2 Product overview ......................................................................................................................... 9
2.2.1 Theory of operation............................................................................................................. 9
Section 3 Installation........................................................................................................................ 11
3.1 Component list ........................................................................................................................... 11
3.2 Mechanical installation............................................................................................................... 13
3.2.1 Site location guidelines ..................................................................................................... 13
3.2.2 Sensor installation............................................................................................................. 15
3.2.2.1 Assemble the clamps on the frame and wall bracket............................................... 17
3.2.2.2 Install the frame on the wall ..................................................................................... 19
3.2.2.3 Install the sensor on the frame................................................................................. 20
3.2.2.4 Align the sensor vertically—Flo-Dar without SVS .................................................... 21
3.2.2.5 Align the sensor vertically—Flo-Dar with SVS ......................................................... 22
3.2.2.6 Align the sensor horizontally .................................................................................... 23
3.2.2.7 Make a final alignment check................................................................................... 24
3.2.2.8 Optional extended depth sensor installation ............................................................ 24
3.2.3 Measure the sensor offset ................................................................................................ 26
3.2.4 Measure the pipe diameter ............................................................................................... 27
3.3 Electrical installation .................................................................................................................. 27
3.3.1 Wiring safety information ..................................................................................................27
3.3.1.1 Electrostatic Discharge (ESD) considerations ......................................................... 27
3.3.2 Connection to the logger or controller............................................................................... 28
Section 4 Operation.......................................................................................................................... 29
4.1 Install the Flo-Ware software on the PC .................................................................................... 29
4.2 Set up the logger........................................................................................................................ 29
Section 5 Maintenance .................................................................................................................... 31
5.1 Preventive maintenance ............................................................................................................ 31
5.2 Cleaning the instrument............................................................................................................. 31
5.3 Cable replacement..................................................................................................................... 32
Section 6 Replacement Parts and Accessories......................................................................... 33
6.1 Replacement Parts .................................................................................................................... 33
6.2 Accessories................................................................................................................................ 33
Section 7 How to order .................................................................................................................... 35
Section 8 Repair service ................................................................................................................. 37
Section 9 Limited warranty............................................................................................................. 39
4
Table of contents
5
Section 1 Specifications
Specifications are subject to change without notice.
Flo-Dar sensor
Dimensions (without SVS) 17.5 cm W x 42.3 cm L x 29.7 cm D (6.9 in. x 16.65 in. x 11.7 in.)
Weight 4.8 kg (10.5 lb)
Enclosure IP68 waterproof rating, polystyrene
Operating temperature –10 to 50 °C (14 to 122 °F)
Storage temperature –40 to 60 °C (–40 to 140 °F)
Power requirements 8–12 VDC
Connectors Waterproof (IP67) connector for quick disconnect from the interconnecting cable
below waterproof line.
Interconnecting cable
Polyurethane, 0.400 (±0.015) in. diameter
IP 68
Operating temperature: –4 to 221 °F (–20 to 105 °C)
Depth measurement
Method: Ultrasonic
Standard operating range from sensor to liquid: 0.635 to 152.4 cm (0.25 to 60 in.)
Optional extended operating range: 0 to 5.7 m (0 to 224 in.)
(with 40.64 cm (16 in.) deadband), temperature compensated
Accuracy: ±1% ±0.25 cm (±0.1 in.)
Surcharge depth measurement Method: Piezo resistive pressure transducer
Maximum range: 3.5 m (138 in.)
Temperature error Stability: <0.02% per °C from 0 to 50 °C; long-term stability: 0.5 mV typical
Zero measurement: <0.025 mV per °C from 0 to 50 °C
Overpressure 2.5 x full scale
Velocity measurement
Method: Radar
Range: 0.23 m/s to 6.10 m/s (0.75 to 20 ft/s)
Frequency Range: 24.075 to 24.175 G-Hz, 15.2mW (max.)
Accuracy: ±0.5%; ±0.03 m/s (±0.1 ft/s)
Certification
RF device certified to FCC Part 15C, Subpart 245: FCC ID number:
VIC-FLODAR24 and Industry Canada Spec RSS 210, IC number:
6149A FLODAR24 (User licensing not required)
Flow measurement
Method Based on continuity equation
Accuracy ± 5% of reading typical where flow is in a channel with uniform flow conditions
and is not surcharged, ± 1% full scale max.
Surcharge velocity sensor (SVS) (optional)
Power requirements 8–12 VDC
Velocity measurement Method: Electro-magnetic
Range: –1.5 to +6.1 m/s (–5 to +20 ft/s)
6
Specifications
7
Section 2 General information
2.1 Safety information
Please read this entire manual before unpacking, setting up, or operating this equipment.
Pay attention to all danger and caution statements. Failure to do so could result in serious
injury to the operator or damage to the equipment.
To ensure that the protection provided by this equipment is not impaired, do not use or
install this equipment in any manner other than that specified in this manual.
2.1.1 Use of hazard information
DANGER
Indicates a potentially or imminently hazardous situation which, if not avoided, will
result in death or serious injury.
WARNING
Indicates a potentially or imminently hazardous situation which, if not avoided,
could result in death or serious injury.
CAUTION
Indicates a potentially hazardous situation that may result in minor or moderate
injury.
Important Note: Indicates a situation which, if not avoided, may cause damage to the
instrument. Information that requires special emphasis.
Note: Information that supplements points in the main text.
2.1.2 Precautionary labels
Read all labels and tags attached to the instrument. Personal injury or damage to the
instrument could occur if not observed.
This is the safety alert symbol. Obey all safety messages that follow this symbol to avoid potential injury. If on the
instrument, refer to the instruction manual for operation or safety information.
Electrical equipment marked with this symbol may not be disposed of in European public disposal systems after
12 August of 2005. In conformity with European local and national regulations (EU Directive 2002/96/EC),
European electrical equipment users must now return old or end-of life equipment to the Producer for disposal at no
charge to the user.
Note: For return for recycling, please contact the equipment producer or supplier for instructions on how to return
end-of-life equipment, producer-supplied electrical accessories, and all auxiliary items for proper disposal.
This symbol, when noted on a product enclosure or barrier, indicates that a risk of electrical shock and/or
electrocution exists.
This symbol, when noted on the product, identifies the location of the connection for Protective Earth (ground).
This symbol, when noted on the product, identifies the location of a fuse or current limiting device.
This symbol, when noted on the product, indicated the presence of devices sensitive to Electro-static Discharge
(ESD) and indicated that care must be taken to prevent damage with the equipment.
8
General information
2.1.3 Confined space precautions
DANGER
Explosion hazard. Training in pre-entry testing, ventilation, entry procedures,
evacuation/rescue procedures and safety work practices is necessary before
entering confined spaces.
Important Note: The following information is provided to guide users of Flo-Dar and SVS
Sensors on the dangers and risks associated with entry into confined spaces.
On April 15, 1993, OSHAs final ruling on CFR 1910.146, Permit Required Confined
Spaces, became law. This new standard directly affects more than 250,000 industrial
sites in the U.S.A., and was created to protect the health and safety of workers in
confined spaces.
Definition of a confined space:
A confined space is any location or enclosure that presents or has the immediate
potential to present one or more of the following conditions:
An atmosphere with less than 19.5% or greater than 23.5% oxygen and/or more than
10 ppm Hydrogen Sulfide (H2S).
An atmosphere that may be flammable or explosive due to gases, vapors, mists, dusts
or fibers.
Toxic materials which upon contact or inhalation, could result in injury, impairment of
health or death.
Confined spaces are not designed for human occupancy. They have restricted entry and
contain known or potential hazards. Examples of confined spaces include manholes,
stacks, pipes, vats, switch vaults, and other similar locations.
Standard safety procedures must always be followed prior to entry into confined spaces
and/or locations where hazardous gases, vapors, mists, dusts or fibers may be present.
Before entering any confined space check with your employer for procedures related to
confined space entry.
2.1.4 FCC Regulations
This device complies with Part 15C, Subpart 245 of the FCC Rules and Industry Canada
RSS210. 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 causes undesired operation. No additional user license is required. Any
changes or modifications not expressly approved by Marsh-McBirney. could void the
users authority to operate the equipment.
9
General information
2.2 Product overview
The Flo-Dar Sensor measures the flow velocity and liquid depth in open channels using
radar and ultrasonic technology. The unit is designed to withstand submersion during
surcharge conditions. The optional surcharge velocity sensor provides velocity
measurements during surcharge conditions.
Figure 1 shows the configuration of a Flo-Dar system in a non-hazardous location.
2.2.1 Theory of operation
The Flo-Dar Sensor is mounted above an open channel of water and measures the
surface velocity and depth from above the surface of the water. The two measurements
are used to calculate the flow rate.
During surcharge (submerged) conditions, a pressure transducer measures depth. The
optional surcharge velocity sensor (SVS) can be used to measure velocity during
surcharge conditions.
Surface velocity measurement
The surface velocity of the water is measured using radar technology. A radar beam is
transmitted from the sensor to the water surface at the center of the channel. A portion of
the signal is reflected back at a slightly different frequency. The difference in frequency,
known as the Doppler frequency, is directly proportional to the speed of the flow.
Proprietary algorithms are then used to calculate the average speed of the flow stream.
Note: The radar velocity sensor does not operate under surcharge conditions.
Velocity measurements during surcharge
The optional surcharge velocity sensor (SVS) is activated when the flow level rises to
within four inches of the depth sensor and remains active until the flow falls to four inches
below the sensor.
The SVS measures velocity using an electromagnetic sensor that generates a magnetic
field. When the water passes through the magnetic field, a voltage is generated that is
directly proportional to the speed of the water passing the sensor.
Figure 1 System overview
1Flo-Dar sensor with optional surcharge velocity sensor 3Mounting frame
2Logger or controller 4Non-hazardous environment
10
General information
Depth measurement
The water depth is measured using an ultrasonic pulse echo sensor. An electronic pulse
is sent to the water surface and a portion of the signal is returned to the sensor. The
transit time to the surface and back is used to calculate the distance from the water
surface to the sensor. The pipe diameter is used to convert the distance to water depth.
The depth sensor on the Flo-Dar unit can measure distances up to 1.5 m (5 ft). For larger
channels, an extended range sensor is available to measure up to 5.7 m (18.7 ft).
During surcharge conditions, a pressure transducer in the Flo-Dar unit is used to
measure depth.
Flow calculations
The velocity and depth measurements are used with the pipe diameter to determine the
flow rate. The flow rate is calculated from the continuity equation (1):
(1)
where
Flow rate = volume of liquid that passes the sensor per unit time (e.g. 200 gallons per minute)
Average velocity = average velocity of the liquid, calculated using surface velocity
measurements and algorithms
Area = cross-sectional area of the liquid in the channel, calculated using the channel
dimensions and depth measurement.
Flow rate Average velocity Areau=
11
Section 3 Installation
DANGER: Potential Explosion Hazard
Only qualified personnel can do the tasks given in this section of the manual. The
Flo-Dar Sensor can only be installed in non-hazardous environments.
CAUTION: Radar RF Exposure Hazard
Although the Flo-Dar microwave power level is very small (~15mW) and is well
below government stated exposure limits for uncontrolled environments, users of
this product should follow proper safety protocols for the handling of devices with
radar frequency transmitters. Avoid placing the head and other vital organ areas
within the microwave beam (within 1 meter of the microwave aperture).
3.1 Component list
Important Note: Delicate Instrumentation. Handle with care to prevent damage to the
microwave transmitter. Damaged transmitters can result in higher signal power levels,
which can interfere with essential terrestrial microwave links.
Make sure that the instrument components shown in Figure 2 have been received.
12
Installation
Figure 2 Instrument components
1Surcharge velocity sensor (SVS) (optional) 10 Clamp bolt, ¼–20 x 1 in. (8x)
2Flo-Dar sensor 11 Anchor nut, 3/8–16 (2x)
3Optional extended depth sensor 12 Anchor washer (2x)
4Bubble level 13 Anchor, 3/8 x 2¼ in. (2x)
5Cable connector or unterminated wires 14 Adjustable wall bracket
6Spacer, 12-inch 15 Wall mount bracket
7Spacer, 2¼-inch 16 Standard frame
8Clamp half, threaded (2x) 17 Frame for extended depth sensor (optional)
9Clamp half, not threaded (2x)
13
Installation
3.2 Mechanical installation
3.2.1 Site location guidelines
For best accuracy, install the sensor where the flow is not turbulent. An ideal location is in
a long, straight channel or pipe. Outfalls, vertical drops, baffles, curves or junctions cause
the velocity profile to become distorted.
Where there are outfalls, vertical drops, baffles, curves or junctions, install the sensor
upstream or downstream as shown in Figure 3 and Figure 4. For upstream locations,
install the sensor at a distance that is at least five times the pipe diameter or maximum
fluid level. For downstream locations, install the sensor at a distance that is at least ten
times the pipe diameter or maximum fluid level.
If the location contains a junction and the flow in one pipe is much higher, install the
sensor on the wall near the lower flow pipe.
Figure 3 Sensor location near an outfall, vertical drop or baffle
1Acceptable upstream sensor location 5Distance downstream: 10 x pipe diameter
2Outfall 6Vertical drop
3Distance upstream: 5 x pipe diameter 7Baffle
4Acceptable downstream sensor location
14
Installation
Figure 4 Sensor location near a curve, elbow or junction
1Acceptable upstream sensor location 3Distance downstream: 10 x pipe diameter
2Acceptable downstream sensor location 4Distance upstream: 5 x pipe diameter
15
Installation
3.2.2 Sensor installation
Mount the Flo-Dar sensor above the open channel on the wall of the manhole. A pole is
available for retrieval of the Flo-Dar sensor without entry into the manhole.
For temporary installation, an optional Jack-bar is available (see Accessories on
page 33). Instructions are included with the Jack-bar.
The Flo-Dar sensor dimensions are shown in Figure 5 and Figure 6.
Figure 5 Flo-Dar sensor dimensions
1Optional extended depth sensor 3Minimum clearance for cable
2Minimum clearance for cable with extended depth sensor
16
Installation
Figure 6 Flo-Dar sensor with SVS dimensions
1Minimum clearance for cable
17
Installation
The dimensions of the standard frame for wall installation are shown in Figure 7.
3.2.2.1 Assemble the clamps on the frame and wall bracket
Install the clamps on the frame and wall mount bracket before installation on the wall.
Prerequisites
Frame
Wall mount bracket
Clamps
Hardware—wall bracket, spacer, nuts and bolts
Procedure
1. Position two clamp halves (one with threads and one without threads) around the wall
mount bracket as shown in Figure 8.
2. Connect the clamp halves together with four bolts. Lightly tighten the bolts to
temporarily hold the clamp in position.
Figure 7 Standard frame dimensions
122.8 in. with 2¼ in. spacer; 32.6 in. with 12 in. spacer
18
Installation
3. Position the other two clamp halves around the front end of the frame as shown in
Figure 8.
Note: In most cases the front of the frame will point toward the wall as shown in Figure 8 (see
also Figure 12 on page 23). If flow conditions require the sensor to point away from the wall,
use the 12 inch spacer and position the two clamp halves around the back end of the frame.
4. Connect the clamp halves together with four bolts. Lightly tighten the bolts to
temporarily hold the clamp in position.
Figure 8 Clamps assembled on wall bracket and frame
1Adjustable wall bracket 5Frame
2Clamp half, threaded 6Spacer
3Clamp bolt, ¼–20 x 1 in. 7Wall mount bracket
4Clamp half, not threaded
19
Installation
3.2.2.2 Install the frame on the wall
DANGER
Explosion hazard. Review the safety information in section 2.1.3 on page 8 before
entering a confined space.
Sensor location guidelines
Review the following guidelines to find the best location for the sensor.
Examine the upstream and downstream flow characteristics. Use a mirror if
necessary. Install the sensor above the water where the flow is steady. Do not install
the sensor where there are standing waves, pools or objects or materials that can
disrupt the flow profile.
If the upstream flow characteristics are acceptable, install the sensor on the upstream
wall of the manhole with the sensor pointing upstream. This location will make sure
that the measured flow is the same as the flow in the pipe and that the sensor cable
points away from the wall.
Install the sensor away from the sides of the pipe and in the very center of the flow
where the fluid is at the maximum depth.
Install the sensor in a location that is accessible for maintenance.
Prerequisites
Frame and wall mount bracket assembly (assembled in section 3.2.2.1)
Anchors with nuts and washers
Drill
3/8-inch concrete drill bit with tape to indicate a depth of 1½ inches
Tools: mirror, ruler or tape measure, marker
Procedure
Complete the steps to install the frame on the wall of the manhole above the flow.
1. Make a mark on the wall that identifies the location of the top of the sensor frame
(Figure 9). The wall brackets will be installed above and below this mark.
Flo-Dar without SVS—make sure that when the sensor is in the frame, the radar
beam will not be blocked by the wall or channel (Figure 11).
Flo-Dar with SVS—the top of the sensor frame must be installed at an exact
distance above the top of the channel. For pipe diameters greater than 24 inches,
measure 5 inches from the top of the channel to the top of the frame. For pipe
diameters less than 24 inches, measure 6 inches from the top of the channel to
the top of the frame.
2. Position the wall mount brackets above and below this mark.
3. Make two marks to identify the position of the holes for each bracket.
4. Use a 3/8-inch drill bit to drill two holes at a depth of 1½ inches. Remove the debris
from the holes.
5. Put the anchors in the holes and tap lightly with a hammer to seat the anchors.
6. Position the brackets over the holes and install the washers and nuts. Hold the
brackets and tighten the nuts on the anchors. Do not over-torque.
7. Connect the frame to the wall bracket with a spacer as shown in Figure 9. The
12-inch spacer may be necessary to position the sensor farther from the wall when
there is a large pipe lip.
20
Installation
3.2.2.3 Install the sensor on the frame
The sensor fits in the frame in only one direction and locks in position when the bail on
the sensor is turned (Figure 10). The sensor can be removed from the frame and installed
without entering the manhole when the optional retrieval pole is used (see Accessories
on page 33).
Procedure
1. Make sure that the cable is tightly connected to the sensor.
2. Turn the bail to retract the locking bars on the sensor.
3. Position the sensor on the frame. The cable should point toward the center of
the manhole.
4. Turn the bail to lock the sensor on the frame (Figure 10).
Figure 9 Wall installation
1Distance from crown of pipe to top of frame 3Washer
2Anchor 4Nut
21
Installation
3.2.2.4 Align the sensor vertically—Flo-Dar without SVS
The sensor must be aligned vertically to make sure that the sensor is above the flow and
that the radar beam will not be blocked by the wall or pipe (Figure 11). Use the optional
laser alignment tool for best accuracy (see Accessories on page 33).
Procedure
1. Make an estimate of where a line that extends from the top of the radar lens
perpendicular to where the lens will point (Figure 11). Use the laser alignment tool for
best accuracy.
2. Loosen the clamp on the wall mount bracket and position the frame so that the radar
beam will point below the crown of the pipe by at least 1 inch (Figure 11). It may be
necessary to install the 12 inch spacer to extend the frame farther from the wall.
3. Tighten the clamp and measure the frame position. Make sure that the radar beam is
not blocked by the wall or pipe. If the beam is blocked, move the frame further away
from the wall using the 12 inch spacer or lower the frame.
Figure 10 Horizontal alignment
1Bubble level 2Bail
22
Installation
3.2.2.5 Align the sensor vertically—Flo-Dar with SVS
The sensor must be aligned vertically to make sure that the sensor is above the flow
under normal full flow conditions and that the SVS is activated under surcharge
conditions.
Prerequisites
Ruler or tape measure
Procedure
1. Measure directly above the crown of the pipe to the top of the frame (Figure 9 on
page 20).
2. If the pipe lip is longer than 5½ inches, install the 12 inch spacer between the wall
mount bracket and the frame (Figure 12).
3. Loosen the clamp on the wall mount bracket and position the top of the frame above
the crown of the pipe at the specified distance:
6 inches for a pipe diameter that is less than 24 inches
5 inches for a pipe diameter that is equal to or larger than 24 inches
Figure 11 Vertical alignment of Flo-Dar sensor
1Spacer 2Distance from crown of pipe to top of frame
23
Installation
4. Tighten the clamp and measure the frame position again to make sure it is at the
correct position.
3.2.2.6 Align the sensor horizontally
The sensor must be aligned horizontally to make sure that the sensor is centered over
the flow. If the pipe is not level and has a slope of 2 degrees or more, align the sensor to
be parallel with the surface of the water.
Prerequisites
Bubble level
Procedure
1. Remove the paper backing from the bubble level and attach the level to the sensor
(Figure 10 on page 21).
2. Loosen the clamps and tap the frame into position.
3. Tighten both clamps and measure the frame position to make sure it is at the correct
position.
Figure 12 Vertical alignment of Flo-Dar sensor with SVS
1Spacer 3SVS sensor (optional)
2Distance from crown of pipe to top of frame
24
Installation
3.2.2.7 Make a final alignment check
The correct vertical and horizontal alignment of the sensor is necessary for accurate
measurements.
1. Measure the vertical alignment (section 3.2.2.4 on page 21 or section 3.2.2.5 on
page 22) and make adjustments if necessary.
2. Measure the horizontal alignment (section 3.2.2.6 on page 23) and make
adjustments if necessary.
3. Repeat steps 1 and 2 until no further adjustments are necessary.
3.2.2.8 Optional extended depth sensor installation
The extended depth sensor (Figure 13) can be used when the pipe or channel depth
exceeds the standard level specifications (see Specifications on page 5). Use the
extended frame (Figure 14) in place of the standard frame, or mount the extended depth
sensor on the wall. Unlike the standard frame, the extended frame is reversible with
regard to mounting direction.
The extended depth sensor has a deadband zone below the sensor of 16 inches where
the sensor is not active. Install the extended depth sensor at least 16 inches above the
crown of the pipe for correct measurements.
Figure 13 Extended sensor dimensions
25
Installation
Figure 14 Extended frame dimensions
129.1 in. with 2¼ in. spacer; 38.8 in. with 12 in. spacer
Figure 15 Vertical alignment with extended depth sensor
1Spacer
26
Installation
3.2.3 Measure the sensor offset
The sensor offset is the distance from the top of the frame to the bottom of the pipe or
channel. This distance will be entered into the software and is necessary for accurate
flow calculations.
If the extended depth sensor (section 3.2.2.8 on page 24) is installed on the wall without
the extended frame, the sensor offset is the distance from the face of the extended depth
sensor to the bottom of the pipe or channel.
Prerequisites
Rod
Tape measure
Procedure
1. Put the rod in the bottom of the pipe or channel and align it vertically with the frame
(Figure 16).
2. Make a mark on the rod to identify where the top of the sensor frame is.
3. Measure the distance from the bottom of the rod to the mark. This is the sensor
offset.
Note: If it is not practical to measure to the bottom of the pipe, measure the distance from the
crown of the pipe to the top of the frame (Figure 16). Add this distance to the pipe diameter to
get the sensor offset (sensor offset = pipe diameter + distance from crown of the pipe to top
of frame).
Figure 16 Sensor offset
1Distance from crown of pipe to top of frame 3Sensor offset
2Pipe diameter
27
Installation
3.2.4 Measure the pipe diameter
The correct diameter of the pipe or channel is necessary for accurate flow calculations.
1. Measure the inside pipe diameter (I.D.) at three locations (Figure 17). Be sure that
the measurements are accurate.
2. Calculate the average of the three measurements. Record this number for use during
the software setup for the site.
3.3 Electrical installation
3.3.1 Wiring safety information
When making any wiring connections to the instrument, the following warnings and notes
must be adhered to, as well as any warnings and notes found throughout the individual
installation sections. For more safety information refer to section 2.1 on page 7.
CAUTION
Possible danger to sensor or logger. Always disconnect power to the instrument
when making any electrical connections.
CAUTION: Radar RF Exposure Hazard
Although the Flo-Dar microwave power level is very small (~15mW) and is well
below government stated exposure limits for uncontrolled environments, users of
this product should follow proper safety protocols for the handling of devices with
radar frequency transmitters. Avoid placing the head and other vital organ areas
within the microwave beam (within 1 meter of the microwave aperture).
3.3.1.1 Electrostatic Discharge (ESD) considerations
Important Note: To minimize hazards and ESD risks, maintenance procedures not
requiring power to the instrument should be performed with power removed.
Delicate internal electronic components can be damaged by static electricity, resulting in
degraded instrument performance or eventual failure.
Figure 17 Pipe diameter measurement
28
Installation
The manufacturer recommends taking the following steps to prevent ESD damage to
your instrument:
Before touching any instrument electronic components (such as printed circuit cards
and the components on them) discharge static electricity from your body. This can be
accomplished by touching an earth-grounded metal surface such as the chassis of an
instrument, or a metal conduit or pipe.
To reduce static build-up, avoid excessive movement. Transport static-sensitive
components in anti-static containers or packaging.
To discharge static electricity from your body and keep it discharged, wear a wrist
strap connected by a wire to earth ground.
Handle all static-sensitive components in a static-safe area. If possible, use anti-static
floor pads and work bench pads.
3.3.2 Connection to the logger or controller
Connect the cable from the Flo-Dar sensor to the logger or the controller:
Logger—connect the cable from the Flo-Dar sensor to the Flo-Dar connector on
the logger. If the Flo-Dar sensor has the SVS component, connect the cable from
the SVS component to the SVS connector on the logger.
Controller—connect the cable from the Flo-Dar sensor to the correct terminal in
the controller. If the Flo-Dar sensor has the SVS component, connect the cable
from the SVS component to the correct terminal in the controller. Refer to the user
manual for the controller for the correct terminal locations.
29
Section 4 Operation
A portable computer with Flo-Ware software must be connected to the controller or logger
to set up and collect data from the Flo-Dar sensor.
4.1 Install the Flo-Ware software on the PC
Procedure
1. Put the Flo-Ware CD into the CD drive on the PC.
2. Save the floware4.exe file to the hard drive on the PC.
3. Open the file to start the installation wizard and follow the on-screen instructions to
install the software.
4. Open and run the flodar.exe file. An installation wizard will start. Follow the on-screen
instructions to install the software.
4.2 Set up the logger
Complete the steps to set up the Flo-Dar sensor for communication with the logger. Refer
to the user manual for the logger for additional information.
Procedure
1. Connect the PC to the logger with the serial cable. A USB to serial adapter may be
necessary for computers that do not have a serial port.
2. Double-click the Flo-Ware icon on the PC to open the software.
3. Select Communicate with an instrument>Flo-Dar>communications. The site
setup screen will be shown (Figure 18).
4. Enter the site information.
5. Click SAVE SITE to save the information. Save the file to the hard drive.
6. Click SEND SETUP to download the site information to the logger.
7. Select both boxes for Surcharge Level and Surcharge Velocity.
8. Set the Instrument Clock to match the Computer Clock and click OK.
9. The message “Sending this setup will clear all logged data. Continue anyway?” will
be shown. Select OK. The data will be sent to the logger. Select OK when the “Send
setup complete” message is shown.
The logger will start to collect data from the Flo-Dar sensor.
10. Select the Real Time tab on the Communications screen.
11. Select SAMPLE and wait for the data to be sent to the logger. The data will be shown
in graphical format.
12. Make sure that the value in the Level field matches the actual water level (depth) in
the pipe.
13. Make sure that the value in the Velocity field is reasonable for the flow conditions.
14. Close the Flo-Ware software and remove the communications cable from the logger.
15. Cover the communications port on the logger with the metal cap.
30
Operation
Figure 18 Site setup screen
31
Section 5 Maintenance
Danger
Explosion hazard. When using the retrieval pole, make sure to connect the
grounding strap to the ground lug of the barrier with the sensor cable (at least the
shields) terminated to the barrier. This is to prevent ignition of explosive gases due
to static discharge.
The safety of the transmitter may be impaired if any of the following conditions
have occurred:
visible damage
storage above 70ºC for prolonged periods
exposure to severe transport stresses
previous installation
failure to operate properly
If any of these conditions have occurred, return the device to the manufacturer for
recertification.
CAUTION: Radar RF Exposure Hazard
Although the Flo-Dar microwave power level is very small (~15mW) and is well
below government stated exposure limits for uncontrolled environments, users of
this product should follow proper safety protocols for the handling of devices with
radar frequency transmitters. Avoid placing the head and other vital organ areas
within the microwave beam (within 1 meter of the microwave aperture).
Important Note: Delicate Instrumentation. Handle with care to prevent damage to the
microwave transmitter. Damaged transmitters can result in higher signal power levels,
which can interfere with essential terrestrial microwave links.
5.1 Preventive maintenance
Examine the Flo-Dar sensor on an annual basis to look for corrosion or damage that can
allow environmental gases into the interior. Make sure that no swelling, blistering, pitting
or loss of material has occurred on the upper and lower portions of the main plastic
enclosure, the depth module or the radome.
If the extended depth sensor is used, examine the enclosure and the four ¼-20 SS bolts.
If the surcharge velocity sensor (SVS) is used, make sure the unit is not corroded and the
labels are readable. Inspect the cable connectors for any damage or corrosion and
tighten all connectors in the system.
The only parts of the Flo-Dar system that can be replaced by the user are the bail
assembly, cable and desiccant. If the sensor becomes defective, it must be replaced as a
complete unit.
Check the electrical connections
Examine the cable connectors on an annual basis for corrosion and tightness. If
corrosion is found, clean and dry the connectors to make sure that no moisture is on the
connector pins. If corrosion is severe, replace the cables.
5.2 Cleaning the instrument
Regular cleaning is not necessary because the sensor does not contact the flow unless a
surcharge condition occurs. Examine the sensor after a surcharge to see if cleaning is
necessary.
Prerequisites
Retrieval pole with hook (optional, see Accessories on page 33)
32
Maintenance
Procedure:
1. Remove power to the sensor.
2. Put the hook on the retrieval pole for removal without manhole entry. Make sure the
grounding strap is on the pole.
3. Hook the bail on the sensor and turn the pole counter-clockwise to unlock the sensor
from the frame. Remove the sensor.
4. Remove any debris from the bottom of the sensor. Clean the external surface of the
sensor with mild soap and rinse with water.
DANGER
Explosion hazard. Never attempt to wipe or clean the Flo-Dar or SVS sensor while
in a hazardous location. Do not use abrasives or high-pressure hoses or washers
to clean the sensors. Do not disturb the pressure port on the bottom of the sensor.
5. If the Surcharge Velocity Sensor (SVS) is used, use 600 grit sand paper to lightly
sand the electrodes (small black dots). Use only light pressure when sanding or the
electrodes will become damaged.
6. Lower and position the sensor on the frame. Make sure that the cable points toward
the center of the manhole.
7. Turn the retrieval pole clockwise to engage the locking bars into the frame.
8. Apply power to the sensor.
5.3 Cable replacement
Replace the cable only when it is damaged.
Procedure
1. Remove power to the sensor.
2. Put the hook on the retrieval pole for removal without manhole entry. Make sure the
grounding strap is on the pole.
3. Hook the bail on the sensor and turn the pole counter-clockwise to unlock the sensor
from the frame. Remove the sensor.
4. Remove the cable clamp by removing the two Phillips screws on the sensor handle.
Remove the cable.
5. Install the new cable. Make sure that the connector is aligned properly and that no
debris or water gets into the connector.
6. Replace the cable clamp.
7. Lower and position the sensor on the frame. Make sure that the cable points toward
the center of the manhole.
8. Turn the retrieval pole clockwise to engage the locking bars into the frame.
9. Apply power to the sensor.
33
Section 6 Replacement Parts and Accessories
6.1 Replacement Parts
Description Catalog Number
Bail assembly 800014901
Cable assembly, 30 ft, connector on one end 570011801
Cable assembly, 60 ft, connector on one end 570011804
Cable assembly, 100 ft, connector on one end 570011802
Cable assembly, 30 ft, connectors on both ends 131012601
Cable assembly, 60 ft, connectors on both ends 131012611
Cable assembly, 100 ft, connectors on both ends 131012602
Flo-Dar sensor 890004901
SVS Surcharge Velocity Sensor, replacement only 890006001
Wall mount assembly, standard frame (includes frame and hardware) 800016701
Wall mount assembly, extended frame (includes frame and hardware) 800016201
Wall mount hardware 800015401
6.2 Accessories
Description Catalog Number
Laser alignment tool 800012402
Hook for sensor retrieval pole 510012701
Sensor retrieval pole, 8–24 ft 245000501
Temporary mount assembly, standard frame, 34 in. to 52 in. manhole 800016401
Temporary mount assembly, standard frame, 52 in. to 70 in. manhole 800016402
Temporary mount assembly, standard frame, 70 in. to 88 in. manhole 800016403
Temporary mount assembly, standard frame, 89 in. to 107 in. manhole 800016404
Temporary mount assembly, extended frame, 34 in. to 52 in. manhole 800016301
Temporary mount assembly, extended frame, 52 in. to 70 in. manhole 800016302
Temporary mount assembly, extended frame, 70 in. to 88 in. manhole 800016303
Temporary mount assembly, extended frame, 89 in. to 107 in. manhole 800016304
34
Replacement Parts and Accessories
35
Section 7 How to order
U.S.A. customers
By telephone:
8:00 a.m. to 5:00 p.m. EST
Monday through Friday
Toll free:1-800 -368-2723
Local:1-301-874-5599
By fax:
1-301- 874-8459
By mail:
Marsh McBirney-Hach Company
4539 Metropolitan Court
Frederick, MD 21704-9452, U.S.A.
Ordering information by email: sales@marsh-mcbirney.com
Ordering information for outside the USA
Marsh-McBirney maintains a worldwide network of manufacturer's
representatives. To locate the nearest representative, call
1-301-874-5599 or send email to sales@marsh-mcbirney.com or
visit www.marsh-mcbirney.com.
Information required
Technical and field support
In the U.S.A.: 1-800-368-2723.
Outside the U.S.A.: 1-301-874-5599 or
service@marsh-mcbirney.com.
Factory repair service and product returns
Authorization must be obtained prior to sending any item for repair.
Please contact the Marsh-McBirney Customer Support Center in
Frederick, MD. In the U.S.A. call 1-800-368-2723 or outside the
U.S.A. call 1-301-874-5599 or email service@marsh-mcbirney.com
Ship items with return number (RMA#) to:
Marsh-McBirney - Hach Company
5600 Lindbergh Dr. - North Dock
Loveland, Colorado 80538-8842 U.S.A.
Hach account number (if available) Billing address
Your name and phone number Shipping address
Purchase order number Catalog number
Brief description or model number Quantity
mp
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4539 Metro
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olitan Court
F
rederic
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MD 21704-9452,
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36
How to order
37
Section 8 Repair service
Under normal operating conditions the Flo-Dar System should not
need to be returned for repair or calibration.
If the sensor or Flo-Logger/Flo-Station or both need to be returned
to the factory for repair, do the following:
1. Identify the model number of the Flo-Dar sensor.
2. Identify the serial numbers of the sensor and the Flo-Logger or
Flo-Station.
3. Record the reason for return.
4. Call the Customer Service Department (1-800-368-2723) and
get a Return Materials Authorization (RMA) number.
5. Ship the equipment in the original packaging, if possible.
Note: Do not ship manuals, computer cables or other parts with the
unit (unless required for repair).
6. Make sure that the equipment is free from foreign debris and is
clean and dry prior to shipping (instruments returned uncleaned
will be charged a fee).
7. Write the RMA number on the shipping label.
8. Make sure that all return shipments are insured.
9. Address all shipments to:
Marsh-McBirney - Hach Company
5600 Lindbergh Drive - North Dock
Loveland, CO 80538-0389, U.S.A.
Attn: RMA# XXX
38
Repair service
39
Section 9 Limited warranty
Manufacturer warrants all products of its manufacture to be free from defects in workmanship and
material under normal use and service. This warranty extends for a period of twelve (12) months after
date of shipment, unless altered by mutual agreement between the purchaser and manufacturer prior to
the shipment of the product. If this product is believed to be defective, purchaser shall notify
manufacturer and will return the product to the manufacturer, postage paid, within twelve (12) months
after date of shipment by the manufacturer. If the purchaser believes the return of the product to be
impractical, manufacturer shall have the option, but will not be required, to inspect the product wherever
located. In any event, if the purchaser requests the manufacturer visit their location, the purchaser
agrees to pay the non-warranty expenses of travel, lodging and subsistence for the field service
response. If the product is found by the manufacturer’s inspection to be defective in workmanship or
material, the defective part or parts will either be repaired or replaced, at manufacturer’s election, free of
charge, and if necessary the product will be returned to purchaser, transportation prepaid to any point in
the United States. If inspection by the manufacturer of such product does not disclose any defect of
workmanship or material, manufacturer’s regular service repair charges will apply. Computing devices
sold but not manufactured by Marsh-McBirney are covered only by the original manufacturer’s
written warranty. Hence, this warranty statement does not apply.
The foregoing warranty is manufacturers sole warranty, and all other warranties, express,
implied or statutory, including any implied warranty of merchantability or fitness for a particular
purpose, are negated and excluded. The foregoing warranty is in lieu of all other warranties,
guarantees, representations, obligations or liabilities on the part of the manufacturer. Purchasers
sole remedy and manufacturer’s sole obligation for alleged product failure, whether under warranty claim
or otherwise, shall be the aforestated obligation of manufacturer to repair or replace products returned
within twelve months after date of original shipment. The manufacturer shall not be liable for, and the
purchaser assumes and agrees to indemnify and save harmless the manufacturer in respect to, any loss
or damage that may arise through the use by the purchaser of any of the manufacturer’s products.
40
Limited warranty

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