Hach 911, 940 User Manual

Catalog Number 4979

911/940 Intrinsically Safe Flow Meters

USER MANUAL

January 2010, Edition 11

© HACH LANGE Company, 2007–2010. All rights reserved. Printed in the U.S.A.

Table of Contents

Section 1 Specifications .........................................................................................................3

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 Hazardous Locations ......................................................................................................... 8

2.1.4 Intrinsically Safe Equipment ............................................................................................... 8

2.1.5 Confined Space Entry ...................................................................................................... 10

Section 3 Getting Started .....................................................................................................13

3.1 Installing the Flow Meter-Considerations ..................................................................................13

3.1.1 Choosing the Proper Site .................................................................................................13

3.1.2 Dealing with Difficult Sites ................................................................................................ 13

3.1.3 Choosing the Appropriate Meter and Sensor Combination .............................................. 13

Section 4 Meter Installation ..................................................................................................15

4.1 Approved 911 and 940 Installation Drawings ...........................................................................15

4.3 Installing the Batteries ............................................................................................................... 30

4.3.1 Installing the Battery Pack in the 940 ............................................................................... 30

4.3.2 Installing the Battery Pack in the 911 ............................................................................... 31

4.3.3 Battery Compartment Desiccant ...................................................................................... 32

4.3.4 Estimating the Battery Life ............................................................................................... 32

4.3.5 Recharging the Lithium Ion Battery Pack for Model 940 .................................................. 33

4.3.6 Recharging the Battery Pack for Model 911 ....................................................................34

4.4 Wiring the RS232 Interface ....................................................................................................... 35

4.4.1 RS232 Serial Port ............................................................................................................ 35

4.5 Wiring the Sampler Interface on Model 940 .............................................................................. 36

4.6 Sampler Receptacle (940 Only) ................................................................................................ 37

4.6.1 Connecting the Sampler Cable to a 940 Flow Meter .......................................................38

4.6.2 Connecting a Non-Sigma Sampler to a 940 Flow Meter .................................................. 38

Section 5 Software and Communications ...........................................................................41

5.1 Required Software .................................................................................................................... 41

5.2 Programming and Analysis Options ..........................................................................................41

Section 6 Sensor Installation ...............................................................................................43

6.1 Downlook Ultrasonic Sensor ..................................................................................................... 43

6.1.1 Installing the Downlook Ultrasonic Sensor ....................................................................... 43

6.1.2 Troubleshooting the Downlook Ultrasonic Sensor Installation ........................................48

6.2 In-Pipe Ultrasonic Sensor ......................................................................................................... 49

6.2.1 Mounting the In-Pipe Sensor ........................................................................................... 49

6.2.2 Angling the Beam ............................................................................................................. 50

6.2.3 Calibrating the In-Pipe Ultrasonic Sensor ........................................................................ 50

6.2.4 Protecting the In-Pipe Ultrasonic Sensor ......................................................................... 51

6.2.5 Troubleshooting the In-Pipe Sensor ................................................................................ 52

6.3 Installing the Submerged Area/Velocity Sensor ........................................................................ 52

6.3.1 Zeroing the Submerged Area/Velocity Sensor ................................................................. 52

6.3.2 Important Installation Guidelines for Submerged Area/Velocity Sensor ..........................52

6.3.3 Connecting the Submerged Area/Velocity Sensor to the Mounting Bands ...................... 53

6.3.4 Placing the Submerged Area/Velocity Sensor and the Mounting Band into the Pipe ......54

Section 7 Maintenance ..........................................................................................................57

7.1 Maintaining the Battery Compartment Desiccant ...................................................................... 57

1

Table of Contents

7.1.1 Replacing the Battery Compartment Desiccant ................................................................57

7.2 Maintaining the O-Ring Gasket on the End Cap .......................................................................57

7.3 Cleaning the Flow Meters ..........................................................................................................58

7.4 Storing the Flow Meters ............................................................................................................58

7.5 Cleaning the Connectors ...........................................................................................................58

7.6 Maintaining the Electronics Compartment .................................................................................58

7.6.1 Fuses ................................................................................................................................58

7.6.2 Memory Batteries .............................................................................................................58

7.7 Replacing the Batteries in the RS232 Interface ........................................................................59

7.8 Maintaining the Submerged Area/Velocity Sensor ....................................................................59

7.8.1 Cleaning the Transducer Port ...........................................................................................59

7.8.2 Cleaning the Submerged Area/Velocity Sensor (Oil-filled and Non-oil) ...........................60

7.8.3 Replenishing the Oil .........................................................................................................62

7.8.4 Changing the Submerged Area/Velocity Sensor Desiccant .............................................63

7.8.5 Replacing the Desiccant ...................................................................................................64

Section 8 Replacement Parts and Accessories .................................................................67

8.1 Flow Meter Replacement Parts .................................................................................................67

8.2 Sensors .....................................................................................................................................67

8.3 Sensor Mounting Rings and Bands ...........................................................................................67

8.4 Ultrasonic Sensor Mounting Hardware ......................................................................................68

8.5 Mounting Plate Hardware for Directly Mounting to Pipe Wall ....................................................69

Section 9 Contact Information .............................................................................................71

Section 10 Contact information for Europe ........................................................................72

Section 11 Limited Warranty ................................................................................................73

Appendix A Working with Primary Devices ........................................................................75

Appendix B Channel Installation Options ...........................................................................81

Appendix C Batteries and Chargers ....................................................................................87

Appendix D SCADA-Modbus® System Guidelines ............................................................91

2

Section 1 Specifications

Specifications are subject to change without notice.

Table 1 911 Flow Meter Specifications

General

Certification cCSAus Approved for Class 1 and Division 1, and Group C

Dimensions 16.5 cm dia. x 57 cm L (6.5 in. x 22.5 in.) with 12 amp battery

Weight 8 kg (17.5 lb) with 12 amp hour battery pack

Enclosure Material PVC

Enclosure Rating NEMA, 6P (IP67)

Operating Temperature –18 to 60 °C (0 to 140 °F)

Storage Temperature –40 to 60 °C (–40 to 140 °F)

Power Source 12 amp hour battery pack

Battery Life

User Interface Optically Isolated Interface to IBM compatible PC

Monitoring Intervals 1, 2, 3, 5, 6, 10, 12, 15, 20, 30, and 60 minutes

Program Memory Non-volatile, programmable flash, can be updated via RS232 port

Time Based Accuracy ±1 second per day

Unit Measurements

Data Storage

Communications

Submerged Area/Velocity Sensor

Velocity Measurement

Depth Measurement

90 days typical with a 15 minute recording interval. Assumes data download once per week,
at 10 °C (50 °F), also affected by site conditions.

Level: in., m, cm, ft

Flow: gps, gpm, lps, lpm, lph, mgd, afd, cfs, cfm, cfh, cfd, m

3

Totalized Flow: gal, ft

Capacity: 400 days of 1 level reading and 1 velocity reading at a 15 minute recording
interval.
Data Types: Level and Velocity

Storage Mode: Wrap or Slate

Serial connection via optically isolated interface to IBM compatible computer with Sigma
analysis software.

Method: Doppler Ultrasound Twin 1 MHz piezoelectric crystals

Typical Minimum Depth: 2 cm (0.8 in.)

Zero Stability: 0.015 m/s (<0.05 ft/s)

Accuracy: ± 2% of reading

Recommended Range: –1.52 to 6.10 m/s (–5 to 20 ft/s)

Method: Pressure transducer with stainless steel diaphragm

Accuracy (static)
±0.16% full scale ±1.5% of reading at constant temp (± 2.5 °C)

±0.20% full scale ±1.75% of reading from 0 to 30 °C (32 to 86 °F)
±0.25% full scale ±2.1% of reading from 0 to 70 °C (32 to 158 °F)

Velocity-Induced Depth Error: Compensated based on pipe geometry and flow velocity.

Depth Range:
Standard: 0–3 m (0–10 ft); Extended: 0–9 m (0–30 ft)

, acre-ft, L, m

1

:

3

3

s, m3m, m3h, m3d

Submerged Area/Velocity Sensor (continued)

Air Intake Atmospheric pressure reference is desiccant protected.

Operating Temperature 0 to 70 °C (32 to 158 °F)

3

Specifications

Table 1 911 Flow Meter Specifications (continued)

Depth Compensated
Temperature

Material

0 to 70 °C (32 to 158 °F)

®

Noryl

plastic outer shell with epoxy potting within

Power Consumption 1.2 W @ 12 VDC

Cable Material Urethane sensor cable with air vent

Cable Lengths Available

Standard: 9, 15, 23, and 30.5 m (30, 50, 75, and 100 ft)
Custom: 30.75-76 m (101-250 ft) maximum

Cable Diameter 0.91 cm (0.36 in.)

Dimensions 2.3 cm H x 3.8 cm W x 13.5 cm L (0.9 in. H x 1.5 in. W x 5.31 in. L)

1

For temperatures above 40 °C (104 °F) add ± 0.3 cm/°C (0.03 in./°F)

Table 2 940 Flow Meter Specifications

General

Certification cCSAus Approved for Class 1 and Division 1

Dimensions 21.9 cm dia. x 60 cm L (8.625 in. x 18.25 in.)

Weight 8.16 kg (18 lb)

Enclosure Material PVC

Enclosure Rating NEMA 6P, IP 67

Operating Temperature –18 to 60 °C (0 to 140 °F)

Storage Temperature –40 to 60 °C (–40 to 140 °F)

Power Source One (14 V) 16 amp hour lithium rechargeable battery pack

Battery Life

330 days typical with a 15 minute recording interval, 1 level and 1 velocity, data download once
per week, 10 °C (50 °F) (also affected by site conditions)

User Interface Optically Isolated Interface to IBM compatible PC

Monitoring Intervals 1, 2, 3, 5, 6, 10, 12, 15, 20, 30, and 60 minutes

Program Memory Non-volatile, programmable flash, can be updated via RS232 port

Time Based Accuracy ±1 second per day

Level: in., m, cm, ft

Unit Measurements

Flow: gps, gpm, lps, lpm, lph, mgd, afd, cfs, cfm, cfh, cfd, m

Totalized Flow: gal, ft

3

, acre-ft, L, m

3

3

s, m3m, m3h, m3d

Capacity: 306 days of 2 level readings and 2 velocity readings at a 15 minute recording interval.

Data Storage

Data Types: Level and Velocity
Storage Mode: Wrap or Slate

Output Conditions Set point on level, velocity, flow, or flow rate of change.

Sampler Output 6–12 V dc pulse, 100 mA max at 500 ms duration with approved interface.

Communications

Connection

Serial connection via optically isolated interface to IBM compatible computer with
analysis software.

Local Terminal RS232 at 19.2 k baud

4

Table 2 940 Flow Meter Specifications (continued)

Submerged Area/Velocity Sensor

Method: Doppler Ultrasound Twin 1 MHz piezoelectric crystals

Typical Minimum Depth: 2 cm (0.8 in.)

Velocity Measurement

Depth Measurement

Air Intake Atmospheric pressure reference is desiccant protected.

Operating Temperature 0 to 70 °C (32 to 158 °F)

Zero Stability: 0.015 m/s (<0.05 ft/s)

Accuracy: ± 2% of reading

1

Recommended Range: –1.52 to 6.10 m/s (–5 to 20 ft/s)

Method: Pressure transducer with stainless steel diaphragm

Accuracy (static)

2

:

±0.16% full scale ±1.5% of reading at constant temp (± 2.5 °C)
±0.20% full scale ±1.75% of reading from 0 to 30 °C (32 to 86 °F)
±0.25% full scale ±2.1% of reading from 0 to 70 °C (32 to 158 °F)

Velocity-Induced Depth Error: Compensated based on pipe geometry and flow velocity.

Depth Range:
Standard: 0–3 m (0–10 ft); Extended: 0–9 m (0–30 ft)

Specifications

Depth Compensated
Temperature

Material Noryl

0 to 70 °C (32 to 158 °F)

®

plastic outer shell with epoxy potting within

Power Consumption 1.2 W @ 12 VDC

Cable Material Urethane sensor cable with air vent

Cable Lengths Available

Standard: 9, 15, 23, and 30.5 m (30, 50, 75, and 100 ft)
Custom: 30.75-76 m (101-250 ft) maximum

Cable Diameter 0.91 cm (0.36 in.)

Dimensions 2.3 cm H x 3.8 cm W x 13.5 cm L (0.9 in. H x 1.5 in. W x 5.31 in. L)

In-Pipe Ultrasonic Sensor

Operating Frequency 75 kHz

Accuracy

Range

±0.027 ft for sensor to liquid distance between 2.5 inches and 5 ft at ±1 ft change in head from
calibration point, 20 °C still air, ideal target, 25 ft cable.

Distance from sensor to liquid: 0.2 inches (minimum) to 5 feet (maximum), @ 20 °C still air,
ideal target, 25 ft cable.

Resolution 0.019 cm (0.0075 in.)

Operating Temperature
Range

–20 to 60 °C (–4 to 140 °F)

Storage Temperature –20 to 60 °C (–4 to 140 °F)

Temperature Error 0.00005 meter/°C typical

Material Stat-Kon A-E ABS Plastic

Cable Length 7.6 m (25 ft) standard

Dimensions 4.44 cm (1.75 in.) maximum diameter, 31.435 cm (12.375 in.) long

Mounting

Dedicated Mounting Rings, Permanent Mounting Bracket (installs directly to pipe wall),
Adjustable Mounting Band Kit.

Downlook Ultrasonic Sensor

5

Specifications

Table 2 940 Flow Meter Specifications (continued)

Operating Frequency 75 kHz

Beam Angle 5°

Accuracy

Range 10 ft

Operating Temperature –18 to 60 °C (0 to 140 °F)

Temperature Error

Resolution 0.019 cm (0.0075 in.)

Material ABS housing with ABS acoustical window

Cable Length 7.62 to 30.48 m (25 to 100 ft)

Dimensions 15.24 cm x 5.7 cm (6 in. x 2.25 in.)

1

When the sensor is out of the water, the system may report velocity readings of up to 0.76 m/s due to radio

±15.24 cm or 3.048 m ±0.003 m (±0.01 ft), at 22 °C (72 °F), still air, 40–70% relative humidity,
from 6 in. to 10 ft

0.00005 m/°C (0.0001 ft/°F) (maximum error with compensated temperature range—per degree
of change.

frequency and interferences at frequencies of 140–170 MHz and 300 MHz with field strengths greater than 3 V/m.

2

For temperatures above 40 °C (104 °F) add ± 0.3 cm/°C (0.03 in./°F)

6

Section 2 General Information

2.1 Safety Information

Read the entire manual before unpacking, setting up, or operating this instrument. Pay
particular 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 what is specified in this manual.

2.1.1 Use of Hazard Information

DANGER
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: 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. A symbol, if noted on the instrument, will be
included with a danger or caution statement in the manual.

This symbol, if noted on the instrument, references the instruction manual for operation and/or safety information.

Electrical equipment marked with this symbol may not be disposed off 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 and indicates that only individuals qualified to work with hazardous voltages should open the
enclosure or remove the barrier.

This symbol, when noted on the product, identifies the location of a fuse or current limiting device.

This symbol, when noted on the product, indicates that the marked item can be hot and should not be touched
without care.

This symbol, when noted on the product, indicates the presence of devices sensitive to Electro-static Discharge and
indicates that care must be taken to prevent damage to them.

This symbol, if noted on the product, indicates the need for protective eye wear.

This symbol, when noted on the product, identifies the location of the connection for Protective Earth (ground).

7

General Information

2.1.3 Hazardous Locations

DANGER
Although some Sigma products are designed and certified for installation in
hazardous locations as defined by the National Electrical Code, many Sigma
products are not suitable for use in hazardous locations. It is the responsibility of
the individuals who are installing the products in hazardous locations to determine
the acceptability of the product for the environment. Additionally, to ensure safety,
the installation of instrumentation in hazardous locations must be as per the
manufacturer's control drawing specifications. Any modification to the
instrumentation or the installation is not recommended and may result in life
threatening injury and/or damage to facilities.

DANGER
Bien que certains produits Sigma soient conçus et certifiés pour être installés dans
des endroits dangereux tels que définis par le National Electric Code, de nombreux
produits Sigma ne conviennent pas pour de tels endroits. Il relève de la
responsabilité des personnes qui placent les produits dans des endroits dangereux
de déterminer s'ils sont adaptés à cet environnement. En outre, à des fins de
sécurité, le placement de machines dans des endroits dangereux doit s'effectuer
dans le respect des consignes des schémas de contrôle du fabricant. Toute
modification apportée aux machines ou tout déplacement de celles-ci est
déconseillé, car susceptible de provoquer des accidents matériels et/ou corporels.

2.1.4 Intrinsically Safe Equipment

The 911 and 940 Flow Meters are listed as “Intrisically Safe” for Class 1, Div.1, Groups C,
and D Hazardous Locations. This means that the circuits within these flow meters are
designed to be incapable of producing a spark or thermal effect that could ignite a mixture
of flammable or combustible gases when properly installed in a Class 1, Division 1, Group
C, or Group D Hazardous Location. It does not mean that these flow meters are
“Explosion Proof”. If proper safety precautions are not followed, or if the equipment is not
installed properly, there is a serious potential for explosion. Be sure to review all safety
precautions, installation, and wiring practices throughout this manual prior to installing a
911 or 940 Flow Meter.

2.1.4.1 Intrinsically Safe Installation Requirements

• It is important that the installer of an Intrinsically Safe system reference the

requirements of the authority having jurisdiction at the installation site. In the United
States, reference should be made to Article 504 of the National Electric Code and
ANSI/ISA RP 12.6. The 911 and 940 Flow Meters should be installed in accordance to
these requirements and in accordance with the approved control drawings in the
manual (Refer to section 4.1 on page 15).

• Wherever possible, associated apparatus should be mounted in a non-hazardous

location, closest to the hazardous location. This minimizes the length of the
intrinsically safe conductors within the non-hazardous location, thereby decreasing
the possibility of inadvertent connection to non-intrinsically safe energy to the
protected circuit. It is recommended that the associated apparatus be mounted and
installed in dust and moisture free enclosures. Dust and moisture are conductive
materials and may compromise the required minimum distance of 50 mm (2 in.)
between intrinsically safe and non-intrinsically safe conductors. The panel layout of
these enclosures should be constructed such that the separation of intrinsically safe
and non-intrinsically safe conductors is maximized.

8

2.1.4.2 Intrinsically Safe Wiring Practices

DANGER
Intrinsically safe wiring must be separated from non-intrinsically safe wiring to
prevent the transferring of unsafe levels of energy to the hazardous area.

DANGER
Le câblage à sécurité intrinsèque doit être séparé du câblage à sécurité non
intrinsèque afin d'empêcher tout transfert de niveaux d'énergie non sûrs vers la
zone dangereuse.

The following practices are meant to be used as guidelines or recommendations only. For
specific rules or more detailed practiced, refer to the National Electric Code, Canadian
Electric Code, or ANSI/ISA-RP 12.6-1987 or subsequent.

Intrinsically safe wiring must be installed, maintained, and repaired with considerations for
the following:

Connections

Do not connect non-intrinsically safe wiring to intrinsically safe terminations of any
associated apparatus, usually identified with light blue.

Routing

Intrinsically safe wiring must enter or leave the non-hazardous location by the shortest and
most direct route.

General Information

Clearances

A clearance distance of at least 50 mm (2 in.) must be maintained between any
non-intrinsically safe conductors and intrinsically safe wiring or terminations.

The only exceptions allowed for minimum clearances are:

• All intrinsically safe circuit conductors are in Type MI or MC cables or

• All non-intrinsically safe circuit conductors are in raceways or Type MI or MC cables

where the sheathing or cladding is capable of carrying fault current to the ground.

Raceways

Raceways should be used to keep intrinsically safe wire and non-intrinsically safe wire
separated. Wire lacing or ties are considered acceptable methods. All raceways for the
intrinsically safe system are identified with permanently affixed labels with the wording
Intrinsic Safety Wiring or equivalent.

Conductor Identification

Intrinsically safe conductors must be identified, either by color coding with light blue
jacketed cable or by tagging, at regular intervals of every 7.62 m (25 ft), as identified by
NEC (National Electric Code).

Voltage Limitations

The electrical equipment for non-hazardous location must not contain a source voltage
greater than 250 V unless sufficient means have been employed to prevent the shorting of
a source voltage greater than 250 V onto the non-intrinsically safe terminals of the
associated apparatus.

9

General Information

Multi-Conductor Cable

Conductors may be part of a multi-conductor cable provided that all conductors within the
cable are intrinsically safe. Each intrinsically safe conductor must have an insulation
thickness of 0.25 mm (0.010 in.) which is rated for the maximum temperature rating of the
approved device to which it is connected. The intrinsically safe wiring must be color coded
with light blue, if no other wiring is light blue or appropriately tagged.

Seals

A seal must be provided at the point the intrinsically safe wire passes between the
hazardous and non-hazardous locations to prevent the hazardous atmosphere from
entering the unprotected control room environment. The seal specification is that it must
not pass more than 198 cm3 (0.007 ft3) of air per hour at a pressure equivalent to 6 in.
(1493 Pa) of water. While this is the same specification for the sealing requirements of an
explosion proof system, it may not be necessary to employ those seals.

Grounding

The 911 and 940 Flow Meters and associated Opto-Isolated Interfaces do not require
grounding or bonding. Under no circumstances should any attempt be made to ground or
bond the 911 or 940 Flow Meters or Opto-Isolated Interfaces.

2.1.5 Confined Space Entry

Important Note: The following information is provided to guide users of 911 and 940 Flow
Meters on the dangers and risks associated with entry into confined spaces.

DANGER
Additional training in Pre-Entry Testing, Ventilation, Entry Procedures,
Evacuation/Rescue Procedures and Safety Work Practices is necessary to ensure
against the loss of life in confined spaces.

DANGER
Pour éviter les accidents mortels dans les espaces confinés, il faut organiser des
formations supplémentaires dans les matières suivantes: Contrôle avant entrée,
Ventilation, Procédures d'entrée, Procédures d'évacuation et de secours et
Méthodes de travail sûres.

On April 15, 1993, OSHA's final ruling on CFR 1910.146, Permit Required Confined
Spaces, became law. This standard directly affects more than 250,000 industrial sites in
the United States and was created to protect the health and safety of workers in
confined spaces.

2.1.5.1 Definition of Confined Space

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, mist, dust,

or fibers

10

• 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.

General Information

Important Note: Standard safety procedures must always be followed prior to entry into
confined spaces and/or locations where hazardous gases, vapors, mist, dust, or fibers
may be present.

Note: Before entering any confined space, check with the employer for procedures related to
confined space entry.

11

General Information

12

Section 3 Getting Started

3.1 Installing the Flow Meter-Considerations

3.1.1 Choosing the Proper Site

The accuracy of flow measurement depends on the suitability of individual monitoring
sites. Select sites that have normalized flow and minimal turbulence. Turbulence can
make it difficult to detect an average velocity in the flow stream. Obstructions, vertical
drops, pipe bends, and elbows can create turbulence. Table 3 contains suggestions for
preventing turbulence.

Table 3 Suggestions for Preventing Turbulence

Site Condition Suggested Remedy

Outfalls Attach the sensor at least ten times the maximum expected level upstream of the outfall.

Vertical drops in the
channel floor

Elbows, sharp turns,
and “Y” connections

3.1.2 Dealing with Difficult Sites

Attach the sensor at least ten times the maximum expected level upstream of the vertical drop.

Attach the sensor at least ten times the maximum expected level downstream of the vertical drop.

Locate the sensor at least ten times the maximum expected level upstream of the obstruction.

Locate the sensor at least ten times the maximum expected level downstream of the obstruction.

Some sites may be difficult to monitor due to poor site conditions. The direction and speed
of particles in the flow stream contribute to the signal received by the velocity sensor. If the
turbulence near the measurement point is excessive, it may be difficult for the sensor to
determine the average velocity of the stream. The flow meters provide several unique
features to help deal with these problem sites.

3.1.3 Choosing the Appropriate Meter and Sensor Combination

Use Table 4 to determine which sensor to use. See Section 6 on page 43 for sensor
installation instructions.

Table 4 Flow Meter and Sensor Configurations

Flow Meter Model Level and Velocity Sensor Configurations

911 Meter plus one Submerged Area/Velocity Sensor or one Velocity-Only Sensor

940

Meter plus two Submerged Area/Velocity Sensors or
Meter plus one Submerged Area/Velocity Sensor and one In-Pipe/Downlook Ultrasonic Sensor.

13

Getting Started

14

Section 4 Meter Installation

DANGER
Only qualified personnel should conduct the tasks described in this section of the
manual.

DANGER
Seul un technicien qualifié peut effectuer les tâches d'installation décrites dans
cette section du manuel.

This section describes the ONLY approved installation instructions for the 911 and 940
Flow Meters. This section also describes battery installation and interface wiring for a
RS232, Modem, and Sampler connection.

4.1 Approved 911 and 940 Installation Drawings

DANGER
Any installation or flow meter configuration not specifically detailed on the
following control drawings is not allowed. In all cases, the local authority having
jurisdiction shall have a final say.

DANGER
Il est interdit de procéder à toute installation ou configuration d'un débitmètre qui
n'est pas explicitement détaillée dans les schémas de contrôle de l'installation
ci-dessous. Dans tous les cas, c'est l'autorité locale responsable qui aura le
dernier mot.

Figure 1 on page 16 through Figure 13 on page 28 are approved control drawings. These

certified drawings detail the ONLY approved method of installing the 911 and 940 Flow
Meters. Additionally, these drawings list both part number, description, and the only
certified sensors, probes, and associated equipment to be used with these meters. Any
substitutions automatically void the Intrinsically Safe certification of the flow meter and
could result in fire or explosion.

15

Meter Installation

1

2

3

4

APPROVED

REVISION

DESCRIPTION

REV

D

Jeff Archer

TO COMPUTER

09-561

10 FT

3.1 m

3-5v DC

L

-OR-

P/N 4738

P/N 4087

LOCATION

NONHAZARDOUS (CLASSIFIED)

3-5v DC

RS-232

INTERFACE

-OR-

OPTO-ISOLATED

150 FT.

MAX LENGTH

C

1000

TO SIGMA

2.0 m

6.56 FT

RS-232

-OR-

P/N 5254200

P/N 5254100

INTERFACE

OPTO-ISOLATED

150 FT.

MAX LENGTH

NON-

10 FT

3.1 m

P/N 4274

CLASSIFIED

SAMPLER

SAMPLER

INTERFACE

OPTO-ISOLATED

B

A

HACH COMPANY

5600 LINDBERGH DR.

LOVELAND, CO. 80539

911 BASE

DRAWING, CONTROL

TITLE:

DATE

12/2/05

S.D

S.D

NAME

THIRD ANGLE PROJECTION

ENGINEER

DRAWN

.25

.005

.01

.03

DIMENSIONS ARE IN INCHES

TOLERANCES:

.X =

.XX =

.XXX =

ANGLES =

UNLESS OTHERWISE SPECIFIED:

INTERPRET GEOMETRIC

TOLERANCING PER:

L

REV

911-V1

DWG. NO.

B

SIZE

ANSI Y14.5M 1994

SHEET 1 OF 1

1

WEIGHT:

SCALE: 1:2

2

3

DO NOT SCALE DRAWING

4

NOTICE--HACH COMPANY CLAIMS PROPIETARY RIGHTS IN THE INFORMATION DISCLOSED ON THIS DRAWING. IT IS ISSUED

IN CONFIDENCE FOR ENGINEERING INFORMATION ONLY AND MAY NOT, IN WHOLE OR IN PART, BE USED TO MANFACTURE

ANYTHING, WHETHER OR NOT SHOWN HEREON, REPRODUCED OR DISCLOSED TO ANYONE WITHOUT DIRECT PERMISSION

P/N 5150

MODEL 911

5

HAZARDOUS (CLASSIFIED) LOCATION

CLASS 1, DIV. 1, GROUP C,D

6

INTEGRAL

ASSEMBLY

IN LINE VENT

25 FT - 100 FT MAX

7.6m - 30.5m

7

8

IF THE ELECTRICAL PARAMETERS OF THE CABLE ARE UNKNOWN, THE FOLLOWING DEFAULT VALUES MAY BE USED.

CAPACITANCE - .2nf/METER, INDUCTANCE - 1uh/METER

CANADIAN ELECTRIC CODE, C22.1-94, SECTION 18 AND ANSI/ISA RP 12.6

1.

2. WIRING METHODS MUST BE IN ACCORDANCE WITH THE NATIONAL ELECTRICAL CODE, ANSI/NFPA 70, ARTICLE 504,

D

PROBE

REF. TABLE 1

OR 2 FOR P/N

AREA VELOCITY

FLOWMETER

C

TABLE 1

REGULATORY AGENCY

TABLE 2

B

MATERIAL

FROM HACH COMPANY.

THIS DRAWING

APPROVAL REQUIRED

PRIOR TO CHANGING

A

5

6

7

8

16

Figure 1 Control Drawing 911-V1

REVISION

REV

REVISED PER R-3142-05

E

1.

CONNECTION OF P/N 4080 FLASH CONVERTER TO 911 FLOW METER

DESCRIPTION

MUST BE MADE IN A NON HAZARDOUS LOCATION.

Meter Installation

APPROVED

P/N 5150

911

FLOW METER

NOTICE-HACH COMPANY CLAIMS PROPRIETARY
RIGHTS IN THE INFORMAT ION DISCLOSED ON THE
DRAWING. IT IS ISSUED IN C ONFIDENCE FOR ENG­INEERING INFORMATION ONLY AND MAY NOT, IN
WHOLE OR IN PART, BE USED TO MANFACTURE
ANYTHING, WHETHER OR NOT SHOWN HEREON/
REPRODUCED OR DISCLOSED TO ANYONE WITHOUT
DIRECT PERMISSION FROM HACH COMPANY.

MATERIAL

NON HAZARDOUS (CLASSIFIED)

LOCATION

10 FT/

3.1m
P/N 4080

FLASH CONVERTER

UNLESS OTHER WISE SPECIFIED
DIMENSIONS ARE IN INCH ES
TOLERANCES:
.X =
.XX =
.XXX =
ANGLES = .2 5

INTERPRET GEOMETRIC
TOLERANCING PER: ANSI Y14.5 1994

.03
.01

.005

DO NOT SCALE DRAWING

DRAWN

ENGINEER

THIRD ANGLE PROJECTION

NAME

S. DUKART

S. DUKART

DATE

12/9/2005

10 FT/

3.1m

HACH COMPANY

5600 LINDBERGH DR.
LOVELAND, CO. 80539

TITLE:

DRAWING - CONTROL,

911 FLASH CONV

SIZE

A

SCALE:1:1

DWG. NO.

WEIGHT:

911-V2

SHEET 1 OF 1

REV.

E

Figure 2 Control Drawing 911-V2

17

Meter Installation

1

2

3

4

APPROVED

REVISION

DESCRIPTION

REV

D

C

THIS DRAWING

APPROVAL REQUIRED

PRIOR TO CHANGING

REGULATORY AGENCY

B

HACH COMPANY

5600 LINDBERGH DR.

DATE

12/8/2005

NAME

S. DUKART

A

LOVELAND, CO. 80539

S. DUKART

REV

G

SHEET 1 OF 1

1

DIAGRAM,

911 BLOCK

TITLE:

WEIGHT:

911-V3

DWG. NO.

B

SCALE: 1:1

SIZE

23

REVISED PER R-3143-05

THIRD ANGLE PROJECTION

ENGINEER

G

DRAWN

.005

ANGLES = .25

.XX = .01

DIMENSIONS ARE IN INCHES

TOLERANCES:

.X = .03

.XXX =

UNLESS OTHERWISE SPECIFIED:

INTERPRET GEOMETRIC

DO NOT SCALE DRAWING

ANSI Y14.5M 1994

TOLERANCING PER:

4

RS-232

P/N 4228

65

P/N 4227

P/N 5339

P/N 4221-01

7

P/N 5335

CPU MODULE

P/N 5150 911 FLOW METER

8

VELOCITY

MODULE

AREA VELOCITY

SAMPLER

P/N 4226

P/N 5159

12Ah

GEL CELL

P/N 4150-28

RECHARGABLE

IN CONFIDENCE FOR ENGINEERING INFORMATION ONLY AND MAY NOT, IN WHOLE OR IN PART, BE USED TO MANFACTURE

ANYTHING, WHETHER OR NOT SHOWN HEREON, REPRODUCED OR DISCLOSED TO ANYONE WITHOUT DIRECT PERMISSION

NOTICE--HACH COMPANY CLAIMS PROPIETARY RIGHTS IN THE INFORMATION DISCLOSED ON THIS DRAWING. IT IS ISSUED

MATERIAL

FROM HACH COMPANY.

5

67

8

18

D

C

B

A

Figure 3 Control Drawing 911-V3

Meter Installation

1

2

3

4

APPROVED

REVISION

DESCRIPTION

REV

D

Jeff Archer

TO COMPUTER

09-561

L

3-5v DC

10 FT

3.1m

-OR-

P/N 4738

P/N 4087

LOCATION

NONHAZARDOUS (CLASSIFIED)

3-5v DC

RS-232

INTERFACE

OPTO-ISOLATED

150 FT.

MAX LENGTH

6.56 FT

-OR-

P/N 5254200

C

TO SIGMA

2.0 m

-OR-

P/N 5254100

1000

RS-232

INTERFACE

OPTO-ISOLATED

MAX LENGTH

150 FT.

NON-

CLASSISFIED

10 FT

3.1m

P/N 4274

SAMPLER

OPTO-ISOLATED

SAMPLER

INTERFACE

B

P/N 4443

F.O. MODEM

F.O.

MODEM

P/N 4413

CUSTOMER DEFINABLE LENGTH

INTERFACE

A

HACH COMPANY

5600 LINDBERGH DR.

LOVELAND, CO. 80539

940, 2ND AV

DRAWING - CONTROL,

TITLE:

DATE

12/05/05

S.D

S.D

NAME

THIRD ANGLE PROJECTION

ENGINEER

DRAWN

.25

.005

.01

.03

DIMENSIONS ARE IN INCHES

TOLERANCES:

.X =

.XX =

.XXX =

ANGLES =

UNLESS OTHERWISE SPECIFIED:

INTERPRET GEOMETRIC

TOLERANCING PER:

L

REV

940-V1

DWG. NO.

B

SIZE

ANSI Y14.5M 1994

SHEET 1 OF 1

1

WEIGHT:

SCALE: 1:2

2

3

DO NOT SCALE DRAWING

4

MATERIAL

NOTICE--HACH COMPANY CLAIMS PROPIETARY RIGHTS IN THE INFORMATION DISCLOSED ON THIS DRAWING. IT IS ISSUED

IN CONFIDENCE FOR ENGINEERING INFORMATION ONLY AND MAY NOT, IN WHOLE OR IN PART, BE USED TO MANFACTURE

ANYTHING, WHETHER OR NOT SHOWN HEREON, REPRODUCED OR DISCLOSED TO ANYONE WITHOUT DIRECT PERMISSION

FROM HACH COMPANY.

P/N 4840

MODEL 940

FLOW METER

5

HAZARDOUS (CLASSIFIED) LOCATION

CLASS 1, DIV. 1, GROUP C.D

6

7

INTEGRAL

ASSEMBLY

IN LINE VENT

7.6m - 30.5m

25 FT - 100 FT MAX

PROBE

REF. TABLE 1

OR 2 FOR P/N

AREA VELOCITY

INTEGRAL

ASSEMBLY

IN LINE VENT

7.6m - 30.5m

25 FT - 100 FT MAX

PROBE

REF. TABLE 1

OR 2 FOR P/N

AREA VELOCITY

REGULATORY AGENCY

TABLE 2

8

CANADIAN ELECTRIC CODE C22.1-94, SECTION 18 AND ANSI/ISA RP 12.6

CAPACITANCE - .2 nf/METER, INDUCTANCE - 1 uh/METER.

1. IF THE ELECTRICAL PARAMETERS OF THE CABLE ARE UNKNOWN, THE FOLLOWING DEFAULT VALUES MAY BE USED:

MINIMUM BEND RADIUS IS 3 IN./7.6 cm.

2. WIRING METHODS MUST BE IN ACCORDANCE WITH THE NATIONAL ELECTRICAL CODE, ANSI/NFPA 70, ARTICLE 504,

3. FOR MODEM INSTALLATION IN CONDUIT, MINIMUM CONDUIT DIAMETER IS 1/2 IN./1.3 cm.,

D

C

TABLE 1

B

THIS DRAWING

APPROVAL REQUIRED

PRIOR TO CHANGING

A

5

6

7

8

Figure 4 Control Drawing 940-V1

19

Meter Installation

1

2

3

4

APPROVED

REVISION

DESCRIPTION

REV

D

Jeff Archer

TO COMPUTER

09-561

10 FT

3.1 m

3-5v DC

L

-OR-

P/N 4738

P/N 4087

LOCATION

NONHAZARDOUS (CLASSIFIED)

3-5v DC

RS-232

INTERFACE

-OR-

OPTO-ISOLATED

150 FT.

MAX LENGTH

C

1000

TO SIGMA

2.0 m

6.56 FT

RS-232

-OR-

P/N 5254200

P/N 5254100

INTERFACE

OPTO-ISOLATED

150 FT.

MAX LENGTH

NON-

10 FT

3.1 m

P/N 4274

CLASSIFIED

SAMPLER

SAMPLER

INTERFACE

OPTO-ISOLATED

B

P/N 4443

F.O. MODEM

F.O.

MODEM

P/N 4413

CUSTOMER DEFINABLE LENGTH

INTERFACE

NOTICE--HACH COMPANY CLAIMS PROPIETARY RIGHTS IN THE INFORMATION DISCLOSED ON THIS DRAWING. IT IS ISSUED

IN CONFIDENCE FOR ENGINEERING INFORMATION ONLY AND MAY NOT, IN WHOLE OR IN PART, BE USED TO MANFACTURE

A

L

REV

SHEET 1 OF 1

1

HACH COMPANY

5600 LINDBERGH DR.

LOVELAND, CO. 80539

940 ULTRASONIC

DRAWING - CONTROL,

TITLE:

DATE

12/05/05

S.D

S.D

NAME

THIRD ANGLE PROJECTION

ENGINEER

DRAWN

.25

.005

.01

.03

DIMENSIONS ARE IN INCHES

TOLERANCES:

.X =

.XX =

.XXX =

ANGLES =

UNLESS OTHERWISE SPECIFIED:

MATERIAL

ANYTHING, WHETHER OR NOT SHOWN HEREON, REPRODUCED OR DISCLOSED TO ANYONE WITHOUT DIRECT PERMISSION

FROM HACH COMPANY.

INTERPRET GEOMETRIC

940-V2

DWG. NO.

B

SIZE

TOLERANCING PER:

ANSI Y14.5M 1994

WEIGHT:

SCALE: 1:2

2

3

DO NOT SCALE DRAWING

4

P/N 4840

MODEL 940

5

HAZARDOUS (CLASSIFIED) LOCATION

CLASS 1, DIV. 1, GROUP C,D

6

INTEGRAL

ASSEMBLY

IN LINE VENT

25 FT - 100 FT MAX

7.6m - 30.5m

7

8

CAPACITANCE - .2nf/METER, INDUCTANCE - 1uh/METER

CANADIAN ELECTRIC CODE, C22.1-94, SECTION 18 AND ANSI/ISA RP 12.6

MINIMUM BEND RADIUS IS 3 IN./7.6 cm.

1. IF THE ELECTRICAL PARAMETERS OF THE CABLE ARE UNKNOWN, THE FOLLOWING DEFAULT VALUES MAY BE USED.

3. FOR MODEM INSTALLATION IN CONDUIT, MINIMUM CONDUIT DIAMETER IS 1/2 IN./1.3 cm.,

2. WIRING METHODS MUST BE IN ACCORDANCE WITH THE NATIONAL ELECTRICAL CODE, ANSI/NFPA 70, ARTICLE 504,

D

PROBE

REF. TABLE 1

OR 2 FOR P/N

AREA VELOCITY

FLOWMETER

C

100 FT MAX

PROBE

P/N 4741

DEADBAND

75KHz ZERO

30.5m

B

TABLE 1

APPROVAL REQUIRED

REGULATORY AGENCY

TABLE 2

THIS DRAWING

PRIOR TO CHANGING

A

5

6

7

8

20

Figure 5 Control Drawing 940-V2

REVISION

REV

REVISED PER R-3146-05

E

CONNECTION OF P/N 4080 FLASH CONVERTER TO 940 FLOW METER

1.

DESCRIPTION

MUST BE MADE IN A NON HAZARDOUS LOCATION.

Meter Installation

APPROVED

P/N 4840

940

FLOW METER

NOTICE-HACH COMPANY CLAIMS PROPRIETARY
RIGHTS IN THE INFORMAT ION DISCLOSED ON THE
DRAWING. IT IS ISSUED IN C ONFIDENCE FOR ENG­INEERING INFORMATION ONLY AND MAY NOT, IN
WHOLE OR IN PART, BE USED TO MANFACTURE
ANYTHING, WHETHER OR NOT SHOWN HEREON/
REPRODUCED OR DISCLOSED TO ANYONE WITHOUT
DIRECT PERMISSION FROM HACH COMPANY.

MATERIAL

NON HAZARDOUS (CLASSIFIED)

LOCATION

10 FT/

3.1m
P/N 4080

FLASH CONVERTER

UNLESS OTHER WISE SPECIFIED
DIMENSIONS ARE IN INCH ES
TOLERANCES:
.X =
.XX =
.XXX =
ANGLES =

INTERPRET GEOMETRIC
TOLERANCING PER: ANSI Y14.5 1994

.03
.01

.005
.25

DO NOT SCALE DRAWING

DRAWN

ENGINEER

THIRD ANGLE PROJECTION

NAME

S. DUKART

S. DUKART

DATE

12/9/2005

10 FT/

3.1m

HACH COMPANY

5600 LINDBERGH DR.
LOVELAND, CO. 80539

TITLE:

DRAWING - CONTROL,

940 FLASH CONV

SIZE

A

SCALE:1:1

DWG. NO.

WEIGHT:

940-V3

SHEET 1 OF 1

REV.

E

Figure 6 Control Drawing 940-V3

21

Meter Installation

1

2

3

4

APPROVED

REVISION

DESCRIPTION

REV

D

08-11878

E

THIS DRAWING

APPROVAL REQUIRED

PRIOR TO CHANGING

REGULATORY AGENCY

C

B

A

HACH COMPANY

5600 LINDBERGH DR.

LOVELAND, CO. 80539

DIAGRAM,

940, BLOCK

TITLE:

DATE

04/17/2008

NAME

S. DUKART

S. DUKART

THIRD ANGLE PROJECTION

ENGINEER

DRAWN

.25

.005

.01

.03

DIMENSIONS ARE IN INCHES

TOLERANCES:

.X =

.XX =

.XXX =

ANGLES =

UNLESS OTHERWISE SPECIFIED:

INTERPRET GEOMETRIC

TOLERANCING PER:

E

REV

940-V4

DWG. NO.

B

SIZE

ANSI Y14.5M 1994

SHEET 1 OF 1

1

WEIGHT:

SCALE: 1:1

2

3

DO NOT SCALE DRAWING

4

MATERIAL

NOTICE--HACH COMPANY CLAIMS PROPIETARY RIGHTS IN THE INFORMATION DISCLOSED ON THIS DRAWING. IT IS ISSUED

IN CONFIDENCE FOR ENGINEERING INFORMATION ONLY AND MAY NOT, IN WHOLE OR IN PART, BE USED TO MANFACTURE

ANYTHING, WHETHER OR NOT SHOWN HEREON, REPRODUCED OR DISCLOSED TO ANYONE WITHOUT DIRECT PERMISSION

FROM HACH COMPANY.

MODEM

MODULE

-V2 OPTION

SAMPLER

P/N 4226

P/N 4251

LITHIUM

P/N 6608500

RECHARGEABLE

BATTERY MODULE

5

6

RS-232

5

P/N 4228

6

VELOCITY A

P/N 4227

MODULE

P/N 5339

AREA VELOCITY

VELOCITY B

P/N 4227

MODULE

P/N 5339

AREA VELOCITY

P/N 4221-01

-V1 OPTION

ULTRASONIC A

P/N 4143

LEVEL

P/N 5337

ULTRASONIC

P/N 4221-02

OR

P/N 4221-01

7

OPTIONAL OPTIONAL

LITHIUM 12V

P/N 5159

P/N 5335

CPU MODULE

8

P/N 4840 940 FLOW METER

P/N 4150-26

BATTERY MODULE

7

8

22

D

C

B

A

Figure 7 Control Drawing 940-V4

Meter Installation

1

2

3

4

APPROVED

REVISION

DESCRIPTION

REV

D

Jeff Archer

TO COMPUTER

09-561

10 FT

3.1 m

3-5v DC

L

-OR-

P/N 4738

P/N 4087

LOCATION

NONHAZARDOUS (CLASSIFIED)

3-5v DC

RS-232

INTERFACE

-OR-

OPTO-ISOLATED

150 FT.

MAX LENGTH

C

1000

TO SIGMA

2.0 m

6.56 FT

RS-232

-OR-

P/N 5254200

P/N 5254100

INTERFACE

OPTO-ISOLATED

150 FT.

MAX LENGTH

P/N 4443

F.O. MODEM

F.O.

MODEM

P/N 4413

B

CUSTOMER DEFINABLE LENGTH

INTERFACE

A

L

REV

SHEET 1 OF 1

1

HACH COMPANY

5600 LINDBERGH DR.

LOVELAND, CO. 80539

940, ULTRA

DRAWING, CONTROL

TITLE:

DATE

12/05/05

S.D

S.D

NAME

THIRD ANGLE PROJECTION

ENGINEER

DRAWN

.25

.005

.01

.03

DIMENSIONS ARE IN INCHES

TOLERANCES:

.X =

.XX =

.XXX =

ANGLES =

UNLESS OTHERWISE SPECIFIED:

MATERIAL

NOTICE--HACH COMPANY CLAIMS PROPIETARY RIGHTS IN THE INFORMATION DISCLOSED ON THIS DRAWING. IT IS ISSUED

IN CONFIDENCE FOR ENGINEERING INFORMATION ONLY AND MAY NOT, IN WHOLE OR IN PART, BE USED TO MANFACTURE

ANYTHING, WHETHER OR NOT SHOWN HEREON, REPRODUCED OR DISCLOSED TO ANYONE WITHOUT DIRECT PERMISSION

FROM HACH COMPANY.

INTERPRET GEOMETRIC

940-V5

DWG. NO.

B

SIZE

TOLERANCING PER:

ANSI Y14.5M 1994

WEIGHT:

SCALE: 1:2

2

3

DO NOT SCALE DRAWING

4

P/N 4840

MODEL 940

5

HAZARDOUS (CLASSIFIED) LOCATION

CLASS 1, DIV. 1, GROUP C,D

6

INTEGRAL

ASSEMBLY

IN LINE VENT

25 FT - 100 FT MAX

7.6m - 30.5m

7

8

CANADIAN ELECTRIC CODE, C22.1-94, SECTION 18 AND ANSI/ISA RP 12.6

CAPACITANCE - .2nf/METER, INDUCTANCE - 1uh/METER

1. IF THE ELECTRICAL PARAMETERS OF THE CABLE ARE UNKNOWN, THE FOLLOWING DEFAULT VALUES MAY BE USED.

MINIMUM BEND RADIUS IS 3 IN./7.6 cm.

2. WIRING METHODS MUST BE IN ACCORDANCE WITH THE NATIONAL ELECTRICAL CODE, ANSI/NFPA 70, ARTICLE 504,

3. FOR MODEM INSTALLATION IN CONDUIT, MINIMUM CONDUIT DIAMETER IS 1/2 IN./1.3 cm.,

D

PROBE

REF. TABLE 1

OR 2 FOR P/N

AREA VELOCITY

FLOWMETER

C

100 FT MAX

PROBE

P/N 4741

DEADBAND

75KHz ZERO

30.5m

TABLE 1

B

APPROVAL REQUIRED

REGULATORY AGENCY

TABLE 2

THIS DRAWING

PRIOR TO CHANGING

A

5

6

7

8

Figure 8 Control Drawing 940-V5

23

Meter Installation

1

2

3

4

APPROVED

REVISION

DESCRIPTION

REV

D

Jeff Archer

TO COMPUTER

09-561

10 FT

3.1 m

3-5v DC

J

-OR-

RS-232

P/N 4738

P/N 4087

LOCATION

NONHAZARDOUS (CLASSIFIED)

3-5v DC

-OR-

INTERFACE

OPTO-ISOLATED

150 FT.

MAX LENGTH

C

1000

TO SIGMA

2.0 m

6.56 FT

-OR-

RS-232

P/N 5254200

OPTO-ISOLATED

P/N 5254100

50/60 Hz

120 VAC

SUPPLY

P/N 5351

DC POWER

POWER SUPPLY BARRIER P/N 1004

P/N 100401

IS ZENER

P/N 5331

INTERFACE

P/N 4443

F.O. MODEM

150 FT.

MAX LENGTH

F.O.

MODEM

P/N 4413

INTERFACE

POWER

BARRIER

LENGTH

DEFINABLE

CUSTOMER

B

12 VDC

P/N 4615

BATTERY

BACKUP

TO 940 FLOW METER

IS

GROUND

MAX.

45.7 m

150 FT/

LENGTH

A

J

REV

SHEET 1 OF 1

1

HACH COMPANY

5600 LINDBERGH DR.

LOVELAND, CO. 80539

940, 120 VAC

DRAWING, CONTROL

TITLE:

DATE

12/05/05

S.D

S.D

NAME

THIRD ANGLE PROJECTION

ENGINEER

DRAWN

.25

.005

.01

.03

DIMENSIONS ARE IN INCHES

TOLERANCES:

.X =

.XX =

.XXX =

ANGLES =

UNLESS OTHERWISE SPECIFIED:

MATERIAL

NOTICE--HACH COMPANY CLAIMS PROPIETARY RIGHTS IN THE INFORMATION DISCLOSED ON THIS DRAWING. IT IS ISSUED

IN CONFIDENCE FOR ENGINEERING INFORMATION ONLY AND MAY NOT, IN WHOLE OR IN PART, BE USED TO MANFACTURE

ANYTHING, WHETHER OR NOT SHOWN HEREON, REPRODUCED OR DISCLOSED TO ANYONE WITHOUT DIRECT PERMISSION

FROM HACH COMPANY.

INTERPRET GEOMETRIC

940-V8

DWG. NO.

B

SIZE

TOLERANCING PER:

ANSI Y14.5M 1994

WEIGHT:

SCALE: 1:2

2

3

DO NOT SCALE DRAWING

4

P/N 5232

MODEL 940

25 FT - 100 FT MAX

7.6m - 30.5m

PROBE

OR 2 FOR P/N

AREA VELOCITY

FLOW METER

INTEGRAL

C

ASSEMBLY

IN LINE VENT

REF. TABLE 1

25 FT - 100 FT MAX

7.6m - 30.5m

PROBE

OR 2 FOR P/N

AREA VELOCITY

B

TABLE 1

APPROVAL REQUIRED

REGULATORY AGENCY

TABLE 2

5

HAZARDOUS (CLASSIFIED) LOCATION

CLASS 1, DIV. 1, GROUP C,D

6

INTEGRAL

ASSEMBLY

IN LINE VENT

7

8

CANADIAN ELECTRIC CODE, C22.1-94, SECTION 18 AND ANSI/ISA RP 12.6

CAPACITANCE - .2 nf/METER, INDUCTANCE - 1 uh/METER.

1. IF THE ELECTRICAL PARAMETERS OF THE CABLE ARE UNKNOWN, THE FOLLOWING DEFAULT VALUES MAY BE USED:

MINIMUM BEND RADIUS IS 3 IN./7.6 cm.

2. WIRING METHODS MUST BE IN ACCORDANCE WITH THE NATIONAL ELECTRICAL CODE, ANSI/NFPA 70, ARTICLE 504,

3. FOR MODEM INSTALLATION IN CONDUIT, MINIMUM CONDUIT DIAMETER IS 1/2 IN./1.3 CM.,

D

REF. TABLE 1

5

THIS DRAWING

PRIOR TO CHANGING

6

7

8

A

24

Figure 9 Control Drawing 940-V8

Meter Installation

1

2

3

4

APPROVED

REVISION

DESCRIPTION

REV

D

Jeff Archer

TO COMPUTER

09-561

10 FT

3.1 m

3-5v DC

G

-OR-

P/N 4738

P/N 4087

LOCATION

NONHAZARDOUS (CLASSIFIED)

3-5v DC

RS-232

INTERFACE

-OR-

OPTO-ISOLATED

150 FT.

MAX LENGTH

C

1000

TO SIGMA

2.0 m

6.56 FT

RS-232

-OR-

P/N 5254200

P/N 5254100

240 VAC

50/60 Hz

SUPPLY

P/N 5371

DC POWER

POWER SUPPLY BARRIER P/N 4733

P/N 100401

P/N 5331

INTERFACE

OPTO-ISOLATED

P/N 4443

F.O. MODEM

150 FT.

MAX LENGTH

F.O.

MODEM

P/N 4413

INTERFACE

POWER

BARRIER

IS ZENER

LENGTH

DEFINABLE

CUSTOMER

B

P/N 4615

12 VDC

BATTERY

BACK-UP

A

REV

G

SHEET 1 OF 1

1

HACH COMPANY

5600 LINDBERGH DR.

LOVELAND, CO. 80539

940, 240 VAC ULTRA

DRAWING, CONTROL

TITLE:

DATE

12/05/05

S.D

S.D

NAME

TO 940 FLOW METER

THIRD ANGLE PROJECTION

ENGINEER

DRAWN

.25

.005

.01

.03

IS

MAX.

GROUND

150 FT/

LENGTH

45.7 m

DIMENSIONS ARE IN INCHES

TOLERANCES:

.X =

.XX =

.XXX =

ANGLES =

UNLESS OTHERWISE SPECIFIED:

MATERIAL

NOTICE--HACH COMPANY CLAIMS PROPIETARY RIGHTS IN THE INFORMATION DISCLOSED ON THIS DRAWING. IT IS ISSUED

IN CONFIDENCE FOR ENGINEERING INFORMATION ONLY AND MAY NOT, IN WHOLE OR IN PART, BE USED TO MANFACTURE

ANYTHING, WHETHER OR NOT SHOWN HEREON, REPRODUCED OR DISCLOSED TO ANYONE WITHOUT DIRECT PERMISSION

FROM HACH COMPANY.

INTERPRET GEOMETRIC

940-V9

DWG. NO.

B

SIZE

TOLERANCING PER:

ANSI Y14.5M 1994

WEIGHT:

SCALE: 1:2

2

3

DO NOT SCALE DRAWING

4

P/N 5232

MODEL 940

5

HAZARDOUS (CLASSIFIED) LOCATION

CLASS 1, DIV. 1, GROUP C,D

6

INTEGRAL

ASSEMBLY

IN LINE VENT

25 FT - 100 FT MAX

7.6m - 30.5m

7

8

MINIMUM BEND RADIUS IS 3 IN./7.6 cm.

CANADIAN ELECTRIC CODE, C22.1-94, SECTION 18 AND ANSI/ISA RP 12.6

CAPACITANCE - .2nf/METER, INDUCTANCE - 1uh/METER

1. IF THE ELECTRICAL PARAMETERS OF THE CABLE ARE UNKNOWN, THE FOLLOWING DEFAULT VALUES MAY BE USED.

3. FOR MODEM INSTALLATION IN CONDUIT, MINIMUM CONDUIT DIAMETER IS 1/2 IN./1.3 cm.,

2. WIRING METHODS MUST BE IN ACCORDANCE WITH THE NATIONAL ELECTRICAL CODE, ANSI/NFPA 70, ARTICLE 504,

D

PROBE

REF. TABLE 1

OR 2 FOR P/N

AREA VELOCITY

FLOWMETER

C

OR

P/N 4741

P/N 5233-05

75 KHz ZERO

4741 - 100 FT. MAX

5233-05 - 100 FT. MAX

PROBE

DEADBAND

TABLE 1

B

APPROVAL REQUIRED

REGULATORY AGENCY

TABLE 2

THIS DRAWING

PRIOR TO CHANGING

A

5

6

7

8

Figure 10 Control Drawing 940-V9

25

Meter Installation

1

2

3

4

APPROVED

REVISION

DESCRIPTION

REV

D

Jeff Archer

TO COMPUTER

09-561

10 FT

3.1 m

3-5v DC

G

-OR-

RS-232

P/N 4738

P/N 4087

LOCATION

NONHAZARDOUS (CLASSIFIED)

3-5v DC

-OR-

INTERFACE

OPTO-ISOLATED

150 FT.

MAX LENGTH

C

1000

TO SIGMA

2.0 m

6.56 FT

-OR-

RS-232

P/N 5254200

OPTO-ISOLATED

P/N 5254100

50/60 Hz

240 VAC

SUPPLY

P/N 5371

DC POWER

POWER SUPPLY BARRIER P/N 4733

P/N 100401

IS ZENER

P/N 5331

INTERFACE

P/N 4443

F.O. MODEM

150 FT.

MAX LENGTH

F.O.

MODEM

P/N 4413

INTERFACE

POWER

BARRIER

LENGTH

DEFINABLE

CUSTOMER

B

12 VDC

P/N 4615

BATTERY

BACKUP

TO 940 FLOW METER

IS

GROUND

MAX.

45.7 m

150 FT/

LENGTH

A

REV

G

SHEET 1 OF 1

1

HACH COMPANY

5600 LINDBERGH DR.

LOVELAND, CO. 80539

940, 240 VAC

DRAWING, CONTROL

TITLE:

DATE

12/05/05

S.D

S.D

NAME

THIRD ANGLE PROJECTION

ENGINEER

DRAWN

.25

.005

.01

.03

DIMENSIONS ARE IN INCHES

TOLERANCES:

.X =

.XX =

.XXX =

ANGLES =

UNLESS OTHERWISE SPECIFIED:

MATERIAL

NOTICE--HACH COMPANY CLAIMS PROPIETARY RIGHTS IN THE INFORMATION DISCLOSED ON THIS DRAWING. IT IS ISSUED

IN CONFIDENCE FOR ENGINEERING INFORMATION ONLY AND MAY NOT, IN WHOLE OR IN PART, BE USED TO MANFACTURE

ANYTHING, WHETHER OR NOT SHOWN HEREON, REPRODUCED OR DISCLOSED TO ANYONE WITHOUT DIRECT PERMISSION

FROM HACH COMPANY.

INTERPRET GEOMETRIC

940-V10

DWG. NO.

B

SIZE

TOLERANCING PER:

ANSI Y14.5M 1994

WEIGHT:

SCALE: 1:2

2

3

DO NOT SCALE DRAWING

4

P/N 5232

MODEL 940

25 FT - 100 FT MAX

7.6m - 30.5m

PROBE

OR 2 FOR P/N

AREA VELOCITY

FLOW METER

INTEGRAL

ASSEMBLY

IN LINE VENT

REF. TABLE 1

25 FT - 100 FT MAX

7.6m - 30.5m

PROBE

OR 2 FOR P/N

AREA VELOCITY

APPROVAL REQUIRED

REGULATORY AGENCY

5

HAZARDOUS (CLASSIFIED) LOCATION

CLASS 1, DIV. 1, GROUP C,D

6

INTEGRAL

ASSEMBLY

IN LINE VENT

7

REF. TABLE 1

TABLE 2

8

CANADIAN ELECTRIC CODE, C22.1-94, SECTION 18 AND ANSI/ISA RP 12.6

CAPACITANCE - .2 nf/METER, INDUCTANCE - 1 uh/METER.

1. IF THE ELECTRICAL PARAMETERS OF THE CABLE ARE UNKNOWN, THE FOLLOWING DEFAULT VALUES MAY BE USED:

MINIMUM BEND RADIUS IS 3 IN./7.6 cm.

2. WIRING METHODS MUST BE IN ACCORDANCE WITH THE NATIONAL ELECTRICAL CODE, ANSI/NFPA 70, ARTICLE 504,

3. FOR MODEM INSTALLATION IN CONDUIT, MINIMUM CONDUIT DIAMETER IS 1/2 IN./1.3 CM.,

D

C

TABLE 1

B

5

THIS DRAWING

PRIOR TO CHANGING

6

7

8

A

26

Figure 11 Control Drawing 940-V10

Meter Installation

1

2

3

4

APPROVED

REVISION

DESCRIPTION

REV

D

Jeff Archer

TO COMPUTER

09-561

10 FT

3.1 m

3-5v DC

G

-OR-

P/N 4738

P/N 4087

LOCATION

NONHAZARDOUS (CLASSIFIED)

3-5v DC

RS-232

INTERFACE

-OR-

OPTO-ISOLATED

150 FT.

MAX LENGTH

C

1000

TO SIGMA

2.0 m

6.56 FT

RS-232

-OR-

P/N 5254200

P/N 5254100

INTERFACE

OPTO-ISOLATED

150 FT.

MAX LENGTH

NON-

CLASSIFIED

10 FT

3.1 m

P/N 4274

SAMPLER

OPTO-ISOLATED

SAMPLER

INTERFACE

B

P/N 4443

F.O. MODEM

F.O.

MODEM

P/N 4413

INTERFACE

A

REV

G

SHEET 1 OF 1

1

HACH COMPANY

5600 LINDBERGH DR.

LOVELAND, CO. 80539

940, ULTRA

DRAWING, CONTROL

TITLE:

DATE

12/07/05

S.D

S.D

NAME

THIRD ANGLE PROJECTION

ENGINEER

DRAWN

.25

.005

.01

.03

DIMENSIONS ARE IN INCHES

TOLERANCES:

.X =

.XX =

.XXX =

ANGLES =

UNLESS OTHERWISE SPECIFIED:

LENGTH

DEFINABLE

CUSTOMER

MATERIAL

NOTICE--HACH COMPANY CLAIMS PROPIETARY RIGHTS IN THE INFORMATION DISCLOSED ON THIS DRAWING. IT IS ISSUED

IN CONFIDENCE FOR ENGINEERING INFORMATION ONLY AND MAY NOT, IN WHOLE OR IN PART, BE USED TO MANFACTURE

ANYTHING, WHETHER OR NOT SHOWN HEREON, REPRODUCED OR DISCLOSED TO ANYONE WITHOUT DIRECT PERMISSION

FROM HACH COMPANY.

INTERPRET GEOMETRIC

940-V14

DWG. NO.

B

SIZE

TOLERANCING PER:

ANSI Y14.5M 1994

WEIGHT:

SCALE: 1:2

2

3

DO NOT SCALE DRAWING

4

P/N 4840

MODEL 940

5

HAZARDOUS (CLASSIFIED) LOCATION

CLASS 1, DIV. 1, GROUP C,D

6

INTEGRAL

ASSEMBLY

IN LINE VENT

25 FT - 100 FT MAX

7.6m - 30.5m

7

PROBE

REF. TABLE 1

OR 2 FOR P/N

AREA VELOCITY

FLOWMETER

OR

P/N 4741

DEADBAND

75KHz ZERO

P/N 5233-05

4741 - 100 FT. MAX

5233-05 - 100 FT MAX

PROBE

APPROVAL REQUIRED

REGULATORY AGENCY

TABLE 2

TABLE 1

8

CAPACITANCE - .2nf/METER, INDUCTANCE - 1uh/METER

CANADIAN ELECTRIC CODE, C22.1-94, SECTION 18 AND ANSI/ISA RP 12.6

MINIMUM BEND RADIUS IS 3 IN./7.6 cm.

1. IF THE ELECTRICAL PARAMETERS OF THE CABLE ARE UNKNOWN, THE FOLLOWING DEFAULT VALUES MAY BE USED.

2. WIRING METHODS MUST BE IN ACCORDANCE WITH THE NATIONAL ELECTRICAL CODE, ANSI/NFPA 70, ARTICLE 504,

3. FOR MODEM INSTALLATION IN CONDUIT, MINIMUM CONDUIT DIAMETER IS 1/2 IN./1.3 cm.,

D

C

B

THIS DRAWING

PRIOR TO CHANGING

A

5

6

7

8

Figure 12 Control Drawing 940-V14

27

Meter Installation

1

2

3

4

APPROVED

REVISION

DESCRIPTION

REV

D

Jeff Archer

TO COMPUTER

09-561

10 FT

3.1 m

3-5v DC

F

-OR-

RS-232

P/N 4087

P/N 4738

LOCATION

NONHAZARDOUS (CLASSIFIED)

3-5v DC

-OR-

INTERFACE

OPTO-ISOLATED

150 FT.

MAX LENGTH

C

1000

TO SIGMA

2.0 m

6.56 FT

-OR-

RS-232

P/N 5254100

OPTO-ISOLATED

P/N 5254200

INTERFACE

DC INPUT

CUSTOMER SUPPLIED

(12.00 TO 13.57 VDC)

P/N 100401

150 FT.

MAX LENGTH

POWER

IS ZENER

P/N 5331

B

BARRIER

TO 940 FLOW METER

IS

GROUND

A

HACH COMPANY

5600 LINDBERGH DR.

LOVELAND, CO. 80539

940 DC INPUT

DRAWING, CONTROL,

TITLE:

DATE

12/05/05

S.D

S.D

NAME

THIRD ANGLE PROJECTION

ENGINEER

DRAWN

.25

.005

.01

.03

DIMENSIONS ARE IN INCHES

TOLERANCES:

.X =

.XX =

.XXX =

ANGLES =

UNLESS OTHERWISE SPECIFIED:

INTERPRET GEOMETRIC

TOLERANCING PER:

F

REV

SHEET 1 OF 1

WEIGHT:

940-V15

DWG. NO.

B

SCALE: 1:2

SIZE

DO NOT SCALE DRAWING

ANSI Y14.5M 1994

1

2

3

4

MAX.

45.7 m

150 FT./

LENGTH

P/N 5232

MODEL 940

5

HAZARDOUS (CLASSIFIED) LOCATION

CLASS 1, DIV. 1, GROUP C,D

6

INTEGRAL

ASSEMBLY

IN LINE VENT

7

REF. TABLE1

OR 2 FOR P/N

FLOW METER

25 FT - 100 FT MAX

7.6M - 30.5M

PROBE

AREA VELOCITY

INTEGRAL

ASSEMBLY

IN LINE VENT

25 FT - 100 FT MAX

7.6M - 30.5M

PROBE

REF. TABLE1

OR 2 FOR P/N

AREA VELOCITY

NOTICE--HACH COMPANY CLAIMS PROPIETARY RIGHTS IN THE INFORMATION DISCLOSED ON THIS DRAWING. IT IS ISSUED

IN CONFIDENCE FOR ENGINEERING INFORMATION ONLY AND MAY NOT, IN WHOLE OR IN PART, BE USED TO MANFACTURE

ANYTHING, WHETHER OR NOT SHOWN HEREON, REPRODUCED OR DISCLOSED TO ANYONE WITHOUT DIRECT PERMISSION

REGULATORY AGENCY

TABLE 2

8

CANADIAN ELECTRIC CODE, C22.1-94, SECTION 18 AND ANSI/ISA RP 12.6

IF THE ELECTRICAL PARAMETERS OF THE CABLE ARE UNKNOWN, THE FOLLOWING DEFAULT VALUES MAY BE USED:

CAPACITANCE - .2 nf/METER, INDUCTANCE - 1 uh/METER.

2. WIRING METHODS MUST BE IN ACCORDANCE WITH THE NATIONAL ELECTRICAL CODE, ANSI/NFPA 70, ARTICLE 504,

1.

D

C

TABLE 1

B

MATERIAL

FROM HACH COMPANY.

THIS DRAWING

APPROVAL REQUIRED

PRIOR TO CHANGING

A

5

6

7

8

28

Figure 13 Control Drawing 940-V15