HF Scientific Micro TOL2 WL, Micro TOL3 WL, Micro TOL3 IR, Micro TOL4 WL, Micro TOL2 IR User Manual

OWNER’S MANUAL

MicroTOL Series Turbidimeter

3170 Metro Parkway
Ft. Myers, FL 33916
Phone: 239-337-2116
Fax: 239-332-7643

Catalog No. 24034 (8/07) E-Mail: hfinfo@watts.com

Rev. 4.1 Website: www.hfscientific.com

HF scientific

DECLARATION OF CONFORMITY

Application of Council Directive

Standards to Which Conformity is Declared:

Product Safety - Tested and passed ETL (tested to UL 61010B-1), 1

24, 2003

- Tested and passed ETLc (tested to CSA C22.2#1010.1-92)

Emissions & Immunity – Tested and passed EN61326: 1997 + A1:1998 + A2:2001 + A3:2003

Manufacturer’s Name: HF scientific

Manufacturer’s Address: 3170 Metro Parkway, Fort Myers, Florida 33916-7597

Importer’s Name:

Importer’s Address:

Type of Equipment: Process Turbidimeter

Model No: Micro TOL

I, the undersigned, hereby declare that the equipment specified above conforms to the above
Directive and Standard

Place: Fort Myers, Florida USA
(Signature)

Rowan T. Connelly, General Manager

st

Edition, Dated January

Table of Contents

Section Page

Specifications ....................................................................................................1

1.0 Overview ........................................................................................................... 2

1.1 The Micro TOL Series .........................................................................2

1.2 Unpacking and Inspection of the Instrument and Accessories ............. 3

1.3 The Display ..........................................................................................3

1.4 The Touch Pad ...................................................................................... 4

1.5 Vapor Purge........................................................................................... 4

2.0 Safety.................................................................................................................4

3.0 Installation and Commissioning ....................................................................... 5

3.1 Mounting and Site Selection .................................................................5

3.2 Plumbing ............................................................................................. 6

3.2.1 Drain Vent .................................................................................7

3.2.2 Wetted Materials ....................................................................... 7

3.3 Electrical Connections .......................................................................... 7

3.3.1 Power ........................................................................................ 8

3.3.2 RS-485 ..................................................................................... 8

3.3.3 Relays ........................................................................................8

3.3.4 4-20 mA .................................................................................... 8

4.0 Operation ..........................................................................................................9

4.1 Routine Measurement ........................................................................... 9

4.2 Security Access Feature ........................................................................9

5.0 Instrument Calibration .................................................................................... 11

5.1 Calibration Standards ......................................................................... 11

5.2 Calibration Procedures ....................................................................... 12

5.3 Calibration Error ................................................................................. 13

6.0 Instrument Offset ........................................................................................... 14

6.1 Indexing Calibration Cuvettes ............................................................ 15

6.2 Restoring Factory Settings ..................................................................15

7.0 Instrument Configuration (CONFIG mode)....................................................16

7.1 Selecting the Output (O/P) .................................................................16

7.2 Setting the 4-20 mA ............................................................................ 16

7.3 Configuring the RS-485 Port ..............................................................17

7.4 Configuring the Alarms....................................................................... 18

7.4.1 Alarm 1....................................................................................18

7.4.2 Alarm 2 ................................................................................... 19

7.5 Offset Calibration ................................................................................ 19

MICRO TOL (6/08)
Rev. 4.1

Table of Contents (continued)

Section Page

7.6 Enabling the Security Access ..............................................................20

7.7 Extended Settings ................................................................................ 20

7.8 Speed of Response............................................................................... 20

7.9 Displayed Resolution ......................................................................... 21

7.10 LCD Backlight Brightness ..................................................................21

7.11 Setting the Units ..................................................................................22

7.12 Ultrasonic Cleaning............................................................................. 22

7.13 RS- 485 Parameters ............................................................................. 22

7.14 Desiccant Alarm .................................................................................. 23

7.15 Saving Configuration Settings............................................................. 23

8.0 Additional Features and Options .................................................................... 24

8.1 Backlit LCD ........................................................................................ 24

8.2 Ultrasonic Cleaning............................................................................. 24

8.3 RS-485 Output.....................................................................................25

8.3.1 HF Online ................................................................................ 25

8.3.2 Simple Communication........................................................... 25

8.3.3 Modbus Communication .........................................................26

8.4 Flow Alarm.......................................................................................... 26

8.5 Flow Controller ................................................................................... 26

8.6 Remote Panel Meter ............................................................................ 26

9.0 Troubleshooting & Maintenance .................................................................... 27

9.1 Micro TOL Fault Detection.................................................................27

9.2 System Fail Message .......................................................................... 27

9.3 Diagnostic Chart ................................................................................. 28

9.4 Technical and Customer Assistance ................................................... 28

10.0 Routine Maintenance....................................................................................... 29

10.1 Cleaning the Flow Through Cuvette .................................................. 29

10.2 Replacing or Installing the Desiccant Pouch ...................................... 29

10.3 Replacing the Source Lamp ...............................................................29

11.0 Accessories and Replacement Parts List ........................................................ 30

12.0 Warranty ......................................................................................................... 31

MICRO TOL (6/08)
Rev. 4.1

Specifications

Measurement Range

Accuracy

Resolution
Response Time

Display
Alarms

Analog Output
Communications Port

Maximum Water Pressure

Flow Rate
Operating Temperature

Wetted Materials

0 – 1000.0 NTU
0 – 100 NTU (Model 20055 & 20056)
±2% of reading or ±0.02 NTU below 40 NTU whichever is greater
±5% of reading above 40 NTU

0.0001 NTU (below 10 NTU)
Adjustable

Multi-Line Liquid Crystal Backlit Display

Two Programmable, 120-240VAC 2A Form C Relay

Powered 4-20 mA, 600 Ω drive

Bi-directional RS-485, Modbus

Integral pressure regulator rated 1380kPa (200 PSI.) Also refer to

Flow Rate

100 ml/min. – 1 liter/min. (.026-.26 Gal/min)

1°C – 50°C (34°F – 122°F)
Nylon, Borosilicate Glass, Silicon, Polypropylene, Stainless Steel

Sample Temperature Range
Power Supply

Insulation Rating
Environmental Conditions

Enclosure Rating
Regulatory Compliance
And Certifications

Shipping Weight
Warranty

1°C – 50°C (34°F – 122°F)

100 – 240 VAC, 47 – 63 Hz, 80VA

Double Insulated, Pollution Degree 2, Overvoltage Category II

Not recommended for outdoor use.

Altitude up to 2000 meters

Up to 95 % RH (non-condensing)

Designed to meet IP 66 /NEMA 4X

White Light Version compliant to U.S. EPA 180.1

Infrared Version compliant to ISO 7027

CE Approved, ETL listed to UL 61010B-1 &

ETL Certified to CSA 22.2 No. 1010-1-92

2.5 kg (5.5 lbs.)
1 Year from date of shipment

MICRO TOL (6/08) 1
Rev. 4.1

1.0 Overview

The MICRO TOL process turbidimeter allows for the measurement of the turbidity of
process water on-line. The White Light MICRO TOL has been designed to meet the
design criteria specified by the US EPA 180.1 on turbidity measurement. The infrared
MICRO TOL was designed to meet the design criteria specified in ISO 7027 and DIN
27027 for the measurement of the turbidity of a sample. Both models have long life lamps.

Some models have ultrasonic cleaning. Refer to section 8.2 for more information.

A pressure regulator on the incoming line is a standard on all Micro TOL instruments and

will reduce pressures up to 1380kPa (200 PSI) down to (104kPa) 15 PSI.

1.1 The Micro TOL Series

The Micro TOL series instruments have a wide variety of options available. Refer to the
table below to determine which factory installed options are available.

Catalog

No.

20053 Micro TOL2 WL Standard Standard Standard N/A 0-1000 Option
20054 Micro TOL2 IR Standard Standard Standard N/A 0-1000 Option

20055 Micro TOL3 WL Standard Standard Standard Standard 0-100 Option
20056 Micro TOL3 IR Standard Standard Standard Standard 0-100 Option

20063 Micro TOL4 WL Standard Standard Standard Standard 0-1000 Option
20064 Micro TOL4 IR Standard Standard Standard Standard 0-1000 Option

Description RS-485 Modbus Backlight Ultrasonic

Cleaning

Range

NTU

Flow

Alarm

MICRO TOL (6/08) 2
Rev. 4.1

1.2 Unpacking and Inspection of the Instrument and Accessories

The table below indicates the items in the turbidimeter shipment.

Item Quantity

MICRO TOL Turbidimeter c/w Field Terminal Box & Flow Through

1

Assembly

Instruction Manual

Desiccant Pack

Cuvette (Single Pack)

Tubing Kit: 1-shutoff clamp

1
1
1
1

1-backpressure valve

2-connecting tubing with fittings for flow through assembly
1-drain vent screw (used in pressurized systems)

Remove the instrument from the packing carton. Carefully inspect all items to ensure that
no visible damage has occurred during shipment. If the items received do not match the
order, please immediately contact the local distributor or the HF scientific, inc. Customer
Service department.

Note: The spare cuvette part# 50033 is not included for models 20055, 20056 20063 & 20064.

1.3 The Display

Figure 1 illustrates all the items that can appear on the display. The upper row of the
display (1) is used for reporting the turbidity levels and to provide user guidance in the
customer setting routine. The lower row of the display (2) is used to communicate error
messages and provide user guidance. The display has two icons (3) that are used to
indicate the use of access code and offset mode. In addition, mode arrows (4) are used to
indicate the current instrument operating mode; AUTO (normal operation), CAL
(calibration) and CONFIG (configuration).

Figure 1 – Display used in the instrument.

All items used on the display are shown in this figure

MICRO TOL (6/08) 3
Rev. 4.1

1.4 The Touch Pad

Figure 2 illustrates the touch pad. The touch pad has four buttons: MODE/EXIT, ↵, t,
and u. The MODE/EXIT button is used to cycle between the three operational modes of
the instrument: CAL, CONFIG, and AUTO (Measurement) mode. The ↵ button enters

the option (or mode that is highlighted or chosen. The tand u buttons are used to change
settings.

Figure 2: Touch Pad

1.5 Vapor Purge

The Micro TOL is equipped with a continuous vapor purge system. A replaceable
desiccant pouch in the lower portion of the instrument dries the air. System heat is used to
warm the air. A fan inside the instrument continuously circulates heated dry air around the
optical well and the flow through cuvette. This feature eliminates the need for a dry purge
line.

The Micro TOL monitors the replaceable desiccant pouch condition continuously. The

LCD display will show DESC on the lower line in the event that the desiccant pouch

needs replacement. Replacement desiccant pouches are available from HF scientific, inc.
or the local representative (Part # 21555R). Refer to section 10.2 Replacing or installing

the Desiccant Pouch.

The desiccant can activate an alarm to notify the operator of a saturated desiccant. See
section 7.14 Desiccant Alarm.

Note: Prior to installing the desiccant pouch for the first time the shipping support must be

removed. This tube can be discarded.

2.0 Safety

This manual contains basic instructions that must be followed during the commissioning,

operation, care and maintenance of the instrument. The safety protection provided by this

equipment may be impaired if it is commissioned and/or used in a manner not described in
this manual. Consequently, all responsible personnel must read this manual prior to

working with this instrument.

In certain instances Notes, or helpful hints, have been highlighted to give further

clarification to the instructions. Refer to the Table of Contents to easily find specific
topics and to learn about unfamiliar terms.

MICRO TOL (6/08) 4
Rev. 4.1

3.0 Installation and Commissioning

Prior to use for the first time, the supplied desiccant pouch will need to be installed. Refer
to section 10.2 Replacing or Installing the Desiccant Pouch.

3.1 Mounting & Site Selection

The instrument is designed for wall mounting. If wall mounting is not practical, the
instrument can be mounted on any suitable level surface. For ease of service there should
be about 20 cm (8”) free area above the instrument; this will ensure enough room for
calibration and cuvette maintenance. Choose a location that is easily accessible for
operation and service and ensure that the front display rests at eye level. The overall
mounting dimensions of the instrument are shown in Figure 3. The recommended
mounting screws are M6 (¼”) for the instrument enclosure and M4 (#8) for the field
terminal box. The Micro TOL is designed to have the field terminal box cradled under the
sensor portion of the instrument. It is recommended that the field terminal box be mounted
first, and then the rest of the instrument be mounted on top. The template on the last page
of this manual may be used to establish mounting hole locations.

Figure 3: Overall Mounting Dimensions of the Instrument

It is critical that the instrument be mounted as close as possible to the sampling point to
ensure a quick response time (within 2-3 meters (6-10 ft) of the sampling point).

MICRO TOL (6/08) 5
Rev. 4.1

3.2 Plumbing

The recommended plumbing for the instrument is shown in Figure 4. The instrument is
designed to require very little head pressure to operate; around 6.9kPa (1 PSI). The flow
through cuvette is rated for a flow of 100ml/min. – 1 liter/min. (0.026-0.26Gal/min). The
integral pressure regulator is rated for a maximum pressure of 1380 kPa (200 PSI.). The
maximum allowable fluid temperature is 50°C (122°F).

Figure 4: Recommended Plumbing for the Instrument

The instrument is equipped to be plumbed using 4.75 mm (3/16”) ID, 8 mm (5/16”) OD
flexible tubing. Opaque tubing should be used if the tubing will be exposed to sunlight, to
prevent algae growth.

In figure 4, there are two flow devices shown. The one on the input side is a shutoff clamp
used during cuvette maintenance. The other device is a backpressure valve. Backpressure
may be required to prevent air from coming out of solution, which may be observed as
tiny air bubbles.

MICRO TOL (6/08) 6
Rev. 4.1

3.2.1 Drain Vent: The Micro TOL has been fitted with a drain vent in the “OUT”

bulkhead fitting. This fitting allows for atmospheric equalization, thus helping to alleviate
bubble formation in the cuvette. Refer to Figure 4.

Upon initial flow minor leakage may occur through the drain vent. This will subside once

normal flow is established.

For some high pressure systems, where the vent hole continuously leaks, a 6:32 seal screw

is provided which should be inserted into the vent hole and tightened.

The sensor drain tubing should be routed to a suitable drain. It is not recommended to
reintroduce the drain sample to the process stream.

3.2.2 Wetted Materials: HF scientific inc. accepts no responsibility for damage caused

by the introduction of vapors, fluids or other materials into the instrument process stream
which is not compatible with the instrument’s wetted materials. A list of the wetted
materials can be found in the specifications on page 1 of this manual.

3.3 Electrical Connections

All of the electrical connections to the instrument are made through the field terminal box,
which should be located directly under the sensor portion of the instrument. The
connections are labeled within the terminal box and are self-descriptive (see Figure 5).
Please follow all local and government recommendations and methods for installation of
electrical connections to and between the instrument and other peripheral devices.

Plugs are inserted into the alarm and 4-20mA/RS-485 cable bulkheads when shipped, to
ensure a watertight seal. These plugs should be removed and discarded when cabling to
either of these connections.

The power cable bulkhead will accept cable diameters from 5.8mm (.230 in.) up to 10 mm
(.395 in.). All terminals are designed to accept wires in the range of 14-28 AWG. All
wires should be stripped to a length of 6 mm (¼”). A strain relief strap is provided to
reduce tension on the power terminals.

It is the user’s responsibility to assure that the watertight seal is maintained after the
terminal box has been wired for operation. If any of the bulkheads are not tightened
properly around a cable or plug, the ratings of the instrument will be jeopardized and there
is a possibility of creating a shock hazard.

Note: Only qualified electricians should be allowed to perform the installation of the

instrument as it involves a line voltage that could endanger life.

MICRO TOL (6/08) 7
Rev. 4.1