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Analy - TAB 1 - Hach Turbidimeters
The 1720E TURBIDIMETER is the newest in a long line of successful Hach turbidimeters from the unsurpassed world leader in turbidity measurement. THE NEW experience + accuracy + simplicity What can the unsurpassed WORLD LEADER IN TURBIDITY measurement do for you? THE NEW experience + accuracy + simplicity EXPERIENCE The Model 1720E Low Range Turbidimeter reflects an astounding 45 years of Hach leadership in turbidity measurement science. Metropolitan water treatment systems, rural water utilities, wastewater treatment plants large and small, and industrial processes of every kind - all have relied on Hach turbidimeters for nearly five decades. In fact, Hach has the largest turbidimeter installation base in the world. Operators and engineers alike know they can count on the per- formance of Hach turbidimeters and calibration standards as well as the experienced Hach personnel designing, manufacturing, selling, installing, and supporting these systems. Additionally, Hach offers a 2-year warranty on the 1720E, compared to the 1-year warranty offered with many other turbidimeters on the market. Hach is not only the world's turbidity leader, but also your partner in turbidity measurement, filtration management, and treatment process optimization solutions. ACCURACY Now, the 1720E Turbidimeter combines Hach's proven design, demonstrated accuracy and reliability, plus innovative elements that add more power and utility to your low-level turbidity monitoring program: > Built-in bubble removal system - eliminates falsely high readings at low levels > Sensitivity - fast response to fine changes in low-level turbidity > Repeatability -not effected by sample flow and pressure SIMPLICITY > Simplified two-module design- sensor and controller interface with simple plug &play connection > Reduced instrumentation - controller accepts two sensors; adding a second 1720E sensor unit gives you two complete turbidimeters > Easy, calibration and verification - with no interruption in sample flow THE BEST TOOL FOR EFFLUENT MONITORING REQUIREMENT TS! PRINCIPLE OF OPERATION NEPHELOMETRIC MEASUREMENT Incandescent light directed from the sensor head assembly down into the turbidimeter body is scattered by suspended particles in the sample. The sensor's submerged photocell detects light scattered at 90º from the incident beam. SAMPLE FLOW PATH Sample enters the center column of the turbidimeter, rises into the measuring chamber and spills over the weir into the drain port. This configuration results in an optically flat surface free of turbulence. SIMPLIFIED CALIBRATION One-point calibration with prepared StablCal™ Stabilized Formazin Solution eliminates the errors of formazin suspension dilution, takes less than two minutes per sensor, and is a USEPA-accepted method. BUILT-IN BUBBLE REMOVAL Continuously flowing sample flows through the patented* bubble removal system, which vents entrained air from the sample stream and eliminates the most significant interference in low-level turbidity measurement. The built-in bubble removal system is immune to changes in sample flow and pressure. COMPLIANT DESIGN The 1720E Low Range Turbidimeter applies the instrument design and meets performance criteria established by the U.S. Environmental Protection Agency (USEPA) in Method 180.1, making it suitable for regulatory reporting. *U.S. patent 5,831,727 STABLCAL®STABILIZED FORMAZIN PRIMARY STANDARDS > Disposable and non-toxic > Avoid preparation and dilution of formazin standards with StablCal standards > Can be used to calibrate any turbidimeter > Guaranteed shelf life of two years > Low level certified standards available in 1 L or 3.78 L (1 Gallon) > Low level standards range from 0.06 to 1 NTU ICE-PIC VERIFICATION MODULE The ICE-PIC Module is a newer, faster way to calibrate and check the performance of Hach 1720 series turbidimeters. The benefits of using the ICE-PIC Module include: > Saves time - verify performance in less than one minute > Accurate - factory calibrated, with a certificate of accuracy provided > Cost effective - a one-time investment, with no consumables > Small and lightweight - great for spot verification around the facility > Available in 20 and 1.0 NTU SIMPLE RELIABLE CALIBRATION TOOLS THE LARGEST SURFACE WATER TREATMENT PLANT in the world has been using Hach process turbidimeters for years. The city of Chicago has two plants that currently have more than 300 Hach 1720D turbidimeters installed to meet the high volume demand and NPDWR regulatory rules. Why Hach? According to John Spatz, the Bureau of Water Supply Deputy Commissioner, the instruments have proven to be "very accurate and dependable." The facility has found that the 1720D turbidimeters need very little maintenance and are easy to operate. Spatz says they rarely refer back to the manual once the instrument is installed. "The instruments are very user-friendly" according to Spatz. He also likes the idea of having data back-up in the unit,in case the SCADA system is not operational. During the purchasing research, the city looked at several turbidimeters, then chose Hach because the 1720D best fit the facilities' needs. The plants also use several Hach bench-top turbidimeters. POWERFUL DATA MANAGEMENT AND COMMUNICATIONS DATA COLLECTION AND DISPLAY The 1720E Turbidimeter sc100 Controller receives data from one or two sensors. Its built-in data logger collects turbidity measurements at user selectable intervals (1-15 minutes), along with calibration and verification points, alarm history, and instrument setup changes for 6 months. Local display, recall, graphing, and trending in CSV format make chart recorders redundant. DIRECT DIGITAL COMMUNICATION This revolutionary smart controller is a new standard for Hach instruments. Not only will it accept a rapidly increasing number of Hach anaylytical tools; but it will reduce your operator training load as a wide variety of instruments will share the same interface and control method. The sc100 Controller also offers optional DigitalDirect solutions for direct measurement from sensor to control room - no analog/digital conversion. Choose from MODBUS® /RS485, MODBUS/RS232, LonWorks protocols, or the wireless IR port. MORE OUTPUT FEATURES Meet your specific application needs with even more data management and communication features: > Two analog outputs; three set-point alarms > Wireless IR port communication > Compatibility with existing AquaTrend® Networks > Data is downloadable in user-selected time intervals; stores up to 6 months of data POWER STATUS 127.8 mm (5.0 inches) 236.22 mm (9.30 inches) 19.72 mm(0.78 inches) 238.35 mm (9.38 inches) 312.48 mm (12.30 inches) 273.05 mm (10.75 inches) 157.00 mm(6.18 inches) 172.4 mm (6.79 inches) 2 Slots for0.25 fastener Sample Drain Service Drain1.00 I.D. 164.18 mm (6.46 inches) Allow at least254 mm (10.00 inches)above the instrumentfor removal ofthe head assembly. sc100 150.0 mm (5.91 inches)144.0 mm (5.67 inches)144.0 mm (5.67 inches)80.27 mm(3.16 inches) 40.14 mm (1.58 inches)72.01 mm(2.84 inches)144.02 mm (5.67 inches)40.14 mm (1.58 inches) 80.27 mm (3.16 inches)4XM6 x 1.0 144.02 mm (5.67 inches) 72.01 mm (2.84 inches) Sample Inlet 384.30 mm (15.13 inches) 1720E SPECIFICATIONS* Range 0.001-100 Nephelometric Turbidity Units (NTU) Accuracy**± 2% of reading or ± 0.015 NTU (whichever is greater) from 0 to 10 NTU; ± 5% of reading from 10 to 40 NTU; ± 10% of reading from 40 to 100 NTU Displayed Resolution 0.0001 NTU from 0 to 9.9999 NTU; 0.001 NTU from 10.000 to 99.999 NTU Repeatability**Better than ± 1.0% of reading or ± 0.002 NTU, whichever is greater Response Time For a full-scale step change, initial response in 1 minute, 15 seconds Signal Average Time User Selectable ranging from 6, 30, 60, 90 seconds; user default 30 seconds Sample Flow Required 200 to 750 mL/minute (3.1 to 11.9 gal/hour) Storage Temperature -20 to +60ºC (-4 to 140ºF) Operating Temperature 0 to 50ºC (32 to 122ºF) for single sensor system, 0 to 40ºC (32 to 104ºF) for two sensor system Operating Humidity 5 to 95% non-condensing Sample Temperature 0 to 50ºC (32 to 122ºF) Recorder Outputs Two selectable for 0-20 mA or 4-20 mA. Output span programmable over any portion of the 0-100 NTU range; built into the sc100 Controller Alarms Three set-point alarms, each equipped with an SPDT relay with unpowered contacts rated 5A resistive load at 230 VAC; built into the sc100 Controller Power Requirements 100-230 VAC, 50/60 Hz, auto selecting; 40 VA Sample Inlet Fitting 1/4" NPT female, 1/4" compression fitting (provided) Drain Fitting 1/2" NPT female, 1/2" hose barb (provided) Enclosures NEMA-4X/IP66 Controller Digital Communications Network card compatible; MODBUS/RS485, MODBUS/RS232, LonWorks®protocol (optional) Wireless Communication IR Port on the sc100 Controller to download into a handheld Personal Digital Assistant (PDA) or laptop computer via MODBUS Compliance Standard Methods 2130B, USEPA 180.1, Hach Method 8195 Certification Safety:Listed by ETL to UL 61010A-1: Certified by ETL to CSA C22.2 No. 1010.1: CE certified by Hach Company to EN 61010-1 Immunity:CE certified by Hach Company to EN61326 (industrial levels) Emissions Class A:EN 61326, CISPR 11, FCC Part 15, Canadian Interference-Causing Equipment Regulation ICES-003 Dimensions Turbidimeter Body and Cap: 10 x 12 x 16 inches (25.4 x 30.5 x 40.6 cm) sc100 Controller: 5.67 x 5.67 x 5.91 inches (14.4 X 14.4 X 15.0 cm) Mounting Turbidimeter Body and Head Assembly: wall and floor stand sc100 Controller: wall, pole, panel, and floor stand Shipping Weight 1720E Turbidimeter and sc100 Controller: 13.5 lbs. (6.12 kg) 1720E Turbidimeter: 10 lbs. (4.54 kg) * Subject to change without notice. ** Defined according to ISO 15839. Typical Proposal Specifications: 1720E Low Range Turbidimeter GENERAL The turbidity monitoring system shall include at least one Turbidimeter and one inter- face unit. The system shall be capable of functioning as a single sensor system and also be easily expanded up to two turbidimeters per interface unit. The connections between the turbidimeter and interface unit will include plug &play connections. TURBIDIMETER The turbidimeter shall measure turbidity in the range of 0.001-100 NTU and be a microprocessor-based, continuous-reading, on-line nephelometric instrument meeting all design and performance criteria specified by USEPA method 180.1. Light shall be directed through the surface of the sample and the detector shall be immersed in the sample, eliminating glass windows and flow cells. Optical com- ponents shall be mounted in a sealed head assembly that can be removed easily for calibration/service, without disturbing sample flow. The turbidimeter body shall be constructed of corrosion-resistant polystyrene, and shall include an inter- nal bubble removal system to vent entrained air from the sample stream. The tur- bidimeter shall offer the choice of formazin-based (20 or 1 NTU) or instrument comparison-based calibration methods. Accuracy shall be ± 2% of reading or ± 0.015 NTU (whichever is greater) from 0 to 10 NTU; ± 5% of reading from 10 to 40 NTU; ± 10% of reading from 40 to 100 NTU. Displayed resolution shall be 0.0001 NTU from 0 to 9.9999 NTU; 0.001 NTU from 10.000 to 99.999 NTU and repeatability shall be better than ± 1.0% of reading or ± 0.002 NTU (whichever is greater). User selectable signal averaging, bubble removal, alarm and recorder output hold, and self-test diagnostics shall be provided. All turbidimeters on the network shall have the option for MODBUS/RS232, MODBUS/RS485, LonWorks serial input/output capability for two-way communication to a computer or have wireless downloading capability through the IR Port located on the interface unit to download and print real-time turbidity data, calibration history, and current set points in a CSV format. INTERFACE MODULE The Interface unit shall allow operators to control sensor and interface functions with user-friendly, menu-driven software, and shall provide data logging of meas- urement data from up to two turbidimeters for 15 minutes, 1 hour, 24 hours, 30 days, or 180 days and the capability to transfer data to a computer or printer via direct MODBUS communications or directly into a Personal Digital Assistant (PDA) via a wireless IR Port. The interface unit will also have a built-in data logger with the storage capacity to store data on 15-minute intervals for up to 6 months with two sensors per controller. Each interface will also include two analog outputs and 3 un-powered SPDT alarm contacts. The interface unit and the DC power sup- ply shall be housed in a NEMA-4X (indoor) industrial metal/plastic enclosure, and the power supply shall automatically accept input in the range of 100 to 230 Vac, 50/60 Hz. SAFETY AND ELECTRICAL DESIGN STANDARDS All system components are ETL listed to UL 61010A-1, certified by ETL to CSA C22.2 No. 1010.1, and CE certified by manufacturer for safety to EN 61010-1. For EMC immunity and emissions, system components are CE certified by manufacturer to EN 61326 (industrial levels), for North America to FCC Part 15, and Canadian Interference-Causing Equipment Regulation ICES-003, and for rest of world to CISPR 11 Class A levels. INSTALLATION At Hach, it’s about learning from our customers and providing the right answers. It’s more than ensuring the quality of water – it’s about ensuring the quality of life. When it comes to the things that touch our lives... Keep it pure. Make it simple. Be right. For current price information, technical support, and ordering assistance, contact the Hach office or distributor serving your area. In the United States, contact: HACH Company World Headquarters P.O. Box 389 Loveland, Colorado 80539-0389 U.S.A. Telephone: 800-227-4224 Fax: 970-669-2932 E-mail: orders@hach.com Website: www.hach.com U.S. exporters and customers in Canada, Latin America, sub-Saharan Africa, Asia, and Australia/New Zealand, contact: HACH Company World Headquarters P.O. Box 389 Loveland, Colorado 80539-0389 U.S.A. Telephone: 970-669-3050 Fax: 970-461-3939 E-mail: intl@hach.com Website: www.hach.com In Europe, the Middle East, and Mediterranean Africa, contact: HACH + LANGE Europe Dr. Bruno Lange GmbH &Co. KG Willstätterstraße 11 D-40549 Düsseldorf GERMANY Telephone: +49 (0) 211-5288-0 Fax: +49 (0) 211-5288-143 E-mail: kundenservice@drlange.de www.drlange.com HOW TO ORDER 60101-00 1720E Turbidimeter with sc100 Controller 60101-01 1720E Turbidimeter, Sensor Only 1720E with DigitalDirect communications 60101-02 1720E/sc100 with MODBUS/RS485 output 60101-03 1720E/sc100 with MODBUS/RS232 output 60101-04 1720E/sc100 with LonWorks output CABLES* 57960-00 25 ft. (7.7 M) Extension Cable 46306-00 Power Cord with Strain Relief (125 VAC) 46308-00 Power Cord with Strain Relief (230 VAC), European Style Plug *Note: Power cables must be ordered separately. OPTIONAL ACCESSORIES ICE-PIC Verification Module/1720E: 52250-00 20 NTU 52215-00 1 NTU STABLCAL COMPARATIVE CALIBRATION STANDARDS (for 1720E, 1720D, and 1720C Turbidimeters)*** 26601-53 20.0 NTU, 1 L each *** Note: Calibration Cylinder must be ordered separately. STABLCAL VERIFICATION STANDARDS 26598-53 1.0 NTU, 1 L each 27463-53 40.0 NTU, 1 L each 26979-53 0.3 NTU, 1 L each 26980-53 0.5 NTU, 1 L each 27233-53 0.1 NTU, 1 L each FORMAZIN CALIBRATION STANDARDS 44156-00 Formazin Calibration Kit for user-prepared calibration includes 4000 NTU Formazin, (500 mL), TenSette ®Pipet, and Calibration Cylinder 2461-49 Formazin Primary Standard, 4000 NTU, 500 mL, replacement for kit #44156-00 44153-000 Calibration Cylinder, 1L 57432-00 Floor Stand Lit. No. 2446 J35 Printed in U.S.A. © Hach Company, 2003. All rights reserved. DW = drinking water WW = wastewater municipal PW = pure water / power IW = industrial water E = environmental C = collections FB = food and beverage TurbidityDATA SHEET FilterTrak 660™ sc Laser Nephelometer Features and Benefits Finest Resolution in the Market The Hach FilterTrak 660 sc Laser Nephelometer is designed specifically to detect changes in turbidity as low as 0.0005 NTU. Using advanced laser optics and signal processing, the instrument detects increased concentrations of submicron-sized particles that are a precursor to larger particles. This allows for early filter deterioration detection that meets or exceeds that of particle counters—all with the day-to-day convenience, simplicity, and reliability of a Hach turbidimeter. Operators can detect impending filter breakthrough, delineate filter ripening, and maximize effective filter run time. Meets All USEPA Filter Monitoring Requirements The FilterTrak sensor uses U.S. Environmental Protection Agency (USEPA) approved Hach FilterTrak Method #10133, the method specified in the USEPA LT2 draft guidance manual for compliance monitoring of membrane filters. The sensor meets all regulatory requirements for individual filter and combined effluent monitoring. Monitor, Optimize, and Report USEPA method compliance means that treatment plants with conventional or membrane filtration can monitor and optimize, as well as report, using this single technology. Hach also offers USEPA-approved StablCal®Stabilized Formazin Standards that save time and labor by achieving accurate, low-level calibration with prepared standards. Communications and Data Logging Optimize data management with flexible direct digital communication options including 4-20 mA, digital MODBUS®(RS-485 or RS-232), PROFIBUS DP, or Lonworks protocols. Every sc100 and sc1000 controller may be equipped with wireless communication. A built-in data logger collects measurement data, calibration, verification points, and alarm history for up to six months. Data can be retrieved to a computer or PDA. Method of Operation Sample continuously flows into the FilterTrak sensor through a bubble trap that removes entrained air and enters a central column where it rises into a measuring chamber. A 35 mW solid state laser diode projects a beam at 660 nm through the sample. This beam is highly collimated and monochromatic so that stray light is virtually eliminated. The light scattered by particles in the sample is collected at 90° to the beam and carried through an optical fiber to a remote detection system. The amount of light detected is directly proportional to the turbidity of the sample. Compatible with Hach Multi-Sensor, Multi-Parameter Digital Controllers The FilterTrak sensor can be used with Hach’s new sc100 or sc1000 Digital Controllers. The sc100 controller accepts up to two sensors. The sc1000 accepts up to eight sensors. Multiple controllers can be networked to accommodate many more sensors and parameters, reducing the cost per measuring point. Just plug in any Hach “plug and play” digital sensor and it’s ready to use without software configuration. “Plug and play” connectivity means there’s no complicated wiring or set up. Network the FilterTrak 660 sc Laser Nephelometer with any of Hach’s digital sensors for measuring dissolved oxygen, pH, ORP, conductivity, and many other parameters. The Hach FilterTrak 660 sc Laser Nephelometer uses USEPA-approved Hach Method #10133 to monitor turbidity, with sub-micron sensitivity to detect particles smaller than 0.1 µm. DW PW USEPA Method Designed to comply with USEPA approved method 10133 for regulatory compliance reporting Method of Detection Nephelometric light scatter at 90 degrees relative to incident monochromatic light beam at 660 nm Light Source Class 1 laser product; with embedded 10 mW, 660 nm, Class 3B laser source (complies with 21 CFR 1040.10 and 1040.11. FDA Laser Accession No. 9911570) Range 0.000 to 5000 milli-Nephelometric Turbidity Units (mNTU) (0 to 5.0 NTU) Note: 1000 mNTU = 1.000 NTU Accuracy (Defined according to ISO 15839) From 0 to 1000 mNTU: ±3% of reading or ±5 mNTU, whichever is greater From 1000 to 5000 mNTU: ±2% of reading Displayed Resolution 0.001 mNTU up to 9.999 mNTU; 0.01 mNTU from 10.00 to 99.99 mNTU; 0.1 mNTU from 100.0 to 999.9 mNTU; 1 mNTU from 1000 to 5000 mNTU Repeatability (Defined according to ISO 15839) Better than ±1.0% of reading at 24 mNTU; ±1.0% of reading at 800 mNTU; and ±1.0% of reading at 5000 mNTU as RSD (or as coefficient of variation) Lowest Expected Reading 5 mNTU using deionized, reverse osmosis water, based on statistical averages from three instruments Limit of Detection (LOD) (Defined according to ISO 15839) Less than 0.4 mNTU Measurement Frequency One reading per second Verification of Calibration Method StablCal, stabilized formazin Sample Flow Rate 100 to 750 mL/min (1.6 to 11.9 gal/hour) Operating Temperature 0 to 40°C (32 to 104°F) Operating Humidity 5 to 99% non-condensing Sample Temperature 0 to 50°C (32 to 122°F) Storage Temperature -20 to 60°C (-4 to 140°F) Signal Average Time User selectable from 0, 6, 30, 60, 90 seconds; default 90 seconds Recorder Outputs Two selectable for 0-20 mA or 4-20 mA; output span programmable over any portion of the 0 to 5500 mNTU range Alarms Three set-point alarms, each equipped with an SPDT relay with unpowered contacts rated for 5A resistive load at 230 Vac Digital Communication Network Card Compatible MODBUS®RS-485, MODBUS®RS-232, LonWorks Protocol (optional) Wireless Communication IR Port to download into a handheld Personal Digital Assistant (PDA) or laptop computer via MODBUS® Power Requirements 10.8 to 13.5 Vdc, 1.5 VA Sensor Cabling Sensor to controller: 2 m (6.6 ft.) Optional extension cables available in 7.6, 15.2, or 30.5 m (25, 50, or 100 ft.). Maximum total length: 100 m (328 ft.) Fittings Sample Inlet: 1/4-inch NPT female, 1/4-inch compression fitting (provided) Drain: 1/2-inch NPT female, 1/2-inch hose barb (provided), clear drain tubing is recommended Mounting Wall and floor stand Dimensions Nephelometer body and cap 25.4 x 30.5 x 40.6 cm (10 x 12 x 16 in.) Shipping Weight Approximately 7.7 kg (16.9 lbs.) Certifications Safety: Listed by ETL to UL 61010A-1: Certified by ETL to CSA C22.2 No. 1010.1: CE certified by Hach Company to EN 61010-1 Immunity: CE certified by Hach Company to EN61326 (industrial levels) Emissions: Class A: EN 61326, CISPR 11, FCC Part 15, Canadian Interference-Causing Equipment Regulation ICES-003 Specifications* *Specifications subject to change without notice. 2 Superior Filter Management The sensitivity of the FilterTrak 660 sc Laser Nephelometer improves filter management throughout the filter run. The graph shows simultaneous measurements from a FilterTrak nephelometer and a particle counter in a water plant. During the ripening process (A), the FilterTrak nephelometer provided a more revealing profile of actual filter performance. It also recorded a filter event (B) that the particle counter was unable to detect. The FilterTrak 660 sc is more sensitive than a particle counter with the convenience of a turbidimeter. Dimensions The FilterTrak 660 sc Laser Nephelometer includes two slots designed for 1/4-inch fasteners for wall mounting. A 1/4-inch NPT compression fitting is provided for the inlet connection, and a 1/2-inch hose barb is provided for the drain connection. The nephelometer can also be mounted on a floor stand. 3 1. The sensor shall be a laser nephelometer. 2. The laser nephelometer shall be a continuous-reading, on-line instrument. 3. The range shall be 0.000 to 5000 milli-Nephelometric Turbidity Units (mNTU) (0 to 5.0 NTU). 4. The light source shall be a 660 nm laser diode with a closed loop intensity control. 5. The accuracy shall be ±3% of reading or ±5 mNTU, which ever is greater, from 0 to 1000 mNTU and ±2% of the reading from 1000 to 5000 mNTU. 6. The displayed resolution shall be 0.001 mNTU up to 9.999 mNTU, 0.01 mNTU from 10.00 to 99.99 mNTU, 0.1 mNTU from 100.0 to 999.9 mNTU, and 1 mNTU from 1000 to 5000 mNTU. 7. The repeatability shall be better than ±1.0% of reading at 24 mNTU and ±1.0% of reading at 800 mNTU and 1.0% of reading at 5000 mNTU as RSD (or coefficient of variation). 8. Optical components shall be mounted in a sealed head assembly that can be removed easily for calibration, without disturbing sample flow. 9. The nephelometer body shall be constructed of corrosion-resistant polystyrene, and shall include an internal bubble trap to vent entrained air from the sample stream. 10. The nephelometer shall offer the choice of Formazin-based calibration/verification (100 to 5000 mNTU). 11. User selectable signal averaging, bubble rejection, alarm and recorder output hold, and self-test diagnostics shall be provided. 12. The instrument shall contain a secondary derivative parameter for assessing sample baseline variability as a precursor to a particle spike relative standard deviation (RSD). 13. The instrument shall be the Hach FilterTrak 660 sc Laser Nephelometer. Engineering Specifications To complete your turbidity measurement system, choose the sc100 or the sc1000 controller… Model sc100 Controller (see Lit. #2463) LXV401.52.00002 sc100 Controller Standard LXV401.52.01002 sc100 Controller with RS-232 MODBUS® LXV401.52.02002 sc100 Controller with RS-485 MODBUS® Model sc1000 Controller (see Lit. #2403) LXV402.99.00002 sc1000 Display Module LXV400.99.1R572 sc1000 Probe Module, 4 sensors, 4 mA Out, 4 mA In, 4 Relays, 110-230V LXV400.99.1B572 sc1000 Probe Module, 4 sensors, 4 mA Out, 4 mA In, 4 Relays, RS-485 (MODBUS), 110-230V LXV400.99.1F572 sc1000 Probe Module, 4 sensors, 4 mA Out, 4 mA In, 4 Relays, PROFIBUS DP, 110-230V LXV400.99.1R582 sc1000 Probe Module, 6 sensors, 4 mA Out, 4 mA In, 4 Relays, 110-230V Lit. No. 1627 B53 Printed in U.S.A. ©Hach Company, 2005. All rights reserved. In the interest of improving and updating its equipment, Hach Company reserves the right to alter specifications to equipment at any time. For current price information, technical support, and ordering assistance, contact the Hach office or distributor serving your area. In the United States, contact: HACH COMPANY World Headquarters P.O. Box 389 Loveland, Colorado 80539-0389 U.S.A. Telephone: 800-227-4224 Fax: 970-669-2932 E-mail: orders@hach.com www.hach.com U.S. exporters and customers in Canada, Latin America, sub-Saharan Africa, Asia, and Australia/New Zealand, contact: HACH COMPANY World Headquarters P.O. Box 389 Loveland, Colorado 80539-0389 U.S.A. Telephone: 970-669-3050 Fax: 970-461-3939 E-mail: intl@hach.com www.hach.com In Europe, the Middle East, and Mediterranean Africa, contact: HACH + LANGE Europe Dr. Bruno Lange GmbH & Co. KG Willstätterstraße 11 D-40549 Düsseldorf GERMANY Tel: +49 (0) 211 5288-0 Fax: +49 (0) 211 5288-143 E-mail: info@hach-lange.de www.hach-lange.com At Hach, it’s about learning from our customers and providing the right answers. It’s more than ensuring the quality of water—it’s about ensuring the quality of life. When it comes to the things that touch our lives... Keep it pure. Make it simple. Be right. 4 FT660 sc Laser Nephelometer Systems Single-Sensor System 60164-00 Sensor assembly with sc100 controller Network Add-on Sensor 60160-00 Sensor assembly only System with Digital Communication 60164-01 Sensor assembly with sc100 controller with RS-485 output 60164-02 Sensor assembly with sc100 controller with RS-232 output 60164-03 Sensor assembly with sc100 controller with LonWorks output Does not include power cords. Optional Accessories 57432-00 Instrument stand 54488-00 Power Cord with strain relief, 125 Vac 54489-00 Power Cord with strain relief, 230 Vac Extension Cables To be used only between sensor and sc100 controller. 57960-00 7.6 m (25 ft.) 57961-00 15.2 m (50 ft.) 57962-00 30.5 m (100 ft.) Standard cable length 10 m (33 ft.) Maximum total length 100 m (328 ft.) Calibration and Verification 52364-00 Calibration Kit, 1 L; includes calibration body and funnel 27884-53 StablCal®Calibration Standard, certified, 800 mNTU, 1 L 27233-53 StablCal®Verification Standard, certified, 100 mNTU, 1 L 26979-53 StablCal®Verification Standard, certified, 300 mNTU, 1 L 26980-53 StablCal®Verification Standard, certified, 500 mNTU, 1 L 28775-53 StablCal®Verification Standard, certified, 5000 mNTU, 1 L Ordering Information