Hach 900 manual Contact Closures, MA Input, Auxiliary Connection

Page 18

Section 3

Table 2 Auxiliary Pin Assignments

Pin

Signal Description

Wire Color

Purpose

Rating

 

 

 

 

 

 

 

 

This line is held at 5 V dc inside the sampler. When shorted to

 

 

 

 

ground (Pin B), a signal is sent to the microprocessor inside the

 

 

 

 

sampler causing it to “wake up” and begin or resume the sampling

 

 

Liquid Level

 

program. It can be used in conjunction with a simple level float switch

24 V dc

 

 

to actuate the sampler when liquid id present or to take over after a

(max) at

D

Actuator/Auxiliary

Black

second sampler had finished its program. It may also be used with

100 mA

 

Control Input

 

 

 

any device (such as pH meter) which produces a dry contact output

(max)

 

 

 

 

 

 

to control the sampler in response to some user defined condition

 

 

 

 

(i.e. high or low pH); must be used in conjunction with Pin B

 

 

 

 

(ground).

 

 

 

 

 

 

E

Special Output

Red

Normally at 0 V dc, this line switches to 12 V dc upon any of the

N/A

selected event described in SECTION, PROGRAMMING.

 

 

 

 

 

 

 

 

 

 

 

 

Normally an open circuit, this line switches to ground for 90 seconds

 

F

Program Complete

Green

at the conclusion of the sampling program. Used to “wake up”

N/A

Output

another sampler to take over sampling or to signal an operator or

 

 

 

 

 

 

datalogger upon the completion of the sampling program.

 

 

 

 

 

 

Note: The sampler provides 12 V dc on Pin A of the Auxiliary Receptacle and this voltage is pulsed back to Pin C each time the contact closes on the external flow meter. The external flow meter must provide a dry contact closure.

Note: Older model 4–20 mA interfaces (Cat. No. 913) require correct loop polarity to properly work. The newer generation

(Cat. No. 2020 series) interfaces are not sensitive to loop polarity.

Contact Closures

The sampler controller is capable of accumulating 1 to 9999 contact closures. Each contact closure output from a flow meter represents a specific flow volume.

Some flow meters have an adjustable output, i.e. one contact closure for every 100, 500, 1000, 10, 000 gallons of flow, etc., while others have a fixed output. In either case, the contact closure signal is sent more frequently for high flow rates, and less frequently for low flow rates. The sample frequency will increase as the flow rate increases and likewise, will decrease as the rate of flow decreases, thus taking samples in proportion to flow rate.

To connect the sampler to a flow meter, use Signal Cable (Cat. No. 940 or 540). To connect another brand of flow meter, use the Open-ended Signal Cable (Cat. No. 941 or 541). A contact closure input signal corresponds to Pins A and C on the Flow Meter/Auxiliary receptacle, and signal cable connector. The signal cable wires are white and yellow respectively. Polarity is not important unless the same closure signal is sent to more than one sampler.

4–20 mA Input

An optional interface unit is available (Cat. No. 2021) which converts a

4–20 mA flow meter output into a 12 V dc pulses. At 20 mA (100% flow rate), the interface sends ten pulses per minute; at 4 mA (0% flow rate), the interface sends zero pulses.

The interface has a 0.9 m (3 ft) cable with connector on one end, and a 3 m (10 ft) cable with two open wire leads on the other. Insert the connector into the sampler receptacle labeled “AUXILIARY”, located on the left side of the control housing. For the 3 m (10 ft) cable, the wire with clear insulation is POSITIVE (+) and the wire with black insulation is NEGATIVE (–).

Page 18

 

Auxiliary Connection

8544install.fm

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Contents Sigma 900 Composite Sampler Page Table of Contents Table of Contents Sample Volume Controller DimensionsPump/Controller Housing Sample Volume RepeatabilityPage Receptacle Caps Interface ConnectorsInstrument Description General InformationFront Panel Humidity IndicatorSection Keypad and DisplaySafety Information Safety InformationPrecautionary Labels Use of Hazard InformationHazardous Locations Confined Space Entry PeligroDefinition of Confined Space Selecting the Installation Site InstallationUnpacking the Instrument Vinyl Intake Tubing Mounting the SamplerAttaching the Intake Line Teflon-Lined Polyethylene Intake LineSetting Up the Intake Line and Strainer Setting Up the Intake Line and StrainerInstalling the Full Bottle Shut-Off Choosing BottlesPower Connections Power ConnectionsAuxiliary Connection 12 V dc Connector Pin Assignments12 V dc Auxiliary Pin AssignmentsContact Closures MA InputAuxiliary Connection 20 mA Interface and Pulse Duration Input Splitter InterfacePage Keypad and Key Functions Tips and Techniques for Programming the Instrument Tips and Techniques for Programming the InstrumentSetting the Time and Date Section Setting the Time and DateBottle Setup Mode 1035 AM 24OCT00Section Explanations of Program Messages Manual Mode Data LoggingManually Operating the Sample Pump Measurements Triggered by Liquid Levels or Flow ModeMeasurements Triggered by Liquid Levels or Flow Section Programming the Sampler for Level Control Other Displayed MessagesExample How to Calculate Pulses/CountsSection Flow Proportional Operation Flow Proportional OperationTherefore, the value for Intv = Cnts is Calculate t You want to collect 32 samples over an 8-hour period Page Cleaning the Sampler Removing and Opening the ControllerRe-installing the Bottom Panel Re-installing the Bottom PanelSection Internal Desiccant Module Circuit Board IdentificationInternal Desiccant Module Motor/Gear Box Internal Case Humidity IndicatorMemory Battery Motor/Gear BoxRepair Service Ordering Information for the U.S.AContact Information for Europe Limited Warranty LimitationsLimitation of Remedies Page Parts and Accessories Description Part NumberTray/Positioner Page Program Flow Chart Page Lead-Acid Gel Cell Batteries MaintenanceTemperature ChargingStorage Temperature Maximum Recommended Storage Time Lead-Acid Battery Storage RecommendationsNickel-Cadmium Battery Storage Recommendations Appendix BExploded View 1 Item Number DescriptionExploded View Drawings Appendix C Exploded View 2 Appendix C Exploded View 3 Appendix C Exploded View 4 Part DescriptionPart Appendix C Exploded View 5 Appendix C Exploded View 6 Item Number Description Part Number