Micronics 216 manual Charging Controller IC, Charging Voltage, Instrument differences, Software

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PORTAFLOW 216 Battery Charge circuit Operation.

Charging Controller IC:

A Maxim IC MAX712 or MAX713 controls the Ni-Cd and Ni-Mh battery charger. It has two modes, fast charge and trickle charge; an output indicates the fast-charge status. In both modes it supplies, via a PNP power transistor, a constant current to the battery, by keeping a constant voltage across a current sensing resistor. In fast charge mode it is 250mV, in trickle charge mode 31mV, so the trickle charge current is 1/8 of the fast charge current.

By wiring up input pins on the IC, the number of cells is set to 5, the voltage sampling interval to 168 sec, and the fast-charge time limit to 264 minutes (the maximum). The battery temperature limits are not used.

The IC starts the fast-charge timer when a battery is connected or when power is applied. It terminates the fast charge and returns to trickle charge, either after the 264 min (~4.5 hrs) time limit, or when it senses that the battery voltage remains constant or begins to decrease, meaning that the battery is fully charged.

Charging Voltage:

The voltage available to charge the 6V battery is restricted by the 9V charger input and the two diodes in the input. The S2D silicon diodes had a fwd drop of 0.75V, limiting the available charge voltage to 7.5V, which caused the MAX712 to sense that the battery voltage had stopped rising, and therefore prematurely end the fast charge. With several days of trickle charging the battery could however still reach its full capacity.

In Dec.2000 the S2D diodes were replaced by SS14 Schottky diodes with a fwd drop of 0.35V, thus raising the available charge voltage to 8.3V. At the same time the current was increased.

Instrument differences:

The current sensing resistor consists of either 2 or 4 parallel 1.2resistors, giving about 0.4A or 0.8A fast-charge current.

PF-300 and UFM610P:

Battery Capacity 3.5Ah, or 4.0Ah after Oct.2000

Current 0.4A before, 0.8A after Dec.2000

PF-SE and 216:

Battery Capacity 1.2Ah

Current 0.4A

Software:

The fast-charge status output is not used by the present software (ver.3.06); in a future software update a message will be added, indicating charging status.

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Contents Portaflow Fast Track Set up Procedure Inverted view of grease applied to sensor block Connectors Pulse Cable ConnectionsBattery Circuit KeypadTransducers Switch 0n… Option number for the software Main MenuMain Menu Quick Start Enter MillimetresAttach Sensors Select Enter and the display will now showXXX Error Messages Appear HereMain Menu View/Edit Site Data VIEW/EDIT Site DataSite Number Dimension UnitsList Sites Site NameRead Flow Main Menu Select Sensor modeSensor Mode Sensor SETDisplay backlight Main Menu Set Up Instrument Pulse Output KeyEnabled Application OptionsMain Menu Read Flow Delete KeyOptions Key Damping sec Reset + Total/- TotalTotal Calibration FactorError Messages Status MessagesW8 mA Load to High Temperature range is -20C to +125CW6 mA OUT Overange Other MessagesReflex mode Enter a lining thickness firstTransducer Positioning Mounting the TransducersPropagation Velocity or Sound Speed CorrectincorrectLiquid Conditions Reynolds NumberApplication Temperature To calculate Re use the following formulaMaximum Flow Red connector upstream Blue connector downstreamGull wing and spring attachment Peizo electric crystal Supply Voltage Battery PackEnclosure OutputsWarranty Liquid Sound Speeds H2OSubstance Form Index Specific Gravity Sound Speed ∆ v/ºC C2H3N CH3CO2O C2H6O C2H7NO C4H9NOCH2I2 C2H5ICH4 CH4O C6H5FC3H8O C3H8O C7H9N C7H9N CH4O C7H8C7H8O C4H9NO C6H5NO2 CH3NO2 C9H2O KNO3C3H8O C2H6O H2SO4 CF4 C4H9NOH2O CH4O Instrument differences Charging Controller ICCharging Voltage SoftwareQuicker full charge Examples
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