//============================================================================= // File: Fluidwell F116 Library // Version: 1.1 // Date: 2012-01-04 10:25:01 //============================================================================= // following variables should be equal to the entries found in products.js var productName = "f116"; var productScreen = "F116"; var productLink = "f116.html"; var productDatasheet = "F116-DATA-EN-V1151.pdf"; var productSchematicScreen = "f116sch_scr.gif"; var productSchematicPrint = "f116sch_prn.gif"; var productPhotoScreen = "f116pho_scr.gif"; var productPhotoPrint = "f116pho_prn.gif"; var productLCDScreen = "f116lcd_scr.gif"; var productLCDPrint = "f116lcd_prn.gif"; var productTitle = "Differential / sum flow computer"; var productSubtitle = "with analog and pulse outputs"; // following variables are always created as arrays and later filled with strings var productArrayDescription = new Array(); var productArrayFeatures = new Array(); var productArrayApplications = new Array(); var productArrayInputs = new Array(); var productArrayInputsFlow = new Array(); var productArrayInputsTemperature = new Array(); var productArrayInputsLevel = new Array(); var productArrayInputsPressure = new Array(); var productArrayInputsStatus = new Array(); var productArrayInputsGeneral = new Array(); var productArrayOutputs = new Array(); var productArrayOutputsPulse = new Array(); var productArrayOutputsAlarm = new Array(); var productArrayOutputsAnalog = new Array(); var productArrayOutputsControl = new Array(); var productArraySupply = new Array(); var productArraySupplyPower = new Array(); var productArraySupplySensor = new Array(); var productArrayHazardous = new Array(); var productArrayHazardousIS = new Array(); var productArrayHazardousNI = new Array(); var productArrayHazardousEP = new Array(); var productArrayCommunication = new Array(); productArrayInputs[0] = productArrayInputsFlow; productArrayInputs[1] = productArrayInputsTemperature; productArrayInputs[2] = productArrayInputsLevel; productArrayInputs[3] = productArrayInputsPressure; productArrayInputs[4] = productArrayInputsStatus; productArrayInputs[5] = productArrayInputsGeneral; productArrayOutputs[0] = productArrayOutputsPulse; productArrayOutputs[1] = productArrayOutputsAlarm; productArrayOutputs[2] = productArrayOutputsAnalog; productArrayOutputs[3] = productArrayOutputsControl; productArraySupply[0] = productArraySupplyPower; productArraySupply[1] = productArraySupplySensor; productArrayHazardous[0] = productArrayHazardousIS; productArrayHazardous[1] = productArrayHazardousNI; productArrayHazardous[2] = productArrayHazardousEP; //============================================================================= // Main productArray name at productArray [x][0] // ===== Following is old comment, not implemented this way! ===== // Every array should contain at least 2 items // If item 1 is empty ('') we make no header and following items are separated by a
// If an other empty entry is found, we make an

separation // Also, if item 1 is empty, we make the class 'ModelUnboxedB' // If item 1 has a ! as first char the following items are started with bullits // The rest of the item 1 text is used as heading // All lines or items should be followed by a ., but not the headings. // Make entry 0 the description value? // Or leftside contains features (list) and applications (no list) and rightside contains multiple lists? productArrayDescription[0] = "The F116 flow computer has been developed to calculate differential / consumption or total volume. The usual difficulties encountered in such applications include: pulsating flows, very low consumption readings, vibration and high ambient temperatures. These are all well catered for in the design and operation of the F116. The pulse and analog outputs do reflect the calculated differential or sum value.
The display shows flow rate, total and accumulated total. On-screen engineering units are easily configured from a comprehensive selection.
A wide range of options further enhance this models capabilities, including Intrinsic Safety for hazardous area applications and full Modbus communication."; productArrayFeatures[0] = "Features"; productArrayFeatures[1] = "Calculates differential flow rate (consumption), total and accumulated total of flow A and B."; productArrayFeatures[2] = "Calculates the sum flow rate, total and accumulated total of flow A and B."; productArrayFeatures[3] = "Precautions for pulsating flows and very low consumption readings."; productArrayFeatures[4] = "Analog and pulse outputs."; productArrayFeatures[5] = "Displays total and flow rate simultaneously."; productArrayFeatures[6] = "Large digit selection for flow rate or total."; productArrayFeatures[7] = "Flow rate: seven 17mm (0.67") or 8mm (0.31") digits."; productArrayFeatures[8] = "Total - resettable: seven 17mm (0.67") digits."; productArrayFeatures[9] = "Accumulated total - not resettable: eleven 8mm (0.31") digits."; productArrayFeatures[10] = "Separate engineering units for flow rate and total on the display."; productArrayFeatures[11] = "Green LED backlight."; productArrayFeatures[12] = "Auto backup of settings and running totals in EEPROM memory."; productArrayFeatures[13] = "Operational temperature: -40°C to +80°C (-40°F to 176°F)."; productArrayFeatures[14] = "Very compact design for panel mount, wall mount or field mount applications."; productArrayFeatures[15] = "Rugged aluminum or GRP field mount enclosure IP67 / NEMA4X."; productArrayApplications[0] = "Applications"; productArrayApplications[1] = "Differential function: fuel consumption calculation for diesel engines on board of ships or locomotives.
Sum function: where flows are split-up in two pipe-lines and total flow has to be calculated."; productArrayApplications[2] = "Alternative advanced model: F127."; productArrayInputsFlow[0] = "Flowmeter Inputs"; productArrayInputsFlow[1] = "Pulse type inputs:
Reed-switch, NAMUR, NPN/PNP pulse, Sine wave (coil), active pulse signal.
Different pulse signal types are allowed for input A and B."; productArrayInputsFlow[2] = "(0)4 – 20mA."; productArrayInputsFlow[3] = "0 – 10V DC."; productArrayOutputsPulse[0] = "Pulse Outputs"; productArrayOutputsPulse[1] = "Function: Scaled pulse output according to differential or totalized accumulated total (e.g. a pulse every 3.25 gallons).
Max. frequency: 64Hz.
Adjustable pulse length from 8 msec. to 2 seconds. The directional output is switched as soon as the pulse output reflects a "negative" differential."; productArrayOutputsPulse[2] = "Type: Two passive NPN transistors, active PNP transistors or isolated electro-mechanical relays."; productArrayOutputsAlarm[0] = "Alarm Outputs"; productArrayOutputsAlarm[1] = "None."; productArrayOutputsAnalog[0] = "Analog Outputs"; productArrayOutputsAnalog[1] = "Function: Re-transmitting the differential or totalized flow rate - the output can be scaled to any range (e.g. 200 L/min to 1200 L/min)."; productArrayOutputsAnalog[2] = "Type: One passive isolated, floating or loop powered 4 – 20mA output or one active (0)4 – 20mA or 0 – 10V DC output."; productArraySupplyPower[0] = "Power Supply"; productArraySupplyPower[1] = "Battery."; productArraySupplyPower[2] = "4 – 20mA Loop-powered."; productArraySupplyPower[3] = "8 – 24V AC/DC."; productArraySupplyPower[4] = "115 – 230V AC."; productArraySupplySensor[0] = "Sensor Supply"; productArraySupplySensor[1] = "3.2, 8.2, 12, 24V DC."; productArrayHazardousIS[0] = "Intrinsically Safe"; productArrayHazardousIS[1] = "ATEX:
II 1 G Ex ia IIB/IIC T4 Ga
II 1 D Ex ia IIIC T100 °C Da IP6X"; productArrayHazardousIS[2] = "IECEx:
Ex ia IIC/IIB T4 Ga
Ex ia IIIC T100 °C Da IP6X"; productArrayHazardousEP[0] = "Explosion Proof"; productArrayHazardousEP[1] = "ATEX: II 2 G EEx d IIB T5"; productArrayCommunication[0] = "Communication"; productArrayCommunication[1] = "Function: All process data and settings can be read and modified through the communication link."; productArrayCommunication[2] = "Protocol: Modbus RTU."; productArrayCommunication[3] = "Interface: RS232 / RS485 2-wire or 4-wire / TTL.";