Falcon F3400, F1000 manual Calculator Link

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4 Configuration Menu

Select Input Type: Select based on the type of device connected to the input channel. Options include:

Not Configured – Select when there is nothing connected to the input.

Analog 4-20mA– Select when the device connected to the input provides a 4-20mA output.

Digital NO – Select when the device connected to the input is a dry contact that is normally open and closes on an alarm condition.

Digital NC – Select when the device connected to the input is a dry contact that is normally closed and open on an alarm condition.

Digital Status – Select when the device connected to the input is a dry contact that only needs to be monitored (status only), without alarms.

Thermistor – Select when the device connected to the input provides resistance output.

Gain and Offset: Applies only to Analog 4-20mA input types. Inputs like temperature, humidity, pressure, etc. sensors connected to the F3400/F1000 convert information to a 4- 20mA signal. The F3400/F1000 reads this raw 4-20mA signal and calculates a value based on the input and the predetermined gain and offset settings. The idea is to determine the correct gain and offset values so that the F3400/F1000 calculates and displays an accurate reading - one that corresponds closely to the sensor's reading (e.g., if the sensor measures a temperature of 50°F, the F3400/F1000 should display 50°F; if the sensor measures a temperature of 95°F, the F3400/F1000 should display 95°F). If the gain and offset settings are incorrect, the F3400/ F1000 will calculate an incorrect value. Since the F3400/F1000's reading will not match the sensor's reading, over the entire sensor range, missed alarms or nuisance alarms could result.

To set gain and offset values, click the Calculator link.

Figure 4.3 Calculator Link

Enter the sensor’s range and press the Calculate button. Click the Return to Input Configuration link and the gain and offset fields will be automatically entered with the correct offset and gain settings. Gain and offset values can also be determined by using the following formulas:

Gain for 4-20mA Transducer = (Sensor High Range Value- Sensor Low Range Value) / 4 Offset for 4-20mA Transducer = Sensor Low Range Value - Gain

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Contents Monitoring & Notification Revision History Product Registration Rletech.com 970.484.6510 Contents Remote Access Alarm ID Reference Tables Rletech.com Figures F3400/F1000 Accessories Wiring Tables Rletech.com Product Description System OverviewSystem Status LED Front Panel Indicators and ControlsTerminal Block Designations System Overview Terminal Block Designations SW1 Switch Settings Rear Panel IndicatorsGetting Started InstallationCommunication Set the F3400/F1000’s IP AddressObtain the Ethernet Address Troubleshooting the ARP/PING Commands Set the F3400/F1000’s IP Address using a Web BrowserSet the F3400/F1000s IP Address using a Telnet Connection Set the F3400/F1000’s IP Address Using an EIA232 ConnectionPower Supply and Ground Connections F3400/F1000 Wiring3 RJ11 Phone Line Connection 2 EIA232 COM1 ConnectionF3400/F1000 Ethernet Connection to a PC on a Subnet 4 RJ45 Ethernet ConnectionRelay K1 and K2 Connection F3400/F1000 Relay Output Wiring ExamplesMain Menu F3400/F1000 Web Interface OverviewHistorical Data Alarm HistoryEvent History Digital Status History Data History Data History Text Downloads Server Status IdentityWeb Links ConfigurationConfiguration Menu Configuration MenuInputs Inputs ConfigurationCalculator Link Configuration Menu Example Relays Relays ConfigurationSchedules Schedules Configuration MenuAlarm Management Modem Modem ConfigurationPhone Number Configuration Configure Phone NumbersConfiguration Menu Configuring Web Links Falcon Links Egg/NestSNMP/SYSLOG Modbus Interface 13 Modbus Interface Configuration14 LD Unit Modbus Slave Configuration LD Unit Modbus Slave ConfigurationModbus Packet Log Modbus Register Data LogSeries Modbus Slave Register Map Reset Modbus PortBACnet 17 BACnet ConfigurationServer Ping 18 Server Ping ConfigurationSystem 19 System ConfigurationInternet Protocol Clock22 User Administration Configuration User Administration Web Access23 Email Configuration Network Time Protocol 24 Network Time Protocol ConfigurationFlash Program Network StatisticsProduct Registration Configuration Menu 970.484.6510 EIA-232 Interface Flash Executable Code Unit Start UpInformation regarding the commands in this section Configuration Menu Factory Menu Main Configuration Menu SCTCP IP Configuration MenuIP Configuration Menu Commands Remote Access Configuration Modem Option Remote AccessDisplay Date/Time TI ADC Input Values AD POINT-TO-POINT Protocol Configuring the F3400/F1000Configuring the PC Upgrading F3400/F1000 Firmware Upgrading Firmware Managing Configuration DataPort = Upgrading F3400/F1000 Firmware via Tftp ClientUpgrading Firmware and Managing Configuration Data Saving Configuration Data via Tftp Client Loading/Saving F3400/F1000 Configuration DataSaving Configuration Data via EIA232 COM1 Port X- Modem Loading Configuration Data via EIA232 COM1 Port X-Modem Loading Configuration Data via Tftp ClientPage Analog 4-20Ma Gain/Offset Conversion Formula Analog Input 4-20MA Reference ChartVoltage Figure B.1 T120D Temperature Sensors F3400/F1000 Accessories WiringFigure B.3 Dwyer Temperature/Humidity Sensors Figure B.6 HD150 & HD150-2 Gas Sensors Figure B.11 SeaHawk LDRA6, LD1000, and LD300 Leak Detection Configuring the SeaHawk LD5100 as an Analog InputF3400/F1000 Accessories Wiring F3400/F1000 Accessories Wiring 970.484.6510 Analog Tables Alarm ID Reference TablesThermistor Tables Digital Tables Alarm ID Reference Tables 970.484.6510 F3400 Technical SpecificationsHTTP/HTML Front Panel Interface Switches Technical Specifications 970.484.6510