Page 1 Ultrasonic Controllers HydroRanger 200 HMI Operating Instructions Edition 08/2015...
Page 2 76181 Karlsruhe Peterborough, Ontario, Canada, K9J 7B1 Deutschland Email: techpubs.smpi@siemens.com • For a selection of Siemens level measurement manuals, go to: Level www. siemens.com/processautomation. Under Process Instrumentation, select Measurement and then go to the manual archive listed under the product family.
Page 3: Table Of Contents
Cable routed through a conduit ................... 12 ............................. 12 Cable exposed and entering through the cable glands......... 13 Panel mount........................14 Mounting the enclosure ....................15 HydroRanger 200 HMI wiring compartment ...............16 Replacing the battery .......................17 Installing the SmartLinx®communications card ..............18 Connecting ........................19 Terminal board ............................20 Cables ..............................21...
Page 4 Activating the HydroRanger 200 HMI ....................27 RUN Mode ............................27 Measurement Views in RUN mode ................28 The LCD Display ........................28 Measurement Mode Display: Normal operation............. 28 Auxiliary Reading ......................29 Multiple readings ........................30 PROGRAM Mode ..........................31 Key functions in Measurement mode ................ 31 Programming the HydroRanger 200 HMI ................31...
Page 5 mA Input ...............................74 mA Output .............................74 Volume ..........................76 Readings ...............................76 Vessel shape and dimensions ......................76 Characterization chart ........................77 ...............................78 Alarms ..........................79 Level ...............................79 Setting simple level alarms .....................80 Rate ................................80 In-bounds/Out-of-bounds Range ....................80 Cable fault .............................81 Temperature ............................81 Loss of Echo (LOE) ..........................82 Pump control ........................83 Setting a Pump Down Group ......................83 Setting a Pump Up (Reservoir) Group ....................84...
Page 6 Setting Zero Head ........................101 Setting totalized volume ........................103 Applications supported by HydroRanger 200 HMI ..............103 BS-3680 / ISO 1438/1 Thin Plate V-Notch weir............103 BS-3680 / ISO 4359 Rectangular Flume..............104 Palmer-Bowlus Flume....................105 H-Flume........................... 106 PMDs with exponential flow to Head Function .................107 Applicable weir profiles ......................107...
Page 7 Obstructions in the sound beam ..................229 Nozzle mountings ........................229 Set the HydroRanger 200 HMI to ignore the bad echo ..........229 Wrong reading ...........................230 Types of wrong readings ......................230 Liquid splashing ........................230 Adjust the Echo Algorithm ....................230 Transducer ringing ...........................230 Unit repair and excluded liability ....................231 Technical data .......................233...
Page 8 SmartLinx® ............................254 Communications installation ..................255 Wiring guidelines ..........................255 Configuring communications ports (parameters) ..............257 SIMATIC Process Device Manager (PDM) ..............258 Device description ........................258 Modbus register map ....................259 Word order (R40,062) ........................260 Map ID (R40,063) ..........................260 Product ID (R40,064) .........................261 Point data (R41,010 – R41,031) .......................261 Totalizer (R41,040 –...
Page 9 Format register ..........................275 Error codes ............................276 Appendix D: Updating software .................277 Appendix E: Upgrading ....................278 Mounting a HydroRanger 200 HMI ..................278 Connecting the transducer ....................278 Co-axial transducer extension.................. 278 Connecting a transducer with RG62 co-axial extension cable ......279 Appendix F: Conduit Entry for Class I, Div 2 Applications ........280 Programming chart .......................283...
Page 10 viii...
Page 11: Introduction
Please follow the installation and operating procedures for a quick, trouble-free installation and to ensure the maximum accuracy and reliability of your HydroRanger 200 HMI. The Manual This manual applies to the HydroRanger 200 HMI series only. It provides information to help set up your device for optimum performance, including: •...
Page 12: Application Examples
Sensor node Firmware Date Changes Rev. EDD Rev. 2.00.00 1. 1 3.02 October 1, 2015 Initial release. Firmware Date Changes Rev. 2.00.00 October 1, 2015 Initial release. Page 2 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 13: Safety Notes
WARNING: refer to accompanying documents (manual) for details. CAUTION: Observe electrostatic discharge precautions prior to handling electronic components within the wiring compartment. This symbol is used when there is no corresponding caution symbol on the product. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 3...
Page 14: Fcc Conformity
US Installations only: Federal Communications Commission (FCC) rules WARNING: Changes or modifications not expressly approved by Siemens could void the user’s authority to operate the equipment. Notes: • This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules.
Page 15 Testing and measurement techniques – Power frequency magnetic field immunity test. Electromagnetic Compatibility (EMC) Part 4-11: Testing and measurement techniques - voltage clips, EN61000-4-11: 2004 short interruptions and voltage variations immunity tests. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 5...
Page 16 Page 6 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 17: Description
Open Channel Monitoring capabilities, a large number of advanced pump control algorithms, and is equipped with digital communications. The HydroRanger 200 HMI features menu-driven programming and a host of wizards for plug and play performance, accessed through its four-button navigation panel with backlit graphical display.
Page 18: Applications
Approvals and certificates The HydroRanger 200 HMI is available with General Purpose and Hazardous Area approvals. For details, see the chart below. The device nameplate lists the approvals that apply to your device.
Page 19: Installing And Mounting
Ensure power is removed from the HydroRanger 200 HMI before disconnecting or connecting the HMI. • The HydroRanger 200 HMI electronics must only be installed in the vented enclosure which accompanies the product. • The equipment must be protected by a 15 A fuse or circuit breaker on all current- carrying conductors in the building installation.
Page 20: Mounting Locations
• Ambient temperature is always within -20 to 50 °C (-5 to 122 °F). • The HydroRanger 200 HMI display window is at shoulder level, unless most interactions are through a SCADA system. • Clear access to the device, in order to have easy reach of the local push buttons or to swing the unit lid open unobstructed.
Page 21: Mounting Instructions
Mounting instructions When routing cable through a conduit, please follow the instructions on Note: page 12 before mounting the HydroRanger 200 HMI. Wall mount Enclosure dimensions 87 mm 15 mm 161 mm 131 mm 15 mm (3.4") (0.6") (5.2") (6.3") (0.6")
Page 22: Cable Routed Through A Conduit
Note: For conduit locations and assembly for hazardous mounting in Class I, Div 2 Appendix F: Conduit Entry for applications, please see Drawing A5E35806240A in Class I, Div 2 Applications on page 273. Page 12 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 23: Cable Exposed And Entering Through The Cable Glands
Tighten the glands to form a good seal. Where more holes are required than are supplied in the enclosure, follow Note: Cable routed through a conduit the instructions on on page 12. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 13...
Page 24: Panel Mount
Installing the panel mount unit requires making a cutout in the panel. The dimensions for the cutout are provided in the illustration below. A full size cutout template is provided with your unit or may be downloaded from www.siemens.com/processinstrumentation. Cutout dimensions...
Page 25: Mounting The Enclosure
10. Fasten with wingnuts and hand tighten. 11. Add conduit or glands and wire as required. Helpful hint: Use tape to hold the hexagonal heads in slots while attaching the wingnuts. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 15...
Page 26: Hydroranger 200 Hmi Wiring Compartment
100 - 230V INPUT POWER SERVICE Female connector TRANSDUCER for SmartLinx® DISPLAY 12 - 30 V BATTERY INPUT POWER Card OPTIONAL CARD SYNC SmartLinx® SHLD SHLD card (optional) Terminals RS-485 SHLD connections Page 16 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 27: Replacing The Battery
Replacing the battery The HydroRanger 200 HMI comes pre-installed with a battery to power the RAM that stores parameter settings and totalizer values in between hourly backups to non-volatile memory. It is important to always have a working battery installed in the device to ensure that settings and values are not lost.
Page 28: Installing The Smartlinx®Communications Card
For EMC compliance, it is necessary to install the provided clamp-on ferrite Note: to the communications cable, at the connection point to the SmartLinx®card. SERVICE TRANSDUCER DISPLAY 12 - 30 V BATTERY INPUT POWER OPTIONAL CARD SYNC SHLD SHLD SHLD Page 18 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 29: Connecting
• Verify that all system components are installed in accordance with instructions. • Connect all cable shields to the HydroRanger 200 HMI shield terminals to avoid differential ground potentials. • Keep exposed conductors on shielded cables as short as possible to reduce noise on the line caused by stray transmissions and noise pickup.
Page 30: Terminal Board
L2/N L1 SYNC 12-30 V mA INPUT DC version SHIELD RELAY 1 4 - 20 mA OUTPUTS RELAY 2 RELAY 3 TS-3 SHIELD RELAY 4 DISCRETE INPUTS RELAY 5 RELAY 6 RS485 Page 20 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 31: Cables
Black White Transducer 1 Black A 0. 1 μF (100V or greater) capacitor is included with the HydroRanger 200 HMI for retrofitting old MultiRanger Plus installations. For instruction on how to use a co-axial Appendix E: Upgrading Co-axial transducer extension cable, see on page 271.
Page 32: Relays
Temperature sensor Accurate temperature readings are critical to accurate level measurements because the speed of sound changes, depending on air temperature, and all Siemens Echomax and ST-H transducers have an internal temperature sensor. Having a separate TS-3 temperature sensor will ensure optimum accuracy if the following conditions apply: •...
Page 33: Ma Input
Output For more information, consult parameter Current Output (2.5.) on page 129. Level system synchronization The HydroRanger 200 HMI CANNOT be synchronized with the MultiRanger Note: Plus or the HydroRanger. When using multiple ultrasonic level monitors, running the transducer cables in separate grounded metal conduits is recommended.
Page 34: Power
L2/N Digital communications Wiring the HydroRanger 200 HMI for communications allows it to be integrated into a full SCADA system or an industrial LAN. The HydroRanger 200 HMI can also be directly connected to a computer running SIMATIC PDM.
Page 35: Rs-232 Serial Connection
RS-485 serial connection Discrete inputs Discrete inputs that have a positive and negative terminal require an external power supply. Discrete Input (pos.) 1 Discrete Input (pos.) 2 Common (neg.) for Discrete Input A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 25...
Page 36 Page 26 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 37: Commissioning
Commissioning Local commissioning The HydroRanger 200 HMI is built for easy operation, making it possible to be commissioned quickly. Its parameters are menu-driven and can be modified locally using the LCD and push buttons, also known as the Human Machine Interface (HMI).
Page 38: Measurement Views In Run Mode
The HydroRanger 200 HMI provides two measurement views. Measurement View 1 displays the Primary Reading, while Measurement View 2 displays both the Primary Reading and the Auxiliary Reading. When the HydroRanger 200 HMI is in RUN mode, you can switch between these views using the arrow keys.
Page 39: Auxiliary Reading
Discrete Inputs current state of each input. Discrete inputs are used to trigger or alter the (active/inactive) way the HydroRanger 200 HMI controls devices such as pumps and alarms. Information about which relays are programmed and what the current Relays states of each relay are.
Page 40: Multiple Readings
The HydroRanger 200 HMI will continue to display your selected temporary value until the next power cycle. After a power cycle, the HydroRanger 200 HMI will show the default 2. 1 2.7. Default Auxiliary Reading on page 173...
Page 41: Program Mode
PROGRAM Mode The HydroRanger 200 HMI is programmed by setting its parameters to match your specific application. Most parameters are indexed, allowing you to set the parameter to specific conditions and to more than one input or output. When the HydroRanger 200 HMI is in PROGRAM mode, you can change these parameter values and set operating conditions.
Page 42 290.) 1. W IZARDS 2. S ETUP 2.1. S ENSOR ..2.8. R ELAYS 2.8.1. B ASIC ETUP 2.8.2. M ODIFIERS 2.8.2.6. W LING EDUCTION 2.8.2.6.1. T RANSDUCER ELECTOR Page 32 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 43 Scroll to a new selection. Current name value TRANSDUCER 2.1.5 Press RIGHT arrow to accept it. NO TRANSDUCER ST-25 ST-50 The LCD returns to parameter view and XCT-8 XPS-10 displays the new selection. XCT-12 A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 33...
Page 44 - Moves cursor to plus/minus sign if this is the arrow Numeric first key pressed editing - or moves cursor one space to the left. - or with cursor on Enter sign, cancels the entry Page 34 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 45: Quick Start Wizards
Before initiating a Quick Start Wizard to configure the device, you may wish to gather the necessary parameter values. Parameter Configuration Charts that list all parameters and available options for each application type are available at: www.siemens.com/process automation. You can record data and select from options on the chart that apply to your...
Page 46 The index selector value defines the input/output for that parameter. For example, index relates to transducer inputs or mA outputs, and can also refer to relays, communications ports, and other parameters. Page 36 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 47 - Fixed Temperature temperature source Temp Source Set units and setpoints - Units Span - Empty - Response Rate Configure another measurement point? Level Wizard complete *Available only on dual-point models. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 37...
Page 48 Selects the measurement points to configure. Note: This is available on the dual-point model only. Point 1 Point 2 Options Point 3 Transducer Specifies the model of the Siemens transducer connected to the device. Single-point model Dual-point model Index Global Transducer *No transducer (dual-point preset)
Page 49 Default: +20.0 °C Units Sensor measurement units. *M (meters) CM (centimeters) MM (millimeters) Options FT (feet) IN (inches) Note: For the purpose of this example, all values are assumed to be in meters A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 39...
Page 50 If CANCEL is selected, no changes are written to the device.) To transfer Quick Start values to the device and return to PROGRAM menu, press DOWN arrow (Finish). Then press LEFT arrow three times to return to Measurement mode. Page 40 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 51 - Max. Vol. - Empty - Dimens A** - Dimens L** - Span Configure another measurement point? Volume Wizard complete *Available only on dual-point models. **Depends on choice of Vessel Shape. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 41...
Page 52 Selects the measurement points to configure. Note: This is available on the dual-point model only. Point 1 Point 2 Options Point 3 Transducer Specifies the model of the Siemens transducer connected to the device. Single-point model Dual-point model Index Global Transducer *No transducer (dual-point preset)
Page 53 See page 134 for illustrations. If Universal Linear or Universal Curved is selected, enter values for level and volume breakpoints after completing the wizard (see page 137). A vessel shape must be selected to proceed through the QS Volume Wizard. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 43...
Page 54 -sloped.. 2.7.2. Vessel Shape Dimension A as used in Parameter Level Index 2. 1 . 1 . Units Range: 0.0 to 99.00 m or equivalent, depending on Values Preset: 0.000 Page 44 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 55 Gives option to configure more measurement points or end the wizard. Note: This is available on the dual-point model only. Returns to the Measurement Point menu. Options Completes the QS Volume configuration. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 45...
Page 56 If CANCEL is selected, no changes are written to the device.) To transfer Quick Start values to the device and return to PROGRAM menu, press DOWN arrow (Finish). Then press LEFT arrow three times to return to Measurement mode. Page 46 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 57 Set flow units - Zero Head - Flowtime Units and calib. data - Max. Flow - Low Flow Cutoff Config. another meas. pt.? Flow Wizard complete *Available only on dual-point models. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 47...
Page 58 Selects the measurement points to configure. Note: This is available on the dual-point model only. Point 1 Options Point 2 Transducer Specifies the model of the Siemens transducer connected to the device. Single-point model Dual-point model Index Global Transducer *No transducer (dual-point preset)
Page 59 Use a setting just faster than the maximum filling or emptying rate (whichever is greater). Slower settings provide higher accuracy, faster settings allow for more level fluctuations. Primary Measuring Device The type of primary measuring device (PMD) used. Single-point model Dual-point model Index A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 49...
Page 60 MUSGAL/D (Million gallons/day – U.S.) V-Notch Angle (Primary Measuring Device = Thin Plate V-Notch Weir BS-3680) The V-Notch angle used in the flow calculation formula. Range: 25.000 to 95.000 Values Default: 25.000 Page 50 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 61 Use it when the PMD requires a maximum head and flow reference point. This would include Exponential, Palmer-Bowlus Flume, H-Flume, and Universal breakpoints. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 51...
Page 62 ) should be reduced. Flowrate Decimal The maximum number of decimal places to be displayed. Single-point model Dual-point model Index Global Transducer No digits 1 digit Options *2 digits 3 digits Page 52 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 63 For QS to be successful, all changes must be applied. BACK, CANCEL, FINISH (Display returns to 1.1 Quick Start menu when Quick Start is successfully Options completed or cancelled. If CANCEL is selected, no changes are written to the device.) A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 53...
Page 64 Measurement mode. Note: It is strongly recommended that an Auto Zero Head be performed after 2.13.3. Auto Zero Head on completion of the wizard to ensure best accuracy. See page 175 Page 54 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 65 - Relay 1, 2, 3, 4, 5, or 6 Set relay function - Relay Function Set Level Source and set- points - Transducer - ON and OFF setpoints Configure another relay? Pump Control Wizard complete A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 55...
Page 66 Selects pump usage based on the RUN time ratio rather than last used. Range: 0 to 255 Value Default: 1 This parameter displays only if a Service Ratio algorithm is selected for Relay Function. Page 56 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 67 If CANCEL is selected, no changes are written to the device.) To transfer Quick Start values to the device and return to PROGRAM menu, press DOWN arrow (Finish). Then press LEFT arrow three times to return to Measurement mode. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 57...
Page 68: Application Examples
Fill rate = ( – ) / fastest of fill or empty time Empty Span = (15.5 m – 1 m) / 180 min. = 14.5 m /180 min. = 0.08 m/min. Page 58 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 69: Flow Application
The Parshall Flume is considered an exponential device, therefore the supplier’s data sheet includes a flow exponent value of 1.522. The HydroRanger 200 HMI, and the XRS-5 transducer have been installed 1.6 m above the channel beside the TS-3 external temperature sensor.
Page 70 Page 60 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 71: General Operation
General operation This chapter provides details on the general operation and functionality of the HydroRanger 200 HMI. For instructions on the use of the device LCD and local push The LCD Display buttons, refer to on page 25. Power up display Note: •...
Page 72: Single-Point Models
Single-point models The HydroRanger 200 HMI starts in Distance mode with the transducer preset for the XPS-10 and an empty distance of 5 meters. Change the following parameters to reflect your application parameters. Value/ Parameter Index Description Mode 2. 1 .3. Sensor Mode...
Page 73: Dual-Point Models
Dual-point models The HydroRanger 200 HMI starts in an OFF state and does not take Level measurements. For measurement setup, configure these basic parameters: If the application uses two Level Points, provide the basic information for each point sep- arately.
Page 74: Response Rate
Fail-safe indexes The fail-safe parameters ensure that the devices controlled by the HydroRanger 200 HMI default to an appropriate state when a valid level reading is not available. 2.4.2. LOE Timer •...
Page 75: Relays
Contact closed = LCD Icon ON = relay coil energized Relay functions Each relay on the HydroRanger 200 HMI can be programmed for a wide range of functions according to your application needs. The available function categories are Alarms, Pumps, Totalizing and Sampling, and Miscellaneous.
Page 76: Pump
ON setpoint and goes off when the level rises to the OFF setpoint. Totalizing and Sampling Totalizing pumped volume Refer to on page 91 for more details. Relays are normally de- energized; contact closure is approximately 200 ms duration. Page 66 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 77: Relay Status - Navigation View
These setpoints are set separately for each pump within each pump control, and for each alarm type. 2.8.1.3. Preset Applications Sets the HydroRanger 200 HMI to a preset application. These preset applications quickly set up the device with a minimum number of parameters. 2.8.1.4. Relay Function Sets the default state differently, depending on whether the relay is programmed as an alarm or a control.
Page 78: Relay Wiring Test
Relay activation The flexibility of the relay functions ensures that the HydroRanger 200 HMI can support relay wiring for different systems and applications. Use the following as a guide to the most common parameters.
Page 79: Preset Applications
ON setpoint is reached. Because the pumps are 2.3.9. Filling Indicator started by rate, you must change to desired fill rate. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 69...
Page 80: Relay Fail-Safe
Parameter types Read only parameters Parameter values indicating status only. They cannot be altered. Global values Parameter values common to all inputs and outputs on the HydroRanger 200 HMI. Default values Page 70 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 81: Display Readout
Use conditions: • Before initial system installation. • Following a software upgrade. Display readout The following readouts are shown when the HydroRanger 200 HMI cannot display a number. Display Definition Parameter has not been set. #### Value too large to display.
Page 82: Backup Level Override
(for example, the Pointek CLS200). The ultrasonic reading is fixed at the programmed switch level until the discrete input is released; the override is then removed, and the HydroRanger 200 HMI returns to normal measurement. Backup level override parameters 2.9.1.2.
Page 83: Discrete Inputs
Discrete inputs Discrete input logic affects the reaction of the discrete input. Normal state is the standard operation, with the HydroRanger 200 HMI sensing the material level and controlling the pumps. Wiring the discrete inputs The contacts of the signalling device connected to the discrete inputs may be Normally Open or Normally Closed.
Page 84: Ma I/O
I/O To integrate the HydroRanger 200 HMI with other equipment, use the mA input and outputs. The mA input can be used as a Level measurement or can be passed on to a SCADA system. mA Input Level reading parameters...
Page 85 Calibrating 4 mA Output Connect the mA receiving device to the HydroRanger 200 HMI. Put the HydroRanger 200 HMI into Navigation View. 2.5.9. Milliamp Output to 4.0 for the selected mA output. View the mA level on the receiving device.
Page 86: Volume
The default reading changes to a range from 0 to 100 (the value in Maximum Volume 2.2.4. Empty • Empty ( ) is still measured to the bottom of the tank, not the top of A. Page 76 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 87: Characterization Chart
2.2.2. The end points in the curve are 0,0 (fixed) and the point defined by Note: Span 2.7.3. Maximum Volume Example chart 2.7.3. Maximum Volume Level A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 77...
Page 88 To configure the breakpoint table for Level Point 1, set the Trans- ducer Selector to 1. Enter the appropriate Level and Volume values into the menus <x.y.z> and <x.y.t> where x.y.z refers to Level and x.y.t refers to Volume. Page 78 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 89: Alarms
2.2.2. Span Global Span = 1.4 m This example assumes a base, single measurement unit. If your unit has optional dual-point software installed, then some parameters are indexed by two level points. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 79...
Page 90: Setting Simple Level Alarms
Use the bounded range alarms to detect when the level is inside or outside the range. By using a bounded range alarm, you can effectively put two level alarms (high and low) on one relay. Page 80 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 91: Cable Fault
2.8.1.5. ON Setpoint 2.8.1.6. OFF Setpoint 2.8. 1 .5. You can set a high alarm ( > ) or a low alarm ( ON Setpoint 2.8. 1 .6. OFF Setpoint < A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 81...
Page 92: Loss Of Echo (Loe)
The temperature source can be the temperature sensor built into the transducer or an 2.11. 1 .4. Temperature Source external TS-3, as set by Loss of Echo (LOE) Activates an alarm when the HydroRanger 200 HMI loss of echo timer passes without detecting a valid echo. Mode/ Parameter...
Page 93: Pump Control
2.2.2. Span Global Span = 1.4 m Example assumes a single measurement unit. If your HydroRanger 200 HMI has dual-point software installed, then some parameters are indexed by two level points. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 83...
Page 94: Setting A Pump Up (Reservoir) Group
Setting a Pump Up (Reservoir) Group Set a group of three pumps to pump up a reservoir. HydroRanger 200 HMI 2.2.4. Empty 2.2.2. Span Inflow Outflow Page 84 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 95 1.3 m Sets the three setpoints for the pump relays. 2.8.1.6. OFF Setpoint 1.3 m 2.8.1.6. OFF Setpoint 1.3 m Appendix B: Pump control reference For more information, see on page 241. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 85...
Page 96: Other Pump Control Algorithms
Set the Relay OFF Setpoints Parameter Index Value Description 2.8.1.6. OFF Setpoint 1.3 m Sets the three setpoints for the pump relays. 2.8.1.6. OFF Setpoint 1.3 m 2.8.1.6. OFF Setpoint 1.3 m Page 86 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 97: Set Relays To Fixed Duty Backup
Set the Relay OFF Setpoints Parameter Index Value Description 2.8.1.6. OFF Setpoint 1.3 m Sets the three setpoints for the pump relays. 2.8.1.6. OFF Setpoint 1.3 m 2.8.1.6. OFF Setpoint 1.3 m A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 87...
Page 98: Set Relays To First In First Out
Set the Relay OFF Setpoints Parameter Index Value Description 2.8.1.6. OFF Setpoint 1.3 m Sets the three setpoints for the pump relays. 2.8.1.6. OFF Setpoint 1.3 m 2.8.1.6. OFF Setpoint 1.3 m Page 88 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 99: Optional Pump Controls
Set all pump control relay ON and OFF setpoints to the same value. 2.2.2. Span • If the level is within 5% of of the OFF setpoint, then the next pump is not started. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 89...
Page 100: Rotating Pumps By Service Ratio
2.8.1.12. Service Ratio time. Notes: • The HydroRanger 200 HMI will not sacrifice other pumping strategies to ensure that the ratio is held true. • If the pump relays are set to the same value, then the ratio equals 1:1 and all pumps are used equally (preset).
Page 101: Totalizing Pumped Volume
Set in RUN Mode Press the LEFT arrow to go to Measurement View mode. Once there, press the DOWN arrow to show Measurement View 2. Press the LEFT arrow until Totalizer is shown. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 91...
Page 102: Setting Independent Fail-Safe Controls
If the indexed relay only trips once every four pump cycles, then the actual interval of the run-ON will be 20 pump cycles, or five cycles of Relay 3. Page 92 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 103: Setting The Pump Start Delays
A range of 0.5 meters is used to vary the setpoint. The randomly-selected setpoints are always inside the ON and OFF setpoints. Level setpoint ON Level setpoint variation Random setpoint range Level setpoint OFF A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 93...
Page 104: Grouping Pumps
2.10.3.3. Flush Cycles Global Open the flush valve for 3 cycles. 2.10.3.4. Flush Interval Global Use the flush value every 10 cycles. 2.10.3.5. Flush Duration Global Open the flush valve for 120 seconds. Page 94 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 105: Relay Controlled By Communications
Information available Parameter access 3.2.7.3. Pump Run Time Current RUN time 3.2.7.2. Pump Hours Total pump hours 3.2.7.4. Pump Starts Total pump starts 3.2.7.5. Pump Run-ONs Total pump RUN on occurrences A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 95...
Page 106: Rake (Screen) Control
When material builds up on the screen, a level differential is created, and the water level is higher in front of the screen than behind it. When this differential reaches the programmed setpoint, the HydroRanger 200 HMI activates a relay to operate mechanical rakes that clean the screen and ensure a steady flow.
Page 107: Setting Common Parameters
2.8.1.4. Relay Function Level (3), with an ON setpoint 2.8.1.5. ON Setpoint of 1.0 and an OFF setpoint 2.8.1.6. OFF Setpoint of 0.9 m. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 97...
Page 108: External Totalizers And Flow Samplers
External totalizers are simple counters which count the number of relay clicks produced by the HydroRanger 200 HMI. This is generally used to keep track of Open Channel Monitoring (OCM) or pumped volume totals. Note that both of these values are also stored in the HydroRanger 200 HMI and are available through communications.
Page 109: Flow Sampler
2.8.2.4. Relay Interval Setpoint to a time interval in hours, to drive the sampler. The sampler will operate based on the volume of flow or the time interval, whichever comes first. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 99...
Page 110: Open Channel Monitoring (Ocm)
2. 1 .6. Material Global Liquid Material 2.3.4. Response Rate Global Medium Max. Process Speed 2. 1 .5. Transducer Global XPS-10 Transducer 2. 1 . 1 . Units Global Meters Units Page 100 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 111: Setting Zero Head
2. 1 3.4.5. Zero Head 2.13.4.2. Maximum Head is used. Make sure you set to the 2.13.4.5. Zero Head correct value when using 2.2.4. Empty 2.2.2. Span 2. 1 3.4.5. Zero Head A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 101...
Page 112 LOE. The value in is added to and can be greater than the range of the transducer. α 2.2.4. Empty 2.2.7. Range Extension The examples on the following pages show both methods. Page 102 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 113: Setting Totalized Volume
Setting totalized volume The HydroRanger 200 HMI displays the totalized volume in the auxiliary reading area of Measurement View 2 by default. Applications supported by HydroRanger 200 HMI BS-3680 / ISO 1438/1 Thin Plate V-Notch weir Front view Side view...
Page 114: Bs-3680 / Iso 4359 Rectangular Flume
2. 1 3.5.5. OCM Dimension 5 (Read only) Velocity coefficient (Cv) 2. 1 3.5.6. OCM Dimension 6 (Read only) Discharge coefficient (Cd) 2. 1 3.4.5. Zero Head Zero Head 2. 1 3.4.7. Flowrate Units Flowrate Units Page 104 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 115: Palmer-Bowlus Flume
Head is referenced to bottom of the throat, not bottom of the pipe. • For rated flows under free flow conditions, the head is measured at a distance of D/2 upstream from the beginning of the converging section. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 105...
Page 116: H-Flume
Inches 1¾ 0.75 2¾ 3¾ 5½ 7¼ 10¾ 16¼ • H-Flumes come with a flat or sloping floor. The same flow table can be used because error is less than 1%. Page 106 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 117: Pmds With Exponential Flow To Head Function
2. 1 3.4.3. Maximum Flow Global Maximum Flow 2. 1 3.4.4. Flow Time Units Global Time Units 2.2.7. Range Extension Global Range Extension Values are samples only. Consult weir manufacturer’s documentation for correct flow exponent. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 107...
Page 118: Non-Applicable Weir Profiles
2.13.2. Primary Measuring Device Flows through these weirs can be measured using Universal to Universal Linear Flow Calculation or Universal Curved Flow Calculation. See calculation support on page 112. Page 108 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 119: Parshall Flume
2.13.4. 1 . Flow Exponent Global 1.22–1.607 (consult your flume documentation) 2.13.4.2. Maximum Head Global Maximum Head 2.13.4.3. Maximum Flow Global Maximum Flow (Q) 2.13.4.4. Flow Time Units Global Time Units A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 109...
Page 120: Leopold Lagco Flume
Flume size Point of measurement (Pipe diameter in inches) Centimeters Inches 4-12 1¼ 1¾ 2½ 3½ 10.2 11.4 4½ 12.7 14.0 5½ 15.2 Page 110 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 121: Cut Throat Flume
Global Cut Throat Flume Device 2.13.4. 1 . Flow Exponent Global 1.55 2.13.4.2. Maximum Head Global Maximum Head 2.13.4.3. Maximum Flow Global Maximum Flow 2.13.4.4. Flow Time Units Global Time Units A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 111...
Page 122: Universal Calculation Support
33 breakpoints Max. Flow Zero Flow Head Breakpoints Use as many breakpoints as required by the complexity of your PMD. Volume on page 76 for additional information. Page 112 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 123: Example Flumes
Example flumes These example flumes would both require a universal calculation. Trapezoidal Dual Range (nested) Parshall Example weirs These weirs could require universal calculation. Contracted Compound Poebing Approximate rectangular exponential A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 113...
Page 124 Page 114 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 125: Configuration Testing
2.9.2. 1 . Discrete Input 1 2.9.2.2. Discrete the circuit externally (preferred) or by using Input 2 to force the input ON or OFF. Try all possible combinations to thoroughly test the A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 115...
Page 126 For each combination, run a complete cycle to verify that the relays operate as expected. Monitor system performance carefully, under all anticipated operating conditions. When the HydroRanger 200 HMI performs exactly as required, programming is complete. If alternate reading units, fail-safe action, or relay operation is desired, update the parameters for the new functionality.
Page 127: Parameters
(such as, 2. 1 4.4. Totalizer Decimal Position Totalizers - • To enter Program mode using the local push buttons, press . Press return to Measurement mode. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 117...
Page 128: Parameter Indexing
2.1.4. Transducer converted into an output, using various index selector parameters ( Selector 2. 1 .2. Level Selector 2.5. 1 . mA Output Selector 2.8.1. 1 . Relay Selector , and Page 118 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 129: Index Selector Examples
Notes • Setting up the HydroRanger 200 HMI may be done through the index selector parameters; however, using the Quick Start Wizards is still the preferred method to commission the device. • An indexed transducer is commonly referred to as a Point (short for Level Point).
Page 130: Calibration
2.2. Calibration • Choose Transducer 2 in • If the HydroRanger 200 HMI is a dual-point model, Transducer 3 will be 2.2. Calibration available in for Differential or Average calculations between the Transducer 1 and Transducer 2 measurements.
Page 131: Index Types
2 if is set for DPD ( 2. 1 .3. Sensor Mode Dual-Point Difference) or DPA ( = Dual-Point Average). In Dual-Point Mode (optional), the number of available indexes is always 2. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 121...
Page 132 1. Quick Start Wizards Wizards group together all the settings needed for a particular feature, for easy configuration. The HydroRanger 200 HMI offers several Wizards. All can be accessed via the local push buttons. Quick Start Wizards For more details on the Wizards listed below, see on page 31.
Page 133 *Level, Space, *Distance, Flow rate in open channel, Pump Totalizer Dual-Point Difference, Dual-Point Average 2.1.4. Transducer Selector Sets the transducer index for all parameters applicable to this sub-menu. All parameter values will then apply to the selected index. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 123...
Page 134 2.2.2. Span To set or read for Transducer 2, the Note: selector parameter must first be changed to Transducer 2. 2.1.5. Transducer Specifies the model of the Siemens transducer connected to the device. Single-point model Dual-point model Index Global Transducer...
Page 135 2. 1 .9. Short Shot Duration • Related 2. 1 1.2. 1 0. Short Shot Bias • 2. 1 1.2. 1 1. Short Shot Floor • 2. 1 1.2. 1 2. Short Shot Range • A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 125...
Page 136 2. 1 .3. Sensor Mode Related This feature may only be used to adjust the delay before the next point is 2.3.4. Response Rate scanned. This value is automatically altered when altered. Page 126 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 137 2.2.2. Span Sets the range to be measured. Level Index 2. 1 . 1 . Units Range: 0.000 to 99.000 m (or equivalent, depending on Values 2.2.4. Empty Preset: based on A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 127...
Page 138 Enter a value reflecting maximum application range. Always prevent the monitored surface from approaching within 0.3 m (1 ft) of the transducer face as this is the minimum blanking for most Siemens transducers (some require more blanking – see your transducer manual).
Page 139 2.2.4. Empty 2.2.6. Blanking problems. Ensure that < minus 2.2.7. Range Extension Allows the material level to fall below the Empty setting without reporting LOE. Single-point model Dual-point model Index Global Transducer A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 129...
Page 140 Value Meters/minute 2.3.3. Empty Rate/minute Adjusts the device’s response to decreases in the actual material level (or advance to a lower 2.4.5. Material Level). Single-point model Dual-point model Index Global Transducer Page 130 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 141 Use a setting just fast enough to keep up with your process. Slower settings provide higher accuracy. Faster settings allow for more level fluctuations. 2.3.5. Rate Filter Damps the 3.2.6.15. Flow Maximum fluctuations. Single-point model Dual-point model Index Global Transducer A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 131...
Page 142 2. 1 . 1 . Units Range: 0.000 to 99.00 m (or equivalent, depending on Values 2.3.4. Response Rate Altered by 2. 1 . 1 . Units • 2.2.2. Span • Related 2.3.2. Fill Rate/minute • Page 132 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 143 The unit responds to the new level as programmed (control and alarm relays activate as defined by the programming). • Individual relays can have independent fail-safe responses. See 2.8.2.3. Relay Fail-safe 2. The appropriate error is displayed: A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 133...
Page 144 Material Level. 2.4.5. Material Level The material level reported when a fail-safe state is initiated. Transducer Index 2. 1 . 1 . Units Range: -4999 to 9999, value in Values Page 134 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 145 Output Index Range: 0 to 22 mA Values Preset: 3.58 mA 2.5. Current Output Sets the parameters applicable to the current value of the mA output. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 135...
Page 146 • Related 2.5.9. Milliamp Output • 2. 1 .3. Sensor Mode Altered by 2.5.4. mA Output Allocation Sets the input source from which the mA output is calculated. mA Output Index Page 136 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 147 Sets the maximum mA output value to be produced. mA Output Index Range: 0.000 to 22.000 mA Values Preset: 20.200 mA 2.5.2. mA Output Range • Related 2.5.7. Minimum mA Limit • A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 137...
Page 148 2. Read the value indicated on the current meter or other connected 2.5. 1 2. 20 mA Output Trim device, and enter it in The new trimmed value will be shown in the current meter or other connected device. Page 138 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 149 0 disables the signal filter. 2.6.5. Scaled mA Input Value Shows the resulting level value after scaling. Global Index Range: -999 to 9999% (Read only) Values Preset: calculated from the input mA signal A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 139...
Page 150 =Space. In RUN mode, readings are displayed in percent of maximum 2.7.3. Maximum Volume volume. To convert readings to volumetric units, see Vessel Shape LCD DISPLAY/ Description None * None Flat Level Bottom Conical Bottom Parabolic Bottom Page 140 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 151 Vessel Shape LCD DISPLAY/ (Continued) Description Half Sphere Bottom Flat Sloped Bottom Flat Ends Parabolic Ends Sphere Universal Linear Universal Curved A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 141...
Page 152 = Conical Bottom, Parabolic Bottom, Half Sphere Bottom, or Flat Sloped Bottom, 2.7.2. Vessel Shape • Length of one end section of the tank, if 2.1.1. Units Parabolic Ends , in Page 142 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 153 Volume (example: Volume 1) for the level-to-volume calculations. 2.7.8.1. Level 1 2.7.8.2. Volume 1 2.7.8.3. Level 2 2.7.8.4. Volume 2 2.7.8.5. Level 3 2.7.8.6. Volume 3 2.7.8.7. Level 4 2.7.8.8. Volume 4 2.7.8.9. Level 5 2.7.8.10. Volume 5 A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 143...
Page 154 2.7.10.5. Level 19 2.7.10.6. Volume 19 2.7.10.7. Level 20 2.7.10.8. Volume 20 2.7.10.9. Level 21 2.7.10.10. Volume 21 2.7.10.11. Level 22 2.7.10.12. Volume 22 2.7.10.13. Level 23 2.7.10.14. Volume 23 2.7.10.15. Level 24 Page 144 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 155 2.8. Relays 2.8.1. Basic Setup 2.8.1.1. Relay Selector Sets the relay index for all parameters applicable to this sub-menu. *Relay 1 Relay 2 Relay 3 Options Relay 4 Relay 5 Relay 6 A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 145...
Page 156 Quick Start Wizard must first be completed. Select an application that is similar to yours and change the 2.8. 1 .4. parameters required. If nothing suits your application, refer to Relay Function on page 147. Page 146 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 157 Totalizer Relay Duration Flow 2. 1 0.2.2. Mantissa Every y x 10 units ( 2. 1 0.2.4. Relay Duration Flow Sampler ) or time duration 2. 1 0.2.6. Relay Interval Setpoint A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 147...
Page 158 Index Range: -999 to 9999 Values Preset: ---- 2.2.2. Span Altered by 2.8. 1 .4. Relay Function • 2.8. 1 .5. ON Setpoint • Related 2.8. 1 .3. Preset Applications • Page 148 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 159 2. 1 . 1 . Units • 2.2.2. Span • Related 2.3.2. Fill Rate/minute • 2. 1 . 1 . Units This value (in per minute) is automatically set to 1/10 of 2.3.2. Fill Rate/minute A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 149...
Page 160 When an alarm event occurs (see below) or when power is cut, the circuit closes and the alarm activates. Positive Logic In software, all relays are programmed the same way, with ON setpoints indicating when to change the relay contact state (open or Page 150 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 161 Duty Assist or Alternate Duty Backup This feature groups pumps (Relay Points 1 - 6) into Groups 1 or 2. It is applied to pump rotation and occurs independently within each group. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 151...
Page 162 2. 1 . 1 . Units Values 2.2.2. Span Preset: 2% of 2.8. 1 .4. Relay Function • 2.8. 1 .5. ON Setpoint • Related 2.8. 1 .6. OFF Setpoint • Page 152 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 163 The pump ON and OFF Setpoint values are randomly varied inside the range to ensure that the material level does not consistently stop at the same point. Level setpoint ON Level setpoint variation Random setpoint range Level setpoint OFF A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 153...
Page 164 ON Duration 2.8.2.8. Pump Start Delays Sets when the pumps are permitted to start. Use this feature to reduce power surge by not having all the pumps start at the same time. Page 154 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 165 The device makes decisions based on the override values. 2.9.1.1. Transducer Selector Sets the transducer index for all parameters applicable to this sub- menu. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 155...
Page 166 4.3 m. The reading stays at 4.3 m until the switch is de- activated. 2.9.1.4. Override Time Delay Defines the time used to calm (debounce) the override condition input. Transducer Index Page 156 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 167 Shows the current value of the discrete input after any scaling is applied. Read only. Discrete input Index Active Modes Inactive Readings are updated continuously even in PROGRAM mode. The value signals a level override event. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 157...
Page 168 Enter the factor (powers of 10 only) by which actual volume is divided, prior to Remote Totalizer count increment. Example: For a Remote Totalizer update by 1000s of volume units, enter 3. Page 158 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 169 This parameter is relevant only if Operation is set to OCM ( Sensor Mode Flow rate in open channel Enter the mantissa (Y) for the exponent (Z) in the formula: Flow Sampler Increment = Y x 10 Flow units. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 159...
Page 170 2. 1 0. 1 .3. Relay Duration ON time OFF time Relay contact closed Relay contact open 2.10.2.5. Relay Selector Sets the relay index for all parameters applicable to this sub-menu. Page 160 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 171 Enter the HydroRanger relay number of the pump with the flush valve. The activation of this pump relay drives the usage of the flush system. 2.10.3.4. Flush Interval 2.10.3.3. Flush Cycles Both are based on the A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 161...
Page 172 Preset: 0.000 seconds 2.8. 1 .4. Relay Function =Flush Valve Related 2.11. Signal Processing 2.11.1. Temperature and Velocity 2.11.1.1. Transducer Selector Sets the transducer index for all parameters applicable to this sub- menu. Page 162 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 173 The HydroRanger uses the TS-3 temperature sensor assigned to the transducer. If one is not connected, the ultrasonic/temperature transducer is used. If the transducer does not have an internal 2. 1 1.1.6. Fixed Temperature temperature sensor, the value is used. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 163...
Page 174 2. 1 1. 1 .4. Temperature Source • Enter the temperature of the atmosphere within the transducer acoustic beam. If the temperature varies with distance from the transducer, enter the average temperature. Page 164 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 175 In gasses other than air, the temperature variation may not Note: correspond with the speed of sound variation. Turn off temperature sensor and use a fixed temperature. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 165...
Page 176 If the wrong echo is processed, observe the echo processing displays and select an alternate algorithm using this parameter. For details on echo determinations and suggested usage, see Appendix A: Technical reference Algorithm on page 234. Page 166 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 177 Preset: 0 ( = OFF); the nearest acceptable value is returned; Values Greater = Wider 2. 1 1.2.2. Algorithm • 2. 1 1.2.7. Spike Filter • Related 2. 1 1.2.5. Reform Echo • 2. 1 1.2.9. Echo Marker • A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 167...
Page 178 2. 1 1.2.5. Reform Echo • Use this feature if the reported material level fluctuates slightly, due to a variable rise in the leading edge of the true echo on the Echo Profile. Page 168 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 179 Related 2. 1 1.2. 1 0. Short Shot Bias • 2. 1 1.2. 1 1. Short Shot Floor • 2. 1 .5. Transducer This feature is automatically altered when is altered. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 169...
Page 180 (detailed instructions follow Range Display before Auto False Echo Suppression 2. 1 1.3.2. Auto False Echo Suppression (or when = OFF) default TVT material echo Hover Level false echo Distance [m] Distance (meters) Page 170 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 181 When the HydroRanger is located in the center of the vessel, lower this parameter to prevent multiple echo detections. Range: 0 to 100% Values Preset: 33 % A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 171...
Page 182 Enter the minimum TVT Curve start point (in dB above 1 μV RMS). 2.2.6. Blanking This feature should only be used if increased would extend into the measurement range farther than desired . Page 172 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 183 By changing the value of adjacent breakpoints, the effective bias to the shaper can be broadened to suit the desired correction. In the case of multiple false echoes, shaping can be applied along A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 173...
Page 184 2.11.4.3.8. TVT Brkpt. 28 2.11.4.3.9. TVT Brkpt. 29 2.11.4.3.10. TVT Brkpt. 30 2.11.4.4. Brkpt. 31-40 2.11.4.4.1. TVT Brkpt. 31 2.11.4.4.2. TVT Brkpt. 32 2.11.4.4.3. TVT Brkpt. 33 2.11.4.4.4. TVT Brkpt. 34 Page 174 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 185 Transducer Range: 1 to 50 Values Preset: 2 2. 1 1.5.4. Echo Lock • Related 2. 1 1.5.2. Up Sampling • 2.11.5.4. Echo Lock Down Sampling value Maximum verification Material agitator A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 175...
Page 186 The window then returns to its normal width. When Echo Lock is OFF , the HydroRanger responds immediately to a 2.3.2. Fill Rate/minute new measurement as restricted by the 2.3.3. Empty Rate/minute ; however, measurement reliability is affected. Page 176 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 187 Options Timed The backlight can be forced ON or OFF, or be controlled by a programmer, in which case it will turn OFF five minutes after the last key is pressed. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 177...
Page 188 If the measured value is in feet, enter 0.3333 to display the number of yards. 2.1.1. Units • For simple linear volume conversions, set to 1 (meter) and then enter the volume measurement per unit to get the correct Page 178 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 189 Determines the parameter that displays in the Auxiliary Reading after powering up the device. Global Index *Totalizer Level Space Distance Volume Flow Head Options Temperature Rate Fail-safe remaining Confidence mA Output 1 mA Output 2 mA Input A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 179...
Page 190 PMD is not listed, select the appropriate Universal Flow Calculation. 2. 1 3.4.2. Maximum Head 2. 1 3.4.3. Maximum Flow Associated parameters , and 2. 1 3.4.5. Zero Head 2.1.3. Sensor Mode Flow rate in may be scroll accessed. If Page 180 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 191 2. 1 3.4.2. Maximum Head 2.13.4.3. Maximum Flow set by and with the curve based on the specified exponent. Use the exponent specified by the PMD manufacturer, if available, or the sample value given below. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 181...
Page 192 This would include Exponential, Palmer-Bowlus Flume, H-Flume, and Universal breakpoints. 2.13.4.3. Maximum Flow Sets the maximum flowrate associated with 2. 1 3.4.2. Maximum Head. Single-point model Dual-point model Index Global Transducer Page 182 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 193 = Ratiometric). Example Conditions Enter 2. 1 3.4.3. Maximum Flow Flowrate display: millions of gallons/day, 376.5 for 2. 1 3.4.4. Flow Time and maximum flowrate is 376,500,000 and Days for Units gallons/day A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 183...
Page 194 Thin Plate V-Notch Weir BS-36807). Use the default option of 2.13.4.7. Flowrate Units 2. 1 3.2. Ratiometric calculation for when Primary Measuring Device = Exponential devices, Palmer-Bowlus Flume, H-Flume, Universal Linear Flow Calculation, or Universal Curved Flow Calculation. Page 184 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 195 Range: 0.000 to 9999 Values Preset: 5.000 %, in equivalent units 2. 1 . 1 . Units Altered by 2.2.2. Span Related 2.1.1. Units Use this to enter the minimum head in A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 185...
Page 196 Range: 0.000 to 9999 Values 2. 1 3.6. 1 .2. Flow 1 Related 2.2.2. Span The values in the for which flowrates are known. Universal calculation support on page 107 for how to Page 186 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 197 2.13.6.1.10. Flow 5 2.13.6.1.11. Head 6 2.13.6.1.12. Flow 6 2.13.6.1.13. Head 7 2.13.6.1.14. Flow 7 2.13.6.1.15. Head 8 2.13.6.1.16. Flow 8 2.13.6.2. Table 9-16 2.13.6.2.1. Head 9 2.13.6.2.2. Flow 9 2.13.6.2.3. Head 10 A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 187...
Page 198 2.13.6.3.16. Flow 24 2.13.6.4. Table 25-32 2.13.6.4.1. Head 25 2.13.6.4.2. Flow 25 2.13.6.4.3. Head 26 2.13.6.4.4. Flow 26 2.13.6.4.5. Head 27 2.13.6.4.6. Flow 27 2.13.6.4.7. Head 28 2.13.6.4.8. Flow 28 2.13.6.4.9. Head 29 Page 188 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 199 Dual Point Model Index Global Transducer Range: 0.000 to 9999 Values 2. 1 4.3. Running Totalizer Low • 2. 1 4.4. Totalizer Decimal Position • Related 2. 1 4.5. Totalizer Multiplier • A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 189...
Page 200 2. 1 4.3. Running Totalizer Low Set the decimal position during initial commissioning of the Note: HydroRanger 200 HMI. If the position is changed later, the totalizer data in 2. 1 4.2. Running Totalizer High 2.14.3. Running Totalizer Low will be incorrect and must be reset according to the new decimal value.
Page 201 Displays the manufacture date of this HydroRanger unit. Read only. Global Index Format: YY:MM:DD (Read only) Values 3.2.2. Power-ON Resets Related 3.1.10. Date Last Configured Shows the date when the device was last configured by SIMATIC PDM. Read only. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 191...
Page 202 3.2.5. Relay Logic Test Forces the relay control logic into an activated or de-activated state. Relay Index *OFF Activate relay control Options De-activate relay control 2.8. 1 .4. Relay Function • Related Page 192 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 203 Range: 0.000 to 9999% (Displays as % of Empty; Read only) Values 2. 1 . 1 . Units Related 2.2.4. Empty 3.2.6.12. Distance unless the distance information is required in percent. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 193...
Page 204 Shows the lowest reading calculated (in normal Reading units). Level Index Range: -999 to 9999 (Read only) Values 3.2.7. Pump Records Related To reset the values once the installation is working correctly, enter the value 9999. Page 194 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 205 3.2.6.16. Flow Minimum Shows the lowest flow rate calculated (in units). Single-point model Dual-point model Index Global Transducer Range: -999 to 9999 (Read only) Values 2. 1 3.4.3. Maximum Flow Related A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 195...
Page 206 Shows or resets the accumulated number of times the selected relay has been ON. Relay Index Range: 0 to 9999 Values 2.8. 1 .4. Relay Function Related 3.2.7.1. Relay Selector To change the relay assignment, see Page 196 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 207 Shows the highest temperature encountered, as measured by the TS- 3 temperature sensor (if applicable). Global Index Range: - 50 to 150°C (Read only) Values Preset: - 50°C 3.2.8.5. TS-3 Temperature Minimum Related A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 197...
Page 208 Transducer Index Range: 0 to 99 (Read only) Values 3.2.9.5. Noise Average Displays the average ambient noise (in dB above 1 μV RMS) of a noise profile after each measurement. Page 198 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 209 3.2. 1 0.3. Hardware Error Count information about the error. 3.2.10.2. Hardware Status Code Indicates the precise cause of Fail or Err1 condition from 3.2. 1 0.1. Hardware Status. Global Index A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 199...
Page 210 Shows the count that increments by 1 each time Fail is reported in 3.2.10.1. Hardware Status. Global Index Range: 0 to 9999 Error count; provide this number to your Siemens represen- Values tative for troubleshooting. 3.2. 1 0. 1 . Hardware Status Related 3.2.10.4.
Page 211 Range: 0 to 9999 Options For devices connected with the Siemens protocol, this parameter is ignored. For devices connected with a serial Modbus slave protocol, this parameter is a number from 1-247. The network administrator must ensure that all devices on the network A5E36281317 HydroRanger 200 HMI –...
Page 212 Ensure that the communications parameters are identical between the HydroRanger and all connected devices. For example, many modems default to N-8- 1 which is No parity, 8 Data Bits, and 1 Stop Bit. Page 202 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 213 4.11. Parameter Index Location Determines where index information is stored for the parameter access area. Global Index *Global Options Parameter-specific 4.4. Protocol Altered by Global A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 203...
Page 214 • User PIN cannot be changed via communications. The User PIN value cannot be recovered in the field. Record WARNING: a new User PIN in a secure manner. Page 204 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 215 Fieldbus Master (PROFIBUS DP , DeviceNet, or Allen Bradley Remote I/ Read only *Read/Write Values 5.4. Communications Control Restricted access (Read only, except for which is Read/Write.) 6. Language *ENGLISH DEUTSCH FRANCAIS ESPANOL Options ITALIANO PORTUGUÊS русский A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 205...
Page 216: Alphabetical List
Discrete Inputs (2.9.), p 155 Discrete Inputs (3.3.1.), p 200 Display (2.12.), p 177 Display Delay (2.12.8.), p 180 Distance (%) (3.2.6.4.), p 193 Distance (3.2.6.12.), p 195 Down Sampling (2.11.5.3.), p 175 Page 206 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 217 Flow 4 (2. 1 3.6.1.8.), p 187 Flow 5 (2. 1 3.6.1.10.), p 187 Flow 6 (2. 1 3.6.1.12.), p 187 Flow 7 (2. 1 3.6.1.14.), p 187 Flow 8 (2. 1 3.6.1.16.), p 187 A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 207...
Page 218 Hover Level (2.11.3.4.), p 171 Identification (3.1.), p 191 Inflow/discharge Adjust (2.7.7.), p 143 Language (6.), p 205 LCD Contrast (2.12.2.), p 178 Level (3.2.6.3.), p 193 Level 1 (2.7.8. 1 .), p 143 Page 208 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 219 Output Allocation (2.5.4.), p 136 mA Output Range (2.5.2.), p 136 mA Output Selector (2.4.7.), p 135 mA Output Selector (2.5.1.), p 136 Maintenance and Diagnostics (3.), p 191 Maintenance and Diagnostics (3.), p 191 A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 209...
Page 220 Pump Records (3.2.7.), p 196 Pump Records (3.2.7.), p 196 Pump Records (3.2.7.), p 196 Pump Records (3.2.7.), p 196 Pump Run Time (3.2.7.3.), p 196 Pump Run-ON (2.8.2.7.), p 154 Page 210 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 221 Short Shot Frequency (2. 1 .7.), p 125 Short Shot Range (2.11.2.12.), p 169 Shot Delay (2.1.16.), p 127 Shot Synchro (2.1.13.), p 126 Shot/pulse Mode (2.1.17.), p 127 Signal Processing (2.11.), p 162 Simulation (3.3.), p 200 A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 211...
Page 222 TVT Brkpt. 10 (2.11.4.1.10.), p 174 TVT Brkpt. 11 (2.11.4.2.1.), p 174 TVT Brkpt. 12 (2.11.4.2.2.), p 174 TVT Brkpt. 13 (2.11.4.2.3.), p 174 TVT Brkpt. 14 (2.11.4.2.4.), p 174 TVT Brkpt. 15 (2.11.4.2.5.), p 174 Page 212 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 223 Volume 14 (2.7.9.12.), p 144 Volume 15 (2.7.9.14.), p 144 Volume 16 (2.7.9.16.), p 144 Volume 17 (2.7.10.2.), p 144 Volume 18 (2.7.10.4.), p 144 Volume 19 (2.7.10.6.), p 144 Volume 2 (2.7.8.4.), p 143 A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 213...
Page 224 Volume 7 (2.7.8. 1 4.), p 144 Volume 8 (2.7.8. 1 6.), p 144 Volume 9 (2.7.9.2.), p 144 Wall Cling Reduction (2.8.2.6.), p 153 Write Protection (5. 1 .), p 204 Zero Head (2.13.4.5.), p 184 Page 214 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 225: Service And Maintenance
Once complete, verify the update was successful by checking the current firmware revision: • If updating the HMI node, re-cycle the power on the HydroRanger 200 HMI. On power-up, you will see the current HMI firmware revision on the HydroRanger 200 HMI display.
Page 226 Shipments received without a declaration will be cleaned professionally at customer’s expense before further processing. The Decontamination Declaration form can be found online at www.siemens.com/processinstrumentation, under Service > Decontamination Declaration. Page 216 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 227: Troubleshooting
• If any fault codes are being displayed, see page 218 for a detailed list. Verify that the wiring connections are correct. A HydroRanger 200 HMI parameter is set via remote communications, but the parameter remains unchanged. • Try setting the parameter from the local push buttons. If it cannot be set using 5.
Page 228: General Fault Codes
Point 1 Temp. Error Temp sensor assigned to Point 1 reversed, shorted cable, temp sensor failed. Point 2 Temp. Error Temp sensor assigned to Point 2 reversed, shorted cable, temp sensor failed. Page 218 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 229: Common Problems Chart
Incorrect transducer selection Check any junction box connec- (or set to NO Transducer); tions. Transducer has been disabled Check that transducer is enabled 2.1.5. Transducer through the software (see on page 118). A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 219...
Page 230 2. 1 1.1.4. Tempera- temperature. See ture Source on page 157. Vapors If fluctuation is unacceptable, con- sider an alternative technology. Contact your Siemens representa- tive. Page 220 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 231 TVT shaping or Auto False Echo Suppression. 2.11.4. TVT Shaper on page 167 2. 1 1.3.2. Auto False Echo Sup- pression on page 164. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 221...
Page 232 Check mounting location; verify material is not entering 2.2.6. Blanking range zone. See Blanking on page 123. Noise in the application Verify source and minimize. See Noise problems on page 226. Page 222 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 233 2. 1 3.5. PMD dimensions. See Dimensions on page 180 Relay not programmed Program relay. Relay not activating Incorrect relay setpoints Verify setpoints. Relay not activating Incorrect relay setpoints Verify setpoints. correctly A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 223...
Page 234 Transducer connected in “two- Do not tie white and shield together. Displays Error and tb:(#). wire” method. Use all three terminal blocks. Reverse black and white wires on ter- Transducer connected backwards. minal block. Page 224 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 235 Reading is erratic, with lit- material. True echo too weak or wrong echo tle or no relation to mate- being processed. Check noise parameters. rial level. Noise problems on page 226. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 225...
Page 236: Noise Problems
Non-transducer noise sources below. Connect only the shield wire of the transducer to the HydroRanger 200 HMI. If the measured noise is below 5 dB, continue with the next step. If the noise is above 5 Avoiding common wiring problems dB, go to , below.
Page 237: Non-Transducer Noise Sources
Filtering cables is an option but is not recommended unless all others have been exhausted. The HydroRanger 200 HMI is designed to work near heavy industrial equipment such as variable speed drives. Even so, it should not be located near high voltage wires or switch gear.
Page 238: Measurement Difficulties
If the expires due to a measurement difficulty, the Value displays. In rare cases, the HydroRanger 200 HMI may lock on to a false echo and report a fixed or wrong reading. Loss of Echo (LOE) 2.4.9. mA Fail-safe Value 2.5.9.
Page 239: Fixed Reading
If the preceding remedies have not fixed the problem, the false echo has to be ignored. If the echo is close to the transducer If there is a static, incorrect high level reading from the HydroRanger 200 HMI, there is probably something reflecting a strong echo back to the transducer. If the material level 2.2.6.
Page 240: Wrong Reading
If the reading is erratic, or jumps to some incorrect value periodically, ensure the following conditions: Surface monitored is not beyond the HydroRanger 200 HMI’s programmed range or the transducer’s maximum range. Material is not falling into the transducer’s acoustic beam.
Page 241: Unit Repair And Excluded Liability
Time of correct echo Ring down times that extend into the valid measurement range can be interpreted by the HydroRanger 200 HMI as the material level, and reported as a steady high level. Unit repair and excluded liability All changes and repairs must be done by qualified personnel only, and applicable safety regulations must be followed.
Page 242 Page 232 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 243: Technical Data
• Panel Mount: suitable for outdoors (Type 3 / NEMA 3, IP54 Enclosure) Installation category • II Pollution degree • 4 Range • 0.3 m (1 ft) to 15 m (50 ft), dependent on transducer Power consumption is listed at maximum. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 233...
Page 244 Measurement performance under reference operating conditions and configuration. Program range is defined as the empty distance from the face of the transducer 2.2.4. Empty 2.2.7. Range Extension , page 122) plus any range extension ( page123). Page 234 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 245 • Logical 1 = 10 to 50 V DC • 3 mA maximum draw All relays are certified only for use with equipment that fails in a state at or under the rated maximums of the relays. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 235...
Page 246 Approvals • See product nameplate Compatible transducers • Echomax series and STH series Transducer frequency • 44 kHz For watertight applications, use only approved, suitable-sized hubs in the enclosure’s conduit holes. Page 236 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 247 Cable • Using a co-axial cable with the HydroRanger 200 HMI is NOT recommended. If it is Appendix E: Upgrading Co-axial transducer really necessary to use such cable, see extension on page 271 for instructions. • Transducer and mA output signal to be 2 copper conductors, twisted with shield/drain wire, 300 Vrms, 0.324 - 0.823 mm...
Page 248 Page 238 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 249: Appendix A: Technical Reference
The transmit pulse consists of one or more electrical “shot” pulses, which are supplied to the transducer connected to the HydroRanger 200 HMI terminals. The transducer fires an acoustic “shot” for each electrical pulse supplied. After each shot is fired, sufficient time is provided for echo (shot reflection) reception before the next (if applicable) shot is fired.
Page 250: Tvt (Time Varying Threshold) Curves
2.11.3.2. Auto False allows you to set a distance, and Echo Suppression then instructs the HydroRanger 200 HMI to ’learn’ where the obstructions/false echoes are within that distance. The new TVT curve is set above the false echoes, screening them out.
Page 251: Algorithm
The Reading displayed is the result of performing any additional modification to the calculated distance, as determined by any of the following: Parameter Page 2.1.3. Sensor Mode 2.1.1. Units Volume Conversion 2.7.2. Vessel Shape 2.7.3. Maximum Volume A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 241...
Page 252: Sound Velocity
The sound velocity of the transmission medium is affected by the type, temperature, and vapor pressure of the gas or vapor present. As preset, the HydroRanger 200 HMI assumes the vessel atmosphere is air at 20°C (68°F). Unless altered, the sound velocity used for the distance calculation is 344.1 m/s (1129 ft/s).
Page 253: Scanning
When two transducers are connected and configured in a dual-point unit, the HydroRanger 200 HMI will scan each in turn via the scanner relay. When a single-point 2. 1 .3. HydroRanger 200 HMI is programmed for differential or average level Operation (...
Page 254: Universal Curved
For combination curves, enter at least two breakpoints immediately before and after any sharp angle (as well as one breakpoint exactly at the angle) on the curve. Flow calculation The HydroRanger 200 HMI provides numerous OCM flow calculation features: Parameter Page 2.13.2.
Page 255: Universal Linear
This calculation creates a cubic spline approximation of the head/flow curve, providing best results if the curve is non-linear, and there are no sharp angles. Select at least enough breakpoints from the curve to satisfy the following: A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 245...
Page 256: Response Rate
Typical flow characterization information, see on page 107. Response Rate The HydroRanger 200 HMI’s ability to respond to material level changes is designed to exceed even the most demanding installation requirements. 2.3.4. Response Rate setting automatically presets various parameters affecting the...
Page 257: Loss Of Echo (Loe)
[The Primary reding on the HMI display will show dashes (– – – –) when a fault that causes fail-safe is present, and will return to the current reading when the fault is cleared.] A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 247...
Page 258: Appendix B: Pump Control Reference
Appendix B: Pump control reference The HydroRanger 200 HMI has the pump control strategies to suit nearly any water/ wastewater application. This section details these strategies for engineers requiring in- depth knowledge of the system and how it operates. Pump control options...
Page 259: Fixed Duty Assist
Only one relay contact in the pump group can be closed at any one time. Relay table The following table shows relay status when each setpoint is reached. Relays Index ON 3 ON 2 ON 1 A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 249...
Page 260: Alternate Duty Assist
Setpoint 1 does not relate directly to Relay 1. The pumping algorithm manages the mapping of setpoints to relays. When pumps are run, they can RUN only one at a time. Page 250 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 261: Service Ratio Duty Assist
To create a grouping of pumps where two pumps make up 50% of the run time and the 2.8. 1 .12. Service Ratio third pump makes up the other 50%, is set to the following: Relay Index Value A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 251...
Page 262: Service Ratio Duty Backup
2.10.3.3. Flush Cycles 2. 1 0.3.4. Flush Interval 2.10.3.5. Flush Duration Operates a flush valve or special flush device based on the number of pump starts, usually to aerate wet well wastewater. Page 252 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 263: Appendix C: Communications
HydroRanger 200 HMI Connection via radio modem, dial-up modem, or leased line modem Modbus The HydroRanger 200 HMI supports the Modbus protocol, an industry standard used by SCADA and HMI systems. HydroRanger 200 HMI uses Modbus to communicate via the RS-485 port.
Page 264: Communication Ports
Communication ports The HydroRanger 200 HMI comes with two communications ports on the base unit. Port Connection Location Interface RJ-11 connector Inside enclosure on main board. RS-232 Terminal block Terminal block RS-485 RS-232 The RS-232 port is not intended for connection to a network (bus). Use it Note: only for direct connection to a laptop, PC, or modem.
Page 265: Communications Installation
The RJ-11 jack and the RS-485 port are inside the enclosure of the unit. RJ-11 jack SERVICE TRANSDUCER DISPLAY 12 - 30 V BATTERY INPUT POWER OPTIONAL CARD SYNC SHLD SHLD RS-485 port SHLD A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 255...
Page 266 Note: Port 2: RS-485 To connect the unit to an RS-232 modem: HydroRanger 200 HMI Terminal Block DB 9 DB 9 RS-232 Converter: Modem RS-232 to RS-485 2 Rx 3 Tx Page 256 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 267: Configuring Communications Ports (Parameters)
4.4. Protocol 4.2. Device Address 4.5. Serial Baud Rate 4.6. Parity 4.7. Data Bits 4.8. Stop Bits 4.9. Modem Available 4. 1 0. Modem Inactivity Timeout 4. 1 1. Parameter Index Location A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 257...
Page 268: Simatic Process Device Manager (Pdm)
Modbus over Port 1 (the RJ-11 jack) or Port 2 (RS-485 on the terminal block). The HydroRanger 200 HMI comes with Port 1 (the RJ-11 jack) set for communications to SIMATIC PDM. SIMATIC PDM contains a simple process monitor of the process values, alarms and status signals of the device.
Page 269: Modbus Register Map
Modbus register map The memory map of the HydroRanger 200 HMI occupies the Modbus holding registers (R40,001 and up). This map is used when the protocol is Modbus RTU slave or Modbus ASCII slave. Register map for most common data...
Page 270 Maximum registers shown; fewer may be used depending on options installed. The HydroRanger 200 HMI was designed to make it easy for master devices to get useful information via Modbus. This chart gives an overview of the different sections. A more detailed explanation of each section follows below.
Page 271 The values can be cleared by writing zero (0) to the registers. Input/Output (R41,070 – R41,143) The HydroRanger 200 HMI has discrete inputs, mA inputs, mA outputs and relay outputs. See below for details for each I/O type. A5E36281317 HydroRanger 200 HMI –...
Page 272 The setpoint is scaled from 0 to 10,000 (0 to 100% of span multiplied by 100). So 54.02% is shown in the register as 5402. Pump OFF setpoint (R41,430 – R41,435) 2.8. 1 .6. OFF Setpoint The OFF setpoint level ( ) for the referenced pump relay. Page 262 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 273 Each parameter register has a corresponding format register that holds the format Format words (R46,000 to R46,999) on information required to interpret the value. See page 266 A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 263...
Page 274: Parameter Indexing
2.8.1.4. Relay Function is the Relay Control Function. This parameter determines how a relay is controlled by the HydroRanger 200 HMI (used as an alarm, for pump control, etc.). 2.8. 1 .4. Relay Function Because there are up to six relays on the HydroRanger 200 HMI, indexed by six to allow each relay to be programmed independently.
Page 275: Parameter-Specific Index Method
The method of writing parameters is similar to the method of reading them. Become Reading parameters on page 264 familiar with before attempting to write any. To write parameter values to the HydroRanger 200 HMI, follow these steps: A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 265...
Page 276: Global Index Method
Decimal offset • Secondary index • Primary index Decimal offset (0-9) Secondary index (00-99) Primary index (00-64) The primary and secondary indexes correspond to those that are used by the parameter. Page 266 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 277 02038 3 left 05159 Percent To write these values you can use a decimal offset as follows: format word = (primary index x 1000) + (secondary index x 10) + (decimal). A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 267...
Page 278: Data Types
Data types The HydroRanger 200 HMI parameters do not always use integers to hold values. For the convenience of the programmer, those values are converted to and from a 16-bit integer number. This section describes the conversion process. The sections that follow describe where those values are in the discrete I/O and block transfer addresses, and how to get the parameters you need.
Page 279: Split Values
256 yy = value – 128 It may simplify parameter to notice: xx = (most significant byte of value) – 128 yy = (least significant byte of value) – 128 A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 269...
Page 280: Text Messages
OPEN 30007 SHORT 30008 PASS 30009 FAIL 30010 HOLD 30011 30012 30013 30014 30015 Parameter has not been set. -32768 Value is less than –20,000 32767 Value is greater than 20,000 Page 270 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 281 Relay function codes ( Only) Please note that the HydroRanger 200 HMI offers more function codes. If a device parameter returns a relay function code, that message is converted to a number and is then provided in the register. The numbers are shown in the following table: 2.8.1.4.
Page 282: Error Handling
The host tries to do something that is not a valid action. In the first case, the HydroRanger 200 HMI does not respond and the master waits for a response time out error, which causes the master to re-send the message.
Page 283: Communication Troubleshooting
Check that the port on the computer is correct. Sometimes, trying a different Modbus driver will solve the problem. Specific The HydroRanger 200 HMI is set to communicate via a modem but no communication is returning to the master. •...
Page 284: Single Parameter Access (Spa)
Built in to HydroRanger 200 HMI is an advanced handshaking area that can be used to read and write single registers to the HydroRanger 200 HMI. This section performs a similar function to the Parameter access section.
Page 285: Writing Parameters
Send the parameter, its primary index, and its secondary index (usually 0) to registers 40,090, 40,091, and 40,092. Write the value to registers 40,096 and 40,097. Write the desired format word to register 40,093 to enable the HydroRanger 200 HMI to interpret the value correctly. Format register...
Page 286: Error Codes
The error codes returned in the format area are 8-bit integers found in the lowest eight bits of the format word. This allows for 256 potential error codes. Currently, the HydroRanger 200 HMI has two error codes available. Values Description No error Data not available as percent (available as units).
Page 287: Appendix D: Updating Software
Connect your PC or laptop to the HydroRanger’s RJ-11 RS-232 port. Run the .exe Downloader program in the software. Use this to make the RS-232 settings match your HydroRanger 200 HMI. Please note that the software default settings will already match the default settings of the unit. Changes are only necessary if the RS-232 settings in the unit have been changed.
Page 288: Appendix E: Upgrading
20 dB). It gives a more reliable operation in applications where the proximity of power cables, variable speed drives, etc. would have caused problems. If you are installing a new HydroRanger 200 HMI system and an extension is required, we strongly recommend that you use a good quality screened, twisted pair cable. If the integral transducer cable is used, you only need to connect the HydroRanger 200 HMI and benefit from its superior performance.
Page 289: Connecting A Transducer With Rg62 Co-Axial Extension Cable
If you are replacing an older Siemens Milltronics Ultrasonic Level Controller with a new HydroRanger 200 HMI where an RG62 co-axial extension is fitted, and you are unable to replace the extension with a new cable, please refer to the connection diagram below.
Page 290: Appendix F: Conduit Entry For Class I, Div 2 Applications
Appendix F: Conduit Entry for Class I, Div 2 Applications Page 280 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 291 A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 281...
Page 292 Page 282 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 293: Programming Chart
2.4.6. Fail-safe Advance Relays 2.8. 1 .2. Level Source 2.8. 1 .3. Preset Applications 2.8. 1 .4. Relay Function 2.8. 1 .5. ON Setpoint 2.8. 1 .6. OFF Setpoint 2.8.2.4. Relay Interval Setpoint A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 283...
Page 294 Output Trim 2.5. 1 1. 4 mA Output Trim 2.5. 1 2. 20 mA Output Trim 2.4.4. Fail-safe Mode mA Input 2.6. 1 . mA Input Range 2.6.2. 0/4 mA Level Value Page 284 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 295 2. 1 3.2. Primary Measuring Device 2. 1 3.4.1. Flow Exponent 2. 1 3.5. PMD Dimensions 2. 1 3.4.2. Maximum Head 2. 1 3.4.3. Maximum Flow 2. 1 3.4.5. Zero Head A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 285...
Page 296 2. 1 1.1.3. Process Temperature Rate 2.3.2. Fill Rate/minute 2.3.3. Empty Rate/minute 2.3.9. Filling Indicator 2.3. 1 0. Emptying Indicator 2.3.5. Rate Filter 2.3.6. Rate Filter Time 2.3.7. Rate Filter Distance 3.2.6.15. Flow Maximum Page 286 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 297 3.2. 1 0.2. Hardware Status Code 3.2. 1 0.3. Hardware Error Count 3.2. 1 0.4. Smartlinx®Module Type 3.2. 1 0.5. Smartlinx®Protocol 5.4. Communications Control Echo Processing 2.2.6. Blanking 2.2.7. Range Extension A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 287...
Page 298 2. 1 1.2.10. Short Shot Bias 2. 1 1.2.11. Short Shot Floor 2. 1 1.2.12. Short Shot Range 3. 1 .7. Firmware Revision 2.5.9. Milliamp Output 3.2.6.17. Transducer Temperature 3.2.6.18. TS-3 Temperature Page 288 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 299 Altered Values for Indices/Point Numbers Parameter 3.2.6.19. mA Input Measurement 3.2.6.2. Reading 3.2.6.3. Level 3.2.6.11. Space 3.2.6.12. Distance 3.2.6.4. Distance (%) 3.2.6.13. Head 3.2.6.13. Head 3.2.6.14. Flow 3.2. 1 . Master Reset A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 289...
Page 300 Page 290 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 301 LCD Menu Structure...
Page 302: Lcd Menu Structure
EMPERATURE OURCE 2.1.14. S ELAY IXED EMPERATURE 2.1.15. S NITS 2.1.16. S ELAY MPTY 2.1.17. S PULSE 2.2. C ALIBRATION ESPONSE 2.2.1. L EVEL ELECTOR Page 292 HydroRanger 200 HMI – OPERATING INSTRUCTIONS HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 303 ALUE 2.7.10.8. V OLUME 2.6.3. 20 EVEL ALUE 2.7.10.9. L EVEL 2.6.4. ILTER 2.7.10.10. V OLUME 2.6.5. S 2.7.10.11. L CALED M NPUT ALUE EVEL A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 293...
Page 304 2.11.3.3. A ACKUP EVEL VERRIDE UPPRESSION ANGE 2.11.3.4. H 2.9.1.1. T OVER EVEL RANSDUCER ELECTOR 2.11.3.5. S 2.9.1.2. D HAPER ISCRETE NPUT UMBER 2.11.3.6. TVT T Page 294 HydroRanger 200 HMI – OPERATING INSTRUCTIONS HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 305 2.11.5.4. E 2.13.6.2.4. F 2.11.5.5. E INDOW 2.13.6.2.5. H 2.11.5.6. F ILTER 2.13.6.2.6. F 2.12. D ISPLAY 2.13.6.2.7. H 2.13.6.2.8. F 2.12.1. L OCAL ISPLAY ACKLIGHT A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 295...
Page 306 ONFIDENCE DENTIFICATION 3.2.9.4. E TRENGTH 3.1.1. T 3.2.9.5. N OISE VERAGE 3.1.2. D ESCRIPTOR 3.2.9.6. N OISE 3.1.3. M 3.2.9.7. E ESSAGE ILTERED 3.2.9.8. E Page 296 HydroRanger 200 HMI – OPERATING INSTRUCTIONS HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 307 ** Depends on the choice of Vessel Shape. *** Depends on the choice of Primary Measuring Device. **** Displays only if a Service Ratio algorithm is selected for Relay Function. A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 297...
Page 308 Page 298 HydroRanger 200 HMI - OPERATING INSTRUCTIONS A5E36281317...
Page 309: Index
Rate of Change 66 Charts relay status navigation view 67 approvals and certificates 8 technical data 235 characterization 77 temperature 66 typical flow 112 wiring test, logic test 68 common problems 219 A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 299...
Page 310 121 panel mount 15 outputs 235 cutout 14 overview 7 wall mount 11 pump by rate 89 measurement conditions 64 Quick Start Wizards 38 – OCM 100 scanning 243 Page 300 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 311 First In First Out. See Pumps, Relays. Head 72 Fixed Duty Assist. See Pumps, Relays. LCD display 30 Fixed Duty Backup. See Pumps, Relays. parameters Auto Zero Head 181 Flow Current Output Function 136 application example 59 A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 301...
Page 312 Quick Start 37 – Memory 234 system synchronization 23 Modbus® temperature sensor 22 Application Guide 258 LOE Timer. See Fail-safe. communications 7 Long shots. See also Frequency, Duration. technical data 235 Page 302 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 313 107 types head level 72 default 70 Mantissa 159 global 70 multiplier 158 Read only 70 OCM Dimension parameters 186 reset 71 point data 261 writing 265 range extension 130 A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 303...
Page 314 29 algorithms 83 fail-safe pump control options 248 adjusting individual relays 70 pump down group 83 general introduction 65 pump groups 248 index 36 pumped volume 76 Page 304 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 315 89 Response Rate 64 Quick Start Wizards 38 – liquid splashing, troubleshooting 230 scanning 243 parameter 131 sensor mode 61 Quick Start Wizards 40 SmartLinx® technical reference 246 A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 305...
Page 316 241 error 234 Echomax and ST-H 22 fixed 39 fixed reading 229 LCD display 31 frequency 236 Modbus register map 260 ignoring bad echo 229 mounting. See also Mounting. 10 Page 306 HydroRanger 200 HMI – OPERATING INSTRUCTIONS A5E36281317...
Page 317 67 numeric values 268 transducers 197 OCM. See also OCM. 98 wiring to a modem 273 parameters breakpoints (Table 1-8) 143 – Current Output Function 136 Default Auxiliary Reading 179 A5E36281317 HydroRanger 200 HMI – OPERATING INSTRUCTIONS Page 307...
Page 318 For more information www.siemens.com/level www.siemens.com/weighing Siemens Canada Limited 1954 Technology Drive P.O. Box 4225 Printed in Canada Peterborough, ON Subject to change without prior notice Canada K9J 7B1 A5E36281317 Rev. AA email: techpubs.smpi@siemens.com © Siemens AG 2015 www.siemens.com/processautomation...

Siemens HydroRanger 200 HMI Operating Instructions Manual

Introduction

Safety Notes

Description

Installing and Mounting

Connecting

Commissioning

General Operation

Single-Point Models

Dual-Point Models

Relays

Backup Level Override

Discrete Inputs

Ma I/O

Volume

Alarms

Pump Control

Rake (Screen) Control

External Totalizers and Flow Samplers

Open Channel Monitoring (OCM)

Configuration Testing

Parameters

Service and Maintenance

Troubleshooting

Technical Data

Appendix A: Technical Reference

Appendix B: Pump Control Reference

Appendix C: Communications

Communications Installation

SIMATIC Process Device Manager (PDM)

Modbus Register Map

Data Types

Error Handling

Single Parameter Access (SPA)

Appendix D: Updating Software

Appendix E: Upgrading

Appendix F: Conduit Entry for Class I, DIV 2 Applications

Programming Chart

LCD Menu Structure

Index

Quick Links

Troubleshooting

Related Manuals for Siemens HydroRanger 200 HMI

Summary of Contents for Siemens HydroRanger 200 HMI