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Siemens 7MH7701-0AA00-0A Operating Instructions Manual

Motion sensors
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SITRANS WM300 MFA
SITRANS
Motion Sensors
SITRANS WM300 MFA
Operating Instructions
7MH7701-0AA00-0A (WM300 MFA)
11/2021
A5E45090709-AC
Introduction
SITRANS WM300 MFA
Overview
Installing/mounting
Connecting
Service and maintenance
Parameter assignment
Troubleshooting
Technical specifications
Dimension drawings
Technical Reference
Applications
Product documentation and
support
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Summary of Contents for Siemens 7MH7701-0AA00-0A

  • Page 1 SITRANS WM300 MFA Introduction SITRANS WM300 MFA Overview SITRANS Installing/mounting Connecting Motion Sensors SITRANS WM300 MFA Service and maintenance Parameter assignment Operating Instructions Troubleshooting Technical specifications Dimension drawings Technical Reference Applications Product documentation and support 7MH7701-0AA00-0A (WM300 MFA) 11/2021 A5E45090709-AC...
  • Page 2 Note the following: WARNING Siemens products may only be used for the applications described in the catalog and in the relevant technical documentation. If products and components from other manufacturers are used, these must be recommended or approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and maintenance are required to ensure that the products operate safely and without any problems.

  • Page 3: Table Of Contents

    Table of contents Introduction ............................6 Purpose of this documentation .................... 6 Document history ........................ 6 FW revision history ......................6 Checking the consignment ....................7 Unit repair and excluded liability ..................7 SITRANS WM300 MFA Overview ......................8 Installing/mounting ..........................9 Safety Note ..........................
  • Page 4 Table of contents Parameter assignment ........................26 Menu structure ........................26 Motion failure alarm ......................27 Startup delay ........................29 6.3.1 Start up delay (P001) ......................29 6.3.2 Start up delay (P002) ......................30 Alarm delay ........................31 6.4.1 Alarm delay (P003) ......................31 6.4.2 Alarm delay (P004) ......................
  • Page 5 Table of contents Dimension drawings ..........................54 SITRANS WM300 MFA dimensions ..................54 High Temperature Probe MSP-3..................56 Stainless Steel Probe MSP-9 ....................57 Standard Probe MSP-12 and MSP-7 ..................58 Hazardous Locations XPP-5 ....................59 Technical Reference ..........................60 Principles of Operation .......................

  • Page 6: Introduction

    Introduction Purpose of this documentation These instructions are a brief summary of important features, functions and safety information, and contain all information required for safe use of the device. Read the instructions carefully prior to installation and commissioning. In order to use the device correctly, first review its principle of operation.

  • Page 7: Checking The Consignment

    • Devices/replacement parts should be returned in their original packaging. • If the original packaging is no longer available, ensure that all shipments are properly packaged to provide sufficient protection during transport. Siemens cannot assume liability for any costs associated with transportation damages.

  • Page 8: Sitrans Wm300 Mfa Overview

    SITRANS WM300 MFA Overview SITRANS WM300 MFA is a highly sensitive, dual setpoint motion sensor alarm unit, used with MSP and XPP probes. The probe detects an increase or decrease in the speed of rotating, reciprocating, or conveying equipment and sends the information to the SITRANS WM300 MFA.

  • Page 9: Installing/Mounting

    Installing/mounting Safety Note Note Installation shall only be performed by qualified personnel and in accordance with local governing regulations. Location Requirements The SITRANS WM300 MFA (and RMA or NCT and power supply converter if applicable) must be mounted in a non-hazardous area that is clean, dry, vibration-free, within the ambient temperature range, and non-corrosive to the electronics or its enclosure.

  • Page 10: Proper Mounting

    Installing/mounting 3.3 Proper Mounting Note Do not mount SITRANS WM300 MFA in direct sunlight. The SITRANS WM300 MFA can be DIN or wall mounted. In a stand-alone enclosure or panel arrangement, the device can use a power transformer to take AC to DC voltage. An additional NCT analog output module is necessary to be integrated into the SITRANS WM300 MFA bus connection and additional RMA depending on the application requirements.

  • Page 11: Mounting Details

    Installing/mounting 3.4 Mounting Details Mounting Details To mount the SITRANS WM300 MFA or other components, slide the DIN rail mounting clips outside of the enclosure and to the mounting holes. ① Mounting slide SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...
  • Page 12 Installing/mounting 3.4 Mounting Details For wall mounting slide the tabs out and mount to the wall/post with M4 screws. ① Mounting slide SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...
  • Page 13 Installing/mounting 3.4 Mounting Details MSP-3, MSP-7, MSP-12, XPP-5 Mounting Details Dimensions in mm (inch) ① 95 (3.75) ∅ probe clearance hole ② 6 (0.25) ∅ hole for ¼ - 20 nut and bolt or drill and tap, four holes on 114 (4.5) BCD ③...

  • Page 14: Wiring

    Installing/mounting 3.5 Wiring Wiring Where possible, the probe components should be interconnected via flexible conduit. This allows for easier removal or adjustment of the probe and mounting flange assembly. SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...
  • Page 15 Installing/mounting 3.5 Wiring SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...
  • Page 16 Installing/mounting 3.5 Wiring Note RMA not required for use with MSP-7. Proper switch selection must be made to ensure correct signal conditioning. Improper switch selection may damage the device. SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...

  • Page 17: Connecting

    Connecting Interconnection Note Use shielded cable and connect all cable shields to the MFA shield terminals to avoid differential ground loops. 4.1.1 MSP-3 or MSP-9 Probe with RMA (remote mounted amplifier) • RMA selector switch to the right • Maximum cable length from probe to RMA is 30 m/100 ft of shielded cable, 18 ga. wire. •...

  • Page 18: Msp-12 Probe With Rma (Internally Mounted Pre-Amplifier)

    Connecting 4.1 Interconnection 4.1.2 MSP-12 Probe with RMA (internally mounted pre-amplifier) • RMA selector switch to the left. • Wire can be run in conduit common to motor supply or control wiring. Connection to probe terminals can be made under probe cap. See cable lengths (Page 21)for maximum separation from probe to RMA.

  • Page 19: Xpp-5 With Rma (Internally Mounted Pre-Amplifier)

    Connecting 4.1 Interconnection 4.1.3 XPP-5 with RMA (internally mounted pre-amplifier) • RMA selector switch to the left. • XPP-5 cable must be run in dedicated, approved metal conduit, boxes and fittings and to procedures in accordance with all governing regulations. See Cable length from RMA or IMA to WM300 MFA (Page 21) for cable lengths from probe at SITRANS WM300 MFA.

  • Page 20: Msp-7 With Ima (Internally Mounted Pre-Amplifier)

    Connecting 4.1 Interconnection 4.1.4 MSP-7 with IMA (internally mounted pre-amplifier) Wire can be run in conduit. Connection to probe terminals can be made under probe cap. See cable lengths (Page 21) for maximum separation from probe to SITRANS WM300 MFA. WARNING Unsuitable cables, cable glands and/or plugs Risk of explosion in hazardous areas.

  • Page 21: Cable Length From Rma Or Ima To Wm300 Mfa

    Connecting 4.1 Interconnection 4.1.5 Cable length from RMA or IMA to WM300 MFA Wire gauge Length in feet Length in meters 22 AWG (0.34 mm 2 500 18 AWG (0.75 mm 5 000 1 520 12 AWG (4 mm 25 000 7 600 SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...

  • Page 22: Interconnection Diagram For Xpp-5

    Connecting 4.1 Interconnection 4.1.6 Interconnection Diagram for XPP-5 SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...

  • Page 23: Connection To Power

    Connecting 4.2 Connection to Power Connection to Power A standard LOGO! power module can be used to convert AC to DC power. If 24VDC power is already available in the installation cabinet, connect it directly to the SITRANS WM300 MFA. Typical LOGO! power module SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...
  • Page 24 Connecting 4.2 Connection to Power • All field wiring shall have insulation suitable for the highest applied input or relay voltage (whichever is greater). • Relay contact terminals are for use with equipment that has no accessible live parts and wiring that has insulation suitable for at least 250 V.

  • Page 25: Service And Maintenance

    Service and maintenance Setup Introduction display: Note Cursor keys duplicate function keys; however, the “Esc” key must also be pressed to activate the cursor keys. Function keys Navigate display backward Increment count values or enable/disable functions Decrement count values Navigate display forward 5.1.1 Calibration The probe and pre-amplifier require no calibration.

  • Page 26: Parameter Assignment

    Parameter assignment Menu structure SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...

  • Page 27: Motion Failure Alarm

    Parameter assignment 6.2 Motion failure alarm Motion failure alarm The table below is a detailed chart of the inputs on the SITRANS WM300 MFA for all functions. Details include the slow speed and standard speed applications with their corresponding outputs. Input Probe Start DLY...
  • Page 28 Parameter assignment 6.2 Motion failure alarm Setup of the SITRANS WM300 MFA using the HMI of the device and four button keys. Input Requirements Input I1 – activates a “Reset” of all outputs after an alarm. Input l1 can be used in the two applications listed below: •...

  • Page 29: Startup Delay

    Parameter assignment 6.3 Startup delay Startup delay 6.3.1 Start up delay (P001) For relay outputs Q1 and Q3 from probe A input, Input 2 must have an enable function. Note Typically used for a slow speed process, but also compatible with standard operating functions.

  • Page 30: Start Up Delay (P002)

    Parameter assignment 6.3 Startup delay 6.3.2 Start up delay (P002) For relay outputs Q2 and Q4 from probe B input, input 2 must have an enable function Note Typically used for a slow speed process, but also compatible with standard operating functions.

  • Page 31: Alarm Delay

    Parameter assignment 6.4 Alarm delay Alarm delay 6.4.1 Alarm delay (P003) For relay alarm delay (P003) outputs Q1 and Q3 from probe A input. Note Once an alarm delay is programmed, no input is required to activate. Enter a relay output delay in seconds (0-399). The delay avoids false alarms in conditions which can go in and out of desired range setpoint frequently.

  • Page 32: Alarm Delay (P004)

    Parameter assignment 6.4 Alarm delay 6.4.2 Alarm delay (P004) For relay, alarm delay (P004) outputs Q2 and Q4 from probe B input. Note Once an alarm delay is programmed, no input is required to activate. Enter a relay output delay in seconds (0-399). The delay avoids false alarms in conditions which can go in and out of desired range setpoint frequently.

  • Page 33: Slow Speed

    Parameter assignment 6.5 Slow speed Slow speed 6.5.1 Slow speed (P005) Note Slow speed monitoring function, does not allow NCT or DSD functionality. Enable for slow speed process monitoring. Disable for standard speed monitoring. Functionality can be enabled from this screen. Pressing the F2 or Esc key and ▲ cursor key together will enable or disable this feature set.

  • Page 34: Slow Speed (P010)

    Parameter assignment 6.5 Slow speed 6.5.2 Slow speed (P010) For relay output Q3. Under speed setpoint indicates when the process speed of the target device has decreased below a safe working speed/rotation. Enter the number of seconds between pulses in an under speed situation.

  • Page 35: Slow Speed (P011)

    Parameter assignment 6.5 Slow speed 6.5.3 Slow speed (P011) For relay output Q1 Over speed setpoint indicates when the process speed of the target device has increased past a safe working speed/rotation within the process. Enter the number of seconds between pulses in an over speed situation.

  • Page 36: Slow Speed (P012)

    Parameter assignment 6.5 Slow speed 6.5.4 Slow speed (P012) For relay output Q4 Under speed setpoint indicates when the process speed of the target device has decreased below a safe working speed/rotation. Enter the number of seconds between pulses in an under speed situation.

  • Page 37: Slow Speed (P013)

    Parameter assignment 6.5 Slow speed 6.5.5 Slow speed (P013) For relay output Q2 Over speed setpoint shall indicate when the process speed of the target device has increased past a safe working speed/rotation within the process. Enter the number of seconds between pulses in an under speed situation.

  • Page 38: Process Variable Overview Display

    Parameter assignment 6.5 Slow speed 6.5.6 Process variable overview display Note Overview display alternates between input I3 and input I4 configured in programming and cannot be changed to a display - only one channel. Previous time period in seconds between the last pulse and the previous pulse. This can be used as a guide to understand timing between pulses at any time in the process.

  • Page 39: Standard Version Motion Failure Alarm

    Parameter assignment 6.5 Slow speed 6.5.7 Standard version motion failure alarm 6.5.7.1 Standard speed (P020 - P021) For relay output Q1. Probe A under speed setpoint (P020) for relay output Q1. Enter the frequency between pulses in an under speed situation. Probe A over speed setpoint (P021). Enter the frequency between pulses in an over speed situation.

  • Page 40: Standard Speed (P022 - P023)

    Parameter assignment 6.5 Slow speed 6.5.7.2 Standard speed (P022 - P023) For relay output Q2 Probe B under speed setpoint (P022) for relay output Q2. Enter the frequency between pulses in an under speed situation. Probe B over speed setpoint (P023) for relay output Q2. Enter the frequency between pulses in an over speed situation.

  • Page 41: 6.6 Tachometer Function

    Parameter assignment 6.6 Tachometer Function Tachometer Function 6.6.1 Tachometer Function (P031 - P032) Note Only set this value if the Non-Contact Tachometer Function will be enabled. The non-contact tachometer (analog output AQ1 and AQ2) function is for the standard operating mode of the SITRANS WM300 MFA only. The setpoint default for non-contact tachometer is set to a minimum of 16 Hz (4 to 20 mA);...

  • Page 42: Non-Contacting Tachometer (P030)

    Parameter assignment 6.6 Tachometer Function 6.6.2 Non-contacting tachometer (P030) NCT function, provides a mA output based on speed for probe A and B. Enable for NCT use, disable for standard speed monitoring. The non-contact tachometer functionality can be enabled or disabled from this display. Pressing the F2 or Esc Key &...

  • Page 43: Differential Speed Detection

    Parameter assignment 6.7 Differential speed detection Differential speed detection 6.7.1 Differential speed detection (P040) Differential Speed Detection (DSD) function, provides a relay output based on differential comparison between probes A and C, B and D. Enable for DSD use, disable for standard speed monitoring.

  • Page 44: Maximum Frequency Setpoint (P041 - P042)

    Parameter assignment 6.7 Differential speed detection 6.7.2 Maximum frequency setpoint (P041 - P042) Probe C maximum frequency (P041) for comparison to probe A. Enter the maximum frequency between pulses for probe C. Input I5 is the second frequency input (motion failure sensor) with respect to Input I3, applied to the same mechanical equipment being monitored.
  • Page 45 Parameter assignment 6.7 Differential speed detection • P042: xxx Hz Note In the event both sensors do not monitor the same frequency, the maximum frequency setpoints can be different. The programming calculates the setpoint difference in percentage (%). SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...

  • Page 46: Differential Alarm Setpoints (P043 - P044)

    Parameter assignment 6.7 Differential speed detection 6.7.3 Differential alarm setpoints (P043 - P044) Differential alarm setpoint displays (Inputs I3 DSD alarm setpoint A and C (P043) and I5) For relay output Q3. Enter the percentage difference between frequency of probe A and probe C for relay output.

  • Page 47: Operator Display

    Parameter assignment 6.7 Differential speed detection 6.7.4 Operator display Note Only one of these displays will be active, each display selected is based on which functions have been Enabled. Tachometer function disabled differential Tachometer function enabled differential speed disabled speed disabled Tachometer function enabled differential speed display SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...
  • Page 48 Parameter assignment 6.7 Differential speed detection Tachometer function enabled differential speed enabled Note When the non-contact tachometer and the differential speed functions enabled, the display alternates between the over/under speed alarm and non-contact tachometer screens. SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...

  • Page 49: Troubleshooting

    Troubleshooting Troubleshooting Operator display screen after power failure or power cycle Following the commissioning of the SITRANS WM300 MFA, the final display is the overview of the relay status and process variables. The F4 key or equivalent is pressed, the device will reset back to the initial start-up display.

  • Page 50: Technical Specifications

    Technical specifications Note Device specifications Siemens makes every attempt to ensure the accuracy of these specifications but reserves the right to change them at any time. Safety Note Note Always use product in accordance with specifications. Power • 10.8 ... 28.8 V DC, 25 ... 165 mA •...

  • Page 51: Inputs

    Technical specifications 8.4 Inputs Inputs Input voltage: Signal 0: < 5VDC Signal 1: > 12 VDC Input Current Signal 0: < 0.9mA (I3 ... I6) < 0.07 mA [I1, I2, I7 (n/a), I8 n/a)] Signal 1: > 2.1 mA (I3 ... I6) >...

  • Page 52: Performance

    Technical specifications 8.5 Performance Performance Repeatability • ± 1 % Temperature coefficient (setpoint variance) • 0.018 %/°C (0.01 %/°F) Setpoint adjustment range • Standard mode: 2 ... 5 000 Hz (120 ... 300 000 ppm) • Slow speed mode: 2 ... 400 seconds (30 ... 0.15 ppm) SITRANS WM300 standard mode •...

  • Page 53: Design

    Technical specifications 8.6 Design Design • Polycarbonate construction: 0.2 kg (0.44 lb) Note For use in outdoor applications, device must be installed in a suitable NEMA/IP rated enclosure. Approvals • CE, UKCA, , FM, EAC, RCM, KC • EMC performance available on request Operating Conditions Location Indoor/outdoor...

  • Page 54: Dimension Drawings

    Dimension drawings SITRANS WM300 MFA dimensions Dimensions in mm (inch) ① Bus port cover (remove for NCT module integration) SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...
  • Page 55 Dimension drawings 9.1 SITRANS WM300 MFA dimensions Dimensions in mm (inch) Note • Non-metallic enclosure does not provide grounding between conduit connections: use grounding type bushings and jumpers. • Use only approved, suitable size hubs for watertight application. SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...

  • Page 56: High Temperature Probe Msp-3

    Dimension drawings 9.2 High Temperature Probe MSP-3 High Temperature Probe MSP-3 Dimensions in mm (inch) ① 2" NPSL ② Mounting flange ③ Locknut ④ Probe body ⑤ Gasket ⑥ Cap c/w 1/2" NPT conduit entrance • Cast aluminum body comes with cast aluminum cap and zinc flange, zinc plated locknut, and silicone rubber gasket.

  • Page 57: Stainless Steel Probe Msp-9

    Dimension drawings 9.3 Stainless Steel Probe MSP-9 Stainless Steel Probe MSP-9 Dimensions in mm (inch) ① Gasket ② Cap c/w 0.875∅ holes (22 mm) • Stainless steel body and mounting flange SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...

  • Page 58: Standard Probe Msp-12 And Msp-7

    Dimension drawings 9.4 Standard Probe MSP-12 and MSP-7 Standard Probe MSP-12 and MSP-7 Dimensions in mm (inch) ① 2" NPSL ② Mounting flange ③ Locknut ④ Probe body ⑤ Gasket ⑥ Cap c/w ½" NPT conduit entrance • Aluminum body comes with die-cast aluminum cap and zinc flange, zinc plated locknut, and neoprene gasket.

  • Page 59: Hazardous Locations Xpp-5

    Dimension drawings 9.5 Hazardous Locations XPP-5 Hazardous Locations XPP-5 Dimensions in mm (inch) ① 2 conductor shielded cable ② ¾" NPT ③ Nameplate ④ 171.5 (6.75) nominal ⑤ Mounting flange ⑥ Locknut ⑦ 2" NSPL ⑧ Probe body (potted aluminum housing) ⑨...

  • Page 60: Technical Reference

    Technical Reference Principles of Operation SITRANS WM300 MFA SITRANS WM300 MFA is a highly sensitive, dual setpoint motion sensor alarm unit, used with MSP and XPP probes. The probe detects an increase or decrease in the speed of rotating, reciprocating, or conveying equipment and sends the information to the SITRANS WM300 MFA.
  • Page 61 Technical Reference A.1 Principles of Operation The relationship between speed and gap of a standard probe ① Fig. a ② Fig. b ③ Fig. c The resultant line indicates the threshold tolerance of the accompanying SITRANS WM300 MFA electronics. For example, in Fig. a, a 100 mm (4 inch) gap requires a minimum velocity of about 10 m/minute (35 ft/minute): with a velocity of 0.61 m/minute (2 ft/minute), a maximum gap of 31 mm (1.25 inch) is possible.
  • Page 62 Technical Reference A.1 Principles of Operation The graph was plotted from tests using four ferrous blocks set equidistantly on a 406 mm (16 inch) diameter circle on a non-ferrous disc. The physical shape of the ferrous target generally becomes important at low velocities or large gaps.
  • Page 63 Technical Reference A.1 Principles of Operation SITRANS WM300 MFA Operation The SITRANS WM300 MFA provides a short circuit protected, +24 V DC unregulated supply to the preamp. The rate at which the pulses are received by the SITRANS WM300 MFA is compared to a setpoint reference signal from the setpoint programmed.

  • Page 64: Applications

    Applications Bucket Elevators Dimensions in mm (inch) SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...

  • Page 65: Bucket Elevator

    Applications B.2 Bucket Elevator Figure A Dimensions in mm (inch) Bucket Elevator SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...

  • Page 66: Shafts

    Applications B.3 Shafts Shafts Dimensions in mm (inch) ① Probe ② Probe ③ Key and keyway ④ Shaft 102 (4) ∅ min. ⑤ Added paddle ⑥ Shaft These methods are viable if the speed is such that the blades or key will provide the number of pulses required at a minimum velocity of 1.5 m/minute (5 ft/minute).

  • Page 67: Rotating Shaft Of Rotary Feeder

    Applications B.4 Rotating Shaft of Rotary Feeder Rotating Shaft of Rotary Feeder Drive Sprocket on Rotary Feeder SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...

  • Page 68: Belt Conveyors

    Applications B.6 Belt Conveyors Belt Conveyors Dimensions in mm (inch) ① 50 x 50 x 25 (2 x 2 x 1) ferrous blocks or spoked wheel ② Probe Potential for damage in each application governs the minimum gap allowable. Maximum gap for operation is 102 mm (4 inch), optimum 25 to 50 mm (1 to 2 inch).

  • Page 69: Screw Conveyor Flights

    Applications B.8 Screw Conveyor Flights Screw Conveyor Flights End Bearing on Screw Conveyor SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...

  • Page 70: Non-Ferrous Window

    Applications B.10 Non-ferrous Window B.10 Non-ferrous Window Dimensions in mm (inch) ① 64 (3.5) ∅ clearance hole ② 6 (0.25) ∅ clearance, 4 holes ③ Conveyor housing ④ Probe and mounting flange ⑤ Bracket ⑥ Weld ⑦ Base plate ⑧ Window For screw conveyor with trough over 3.1 mm (0.125 inch) thick or for high temperature applications.

  • Page 71: Product Documentation And Support

    Entering a serial number 1. Open the PIA Life Cycle Portal (https://www.pia-portal.automation.siemens.com). 2. Select the desired language. 3. Enter the serial number of your device. The product documentation relevant for your device is displayed and can be downloaded.

  • Page 72: Technical Support

    In addition to our technical support, Siemens offers comprehensive online services at Service & Support (http://www.siemens.com/automation/serviceandsupport). Contact If you have further questions about the device, contact your local Siemens representative at Personal Contact (http://www.automation.siemens.com/partner). To find the contact for your product, go to "all products and branches" and select "Products &...

  • Page 73: Index

    Index XPP-5, 59 Document history, 6 Downloads, 71 Ambient temperature range, 53 Drive sprocket on rotary feeder, 67 Applications Dynamic range, 52 belt conveyors, 68 bucket elevator, 65 drive sprocket on rotary feeder, 67 End bearing on screw conveyor, 69 end bearing on screw conveyor, 69 non-ferrous window, 70 rotating shaft of rotary feeder, 67...
  • Page 74 Index MSP-12 standard probe Repeatability, 52 dimensions, 58 Resistive rating, 50 interconnection, 18, 20 Rotating shaft of rotary feeder, 67 mounting details, 13 MSP-3 high temperature probe dimensions, 56 Scope of delivery, 7 interconnection, 17 Screw conveyor flights, 69 mounting details, 13 Screw conveyors, 68 MSP-9 stainless steel probe Service, 72...
  • Page 75 Index XPP-5 dimensions, 59 interconnection, 19 interconnection diagram, 22 mounting details, 13 SITRANS WM300 MFA Operating Instructions, 11/2021, A5E45090709-AC...

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