IMI SENSORS Y685B0001A13 Installation And Operating Manual

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Model Y685B0001A13

Electronic Vibration Switch

Installation and Operating Manual

For assistance with the operation of this product,

contact PCB Piezotronics, Inc.

Toll-free: 800-959-4464

24-hour SensorLine: 716-684-0001

Fax: 716-684-3823

E-mail: imi@pcb.com

Web: www.imi-sensors.com

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Service, Repair, and Return Policies and Instructions

The information contained in this document supersedes all similar information that may be found elsewhere in this manual.

Service – Due to the sophisticated nature of the sensors and associated instrumentation provided by PCB Piezotronics, user servicing or repair is not recommended and, if attempted, may void the factory warranty. Routine maintenance, such as the cleaning of electrical connectors, housings, and mounting surfaces with solutions and techniques that will not harm the physical material of construction, is acceptable. Caution should be observed to ensure that liquids are not permitted to migrate into devices that are not hermetically sealed. Such devices should only be wiped with a dampened cloth and never submerged or have liquids poured upon them.

Repair – In the event that equipment becomes damaged or ceases to operate, arrangements should be made to return the equipment to PCB Piezotronics for repair. User servicing or repair is not recommended and, if attempted, may void the factory warranty.

Calibration – Routine calibration of sensors and associated instrumentation is recommended as this helps build confidence in measurement accuracy and acquired data. Equipment calibration cycles are typically established by the users own quality regimen. When in doubt about a calibration cycle, a good “rule of thumb” is to recalibrate on an annual basis. It is

also good practice to recalibrate after exposure to any severe temperature extreme, shock, load, or other environmental influence, or prior to any critical test.

PCB Piezotronics maintains an ISO9001 certified metrology laboratory and offers calibration services, which are accredited by A2LA to ISO/IEC 17025, with full traceability to SI through N.I.S.T. In addition to the normally supplied calibration, special testing is also available, such as: sensitivity at elevated or cryogenic temperatures, phase response, extended high or low frequency response, extended range, leak testing, hydrostatic pressure testing, and others. For information on standard recalibration services or special testing, contact your local PCB Piezotronics distributor, sales representative, or factory customer service representative.

Returning Equipment – Following these procedures will ensure that your returned materials are handled in the most expedient manner. Before

returning any equipment to PCB Piezotronics, contact your local distributor, sales representative, or factory customer service representative to obtain a Return Warranty, Service,

Repair, and Return Policies and Instructions Materials Authorization

(RMA) Number. This RMA number should be clearly marked on the outside of all package(s) and on the packing

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list(s) accompanying the shipment. A detailed account of the nature of the problem(s) being experienced with the equipment should also be included inside the package(s) containing any returned materials.

A Purchase Order, included with the returned materials, will expedite the turn-around of serviced equipment. It is recommended to include authorization on the Purchase Order for PCB to proceed with any repairs, as long as they do not exceed 50% of the replacement cost of the returned item(s). PCB will provide a price quotation or replacement recommendation for any item whose repair costs would exceed 50% of replacement cost, or any item that is not economically feasible to repair. For routine calibration services, the Purchase Order should include authorization to proceed and return at current pricing, which can be obtained from a factory customer service representative.

Contact Information – International customers should direct all inquiries to their local distributor or sales office. A

complete list of distributors and offices can be found at www.pcb.com. Customers within the United States may contact their local sales representative or a factory customer service representative. A complete list of sales representatives can be found at www.pcb.com. Toll-free telephone numbers for a factory customer service representative, in the division responsible for this product, can be found on the title page at the front of this manual. Our ship to address and general contact numbers are:

PCB Piezotronics, Inc. 3425 Walden Ave. Depew, NY14043 USA Toll-free: (800) 828-8840 24-hour SensorLineSM: (716) 684-0001 Website: www.pcb.com

E-mail: info@pcb.com

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PCB工业监视和测量设备 - 中国RoHS2公布表

PCB Industrial Monitoring and Measuring Equipment - China RoHS 2 Disclosure Table

部件名称

有害物质

铅 (Pb)

汞 (Hg)

镉 (Cd)

六价铬 (Cr(VI))

多溴联苯 (PBB)

多溴二苯醚 (PBDE)

住房

O O O

PCB板

X O O

O O O

电气连接器

O O O

压电晶体

X O O

O O O

环氧

O O O

铁氟龙

O O O

电子

O O O

厚膜基板

O O X

O O O

电线

O O O

电缆

X O O

O O O

塑料

O O O

焊接

X O O

O O O

铜合金/黄铜

X O O

O O O

本表格依据 SJ/T 11364 的规定编制。

O：表示该有害物质在该部件所有均质材料中的含量均在 GB/T 26572 规定的限量要求以下。

X：表示该有害物质至少在该部件的某一均质材料中的含量超出 GB/T 26572 规定的限量要求。铅是欧洲RoHS指令2011/65/ EU附件三和附件四目前由于允许的豁免。

CHINA RoHS COMPLIANCE

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Component Name

Hazardous Substances

Lead (Pb)

Mercury (Hg)

Cadmium (Cd)

Chromium VI Compounds (Cr(VI))

Polybrominated Biphenyls (PBB)

Polybrominated Diphenyl Ethers (PBDE)

Housing O O O O O O

PCB Board

X O O O O

Electrical Connectors

O O O O O

Piezoelectric Crystals

X O O O O

Epoxy O O O O O O

Teflon O O O O O O

Electronics

O O O O O

Thick Film Substrate

O O X O O

Wires O O O O O O

Cables X O O O O O

Plastic O O O O O O

Solder X O O O O O

Copper Alloy/Brass

X O O O O

This table is prepared in accordance with the provisions of SJ/T 11364.

O: Indicates that said hazardous substance contained in all of the homogeneous materials for this part is below the limit requirement of GB/T 26572.

X: Indicates that said hazardous substance contained in at least one of the homogeneous materials for this part is above the limit requirement of GB/T 26572. Lead is present due to allowed exemption in Annex III or Annex IV of the European RoHS Directive 2011/65/EU.

DOCUMENT NUMBER: 21354 DOCUMENT REVISION: D ECN: 46162

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SENSORS AND INSTRUMENTATION FOR MACHINE CONDITION MONITORING

Series 685B Electronic Vibration Switch

Operating Guide with Enclosed Warranty Information

3425 Walden Avenue, Depew, New York 14043-2495 Phone (716) 684-0003 Fax (716) 684-3823 Toll Free Line 1-800-959-4IMI

MANUAL NUMBER: 34181 MANUAL REVISION: F ECO# 46256

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SENSORS AND INSTRUMENTATION FOR MACHINE CONDITION MONITORING

Table of Contents

Introduction ...................................................................................................................... Page 3

General Features

Specifications .................................................................................................................. Page 4

Installation and Wiring ..................................................................................................... Page 5

Installation & Dimensional Drawings Connector & Pinout Diagram- Triac Models Connector & Pinout Diagram- Relay Models

Configuring the 685B ...................................................................................................... Page 11

Internal Diagram- Triac Models Internal Diagram- Relay Models Using Calibration Mode Connecting the Remote Reset Connecting the Raw Vibration Output

Optional Accessories ...................................................................................................... Page 14

080A209 Adapter Plate 699A05 Portable 4-20 mA Calibrator

ESD Sensitivity ............................................................................................................... Page 16

Ordering Information/ Model Matrix ................................................................................ Page 17

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SENSORS AND INSTRUMENTATION FOR MACHINE CONDITION MONITORING

Introduction

The Model 685B is an Electronic Vibration Switch designed to monitor vibration levels and trip an alert when a specified limit is exceeded. A second onboard relay trips an alarm that can be used to shut down a piece of equipment or act as a secondary alert level. An onboard accelerometer with precision electronics insures reliability and accuracy.

General Features

 Imbedded Piezoelectric Accelerometer for improved accuracy and frequency response.  Vibration range can be measured in Acceleration, Velocity, or Displacement (factory set).  Provides Dual 5 Amp Triac (SPST) or 10 Amp Form C (SPDT) relay outputs.  Adjustable trip limits and time delay via single turn potentiometers.  Accommodates normally open (NO) and normally closed (NC) wiring schemes.  Continuous or latching switch action.  Local reset button and remote reset capability.  LED indicators for Power, Alert, and Alarm.  Screw terminal blocks for easy wiring.  Mounts directly to the equipment being monitored via four bolt pattern  Flexible design allows for various custom requirements.  4-20 mA field calibration feature for improved accuracy  Raw vibration output & 4-20 mA output standard

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SENSORS AND INSTRUMENTATION FOR MACHINE CONDITION MONITORING

Specifications

 Power Supply Voltage: …… 85-240 VAC, 12-30 VDC (factory set)  Power Supply Current: …… 150 mA max  Sensor Type: …… Piezoelectric Sensing Element  Standard Vibration Ranges: …… 0-5g’s-pk; 0-1.5ips-pk, 0-3ips-pk, 0-50 mils pk to pk* (factory set)  Frequency Response +/-3dB: …… 2Hz to 1Khz (120 – 60,000cpm)  Turn on Time Delay: …… 20 seconds  Alert/ Alarm Time Delay: …… 0- 45 seconds  Alert/ Alarm function Select: …… Latch or Continuous  Alert/ Alarm Switches: …… 5A/245Vac Triac (SPST) or 10A/245Vac – 5A/30Vdc Form C Relay (SPDT)  Operating Temperature Range: …… -22 to 158°F (-30 to 70°C)  Storage Temperature Range: …… -40 to 257°F (-40 to 125°C)  Relative Humidity: .….. Nema 4X Rating  Case Dimension W x H x D: …… 3.5 x 2.8 x 3.5in. (90 x 70 x 90mm)  Weight: …… 1.85 lbs. (839 grams)  Case Material: …… Aluminum Alloy  Input/Output Electrical Connectors: …… Screw Terminals  Screw Terminal Wire Size: …… 24-14 AWG (0.2-2.5 mm2)  Wiring Interface: …… Cord Grips (wire comp. dia. 0.2”- 0.35”) or ½” NPT Conduit Hubs  Mounting Hole Size: …… 0.21 inches  Mounting Screw Torque: …… 2- 5 ft. lbs. (3-7Nm)  LED Indicators:

Power: - Green Alarm: - Red Alert: - Yellow

 Alert/ Alarm Setpoint: …… Single Turn Potentiometer (10-100% Full Scale Range)  Reset Function: …… Momentary Pushbutton Switch and/or Remote to Common.

*Consult factory for additional vibration ranges

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SENSORS AND INSTRUMENTATION FOR MACHINE CONDITION MONITORING

Installation and Wiring

Installation

The 685B series is designed to be mounted directly on the equipment to be monitored using a four-bolt pattern. There are also options to retrofit existing 3 bolt pattern installations. (Model 080A209 mounting plate requiredsee optional accessories on page 13). Use grease between all surfaces to insure specified frequency response, otherwise performance will be degraded. The axis of vibration measured by models with internal accelerometers is perpendicular to the mounting orientation of the unit.

Standard Model Dimension Drawing with Cord Grips

Inch (mm)

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Standard Model Dimension Drawing with ½” NPT Conduit Hubs

Inch (mm)

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Explosion Proof Model Dimension Drawing

WARNING

AC and DC input signals and power supply voltages could be hazardous. DO NOT

connect live wires to screw terminal plugs, and DO NOT insert, remove, or handle screw

terminal plugs with live wires connected.

Inch (mm)

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Connector and Pinout Diagram

The 685B uses screw terminal connectors for all input and output connections.

Strip off 0.3” (8mm) of insulation from the connection wire ends. Feed the wire through the access ports, and

terminate the wire in the correct location. Once connected, tug lightly on the wire to confirm connection is secure.

Pin Location Diagram- Triac Models

Pin Descriptions:

AC Power – Pins 1 to 3: 1 +Power

2 -Power/Common 3 Earth Ground –(also connect earth

ground to safety lug inside enclosure)

Alarm Output – Pins 4 and 5: 4 Main Terminal 1

5 Main Terminal 2

Alert Output – Pins 6 and 7: 6 Main Terminal 1

7 Main Terminal 2 Raw Vibration Output – Pins 10 and 11

10 Common connection 11 Raw Vibration Output Signal

Control Configurations – Pins 12 to 14: 12 Remote reset connection

NOTE: THIS IS A SWITCH CLOSURE

ONLY, DO NOT APPLY POWER 13 Common connection 14 Calibration connection

4-20 mA Proportional Output – Pins 15 and 16: 15 -4-20 mA

16 +4-20 mA

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Connector and Pinout Diagram (cont):

Pin Location Diagram- Relay Models

Pin Descriptions:

AC Power – Pins 1 to 3: 1 +Power

2 -Power/Common 3 Earth Ground –(also connect earth

ground to safety lug inside enclosure) Alarm Output – Pins 4 to 6: 4 Normally Closed, de- energized contact

(Normally Open when energized) 5 Common connection 6 Normally Open, de- energized contact (Normally Closed when energized)

Alert Output – Pins 7 to 9: 7 Normally Closed, de-energized contact

(Normally Open when energized) 8 Common connection

Raw Vibration Output – Pins 10 and 11 10 Common connection

11 Raw Vibration Output Signal

Control Configurations – Pins 12 to 14: 12 Remote reset connection

Note: This is a switch closure only, DO NOT APPLY POWER! 13 Common connection 14 Calibration connection

4-20 mA Proportional Output – Pins 15 and 16: 15 -4-20 mA

16 +4-20 mA

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9 Normally Open, de- energized contact (Normally Closed when energized)

Connector and Pinout Diagram (cont):

When the External 100mV/g ICP® Sensor option is specified, an additional terminal block location is added to the 685B series. The external accelerometer is connected to +Sensor and –Senor positions as indicated in the above figure and on the product label locate inside the top cover. The cable shield to the accelerometer should be grounded as required by local codes as well as to limit RFI/EMI interference.

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Configuring the 685B

Internal Diagram- Triac Models

The internal diagram displays the location of the control features for the triac versions of the 685B. The alert and alarm set points are adjusted via the single turn potentiometers. The alarm relay is set using the first potentiometer, and the alert relay is set using the third. The alert relay trips when the set percentage of the alarm value is reached. Time delays for both functions are controlled using the second and fourth potentiometers. Alert and alarm relays can be reset remotely (using Pin 12, see previous pages) or using the internal reset switch as seen on the upper right hand corner of the diagram.

Using the dipswitches beneath the terminal connectors, relay operation can be selected to be either latch or continuous, and each relay can be separately configured to be normally open (de-energized) or normally closed

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SENSORS AND INSTRUMENTATION FOR MACHINE CONDITION MONITORING

(energized). There is also a dipswitch to activate the calibration mode for condition simulation during the setup process. This is explained in detail on page 13.

Internal Diagram- Relay Models

The internal diagram displays the location of the control features for the relay versions of the 685B. The alert and alarm set points are adjusted via the single turn potentiometers. The alarm relay is set using the first potentiometer, and the alert relay is set using the third. The alert relay trips when the set percentage of the alarm value is reached. Time delays for both functions are controlled using the second and fourth potentiometers. Alert and alarm relays can be reset remotely (using Pin 12, see previous pages) or using the internal reset switch as seen on the upper right hand corner of the diagram.

Using the first dipswitch beneath the terminal connectors, relay operation can be selected to be either latch or continuous. The second and third dipswitches set the alert and alarm relay configuration to be energized or deenergized. The diagram above indicates the contacts that are normally open and normally closed when the dip switch is set to “de-energized. When the dipswitch is changed to “energized”, the normally open and normally

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SENSORS AND INSTRUMENTATION FOR MACHINE CONDITION MONITORING

closed contacts would be reversed. The fourth dipswitch is used to activate the calibration mode for condition simulation during the setup process. This is explained in detail on page 12.

Using Calibration Mode

The series 685B has the unique ability to be calibrated using a 4-20 mA simulator. (IMI Sensors model 699A05,

see “Accessories” page) This allows for a much more accurate and quantifiable calibration versus manually

attuning the switch. The following steps allow for simple calibration using this configuration.

1) Connect the 4-20 mA simulator signal across the common (-) and calibration (+) pins (Pins 13 & 14).

2) Turn the calibration dipswitch to “on”. This will disable the switch’s ability to measure physical vibration.

3) Turn both time delay potentiometers to “zero” for calibration purposes. This can be adjusted to desired delay after calibration.

4) Assume that 4 mA equals zero vibration and 20 mA equals full scale vibration. Then calculate, in mA, the vibration level for which the alert and alarm switches should trip.

5) Using the 4-20 mA simulator, send the appropriate alarm signal based on the calculation in the previous step for the alarm signal.

6) Adjust the “SP” Alarm set point potentiometer to the point when the red Alarm LED illuminates.

7) Using the 4-20 mA simulator, repeat step 5 for the Alert signal.

8) Adjust the “SP” Alert set point potentiometer to the point where the yellow Alert LED illuminates. It is important to set the Alarm potentiometer first because the Alert signal acts as a percentage of the value set for Alarm.

9) Disconnect the 4-20 mA simulator.

10) Turn “off” the calibration dipswitch.

** Warning: To avoid damage, insure 685B series is under power prior to applying

the 4-20mA signal from the simulator. **

Testing the Calibration

Pushing the “Test” button inside the housing simulates full scale vibration and should illuminate both the alert and alarm LED’s. This feature can be used to adjust time delays to the desired values. This can be accurately

calculated using the “Test” button and a stopwatch.

Connecting the Remote Reset

The series 685B allows for remote reset when the switch is in latch mode via a short between Pins 12 & 13.

Connecting the Raw Vibration Output

All models in the series 685B offer the option for obtaining accelerometer’s raw vibration signal. Models with internal accelerometers output 100 mV/g. To obtain this signal using digital analyzer, turn the ICP® power OFF at

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SENSORS AND INSTRUMENTATION FOR MACHINE CONDITION MONITORING

the digital analyzer input. Connect the analyzer to Pins 10 & 11 with the common connection on the pin (Pin 10) and the signal connection on the RV Output pin (Pin 11).

Optional Accessories

Model 080A209 Adapter Plate

To retrofit old style vibration switch bolt patterns

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Model 699A05 Portable 4-20 mA Calibrator

Provides current output for Series 685B testing, read-out and calibration purposes. Also receives and displays current signal from 4-20 mA proportional output from the 685B.

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SENSORS AND INSTRUMENTATION FOR MACHINE CONDITION MONITORING

Warning 1 – ESD sensitivity

personnel. This product is intended for use by qualified personnel who recognize shock hazards and are familiar

with the safety precautions required to avoid injury.

Warning 2 – ESD sensitivity

This equipment is designed with user safety in mind; however, the protection provided by the equipment may be impaired if the equipment is used in a manner not specified by PCB Piezotronics, Inc.

Caution 1 – ESD sensitivity

Cables can kill your equipment. High voltage electrostatic discharge (ESD) can damage electrical devices.

Similar to a capacitor, a cable can hold a charge caused by triboelectric transfer, such as that which occurs in the following:

 Laying on and moving across a rug,  Any movement through air,  The action of rolling out a cable, and/or  Contact with a non-grounded person.

The PCB solution for product safety:

 Connect the cables only with the AC power off.  Temporarily “short” the end of the cable before attaching it to any signal input or output.

Caution 2 – ESD sensitivity

ESD considerations should be made prior to performing any internal adjustments on the equipment. Any

piece of electronic equipment is vulnerable to ESD when opened for adjustments. Internal adjustments should therefore be done ONLY at an ESD-safe work area. Many products have ESD protection, but the level of protection may be exceeded by extremely high voltage.

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SENSORS AND INSTRUMENTATION FOR MACHINE CONDITION MONITORING

Ordering Information/ Model Matrix

IMI Part Number: 685B 0 0 0 0 A1 0

Basic Model Series 685B

Sensor Option 0 Internal 100 mV/g ICP Sensor 1 External 100mV/g ICP® Sensor 2 External 100 mV/g ICP Sensor (Low Frequency) 3 Internal 100 mV/g ICP Sensor (Low Frequency) 4 External 100mV/g ICP® Sensor (Sensor Fault Detection) 5 External 100mV/g ICP® Sensor (Sensor Fault Detection)

Scale Factor 0 0-1.5 in/sec peak 1 0-5 g peak 2 0-15 mils peak to peak displacement 3 0-50 mils peak to peak displacement 4 0-3.0 in/sec peak

Power Required 0 85-245 VAC, 50/60 Hz 1 24 VDC ±10%

Relay Type (two provided) 0 Triac, 5A/245vac 1 Form C Relay (SPDT) 10A/245Vac – 5A/30Vdc

Enclosure Type/ Hazardous Area Approval A1 Basic enclosure, internal pushbutton/ remote reset A2 Same as A1, plus external pushbutton reset A3 Same as A1, plus acceleration signal through external BNC A4 Same as A1, plus A2 & A3 A5 Same as A1, plus LCD readout panel in velocity (ips) C1 Explosion Proof Enclosure (must select option 4 connection)

Connection Interface 0 Dual openings, cord grips 1 Dual openings, ½” NPT conduit hubs 2 Single opening, cord grip 3 Single opening, ½” NPT conduit hub 4 Dual openings, ½” NPT conduit hubs (for C1 enclosures only) 5 Dual openings, cord grip on left, ½” NPT conduit hub on right 6 Dual openings, cord grip on right, ½” NPT conduit hub on left

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