Pub # 007revG EN Series Installation Manual Approval Agency Controlled Document. No Changes Authorized Without Prior Agency Approval StoneL 7 US Highway 9 Fergus Falls, MN 7 USA Telephone: (8) 79-77 Fax: 8-79-77 Toll Free in US & Canada: -800-8-78 E-Mail: sales@stonel.com Web-site: http://www.stonel.com
Pub # 007revG Eclipse (EN) Model Number Descriptions (Example: ENC0RA) Page Function Enclosure/Approvals Entry Options Visual Indicator Brand Options EN Sensor Modules () SST N.O. Sensors () SST N.C. Sensors () NAMUR Sensors (DIN 9) Bus Communication Modules 9 DeviceNet Communication VCT Module C North American (NEC/CEC) D International (IEC/ATEX) P North American (NEC/CEC) A International (IEC/ATEX) 0 () /- NPT Conduit Entries 0 () M0 Conduit Entries () -pin Mini Male Connector () -pin Mini Male Connector () -pin Mini Female Connector R Red Closed/Green Open G Green Closed/Red Open F Flow Line T Three Way (90 rotation) T Three Way (90 rotation) A StoneL M Metso N Neles -***** Special 9 Foundation Fieldbus VCT Module XX Special Configuration D Red Closed/Green Open (Bus Powered Outputs) N Green Closed/Red Open 9 Foundation Fieldbus VCT Module (VDC Externally Powered Outputs) L Flow Line 9 Modbus Communication VCT Module S T Three Way (90 rotation) 9 AS-i Communication VCT Module T T Three Way (90 rotation) (Standard Addressing Version) X Special 97 AS-i Communication VCT Module (Extended Addressing Version)
General Specifications and Ratings Pub # 007revG Operating Life Unlimited Materials of Construction (User to check the chemical compatibility of the materials used in their process to ensure chemical compatibility) Housing Polycarbonate Drum Polycarbonate Fasteners Stainless Steel Triggers & Couplings Stainless Steel Dimensions - Inches (mm) Temperature Range -0 C to 80 C (-0 F to 80 F) Enclosure Protection NEMA, X & ; IP7 Warranty Function Module Five Years Indicator & Triggering Two Years Product Patents,,9;,7,9. (0).0 (7) 0.7 (9) Conduit Entries / NPT or M0 0.8 ().0 ()
Eclipse Basic Mounting and Sensor Setting Pub # 007revG Mounting to ISO-NAMUR Style Actuators. ( Namur Size & ) Attach Function Module using fasteners provided in the mounting kit and tighten to -0 inch pounds. (Do not over tighten). ( Namur Size and Non-Namur applications ) Attach spacer or bracket to actuator with fasteners provided in the mounting kit and tighten securely. Attach Function Module to spacer or bracket and tighten to -0 inch pounds. (Do not over tighten).. Place the Drive Block into the slot of the actuator shaft. Next, place the Inner Drum over the Drive Block, ensuring the Drive Block goes into the mating recess of the Inner Drum. Now slide both Trigger Adjustment Rings over the Inner Drum (for the Flow Line option, place the yellow flow line bar on top of the Visual Indicator Trigger Assembly). Finally, insert the Drum Fastner (provided with the mounting kit) through the entire Visual Indicator/Trigger Assembly and tighten only a couple of turns into the actuator shaft as to allow the Trigger Adjustment Rings to rotate freely to perform the sensor settings. Ensure the assembly is centered. Sensor Settings. Start with the actuator in the closed position. Ensure the Drum Fastener is loose enough to allow the Trigger Adjustment Rings to rotate. Lift and rotate the lower ring until the stainless steel trigger is in front of the lower bulls-eye on the Function Module (lower trigger activates the Red LED). Rotate the actuator to the open position. Lift and rotate the upper ring until the stainless steel trigger is in front of the upper bulls-eye on the Function Module (upper trigger activates Green LED). For the Flow Line option, lift and rotate the yellow flow line bar on top of the Visual Indicator/Trigger Assembly to indicate desired flow. Securely tighten the Drum Fastener. To adjust simply loosen screw and adjust triggers and indicator to suit your application. LEDs will energize and de-energize when powered, indicating sensor status. Indicator Cover. Install the Visual Indicator Cover. The Cover Alignment Ribs on the Visual Indicator Cover are tapered and cannot be inserted vertically into the mating grooves on the Function Module. Place the Visual Indicator Cover over and as close to the Visual Indicator/Trigger Assembly as possible. When the bottom of the Visual Indicator Cover is flush with the base of the Function Module, slide the Visual Indicator horizontally until the Cover Alignment Ribs fit completely into the mating grooves on the Function Module. Tighten the Visual Indicator Cover securely to the actuator with fastners provided in the mounting kit. (-0 inch pounds. Do not over tighten). Wiring. Raise the hinged Function Module cover by loosening the tow cover screws. Attach control and solenoid wires as indicated on wiring diagrams located on pages thru 9. Close cover and securely tighten cover screws. Note: Ensure adequate drainage of wiring conduit to prevent water contamination inside enclosure. Eclipse Function Module Closed Trigger (Red LED) () Function Module Fasteners Visual Indicator Cover* Cover Alignment Ribs * Standard Flow Line Visual Indicator not provided with cover Drive Block () Cover Fasteners Drum Fastener Trigger Adjustment Rings Inner Drum Visual Indicator/Trigger Assembly Open Trigger (Green LED) Flow Line Indicator/Trigger Assembly Open Trigger (Green LED) Flow Line Bar Closed Trigger (Red LED)
SST N.O. Solid-State Sensors (EN) EN Specifications & Wiring Information Pub # 007revG SST N.C. Solid-State Sensors (EN) Configuration: Indications: Operating Voltage: Maximum Voltage Drop: Current Ratings: Max Inrush Max Continuous Minimum On Current Leakage Current () Solid State Sensors (Normally Open) () Wire Termination Points for one Solenoid Target On Sensor = LED On Target Off Sensor = LED Off 8- VDC; - VAC. Volts @ 0mA 7.0 Volts @ 00mA.0 Amps @ VDC/VAC 0. Amps @ VDC/VAC.0m A <0.mA (VDC) <0.0mA (0VAC) Configuration: Indications: Operating Voltage: Maximum Voltage Drop: Current Ratings: Max Inrush Max Continuous Minimum On Current Leakage Current () Solid State Sensors (Normally Closed) () Wire Termination Points for one Solenoid Target On Sensor = LED Off Target Off Sensor = LED On 8- VDC; - VAC. Volts @ 0mA 7.0 Volts @ 00mA.0 Amps @ VDC/VAC 0. Amps @ VDC/VAC.0m A <0.mA (VDC) <0.0mA (0VAC) See Page 9 for Models with Mini Connectors for pin out guide See Page 9 for Models with Mini Connectors for pin out guide To Bench Test a Solid State Sensor Unit: Use StoneL Light Read Tester, or you may use a VDC or 0 VAC bench power supply with a series load resistor (K ohm to K ohm). Connect to NO and C terminal points. To test Solenoid (if using), apply requisite external power source to SOL PWR And SOL PWR terminals. WARNING: FAILURE TO USE A SERIES LOAD RESISTOR WHEN BENCH TESTING SENSORS WITH A POWER SUPPLY WILL RESULT IN PERMANENT DAMAGE TO THE UNIT. To Bench Test a Solid State Sensor Unit: Use StoneL Light Read Tester, or you may use a VDC or 0 VAC bench power supply with a series load resistor (K ohm to K ohm). Connect to NC and C terminal points. To test Solenoid (if using), apply requisite external power source to SOL PWR And SOL PWR terminals. WARNING: FAILURE TO USE A SERIES LOAD RESISTOR WHEN BENCH TESTING SENSORS WITH A POWER SUPPLY WILL RESULT IN PERMANENT DAMAGE TO THE UNIT. BTM SW C BTM SW C SST 7 8 BTM SW NO TOP SW C TOP SW NO SOL PWR SOL PWR SOL SOL SST 7 8 BTM SW NC TOP SW C TOP SW NC SOL PWR SOL PWR SOL SOL
SST Namur Sensors (EN) EN Specifications & Wiring Information DeviceNet EN Module (EN9) Pub # 007revG Configuration: () Namur Sensors (Normally Closed) () Wire Termination Points for one Solenoid Indications: Target On Sensor = LED Off Target Off Sensor = LED On Operating Voltage: -9 VDC Current Ratings: Target On (LED Off) <.0mA Target Off (LED On) >.0mA Must use intrinsically safe repeater barrier. Namur Sensors conform to EN 097-- Standard See Page 9 for Models with Mini Connectors for pin out guide See Page 0 or Page for Intrinsic Safety Hazardous Location Installation Diagram To Bench Test a Namur Sensor Unit: Use StoneL Light Read Tester or a -9 VDC power supply across + and -. No series resistor needed. To test Solenoid (if using), apply requisite external power source to SOL PWR And SOL PWR terminals. Communication Protocol: DeviceNet I/O: () Discrete Inputs (Sensors) () Discrete Outputs (Solenoids) () Analog Input ( Wire Device) 8 bit resolution (0.%) Default Address: Bit Assignment: Inputs: ( Bytes) Bit 0 = Input (Red LED; Bottom Sensor) Bit = Input (Green LED; Top Sensor) Bit = Fault Bit (Set when both Input and Input = ) Bits 8- = Analog Input (Low Byte) Bits - = Analog Input (High Byte) Outputs: ( Byte) Bit 0 = Output (Solenoid ) Bit = Output (Solenoid ) I/O Messaging: Polling, Cyclic, Change of State Operating Voltage: VDC via DeviceNet network Operating Current: ma (No Outputs Energized) Baud Rates: K, 0K, 00K Output Voltage: VDC Max. Output Current: 0mA, Both Outputs Combined Max. Output Power: Watts, Both Outputs Combined See Page 9 for Models with Mini Connectors for pin out guide To Bench Test a DeviceNet Unit: Use a VDC power supply across V + and V -. No series resistor needed. WARNING: Do not apply external power to output terminals. To test Solenoids (if using), apply VDC external power source directly to the solenoid leads. Solenoids must not be connected to the terminal strip while testing. To test communication, a functioning DeviceNet network is required. OUT - NAMUR 7 8 BTM SW - BTM SW + TOP SW - TOP SW + SOL PWR SOL PWR SOL SOL 7 8 9 0 VDC OUT - Ain - Ain + V - CAN L Shield CAN H V +
Foundation Fieldbus EN Module (EN9) EN Specifications & Wiring Information Pub # 007revG Foundation Fieldbus EN Module with Externally Powered Outputs (EN9) Communication Protocol: I/O: Function Blocks: Channel Reference Operating Voltage: Operating Current: Max Output Current: Indication: Foundation Fieldbus (H) () Discrete Inputs (Sensors) () Discrete Outputs (Piezo Valves) DI, DO Channel = DI (Green LED) Channel = DI (Red LED) Channel = DO (OUT ) Channel = DO (OUT ) 9- VDC (Foundation Fieldbus Voltage) ma ma @. VDC. Current limited to ma (Bus Powered). Suitable for StoneL Piezo Valve Red LED = Bottom Sensor Green LED = Top Sensor See Page and Page for Intrinsic Safety (FISCO) Hazardous Location information and Installation Diagram. Communication Protocol: I/O: Function Blocks: Channel Reference Operating Voltage: Operating Current: External Voltage: Max Output Current: Max Output Power: Indication: Foundation Fieldbus (H) () Discrete Inputs (Sensors) () Discrete Outputs (Ext.Powered) DI, DO Channel = DI (Green LED) Channel = DI (Red LED) Channel = DO (OUT ) Channel = DO (OUT ) 9- VDC (Foundation Fieldbus Voltage) ma (Bus Power) VDC 0mA, Both Outputs Combined Watts, Both Outputs Combined Red LED = Bottom Sensor Green LED = Top Sensor See Page for Non-Incendive Field Wiring Apparatus Installation Drawing To Bench Test a Foundation Fieldbus Module: Use 9- VDC power supply across FB + and FB -. No series resistor needed. WARNING: Do not apply external power to output terminals To test Piezo Solenoids (if using), apply -9 VDC external power source directly to the solenoid leads. Solenoids must not be connected to the terminal strip while testing. To test communication, a functioning Foundation Fieldbus network is required. To Bench Test a Foundation Fieldbus Module: Use 9- VDC power supply across FB + and FB -. No series resistor needed. WARNING: Do not apply external power to output terminals To test Solenoids (if using), apply VDC external power source directly to the solenoid leads. Solenoids must not be connected to the terminal strip while testing. To test communication, a functioning Foundation Fieldbus network is required. SIM JMPR 7 8 SIM JMPR SIM JMPR OUT - OUT + OUT - OUT + FB - FB + 7 8 9 0 SIM JMPR OUT - OUT + OUT - OUT + VDC - VDC + FB - FB + 7
Modbus EN Module (EN9) Communication Protocol: Modbus I/O: () Discrete Inputs (Sensors) () Discrete Outputs (Solenoids) () Analog Input ( Wire Device) 0 bit resolution (0.%) Default Address: 0 Bit Assignment: Inputs: 000= Input (Red LED; Bottom Sensor) 000 = Input (Green LED; Top Sensor) Analog Input: 000 Outputs: 0000 = Output (Solenoid ) 0000 = Output (Solenoid ) Operating Voltage: VDC (The VDC power source should share the same ground reference as the communication line) Operating Current: 0mA (No Outputs Energized) Baud Rates: 9.K, 9.K, 8.K Output Voltage: VDC Max. Output Current: 0mA, Both Outputs Combined Max. Output Power: Watts, Both Outputs Combined See Page 9 for Models with Mini Connectors for pin out guide To Bench Test a Modbus Module: Use VDC power supply across V + and V -. No series resistor needed. WARNING: Do not apply external power to output terminals To test Solenoids (if using), apply VDC external power source directly to the solenoid leads. Solenoids must not be connected to the terminal strip while testing. To test communication, a functioning Modbus network is required. EN Specifications & Wiring Information AS-Interface EN Module (EN9) Pub # 007revG Communication Protocol: AS- Interface (AS-i) Configuration: () Discrete Inputs (Sensors) () Auxiliary Discrete Inputs () Discrete Outputs (Solenoids) Default Address: 00 AS-Interface ID/IO Codes: ID = F; IO = ; ID = F; ID = E Bit Assignment: Inputs: Bit = Auxiliary Input Bit = Auxiliary Input Bit = (Green LED; Top Sensor) Bit = (Red LED; Bottom Sensor) Outputs: Bit = Not Used Bit = Not Used Bit = Output (Solenoid ) Bit = Output (Solenoid ) Voltage: -0 VDC (AS-i Voltage) Output Current: 0mA (No Outputs Energized) Output Voltage: VDC Max. Output Current: 0mA, Both Outputs Combined Max. Output Power: Watts, Both Outputs Combined See Page for Non-Incendive Field Wiring Apparatus Installation Drawing To Bench Test AS-i Module: Use VDC power supply across AS-i + and AS-i -. No series resistor needed. WARNING: Do not apply external power to output terminals To test Solenoids (if using), apply VDC external power source directly to the solenoid leads. Solenoids must not be connected to the terminal strip while testing. To test communication, a functioning AS-i network is required 7 8 9 0 OUT - OUT + OUT - OUT + Ain - Ain + V - BUS - BUS + V + 7 8 9 0 OUT - OUT + OUT - OUT + wire RTN Aux IN - Aux IN - Aux IN + ASI - ASI + 8
AS-Interface EN Module (EN97) EN Specifications & Wiring Information Pub # 007revG Models with Connectors Pin-out Guide Communication Protocol: AS- Interface (AS-i) Configuration: () Discrete Inputs (Sensors) () Auxiliary Discrete Inputs () Discrete Output (Solenoid) Default Address: 0A AS-Interface ID/IO Codes: ID = A; IO = ; ID = 7; ID = E Bit Assignment: Inputs: Bit = Auxiliary Input Bit = Auxiliary Input Bit = (Green LED; Top Sensor) Bit = (Red LED; Bottom Sensor) Outputs: Bit = Not Used Bit = Not Used Bit = Output (Solenoid) Bit = Not Used Voltage: -0 VDC (AS-i Voltage) Output Current: 0mA (No Outputs Energized) Output Voltage: VDC Max. Output Current: 00mA Max. Output Power:. Watts PIN MODEL EN EN EN EN EN9 EN9 BTM C BTM C BTM + SH NOT USED BTM N.O. BTM N.C. BTM - V+ V+ NOT USED NOT USED NOT USED V- V- TOP N.O. TOP N.C. TOP + CAN_H BUS + TOP C TOP C TOP - CAN_L BUS - Pin Mini Connector Male (Pins) See Page for Non-Incendive Field Wiring Apparatus Installation Drawing PIN EN MODEL EN EN EN EN9 EN9 To Bench Test AS-i Module: Use VDC power supply across AS-i + and AS-i -. No series resistor needed. WARNING: Do not apply external power to output terminals. To test Solenoids (if using), apply VDC external power source directly to the solenoid leads. Solenoids must not be connected to the terminal strip while testing. To test communication, a functioning AS-i network is required TOP/BTM C TOP/BTM C N/A SH NOT USED BTM N.O. TOP N.O. BTM N.C. TOP N.C. N/A N/A V+ V- V+ V- SOL PWR + SOL PWR + N/A CAN_H BUS + SOL PWR - SOL PWR - N/A CAN_L BUS - NOT USED NOT USED N/A NOT USED NOT USED SOL - SOL - N/A SOL - SOL - SOL + SOL + N/A SOL + SOL + 7 8 9 0 OUT - OUT + Not Used Not Used wire RTN Aux IN - Aux IN - Aux IN + ASI - ASI + Pin Mini Connector Male (Pins) Pin Mini Connector Female (Sockets) 9
Installation Diagram for Explosive Atmospheres for Europe Pub # 007revG EN models approved for Intrinsically Safe Installations: (Ex ia IIC T) END0 *; END0 *; END *; ENA0 *; ENA0 *; ENA * *Note: Any Visual Indicator/Trigger Assembly option is approved HAZARDOUS (CLASSIFIED) 8 9 StoneL Enclosure Ex ia IIC T Individual Sensor and solenoid coil wiring (if required) Intrinsic Safety Barriers (Associated Apparatus) NON-HAZARDOUS (SAFE AREA) 7 8 BTM SW - BTM SW + TOP SW - TOP SW + SOL PWR SOL PWR SOL SOL Shields 7 Bottom Sensor Barrier Top Sensor Barrier Intrinsically Safe Ground Control Equipment EN Terminal Identifiers EN Pin Identifiers Male (Pins) Pins EN Bottom Sensor + Bottom Sensor - Not Used Top Sensor + Top Sensor - INSTALLATION NOTES Intrinsically Safe Installations: (Ex ia IIC T): EN Entity Parameters: Ui = Vdc; Ii = 0 ma ; Ci = 98 nf; Li =. mh; Pi =.0 W 7 8 9. The Entity Concept allows interconnection of intrinsically safe apparatus with associated apparatus when the following is true: Ui >Uo; Ii > Io; Pi > Po; Co > Ci + Ccable, Lo > Li + Lcable.. For Installations in Europe, control room equipment connected to intrinsically safe associated apparatus shall not use or generate more than the marked Um of the associated apparatus.. Installation in Europe shall be in accordance with latest editions of the wiring practices for the country of origin.. For Installations in Europe, the Associated Apparatus must be ATEX approved. Associated apparatus manufacturer's installation drawing must be followed when installing this equipment.. To maintain intrinsic safety, wiring associated with each sensor must be run in separate cables or separate shields connected to intrinsically safe (associated apparatus) ground. Each sensor shall be wired as separate intrinsically safe circuits.. Conduit Grounding - Upon installation verify electrical continuity between conduit and ground terminal. 7. Resistance between Intrinsic Safe Ground and earth ground must be less than.0 ohm. WARNING: 8. Parts of the enclosure are non-conducting and may generate an ignition-capable level of electrostatic charge under certain extreme conditions. The user should ensure that the equipment is not installed in location where it may be subjected to external conditions (such as high-pressure steam) which might cause a build-up of electrostatic charge on non-conducting surfaces. Additionally, cleaning of the equipment should only be done with a damp cloth. 9. Substitution of components may impair hazardous location safety. 0. No revision to drawing without prior FM Approval. 0
Intrinsic Safety Hazardous Location Installation Diagram Pub # 007revG EN * models approved for Intrinsically Safe Installations: IS Class I,II and III; Division, Groups A,B,C,D,E,F,G ENC0 *; ENC0 *; ENC *; ENP0 *; ENP0 *; ENP * *Note: All Entry options and Visual Indicator/Trigger Assembly options are approved HAZARDOUS (CLASSIFIED) 8 StoneL Enclosure IS Cl I,II,III; Div, Groups A,B,C,D,E,F,G Individual Sensor and solenoid coil wiring (if required) Intrinsic Safety Barriers (Associated Apparatus) NON-HAZARDOUS (SAFE AREA) 7 8 BTM SW - BTM SW + TOP SW - TOP SW + SOL PWR SOL PWR SOL SOL Shields 7 Bottom Sensor Barrier Top Sensor Barrier Intrinsically Safe Ground Control Equipment EN Terminal Identifiers EN Pin Identifiers Male (Pins) Pins EN Bottom Sensor + Bottom Sensor - Not Used Top Sensor + Top Sensor - INSTALLATION NOTES: EN Entity Parameters: Ui (Vmax) = Vdc; Ii (Imax) = 0 ma ; Ci = 98 nf; Li =. mh; Pi =.0 W 7 8 9. Uo < Ui (Vmax); Io < Ii (Imax); Ca > Ci + Ccable, La > Li + Lcable.. Control equipment connected to barrier must not use or generate more than 0 Vrms or Vdc.. Installation should be in accordance with ANSI/ISA RPA..0 "Installation of Intrinsically Safe Systems for Hazardous (Classified) Locations" and the National Electrical Code (ANSI/NFPA 70) or in accordance with the Canadian Electric Code.. Associated apparatus manufacturer's installation drawing must be followed when installing this equipment.. To maintain intrinsic safety, wiring associated with each sensor must be run in separate cables or separate shields connected to intrinsically safe (associated apparatus) ground. Each sensor shall be wired as separate intrinsically safe circuits.. Conduit Grounding - Upon installation verify electrical continuity between conduit and ground terminal. 7. Resistance between Intrinsic Safe Ground and earth ground must be less than one ohm. WARNING: 8. Parts of the enclosure are non-conducting and may generate an ignition-capable level of electrostatic charge under certain extreme conditions. The user should ensure that the equipment is not installed in location where it may be subjected to external conditions (such as high-pressure steam) which might cause a build-up of electrostatic charge on non-conducting surfaces. Additionally, cleaning of the equipment should only be done with a damp cloth. 9. Substitution of components may impair hazardous location safety.
Intrinsic Safety (FISCO) Hazardous Location Installation Diagram Pub # 007revG FISCO Concept The FISCO Concept allows the interconnection of intrinsically safe apparatus to associated apparatus not specifically examined in such combination. The criterion for such interconnection is that voltage (Vmax), the current (Imax), and the power (Pi), which intrinsically safe apparatus can receive and remain intrinsically safe, considering faults, must be equal to or greater than the voltage (Uo, Voc, Vt), the current (Io, Isc, It), and the power (Po) which can be provided by the associated apparatus (supply unit). In addition, the maximum unprotected residual capacitance (Ci) and inductance (Li) of each apparatus (other than the terminators) connected to the Fieldbus must be less than or equal to nf and 0µH respectively. In each I.S. Fieldbus segment only one active source, normally the associated apparatus, is allowed to provide the necessary power for the Fieldbus system. The allowed voltage (Uo, Voc, Vt) of the associated apparatus used to supply the bus must be limited to the range of V d.c. to V d.c. All other equipment connected to the bus cable has to be passive, meaning that the apparatus is not allowed to provide energy to the system, except to a leakage current of 0µA for each connected device. Separately powered equipment needs a galvanic isolation to insure that the intrinsically safe Fieldbus circuit remains passive. The cable used to interconnect the devices must comply with the following parameters: Loop resistance R : - 0 ohm/km Inductance per unit length L : 0. - mh/km Capacitance per unit length C : 80-00nF/KM C = C line to line + ½ C line to shield, if both lines are floating with respect to shield or C = C line to line + C line to shield, if one line is connected to shield Trunk Length: < 000 meters Spur Length: < 0 meters Splice Length: < meters FM Approved line terminators must be used on each end of the trunk cable that have the following parameters: R = 90-00 ohms C = 0.0 -.µf (See Page for Installation Diagram and Notes)
Intrinsic Safety (FISCO) Hazardous Location Installation Diagram Pub # 007revG EN9 C or P_* models approved for Intrinsically Safe (FISCO) Installations: IS Class I,II and III; Division, Groups A,B,C,D,E,F,G *Note: All Entry options and Visual Indicator/Trigger Assembly options are approved HAZARDOUS (CLASSIFIED) IS (FISCO) Cl I,II,III Div, Groups A,B,C,D,E,F,G EN9 Terminal Identifiers NON-HAZARDOUS (SAFE AREA) EN9 Enclosure cfmus Approved Control Equipment SIM JMPR cfmus Approved Termination cfmus Approved Fieldbus Device n suitable for FISCO cfmus Approved Fieldbus Device suitable for FISCO 7 8 SIM JMPR OUT - OUT + OUT - OUT + FB - FB + FB + FB - INSTALLATION NOTES: EN9 Entity Parameters (FISCO): Ui (Vmax) = 0 Vdc; Ii (Imax) = 80 ma ; Ci = 0.0 nf; Li = 0.0 mh; Pi =. W. Installation shall be in accordance with ANSI/ISA RPA..0, ANSI/NFPA 70, and the National Electrical Code or in accordance with the Canadian Electric Code.. Dust-tight conduit seal must be used when installed in Class II and Class III environments or where Ingress Protection of IP7 is required.. Control equipment must be cfmus Approved Associated Apparatus suitable for FISCO.. Control equipment connected to FISCO barrier must not use or generate more than 0Vrms or Vdc.. Resistance between FISCO Intrinsically Safe Ground and earth ground must be less than.0 Ohm. WARNING:. Parts of the enclosure are non-conducting and may generate an ignition-capable level of electrostatic charge under certain extreme conditions. The user should ensure that the equipment is not installed in location where it may be subjected to external conditions (such as high-pressure steam) which might cause a build-up of electrostatic charge on non-conducting surfaces. Additionally, cleaning of the equipment should only be done with a damp cloth. 7. Substitution of components may impair hazardous location safety. 8. Approval Agency controlled Installation Diagram. No revision to diagram allowed without prior Factory Mutual or Approval Agency authority.
Non-Incendive Field Wiring Apparatus Installation Drawing Pub # 007revG EN9 C or P * models approved for Non-Incendive Field Wiring Apparatus: NI Class I,II and III; Division, Groups A,B,C,D,F,G *Note: All Entry options and Visual Indicator/Trigger Assembly options are approved HAZARDOUS (CLASSIFIED) Nonincendive Field Wiring Apparatus NI; Cl I,II,III Div Groups A,B,C,D,F,G NON-HAZARDOUS (SAFE AREA) EN9 Enclosure EN9 Terminal Identifiers Power Limiting Associated Apparatus Control Equipment 7 8 SIM JMPR SIM JMPR OUT - OUT + OUT - OUT + FB - FB + FB + FB - INSTALLATION NOTES: Entity Parameters: EN9 : Ui = 0 Vdc; Ii = 80 ma ; Ci = 0.0 nf; Li = 0.0 mh; Pi =. W. Installation shall be in accordance with ANSI/ISA RPA..0, ANSI/NFPA 70, and the National Electrical Code.. Dust-tight conduit seal must be used when installed in Class II and Class III environments or where Ingress Protection of IP7 is required.. Control equipment must be FM approved to supply power in Class I, Division Areas.. Power Limiting Associated Apparatus must satisfy the conditions: Voc or Vt < Ui, Isc or It < Ii, Ca > Ci + Ccable, La > Li + Lcable of the ECN9 Entity Parameters. Manufacturer's associated non-incendive field wiring apparatus installation drawing must be followed when installing this equipment. WARNING:. Parts of the enclosure are non-conducting and may generate an ignition-capable level of electrostatic charge under certain extreme conditions. The user should ensure that the equipment is not installed in location where it may be subjected to external conditions (such as high-pressure steam) which might cause a build-up of electrostatic charge on non-conducting surfaces. Additionally, cleaning of the equipment should only be done with a damp cloth. 7. Substitution of components may impair hazardous location safety.
Non-Incendive Field Wiring Apparatus Installation Drawing Pub # 007revG EN9 C or P * and EN97 C or P *models approved for Non-Incendive Field Wiring Apparatus: NI Class I,II and III; Division, Groups A,B,C,D,F,G *Note: All Entry options and Visual Indicator/Trigger Assembly options are approved HAZARDOUS (CLASSIFIED) Nonincendive Field Wiring Apparatus NI; Cl I,II,III Div Groups A,B,C,D,F,G NON-HAZARDOUS (SAFE AREA) EN9 or 97 Enclosure EN9 or 97 Terminal Identifiers Power Limiting Associated Apparatus Control Equipment 7 8 9 0 OUT - OUT + OUT - OUT + wire RTN Aux IN - Aux IN - Aux IN + ASI - ASI + 7 ASI + ASI - INSTALLATION NOTES: Entity Parameters: EN9 or EN97 : Ui = 7 Vdc; Ii = 0 ma ; Ci = 0.0 nf; Li = 0.0 mh; Pi =.0 W 7. Installation shall be in accordance with ANSI/ISA RPA..0, ANSI/NFPA 70, and the National Electrical Code.. Dust-tight conduit seal must be used when installed in Class II and Class III environments or where Ingress Protection of IP7 is required.. Control equipment must be FM approved to supply power in Class I, Division Areas.. Power Limiting Associated Apparatus must satisfy the conditions: Voc or Vt < Ui, Isc or It < Ii, Ca > Ci + Ccable, La > Li + Lcable of the ECN9 or ECN97 Entity Parameters. Manufacturer's associated non-incendive field wiring apparatus installation drawing must be followed when installing this equipment.. Parts of the enclosure are non-conducting and may generate an ignition-capable level of electrostatic charge under certain extreme conditions. The user should ensure that the equipment is not installed in location where it may be subjected to external conditions (such as high-pressure steam) which might cause a build-up of electrostatic charge on non-conducting surfaces. Additionally, cleaning of the equipment should only be done with a damp cloth. 7. Discrete Output not available for ECN97 models. 8. Substitution of components may impair hazardous location safety.
INSTALLATION ADDENDUM EN and EG series SPECIFIC CONDITIONS OF USE / MARKING For EN and EG Series FM08ATEX00X Specific Conditions of Use - Notes. Parts of the enclosure are non-conducting and may generate an ignition-capable level of electrostatic charge under certain extreme conditions. The user should ensure that the equipment is not installed in a location where it may be subjected to external conditions which might cause a build up of electrostatic charge on non-conducting surfaces. Additionally, cleaning of the equipment should be done only with a damp cloth. For EN and EG Series FM7US09X Specific Conditions of Use - Notes. Part of the enclosure is constructed from plastic. To prevent the risk of electrostatic sparking the plastic surface should only be cleaned with a damp cloth. Marking ATEX II G Ex ia IIC T Ga Ta = -0 C to +80 C Marking *NI / I / / ABCD - 09 *S / II / / FG *IS / I, II, III / / ADBCDEFG - 09 *See Approval Certificates for applicable models / type codes. Materials - Enclosure: Polycarbonate - Seal: Buna-N or RTV0 Attention: Replace only with identical factory parts/components. Deviation from the installation conditions in the Installation Manual and this addendum may invalidate this product's conformity with the Explosive Atmospheres, Pressure Equipment, and EMC Directives. Conformity of this product with any other "CE Mark" Directive(s) shall not be assumed. Contact StoneL for help with replacements or emergency maintenance. For installation manuals in a community language other than English, please contact StoneL. DECLARATION OF CONFORMITY Manufacturer: StoneL 7 US Highway 9 Fergus Falls, Minnesota 7 USA Products: Eclipse EN Series Valve Position Monitors and Valve Communication Terminals Eclipse EG Series Valve Position Monitors and Valve Communication Terminals Model - Type Certificates / Directives / Standards Marking EN and EG Series EN and EG Series EU Type Examination Certificate FM08ATEX00X ATEX 0//EU EN 0079-0:0+A:0, EN 0079-:0 EMC 0/0/EU EN 097--:007/A:0 EMC 0/0/EU EN 097--:007/A:0 ATEX II G Ex ia IIC T Ga ATEX Notified Bodies for EU Type Examination Certificates: FM Approvals Ltd. Windsor, Berkshire, UK (Notified Body Number 7) Quality Assurance Certificates: ISO 900:008...TUV SUD America Inc. QAN FM0ATEXQ00.FM Approvals (Notified Body Number 7) QAR GB/FME/QAR.000..FM Approvals (Notified Body Number 7) We declare under our sole responsibility that the products, as described, are in conformity with the listed standards and directives. Fergus Falls, st August 07 Bryan Beckman, Quality Manager Authorized Person of the Manufacturer 0revE