Emerson Fisher 4200 Data Sheet
Contents
1. 62 3 4200 4200 Transmitters July 2014 D200357X012 Neither Emerson Emerson Process Management nor any of their affiliated entities assumes responsibility for the selection use or maintenance of any product Responsibility for proper selection use and maintenance of any product remains solely with the purchaser and end user Fisher is a mark owned by one of the companies in the Emerson Process Management business unit of Emerson Electric Co Emerson Process Management Emerson and the Emerson logo are trademarks and service marks of Emerson Electric Co All other marks are the property of their respective owners The contents of this publication are presented for informational purposes only and while every effort has been made to ensure their accuracy they are not to be construed as warranties or guarantees express or implied regarding the products or services described herein or their use or applicability All sales are governed by our terms and conditions which are available upon request We reserve the right to modify or improve the designs or specifications of such products at any time without notice Emerson Process Management Marshalltown lowa 50158 USA Sorocaba 18087 Brazil Chatham Kent ME4 4QZ UK P Dubai United Arab Emirates ey Singapore 128461 Singapore www Fisher com EMERSON De 1cc 3 an Process Management 1985 2014 Fisher Controls International LLC All rights reserved2. July 2014 D200357X012 Table 7 Hazardous Area Classifications ATEX Certificate Type Certification Obtained Entity Rating Temperature Code Enclosure Rating II 1 GD Intrinsically Safe Gas y Ui 30 VDC T4 Tamb x 71 C T Lon o Ex ia IIC T4 T5 Ga li 150 mA Ta Tamb s B Pi 1 0W IP66 ee Ci 5nF Ex ta IIIC T81 C Da Tamb lt 71 C ne qum EE 4211 4221 Ex ta IIIC T50 C Da Tamb lt 40 C I3 GD Typen ATEX Gas T4 Tamb lt 71 C Ex nA IIC T4 Gc os IP66 Dust om Ex tc IIIC T81 C Dc Tamb lt 71 C 2GD 4210 4211 Flameproof T5 Tamb lt 71 C 4212 4215 Gas TG Tamb lt 56 C 4220 4221 Ex d IIC T5 T6 Gb IP66 iom IP66 4222 Dust Ex tb IIIC T72 C Db Tamb 20 C to 56 C i Table 8 Hazardous Area Classifications IECEx Certificate Type Certification Obtained Entity Rating Temperature Code Enclosure Rating Intrinsically Safe 5 Gas y Ui 30 VDC T4 Tamb x 71 C FR lt o Ex ia IIC T4 T5 Ga li 150 mA idence B Pi 1 0W IP66 Ci 5 nF Ex ta IIIC T81 C Da Tamb lt 71 C Son uut 4211 4221 Ex ta IIIC T50 C Da Tamb lt 40 C Typen Gas T4 Tamb lt 71 C EGER Ex nAIIC TA Gc n IP66 Dust ws Ex tc IIIC T81 C Dc Tamb lt 71 C 4210 4211 poner T5 Tamb x 71 C 4212 4215 Ex d IIC T5 T6 Gb IP66 Te Tamb 56 C IP66 4220 4221 5 4222 USE E Ex tb IIIC T72 C Db Tamb 20 C to 56 C Product Bulletin 4200 Transmitters 62 3 4200 D200357X012 July 2014 Product Bulletin
3. the travel transducer aligns with the motion of the device to allow straight retraction of the cable to the transducer The motion of the device should not exceed the zero and span limits in mm inches Installation Field wiring is inserted into one of the ports and connected to the terminal blocks mounted on the printed wiring board in the field wiring compartment The instrument with transmitter circuits and travel Product Bulletin 62 3 4200 July 2014 limit alarms and the instrument with alarms only no transmitter circuits use terminal blocks numbered 1 2 and 3 see figure 2 on the printed wiring board These terminal blocks are accessible when the field wiring compartment cover is removed The instrument with transmitter circuits only no alarms uses a barrier strip mounted in the field wiring compartment without the printed wiring board Dimensions of the transmitter housing are shown in figure 3 Mounting dimensions are shown in figure 4 Ordering Information When ordering specify 1 Transmitter type number 2 Actuator type size and length of stroke Note For Fisher 585CLS actuators specify yoke boss and cylinder size 3 Valve body design 4 Other applications Note Contact your Emerson Process Management sales office for assistance in determining the type and style of linkage and mounting hardware required for the application Product Bulletin 62 3 4200 4200 Transmitters July 2014 D200357
4. The low trip point may be offset from the high trip point by as little as 5 of the remaining span In the event of a power loss to the alarm circuits both alarms are tripped both relays are de energized This indicates a system failure because the actuator cannot be physically at both travel limits simultaneously The relay contacts are isolated from the transmitter and alarm circuits W9274 FISHER 4200 TRANSMITTER WA4271 1 FISHER 4200 TRANSMITTER ON A CONTROL VALVE Ser EMERSON www Fisher com Process Management Product Bulletin 62 3 4200 July 2014 4200 Transmitters D200357X012 Specifications Available Configurations See table 1 Input Signal Source Bi Standard single potentiometer or optional W dual potentiometer is the source for the transmitter and travel limit alarm circuit inputs Refer to table 2 for zero and span limits Transmitter Output Signal Range 4 20 mA DC transmitter output Load Impedance See figure 1 Output Current Limit 30 mA DC maximum Travel Limit Alarms Number of Possible Alarms Two or none Each SPDT relay indicates limit and fault conditions as follows Operating Relay Coil NC Contact NO Contact Condition State State State Travel within Xr energized open closed limits Travel beyond de energized closed open limits Power loss de energized closed open Meca closed Contacts are closed when relay is de energized NO Normally open C
5. X 4212 X X pka 4215 X X X X 4220 X X X 4221 X T X 4222 X X is 1 See table 2 for zero and span limits Table 2 Zero and Span Limits DEGREES OF mm INCHES TYPE POTENTIOMETER ROTATION LINKAGE NUMBER Zero Span CONNECTION Zero Span Zero Span Position Min Max Position Min Max Position Min Max 4210 1 0to51 8 51 0to2 0 315 2 4211 4212 0to 90 15 90 2 Oto 105 17 105 0to 4 125 0 670 4 125 4215 4220 12 inch Transducer 0 to 305 105 305 Oto 12 4 125 12 4221 0 to 884 150 884 4222 24 inch Transducer 0 to 610 305 610 0 to 24 12 24 1 Zero position is the range of values over which the transmitter zero can be adjusted Span is the range of shaft rotation or stem travel the transmitter span can be adjusted For example a zero position of 45 degrees and a span of 15 degrees means the transmitter output is 4 mA DC after 45 degrees of shaft rotation The output then increases from 4 mA DC to 20 mA DC as the shaft rotates from 45 to 60 degrees 2 Refer to figure 4 for location of connections Product Bulletin 62 3 4200 4200 Transmitters July 2014 D200357X012 Table 3 Power Supply Requirements and Wiring Connections TRANSMITTER TERMINAL VOLTAGE VDC FIELD WIRING CONNECTIONS Min Max REQUIRED MA Supply Wire 1 Signal Wire 2 Relay Return Wire 3 Transmitter Only 11 30 X X Transmitter with Travel Limit Alarms a id 5 5 Travel Limit Alarms without
6. is mounted on the actuator A coupling connects the hub of the actuator to the potentiometer shaft To reduce the possibility of physical damage if the coupling should slip the potentiometer has no physical stops Zero and span can be adjusted as follows m Zero Between 0 and 90 degrees of shaft rotation m Span Between 15 and 90 degrees of shaft rotation SIDE VIEW 5 16 18UNC 13 DEEP 0 53 mm INCH Other Devices The transmitter is mounted such that the potentiometer shaft or linkage aligns with the motion of the device The motion of the device should not exceed the zero and span input signal limits in degrees of rotation 4200 Transmitters D200357X012 Long Stroke Position Transmitter Long Stroke Sliding Stem Valve The transmitter is mounted on the actuator as shown in figure 3 The travel transducer assembly can sense from a 105 mm 4 125 inch minimum to a 610 mm 24 inch maximum stem travel The sensing element is a multi turn potentiometer with physical stops Two travel transducer sizes are available for long stroke applications m Zero Between 0 and 305 mm 12 inches for the small transducer Between 0 and 610 mm 24 inches for the large transducer Span Between 105 mm 4 125 inches minimum and 305 mm 12 inches maximum for the small transducer Between 305 mm 12 inches minimum and 610 mm 24 inches maximum for the large transducer Other Devices The transmitter is mounted such that
7. 4200 Transmitters D200357X012 Product Bulletin 62 3 4200 July 2014 Fisher 4200 Electronic Position Transmitters The instrument can sense the position of rotary or sliding stem valves vents dampers or other devices When the instrument is mounted a potentiometer shaft is mechanically connected to the device to sense mechanical motion For a standard instrument a single potentiometer is provided for position input or an optional dual element potentiometer is available to allow independent electrical operation of the transmitter and alarm circuits The instrument has standard or long stroke see figure 3 capabilities for sliding stem actuator applications For long stroke applications a multi turn potentiometer attached to a travel transducer assembly is used to sense linear motion of the actuator stem or other devices The instrument with standard capabilities can also be used on quarter turn actuators For instruments equipped with electronic travel limit alarms individual electronic high and low alarm circuits drive separate high and low alarm SPDT relays The user adjusts the trip point and deadband of the high and low alarms to the desired travel limits When the sense potentiometer voltage is higher than the high trip point the electronic high alarm circuit de energizes the high alarm relay When the sense potentiometer voltage is lower than the low trip point the low alarm circuit de energizes the low alarm relay
8. Transmitter 20 20 DE X indicates this connection required 1 Supply wire provides power supply positive connection for electronic circuits and relay coils in instruments with travel limit alarms 2 Signal wire provides connection for device receiving 4 to 20 mA transmitter signal 3 Relay return wire provides separate return wire for relay coil currents To reduce field wiring requirements from 4 to 3 wires Figure 1 Transmitter Load Limitations the transmitter and alarm circuits share the positive supply wire A separate return wire is required to isolate relay coil currents from the 4 20 mA transmitter signal g 1000 _ 750 ua 650 e Features 2 500 OPERATING 8 REGION m High Accuracy A precision film element s potentiometer in the standard unit and a precision 2 Q 250 multi turn wirewound potentiometer in the long stroke unit provide exceptional linearity by matching the span of the sense element to the 1 MAXIMUM E dn 0 10 20 30 TRANSMITTER application ii 24 TERMINAL VOLTAGE NOMINAL SUPPLY m Application Versatility This instrument may be VOLTAGE th clidina MINIMUM used with sliding stem or rotary valves as well as Poen SUBPGCVOLTAGE WOLISDGL TRANSMITTER with other mechanical devices such as furnace TERMINAL VOLTAGE A6765 dampers or louvers m Electronic Travel Limit Alarms To eliminate the need for externally mounted mechanical limit switches instruments with travel limit alarms incorporate comparator circ
9. X012 Figure 4 Mounting Dimensions ACTUATOR HOUSING 39077678 CONNECTION CONNECTION 4947765 A NUMBER 1 NUMBER 2 TYPICAL MOUNTING BRACKET DIMENSIONS TYPICAL MOUNTING BRACKET DIMENSIONS FOR SLIDING STEM ACTUATORS FOR ROTARY SHAFT ACTUATORS FISHER 4200 TRANSMITTER MOUNTING 204 B HG 0 38 111 4 38 tio GE16563 A MOUNTING BRACKET DIMENSIONS FOR FISHER 585CLS ACTUATORS WITH A 152 mm 6 INCH CHANNEL Note 1 For other sizes of 585CLS actuators the mounting plate length will change depending on the channel width Product Bulletin 4200 Transmitters 62 3 4200 D200357X012 July 2014 Table 4 Fisher 4211 and 4221 Electronic Position Transmitter EMC Summary Results Immunity Port Phenomenon Basic Standard Test Level performance Criteria Electrostatic Discharge ESD IEC61000 4 2 4KV contact A 8 kV air 80 to 1000 MHz 10V m with 1 kHz AM at 80 Enclosure Radiated EM field IEC 61000 4 3 1400 to 2000 MHz 3V m with 1 kHz AM at 80 A 2000 to 2700 MHz 1V m with 1 kHz AM at 80 hai power frequency magnetic IEC61000 4 8 60 A m at 50 Hz A Burst fast transients IEC 61000 4 4 1kV A 1 0 signal control Surge IEC 61000 4 5 1 kV line to ground only each B Conducted RF IEC61000 4 6 150 kHz to 80 MHz at 3 Vrms A 1 kHz AM at 80 Specification limit 1 of span 1 A No degradation during testing B Temporary degradation du
10. mbient Relative 10 to 95 10 to 95 40 Humidity Construction Materials Transmitter Housing and Covers Aluminum Alloy O Rings Nitrile Mounting Hardware Steel Pipe Plug Nickel coated steel Cable Nylon coated stainless steel long stroke only Mounting The instrument can mount on the actuator of sliding stem or rotary valves refer to figure 3 or it can be used for other applications Product Bulletin 4200 Transmitters 62 3 4200 D200357X012 July 2014 Specifications continued Electrical Classification Housing CSA Intrinsically Safe Explosion proof NEMA 4X CSA Enclosure 4X IP66 Dust Ignition proof FM Intrinsically Safe Explosion proof Approximate Weight Dust Ignition proof Non Incendive Transmitter Without Mounting Bracket 1 8 kg ATEX Intrinsically Safe Type n Dust Flameproof 4 pounds IECEx Intrinsically Safe Type n Dust Flameproof Refer to tables 5 6 7 and 8 for additional Options information Long stroke applications MI 12 or W 24 inch travel NOTE Specialized instrument terms are defined in ANSI ISA Standard 51 1 Process Instrument Terminology Table 1 Available Configurations TRAVEL TRAVEL LIMIT Standard Stroke Long Stroke DUAL TYPE NUMBER TRANSMITTER ALARMS Up to 105 mm Up to 610 mm 1 POTENTIOMETER Up to 4 125 Inches Up to 24 Inches 4210 X X X zunA 4211 X
11. ontacts are open when relay is de energized Power Supply Requirements See table 3 Recommended Power Supply 24 volts DC nominal Reference Accuracy 1 of output span Includes combined effects of hysteresis linearity and deadband Repeatability 0 25 of span continued Operating Influences Ambient Temperature For a 56 C 100 F change in normal operating conditions maximum zero shift is 0 5 and the maximum span shift is 0 75 of span Power Supply Output signal changes less than 0 1 when operating terminal voltage varies between 11 and 30 volts DC Electromagnetic Compatibility for 4211 and 4221 Meets EN 61326 1 First Edition Immunity Industrial locations per Table 2 of the EN 61326 1 standard Performance is shown in table 4 below Emissions Class A ISM equipment rating Group 1 Class A Travel Limit Alarm Relays Type Two single pole double throw relays Contacts 1 Form C silver nickel alloy with gold overlay Service Rating The relay rating is 5 amperes at either 30 volts DC or 120 volts AC resistive load Life Expectancy 100 000 operations at rated load or 50 000 operations at a typical in rush current of 10 amperes with a 120 volt AC lamp or motor load Operating Conditions Transportation m Normal and Normal Condition DRACONIS and Storage Operative Limits e Reference Limits Ambient 40 to 71 C 50 to 80 C 25 C Temperature 40 to 160 F 60 to 180 F 77 F A
12. p provide protection against electromagnetic interference Product Bulletin 62 3 4200 July 2014 RELAY FIELD PRINTED NUMBER 1 WIRING BOARD TERMINAL TERMINAL BLOCK BLOCK NUMBER 3 NUMBER 1 3906196 FIELD VIRI TERMINAL RELAY BLOCK NUMBER 2 NUMBER 2 W4675 1 FIELD WIRING COMPARTMENT Applications Standard Position Transmitter Sliding Stem Valve in typical valve applications the transmitter is mounted on the actuator Two linkage configurations sense up to 51 mm 2 inches or up to 105 mm 4 125 inches of stem travel The linkages incorporate mechanical gearing to linearize the transformation from linear motion to rotational To reduce the possibility of physical damage if the linkage should slip the potentiometer has no physical stops Zero and span can be adjusted as follows m Zero Between 0 and 51 mm 2 inches of travel or between 0 and 105 mm 4 125 inches of travel m Span Between 9 mm 0 3 inch minimum span and 51 mm 2 inches maximum span or between 17 mm 0 6 inch minimum span and 105 mm 4 125 inches maximum span Product Bulletin 62 3 4200 July 2014 Figure 3 Dimensions PORT 1 2 NPT 2 PLACES CAP TRANSMITTER COMPARTMENT 4200 Transmitters D200357X012 FIELD WIRING COMPARTMENT POTENTIOMETER SHAFT ALLOW 254 mm 10 INCHES FOR MAINTENANCE 2 PLACES B19103 A BOTTOM VIEW Rotary Shaft Valve In typical valve applications the transmitter
13. ring testing but is self recovering Table 5 Hazardous Area Classifications CSA Canada Certification Body Type Certification Obtained Entity Rating Temperature Code Enclosure Rating Ui 30 VDC Intrinsically Safe li 150 mA 4211 4221 Class II III Division 1 GP A B C D E F G Pi 1 0W TA Tamb x 71 C 4X per drawing GE16020 Ci 5nF Li 0 mH ME Explosion proof EN js ot Ex d IIC T5 T5 Tamb lt 71 C 4X 4222 Class I Division 1 GP B C D T5 4210 4211 4212 4215 eius o 4220 4221 Class Il Division 1 GP E F G T5 T5 Tamb lt 71 C 4X 4222 Table 6 Hazardous Area Classifications FM United States Certification Body Type Certification Obtained Entity Rating Temperature Code Enclosure Rating Vmax 30 VDC Intrinsically Safe Imax 150 mA 4211 4221 Class IL III Division 1 GP A B C D E F G Pi 1 0W TA Tamb lt 71 C 4X per drawing GE16019 Ci 18nF Li 0 mH 4210 4211 4212 4215 Explosion proof 4220 4221 Class Zone 1 AEx d IIC T5 ess T5 Tamb lt 71 C 4X FM i f Class I Division 1 GP A B C D T5 4222 Class Division 2 GP A B C D T4 B C Pe lt 71 biis Class II Division 2 GP F G T4 dr an 4210 4211 4212 4215 Md o 4220 4221 Class Il Division 1 GP E F G T5 T5 Tamb lt 71 C 4X 4222 Product Bulletin 62 3 4200 4200 Transmitters
14. uits that monitor the m Durable Construction A rugged housing and a sense potentiometer voltage output corrosion resistant coating on the printed wiring board help protect the instrument from harsh m Adjustable Deadband Electronic travel limit alarms environments have an adjustable deadband up to 10 percent of the maximum span m Simple Circuitry A simple electronic design m Compact Design The instrument even with travel limit alarms uses little space when mounted allowing room for additional devices combines the best qualities of discrete components and integrated circuits for improved reliability and performance 4200 Transmitters D200357X012 Figure 2 Fisher 4210 Transmitter Details PRINTED WIRING BOARD W9275 TRANSMITTER COMPARTMENT Easy Maintenance The simple design of the transmitter and alarms allows easy maintenance The high reliability of the instrument requires minimum spare parts inventory Moisture Resistant The field wiring compartment is isolated from the electronic compartment This protects the electronic circuits from any moisture brought into the housing via the field wiring ports Field Reversible Action The output is easily reversed in the field simply by switching two potentiometer leads on the printed wiring board Electromagnetic Interference EMI Filters Filters between the electronic compartment and the field wiring compartment of the housing hel
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