Model 264DC Differential/GaugeModel 264HC GaugeModel 264NC Absolute
Data Sheet DS/264XC-EN rev. F
Base accuracy : ±0.075%
Span limits– 0.54 to 16000kPa; 2.14inH2O to 2320psi– 1.1 to 16000kPa abs; 8mmHg to 2320psia
Reliable sensing system coupled with very latestdigital technologies
Comprehensive sensor choice– optimize in-use total performance and stability
5–year stability
Flexible configuration facilities– provided locally via local keys combined with LCD indicator or via hand held terminal or PC configuration platform
ABB 2600T SeriesEngineered solutionsfor all applications
Multiple protocol availability– provides integration with HART®, PROFIBUS PA and FOUNDATION Fieldbus platforms offering interchangeability and transmitter upgrade capabilities
Broad selection of variants, options, fill fluidsand wetted materials– allows total flexibility maximizing cost-effective aspect, also providing applications with critical process media at extended temperature range
PED compliance to sound engineering practice (SEP)
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
2
Functional SpecificationsRange and span limits
General DescriptionModel 264DC and 264HC/NC detailed in this data sheet apply for thosetransmitters which include on high pressure measuring side, a directmount seal which is integral to the transducer by a short capillaryconnection inside a protective rigid tube.This construction forms a standalone single assembly suitable to bemounted to the process by the seal mounting facilities.By properly selecting the high and low pressure side variant in the orderingcodes model 264DC can be in the following versions :a) one direct mount seal and one flange for process connection, direct
1/4 – 18 NPT or 1/2 – 14 NPT through adapter; this allows also to connectthe other leg (wet or dry) for differential measurement.A proper filter is supplied as standard when 1/4 – 18 NPT connectionis selected, in order to plug the unused entry, leaving it vented for gaugemeasurement with reference to atmosphere.
b) one direct mount seal and one remote seal with capillary; the two sealsallow again a differential measurement and must be selected of sametype/size.
The combinations sensor code/seal type marked (•) modify the base accuracy rating and static pressure effect; refer to performance specifications.
ALL AVAILABLE SEALS FOR DIRECT MOUNT ARE SUITABLE FOR LISTED RANGES OF MODELS 264HC/NC WITHOUT LIMITATION.
(§) Lower Range Limit is 0.135kPa abs, 1.35mbar abs, 1mmHg for inert Galden or 0.4kPa abs, 4mbar abs, 3mmHg for inert Halocarbon.
Model 264HC and 264NC have the direct mount seal on the positive side,respectively with the reference at atmospheric or vacuum pressure, forgauge or absolute measurements. Allowed types of direct mount seal arethose mainly used for chemical application:- flush diaphragm flange mounted seal- extended diaphragm flange mounted sealThese are suitable also for other process applications including food andsanitary, using FDA approved filling, which are defined as food fills and areGenerally Recognized As Safe (GRAS) by the US Food and DrugAdministration (FDA).Refer to seal data sheet for all data and details relevant to seal element.The following table list the types of standard seal which can be mountedwith 264DC/HC/NC transmitters (the mnemonic is used as reference in thecompatibility table).
epytlaeS eziS cinomenM
degnalFmgarhpaidhsulf
05ND/ni2001-08ND/ni4-3
2P3P
degnalFdednetxemgarhpaid
05ND/ni208ND/ni3001ND/ni4
2E3E3P
All following specification data apply for identical characteristics of the two seals when the transmitter has the remote seal in addition to the direct mount one.
rosneSedoC
egnaRreppU)LRU(timiL
)LRL(timiLegnaRrewoLmuminiM
naps
ytilibitapmoC)CD462roflaesdewolla(
CD462tnuomtceriD
laitnereffid
CD462tnuomtceriD
eguag
CN/CH462tnuomtceriDetulosba/eguag
tnuomtceriDylnolaes
dnatnuomtceriDlaesetomereno).mnihtgnelxam(
EaPk61
rabm061Hni46 2O
aPk61–rabm061–
Hni46– 2O
aPk61–rabm061–
Hni46– 2O
aPk45.0rabm4.5
Hni41.2 2O
3P,)•(2P)•(3E
)3(3P)•()2(3E
FaPk04
rabm004Hni061 2O
aPk04–rabm004–
Hni061– 2O
aPk04–rabm004–
Hni061– 2O
aPk76.0rabm7.6
Hni76.2 2O
3P,2P3E,)•(2E
)5(3P,)•()2(2P)3(3E
GaPk56
rabm056Hni062 2O
aPk56–rabm056–
Hni062– 2O
aPk56–rabm056–
Hni062– 2O
)§(sbaaPk70.0/aPk56–)§(sbarabm7.0/rabm056–
Hni062– 2 )§(gHmm5.0/O
aPk1.1rabm11
Hni53.4 2O
3P,2P3E,)•(2E
)5(3P,)•()2(2P)3(3E
HaPk061
rabm0061Hni246 2O
aPk061–rabm0061–
Hni246– 2O
)§(sbaaPk70.0)§(sbarabm7.0
)§(gHmm5.0
)§(sbaaPk70.0)§(sbarabm7.0
)§(gHmm5.0
aPk76.2rabm7.62
Hni7.01 2O
3P,2P3E,2E
)8(3P,)5(2P)6(3E,)4(2E
MaPk006
rab6isp78
aPk006–rab6–isp78–
)§(sbaaPk70.0)§(sbarabm7.0
)§(gHmm5.0
)§(sbaaPk70.0)§(sbarabm7.0
)§(gHmm5.0
aPk01rab1.0isp54.1
3P,2P3E,2E
)8(3P,)8(2P)8(3E,)6(2E
PaPk0042
rab42isp843
aPk0042–rab42–isp843–
)§(sbaaPk70.0)§(sbarabm7.0
)§(gHmm5.0
)§(sbaaPk70.0)§(sbarabm7.0
)§(gHmm5.0
aPk04rab4.0isp8.5
3P,2P3E,2E
)8(3P,)8(2P)8(3E,)6(2E
QaPk0008
rab08isp0611
aPk0008–rab08–
isp0611–
)§(sbaaPk70.0)§(sbarabm7.0
)§(gHmm5.0
)§(sbaaPk70.0)§(sbarabm7.0
)§(gHmm5.0
aPk431rab43.1isp4.91
3P,2P3E,2E
)8(3P,)8(2P)8(3E,)6(2E
SaPk00061
rab061isp0232
aPk00061–rab061–isp0232–
)§(sbaaPk70.0)§(sbarabm7.0
)§(gHmm5.0
)§(sbaaPk70.0)§(sbarabm7.0
)§(gHmm5.0
aPk762rab76.2isp7.83
3P,2P3E,2E
)8(3P,)8(2P)8(3E,)6(2E
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
3
Operative limits
Temperature limits °C (°F) :
Ambient (is the operating temperature)
Lower ambient limit for LCD indicators: –20°C (–4°F)
Upper ambient limit for LCD indicators: +70°C (+158°F)
Note : For Hazardous Atmosphere applications see the temperaturerange specified on the certificate/approval relevant to theaimed type of protection
Process
Lower limit (side without seal for 264DC only)
– refer to lower ambient limits; –20°C (–4°F) for Viton gasket
Upper limit (side without seal for 264DC only)
– Silicone oil: 121°C (250°F) (1)
– Inert fluid: 100°C (212°F) (2)
(1) 100°C (212°F) for application below atmospheric pressure
(2) 65°C (150°F) for application below atmospheric pressure
The following table show characteristics of fill fluids when used intransmitters with direct mount seal on high pressure side.
Storage
Lower limit: –50°C (–58°F); –40°C (–40°F) for LCD indicators
Upper limit: +85°C (+185°F)
Span limits
Maximum span = URL(can be further adjusted up to ± URL (TD = 0.5) for differentialmodels, within the range limits)
IT IS RECOMMENDED TO SELECT THE TRANSMITTER SENSORCODE PROVIDING THE TURNDOWN VALUE AS LOWEST ASPOSSIBLE TO OPTIMIZE PERFORMANCE CHARACTERISTICS.
Zero suppression and elevation
Zero and span can be adjusted to any value within the range limitsdetailed in the table as long as:
– calibrated span ≥ minimum span
DampingSelectable time constant : 0, 0.25, 0.5, 1, 2, 4, 8 or 16s.This is in addition to sensor response time
Turn on time
Operation within specification in less than 1s with minimumdamping.
Insulation resistance
> 100MΩ at 1000VDC (terminals to earth)
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nimPsbarabm
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nimT
002CD-lioenociliS)esopruplareneG(
)093(002rabm53@
7.0)10.0(
061)023(
04–)04–(
407CD-lioenociliS)erutarepmethgiH(
)084(052rabm5.3@
7.0)10.0(
022)824(
01–)41+(
TLXmrehtlyS–remyloPenociliS)erutarepmetwoL(
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2)30.0(
02)86(
001–)841–(
02-MeeboeN-lioelbategeVADF)yratinaS-dooF(
)093(002rab1@
031)9.1(
051)003(
81-)0(
)%07(retaWnirecylGADF)yratinaS-dooF(
)002(39rab1@
0001)5.41(
39)002(
7–)02+(
28LOCRAM-liolareniMADF)yratinaS-dooF(
)093(002rabm002@
33)5.0(
04)401(
04–)04–(
nedlaG–trenI)ecivreSnegyxO(
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7.0)10.0(
56)051(
81–)0(
2.4nobracolaH–trenI)ecivreSnegyxO(
)653(081rabm004@
4)60.0(
07)851(
02–)4–(
llifBBA)slaicepsdnastniaP(
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7.0)10.0(
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01–)41+(
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)581+dna04–(58+dna52–
)581+dna31–(58+dna04–
)581+dna04–(trenI
nedlaG58+dna02–)581+dna4–(
58+dna01–)581+dna41+(
58+dna02–)581+dna4–(
trenInobracolaH
58+dna02–)581+dna4–(
58+dna01–)581+dna41+(
58+dna02–)581+dna4–(
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
4
Pressure limits
Overpressure limits (without damage to the transmitter)
0.07kPa abs, 0.7mbar abs, 0.01psia (0.135kPa abs, 1.35mbar abs,1mmHg for inert Galden or 0.4kPa abs, 4mbar abs, 3mmHg for inertHalocarbon) to transmitter sensor limit or flange rating of seal,whichever is less:
– 16MPa, 160bar, 2320psi for all sensor codes of model 264DC
– 14MPa, 140bar, 2030psi for sensor codes G, H, M of models 264HCand 264NC
– 21MPa, 210bar, 3045psi for sensor codes P, Q, S of models 264HCand 264NC
– maximum flange pressure rating (see tables below)
The pressure limit decreases with increasing temperature above120°C for carbon steel or 20°C for AISI 316 stainless steel,according to EN 1092-1 standards.
The pressure limit decreases with increasing temperature above100°F (38°C), according to ASME B16.5 standards.
Static pressure
Transmitters for differential pressure model 264DC operates withinspecifications between the following limits:
– 1.3kPa abs,13mbar abs, 0.2psia and 16MPa, 160bar, 2320psi orflange rating of seal as above, whichever is less
– 0.07kPa abs, 0.7mbar abs, 0.01psia and 16MPa,160bar,2320psi or flange rating of seal as above, whichever is less, usinga second seal remote on negative pressure side.
Proof pressure
The transmitter can be exposed without leaking to line pressure of up to:
– 28MPa, 280bar, 4000psi for model 264DC
– 40MPa, 400bar, 5900psi for models 264HC and 264NC
or two times the flange rating of seal, whichever is less.
Meet ANSI/ISA–S 82.03 hydrostatic test requirements and SAMA PMC 27.1.
Environmental limits
Electromagnetic compatibility (EMC)
Comply with EN 61000–6–3 for emission and EN 61000–6–2 forimmunity requirements and test;
Radiated electromagnetic immunity level: 30V/m(according to IEC 1000–4–3, EN61000–4–3)
Conducted electromagnetic immunity level : 30V(according to IEC 1000–4-6, EN 61000–4–6)
Surge immunity level (with surge protector): 4kV(according to IEC 1000-4–5 EN 61000–4–5)
Fast transient (Burst) immunity level: 4kV(according to IEC 1000–4–4 EN 61000–4–4)
Pressure equipment directive (PED)
Comply with 97/23/EEC following sound engineering practice (SEP).
Humidity
Relative humidity: up to 100% annual average
Condensing, icing: admissible
Vibration resistance
Accelerations up to 2g at frequency up to 1000Hz(according to IEC 60068–2–6)
Shock resistance (according to IEC 60068-2-27)
Acceleration: 50g
Duration: 11ms
Wet and dust-laden atmospheres
The transmitter is dust and sand tight and protected against immersioneffects as defined by EN 60529 (1989) to IP 67 (IP 68 on request) or byNEMA to 4X or by JIS to C0920. IP65 with Harting Han connector.
Hazardous atmospheres
With or without output meter/integral display– COMBINED ATEX (Intrinsic safety and flameproof), FM and CSA
ZELM approval. See below detailed classifications.– COMBINED INTRINSIC SAFETY and FLAMEPROOF/EUROPE:
ATEX/ZELM approvalII 1 GD T50°C, EEx ia IIC T6 (–40°C ≤ Ta ≤+40°C)T95°C, EEx ia IIC T4 (–40°C ≤ Ta ≤+85°C)II 1/2 GD T85°C, EEx d IIC T6 (–40°C ≤ Ta ≤ +75°C)
– INTRINSIC SAFETY/EUROPE:ATEX/ZELM approvalII 1 GD T50°C, EEx ia IIC T6 (–40°C ≤ Ta ≤+40°C)T95°C, EEx ia IIC T4 (–40°C ≤ Ta ≤+85°C)
– TYPE "N"/EUROPE:ATEX/ZELM type examination (for HART)II 3 GD T50°C, EEx nL IIC T6 (–40°C ≤ Ta ≤+40°C)
T95°C, EEx nL IIC T4 (–40°C ≤ Ta ≤+85°C)– FLAMEPROOF/EUROPE:
ATEX/CESI approvalII 1/2 GD T85°C, EEx d IIC T6 (–40°C ≤ Ta ≤ +75°C)
– CANADIAN STANDARDS ASSOCIATION and FACTORY MUTUAL:– Explosionproof: Class I, Div. 1, Groups A, B, C, D– Dust ignitionproof : Class II, Div. 1, Groups E, F, G– Suitable for : Class II, Div. 2, Groups F, G; Class III, Div. 1, 2– Nonincendive: Class I, Div. 2, Groups A, B, C, D– Intrinsically safe: Class I, II, III, Div. 1, Groups A, B, C, D, E, F, G
AEx ia IIC T6/T4, Zone 0 (FM)– STANDARDS AUSTRALIA (SAA): TS Approval
- Intrinsically safe Ex ia IIC T4/T5 (–20°C ≤ Ta ≤+80°C) only HART- No sparking Ex n IIC T4/T6 (–20°C ≤ Ta ≤+80°C) only HART- Flameproof Ex d IIC T4/T6 (–20°C ≤ Ta ≤+80°C)- Dust ignitionproof DIP A21 Ta T6 (–20°C ≤ Ta ≤+80°C)
– INTRINSIC SAFETY/CHINANEPSI approval Ex ia IIC T4-T6
– FLAMEPROOF/CHINANEPSI approval Ex d IIC T6
– GOST (Russia), GOST (Kazakistan), Inmetro (Brazil)based on ATEX
ssalC/gnitaR5.61BEMSAot
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leetSsselniatS613ISIA)C°83(F°001@
051ssalC isp582 isp572
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006ssalC isp0841 isp0441
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ssalC/gnitaR1-2901NEot
leetSnobraCC°021@
leetSsselniatS613ISIAC°02@
61NP rab61 rab61
04NP rab04 rab04
36NP rab36 rab36
001NP rab001 rab001
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
5
Optional surge protection
Up to 4kV
– voltage 1.2 µs rise time / 50 µs delay time to half value
– current 8 µs rise time / 20 µs delay time to half value
Output signal
Two–wire 4 to 20mA, user-selectable for linear or square root output,power of 3/2 or 5/2, 5th order or two 2nd order switching point selectableprogrammable polynomial output.
HART® communication provides digital process variable (%, mA orengineering units) superimposed on 4 to 20mA signal, with protocolbased on Bell 202 FSK standard.
Output current limits (to NAMUR standard)
Overload condition
- Lower limit: 3.8mA
- Upper limit: 20.5mA
Transmitter failure mode (to NAMUR standard)
The output signal can be user-selected to a value of 3.7 or 22mA ongross transmitter failure condition, detected by self-diagnostics.
In case of CPU failure the output is driven <3.7mA or >22mA.
Electrical Characteristics and Options
HART digital communication and 4 to 20mA output
Power Supply
The transmitter operates from 10.5 to 42VDC with no load and isprotected against reverse polarity connection (additional load allowsoperations over 42VDC).
For EEx ia and other intrinsically safe approval power supply mustnot exceed 30VDC.
Ripple
20mV max on a 250Ω load as per HART specifications
Load limitations
4 to 20mA and HART total loop resistance :
A minimum of 250Ω is required for HART communication.
Optional indicators
Output meter
CoMeter and Prometer LCD :
5-digit (±99999 counts) programmable with 7.6mm. high (3in),7-segment numeric characters plus sign and digital point for digitalindication of output value in percentage, current or engineer unit;
10-segment bargraph display (10% per segment) for analogindication of output in percentage;
7-digit with 6mm. high (2.3in), 14-segment alphanumericcharacters, for engineer units and configuration display
Analog : 36mm (1.4in) scale on 90°.
Integral display
LCD, 15 lines x 56 column dot matrix providing 2 lines indication as
– top: 5-digit (numeric) plus sign or 7-digit alphanumeric
– bottom: 7-digit alphanumeric
and additional 50-segment bargraph for indication of analog outputin percentage.
User-definable matrix display mode with HART communication:
– process variable in pressure unit or
– output signal as percentage, current or engineering units
Display also indicates in/out transfer function, static pressure, sensortemperature and diagnostic messages and provides configurationfacilities.
R(kΩ) =Supply voltage – min. operating voltage (VDC)–––––––––––––––––––––––––––––––––––––––
22.5
(volts)
MINIMUM OPERATING VOLTAGES
10.5
with integral display
with optional output analog indicator
with optional surge protection
with ProMeter output indicator
10.7 12.3 12.5
no link on output indicator plugs
15.3
with CoMeter indicator and HART communication
13.3
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
6
PROFIBUS PA output
Device type
Pressure transmitter compliant to Profiles 3.0 Class A & B; ident.number 052B HEX.
Power supply
The transmitter operates from 9 to 32VDC , polarity independent.
For EEx ia approval power supply must not exceed 17.5VDC.Intrinsic safety installation according to FISCO model.
Current consumptionoperating (quiescent): 10.5mA
fault current limiting: 20mA max.
Output signal
Physical layer in compliance to IEC 1158–2/EN 61158–2 withtransmission to Manchester II modulation, at 31.25kbit/sec.
Output interface
PROFIBUS PA communication according to Profibus DP50170 Part 2/DIN 19245 part 1–3.
Output update time
25ms
Function blocks
2 analog input, 1 transducer, 1 physical
Integral display
LCD, 15 lines x 56 column dot matrix providing 2 lines indication as
– top: 5-digit (numeric) plus sign or 7-digit alphanumeric
– bottom: 7-digit alphanumeric
and additional 50-segment bargraph for indication of output inpercentage of the analog input function block assigned to the primaryvariable.
User-definable matrix display mode:
– process variable in pressure units or
– primary variable in engineering units (output of transducer block) or
– output as percentage or engineering units of analog input functionblocks
Display also indicates diagnostic messages and providesconfiguration facilities.Secondary variable, static pressure and sensor temperature can beread.
Transmitter failure mode
On gross transmitter failure condition, detected by self-diagnostics,the output signal can be driven to defined conditions, selectable by theuser as safe, last valid or calculated value. If electronic failure or shortcircuit occur the transmitter consumption is electronically limited at adefined value (20mA approx), for safety of the network.
FOUNDATION Fieldbus output
Device type
LINK MASTER DEVICE
Link Active Scheduler (LAS) capability implemented.
Power supply
The transmitter operates from 9 to 32VDC, polarity independent.
For EEx ia approval power supply must not exceed 24VDC (entitycertification) or 17.5VDC (FISCO certification), according to FF–816.
Current consumption
operating (quiescent): 10.5mA
fault current limiting: 20mA max.
Output signal
Physical layer in compliance to IEC 1158–2/EN 61158–2 withtransmission to Manchester II modulation, at 31.25kbit/sec.
Function blocks/execution period
2 enhanced Analog Input blocks/25ms max (each)1 enhanced PID block/40ms max.1 standard ARitmetic block/25ms1 standard Input Selector block/25ms1 standard Control Selector block/25ms1 standard Signal Characterization block/25ms1 standard Integrator/Totalizer block/25ms
Additional blocks
1 enhanced Resource block
1 custom Pressure with calibration transducer block
1 custom Advanced Diagnostics transducer block including Plugged Input Line Detection
1 custom Local Display transducer block
Number of link objects35
Number of VCRs
35
Output interface
FOUNDATION fieldbus digital communication protocol to standard H1,compliant to specification V. 1.6; FF registration in progress.
Integral display
LCD, 15 lines x 56 column dot matrix providing 2 lines indication as
– top: 5-digit (numeric) plus sign or 7-digit alphanumeric
– bottom: 7-digit alphanumeric
and additional 50-segment bargraph for percentage indication of theanalog input function block output, assigned to the primary variable.
User-definable matrix display mode:
– process variable in pressure units or
– primary variable in engineering units (output of transducer block) or
– output as percentage or engineering units of one or more selected function blocks
Display also indicates diagnostic messages. Secondary variable,static pressure and sensor temperature can be read.
Transmitter failure mode
The output signal is "frozen" to the last valid value on gross transmitterfailure condition, detected by self-diagnostics which also indicate aBAD conditions. If electronic failure or short circuit occur the transmitterconsumption is electronically limited at a defined value (20mA approx),for safety of the network.
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
7
Operating influences
Temperature effects
per 20K (36 °F) ambient temperature change on transmitter sensorbetween the limits of –20°C to +65°C (–4 to +150°F) :
Transmitter effect:
– ±(0.04% URL + 0.065% span)
Direct mount seal additional effect:
per 20K (36°F) process temperature change on seal diaphragmbetween the process operating temperature limits
Optional CoMeter and ProMeter ambient temperature
Total reading error per 20K (36°F) change between the ambient limitsof –20 and +70°C (-4 and +158°F) :
±0.15% of max span (16mA).
Static pressure (zero errors can be calibrated out at line pressure)
seal effect additional to transmitter sensor effect applicable fordifferential measurement per 2MPa, 20bar or 290psi.
Model 264DC direct mount seal only– zero error: ±0.15% of URL– span error: ±0.15% of readingModel 264DC direct mount plus remote seal– zero error: ±0.20% of URL– span error: ±0.20% of readingMultiply by 1.5 the errors for sensor seal combinations marked (•).
Supply voltage
Within voltage/load specified limits the total effect is less than0.005% of URL per volt.
Load
Within load/voltage specified limits the total effect is negligible.
Electromagnetic field
Total effect : less than 0.10% of span from 20 to 1000MHz and forfield strengths up to 30V/m when tested with shielded conduit andgrounding, with or without meter.
Common mode interference
No effect from 100Vrms @ 50Hz, or 50VDC
Vibration effect
±0.10% of URL (according to IEC 61298–3)
URLSpan
URLSpan
URLSpan
Performance specificationsStated at reference condition to IEC 60770 ambient temperature of 20°C(68°F), relative humidity of 65%, atmospheric pressure of 1013hPa(1013mbar), mounting position with vertical diaphragm and zero basedrange for transmitter with isolating diaphragms in AISI 316 L ss or Hastelloyand silicone oil fill and HART digital trim values equal to 4–20mA span endpoints, in linear mode.
Unless otherwise specified, errors are quoted as % of span.
Some performance data are affected by the actual turndown (TD) as ratiobetween Upper Range Limit (URL) and calibrated span.
IT IS RECOMMENDED TO SELECT THE TRANSMITTER SENSOR CODEPROVIDING THE TURNDOWN VALUE AS LOWEST AS POSSIBLE TOOPTIMIZE PERFORMANCE CHARACTERISTICS.
Accuracy rating% of calibrated span, including combined effects of terminal basedlinearity, hysteresis and repeatability.
For fieldbus versions SPAN refer to analog input function block outscalerange
Using direct mount seal sizes <DN 80/3in– ±0.075% for TD from 1:1 to 10:1
(±0.10% for sensor code F ±0.10% for sensor code E for TD from 1:1 to 5:1)
– ±0.0075% x for TD from 10:1 to 20:1
(±0.01% x for sensor code F
±0.02% x for sensor code E for TD from 5:1 to 10:1)
Using direct mount seal sizes ≥DN 80/3in– ±0.075% for TD from 1:1 to 10:1
(±0.10% for sensor code E for TD from 1:1 to 5:1)
– ±0.0075% x for TD from 10:1 to 20:1
(±0.02% x for sensor code E for TD from 5:1 to 10:1)
Multiply the values by 1.5 for sensor/seal combination marked (•) and fortransmitter with direct mount seal plus one remote seal.
URLSpan
URLSpan
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05ND/ni2hsulF 21.0 2.1 84.0
001–08ND/ni4–3hsulF 20.0 2.0 80.0
05ND/ni2dednetxE 2.0 2 8.0
08ND/ni3dednetxE 60.0 6.0 42.0
001ND/ni4dednetxE 20.0 2.0 80.0
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05ND/ni2hsulF 23.0 2.3 82.1
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05ND/ni2dednetxE 53.0 5.3 4.1
08ND/ni3dednetxE 71.0 7.1 86.0
001ND/ni4dednetxE 1.0 1 4.0
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
8
Physical Specification(Refer to ordering information sheets for variant availability related tospecific model or versions code)
Materials
Model 264DC only
Low pressure side process isolating diaphragms (*)
AISI 316 L ss; Hastelloy C276™; Monel 400™; Tantalum;
Hastelloy C276™ on AISI 316 L ss gasket seat.
A remote seal can be selected with required diaphragm (refer to highpressure side).
Low pressure side process flanges, adapters, plugs and drain/ventvalves (*)
AISI 316 L ss; Hastelloy C276™; Monel 400™.
Bolts and nuts
AISI 316 ss bolts and nuts Class A4–50 per UNI 7323 (ISO 3506), incompliance with NACE MR0175 Class II.
Gaskets (*)
Viton™; PTFE.
Model 264DC/HC/NC
High pressure side process diaphragm (direct mount seal) (*)
AISI 316 L ss; Hastelloy C276™ , Tantalum;
AISI 316 L ss or Hastelloy C276™ with anti-stick coating;
AISI 316 L ss with anti-corrosion coating.
Extension material
AISI 316 L ss; Hastelloy C276™; AISI 316 L ss or Hastelloy C276™with coating same as diaphragm.
High pressure side fill fluid (direct mount seal)
Silicone oil-DC200™, Silicone oil-DC704™, Inert-Galden™,Inert-Halocarbon™ 4.2, Silicone Polymer-Syltherm XLT™,Vegetable oil-Neobee M-20™, Glycerin Water,Mineral oil-MARCOL 82™, ABB fill.
Sensor fill fluid
Silicone oil (DC200™); inert fill (Halocarbon ™ 4.2 or Galden™);
Sensor housing
AISI 316 L ss.
Electronic housing and covers
Barrel version
– Aluminium alloy with baked epoxy finish;
– Copper-free content aluminium alloy with baked epoxy finish;
– AISI 316 L ss.
DIN version
– Aluminium alloy with baked epoxy finish.
Covers O-ring
Buna N.
Local zero and span adjustments:
Glass filled polycarbonate plastic (removable).
Tagging
AISI 316ss data plate attached to the electronics housing.
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
9
CalibrationStandard: at maximum span, zero based range, ambient temperatureand pressure;
Optional: at specified range and ambient conditions.
Optional extras
Output indicator
plug-in rotatable type, LCD or analog.
Supplemental customer tag
AISI 316 ss tag screwed/fastened to the transmitter for customer's tagdata up to a maximum of 20 characters and spaces on one line for tagnumber and tag name, and up to a maximum of 3 spaced strings of 10characters each for calibration details (lower and upper values plusunit). Special typing evaluated on request for charges.
Surge protection (only as external unit for PROFIBUS PA and FF)
Test Certificates (test, design, calibration, material traceability)
Tag and manual language
Communication connectors
Process connectionson conventional flanges : 1/4 – 18 NPT on process axis
on adapters : 1/2 – 14 NPT on process axis
fixing threads: 7/16 – 20 UNF at 41.3mm centre distance
on mounting flange (seal side)
Flush diaphragm flanged seal (**):2in or 3in ASME 150 to 900 RF; 4in ASME 150-300RF.DN50 or DN80 EN PN16–40, PN63–100;DN100 PN 16 – 40.
Extended diaphragm flanged seal (**):2in, 3in, 4in ASME 150 - 300 RF.DN50, DN80, DN100 PN16 – 40.
Gasket seat finishsmooth (ASME or EN): 0.8µm (Ra)serrated (ASME): 3.2 to 6.3µm (Ra)serrated (EN 1092-1 Type B1; up to PN40): 3.2 to 12.5µm (Ra)serrated (EN 1092-1 Type B2; PN63-100): 0.8 to 3.2µm (Ra)
Electrical connectionsTwo 1/2 – 14 NPT or M20x1.5 or PG 13.5 or 1/2 GK threadedconduit entries, direct on housing.
Special communication connector (on request)
– HART : straight or angle Harting Han connector and one plug.
– FOUNDATION Fieldbus, PROFIBUS PA: M12x1 and 7/8.
Terminal block
HART version: three terminals for signal/external meter wiring up to2.5mm2 (14AWG) and three connection points for test andcommunication purposes.
Fieldbus versions: two terminals for signal wiring (bus connection)up to 2.5mm2 (14AWG)
Grounding
Internal and external 6mm 2 (10AWG) ground termination points areprovided.
Mounting positionTransmitter can be mounted in any position.Electronics housing may be rotated to any position. A positive stopprevents over travel.
Mass (without options)7kg to 30kg approx (15 to 65lb) according to specified seal(s)options; add 1.5kg (3.4lb) for AISI housing.Add 650g (1.5lb) for packing.
PackingCarton
(*) Wetted parts of the transmitter.
(**) Bolts and nuts, gasket and mating flange supplied by customer.
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
10
ConfigurationTransmitter with HART communication and 4 to 20 mA
Standard configuration
Transmitters are factory calibrated to customer's specified range.Calibrated range and tag number are stamped on the tag plate. If acalibration range and tag data are not specified, the transmitter will besupplied with the plate left blank and configured as follows:
Engineering Unit kPa4 mA Zero20 mA Upper Range Limit (URL)Output LinearDamping 1 sec.Transmitter failure mode UpscaleSoftware tag (8 characters max) BlankOptional LCD indicator/display 0 to 100.0% linear
Any or all the above configurable parameters, including Lower range–valueand Upper range-value which must be the same unit of measure, can beeasily changed using the HART hand–held communicator or by a PCrunning the configuration software SMART VISION with DTM for 2600T.The transmitter database is customized with specified flange type andmaterial, O–ring and drain/vent materials and meter code option.Custom configuration (option)The following data may be specified in addition to the standardconfiguration parameters:
Descriptor 16 alphanumeric charactersMessage 32 alphanumeric charactersDate Day, month, year
Transmitter with PROFIBUS PA communicationTransmitters are factory calibrated to customer's specified range.Calibrated range and tag number are stamped on the tag plate. If acalibration range and tag data are not specified, the transmitter will besupplied with the plate left blank and configured as follows:
Measure Profile PressureEngineering Unit kPaOutput scale 0% Lower Range Limit (LRL)Output scale 100% Upper Range Limit (URL)Output LinearHi-Hi Limit Upper Range Limit (URL)Hi Limit Upper Range Limit (URL)Low Limit Lower Range Limit (LRL)Low-Low Limit Lower Range Limit (LRL)Limits hysteresis 0.5% of output scalePV filter 0 sec.Address (settable by local key) 126Tag 32 alphanumeric characters
Any or all the above configurable parameters, including Lower range-valueand Upper range–value which must be the same unit of measure, can beeasily changed by a PC running the configuration software SMART VISIONwith DTM for 2600T.The transmitter database is customized with specified flange type andmaterial, O–ring and drain/vent materials and meter code option.Custom configuration (option)The following data may be specified in addition to the standardconfiguration parameters:
Descriptor 32 alphanumeric charactersMessage 32 alphanumeric charactersDate Day, month, year
Transmitter with FOUNDATION FieldbuscommunicationTransmitters are factory calibrated to customer's specified range.Calibrated range and tag number are stamped on the tag plate. If acalibration range and tag data are not specified, the transmitter will besupplied with the plate left blank and the analog input function block FB1is configured as follows:
Measure Profile PressureEngineering Unit kPaOutput scale 0% Lower Range Limit (LRL)Output scale 100% Upper Range Limit (URL)Output LinearHi-Hi Limit Upper Range Limit (URL)Hi Limit : Upper Range Limit (URL)Low Limit Lower Range Limit (LRL)Low-Low Limit Lower Range Limit (LRL)Limits hysteresis 0.5% of output scalePV filter time 0 sec.Tag 32 alphanumeric characters
The analog input function block FB2 is configured for the sensor tempe-rature measured in °C. Any or all the above configurable parameters,including the range values, can be changed using any host compliant toFOUNDATION fieldbus. The transmitter database is customized withspecified flange type and material, O–ring and drain/vent materials andmeter code option.
For any protocol available engineering units of pressure measure are :Pa, kPa, MPainH2O@4°C, mmH2O@4°C, psiinH2O@20°C, ftH2O@20°C, mmH2O@20°CinHg, mmHg, Torrg/cm2, kg/cm2, atmmbar, bar
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
11
MOUNTING DIMENSIONS (not for construction unless certified) - dimensions in mm (in)264DC with direct mount flanged flush diaphragm seal (barrel housing)
NOTE: Low pressure side opposite to direct mount seal can be a conventional flange or suitable for capillary to remote seal.Conventional process flange connection (1/4 – 18 NPT direct or 1/2 – 14 NPT through adapter), gasket groove and gaskets are inaccordance with DIN 19213.Bolting threads or fixing adapter for other devices on process flange is 7/16 – 20 UNF.
Certificationlabel
Identification tagAdjustments
Terminalside
Electronicside
Integraldisplayhousing
Min. clearanceto removethe cover
Output meterhousing
Drain/ventValve
Processconnection
71 (2.80)F G
BA
144 (5.67)
135
(5.3
1)
+
127 (5.00)
17 (0.67)26 (1.02)
17 (0.67)36 (1.42)
S
NOSSTIUCRIC
SEL
NOI
NETS
OST U
RREV
UOCE
LRE
DRAG
TNE' M
EF NE BELCI
QUAT
E
ALSTIU
CRIC
IVE
H
COPE
EK
VERTIGT
E
H
WN
!
86 (3.39)
AC
D
E
Electricalconnections
F G
BA
144 (5.67)
135
(5.3
1)
+
127 (5.00)
17 (0.67)26 (1.02)
17 (0.67)36 (1.42)
S
NOSSTIUCRIC
SEL
NOI
NETS
OST U
RREV
UOCE
LRE
DRAG
TNE' M
EF NE BELCI
QUAT
E
ALSTIU
CRIC
IVE
H
COPE
EK
VERTIGT
E
H
WN
!
86 (3.39)
AC
D
E
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
12
17 (0.67)
17 (0
.67)
36
(1.4
2)14
6 (5
.75)
B
50, 100 or 150
(1.97, 3.94 or 5.91)
A
144 (5.67)FG 27
(1.06)
+
26 (1.02)
S
NOSSTIUCRIC
SEL
NOI
NETS
OST U
RREV
UOCE
LRE
DRAG
TNE' M
EF NE BELCI
QUAT
E
ALSTIU
CRIC
IVE
H
COPE
EK
VERTIGT
E
H
WN
!
A
DC
E
264DC with direct mount flanged extended diaphragm seal (DIN housing)
Harting Hanconnector
Electronic side
Output meterhousing
Integral displayhousing
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
13
264HC/NC with direct mount flanged diaphragm seal (barrel housing)
Electricalconnections
S
NOSSTIUCRIC
SEL
NOI
NETS
OST U
RREV
UOCE
LRE
DRAG
TNE' M
EF NE BELCI
QUAT
E
ALSTIUCRI
C
IVE
H
COPE
EK
VERTIGT
E
H
WN
!
86 (3.39)
(*) Flush, 50, 100 or 150mm (1.97, 3.94 or 5.91in) extension
FG
B
(*)
A
76 (2
.99)
AC
D
E
18 (0
.71)
16
(0.6
3)
100
(3.9
4)
127 (5.00)
17 (0.67)26 (1.02)
17 (0.67)36 (1.42)
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61NPNE05ND04NPNE05ND36NPNE05ND
001NPNE05ND61NPNE08ND04NPNE08ND36NPNE08ND
001NPNE08ND61NPNE001ND04NPNE001ND
)63.2(06)63.2(06)63.2(06)63.2(06
)5.3(98)5.3(98)5.3(98)5.3(98)5.3(98)5.3(98
)9.1(84)9.1(84
ANAN
)38.2(27)38.2(27
ANAN
)7.3(49)7.3(49
)20.4(201)20.4(201)20.4(201)20.4(201)34.5(831)34.5(831)34.5(831)34.5(831)22.6(851)83.6(261
)29.4(521)29.4(521)13.5(531)17.5(541
)3.6(061)3.6(061)7.6(071
)80.7(081)80.7(081)84.7(091
)5.6(561)5.6(561
)80.7(081)76.7(591)78.7(002)78.7(002)64.8(512)50.9(032)66.8(022)52.9(532
)17.0(81)17.0(81)68.0(22)20.1(62)17.0(81)17.0(81)68.0(22)20.1(62)17.0(81)68.0(22
)97.0(02)97.0(02)20.1(62
)1.1(82)97.0(02)49.0(42
)1.1(82)62.1(23)97.0(02)49.0(42
)73.0(5.9)73.0(5.9)73.0(5.9)73.0(5.9)73.0(5.9)73.0(5.9)73.0(5.9)73.0(5.9)73.0(5.9)73.0(5.9
4444888888
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)ni(mmsnoisnemiD )ni(mmsnoisnemiD )ni(mmsnoisnemiD )ni(mmsnoisnemiD )ni(mmsnoisnemiDfo°N fo°N fo°N fo°N fo°Nseloh seloh seloh seloh seloh)aid(A )aid(A )aid(A )aid(A )aid(A
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051LCEMSAni2003LCEMSAni2006LCEMSAni2009LCEMSAni2051LCEMSAni3003LCEMSAni3006LCEMSAni3009LCEMSAni3051LCEMSAni4003LCEMSAni4
)63.2(06)63.2(06)63.2(06)63.2(06
)5.3(98)5.3(98)5.3(98)5.3(98)5.3(98)5.3(98
)9.1(84)9.1(84
ANAN
)38.2(27)38.2(27
ANAN
)7.3(49)7.3(49
)26.3(1.29)26.3(1.29)26.3(1.29)26.3(1.29
)5(721)5(721)5(721)5(721
)2.6(2.751)2.6(2.751
)57.4(56.021)5(721)5(721
)5.6(561)6(4.251
)26.6(51.861)26.6(51.861
)5.7(5.091)5.7(5.091)88.7(2.002
)6(4.251)5.6(1.561)5.6(1.561)5.8(9.512)5.7(5.091
)52.8(55.902)52.8(55.902
)84.9(142)9(6.822
)01(452
)97.0(02)97.0(02)97.0(02)20.1(62)97.0(02)68.0(22)68.0(22)20.1(62)97.0(02)68.0(22
)57.0(50.91)88.0(53.22
)1(4.52)5.1(1.83
)49.0(78.32)21.1(44.82)52.1(57.13
)05.1(1.83)49.0(42)62.1(23
)73.0(5.9)73.0(5.9)73.0(5.9)73.0(5.9)73.0(5.9)73.0(5.9)73.0(5.9)73.0(5.9)73.0(5.9)73.0(5.9
4888488888
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
14
Electrical connectionsHART Version
FIELDBUS Versions
+
+
-
-
++
--691HT
A B C
1
D E F
2
G H I
3
J K L
4
M N O
5
P Q R
6
S T U
7
V W X
8
Y Z #
9
@ % & /
0
+-
PV
REVIEW SERIALLINK
TRIM
F1 F2 F3 F4
CONF
M
Kent-Taylor
0
43
56 7 8
9
1020
40
0
60
100%
2 80
M+
-
- 1
54 6
23 8
7
+
TEST COMM
Internal groundtermination point
Fieldbus line(polarity independent)
External groundtermination point
Test points4 to 20mA
Hartingpin (male)
identification
Internal groundtermination point
External groundtermination point
Hand-heldcommunicator
GND
Line load
Remoteindicator
Powersource
250 ohm min
Receiver
HART hand-held communicator may be connected at any wiring termination point in the loop, providing the minimum resistanceis 250 ohm. If this is less than 250 ohm, additional resistance should be added to allow communications
Optional
BUS CONNECTIONS
2
1
4
3
1 3
42
7/8” connector
M12 x 1 connector
NOITACIFITNEDI)elam(NIPNOITADNUOF
subdleiFSUBIFORP
AP11111222223333344444
-FF+FF
DLEIHSDNUORG
+APDNUORG
–APDLEIHS
CONNECTOR IS SUPPLIED LOOSE WITHOUT MATING FEMALE PLUG
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
15
BASIC ORDERING INFORMATION model 264DC Differential /Gauge Pressure Transmitter withdirect mount sealSelect one character or set of characters from each category and specify complete catalog number.Refer to additional ordering information code and specify one or more codes for each transmitter if additional options are required.
LEDOMESAB 1– ts 5ot ht sretcarahc 2 6 4 D C X X X X X X d'tnoC
%570.0YCARUCCAESAB–laestnuomtceridhtiwrettimsnarTerusserPeguaGlaitnereffiD
–stimilnapS-ROSNES 6 ht retcarahcaPk61dna45.0aPk04dna76.0
aPk56dna1.1aPk061dna76.2
aPk006dna01aPk0042dna04aPk0008dna431aPk00061dna762
rabm061dna4.5rabm004dna7.6
rabm056dna11rabm0061dna7.62
rab6dna1.0rab42dna4.0rab08dna43.1rab061dna76.2
Hni46dna41.2 2OHni061dna76.2 2OHni062dna53.4 2OHni246dna7.01 2Oisp78dna54.1isp843dna8.5
isp0611dna4.91isp0232dna7.83
EFGHMPQS
gnitaregnalfgnitnuoM/eziS-EDISERUSSERPHGIH 7– ht retcarahc
ni2ni2ni2ni2ni3
ngiseddoofni3ni3ni3ni3ni4ni4
05ND05ND05ND08ND08ND08ND08ND001ND001ND
051LCEMSA003LCEMSA006LCEMSA009LCEMSA051LCEMSA051LCEMSA003LCEMSA006LCEMSA009LCEMSA051LCEMSA003LCEMSA
04/61NPNE36NPNE001NPNE
61NPNE04NPNE36NPNE001NPNE
61NPNE04NPNE
ADGJB1EHKCFMPRNLQSTU
)laes(mroftaeS/lairetamegnalfgnitnuoM–EDISERUSSERPHGIH 8– ht retcarahc
leetsnobraCleetsnobraCleetsnobraCleetsnobraC
ss613ISIAss613ISIAss613ISIAss613ISIA
hsinifdetarres–)ecafdesiar(FRmroFhsinifhtooms–)ecafdesiar(FRmroF
hsinifdetarres–2B/1BepyT1-2901NEhsinifhtooms–2B/1BepyT1-2901NE
hsinifdetarres–)ecafdesiar(FRmroFhsinifhtooms–)ecafdesiar(FRmroF
hsinifdetarres–2B/1BepyT1-2901NEhsinifhtooms–2B/1BepyT1-2901NE
)3,1setoN()3,1setoN()3,2setoN()3,2setoN()3,1setoN(
)1etoN()3,2setoN()3,2setoN(
ABGPDELQ
)strapdettew(lairetamdnahtgnelnoisnetxE–EDISERUSSERPHGIH 9– ht retcarahc
)lairetammgarhpaidroftxenees(hsulF)ni2(mm05)ni2(mm05)ni4(mm001)ni4(mm001)ni6(mm051)ni6(mm051
ssL613ISIA™672CyolletsaH
ssL613ISIA™672CyolletsaH
ssL613ISIA™672CyolletsaH
)4,3setoN()6,4,3setoN(
)4,3setoN()6,4,3setoN(
)4,3setoN()6,4,3setoN(
ECANECANECANECANECANECANECAN
F123456
)laes()strapdettew(lairetammgarhpaiD–EDISERUSSERPHGIH 01– ht retcarahc
ssL613ISIA™672CyolletsaH
mulatnaTgnitaockcits-itnanolfeThtiwssL613ISIA
gnitaockcits-itnanolfeThtiw™672CyolletsaHkcits-itnadnanoisorroc-itnagnitaocnolfeThtiwssL613ISIA
)5etoN()6etoN(
)7,6setoN()8,6,5setoN(
)8,6setoN()6,5setoN(
ECANECAN
ECANECANECAN
SHTKYW
diulflliF–EDISERUSSERPHGIH 11– ht retcarahc
lioenociliSnedlaG-diulftrenI
nobracolaH-diulftrenIerutarepmethgihroflioenociliS
erutarepmetwolrofremylopenociliS)devorppaADF(liolareniM
)devorppaADF(lioelbategeV)devorppaADF(retaW-nirecylG
)9,3setoN()9,3setoN(
)3etoN()3etoN(
SNDGCWAB
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
16
CD462ledomNOITAMROFNIGNIREDROCISAB X X X X X
)strapdettew(diulflliF/lairetammgarhpaidediserusserpwoL 21– ht retcarahc
ssL613ISIA)dettewton(ssL613ISIA
)taesISIAno(™672CyolletsaH™672CyolletsaH
™004lenoMmulatnaT
ssL613ISIA)dettewton(ssL613ISIA
)taesISIAno(™672CyolletsaH™672CyolletsaH
™004lenoMmulatnaT
ssL613ISIA)dettewton(ssL613ISIA
)taesISIAno(™672CyolletsaH™672CyolletsaH
™004lenoMmulatnaT
lioenociliS)yletarapesdetouqebotlaesetomereno(lioenociliS
lioenociliSlioenociliSlioenociliSlioenociliS
nedlaG-diulftrenI)yletarapesdetouqebotlaesetomereno(nedlaG-diulftrenI
nedlaG-diulftrenInedlaG-diulftrenInedlaG-diulftrenInedlaG-diulftrenI
nobracolaH-diulftrenI)yletarapesdetouqebotlaesetomereno(nobracolaH-diulftrenI
nobracolaH-diulftrenInobracolaH-diulftrenInobracolaH-diulftrenInobracolaH-diulftrenI
)9etoN()9etoN()9etoN()9etoN()9etoN()9etoN()9etoN()9etoN()9etoN()9etoN()9etoN()9etoN(
ECANECANECANECAN
ECANECANECANECAN
ECANECANECANECAN
SRHKMTA2BFCDLWQP45
)strapdettew(noitcennocdnalairetamsretpada/segnalfssecorpediswoL – 31 ht retcarahc
)noitcennoclatnoziroH(ssL613ISIA)noitcennoclatnoziroH(ssL613ISIA
1/4 (tceridf-TPN81– 7/ 61 )gnillird.S.UFNU02–1/2 (retpadahguorhtf-TPN41– 7/ 61 )gnillird.S.UFNU02–
)01etoN()01etoN(
)21,01setoN()21,01setoN()21,01setoN()21,01setoN(
)11etoN(
ECANECANECANECANECANECANECAN
AB
)noitcennoclatnoziroH(™672CyolletsaH)noitcennoclatnoziroH(™672CyolletsaH
1/4 (tceridf-TPN81– 7/ 61 )gnillird.S.UFNU02–1/2 (retpadahguorhtf-TPN41– 7/ 61 )gnillird.S.UFNU02–
DE
)noitcennoclatnoziroH(™004lenoM)noitcennoclatnoziroH(™004lenoM
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GHR
)strapdettew(teksagediswoL/stloB 41– ht retcarahc
)aPM61=PWM(–)ECAN(ss613ISIA)aPM61=PWM(–)ECAN(ss613ISIA
noitcurtsnocslaesowtrofteksagtuohtiw)aPM61=PWM(–)ECAN(ss613ISIA
™notiVEFTP
)01etoN()01,9setoN(
)11etoN(
ECANECANECAN
34R
noitcennoclacirtcelednalairetamgnisuoH 51– ht retcarahc
)noisrevlerraB(yollamuinimulA)noisrevlerraB(yollamuinimulA)noisrevlerraB(yollamuinimulA)noisrevlerraB(yollamuinimulA)noisrevlerraB(yollamuinimulA)noisrevlerraB(yollamuinimulA
)noisrevlerraB(eerf-reppocyollamuinimulA)noisrevlerraB(eerf-reppocyollamuinimulA)noisrevlerraB(eerf-reppocyollamuinimulA)noisrevlerraB(eerf-reppocyollamuinimulA)noisrevlerraB(eerf-reppocyollamuinimulA)noisrevlerraB(eerf-reppocyollamuinimulA
)noisrevlerraB(ssL613ISIA)noisrevlerraB(ssL613ISIA)noisrevlerraB(ssL613ISIA)noisrevlerraB(ssL613ISIA)noisrevlerraB(ssL613ISIA)noisrevNID(yollamuinimulA)noisrevNID(yollamuinimulA)noisrevNID(yollamuinimulA
1/2 TPN41–)02MC(5.1x02M
5.31gP1/2 KG
rotcennocnaHgnitraHrotcennocsubdleiF
1/2 TPN41–)02MC(5.1x02M
5.31gP1/2 KG
rotcennocnaHgnitraHrotcennocsubdleiF
1/2 TPN41–)02MC(5.1x02M
5.31gP1/2 KG
rotcennocsubdleiF)02MC(5.1x02M
5.31gProtcennocnaHgnitraH
)ylnoesopruplareneg()ylnoesopruplareneg(
)ylnoesopruplareneg()ylnoesopruplareneg(
)ylnoesopruplareneg()ylnoesopruplareneg()ylnoesopruplareneg()ylnoesopruplareneg(
)31etoN()31etoN(
)31etoN()31etoN(
)31etoN(
)31etoN(
ABDCEGHLNMPRSTVUZJYK
snoitpolanoitiddA/tuptuO 61– ht retcarahc
Am02ot4dnanoitacinummoclatigidTRAHAm02ot4dnanoitacinummoclatigidTRAH
APSUBIFORPAPSUBIFORP
subdleiFNOITADNUOFsubdleiFNOITADNUOF
snoitpolanoitiddaoN)"edocgniredrolanoitiddA"ybderedroebot(detseuqersnoitpO
snoitpolanoitiddaoN)"edocgniredrolanoitiddA"ybderedroebot(detseuqersnoitpO
snoitpolanoitiddaoN)"edocgniredrolanoitiddA"ybderedroebot(detseuqersnoitpO
)51,41setoN()41etoN(
)51,41setoN()51etoN(
)51,41setoN()51etoN(
H1P2F3
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
17
ADDITIONAL ORDERING INFORMATION for model 264DCAdd one or more 2-digit code(s) after the basic ordering information to select all required options
XX XX XX XX XX XX XX XX XX XX XX XX
)strapdettew()noitisopdnalairetam(evlavtnev/niarDssL613ISIAssL613ISIAssL613ISIA
™672CyolletsaH™672CyolletsaH™672CyolletsaH
™004lenoM™004lenoM™004lenoM
sixassecorpnopotedisegnalfno
mottobedisegnalfnosixassecorpno
potedisegnalfnomottobedisegnalfno
sixassecorpnopotedisegnalfno
mottobedisegnalfno
)61etoN()61etoN()61etoN()71etoN()71etoN()71etoN()81etoN()81etoN()81etoN(
ECANECANECANECANECANECANECANECANECAN
1V2V3V4V5V6V7V8V9V
noitacifitreclacirtcelEaixEEytefaScisnirtnI–DG1yrogetaCIIpuorGXETA
dxEEfoorpemalF–DG2/1yrogetaCIIpuorGXETA)91etoN(ecnailpmocngisedLnxEE"N"noitcetorpfoepyT–DG3yrogetaCIIpuorGXETA
ylno()ASC(noitaicossAdradnatSnaidanaC 1/2 )noitcennoclacirtcele5.31gPdna02M,TPN41–)subdleiFNOITADNUOFdnaAPSUBIFORProfnxEdnaaixEtoN(AASailartsuAsdradnatS
htiwylno(lavorppa)MF(lautuMyrotcaF 1/2 )noitcennoclacirtcele5.31gPdna02M,TPN41–foorpemalFdnaytefaScisnirtnI-XETAdenibmoC
htiwylno(ASCdnaMF,XETAdenibmoC 1/2 )91etoN()noitcennoclacirtcele5.31gPdna02M,TPN41–aixEytefaScisnirtnI-)anihC(ISPEN
dxEfoorpemalF-)anihC(ISPENaixEE)aissuR(TSOGdxEE)aissuR(TSOG
aixEE)natsikazaK(TSOGdxEE)natsikazaK(TSOG
)91etoN(aixEE)lizarB(ortemnI)91etoN(dxEE)lizarB(ortemnI)91etoN(LnxEE)lizarB(ortemnI
1E2E3E4E5E6E7ENEYEZE1W2W3W4W5W6W7W
retemtuptuO
noitarbilacdradnatS,reteMorPnoitarbilaclaicepS,reteMorP
elacs%001–0raenilrotacidnituptuogolanAelacs01–0toorerauqsrotacidnituptuogolanA
)elacsraenilrofdeificepsebot(noitaudarglaiceps,rotacidnituptuogolanA)elacstoorerauqsrofdeificepsebot(noitaudarglaiceps,rotacidnituptuogolanA
)reteMoC(rotarugifnocTRAHdnaretemlangiselbammargorP)noitarugifnocremotsuc–reteMoC(rotarugifnocTRAHdnaretemlangiselbammargorP
)91etoN()91etoN()91etoN()91etoN()91etoN()91etoN()91etoN()91etoN(
1D2D3D4D5D6D7D8D
DCLlargetnIyalpsidlargetniDCLlatigiD 1L
egruS)Am02-4/TRAHroflanretnI(rotcetorPtneisnarT/egruS
ylnosubdleiFNOITADNUOFdnaAPSUBIFORProfesooldeilppuslanretxE(rotcetorPtneisnarT/egruShtiwelbatius 1/2 )TSUDon,snoitacifitrecASCdnaMF,XETAhtiwdnanoitcennoclacirtcele02MdnaTPN41–
1S
launamgnitarepOnamreG
nailatIhsinapS
hcnerF
1M2M3M4M
egaugnalgat&slebaLnamreG
nailatIhsinapS
hcnerF
1T2T3T4T
etalpgatlanoitiddAetalpleetssselniatsnogatfognitnirpresaL 2I
noitarugifnoCHni=erusserP–dradnatS 2 F.ged=erutarepmeT;C°02taisp/OHni=erusserP–dradnatS 2 F.ged=erutarepmeT;C°4taisp/OHni=erusserP–dradnatS 2 C.ged=erutarepmeT;C°02taisp/OHni=erusserP–dradnatS 2 C.ged=erutarepmeT;C°4taisp/O
motsuC
2N3N4N5N6N
setacifitreC
)tniop-9(noitarbilacfo1.3–40201NEetacifitrecnoitcepsnIngisedtnemurtsnifo1.2–40201NEredroehthtiwecnailpmocfoetacifitreC
1C6C
ytilibaecartlairetaM
strapdettewssecorpfo1.2–40201NEredroehthtiwecnailpmocfoetacifitreCstrapdettewssecorpfo1.3–40201NEetacifitrecnoitcepsnI
1H3H
rotcennoC
)gulpelamefgnitamtuohtiwesooldeilppus(-)subdleiFNOITADNUOFrofdednemmoceR(8/7subdleiF)gulpelamefgnitamtuohtiwesooldeilppus(-)APSUBIFORProfdednemmoceR(1x21MsubdleiF
yrtnethgiarts–naHgnitraHyrtneelgna–naHgnitraH
)02,51setoN()02,51setoN()02,41setoN()02,41setoN(
1U2U3U4U
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
18
Note 1: Not available with EN mounting flange code M, P, R, N, L, Q, S, T, U
Note 2: Not available with ASME mounting flange code A, D, G, J, B, E, H, K, C, F
Note 3: Not available with 3in ASME CL150 food design size code 1
Note 4: Not available with ASME CL 600 and CL 900 mounting flange rating code G, J, H, K and with EN PN 63, PN 100 mounting flange ratingcode P, R, Q, SAlso not available with sensor code E combined with 2in or DN50 high side size code A, D, G, J, M, P, R.
Note 5: Not available with Hastelloy C276 extension code 2, 4, 6
Note 6: Not available with serrated seat finish code A, G, D, L
Note 7: Not available with extension code 1, 2, 3, 4, 5, 6
Note 8: Not available with 2in, DN50, DN80, DN100, mounting flange code A, D, G, J, M, P, R, N, L, Q, S, T, U
Note 9: Suitable for oxygen service
Note 10: Not available with low side diaphragm code R, 2, W
Note 11: Not available with low side diaphragm code S, H, K, M, T, A, B, F, C, D, L, Q, P, 4, 5
Note 12: Not available with low side diaphragm code S, H, A, B, L, Q
Note 13: Select type in additional ordering code
Note 14: Not available with Electronic Housing code Z, R, G and W
Note 15: Not available with Electronic Housing code P, E and K
Note 16: Not available with Process flanges/adapters code D, E, G, H, R
Note 17: Not available with Process flanges/adapters code A, B, G, H, R
Note 18: Not available with Process flanges/adapters code A, B, D, E, R
Note 19: Not available with PROFIBUS PA and FF output code 2 or 3
Note 20: Not available with Electronic housing code U, S, T, V, H, M, L, N, D, C, A, B, J, Y
Standard delivery items (can be differently specified by additional ordering code)– Adapters supplied loose
– Plug on axis (no drain/vent valves)
– General purpose (no electrical certification)
– No meter/display, no mounting bracket, no surge protection
– English manual and labels
– Configuration with kPa and deg. C units
– No test, inspection or material traceability certificates
THE SELECTION OF SUITABLE WETTED PARTS AND FILLING FLUID FOR COMPATIBILITY WITH THE PROCESS MEDIA IS A CUSTOMER'SRESPONSIBILITY, IF NOT OTHERWISE NOTIFIED BEFORE MANUFACTURING.
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
19
BASIC ORDERING INFORMATION model 264HC Gauge Pressure Transmitter with direct mountsealSelect one character or set of characters from each category and specify complete catalog number.Refer to additional ordering information code and specify one or more codes for each transmitter if additional options are required.
LEDOMESAB 1– ts 5ot ht sretcarahc 2 6 4 H C X X X X X X X d'tnoC
%570.0YCARUCCAESAB–laestnuomtceridhtiwrettimsnarTerusserPeguaG
–stimilnapS-ROSNES 6 ht retcarahcaPk56dna1.1
aPk061dna76.2aPk006dna01
aPk0042dna04aPk0008dna431
aPk00061dna762
rabm056dna11rabm0061dna7.62
rab6dna1.0rab42dna4.0
rab08dna43.1rab061dna76.2
Hni062dna53.4 2OHni246dna7.01 2Oisp78dna54.1isp843dna8.5
isp0611dna4.91isp0232dna7.83
GHMPQS
)dettewton(diulFlliF/lairetammgarhpaiD 7– ht retcarahcssL613ISIAssL613ISIAssL613ISIA
lioenociliSnedlaG-diulftrenI
nobracolaH-diulftrenI
R2W
gnitaregnalfgnitnuoM/eziS–EDISERUSSERPHGIH 8– ht retcarahc
ni2ni2ni2ni2ni3
ngiseddoofni3ni3ni3ni3ni4ni4
05ND05ND05ND08ND08ND08ND08ND
001ND001ND
051LCEMSA003LCEMSA006LCEMSA009LCEMSA051LCEMSA051LCEMSA003LCEMSA006LCEMSA009LCEMSA051LCEMSA003LCEMSA
04/61NPNE36NPNE
001NPNE61NPNE04NPNE36NPNE
001NPNE61NPNE04NPNE
ADGJB1EHKCFMPRNLQSTU
)laes(mroftaeS/lairetamegnalfgnitnuoM–EDISERUSSERPHGIH 9– ht retcarahc
leetsnobraCleetsnobraCleetsnobraCleetsnobraC
ss613ISIAss613ISIAss613ISIAss613ISIA
hsinifdetarres-)ecafdesiar(FRmroFhsinifhtooms-)ecafdesiar(FRmroF
hsinifdetarres-2B/1BepyT1-2901NEhsinifhtooms-2B/1BepyT1-2901NE
hsinifdetarres-)ecafdesiar(FRmroFhsinifhtooms-)ecafdesiar(FRmroF
hsinifdetarres-2B/1BepyT1-2901NEhsinifhtooms-2B/1BepyT1-2901NE
)3,1setoN()3,1setoN()3,2setoN()3,2setoN()3,1setoN(
)1etoN()3,2setoN()3,2setoN(
ABGPDELQ
)strapdettew(lairetamdnahtgnelnoisnetxE–EDISERUSSERPHGIH 01– ht retcarahc
)lairetammgarhpaidroftxenees(hsulF)ni2(mm05)ni2(mm05
)ni4(mm001)ni4(mm001)ni6(mm051)ni6(mm051
ssL613ISIA™672CyolletsaH
ssL613ISIA™672CyolletsaH
ssL613ISIA™672CyolletsaH
)4,3setoN()6,4,3setoN(
)4,3setoN()6,4,3setoN(
)4,3setoN()6,4,3setoN(
ECANECANECANECANECANECANECAN
F123456
)laes()strapdettew(lairetammgarhpaiD–EDISERUSSERPHGIH 11– ht retcarahc
ssL613ISIA™672CyolletsaH
mulatnaTgnitaockcits-itnanolfeThtiwssL613ISIA
gnitaockcits-itnanolfeThtiw™672CyolletsaHkcits-itnadnanoisorroc-itnagnitaocnolfeThtiwssL613ISIA
)5etoN()6etoN(
)7,6setoN()8,6,5setoN(
)8,6setoN()6,5setoN(
ECANECAN
ECANECANECAN
SHTKYW
diulflliF–EDISERUSSERPHGIH 21– ht retcarahc
lioenociliSnedlaG-diulftrenI
nobracolaH-diulftrenIerutarepmethgihroflioenociliS
erutarepmetwolrofremylopenociliS)devorppaADF(liolareniM
)devorppaADF(lioelbategeV)devorppaADF(retaW-nirecylG
)9,3setoN()9,3setoN(
)3etoN()3etoN(
SNDGCWAB
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
20
CH462ledomNOITAMROFNIGNIREDROCISAB X X
noitcennoclacirtcelednalairetamgnisuoH 31– ht retcarahc
)noisrevlerraB(yollamuinimulA)noisrevlerraB(yollamuinimulA)noisrevlerraB(yollamuinimulA)noisrevlerraB(yollamuinimulA)noisrevlerraB(yollamuinimulA)noisrevlerraB(yollamuinimulA
)noisrevlerraB(eerf-reppocyollamuinimulA)noisrevlerraB(eerf-reppocyollamuinimulA)noisrevlerraB(eerf-reppocyollamuinimulA)noisrevlerraB(eerf-reppocyollamuinimulA)noisrevlerraB(eerf-reppocyollamuinimulA)noisrevlerraB(eerf-reppocyollamuinimulA
)noisrevlerraB(ssL613ISIA)noisrevlerraB(ssL613ISIA)noisrevlerraB(ssL613ISIA)noisrevlerraB(ssL613ISIA)noisrevlerraB(ssL613ISIA
1/2 TPN41–)02MC(5.1x02M
5.31gP1/2 KG
rotcennocnaHgnitraHrotcennocsubdleiF
1/2 TPN41–)02MC(5.1x02M
5.31gP1/2 KG
rotcennocnaHgnitraHrotcennocsubdleiF
1/2 TPN41–)02MC(5.1x02M
5.31gP1/2 KG
rotcennocsubdleiF
)ylnoesopruplareneg()ylnoesopruplareneg(
)ylnoesopruplareneg()ylnoesopruplareneg(
)ylnoesopruplareneg(
)01atoN()01atoN(
)01atoN()01atoN(
)01atoN(
ABDCEGHLNMPRSTVUZ
snoitpolanoitiddA/tuptuO 41– ht retcarahc
Am02ot4dnanoitacinummoclatigidTRAHAm02ot4dnanoitacinummoclatigidTRAH
APSUBIFORPAPSUBIFORP
subdleiFNOITADNUOFsubdleiFNOITADNUOF
snoitpolanoitiddaoN)"edocgniredrolanoitiddA"ybderedroebot(detseuqersnoitpO
snoitpolanoitiddaoN)"edocgniredrolanoitiddA"ybderedroebot(detseuqersnoitpO
snoitpolanoitiddaoN)"edocgniredrolanoitiddA"ybderedroebot(detseuqersnoitpO
)21,11setoN()11etoN(
)21,11setoN()21etoN(
)21,11setoN()21etoN(
H1P2F3
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
21
ADDITIONAL ORDERING INFORMATION for model 264HCAdd one or more 2-digit code(s) after the basic ordering information to select all required options
XX XX XX XX XX XX XX XX XX XX XXnoitacifitreclacirtcelE
aixEEytefaScisnirtnI–DG1yrogetaCIIpuorGXETAdxEEfoorpemalF–DG2/1yrogetaCIIpuorGXETA
)31etoN(ecnailpmocngisedLnxEE"N"noitcetorpfoepyT–DG3yrogetaCIIpuorGXETAylno()ASC(noitaicossAdradnatSnaidanaC 1/2 )noitcennoclacirtcele5.31gPdna02M,TPN41–
)subdleiFNOITADNUOFdnaAPSUBIFORProfnxEdnaaixEtoN(AASailartsuAsdradnatShtiwylno(lavorppa)MF(lautuMyrotcaF 1/2 )noitcennoclacirtcele5.31gPdna02M,TPN41–
foorpemalFdnaytefaScisnirtnI-XETAdenibmoChtiwylno(ASCdnaMF,XETAdenibmoC 1/2 )31etoN()noitcennoclacirtcele5.31gPdna02M,TPN41–
aixEytefaScisnirtnI-)anihC(ISPENdxEfoorpemalF-)anihC(ISPEN
aixEE)aissuR(TSOGdxEE)aissuR(TSOG
aixEE)natsikazaK(TSOGdxEE)natsikazaK(TSOG
)31etoN(aixEE)lizarB(ortemnI)31etoN(dxEE)lizarB(ortemnI)31etoN(LnxEE)lizarB(ortemnI
1E2E3E4E5E6E7ENEYEZE1W2W3W4W5W6W7W
retemtuptuO
noitarbilacdradnatS,reteMorPnoitarbilaclaicepS,reteMorP
elacs%001–0raenilrotacidnituptuogolanA)elacsraenilrofdeificepsebot(noitaudarglaiceps,rotacidnituptuogolanA
)reteMoC(rotarugifnocTRAHdnaretemlangiselbammargorP)noitarugifnocremotsuc–reteMoC(rotarugifnocTRAHdnaretemlangiselbammargorP
)31etoN()31etoN()31etoN()31etoN()31etoN()31etoN(
1D2D3D5D7D8D
DCLlargetnIyalpsidlargetniDCLlatigiD 1L
egruS)Am02-4/TRAHroflanretnI(rotcetorPtneisnarT/egruS
ylnosubdleiFNOITADNUOFdnaAPSUBIFORProfesooldeilppuslanretxE(rotcetorPtneisnarT/egruShtiwelbatius 1/2 )TSUDon,snoitacifitrecASCdnaMF,XETAhtiwdnanoitcennoclacirtcele02MdnaTPN41–
1S
launamgnitarepOnamreG
nailatIhsinapS
hcnerF
1M2M3M4M
egaugnalgat&slebaLnamreG
nailatIhsinapS
hcnerF
1T2T3T4T
etalpgatlanoitiddAetalpleetssselniatsnogatfognitnirpresaL 2I
noitarugifnoCHni=erusserP–dradnatS 2 F.ged=erutarepmeT;C°02taisp/OHni=erusserP–dradnatS 2 F.ged=erutarepmeT;C°4taisp/OHni=erusserP–dradnatS 2 C.ged=erutarepmeT;C°02taisp/OHni=erusserP–dradnatS 2 C.ged=erutarepmeT;C°4taisp/O
motsuC
2N3N4N5N6N
setacifitreC
)tniop-9(noitarbilacfo1.3–40201NEetacifitrecnoitcepsnIngisedtnemurtsnifo1.2–40201NEredroehthtiwecnailpmocfoetacifitreC
1C6C
ytilibaecartlairetaM
strapdettewssecorpfo1.2–40201NEredroehthtiwecnailpmocfoetacifitreCstrapdettewssecorpfo1.3–40201NEetacifitrecnoitcepsnI
1H3H
rotcennoC
)gulpelamefgnitamtuohtiwesooldeilppus(-)subdleiFNOITADNUOFrofdednemmoceR(8/7subdleiF)gulpelamefgnitamtuohtiwesooldeilppus(-)APSUBIFORProfdednemmoceR(1x21MsubdleiF
yrtnethgiarts–naHgnitraHyrtneelgna–naHgnitraH
)41,21setoN()41,21setoN()41,11setoN()41,11setoN(
1U2U3U4U
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
22
Note 1: Not available with EN mounting flange code M, P, R, N, L, Q, S, T, U
Note 2: Not available with ASME mounting flange code A, D, G, J, B, E, H, K, C, F
Note 3: Not available with 3in ASME CL150 food design size code 1
Note 4: Not available with ASME CL 600 and CL 900 mounting flange rating code G, J, H, K and with EN PN 63, PN 100 mountingflange rating code P, R, Q, S
Note 5: Not available with Hastelloy C276 extension code 2, 4, 6
Note 6: Not available with serrated seat finish code A, G, D, L
Note 7: Not available with extension code 1, 2, 3, 4, 5, 6
Note 8: Not available with 2in, DN50, DN80, DN100, mounting flange code A, D, G, J, M, P, R, N, L, Q, S, T, U
Note 9: Suitable for oxygen service
Note 10: Select type in additional ordering code
Note 11: Not available with Electronic Housing code Z, R, G
Note 12: Not available with Electronic Housing code P, E
Note 13: Not available with PROFIBUS PA and FF output code 2 or 3
Note 14 : Not available with Electronic housing code U, S, T, V, H, M, L, N, D, C, A, B
Standard delivery items (can be differently specified by additional ordering code)– General purpose (no electrical certification)
– No meter/display, no mounting bracket, no surge protection
– English manual and labels
– Configuration with kPa and deg. C units
– No test, inspection or material traceability certificates
THE SELECTION OF SUITABLE WETTED PARTS AND FILLING FLUID FOR COMPATIBILITY WITH THE PROCESS MEDIA IS A CUSTOMER'SRESPONSIBILITY, IF NOT OTHERWISE NOTIFIED BEFORE MANUFACTURING.
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
23
BASIC ORDERING INFORMATION model 264NC Absolute Pressure Transmitter with direct mountsealSelect one character or set of characters from each category and specify complete catalog number.Refer to additional ordering information code and specify one or more codes for each transmitter if additional options are required.
LEDOMESAB 1– ts 5ot ht sretcarahc 2 6 4 N C X X X X X X X d'tnoC
%570.0YCARUCCAESAB–laestnuomtceridhtiwrettimsnarTerusserPetulosbA
–stimilnapS-ROSNES 6 ht retcarahcaPk56dna1.1
aPk061dna76.2aPk006dna01
aPk0042dna04aPk0008dna431
aPk00061dna762
rabm056dna11rabm0061dna7.62
rab6dna1.0rab42dna4.0
rab08dna43.1rab061dna76.2
gHmm084dna8gHmm0021dna02
isp78dna54.1isp843dna8.5
isp0611dna4.91isp0232dna7.83
GHMPQS
)dettewton(diulFlliF/lairetammgarhpaiD 7– ht retcarahcssL613ISIAssL613ISIAssL613ISIA
lioenociliSnedlaG-diulftrenI
nobracolaH-diulftrenI
R2W
gnitaregnalfgnitnuoM/eziS–EDISERUSSERPHGIH 8– ht retcarahc
ni2ni2ni2ni2ni3
ngiseddoofni3ni3ni3ni3ni4ni4
05ND05ND05ND08ND08ND08ND08ND
001ND001ND
051LCEMSA003LCEMSA006LCEMSA009LCEMSA051LCEMSA051LCEMSA003LCEMSA006LCEMSA009LCEMSA051LCEMSA003LCEMSA04/61NPNID
36NPNID001NPNID
61NPNID04NPNID36NPNID
001NPNID61NPNID04NPNID
ADGJB1EHKCFMPRNLQSTU
)laes(mroftaeS/lairetamegnalfgnitnuoM–EDISERUSSERPHGIH 9– ht retcarahc
leetsnobraCleetsnobraCleetsnobraCleetsnobraC
ss613ISIAss613ISIAss613ISIAss613ISIA
hsinifdetarres–)ecafdesiar(FRmroFhsinifhtooms–)ecafdesiar(FRmroF
hsinifdetarres–2B/1BepyT1-2901NEhsinifhtooms–2B/1BepyT1-2901NE
hsinifdetarres–)ecafdesiar(FRmroFhsinifhtooms–)ecafdesiar(FRmroF
hsinifdetarres–2B/1BepyT1-2901NEhsinifhtooms–2B/1BepyT1-2901NE
)3,1setoN()3,1setoN()3,2setoN()3,2setoN()3,1setoN(
)1etoN()3,2setoN()3,2setoN(
ABGPDELQ
)strapdettew(lairetamdnahtgnelnoisnetxE–EDISERUSSERPHGIH 01– ht retcarahc
)lairetammgarhpaidroftxenees(hsulF)ni2(mm05)ni2(mm05
)ni4(mm001)ni4(mm001)ni6(mm051)ni6(mm051
ssL613ISIA™672CyolletsaH
ssL613ISIA™672CyolletsaH
ssL613ISIA™672CyolletsaH
)4,3setoN()6,4,3setoN(
)4,3setoN()6,4,3setoN(
)4,3setoN()6,4,3setoN(
ECANECANECANECANECANECANECAN
F123456
)laes()strapdettew(lairetammgarhpaiD–EDISERUSSERPHGIH 11– ht retcarahc
ssL613ISIA™672CyolletsaH
mulatnaTgnitaockcits-itnanolfeThtiwssL613ISIA
gnitaockcits-itnanolfeThtiw™672CyolletsaHkcits-itnadnanoisorroc-itnagnitaocnolfeThtiwssL613ISIA
)5etoN()6etoN(
)7,6setoN()8,6,5setoN(
)8,6setoN()6,5setoN(
ECANECAN
ECANECANECAN
SHTKYW
diulflliF–EDISERUSSERPHGIH 21– ht retcarahc
lioenociliSnedlaG-diulftrenI
nobracolaH-diulftrenIerutarepmethgihroflioenociliS
erutarepmetwolrofremylopenociliS)devorppaADF(liolareniM
)devorppaADF(lioelbategeV)devorppaADF(retaW-nirecylG
)9,3setoN()9,3setoN(
)3etoN()3etoN(
SNDGCWAB
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
24
CN462ledomNOITAMROFNIGNIREDROCISAB X X
noitcennoclacirtcelednalairetamgnisuoH 31– ht retcarahc
)noisrevlerraB(yollamuinimulA)noisrevlerraB(yollamuinimulA)noisrevlerraB(yollamuinimulA)noisrevlerraB(yollamuinimulA)noisrevlerraB(yollamuinimulA)noisrevlerraB(yollamuinimulA
)noisrevlerraB(eerf-reppocyollamuinimulA)noisrevlerraB(eerf-reppocyollamuinimulA)noisrevlerraB(eerf-reppocyollamuinimulA)noisrevlerraB(eerf-reppocyollamuinimulA)noisrevlerraB(eerf-reppocyollamuinimulA)noisrevlerraB(eerf-reppocyollamuinimulA
)noisrevlerraB(ssL613ISIA)noisrevlerraB(ssL613ISIA)noisrevlerraB(ssL613ISIA)noisrevlerraB(ssL613ISIA)noisrevlerraB(ssL613ISIA
1/2 TPN41–)02MC(5.1x02M
5.31gP1/2 KG
rotcennocnaHgnitraHrotcennocsubdleiF
1/2 TPN41–)02MC(5.1x02M
5.31gP1/2 KG
rotcennocnaHgnitraHrotcennocsubdleiF
1/2 TPN41–)02MC(5.1x02M
5.31gP1/2 KG
rotcennocsubdleiF
)ylnoesopruplareneg()ylnoesopruplareneg(
)ylnoesopruplareneg()ylnoesopruplareneg(
)ylnoesopruplareneg(
)01etoN()01etoN(
)01etoN()01etoN(
)01etoN(
ABDCEGHLNMPRSTVUZ
snoitpolanoitiddA/tuptuO 41– ht retcarahc
Am02ot4dnanoitacinummoclatigidTRAHAm02ot4dnanoitacinummoclatigidTRAH
APSUBIFORPAPSUBIFORP
subdleiFNOITADNUOFsubdleiFNOITADNUOF
snoitpolanoitiddaoN)"edocgniredrolanoitiddA"ybderedroebot(detseuqersnoitpO
snoitpolanoitiddaoN)"edocgniredrolanoitiddA"ybderedroebot(detseuqersnoitpO
snoitpolanoitiddaoN)"edocgniredrolanoitiddA"ybderedroebot(detseuqersnoitpO
)21,11setoN()11etoN(
)21,11setoN()21etoN(
)21,11setoN()21etoN(
H1P2F3
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
25
ADDITIONAL ORDERING INFORMATION for model 264NCAdd one or more 2-digit code(s) after the basic ordering information to select all required options
XX XX XX XX XX XX XX XX XX XX XXnoitacifitreclacirtcelE
aixEEytefaScisnirtnI–DG1yrogetaCIIpuorGXETAdxEEfoorpemalF–DG2/1yrogetaCIIpuorGXETA
)31etoN(ecnailpmocngisedLnxEE"N"noitcetorpfoepyT–DG3yrogetaCIIpuorGXETAylno()ASC(noitaicossAdradnatSnaidanaC 1/2 )noitcennoclacirtcele5.31gPdna02M,TPN41–
)subdleiFNOITADNUOFdnaAPSUBIFORProfnxEdnaaixEtoN(AASailartsuAsdradnatShtiwylno(lavorppa)MF(lautuMyrotcaF 1/2 )noitcennoclacirtcele5.31gPdna02M,TPN41–
foorpemalFdnaytefaScisnirtnI-XETAdenibmoChtiwylno(ASCdnaMF,XETAdenibmoC 1/2 )31etoN()noitcennoclacirtcele5.31gPdna02M,TPN41–
aixEytefaScisnirtnI-)anihC(ISPENdxEfoorpemalF-)anihC(ISPEN
aixEE)aissuR(TSOGdxEE)aissuR(TSOG
aixEE)natsikazaK(TSOGdxEE)natsikazaK(TSOG
)31etoN(aixEE)lizarB(ortemnI)31etoN(dxEE)lizarB(ortemnI)31etoN(LnxEE)lizarB(ortemnI
1E2E3E4E5E6E7ENEYEZE1W2W3W4W5W6W7W
retemtuptuO
noitarbilacdradnatS,reteMorPnoitarbilaclaicepS,reteMorP
elacs%001–0raenilrotacidnituptuogolanA)elacsraenilrofdeificepsebot(noitaudarglaiceps,rotacidnituptuogolanA
)reteMoC(rotarugifnocTRAHdnaretemlangiselbammargorP)noitarugifnocremotsuc–reteMoC(rotarugifnocTRAHdnaretemlangiselbammargorP
)31etoN()31etoN()31etoN()31etoN()31etoN()31etoN(
1D2D3D5D7D8D
DCLlargetnIyalpsidlargetniDCLlatigiD 1L
egruS)Am02-4/TRAHroflanretnI(rotcetorPtneisnarT/egruS
ylnosubdleiFNOITADNUOFdnaAPSUBIFORProfesooldeilppuslanretxE(rotcetorPtneisnarT/egruShtiwelbatius 1/2 )TSUDon,snoitacifitrecASCdnaMF,XETAhtiwdnanoitcennoclacirtcele02MdnaTPN41–
1S
launamgnitarepOnamreG
nailatIhsinapS
hcnerF
1M2M3M4M
egaugnalgat&slebaLnamreG
nailatIhsinapS
hcnerF
1T2T3T4T
etalpgatlanoitiddAetalpleetssselniatsnogatfognitnirpresaL 2I
noitarugifnoCHni=erusserP–dradnatS 2 F.ged=erutarepmeT;C°02taisp/OHni=erusserP–dradnatS 2 F.ged=erutarepmeT;C°4taisp/OHni=erusserP–dradnatS 2 C.ged=erutarepmeT;C°02taisp/OHni=erusserP–dradnatS 2 C.ged=erutarepmeT;C°4taisp/O
motsuC
2N3N4N5N6N
setacifitreC
)tniop-9(noitarbilacfo1.3–40201NEetacifitrecnoitcepsnIngisedtnemurtsnifo1.2–40201NEredroehthtiwecnailpmocfoetacifitreC
1C6C
ytilibaecartlairetaM
strapdettewssecorpfo1.2–40201NEredroehthtiwecnailpmocfoetacifitreCstrapdettewssecorpfo1.3–40201NEetacifitrecnoitcepsnI
1H3H
rotcennoC
)gulpelamefgnitamtuohtiwesooldeilppus(-)subdleiFNOITADNUOFrofdednemmoceR(8/7subdleiF)gulpelamefgnitamtuohtiwesooldeilppus(-)APSUBIFORProfdednemmoceR(1x21MsubdleiF
yrtnethgiarts–naHgnitraHyrtneelgna–naHgnitraH
)41,21setoN()41,21setoN()41,11setoN()41,11setoN(
1U2U3U4U
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
26
Note 1: Not available with EN mounting flange code M, P, R, N, L, Q, S, T, U
Note 2: Not available with ASME mounting flange code A, D, G, J, B, E, H, K, C, F
Note 3: Not available with 3in ASME CL150 food design size code 1
Note 4: Not available with ASME CL 600 and CL 900 mounting flange rating code G, J, H, K and with EN PN 63, PN 100 mountingflange rating code P, R, Q, S
Note 5: Not available with Hastelloy C276 extension code 2, 4, 6
Note 6: Not available with serrated seat finish code A, G, D, L
Note 7: Not available with extension code 1, 2, 3, 4, 5, 6
Note 8: Not available with 2in, DN50, DN80, DN100, mounting flange code A, D, G, J, M, P, R, N, L, Q, S, T, U
Note 9: Suitable for oxygen service
Note 10: Select type in additional ordering code
Note 11: Not available with Electronic Housing code Z, R, G
Note 12: Not available with Electronic Housing code P, E
Note 13: Not available with PROFIBUS PA and FF output code 2 or 3
Note 14: Not available with Electronic housing code U, S, T, V, H, M, L, N, D, C, A, B
Standard delivery items (can be differently specified by additional ordering code)– General purpose (no electrical certification)
– No meter/display, no mounting bracket, no surge protection
– English manual and labels
– Configuration with kPa and deg. C units
– No test, inspection or material traceability certificates
THE SELECTION OF SUITABLE WETTED PARTS AND FILLING FLUID FOR COMPATIBILITY WITH THE PROCESS MEDIA IS A CUSTOMER'SRESPONSIBILITY, IF NOT OTHERWISE NOTIFIED BEFORE MANUFACTURING.
2600T Pressure TransmittersModel 264DC, 264HC, 264NC SS/264XC_6
27
DS
/264
XC
-EN
Rev
. F
12.2
010
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