gs6b50a0-01e-a6

General Specifications

TSE Series and TSD Series Temperature Sensor Assembly

GS 6B50A0-01E-A © Copyright 2009

6th Edition 01/2011

Yokogawa Corporation of America 2 Dart Road; Newnan, Georgia U.S.A. 30265 Tel: 1-800-258-2552 Fax: 1-770-254-0928

For use with Yokogawa’s YTA series of temperature transmitters, the TSE series and TSD series of temperature sensors offer a wide variety of sensor types, thermowell materials, thermowell types, and U-lengths to match a wide range of customer requirements. The TSE’s and TSD’s are manufactured for Yokogawa by Burns Engineering in North America. FEATURES Series Type: Sensor with Thermowell

(TSE Series) Direct Immersion Sensor (TSD Series)

Sensor Type: Thermocouple (T/C): Type J, Type K, Type E, Type T (100)

RTD: Wire Wound RTD (200) Thin Film RTD (300)

Element T/C: Grounded or Ungrounded, Configurations: Single or Duplex RTD: Single or Dual

Sensor Wiring T/C: 2 wire

Configurations: RTD: 3 or 4 wire

Process Flanged, Socket Weld, or Threaded Connection: Thermowell Thermowell Style: Tapered, Straight, or Stepped Thermowell 316/316L Stainless Steel Materials: Hastelloy C-276 or Monel Approvals: FM

SENSOR Type, Style, Wiring Configurations Resistance Temperature Detectors (RTD) Resistance Temperature Detectors (RTD) are temperature sensors with the greatest degree of accuracy. Advantages

• Linear Output • Stable • Special Extension Wire Not Required • Cold Junction Compensation Not Required • More Accurate than a Thermocouple (T/C) • Repeatable

Disadvantages

• Limited Range -200° to +500°C (-392° to +932°F) • Slow Response • Self Heating Error • More Expensive than a Thermocouple • Less Rugged than a Thermocouple

Sensor Type: The TSE200 series and TSD200 series are wired wound ceramic design Pt100 sensors. The sensors are made of Platinum and have approximately 100 ohm resistance.

Sensor Style:

Single Element: Uses a single RTD element. Dual Element: Uses dual RTD elements. The second element is used as redundancy for a failure of the first element. (Available on 3-wire configurations only)

Wiring Configurations: TSE series and TSD series RTD’s are available with 3-wire or 4-wire wiring configurations. The 3-wire configuration is the most common. It uses a third wire to compensate for the resistance of the lead wires. The TSE / TSD RTD effectively have two circuits: the first circuit incorporates the RTD element and the second circuit measures the resistance of the two common wires. The resistance value of the second circuit is deducted from the resistance value of the first circuit by the YTA temperature transmitter. This yields the actual resistance across the RTD element by eliminating any influence caused by the lead-wire size or length. The 4-wire configuration goes further by compensating for each wire connected to the RTD by adding a fourth wire. This fourth wire creates three circuits. Two of the circuits are used for lead wire compensation. The YTA temperature transmitter averages the two compensation circuits and deducts that value from the overall resistance. This yields the actual resistance across the RTD element. This is the most accurate of the RTD wiring configurations. Thermocouples (T/C) Thermocouples (T/C) are the most widely used sensor for temperature measurement. Advantages

• Inexpensive • Fast Responding • Rugged • Tip Sensitive • Range -149° to +1,010°C (-300° to +1,850°F) • Multi-Point Sensing • Vibration Resistance

Disadvantages

• Non-Linear • Least Stable • Sensitivity is Low • Low Voltage Output • Requires Thermocouple Extension Wire • Accuracy Degrades over Time

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6th Edition 01/2011

Sensor Types: Type E: Chromel-Constantan Thermocouple Range: 0° to +565°C (+32° to +1,050°F) Type J: Iron-Constantan Thermocouple Range: 0° to +510°C (+32° to +950°F) Type K: Chromel-Alumel Thermocouple Range: 0° to +1,010°C (+32° to +1,850°F) Type T: Copper-Constantan Thermocouple Range: -149° to +288°C (-300° to +550°F) Sensor Style:

Single: Uses a single Thermocouple. Dual: Uses duplex Thermocouples. The second thermocouple used as redundancy for a failure of the first thermocouple. Grounded: The Thermocouple(s) are grounded to the sheath. Ungrounded: The Thermocouple is not grounded.

Wiring Configurations: Single and Duplex sensor style Thermocouples are two wire devices.

TSE/TSD sensor assembly Temperature Ranges by Sensor Type THERMOWELL Process Connection, Style, Materials Thermowells are sleeves of metal that hold the sensor in the process medium. The thermowell protects the sensor from the medium, but does not affect the temperature measurement. Process Connections The thermowell provides the process connection for the temperature sensor. The TSE series offers Flanged (up to 1200# ASME), Socket Weld, or Threaded process connection and sizes ½”, ¾”, 1.0”, 1.5” and 2.0”. Thermowell Style The TSE series offers tapered, straight, or stepped thermowells. As a general guide, tapered wells provide greater stiffness for the same sensitivity. The higher strength-to-weight ratio provides these wells with higher natural frequency than the equivalent length straight well, which allows operation at higher fluid velocities. Stepped thermowells offer better response time to temperature fluctuations. Thermowell Materials The TSE series offers thermowells in 316 / 316L Stainless Steel, Hastelloy C-276, and Monel. Other materials are available through direct quote from Burns Engineering.

Sample Thermowell Process Connections / Thermowell Styles. Approvals TSE Series and TSD Series have an optional FM agency approval available. When attachment of an FM sensor is required, it must be attached to an FM Explosion-proof YTA110, YTA310, or YTA320; or an Explosion-proof connection head (Connection Head code: 05A, 05E, or 14S) Specifications Series 100 Industrial Thermocouples (TSD100 and TSE100) The TSD100 and TSE100 feature a proven, rugged thermocouple design that utilizes mineral insulated bare wires in a metal sheath and special limits thermocouple wire (per ANSI MC 96.1) to ensure reliable performance.

Lower UpperE +32oF +1,050oFJ +32oF +950oFK +32oF +1,850oFT -300oF +550oF

TSEDGS.002b

+ -E Purple RedJ White RedK Yellow RedT Blue Red

Code Lead-wire ColorThermocouple Type

Chrome / Constantan Iron / ConstantanChromel / Alumel

Copper / Constantan

316 SS

Iron / Constantan 316 SSChromel / Alumel Inconel 600

Copper / Constantan

Code Sheath Material

Chrome / Constantan 316 SS

Thermocouple Type Temperature Range

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6th Edition 01/2011

Series 200 Wire Wound RTDs (TSD200 and TSE200) The Series 200 (TSD200 and TSE200) is an “off-the-shelf” RTD that meets real word conditions for extended periods of time. Its unique design and construction features yield high durability without affecting accuracy. Burns Engineering’s proprietary CS (Coil Suspension) element is constructed with a high purity platinum wire that is coil wound to minimize stress and assure accurate readings over long periods of time. Each coil is fully suspended in a high purity ceramic insulator and surrounded by a ceramic powder with a binder additive. The CS element enhances vibration and shock resistance without interfering with the coils ability to expand or contract. High strength platinum alloy leads are large in size to improve durability and insure that the RTD does not fail in tough applications. The sheath is constructed using a Burns Engineering proprietary manufacturing technique that forms a metallurgical bond between the element leads and the internal sheath leads, virtually eliminating lead wire shorts; and, when encapsulated with compacted ceramics, assures high durability and fast response time over the life on the sensor.

Element Resistance: 100 ohms at 0°C nominal Temperature Coefficient of Resistance: 0.00385 ohms/ohm/OC nominal Temperature Range: -200°C to +500°C Time Constant: Four seconds maximum for 63.2% response to step change in water moving at 3 fps. Insulation Resistance: > 500 meg-Ω @ 500 VDC, 20°C for at least 30 days at 100% humidity. Repeatability: < ±0.04% change in ice point resistance after 10 consecutive cycles between -200°C and +500°C Vibration Resistance: < ±0.03% ice point shift for 30 minutes at 21g peak vibration; 5-350 Hz continuous sweep, at 20°C for unsupported stem lengths of 5 ½ inches or less.

Vibration Resistance (Series 200)

Accuracy: Available with Accuracy of ±0.10% or ±0.05% of resistance at 0OC with typical alpha accuracy of 0.00385 ±0.0000135 Ohms/ohm/°C. Long Term Stability: < ±0.05% ice point resistance shift after 1,000 hours at 400°C.

Long Term Stability (Series 200) Long Term Temperature Cycling: < ±0.1% change in ice point resistance after 1,000 cycles from +20° to +500°C.

Long Term Temperature Cycling (Series 200) Self Heating: 18mW/°C in water moving at 3 fps. Hysteresis: 0.04% maximum between -200° to +500°C. Lead Wire: Teflon™ insulated nickel-plated stranded copper, 22 AWG standard (24 AWG for dual). Sheath Material: High purity compacted ceramic insulation with 316 stainless steel sheath.

Maximum Temperature Reference (Series 200)

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6th Edition 01/2011

Series 300 Thin Film RTDs (TSD300 and TSE300) While Series 200 wire wound RTDs are extremely durable, Series 300 thin films RTDs offer even more durability for extra rugged conditions. However, Series 200, because of their intrinsic design, will offer higher stability and accuracy than the Series 300. Series 300 is the best choice for heavy-duty applications, where durability and economy are priorities. The Series 300 uses a Thin Film Platinum RTD element that is encapsulated by special potting material to protect it from shock, vibration, moisture, and lead-wire breakage. A seal around the element and lead wire junctions completely seals out moisture and adds mechanical protection to the junction. The lead wires are supported with a high purity ceramic powder to eliminate any movement that could cause damage to the element. A second seal is used to prevent moisture and other contaminates from entering the sheath.

Element Resistance: 100 ohms at 0°C nominal Temperature Coefficient of Resistance: 0.00385 ohms/ohm/OC nominal Accuracy: Available with Accuracy of ±0.10% of resistance at 0°C with typical alpha accuracy of 0.00385 ±0.0000135 Ohms/ohm/°C. Temperature Range: -50°C to +200°C Time Constant: Six seconds maximum for 63.2% response to step change in water moving at 3 fps. Insulation Resistance: > 500 meg-Ω @ 500 VDC, over specified temperature range for at least 30 days at 100% humidity. Repeatability: < ±0.04% change in ice point resistance after 10 consecutive cycles between -50°C and +200°C Vibration Resistance: < ±0.03% ice point shift for 30 minutes at 21g peak vibration; 5-350 Hz continuous sweep, at 20OC for unsupported stem lengths of 5 ½ inches or less. The g level was ramped from 1 to 21g’s over the 3 to 30Hz range. Long Term Stability: < ±0.10% ice point resistance shift after 1,000 hours at 200°C. Long Term Temperature Cycling: < ±0.1% change in ice point resistance after 1,000 cycles from +20° to +200°C. Self Heating: 10mW/°C in water moving at 3 fps. Hysteresis: 0.08% maximum between -50° to +200°C. Lead Wire: Teflon™ insulated nickel-plated stranded copper, 22 AWG standard (26 AWG for dual). Sheath Material: High purity compacted ceramic insulation with 316 stainless steel sheath.

Examples of Different Configurations:

YTA with Direct Immersion Sensor.

#5 Connection Head with Direct Immersion Sensor.

YTA with Tapered Threaded Thermowell with “D” extension

#5 Connection Head with Tapered Threaded Thermowell with “D” extension.

5TSD Model Code ConfigurationCodeTSD

Code 02A 05A100 Series 100 Thermocouple200 Series 200 Wire Wound RTD 02E 05E300 Series 300 Thin-Film RTD

Code-A Always

CodeE Type E ThermocoupleJ Type J Thermocouple 09P 14SK Type K ThermocoupleT Type T Thermocouple

Code10 ±0.10% @ 0°C05 ±0.05% @ 0°C

CodeD Single Ungrounded Element NE Single Grounded ElementF Duplex Ungrounded ElementG Duplex Grounded ElementA Single 3-Wire ElementB Single 4-Wire ElementC Dual 3-Wire Element

Code 02A Aluminum Weather-proof Connection Head (Single Element Sensor ONLY )02E Epoxy Coated Aluminum Weather-proof Connection Head (Single Element Sensor ONLY )05A Explosion-proof Aluminum Connection Head05E Epoxy Coated Explosion-proof Connection Head09P Polypropylene Connection Head14S Stainless Steel Connection HeadN No Connection Head

Code035

Examples: L = Code L = Code5.5 inches 055 10.5 inches 105

235 9.0 inches 090 20.0 inches 200Code/xxx

Example:

Yokogawa Direct Immersion Temperature Sensor Base Code

SEN

SOR

Sensor Series

See Table #1, Page # 7

TSD200 Only

TSD100

TSD300

Always

Sensor Type

Accuracy

Element

Immersion Length is available in increments of 0.5 inch ranging from 2.5 inches to 16.5 inches

&

L =

Connection Head

Immersion Length

TSD100

TSD200 and TSD300

TSD200

Options

Con

nect

ion

Hea

d

Shea

th

Example:

TSD 200 -A 10 A 02E 060 /xxx

Fitting (316 SST) L SensorFibreglass Insulated Individual Lead-Wires D

TIG WeldSheath (316 SST)

Y Process Connection Thread(1/2 inch MNPT)

02x Connection Head Thread(1/2 inch MNPT) TSD001.a

Connection Head Lead-wire termination (Stripped and Tinned)

GS 6B50A0-01E-A© Copyright 2009

D Sheath Diameter (1/4 inch standard)

Lead-wire Length (6 inch standard)

L

Y

Immersion Length

6th Edition 01/2011

6TSE Model Code ConfigurationCodeTSE Yokogawa Temperature Sensor with Thermowell

Code100 Series 100 Thermocouple200 Series 200 Wire Wound RTD300 Series 300 Thin-Film RTD

Code-L Always

CodeE Type E ThermocoupleJ Type J ThermocoupleK Type K ThermocoupleT Type T Thermocouple

Code10 ±0.10% @ 0°C05 ±0.05% @ 0°C

CodeD Single Ungrounded ElementE Single Grounded ElementF Duplex Ungrounded ElementG Duplex Grounded ElementA Single 3-Wire ElementB Single 4-Wire ElementC Dual 3-Wire Element

Code 02A Aluminum Weather-proof Connection Head (Single Element Sensor ONLY)02E Epoxy Coated Aluminum Weather-proof Connection Head (Single Element Sensor ONLY)05A Explosion-proof Aluminum Connection Head05E Epoxy Coated Explosion-proof Connection Head09P Polypropylene Connection Head14S Stainless Steel Connection HeadN No Connection Head

Code2C 304 SST Coupling Nipple Extension3C 316 SST Coupling Nipple Extension2D 304 SST Union-Nipple Extension3D 316 SST Union-Nipple ExtensionN No Extension

Code025

Examples: U = Code U = Code3.5 inches 035 10.5 inches 105

165 9.0 inches 090 15.0 inches 150Code

T Tapered

N

No Connection Head

2C 3C

2D 3D

02A 02E

05A 05E

09P

14S

Type

Extension Type

Immersion Length

Thermowell Style

N =

Base Code

SEN

SOR

U =

TSE200&

Immersion Length is available in increments of 0.5 inch ranging from 2.5 inches to 16.5 inches

3.0 inch

0.0 inch

TSE200 Only

TSE100Element

Con

nect

ion

Exte

nsio

n

Hea

d

Connection Head

TSE100

TSE200 and TSE300

Sensor Series

Always

Sensor Type

Accuracy

TSE300

TF

T TaperedR Reduced TipS Straight

CodeT ThreadedW Socket WeldF Flanged

Code2 1/2 inch3 3/4 inch4 1 inch6 1-1/2 inch8 2 inch

CodeN Threaded or Socket Weld A 150 #B 300 #

Code02 304 Stainless Steel03 316 Stainless Steel04 Carbon Steel06 316L Stainless Steel07 Hastelloy C27610 Monel

Code/xxx

EXAMPLE:

TSE 200 -L 10 A 14S 2D 090 T T 4 N 03 /xxx

Lead-wire termination Extension Thermowell(Stripped and Tinned) Fitting (316 SST) Sensor

N UY

2D TT

14S 3D TTFibreglass Insulated

14S Individual Lead-Wires TConnection Head Thread

(1/2 inch MNPT) AConnection Head

GS 6B50A0-01E-A©Copyright 2009

6th Edition 01/2011

Process Connection Type

Process Connection Size

See Table # 2, Page # 7

Lead wire length(6 inch standard) (T = 0)

Flange Rating

Thermowell Material

Ther

mow

ell RF

SF

TW

Immersion Length A Bore Depth T Lag Length

TT

RT

ST

SW

RW

Y N Extension U

Options

6th Edition 01/2011

7TSD Model Code Options Connection Head DetailsFrom Page # 5 Table 1

Code/FH06 M20 316 SST Conduit Adapter³ Type Code Material DescritpionCode

02x 3.25 inch 1/2" FNPTSensor

Code Entry

/SC2 Teflon Coating of Sheath 3.25 inchCode/MT1 Paper Tag/MT2 304 SST Tag/MT3 316 SST TagCode 3/4" FNPT/AFM Factory Mutual (FM) Approval¹ Conduit/CR11 Drawing CH002.a EntryCode/TT1 Attached to YTA110, YTA310, or YTA320² 05x 4.125 inch

1/2" FNPTTable 1 Notes: Sensor

Note 1: Only applicable with Connection Head code 05A, 05E, Entry14S, or N. If attached to a YTA110, YTA310, or YTA320, then transmitter must have an FM approval code.

Note 2: Only applicable with Connection Head code N. 5.5 inchNote 3: Only applicable with Connection Head code 02A, 02E,

05A, 05E, and 14S.

TSE Model Code OptionsFrom Page # 6 Table 2 3/4" FNPT

Code Conduit/FH06 M20 316 SST Conduit Adapter⁴ EntryCode CH005.a

Code09P 3.5 inch 1/2" FNPT

SensorCode Entry

/LY12 12 inch Length Lead-wire

/SD2 3/16 inch Diameter

Transmitter Attachment (Option)

Lead Wire Options (Option)

D =

Approval Certifications / Drawing (Option)

Wired-on-Tag (Option)

Sheath Options (Option)

Extension Options (Option)

Connection Head Option (Option)

Y =

Connection Option (Option)

Lead Wire Options (Option)

12" Length Lead-wire

/EN60

/WT30 3.0 inch Lag Length

/LY12

N = 6.0 inch

T = 3.0 inch or: W

hite

)

For use as a remote head or mounting a YTA50 and

YTA70.

05E

Epo

xy c

oate

d A

lum

inum

(C

olor

: Whi

te)

For use with TSD/E100, TSD/E200, and TSD/E300

For use as a remote head

Explosion proof cast aluminum connection head

NEMA 4X

Polypropylene weather proof connection head

Connection Head

#2

02A

Cas

t Alu

min

um

(Col

or: G

ray) Cast Aluminum weather

proof connection head.

UL / CUL listed

02E

Epo

xy c

oate

d A

lum

inum

(Col

or: W

hite

)

NEMA 4X


#5

05A

Cas

t Alu

min

um

(Col

or: G

ray)

Thermowell Options (Option)

FM rated explosion proof Class I, Div I, Group A, B, C, D; Class II Div I, Group E, F, G; Class III, Div I

6.0 inch Extension Length³

Y =

3.75inch

/WE01 Internal Hydrostatic Pressure Test/WE02 Dye Penetrant Test/WE03 X-ray Examination/WE04 Material Certification/WE05 Murdock Strength Calculations (Wake Frequency) 3/4" FNPT Conduit Entry/WE06 Surface Finish Certificate CH009.a

/WE07 Canadian Registration Number (CRN)/WE08 Material Certificate of Conformance 14S 3.375 inch 1/2" FNPT/WE12 NACE Certification Sensor/WE14 Certificate of Electropolish Entry/WE15 External Hydrostatic Pressure Test/WE16 Positive Material Indentification 3.0625/WE17 Inspection Certificate per EN 10204 3.1b inch/WF2 Mirrior Finish [4 to 10 micro-inch RMS]/WR5 Ring Type Joint/WV01 Brass plug with chain/WV02 SS plug with chain/WV03 Cleaned for Oxygen Service 3/4" FNPT Conduit Entry/WV04 Tag Number stamped on Thermowell CH014.a

Code/MT1 Paper Tag/MT2 304 SST Tag/MT3 316 SST Tag YTA

Code/AFM Factory Matual (FM) Approval¹/CR11 DrawingCode/TT1 Attached to YTA110, YTA310, or YTA320²

Table 2 Notes:Note 1: Only applicable with Connection Head code 05A, 05E,

14S, or N. If attached to a YTA110, YTA310, or YTA320, then transmitter must have an FM approval code.

Note 2: Only applicable with Connection Head code N.Note 3: Only applicable with Extension Type code 2C, 2D, 3C, or 3D.Note 4: Only applicable with Connection Head code 02A, 02E,

05A, 05E, and 14S.KLH102510.a


Approval Certification (Option)

Transmitter Attachment (Option)

6.0 inch Lag Length/WT60

g g


NEMA 4X

For use with YTA110, YTA310, and YTA320

Per YTA used

Wired-on-Tag (Option)

For use with YTA110, YTA310, and YTA320


No Connection Head is Provided

T = 6.0 inch

Pol

ypro

pyle

ne

(Col

o

For use with TSD/E100, TSD/E200, and TSD/E300#14

Refer to the YTA110 or YTA310/320 GS Sheets for Agenct Approval information.

FM and CSA rated for explosion proof Class 1 Div 1 Groups B, C, and D; Dust ignition proof for Div II Groups E, F, and G

N/A N


YTA70.

14S

316

Sta

inle

ss S

teel

N/A

Explosion proof 316 Stainless Steel

connection head


YTA70.

Not Available with TSD100 or TSE100

#9 09P

6th Edition 01/2011

8Extension Type Details

N 1/2 inch *2Cor3C

N 1/2 inch *2Dor 3D

*1/2 inch is the nominal thread engagement for 1/2 NPT fitting

The information in this General Specification is subject to change without notice.

2 Dart RoadNewnan, GA 30265 USA

www.yokogawa.com/us


6th Edition 01/2011

http://www.yokogawa.com/us

gs6b50a0-01e-a6

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