Thermatel® Thermal Dispersion Flow and Level Switches D E S C R I P T I O N Thermatel has demonstrated reliable performance as a flow or level switch. For use as a flow switch, Thermatel can be used to detect either a high flow or a low flow condition for both gases and liquids. For a level switch, Thermatel can be used to detect difference in thermal conductivity of various media. This includes interface detection between media such as liquid/foam, oil/water and even liquid/solid. Thermatel probes are available in 316L Stainless Steel, Hastelloy C, or Monel with all welded construction. The technology has no moving parts providing excellent reliability. Twin Tip Low Flow Body F E A T U R E S • Fast response to changes in flow or level • Detect minimum flow or presence/absence or flow • Suitable for corrosive and harsh environments with all wetted parts of 316L stainless steel, Hastelloy C or Monel. Titanium construction optionally available • Excellent low flow sensitivity • Suitable for high viscosity and aerated fluids • Hot tap available • Sanitary design available • NACE construction available (consult factory) • Process temperatures from -100° to +392° F (-73° to +200° C). High temperature version to +850° F (+454° C) • Monitor liquids and gases with the same sensor • TS model includes electronic self-test and power on delay Spherical Tip T E C H N O L O G Y Thermatel utilizes the proven thermal dispersion technology. There are two elements in the sensor; one heated and one reference. Thermatel detects heat transfer which reduces the temperature difference between the sensors. Changes in temperature difference can be due to either a change in media or a change in flow rate. The electronics compare the electrical signal from the sensor against the set point and provide a relay actuation. F E A T U R E S c o n t i n u e d P R O B E S E L F - T E S T Twin Tip Thermatel switches offer a unique method of testing the instrument without removing the switch from the pipe or vessel. The self-test may be configured to simulate either a high or low alarm condition. The on-demand electronic test may be accomplished locally or with a remote contact closure. • Corrosive resistant materials • Pressures to 3000 psig • Optional 1⁄2" process connection fits directly in 1⁄2" tee Spherical Tip • General purpose service F A C T O R Y • 3-A sanitary design available • Stainless steel only Thermatel Flow Switch may be ordered and factory calibrated to alarm at a specified point. In addition, a complete set point curve may be obtained from the factory to permit field modification of alarm point. Contact the factory for details. Low Flow Body • Flow rates of 0.08 gph (8 quarts/day) to 30 gph (0.3 to 113.5 liters/hour) • 1 • Suitable for chemical feed pumps ⁄4" and 1⁄2" connections H O T C A L I B R A T I O N T A P Hot tap retractable probe assemblies for Thermatel probes are available. See Bulletin 41-103. High Temperature • Temperatures to +850° F (+454° C) • Pressure to Class 6000 psi • Includes heat extension A P P L I C A T I O N S L E V E L S W I T C H Thermatel Series TDL/TSL level/interface switches may be installed in a variety of difficult level applications including: F L O W S W I T C H Thermatel Series TDF/TSF flow switches may be installed in a variety of liquid and gas applications including: • High viscosity • Pump protection • Slurries • Relief valve monitoring • Air/foam • Low/No flow detection • Foam/liquid interface • Seal water • Oil/water interface • Cooling water/cooling air • Aerated fluids • Exhaust flow • DowTherm® • Progressive cavity pumps • Liquid/solids interface • Chemical feed pumps • Pump seals 2 A P P L I C A T I O N S L E V E L S W I T C H F L O W S W I T C H Level or Interface can be detected due to differences in thermal conductivity. High or low level alarm applications may be installed either vertically or horizontally. Flow is detected by an increase in heat transfer that occurs as the flow rate increases. Exceptional low flow sensitivity is obtained with no moving parts. The same unit can be used for both liquid and gas flow indication. Low Level No Flow In the absence of media, the self-heated sensor tip creates a temperature differential between the two sensors. In a low flow condition, the self-heated sensor tip creates a temperature differential between the two sensors. Flow As flow increases across the sensing assembly, heat is dissipated and temperature differential decreases. High Level As media contacts the sensing assembly, heat is absorbed by the fluid, decreasing the temperature differential. Probes are available in lengths to 130" (330 cm) for a wide variety of applications. High level alarm Off gas Gas vent Low level alarm Input line Overflow Low Flow Body Additive flow Interface Overflow tank Primary tank Pump protection Leak detection Level and Flow switch applications 3 S P E C I F I C A T I O N S Supply Voltage: Power Consumption: Output Relay TD Electronics: Output Relay TS Electronics: Operating Temperature Electronics: Operating Temperature: Sensor: High temperature design: Response Time: Set Point Range—Flow: Time Delay: Repeatability: Probe Materials of Construction Twin Tip: Spherical Tip: Low Flow Body: Process Connection: Insertion Length ➁➂ Cable Length Shipping Weight 120 VAC, +10%, -15% 50–60 Hz 240 VAC, +10%, -15% 50–60 Hz 24 VDC, ±20% 5 watts maximum SPDT with gold flashed contacts, 10 amp @ 120 VAC, 240 VAC 8 amp @ 30 VDC, 0.5 amp @ 125 VDC DPDT with gold flashed contacts, 10 amp @ 120 VAC, 240 VAC 10 amp @ 28 VDC, 0.5 amp @ 125 VDC Hermetically sealed DPDT with gold flashed contacts 5 amp @ 120 VAC, 240 VAC 5 amp @ 28 VDC -40° to +160° F (-40° to +70° C) -100° to +392° F (-73° to +200° C) -100° to +850° F (-73° to +454° C) 1 to 10 seconds (typical liquid) Water: 0.01 to 5.0 fps (0.003 to 1.5 m/s) Air: 0.1 to 500 fps (0.03 to 150 m/s) 0–100 seconds adjustable <1% @ constant temperature All wetted parts of 316L stainless steel, Hastelloy C, or Monel 316L stainless steel 316L stainless steel Refer to part number construction chart on pages 8 –11 2 inch (5 centimeter) standard Available in lengths from 3 to 130 inches in 1 inch increments, (7 to 330 centimeters in 1 cm increments) 1 ⁄2" NPT, 1" (2.5 cm) standard Available insertion lengths from 2 to 60 inches (5 to 152 centimeters) 500 feet maximum (152 meters maximum) 4.6 lbs. (with 2" probe) ➀ Operating temperatures greater than 250° F (120° C) require remote electronics 4 ➀ P R E S S U R E / T E M P E R A T U R E ( D E P E N D E N T Tip Style Spherical Twin with ⁄2" NPT process connection SENSOR C O N N E C T I O N ) Pressure/Temperature Rating +100° F (+38° C) +392° F (+200° C) +850° F (+450° C) 2" (5 cm) 3–130" (7–330 cm) 3000 psig (206 bar) 1250 psig (86 bar) 2280 psig (157 bar) 1140 psig (78 bar) — — 2–130" (5–330 cm) 600 psig (41 bar) 415 psig (28 bar) — 1" (2.5 cm) 2–60" (5–152 cm) 3000 psig (206 bar) 1850 psig (127 bar) 2280 psig (157 bar) 1680 psig (115 bar) — — — 5800 psig (400 bar) 4100 psig (285 bar) — 2–36" (5–90 cm) 6000 psig (413 bar) 4280 psig (295 bar) 3380 psig (233 bar) Low flow body High temperature P R O C E S S Insertion Length Twin 1 O N R A T I N G TIP DESIGNS Thermatel offers two sensor tip designs—the original twin tip and the unique spherical tip. Both designs have similar operating ranges. Twin tip Twin tip The spherical tip is recommended for all types of applications—general purpose, high viscosity, and applications where buildup can occur. Response times for both tips are shown in the chart at right. HIGH LEVEL/HIGH FLOW Voltage The sensors in the twin tip are mounted at the end of each tip. In the spherical tip, the sensors are bonded directly to the wall of the tip, providing protection of the sensors. Response Time Spherical tip Spherical tip 0 5 LOW LEVEL/LOW FLOW 10 Response Time Seconds 15 20 Response time: Spherical tip vs. Twin tip Twin tip Spherical tip Both sensors detect flow or level at approximately the same rate. However, the spherical tip responds faster to a loss of flow or a dry condition. The actual response time depends upon variables including set point adjustment rate of change in flow, and application specific parameters. 5 A G E N C Y A P P R O V A L S AGENCY MODEL APPROVED PROTEC TION METHOD FM ➀ TXX-XXX0-E00 Explosion Proof AREA CLASSIFICATION Class I, Div 1; Groups C, D Class II & III, Div 1; Groups E, F, G TXX-XXX0-Y00 NEMA Type 4X and IP65 TXX-XX00-J00 Explosion Proof Class I, Div 1; Groups B, C, D Class II & III, Div 1; Groups E, F, G TXX-XXX0-R00 NEMA Type 4X and IP 65 TXX-XXX0-E00 Non-Incendive Class I, Div 2; Groups A, B, C, D TXX-XXX0-R00 Class II & III, Div 2; Groups E, F, G T4A TXX-XXX0-J00 NEMA Type 4X and IP 65 TXX-XXX0-Y00 Probe Model ➁ XTX-XXXX-XXX Explosion Proof Class I, Div 1; Groups B, C, D Class II & III, Div 1; Groups E, F, G ➁ XT9-XXXX-X00 NEMA Type 4X and IP 65 CSA ➀ TXX-XXX0-E00 Explosion Proof Class I, Div 1; Groups C, D Class II & III, Div 1; Groups E, F, G T4A TXX-XXX0-Y00 Type 4X TXX-XX00-J00 Explosion Proof Class I, Div 1; Groups B, C, D ➂ Class II & III, Div 1; Groups E, F, G T4A TXX-XX00-R00 Type 4X TXX-XXX0-E00 Suitable for Class I, Div 2; Groups A, B, C, D TXX-XXX0-R00 Class II & III, Div 2; Groups E, F, G T4A TXX-XXX0-J00 Type 4X TXX-XXX0-Y00 Probe Model ➁ XTX-XXXX-XXX Explosion Proof Class I, Div 1; Groups B, C, D ➁ Class II & III, Div 1; Groups E, F, G XT9-XXXX-X00 Type 4X ATEX TDX-1XXX-XXX Explosion Proof TDX-2XXX-XXX II 2 G EEx d II C T5 (-40° to +40° C) T4 (-40° to +55° C) TDX-4XXX-XXX TDX-3XXX-XXX Explosion Proof TDX-2XXX-XXX SAA TDF-1100-E00 T4 (-40° to +55° C) Explosion Proof TDF-1120-E00 ➀ FM/CSA approved based on a maximum temperature rise of sensor of 180° F (100° C) above the process temperature. ➁ Probe type XT1-XXX0-XXX limited to Class I locations only. Class II, Groups E, F & G approval only with spherical tip (XT2-XXX0-XXX). ➂ CSA approval for Group B with integral electronics only. 6 II 1/2 G EEx d+ib, d[ib] II C T5 (-40° to +40° C) Ex d IIC (Hydrogen Only) T6 IP65 D I M E N S I O N A L I N C H E S S P E C I F I C A T I O N S ( M M ) 3.87 (98) 3.44 (87) 6.95 (177) 9.18 (233) 3/4" NPT Conduit connection 1" NPT Conduit connection NPT Process connection 1.57 (44) 2.18 (55) BSP Thread Insertion length NPT Insertion length Welded flange process connection Insertion length .87 (22) Dia. .87 (22) Dia. NEMA 4X/7/9 Housing, Group C, D, E, F, & G (Code E) shown with 3⁄4" NPT Spherical Tip probe 3.44 (87) NEMA 4X/7/9, Group B Aluminum Housing (Code R) shown with flanged Twin Tip probe Rotation clearance NEMA 4X/7/9 4.63 (118) Dia. 3.00 Rotation (76) clearance NEMA 4X/7/9 7.75 (197) 2.75 (70) 3/4" NPT Conduit connection 2 Holes .38 (10) dia. 2.37 (60) 3/4" Remote Sensor Housing 3.00 (76) 2.00 (51) 3.50 (89) 3.75 (95) 1/2" 3/4" FNPT (standard) FNPT (optional) Transducer/Amplifier cable connector 2 Holes .38 (10) dia. 2.00 (51) Remote Electronics Housing (Code E) 8.00 (203) NPT 2.37 (60) Optional mounting bracket 3.00 (76) 3.50 (89) 10.75 (273) 3.75 (95) 1.25 (32) Low Flow Body (end view) 1/2" NPT Process connection Insertion length ➀ Insertion length ➁ Insertion length ➂ .625 (16) Dia. High Temperature Probe with 8" heat extension ➀ Insertion length: 2" to 36" (5 to 91 cm) 1 ⁄2" Twin Tip Probe ➁ Insertion length: 1" (2.5 cm) minimum. 2" to 60" (5 to 152 cm) available. 1/4" or 1/2" NPT or BSP .87 (22) Dia. Spherical Tip Probe with flange ➂ Insertion length: 2" to 130" (5 to 330 cm). 2.00 (51) Low Flow Body (front view) 7 E L E C T R O N I C S M O D E L – F M / C S A / S A A M O D E L S N U M B E R Models available for quick shipment, usually within one week after factory receipt of a purchase order, through the Expedite Ship Plan (ESP) MODEL D Standard (TD) SPDT relay S On-demand electronic self-test (TS) DPDT relay APPLICATION F L Flow Level OUTPUT 1 10 amp SPDT relay with gold flashed contacts (Model TD) 2 10 amp DPDT relay with gold flashed contacts (Model TS) 4 5 amp hermetically sealed DPDT relay with gold flashed contacts (Model TS) INPUT VOLTAGE 0 120 VAC 1 240 VAC 2 24 VDC MOUNTING 0 Integral 2 Remote (includes electronics housing bracket and remote sensor housing) HOUSING T 8 0 E NEMA 4X/7/9 Polymer coated aluminum Dual conduit connection, 3⁄4" NPT J NEMA 4X/7/9 Group B Polymer coated cast iron (integral only) Single conduit connection, 1" NPT R NEMA 4X/7/9 Group B Polymer coated die-cast aluminum Dual conduit connection, 1" NPT Y NEMA 4X/7/9 316 stainless steel Single conduit, 3⁄4" NPT 0 0 E L E C T R O N I C S M O D E L – A T E X A P P R O V E D N U M B E R MODEL D Standard S On-demand electronic self-test OUTPUT 1 2 3 4 10 amp SPDT relay with gold flashed contacts (Model TD) 10 amp DPDT relay with gold flashed contacts (Model TS) 5 amp DPDT relay with gold flashed contacts (Model TD) — use for Zone 0 service 5 amp hermetically sealed DPDT relay with gold flashed contacts (Model TS) INPUT VOLTAGE 0 120 VAC 1 240 VAC 2 24 VDC MOUNTING 0 Integral 2 Remote (includes electronics housing bracket and remote sensor housing) HOUSING V ATEX Polymer coated aluminum Dual cable entry, 3⁄4" NPT W ATEX Polymer coated aluminum Dual cable entry, M 20 ✕ 1.5 6 ATEX 316 stainless steel, single conduit connection, 3⁄4" NPT NOTE: ATEX approved probes must be used. T F 0 0 0 9 P R O B E M O D E L – F M / C S A / S A A M O D E L S N U M B E R PROBE DESIGN 4 Probe length in inches 6 Probe length in centimeters TIP STYLE 1 Twin tip 2 Spherical tip – available in 316L stainless steel only (code 22) PROCESS CONNECTION 1 2 3 4 A B C D E F G H J K ⁄4" 1" 11⁄2" 2" 1 ⁄2" 1" 11⁄2" 2" 1" 11⁄2" 2" 1" 11⁄2" 3 NPT NPT sanitary flange, 16 amp - 3A sanitary flange, 16 amp - 3A NPT – available with twin tip (code 1) and in 316L stainless steel only (code 22) 150#, raised faced flange socket welded to probe 150#, raised faced flange socket welded to probe 150#, raised faced flange socket welded to probe 300#, raised faced flange socket welded to probe 300#, raised faced flange socket welded to probe 300#, raised faced flange socket welded to probe 600#, raised faced flange socket welded to probe 600#, raised faced flange socket welded to probe 2" 600#, raised faced flange socket welded to probe DIN flange process connections available – consult factory MATERIAL 22 HC MM 316L stainless steel Hastelloy C-276 Monel Construction to meet NACE MR0175 standard available. Titanium construction available; consult factory. INSERTION LENGTH with PROBE DESIGN code 4 001 1" minimum (1⁄2" NPT connection only) 002 2" minimum (ESP with 3⁄4" NPT connection only) * 3" to 130" maximum in 1" increments * Example: 4 inches = Code 004. For lengths over 130 inches, consult factory. INSERTION LENGTH with PROBE DESIGN code 6 003 2.5 cm minimum (1⁄2" NPT connection only) 005 5 cm minimum (ESP with 3⁄4" NPT connection only) * 7 to 330 cm maximum in 1 cm increments * Example: 25 cm = Code 025. For lengths over 330 cm, consult factory. T 10 0 For flow applications, probe length should extend at least 10% into pipe. P R O B E M O D E L – A T E X M O D E L S N U M B E R MODEL TE Probe length in inches TM Probe length in centimeters TIP STYLE A Standard B Standard C Standard D Standard spherical tip spherical tip – with heat extension twin tip twin tip – with heat extension max. max. max. max. 120° 200° 120° 200° C C C C (250° (390° (250° (390° F)/max. F)/max. F)/max. F)/max. 41 41 207 207 bar bar bar bar (600 psi) (600 psi) (3000 psi) (3000 psi) MATERIAL OF CONSTRUCTION A 316/316L (1.4401/1.4404) stainless steel B Hastelloy C (2.4819) C Monel (2.4360) PROCESS CONNECTION SIZE/TYPE 11 3 ⁄4" NPT Thread 21 1" NPT Thread 22 G1 (1" BSP) Thread ANSI RAISED FACE FLANGE CONNECTIONS 23 1" 150# ANSI RF Flange 35 11⁄2" 600# ANSI RF Flange 24 1" 300# ANSI RF Flange 43 2" 150# ANSI RF Flange 25 1" 600# ANSI RF Flange 44 2" 300# ANSI RF Flange 33 11⁄2" 150# ANSI RF Flange 45 2" 600# ANSI RF Flange 34 1 300# ANSI RF Flange 1 ⁄2" DIN 2527 FLANGED CONNECTIONS BA DN 25 PN 16 Form B CC DN 40 PN 64/100 BB DN 25 PN 25/40 Form B DA DN 50 PN 16 Form B BC DN 25 PN 64/100 Form E DB DN 50 PN 25/40 Form B CA DN 40 PN 16 Form B DD DN 50 PN 64 Form E CB DN 40 PN 25/40 Form B DE DN 50 PN 100 Form E Form E SANITARY FLANGE CONNECTIONS ➀ 3T 1" and 11⁄2" 3A compatible CS DIN 11.851 DN 40 4T 2" 3A compatible DS DIN 11.851 DN 50 BS DIN 11.851 DN 25 ➀ Only available for Standard Spherical Sensor (TMA/TMB) INSERTION LENGTH* 2 inch minimum 002 3" to 130" maximum in 1" increments* (Example: 4 inches = code 004) 005 Minimum length 50 mm with NPT Threads 007 Minimum length 80 mm with G1 (BSP) connection 007 Minimum length 80 mm with Flange connections * Extended lengths in 10 mm increments — maximum length 3300 mm (Example 200 mm = code 020) T 0 11 HIGH TEMPERATURE M O D E L PROBE–FM/CSA/SAA MODELS N U M B E R High temperature probe includes 8" (20 cm) heat extension between process connection and electronics. PROBE DESIGN 4 Probe length in inches 6 Probe length in centimeters PROCESS CONNECTION* 11 21 23 24 25 26 33 34 35 36 37 43 44 45 46 47 ⁄4" 1" 1" 1" 1" 1" 11⁄2" 11⁄2" 11⁄2" 11⁄2" 11⁄2" 2" 2" 2" 2" 2" 3 NPT NPT 150#, raised faced flange socket welded to probe 300#, raised faced flange socket welded to probe 600#, raised faced flange socket welded to probe 1500#, raised faced flange socket welded to probe 150#, raised faced flange socket welded to probe 300#, raised faced flange socket welded to probe 600#, raised faced flange socket welded to probe 1500#, raised faced flange socket welded to probe 2500#, raised faced flange socket welded to probe 150#, raised faced flange socket welded to probe 300#, raised faced flange socket welded to probe 600#, raised faced flange socket welded to probe 1500#, raised faced flange socket welded to probe 2500#, raised faced flange socket welded to probe * DIN flange process connections available – consult factory MATERIAL S H 316L stainless steel Hastelloy C-276 INSERTION LENGTH with PROBE DESIGN code 4 2" to 36" maximum in 1" increments Example: 4 inches = Code 004 Minimum lengths: 2.0" (002) with threaded process connection 3.0" (003) with flanged process connection INSERTION LENGTH with PROBE DESIGN code 6 Extended lengths to 91 cm in 1 cm increments Example: 8 cm = Code 008 Minimum lengths: 5 cm (005) with threaded process connection 7 cm (007) with flanged process connection T 12 H 0 For flow applications, probe length should extend at least 10% into pipe. HIGH TEMPERATURE M O D E L PROBE–ATEX MODEL N U M B E R MODEL TE Probe length in inches TM Probe length in centimeters TIP STYLE H High temperature/high pressure twin tip max. 450° C (850° F)/max. 413 bar (6000 psi) MATERIAL OF CONSTRUCTION A 316/316L (1.4401/1.4404) stainless steel B Hastelloy C (2.4819) PROCESS CONNECTION SIZE/TYPE 11 3 ⁄4" NPT Thread 21 1" NPT Thread 22 G1 (1" BSP) Thread ANSI RAISED FACE FLANGE CONNECTIONS 23 1" 150# ANSI RF Flange 37 11⁄2" 900/1500# ANSI RF Flange 24 1" 300# ANSI RF Flange 38 11⁄2" 2500# ANSI RF Flange 25 1" 600# ANSI RF Flange 43 2" 150# ANSI RF Flange 27 1" 900/1500# ANSI RF Flange 44 2" 300# ANSI RF Flange 33 1 1 ⁄2" 150# ANSI RF Flange 45 2" 600# ANSI RF Flange 34 11⁄2" 300# ANSI RF Flange 47 2" 900/1500# ANSI RF Flange 35 11⁄2" 600# ANSI RF Flange 48 2" 2500# ANSI RF Flange DIN 2527 FLANGED CONNECTIONS BA DN 25 PN 16 Form B BB DN 25 PN 25/40 Form B DB BC DN 25 PN 64/100 Form E DD BG DN 25 PN 250 Form E DE CA DN 40 PN 16 Form B DG CB DN 40 PN 25/40 Form B DJ DN 50 CC DN 40 PN 64/100 Form E CG DN 40 PN 250 Form E CJ DN 40 PN 400 Form E DA DN 50 PN 16 Form B DN 50 PN 25/40 Form B DN 50 PN 64 Form E DN 50 PN 100 Form E DN 50 PN 250 Form E PN 400 Form E INSERTION LENGTH* 002 2 inch minimum 3" to 36" maximum in 1" increments* (Example: 6 inch probe = 006) 005 Minimum length 50 mm with NPT Threads 007 Minimum length 80 mm with G1 (BSP) connection 007 Minimum length 80 mm with Flange connections * Extended lengths in 10 mm increments — maximum length 910 mm* (Example 200 mm = code 020) * Longer lengths available — consult factory T H 0 13 L O W F L O W M O D E L B O D Y – F M / C S A / S A A M O D E L S N U M B E R Flow rate gallons per hour 1/2" connection FLOW BODY CODE C D ⁄4" ⁄2" 1 1/4" connection 1 .1 1.0 10.0 Flow GPH 1 ⁄4" connection for flow rates of 0.08 to 10 gallons per hour (0.3 to 38 liters per hour); 1⁄2" connection for flow rates of 1.0 to 30 gallons per hour (3.8 to 113.5 liters per hour). PROCESS CONNECTION 1 NPT 2 BSP Gas flow rate Minimum detectable flow rate: 1 ⁄4" connection 200 SCCM (0.42 SCFH); 1 ⁄2" connection 1000 SCCM (2.1 SCFH). MOUNTING BRACELET 0 None 1 Provided 4 T 9 2 2 C O N N E C T I N G M O D E L 0 0 C A B L E N U M B E R CONNECTING CABLE IN FEET Cable length in feet; 10 feet minimum, 500 feet maximum length Example: 12 feet = Code 012 0 3 7 3 1 8 6 CONNECTING CABLE IN METERS 3 meters minimum, 152 meters maximum length Example: 3 meters = Code 003 0 14 3 7 3 1 9 8 L O W F L O W M O D E L B O D Y – A T E X M O D E L S N U M B E R MODEL TE Probe length in inches TM Probe length in centimeters BODY STYLE L Low flow body max. 120° C (250° F)/max. 400 bar (5800 psi) MATERIAL OF CONSTRUCTION A 316/316L (1.4401/1.4404) stainless steel PROCESS CONNECTION SIZE/TYPE T1 1 V1 1 ⁄4" NPT Thread T0 G 1⁄4 (1⁄4" BSP) Thread V0 G 1⁄2 (1⁄2" BSP) Thread ⁄2" NPT Thread MOUNTING BRACKET 000 None 100 With mounting bracket T L 2 0 M I N I S E N S O R M O D E L N U M B E R – A T E X M O D E L S MODEL TE Probe length in inches TM Probe length in centimeters BODY STYLE M max. 120° C (250° F)/max. 207 bar (3000 psi) for standard sensor length max. 120° C (250° F)/max. 127 bar (1850 psi) for sensors ≥ 50 mm Mini twin tip MATERIAL OF CONSTRUCTION A 316/316L (1.4401/1.4404) stainless steel PROCESS CONNECTION SIZE/TYPE 01 1 11 3 ⁄2" NPT Thread 21 1" NPT Thread ⁄4" NPT Thread 001 003 005 1 inch minimum 2" to 130" maximum in 1" increments* Example: 6 inch probe = 006 Minimum length 25 mm 50 mm (005) 60 mm (006) to 3300 mm (330) cm 10 mm increments Example 200 mm = code 020 * Specify for increments of 10 mm (0.39”) M A 0 1 0 15 Q U A L I T Y The quality assurance system in place at Magnetrol guarantees the highest level of quality throughout the company. Magnetrol is committed to providing full customer satisfaction both in quality products and quality service. Magnetrol’s quality assurance system is registered to ISO 9001 affirming its commitment to known international quality standards providing the strongest assurance of product/service quality available. Several Thermatel flow and level switches are available for quick shipment, usually within one week after factory receipt of a purchase order, through the Expedite Ship Plan (ESP). To take advantage of ESP, simply match the color coded model number codes (standard dimensions apply). E S P Expedite Ship Plan Models covered by ESP service are color coded in the selection data charts. ESP service may not apply to orders of ten units or more. Contact your local representative for lead times on larger volume orders, as well as other products and options. W A R R A N T Y All Magnetrol electronic level and flow controls are warranted free of defects in materials or workmanship for one full year from the date of original factory shipment. If returned within the warranty period; and, upon factory inspection of the control, the cause of the claim is determined to be covered under the warranty; then, Magnetrol will repair or replace the control at no cost to the purchaser (or owner) other than transportation. Magnetrol shall not be liable for misapplication, labor claims, direct or consequential damage or expense arising from the installation or use of equipment. There are no other warranties expressed or implied, except special written warranties covering some Magnetrol products. For additional information, see Instruction Manual 54-601. 5300 Belmont Road • Downers Grove, Illinois 60515-4499 • 630-969-4000 • Fax 630-969-9489 • www.magnetrol.com 145 Jardin Drive, Units 1 & 2 • Concord, Ontario Canada L4K 1X7 • 905-738-9600 • Fax 905-738-1306 Heikenstraat 6 • B 9240 Zele, Belgium • 052 45.11.11 • Telex 25944 • Fax 052 45.09.93 Regent Business Ctr., Jubilee Rd. • Burgess Hill, Sussex RH15 9TL U.K. • 01444-871313 • Fax 01444-871317 Copyright © 2004 Magnetrol International, Incorporated. All rights reserved. Printed in the USA. Magnetrol and Magnetrol logotype are registered trademarks of Magnetrol International. Performance specifications are effective with date of issue and are subject to change without notice. The brand and product names contained within this document are trademarks or registered trademarks of their respective holders. BULLETIN: 54-101.18 EFFECTIVE: March 2004 SUPERSEDES: August 2002