Brands |
N/A HART® Pyromation® |
Approximate Weight |
N/A 1.6 kg3.53 lb |
Materials |
N/A Housing: Die-Cast Aluminum with Powder Coating |
Terminals |
N/A Cables / wires up to max. 2.5 mm² (AWG 12) |
Transmitter Output |
N/A Highway Addressable Remote Transducer (HART®) Protocol |
Transmitter Type |
N/A
Code 662A: (4 to 20) mA HART® Field Transmitter with general-purpose aluminum housing Code 662C: (4 to 20) mA HART® Field Transmitter with explosion-proof aluminum housing FM/CSA/ XP Class I / Div 1/ Groups A,B,C,D / DIP Class II / Div 1 / Groups E,F,G / Class III / NI Class I / Div 2 / Groups A,B,C,D Code 662E: (4 to 20) mA HART® Field Transmitter with dual cavity flame-proof/dust-protected aluminum housing ATEX/IECEx; Ex d IIC T6...T4Gb; Ex tb IIIC T110 ºC Db, IP66/67 Code 662F: (4 to 20) mA HART® Field Transmitter with general-purpose aluminum housing FM/CSA IS Class I / Div 1 / Groups A,B,C,D / NI Class I / Div 2 / Groups A,B,C,D |
Options |
N/A Code D: Glass Cover with Digital Display Code T: Solid Cover |
Configuration Input |
N/A Code 00: T82 Unconfigured Code 01: 662 Single input, unconfigured Code 02: 662 Dual input, unconfigured Code 22: Ch1: RTD 2-wire, Ch2: RTD 2-wire Code 23: Ch1: RTD 2-wire, Ch2: RTD 3-wire Code 2I: Ch1: RTD 2-wire, Ch2: inactive Code 2T: Ch1: RTD 2-wire, Ch2: Thermocouple Code 32: Ch1: RTD 3-wire, Ch2: RTD 2-wire Code 33: Ch1: RTD 3-wire, Ch2: RTD 3-wire Code 3I: Ch1: RTD 3-wire, Ch2: inactive Code 3T: Ch1: RTD 3-wire, Ch2: Thermocouple Code 4I: Ch1: RTD 4-wire, Ch2: inactive Code 4T: Ch1: RTD 4-wire, Ch2: Thermocouple Code TI: Ch1: Thermocouple, Ch2: inactive Code TT: Ch1: Thermocouple, Ch2: Thermocouple |
Sensor Input Channel 1 |
N/A Code 55: 500 Ohm Platinum (α = 0.003 85 ºC-1) Code 85: 100 Ohm Platinum (α = 0.003 85 ºC-1) Code 95: 1000 Ohm Platinum (α = 0.003 85 ºC-1) Code B: Type B Thermocouple Code E: Type E Thermocouple Code J: Type J Thermocouple Code K: Type K Thermocouple Code N: Type N Thermocouple Code R: Type R Thermocouple Code S: Type S Thermocouple Code T: Type T Thermocouple |
Unit of Measure |
N/A Code C: Celsius Code F: Fahrenheit |
Range |
N/A Code S: (Lower limit – upper limit) |
Failure Mode |
N/A Code D: Downscale Burnout ≥ 3 mA Code U: Upscale Burnout ≤ 23 mA |
Input Setup |
N/A Code 0: One Input Code A: Process variable = Ch1; Ch2 = inactive Code C: Process variable = the difference between Ch1 and Ch2 Code D: Process variable = average of Ch1 and Ch2 Code E: Sensor backup; Process variable = Ch1 and Ch2 |
Sensor Input Channel 2 |
N/A Code 00: No second channel Code 55: 500 ohm platinum (α = 0.003 85 ºC-1) Code 85: 100 ohm platinum (α = 0.003 85 ºC-1) Code 95: 1000 ohm platinum (α = 0.003 85 ºC-1) Code B: Type B Thermocouple Code E: Type E Thermocouple Code J: Type J Thermocouple Code K: Type K Thermocouple Code N: Type N Thermocouple Code R: Type R Thermocouple Code S: Type S Thermocouple Code T: Type T Thermocouple |
Height |
N/A 110 mm4.33 in |
Width |
N/A 112 mm4.41 in |
Length |
N/A 132.5 mm5.22 in |
Note for Dimension |
N/A Display rotatable in 90º increments. |
Optional Mounting Bracket |
N/A
Part Number - 17614 Part Name - Stainless Steel Wall/Tube Kit Part Number - 17615 Part Name - Stainless Steel Pipe Mounting Kit Designed for use on pipes with a diameter of 2 in. |
Application Areas |
N/A
|
Resistance Temperature Detectors (RTD) Thermometer Type |
N/A Type: Cu10 (α = 0.004 274) Type: Cu100 (α = 0.004 278) Type: Cu50 (α = 0.004 278) Type: Ni100 (α = 0.006 180) Type: Ni1000 (α = 0.006 180) Type: Ni120 (α = 0.006 720) Type: Polynomial RTD Type: Pt100 (α = 0.003 85 ºC-1) Type: Pt100 (α = 0.003 911) Type: Pt100 (α = 0.003 916) Type: Pt100 (α = 0.003 923) Type: Pt100 (Callendar - van Dusen) Type: Pt1000 Type: Pt200 Type: Pt50 (α = 0.003 911) Type: Pt500 |
Standards |
N/A Type Cu10 (α = 0.004 274): Edison Curve Type Cu100 (α = 0.004 278): GOST Type Cu50 (α = 0.004 278): GOST Type Ni100 (α = 0.006 180): DIN 43 760 Type Ni1000 (α = 0.006 180): DIN 43 760 Type Ni120 (α = 0.006 720): Edison Curve Type Pt100 (α = 0.003 911): GOST Type Pt100 (α = 0.003 916): JIS C1604 Type Pt100 (α = 0.003 923): SAMA Type Pt200: ASTM E1137 Type Pt50 (α = 0.003 911): GOST Type Pt500: IEC 60 751 |
Resistance Temperature Detectors (RTD) Thermometer Temperature Range |
N/A Type Cu10 (α = 0.004 274): -100 to 260 ºCType Cu100 (α = 0.004 278): -200 to 200 ºCType Cu50 (α = 0.004 278): -200 to 200 ºCType Ni100 (α = 0.006 180): -60 to 250 ºCType Ni1000 (α = 0.006 180): -60 to 150 ºCType Ni120 (α = 0.006 720): -70 to 270 ºCType Polynomial RTD: -200 to 850 ºCType Pt100 (α = 0.003 85 ºC-1): -200 to 850 ºCType Pt100 (α = 0.003 911): -200 to 850 ºCType Pt100 (α = 0.003 916): -200 to 510 ºCType Pt100 (α = 0.003 923): -100 to 700 ºCType Pt100 (Callendar - van Dusen): -200 to 850 ºCType Pt1000: -200 to 250 ºCType Pt200: -200 to 850 ºCType Pt50 (α = 0.003 911): -200 to 1100 ºCType Pt500: -200 to 250 ºCType Cu10 (α = 0.004 274): -148 to 500 ºFType Cu100 (α = 0.004 278): -328 to 392 ºFType Cu50 (α = 0.004 278): -328 to 392 ºFType Ni100 (α = 0.006 180): -76 to 482 ºFType Ni1000 (α = 0.006 180): -76 to 302 ºFType Ni120 (α = 0.006 720): -94 to 518 ºFType Polynomial RTD: -328 to 1562 ºFType Pt100 (α = 0.003 85 ºC-1): -328 to 1562 ºFType Pt100 (α = 0.003 911): -328 to 1562 ºFType Pt100 (α = 0.003 916): -328 to 950 ºFType Pt100 (α = 0.003 923): -148 to 1292 ºFType Pt100 (Callendar - van Dusen): -328 to 1562 ºFType Pt1000: -328 to 482 ºFType Pt200: -328 to 1562 ºFType Pt50 (α = 0.003 911): -328 to 2012 ºFType Pt500: -328 to 482 ºF |
Minimum Resistance Temperature Detectors (RTD) Thermometer Temperature Range |
N/A 10 ºC18 ºF |
Connection Type |
N/A 2-, 3- or 4-wire connection cable resistance compensation possible in the 2 wire system (0 to 30) Ohm |
Sensor Cable Resistance |
N/A 3-wire and 4-wire connection, sensor wire resistance to maximum 50 Ohm per wire |
Sensor Current |
N/A ≤ 0.3 mA |
Resistance Measurement Range |
N/A 10 to 2000 O10 to 400 O |
Minimum Resistance Range |
N/A 10 O |
Thermocouples (TC) (ASTM E230) Type |
N/A Type B (PtRh30-PtRh6) Type C (W5Re-W26Re) Type D (W3Re-W25Re) (ASTM E1751) Type E (NiCr-CuNi) Type J (Fe-CuNi) Type K (NiCr-Ni) Type L (Fe-CuNi) (according to DIN 43 710) Type N (NiCrSi-NiSi) Type R (PtRh13-Pt) Type S (PtRh10-Pt) Type T (Cu-CuNi) Type U (Cu-CuNi) (according to DIN 43 710) |
Thermocouples (TC) (ASTM E230) Temperature Range |
N/A Type B (PtRh30-PtRh6): (40 to 1820) ºC [104 to 3308] ºF Type C (W5Re-W26Re): (0 to 2315) ºC [32 to 4199] ºF Type D (W3Re-W25Re) (ASTM E1751): (0 to 2315) ºC [32 to 4199] ºF Type E (NiCr-CuNi): (-270 to 1000) ºC [-454 to 1832] ºF Type J (Fe-CuNi): (-210 to 1200) ºC [-346 to 2192] ºF Type K (NiCr-Ni): (-270 to 1372) ºC [-454 to 2501] ºF Type L (Fe-CuNi) (according to DIN 43 710): (-200 to 900) ºC [-328 to 1652] ºF Type N (NiCrSi-NiSi): (-270 to 1300) ºC [-454 to 2372] ºF Type R (PtRh13-Pt): (-50 to 1768) ºC [-58 to 3214] ºF Type S (PtRh10-Pt): (-50 to 1768) ºC [-58 to 3214] ºF Type T (Cu-CuNi): (-270 to 400) ºC [-454 to 752] ºF Type U (Cu-CuNi) (according to DIN 43 710): (-200 to 600) ºC [-328 to 1112] ºF |
Minimum Thermocouples (TC) (ASTM E230) Temperature Range |
N/A Type B (PtRh30-PtRh6): 50 ºC [90 ºF] Type C (W5Re-W26Re): 50 ºC [90 ºF] Type D (W3Re-W25Re) (ASTM E1751): 50 ºC [90 ºF] Type E (NiCr-CuNi): 50 ºC [90 ºF] Type J (Fe-CuNi): 50 ºC [90 ºF] Type K (NiCr-Ni): 50 ºC [90 ºF] Type L (Fe-CuNi) (according to DIN 43 710): 50 ºC [90 ºF] Type N (NiCrSi-NiSi): 50 ºC [90 ºF] Type R (PtRh13-Pt): 50 ºC [90 ºF] Type S (PtRh10-Pt): 50 ºC [90 ºF] Type T (Cu-CuNi): 50 ºC [90 ºF] Type U (Cu-CuNi) (according to DIN 43 710): 50 ºC [90 ºF] |
Cold Junction |
N/A Internal (Pt100) or external (-40 to 85) ºC [-40 to 185] ºF |
Cold Junction Accuracy (±) |
N/A 1 ºC |
Maximum Sensor Resistance |
N/A 10 kO |
Measurement Voltage Range |
N/A -20 to 100 mV |
Minimum Voltage Range |
N/A 5 mV |
Output Signal |
N/A Analog (4 to 20) mA or (20 to 4) mA |
Transmission as |
N/A Temperature linear, resistance linear, voltage linear |
Maximum Load |
N/A (Vpower supply - 11V) / 0.023 A (current output) |
Digital Filter 1st Degree |
N/A 0 to 60 sec |
Induced Current Required |
N/A ≤ 3.5 mA |
Current Limit |
N/A ≤ 23 mA |
Switch on Delay |
N/A 4 sec (during switch-on operation Ia = 4 mA) |
Response Time |
N/A 1 sec |
Undershooting Measurement Range |
N/A Decrease to 3.8 mA |
Exceeding Measurement Range |
N/A Decrease to 3.8 mA |
Sensor Breakage/Short Circuit |
N/A ≤ 3.6 mA or ≥ 21.0 mA (configurable 21.6 mA to 23 mA) |
Power Supply |
N/A Ub = 11 to 40 V (8 to 40 without display), reverse polarity protected |
Cable Entry |
N/A Three 1/2" NPT openings |
Allowable Ripple |
N/A Uss ≤ 3 V at Ub ≥ 13.5 V, fmax = 1 kHz |
Reference Conditions |
N/A Calibration temperature (23 ± 5) ºC [73.4 ± 9] ºF |
Resistance Temperature Detectors (RTD) Thermometer Measurement Digital Accuracy (±) |
N/A Type Cu10, Pt200: 1 ºC [1.8 ºF] Type Cu100, Pt100, Ni100, Ni120: 0.1 ºC [0.18 ºF] Type Cu50, Pt50, Pt1000, Ni1000: 0.2 ºC [0.36 ºF] Type Pt500: 0.3 ºC [0.54 ºF] |
Resistance Accuracy (±) |
N/A Type Cu10, Pt200: 0.02 %Type Cu100, Pt100, Ni100, Ni120: 0.02 %Type Cu50, Pt50, Pt1000, Ni1000: 0.02 %Type Pt500: 0.02 % |
Thermocouple Types |
N/A Type K, J, T, E, L, U Type N, C, D Type S, B, R |
Thermocouple Digital Accuracy (±) |
N/A Type K, J, T, E, L, U: Typical 0.25 ºC [0.45 ºF] Type N, C, D: Typical 0.5 ºC [0.9 ºF] Type S, B, R: Typical 1 ºC [1.8 ºF] |
Thermocouple Accuracy (±) |
N/A Type K, J, T, E, L, U: 0.02 %Type N, C, D: 0.02 %Type S, B, R: 0.02 % |
Note for Thermocouple Accuracy (±) |
N/A % relates to the set span. Accuracy = digital + D/A accuracy |
| Physical Input Range of the Sensors1 | N/A Type (10 to 2000) Ohm: Pt200, Pt500, Pt1000, Ni1000 Type (10 to 400) Ohm: Cu10, Cu50, Cu100, polynomial RTD, Pt50, Pt100, Ni100, Ni120 Type (-20 to 100) mV: Thermocouple type: C, D, E, J, K, L, N, U Type (-5 to 30) mV: Thermocouple type: B, R, S, T |
Repeatability |
N/A
0.0015% of the physical input range (15 Bit) Resolution A/D conversion: 18 Bit |
Load Influence |
N/A ≤ ± 0.005%/V deviation from 24 V, related to the full-scale value |
Long Term Stability |
N/A
= 0.1 ºC [0.18 ºF] / year or = 0.05%/year Date under reference conditions. % relates to the set span. The larger value applies. |
Temperature Drift |
N/A
Total temperature drift = input temperature drift + output temperature drift Effect on the accuracy when ambient temperature changes by 1 ºC [1.8 ºF] Input (10 to 400) O: 0.001% of measured value, minimum 1 mO Input (10 to 2000) O: 0.001% of measured value, minimum 10 mO Input (-20 to 100) mV: typ. 0.002% of measured value, minimum 0.2 µV Input (5 to 30) mV: typ. 0.001% of measured value, minimum 0.2 µV Output (4 to 20) mA: typ. 0.001% of span |
Features and Benefits |
N/A
|
Additional Information |
N/A
Programmable Dual Input Field Temperature Transmitter Programmable temperature transmitter for resistance thermometers (RTDs), thermocouples, resistance inputs and voltage inputs: adjustable via HART® protocol. |
Note |
N/A
HART® is a registered trademark of HART® Communication Foundation. 1) Significant measuring inaccuracy for temperatures lower than 300 ºC [572 ºF] 2) When operating conditions are based on a large temperature range, the Series 662 offers the ability to split the range. For example, a Type S or R thermocouple can be used for the low range and a Type B can be used for the upper range. The Series 662 is then programmed to switch at a predetermined temperature. This allows for utilization of the best performance from each individual thermocouple and provides 1 output that represents the process temperature. Note: the dual sensor option must be included in the order code for the HART® protocol. 3) Basic requirements NE89: detection of increased sensor resistance (e.g. corrosion of contacts or wires) of TC or RTD/4-wire. |
