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Eliminate wasted power with this DC-powered thermocouple input-isolating signal conditioner featuring SmartPower to control its output supply. In addition, this alarm supports B, C, E, J, K, N, R, S, and T thermocouples that are DIP switch selectable.
Eliminate wasted power with this DC-powered thermocouple input-isolating signal conditioner featuring SmartPower to control its output supply. In addition, this alarm supports B, C, E, J, K, N, R, S, and T thermocouples that are DIP switch selectable.
Discontinued!
This product has been discontinued and is no longer available. There are no replacement options.
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Accurate and stable, this DC-powered thermocouple input-isolating signal conditioner is a high-accuracy signal conditioner with an isolated, linearized DC voltage or current output. In addition, this conditioner features Instant Accuracy™ to maximize accuracy and performance during warmup and changes in ambient temperature.
Features
Smart Power
This signal conditioner uses Smart power to control its output supply. Smart Power automatically adjusts the voltage to drive the output loop to the required current. A low impedance current loop will subsequently require less voltage than a loop with higher impedance. Previous designs provided only a single supply at the highest voltage required to drive the highest impedance load. Using Smart Power results in power savings and reduces the operating temperature of the signal conditioner.
Approved for use in Class I Div 2 Group A, B, C, D areas
Users can now enjoy significant labor savings over traditional protection methods since there is no need for explosion proof enclosures and conduits. A Class I hazardous location is one in which flammable gases or vapors may be present in the air to be ignitable or explosive (typical applications include petroleum refineries, spray finishing areas, utility gas plants and fuel servicing areas).
A Division 2 area is one in which the flammable gases or vapors are normally not present in an explosive concentration, but could accidentally exist. Group A is acetylene; Group B includes hydrogen; Group C includes ether; and Group D includes hydrocarbons, fuels and solvents.
Instant Accuracy™
Instant Accuracy™ maximizes accuracy and performance during warmup and during changes in ambient temperature. This patented cold-junction compensation technique utilizes two temperature sensors to measure the differential temperature near the terminal block. Using heat transfer calculations with the measured differential temperature and the known thermal conductivity of the PCB, the terminal junction temperature is determined with extreme accuracy. Even during unstable thermal states such as start-up, ambient temperature changes, or changing load or power, this signal conditioner performs extremely accurate thermocouple temperature measurement.
Instant Accuracy™ improves system performance and productivity due to reduced warm-up time, fewer temperature measurement errors, and tighter process control for higher quality. Most significantly, it allows calibration to be checked quickly and accurately without the effects of rapid ambient temperature changes due to opening a control panel door, which often causes erroneous readings and miscalibrations - a common cause of measurement errors.
Enhanced LED diagnostics
Other than when executing the pushbutton calibration routine, the LEDs blink under the following conditions:
An Under Range condition exists when the signal is lower than the operational low value minus 6.25% of the operational span. An Over Range condition exists when the signal is higher than the operational high value plus 6.25% of the operational span. A voltage output short circuit may cause an under range condition (RED blinking at 2 Hz rate). A current output open circuit may cause an over range condition (RED blinking at an 8 Hz rate). There could be two or more LEDs blinking at the same time, which means the module has more than one error condition. Only when all error conditions have been removed, will the LEDs be back to normal (Green ON, Red and Yellow Off).
| Inputs | Millivolts: -20 to 80 mV Accuracy: ±0.05% of F.S. and CJC to ±1°C Thermocouples: B: 167 to 3272°F (75 to 1800°C) C: 32 to 4199°F (0 to 2315°C) E: -328 to 1832°F (-200 to 1000°C) J: -346 to 1400°F (-210 to 760°C) K: -328 to 2498°F (-200 to 1370°C) N: -328 to 2372°F (-200 to 1300°C) R: 32 to 3200°F (0 to 1760°C) S: 32 to 3200°F (0 to 1760°C) T: -328 to 752°F (-200 to 400°C) |
| Pushbutton Adjustment | Effective zero offset: +95% (inputs >10 mV) Effective span turn-down: -95% |
| Outputs | Voltage: 0 to 10 V DC Source impedance: <10 Ω Drive: 10 mA Current: 0 to 20 mA Source impedance: >100 kΩ Compliance: 20 V at 20 mA (1 kΩ maximum) |
| Output Accuracy | ±0.05% of full scale |
| Local Range Selection | By DIP switch |
| Burnout Detection | Programmable for upscale, downscale or none |
| Response Time | 100 ms (10 to 90%) |
| Stability | ±100 ppm of full scale/°C (±0.01%/°C) |
| Common Mode Rejection | 120 dB at DC, >90 dB at 60 Hz, or better |
| Isolation | 1800 V DC or peak AC between input, output and power |
| ESD Susceptibility | Capable of meeting IEC 801-2 level 3 (8 kV) |
| Host Module Interface | IR Link |
| Humidity (non-condensing) | Operating: 15 to 95% RHNC Storage: 90% RHNC for 24 hours |
| Temperature | Operating: 32 to 140°F (0 to 60°C) Storage: -13 to 185°F (-25 to 85°C) |
| Agency Approvals (EMC and Safety) | UL recognized per standard UL508 (File No.E99775) CE conformance per EMC directive 2004/108/EC and low voltage directive 2006/95/EC (input <75 V DC, only) RoHS compliant |
| Power | 9 to 30 V DC; 1 W typical, 2 W maximum |
| Dimensions | 4.39 x 3.54 x 0.5" (111.6 x 90 x 12.7 mm) DIN rail case |
Click on a category to view a selection of compatible accessories with the Eurotherm WV428-2000.V1 DC Powered Thermocouple Input Isolating Signal Conditioner, -346 to 4199°F, -20 to 80 mV.
| Inputs | Millivolts: -20 to 80 mV Accuracy: ±0.05% of F.S. and CJC to ±1°C Thermocouples: B: 167 to 3272°F (75 to 1800°C) C: 32 to 4199°F (0 to 2315°C) E: -328 to 1832°F (-200 to 1000°C) J: -346 to 1400°F (-210 to 760°C) K: -328 to 2498°F (-200 to 1370°C) N: -328 to 2372°F (-200 to 1300°C) R: 32 to 3200°F (0 to 1760°C) S: 32 to 3200°F (0 to 1760°C) T: -328 to 752°F (-200 to 400°C) |
| Pushbutton Adjustment | Effective zero offset: +95% (inputs >10 mV) Effective span turn-down: -95% |
| Outputs | Voltage: 0 to 10 V DC Source impedance: <10 Ω Drive: 10 mA Current: 0 to 20 mA Source impedance: >100 kΩ Compliance: 20 V at 20 mA (1 kΩ maximum) |
| Output Accuracy | ±0.05% of full scale |
| Local Range Selection | By DIP switch |
| Burnout Detection | Programmable for upscale, downscale or none |
| Response Time | 100 ms (10 to 90%) |
| Stability | ±100 ppm of full scale/°C (±0.01%/°C) |
| Common Mode Rejection | 120 dB at DC, >90 dB at 60 Hz, or better |
| Isolation | 1800 V DC or peak AC between input, output and power |
| ESD Susceptibility | Capable of meeting IEC 801-2 level 3 (8 kV) |
| Host Module Interface | IR Link |
| Humidity (non-condensing) | Operating: 15 to 95% RHNC Storage: 90% RHNC for 24 hours |
| Temperature | Operating: 32 to 140°F (0 to 60°C) Storage: -13 to 185°F (-25 to 85°C) |
| Agency Approvals (EMC and Safety) | UL recognized per standard UL508 (File No.E99775) CE conformance per EMC directive 2004/108/EC and low voltage directive 2006/95/EC (input <75 V DC, only) RoHS compliant |
| Power | 9 to 30 V DC; 1 W typical, 2 W maximum |
| Dimensions | 4.39 x 3.54 x 0.5" (111.6 x 90 x 12.7 mm) DIN rail case |
Click on a category to view a selection of compatible accessories with the Eurotherm WV428-2000.V1 DC Powered Thermocouple Input Isolating Signal Conditioner, -346 to 4199°F, -20 to 80 mV.
