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Infrared Thermosensor
ES1B
Achieve Low-cost Measurements with an
Infrared Thermosensor.
• The ES1B has an electromotive output as high as that of a
thermocouple, thus connecting directly to the thermocouple input
terminal of the Temperature Controller is possible.
• Four temperature ranges are available to cover a wide range of
temperature measurement needs, including those in the food
processing, packaging, molding, and electronics industries.
• High-accuracy temperature measurement is ensured by a high-
speed response of 300 ms (for a 63% response) and an indication
reproducibility of ±1% PV.
• Unlike thermocouples, the Thermosensor does not deteriorate.
Therefore, stable, real-time temperature control can be
maintained.
Ordering Information
■ List of Models
Appearance and sensing characteristic
Application Examples
Temperature Control of Ironing Portion
Film
Vertically
heating rolls
ES1B
Horizontally
heating rolls
Detecting Excessive Heat Radiation of
High-tension Distribution Boards or Transformers
ES1B
High-tension
distribution
panel
2 mm
20 mm
40 mm
2 dia.
20 dia.
40 dia.
Temperature Measurement of Sheet Molding
Machines and Resin Extrusion Machines
DC
power
supply
Resin
Conveyor
Detecting Excessive Heat Radiation
of Bearings
High-tension line
Specification (temperature range)
10 to 70 ° C
60 mm
60 to 120 ° C
115 to 165 ° C
140 to 260 ° C
60 dia.
ES1B
Molding trays
ES1B
DC
power
supply
Bearing
Infrared Thermosensor
Note: 1. Either a 12 VDC or 24 VDC power supply
is required for the ES1B.
2. The ES1B cannot be used with
OMRON's E5ZE Multipoint Temperature
Controller. (It can be used with the E5ZN,
E5AR, and E5ER.)
ES1B
Model
ES1B
1
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Table of Contents
Related Manuals for Omron ES1B - DATASHEET 1
Summary of Contents for Omron ES1B - DATASHEET 1
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Page 1: Ordering Information
ES1B Achieve Low-cost Measurements with an Infrared Thermosensor. • The ES1B has an electromotive output as high as that of a thermocouple, thus connecting directly to the thermocouple input terminal of the Temperature Controller is possible. • Four temperature ranges are available to cover a wide range of temperature measurement needs, including those in the food processing, packaging, molding, and electronics industries. -
Page 2: Specifications
2. The accuracy is given as the change in temperature from any reference temperature of the sensing object. For example, if the reference temperature is 50 ° C, the accuracy at 55 ° C would be ± 2% PV or ± 2 ° C, whichever is larger and the accuracy at 60 ° C would be ± 4% PV or ±... -
Page 3: Adjustment Methods
Screw M18×1.0 Adjustment Methods Adjust the Thermosensor as described below before using it. Adjust the Thermosensor according to the conditions of the sensing object and characteristics of the Temperature Controller. Offset Compensation for Target Value with Input Shift Function The error caused at the... - Page 4 1, below. 1. The input value is shifted at two points: near room temperature and near the set point. To do so, first check the temperature C of Configuration for Offsetting the Infrared the sensing object and the temperature A indicated on the Controller at both near room temperature and near the set point.
- Page 5 The offset values can be calculated as shown below when the Controller display Y1 is 40 ° C for a room temperature X1 of 25 ° C and when the Controller display Y2 is 105 ° C for a set point temperature X2 of 110 °...
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Page 6: Precautions For Safe Use
3. Do not allow the filter to become soiled. Use air blow or use a thin cotton swab to clean the filter. - Page 7 ES1B Infrared Thermosensor...
- Page 8 CONTRACT, WARRANTY, NEGLIGENCE, OR STRICT LIABILITY. In no event shall the responsibility of OMRON for any act exceed the individual price of the product on which liability is asserted. IN NO EVENT SHALL OMRON BE RESPONSIBLE FOR WARRANTY, REPAIR, OR OTHER CLAIMS REGARDING THE...