Teledyne HFC-E-202 Theory of Operation, Overall Functional Description, Sensor, Electronics

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3. Theory of Operation

This section contains an overall functional description of HFC Flow Controllers. Detailed schematics and parts lists can be found at the end of the manual in Section 6.0. In this section and other sections throughout this manual, when a power supply is mentioned, it is assumed that the customer has a Hastings Power Supply. These sections are not applicable if another type of power supply is used.

3.1.Overall Functional Description:

 

The HFC Flow Controller consists of a sensor, electronic

 

 

circuitry, a shunt and a valve. The sensor measures the

 

 

flow rate from 0 to 10 sccm of the gas to be metered. The

 

 

shunt divides the flow such that the flow through the

 

 

sensor is a precise percentage of the flow through the

 

 

shunt. The flow through the sensor and the shunt is

 

 

always laminar. The circuit board amplifies the sensor

 

 

output and uses this output to control the valve position.

 

 

The valve is an automatic metering solenoid type; its

 

 

height off the seat is controlled by the voltage in its coil.

 

 

All of these components working together result in a fast,

 

 

stable flow controller.

Figure 3.1

3.2.

Sensor:

 

 

The Hastings HFM-E-200/HFC-E-202 series operates on a unique thermal electric principle whereby a

 

metallic capillary tube is heated uniformly by a resistance winding attached to the midpoint of the

 

capillary (see Figure 3.1). Thermocouples TC-1 and TC-2 are welded at equal distances from the

 

midpoint and develop equal outputs at zero flow.

 

 

When flow occurs through the tubing, heats is transferred from the tube to the gas on the inlet side, and

 

from the gas back to the tube on the outlet side creating an asymmetrical temperature distribution (see

 

Figure 3.2). The thermocouples sense this decrease and increase in the capillary tube temperature and

 

produce a millivolt output signal proportional to that change.

 

 

For a constant power input, the differential thermocouple output is a function of the mass flow rate and

 

the heat capacity of the gas. Since the heat capacity of many gases is relatively constant over wide

 

ranges of temperature and pressure, the Flowmeter may be calibrated directly in mass units for those

 

gases. Changes in gas composition usually only require application of a simple multiplier to the air

 

calibration to account for the difference in heat capacity and thus the Flowmeter is capable of

 

measuring a wide variety of gases. The HFM sensor measures approximately 10 sccm. Full scale flow.

3.3.

Electronics:

 

 

The Hastings HFM-E-200/HFC-E-202 series uses a thermal flow sensor to measure through a capillary

 

tube, which is a fixed percentage of the total flow through the instrument. This sensor develops an

 

output signal proportional to flow which is approximately 1 mv full scale magnitude. This signal is

 

amplified by the meter circuitry until is 0-5.00 VDC. This 5 volt output is sent back to the power supply

 

and to the Flowmeter circuitry, if applicable. At the power supply the 5 volt output is sent to the

 

terminals on the back and to the decoding circuitry in the display which converts it to a 3-digit output.

 

The controller circuitry utilizes the Command and the Flow voltages as input signals. The

0-5VDC

command signal is subtracted from the 0-5VDC flow signal creating an error signal. This signal is amplified and causes the solenoid valve to move. The amount and direction of the movement is dependent upon the value and the sign of the error signal, and tends to minimize the error signal.

HFM-E-200/HFC-E-202

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Contents Teledyne Hastings Manual Print History Table of Contents Installation and Operation FeaturesSpecifications Swagelok, 1/8 Swagelok, VCR, VCOOther Accessories Hastings Power suppliesInterconnecting Cables Optional 4-20 mA Current OutputPower Requirements Output SignalReceiving Inspection Mechanical ConnectionsElectrical Connections Operation Operating ConditionsZero Check Operation with a Hastings power supply Operation with a power supply other than a HastingsOperation with External Devices High Pressure OperationRange Changing Operation with an external sensor. FigSoft Start Theory of Operation Overall Functional DescriptionSensor ElectronicsShunt Valve Maintenance Authorized MaintenanceTroubleshooting Adjustments Calibration Procedure FigurePrinted Circuit Board Replacement Sensor ReplacementMiscellaneous adjustments Inlet Removal0014 Q HFC-E-202 OrificeReplacement Parts Conversion Factor Table BF3C2H7N C3H8O SO2 Warranty Repair Policy Non-Warranty Repair PolicyDrawings HFM-E-200/HFC-E-202 HFM-E-200/HFC-E-202 HFM-E-200/HFC-E-202 HFM-E-200/HFC-E-202 HFM-E-200/HFC-E-202

HFC-E-202, HFM-E-200 specifications

Teledyne HFC-E-202 and HFM-E-200 are advanced flow meters designed to provide precise measurement and monitoring of gas and liquid flows in various industrial applications. Both devices are engineered to meet the demands of sectors such as petrochemicals, pharmaceuticals, and food and beverage, where accuracy and reliability are paramount.

The Teledyne HFC-E-202 is a highly sensitive flow meter that utilizes a thermal mass flow measurement technology. This technology enables the HFC-E-202 to accurately measure the mass flow rate of gases regardless of temperature and pressure conditions. One of its key features is its ability to provide high precision and fast response times, making it suitable for applications that require immediate data feedback. The device is also equipped with advanced diagnostics that allow users to monitor the health of the system and identify potential issues before they escalate.

On the other hand, the HFM-E-200 is particularly renowned for its versatility in measuring both gas and liquid flows. It employs differential pressure technology, which is highly effective in a wide range of operating conditions. The HFM-E-200 incorporates a robust design that can withstand harsh environments, ensuring longevity and reliability. Its user-friendly interface allows for easy configuration and monitoring, catering to both novice and experienced technicians.

Both flow meters feature digital output options, facilitating seamless integration with existing control systems. This enables real-time data acquisition and monitoring, enhancing process control and efficiency. Furthermore, their compact design minimizes installation space, allowing for easy placement in tight operational areas.

In terms of safety and compliance, both the HFC-E-202 and HFM-E-200 are designed to meet strict industry standards, ensuring they can be deployed in critical applications without compromising safety.

In conclusion, Teledyne HFC-E-202 and HFM-E-200 flow meters stand out due to their innovative technologies, accuracy, and durability. Their unique features position them as essential tools for a variety of industrial sectors, enhancing operational efficiency and ensuring reliable fluid flow measurement. With Teledyne’s commitment to quality and innovation, users can trust that these devices will meet their demands both now and in the future.
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