Teledyne Hastings 200 User Manual

TELEDYNE HASTINGS

INSTRUCTION

INSTRUCTION MANUAL

INSTRUMENTS

HASTINGS 200 SERIES

FAST RESPONSE

MASS FLOWMETERS

126B - PAGE 1

TABLE OF CONTENTS

SECTION 1.0 GENERAL INFORMATION..............................................................................................5

1.1 Features ............................................................................................................... 5

1.2 Specifications ...................................................................................................... 5

1.3 Accessories .......................................................................................................... 6

1.3.1 Power Supplies ................................................................................................. 6

1.3.2 Alarms .............................................................................................................. 6

1.3.3 Totalizer ............................................................................................................ 6

1.3.4 4-20 mA Current Converter ............................................................................ 6

SECTION 2.0 INSTALLATION AND OPERATION ................................................................................. 7

2.1 Receiving Inspection ........................................................................................... 7

2.2 Power Requirements ........................................................................................... 7

2.3 Output Voltage .................................................................................................... 7

2.4 Mechanical Connections .................................................................................... 7

2.5 Electrical Connections ........................................................................................ 8

2.6 Operation ............................................................................................................ 8

2.6.1 Power Supply Operation .................................................................................. 8

2.6.2 Ambient Temperature....................................................................................... 8

2.6.3 Zero Check ...................................................................................................... 8

2.7 Range Changing.................................................................................................. 8

SECTION 3.0 THEORY OF OPERATION ............................................................................................. 9

3.1 Overall Functional Description ........................................................................... 9

3.2 Sensor ................................................................................................................. 9

3.3 Electronics .......................................................................................................... 10

3.4 Shunt .................................................................................................................. 10

SECTION 4.0 MAINTENANCE ........................................................................................................... 13

4.1 Introduction ........................................................................................................ 13

4.2 Authorized Maintenance ..................................................................................... 13

4.3 Adjustments......................................................................................................... 13

4.3.1 Calibration Procedure ...................................................................................... 13

4.3.2 ResponseT ime Adjustments ............................................................................ 13

4.3.3 Miscellaneous Adjustments .............................................................................. 13

4.4 End Cap Removal............................................................................................... 14

4.5 Range Changes ................................................................................................... 14

126B - PAGE 3

4.6 Printed Circuit Board Replacement .................................................................... 15

4.7 Sensor Replacement ............................................................................................ 15

4.8 Troubleshooting .................................................................................................. 15

SECTION 5.0 REPLACEMENT PARTS................................................................................................. 17

SECTION 6.0 WARRANTY AND REPAIR .............................................................................................. 19

SECTION 7.0 DIAGRAMS AND DRAWINGS ........................................................................................ 21

AssemblyDiagram,PC810FastReponse.............................................................................22

Schematic, PC-810 Fast Response ..................... ............................................................23

HFM-200 Outline Drawng................................................................................................ 24

HFM-201 Outline Drawing ....................................................................................... 25

HFM-200B Outline Drawing .................................................................................... 26

Laminar Flow Element Outline Drawing .................................................................. 27

126B - PAGE 4

1.0 GENERAL INFO RMATIO N

Hastings Mass Flowmeters are designed to accurately measure mass flow without corrections or

compensations for gas pressure and temperature. Due to a linear electrical output signal, the flowmeters

are ideal for use with totalizers and recorders. Hastings Mass Flowmeters do not require any periodic

maintenance under normal operating conditions with clean gases. No damage will occur from the use of

moderate overpressures or overflows.

T he standard flowmeter calibration is for air. Special calibrations for most other gases such as oxygen,

nitrogen, hydrogen, and carbon monoxide are available on special order, or by use of a gas multiplier.

T hese instruments are calibrated with air at the factory, then the output is adjusted using gas correction

factors.

1.1 Features

Hastings Fast Response HFM Flowmeters have response times of less than two seconds to 98% of

a 0-100% step change with less than 2% overshoot.

Fast Response HFM Flowmeters are available with a 15-pin “D” connector and are pin for pin

compatible with most other manufacturers’ thermal mass flowmeters with 20-pin connectors.

HFM Models incorporate a removable/replaceable sensor which virtually eliminates long down time

due to clogging, the most common cause of failure in the industry.

Each flowmeter has a shunt which can be quickly and easily adjusted in the field to different ranges,

however, recalibration is normally required.

A 100 micron filter is located upstream of the shunt and sensor to eliminate most of the larger impurities

in the system which tend to plug thermal mass flowmeters.

T he Model HFM Flowmeter comes in 15 standard ranges from 0-10 SCCM to 0-500 SLPM. Special

ranges are available upon request.

Model HFM Flowmeters are constructed of 300 series stainless steel.Viton is standard for O-rings &

seals. Neoprene and Kalrez are available upon request, for use with corrosive gases.

1.2 Specifications

•ResponseT ime .......................................................... (to 98% of 0-100% step change)Less than 2 seconds

•Accuracy & Linearity................................................................................................................. ±1% (F.S.)

•Repeatability .......................................................................................................................... ±0.2% (F.S.)

•Std. Pressure Rating ...................................................................................................................... 500 psig

• High Pressure Option ....................................................................... 1000 psig (proof tested to 1500 psig)

•Pressure Coefficient ........................................................................................... (0-500 psig N₂) 0.01%/psi

• Leak Integrity ................................................................................................................................ 10^-9sccs

•Temperature Coefficient of Span ........................................................................................... <0.1% per ^oC

• Power ........................................................................................................................ ±15VDC @ ±50mA

• Flow Signal ................................................................................................. 0-5.00VDC (inherently linear)

• Wetted Material ............................................................................ 316 SS,Viton Seals, Gold/ Nickle Braze

•Connector ................................................................................................................... 15 pin D connector

•FittingsHFM-229, ............................................................................................................ 1/4" Swagelok ^{T M}

HFM-230, 1/2" Swagelok ^{T M}

•Weight (approx)HFM-229, ............................................................................................................. 1.8 lbs.

HFM-230, 3.3 lbs.

126B - PAGE 5

1.3 Accessories

1.3.1 Power Supplies

Hastings’ Power Supplies are designed as combination power supplies and digital readout monitors.

T hey can simultaneously power a combination of different Hastings Flow Instruments.T he front panel

(9.47"H X 3.47"W) allows mounting of two units in a standard 19" rack. A terminal strip on the rear

panel provides the user with continuous analog outputs from all channels.All power supplies have a 3-1/

2 LCD display.

Models 200 and 400 Power Supplies can accommodate up to two or four Hastings Flow Instruments,

respectively, and the Model 40 is for use with flowmeters only, powering up to 4 simultaneously.T he

Model 40 also features user-adjustable gas

conversion factors for direct reading when changing

gases. For more information, request Product Bulletin No. 544.

1.3.2 Alarms

T he Model AL-1 Flow Alarm is available as an attachment suitable for use with any 0-5.00VDC input

signal. Calibrated digital dial precision pots determine the low and high set points as a percent of full

scale.T his permits use with any range flowmeter or other instrument having a 0-5.00VDC linear

output signal. Control action is within 0.2% of scale.T he AL-1 is available in the panel mount J

package.

1.3.3 Totalizer

T he HastingsT R-1 FlowTotalizer integrates the 0-5.00VDC signal generated by the flowmeter to give

a total flow reading. Count rates from 0-999 counts per minute are selectable by internal setting.T he

T R-1 is available in the panel mount J package.

1.3.4 4-20 mA C urrent C onverter

T he Hastings Model CC-420 Series Current Converter is an option available with Hastings Mass

Flowmeters.T he CC-420 produces a 4-20 mA signal from the 0-5.00VDC output of the flowmeter.

T he CC-420 is available in the panel mount J package.

126B - PAGE 6

2.0 INSTALLATIO N AND O P ERATIO N

T his section is designed to assist in getting a new flowmeter into operation as quickly and easily as

possible. Please read the following thoroughly before attempting to install the instrument.

2.1 Receiving Inspection:

Carefully unpack the Hastings Flowmeter and any accessories that arrive with it. Inspect it for any

obvious signs of damage due to shipment. Immediately advise the carrier who delivered the shipment if

any damage is suspected.

Compare each component shipped against the packing list. Ensure that all parts are present (i.e.

flowmeter, power supply, cables, etc.). Optional equipment or accessories will be listed separately on the

packing list (see Section 1.4 - Accessories).T here may also be one or more OPT- options on the

packing list.T hese normally refer to special ranges or special gas calibrations.T hey may also refer to

special helium leak tests or high pressure tests, or special modifications such as high

temperature or special O-ring materials. In most cases these are not separate parts, but rather special

options or modifications built into the flowmeter or power supply.

2.2 Power Requirements:

All HFM Model Flowmeters require ±15VDC @ ±50 mA max .T he 15VDC can vary between 14.25

VDC and 15.75VDC.T he supply voltage should be regulated with no more than 50 mV ripple. Surge

suppressers are recommended to prevent power line spikes from feeding through to the instruments.

T hese power requirements are satisfied by the Hastings Power Supply described in Section 1.4 -

Accessories.

2.3 Output Voltage:

T he output of the flowmeter is a 0-5.00VDC signal proportional to the flow rate.T he output is sent to

the display and is available at terminals at the rear of the Hastings Power Supply. If a Hastings supply

is not being used, the output is available on pin 6 of the D connector. It is recommended that the load

resistance be no less than 2k Ohms.

2.4 M echanical C onnections:

T he transducer may be oriented in any position, as long as the direction of gas flow through the

transducer follows the arrow marked on the bottom of the label.T he preferred orientation is with the

inlet and outlet fittings in a horizontal plane with the connector pointing up.

T he smallest passageway encountered on the Hastings HFM Flowmeter is .012" ID, therefore steps

should be taken to ensure proper filtering that

prevents blockage of these passageways.

T here are two 8-32 threaded holes 1/4" deep in

the bottom of the transducer that can be used to

secure it to a mounting bracket, if desired.

T he standard inlet and outlet fittings for the

HFM-229 Flowmeter are 1/4" Swagelok. For the

HFM-230, the fittings are 1/2"

Swagelok. OptionalVCR andVCO fittings are

available from the factory.Viton O-rings are

standard with all fittings; Kalrez and

Neoprene O-rings are optional and can be

ordered from the factory.

Fig.2.1

126B - PAGE 7

T he standard inlet and outlet fittings for the HFM-229B Flowmeter are NPT thread in the size of the

pipe listed on the drawing on page 22, for sizes up to 3" laminar. On the 4", 6", and 8" laminars, flange

fittings are standard. Smooth tubulation is optional on all sizes.

It is suggested that all connections be checked for leaks after installation.T his can be done by pressuriz-

ing the transducer (do not exceed 500 psig unless the transducer is specifically rated for higher pres-

sures) and applying a diluted soap solution to the flow connections.

2.5 Electrical C onnections:

If a power supply was purchased from Hastings Instruments, installation will consist of connecting the

cable, purchased separately from the power supply, from the rear of the supply to the top of the

flowmeter. If a Hastings supply was not purchased, follow the instructions below to connect up the

flowmeter.

T he power supply used must be capable of supplying ±15VDC at ±50mA . T hese voltages must be

referenced to a common ground.

Refer to Fig. 2.1. Connect -15VDC to pin 9 and +15VDC to pin 11. Pin 5 is common and must be

connected to the common connection at the power supply. Pin 7 is the case ground and it should be

connected to the cable shield if available, and to AC ground of the power supply. Pin 6 is the output

signal from the flowmeter.T his output will be 0-5VDC, 5VDC being 100% of rated or full flow.

2.6 Operation:

2.6.1 Power Supply Operation

Do not connect transducers while the power supply is energized.T he display may read either percent of

full scale or actual flow rate, depending on the power supply purchased. To read flow rate, turn display

switch to desired channel.

2.6.2 Ambient Temperature

In order to maintain the accuracy of the flowmeter with changes in ambient temperature, it is necessary

to keep the temperature of the transducer between 0^oC and 50^oC. Since some of the temperature shift

results in a slight zero offset, better results are obtained if the flowmeter is re-zeroed at the operating

temperature.T he flowmeter calibration may change by a factor up to 0.1%/^oC. Hastings Mass

Flowmeters are for GAS flow, so DO NOT let the temperature and/or pressure of the gas

reach a point that would cause the gas to change to a liquid state, or erroneous indications will result.

2.6.3 Zero C heck

Turn the power supply “ON”. Allow the flowmeter 10 minutes to warm up. Stop all flow through the

transducer and check electrical zero.

CAUT ION: Do not assume that all metering valves will completely shut off flow. Even a slight leakage

through a valve will cause an indication on the meter which will falsely appear to be a zero shift.

If necessary, adjust the “ZERO” potentiometer, located on the lower inlet side of the transducer, until

the meter indicates zero.T his zero should be checked periodically during normal operation.

2.7 Range C hanging:

T he range of the flowmeter can be changed in the field if recalibration facilities are available.T he

instructions to change the flow range can be found in Section 4.5. In order to change the range of a

Model HFM-230 Flowmeter, a new laminar flow element must be purchased from the factory.

126B - PAGE 8

3.0 TH EO RY O F O P ERATIO N

T his section contains an overall functional description

of Model HFM Flowmeters. 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. T hese sections are not

applicable if another type of power supply is used.

3.1 Overall Functional D escription

T he HFM Flowmeter consists of a sensor, electronic

circuitry, and a shunt.T he sensor measures the flow

rate from 0 to 10 sccm of the gas to be metered.T he

shunt divides the flow such that the flow through the

sensor is a precise percentage of the flow through the

shunt.T he flow through the sensor and the shunt is

always laminar.T he circuit board amplifies the sensor

output to 5.00VDC and sends it to the power supply

to display. All of these components working together

result in a fast, stable flowmeter.

Fig.3.1

3.2 Sensor

T he Hastings Model HFM Mass Flowmeter operates on a unique thermal electric principle

whereby a metallic capillary tube is heated uniformly by a resistance winding attached to the mid-

point of the capillary (see Figure 3.1).T hermocouplesT C-1 andT C-2 are welded at equal distances

from the mid-point and develop equal outputs at zero flow.

When flow occurs through the tubing, heat 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).T he thermocouples sense this decrease and increase in the capillary tube temperature, and

produce a millivolt output signal proportional to that change.

Fig.3.2

Fig.3.3

126B - PAGE 9

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.

Fig.3.4

3.3 Electronics

T he Fast Response Model HFM uses a thermal flow sensor to measure flow through a capillary tube,

which is a fixed percentage of the total flow through the instrument.T his sensor develops an output

signal proportional to flow which is approximately 0.8 mv full scale magnitude (see Figure 3.3). T his

signal is amplified by the meter circuitry until it is 0-5.00VDC.T his 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 3-1/2

digit output.

T he Fast Response Model HFM uses additional electronics to achieve fast response characteristics by

amplifying the rate ofchange of the input signal, and adding it to the amplified input signal.T he elec-

tronics are adjusted to provide response times of less than two seconds to 98% of a 0-100% step change

with less than 2% overshoot.T he electronics also maintain the ouput signal above 5.00VDC when the

flowrate exceeds the full scale flow of the flowmeter.

NOTE: The output signal will continue to increase above 5.00VDC as the flow rate exceeds full scale flow,

however, the output above 5.00VDC is non-linear and should not be used for flow measurement.

3.4 Shunt

Higher measurement of flow rates is achieved by dividing the flow with a fixed ratio shunting arrange-

ment, as is illustrated in Figure 3.4.T his is accomplished by placing the measuring capillary tube parallel

with one or more dimensionally similarchannels, called a laminar flow element (LFE).T herefore, the

sensor only needs to heat the gas passing through the capillary tube resulting in low power require-

ments, while retaining all the mass measuring characteristics.

T he HFM-229 has two possible shunts.T he low range shunt consists of tubes inserted into a cylindrical

base.T his shunt is adjustable for ranges from 0-10 sccm to 0-250 sccm (see Figure 3.5).T he higher

range shunt consists of a corrugated stainless steel ribbon wound into a coil and fused.T he higher range

shunt is adjustable from 0-0.3 slpm to 0-30 slpm ranges (Figure 3.6).

Fig.3.5

Fig.3.6

126B - PAGE 10

T he HFM-230 uses a shunt which is a corrugated and fused shunt similar to the shunt used in the

lower flow range instruments (see Figure 3.7).T his highest range shunt is adjustable from 0- 50 slpm

to 0-500 slpm.

T he HFM-229B Series uses an external laminar flow element instead of an internal shunt, because the

necessary size for the element exceeds the body size of the flowmeter.T his laminar flow element is

made of a corrugated and fused stainless steel ribbon similar to the one used in the

Model HFM-230.

Fig.3.7

126B - PAGE 11

126B - PAGE 12

4.0 MAINTENANCE

4.1 Introduction:

T his section contains service and calibration information. Some portions of the instrument are delicate.

Use extreme care when servicing the flowmeter.T he potentiometer positions and the electrical compo-

nents referred to in the troubleshooting section can be found in Section 6.0 on the electrical component

layout drawing.

4.2 Authorized M aintenance:

With proper care in installation and use, the flowmeter will require little or no maintenance. If mainte-

nance does become necessary, most of the instrument can be cleaned or repaired in the field. Some

procedures may require recalibration. Do not attempt these procedures unless facilities are available.

Entry into the sensor or tampering with the printed circuit board will void warranty. Do not perform

repairs on these assemblies while unit is still under warranty.

4.3 Adjustments:

4.3.1 C alibration Procedure

1. Connect power cable to D connector as specified in Section 2.5. Allow instrument to warm up for

30 minutes with all flow shut off.

2. Set ZERO potentiometer for 0.000 VDC output at pin 6 on the D connector or flow output pin on

the rear of the Hastings Power Supply.

3. Turn on air supply to inlet of instrument. Adjust flow rate to 100% according to flow reference.

4. Adjust SPAN pot until the flowmeter

indicates full scale flow (5.000VDC).

NOT E: Perform this step only if a

calibrated reference flowmeter is avail-

able.

5. Record flowmeter and flow reference

outputs for flow rates of 20%, 40%, 60%,

80%, and 100%.

4.3.2 Response T ime Adjustments

Readjustments of the fast response

circuit should not be necessary unless

changes in the range or sensor have

been performed.T he flowmeter should

be calibrated before setting the response

time.

IMPORTANT : Response time cannot

be tested with a simple shutoff valve.

Fig.4.1

Pressure builds up behind the valve, and when opened creates a surge flow in excess of the calibrated flow rate.

What must be used is a two-way valve or a fitting which can be quickly connected and provide a leak-free seal to

the flowmeter inlet.The reference flow is vented to atmosphere,and switches through the flowmeter when the

valve is operated or fitting is connected.The valve or fitting should be close coupled to the flowmeter inlet to

reduce pneumatic time delays. The response pot is not accessible from the exterior of the flowmeter.The cover

must be removed to make any adjustments. See Fig.

4.1.

Using a voltmeter, strip chart recorder, or oscilloscope connected to the flow output voltage, switch flow through

the flowmeter and observe output voltage.Adjust response pot to increase or decrease response time.The

response pot is a single turn pot and a small pot adjustment produces a large response time change. Remove flow

from flowmeter and allow output voltage to reach zero volts. Repeat test until response time is set.

4.3.3 M iscellaneous Adjustments

Periodically, during normal operation, the ZERO should be checked and adjusted when required.

126B - PAGE 13

4.4 End Cap Removal

T he end cap on the inlet side must be removed to gain access to the filter or shunt assembly. First shut

off the supply of gas to the instrument. Disconnect the Swagelok fitting on the inlet and outlet sides of

the instrument. Remove the four hex bolts holding the end cap to the instrument (see Figure 4.2).

Carefully remove the end cap, filter, wave spring and shunt, noting their order and proper orientation.

NOT E: T he Model HFM-230 does not include a wave spring.T he shunt can be severely damaged if

dropped. Examine the filter and shunt. If either is dirty or blocked, clean or replace as applicable.

Reassembly is the reverse of the removal procedure.

Fig.4.2

NOTE:When reinstalling the small range shunt, ensure that corrugated side is down.

4.5 Range Changes

Remove end cap and shunt assembly per Section 4.4 above.T he 0-10 sccm to 0-300 sccm range

shunt has tubes, while the medium range shunt is built from a coil of corrugated stainless steel foil.T he

medium range shunt has a disk assembly with two large, one medium, and one small hole.To change

ranges, the disc on the inlet of the shunt should be loosened, turned and retightened to expose the

number of holes or tubes as listed below for the range desired.

SIZ E

RANGE

SH UN T SET UP

SMALL .......................................... 0-10 sccm ............................................................................... 0 tubes

........................................................ 0-30 sccm ................................................................................ 1 tube

........................................................ 0-50 sccm ............................................................................... 2 tubes

........................................................ 0-100 sccm ............................................................................. 4 tubes

........................................................ 0-250 sccm ........................................................................... 10 tubes

MEDIUM ....................................... 0-.3 slpm ...................................................................... smallest hole

........................................................ 0-1 slpm ........................................................................ medium hole

........................................................ 0-3 slpm .......................................................... 1 large and small hole

........................................................ 0-5 slpm ................................................................... both large holes

........................................................ 0-10 slpm ........................................................................ half-washer

........................................................ 0-30 slpm ................................................................. washer removed

LARGE ........................................... 0-50 slpm ................................................................................ 1 hole

........................................................ 0-100 slpm ............................................................................. 2 holes

........................................................ 0-150 ............................................................................... slpm3 holes

........................................................ 0-300 ................................................................ slpmwasher removed

........................................................ 0-500 ............................................................... slpm washer removed

NOTE: These ranges are for Air at StandardTemperature and Pressure.

126B - PAGE 14

4.6 Printed Circuit Board

Replacement

In the unlikely event that the PC board

fails, it is easily removed from the instru-

ment and replaced with a spare to minimize

instrument downtime. Replacement of the

PC board will require the instrument to be

recalibrated per Section 4.3.1.Unplug the

power cable from the top of the transducer.

Remove the two screws on the side of the

cover. Lift off the cover and unplug the

four-wire sensor plug noting the orientation

prior to removal. Remove the screw that

holds the PC board to the sensor.Trouble-

shoot or replace as applicable. Installation is

the reverse of the above procedure.

Recalibrate if any components were

changed or if any potentiometers were

adjusted.

Fig.4.3

4.7 Sensor Replacement

If the sensor fails or becomes plugged it can be removed. Remove the cover and the PC board per

Section 4.6 above. Remove the three bolts holding the sensor to the instrument base. Remove the

sensor from the base noting the two O-rings (Parker 2-005,V884-75) between the sensor and the base.

See Figure 4.3. If the sensor is plugged it can be cleaned by running a fine wire (approximately 0.008"

diameter) through the tube. If sensor needs replacement, obtain another from the factory and install it.

Ensure that O-rings are clean and intact. Install O-rings on seating surface, then carefully place sensor

over O-rings, and tighten down the three screws evenly. Replacement of sensor will require recalibration

per Section 4.3.1.

4.8 Troubleshooting

SYMPT OM: Output reads 40% of flow with no flow. Zero pot has no effect.

CAUSE: Power supply locked up or shorted out.

ACT ION: Turn off power supply for a few seconds, then turn back on. If this proves ineffective,

disconnect the unit from the power supply. If power supply display does not return to zero, then a

regulator chip in the power supply is probably burned out.

Check supply voltages and replace faulty regulator. If display

returns to zero after disconnecting the power supply from the

unit there is a short in the unit to ground. Check capacitors C11

& C13 first.

SYMPT OM: Output of unit is proportional to flow but

extremely small and not correctable by span pot.

CAUSE: Sensor is not being heated.

ACTION: Unplug sensor from PC board (Fig. 4.3). Pins on sensor are

numberedfromlefttoright.Begincountingwithsecondpinfromleft(seeFig.

4.4).Checktheresistancebetweenpins2&3ofthesensor. Thiswillreadbetween

2450&2550.Checktheresistancebetweenpins1&4ofthesensor.Thisshould

readapproximately2.3ohms.Ifthisreadsopencircuit,sensorwasprobably

pluggedintoPCboardimproperlyandoneofthethermocoupleshasbeen

destroyed.Replacesensor.Checktheresistancebetweenpin2andthebaseofthe

Fig.4.4

sensor.Thisshouldbeanopencircuit.Repeatforpin3andthebase.Ifresistance

readingsarecorrectbutsensorisnotindicatingflow,thesensorisprobablyplugged;

cleanorreplaceasapplicable.

126B - PAGE 15

SYMPT OM: Sensor has proper resistance readings, but little or no output with flow.

CAUSE: Plugged sensor.

ACT ION: Shut off gas supply and power supply. Remove cover and PC board from unit. Remove

sensor assembly and examine. If sensor has evidence of plugging, clean or replace as applicable.

SYMPT OM: Flowmeter reads other than 0.00 VDC with no flow, or there is a small flow when

flowmeter reads 0.00VDC.

CAUSE: ZERO potentiometer is out of adjustment.

ACT ION: Shut off all flow. Adjust ZERO potentiometer until output reads 0.00VDC.

SYMPT OM: Flowmeter out of calibration and non-linear.

CAUSE: Leaks in gas inlet or outlet fittings.

ACT ION: Check all fittings for leaks by placing soap solution on all fittings between gas supply and

final destination of gas. Check flowmeter for leaks. Replace “O” rings if required or recalibrate as

necessary.

126B - PAGE 16

5.0 REP LACEMENT PARTS

T he following is a list of the available replacement parts and their factory stock numbers.T he HFM-

229, HFM-229B, HFM-200, HFM-200B, and the HFC-202 shunts and filter discs are interchange-

able.T he HFM-230, HFM-201, and the HFC-203 shunts and filter discs are also interchangeable.T he

same sensor module is used on all of the above models.

ST OC K N O. D ESC RIPT IO N

AIR RAN G E

81-102L ......... LOW RANGE SHUNT ..................................................... 10, 30, 50, 100, 250 SCCM

81-102H ........ MED RANGE SHUNT ....................................................... 0.3, 1, 3, 5, 10, 30 SLPM

81-102B......... HIGH RANGE SHUNT ............................................... 50, 100, 150, 300, 500 SLPM

65-140E ......... LFE Model LS-2, 2.0" NPT M ................................................................. 0-750 SLPM

65-140G ........ LFE Model LS-3, 3.0" NPT M ............................................................... 0-1500 SLPM

65-140J .......... LFE Model LS-4F, 4.0" Flange ............................................................... 0-3000 SLPM

65-140K ........ LFE Model LS-6F, 6.0" Flange ............................................................... 0-6000 SLPM

65-140L ......... LFE Model LS-8F, 8.0" Flange ............................................................ 0-15,000 SLPM

39-02-003 ...... SMALL FILT ER DISC ................................................. HFM-229, HFM-229B,AND

HFC-202

39-02-002 ...... LARGE FILT ER DISC ...................................................... HFM-230 AND HFC-203

81-105 ........... SENSOR MODULE ........................................................................... ALL MODELS

65-595 ........... FAST RESPONSE HFM ELECT RONICS CARD ...................... D CONNECT OR

81-115 .....................................................................VIT ON O-RING KIT FOR HFM-200 and 200B

81-116 ..................................................................................... VIT ON O-RING KIT FOR HFM-201

81-146 .............................................................. KALREZ^{T M}O-RING KIT FOR HFM-200 and 200B

81-147 .............................................................................. KALREZ^{T M}O-RING KIT FOR HFM-201

81-150 ............................................................ NEOPRENE O-RING KIT FOR HFM-200 and 200B

81-151 ............................................................................ NEOPRENE O-RING KIT FOR HFM-201

NOTE: Ranges listed are for same standard temperature and pressure.

To place an order or to obtain information concerning replacement parts, contact the factory or our

local manufacturer’s representative in your area. See below, or this manual’s last page for the address or

phone number.When ordering, include the following information:

• Instrument model number

• Part description

• Hastings part number

126B - PAGE 17

126B - PAGE 18

6.0War ranty and Repair

Warranty Policy

Hastings Instruments warrants this product for a period of one year from the date of shipment to

be free from defects in material and workmanship.T his warranty does not apply to defects or

failures resulting from unauthorized modification, misuse or mishandling of the product.T his

warranty does not apply to batteries or other expendable parts, nor to damage caused by leaking

batteries or any similar occurrence.T his warranty does not apply to any instrument which has had

a tamper seal removed or broken.

T his warranty is in lieu of all other warranties, expressed or implied, including any implied warranty

as to fitness for a particular use. Hastings Instruments shall not be liable for any indirect or conse-

quential damages.

Hastings Instruments will, at its option, repair, replace or refund the selling price of the product if

Hastings Instruments determines, in good faith, that it is defective in materials or workmanship

during the warranty period. Defective instruments should be returned to Hastings Instruments

together with a written statement of the problem and a Return Material Authorization (RMA)

number. Please consult the factory for your RMA number before returning any product for repair.

N on-Warranty Repair Policy

Any product returned for a non-warranty repair must be accompanied by a purchase order, RMA

form and a written description of the problem with the instrument. If the repair cost is higher, you

will be contacted for authorization before we proceed with any repairs. If you then choose not to

have the product repaired, a minimum will be charged to cover the processing and inspection.

Please consult the factory for your RMA number before returning any product for repair.

T ELEDYNE HAST INGS

804 NEWCOMBE AVENUE

HAMPTON,VIRGINIA 23669 U.S.A.

AT T ENT ION: REPAIR DEPART MENT

T ELEPHONE

FAX

(757) 723-6531

1-800-950-2468

(757) 723-3925

126B - PAGE 19

126B - PAGE 20

7.0 D iagram s and D rawings

126B - PAGE 21

PC-810Assembly

126B - PAGE 22

(InformationfromHastingsdrawing30837rev.F)

PC-810Schematic

126B - PAGE 23

(InformationfromHastingsdrawing30837rev.F)

126B - PAGE 24

126B - PAGE 25

126B - PAGE 26

126B - PAGE 27

126B - PAGE 28

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