Bacharach 0024-8442, 0024-8441, 0024-8443, 0024-8445, 0024-8452 User manual

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

Portable Combustion Analyzer

Operation and Maintenance Manual

Instruction 0024-9472 Rev. 3 – August 2014

Product Leadership • Training • Service • Reliability

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PCA3 Manual

WARRANTY POLICY

Bacharach, Inc. warrants to Buyer that at the time of delivery this Product will be free from defects in material and manufacture and will conform substantially to Bacharach Inc.’s applicable specifications. Bacharach’s liability and Buyer’s remedy under this warranty are limited to the repair or replacement, at Bacharach’s option, of this Product or parts thereof returned to Seller at the factory of manufacture and shown to Bacharach Inc.’s reasonable satisfaction to have been defective; provided that written notice of the defect shall have been given by Buyer to Bacharach Inc. within two (2) years after the date of delivery of this Product by Bacharach, Inc. Routine service and calibration are excluded from this warranty.

Bacharach, Inc. warrants to Buyer that it will convey good title to this Product. Bacharach’s liability and Buyer’s remedy under this warranty of title are limited to the removal of any title defects or, at the election of Bacharach, to the replacement of this Product or parts thereof that are defective in title.

THE FOREGOING WARRANTIES ARE EXCLUSIVE AND ARE GIVEN AND ACCEPTED IN LIEU OF (I) ANY AND ALL OTHER WARRANTIES, EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE: AND (II) ANY OBLIGATION, LIABILITY, RIGHT, CLAIM OR REMEDY IN CONTRACT OR TORT, WHETHER OR NOT ARISING FROM BACHARACH’S NEGLIGENCE, ACTUAL OR IMPLIED. The remedies of the Buyer shall be limited to those provided herein to the exclusion of any and all other remedies including, without limitation incidental or consequential damages. No agreement varying or extending the foregoing warranties, remedies or this limitation will be binding upon Bacharach, Inc. unless in writing, signed by a duly authorized officer of Bacharach.

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NOTICE

Product improvements and enhancements are continuous, therefore the specifications and information contained in this document may change without notice.

Bacharach, Inc. shall not be liable for errors contained herein or for incidental or consequential damages in connection with the furnishing, performance, or use of this material.

No part of this document may be photocopied, reproduced, or translated to another language without the prior written consent of Bacharach, Inc.

BACHARACH, PCA, B-SMART, and FYRITE are registered trademarks of Bacharach, Inc. All other trademarks, trade names, service marks and logos referenced herein belong to their respective companies.

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TABLE OF CONTENTS

CHAPTER 1. INTRODUCTION ........................................................................ 7

1.1. About This Manual ....................................................................................... 7

1.2. Conventions ................................................................................................. 7

1.3. Safety ........................................................................................................... 7

1.4. General Description ..................................................................................... 9

1.5. Operation Overview ..................................................................................... 9

1.5.1. Turning On the PCA®3 ...................................................................... 9

1.5.2. The Combustion Test ..................................................................... 10

1.5.3. Turning Off the PCA®3 .................................................................... 10

1.6. Features and Benefits ................................................................................ 11

1.7. Sales Combo and Model Configurations .................................................... 12

1.8. Specifications ............................................................................................. 13

CHAPTER 2. HARDWARE ............................................................................ 15

2.1. Overview .................................................................................................... 15

2.2. Front Panel Buttons ................................................................................... 16

2.3. Backlit Display ............................................................................................ 17

2.4. Battery Compartment ................................................................................ 17

2.5. AC Adapter Connector (POWER) ................................................................ 17

2.6. Probe Connectors (Gas, Pressure, T-Stack) ................................................ 18

2.7. Differential Pressure Connector (∆P) ......................................................... 19

2.8. Primary Air Thermocouple Connector (T-AIR) ........................................... 19

2.9. Computer Interface (USB) .......................................................................... 19

2.10. Wireless Printer Port (IrDA) ..................................................................... 19

PCA3 Manual

19CHAPTER 3. INITIAL SETUP ......................................................................... 20

3.1. Overview .................................................................................................... 20

3.2. Power ......................................................................................................... 20

3.3. Connecting the Probe and Hose Assembly ................................................ 21

3.4. Preparing to Configure the PCA®3 .............................................................. 21

CHAPTER 4. CONFIGURATION PROCEDURES .............................................. 23

4.1. Default Operating Parameters ................................................................... 23

4.2. Fuel Selection ............................................................................................. 23

4.3. Auto/Manual CO Zero Selections ............................................................... 24

4.4. Temperature Units Selection ..................................................................... 25

4.5. Pressure Units Selection ............................................................................ 26

4.6. Pollution Units Selection ............................................................................ 27

4.7. Date Setup .................................................................................................. 27

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4.8. Time Setup ................................................................................................. 28

4.9. O2 Reference Setup .................................................................................... 29

4.10. Print Pressure Selection ........................................................................... 30

4.11. Zoom Display Selection ............................................................................ 30

4.12. Logging Selection ..................................................................................... 31

4.13. Button Sound Selection ............................................................................ 31

4.14. Test ID Information .................................................................................. 32

4.14.1. Entering or Editing a Test ID ........................................................ 32

4.14.2. Selecting a Test ID ....................................................................... 33

4.14.3. Clearing Test ID Information........................................................ 33

4.15. User Name ............................................................................................... 34

4.15.1. Entering a User Name .................................................................. 34

4.15.2. Clearing a User Name .................................................................. 35

4.16. Language .................................................................................................. 36

4.17. Cal Reminder Period ................................................................................ 36

4.18. Run/Hold Screen Format .......................................................................... 37

4.19. NO

CHAPTER 5.

Calculation ........................................................................................ 39

OPERATION ............................................................................ 40

5.1. Operating Tips ............................................................................................ 40

5.2. Turning On the Analyzer ............................................................................ 41

5.3. Low Battery Alarm ..................................................................................... 42

5.4. Locating Sampling Points ........................................................................... 42

5.5. Performing a Combustion Test .................................................................. 43

5.6. Selecting a Pressure Label .......................................................................... 45

5.7. Temperature Label Selection and Measurement ...................................... 46

5.8. Performing a Draft / Pressure Measurement ............................................ 47

5.9. Saving Test Data ......................................................................................... 48

5.10. Ending a Combustion Test........................................................................ 49

5.11. Emptying the Water Trap ......................................................................... 49

5.12. Data Logging ............................................................................................. 50

5.12.1. Overview ...................................................................................... 50

5.12.2. Turning On Data Logging ............................................................. 51

5.12.3. Setting the Logging Interval and Duration ................................... 52

5.12.4. Starting the Data Logging Process ............................................... 53

5.12.5. Ending the Data Logging Process ................................................. 53

5.13. Memory Functions ................................................................................... 54

5.13.1. Overview ...................................................................................... 54

5.13.2. Recalling Combustion Test Data .................................................. 54

5.13.3. Recalling Logged Test Data .......................................................... 55

5.13.4. Clearing Memory ......................................................................... 56

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5.14. Downloading Stored Data to a Computer ................................................ 57

5.15. Importing Saved Data into a Spreadsheet ............................................... 57

5.16. Printing Test Data ..................................................................................... 59

5.17. Turning Off the Analyzer and Purging ...................................................... 61

CHAPTER 6. CALIBRATION .......................................................................... 62

6.1. B-Smart Sensors ......................................................................................... 62

6.2. Starting a Calibration ................................................................................. 62

6.3. B-Smart® Sensor Replacement and Calibration .......................................... 63

6.4. Pressure Sensor Calibration ....................................................................... 64

6.4.1. Material Required .......................................................................... 64

6.4.2. Procedure ...................................................................................... 64

6.5. T-Stack Calibration ..................................................................................... 65

6.5.1. Material Required .......................................................................... 66

6.5.2. TS-Zero Procedure ......................................................................... 66

6.5.3. TS-Span Procedure ........................................................................ 67

6.6. T-Air Calibration ......................................................................................... 67

6.6.1. Material Required .......................................................................... 67

6.6.2. TA-Zero Procedure......................................................................... 67

6.6.3. TA-Span Procedure ........................................................................ 69

PCA3 Manual

6.7. CO

Sensor Calibration ........................................................................... 69

LOW

6.7.1. Material Required .......................................................................... 69

6.7.2. Procedure ...................................................................................... 70

6.8. SO2 Sensor Calibration ............................................................................... 72

6.8.1. Material Required .......................................................................... 72

6.8.2. Procedure ...................................................................................... 72

6.9. NO Sensor Calibration ................................................................................ 73

6.9.1. Material Required .......................................................................... 73

6.9.2. Procedure ...................................................................................... 73

6.10. NO2 Sensor Calibration ............................................................................. 74

6.10.1. Material Required ........................................................................ 74

6.10.2. Procedure .................................................................................... 74

6.11. CO

Sensor Calibration ......................................................................... 76

HIGH

6.11.1. Material Required ........................................................................ 76

6.11.2. Procedure .................................................................................... 76

CHAPTER 7. MAINTENANCE ....................................................................... 78

7.1. Overview .................................................................................................... 78

7.2. PCA®3 Disassembly ..................................................................................... 78

7.2.1. Tools Required ............................................................................... 78

7.2.2. Procedure ...................................................................................... 78

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7.3. Emptying the Water Trap Chamber ........................................................... 83

7.4. Replacing the Filter Element ...................................................................... 83

7.4.1. Material Required .......................................................................... 83

7.4.2. Procedure ...................................................................................... 83

7.5. Sensor Replacement .................................................................................. 84

7.6. Nitric Oxide (NO) Sensor Battery Replacement ......................................... 86

7.6.1. Material Required .......................................................................... 86

7.6.2. Procedure ...................................................................................... 86

7.7. Cleaning the Probe ..................................................................................... 87

7.7.1. Equipment Required ...................................................................... 87

7.7.2. Procedure ...................................................................................... 87

CHAPTER 8. TROUBLESHOOTING ............................................................... 88

8.1. Error Symbols ............................................................................................. 88

8.2. Diagnostics and Status Screens .................................................................. 88

8.3. Accessing the Diagnostic Menu ................................................................. 89

8.4. Accessing the Status Menu ........................................................................ 89

8.5. Error Messages (After Warm-up) ............................................................... 89

8.6. Replacement Parts ..................................................................................... 90

8.7. Accessories ................................................................................................. 93

8.8. Analyzer Repair .......................................................................................... 95

8.9. Service Centers ........................................................................................... 95

CHAPTER 9. DECLARATION OF CONFORMITY ............................................. 96

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A warning statement denotes a potential hazard

associated with the use of this equipment. Failure to follow this

situation which, if not avoided, may result in minor or moderate

important feature, operation, etc. Failure to follow this information could void your warranty, result in improper operation, or cause

This analyzer is not intended to be used as a safety

This analyzer is not intended to be used on a

PCA3 Manual

CHAPTER 1. INTRODUCTION

1.1. About This Manual

Thank you for investing in a Bacharach PCA®3 Combustion Analyzer. To assure operator safety and the proper use of the PCA manual for important information on the operation and maintenance of the analyzer.

1.2. Conventions

WARNING:

information could result in serious personal injury or death.

CAUTION: A caution statement indicates a potentially hazardous

injury. Caution statements may also be used to alert against unsafe practices.

IMPORTANT: An important statement provides emphasis of an

equipment damage.

3, please read the contents of this

NOTE: A note statement provides emphasis of a feature, operation, practice, etc.

1.3. Safety

WARNING: device.

WARNING: When testing an appliance, a full visual inspection of the appliance should be performed to ensure its safe operation.

CAUTION: continuous basis.

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PCA3 Manual

acement, this

analyzer should only be opened and/or serviced by authorized

To prevent this from occurring, a smoke test should be performed before operating under such conditions. This ensures that the

). This screen is removed by pressing the ENT button.

particular test. If a new test is started (by pressing the HOLD

CAUTION: Do not store instrument or its sensors with solvents or products that contain solvents.

CAUTION: Except for sensor and battery repl

Bacharach personnel. Failure to comply may void the warranty.

HAZARDOUS AREA WARNING: This instrument has not been designed to be intrinsically safe for use in areas classified as hazardous locations. For your safety, (classified) locations.

CAUTION: When the instrument is used in an inefficient furnace or boiler application where there is a high emission of soot, the probe’s sample filter may become clogged. Before every use check the filter to confirm that it is clean or replace it with a new filter.

furnace or boiler is burning at a level appropriate for the use of this instrument.

When the CO2 level exceeds the allowable threshold, a warning will appear prompting the user to consider performing a smoke test (see Figure 1-1 Once the warning is cleared, it will not be displayed again for that

DO NOT use it in hazardous

button), the warning will be displayed again if the limit has been exceeded.

Figure 1-1. High CO2 Warning

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The PCA®3 is a commercial-grade hand-held combustion and emissions

demand sampling of light industrial, institutional,

commercial and residential furnaces, appliances, and boilers.

a probe and hose assembly,

smart sensors, 4 ‘AA’ alkaline

Software, USB cable, and carrying

gases simultaneously, so it is the

inspectors, and boiler contractors

and CO levels, stack temperature,

1.4. General Description

analyzer designed for on-

The basic instrument is supplied with

instruction manual, factory calibrated

batteries, boot, Fyrite® User

PCA3 Manual

case. Refer to Figure 1-2.

The PCA®3 can measure up to four

perfect tool for service technicians,

who need to determine combustion efficiency, excess air, stack gas O2

draft, and differential pressure.

The analyzer can also directly measure and display NO, NO2 and SO2 with the installation of the appropriate sensors. Combustion efficiency calculations can be conducted for a variety of fuels (see Specifications later in this chapter).

B-Smart® sensor technology allows a new sensor to be installed in the field without having to calibrate the analyzer with gas before use.

Advanced data storage and communication features allow the operator to store up to 500 individual combustion test records, which can later be recalled for viewing, printing, or downloading to a personal computer. In its data logging mode, the analyzer can store an additional 500 data logged records. The optional AC power adapter allows the analyzer to run for extended periods of time while data logging.

The optional sample conditioning probe is recommended when measuring NO and SO

to ensure the highest degree of measurement accuracy.

A probe and hose assembly with an integral thermocouple and filter/water trap connects to the bottom of the analyzer, providing the means of drawing in gas samples and for measuring stack temperature and draft.

1.5. Operation Overview

1.5.1. Turning On the PCA®3

The PCA®3 is turned ON by pressing its red I/O button. A warm-up period of 60 seconds then begins, during which time the analyzer performs self diagnostics. At the end of the warm-up period, if no errors were detected the instrument will display the Combustion Test HOLD screen. If errors were detected, the message

Figure 1-2. A Typical PCA®3 Kit

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PCA3 Manual

“ERRORS DETECTED” is displayed along with a list of the errors. These errors must be corrected before proceeding with the combustion test.

Before starting a test be sure to select the fuel being burned. The default fuel selected is Natural Gas. Note that the name of the fuel being burned is indicated at the top of the run/hold screen.

1.5.2. The Combustion Test

To assure correct combustion efficiency calculations, the analyzer must know the burner’s primary-air temperature. The analyzer normally uses its internal temperature sensor for the primary-air temperature value, but this method is only acceptable if the burner is using ambient room air. If the burner is drawing in cold outside air, we recommend that the optional T-AIR thermocouple be used. This thermocouple plugs into the bottom of the analyzer and is placed in the burner’s primary-air stream.

Begin the combustion test by first inserting the analyzer’s probe tube into the stack-gas stream of the appliance under test, and then pressing the RUN/HOLD button to display the Combustion Test RUN screen. The analyzer will begin to continuously monitor the stack temperature, %O stack gas and then display measured and calculated values on its display. The recommended time required to achieve a stable measurement is a minimum of 3 minutes.

During a test, the CO

sensor is protected from high CO levels by being

LOW

automatically flushed with fresh air when the detected CO level exceeds 4,000 ppm. The analyzer will automatically start using its optional CO if installed, at CO levels starting at 4,001 ppm, thus providing continuous CO readings up to 20,000 ppm.

A keypad backlight enables a user to read the keypad in dimly-lit areas. Turn the keypad backlight ON and OFF by briefly pressing the I/O button.

1.5.3. Turning Off the PCA

The analyzer is turned OFF by pressing and holding down the I/O button for at least 2 seconds. Note that there is a 5-second delay before the analyzer actually turns OFF, during which time the analyzer can be turned back ON by pressing the RUN/HOLD button. In addition, there is a gas-purge feature that keeps the analyzer’s pump running if the gas level inside the sensor chambers is abnormally high at shutdown. With the probe removed from the stack and sampling fresh air, the analyzer purges itself until the detected gas concentrations drop below predetermined levels.

and emission levels in the

sensor,

HIGH

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PCA3 Manual

1.6. Features and Benefits

•

optional AC adapter provides extended operation.

and CO

•

additional gases, including CO

With the appropriate sensors installed, the analyzer optionally displays

•

pollution conversions for CO, NO, NO include ppm, #/MBTU, mg/m

B-Smart

•

the field. Sensors are provided with data that can be entered through the

3 software, or instrument calibration menus, for easy calibration.

PCA

Automatic flushing of the CO

•

exceeds 4,000 ppm, thus protecting the CO To measure CO levels above 4,000 ppm, the analyzer automatically switches to its CO

Automatic purging of the gas-sample system if the detected gas levels are

•

abnormally high when the analyzer is turned OFF.

Displays temperatures in either °F or °C

•

Displays pressure in either inwc, mb, Pa, or hPa

•

Backlit color graphic LCD with zoom capabilities

•

Low battery alarm

•

Stores 500 individual combustion records, which can later be recalled for

•

viewing, printing, or downloading to a personal computer. Stores an additional 500 data logged records.

Wireless IrDA link for printing current and stored combustion records,

•

pressure records, calibration data, and diagnostic data

USB connectivity for downloading data to personal computer

•

Field replaceable sensors and thermocouple

•

Two year warranty on analyzer and all gas sensors.

•

Language options including English, French, and Spanish

•

Custom Display Formats

•

Calibration Reminders: PCA

•

calibration is past due.

Auto/manual zeroing option allows the operator to select the start-up mode.

•

Auto-zero determines the zero reading of the CO channel in fresh air and provides an offset for the CO measurements. Also, all sensing channels are automatically zeroed on ambient air when the analyzer is first turned ON. Manual zero is used to

measurement standard. Optional measurement of up to two

LOW

sensor technology allows pre-calibrated sensors to be installed in

sensor, if installed.

HIGH

detect

, NO, NO2, or SO2.

HIGH

, and SO2. Pollution conversions

, and g/GJ.

LOW

3 can be configured to remind the user that

sensor with fresh air if the CO level

sensor from high CO levels.

LOW

CO that may be present during start-up.

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PCA3 Manual

1.7. Sales Combo and Model Configurations

Sales Combo

(0024-xxxx)

Sales Combo Kit

(0024-xxxx)

8440

8441

8447

8448

8442

8443

8444

8445

8446

8449

8450

8451

8452

8453

Model Type

225

235

245

255

265

275

PCA®3 Only Part Number

(0024-xxxx)

7320 7321 7322 7323 7324 7325 7326

Measurements

Oxygen (O2) • • • • • • •

Stack Temperature • • • • • • •

Primary/Ambient Air Temperature • • • • • • •

Carbon Monoxide Low (CO

) • • • • • • •

LOW

Pressure/Draft • • • • • • •

Carbon Monoxide High (CO

) • •

HIGH

Nitric Oxide (NO) • • • •

Nitrogen Dioxide (NO2) •

Sulfur Dioxide (SO2) • •

Calculations

Combustion Efficiency • • • • • • •

Excess Air • • • • • • •

Carbon Dioxide (CO2) • • • • • • •

NOx (NOx = NO + NO2) •

NOx referenced to % O2 •

CO referenced to % O2 • • • • • • •

NO referenced to % O2 • • • •

NO2 referenced to % O2 •

SO2 referenced to % O2 • •

285

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Calculations are performed only when the measured

PCA3 Manual

1.8. Specifications

Measurement (Based on Installed Sensors) Display Range

Oxygen 0.1 to 20.9%

Stack Temperature -4 to 2,192 °F (-20 to 1,200 °C)

Primary/Ambient Air Temperature -4 to 999 °F (-20 to 537 °C)

Carbon Monoxide (CO) (H2 compensated) 0 to 4,000 ppm

Pressure/Draft ±72” H2O (±179 mb)

CO High Range 4,001 to 20,000 ppm

Nitric Oxide (NO) 0 to 3,000 ppm

Nitrogen Dioxide (NO2) 0 to 500 ppm

Sulfur Dioxide (SO2) 0 to 5,000 ppm

Calculated Value (Based on Installed Sensors) Display Range

Combustion Efficiency 0.1 to 100%

Excess Air 1 to 250%

Carbon Dioxide (dry basis) 0.1 to fuel-dependent max in %

NOx (NOx = NO + NO2) 0 to 3,500 ppm

NOx referenced to %O2 0 to 9,999 ppm

CO referenced to %O2 0 to 9,999 ppm

NO referenced to %O2 0 to 9,999 ppm

NO2 referenced to %O2 0 to 9,999 ppm

SO2 referenced to %O2 0 to 9,999 ppm

NOTE:

oxygen level is below 16.0% and the stack temperature is below 2,000 °F (1,093 °C).

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Reading Performance Accuracy

±0.3% O (mix of O

Greater of ±5% of reading or ±10 ppm, between 0-2,000 ppm, ±10% of reading between 2,001 and 20,000 ppm.

NO Greater of ±5% of reading or 5 ppm

NO2 Greater of ±5% of reading or ±5 ppm between 0-500 ppm

SO2 Greater of ±5% of reading or ±10 ppm between 0-2,000 ppm

±4 °F (±2 °C) between 32 and 255 °F (0 and 124 °C)

Stack Gas Temp

±6 °F between 256 and 480 °F (±3 °C between 125 and 249 °C) ±8 °F between 481 and 752 °F (±4 °C between 250 and 400 °C)

Primary/Ambient

Air Temp

±2 °F between 32 and 212 °F (±1 °C between 0 and 100 °C)

±0.02 inches from -1 to 1 inwc;

Pressure/Draft

±2% of reading from -10 to 10 inwc; ±3% of reading from -40 to 40 inwc

System Flow Rate

with Probe

200 cc/min minimum

General Specification Description

Dimensions (H x W x D) 9.0 x 3.0 x 2.5 inches (22.9 x 7.6 x 6.3 cm)

Weight

Fuels Available for Combustion Calculations

Warm-up Time 60 seconds (Sensors checked and auto zeroed)

4 “AA” Batteries

Power

(Disposable)

AC Adapter (Optional)

Operating Temperature

Operating Humidity Analyzer: ...................... 15 to 90% RH, non-condensing

Operating Air Pressure

Memory

Interfaces

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on practical concentrations of stack gas

, CO2, and N2)

Analyzer with Batteries: ........................... 1.4 lb (0.6 kg)

Probe/Hose Assembly: ............................ 1.0 lb (0.5 kg)

Natural Gas

•

Coal

•

Oil #2

•

Oil #4

•

Oil #6

•

Wood

•

Kerosene

•

Bagasse

•

Propane

•

Digester Gas

•

Alkaline: .............................. 10 hours of operation (min)

NiMH Rechargeable: ................... Operating time varies

100-240 VAC; 50/60 Hz: ....................... Continuous use

Analyzer: ................................ 32 to 104 °F (0 to 40 °C)

Probe Tip: ..................................1,472 °F (800 °C) Max.

Analyzer: ................................................... Atmospheric

Probe: ............... 10″ H2O (25 mb) draft max. at probe tip

500 complete combustion test records 500 complete logged combustion test records

Printer: .......................... Infrared (IrDA) communications

Computer: ........................... USB 2.0 (mini-B connector)

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CHAPTER 2. HARDWARE

2.1. Overview

PCA3 Manual

Figure 2-1. Front and Bottom Views Showing Key Components

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The arrow buttons move the cursor on the LCD. In screens that

◄► buttons to quickly move to the top and bottom of the menu.

2.2. Front Panel Buttons

The PCA®3 is controlled by various buttons, while a color graphic LCD (with automatic dimming feature) is used to display all combustion and emission test data and analyzer parameters. Descriptions of the front panel buttons are given below. Note that a button may perform multiple functions depending on the current screen that is displayed.

PRINT Transmits the data displayed on the screen to a printer

PAG E- When viewing the Memory or Logging Directory, each

MENU Displays the Main Menu. ZERO When viewing the Pressure screen, this button zeros the

SAV E Saves the data currently displayed on the LCD in

PAG E+ When viewing the Memory or Logging Directory, each

▲

require the entry of alphanumerical data, use the ◄► buttons to

▼

move cursor across the screen and then use the ▲▼ buttons to

◄

increment and decrement the data. When viewing a menu, use the

►

Selects a highlighted item. In addition, if changes were made to one of the analyzer’s operating parameters (e.g., date, time, O

ENT

reference, etc.), pressing this button confirms those changes and saves them in memory.

Starts and stops a combustion test when the Combustion Test screen is displayed. Pressing this button in any other screen returns the analyzer to the Combustion Test HOLD screen.

RUN/

HOLD

Pressing this button during the 5 second turn-off-delay period will abort the turn-off process and also return the analyzer to the Combustion Test HOLD screen.

Displays a previously viewed screen. In addition, if changes were made to one of the analyzer’s operating parameters (e.g., date,

ESC

time, O changes, restores the old values, and then displays the previously viewed screen.

Turns the analyzer ON and OFF, and is also used to turn the

I/O

keypad LEDs ON and OFF.

through the IrDA communications port.

press of this button pages down through the directory. Holding this button down speeds up the paging process.

pressure sensor to current atmospheric conditions. When viewing the Temperature screen, this button zeroes the temperature channel difference.

memory. Up to 500 individual Combustion Test, Temperature, and Pressure records can be saved. After 500 records have been saved, the memory must be cleared to continue saving additional data. The analyzer will not overwrite old data.

press of this button pages through the directory. Holding this button speeds the paging process.

reference, etc.), pressing this button aborts those

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lit areas. Turn the keypad backlight ON and OFF by briefly

the RUN / HOLD button. Also note that if the

measured emission levels are above predetermined limits at the

and purges the sensor compartment with fresh air until the gas

e analyzer are reduced. If desired, the purging

PCA3 Manual

For example, the functions of the F1, F2, and F3 buttons are defined by labels appearing above them on the LCD. The labels that appear depend on the functions that can be performed in the particular screen being displayed.

NOTE: A keypad backlight enables a user to read the keypad in dimlypressing the I/O button.

NOTE: When the analyzer is turned OFF, there is a 5-second delay, during which time an operator can keep the analyzer turned ON by pressing

time the instrument is turned OFF, the pump is automatically started

levels inside th process can be aborted by again pressing the I/O button, though it is not recommended.

2.3. Backlit Display

A large backlit color graphic display shows multiple combustion test values simultaneously, and includes a zoom capability that provides extra large text.

Figure 2-2. Sample Display

2.4. Battery Compartment

The PCA®3 is powered by either its four internal batteries or by an optional AC power adapter that operates from any convenient source of 100–240 VAC, 50/60 Hz power. Batteries may be either disposable alkaline or rechargeable NiMH.

2.5. AC Adapter Connector (POWER)

The AC power adapter P/N 0024-1254 can be used as an external power supply, which will run the analyzer on a continuous basis. It uses 100-240 VAC at 50/60 Hz.

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Figure 2-3. Battery Compartment

Figure 2-4. Bottom View Showing Connectors

2.6. Probe Connectors (Gas, Pressure, T-Stack)

The probe and hose assembly are connected to the analyzer by way of the following connectors.

• Stack-gas thermocouple to the analyzer’s T-STACK connector

• Stack-gas hose to the analyzer’s GAS connector

• Draft hose to the analyzer’s +∆P connector

Observe that the probe connectors are of different sizes and shapes, which prevents incorrect connection to their associated connectors on the analyzer. See Figure 2-5.

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Figure 2-5. Probe Connectors GAS, +∆P, and T-STACK

2.7. Differential Pressure Connector (∆P)

Draft is measured by connecting the probe’s draft hose to the +∆P fitting, while leaving the -∆P fitting open to the atmosphere. See Figure 2-5.

In addition to measuring draft, the “+” and “-” ∆P fittings can also be used to measure the differential pressure between two areas by first connecting a hose (P/N 0024-1103) to the -∆P fitting, and then inserting the open end of this hose into the area being used as the reference pressure. The analyzer’s probe is then inserted into the area where differential pressure is to be measured.

2.8. Primary Air Thermocouple Connector (T-AIR)

If thermocouple P/N 0104-1797 (10 feet long) or Utility Wand P/N 0104-1799 (12-inch ridged probe with handle and 5 foot coiled cable) is to be used to measure the burner’s primary air temperature, then connect either of these thermocouples to the analyzer’s T-AIR connector. See Figure 3-2 on page 22.

2.9. Computer Interface (USB)

Data stored in the analyzer’s memory can be downloaded to a personal computer by connecting USB data cable P/N 0104-4032 between the USB ports of the computer and analyzer. The PCA Figure 2-1 on page 15.

2.10. Wireless Printer Port (IrDA)

Data that has been stored in the analyzer’s memory can be printed on a compatible IrDA (Infrared data associated) wireless printer by aligning their IrDA communication ports. The IrDA port of the PCA device. See Figure 2-1 on page 15.

3’s USB port is on its right side. See

3 is located at the top of the

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CHAPTER 3. INITIAL SETUP

3.1. Overview

Before configuring or using the PCA®3, you MUST:

provide power

•

connect the probe and hose assembly.

•

3.2. Power

Three options are available to power the PCA®3:

disposable alkaline batteries

•

rechargeable NiMH batteries

•

AC power adapter.

•

If you are using either alkaline or NiMH rechargeable batteries to power the analyzer, follow the instructions below to install or replace the batteries.

Remove the battery cover from back of unit (Figure 3-1).

•

Remove (and properly dispose of) any old batteries.

•

Install a set of four ‘AA’ alkaline or NiMH batteries, per the “+” and “-”

•

markings inside the battery compartment.

Replace the battery cover.

•

Figure 3-1. Battery Cover and Compartment

The AC power adapter is capable of powering the analyzer on a continuous basis. The adapter plugs into an appropriate 100-240 VAC, 50/60 Hz wall outlet, and produces an output of +6 VDC. The adapter’s output connector plugs into the analyzer’s POWER jack located on the bottom of the unit (refer to Figure 3-2 on page 22).

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curate calculation of

combustion efficiency, the optional primary/ambient air

3.3. Connecting the Probe and Hose Assembly

To attach the probe and hose assembly to the analyzer follow the steps below and refer to Figure 3-2 on page 22.

1. Push the gas sample hose connector, the larger of the two connectors (giving a slight twist), onto the analyzer’s GAS fitting.

2. Push the draft hose connector, the smaller connector (giving a slight twist), onto the analyzers +∆P fitting.

3. Push the stack gas thermocouple connector into the T-STACK jack (connector fits in only one way).

4. Push the optional primary/ambient air thermocouple into the T-AIR jack (connector fits in only one way).

IMPORTANT: To assure the ac

thermocouple must be used when the burner’s primary-air temperature is not the same as the room temperature.

5. Inspect all hoses for cracks. If any hose is found to be defective, replace the entire probe and hose assembly. Check that the water trap is empty, and the filter is not dirty or saturated with water.

3.4. Preparing to Configure the PCA®3

PCA3 Manual

After initial setup is complete, turn on the PCA instructions, refer to Turning On the PCA®3 on pages 9 and 41. You are now ready to configure your PCA particular preferences. Refer to Configuration Procedures on page 23. You configure the PCA

3 by navigating the menus and changing key parameter

3 for your particular application and to your

values. It may be helpful to review Front Panel Buttons on page 16 in preparation for navigating the menu interface of the PCA

3. For detailed power-up

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Figure 3-2. Connecting the Probe to the Analyzer

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CHAPTER 4. CONFIGURATION PROCEDURES

4.1. Default Operating Parameters

The PCA®3 is set up at the factory for the following operating parameters. To change any of these parameters, perform the associated procedure that follows.

Parameter Factory Default See…

Fuel Natural Gas Page 23

Auto/Manual CO Zero Auto Zero Page 24

Temperature Units °F Page 25

Pressure Units Inches of Water Column (inwc) Page 26

Pollution Units ppm Page 27

Date Current MM/DD/YY Page 27

Time Current EST HH:MM AM/PM Page 28

O2 Reference 0% Page 29

Print Pressure No Page 30

Zoom Standard Page 30

Logging No Page 31

Button Sound On Page 31

Test ID Information <blank> Page 32

User Name <blank> Page 34

Language English Page 36

Calibration Reminder Never Page 36

Run/Hold Screen Format See page 37 for default Page 37

NOx Calculation Off Page 39

4.2. Fuel Selection

To assure the accurate calculation of combustion efficiency, select the fuel being burned as follows.

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight FUEL and then press ENT to display the FUEL MENU.

3. Use the ▲▼ buttons to scroll through the list of available fuels until the desired fuel is highlighted. In the example shown, PROPANE has been selected (If custom fuels are added, they will be displayed at the bottom of the list).

NOTE: Use the ◄► buttons to quickly scroll to the bottom and top of the list.

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In addition to the standard fuels programmed into the

3, Bacharach can develop custom fuel codes based on the

4. Press ENT to save the selection and display the Combustion Test HOLD screen. Observe that the name of the selected fuel should now appear at the top of the screen.

NOTE:

PCA customer’s specific needs. The PCA®3 can be programmed with 2 additional fuels which can be added to the instrument using the Fyrite User Software (FUS). Consult factory for price and delivery.

Figure 4-1. Fuel Selection

4.3. Auto/Manual CO Zero Selections

Select how the PCA®3 performs a zero function.

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight SETUP, and then press ENT to display the SETUP MENU.

3. Use the ▲▼ buttons to highlight CO Zero Setting, and then press ENT to display the CO ZERO SETTING MENU.

4. Use the ▲▼ buttons to highlight the desired zeroing option (Manual or Auto-Zero). In the example shown, Manual Zero has been selected.

5. Place the instrument in fresh air to zero, and press ENT to start a 60second count down.

6. Press ENT to save and re-display the SETUP MENU.

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of the CO channel in fresh air and provides an offset for the CO

s background CO during

down to establish a new zero. The manual mode establishes a

NOTE: The PCA®3 performs a zero function during warm-up. Among other purposes, an auto-zero determines the “zero reading”

measurement. A manual zero detect startup.

Manual Zero: When the CO channel is set to manual zero, the analyzer does not

Auto Zero:

When the CO channel is set to auto zero, the CO sensor is zeroed

Auto Zero determines the zero reading of the CO channel in fresh air and provides an offset for the CO measurements. Manual zero is used to detect CO that may be present during start-up. The auto/manual zeroing option allows the operator to select the start-up mode. It is selectable from the CO Zero Setting of the Setup Menu.

NOTE: Both methods take the user through a 60-second count

Figure 4-2. Auto/Manual Zero Selection

zero the CO sensor to ambient conditions during start up. In this mode, the “fresh air zero” established during

manual mode

setup

is stored in memory and used for the calculation of CO.

to the ambient CO level during start up. Important: W hen using this mode, the analyzer must be turned ON in fresh air; otherwise, incorrect CO readings will occur.

PCA3 Manual

fresh air zero and stores it for use during instrument startup.

4.4. Temperature Units Selection

Select to display temperature in either °F or °C as follows.

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight SETUP, and then press ENT to display the SETUP MENU.

3. Use the ▲▼ buttons to highlight TEMP UNITS, and then press ENT to display the TEMP UNITS MENU.

4. Use the ▲▼ buttons to highlight the desired temperature units. In the example shown, Fahrenheit has been selected.

5. Press ENT to save the selection and re-display the SETUP MENU.

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Figure 4-3. Temperature Units Selection

4.5. Pressure Units Selection

Select to display pressure in Inches of Water Column (inwc), millibar (mb), Pascals (Pa), or hectoPascals (hPa) as follows.

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight SETUP, and then press ENT to display the SETUP MENU.

3. Use the ▲▼ buttons to highlight PRESSURE UNITS, and then press ENT to display the PRESSURE UNITS MENU.

4. Use the ▲▼ buttons to high light the desired pressure units. In the example shown, InchesWater has been selected.

5. Press ENT to save the selection and re-display the SETUP MENU.

Figure 4-4. Pressure Units Selection

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4.6. Pollution Units Selection

The PCA®3 is capable of converting the measured ppm levels of CO, NO, NO2, and SO that the pollution unit conversions for NO, NO molecular weight of NO2.

Configure the PCA of pollutant per million BTU (#/Mbtu), milligrams of pollutant per cubic meter of gas (mg/m

to various pollution units using CFR40 Part 60 emission factors. Note

3 to display pollution units in parts per million (ppm), pounds

), or grams of pollutant per gigajoule (g/GJ) as follows.

and NOx are based on the

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight SETUP, and then press ENT to display the SETUP MENU.

3. Use the ▲▼ buttons to highlight POLLUTION UNITS, and then press ENT to display the POLLUTION UNITS MENU.

4. Use the ▲▼ buttons to highlight the desired pollution units. In th e example shown, ppm has been selected.

5. Press ENT to save the selection and re-display the SETUP MENU.

Figure 4-5. Pollution Units Selection

4.7. Date Setup

The date is stored in the format: MM/DD/YY. Its value is part of the date and time stamp that is saved along with each combustion test record. Set the analyzer’s internal clock to the current date as follows.

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight SETUP, and then press ENT to display the SETUP MENU.

3. Use the ▲▼ buttons to highlight DATE, and then press ENT to display the DATE MENU.

4. First use the

◄►

buttons to move the cursor across the screen until it is over the digit to be changed, and then press the ▲▼ buttons until the desired value is displayed.

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The real time clock is powered by the main batteries and is maintained by a coin cell battery on the Main PCB in the absence of batteries. Bacharach

5. Repeat Step 4 until the values for month, day, and year have been set.

6. Press ENT to save the selection and re-display the SETUP MENU, or press ESC to abort this procedure and retain the old date values.

NOTE:

recommends changing the coin cell (P/N 0204-0020) every 5 years.

Figure 4-6. Date Setup

4.8. Time Setup

The time is stored in the format: hh:mm:ss AM/PM. Its value is part of the date and time stamp that is saved along with each combustion test record. Set the analyzer’s internal clock to the current time as follows.

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight SETUP, and then press ENT to display the SETUP MENU.

3. Use the ▲▼ buttons to highlight TIME, and then press ENT to display the TIME MENU.

4. First use the over the digit to be changed, and then press the ▲▼ buttons until the desired value is displayed.

5. Repeat Step 4 until values for hour, minute, and meridian are set.

◄►

buttons to move the cursor across the screen until it is

NOTE: The value for seconds cannot be entered, but is displayed and stored as part of the combustion test record.

6. Press ENT to save the displayed time values and re-display the SETUP MENU, or press ESC to abort and retain the old time values.

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Figure 4-7. Time Setup

4.9. O2 Reference Setup

The measured values of CO, NOx, and SO2 can be individually referenced to a specific O reference value for each of the above gases as follows.

percentage of between 0 and 15%. Individually set up the O2

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight SETUP, and then press ENT to display the SETUP MENU.

3. Use the ▲▼ buttons to highlight O2 REF, and then press ENT to display the O

REFERENCE screen.

4. Use the ▲▼ buttons to highlight the desired measurement, and then press ENT to display the REF TO O2 screen for that measurement. In the example shown, CO has been selected.

5. First use the ◄► buttons to move the cursor across the screen until it is over the digit to be changed, and then press the ▲▼ buttons until the desired value is displayed.

6. Press ENT to save the displayed value and re-display the O REFERENCE screen, or press ESC to abort this procedure and retain the old O2 reference value.

7. If the O

reference value for more than one gas is being set, repeat

Steps 4, 5, and 6 for each measurement.

Figure 4-8. O2 Reference Setup

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4.10. Print Pressure Selection

Select whether to print or not print the pressure measurement on the combustion test printout as follows.

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight SETUP, and then press ENT to display the SETUP MENU.

3. Use the ▲▼ buttons to highlight PRINT PRESSURE, and then press ENT to display the PRINT PRESSURE screen.

4. Use the ▲▼ buttons to highlight either No (do not print pressure) or Yes (print pressure). In the example shown, Yes has been selected.

5. Press ENT to save the selection and re-display the SETUP MENU.

Figure 4-9. Print Pressure Selection

4.11. Zoom Display Selection

Combustion test data in the Run/Hold screen can be shown with enlarged characters to make viewing easier. The operator can set zoom levels to Standard, 2X, or 3X. The Standard zoom setting will display seven lines of combustion test data at one time, 2X which will display five lines of combustion test data with enlarged characters, and 3X which will display four lines of combustion test data with enlarged characters. The operator can scroll through the complete list of measured and calculated data no matter what zoom level has been selected. Select desired zoom level as follows:

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight SETUP, and then press ENT to display the SETUP MENU.

3. Use the ▲▼ buttons to highlight ZOOM, and then press ENT to display the ZOOM screen.

4. Use the ▲▼ buttons to select the desired Zoom level. Options include STANDARD, 2X, and 3X. Standard will display seven lines of Combustion test data, 2X will display five, and 3X will display four.

5. Press ENT to save the selection and re-display the SETUP MENU.

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Figure 4-10. Zoom Display Selection

4.12. Logging Selection

When the logging function is activated, up to 500 combustion test records will be automatically stored in memory at a preset interval over a predetermined length of time.

Refer to Data Logging starting on page 50 for detailed information on how to select the logging function, how to set the interval and duration time periods, and how to view or download the stored data.

Figure 4-11. Logging Selection

4.13. Button Sound Selection

The audible sound used to signal when a button is pressed can be turned OFF and ON as follows.

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight SETUP, and then press ENT to display the SETUP MENU.

3. Use the ▲▼ buttons to highlight BUTTON SOUND, and then press ENT to display the BUTTON SOUND screen.

4. Use the ▲▼ buttons to highlight either OFF or ON. In the example shown, OFF has been selected.

5. Press ENT to save the selection and re-display the SETUP MENU.

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Figure 4-12. Button Sound Selection

4.14. Test ID Information

Test records can be identified (e.g., customer’s name, burner number, and location) by manually entering up to three lines of text, with each line containing a maximum of 20 alphanumeric characters. When a Test ID is selected this information will be associated with all succeeding test records, and will appear at the top of each test record when printed, and in CSV files when records are downloaded to a PC. The chosen Test ID remains in effect until it is deselected, a new Test ID is selected, or the instrument is turned off. Up to 30 Test IDs can be pre-entered for later retrieval.

NOTE: To save time, Test ID information can be entered using the Fyrite User Software.

4.14.1. Entering or Editing a Test ID

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight SETUP, and then press ENT to display the SETUP MENU.

3. Use the ▲▼ buttons to highlight TEST ID, and then press ENT to display the TEST ID menu.

4. Use the ▲▼ buttons to highlight EDIT TEST ID, and then press ENT to display the EDIT TEST ID menu, which displays the first line of each Test ID record.

5. Use the ▲▼ buttons to select which Test ID to edit and then press ENT

to display all three lines of that record. Periods (.....) are used to identify

empty lines.

6. Use the ▲▼ buttons to choose which of the three Test ID lines to edit and then press ENT to begin editing the chosen line.

7. Use the ▲▼ buttons to enter the desired character and then move to the next character position by pressing the right arrow key. Repeat this step until the line is complete. A maximum of 20 characters can be

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8. At this time, either return to Step 6 to choose another line to edit, or end this procedure by highlighting Edit Complete and pressing the ENT key to return to the Edit Test ID Menu.

9. Press ESC to go to the Test ID Menu or the RUN/HOLD key to return to the Run/Hold screen.

Figure 4-13. Editing a Test ID

4.14.2. Selecting a Test ID

1. From the Test ID menu, use the ▲▼ buttons to highlight SELECT TEST ID, and then press ENT to display the SELECT TEST ID menu, which displays the first line of each Test ID record.

Figure 4-14. Selecting a Test ID

2. Use the ▲▼ buttons to choose a pre-entered Test ID or choose NO Test ID (located at bottom of list) to deselect a previously chosen record, then press ENT to make the selection and return to the Test ID menu.

3. Press ESC to end the procedure and return to the Setup Menu or press the RUN/HOLD key to return to the Run/Hold Screen.

4.14.3. Clearing Test ID Information

1. From the Test ID menu, use the ▲▼ buttons to highlight CLEAR TEST ID, and then press ENT to display the CLEAR TEST ID menu.

2. Do one of the following to clear Individual Records or All Records.

Individual Records: Use the ▲▼ buttons to highlight Individual Records, then press ENT to display the Clear Individual menu. Again use the ▲▼ buttons to highlight the individual record to clear, then press ENT to clear the record.

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All Records ENT to display the Clear All menu. Again use the ▲▼ buttons to highlight Yes, then press ENT to clear all records.

3. Press ESC to end this procedure and return to the Test ID menu or press the RUN/HOLD key to return to the Run/Hold screen.

4.15. User Name

The name of the user or owner of the analyzer (e.g., company name, address, phone number) can be stored in memory by manually entering up to three lines of text, with each line containing up to 20 alphanumeric characters. This information will appear at the top of each printout until new information is entered or cleared.

: Use the ▲▼ buttons to highlight All Records, then press

Figure 4-15. Clearing a Test ID

NOTE: To save time, user name information can be entered using

the Fyrite

User Software.

4.15.1. Entering a User Name

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight SETUP, and then press ENT to display the SETUP MENU.

3. Use the ▲▼ buttons to highlight USERNAME, and then press ENT to

display all three lines of the EDIT USERNAME screen. Periods(.....)

identify empty lines.

4. Use the ▲▼ buttons to choose which of the three Username lines to edit, then press ENT to begin editing the chosen line.

5. Use the ▲▼ buttons to enter the desired character and then move to the next character position by pressing the right arrow key. Repeat this step until the line is complete. A maximum of 20 alphanumeric characters can be entered.

6. Press ENT to accept the entered information.

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7. At this time, either return to Step 4 to choose another line to edit, or end this procedure by highlighting Edit Complete and pressing the ENT key to return to he Setup Menu.

8. Press ESC to go to the Main Menu or the RUN/HOLD key to return to the Run/Hold screen.

Figure 4-16. Entering a User Name

4.15.2. Clearing a User Name

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight SETUP, and then press ENT to display the SETUP MENU.

3. Use the ▲▼ buttons to highlight USERNAME, and then press ENT to

display all three lines of the EDIT USERNAME screen. Periods (.....)

identify empty lines.

4. Use the ▲▼ buttons to choose which of the three Username lines to clear, then press CLEAR (F3) to clear that line.

5. At this time, either return to Step 4 to choose another line to clear, or end this procedure by highlighting EDIT COMPLETE and pressing the ENT key to return tot he Setup Menu.

6. Press ESC to go to the Main Menu or the RUN/HOLD key to return to the Run/Hold screen.

Figure 4-17. Clearing a User Name

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4.16. Language

Information on the display screen can be shown in English, French, or Spanish. Select the desired language as follows.

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight SETUP, and then press ENT to display the SETUP MENU.

3. Use the ▲▼ buttons to highlight LANGUAGE SELECTION, and then press ENT to display The Language Selection Menu.

4. Use the ▲▼ buttons to highlight the desired language, then press ENT to activate the selection and re-display the Setup Menu.

Figure 4-18. Selecting a Language

4.17. Cal Reminder Period

The analyzer can be set to indicate a calibration reminder during the 60 second warm-up period. Calibration reminders can be preset to occur never or at 6, 8, 10, 12, or 15 months after the last calibration. When the preset period is exceeded the instrument will display the reminder, and how long since the sensors were last calibrated. The reminder will be displayed at the end of the 60 second warm-up period. If a calibration reminder is displayed the operator can press the RUN/HOLD key to move to the Run/Hold screen for normal operation. Regular calibration periods of 6 months to a year for all gas sensors (except Oxygen) are recommended. Set the calibration reminder period as follows.

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight SETUP, and then press ENT to display the SETUP MENU.

3. Use the ▲▼ buttons to highlight CAL REMINDER PERIOD, and then press ENT to display CAL Reminder Period Menu.

4. Use the ▲▼ buttons to highlight the desired CAL reminder period, and then press the ENT key to activate the selection and re-display the Setup Menu.

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Oxygen

Carbon Monoxide

EFF

Combustion Efficiency

CO2

Carbon Dioxide

T-STK

Stack Temperature

T-AIR

Ambient/Primary Air Temperature

Excess Air

CO(#)

Carbon Monoxide content referenced to an Oxygen percentage

Nitric Oxide

NO2

Nitrogen Dioxide

NOx

Oxides of Nitrogen (NO and NO2 combined)

SO2

Sulfur Dioxide

NO(#)

Nitric Oxide content referenced to an Oxygen percentage

NO2(#)

Nitrogen Dioxide content referenced to an Oxygen percentage

NOx(#)

Oxides of Nitrogen content referenced to an Oxygen percentage

SO2(#)

Sulfur Dioxide content referenced to an Oxygen percentage

PCA3 Manual

NOTE: The date and time settings must be correct to get accurate calibration reminders.

Figure 4-19. Selecting the Calibration Reminder Period

4.18. Run/Hold Screen Format

PCA®3 test data is located in the Run/Hold screen. By pressing the

RUN/HOLD

the upper left hand corner of the display. The instrument is continuously measuring and calculating the data that is shown in the Run/Hold screen. Press the

RUN/HOLD

should be shown at the upper-left hand corner of the display. The instrument will now show the last measured and calculated data taken before the instrument was placed in HOLD. Use the up and down arrow keys to scroll through the complete list of measured and calculated values when the instrument is running or in the hold mode. The default order in which data appears in the Run/Hold screen is shown below.

key, you should hear the pump running and see the word RUN at

key again, the pump should stop running and the word HOLD

NOTE: A number sign (#) denotes the current O2 Reference selected.

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NOTE: Stars (***) appear in measurement and calculation fields of sensors that are not installed.

Change the order in which data is displayed as follows.

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight SETUP, and then press ENT to display the SETUP MENU.

3. Use the ▲▼ buttons to highlight RUN/HOLD FORMAT, and then press ENT to display Run/Hold Format Menu.

4. Use the ▲▼ buttons to highlight Edit Format, and then press the ENT key to show the Edit Run/Hold Format, where the current order of combustion data is displayed.

5. Change data shown for a particular location by first using the ▲▼ buttons to highlight the location. Then press the ENT key to select the location; the cursor will start to flash.

6. Use the ▲▼ buttons to scroll through and select the desired data to appear at that location. Press the ENT key to make the selection.

7. Change data displayed at other locations by repeating Steps 5 and 6.

8. When finished, use the ▼ button to highlight Edit complete at the bottom of the list, then press ENT to save the new display format and return to the Run/Hold Format screen.

Figure 4-20. Changing the Order in Which Data Is Displayed

Reset Display format back to factory default settings as follows.

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight SETUP, and then press ENT to display the SETUP MENU.

3. Use the ▲▼ buttons to highlight RUN/HOLD FORMAT, and then press ENT to display Run/Hold Format Menu.

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4. Use the ▲▼ buttons to highlight RESET FORMAT, then press ENT to display the Reset Format screen.

5. Use the ▲▼ buttons to select YES, then press ENT to reset the display and return to the Run/Hold Format screen.

Figure 4-21. Resetting Display Formats Back to Factory Defaults

4.19. NOx Calculation

NOx is a combination of NO and NO2. The actual NOx value on the PCA3 is the sum of both NO and NO2 readings (NOx=NO+NO2) from the sensors in positions 4 and 3, respectively. Analyzers having just the NO sensor (in sensor position #4) can display a

calculated

approximation using just the NO sensor reading

and a multiplier of 1.05 (NOx≈NO*1.05). This calculation is enabled by setting the NOx Calculation option in the Setup Menu to ON.

Figure 4-22. NOx Calculation Screens

Figure 4-23. Sensor Configurations for Actual and Calculated NOx Values

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extremely cold environment, the electrochemical sensors may

ctrolyte will freeze at

ºF and the other sensors at approximately

ºF. If the analyzer is exposed to an extremely cold

CHAPTER 5. OPERATION

5.1. Operating Tips

When an analyzer is brought in from a cold vehicle, let it warm up slowly to

•

minimize condensation. Temperatures below freezing will not damage the analyzer.

CAUTION: Although the analyzer itself is not damaged by an

be damaged. The O2 sensor’s ele approximately -20

-94 condition, it is strongly suggested that the sensor housings be examined for hairline cracks. Be aware that a leaking sensor can cause chemical burns to the skin and possibly damage the PCB assemblies.

Ensure that the analyzer is sampling fresh air when turned ON. Pulling a

•

stack gas sample through the analyzer during its warm-up period will not damage the analyzer, but it will result in incorrect sensor readings, and may result in sensor error messages appearing after the warm-up cycle completes.

Note that flue gas condensate is acidic and very corrosive. It is important not

•

to allow the analyzer’s internal components to come in contact with condensate for long periods of time.

Before each use, inspect the filter element of the water trap / filter assembly.

•

Replace the filter if it looks dirty. See Replacing the Filter Element on page

83.

When sampling flue gas, keep the analyzer above the water trap, and keep

•

the trap in a vertical position. This will maximize the effectiveness of the trap and keep liquid condensate from being drawn directly into the analyzer.

When liquid condensate is seen inside the water trap, empty the trap before

•

it becomes full. See Emptying the Water Trap on pages 49 and 83.

The analyzer should be purged after performing a combustion test. After

•

removing probe from the stack, let the pump run for at least 10 minutes to remove any stack gases and dry any condensate from inside the sensor chamber and probe assembly. If the analyzer is turned OFF with high levels of flue gas remaining in the analyzer, then the pump will continue to run and the message “PURGING SENSORS” will appear on the display until all flue gas levels fall below predetermined levels.

When storing the analyzer, it’s a good idea to empty the water trap and

•

leave it open to further dry it out.

Calibrate the analyzer every 6 months to 1 year to ensure its accuracy.

•

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If the sensors in error are not critical to the

button to

display the Combustion Test HOLD screen and proceed

PCA3 Manual

5.2. Turning On the Analyzer

Connect the probe and hose assembly, and make sure that the analyzer is properly set up according to Initial Setup (page 20) and Configuration Procedures (page 23).

IMPORTANT: DO NOT insert probe into stack before turning ON the analyzer!

1. Place the probe in an area that contains fresh air. This ensures that the sensors will be properly zeroed during the warm-up cycle.

2. Turn ON the analyzer by pressing the I/O button for at least 1 second, or until a single beep is heard. Observe that the analyzer’s firmware version, model and serial numbers are briefly displayed followed by the Warm Up screen.

3. Wait for the analyzer to count down its 60-second warm-up period, after which, the instrument will display the Combustion Test HOLD screen.

4. If problems were detected during warm up, the message “ERRORS DETECTED” is displayed along with a list of those errors. As an example, the screen below shows that the battery is low. Refer to Error Messages (page 89) for a listing and possible remedy for the errors displayed.

NOTE:

combustion test, then press the RUN/HOLD

with the test.

Figure 5-1. Turning On the Analyzer and Warm-up

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5.3. Low Battery Alarm

When the batteries are nearly depleted, an empty battery icon appears in the upper right corner of the display, and a short beep is sounded every 10

After a low battery alarm occurs, the analyzer will continue to operate for only a few minutes. The amount of operating time that remains depends on many factors (e.g., pump and keypad backlight being ON or OFF, and the type and condition of the batteries).

5.4. Locating Sampling Points

Forced Air Furnace Hot Water Tank

seconds.

Figure 5-2. Forced Air Furnace

For atmospheric burner or gravity vented, forced air heating equipment with a clamshell or sectional heat exchanger design, test each of the exhaust ports at the top of the heat exchanger. The probe should be inserted back into each of the exhaust ports to obtain a flue gas sample, before any dilution air is mixed in.

Figure 5-3. Hot Water Tank

Domestic hot water tanks with the ‘bell’ shaped draft diverter can be accurately tested by inserting the probe tip directly into the top of the fire tube below the diverter.

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90% Efficiency

Condensing Furnace

80% Efficiency Fan

Assist or Power Vented

Furnace

PCA3 Manual

Atmospheric/Gravity

Vented Boiler

Figure 5-4. 90%

Efficiency Condensing

Furnace

Condensing furnaces/boilers can be tested through a hole drilled in the plastic vent pipe (when allowed by the manufacturer or local authority of jurisdiction) or taken from the exhaust termination.

Figure 5-5. 80%

Efficiency Fan Assist or

Power Vented Furnace

Combustion testing of fan assist or power vented, furnaces/boilers should be done through a hole drilled in the vent immediately above the inducer fan.

Atmospheric/Gravity

Vented Boiler

Boilers, which have a ‘bell’ shaped draft diverter on top, should be tested directly below the diverter through a hole drilled in the vent connector.

5.5. Performing a Combustion Test

Ensure that the following items have been completed.

Turn ON analyzer and allow it to warm up (see page 41)

•

Select fuel being burned (see page 23)

•

Inset probe into stack (see page 42)

•

If necessary, insert the optional primary air thermocouple into the

•

combustion air stream of the burners that use an outside source of combustion air.

Next, proceed with the combustion test as described below.

Figure 5-6.

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tip of the riser tube. The sensors could be damaged if

Figure 5-7. Performing a Combustion Test

1. Press the RUN/HOLD button to start the test. You should hear the pump start running and see the word RUN appear at the top of the Combustion Test screen.

Sensor Indicators:

sensor’s data field depending on certain conditions:

(* * *) Sensor that is not calibrated or installed. (XXX) Sensor over range

) The calculated data cannot be displayed

(

- - -

2. Use the up and down arrow keys to scroll to the T-STK reading. Loosen the thumbscrew on the probe stop and move the probe in and out of the stack until the stack’s core temperature (hot spot) is located as indicated by the highest T-STK reading; then tighten the thumbscrew to prevent further probe movement. Locating the highest stack temperature is very important for accurate efficiency calculations.

3. You can now begin burner service procedures. The analyzer readings will change quickly to show changes in burner performance.

The following indicators appear in the

because the measured data necessary to make the calculation is out of range (i.e., oxygen level above 16%).

CAUTION: Position the water trap with its gas flow arrow pointing upward. Do not let water condensate go above the

water would enter the analyzer. Empty the water trap after every combustion test. See

Emptying the Water Trap on

pages 49 and 83.

4. Pressing the RUN/HOLD button holds all readings, stops the pump and displays the Combustion Test HOLD screen. Press the ▲▼ buttons to scroll through all test values. Pressing RUN/HOLD again restarts the pump and resumes testing.

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List of Combustion Test Data

Display Name Description of Measurement or Calculation

O2 % Oxygen

CO Carbon Monoxide (1)

EFF Combustion Efficiency

CO2 % Carbon Dioxide

T-STK Stack Temperature

T-AIR Primary/Ambient Air Temperature as measured either internally or by

EA % Excess Air

CO(#) Carbon Monoxide ppm level referenced to a % of oxygen (2)

NO Nitric Oxide (1)

NO2 Nitrogen Dioxide (1)

NOx Oxides of Nitrogen (NO and NO2 combined) (1)

SO2 Sulfur Dioxide (1)

NO(#) Nitric Oxide ppm level referenced to a % of oxygen (2)

NO2(#) Nitrogen Dioxide ppm level referenced to a % of oxygen (2)

NOx(#) Oxides of Nitrogen ppm level referenced to a % of oxygen (2)

SO2(#) Sulfur Dioxide ppm level referenced to a % of oxygen (2)

NO-T Nitric Oxide Sensor Temperature (3)

(1) See page 27 for pollution unit of measure selected. (2) The “#” represents the selected oxygen reference level of between 0 and 15% (see

page 29).

(3) Only shown if selected in the Run/Hold Format menu (see page 37).

an optional external thermocouple plugged into the analyzer’s T-AIR connector.

NOTE: Stars (* * *) appear in measurement and calculation fields of sensors that are not installed.

5.6. Selecting a Pressure Label

The pressure measurement can be labeled with types including, differential across heat exchanger, draft reading, and differential pressure. See page 47 for pressure and draft measurement procedures. Label data as follows.

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight PRESSURE, and then press ENT to display the PRESSURE MENU.

3. Use the ◄► buttons to scroll through the available pressure label types. The current label is used, saved, and printed with the record.

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Figure 5-8. Selecting a Pressure Label

5.7. Temperature Label Selection and Measurement

The difference in temperature between two areas can be measured by using the analyzer’s two temperature channels and the Temperature screen. By using the T-Air channel as a reference, the temperature applied to the T-Stack channel will be displayed on the Temperature Measurement screen as differential temperature between the two channels. Additionally, the temperature measurement can be labeled. Label types include differential temperature across heat exchange or differential temperature. Perform a differential temperature measurement as follows.

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight TEMPERATURE, and then press ENT to display the TEMPERATURE MEASUREMENT screen.

3. Install thermocouples in both temperature channel connectors.

4. Before taking a measurement, the temperature channels may need to be zeroed, if not already displaying zero with both thermocouples exposed to the same condition. Press ZERO (F2) if needed.

5. To label the data use the ◄► buttons to scroll through the available temperature label types. The current label will be used, saved, and printed with the record.

6. Press ENT to save the selection and re-display the TEMPERATURE MENU or ESC to exit back to the Main Menu.

Figure 5-9. Performing a Temperature Measurement

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5.8. Performing a Draft / Pressure Measurement

The difference in pressure (∆P) between two areas can be measured by using the analyzer’s two pressure ports and the PRESSURE screen. By using the –∆P port as the reference, the pressure applied to the +∆P port will be displayed on the PRESSURE screen as the differential pressure between the two ports. Perform a draft / pressure measurement as follows.

1. Turn ON the analyzer and allow it to complete its warm-up cycle (see page 9, 16, and 20).

NOTE: Refer to Pressure Units Selection on page 26 for information on selecting the pressure units of measure.

2. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

3. Use the ▲▼ buttons to highlight PRESSURE, and then press ENT to display the PRESSURE screen.

4. Before taking a measurement, the pressure sensor may need to be rezeroed if it is not already displaying zero with both pressure ports open to the atmosphere. If necessary, zero the pressure sensor as follows.

Press the

•

Disconnect any hoses connected to the +∆P and –∆P

•

ZERO (F2)

ports, and then press

Reconnect any hoses. When measuring draft, simply

•

leave the -∆P port open to the atmosphere and connect the probe’s draft hose to the +∆P port (see Figure 5-12).

button.

to zero the pressure sensor.

ENT

Figure 5-10. Performing a Draft/Pressure Measurement

5. Do one of the following to measure draft or differential pressure:

To measure draft, simply insert the probe into the stack

•

and observe the draft reading on the PRESSURE screen.

To measure differential pressure, connect two sampling

•

hoses to the +∆P and –∆P ports, and place the open end

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saved until space is made available by clearing the data

Figure 5-11. Pressure Zero Screen

differential pressure between the two areas is now displayed on the PRESSURE screen. If the pressure at the +∆P port is higher than the –∆P port, then the pressure reading will be positive. If it is lower, then the reading will be negative.

Figure 5-12. Draft/Pressure Measurement

Hose Connections

5.9. Saving Test Data

Up to 500 individual sets (“snap shots”) of combustion test, pressure, or temperature data can be saved in memory, which can later be recalled for viewing from the Memory Directory (see Recalling Combustion Test Data section on page 54).

1. First display the screen that contains the data to be saved. In the example below, all data associated with the Combustion Test RUN screen will be saved.

2. Press the SAVE (F3) button to save the test data in the next available memory location.

NOTE: When memory is full, the next reading will not be

(see Clearing Memory section on page 56).

Figure 5-13. Saving Test Data

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position with the gas flow arrow pointing up as shown in the

PCA3 Manual

5.10. Ending a Combustion Test

WARNING: Burn Hazard. Do not touch the probe after removing it

from the stack. Allow the probe to cool before handling (about 5 minutes).

1. Remove probe from stack.

2. Allow the pump to run until all combustion gases have been flushed from the analyzer with fresh air as indicated by the O to 20.9%.

5.11. Emptying the Water Trap

The Water Trap / Filter Assembly removes stack gas condensate, and also prevents soot from contaminating the internal components of the analyzer.

IMPORTANT: Use the Water Trap / Filter Assembly in a vertical

illustration below.

1. Empty the water trap chamber after each combustion test, or stop the test and empty the chamber if the liquid condensate level approaches the tip of the riser tube.

2. To empty the trap, first pull apart the two halves of the Water Trap using a slight twisting motion; empty the water trap chamber; and then reassemble the trap.

3. After each combustion test, also check the Water Trap’s filter element. If it looks dirty, replace the filter (see Replacing the Filter Element on page

83).

reading returning

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Figure 5-14. Emptying the Water Trap

5.12. Data Logging

5.12.1. Overview

When the logging function is activated, up to 500 combustion test records will be automatically stored in memory at a preset interval over a predetermined duration.

The maximum duration that data can be collected is determined by the interval. For example, if the interval is set to 10 seconds, then the maximum selectable length of time in which data can be collected to fill 500 memory locations would

hour (500 x 10 seconds = 5000 seconds or 83 minutes). If the operator

be 1 chooses a duration that is longer than possible for the interval chosen, then the analyzer automatically selects the highest duration possible for the selected interval.

The stored logged data can either be viewed on the display using the analyzer’s memory function (see Memory Functions on page 54), or downloaded to a personal computer using the supplied Fyrite Downloaded data is stored on the computer’s hard drive as a comma separated value ASCII text file with a CSV extension, which can be opened by most spreadsheet programs for analysis.

User Software and USB cable.

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additional memory is needed, clear the logging memory

At no time will new logging data over write old

PCA3 Manual

Logging Intervals and Durations

Logging Intervals Logging Durations

1 second 5 minutes

5 second 10 minutes

10 second 15 minutes

15 second 30 minutes

30 second 1 hour

1 minute 2 hours

2 minutes 5 hours

5 minutes 10 hours

10 minutes 24 hours

5.12.2. Turning On Data Logging

IMPORTANT: Before turning ON data logging and starting the data

logging process, the analyzer should already be set up to perform a combustion test (see Performing a Combustion Test section on page 43).

Turn ON data logging as follows.

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight SETUP, and then press ENT to display the SETUP MENU.

3. Use the ▲▼ buttons to highlight LOGGING, and then press ENT to display the LOGGING screen.

48 hours

NOTE: The amount of memory available for storing new data is displayed in the LOGGING screen (maximum of 500 locations). If previous logging sessions are stored, and

(see Clearing Memory section on page 56).

NOTE:

data. Logging will stop when available memory is filled.

4. Use the ▲▼ buttons to highlight YES (turn logging ON).

5. Press ENT to make the selection and display the LOGGING INTERVAL screen.

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If the selected duration requires more memory than is currently available, the analyzer will automatically select the longest duration possible for the selected

Figure 5-15. Turning On Data Logging

5.12.3. Setting the Logging Interval and Duration

The logging interval is the length of time between measurements, while the logging duration is the time allocated to the logging process. Set the logging interval and duration as follows.

NOTE: If the duration is set for more than 10 hours, we recommend using the optional AC power adapter to power the analyzer.

1. As soon as logging is turned ON (see Logging Selection on page 31), the LOGGING INTERVAL screen appears.

2. Use the ▲▼ buttons to highlight the desired interval, and then press ENT to make the selection and display the LOGGING DURATION screen. In this example, 1 minute has been selected.

3. Use the ▲▼ buttons to highlight the desired duration, and then press ENT to make the selection and display the LOGGING SUMMARY screen. In this example, 2 hours has been selected.

NOTE:

interval.

Figure 5-16. Setting the Logging Interval

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At the top of the screen, the memory location where the

PCA3 Manual

5.12.4. Starting the Data Logging Process

After turning ON data logging and setting the interval and duration, the analyzer will pause at the LOGGING SUMMARY screen, where the currently selected interval and duration time periods are displayed.

Press Combustion Test LOG screen will appear, indicating that the analyzer is now performing a combustion test and the data is being stored in memory.

to start the combustion test and logging process. At this time the

ENT

NOTE: current log entry is being saved is displayed.

NOTE: If there were previously stored log entries, each new logging session will start to store data in the next available memory location.

NOTE: At no time will new data overwrite old data. Logging will stop when available memory is filled.

Figure 5-17. Starting the Data Logging Process

5.12.5. Ending the Data Logging Process

Data logging will stop and the pump will turn OFF after the prescribed duration, or after all 500 memory locations are filled.

To exit the Combustion Test LOG screen, press the

RUN/HOLD

button twice to

display the Combustion Test HOLD screen.

NOTE: To end the logging process at any time, press the ESC button.

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rough the screens by pressing the

NOTE: If the logging process was stopped by pressing ESC, it cannot be resumed without first turning logging back ON.

5.13. Memory Functions

5.13.1. Overview

There are two memory banks, each containing 500 memory locations. The first bank is used to store combustion test data as described in Saving Test Data (page 48), while the second bank is used to store logged combustion test data as described in Data Logging (page 50). Each bank is independent of each other, and cannot share data or be combined.

Individual memory locations in each memory bank can be recalled for viewing on the display or printed, or the entire contents of each memory bank can be individually downloaded to a computer and viewed in a spreadsheet program for analysis. These functions are explained in the sections that follow.

NOTE: When displaying the contents of either memory bank, the operator can quickly page th PAGE– (F1) and PAGE+ (F3) buttons. Or move to the first or last memory location by pressing the ◄► buttons, respectively.

5.13.2. Recalling Combustion Test Data

Recall individual combustion test data records as follows.

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight MEMORY, and then press ENT to display the MEMORY MENU.

3. Use the ▲▼ buttons to highlight MEMORY DIRECTORY, and then press ENT to display the MEMORY DIRECTORY screen.

4. Use the ▲▼ buttons to highlight the desired memory location to be recalled. Each memory location is identified by the date and time at which data was saved. The word EMPTY signifies that the memory location does not contain data.

5. Press ENT to display the data contained in the selected memory location.

NOTE: The top line of the recalled combustion test data screen shows the memory location being viewed. In this example, “MEM: 1” is being displayed.

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The recalled combustion test data can be printed by

The top line of the log test data screen shows the log

PCA3 Manual

NOTE:

pressing the PRINT (F1) button. Refer to Printing Test Data on page 59.

Figure 5-18. Recalling Combustion Test Data

5.13.3. Recalling Logged Test Data

Recall individual logged combustion test data records as follows.

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight MEMORY, and then press ENT to display the MEMORY MENU.

3. Use the ▲▼ buttons to highlight LOGGING DIRECTORY, and then press ENT to display the LOGGING DIRECTORY screen.

4. Use the ▲▼ buttons to highlight the desired data logging location to be recalled. Each logging location is identified by the date and time at which the data was saved. The word EMPTY signifies that the logging location does not contain data.

5. Press ENT to display the logging data contained in the selected memory location.

NOTE: location being viewed. In this example, “Log: 1” is being displayed.

NOTE: The recalled logged test data can be printed by pressing the PRINT (F1) button. Refer to Printing Test Data on page 59.

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Figure 5-19. Recalling Logged Test Data

5.13.4. Clearing Memory

When all memory locations used to store individual combustion test records have been filled, the next combustion test record saved will not overwrite the oldest. When all logging memory locations in the logging directory are full, they must be manually cleared in order to store new data. At no time will the logging process overwrite older data. Logging will stop when available memory is filled. Each memory bank can be individually cleared, or all memory locations in both banks can be cleared simultaneously. Do the following to clear memory:

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight MEMORY, and then press ENT to display the MEMORY MENU.

Figure 5-20. Clearing Memory

3. Use the ▲▼ buttons to highlight one of the following:

CLEAR MEMORY DATA clears only the individual saved

•

combustion test records.

CLEAR LOGGING DATA clears only the combustion test records

•

that were saved during the logging process.

CLEAR ALL MEMORY clears all memory locations in both memory

•

banks.

4. Press ENT to display the CLEAR MEMORY, LOGGING, or ALL DATA conformation screen. Highlight YES to confirm that memory is to be cleared, and then press ENT to actually clear memory as evidenced by the display of the “WAIT Erasing memory” screen.

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5.14. Downloading Stored Data to a Computer

The combustion test data that was stored in either the analyzer’s Memory Directory or Logging Directory (see Memory Functions on page 54), can be downloaded to a computer using the Fyrite are supplied with the analyzer.

The downloaded data is stored on the computer’s hard drive – or removable media of the operator’s choosing – as a comma-separated-value ASCII text file with a CSV extension. This type of file can be opened by most spreadsheet programs for analysis.

For information on the installation of the Fyrite® User Software, refer to the installation document (provided in .PDF format) on the software disk. The Fyrite User Software installation manual may also be downloaded from the PCA page of the Bacharach website (www.MyBacharach.com). Refer to manual 0024-9465. Minimum computer requirements for installation and use of the

User Software are shown below.

Fyrite

Minimum Computer Requirements for Fyrite

Category Minimum Requirement

Operating System

Drive

Access Port

Hard Drive Space

Windows XP or higher

CD ROM drive

USB port (USB 1.1, 2.0, or 3.0)

Software: 205 MB for the Fyrite Data: Additional 350 KB for each downloaded file

5.15. Importing Saved Data into a Spreadsheet

Data that was recovered and saved as an ASCII text file with a “CSV” extension, as described above, can easily be opened for viewing in most spreadsheet programs by simply double-clicking the filename. For example: double-clicking the filename Customer XYZ.csv should automatically open the spreadsheet program and display the contents of the file.

If the spreadsheet program does not recognize the “CSV” file extension, then refer to the spreadsheet’s documentation for information on how to manually import comma-delimited text files.

The table below contains listings and descriptions of the 32 data fields that are downloaded with each data record. Note that for sensors that are not installed, all related data fields for those sensors will be marked as “***”. For example, if the analyzer does not contain an SO

sensor, then “***” will appear in data fields 23

and 24.

User Software and USB cable that

User Software

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Downloaded Data Fields

Field Column Name

1 Date

2 Time

Date of Test in mm/dd/yy

Time of Test in 12 hour format (AM/PM)

Data Name or Value

3-5 Test ID Information Input by User

6 Fuel Fuel Name

7 %O2 Oxygen Level

8 CO Carbon Monoxide Level (see field 30)

9 ppm CO(O2) Carbon Monoxide Level referenced to a % of O2 (see field 25)

10 % Efficiency Combustion Efficiency

11 % CO2 Carbon Dioxide Level

12 %EA Excess Air

13 TStk Stack Temperature

14 TAir Primary/Ambient Air Temperature

15 Delta-T Differential Temperature Value

16 TempUnit Temperature Units

17 NO Nitric Oxide Level (see field 30)

18 ppm NO(O2) Nitric Oxide Level referenced to a % of O2 (see field 26)

19 NO2 Nitrogen Dioxide Level (see field 30)

20 ppm NO2(O2) Nitrogen Dioxide Level referenced to a % of O2 (see field 26)

21 NOx Nitrogen Oxides (NO+NO2) (see field 30)

22 ppm NOx(O2) Nitrogen Oxides Level as referenced to a % of O2

(see field 26)

23 SO2 Sulfur Dioxide (see field 30)

24 ppm SO2(O2) Sulfur Dioxide Level referenced to a % of O2 (see field 27)

25 CO_O2Ref %O2 Reference for CO

26 NOx_O2Ref %O2 Reference for NOx

27 SO2_O2Ref %O2 Reference for SO

(1)

28 Pressure Pressure (Draft) Value

29 Pressure Units Pressure Units of Measure

30 Pollution Units Pollution Units of Measure

(2)

(3)

31 PS Voltage Power Supply Voltage

32 NO Temp Nitric Oxide Sensor Temperature

(1) %O2 reference as selected (refer to O2 Reference Setup on page 29) (2) Pressure units as selected (refer to Pressure Units Selection on page 26) (3) Pollution units as selected (refer to Pollution Units Selection on page 27)

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not calibrated or installed, and in the data fields of that sensor’s

PCA3 Manual

5.16. Printing Test Data

Combustion or pressure data that is currently being displayed can be sent to a printer using IrDA protocol as described below.

Data that is stored in memory can also be printed by first displaying the stored test data as described in the Recalling Combustion Test Data section (page 54) and the Recalling Logged Test Data section (page 55).

In addition to printing combustion and pressure data, the contents of any screen that shows the label “PRINT” above the the information shown in the DIAGNOSTIC screen can be printed.

1. Turn ON printer. Refer to the printer’s instruction manual for detailed operating information. If not already done, set up the printer  for:

8 bit

•

No parity

•

9600

•

IrDA is set to IrDA-SIR

•

DTR handshaking.

•

baud

2. Align the printer with the top of the analyzer as shown in Figure 5-21.

3. Press the PRINT (F1) button to begin printing.

The printout shown in Figure 5-21 shows typical combustion test results of an analyzer containing O

, CO

, NO, and NO2 sensors. Note that since the SO2

LOW

sensor is not installed, three stars (* * *) appear in their data fields.

button can be printed. For example,

NOTE: Three Stars (***) appear in the data field of sensors that are

related calculated values.

NOTE: Three hyphens or dashes (---) indicate that the calculated

data cannot be displayed because the measured data necessary to make the calculation is out of range (i.e., oxygen level above 16%).

NOTE: Three Xs (i.e., X X X) indicate the sensor is over range.

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Figure 5-21. Printer Alignment and Sample Printout

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5.17. Turning Off the Analyzer and Purging

Turn OFF the analyzer by pressing the two beeps are heard. The unit will count down 5 giving the operator an opportunity to keep the analyzer turned ON by pressing

the

RUN/HOLD

If the PCA

button.

3 was not purged with fresh air (as described in Ending a Combustion Test on page 49), then the analyzer may remain ON with its pump running and display the message “PURGING SENSORS” as the result of combustion gases still being present inside the analyzer. At this time the operator should ensure that the probe is removed from the stack, allowing the analyzer to purge itself with fresh air. The 5-second shutdown sequence will not begin until the gas levels inside the analyzer drop below predetermined levels.

NOTE: Although not recommended, the purging process can be

bypassed by pressing the I/O button a second time.

button for at least 2 seconds, or until

I/O

seconds before shutting down,

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AC power

CHAPTER 6. CALIBRATION

IMPORTANT: Before performing any calibration procedure ensure

that new batteries are installed or use the optional

adapter. Also ensure that the analyzer is at room temperature and

will be sampling fresh air when turned ON.

6.1. B-Smart Sensors

The PCA®3 uses Bacharach’s B-Smart® Sensor technology for CO NO, NO calibration code that can be entered in the instrument’s calibration screen via the keypad, or with the Fyrite

Benefits of the B-Smart

, and SO2. The B-Smart® Sensor is marked with a 10- or 14-digit

User Software.

Sensors include the following:

New sensors can be installed without applying gas for calibration.

•

Sensors can be pre-calibrated and installed when needed

•

Sensors can be moved from one analyzer to another.

•

The analyzer’s diagnostics screen shows what sensors are installed,

•

and their current end-of-life condition (Good, Low, Bad).

B-Smart

sensors should be calibrated by an authorized Bacharach Service Center (see Service Centers on page 95) every 6 months to 1 year to assure that the analyzer continues to meet its published accuracy specifications. B-Smart sensors, however, can be calibrated in the field if your facility has the necessary equipment and qualified personnel to perform the procedures described in the following sections.

6.2. Starting a Calibration

Start any calibration procedure by doing the following.

1. Place the probe in an area of fresh air, turn ON the analyzer, allowing it to cycle through its 60 second warm-up period. During warm-up, the analyzer’s operation is checked and the sensors are set to the following ambient conditions:

Oxygen sensor spanned to 20.9%

•

All gas sensors are zeroed

•

The pressure sensor is zeroed

•

2. Any errors detected during warm-up will be listed on the display immediately following warm-up. Correct any errors before proceeding. Refer to page 89 (Error Messages) for a listing of error messages and their meaning.

3. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

4. Use the ▲▼ buttons to highlight CALIBRATION, and then press ENT to

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display the CALIBRATION PASSWORD screen.

LOW

, CO

HIGH

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returns to the CALIBRATION MENU. If an incorrect code was

PCA3 Manual

5. Before calibration can begin a 4-character alphanumeric password must be entered. Use the ▲▼ and ◄► buttons to enter the password. (The default password is 1111.)

6. Press the ENT key to accept the password. If the correct password was entered the CALIBRATION LIST Menu will be displayed.

7. Use the ▲▼ buttons to highlight the sensor to be calibrated, and then perform the calibration procedure for that sensor as described in the following sections.

Figure 6-1. Starting a Calibration

6.3. B-Smart® Sensor Replacement and Calibration

To replace a B-Smart® sensor and calibrate, do the following.

1. Enter the CALIBRATION MENU.

2. Use the ▲▼ buttons to select B-SMART B-Smart

3. Use the ▲▼ buttons to enter the 10- or 14-digit alphanumeric code supplied with the B-Smart

code screen.

sensor. Use the ◄► buttons to move the

cursor across the screen. Press ENTER.

. Press ENTER to display the

NOTE: There are two B-Smart® sensor code lengths: 10 digits for CO

, NO, NO2, and SO2, and 14 digits for CO

HIGH

LOW

NOTE: If the correct code was entered, the analyzer accepts it and

entered, the screen will display “Invalid Code”. Check to make sure the correct code has been entered. If the problem persist, contact your nearest Bacharach Service Center.

NOTE: To save time, B-Smart® codes can be entered using the Fyrite User Software.

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is selected, but note that any unit of measure can be used for

detected by the pressure sensor, while “Applied” is a

Bacharach also offers a convenient exchange program that allows the customer to regularly send in old sensors and, as scheduled, receive calibrated replacements. Contact Bacharach customer service for more details about the exchange program.

6.4. Pressure Sensor Calibration

This procedure calibrates the pressure sensor to a known pressure value.

6.4.1. Material Required

Bellows

•

Manometer:

•

6.4.2. Procedure

1. Assemble the pressure sensor calibration equipment as shown in Figure 6-3, but DO NOT connect the analyzer to the calibration equipment at this time.

2. If not already done, turn ON the analyzer and display the CALIBRATION LIST screen (refer to Calibration on page 62).

3. Use the ▲▼ buttons to highlight Pressure, and then press ENT to display the CALIBRATE PRESSURE screen.

Range: ±8 in. of water column (±20 mb) Accuracy: ±0.01 in. of water column (±0.025 mb)

NOTE: The unit of measure for pressure is selected in the Pressure Units Selection section on page 26

. In the following procedure, inwc

calibration purposes.

NOTE: “Measured” is the pressure value currently being

known value of pressure that will be applied for calibration purposes.

4. With both the –∆P and +∆P ports open to the atmosphere, observe that the current Measured pressure reading should be 0 ±0.01 inwc. If necessary, zero the pressure sensor (refer to Performing a Draft / Pressure Measurement on page 47) and repeat Steps 2 thru 4.

5. Connect the hose from the manometer to the + ∆P port and apply a negative pressure to this port by adjusting the bellows for a manometer reading of –4.00.

6. Use the ▲▼ and ◄► buttons to enter an applied value that exactly equals the manometer reading.

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cause the message “Applied Value High” (or Low) to

PCA3 Manual

NOTE: The calibration range is from –6 to –2 inwc (–15 to

-5 mb). An attempt to calibrate outside this range will

appear at the bottom of the screen.

Figure 6-2. Pressure Sensor Calibration

7. Wait until the measured reading stabilizes, and then press ENT to calibrate the pressure sensor’s Measured value to that of the applied value; after which the message “Good Calibration” should briefly appear followed by the CALIBRATION LIST screen being re-displayed.

8. Remove calibration equipment.

Figure 6-3. Pressure Sensor Calibration Equipment

6.5. T-Stack Calibration

This procedure first zeros and then spans the stack temperature channel to known temperature values.

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analyzer’s GAS port or water will be drawn into the

“Measured” is the current temperature reading,

The use of an electronic thermocouple simulator is the preferred method of producing the desired calibration temperatures. Alternatively, containers of ice water and boiling water can be used.

6.5.1. Material Required

Thermocouple Simulator (K-type):

•

(Alternatively) Ice Water, Boiling Water, Thermometer

•

6.5.2. TS-Zero Procedure

1. Set thermocouple simulator to room temperature and plug its output into the T-STACK connector located at the bottom of the analyzer.

Alternatively:

STACK connector located at the bottom of the analyzer.

2. If not already done, turn ON the analyzer and display the CALIBRATION LIST screen (refer to Calibration on page 62).

3. Use the ▲▼ buttons to highlight T-Stack, and then press ENT to display the CALIBRATE TS-ZERO screen.

Range: 0 to 600 °F Accuracy: ±0.5 °F

Plug the probe’s thermocouple into the T-

CAUTION: DO NOT attach the probe’s gas hose to the

analyzer!

NOTE:

while “Applied” is a known temperature that will be applied for calibration purposes.

4. Set thermocouple simulator to 32 °F (0 °C), and then use the ▲▼ and

◄► buttons to enter an applied value that exactly equals the setting of

the simulator.

Alternatively:

Submerge probe tip into an ice-water bath

with a thermometer, wait several minutes, and then use the

▲▼ and ◄► buttons to enter an applied value that exactly

equals the thermometer reading.

NOTE: The calibration range is from 32 to 41 °F (0 to 5 °C). Calibrating outside this range will cause the message “Applied Value High” (or Low) to appear at the bottom of the screen.

5. Wait until the measured reading stabilizes, and then press ENT to calibrate the TS-Zero Measured value to that of the applied value; after

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°C). An attempt to calibrate outside this range will

plied Value High” (or Low) to

6.5.3. TS-Span Procedure

which the message “Good Calibration” should briefly appear followed by the CALIBRATE TS-SPAN screen.

Figure 6-4. T-Stack Zero and Span

1. Set thermocouple simulator to 572 °F (300  °C), and then use the ▲▼ and ◄► buttons to enter an applied value that exactly equals the setting of the simulator.

Submerge probe tip into a container of boiling

Alternatively:

water with a thermometer, wait several minutes, and then use the ▲▼ and ◄► buttons to enter an applied value that exactly equals the thermometer reading.

NOTE: The calibration range is from 175 to 625 °F (80 to 330 cause the message “Ap appear at the bottom of the screen.

PCA3 Manual

2. Wait until the measured reading stabilizes, and then press ENT to calibrate the TS-Span Measured value to that of the applied value; after which the message “Good Calibration” should briefly appear followed by the CALIBRATION LIST screen being re-displayed.

6.6. T-Air Calibration

This procedure first zeros and then spans the ambient temperature channel to known temperature values.

The use of an electronic thermocouple simulator is the preferred method of producing the desired calibration temperatures. Alternatively, containers of ice water and boiling water can be used.

6.6.1. Material Required

Thermocouple Simulator (K-type)

•

Range: 0 to 600 °F Accuracy: ±0.5 °F

(Alternatively) Ice Water, Boiling Water, Thermometer

•

6.6.2. TA-Zero Procedure

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emperature reading,

the message “Applied Value High” (or Low) to appear at

1. Set thermocouple simulator to room temperature and plug its output into the T-AIR connector located at the bottom of the analyzer.

Alternatively:

located at the bottom of the analyzer. DO NOT attach the probe’s gas hose to the analyzer’s GAS port; otherwise water will be drawn into the analyzer!

2. If not already done, turn ON the analyzer and display the CALIBRATION LIST screen (refer to Calibration on page 62).

3. Use the ▲▼ buttons to highlight T-Air, and then press ENT to display the CALIBRATE TA-ZERO screen.

4. Set thermocouple simulator to 32 °F (0 °C), and then use the ▲▼ and

◄► buttons to enter an applied value that exactly equals the setting of

the simulator.

Alternatively:

thermometer, wait several minutes, and then use the ▲▼ and ◄► buttons to enter an applied value that exactly equals the thermometer reading.

Plug the probe’s thermocouple into the T-AIR connector

NOTE: “Measured” is the current t while “Applied” is a known temperature that will be applied for calibration purposes.

Submerge probe tip into an ice-water bath with a

NOTE: The calibration range is from 32 to 41 °F (0 to 5 °C). An attempt to calibrate outside this range will cause

the bottom of the screen.

5. Wait until the measured reading stabilizes, and then press ENT to calibrate the TA-Zero Measured value to that of the applied value; after which the message “Good Calibration” should briefly appear followed by the CALIBRATE TA-SPAN screen.

Figure 6-5. T-Air Zero Procedure

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°C). An attempt to calibrate outside this range will

sensor and,

PCA3 Manual

6.6.3. TA-Span Procedure

1. Set thermocouple simulator to 212 °F (100  °C), and then use the ▲▼ and ◄► buttons to enter an applied value that exactly equals the setting of the simulator.

Submerge probe tip into a container of boiling water

Alternatively:

with a thermometer, wait several minutes, and then use the ▲▼ and ◄► buttons to enter an applied value that exactly equals the

thermometer reading.

2. Wait until the measured reading stabilizes, and then press ENT to calibrate the TA-Span Measured value to that of the applied value; after which the message “Good Calibration” should briefly appear followed by the CALIBRATION LIST screen being re-displayed.

NOTE: The calibration range is from 194 to 230 °F (90 to 110 cause the message “Bad Calibration Wrong CAL Entry” to appear in the following step.

Figure 6-6. T-Air Span Procedure

6.7. CO

Sensor Calibration

LOW

NOTE: The CO

sensor also measures H2 for the purpose of

LOW

compensating the CO reading for the presence of H sample. This procedure first spans the CO optionally, spans the H2 part of the sensor to known gas levels.

LOW

in the gas

The user has the option to perform a CO only calibration or a CO/H2 calibration using the PCA

3 soft keys.

6.7.1. Material Required

Calibration Kit (P/N 0024-7059)

•

Gas Cylinder (500 ppm CO in air, P/N 0024-0492)

•

Gas Cylinder (1,000 ppm CO and 1,000 ppm H

•

in Nitrogen,

P/N 0024-0794)

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“Measured” is the current CO reading, while

vel that will be applied for

attempt to calibrate outside this range will cause the

the message “Good Calibration WARNING Low Sensor”

6.7.2. Procedure

1. If not already done, turn ON the analyzer and display the CALIBRATION LIST screen (refer to Calibration on page 62).

2. Use the ▲▼ buttons to highlight CO-LO, and then press ENT to display the CALIBRATE CO screen.

NOTE:

“Applied” is a known CO le calibration purposes.

3. Attach a 500 ppm CO cylinder to the regulator of the calibration fixture shown in Figure 6-12 on page 76.

4. Use the ▲▼ and ◄► buttons to enter an applied value that exactly equals the concentration stamped on the CO cylinder.

NOTE: The calibration range is from 9 to 1,500 ppm. An

message “Applied Value High” (or Low) to appear at the bottom of the screen.

Figure 6-7. CO

Sensor Calibration

LOW

5. Adjust the regulator for a flow meter indication of approximately 2 SCFH. Wait until the measured reading stabilizes (approximately 3 minutes), and then press ENT to calibrate the CO Measured value to that of the applied value. The message “Good Calibration” should briefly appear followed by the TEST GAS CO/H

screen.

NOTE: If the sensor’s output is low, but still usable, then

will appear. The sensor will now be marked as being Low in the DIAGNOSTICS screen.

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ibration Sensor End of Life, Entry

the message “Good Calibration WARNING Low Sensor”

the message “Bad Calibration Sensor End of Life” will

PCA3 Manual

NOTE: If the sensor’s output is too low to be usable, then the message “Bad Cal Not Saved” will appear. The sensor will now be marked as being BAD in the DIAGNOSTICS screen.

6. Turn OFF regulator of calibration fixture and remove the CO cylinder.

7. Attach a combination 1,000 ppm CO and 1,000 ppm H regulator of the calibration fixture, and then use the ▲▼ and ◄► buttons to enter an applied value that exactly equals the CO concentration stamped on the cylinder.

8. Adjust the regulator for a flow meter indication of approximately 2 SCFH, and then press ENT to display the CALIBRATE H

NOTE: The calibration range is 400 to 1,500 ppm. Calibrating outside this range causes the message “Bad Calibration Wrong CAL Entry” to appear in the next step.

cylinder to the

screen.

Figure 6-8. CO

Sensor Calibration

LOW

9. Wait until the measured reading stabilizes (approximately 3  minutes), and then press ENT to calibrate the H

Measured value to that of the

applied value; after which the message “Good Calibration” should briefly appear followed by the CALIBRATION LIST screen being re-displayed.

NOTE: If the sensor’s output is low, but still usable, then

will appear. The sensor will now be marked as being Low in the DIAGNOSTICS screen.

NOTE: If the sensor’s output is too low to be usable, then

appear followed by the CALIBRATION LIST screen being re-displayed. The sensor will now be marked as being BAD in the DIAGNOSTICS screen.

10. Turn OFF the regulator and remove the gas cylinder.

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reading, while

level that will be applied for

attempt to calibrate outside this range will cause the

NOTE: A CO-only calibration can be done by pressing F3 in Step 5 (instead of

6.8. SO2 Sensor Calibration

This procedure spans the optional sulfur dioxide sensor to a known gas level.

6.8.1. Material Required

Calibration Kit ( P/N 0024-7059)

•

Gas Cylinder (100 ppm SO

•

6.8.2. Procedure

1. If not already done, turn ON the analyzer and display the CALIBRATION LIST screen (refer to Calibration on page 62).

2. Use the ▲▼ buttons to highlight SO the CALIBRATE SO

3. Attach a 100 ppm SO2 cylinder to the regulator of the calibration fixture shown in Figure 6-12 on page 76.

4. Use the ▲▼ and ◄► buttons to enter an applied value that exactly equals the concentration stamped on the SO

ENT).

in Nitrogen, P/N 0024-1158)

, and then press ENT to display

screen.

NOTE: “Measured” is the current SO2 “Applied” is a known SO2 calibration purposes.

cylinder.

NOTE: The calibration range is from 9 to 1,800 ppm. An

message “Bad Calibration Wrong CAL Entry” to appear in the following step.

Figure 6-9. SO2 Sensor Calibration

5. Adjust regulator for a flow meter indication of approximately 2 SCFH. Wait until the measured reading stabilizes (approximately 3  minutes),

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the message “Bad Calibration Sensor End of Life, Entry

by the CALIBRATION

displayed. The sensor will now be

“Measured” is the current NO reading, while

“Applied” is a known NO level that will be applied for

attempt to calibrate outside this range will cause the

6.9. NO Sensor Calibration

This procedure spans the optional nitric oxide sensor to a known gas level.

6.9.1. Material Required

6.9.2. Procedure

and then press ENT to calibrate the SO2 Measured value to that of the applied value. The message “Good Calibration” should briefly appear followed by the CALIBRATION LIST screen being re-displayed.

NOTE: If the sensor’s output is low, but still usable, then the message “Good Calibration WARNING Low Sensor” will appear. The sensor will now be marked as being Low in the DIAGNOSTICS screen.

NOTE: If the sensor’s output is too low to be usable, then

Not Saved” will appear followed LIST screen being remarked as being BAD in the DIAGNOSTICS screen.

6. Turn OFF regulator and remove the gas cylinder.

Calibration Kit (P/N 0024-7059)

•

Gas Cylinder ( 250 ppm NO in Nitrogen, P/N 0024-1156)

•

1. If not already done, turn ON the analyzer and display the CALIBRATION LIST screen (refer to Calibration on page 62).

2. Use the ▲▼ buttons to highlight NO, and then press ENT to display the CALIBRATE NO screen.

PCA3 Manual

NOTE:

calibration purposes.

3. Attach a 250 ppm NO cylinder to the regulator of the calibration fixture shown in Figure 6-12 on page 76.

4. Use the ▲▼ and

◄►

buttons to enter an applied value that exactly

equals the concentration stamped on the NO cylinder.

NOTE: The calibration range is from 9 to 900 ppm. An

message “Bad Calibration Wrong CAL Entry” to appear in the following step.

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ING Low Sensor”

the message “Bad Calibration Sensor End of Life, Entry

displayed. The sensor will now be

Figure 6-10. NO Sensor Calibration

5. Adjust regulator for a flow meter indication of approximately 2 SCFH. Wait until the measured reading stabilizes (approximately 3  minutes), and then press ENT to calibrate the NO Measured value to that of the applied value. The message “Good Calibration” should briefly appear followed by the CALIBRATION LIST screen being re-displayed.

NOTE: If the sensor’s output is low, but still usable, then the message “Good Calibration WARN will appear. The sensor will now be marked as being Low in the DIAGNOSTICS screen.

NOTE: If the sensor’s output is too low to be usable, then

Not Saved” will appear followed by the CALIBRATION LIST screen being remarked as being BAD in the DIAGNOSTICS screen.

6. Turn OFF regulator and remove the gas cylinder.

6.10. NO2 Sensor Calibration

This procedure spans the optional nitrogen dioxide sensor to a known gas level.

6.10.1. Material Required

Calibration Kit (P/N 0024-7059)

•

Gas Cylinder (100 ppm NO

•

6.10.2. Procedure

1. If not already done, turn ON the analyzer and display the CALIBRATION LIST screen (refer to Calibration on page 62).

2. Use the ▲▼ buttons to highlight NO the CALIBRATE NO2 screen.

in Nitrogen, P/N 0024-1157)

, and then press ENT to display

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level that will be applied for

attempt to calibrate outside this range will cause the

ion WARNING Low Sensor”

the message “Bad Calibration Sensor End of Life, Entry

ed by the CALIBRATION

displayed. The sensor will now be

PCA3 Manual

NOTE: “Measured” is the current NO2 reading, while “Applied” is a known NO calibration purposes.

3. Attach a 100 ppm NO2 cylinder to the regulator of the calibration fixture shown in Figure 6-12 on page 76.

4. Use the ▲▼ and ◄► buttons to enter an applied value that exactly equals the concentration stamped on the NO

NOTE: The calibration range is from 9 to 150 ppm. An

message “Bad Calibration Wrong CAL Entry” to appear in the following step.

Figure 6-11. NO2 Sensor Calibration

5. Adjust regulator for a flow meter indication of approximately 2 SCFH. Wait until the measured reading stabilizes (approximately 3  minutes), and then press ENT to calibrate the NO applied value. The message “Good Calibration” should briefly appear followed by the CALIBRATION LIST screen being re-displayed.

cylinder.

measured value to that of the

NOTE: If the sensor’s output is low, but still usable, then the message “Good Calibrat will appear. The sensor will now be marked as being Low in the DIAGNOSTICS screen.

NOTE: If the sensor’s output is too low to be usable, then

Not Saved” will appear follow LIST screen being remarked as being BAD in the DIAGNOSTICS screen.

6. Turn OFF regulator and remove the gas cylinder.

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“Measured” is the current CO reading, while

“Applied” is a known CO level that will be applied for

6.11. CO

This procedure spans the optional carbon monoxide high sensor (4,001 to 20,000 ppm) to a known gas level.

6.11.1. Material Required

Calibration Kit (P/N 0024-7059)

•

Gas Cylinder (4,000 ppm CO in Air, P/N 0024-1155)

•

6.11.2. Procedure

1. If not already done, turn ON the analyzer and display the

2. Use the ▲▼ buttons to highlight CO-HI, and then press ENT to display

Sensor Calibration

HIGH

Figure 6-12. Gas Sensor Calibration Equipment

CALIBRATION LIST screen (refer to Calibration on page 62).

the CALIBRATE CO-HI screen.

NOTE:

calibration purposes.

3. Attach a 4,000 ppm CO cylinder to the regulator of the calibration fixture shown in Figure 6-12 on page 76.

4. Use the ▲▼ and ◄► buttons to enter an applied value that exactly equals the concentration on the CO cylinder.

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An attempt to calibrate outside this range will cause the

If the sensor’s output is too low to be usable, then the message “Bad Calibration Sensor End of Life, Entry Not

PCA3 Manual

NOTE: The calibration range is from 250 to 11,000 ppm.

message “Bad Calibration Wrong CAL Entry” to appear in the following step.

Figure 6-13. CO

5. Adjust regulator for a flow meter indication of approximately 2 SCFH. Wait until the measured reading stabilizes (approximately 3  minutes), and then press ENT to calibrate the CO Measured value to that of the applied value. The message “Good Calibration” should briefly appear followed by the CALIBRATION LIST screen being re-displayed.

NOTE: If the sensor’s output is low, but still usable, then the message “Good Calibration WARNING Low Sensor” will appear. The sensor will now be marked as being Low in the DIAGNOSTICS screen.

Sensor Calibration

HIGH

Saved” will appear followed by the CALIBRATION LIST screen being re-displayed. The sensor will now be marked as being BAD in the DIAGNOSTICS screen.

6. Turn OFF regulator and remove the gas cylinder.

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the bottom hose connector plate and the pressure sensor on the

CHAPTER 7. MAINTENANCE

7.1. Overview

Customer maintenance of the PCA®3 is limited to the following:

Battery replacement (see page 20)

•

Sensor re-calibration (see page 62)

•

Water trap / filter assembly maintenance (see pages 49 and 83)

•

Sensor replacement (see page 84)

•

Cleaning the probe (see page 87).

•

All other maintenance should be performed by an authorized Bacharach Service Center. Refer to Service Centers on page 95.

7.2. PCA®3 Disassembly

The following procedure describes and illustrates how to disassemble the analyzer.

7.2.1. Tools Required

Medium Phillips Screwdriver

•

7.2.2. Procedure

1. Unplug all thermocouples from bottom of analyzer.

2. Remove battery cover and then remove batteries.

NOTE: In Step 3, if the sensors are not being replaced, leave the tubing connected to each sensor’s gas cap, being careful not to put unnecessary strain on the tubing during the disassembly process.

3. Pull off sensor retainer; and then unplug all sensors.

4. Lay analyzer face down on a padded work surface; and then using a medium Phillips screwdriver, remove the unit’s four rear-case screws.

5. Lift rear case from analyzer and set aside.

6. Unplug electrical connectors J8, J9, and J14 from printed circuit board.

CAUTION: In Step 7, note that there is tubing connected between

printed circuit board. Do not put unnecessary strain on this tubing during the disassembly process.

7. Carefully lift battery and pump chassis, along with the bottom hose connector plate, from analyzer.

8. Lift printed circuit board from analyzer.

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Sensor Position

Figure 7-1. Removing the Rear Case

Model Number and Corresponding Sensor Configuration

225 235 245 255 265 275 285

O2 O2 O2 O2 O2 O2 O2

LOW

Empty Empty Empty SO2 NO2 SO2 CO

Empty NO CO

Empty NO NO NO

HIGH

LOW

HIGH

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Figure 7-2. Inside View with Rear Case Removed

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Figure 7-3. Tubing Connections - Main

Figure 7-4. Tubing Connections - Sensors

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Figure 7-5. Wire Routing, Connectors, and Solder Connections

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7.3. Emptying the Water Trap Chamber

The water trap chamber should be emptied after every test, or when the water condensate approaches the tip of the riser tube.

1. Remove water trap chamber (also see page 49).

2. Pour out liquid condensate and then reassemble trap.

7.4. Replacing the Filter Element

Replace the filter element when it becomes visibly dirty or becomes saturated with water.

7.4.1. Material Required

Filter Element (P/N 0007-1644)

•

Small Flat Blade Screwdriver

•

7.4.2. Procedure

1. Remove water trap chamber (also see page 49).

2. Pry apart filter chamber using a small flat-blade screwdriver. Remove and discard old filter.

3. Install new filter and reassemble filter chamber, making sure that surfaces “A” and “B” contact each other.

4. Reassemble trap.

Figure 7-6. Disassembling the Water Trap/Filter Assembly

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7.5. Sensor Replacement

All sensors are replaced in a similar manner. Do the following to replace either

, CO

the O

page 90 for a list of sensors and part numbers.

1. Turn OFF the analyzer.

2. Remove the battery cover.

3. Remove the sensor retainer.

4. Remove the tubing from the gas cup of sensor being replaced.

5. Unplug the sensor along with its printed circuit board from the analyzer’s

6. Remove the sensor’s gas cup by twisting its bayonet fitting

7. Carefully remove the old sensor from the B-Smart® sensor PCB,

LOW

, CO

, NO, NO2, or SO2 sensor. Refer to Replacement Parts on

HIGH

NOTE: The typical life expectancy of the O2, SO2 and NO2 sensors is 2 years. Typical life expectancy of the CO, CO

and NO

HIGH

sensors is 3 years.

main board.

counterclockwise, and then pulling the cup straight up.

keeping in mind that there is an adhesive foam disk in between the PCB and sensor.

IMPORTANT: When replacing the O2 sensor, be sure that the “+” sensor pin plugs into the PCB socket that is also marked “O Also, when replacing an NO sensor, replace the bias battery.

+”.

8. Remove the replacement sensor from its plastic canister. Note that the CO

LOW

, CO

, SO2, and NO2 sensors have a shorting spring installed

HIGH

between two of their pins. Remove and discard this spring before installing the sensor.

9. Attach the gas cup to new sensor, making sure that when the sensor assembly is plugged into the analyzer’s main board, the tubing connections on top of gas cup are aligned as shown in Figure 7-7.

10. Plug the sensor into analyzer, and then reattach tubing to gas cup.

11. Install the sensor retainer and battery cover.

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CAUTION:

PCA3 Manual

Figure 7-7. Sensor Assembly

12. Allow the sensor that was just installed time to stabilize in the circuit before continuing with this procedure. Stabilization time for all sensors (except for the NO sensor) is about 1 hour. The NO sensor baseline technically requires several days to stabilize, but should be sufficiently stabilized for use in approximately 4 hours.

13. Turn ON the analyzer and confirm that no sensor errors occur during warm up.

NOTE: Discard old sensors in accordance with local and federal hazardous waste disposal laws.

14. Enter the B-Smart® calibration code or calibrate the new sensor(s) as explained earlier (see Calibration on page 62). An exception is the O2 sensor which does not require calibration.

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It is recommended that the bias battery be replaced

7.6. Nitric Oxide (NO) Sensor Battery Replacement

A single lithium battery, located on the NO Smart Sensor assembly, applies a bias voltage to the NO sensor to prevent the sensor from destabilizing when the analyzer is turned off. The NO bias battery is expected to last at least the life of the NO sensor.

NOTE: whenever the NO sensor is replaced.

7.6.1. Material Required

Bias battery (refer to Replacement Parts on page 90)

•

7.6.2. Procedure

1. Follow the instructions on page 78 (PCA

3 Disassembly) to remove the

sensor assembly from sensor position 4.

2. Remove the old battery from its holder on the nitric oxide printed circuit board.

3. Insert the new battery with the positive side toward the sensor (the battery contact is stamped with a + symbol).

4. Re-install the Smart Sensor assembly.

5. Before powering up and using the analyzer, allow the nitric oxide sensor to stabilize as described below. Note that recalibration of the nitric oxide sensor is not required after replacing its bias battery.

Depending on how long the nitric oxide sensor was without bias voltage, the time required for the sensor to completely stabilize varies from less than a minute to several days. Typical stabilization times are shown below. Generally, however, the sensor is sufficiently stable after 4  hours for measurement purposes.

Bias Battery Stabilization Specifications for NO Sensor

Bias Battery Removed for... Stabilization Time

Less than 15 minutes Less than 1 minute

Less than 1 hour Less than 5 minutes

Less than 2 days Less than 4 hours

Greater than 2 days Up to 2 days

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he water trap’s filter element should prevent soot from

analyzer, resulting in incorrect combustion test readings and

An analyzer that is used to test natural gas furnaces

normally requires less frequent cleaning than an analyzer used for

Carburetor cleaner attacks plastic

PCA3 Manual

7.7. Cleaning the Probe

The probe tube and gas sample hose will become dirty under normal use.

NOTE: T reaching the analyzer’s internal components. If the probe is not kept clean, it could become clogged and restrict the flow of gas into the

calculations.

NOTE:

testing coal or oil fired furnaces.

7.7.1. Equipment Required

Alcohol

•

Aerosol Can of Automotive Carburetor Cleaner

•

Clean Rag

•

Source of Compressed Air (optional)

7.7.2. Procedure

•

1. Remove gas sample hose from top of water trap.

CAUTION:

components! Take precautions not to spray cleaner onto the probe handle or analyzer.

2. Insert the plastic spray tube of the carburetor cleaner into the gas sample hose, and then liberally spray carburetor cleaner through the hose and out the probe tube.

3. After spraying, remove all the residual cleaner by repeatedly flushing the gas hose and probe tube with alcohol.

4. Wipe off the surfaces of the probe and tubing with a clean rag.

5. Allow the parts to dry completely. If available, blow compressed air through the probe to expedite the drying process.

6. Reconnect gas sample hose to top of water trap.

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analyzer, sample pump and purge pump in hours of

CHAPTER 8. TROUBLESHOOTING

8.1. Error Symbols

Error symbols are shown in the data fields of the Combustion Test screens and on the printout to indicate the following.

Error Symbol Description

Three hyphens or dashes indicates that the calculated data cannot be displayed because the measured data necessary to make the calculation is out of range. For calculations to occur, the oxygen level

- - -

* * *

X X X

8.2. Diagnostics and Status Screens

The DIAGNOSTICS menu provides information regarding the operation of the analyzer. Information includes the following.

Diagnostic Description

Time Meters

must be below 16% and the stack temperature must be below 2,000 °F (1,093 °C).

Three stars appear in the data field of sensors that are not installed, defective, or found to be in error during warm-up, and also in the data fields of that sensor’s related calculated values. For example, if the data field of either the NO or NO the NOx data field will also contain three stars.

Indicates sensor over range.

Displays the run time of the

sensor contains three stars, then

operation.

Figure 8-1. Time Meters

Main

Diagnostics

O2 Sensor Life

B-Smart Sensors

Fresh Air

Diagnostics

Lists the current status of the Stack and Air Thermocouple channels, Reference Temperature channel, Pressure channel, and Battery.

Displays the approximate remaining life of the Oxygen sensor.

Displays the current status of all B-Smart sensors installed.

Fresh air diagnostics will cycle the instrument through the 60 second warm-up to check on the status of all sensors. The probe must be in fresh air to perform a valid check.

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8.3. Accessing the Diagnostic Menu

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

PCA3 Manual

Figure 8-2. Accessing the Diagnostics Menu

2. Use the ▲▼ buttons to highlight DIAGNOSTICS and then press ENT to display the DIAGNOSTICS MENU.

3. Use the ▲▼ buttons to highlight the desired diagnostic topic, and then press ENT to display the information under that topic.

4. Press ESC key to exit back to the Diagnostic menu or the Menu (F2) key to exit back to the Main Menu.

8.4. Accessing the Status Menu

The Status screen provides a quick reference to key items when troubleshooting.

1. Display the MAIN MENU by pressing the MENU (F2) button. If necessary, press ESC until MENU appears above F2.

2. Use the ▲▼ buttons to highlight STATUS and then press ENT to display the DEVICE STATUS screen.

3. Press ESC key to exit back to the Main Menu.

8.5. Error Messages (After Warm-up)

If there were problems detected during warm-up, error messages that describe the nature of the problems are displayed immediately following the analyzer’s 60second warm-up period.

If problems were detected, the analyzer will not automatically switch to the Combustion Test HOLD screen after warm-up. The analyzer, however, can still be used to perform any test that does not depend on the sensor that is in error. Press the RUN button to manually display the Combustion Test HOLD screen, and then continue using the analyzer.

The following is a list of the error messages that may appear following warm-up and their suggested remedies.

Error Message Description

Low Battery

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O2 Sensor

Missing

BAD Sensors

No B-Smart

Sensors Installed

Low Sensors

T-STK

Disconnected

Warm-up Sensor

Error

8.6. Replacement Parts

Item Description Part No.

2 LCD Module 0024-1520

3 Rear Case 0024-1381

4 Top Case 0024-1524

5 Battery Cover 0024-1383

6 Window 0024-1526

7 LCD Frame 0024-1525

8 Keypad 0024-1387

9 Chassis 0024-1388

10 Lens, Infrared 0024-1391

11 Replacement Pump, Sample Gas 0024-1547

12 Replacement Pump, Purge 0024-1548

13 Sensor Retainer 0024-1418

14 Replacement Hose Connector Plate (complete 0024-1480

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Oxygen sensor not installed. Install oxygen sensor. Refer to Sensor Replacement on page 84.

The oxygen sensor’s output is too low and can not be calibrated in the instrument, signifying that the sensor is depleted and needs to be replaced. Refer to Sensor Replacement on page 84.

There are no B-Smart sensor(s) installed. Refer to Sensor Replacement on page 84.

, CO

LOW

but still usable. Sensor(s) may need to be replaced in the near

, NO, NO2, or SO2 sensor output(s) were low,

HIGH

future. Message will indicate which sensor(s) are in warning.

The probe’s thermocouple is not connected to the analyzer’s T-STACK connector. Plug the probe thermocouple plug into the T-STACK connector at the bottom of the instrument.

, CO

LOW

at warm-up because of high output. Run instrument on fresh air

, NO, NO2, or SO2 Gas sensor(s) were not zeroed

HIGH

then restart instrument to re-zero sensor(s). If message persists, sensor(s) may need to be replaced. Message will indicate which sensor(s) are in error.

Stack or Air temperature channel is measuring temperature

•

outside the range of -4 to 212 °F at startup. Make sure that the Stack and Air thermocouples are sampling ambient room air within the temperature range at startup. Message will indicate which channel(s) are in error.

Pressure sensor is measuring pressure outside the range of

•

+/- 3 inches of water column at startup. Ensure that the analyzer is sampling atmospheric pressure and restart.

The analyzer was turned on with the probe sampling flue

•

gas. Move the probe to fresh air and restart the analyzer.

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assembly, including O-rings)

HIGH

PCA3 Manual

Item Description Part No.

14A O-Ring, Pressure Fitting 0105-5103

14B O-Ring, Gas Fitting 0105-5102

15A Gas Cup, O2/SO2/NO2 0024-1421

15B Gas Cup, CO

15C Gas Cup, NO/CO

16A Sensor, O2 0024-0788

16B Sensor, B-Smart®, CO

16C Sensor, B-Smart®, CO

16D Sensor, B-Smart®, NO 0024-1545

16E Sensor, B-Smart®, NO2 0024-1544

16F B-Smart® Sensor, SO2 0024-1543

16G Sensor, NOT calibrated, CO

16H Sensor, NOT calibrated, CO

16J Sensor, NOT calibrated, NO 0024-0881

16K Sensor, NOT calibrated, NO2 0024-1027

16L Sensor, NOT calibrated, SO2 0024-0998

17 Screw, #4 x 1/2” LG 0002-2144

18 Battery Clip, Single 0004-1434

19 Battery Clip, Double 0024-1433

20 Cable Assembly 0024-1521

21 Tubing, Vinyl, 1/8 ID x 3/16 OD* 0003-6104

22 Tubing, Silicon, 1/16 ID x 1/8 OD* 0003-6372

23 Tubing, Silicon, 3/32 ID x 5/32 OD* 0103-6101

24 Tubing, Silicon, 1/8 ID x 3/16 OD* 0103-6102

25 Tubing, 1/8 ID x 1/4 OD* 0003-6105

26 Elbow 0003-6170

- - Bias Battery 0204-0020

- - O-Ring Kit (all O-rings included) 0024-1471

0024-1422

LOW

0024-1420

HIGH

0024-1541

LOW

0024-1542

0024-0789

LOW

0024-0997

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Main PCB Assembly (Replacement Part Not Available)

Figure 8-3. Replacement Parts

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Figure 8-3. Replacement Parts (Continued)

8.7. Accessories

Standard Accessories

Description Part No.

Carrying Case 0024-0865

Batteries, ‘AA’ Alkaline 0204-0004

12” Probe, Hose, and Water Trap/Filter Assembly 0024-3004

1 Water Trap/Filter (w/ O-Rings 0005-5122 and 0005-5117) 0019-3265

2 Filter Element (3 pack) 0007-1644

3 Probe Stop 0019-0580

4 Thumb Screw 0102-0875

5 Connector, Gas Sample 0024-0877

6 Connector, Draft 0024-0878

Fyrite® User Software 0024-1470

USB Cable 0104-4032

Instruction Manual 0024-9472

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Figure 8-4. Hose and Probe Assembly (Parts)

Optional Accessories

Description Part No.

AC Power Adapter: (Input: 100-240 VAC, 50/60 Hz; Output: 6 VDC @ 1 A)

Ambient Air Thermocouple (T-AIR), K-Type, 10 ft. 0104-1797

Ambient Air Thermocouple (T-AIR), K-Type, 1 inch. 0104-1798

Utility Wand (12 in. rigid probe w/ 5 ft. coiled cable) 0104-1799

Differential Pressure Hose Assembly, 6 ft. 0024-1103

Calibration Kit (includes hoses, adapter, flow meter; does not include gas cylinders)

Gas Cylinder, 500 ppm CO in air (103 Liter) 0024-0492

Gas Cylinder, 1000 ppm CO & 1000 ppm H2 in Nitrogen (103 Liter) 0024-0794

IrDA Printer 0024-1400

Printer Paper, 1 Roll 0006-8733

Printer Paper, 5 Pack 0024-1310

Probe, Hose, and Water Trap/Filter Assembly, 6 in. Probe 0024-3002

Probe, Hose, and Water Trap/Filter Assembly, 24 in. Probe 0024-3021

Probe, Hose, and Water Trap/Filter Assembly, 36 in. Probe 0024-3022

Thermocouple Replacement Kit, 6 in. 0024-8413

Thermocouple Replacement Kit, 12 in. 0024-8414

Thermocouple Replacement Kit, 24 in. 0024-8415

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Description Part No.

Thermocouple Replacement Kit, 36 in. 0024-8416

Sample Conditioning Probe, Compact (recommended when measuring NO

and SO2)

0024-7224

8.8. Analyzer Repair

It is recommended that field repair of the PCA®3 be limited to:

Checks of printed circuit board connectors

•

Replacing the probe assembly

•

Replacing the filter element in the water trap / filter assembly

•

Replacing sensors.

•

Information on how to perform these repairs is provided on page 78 (the Maintenance section). All other repairs should be performed by an authorized Bacharach Service Center (refer to the Service Centers section on page 95). Any repairs performed by an unauthorized service organization will void the analyzer’s warranty and release Bacharach, Inc. of any implied or written product liability.

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Gases, or Oxygen

2004/108/EC

EMC Directive

CHAPTER 9. DECLARATION OF CONFORMITY

ECLARATION OF CONFORMITY

The manufacturer of the products covered by this declaration:

Year conformity is declared: 2010

Product(s): Combustion Analyzer

Model(s): PCA3 (Domestic)

The undersigned hereby declares that the above referenced products are in conformity with the provisions of the following standard(s) and is in accordance with the following directive(s).

Standard(s):

EN 50270:2006

EN 55011

Directive(s):

Electromagnetic Compatibility

Radio Disturbance Characteristics

Bacharach, Inc.

621 Hunt Valley Circle

New Kensington, PA 15068

Electrical Apparatus for the Detection and Measurement of Combustible Gases, Toxic

Limits and Methods of Measurements for Industrial, Scientific and Medical (ISM) RadioFrequency Equipment

Signature:

Name: Doug Keeports Title: VP of Product Development Date: 18 October 2010

The technical documenta tion file required by this directive is m aintained at the corporate headquarte rs of Bacharach , Inc.

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Bacharach 0024-8442, 0024-8441, 0024-8443, 0024-8445, 0024-8452 User manual

Specifications and Main Features

Frequently Asked Questions

User Manual