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ManualsBrandsYokogawa ManualsAir equipmentIntegral Oxygen Analyzer ZR202

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Table Of Contents

Introduction
CONTENTS
1. Overview
- 1.1 < EXAxt ZR > System Configuration
- 1.2 < EXAxt ZR > System Components
  - 1.2.1 System Components
  - 1.2.2 Detectors and Accessories
2. Specifications
- 2.1 General Specifications
  - 2.1.1 Standard Specifications
- 2.2 General use Separate type Detector and Related Equipment
  - 2.2.1 ZR22G General use Separate type Detector
  - 2.2.2 ZO21R Probe Protector
- 2.3 Separate type Detector for High Temperature and Related Equipment
  - 2.3.1 ZR22G (0.15m) Separate type Detector for High Temperature
  - 2.3.2 ZO21P High Temperature Probe Adapter
- 2.4 ZR402G Separate type Converter
  - 2.4.1 Standard Specification
  - 2.4.2 Functions
- 2.5 ZA8F Flow Setting Unit and ZR40H Automatic Calibration Unit
  - 2.5.1 ZA8F Flow Setting Unit
  - 2.5.2 ZR40H Automatic Calibration Unit
- 2.6 ZO21S Standard Gas Unit
- 2.7 Other Equipments
3. Installation
- 3.1 Installation of General-purpose Detector
- 3.2 Installation of High Temperature Detector (ZR22G-015)
- 3.3 Installation of the ZR402G Converter
  - 3.3.1 Installation Location
  - 3.3.2 Mounting of the Converter
- 3.4 Installation of ZA8F Flow Setting Unit
  - 3.4.1 Installation Location
  - 3.4.2 Mounting of ZA8F Flow Setting Unit
- 3.5 Installation of ZR40H Automatic Calibration Unit
  - 3.5.1 Installation Location
  - 3.5.2 Mounting of ZR40H Automatic Calibration Unit
- 3.6 Installation of the Case Assembly(E7044KF)
  - 3.6.1 Installation Location
  - 3.6.2 Mounting
- 3.7 Insulation Resistance Test
4. Piping
- 4.1 Piping for System 1
- 4.2 Piping for System 2
- 4.3 Piping for System 3
  - 4.3.1 Blow Back Piping
- 4.4 Piping for the Detector with Pressure Compensation
5. Wiring
- 5.1 General
- 5.2 Wiring for Detector Output
- 5.3 Wiring for Power to Detector Heater
- 5.4 Wiring for Analog Output
  - 5.4.1 Cable Specifications
  - 5.4.2 Wiring Procedure
- 5.5 Power and Grounding Wiring
  - 5.5.1 Power Wiring
  - 5.5.2 Grounding Wiring
- 5.6 Contact Output Wiring
  - 5.6.1 Cable Specifications
  - 5.6.2 Wiring Procedure
- 5.7 Wiring for ZR40H Automatic Calibration Unit
  - 5.7.1 Cable Specifications
  - 5.7.2 Wiring Procedure
- 5.8 Contact Input Wiring
  - 5.8.1 Cable Specifications
  - 5.8.2 Wiring Procedure
6. Components
- 6.1 ZR22G Detector
  - 6.1.1 General-purpose Detector (except for ZR22G-015)
  - 6.1.2 High Temperature Detector (ZR22G-015)
- 6.2 ZR402G Converter
- 6.3 ZA8F Flow Setting Unit, ZR40H Automatic Calibration Unit
7. Startup
- 7.1 Checking Piping and Wiring Connections
- 7.2 Checking Valve Setup
- 7.3 Supplying Power to the Converter
- 7.4 Touchpanel Switch Operations
- 7.5 Confirmation of Converter Type Setting
- 7.6 Confirmation of Detector Type Setting
- 7.7 Selection of Sample Gas
- 7.8 Output Range Setting
  - 7.8.1 Minimum Current (4 mA) and Maximum Current (20 mA) Settings
- 7.9 Setting Display Item
- 7.10 Checking Current Loop
- 7.11 Checking Contact I/O
- 7.12 Calibration
  - 7.12.1 Calibration Setup
  - 7.12.2 Manual Calibration
8. Detailed Data Setting
- 8.1 Current Output Setting
- 8.2 Output Hold Setting
- 8.3 Oxygen Concentration Alarms Setting
- 8.4 Output Contact Setup
- 8.5 Input Contact Settings
- 8.6 Other Settings
9. Calibration
- 9.1 Calibration Briefs
- 9.2 Calibration Procedures
10. Other Functions
- 10.1 Display
- 10.2 Blow Back
  - 10.2.1 Blow back Setup
- 10.3 Parameter Initialization
- 10.4 Reset
- 10.5 Handling of the ZO21S Standard Gas Unit
- 10.6 Methods of Operating Valves in the ZA8F Flow Setting Unit
11. Inspection and Maintenance
- 11.1 Inspection and Maintenance of the Detector
- 11.2 Inspection and Maintenance of the Converter
- 11.3 Replacing Flowmeter in ZR40H Automatic Calibration Unit
12. Troubleshooting
- 12.1 Displays and Remedies When Errors Occur
  - 12.1.1 Error Types
  - 12.1.2 Remedies When an Error Occurs
- 12.2 Displays and Remedies When Alarms are Generated
  - 12.2.1 Alarm Types
  - 12.2.2 Remedies When Alarms are Generated
- 12.3 Countermeasures When Measured Value Shows Error
Customer Maintenance Parts List CMPL 11M12A01-02E
Customer Maintenance Parts List CMPL 11M12C01-01E
Customer Maintenance Parts List CMPL 11M12A01-11E
Customer Maintenance Parts List CMPL 11M03B01-10E
Customer Maintenance Parts List CMPL 11M03B01-05E
Customer Maintenance Parts List CMPL 11M03D01-01E
Revision Information

<10. Other Functions>

10-3

IM 11M12A01-02E 8th Edition : Jan.13,2012-00

10.1.1.6 Cell Voltage

The cell (sensor) voltage will be an index to determine the amount of degradation of the

sensor. The cell voltage corresponds to the oxygen concentration currently being measured.

If the indicated voltage approximates the ideal value (corresponding to the measured oxygen

concentration), the sensor will be assumed to be normal.

The ideal value of the cell voltage (E), when the oxygen concentration measurement temperature

is controlled at 750 °C, may be expressed mathematically by:

E = -50.74 log (Px/Pa) [mV]

where, Px: Oxygen concentration in the sample gas

Pa: Oxygen concentration in the reference gas, (21 vol%O

)

Table 10.1 shows oxygen concentration versus cell voltage.

Table 10.1 Oxygen Concentration Vs. Cell Voltage, (cell temperature: 750 ºC)

0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9

mv 117.83 102.56 93.62 87.28 82.36 78.35 74.95 72.01 69.41

1 2 3 4 5 6 7 8 9

mv 67.09 51.82 42.88 36.54 31.62 27.61 24.21 21.27 18.67

10 21.0 30 40 50 60 70 80 90

mv 16.35 0 -7.86 -14.2 -19.2 -23.1 -26.5 -29.5 -32.1

100

mv -34.4

T10.1E.ai

10.1.1.7 Thermocouple Voltage

The cell temperature is measured with a Type K (chromel-alumel) thermocouple. The

thermocouple cold junction is located in the detector terminal box. The cell temperature and the

thermocouple voltage (including the voltage corresponding to the cold junction temperature) are

displayed.

10.1.1.8 Cold Junction Resistance (C.J. Voltage)

The ZR22 Detector measures the cold junction temperature using an RTD (Pt 1000). (The earlier

model of ZO21D uses transistors to measure the cold junction temperature.)

If detector is “ZR22” is selected in the Basic setup display, the RTD resistance values will be

displayed. If the ZO21D is selected, the transistor voltage will be displayed.

10.1.1.9 Cell’s Internal Resistance

A new cell (sensor) indicates its internal resistance of 200 Ω maximum. As the cell degrades, so

will the cell’s internal resistance increase. The degradation of the cell cannot be evaluated just by

changes in cell’s internal resistance, however. Those changes in the cell’s internal resistance are

just a guide to the extent the cell is degrading. The updated values obtained during the calibration

are displayed.

10.1.1.10 Software Revision

The revision (number) of the software installed is displayed.