Teledyne 3010MB - page 15

Part I: 1-5

Percent Paramagnetic Oxygen Analyzer Part I: Control Unit

Teledyne Analytical Instruments

•Power Connection AC power source, 100-240VAC, 50/60

Hz

•Analog Outputs 0-1 V dc concentration and 0-1 V dc

range ID. Isolated 4-20 mA dc and 4-20

mA dc range ID.

•Alarm Connections 2 concentration alarms and 1 system

alarm.

•RS-232 Port Serial digital concentration signal output

and control input.

•Remote Probe Provides all electrical interconnect to the

Analysis Unit or Remote Probe.

•Remote Span/Zero Digital inputs allow external control of

analyzer calibration.

•Calibration Contact To notify external equipment that

instrument is being calibrated and

readings are not monitoring sample.

•Range ID Contacts Four separate, dedicated, range relay

contacts. Low, Medium, High, Cal.

•Remote Probe Interfaces with an Analysis Unit or

Remote Probe (external sensor/sample

system).

•Network I/O Serial digital communications for local

network access. For future expansion.

Not implemented at this printing.

Note: If you require highly accurate Auto-Cal timing, use external

Auto-Cal control where possible. The internal clock in the

Model 3010MB is accurate to 2-3 %. Accordingly, internally

scheduled calibrations can vary 2-3 % per day.

Contents

Main i Percent Paramagnetic Oxygen Analyzer Model 3010MB Percent Paramagnetic Oxygen Analyzer Bulkhead Mount Control Unit, PN D-71385 Bulkhead Mount Analysis Unit, PN D-71394 DANGER P/N xxxxxx 12/21/99 ECO: #99-0000 ii Model 3010MB Copyright 1999 Teledyne Analytical Instruments Page iv Specific Model Information v Preface Overview Typical Applications vi Main Features of the Analyzer Model 3010MB Oxygen Analyzer Part I: Control Unit ii: Part I Part I: iii Alarms Range Page Introduction 1.1 Overview 1.2 Control Unit Inner Control Panel 3010MB Series 1.3 Recognizing Difference Between LCD & VFD Page Page Page Part I: 2-1 Operational Theory 2.1 Introduction 2.2 Electronics and Signal Processing 2-2: Part I 2 Operational Theory Model 3010MB Figure 2-1: Block Diagram of the 3010TB CU Electronics Self Test Signal Part I: 3-1 Installation 3.1 Unpacking the Control Unit 3.2 Mounting the Control Unit 3-2: Part I Part I: 3-3 3.3 Electrical Connections 3-4: Part I Primary Input Power: Fuse Installation: Analog Outputs: Part I: 3-5 3-6: Part I Part I: 3-7 3-8: Part I Part I: 3-9 Table 3-3: RS-232 Signals 3-10: Part I Part I: 3-11 3-12: Part I 3.4 Testing the System Part I: 4-1 Operation 4.1 Introduction 4-2: Part I 4.2 Using the Data Entry and Function Buttons Range. Alarms. Span. System 4.3 The Function 4-4: Part I Part I: 4-5 4-6: Part I Part I: 4-7 4-8: Part I Part I: 4-9 4-10: Part I Zero Span and Part I: 4-11 4.4 The 4-12: Part I Part I: 4-13 4-14: Part I Part I: 4-15 4-16: Part I 4.4.3 Span Failure Alarms 4.5 The Function Part I: 4-17 4-18: Part I Alarms Range 4.6 The Function Part I: 4-19 Range Analyze 4-20: Part I 4.7 The Function Part I: 4-21 4.8 Signal Output 4 Operation Model 3010MB 4-22: Part I Part I: 5-1 Maintenance WARNING: SEE WARNINGS ON THE TITLE PAGE OF THIS MANUAL. 5.1 Fuse Replacement 5-2: Part I 5.2 System Self Diagnostic Test Part I: 5-3 5.3 Major Internal Components 5-4: Part I Model 3010M Oxygen Analyzer Part II: Analysis Unit ii: Part II Part II: 1-1 Operational Theory 1.1 Introduction 1.2 Precise Paramagnetic Sensor 1-2: Part II Part II: 1-3 1.3 Cross Interference Sensor (rear view shown) 1-4: Part II 1 Operational Theory Model 3010M Teledyne Analytical Instruments Maintenance Page Appendix A-1 Specifications Page A-2 Recommended 2-Year Spare Parts List A-3 Drawing List