Teledyne 460H 2.4.4 RS232/RS485 Serial Communications Port, 3 Serial Port Pins, Label

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2.4.4 RS232/RS485 Serial Communications Port

2.4.4 RS232/RS485 Serial Communications Port

A bi-directional RS232/485 Serial Port Interface is provided that can be used for data acquisition and instrument control. All that is required to use this interface is a computer with a serial communications port (COM port) and terminal software. Three pins are provided on the I/O connector for serial communications as shown in Table 2-3.

	Table 2-3 Serial Port Pins

Label	Description
SERIAL TX	Serial Transmit (RS485 – A)
SERIAL RX	Serial Receive (RS485 – B)
SERIAL GND	Serial Ground (RS232 Only)

The Serial Port can be configured for either RS232 or RS485. The standard factory configuration is RS232. For direct connection to a PC or Laptop, RS232 should be used. For a permanent connection into a data acquisition system, RS485 is recommended because it has better noise immunity and is more reliable when communicating over longer distances. See Appendix A for details on changing the Serial Port configuration.

Figure 2-5 below shows typical connections using RS232 and RS485. Note that the RS485 connection does not use the SERIAL GND pin.

DB9-FEMALE

SERIAL GND

SERIAL RX

SERIAL TX

	RS232
SERIAL TX	RS485-A
SERIAL RX	RS485-B

RS485

Figure 2-5 Typical RS232 and RS485 Connections

See Chapter 5 for information on the Serial Communications protocol used by the M460H.

P/N 03662D Teledyne API Model 460H O3 Monitor Operator Manual - Page 17

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Contents INSTRUCTION MANUAL MODEL 460H NEMA OZONE MONITOREMAIL api-sales@teledyne.com 03662 Rev. D 1/8/04SAFETY MESSAGES 2.0 INSTALLATION TABLE OF CONTENTS6.0 MAINTENANCE I. 0 INTRODUCTION7.0 SENSOR AND SYSTEM TROUBLESHOOTING 6.2 CLEANING EXTERIOR SURFACES OF THE M460HAPPENDIX A - SERIAL PORT CONFIGURATION 6.3 DEGREE OF PROTECTIONFigure 2-1 Mounting Hole Locations FIGURESPneumatic Connections Electrical ConnectionsTable 2-1 Digital Status Output Pins TABLESTable 2-3 Serial Port Pins Serial Port Configuration1.1 Preface I.0 INTRODUCTIONADVANCED POLLUTION INSTRUMENTATION DIVISION 1.2 WARRANTY POLICY02024c TERMS AND CONDITIONS1.3 Principle of Operation 1.4 Specifications Figure 2-1 Mounting Hole Locations 2.0 Installation2.1 Mechanical Installation Figure 2-2 Pneumatic Connections 2.2 Pneumatic Connections2.3AC Power Connection 2.4.1 Analog Output 2.4 Electrical I/O ConnectionsFigure 2-3 Electrical Connections I/O CONNECTOR2.4.2 Digital Status Outputs Table 2-1 Digital Status Output PinsLabel NameTable 2-2 Control Inputs 2.4.3 Control InputsInput Description2.4.4 RS232/RS485 Serial Communications Port Table 2-3 Serial Port PinsFigure 2-5 Typical RS232 and RS485 Connections RS2323.0 Startup 4.1 Front Panel Display 4.0 Operation4.1.1 O3 readout 4.1.2 Pressure Display4.2.3 Auto Zero Error 4.2.1 Auto-Zero Installation4.2 Auto-Zero Operation 4.2.2 Auto-Zero Function5.2 Command Syntax 5.1 Serial Port ConfigurationTable 5-1 Serial Port Configuration addresscommanddata1,data2#checksumCRExamples of valid Commands with no data 5.3 Command SummaryExamples of valid Commands with data Table 5-2 Serial Port Command Summary5.4.1 CAUTO 5.4 Command ReferenceSyntax Data Parameters Sent5.4.2 CZERO 5.4.3 DACSTEP addresso3conc#checksumCR 5.4.4 O3addressO3CR addressSETADDRnewaddressCR 5.4.5 SETADDR5.4.6 TDUMP 5.4.7 TLIST Allowable Range 5.4.8 VGETIndex addressvarvalue#checksumCR#5 iirfilt = 0.4 #6 concunits = 5.4.9 VLIST1VLISTCR varindex 5.4.10 VSETis index number for internal VAR See VGET for index list newvalue6.2 Cleaning Exterior Surfaces of the M460H 6.0 MaintenanceFilter Replacement Procedure 6.1 Replacing the gas filter element7.1 Status Output Summary 7.0 Sensor and System Troubleshooting7.2 Sensor OK Table 7-1 Digital Status Outputs7.5 Cell Dirty 7.3 Invalid Reading7.4 Lamp Low Table 7-2 Status Output Truth Table 7.6 Status Output Summary TableSensor InvalidRS232RS485 Appendix A - Serial Port ConfigurationFigure A-1 RS232/RS485 Jumpers Controller PCA#03492 Appendix B - Pneumatic Diagram