Advantech 5000 Series - Manual

Contents Chapter 1 Introduction ……………………………………… 1-1 1.1 Overview........................................................................1-2 1.2 System Configuration....................................................1-3 1.3 A Few Steps to a Successful System............................ 1-4 Chapter 2...

5.1.5 Terminal Emulation ..................................................... 5-7 5.1.6 Data Scope ................................................................... 5-8 5.1.7 Saving a Module’s Configuration to File .................. 5-10 5.1.8 Load Module’s Configuration File ......................

Appendix A Quick Start Example….….………………………. A-1 A.1 System Requirements to Setup an ADAM-5000 System…. A-2 A.2 Basic Configuration Hook-up ..................................... A-5 A.3 Baud Rate and Checksum ........................................... A-8 A.4 A Distributed ADAM-5000 Network System ...

E.5 Grounding reference (Ground bar for the factory, environment should have a standard resistance below W)…………….E-5 E.6 Some Suggestions on Wiring Layout ..........................E-6 Appendix F Grounding Reference………………………….…. F-1 F.1 Grounding ........................................................

Figures Figure 1-1 ADAM-5000 Configurations……………….…………..1-3 Figure 2-1 ADAM-5000 Diagnostic indicators……….…………..2-3 Figure 2-2 ADAM-5000 Network address DIP switch.………….2-4 Figure 2-3 Module alignment and installation………………..…..2-6 Figure 2-4 ADAM-5000 Panel mounting.………………………..2-7 Figure 2-5 ADAM-5...

Introduction 1.1 Overview The ADAM-5000 series is a complete product line that provides a wide variety of features in a data acquisition and control application. It includes 4 I/O-slots ADAM-5000/485 and 8 I/O-slots ADAM-5000E. They are remotely controlled by the host computer through a set of comma...

Chapter 1 1.2 System Configuration The following diagram shows the system configurations possible with the ADAM-5000. Note: To avoid system over heating, only four ADAM-5024 are allowed to be installed on ADAM-5000E. ADAM-5000 1-3

Introduction 1.3 A Few Steps to a Successful System Step 1:Review the installation Guideline You should always make safety your first priority in any system application. Chapter 2 provides several guidelines that will help provide a safer, more reliable system. Step 2: Understand the System Kernel T...

Installation Guideline 2.1 General Environmental Specifications The following table lists the environmental specifications that general ly apply to the ADAM-5000 system (System kernel and I/O modules). Specification Rating Storage temperature -13 to 185°F (-25 to 85°C) Ambient operating temperature ...

Chapter 2 A complete description of the diagnostic indicators and how to use them for troubleshooting is explained in Chapter 7. Figure 2-1 ADAM-5000 Diagnostic indicators Setting the Network Address Switch Set DIP switch 8 to OFF to install Avvantech Protocol , Set the network address using the 8-p...

Installation Guideline Figure 2-2 ADAM-5000 Network address DIP switch Dimensions and Weights(ADAM-5000) The following diagrams show the dimensions of the system unit and an I/O unit of the ADAM-5000. All dimensions are in millimeters. 2-4 ADAM-5000

Installation Guideline 2.2 Module Installation When inserting modules into the system, align the PC board of the module with the grooves on the top and bottom of the system. Push the module straight into the system until it is firmly seated in the backplane connector. Once the module is inserted int...

Chapter 2 2.4 Mounting The ADAM-5000 system can be installed on a panel or DIN rail. Panel Mounting Mount the system on the panel horizontally to provide proper ventila- tion. You cannot mount the system vertically, upside down or on a flat horizontal surface. A standard #7 tating screw (4mm diamete...

Installation Guideline DIN Rail Mounting The system can also be secured to the cabinet by using mounting rails. If you mount the system on a rail, you should also consider using end brackets on each end of the rail. The end brackets help keep the system from sliding horizontally along the rail. This...

Chapter 2 Figure 2-6 ADAM-5000E Rail mountings 2.5 Wiring and Conections This section provides basic information on wiring the power supply and I/O units, and on connecting the network. DC Power Supply Unit Wiring Be sure that the DC power supply voltage remains within the allowed fluctuation range ...

Chapter 2 5. Avoid running wires near high energy wiring 6. Avoid running input wiring in close proximity to output wiring where possible 7. Avoid creating sharp bends in the wires RS-485 Port Connection There is a pair of DB9 ports in the ADAM-5000 system. The ports are designed to link the RS-485 ...

RS-232 Port Connection The RS-232 port is designed for field configuration and diagnostics. Users may connect a notebook PC to the RS-232 port to configure or troubleshoot your system in the field. Further, the ADAM-5000 system can also be configured as the slave of the host computer through this po...

Chapter 2 Figure 2-8 Build-in Communication Ports for Diagnostic Connection Flexible Communication Port Function Connection(ADAM-5000E only) The Flexible Communication Port Function prevents ADAM-5000E from system glitches due to communication line problems. This function enables simultaneous connec...

Installation Guideline Figure 2-9 Flexible Communication Port Function Connection 2-14 ADAM-5000

Chapter 3 Diagnosis There are 4 LEDs (indicated as PWR, RUN, TX and RX) to provide visual information on the general operation of the ADAM-5000 system. The LEDs also indicate the error status when the ADAM-5000 system performs the self test. Besides the LED indica- tors, the system also offers softw...

ADAM-5000 System output of a channel of an analog input module. The relationship and their High/Low alarm limits may be downloaded into the system‘s EEPROM by the host computer. The alarm functions can be enabled or disabled remotely. When the alarm function is enabled, the user may select whether t...

Chapter 3 programmed in virtually any high-level language. The details of all commands will be covered in Chapter 6. Flexible Communication Connection ADAM-5000’s built-in RS-232/485 conversion capability enables users to freely choose either RS-232 port or RS-485 port to connect with host PC. When ...

ADAM-5000 System program execution without undue influence on your system. Probabili- ty of a system crash has thus minimized. 3.3 System Setup A Single System Setup thru the RS-232 Port If users would like to use a PC to locally control and monitor a simple application, the ADAM-5000 system provide...

Chapter 3 3.4 Technical Specification of the ADAM-5000 Processor Communication ADAM-5000 3-7

ADAM-5000 System Isolation Diagnosis Basic Function Block Diagram Figure 3.1 Function block diagram 3-8 ADAM-5000

This manual introduces the detail specifications functions and application wiring of each ADAM-5000 I/O modules. To organize an ADAM-5510 Series Controller, you need to select I/O modules to interface the main unit with field devices or processes that you have previously determined. Advantech provid...

Chapter 5 5.1.1 Overview M a i n M e n u The window utility consists of a toolbar on the top and a display area that shows forth the relevant information about the connected modules. The utility’s main toolbar is as shown below: The main toolbar buttons are shortcuts to some commonly used menu items...

Software Utilities Example: Figure 5-1 Display the connected module Figure 5-2 Save the information of connected modules to txt file 5.1.3 COM Port Settings Figure 5-3 Setup options 5-4 ADAM-5000

Chapter 5 Baud rate: The communication speed (baud rate) can be configured from 1200 bps to 115.2 Kbps. Prefix Char: The Prefix Char is added to each ADAM command as follows: [Prefix Char] + [ADAM Command] Note: This is a special command only for ADAM-4521, ADAM-4541 and ADAM-4550. Timeout: Timeout ...

Software Utilities 2. Click the right mouse button: 3. Click the Tools menu and choose the Search command: 4. The connected modules on network are currently being searched: 5-6 ADAM-5000

Chapter 5 5.1.5 Terminal Emulation You can issue commands and receive response by clicking the Terminal button. There are two ways to issue commands: 1. Issue single command: Enable or Disable 2. Batch command Users can compose a sequence of commands and save them into a .txt file. Just click the Br...

Software Utilities Enable or Disable Figure 5-4 Checksum function enabled 5.1.6 Data Scope Data Scope enables you to monitor the issue of commands and the responses on another connected PC within your system. The follow- ing example illustrates the working connection for the Data Scope function: Fig...

Chapter 5 When you issue commands from PC#1, you will get response. : Send single command or batch command. : Send a single command or batch command repeatedly. : Stop issuing commands. : Save history of the terminal emulation to txt file. On PC#3, you can observe all commands issued from PC#1. Mean...

Chapter 5 3. Click the Tools menu. Choose the “Save Configuration file” command and then specify the file name. The configuration file is now saved. ADAM-5000 5-11

Chapter 5 3. Click the Tools menu and choose Download configuration file to set the environment command: 4. Choose the file name: The configuration file is now loaded. ADAM-5000 5-13

Chapter 5 • Address: Represents the address of the module. The Range is from 0 to 255. • Baudrate: Represents the baud rate. • Checksum: Represents the checksum status, i.e., Disabled/ Enabled. • Firmware Ver: Represents the version of firmware. • Input range: Represents the input range of modules. ...

Software Utilities Figure 5-7 Zero Calibration (5). Click the Execute button to begin the calibration Figure 5-8 : Execute Zero Calibration Span Calibration: (1). Use a precision voltage source to apply a calibration voltage to the modules’ terminals of the specific channel. (2). Click the “Span Cal...

Software Utilities (5). Click the Execute button to begin the calibration Figure 5-12 : Execute CJC Calibration Analog Input Resistance Calibration: RTD sensor calibration only applies to the ADAM-5013 Figure 5-13 : RTD Module Calibration . Analog Output Calibration: 4~20 mA: ADAM 5024 Figure 5-14 :...

Chapter 5 5.1.11 Data Input and Output Analog Input Module with Digital Output • The function can only be used when the alarm status is “Disable”. Digital Output Module • Click the item to turn it on or off. Analog Output Module ADAM-5000 5-19

Chapter 5 5.1.12 Alarm Setting • Set the alarm status, high alarm value, low alarm value, and then click the Update button. • Alarm setting: Disables or enables the alarm either in Latching or Momentary mode. • High alarm value: Downloads the high alarm limit value into the module. The format is alw...

Software Utilities • Low level voltage: Set the low trigger level for non-isolated input signals. The range is from 0.1 V to 5.0 V. • High level minimum width: Set the minimum width at high level. The unit is µsec (microseconds) and its resolution is 1 µsec. Users can set value from 2 to 65535. • Lo...

Software Utilities Firmware downloads in progress. Firmware downloads complete. NOTICE: THE FIRMWARE UPGRAD OPERATION IS ONLY USED BY RS-232 PORT. 5-24 ADAM-5000

Chapter 6 The command set is divided into the following five categories: • CPU Command Set • Analog Input Command Set • Analog Input Alarm Command Set • Analog Output Modules Command Set • Digital I/O Modules Command Set Every command set category starts with a command summary of the particular type...

Command Set CPU %aannccff (cr) is the terminating character, carriage return (0Dh). Example command: %23000A40(cr) response: !23(cr) The ADAM-5000 system with address 23h is configured to a baud rate of 115.2 Kbps and with checksum genera- tion or validation. The response indicates that the command ...

Command Set CPU $aa2 (See also the %aannccff configuration command) Example command: $452(cr) response: !450600(cr) The command requests the ADAM-5000 system at address 45h to send its configuration status. The ADAM-5000 system at address 45h responds with a baud rate of 9600 bps and with no checksu...

Chapter 6 $aaM Name Read Module Name Description Returns the module name from a specified ADAM-5000 system. Syntax $aaM(cr) $ is a delimiter character. aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system you want to interrogate. M is the Module Name command. (cr) ...

Command Set CPU #aaF Example command: $15M(cr) response: !155000(cr) The command requests the system at address 15h to send its module name. The system at address 15h responds with module name 5000 indicating that there is an ADAM-5000 at address 15h. 6-10 ADAM-5000

Command Set CPU $aaF Example command: $17F(cr) response: !17A1.06(cr) The command requests the system at address 17h to send its firmware version. The system responds with firmware version A1.06. 6-12 ADAM-5000

Command Set CPU Figure 6-2 Analog module error codes Example: command: $01E(cr) response: !0100000001 The command diagnoses the system at address 01h and responds with its error status code. The system responds that the module in slot 3 has a span calibration error. 6-18 ADAM-5000

Command Set 5013 RTD Input Note: The ADAM-5013 module also has "Alarm Setting" functions. The alarm command set for the ADAM- 5013 is the same as that for the ADAM-5017, ADAM- 5017H, and the ADAM-5018. Please refer to pages 6-71 to 6-89 for this set of commands. 6-20 ADAM-5000

Chapter 6 $aaSi5mm invalid. aa (range 00-FF) represents the 2-character hexadecimal address of an ADAM-5000 system. (cr) is the terminating character, carriage return (0Dh) Example command: $00S1501(cr) response: !00(cr) The command enables/disables the channels of the analog input module in slot 1 ...

Chapter 6 6.3 Analog Input Command Set Note: See pages 71-89 for Analog Input Alarm Command Set. ADAM-5000 6-37

Command Set 5017/5018 Analog Input $aaSiArrff Name Configuration Description Sets slot index, input range, data format and integration time for a specified analog input module in a specified system. Syntax $aaSiArrff(cr) $ is a delimiter character. aa (range 00-FF) represents the 2-character hexadec...

Chapter 6 $aaSiArrff Response !aa(cr) if the command is valid. ?aa(cr) if an invalid operation was entered. There is no response if the module detects a syntax error or communication error or if the specified address does not exist. ! delimiter character indicating a valid command was received. ? de...

Chapter 6 $aaSiØ Name Span Calibration Description Calibrates a specified analog input module to correct for gain errors Syntax $aaSiØ(cr) $ is a delimiter character. aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system which is to be calibrated. Si identifies the ...

Chapter 6 $aaSiCjrrFF Name Set Input Range Description Sets the input range for a specified channel of a speci- fied analog input module in a specified system. Syntax $aaSiCjArrFF $ is a delimiter character. aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system you ...

Chapter 6 $aaSiAFFff Name Set Data Format Description Sets the data format in engineering units or in two's complement format for a specified analog input module in a specified system. Syntax $aaSiAFFff $ is a delimiter character. aa (range 00-FF) represents the 2-character hexadecimal address of th...

Command Set 5017H/5017UH Analog Input #aaSiCj If (data)=” “, it means the channel is invalid. (dddd) is the input value in two’s complement format of the specified channel of the specified module. If (dddd)=” “, it means the channel is invalid. (cr) is the terminating character, carriage return (0Dh...

Chapter 6 6.7 Analog Input Alarm Command Set Note: This command set applies to the ADAM-5013, ADAM- 5017, ADAM-5017H , ADAM5017UH , ADAM-5018P and the ADAM-5018P. ADAM-5000 6-71

Command Set Analog Input Alarm 5013/5017/5017H/5017UH/5018/5018P $aaSiCjAhs Name Set Alarm Mode Description Sets the High/Low alarm of the specified input channel in the addressed ADAM-5000 system to either Latching or Momentary mode. Syntax $aaSiCjAhs(cr) $ is a delimiter character. aa (range 00-FF...

Chapter 6 $aaSiCjAhEs Example command: $03S0C1ALEE(cr) response: !03(cr) Channel 1 of slot 0 in the ADAM-5000 system at address 03h is instructed to enable its Low alarm function. The module confirms that its Low alarm function has been enabled. Note: An analog input module requires a maximum of 2 s...

Chapter 6 $aaSiCjCh Example command: $03S0C1CL(cr) response: !03(cr) Channel 1 of slot 0 in the ADAM-5000 system at address 03h is instructed to set its Low alarm state to OFF. The system confirms it has done so accordingly. ADAM-5000 6-79

Chapter 6 $aaSiCjRhC (cr) represents terminating character, carriage return (0Dh) Example command: $03S0C1RLC(cr) response: !03S1C0(cr) Channel 1 of slot 0 in the ADAM-5000 system at address 03h is instructed to read its Low alarm output connection. The system responds that the Low alarm output conn...

Command Set Analog Input Alarm 5013/5017/5017H/5017UH/5018/5018P $aaSiCjAhU(data) Name Set Alarm Limit Description Sets the High/Low alarm limit value for the specified input channel of a specified ADAM-5000 system. Syntax $aaSiCjAhU(data)(cr) $ is a delimiter character. aa (range 00-FF) represents ...

Chapter 6 $aaSiCjAhU(data) Example command: $03S0C1AHU+080.00(cr) response: !03(cr) Channel 1 of slot 0 in the ADAM-5000 system at address 03h is configured to accept type-T thermocou- ple input. The command will set its High alarm limit to +80°C. The system confirms the command has been received. N...

5013/5017/5017H/5017UH/5018 Command Set Analog Input Alarm $aaSiCjS Name Read Alarm Status Description Reads whether an alarm occurred for the specified input channel in the specified ADAM-5000 system Syntax $aaSiCjS(cr) $ is a delimiter character. aa (range 00-FF) represents the 2-character hexadec...

Command Set 5024 Analog Output 6.8 Analog Output Command Set 6-90 ADAM-5000

Chapter 6 $aaSiCjArrff Name Configuration Description Sets the output range, data format and slew rate for a specified channel of a specified analog output module in a specified system. Syntax $aaSiCjArrff(cr) $ is a delimiter character. aa (range 00-FF) represents the 2-character hexadecimal addres...

Command Set 5024 Analog Output $aaSiCjB Bits 0 and 1 represent data format. Bits 2, 3, 4 and 5 represent slew rate. The other bits are not used and are set to 0. (See Configuration command $aaSiCjArrff) (cr) is the terminating character, carriage return (0Dh) Example command: $24S1C1B response: !243...

Command Set 5024 Analog Output #aaSiCj(data) ? delimiter character indicating the command was invalid. (cr) is the terminating character, carriage return (0Dh) Example command: #33S1C115.000(cr) response: >(cr) The command instructs the module in slot 1 of the ADAM-5000 system at address 33h to o...

Chapter 6 $aaSiCj0 Name 4 mA Calibration Description Directs the specified channel to store parameters following a calibration for 4 mA output Syntax $aaSiCj0(cr) $ is a delimiter character. aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system. SiCj identifies the ...

Chapter 6 $aaSiCj1 Name 20 mA Calibration Description Directs the specified channel to store parameters following a calibration for 20 mA output Syntax $aaSiCj1(cr) $ is a delimiter character. aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system. SiCj identifies th...

Command Set 5024 Analog Output $aaSiCj3hh (cr) is the terminating character, carriage return (0Dh) Example command: $07S1C2314(cr) response: !07(cr) The command tells channel 2 of the analog output module in slot 1 of the ADAM-5000 system at address 07h to increase its output value by 20 (14h) count...

5080 Counter/ Command Set Frequency Module 6-116 ADAM-5000

Chapter 6 $aaF Eample command: $18F(cr) response: !18A2.3(cr) The command requsets the system at address 18h to send its firmware version. The system responds with firmware version A2.3. ADAM-5000 6-121

Chapter 6 $aaSi Example command: #16S2(cr ) response: If the response you got is in Counter mode, you'll see one similar to the example below: >1235458013267521306934521463051832106549(cr) What you see here is actually the input values of all channels that is returned from slot 2 of the ADAM-5000...

5080 Counter/ Command Set Frequency Module #aaSi However, if the response is in frequency mode, you'll see one similar to the example below: >0000098700000006490000000762000000011600(cr) As all 4 values are concatenated into one numerical string such as above, we can still easily discern the valu...

5080 Counter/ Command Set Frequency Module $aaSiØ(data) Example command: $26S3000765(cr ) response: !26(cr) The ADAM-5080 in slot 3 of the ADAM-5000 system at address 26h need 765 μ seconds to start to measure the input. 6-132 ADAM-5000

Chapter 6 $aaSiCj7 Name Read Overflow Flag Description The command requests the addressed module to return the status of the overflow flag of counter. Syntax $aaSi7(cr) $ is a delimiter character. aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system. Si identifies ...

5080 Counter/ Command Set Frequency Module $aaSiCjAh Example command: $03S0C1AL(cr ) response: !03L(cr) Channel 1 of slot 0 of ADAM-5080 in ADAM-5000 system at address 03h is instructed to return its Low alarm mode. The system responds that it is latched. 6-150 ADAM-5000

5080 Counter/ Command Set Frequency Module $aaSiCAhCSkCh Example command: $03S0C1ALCS1C0(cr ) response: !03(cr) Channel 1 of slot 0 of ADAM-5080 in ADAM-5000 system at address 03h is instructed to connect its Low alarm to the digital output of point 0 of slot 1 in the same ADAM-5000 system. The syst...

5080 Counter/ Command Set Frequency Module $aaSiCjRhU Example command: $03SØC1RHU(cr ) response: !030000000026(cr) The channel 1 of slot 0 of ADAM-5080 in the ADAM- 5000 system at address 03h is configured to return the High alarm limit value. The High alarm limit value is 26. 6-160 ADAM-5000

5080 Counter/ Command Set Frequency Module $aaSiCjS Example command: $03SØC1S response: !0311(cr) The channel 1 of slot 0 of ADAM-5080 in the ADAM- 5000 system at address 03h is configured to read alarm status. The High alarm has occured and low alarm has occured. 6-162 ADAM-5000

Troubleshooting The ADAM-5000 system provides two kinds of diagnosis: hardware diagnosis and software diagnosis to help the user detect and identify various types of system and I/O module failures. 7.1 Hardware Diagnosis When the ADAM-5000 is first powered on, the system does a self- diagnosis. The ...

Chapter 7 7.3 System Indicators While the ADAM-5000 system is in operation the indicators on the front can help you diagnose problems with the system. The table below gives a quick reference of potential problems associated with each status indicator. POW Indicator In general there are 3 reasons for...

Troubleshooting 1. External power to the system is incorrect or is not applied. 2. Power supply is faulty. 3. Other component(s) have the power supply shut down. Incorrect External Power If the voltage to the power supply is not correct, the system may not operate properly or may not operate at all....

Chapter 7 If the power supply operates normally, you probably have either a shorted device or a shorted cable. If the power supply does not operate normally, then test for a module causing the problem by using the following procedure. To isolate which module is causing the problem, disconnect the ex...

Troubleshooting 7.5 I/O Module Troubleshooting There is a LED to indicate the connection between the base and an I/O module in any ADAM-5000 system. The LED is on when the connection is good. If you suspect an I/O error, there are several things that could be causing the problem. • A loose terminal ...

Quick Start Example This chapter provides guidelines to what is needed to set up and install a distributed ADAM-5000 network system. A quick hookup scheme is provided that lets you configure a single system before you install a network system. Be sure to carefully plan the layout and configuration o...

Appendix A Host Computer Any computer or terminal that can output in ASCII format over either RS-232 or RS-485 can be connected as the host computer. When only RS-232 is available, an ADAM RS-232/RS-485 Converter is required to transform the host signals to the correct RS-485 protocol. The converter...

Quick Start Example network with long cables, we advise the use of thicker wire to limit the line voltage drop. In addition to serious voltage drops, long voltage lines can also cause interference with communication wires. + POWER SUPPLY +10~+30 VDC - +Vs GND INIT* COM DATA+ DATA- Figure A-1 Power s...

Appendix A transmit both DATA and RTS signals. It is advisable that the follow- ing standard colors be used for the communication lines: DATA+ (Y) Yellow DATA- (G) Green ADAM Utility Software A menu-driven utility program is provided for ADAM-5000 system configuration, monitoring and calibration. It...

Quick Start Example Default Factory Settings Baud rate: 9600 Bits/sec. Address: 01 (hexadecimal) The basic hook-up for system configuration is show below: 1 3-CHANNEL RTD INPUT 1 7-CHANNEL T/C INPUT 1 8-CHANNEL ANALOG INPUT 16-CHANNEL DIGITAL INPUT 1 4-CHANNEL ANALOG OUTPUT 1 6-CHANNEL RELAY OUTPUT ...

Quick Start Example 0F = set input range to type K thermocouple 00 = set data format to engineering units, 50ms (60Hz) (See Chapter 6, Command Set for a full description of the syntax of the configuration command for an analog input module) When the module received the configuration command it will ...

Appendix A known state. This state is called the INIT* state. INIT* state defaults: Baud rate:9600 Address:00h Checksum:disabled Forcing the system into the INIT* state does not change any parame- ters in the system's EEPROM. When the system is in the INIT* state with its INIT* and GND terminal shor...

Appendix A A.3 A Distributed ADAM-5000 Network System Hook-up The figure below gives an example of how multiple ADAM systems should be connected: Figure A-4 ADAM-5000 network system hook-up ADAM-5000 A-11

Data Formats and I/O Ranges B.1 Analog Input Formats The ADAM analog input modules can be configured to transmit data to the host in Engineering Units. Engineering Units Data can be represented in Engineering Units by setting bits 0 and 1 of the data format/checksum/integration time parameter to 0. ...

Appendix B Example 1 The input value is -2.65 and the corresponding analog input module is configured for a range of ±5 V. The response to the Analog Data In command is: -2.6500(cr) Example 2 The input value is 305.5ºC. The analog input module is configured for a Type J thermocouple whose range is 0...

Module Range Code Input Range Description Data Formats Maximum Specified Signal Minimum Specified Signal Displayed Resolution Actual Value Engineering Units +760.00 +000.00 0.1°C % of FSR +100.00 +000.00 0.01% 0Eh Type J Thermocouple 0°C to 760°C Two's Complement 7FFF 0000 1 LSB Reading/ 10 Engineer...

Module Range Code Input Range Description Data Formats Maximum Specified Signal Minimum Specified Signal Displayed Resolution Actual Value Engineering Units +760.00 +000.00 0.1°C % of FSR +100.00 +000.00 0.01% 0Eh Type J Thermocouple 0°C to 760°C Two's Complement 7FFF 0000 1 LSB Reading/ 10 Engineer...

B.3.1 Analog Input Ranges - ADAM-5017UH Range Code Input Range Data Formats +Full Scale Zero -Full Scale Displayed Resolution 08h ±10 V Engineering +10.000 +00.000 -10.000 1 mV Two's Comp 0FFF 0 7FFF 1 48h 0 ~ 10 V Engineering +10.000 +00.000 - 1 mV Two's Comp 0FFF 0 Don't care 1 46h 0~20mA Engineer...

Data Formats and I/O Ranges B.4 Analog Ontput Formats You can configure ADAM analog output modules to receive data from the host in Engineering Units. Engineering Units Data can be represented in engineering units by setting bits 0 and 1 of the data format/checksum/integration time parameter to 0. T...

Appendix B B.6 ADAM-5013 RTD Input Format and Ranges ADAM-5000 B-11

Appendix C C.1 Basic Network Layout Multi-drop RS-485 implies that there are two main wires in a segment. The connected systems tap from these two lines with so called drop cables. Thus all connections are parallel and connecting or discon- necting of a node doesn’t affect the network as a whole. Si...

RS-485 Network Star Layout In this scheme the repeaters are connected to drop-down cables from the main wires of the first segment. A tree structure is the result. This scheme is not recommended when using long lines since it will cause a serious amount of signal distortion due to signal reflections...

Appendix C Random This is a combination of daisychain and hierarchical structure. Figure C-3 Random Sstructure ADAM-5000 C-5

RS-485 Network Combination of an ADAM-4000 and an ADAM-5000 in a RS-498 Network The following figure shows how to integrate ADAM-4000 and ADAM-5000 systems in a network. Figure C-4 ADAM-4000 and ADAM-5000 in a network Note: The speed of ADAM-4000 and ADAM-5000 in a RS- 485 network should be the same...

Appendix C Figure C-5 Signal distortion The value of the resistor should be a close as possible to the charac- teristic impedance of the line. Although receiver devices add some resistance to the whole of the transmission line, normally it is sufficient to the resistor impedance should equal the cha...

RS-485 Network Figure C-6 Termination resister locations Because each input is biased to 2.4 V, the nominal common mode voltage of balanced RS-485 systems, the 18 k Ω on the input can be taken as being in series across the input of each individual receiver. If thirty of these receivers are put close...

Appendix C The star connection causes a multitude of these discontinuities since there are several transmission lines and is therefore not recommend. Note: The recommend method wiring method, that causes a minimum amount of reflection, is daisy chaining where all receivers tapped from one transmissi...

How to Use the Checksum Feature A checksum helps you to detect errors in commands from the host to the modules, and in responses from the modules to the host. The feature adds two extra checksum characters to the command or response string, which does reduce the throughput. D.1 Checksum Enable/Disab...

Appendix D Example 2 This example explains how to calculate the checksum value of a Read High alarm limit command string: Case 1. (If the Checksum feature is disabled ) Command: $07S1RH(cr) Response: !07+2.0500(cr) when the command is valid. Case 2. (If the Checksum feature is enabled) Command: $07S...

How to Use the Checksum Feature Printable ASCII Characters D-4 ADAM-5000

Appendix E E ADAM-4000/5000 System Grounding Installation ADAM-5000 E-1

Appendix E FAN (Outflowing) ADAM 5000/485 T/B Relay Figure E-2 : External Terminal Block Reference E.3 External DI,DO,AI,AO Wiring Reference The common end of some D.I. and D.O. modules is connected with the GND of ADAM-5000/4000 system. Therefore, the common end of external DI and DO signal wiring ...

ADAM-4000/5000 System Grounding Installation The shielding material of the wires should only be grounded on one end as illustrated in the following diagram. This is to avoid ground loop. ADAM Sys t em On- Si t e Fa c il i t i es AI Groun ding Figure E-3 : Grounding for on-site facilities and ADAM-50...

Appendix E E.5 Grounding reference (Grounding bar for the factory environment should have a standard resistance below 5 Ω ) Since ADAM-4000 / 5000 system comes with a plastic outer case with DC power supply, its grounding procedure should be done according to the following points: Power supply : The...

ADAM-4000/5000 System Grounding Installation E.6 Some Suggestions on Wiring Layout Since communication is carried through high-frequency signals, it is advisable that the wiring layout should be paid due attention to. Any wire should best remain as a single integral wire. Nevertheless, if you should...

Grounding Reference Field Grounding and Shielding Application Overview Unfortunately, it’s impossible to finish the system integration task at a time. We always meet some troubles in field. Such as communication network or system isn’t stable, noise influence, and equipment is damaged or hungs up by...

Appendix F 3. Noise Reduction Techniques 4. Check Point List F.1 Grounding 1.1 The Earth for reference Why we think the EARTH as GROUND? As you know that the EARTH can t be conductive indeed. But those parallel resistors make the EARTH as a single point and just for reference. Figure F-1 : Think the...

Grounding Reference 1.2 The Frame Ground and Grounding Bar N N Sin gle Phase, Three Lin e N L 110V N 110V L G G G G 220V Neutral is the physical cable from Generator. Ground is the local physical cable that connected to Ground Bar . Figure F-2 : Grounding Bar According to previous description, the g...

Appendix F 1.3The Frame Ground and Grounding Bar Figure F-3 : Normal mode and Common mode Have you ever tried to measure the voltage between ‘Hot’ and concrete floor, or measure the voltage between ‘Neutral’ and concrete floor? You will get nonsense value with above testinF. ‘Hot’ and ‘Neutral’ were...

Grounding Reference Figure F-4 : Normal mode and Common mode • Ground-pin is longer than others, for first contact to power system and noise bypass. • Neutral-pin is broader than Live-pin, for reduce contact impedance. F-6 ADAM-5000

Appendix F 1.4 Wire impedance DC P/S Tr ADAM 5000/485 E Grounding Bus T/B AI AO Copper mesh for Shielding (should be grounded only on one end) Grounding Bus Connect to ground bar on the factory. E The ground bar should have a resistance below 5 ohm. Figure F-5 : The purpose of high voltage transmiss...

Grounding Reference Above diagram just shows you that the wire impedance will consume the power. 1.5 Single Point Grounding Single Point Grounding A D A M 4 0 1 3 A D A M 4 0 1 4 A D A M 4 0 1 7 A D A M 4 0 2 1 V Power +16 +18 +20 +22 Supply Those devices will influence each other wit h swi ftly l o...

Appendix F Single Point Grounding +24 V +16V +18V +20V +22 Power Supply +22V +22V +22V +22 + 24 V Power Supply More cable, but more stable system. Figure F-8 : Single point groundinF.(2) Above diagram shows you that single point grounding system will be a more stable system. Actually, when you use t...

Grounding Reference • Single isolated cable Above diagram shows you the structure of the isolated cable. You can see the isolated layer spiraling Aluminum foil to cover those wires. This spiraled structure makes an isolated layer for isolating the cables from the external noise. Figure F-10 : Double...

Appendix F Besides, following tips just for your reference. • The shield of cable can’t be used for signal ground. The shield is just designed for adhering noise, so the environment noise will couple and interfere your system when you use the shield as signal ground. • The density of shield is the h...

Grounding Reference • Never stripping too long of the plastic cable cover. Otherwise, this improper status will destroy the characteristic of the Shielded- Twisted-Pair cable. Besides, those nude wires are easy to adhere the noise. • Cascade those shields together by “Soldering”. Please refer to fol...

Appendix F Figure F-13 : System Shielding(1) • Shield connection (1) When you want to visit somewhere, you must like to find out an easiest way to achieve your goal, aren’t you? So as electronic circuit, all signals use the easiest way. If we connected those two cables just with few wires, it is a d...

Appendix F Figure F-15 : Noise Reduction Techniques F.4 Check Point List • Follow the single point grounding rule? • Normal mode and common mode voltage? • Separate the DC and AC ground? • Reject the noise factor? • The shield is connected suitable? • The diameter of wire thick enough? • How about t...

ADAM-5000 I/O Modbus Mapping Table G-2 ADAM 5000 Series User’s Manual The model list of ADAM-5000 I/O series support Modbus protocol G.1 The ADAM-5000 series main system’s DIP Switch Setting: z 5000/485: „ #8 of DIP switch ON-> not fixed ٛ vaila address „ #8 of DIP switch OFF-> fixed ٛ vaila a...

Appendix G Appendix G ADAM-5000 I/O Modbus Mapping Table G- 3 G.2 Modbus Commands for 5000 Series Set COM port config. #aaOUrff(cr) >aa(cr) OU: cmd. name r: reserved(any value) ff: Bit 1, 0 (Stop Bits) 00: 1 Stop Bits 01: 1.5 Stop Bits 10: 2 Stop Bits Bit 4, 3, 2 (Data Bits) 000: 5 001: 6 010: 7 ...

Appendix G Appendix G ADAM-5000 I/O Modbus Mapping Table G- 7 410117~ 410150 Reserved 410151~ 410152 Slot0 Control & Status Flag R/W 410153~ 410154 Slot1 Control & Status Flag R/W 410155~ 410156 Slot2 Control & Status Flag R/W 410157~ 410158 Slot3 Control & Status Flag R/W 410159~ 41...

ADAM-5000 I/O Modbus Mapping Table G-8 ADAM 5000 Series User’s Manual G.5 Address mapping of ADAM-5080 For ADAM-5000 ModBus z Slot Start Address :S(word) OFFSET bit HIGH BYTE LOW BYTE S+0 CH0 S+1 CH0 counter value (Long Word) S+2 CH1 S+3 CH1 counter value(Long Word) S+4 CH2 S+5 CH2 counter value(Lon...