ADAM-5000 SeriesRS-485 Based Data Acquisitionand Control SystemUser's Manual
FiguresFigure 1-1: ADAM-5000 System Configurations ... 1-3Figure 2-1: ADAM-5000 Diagnostic indicators ...
5-8 ADAM-5000Software Utilities2. Set the node ID of the ADAM-5000/485 system to “0” and resetthe ADAM-5000 system.3. Run the ADAM Utility (ADAM.exe)
ADAM-5000 5-9Chapter 55.3 DDE (Dynamic Data Exchange) ServerThe ADAM-5000 DDE server takes advantage of DDE, a built-inWindows communic
5-10 ADAM-5000Software Utilities5.4 ADAM-4000 and ADAM-5000 Windows UtilityThe ADAM-4000 and 5000 Windows Utility offers a graphical interfacethat hel
ADAM-5000 5-11Chapter 5Search: Search for the address of connected modules onnetwork.Terminal: Issue commands and receives response.D
5-12 ADAM-5000Software UtilitiesFigure 5-6 Save the information of connected modules to txt file5.4.3 COM Port SettingsFigure 5-7 Setup optionsBaud ra
ADAM-5000 5-13Chapter 5Timeout:Timeout means the time limit for waiting a response after the systemhas issued a command. If no response
5-14 ADAM-5000Software Utilities3. Click the Tools menu and choose the Search command:4. The connected modules on network is currently being searched:
ADAM-5000 5-15Chapter 52. Batch commandUsers can compose a sequence of commands and save them into a .txtfile. Just click the Browse b
5-16 ADAM-5000Software Utilities5.4.6 Data ScopeData Scope enables you to monitor the issue of commands and theresponses on another connected PC withi
ADAM-5000 5-17Chapter 5 : Send a single command or batch command repeatedly. : Stop issuing commands. : Save history of the terminal
Figure 4-21: Dry contact signal input (ADAM-5050) ... 4-25Figure 4-22: Wet contact signal input (ADAM-5050) ...
5-18 ADAM-5000Software Utilities• Save the output range, baud rate, data format, checksum status andslew rate for a specified analog output module.•
ADAM-5000 5-19Chapter 5and then specify the file name.The configuration file is now saved.5.4.8 Load Modules Configuration File• Relo
5-20 ADAM-5000Software UtilitiesThere are three ways to load a configuration file:1. Click the Toolbar button:2. Click the right mouse button:3. Click
ADAM-5000 5-21Chapter 54. Choose the file name:The configuration file is now loaded.5.4.9 Module Configuration• Sets the input range,
5-22 ADAM-5000Software UtilitiesFor Example: The configuration of ADAM-4011• Address: Represents the address of the module. The Range is from0 to 255.
ADAM-5000 5-23Chapter 55.4.10 Module CalibrationCalibration is to adjust the accuracy of ADAM module. There areseveral modes for module
5-24 ADAM-5000Software UtilitiesCJC Calibration1. Prepare an accurate voltage source.2. Run the zero calibration and span calibration function.3. Use
ADAM-5000 5-25Chapter 55.4.11 Data Input and OutputAnalog Input Module with Digital Output• The function can only be used when the alar
5-26 ADAM-5000Software Utilities Enter a value that users want to get•• Fast Decreasedecreaseincrease• fast increase
ADAM-5000 5-27Chapter 55.4.12 Alarm Settings• Set the alarm status, high alarm value, low alarm value, and thenclick the Update button.
Figure 5-6: Save the information of connected modules to txt file ... 5-12Figure 5-7: Setup options ...
5-28 ADAM-5000Software Utilities• Low level voltage: Set the low trigger level for non-isolated inputsignals. The range is from 0.1 V to 5.0 V.• Hig
ADAM-5000 5-29Chapter 53. Choose the baud rate.4. Choose Download file.
5-30 ADAM-5000Software UtilitiesFirmware download in progress.Firmware download complete.
6Command Set
6-2 ADAM-5000Command Set6.1 IntroductionTo avoid communication conflicts when several devices try to senddata at the same time, all actions are instig
ADAM-5000 6-3Chapter 6The command set is divided into the following five categories:• CPU Command Set• Analog Input Command Set• Analog
6-4 ADAM-5000Command Set6.3 CPU Command SetCommand Syntax Command Name Description%aannccff Configuration Sets the baudrate andchecksum status for asp
ADAM-5000 6-5Chapter 6%aannccff %aannccffName ConfigurationDescription Sets baud rate and checksum status for a specifiedADAM-5000 syst
6-6 ADAM-5000Command Set%aannccff %aannccff(cr) is the terminating character, carriage return (0Dh).Example command: %23000A40(cr)response: !23(cr)T
ADAM-5000 6-7Chapter 6$aa2 $aa2Name Configuration StatusDescription Returns the configuration status for a specified systemmodule.Synta
Figure F-11: System Shielding ... F-11Figure F-12: The characteristic of the cable ...
6-8 ADAM-5000Command Set$aa2 $aa2(See also the %aannccff configuration command)Example command: $452(cr)response: !450600(cr)The command requests th
ADAM-5000 6-9Chapter 6$aaM $aaMName Read Module NameDescription Returns the module name from a specified ADAM-5000system.Syntax $aaM(cr
6-10 ADAM-5000Command Set$aaM $aaMExample command: $15M(cr)response: !155000(cr)The command requests the system at address 15h tosend its module nam
ADAM-5000 6-11Chapter 6$aaF $aaFName Read Firmware VersionDescription Returns the firmware version code from a specifiedADAM-5000 syste
6-12 ADAM-5000Command Set$aaF $aaFExample command: $17F(cr)response: !17A1.06(cr)The command requests the system at address 17h tosend its firmware
ADAM-5000 6-13Chapter 6$aaT $aaTName Read I/O TypeDescription Returns the I/O module no. of all slots for a specifiedADAM-5000 system.S
6-14 ADAM-5000Command Set$aaT $aaTExample command: $12T(cr)response: !1218245160(cr)The command requests the ADAM-5000 system ataddress 12h to send
ADAM-5000 6-15Chapter 6$aa5 $aa5Name Reset StatusDescription Checks the reset status of the addressed ADAM-5000system to see whether it
6-16 ADAM-5000Command Set$aa5 $aa5Example command: $395(cr)response: !391(cr)The ADAM-5000 system at address 39h was reset orpowered up since the last
ADAM-5000 6-17Chapter 6$aaE $aaEName Software DiagnosticsDescription Requests the specified ADAM-5000 system to returnthe error statusS
TablesTable 4-1: Technical specifications of ADAM-5013 ... 4-4Table 4-2: Calibration resistances of ADAM-5013 ...
6-18 ADAM-5000Command SetError Code Error Message00h No errors01h Span calibration error of Analog Input Module02h Self-calibration error of Analog In
ADAM-5000 6-19Chapter 66.4 ADAM-5013 RTD Input Command SetCommand Syntax Command Name Description$aaSiArrff RTD Configuration Sets slot
6-20 ADAM-5000Command SetCommand Syntax Command Name Description$aaSi6 Read Channels Status Asks a specified inputmodule to return thestatus of all ch
ADAM-5000 6-21Chapter 6$aaSiArrff $aaSiArrffName RTD ConfigurationDescription Sets slot index, input range, data format and integration
6-22 ADAM-5000Command Set$aaSiArrff $aaSiArrffaddress of an ADAM-5000 system.(cr) is the terminating character, carriage return (0Dh).Example command:
ADAM-5000 6-23Chapter 6$aaSiB $aaSiBName RTD Configuration StatusDescription Returns the configuration parameters for a specifiedRTD in
6-24 ADAM-5000Command Set$aaSiB $aaSiB(cr) is the terminating character, carriage return (0Dh).Example command: $35S3B(cr)response: !352000(cr)The RT
ADAM-5000 6-25Chapter 6$aaSi $aaSiName All RTD Data InDescription Returns the input values of all channels of a specifiedRTD input modu
6-26 ADAM-5000Command Set$aaSi $aaSiExample command: $35S3(cr)response: >+80.01 +20.00 -40.12(cr)The command requests the RTD input module in slot
ADAM-5000 6-27Chapter 6$aaSiCj $aaSiCjName Specified RTD Data InDescription Returns the input value of a specified channel for aspecifi
1Introduction
6-28 ADAM-5000Command Set$aaSiCj $aaSiCjExample command: $35S3C0(cr)response: >+80.01(cr)The command requests the RTD input module in slot 3of the
ADAM-5000 6-29Chapter 6$aaSiER $aaSiERName Initialize EEPROM DataDescription Initializes all EEPROM data in a specified analog inputmod
6-30 ADAM-5000Command Set$aaSi5mm $aaSi5mmName Enable/Disable Channels for multiplexingDescription Enables/Disables multiplexing for separate channels
ADAM-5000 6-31Chapter 6$aaSi5mm $aaSi5mminvalid.aa (range 00-FF) represents the 2-character hexadecimaladdress of an ADAM-5000 system.(
6-32 ADAM-5000Command Set$aaSi6 $aaSi6Name Read Channels StatusDescription Asks a specified input module to return the status of allchannelsSyntax $aa
ADAM-5000 6-33Chapter 6$aaSi6 $aaSi6(cr) is the terminating character, carriage return (0Dh)Example command: $00S16(cr)response: !0001
6-34 ADAM-5000Command Set$aaSi0 $aaSi0Name RTD Span CalibrationDescription Calibrates a specified RTD input module of a specifiedsystem to correct for
ADAM-5000 6-35Chapter 6$aaSi1 $aaSi1Name RTD Zero CalibrationDescription Calibrates a specified RTD input module of a specifiedsystem t
6-36 ADAM-5000Command Set$aaSi2 $aaSi2Name RTD Self CalibrationDescription Causes a specified RTD input module of a specifiedsystem to do a self calib
ADAM-5000 6-37Chapter 66.5 Analog Input Command SetNote: See pages 71-89 for Analog Input Alarm CommandSet.Command Syntax Command Name
1-2 ADAM-5000Introduction1.1 OverviewThe ADAM-5000 series is a complete product line that provides a widevariety of features in a data acquisition and
6-38 ADAM-5000Command Set$aaSiArrff $aaSiArrffName ConfigurationDescription Sets slot index, input range, data format and integrationtime for a specif
ADAM-5000 6-39Chapter 6$aaSiArrff $aaSiArrffResponse !aa(cr) if the command is valid.?aa(cr) if an invalid operation was entered.There
6-40 ADAM-5000Command Set$aaSiB $aaSiBName Configuration StatusDescription Returns the configuration status parameters for aspecified analog input mod
ADAM-5000 6-41Chapter 6$aaSiB $aaSiB(cr) is the terminating character, carriage return (0Dh)Example command: $26S1Bresponse: !260000T
6-42 ADAM-5000Command Set$aaSi5mm $aaSi5mmName Enable/Disable Channels for multiplexingDescription Enables/Disables multiplexing for separate channels
ADAM-5000 6-43Chapter 6$aaSi5mm $aaSi5mmaa (range 00-FF) represents the 2-character hexadecimaladdress of an ADAM-5000 system.(cr) is t
6-44 ADAM-5000Command Set$aaSi6 $aaSi6Name Read Channels StatusDescription Asks a specified input module to return the status of allchannelsSyntax $aa
ADAM-5000 6-45Chapter 6$aaSi6 $aaSi6channels 0-3. A value of 0 means the channel isdisabled, while a value of 1 means the channel isen
6-46 ADAM-5000Command Set#aaSi #aaSiName All Analog Data InDescription Returns the input value of all channels for a specifiedanalog input module of a
ADAM-5000 6-47Chapter 6#aaSi #aaSiExample command: #12S1(cr)response: +1.4567 +1.4852 +1.4675 +1.4325 +1.4889+1.4235 +1.4787 +1.4625(
ADAM-5000 1-3Chapter 11.2 System ConfigurationThe following diagram shows the system configurations possible withthe ADAM-5000.Figure 1
6-48 ADAM-5000Command Set#aaSiCj #aaSiCjName Specified Analog Data InDescription Returns the input value of a specified channels for aspecified analog
ADAM-5000 6-49Chapter 6#aaSiCj #aaSiCjExample command: #22S2C2(cr)response: >+1.4567The command requests the analog input module i
6-50 ADAM-5000Command Set$aaSiER $aaSiERName Initialize EEPROM dataDescription Initializes all EEPROM data in a specified analog inputmodule to their
ADAM-5000 6-51Chapter 6$aaSiØ $aaSi0Name Span CalibrationDescription Calibrates a specified analog input module to correct forgain erro
6-52 ADAM-5000Command Set$aaSi1 $aaSi1Name Zero CalibrationDescription Calibrates a specified analog input module to correct foroffset errorsSyntax $a
ADAM-5000 6-53Chapter 6$aaSi3 $aaSi3Name CJC Status Command (ADAM-5018 only)Description Returns the value of the CJC (Cold Junction Co
6-54 ADAM-5000Command Set$aaSi3 $aaSi3Example command: $09S13(cr)response: >+0036.8(cr)The command requests the analog input module in slot 1of
ADAM-5000 6-55Chapter 6$aaSi9shhhh $aaSi9shhhhName CJC Zero Calibration (ADAM-5018 only)Description Calibrates an analog input module
6-56 ADAM-5000Command Set$aaSi9shhhh $aaSi9shhhhExample command: $07S29+0042(cr)response: !07(cr)The command increases the CJC offset value of thean
ADAM-5000 6-57Chapter 66.6 ADAM-5017H Analog Input Command SetCommandSyntaxCommandNameDescription Remarks$aaSiCjArrFF Set Input Range
1-4 ADAM-5000Introduction1.3 A Few Steps to a Successful SystemStep 1: Review the Installation GuidelineYou should always make safety your first prio
6-58 ADAM-5000Command SetNote: The ADAM-5017H module also has "Alarm Setting"functions. The alarm command set for the ADAM-5017H is the sa
ADAM-5000 6-59Chapter 6$aaSiCjArrFF $aaSiCjArrFFName Set Input RangeDescription Sets the input range for a specified channel of a speci
6-60 ADAM-5000Command Set$aaSiCjArrFF $aaSiCjArrFFaddress of an ADAM-5000 system.(cr) is the terminating character, carriage return (0Dh).Example com
ADAM-5000 6-61Chapter 6$aaSiCjB $aaSiCjBName Read Input RangeDescription Returns the input range in engineering units for aspecified ch
6-62 ADAM-5000Command Set$aaSiCjB $aaSiCjBExample command: $35S3C1B(cr)response: !350b00(cr)Channel 1 of the ADAM-5017H module in slot 3 of theADAM-50
ADAM-5000 6-63Chapter 6$aaSiAFFff $aaSiAFFffName Set Data FormatDescription Sets the data format in engineering units or in two'sc
6-64 ADAM-5000Command Set$aaSiAFFff $aaSiAFFffinvalid.aa (range 00-FF) represents the 2-character hexadecimaladdress of an ADAM-5000 system.(cr) is t
ADAM-5000 6-65Chapter 6$aaSiB $aaSiBName Read Data FormatDescription Returns the data format for a specified analog inputmodule in a sp
6-66 ADAM-5000Command Set$aaSiB $aaSiBExample command: $35S3B(cr)response: !35FF00(cr)The ADAM-5017H module in slot 3 of the ADAM-5000system at addres
ADAM-5000 6-67Chapter 6#aaSi #aaSiName All Analog Data InDescription Returns the input value of all channels for a specifiedanalog inpu
2Installation Guideline
6-68 ADAM-5000Command Set#aaSi #aaSithe interrogated module of the specified system. The(dddd) from all channels is shown in sequence from 7 to0. If
ADAM-5000 6-69Chapter 6#aaSiCj #aaSiCjName Specified Analog Data InDescription Returns the input value of a specified channel of aspeci
6-70 ADAM-5000Command Set#aaSiCj #aaSiCjIf (data)=” “, it means the channel is invalid.(dddd) is the input value in two’s complement format ofthe spec
ADAM-5000 6-71Chapter 66.7 Analog Input Alarm Command SetNote: This command set applies to the ADAM-5013,ADAM-5017, ADAM-5017H and the
6-72 ADAM-5000Command Set$aaSiCjAhs $aaSiCjAhsName Set Alarm ModeDescription Sets the High/Low alarm of the specified input channelin the addressed AD
ADAM-5000 6-73Chapter 6$aaSiCjAhs $aaSiCjAhsExample command: $03S0C1AHL(cr)response: !03(cr)Channel 1 of slot 0 in the ADAM-5000 syst
6-74 ADAM-5000Command Set$aaSiCjAh $aaSiCjAhName Read Alarm ModeDescription Returns the alarm mode for the specified channel in thespecified ADAM-5000
ADAM-5000 6-75Chapter 6$aaSiCjAh $aaSiCjAhExample command: $03S0C1AL(cr)response: !03M(cr)Channel 1 of slot 0 in the ADAM-5000 system
6-76 ADAM-5000Command Set$aaSiCjAhEs $aaSiCjAhEsName Enable/Disable AlarmDescription Enables/Disables the High/Low alarm of the specifiedinput channel
ADAM-5000 6-77Chapter 6$aaSiCjAhEs $aaSiCjAhEsExample command: $03S0C1ALEE(cr)response: !03(cr)Channel 1 of slot 0 in the ADAM-5000 s
Copyright NoticeThis document is copyrighted, 2000, by Advantech Co., Ltd. Allrights are reserved. Advantech Co., Ltd., reserves the right to makeimpr
2-2 ADAM-5000Installation Guideline2.1 GeneralEnvironmental SpecificationsThe following table lists the environmental specifications that general-ly a
6-78 ADAM-5000Command Set$aaSiCjCh $aaSiCjChName Clear Latch AlarmDescription Sets the High/Low alarm to OFF (no alarm) for thespecified input channel
ADAM-5000 6-79Chapter 6$aaSiCjCh $aaSiCjChExample command: $03S0C1CL(cr)response: !03(cr)Channel 1 of slot 0 in the ADAM-5000 system
6-80 ADAM-5000Command Set$aaSiCjAhCSkCn $aaSiCjAhCSkCnName Set Alarm ConnectionDescription Connects the High/Low alarm of the specified inputchannel t
ADAM-5000 6-81Chapter 6$aaSiCjAhCSkCn $aaSiCjAhCSkCnExample command: $03S0C1ALCS1C0(cr)response: !03(cr)Channel 1 of slot 0 in the AD
6-82 ADAM-5000Command Set$aaSiCjRhC $aaSiCjRhCName Read Alarm ConnectionDescription Returns the High/Low alarm limit output connection of aspecified i
ADAM-5000 6-83Chapter 6$aaSiCjRhC $aaSiCjRhC(cr) represents terminating character, carriage return(0Dh)Example command: $03S0C1RLC(cr)
6-84 ADAM-5000Command Set$aaSiCjAhU(data) $aaSiCjAhU(data)Name Set Alarm LimitDescription Sets the High/Low alarm limit value for the specifiedinput c
ADAM-5000 6-85Chapter 6$aaSiCjAhU(data) $aaSiCjAhU(data)Example command: $03S0C1AHU+080.00(cr)response: !03(cr)Channel 1 of slot 0 in
6-86 ADAM-5000Command Set$aaSiCjRhU $aaSiCjRhUName Read Alarm LimitDescription Returns the High/Low alarm limit value for the specifiedinput channel i
ADAM-5000 6-87Chapter 6$aaSiCjRhU $aaSiCjRhUExample command: $03S0C1RHU(cr)response: !03+2.0500(cr)Channel 1 of slot 0 in the ADAM-50
ADAM-5000 2-3Chapter 2A complete description of the diagnostic indicators and how to usethem for troubleshooting is explained in Chapte
6-88 ADAM-5000Command Set$aaSiCjS $aaSiCjSName Read Alarm StatusDescription Reads whether an alarm occurred for the specified inputchannel in the spec
ADAM-5000 6-89Chapter 6$aaSiCjS $aaSiCjSExample command: $03S0C1S(cr)response: !0301(cr)The command instructs the system at address 0
6-90 ADAM-5000Command Set6.8 Analog Output Command SetCommand Syntax Command Name Description$aaSiCjArrff Configuration Sets the output range, datafo
ADAM-5000 6-91Chapter 6$aaSiCjArrff $aaSiCjArrffName ConfigurationDescription Sets the output range, data format and slew rate for aspe
6-92 ADAM-5000Command Set$aaSiCjArrff $aaSiCjArrff? delimiter character indicating the command wasinvalid.aa (range 00-FF) represents the 2-character
ADAM-5000 6-93Chapter 6$aaSiCjB $aaSiCjBName Configuration StatusDescription Returns the configuration parameters of a specifiedchannel
6-94 ADAM-5000Command Set$aaSiCjB $aaSiCjBBits 0 and 1 represent data format. Bits 2, 3, 4 and 5represent slew rate. The other bits are not used and
ADAM-5000 6-95Chapter 6#aaSiCj(data) #aaSiCj(data)Name Analog Data OutDescription Sends a digital value from the host computer to aspec
6-96 ADAM-5000Command Set#aaSiCj(data) #aaSiCj(data)? delimiter character indicating the command wasinvalid.(cr) is the terminating character, carriag
ADAM-5000 6-97Chapter 6$aaSiCj4 $aaSiCj4Name Start-Up Output Current/Voltage ConfigurationDescription Stores a default output value in
2-4 ADAM-5000Installation GuidelineFigure 2-2 ADAM-5000 Network address DIP switchDimensions and Weights (ADAM-5000)The following diagrams show the d
6-98 ADAM-5000Command Set$aaSiCj4 $aaSiCj4Example command: $0AS1C14(cr)response: !0A(cr)Presume the present output value of channel 1 of slot 1in th
ADAM-5000 6-99Chapter 6$aaSiCj0 $aaSiCj0Name 4 mA CalibrationDescription Directs the specified channel to store parametersfollowing a c
6-100 ADAM-5000Command Set$aaSiCj0 $aaSiCj0be connected to the module's output. (See also theanalog output module's Trim Calibration comman
ADAM-5000 6-101Chapter 6$aaSiCj1 $aaSiCj1Name 20 mA CalibrationDescription Directs the specified channel to store parametersfollowing a
6-102 ADAM-5000Command Set$aaSiCj1 $aaSiCj1be connected to the module's output. (See also theanalog output module's Trim Calibration comman
ADAM-5000 6-103Chapter 6$aaSiCj3hh $aaSiCj3hhName Trim CalibrationDescription Trims the specified channel a specified number of unitsup
6-104 ADAM-5000Command Set$aaSiCj3hh $aaSiCj3hh(cr) is the terminating character, carriage return (0Dh)Example command: $07S1C2314(cr)response: !07(
ADAM-5000 6-105Chapter 6$aaSiCj6 $aaSiCj6Name Last Value ReadbackDescription Returns either the last value sent to the specifiedchannel
6-106 ADAM-5000Command Set$aaSiCj6 $aaSiCj6Example command: $0AS2C16(cr)response: !0A03.000(cr)The command tells channel 1 of the analog outputmodul
ADAM-5000 6-107Chapter 66.9 Digital Input/Output Command SetCommand Syntax Command Name Description$aaSi6 Digital Data In Returns the
ADAM-5000 2-5Chapter 2 Module 5000/485 5000E 5013 5017 5017H 5018 5024 5050 Weight470g45g525g 79g 45g 72g 75g 63gDimensions and
6-108 ADAM-5000Command Set$aaSi6 $aaSi6Name Digital Data InDescription This command requests that the specified module in anADAM-5000 system at addres
ADAM-5000 6-109Chapter 6$aaSi6 $aaSi6aa (range 00-FF) represents the 2-character hexadecimaladdress of an ADAM-5000 system.(datainput)
6-110 ADAM-5000Command Set#aaSiBB(data) #aaSiBB(data)Name Digital Data OutDescription This command either sets a single digital output channelor sets
ADAM-5000 6-111Chapter 6#aaSiBB(data) #aaSiBB(data)A 4-character hexadecimal value is used to set thechannels, from 15 thru 0, of the A
6-112 ADAM-5000Command Set#aaSiBB(data) #aaSiBB(data)sent to the digital output module (ADAM-5056) in slot 1of the ADAM-5000 system at address 14h. C
ADAM-5000 6-113Chapter 6$aaSiM $aaSiMName Read Channel Masking StatusDescription Asks the specified module to return the masking status
6-114 ADAM-5000Command Set$aaSiM $aaSiM0 in an ADAM-5068 module. Each bit represents achannel. A value of 1 means the channel is masked,while a value
ADAM-5000 6-115Chapter 66.10 ADAM-5080 Counter/Frequency Command SetCommand Syntax Command Name Description$aaT Read Module NameReturns
6-116 ADAM-5000Command Set5080 Counter/Frequency ModuleCommand Syntax Command Name Description$aaSiCj6 Clear CounterClear the counters ofthe specified
ADAM-5000 6-117Chapter 6Command Syntax Command Name Description$aaSiCjAhU(data) Set Alarm LimitSets the High/Lowalarm limit value for t
2-6 ADAM-5000Installation Guideline2.2 Module InstallationWhen inserting modules into the system, align the PC board of themodule with the grooves on
6-118 ADAM-5000Command Set5080 Counter/Frequency Module$aaT $aaTName Read Module NameDescription Returns the module name from a specified ADAM-5000sys
ADAM-5000 6-119Chapter 6$aaT $aaTExample command: $25T(cr)Response !25FF80FFFF(cr)ADAM-5080 is plug in slot 1 and the command requestst
6-120 ADAM-5000Command Set5080 Counter/Frequency Module$aaF $aaFName Read Firmware VersionDescription Returns the firmware version code from a specifi
ADAM-5000 6-121Chapter 6Eample command: $18F(cr)response: !18A2.3(cr)The command requsets the system at address 18h tosend its firmwar
6-122 ADAM-5000Command Set5080 Counter/Frequency Module$aaSiArrff $aaSiArrffName Set ConfigurationDescription Set slot index and counter mode.Syntax $
ADAM-5000 6-123Chapter 6$aaSiArrff $aaSiArrffExample command: $24S1A0002(cr)response: !24(cr)The ADAM-5080 in Slot 1 of ADAM-5000 syste
6-124 ADAM-5000Command Set5080 Counter/Frequency Module$aaSiB $aaSiBName Read Configuration.Description The command requests the Configuration of slo
ADAM-5000 6-125Chapter 6$aaSiB $aaSiBExample command: $35S3B(cr)response: !350100(cr)The ADAM-5080 in Slot 3 of ADAM-5000 system ataddr
6-126 ADAM-5000Command Set5080 Counter/Frequency Module#aaSi #aaSiName Read All Channel Counter (Frequency) DataDescription Return the input value of
ADAM-5000 6-127Chapter 6#aaSi #aaSiExample command: #16S2(cr) response:If the response you got is in Counter mode, you'll seeone
ADAM-5000 2-7Chapter 22.4 MountingThe ADAM-5000 system can be installed on a panel or DIN rail.Panel MountingMount the system on the pa
6-128 ADAM-5000Command Set5080 Counter/Frequency Module#aaSi #aaSiHowever, if the response is in frequency mode , you'llsee one similar to the e
ADAM-5000 6-129Chapter 6#aaSiCj #aaSiCjName Read One Channel Counter (Frequency) DataDescription The command will return the input valu
6-130 ADAM-5000Command Set5080 Counter/Frequency Module#aaSiCj #aaSiCjExample command: $35S3C2(cr)response: >0000000451(cr)The command requests the
ADAM-5000 6-131Chapter 6$aaSiØ(data) $aaSiØ(data)Name Set Digital filter ScaleDescription Set the filter seconds to start to measure th
6-132 ADAM-5000Command Set5080 Counter/Frequency Module$aaSiØ(data) $aaSiØ(data)Example command: $26S3000765(cr)response: !26(cr)The ADAM-5080 in slot
ADAM-5000 6-133Chapter 6$aaSiØ $aaSiØName Read Digital filter scaleDescription Read the filter seconds to start to measure the inputsi
6-134 ADAM-5000Command Set5080 Counter/Frequency Module$aaSiØ $aaSiØExample command: $26S30(cr)response: !2600765(cr)The command requests the ADAM-508
ADAM-5000 6-135Chapter 6$aaSiCj5s $aaSiCj5sName Set Counter Start/StopDescription Request the addressed counter/frequency module tostar
6-136 ADAM-5000Command Set5080 Counter/Frequency Module$aaSiCj5s $aaSiCj5sExample command: $26S3C251(cr)response: !26(cr)The command requests channel
ADAM-5000 6-137Chapter 6$aaSiCj5 $aaSiCj5Name Read counter Start/StopDescription Requests the addressed counter/frequency module toin
2-8 ADAM-5000Installation GuidelineDIN Rail MountingThe system can also be secured to the cabinet by using mountingrails. If you mount the system on
6-138 ADAM-5000Command Set5080 Counter/Frequency Module$aaSiCj5 $aaSiCj5Example command: $26S3C25(cr)response: !261(cr)The channel 2 of ADAM-5080 in s
ADAM-5000 6-139Chapter 6$aaSiCj6 $aaSiCj6Name Clear CounterDescription Clear the counters of the specified counter/frequencymoduleSynta
6-140 ADAM-5000Command Set5080 Counter/Frequency Module$aaSiCj6 $aaSiCj6Example command: $26S3C26(cr)response: !26(cr)The command requests the channel
ADAM-5000 6-141Chapter 6$aaSi7 $aaSi7Name Read Overflow FlagDescription The command requests the addressed module to returnthe status
6-142 ADAM-5000Command Set5080 Counter/Frequency Module$aaSi7 $aaSi7Example command: $26S37(cr)response: !2600000001(cr)The command requests the ADAM-
ADAM-5000 6-143Chapter 6@aaSiCjP(data) @aaSiCjP(data)Name Set Initial Counter ValueDescription Set initial counter value for counter o
6-144 ADAM-5000Command Set5080 Counter/Frequency Module@aaSiCjP(data) @aaSiCjP(data)Example command: @26S3C2P0000004369(cr)response: !26(cr)The channe
ADAM-5000 6-145Chapter 6@aaSiCjG @aaSiCjGName Read Initial CounterDescription R
6-146 ADAM-5000Command Set5080 Counter/Frequency Module@aaSiCjG @aaSiCjGExample command: @26S3
ADAM-5000 6-147Chapter 6$aaSiCjAhEs $aaSiCjAhEsName Set Alarm Disable/LatchDescription The addressed counter module is instructed to s
ADAM-5000 2-9Chapter 2Figure 2-6 ADAM-5000E Rail mounting2.5 Wiring and ConnectionsThis section provides basic information on wiring t
6-148 ADAM-5000Command Set5080 Counter/Frequency Module$aaSiCjAhEs $aaSiCjAhEsExample command: $03S0C1ALED(cr)response: !03(cr)Channel 1 of slot 0 of
ADAM-5000 6-149Chapter 6$aaSiCjAh $aaSiCjAhName Read Alarm Disable/LatchDescription Return the alarm mode for the specified channel.Syn
6-150 ADAM-5000Command Set5080 Counter/Frequency Module$aaSiCjAh $aaSiCjAhExample command: $03S0C1AL(cr)response: !03L(cr)Channel 1 of slot 0 of ADAM-
ADAM-5000 6-151Chapter 6$aaSiCjCh $aaSiCjChName Clear Alarm StatusDescription Returns the alarm status to normalSyntax $aaSiCjCh(cr)$ i
6-152 ADAM-5000Command Set5080 Counter/Frequency Module$aaSiCjCh $aaSiCjChExample command: $03S0C1CL(cr)response: !03(cr)Channel 1 of slot 0 of ADAM-5
ADAM-5000 6-153Chapter 6$aaSiCjAhCSkCn $aaSiCjAhCSkCnName Set Alarm ConnectionDescription Connect the High/Low alarm of the specified i
6-154 ADAM-5000Command Set5080 Counter/Frequency Module$aaSiCjAhCSkCn $aaSiCjAhCSkCnExample command: $03S0C1ALCS1C0(cr)response: !03(cr)Channel 1 of s
ADAM-5000 6-155Chapter 6$aaSiCjRhC $aaSiCjRhCName Read Alarm ConnectionDescription Return the High/Low alarm limit output connection of
6-156 ADAM-5000Command Set5080 Counter/Frequency Module$aaSiCjRhC $aaSiCjRhCExample command: $03S0C1RLC(cr)response: !03SØC1(cr)Channel 1 of slot 0 of
ADAM-5000 6-157Chapter 6$aaSiCjAhU(data) $aaSiCjAhU(data)Name Set Alarm LimitDescription Set the High/Low alarm limit value for the spe
2-10 ADAM-5000Installation GuidelineINIT* is used for changing baud rate and checksum. COM is providedas reference to the RS-485 ground signal. DATA
6-158 ADAM-5000Command Set5080 Counter/Frequency Module$aaSiCjAhU(data) $aaSiCjAhU(data)Example command: $03SØC1AHU0000000020(cr)response: !03(cr)The
ADAM-5000 6-159Chapter 6$aaSiCjRhU $aaSiCjRhUName Read Alarm LimitDescription Return the High/Low alarm limit value for the specifiedin
6-160 ADAM-5000Command Set5080 Counter/Frequency Module$aaSiCjRhU $aaSiCjRhUExample command: $03SØC1RHU(cr)response: !030000000026(cr)The channel 1 of
ADAM-5000 6-161Chapter 6$aaSiCjS $aaSiCjSName Read Alarm StatusDescription Read whether an alarm occurred for the specified inputchanne
6-162 ADAM-5000Command Set5080 Counter/Frequency Module$aaSiCjS $aaSiCjSExample command: $03SØC1Sresponse: !0311(cr)The channel 1 of slot 0 of ADAM-50
7Troubleshooting
7-2 ADAM-5000TroubleshootingDiagnosisThe ADAM-5000 system provides two kinds of diagnosis: hardwarediagnosis and software diagnosis to help the user
ADAM-5000 7-3Chapter 7Error Code Error Type00h OK01h AI module span calibration error02h AI module self-calibration error04h AI module
7-4 ADAM-5000Troubleshooting1. External power to the system is incorrect or is not applied.2. Power supply is faulty.3. Other component(s) have the po
ADAM-5000 7-5Chapter 7If the power supply operates normally, you probably have either ashorted device or a shorted cable. If the power
ADAM-5000 2-11Chapter 25. Avoid running wires near high energy wiring6. Avoid running input wiring in close proximity to outputwiring w
7-6 ADAM-5000Troubleshooting7.5 I/O Module TroubleshootingThere is a LED to indicate the connection between the base and anI/O module in any ADAM-5000
AQuick Start Example
A-2 ADAM-5000Quick Start ExampleThis chapter provides guidelines to what is needed to set up andinstall a distributed ADAM-5000 network system. A quic
ADAM-5000 A-3Appendix AHost ComputerAny computer or terminal that can output in ASCII format over eitherRS-232 or RS-485 can be connect
A-4 ADAM-5000Quick Start Examplenetwork with long cables, we advise the use of thicker wire to limit theline voltage drop. In addition to serious vol
ADAM-5000 A-5Appendix Atransmit both DATA and RTS signals. It is advisable that the follow-ing standard colors be used for the communi
A-6 ADAM-5000Quick Start ExampleDefault Factory SettingsBaud rate: 9600 Bits/sec.Address: 01 (hexadecimal)The basic hook-up for system configuration
ADAM-5000 A-7Appendix AConfiguration with the ADAM Command SetADAM systems can also be configured by issuing direct commandfrom within
A-8 ADAM-5000Quick Start Example0F = set input range to type K thermocouple00 = set data format to engineering units, 50ms (60Hz)(See Chapter 6, Comma
ADAM-5000 A-9Appendix Aknown state. This state is called the INIT* state.INIT* state defaults:Baud rate: 9600Address: 00hChecksum: dis
A Message to the Customer...Advantech Customer ServicesEach and every Advantech product is built to the most exactingspecifications to ensure reliable
2-12 ADAM-5000Installation GuidelineRS-232 Port ConnectionThe RS-232 port is designed for field configuration and diagnostics.Users may connect a note
A-10 ADAM-5000Quick Start ExampleFigure A-3 Grounding the INIT* terminal3. Wait at least 7 seconds to let self-calibration and ranging takeef-fect.4.
ADAM-5000 A-11Appendix AA.4 A Distributed ADAM-5000 Network SystemHook-upThe figure below gives an example of how multiple ADAM systems
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BData Formatsand I/O Ranges
B-2 ADAM-5000Data Formats and I/O RangesB.1 Analog Input FormatsThe ADAM analog input modules can be configured to transmit datato the host in Enginee
ADAM-5000 B-3Appendix BExample 1The input value is -2.65 and the corresponding analog input module isconfigured for a range of ±5 V. T
B-4 ADAM-5000Data Formats and I/O RangesB.2 Analog Input Ranges - ADAM-5017 and 5018Module RangeCodeInput RangeDescriptionData Formats +F.S. Zero -F.S
ADAM-5000 B-5Appendix BModule RangeCodeInput Rang eDescriptionData Formats +F.S. Zero -F.S. DisplayedResolutionEngineeringUnits+15.000
B-6 ADAM-5000Data Formats and I/O RangesModule RangeCodeInput RangeDescriptionData Formats MaximumSpecifiedSignalMinimumSpecifiedSignalDisplayedResolu
ADAM-5000 B-7Appendix BB.3 Analog Input Ranges of ADAM-5017HNote: The full scale values in this table are theoreticalvalues for your re
ADAM-5000 2-13Chapter 2This Diagnostic Function requires the RS-485 port of ADAM-5000E tobe connected to COM1 of host PC, and the RS-23
B-8 ADAM-5000Data Formats and I/O RangesB.4 Analog Output FormatsYou can configure ADAM analog output modules to receive data fromthe host in Engineer
ADAM-5000 B-9Appendix BB.6 ADAM-5013 RTD Input Format and RangesRangeCode (hex)Input Rang eDescriptionDataFormatsMaximumSpecifiedSignal
B-10 ADAM-5000Data Formats and I/O Ranges
CRS-485 Network
C-2 ADAM-5000RS-485 NetworkEIA RS-485 is the industry’s most widely used bidirectional, balancedtransmission line standard. It is specifically develo
ADAM-5000 C-3Appendix CC.1 Basic Network LayoutMulti-drop RS-485 implies that there are two main wires in a segment.The connected syste
C-4 ADAM-5000RS-485 NetworkStar LayoutIn this scheme the repeaters are connected to drop-down cables fromthe main wires of the first segment. A tree
ADAM-5000 C-5Appendix CRandomThis is a combination of daisychain and hierarchical structure.Figure C-3 Random structure
C-6 ADAM-5000RS-485 NetworkCombination of an ADAM-4000 and an ADAM-5000 in aRS-485 NetworkThe following figure shows how to integrate ADAM-4000 andADA
ADAM-5000 C-7Appendix CFigure C-5 Signal distortionThe value of the resistor should be a close as possible to the charac-teristic imped
2-14 ADAM-5000Installation GuidelineADAMADAMADAMHost PCCOM1ADAM-4520RS-485RS-485RS-232ADAM-4000ADAM-5000EADAM-5000/485ADAM-5000ECOM2AFX FIXADAMADAMADA
C-8 ADAM-5000RS-485 NetworkFigure C-6 Termination resistor locationsBecause each input is biased to 2.4 V, the nominal common modevoltage of balanced
ADAM-5000 C-9Appendix CThe star connection causes a multitude of these discontinuities sincethere are several transmission lines and is
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DHow to Use theChecksum Feature
D-2 ADAM-5000How to Use the Checksum FeatureA checksum helps you to detect errors in commands from the host tothe modules, and in responses from the m
ADAM-5000 D-3Appendix DExample 2This example explains how to calculate the checksum value of a ReadHigh alarm limit command string:Case
D-4 ADAM-5000How to Use the Checksum FeatureHEX ASCII HEX ASCII HEX ASCII40 @ 60 `21 ! 41 A 61 a22 " 42 B 62 b23 # 43 C 63 c24 $ 44 D 64 d25 % 45
ADAM-5000 E-1Appendix EEADAM-4000/5000System GroundingInstallation
E-2 ADAM-5000ADAM-4000/5000 System Grounding InstallationE. 1 Power Supplies For relevant wiring issues,please refer to the following scheme :Figure E
ADAM-5000 E-3Appendix EFigure E-2: External Terminal Block and FanE.3 External DI, DO, AI, AO Wiring ReferenceØ The common end of some
3ADAM-5000 System
E-4 ADAM-5000ADAM-4000/5000 System Grounding InstallationØ The shielding material of the wires should only be grounded onone end as illustrated in the
ADAM-5000 E-5Appendix EE.5 Grounding reference (Ground bar for the factoryenvironment should have a standard resistance below5 ΩΩΩΩΩ)Si
E-6 ADAM-5000ADAM-4000/5000 System Grounding InstallationE.6 Some Suggestions on Wiring LayoutØ Since communication is carried through high-frequency
ADAM-5000 F-1Appendix FFGrounding Reference
F-2 ADAM-5000Grounding ReferenceField Grounding and Shielding ApplicationOverviewUnfortunately, it’s impossible to finish the system integration task
ADAM-5000 F-3Appendix F3. Noise Reduction Techniques4. Check Point ListF.1 Grounding1.1 The Earth for referenceFigure F-1: Think the
F-4 ADAM-5000Grounding Reference1.2 The Frame Ground and Grounding Bar Figure F-2: Grounding Bar.According to previous description, the grounding
ADAM-5000 F-5Appendix F1.3 Normal Mode and Common Mode Figure F-3: Normal mode and Common mode.Have you ever tried to measure the volta
F-6 ADAM-5000Grounding Reference Figure F-4: Normal mode and Common mode.• Ground-pin is longer than others, for first contact to power systemand nois
ADAM-5000 F-7Appendix F1.4 Wire impedance Figure F-5: The purpose of high voltage transmission• What’s the purpose of high voltage tran
3-2 ADAM-5000ADAM-5000 System3.1 OverviewThe ADAM-5000 series is a data acquisition and control system whichcan control, monitor and acquire data thro
F-8 ADAM-5000Grounding ReferenceAbove diagram just shows you that the wire impedance will consumethe power.1.5 Single Point Grounding Figure F-7: Sing
ADAM-5000 F-9Appendix F Figure F-8: Single point groundinF. (2)Above diagram shows you that single point grounding system will bea more
F-10 ADAM-5000Grounding Reference• Single isolated cableAbove diagram shows you the structure of the isolated cable. You cansee the isolated layer spi
ADAM-5000 F-11Appendix FBesides, following tips just for your reference.• The shield of cable can’t be used for signal ground.The shiel
F-12 ADAM-5000Grounding Reference• Never stripping too long of the plastic cable cover. Otherwise, thisimproper status will destroy the characteristic
ADAM-5000 F-13Appendix F Figure F-13: System Shielding (1)• Shield connection (1)When you want to visit somewhere, you must like to fin
F-14 ADAM-5000Grounding Reference• Shield connection (2)Above diagram shows you that the fill soldering just makes a easierway for the signal.F.3 Nois
ADAM-5000 F-15Appendix F Figure F-15: Noise Reduction TechniquesF.4 Check Point List• Follow the single point grounding rule?• Normal m
F-16 ADAM-5000Grounding Reference
ADAM-5000 3-3Chapter 3DiagnosisThere are 4 LEDs (indicated as PWR, RUN, TX and RX) to providevisual information on the general operatio
3-4 ADAM-5000ADAM-5000 Systemoutput of a channel of an analog input module. The relationship andtheir High/Low alarm limits may be downloaded into th
ADAM-5000 3-5Chapter 3programmed in virtually any high-level language. The details of allcommands will be covered in Chapter 6.Flexibl
3-6 ADAM-5000ADAM-5000 Systemprogram execution without undue influence on your system. Probabili-ty of a system crash has thus minimized.3.3 System Se
ADAM-5000 3-7Chapter 33.4 Technical Specifications of the ADAM-5000ProcessorCPU80188, 16-bit microprocessorRAM32 KBROM (Flash)128 KBI/O
Product WarrantyAdvantech warrants to you, the original purchaser, that each of itsproducts will be free from defects in materials and workmanship for
3-8 ADAM-5000ADAM-5000 SystemDATA+DATA-Opto-CoupledIsolation+5V GND+10~+VGNDPowerIsolationMemory16 BitupWDT&ResetP. S .Rectifier&PowerConverte
4I/O Modules
4-2 ADAM-5000I/O Modules3 RTDADAM-5013EXC 0+SEN 0+SEN 0-EXC 0+A. GNDEXC 1+SEN 1+SEN 1-EXC 1+A. GNDEXC 2+SEN 2+SEN 2-EXC 2-A. GND1614.1 RTD Input Modul
ADAM-5000 4-3Chapter 4Application wiringFigure 4-2: RTD inputsEXC0+SEN0+SEN0-EXC0-A.GND2 WireRTDEXC0+SEN0+SEN0-EXC0-A.GND3 WireRTDEXC0+
4-4 ADAM-5000I/O ModulesTechnical specifications of ADAM-5013Table 4-1: Technical specifications of ADAM-5013Analog input channelsthreeInput typePt or
ADAM-5000 4-5Chapter 44.2 ADAM-5013 RTD Input Resistance Calibration1. Apply power to the ADAM-5510/P31 system that the RTD inputmodule
4-6 ADAM-5000I/O ModulesNote: If the above procedure is ineffective, the user mustfirst issue an RTD Self Calibration command $aaSi2to the module and
ADAM-5000 4-7Chapter 44.3 Analog Input ModulesADAM-5017 8-channel analog input moduleThe ADAM-5017 is a 16-bit, 8-channel analog differ
4-8 ADAM-5000I/O ModulesApplication wiringFigure 4-5: Millivolt and volt inputFigure 4-6: Process current inputNote: To keep measurement accuracy plea
ADAM-5000 4-9Chapter 4Technical specifications of ADAM-5017Table 4-3: Technical specifications of ADAM-5017Analog input channelsEight d
4. Carefully pack the defective product, a completely filled-outRepair and Replacement Order Card and a photocopy of datedproof of purchase (such as y
4-10 ADAM-5000I/O ModulesADAM-5017H 8-channel high speed analog inputmoduleThe ADAM-5017H is a 12-bit plus sign bit, 8-channel analog differen-tial in
ADAM-5000 4-11Chapter 4Application wiringFigure 4-8: Millivolt and volt inputFigure 4-9: Process current input1V0+V0-V1+V1-V+-mV/V-+V1-
4-12 ADAM-5000I/O ModulesTechnical specifications of ADAM-5017HTable 4-4: Technical specifications of ADAM-5017HAnalog Input Channels 8 differentialAD
ADAM-5000 4-13Chapter 4Table 4-5: ADAM-5017H input signal rangesADAM-5018 7-channel thermocouple input moduleThe ADAM-5018 is a 16-bit,
4-14 ADAM-5000I/O ModulesADAM-5018Figure 4-10: ADAM-5018 module frontal viewApplication wiringFigure 4-11: Thermocouple input161ADAM-50187 T/CV3-V3+V2
ADAM-5000 4-15Chapter 4Technical specifications of ADAM-5018Table 4-6: Technical specifications of ADAM-50184.4 Analog Output ModulesAD
4-16 ADAM-5000I/O ModulesYou can specify slew rates and start up currents through the configu-ration software. The analog output can also be configur
ADAM-5000 4-17Chapter 4Application wiringFigure 4-13: Analog outputTechnical specifications of ADAM-5024Table 4-7: Technical specificat
4-18 ADAM-5000I/O Modules4.5 Analog I/O Modules CalibrationAnalog input/output modules are calibrated when you receive them.However, calibration is so
ADAM-5000 4-19Chapter 44. Execute the Zero Calibration command (also called the OffsetCalibration command). This is also done with the
ContentsChapter 1 Introduction ... 1-11.1 Overview ...
4-20 ADAM-5000I/O Modules6. Only for ADAM-5018: Execute the CJC (cold junction sensor)Calibration command. This can be done with the ADAM utilitysoftw
ADAM-5000 4-21Chapter 4Calibration voltage (ADAM-5017/5018)Table 4-8: Calibration voltage of ADAM-5017/5018Module Input RangeCode (Hex)
4-22 ADAM-5000I/O ModulesCalibration voltage (ADAM-5017H)Table 4-9: Calibration voltage of ADAM-5017H(1) Note: You can substitute 2.5 V for 20 mA if
ADAM-5000 4-23Chapter 4Analog output module calibrationThe output current of analog output modules can be calibrated byusing a low cali
4-24 ADAM-5000I/O Modulesvalue of 4 mA.5. Check the actual output value at the modules terminals. If thisdoes not equal 4 mA, use the "Trim"
ADAM-5000 4-25Chapter 4 Figure 4-19: Dip switch setting for digital I/O channelADAM-5050Figure 4-20: ADAM-5050 module frontal viewAppli
4-26 ADAM-5000I/O ModulesFigure 4-22: Wet contact signal input (ADAM-5050)Figure 4-23: Digital output used with SSR (ADAM-5050/5056)limits current to
ADAM-5000 4-27Chapter 4Technical specifications of ADAM-5050Table 4-10: Technical specifications of ADAM-5050ADAM-5051 16-channel digit
4-28 ADAM-5000I/O ModulesDigitalInput+5 VDCContactClosure10KPower GNDInternalLogicInternalLogicApplication wiringFigure 4-25: TTL input (ADAM-5051)Fig
ADAM-5000 4-29Chapter 4Figure 4-27: ADAM-5051D ModuleOverviewCompatible ADAM-5000 Series Main UnitsADAM-5051D is designed to be impleme
4.5 Analog I/O Modules Calibration... 4-184.6 Digital Input/Output Modules ... 4-244.7 Relay O
4-30 ADAM-5000I/O ModulesDigitalInput+5 VDCContactClosure10KPower GNDDigitalInput+5 VDCTTL Input10KPower GNDADAM-5051D Application WiringFigure 4-28:
ADAM-5000 4-31Chapter 4ADAM-5052 8-channel isolated digital input moduleThe ADAM-5052 provides eight fully independent isolated channel
4-32 ADAM-5000I/O ModulesTechnical specifications of ADAM-5052Table 4-13: Technical specifications of ADAM-5052ADAM-5056 16-channel digital output mod
ADAM-5000 4-33Chapter 4Internal LogicR2 limit current to 100 mA- Vss+ VssOpenCollectorPower GroundPower GroundApplication wiringFigure
4-34 ADAM-5000I/O ModulesCompatible ADAM-5000 Series Main UnitsADAM-5056D is designed to be implemented within the followingAdvantech ADAM-5000 series
ADAM-5000 4-35Chapter 4Digital Output Holding FunctionA yellow mini jumper is added to the PCB, the major function of whichis to hold t
4-36 ADAM-5000I/O ModulesMain Units Supporting Digital Output Holding FunctionThe Digital Output Holding Function is applicable only to ADAM-5510 and
ADAM-5000 4-37Chapter 4ADAM-5056 ADAM-5056DNumber ofChannels16 16Operating Voltage30 Vmax 30 VmaxDigital OutputOpen Collector to 30V100
4-38 ADAM-5000I/O Modules4.7 Relay Output ModulesADAM-5060 relay output moduleThe ADAM-5060 relay output module is a low-cost alternative to SSRmodule
ADAM-5000 4-39Chapter 4Technical specifications of ADAM-5060Table 4-17: Technical specifications of ADAM-5060ADAM-5068 relay output mod
6.8 Analog Output Command Set ... 6-906.9 Digital Input/Output Command Set ... 6-1076.10 ADAM-5080 Cou
4-40 ADAM-5000I/O ModulesNOCForm A(NO)Application wiringFigure 4-39: Relay outputTechnical specifications of ADAM-5068Table 4-18: Technical specifica
ADAM-5000 4-41Chapter 44.8 Counter/Frequency ModuleOverviewCompatible ADAM-5000 Series Main UnitsADAM-5080 is a 4-channel counter/frequ
4-42 ADAM-5000I/O ModulesC0A+COA-COB+/D+C1A+C1A-C1B+/D+C1B-/D-C2A+C2A-C2B+/D+C2B-/D-C3A+C3A-C3B+/D+C3B-/D-COB-/D-GNDGNDGNDGNDGNDGNDGNDGNDISOLATETTLADA
ADAM-5000 4-43Chapter 4Figure 4-42: TTL Input LevelADAM-5080 Counter/Frequency Mode SelectionUsers can select Bi-direction, Up/Down Cou
4-44 ADAM-5000I/O ModulesC0A+C0A-C0B+/D+C0B-/D-Features -- Counter ModeUp/Down CountingThe Up/Down Counter Function offers two types of counting:Up Co
ADAM-5000 4-45Chapter 4C0A+C0A-C0B+/D+C0B-/D-C0A+C0A-C0B+/D+C0B-/D-Figure 4-45: Wiring for Bi-direction CountingFigure 4-46: Wiring for
4-46 ADAM-5000I/O ModulesSetting Initial Counter ValueIn oder to utilize the alarm function, users have to set a high-alarmlimit value and/or a low a
ADAM-5000 4-47Chapter 4Figure 4-48: Sending Alarm Signal (recommended settings)Figure 4-49: Sending Alarm Signal (settings not recommen
4-48 ADAM-5000I/O ModulesOverflow ValueOverflow value is the number of times the counter value exceeds theMax/Min values you specified. When the count
ADAM-5000 4-49Chapter 4Figure 4-50: Digital Output MappingFeatures--Digital Output MappingIf users want to use Digital Output function,
C.2 Line Termination... C-6C.3 RS-485 Data Flow Control ... C-9C
4-50 ADAM-5000I/O ModulesTTL/Isolated Input LevelAccording to your need, you can select either TTL or Isolated InputLevel by setting the configuration
ADAM-5000 4-51Chapter 4ADAM-5080 Technical SpecificationsTable 4-19: ADAM-5080 technical specificationsChannel 4Input Frequency0.3 ~ 1
4-52 ADAM-5000I/O Modules
5Software Utilities
5-2 ADAM-5000Software UtilitiesThere are some software utilities available to the ADAM-5000 sys-tems. The DOS and Windows utility software helps you
ADAM-5000 5-3Chapter 5Figure 5-1 Main screenNormally you will use the Search command to scan the network.Highlight the Search command
5-4 ADAM-5000Software Utilitiescurrent values of its inputs. An example is shown in Figure 5-2 for anADAM-5000 system.Figure 5-2 Setup optionsThere a
ADAM-5000 5-5Chapter 5After you have made the changes for a block of parameters, press<ESC>. You will be asked if you are satisf
5-6 ADAM-5000Software UtilitiesCalibrationPress <Enter> on the Calibrate option on the top bar and a selectionbar appears in the status field.
ADAM-5000 5-7Chapter 5underneath. To resend a command simply press <Enter>.Choose Full Screen to select Terminal Emulation mode.
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