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The ADAM-5000 system can be configured remotelythrough their communication ports, without having to physically alterpot or switch settings.Since there is no visual indication of a system's configuration status, itis not possible to visually determine baud rate and other systemsettings. It might not be possible to establish communications with asystem whose baud rate and address are unknown. To overcome thisproblem, every system has an input terminal labeled INIT*. Bybooting the system while connecting the INIT* terminal with thesystem's GND terminal, the system configuration is forced into aA-8ADAM-5000Appendix Aknown state.
This state is called the INIT* state.INIT* state defaults:Baud rate: 9600Address: 00hChecksum: disabledForcing the system into the INIT* state does not change any parameters in the system's EEPROM. When the system is in the INIT* statewith its INIT* and GND terminal shorted, all configuration settings canbe changed and the system will respond to all other commandsnormally.Changing Baud Rate and ChecksumBaud rate and checksum setting have several things in common:• They should be the same for all systems and host computer.• Their setting can only be changed by putting a system in the INIT*state.• A changed setting can only take effect after a system is rebooted.To alter baud rate or checksum settings you must perform the following steps:1. Power on all components except the ADAM-5000 system2.
Power the ADAM-5000 system ON while shorting the INIT*and GND terminals as shown in Figure A-3.ADAM-5000A-9Quick Start Example++Vs-GNDINIT*COMDATA+DATA-Figure A-3 Grounding the INIT* terminal3. Wait at least 7 seconds to let self-calibration and ranging takeeffect.4. Configure the baud rate and/or checksum status.5. Switch the power to the ADAM-5000 system OFF.6. Remove the grounding on the INIT* terminal and power theADAM-5000 system ON.7.
Wait at least 7 seconds to let self-calibration and ranging takeeffect.8. Check the settings. (If the baud rate has changed, the settings onthe host computer should be changed accordingly)A-10ADAM-5000Appendix AA.4 A Distributed ADAM-5000 Network SystemHook-upThe figure below gives an example of how multiple ADAM systemsshould be connected:Figure A-4 ADAM-5000 network system hook-upADAM-5000A-11Quick Start ExampleThis page intentionally left blankA-12ADAM-5000BData Formatsand I/O RangesData Formats and I/O RangesB.1Analog Input FormatsThe ADAM analog input modules can be configured to transmit datato the host in Engineering Units.Engineering UnitsData can be represented in Engineering Units by setting bits 0 and 1 ofthe data format/checksum/integration time parameter to 0.This format presents data in natural units, such as degrees, volts,millivolts, and milliamps. The Engineering Units format is readilyparsed by the majority of computer languages because the total datastring length, including sign, digits and decimal point, does not exceedseven characters.The data format is a plus (+) or minus (-) sign, followed by five decimaldigits and a decimal point.
The input range which is employeddetermines the resolution, or the number of decimal places used, asillustrated in the following table:Input Range±15 mV, ±50 mV1 µV (three decimal places)±100 mV, ±150 mV,±500 mV10 µV (two decimal places)±1 V, ±2.5 V, ±5 V100 µV (four decimal places)±10 V1 mV (three decimal places)±20 mA1 µA (three decimal places)Type J and Tthermocouple0.01ºC (two decimal places)Type K, E, R, S, and BthermocoupleB-2Resolution0.1ºC (one decimal place)ADAM-5000Appendix BExample 1The input value is -2.65 and the corresponding analog input module isconfigured for a range of ±5 V.
The response to the Analog Data Incommand is:-2.6500(cr)Example 2The input value is 305.5ºC. The analog input module is configured fora Type J thermocouple whose range is 0ºC to 760ºC. The response tothe Analog Data In command is:+305.50(cr)Example 3The input value is +5.653 V. The analog input module is configured fora range of ±5 V range. When the engineering units format is used, theADAM Series analog input modules are configured so that theyautomatically provide an over range capability. The response to theAnalog Data In command in this case is:+5.6530(cr)ADAM-5000B-3Data Formats and I/O RangesB.2Analog Input Ranges - ADAM-5017 and 5018Module Range Input RangeCode Description08h09hADAM- 0Ah50170Bh0Ch0DhB-4±10 V±5 V±1 V±500 mV±150 mV±20 mAData Formats +F.S.Zero-F.S.DisplayedResolutionEngineeringUnits+10.000±00.000-10.0001 mV% of FSR+100.00±000.00-100.000.01%Two'sComplement7FFF000080001 LSBEngineeringUnits+5.0000±0.0000-5.0000100.00 µV% of FSR+100.00±000.00-100.000.01%Two'sComplement7FFF000080001 LSBEngineeringUnits+1.0000±0.0000-1.0000100.00 µV% of FSR+100.00±000.00-100.000.01%Two'sComplement7FFF000080001 LSBEngineeringUnits+500.00±000.00-500.0010 µV% of FSR+100.00±000.00-100.000.01%Two'sComplement7FFF000080001 LSBEngineeringUnits+150.00±000.00-150.0010 µV% of FSR+100.00±000.00-100.000.01%Two'sComplement7FFF000080001 LSBEngineeringUnits+20.000±00.000-20.0001 µA% of FSR+100.00±000.00-100.000.01%Two'sComplement7FFF000080001 LSBADAM-5000Appendix BModule Range Input RangeCode Description00h01hADAM- 02h501803h04h05h06h07hADAM-5000±15 mV±50 mV±100 mV±500 mV±1 V±2.5 V±20 mAData Formats +F.S.Zero-F.S.DisplayedResolutionEngineeringUnits+15.000±00.000-15.0001 µV% of FSR+100.00±000.00-100.000.01%Two'sComplement7FFF000080001 LSBEngineeringUnits+50.000±00.000-50.0001 µV% of FSR+100.00±000.00-100.000.01%Two'sComplement7FFF000080001 LSBEngineeringUnits+100.00±000.00-100.0010 µV% of FSR+100.00±000.00-100.000.01%Two'sComplement7FFF000080001 LSBEngineeringUnits+500.00±000.00-500.0010 µV% of FSR+100.00±000.00-100.000.01%Two'sComplement7FFF000080001 LSBEngineeringUnits+1.0000±0.0000-1.0000100 µV% of FSR+100.00±000.00-100.000.01%Two'sComplement7FFF000080001 LSBEngineeringUnits+2.5000±0.0000-2.5000100 µV% of FSR+100.00±000.00-100.000.01%Two'sComplement7FFF000080001 LSBEngineeringUnits+20.000±00.000-20.0001 µA% of FSR+100.00±000.00-100.000.01%Two'sComplement7FFF000080001 LSBNot UsedB-5Data Formats and I/O RangesModule Range Input RangeCodeDescription0Eh0FhADAM- 10h501811h12h13h14hB-6Data Formats MaximumSpecifiedSignalMinimumSpecifiedSignalDisplayedResolutionType JEngineeringUnits+760.00+000.000.1ºCThermocouple% of FSR+100.00+000.000.01%0ºC to 760ºCTwo'sComplement7FFF00001 LSBType KEngineeringUnits+1000.0+0000.00.1ºCThermocouple% of FSR+100.00+000.000.01%0ºC to 1000ºCTwo'sComplement7FFF00001 LSBType TEngineeringUnits+400.00-100.000.1ºCThermocouple% of FSR+100.00-025.000.01%-100ºC to400ºCTwo'sComplement7FFFE0001 LSBType EEngineeringUnits+1000.0+0000.00.1ºCThermocouple% of FSR+100.00+000.000.01%0ºC to 1000ºCTwo'sComplement7FFF00001 LSBType REngineeringUnits+1750.0+0500.00.1ºCThermocouple% of FSR+100.00+028.570.01%500ºC to1750ºCTwo'sComplement7FFF24921 LSBType SEngineeringUnits+1750.0+0500.00.1ºCThermocouple% of FSR+100.00+028.570.01%500ºC to1750ºCTwo'sComplement7FFF24921 LSBType BEngineeringUnits+1800.0+0500.00.1ºCThermocouple% of FSR+100.00+027.770.01%500ºC to1800ºCTwo'sComplement7FFF23811 LSBADAM-5000Appendix BB.3Analog Input Ranges of ADAM-5017HRange InputCode RangeDataFormats00h01h02h03h04h±10 V0-10 V±5 V0-5 V±2.5 V+FullScaleZero-Full Scale DisplayedResolutionEngineering 110-112.7 mVTwo's Comp 0FFF0EFFF1Engineering 110Don't care 2.7 mVTwo's Comp 0FFF0Don't care 1Engineering0-5.51.3 mVTwo's Comp 0FFF0EFFF1Engineering0Don't care 1.3 mVTwo's Comp 0FFF0Don't care 1Engineering0-2.750.67 mVTwo's Comp 0FFF0EFFF10Don't care 0.67 mV5.55.52.7505h0-2.5 VEngineeringTwo's Comp 0FFF0Don't care 106h±1 VEngineering 1.3750-1.3750.34 mVTwo's Comp 0FFF0EFFF1Engineering 1.3750Don't care 0.34 mVTwo's Comp 0FFF0Don't care 1Engineering687.50-687.50.16 mVTwo's Comp 0FFF0EFFF1687.50Don't care 0.16 mVTwo's Comp 0FFF0Don't care 1Engineering4.0Don't care 5.3 µA07h08h09h0ah0bh0-1 V±500 mV0-500 mV Engineering4-20 mA0-20 mA2.7522Two's Comp 0FFF02E9 Don't care 1Engineering0Don't care 5.3 µA0Don't care 122Two's Comp 0FFFNote:ADAM-5000The full scale values in this table are theoreticalvalues for your reference; actual values will vary.B-7Data Formats and I/O RangesB.4Analog Output FormatsYou can configure ADAM analog output modules to receive data fromthe host in Engineering Units.Engineering UnitsData can be represented in engineering units by setting bits 0 and 1 ofthe data format/checksum/integration time parameter to 0.This format presents data in natural units, such as milliamps.
TheEngineering Units format is readily parsed by the majority of computerlanguages as the total data string length is fixed at six characters: twodecimal digits, a decimal point and three decimal digits. The resolutionis 5 µA.Example:Channel 1 of the analog output module in slot 0 of an ADAM-5000system at address 01h is configured for a 0 to 20 mA range. If theoutput value +4.762 mA is desired, the format of the Analog Data Outcommand would be #01S0C14.762<cr>B.5Analog Output RangesRange Output Range Data Formats Maximum Minimum DisplayedCode DescriptionSpecified Specified Resolution(hex)SignalSignal30h31h32hB-80 to 20 mA4 to 20 mA0 to 10 VEngineeringUnits20.00000.0005 µA% of Span+100.00+000.005 µAHexadecimalBinaryFFF0005 µAEngineeringUnits20.00004.0005 µA% of Span+100.00+000.005 µAHexadecimalBinaryFFF0005 µAEngineeringUnits10.00000.0002.442 mV% of Span+100.00+000.002.442 mVHexadecimalBinaryFFF0002.442 mVADAM-5000Appendix BB.6ADAM-5013 RTD Input Format and RangesInput RangeDescription20h100 OhmsEngineering +100.00PlatinumUnitsRTD -100 to100° Ca=0.00385-100.00+-0.1° C21h100 OhmsPlatinumRTD 0 to100° Ca=0.00385Engineering +100.00Units+000.00+-0.1° C22h100 OhmsPlatinumRTD 0 to200° Ca=0.00385Engineering +200.00Units+000.00+-0.2° C23h100 OhmsPlatinumRTD 0 to600° Ca=0.00385Engineering +600.00Units+000.00+-0.6° C24h100 OhmsEngineering +100.00PlatinumUnitsRTD -100 to100° Ca=0.00392-100.00+-0.1° C25h100 OhmsPlatinumRTD 0 to100° Ca=0.00392Engineering +100.00Units+000.00+-0.1° C26h100 OhmsPlatinumRTD 0 to200° Ca=0.00392Engineering +200.00Units+000.00+-0.2° C27h100 OhmsPlatinumRTD 0 to600° Ca=0.00392Engineering +600.00Units+000.00±0.6° C28h120 OhmsNickel RTD-80 to100° CEngineering +100.00Units-80.00±0.1° C29h120 OhmsNickel RTD0 to 100° CEngineering +100.00Units+000.00±0.1° CADAM-5000DataFormatsMaximum Minimum DisplayedSpecified Specified ResolutionSignalSignalRangeCode (hex)B-9Data Formats and I/O RangesB-10ADAM-5000CRS-485 NetworkRS-485 NetworkEIA RS-485 is the industry’s most widely used bidirectional, balancedtransmission line standard.
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