Advantech RS-485 инструкция обслуживания
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Хорошее руководство по эксплуатации
Законодательство обязывает продавца передать покупателю, вместе с товаром, руководство по эксплуатации Advantech RS-485. Отсутствие инструкции либо неправильная информация, переданная потребителю, составляют основание для рекламации в связи с несоответствием устройства с договором. В законодательстве допускается предоставлении руководства в другой, чем бумажная форме, что, в последнее время, часто используется, предоставляя графическую или электронную форму инструкции Advantech RS-485 или обучающее видео для пользователей. Условием остается четкая и понятная форма.
Что такое руководство?
Слово происходит от латинского "instructio", тоесть привести в порядок. Следовательно в инструкции Advantech RS-485 можно найти описание этапов поведения. Цель инструкции заключается в облегчении запуска, использования оборудования либо выполнения определенной деятельности. Инструкция является набором информации о предмете/услуге, подсказкой.
К сожалению немного пользователей находит время для чтения инструкций Advantech RS-485, и хорошая инструкция позволяет не только узнать ряд дополнительных функций приобретенного устройства, но и позволяет избежать возникновения большинства поломок.
Из чего должно состоять идеальное руководство по эксплуатации?
Прежде всего в инструкции Advantech RS-485 должна находится:
- информация относительно технических данных устройства Advantech RS-485
- название производителя и год производства оборудования Advantech RS-485
- правила обслуживания, настройки и ухода за оборудованием Advantech RS-485
- знаки безопасности и сертификаты, подтверждающие соответствие стандартам
Почему мы не читаем инструкций?
Как правило из-за нехватки времени и уверенности в отдельных функциональностях приобретенных устройств. К сожалению само подсоединение и запуск Advantech RS-485 это слишком мало. Инструкция заключает ряд отдельных указаний, касающихся функциональности, принципов безопасности, способов ухода (даже то, какие средства стоит использовать), возможных поломок Advantech RS-485 и способов решения проблем, возникающих во время использования. И наконец то, в инструкции можно найти адресные данные сайта Advantech, в случае отсутствия эффективности предлагаемых решений. Сейчас очень большой популярностью пользуются инструкции в форме интересных анимаций или видео материалов, которое лучше, чем брошюра воспринимаются пользователем. Такой вид инструкции позволяет пользователю просмотреть весь фильм, не пропуская спецификацию и сложные технические описания Advantech RS-485, как это часто бывает в случае бумажной версии.
Почему стоит читать инструкции?
Прежде всего здесь мы найдем ответы касательно конструкции, возможностей устройства Advantech RS-485, использования отдельных аксессуаров и ряд информации, позволяющей вполне использовать все функции и упрощения.
После удачной покупки оборудования/устройства стоит посвятить несколько минут для ознакомления с каждой частью инструкции Advantech RS-485. Сейчас их старательно готовят или переводят, чтобы они были не только понятными для пользователя, но и чтобы выполняли свою основную информационно-поддерживающую функцию.
Содержание руководства
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ADAM-5000 Series RS-485 Based Data Acquisition and Control System User's Manual[...]
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Copyright Notice This document is copyrighted, 2000, by Advantech Co., Ltd. All rights are reserved. Advantech Co., Ltd., reserves the right to make improvements to the products described in this manual at any time without notice. No part of this manual may be reproduced, copied, translated or transmitted in any form or by any means without the pri[...]
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A Message to the Customer ... Advantech Customer Services Each and every Advantech product is built to the most exacting specifications to ensure reliable performance in the unusual and demanding conditions typical of industrial environments. Whether your new Advantech equipment is destined for the laboratory or the factory floor , you can be assur[...]
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Product W arranty Advantech warrants to you, the original purchaser , that each of its products will be free from defects in materials and workmanship for one year from the date of purchase. This warranty does not apply to any products which have been repaired or altered by other than repair personnel authorized by Advantech, or which have been sub[...]
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4 . Carefully pack the defective product, a completely filled-out Repair and Replacement Order Card and a photocopy of dated proof of purchase (such as your sales receipt) in a shippable container . A product returned without dated proof of purchase is not eligible for warranty service. 5 . W rite the RMA number visibly on the outside of the packag[...]
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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 Installa[...]
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4. 5 Analog I/O Modules Calibration ............................. 4-18 4.6 Digital Input/Output Modules ................................. 4-24 4. 7 Relay Output Modules ............................................ 4-38 4. 8 Counter/Frequency Module .................................... 4-41 Chapter 5 Software Utilities ..............................[...]
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6. 8 Analog Output Command Set ................................ 6-90 6. 9 Digital Input/Output Command Set ...................... 6-107 6.10 ADAM-5080 Counter/Frequency Command Set ........................................................ 6 - 1 1 5 Chapter 7 T roubleshooting ..................................................... 7 - 1 7. 1 Hardware D[...]
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C.2 Line T ermination ...................................................... C-6 C.3 RS-485 Data Flow Control ...................................... C-9 Chapter D How to Use the Checksum Feature ............................................... D - 1 D.1 Checksum Enable/Disable ....................................... D-2 Chapter E ADAM-4000/5000 Syst[...]
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Figur es Figure 1-1: ADAM-5000 System 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 Figur[...]
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Figure 4-21: Dry contact signal input (ADAM-5050) ............................ 4-25 Figure 4-22: Wet contact signal input (ADAM-5050) ........................... 4-26 Figure 4-23: Digital output used with SSR (ADAM-5050/5056) .......... 4-26 Figure 4-24: ADAM-5051 module frontal view ..................................... 4-27 Figure 4-25: TTL input[...]
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Figure 5-6: Save the information of connected modules to txt file .... 5-12 Figure 5-7: Setup options .................................................................. 5-12 Figure 5-8: Checksum function enabled .......................................... 5-15 Figure 5-9: The connection for the Data Scope function .................. 5-16 Figure 5-10[...]
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Figure F-1 1: System Shielding ............................................................ F-1 1 Figure F-12: The characteristic of the cable ........................................ F-12 Figure F-13: System Shielding (1) ...................................................... F-13 Figure F-14: System Shielding (2) .................................[...]
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T ables T able 4-1: T echnical specifications of ADAM-5013 ............................. 4 - 4 T able 4-2: Calibration resistances of ADAM-5013 .............................. 4 -6 T able 4-3: T echnical specifications of ADAM-5017 ............................. 4 - 9 T able 4-4: T echnical specifications of ADAM-5017H ........................ 4-12 T[...]
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1 Introduction[...]
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1-2 ADAM-5000 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 commands and transmitted in a RS-485 netw[...]
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ADAM-5000 1-3 Chapter 1 1.2 System Configuration The following diagram shows the system configurations possible with the ADAM-5000. Figure 1-1 ADAM-5000 System Configurations Note: T o av oid system ov er heating, only f our ADAM-5024 are allowed to be installed on AD AM-5000E.[...]
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1-4 ADAM-5000 Introduction 1.3 A Few Steps to a Successful System Step 1: Review the Installation Guideline Y ou 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 The system module is the heart of [...]
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2 Installation Guideline[...]
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2-2 ADAM-5000 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 t em perature -13 to 18 5°F (-25 to 85° C) Ambient operating temperature 14 to 158°F (-10 to 70°C) A[...]
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ADAM-5000 2-3 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 the network address using the 8-pin DIP switch. V alid settings range from 0 to 255 (00h to FFh) where ON in any of the 8 DIP[...]
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2-4 ADAM-5000 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.[...]
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ADAM-5000 2-5 Chapter 2 Modu le 5000/485 5000E 5013 5017 5017H 5018 5024 5050 Wei ght 470g 45g 525g 79g 45g 72g 75g 63g Dimensions and Weights (ADAM-5000E) The following diagrams show the dimensions of the system unit and the I/O unit of the ADAM-5000E. All dimensions are in millimeters. M odul e 5051 5051D 5052 5056 5056 D 5060 5068 5080 Weight 65[...]
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2-6 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 into the system, push in the retaining[...]
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ADAM-5000 2-7 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. Y ou cannot mount the system vertically , upside down or on a flat horizontal surface. A standard #7 tating screw (4mm diameter) should be used. Figure 2-4 ADAM[...]
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2-8 ADAM-5000 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 helps minimize the possibility of a[...]
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ADAM-5000 2-9 Chapter 2 Figure 2-6 ADAM-5000E Rail mounting 2. 5 Wiring and Connections 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 of between 10 to 30 V DC . T ermina[...]
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2-10 ADAM-5000 Installation Guideline INIT* is used for changing baud rate and checksum. COM is provided as reference to the RS-485 ground signal. DA T A+ and DA T A- are provided for the RS-485 twisted pair connection. Figure 2-7 ADAM-5000 Wiring and connections I/O Modules Wiring The system uses plug-in screw terminal blocks for the interface bet[...]
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ADAM-5000 2-11 Chapter 2 5 . A void running wires near high energy wiring 6 . A void running input wiring in close proximity to output wiring where possible 7 . A void 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 through a cable to a network [...]
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2-12 ADAM-5000 Installation Guideline 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 port connecti[...]
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ADAM-5000 2-13 Chapter 2 This Diagnostic Function requires the RS-485 port of ADAM-5000E to be connected to COM1 of host PC, and the RS-232 port of ADAM-5000E to COM2 of the previous host PC or other PCs. Then you should install software such as ComW atch or Hyperterminal and so on to monitor the commands that are being issued and the subse- quent [...]
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2-14 ADAM-5000 Installation Guideline ADAM ADAM ADAM Host PC COM1 ADAM-4520 RS-485 RS-485 RS-232 ADAM-4000 ADAM-5000E ADAM-5000/485 ADAM-5000E COM2 AFX FIX A DAM A DAM ADAM-5000 ADAM-5000 PWR PWR RUN RUN COMM COMM BATT BATT RESET RESET +5V GND INT* COM DATA+ DATA- +5V GND INT* COM DATA+ DATA- A DAM ADAM-5000 PWR RUN COMM BATT RESET +5V GND INT* COM[...]
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3 ADAM-5000 System[...]
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3-2 ADAM-5000 ADAM-5000 System 3.1 Overview The ADAM-5000 series is a data acquisition and control system which can control, monitor and acquire data through multichannel I/O modules. Encased in rugged industrial grade plastic bases, the systems provide intelligent signal conditioning, analog I/O, digital I/O, RS-232 and RS-485 communication. The A[...]
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ADAM-5000 3-3 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 software diagnosis via the RS-232 port. F[...]
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3-4 ADAM-5000 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 the digital output is triggered. [...]
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ADAM-5000 3-5 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 user select either port to connec[...]
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3-6 ADAM-5000 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 provides up to 64 points or 128 points and [...]
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ADAM-5000 3-7 Chapter 3 3. 4 T echnical Specifications of the ADAM-5000 Processor CPU 80188, 16-bit micr oproc essor RA M 32 KB ROM (Fl ash) 128 KB I/ O C apacit y 4 sl ots ( A DA M- 5000/485) 8 sl ots ( A DA M- 5000E) W a tchdo g Ti mer Ye s Power Cons umpt i on 1.0 W (AD AM- 5000/485) 4.0 W ( A D AM- 5000E) Communication RS- 48 5 Por t s 2, 1 eac[...]
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3-8 ADAM-5000 ADAM-5000 System DA T A+ DA T A- Opto -Co upled Is olat ion +5V GND +10~ +V GND Power Is olat ion Memory 16 B it up WDT& Reset P. S . Rect ifi er & Pow e r Con verter +30Vdc Bus COMM. Contr oll er Filt er Isolation Con n ection Pow er 3000 Vdc I n pu t/ Ou t pu t 3000 Vdc C o mm uni c a ti o n 2500 V dc (ADAM- 5000/485) 3000 V[...]
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4 I/O Modules[...]
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4-2 ADAM-5000 I/O Modules 3 R T D ADAM-50 1 3 EXC 0+ SEN 0+ SEN 0- EXC 0+ A. GND EXC 1+ SEN 1+ SEN 1- EXC 1+ A. GND EXC 2+ SEN 2+ SEN 2- EXC 2- A. GND 16 1 4.1 RTD Input Module ADAM-5013 3-channel RTD input module The ADAM-5013 is a 16-bit, 3-channel R TD input module that features programmable input ranges on all channels. This module is an extrem[...]
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ADAM-5000 4-3 Chapter 4 Application wiring Figure 4-2: RTD inputs EXC 0+ SEN 0+ SEN 0- EXC 0- A.G ND 2 Wire RTD EXC0 + SEN0 + SEN0 - EXC0 - A.GND 3 Wire RTD EXC 0+ SEN 0+ SEN 0- EXC 0- A.G ND 4 Wire RTD[...]
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4-4 ADAM-5000 I/O Modules T echnical specifications of ADAM-5013 T able 4-1: T echnical specifications of ADAM-5013 A nal og input channel s three I nput type Pt or N i R T D RTD ty p e and t emperat ur e Pt -100 t o 100° C a= 0.00385 ran g e P t 0 t o 10 0° C a=0. 00385 Pt 0 to 200° C a=0. 00385 Pt 0 to 600° C a=0. 00385 Pt -100 t o 100° C a=[...]
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ADAM-5000 4-5 Chapter 4 4.2 ADAM-5013 RTD Input Resistance Calibration 1 . Apply power to the ADAM-5510/P31 system that the R TD input module is plugged into and let it warm up for about 30 minutes 2 . Make sure that the module is correctly installed and is properly configured for the input range you want to calibrate. Y ou can use the ADAM utility[...]
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4-6 ADAM-5000 I/O Modules Note: If the above procedure is ineffective, the user must first issue an RTD Self Calibration command $aaSi2 to the module and then complete steps 4 and 5 after self calibration is complete. Calibration resistances (ADAM-5013) Table 4-2: Calibration resistances of ADAM-5013 I nput R ange Code (Hex) I nput Range Span C a l[...]
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ADAM-5000 4-7 Chapter 4 4.3 Analog Input Modules ADAM-5017 8-channel analog input module The ADAM-5017 is a 16-bit, 8-channel analog differential input module that provides programmable input ranges on all channels. It accepts millivolt inputs (±150mV , ±500mV), voltage inputs (±1V , ±5V and ±10V) and current input (±20 mA, requires 125 Ω r[...]
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4-8 ADAM-5000 I/O Modules Application wiring Figure 4-5: Millivolt and volt input Figure 4-6: Process current input Note: T o k eep measurement accuracy please shor t the channels that are not in use. - + V1- V1+ V0- V0+ 1 0 - 20 mA 0.1 % 125 Ω I in 1 V0+ V0- V1+ V1- V + - mV/V[...]
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ADAM-5000 4-9 Chapter 4 T echnical specifications of ADAM-5017 T able 4-3: T echnical specifications of ADAM-5017 A nal og input channel s E i g ht d i ffe re nti a l I nput type mV , V, mA I nput range ± 150 mV , ± 500 mV , ± 1V , ±5V , ±10V an d ±20 mA I sol ati on vol tage 3000 V DC Sampl i ng r ate 10 sampl es/ sec ( tot al ) A nalog i np[...]
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4-10 ADAM-5000 I/O Modules ADAM-5017H 8-channel high speed analog input module The ADAM-5017H is a 12-bit plus sign bit, 8-channel analog differen- tial input module that provides programmable input ranges on each channel. It accepts millivolt inputs (± 500 mV , 0-500 mV), voltage inputs (±1 V , 0-1 V , ±2.5 V , 0-2.5 V , ±5 V , 0-5 V , ±10 V [...]
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ADAM-5000 4-11 Chapter 4 Application wiring Figure 4-8: Millivolt and volt input Figure 4-9: Process current input 1 V0+ V0- V1+ V1- V + - mV/V - + V1- V1+ V0- V0+ 1 0 - 20 mA 0.1% 125 Ω I in[...]
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4-12 ADAM-5000 I/O Modules T echnical specifications of ADAM-5017H T able 4-4: T echnical specifications of ADAM-5017H A nal og In put C hannel s 8 di f fe ren tial A DC Res ol ut i on 12 bi ts, plu s sig n bi t T ype of A DC Su cce ssiv e ap prox i m ation I sol ati on V olt age 3000 V DC S am plin g R a te 1, 000 H z / m odu l e n o. ( to ta l) i[...]
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ADAM-5000 4-13 Chapter 4 Table 4-5: ADAM-5017H input signal ranges ADAM-5018 7-channel thermocouple input module The ADAM-5018 is a 16-bit, 7-channel thermocouple input module that features programmable input ranges on all channels. It accepts millivolt inputs (±15 mV , ±50 mV , ±100 mV , ±500 mV), voltage inputs (±1 V , ±2.5 V), current inpu[...]
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4-14 ADAM-5000 I/O Modules ADAM-5018 Figure 4-10: ADAM-5018 module frontal view Application wiring Figure 4-1 1: Thermocouple input 16 1 ADAM-5018 7 T/C V3- V3+ V2- V2+ V1- V1+ V0- V0+ V4+ V4- V5+ V5- V6+ V6- CJC+ CJC- V1- V1+ V0- V0+ 1 + - T/C[...]
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ADAM-5000 4-15 Chapter 4 T echnical specifications of ADAM-5018 T able 4-6: T echnical specifications of ADAM-5018 4.4 Analog Output Modules ADAM-5024 4-channel analog output module The ADAM-5024 is a 4-channel analog output module. It receives its digital input from the host computer , via the RS-485 interface of the ADAM-5510/P31 main unit. The f[...]
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4-16 ADAM-5000 I/O Modules Y ou can specify slew rates and start up currents through the configu- ration software. The analog output can also be configured as current or voltage output through the software utility . The module protects your equipment from ground loops and power surges by providing opto-isolation of the D/A output and transformer ba[...]
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ADAM-5000 4-17 Chapter 4 Application wiring Figure 4-13: Analog output T echnical specifications of ADAM-5024 T able 4-7: T echnical specifications of ADAM-5024 I3+ I3- V0+ VO- Analog Output Channels Four Output Type V, mA Output Range 0-20mA, 4-20mA, 0-10V Isolation Voltage 3000 Vdc Output Impedance 0.5 Ohms Accuracy ±0.1 % of FSR for cu rrent ou[...]
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4-18 ADAM-5000 I/O Modules 4.5 Analog I/O Modules Calibration Analog input/output modules are calibrated when you receive them. However , calibration is sometimes required. No screwdriver is neces- sary because calibration is done in software with calibration parame- ters stored in the ADAM-5000 analog I/O module's onboard EEPROM. The ADAM-551[...]
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ADAM-5000 4-19 Chapter 4 4 . Execute the Zero Calibration command (also called the Offset Calibration command). This is also done with the ADAM utility software. (See the “Zero Calibration” option in the Calibration sub- menu of the ADAM utility software.) Figure 4-15: Zero calibration 5 . Execute the Span Calibration command. This can be done [...]
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4-20 ADAM-5000 I/O Modules 6 . Only for ADAM-5018: Execute the CJC (cold junction sensor) Calibration command. This can be done with the ADAM utility software. (See the “CJC Calibration” option in the Calibration submenu of the ADAM utility software.) Figure 4-17: Cold junction calibration * Note: Zero calibration and span calibration must be c[...]
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ADAM-5000 4-21 Chapter 4 Calibration voltage (ADAM-5017/5018) Table 4-8: Calibration voltage of ADAM-5017/5018 Module Input Range Code (Hex) Input Range Span Calibration Voltage 5018 00h ±15 mV +15 mV 01h ±50 mV +50 mV 02h ±100 mV +100 mV 03h ±500 mV +500 mV 04h ±1V +1 V 05h ±2.5V +2.5 V 06h ±20 mA +20 mA (1) 0Eh J thermocouple 0 to 760 ºC [...]
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4-22 ADAM-5000 I/O Modules Calibration voltage (ADAM-5017H) Table 4-9: Calibration voltage of ADAM-5017H (1) Note: Y ou can substitute 2.5 V for 20 mA if y ou remov e the current conversion resistor for that channel. Howev- er , the calibr ation accuracy will be limited to 0.1% due to the resistor's tolerance. Modu l e I n pu t R an ge Code ( [...]
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ADAM-5000 4-23 Chapter 4 Analog output module calibration The output current of analog output modules can be calibrated by using a low calibration value and a high calibration value. The analog output modules can be configured for one of two ranges: 0-20 mA and 4-20 mA. Since the low limit of the 0-20 mA range (0 mA) is internally an absolute refer[...]
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4-24 ADAM-5000 I/O Modules value of 4 mA. 5 . Check the actual output value at the modules terminals. If this does not equal 4 mA, use the "Trim" option in the "Calibrate" sub- menu to change the actual output. Trim the module until the mA meter indicates exactly 4 mA , or in the case of the voltmeter with shunt resistor , trim [...]
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ADAM-5000 4-25 Chapter 4 Figure 4-19: Dip switch setting for digital I/O channel ADAM-5050 Figure 4-20: ADAM-5050 module frontal view Application wiring Figure 4-21: Dry contact signal input (ADAM-5050) Di p Swi t ch Key ON = D i gi ta l Ou tp ut OF F = D i g i ta l I n p u t CH0 CH15 16 1 AD AM -5050 16 UDIO V15 V14 V13 V12 V11 V10 V9 V8 V0 V1 V2 [...]
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4-26 ADAM-5000 I/O Modules Figure 4-22: Wet contact signal input (ADAM-5050) Figure 4-23: Digital output used with SSR (ADAM-5050/5056) limits current to 100 mA Power Ground Power Ground +Vss -Vss[...]
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ADAM-5000 4-27 Chapter 4 T echnical specifications of ADAM-5050 T able 4-10: T echnical specifications of ADAM-5050 ADAM-5051 16-channel digital input module The ADAM-5051 provides sixteen digital input channels. The ADAM- 5510/P31 can use the module’ s digital inputs to determine the state of limit or safety switches or to receive remote digital[...]
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4-28 ADAM-5000 I/O Modules Digital Input +5 V DC Contact Clos ure 10K Power GND Internal Logic Internal Logic Application wiring Figure 4-25: TTL input (ADAM-5051) Figure 4-26: Contact closure input (ADAM-5051) T echnical specifications of ADAM-5051 T able 4-1 1: T echnical specifications of ADAM-5051 Poi nt s 16 Di git al i nput Logic lev el 0: + [...]
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ADAM-5000 4-29 Chapter 4 Figure 4-27: ADAM-5051D Module Overview Compatible ADAM-5000 Series Main Units ADAM-5051D is designed to be implemented with the following Advantech ADAM-5000 series main units: ADAM-5000/485 ADAM-5000E ADAM-5510 ADAM-5510/P31 ADAM-5051D 16-channel Digital Input W/ LED Module The ADAM-5051D has all of the same features as t[...]
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4-30 ADAM-5000 I/O Modules Digit al Input +5 V DC Contact Closure 10K Powe r G ND Digi tal Input +5 V DC TTL Input 10K Powe r G ND ADAM-5051D Application Wiring Figure 4-28: TTL Input (ADAM-5051D) Figure 4-29: Contact Closure Input (ADAM-5051D) AD AM -5 0 5 1 AD AM- 5 0 5 1 D Num ber of Cha nnel s 16 16 I nput V olt age 30 V max 30 V max Logi c Lev[...]
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ADAM-5000 4-31 Chapter 4 ADAM-5052 8-channel isolated digital input module The ADAM-5052 provides eight fully independent isolated channels. All have 5000 V RMS isolation to prevent ground loop effects and to prevent damage from power surges on the input lines. ADAM-5052 Figure 4-30: ADAM-5052 module frontal view Application wiring Figure 4-31: Iso[...]
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4-32 ADAM-5000 I/O Modules T echnical specifications of ADAM-5052 T able 4-13: T echnical specifications of ADAM-5052 ADAM-5056 16-channel digital output module The ADAM-5056 features sixteen digital output channels. The digital outputs are open-collector transistor switches that you can control from the ADAM-5510/P31. Y ou also can use the switche[...]
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ADAM-5000 4-33 Chapter 4 Internal Logic R2 limit curre nt to 100 mA - Vss + Vss Open Collector Power Gr ound Power Gr ound Application wiring Figure 4-33: Digital output used with SSR (ADAM-5050/5056) T echnical specifications of ADAM-5056 There are 16-point digital input and 16-point digital output modules in the ADAM-5000 series. The addition of [...]
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4-34 ADAM-5000 I/O Modules Compatible ADAM-5000 Series Main Units ADAM-5056D is designed to be implemented within the following Advantech ADAM-5000 series main units: ADAM-5000/485 ADAM-5000E ADAM-5510 ADAM-5510/P31 ADAM-5056D 16-channel Digital Output W/ LED Module ADAM-5056D is a 16-channel digital output W/ LED module, which is based on ADAM-505[...]
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ADAM-5000 4-35 Chapter 4 Digital Output Holding Function A yellow mini jumper is added to the PCB, the major function of which is to hold the digital output value at its last status so that it won't be erased when the RESET button of your system is pressed or your system software going into reset. T o enble your Digital Output Holding Funciton[...]
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4-36 ADAM-5000 I/O Modules Main Units Supporting Digital Output Holding Function The Digital Output Holding Function is applicable only to ADAM- 5510 and ADAM-5511. Other main units, such as ADAM-5000/485, ADAM-5000/CAN and ADAM-5000E, do not support this function, since their firmwares will automatically clear the digital output. Although the firm[...]
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ADAM-5000 4-37 Chapter 4 A D AM - 5 056 A D AM -5056D Num ber of Channel s 16 16 O p erati ng Vol tage 30 Vm ax 30 Vma x Di git al O utput O p en Coll ect or t o 30V 100mA max load O p en Coll ect or t o 30V 100mA max l oad LED i n di cat or No On: Output lo g i c 1 Off: Output log i c 0 P o w e r D is s ip a t io n 450 mW f or each ch an n el 450 [...]
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4-38 ADAM-5000 I/O Modules 4.7 Relay Output Modules ADAM-5060 relay output module The ADAM-5060 relay output module is a low-cost alternative to SSR modules. It provides 6 relay channels, two of Form A and four of Form C. ADAM-5060 Figure 4-36: ADAM-5060 module frontal view Application wiring Figure 4-37: Relay output NO C C NC NO Form A (NO) Form [...]
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ADAM-5000 4-39 Chapter 4 T echnical specifications of ADAM-5060 T able 4-17: T echnical specifications of ADAM-5060 ADAM-5068 relay output module The ADAM-5068 relay output module provides 8 relay channels of Form A. Switches can be used to control the solid-state relays. ADAM-5068 Figure 4-38: ADAM-5068 module frontal view Poi nt s 6, t w o Form A[...]
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4-40 ADAM-5000 I/O Modules NO C Form A (NO) Application wiring Figure 4-39: Relay output T echnical specifications of ADAM-5068 T able 4-18: T echnical specifications of ADAM-5068 Poi nt s 8 Form A Contact R at ing AC : 120 V @ 0. 5 A DC : 30 V @ 1 A Breakdown V olt age 500 V AC ( 50/60 H z ) Rel ay O n Ti me ( typi cal ) 7 ms ec. R e lay Off T ime[...]
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ADAM-5000 4-41 Chapter 4 4.8 Counter/Frequency Module Overview Compatible ADAM-5000 Series Main Units ADAM-5080 is a 4-channel counter/frequency module designed to be implemented within the following Advantech ADAM-5000 series main units: ADAM-5000/485 (with firmware V ersion A2.3 or above) ADAM-5510 (with library V ersion V1.00 or above) ADAM-5510[...]
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4-42 ADAM-5000 I/O Modules C0A+ COA- COB+/D+ C1A+ C1A- C1B+/D+ C1B-/D- C2A+ C2A- C2B+/D+ C2B-/D- C3A+ C3A- C3B+/D+ C3B-/D- COB-/D- GND GND GND GND GND GND GND GND ISOLA TE TTL ADAM-5080 4 C/F V 0 Inter nal Logi c Vcc selected, it means the Alarm status will be "latched" whenever the alarm being triggered. Once the alarm status being "[...]
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ADAM-5000 4-43 Chapter 4 Figure 4-42: TTL Input Level ADAM-5080 Counter/Frequency Mode Selection Users can select Bi-direction, Up/Down Counter or Frequency option as shown in Figure 4. Figure 4-43: Counter / Frequency Mode Note: All four channels of AD AM-5080 will operate simulta- neously in the mode you have selected. i.e. If you s witch the ADA[...]
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4-44 ADAM-5000 I/O Modules C0A+ C0A- C0B+/D+ C0B-/D- Features -- Counter Mode Up/Down Counting The Up/Down Counter Function offers two types of counting: Up Couting (increasingly) and Down Counting (decreasingly). Up Counting : when C0A+ and C0A- sense any input signals, the counter counts up. Down Counting : when C0B+ and C0B- sense any input sign[...]
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ADAM-5000 4-45 Chapter 4 C0A+ C0A- C0B+/D+ C0B-/D- C0A+ C0A- C0B+/D+ C0B-/D- Figure 4-45: Wiring for Bi-direction Counting Figure 4-46: Wiring for Frequency Mode Up Counting : when the input signal is within logic level "1", the counter value increases. Down Counting : when the input signal is within logic level "0", the counter[...]
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4-46 ADAM-5000 I/O Modules Setting Initial Counter V alue In oder to utilize the alarm function, users have to set a high-alarm limit value and/or a low alarm limit value, and a initial value to fulfill the requirements for a basic alarm setting. Figure 4-47 Setting Alarm Limit Features -- Alarm Setting According to your application purposes, you c[...]
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ADAM-5000 4-47 Chapter 4 Figure 4-48: Sending Alarm Signal (recommended settings) Figure 4-49: Sending Alarm Signal (settings not recommended) Max value High alarm limit value Initial value Low alarm limit value Min value Max value Initial value High alram Initial value Low alarm limit value Min value Sending High alarm Sending Low alarm Sending Hi[...]
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4-48 ADAM-5000 I/O Modules Overflow V alue Overflow value is the number of times the counter value exceeds the Max/Min values you specified. When the counter value exceeds Maximum value, the overflow value increases; When the counter value goes under Minimum value, the overflow value decreases. Besides, when the counter value runs beyond the range [...]
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ADAM-5000 4-49 Chapter 4 Figure 4-50: Digital Output Mapping Features--Digital Output Mapping If users want to use Digital Output function, ADAM utility is available for setting specifically which module, channel or slot to receive the alarm signals. 1 2 3 4 5 6 1 : High Alarm State --Set Alarm state to "Latch" or "Disable". 2 :[...]
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4-50 ADAM-5000 I/O Modules TTL/Isolated Input Level According to your need, you can select either TTL or Isolated Input Level by setting the configuration for the jumpers. Select the proper jumper settings for either TTL or Isolated Input according to Figure Figure 10. Please note that you must configure all six jumpers to the correct configuration[...]
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ADAM-5000 4-51 Chapter 4 ADAM-5080 T echnical Specifications Table 4-19: ADAM-5080 technical specifications C ha nne l 4 I n pu t Fr equ en cy 0. 3 ~ 1000 H z m ax . (Fr equ en cy m ode) 5000 H z max . ( C ou n ter mode) I n pu t Lev el I sol at e d or T T L l ev el Mi n i mum Pul s e W i d th 500 µ sec. ( Frequ en cy m od e) 100 µ sec. ( C ou n [...]
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4-52 ADAM-5000 I/O Modules[...]
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5 Software Utilities[...]
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5-2 ADAM-5000 Software Utilities There are some software utilities available to the ADAM-5000 sys- tems. The DOS and W indows utility software helps you to configure your ADAM-5000. A DLL (Dynamic Link Library) driver is provided to write W indows applications, and a DDE (Dynamic Data Exchange) server is a service that links the ADAM-5000 systems t[...]
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ADAM-5000 5-3 Chapter 5 Figure 5-1 Main screen Normally you will use the Search command to scan the network. Highlight the Search command on the menu bar and press <Enter> (or simply press the "s" key). The "Search Installed Modules" window will then appear to prompt you to enter the range it should scan. Input a value bet[...]
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5-4 ADAM-5000 Software Utilities current values of its inputs. An example is shown in Figure 5-2 for an ADAM-5000 system. Figure 5-2 Setup options There are three different options: System Setting, Module Setting and Output Data. Highlight the parameter you wish to change and press <Enter>. A window will appear with the configuration options [...]
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ADAM-5000 5-5 Chapter 5 After you have made the changes for a block of parameters, press <ESC>. Y ou will be asked if you are satisfied with the changes you have made or not. Answer "Y" to keep the changes you have made or "N" to leave the values unchanged. Module Setting A similar procedure applies for module setting. Not[...]
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5-6 ADAM-5000 Software Utilities Calibration Press <Enter> on the Calibrate option on the top bar and a selection bar appears in the status field. Move the selection bar over the module you wish to configure and select it by pressing <Enter>. Only analog input and output modules can be calibrated. If the module is an analog input module[...]
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ADAM-5000 5-7 Chapter 5 underneath. T o resend a command simply press <Enter>. Choose Full Screen to select T erminal Emulation mode. This mode provides additional information on the configuration status under Settings shown at the right side of the screen. Previous commands and responses will remain on the screen for reference. T o repeatedl[...]
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5-8 ADAM-5000 Software Utilities 2 . Set the node ID of the ADAM-5000/485 system to “0” and reset the ADAM-5000 system. 3 . Run the ADAM Utility (ADAM.exe) under DOS to search for the ADAM-5000/485 at address “00h”. 4 . When the ADAM-5000/485 appears on the screen, choose “Setup” and select “Download”. 5 . Follow the steps listed on[...]
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ADAM-5000 5-9 Chapter 5 5.3 DDE (Dynamic Data Exchange) Server The ADAM-5000 DDE server takes advantage of DDE, a built-in W indows communication service. The DDE server acquires data from the ADAM-5000 systems and passes it to your application program via the hot link (DDE). The software can also pass control and configuration commands to the ADAM[...]
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5-10 ADAM-5000 Software Utilities 5.4 ADAM-4000 and ADAM-5000 Windows Utility The ADAM-4000 and 5000 W indows Utility offers a graphical interface that helps you configure the ADAM-4000 and ADAM-5000 DA&C Modules. This windows utility makes it very convenient to monitor your Data Acquisition and Control system. The following guidelines will giv[...]
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ADAM-5000 5-11 Chapter 5 Search: Search for the address of connected modules on network. T erminal: Issue commands and receives response. Data Scope: Display the current data. Save Configuration: Saves the configuration of selected module into txt file. Load Configuration: Download the previous configuration file Help: Display the Online Help for t[...]
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5-12 ADAM-5000 Software Utilities Figure 5-6 Save the information of connected modules to txt file 5.4 .3 COM Port Settings Figure 5-7 Setup options 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[...]
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ADAM-5000 5-13 Chapter 5 Timeout: Timeout means the time limit for waiting a response after the system has issued a command. If no response has been received when timeout has passed, we’ll see the “Timeout !” message on the screen. 5.4 .4 Search Connected modules When you use the Search command, it will search for any connected modules on net[...]
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5-14 ADAM-5000 Software Utilities 3 . Click the T ools menu and choose the Search command: 4 . The connected modules on network is currently being searched: 5.4 .5 T erminal Emulation Y ou can issue commands and receive response by clicking the T erminal button. There are two ways to issue commands: 1 . Issue single command: Enable or Disable[...]
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ADAM-5000 5-15 Chapter 5 2. Batch command Users can compose a sequence of commands and save them into a .txt file. Just click the Browse button to list all the .txt files available and select the file for continuous execution of the batch of commands therein. 3. Back to the main menu. Note: If you select the checksum function on previous main menu,[...]
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5-16 ADAM-5000 Software Utilities 5.4 .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: Figure 5-9 The connection for the Data Scope function When you issue commands from PC#1, you[...]
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ADAM-5000 5-17 Chapter 5 : 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- while, you can also observe all responses received at PC#2. Figure 5-10 Monitor the issuing commands from PC#1 When your system is[...]
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5-18 ADAM-5000 Software Utilities • Save the output range, baud rate, data format, checksum status and slew rate for a specified analog output module. • Save the baud rate and checksum status for a digital I/O module. • Save the input mode, baud rate, checksum status and/or frequency gate time, input signal mode, gate mode, alarm status, etc.[...]
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ADAM-5000 5-19 Chapter 5 and then specify the file name. The configuration file is now saved. 5.4 .8 Load Module s Configuration File • Reload previous settings. Sets the input range, baud rate, data format, checksum status and/or integration time and alarm status for a specified analog input module. • Sets the output range, baud rate, data [...]
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5-20 ADAM-5000 Software Utilities There are three ways to load a configuration file: 1 . Click the T oolbar button: 2 . Click the right mouse button: 3 . Click the T ools menu and choose Download configuration file to set the environment command:[...]
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ADAM-5000 5-21 Chapter 5 4 . Choose the file name: The configuration file is now loaded. 5. 4.9 Module Configuration • Sets the input range, baud rate, data format, checksum status, and/ or integration time for a specified analog input module. • Sets the output range, baud rate, data format, checksum status and slew rate for a specified analog [...]
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5-22 ADAM-5000 Software Utilities For Example: The configuration of ADAM-4011 • 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 V er: Represents the version of firmware. • Input range: Represents[...]
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ADAM-5000 5-23 Chapter 5 5.4 .10 Module Calibration Calibration is to adjust the accuracy of ADAM module. There are several modes for module’ s calibration: Zero calibration and span calibration. Only analog input and output modules can be calibrated. For example: ADAM 4011, 4011D, 4012, 4016, 4017, 4018, 4018M, 5013, 5017, 5017H, and 5018. Zero [...]
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5-24 ADAM-5000 Software Utilities CJC Calibration 1 . Prepare an accurate voltage source. 2 . Run the zero calibration and span calibration function. 3 . Use a temperature emulation device (such as Micro-10) to send a temperature signal to the ADAM module and then compare this signal with the value from the ADAM module. If the value is different fr[...]
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ADAM-5000 5-25 Chapter 5 5.4 .1 1 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[...]
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5-26 ADAM-5000 Software Utilities Enter a value that users want to get • • Fast Decrease decrease increase • fast increase[...]
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ADAM-5000 5-27 Chapter 5 5.4 .12 Alarm Settings • 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 always in engineering units. ?[...]
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5-28 ADAM-5000 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. • Low level minimum width: Set[...]
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ADAM-5000 5-29 Chapter 5 3 . Choose the baud rate. 4 . Choose Download file.[...]
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5-30 ADAM-5000 Software Utilities Firmware download in progress. Firmware download complete.[...]
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6 Command Set[...]
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6-2 ADAM-5000 Command Set 6.1 Introduction T o avoid communication conflicts when several devices try to send data at the same time, all actions are instigated by the host computer . The basic form is a command/response protocol with the host initiat- ing the sequence. When systems are not transmitting they are in listen mode. The host issues a com[...]
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ADAM-5000 6-3 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 of module, followed by da[...]
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6-4 ADAM-5000 Command Set 6.3 CPU Command Set Command Syntax Command Name Description %aannccff Conf igu rati on Sets the baudrate and checksum status for a specified ADAM-5000 system $aa2 Co nfig urat ion Status Returns the configuration status for a specified ADAM-5000 system $aaM Read Module Name Returns the module name from a specified ADAM-500[...]
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ADAM-5000 6-5 Chapter 6 %aannccff %aannccff Name Configuration Description Sets baud rate and checksum status for a specified ADAM-5000 system. Syntax %aannccff(cr) % is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system you want to configure. nn is reserved for system use. Its default va[...]
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6-6 ADAM-5000 Command Set %aannccff %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 was received. W ait 7 seconds[...]
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ADAM-5000 6-7 Chapter 6 $aa2 $aa2 Name Configuration Status Description Returns the configuration status for a specified system module. Syntax $aa2(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadeci- mal address of the ADAM-5000 system you want to interrogate. 2 is the Configuration Status command. (cr) is the ter[...]
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6-8 ADAM-5000 Command Set $aa2 $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 checksum function or checksum generation. [...]
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ADAM-5000 6-9 Chapter 6 $aaM $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) is the terminating character ,[...]
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6-10 ADAM-5000 Command Set $aaM $aaM 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. CPU[...]
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ADAM-5000 6-11 Chapter 6 $aaF $aaF Name Read Firmware V ersion Description Returns the firmware version code from a specified ADAM-5000 system. Syntax $aaF(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadeci- mal address of the ADAM-5000 system you want to interrogate. F is the Firmware V ersion command. (cr) is th[...]
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6-12 ADAM-5000 Command Set $aaF $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. CPU[...]
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ADAM-5000 6-13 Chapter 6 $aaT $aaT Name Read I/O T ype Description Returns the I/O module no. of all slots for a specified ADAM-5000 system. Syntax $aaT(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadeci- mal address of the ADAM-5000 system you want to interrogate. T is the I/O Module T ypes command. (cr) is the t[...]
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6-14 ADAM-5000 Command Set $aaT $aaT Example command: $12T(cr) response: !1218245160(cr) The command requests the ADAM-5000 system at address 12h to send all existing I/O module numbers. The system at address 12h responds with I/O module numbers 18, 24, 51 and 60 in slots 0-3. This means that the ADAM-5000 system contains an ADAM-5018, ADAM-5024, A[...]
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ADAM-5000 6-15 Chapter 6 $aa5 $aa5 Name Reset Status Description Checks the reset status of the addressed ADAM-5000 system to see whether it has been reset since the last Reset Status command was issued to the ADAM-5000 system. Syntax $aa5(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5[...]
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6-16 ADAM-5000 Command Set $aa5 $aa5 Example command: $395(cr) response: !391(cr) The ADAM-5000 system at address 39h was reset or powered up since the last Reset Status command was issued. CPU[...]
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ADAM-5000 6-17 Chapter 6 $aaE $aaE Name Software Diagnostics Description Requests the specified ADAM-5000 system to return the error status Syntax $aaE(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system you want to interrogate. E is Software Diagnostics command. (cr) is the termi[...]
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6-18 ADAM-5000 Command Set Error Code Error Message 00h No er rors 01h Span calibration error of Analog Input Module 02h Self-calibration error of Analog Input Module 04h Zero calibrati on error of A nalog Input Module 08h Data Readi ng error of Anal og Input M odule 10h CJC Reading err or 20h EEPROM read/write error in AI/AO module Figure 6-2 Anal[...]
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ADAM-5000 6-19 Chapter 6 6.4 ADAM-5013 RTD Input Command Set Comm and Synt ax Comm and Nam e Descr ipt i on $aaSiAr rf f R T D Con f igu rat ion S et s s l ot in dex , i n pu t r a n ge, dat a f o r mat an d in t egr at ion t ime f or a spec i f ied R T D in pu t mo du l e in a spec ified sy st em $aaSiB R T D Con f igu r at ion St at u s Re tu r n[...]
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6-20 ADAM-5000 Command Set Command Sy nt ax Command Nam e D escr i pt i on $aaS i6 Read Ch an n el s S t at u s Asks a specif ied in pu t m o d ule to re turn th e st at u s of al l ch an n e l s $aaS i0 RT D S pan Cal ibrat ion C al i br ates a specif ie d RT D in pu t modu l e t o cor rect f or gain er ror s $aaS i1 RT D Zer o C al ibrat ion C a [...]
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ADAM-5000 6-21 Chapter 6 $aaSiArrff $aaSiArrff Name R TD Configuration Description Sets slot index, input range, data format and integration time for a specified R TD input module in a specified system. Syntax $aaSiArrff(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system you want[...]
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6-22 ADAM-5000 Command Set $aaSiArrff $aaSiArrff address of an ADAM-5000 system. (cr) is the terminating character , carriage return (0Dh). Example command: $35S3A2000(cr) response: !35(cr) The R TD input module in slot 3 of the ADAM-5000 system at address 35h is configured to an R TD type Pt -100 to 100° C, engineering unit data format, and integ[...]
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ADAM-5000 6-23 Chapter 6 $aaSiB $aaSiB Name R TD Configuration Status Description Returns the configuration parameters for a specified R TD input module in a specified system. Syntax $aaSiB(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system you want to interrogate. Si identifies [...]
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6-24 ADAM-5000 Command Set $aaSiB $aaSiB (cr) is the terminating character , carriage return (0Dh). Example command: $35S3B(cr) response: !352000(cr) The R TD input module in slot 3 of the ADAM-5000 system at address 35h responds with an R TD type Pt -100 to 100° C, engineering unit data format, and integration time 50ms (60Hz). 5013 RTD Input[...]
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ADAM-5000 6-25 Chapter 6 $aaSi $aaSi Name All R TD Data In Description Returns the input values of all channels of a specified R TD input module in a specified system in engineering units only . Syntax $ aaSi(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system you want to interrog[...]
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6-26 ADAM-5000 Command Set $aaSi $aaSi Example command: $35S3(cr) response: >+80.01 +20.00 -40.12(cr) The command requests the R TD input module in slot 3 of the ADAM-5000 system at address 35h to return the input values of all channels. The R TD input module responds with input values of all channels in sequence from 0 to 2 : +80.01° C, +20.00[...]
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ADAM-5000 6-27 Chapter 6 $aaSiCj $aaSiCj Name Specified R TD Data In Description Returns the input value of a specified channel for a specified R TD input module of a specified system in engineering units only . Syntax $aaSiCj(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system yo[...]
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6-28 ADAM-5000 Command Set $aaSiCj $aaSiCj Example command: $35S3C0(cr) response: >+80.01(cr) The command requests the R TD input module in slot 3 of the ADAM-5000 system at address 35h to return the input value of channel 0. The R TD input module responds that the input value of channel 0 is +80.01° C. 5013 RTD Input[...]
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ADAM-5000 6-29 Chapter 6 $aaSiER $aaSiER Name Initialize EEPROM Data Description Initializes all EEPROM data in a specified analog input module to their default values. This command is sent following a failed attempt to calibrate a module (the module shows no effect from an attempted calibration). Following initialization, the problem module should[...]
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6-30 ADAM-5000 Command Set $aaSi5mm $aaSi5mm Name Enable/Disable Channels for multiplexing Description Enables/Disables multiplexing for separate channels of the specified input module Syntax $aaSi5mm(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system. Si identifies the I/O slot [...]
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ADAM-5000 6-31 Chapter 6 $aaSi5mm $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 of the system at address [...]
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6-32 ADAM-5000 Command Set $aaSi6 $aaSi6 Name Read Channels Status Description Asks a specified input module to return the status of all channels Syntax $aaSi6(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system you want to interrogate. Si identifies the I/O slot of the system you[...]
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ADAM-5000 6-33 Chapter 6 $aaSi6 $aaSi6 (cr) is the terminating character , carriage return (0Dh) Example command: $00S16(cr) response: !0001(cr) The command asks the analog input module in slot 1 of the system at address 00h to send the status of its input channels. The analog input module responds that channel 0 of its multiplex channels is enable[...]
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6-34 ADAM-5000 Command Set $aaSi0 $aaSi0 Name R TD Span Calibration Description Calibrates a specified R TD input module of a specified system to correct for gain errors. Syntax $aaSi0(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system which contains the R TD module. Si identifie[...]
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ADAM-5000 6-35 Chapter 6 $aaSi1 $aaSi1 Name R TD Zero Calibration Description Calibrates a specified R TD input module of a specified system to correct for offset errors. Syntax $aaSi1(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system which contains the module which is to be cal[...]
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6-36 ADAM-5000 Command Set $aaSi2 $aaSi2 Name R TD Self Calibration Description Causes a specified R TD input module of a specified system to do a self calibration. Note: This command is for use when R TD Zero and Span calibration commands have been tried and had no effect. A user first issues an RTD self calibration command, and then issues zero a[...]
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ADAM-5000 6-37 Chapter 6 6.5 Analog Input Command Set Note: See pages 71-89 for Analog Input Alarm Command Set. C o mman d S yn ta x C o mman d N a me D e sc rip tio n $aaS iA rr ff C on figu rat i on S et s sl ot index , i n put ran ge, data f ormat an d int egration t i me for a spe cified an alog inpu t modu l e in a speci fied sy stem . $ a a S[...]
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6-38 ADAM-5000 Command Set $aaSiArrff $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 hexadecimal address of the ADAM-5000 system you want [...]
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ADAM-5000 6-39 Chapter 6 $aaSiArrff $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. ? delimiter character indica[...]
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6-40 ADAM-5000 Command Set $aaSiB $aaSiB Name Configuration Status Description Returns the configuration status parameters for a specified analog input module of a specified system. Syntax $aaSiB(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system you want to interrogate. Si ident[...]
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ADAM-5000 6-41 Chapter 6 $aaSiB $aaSiB (cr) is the terminating character , carriage return (0Dh) Example command: $26S1B response: !260000 The ADAM-5018 analog input module in slot 1 of the ADAM-5000 system at address 26h responds with an input range ±15mV , engineering units data format, and integration time 50ms (60Hz).[...]
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6-42 ADAM-5000 Command Set $aaSi5mm $aaSi5mm Name Enable/Disable Channels for multiplexing Description Enables/Disables multiplexing for separate channels of the specified input module Syntax $aaSi5mm(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system. Si identifies the I/O slot [...]
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ADAM-5000 6-43 Chapter 6 $aaSi5mm $aaSi5mm 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: $00S1581(cr) response: !00(cr) The command enables/disables channels of the analog input module in slot 1 of the system at address 00h. Hexadeci[...]
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6-44 ADAM-5000 Command Set $aaSi6 $aaSi6 Name Read Channels Status Description Asks a specified input module to return the status of all channels Syntax $aaSi6(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system you want to interrogate. Si identifies the I/O slot of the system you[...]
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ADAM-5000 6-45 Chapter 6 $aaSi6 $aaSi6 channels 0-3. A value of 0 means the channel is disabled, while a value of 1 means the channel is enabled. (cr) is the terminating character , carriage return (0Dh) Example command: $02S16(cr) response: !02FF(cr) The command asks the analog input module in slot 1 of the system at address 02h to send the status[...]
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6-46 ADAM-5000 Command Set #aaSi #aaSi Name All Analog Data In Description Returns the input value of all channels for a specified analog input module of a specified system in engineer- ing unit only . Syntax # a a S i(cr) # is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system you want t[...]
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ADAM-5000 6-47 Chapter 6 #aaSi #aaSi Example command: #12S1(cr) response: +1.4567 +1.4852 +1.4675 +1.4325 +1.4889 +1.4235 +1.4787 +1.4625(cr) The command requests the analog input module in slot 1 of the ADAM-5000 system at address 12h to return the input values of all channels. The analog input module responds that input values of all channels are[...]
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6-48 ADAM-5000 Command Set #aaSiCj #aaSiCj Name Specified Analog Data In Description Returns the input value of a specified channels for a specified analog input module of a specified system in engineering unit only . Syntax #aaSiCj(cr) # is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 sys[...]
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ADAM-5000 6-49 Chapter 6 #aaSiCj #aaSiCj Example command: #22S2C2(cr) response: >+1.4567 The command requests the analog input module in slot 2 of the ADAM-5000 system at address 22h to return the input value of channel 2. The analog input module responds that the input value of channel 2 is +1.4567.[...]
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6-50 ADAM-5000 Command Set $aaSiER $aaSiER Name Initialize EEPROM data Description Initializes all EEPROM data in a specified analog input module to their default values. This command is sent following a failed attempt to calibrate a module (the module shows no effect from an attempted calibration). Following initialization, the problem module shou[...]
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ADAM-5000 6-51 Chapter 6 $aaSiØ $aaSi0 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 I/O slot which is to be c[...]
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6-52 ADAM-5000 Command Set $aaSi1 $aaSi1 Name Zero Calibration Description Calibrates a specified analog input module to correct for offset errors Syntax $aaSi1(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 I/O slot which is to be[...]
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ADAM-5000 6-53 Chapter 6 $aaSi3 $aaSi3 Name CJC Status Command (ADAM-5018 only) Description Returns the value of the CJC (Cold Junction Compensa- tion) sensor for a specified analog input module Syntax $aaSi3(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system. Si identifies the I[...]
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6-54 ADAM-5000 Command Set $aaSi3 $aaSi3 Example command: $09S13(cr) response: >+0036.8(cr) The command requests the analog input module in slot 1 of the ADAM-5000 system at address 09h to read its CJC sensor and return the data. The analog input module responds with 36.8°C. 5017/5018 Analog Input[...]
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ADAM-5000 6-55 Chapter 6 $aaSi9shhhh $aaSi9shhhh Name CJC Zero Calibration (ADAM-5018 only) Description Calibrates an analog input module to adjust for offset errors of its CJC (Cold Junction Compensation) sensor Syntax $aaSi9shhhh(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 syst[...]
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6-56 ADAM-5000 Command Set $aaSi9shhhh $aaSi9shhhh Example command: $07S29+0042(cr) response: !07(cr) The command increases the CJC offset value of the analog input module in slot 2 of the system at address 07h with 66 counts (42 hex) which equals about 0.6°C. Note: An analog input module requires a maximum of 2 seconds to perform auto calibration[...]
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ADAM-5000 6-57 Chapter 6 6.6 ADAM-5017H Analog Input Command Set C o mman d Syn t ax C o mman d Nam e De scri p t ion Re marks $aaS i CjAr rFF Set I n pu t R an ge S ets in pu t r an ge f or a specified ch an n el of an an alog in pu t mo dule i n a spe ci fie d sy stem See page 6-59 $aaS i CjB R ea d I n pu t Ra nge Re tu r n s the i nput ra nge f[...]
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6-58 ADAM-5000 Command Set Note: The AD AM-5017H module also has "Alar m Setting" functions. The alar m command set f or the AD AM- 5017H is the same as that for the AD AM-5013, AD AM-5017, and AD AM-5018. Please refer to pages 6-71 to 6-89 for this set of commands. C o mman d Syn t ax C o mman d Nam e De scri p t ion Re marks #aaS i All [...]
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ADAM-5000 6-59 Chapter 6 $aaSiCjArrFF $aaSiCjArrFF 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 want to configure. S[...]
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6-60 ADAM-5000 Command Set $aaSiCjArrFF $aaSiCjArrFF address of an ADAM-5000 system. (cr) is the terminating character , carriage return (0Dh). Example command: $35S3C1A0bFF(cr) response: !35(cr) Channel 1 of the ADAM-5017H module in slot 3 of the ADAM-5000 system at address 35h is set to the input range 0-20 mA, engineering unit data format. The r[...]
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ADAM-5000 6-61 Chapter 6 $aaSiCjB $aaSiCjB Name Read Input Range Description Returns the input range in engineering units for a specified channel of a specified analog input module in a specified system. Syntax $aaSiCjB $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system you want to i[...]
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6-62 ADAM-5000 Command Set $aaSiCjB $aaSiCjB Example command: $35S3C1B(cr) response: !350b00(cr) Channel 1 of the ADAM-5017H module in slot 3 of the ADAM-5000 system at address 35h responds with an input range 0-20 mA, engineering unit data format. 5017H Analog Input[...]
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ADAM-5000 6-63 Chapter 6 $aaSiAFFff $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 the ADAM-5000 system[...]
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6-64 ADAM-5000 Command Set $aaSiAFFff $aaSiAFFff 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: $35S3AFF00(cr) response: !35(cr) The data format of the ADAM-5017H module in slot 3 of the ADAM-5000 system at address 35h is co[...]
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ADAM-5000 6-65 Chapter 6 $aaSiB $aaSiB Name Read Data Format Description Returns the data format for a specified analog input module in a specified system. Syntax $aaSiB $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system you want to interrogate. Si identifies the I/O slot of the ADAM[...]
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6-66 ADAM-5000 Command Set $aaSiB $aaSiB Example command: $35S3B(cr) response: !35FF00(cr) The ADAM-5017H module in slot 3 of the ADAM-5000 system at address 35h responds that it is configured for engineering unit data format. 5017H Analog Input[...]
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ADAM-5000 6-67 Chapter 6 #aaSi #aaSi Name All Analog Data In Description Returns the input value of all channels for a specified analog input module of a specified system in engineer- ing units or two’ s complement data format Syntax #aaSi # is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-500[...]
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6-68 ADAM-5000 Command Set #aaSi #aaSi the interrogated module of the specified system. The (dddd) from all channels is shown in sequence from 7 to 0. If (dddd)=” “, it means the channel is invalid. (cr) is the terminating character , carriage return (0Dh). Example command: #35S3(cr) response: +6.000 +7.000 +8.125 +4.250 +10.000 +8.500 +7.675 +[...]
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ADAM-5000 6-69 Chapter 6 #aaSiCj #aaSiCj Name Specified Analog Data In Description Returns the input value of a specified channel of a specified analog input module in a specified ADAM- 5000 system in engineering units or two’ s complement data format Syntax #aaSiCj(cr) # is a delimiter character . aa (range 00-FF) represents the 2-character hexa[...]
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6-70 ADAM-5000 Command Set #aaSiCj #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). Example command: #35S3C2(cr) response:[...]
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ADAM-5000 6-71 Chapter 6 6.7 Analog Input Alarm Command Set Note: This command set applies to the AD AM-5013, AD AM-5017, AD AM-5017H and the AD AM-5018. C o mman d S yn tax C o mman d N a me D e sc rip tion $aaS i CjAh s Set Alar m Mode Sets t h e High / L ow a l a r m in eit h er M om en t ar y or L a t c hi ng m o d e . $aaS iC jAh R ea d Alar m[...]
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6-72 ADAM-5000 Command Set $aaSiCjAhs $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) represents the 2-character hexadecimal address of anADAM-5000 system. SiCj[...]
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ADAM-5000 6-73 Chapter 6 $aaSiCjAhs $aaSiCjAhs Example command: $03S0C1AHL(cr) response: !03(cr) Channel 1 of slot 0 in the ADAM-5000 system at address 03h is instructed to set its High alarm in Latching mode. The module confirms that the command has been received.[...]
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6-74 ADAM-5000 Command Set $aaSiCjAh $aaSiCjAh Name Read Alarm Mode Description Returns the alarm mode for the specified channel in the specified ADAM-5000 system. Syntax $aaSiCjAh(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of an ADAM-5000 system. SiCj identifies the desired slot i (i : 0 to 3) [...]
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ADAM-5000 6-75 Chapter 6 $aaSiCjAh $aaSiCjAh Example command: $03S0C1AL(cr) response: !03M(cr) Channel 1 of slot 0 in the ADAM-5000 system at address 03h is instructed to return its Low alarm mode. The system responds that it is in Momentary mode.[...]
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6-76 ADAM-5000 Command Set $aaSiCjAhEs $aaSiCjAhEs Name Enable/Disable Alarm Description Enables/Disables the High/Low alarm of the specified input channel in the addressed ADAM-5000 system Syntax $aaSiCjAhEs(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of an ADAM-5000 system. SiCj identifies the [...]
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ADAM-5000 6-77 Chapter 6 $aaSiCjAhEs $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 seconds after it receive[...]
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6-78 ADAM-5000 Command Set $aaSiCjCh $aaSiCjCh Name Clear Latch Alarm Description Sets the High/Low alarm to OFF (no alarm) for the specified input channel in the addressed ADAM-5000 system Syntax $aaSiCjCh(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of an ADAM-5000 system. SiCj identifies the de[...]
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ADAM-5000 6-79 Chapter 6 $aaSiCjCh $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 .[...]
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6-80 ADAM-5000 Command Set $aaSiCjAhCSkCn $aaSiCjAhCSkCn Name Set Alarm Connection Description Connects the High/Low alarm of the specified input channel to the specified digital output in the addressed ADAM-5000 system Syntax $aaSiCjAhCSkCn(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of an ADAM-[...]
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ADAM-5000 6-81 Chapter 6 $aaSiCjAhCSkCn $aaSiCjAhCSkCn Example command: $03S0C1ALCS1C0(cr) response: !03(cr) Channel 1 of slot 0 in the 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 system confirms it has done so accordingly .[...]
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6-82 ADAM-5000 Command Set $aaSiCjRhC $aaSiCjRhC Name Read Alarm Connection Description Returns the High/Low alarm limit output connection of a specified input channel in the addressed ADAM-5000 system Syntax $aaSiCjRhC(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of an ADAM-5000 system. SiCj iden[...]
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ADAM-5000 6-83 Chapter 6 $aaSiCjRhC $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 connects to the digital out[...]
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6-84 ADAM-5000 Command Set $aaSiCjAhU(data) $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 the 2-character hexadecimal address of an ADAM-5000 system. SiCj ident[...]
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ADAM-5000 6-85 Chapter 6 $aaSiCjAhU(data) $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. Note: An analog in[...]
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6-86 ADAM-5000 Command Set $aaSiCjRhU $aaSiCjRhU Name Read Alarm Limit Description Returns the High/Low alarm limit value for the specified input channel in the addressed ADAM-5000 system Syntax $aaSiCjRhU(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of an ADAM-5000 system. SiCj identifies the des[...]
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ADAM-5000 6-87 Chapter 6 $aaSiCjRhU $aaSiCjRhU Example command: $03S0C1RHU(cr) response: !03+2.0500(cr) Channel 1 of slot 0 in the ADAM-5000 system at address 03h is configured to accept 5V input. The command instructs the system to return the High alarm limit value for that channel. The system responds that the High alarm limit value in the desire[...]
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6-88 ADAM-5000 Command Set $aaSiCjS $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 hexadecimal address of an ADAM-5000 system. SiCj identifies the desired slot i [...]
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ADAM-5000 6-89 Chapter 6 $aaSiCjS $aaSiCjS Example command: $03S0C1S(cr) response: !0301(cr) The command instructs the system at address 03h to return its alarm status for channel 1 of slot 0. The system responds that a High alarm has not occurred and that a Low alarm has occurred.[...]
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6-90 ADAM-5000 Command Set 6.8 Analog Output Command Set Comm and Sy nt ax Comm and Na me Descr i pt ion $aaS iC jAr rf f Co n f i gu r a t i on S ets t h e ou tpu t r a n ge, d ata f ormat an d sl ew rat e f o r a specified ch an n el i n a specified an alog ou t pu t modu l e in a specified sy st em. $a aSiCj B Con f igu r at ion St at u s R et u[...]
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ADAM-5000 6-91 Chapter 6 $aaSiCjArrff $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 address of the ADAM-5000 sy[...]
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6-92 ADAM-5000 Command Set $aaSiCjArrff $aaSiCjArrff ? delimiter character indicating the command was 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: $35S3C0A31 10(cr) response: !35(cr) The analog output channel 0 in slot 3 of[...]
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ADAM-5000 6-93 Chapter 6 $aaSiCjB $aaSiCjB Name Configuration Status Description Returns the configuration parameters of a specified channel in a specified analog output module of a specified system. Syntax $aaSiCjB(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system you want to i[...]
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6-94 ADAM-5000 Command Set $aaSiCjB $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: !243210 The analog output channel 1 in slot 1 of[...]
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ADAM-5000 6-95 Chapter 6 #aaSiCj(data) #aaSiCj(data) Name Analog Data Out Description Sends a digital value from the host computer to a specified channel of a specified slot in a specified ADAM-5000 system for output as an analog signal. Upon receipt, the analog output module in the specified slot will output an analog signal corresponding to the d[...]
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6-96 ADAM-5000 Command Set #aaSiCj(data) #aaSiCj(data) ? delimiter character indicating the command was invalid. (cr) is the terminating character , carriage return (0Dh) Example command: #33S1C1 15.000(cr) response: >(cr) The command instructs the module in slot 1 of the ADAM-5000 system at address 33h to output a value of 15 mA from it's [...]
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ADAM-5000 6-97 Chapter 6 $aaSiCj4 $aaSiCj4 Name Start-Up Output Current/V oltage Configuration Description Stores a default output value in a specified channel. The output value will take effect upon startup or reset. Syntax $aaSiCj4(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 sy[...]
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6-98 ADAM-5000 Command Set $aaSiCj4 $aaSiCj4 Example command: $0AS1C14(cr) response: !0A(cr) Presume the present output value of channel 1 of slot 1 in the ADAM-5000 system at address 0Ah is 9.4 mA. The command tells the analog output module to store the present output value in its non-volatile memory . When the system is powered up or reset, its d[...]
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ADAM-5000 6-99 Chapter 6 $aaSiCj0 $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 I/O slot i (i : 0 to 3) a[...]
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6-100 ADAM-5000 Command Set $aaSiCj0 $aaSiCj0 be connected to the module's output. (See also the analog output module's T rim Calibration command in Chapter 4, Section 4.5, Analog Output Module Calibration for a detailed description.) 5024 Analog Output[...]
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ADAM-5000 6-101 Chapter 6 $aaSiCj1 $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 the I/O slot i (i : 0 to 3[...]
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6-102 ADAM-5000 Command Set $aaSiCj1 $aaSiCj1 be connected to the module's output. (See also the analog output module's T rim Calibration command in Chapter 4, Section 4.5, Analog Output Module Calibration for a detailed description.) 5024 Analog Output[...]
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ADAM-5000 6-103 Chapter 6 $aaSiCj3hh $aaSiCj3hh Name Trim Calibration Description Trims the specified channel a specified number of units up or down Syntax $aaSiCj3hh(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system. SiCj identifies the I/O slot i (i : 0 to 3) and the channel j[...]
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6-104 ADAM-5000 Command Set $aaSiCj3hh $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) counts which is approximately 30 µA. The anal[...]
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ADAM-5000 6-105 Chapter 6 $aaSiCj6 $aaSiCj6 Name Last V alue Readback Description Returns either the last value sent to the specified channel by a #aaSiCj(data) command, or the start-up output current/voltage. Syntax $aaSiCj6(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system. Si[...]
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6-106 ADAM-5000 Command Set $aaSiCj6 $aaSiCj6 Example command: $0AS2C16(cr) response: !0A03.000(cr) The command tells channel 1 of the analog output module in slot 2 of the ADAM-5000 system at address 0Ah to return the last output value it received from an Analog Data Out command, or its start-up output current /voltage. The analog output module re[...]
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ADAM-5000 6-107 Chapter 6 6.9 Digital Input/Output Command Set Comm and Sy nt ax Comm and Nam e Descr i pt ion $aaS i6 Di gi t a l Data I n Ret u rn s th e v a l u es of di gi t al I /O ch an n el s f or a spe cified mo dul e #aaS iB B(data) D i gital D ata O u t S et s o u t pu t v al u es of a sin gl e dig ital ou tpu t ch an n el or of all dig i[...]
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6-108 ADAM-5000 Command Set $aaSi6 $aaSi6 Name Digital Data In Description This command requests that the specified module in an ADAM-5000 system at address aa return the status of its digital input channels and a readback value of its digital output channels. Syntax $aaSi6(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-characte[...]
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ADAM-5000 6-109 Chapter 6 $aaSi6 $aaSi6 aa (range 00-FF) represents the 2-character hexadecimal address of an ADAM-5000 system. (datainput) a 2-character hexadecimal value representing the input values of the digital input module. (dataoutput) a 2-character hexadecimal value which is the readback of a digital output channel or relay . (cr) is the t[...]
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6-110 ADAM-5000 Command Set #aaSiBB(data) #aaSiBB(data) Name Digital Data Out Description This command either sets a single digital output channel or sets all digital output channels simultaneously . Syntax #aaSiBB(data)(cr) # is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system. Si iden[...]
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ADAM-5000 6-111 Chapter 6 #aaSiBB(data) #aaSiBB(data) A 4-character hexadecimal value is used to set the channels, from 15 thru 0, of the ADAM-5056. A 2 char- acter hexadecimal value is used to set the channels, from 5 thru 0, of the ADAM-5060. Bits 6 and 7 always default to 0 in the ADAM-5060. A 2 character hexadecimal value is used to set the cha[...]
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6-112 ADAM-5000 Command Set #aaSiBB(data) #aaSiBB(data) sent to the digital output module (ADAM-5056) in slot 1 of the ADAM-5000 system at address 14h. Channels 2, 4, 5, 9 and 12 will be set to ON, and all other channels are set to OFF . command: #15S0003A(cr) response: >(cr) An output byte with value 3Ah (00111011) is sent to the digital output[...]
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ADAM-5000 6-113 Chapter 6 $aaSiM $aaSiM Name Read Channel Masking Status Description Asks the specified module to return the masking status of digital output channels Syntax $aaSiM(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system. Si identifies the I/O slot of the system you wa[...]
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6-114 ADAM-5000 Command Set $aaSiM $aaSiM 0 in an ADAM-5068 module. Each bit represents a channel. A value of 1 means the channel is masked, while a value of 0 means the channel is valid. (cr) is the terminating character , carriage return (0Dh) Example command: $19S1M(cr) response: !191322(cr) The command asks the digital output module in slot 1 o[...]
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ADAM-5000 6-115 Chapter 6 6.10 ADAM-5080 Counter/Frequency Command Set Comm and Syntax Comm and Name D escri pt i on $aaT Read M odu l e N ame Re tu rns the m o d ul e n am e fr om a s pecified AD AM- 5000 sy ste m. $aaF Re ad F i rmwa re Ve r s i o n Re tu rns the fi r mwa re v er sion code f r om a spec i f i ed ADA M- 5000 sy stem. $aaSiArr ff S[...]
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6-116 ADAM-5000 Command Set 5080 Counter/ Frequency Module Command Syntax C omm and N ame Descri pti o n $aaSi C j 6 Clear Cou n ter Clear th e cou n t ers of the s p e c i fi e d cou n ter /f requ en cy mod u le $aaSi 7 Read O v erf l ow Fl ag Th e c o mmand requ est s th e addressed modu l e to ret u rn t h e stat u s of t h e ov erf l ow f l ag [...]
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ADAM-5000 6-117 Chapter 6 Comm and Synt ax Comm and Name Descr i pti on $aaSi C j A h U (dat a) S et A l arm Li mit Sets th e H igh /Low a la rm li mi t value fo r the sp ecif ied in pu t ch an n el of a speci f i ed AD A M- 5000 sy st em. $aaSi C j Rh U R ead A lar m Limit Re turns the Hi g h/L o w a la rm li mi t value fo r the sp ecif ied in pu [...]
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6-118 ADAM-5000 Command Set 5080 Counter/ Frequency Module $aaT $aaT Name Read Module Name Description Returns the module name from a specified ADAM-5000 system. Syntax $aaT(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system you want to interrogate. T is the command for reading M[...]
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ADAM-5000 6-119 Chapter 6 $aaT $aaT Example command: $25T(cr) Response !25FF80FFFF(cr) ADAM-5080 is plug in slot 1 and the command requests the system at address 25h to send its module name.[...]
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6-120 ADAM-5000 Command Set 5080 Counter/ Frequency Module $aaF $aaF Name Read Firmware V ersion Description Returns the firmware version code from a specified ADAM-5000 system. Syntax $aaF(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system you want to interrogate. F is the comma[...]
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ADAM-5000 6-121 Chapter 6 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. $aaF $aaF[...]
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6-122 ADAM-5000 Command Set 5080 Counter/ Frequency Module $aaSiArrff $aaSiArrff Name Set Configuration Description Set slot index and counter mode. Syntax $aaSiArrff(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system you want to configure. Si identifies the I/O slot i you want t[...]
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ADAM-5000 6-123 Chapter 6 $aaSiArrff $aaSiArrff Example command: $24S1A0002(cr ) response: !24(cr) The ADAM-5080 in Slot 1 of ADAM-5000 system at address 24h is in Bi-direction mode and configured for hexdecimal format.[...]
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6-124 ADAM-5000 Command Set 5080 Counter/ Frequency Module $aaSiB $aaSiB Name Read Configuration. Description The command requests the Configuration of slot Syntax $aaSiB(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system you want to interrogate. Si identifies the desired slot i [...]
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ADAM-5000 6-125 Chapter 6 $aaSiB $aaSiB Example command: $35S3B(cr ) response: !350100(cr) The ADAM-5080 in Slot 3 of ADAM-5000 system at address 35h responds that it is configured in UP/DOWN counter mode and for engineering unit data format.[...]
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6-126 ADAM-5000 Command Set 5080 Counter/ Frequency Module #aaSi #aaSi Name Read All Channel Counter (Frequency) Data Description Return the input value of all channels for the specified input module for a specified system in engineering unit only . Syntax #aaSi(cr) # is a delimiter character . aa (range 00-FF) represents the 2-character hexadecima[...]
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ADAM-5000 6-127 Chapter 6 #aaSi #aaSi Example command: #16S2(cr ) response: If the response you got is in Counter mode, you'll see one similiar 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 system at address 16h[...]
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6-128 ADAM-5000 Command Set 5080 Counter/ Frequency Module #aaSi #aaSi However , if the response is in frequency mode , you'll see one similar to the example below: >000009870000000649000000076200000001 1600(cr) As all 4 values are concatenated into one numerical string such as above, we can still easily discern the values of 4 channels spe[...]
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ADAM-5000 6-129 Chapter 6 #aaSiCj #aaSiCj Name Read One Channel Counter (Frequency) Data Description The command will return the input value from one of the four channels of a specified module. Syntax #aaSiCj(cr) # is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system you want to interrog[...]
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6-130 ADAM-5000 Command Set 5080 Counter/ Frequency Module #aaSiCj #aaSiCj Example command: $35S3C2(cr ) response: >0000000451(cr) The command requests the ADAM-5080 module in slot 3 of the ADAM-5000 system at address 35h to return the input value of channel 2. The counter module responds that the input value of channel 2 is 451.[...]
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ADAM-5000 6-131 Chapter 6 $aaSiØ(data) $aaSiØ(data) Name Set Digital filter Scale Description Set the filter seconds to start to measure the input signal. Syntax $aaSiØ(data)(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system which is to be calibrate. Si identifies the sepcifi[...]
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6-132 ADAM-5000 Command Set 5080 Counter/ Frequency Module $aaSiØ(data) $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.[...]
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ADAM-5000 6-133 Chapter 6 $aaSiØ $aaSiØ Name Read Digital filter scale Description Read the filter seconds to start to measure the input signal. 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 calibrate. Si identifies the I/O slot which is to be[...]
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6-134 ADAM-5000 Command Set 5080 Counter/ Frequency Module $aaSiØ $aaSiØ Example command: $26S30(cr ) response: !2600765(cr) The command requests the ADAM-5080 in slot 3 of the ADAM-5000 system at address 26h to read the filter seconds. The module responds with 765 µ seconds.[...]
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ADAM-5000 6-135 Chapter 6 $aaSiCj5s $aaSiCj5s Name Set Counter Start/Stop Description Request the addressed counter/frequency module to start or stop the counting. Syntax $aaSiCj5s(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system. SiCj identifies the I/O slot i and the channel [...]
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6-136 ADAM-5000 Command Set 5080 Counter/ Frequency Module $aaSiCj5s $aaSiCj5s Example command: $26S3C251(cr ) response: !26(cr) The command requests channel 2 of ADAM-5080 in slot 3 in ADAM-5000 system at address 26h to start counter .[...]
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ADAM-5000 6-137 Chapter 6 $aaSiCj5 $aaSiCj5 Name Read counter Start/Stop Description Requests the addressed counter/frequency module to indicate whether counters are active. Syntax $aaSiCj5(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system. SiCj identifies the I/O slot i and the[...]
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6-138 ADAM-5000 Command Set 5080 Counter/ Frequency Module $aaSiCj5 $aaSiCj5 Example command: $26S3C25(cr ) response: !261(cr) The channel 2 of ADAM-5080 in slot 3 in ADAM-5000 system at address 26h is instructed to return its counter status. The counter status is in start status.[...]
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ADAM-5000 6-139 Chapter 6 $aaSiCj6 $aaSiCj6 Name Clear Counter Description Clear the counters of the specified counter/frequency module Syntax $aaSiCj6(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system. SiCj identifies the I/O slot i and the channel j for the module you want to [...]
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6-140 ADAM-5000 Command Set 5080 Counter/ Frequency Module $aaSiCj6 $aaSiCj6 Example command: $26S3C26(cr ) response: !26(cr) The command requests the channel 2 of ADAM-5080 in slot 3 in ADAM-5000 system at address 26h to clear counter value.[...]
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ADAM-5000 6-141 Chapter 6 $aaSi7 $aaSi7 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 the I/O slot i (i : 0 to 3)[...]
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6-142 ADAM-5000 Command Set 5080 Counter/ Frequency Module $aaSi7 $aaSi7 Example command: $26S37(cr ) response: !2600000001(cr) The command requests the ADAM-5080 of slot 3 in ADAM-5000 system at address 26h to return the overflow value. The overflow value in channel 3 is 01. The others are 00.[...]
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ADAM-5000 6-143 Chapter 6 @aaSiCjP(data) @aaSiCjP(data) Name Set Initial Counter V alue Description Set initial counter value for counter of the specified counter module. Syntax @aaSiCjP(data)(cr) @ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system. SiCj identifies the I/O slot i and [...]
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6-144 ADAM-5000 Command Set 5080 Counter/ Frequency Module @aaSiCjP(data) @aaSiCjP(data) Example command: @26S3C2P0000004369(cr ) response: !26(cr) The channel 2 of ADAM-5080 in slot 3 in ADAM-5000 system at address 26h is instructed to set initial counter value. The initial counter value is 4369.[...]
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ADAM-5000 6-145 Chapter 6 @aaSiCjG @aaSiCjG Name Read Initial Counter Description Read initial counter value of specified module. Syntax @aaSiCjG(cr) @ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of the ADAM-5000 system. SiCj identifies the I/O slot i and the channel j for the module you want to return[...]
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6-146 ADAM-5000 Command Set 5080 Counter/ Frequency Module @aaSiCjG @aaSiCjG Example command: @26S3C2G(cr ) response: !260000004369(cr) The channel 2 of ADAM-5080 in slot 3 in ADAM-5000 system at address 26h is instructed to return counter initial value. The initial counter value is 4369.[...]
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ADAM-5000 6-147 Chapter 6 $aaSiCjAhEs $aaSiCjAhEs Name Set Alarm Disable/Latch Description The addressed counter module is instructed to set alarm disable or latch. Syntax $aaSiCjAhEs(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of an ADAM-5000 system. SiCj identifies the desired slot i and the de[...]
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6-148 ADAM-5000 Command Set 5080 Counter/ Frequency Module $aaSiCjAhEs $aaSiCjAhEs Example command: $03S0C1ALED(cr ) response: !03(cr) Channel 1 of slot 0 of ADAM-5080 in ADAM-5000 system at address 03h is instructed to disable its Low alarm function. The module confirms that its Low alarm function has been disable.[...]
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ADAM-5000 6-149 Chapter 6 $aaSiCjAh $aaSiCjAh Name Read Alarm Disable/Latch Description Return the alarm mode for the specified channel. Syntax $aaSiCjAh(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of an ADAM-5000 system. SiCj identifies the desired slot i and the desired channel j. A is the Read[...]
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6-150 ADAM-5000 Command Set 5080 Counter/ Frequency Module $aaSiCjAh $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.[...]
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ADAM-5000 6-151 Chapter 6 $aaSiCjCh $aaSiCjCh Name Clear Alarm Status Description Returns the alarm status to normal Syntax $aaSiCjCh(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of an ADAM-5000 system. SiCj identifies the desired slot i and the desired channel j. C is the clear Alarm Mode command[...]
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6-152 ADAM-5000 Command Set 5080 Counter/ Frequency Module $aaSiCjCh $aaSiCjCh Example command: $03S0C1CL(cr ) response: !03(cr) Channel 1 of slot 0 of ADAM-5080 in ADAM-5000 system at address 03h is instructed to set its Low alarm state to normal. The system confirms it has done so accordingly .[...]
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ADAM-5000 6-153 Chapter 6 $aaSiCjAhCSkCn $aaSiCjAhCSkCn Name Set Alarm Connection Description Connect the High/Low alarm of the specified input channel to the specified digital output in the addressed ADAM-5000 system Syntax $aaSiCjAhCSkCn(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of an ADAM-50[...]
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6-154 ADAM-5000 Command Set 5080 Counter/ Frequency Module $aaSiCjAhCSkCn $aaSiCjAhCSkCn 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 system confirms it has[...]
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ADAM-5000 6-155 Chapter 6 $aaSiCjRhC $aaSiCjRhC Name Read Alarm Connection Description Return the High/Low alarm limit output connection of a specified input channel in the addressed ADAM-5000 system Syntax $aaSiCjRhC(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of an ADAM-5000 system. SiCj identi[...]
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6-156 ADAM-5000 Command Set 5080 Counter/ Frequency Module $aaSiCjRhC $aaSiCjRhC Example command: $03S0C1RLC(cr ) response: !03SØC1(cr) Channel 1 of slot 0 of ADAM-5080 in ADAM-5000 system at address 03h is instructed to read its Low alarm output connection. The system responds that the Low alarm output connects to the digital output at point 0 of[...]
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ADAM-5000 6-157 Chapter 6 $aaSiCjAhU(data) $aaSiCjAhU(data) Name Set Alarm Limit Description Set 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 the 2-character hexadecimal address of an ADAM-5000 system. SiCj identif[...]
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6-158 ADAM-5000 Command Set 5080 Counter/ Frequency Module $aaSiCjAhU(data) $aaSiCjAhU(data) Example command: $03SØC1AHU0000000020(cr ) response: !03(cr) The channel 1 of slot 0 of ADAM-5080 in ADAM-5000 system at address 03h is configured to set High alarm limit value to 20.[...]
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ADAM-5000 6-159 Chapter 6 $aaSiCjRhU $aaSiCjRhU Name Read Alarm Limit Description Return the High/Low alarm limit value for the specified input channel in the addressed ADAM-5000 system Syntax $aaSiCjRhU(cr) $ is a delimiter character . aa (range 00-FF) represents the 2-character hexadecimal address of an ADAM-5000 system. SiCj identifies the desir[...]
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6-160 ADAM-5000 Command Set 5080 Counter/ Frequency Module $aaSiCjRhU $aaSiCjRhU Example command: $03SØC1RHU(cr ) response: !030000000026(cr) The c hannel 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.[...]
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ADAM-5000 6-161 Chapter 6 $aaSiCjS $aaSiCjS Name Read Alarm Status Description Read 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 hexadecimal address of an ADAM-5000 system. SiCj identifies the desired slot i an[...]
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6-162 ADAM-5000 Command Set 5080 Counter/ Frequency Module $aaSiCjS $aaSiCjS Example command: $03SØC1S response: !031 1(cr) The c hannel 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.[...]
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7 Troubleshooting[...]
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7-2 ADAM-5000 T roubleshooting Diagnosis 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 diagnosis information wil[...]
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ADAM-5000 7-3 Chapter 7 Error Code Error Type 00h OK 01h AI module span calibration err or 02h AI module self-calibration err or 04h AI module zero calibration error 08h AI module data readin g error 10h CJC reading error 20h EEPROM read/write err or of AI/AO modules 7.3 System Indicators While the ADAM-5000 system is in operation the indicators on[...]
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7-4 ADAM-5000 T roubleshooting 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. Use the following guidelines t[...]
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ADAM-5000 7-5 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. T o isolate which module is causing the problem, disconnect the external power and remove one modul[...]
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7-6 ADAM-5000 T roubleshooting 7. 5 I/O Module T roubleshooting 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 block • The power supply has[...]
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A Quick Start Example[...]
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A -2 ADAM-5000 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 of your network before you start. Gu[...]
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ADAM-5000 A-3 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 also provides opto-isolation and t[...]
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A -4 ADAM-5000 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. Figure A-1 Power supply connections It is advisable to use standard coding colors for the power lines: +Vs (R) R[...]
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ADAM-5000 A-5 Appendix A transmit both DA T A and R TS signals. It is advisable that the follow- ing standard colors be used for the communication lines: D A T A + ( Y ) Y ellow DA T A - ( G ) Green ADAM Utility Software A menu-driven utility program is provided for ADAM-5000 system configuration, monitoring and calibration. It also includes a term[...]
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A -6 ADAM-5000 Quick Start Example Default Factory Settings Baud rate: 9600 Bits/sec. Address: 01 (hexadecimal) The basic hook-up for system configuration is show below: Figure A-2 ADAM-5000 system hook-up and configuration The following items are required to configure an ADAM-5000 system: a personal computer with RS-232 port (baud rate sent to 960[...]
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ADAM-5000 A-7 Appendix A Configuration with the ADAM Command Set ADAM systems can also be configured by issuing direct command from within the terminal emulation program that is included with the ADAM utility software. The following example guides you through the setup of an analog input module. Assume that an ADAM-5018 Thermocouple Input module in[...]
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A -8 ADAM-5000 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 respond with its new address: !01(c[...]
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ADAM-5000 A-9 Appendix A known state. This state is called the INIT* state. INIT* state defaults: Baud rate: 9600 Address: 0 0 h 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 shorted, all configuration set[...]
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A-10 ADAM-5000 Quick Start Example Figure A-3 Grounding the INIT* terminal 3 . W ait at least 7 seconds to let self-calibration and ranging take e f - fect. 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 the ADAM-5000 system ON. 7 . W ai[...]
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ADAM-5000 A-11 Appendix A A .4 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 DATA- DATA+ GND +VS RB Y G POWER SUPPLY +10 TO +30 VDC - + GND(B) +VS(R) G Y B R +VS GND DATA+ DATA- RS-485 HOST DATA+(Y) DATA-(G) G Y B R +VS G[...]
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A-12 ADAM-5000 Quick Start Example This page intentionally left blank[...]
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B Data Formats and I/O Ranges[...]
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B -2 ADAM-5000 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. This format presents data in natura[...]
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ADAM-5000 B-3 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 T ype J thermocouple whose range is 0ºC to 760ºC. The response to t[...]
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B -4 ADAM-5000 Data Formats and I/O Ranges B.2 Analog Input Ranges - ADAM-5017 and 5018 Module R ange Code Inp u t R a ng e Desc ript ion Data For mat s +F .S. Zer o -F .S. Di spl ay ed Re s oluti o n En gineer in g Unit s +10 .000 ±00. 000 -10. 000 1 mV 08h ±10 V % of FSR +100. 00 ±000. 00 -100. 00 0.01% Tw o ' s Co mplement 7FFF 0000 8000[...]
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ADAM-5000 B-5 Appendix B Modul e Ran g e Code Inp ut R a ng e Desc rip tion Data For mat s +F .S. Z ero -F .S. Display ed Re so luti o n Engineering Unit s +1 5.000 ±00. 000 -1 5.000 1 µV 00h ±1 5 mV % of FSR + 100.00 ±000.00 -1 00.00 0.01% Tw o ' s Co mplement 7FFF 0000 8000 1 LSB Engineering Unit s +50. 000 ±00. 000 -50. 000 1 µ V 01h [...]
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B -6 ADAM-5000 Data Formats and I/O Ranges Module Range Code Inp ut Ra nge Description Data Form ats Maxi mum Spe cif ied Signal Minimum Spec if ied Signal Displayed Resolution Ty pe J Engin eering Units +76 0.00 +000.00 0.1ºC 0Eh Therm ocouple % of FSR +100 .00 +000.00 0.01% 0ºC to 760ºC Two' s Complemen t 7FFF 0000 1 LSB Type K Engin eeri[...]
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ADAM-5000 B-7 Appendix B B.3 Analog Input Ranges of ADAM-5017H Note: The full scale values in this table are theoretical values f or y our ref erence; actual v alues will v ar y . Ra ng e Cod e In p u t Ra ng e Dat a Form ats +Ful l Scal e Z ero -Fu l l Scal e Displ ay ed Re s o luti o n 0 0 h ± 1 0 V E ng i ne e r i ng 11 0 - 11 2 .7 m V T w o&ap[...]
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B -8 ADAM-5000 Data Formats and I/O Ranges B.4 Analog Output Formats Y ou 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. This format presents data in natura[...]
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ADAM-5000 B-9 Appendix B B.6 ADAM-5013 RTD Input Format and Ranges Range Code (h ex ) In p ut R a n g e Des cr ipt ion Dat a Form ats Maxi mum Specified Signal Mi nimum Specified Signal Disp l ay e d Res oluti o n 20h 100 Oh ms P l a ti num RT D -100 t o 100° C a=0. 00385 En gi n eerin g Un i ts +100. 00 - 100.00 + -0. 1° C 21h 100 Oh ms P l a ti[...]
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B-10 ADAM-5000 Data Formats and I/O Ranges[...]
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C RS-485 Network[...]
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C - 2 ADAM-5000 RS-485 Network EIA RS-485 is the industry’ s most widely used bidirectional, balanced transmission line standard. It is specifically developed for industrial multi-drop systems that should be able to transmit and receive data at high rates or over long distances. The specifications of the EIA RS-485 protocol are as follows: • Ma[...]
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ADAM-5000 C-3 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. Since ADAM-5000 systems use the RS-4[...]
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C - 4 ADAM-5000 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 in several line-endings. Figure C[...]
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ADAM-5000 C-5 Appendix C Random This is a combination of daisychain and hierarchical structure. Figure C-3 Random structure[...]
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C - 6 ADAM-5000 RS-485 Network Combination of an ADAM-4000 and an ADAM-5000 in a RS-485 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 AD AM-4000 and AD AM-5000 in a RS- 485 network should be the same. C.2 Line T ermination Each dis[...]
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ADAM-5000 C-7 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 characteristic impedance of the line. E[...]
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C - 8 ADAM-5000 RS-485 Network Figure C-6 T ermination resistor 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 closely together at the end of the[...]
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ADAM-5000 C-9 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 transmission line needs only to be terminated [...]
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C-10 ADAM-5000 RS-485 Network This page intentionally left blank[...]
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D How to Use the Checksum Feature[...]
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D - 2 ADAM-5000 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/Disable T o enable configuration of a m[...]
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ADAM-5000 D-3 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: $07S1RHA9(cr) Response: !07+2.0500D8(cr)[...]
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D - 4 ADAM-5000 How to Use the Checksum Feature HEX ASCII HEX ASCII HE X ASCII 40 @ 60 ` 21 ! 41 A 61 a 22 " 42 B 62 b 23 # 43 C 63 c 24 $ 44 D 64 d 25 % 45 E 65 e 26 & 46 F 66 f 27 ' 47 G 67 g 28 ( 48 H 68 h 29 ) 49 I 69 i 2A * 4A J 6A j 2B + 4B K 6B k 2C , 4C L 6C l 2D - 4D M 6D m 2E . 4E N 6E n 2F / 4F O 6F o 30 0 50 P 70 p 31 1 51[...]
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ADAM-5000 E-1 Appendix E E ADAM-4000/5000 System Grounding Installation[...]
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E -2 ADAM-5000 ADAM-4000/5000 System Grounding Installation E. 1 Power Supplies For relevant wiring issues, please refer to the following scheme : Figure E-1: Grounding Scheme E.2 Grounding Installation Ø The outer case for the module is made of iron and fitted with a fan and convection holes with filters. Ø If possible, wiring should be connecte[...]
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ADAM-5000 E-3 Appendix E Figure E-2: External T erminal Block and Fan E.3 External DI, DO, AI, AO Wiring Reference Ø 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 should not be grounded with those on-site machineries. Ø W ithin an envi[...]
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E -4 ADAM-5000 ADAM-4000/5000 System Grounding Installation Ø 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. Figure E-3: Grounding for on-site facilities and ADAM-5000/4000 Systems Ø Since shielded twisted-pair has been adopted for signal wires, only DA[...]
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ADAM-5000 E-5 Appendix E E.5 Grounding reference (Ground bar for the factory environment should have a standard resistance below 5 Ω Ω Ω Ω 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: Ø Power supply : The E terminal of th[...]
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E -6 ADAM-5000 ADAM-4000/5000 System Grounding Installation E.6 Some Suggestions on Wiring Layout Ø 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 need another wire for extended [...]
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ADAM-5000 F-1 Appendix F F Grounding Reference[...]
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F - 2 ADAM-5000 Grounding Reference Field Grounding and Shielding Application Overview Unfortunately , it’ s impossible to finish the system integration task at a time. W e 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 thunders. However , the mo[...]
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ADAM-5000 F-3 Appendix F 3. Noise Reduction T echniques 4. Check Point List F .1 Grounding 1.1 The Earth for reference Figure F-1: Think the EARTH as GROUND. • Why we think the EAR TH as GROUND? As you know that the EAR TH can not be conductive indeed. But all buildings base on EAR TH. Steels, concretion and relational cables such as Lighti[...]
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F - 4 ADAM-5000 Grounding Reference 1.2 The Frame Ground and Grounding Bar Figure F-2: Grounding Bar. According to previous description, the grounding is the most impor- tant issue for our system. Just like ‘Frame Ground’ of the computer , this signal offers a reference point of the electronic circuit inside the computer . When we [...]
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ADAM-5000 F-5 Appendix F 1.3 Normal Mode and Common Mode 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? Y ou will get nonsense value with above testinF . ‘Hot’ and ‘Neutral’ were just a relational sign[...]
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F - 6 ADAM-5000 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.[...]
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ADAM-5000 F-7 Appendix F 1.4 Wire impedance Figure F-5: The purpose of high voltage transmission • What’ s the purpose of high voltage transmission? W e can see the high voltage tower stand at suburban. The power plant raises the voltage while generating the power , then downs the voltage when transmits the power to power station. What’ s the[...]
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F - 8 ADAM-5000 Grounding Reference Above diagram just shows you that the wire impedance will consume the power . 1.5 Single Point Grounding Figure F-7: Single point groundinF . (1) • What’ s Single Point Grounding? Maybe you had some displease experiences just like take hot water shower in W inter . When someone turns on another hot water hydr[...]
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ADAM-5000 F-9 Appendix F 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 the thin cable powering those devices, the end device will get lower power . The thin cable will consume the energy . F .2 Shielding 2.1 Cable Shield Figure F-9: Single is[...]
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F-10 ADAM-5000 Grounding Reference • Single isolated cable Above diagram shows you the structure of the isolated cable. Y ou 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 isolated cable • Double isolat[...]
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ADAM-5000 F-11 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 higher the better , especially[...]
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F-12 ADAM-5000 Grounding Reference • Never stripping too long of the plastic cable cover . Otherwise, this improper status will destroy the characteristic of the Shielded- T wisted-Pair cable. Besides, those nude wires are easy to adhere the noise. • Cascade those shields together by “Soldering”. Please refer to following page for further d[...]
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ADAM-5000 F-13 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 difficult way for signal. So th[...]
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F-14 ADAM-5000 Grounding Reference • Shield connection (2) Above diagram shows you that the fill soldering just makes a easier way for the signal. F .3 Noise Reduction T echniques • Enclose noise sources in shield enclosures. • Place sensitive equipment in shielded enclosure and away from computer equipment. • Use separate grounds between n[...]
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ADAM-5000 F-15 Appendix F Figure F-15: Noise Reduction T echniques 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 the soldering of conn[...]
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F-16 ADAM-5000 Grounding Reference[...]