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Artisan Technology Group is your source for quality new and certified-used/pre-owned equipment • FAST SHIPPING AND DELIVERY • TENS OF THOUSANDS OF IN-STOCK ITEMS • EQUIPMENT DEMOS • HUNDREDS OF MANUFACTURERS SUPPORTED • LEASING/MONTHLY RENTALS • ITAR CERTIFIED SECURE ASSET SOLUTIONS SERVICE CENTER REPAIRS Experienced engineers and technicians on staff at our full-service, in-house repair center WE BUY USED EQUIPMENT Sell your excess, underutilized, and idle used equipment We also offer credit for buy-back
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Advantys STB Analog I/O Modules Reference Guide 31007715.04 6/2008 www.schneider-electric.com Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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2 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Table of Contents Safety Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 About the Book . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Chapter 1 The Advantys STB Architecture: Theory of Operation . . . . . . 15 Advantys STB Islands of Automation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Types of Modules on an Advantys STB Island . . . . . . . . . . . . . . . . . . . . . . . . . . Island Segments . . . . . . . . .
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2.4 2.5 2.6 2.7 2.8 STB AVI 1275 Field Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73 STB AVI 1275 Functional Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 76 STB AVI 1275 Data for the Process Image . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 77 STB AVI 1275 Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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2.9 2.10 2.11 Chapter 3 3.1 3.2 3.3 STB ACI 1400 Analog Current Input Module (eight-channel, single-ended Inputs, 15-bit + sign, 4 ... 20 mA or 0 ... 20 mA) . . . . . . . . . . . . . STB ACI 1400 Physical Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . STB ACI 1400 LED Indicator. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . STB ACI 1400 Field Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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3.4 3.5 3.6 3.7 3.8 STB AVO 1265 Physical Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 277 STB AVO 1265 LED Indicator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 279 STB AVO 1265 Field Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 280 STB AVO 1265 Functional Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 283 STB AVO 1265 Data for the Process Image . . . . . . . . . . . . .
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STB AVO 0200 Data and Status for the Process Image. . . . . . . . . . . . . . . . . . 359 STB AVO 0200 Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 365 Chapter 4 4.1 4.2 Chapter 5 Advantys Power Distribution Modules . . . . . . . . . . . . . . . . . . 367 STB PDT 3100 24 VDC Power Distribution Module . . . . . . . . . . . . . . . . . . . . . STB PDT 3100 Physical Description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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8 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Safety Information § Important Information NOTICE Read these instructions carefully, and look at the equipment to become familiar with the device before trying to install, operate, or maintain it. The following special messages may appear throughout this documentation or on the equipment to warn of potential hazards or to call attention to information that clarifies or simplifies a procedure.
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Safety Information 10 31007715 6/2008 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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About the Book At a Glance Document Scope This document describes the physical and functional characteristics of the Advantys STB analog I/O modules, power distribution modules, and analog module accessories. Validity Note The data and illustrations found in this book are not binding. We reserve the right to modify our products in line with our policy of continuous product development.
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About the Book Title of Documentation Reference Number Advantys STB Basic Profibus DP Network Interface Applications Guide 890 USE 192 0x Advantys STB Standard INTERBUS Network Interface Applications Guide 890 USE 174 0x Advantys STB Basic INTERBUS Network Interface Applications Guide 890 USE 196 0x Advantys STB Standard DeviceNet Network Interface Applications Guide 890 USE 175 0x Advantys STB Basic DeviceNet Network Interface Applications Guide 890 USE 194 0x Advantys STB Standard CANopen Net
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About the Book Product Related Warnings Schneider Electric assumes no responsibility for any errors that may appear in this document. If you have any suggestions for improvements or amendments or have found errors in this publication, please notify us. No part of this document may be reproduced in any form or by any means, electronic or mechanical, including photocopying, without express written permission of Schneider Electric.
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About the Book 14 31007715 6/2008 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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The Advantys STB Architecture: Theory of Operation 1 At a Glance Overview This chapter provides an overview of the Advantys STB system. It provides you with context for understanding the functional capabilities of an island and how its various hardware components interoperate with one other.
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Theory of Operation Advantys STB Islands of Automation System Definition Advantys STB is an open, modular distributed I/O system designed for the machine industry, with a migration path to the process industry. Modular I/O, power distribution modules (PDMs) and a network interface module (NIM) reside in a structure called an island. The island functions as a node on a fieldbus control network and is managed by an upstream fieldbus master controller.
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Theory of Operation Mechatronics An Advantys STB system lets you place the control electronics in the I/O modules as close as possible to the mechanical devices they are controlling. This concept is known as mechatronics. Depending on the type of NIM you use, an Advantys STB island bus may be extended to multiple segments of I/O on one or more DIN rails. Island bus extensions allow you to position the I/O as close as possible to the sensors and actuators they control.
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Theory of Operation Types of Modules on an Advantys STB Island Summary Your island’s performance is determined by the type of NIM that you use. NIMs for various field buses are available in different model numbers at different price points and with scalable operating capabilities. Standard NIMs, for example, can support up to 32 I/O modules in multiple (extension) segments. Low-cost basic NIMs, on the other hand, are limited to 16 I/O modules in a single segment.
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Theory of Operation Preferred Modules A preferred module is a device from another Schneider catalog, or potentially from a third-party developer, that fully complies with the Advantys STB island bus protocol. Preferred modules are developed and qualified under agreement with Schneider; they conform fully to Advantys STB standards and are auto-addressable.
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Theory of Operation Island Segments Summary An Advantys STB system starts with a group of interconnected devices called the primary segment. This first segment is a mandatory piece of an island. Depending on your needs and on the type of NIM you are using (see p. 18), the island may optionally be expanded to additional segments of Advantys STB modules, called extension segments and to non-STB devices such as preferred modules and/or standard CANopen devices.
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Theory of Operation The DIN Rail The NIM and the module bases snap onto a conductive metal DIN rail. The rail may be 7.5 mm or 15 mm deep.
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Theory of Operation Base Model Base Width Advantys STB Modules It Supports STB XBA 2100 18.4 mm (0.72 in) the size 2 base that supports an auxiliary power supply STB XBA 2200 18.4 mm (0.72 in) the size 2 base that supports the PDMs STB XBA 2300 18.4 mm (0.72 in) the size 2 base that supports BOS modules STB XBA 2400 18.4 mm (0.72 in) the size 2 base that supports EOS modules STB XBA 3000 28.1 mm (1.
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Theory of Operation An Illustrative Example The illustration below shows an example of a primary segment with PDMs and I/O modules installed in their bases: 1 1 2 3 4 5 6 31007715 6/2008 2 3 4 5 6 The NIM resides in the first location. One and only one NIM is used on an island. A 115/230 VAC STB PDT 2100 PDM, installed directly to the right of the NIM. This module distributes AC power over two separate field power buses, a sensor bus and an actuator bus.
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Theory of Operation Logic Power Flow Summary Logic power is the power that the Advantys STB I/O modules require to run their internal processing and light their LEDs. It is distributed across an island segment by a 5-to-24 VDC power supply. One of these power supplies is built into the NIM to support the primary segment; another is built into the STB XBE 1200 BOS modules to support any extension segments.
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Theory of Operation Logic Power Flow The NIM converts the incoming 24 VDC to 5 VDC, and sends it across the island bus to the I/O modules in the primary segment: P/S 5 VDC 5V 24 V 24 VDC P/S NIM PDM IN IN IN OUT OUT OUT This power supply provides 1.2 A of current to the primary segment. If the total current draw of all the modules on the island bus exceeds 1.2 A, you need to either use an auxiliary power supply or place some of the modules in one or more extension segment(s).
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Theory of Operation The Power Distribution Modules Functions A PDM distributes field power to a set of Advantys STB I/O modules on the island bus. The PDM sends field power to the input and output modules in a segment. Depending on the PDM module you are using, it may distribute sensor power and actuator power on the same or on separate power lines across the island bus. The PDM protects the input and output modules with a user-replaceable fuse.
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Theory of Operation Note: When you plan the layout of an island segment that contains a mixture of AC and DC modules, we recommend that you place the AC voltage group(s) to the left of the DC voltage group(s) in a segment. In this case, the STB PDT 3100 PDM is placed directly to the right of the last 115 VAC module.
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Theory of Operation Basic PDM Power Distribution If your island uses basic PDMs instead of standard PDMs, then actuator power and sensor power are sent over a single power line: NIM 115 V DAI PDM DAI DAI DAO DAO DAO 24 V DDI DDO PDM 1 2 Each basic PDM contains on 5 A time-lag fuse that protects the I/O modules in the segment. This fuse is user-replaceable. PE Grounding A captive screw terminal on the bottom of the PDM base makes contact with pin 12 (see p.
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Theory of Operation Sensor Power and Actuator Power Distribution on the Island Bus Summary The sensor bus and the actuator bus need to be powered separately from external sources. Depending on your application, you may want to use the same or different external power supplies to feed the sensor bus and the actuator bus. The source power is fed to two two-pin power connectors on a PDM.
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Theory of Operation To assure that the installation will perform to system specifications, it is advisable to use a separate 24 VDC supply for logic power to the NIM and for field power to the PDM: P/S 5.
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Theory of Operation Note: In the example above, a single power supply is used to provide 24 VDC to the NIM (for logic power) and the PDM. If any of the modules supported by the PDM is an STB relay module that operates at a contact voltage above 130 VAC, the double insulation provided by the SELV power supply is no longer present. Therefore, you will need to use a separate 24 VDC power supply to support the relay module.
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Theory of Operation If the segment contains a mixture of both 115 VAC and 230 VAC I/O modules, you must take care to install them in separate voltage groups and support the different voltages with separate STB PDT 2100 PDMs: P/S 1 External 24 VDC Source P/S 5.
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Theory of Operation Communications Across the Island Island Bus Architecture Two sets of contacts on the left side of the base units—one set on the bottom and one on the top—enable the island to support several different communication and power buses. The contacts on the top left of a base support the island’s logic side functions. The contacts at the bottom left of a base support the island’s field power side.
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Theory of Operation Field Power Distribution Contacts Base Unit Logic-side Contacts STB XBA 2300 size 2 BOS base Contacts 2 ... 6 are present and pass signals to the right STB XBA 2400 size 2 EOS base Contacts 1 ... 6 are present but the signals do not pass to the right STB XBA 3000 size 3 I/O base Contacts 2 ... 6 present and pass signals to the right.
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Theory of Operation The following table lists the way the field-side contacts are implemented on the different base units. 31007715 6/2008 Base Unit Logic-side Contacts STB XBA 1000 size 1 I/O base Contacts 7 ... 12 present. Contacts 7 and 12 are always made. Contacts 8 and 9 are made for input modules but not for output modules. Contacts 10 and 11 are made for output modules but not for input modules. STB XBA 2000 size 2 I/O base Contacts 7 ... 12 present. Contacts 7 and 12 are always made.
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Theory of Operation Operating Environment Environmental Specifications The following information describes systemwide environmental requirements and specifications for the Advantys STB system. Enclosure This equipment is considered Group 1, Class A industrial equipment according to IEC/CISPR Publication 11. Without appropriate precautions, there may be potential difficulties ensuring electromagnetic compatibility in other environments due to conducted and/or radiated disturbance.
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Theory of Operation Parameter Specification IEC 61000-4-11 supply voltage variation, interruption, ref. 61131-2 shut-down and start-up Electromagnetic Susceptibility Radiated Emission shock ref. IEC88, part 2-27 +/-15 g peak, 11 ms, half-sine wave for 3 shocks/axis operating altitude 2000 m (2187 yd) transport altitude 3000 m (3281 yd) free-fall ref. EN61131-2 agency certifications ATEX @ 0 to 60°C and FM @ extended temperature ranges for specified modules 1 m (1.
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Theory of Operation 38 31007715 6/2008 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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The Advantys STB Analog Input Modules 2 At a Glance Overview This chapter describes the features of the standard and basic Advantys STB analog input modules. What's in this Chapter? This chapter contains the following sections: 31007715 6/2008 Section Topic Page 2.1 STB AVI 1255 Analog Voltage Input Module (two-channel, 0 ... 10 V, 10-bit, single-ended) 40 2.2 STB AVI 1270 Analog Voltage Input Module (two-channel, isolated, +/-10 V, 11-bit + sign) 51 2.
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Analog Input Modules 2.1 STB AVI 1255 Analog Voltage Input Module (two-channel, 0 ... 10 V, 10-bit, single-ended) At a Glance Overview This section provides you with a detailed description of the STB AVI 1255 analog input module—its functions, physical design, technical specifications, field wiring requirements, and configuration options.
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Analog Input Modules STB AVI 1255 Physical Description Physical Characteristics The STB AVI 1255 is a basic Advantys STB two-channel analog input module that reads inputs from analog sensors that operate over the range 0 to +10 V. The analog portion of the module is isolated from the island’s field power bus to improve performance. To take advantage of this internal isolation feature, the sensors must be powered from an external power supply.
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Analog Input Modules Ordering Information The module can be ordered as part of a kit (STB AVI 1255 K), which includes: z z z one STB AVI 1255 analog input module one size 1 STB XBA 1000 (see p.
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Analog Input Modules STB AVI 1255 LED Indicator Purpose The LEDs on the STB AVI 1255 provide a visual indication of the module’s operating status. Location The LED is located on the top front bezel of the module, directly below the model number: Indications RDY Meaning What to Do off The module is either not receiving logic power or has failed. Check power flicker* Auto-addressing is in progress.
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Analog Input Modules STB AVI 1255 Field Wiring Summary Connectors The STB AVI 1255 module uses two six-terminal field wiring connectors. Analog sensor 1 is wired to the top connector, and analog sensor 2 is wired to the bottom connector. Use a set of either: z z two STB XTS 1100 screw type field wiring connectors (available in a kit of 20) two STB XTS 2100 spring clamp field wiring connectors (available in a kit of 20) These field wiring connectors each have six connection terminals, with a 3.8 mm (0.
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Analog Input Modules Pin Top Connections Bottom Connections 2 no connection no connection 3 input from sensor 1 input from sensor 2 4 analog input return analog input return 5 no connection no connection 6 field power return (to the module) field power return (to the module) The analog returns (pin 4) for each channel are internally connected—therefore there is no channel-to-channel isolation.
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Analog Input Modules If you want to use 24 VDC from the island’s field power bus for the single-ended analog field devices, this power can be delivered through the input module.
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Analog Input Modules STB AVI 1255 Functional Description Functional Characteristics 31007715 6/2008 The STB AVI 1255 module is a two-channel module that handles analog input data from two 0 ... 10 V single-ended analog field sensors. It does not support userconfigurable operating parameters or reflex actions. 47 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Input Modules STB AVI 1255 Data for the Process Image Representing the Analog Input Data The STB AVI 1255 sends a representation of the operating states of its input channels to the NIM. The NIM stores this information in two 16-bit registers—one data register for each channel. The information can be read by the fieldbus master. If you are not using a basic NIM, the information can also be read by an HMI panel connected to the NIM’s CFG port.
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Analog Input Modules Input Data Registers Each STB AVI 1255 data register represents the input voltage of a channel in the IEC data format. The data has 10-bit resolution. The bit structure in each data register is as follows: STB AVI 1255 Data Register Format 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 always 0 214 213 2 212 6 25 always 0 27 211 28 10 2 2 9 There are 10 significant bits in each data word—bits 14 through 5.
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Analog Input Modules STB AVI 1255 Specifications Table of Technical Specifications description two single-ended analog voltage input channels analog input voltage range 0 ... 10 V resolution 10 bits returned data format IEC module width 13.9 mm (0.58 in) I/O base STB XBA 1000 (see p. 391) operating voltage range 19.
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Analog Input Modules 2.2 STB AVI 1270 Analog Voltage Input Module (two-channel, isolated, +/-10 V, 11-bit + sign) At a Glance Overview This section provides you with a detailed description of the STB AVI 1270 analog input module—its functions, physical design, technical specifications, field wiring requirements, and configuration options.
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Analog Input Modules STB AVI 1270 Physical Description Physical Characteristics The STB AVI 1270 is a standard Advantys STB two-channel analog input module that reads inputs from analog sensors that operate over the range -10 to +10 V. The analog portion of the module is isolated from the island’s sensor bus to improve performance. To take advantage of this internal isolation feature, the sensors must be powered from an external power supply.
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Analog Input Modules Ordering Information The module and related components can be ordered as follows: z z z a standalone STB AVI 1270 analog input module a standalone STB XBA 1000 (see p.
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Analog Input Modules STB AVI 1270 LED Indicator Purpose The two LEDs on the STB AVI 1270 provide visual indications of the module’s operating status. Their location and meanings are described below. Location The two LEDs are located on the top front bezel of the module, directly below the model number: 54 31007715 6/2008 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Input Modules Indications The following table defines the meaning of the two LEDs (where an empty cell indicates that the pattern on the associated LED doesn’t matter): RDY ERR Meaning off off The module is either not receiving logic Check power power or has failed. flicker* off Auto-addressing is in progress. on off The module has achieved all of the following: z it has power z it has passed its confidence tests z it is operational on on The watchdog has timed out.
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Analog Input Modules STB AVI 1270 Field Wiring Summary The STB AVI 1270 module uses two six-terminal field wiring connectors. Analog sensor 1 is wired to the top connector, and analog sensor 2 is wired to the bottom connector. The choices of connectors and field wire types are described below, and some field wiring options are presented.
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Analog Input Modules Field Wiring Pinout The top connector supports analog sensor 1, and the bottom connector supports analog sensor 2. Four field wires may be used on each connector—on pins 1, 3, 4 and 6. The connections on pin 1 and pin 6 are optional, and using these pins will defeat the built-in isolation between the analog portion of the module and the island’s sensor bus.
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Analog Input Modules If you want to use 24 VDC from the island’s sensor bus to power the analog field devices, this power can be delivered through the input module.
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Analog Input Modules STB AVI 1270 Functional Description Functional Characteristics The STB AVI 1270 module is a two channel module that handles analog input data from two +/-10 V single-ended analog field sensors.
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Analog Input Modules An ideal linear voltage representation (one without offset or max count adjustments) is interpreted using the formula: V n = 3200 × V ai where Vn is the numerical count and Vai is the analog input voltage: Vai 10.24 V 10 V 9V -32 752 -32 000 -28 800 Vn 28 800 -9 V 32 000 32 752 -10 V -10.24 V However, in systems that require calibration, the formula may actually be: V n = a × V ai + b (In a perfectly calibrated system, a = 32 000 and b = 0.
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Analog Input Modules For example, if you use the Advantys configuration software to calibrate an offset of +64 at 0 V and a max count 0f 31 872 at 10 V, the system could be represented as follows: Vai 10.24 V 10 V 9V -32 752 -32 000 -28 800 31 872 64 28 800 -9 V 32 000 32 752 -10 V un ca lib rat ed lib ca d te ra Vn -10.24 V Here are some voltage representations after calibration with offset and max count: 31007715 6/2008 Vai Uncalibrated Calibrated 0V 64 0 2.
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Analog Input Modules Offset and RTP: The offset parameter is represented as a signed 16-bit number. To access it using RTP, write the following values to the RTP request block: Length 2 Index (low byte) 0x00 Index (high byte) 0x24 Sub-index 1 for channel 1 2 for channel 2 Data Bytes 2 (high byte) & 1 (low byte) -8191 to +8191 Maximum Count and RTP: The maximum count parameter is represented as a signed 16-bit number.
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Analog Input Modules Averaging Step Action Result 6 If adjustments need to be made, take the Advantys configuration software offline. 7 Double-click on the appropriate STB AVI 1270 module in the island editor. 8 Open the Properties sheet in the module editor. In the Offset value field, enter the data value that you read when 0 V was applied. In the Max. Count value field, enter the data value that you read when 10 V was applied. 9 Save the new configuration parameters.
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Analog Input Modules STB AVI 1270 Data and Status for the Process Image Representing the Analog Input Data The STB AVI 1270 sends a representation of the operating states of its input channels to the NIM. The NIM stores this information in four 16-bit registers—two data registers (one for each channel) and two status registers (one per channel). The information can be read by the fieldbus master or, if you are not using a basic NIM, by an HMI panel connected to the NIM’s CFG port.
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Analog Input Modules There are 12 significant bits in each data word—bits 15 through 4. They allow you to represent voltage data with integer values ranging from -32 768 to +32 752 in increments of 16. When the sign bit (bit 15) is 0, the value is positive; when bit 15 is 1, the value is negative. In an ideal linear voltage representation (one without offset or max count settings (see p. 59)), the value 32 000 represents an input of 10 V and -32 000 represents an input of -10 V.
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Analog Input Modules Input Status Registers The second and fourth STB AVI 1270 registers in the input block of the process image are the status registers for the two analog input channels.
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Analog Input Modules STB AVI 1270 Specifications Table of Technical Specifications description two single-ended analog voltage input channels analog input voltage range +/- 10 V resolution 11 bits + sign returned data format IEC module width 13.9 mm (0.58 in) I/O base STB XBA 1000 (see p. 391) operating voltage range 19.
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Analog Input Modules sensor bus power for accessories 100 mA/channel @ 30 degrees C over-current protection for accessory power yes 50 mA/channel @ 60 degrees C field power requirements from a 24 VDC PDM power protection time-lag fuse on the PDM agency certifications refer to Advantys STB System Planning and Installation Guide, 890 USE 171 *ATEX applications prohibit hot swapping-refer to Advantys STB System Planning and Installation Guide, 890 USE 171 **Basic NIMs do not allow you to hot swap I
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Analog Input Modules 2.3 STB AVI 1275 Analog Voltage Input Module (two-channel, +/-10 V, 9-bit + sign) At a Glance Overview This section provides you with a detailed description of the STB AVI 1275 analog input module—its functions, physical design, technical specifications, field wiring requirements, and configuration options.
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Analog Input Modules STB AVI 1275 Physical Description Physical Characteristics The STB AVI 1275 is a basic Advantys STB two-channel analog input module that reads inputs from analog sensors that operate over the range -10 to +10 V. The analog portion of the module is isolated from the island’s sensor bus to improve performance. To take advantage of this internal isolation feature, the sensors must be powered from an external power supply.
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Analog Input Modules Ordering Information The module can be ordered as part of a kit (STB AVI 1275 K), which includes: z z z one STB AVI 1275 analog input module one size 1 STB XBA 1000 (see p.
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Analog Input Modules STB AVI 1275 LED Indicator Purpose The LED on the STB AVI 1275 provides a visual indication of the module’s operating status. Location The LED is located on the top front bezel of the module, directly below the model number: Indications RDY Meaning What to Do off The module is either not receiving logic power or has failed. Check power flicker* Auto-addressing is in progress.
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Analog Input Modules STB AVI 1275 Field Wiring Summary The STB AVI 1275 module uses two six-terminal field wiring connectors. Analog sensor 1 is wired to the top connector, and analog sensor 2 is wired to the bottom connector. Connectors Use a set of either: z z two STB XTS 1100 screw type field wiring connectors (available in a kit of 20) two STB XTS 2100 spring clamp field wiring connectors (available in a kit of 20) These field wiring connectors each have six connection terminals, with a 3.8 mm (0.
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Analog Input Modules Field Wiring Pinout The top connector supports analog sensor 1, and the bottom connector supports analog sensor 2. Four field wires may be used on each connector—on pins 1, 3, 4 and 6. The connections on pin 1 and pin 6 are optional, and using them defeats the built-in isolation between the analog portion of the module and the island’s sensor bus.
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Analog Input Modules If you want to use 24 VDC from the island’s field power bus for the single-ended analog field devices, this power can be delivered through the input module.
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Analog Input Modules STB AVI 1275 Functional Description Functional Characteristics 76 The STB AVI 1275 module is a two channel module that handles analog input data from two +/-10 V single-ended analog field sensors. It does not support userconfigurable operating parameters or reflex actions. 31007715 6/2008 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Input Modules STB AVI 1275 Data for the Process Image Representing the Analog Input Data The STB AVI 1275 sends a representation of the operating states of its input channels to the NIM. The NIM stores this information in two 16-bit registers—one data register for each channel. The information can be read by the fieldbus master. If you are not using a basic NIM, the information can also be read by an HMI panel connected to the NIM’s CFG port.
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Analog Input Modules Input Data Registers Each STB AVI 1275 data register represents the input voltage of a channel in the IEC data format. The data has 9-bit + sign resolution. The bit structure in each data register is as follows: STB AVI 1275 Data Register Format 15 14 13 12 11 10 9 8 Sign bit 0 = + 214 1=213 212 211 29 210 7 6 5 4 3 2 1 0 always 0 26 27 28 There are 10 significant bits in each data word—bits 15 through 6.
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Analog Input Modules STB AVI 1275 Specifications Table of Technical Specifications description two single-ended analog voltage input channels analog input voltage range +/- 10 V resolution 9 bits + sign returned data format IEC module width 13.9 mm (0.58 in) I/O base STB XBA 1000 (see p. 391) operating voltage range 19.
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Analog Input Modules 2.4 STB ACI 0320 Analog Current Input Module (four-channel, 15-bit + sign differential, 4 ... 20 mA or 0 ... 20 mA) At a Glance Overview This section provides you with a detailed description of the STB ACI 0320 analog input module—its physical design and functional capabilities.
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Analog Input Modules STB ACI 0320 Physical Description Physical Characteristics The STB ACI 0320 is a four-channel, differential analog current input module that reads inputs from analog sensors operating in the range of 4 to 20 mA (default) or 0 to 20 mA. The analog input channels have 200 VDC channel-to-channel isolation, and the analog portion of the module is isolated from the island’s sensor bus to improve performance.
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Analog Input Modules Ordering Information The module can be ordered as part of a kit (STB ACI 0320 K), which includes: z z z one STB ACI 0320 analog input module one size 2 STB XBA 2000 (see p.
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Analog Input Modules STB ACI 0320 LED Indicator Purpose The two LEDs on the STB ACI 0320 provide visual indications of the module’s operating status. Their location and meanings are described below. Location The LEDs are located on the top front bezel of the module, directly below the model number. 31007715 6/2008 83 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Input Modules Indications The following table defines the meaning of the two LEDs (where an empty cell indicates that the pattern on the associated LED doesn’t matter). RDY ERR Meaning What to Do off off The module is either not receiving logic power or has failed. Check power. flicker* off Auto-addressing is in progress. on on The watchdog has timed out.
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Analog Input Modules STB ACI 0320 Field Wiring Summary The STB ACI 0320 module uses two six-terminal field wiring connectors. Analog sensors 1 and 2 are wired to the top connector, and analog sensors 3 and 4 are wired to the bottom connector. The choices of connectors and field wire types are described below, and some field wiring options are presented.
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Analog Input Modules Sample Wiring Diagrams The following field wiring example shows how two isolated analog sensors can be wired to the STB ACI 0320 module. An external power supply is required to power the sensors. 1 + I - 2 FE 5 + I 6 - FE 1 2 5 6 86 input from sensor 1 (top) return to sensor 1 (top) input from sensor 4 (bottom) return to sensor 4 (bottom) 31007715 6/2008 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Input Modules STB ACI 0320 Functional Description Functional Characteristics The STB ACI 0320 module is a four-channel module that handles analog input data from up to four field sensors operating in a 4 to 20 mA (default) or 0 to 20 mA current range.
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Analog Input Modules Offset and Maximum Count You can apply an offset value to the low end of the operating current range and a maximum count to the high end of the operating current range. Offset and maximum count can be applied on each channel independently. This feature allows you to calibrate the analog input channels to match your equipment. These parameters are provided only for sensor compensation, not for scaling. The module is able to measure over the physical range of 4 to 20 mA or 0 to 20 mA.
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Analog Input Modules Here is a graphical representation of ideal linear current for a signed input data range: I ai 20.
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Analog Input Modules For example, if you use the Advantys configuration software to calibrate an offset of +64 at 4 mA and a max count of 31 744 at 20 mA, the system could be represented as follows: I ai d te ra il b ca un d a te br i l ca 20.
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Analog Input Modules Maximum Count and RTP: The maximum count parameter is represented as a signed 16-bit number.
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Analog Input Modules Averaging Step Action Result 8 When the configuration is downloaded to the physical island, the new offset and maximum count parameters are applied to the analog input channel and your 4 and 20 mA readings should be 0 and 32 000, respectively. Save the new configuration parameters. You may apply a filter that will smooth the values of the analog inputs reported by the STB ACI 0320. The Advantys configuration software allows you to average over a specified number of samples.
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Analog Input Modules STB ACI 0320 Data and Status for the Process Image Representing the Analog Input Data The STB ACI 0320 sends a representation of the operating states of its input channels to the NIM. The NIM stores this information in eight registers—four data registers (one for each channel) and four status registers (one for each channel). The information can be read by the fieldbus master or, if you are using a standard NIM, by an HMI panel connected to the NIM’s CFG port.
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Analog Input Modules Data Word Structure The first, third, fifth, and seventh registers in the input block of the process image are the data words. Each register represents the input current of a channel in the IEC data format.
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Analog Input Modules Type of Error or Warning 4 to 20 mA Range (default) 0 to 20 mA Range Current Current Signed Count Unsigned Count Signed Count Unsigned Count OCE over-current error OCW over-current warning UCE under-current error UCW under-current warning BWE broken wire error Note: Errors and warnings are based on count values, not current values. The current values in the table above are ideal values.
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Analog Input Modules In the 0 to 20 mA operating range, linear current representations can be interpreted using the formula, where Vn is the numerical count and Iai is the analog input current: Vn = Iai x 1 600 (Iai in mA) for the signed input data format Vn = Iai x 3 200 (Iai in mA) for the unsigned input data format Here is an example in signed input data format: Iai OCE 20.48 mA 20 mA OCW 10 mA 0.
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Analog Input Modules Status Byte Structure The second, fourth, sixth, and eighth registers in the input block of the process image are the status words. The STB ACI 0320 can detect and report current overflow conditions.
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Analog Input Modules STB ACI 0320 Specifications Technical Specifications description analog current range resolution default 4 to 20 mA user-configurable 0 to 20 mA default 15 bits + sign user-configurable 16 bits unsigned returned data format IEC module width 18.4 mm (0.72 in) I/O base STB XBA 2000 (see p. 395) operating voltage range 19.
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Analog Input Modules addressing requirement 8 words total: z 4 words for data z 4 words for status common mode rejection ≥ 80 dB @ 60 Hz common mode voltage ≤ 100 VDC or 100 VAC peak cross talk between channels ≥ 80 dB field power requirements from a 24 VDC PDM power protection time-lag fuse on the PDM agency certifications refer to Advantys STB System Planning and Installation Guide, 890 USE 171 *ATEX applications prohibit hot swapping-refer to Advantys STB System Planning and Installation G
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Analog Input Modules 2.5 STB ACI 1225 Analog Current Input Module (two-channel, 10-bit single-ended, 4 ... 20 mA) At a Glance Overview This section provides you with a detailed description of the STB ACI 1225 analog input module—its physical design and functional capabilities.
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Analog Input Modules STB ACI 1225 Physical Description Physical Characteristics The STB ACI 1225 is a basic Advantys STB single-ended two-channel analog current input module that reads inputs from analog sensors that operate over the range 4 to 20 mA. The analog portion of the module is isolated from the island’s sensor bus to improve performance. To take advantage of this internal isolation feature, the sensors must be powered from an external power supply.
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Analog Input Modules Ordering Information The module can be ordered as part of a kit (STB ACI 1225 K), which includes: z z z one STB ACI 1225 analog input module one size 1 STB XBA 1000 (see p.
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Analog Input Modules STB ACI 1225 LED Indicator Purpose The LED on the STB ACI 1225 provides a visual indication of the module’s operating status. Its location and meanings are described below. Location The LED is located on the top front bezel of the module, directly below the model number: Indications RDY Meaning What to Do off The module is either not receiving logic power or has failed. Check power flicker* Auto-addressing is in progress.
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Analog Input Modules STB ACI 1225 Field Wiring Summary Connectors The STB ACI 1225 module uses two six-terminal field wiring connectors. Analog sensor 1 is wired to the top connector, and analog sensor 2 is wired to the bottom connector. Use a set of either: z z two STB XTS 1100 screw type field wiring connectors (available in a kit of 20) two STB XTS 2100 spring clamp field wiring connectors (available in a kit of 20) These field wiring connectors each have six connection terminals, with a 3.8 mm (0.
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Analog Input Modules Pin Top Connections Bottom Connections 6 field power return (to the module) field power return (to the module) The analog returns (pin 4) for each channel are internally connected—therefore there is no channel-to-channel isolation. Sample Wiring Diagrams The following field wiring example shows how two isolated single-ended analog sensors can be wired to the STB ACI 1225 module.
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Analog Input Modules If you want to use 24 VDC from the island’s field power bus for the single-ended analog field devices, this power can be delivered through the input module.
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Analog Input Modules STB ACI 1225 Functional Description Functional Characteristics 31007715 6/2008 The STB ACI 1225 module is a two channel module that handles analog input data from two field sensors operating in a 4 to 20 mA current range. It does not support user-configurable operating parameters or reflex actions. 107 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Input Modules STB ACI 1225 Data for the Process Image Representing the Analog Input Data The STB ACI 1225 sends a representation of the operating states of its input channels to the NIM. The NIM stores this information in two 16-bit registers—one data register for each channel. The information can be read by the fieldbus master. If you are not using a basic NIM, the information can also be read by an HMI panel connected to the NIM’s CFG port.
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Analog Input Modules Data Word Structure Each STB ACI 1225 data register represents the input voltage of a channel in the IEC data format. The data has 10-bit resolution. The bit structure in each data register is as follows: STB ACI 1225 Data Register Format 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 always 0 214 213 2 212 6 25 always 0 27 211 28 29 210 There are 10 significant bits in each data word—bits 14 through 5.
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Analog Input Modules STB ACI 1225 Specifications Table of Technical Specifications description two single-ended analog current input channels analog current range 4 ... 20 mA resolution 10 bits returned data format IEC module width 13.9 mm (0.58 in) I/O base STB XBA 1000 (see p. 391) operating voltage range 19.
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Analog Input Modules 2.6 STB ACI 1230 Analog Current Input Module (two-channel, 12-bit single-ended, 0 ... 20 mA) At a Glance Overview This section provides you with a detailed description of the STB ACI 1230 analog input module—its physical design and functional capabilities.
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Analog Input Modules STB ACI 1230 Physical Description Physical Characteristics The STB ACI 1230 is a standard Advantys STB analog current input module with two single-ended analog channels that read inputs from analog sensors operating in the range 0 to 20 mA. The analog portion of the module is isolated from the island’s sensor bus to improve performance. To take advantage of this internal isolation feature, the sensors must be powered from an external power supply.
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Analog Input Modules Ordering Information The module can be ordered as part of a kit (STB ACI 1230 K), which includes: z z z one STB ACI 1230 analog input module one size 1 STB XBA 1000 (see p.
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Analog Input Modules STB ACI 1230 LED Indicator Purpose The two LEDs on the STB ACI 1230 provide visual indications of the module’s operating status. Their location and meanings are described below. Location The LEDs are located on the top front bezel of the module, directly below the model number: 114 31007715 6/2008 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Input Modules Indications The following table defines the meaning of the two LEDs (where an empty cell indicates that the pattern on the associated LED doesn’t matter): RDY ERR Meaning What to Do off off The module is either not receiving logic power or has failed. Check power flicker* off Auto-addressing is in progress. on off The module has achieved all of the following: z it has power z it has passed its confidence tests z it is operational on on The watchdog has timed out.
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Analog Input Modules STB ACI 1230 Field Wiring Summary The STB ACI 1230 module uses two six-terminal field wiring connectors. Analog sensor 1 is wired to the top connector, and analog sensor 2 is wired to the bottom connector. The choices of connectors and field wire types are described below, and some field wiring options are presented.
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Analog Input Modules Pin Top Connections Bottom Connections 3 no connection no connection 4 analog input return analog input return 5 no connection no connection 6 field power return (to the module) field power return (to the module) The analog returns (pin 4) for each channel are internally connected—therefore there is no channel-to-channel isolation. Sample Wiring Diagrams The following field wiring example shows how two isolated analog sensors can be wired to the STB ACI 1230 module.
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Analog Input Modules If you want to use 24 VDC from the island’s sensor bus to power the analog field devices, this power can be delivered through the input module.
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Analog Input Modules STB ACI 1230 Functional Description Functional Characteristics The STB ACI 1230 module is a two channel module that handles analog input data from two field sensors operating in a 0 to 20 mA current range.
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Analog Input Modules where Vn is the numerical count and Iai is the analog input current: I ai 20.475 mA 20 mA 15 mA Vn 0 24 000 32 000 32 760 However, in systems that require calibration, the formula may actually be: V n = a × I ai + b (In a perfectly calibrated system, a = 32 000 and b = 0.) For example, you use the Advantys configuration software to calibrate an offset of +64 at 0 mA and a max count 0f 31 744 at 20 mA, the system could be represented as follows: un ca lib rat ed I ai 20.
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Analog Input Modules Here are some current representations after calibration with offset and max count: Iai Uncalibrated Calibrated 0 mA 64 0 5 mA 7984 8000 10 mA 15 904 16 000 15 mA 23 824 24 000 20 mA 31 744 32 000 Offset and RTP: The offset parameter is represented as a signed 16-bit number.
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Analog Input Modules Determining Offset and Maximum Count Values 122 To apply offset and maximum count to an analog channel: Step Action Result 1 Connect the Advantys configuration software to a physical island. The software will be in online mode. 2 Double-click on the appropriate STB ACI 1230 module in the island editor. The module editor for the selected STB ACI 1230 module will open.
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Analog Input Modules Averaging You may apply a filter that will smooth the values of the analog inputs reported by the STB ACI 1230. The Advantys configuration software allows you to average over a specified number of samples. By default, the number samples averaged is one (no averaging); you may a filtering average over up to eight samples.
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Analog Input Modules STB ACI 1230 Data and Status for the Process Image Representing the Analog Input Data The STB ACI 1230 sends a representation of the operating states of its input channels to the NIM. The NIM stores this information in four 16-bit registers—two data register (one for each channel) and two status registers (one per channel). The information can be read by the fieldbus master or, if you are not using a basic NIM, by an HMI panel connected to the NIM’s CFG port.
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Analog Input Modules Data Word Structure The first and third STB ACI 1230 registers in the input block of the process image are the data words. Each register represents the input current of a channel in the IEC data format. The data has 12-bit resolution.
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Analog Input Modules Status Byte Structure The second and fourth STB ACI 1230 registers in the input block of the process image are the status words. The STB ACI 1230 can detect and report current overflow conditions.
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Analog Input Modules STB ACI 1230 Specifications Table of Technical Specifications The module’s technical specifications are described in the following table. description two single-ended analog current input channels analog current range 0 ... 20 mA resolution 12 bits returned data format IEC module width 13.9 mm (0.58 in) I/O base STB XBA 1000 (see p. 391) operating voltage range 19.
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Analog Input Modules over-current protection for accessory power yes field power requirements from a 24 VDC PDM power protection time-lag fuse on the PDM agency certifications refer to Advantys STB System Planning and Installation Guide, 890 USE 171 *ATEX applications prohibit hot swapping-refer to the Advantys STB System Planning and Installation Guide, 890 USE 171 ** Basic NIMs do not allow you to hot swap I/O modules. *** This product supports operation at normal and extended temperature ranges.
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Analog Input Modules 2.7 STB ACI 8320 Analog Current Input Module (four-channel, Hart tolerant, 15-bit + sign differential, 4 ... 20 mA or 0 ... 20 mA) At a Glance Overview This section provides you with a detailed description of the STB ACI 8320 analog input module—its physical design and functional capabilities.
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Analog Input Modules STB ACI 8320 Physical Description Physical Characteristics The STB ACI 8320 is a four-channel, Hart tolerant, differential analog current input module that reads inputs from analog sensors operating in the range of 4 to 20 mA (default) or 0 to 20 mA. The module does not corrupt the Hart data that is communicated on the same cable as the analog inputs. It mounts in a size 2 I/O base and uses two six-terminal field wiring connectors.
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Analog Input Modules Ordering Information The module can be ordered as part of a kit (STB ACI 8320 K), which includes: z z z one STB ACI 8320 analog input module one size 2 STB XBA 2000 (see p.
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Analog Input Modules STB ACI 8320 LED Indicator Purpose The two LEDs on the STB ACI 8320 provide visual indications of the module’s operating status. Their location and meanings are described below. Location The LEDs are located on the top front bezel of the module, directly below the model number. 132 31007715 6/2008 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Input Modules Indications The following table defines the meaning of the two LEDs (where an empty cell indicates that the pattern on the associated LED doesn’t matter). RDY ERR Meaning What to Do off off The module is either not receiving logic power or has failed. Check power. flicker* off Auto-addressing is in progress. on on The watchdog has timed out.
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Analog Input Modules STB ACI 8320 Field Wiring Summary The STB ACI 8320 module uses two six-terminal field wiring connectors. Analog sensors 1 and 2 are wired to the top connector, and analog sensors 3 and 4 are wired to the bottom connector. The choices of connectors and field wire types are described below, and some field wiring options are presented.
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Analog Input Modules Sample Wiring Diagrams The following field wiring example shows how two isolated analog sensors can be wired to the STB ACI 8320 module. An external power supply is required to power the sensors. 1 + I - 2 FE 5 + I 6 - FE 1 2 5 6 31007715 6/2008 input from sensor 1 (top) return to sensor 1 (top) input from sensor 4 (bottom) return to sensor 4 (bottom) 135 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Input Modules STB ACI 8320 Functional Description Functional Characteristics The STB ACI 8320 module is a four-channel module that handles analog input data from four field sensors operating in a 4 to 20 mA (default) or 0 to 20 mA current range.
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Analog Input Modules Offset and Maximum Count You can apply an offset value to the low end of the operating current range and a maximum count to the high end of the operating current range. Offset and maximum count can be applied on each channel independently. This feature allows you to calibrate the analog input channels to match your equipment. These parameters are provided only for sensor compensation, not for scaling. The module is able to measure over the physical range of 4 to 20 mA or 0 to 20 mA.
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Analog Input Modules Here is a graphical representation of ideal linear current for a signed input data range: I ai 20.
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Analog Input Modules For example, if you use the Advantys configuration software to calibrate an offset of +64 at 4 mA and a max count of 31 744 at 20 mA, the system could be represented as follows: I ai un ca lib ra te d 20.
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Analog Input Modules Maximum Count and RTP: The maximum count parameter is represented as a signed 16-bit number.
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Analog Input Modules Step Action Result 9 Save the new configuration parameters. Averaging When the configuration is downloaded to the physical island, the new offset and maximum count parameters will be applied to the analog input channel. You may apply a filter that will smooth the values of the analog inputs reported by the STB ACI 8320. The Advantys configuration software allows you to average over a specified number of samples. Averaging is applied on a per-channel basis.
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Analog Input Modules STB ACI 8320 Data and Status for the Process Image Representing the Analog Input Data The STB ACI 8320 sends a representation of the operating states of its input channels to the NIM. The NIM stores this information in eight registers—four data registers (one for each channel) and four status registers (one for each channel). The information can be read by the fieldbus master or, if you are using a standard NIM, by an HMI panel connected to the NIM’s CFG port.
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Analog Input Modules Data Word Structure The first, third, fifth, and seventh registers in the input block of the process image are the data words. Each register represents the input current of a channel in the IEC data format.
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Analog Input Modules Type of Error or Warning 4 to 20 mA Range (default) 0 to 20 mA Range Current Current Signed Count Unsigned Count Signed Count Unsigned Count OCE over-current error OCW over-current warning UCE under-current error UCW under-current warning BWE broken wire error Note: Errors and warnings are based on count values, not current values. The current values in the table below are ideal values.
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Analog Input Modules In the 0 to 20 mA operating range, linear current representations can be interpreted using the formula, where Vn is the numerical count and Iai is the analog input current: Vn = Iai x 1 600 (Iai in mA) for the signed input data format Vn = Iai x 3 200 (Iai in mA) for the unsigned input data format Here is an example in signed input data format: Iai OCE 20.48 mA 20 mA OCW 10 mA 0.
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Analog Input Modules Status Byte Structure The second, fourth, sixth, and eighth registers in the input block of the process image are the status words. The STB ACI 8320 can detect and report current overflow conditions.
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Analog Input Modules STB ACI 8320 Specifications Table of Technical Specifications The module’s technical specifications are described in the following table. description analog current range resolution four differential analog current input channels with Hart tolerance default 4 to 20 mA user-configurable 0 to 20 mA default 15 bits + sign user-configurable 16 bits unsigned returned data format IEC module width 18.4 mm (0.72 in) I/O base STB XBA 2000 (see p.
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Analog Input Modules maximum input current 25 mA addressing requirement 8 words total: z 4 words for data z 4 words for status common mode rejection ≥ 80 dB @ 60 Hz common mode voltage ≤ 100 VDC or 100 VAC peak cross talk between channels ≥ 80 dB field power requirements from a 24 VDC PDM power protection time-lag fuse on the PDM Hart Protocol tolerance Tolerant with Hart communications networks, and does not impact the integrity of the Hart Protocol.
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Analog Input Modules 2.8 STB ART 0200 Analog Multirange Input Module (two-channel, isolated, 16-bit, RTD/TC/mV) At a Glance Overview This section provides a detailed description of the STB ART 0200 analog input module—its functions, physical design, technical specifications, field wiring requirements, and configuration options.
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Analog Input Modules STB ART 0200 Physical Description Physical Characteristics The STB ART 0200 is a standard Advantys STB two-channel analog input module that can support RTD, thermocouple or mV analog sensors. Each channel can be configured independently. By default, both channels support three-wire RTD sensors. You may reconfigure one or both channels using the Advantys configuration software. The STB ART 0200 takes 24 VDC from the island’s sensor bus and passes power to two analog sensor devices.
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Analog Input Modules Ordering Information The module can be ordered as part of a kit (STB ART 0200 K), which includes: z z z one STB ART 0200 analog input module one size 1 STB XBA 1000 (see p.
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Analog Input Modules STB ART 0200 LEDs Purpose The two LEDs on the STB ART 0200 module provide visual indications of the operating status of the module and its RDT or TC sensors. The LED locations and their meanings are described below. Location The two LEDs are located on the top front bezel of the module, directly below the model number: 152 31007715 6/2008 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Input Modules Indications The following table defines the meaning of the two LEDs (where an empty cell indicates that the pattern on the associated LED doesn’t matter): RDY ERR Meaning What to Do off off The module is either not receiving power or has failed. Check power flicker* off Auto-addressing is in progress. on off The module has achieved all of the following: z it has power z it has passed its confidence tests z it is operational on on The watchdog has timed out.
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Analog Input Modules STB ART 0200 Field Wiring Summary The STB ART 0200 module uses two six-terminal field wiring connectors. Analog sensor 1 is wired to the top connector, and analog sensor 2 is wired to the bottom connector. The choices of connectors and field wire types are described below, and some field wiring options are presented.
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Analog Input Modules Field Wiring Pinout Note: Successful operation of the STB ART 0200 is determined by both the way the module is configured and the way it is field-wired. If you configure a channel to operate with one type of analog sensor (thermocouple, RTD or mV), you must also make the proper field connections to make the channel work properly. Similarly, you need to make sure that the module’s configuration matches the field wiring.
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Analog Input Modules Sample RTD Wiring Diagrams The following field wiring example shows a two-wire RTD and a three-wire RTD connected to the STB ART 0200: 2 3 4 5 2 3 4 5 top connector two-wire RTD sensor bottom connector three-wire RTD sensor The next example shows three- and four-wire RTDs. The three-wire sensor on the top connector uses a jumper between pins 2 and 3. The four-wire RTD does not use jumpers: 2 3 4 5 2 3 4 5 156 31007715 6/2008 Artisan Technology Group - Quality Instrumentation .
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Analog Input Modules Double-shielded cable may be used with two-, three- or four-wire RTDs operating in high-noise environments. The example below shows a two-wire RTD set-up with double-shielded, twisted-pair cable: STB ART 0200 2 3 4 5 6 2 3 4 5 6 When double-shielded twisted-pair cable is used, the inner shield is tied to pin 6. Pin 6 is not used when standard (single-shielded) twisted-pair cable is used.
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Analog Input Modules Wiring a TC with External Cold-junction Compensation When you apply external cold-junction compensation (see p. 163) to the module, you must use a two-wire RTD and connect it to pins 2 and 5 on the top connector. For optimum results, connect copper wires to pins 2 and 5 on the top connector and run them to an isothermal terminal block.
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Analog Input Modules STB ART 0200 Functional Description Functional Characteristics The STB ART 0200 is a two-channel analog input module with on-board diagnostics and a high degree of user configurability. Each channel can be configured independently to support a: z z z RTD sensor thermocouple sensor mV sensor Using the Advantys configuration software’s module editor, you can change the operating parameters on each channel.
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Analog Input Modules To access this parameter using RTP, write the following values to the RTP request block: Frequency Rejection Length 1 Index (low byte) 0x02 Index (high byte) 0x24 Sub-index 1 for channel 1 2 for channel 2 Data Byte 1 1 to 8 The frequency rejection parameter sets the value for the maximum rejection (filtering) of power line induced noise. It is configured at the module level—the same frequency rejection value applies to both channels.
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Analog Input Modules Input Sensor Type The input sensor type parameter defines the type of analog field device that each channel will support. By default, both channels support three-wire IEC Pt100 RTD sensors. You may change the input sensor type on a per/channel basis to be one of several types of TC, mV, or RTD devices. If you are not using a sensor on one of the channels, you may configure it as type none.
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Analog Input Modules Input Sensor Type ORE ORW J type TC degrees C >/= 1200 degrees F >/= 2192 degrees C degrees F K type TC E type TC T type TC S type TC R type TC B type TC Normal Range URW URE 1171.9.8 -210 ... +1200 < -205.1 2140.6 -346 ... +2192 < -337.9 /= 1370 > 1337.1 -270 ... +1370 < -263.5 /= 2498 > 2438 -454 ... +2498 < -443.1 /= 1000 > 976 -270 ... +1000 < -263.
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Analog Input Modules Wiring Type for RTD Sensors Cold Junction Compensation for TC Sensors If a channel is configured to support an RTD sensor, you can specify the number of wires for the device—two, three or four. This parameter is required for RTD sensors; it is ignored if the channel is not supporting an RTD sensor. By default, the parameter is set for three-wire devices on both channels.
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Analog Input Modules Cold-junction Compensation Device Operating Range external Pt1000 RTD (US/JIS) degrees C -100 ... +450 degrees F -148 ... +842 degrees C -60 ... +180 degrees F -76 ... +356 degrees C -60 ... +180 degrees F -76 ... +356 degrees C -100 ...+260 degrees F -148 ...+500 external Ni100 RTD external Ni1000 RTD external Cu10 RTD Note: If you are using external cold-junction compensation, you need to connect the RTD sensor to the top field wiring connector (see p.
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Analog Input Modules STB ART 0200 Data for the Process Image Introduction The STB ART 0200 sends a representation of the operating state of each analog input channel to the NIM. The NIM stores this information in five 16-bit registers— three for data and two for status. The information can be read by the Advantys configuration software or, if you are not using a basic NIM, by an HMI panel connected to the NIM’s CFG port.
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Analog Input Modules Input Data Registers The first and third STB ART0200 registers in the input block of the process image are the data words. Each register represents either the temperature or the mV data of the associated channel. The data has15-bit + sign resolution.
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Analog Input Modules Bit meanings are described below: Bit Indication Meaning 0 global status channel (GSC) The value is 0 when no errors have been detected. It is 1 when one or more of the bits1, 3, 5, 6 and 7 has a value of 1. 1 PDM voltage status on the sensor bus The value is 0 when no PDM voltage errors are detected. It is 1 if sensor power is absent. A PDM short turns on the GSC bit (bit 0).
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Analog Input Modules The following example illustrates the key points reported to the status register temperature for an IEC Platinum Pt1000 RTD sensor. The temperature input data is shown in degrees C along the y-axis and in decimal format along the x-axis: Temperature in °C ORE 850 °C 829.6 °C ORW -2000 -1952 Decimal display 8296 8500 Cold-junction Compensation Register URW -195.2 °C URE -200°C Cold-junction compensation provides improved temperature measurement in TC mode.
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Analog Input Modules STB ART 0200 Specifications Summary Each channel on the STB ART 0200 can be configured independently to support an RTD sensor, a TC sensor or a mV sensor. The following four tables describe the module specifications. General Specifications . description two analog input channels individually configurable for RTD, thermocouple, or mV operations data resolution 15 bits plus sign conversion method Σ-Δ operating mode self-scan module width 13.9 mm (0.
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Analog Input Modules agency certifications refer to Advantys STB System Planning and Installation Guide, 890 USE 171 *ATEX applications prohibit hot swapping-refer to Advantys STB System Planning and Installation Guide, 890 USE 171 **Basic NIMs do not allow you to hot swap I/O modules. ***This product supports operation at normal and extended temperature ranges. Refer to the Advantys STB System Planning and Installation Guide, 890 USE 171 for a complete summary of cabalities and limitations.
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Analog Input Modules absolute accuracy (RTD errors not included) 50 Ω US/JIS Pt100 four-wire two- or three-wire 20 Ω US/JIS Pt1000 four-wire 500 Ω two- or three-wire 200 Ω Ni100 four-wire 50 Ω two- or three-wire 20 Ω Ni1000 four-wire 500 Ω two- or three-wire 200 Ω Cu10 four-wire 50 Ω two- or three-wire 20 Ω Pt @ 25° C (77° F) +/- 0.5 degrees C Cu @ 25° C (77° F) +/- 2.0 degrees C +/- 0.9 degrees F +/- 3.6 degrees F Ni @ 25° C (77° F) +/- 0.5 degrees C +/- 9.
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Analog Input Modules type T -270 ... +400 degrees C type S -50 ... +1768 degrees C type R -50 ... +1768 degrees C type B +130 ... 1820 degrees C type J 5.1 degrees @ 25 degrees C type K 4 degrees @ 25 degrees C type E 4.6 degrees @ 25 degrees C type T 4.4 degrees @ 25 degrees C type S 4.1 degrees @ 25 degrees C type R 3.6 degrees @ 25 degrees C type B 4.6 degrees @ 25 degrees C -454 ... +752 degrees F -58 ... +3214.4 degrees F -58 ... +3214.4 degrees F +266 ...
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Analog Input Modules mV Specifications range of the scale +/- 80 mV (2.4% over- or under-range) data resolution increments of 0.01 mV accuracy +/- 0.1% of full scale @ = 25 degrees C ambient temperature +/- 0.15% of full scale max @ = 60 degrees C ambient temperature 31007715 6/2008 typical conversion @ 50 Hz times @ 60 Hz 170 ms input impedance 10 MΩ typical 150 ms 173 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Input Modules 2.9 STB ACI 1400 Analog Current Input Module (eight-channel, single-ended Inputs, 15-bit + sign, 4 ... 20 mA or 0 ... 20 mA) At a Glance Overview This section provides you with a detailed description of the STB ACI 1400 analog input module—its physical design and functional capabilities.
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Analog Input Modules STB ACI 1400 Physical Description Physical Characteristics The STB ACI 1400 is an eight-channel, single-ended analog current input module that reads inputs from analog sensors operating in the range of 4 to 20 mA (default) or 0 to 20 mA. The module converts the analog signal to a digital value with 15bit + sign resolution, and communicates that value to the control system. The module mounts in a size 2 I/O base and uses two six-terminal field wiring connectors.
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Analog Input Modules Ordering Information The module can be ordered as part of a kit (STB ACI 1400 K), which includes: z z z one STB ACI 1400 analog input module one size 2 STB XBA 2000 (see p.
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Analog Input Modules STB ACI 1400 LED Indicator Purpose The two LEDs on the STB ACI 1400 provide visual indications of the module’s operating status. Their location and meanings are described below. Location The LEDs are located on the top front bezel of the module, directly below the model number. 31007715 6/2008 177 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Input Modules Indications The following table defines the meaning of the two LEDs (where an empty cell indicates that the pattern on the associated LED doesn’t matter). RDY ERR Meaning What to Do off off The module is either not receiving logic power or has failed. Check power. flicker* off Auto-addressing is in progress. on on The watchdog has timed out.
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Analog Input Modules STB ACI 1400 Field Wiring Summary The STB ACI 1400 module uses two six-terminal field wiring connectors. Analog sensors 1, 2, 3, and 4 are wired to the top connector, and analog sensors 5, 6, 7, and 8 are wired to the bottom connector. The choices of connectors and field wire types are described below, and some field wiring options are presented.
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Analog Input Modules Field Wiring Pinout Sample Wiring Diagrams The top connector supports analog sensors 1, 2, 3, and 4. The bottom connector supports analog sensors 5, 6, 7, and 8. Pin Top Connections Bottom Connections 1 current in 1 current in 5 2 current in 2 current in 6 3 return return 4 current in 3 current in 7 5 current in 4 current in 8 6 return return The following field wiring examples show how eight analog sensors can be wired to the STB ACI 1400 module.
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Analog Input Modules Notice that the return lines for the sensors are connected in external junction boxes so that two returns are brought into pins 3 and 6 on both connectors with a single wire. In the following example, two return wires are brought into pins 3 and 6 on each connector. With this wiring configuration, a maximum wire size of 0.8 mm2 (18 AWG) stranded wire must be used for the return connections, and STB XTS 1100 screw type wiring connectors must be used.
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Analog Input Modules STB ACI 1400 Functional Description Functional Characteristics The STB ACI 1400 module is an eight-channel module that handles analog input data from eight field sensors operating in a 4 to 20 mA (default) or 0 to 20 mA current range.
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Analog Input Modules These parameters are provided only for sensor compensation, not for scaling. The module is able to measure over the physical range of 4 to 20 mA or 0 to 20 mA. An offset adjustment is performed on the low end of the range, and a max count adjustment is performed on the high end of the range.
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Analog Input Modules Operating Range 0 to 20 mA In the 0 to 20 mA operating range, an ideal linear representation of analog input current (one with default offset and maximum count) is given by the following formula: Cn = Iai x 1600 where Cn is the numerical count and Iai is the analog input current. For example, if you use the Advantys configuration software to calibrate an offset of +64 at 0 mA and a max count of 31 744 at 20 mA, the system could be represented as follows: I ai un ca lib ra te d 20.
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Analog Input Modules Offset and RTP: The offset parameter is represented as a signed 16-bit number.
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Analog Input Modules Determining Offset and Maximum Count Values Averaging To apply offset and maximum count to an analog channel: Step Action Result 1 Connect the Advantys configuration software to a physical island. The software will be in online mode. 2 Double-click on the STB ACI 1400 module in the island editor. The module editor for the selected STB ACI 1400 module will open.
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Analog Input Modules Step Action Result 2 When you select the Averaging value, the max/min values of the range appear at the bottom of the module editor screen. In the Configured Value column of the Averaging row, enter a decimal or hexadecimal value in the range 1 to 80 (0x50). Averaging is applied on a per-channel basis. This parameter is represented as an unsigned 8-bit number.
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Analog Input Modules STB ACI 1400 Data and Status for the Process Image Representing the Analog Input Data The STB ACI 1400 sends a representation of the operating states of its input channels to the NIM. The NIM stores this information in 16 registers—8 data registers (one for each channel) and 8 status registers (one for each channel). The information can be read by the fieldbus master or, if you are using a standard NIM, by an HMI panel connected to the NIM’s CFG port.
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Analog Input Modules Data Word Structure The first, third, fifth, seventh, ninth, eleventh, thirteenth, and fifteenth registers in the module's input process image are the data words. Each register represents the input current of a channel in the IEC data format. The data has 15-bit + sign resolution.
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Analog Input Modules In the 4 to 20 mA operating range, an ideal linear representation of analog input current (one with default offset and maximum count) is given by the following formula: Cn = (Iai - 4 mA) x 2000 where Cn is the numerical count and Iai is the analog input current. I ai 20.38 mA OCE 20 mA OCW 12 mA 4 mA UCW 3.
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Analog Input Modules where Cn is the numerical count and Iai is the analog input current. Iai OCE 20.48 mA 20 mA OCW 10 mA 0.48 mA 0 UCW 767 Cn 16 000 32 000 32 767 UCE 31007715 6/2008 191 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Input Modules Status Byte Structure The second, fourth, sixth, eighth, tenth, twelfth, fourteenth, and sixteenth registers in the module's input process image are the status words. The STB ACI 1400 can detect and report current overflow conditions.
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Analog Input Modules STB ACI 1400 Specifications Table of Technical Specifications The module’s technical specifications are described in the following table. description eight single-ended analog current input channels analog current range 4 to 20 mA (default) 0 to 20 mA resolution 15 bits + sign returned data format IEC module width 18.4 mm (0.72 in) I/O base STB XBA 2000 (see p. 395) operating voltage range 19.
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Analog Input Modules field power requirements from a 24 VDC PDM power protection time-lag fuse on the PDM broken wire detection 4 to 20 mA range (only) *Basic NIMs do not allow you to hot swap I/O modules. **This product supports operation at normal and extended temperature ranges. Refer to the Advantys STB System Planning and Installation Guide, 890 USE 171 for a complete summary of cabalities and limitations. 194 31007715 6/2008 Artisan Technology Group - Quality Instrumentation ...
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Analog Input Modules 2.10 STB AVI 1400 Analog Voltage Input Module (eight-channel, single-ended inputs, 15-bit + sign, +1 ... 5 VDC, 0 ... 5 VDC, 0 ... 10 VDC, +/-5 VDC, or +/-10 VDC) At a Glance Overview This section provides you with a detailed description of the STB AVI 1400 analog input module—its physical design and functional capabilities.
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Analog Input Modules STB AVI 1400 Physical Description Physical Characteristics The STB AVI 1400 is an eight-channel, single-ended analog voltage input module that reads inputs from analog sensors operating in the range of +1 to 5 VDC, 0 to 5 VDC, 0 to 10 VDC, +/-5 VDC or +/-10 VDC (default). The module converts the analog signal to a digital value with 15-bit + sign resolution, and communicates the value to the control system.
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Analog Input Modules Ordering Information The module can be ordered as part of a kit (STB AVI 1400 K), which includes: z z z one STB AVI 1400 analog input module one size 2 STB XBA 2000 (see p.
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Analog Input Modules STB AVI 1400 LED Indicator Purpose The two LEDs on the STB AVI 1400 provide visual indications of the module’s operating status. Their location and meanings are described below. Location The LEDs are located on the top front bezel of the module, directly below the model number. 198 31007715 6/2008 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Input Modules Indications The following table defines the meaning of the two LEDs (where an empty cell indicates that the pattern on the associated LED doesn’t matter). RDY ERR Meaning off off The module is either not receiving logic Check power. power or has failed. flicker* off Auto-addressing is in progress. on on The watchdog has timed out.
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Analog Input Modules STB AVI 1400 Field Wiring Summary The STB AVI 1400 module uses two six-terminal field wiring connectors. Analog sensors 1, 2, 3, and 4 are wired to the top connector, and analog sensors 5, 6, 7, and 8 are wired to the bottom connector. The choices of connectors and field wire types are described below, and some field wiring options are presented.
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Analog Input Modules Field Wiring Pinout The top connector supports analog sensors 1, 2, 3, and 4. The bottom connector supports analog sensors 5, 6, 7, and 8. . Sample Wiring Diagrams Pin Top Connections Bottom Connections 1 voltage in 1 voltage in 5 2 voltage in 2 voltage in 6 3 return return 4 voltage in 3 voltage in 7 5 voltage in 4 voltage in 8 6 return return The following field wiring examples show how eight analog sensors can be wired to the STB AVI 1400 module.
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Analog Input Modules Notice that the return lines for the sensors are connected in external junction boxes so that two returns are brought into pins 3 and 6 on both connectors with a single wire. In the following example, two return wires are brought into pins 3 and 6 on each connector. With this wiring configuration, a maximum wire size of 0.8 mm2 (18 AWG) stranded wire must be used for the return connections, and STB XTS 1100 screw type wiring connectors must be used.
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Analog Input Modules STB AVI 1400 Functional Description Functional Characteristics The STB AVI 1400 module is an eight-channel module that handles analog inputs from eight field sensors operating in the range of +1 to 5 VDC, 0 to 5 VDC, 0 to 10 VDC, +/-5 VDC, or +/-10 VDC range.
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Analog Input Modules These parameters are provided only for sensor compensation, not for scaling. An offset adjustment will move the interpretation of the low end of the range, and a max count adjustment will move the interpretation of only the high end of the range. An ideal linear representation of analog input voltage (one with default offset and maximum count) is given by the following formula: Cn = (Vai - 1 V) * 8000 where Cn is the numerical count and Vai is the analog input voltage.
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Analog Input Modules Operating Range +/-5 VDC In the +/- 5 VDC operating range, if you use the Advantys configuration software to calibrate an offset of 64 at 0 VDC and a max count of 32 576 at +5 VDC, the system could be represented as follows: V ai un ca l ib ra te d 5.09 V 5V -32 448 -32 000 c r ib al ed at Cn 32 000 32 576 -5 V -5.
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Analog Input Modules Operating Range +1 to 5 VDC If you use the Advantys configuration software to calibrate an offset of 64 at 1 VDC and a max count of 31 744 at 5 VDC, the system could be represented as follows: Vai un ca lib ra te d 5.
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Analog Input Modules Operating Range 0 to 10 VDC In the operating range of 0 to 10 VDC if you use the Advantys configuration software to calibrate an offset of 64 at 0 VDC and a max count of 31 744 at 10 VDC, the system could be represented as follows: Vai un ca lib ra te d 10.24 V 10 V 5V ca t ra lib ed Cn 0V 64 31 744 32 000 32 767 Offset and RTP: The offset parameter is represented as a signed 16-bit number.
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Analog Input Modules Maximum Count and RTP: The maximum count parameter is represented as a signed 16-bit number.
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Analog Input Modules Step Averaging Action Result 6 If adjustments need to be made, take the Advantys configuration software offline. 7 Double-click on the STB AVI 1400 module in the island editor. 8 Open the Properties sheet in the module editor. In the Offset value field, enter the data value that you read in step 4. In the Max. Count value field, enter the data value that you read in step 5. 9 Save the new configuration parameters.
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Analog Input Modules This parameter is represented as an unsigned 16-bit number. To access this parameter using RTP, write the following values to the RTP request block: Length 1 Index (low byte) 0x02 Index (high byte) 0x24 Sub-index 1 for channel 1 2 for channel 2 3 for channel 3 4 for channel 4 5 for channel 5 6 for channel 6 7 for channel 7 8 for channel 8 Data Byte 1 Range 1 to 80 (0x50) You may configure the operating range of the STB AVI 1400 on a per-channel basis.
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Analog Input Modules STB AVI 1400 Data and Status for the Process Image Representing the Analog Input Data The STB AVI 1400 sends a representation of the operating states of its input channels to the NIM. The NIM stores this information in sixteen registers—eight data registers (one for each channel) and eight status registers (one for each channel). The information can be read by the fieldbus master or, if you are using a standard NIM, by an HMI panel connected to the NIM’s CFG port.
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Analog Input Modules Data Word Structure The first, third, fifth, seventh, ninth, eleventh, thirteenth, and fifteenth registers in the module's input process image are the data words. Each register represents the input current of a channel in the IEC data format. The data has 15-bit + sign resolution.
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Analog Input Modules However due to user-configurable offset and max count, if used, an OVW may be generated before the reported count reaches 32 001. Similarly, the reported count may be at 32 767, but you may not receive the expected OVE. An ideal linear representation of analog input voltage (one with default offset and maximum count) is given by the following formula: Cn = (Vai - 1) x 8000 where Cn is the numerical count and Vai is the analog input voltage. Vai 5.10 V >5 V OVE OVW 3V <1 V 0.
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Analog Input Modules where Cn is the numerical count and Vai is the analog input voltage. V ai 5.12 V OVE >5 V OVW <0.12 V UVE Cn UVW 0 767 32 001 32 767 Data Format 0 to 10 VDC Error 0 to 10 VDC Range OVE (over voltage error) 10.24 VDC (32 767) OVW (over voltage warning) > 10 VDC (32 001) UVW (under voltage warning) < 0.
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Analog Input Modules Cn = Vai x 3200 where Cn is the numerical count and Vai is the analog input voltage. V ai OVE 10.24 V >10 V OVW <0.24V UVW Cn 0 UVE 767 32 001 32 767 Data Formats +/-5 VDC and +/-10 VDC Error +/-5 VDC Range +/-10 VDC Range OVE (over voltage error) 5.12 VDC (32 767) 10.24 VDC (32 767) OVW (over voltage warning) >-5 VDC (32 001) > 10 VDC (32 001) UVW (under voltage warning) < 5 VDC (-32 001) < 10 VDC (-32 001) UVE (under voltage error) -5.12 VDC (-32 768) -10.
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Analog Input Modules An ideal linear representation of analog input voltage (one with default offset and maximum count) is given by the following formula: Cn = Vai x 6400 where Cn is the numerical count and Vai is the analog input voltage. V ai OVE 5.12 V >5 V OVW -32 768 -32 001 Cn 32 001 32 767 UVW <-5 V UVE -5.12 V In an ideal linear voltage representation for +/-10 VDC range (one with default offset or max count settings (see p. 203)), a value of 32 001 represents an OVW.
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Analog Input Modules where Cn is the numerical count and Vai is the analog input voltage. V ai OVE 10.24 V >10 V OVW -32 768 -32 001 Cn 32 001 32 767 31007715 6/2008 UVW <-10 V UVE -10.24 V 217 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Input Modules Status Byte Structure The second, fourth, sixth, eighth, tenth, twelfth, fourteenth, and sixteenth registers in the module's input process image are the status words. The STB AVI 1400 can detect and report voltage overflow conditions.
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Analog Input Modules STB AVI 1400 Specifications Table of Technical Specifications description eight single-ended analog voltage input channels analog voltage range +1 to 5 VDC 0 to 5 VDC 0 to 10 VDC +/- 5 VDC +/-10 VDC (default) resolution 15 bits + sign returned data format IEC module width 18.4 mm (0.72 in) I/O base STB XBA 2000 (see p. 395) operating voltage range 19.
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Analog Input Modules addressing requirement 16 input words total 8 words for data isolation field-to-bus 1500 VDC for 1 minute analog module to sensor bus 500 VDC 8 words for status field power requirements from a 24 VDC PDM power protection time-lag fuse on the PDM *Basic NIMs do not allow you to hot swap I/O modules. **This product supports operation at normal and extended temperature ranges.
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Analog Input Modules 2.11 STB AVI 0300 Analog Voltage Input Module (fourchannel, isolated inputs, 15-bit + sign, +1 ... 5 VDC, 0 ... 5 VDC, 0 ... 10 VDC, +/-5 VDC, or +/-10 VDC) At a Glance Overview This section provides you with a detailed description of the STB AVI 0300 analog input module—its physical design and functional capabilities.
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Analog Input Modules STB AVI 0300 Physical Description Physical Characteristics The STB AVI 0300 is a four-channel differential analog voltage input module that reads inputs from analog sensors operating in the range of +1 to 5 VDC, 0 to 5 VDC, 0 to 10 VDC, +/-5 VDC or +/-10 VDC (default). The module converts the analog signal to a digital value with 15-bit + sign resolution, and communicates that value to the control system. The analog input channels have 200 VDC channelto-channel isolation.
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Analog Input Modules Ordering Information The module can be ordered as part of a kit (STB AVI 0300 K), which includes: z z z one STB AVI 0300 analog input module one size 2 STB XBA 2000 (see p.
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Analog Input Modules STB AVI 0300 LED Indicator Purpose The two LEDs on the STB AVI 0300 provide visual indications of the module’s operating status. Their location and meanings are described below. Location The LEDs are located on the top front bezel of the module, directly below the model number. 224 31007715 6/2008 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Input Modules Indications The following table defines the meaning of the two LEDs (where an empty cell indicates that the pattern on the associated LED doesn’t matter). RDY ERR Meaning What to Do off off The module is either not receiving logic power or has failed. Check power. flicker* off Auto-addressing is in progress. on on The watchdog has timed out.
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Analog Input Modules STB AVI 0300 Field Wiring Summary The STB AVI 0300 module uses two six-terminal field wiring connectors. Analog sensors 1 and 2 are wired to the top connector. Analog sensors 3 and 4 are wired to the bottom connector.The choices of connectors and field wire types are described below, and some field wiring options are presented.
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Analog Input Modules Sample Wiring Diagrams The following field wiring example shows how four isolated analog sensors can be wired to the STB AVI 0300 module. An external power supply is required to power the sensors. 1 ++ UI - - 2 3 4 FE 5 + + UI - - 6 FE 1 2 + + UI - - 3 4 FE 5 + + UI - - 6 FE 31007715 6/2008 227 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Input Modules STB AVI 0300 Functional Description Functional Characteristics The STB AVI 0300 module is a four-channel module that handles analog inputs from four field sensors operating in the +1 to 5 VDC, 0 to 5 VDC, 0 to 10 VDC, +/-5 VDC, or +/-10 VDC range.
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Analog Input Modules These parameters are provided only for sensor compensation, not for scaling. The module is able to measure over the physical range of +1 to 5 VDC, 0 to 5 VDC, 0 to 10 VDC, +/-5 VDC, and +/-10 VDC. An offset adjustment is performed on the low end of the range, and a max count adjustment is performed on the high end of the range.
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Analog Input Modules Operating Range +/-5 VDC In the +/- 5 VDC operating range, if you use the Advantys configuration software to calibrate an offset of 64 at 0 VDC and a max count of 32 576 at +5 VDC, the system could be represented as follows: V ai 5.09 V 5V lib ca -32 448 -32 000 te ra d un ra lib ca d te Cn 32 000 32 576 -5 V -5.
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Analog Input Modules Operating Range +1 to 5 VDC If you use the Advantys configuration software to calibrate an offset of 64 at 1 VDC and a max count of 31 744 at 5 VDC, the system could be represented as follows: Vai un ca l ib ra te d 5.
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Analog Input Modules Operating Range 0 to 10 VDC In the operating range of 0 to 10 VDC if you use the Advantys configuration software to calibrate an offset of 64 at 0 VDC and a max count of 31 744 at 10 VDC, the system could be represented as follows: Vai un ca lib ra te d 10.24 V 10 V 5V ca t ra lib ed Cn 0V 64 31 744 32 000 32 767 Offset and RTP: The offset parameter is represented as a signed 16-bit number.
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Analog Input Modules Sub-index 1 for channel 1 2 for channel 2 3 for channel 3 4 for channel 4 Data Bytes 2 (high byte) & 1 (low byte) Determining Offset and Maximum Count Values 31007715 6/2008 31 233 to 32 767 (0x7A01 to 0x7FFF)) To apply offset and maximum count to an analog channel: Step Action Result 1 Connect the Advantys configuration software to a physical island. The software will be in online mode.
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Analog Input Modules Averaging You may apply a filter that smooths the values of the analog inputs reported by the STB AVI 0300. The Advantys configuration software allows you to average over a specified number of samples. By default, the number samples averaged is one (no averaging); you may have a filtering average over up to 80 samples. Step Action Result 1 Double click the STB AVI 0300 module you want to configure in the island editor.
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Analog Input Modules STB AVI 0300 Data and Status for the Process Image Representing the Analog Input Data The STB AVI 0300 sends a representation of the operating states of its input channels to the NIM. The NIM stores this information in eight registers—four data registers (one for each channel) and four status registers (one for each channel). The information can be read by the fieldbus master or, if you are using a standard NIM, by an HMI panel connected to the NIM’s CFG port.
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Analog Input Modules Data Word Structure The first, third, fifth, and seventh registers in the module's input process image are the data words. Each register represents the input current of a channel in the IEC data format. The data has 15-bit + sign resolution. The bit structure in each data register is as follows: STB AVI 0300 Data Register Format 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 sign 214 22 213 212 211 26 10 2 2 29 25 24 21 20 23 7 28 All 16 bits in each data word are significant.
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Analog Input Modules However due to user-configurable offset and max count, if used, an OVW may be generated before the reported count reaches 32 001. Similarly, the reported count may be at 32 767, but you may not receive the expected OVE. An ideal linear representation of analog input voltage (one with default offset and maximum count) is given by the following formula: Cn = (Vai - 1 V) * 8000 where Cn is the numerical count and Vai is the analog input voltage. Vai 5.10 V >5 V OVE OVW 3V <1 V 0.
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Analog Input Modules where Cn is the numerical count and Vai is the analog input voltage. V ai 5.12 V OVE >5 V OVW UVW <0.12 V Cn 0 UVE 767 32 001 32 767 Data Format for 0 to 10 VDC: Error 0 to 10 VDC Range OVE (over voltage error) 10.24 VDC (32 767) OVW (over voltage warning) >10 VDC (32 001) UVW (under voltage warning) <0.
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Analog Input Modules Cn = Vai x 3200 where Cn is the numerical count and Vai is the analog input voltage. V ai 10.24 V OVE >10 V OVW UVW 0.24V Cn 0 UVE 767 32 001 32 767 Data Formats for +/-5 VDC and +/-10 VDC Error +/-5 VDC Range +/-10 VDC Range OVE (over voltage error) 5.12 VDC (32 767) 10.24 VDC (32 767) OVW (over voltage warning) >5 VDC (32 001) > 10 VDC (32 001) UVW (under voltage warning) <-5 VDC (-32 001) < -10 VDC (-32 001) UVE (under voltage error) -5.
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Analog Input Modules Cn = Vai x 6400 where Cn is the numerical count and Vai is the analog input voltage. V ai OVE 5.12 V >5 V OVW -32 768 -32 001 Cn 32 001 32 767 UVW <-5 V UVE -5.12 V In an ideal linear voltage representation for +/-10 VDC range (one with default offset or max count settings (see p. 228)), a value of 32 001 represents an OVW. If the input value is less than or equal to -32 001, the module will report a UVW. When the input value reaches 32 767, an OVE occurs.
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Analog Input Modules where Cn is the numerical count and Vai is the analog input voltage. V ai OVE 10.24 V >10 V OVW -32 768 -32 001 Cn 32 001 32 767 31007715 6/2008 UVW <-10 V UVE -10.24 V 241 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Input Modules Status Byte Structure The second, fourth, sixth, and eighth registers in the module's input process image are the status words. The STB AVI 0300 can detect and report voltage overflow conditions, as well as other errors.
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Analog Input Modules STB AVI 0300 Specifications Table of Technical Specifications description four isolated analog voltage input channels analog voltage range +1 to 5 VDC 0 to 5 VDC 0 to 10 VDC +/- 5 VDC +/-10 VDC (default) resolution 15-bit plus sign returned data format IEC module width 18.4 mm (0.72 in) I/O base STB XBA 2000 (see p. 395) operating voltage range 19.
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Analog Input Modules minimum input voltage -12 VDC maximum input voltage +12 VDC addressing requirement 8 input words total 4 words for data isolation field-to-bus 1500 VDC for 1 minute channel-to-channel 200 VDC analog module to sensor bus 500 VDC 4 words for status field power requirements from a 24 VDC PDM power protection time-lag fuse on the PDM *Basic NIMs do not allow you to hot swap I/O modules. **This product supports operation at normal and extended temperature ranges.
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The Advantys STB Analog Output Modules 3 At a Glance Overview This chapter describes the features of the standard and basic Advantys STB analog output modules. What's in this Chapter? This chapter contains the following sections: 31007715 6/2008 Section Topic Page 3.1 STB AVO 1250 Analog Voltage Output Module (two-channel, bipolar-selectable, 11-bit + sign) 246 3.2 STB AVO 1255 Analog Voltage Output Module (two-channel, 0 to 10 V, 10-bit) 264 3.
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Analog Output Modules 3.1 STB AVO 1250 Analog Voltage Output Module (two-channel, bipolar-selectable, 11-bit + sign) At a Glance Overview This section provides you with a detailed description of the STB AVO 1250 analog output module—its functions, physical design, technical specifications, field wiring requirements, and configuration options.
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Analog Output Modules STB AVO 1250 Physical Description Physical Characteristics The STB AVO 1250 is a standard Advantys STB two-channel analog voltage output module that writes outputs to analog actuators that operate over a user-selectable range of either 0 to10 V or -10 to +10 V. The analog portion of the module is isolated from the island’s actuator bus to improve performance. To take advantage of this internal isolation feature, the actuators must be powered from an external power supply.
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Analog Output Modules Ordering Information The module can be ordered as part of a kit (STB AVO 1250 K), which includes: z z z one STB AVO 1250 analog input module one size 1 STB XBA 1000 (see p.
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Analog Output Modules STB AVO 1250 LED Indicator Purpose The two LEDs on the STB AVO 1250 provide visual indications of the module’s operating status. Their location and meanings are described below. Location The LEDs are located on the top of the front bezel of the module, directly below the model number: 31007715 6/2008 249 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Output Modules Indications The following table defines the meaning of the two LEDs (where an empty cell indicates that the pattern on the associated LED doesn’t matter): RDY ERR Meaning What to Do off off The module is either not receiving logic power or has failed. Check power flicker* off Auto-addressing is in progress. on off The module has achieved all of the following: z it has power z it has passed its confidence tests z it is operational on on The watchdog has timed out.
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Analog Output Modules STB AVO 1250 Field Wiring Summary The STB AVO 1250 module uses two six-terminal field wiring connectors. Analog actuator 1 is wired to the top connector, and the analog actuator 2 is wired to the bottom connector. The choices of connectors and field wire types are described below, and some field wiring options are presented.
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Analog Output Modules Pin Top Connections Bottom Connections 2 no connection no connection 3 output to actuator 1 output to actuator 2 4 output channel return output channel return 5 no connection no connection 6 field power return (to the module) field power return (to the module) The analog returns (pin 4) for each channel are internally connected—therefore there is no channel-to-channel isolation.
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Analog Output Modules If you want to use 24 VDC from the island’s actuator bus to power the analog field devices, this power can be delivered through the output module.
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Analog Output Modules STB AVO 1250 Functional Description Functional Characteristics The STB AVO 1250 is a two-channel analog output module that sends data to two voltage field actuators.
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Analog Output Modules Analog Output Period If the data sent by the module to an analog output channel is not updated by the fieldbus master in a specified number of milliseconds, the module will refresh the old data held by the channel. The purpose of this update is to prevent the analog value from drifting in the event that there is a long interval between data updates. The interval between refreshes is defined as the analog output period. This period is user-configurable in the range 5 to 255 ms.
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Analog Output Modules Fallback Modes When communications are lost between the output module and the fieldbus master, the module’s output channels must go to a known state where they will remain until communications are restored. This is known as the channel’s fallback state. You may configure fallback states for each channel individually.
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Analog Output Modules Fallback States If an output channel’s fallback mode is predefined state, you may configure that channel to go to any value in the valid range. z z If your voltage range is 0 to 10 VDC, then the fallback state value may be configured as a decimal or hexadecimal integer in the range 0 to 32 000 (0 to 0x7D00). If your voltage range of -10 to +10 VDC, then the fallback state value may be configured as a decimal or hexadecimal integer in the range -32 000 to +32 000 (0x8300 to 0x7D00).
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Analog Output Modules STB AVO 1250 Data and Status for the Process Image Representing the Analog Output Data The NIM keeps a record of output data in one block of registers in the process image and a record of output status in another block of registers in the process image. Information in the output data block is written to the NIM by the fieldbus master and is used to update the output module. The information in the status block is provided by the module itself.
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Analog Output Modules Output Data Registers The output data process image is a reserved block of 4096 16-bit registers (in the range 40001 through 44096) that represents the data returned by the fieldbus master. Each output module on the island bus is represented in this data block. The STB AVO 1250 uses two contiguous registers in the output data block—the first for the data in channel 1 and the second for the data in channel 2.
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Analog Output Modules Linear voltage representations can be interpreted using the formula: C n = 3200 × V ao where Cn is the numerical count and Vao is the analog output voltage. When the voltage range is from 0 to 10 VDC, voltage data is represented as follows: Vao 10.238 V OVE 10 V OVW 9V Cn UVW 0.24 V 0 (UVE) 760 28 800 32 000 32 760 When the voltage range is from -10 to +10 VDC, voltage data is represented as follows: Vao OVE 10.
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Analog Output Modules Output Status Registers The input data and I/O status process image is a reserved block of 4096 16-bit registers (in the range 45392 through 49487) that represent the status of all the I/O modules (along with the data for the input modules) on the island bus. The STB AVO 1250 is represented by two contiguous registers—the first shows output status for channel 1 and the second shows output status for channel 2.
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Analog Output Modules STB AVO 1250 Specifications Table of Technical Specifications description analog voltage range resolution two single-ended analog voltage output channels default 0 ... 10 V user-configurable setting** -10 ... +10 V @ 0 ... 10 V 12 bits @ -10 ... +10 V 11 bits + sign returned data format IEC module width 13.9 mm (0.58 in) I/O base STB XBA 1000 (see p. 391) operating voltage range 19.
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Analog Output Modules fallback states (when default setting predefined is the fallback user-configurable mode) settings1 0 V on both channels when the voltage is 0 ... 10 V, integer values between 0 ... 32 000 on each channel when the voltage is -10 ... +10 V, integer values between -32 000 ...
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Analog Output Modules 3.2 STB AVO 1255 Analog Voltage Output Module (two-channel, 0 to 10 V, 10-bit) At a Glance Overview This section provides a detailed description of the STB AVO 1255 analog output module—its functions, physical design, technical specifications and field wiring requirements.
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Analog Output Modules STB AVO 1255 Physical Description Physical Characteristics The STB AVO 1255 is a basic Advantys STB two-channel analog voltage output module that writes outputs to analog actuators that operate over a range of 0 to10 V. The analog portion of the module is isolated from the island’s field power bus to improve performance. To take advantage of this internal isolation feature, power the actuators from an external power supply.
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Analog Output Modules Ordering Information The module can be ordered as part of a kit (STB AVO 1255 K), which includes: z z z one STB AVO 1255 analog input module one size 1 STB XBA 1000 (see p.
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Analog Output Modules STB AVO 1255 LED Indicator Purpose The LED on the STB AVO 1255 provides a visual indication of the module’s operating status. Location The LED is located on the top of the front bezel of the module, directly below the model number: Indications RDY Meaning What to Do off The module is either not receiving logic power or has failed. Check power flicker* Auto-addressing is in progress.
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Analog Output Modules STB AVO 1255 Field Wiring Summary Connector Types The STB AVO 1255 module uses two six-terminal field wiring connectors. Analog actuator 1 is wired to the top connector, and the analog actuator 2 is wired to the bottom connector.
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Analog Output Modules The analog returns (pin 4) for each channel are internally connected—therefore there is no channel-to-channel isolation. Sample Wiring Diagrams The following field wiring example shows how two isolated single-ended analog actuators can be wired to the STB AVO 1255 module.
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Analog Output Modules If you want to use 24 VDC from the island’s field power bus to power the singleended analog field devices, use pins 1 and 6 as follows: 1 3 - U + 4 6 FE 1 3 - U + 4 6 FE 1 3 4 6 +24 VDC for actuator 1 (top) and for actuator 2 (bottom) outputs to actuator 1 (top) and actuator 2 (bottom) returns from actuator 1 (top) and actuator 2 (bottom) field power return from actuator 1 (top) and actuator 2 (bottom) Remember that using pins 1 and 6 defeats the built-in isolation between th
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Analog Output Modules STB AVO 1255 Functional Description Functional Characteristics The STB AVO 1255 is a two-channel analog module that sends output data to two voltage field actuators. It does not support user-configurable operating parameters or reflex actions. Operating Parameters The voltage range of the module is 0 to 10 V, with 10-bit resolution.
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Analog Output Modules STB AVO 1255 Data for the Process Image Representing the Analog Output Data The NIM keeps a record of output data in a block of registers in the process image. Information in the output data block is written to the NIM by the fieldbus master and is used to update the output modules. This information can be monitored by the fieldbus master. If you are not using a basic NIM, the information may also be monitored by an HMI panel connected to the NIM’s CFG port.
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Analog Output Modules Output Data Registers Each STB AVO 1255 data register represents the output voltage of a channel in the IEC data format. The data has 10-bit resolution. The bit structure in each data register is as follows: 0 to 10 V Data Register Format 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 always 0 0 ignored 214 213 212 211 210 28 9 2 27 26 25 There are 10 significant bits in each data word—bits 14 through 5.
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Analog Output Modules STB AVO 1255 Specifications Table of Technical Specifications description two single-ended analog voltage output channels analog voltage range 0 ... 10 V resolution 10 bits returned data format IEC module width 13.9 mm (0.58 in) I/O base STB XBA 1000 (see p. 391) operating voltage range 19.
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Analog Output Modules power protection time-lag fuse on the PDM agency certifications refer to Advantys STB System Planning and Installation Guide, 890 USE 171 *ATEX applications prohibit hot swapping-refer to the Advantys STB System Planning and Installation Guide, 890 USE 171 ** Basic NIMs do not allow you to hot swap I/O modules. 31007715 6/2008 275 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Output Modules 3.3 STB AVO 1265 Analog Voltage Output Module (two-channel, -10 to +10 V, 9-bit + sign) At a Glance Overview This section provides a detailed description of the STB AVO 1265 analog output module—its functions, physical design, technical specifications and field wiring requirements.
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Analog Output Modules STB AVO 1265 Physical Description Physical Characteristics The STB AVO 1265 is a basic Advantys STB two-channel analog voltage output module that writes outputs to analog actuators that operate over a range of 10 to +10 V. The analog portion of the module is isolated from the island’s actuator bus to improve performance. To take advantage of this internal isolation feature, the actuators must be powered from an external power supply.
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Analog Output Modules Ordering Information The module can be ordered as part of a kit (STB AVO 1265 K), which includes: z z z one STB AVO 1265 analog input module one size 1 STB XBA 1000 (see p.
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Analog Output Modules STB AVO 1265 LED Indicator Purpose The LED on the STB AVO 1265 provides a visual indication of the module’s operating status. Location The LED is located on the top of the front bezel of the module, directly below the model number: Indications RDY Meaning What to Do off The module is either not receiving logic power or has failed. Check power flicker* Auto-addressing is in progress.
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Analog Output Modules STB AVO 1265 Field Wiring Summary Connector Types The STB AVO 1265 module uses two six-terminal field wiring connectors. Analog actuator 1 is wired to the top connector, and the analog actuator 2 is wired to the bottom connector.
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Analog Output Modules The analog returns (pin 4) for each channel are internally connected—therefore there is no channel-to-channel isolation. Sample Wiring Diagrams The following field wiring example shows how two isolated single-ended analog actuators can be wired to the STB AVO 1265 module.
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Analog Output Modules If you want to use 24 VDC from the island’s actuator bus to power the single-ended analog field devices, use pins 1 and 6 as follows: 1 3 - U + 4 6 FE 1 3 - U + 4 6 FE 1 3 4 6 +24 VDC for actuator 1 (top) and for actuator 2 (bottom) outputs to actuator 1 (top) and actuator 2 (bottom) returns from actuator 1 (top) and actuator 2 (bottom) field power return from actuator 1 (top) and actuator 2 (bottom) Remember that using pins 1 and 6 defeats the built-in isolation between the
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Analog Output Modules STB AVO 1265 Functional Description Functional Characteristics The STB AVO 1265 is a two-channel analog output module that sends data to two voltage field actuators. It does not support user-configurable operating parameters or reflex actions. Operating Parameters The voltage range of the module is +/-10 V, with 9-bit plus sign resolution.
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Analog Output Modules STB AVO 1265 Data for the Process Image Representing the Analog Output Data The NIM keeps a record of output data in one block of registers in the process image. Information in the output data block is written to the NIM by the fieldbus master and is used to update the output modules. This information can be monitored by the fieldbus master. If you are not using a basic NIM, the information may also be monitored by an HMI panel connected to the NIM’s CFG port.
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Analog Output Modules Output Data Registers Each STB AVO 1265 data register represents the output voltage data in the IEC data format. The data has 9-bit + sign resolution: -10 to +10 V Data Register Format 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 ignored sign bit 214 213 212 211 210 26 27 28 9 2 The value of each data word is represented in bits 15 through 6, The bits represent voltage data as integer values in the range -32 768 ... +32 704 in increments of 64.
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Analog Output Modules STB AVO 1265 Specifications Table of Technical Specifications description two single-ended analog voltage output channels analog voltage range -10 ... +10 V resolution 9 bits + sign returned data format IEC module width 13.9 mm (0.58 in) I/O base STB XBA 1000 (see p. 391) operating voltage range 19.
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Analog Output Modules power protection time-lag fuse on the PDM agency certifications refer to Advantys STB System Planning and Installation Guide, 890 USE 171 *ATEX applications prohibit hot swapping-refer to the Advantys STB System Planning and Installation Guide, 890 USE 171 ** Basic NIMs do not allow you to hot swap I/O modules. 31007715 6/2008 287 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Output Modules 3.4 STB ACO 0220 Analog Current Output Module (two-channel, 15-bit + sign, 4 ... 20 mA) At a Glance Overview This section provides a detailed description of the STB ACO 0220 analog output module—its functions, physical design, technical specifications, and field wiring requirements.
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Analog Output Modules STB ACO 0220 Physical Description Summary The STB ACO 0220 is a standard Advantys STB two-channel analog sink/source output module that writes outputs to analog actuators that operate over a range of 4 to 20 mA. The analog portion of the module is isolated from the island’s actuator bus to improve performance. The two channels are isolated from each other.
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Analog Output Modules Ordering Information The module can be ordered as part of a kit (STB ACO 0220 K), which includes: z z z one STB ACO 0220 analog input module one size 2 STB XBA 2000 (see p.
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Analog Output Modules STB ACO 0220 LED Indicator Purpose The LED on the STB ACO 0220 provides a visual indication of the module’s operating status. Location The LED is located on the top of the front bezel of the module, directly below the model number. 31007715 6/2008 291 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Output Modules Indications RDY ERR Meaning What to Do off off The module is either not receiving logic power or has failed. Check power. flicker* off Auto-addressing is in progress. on off The module has achieved all of the following: z it has power z it passed its confidence tests z it is operational on on The watchdog has timed out. Cycle power; restart the communications. on flicker* A broken wire is detected. Check wiring.
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Analog Output Modules STB ACO 0220 Field Wiring Summary The STB ACO 0220 module uses two six-terminal field wiring connectors. Analog actuator 1 is wired to the top connector, and the analog actuator 2 is wired to the bottom connector.
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Analog Output Modules Sample Wiring Diagrams If you want to use 24 VDC from the island’s actuator bus to power the analog field devices, this power can be delivered through the output module. To do this, use pins 1 and 6 as follows: 1 2 source + I - 4 6 FE 1 2 - I + 4 sink 6 FE 1 2 4 6 294 +24 VDC loop supply output to actuator 1 output channel return loop power return (to the module) 31007715 6/2008 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.
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Analog Output Modules The following field wiring example shows how two isolated analog actuators can be wired to the STB ACO 0220 module using external power supplies.
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Analog Output Modules STB ACO 0220 Functional Description Functional Characteristics The STB ACO 0220 module is a two-channel analog output module that sends data to two current field actuators. It supports user-configurable operating parameters and reflex actions.
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Analog Output Modules This parameter is represented as an unsigned 8-bit number. To access this parameter using RTP, the following values to the RTP request block. Length Output Data Format 1 Index (low byte) 0x10 Index (high byte) 0x23 Sub-index 0 Data Byte 1 5 to 255 By default, the data format is signed values with 15-bit resolution. If you are using the Advantys configuration software, you can change the data format to unsigned values with 16-bit resolution.
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Analog Output Modules Fallback States If an output channel’s fallback mode is predefined state, you may configure that channel to go to any value in the valid range. z z If you are using an unsigned output data format, the valid range is -1 000 to 32 767 ( (0xFC18 to 0x7FFF), where 0 represents 4 mA and 32 000 represents 20 mA. (A value of -1000 represents 3.28 mA, and a value of 32 767 represents 20.384 mA.
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Analog Output Modules STB ACO 0220 Data in the Process Image Representing the Analog Output Data The NIM keeps a record of output data in one block of registers in the process image. Information in the output data block is written to the NIM by the fieldbus master and is used to update the output modules. This information can be monitored by the fieldbus master. If you are not using a basic NIM, the information may also be monitored by an HMI panel connected to the NIM’s CFG port.
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Analog Output Modules Each data word allows you to represent analog output current data with either signed integer values ranging from -32 767 to 32 767 or with unsigned integer values in the range 0 to 65 534. Linear current representations can be interpreted using the formula: Vn I ao = ⎛⎝ ------------⎞⎠ + 4 for signed data 2000 Vn I ao = ⎛⎝ ------------⎞⎠ + 4 for unsigned data 4000 where Vn is the numerical count and Iao is the analog output current.
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Analog Output Modules Output Status Registers The I/O status process image is a reserved block of 4 096 16-bit registers (in the range 45 392 through 49 487) that represent the status of all the I/O modules (along with the data for the input modules) on the island bus. The STB ACO 0220 is represented by two contiguous registers. The first shows the status for channel 1, and the second shows the status for channel 2. The six LSBs in each register represent the status of each output channel.
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Analog Output Modules STB ACO 0220 Specifications Table of Technical Specifications description two isolated analog sink/source output channels analog current range 4 ... 20 mA resolution default 15-bit + sign user configurable 16-bit unsigned returned data format IEC module width 18.4 mm (0.72 in) I/O base STB XBA 2000 (see p. 395) operating voltage range 19.
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Analog Output Modules internal loop supply 24 VDC +/- 20% 25mA max per channel over-current protection for internal loop supply yes fallback mode predefined (default) fallback states user-defined data value (default = 0) addressing requirement two words for output data field power requirements from a 24 VDC PDM power protection time-lag fuse on the PDM agency certifications refer to Advantys STB System Planning and Installation Guide, 890 USE 171 *ATEX applications prohibit hot swapping-ref
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Analog Output Modules 3.5 STB ACO 1210 Analog Current Output Module (two-channel, 12-bit, 0 ... 20 mA) At a Glance Overview This section provides you with a detailed description of the STB ACO 1210 analog output module—its functions, physical design, technical specifications, field wiring requirements, and configuration options.
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Analog Output Modules STB ACO 1210 Physical Description Summary The STB ACO 1210 is a standard Advantys STB two-channel analog current output module that writes outputs to analog actuators that operate over a range of 0 to 20 mA. The analog portion of the module is isolated from the island’s actuator bus to improve performance. To take advantage of this internal isolation feature, the actuators must be powered from an external power supply.
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Analog Output Modules Ordering Information The module can be ordered as part of a kit (STB ACO 1210 K), which includes: z z z one STB ACO 1210 analog input module one size 1 STB XBA 1000 (see p.
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Analog Output Modules STB ACO 1210 LED Indicators Purpose The two LEDs on the STB ACO 1210 provide visual indications of the module’s operating status. Their location and meanings are described below. Location The LEDs are located on the top of the front bezel of the module, directly below the model number: 31007715 6/2008 307 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Output Modules Indications The following table defines the meaning of the two LEDs (where an empty cell indicates that the pattern on the associated LED doesn’t matter): RDY ERR Meaning off off The module is either not receiving logic power Check power or has failed. flicker* off Auto-addressing is in progress. on off The module has achieved all of the following: z it has power z it has passed its confidence tests z it is operational on on The watchdog has timed out.
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Analog Output Modules STB ACO 1210 Field Wiring Summary The STB ACO 1210 module uses two six-terminal field wiring connectors. Analog actuator 1 is wired to the top connector, and the analog actuator 2 is wired to the bottom connector. The choices of connectors and field wire types are described below, and some field wiring options are presented.
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Analog Output Modules The connections on pin 1 and pin 6 are optional, and using these pins will defeat the built-in isolation between the analog portion of the module and the island’s sensor bus.
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Analog Output Modules If you want to use 24 VDC from the island’s actuator bus to power a single-ended analog field device, this power can be delivered through the output module.
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Analog Output Modules STB ACO 1210 Functional Description Functional Characteristics The STB ACO 1210 module is a two-channel analog output module that sends data to two field actuators.
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Analog Output Modules The analog output period is set at the module level—you cannot configure different channels to refresh at different intervals. This parameter is represented as an unsigned 8-bit number.
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Analog Output Modules Fallback States If an output channel’s fallback mode is predefined state, you may configure that channel to go to any value in the range 0 to 32 000 (0 to 0x7D00), where 0 represents 0 mA and 32 000 represents 20 mA. By default, both channels are configured to go to 0 VDC as their predefined fallback state. Note: If an output channel has been configured with hold last value as its fallback mode, any value that you assign its fallback state parameter will be ignored.
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Analog Output Modules STB ACO 1210 Data and Status in the Process Image Representing the Analog Output Data The NIM keeps a record of output data in one block of registers in the process image and a record of output status in another block of registers in the process image. Information in the output data block is written to the NIM by the fieldbus master and is used to update the output module. The information in the status block is provided by the module itself.
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Analog Output Modules There are 12 significant bits in each data word—bits 14 through 3. They allow you to represent current data with integer values ranging from 0 to 32,760 in increments of eight. The value 32 000 results in a 20 mA output. If the value exceeds 32 000, the output channel reports an over-current warning (OCW). If the value reaches 32 760, an over-current error (OCE) is reported.
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Analog Output Modules Output Status Registers The input data and I/O status process image is a reserved block of 4096 16-bit registers (in the range 45 392 through 49 487) that represent the status of all the I/O modules (along with the data for the input modules) on the island bus. The STB ACO 1210 is represented by two contiguous registers—the first shows output status for channel 1 and the second shows output status for channel 2.
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Analog Output Modules STB ACO 1210 Specifications Table of Technical Specifications description two single-ended analog current output channels analog current range 0 ... 20 mA resolution 12 bits returned data format IEC module width 13.9 mm (0.58 in) I/O base STB XBA 1000 (see p. 391) operating voltage range 19.
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Analog Output Modules fallback states (when predefined is the fallback mode) default 0 mA on both channels user-configurable integer values between 0 ... 32 000 on each channel, representing a state between 0 ...
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Analog Output Modules 3.6 STB ACO 1225 Analog Current Output Module (two-channel, 10-bit, 4 ... 20 mA) At a Glance Overview This section provides a detailed description of the STB ACO 1225 analog output module—its functions, physical design, technical specifications and field wiring requirements.
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Analog Output Modules STB ACO 1225 Physical Description Summary The STB ACO 1225 is a basic Advantys STB two-channel analog current output module that writes outputs to analog actuators that operate over a range of 4 to 20 mA. The analog portion of the module is isolated from the island’s actuator bus to improve performance. To take advantage of this internal isolation feature, power the actuators from an external power supply.
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Analog Output Modules Ordering Information The module can be ordered as part of a kit (STB ACO 1225 K), which includes: z z z one STB ACO 1225 analog input module one size 1 STB XBA 1000 (see p.
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Analog Output Modules STB ACO 1225 LED Indicator Purpose The LED on the STB ACO 1225 provides a visual indication of the module’s operating status. Location The LED is located on the top of the front bezel of the module, directly below the model number: Indications RDY Meaning What to Do off The module is either not receiving logic power or has failed. Check power flicker* Auto-addressing is in progress.
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Analog Output Modules STB ACO 1225 Field Wiring Summary Connector Types The STB ACO 1225 module uses two six-terminal field wiring connectors. Analog actuator 1 is wired to the top connector, and the analog actuator 2 is wired to the bottom connector.
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Analog Output Modules Pin Top Connections Bottom Connections 6 field power return (to the module) field power return (to the module) The analog returns (pin 4) for each channel are internally connected—therefore there is no channel-to-channel isolation. Sample Wiring Diagrams The following field wiring example shows how two isolated single-ended analog actuators can be wired to the STB ACO 1225 module.
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Analog Output Modules If you want to use 24 VDC from the island’s actuator bus to power the single-ended analog field devices, this power can be delivered through the output module.
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Analog Output Modules STB ACO 1225 Functional Description Functional Characteristics The STB ACO 1225 module is a two-channel analog output module that sends data to two current field actuators. It does not support user-configurable operating parameters or reflex actions. Operating Parameters The current range of the module is 4 to 20 mA, with 10-bit resolution. Note: At startup before the module becomes operational, the outputs are at 0 mA.
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Analog Output Modules STB ACO 1225 Data in the Process Image Representing the Analog Output Data The NIM keeps a record of output data in one block of registers in the process image. Information in the output data block is written to the NIM by the fieldbus master and is used to update the output modules. This information can be monitored by the fieldbus master. If you are not using a basic NIM, the information may also be monitored by an HMI panel connected to the NIM’s CFG port.
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Analog Output Modules Output Data Registers Each STB ACO 1225 output data register represents the output data in the IEC data format. The data has 10-bit resolution: STB ACO 1225 Data Register Format 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Ignored always 0 214 213 212 211 210 29 28 27 25 6 2 The value of each data word is represented in bits 14 through 5. The bits represent current data as integer values in the range 0 to 32,736 in increments of 32.
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Analog Output Modules STB ACO 1225 Specifications Table of Technical Specifications description analog current range 4 ... 20 mA resolution 10 bits returned data format IEC module width 13.9 mm (0.58 in) I/O base STB XBA 1000 (see p. 391) operating voltage range 19.
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Analog Output Modules actuator bus power for accessories 100 mA/module over-current protection for accessory power yes field power requirements from a 24 VDC PDM power protection time-lag fuse on the PDM agency certifications refer to Advantys STB System Planning and Installation Guide, 890 USE 171 *ATEX applications prohibit hot swapping-refer to the Advantys STB System Planning and Installation Guide, 890 USE 171 **Basic NIMs do not allow you to hot swap I/O modules.
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Analog Output Modules 3.7 STB ACO 0120 Analog Current Output Module (one-channel, 15-bit + sign, 4 ... 20 mA) At a Glance Overview This section provides you with a detailed description of the STB ACO 0120 analog output module—its functions, physical design, technical specifications, field wiring requirements, and configuration options.
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Analog Output Modules STB ACO 0120 Physical Description Summary The STB ACO 0120 is a standard Advantys STB isolated one-channel analog sink/ source output module that operates over a range of 4 to 20 mA. The analog portion of the module is isolated from the island’s actuator bus to improve performance. The module also provides an isolated, short-circuit protected loop power supply that allows a two-wire connection to the actuator.
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Analog Output Modules Ordering Information The module can be ordered as part of a kit (STB ACO 0120 K), which includes: z z z one STB ACO 0120 analog output module one size 2 STB XBA 2000 (see p.
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Analog Output Modules STB ACO 0120 LED Indicator Purpose The LED on the STB ACO 0120 provides a visual indication of the module’s operating status. Location The LED is located on the top of the front bezel of the module, directly below the model number. 31007715 6/2008 335 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Output Modules Indications The following table defines the meaning of the two LEDs (where an empty cell indicates that the pattern on the associated LED doesn’t matter). RDY ERR Meaning What to Do off off The module is either not receiving logic power or has failed. Check power. flicker* off Auto-addressing is in progress. on off The module has achieved all of the following: z it has power z it passed its confidence tests z it is operational on on The watchdog has timed out.
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Analog Output Modules STB ACO 0120 Field Wiring Summary The STB ACO 0120 module uses one six-terminal field wiring connector. This analog actuator is wired to the top connector. Connector Types Use either: z z an STB XTS 1100 screw type field wiring connector (available in a kit of 20) an STB XTS 2100 spring clamp field wiring connector (available in a kit of 20) The field wiring connector has six connection terminals, with a 3.8 mm (0.15 in) pitch, between each pin.
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Analog Output Modules Sample Wiring Diagrams The actuator may be powered either from a built-in loop supply (24 VDC from the island’s actuator bus through the output module) or from an external loop supply. For ease of wiring and cost considerations, we recommend that you use the built-in loop supply. When you use a built-in loop supply, the pin assignments differ depending on whether you wire the actuator as a sink or source load.
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Analog Output Modules For a source load, use pins 4 and 6, with a jumper across pins 1 and 2: 1 2 - I + 4 source 6 FE 4 6 output channel return loop power return to the module When you use an external power supply, the isolated analog actuator can be wired as a sink or source load using pins 2 and 4 on the module’s top connector. For a sink load, wire the actuator as follows: + - I + sink 2 4 + FE 31007715 6/2008 339 Artisan Technology Group - Quality Instrumentation ...
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Analog Output Modules For a source load, wire the actuator as follows: 2 + sink + - I 4 FE + 2 4 Recommended Loop Power Supplies outputs to actuator loop power returns from actuator The STB ACO 0120 module has been tested with the following Telemecanique power supplies as external loop supplies to validate compliance with European Directives (CE, 89/336/EEC, EN61131-2:2003) for EMC performance: z ABL7 RE 2403 z ABL7 RE 2405 z ABL7 RP 2410 The module can function using any 24 VDC loop supply, bu
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Analog Output Modules STB ACO 0120 Functional Description Functional Characteristics The STB ACO 0120 module is an isolated one-channel analog output module that sends outputs to the field actuator. It supports user-configurable operating parameters and reflex actions.
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Analog Output Modules This parameter is represented as an unsigned 8-bit number. To access this parameter using RTP, the following values to the RTP request block. Length Fallback Modes 1 Index (low byte) 0x10 Index (high byte) 0x23 Sub-index 0 Data Byte 1 5 to 255 When communications are lost between the output module and the fieldbus master, the module’s output channel goes to a known state where it remains until communication is restored. This known state is the channel’s fallback state.
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Analog Output Modules Predefined Fallback Values If the output channel’s fallback mode is predefined state, you may configure the channel to go to any value in the range -1 000 to 32 767, where 0 represents 4 mA and 32 000 represents 20 mA. By default, the output channel goes to a predefined fallback value of 4 mA. Note: If the output channel has been configured with hold last value as its fallback mode, any value that you assign its fallback state parameter is set to zero.
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Analog Output Modules STB ACO 0120 Data in the Process Image Representing the Analog Output Data The NIM keeps a record of output data in one block of registers in the process image. Information in the output data block is written to the NIM by the fieldbus master and is used to update the output modules. This information can be monitored by the fieldbus master. If you are not using a basic NIM, the information may also be monitored by an HMI panel connected to the NIM’s CFG port.
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Analog Output Modules Error 4 to 20 mA Range OCE (over current error) 20.38 mA (32 767) OCW (over current warning) > 20 mA (32 001) UCW (under current warning) < 4 mA (0) UCE (under current error) <= 3.5 mA (-1000) The value of the data word is represented in bits 14 through 0. The bits represent current data as integer values in the range 0 to 32 767. A value of 32 000 results in a 20 mA output, and a value of 0 results in a 4 mA output.
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Analog Output Modules Output Status Registers The I/O status process image is located in a reserved block of 4096 16-bit registers (in the range 45 392 through 49 487) that represent the status of all the I/O modules (along with the data for the input modules) on the island bus. The STB ACO 0120 is represented by one register. This shows the status for the channel. The seven LSBs in the register represents the status of the output channel.
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Analog Output Modules STB ACO 0120 Specifications Table of Technical Specifications description one current output channel analog current range 4 ... 20 mA resolution 15-bit + sign returned data format IEC module width 18.4 mm (0.72 in) I/O base STB XBA 2000 (see p. 395) operating voltage range 19.2 to 30 VDC logic bus current consumption 210 mA nominal field power bus current consumption 150 mA minimum output current 3.5 mA maximum output current 20.
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Analog Output Modules internal loop supply 24 VDC +/- 20% 25mA max per channel over-current protection for internal loop supply yes fallback mode predefined (default) fallback states user-defined data value (default = 0) hold last value addressing requirement one output word for output data and one input word for status field power requirements built-in or external loop supply (see p.
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Analog Output Modules 3.8 STB AVO 0200 Analog Voltage Output Module (two-channel, 15-bit plus sign, +1 ... 5 VDC, 0 ... 5 VDC, 0... 10 VDC, +/-5 VDC, or +/-10 VDC) At a Glance Overview This section provides a detailed description of the STB AVO 0200 analog output module—its functions, physical design, technical specifications and field wiring requirements.
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Analog Output Modules STB AVO 0200 Physical Description Physical Characteristics The STB AVO 0200 is a standard Advantys STB two-channel analog voltage output module that writes outputs to analog actuators that operate over a range of +1 to 5 VDC, 0 to 5 VDC, 0 to 10 VDC, +/-5 VDC, or +/-10 VDC (default). The analog portion of the module is isolated from the island’s field power bus to improve performance.
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Analog Output Modules Ordering Information The module can be ordered as part of a kit (STB AVO 0200 K), which includes: z z z one STB AVO 0200 analog output module one size 2 STB XBA 2000 (see p.
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Analog Output Modules STB AVO 0200 LED Indicator Purpose The LED on the STB AVO 0200 provides a visual indication of the module’s operating status. Location The LED is located on the top of the front bezel of the module, directly below the model number. 352 31007715 6/2008 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Analog Output Modules Indications The following table defines the meaning of the two LEDs (where an empty cell indicates that the pattern on the associated LED doesn’t matter). RDY ERR Meaning What to Do off off The module is either not receiving logic power or has failed. Check power. flicker* off Auto-addressing is in progress. on on The watchdog has timed out.
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Analog Output Modules STB AVO 0200 Field Wiring Summary Connector Types The STB AVO 0200 module uses two six-terminal field wiring connectors. Analog actuator 1 is wired to the top connector, and the analog actuator 2 is wired to the bottom connector.
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Analog Output Modules Sample Wiring Diagrams The following field wiring example shows how two wire non-isolated analog actuators can be wired to the STB AVO 0200 module. An external power supply is required: - U + 3 4 FE - U + 3 4 FE + The following field wiring example shows how two wire isolated analog actuators can be wired to the STB AVO 0200 module.
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Analog Output Modules STB AVO 0200 Functional Description Functional Characteristics The STB AVO 0200 module is a two-channel module that sends analog outputs to two voltage field actuators. It supports user-configurable operating parameters and reflex actions.
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Analog Output Modules This parameter is represented as an unsigned 8-bit number. To access this parameter using RTP, the following values to the RTP request block. Length Fallback Modes 1 Index (low byte) 0x10 Index (high byte) 0x23 Sub-index 0 Data Byte 1 5 to 255 (0xFF) When communications are lost between the output module and the fieldbus master, the module’s output channels go to a known state where they remain until communications are restored.
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Analog Output Modules Predefined Fallback Values For example, in the 1 to 5 VDC scale, if an output channel’s fallback mode is a predefined state, you may configure that channel to go to any value in the range 768 to 32 767, where 0 represents 1 VDC and 32 000 represents 5 VDC. Both output channels go to a predefined fallback state of 1 VDC. Note: If an output channel has been configured with hold last value as its fallback mode, any value that you assign its fallback state parameter is set to zero.
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Analog Output Modules STB AVO 0200 Data and Status for the Process Image Representing the Analog Output Data The NIM keeps a record of output data in one block of registers in the process image. Information in the output data block is written to the NIM by the fieldbus master and is used to update the output modules. This information can be monitored by the fieldbus master. If you are not using a basic NIM, the information may also be monitored by an HMI panel connected to the NIM’s CFG port.
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Analog Output Modules Data Formats 0 to 5 VDC and +1 to 5 VDC Error +1 to 5 VDC Range 0 to 5 VVDC Range OVE (over voltage error) (32 767) 5.10 VDC (32 767) 5.12 VDC OVW (over voltage warning) (32 001) >5 VDC (32 001) >5 VDC UVW (under voltage warning) (-1) <1 VDC (767) <0.12 VDC UVE (under voltage error) (-768) <=0.905 VDC (0) 0 VDC In an ideal linear voltage representation for +1 to 5 VDC range, a value of 32 001 represents an OVW.
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Analog Output Modules where Cn is the numerical count and Vao is the analog output voltage. V ao 5.12 V OVE 5V OVW UVW <0.12 V Cn 0 UVE 767 32 000 32 767 Data Format 0 to 10 VDC Error 0 to 10 VDC Range OVE (over voltage error) (32 767) 10.24 VDC OVW (over voltage warning) (32 001) >10 VDC UVW (under voltage warning) (767) <0.24 VDC UVE (under voltage error) (0) 0 VDC In an ideal linear voltage representation for 0 to 10 VDC range, a value of 32 001 represents an OVW.
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Analog Output Modules where Cn is the numerical count and Vao is the analog output voltage. V ao 10.24 V OVE 10 V OVW <0.24V UVW Cn 0 UVE 767 32 000 32 767 Data Formats +/-5 V and +/-10 VDC Error +/-5 VDC Range +/-10 VDC Range OVE (over voltage error) (32 767) 5.12 VDC (32 767) 10.24 VDC OVW (over voltage warning) (32 001) >5 VDC (32 001) >10 VDC UVW (under voltage warning) (-32 001) <5 VDC (-32 001) <-10 VDC UVE (under voltage error) -(32 768) --5.12 VDC (-32 768) -10.
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Analog Output Modules where Cn is the numerical count and Vao is the analog output voltage. Vao OVE 5.12 V >5 V OVW -32 768 -32 001 Cn 32 001 32 767 UVW <-5 V UVE -5.12 V In an ideal linear voltage representation for +/-10 VDC range, a value of 32 001 represents an OVW. If the output value is less than or equal to -32 001, the module reports a UVW. When the output value reaches 32 767, an OVE occurs. When the output value reaches -32 768, a UVE occurs.
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Analog Output Modules Output Status Registers The I/O status process image is located in a reserved block of 4096 16-bit registers (registers 45 392 through 49 487) that represent the status of all the I/O modules (along with the data for the input modules) on the island bus.
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Analog Output Modules STB AVO 0200 Specifications Table of Technical Specifications description two isolated voltage output channels analog voltage range +1 to 5 VDC 0 to 5 VDC 0 to 10 VDC +/-5 VDC +/-10 VDC (default) resolution 15-bit + sign returned data format IEC module width 18.4 mm (0.72 in) I/O base STB XBA 2000 (see p. 395) operating voltage range 19.
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Analog Output Modules fallback mode predefined (default) fallback states user-defined data value (default = 0) hold last value addressing requirement four words two output words for data two input words for status field power requirements from a 24 VDC PDM power protection time-lag fuse on the PDM *Basic NIMs do not allow you to hot swap I/O modules. **This product supports operation at normal and extended temperature ranges.
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Advantys Power Distribution Modules 4 At a Glance Overview The island bus uses special-purpose PDMs to distribute field power to the I/O modules in its segment(s).
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Power Distribution Modules 4.1 STB PDT 3100 24 VDC Power Distribution Module At a Glance Overview This section provides you with a detailed description of the STB PDT 3100 PDM— its functions, physical design, technical specifications, and power wiring requirements.
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Power Distribution Modules STB PDT 3100 Physical Description Physical Characteristics The STB PDT 3100 is a standard module that distributes field power independently over the island’s sensor bus to the input modules and over the island’s actuator bus to the output modules. This PDM requires two DC power inputs from an external power source. 24 VDC source power signals are brought into the PDM via a pair of two-pin power connectors, one for sensor power and one for actuator power.
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Power Distribution Modules The fuses for the sensor power and actuator power are housed in slots on the right side of the module: 1 3 2 4 1 2 3 4 housing door for the 5 A sensor power fuse housing door for the 10 A actuator power fuse notches in the two doors burn hazard statement CAUTION BURN HAZARD - HOT FUSE Disconnect power for 10 minutes before removing fuse. Failure to follow these instructions can result in injury or equipment damage.
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Power Distribution Modules Ordering Information The module can be ordered as part of a kit (STB PDT 3100 K), which includes: z z z z z one STB PDT 3100 power distribution module one STB XBA 2200 (see p.
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Power Distribution Modules STB PDT 3100 LED Indicators Overview The two LEDs on the STB PDT 3100 are visual indications of the presence of sensor power and actuator power. The LED locations and their meanings are described below.
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Power Distribution Modules STB PDT 3100 Source Power Wiring Summary The STB PDT 3100 uses two two-pin source power connectors that let you connect the PDM to one or two 24 VDC field power source(s). Source power for the sensor bus is connected to the top connector, and source power for the actuator bus is connected to the bottom connector. The choices of connector types and wire types are described below, and a power wiring example is presented.
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Power Distribution Modules Source Power The STB PDT 3100 PDM requires source power from at least one independent, SELV-rated 19.2 ... 30 VDC power supply. Sensor power and actuator power are isolated from one another on the island. You may provide source power to these two buses via a single power supply or by two separate power supplies. Refer to the Advantys STB System Planning and Installation Guide (890 USE 171) for a detailed discussion of external power supply selection considerations.
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Power Distribution Modules This example shows field power for the sensor bus and field power for the actuator bus being derived from separate SELV power supply sources. STB PDT 3100 1 - 2 + 3 + 1 2 3 4 4 +24 VDC sensor bus power 24 VDC sensor power return +24 VDC actuator bus power -24 VDC actuator power return An optional protection relay is shown on the +24 VDC power wire to the actuator bus connector. 31007715 6/2008 375 Artisan Technology Group - Quality Instrumentation ...
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Power Distribution Modules STB PDT 3100 Field Power Over-current Protection Fuse Requirements Input modules on the sensor bus and output modules on the actuator bus are protected by fuses in the STB PDT 3100 PDM. The sensor bus is protected by a 5 A fuse and the actuator bus is protected by an 10 A fuse. These fuses are accessible and replaceable via two side panels on the PDM.
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Power Distribution Modules Accessing the Fuse Panels The two panels that house the actuator bus protection fuse and the sensor bus protection fuse are located on the right side of the PDM housing (see p. 369). The panels are red doors with fuse holders inside them. The 5 A sensor power fuse is in the top door. The 10 A actuator power fuse is in the bottom door. Replacing a Fuse Before you replace a fuse in the STB PDT 3100, remove the power sources to the actuator bus and sensor bus.
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Power Distribution Modules The Protective Earth Connection PE Contact for the Island One of the key functions of a PDM, in addition to distributing sensor and actuator power to the I/O modules, is the provision of protective earth (PE) to the island. On the bottom of each STB XBA 2200 PDM base is a captive screw in a plastic block. By tightening this captive screw, you can make a PE contact with the island bus. Every PDM base on the island bus should make PE contact.
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Power Distribution Modules STB PDT 3100 Specifications Table of Technical Specifications The STB PDT 3100 module’s technical specifications are described in the following table. description 24 VDC power distribution module module width 18.4 mm (0.72 in) module height in its base 137.9 mm (5.43 in) PDM base STB XBA 2200 hot swapping supported no nominal logic power current consumption 0 mA sensor/actuator bus voltage range 19.2 ...
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Power Distribution Modules 4.2 STB PDT 3105 24 VDC Basic Power Distribution Module At a Glance Overview This section provides you with a detailed description of the STB PDT 3105 PDM— its functions, physical design, technical specifications, and power wiring requirements.
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Power Distribution Modules STB PDT 3105 Physical Description Physical Characteristics The STB PDT 3105 is a basic Advantys STB module that distributes sensor power and actuator power over a single power bus to the I/O modules in a segment. This PDM mounts in a special size 2 base. It requires a 24 VDC source power input from an external power source, which is brought into the PDM via a two-pin power connector. The module also houses a user-replaceable fuse that protects the island’s I/O power bus.
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Power Distribution Modules CAUTION BURN HAZARD - HOT FUSE Disconnect power for 10 minutes before removing fuse. Failure to follow these instructions can result in injury or equipment damage.
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Power Distribution Modules Ordering Information The module can be ordered as part of a kit (STB PDT 3105 K), which includes: z z z z one STB PDT 3105 power distribution module one STB XBA 2200 (see p.
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Power Distribution Modules STB PDT 3105 Source Power Wiring Summary Connectors The STB PDT 3105 uses a two-pin source power connector that let you connect the PDM to a 24 VDC field power source. The choices of connector types and wire types are described below, and a power wiring example is presented. Use either: z z an STB XTS 1130 screw type field wiring connector an STB XTS 2130 spring clamp field wiring connector Both connector types are provided in kits of 10 connectors/kit.
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Power Distribution Modules Source Power The STB PDT 3105 PDM requires source power from an independent, SELV-rated 19.2 ... 30 VDC power supply. Refer to the Advantys STB System Planning and Installation Guide (890 USE 171) for a detailed discussion of external power supply selection considerations. Sample Wiring Diagrams This example shows the field power connections to both the sensor bus and the actuator bus coming from a single 24 VDC SELV power supply.
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Power Distribution Modules STB PDT 3105 Field Power Over-current Protection Fuse Requirements I/O modules are protected by a 5 A fuse in the STB PDT 3105 PDM. The fuse is accessible and replaceable via a side panel on the PDM. Recommended Fuses Overcurrent protection for the input and output modules on the island bus needs to be provided by a 5 A time-lag fuse such as the Wickmann 1951500000.
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Power Distribution Modules STB PDT 3105 Protective Earth Connection PE Contact for the Island Bus One of the key functions of a PDM, in addition to distributing sensor and actuator power to the I/O modules, is the provision of PE to the island. On the bottom of each STB XBA 2200 PDM base is a captive screw in a plastic block. By tightening this captive screw, you can make a PE contact with the DIN rail. Every PDM base on the island bus should make PE contact.
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Power Distribution Modules STB PDT 3105 Specifications Table of Technical Specifications 388 description basic 24 VDC power distribution module module width 18.4 mm (0.72 in) module height in its base 137.9 mm (5.43 in) PDM base STB XBA 2200 hot swapping supported no nominal logic power current consumption 0 mA I/O power bus voltage range 19.2 ...
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STB Module Bases 5 At a Glance Overview The physical communications bus that supports the island is constructed by interconnecting a series of base units and snapping them on a DIN rail. Different Advantys modules require different types of bases, and it is important that you install bases in the proper sequence as you construct the island bus. This chapter provides you with a description of each base type.
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Bases Advantys Bases Summary There are six different base units. When interconnected on a DIN rail, these bases form the physical backplane onto which the Advantys modules are mounted. This physical backplane also supports the transmission of power, communications and PE across the island bus. Base Models The table below lists the bases by model number, size and types of Advantys modules that they support. Base Model Width Modules Supported STB XBA 1000 (see p. 391) 13.9 mm (0.
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Bases STB XBA 1000 I/O Base Summary The STB XBA 1000 I/O base is 13.9 mm (0.58 in) wide. It provides the physical connections for a size 1 input or output module on the island bus. These connections let you communicate with the NIM over the island bus and hot swap the module when the island bus is operational.
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Bases The Label Tab A label can be positioned on the tab shown above in item 1. The label helps identify the specific module that will reside at this base unit’s island bus location. A similar label can be placed on the module itself so that they can be matched up properly during the island installation. Labels are provided on an STB XMP 6700 marking label sheet, which can be ordered from your Schneider Electric service provider.
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Bases The Lock/ Release Latch The latch in the center front of the STB XBA 1000 base has two positions, as shown below: Release position Lock position The latch needs to be in release position while the base is being inserted on the DIN rail and when it is being removed from the DIN rail. It needs to be in lock position when the base has been pushed and snapped into place on the rail before the module is inserted into the base.
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Bases The Field Power Distribution Contacts The five contacts located in a column at the bottom of the STB XBA 1000 I/O base provide field power and a protective earth (PE) connections to the I/O module: 1 2 3 4 5 Field power (sensor power for inputs and actuator power for outputs) is distributed across the island bus to the STB XBA 1000 bases by a PDM: Contacts Signals 1 and 2 when the module inserted in the base has input channels, contacts 1 and 2 deliver sensor bus power to the module 3 and 4
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Bases STB XBA 2000 I/O Base Summary The STB XBA 2000 I/O base is 18.4 mm (0.72 in) wide. It provides the physical connections for a size 2 input or output module on the island bus. These connections let you communicate with the NIM over the island bus and hot swap the module when the island bus is operational.
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Bases The Label Tab A label can be positioned on the tab shown above in item 1. The label helps identify the specific module that will reside at this base unit’s island bus location. A similar label can be placed on the module itself so that they can be matched up properly during the island installation. Labels are provided on an STB XMP 6700 marking label sheet, which can be ordered from your Schneider Electric service provider.
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Bases The Lock/ Release Latch The latch in the center front of the STB XBA 2000 base has two positions, as shown below: Release position Lock position The latch needs to be in release position while the base is being inserted on the DIN rail and when it is being removed from the DIN rail. It needs to be in lock position when the base has been pushed and snapped into place on the rail before the module is inserted into the base.
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Bases The Field Power Distribution Contacts The five contacts located in a column at the bottom of the STB XBA 2000 base provide AC or DC field power and a protective earth (PE) connections to the I/O module.
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Bases STB XBA 2200 PDM Base Summary The STB XBA 2200 PDM base is 18.4 mm (0.72 in) wide. It is the mounting connection for any PDM(s) on the island bus. It allows you to easily remove and replace the module from the island for maintenance. It also enables the PDM to distribute sensor bus power to input modules and actuator power to output modules in the voltage group of I/O modules supported by that NIM. A plastic block at the bottom of the base houses a PE captive screw (see p.
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Bases The Label Tab A label can be positioned on the tab shown above in item 1 to help identify the module that will reside at this base unit’s island bus location. A similar label can be placed on the PDM itself so that they can be matched up properly during the island installation. Labels are provided on an STB XMP 6700 marking label sheet, which can be ordered at no charge from your Scneider Electric service provider.
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Bases The Lock/ Release Latch The latch in the center front of the STB XBA 2200 base has two positions, as shown below: Release position Lock position The latch needs to be in release position while the base is being inserted on the DIN rail and when it is being removed from the DIN rail. It needs to be in lock position when the base has been pushed and snapped into place on the rail before the module is inserted into the base.
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Bases Protective Earth One of the key functions of a PDM, in addition to distributing sensor and actuator power to the I/O modules, is the provision of protective earth to the island. PE is essentially a return line across the bus for fault currents generated at a sensor or actuator device in the control system.
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Bases The Protective Earth Connection PE Contact for the Island One of the key functions of a PDM, in addition to distributing sensor and actuator power to the I/O modules, is the provision of protective earth (PE) to the island. On the bottom of each STB XBA 2200 PDM base is a captive screw in a plastic block. By tightening this captive screw, you can make a PE contact with the island bus. Every PDM base on the island bus should make PE contact.
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Bases 404 31007715 6/2008 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Appendices Overview IEC Symbols This appendix illustrates the IEC symbols used in the field wiring examples in this book and some of the installation examples in the Advantys STB Planning and Installation Guide (890 USE 171). What's in this Appendix? The appendix contains the following chapters: Chapter A 31007715 6/2008 Chapter Name IEC Symbols Page 407 405 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Appendices 406 31007715 6/2008 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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IEC Symbols A IEC Symbols Introduction The following table contains illustrations and definitions of the common IEC symbols used in describing the Advantys STB modules and system.
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IEC Symbols Symbol Definition four-wire digital sensor/input + IN PE analog voltage sensor + U - analog current sensor + I - thermocouple element + fuse VAC power ~ VDC power + - - + earth ground 408 31007715 6/2008 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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Glossary ! 100Base-T An adaptation of the IEEE 802.3u (Ethernet) standard, the 100Base-T standard uses twisted-pair wiring with a maximum segment length of 100 m (328 ft) and terminates with an RJ-45 connector. A 100Base-T network is a baseband network capable of transmitting data at a maximum speed of 100 Mbit/s. "Fast Ethernet" is another name for 100Base-T, because it is ten times faster than 10Base-T. 10Base-T An adaptation of the IEEE 802.
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Glossary analog output A module that contains circuits that transmit an analog DC signal proportional to a digital value input to the module from the processor. By implication, these analog outputs are usually direct. That means a data table value directly controls the analog signal value. application object In CAN-based networks, application objects represent device-specific functionality, such as the state of input or output data.
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Glossary BOS BOS stands for beginning of segment. When more than 1 segment of I/O modules is used in an Island, an STB XBE 1200 or an STB XBE 1300 BOS module is installed in the first position in each extension segment. Its job is to carry Island bus communications to and generate logic power for the modules in the extension segment. Which BOS module must be selected depends on the module types that shall follow. bus arbitrator A master on a Fipio network.
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Glossary CRC cyclic redundancy check. Messages that implement this error checking mechanism have a CRC field that is calculated by the transmitter according to the message’s content. Receiving nodes recalculate the field. Disagreement in the two codes indicates a difference between the transmitted message and the one received. D DDXML Device Description eXtensible Markup Language device name A customer-driven, unique logical personal identifier for an Ethernet NIM.
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Glossary E economy segment A special type of STB I/O segment created when an STB NCO 1113 economy CANopen NIM is used in the first location. In this implementation, the NIM acts as a simple gateway between the I/O modules in the segment and a CANopen master. Each I/O module in an economy segment acts as a independent node on the CANopen network. An economy segment cannot be extended to other STB I/O segments, preferred modules or enhanced CANopen devices. EDS electronic data sheet.
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Glossary EtherNet/IP EtherNet/IP (the Ethernet Industrial Protocol) is especially suited to factory applications in which there is a need to control, configure, and monitor events within an industrial system. The ODVA-specified protocol runs CIP (the Common Industrial Protocol) on top of standard Internet protocols, like TCP/IP and UDP.
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Glossary function code A function code is an instruction set commanding 1 or more slave devices at a specified address(es) to perform a type of action, e.g., read a set of data registers and respond with the content. G gateway A program or hardware that passes data between networks. global_ID global_identifier. A 16-bit integer that uniquely identifies a device’s location on a network. A global_ID is a symbolic address that is universally recognized by all other devices on the network.
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Glossary I/O module In a programmable controller system, an I/O module interfaces directly to the sensors and actuators of the machine/process. This module is the component that mounts in an I/O base and provides electrical connections between the controller and the field devices. Normal I/O module capacities are offered in a variety of signal levels and capacities.
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Glossary input response time The time it takes for an input channel to receive a signal from the field sensor and put it on the Island bus. INTERBUS protocol The INTERBUS fieldbus protocol observes a master/slave network model with an active ring topology, having all devices integrated in a closed transmission path. IOC object Island operation control object. A special object that appears in the CANopen object dictionary when the remote virtual placeholder option is enabled in a CANopen NIM.
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Glossary LSB least significant bit, least significant byte. The part of a number, address, or field that is written as the rightmost single value in conventional hexadecimal or binary notation. MAC address media access control address. A 48-bit number, unique on a network, that is programmed into each network card or device when it is manufactured.
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Glossary NMT network management. NMT protocols provide services for network initialization, error control, and device status control. object dictionary Part of the CANopen device model that provides a map to the internal structure of CANopen devices (according to CANopen profile DS-401). A device’s object dictionary (also called the object directory) is a lookup table that describes the data types, communications objects, and application objects the device uses.
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Glossary PE protective earth. A return line across the bus for fault currents generated at a sensor or actuator device in the control system. peer-to-peer communications In peer-to-peer communications, there is no master/slave or client/server relationship. Messages are exchanged between entities of comparable or equivalent levels of functionality, without having to go through a third party (like a master device). PLC programmable logic controller.
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Glossary Profibus DP Profibus Decentralized Peripheral. An open bus system that uses an electrical network based on a shielded 2-wire line or an optical network based on a fiber-optic cable. DP transmission allows for high-speed, cyclic exchange of data between the controller CPU and the distributed I/O devices. reflex action A simple, logical command function configured locally on an Island bus I/O module.
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Glossary SAP service access point. The point at which the services of 1 communications layer, as defined by the ISO OSI reference model, is made available to the next layer. SCADA supervisory control and data acquisition. Typically accomplished in industrial settings by means of microcomputers. SDO service data object. In CAN-based networks, SDO messages are used by the fieldbus master to access (read/write) the object directories of network nodes.
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Glossary slice I/O An I/O module design that combines a small number of channels (usually between 2 and 6) in a small package. The idea is to allow a system developer to purchase just the right amount of I/O and to be able to distribute it around the machine in an efficient, mechatronics way. SM_MPS state management_message periodic services. The applications and network management services used for process control, data exchange, error reporting, and device status notification on a Fipio network.
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Glossary subnet A part of a network that shares a network address with the other parts of a network. A subnet may be physically and/or logically independent of the rest of the network. A part of an internet address called a subnet number, which is ignored in IP routing, distinguishes the subnet. surge suppression The process of absorbing and clipping voltage transients on an incoming AC line or control circuit.
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Glossary VPCW object virtual placeholder configuration write object. A special object that appears in the CANopen object dictionary when the remote virtual placeholder option is enabled in a CANopen NIM. It provides a 32-bit subindex where the fieldbus master can write a module reconfiguration. After the fieldbus writes to the VPCW subindex, it can issue a reconfiguration request to the NIM that begins the remote virtual placeholder operation.
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Glossary 426 31007715 6/2008 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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B AC Index A Actuator bus contacts on the I/O bases, 34 actuator bus contacts on an STB XBA 1000 I/O base, 394 on an STB XBA 2000 I/O base, 398 agency approvals, 36 AM1DP200 DIN rail, 21 analog input modules STB ACI 0320, 80 STB ACI 1225, 100 STB ACI 1230, 111 STB ACI 1400, 174 STB ACI 8320, 129 STB ART 0200, 149 STB AVI 0300, 221 STB AVI 1255, 40 STB AVI 1270, 51 STB AVI 1275, 69 STB AVI 1400, 195 analog output modules STB ACO 0120, 332 STB ACO 1210, 304 STB ACO 1225, 320 STB AVO 0200, 349 STB AVO 1250,
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Index cold-junction compensation STB ART 0200 analog input module, 163 D data register STB ACI 0320 analog input module, 94 STB ACI 1225 analog input module, 109 STB ACI 1230 analog input module, 125 STB ACI 1400 analog input module, 189 STB ACI 8320 analog input module, 143 STB ACO 0120 analog output module, 344 STB ACO 0220 analog output module, 299 STB ACO 1210 analog output module, 315 STB ACO 1225 analog output module, 329 STB AVI 0300 analog input module, 236 STB AVI 1255 analog input module, 49 STB
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Index on the STB ACI 1230 analog input module, 116 on the STB ACI 1400 analog input module, 179 on the STB ACI 8320 analog input module, 134 on the STB ACO 0120 analog output module, 337 on the STB ACO 0220 analog output module, 293 on the STB ACO 1210 analog output module, 309 on the STB ACO 1225 analog output module, 324 on the STB ART 0200 analog input module, 154 on the STB AVI 0300 analog input module, 226 on the STB AVI 1255 analog input module, 44 on the STB AVI 1270 analog input module, 56 on the S
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Index L labels for Advantys modules and bases, 392, 396 for STB modules and bases, 400 LED on the STB AVI 1255 analog input module, 43 on the STB AVI 1275 analog input module, 72 LEDs on the STB ACI 0320 analog input module, 83 on the STB ACI 1225 analog input module, 103 on the STB ACI 1230 analog input module, 114 on the STB ACI 1400 analog input module, 177 on the STB ACI 8320 analog input module, 132 on the STB ACO 0120 analog output module, 335 on the STB ACO 0220 analog output module, 291 on the STB
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Index STB ACO 1225 analog output module, 327 STB AVI 1255 analog input module, 47 STB AVI 1270 analog input module, 76 STB AVO 0200 analog output module, 356 STB AVO 1255 analog output module, 271 STB AVO 1265 analog output module, 283 operating range STB ACI 0320 analog input module, 87 STB ACI 1400 analog input module, 187 STB ACI 8320 analog input module, 136 STB AVI 0300 analog input module, 234 STB AVI 1400 analog input module, 210 output currents for the STB ACO 1225 analog output module, 327 output
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Index STB AVO 0200 analog output module, 365 STB AVO 1250 analog output module, 262 STB AVO 1255 analog output module, 274 STB AVO 1265 analog output module, 286 STB ACI 1400 analog input module, 193 STB AVI 0300 analog input module, 243 STB AVI 1400 analog input module, 219 status register STB ACI 0320 analog input module, 97 STB ACI 1230 analog input module, 126 STB ACI 1400 analog input module, 192 STB ACI 8320 analog input module, 146 STB ACO 0120 analog output module, 346 STB ACO 0220 analog output mo
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Index STB ACO 0120 analog input module wiring diagram without isolation, 338 STB ACO 0120 analog output module analog output period, 341 data registers, 344 fallback modes, 342 fallback states, 343 field wiring, 337 front panel view, 333 LED indicators, 335 loop power supplies, 340 operating parameters, 341 power supplies, 340 status registers, 346 technical specifications, 347 STB ACO 0220 analog input module wiring diagram without isolation, 294 STB ACO 0220 analog output module analog output period, 296
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Index STB AVI 1270 analog input module averaging, 63 data registers, 64 field wiring, 56 front panel view, 52 LED indicator, 54 offset and max count, 59 operating parameters, 76 status registers, 66 technical specifications, 67 user-configurable parameters, 59 wiring diagram with isolation, 57 wiring diagram without isolation, 58 STB AVI 1275 analog input module data registers, 78 field wiring, 73 front panel view, 70 LED indicator, 72 technical specifications, 79 wiring diagram with isolation, 74 wiring d
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Index STB AVO 1265 analog output module configurable fallback states, 283 configurable output voltages, 283 data registers, 285 field wiring, 280 front panel view, 277 LED indicator, 279 operating parameters, 283 technical specifications, 286 wiring diagram with isolation, 281 STB PDT 3100 DC power distribution module front panel view, 369 LED indicators, 372 STB PDT 3100 power distribution module power wiring, 373 wiring diagram, 374 STB PDT 3105 DC power distribution module front panel view, 381 STB PDT
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Index on the STB ACI 1230 analog input module, 116 on the STB ACI 1400 analog input module, 179 on the STB ACI 8320 analog input module, 134 on the STB ACO 0120 analog output module, 337 on the STB ACO 0220 analog output module, 293 on the STB ACO 1225 analog output module, 324 on the STB ART 0200 analog input module, 154 on the STB AVI 0300 analog input module, 226 on the STB AVI 1255 analog input module, 44 on the STB AVI 1270 analog input module, 56 on the STB AVI 1275 analog input module, 73 on the STB
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Index W watchdog, 425 wiring diagrams on the STB ACI 0320 analog input module, 86 on the STB ACI 1225 analog input module, 105 on the STB ACI 1230 analog input module, 117 on the STB ACI 1400 analog input module, 180, 181 on the STB ACI 8320 analog input module, 135 on the STB AVI 0300 analog input module, 227 on the STB AVI 1400 analog input module, 201, 202 wiring type STB ART 0200 analog input module, 163 31007715 6/2008 437 Artisan Technology Group - Quality Instrumentation ...
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Index 438 31007715 6/2008 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.
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