Rockwell Automation Allen-Bradley RediPANEL 2705 User Manual
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Rockwell Automation Allen-Bradley RediPANEL 2705 User Manual

Rockwell Automation Allen-Bradley RediPANEL 2705 User Manual

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  • Page 1 sales@artisantg.com artisantg.com (217) 352-9330 | Click HERE Find the Rockwell / Allen-Bradley 2705-K11C1 at our website:...
  • Page 2 Allen-Bradley User Bulletin 2705 RediPANEL Manual Keypad Modules (Cat. Nos. 2705-K11C1, -K11C2, -K12C2, -K12C3, -K12C4) Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...
  • Page 3 Important User Information Solid state equipment has operational characteristics differing from those of electromechanical equipment. “Safety Guidelines for the Application, Installation and Maintenance of Solid State Controls” (Publication SGI-1.1) describes some important differences between solid state equipment and hard–wired electromechanical devices. Because of this difference, and also because of the wide variety of uses for solid state equipment, all persons responsible for applying this equipment must satisfy themselves that each intended application of this equipment is acceptable.
  • Page 4 Table of Contents RediPANEL Keypad Modules User Manual A–B Using this Manual Chapter 1 Chapter Objectives ......... 1–1 What this Manual Contains .
  • Page 5 Table of Contents RediPANEL Keypad Module User Manual Selecting Options Chapter 5 Chapter Objectives 5–1 DIP Switches 5–1 Typical Switch Settings 5–2 Setting Switch Bank #1 5–2 Setting Switch Bank #2 5–4 Setting Switch Bank #3 5–5 Operating Modes Chapter 6 Chapter Objectives 6–1 Keypad Output Display...

  • Page 6: Table Of Contents

    Table of Contents RediPANEL Keypad Module User Manual Instruction Parameters 7–12 Programming Example 7–13 Programming Example 7–15 PLC–2 Programming Example 7–16 PLC–2 Example Program 7–17 Program Set–up 7–19 Part A: Changing and Examining Accumulated Value of Counter for PLC–2 7–21 Part B: Changing and Examining Preset Value of Counter for PLC–2 7–22...
  • Page 7 Chapter Using this Manual Chapter Objectives This chapter describes the manual’s organization, intended audience, and special terminology. What this Manual Contains This manual describes the equipment, communication protocol, command structure, installation, operation, troubleshooting, and specifications for the Allen–Bradley Bulletin 2705 RediPANEL Keypad Modules (Catalog Numbers: 2705–K11C1, –K11C2, –K12C2, –K12C3, –K12C4).
  • Page 8 Chapter 1 Using this Manual Audience To get maximum benefit from this manual and the best use of the Bulletin 2705 Keypad Module in your system, you must be able to operate and program an Allen–Bradley Programmable Logic Controller (PLC) or Small Logic Controller (SLC).
  • Page 9 Chapter A–B Product Introduction Chapter Objectives This chapter describes the features, functions and operation of the Bulletin 2705 RediPANEL Keypad Module. Features The Bulletin 2705 RediPANEL Keypad Module is an operator module that connects directly to an Allen–Bradley PLC via the remote I/O link. It provides the capability for operators to input data to and retrieve data from the PLC.
  • Page 10 Chapter 2 Product Introduction Applications The Keypad Module combines the functions of standard thumbwheel or push button devices with the built–in capabilities of a remote I/O rack. The Keypad Module communicates directly with the programmable controller via the Remote I/O link. You can install a 2705 module anywhere along that link.
  • Page 11 Chapter 2 Product Introduction Operator Data Input The 2705 RediPANEL Keypad Module features a numeric keypad with DELETE, ENTER, decimal and polarity keys. Using the keypad, operators can enter up to eight (8) digits (seven digits for signed numbers), which appear on the right side of the 16 character display.
  • Page 12 Chapter 2 Product Introduction 2) A combination of ASCII and numeric data. Up to 8 characters of ASCII data are displayed on the left side of the display and 8 digits of numeric data are displayed on the right side of the display. This allows you to label numeric data with text.
  • Page 13 Chapter A–B Installing the Bulletin 2705 Keypad Module Chapter Objectives This chapter lists electrical precautions and power and grounding requirements for installing the Bulletin 2705 RediPANEL Keypad Module. Topics also include selecting NEMA enclosures, the mechanical installation of the module, and connecting to remote I/O links and to scanner modules. Electrical Precautions Install the Bulletin 2705 Keypad Module using publication NFPA 70E,Electrical Safety Requirements for Employee Workplaces.
  • Page 14 Chapter 3 Installing the Bulletin 2705 Keypad Module Grounding Grounding is an important safety measure in electrical installations. With solid state systems, as we mentioned before, grounding also helps to limit the effect of noise due to EMI (electromagnetic interference). An authoritative source on grounding requirements is the National Electrical Code published by the National Fire Protection Association of Boston, Massachusetts.
  • Page 15 Chapter 3 Installing the Bulletin 2705 Keypad Module Figure 3.1 shows recommended spacing for modules inside the NEMA enclosure. Figure 3.1 Spacing for Modules inside the NEMA Enclosure Recommended spacing: A= 6“ (15cm) from lower edge of top cutout to upper edge of lower cutout B= 1“...
  • Page 16 Chapter 3 Installing the Bulletin 2705 Keypad Module To install the module, follow these guidelines: Step 1 - Cut an opening in the panel approximately 5.86” (149mm) H x 8.61” (219mm) W. See Figure 3.3. Figure 3.3 Mounting Dimensions of the Module Step 2 - Drill six 0.312”...
  • Page 17 Chapter 3 Installing the Bulletin 2705 Keypad Module Step 4 - To complete the mechanical installation, apply the mounting brackets and tighten all the captive knurled thumbscrews to 5 in–lbs. only. A torque screwdriver is recommended for this operation. Figure 3.4 shows the location of these screws. Figure 3.4 Mounting Bracket Thumbscrews Connecting to a Remote I/O Link...
  • Page 18 Chapter 3 Installing the Bulletin 2705 Keypad Module Connecting a Scanner Module Connect the Keypad Module to the scanner module with Allen–Bradley I/O cable (Catalog No. 1770–CD) or Belden #9463. Refer to Publication 1770–4.1 for detailed grounding and wiring guidelines. The user’s manual or product data sheet for your scanner module will also provide cabling information.
  • Page 19 Chapter A–B Configuring the Bulletin 2705 Keypad Module with PLC Controllers Chapter Objectives This chapter lists compatibility considerations for operating the Bulletin 2705 RediPANEL Keypad Module with programmable controllers via the remote I/O link. Topics also include the remote I/O architecture and factors in calculating rack size.
  • Page 20 Chapter 4 Configuring the Bulletin 2705 Keypad Modules with PLC Controllers Remote I/O Architecture The following diagrams show applications using the Bulletin 2705 Keypad Module in systems using applicable PLC’s and scanners. Figure 4.1 Keypad Module with Mini–PLC (PLC–2/05, PLC–2/15, PLC–2/16, PLC–2/17) Keypad Ë...
  • Page 21 Chapter 4 Configuring the Bulletin 2705 Keypad Module with PLC Controllers Remote I/O Architecture (continued) Figure 4.3 Keypad Module with PLC–3 Keypad Ë Ë Ë Ë Ë Ë Ë Ë Ë Ë Scanner Module PLC–3 1775–S4A or 1775–S5 or Keypad 1775–S4B Ë...
  • Page 22 Chapter 4 Configuring the Bulletin 2705 Keypad Modules with PLC Controllers Figure 4.5 Keypad Module with PLC–5/15, 5/25 Keypad Ë Ë Ë Ë Ë PLC–5/15 PLC–5/25 Scanner Port Keypad 1785 Ë Ë Ë Ë Ë Figure 4.6 Keypad Module with any PLC–5 and Sub–Scanner Keypad Ë...
  • Page 23 Chapter 4 Configuring the Bulletin 2705 Keypad Module with PLC Controllers Figure 4.7 Keypad Module with SLC–5/02 Keypad Ë Ë Ë Ë Ë Ë Ë Ë Ë Ë Scanner SLC–5/02 Port 1747–SN Keypad Ë Ë Ë Ë Ë Compatible PLC Controllers and The Bulletin 2705 Keypad Module is compatible with all Allen–Bradley Scanners scanners that support remote I/O.
  • Page 24 Chapter 4 Configuring the Bulletin 2705 Keypad Modules with PLC Controllers Table 4.B Applicable Programmable Controllers Requiring 1771-SN Sub-scanner* Catalog Number Description Related Pub. No. Mini–PLC–2/05 1772–6.8.6 1772–LS, LSP 1772–LV Mini–PLC–2/15 1772–6.8.2 1772–LX, LXP Mini–PLC–2/16 1772–2.26 1772–LW, LWP Mini–PLC–2/17 1772–2.25 1772–LN Mini–PLC–2 1772–6.8.4...
  • Page 25 Chapter 4 Configuring the Bulletin 2705 Keypad Module with PLC Controllers Calculating Rack Size The 2705 Keypad Module can be configured for any of four rack sizes: , and a full rack. Rack sizes relate to the amount of I/O accessible to each rack: 32 I/O bits or points for rack, 64 for rack, 96 for...
  • Page 26 Chapter 4 Configuring the Bulletin 2705 Keypad Modules with PLC Controllers Remote I/O Configuration Once you have selected the appropriate scanner for the PLC controller, Table 4.E below lists how many separate chassis the scanner can support and how much I/O it can address. For any given application, the total of all the I/O used by each device (I/O rack, drive system, or RediPANEL Module) connected to the cable gives the amount of full racks of I/O being supported by the scanner or sub–scanner...
  • Page 27 Chapter A–B Selecting Options Chapter Objectives This chapter describes DIP switch location and functions on the Bulletin 2705 RediPANEL Keypad Module. It also lists the switch bank settings for selecting function and configuration options. DIP Switches See Figure 5.1 to identify the Keypad Module switch banks. Figure 5.1 Switch Bank Location and Functions on Bulletin 2705 Keypad Module Switch bank #1 (SW–1) sets the rack address.
  • Page 28 Chapter 5 Selecting Options Typical Switch Settings The following figures show examples of DIP switch settings. Figure 5.2 illustrates the “ON” and “OFF” positions of the DIP switches. Figure 5.2 Setting DIP Switches Setting Switch Bank #1 Figure 5.3 gives functions and settings for Switch Bank #1. Notice that the rack address settings apply only to PLC–2 or any other PLC usung a 1771–SN Sub I/O Scanner Module.
  • Page 29 Chapter 5 Selecting Options Figure 5.4 lists the rack address settings on Switch Bank #1 for PLC–3, PLC–5/15, PLC–5/25 and SLC–5/02 controllers. Figure 5.4 Setting Switch Bank #1 for PLC–3, PLC–5/15, PLC–5/25 and SLC–5/02. Specifying Rack Address for PLC–3 or PLC–5 I/O Rack Switch Settings I/O Rack...
  • Page 30 Chapter 5 Selecting Options Setting Switch Bank #2 Figure 5.5 gives the switch functions and settings for switch bank #2. Figure 5.5 Setting Switch Bank #2 Figure 5.5 Setting Switch Bank BAUD RATE 57.6K 1–ON 2–ON 115.2K 1–OFF 2–ON 230.4K 1–ON 2–OFF 1–OFF...
  • Page 31 Chapter 5 Selecting Options Setting Switch Bank #3 Figure 5.6 gives the switch functions and settings for Switch Bank #3. These Figure 5.5 switch bank #3 settings are for all PLC’s. Setting Switch Bank #2 Figure 5.6 Setting Switch Bank RACK SIZE 1–ON 2–ON...
  • Page 32 Chapter A–B Operating Modes Chapter Objectives This chapter describes the operating modes of the Bulletin 2705 RediPANEL Keypad Module. Topics include: PLC output display of numeric and ASCII data and 16–character messages Data entry, decimal modes, split display data entry Message entering, storing and editing Destination entry Keypad Output Display...
  • Page 33 Chapter 6 Operating Modes Numeric Data Numeric data appears on the right–hand side of the display in the eight right–most character positions. These positions display eight digits (seven for negative numbers). The decimal point, if used, does not require an additional character position.
  • Page 34 Chapter 6 Operating Modes Data Entry The Keypad Module offers a standard numeric keypad interface with a polarity (minus sign) key and a decimal point as shown in Figure 6.2. Additional features are DELETE and ENTER keys, and six programmable function keys with LED’s.
  • Page 35 Chapter 6 Operating Modes To enter data you must first key in the desired numbers using the numeric keypad. The data will appear on the right hand side of the display as the numbers are being keyed. To complete data entry you must press the ENTER key.
  • Page 36 Chapter 6 Operating Modes Figure 6.3 Display for Destination Entry The keypad operator starts by pressing the ENTER key. The present destination is displayed between the >>––––>> symbols as shown in Figure 6.3. The flashing >> symbol prompts the operator for a new destination number, followed by another ENTER keystroke.
  • Page 37 Chapter 6 Operating Modes The Message Editor inside the module is accessed by the keyboard when any key is depressed. A prompt appears on the display to begin the editing process. The Message Editor contains commands to create, edit and save single line, 16–character alphanumeric messages.
  • Page 38 Chapter 6 Operating Modes Entering Messages The procedure for entering messages into the module is interactive: Step 1 - Remove power before plugging keyboard into the module. Step 2 - Depress any key to enter the edit mode. Step 3 - The module asks you for a message number: Step 4 - Type a message number (1 to 120) and depress ENTER or depress ENTER to edit message number displayed.
  • Page 39 Chapter 6 Operating Modes Editing Commands The editing commands are single key strokes: Left arrow ( ) Move cursor one position to the left. Right arrow( ) Move cursor one position to the right. Down arrow( ) Decrement number of message to be created or edited.
  • Page 40 Chapter A–B Programming Chapter Objectives This chapter describes the process of creating a program for the Bulletin 2705 RediPANEL Keypad module. The detailed listing of the program example explains the ladder logic programming. Introduction Of Programming Applications for the Keypad Module are programmed in the Allen–Bradley with the Keypad Module PLC controller.
  • Page 41 Chapter 7 Programming PLC-5 Programming Examples The PLC–5 programming examples given on the following pages are based on the system configuration listed below. System Configuration Note – System configuration may vary for different applications. 1. A 1784–T45 Portable Terminal 2. A 1785–LT PLC–5/15 Processor (Ser. B Rev. H, Set for Scanner Mode) 3.
  • Page 42 Chapter 7 Programming Input and Output Image Tables Figure 7.1 below shows the Input and Output Image Tables for the system configuration described on Page 2. Figure 7.1 Integer Mode, 1/2 Rack with Stored Message Display Input Image Table MODULE INPUT RACK # GROUP...
  • Page 43 Chapter 7 Programming Displaying Numeric Data Figure 7.2 Rung 2:0 Function I:020 COUNT UP (CU) Counter C5:1 Preset (DN) Accum Rung 2:1 Function Source C5:1.ACC I:020 Dest 0:021 The program example in Figure 7.2 illustrates how the function key, F1, may be used just like a push button or other similar input type device.
  • Page 44 Chapter 7 Programming Triggering a Stored Message to The Keypad Module is not only capable of displaying numeric data, but also Describe Data alphanumeric messages to describe that data. These messages may be stored in the programmable controller and sent to the Keypad Module via ASCII code, or store up to 120 messages in the Keypad Module and trigger them according to their message number.
  • Page 45 Chapter 7 Programming Rung 2:2 shows how the same input, F1, which is used to move the accumulated value of the counter to the Keypad display, can also trigger a stored message. The MOVE instruction in rung 2:2, moves the constant 1 to 0:022, the word in the output image table where the Stored Message Display (SMD) number is sent to the Keypad Module.
  • Page 46 Chapter 7 Programming In Figure 7.4, function key F3 is used to initiate a MOVE instruction. The MOVE instruction, moves the constant 3 to the Keypad module’s stored message word 0:022. This in turn triggers stored message number 3 “16 CHARACTER MSG.”...
  • Page 47 Chapter 7 Programming Figure 7.5 Rung 2:5 Enter I:020 Source I:021 Dest C5:1.PRE Rung 2:6 Function I:020 Source Dest 0:022 Enter I:020 Source C5:1.PRE Dest 0:021 In the example shown in Figure 7.5, rung 2:5 is used to move the value from the input image table, I:021, to counter C5.1 preset, each time the Enter key is pressed.
  • Page 48 Chapter 7 Programming Using the Destination Function The keypad destination function can be used to load data values into multiple to Load Multiple Timer Presets timer/counter presets or other PLC memory locations. The example program listed below can be used to load preset values into 17 consecutive timer presets, beginning with T4:0.PRE and ending with T4:16.PRE.
  • Page 49 Chapter 7 Programming Rungs 3–16: Would appear the same but with different timer/destination bit addresses. Rung 17: Destination bit I:024/00 is “ON” when the keypad operator enters destination number “17”. All other destination bits are “OFF”. The ENTER bit I:020/16 prevents data from being moved until the keypad operator enters a new preset for T4:16.
  • Page 50 Chapter 7 Programming Using PLC-5 Controllers and a A 1771–SN, Sub I/O scanner may be used with a PLC–5 family processor Sub I/O Scanner with Keypad when the application requires more remote devices than that processor can Modules accommodate. The sub I/O scanner module may be used to communicate to as many as 16 additional remote I/O devices.

  • Page 51: Instruction Parameters

    Chapter 7 Programming The ladder diagram in Figure 7.6 is a simple programming example showing Bidirectional Block Transfers between a sub I/O scanner and PLC–5. Figure 7.6 PLC–5 Block Transfer Read from Sub–Scanner to the PLC–5. Enable Bit Enable Bit N10:0 N10:5 ] / [...

  • Page 52: Programming Example

    Chapter 7 Programming be reflected in this file. Therefore, all your input or output addresses for these remote devices will be elements of this file. LENGTH is the number of words the sub I/O scanner is transferring. The number entered will be equal to 8 words (reserved for sub I/O scanner utility functions) plus 2 words for each 1/4 rack of I/O the sub I/O scanner will be communicating with.
  • Page 53 Chapter 7 Programming Figure 7.7 PLC–5/15 and Sub I/O Scanner Programming Example 1771–SN (Sub I/O Scanner) 1771 5/15 1771 1771 1771–I/O 1771–I/O 1771–I/O 1771–I/O (Remote 1) (Remote 2) (Remote 3) (Local Rack 0) Keypad Module Remote Rack 1 Starting Module Group 0 1/2 Rack N10:0 N10:5...
  • Page 54 Chapter 7 Programming In the programming example shown in Figure 7.7, you’ll notice the length has been set for (12), 8 words for the block transfer utility functions and 4 words for the Keypad Modules configured for 1/2 rack. The DATA FILE for the block transfer read instruction begins at N11:0.

  • Page 55: Plc-2 Programming Example

    Chapter 7 Programming PLC-2 Programming Example The following pages contain a PLC–2 example program which utilizes many of the functions of the Keypad Module. Keep in mind that this program is simply an example - your applications may or may not fit this structure. The programming examples cover the following topics: Part A: Examining accumulated values of a counter Part B: Changing and examining preset values of a counter...
  • Page 56 Chapter 7 Programming PLC–2 Programming Example The example program below is explained on the following pages. We present the program here (and on the next page) in its entirety for your reference. Note – Block transfer is only required when using the 1771–SN sub I/Oscanner Block transfers allow communications between the sub–scanner and PLC.
  • Page 57 Chapter 7 Programming 0137 0412 0413 0515 0137 0312 0412 0137 0413 0413 0477 0412 0477 END 01107 The explanation of the example program begins on the next page. 7–18 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...

  • Page 58: Program Set-Up

    Chapter 7 Programming Program Set-up Rungs A, B and C set the program up: BLOCK XFER READ (EN) DATA ADDR: 0030 MODULE ADDR: BLOCK LENGTH FILE: 0200–0215 (DN) BLOCK XFER WRITE (EN) DATA ADDR: 0031 MODULE ADDR: BLOCK LENGTH FILE: 0400–0415 (DN) 0033...
  • Page 59 Chapter 7 Programming Figure 7.9 I/O Table for Sample Program: BCD Mode, Rack Input Image Table – – – – Dec. Pos. Word 310 BCD1 (MSD) BCD2 BCD3 BCD4 Word 311 BCD5 BCD6 BCD7 BCD8 (LSD) Word 312 Destination Word 313 Destination Bits Word 314 Destination Bits...

  • Page 60: Part A: Changing And Examining Accumulated Value Of Counter For Plc-2

    Chapter 7 Programming Part A: Changing and Examining Rungs 1–5 show a procedure for monitoring the accumulated value of Accumulated Value of Counter counter 037 using the Keypad Module: for PLC-2 0037 PR 500 AC 214 0037 0500 0500 0412 Rung 1: The input signal, function key F1, is programmed to increment counter 037.

  • Page 61: Part B: Changing And Examining Preset Value Of

    Chapter 7 Programming Part B: Changing and Examining Rungs 7–12 show a programming procedure that will allow you to change preset Value of Counter for the preset values of the counter that was being monitored in rungs 1–5. PLC-2 (Rung 6 and Rung 9 are for message recording, and will be explained later). 0137 0412 0137...

  • Page 62: Part C: Displaying A 16-Character Message For

    Chapter 7 Programming Part C: Displaying a Rungs 13 - 17 retrieve and display a message: 16–Character Message for PLC–2 0413 0511 Rung 13: When function key F6 is depressed, a number is retrieved from word 511 and put in the output image table location (413) reserved for a stored message number.

  • Page 63: Part D: Displaying Message And Variable Data

    Chapter 7 Programming Part D: Displaying Message and In Part A and B we learned how to examine information from the PLC by Variable Data Simultaneously for using the Keypad. In order to have an 8–character message work with the PLC-2 variable data a message number must be put into the stored message word of the output image table at the same time the variables appear on the keypad...

  • Page 64: Symbols And Abbreviations For I/O Image Tables

    Chapter 7 Programming Symbols and Abbreviations for The figures on the following pages show the input and output tables for the I/O Image Tables Keypad Module. The following symbols and abbreviations appear in the input and output tables. Refer to this list for identifying specific bits in the tables: “-”...

  • Page 65: Decimal Point Control

    Chapter 7 Programming Decimal Point Control Dec. Pos. DECimal POSition. The decimal position field holds a binary value (1–7) that is the number of positions to the right of the decimal point: Input Image table – Indicates the number of places to the right of the decimal point as numeric data is being entered.
  • Page 66 Chapter 7 Programming Figure 7.10 Example of Decimal Point Control Input Image Table - Integer Mode – – – – – Word 0 Output Image Table - Integer Mode – Word 0 Dec. Pos. Displayed data has 3 SDP is Entered data has 1 places to the right Enabled...

  • Page 67: When To Use The Handshake Mode

    Chapter 7 Programming When to Use the Handshake RediPANEL Modules have a standard TIMED feature that holds all push Mode button depressions for a minimum of 100 milliseconds to allow the PLC controller to read the depression during its scan cycle. No special programming is needed for this function.
  • Page 68 Chapter 7 Programming With the handshake feature enabled and the handshake rung in the user’s program, the RediPANEL module holds all function key input signals high for a minimum of one complete PLC program scan. It keeps the signal(s) high for one complete cycle of the handshake input bit. The handshake input and output signals will continuously toggle independent of any function key closures.

  • Page 69: Input And Output Image Tables

    Chapter 7 Programming Input and Output Image Tables Integer Data – With Stored Message and Full Rack Figure 7.13 Integer Mode, 1/2, 3/4 and Full Rack with Stored Message Display Input Image Table - Integer Mode – Dec. Pos. – – –...

  • Page 70: Bcd Data - With Stored Message

    Chapter 7 Programming Input and Output Image Tables BCD Data – With Stored Message and Full Rack Figure 7.14 BCD Mode, 3/4 and Full Rack with Stored Message Display Input Image Table - BCD Mode – – – – Dec. Pos. Word 0 BCD1 (MSD) BCD2...

  • Page 71: Binary Data - With Stored Message

    Chapter 7 Programming Input and Output Image Tables Binary Data – With Stored Message and Full Rack Figure 7.15 Binary Mode, 1/2, 3/4 and Full Rack with Stored Message Display Input Image Table - Binary Mode – – – – Dec.

  • Page 72: Integer Data - No Stored Message

    Chapter 7 Programming Input and Output Image Tables Integer Data – With Stored Message and Full Rack Figure 7.16 Integer Mode, 1/2, 3/4 and Full Rack Input Image Table - Integer Mode – – – – – Dec. Pos. Word 0 Integer Data Word 1 Destination...
  • Page 73 Chapter 7 Programming Input and Output Image Tables Integer Data – With Stored Message Rack Figure 7.17 Integer Mode, 1/4 Rack Input Image Table Dec. Pos. Destination Word 0 Integer Data Word 1 Output Image Table Dec. Pos. Word 0 Integer Data Word 1 7–34...
  • Page 74 Chapter 7 Programming Input and Output Image Tables Binary Data – With Stored Message and Full Rack Figure 7.18 BCD Mode, 3/4 and Full Rack Input Image Table - BCD Mode – – – – Dec. Pos. Word 0 BCD1 (MSD) BCD2 BCD3 BCD4...
  • Page 75 Chapter 7 Programming Input and Output Image Tables Binary Data – With Stored Message Rack Figure 7.19 BCD Mode, 1/4 Rack Input Image Table BCD1 (MSD) BCD2 Word 0 BCD3 BCD4 BCD5 BCD6 (LSD) Word 1 Output Image Table BCD1 (MSD) BCD2 Word 0 BCD3...

  • Page 76: Binary Data - No Stored Message

    Chapter 7 Programming Input and Output Image Tables Binary Data – No Stored Message and Full Rack Figure 7.21 Binary Mode, 1/2, 3/4 and Full Rack Input Image Table - Binary Mode – – – – Dec. Pos. Word 0 Binary Data Word 1 Destination...
  • Page 77 Chapter 7 Programming Input and Output Image Tables Binary Data – No Stored Message Rack Figure 7.22 Binary Mode, 1/4 Rack Input Image Table Dec. Pos. Destination Word 0 Binary Data Word 1 Output Image Table Dec. Pos. Word 0 Binary Data Word 1 7–38...
  • Page 78 Chapter 7 Programming SLC–5/02 Programming In the following example, a Bulletin 2705 RediPANEL displays stored Example messages. An alarm, connected to an output module, signals when communications with the RediPANEL are lost. The system consists of: SLC–5/02 Processor (Catalog No. 1747–L524) in slot 0 Remote I/O Scanner (Catalog No.
  • Page 79 Chapter 7 Programming The scanner input file is shown below. The output file is similar, it is addressed O:1.0 to O:1.3. Bit Number Input File Rack 0 Group 0 Word 1 I:1.0 Rack 0 Group 1 Word 1 I:1.1 Rack 0 Group 2 Word 2 I:1.2 Rack 0 Group 3...
  • Page 80 Chapter 7 Programming Address Conversion The addresses for the Input and Output files are provided in an octal format. You must convert the bit addresses to decimal to accommodate the SLC–5/02. Refer to the following. Bit Address Decimal SLC–5/02 Octal PLC–5 Scanner Configuration The BAUD rate is 115.2K.
  • Page 81 Chapter 7 Programming Example Program The example program is shown below. Each time a function key is pressed on the RediPANEL, its associated message is displayed. This program also monitors the scanner’s Enabled Device Fault bit (M1:1.0/0). If communications are lost, an alarm is activated. If the communications attempted and Enabled MASKED EQUAL...

  • Page 82: Maintenance And

    Chapter A–B Maintenance and Troubleshooting Chapter Objectives This chapter describes how to use the Comm/Fault LED indicators, and explains the power–up sequence error message display, plus addresses basic troubleshooting questions on the RediPANEL Keypad Module. Using the Comm/Fault LED Two LED indicators are located on the right top corner of the module - Indicators a green LED labeled COMM and a red LED labeled FAULT.

  • Page 83: Power-Up Sequence Error Message Display

    Chapter 8 Maintenance and Troubleshooting The COMM Indicator Any communication faults or errors are indicated by the green LED labeled COMM. The LED can be in one of three states: 1. OFF 2. ON 3. Blinking COMM OFF When COMM indicator is OFF: 1.
  • Page 84 Chapter 8 Maintenance and Troubleshooting Have you changed the settings of any of the DIP switches? New DIP switch settings will not be acknowledged until power is recycled. Refer to Chapter 5. If you do not have the communications LED ON and all of your DIP switches seem correct –...

  • Page 85: Specifications

    Chapter A–B Specifications Chapter Objectives This chapter lists the specifications for the Bulletin 2705 Keypad Module. Specifications FUNCTION Provides keypad interface for data entry and display in Remote I/O Serial Data Link. POWER AND ENVIRONMENTAL Power Supply: Integral power supply in each module. Operating ranges: Series A, B, C, D Series E...
  • Page 86 Chapter 9 Specifications Baud Rates: Selectable. 230.4K baud (2500 ft), 115.2K baud (5000 ft) or 57.6K baud (10,000 ft) Interconnect: 3–terminal plug and socket CONSTRUCTION - NEMA Type 4X Approximate Weight – 6 lbs (2.7 kg) KEYBOARD COMPATIBILITY Series A: IBM–compatible XT–style keyboard, DIN 5–pin plug. Series B or later: IBM–compatible AT/XT–style keyboard, also.

  • Page 87: Appendix

    Appendix A–B Appendix A This appendix describes the error messages displayed by the Keypad Module. It also lists the display characters and their corresponding hexadecimal values as an aid. Error Messages The following list shows error messages and their explanations. Items with the bullet ( ) in the left margin are messages that refer to hardware or software faults that cannot be corrected by programming or changing the configuration settings.
  • Page 88 Appendix A OVERFLOW This error indicates that the user attempted to enter a number that was larger than what the module’s configuration could handle. PLC SENT NON–BCD This error indicates that the PLC sent a non–BCD digit when one was expected.

  • Page 89: Display Characters

    Appendix A Display Characters Figure A.1 shows the 14–segment character set for the module display. The numbers next to each figure are the hexadecimal values for the characters. Figure A.1 14–Segment Display Characters A–3 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...
  • Page 90 Index A–B Decimal Modes, 6–4 Destination Entry, 6–4 Address, Rack, 5-1, 5-2 Polarity (minus sign), 6–4 Applicable PLCs and Scanners, 4-2 Split Display, 6–4 Applications, Keypad Module, 2-2 Data Type, 2–4, 5–4 Architecture, Remote I/O, 4-2 BCD, 2–4, 5–4 ASCII Data, 2-3, 6-2 Binary, 2–4, 5–4 ASCII Message Display, 6-2 Integer, 2–4, 5–4...
  • Page 91 Index Entering Messages, 6–7 Editing, 6–7 Image Tables, I/O, 7–30 Editing Commands, 6–8 Indicator, Fault, 8–1 Storing, 6–7 Information Display, 2–3 Entering or Changing Data, 7–7 Input and Output Image Tables, 7–30 EPROM CRC ERROR, A–1 Integer, Datatype, 2–4, 5–4 Error Messages, A–1 INTERNAL RAM ERR, A–1 BAD MSG NUMBER, A–2...
  • Page 92 Index Message, Display, 7–25 I/O Image Tables, 7–3 Message Display, ASCII, 6–2 System Configuration, 7–2 Message Editor, 6–6 Triggering a Stored Message, 7–5 MESSAGE ERROR, A–2 Using the Destination Function, Messages, 6–5 7–9 ASCII Display, 6–2 Power Requirements, 3–1 Editing, 6–7 Power Source Entering, 6–7 Module Type, 3–1...
  • Page 93 Index Handshake, 2–4, 5–4 Troubleshooting, 8–3 Keyswitch, 2–4, 5–4 Typical Switch Settings, 5–2 Last Device, 5–4 Last State, 2–4, 5–4 Switch Bank #3 Using PLC–5s and a Sub I/O Keyboard Style, 5–5 Scanner, 7–11 SMD and Destination Format, Continuous, 7–13 5–5 Control Block, 7–13 Split Display, 5–5...
  • Page 94 Rockwell Automation Headquarters, 1201 South Second Street, Milwaukee, WI 53204-2496 USA, Tel: (1) 414 382-2000 Fax: (1) 414 382-4444 Rockwell Automation European Headquarters, Avenue Hermann Debroux, 46, 1160 Brussels, Belgium, Tel: (32) 2 663 06 00, Fax: (32) 2 663 06 40 Rockwell Automation Asia Pacific Headquarters, 27/F Citicorp Centre, 18 Whitfield Road, Causeway Bay, Hong Kong, Tel: (852) 2887 4788, Fax: (852) 2508 1846 World Wide Web: http://www.ab.com...

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