Table of Contents Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 SLC 500 Family . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . MicroLogix 1000 Family . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . New Product Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 2 2 SLC 500 System Configuration . . . . . . . . . . . . . . . . . . . . . 3 MicroLogix 1000 . . . . . . . . . . . . . . . . . . . . . . . .
ii Table of Contents Speciality I/O Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 1746 I/O Analog Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1746 NT4 Thermocouple/mV Module . . . . . . . . . . . . . . . . . . . . . . Thermocouple Temperature Ranges . . . . . . . . . . . . . . . . . . . . DC Millivolt Input Ranges . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table of Contents iii Networking Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42 1784 KR Personal Computer Interface Card . . . . . . . . . . . . . . . . . Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6001 F2E Standard Driver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1747 AIC Isolated Link Coupler for DH 485 Connection . . . . . . . . . 42 42 43 43 Programming Options . . . . . . . . . . . . . . . . . . . . . . . . . . .
1 Overview Both the SLC 500 family and the MicroLogix family give you power and flexibility for a complete control solution. The powerful processor instruction sets, advanced programming tools, and expanded product capabilities give you all of the right reasons to choose these products for your next control application. SLC 500 Family The SLC 500 family is a growing family of small programmable controllers built around two hardware options: a fixed controller or a modular controller.
2 MicroLogix 1000 Family The MicroLogix 1000 family of programmable controllers is designed to meet your control needs in a variety of applications requiring under 32 I/O. Positioned as part of the SLC 500 family, the MicroLogix 1000 family offers you a small, low-cost programmable controller with a powerful instruction set and fast execution speed for high throughput. Like the SLC 500 family, the MicroLogix controllers are programmed using familiar ladder logic.
3 SLC 500 System Configuration Publication 1747 2.
4 94 472 MicroLogix 1000 The MicroLogix 1000 Programmable Controller supplements the SLC 500 controller family by providing a small, low cost version that offers outstanding performance, superior reliability, and high quality. This product family offers you several types of controllers, development tools, and operator interfaces to meet your control needs for a variety of applications. The MicroLogix 1000 controllers can be programmed using MicroLogix 1000 Programming Software (MPS) A.I.
5 Types Catalog Number Description 1761 L16AWA 10 pt. AC input, 6 pt. relay output, AC power supply controller 1761 L32AWA 20 pt. AC input, 12 pt. relay output, AC power supply controller 1761 L16BWA 10 pt. DC input, 6 pt. relay output, AC power supply controller 1761 L32BWA 20 pt. DC input, 12 pt. relay output, AC power supply controller 1761 L16BWB 10 pt. DC input, 6 pt. relay output, DC power supply controller 1761 L32BWB 20 pt. DC input, 12 pt.
6 Input Specifications Description Specification Type 100 120V ac 24V dc Voltage Range 79 to132V ac 47 to 63 Hz 15 to 30V dc On Voltage 79V ac min. 132V ac max. 15V dc min. 24V dc nominal 26.4V dc max. @ 55° C (131° F) 30.0V dc max. @ 30° C (86° F) Off Voltage 20V ac 5V dc On Current 5.0 mA min. @ 79V ac 47 Hz 12.0 mA nominal @ 120V ac 60 Hz 16.0 mA max. @ 132V ac 63 Hz 2.5 mA min. @ 15V dc 8.0 mA nominal @ 24V dc 12.0 mA max. @ 30V dc Off Current 2.5 mA max. 1.5 mA max.
7 Output Specifications Description Specification Type Relay MOSFET Triac Voltage 5 to 264V ac 5 to 125V dc 20.4 to 26.4V dc 85 to 264V ac Maximum Load Current Refer to the Relay Contact Rating Table. Minimum Load Current 10.0 mA Current per Controller 1440 VA 3A for L16BBB 6A for L32BBB 1440 VA Current per Common 8.0A 3A for L16BBB 6A for L32BBB 2.5A Maximum Off State Leakage Current 0 mA 1 mA 2 mA @ 132V ac 4.5 mA @ 264V ac Off to On Response 10 ms max. 0.1 ms 8.
8 91 068 5 SLC 500 Fixed Controller Publication 1747 2.30 February 1996 The SLC 500 Fixed Controller, which contains a processor, power supply, and I/O in a single package, offers a variety of low cost options with up to 104 predefined Input/Output (I/O) points. This controller also offers enhanced networking capabilities. For more information concerning I/O module compatibility options, refer to page 55. Features Benefits 20, 30, or 40 I/O versions with 24 different I/O configurations.
9 Specifications The following table provides general specifications for the fixed controller. Description Program Memory Specification 1K Instruction Memory Back up Options Capacitor - 2 weeks➀ Lithium Battery - 5 years➁ EEPROM or UVPROM Typical Scan Time 8 ms/K Hold up Time (Load Dependent) 20 ms to 700 ms LED Indicators RUN, CPU FAULT, FORCED I/O, BATTERY LOW Programming Advanced Programming Software, SLC 500 A.I. Series programming software, or the Hand Held Terminal Power Requirement (max.
10 The following tables provide configuration options for 20, 30, or 40 I/O point units. To aid you in configuring your system with additional modules when using the optional 2-slot expansion chassis, refer to the Fixed Expansion Chassis Compatibility table on page 55.
11 91 071 4 SLC 500 Modular Controller The SLC 500 Modular Controller offers additional flexibility in system configuration, more processing power, and I/O capacity. By selecting the appropriate modular chassis, power supply, processor, and discrete or specialty I/O modules, you can create a controller system specifically designed for your application.
12 Features Benefits Four central processing units Supports a variety of I/O requirements and functionality. Four different chassis sizes (4, 7, 10, and 13) Provides I/O mounting flexibility and expansion options. Variety of 1746 I/O modules Provides over 48 different modules to meet your application needs. Four power supplies Supports AC and DC power, providing four different sizes. Variety of communication options Support of DH-485, RS-232, and DH+ communication.
13 The following table summarizes the general specifications for the SLC 500 modular processors. Additional specifications are located on page 15. Description Power Supply Loading at 5V dc Specification 350 mA for SLC 5/01, and SLC 5/02 processor 500 mA for the SLC 5/03 processor 1.
14 System Protection Options The SLC 500 family of processors offer a number of hardware and software security features designed to help you protect your system from unauthorized changes to program or data files.
15 SLC 500 Family Specifications The following specifications apply to all SLC 500 modular components. Description Temperature Humidity Vibration Shock Free Fall (drop test) g p y Electromagnetic Compatibility Safety Certification (when product or packaging is marked) Specification Industry Standard Operating: 0° C to +60° C (32° F to 140° F) Not Applicable Storage: -40° C to +85° C (-40° F to 185° F) Not Applicable 5 to 95% without condensation Not Applicable Operating: 1.
16 91 071 3 Power Supply Options Allen-Bradley offers 4 different power supplies, three AC and one 24V dc. The AC supplies can be configured to operate using 120 or 240V ac. Description 1746 P1 1746 P2 1746 P3 1746 P4 Line Voltage 85-132/170-265V ac 47-63 Hz 85-132/170-265V ac 47-63 Hz 19.2-28.8V dc 85-132/170-265V ac 47-63 Hz Typical Line Power Requirement 135 VA 180 VA 90 VA 240 VA Maximum Inrush Current 20A 20A 20A 45A Internal Current Capacity 2A at 5V dc 0.
17 Chassis Options The chassis houses the processor and the I/O modules. There are four sizes of chassis that you can choose: 4-slot, 7-slot, 10-slot, and 13-slot. The power supply mounts on the left side of the chassis. All components easily slide into the chassis along guides formed in the chassis. No tools are required to insert or remove the processor or I/O modules. Chassis can also be connected together to form a system (3 chassis maximum) by using one of two chassis interconnect cables.
18 1746 Discrete Input Modules Voltage Category 100/120V ac 200/240V ac Operating Voltage (Volts) Number of Inputs Points Per Common 4 1746 IA4 0.035 0 on=35 off=45 2 mA 85-132 8 8 1746 IA8 0.050 0 on=35 off=45 2 mA 85-132 16 16 1746 IA16 (RTB) 0.085 0 on=35 off=45 2 mA 170-265 4 4 1746 IM4 0.035 0 on=35 off=45 2 mA 170-265 8 8 1746 IM8 0.050 0 on=35 off=45 2 mA 170-265 16 16 1746 IM16 (RTB) 0.085 0 on=35 off=45 2 mA 16 1746 IN16 (RTB) 0.
19 1746 Discrete Output Modules Voltage Category Operating Voltage (Volts) 85-265 120/ 240V ac 85-265 85-265 Number of Outputs 8 16 12 Points Per Common 4 8 6 Catalog Number Backplane Current Draw (Amps) 5V 1746 OA8 1746 OA16 (RTB) 1746 OAP12➀➁ (RTB) 0.185 0.370 0.370 24 V 0 0 0 Signal Delay (ms. (ms max) on=1.0 off=11.0 on=1.0 off=11.0 on=1.0 off=11.0 Off State Leakage (max.) 2 mA 2 mA 2 mA Load Current at 5V dc (min.
20 Voltage Category Operating Voltage (Volts) V ac/V dc Relay Number of Outputs Backplane Current Draw (Amps) Signal Delay (ms max) (ms. Off State Leakage (max.) Load Current at 5V dc (min.) Continuous Current per Point (max.) Continuous Current per Module (max.) 0.045 on=10.0 off=10.0 0 mA 10 mA see relay chart 8.0A 8.0A/common➅ Points Per Common Catalog Number 5V 24 V 0.045 5-265V ac 5-125V dc 4 4 1746 OW4➂ 5-265V ac 5-125V dc 8 4 1746 OW8➂ 0.085 0.090 on=10.0 off=10.
21 Bulletin 1492 Interface Modules and Cables Allen-Bradley’s new wiring system for programmable controllers reduces installation time and increases start-up success. Comprised of a Bulletin 1492 Interface Module and a pre-wired cable, this wiring system can eliminate up to 50 percent of the point-to-point wiring between the programmable controller and field devices. Available for many of the SLC 500 and PLC 16- and 32-point I/O modules, the wiring system provides a lower probability for wiring errors.
22 Speciality I/O Modules The SLC 500 family offers specialty I/O modules that enhance your control system. These modules range from analog, motion control, and communication to provide a unique, easy to use interface between the modules and the processor. The following section provides an overview of our specialty I/O modules.
23 The following pages provides individual module specifications.
24 Specifications The specifications for the analog modules are the same as shown in the Specifications on page 15 for the modular controller, with the following additions: Description Specification SLC Communication Format 16 bit Two's Complement Binary Field Wiring to Backplane Isolation 500V dc Conversion Time 512 µs for all channels in parallel Current/Voltage Ranges NI4 ±10V dc or ±20 mA (input) NO4I NO4V ±10V dc or ±20 mA (input), 0 to 21 mA (output) ±10V dc or ±20 mA (input), ±10V dc (out
25 The 1746-NT4 module converts input signals from the following input types. Thermocouple Temperature Ranges Type of Thermocouple Input ° C Temperature Range ° F Temperature Range Accuracy (Max. error at 25° C/77° F) Type J -210° C to 760° C -346° F to 1400° F ±1.06° C Type K -270° C to 1370° C -454° F to 2498° F ±1.72° C Type T -270° C to 400° C -454° F to 752° F ±1.43° C Type E -270° C to 1000° C -454° F to 1832° F ±0.72° C Type N 0° C to 1300° C 32° F to 2372° F ±1.
26 Specifications The specifications for the Thermocouple/mV module are the same as shown in the Specifications on page 15 for the modular controller, with the following additions: Specification Description Backplane Current Draw 5V dc 24V dc 60 mA 40 mA Temperature Scale Resolution (selectable) ° C of ° F and 0.1° C or 0.1° F Millivolt Scale Resolution (selectable) 0.1 millivolt and 0.
27 1746 NR4 RTD/resistance Input Module The RTD/resistance input module enhances the present temperature control capabilities of your SLC 500 fixed or modular system by providing the capability to interface with 12 different RTDs and 4 different direct resistance ranges. RTDs are known for their accuracy, repeatability, linearity, and long-term stability. Features Benefits Module interface compatibility with a number of different RTDs Allows you to chose the best RTD for your temperature application.
28 RTD Temperature Ranges, Resolution, and Repeatability RTD Type 100Ω 200W Platinum (385)➁ 500W 1000W 100W 200W Platinum (3916)➁ 500W 1000W Temp. Range (0.5 mA Excitation)➀ Temp. Range (2.
29 RTD Accuracy and Temperature Drift Specifications RTD Type 100W 200W Platinum (385)➃ 500W 1000W 100W 200W Platinum (3916)➃ 500W 1000W Accuracy➀ (0.5 mA Excitation) Accuracy➀ (2.0 mA Excitation) Temperature Drift➁ (0.5 mA Excitation) ±1.0° C➂ (±2.0° F) ±1.0° C➂ (±2.0° F) ±0.6° C (±1.1° F) ±0.6° C (±1.1° F) ±1.0° C➂ (±2.0° F) ±1.0° C➂ (±2.0° F) ±0.5° C (±0.9° F) ±0.5° C (±0.9° F) ±0.5° C (±0.9° F) ±0.5° C (±0.9° F) ±0.5° C (±0.9° F) ±0.5° C (±0.9° F) ±.0.4° C (±0.7° F) ±.0.4° C (±0.7° F) ±.0.
30 Resistance Input Specifications Input Type 150W Resistance Resistance Range (0.5 mA Excitation) Resistance Range (2.0 mA Excitation) 0W to 150W 0W to 150W Accuracy➀ Temperature Drift ➁ ➂ 500W 0W to 500W 0W to 500W ±0.5W 1000W 0W to 1000W 0W to 1000W ±1.0W 3000W 0W to 3000W 0W to 1900W ±1.5W ±0.014W/ ° C (±0.025W/ ° F) ±0.029W/ ° C (±0.052W/ ° F) ±0.043W/ ° C (±0.077W/ ° F) Resolution Repeatability 0.01W ±0.04W 0.1W ±0.2W 0.1W ±0.2W 0.1W ±0.
31 High Speed Counter Module SLC 5/02 or higher Processor A+A B+B Encoder Motor Enable Motor Clutch/Brake Motor Speed Motor Interface Cutter Interface Clutch/Brake Feed Direction Cutter 1746 HSCE High Speed Counter Module The High-Speed Counter Module provides bidirectional counting of high speed inputs from quadrature encoders and various high-speed switches. This single channel accepts input pulse frequencies of up to 50k Hz, allowing precise control of fast motions.
32 1746 HSTP1 Stepper Controller Module SLC 5/02 or greater Modular I/O Controller Stepper Controller 5 Or 24V dc User Power Supply ➀ SLC Power Supply Standard I/O Module Optional Encoder Stepper Translator Stepper Motor = Optional Feedback Wiring = Control Wiring to Translator ➀ ➁ ➁ Power Wires The 24V may be obtained from the SLC Power Supply depending on application power requirements. Motor and translator furnished by the customer.
33 1746 HS IMC 110 Servo Controller Module 1746 HCA cable 1747 PIC Interface Converter 1746 HT Termination Panel HHT with 1747 PTA1E v2.
34 Remote I/O Modules 1747 SN Computer with PanelBuildert Software 1771 Remote I/O SLC 5/02 or greater Modular I/O Controller ÁÁ ÁÁ PanelView Operator Terminal RediPANEL Flex I/O Dataliner Message Display DL 40 1791 8AC 16 point Block I/O 1747 ASB 1747 SN Remote I/O Scanner The Remote I/O Scanner provides high-speed remote communication between an SLC processor and Allen-Bradley operator interface and control devices.
35 1747 ASB Remote I/O Adapter Module The Remote I/O Adapter module is a single-slot, RIO communication link module. It occupies the first slot (slot 0) of a 1746 remote chassis, where the SLC processor normally resides. The ASB module acts as a gateway between an SLC 500 scanner and the I/O modules in the 1747-ASB remote and expansion chassis.
36 1747 DCM Direct Communication Module The Direct Communication Module (DCM) links the SLC 500 controller to the Allen-Bradley PLC for distributed processing. The DCM acts as a remote I/O adapter on a remote I/O link. Information is transferred between a local PLC or SLC scanner and a remote 1747-DCM module during each remote I/O scan. The number of DCMs that a scanner can supervise depends on the number of racks the scanner supports and the rack size of the DCM.
37 Remote I/O Devices The following remote I/O devices interface with the SLC 500 remote I/O modules. 1791 Block I/O Block I/O is a self-contained I/O interface that provides the functionality of the I/O rack, adapter, power supply, and I/O module in a single interface. The block communicates over the Allen-Bradley remote I/O network, joining other Allen-Bradley devices such as operator interface, drives, remote I/O chassis, and vision systems. For additional information refer to Publication 1791-1.3.
38 Pyramid Solutions Program (PSP) The Pyramid Solutions Program provides additional third-party products that interface to remote I/O. For additional information refer to Publication PSP-5.1. Publication 1747 2.
39 DeviceNet Network A device network connects plant floor devices directly to the control system (e.g., SLC 500 modular controller) reducing the number of I/O interfaces and wiring associated with a typical hard-wired solution. The DeviceNet communication network is a completely open device network and has the support of industry’s leading sensor, actuator, and control manufacturers.
40 Remote Communication SLC 500 products communicate to serial devices using the following interface products. software configured for DF1 Full Duplex Dial up Modem Dial up Modem RS 232C Dial up Modem Dial up Modem 1770 KF3 1747 AIC SLC 5/01 Controller with 1746 BASIC Module SLC 500 Controller with 1747 KE Module SLC 5/02 Controller with 1770 KF3 Module Only dial-up modems can be used in the above configuration.
41 1770 KF3 DH 485 Communication Interface Module The DH-485 Communication Interface module is a standalone device that provides the same functionality as the 1747-KE interface module. However, when communicating from a remote location to a DH-485 network, the 1770-KF3 does not require a 1747-AIC module. Remote Communication Functions The above communication modules connect to most types of dial-up network or direct connect modems.
42 Networking Options SLC 500 programmable controllers communicate across an embedded DH-485 network for program support and monitoring. The following products provide networking options for the SLC 500 programmable controllers.
43 6001 F2E Standard Driver The Standard Driver allows the 1784-KR card to be used on the DH-485 communication network for data acquisition applications. This allows you to write ‘C’ application programs that communicate directly over the DH-485 network to stations such as the SLC 500. Non-token passing slave stations such as the 2755-DM6 Bar Code Reader are also supported. Features Benefits Provides a Set of Linkable ‘C’ Function Calls Establishes communications with devices on the DH-485 network.
44 91 068 7 Programming Options The following section describes three types of programming options available for the SLC 500. The first is the 1747-PA2E Advanced Programming Software (APS), the second is the 1747-PT1 Hand-Held Terminal (HHT) that also requires the 1747-PTA1E memory pak, and the third is the SLC 500 A.I. Series programming software. 1747-PA2E Advanced Programming Software The Advanced Programming Software (APS) v6.
45 Features Benefits Command line entry of instructions and parameters Provides time saving keystrokes. Online context sensitive help Provides quick access to instruction and status file information. System auto configuration Automatically reads system configuration information (including I/O and chassis data), saving you valuable startup time. Cut, copy, paste editor Permits ladder logic to be re-used.
46 1747 PT1 Hand Held Terminal and 1747 PTA1E Programming Memory Pak Programming Options The Hand-Held Terminal (HHT) v2.03 is a powerful portable programming platform used to configure the SLC 500 Fixed, SLC 5/01, and the SLC 5/02 processors, enter or modify an application program, monitor the execution of the application program in real–time, or troubleshoot an application program. The HHT accepts programs with a maximum data table size of 6K. Each rung may contain up to 127 instructions.
47 SLC 500 A.I. Series Programming Software Programming Options SLC 500 A.I. Series programming software is a DOS based, user-friendly, menu driven and function-key driven software package for programming the SLC 500 family processors using familiar ladder logic. The software package provides online and offline development, documentation and reporting capabilities. The A.I.
48 91 062 1 Operator Interface Allen-Bradley recognizes the need for efficient interface products. The Data Table Access Module aids in accessing information and monitoring an SLC 500 control system at the plant floor level.
49 Features Benefits On-Board module configuration Provides non-volatile EEPROM memory for easy onsite module set up. Multilingual display Selectable operator prompting in any of six languages. Backlit LCD display Allows for easy viewing in all lighting conditions. Responds to MSG instructions Allows interaction between the operator and the ladder program. The SLC 5/02, SLC 5/03, or SLC 5/04 processor ladder program directs the dialog.
50 DTAM Micro is available with either an RS-485 port or an RS-232 port. The RS-232 port is used to communicate point-to-point with the SLC 5/03. Use the RS-485 port to communicate point-to-point with the SLC processor or over the DH-485 network via Catalog 1747-AIC Isolated Link Couplers. The point-to-point connection allows for faster communication throughput and less DH-485 network loading.
51 Allen Bradley Support In today’s competitive environment, when you buy any product, you expect that product to meet your needs. You also expect the manufacturer of that product to back it up with the kind of customer service and product support that will prove you made a wise purchase. As the people who design, engineer, and manufacture your Industrial Automation Control equipment, Allen-Bradley has a vested interest in your complete satisfaction with our products and services.
52 SLC 500 Chassis Configuration Instructions This worksheet is intended to help you configure a modular style system. If a fixed I/O controller is more appropriate for your application, refer to page 8 of this System Overview. Each worksheet is designed to help you configure one chassis of I/O. If multiple chassis are necessary for your application, additional chassis should be configured using another worksheet. 1. Estimate the total amount of memory this system requires a. b. c. d. e.
53 SLC 500 Chassis Configuration Worksheet 1. To estimate your memory requirements, count the number of discrete and analog I/O points, plus the number of specialty I/O. a. discrete I/O points b. analog input and output points a) b) x 10 = Instruction Words x 25 = Instruction Words c. specialty I/O modules c) x 100 = Instruction Words Estimated Total Memory Required Instruction Words Power Consumption (Amps)➀ 5V dc 24V dc 0.35 0.105 0.35 0.105 0.35 0.105 0.500 0.175 1.000 0.200 1.000 0.200 1.
54 Fixed I/O Chassis Module Compatibility You can use either of two methods to determine whether the 2-slot, fixed I/O expansion chassis will support a specific combination of modules. • tabular method • charting method The table on the following page represents combinations of modules and indicates whether or not each combination is valid. The chart on page 56 represents the region of operating current that the fixed I/O expansion chassis supports.
55 IA4 IA8 IA16 IM4 IM8 IM16 OA8 OA16 OAP12 IB8 IB16 IV8 IV16 IG16 OV8 OV16 OB8 OBP8 OG16 OW4 OW8 OW16 IO4 IO8 IO12 NI4 NIO4I NIO4V FIO4I FIO4V DCM HS OB16 IN16 BASn BAS OB32 OV32 IV32 IB32 OX8 NO4I NO4V ITB16 ITV16 IC16 KE KEn OBP16 OVP16 NT4 NR4 HSTP1 Fixed I/O Chassis - Module Compatibility Table • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • ∇ • • • • • • • • • • • • • • • • • • • • • • • • • • • • • •
56 Charting Method 5VDC AMPS IA4 IA8 IA16 IM4 IM8 IM16 OA8 OA16 OAP12 IB8 IB16 IV8 IV16 IG16 OV8 OV16 OB8 OBP8 OG16 OW4 OW8 OW16 IO4 IO8 IO12 NI4 NIO4I NIO4V FIO4I FIO4V DCM HS OB16 IN16 BASn BAS OB32 OV32 IV32 IB32 OX8 NO4I NO4V ITB16 ITV16 IC16 KE KEn OBP16 OVP16 NT4 NR4 HSTP1 0.035 0.050 0.085 0.035 0.050 0.085 0.185 0.370 0.370 0.050 0.085 0.050 0.085 0.140 0.135 0.270 0.135 0.135 0.180 0.045 0.085 0.170 0.030 0.060 0.090 0.025 0.055 0.055 0.055 0.055 0.360 0.300 0.280 0.085 0.150 0.150 0.452 0.
57 Instruction Set Use the following instructions with your software or the HHT.
58 Fixed Wiring Diagrams For detailed wiring diagram information for the fixed controller, refer to the Installation & Operation Manual for Fixed Hardware Style Programmable Controllers, Catalog Number 1747 NI001.
59 CATALOG NUMBER 1747 L30A (18) 120 Volt AC Inputs & (12) Relay Outputs (Hi) L1 (Lo) (Hi) L2 L1 V ac/V dc➀ CR VAC OUT VDC 1 0 (Lo) L2 (Hi) L1 (Lo) L2 V ac/V dc➀ (Hi) L1 (Lo) L2 V ac/V dc➀ V ac/V dc➀ CR CR CR CR CR OUT OUT OUT VAC OUT OUT NOT NOT VAC OUT OUT 7 OUT 8 OUT 9 VAC OUT VDC 2 4 VDC 4 10 1 2 3 5 USED USED VDC 3 6 (Hi) L1 (Lo) L2 (Lo) L2 OUT 11 NOT NOT USED USED (Hi) L1 200/240V ac 120V ac or 240V ac VAC NOT AC AC IN 1 IN 3 IN 5 IN 7 IN 9 IN 11 IN 13 IN 15 IN 17 NOT NOT N
60 Approximate Chassis Dimensions millimeters (inches) SLC 500 Fixed Controller MicroLogix 1000 Controller L16BWA, L16BBB, L16BWB 20 I/O Fixed Controller 105 (4.13) 80 (3.135) 158 (6.22) 171 (6.73) 140 (5.51) SN Cat. No. 6.35 (0.25) 120 (4.72) 5.50 Dia. (.217) 105 (4.13) Front View 145 (5.71) 165 (6.50) Front View L16AWA Left Side View 80 (3.135) 30 & 40 Fixed Controller 175 (6.89) 133 (5.24) Front View 171 (6.73) 158 140 (6.22) (5.
61 Configuring an SLC 500 System SLC 500 Modular Controller 4 Slot Chassis ➀ ➁ 7 Slot Chassis 45 (1.77) 70 (2.76) ➂ ➀ 158 (6.22) 140 171 (5.51) (6.73) ➁ ➂ 140 171 (5.51) (6.73) 158 (6.22) 70 (2.76) 215 (8.46) 235 (9.25) 261 (10.28) 175 (6.89) 175 (6.89) 320 (12.60) 340 (13.39) millimeters (inches) 366 (14.41) 10 Slot Chassis 140 (5.51) ➀ ➁ 140 171 (5.51) (6.73) Left Side View for all Chassis 140 (5.51) 55 (2.17) ➂ 140 171 (5.51) (6.73) 158 (6.22) 145 (5.71) 140 (5.
62 Data Table Access Module (DTAM, DTAM Plus, DTAM Micro) millimeters (inches) C A D B Isolated Link Coupler (AIC) 2.74 (.108) 5.49 (.216) C D DTAM 152 (6.0) 140 (5.5) 69 (2.76) 127 (5.0) DTAM Plus 215.9 (8.5) 165.1 (6.5) 45.7 (1.8) 193 (7.6) DTAM Micro 137.2 (5.4) 175.3 (6.9) 45.7 (1.8) 99.1 (3.9) PanelView 550 Operator Terminal Approximately 200 mm (8 in.) is required to load a memory card. 145 (5.71) Front View 171 (6.73) 136.9 (5.39) 38.1 (1.50) B 14 (.55) 5.49 (.
63 Available Cables Use the following table to help you select the appropriate cable for your application.
PLC and PLC-5 are registered trademarks of Allen-Bradley Company, Inc. SLC, SLC 500, SLC 5/01, SLC 5/02, SLC 5/03, SLC 5/04, MicroLogix, IMC, PanelView, PanelBuilder, RediPANEL, Dataliner, DTAM, DataDisc, DeviceNet, DH+, and Data Highway Plus are trademarks of Allen-Bradley Company, Inc. IBM is a registered trademark of International Business Machines Corporation. Microsoft is a registered trademark of Microsoft. Windows is a trademark of Microsoft.
