Category: GE

Specifications

Data

Channels: 1 duplex

Formats: RS-232 (3-wire/5-wire), TTL, RS-422. RS-485 (2-wire/4-wire),

Manchester,Biphase, SensorNet, DTMF control

Baud Rate: 250 kbps to 512 kbps (depending on data format)

Bit Error Rate: <1.0E-9

Optical

Mode: Multimode

Optical Budget: 13 dB

Emitter: LED

Wavelength: 850 nm

Operating Distance: 3.2 mi (5.2 km)

Gain Control: Optical Automatic Gain Control (OAGC)

Transmitter Launch Power: -17 dBm

Receiver Sensitivity: -30 dBm

Electrical

Input Power: 13.5 VDC regulated

Current Requirement: 220 mA

Power Consumption: 3.5 W

Power Factor: 2

Protection: Solid-state short circuit protection

Power Supply: Model 613P (optional)

Environmental

Operating Temperature: -40 to 167 °F (-40 to 75 °C)

Maximum Humidity: 95% relative, noncondensing

Standards

Emmissions: FCC Part 15. ICES-003. AS/NZS 3548. EN55022

Immunity: ENV50204. EN61000-4-2. -3. -4. -5. -6. -11

Safety: UL 1950. CAN/CSA 22.2. NO. 950-95

Mechanical

Dimensions (LWD), Standalone Units: 5.0″ x 2.8″ x 1.5″

Dimensions, Rack Units: 1 slot (1.0″)

Weight: Standalone 0.22 lbs (0.1 kg); rack 0.55 lbs (0.25 kg)

Construction: Plastic (standalone); Aluminum (rack)

Overview

The S710D data transceiver provides two-way transmission of

multiprotocol data over two multimode fibers.

Data Translation

The S710D also features the unique data translation function that

allows input of one data format and output of a different format.  Data

formats are selected during installation and can be easily changed in

the field via rotary switch.

Superior Diagnostics

The SMARTS™ diagnostic technology provides an extensive array of

system status LEDs.  The integrity of the data paths can be tested with

a built-in data transmission test generator. It is not necessary to

connect to an external data device.

Standard Features

Two-way data transmission over two multimode fibers

Supports multiprotocol data formats including RS-232. TTL,

RS-422. RS-485. Manchester, Biphase, and SensorNet

Unique data translation function

User-configurable data format

13 dB optical budget

Optical AGC

SMARTS™ diagnostics

Standalone and rack configurations

General Installation Requirements

This product is intended for use with the Product Sub Family system. Its components are considered open

equipment (having live electrical parts that may be accessible to users) and must be installed in an ultimate

enclosure that is manufactured to provide safety. As a minimum, the enclosure shall provide a degree of

protection against solid objects up to 12mm (e.g. fingers). This equates to a NEMA/UL Type 1 enclosure or an

IP20 rating (IEC60529) providing at least a pollution degree 2 environment.

Installation in Hazardous Areas

The following information is for products bearing the UL marking for Hazardous Locations or ATEX marking for

explosive atmospheres:

▪ EQUIPMENT LABELED WITH REFERENCE TO CLASS I, GROUPS A, B, C & D, DIV. 2 HAZARDOUS LOCATIONS IS

SUITABLE FOR USE IN CLASS I, DIVISION 2. GROUPS A, B, C, D OR NON-HAZARDOUS LOCATIONS ONLY

▪ Equipment labeled with  II 3 G is suitable for use in Group 2 Category 3 environments.

▪ WARNING – EXPLOSION HAZARD – SUBSTITUTION OF COMPONENTS MAY IMPAIR SUITABILITY FOR CLASS I,

DIVISION 2;

▪ WARNING – EXPLOSION HAZARD – WHEN IN HAZARDOUS LOCATIONS, TURN OFF POWER BEFORE REPLACING

OR WIRING MODULES; AND

▪ WARNING – EXPLOSION HAZARD – DO NOT DISCONNECT EQUIPMENT UNLESS POWER HAS BEEN SWITCHED

OFF OR THE AREA IS KNOWN TO BE NONHAZARDOUS.

▪  WARNING – EXPLOSION HAZARD – USB PORT IS ONLY FOR USE IN NONHAZARDOUS LOCATIONS, DO NOT

USE UNLESS AREA IS KNOWN TO BE NON-HAZARDOUS.

Features

• Supports redundant power supplies. Use of the second

power supply is optional.

• Supports “hot swap” of a redundant power supply that is de-energized.

• Standard PROFINET alarm and diagnostics reporting.

• Supports configuration using Classless InterDomain

Routing (CIDR) with subnetting and supernetting.

• Each network interface module can be connected into a

daisy-chain/line, star, or ring (redundant media) topology.

• Supports Media Redundancy Protocol (MRP) client mode operation.

• Can be upgraded in the field; supports firmware updates via USB port.

• Provides Maintenance Mode to allow servicing of the

remote node while maintaining network connections.

(Requires firmware version 1.10 or later.)

• Supports Hot-Standby CPU Redundancy using

PROFINET I/O. If the PNS loses communications with

the Primary IO-Controller, it switches to the Secondary

IO-Controller. (Requires firmware version 2.00 or later)

Note: The USB port is for firmware upgrades only. It

is not intended for permanent connection

The VersaMax* PROFINET Scanner (PNS) module interfaces a remote node of VersaMax modules to a PROFINET

IO-Controller. The PROFINET Scanner scans the modules in its node, retrieving input data and providing output data,

and publishes input data on the PROFINET Network at the configured production rate. The PNS manages PROFINET

communication and module configuration between an IO-Controller and modules within the remote node. If network

communications are lost, the PNS manages I/O states according to the individual module configurations.

The PNS is available in two versions to allow you to use the network media that meet the requirements of your application.

IC200PNS001: Two 10/100 Mbps copper interfaces

IC200PNS002: Two 100Mbps Multi-Mode fiber (MMF) ports

The PNS module’s main Remote IO functions include:

• Scanning all the modules within its stick (input and output scan).

• Publishing data onto the PROFINET network to an IO-Controller at a customer-specified production period.

• Receive data from an IO-Controller on the PROFINET network at a customer-specified production period.

• Managing PROFINET communication and module configuration between an IO-Controller and modules within the PNS node.

• Managing the state of the I/O when communications is lost

• Publishing fault information (alarms, diagnostics, etc.) to IO-Controller

Host Interface

Intelligent processing for this module is performed by the Bus Interface Unit or elsewhere in

the system. This includes configuring features such as input defaults and fault reporting. The

module has 16 bits (two bytes) of discrete input data. A Bus Interface Unit is required to

provide this input data to the host and/or local processor.

Module Operation

A network of resistors and capacitors establishes input thresholds and provides input filtering.

Optoisolators provide isolation between the field inputs and the module’s logic components.

Data from all 16 inputs is placed into a data buffer. The module’s circuit LEDs show the

current states of the 16 inputs in this data buffer.

Parallel±to±seri al converters change input data from the data buffer into the serial format

needed by the Bus Interface Unit.

After checking the Board ID and verifying that the module is receiving appropriate logic power

from the Bus Interface Unit (which is reflected by the state of the module’s Power LED), the Bus

Interface Module then reads the filtered, converted input data.

The 24 VDC Positive/Negative Fast Input Module (IC670MDL644) provides a single group of

16 discrete inputs, which may be driven by positive or negative logic.

Power Sources

The module receives power from the Bus Interface Unit to run its own 5±volt logic. An

external 24VDC supply is needed to power the input devices.

LEDs

Individual LEDs (logic side), visible through the transparent portion of the module top,

indicate the on/off status of each input. The PWR LED is on when field and backplane power

are present.
Positive or Negative Inputs

Inputs for this module can be either positive or negative inputs (all 16 inputs must be the same

type). Both types of signal produce a logic 1 (true) when the switch is closed. Selection of

positive or negative operation is made by the manner in which the external power supply is

connected to the inputs and to the I/O Terminal Block.

Positive inputs receive current from input devices and supply current to the common or negative

power bus. Input devices are connected between the positive power bus and the input terminals.

Negative inputs provide current to input devices and accept current from the common or

positive power bus. Input devices are connected between the negative power bus and the input

terminal.

Product Description  

The RTD Input Modules allow RTD temperature sensors to be directly connected to the PLC 

without external signal processing (transducers, transmitters, etc.).  All analog and digital processing of 

the RTD signal is performed on the module, and temperature values in 0.5°C or 0.5°F increments 

(RTD600) or 0.125°C, 0.1°C or 0.1°F (RTD601) increments are written to the 90-30 %AI input table.  All 

modules feature six channels, and support PT-90 (MIL-7990); PT-100E, PT-100C, and PT-100Z; Ni-120, 

Cu-10, Cu-50, Cu-53, Cu-100, Pt-1000, TD5R and Linear Resistance. 

LIMITED WARRANTY AND LIMITATION OF LIABILITY

Horner APG, LLC, Inc. (“HE”) warrants to the original purchaser that the Resistance Temperature Device

Input module manufactured by HE is free from defects in material and workmanship under normal use

and service.  The obligation of HE under this warranty shall be limited to the repair or exchange of any

part or parts which may prove defective under normal use and service within two (2) years from the date

of manufacture or eighteen (18) months from the date of installation by the original purchaser whichever

occurs first, such defect to be disclosed to the satisfaction of HE after examination by HE of the allegedly

defective part or parts. 

QuickPanel™ View

Available in a variety of display sizes, the QuickPanel View bundled visualization solution provides the tools required

for today’s application needs. By integrating the best-selling QuickPanel family of touch screens with award-winning

CIMPLICITY® Machine Edition software, QuickPanel View delivers flexible, scalable performance on a rugged hardware

platform. The intuitive environment of Machine Edition View software helps reduce application development time, and

connectivity is made easy with a family of serial, Ethernet and Fieldbus interfaces.

The QuickPanel View Advantage

The QuickPanel View family is a

robust, integrated hardware and

software solution.

Resolution

• 16 bits

Common mode rejection

• >87 dB @ 50/60 Hz

Series mode rejection

• >50 dB @ 50/60 Hz

Common mode voltage between channels

• ± 5 V (max.)

Absolute maximum input voltage

• ± 30 V

Isolation (any channel to Railbus)

• 60 V peak

CONFIGURABLE PARAMETERS

Sensor type

• User selectable

Alarms

• High and low

Input dead zone

• User defined value

Selectable input filtering

• Off / 2 reading avgerage / running avgerage

Drive on open circuit fault

• Disabled / upscale / downscale

Channel status

• Active / Inactive

Cold junction compensation

• Enable / disable / channel number

RESPONSE TIME

Analog signal change to availability on Railbus

• 600 ms (max.)

SAFETY

Field wiring protection

• [EEx ia] IIC

Safety Description (each channel)

• Channels 1. 2. 3. 4. 7 and 8. wired as separate

IS circuits – Uo = 16.4 V, Io = 79 mA, Po = 0.33 W

Channels 5 and 6. wired as separate IS circuits –

Uo = 1 V, Io = 1.1 mA, Po = 0.3 mW

(Input terminals are equivalent to non-energy storing apparatus)

FM entity parameters

• Channels 1. 2. 3. 4. 7 and 8. wired as separate IS

circuits – Voc = 16.4 V, Isc = 63.7 mA, Po = 131mW

• Channels 5 and 6. wired as separate IS circuits –

Uo = 1 V, Io = 1 mA, Po = 0.25 mW