DI-8(FIT)GY
Contents
1. Soi g 31 5 14 F NLA nd iba 2 2 a cod E NC 2 D 0 20 Al 1 Ol A LL comy i PTA gt D 5 Ol 10 gy ee 3 fc 3 5 25 2 64 7 4 0 Gi CC Se Ci ige mm Gr Ver 1 00 Functions and control method by controller connected This product can be connected to a variety of controllers Supported controllers Microcontroller Unit I O Controller Module Monitoring amp Control Server Unit gt SVR MMF2 FIT Monitoring amp Control Server Unit gt SVR MMF FIT GY Check each controller to which the module can be connected as well as the method of controlling the module when connected to that controller Connections to controllers CPU SBxx FIT GY CPU CAxx FIT GY O Permitted x Not permitted piowaerpey of co of oo prsermey tT To 0 po s mey dE OP OL Of Control method by controller connected Control using the I O address map Control using the memory address map FIT Protocol Control via the Windows driver API CAP W32 API SBP W32 Control over the web as set from within the browser The API SBP W3z2 is included in the development kit DTK SBxx FIT GY the other drivers are bundled with each controller Control using the I O address map When connected to the CPU SBxx FIT GY the module can receive I O instructions directly from the controller module Control using the memory ad2. Applicable cable AWG28 16 CAUTION Removing the connector plug by grasping the cable can break the wire Signal Layout on the Interface Connector The Module can be connected to an external device using a 12 pin connector that is provided on the Module face 2 er _ Input port COM 0 COM plus minus common N C X0 INO J X1 IN1 X 2 IN 2 X3 IN3 COM 1 COM N C X4 IN4 X5 IN5 X 6 IN6 X 7 IN7 External Input Circuits Input section Figure below shows the input equivalent circuit for the interface section of this product The signal input section consists of an Optocoupler isolated input compatible with both current sink output and current source output An external power supply is therefore required to drive the input section of this module The power requirement for the lt DIO 4 4 FIT GY gt or lt DI 8 FIT GY gt is about 8 mA per input channel at 24 VDC about 4 mA at 12 VDO Input Circuit Digital Input 4points VVGVGVGCVOCVOVY pas Input 4points Module External circuit l Vee l I l 3kQ l VW J O vel Le External es x common o al power supply O O 12V 24VDC de Optocoupler Inp
3. C0040 compliant IEC68 2 6 compliant Impact resistance 15G __half sine shock for 11ms in X Y and Z directions JIS C0041 compliant IEC68 2 27 compliant 1 When using a POW AD22GY CONTEC Was CONES om N CAUTION When connecting one of the modules to a controller module the internal current consumption should be taken into account lf the total current exceeds the capacity of the power supply unit the integrity of the operation cannot be guaranteed For further details please see the Controller Module manual Block Diagram g Opto Coupler n Tri State Buffer Paice Control Circuit Physical Dimensions 1 2 E m 12 m y gt CL CO OT To
4. input per module 12 24 VDC specified 1 This module is available in different product models x in each model number represents a blank or one alphanumeric character This is applicable to the rest of this document Specification Specifications DI 8 FIT GY Input section Input format Optocoupler isolated input compatible with current sink output and current source ae 4mA 12V 8mA 24V per channel Common section Using CPU SBxx FIT GY IRQ 5 7 or 9 12 24VDC 415 5VDC 5 150mA Max 1 Allowable distance of signal Approx 50m depending on wiring environment extension 5 2 Physical dimensions mm 25 2 W x 64 7 D x 94 0 H exclusive of protrusions Weight of the module itself 100g standard with the system standard connection mechanism provided in the system Applicable plug FRONT MC 1 5 12 STF 3 81 made by Phoenix Contact Corp 3 81mm pitch rated current 8A Max 1 The stack connector accepts currents of up to 3 0A Max Installation Environment Requirements 10 90 RH No condensation Noise immunity Line noise 1 JAC line 2kV Signal line 1kV IEC 1000 4 4Level 3 EN61000 4 4Level 3 Static Contact discharge 4kV IEC1000 4 2Level 2 electricity EN61000 4 2Level 2 resistance Atmospheric discharge 8kV IEC1000 4 2Level 3 EN61000 4 2Level 3 Vibration Sweep 10 57Hz semi amplitude 0 15mm 57 150Hz 2 0G resistance resistance 80minutes each in X Y and Z directions JIS
5. D is 0 Setup Method A Device ID can be set by turning the rotary switch that is located on the module face A Device ID can be assigned by turning the switch Factory setting Device ID 0 E sF Ty eee ee
6. WN DI 8 FIT GY CONTEC Weary CODES om F amp elT Series Isolated Digital Input Module DI 8 FIT GY Specifications color and design of the products are subject to change without notice This product can perform 8 point digital signal input treating 8 points as a group Input section is ready to accept both the current sinking output and current source output Isolated input operations using an optocoupler improves noise immunity A rotary switch allows you to set device IDs making it easy to keep track of device numbers Like other F amp elT series products the module has a 35mm DIN rail mounting mechanism as standard A connection to a controller module can be effected on a lateral stack basis in a unique configuration which permits a simple smart system configuration without the need for a backplane board Packing List Module DI 8 FIT GY 1 First step guide 1 CD ROM F amp elT Series Setup Disk 1 1 Interface connector plug 1 1 The CD ROM contains various software and User s Guide Ver 1 00 This product is an expansion module device module that adds digital signal input interfaces to one of various types of controllers The product is used in combination with the I O controller module lt CPU CAxx FIT GY gt 1 or microcontroller unit lt CPU SBxx FIT GY gt 1 in the F amp elT Series This product can perform a maximum of 8 points of Optocoupler isolated
7. dress map When connected to the CPU CAxx FIT GY the module can be accessed from the host computer over the network The module is assigned with its device ID in the memory managed by the controller module The application running on the host computer controls the module by reading writing the memory managed by the controller module Control via the Windows driver For the functions and settings available when using the Windows driver refer to the reference manual and online help for each module Control over the web You can monitor collected data and manage the log over the web You can use your familiar browser to easily make various settings For details refer to the reference manual for the SVR MMF2 FIT SVR MMF FIT GY GT sF Ty eee CONTEC Weare CO nbe om Ver 1 00 Interface Connector How to Connect an Interface Connector When connecting the Module to an external device you can use the supplied connector plug To wire the Module strip the sheath about 9 10mm from an end of the wire and insert the exposed wire into an opening Tighten the screw to fasten the inserted wire Applicable wires are AWG28 16 Turn the screw to fasten the wire lt lt 9 10mm Applicable wire 3 81mm pitch 12 pin type 8 0A rated current MC1 5 12 GF 3 81 made by Phoenix Contact Corp Applicable plug Front screw type with connector stopper flange FRONT MC 1 5 12 STF 3 81 made by Phoenix Contact Corp
8. ut Input contact i pm point oa E E l I l I 3kQ i VV I lt 1 i Ax oe ee O O O O e L Uot 1 Input Input contact procoupier pn point l l l l Ye Example of a Connection to Current Sink Output O Module l External circuit Vcc l a F WA T Q AHUS External i x ommon power supply a Ti 12V 24VDC de Optocoupler EN N ipu dial Example of a Connection to Current Source Output Module Vece External circuit 3kQ VV ai Minus External A common F power supply L a E Optocoupler fees ek x pin Current source output A Connection example Using Inputs X0 Input plus common e g connector COMO External power supply 12V 24VDC Input pin e g connector X0 Module side Example of Connecting Outputs and Inputs External power supply 12V 24VDC Output module Intput module Common plus for output Common plus for intput Q Q x Intput Q Common minus for output Setting a Device ID The controller module distinguishes and keeps track of the modules that are connected to it by assigning device IDs to them Each module therefore should be assigned a unique ID A Device ID can be assigned in a 0 7 range so that a maximum of eight modules can be distinguished The factory setting for the Device I
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DI 8(FIT)GY