View / the Complete Manual
DL405
Installation and I/O Manual
Manual Number D4--INST--M
WARNING
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1
Manual Revisions
If you contact us in reference to this manual, be sure and include the revision number.
Title: DL405 Installation and I/O Manual
Manual Number: D4--INST--M
Issue
Original
Date
12/99
Effective Pages
Cover/Copyright
Contents
1-1 -- 1-4
2-1 -- 2-9
3-1 -- 3-64
Description of Changes
Original Issue
1
Table of Contents
i
Getting Started
About This Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
The Purpose of this Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Supplemental Manuals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Technical Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Key Topics for Each Chapter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Chapters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Conventions Used . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DL405 System Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Bases . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1--2
1--2
1--2
1--2
1--3
1--3
1--3
1--4
1--4
1--4
1--4
Installation
Safety Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Plan for Safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Safety Techniques . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Orderly System Shutdown . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
System Power Disconnect . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Mounting Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Base Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Panel Layout & Clearances . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Enclosures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Agency Approvals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Environmental Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Installing DL405 Bases . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Three Sizes of Bases . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Mounting the Base . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Installing Components in the Base . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Base Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2--2
2--2
2--2
2--3
2--3
2--4
2--4
2--5
2--6
2--6
2--7
2--7
2--8
2--8
2--8
2--9
2--9
I/O Wiring and Specifications
I/O Wiring Strategies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DL405 System Isolation Boundaries . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Powering I/O Circuits Using Separate Supplies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sinking / Sourcing Concepts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O “Common” Terminal Concepts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Connecting DC I/O to “Solid State” Field Devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Solid State Input Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Solid State Output Loads . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Relay Output Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Prolonging Relay Contact Life . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3--2
3--2
3--3
3--4
3--5
3--6
3--6
3--6
3--8
3--8
ii
Table of Contents
I/O Module Wiring and Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Module Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O Module Status Indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Color Coding of I/O Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Wiring a Module with a Terminal Block . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Wiring a Module using a Ribbon Cable/Solder Type Connector . . . . . . . . . . . . . . . . . . . . . . . . . .
Part Numbers for Module Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Vendors For the Parts Used in the Terminal Block Configuration . . . . . . . . . . . . . . . . . . . . . . . . .
Ribbon Cable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Ribbon Cable Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Interface Terminal Block . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O Wiring Checklist . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DL405 Discrete Input Module Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DL405 Discrete Output Module Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Special Input Module Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Analog Input Module Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Analog Output Module Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Glossary of Specification Terms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--08ND3S DC Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--16ND2 DC Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--16ND2F DC Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--16SIM Input Simulator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--32ND3--1, 24VDC Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--32ND3--2 5--12VDC Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--64ND2, 24 VDC Input Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--08NA 110--220VAC Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--16NA 110VAC Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--16NA--1 220VAC Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4-16NE3 12--24VAC/DC Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4-08NE3S 90--150VAC/DC Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--08TD1 12--24 VDC Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4-08TD1S 24--150 VDC Isolated Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4-16TD1 5-24 VDC Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4-16TD2, 12--24 VDC Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--32TD1, 5--24VDC Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--32TD1--1, 5--15VDC Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--32TD2, 12--24 VDC Output Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--64TD1, TTL/CMOS/5--24 VDC Output Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--08TA, 18--220VAC Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--16TA, 18--220VAC Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--08TR, Relay Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--08TRS--1, Relay Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--08TRS--2, Relay Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--16TR, Relay Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--04AD 4--Channel Analog Input Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--04AD 4--Channel Analog Input Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--04ADS 4--Channel Isolated Analog Input Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--04ADS 4--Channel Isolated Analog Input Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3--10
3--10
3--10
3--10
3--11
3--12
3--13
3--13
3--14
3--14
3--14
3--15
3--16
3--16
3--17
3--17
3--18
3--19
3--20
3--20
3--21
3--21
3--22
3--22
3--23
3--24
3--24
3--24
3--25
3--25
3--26
3--26
3--27
3--27
3--28
3--28
3--29
3--30
3--31
3--31
3--32
3--32
3--33
3--33
3--34
3--35
3--36
3--37
iii
Table of Contents
F4--08AD 8--Channel Analog Input Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--08AD 8--Channel Analog Input Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--02DA 2--Channel Analog Output Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D4--02DA 2--Channel Analog Output Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--04DA 4--Channel Analog Output Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--04DA 4--Channel Analog Output Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--04DA--1 4--Channel Analog Current Output Specifications . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--04DA--1 4--Channel Analog Current Output Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--04DA--2 4--Channel Analog Voltage Output Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--04DA--2 4--Channel Analog Voltage Output Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--04DAS--1 4--Channel 4--20mA Isolated Analog Output Specifications . . . . . . . . . . . . . . . . .
F4--04DAS--1 4--Channel 4--20mA Isolated Analog Output Module . . . . . . . . . . . . . . . . . . . . . . .
F4--08DA--1 8--Channel Analog Current Output Specifications . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--08DA--1 8--Channel Analog Current Output Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--08DA--2 8--Channel Analog Current Output Specifications . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--08DA--2 8--Channel Analog Current Output Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--16DA--1 16--Channel Analog Current Output Specifications . . . . . . . . . . . . . . . . . . . . . . . . .
F4--16DA--1 16--Channel Analog Current Output Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--16DA--2 16--Channel Analog Current Output Specifications . . . . . . . . . . . . . . . . . . . . . . . . .
F4--16DA--2 16--Channel Analog Current Output Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--08THM 8--Channel Thermocouple Input Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--08THM 8--Channel Thermocouple Input Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--08THM--n 8--Channel Thermocouple Input Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--08THM--n 8--Channel Thermocouple Input Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--08RTD 8--Channel RTD Input Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
F4--08RTD 8--Channel RTD Input Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3--38
3--39
3--40
3--41
3--42
3--43
3--44
3--45
3--46
3--47
3--48
3--49
3--50
3--51
3--52
3--53
3--54
3--55
3--56
3--57
3--58
3--59
3--60
3--61
3--62
3--63
Getting Started
In This Chapter. . . .
— About This Manual
— Conventions Used
— DL405 System Components
11
1--2
Getting Started
Getting Started
About This Manual
The Purpose of
this Manual
This manual is written for the user of
non-traditional CPU-slot controllers or I/O
controllers who are also using our DL405
I/O products. This manual shows you how
to install and wire the equipment. It
provides specifications for input and
output modules. It also helps you
understand how to interface these
products to other devices in a control
system.
Supplemental
Manuals
In addition to this manual, you will want to have the appropriate manual for your
CPU-slot controller and for the PC-based control software you will be using.
Technical Support
We strive to make our manuals the best in the industry. We rely on your feedback to
let us know if we are reaching our goal. If you cannot find the solution to your
particular application, or, if for any reason you need additional technical assistance,
please call us at
770--844--4200.
The technical support group is glad to work with you in answering your questions.
They are available weekdays from 9:00 a.m. to 6:00 p.m. Eastern Time. Please
visit our site on the worldwide web where you can find technical and nontechnical
information about our products and our company.
http://www.automationdirect.com.
If you have a comment or question about any of our products, services, or manuals,
please fill out and return the ‘Suggestions’ card that was shipped with this manual.
Getting Started
1--3
The beginning of each chapter will list the
key topics that can be found in that
chapter.
Chapters
The main contents of this manual are organized into the following three chapters:
1
Getting Started
2
Installation and Wiring
3
I/O Wiring and
Specifications
1
introduces the various components of a DL405 system. Also
includes tips on getting started and how to design a
successful system.
shows how to prepare for system installation, and gives
safety guidelines to help protect your personnel and
machinery
Includes system and I/O wiring diagrams, and discrete I/O
module specifications.
Conventions Used
When you see the “light bulb” icon in the left-hand margin, the paragraph to its
immediate right will give you a special tip.
The word TIP: in boldface will mark the beginning of the text.
When you see the “notepad” icon in the left-hand margin, the paragraph to its
immediate right will be a special note.
The word NOTE: in boldface will mark the beginning of the text.
When you see the “exclamation mark” icon in the left-hand margin, the paragraph to
its immediate right will be a warning. This information could prevent injury, loss of
property, or even death (in extreme cases).
The word WARNING: in boldface will mark the beginning of the text.
Getting Started
Key Topics for
Each Chapter
1--4
Getting Started
Getting Started
DL405 System Components
Bases
Three base sizes are available in the system: 4 slot, 6 slot and 8 slot.
I/O Configuration
The CPU slot controllers can support up to 512 I/O points in an eight slot base with up
to three expansion bases.
I/O Modules
The DL405 family provides some of the most powerful modules in the industry.
There is a complete range of discrete modules which support 24 VDC, 125 VDC,
110/220 VAC and up to 10A relay outputs. Analog modules provide 12 and 16 -bit
resolution and several selections of input and output signal ranges (including
bipolar).
At this time, only the D4--HSC High Speed Counter Specialty Module is supported;
no other intelligent modules are supported.
The controllers available at the time this manual was printed are:
S
Ethernet Base Controller
- H4--EBC
- H2--EBC--F
H4--EBC
H4--EBC--F
Installation
In This Chapter. . . .
— Safety Guidelines
— Mounting Guidelines
— Installing DL405 Bases
12
2--2
Installation
Safety Guidelines
Every automation application is different, therefore, there may be special
requirements for your particular application. Be sure to follow all National, State, and
local government requirements for the proper installation and use of your
equipment.
Plan for Safety
The best way to provide a safe operating environment is to make personnel and
equipment safety part of the planning process. Examine every aspect of the system
to determine which areas are critical to operator or machine safety.
If you are not familiar with system installation practices, or your company does not
have established installation guidelines, you should obtain additional information
from the following sources.
· NEMA — The National Electrical Manufacturers Association, located in
Washington, D.C., publishes many different documents that discuss
standards for industrial control systems. You can order these
publications directly from NEMA. Some of these include:
ICS 1, General Standards for Industrial Control and Systems
ICS 3, Industrial Systems
ICS 6, Enclosures for Industrial Control Systems
· NEC — The National Electrical Code provides regulations concerning
the installation and use of various types of electrical equipment. Copies
of the NEC Handbook can often be obtained from your local electrical
equipment distributor or your local library.
S Local and State Agencies — many local governments and state
governments have additional requirements above and beyond those
described in the NEC Handbook. Check with your local Electrical
Inspector or Fire Marshall office for information.
Safety Techniques
The publications mentioned provide many ideas and requirements for system
safety. It is recommended to follow these regulations as a minimum. Using the
techniques listed below will further help reduce the risk of safety problems.
· Orderly system shutdown sequence in the control program.
· System power disconnects (guard limits, emergency stop switches, etc.)
Installation and
Safety Guidelines
Installation
WARNING: Providing a safe operating environment for personnel and equipment is
your responsibility and should be a primary goal during system planning and
installation. Automation systems can fail and may result in situations that can cause
serious injury to personnel or damage to equipment. Do not rely on the automation
system alone to provide a safe operating environment. Use external
electromechanical devices, such as relays or limit switches, that are independent of
the DL405 system to provide protection for any part of the system that may cause
personal injury or damage.
Installation
Orderly System
Shutdown
2--3
The control program can provide the first
level of protection when used to identify
machine problems. After analyzing your
application, identify any shutdown
sequences that must be performed.
Typical problems include part jams,
empty bins, etc. that do not pose a risk of
personal injury or equipment damage.
Turn off
Saw
Jam
Detect
WARNING: The control program must
not be the only form of protection for any
problems that may result in a risk of
personal injury or equipment damage.
RST
Retract
Arm
System Power
Disconnect
By using electro-mechanical devices such as master control relays and/or limit
switches, you can prevent accidental equipment startup. When installed properly,
these devices will prevent any machine operations from occurring.
For example, if the machine has a jammed part the control program can turn off the
saw blade and retract the arbor. However, since the operator must open the guard to
remove the part, you must include a disconnect switch that removes all system
power any time the guard is opened.
The machine operator must also have a quick and easy method of manually
disconnecting all system power. This is accomplished with a mechanical device that
is clearly labeled as an Emergency Stop switch.
Installation
RST
Use E-Stop and Master Relay
Guard Limit Switch
E STOP
Power On
Emergency
Stop
Guard
Limit
Master
Relay
Installation and
Safety Guidelines
Master Relay Contacts
Master
Relay
Contacts
To disconnect PLC Power
Master
Relay
Contacts
Output
Module
Saw
Arbor
To disconnect output
module power
After an Emergency shutdown or any other type of power interruption, there may be
requirements that must be met before the control program can be restarted. For
example, there may be specific register values that must be established (or
maintained from the state prior to the shutdown) before operations can resume. In
this case, you may want to use retentive memory locations, or include constants in
the control program to ensure a known starting point.
2--4
Installation
Mounting Guidelines
Installation
Base Dimensions
In addition to the panel layout guidelines, other specifications can affect the
installation of a DL405 system. Always consider the following:
· Environmental specifications
· Power supply specifications
· Regulatory Agency Approvals
· Enclosure Selection and Component Dimensions
The following diagram shows the outside dimensions and mounting hole locations
for the 4-slot, 6-slot, and 8-slot bases. Make sure you follow the installation
guidelines to allow proper spacing from other components.
4.312”
110mm
1.37”
34.8mm
Module
Controller
4 holes, clearance
for M4 screw
4 Slot Base
14.45”
367mm
13.74”
349mm
11.54”
293mm
10.83”
275mm
0.47”
12 mm
Installation and
Safety Guidelines
6 Slot Base
5.91”
4.69”
150mm 119mm
0.75”
19 mm
0.28”
7 mm
Base mounting
dimensions given to
upper (fully seated)
location
8 Slot Base
Mounting hole
close-up
0.47”
12 mm
5.91”
4.69”
150mm 119mm
0.75”
19 mm
17.36”
441mm
16.65”
423mm
Installation
Panel Layout &
Clearances
2--5
Temperature
Probe
2”
Ç
DL405 CPU Base slot controller
Ã
Power
Source
Installation
There are many things to consider when designing the panel layout. The following items
correspond to the diagram shown. Note: there may be additional requirements,
depending on your application and use of other components in the cabinet.
1. The bases must be mounted horizontally to provide proper ventilation.
2. There should be a minimum of 7.2” (183mm) and a maximum of 13.75”
(350mm) between bases.
3. A minimum clearance of 2” (50mm) between the base and the top, bottom
and right side of the cabinet should be provided.
4. A minimum clearance of 3” (75mm) between the base and the left side of
the cabinet should be provided.
5. There must be a minimum of 2” clearance between the panel door and the
nearest DL405 component.
3”
75mm
min.
 50mm
min.
Â
À
2”
50mm
min.
É
7.2” -- 13.75”
DL405 Local Expansion Base
Á 183 -- 350mm
Panel
À
min.
BUS Bar
Star Washers
Ground Braid
Copper Lugs
Earth Ground
´
Panel or
Single Point
Ground
Installation and
Safety Guidelines
Æ
´
Star
Washers
2”
Å Â 50mm
Ä
Panel Ground
Terminal
Note: there is a minimum of 2” (50mm)
clearance between the panel door
and the nearest DL405 component.
Not to scale
6. Connect the ground terminal on the DL405 base to a single point ground.
Use copper stranded wire to achieve a low impedance. Copper eye lugs
should be crimped and soldered to the ends of the stranded wire to ensure
good surface contact. Remove anodized finishes and use copper lugs and
star washers at termination points. A rule of thumb is to achieve 0.1 ohm of
DC resistance between the DL405 base and the single point ground.
2--6
Installation
7. There must be a single point ground (i.e. copper bus bar) for all devices in
the panel requiring an earth ground return. The single point of ground must
be connected to the panel ground termination.
The panel ground termination must be connected to earth ground. For this
connection you should use #12 AWG stranded copper wire as a minimum.
Minimum wire sizes, color coding, and general safety practices should
comply with appropriate electrical codes and standards for your area.
A good common ground reference (Earth ground) is essential for proper
operation of the DL405, which include:
a) Installing a ground rod as close to the panel as possible.
b) Connection to incoming power system ground.
Installation
8. Installations where the ambient temperature may approach the lower or
upper limits of the specifications should be evaluated properly. To do this
place a temperature probe in the panel, close the door and operate the
system until the ambient temperature has stabilized. If the ambient
temperature is not within the operating specification for the DL405 system,
measures such as installing a cooling/heating source must be taken to get
the ambient temperature within the DL405 operating specifications.
9. Device mounting bolts and ground braid termination bolts should be #10
copper bolts or equivalent. Tapped holes instead of nut--bolt arrangements
should be used whenever possible. To assure good contact on termination
areas impediments such as paint, coating or corrosion should be removed
in the area of contact.
10. The DL405 system is designed to be powered by 110/220 VAC normally
available throughout an industrial environment. Isolation transformers and
noise suppression devices are not normally necessary, but may be helpful
in eliminating/reducing suspect power problems.
Your selection of a proper enclosure is important to ensure safe and proper
operation of your DL405 system. Applications of DL405 systems vary and may
require additional features. The minimum considerations for enclosures include:
· Conformance to electrical standards
· Protection from the elements in an industrial environment
· Common ground reference
· Maintenance of specified ambient temperature
· Access to equipment
· Security or restricted access
S Sufficient space for proper installation, cooling, and maintenance
Agency Approvals
Some applications require agency approvals. The DL405 agency approvals for
which DL405 products are submitted are;
· UL (Underwriters’ Laboratories, Inc.)
· CE EMC (Electromagnetic Compatibility)
· CUL (Canadian Underwriters’ Laboratories)
A complete listing of agency approvals for each product in the DL405 family is
available in the sales catalog, or you may call 1--770--844--4200.
Installation and
Safety Guidelines
Enclosures
Installation
Environmental
Specifications
The following table lists the environmental specifications that generally apply to the
DL405 system (Slot Controller, Expansion Unit, Bases, I/O Modules). I/O module
operation may fluctuate depending on the ambient temperature and your
application. Please refer to the appropriate I/O module specifications for the
temperature derating curves applying to specific modules.
Specification
Rating
Storage temperature
--4° F to 158° F (--20° C to 70° C)
Ambient operating temperature
32° F to 140° F (0° C to 60° C)
Ambient humidity
5% -- 95% relative humidity (non--condensing)
Vibration resistance
MIL STD 810C, Method 514.2
Shock resistance
MIL STD 810C, Method 516.2
Noise immunity
NEMA (ICS3--304)
Atmosphere
No corrosive gases
The external power source must be capable of suppling voltage and current
complying with the power supply specifications.
Installation
Power
2--7
Specifications
1 min. @ 1500 VAC between primary,
secondary, field ground and run relay
Insulation resistance
> 10MO at 500 VDC
Input voltage range
H4--EBC (--F)/ D4--EX
85--132 VAC (110 range) / 170--264 VAC (220
range)
Input voltage range D4--EXDC
20--29 VDC (24VDC) less than 10% ripple
Input voltage range D4--EXDC--2
90--146 VDC (125 VDC) less than 10% ripple
Maximum inrush current H4--EBC (F) /
D4--440 / D4--EX
20A
Maximum inrush current D4--EXDC
10A
Maximum inrush current D4--EXDC--2
20A
Maximum power H4--EBC (F)/D4--EX
50VA
Maximum power D4--EXDC
38W
Maximum power D4--EXDC--2
30W
24VDC Auxiliary Power Supply
H4--EBC (F)/D4--EX
20--28 VDC @ 0.4A maximum, ripple > 1V p-p
Installation and
Safety Guidelines
Voltage withstand
(dielectric strength)
2--8
Installation
Installing DL405 Bases
Three Sizes of
Bases
All I/O configurations of the DL405 will use a selection of either 4, 6 or 8 slot base(s).
Local and expansion bases can be 4, 6, or 8-slot in size. Local and expansion bases
differ only in how they are wired in a system.
Expansion cable
input connection
Local Base
Installation
Expansion cable
output connection
Expansion
cable
8 slot base
Expansion Bases
Expansion
Power
Supplies
6 slot base
Installation and
Safety Guidelines
4 slot base
WARNING: To minimize the risk of electrical shock, personal injury, or equipment
damage, always disconnect the system power before installing or removing any
system component.
Mounting
the Base
The CPU slot controller/Expansion Unit must always be installed in the left-most slot
in a base. This slot is marked on the base as P/S, CPU. The I/O modules can be
installed in any remaining slots. It is not necessary for all slots to be filled for your
system to work correctly. You may use filler modules to fill the empty slots in the base.
The base is secured to the equipment panel
or machine using four M4 screws in the
corner locations shown to the right. The
mounting cut-outs allow removal of the base
after installation, without completely
removing the mounting screws. Full
mounting template dimensions are given in
the previous section on Mounting
Guidelines.
Base mounting holes,
4 locations
Mounting hole
close-up
Installation
Installing
1. Note the components have plastic tabs
at the bottom and a screw at the top.
Components in the
Base
2. With the device tilted slightly forward,
hook the plastic tabs into the notch on
the base.
3. Then gently push the top of the
component back toward the base until
it is firmly installed into the base.
4. Now tighten the screw at the top of the
device to secure it to the base.
2--9
Spring loaded
securing screw
Base Wiring
Installation
WARNING: To minimize the risk of electrical shock, personal injury, or
equipment damage, always disconnect the system power before installing or
removing any system component.
The main power terminal connections are under the front covers of the controllers.
Please refer to the applicable User manual for the base wiring guidelines.
Installation and
Safety Guidelines
I/O Wiring and
Specifications
In This Chapter. . . .
— I/O Wiring Strategies
— I/O Module Wiring and Specifications
— Glossary of Specification Terms
— I/O Module Wiring diagrams
13
3--2
I/O Wiring and Specifications
Getting Started
I/O Wiring Strategies
DL405 System
Isolation
Boundaries
The DL405 system is very flexible and will work in many different wiring
configurations. By studying this section before actual installation, you should find the
best wiring strategy for your application . This will help to lower system cost, wiring
errors, and avoid safety problems.
DL405 system circuitry is divided into three main regions separated by isolation
boundaries, shown in the drawing below. Electrical isolation provides safety, so that
a fault in one area does not damage another. A transformer in the power supply
provides magnetic isolation between the primary and secondary sides.
Opto-couplers provide optical isolation in Input and Output circuits. This isolates
logic circuitry from the field side, where factory machinery connects. Note that the
discrete inputs are isolated from the discrete outputs, because each is isolated from
the logic side. Isolation boundaries protect the operator interface (and the operator)
from power input faults or field wiring faults. When wiring a DL405 system, it is
extremely important to avoid making external connections that connect logic side
circuits to any other.
Primary Side
Secondary, or Logic side
I/O Wiring and
Specifications
DL405 System
Main
Power
Supply
Power Input
Isolation
Boundary
CPU
Field Side
(backplane)
Input
Module
Inputs
(backplane)
Output
Module
Outputs
Isolation
Boundary
Programming Device,
Operator Interface, or Network
The next figure shows the physical layout of a DL405 system, as viewed from the
front. In addition to the basic circuits covered above, AC-powered units include an
auxiliary +24VDC power supply with its own isolation boundary. Since the supply
output is isolated from the other three circuits, it can power input and/or output
circuits!
Primary Side
Power Input
+24VDC Out
Main
Power
Supply
Auxiliary
+24VDC
Supply
DL405
System
Secondary, or
Logic side
Internal
CPU
Backplane
Comm.
Input Module
To Programming
Device, Operator
Interface, Network
Inputs Commons
Field Side
Output Module
Outputs Commons
Supply for
Output Circuit
I/O Wiring and Specifications
In some cases, using the built-in auxiliary +24VDC supply can result in a cost
savings for your control system. It can power combined loads up to 400 mA. Be
careful not to exceed the current rating of the supply. If you are the system designer
for your application, you may be able to select and design in field devices which can
use the +24VDC auxiliary supply.
In most applications it will be necessary to power the input devices from one power
source, and to power output loads from another source. Loads often require
high-energy AC power, while input sensors use low-energy DC. If a machine
operator is likely to come in close contact with input wiring, then safety reasons also
require isolation from high-energy output circuits. It is most convenient if the loads
can use the same power source as the DL405 system, and the input sensors can use
the auxiliary supply, as shown to the left in the figure below.
If the loads cannot be powered from the system supply, then a separate supply must
be used as shown to the right in the figure below.
AC Power
Power Input
+
AC Power
Power Input
DL405 System
Input Module
Output Module
Inputs
Outputs Com.
Com.
--
Auxiliary
+24VDC
Supply
+
DL405 System
Input Module
Output Module
Inputs
Outputs Com.
Com.
--
Loads
Loads
Load
Supply
A worst-case scenario, from a cost and complexity view-point, is an application
which requires separate power sources for the DL405 system, input devices, and
output loads. The example wiring diagram below on the right shows how this can
work, but also that the auxiliary supply output is an unused resource.
AC Power
Power Input
Auxiliary
+24VDC
Supply
+
DL405 System
Input Module
Output Module
Inputs
Com.
Outputs Com.
Input
Supply
Loads
-Load
Supply
I/O Wiring and
Specifications
Auxiliary
+24VDC
Supply
Getting Started
Powering I/O
Circuits Using
Separate Supplies
3--3
Getting Started
3--4
I/O Wiring and Specifications
Sinking / Sourcing This next section helps to provide a solid understanding of “sinking” and “sourcing”
concepts. Use of these terms occurs frequently in input or output circuit discussions.
Concepts
It is the goal of this section to make these concepts easy to understand, further
ensuring success in installation.
Sinking = provides a path to supply ground (--)
Sourcing = provides a path to supply source (+)
I/O Wiring and
Specifications
Sinking and sourcing terminology only applies to DC input and output circuits
because of the reference to (+) and (--) polarities. Input and output points that are
sinking or sourcing only can conduct current in only one direction. This means it is
possible to connect the external supply and field device to the I/O point with current
trying to flow in the wrong direction, and the circuit will not operate. However, you can
successfully connect the supply and field device every time by understanding
“sourcing” and “sinking”.
For example, the figure to the right
illustrates a “sinking” input. To properly
connect the external supply, we just have
to connect it so the input provides a path to
ground (--). Start at the DL405 system
input terminal, follow through the input
sensing circuit, exit at the common
terminal, and connect the supply (--) to the
common terminal. By adding the switch,
between the supply (+) and the input, we
have completed the circuit. Current flows
in the direction of the arrow when the
switch is closed.
Input
(sinking)
DL405 System
+
Input
Sensing
-Common
By applying the circuit principle above to the four possible combinations of
input/output sinking/sourcing types, you have the four circuits as shown below. The
I/O module specifications at the end of this chapter list the input or output type.
Sinking Input
Sinking Output
Input
+
--
Common
DL405 System
Input
Sensing
Sourcing Input
Common
+
--
Input
DL405 System
Output
Switch
Output
Load
+
--
Common
Sourcing Output
DL405 System
Input
Sensing
DL405 System
Output
Switch
Common
+
Output
Load
--
3--5
I/O Wiring and Specifications
+
DL405 System
I/O
Circuit
-Return Path
DL405 System
Input
Sensing
Input 1
Input 2
Input 3
Input 4
+
--
Common
NOTE: In the circuit above, the current in the common path is 4 times any channel’s
input current when all inputs are energized. This is important in output circuits where
heavier gauge wire is sometimes necessary on commons.
Most DL405 input and output modules
group their I/O points into banks that share
a common return path. The best indication
of I/O common grouping is on the wiring
label, such as the one shown to the right.
The miniature schematic shows two circuit
banks with eight input points in each. The
common terminal for each is labeled “CA”
and “CB”, respectively.
In the wiring label example, the positive
terminal of a DC supply connects to the
common terminals. Some symbols you
will see on the wiring labels, and their
meanings are:
AC supply
DC supply
--
Input Switch
AC or DC supply
+
Output Load
L
12--24VDC
INPUT
TB
A
0
1
2
3
B
4
5
6
7
0
1
2
3
D4--16ND2
10.2--26.4VDC
4--12mA
CA
0
4
1
5
2
6
3
7
CB
4
0
5
1
6
2
7
3
4
5
6
7
I/O Wiring and
Specifications
If there was unlimited space and budget
for I/O terminals, then every I/O point
could have two dedicated terminals as the
figure above shows. However, providing
this level of flexibility is not practical or
even necessary for most applications.
Most Input or Output points are in groups
which share the return path (called
commons). The figure to the right shows a
group (or bank) of 4 input points which
share a common return path. In this way,
the four inputs require only five terminals
instead of eight.
Main Path
(I/O Point)
Field
Device
Getting Started
In order for an I/O circuit to operate,
I/O “Common”
Terminal Concepts current must enter at one terminal and exit
at another. This means at least two
terminals are associated with every I/O
point. In the figure to the right, the Input or
Output terminal is the main path for the
current. One additional terminal must
provide the return path to the power
supply.
Getting Started
3--6
I/O Wiring and Specifications
Connecting DC I/O In the previous section on Sourcing and Sinking concepts, we explained that DC I/O
circuits sometimes will only allow current to flow one way. This is also true for many of
to “Solid State”
the field devices which have solid-state (transistor) interfaces. In other words, field
Field Devices
devices can also be sourcing or sinking. When connecting two devices in a series
DC circuit, one must be wired as sourcing and the other as sinking.
Solid State
Several DL405 DC input modules are flexible in that they detect current flow in either
direction, so they can be wired as either sourcing or sinking. In the following circuit, a
Input Sensors
field device has an open-collector NPN transistor output. It sinks current from the
input point, which sources current. The power supply can be the +24 auxiliary supply
or another supply (+12 VDC or +24VDC), as long as the input specifications are met.
Field Device
DL405 System DC Input
Input
(sourcing)
Output
(sinking)
Supply
Ground
--
+
Common
In the next circuit, a field device has an open-emitter PNP transistor output. It
sources current to the input point, which sinks the current back to ground. Since the
field device is sourcing current, no additional power supply is required.
I/O Wiring and
Specifications
Field Device
+V
DL405 System DC Input
Input
Output (sourcing)
Ground
Solid State
Output Loads
(sinking)
Common
Sometimes an application requires connecting an output point to a solid state input
on a device. This type of connection is usually made to carry a low-level control
signal, not to send DC power to an actuator.
Several of the DL405 DC output modules are the sinking type. This means that each
DC output provides a path to ground when it is energized. In the following circuit, the
output point sinks current to the output common when energized. It is connected to a
sourcing input of a field device input.
DL405 System DC Sinking Output
Power
+DC pwr
Field Device
+V
Output
(sinking)
+
Common
--
Input
(sourcing)
10--30 VDC
Ground
3--7
I/O Wiring and Specifications
DL405 System DC Output
Power
+DC pwr
Field Device
R pull-up
(sourcing)
(sinking)
+
Input
(sinking)
--
Ground
Output
Supply
Common
R input
It is important to choose the correct value of R pull-up. In order to do so, the nominal
input current to the field device (I input) when the input is energized needs to be
identified. If this value is not known, it can be calculated as shown (a typical value is
15 mA). Then use I input and the voltage of the external supply to compute R pull-up.
Next calculate the power Ppull-up (in watts), in order to size R pull-up properly.
=
R pull-up =
V input (turn--on)
R input
V supply -- 0.7
I input
-- R input
P pull-up =
V supply
2
R pullup
The easiest way to drive a sinking input field device as shown below is to use a DC
sourcing output module. The Darlington NPN stage will have about 1.5 V ON-state
saturation, but this is not a problem with low-current solid-state loads.
DL405 System DC Sourcing Output
+DC pwr
Common
Field Device
Output (sourcing)
Supply
+
Input
(sinking)
--
Ground
R input
I/O Wiring and
Specifications
NOTE 1: DO NOT attempt to drive a heavy load (>25 mA) with this pull-up method
NOTE 2: Using the pull-up resistor to implement a sourcing output has the effect of
inverting the output point logic. In other words, the field device input is energized
when the DL405 system output is OFF, from a ladder logic point-of-view. Your ladder
program must comprehend this and generate an inverted output. Or, you may
choose to cancel the effect of the inversion elsewhere, such as in the field device.
I input
Getting Started
In the next example a sinking DC output point is connected to the sinking input of a
field device. This is different, because both the DL405 system output and field device
input are sinking type. Since the circuit must have one sourcing and one sinking
device, a sourcing capability is added to the system output by using a pull-up
resistor. In the circuit below, connect Rpull-up from the output to the DC output circuit
power input.
I/O Wiring and Specifications
Relay Output
Guidelines
Four output modules in the DL405 I/O family feature relay outputs: D4--08TR,
F4--08TRS--1, F4--08TRS--2, D4--16TR. Relays are best for the following
applications:
S Loads that require higher currents than the solid-state outputs can
deliver
S Cost-sensitive applications
S Some output channels need isolation from other outputs (such as when
some loads require different voltages than other loads)
Some applications in which NOT to use relays:
S Loads that require currents under 10 mA
S Loads which must be switched at high speed or heavy duty cycle
Relay outputs in the DL405 output
modules are available in two contact
arrangements, shown to the right. The
Form A type, or SPST (single pole, single
throw) type is normally open and is the
simplest to use. The Form C type, or
SPDT (single pole, double throw) type has
a center contact which moves and a
stationary contact on either side. This
provides a normally closed contact and a
normally open contact.
Some relay output module’s relays share
common terminals, which connect to the
wiper contact in each relay of the bank.
Other relay modules have relays which
are completely isolated from each other. In
all cases, the module drives the relay coil
when the corresponding output point is on.
I/O Wiring and
Specifications
Getting Started
3--8
Prolonging Relay
Contact Life
Relay with Form A contacts
Relay with Form C contacts
Relay contacts wear according to the amount of relay switching, amount of spark
created at the time of open or closure, and presence of airborne contaminants.
However, there are some steps you can take to help prolong the life of relay contacts:
S Switch the relay on or off only when the application requires it.
S If you have the option, switch the load on or off at a time when it will
draw the least current.
S Take measures to suppress inductive voltage spikes from inductive DC
loads such as contactors and solenoids (circuit given below).
DL405 Relay Output
Inductive Field Device
Input
Output
R
C
Common
Supply
+
--
Common
I/O Wiring and Specifications
3--9
C (µF) =
2
I
R (O ) =
10
V
10 x I x
, where x= 1 +
Getting Started
Adding external contact protection may extend relay life beyond the number of
contact cycles listed in the specification tables for relay modules. High current
inductive loads such as clutches, brakes, motors, direct-acting solenoid valves, and
motor starters will benefit the most from external contact protection.
The RC network must be located close to the relay module output connector. To find
the values for the RC snubber network, first determine the voltage across the
contacts when open, and the current through them when closed. If the load supply is
AC, then convert the current and voltage values to peak values:
50
V
C minimum = 0.001 µF, the voltage rating of C must be = V, non-polarized
R minimum = 0.5 O , 1/2 W, tolerance is ? 5%
For example; a relay contact drives a load at 120VAC, 1/2 A. Since this example has
an AC power source, first, calculate the peak values:
Ipeak = Irms x 1.414, = 0.5 x 1.414 = 0.707 Amperes
Vpeak = Vrms x 1.414 = 120 x 1.414 = 169.7 Volts
Now, finding the values of R and C:
R (O ) =
x= 1 +
2
=
10
V
10 x I
50
169.7
x
0.707
10
2
= 0.05 µF, voltage rating = 170 Volts
, where x= 1 +
= 1.29
R (O ) =
50
V
169.7
10 x 0.707 1.29
= 16 O , 1/2 W, ? 5%
If the contact is switching a DC inductive load, add a diode across the load as near to
load coil as possible. When the load is energized the diode is reverse-biased (high
impedance). When the load is turned off, energy stored in its coil is released in the
form of a negative-going voltage spike. At this moment the diode is forward-biased
(low impedance) and shunts the energy to ground. This protects the relay contacts
from the high voltage arc that would occur just as the contacts are opening.
For best results, follow these guidelines in using a noise suppression diode:
S DO NOT use this circuit with an AC power supply.
S Place the diode as close to the inductive field device as possible.
S Use a diode with a peak inverse voltage rating (PIV) at least 100 PIV, 3A
forward current or larger. Use a fast-recovery type (such as Schottky
type). DO NOT use a small-signal diode such as 1N914, 1N941, etc.
S Be sure the diode is in the circuit correctly before operation. If installed
backwards, it short-circuits the supply when the relay energizes.
I/O Wiring and
Specifications
C (µF) =
I
3--10
I/O Wiring and Specifications
Getting Started
I/O Module Wiring and Specifications
Module Placement
?
Before wiring the I/O modules in your
system to field devices, it’s very important
to make sure each I/O module is in the
right slot and base in the system. Costly
wiring errors may be avoided by doing the
following:
S
S
Perform the power budget calculations for each base to verify the base
power supply can power all the modules in the base.
Whenever possible, keep modules with high voltage and current wiring
away from sensitive analog modules.
NOTE: Please refer to the applicable Base Controller User manual for the power
budget requirements and worksheets.
I/O Wiring and
Specifications
I/O Module
Status Indicators
The diagram below shows the status indicator location for common I/O modules.
Loose terminal
block indicator
Status indicators
Blown fuse
(non-replaceable)
indicator
(Output modules only)
Display status
(selects a group
of signals to
be displayed)
Wire tray
Color Coding
of I/O Modules
The DL405 family of I/O modules have a
color-coded stripe on the front bezel to
help identify whether the module type is
input, output, or special module. The color
code description is listed below:
Module Type
Discrete/Analog Output
Discrete/Analog Input
Other
Color Code
Red
Blue
White
110VAV
INPUT
TB
A
Color Bar
å
B
0
4
0
4
1
5
1
5
2
6
2
6
3
7
3
7
D4--16NA
80--132VAC
80--20mA
50/60Hz
CA
0
I/O Wiring and Specifications
You must first remove the front cover of the module prior to wiring. To remove the
cover depress the bottom tab of the cover and tilt the cover up to loosen from the
module.
All DL405 I/O module terminal blocks are removable for your convenience. To
remove the terminal block loosen the retaining screws and and lift the terminal block
away from the module. When you return the terminal block to the module make sure
the terminal block is tightly seated. Be sure to tighten the retaining screws. You
should also verify the loose terminal block LED is off when system power is applied.
Getting Started
Wiring a Module
with a Terminal
Block
3--11
WARNING: For some modules, field device power may still be present on the
terminal block even though the system is turned off. To minimize the risk of electrical
shock, disconnect all field device power before you remove the connector.
Loose terminal block
LED indicator
Retaining screw
Push tab and
lift to remove
I/O module
wiring tray
Retaining screw
I/O Wiring and
Specifications
Terminal screws
Getting Started
3--12
I/O Wiring and Specifications
Wiring a Module
using a Ribbon
Cable/Solder Type
Connector
The 32 point and 64 point modules use a different style of connector due to the
increased number of I/O points. There are two types of connectors used with the
higher density modules. One is a D-shell connector, which requires soldering. The
other is a ribbon cable type of connector which simply crimps onto a ribbon cable.
For the 64 point modules, you must either use ribbon cable connectors, or special
solder type connectors designed specifically for the 64 point modules. Order part
number D4--IO3264S, which includes 2 solder-type connectors in the pack, or order
D4--IO32R, which contains 2 ribbon cable type connectors in the pack.
NOTE:
For
another
alternative
wiring
solution,
consider
using
Automationdirect.com’s ZIPLink Connection systems. The ZIPlink cables plug
directly into a Automationdirect.com I/O module. The opposite end is connected to a
ZIPlink connector module. Please refer to our catalog for more information on these
products.
32 pt. Module
I/O Wiring and
Specifications
D-sub type connector
OR
64pt. Module
Ribbon connector
Ribbon cable
Terminal block
I/O Wiring and Specifications
Both types of connectors are available from Automationdirect.com. These same
connectors are also available from other Fujitsu Microelectronics, Inc. Use the
following part numbers to order these connectors.
Automationdirect.com Part Numbers
S D4--IO3264R — Ribbon cable connectors, 2 in a pack. Can be used on
either 32 point or 64 point modules.
S
D4--IO3264S — Solder type connector, 2 in a pack. Can be used on
either 32 point or 64 point modules.
Getting Started
Part Numbers for
Module
Connectors
3--13
Fujitsu Part Numbers
For connectors made by Fujitsu, you may contact Fijitsu at the following address:
Fujitsu Microelectronics, Inc.
Electronic Components Division
3545 North First Street
San Jose, CA 95134--1804 USA
408--922--9000
S FCN--367J040--AU/F, or --AG/F — 32 / 64 point ribbon cable connector
S FCN--361J040--AU, or --AG — 32 / 64 point solder type connector
(AU connectors use gold over palladium plating. AG connectors use silver plating.)
If you wish to use a terminal block with your 32 or 64 point module, here is a partial list
of vendors who can provide the parts you will need to build the configuration shown
earlier consisting of a ribbon cable, a ribbon cable connector and a terminal block.
Vendors
3M Electronic Products Division
6801 River Place Blvd.
Austin, TX 78726--9000
800--225--5373
DuPont Connector Systems
Barley Mill Plaza
Wilmington, DE 19898--0019
800--237--2374
Augat/RDI
525 Randy Rd.
Carol Stream, IL 60188
708--682--4100
Phoenix Contacts Products
P.O. Box 4100
Harrisburg, PA 17111--0100
717--944--1300
AMP Incorporated
P.O. Box 3608
Harrisburg, PA 17105--3608
717--564--0100
Thomas & Betts Electronics Div.
200 Executive Center Drive
Greenville, SC 29616
803--676--2900
Cooper Industries, Belden Div.
P.O. Box 1980
Richmond, IN 47375
317--983--5200
Weidmuller, Inc.
821 Southlake Blvd.
Richmond, VA 23236
804--794--2877
Newark Electronics
4108 North Ravenswood Ave.
Chicago, Il 60640
312--784--5100
(Newark Electronics is a distributor
for all of the above product manufacturers except for Phoenix Contacts
Products)
I/O Wiring and
Specifications
Vendors For the
Parts Used in the
Terminal Block
Configuration
3--14
I/O Wiring and Specifications
Getting Started
Ribbon Cable
I/O Wiring and
Specifications
Ribbon Cable
Connectors
Interface Terminal
Block
The chart below lists cables which can be used to connect the terminal block with a
32 I/O module. The cables are 40 conductors with a .050” pitch PVC stranded ribbon
cable.
Description/Type
Vendor
Part Number
Gray / 26 AWG
3M
3801 / 40
Gray / 26 AWG
Belden
9L260 40
Gray / 28 AWG
Belden
9L280 40
Gray / 28 AWG
DuPont
76825--040
Gray / 28 AWG
AMP
499116--5
Color coded / 26 AWG
3M
3811 / 40
Color coded / 28 AWG
Belden
9R280 40
Color coded / 28 AWG
DuPont
76177--040
The ribbon cable connectors listed below are for attaching the ribbon cable to the
terminal block. The cables are all .100” x .100” 2 x20 female ribbon connectors with a
center bump.
Description/Type
Vendor
Part Number
Connector
3M
3417--7640
Strain Relief
3M
3448--3040
Connector
3M
3417--7640
Strain Relief
3M
3448--3040
Connector (pre-assembled)
3M
89140--0103--T0
Strain Relief
3M
3448--89140
Connector (with strain relief)
Thomas & Betts
622--4041
Connector (pre-assembled)
AMP
746286--9
Strain Relief
AMP
499252--1
Connector (with strain relief)
DuPont
66902--240
Connector (with strain relief)
Molex
15--29--9940
Below are terminal blocks which can be used to transition a 40 conductor ribbon
cable to 40 discrete field wires. The terminal block features are: 2 x 20 .100” x .100”
pin center (male) connector head terminals (.2” centers) accepting 22--12 AWG, no
fuses.
Description/Type
Vendor
Part Number
Panel Mount
Weidmuller
RI--40A /914897
Rail Mount
RI--40A /914908
Rail Mount
Phoenix Contacts
FLKM 40 / 2281076
Special Mount
(DIN rail compatible)
includes ribbon connector
Augat/RDI
2M40FC
I/O Wiring and Specifications
Use the following guidelines when wiring the I/O modules in your system.
Step1 -Note the limits to the size of wire the modules can accept. The
table below lists the maximum AWG for each module type. Smaller AWG is
acceptable to use for each of the modules.
Module type
Maximum AWG
8 point
12
16 point
14
32 point -- common
20
32 point -- other
24
64 point
24 (requires ribbon cable)
F4--08THM--X
10 (Thermocouple wire)
Getting Started
I/O Wiring
Checklist
3--15
Note: 12 AWG Type TFFN or Type MTW can be used on 8pt. modules.
14 AWG Type TFFN or Type MTW can be used on 16pt. modules.
External Fuses
(shown with DIN Rail,
fuse blocks)
NOTE: For modules which have soldered-in or non-replaceable fuses, we
recommend that you return your module to us and let us replace your blown fuse(s)
since disassembling the module will void the warranty.
I/O Wiring and
Specifications
Step2 -Always use a continuous length of wire. Do not splice wires to
attain a needed length.
Step3 -Use the shortest possible wire length.
Step4 -Where possible use wire trays for routing .
Step5 -Avoid running wires near high energy wiring.
Step6 -Avoid running input wiring close to output wiring where
possible.
Step7 -To minimize voltage drops when wires must run a long distance,
consider using multiple wires for the return lines.
Step8 -Where possible avoid running DC wiring in close proximity to
AC wiring.
Step9 -Avoid creating sharp bends in the wires.
Step10 -IMPORTANT! To help avoid having a module with a blown fuse,
we suggest you add external fuses to your I/O wiring. A fast blow fuse, with
a lower current rating than the I/O module fuse can be added to each
common, or a fuse with a rating of slightly less than the maximum current
per output point can be added to each output.
I/O Wiring and
Specifications
Getting Started
3--16
I/O Wiring and Specifications
DL405 Discrete
The following table lists the available DL405 input modules.
Input Module Chart
DL405
Input Module Type
DL405 Discrete
Output Module
Chart
Number of
Input Points
DC Current
Sink Input
DC Current
Source Input
AC Input
D4--16ND2
16
4
D4--16ND2F
16
4
D4--32ND3--1
32
4
4
D4--32ND3--2
32
4
4
D4--64ND2
64
4
D4--08NA
8
4
D4--16NA (--1)
16
4
D4--16NE3
16
4
4
4
F4--08NE3S
8
4
4
4
D4--08ND3S
8
4
4
The following table lists the available DL405 output modules. Specifications begin
after the input modules’ specifications.
Number of
Output Points
DC Current
Sink Output
D4--08TD1
8
4
F4--08TD1S
8
4
D4--16TD1
16
4
D4--16TD2
16
D4--32TD1
32
4
D4--32TD1--1
32
4
D4--32TD2
32
D4--64TD1
64
D4--08TA
8
4
D4--16TA
16
4
D4--08TR
8
4
4
4
F4--08TRS--1
8
4
4
4
F4--08TRS--2
8
4
4
4
D4--16TR
16
4
4
4
DL405
Output Module Type
DC Current
Source
Output
AC Output
4
4
4
I/O Wiring and Specifications
Specification
F4--08THM--n
Channels
8
Input Ranges
Type
Type
Type
Type
Type
Type
Type
Type
Type
--1:
--2:
--3:
Resolution
F4--08RTD
8
E:
J:
K:
R:
S:
T:
C:
B:
P:
--270/1000_C (--450/1832_F)
--210/760_C (--350/1390_F)
--270/1370_C (--450/2500_F)
0/1768_C (--32/3214_F)
0/1768_C (--32/3214_F)
--270/400_C (--450/752_F)
0/2320_C (--32/4208_F)
141/1820_C (286/3594_F)
--99/1395_C (--146/2543_F)
0 to 50mV
0 to 100mV
0 to 25mV
12 bit (1 in 4096)
Specification
Cu. 25W, Cu. 10W:
--200.0/260.0_C
(--328/500_F)
15 bit (1 in 32768)
Maximum Inaccuracy ±1° C type J,K,E,T thermocouples
±3° C type R,S,B,C,P thermocouples
Special Input
Module Chart
Pt100W: --200.0/850.0_C
(--328/ 562_F)
Pt1000W: --200.0/595.0_C
(--328/1103_F)
jPt100W: --38.0/450.0_C
(--36/842_F)
±0.2% at 25°C (77°F)
F4--08THM
Channels
8
Input Ranges
Type
Type
Type
Type
Type
Type
Type
Type
Type
--1:
--2:
--3:
Resolution
16 bit (1 in 65535)
--190/760_C (--310/1400_F)
--210/1000_C (--346/1832_F)
--150/1372_C (--238/2502_F)
65/1768_C (149/3214_F)
65/1768_C (149/3214_F)
--230/400_C (--382/752_F)
529/1820_C (984/3308_F)
--70/1300_C (--94/2372_F)
65/2320_C (149/4208_F)
0 to 50mV
0 to 100mV
0 to 25mV
I/O Wiring and
Specifications
J:
E:
K:
R:
S:
T:
B:
N:
C:
Maximum Inaccuracy ±3° C (excluding thermocouple error)
Analog Input
Module Chart
Getting Started
Special Input
Module Chart
3--17
Specification
F4--04AD
F4--04ADS
F4--08AD
Channels
4
4
8
Input Ranges
0--20 mA, 4--20 mA,
1--5V, 0--5V, 0--10V,
±5V, ±10V
0--20 mA, 4--20 mA,
1--5V, 0--5V, 0--10V,
±5V, ±10V
0--20 mA, 4--20 mA,
1--5V, 0--5V, 0--10V,
±5V, ±10V
Resolution
12 bit (1 in 4096)
12 bit (1 in 4096)
12 bit (1 in 4096)
Input Type
Single ended
Isolated
Single ended
±0.4% at 25°C (77°F)
±0.7% at 0° to 60°C
(32° to 140°F)
±0.3% at 25°C (77°F)
±0.5% at 0° to 60°C
(32° to 140°F)
Maximum Inaccuracy ±0.4% at 25°C (77°F)
±0.55% at 0° to 60° C
(32° to 140°F)
Getting Started
3--18
I/O Wiring and Specifications
Analog Output
Module Chart
Specification
D4--02DA
F4--04DA--1
Channels
2
4
4
Output Ranges
4--20 mA, 1--5V, 0--10V
4--20 mA, 0--5V, 0--10V,
±5V, ±10V
4--20mA
Resolution
12 bit (1 in 4096)
12 bit (1 in 4096)
12 bit (1 in 4096)
Output Type
Independent
Single ended
Single ended
Maximum
Inaccuracy
±0.2% at 25°C
(77°F)
±0.5% at 60°C (unipo.) ±0.1 % at 25°C (77°F)
±0.7% at 60°C (bipol.) ±0.3 % at 0 to 60°C
±0.8% at 60°C (curr.)
(32 to 140°F)
Specification
I/O Wiring and
Specifications
F4--04DA
F4--04DA--2
F4--08DA--1
F4-16DA-1
Channels
4
8
16
Output Ranges
0--5V, 0--10V, ±5V,
±10V
4--20mA
4--20 mA
Resolution
12 bit (1 in 4096)
12 bit (1 in 4096)
12 bit (1 in 4096)
Output Type
Single ended
Single ended
Single ended
Maximum
Inaccuracy
±0.2 % at 25°C (77°F)
± 0.4% at 0° to 60°C
(32° to 140°F)
±0.2% at 25°C (77°F)
±0.4% at 0° to 60°C
(32° to 140°F)
±0.2 % at 25°C (77°F)
±0.4 % at 0° to 60°C
(32° to 140°F)
Specification
F4--04DAS--1
F4--08DA--2
F4-16DA-2
Channels
4
8
16
Output Ranges
4--20 mA
0--5v, 0--10v
0--5v, 0--10v,
Combination of both
Resolution
16 bit (1 in 65536)
12 bit (1 in 4096)
12 bit (1 in 4096)
Output Type
Single ended
Single ended
Single ended
Maximum
Inaccuracy
±0.07 % at 25°C(77°F)
± 0.18% at 0° to 60°C
(32° to 140°F)
±0.2% at 25°C (77°F)
±0.4% at 0° to 60°C
(32° to 140°F)
±0.2 % at 25°C (77°F)
±0.4 % at 0° to 60°C
(32° to 140°F)
I/O Wiring and Specifications
3--19
Glossary of Specification Terms
Commons Per Module
Number of electrical commons per module. A common is a connection to an input
or output module which is shared by multiple I/O circuits. It is ususally in the return
path to the power supply of the I/O circuit.
Input Voltage Range
The operating voltage range of an input circuit, measured from an input point to its
common terminal, when the input is ON.
Output Voltage Range
The output voltage range of an output circuit, measured from an output point to its
common terminal, when the output is OFF.
Peak Voltage
Maximum voltage allowed for an input or output circuit for a short duration.
AC Frequency
AC modules are designed to operate within a specific frequency range.
ON Voltage Level
The minimum voltage level at which an input point will turn ON.
OFF Voltage Level
The maximum voltage level at which an input point will turn OFF.
Input Impedance
The electrical resistance measured between an input point and its common point.
Since this resistance is non-linear, it may be listed for various input currents.
Input Current
Typical operating current for an active (ON) input.
Minimum ON Current
The minimum current for the input circuit to operate reliably in the ON state.
Maximum OFF Current
The maximum current for the input circuit to operate reliably in the OFF state.
Minimum Load
The minimum load current required for an output circuit to operate properly.
External DC Required
Some output modules require external power for the output circuitry.
On Voltage Drop
Sometimes called “saturation voltage”, it is the voltage measured from an output
point to its common terminal when the output is ON, at max. load.
Maximum Leakage
Current
The maximum current a connected maximum load will receive when the output
point is OFF.
Maximum Inrush Current
The maximum current used by a load for a short duration upon an OFF to ON
transition of a output point. It is greater than the normal ON state current and is
characteristic of inductive loads in AC circuits.
Base Power Required
The +5VDC power from the base required to operate the module. Be sure to
observe the base power budget calculations.
OFF to ON Response
The time the module requires to process an OFF to ON state transition.
ON to OFF Response
The time the module requires to process an ON to OFF state transition.
Status Indicators
The LEDs that indicate the ON/OFF status of an input or output point. These LEDs
are electrically located on the logic (CPU) side of the I/O interface circuit.
Terminal Type
Indicates whether the module’s connector is removable or non-removable.
Weight
Indicates the weight of the module.
Fuses
Protective device for an output circuit, which stops current flow when current
exceeds the fuse rating current. It may be replaceable or non-replaceable, or
located externally or internally.
I/O Wiring and
Specifications
Indicates number of electrical input or output points per module and designates
current sinking, current sourcing, or either.
Getting Started
Inputs or Outputs Per
Module
3--20
I/O Wiring and Specifications
I/O Wiring and
Specifications
Getting Started
D4--08ND3S DC Input
D4--16ND2 DC Input
Inputs per module
8 (sink/source)
Inputs per module
16 (current sourcing)
Commons per module
8 (isolated)
Commons per module
2 (isolated)
Input voltage range
20--52.8VDC
Input voltage range
10.2--26.4VDC
Peak voltage
52.8VDC
Peak voltage
26.4VDC
ON voltage level
>18 V
ON voltage level
> 9.5VDC
OFF voltage level
< 7V
OFF voltage level
< 4.0 VDC
Input impedance
4.8 K O
Input impedance
3.2 KO @ 12VDC
2.9 KO @24VDC
Input current @ 24 / 48 VDC
5 mA / 10 mA
Input current @ 12 / 24VDC
3.8 mA / 8.3 mA
Minimum ON current
3.5 mA
Minimum ON current
3.5 mA
Maximum OFF current
1.5 mA
Maximum OFF current
1.5 mA
Base power required 5V
100 mA max
Base power required 5V
150 mA max
OFF to ON response
3--10 ms
OFF to ON response
1--7 ms (2.3 typical)
ON to OFF response
3--12 ms
ON to OFF response
2--12 ms (4.6 typical)
Terminal type
Removable
Terminal type
Removable
Status indicators
Logic Side
Status indicators
Logic Side
Weight
8.8 oz. (250 g)
Weight
8.8 oz. (250 g)
Derating Chart
Points
8
24--48VDC
TB
6
0
1
2
3
4
2
0
4
5
6
7
+
--
+
0
--
+
1
20--52.8VDC
4--12mA
C0
--
+
2
+
--
3
+
--
4
+
--
5
+
--
6
7
C0
C1
C1
1
C2
C3
12--24VDC
TB
0
1
2
3
8
0
--
Derating Chart
Points
16
12
D4--08ND3S
0 10 20 30 40 50 60° C
32 50 68 86 104 122 140° F
Ambient Temperature (°C/°F)
INPUT
4
0
12--24VDC --
0
C2
1
2
2
3
3
12--24VDC --
+
CB
C5
C4
C6
4
0
C7
C5
1
5
2
C6
6
C7
To LED
+
-Optical
Isolator
Current sourcing configuration shown
10.2--26.4VDC
4--12mA
CA
3
4
4
1
5
5
6
7
4
5
6
7
2
6
3
7
CB
4
0
5
1
Current Flow
6
2
12--24VDC
-- +
7
Common
3
To LED
Input
0
1
2
3
CA
7
Common
B
4
5
6
7
0
+
C3
C4
A
D4--16ND2
0 10 20 30 40 50 60 ° C
32 50 68 86 104 122 140° F
Ambient Temperature (°C/°F)
Input
Optical
Isolator
INPUT
4
5
6
7
3--21
I/O Wiring and Specifications
D4--16ND2F DC Input
D4--16SIM Input Simulator
16 (current sourcing)
Inputs per module
8 or 16, selectable
2 (isolated)
Base power required 5V
150 mA Max
Input voltage range
10.2--26.4VDC
Terminal type
None
Peak voltage
26.4VDC
Status indicators
Logic Side
ON voltage level
> 9.5VDC
Weight
8.8 oz. (250 g)
OFF voltage level
< 4.0VDC
Input impedance
3.2 K O @ 12VDC
2.9 K O @ 24VDC
Input current @ 12 / 24 VDC
3.8 mA / 8.3 mA
Minimum ON current
3.5 mA
Maximum OFF current
1.5 mA
Base power required 5V
150 mA max
OFF to ON response
1 ms
ON to OFF response
1 ms
Terminal type
Removable
Status indicators
Logic Side
Weight
8.8 oz. (250 g)
12--24VDC
12
TB
8
0
1
2
3
4
0 10 20 30 40 50 60° C
32 50 68 86 104 122 140 ° F
Ambient Temperature (°C/°F)
INPUT SIMULATOR
INPUT
A
8
A
B
0
1
2
3
4
5
6
7
0
1
2
3
4
5
6
7
--
+
CA
0
4
1
2
3
10.2--26.4
VDC
--
+
D4--16SIM
10.2--26.4VDC
4--12mA
OFF
0
1
2
Current Flow
4
1
5
6
2
A0
6
3
Switch position is indicated
by the LEDs above the input
switches
A1
A2
A3
A4
A5
A6
7
5
CB
A7
6
4
B0
0
5
1
6
2
12--24VDC
-- +
8 or 16 input point selection
switch is located on the back
of the module
4
7
3
0
5
7
CB
4
5
6
7
D4--16ND2F
CA
10.2--26.4
VDC
16
B
Common
To LED
B1
B2
B3
7
B4
3
B5
B6
B7
Input
Optical
Isolator
0
1
2
3
4
5
6
7
ON
I/O Wiring and
Specifications
Derating Chart
Points
16
0
Getting Started
Inputs per module
Commons per module
3--22
I/O Wiring and Specifications
I/O Wiring and
Specifications
Getting Started
D4--32ND3--1, 24VDC Input
D4--32ND3--2 5--12VDC Input
Inputs per module
32 (sink/source)
Inputs per module
32 (sink/source)
Commons per module
4 (isolated)
Commons per module
4 (isolated)
Input voltage range
20--28VDC
Input voltage range
4.75--13.2VDC (TTL, CMOS)
Peak voltage
30VDC
Peak voltage
15VDC
ON voltage level
> 19V
ON voltage level
> 4 V (use pullup R for TTL in)
OFF voltage level
< 10 V
OFF voltage level
<2V
Input impedance
4.8 K O
Input impedance
1.6 KO
Input current
5 mA
Input current
3.1 mA @ 5V, 7.5 mA @ 12V
Minimum ON current
3.5 mA
Minimum ON current
1.8 mA
Maximum OFF current
1.6 mA
Maximum OFF current
0.8 mA
Base power required 5V
150 mA max
Base power required 5V
150 mA max
OFF to ON response
2--10 ms
OFF to ON response
1--4 ms
ON to OFF response
2--10 ms
ON to OFF response
1--4 ms
Terminal type
Removable, 40 pin conn.
Terminal type
Removable, 40 pin conn.
Status indicators
Logic Side
Status indicators
Logic Side
Weight
6.6 oz. (190 g)
Weight
6.6 oz. (190 g)
Derating Chart
Points
32
28
24
20
16
12
8
4
0
24VDC
INPUT
A-B C-D
B/D
A/C
0
1
2
3
4
5
6
7
0
1
2
3
4
5
6
7
D4--32ND3--1
0 10 20 30 40 50 60° C
32 50 68 86 104 122 140° F
Ambient Temperature (°C/°F)
Current Flow
+
User
Supply --
Current Flow
--
User
Supply +
Current Flow
+
User
Supply -Current Flow
A0
A4
A1
A5
A2
A6
A3
A7
COM I
B0
B4
B1
B5
B2
B6
B3
B7
COM II
C0
C4
C1
C5
C2
C6
C3
C7
COM III
D0
D4
D1
D5
D2
D6
D3
D7
COM IV
24 VDC
Common
+ --
DISPLAY
SELECT
A-B
Derating Chart
Points
32
28
24
20
16
12
8
4
0
0 10 20 30 40 50 60° C
32 50 68 86 104 122 140° F
Ambient Temperature (°C/°F)
20--28VDC, CLASS2
4.2--5.8mA
0
1
2
3
4
5
6
7
Current Flow
+
User
Supply --
Current Flow
-User
Supply +
Current Flow
+
User
Supply -Current Flow
5--12 VDC
+ --
A0
A4
A1
A5
A2
A6
A3
A7
COM I
DISPLAY
SELECT
A-B
C-D
4.75--13.2VDC, CLASS2
3.1--8.2mA
A0 A4
A1 A5
A2 A6
A3 A7
CI CI
B0 B4
B1 B5
B2 B6
B3 B7
CII CII
C0 C4
C1 C5
C2 C6
C3 C7
CIII CIII
D0 D4
D1 D5
D2 D6
D3 D7
CIV CIV
B0
B4
B1
B5
B2
B6
B3
B7
COM II
C0
C4
C1
C5
C2
C6
C3
C7
COM III
D0
D4
D1
D5
D2
D6
D3
D7
COM IV
Common
To LED
Use Display Select switch to view
Optical(A0--A7, B0--B7) or (C0--C7, D0--D7)
Isolator
4
5
6
7
D4--32ND3--2
To LED
Input
INPUT
A-B C-D
B/D
A/C
0
1
2
3
C-D
A0 A4
A1 A5
A2 A6
A3 A7
CI CI
B0 B4
B1 B5
B2 B6
B3 B7
CII CII
C0 C4
C1 C5
C2 C6
C3 C7
CIII CIII
D0 D4
D1 D5
D2 D6
D3 D7
CIV CIV
5--12VDC
Current sinking config. shown
Input
Use Display Select switch to view
B0--B7) or (C0--C7, D0--D7)
Current sinking config. shown
Optical(A0--A7,
Isolator
3--23
I/O Wiring and Specifications
D4--64ND2, 24 VDC Input Module
CPU base only *
Base power required 5V 300 mA max
Inputs per module
64 (current sourcing)
External power required 24VDC ? 10%,
(optional)
320mA max
Commons per module
8 (isolated)
OFF to ON response
2.5 ms (typical)
Input voltage range
20 -- 28 VDC
ON to OFF response
5.0 ms (typical)
Peak voltage
30 VDC
Terminal type
ON voltage level
> 20 V
2, Removable
40 pin connectors
(sold separately)
OFF voltage level
< 13 V
Status indicators
Logic Side
Input impedance
4.8 K O
Weight
7.8 oz. (220 g)
Input current
5.0 mA @ 24 VDC
Minimum ON current
3.6 mA
Maximum OFF current
2.6 mA
Points
Derating Chart
32
0
0
32
10
20
30
40
50
50
68
86
104
122
Ambient Temperature (°C/°F)
60 °C
140°F
Wiring per 32pts.
with 24V on Connector
Wiring per 32pts.
using EXT 24VDC Connector
Internally
Connected
0v
-24VDC +
Current Flow
COM
Current Flow
-24VDC
0v
COM
+
Current Flow
Current Flow
0v
COM
+
24VDC --
Current Flow
COM
0v
INPUT
A/C
0
1
2
3
4
5
6
7
B/D
0
1
2
3
4
5
6
7
0
1
2
3
4
5
6
7
0
1
2
3
A4
A5
A6
A7
0V
A14
A15
A16
A17
0V
B4
B5
B6
B7
0V
B14
B15
B16
B17
0V
C0
C1
C2
C3
C5
C10
C11
C12
C13
C6
D0
D1
D2
D3
C7
D10
D11
D12
D13
C8
C4
C5
C6
C7
0V
C14
C15
C16
C17
0V
D4
D5
D6
D7
0V
D14
D15
D16
D17
0V
DISPLAY
SELECT
A-B
C-D
20--28VDC
4.2--5.8mA CLASS2
CN1
CN2
Input
Input
To LED
To LED
EXT
24VDC
Optical
Isolator
Common
Optical
Isolator
24VDC
-+
Common
0V
24VDC Ext
+
--
4
5
6
7
D4--64ND2
Connector Pins
A0
A1
A2
A3
C1
A10
A11
A12
A13
C2
B0
B1
B2
B3
C3
B10
B11
B12
B13
C4
Current Flow
Current Flow
24VDC
0V
+
+
--
--
* Module location -- this module placement is
restricted to the local base on DL430/DL440
systems. It may also be placed in expansion
bases in DL450 systems that are using the new
(--1) bases.
+
--
I/O Wiring and
Specifications
Since there are only 32 LEDs on the module, you
can only display the status for 32 points at one
time. In the A - B position the status of the first
group of 32 input points (A0--A17, B0--B17) are
displayed (connector 1). In the C - D position the
status of the second group of 32 input points
(C0--C17, D0--D17) are displayed (connector 2).
64
Getting Started
Module Location
3--24
I/O Wiring and Specifications
I/O Wiring and
Specifications
Getting Started
D4--08NA 110--220VAC Input
D4--16NA 110VAC Input
Inputs per module
8
Inputs per module
16
Commons per module
2 (isolated)
Commons per module
2 (isolated)
Input voltage range
80--265VAC
Input voltage range
80--132VAC
Peak voltage
265VAC
Peak voltage
132VAC
AC frequency
47--63 Hz
AC frequency
47--63 Hz
ON voltage level
> 70V
ON voltage level
> 70V
OFF voltage level
< 30 V
OFF voltage level
< 20 V
Input impedance
12 K O
Input impedance
8KO
Input current
8.5 mA @100VAC
20 mA @ 230VAC
Input current
14.5 mA @120VAC
Minimum ON current
5 mA
Minimum ON current
7 mA
Maximum OFF current
2 mA
Maximum OFF current
2 mA
Base power required 5V
100 mA max
Base power required 5V
150 mA max
OFF to ON response
5--30 ms
OFF to ON response
5--30 ms
ON to OFF response
10--50 ms
ON to OFF response
10--50 ms
Terminal type
Removable
Terminal type
Removable
Status indicators
Logic Side
Status indicators
Logic Side
Weight
8.4 oz. (240 g)
Weight
9.5 oz. (270 g)
Derating Chart
Points
8
110--220VAC
TB
6
0
1
2
3
4
2
0
110--220 VAC
Derating Chart
Points
16
110VAC
TB
12
4
5
6
7
0
1
2
3
8
4
D4--08NA
0 10 20 30 40 50 60° C
32 50 68 86 104 122 140 ° F
Ambient Temperature (°C/°F)
INPUT
80--265VAC
10--30mA
50/60Hz
CA
CA
0
0
1
2
3
2
3
110 VAC
CB
CB
3
4
0
CB
1
5
2
4
6
3
7
CA
4
4
1
5
5
2
6
6
7
3
7
4
CB
5
4
6
0
7
5
1
5
6
2
6
110--220 VAC
110 VAC
Common
7
Common
3
7
To LED
To LED
Input
Optical
Isolator
0
1
2
3
0
110 VAC
2
110--220 VAC
B
4
5
6
7
80--132VAC
80--20mA
50/60Hz
CA
0 10 20 30 40 50 60° C
32 50 68 86 104 122 140 ° F
Ambient Temperature (°C/°F)
1
1
A
D4--16NA
0
0
INPUT
Input
Optical
Isolator
4
5
6
7
I/O Wiring and Specifications
3--25
D4--16NA--1 220VAC Input
Getting Started
Inputs per module
16
Commons per module
2 (isolated)
Input voltage range
187--238VAC
Peak voltage
265VAC
AC frequency
47--63 Hz
ON voltage level
> 150V
OFF voltage level
< 40 V
Input impedance
22 K O
Input current
10.0 mA @220VAC
Minimum ON current
7 mA
Maximum OFF current
2 mA
Base power required 5V
150 mA max
OFF to ON response
5--30 ms
ON to OFF response
10--50 ms
Terminal type
Removable
Status indicators
Logic Side
Weight
9.5 oz. (270 g)
110VAC
TB
12
0
1
2
3
8
4
0
INPUT
A
B
4
5
6
7
0
1
2
3
D4--16NA
220VAC
10--20 mA
50/60Hz
CA
0 10 20 30 40 50 60° C
32 50 68 86 104 122 140 ° F
Ambient Temperature (°C/°F)
0
0
1
2
3
CB
0
1
2
3
CA
4
4
1
5
5
2
6
6
7
3
7
4
CB
5
4
6
0
7
5
1
6
2
220 VAC
7
Common
3
To LED
Input
Optical
Isolator
4
5
6
7
I/O Wiring and
Specifications
Derating Chart
Points
16
3--26
I/O Wiring and Specifications
I/O Wiring and
Specifications
Getting Started
D4-16NE3 12--24VAC/DC Input
F4-08NE3S 90--150VAC/DC In
Inputs per module
16 (sink/source)
Inputs per module
8 (sink/source)
Commons per module
2 (isolated)
Commons per module
8 (isolated)
Input voltage range
10.2--26.4VAC/VDC
Input voltage range
90--150 VAC/VDC
Peak voltage
37.5VAC/VDC
Peak voltage
350 peak < 1ms
AC frequency
47--63 Hz
AC frequency
47--63 Hz
ON voltage level
> 9.5V
ON voltage level
> 90 VDC / 75VAC
OFF voltage level
< 3.0V
OFF voltage level
< 60 VDC / 45VAC
Input impedance @ 12V/24V
3.2 K O / 2.9 K O
Input impedance
22 K O
Input current @ 12V / 24V
3.8 mA / 8.3 mA
Input current
5.5 mA @ 120V
Minimum ON current
4 mA
Minimum ON current
4 mA
Maximum OFF current
1.5 mA
Maximum OFF current
2 mA
Base power required 5V
150 mA max
Base power required 5V
90 mA max
OFF to ON response
5--40 ms
OFF to ON response
8 ms
ON to OFF response
10--50 ms
ON to OFF response
15 ms
Terminal type
Removable
Terminal type
Removable
Status indicators
Logic Side
Status indicators
Logic Side
Weight
8.8 oz. (250 g)
Weight
9 oz. (256 g)
Points
16
Derating Chart
12--24VAC/DC
TB
12
0
1
2
3
8
4
0
A
0
1
2
3
0
1
2
3
CB
0
1
2
3
10.2--26.4V
AC/DC
4--18mA
50/60 Hz/DC
CA
Points
8
Derating Chart
90--150VAC/DC
6
B
4
5
6
7
D4--16NE3
0 10 20 30 40 50 60° C
32 50 68 86 104 122 140 ° F
Ambient Temperature (°C/°F)
INPUT
4
5
6
7
TB
0
1
2
3
4
2
0
F4--08NE3S
0 10 20 30 40 50 60° C
32 50 68 86 104 122 140 ° F
Ambient Temperature (°C/°F)
0
CA
IN
1
4
4
IN
1
1
5
5
6
2
IN
3
7
6
IN
3
3
4
7
5
CB
IN
5
6
4
7
0
IN
5
IN
7
5
IN
7
1
90--150VDC
90--150VAC
IN
0
IN
1
IN
0
IN
1
Common
IN
2
IN
3
IN
4
IN
3
IN
4
IN
6
IN
5
To LED
+
-Input
IN
5
Common
Optical
Isolator
Current sourcing configuration shown
+
--
Optical
Isolator
Input
IN
0
IN
2
IN
2
IN
6
7
3
IN
0
IN
2
6
2
4
5
6
7
To LED
IN
7
IN
7
IN
4
IN
4
IN
6
IN
6
INPUT
3--27
I/O Wiring and Specifications
D4--08TD1 12--24 VDC Output
F4-08TD1S 24--150 VDC Isolated Out
Getting Started
8 (current sinking)
Outputs per module
8 (current sinking)
2 internally connected
Commons per module
4 (isolated)
Operating voltage
10.2--26.4VDC
Operating voltage
24--150VDC
Output type
NMOS FET (open drain)
Output type
MOS FET
Peak voltage
40VDC
Peak voltage
200 VDC, <1mS
ON voltage drop
0.5VDC @ 2A, 0.2 VDC @1A
ON voltage drop
1VDC @ 2A
Max current (resistive)
2A / point, 5A / common
Max current
2A / point, 4A / common
Max leakage current
0.1mA @ 40VDC
Max leakage current
5 µA
Max inrush current
12A for 10 ms, 6A for 100 ms
Max inrush current
30A /1ms, 6A / 10ms, 3A / 100ms
Minimum load
0.2mA
Minimum load
N/A
Base power required 5V
150mA max
Base power required 5V
295 mA max
External DC required
24VDC ? 10%@35 mA
External DC required
None
OFF to ON response
1 ms
OFF to ON response
25 µs
ON to OFF response
1 ms
ON to OFF response
25 µs
Terminal type
Removable
Terminal type
Removable
Status indicators
Logic Side
Status indicators
Logic Side
Weight
8.4 oz. (240 g)
Weight
10 oz. (282 g)
Fuses (non-replaceable)
1 (7A) per common
Fuses (non-replaceable)
1 (3A) per output
Derating Chart
Points
8
12--24VDC
Output Current
1.25A/point
6
4
2
0
--
L
L
12--24 VDC +
--
L
1
0
L
Output Current
4.0A/point
+
--
2
3
C
Internally
connected
L
7
L
OUT
1
L
C
+
--
4
OUT
0
L
+
--
3
L
+24V
OUT
4
L
OUT
5
L
L
L
SUP
D
COM
6
COM
7
COM
0
COM
1
OUT
2
OUT
3
SUP
C
COM
4
COM
5
OUT
6
OUT
7
Supply
6
To LED
COM
3
L
5
-- +
24VDC
SUP
B
COM
2
SUP
A
+ --
7
C
Optical
Isolator
Common
24VDC
L
Output
3A
OPEN FUSE
4
5
6
7
24--150VDC
2A
OUT
0
OUT
1
SUP
B
COM
2
COM
3
OUT
4
OUT
5
COM
6
Output
+ 12--24
-- VDC
0
1
2
3
SUP
D
Common
Optical
Isolator
To LED
OUTPUT
TB
F4--08TD1S
0 10 20 30 40 50 60° C
32 50 68 86 104 122 140 ° F
Ambient Temperature (°C/°F)
+
--
0
1
6
L
+ 24VDC
2
C
L
Output
Current
1.5A/point
Output Current
2.0A/point
4
10.2--26.4VDC
0.2mA--2A
C
5
24--150VDC
6
4
L
To
Commons
FU
D4--08TD1
2
L
Derating Chart
Points
8
4
5
6
7
0
L
--
0
1
2
3
0 10 20 30 40 50 60° C
32 50 68 86 104 122 140 ° F
Ambient Temperature (°C/°F)
12--24 VDC +
24V
TB
Output Current
2A/point
(5A/common)
OUTPUT
COM
7
SUP
A
COM
0
COM
1
OUT
2
OUT
3
SUP
C
COM
4
COM
5
OUT
6
OUT
7
0
1
2
3
4
5
6
7
I/O Wiring and
Specifications
Outputs per module
Commons per module
3--28
I/O Wiring and Specifications
I/O Wiring and
Specifications
Getting Started
D4-16TD1 5-24 VDC Output
D4-16TD2, 12--24 VDC Output
Outputs per module
16 (current sinking)
Outputs per module
16 (current sourcing)
Commons per module
2 internally connected
Commons per module
2 (isolated)
Operating voltage / peak
4.5--26.4VDC, 40 VDC Peak
Operating voltage / peak
10.2--26.4 VDC, 40 VDC Peak
Output type
NPN Open collector
Output type
NPN Emitter Follower
ON voltage drop
0.5V @ 0.5A, 0.2V @ 0.1A
ON voltage drop
1.5 VDC @ 0.5A
Max current (resistive)
0.5A / point, 3A / common
Max current (resistive)
0.5A / point, 3A / common @
50° C, 2.5A /common @ 60°C
Max leakage current
0.1mA @ 40VDC
Max leakage current
0.1mA @ 40 VDC
Max inrush current
2A for 10 ms, 1A for 100 ms
Max inrush current
2A for 10 ms, 1A for 100 ms
Minimum load
0.2mA
Minimum load
0.2mA
Base power required 5V
200mA max
Base power required 5V
400mA max
External DC required
24VDC ? 10% @125mA
External DC required
None
OFF to ON response
0.5 ms
OFF to ON response
1 ms
ON to OFF response
0.5 ms
ON to OFF response
1 ms
Terminal type
Removable
Terminal type
Removable
Status indicators
Logic Side
Status indicators
Logic Side
Weight
9.5 oz. (270 g)
Weight
9.8 oz. (280 g)
Fuses (non-replaceable)
1 (5A) per common
Fuses (non-replaceable)
1 (5A) per common
Derating Chart
Points
16
Output Current
0.35A/point
12
TB
4
A
0
1
2
3
4
5
6
7
B
Points
16
FU
12
4
5
6
7
0 10 20 30 40 50 60° C
32 50 68 86 104 122 140 ° F
Ambient Temperature (°C/°F) Internally
CA
L
L
L
L
L
L
L
5--24 VDC +
--
L
0
1
2
3
CB
L
L
L
0
L
1
L
2
L
L
L
3
L
L
4
0
CA
0
Output Current
0.35A/point
12--24 VDC -L
1
L
L
L
L
L
L
3
12--24 VDC
--
+
7
5
CB
L
4
L
L
L
7
0
2
3
L
0
L
1
L
2
L
5
1
CB
L
4
6
L
0
L
3
CA
CA
L
4
L
+
24VDC
-L
24V
--
5
2
Output
+
5--24 VDC -Common
7
5
7
Optical
Isolator
Common
CB
L
L
4
0
5
2
7
3
+
-+ -24VDC
3
4
3
To LED
6
7
6
7
Optical
Isolator
1
1
2
+
4
6
6
--
0
5
1
24VDC
B
0
1
2
3
4
5
6
7
10.2--26.4VDC
0.5A
6
12--24
VDC
To LED
L
Output
OUTPUT
A
0
1
2
3
+
4
6
7
TB
2.5A/common
0 10 20 30 40 50 60° C
32 50 68 86 104 122 140 ° F
Ambient Temperature (°C/°F)
2
6
12--24VDC
D4--16TD2
5
5
0.3A/point
Output Current
0.5A/point
(3A/common)
4
5V--26.4VDC
0.2mA--0.5A
connected
--
Derating Chart
8
D4--16TD1
5--24 VDC +
+
OUTPUT
24V
0
1
2
3
Output Current
0.5A/point
(3A/common)
8
0
5--24VDC
FU
4
5
6
7
3--29
I/O Wiring and Specifications
D4--32TD1, 5--24VDC Output
D4--32TD1--1, 5--15VDC Output
Outputs per module
32 (current sinking)
4 (isolated)
Commons per module
4 (isolated)
Operating voltage
4.75--26.4 VDC
Operating voltage
5--15 VDC
Output type
NPN Open Collector
Output type
NPN Open Collector (w / pullup)
Peak voltage
36 VDC
Peak voltage
16.5 VDC
ON voltage drop
0.6 VDC @ 0.2A
ON voltage drop
0.4 VDC @ 0.1A
Max current (resistive)
0.2A / point, 1.6A / common
Max current (resistive)
0.09A/pt, 0.72A/com, 2.88A/ mod.
Max leakage current
0.1mA @ 36 VDC
Max leakage current
0.01mA @ 16.5 VDC
Max inrush current
1A for 10 ms, 0.5A for 100 ms
Max inrush current
0.5A for 10ms, 0.2A for 100ms
Minimum load
0.1mA
Minimum load
0.1mA
Base power required 5V
250mA max
Base power req., 5V
250mA max
External DC required
24VDC ? 10%, 140mA max
External DC required
5--15VDC ? 10%, 700mA max
OFF to ON response
0.1 ms
OFF to ON response
0.1 ms
ON to OFF response
0.1 ms
ON to OFF response
0.1 ms
Terminal type
Removable
Terminal type
Removable
Status indicators
Logic Side
Status indicators
Logic Side
Weight
6.7 oz. (190 g)
Weight
6.7 oz. (190 g)
Fuses
None
Fuses
None
Derating Chart
Points
32
28
24
20
16
12
8
4
0
Points
Output current
0.1A / point
L
L
L
L
L
L
--
L
+
L
L
L
L
L
L
24 VDC
L
--
L
+
L
L
L
L
L
L
24 VDC
L
--
L
+
L
L
L
L
L
L
24 VDC
L
--
L
+
A4
A1
A5
A2
A6
A3
A7
COM I
VI
B0
B4
B1
B5
B2
B6
B3
B7
COM II
V II
C0
C4
C1
C5
C2
C6
C3
C7
COM III
V III
D0
D4
D1
D5
D2
D6
D3
D7
COM IV
V IV
V+
L
Output
+
24 VDC -Common
A/C
A-B C-D
B/D
4
5
6
7
0
1
2
3
4
5
6
7
D4--32TD1
10
20
30
40
50
60°C
50
68
86 104 122 140°F
Ambient Temperature (°C/°F)
Current Flow
A0
L
24VDC
OUTPUT
0
1
2
3
Output current
0.2A / point
0
32
5--24VDC
To LED
Optical
Isolator
DISPLAY
SELECT
A-B
32
28
24
20
16
12
8
4
0
Derating Chart
Output
current
0.06A /
point
Output current
0.015A / point
Output current
0.09A / point
0
32
Current Flow
A0
A1
A2
A3
CI
B0
B1
B2
B3
CII
C0
C1
C2
C3
CIII
D0
D1
D2
D3
CIV
A4
A5
A6
A7
VI
B4
B5
B6
B7
VII
C4
C5
C6
C7
VIII
D4
D5
D6
D7
VIV
L
L
5--26VDC,CLASS 2
0.2A
L
L
L
L
L
--
5--15VDC
L
+
L
L
L
L
L
L
L
--
5--15VDC
L
+
L
L
L
L
L
L
5--15VDC
L
--
L
+
L
L
L
L
L
L
5--15VDC
L
--
L
+
5--15 +
VDC --
Out
1.5K
Common
A-B C-D
B/D
A/C
0
1
2
3
4
5
6
7
DISPLAY
SELECT
0
1
2
3
4
5
6
7
A-B
C-D
A0
A4
A1
A5
A2
A6
A3
A7
COM I
VI
B0
B4
B1
B5
B2
B6
B3
B7
COM II
V II
C0
C4
C1
C5
C2
C6
C3
C7
COM III
V III
D0
D4
D1
D5
D2
D6
D3
D7
COM IV
V IV
5--15VDC, CLASS 2
0.09A
V+
L
OUTPUT
D4--32TD1--1
10
20
30
40
50
60°C
50
68
86 104 122 140°F
Ambient Temperature (°C/°F)
C-D
5--15VDC
Optical
Isolator
To LED
A0
A1
A2
A3
CI
B0
B1
B2
B3
CII
C0
C1
C2
C3
CIII
D0
D1
D2
D3
CIV
A4
A5
A6
A7
VI
B4
B5
B6
B7
VII
C4
C5
C6
C7
VIII
D4
D5
D6
D7
VIV
I/O Wiring and
Specifications
32 (current sinking)
Getting Started
Outputs per module
Commons per module
3--30
I/O Wiring and Specifications
Getting Started
D4--32TD2, 12--24 VDC Output Module
Outputs per module
32 (current sourcing)
Commons per module
4 (isolated)
External DC required
10.8--26.4VDC
1A / common
including load
Operating voltage
10.8--26.4 VDC
Output type
PNP Open Collector
OFF to ON response
< 0.2 ms
Peak voltage
30 VDC
ON to OFF response
< 0.2 ms
ON voltage drop
0.6 VDC @ 0.2A
Terminal type
Removable
Max current (resistive)
0.2A / point
1.0A / common
4.0A / module
Status indicators
Logic Side
Weight
6.7 oz. (190 g)
Max leakage current
0.01mA @ 26.4 VDC
Fuses
None
Max inrush current
500 mA for 10 ms
Minimum load
0.2mA
Base power required 5V
350mA max
Current Flow
L
L
I/O Wiring and
Specifications
L
L
L
L
--
L
L
12--24VDC
+
L
L
L
L
L
L
-12--24VDC
L
L
+
L
L
L
L
L
L
-12--24VDC
L
L
+
L
L
L
L
L
L
-12--24VDC
+
L
L
A0
A4
A1
A5
A2
A6
A3
A7
COM I
VI
B0
B4
B1
B5
B2
B6
B3
B7
COM II
V II
C0
C4
C1
C5
C2
C6
C3
C7
COM III
V III
D0
D4
D1
D5
D2
D6
D3
D7
COM IV
V IV
12--24VDC
4
5
6
7
Points
A-B C-D
B/D
A/C
0
1
2
3
Derating Chart for D4--32TD2
OUTPUT
0
1
2
3
32
28
24
20
16
12
8
4
0
4
5
6
7
D4--32TD2
DISPLAY
SELECT
A-B
C-D
11--26VDC, CLASS2
0.2A
A0
A1
A2
A3
CI
B0
B1
B2
B3
CII
C0
C1
C2
C3
CIII
D0
D1
D2
D3
CIV
A4
A5
A6
A7
VI
B4
B5
B6
B7
VII
C4
C5
C6
C7
VIII
D4
D5
D6
D7
VIV
Output current
0.2 A /pt
(1A /common)
10
20
30
40
50
60°C
50
68
86 104 122 140°F
Ambient Temperature (°C/°F)
0
32
V+
+
--
12--24
VDC
L
Optical
Isolator
Output
To LED
Common
Only 16 status points can be displayed at one time on the front of the module.
In the A - B position the status of the first group of 16 output points (A0--A7, B0--B7) is displayed.
In the C - D position the status of the second group of 16 output points (C0--C7, D0--D7) is displayed.
3--31
I/O Wiring and Specifications
D4--64TD1, TTL/CMOS/5--24 VDC Output Module
CPU base only *
64 (current sinking)
8 (isolated)
Operating voltage
Output type
4.75--26.5 VDC
NPN Open Collector
Peak voltage
ON voltage drop
36 VDC
0.6 VDC @ 0.1A
Max current (resistive)
0.1A / point
1.0A / common
8.0A / module
Max leakage current
Max inrush current
24VDC ? 10%,
(800mA + 50mA per
common)
7.0A total max
< 0.1 ms
< 0.2 ms
2, Removable 40-pin
connectors (sold sep.)
Logic Side
7.4 oz. (210 g)
None
OFF to ON response
ON to OFF response
Terminal type
Status indicators
Weight
Fuses
Only 32 status points can be displayed at one time on the front of the
module. In the A - B position the status of the first group of 32 output
points (A0--A17, B0--B17) are displayed (connector 1). In the C - D
position the status of the second group of 32 output points (C0--C17,
D0--D17) are displayed (connector 2).
Output current
0.1A / point
5--24VDC
10
20
30
40
50
50
68
86
104
122
Ambient Temperature (°C/°F)
60 °C
140 °F
L
L
L
Current Flow
L
L
L
L
L
L
Internally
Connected
+V
L
L
L
+
--
24VDC
L
L
L
5--26VDC
+V
Current Flow
L
L
COM
L
COM
+
L
Output
To LED
24VDC Ext +
+
---
V
C6
V6
L
B0
B4
D0
D4
L
B1
B5
D1
D5
L
B2
B6
D2
D6
L
B3
C3
B10
B7
V3
B14
D3
C7
D10
D7
V7
D14
L
B11
B15
D11
D15
L
B12
B16
D12
D16
L
B13
B17
D13
D17
C4
V4
+V
COM
+V
L
COM
L
+V
Optical
Isolator
+
L
To LED
V
COM
+V
Common
24VDC Ext +
24VDC Ext +
+
---
0
4
0
4
5
1
5
1
5
2
6
2
6
2
6
2
6
3
7
3
7
3
7
3
7
C8
A-B
C-D
CLASS2
CN2
V8
EXT
24VDC
To LED
-5--26VDC
4
1
Optical
Isolator
Output
+
Common
--
V2
L
Output
+
-24VDC
C17
C2
COM
L
L
Optical
Isolator
C16
C13
L
L
L
C15
C12
A17
L
--
5--26VDC +
L
+V
C11
A16
A13
+V
L
L
A15
A12
L
L
L
L
A11
L
L
L
L
Common
Current Flow
L
L
--
5--26VDC +
L
V
+V
L
L
+
5--26VDC--
L
L
L
L
L
L
L
C7
V5
C14
COM
L
+V
Current Flow
+
L
L
L
C6
C3
C5
C10
L
L
L
C2
A7
V1
A14
L
L
L
A6
A3
C1
A10
L
Current Flow
L
L
L
C5
A2
Internally
Connected
+V
L
L
L
--
C4
C1
L
L
+
C0
A5
L
L
L
A4
A1
L
L
Current Flow
L
L
A0
L
L
+
5--26VDC --
L
L
L
Current Flow
COM
Internally
Connected
+V
0
5
5--26V
0.1A
CN1
L
L
L
L
Current Flow
Current Flow
L
4
1
D4--64TD1
Connector Pins
L
L
Current Flow
L
B/D
0
DISPLAY
SELECT
Wiring per 32pts.
using EXT 24VDC
Connector and
5--26VDC Load
Supply
Wiring per
32pts.
with 24V on
Connector
Wiring per 32pts.
using EXT 24VDC
Connector
OUTPUT
A/C
* Module location -- this module placement is restricted to the local
base on DL430/DL440 systems. It may also be placed in expansion
bases in DL450 systems that are using the new (--1) bases.
0
32
L
External DC required
+
--
I/O Wiring and
Specifications
64
56
48
40
32
24
16
8
0
0.1mA
Base power required 5V 800mA max
0.01mA @ 36 VDC
1A for 1 ms
700mA for 100 ms
Derating Chart
Points
Minimum load
Getting Started
Module Location
Outputs per module
Commons per module
3--32
I/O Wiring and Specifications
I/O Wiring and
Specifications
Getting Started
D4--08TA, 18--220VAC Output D4--16TA, 18--220VAC Output
Outputs per module
8
Outputs per module
16
Commons per module
2 (isolated)
Commons per module
2 (isolated)
Operating voltage
15--265VAC
Operating voltage
15--265VAC
Output type
SSR (triac)
Output type
SSR (triac)
Peak voltage
265VAC
Peak voltage
265VAC
AC frequency
47--63 Hz
AC frequency
47--63 Hz
ON voltage drop
1.5VAC @ 2A
ON voltage drop
1.5 VAC @ 0.5A
Max current
2A / point, 5A / com. @ 30°C
2A / common @ 60 °C
Max current
0.5A / pt, 3A / common @ 45 °C
2A / common @ 60 °C
Max leakage current
5mA @ 265VAC
Max leakage current
4mA @ 265VAC
Max inrush current
30A for 10 ms, 10A for 100 ms
Max inrush current
15A for 10 ms, 10A for 100 ms
Minimum load
10 mA
Minimum load
10 mA
Base power required 5V
250 mA max
Base power required 5V
450 mA max
OFF to ON response
1 ms
OFF to ON response
1 ms
ON to OFF response
1 ms +1/2 AC cycle
ON to OFF response
1 ms +1/2 AC cycle
Terminal type
Removable
Terminal type
Removable
Status indicators
Logic Side
Status indicators
Logic Side
Weight
11.6 oz. (330 g)
Weight
12.2 oz. (350 g)
Fuses (non-replaceable)
1 (8A) per common
Fuses (non-replaceable)
1 (5A) per common
Derating Chart
Points
18--220VAC
8
Output Current
1A/point
6
Output
Current
0.5A/point
4
Output Current
2A/point
(5A/common)
2
(2A/common)
0
1
2
3
4
5
6
7
10
20
30
40
50
60°C
50
68
86 104 122 140°F
Ambient Temperature (°C/°F)
Points
FU
16
Derating Chart
Output Current
0.35A/point
12
Output Current
0.5A/point
8
D4--08TA
4
15--265VAC
10mA--2A
50/60Hz
0
0
32
TB
OUTPUT
CA
18--220VAC
Output
Current
0.25A/point
(2A/common)
10
20
30
40
50
60°C
50
68
86 104 122 140°F
Ambient Temperature (°C/°F)
L
18--220 VAC
CA
L
0
L
L
L
1
L
L
L
L
L
3
L
3
18--220 VAC
CB
5
L
6
L
L
L
4
L
L
L
2
CB
18--220 VAC
0
18--220 VAC
1
2
L
L
2
3
0
L
1
L
2
L
3
L
18--220 VAC
Output
Common
Optical Isolator
To LED
7
L
4
1
L
L
5
7
0
CB
L
4
CA
0
4
1
5
5
2
6
6
7
3
7
4
5
6
7
CB
L
L
4
0
5
1
6
2
6
L
B
0
1
2
3
4
5
6
7
15--265VAC
10mA--0.5A
50/60Hz
CA
0
L
18--220 VAC
Output
Common
Optical
Isolator
To LED
OUTPUT
A
0
1
2
3
D4--16TA
3A/common
0
32
TB
7
3
FU
4
5
6
7
3--33
I/O Wiring and Specifications
D4--08TR, Relay Output
F4--08TRS--1, Relay Output
Outputs per module
8 relays
2 (isolated)
Commons per module
8 (isolated)
Operating voltage
5--30VDC / 5--250VAC
Operating voltage:12--30VDC, 12--125VAC, 125--250VAC*
Output type
Form A (SPST--NO)
Output type: 4, Form C (SPDT), 4, Form A (SPST--NO)
Peak voltage
30VDC / 256VAC
Peak voltage
30VDC / 250VAC @10A
AC frequency
47--63 Hz
AC frequency
47--63 Hz
Max current (resistive)
2A / point, 5A / common
Max current (resistive)
10A / point, 40A / module
Max leakage current
0.1mA @ 265VAC
Max leakage current
0.1mA @ 265VAC
Max inrush current
2A
Max inrush current
10A
Minimum load
5mA
Minimum load
100mA @12 VDC
Base power required 5V
550mA max
Base power required 5V
575mA max
External DC required
None
External DC required
None
OFF to ON response
12 ms
OFF to ON response
7 ms
ON to OFF response
12 ms
ON to OFF response
9 ms
Terminal type
Removable
Terminal type
Removable
Status indicators
Logic Side
Status indicators
Logic Side
Weight
9.1 oz. (260 g)
Weight
13.2 oz. (374 g)
Fuses (non-replaceable)
1 (8A) per common
Fuses (non-replaceable)
1 (10A/125V) per common
Typical Relay Life (Operations)
Maximum Resistive
Operating Voltage
or Inductive Inrush
Load Current
30VDC 125VAC 250VAC
2A resistive
2A inductive
0.5A resistive
0.5A inductive
100K
100K
800K
300K
Points
CA
L
L
L
+
0
6
1
4
2
2
3
L
--
8
200K
60K
800K
200K
Derating Chart
Output
Current
1.25A/point
4
0
1
2
3
FU
4
5
6
7
50K
200K
325K
>50M
Points
8
CA
-L
Output Current
2A/point
(5A/common)
+
2
0 10 20 30 40 50 60 °C
32 50 68 86 104 122 140 ° F
Ambient Temperature (°C/°F)
3
CB
+
+
--
-+
4
+
0
NO
L
L
--
--
-L
+
0
1
7
L
1/4 HP
10.0A
5.0A
3.0A
0.5A
5--250VAC
2A 50/60Hz
5--30VDC
5mA--2A
6
L
Maximum Resistive
Operating Voltage
or Inductive Inrush
Load Current
30VDC 125VAC 250VAC
D4--08TR
5
L
OUTPUT
TB
0
CB
L
300K
80K
1M
300K
Typical Relay Life (Operations)
RELAY
1
C
L
L
1
NC
2
NO
3
C
L
L
L
L
+
-+
--
3
NC
L
4
NO
L
5
NO
L
6
NO
7
NO
L
0C
0
NC
1
NO
2
C
2
NC
3
NO
5
6
Common
To LED
NO
L
L
Output
RELAY
5
C
6
C
7
C
50K
Derating Chart
6
Output Current
5A/point
4
8A/point
2
0
10A/point
0 10 20 30 40 50 60 °C
32 50 68 86 104 122 140°F
Ambient Temperature (°C/°F)
Maximum DC voltage
rating is 120 VDC @
0.5A, 30,000 cycles
typical. Motor starters
up to and including
NEMA size 3 can be
used with this module.
10A
L
NC
OUTPUT
TB
0
1
2
3
4
5
6
7
TB
F4--08TRS--1
12--250VAC
10A 50/60Hz
12--30VDC
10mA--10A
0
NO
1
C
1
NC
2
NO
3
C
3
NC
4
NO
5
NO
6
NO
7
Common
4
C
25K
50K
100K
125K
RELAY
7
NO
0
C
0
NC
1
N0
2
C
2
NC
3
NO
4
C
5
C
6
C
7
C
I/O Wiring and
Specifications
8 relays
Commons per module
Getting Started
Outputs per module
3--34
I/O Wiring and Specifications
I/O Wiring and
Specifications
Getting Started
F4--08TRS--2, Relay Output
D4--16TR, Relay Output
Outputs per module
8 relays
Outputs per module
16 relays
Commons per module
8 (isolated)
Commons per module
2 (isolated)
Operating voltage
12--30VDC, 12--250VAC
Operating voltage
5--30VDC / 5--250VAC
Output type: 4 Form C (SPDT), 4 Form A (SPST--NO)
Output type
Form A (SPST--NO)
Peak voltage
30VDC / 250VAC @5A
Peak voltage
30VDC / 256VAC
AC frequency
47--63 Hz
AC frequency
47--63 Hz
Max current (resistive)
5A / point, 40A / module
Max current (resistive)
1A / point, 5A / common
Max inrush current
10A
Max leakage current
0.1mA @ 265VAC
Minimum load
100mA @12 VDC
Max inrush current
4A
Base power required 5V
575mA max
Minimum load
5mA
External DC required
None
Base power required 5V
1000mA max
OFF to ON response
7 ms
External DC required
None
ON to OFF response
9 ms
OFF to ON response
10 ms
Terminal type
Removable
ON to OFF response
10 ms
Status indicators
Logic Side
Terminal type
Removable
Weight
13.8 oz. (390 g)
Status indicators
Logic Side
Fuses, (user replaceable)
1 (10A, 250V) per common
Weight
10.9 oz. (310 g)
19379--K--10A Wickman
Fuses (non-replaceable)
1 (8A) per common
Typical Relay Life (Operations)
Typical Relay Life (Operations)
Maximum Resistive
Operating Voltage
or Inductive Inrush
Load Current
28VDC 120VAC 240VAC
5.0A
3.0A
.05A
200K
325K
>50M
Points
8
-+
+
--
--
+
+
--
-+
--
+
+
--
1
C
L
L
1
NC
2
NO
3
C
L
L
L
L
+
--
0
NO
L
L
3
NC
4
NO
L
L
5
NO
L
6
NO
7
NO
L
0C
6
0
NC
4
1
NO
2
2
C
2
NC
3
NO
4
C
5
C
6
C
7
C
0
100K
125K
50K
Derating Chart
Output Current
5A/point
(40A/module)
0 10 20 30 40 50 60 °C
32 50 68 86 104 122 140°F
Ambient Temperature (°C/°F)
Maximum DC voltage
rating is 120 VDC @
0.5A, 30,000 cycles
typical. Motor starters up
to and including NEMA
size 3 can be used with
this module.
0
1
2
3
4
5
6
7
0
NO
1
NC
2
NO
3
C
3
NC
NC
5
NO
5A
NO
L
Sample Relay Output Circuit (1 of 4)
6
NO
7
NO
>1M
400K
>2M
>1M
1A resistive
1A inductive
0.5A resistive
0.5A inductive
FU
TB
12--250VAC
5A 50/60Hz
12--30VDC
10mA--5A
4
NO
Common
Maximum Resistive
Operating Voltage
or Inductive Inrush
Load Current
30VDC 125VAC 250VAC
F4--08TRS--2
Common 5A
NO
Sample Relay Output Circuit (1 of 4)
OUTPUT
TB
1
C
L
L
RELAY
Points
16
0
C
12
0
NC
L
1
NO
L
0
L
1
L
L
2
L
3
L
2
C
2
NC
L
+
--
CB
L
L
0
L
1
L
2
L
3
L
L
3
NO
L
CA
4
5
6
7
8
4
0
500K
200K
800K
300K
300K
100K
500K
200K
Derating Chart
Output Current
0.6A/point
Output Current
1A/point
(5A/common)
OUTPUT
RELAY
TB
A
B
0
1
2
3
0
1
2
3
4
5
6
7
D4--16TR
5--250VAC
1A 50/60Hz
5--30VDC
5mA--1A
CA
L
L
0
4
1
5
0 10 20 30 40 50 60 °C
32 50 68 86 104 122 140°F
Ambient Temperature (°C/°F)
2
6
3
4
7
5
CB
6
L
7
L
4
0
4
C
5
5
C
6
6
C
7
1
2
3
Common
To LED
7
C
L
Output
RELAY
FU
4
5
6
7
I/O Wiring and Specifications
3--35
F4--04AD 4--Channel Analog Input
4
Input Type
Single-ended or differential
Input Ranges
0--5, 1--5, 0--10, ±5, ±10 VDC, 0--20, 4--20 mA.
Resolution
12 bit (0 to 4095), unipolar 13 bit (±4095), bipolar
Input Impedance
20 MW minimum, voltage input
Max. Continuous Overload
±50 VDC, voltage input, ±45 mA, current input
Recommended External Fuse
0.032A, Series 217 fast acting, current inputs
Common Mode Voltage Range
±10V maximum
Linearity
±0.025% of span (±1 count maximum, unipolar)
Input Stability
±1/2 count
Cross Talk
--80 dB, 1/2 count maximum
Full Scale Calibration Error
±12 counts maximum, voltage input
Getting Started
Number of Channels
250 W, 1/2W, ±0.1%, 25 ppm/_ C current input
±16 counts maximum, at 20.000 mA current input
±1 count maximum, voltage input
±2 counts maximum, at 4.000 mA current input
Maximum Inaccuracy
0.4% maximum @ 25_C (77° F)
0.55% maximum @ 0 to 60_C (32 to 140° F)
Conversion Time
< 6 mS per selected channel
Noise Rejection Ratio
Normal mode: --3 dB @ 50 Hz, --6 dB / octave
Common mode: --70 dB, DC to 12 kHz
PLC Update Rate
4 channel per scan max.
Digital Input Points Required
16 or 32-bit mode
16 or 32 (X) input points
12 data bits, 4 bits optional for two’s
complement mode, 4 channel select bits,
12 bits unused in 32 bit mode
Power Budget Requirement
85 mA (power from base)
External Power Supply
24 VDC, ±10%, 100 mA, class 2
Operating Temperature
0 to 60_C (32° to 140° F)
Storage Temperature
--20 to 70_C (--4° to 158° F)
Relative Humidity
5 to 95% (non-condensing)
Environmental air
No corrosive gases permitted
Vibration
MIL STD 810C 514.2
Shock
MIL STD 810C 516.2
Insulation Resistance
10 MW, 500 VDC
Noise Immunity
NEMA ICS3-304
I/O Wiring and
Specifications
Offset Calibration Error
3--36
I/O Wiring and Specifications
Getting Started
F4--04AD 4--Channel Analog Input Module
NOTE 1: Shields should be grounded at the signal source.
NOTE 2: Unused channels should be shorted for best noise immunity.
NOTE 3: When a differential input is not used, 0V should be connected to C of the channel.
See NOTE 1
CH1
+
Single-ended Voltage
Transmitter --
CH3
Differential Current
Transmitter
C
I
See
NOTE 3
OV
+
--
250 ohms
V
C
OV
I
OV
250 ohms
V
+
--
C
I
OV
OV
V
CH4
Not Used
See NOTE 2
+
-OV
C
I
OV
250 ohms
User
Supply
Return
+
-21.6
-26.4
VDC
User Supply
Class 2
I/O Wiring and
Specifications
250 ohms
Analog Switch
CH2
Differential Voltage
Transmitter
Internal
Module
Wiring
(front end)
A to D
Convertor
V
Channel select
OV
ANALOG
TB
INPUT
24V
DATA
256
512
1024
2048
16
32
64
128
1
2
4
8
RUN
F4--04AD
DISPLAY
CH
V
C
CH1
I
OV
V
C
CH2
I
OV
V
C
CH3
I
OV
V
C
CH4
I
OV
0--10VDC
1--5VDC
--10--+10VDC
4mA--20mA
24VDC 0.1A
CLASS 2
F4--04AD
NEG
CH1
CH2
CH3
CH4
I/O Wiring and Specifications
3--37
F4--04ADS 4--Channel Isolated Analog Input
4
Input Ranges
0--5V, 0--10V, 1--5V, ±5V, ±10V,
0--20 mA, 4--20 mA
Resolution
12 bit (1 in 4096)
Conversion Method
Successive approximation
Input Type
Differential
Max. Common Mode Voltage
±750V peak continuous transformer isolation
Noise Rejection Ratio
Common mode: --100 dB at 60Hz
Active Low-Pass Filtering
--3 dB at 20Hz, --12 dB per octave
Input Impedance
250O ±0.1%, 1/2W current input
200KO voltage input
Absolute Maximum Ratings
±45 mA, current input
±100V, voltage input
Conversion Time
1 mS per selected channel
Linearity Error
±1 count (0.025% of full scale) maximum
Full Scale Calibration Error
±8 counts maximum (Vin = 20 mA)
Offset Calibration Error
±8 counts maximum (Vin = 4 mA)
PLC Update Rate
4 channel per scan max.
Digital Input Points Required
12 binary data bits, 4 active channel
indicator bits
Accuracy vs. Temperature
±100 ppm / _C maximum full scale (including maximum
offset)
Power Budget Requirement
270 mA @ 5 VDC (from base)
External Power Supply
24 VDC, ±10%, 120 mA, class 2
Recommended Fuse
0.032 A, Series 217 fast-acting, current
inputs
Operating Temperature
0 to 60_C (32 to 140°F)
Storage Temperature
--20 to 70_C (--4 to 158° F)
Relative Humidity
5 to 95% (non-condensing)
Environmental air
No corrosive gases permitted
Vibration
MIL STD 810C 514.2
Shock
MIL STD 810C 516.2
Noise Immunity
NEMA ICS3--304
I/O Wiring and
Specifications
General
Specifications
Number of Channels
Getting Started
Input
Specifications
3--38
I/O Wiring and Specifications
Getting Started
F4--04ADS 4--Channel Isolated Analog Input Module
Wiring
Diagram
ANALOG
NOTE 2: Unused channels should have V & C & R of the channels jumpered together.
4 CHANNELS
F4--04ADS
0--10VDC
0--5VDC
1--5VDC
+10VDC
+5VDC
4--20mA
See NOTE 1
V
CH1
+
Voltage
Transmitter --
C
CH1
C
R
V
See NOTE 2
CH2 Not Used
250 ohms
C
Analog
switch
R
V
CH3
+
2-wire 4--20mA
Transmitter --
CH2
C
250 ohms
C
R
V
CH4
+
2-wire 4--20mA
-Transmitter
I/O Wiring and
Specifications
INPUT
NOTE 1: Shields should be grounded at the signal source.
250 ohms
CH3
C
C
R
250 ohms
+
+
User
Supply
--
21.6 - 26.4 VDC
--
CH4
C
CH1
+V
CH1
R
CH2
+V
CH2
R
CH3
+V
CH3
R
CH4
+V
CH4
R
24VDC 0.5A
0
V
24
V
I/O Wiring and Specifications
3--39
F4--08AD 8--Channel Analog Input
8, single ended (one common)
Input Ranges
0--5V, 0--10V, 1--5V, ±5V, ±10V,
0--20 mA, 4--20 mA
Resolution
12 bit (1 in 4096)
Active Low-pass Filtering
--3 dB at 20Hz, --12 dB per octave
Input Impedance
250 ohms ±0.1%, 1/2W current input
>20 Megohms voltage input, 1 Megohm minimum
Absolute Maximum Ratings
± 45 mA, current input
±75V, voltage input
Conversion Time
0.4ms per channel (module conversion)
1 ms per selected channel minimum (CPU)
Linearity Error (End to End)
±1 count (0.025% of full scale) maximum
Input Stability
±1/2 count
Full Scale Calibration Error (Offset error not included)
±12 counts maximum , voltage input
±12 counts maximum, @ 20mA current input
Offset Calibration Error
±2 counts maximum, unipolar voltage input
±4 counts maximum, bipolar voltage input
±4 counts maximum, 4 mA current input
General
Specifications
PLC Update Rate
8 Channel per scan max.
Digital Input Points Required
16 (X) input points total
12 binary data bits, 3 active channel bits,
Power Budget Requirement
75 mA (power from base)
External Power Supply
18--30 VDC, 90 mA, class 2
Recommended Fuse
0.032 A, Series 217 fast-acting, current
inputs
Accuracy vs. Temperature
±50 ppm / _C maximum full scale (including maximum
offset change of 2 counts)
Operating Temperature
0 to 60_C (32 to 140° F)
Storage Temperature
--20 to 70_C (--4° F to 158° F)
Relative Humidity
5 to 95% (non-condensing)
Environmental Air
No corrosive gases permitted
Vibration
MIL STD 810C 514.2
Shock
MIL STD 810C 516.2
Noise Immunity
NEMA ICS3--304
One count in the specification table is equal to one least significant bit of the analog data (1 in 4096).
I/O Wiring and
Specifications
Number of Channels
Getting Started
Input
Specifications
3--40
I/O Wiring and Specifications
Getting Started
F4--08AD 8--Channel Analog Input Module
NOTE 1: Shields should be grounded at the signal source.
NOTE 2: Unused channels should be connected to 0V
or have current jumpers installed.
See NOTE 1
+
CH2
Voltage
Transmitter
+
CH1
0V
--
CH2
0V
--
CH3
0V
CH3
CH4
Channels 3--6 are not used,
See NOTE 2
CH4
0V
CH5
CH5
0V
I/O Wiring and
Specifications
CH6
CH6
0V
CH7
2-wire
4--20mA
Transmitter
CH8
3-wire
4--20mA
Transmitter
CH7
0V
CH8
250 ohms
8 CHANNELS
IN
250 ohms
CH3
IN
250 ohms
CH4
IN
250 ohms
CH5
IN
250 ohms
CH6
IN
250 ohms
CH7
IN
250 ohms
F4--08AD
IN
+
250 ohms
(24VDC
typical)
+
--
CH1
CH1
COM
CH2
COM
CH3
COM
CH4
COM
CH6
COM
Jumpers for
CH5, 7 & 8
are installed
24V
--
A to D
Convertor
0--10VDC
0--5VDC
1--5VDC
+10VDC
+5VDC
4--20mA
CH5
COM
CH8
0V
Optional
External
P/S
ANALOG
CH2
Analog Switch
CH1
Voltage
Transmitter
CH1
IN
Internal
Module
Wiring
0V
CH7
COM
CH8
IN
CH3
IN
CH4
IN
CH5
IN
CH6
IN
CH7
IN
CH8
IN
COM
24VDC 0.1A
0
V
18-30VDC
IN
CH2
OV
More than one external power supply can be used (see channel 8).
If the power supply common of an external power supply is not connected to 0V on the
module, then the output of the external transmitter must be isolated. To avoid “ground loop”
errors, recommended 4--20mA transmitter types are:
2 or 3 wire: Isolation between input signal and power supply.
4 wire: Isolation between input signal, power supply, and 4--20mA output.
24
V
INPUT
I/O Wiring and Specifications
3--41
D4--02DA 2--Channel Analog Output
2 (independent)
Output Ranges
0--10V, 1--5V, 4--20 mA
Resolution
12 bit (1 in 4096)
Output Type
Single ended
Output Impedance
0.5W maximum, voltage output
Output Current
5 mA maximum, voltage output
Load Impedance
550W max., 5.0W min.,current output,
2KW minimum, voltage output
Linearity
±0.1% maximum
Accuracy vs. Temperature
±70 ppm / _C maximum
Maximum Inaccuracy
±0.2% maximum at 25_ C
Conversion Method
Integration
Conversion Time
Start of scan, 30mS + one scan
PLC Update Rate
1 or 2 channels per scan
Digital Output Points Required
32 (Y) output points
12 binary data bits per channel (24 bits total with 8 unused bits)
Power Budget Requirement
250 mA (from base)
External Power Supply
24VDC, ±10%, 300 mA, class 2
Operating Temperature
0 to 60_C (32 to 140°F)
Storage Temperature
--20 to 70_C (--4 to 158°F)
Relative Humidity
5 to 95% (non-condensing)
Environmental air
No corrosive gases permitted
Vibration
MIL STD 810C 514.2
Shock
MIL STD 810C 516.2
Insulation Resistance
10 MO , 500 VDC
Noise Immunity
NEMA ICS3--304
I/O Wiring and
Specifications
General Module
Specifications
Number of Channels
Getting Started
Output
Specifications
3--42
I/O Wiring and Specifications
Getting Started
D4--02DA 2--Channel Analog Output Module
NOTE 1: Shields should be connected to the 0V
terminal of the module or power supply.
NOTE 2: Unused voltage and current outputs
should remain open (no connections).
ANALOG
OUTPUT
24V CH1
DATA
16 256
32 512
64 1024
128 2048
TB
See NOTE 1
Channel 1 is wired for
current output
User Load
5 to 550 ohms
Shielded
V+
D/A
--I
+I
V+
--V
I/O Wiring and
Specifications
Channel 2 is wired for
voltage output
User Load
2K ohms
or greater
CH2
D/A
--I
CH1
+V
+I
--V
--I
+I
+V
--I
CH2
--V
Shielded
NC
24V
+
D4--02DA
DISPLAY
CH
+I
+V
See NOTE 2
CH1
1
2
4
8
+V
--V
0--10VDC
1--5VDC
4mA--20mA
0V
--
User
Supply
21.6 -- 26.4 VDC
OV
24VDC 0.3A
CLASS 2
D4--02DA
CH2
I/O Wiring and Specifications
3--43
F4--04DA 4--Channel Analog Output
4
Output Ranges
0--5V, 0--10V, ±5V, ±10V, 4--20 mA
Resolution
12 bit (1 in 4096)
Conversion Method
Successive Approximation
Output Type
Single ended, 1 common
Output Impedance
0.2W typical, voltage output
Load Impedance
2KW minimum, voltage output
0W minimum, current output
Maximum Load / Voltage
680W/18V, 1KW/24V, 1.5KW/36V,
current output
Voltage Output Current
5 mA sink or source
Short-Circuit Current
15 mA typical, voltage output
Linearity Error
±1 count (±0.025%) maximum
Gain Calibration Error
±8 counts maximum, voltage output
--8 to +11 counts maximum, current output
Offset Calibration Error
±2 counts maximum, voltage output
--5 to +9 counts maximum, current output
Conversion Time
5 µs maximum, settling time
0.3 ms maximum, digital out to analog out
Digital Output Points Required
16 point (Y) outputs,
12 bits binary data, 4 channel select bits
Power Budget Requirement
120 mA @ 5 VDC (from base)
External Power Supply
24 VDC, 100 mA, class 2 ±10%
(add 20 mA for each current loop used)
Accuracy vs. Temperature
±50 ppm / _C maximum full scale
±25 ppm / _C maximum offset
Operating Temperature
0 to 60_C (32 to 140°F)
Storage Temperature
--20 to 70_C (--4 to 158°F)
Relative Humidity
5 to 95% (non-condensing)
Environmental air
No corrosive gases permitted
Vibration
MIL STD 810C 514.2
Shock
MIL STD 810C 516.2
Noise Immunity
NEMA ICS3-304
One count in the specification table is equal to one least significant bit of the analog data value (1 in 4096).
I/O Wiring and
Specifications
General Module
Specifications
Number of Channels
Getting Started
Output
Specifications
3--44
I/O Wiring and Specifications
Getting Started
F4--04DA 4--Channel Analog Output Module
Wiring Diagram
NOTE 1: Shields should be connected to the 0V terminal of the module or power supply.
NOTE 2: Unused voltage and current outputs should remain open (no connections).
ANALOG
User Wiring
See NOTE 1
CH1 +I
CH1
2K ohms
Min.
CH1 --I
Voltage Output
CH2
2K ohms
Min.
I/O Wiring and
Specifications
CH3
0--1K ohms
CH4
0--1K ohms
CH1 --V
CH2 --I
CH--V
Current
Output
CH3 --I
CH3 --V
Current
Output
CH4 --I
CH2 +I
CH4 +I
18--30 VDC
D/A
D/A
volt. sink/source
4--20mA curr. sinking
volt. sink/source
4--20mA curr. sinking
volt. sink/source
CH1
-I
CH2
--I
CH2
--V
D/A
CH4 +V
0-10VDC
0-5VDC
±10VDC
±5VD
4mA-20mA
CH1
--V
D/A
CH3 +V
24V
Transmitter
Supply
volt. sink/source
4--20mA curr. sinking
CH2 +V
CH3 +I
F4-04DA
4--20mA curr. sinking
CH1 +V
CH4 --V
0V
Internal module circuitry
CH3
--I
CH3
--V
CH4
--I
CH4
--V
CH1
+I
CH1
+V
CH2
+I
CH2
+V
CH3
+I
CH3
+V
CH4
+I
CH4
+V
24VDC 0.1A
User
Supply
21.6--26.4 VDC
0
V
24
V
OUTPUT
I/O Wiring and Specifications
3--45
F4--04DA--1 4--Channel Analog Current Output
4, single ended (one common)
Output Range
4--20 mA
Resolution
12 bit (1 in 4095)
Output Type
Outputs sink 4-20 mA from external supply
External Load Resistance
0O minimum
Maximum Loop Supply
30 VDC
Peak Output Voltage
40 VDC (clamped, transient suppressed)
Maximum Load / Power Supply
620O /18V, 910O /24V, 1200O /30V
Linearity Error (best fit)
±1 count (±0.025%) maximum
Gain Calibration Error
±5 counts maximum
Offset Calibration Error
±3 counts maximum
Maximum Inaccuracy
±0.1% @ 25_C (77°F)
±0.3% @ 0 to 60_C (32 to140°F)
Conversion Time
100 µs maximum, settling time
2.0 ms maximum, digital out to analog out
Digital Output Points Required
16 point (Y) outputs,
12 bits binary data and 4 active channel bits
Power Budget Requirement
70 mA @ 5 VDC (from base)
External Power Supply
21.6--26.4 VDC, 75 mA, class 2
(add 20 mA for each current loop used)
Accuracy vs. Temperature
±57 ppm / _C full scale calibration range
(including maximum offset change, 2 counts)
Operating Temperature
0 to 60_C (32 to 140°F)
Storage Temperature
--20 to 70_C (--4 to 158°F)
Relative Humidity
5 to 95% (non-condensing)
Environmental Air
No corrosive gases permitted
Vibration
MIL STD 810C 514.2
Shock
MIL STD 810C 516.2
Noise Immunity
NEMA ICS3-304
I/O Wiring and
Specifications
General Module
Specifications
Number of Channels
Getting Started
Output
Specifications
3--46
I/O Wiring and Specifications
Getting Started
F4--04DA--1 4--Channel Analog Current Output Module
Wiring Diagram
NOTE 1: Shields should be connected to the 0V terminal of the module terminal block.
NOTE 2: Unused current outputs should remain open (no connections).
ANALOG
F4--04DA--1
Typical User Wiring
See NOTE 1
CH1
0--1K ohms
Current
Output
4mA--20mA
CH1 +I
Internal module circuitry
4--20mA curr. sinking
CH1 --I
I/O Wiring and
Specifications
CH2
0--1K ohms
Current
Output
CH2 +I
4--20mA curr. sinking
D/A
D/A
CH2 --I
CH3
0--1K ohms
Current
Output
CH3 +I
CH4 +I
CH4
0--1K ohms
4--20mA curr. sinking
CH3 --I
Current
Output
CH4 --I
24V
+
-18--30 VDC
Optional 2nd
User Supply
0V
+
-User Supply
21.6 -- 26.4 VDC
75 mA
Add 20mA for each
4--20mA loop powered
from the module.
4--20mA curr. sinking
D/A
D/A
CH1
--I
CH2
--I
CH3
--I
CH4
--I
Internal
DC/DC Converter
0
V
CH1
+I
CH2
+I
CH3
+I
CH4
+I
24
V
24 V @ 75 mA
OUTPUT
I/O Wiring and Specifications
3--47
F4--04DA--2 4--Channel Analog Voltage Output
4, single ended (one common)
Output Ranges
0--5, 0--10, ±5 , ±10 VDC
Resolution
12 bit (1 in 4095)
Load Impedance
2KO minimum
Load Capacitance
0.01 uF maximum
Voltage Output Current
5.0 mA sink or source
Short-circuit Current
15 mA typical
Linearity Error (end to end)
and Relative Accuracy
±1 count (±0.025%) maximum
Offset Calibration Error
±3 counts maximum, unipolar
±4 counts maximum, bipolar
Full Scale Calibration Error
±8 counts maximum, (offset error included)
Maximum Inaccuracy
±0.2% @ 25_C (77°F)
±0.4% @ 0 to 60_ C (32 to140°F)
Conversion Time
5 µs maximum, settling time
2.0 ms maximum, digital out to analog out
Digital Output Points Required
16 point (Y) outputs,
12 bits binary data, 4 active channel bits or 2 active
channel bits and 1 sign bit for bipolar
Power Budget Requirement
90 mA @ 5 VDC (from base)
External Power Supply
21.6--26.4 VDC, 90 mA, class 2
(outputs fully loaded)
Accuracy vs. Temperature
±57 ppm / _C full scale calibration change
(including maximum offset change, 2 counts)
Operating Temperature
0 to 60_C (32 to 140°F)
Storage Temperature
--20 to 70_C (--4 to 158°F)
Relative Humidity
5 to 95% (non-condensing)
Environmental air
No corrosive gases permitted
Vibration
MIL STD 810C 514.2
Shock
MIL STD 810C 516.2
Noise Immunity
NEMA ICS3-304
I/O Wiring and
Specifications
General
Module
Specifications
Number of Channels
Getting Started
Output
Specifications
3--48
I/O Wiring and Specifications
Getting Started
F4--04DA--2 4--Channel Analog Voltage Output Module
Wiring Diagram
NOTE 1: Shields should be connected to the 0V terminal of the module or power supply.
NOTE 2: Unused voltage outputs should remain open (no connections).
ANALOG
See NOTE 1
User Wiring
CH1
2K ohm min
CH2
Voltage
Output
Internal module circuitry
CH1 +V
volt. sink/source
CH2 +V
volt. sink/source
CH3 +V
volt. sink/source
F4--04DA--2
D/A
0--10VDC
0--5VDC
”10VDC
”5VDC
CH1 --V
2K ohm min
D/A
CH1
--V
CH1
+V
CH2 --V
CH3
I/O Wiring and
Specifications
2K ohm min
CH4
2K ohm min
Voltage
Output
D/A
CH4 +V
24V
--
volt. sink/source
D/A
0V
Internal
DC/DC
Converter
CH3
--V
CH4
--V
21.6 -- 26.4 VDC
90mA
CH2
+V
CH3 --V
CH4 --V
+
CH2
--V
0
V
CH3
+V
CH4
+V
24
V
24 V @ 75 mA
OUTPUT
I/O Wiring and Specifications
3--49
F4--04DAS--1 4--Channel 4--20mA Isolated Analog Output
4, isolated current sourcing
Output Ranges
4--20mA current
Resolution
16 bit (1 in 65536)
Output Type
Outputs source 4--20 mA from external supply
Isolation Voltage
±750V continuous, channel to channel, channel to logic
Load Impedance
0O -- 1375O
Loop Supply
12--32VDC
Output Loop Compliance
Vin--2.5V
Max. Load/Power Supply
375O /12V, 975O /24V, 1375O /32V
PLC Update Rate
1 channel per scan min.,
4 per scan max.
Linearity Error (end to end)
and Relative Accuracy
±10 count (±0.015%) maximum
Offset Calibration Error
±13 counts (±0.02%)
Gain Calibration Error
±32 counts maximum, (offset error included)
Maximum Inaccuracy
±0.07% @ 25_C (77°F)
±0.18% @ 0 to 60_ C (32 to140°F)
Conversion Time
3ms to 0.1% of full scale
Digital Output Points Required
32 point (Y) outputs,
16 bits binary data, 2 channel identification bits and 1
output enable
Power Budget Requirement
60 mA @ 5 VDC (from base)
External Power Supply
50 mA per channel
Accuracy vs. Temperature
±50 ppm / _C full scale calibration change
(including maximum offset change, 2 counts)
Operating Temperature
0 to 60_C (32 to 140°F)
Storage Temperature
--20 to 70_C (--4 to 158°F)
Relative Humidity
5 to 95% (non-condensing)
Environmental air
No corrosive gases permitted
Vibration
MIL STD 810C 514.2
Shock
MIL STD 810C 516.2
Noise Immunity
NEMA ICS3-304
I/O Wiring and
Specifications
General
Module
Specifications
Number of Channels
Getting Started
Output
Specifications
Getting Started
3--50
I/O Wiring and Specifications
F4--04DAS--1 4--Channel 4--20mA Isolated Analog Output
Module
Wiring Diagram
ANALOG
NOTE 1: Shields should be connected to the 0V.
NOTE 2: Load must be within compliance voltage.
NOTE 3: For non--isolated outputs, connect all 0V’s together
(0V1 .......0V4) and connect all +V’s together
(+V1 .......+V4).
4 CHANNELS
Internal module circuitry
User Wiring
F4--04DAS--1
N/C
Note 3
4mA--20mA
0V1
Transmitter -Supply
12--32VDC +
+V1
- I1
CH1
+I1
0--1375W
Note 2
I/O Wiring and
Specifications
+V1
--I1
+I1
- I2
4--20mA current sourcing
+I2
N/C
D/A
0V2
100W
+V2
0V3
Transmitter -Supply
12--32VDC +
--I2
+V3
- I3
+I2
+I3
CH3
Note 2
Transmitter -Supply
12--32VDC +
N/C
Note 2
4--20mA current sourcing
D/A
0V3
100W
0V4
+V3
+V4
--I3
--I
--I4
+14
CH4
0--1375W
0V1
+V2
Note 2
0--1375 W
D/A
0V2
CH2
0--1375 W
4--20mA current sourcing
100W
N/C
Transmitter -Supply
12--32VDC +
OUTPUT
4--20mA current sourcing
D/A
100W
+I3
0V4
+V4
--I4
+I4
I/O Wiring and Specifications
3--51
F4--08DA--1 8--Channel Analog Current Output
8, single ended (one common)
Output Range
4--20 mA current
Resolution
12 bit (1 in 4095)
Output Type
Outputs sink 4--20 mA from external supply
Peak Output Voltage
40 VDC (no transient voltage suppression)
External Load Resistance
0--480O at 18V, 220--740O at 24V,
1550--1760O at 48V
Maximum Loop Supply
48 VDC (with load resistance in proper range)
Crosstalk
--70 dB, ±1 count maximum
Linearity Error (end-to-end) and Relative Accuracy
±1 count maximum
Full Scale Calibration Error
(offset error included)
±8 counts maximum (20mA at 25_C)
Offset Calibration Error
±3 counts maximum (4mA at 25_C)
Maximum Inaccuracy
±0.2% at 25_C (77°F)
±0.4% at 0 to 60_C (32 to140°F)
Conversion Time
400 µs maximum, for full scale change
2.25 to 4.5 mS for digital output to analog out
Digital Output Points Required
16 point (Y) outputs,
12 bits binary data, 3 bits channel select,
1 bit output enable
Power Budget Requirement
90 mA at 5 VDC (supplied by base power supply)
External Power Supply
21.6-26.4 VDC, 100 mA, class 2
(add 20 mA for each current loop used)
Accuracy vs. Temperature
±57 ppm / _C full scale calibration range
(including maximum offset change, 2 counts)
Operating Temperature
0 to 60_C (32 to 140°F)
Storage Temperature
--20 to 70_C (--4 to 158°F)
Relative Humidity
5 to 95% (non-condensing)
Environmental Air
No corrosive gases permitted
Vibration
MIIL STD 810C 514.2
Shock
MIL STD 810C 516.2
Noise Immunity
NEMA ICS3-304
I/O Wiring and
Specifications
General Module
Specifications
Number of Channels
Getting Started
Output
Specifications
3--52
I/O Wiring and Specifications
Getting Started
F4--08DA--1 8--Channel Analog Current Output Module
Wiring Diagram
NOTE 1: Shields should be connected to the 0V of the User
Power Supply at the module terminal block.
NOTE 2: Unused current outputs should remain open (no connections).
ANALOG
Typical User Wiring
F4--08DA--1
CH1
0--1K ohms
CH2
0--1K ohms
Current
Output
Current
Output
(same)
See NOTE 1
CH1
CH2
CH3
4--20mA current sinking
(same)
D/A
CH4
D/A
CH5
CH6
CH7
CH8
CH8
0--1K ohms
4mA--20mA
Internal module circuitry
D/A
(same)
4--20mA curr. sinking
Current
Output
D/A
D/A
D/A
D/A
D/A
CH2
--I
CH4
--I
CH6
--I
CH8
--I
CH1
--I
CH3
--I
CH5
--I
CH7
--I
I/O Wiring and
Specifications
0V
0V
24V
0V
+
-18--48 VDC
Optional
Loop Supply
+
-User Supply
21.6 -- 26.4 VDC
100mA
Add 20mA for each
4--20mA loop powered
from this supply.
Internal
DC/DC
Converter
0V
0V
+
24 VDC 90mA
--
OUTPUT
I/O Wiring and Specifications
3--53
F4--08DA--2 8--Channel Analog Current Output
8, single ended (one common)
Output Range
0--5VDC, 0--10VDC
Resolution
12 bit (1 in 4095)
Output Type
OVoltage Sourcing 10mA maximum
External Load Resistance
1kO maximum /10kO minimum
Crosstalk
--70 dB, ±1 count maximum
Linearity Error (end-to-end) and
Relative Accuracy
±1 count maximum (10VDC at 25_C)
Full Scale Calibration Error
(offset error included)
±6 counts maximum (10VDC at 25_C)
Offset Calibration Error
±3 counts maximum (0VDC at 25_C)
Maximum Inaccuracy
±0.2% at 25_C (77°F)
±0.4% at 0 to 60_C (32 to140°F)
Conversion Time
400 µs maximum, for full scale change
4.5 to 9 mS for digital output to analog out
Digital Output Points Required
16 point (Y) outputs,
12 bits binary data, 3 bits channel select,
1 bit output enable
Power Budget Requirement
80 mA at 5 VDC (supplied by base power supply)
External Power Supply
21.6-26.4 VDC, 150 mA, class 2
(add 20 mA for each current loop used)
Accuracy vs. Temperature
±57 ppm / _C full scale calibration range
(including maximum offset change, 2 counts)
Operating Temperature
0 to 60_C (32 to 140°F)
Storage Temperature
--20 to 70_C (--4 to 158°F)
Relative Humidity
5 to 95% (non-condensing)
Environmental Air
No corrosive gases permitted
Vibration
MIIL STD 810C 514.2
Shock
MIL STD 810C 516.2
Noise Immunity
NEMA ICS3-304
I/O Wiring and
Specifications
General Module
Specifications
Number of Channels
Getting Started
Output
Specifications
3--54
I/O Wiring and Specifications
Getting Started
F4--08DA--2 8--Channel Analog Voltage Output Module
NOTE 1: Shields should be connected to the 0V terminal of the User
Power Supply at the module terminal block.
ANALOG
Typical User Wiring
F4--08DA--2
CH1
1k--10kW
CH2
1k--10kW
Voltage
Output
Voltage
Output
(same)
See NOTE 1
CH1
CH2
0--10 V Sourcing
(same)
CH3
CH4
CH5
CH7
CH8
D/A
(same)
0--10 V Sourcing
1k--10kW
D/A
D/A
CH6
CH8
0--5VDC
0--10VDC
Internal module circuitry
D/A
D/A
D/A
D/A
D/A
CH2
+V
CH4
+V
CH6
+V
CH8
+V
CH1
+V
CH3
+v
CH5
+V
CH7
+V
I/O Wiring and
Specifications
Voltage
Output
0V
0V
24V
0V
+
-User Supply
21.6 -- 26.4 VDC
150mA
Internal
DC/DC
Converter
0V
0V
+
24 VDC 150mA
--
OUTPUT
I/O Wiring and Specifications
3--55
F4--16DA--1 16--Channel Analog Current Output
16, single ended (one common)
Output Range
4--20 mA current
Resolution
12 bit (1 in 4095)
Output Type
Outputs sink 4--20 mA from external supply
Peak Output Voltage
40 VDC (no transient voltage suppression)
External Load Resistance
0--480O @ 18V, 220--740O @ 24V,
1550--1760O @ 48V
Maximum Loop Supply
48 VDC (with load resistance in proper range)
Crosstalk
--70 dB, ±1 count maximum
Linearity Error (end-to-end) and Relative Accuracy
±1 count maximum (20mA at 25_C)
Full Scale Calibration Error
(offset error included)
±8 counts maximum (20mA at 25_C)
Offset Calibration Error
±3 counts maximum (4mA at 25_C)
Maximum Inaccuracy
±0.2% @ 25_C (77°F)
±0.4% @ 0 to 60_C (32 to 140°F)
Conversion Time
400 µs maximum, for full scale change
4.5 to 9 mS for digital output to analog out
Digital Output Points Required
32 point (Y) outputs,
2 sets each of 12 bits binary data, 3 bits channel select,
1 bit output enable
Power Budget Requirement
90 mA @ 5 VDC (supplied by base)
External Power Supply
21.6 -- 26.4 VDC, 100 mA, class 2
(add 20 mA for each current loop used)
Accuracy vs. Temperature
±57 ppm / _C full scale calibration range
(including maximum offset change, 2 counts)
Operating Temperature
0 to 60_C (32 to 140°F)
Storage Temperature
--20 to 70_C (--4 to 158°F)
Relative Humidity
5 to 95% (non-condensing)
Environmental Air
No corrosive gases permitted
Vibration
MIL STD 810C 514.2
Shock
MIL STD 810C 516.2
Noise Immunity
NEMA ICS3-304
I/O Wiring and
Specifications
General
Module
Specifications
Number of Channels
Getting Started
Output
Specifications
3--56
I/O Wiring and Specifications
Getting Started
F4--16DA--1 16--Channel Analog Current Output Module
Wiring Diagram
NOTE 1: Shields should be connected to the 0V of the User Power
Supply at the module terminal block.
NOTE 2: Unused current outputs should remain open (no connections).
ANALOG
Typical User Wiring
F4--16DA--1
CH1
0--1K ohms
CH2
0--1K ohms
See NOTE 1
Current
Output
CH1
CH2
Current
Output
Internal module circuitry
4--20mA current sinking
(same)
D/A
CH3
(same)
CH4
CH5
D/A
CH7
D/A
I/O Wiring and
Specifications
D/A
CH9
CH10
CH12
CH16
Current
Output
CH16
0V
0V
24V
0V
+
-18--48 VDC
Optional
Loop Supply
+
-User Supply
21.6 -- 26.4 VDC
100mA
Add 20mA for each
4--20mA loop powered
from this supply
(same)
4--20mA curr. sink.
CH6
--I
D/A
CH10
--I
D/A
CH12
--I
D/A
CH14
--I
D/A
D/A
CH4
--I
D/A
D/A
CH13
CH2
--I
CH8
--I
D/A
CH11
0--1K ohms
D/A
D/A
CH8
CH15
D/A
D/A
CH6
CH14
4mA--20mA
CH16
--I
Internal
DC/DC
Converter
CH1
--I
CH3
--I
CH5
--I
CH7
--I
CH9
--I
CH11
--I
CH13
--I
CH15
--I
0V
0V
+
24 VDC 90mA
--
OUTPUT
I/O Wiring and Specifications
3--57
F4--16DA--2 16--Channel Analog Voltage Output
16, single ended (one common)
Output Range
0--5VDC, 0--10VDC
Resolution
12 bit (1 in 4095)
Output Type
Voltage Sourcing 10mA maximum
External Load Resistance
1kO maximum /10kO minimum
Crosstalk
--70 dB, ±1 count maximum
Linearity Error (end-to-end) and
Relative Accuracy
±1 count maximum (10VDC at 25_C)
Full Scale Calibration Error
(offset error included)
±6 counts maximum (10VDC at 25_C)
Offset Calibration Error
±3 counts maximum (0VDC at 25_C)
Maximum Inaccuracy
±0.2% at 25_C (77°F)
±0.4% at 0 to 60_C (32 to140°F)
Conversion Time
400 µs maximum, for full scale change
4.5 to 9 mS for digital output to analog out
Digital Output Points Required
32 point (Y) outputs,
two sets each of 12 bits binary data, 3 bits channel select, 1 bit output enable
Power Budget Requirement
80 mA at 5 VDC (supplied by base power supply)
External Power Supply
21.6-26.4 VDC, 150 mA, class 2
(add 20 mA for each current loop used)
Accuracy vs. Temperature
±57 ppm / _C full scale calibration range
(including maximum offset change, 2 counts)
Operating Temperature
0 to 60_C (32 to 140°F)
Storage Temperature
--20 to 70_C (--4 to 158°F)
Relative Humidity
5 to 95% (non-condensing)
Environmental Air
No corrosive gases permitted
Vibration
MIIL STD 810C 514.2
Shock
MIL STD 810C 516.2
Noise Immunity
NEMA ICS3-304
I/O Wiring and
Specifications
General Module
Specifications
Number of Channels
Getting Started
Output
Specifications
3--58
I/O Wiring and Specifications
Getting Started
F4--16DA--2 16--Channel Analog Voltage Output Module
NOTE 1: Shields should be connected to the 0V terminal of the User Power
Supply at the module terminal block.
ANALOG
Typical User Wiring
CH1
1kW--10kW
CH2
1kW--10kW
F4--16DA--2
See NOTE 1
Voltage
Output
CH1
CH2
Voltage
Output
Internal module circuitry
0--10 V Sourcing
(same)
D/A
CH3
(same)
CH4
CH6
CH8
CH10
CH12
I/O Wiring and
Specifications
CH16
Voltage
Output
0V
0V
24V
0V
+
-User Supply
21.6 -- 26.4 VDC
275mA
D/A
CH6
+V
D/A
CH8
+V
D/A
CH10
+V
D/A
CH12
+V
D/A
CH14
+V
D/A
CH13
1kW--10kW
D/A
D/A
CH11
(same)
0--10 V Sourcing
D/A
D/A
Internal
DC/DC
Converter
CH2
+V
CH4
+V
D/A
CH9
CH15
D/A
D/A
CH7
CH16
D/A
D/A
CH5
CH14
0--5VDC
0--10VDC
CH16
+V
CH1
+V
CH3
+V
CH5
+V
CH7
+V
CH9
+V
CH11
+V
CH13
+V
CH15
+V
0V
0V
+
24 VDC 275mA
--
OUTPUT
I/O Wiring and Specifications
3--59
F4--08THM 8--Channel Thermocouple Input
8, differential inputs
Type J: --190/760 _C,
Type E: --210/1000 _C,
Type K: --150/1372 _C,
Type R: 65/1768 _C,
Type S: 65/1768 _C,
Type T: --230/400 _C,
Type B: 529/1820 _C,
Type N: --70/1300 _C,
Type C: --65/2320 _C,
Display Resolution
Input Impedance
Absolute Maximum Ratings
±0.1° C or ±0.1° F
1MO
Fault-protected input, ±50 VDC
Cold Junction Compensation
Automatic
Conversion Time
Linearity Error
100ms per channel, minimum
±.05° C maximum, ±.01° C typical
Full Scale Calibration Error
±13 counts typical, ±33 counts max.
Maximum Inaccuracy*
±.02% @ 25° C
PLC Update Rate
8 channel per scan max.
Digital Input Points Required
16 (X) input points, including , 2 channel ID bits,
4 diagnostic bit
Power Budget Requirement
110 mA @ 5 VDC (from base)
External Power Supply
60 mA maximum, 18 to 26.4VDC
Operating Temperature
0° to 60° C (32° to 140° F)
Storage Temperature
--20° to 70° C (--4° to 158° F)
Accuracy vs. Temperature
±57 ppm / _C maximum full scale
Relative Humidity
5 to 95% (non-condensing)
Environmental air
No corrosive gases permitted
Vibration
MIL STD 810C 514.2
Shock
MIL STD 810C 516.2
Noise Immunity
NEMA ICS3--304
--310/1400 _F
--346/1832 _F
--238/2502 _F
149/3214 _F
149/3214 _F
--382/752 _F
984/3308_F
--94/2372_F
--146/4208 _F
I/O Wiring and
Specifications
General
Specifications
Number of Channels
Input Ranges
Getting Started
Input
Specifications
3--60
I/O Wiring and Specifications
Getting Started
F4--08THM 8--Channel Thermocouple Input Module
Note 1: Terminate shields at the respective signal
source.
Note 2: Leave unused channels open (no connection).
Internal Module Wiring
A/D
See Note 1
THERMOCOUPLE INPUT
8 CHANNELS
C
F4--08THM
--1
CH1
Examples of differential
Thermocouple wiring
+1
--2
+2
--3
CH3
+3
CH4
+4
--4
C
--5
CH5
+5
I/O Wiring and
Specifications
--6
Examples of grounded
Thermocouple wiring
+6
--7
+7
--8
CH8
+8
COM
User Supply
+
-24VDC+ 10% Class 2
Analog
Switch
COM
CH1 -CH1+
CH2-CH2+
CH3-CH3+
CH4-CH4+
COM
CH5-CH5+
CH6-CH6+
CH7-CH7+
CH8-CH8+
COM
24V
0V
24V+
0V
24V @40mA
I/O Wiring and Specifications
3--61
F4--08THM--n 8--Channel Thermocouple Input
8, differential inputs
Type E: --270/1000 _C,
Type J: --210/760 _C,
Type K: --270/1370 _C,
Type R: 0/1768 _C,
Type S: 0/1768 _C,
Type T: --270/400 _C,
Type C: 60/2320 _C,
Type B: 529/1820 _C,
Type P: --99/1395 _C,
--1:
0--50 mV
--2:
0--100 mV
--3:
0--25 mV
Resolution
Input Impedance
Absolute Maximum Ratings
12 bit (1 in 4096)
27KO DC
Fault-protected input, 130 Vrms or 100 VDC
Cold Junction Compensation
Automatic
Conversion Time
Converter Type
Linearity Error
15ms per channel, minimum
1 channel per CPU scan
Successive approximation
±1 count (0.03% of full scale) maximum
Full Scale Calibration Error
0.35% of full scale
Maximum Inaccuracy*
±1° C type J,K,E,T thermocouples
--450/1832 _F
--350/1390 _F
--450/2500 _F
32/3214 _F
32/3214 _F
--450/752 _F
149/4208_F
984/3594_F
--146/2543 _F
±3° C type R,S,B,C,P thermocouples
* Maximum Inaccuracy is guaranteed for temperatures above --220°C for types E,
T, J, and K, and above +100°C for types R and S.
General
Specifications
PLC Update Rate
8 channel per scan max.
Digital Input Points Required
16 (X) input points, including 12 binary data bits, 3 channel ID bits, 1 sign bit
Power Budget Requirement
120 mA @ 5 VDC (from base)
External Power Supply
24 VDC ±10%, 50 mA current
Operating Temperature
0° to 60° C (32° to 140° F)
Storage Temperature
--20° to 70° C (--4° to 158° F)
Accuracy vs. Temperature
±57 ppm / _C maximum full scale
Relative Humidity
5 to 95% (non-condensing)
Environmental air
No corrosive gases permitted
Vibration
MIL STD 810C 514.2
Shock
MIL STD 810C 516.2
Noise Immunity
NEMA ICS3--304
I/O Wiring and
Specifications
Number of Channels
Input Ranges
Getting Started
Input
Specifications
3--62
I/O Wiring and Specifications
Getting Started
F4--08THM--n 8--Channel Thermocouple Input Module
Note 1: Terminate shields at the respective signal
source.
Note 2: Leave unused channels open (no connection).
Internal Module Wiring
A/D
See Note 1
TEMPERATURE
C
F4--08THM
--1
CH1
Examples of differential
Thermocouple wiring
+1
--2
+2
--3
CH3
+3
CH4
+4
--4
C
--5
CH5
+5
I/O Wiring and
Specifications
--6
Examples of grounded
Thermocouple wiring
+6
--7
+7
--8
CH8
+8
COM
User Supply
+
-24VDC+ 10% Class 2
INPUT
THERMOCOUPLE
Analog
Switch
COM
CH1 -CH1+
CH2-CH2+
CH3-CH3+
CH4-CH4+
COM
CH5-CH5+
CH6-CH6+
CH7-CH7+
CH8-CH8+
COM
24V
0V
24V+
0V
24V @40mA
I/O Wiring and Specifications
3--63
F4--08RTD 8--Channel RTD Input
8 differential inputs
Input Ranges
Pt100
--200°C/850°C
(--328°F/1562°F)
Pt 1000 --200°C/595°C
(--328°F/1103°F)
jPt100
(--36°F/842°F)
--38°C/450°C
10WCu. --200°C/260°C
(--328°F/500°F)
25WCu. --200°C/260°C
(--328°F/500°F)
Display Resolution
±0.01 °C, ±0.01 °F (±3276.7)
Resolution
15-bit (1 in 32768)
Absolute Maximum Ratings
Fault-protected input, ±22 VDC
Converter Type
Charge balancing, 24-bit
Sampling Rate
160 msec per channel
Temperature Drift
±5ppm per °C (maximum)
Common Mode Range
0--5 VDC
Linearity Error
±.05° C maximum, ±.01° C typical
Full Scale Calibration
±1° C
PLC Update Rate
8 Channels/Scan max. DL440/DL450 CPUs
1 Channel/Scan max. DL430 CPU
Digital Input Points Required
32 (X) input points, 16 binary data bits,
3 channel ID bits, 8 fault bits
Power Budget Requirement
80 mA @ 5 VDC (from base)
Operating Temperature
0° to 60°C (32° to 140°F)
Storage Temperature
--20° to 70°C (--4° to 158°F)
Relative Humidity
5 to 95% (non-condensing)
Environmental Air
No corrosive gases permitted
Vibration
MIL STD 810C 514.2
Shock
MIL STD 810C 516.2
Noise Immunity
NEMA ICS3--304
I/O Wiring and
Specifications
General
Specifications
Number of Channels
Getting Started
Input
Specifications
3--64
I/O Wiring and Specifications
Getting Started
F4--08RTD 8--Channel RTD Input Module
RTD INPUT
Note 1
200 mA
Current
Source
Ch1 +
Ch1 Ch2 +
Ch2 -
I/O Wiring and
Specifications
C
C
Ch7 +
Ch7 Ch8 +
Ch8 -
ANALOG MULTIPLEXER
Note 2
x
F4--08RTD
RTD
INPUT
C
C
Ch3 -Ch3 +
Ch4 -Ch4 +
Ch5 -Ch5 +
Ch6 -Ch6 +
8 CHANNELS
Ref.
Adj.
CH1
CH1
-CH2
+
A/D
-
--
+
COM
COM
CH3
--
200 mA
Current
Source
+
CH2
CH4
-CH5
-CH6
--
CH3
+
CH4
+
CH5
+
CH6
+
COM
COM
CH7
CH7
-CH8
+
CH8
+
--
F4--08RTD
Notes:
1. The three wires connecting the RTD to the module must be the same type and length. Do not use the
shield or drain wire for the third connection.
2. If a RTD sensor has four wires, the extra plus (+) sense wire should be left unconnected as shown.
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