Mô đun Schneider 4 Analog Output Redundant Power Supply Module 30 V 20 MA Voltage Drop 140ACO02000
Redundant Power Supply Module Schneider Electric 140ACO02000 Analog output TSC Quantum
| range of product |
Modicon Quantum automation platform
|
|
|---|---|---|
| product or component type |
Analogue output module
|
| analogue output number |
4
|
|
|---|---|---|
| addressing requirement |
4 output words
|
|
| loop voltage |
12…30 V DC
|
|
| voltage drop |
30 V 20 mA
|
|
| analogue output range |
4…20 mA 0…4096 counts, 12 bits bipolar current
|
|
| absolute accuracy error |
+/- 0.20 % of full scale at 77 °F (25 °C)
|
|
| linearity |
+/- 1 LSB
|
|
| accuracy drift according to temperature |
+/- 0.004 % of full scale/°C
+/- 0.007 % of full scale/°C maximum |
|
| isolation between channels |
500 V 47…63 Hz AC
750 V for 1 minute DC |
|
| update time |
3 ms
|
|
| setting time |
900 µs to +/- 0.1 % of the final value
|
|
| fault type |
Open circuit 4…20 mA
|
|
| bus current requirement |
480 mA
|
|
| power dissipation in W |
<= 5.3 W
|
|
| external power requirement |
12…30 V
|
|
| marking |
CE
|
|
| local signalling |
4 LEDs green channel is turned on
4 LEDs red channel fault 1 LED green bus communication is present (Active) 1 LED red external fault |
|
| module format |
Standard
|
|
| product weight |
0.66 lb(US) (0.3 kg)
|
| product certifications |
CUL
FM Class 1 Division 2 |
|
|---|---|---|
| standards |
CSA C22.2 No 142
UL 508 |
|
| resistance to electromagnetic fields |
9.14 V/yd (10 V/m) 80…2000 MHz conforming to IEC 801-3
|
|
| ambient air temperature for operation |
32…140 °F (0…60 °C)
|
|
| ambient air temperature for storage |
-40…185 °F (-40…85 °C)
|
|
| relative humidity |
95 % without condensation
|
|
| operating altitude |
<= 16404.2 ft (5000 m)
|
| Category |
18155 – QUANTUM I/O & POWER SUPPLIES
|
|
|---|---|---|
| Discount Schedule |
PC21
|
|
| GTIN |
00785901792192
|
|
| Nbr. of units in pkg. |
1
|
|
| Package weight(Lbs) |
1.02
|
|
| Returnability |
Y
|
|
| Country of origin |
FR
|
| Sustainable offer status |
Green Premium product
|
|
|---|---|---|
| RoHS (date code: YYWW) |
Compliant – since 0750 – Schneider Electric declaration of conformity Schneider Electric declaration of conformity
|
|
| REACh |
Reference not containing SVHC above the threshold
|
|
| Product environmental profile |
Available
|
|
| Product end of life instructions |
Available
|
| Warranty period |
18 months
|
|---|
OTHER SUPERIOR PRODUCTS
| Yasakawa Motor, Driver SG- | Mitsubishi Motor HC-,HA- |
| Westinghouse Modules 1C-,5X- | Emerson VE-,KJ- |
| Honeywell TC-,TK- | GE Modules IC – |
| Fanuc motor A0- | Yokogawa transmitter EJA- |
Estimated Size
Dimensions:10″ x 3″ x 5″ (25 cm x 8 cm x 13 cm)
Weight:0 lbs 13 oz (0.37 kg)
Product Related Warnings
Schneider Electric assumes no responsibility for any errors that may appear in this document. If you have any suggestions for improvements or amendments or have found errors in this publication, please notify us.
No part of this document may be reproduced in any form or by any means, electronic or mechanical, including photocopying, without express written permission of Schneider Electric.
All pertinent state, regional, and local safety regulations must be observed when installing and using this product. For reasons of safety and to ensure compliance with documented system data, only the manufacturer should perform repairs to components. When controllers are used for applications with technical safety requirements, please follow the relevant instructions.
Failure to use Schneider Electric software or approved software with our hardware products may result in injury, harm, or improper operating results. Failure to observe this product related warning can result in injury or equipment damage.
Inserting a module (local)
1 Call the Bus Editor
2 Mark a free slot in the local station (left mouse button)
3 Move the mouse pointer over the marked slot
4 Click on the right mouse button
Result: A shortcut menu is opened
5 Select New Device
Result: A dialog window opens that displays all available modules
6 Select the desired module from the respective category in the Hardware catalog.
Result: The new module is inserted in the empty slot on the local station.
Introduction
The Modicon Quantum with Unity modules follow a system of flat address mapping. To work properly. each module requires a determinate number of bits and/or words. The IEC addressing system is equivalent to the 984LL register addressing. Use the following assignments:
z 0x is now %Mx z
1x is now %Ix z
3x is now %IWx z
4x is now %MWx Use the following table to convert 984LL notation to IEC notation.
Examples
The following examples show the relationship between 984LL register addressing and IEC addressing: 000001 is now %M1 100101 is now %I101 301024 is now %IW1024 400010 is now %MW10
IODDT Addressing
An IODDT allows all information (bits and registers) related to a channel to be handled through a user-defined variable. This variable is defined in the Unity Pro data editor by selecting the appropriate IODDT for the module as a data type and specifying the topological address of the module using the following syntax: %CH[b.e]r.m.c where: z b = bus z e = equipment (drop) z r = rack z m = module slot z c = channel Here is an example of an IODDT for an thermocouple input module in slot 4 of a local rack:
Variables in the User Program
You can access all information related to channel 1 of the module using the following variables: z My_Temp_Point1.VALUE for the measured value z My_Temp_Point1.ERROR indicating an out-of-range condition z My_Temp_Point1.WARNING indicating an over-range condition
Word Addressing versus Bit Addressing
Mainly discrete I/O modules can be configured to deliver their I/O data either in word format or in bit format. This can be selected during configuration by selecting either %IW (%MW) or %I (%M). If you need to access a single bit from an I/O module configured to use an I/O word, you can use the syntax %word.bit. The following table gives you the connection between I/O point number and the belonging I/O address in bit and word addressing. The table shows an 32-point input module in the main rack, slot 4 configured with starting address %I1 or %IW1:
I/O channel Bit address (flat addressing) Bit address (topological addressing) Bit address extracted from word (flat addressing) Bit address extracted from word (topological addressing) 1 %I1 %I1.4.1[.0] %IW1.15 %IW1.4.1.1.15 2 %I2 %I1.4.2[.0] %IW1.14 %IW1.4.1.1.14 3 %I3 %I1.4.3[.0] %IW1.13 %IW1.4.1.1.13 • • • 15 %I15 %I1.4.15[.0] %IW1.1 %IW1.4.1.1.1 16 %I16 %I1.4.16[.0] %IW1.0 %IW1.4.1.1.0 17 %I17 %I1.4.17[.0] %IW2.15 %IW1.4.1.2.15 18 %I18 %I1.4.18[.0] %IW2.14 %IW1.4.1.2.14 • • • 31 %I31 %I1.4.31[.0] %IW2.1 %IW1.4.1.2.1 32 %I32 %I1.4.32[.0] %IW2.0 %IW1.4.1.2.0
The 16-point output modules are as follows: z
140DAO84000 (AC Output 24 … 230 Vac 16×1) z
140DAO84010 (AC Output 24 … 115 Vac 16×1) z
140DAO84210 (AC Output 100 … 230 Vac 4×4) z
140DAO84220 (AC Output 48 Vac 4×4) z
140DDO84300 (DC Output 10 … 60 VDC 2×8 Source) z
140DRA84000 (Relay Output 16×1 Normally Open)
The following list shows the 32-point output modules: z
140DAO85300 (AC Output 230 Vac 4×8 Sink) z
140DDO15310 (DC Output 5 V 4×8 Sink) z
140DDO35300 (DC Output 24 Vdc 4×8 Source) z
140DDO35301 (DC Output 24 Vdc 4×8 Source) z
140DDO35310 (DC Output 24 Vdc True Low 4×8 Sink)
CAUTION
/O Mapping When I/O mapping module inputs using discrete %I references in remote drops, users should not split discrete words between drops. The lowest discrete reference for a drop should start on a word boundary. Failure to follow this instruction can result in injury or equipment damage.
