Fuji Electric MICREX-View XX User manual
–1
–
1. Overview
The network adaptor unit (NA) is a relay device to connect respective networks such as T-link, PE-link, DPCS-F and FL-
net in the XCS-3000 and XCS-3000R systems (hereafter referred to as “XCS-3000” or simply “XCS”). The “Common
edition” describes common details of NAs. For details of respective networks, see the individual descriptions such as “T-link
edition” and “PE-link edition”.
1.1 Related Documents
XCS User's Manual, Hardware Edition: TN5A2102-E
ACS Migrator Edition: TN5A2110-E
ACS-2000 System Description Manual: TN511053-E
ACS-2000 Instruction Manual: TN511054-E
IPU (T-LINK), IPU-H (PROFIBUS) Instruction Manual: TN511068-E
Instruction manual for terminal-type PIO: TN509104-E
Operation manual for IPU-II: TN512831-E
Operation manual for PC configurator: TN512830-E
1.2 Terms
The terms used in this document are as follows:
[Common for NAs]
NA: Network adaptor
ACS: Name of the controller for the MICREX-AX system. There are two types of controller, ACS-2000/ACS250.
PCS-500, HDC-500: The controller and its I/O, which were used by the MICREX-P III series
[T-link]
TLC: T-link master module embedded in NA
IPU-I: General term for entire collective extension connected to TLC. This extension consists of TLM, IOM and rack for
mounting them.
TLM: T-link interface module mounted on IPU-I. One set is mounted on one rack in the case of T-link single
configuration and 1T duplicated configuration. Two sets are set on one rack in the case of 2T duplicated
configuration of T-link.
IOM: I/O module mounted on IPU-I
FTL: Collective extension connected to TLC (FTL010)
FTU: I/O module mounted on the FTL base
FTK: Independently installed baseless I/O capsule and I/O terminal. T-link connected inverter, servo and temperature
controller are also included in the category of FTK.
CIO: Compact I/O for HDC-500
[IPU-II]
EPC module: IPU-II master module embedded in NA
Node: Collective I/O connected to the IPU-II circuit. It consists of the base, power source, BIM and IOM.
BIM: IPU-II bus interface module mounted on node. One set is mounted in the IPU-II single configuration and two sets
are mounted in the IPU-II duplicated configuration.
IOM: I/O module mounted on the node
[PE-link]
PE-link module: Fuji Electric inter-private processor coupling module incorporated in NA
PDM modulation (pulse-width modulation): A modulation method that expresses and generates a waveform by the width,
interval and positive/negative of variable pulses.
CRC: An error detecting system that makes error detection by regarding data as a value and by using the remainder
(surplus) produced by division of said value by a multiplier.
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–2–
[DPCS-F]
DPCS-F module: Fuji Electric inter-private station communication module incorporated in NA
Token-passing method: A LAN access control method. "Transmission right" data called token constantly goes around the
network, and the station that fetches this data transmits the data.
STSTR: Abbreviation of station status. Indicates the status of each station connected to the line by information of 4 words,
STSTR1 to 4.
[FL-net]
FL-net module: Module built into an NA that is compatible with FA controller networks standardized by JEMA (Japan
Electrical Manufacture's Association). The communication standard is Ethernet.
IEEE802.3: Standard related to Ethernet released by The Institute of Electrical and Electronics Engineers, Inc. (IEEE).
STP cable: Cable incorporating electromagnetism shielding treatment by the use of foils on the surface and by braiding
out of communication cables called twisted pair cables of such a structure that two copper wires are twisted.
Category 5e: LAN cable that is compatible with 10BASE-T/100BASE-TX/1000BASE-T standard.
Indicates the status of each station.
FL-net based LAN message: Message function used in DPCS-F communication. Corresponds to direct read/write, N-
block read/write and message forwarding, and it is materialized in the FL-net.
1.3 Features of NA
The features of the NA are as follows:
• The NA is embedded with T-link, IPU-II, PE-link, DPCS-F and FL-net (under development). Which interface is
embedded in the NA depends on the models of NA.
• Use in a duplex system is possible.
–3
–
1.4 Model Designation of NA
The model designation of the NA is as follows:
No Model Network im
p
lemented Remarks
SLOT1 SLOT2 SLOT3 SLOT4 SLOT5 SLOT6
1 CSH2LTTY-00YYY T-link T-link ----Put on the market
June 2014
2 CSH2LYY
Y
-00YDY ----DPCS-F
3 CSH2LYYP-00YYY --PE-link - - -
4 CSH2LYYP-00PYY --PE-link PE-link - -
5 CSH2LYYP-00YDY --PE-link -DPCS-F -
6 CSH2LYYP-00PDY --PE-link PE-link DPCS-F -
7 CSH2LTY
Y
-00YYY T-link -----
8 CSH2LTY
Y
-00YDY T-link ---DPCS-F -
9 CSH2LTT
Y
-00YDY T-link T-link - - DPCS-F -
10 CSH2LTYP-00YYY T-link -PE-link - - -
11 CSH2LTYP-00PYY T-link -PE-link PE-link - -
12 CSH2LTTP-00YYY T-link T-link PE-link - - -
13 CSH2LTTP-00PYY T-link T-link PE-link PE-link - -
14 CSH2LTYP-00YDY T-link -PE-link -DPCS-F -
15 CSH2LTYP-00PDY T-link -PE-link PE-link DPCS-F -
16 CSH2LTTP-00YDY T-link T-link PE-link -DPCS-F -
17 CSH2LTTP-00PDY T-link T-link PE-link PE-link DPCS-F -
18 CSH2LGY
Y
-00YYY IPU-Ⅱ-----
19 CSH2LGY
Y
-00YDY IPU-Ⅱ---DPCS-F -
20 CSH2LGYP-00YYY
IPU-Ⅱ-PE-link - - -
21 CSH2LGYP-00PYY
IPU-Ⅱ-PE-link PE-link - -
22 CSH2LGYP-00YDY
IPU-Ⅱ-PE-link -DPCS-F -
23 CSH2LGYP-00PDY
IPU-Ⅱ-PE-link PE-link DPCS-F -
24 CSH2LGG
Y
-00YYY IPU-ⅡIPU-Ⅱ - - - -
25 CSH2LYYP-00YYK --PE-link - - FL-net
26 CSH2LYYP-00PYK --PE-link PE-link -FL-net
27 CSH2LTTP-00PDK T-link T-link PE-link PE-link DPCS-F FL-net
28 CSH2LTGP-00PDK T-link IPU-ⅡPE-link PE-link DPCS-F FL-net
29 CSH2LGGP-00PDK
IPU-ⅡIPU-ⅡPE-link PE-link DPCS-F FL-net
30 CSH2LGG
Y
-00YDY IPU-ⅡIPU-Ⅱ - - DPCS-F -
31 CSH2LGGP-00YYY
IPU-ⅡIPU-ⅡPE-link - - -
32 CSH2LGGP-00PYY
IPU-ⅡIPU-ⅡPE-link PE-link - -
33 CSH2LGGP-00YDY
IPU-ⅡIPU-ⅡPE-link -DPCS-F -
34 CSH2LGGP-00PDY
IPU-ⅡIPU-ⅡPE-link PE-link DPCS-F -
Supplied items
The following items are supplied with the NA.
• Instruction Manual (TN405813-JE)
• One set of PE-link connector (PE-link connector and terminating resistor) Only for the PE-link mounting model.
Connectors necessary for mounting are attached.
–4–
2. Names and Functions of Parts
2.1 Names and Functions of Parts
The following figure shows an example where network cards are inserted into all the slots in the case of
CSH2LTTP-00PDK (T-link x 2, PE-link x 2, DPCS-F and FL-net).
[1] Power connector
Connector for the connection of 24 V DC power supply.
Provide your own external connector with the following specifications.
Connector (1 piece)
Manufacturer: Tyco Electronics
Model: 1-480698-0
Contact (2 pieces)
Manufacturer: Tyco Electronics
Model: 350550-1
[2] Power LED
Shows the power status. The LED is lit with power-on (green).
[3] FG terminal
The terminal for the connection of the FG cable. The screw diameter of the terminal is M4.
[4] NA BUS connector (NA BUS)
Connector for the connection of the XCS-3000 and NA.
Connect this connector to the “NA BUS” connector on the XCS-3000 side. For the specifications of the
cable, see 3.3 “Specifications of NA BUS and NA EQ”.
[5] NA EQ connector (NA EQ)
This is the network, which is always used when duplicating the “XCS-3000 + NA” system, to perform
equalization between NAs.
For duplication, connect the “NA EQ” connectors on the body with each other. For the specifications of the
cable, see 3.3 “Specification of NA BUS and NA EQ”.
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[1] Power connector [10] SLOT1 to 6
[2] Power LED
[6] NA status LED
[
7
]
Reset SW
[8] Toggle SW
[9] Mode SW
[4] NA BUS connector
[5] NA EQ connector
[3] FG terminal
–5
–
[6] NA status LED
Shows the NA status.
LED name Color State Description
NA
STATUS
ON Green
Light
on
Initialization of NA is completed. (The LED lights up when
initialization is completed after turning on power supply.
Light
off Power supply OFF, during resetting, failure of NA
ERR
Red
Light
on The NA body is in the state of failure (module failure).
Light
off The NA body is operating normally.
RUN Green
Light
on
Operating in the single configuration or in the operating
system in the duplicated configuration
Blinking Operating in the standby system in the duplicated
configuration
ALM Red
Light
on
The system is in the state of failure.
Major/minor failure in the module/system
Light
off The system is operating normally.
NA SLOT
STATUS
SLOT
No.
1
Green
Light
on Operating correctly
Blinking Minor failure
Light
off
Being initialized, or not operating due to a serious failure,
configuration definition error, etc.
SLOT
No.
2
Green
Light
on Operating correctly
Blinking Minor failure
Light
off
Being initialized, or not operating due to a serious failure,
configuration definition error, etc.
SLOT
No.
3
Green
Light
on Operating correctly
Blinking Minor failure
Light
off
Being initialized, or not operating due to a serious failure,
configuration definition error, etc.
SLOT
No.
4
Green
Light
on Operating correctly
Blinking Minor failure
Light
off
Being initialized, or not operating due to a serious failure,
configuration definition error, etc.
NA BUS
NA EQ
LNK Orange
Light
on Linked up (Connection of cable)
Light
off Linked down (Disconnection of cable)
TX/RX Green
Blinking The LED lights up for a short time when transmitting/receiving
data (actually looks like blinking).
Light
off No data send/receive
NA STATUS
NA STATUS
ON
ON
ERR
ERR
RUN
RUN
ALM
ALM
NA SLOT
NA SLOT
1 2 3 4
STATUS
STATUS
NA SLOT No.
NA SLOT No.
NA BUS
NA BUS
NA EQ
NA EQ
LNK
LNK
TX/RX
TX/RX
LNK
LNK
TX/RX
TX/RX
–6–
The following table shows NA LED status (ON, ERR, RUN, ALM) combinations and their corresponding NA statuses.
□: Not lit, ●: Lit, ◎: Blinking
Symbol
NA status display
Examples of failure factors
ON ERR RUN ALM
Status
Color Green Red Green Red
Power-off, being reset □□□□Power supply OFF, during
resetting, failure of NA
Starting up ●□□□-
Operating correctly (operating) ●□●□-
Operating correctly (standby) ●□◎ □ -
Serious module failure ●●□●CPU error, memory error
Serious system failure ●□□●Error of system configuration
definition
Minor module failure ●●●●There is no relevant factor.
Minor system failure ●□●or ◎ ● External network error, NA
BUS error, NA EQ error
–7
–
[7] Reset SW
This switch is used to reset the NA. Press the button for 3 seconds or more to reset the NA.
[8] Toggle SW
Not used. Set to "ON" at all times.
[9] Mode SW
Set to "1" at all times.
[10] SLOT 1 to 6
Network cards are mounted according to the models of NA.
Refer to 1.5 “Models of NA” to see which network cards are mounted.
The outer appearances of slots for respective network cards are as follows.
[In the case of T-link]
The slot has a terminal block structure as shown below. T-link is connected in this terminal block. It is
connected to the internal TLC unit. Two T-link systems can be connected per slot as shown in the following
figure.
The right side is for the CH1 channel, and the left side is for the CH2 channel. The terminal block is
removable.
A T-link termination resistor is attached between T1 and T2 for each channel.
For the terminating station, make the termination resistor stay attached.
For midpoint stations of T-link, remove the termination resistors and attach a termination resistor between T1
and T2 for the terminating station.
The screw diameter of the terminal is M3.5.
CH2
CH2
T2
T2
T2
T2
T1
T1
T1
T1
SD
SD
SD
SD
NC
NC
CH1
CH1
NC
NC
SD
SD
T2
T2
T1
T1
SD
SD
T2
T2
T1
T1
T-link terminal block
fastening screws
–8–
[In the case of IPU-II]
Outer appearance of IPU-II
It has a structure of a BNC connector as shown below. There is no connector on the cable side.
Front view of outer
appearance
Top view of outer
appearance
–9
–
<Processing of IPU-II cable>
(1) Connector used
BNC connector
Manufacturer: Amphenol Japan Ltd.
Model: B1121A1
Crimp tool: NO.C / T-001 for crimping the center pin
NO.C / T-002 for crimping the ferrule
(2) Cable used
RG coaxial cable (10Base2 cable)
Manufacturer: Furukawa Electric Co., Ltd.
Model: RG-58A / u
(3) How to connect cable and connector
[1] The connector consists of the following three parts.
[2] Expose the cable’s internal conductor, insulator and shield wire from the cable cover and have
them in the dimensions as specified below.
[3] Insert the conductor into the contact pin and crimp the pin with the crimp tool as shown below.
Subsequently, slide the “ferrule” over the cable.
[4] Insert the “the body knurl” into between the shield wire and the insulator.
[5] Slide the “ferrule” over the shield wire and crimp it with the crimp terminal .
(4) Precautions for storing connectors for axial cables
Connectors for axial cables are silver-plated. If they are stored in a place containing sulfur, they may
be corroded and discolored into black, deteriorating the electrical characteristics and severely
damaging the contact resistance.
Keep them in sealed plastic bags not to expose them to gas and store them in a dry place.
Body Contact
p
in Ferrule
Knurl
Internal conducto
r
Cable cover
Shield wire
Insulato
r
FerruleCrimping
Crimping
–
10–
(5) Terminating resistance of coaxial cable
Mount BNC termination resistors (50 ) on both ends of a coaxial cable.
Specifications of BNC termination resistor
Manufacturer: OSADA
Model: B-144F-BNGT5
(6) Length of coaxial cable
The maximum cable length is 185 m, the minimum cable length between nodes is 0.5 m and
minimum bending radius is 10 cm.
–11–
<Countermeasures against static electricity for IPU-II connectors>
Perform the following countermeasures against static electricity when connecting the cable to the IPU-II master.
The following describes how to mount the protective cover on the BNC connector of the NA mounted with the
IPU-II master
(a) Connection of BNC-T valve
Connect the BNC-T valve to the BNC connector of the IPU-II master.
(b) Connection of 10Base2 cable
Connect the 10Base2 cables, both ends of which are attached with the BNC connectors, to the upper and
lower ends of the T valves. In that case, connection is made through the protective cover caps.
IPU-II maste
r
Cap
–
12–
(c) Mounting of protective cover
Mount the protective cover in the state where the cables are connected to the T valve.
(d) State after mounting
Fix the protective cover by the upper and lower caps.
The mounted protective cover protects the metallic parts of the T valve against static electricity.
Protective
–
17–
[FL-net]
<External appearances of FL-net>
It is compatible with RJ45 connector of Ethernet as illustrated below:
Pin No. Signal name I/O Function
1 TXD- — + send data
2 TXD- I/O - send data
3 RXD+ I/O + receive data
4 NC1 — NC *1
5 NC1 NC *1
6 RXD- - receive data
7 NC2 NC *1
8 NC2 NC *1
*1: Connected to GND through C and R as a noise measure.
–
18–
2.2 External Dimensions
The external dimensions of the NA are 282.5 × 483 × 88 mm (D × W × H).
Can be installed on a 19-inch rack (2 pitches in height).
If replacement or new NA installation on a cabinet is considered, please contact our sales office in your region.
SLOT6
SLOT6
SLOT5
SLOT5
SLOT1
SLOT1
SLOT2
SLOT2
FG
FG
+
?[
?[
DC24V
DC24V
SLOT No.
SLOT No.
NA STATUS
NA STATUS
1 2 3 4
ON
ON
ERR
ERR
RUN
RUN
ALM
ALM
RST
RST
MODE
MODE
NA BUS
NA BUS
NA EQ
NA EQ
INPUT
INPUT
CH2
CH2
T2
T2
T2
T2
T1
T1
T1
T1
SD
SD
SD
SD
NC
NC
CH1
CH1
T2
T2
T2
T2
T1
T1
T1
T1
SD
SD
SD
SD
NC
NC
CH2
CH2
CH1
CH1
CSH2LTT Y-00YYY
CSH2LTT Y-00YYY
–
73–
1. Configuration
1.1 Overview
The built-in TLC of the network adaptor (NA) is a relay device to connect the I/O of T-link in the XCS-3000 system.
The connectable T-link I/Os are IPU-I, FTL and FTK that can connected by ACS.
The connectable IPU-II I/O is the IPU-II node (collective I/O compatible with IPU-II) that is the IPU-II I/O which can be
connected by ACS.
Two NAs can be set and connected by the NA equalization bus to duplicate NA.
In a system consisting of the existing ACS, the T-link I/O station can be used without any change and only the ACS can be
replaced by the “XCS-3000+NA” configuration. Therefore, the already discontinued I/Os are also listed as the connectable
devices. Contact our sales person in each case as to whether those I/Os are still available.
1.2 System configuration
The following is the equipment configuration by the NA embedded with the TLC.
(Only XCS-3000 and NA are indicated to clarify the connection in the network. Actually, a power source, base board, etc. are
required for XCS-3000.)
(1) Single configuration
Figure 1.2.1 shows the system with single (no redundancy) controller (XCS-3000) configuration.
Figure 1.2.1 System Configuration Diagram for Single Configuration
CSH1
CSH1
PU1A
PU1A
-00FHY
-00FHY
'5:$75
0#$75
.0-
.0-
.0-
.0-
6:4:
6:4:
6:4:
6:4:
(.'44
0#'44
'5:$75 10.
#./
(.
(.
FL-net V3 based LAN
NA BUS
IPU-Ⅱ
NA
XCS-3000
IP
U
-II
–
74–
(2) 2T duplex (with two IPU-Ⅱlines) configuration
*The slots and channels used for T-link connection must be the same between the right and left NAs. If
slots and channels used differ, duplex operation does not function correctly.
Figure 1.2.2 2T Duplex Configuration
T-link (only IPU-II for 2T duplex)
XCS-3000 (standby system)
CSH1
CSH1
PU1A
PU1A
-00FHY
-00FHY
'5:$75
0#$75
.0-
.0-
.0-
.0-
6:4:
6:4:
6:4:
6:4:
(.'44
0#'44
'5:$75 10.
#./
(.
(.
FL-net V3 based LAN (duplex)
NA BUS
NA
CSH1
CSH1
PU1A
PU1A
-00FHY
-00FHY
'5:$75
0#$75
.0-
.0-
.0-
.0-
6:4:
6:4:
6:4:
6:4:
(.'44
0#'44
' 5:$75 10.
#./
(.
(.
NA BUS
NA EQ
(
NA e
q
ualization bus
)
B
I
M
B
I
M
I
O
M
I
O
M
I
O
M
I
O
M
XCS-3000 (running system)
EQBUS (Equalization bus)
node
–
75–
2. Specifications
2.1 Specifications of IPU-Ⅱ
Specifications of IPU-II are shown below.
Item Specifications
Circuit 10BASE2 [insulation] 1 circuit
Number of connections 8Node×8IOM
Length of connection Minimum 0.5 m (between nodes)
Maximum 185 m (total length)
Transmission speed 10Mbps
Transmission rule Compliant with IEEE802.3
Data link CSMA/CD
Error detection 32 bits CRC
Connector BNC
Dielectric voltage 1500 VAC (BNC connector
inner circuit)
2.2 Specifications of IPU-Ⅱ
The following table shows the main specifications of IPU-Ⅱ.
Item Content/whether or not
specified
Description Remarks
Number of mounted
sheets
Maximum 2 sheets Can be mounted into the IO
network slots one by one orderly
and mixed with T-link
1 circuit x 2 sheets
Link configuration Single Maximum 8 nodes can be
connected in one IPU-II circuit.
Duplication
IO unit Maximum 8 nodes can be
mounted.
Connected device Devices connectable by Ibus
module of ACS
Definition of IO group Yes (there is) Associating the application task
with the input/output data
Degraded operation Can be specified
Automatic restart Yes (fixed) The NA detects the change of IO
status from “failure recovery”
and executes the restart
processing.
HOLD mode
specification
Can be specified in the
channel units
This specification can be
performed in the channel
unit for XCS-3000R and
in the module unit for
XCS-3000.
Message function No (not provided)
Specification for IO
exchange group
Cannot be specified The IO exchange timing is
asynchronous with the system
processing on XCS. From NA to
EPC, the IO exchange
processing is performed for all
IOs in a batch.
Specification for
degeneracy group
Cannot be specified
HART function No (not provided)
IP
U
-II
–
76–
2.3 Restrictions for IPU-Ⅱ
See 2.2 “Specifications of IPU-II”. The following are the additional restrictions.
In ADOT03 and ADIV03, the simultaneous ON rate is restricted due to the temperature rise of modules themselves. The
operating temperature within the cabinet is maximum 55C. If ADOT03 and ADIV03 are used at 50C or over, restrict the
simultaneous ON rate to 50% or less. (Condition: simultaneous ON rate 50%)
For AAIS01, no module of 3W or more in heat value can be mounted in the neighboring slot. In addition, for mounting, the
following precautions must be observed to maintain the cold-junction compensation accuracy.
(1) The equipment must be mounted in the position where it is not influenced by surrounding heat. No heating unit must be
placed immediately below the node.
(2) Do not install the equipment in a place where it is directly exposed to the air current of a ventilation fan, etc.
(3) Do not mount a module in a slot adjacent to the bus interface module (BIM).
(4) Do not mount a module in a slot immediately adjacent to the module of 3W or more in heat value.
(5) For the thermocouple or compensating wire connected to the terminal block, use that of 1.25 sq or less in wire diameter.
However, wires of same diameter must be used in one terminal block.
(6) When connecting thermocouples or compensation wires to the terminal block, connect them starting from CH1 one by one.
2.4 Connecting Existing IPU-ⅡDevices
The following connection method is available.
In an ACS IPU-II system, only the master ACS can be changed to the "XCS-3000 + NA" configuration, and the slave IPU-II
devices can be used unchanged.
For IPU-II configuration, see "1.2 System configuration".
Existing IPU-II master device Connection style in VieW system
ACS Connected to the NA's built-in IPU-II
–
77–
2.5 Support slave devices
Type No.
code Name of module Support Remarks
AAII01 AI (4 to 20 mA, 16 points, non-isolated) ○No support for HART function
AAII05 AI (4 to 20 mA, 8 points, each point individually isolated) ○No support for HART function
AAIV01 AI (-10 to +10V, 16 points, non-isolated) ○
AAIV05 AI (1 to 5V, 8 points, each point individually isolated) ○
AAIO01 AIO (4 to 20 mA, 8 + 8 points, non-isolated) ○No support for HART function
AAIO05 AIO (4 to 20 mA, 4 + 4 points, each point individually isolated) ○No support for HART function
AAOI05 AO (4 to 20 mA, 8 points, individually isolated) ○No support for HART function
AAOV01 AO (-10 to +10V, 16 points, non-isolated) ○
AAOV05 AO (1 to 5V, 8 points, each point individually isolated) ○
AAIS01 Thermocouple/mV input module (thermocouple: JIS R, J, K, E,
T, B, S, N/mV: -100 to 150 mV, 16 points, isolated in a batch) ○
AAIS02
Resistance temperature detector/slip resistance inp
ut module (resistance temperature detector: JIS Pt100,
JPt100/slip resistance: 0 to 3 k, 12 points, isolated in a batch)
○
APLI01 PI (8 points, 0 to 10 kHz, each point individually isolated) ○
ADIV01 DI (32 points, 24 VDC, 4.1 mA, exclusively for single) ○
ADIV02
DI (32 points, 24 VDC, 4.1 mA) ○
PI (32 points, 24 VDC, 4.1 mA) ○
ADIV03 DI (64 points, 24VDC, 2.5 mA) ○
ADIV05
DI (16 points, 100 VAC, 4.7 mA) ○
PI (16 points, 100 VAC, 4.7 mA) ○
ADIV06
DI (16 points, 200 VAC, 6.2 mA) ○
PI (16 points, 200 VAC, 6.2 mA) ○
ADOT01 DO (32 points, 24 VDC, 100 mA, exclusively for single) ○
ADOT02
DO (32 points, 24 VDC, 100 mA) ○
PO (32 points, 24 VDC, 100 mA) ○
ADOT03 DO (64 points, 24 VDC, 100 mA) ○
AROL01
Relay DO (16 points, AC/100 to 240V DC24 to 110V) ○
Relay PO (16 points, AC/100 to 240V DC24 to 110V) ○
ARLO05
Independent contact relay DO (16 points, AC/100 to 240V
DC24 to110V) ○
Independent contact relay PO (16 points, AC/100 to 240V
DC24 to110V) ○
○: supported
×: not supported
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