Обзор специальных и коммуникационных модулей серии ПЛК Do

Обзор специальных и коммуникационных модулей серии ПЛК Do
Specialty Modules
The Do-more H2 Series PLC supports the following specialty modules.
Ethernet Communication Modules
Part Number
Description
H2-ECOM100
H2-ECOM
100MBit Ethernet Communication Module
10Base-T Ethernet Module
(No longer available)
Serial Communication Modules
Part Number
Description
H2-SERIO
3-port RS-232 Serial I/O Module
H2-SERIO-4
3-port RS-232/RS-485 Serial I/O Module
Ethernet Remote I/O Modules
Part Number
Description
H2-ERM
10Base-T Ethernet Remote Master Module
H2-EBC100
H2-EBC
100MBit Ethernet Base Controller
10Base-T Ethernet Base Controller
(No longer available)
High Speed I/O Modules
Part Number
Description
H2-CTRIO
High Speed Counter Interface Module
H2-CTRIO2
High Speed Counter Interface Module
Input Simulator Module
Part Number
F2-08SIM
Description
8-point Input Simulator
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Specialty Modules
Company
Information
Systems
Overview
Programmable
Controllers
H2-ECOM100 <--->
Modbus TCP communications architecture
Field I/O
Software
C-more &
other HMI
Drives
Soft
Starters
Motors &
Gearbox
NetEdit 3 Configuration
Software
H2-ECOM100
Overview
Ethernet Communications Modules offer
features such as:
• High-speed peer-to-peer networking
of PLCs
• Fast updates with Do-more Designer
Software
• High-performance access for Human
Machine Interface (HMI), ERP, MES or
other Windows-based software
• Industry standard Modbus TCP
Client/Server Protocol
NetEdit 3 Configuration Software
Motor
Controls
NetEdit 3 Configuration Software is
included in the free Do-more Designer
software. Use NetEdit 3 to configure the
ECOM modules for your network. Flexible
addressing allows you to use your choice
of protocols and identification methods.
Assign each module a number, a name or
both. You don’t have to use an IP address,
but you can if it’s necessary for your
network. NetEdit 3 uses two protocols for
PC-to-PLC communications: IPX and
TCP/IP. The NetEdit 3 screen displays all
identifiers and troubleshooting information for each module on the network. You
can use NetEdit 3 to adjust parameters for
PLC-to-PLC communications by clicking
on Advanced Settings. The network identifiers can also be changed from Do-more
Designer software.
Proximity
Sensors
Photo
Sensors
Limit
Switches
Encoders
Current
Sensors
Pressure
Sensors
The
H2-ECOM100 supports the
Industry Standard Modbus TCP
Client/Server Protocol
Our HA-TADP (10/100Base-T) PC network
adapter card and Stride Ethernet switches
are compatible with the ECOM modules.
See the Communications Products section
for information on these items.
Temperature
Sensors
Pushbuttons/
Lights
Process
Simple connections
Use Category 5 UTP cables which can be
run up to 100 meters between nodes. If
needed, use repeaters to extend distances
and expand the number of nodes.
Steppers/
Servos
Relays/
Timers
Message is sent out
of port only
connected to device
Comm.
Terminal
Blocks &
Wiring
Message in
from a device
Power
Circuit
Protection
See the Communications
section for details on
Ethernet Switches
Enclosures
Tools
Specifications
Communications
Data Transfer Rate
Link Distance
Ethernet Port
Ethernet Protocols
Power Consumption
H2-ECOM100
Pneumatics
10/100Base-T Ethernet
100 Mbps max.
Appendix
100 meters (328 ft)
Product
Index
RJ45
TCP/IP, IPX, Modbus TCP,
DHCP, HTML configuration
300 mA @ 5 VDC
Part #
Index
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Programmable Controllers
e38-27
Specialty Modules
H2-SERIO
<--->
H2-SERIO-4 <--->
H2-SERIO / H2-SERIO-4 Specifications
H2-SERIO
Module Type
Approvals
Number of Serial
Ports per Module
Signals
Serial Communications Module
cUL Listed, file number E185989
3 ports: all RS-232 (RJ12 jack)
H2-SERIO
H2-SERIO-4
Serial I/O Modules
Add serial ports to your Do-more H2
Series PLC system by simply plugging the
H2-SERIO or H2-SERIO-4 module into
the base.
3 ports: 2 RS-232 ports (RJ12 jack) and 1
RS-422/485 (5 position terminal strip)
RS-232: CTS, RXD, TXD RTS, GND
RTS transmision delay times: 5, 50, 250 and
RS-232: CTS, RXD, TXD RTS, GND
500 ms
RTS transmision delay times: 5, 50, 250 and
500 ms
RS-422 (4 wire) : TX+, TX-, RX-, RX+, GND
RS-485 (2 wire): Data+, Data-, GND
RS-232: ZL-RJ12CBL-2
RS-422: ADC L19853-x (Belden 8103)
RS-485: ADC L19954-x (Belden 9842)
Recommended Cables RS-232: ZL-RJ12CBL-2
Protocols Supported
Power Consumption
Baud Rates
Parity
Start and Stop Bits
Operating
Environment
Storage Temperature
H2-SERIO-4
Do-more programming, K-sequence slave, MODBUS RTU master/slave, serial ASCII
80 mA @ 5 VDC
1200, 2400, 4800, 9600, 19200, 38400, 57600, 115200
None, odd, even
1, 2
0 to 60°C (32°F to 140°F), 5% to 95% RH (non-condensing); No corrosive gases, Pollution
level 2; Vibration: MIL STD 810C 514.2; Shock: MIL STD 810C 516.2
-20 to 70°C (-4°F to 158°F)
H2-SERIO-4 Wiring: RS-422/485
RS422/485
The H2-SERIO module has three RS-232
ports, while the H2-SERIO-4 module has
two RS-232 ports and one RS-422/485
port.
TXD+
TXD(D-) RXD(D+) RXD+
GND
H2-SERIO(-4) Wiring: RS-232
RS-232
H2-SERIO-4 RS-422 Pin
Descriptions
6 pin RJ12 Phone
Type Jack – both ports
6
1
1
2
3
4
5
H2-SERIO(-4) RS-232 Pin
Descriptions
1
2
3
4
5
6
0V
CTS
RXD
TXD
RTS
0V
Power (-) connection (GND)
Clear to Send
Receive data (RS-232)
Transmit data (RS-232)
Request to Send
Signal Ground (GND)
TXD+
Transmit data
TXD(D-) RXDReceive data
(D+) RXD+
GND
Signal Ground (GND)
H2-SERIO-4 RS-485 Pin
Descriptions
1
2
3
4
5
TXD+
N/A
TXD(D-) RXDTransmit/Receive data
(D+) RXD+
GND
Signal Ground (GND)
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Specialty Modules
Company
Information
Systems
Overview
H2-ERM
<--->
Simple connections
Software configuration
The ERM connects to your control
network using Category 5 UTP cables for
cable runs up to 100 meters. Use
repeaters to extend distances and expand
the number of nodes.
ERM Workbench is a software utility that
must be used to configure the ERM and
its remote Ethernet slaves. ERM workbench supports two methods of configuring the ERM I/O network:
• ERM Workbench PLC Wizard greatly
simplifies the configuration procedure
when a PLC is used as the CPU interface.
• ERM Workbench configures the I/O
network whether the CPU interface is a
PLC or WinPLC, and allows access to all
ERM I/O network parameters.
The PLC, ERM and EBC slave modules
work together to update the remote I/O
points. These three scan cycles are occurring at the same time, but asynchronously. Critical I/O points that must be
monitored every scan are best placed in
the CPU base.
ERM Workbench Software
Networking ERMs with
other Ethernet devices
H2-ERM
Overview
The Ethernet Remote Master H2-ERM
connects a Do-more H2 Series PLC’s
local CPU base to slave I/O over a highspeed Ethernet link.
Specifications
10BaseT Ethernet
Data Transfer Rate
10Mbps
Link Distance
Ethernet Port
Ethernet Protocols
Power Consumption
Soft
Starters
Motors &
Gearbox
Steppers/
Servos
Encoders
Current
Sensors
Pressure
Sensors
Do-more CPU
H2-ERM
Temperature
Sensors
Pushbuttons/
Lights
Process
Relays/
Timers
Stride
Ethernet
Switch
Comm.
Terminal
Blocks &
Wiring
Up to 100m
segments
between
switches
Power
H2-EBC100
remote I/O
Circuit
Protection
Enclosures
Tools
Pneumatics
GS-EDRV100
100 meters
(328 ft)
Appendix
H4-EBC
remote I/O
RJ45
w w w. a u to m at i o n d i re c t . c o m
Drives
Limit
Switches
PC running ERM Workbench to configure the ERM and
its slaves.The PC may be removed once the system is
configured.
320mA @5VDC
C-more &
other HMI
Photo
Sensors
Stride Ethernet Switch
(see the Communications
Products section for details)
TCP/IP, IPX
Software
Proximity
Sensors
It is highly recommended that a dedicated Ethernet remote I/O network be
used for the ERM and its slaves. While
Ethernet networks can handle a large
number of data transactions, and
normally handle them very quickly, heavy
Ethernet traffic can adversely affect the
reliability of the slave I/O and the speed
of the I/O network. Ensure ERM networks,
multiple ERM networks and ECOM/office
networks are isolated from one another.
H2-ERM
Communications
Field I/O
Motor
Controls
Need a lot of I/O?
Each ERM module can support up to 16
additional
H2-EBC
systems,
16
Terminator I/O EBC systems, or 16 fully
expanded H4-EBC systems. Of course,
combinations are fine, too. The ERM also
supports Edrives. See the Drives section
for details.
Note: Applications requiring an extremely
large number of T1H-EBC100 analog I/O or
H4-EBC 16-channel analog I/O, could
exceed the buffer capacity of a single
H2-ERM module. In these cases, an
additional H2-ERM may be required.
Programmable
Controllers
GS3 drive
Product
Index
Part #
Index
T1H-EBC100
remote I/O
Programmable Controllers
Volume 14
e38-29
Specialty Modules
H2-EBC100
<--->
Specifications
H2-EBC100
Communications
Data Transfer Rate
Link Distance
Ethernet Port /
Protocols
10/100Base-T Ethernet
Serial Port / Protocols
RJ12, K-Sequence, ASCII IN/OUT
Modbus RTU
300 mA
100 Mbps max.
100 meters (328 ft)
RJ45, TCP/IP, IPX, Modbus TCP/IP,
DHCP, HTML configuration
Power Consumption
Do-more H2 Series PLC
H2-ERM
H2-EBC100
H2-DM1E
H2-EBC100
Use EBCs for
Ethernet remote I/O slaves
The H2-EBC100 Ethernet Base Controller
module provides a low-cost, high-performance Ethernet link for the Do-more H2
Series PLC using the H2-ERM module and
Ethernet remote I/O. The H2-EBC100
supports industry standard 10/100BaseT
Ethernet communications and is compatible with TCP/IP, IPX and Modbus TCP/IP
protocols for flexible PC communications.
Stride
Ethernet
Switch
H2-EBC100
Up to 16 Ethernet remote
I/O bases
H2-EBC100
NetEdit 3 Configuration Software
Easy to use,
reliable and fast
The H2-EBC100 module plugs into the
CPU slot of any DL205 I/O base and
supports all DL205 discrete and analog
I/O modules. All EBC modules can be
configured using NetEdit 3, included in
the free Do-more Designer software. The
H2-EBC100 also supports HTML configuration.
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Specialty Modules
Company
Information
Systems
Overview
H2-CTRIO
H2-CTRIO2
<--->
<--->
Specifications
Discrete I/O Points Used
Base Power Required
Isolation
Specifications
H2-CTRIO
H2-CTRIO2
Inputs
Maximum Input Frequency
Minimum Pulse Width
Input Voltage Range
Maximum Voltage
Input Voltage Protection
Rated Input Current
Minimum ON Voltage
Maximum OFF Voltage
Minimum ON Current
Maximum OFF Current
OFF to ON Response
ON to OFF Response
Overview
The H2-CTRIO and H2-CTRIO2
Counter I/O modules are designed to
accept high-speed pulse input signals for
counting or timing applications. These
modules also provide high-speed pulse
output signals for servo/stepper motor
control, monitoring and alarming as well
as other discrete control functions.
The CTRIO(2) module offers greater flexibility for applications which call for
precise counting or timing based on
input events or for high speed control
output applications. It can also be used
for applications that call for a combination of both high-speed input and highspeed output control functions.
The CTRIO(2) module has its own microprocessor and operates asynchronously
with respect to the CPU. Therefore, the
response time of the on-board outputs is
based on the module’s scan time, not the
CPU’s scan time.
Programmable
Controllers
General Specifications
H2-CTRIO
H2-CTRIO2
None (I/O map directly in H2-DM1/E data structure)
400 mA Max
275 mA Max
2500V I/O to Logic, 1000V among Input
Channels and All Outputs
1500V I/O to Logic, 1000V among Input
Channels and All Outputs
Input Specifications
H2-CTRIO
H2-CTRIO2
100 kHz
250 kHz
5 µsec
0.5 µsec
9-30 VDC
Motor
Controls
9.0 VDC
Proximity
Sensors
2.0 VDC
5.0 mA
Photo
Sensors
2.0 mA
Less than 3 µsec
Less than 0.5 µsec
Less than 3 µsec
Less than 0.5 µsec
H2-CTRIO2
2 channels, 20 Hz to 25 kHz
Pulse/Direction or CW/CCW
Maximum Load Current
1.0 A
2 channels, 20 Hz to 250 kHz
Pulse/Direction or CW/CCW
0.5 µsec
5-36 VDC
36 VDC
1.0 A at 23°C
0.5 A at 60°C
5.0 A for 20 ms
0.3 VDC or less
2.0 A for 10 ms
0.45 VDC or less
Yes
Edit CTRIO/CTRIO2 Configuration Window
less than 1 µsec
less than 1 µsec
Inputs Supported:
•
•
•
•
•
Counter
Quad Counter
Pulse Catch
Edge Timer
Dual Edge Timer
Pressure
Sensors
Temperature
Sensors
Pushbuttons/
Lights
Comm.
Terminal
Blocks &
Wiring
Power
Enclosures
Outputs Supported:
• Pulse train - used for servo/stepper
motor control. Configurable for
CW/CCW or step and direction
• Discrete outputs - assigned to
Counter/Timer input functions
• Raw output - outputs controlled
directly from the CPU interface
program
• Programmable limit switch
Programmable Controllers
Relays/
Timers
Circuit
Protection
Volume 14
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Current
Sensors
Process
100 µA
less than 3 µsec
less than 3 µsec
Limit
Switches
Encoders
H2-CTRIO
5 µsec
All scaling and configuration is done from
within
the
Edit
CTRIO/CTRIO2
Configuration window of Do-more
Designer. This eliminates the need for PLC
ladder programming or other interface
device programming to configure the
module.
Motors &
Gearbox
Steppers/
Servos
8 mA typical 12 mA maximum
Minimum Pulse Width
Output Voltage Range
Maximum Output Voltage
Software Configuration
Drives
Zener Clamped at 33 VDC
4 pts (sink/source), independently isolated
Maximum Leakage Current
Inrush Current
ON State V Drop
Overcurrent Protection
OFF to ON Response
ON to OFF Response
C-more &
other HMI
9-30 VDC
30 VDC
Outputs
Pulse Outputs
Software
Soft
Starters
8 pts sink/source
Output Specifications
Specifications
Field I/O
e38-31
Tools
Pneumatics
Appendix
Product
Index
Part #
Index
Specialty Modules
F2-08SIM
<--->
F2-08SIM Input Simulator
Inputs per Module
Base Power Required 5VDC
Terminal Type
Status Indicator
Weight
8
50 mA
None
Switch side
2.65 oz. (75 g)
F2-08SIM
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Programmable Controllers
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Do-more H2 Series PLC Overview
Module Compatibility
The following table shows which DL205 components are supported by the H2-DM1 and
H2-DM1E Do-more CPUs.
Module
Base Units
Module Compatibility Table
Status
Module
Part Number
D2-03B-1
F2-04AD-1
D2-04B-1
F2-04AD-2
D2-06B-1
F2-08AD-1
D2-09B-1
F2-08AD-2
D2-03BDC1-1
F2-04RTD
D2-04BDC1-1
F2-04THM
D2-06BDC1-1
Status
F2-02DA-1(L)
Analog I/O
Modules
D2-09BDC1-1
F2-02DA-2(L)
D2-06BDC2-1
F2-02DAS-1
D2-09BDC2-1
F2-02DAS-2
D2-08ND3
F2-08DA-1
D2-16ND3-2
F2-08DA-2
D2-32ND3
F2-4AD2DA
D2-32ND3-2
F2-8AD4DA-1
D2-08NA-1
F2-8AD4DA-2
D2-08NA-2
Local Expansion D2-CM
Modules
D2-EM
D2-16NA
Discrete I/O
Modules
Part Number
No
No
D2-04TD1
H2-ERM
D2-08TD1
H2-ERM-F
D2-08TD2
D2-RMSM
No
D2-16TD1-2
D2-RSSS
No
D2-16TD2-2
H2-ECOM100
F2-16TD1P
H2-ECOM-F
F2-16TD2P
D2-DCM
D2-32TD1
H2-EBC100
Specialty
Modules
D2-32TD2
H2-EBC-F
D2-08TA
H2-SERIO
F2-08TA
H2-SERIO-4
D2-12TA
F2-CP128
D2-04TRS
H2-CTRIO
D2-08TR
H2-CTRIO2
F2-08TR
D2-CTRINT
F2-08TRS
F2-08SIM
Programmer
Operator
Interface
D2-12TR
D2-08CDR
= Supported
No
No
No
D2-HPP
No
DV-1000
No
No = Not Supported
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Do-more H2 Series PLC Overview
Company
Information
Systems
Overview
Programmable
Controllers
Communications
The Do-more H2 Series PLC supports many communication protocols. The following table shows which CPU module
communications port or specialty module supports each protocol.
Field I/O
Software
CPU Modules
Protocols
Do-more Designer Programming
H2-DM1 / H2-DM1E
RS-232
USB Port
Serial Port
Yes
Yes
C-more &
other HMI
Specialty Modules
H2-DM1E
H2-ECOM H2-SERIO
H2-ERM
Ethernet H2-ECOM100 H2-ECOM-F H2-SERIO-4 H2-ERM-F
Port
Yes
Yes
Drives
Soft
Starters
Yes
Modbus/RTU Client (Master)
Yes
Yes
Modbus/RTU Server (Slave)
Yes
Yes
Motors &
Gearbox
Steppers/
Servos
Modbus/TCP Client (Master)
Yes
Yes
Motor
Controls
Modbus/TCP Server (Slave)
Yes
Yes
Proximity
Sensors
DirectLOGIC RX/WX Client (Master)
Yes
Yes
Yes
DirectLOGIC RX/WX Server (Slave)
Yes
Yes
Yes
Yes
Yes
Yes
Yes
K-Sequence Server (Slave)
Yes
Photo
Sensors
Limit
Switches
Yes
Encoders
DirectNET Server (Slave)
Current
Sensors
HEI Ethernet Remote I/O Master
Yes
SMTP (EMail) Client
w/Authentication
Simple Network Time Protocol
(SNTP) Client
Pressure
Sensors
Yes
Yes
Temperature
Sensors
Do-more/PEERLINK
Yes
Pushbuttons/
Lights
Do-more Time Synchronization
Protocol (Client, Server, Alternate
Client)
Yes
Do-more Logger/UDP
Yes
Process
Relays/
Timers
Comm.
Serial ad-hoc ASCII/Binary
Programatic Control
Yes
Yes
UDP ad-hoc Programmatic Control
Yes
TCP Client Programmatic Control
Yes
TCP Server Programmatic Control
Yes
Terminal
Blocks &
Wiring
Power
Circuit
Protection
Enclosures
Blank = Not Supported
Tools
Pneumatics
Appendix
Product
Index
Part #
Index
Volume 14
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Programmable Controllers
e38-5
Wiring Solutions
Wiring Solutions using the ZIPLink Wiring System
ZIPLinks simplify the normally tedious process of wiring between
devices by utilizing prewired cables and DIN rail mount
connector modules. It's as simple as plugging in a cable
connector at either end or terminating wires at only one end.
Prewired cables keep installation clean and efficient, using half
the space at a fraction of the cost of standard terminal blocks.
There are several wiring solutions available when using the
ZIPLink System ranging from PLC I/O-to-ZIPLink Connector
Modules that are ready for field termination, options for
connecting to third party devices, GS, DuraPulse and SureServo
Drives, and specialty relay, transorb and communications
modules. Pre-printed I/O-specific adhesive label strips for quick
marking of ZIPLink modules are provided with ZIPLink cables.
See the following solutions to help determine the best ZIPLink
system for your application.
Solution 1: Do-more H2 Series PLC to ZIPLink
Connector Modules
When looking for quick and easy I/O-to-field termination, a ZIPLink
connector module used in conjunction with a prewired ZIPLink cable,
consisting of an I/O terminal block at one end and a multi-pin
connector at the other end, is the best solution.
Solution 2: Do-more H2 Series PLC to 3rd Party
Devices
When wanting to connect I/O to another device within close proximity
of the I/O modules, no extra terminal blocks are necessary when using
the ZIPLink Pigtail Cables. ZIPLink Pigtail Cables are prewired to an I/O
terminal block with color-coded pigtail with soldered-tip wires on the
other end.
Solution 3: GS Series and DuraPulse Drives
Communication Cables
Need to communicate via Modbus RTU to a drive or a
network of drives?
ZIPLink cables are available in a wide range of
configurations for connecting to PLCs and SureServo,
SureStep, Stellar Soft Starter and AC drives. Add a ZIPLink
communications module to quickly and easily set up a
multi-device network.
Using the PLC I/O Modules to ZIPLink Connector
Modules selector tables located in this section,
1. Locate your I/O module/PLC.
2. Select a ZIPLink Module.
3. Select a corresponding ZIPLink Cable.
Using the I/O Modules to 3rd Party Devices selector tables
located in this section,
1. Locate your PLC I/O module.
2. Select a ZIPLink Pigtail Cable that is compatible
with your 3rd party device.
Using the Drives Communication selector tables located in
this section,
1. Locate your Drive and type of communications.
2. Select a ZIPLink cable and other associated hardware.
Volume 14
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Programmable Controllers
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Wiring Solutions
Company
Information
Systems
Overview
Programmable
Controllers
Solution 4: Serial Communications Cables
ZIPLink offers communications cables for use with Do-more H2 Series
CPUs, that can also be used with other communications devices.
Connections include a 6-pin RJ12 or 9-pin, 15-pin and 25-pin D-sub
connectors which can be used in conjunction with the RJ12 or D-Sub
Feedthrough modules.
Using the Serial Communications Cables selector
table located in this section,
1. Locate your connector type
2. Select a cable.
Field I/O
Software
C-more &
other HMI
Drives
Soft
Starters
Motors &
Gearbox
Steppers/
Servos
Motor
Controls
Solution 5: Specialty ZIPLink Modules
For additional application solutions, ZIPLink modules are available in a
variety of configurations including stand-alone relays, 24VDC and
120VAC transorb modules, D-sub and RJ12 feedthrough modules,
communication port adapter and distribution modules, and SureServo
50-pin I/O interface connection.
Using the ZIPLink Specialty Modules selector table
located in this section,
1. Locate the type of application.
2. Select a ZIPLink module.
Proximity
Sensors
Photo
Sensors
Limit
Switches
Encoders
Current
Sensors
Pressure
Sensors
Temperature
Sensors
Pushbuttons/
Lights
Process
Relays/
Timers
Solution 6: ZIPLink Connector Modules to 3rd Party
Devices
If you need a way to connect your device to terminal blocks without
all that wiring time, then our pigtail cables with color-coded
soldered-tip wires are a good solution. Used in conjunction with any
compatible ZIPLink Connector Modules, a pigtail cable keeps wiring
clean and easy and reduces troubleshooting time.
Comm.
Using the Universal Connector Modules and Pigtail
Cables table located in this section,
1. Select module type.
2. Select the number of pins.
3. Select cable.
Terminal
Blocks &
Wiring
Power
Circuit
Protection
Enclosures
Tools
Pneumatics
Appendix
Product
Index
Part #
Index
Volume 14
w w w. a u t o m a t i o n d i r e c t . c o m / PA C s
Programmable Controllers
e38-35
Wiring Solutions
Do-more PLC Input Module ZIPLink Selector
ZIPLink
PLC
Input
Module
# of
Terms
D2-08ND3
10
D2-16ND3-2
19
Module
Cable †
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
ZL-RTB20
ZL-D2-CBL19*
D2-04TD1³
D2-08TD1
10
Feedthrough
10
Sensor
ZL-LTB16-24
ZL-D2-CBL19*
D2-08TD2
10
ZL-RTB40
40
Sensor
Feedthrough
D2-32ND3-2¹
Output
Module
Component
Feedthrough
D2-32ND3¹
Do-more PLC Output Module ZIPLink Selector
ZIPLink
PLC
ZL-LTB32-24
ZL-RTB40
40
Sensor
ZL-LTB32-24
ZL-D24-CBL40*
ZL-D24-CBL40*X
D2-16TD1-2
19
ZL-D24-CBL40*
ZL-D24-CBL40*X
ZL-D24-CBL40*
D2-16TD2-2
19
ZL-D24-CBL40*X
ZL-D24-CBL40*
F2-16TD1P
19
ZL-D24-CBL40*X
D2-08NA-1
10
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
D2-08NA-2
10
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
D2-16NA
19
Feedthrough
ZL-RTB20
ZL-D2-CBL19*
F2-16TD2P
D2-32TD1¹
19
# of
Terms
Component
Module
Cable
Cable †
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
Feedthrough
ZL-RTB20
ZL-D2-CBL19*
Fuse
ZL-RFU205
ZL-D2-CBL19*
Relay
ZL-RRL16-24-1
ZL-D2-CBL19*
Feedthrough
ZL-RTB20
ZL-D2-CBL19*
Fuse
ZL-D2-CBL19*
Relay
ZL-RFU205
ZL-RRL16-24-2
Feedthrough
ZL-RTB20
ZL-D2-CBL19*
Relay
ZL-RRL16-24-1
ZL-D2-CBL19*
Feedthrough
ZL-RTB20
ZL-D2-CBL19*
Relay
ZL-RRL16-24-2
ZL-D2-CBL19*
Feedthrough
ZL-RTB40
Fuse
ZL-RFU405
Feedthrough
ZL-RTB40
Fuse
ZL-RFU405
40
ZL-D2-CBL19*
ZL-D24-CBL40*
ZL-D24-CBL40*X
D2-08TA
10
Feedthrough
ZL-RTB20
ZL-D24-CBL40*
ZL-D24-CBL40*X
ZL-D24-CBL40*
ZL-D24-CBL40*X
ZL-D24-CBL40*
ZL-D24-CBL40*X
ZL-D2-CBL10*
F2-08TA
10
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
Feedthrough
ZL-RTB20
ZL-D2-CBL19*
Fuse
ZL-RFU205
ZL-D2-CBL19*
Do-more PLC Analog Module ZIPLink Selector
ZIPLink
PLC
Analog
Module
Module
# of Terms Component
D2-32TD2¹
40
F2-04AD-1
10
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
F2-08AD-1
10
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
F2-04AD-2
10
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
F2-08AD-2
10
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
F2-02DA-1
10
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
F2-02DA-1L
10
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
F2-02DAS-1
10
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
F2-08DA-1
19
Feedthrough
ZL-RTB20
ZL-D2-CBL19*
F2-02DA-2
10
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
F2-02DA-2L
10
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
F2-02DAS-2
10
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
F2-08DA-2
10
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
† X in the part number represents a 45° angle plug
F2-4AD2DA
10
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
F2-8AD4DA-1
19
Feedthrough
ZL-RTB20
ZL-D2-CBL19*
* Select the cable length by replacing the * with: Blank = 0.5m, -1 = 1.0m, or -2 =
2.0m.
F2-8AD4DA-2
19
Feedthrough
ZL-RTB20
ZL-D2-CBL19*
F2-04RTD2
Matched
Only
See Note 2
F2-04THM2
Matched
Only
See Note 2
Do-more PLC Combo In/Out Module ZIPLink Selector
ZIPLink
PLC
Combo
Module
D2-08CDR
# of
Terms
10
Component
Module
Cable
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
D2-12TA
19
D2-04TRS³
D2-08TR
10
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
10
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
F2-08TRS³
19
Feedthrough
ZL-RTB20
ZL-D2-CBL19*
F2-08TR4
10
Feedthrough
ZL-RTB20
ZL-D2-CBL10*
Feedthrough
ZL-RTB20
ZL-D2-CBL19*
Fuse
ZL-RFU205
ZL-D2-CBL19*
D2-12TR
19
1 To make a custom cable for the 32-point modules, use: Ribbon-style Connector ZLD24-CON-R, Solder-style 180° connector ZL-D24-CON or Solder-style 45° connector
ZL-D24-CON-X.
2 The F2-04RTD and F2-04THM modules are not supported by the ZIPLink wiring system.
3 Caution: The D2-04TD1, D2-04TRS, and F2-08TRS outputs are derated not to exceed
module specs 2A per point and 2A per common when used with the ZIPLink wiring
system.
4 The F2-08TR outputs are derated not to exceed 2A per point and 4A per common
when used with the ZIPLink wiring system.
5 Note: Fuses (5 x 20 mm) are not included. See Edison Electronic Fuse section for (5 x
20 mm) fuse. S500 and GMA electronic circuit protection for fast-acting maximum
protection. S506 and GMC electronic circuit protection for time-delay performance.
Ideal for inductive circuits.To ensure proper operation, do not exceed the voltage and
current rating of ZIPLink module. ZL-RFU20 = 2A per circuit; ZL-RFU40 = 400 mA per
circuit.
NOTE: ZIPLINK CONNECTOR MODULES AND ZIPLINK CABLES SPECIFICATIONS ARE IN THE ZIPLINK CATALOG SECTION.
Volume 14
e38-36
Programmable Controllers
1 - 80 0 - 633 - 0405
Base Units
Power Budget
1.Using a chart similar to the one below,
fill in column 2.
When determining the types and quantity
of I/O modules you will be using, it is
important to remember there is a defined
amount of power available from the base
power supply.
2.Using the tables on the next page, enter
the current supplied and used by each
device (columns 3 and 4). Devices
which fall into the "Other" category
(Row D) are devices such as the operator interface and the handheld
programmer, which also have power
requirements, but do not directly plug
into the base.
The chart on the next page indicates the
power supplied and used by each
module. The adjacent chart shows an
example of how to calculate the power
used by your particular system. These
charts should make it easy for you to
determine if the devices you have chosen
will operate within the power budget of
your system configuration.
If the I/O you have chosen for a base
exceeds the maximum power available
from the power supply, you may be able
to resolve the problem by using remote
I/O bases.
3.Add the current used by the system
devices (columns 3 and 4) starting with
the CPU slot and put the total in the
row labeled “Maximum Current
Required” (Row E).
Column 1
A
Column 2
Column 3
Column 4
5VDC (mA)
External Power 24
VDC (mA)
9 slot
2,600
300
H2-DM1E
D2-16ND3-2
D2-16ND3-2
D2-16NA
D2-08NA-1
D2-16TD1-2
D2-08TA
D2-08TA
275
100
100
100
50
200
250
250
0
0
0
0
0
80
0
0
EA1-S3ML
90
0
E Maximum Current Required
1415
80
F Remaining Current Available
2600-1415=1185
300-80=220
B CURRENT SUPPLIED
Base
C CURRENT REQUIRED
Power budget example
The example on the right shows how to
calculate the power budget for the Domore PLC system. The examples are
constructed around a single 9-slot base
using the devices shown. It is recommended you construct a similar table for
your Do-more PLC system. Follow the
steps to the right to determine your power
budget.
5.If “Maximum Current Required” is
greater than “Current Supplied” in
either column 3 or 4, the power budget
will be exceeded. It will be unsafe to
use this configuration, and you will
need to restructure your I/O configuration. Note the auxiliary power supply
does not need to supply all the external
power. If you need more than the
300mA supplied, you can add an
external 24V power supply. This will
help keep you within your power
budget for external power.
Device Type
Base power supply specifications
The table below lists base power supply
specifications, including maximum inrush
current and maximum power consumed
from your power source.
4.Subtract the row labeled “Maximum
Current Required” (Row E), from the
row labeled “Current Supplied” (Row
B). Place the difference in the row
labeled “Remaining Current Available”
(Row F).
CPU SLOT
SLOT 0
SLOT 1
SLOT 2
SLOT 3
SLOT 4
SLOT 5
SLOT 6
SLOT 7
D OTHER
Operator interface
Power Supply Specifications
Specification
Part Numbers
AC Powered Bases
D2-03B-1, D2-04B-1, D2-06B-1, D2-09B-1
24 VDC Powered Bases
D2-03BDC1-1, D2-04BDC1-1,
D2-06BDC1-1, D2-09BDC1-1
125 VDC Powered Bases
D2-06BDC2-1, D2-09BDC2-1
Voltage Withstand (dielectric) 1 minute @ 1,500 VAC between primary, secondary, field ground, and run relay
> 10 M at 500 VDC
Insulation Resistance
Input Voltage Range
Auxiliary 24 VDC Output
Maximum Inrush Current
Maximum Power
85-132 VAC (110 range)
170-264 VAC ( 220 range)
47-63 Hz
10.2-28.8 VDC (24 VDC)
with less than 10% ripple
100-264 VDC (125 VDC)
with less than 10% ripple
300 mA max.
none
300 mA max.
30A
10A
20A
80 VA
25W
30W
Volume 14
e38-20
Programmable Controllers
1 - 80 0 - 633 - 0405
Base Units
Company
Information
Systems
Overview
Power Requirements
This section shows the amount of power
supplied by each of the base power
supplies and the amount of power
consumed by each module. The Power
Consumed charts list how much
INTERNAL power from each power source
is required for the modules. Use this information when calculating the power
budget for your system.
In addition to the internal power sources,
bases offer a 24 VDC auxiliary power
supply with external power connections.
This auxiliary power supply can power
external devices.
Use ZipLinks to reduce power
requirements
If your application requires a lot of relay
outputs, consider using the ZIPLink AC or
DC relay output modules ZL-RRL16-24-1
or ZL-RRL16-24-2. These modules can
switch high current (10A) loads without
putting a heavy load on your base power
budget. Refer to the Terminal Blocks and
Wiring Solutions section in this catalog for
more information.
This logo is placed next to the I/O
modules that are supported by the ZIPLink
connection systems. See the I/O module
specifications at the end of
this section.
Programmable
Controllers
Power Supplied
Device
Bases
5V(mA)
D2-03B-1
2600
D2-04B-1
D2-06B-1
24V Auxiliary
Device
Bases
5V(mA)
24V Auxiliary
300
D2-04BDC1-1
2600
None
2600
300
D2-06BDC1-1
2600
None
2600
300
D2-09BDC1-1
2600
None
D2-09B-1
2600
300
D2-06BDC2-1
2600
300
D2-03BDC1-1
2600
None
D2-09BDC2-1
2600
300
Field I/O
Software
C-more &
other HMI
Drives
Soft
Starters
Power Consumed
Power Consumed
Device
CPUs
5V(mA)
24V Auxiliary
Device
5V(mA)
Analog Modules
24V Auxiliary
H2-DM1
250
0
F2-04AD-1
100
5
H2-DM1E
275
0
F2-04AD-2
110
5
F2-08AD-1
100
5
DC Input Modules
D2-08ND3
50
0
F2-08AD-2
100
5
D2-16ND3-2
100
0
F2-02DA-1
40
60 (note 1)
D2-32ND3
25
0
F2-02DA-1L
40
70 @ 12V (note 1)
D2-32ND3-2
25
0
F2-02DA-2
40
60
F2-02DA-2L
40
70 @ 12V
AC Input Modules
D2-08NA-1
50
0
F2-02DAS-1
100
50 / channel
D2-08NA-2
100
0
F2-02DAS-2
100
60 / channel
D2-16NA
100
0
F2-08DA-1
30
50 (note 1)
F2-08DA-2
60
140
F2-4AD2DA
60
80 (note 1)
F2-8AD4DA-1
35
100 (note 1)
F2-8AD4DA-2
35
80 (note 1)
F2-04RTD
90
0
F2-04THM
110
60
DC Output Modules
D2-04TD1
60
20
D2-08TD1
100
0
D2-08TD2
100
0
D2-16TD1-2
200
80
D2-16TD2-2
200
0
F2-16TD1P
70
50
F2-16TD2P
70
50
D2-32TD1
350
0
D2-32TD2
350
0
AC Output Modules
D2-08TA
250
0
F2-08TA
250
0
D2-12TA
350
0
Relay Output Modules
Specialty Modules
Motors &
Gearbox
Steppers/
Servos
Motor
Controls
Proximity
Sensors
Photo
Sensors
Limit
Switches
Encoders
Current
Sensors
Pressure
Sensors
Temperature
Sensors
Pushbuttons/
Lights
Process
H2-CTRIO
400
0
H2-CTRIO2
275
0
H2-EBC100
300
0
H2-ECOM100
300
0
H2-ERM
320
0
H2-SERIO
80
0
H2-SERIO-4
80
0
F2-08SIM
50
0
Note 1: Add an additional 20 mA per output loop.
Relays/
Timers
Comm.
Terminal
Blocks &
Wiring
Power
Circuit
Protection
D2-04TRS
250
0
D2-08TR
250
0
Enclosures
F2-08TR
670
0
Tools
F2-08TRS
670
0
D2-12TR
450
0
Pneumatics
Combination In/Out Module
D2-08CDR
200
Appendix
0
Product
Index
Part #
Index
Volume 14
w w w. a u t o m a t i o n d i r e c t . c o m / PA C s
Programmable Controllers
e38-21
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