1395 Node Adapter Board

1395 Node Adapter Board
Installation and Start-up
Specifications
Electrical:
Board power provided by Drive ( +5V)
Discrete Input
24V DC or 115V AC, jumper selectable
Environmental:
Ambient Operating Temperature
Storage Temperature
Relative Humidity
Altitude:
Firmware Version
0° to 60°C (32° to 140°F)
-40° to +85°C (-40° to +185°F)
5% to 95% non-condensing
3,300 feet (1,000 Meters)
3.xx
Communications:
Allen -Bradley Remote I/O (RIO)
Baud Rates: 57.5 KB/ 115 KB
Rack Configurations: 1/2 to Full
This is not intended to be an all encompassing technical description of each hardware component . This document
provides information to aid service personnel in:
•
•
•
Identifying the Node Adapter board .
Understanding the hardware content of the board.
Understanding the hardware requirements necessary to interface the Node Adapter board with external devices .
General Board Description
The Node Adapter Board (Fig. 1.3) contains a smaller surface mounted board . This smaller board contains the hardware
which performs the Node Adapter functions related to communication with a PLC Controller and allows for discrete type
PLC Controller I/O and block transfer . Additional hardware on the board allows selection of the baud rate, the rack
number and also provide an interface to the Bulletin 1395 Main Control Board . DIP switches U5 and U6 on the Node
Adapter are used to select communication type, baud rate, and rack address in octal .
Switches SW1 through SW5 on U5 determine the rack address in Octal, while switches SW7 and SW8 determine the
rack type. Switch SW1 on U6 determines the baud rate of the communication between the PLC Controller and the Node
Adapter Board. Switch SW4 on U6 determines whether a terminating resistor is used . Switches SW2 and SW3 are not
used. Refer to the Installation for switch settings .
Board Configuration
The Node Adapter Board causes the Bulletin 1395 Drive to appear as a remote I/O rack to the PLC Controller . Data
transfer between the PLC Controller and Drive (at the PLC level) is the same as if the PLC Controller were transferring
data to a remote I/O rack. The rack structure consists of two specific types : full or half rack . A full rack is defined as an 8
group rack, while a half rack is defined as a 4 group rack . Each group, whether in a full or half rack configuration contains
16 input and 16 output bits, which are mapped directly into the PLC Controller I/O image table . Refer to Figures 1.1 and
1.2 for further information on the full and half rack configurations .
Figure 1.1 Full Rack Configuration
Figure 1.2 Half Rack Configuration
LED Indicators
The Node Adapter board contains two LED indicators. The red Processor Fault LED will illuminate only when a processor
malfunction on the Node Adapter Board has occurred . The green “OK” LED indicates the communication status between
the Node Adapter Board and the PLC Controller, (Refer to Table 1 .A).
Table 1.A
LED
OK
State
LED Green
LED Off
LED Blinking Green
Function
Normal PLC Communications
No communication to PLC Controller
PLC is in Reset/Program/Test Mode
DIP Switch Orientation DIP Switch orientation (Figure 1 .3) on the Node Adapter board is as follows:
CLOSED = “ON” = “1”
OPEN = “OFF” = “0”
Figure 1.3 DIP Switch Orientation
On On Off Off
Firmware Location
The Node Adapter Board contains firmware version 3 .xx (the “xx” designator may vary but does not effect information in
this document). Figure 1.4 shows the physical location of the firmware chip on the small surface mount board .
Board Location
The standard mounting position for the Node Adapter board is Port B of the Drive (Right Hand) . If required, the Adapter
can be mounted in Port A . Note that each port uses different parameters to store Adapter setup and configuration
information .
Figure 1.4 Node Adapter Board Components
J1
Processor
Fault
OK
U3
U4
U5
1
8
W1989 V3.xx
U6
1
4
1 2 3 4 5 6
J2
General Precautions
In addition to the precautions listed throughout this manual, the following statements which are general to the system
must be read and understood.
!
!
!
!
ATTENTION: This drive may contain ESD (Electrostatic
sensitive parts and assemblies. Static control precautions are required
when installing, testing, servicing or repairing this assembly.
Component damage may result if ESD control procedures are not
followed. If you are not familiar with static control procedures,
reference A-B publication 8000-4.5.2, Guarding Against Electrostatic
Damage or any other applicable ESD Protection Handbook.
ATTENTION: Severe injury or death can result from electrical
shock, burn, or unintended actuation of controlled equipment.
Hazardous voltages may exist in the cabinet even with the circuit
breaker in the off position. Recommended practice is to disconnect
and lock out control equipment from power sources and discharge
stored energy in capacitors, if present. If it is necessary to work in the
vicinity of energized equipment, the safety related work practices of
NFPA 70E, Electrical Safety Requirements for Employee Workplaces,
must be followed. DO NOT work alone on energized equipment!
ATTENTION: Potentially fatal voltages may result from
usage of oscilloscope and other test equipment. The oscilloscope
chassis may be at a potentially fatal voltage if not properly grounded.
If an oscilloscope is used to measure high voltage waveforms, use only
a dual channel oscilloscope in the differential mode with X 100
probes. It is recommended that the oscilloscope be used in the A
minus B Quasi-differential mode with the oscilloscope chassis
correctly grounded to an earth ground. Refer to equipment safety
instructions for all test equipment before using with the 1395.
ATTENTION: The CMOS devices used on the control circuit
can be destroyed or damaged by static charges. If personnel will be
working near static sensitive devices, they must be appropriately
grounded.
Installation
Following is a detailed step -by-step procedure for the proper installation of the Bulletin 1395 Node Adapter Board . It also
contains electrical and environmental specifications . Procedures performed in this chapter include:
•
•
•
Verification of proper unpacking and inspection
Verification of proper mounting
Verification of proper wiring
It is your responsibility to thoroughly inspect the equipment before accepting shipment from the freight company . You
must take the responsibility for noting any damage . Do Not accept shipment before checking all items received against
the purchase order, and noting any missing or damaged items on the freight bill . If any concealed damage is found later
during unpacking, it is your responsibility to notify the freight agent . Leave the shipping container intact and request that
the freight agent make a visual inspection of the shipment .
Remove all packing material from around the board, including the anti–static bag . The Node Adapter Board is a static
sensitive device, and special precautions should be taken while handling the board . The circuit board can be damaged by
Electrostatic Discharge. If personnel will make contact with an ESD sensitive component during installation, they must be
grounded. Grounding should be accomplished with a wrist strap which is connected to an approved ground . If the board
will not be installed when it is unpacked, it should be stored in a clean dry place in the anti–static bag . The storage
temperature must be between 0°C (32°F) and +60°C (140°F) with a maximum humidity of 95% non -condensing, to
guard against damage to temperature sensitive components of the drive .
Mounting
The Node Adapter Board is mounted on the front of the swing out panel . Two possible adapter board mounting positions
are provided, depending on the port that the board will be connected . When looking at the mounting positions from the
front, the right position corresponds to Port B and the left to Port A . The port used is dependent on the specific
application of the drive . After determining which port the Node Adapter Board will be connected to, mount the board,
using the five (5) panel screws and one (1) Phillips head screw supplied .
Configuration Overview
Connections
The 60 pin ribbon cable connector (J1) located on the Node Adapter Board, provides a means of connecting the board to
the Bulletin 1395 Main Control Board port connector (J6 or J7) . The port connector used is determined by the port and
the physical location of the Node Adapter Board . Main Control Board Connector J6 corresponds to Port B and J7 to Port
A. The Remote I/O cable from the PLC is connected directly to the Node Adapter Board at connector J2 . If the PLC
Controller is controlling only one drive, terminals 1 -3 are used. If the PLC Controller is used to control several drives,
terminals 1 -3 are connected to the upstream drive (or PLC Controller if the drive is the first in the network) and terminals
4-6 are connected to the downstream drive . Refer to the following procedure and Figures 1 .5, 1.6.
1.) Connect the 60 lead ribbon cable from J1 on the Node Adapter Board to the corresponding connector on
the Main Control Board .
2.) Connect the PLC Controller communication cable to the drive as required by the application .
Figure 1.5 J2 Connections
Figure 1.6 J2 Connections in a Multi -Drive System
Node Adapter Board
Bulletin 1395 #1
(No terminating resister)
(U6 - SW4 = Off)
Node Adapter Board
Bulletin 1395 #2
(No terminating resister)
(U6 - SW4 = Off)
12 34 56
J2
12 34 56
J2
!
Node Adapter Board
Bulletin 1395 #3
(Terminating resister
connected)
(U6 - SW4 = On)
12 34 5 6
J2
ATTENTION: When breaking connections at Terminal J2 on any
Node Adapter Board in a daisy chained system, communications
will be interrupted to Nodes that are down line in the chain.
Depending upon the application, a loss of control to devices
connected to these nodes could cause hazardous system operation.
To guard against personal injury, the system must be shut down, or
local control maintained of critical devices connected to the daisy
chain when making or breaking connections at J2 on any Node
Adapter Board.
Switch Settings
The Node Adapter Board contains 2 DIP switches, U5 and U6 which perform several different setup functions . The first
six positions of switch U5 determine the rack number (in octal) used by the PLC Controller corresponding to the drive .
Any of the rack numbers listed in Table 1 .B may be used. Each rack number may only be used once, therefore, in
applications where several drives are connected to the same communications network (Figure 1 .6) each drive must be
associated with a different rack number . Switches SW7 and SW8 of U5 determine the rack configuration .
SW1 of U6 (Table 1 .D) determines the communication baud rate between the PLC Controller and the Node Adapter
Board. The baud rate is dependent on the specific PLC Controller hardware being used . Switch SW4 of U6 (Table 1 .E)
determines the termination resistor setup . In all cases, the last Node Adapter Board in the communication network must
have the terminating resistor connected . In cases where only one board is used, the terminating resistor must be
connected. If a daisy chain is used, only the last board in the chain will have the terminating resistor connected . All other
boards in a daisy chain MUST have the resistor left NOT CONNECTED .
Refer to the following procedures and Tables 1 .B through 1.E for proper switch settings.
1.) Determine the drive address and set the corresponding rack number using switches SW1 through SW6 (U5) and
Table 1.B.
2.) Determine the required rack setup configuration and set switches SW7 and SW8 (U5) per Table 1 .C.
3.) Determine the required baud rate and set switch SW1 (U6) per Table 1 .D.
4.) Determine whether a terminating resistor is required and set switch SW4 (U6) appropriately using Table 1 .E.
Table 1.B Rack Address Switch Settings (U5)
Rack#
00
01
02
03
04
05
06
07
10
11
12
13
14
15
16
17
20
21
22
23
24
25
26
27
30
31
32
33
34
35
36
37
SW1
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
SW2
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
ON
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
SW3
ON
ON
ON
ON
ON
ON
ON
ON
X
X
X
X
X
X
X
X
ON
ON
ON
ON
ON
ON
ON
ON
X
X
X
X
X
X
X
X
SW4
ON
ON
ON
ON
X
X
X
X
ON
ON
ON
ON
X
X
X
X
ON
ON
ON
ON
X
X
X
X
ON
ON
ON
ON
X
X
X
X
SW5
ON
ON
X
X
ON
ON
X
X
ON
ON
X
X
ON
ON
X
X
ON
ON
X
X
ON
ON
X
X
ON
ON
X
X
ON
ON
X
X
SW6
ON
X
ON
X
ON
X
ON
X
ON
X
ON
X
ON
X
ON
X
ON
X
ON
X
ON
X
ON
X
ON
X
ON
X
ON
X
ON
X
Important: When using the PLC 5/15 or 5/25, the following series and software revisions are required as a minimum .
PLC 5/15
PLC 5/25
Series Revision
B
J
A
E
X = OFF or Open
ON = Closed
Table 1.C Rack Setup Switch Settings (U5)
Description
Full Rack
Physical Rack Size = 3
Starting Quarter = 0
Last Rack = 1
Half Rack - Top ( 1 )
Physical Rack Size = 1
Starting Quarter = 2
Last Rack = 1
Half Rack - Bottom, Last ( 1 )
Physical Rack Size = 1
Starting Quarter = 0
Last Rack = 1
Half Rack - Bottom, Not Last
Physical Rack Size = 1
Starting Quarter = 0
Last Rack = 0
SSW7
X
SW8
X
X
ON
ON
X
ON
ON
Important: When using the PLC 5/15 or 5/25, the following series and software revisions are required as a minimum .
PLC 5/15
PLC 5/25
Series Revision
B
J
A
E
X = OFF or Open
ON = Closed
Table 1.D Baud Rate Setting (U6)
Baud Rate
57.6 kbps
115.2 kbps
SW1
ON
X
Table 1.E Termination Resistor Setting (U6)
Resistor
Connected
Not Connected
SW4
ON
X
Start–Up Procedures
The following provides basic procedures that are necessary to configure the drive control for Node Adapter Board use .
Procedures that will be covered include:
•
•
•
Verification of proper installation and wiring .
Verification of correct switch settings for the required application .
Configuration of the drive control for use with a Node Adapter board .
Terminology
Configuration- The process of linking Sink to Source parameters .
Interface - The hardware and associated software required to transfer information and/or control signals from one
device to another .
Parameter- Memory location used to store drive data .
Sink - Parameter used to receive data input .
Source - Parameter used as a source of data
Connection Verification
Before any attempt to configure the drive is made, the following connections and settings MUST be verified per
installation procedures above .
•
•
•
Check that the Node Adapter board is mounted in the proper location for the intended Port it will be connected to .
Check that the 60 pin ribbon cable connector J1 is connected correctly for the location and port being used by the
Node Adapter Board.
Check that the setting of all Dip switches is correct for your application referring to Tables 4 .A through 4.D in the
Installation chapter .
!
ATTENTION: Failure to verify connections and switch settings
before configuring the drive could result in personal injury and/or
equipment damage.
Example Connection Configuration
The parameters used to configure the Node Adapter board are determined by which port of the Bulletin 1395 the Node
Adapter is connected to. Figure 1.7 shows a sample configuration with the Node Adapter connected to Port A. Figure 1.8
shows an example of Port B configuration . Note in particular that Port B must use 300 series parameters and Port A 400
series parameter numbers.
Figure 1.7 Configuration Example for Node Adapter Connected to Port A of Bulletin 1395
PLC Controller
Output Image Table
Rack No._
Not
Used
O:0
0
O:0
O:0
O:0
O:0
O:0
O:0
O:0
1
2
3
4
5
6
7
Node Adapter Board
Input Parameter 1
Input Parameter 2
Input Parameter 3
Input Parameter 4
Input Parameter 5
Input Parameter 6
Input Parameter 7
400
401
402
403
404
405
406
Input Image Table
Rack No._
I:0
I:0
I:0
I:0
I:0
I:0
I:0
I:0
0
1
2
3
4
5
6
7
Node Adapter Status
Output Parameter 1
Output Parameter 2
Output Parameter 3
Output Parameter 4
Output Parameter 5
Output Parameter 6
Output Parameter 7
Status
450
451
452
453
454
455
456
Legend
Data Source
Data Sink
Figure 1.8 Configuration Example for Node Adapter Connected to Port B of Bulletin 1395
PLC Controller
Output Image Table
Rack No.__
Not
Used
O:0
0
O:0
1
O:0
2
O:0
3
O:0
4
O:0
5
O:0
6
O:0
7
Node Adapter Board
Input Parameter 1
Input Parameter 2
Input Parameter 3
Input Parameter 4
Input Parameter 5
Input Parameter 6
Input Parameter 7
300
301
302
303
304
305
306
Input Image Table
Rack No._
I:0
I:0
I:0
I:0
I:0
I:0
I:0
I:0
0
1
2
3
4
5
6
7
Node Adapter Status
Output Parameter 1
Output Parameter 2
Output Parameter 3
Output Parameter 4
Output Parameter 5
Output Parameter 6
Output Parameter 7
Status
350
351
352
353
354
355
356
Legend
Data Source
Data Sink