R3-NL2-L3 [MSYSTEM]
Remote I/O R3 Series LonWorks INTERFACE MODULE;型号: | R3-NL2-L3 |
厂家: | M-SYSTEM |
描述: | Remote I/O R3 Series LonWorks INTERFACE MODULE |
文件: | 总6页 (文件大小:187K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
MODEL: R3-NL2
Remote I/O R3 Series
RELATED PRODUCTS
• XIF File (Device Interface File)
XIF file is used to define a LonWorks device when
programmed on LonMaker.
LonWorks INTERFACE MODULE
(I/O 56 points)
27.5 (1.08)
GENERAL SPECIFICATIONS
Connection
LonWorks: Euro type connector terminal
130
(5.12)
(applicable wire size: 0.2 to 2.5 mm , stripped length 7 mm)
2
Internal bus: Via the Installation Base
(model: R3-BSx)
Internal power: Via the Installation Base (model: R3-BSx)
Power input, RUN contact output: M3 separable screw
terminal (torque 0.5 N·m)
109
(4.29)
mm (inch)
Screw terminal: Nickel-plated steel
Isolation: LonWorks to internal bus or internal power to
power input to RUN contact output to FG
Input error data setting: Input value setting at input module
error with side DIP SW
MODEL: R3–NL2–[1][2]
ORDERING INFORMATION
• Code number: R3-NL2-[1][2]
Specify a code from below for each of [1] and [2].
(e.g. R3-NL2-R/Q)
Data allocation setting: Set with the side DIP switch
RUN indicator: Bi-color (green/red) LED; Green ON in
communications with another device online or changing the
output data
• Specify the specification for option code /Q
(e.g. /C01)
(turns off after 25 seconds of no communication)
ERR indicator: Bi-color (green/red) LED; Green ON in normal
status; Green blinks when
[1] POWER INPUT
N: No power supply
the APB file is not adequately imported;
Green/Orange turn ON in turn in an abnormality.
■ RUN CONTACT OUTPUT
AC Power
K3: 100 – 120 V AC
RUN contact: Turns on while the green RUN LED is ON
(LonWorks in normal communication)
(Operational voltage range 85 - 132 V, 47 - 66 Hz) *
L3: 200 – 240 V AC
Rated load: 250 V AC @ 0.5 A (cos ø = 1)
30 V DC @ 0.5 A (resistive load)
(Operational voltage range 170 - 264 V, 47 - 66 Hz) *
DC Power
Maximum switching voltage: 250 V AC or 30 V DC
Maximum switching power: 250 VA or 150 W
Minimum load: 1 V DC @ 1 mA
R: 24 V DC
(Operational voltage range 24 V ±10 %, ripple 10 %p-p max.) *
* Not selectable for use with independent power modules.
Mechanical life: 2 × 10 cycles (rate 300 cycles/min.) When
7
driving an inductive load, external contact protection and
noise quenching recommended.
[2] OPTIONS
blank: none
LonWorks COMMUNICATION
Neuron Chip: FT3120 (NeuronID printed in numbers and bar
code [peel-off code 39 format])
/Q: With options (specify the specification)
Transceiver: FT-X1 (equivalent to FTT10A)
Transmission speed: 78 kbps
SPECIFICATIONS OF OPTION: Q
COATING (For the detail, refer to M-System's web site.)
/C01: Silicone coating
Twisted-pair cable
Distance, free topology: 500 meters
Max. 64 nodes/channel
/C02: Polyurethane coating
/C03: Rubber coating
LNS: Ver. 3.0 Service Pack 8 or higher
ONLINE indicator: Red LED
ON: Off-line or no network information (decommissioned)
R3-NL2 SPECIFICATIONS
ES-8428 Rev.10 Page 1/6
http://www.m-system.co.jp/
MODEL: R3-NL2
Blinking in approx. 0.5 Hz: On-line
(ready to communicate network variables)
Blinking in approx. 5 Hz for 12 sec.:
Wink message received
PERFORMANCE
Insulation resistance: ≥ 100 MΩ with 500 V DC
Dielectric strength: 1500 V AC @ 1 minute (LonWorks or
internal bus or internal power to power input to RUN contact
output to FG)
SERVICE indicator: Green LED
OFF: Normal operations
Blinking in approx. 0.5 Hz: No network information
ON: Internal program error
SERVICE switch: Used to identify the node in LonWorks
network configuration
RESET switch: Resetting the Neuron Chip
Possible I/O combinations
Analog I/O
Input
56
Output
0
Network Variable Type
SNVT_lev_percent
0
56
SNVT_lev_percent
32
24
SNVT_lev_percent (factory default)
Temperature Input (°C input module use
)
Input
56
Output
Network Variable Type
SNVT_temp
0
0
56
SNVT_temp_p
Discrete I/O (Usable with the R3-DA16x and the R3-DC16x)
Input
56
Output
0
Network Variable Type
SNVT_switch
0
56
SNVT_switch
32
24
SNVT_switch
Totalized Pulse I/O (Usable as analog I/O
)
Input
56
Output
0
Network Variable Type
SNVT_count
0
56
SNVT_count
32
24
SNVT_count
Totalized Pulse Input, Discrete I/O (Totalized pulse usable as
analog input) (Usable with the R3-DA16x and the R3-DC16x)
Totalized Pulse
Input
Discrete
Network Variable Type
Input Output
SNVT_count
SNVT_switch
16
16
16
INSTALLATION
Power consumption
•AC: Approx. 20 VA
•DC: Approx. 12 W
Current consumption (no power supply): 100 mA
Output current (power supply): 250 mA continuous at 20 V
DC; 400 mA for 10 minutes
Operating temperature: -10 to +55°C (14 to 131°F)
Operating humidity: 30 to 90 %RH (non-condensing)
Atmosphere: No corrosive gas or heavy dust
Mounting: Installation Base (model: R3-BSx)
Weight: 200 g (0.44 lb)
R3-NL2 SPECIFICATIONS
ES-8428 Rev.10 Page 2/6
http://www.m-system.co.jp/
MODEL: R3-NL2
EXTERNAL VIEW
FRONT VIEW
SIDE VIEW
ONLINE LED
SERVICE LED
SERVICE SW
RESET SW
RUN LED
ERR LED
DIP SW
SW3
ON
SW2
SW1
1
2
3
4
5
4
3
2
1
8
7
6
5
4
3
2
1
8
7
6
5
4
3
2
1
Configuration Jack
Euro Type
Connector Terminal
1
2
3
4
5
6
ON
ON
COMMUNICATION CABLE CONNECTIONS
HOST PC
R3-NLx
R3-NLx
LONWORKS
LONWORKS
LONWORKS
Terminator
TRANSMISSION DATA DESCRIPTIONS
ANALOG INPUT / OUTPUT
The DIP SW located at the side of the module specifies each I/O module's data allocation (occupied data area).
[Example 1]
Seven (7) of 8-point analog input module:
Position
Module Type
R3-SV8S
R3-SV8S
R3-SV8S
R3-SV8S
R3-SV8S
R3-SV8S
R3-SV8S
R3-NL2-N
R3-PS3-R
Data Area
Network Variable
Module 1
Module 2
Module 3
Module 4
Module 5
Module 6
Module 7
Module 8
Module 9
8
8
8
8
8
8
8
nvoLV01 through nvoLV08
nvoLV09 through nvoLV16
nvoLV17 through nvoLV24
nvoLV25 through nvoLV32
nvoLV33 through nvoLV40
nvoLV41 through nvoLV48
nvoLV49 through nvoLV56
The same principle is applied to Analog Output (R3NL2-LVO56) or Temperature Input (R3NL2_T56, R3NL2_TP56).
R3-NL2 SPECIFICATIONS
ES-8428 Rev.10 Page 3/6
http://www.m-system.co.jp/
MODEL: R3-NL2
DISCRETE INPUT / OUTPUT
One (1) data area can handle 16 points of discrete signals.
[Example 2]
Four (4) of 16-point discrete input module:
Position
Module Type
R3-DA16S
R3-DA16S
R3-DA16S
R3-DA16S
R3-NL2-N
R3-PS1-R
Data Area
Network Variable
Module 1
Module 2
Module 3
Module 4
Module 5
Module 6
1
1
1
1
nvoSW01 through nvoSW16
nvoSW17 through nvoSW32
nvoSW33 through nvoSW48
nvoSW49 through nvoSW56
Channels 9 through 16 of the Module 4 are not transmitted.
MIXED I/O
Network Variables for the input channels are assigned first, and then those for the output channels are assigned to the next
module position.
[Example 3]
Four (4) of 8-point analog input module and three (3) of 8-point analog output:
Position
Module Type
R3-SV8S
R3-SV8S
R3-SV8S
R3-SV8S
R3-YV8S
R3-YV8S
R3-YV8S
R3-NL2-N
R3-PS3-R
Data Area
Network Variable
Module 1
Module 2
Module 3
Module 4
Module 5
Module 6
Module 7
Module 8
Module 9
8
8
8
8
8
8
8
nvoLV01 through nvoLV08
nvoLV09 through nvoLV16
nvoLV17 through nvoLV24
nvoLV25 through nvoLV32
nviLV01 through nviLV08
nviLV09 through nviLV16
nviLV17 through nviLV24
TOTALIZED PULSE INPUT / DISCRETE I/O
Network Variables for the discrete input channels are assigned first, and then those for the totalized pulse input channels are
assigned to the next module position. Finally those for the discrete output channels are assigned to the following module
position. The I/O modules must be assigned as in the fllowing example. Adequate operation is not guaranteed in any other
configuration.
[Example 4]
One (1) of 16-point totalized pulse input module, one (1) of 16-point discrete input module, and one (1) of 16-point discrete
output:
Position
Module Type
R3-DA16S
R3-PA16S
R3-DC16S
R3-NL2-N
R3-PS1-R
Data Area
Network Variable
Module 1
Module 2
Module 3
Module 4
Module 5
1
16
1
nvoSW01 through nvoSW16
nvoC01 through nvoC16
nviSW01 through nviSW16
R3-NL2 SPECIFICATIONS
ES-8428 Rev.10 Page 4/6
http://www.m-system.co.jp/
MODEL: R3-NL2
I/O COMBINATIONS
A dedicated Device File for each I/O device depending upon I/O combinations is required for the setting up using an integration
tool such as Lon Maker.
On-line download is available for Device Image files at M-System's homepage.
Functional Blocks usable for respective files are not identical to all. Refer to the table below.
ANALOG INPUT / OUTPUT
NO. of DATA
NETWORK VARIABLE
SNVT_lev_percent
SNVT_lev_percent
SNVT_lev_percent
DEVICE IMAGE
USABLE FUNCTIONAL BLOCKS
INPUT OUTPUT
56
0
R3NL2_LVI56_103.XIF
R3NL2_LVI56_103.APB
R3NL2_LVO56_103.XIF
R3NL2_LVO56_103.APB
R3NL2_LVI32O24_104.XIF
R3NL2_LVI32O24_104.APB
NodeObject
NL2LVIn
0
56
24
NodeObject
NL2LVOut
NodeObject
NL2LVIO
32
TEMPERATURE INPUT (°C)
NO. of DATA
NETWORK VARIABLE
DEVICE IMAGE
USABLE FUNCTIONAL BLOCKS
INPUT OUTPUT
56
0
SNVT_temp
R3NL2_TI56_103.XIF
R3NL2_TI56_103.APB
R3NL2_TPI56_103.XIF
R3NL2_TPI56_103.APB
NodeObject
NL2TIn
56
0
SNVT_temp_p
NodeObject
NL2TPIn
DISCRETE INPUT / OUTPUT
NO. of DATA
NETWORK VARIABLE
DEVICE IMAGE
USABLE FUNCTIONAL BLOCKS
INPUT OUTPUT
56
0
SNVT_switch
SNVT_switch
SNVT_switch
R3NL2_SWI56_103.XIF
R3NL2_SWI56_103.APB
R3NL2_SWO56_103.XIF
R3NL2_SWO56_103.APB
R3NL2_SWI32O24_103.XIF
R3NL2_SWI32O24_103.APB
NodeObject
NL2SWIn
0
56
24
NodeObject
NL2SWOut
NodeObject
NL2SWIO
32
TOTALIZED PULSE INPUT / OUTPUT
NO. of DATA
NETWORK VARIABLE
DEVICE IMAGE
USABLE FUNCTIONAL BLOCKS
INPUT OUTPUT
56
0
SNVT_count
SNVT_count
SNVT_count
R3NL2_CI56_103.XIF
NodeObject
NL2CIn
R3NL2_CI56_103.APB
R3NL2_CO56_104.XIF
R3NL2_CO56_104.APB
R3NL2_CI32CO24_103.XIF
R3NL2_CI32CO24_103.APB
0
56
24
NodeObject
NL2COut
NodeObject
NL2CInOut
32
TOTALIZED PULSE INPUT / DISCRETE INPUT / DISCRETE OUTPUT
NO. of DATA
USABLE
FUNCTIONAL
BLOCKS
TOTAL. PULSE
INPUT
16
DISCRETE
NETWORK VARIABLE
DEVICE IMAGE
INPUT OUTPUT
16
16
SNVT_count
SNVT_switch
R3NL2_CI16SWI16SWO16_103.XIF
R3NL2_CI16SWI16SWO16_103.APB
NodeObject
NL2CISWIO
XIF File: Device Interface File (external interface)
APB File: Downloadable Application Image File (program for NeuronChip)
R3-NL2 SPECIFICATIONS
ES-8428 Rev.10 Page 5/6
http://www.m-system.co.jp/
MODEL: R3-NL2
EXTERNAL DIMENSIONS & TERMINAL ASSIGNMENTS unit: mm (inch)
27.5 (1.08)
109 (4.29)
POSITIONING
GUIDE
1
2
3
4
5
6–M3
SCREW
1
4
2
5
3
6
TERMINAL
COVER
SCHEMATIC CIRCUITRY & CONNECTION DIAGRAM
Caution: FG terminal is NOT a protective conductor terminal.
ONLINE/SERVICE LED RUN/ERR LED
LONWORKS
Control
Circuit
Communication
Circuit
1
2
3
4
5
INTERNAL BUS
Transceiver
FT-X1
Neuron
Chip
FT3120
DIP SW
SERVICE SW
RESET SW
INTERNAL POWER
1
4
2
3
6
RUN +
RUN CONTACT OUTPUT
5
RUN –
*
U (+)
*
POWER INPUT
V (–)
*
FG
JACK
*Not provided with ‘No Power Supply’ type module.
CONFIGURATION JACK
Specifications are subject to change without notice.
R3-NL2 SPECIFICATIONS
ES-8428 Rev.10 Page 6/6
http://www.m-system.co.jp/
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