R7M-RS4-R-AR/UL 概述
Remote I/O R7 Series MODBUS I/O MODULE
R7M-RS4-R-AR/UL 数据手册
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PDF下载MODEL: R7M
RS4: RTD input, 4 points
Remote I/O R7 Series
MODBUS I/O MODULE
MS4: Potentiometer input, 4 points (Option /UL Not selectable)
CT4E: AC current input, 4 points,
Clamp-on current sensor CLSE use
(Option /UL Not selectable)
PA8: Totalized pulse input, 8 points,
(115.2 kbps, CE not available, option /UL Not selectable)
(Terminating resistor incorporated)
YV2: DC voltage output, 2 points
YS2: DC current output, 2 points
[2] POWER INPUT
DC power
ORDERING INFORMATION
• Basic module: R7M-[1]-[2][3]
R: 24 V DC
(Operational voltage range: ±10 %; ripple 10 %p-p max.)
Universal
Specify a code from below for each of [1] through [3].
(e.g. R7M-DC16A-R/UL)
AR: 24 V AC/DC (Only for R7M-PA8 and RR8)
(Operational voltage range: ±10 %; ripple 10 %p-p max.)
• Specify the specification for option code /Q
(e.g. /C01/SET)
[3] OPTIONS
Standards & Approvals
• Extension module: R7M-[1][2]
Specify a code from below for each of [1] and [2].
(e.g. R7M-EC16A/UL)
blank: CE marking (Refer I/O TYPE code for exception)
/UL: UL approval, CE marking
Other Options
• Specify the specification for option code /Q
(e.g. /C01)
blank: none
/Q: Option other than the above (specify the specification)
(UL not available)
BASIC MODULE: R7M–[1]–[2][3]
[1] I/O TYPE
DA16: Discrete input, 16 points
SPECIFICATIONS OF OPTION: Q (multiple selections)
COATING (For the detail, refer to M-System's web site.)
/C01: Silicone coating
DA16F: Discrete input, 16 points
(115.2 kbps, Option /UL Not selectable)
(Terminating resistor incorporated)
DC16A: NPN transistor output, 16 points
DC16B: PNP transistor output, 16 points
DAC16C: NPN discrete input &
/C02: Polyurethane coating
/C03: Rubber coating
EX-FACTORY SETTING
/SET: Preset according to the Ordering Information Sheet
(No. ESU-7803-x)
NPN transistor output, 8 points each
(115.2 kbps, option /UL Not selectable)
(Terminating resistor incorporated)
DAC16D: PNP discrete input &
EXTENSION MODULE: R7M–[1][2]
PNP transistor output, 8 points each
(115.2 kbps, option /UL Not selectable)
(Terminating resistor incorporated)
DC8C: Relay contact output, 8 points
(Option /UL Not selectable)
[1] I/O TYPE
EA8: Discrete input, 8 points
EA16: Discrete input, 16 points
EC8A: NPN transistor output, 8 points
EC16A: NPN transistor output, 16 points
EC8B: PNP transistor output, 8 points
EC16B: PNP transistor output, 16 points
EC8C: Relay contact output, 8 points
(CE not available. Option /UL Not selectable)
(Not usable with ‘extension’ modules)
RR8: Remote control relay control, 8 points
(115.2 kbps, CE not available, option /UL Not selectable)
(Terminating resistor incorporated)
SV4: DC voltage/current input (10 V / 20 mA), 4 points
TS4: Thermocouple input, 4 points
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 1/39
http://www.m-system.co.jp/
MODEL: R7M
[2] OPTIONS
GENERAL SPECIFICATIONS
STANDARDS & APPROVALS
blank: CE marking (Refer I/O TYPE code for exception)
/UL: UL approval, CE marking
blank: none
• Common Specifications
Power input:
24 V AC ±10 % (50 / 60 Hz)
24 V DC ±10 %; ripple 10 %p-p max.
Insulation resistance: ≥ 100 MΩ with 500 V DC
Dielectric strength: 1500 V AC @1 minute
(between isolated circuits)
/Q: Option other than the above (specify the specification)
(UL not available)
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
Storage temperature: -20 to +65°C (-4 to +149°F)
Mounting: DIN rail (35 mm wide)
SPECIFICATIONS OF OPTION: Q
COATING (For the detail, refer to M-System's web site.)
/C01: Silicone coating
/C02: Polyurethane coating
/C03: Rubber coating
Connection: M3 separable screw terminals
(torque 0.5 N·m)
FUNCTIONS & FEATURES
The R7M interfaces analog and discrete I/O signals with a PC
Screw terminal material: Nickel-plated steel
Solderless terminal: Refer to the drawing at the end of the
section.
via Modbus.
A ‘basic’ module can be attached with an ‘extension’
module.
Recommended manufacturer: Japan Solderless Terminal
MFG.Co.Ltd, Nichifu Co.,ltd
(R7M-DC8C can not be attached with an ‘extension’
module.)
Applicable wire size: 0.25 to 1.65 mm (AWG22 to 16)
2
Housing material: Flame-resistant resin (gray)
Status indicator LEDs: PWR, RUN, ERR, SD, RD
(Refer to the instruction manual for details)
■ DC Power Current Consumption & Weight
R7M-DA16: Approx. 60 mA; 200 g (7.1 oz)
R7M-DA16F: Approx. 40 mA; 200 g (7.1 oz)
R7M-DC16A: Approx. 70 mA; 200 g (7.1 oz)
R7M-DC16B: Approx. 70 mA; 200 g (7.1 oz)
R7M-DAC16C: Approx. 40 mA; 200 g (7.1 oz)
R7M-DAC16D: Approx. 40 mA; 200 g (7.1 oz)
R7M-DC8C: Approx. 60 mA (60 mA); 200 g (7.1 oz)
R7M-RR8: Approx. 60 mA; 200 g (7.1 oz)
R7M-SV4: Approx. 90 mA; 200 g (7.1 oz)
R7M-TS4: Approx. 90 mA; 200 g (7.1 oz)
R7M-RS4: Approx. 90 mA; 200 g (7.1 oz)
R7M-MS4: Approx. 80 mA; 200 g (7.1 oz)
R7M-CT4E: Approx. 100 mA; 200 g (7.1 oz)
R7M-PA8: Approx. 40 mA; 200 g (7.1 oz)
R7M-YV2: Approx. 100 mA; 180 g (6.3 oz)
R7M-YS2: Approx. 140 mA; 180 g (6.3 oz)
R7M-EA8: Approx. 10 mA; 90 g (3.2 oz)
R7M-EA16: Approx. 20 mA; 150 g (5.3 oz)
R7M-EC8A: Approx. 10 mA; 90 g (3.2 oz)
R7M-EC16A: Approx. 20 mA; 150 g (5.3 oz)
R7M-EC8B: Approx. 10 mA; 90 g (3.2 oz)
R7M-EC16B: Approx. 20 mA; 150 g (5.3 oz)
R7M-EC8C: Approx. 40 mA (60mA); 150 g (5.3 oz)
The consumed current of supply power for the output is
shown in ().
By combining two modules, single station can handle mixed
analog and discrete signals, 32-point discrete inputs, 32-
point discrete outputs, 16-point discrete I/Os and other
combinations of signals.
Input sensor type (thermocouple, RTD) and range can be
selected with the front DIP switches for all channels.
In order to set different selections for individual channels,
zero/span adjustments, scaling and temperature unit, use
the PC Configurator Software (model: R7CON)
RELATED PRODUCTS
• PC configurator software (model: R7CON)
Downloadable at M-System’s web site.
A dedicated cable is required to connect the module to the
PC. Please refer to the internet software download site or
the users manual for the PC configurator for applicable
cable types.
• Clamp-on current sensor (model: CLSE)
For R7M-CT4E, the clamp-on current sensors must be
ordered separately. Required number depends upon the
channel number.
PACKAGE INCLUDES...
• Terminating resistor (110 Ω, 0.25 W)
(Not provided for models terminating resistor incorporated)
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 2/39
http://www.m-system.co.jp/
MODEL: R7M
■ AC Power Current Consumption
R7M-RR8: Approx. 140 mA
(UL 61010-1, CAN/CSA-C22.2 No.61010-1)
R7M-PA8: Approx. 75 mA
■ Recommended solderless terminal
3.3 (.13) max
mm (inch)
MODBUS COMMUNICATION
Standard: Conforms to TIA/EIA-485-A
Transmission distance: 500 meters max.
Transmission media: Shielded twisted-pair cable
(CPEV-S 0.9 dia.)
■ MODBUS COMMUNICATION PARAMETERS
PARAMETER
Data Mode
Baud Rate
SELECTIONS
RTU (*) / ASCII
SETTING
R7CON
38.4 kbps (*) / 19.2 kbps / Rotary SW
9600 bps / 4800 bps
Baud Rate
(R7M-PA8,
DA16F, DAC16C,
DAC16D, RR8)
115.2 kbps / 57.6 kbps
38.4 kbps(*) / 28.8 kbps
19.2 kbps / 14.4 kbps
9600 bps / 4800 bps
2400 bps / 1200 bps
Rotary SW
Parity
NONE (*) / ODD / EVEN R7CON
Bit Length
Stop Bit
8: RTU (*) / 7: ASCII
2 (*) / 1
R7CON
R7CON
Node Address 1 to 99 (*00)
(*) Factory setting
Rotary SW
STANDARDS & APPROVALS
Refer to the manuals to comply with the standards.
EU conformity:
EMC Directive
EMI EN 61000-6-4
EMS EN 61000-6-2
Low Voltage Directive
(R7M-DC8C only. Refer to the instruction manual for the
detail.)
EN 61010-1, EN 61010-2-201
Measurement Category II (output)
Pollution Degree 2
Output to power: Basic insulation (150 V)
RoHS Directive
EN 50581
Approval:
UL/C-UL nonincendive Class I, Division 2,
Groups A, B, C, and D
(ANSI/ISA-12.12.01, CAN/CSA-C22.2 No.213)
UL/C-UL general safety requirements
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 3/39
http://www.m-system.co.jp/
MODEL: R7M
EXTERNAL VIEW
■ BASIC MODULE
• SIDE VIEW
• FRONT VIEW
Baud Rate Setting Rotary SW
Operating Mode Setting DIP SW (SW1)
Node Address Setting
Rotary SW
PC Configurator Jack
Discrete I/O Status Indicator LED
1
*
Status Indicator LED
1
2 3 4 5 6 7 8
X10
5
X1
5
PWR
ERR
RD
0 1 2 3 4 5 6 7 8 9 A B C D E F
5
0
0
0
RUN
SD
CNFG.
NODE ADD.
B.RATE
4
5
6
7
10 11 12 13 14 15 16 17 18
1
2
3
1
2
3
4
5
6
7
8
9
Modbus, Power Supply
Terminals
3
2
*
*
Terminating Resistor SW
I/O Terminals
*1. Not available with analog I/O modules.
*2. 10 screw terminals for analog output modules.
*3. Only for R7M-PA8, DA16F, DAC16x and RR8.
■ EXTENSION MODULE
• DISCRETE, 8 POINTS
Discrete I/O Status Indicator LED
0
1
2
3
4
5
6
7
6
7
8
9
10
1
2
3
4
5
I/O Terminals
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 4/39
http://www.m-system.co.jp/
MODEL: R7M
• DISCRETE, 16 POINTS
Discrete I/O Status Indicator LED
0
1 2 3 4 5 6 7 8 9 A B C D E F
10 11 12 13 14 15 16 17 18
1
2
3
4
5
6
7
8
9
I/O Terminals
■ DISCRETE I/O STATUS INDICATOR LED
Discrete I/O modules, including those for extensions, have LED indicators showing I/O signal status.
Totalized pulse modules have LED indicators showing input signal status.
Contact ON : LED ON
Contact OFF : LED OF
CONNECTION DIAGRAMS
■ POWER SUPPLY, MODBUS TERMINAL ASSIGNMENT
• Except R7M-PA8 and RR8
• R7M-PA8, RR8
4
5
6
7
4
5
6
7
DA
DG
U (+) V (-)
3
DA
DG
+24V
0V
1
2
1
2
3
DB
SLD
FG
DB
SLD
FG
ID
DB
NO.
1
ID
FUNCTION, NOTES
NO.
1
FUNCTION, NOTES
DB
----
----
Shield
FG
2
SLD
FG
Shield
2
SLD
FG
3
FG
3
4
DA
----
----
----
4
DA
5
DG
----
5
DG
6
+24V
0V
Power input (24V DC)
Power input (0V)
Power input
Power input
6
U (+)
V (-)
7
7
■ MASTER CONNECTION
Host PC
Remote Unit
Remote Unit
TERMINATOR
TERMINATOR
Tx+/Rx+
Tx–/Rx–
SG
DA
DB
DA
DB
DG
SLD
FG
DG
SLD
FG
Rx+
Rx–
Be sure to connect the terminating resistor included in the product package to the unit at both ends of transmission line.
The terminator must be connected across DA and DB.
The Host PC can be located other than at the extreme ends of transmission line.
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 5/39
http://www.m-system.co.jp/
MODEL: R7M
MODBUS FUNCTION CODES & SUPPORTED CODES
■ Data and Control Functions
CODE
01
NAME
Read Coil Status
Digital output from the slave read write
( /
)
02
03
04
05
06
08
11
Read Input Status
Status of digital inputs to the slave read only
(
)
Read Holding Registers
Read Input Registers
Force Single Coil
General purpose register within the slave read write
( /
)
Collected data from the !eld by the slave read only
(
)
Digital output from the slave read write
( /
)
Preset Single Register
Diagnostics
General purpose register within the slave read write
( /
)
Fetch Comm. Event Counter
Fetch Comm. Event Log
Force Multiple Coils
Preset Multiple Registers
Report Slave ID
Fetch a status word and an event counter
12
A status word, an event counter, a message count and a !eld of event bytes
Digital output from the slave read write
15
(
/
)
16
General purpose register within the slave read write
( /
)
17
Slave type ‘RUN’status
/
■ Exception Codes
CODE
NAME
Illegal Function
Illegal Data Address
Illegal Data Value
Function code is not allowable for the slave
Address is not available within the slave
Data is not valid for the function
01
02
03
■ Diagnostic Subfunctions
CODE
00
NAME
Return Query Data
Loop back test
MODBUS I/O ASSIGNMENT
ADDRESS DATA TYPE DATA
Coil (0X)
1 – 16
17 – 32
1 – 16
Digital Output (discrete output of the basic module)
Digital Output (discrete output of the extension module)
Digital Input (discrete input of the basic module)
Digital Input (discrete input of the extension module)
Reserved (unused)
Inputs (1X)
17 – 32
33 – 48
49 – 64
65 – 80
Module Status
Reserved (unused)
Input Registers (3X)
1 –
4
I
Analog Input
5 – 16
17 – 24
25 – 48
----
F
Reserved (unused)
Analog Input
----
I
Reserved (unused)
Holding Registers (4X)
1 –
2
Analog Output
3 – 16
17 – 20
21 – 48
----
F
Reserved (unused)
Analog Output
----
Reserved (unused)
I
: Integer, -1500 – +11500 (-15 – +115%)
F : Floating
Note: DO NOT access addresses other than mentioned above. Such access may cause problems such as inadequate operation.
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 6/39
http://www.m-system.co.jp/
MODEL: R7M
■ STATUS
Analog input modules (models: R7M-SV4, R7M-TS4, R7M-RS4, R7M-MS4, R7M-CT4E) can show input status of
each channel.
Analog output modules (models: R7M-YS2, R7M-YV2),
discrete I/O modules (models: R7M-DA16x, R7M-DCx, R7M-DAC16x, R7M-RR8),
totalized pulse input module (model: R7M-PA8) shows ‘0’ at the same address.
15
0
Input 0 (Burnout, input range error)
Input 1 (Burnout, input range error)
Input 2 (Burnout, input range error)
Input 3 (Burnout, input range error)
Input 0 (ADC error)
Input 1 (ADC error)
Input 2 (ADC error)
Input 3 (ADC error)
Unused
:
Unused
Burnout, input range error (≤-15%, ≥+115%)
0 : Normal 1 : Error
ADC error (no response from ADC)
0 : Normal 1 : Error
DATA CONVERSION
I 0 – 100% DATA CONVERSION
Analog input data is converted into digital representations of 0 – 100% proportional to each scaled range. The converted %
values are multiplied by 100 and expressed in 16 bits.
Overrange input is possible from -15 to +115% of the nominal range. When the signal exceeds the limit, the data is fixed at
-15% or +115% respectively. Negative value is represented in 2ʼs complements.
• Input Range 0 – 5 V DC
Converted Data, Decimal
Converted Data, Hex
Input Value
≤ -0.75 V
0 V
Input %
-15%
0%
-1500
0
FA24
0
10000
11500
5 V
100%
115%
2710
2CEC
≥ 5.75 V
11500 (2CEC)
10000 (2710)
-0.75
0
-1500 (FA24)
5.0
5.75
(V)
Analog output is converted in the reverse order of the input data. The output range 0 – 5 V DC is expressed as 10000 at
5.0 V (100%) and 0 at 0 V (0%).
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 7/39
http://www.m-system.co.jp/
MODEL: R7M
I ENGINEERING UNIT CONVERSION
Engineering unit value °C or K is multiplied by 10 and expressed in 16 bits. °F data is represented in engineering unit
value, without multiplication. Engineering unit value A is multiplied by 100 or 1000, expressed in 16 bits. Negative value
is represented in 2ʼs complements.
• Input TYPE K Thermocouple
Converted Data, Decimal
Converted Data, Hex
Input Value
≤ -272°C
-150°C
-2720
-1500
13700
14720
F560
FA24
3584
3980
1370°C
≥ 1472°C
14720 (3980)
13700 (3584)
-272 -150
1370
1472
(°C)
-1500 (FA24)
-2720 (F560)
■ COUNT VALUE
The count value is 32-bit data. It is divided in 2 words of 16 bits represented with 2 addresses.The lower address is
allocated in the upper word (MSB) and the upper address in the lower word (LSB). The count value is 0 - 4 294 967 295.
The maximum count value available is 1 000 - 4 294 967 295. In case of overflow, the vaule is reset to 0 or 1
(configurable) from which the count will restart. The preset of the count value is also available. Use the R7CON or
commands for the configuration.
EXTENSION MODULE
A ‘basic’ module can be attached with one ‘extension’ module. The extension module is powered from the basic module.
By combining two modules, single station can handle mixed analog and discrete signals, 32-point discrete inputs, 32-point
discrete outputs, 16-point discrete I/Os and other combinations of signals.
Note: Relay contact 8 points output module can not be attached with an ‘Extension’ module.
■ OUTPUT AT THE LOSS OF COMMUNICATION
The extension module is set to ‘Hold Output’ by factory default setting. The PC Configurator software is used to change the
setting to ‘Reset Output.’
CONNECTING THE EXTENSION MODULE
1) Remove the extension connector cover located at the side of the basic module.
2) Connect the extension module.
3) Mount the combined module on a DIN rail.
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 8/39
http://www.m-system.co.jp/
MODEL: R7M
EXTERNAL DIMENSIONS unit: mm (inch)
■ BASIC MODULE
115 (4.53)
17 (.66)
54 (2.13)
DIN RAIL
35mm wide
4
5
6
7
10 11 12 13 14 15 16 17 18
1
2
3
1
2
3
4
5
6
7
8
9
30 (1.18)
[5 (.20)]
• R7M-TS4
6 (.24)
6 (.24)
17 (.66)
54 (2.13)
7–M3 SCREW
TERMINALS
18–M3 SCREW
TERMINALS for I/O
for Modbus, POWER
DIN RAIL
35mm wide
30 (1.18)
[5 (.20)]
■ ANALOG OUTPUT
115 (4.53)
17 (.66)
54 (2.13)
DIN RAIL
35mm wide
4
5
6
7
6
7
8
9
10
1
2
3
1
2
3
4
5
30 (1.18)
[5 (.20)]
6 (.24)
6 (.24)
7–M3 SCREW
TERMINALS
for Modbus, POWER
10–M3 SCREW
TERMINALS
for OUTPUT
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 9/39
http://www.m-system.co.jp/
MODEL: R7M
■ EXTENSION MODULE, 8 POINTS
11.5
(.45)
65 (2.56)
17 (.66)
54 (2.13)
DIN RAIL
35mm wide
6
7
8
9
10
1
2
3
4
5
30 (1.18)
[5 (.20)]
6 (.24)
10–M3 SCREW
TERMINALS for I/O
■ EXTENSION MODULE, 16 POINTS
17 (.66)
54 (2.13)
11.5
(.45)
94 (3.70)
DIN RAIL
35mm wide
10 11 12 13 14 15 16 17 18
1
2
3
4
5
6
7
8
9
30 (1.18)
[5 (.20)]
6 (.24)
18–M3 SCREW
TERMINALS for I/O
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 10/39
http://www.m-system.co.jp/
MODEL: R7M
DISCRETE INPUT MODULE, 16 points
MODEL: R7M-DA16
CIRCUIT DIAGRAM
Note: In order to improve EMC performance, bond the FG
terminal to ground.
Caution: FG terminal is NOT a protective conductor
terminal.
SPECIFICATIONS
Common: Positive or negative common (NPN/PNP) per
Input Circuit
16 points
1
10
2
4
1
5
2
3
6
7
COM
COM
X0
DA
Number of I/O: Input, 16 points
DB
Maximum inputs applicable at once: No limit (at 24 V DC)
Input status indicator: LED turns ON with contact ON
Isolation: Input to Modbus or FG to power input
Rated input voltage: 24 V DC ±10 %; ripple 5 %p-p max.
ON voltage / current: ≥ 15 V DC (input – COM) / ≥ 3.5 mA
OFF voltage / current: ≤ 5 V DC (input – COM) / ≤ 1 mA
Input current: ≤ 5.5 mA per point at 24 V DC
Input resistance: Approx. 4.4 kΩ
Comm.
Circuit
DG
3
X2
SLD
FG
4
X4
5
X6
24V DC
0V
6
X8
7
XA
XC
XE
X1
Control
Circuit
8
ON delay: ≤ 2.0 msec.
9
OFF delay: ≤ 2.0 msec.
11
12
13
14
15
16
17
18
X3
OPERATING MODE SETTING
(*) Factory setting
X5
Caution ! - SW1-3 through 1-8 are unused. Be sure to turn
off unused ones.
X7
X9
• Extension (SW1-1, 1-2)
XB
XD
XF
SW1-1 SW1-2 Extension
OFF
ON
OFF No extension (*)
OFF Discrete input, 8 or 16 points
OFF
ON
Discrete output, 8 or 16 points
Input Circuit
TERMINAL ASSIGNMENTS
1
10
2
COM
COM
X0
10
11
X1
12
X3
13
X5
14
X7
15
X9
16
XB
17
XD
18
XF
COM
1
2
3
4
5
6
7
8
9
COM
X0
X2
X4
X6
X8
XA
XC
XE
NO. ID
FUNCTION
NO. ID
FUNCTION
Control
Circuit
1
2
3
4
5
6
7
8
9
COM Common
10 COM Common
X0
X2
X4
X6
X8
Input 0
Input 2
Input 4
Input 6
Input 8
11
12
13
14
15
16
17
18
X1 Input 1
X3 Input 3
X5 Input 5
X7 Input 7
X9 Input 9
XB Input 11
XD Input 13
XF Input 15
18
XF
XA Input 10
XC Input 12
XE Input 14
Input Connection Examples
PNP Connection
NPN Connection
+
–
– +
1
10
2
1
COM
COM
X0
COM
COM
X0
10
2
18
18
XF
XF
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 11/39
http://www.m-system.co.jp/
MODEL: R7M
DISCRETE INPUT MODULE, 16 points
CIRCUIT DIAGRAM
(115.2 kbps)
Note: In order to improve EMC performance, bond the FG
terminal to ground.
Caution: FG terminal is NOT a protective conductor
terminal.
MODEL: R7M-DA16F
SPECIFICATIONS
Input Circuit
Common: Positive or negative common (NPN/PNP) per 16
1
10
2
4
1
5
2
3
6
7
COM
COM
X0
DA
points
DB
Number of I/O: Input, 16 points
Comm.
Circuit
DG
Maximum inputs applicable at once: No limit (at 24 V DC)
Input status indicator: LED turns ON with contact ON
Isolation: Input to Modbus or FG to power input
Rated input voltage: 24 V DC ±10 %; ripple 5 %p-p max.
ON voltage / current: ≥ 15 V DC (input – COM) / ≥ 3.5 mA
OFF voltage / current: ≤ 5 V DC (input – COM) / ≤ 1 mA
Input current: ≤ 5.5 mA per point at 24 V DC
Input resistance: Approx. 4.4 kΩ
3
X2
SLD
FG
4
X4
5
X6
24V DC
0V
6
X8
7
XA
XC
XE
X1
Control
Circuit
8
9
ON delay: ≤ 0.5 msec.
11
12
13
14
15
16
17
18
OFF delay: ≤ 1.0 msec.
X3
X5
OPERATING MODE SETTING
(*) Factory setting
X7
Caution ! - SW1-3 through 1-8 are unused. Be sure to turn
off unused ones.
X9
XB
XD
XF
• Extension (SW1-1, 1-2)
SW1-1 SW1-2 Extension
OFF
ON
OFF No extension (*)
OFF Discrete input, 8 or 16 points
OFF
ON
Discrete output, 8 or 16 points
Input Circuit
1
10
2
COM
COM
X0
TERMINAL ASSIGNMENTS
10
11
X1
12
X3
13
X5
14
X7
15
X9
16
XB
17
XD
18
XF
COM
1
2
3
4
5
6
7
8
9
COM
X0
X2
X4
X6
X8
XA
XC
XE
Control
Circuit
NO. ID
FUNCTION
NO. ID
FUNCTION
1
2
3
4
5
6
7
8
9
COM Common
10 COM Common
X0
X2
X4
X6
X8
Input 0
Input 2
Input 4
Input 6
Input 8
11
12
13
14
15
16
17
18
X1 Input 1
X3 Input 3
X5 Input 5
X7 Input 7
X9 Input 9
XB Input 11
XD Input 13
XF Input 15
18
XF
Input Connection Examples
XA Input 10
XC Input 12
XE Input 14
PNP Connection
NPN Connection
+
–
– +
1
10
2
1
COM
COM
X0
COM
COM
X0
10
2
18
18
XF
XF
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 12/39
http://www.m-system.co.jp/
MODEL: R7M
NPN TRANSISTOR OUTPUT MODULE, 16 points
CIRCUIT DIAGRAM
Note: In order to improve EMC performance, bond the FG
terminal to ground.
MODEL: R7M-DC16A
Caution: FG terminal is NOT a protective conductor
terminal.
SPECIFICATIONS
Common: Negative common (NPN) per 16 points
Output Circuit
4
1
5
2
3
6
7
10
2
DA
DB
+24V
Y0
Y2
Y4
Y6
Y8
YA
YC
YE
Y1
Y3
Y5
Y7
Y9
YB
YD
YF
0V
Number of I/O: Output, 16 points
Maximum outputs applicable at once: No limit (at 24 V DC)
Output status indicator: LED turns ON with contact ON
Isolation: Output to Modbus or FG to power input
Rated load voltage: 24 V DC ±10 %
Rated output current: 0.25 A per point, 2.0 A per common
Residual voltage: ≤ 1.2 V
Comm.
Circuit
3
DG
4
SLD
FG
5
6
24V DC
0V
7
Leakage current: ≤ 0.1 mA
8
ON delay: ≤ 0.5 msec.
Control
Circuit
OFF delay: ≤ 1.5 msec.
9
(When driving an inductive load, connect a diode in parallel
with the load.)
11
12
13
14
15
16
17
18
1
OPERATING MODE SETTING
(*) Factory setting
Caution ! - SW1-3, 1-5 through 1-8 are unused. Be sure to
turn off unused ones.
• Output at the Loss of Communication (SW1-4)
SW1-4 Output at the loss of communication
OFF Reset the output (turned off)
ON
Hold the output (*)
(maintains the last data received normally)
Output Circuit
• Extension (SW1-1, 1-2)
SW1-1 SW1-2 Extension
10
2
+24V
Y0
OFF
ON
OFF No extension (*)
OFF Discrete input, 8 or 16 points
ON Discrete output, 8 or 16 points
OFF
Control
Circuit
18
YF
TERMINAL ASSIGNMENTS
10
11
Y1
12
Y3
13
Y5
14
Y7
15
Y9
16
YB
17
YD
18
YF
+24V
1
2
3
4
5
6
7
8
9
0V
Y0
Y2
Y4
Y6
Y8
YA
YC
YE
1
0V
NO. ID
FUNCTION
NO. ID
FUNCTION
1
2
3
4
5
6
7
8
9
0 V 0 V (common)
Y0 Output 0
Y2 Output 2
Y4 Output 4
Y6 Output 6
Y8 Output 8
YA Output 10
YC Output 12
YE Output 14
10 +24 V 24 V DC
Output Connection Example
11
12
13
14
15
16
17
18
Y1 Output 1
Y3 Output 3
Y5 Output 5
Y7 Output 7
Y9 Output 9
YB Output 11
YD Output 13
YF Output 15
10
1
+24V
0V
–
+
2
Y0
18
YF
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 13/39
http://www.m-system.co.jp/
MODEL: R7M
PNP TRANSISTOR OUTPUT MODULE, 16 points
CIRCUIT DIAGRAM
Note: In order to improve EMC performance, bond the FG
terminal to ground.
MODEL: R7M-DC16B
Caution: FG terminal is NOT a protective conductor
terminal.
SPECIFICATIONS
Common: Positive common (PNP) per 16 points
Output Circuit
Number of I/O: Output, 16 points
4
1
5
2
3
6
7
10
2
DA
DB
+24V
Y0
Y2
Y4
Y6
Y8
YA
YC
YE
Y1
Y3
Y5
Y7
Y9
YB
YD
YF
0V
Maximum outputs applicable at once: No limit (at 24 V DC)
Output status indicator: LED turns ON with contact ON
Isolation: Output to Modbus or FG to power input
Rated load voltage: 24 V DC ±10 %
Rated output current: 0.25 A per point, 2.0 A per common
Residual voltage: ≤ 1.2 V
Comm.
Circuit
3
DG
4
SLD
FG
5
6
24V DC
0V
Leakage current: ≤ 0.1 mA
7
ON delay: ≤ 0.5 msec.
8
Control
Circuit
OFF delay: ≤ 1.5 msec.
9
(When driving an inductive load, connect a diode in parallel
with the load.)
11
12
13
14
15
16
17
18
1
OPERATING MODE SETTING
(*) Factory setting
Caution ! - SW1-3, 1-5 through 1-8 are unused. Be sure to
turn off unused ones.
• Output at the Loss of Communication (SW1-4)
SW1-4 Output at the loss of communication
OFF Reset the output (turned off)
ON
Hold the output (*)
(maintains the last data received normally)
Output Circuit
• Extension (SW1-1, 1-2)
SW1-1 SW1-2 Extension
10
2
+24V
Y0
OFF
ON
OFF No extension (*)
OFF Discrete input, 8 or 16 points
ON Discrete output, 8 or 16 points
OFF
Control
Circuit
TERMINAL ASSIGNMENTS
18
YF
0V
10
11
Y1
12
Y3
13
Y5
14
Y7
15
Y9
16
YB
17
YD
18
YF
+24V
1
2
3
4
5
6
7
8
9
0V
Y0
Y2
Y4
Y6
Y8
YA
YC
YE
1
NO. ID
FUNCTION
NO. ID
FUNCTION
1
2
3
4
5
6
7
8
9
0 V 0 V
10 +24 V 24 V DC (common)
Output Connection Example
Y0 Output 0
Y2 Output 2
Y4 Output 4
Y6 Output 6
Y8 Output 8
YA Output 10
YC Output 12
YE Output 14
11
12
13
14
15
16
17
18
Y1 Output 1
Y3 Output 3
Y5 Output 5
Y7 Output 7
Y9 Output 9
YB Output 11
YD Output 13
YF Output 15
+
–
10
1
+24V
0V
2
Y0
18
YF
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 14/39
http://www.m-system.co.jp/
MODEL: R7M
NPN DISCRETE INPUT &
• Output Operation Mode (SW1-3)
SW1-3
Output operation mode
NPN TRANSISTOR OUTPUT MODULE, 8 points each
OFF
ON
Disable (*)
(115.2 kbps)
Enable
Output switching mode can be independently selected by
2 outputs with PC Configuration software. An example of
setting is given below.
MODEL: R7M-DAC16C
Output 0: Maintained output
SPECIFICATIONS
■ COMMON SPECIFICATIONS
Output 1: Maintained output
Output 2: Momentary output
Input common: Positive common per 8 points
Output common: Negative common per 8 points
Number of I/O: Input, 8 points; Output, 8 points
Maximum I/O applicable at once: No limit (at 24 V DC)
I/O status indicator: LED turns ON with contact ON
Isolation: I/O to power input to Modbus or FG
■ INPUT
Output 3: Momentary output
Output 4: Momentary output
Output 5: Momentary output
Output 6: Maintained output
Output 7: Maintained output
• Output at the Loss of Communication (SW1-4)
SW1-4
OFF
ON
Output at the loss of communication
Reset the output (turned off)
Rated input voltage: 24 V DC ±10 %; ripple 5 %p-p max.
ON voltage/current: ≥ 15 V DC (input-C+) / ≥ 3.5 mA
OFF voltage/current: ≤ 5 V DC (input-C+) / ≤ 1 mA
Input current: ≤ 5.5 mA per point at 24 V DC
Input resistance: Approx. 4.4 kΩ
Hold the output (*)
(maintains the last data received normally)
• Output Switching Mode (SW1-5)
SW1-5
OFF
ON
Output switching mode
ON delay: ≤ 0.5 msec.
Maintained Output Mode (*)
Momentary Output Mode
OFF delay: ≤ 1.0 msec.
■ OUTPUT
SW1-5 setting is disregarded when SW1-3 is set to ON.
Rated load voltage: 24 V DC ±10 %
Rated output current: 0.1 A per point, 0.8 A per common
Residual voltage: ≤ 1.2 V
• Output ON Time (SW1-6, 1-7, 1-8)
SW1-6
OFF
ON
SW1-7
OFF
OFF
ON
SW1-8 ON Time
Leakage current: ≤ 0.1 mA
OFF
OFF
OFF
OFF
ON
100 ms (*)
200 ms
300 ms
500 ms
1 s
ON delay: ≤ 0.5 msec.
OFF delay: ≤ 1.0 msec.
OFF
ON
Overload current protection function: Limits the current
value when overcurrent is detected
Overheat Protection Function:
ON
OFF
ON
OFF
OFF
ON
ON
2 s
OFF
ON
ON
5 s
Turns OFF the output when overheat is detected
(When driving an inductive load, connect a diode in parallel
with the load.)
ON
ON
10 s
TERMINAL ASSIGNMENTS
OPERATING MODE SETTING
(*) Factory setting
10
11
+ X1
12
X3
13
X5
14
X7
15
Y1
16
Y3
17
Y5
18
Y7
C
1
2
3
4
5
6
7
8
9
• Extension (SW1-1, 1-2)
C
–
X0
X2
X4
X6
Y0
Y2
Y4
Y6
SW1-1 SW1-2 Extension
OFF
ON
OFF No extension (*)
NO.
1
ID
FUNCTION
NO.
10
11
ID
FUNCTION
OFF Discrete input, 8 or 16 points
C– Common–
X0 Input 0
X2 Input 2
X4 Input 4
X6 Input 6
Y0 Output 0
Y2 Output 2
Y4 Output 4
Y6 Output 6
C+ Common+
X1 Input 1
X3 Input 3
X5 Input 5
X7 Input 7
Y1 Output 1
Y3 Output 3
Y5 Output 5
Y7 Output 7
OFF
ON
Discrete output, 8 or 16 points
2
3
12
13
14
15
16
17
18
4
5
6
7
8
9
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 15/39
http://www.m-system.co.jp/
MODEL: R7M
CIRCUIT DIAGRAM
Note: In order to improve EMC performance, bond the FG
terminal to ground.
Caution: FG terminal is NOT a protective conductor
terminal.
Input Circuit
1
2
C
-
4
1
5
2
3
6
7
DA
DB
X0
X1
X2
X3
X4
X5
X6
X7
11
3
Com.
Circuit
DG
SLD
FG
12
4
24V DC
0V
13
5
14
Control
Circuit
Output Circuit
6
15
7
Y0
Y1
Y2
Y3
Y4
Y5
Y6
Y7
C+
16
8
17
9
18
10
■ Input Circuit
10
2
C+
X0
Control
Circuit
14
X7
■ Output Circuit
10
6
C+
Y0
Control
Circuit
18
1
Y7
C
-
■ I/O Connection Example
+
−
10
1
C+
C-
2
X0
14
6
X7
Y0
18
Y7
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 16/39
http://www.m-system.co.jp/
MODEL: R7M
PNP DISCRETE INPUT &
• Output Operation Mode (SW1-3)
SW1-3
Output operation mode
PNP TRANSISTOR OUTPUT MODULE, 8 points each
OFF
ON
Disable (*)
(115.2 kbps)
Enable
Output switching mode can be independently selected by
2 outputs with PC Configuration software. An example of
setting is given below.
MODEL: R7M-DAC16D
Output 0: Maintained output
SPECIFICATIONS
■ COMMON SPECIFICATIONS
Output 1: Maintained output
Output 2: Momentary output
Input common: Negative common per 8 points
Output common: Positive common per 8 points
Number of I/O: Input, 8 points; Output, 8 points
Maximum I/O applicable at once: No limit (at 24 V DC)
I/O status indicator: LED turns ON with contact ON
Isolation: I/O to power input to Modbus or FG
■ INPUT
Output 3: Momentary output
Output 4: Momentary output
Output 5: Momentary output
Output 6: Maintained output
Output 7: Maintained output
• Output at the Loss of Communication (SW1-4)
SW1-4
OFF
ON
Output at the loss of communication
Reset the output (turned off)
Rated input voltage: 24 V DC ±10 %; ripple 5 %p-p max.
ON voltage/current: ≥ 15 V DC (input - C-) / ≥ 3.5 mA
OFF voltage/current: ≤ 5 V DC (input - C-) / ≤ 1 mA
Input current: ≤ 5.5 mA per point at 24 V DC
Input resistance: Approx. 4.4 kΩ
Hold the output (*)
(maintains the last data received normally)
• Output Switching Mode (SW1-5)
SW1-5
OFF
ON
Output switching mode
ON delay: ≤ 0.5 msec.
Maintained Output Mode (*)
Momentary Output Mode
OFF delay: ≤ 1.0 msec.
■ OUTPUT
SW1-5 setting is disregarded when SW1-3 is set to ON.
Rated load voltage: 24 V DC ±10 %
Rated output current: 0.1 A per point, 0.8 A per common
Residual voltage: ≤ 1.2 V
• Output ON Time (SW1-6, 1-7, 1-8)
SW1-6
OFF
ON
SW1-7
OFF
OFF
ON
SW1-8 ON Time
Leakage current: ≤ 0.1 mA
OFF
OFF
OFF
OFF
ON
100 ms (*)
200 ms
300 ms
500 ms
1 s
ON delay: ≤ 0.5 msec.
OFF delay: ≤ 1.0 msec.
OFF
ON
Overload current protection function: Limits the current
value when overcurrent is detected
Overheat Protection Function:
ON
OFF
ON
OFF
OFF
ON
ON
2 s
OFF
ON
ON
5 s
Turns OFF the output when overheat is detected
(When driving an inductive load, connect a diode in parallel
with the load.)
ON
ON
10 s
TERMINAL ASSIGNMENTS
OPERATING MODE SETTING
(*) Factory setting
10
11
+ X1
12
X3
13
X5
14
X7
15
Y1
16
Y3
17
Y5
18
Y7
C
1
2
3
4
5
6
7
8
9
• Extension (SW1-1, 1-2)
C
–
X0
X2
X4
X6
Y0
Y2
Y4
Y6
SW1-1 SW1-2 Extension
OFF
ON
OFF No extension (*)
NO.
1
ID
FUNCTION
NO.
10
11
ID
FUNCTION
OFF Discrete input, 8 or 16 points
C– Common–
X0 Input 0
X2 Input 2
X4 Input 4
X6 Input 6
Y0 Output 0
Y2 Output 2
Y4 Output 4
Y6 Output 6
C+ Common+
X1 Input 1
X3 Input 3
X5 Input 5
X7 Input 7
Y1 Output 1
Y3 Output 3
Y5 Output 5
Y7 Output 7
OFF
ON
Discrete output, 8 or 16 points
2
3
12
13
14
15
16
17
18
4
5
6
7
8
9
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 17/39
http://www.m-system.co.jp/
MODEL: R7M
CIRCUIT DIAGRAM
Note: In order to improve EMC performance, bond the FG
terminal to ground.
Caution: FG terminal is NOT a protective conductor
terminal.
Input Circuit
1
2
C
-
4
1
5
2
3
6
7
DA
DB
X0
X1
X2
X3
X4
X5
X6
X7
11
3
Com.
Circuit
DG
SLD
FG
12
4
24V DC
0V
13
5
14
Control
Circuit
Output Circuit
6
15
7
Y0
Y1
Y2
Y3
Y4
Y5
Y6
Y7
C+
16
8
17
9
18
10
■ Input Circuit
1
2
C-
X0
Control
Circuit
14
X7
■ Output Circuit
C+
10
6
Y0
Control
Circuit
Y7
18
1
C-
■ I/O Connection Example
10
1
C+
−
+
C-
2
X0
14
6
X7
Y0
18
Y7
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 18/39
http://www.m-system.co.jp/
MODEL: R7M
RELAY CONTACT OUTPUT MODULE, 8 points
MODEL: R7M-DC8C
CIRCUIT DIAGRAM
Note: In order to improve EMC performance, bond the FG
terminal to ground.
Caution: FG terminal is NOT a protective conductor
terminal.
SPECIFICATIONS
Common: 1 common per 4 points (4 terminals)
Maximum current load: 2.0 A per point
Common current: Max. 8 A (4 terminals)
Number of I/O: Relay contact output, 8 points
Maximum outputs applicable at once: No limit (at 24 V DC)
Output status indicator: LED turns ON with contact ON
Isolation: Output to Modbus or FG to power input
Relay driving power: 24 V DC ±10 %, ≥ 60 mA
Rated load: 250 V AC @ 2 A (cos ø = 1)
30 V DC @ 2 A (resistive load)
4
Ry
DA
11
Y0
Ry
1
5
2
3
6
7
DB
DG
12
13
14
2
Y1
Comm.
Circuit
Ry
Ry
Y2
SLD
Y3
FG
COM0
COM0
COM0
COM0
Y4
24V DC
0V
3
4
5
Control
Circuit
(When it is used as a product relevant to EU directive, it
should be used under the Installation Category I, 125 V AC
or less.)
Ry
Ry
Ry
Ry
15
16
17
18
6
Y5
Maximum switching voltage: 250 V AC or 30 V DC
Maximum switching power: 500 VA or 60 W
Minimum load: 24 V DC @5 mA
Y6
Y7
COM1
COM1
COM1
COM1
0V
Mechanical life: 2 × 10 cycles (rate 300/min.)
7
7
When driving an inductive load, external contact protection
and noise quenching are recommended.
ON delay: ≤ 10 msec.
8
9
OFF delay: ≤ 10 msec.
1
10 +24V
OPERATING MODE SETTING
(*) Factory setting
■ Output Connection Example
Caution ! - SW1-1 through 1-3, 1-5 through 1-8 are unused.
Be sure to turn off the unused ones.
4 points / common
8 points / common
24 V DC
–
24 V DC
–
• Output at the Loss of Communication (SW1-4)
SW1-4 Output at the loss of communication
OFF Reset the output (turned off)
+
+
+
10
1
10
1
24V
24V
0V
0V
ON
Hold the output (*)
11
11
Y0
Y0
(maintains the last data received normally)
Y3 14
Y3 14
Y4 15
Y7 18
2
5
COM0
COM0
TERMINAL ASSIGNMENTS
–
+
+
–
10
+24 V
11
Y0
3
12
Y1
4
13
Y2
5
14
Y3
6
15
Y4
7
16
Y5
8
17
Y6
9
18
Y7
2
5
6
9
COM0
COM0
COM1
COM1
15
Y4
–
+
1
2
0 V COM0 COM0 COM0 COM0 COM1 COM1 COM1 COM1
+
–
Y7 18
6
9
COM1
COM1
NO. ID
FUNCTION
0 V 0 V
COM0 Common 0
NO. ID
FUNCTION
–
+
1
2
3
4
5
6
7
8
9
10 +24 V 24 V DC
+
–
11
12
13
14
15
16
17
18
Y0 Output 0
Y1 Output 1
Y2 Output 2
Y3 Output 3
Y4 Output 4
Y5 Output 5
Y6 Output 6
Y7 Output 7
COM0 Common 0
COM0 Common 0
COM0 Common 0
COM1 Common 1
COM1 Common 1
COM1 Common 1
COM1 Common 1
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 19/39
http://www.m-system.co.jp/
MODEL: R7M
REMOTE CONTROL RELAY CONTROL MODULE, 8 points
CIRCUIT DIAGRAM
(115.2 kbps)
Caution: FG terminal is NOT a protective conductor
terminal.
MODEL: R7M-RR8
Output Circuit
11 Y0
C0
12 Y1
C1
13 Y2
C2
14 Y3
C3
15 Y4
C4
16 Y5
C5
17 Y6
C6
18 Y7
DA
DB
4
1
5
2
3
6
7
RECOMMENDED PRODUCTS (OPERATION CHECKED)
Remote control relay:
2
Com.
Circuit
DG
BR-12D, BR-22D (Mitsubishi Electric)
WR6165 (Panasonic)
3
SLD
FG
Remote control transformer:
BRT-10B, BRT-20B (Mitsubishi Electric)
WR2301 (Panasonic)
4
U(+)
V(–)
5
SPECIFICATIONS
Common: Common per all points
Control
Circuit
Number of I/O: Output, 8 points
6
Maximum outputs applicable at once: No limit
I/O status indicator: Feedback input status turns on with the
input supplied.
7
Output status LED turns on with the output ON.
Isolation: Output to power input to Modbus or FG
Pulse output time: 100 msec.
8
Rated load voltage: 24 V AC ±10 % (supplied by the remote
control transformer)
9
10
1
C7
Load voltage frequency: 50 / 60 Hz
OPERATING MODE SETTING
(*) Factory setting
Caution ! - SW1-3 through 1-8 are unused. Be sure to turn
off unused ones.
■ Output Connection Example
• Extension (SW1-1, 1-2)
Y0 11
blue
Remote Control
Transformer
SW1-1 SW1-2 Extension
white
C0
2
OFF
ON
OFF No extension (*)
OFF Discrete input, 8 or 16 points
red
Remote Control
Relay
OFF
ON
Discrete output, 8 or 16 points
blue
TERMINAL ASSIGNMENTS
red
Y7 18
C7
Remote Control
Relay
blue
10
NC
11
Y0
12
Y1
13
Y2
14
Y3
15
Y4
16
Y5
17
Y6
18
Y7
9
1
2
3
4
5
6
7
8
9
NC
C0
C1
C2
C3
C4
C5
C6
C7
NO.
1
ID
FUNCTION
NO.
ID
FUNCTION
NC No connection
10 NC No connection
2
C0
C1
C2
C3
C4
C5
C6
C7
Common
Common
Common
Common
Common
Common
Common
Common
11 Y0
12 Y1
13 Y2
14 Y3
15 Y4
16 Y5
17 Y6
18 Y7
Output 0
Output 1
Output 2
Output 3
Output 4
Output 5
Output 6
Output 7
3
4
5
6
7
8
9
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 20/39
http://www.m-system.co.jp/
MODEL: R7M
DC VOLTAGE/CURRENT INPUT MODULE, 4 points
TERMINAL ASSIGNMENTS
10
VL0
11
I0
12
VL1
13
I1
14
NC
15
VL2
16
I2
17
VL3
18
I3
MODEL: R7M-SV4
1
2
3
4
5
6
7
8
9
VH0 COM0 VH1 COM1
NC
VH2 COM2 VH3 COM3
SPECIFICATIONS
Isolation: Input 0 to input 1 to input 2 to input 3 to Modbus
NO. ID
FUNCTION
VH0 Wide span volt. 0 10 VL0 Narrow span volt. 0
COM0 Common 0 11 I0 Current range 0
VH1 Wide span volt. 1 12 VL1 Narrow span volt. 1
NO. ID
FUNCTION
1
2
3
4
5
6
7
8
9
or FG to power input
Converted data range: 0 – 10000 of the input range
• Input range
COM1 Common 1
NC No connection
13
14
I1 Current range 1
NC No connection
Wide span voltage: -10 – +10 V DC, -5 – +5 V DC,
0 – 10 V DC, 0 – 5 V DC, 1 – 5 V DC
Narrow span voltage: -1 – +1 V DC, 0 – 1 V DC,
-0.5 – +0.5 V DC
VH2 Wide span volt. 2 15 VL2 Narrow span volt. 2
COM2 Common 2 16 I2 Current range 2
VH3 Wide span volt. 3 17 VL3 Narrow span volt. 3
COM3 Common 3 18 I3 Current range 3
Current range: -20 – +20 mA DC, 0 – 20 mA DC,
4 – 20 mA DC
• Input resistance
CIRCUIT DIAGRAM
Wide span voltage: ≥ 1 MΩ
Note: In order to improve EMC performance, bond the FG
Narrow span voltage: ≥ 100 kΩ
terminal to ground.
Current range: 70 Ω
Caution: FG terminal is NOT a protective conductor
terminal.
Conversion rate / conversion accuracy:
10 msec./±0.8 %, 20 msec./±0.4 %, 40 msec./±0.2 %,
80 msec./±0.1 %
Input Circuit
Input Circuit
Input Circuit
Input Circuit
INPUT 0
VH0
Response time: Conversion rate × 2 + 50 msec. (0 – 90 %)
Temperature coefficient: ±0.015 %/°C (±0.008 %/°F)
1
10
11
2
4
1
5
2
3
6
7
DA
VL0
I0
DB
Comm.
Circuit
DG
OPERATING MODE SETTING
(*) Factory setting
COM0
SLD
FG
INPUT 1
VH1
3
12
13
4
• Input Range (SW1-5, 1-6, 1-7, 1-8)
24V DC
0V
VL1
I1
SW1-5 SW1-6 SW1-7 SW1-8 Input range
OFF
ON
OFF
OFF
ON
OFF
OFF
OFF
OFF
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
-10 – +10 V DC (*)
-5 – +5 V DC
Control
Circuit
COM1
OFF
ON
-1 – +1 V DC
INPUT 2
VH2
6
15
16
7
ON
0 – 10 V DC
VL2
I2
OFF
ON
OFF
OFF
ON
0 – 5 V DC
ON
1 – 5 V DC
OFF
ON
ON
0 – 1V DC
COM2
ON
ON
-0.5 – +0.5 V DC
-20 – +20 mA DC
4 – 20 mA DC
0 – 20 mA DC
PC Configurator setting
INPUT 3
VH3
8
17
18
9
ON
OFF
ON
OFF
OFF
OFF
ON
OFF
ON
ON
VL3
I3
ON
ON
ON
ON
ON
COM3
• Conversion Rate / Accuracy (SW1-3, 1-4)
5
SW1-3 SW1-4 Conversion rate / Accuracy
14
OFF
ON
OFF 80 msec. / 0.1ꢀ ꢁ*)
OFF 40 msec. / 0.ꢂꢀ
■ Input Connection Examples
OFF
ON
ON
ON
ꢂ0 msec. / 0.4ꢀ
10 msec. / 0.8ꢀ
+
VHn
VLn
In
VHn
VLn
In
VHn
• Extension (SW1-1, 1-2)
+
+
–
VLn
In
WIDE SPAN
VOLTAGE
SW1-1 SW1-2 Extension
NARROW SPAN
VOLTAGE
CURRENT
RANGE
OFF
ON
OFF No extension (*)
OFF Discrete input, 8 or 16 points
ON Discrete output, 8 or 16 points
–
COMn
–
COMn
COMn
OFF
Be sure to close across VLn and In terminals for a current input.
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 21/39
http://www.m-system.co.jp/
MODEL: R7M
THERMOCOUPLE INPUT MODULE, 4 points
MODEL: R7M-TS4
OPERATING MODE SETTING
(*) Factory setting
• Thermocouple Type (SW1-5, 1-6, 1-7, 1-8)
SW1-5 SW1-6 SW1-7 SW1-8 Thermocouple type
OFF
ON
OFF
OFF
ON
OFF
OFF
OFF
OFF
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
K (CA) (*)
E (CRC)
SPECIFICATIONS
Isolation: Input 0 to input 1 to input 2 to input 3 to Modbus
OFF
ON
J (IC)
ON
T (CC)
or FG to power input
OFF
ON
OFF
OFF
ON
B (RH)
Converted data range: Engineering unit value (°C, K) × 10
(integer); No multiplication for °F
ON
R
OFF
ON
ON
S
Linearization: Standard
ON
ON
C (WRe 5-26)
Thermocouple: K, E, J, T, B, R, S, C, N, U, L, P, PR
Cold junction compensation: CJC sensor attached to the
input terminals
OFF
ON
OFF
OFF
ON
OFF
OFF
OFF
OFF
ON
N
ON
U
OFF
ON
ON
L
ON
ON
P (Platinel II)
(PR)
Input resistance: ≥ 30 kΩ
OFF
ON
OFF
ON
ON
Burnout: Upscale or downscale selectable with the DIP SW
Burnout sensing: ≤ 0.1 μA
ON
ON
PC Configurator setting
Conversion accuracy: ±1°C (±1.8°F);
±2.0°C (±3.6°F) for B, R, S, C, PR
Conversion rate: 250 msec. or 500 msec.
Response time: Conversion rate × 2 + 50 msec. (0 – 90 %)
Temperature coefficient: ±0.015 %/°C (±0.008 %/°F) of
max. span
• Conversion Rate (SW1-3)
SW1-3 Conversion rate
OFF 250 msec. (*)
ON
500 msec.
• Burnout (SW1-4)
SW1-4 Burnout
OFF Upscale (*)
CJC error: ±1.0°C at 25°C ±10°C
ON
Downscale
(±1.8°F at 77°F ±18°F)
• Extension (SW1-1, 1-2)
±1.5°C (±2.7°F) for R, S, PR
SW1-1 SW1-2 Extension
BURNOUT
T/C
CONFORMANCE
RANGE (°C)
OFF
ON
OFF No extension (*)
OFF Discrete input, 8 or 16 points
ON Discrete output, 8 or 16 points
INDICATION (°C)
Upscale
+1472
+1120
+1300
+ 500
1920
Downscale
-272
-272
-260
-272
24
OFF
K (CA)
-150 to +1370
-170 to +1000
-180 to +1200
-170 to + 400
1000 to 1760
380 to 1760
400 to 1760
100 to 2315
-130 to +1300
-200 to +600
-200 to +900
0 to 1395
E (CRC)
J (IC)
T (CC)
TERMINAL ASSIGNMENTS
B (RH)
R
-100
-100
-52
+1860
+1860
+2416
+1400
+ 700
+1000
+1496
+1860
10
11
12
13
14
NC
15
16
17
18
S
+IN0 –IN0 +IN1 –IN1
+IN2 –IN2 +IN3 –IN3
1
2
3
4
5
6
7
8
9
C (WRe 5-26)
+CJ0 –CJ0 +CJ1 –CJ1
NC
+CJ2 –CJ2 +CJ3 –CJ3
N
-272
-252
-252
-52
U
L
NO. ID
FUNCTION
+CJ0 CJC + 0
–CJ0 CJC – 0
NO. ID
FUNCTION
P (Platinel II)
(PR)
1
2
3
4
5
6
7
8
9
10 +IN0 T/C + 0
11 –IN0 T/C – 0
12 +IN1 T/C + 1
13 –IN1 T/C – 1
-52
300 to 1760
BURNOUT
INDICATION (°F)
+CJ1 CJC + 1
–CJ1 CJC – 1
NC No connection
+CJ2 CJC + 2
–CJ2 CJC – 2
+CJ3 CJC + 3
–CJ3 CJC – 3
CONFORMANCE
RANGE (°F)
T/C
Upscale
+2682
+2048
+2372
+932
Downscale
-458
-458
-436
-458
75
14
NC No connection
K (CA)
-238 to +2498
-274 to +1832
-292 to +2192
-274 to +752
1832 to 3200
716 to 3200
752 to 3200
212 to 4199
-202 to +2372
-328 to +1112
-328 to +1652
32 to 2543
15 +IN2 T/C + 2
16 –IN2 T/C – 2
17 +IN3 T/C + 3
18 –IN3 T/C – 3
E (CRC)
J (IC)
T (CC)
B (RH)
3488
R
-148
-148
-62
+3380
+3380
+4381
+2552
+1292
+1832
+2725
+3380
S
C (WRe 5-26)
N
-458
-422
-422
-62
U
L
P (Platinel II)
(PR)
-62
572 to 3200
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 22/39
http://www.m-system.co.jp/
MODEL: R7M
CIRCUIT DIAGRAM
Note: In order to improve EMC performance, bond the FG
terminal to ground.
Caution: FG terminal is NOT a protective conductor
terminal.
Input Circuit
Input Circuit
Input Circuit
Input Circuit
INPUT 0
+IN0
10
11
1
4
1
5
2
3
6
7
DA
–IN0
+CJ0
–CJ0
DB
Comm.
Circuit
DG
2
SLD
FG
INPUT 1
+IN1
12
13
3
24V DC
0V
–IN1
+CJ1
–CJ1
Control
Circuit
4
INPUT 2
+IN2
15
16
6
–IN2
+CJ2
–CJ2
7
INPUT 3
+IN3
17
18
8
–IN3
+CJ3
–CJ3
9
5
14
Input Connection Example
T/C
+
+INn
–INn
–
+CJn
–CJn
CJC
SENSOR
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 23/39
http://www.m-system.co.jp/
MODEL: R7M
RTD INPUT MODULE, 4 points
MODEL: R7M-RS4
OPERATING MODE SETTING
(*) Factory setting
• RTD Type (SW1-5, 1-6, 1-7, 1-8)
SW1-5 SW1-6 SW1-7 SW1-8
RTD Type
OFF
ON
OFF
OFF
ON
OFF
OFF
OFF
OFF
ON
OFF Pt 100 (JIS ’97, IEC) (*)
OFF Pt 100 (JIS ’89)
OFF JPt 100 (JIS ’89)
OFF Pt 50 Ω (JIS ’81)
OFF Ni 100
SPECIFICATIONS
Isolation: Input 0 to input 1 to input 2 to input 3 to Modbus
OFF
ON
ON
or FG to power input
OFF
ON
OFF
OFF
OFF
ON
Converted data range: Engineering unit value (°C, K) × 10
(integer); No multiplication for °F
ON
OFF Cu 10 @ 25°C
OFF
ON
OFF
ON
ON
ON
Cu 50
Linearization: Standard
PC Configurator setting
RTD: Pt 100 (JIS ’97, IEC), Pt 100 (JIS ’89), JPt 100 (JIS ’89),
Pt 50 Ω (JIS ’81), Ni 100, Cu 10, Cu 50
Sensing current: ≤ 1 mA
• Conversion Rate (SW1-3)
SW1-3 Conversion rate
OFF 250 msec. (*)
Input resistance: ≥ 1 MΩ
ON
500 msec.
Maximum leadwire resistance: 100 Ω per wire
Burnout: Upscale or downscale selectable with the DIP SW
Burnout indication: Maximum value (upscale burnout) or
minimum value (downscale burnout) of the usable range
Conversion accuracy: ±1°C (±1.8°F);
±3°C (±5.4°F) for Cu 10
• Burnout (SW1-4)
SW1-4 Burnout
OFF Upscale (*)
ON
Downscale
• Extension (SW1-1, 1-2)
SW1-1 SW1-2 Extension
Conversion rate: 250 msec. or 500 msec.
Response time: Conversion rate × 2 + 50 msec. (0 – 90 %)
Temperature coefficient: ±0.015 %/°C (±0.008 %/°F) of
max. span
OFF
ON
OFF No extension (*)
OFF Discrete input, 8 or 16 points
ON Discrete output, 8 or 16 points
OFF
BURNOUT INDICATION (°C) CONFORMANCE
RTD
Downscale
-240
-240
-236
-236
-100
Upscale
+900
+900
+560
+700
+252
+312
+200
RANGE (°C)
-200 to +850
-200 to +660
-200 to +510
-200 to +649
-80 to +250
-50 to +250
-50 to +150
TERMINAL ASSIGNMENTS
Pt 100 (JIS ’97, IEC)
Pt 100 (JIS ’89)
JPt 100 (JIS ’89)
Pt 50 Ω (JIS ’81)
Ni 100
10
11
12
13
14
NC
15
16
17
18
INA0 INb0 INA1 INb1
INA2 INb2 INA3 INb3
1
2
3
4
5
6
7
8
9
NC
INB0
NC
INB1
NC
NC
INB2
NC
INB3
Cu 10 @ 25°C
Cu 50
-212
NO. ID
FUNCTION
NO. ID
FUNCTION
-100
1
2
3
4
5
6
7
8
9
NC No connection
INB0 RTD 0-B
10 INA0 RTD 0-A
11 INb0 RTD 0-b
12 INA1 RTD 1-A
13 INb1 RTD 1-b
BURNOUT INDICATION (°F) CONFORMANCE
RTD
NC No connection
INB1 RTD 1-B
Downscale
-400
-400
-393
-393
-148
Upscale
+1652
+1652
+1040
+1292
+486
RANGE (°F)
-328 to +1562
-328 to +1220
-328 to +950
-328 to +1200
-112 to +482
-58 to +482
Pt 100 (JIS ’97, IEC)
Pt 100 (JIS ’89)
JPt 100 (JIS ’89)
Pt 50 Ω (JIS ’81)
Ni 100
NC No connection
NC No connection
INB2 RTD 2-B
14
NC No connection
15 INA2 RTD 2-A
16 INb2 RTD 2-b
17 INA3 RTD 3-A
18 INb3 RTD 3-b
NC No connection
INB3 RTD 3-B
Cu 10 @ 25°C
Cu 50
-350
-148
+594
+392
-58 to +302
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 24/39
http://www.m-system.co.jp/
MODEL: R7M
CIRCUIT DIAGRAM
Note: In order to improve EMC performance, bond the FG
terminal to ground.
Caution: FG terminal is NOT a protective conductor
terminal.
Input Circuit
Input Circuit
Input Circuit
Input Circuit
INPUT 0
INA0
10
2
4
1
5
2
3
6
7
DA
INB0
INb0
DB
Comm.
Circuit
11
DG
INPUT 1
INA1
SLD
FG
12
4
INB1
INb1
24V DC
0V
13
Control
Circuit
INPUT 2
INA2
15
7
INB2
INb2
16
INPUT 3
INA3
17
9
INB3
INb3
18
1
3
5
6
8
14
■ Input Connection Example
RTD
INAn
A
INBn
B
INbn
B
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 25/39
http://www.m-system.co.jp/
MODEL: R7M
POTENTIOMETER INPUT MODULE, 4 points
MODEL: R7M-MS4
CIRCUIT DIAGRAM
Note: In order to improve EMC performance, bond the FG
terminal to ground.
Caution: FG terminal is NOT a protective conductor
terminal.
SPECIFICATIONS
Isolation: Input 0 to input 1 to input 2 to input 3 to Modbus
Input Circuit
Input Circuit
Input Circuit
Input Circuit
INPUT 0
H0
10
11
2
4
1
5
2
3
6
7
Exc.
Exc.
Exc.
Exc.
DA
or FG to power input
S0
L0
DB
Converted data range: 0 – 10000 of the input range
Potentiometer: Total resistance 100 Ω – 20 kΩ
Minimum span: 50 % of total resistance
Excitation: Approx. 0.2 V DC
Comm.
Circuit
DG
INPUT 1
H1
SLD
FG
12
13
4
S1
L1
Conversion rate / conversion accuracy:
10 msec./±0.8 %, 20 msec./±0.4 %, 40 msec./±0.2 %,
80 msec./±0.1 %
24V DC
0V
Control
Circuit
INPUT 2
H2
15
16
7
Response time: Conversion rate × 2 + 50 msec. (0 – 90 %)
Temperature coefficient: ±0.015 %/°C (±0.008 %/°F)
S2
L2
INPUT 3
H3
17
18
9
OPERATING MODE SETTING
(*) Factory setting
S3
L3
Caution ! - SW1-5, 1-6, 1-7, 1-8 are unused. Be sure to turn
off unused ones.
1
3
• Conversion Rate / Accuracy (SW1-3, 1-4)
SW1-3 SW1-4 Conversion rate / Accuracy
5
OFF
ON
OFF 80 msec. / 0.1ꢀ ꢁ*)
6
OFF 40 msec. / 0.ꢂꢀ
8
OFF
ON
ON
ON
ꢂ0 msec. / 0.4ꢀ
10 msec. / 0.8ꢀ
14
• Extension (SW1-1, 1-2)
■ Input Connection Example
SW1-1 SW1-2 Extension
POTENTIOMETER
max.
OFF
ON
OFF No extension (*)
OFF Discrete input, 8 or 16 points
ON Discrete output, 8 or 16 points
+
Hn
Sn
Ln
3
2
1
OFF
–
min.
TERMINAL ASSIGNMENTS
10
H0
11
S0
12
H1
13
S1
14
NC
15
H2
16
S2
17
H3
18
S3
1
2
3
4
5
6
7
8
9
NC
L0
NC
L1
NC
NC
L2
NC
L3
NO. ID
FUNCTION
NO. ID
FUNCTION
1
2
3
4
5
6
7
8
9
NC No connection
L0 Pot L0
10
11
12
13
14
15
16
17
18
H0 Pot H0
S0 Pot S0
H1 Pot H1
S1 Pot S1
NC No connection
H2 Pot H2
S2 Pot S2
H3 Pot H3
S3 Pot S3
NC No connection
L1 Pot L1
NC No connection
NC No connection
L2 Pot L2
NC No connection
L3 Pot L3
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 26/39
http://www.m-system.co.jp/
MODEL: R7M
• Extension (SW1-1, 1-2)
AC CURRENT INPUT MODULE, 4 points
(clamp-on current sensor CLSE use)
SW1-1 SW1-2 Extension
OFF
ON
OFF No extension (*)
OFF Discrete input, 8 or 16 points
ON Discrete output, 8 or 16 points
OFF
MODEL: R7M-CT4E
SPECIFICATIONS
Isolation: Input 0 to input 1 to input 2 to input 3 to Modbus
TERMINAL ASSIGNMENTS
10
K0
11
L0
12
K1
13
L1
14
NC
15
K2
16
L2
17
K3
18
L3
or FG to power input
Converted data range:
1
2
3
4
5
6
7
8
9
NC
NC
NC
NC
NC
NC
NC
NC
NC
Engineering unit value (A) × 100 (Integer)
(Engineering unit value (A) × 1000 (Integer) for CLSE-R5)
Input range (Optional)
NO. ID
FUNCTION
NO. ID
FUNCTION
1
2
3
4
5
6
7
8
9
NC No connection
NC No connection
NC No connection
NC No connection
NC No connection
NC No connection
NC No connection
NC No connection
NC No connection
10
11
12
13
14
15
16
17
18
K0 AC current K0
L0 AC current L0
K1 AC current K1
L1 AC current L1
NC No connection
K2 AC current K2
L2 AC current L2
K3 AC current K3
L3 AC current L3
CLSE-R5: 0 – 5 A AC
CLSE-05: 0 – 50 A AC
CLSE-10: 0 – 100 A AC
CLSE-20: 0 – 200 A AC
CLSE-40: 0 – 400 A AC
CLSE-60: 0 – 600 A AC
Frequency: 50/60 Hz
Overload capacity: 120 % continuous
Operational range: 5 – 115 % of rating (Operational range
for the CLSE-60 is limited up to approx. 109 % (65535).)
(Note: Use for the circuit not exceed 480 V)
Conversion rate / conversion accuracy:
10 msec./±2.0 %, 20 msec./±1.0 %, 40 msec./±0.5 %,
80 msec./±0.5 %
CIRCUIT DIAGRAM
Note: In order to improve EMC performance, bond the FG
terminal to ground.
Caution: FG terminal is NOT a protective conductor
terminal.
(The conversion accuracy does not include the accuracy of
the sensor.)
Input Circuit
INPUT 0
Response time: ≤ 1.0 sec. (0 – 90 %)
Temperature coefficient: ±0.015 %/°C (±0.008 %/°F)
10
4
1
5
2
3
6
7
K0
DA
11
L0
DB
Comm.
Circuit
Input Circuit
Input Circuit
Input Circuit
INPUT 1
K1
DG
12
13
SLD
FG
OPERATING MODE SETTING
(*) Factory setting
L1
Control
Circuit
INPUT 2
K2
15
16
24V DC
0V
• Input Range (SW1-5, 1-6, 1-7, 1-8)
L2
SW1-5 SW1-6 SW1-7 SW1-8 Input range
INPUT 3
K3
17
18
1
OFF
ON
OFF
OFF
ON
OFF
OFF
OFF
OFF
ON
OFF CLSE-60 (*)
OFF CLSE-40
OFF CLSE-20
OFF CLSE-10
OFF CLSE-05
OFF CLSE-R5
L3
OFF
ON
2
ON
3
OFF
ON
OFF
OFF
ON
4
ON
ON
ON
ON
PC Configurator setting
5
6
• Conversion Rate / Accuracy (SW1-3, 1-4)
7
SW1-3 SW1-4 Conversion rate / Accuracy
8
OFF
ON
OFF 80 msec. / 0.ꢀ5 ꢁ*)
9
OFF 40 msec. / 0.ꢀ5
14
OFF
ON
ON
ON
20 msec. / 1.05
10 msec. / 2.05
Input Connection Example
SOURCE
k
Kn
CLAMP-ON SENSOR
Ln
l
LOAD
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 27/39
http://www.m-system.co.jp/
MODEL: R7M
TOTALIZED PULSE INPUT MODULE, 8 points
TERMINAL ASSIGNMENTS
(115.2 kbps)
10
11
12
13
14
15
16
17
18
V+ PI0 PI1 PI2 PI3 PI4 PI5 PI6 PI7
1
2
3
4
5
6
7
8
9
V- C0
C1
C2
C3
C4
C5
C6
C7
MODEL: R7M-PA8
NO.
ID
FUNCTION
NO. ID
FUNCTION
SPECIFICATIONS
1
2
3
4
5
6
7
8
9
V –
C0
C1
C2
C3
C4
C5
C6
C7
Power (–)
Common
Common
Common
Common
Common
Common
Common
Common
10
11
12
13
14
15
16
17
18
V +
PI0
PI1
PI2
PI3
PI4
PI5
PI6
PI7
Power (+)
Input 0
Input 1
Input 2
Input 3
Input 4
Input 5
Input 6
Input 7
Common: Positive or negative common (NPN/PNP) per
8 points
Number of I/O: Input, 8 points
Pulse Input status indicator: LED turns ON with contact ON
Isolation: Input to Modbus or FG to power input
■ External excitation (PNP, NPN input)
Sensing voltage: 24 V DC ±10 %; ripple 5 %p-p max
ON voltage / ON current: ≥ 16 V DC (input terminal - Cx) /
≤ 3.7 mA
OFF voltage / OFF current: ≤ 5 V DC (input terminal - Cx) /
≤ 1 mA
SIMULTANEOUS USE OF DISCRETE INPUT
In the firmware version V1.00 or later, the module can be
simultaneously used as totalized pulse input and discrete
input.
Voltage pulse input
ON voltage / ON current: ≥ 16 V DC (input terminal - Cx) /
≤ 3.7 mA
OFF voltage / OFF current: ≤ 5 V DC (input terminal - Cx) /
≤ 1 mA
Input current: ≤ 5.5 mA per point at 24 V DC
Input resistance: Approx. 4.4 kΩ
ON delay: ≤ 2.0 msec.
OFF delay: ≤ 2.0 msec.
Max. Frequency: 100 Hz (This unit is designed to be able to
accept a frequency up to 100 Hz, however,‘chattering’
contact must be avoided for accurate measuring of such
high frequency. Use relays that do not cause any
chattering.)
Minimum ON/OFF pulse requirements: 5 ms
Accumulated pulse count: 0 - 4 294 967 295
Max. accumulated pulse count: 1 000 - 4 294 967 295
(Factory default: 9 999 999)
Overflow: 0 or 1 (Factory default: 0)
OPERATING MODE SETTING
(*) Factory setting
Caution ! - SW1-3 through 1-8 are unused. Be sure to turn
off unused ones.
• Extension (SW1-1, 1-2)
SW1-1 SW1-2 Extension
OFF
ON
OFF No extension (*)
OFF Discrete input, 8 or 16 points
OFF
ON
Discrete output, 8 or 16 points
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 28/39
http://www.m-system.co.jp/
MODEL: R7M
CIRCUIT DIAGRAM
Caution: FG terminal is NOT a protective conductor
terminal.
Input Circuit
4
1
5
2
3
6
7
10
1
V+
V–
DA
DB
Comm.
Circuit
11
12
13
14
15
16
17
18
2
PI0
PI1
PI2
PI3
PI4
PI5
PI6
PI7
C0
C1
C2
C3
C4
C5
C6
C7
DG
SLD
FG
24V DC
0V
Control
Circuit
3
4
5
6
7
8
9
■ Input Circuit
10
1
V+
V–
11
2
PI0
C0
Control
Circuit
18
9
PI7
C7
■ Input Connection Examples
PNP connection
NPN connection
Voltage Pulse Input
+
−
−
+
10
1
10
1
10
1
V+
V–
V+
V–
V+
Connected
V–
11
2
11
2
11
2
PI0
C0
PI0
C0
+
–
PI0
C0
18
9
18
9
18
9
PI7
C7
PI7
C7
+
–
PI7
C7
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 29/39
http://www.m-system.co.jp/
MODEL: R7M
DC VOLTAGE OUTPUT MODULE, 2 points
MODEL: R7M-YV2
TERMINAL ASSIGNMENTS
6
7
8
9
10
VL1
NC
VH0
VL0
VH1
1
2
3
4
5
NC
COM0 COM0 COM1 COM1
SPECIFICATIONS
Isolation: Output 0 to output 1 to Modbus or FG to power
NO. ID
FUNCTION
NO. ID
FUNCTION
1
2
3
4
5
NC No connection
COM0 Common 0
COM0 Common 0
COM1 Common 1
COM1 Common 1
6
7
8
9
NC No connection
input
VH0 Wide span volt. 0
VL0 Narrow span volt. 0
VH1 Wide span volt. 1
Converted data range: 0 – 10000 of the output range
Output range
10 VL1 Narrow span volt. 1
Wide span voltage: -10 – +10 V DC, -5 – +5 V DC,
0 – 10 V DC, 0 – 5 V DC, 1 – 5 V DC
Narrow span voltage: -1 – +1 V DC, 0 – 1 V DC,
-0.5 – +0.5 V DC
CIRCUIT DIAGRAM
Note: In order to improve EMC performance, bond the FG
Operational range: -15 – +115 % of the output range
(except -10 – +10 V DC);
terminal to ground.
Caution: FG terminal is NOT a protective conductor
terminal.
approx. -11.5 – +11.5 V DC (-10 – +10 V DC)
Load resistance: ≥ 100 kΩ
Conversion accuracy: ±0.1 %
Output Circuit
OUTPUT 0
VH0
Response time: 250 msec. (0 – 90 %)
Temperature coefficient: ±0.015 %/°C (±0.008 %/°F)
4
1
5
2
3
6
7
7
8
2
3
DA
DB
VL0
Comm.
Circuit
DG
COM0
COM0
OPERATING MODE SETTING
(*) Factory setting
SLD
FG
Control
Circuit
Output Circuit
OUTPUT 1
VH1
9
10
4
Caution ! - SW1-3 is unused. Be sure to turn off unused
ones.
24V DC
0V
VL1
COM1
COM1
• Output Range (SW1-5, 1-6, 1-7, 1-8)
SW1-5 SW1-6 SW1-7 SW1-8 Output range
5
OFF
ON
OFF
OFF
ON
OFF
OFF
OFF
OFF
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
-10 – +10 V DC (*)
-5 – +5 V DC
1
6
OFF
ON
-1 – +1 V DC
ON
0 – 10 V DC
OFF
ON
OFF
OFF
ON
0 – 5 V DC
ON
1 – 5 V DC
OFF
ON
ON
0 – 1 V DC
ON
ON
-0.5 – +0.5 V DC
PC Configurator setting
■ Output Connection Examples
ON
ON
ON
+
–
VHn
VLn
VHn
• Output at the Loss of Communication (SW1-4)
SW1-4 Output at the loss of communication
WIDE SPAN
VOLTAGE
+
VLn
NARROW SPAN
VOLTAGE
OFF Reset the output (to -15% or approx. -11.5V DC)
COMn
COMn
–
ON
Hold the output (*)
(maintains the last data received normally)
• Extension (SW1-1, 1-2)
SW1-1 SW1-2 Extension
OFF
ON
OFF No extension (*)
OFF Discrete input, 8 or 16 points
ON Discrete output, 8 or 16 points
OFF
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 30/39
http://www.m-system.co.jp/
MODEL: R7M
DC CURRENT OUTPUT MODULE, 2 points
MODEL: R7M-YS2
CIRCUIT DIAGRAM
Note: In order to improve EMC performance, bond the FG
terminal to ground.
Caution: FG terminal is NOT a protective conductor
terminal.
SPECIFICATIONS
Isolation: Output 0 to output 1 to Modbus or FG to power
Output Circuit
OUTPUT 0
I0
input
4
1
5
2
3
6
7
7
2
DA
DB
Converted data range: 0 – 10000 of the output range
Output range: 4 – 20 mA DC
COM0
Control
Circuit
Output Circuit
Comm.
Circuit
OUTPUT 1
I1
DG
9
4
Load resistance: ≤ 600Ω
SLD
FG
Conversion accuracy: ±0.1 %
COM1
Response time: 250 msec. (0 – 90 %)
Temperature coefficient: ±0.015 %/°C (±0.008 %/°F)
1
24V DC
0V
3
5
OPERATING MODE SETTING
(*) Factory setting
6
8
Caution ! - SW1-3, 1-5 through 1-8 are unused. Be sure to
turn off unused ones.
10
• Output at the Loss of Communication (SW1-4)
SW1-4 Output at the loss of communication
OFF Reset the output (to -15%)
ON
Hold the output (*)
(maintains the last data received normally)
• Extension (SW1-1, 1-2)
SW1-1 SW1-2 Extension
OFF
ON
OFF No extension (*)
OFF Discrete input, 8 or 16 points
ON Discrete output, 8 or 16 points
OFF
TERMINAL ASSIGNMENTS
6
7
8
9
10
NC
NC
I0
NC
I1
1
2
3
4
5
NC
COM0
NC
COM1
NC
NO. ID
FUNCTION
NO. ID
FUNCTION
1
2
3
4
5
NC No connection
COM0 Common 0
NC No connection
COM1 Common 1
NC No connection
6
7
NC No connection
I0 Current 0
8
NC No connection
I1 Current 1
9
10
NC No connection
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 31/39
http://www.m-system.co.jp/
MODEL: R7M
DISCRETE INPUT EXTENSION MODULE, 8 points
CIRCUIT DIAGRAM
MODEL: R7M-EA8
Input Circuit
1
2
3
4
5
7
8
9
10
6
COM
X0
SPECIFICATIONS
Common: Positive or negative common (NPN/PNP) per
X2
8 points
X4
Number of I/O: Input, 8 points
X6
Control
Circuit
Maximum inputs applicable at once: No limit (at 24 V DC)
Input status indicator: LED turns ON with contact ON
Isolation: Input to internal circuits
X1
X3
Rated input voltage: 24 V DC ±10 %; ripple 5 %p-p max.
ON voltage / current: ≥ 15 V DC (input – COM) / ≥ 3.5 mA
OFF voltage / current: ≤ 5 V DC (input – COM) / ≤ 1 mA
Input current: ≤ 5.5 mA per point at 24 V DC
Input resistance: Approx. 4.4 kΩ
X5
X7
ON delay: ≤ 2.0 msec.
OFF delay: ≤ 2.0 msec.
■ Input Circuit
1
2
COM
X0
TERMINAL ASSIGNMENTS
6
7
8
9
10
X7
NC
X1
X3
X5
1
2
3
4
5
Control
Circuit
COM
X0
X2
X4
X6
NO. ID
FUNCTION
COM Common
X0 Input 0
NO. ID
FUNCTION
1
2
3
4
5
6
7
NC No Connection
X1 Input 1
10
X7
X2 Input 2
X4 Input 4
X6 Input 6
8
X3 Input 3
9
X5 Input 5
10
X7 Input 7
■ Input Connection Examples
PNP Connection
NPN Connection
+
–
– +
1
2
1
2
COM
X0
COM
X0
10
10
X7
X7
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 32/39
http://www.m-system.co.jp/
MODEL: R7M
DISCRETE INPUT EXTENSION MODULE, 16 points
CIRCUIT DIAGRAM
Input Circuit
MODEL: R7M-EA16
1
2
COM
X0
X2
X4
X6
X8
XA
XC
XE
X1
X3
X5
X7
X9
XB
XD
XF
SPECIFICATIONS
Common: Positive or negative common (NPN/PNP) per
3
4
16 points
5
Number of I/O: Input, 16 points
Maximum inputs applicable at once: No limit (at 24 V DC)
Input status indicator: LED turns ON with contact ON
Isolation: Input to internal circuits
6
7
8
Control
Circuit
Rated input voltage: 24 V DC ±10 %; ripple 5 %p-p max.
ON voltage / current: ≥ 15 V DC (input – COM) / ≥ 3.5 mA
OFF voltage / current: ≤ 5 V DC (input – COM) / ≤ 1 mA
Input current: ≤ 5.5 mA per point at 24 V DC
Input resistance: Approx. 4.4 kΩ
9
11
12
13
14
15
16
17
18
10
ON delay: ≤ 2.0 msec.
OFF delay: ≤ 2.0 msec.
TERMINAL ASSIGNMENTS
10
NC
11
X1
12
X3
13
X5
14
X7
15
X9
16
XB
17
XD
18
XF
1
2
3
4
5
6
7
8
9
COM
X0
X2
X4
X6
X8
XA
XC
XE
NO. ID
FUNCTION
NO. ID
FUNCTION
■ Input Circuit
1
2
3
4
5
6
7
8
9
COM Common
X0 Input 0
X2 Input 2
X4 Input 4
X6 Input 6
X8 Input 8
XA Input 10
XC Input 12
XE Input 14
10
11
12
13
14
15
16
17
18
NC No Connection
X1 Input 1
X3 Input 3
1
2
COM
X0
X5 Input 5
X7 Input 7
X9 Input 9
Control
Circuit
XB Input 11
XD Input 13
XF Input 15
18
XF
■ Input Connection Examples
PNP Connection
NPN Connection
+
–
– +
1
2
1
2
COM
X0
COM
X0
18
18
XF
XF
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 33/39
http://www.m-system.co.jp/
MODEL: R7M
NPN TRANSISTOR OUTPUT EXTENSION MODULE, 8 points
CIRCUIT DIAGRAM
Output Circuit
MODEL: R7M-EC8A
6
2
3
4
5
7
8
9
10
1
+24V
Y0
Y2
Y4
Y6
Y1
Y3
Y5
Y7
0V
SPECIFICATIONS
Common: Negative common (NPN) per 8 points
Number of I/O: Output, 8 points
Maximum outputs applicable at once: No limit (at 24 V DC)
Output status indicator: LED turns ON with contact ON
Isolation: Output to internal circuits
Rated load voltage: 24 V DC ±10 %
Rated output current: 0.25 A per point, 2.0 A per common
Residual voltage: ≤ 1.2 V
Control
Circuit
Leakage current: ≤ 0.1 mA
ON delay: ≤ 0.5 msec.
OFF delay: ≤ 1.5 msec.
(When driving an inductive load, connect a diode in parallel
with the load.)
■ Output Circuit
6
2
+24V
Y0
TERMINAL ASSIGNMENTS
6
7
8
9
10
Y7
+24 V
Y1
Y3
Y5
1
2
3
4
5
0 V
Y0
Y2
Y4
Y6
Control
Circuit
10
Y7
NO. ID
FUNCTION
NO. ID
FUNCTION
+24 V 24 V DC
Y1 Output 1
1
2
3
4
5
0 V 0 V (common)
Y0 Output 0
Y2 Output 2
Y4 Output 4
Y6 Output 6
6
7
8
Y3 Output 3
Y5 Output 5
Y7 Output 7
9
10
1
0V
■ Output Connection Example
6
1
2
+24V
0V
–
+
Y0
10
Y7
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 34/39
http://www.m-system.co.jp/
MODEL: R7M
NPN TRANSISTOR OUTPUT EXTENSION MODULE, 16 points
CIRCUIT DIAGRAM
Output Circuit
MODEL: R7M-EC16A
10
2
+24V
Y0
Y2
Y4
Y6
Y8
YA
YC
YE
Y1
Y3
Y5
Y7
Y9
YB
YD
YF
0V
SPECIFICATIONS
Common: Negative common (NPN) per 16 points
3
4
Number of I/O: Output, 16 points
5
Maximum outputs applicable at once: No limit (at 24 V DC)
Output status indicator: LED turns ON with contact ON
Isolation: Output to internal circuits
Rated load voltage: 24 V DC ±10 %
Rated output current: 0.25 A per point, 2.0 A per common
Residual voltage: ≤ 1.2 V
6
7
8
Control
Circuit
9
Leakage current: ≤ 0.1 mA
11
12
13
14
15
16
17
18
1
ON delay: ≤ 0.5 msec.
OFF delay: ≤ 1.5 msec.
(When driving an inductive load, connect a diode in parallel
with the load.)
TERMINAL ASSIGNMENTS
10
11
Y1
12
Y3
13
Y5
14
Y7
15
Y9
16
YB
17
YD
18
YF
+24V
1
2
3
4
5
6
7
8
9
0V
Y0
Y2
Y4
Y6
Y8
YA
YC
YE
NO. ID
FUNCTION
NO. ID
FUNCTION
■ Output Circuit
1
2
3
4
5
6
7
8
9
0 V 0 V (common)
Y0 Output 0
Y2 Output 2
Y4 Output 4
Y6 Output 6
Y8 Output 8
YA Output 10
YC Output 12
YE Output 14
10 +24 V 24 V DC
11
12
13
14
15
16
17
18
Y1 Output 1
Y3 Output 3
Y5 Output 5
Y7 Output 7
Y9 Output 9
YB Output 11
YD Output 13
YF Output 15
10
+24V
Y0
2
Control
Circuit
18
YF
1
0V
■ Output Connection Example
10
1
+24V
0V
–
+
2
Y0
18
YF
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 35/39
http://www.m-system.co.jp/
MODEL: R7M
PNP TRANSISTOR OUTPUT EXTENSION MODULE, 8 points
CIRCUIT DIAGRAM
Output Circuit
MODEL: R7M-EC8B
6
2
3
4
5
7
8
9
10
1
+24V
Y0
Y2
Y4
Y6
Y1
Y3
Y5
Y7
0V
SPECIFICATIONS
Common: Positive common (PNP) per 8 points
Number of I/O: Output, 8 points
Maximum outputs applicable at once: No limit (at 24 V DC)
Output status indicator: LED turns ON with contact ON
Isolation: Output to internal circuits
Rated load voltage: 24 V DC ±10 %
Rated output current: 0.25 A per point, 2.0 A per common
Residual voltage: ≤ 1.2 V
Control
Circuit
Leakage current: ≤ 0.1 mA
ON delay: ≤ 0.5 msec.
OFF delay: ≤ 1.5 msec.
(When driving an inductive load, connect a diode in parallel
with the load.)
■ Output Circuit
6
2
+24V
Y0
TERMINAL ASSIGNMENTS
6
7
8
9
10
Y7
+24 V
Y1
Y3
Y5
1
2
3
4
5
0 V
Y0
Y2
Y4
Y6
Control
Circuit
NO. ID
FUNCTION
NO. ID
FUNCTION
10
Y7
0V
1
2
3
4
5
0 V 0 V
6
7
+24 V 24 V DC (common)
Y1 Output 1
Y0 Output 0
Y2 Output 2
Y4 Output 4
Y6 Output 6
8
Y3 Output 3
9
Y5 Output 5
10
Y7 Output 7
1
■ Output Connection Example
+
–
6
1
2
+24V
0V
Y0
10
Y7
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 36/39
http://www.m-system.co.jp/
MODEL: R7M
PNP TRANSISTOR OUTPUT EXTENSION MODULE, 16 points
CIRCUIT DIAGRAM
Output Circuit
MODEL: R7M-EC16B
10
2
+24V
Y0
Y2
Y4
Y6
Y8
YA
YC
YE
Y1
Y3
Y5
Y7
Y9
YB
YD
YF
0V
SPECIFICATIONS
Common: Positive common (PNP) per 16 points
3
4
Number of I/O: Output, 16 points
Maximum outputs applicable at once: No limit (at 24 V DC)
Output status indicator: LED turns ON with contact ON
Isolation: Output to internal circuits
Rated load voltage: 24 V DC ±10 %
Rated output current: 0.25 A per point, 2.0 A per common
Residual voltage: ≤ 1.2 V
5
6
7
8
Control
Circuit
9
Leakage current: ≤ 0.1 mA
11
12
13
14
15
16
17
18
1
ON delay: ≤ 0.5 msec.
OFF delay: ≤ 1.5 msec.
(When driving an inductive load, connect a diode in parallel
with the load.)
TERMINAL ASSIGNMENTS
10
11
Y1
12
Y3
13
Y5
14
Y7
15
Y9
16
YB
17
YD
18
YF
+24V
1
2
3
4
5
6
7
8
9
0V
Y0
Y2
Y4
Y6
Y8
YA
YC
YE
NO. ID
FUNCTION
NO. ID
FUNCTION
1
2
3
4
5
6
7
8
9
0 V 0 V
10 +24 V 24 V DC (common)
■ Output Circuit
Y0 Output 0
Y2 Output 2
Y4 Output 4
Y6 Output 6
Y8 Output 8
YA Output 10
YC Output 12
YE Output 14
11
12
13
14
15
16
17
18
Y1 Output 1
Y3 Output 3
Y5 Output 5
Y7 Output 7
Y9 Output 9
YB Output 11
YD Output 13
YF Output 15
10
+24V
Y0
2
18
1
Control
Circuit
YF
0V
■ Output Connection Example
+
–
10
1
+24V
0V
2
Y0
18
YF
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 37/39
http://www.m-system.co.jp/
MODEL: R7M
RELAY CONTACT OUTPUT EXTENSION MODULE
CIRCUIT DIAGRAM
MODEL: R7M-EC8C
Ry
11
12
13
14
2
Y0
Ry
Ry
Ry
Y1
SPECIFICATIONS
Y2
Common: 1 common per 4 points (4 terminals)
Common current: Max. 8 A (4 terminals)
Number of I/O: Relay contact output, 8 points
Maximum outputs applicable at once: No limit (at 24 V DC)
Output status indicator: LED turns ON with contact ON
Isolation: Output to internal circuits
Y3
COM0
COM0
COM0
COM0
Y4
3
4
Relay driving power: 24 V DC ±10 %, ≥ 60 mA
Rated load: 250 V AC @ 2 A (cos φ = 1)
30 V DC @ 2 A (resistive load)
5
Control
Circuit
Ry
Ry
Ry
Ry
15
16
17
18
6
Y5
Maximum switching voltage: 250 V AC or 30 V DC
Maximum switching power: 500 VA or 60 W
Minimum load: 24 V DC @5 mA
Y6
Y7
Mechanical life: 2 × 10 cycles (rate 300/min.)
7
COM1
COM1
COM1
COM1
0V
When driving an inductive load, external contact protection
and noise quenching are recommended.
ON delay: ≤ 10 msec.
7
8
OFF delay: ≤ 10 msec.
9
1
TERMINAL ASSIGNMENTS
10 +24V
10
+24 V
11
Y0
12
Y1
13
Y2
14
Y3
15
Y4
16
Y5
17
Y6
18
Y7
1
2
3
4
5
6
7
8
9
0 V COM0 COM0 COM0 COM0 COM1 COM1 COM1 COM1
■ Output Connection Example
4 points / common
8 points / common
NO. ID
FUNCTION
0 V 0 V
COM0 Common 0
NO. ID
FUNCTION
24 V DC
–
24 V DC
–
+
1
2
3
4
5
6
7
8
9
10 +24 V 24 V DC
+
+
10
1
10
1
24V
0V
24V
11
12
13
14
15
16
17
18
Y0 Output 0
Y1 Output 1
Y2 Output 2
Y3 Output 3
Y4 Output 4
Y5 Output 5
Y6 Output 6
Y7 Output 7
COM0 Common 0
COM0 Common 0
COM0 Common 0
COM1 Common 1
COM1 Common 1
COM1 Common 1
COM1 Common 1
0V
11
11
Y0
Y0
Y3 14
Y3 14
Y4 15
Y7 18
2
5
COM0
COM0
–
+
+
–
2
5
6
9
COM0
COM0
COM1
COM1
15
Y4
–
+
+
–
Y7 18
6
9
COM1
COM1
–
+
+
–
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 38/39
http://www.m-system.co.jp/
MODEL: R7M
Specifications are subject to change without notice.
R7M SPECIFICATIONS
ES-7803 Rev.26 Page 39/39
http://www.m-system.co.jp/
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