MODEL: RC Remote I/O R Series CC-Link I/O MODULE (CE not available. Option /UL Not selectable) MS: Potentiometer input, points (Option /UL Not selectable) CTE: AC current input, points, Clamp-on current sensor CLSE use (Option /UL Not selectable) PA: Totalized pulse input, points, (CE not available, option /UL Not selectable) (Terminating resistor incorporated) YV: DC voltage output, points YS: DC current output, points ORDERING INORMATI Basic module: RC-[]-[][] Specify a code from below for each [] through []. (e.g. RC-DCA-R/Q) Specify the specification for option code /Q (e.g. /C) If you need factory setting, use Ordering Information Sheet (No. ESU--x). Extension module: RC-[][] Specify a code from below for each [] and []. (e.g. RC-ECA/Q) Specify the specification for option code /Q (e.g. /C) BASIC MODULE: RC [] [][] [] I/O TYPE DA: Discrete input, points DCA: NPN transistor output, points (Not usable with RC-EA or RC-EA) DCB: PNP transistor output, points (Not usable with RC-EA or RC-EA) DCC: Relay contact output, points (Option /UL Not selectable) (Not usable with extension modules) DCE: Relay contact output, points (CE not available. Option /UL Not selectable) (Not usable with RC-EA or RC-EA) (Terminating resistor incorporated) RR: Remote control relay control, points (CE not available. Option /UL Not selectable) (Not usable with extension modules) (Terminating resistor incorporated) SV: DC voltage/current input ( V/ ma), points TS: Thermocouple input, points RS: RTD input, points RTA: Thermistor input, points [] POWER INPUT DC Power R: V DC (Operational voltage range V ± %, ripple %p-p max.) Universal AR: V AC/ V DC (Only for RC-RR and PA) (Operational voltage range: V ± %; ripple %p-p max.) [] OPTIS Standards & Approvals blank: CE marking /UL: UL approval, CE marking Other Options blank: none /Q: Option other than the above (specify the specification) (UL not available) EXTENSI MODULE: RC [][] [] I/O TYPE EA: Discrete input, points EA: Discrete input, points ECA: NPN transistor output, points ECA: NPN transistor output, points ECB: PNP transistor output, points ECB: PNP transistor output, points ECC: Relay contact output, points (CE not available. Option /UL Not selectable) [] OPTIS STANDARDS & APPROVALS blank: CE marking /UL: UL approval, CE marking Other Options blank: none /Q: Option other than the above (specify the specification) (UL not available) RC SPECIICATIS ES- Rev. Page /
MODEL: RC SPECIICATIS O OPTI: Q COATING (or the detail, refer to M-System's web site.) /C: Silicone coating /C: Polyurethane coating /C: Rubber coating UTIS & EATURES The RC interfaces analog and discrete I/O signals with a PLC via CC-Link. A basic module can be attached with an extension module. (Exceptions: refer to the I/O type specifications) By combining two modules, single station can handle mixed analog and discrete signals, -point discrete inputs, - point discrete outputs, -point discrete I/Os and other combinations of signals. Only the combination of basic discrete output and extension discrete input modules is not available. 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: RC) RELATED PRODUCTS PC configurator software (model: RC) 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) or RC-CTE, the clamp-on current sensors must be ordered separately. Required number depends upon the channel number. PACKAGE ILUDES... Terminating resistor ( Ω,. W) (Not provided for models terminating resistor incorporated) GENERAL SPECIICATIS Common Specifications Power input: V AC ± % ( / Hz) V DC ± %; ripple %p-p max. Insulation resistance: MΩ with V DC Dielectric strength: V AC @ minute (between isolated circuits) Operating temperature: - to + C ( to ) Operating humidity: to %RH (non-condensing) Atmosphere: No corrosive gas or heavy dust Storage temperature: - to + C (- to + ) Mounting: DIN rail ( mm wide) Connection: M separable screw terminals (torque. N m) Screw terminal material: Nickel-plated steel Solderless terminal: Refer to the drawing at the end of the section. Recommended manufacturer: Japan Solderless Terminal M.Co.Ltd, Nichifu Co.,ltd Applicable wire size:. to. mm (AWG to ) Housing material: lame-resistant resin (gray) Status indicator LED: PWR (Refer to the instruction manual for details) DC Power Current Consumption & Weight RC-DA: Approx. ma, g (. lb) RC-DCA: Approx. ma, g (. lb) RC-DCB: Approx. ma, g (. lb) RC-DCC: Approx. ma (approx. ma), g (. lb) RC-DCE: Approx. ma (approx. ma), g (. lb) RC-RR: Approx. ma, g (. lb) RC-SV: Approx. ma, g (. lb) RC-TS: Approx. ma, g (. lb) RC-RS: Approx. ma, g (. lb) RC-RTA: Approx. ma, g (. lb) RC-MS: Approx. ma, g (. lb) RC-CTE: Approx. ma, g (. lb) RC-PA: Approx. ma, g (. lb) RC-YV: Approx. ma, g (. lb) RC-YS: Approx. ma, g (. lb) RC-EA: Approx. ma, g (. lb) RC-EA: Approx. ma, g (. lb) RC-ECA: Approx. ma, g (. lb) RC-ECA: Approx. ma, g (. lb) RC-ECB: Approx. ma, g (. lb) RC-ECB: Approx. ma, g (. lb) RC-ECC: Approx. ma, g (. lb) The consumed current of supply power for the output is shown in (). AC Power Current Consumption RC-RR: Approx. ma RC-PA: Approx. ma Station Type RC-DA: Remote I/O RC-DCA: Remote I/O RC-DCB: Remote I/O RC-DCC: Remote I/O RC-DCE: Remote I/O RC-RR: Remote I/O RC-SV: Remote device RC-TS: Remote device RC-RS: Remote device RC-RTA: Remote device RC SPECIICATIS ES- Rev. Page /
MODEL: RC RC-MS: Remote device RC-CTE: Remote device RC-PA: Remote device RC-YV: Remote device RC-YS: Remote device Recommended solderless terminal. (.) max (.) max mm (inch) CC-Link COMMUNICATI CC-Link: Ver.. Network cable: CC-Link cable designated by Mitsubishi Electric Station address setting: - (rotary switch, default:) Baud rate setting: kbps (default), kbps,. Mbps, Mbps, Mbps (rotary switch) Status indicator LEDs: RUN, ERR, SD, RD STANDARDS & APPROVALS EU conformity: EMC Directive EMI EN -- EMS EN -- Low Voltage Directive (Only RC-DCC conforms to it. Refer to the instruction manual for the detailed information.) EN -, EN -- Measurement Category II (output) Pollution Degree Output to power: Basic insulation ( V) RoHS Directive EN Approval: UL/C-UL nonincendive Class I, Division, Groups A, B, C, and D (ANSI/ISA-.., CAN/CSA-C. No.) UL/C-UL general safety requirements (UL -, CAN/CSA-C. No.-) RC SPECIICATIS ES- Rev. Page /
MODEL: RC EXTERNAL VIEW BASIC MODULE SIDE VIEW RT VIEW Station Address Setting Rotary SW Status Indicator LED * Baud Rate Setting Rotary SW Operating Mode Setting DIP SW (SW) PC Configurator Jack * Discrete I/O Status Indicator LED * TERM X X PWR ERR RD RUN SD STATI ADD. B.RATE A B C D E CN. Terminating Resistor SW * CC-Link, Power Supply Terminals I/O Terminals * *. Refer to Status Indicator LED section for detailed information. *. Not available with discrete I/O modules. *. Not available with analog I/O modules. *. screw terminals for analog output modules. *. Only for RC-DCE, RR and PA. EXTENSI MODULE DISCRETE, POINTS Discrete I/O Status Indicator LED I/O Terminals RC SPECIICATIS ES- Rev. Page /
MODEL: RC DISCRETE, POINTS Discrete I/O Status Indicator LED A B C D E I/O Terminals CNECTI DIAGRAMS POWER SUPPLY, CC-LINK TERMINAL ASSIGNMENT Except RC-RR and PA DA DG + V DB SLD V RC-RR and PA DA DG U (+) DB SLD V (-) NO. ID UTI, NOTES NO. ID UTI, NOTES DB SLD DA DG + V V White Shield Blue Yellow Power input ( V DC) Power input ( V DC) DB SLD DA DG U (+) V (-) White Shield Blue Yellow Power input Power input MASTER CNECTI Master Unit TERMINATOR DA DB DG SLD blue white yellow Remote Unit DA DB DG SLD Remote Unit TERMINATOR DA DB DG SLD Be sure to connect the terminating resistor included in the product package to the unit at both ends of transmission line. Or turn the terminating resistor SW for models with the resistor incorporated. The terminator must be connected across DA and DB. The Master Unit can be located other than at the extreme ends of transmission line. RC SPECIICATIS ES- Rev. Page /
INDICATOR LED STATUS INDICATOR LED PWR RUN ERR BL BL SD BL BL RD BL BL BL BL BL BL BL BL BL BL BL BL BL BL / =, =, BL = Blinking ---- = Inconceivable in normal operations (e.g. LED failure) STATUS Communicates normally with occasional CRC errors due to noise interference. Communicates normally but the Baud Rate and/or Station Address switches failed. ERR LED blinks approximately in. second intervals. ---- CRC error found in the received data. Unable to respond. ---- Normal communication ---- Unable to receive data addressed to the station. ---- Performs the interval-timed responses but CRC error found in receiving the refresh data. ---- CRC error found in the data addressed to the station. ---- Link is not started. ---- No data addressed to the station. Or unable to receive data addressed to the station due to noise interference. (Missing parts of the data sent from the master) Unable to receive data due to wire breakdown aulty Baud Rate and/or Station Address setting Power input removed. Or power supply failure. 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 : LED Contact : LED MODEL: RC DATA CVERSI % DATA CVERSI Analog input data is converted into digital representations of % proportional to each scaled range. The converted % values are multiplied by and expressed in bits. Overrange input is possible from - to +% of the nominal range. When the signal exceeds the limit, the data is fixed at -% or +% respectively. Negative value is represented in ʼs complements. Input Range V DC Input Value -. V V V. V Input % -% % % % Converted Data, Decimal - Converted Data, Hex A CEC (CEC) () -... (V) - (A) Analog output is converted in the reverse order of the input data. The output range V DC is expressed as at. V (%) and at V (%). RC SPECIICATIS ES- Rev. Page /
MODEL: RC ENGINEERING UNIT CVERSI Engineering unit value C or K is multiplied by and expressed in bits. data is represented in engineering unit value, without multiplication. Engineering unit value A is multiplied by or, expressed in bits. Negative value is represented in ʼs complements. Input TYPE K Thermocouple Input Value - C - C C C Converted Data, Decimal - - Converted Data, Hex A () () - - ( C) - (A) - () COUNT VALUE The count value is -bit data. It is divided in words of bits represented with addresses.the lower address is allocated in the lower word (LSB) and the upper address in the upper word (MSB). The count value is -. The maximum count value available is -. In case of overflow, the vaule is reset to or (configurable) from which the count will restart. The preset of the count value is also available. Use the RC or commands for the configuration. RC SPECIICATIS ES- Rev. Page /
MODEL: RC DATA ALLOCATI RC-DA Interval-timed Response (X) RX(n+) to RX(n+) (RC-DA) Refresh Data (Y) RC-DA + RC-EA Interval-timed Response (X) RX(n+) to RX(n+) (RC-DA) RX(n+) to RX(n+) (RC-EA) Refresh Data (Y) RC-DA + RC-ECx Interval-timed Response (X) RX(n+) to RX(n+) (RC-DA) Refresh Data (Y) RY(n+) to RY(n+) (RC-ECx) RC-DCx Interval-timed Response (X) Refresh Data (Y) RY(n+) to RY(n+) (RC-DCx) RC-DCx + RC-ECx Interval-timed Response (X) Refresh Data (Y) RY(n+) to RY(n+) (RC-DCx) RY(n+) to RY(n+) (RC-ECx) RC-DCx Interval-timed Response (X) Refresh Data (Y) RY(n+) to RY(n+) (RC-DCC) RC-DCE + RC-ECx Interval-timed Response (X) Refresh Data (Y) RY(n+) to RY(n+) (RC-DCE) RY(n+) to RY(n+) (RC-ECx) RC-RR Interval-timed Response (X) RX(n+) to RX(n+) (RC-RR) Refresh Data (Y) RY(n+) to RY(n+) (RC-RR) RC SPECIICATIS ES- Rev. Page /
MODEL: RC RC-PA Data allocation Interval timed Response (X) Refresh Data (Y) RX (n+) RX (n+) D RX (n+) : Command RY (n+) RY (n+) A RY (n+) : Command RX (n+) RY (n+) Interval-timed Response (X) Refresh Data (Y) RWr (n+) Input extension RWw (n+) Output extension RWr (n+) RWw (n+) RWr (n+) Count data (LSB) RWw (n+) Preset data (LSB) RWr (n+) Count data (MSB) RWw (n+) Preset data (MSB) Data allocation Interval-timed Response (X) Refresh Data (Y) RX (n+) RX (n+) D RX (n+) : Command RY (n+) RY (n+)a RY (n+) : Command RX (n+) Input extension RY (n+) Output extension Interval-timed Response (X) Refresh Data (Y) RWr (n+) ch Count data (LSB) RWw (n+) ch Preset data (LSB) RWr (n+) ch Count data (MSB) RWw (n+) ch Preset data (MSB) RWr (n+) ch Count data (LSB) RWw (n+) ch Preset data (LSB) RWr (n+) ch Count data (MSB) RWw (n+) ch Preset data (MSB) RWr (n+) ch Count data (LSB) RWw (n+) ch Preset data (LSB) RWr (n+) ch Count data (MSB) RWw (n+) ch Preset data (MSB) RWr (n+) ch Count data (LSB) RWw (n+) ch Preset data (LSB) RWr (n+) ch Count data (MSB) RWw (n+) ch Preset data (MSB) RWr (n+) ch Count data (LSB) RWw (n+) ch Preset data (LSB) RWr (n+) ch Count data (MSB) RWw (n+) ch Preset data (MSB) RWr (n+) ch Count data (LSB) RWw (n+) ch Preset data (LSB) RWr (n+) ch Count data (MSB) RWw (n+) ch Preset data (MSB) RWr (n+) ch Count data (LSB) RWw (n+) ch Preset data (LSB) RWr (n+) ch Count data (MSB) RWw (n+) ch Preset data (MSB) RWr (n+) ch Count data (LSB) RWw (n+) ch Preset data (LSB) RWr (n+) ch Count data (MSB) RWw (n+) ch Preset data (MSB) RC SPECIICATIS ES- Rev. Page /
MODEL: RC ANALOG INPUT, POINTS Models RC-SV, RC-TS, RC-RS, RC-RTA, RC-MS, RC-CTE Interval-timed Response (X) Refresh Data (Y) RWrn+ Analog input RWwn+ + Analog input + + Analog input + + Analog input + Without Extension Module Interval-timed Response (X) RX(n+) to RX(n+) (Status) Reserved Refresh Data (Y) With Extension Module RC-EA Interval-timed Response (X) RX(n+) to RX(n+) (RC-EA) Reserved Refresh Data (Y) With Extension Module RC-ECx Interval-timed Response (X) RX(n+) to RX(n+) (Status) Reserved Refresh Data (Y) RY(n+) to RY(n+) (RC-ECx) ANALOG OUTPUT, POINTS Models RC-YV, RC-YS Interval-timed Response (X) Refresh Data (Y) RWrn+ RWwn+ Analog output + + Analog output + + + + Without Extension Module Interval-timed Response (X) Reserved Refresh Data (Y) With Extension Module RC-EA Interval-timed Response (X) RX(n+) to RX(n+) (RC-EA) Reserved Refresh Data (Y) With Extension Module RC-ECx Interval-timed Response (X) Reserved Refresh Data (Y) RY(n+) to RY(n+) (RC-ECx) RC SPECIICATIS ES- Rev. Page /
MODEL: RC I/O DATA DESCRIPTIS DISCRETE I/O : : Input (Output ) Input (Output ) Input (Output ) Input (Output ) : : Input (Output ) points Input (Output ) : : points Input (Output ) RC-RR eedback input eedback input eedback input eedback input Not Used Output Output Output : : RC PA RX (n+) RY (n+) Channel No. Command acknowledge Data acknowledge Ready signal Error display Channel No. Command acknowledge Data selection ANALOG I/O -bit binary data Negative values represented in s complements RC SPECIICATIS ES- Rev. Page /
MODEL: RC STATUS Analog input modules without extension module (models: RC-SV, RC-TS, RC-RS, RC-RTA, RC-MS, RC-CTE) can show input status of each channel. Analog output modules (models: RC-YS, RC-YV), discrete I/O modules (models: RC-DA, RC-DCx, RC-RR) and Totalized pulse input module (RC-PA) show '' at the same address. Burnout, input range error ( -%, +%) : Normal : Error ADC error (no response from ADC) : Normal : Error Input (Burnout, input range error) Input (Burnout, input range error) Input (Burnout, input range error) Input (Burnout, input range error) Input (ADC error) Input (ADC error) Input (ADC error) Input (ADC error) : EXTENSI 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, -point discrete inputs, -point discrete outputs, -point discrete I/Os and other combinations of signals. MODULE COMBINATIS (Basic module: Extension modules) RC-DA: RC-EA, RC-EA, RC-ECA, RC-ECA, RC-ECB, RC-ECB, RC-ECC RC-DCA* : RC-ECA, RC-ECA, RC-ECB, RC-ECB, RC-ECC RC-DCB* : RC-ECA, RC-ECA, RC-ECB, RC-ECB, RC-ECC RC-DCC* : ---- RC-DCE* :RC-ECA, RC-ECA, RC-ECB, RC-ECB, RC-ECC RC-RR* : ---- RC-SV: RC-EA, RC-EA, RC-ECA, RC-ECA, RC-ECB, RC-ECB, RC-ECC RC-TS: RC-EA, RC-EA, RC-ECA, RC-ECA, RC-ECB, RC-ECB, RC-ECC RC-RS: RC-EA, RC-EA, RC-ECA, RC-ECA, RC-ECB, RC-ECB, RC-ECC RC-RTA: RC-EA, RC-EA, RC-ECA, RC-ECA, RC-ECB, RC-ECB, RC-ECC RC-MS: RC-EA, RC-EA, RC-ECA, RC-ECA, RC-ECB, RC-ECB, RC-ECC RC-CTE: RC-EA, RC-EA, RC-ECA, RC-ECA, RC-ECB, RC-ECB, RC-ECC RC-PA: RC-EA, RC-EA, RC-ECA, RC-ECA, RC-ECB, RC-ECB, RC-ECC RC-YV: RC-EA, RC-EA, RC-ECA, RC-ECA, RC-ECB, RC-ECB, RC-ECC RC-YS: RC-EA, RC-EA, RC-ECA, RC-ECA, RC-ECB, RC-ECB, RC-ECC *. Not usable with RC-EA or RC-EA. *. Not usable with 'Extension' modules. OUTPUT AT THE LOSS O COMMUNICATI or the extension module RC-DA, RC-DCx or RC-DCE The extension modules (RC-ECA, RC-ECA, RC-ECB, RC-ECB, RC-ECC) are set to Reset Output or Hold Output according to the setting of SW- of the module. or the extension module other than RC-DA, RC-DCx or RC-DCE 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. RC SPECIICATIS ES- Rev. Page /
MODEL: RC CNECTING THE EXTENSI MODULE ) Remove the extension connector cover located at the side of the basic module. ) Connect the extension module. ) Mount the combined module on a DIN rail. DIMENSIS unit: mm (inch) BASIC MODULE (.) (.) (.) (.). (.) DIN RAIL mm wide (.) (.) [ (.)]. (.) M SCREW TERMINALS for CC-Link, POWER (.) (.) M SCREW TERMINALS for I/O RC-TS (.) (.) (.) DIN RAIL mm wide (.) [ (.)] RC SPECIICATIS ES- Rev. Page /
MODEL: RC BASIC MODULE, ANALOG OUTPUT, RC-RR (.) (.) (.). (.) DIN RAIL mm wide (.) (.). (.) (.) (.) (.) [ (.)] M SCREW TERMINALS for CC-Link, POWER M SCREW TERMINALS for OUTPUT EXTENSI MODULE (RC-EA, RC-ECA, RC-ECB). (.) (.) (.) (.) (.). (.) DIN RAIL mm wide (.). (.) (.) M SCREW TERMINALS for I/O (.) [ (.)] EXTENSI MODULE (RC-EA, RC-ECA, RC-ECB, RC-ECC). (.) (.) (.) (.). (.) (.) (.). (.) (.) M SCREW TERMINALS for I/O (.) [ (.)] DIN RAIL mm wide RC SPECIICATIS ES- Rev. Page /
MODEL: RC DISCRETE INPUT MODULE, points MODEL: RC-DA SPECIICATIS Common: Positive or negative common (PNP/NPN) per points Number of I/O: Input, points Maximum inputs applicable at once: No limit (at V DC) Input status indicator: LED turns with contact Isolation: Input to power input to CC-Link or CC-Link: Conforms to Version. Station type: Remote I/O Data allocation: Rated input voltage: V DC ± %; ripple %p-p max. voltage / current: V DC (input COM) /. ma voltage / current: V DC (input COM) / ma Input current:. ma per point at V DC Input resistance: Approx.. kω delay:. msec. delay:. msec. TERMINAL ASSIGNMENTS COM X X COM X X X X X X X X XA XB XC XD XE X NO. ID UTI NO. ID UTI COM Common COM Common X Input X Input X Input X Input X Input X Input X Input X Input X Input X Input XA Input XB Input XC Input XD Input XE Input X Input OPERATING MODE SETTING (*) actory setting Caution! - SW-, -, - are unused. Be sure to turn off unused ones. Output at the Loss of Communication (SW-) SW- Output at the loss of communication Reset the output (turned off) Hold the output (*) (maintains the last data received normally) Extension (SW-, -, -, -) SW- SW- SW- SW- Extension No extension (*) Discrete input, or points Discrete output, or points RC SPECIICATIS ES- Rev. Page /
MODEL: RC CIRCUIT DIAGRAM Note: In order to improve EMC performance, bond the terminal to ground. Caution: terminal is NOT a protective conductor terminal. COM Input DA COM DB X Comm. DG X SLD X X V DC X V XA XC XE X X X EXTENSI CNECTOR X X XB XD X Input COM COM X X Input Connection Examples PNP Connection NPN Connection + COM COM COM COM X X X X RC SPECIICATIS ES- Rev. Page /
MODEL: RC NPN TRANSISTOR OUTPUT MODULE, points MODEL: RC-DCA SPECIICATIS Common: Negative common (NPN) per points Number of I/O: Output, points Maximum outputs applicable at once: No limit (at V DC) Output status indicator: LED turns with contact Isolation: Output to power input to CC-Link or CC-Link: Conforms to Version. Station type: Remote I/O Data allocation: Rated load voltage: V DC ± % Rated output current:. A per point,. A per common Residual voltage:. V Leakage current:. ma delay:. msec. delay:. msec. (When driving an inductive load, connect a diode in parallel with the load.) CIRCUIT DIAGRAM Note: In order to improve EMC performance, bond the terminal to ground. Caution: terminal is NOT a protective conductor terminal. DA DB DG SLD V DC V EXTENSI CNECTOR Comm. Output +V Y Y Y Y Y YA YC YE Y Y Y Y Y OPERATING MODE SETTING (*) actory setting Caution! - SW-, -, - are unused. Be sure to turn off unused ones. Output at the Loss of Communication (SW-) SW- Output at the loss of communication Reset the output (turned off) Hold the output (*) (maintains the last data received normally) Extension (SW-, -, -, -) SW- SW- SW- SW- Extension No extension (*) Discrete output, or points TERMINAL ASSIGNMENTS + V Y Y V Y Y Y Y Y Y Y Y YA YB YC YD YE Y NO. ID UTI NO. ID UTI V V (common) + V V DC Y Output Y Output Y Output Y Output Y Output Y Output Y Output Y Output Y Output Y Output YA Output YB Output YC Output YD Output YE Output Y Output Output Output Connection Example +V V Y Y + YB YD Y V +V Y Y V RC SPECIICATIS ES- Rev. Page /
MODEL: RC PNP TRANSISTOR OUTPUT MODULE, points MODEL: RC-DCB SPECIICATIS Common: Positive common (PNP) per points Number of I/O: Output, points Maximum outputs applicable at once: No limit (at V DC) Output status indicator: LED turns with contact Isolation: Output to power input to CC-Link or CC-Link: Conforms to Version. Station type: Remote I/O Data allocation: Rated load voltage: V DC ± % Rated output current:. A per point,. A per common Residual voltage:. V Leakage current:. ma delay:. msec. delay:. msec. (When driving an inductive load, connect a diode in parallel with the load.) OPERATING MODE SETTING (*) actory setting Caution! - SW-, -, - are unused. Be sure to turn off unused ones. Output at the Loss of Communication (SW-) SW- Output at the loss of communication Reset the output (turned off) Hold the output (*) (maintains the last data received normally) CIRCUIT DIAGRAM Note: In order to improve EMC performance, bond the terminal to ground. Caution: terminal is NOT a protective conductor terminal. DA DB DG SLD V DC V EXTENSI CNECTOR Output Comm. Output +V Y Y Y YA YC YE Y Y Y Y Y YB YD Y Y Y V +V Extension (SW-, -, -, -) SW- SW- SW- SW- Extension No extension (*) Discrete output, or points Y TERMINAL ASSIGNMENTS + V Y Y V Y Y Y Y Y Y Y Y YA YB YC YD YE Y Y V NO. ID UTI NO. ID UTI V V + V V DC (common) Y Output Y Output Y Output Y Output Y Output Y Output Y Output Y Output Y Output Y Output YA Output YB Output YC Output YD Output YE Output Y Output Output Connection Example +V V Y Y RC SPECIICATIS ES- Rev. Page /
MODEL: RC RELAY CTACT OUTPUT MODULE, points MODEL: RC-DCC SPECIICATIS Common: common per points ( terminals) Common current: Max. A ( terminals) Number of I/O: Relay contact output, points Maximum outputs applicable at once: No limit (at V DC) Output status indicator: LED turns with contact Isolation: Output to power input to CC-Link or CC-Link: Conforms to Version. Station type: Remote I/O Data allocation: Relay driving power: V DC ± %, ma Rated load: V AC* @ A (cos ø = ) V DC @ A (resistive load) Electrical life cycles (rate /min.) *When it is used as a product relevant to EU directive, it should be used under the Installation Category I, V AC or less. Maximum switching voltage: V AC or V DC Maximum switching power: VA or W Minimum load: V DC @ ma Mechanical life: cycles (rate /min.) When driving an inductive load, external contact protection and noise quenching are recommended. delay: msec. delay: msec. TERMINAL ASSIGNMENTS + V Y V Y Y Y Y COM Y COM Y COM Y COM NO. ID UTI NO. ID UTI V V + V V DC Common Y Output Common Y Output Common Y Output Common Y Output COM Common Y Output COM Common Y Output COM Common Y Output COM Common Y Output OPERATING MODE SETTING (*) actory setting Caution! - SW- through -, - through - are unused. Be sure to turn off the unused ones. Output at the Loss of Communication (SW-) SW- Output at the loss of communication Reset the output (turned off) Hold the output (*) (maintains the last data received normally) RC SPECIICATIS ES- Rev. Page /
MODEL: RC CIRCUIT DIAGRAM Note: In order to improve EMC performance, bond the terminal to ground. Caution: terminal is NOT a protective conductor terminal. DA DB DG SLD V DC V Comm. Y Y Y Y Y Y Y Y COM COM COM COM V +V Output Connection Example points / common points / common +V V DC +V V DC + V V Y Y Y Y Y Y Y COM COM Y COM COM RC SPECIICATIS ES- Rev. Page /
MODEL: RC RELAY CTACT OUTPUT MODULE, points MODEL: RC-DCE SPECIICATIS Common: common per points ( terminals) Common current: Max. A ( terminals) Number of I/O: Relay contact output, points Maximum outputs applicable at once: No limit (at V DC) Output status indicator: LED turns with contact Isolation: Output to power input to CC-Link or CC-Link: Conforms to Version. Station type: Remote I/O Data allocation: Relay driving power: V DC ± %, ma Rated load: V AC @ A (cos ø = ) V DC @ A (resistive load) Electrical life cycles (rate /min.) Maximum switching voltage: V AC or V DC Maximum switching power: VA or W Minimum load: V DC @ ma Mechanical life: cycles (rate /min.) When driving an inductive load, external contact protection and noise quenching are recommended. delay: msec. delay: msec. TERMINAL ASSIGNMENTS + V Y V Y Y Y Y COM Y COM Y COM Y COM NO. ID UTI NO. ID UTI V V + V V DC Common Y Output Common Y Output Common Y Output Common Y Output COM Common Y Output COM Common Y Output COM Common Y Output COM Common Y Output OPERATING MODE SETTING (*) actory setting Caution! - SW-, -, - are unused. Be sure to turn off unused ones. Output at the Loss of Communication (SW-) SW- Output at the loss of communication Reset the output (turned off) Hold the output (*) (maintains the last data received normally) Extension (SW-, -, -, -) SW- SW- SW- SW- Extension No extension (*) Discrete output, or points RC SPECIICATIS ES- Rev. Page /
MODEL: RC CIRCUIT DIAGRAM Caution: terminal is NOT a protective conductor terminal. DA DB DG SLD V DC V Comm. Y Y Y Y EXTENSI CNECTOR Y Y Y Y COM COM COM COM V +V Output Connection Example points / common points / common +V V DC +V V DC + V V Y Y Y Y Y Y Y COM COM Y COM COM RC SPECIICATIS ES- Rev. Page /
MODEL: RC REMOTE CTROL RELAY CTROL MODULE MODEL: RC-RR RECOMMENDED PRODUCTS (OPERATI CHECKED) Remote control relay: BR-D, BR-D (Mitsubishi Electric) WR (Panasonic) Remote control transformer: BRT-B, BRT-B (Mitsubishi Electric) WR (Panasonic) SPECIICATIS Common: common per points ( terminals) Number of I/O: Output, points Maximum outputs applicable at once: No limit I/O status indicator: eedback input status turns on with the input supplied. Output status LED turns on with the output. Isolation: Output to power input to CC-Link or CC-Link: Conforms to Version. Station type: Remote I/O Data allocation: Rated load voltage: V AC ± % (supplied by the remote control transformer) Load voltage frequency: / Hz OPERATING MODE SETTING Each output is set with bits. Output setting is explained on the table below. NO. BIT SETTING UTI, No operation Output,, Output, Output, Invalid, No operation Output,, Output, Output, Invalid, No operation Output,, Output, Output, Invalid, No operation Output,, Output, Output, Invalid Do not set both bits. If the bits are simultaneously, the module will not operate normally. or repeating the output of pulse, after setting (, ), set (, ) once again. TERMINAL ASSIGNMENTS Y Y Y Y C C C C NO. ID UTI NO. ID UTI No connection No connection C Common Y Output C Common Y Output C Common Y Output C Common Y Output CIRCUIT DIAGRAM Caution: terminal is NOT a protective conductor terminal. DA DB DG SLD U(+) V( ) Y C Y C Com. Output Connection Example blue white red blue red blue Output Remote Transformer Remote Relay Remote Relay Y C Y C Y C Y C RC SPECIICATIS ES- Rev. Page /
MODEL: RC DC VOLTAGE/CURRENT INPUT MODULE, points MODEL: RC-SV SPECIICATIS Isolation: Input to input to input to input to power input to CC-Link or CC-Link: Conforms to Version. Station type: Remote device Data allocation: Converted data range: of the input range Input range Wide span voltage: - + V DC, - + V DC, V DC, V DC, V DC Narrow span voltage: - + V DC, V DC, -. +. V DC Current range: - + ma DC, ma DC, ma DC Input resistance Wide span voltage: MΩ Narrow span voltage: kω Current range: Ω Conversion rate / conversion accuracy: msec./±. %, msec./±. %, msec./±. %, msec./±. % Response time: Conversion rate + msec. ( %) Temperature coefficient: ±. %/ C (±. %/ ) Extension (SW-, -) SW- SW- Extension No extension (*) Discrete input, or points Discrete output, or points TERMINAL ASSIGNMENTS VH VL I VH VL I COM VH VL I COM VH VL I COM NO. ID UTI NO. ID UTI VH Wide span volt. VL Narrow span volt. Common I Current range VH Wide span volt. VL Narrow span volt. COM Common I Current range No connection No connection VH Wide span volt. VL Narrow span volt. COM Common I Current range VH Wide span volt. VL Narrow span volt. COM Common I Current range OPERATING MODE SETTING (*) actory setting Input Range (SW-, -, -, -) SW- SW- SW- SW- Input range - + V DC (*) - + V DC - + V DC V DC V DC V DC V DC -. +. V DC - + ma DC ma DC ma DC PC Configurator setting Conversion Rate / Accuracy (SW-, -) SW- SW- Conversion rate / Accuracy msec. / ±.% (*) msec. / ±.% msec. / ±.% msec. / ±.% RC SPECIICATIS ES- Rev. Page /
MODEL: RC CIRCUIT DIAGRAM Note: In order to improve EMC performance, bond the terminal to ground. Caution: terminal is NOT a protective conductor terminal. INPUT VH Input DA VL I Comm. DB DG SLD INPUT VH VL I Input V DC V COM INPUT VH VL I COM Input EXTENSI CNECTOR INPUT VH Input VL I COM Input Connection Examples + VHn VHn VHn WIDE SPAN VOLTAGE VLn In + NARROW SPAN VOLTAGE VLn In CURRENT RANGE + VLn In COMn COMn COMn Be sure to close across VLn and In terminals for a current input. RC SPECIICATIS ES- Rev. Page /
MODEL: RC THERMOCOUPLE INPUT MODULE, points MODEL: RC-TS SPECIICATIS Isolation: Input to input to input to input to power input to CC-Link or CC-Link: Conforms to Version. Station type: Remote device Data allocation: Converted data range: Engineering unit value ( C, K) (integer); No multiplication for Linearization: Standard Thermocouple: K, E, J, T, B, R, S, C, N, U, L, P, PR Cold junction compensation: CJC sensor attached to the input terminals Input resistance: kω Burnout sensing:. μa Conversion accuracy: ± C (±. ); ±. C (±. ) for B, R, S, C, PR Conversion rate: msec. or msec. Response time: Conversion rate + msec. ( %) Temperature coefficient: ±. %/ C (±. %/ ) of max. span CJC error: ±. C at C ± C (±. at ± ) ±. C (±. ) for R, S, PR T/C BURNOUT INDICATI ( C) Downscale Upscale CORMAE RANGE ( C) K (CA) - + - to + E (CRC) - + - to + J (IC) - + - to + T (CC) - + - to + B (RH) to R - + to S - + to C (WRe -) - + to N - + - to + U - + - to + L - + - to + P (Platinel II) - + to (PR) - + to BURNOUT T/C CORMAE INDICATI ( ) RANGE ( ) Downscale Upscale K (CA) - + - to + E (CRC) - + - to + J (IC) - + - to + T (CC) - + - to + B (RH) to R - + to S - + to C (WRe -) - + to N - + - to + U - + - to + L - + - to + P (Platinel II) - + to (PR) - + to OPERATING MODE SETTING (*) actory setting Thermocouple Type (SW-, -, -, -) SW- SW- SW- SW- Thermocouple type K (CA) (*) E (CRC) J (IC) T (CC) B (RH) R S C (WRe -) N U L P (Platinel II) (PR) PC Configurator setting Conversion Rate (SW-) SW- Conversion rate msec. (*) msec. Burnout (SW-) SW- Burnout Upscale (*) Downscale Extension (SW-, -) SW- SW- Extension No extension (*) Discrete input, or points Discrete output, or points TERMINAL ASSIGNMENTS +IN IN +IN CJ +CJ +CJ IN CJ +IN IN CJ +CJ +IN +CJ CJ IN NO. ID UTI NO. ID UTI +CJ CJC + +IN T/C + CJ CJC IN T/C +CJ CJC + +IN T/C + CJ CJC IN T/C No connection No connection +CJ CJC + +IN T/C + CJ CJC IN T/C +CJ CJC + +IN T/C + CJ CJC IN T/C RC SPECIICATIS ES- Rev. Page /
MODEL: RC CIRCUIT DIAGRAM Note: In order to improve EMC performance, bond the terminal to ground. Caution: terminal is NOT a protective conductor terminal. INPUT +IN Input DA IN +CJ Comm. DB DG CJ SLD INPUT +IN IN +CJ Input V DC V CJ INPUT +IN IN +CJ CJ Input EXTENSI CNECTOR INPUT +IN Input IN +CJ CJ Input Connection Example T/C + CJC SENSOR +INn INn +CJn CJn RC SPECIICATIS ES- Rev. Page /
MODEL: RC RTD INPUT MODULE, points MODEL: RC-RS SPECIICATIS Isolation: Input to input to input to input to power input to CC-Link or CC-Link: Conforms to Version. Station type: Remote device Data allocation: Converted data range: Engineering unit value ( C, K) (integer); No multiplication for Linearization: Standard RTD: Pt (JIS, IEC), Pt (JIS ), JPt (JIS ), Pt Ω (JIS ), Ni, Cu, Cu Sensing current: ma Input resistance: MΩ Maximum leadwire resistance: Ω per wire Conversion accuracy: ± C (±. ); ± C (±. ) for Cu Conversion rate: msec. or msec. Response time: Conversion rate + msec. ( %) Temperature coefficient: ±. %/ C (±. %/ ) of max. span RTD BURNOUT INDICATI ( C) CORMAE Downscale Upscale RANGE ( C) Pt (JIS, IEC) - + - to + Pt (JIS ) - + - to + JPt (JIS ) - + - to + Pt Ω (JIS ) - + - to + Ni - + - to + Cu @ C - + - to + Cu - + - to + RTD BURNOUT INDICATI ( ) CORMAE Downscale Upscale RANGE ( ) Pt (JIS, IEC) - + - to + Pt (JIS ) - + - to + JPt (JIS ) - + - to + Pt Ω (JIS ) - + - to + Ni - + - to + Cu @ C - + - to + Cu - + - to + OPERATING MODE SETTING (*) actory setting RTD Type (SW-, -, -, -) SW- SW- SW- SW- RTD Type Pt (JIS, IEC) (*) Pt (JIS ) JPt (JIS ) Pt Ω (JIS ) Ni Cu @ C Cu PC Configurator setting Conversion Rate (SW-) SW- Conversion rate msec. (*) msec. Burnout (SW-) SW- Burnout Upscale (*) Downscale Extension (SW-, -) SW- SW- Extension No extension (*) Discrete input, or points Discrete output, or points TERMINAL ASSIGNMENTS INA INb INA INB INb INB INA INb INB INA INB INb NO. ID UTI NO. ID UTI No connection INA RTD -A INB RTD -B INb RTD -b No connection INA RTD -A INB RTD -B INb RTD -b No connection No connection No connection INA RTD -A INB RTD -B INb RTD -b No connection INA RTD -A INB RTD -B INb RTD -b RC SPECIICATIS ES- Rev. Page /
MODEL: RC CIRCUIT DIAGRAM Note: In order to improve EMC performance, bond the terminal to ground. Caution: terminal is NOT a protective conductor terminal. INPUT INA Input DA INB INb INPUT INA INB INb INPUT INA Input Input Comm. DB DG SLD V DC V INB INb INPUT INA INB INb Input EXTENSI CNECTOR Input Connection Example RTD A B B INAn INBn INbn RC SPECIICATIS ES- Rev. Page /
MODEL: RC THERMISTOR INPUT MODULE, points MODEL: RC-RTA SPECIICATIS Isolation: Input to input to input to input to power input to CC-Link or CC-Link: Conforms to Version. Station type: Remote device Data allocation: Converted data range: Engineering unit value ( C, K) (integer); No multiplication for Thermistor: AT-/AT- (SEMITEC Corporation) Excitation: Approx.. V DC (sensing resistance. kω) Input resistance: MΩ Burnout response time: sec. Conversion accuracy: ±. C (±. ) Conversion rate: msec. or msec. Response time: Conversion rate + msec. ( %) Temperature coefficient: ±. %/ C (±. %/ ) THERMISTOR AT- AT- ( C) ( ) BURNOUT INDICATI Downscale - - Upscale + + CORMAE RANGE - to + - to + TERMINAL ASSIGNMENTS INA INB INA INB INA INB INA INB NO. ID UTI NO. ID UTI No connection INA Thermistor -A INB Thermistor -B No connection No connection INA Thermistor -A INB Thermistor -B No connection No connection No connection No connection INA Thermistor -A INB Thermistor -B No connection No connection INA Thermistor -A INB Thermistor -B No connection CIRCUIT DIAGRAM Caution: terminal is NOT a protective conductor terminal. INPUT INA INB INPUT INA Input Input Comm. DA DB DG SLD OPERATING MODE SETTING (*) actory setting Caution! - SW-, -, -, - are unused. Be sure to turn off unused ones. Conversion Rate (SW-) SW- Conversion rate msec. (*) msec. INB INPUT INA INB INPUT INA INB Input Input EXTENSI CNECTOR V DC V Burnout (SW-) SW- Burnout Upscale (*) Downscale Extension (SW-, -) SW- SW- Extension No extension (*) Discrete input, or points Discrete output, or points Input Connection Example Thermistor A INAn B INBn RC SPECIICATIS ES- Rev. Page /
MODEL: RC POTENTIOMETER INPUT MODULE, points MODEL: RC-MS SPECIICATIS Isolation: Input to input to input to input to power input to CC-Link or CC-Link: Conforms to Version. Station type: Remote device Data allocation: Converted data range: of the input range Potentiometer: Total resistance Ω kω Minimum span: % of total resistance Excitation: Approx.. V DC Conversion rate / conversion accuracy: msec./±. %, msec./±. %, msec./±. %, msec./±. % Response time: Conversion rate + msec. ( %) Temperature coefficient: ±. %/ C (±. %/ ) OPERATING MODE SETTING (*) actory setting Caution! - SW-, -, -, - are unused. Be sure to turn off unused ones. Conversion Rate / Accuracy (SW-, -) SW- SW- Conversion rate / Accuracy msec. / ±.% (*) msec. / ±.% msec. / ±.% msec. / ±.% Extension (SW-, -) SW- SW- Extension No extension (*) Discrete input, or points Discrete output, or points CIRCUIT DIAGRAM Note: In order to improve EMC performance, bond the terminal to ground. Caution: terminal is NOT a protective conductor terminal. INPUT H S L INPUT H S L INPUT H S L INPUT H S L Exc. Exc. Exc. Exc. Hn Input Input Input Input Input Connection Example POTENTIOMETER max. + min. Sn Ln Comm. EXTENSI CNECTOR DA DB DG SLD V DC V TERMINAL ASSIGNMENTS H L S H L S H L S H L S NO. ID UTI NO. ID UTI No connection H Pot H L Pot L S Pot S No connection H Pot H L Pot L S Pot S No connection No connection No connection H Pot H L Pot L S Pot S No connection H Pot H L Pot L S Pot S RC SPECIICATIS ES- Rev. Page /
MODEL: RC AC CURRENT INPUT MODULE, points (clamp-on current sensor CLSE use) MODEL: RC-CTE Extension (SW-, -) SW- SW- Extension No extension (*) Discrete input, or points Discrete output, or points SPECIICATIS Isolation: Input to input to input to input to power input to CC-Link or CC-Link: Conforms to Version. Station type: Remote device Data allocation: Converted data range: Engineering unit value (A) (Integer) (Engineering unit value (A) (Integer) for CLSE-R) Input range (Optional) CLSE-R: A AC CLSE-: A AC CLSE-: A AC CLSE-: A AC CLSE-: A AC CLSE-: A AC requency: / Hz Overload capacity: % continuous Operational range: % of rating (Operational range for the CLSE- is limited up to approx. % ().) (Note: Use for the circuit not exceed V) Conversion rate / conversion accuracy: msec./±. %, msec./±. %, msec./±. %, msec./±. % (The conversion accuracy does not include the accuracy of the sensor.) Response time:. sec. ( %) Temperature coefficient: ±. %/ C (±. %/ ) OPERATING MODE SETTING (*) actory setting Input Range (SW-, -, -, -) SW- SW- SW- SW- Input range CLSE- (*) CLSE- CLSE- CLSE- CLSE- CLSE-R PC Configurator setting Conversion Rate / Accuracy (SW-, -) SW- SW- Conversion rate / Accuracy msec. / ±.% (*) msec. / ±.% msec. / ±.% msec. / ±.% TERMINAL ASSIGNMENTS K L K L K L K L NO. ID UTI NO. ID UTI No connection K AC current K No connection L AC current L No connection K AC current K No connection L AC current L No connection No connection No connection K AC current K No connection L AC current L No connection K AC current K No connection L AC current L CIRCUIT DIAGRAM Note: In order to improve EMC performance, bond the terminal to ground. Caution: terminal is NOT a protective conductor terminal. INPUT K L INPUT K L INPUT K L INPUT K L Input Input Input Input Connection Example SOURCE LOAD k l CLAMP- SENSOR Input Kn Ln Comm. DA DB DG SLD V DC V EXTENSI CNECTOR RC SPECIICATIS ES- Rev. Page /
MODEL: RC TOTALIZED PULSE INPUT MODULE, points MODEL: RC-PA SPECIICATIS Common: Positive or negative common (NPN/PNP) per points Number of I/O: Input, points Pulse Input status indicator: LED turns with contact Isolation: Input to power input to CC-Link or CC-Link: Conforms to Version. Station type: Remote device Data allocation: or External excitation (PNP, NPN input) Sensing voltage: V DC ± %; ripple %p-p max voltage / current: V DC (input terminal - Cx) /. ma voltage / current: V DC (input terminal - Cx) / ma Voltage pulse input voltage / current: V DC (input terminal - Cx) /. ma voltage / current: V DC (input terminal - Cx) / ma Input current:. ma per point at V DC Input resistance: Approx.. kω delay:. msec. delay:. msec. Max. requency: Hz (This unit is designed to be able to accept a frequency up to Hz, however, chattering contact must be avoided for accurate measuring of such high frequency. Use relays that do not cause any chattering.) Minimum / pulse requirements: ms Accumulated pulse count: - Max. accumulated pulse count: - (actory default: ) Overflow: or (actory default: ) Extension (SW-, -) SW- SW- Extension No extension (*) Discrete input, or points Discrete output, or points TERMINAL ASSIGNMENTS V PI PI PI PI PI PI PI PI V C C C C C C C C NO. ID UTI NO. ID UTI V Power ( ) V + Power (+) C Common PI Input C Common PI Input C Common PI Input C Common PI Input C Common PI Input C Common PI Input C Common PI Input C Common PI Input OPERATING MODE SETTING (*) actory setting Caution! - SW- through SW- are unused. Be sure to turn off unused ones. Data Allocation (SW-) SW-D Data allocation (*) RC SPECIICATIS ES- Rev. Page /
MODEL: RC CIRCUIT DIAGRAM Caution: terminal is NOT a protective conductor terminal. V+ Input DA V DB PI PI Comm. DG SLD PI PI U (+) PI V ( ) PI PI PI C C C C C C C C EXTENSI CNECTOR Input V+ V PI C PI C Input Connection Examples PNP connection + V+ V NPN connection + V+ V Voltage Pulse Input V+ Connected V PI PI + PI C C C PI PI + PI C C C RC SPECIICATIS ES- Rev. Page /
MODEL: RC DC VOLTAGE OUTPUT MODULE, points MODEL: RC-YV SPECIICATIS Isolation: Output to output to power input to CC-Link or CC-Link: Conforms to Version. Station type: Remote device Data allocation: Converted data range: of the output range Output range Wide span voltage: - + V DC, - + V DC, V DC, V DC, V DC Narrow span voltage: - + V DC, V DC, -. +. V DC Operational range: -. +. V DC or - + % Load resistance: kω Conversion accuracy: ±. % Response time: msec. ( %) Temperature coefficient: ±. %/ C (±. %/ ) OPERATING MODE SETTING (*) actory setting Caution! - SW- is unused. Be sure to turn off unused ones. Output Range (SW-, -, -, -) SW- SW- SW- SW- Output range - + V DC (*) - + V DC - + V DC V DC V DC V DC V DC -. +. V DC PC Configurator setting TERMINAL ASSIGNMENTS VH VL VH COM VL COM NO. ID UTI NO. ID UTI No connection No connection Common VH Wide span volt. Common VL Narrow span volt. COM Common VH Wide span volt. COM Common VL Narrow span volt. CIRCUIT DIAGRAM Note: In order to improve EMC performance, bond the terminal to ground. Caution: terminal is NOT a protective conductor terminal. DA DB DG SLD V DC V EXTENSI CNECTOR Comm. Output Connection Examples VHn + Output Output VHn OUTPUT VH VL OUTPUT VH VL COM COM Output at the Loss of Communication (SW-) SW- Output at the loss of communication Reset the output (to -% or approx. -.V DC) Hold the output (*) (maintains the last data received normally) VLn COMn WIDE SPAN VOLTAGE VLn + NARROW SPAN VOLTAGE COMn Extension (SW-, -) SW- SW- Extension No extension (*) Discrete input, or points Discrete output, or points RC SPECIICATIS ES- Rev. Page /
MODEL: RC DC CURRENT OUTPUT MODULE, points MODEL: RC-YS SPECIICATIS Isolation: Output to output to power input to CC-Link or CC-Link: Conforms to Version. Station type: Remote device Data allocation: Converted data range: of the output range Output range: ma DC Load resistance: Ω Conversion accuracy: ±. % Response time: msec. ( %) Temperature coefficient: ±. %/ C (±. %/ ) OPERATING MODE SETTING (*) actory setting Caution! - SW-, - through - are unused. Be sure to turn off unused ones. Output at the Loss of Communication (SW-) SW- Output at the loss of communication Reset the output (to -%) Hold the output (*) (maintains the last data received normally) CIRCUIT DIAGRAM Note: In order to improve EMC performance, bond the terminal to ground. Caution: terminal is NOT a protective conductor terminal. DA DB DG SLD V DC V EXTENSI CNECTOR Comm. Output Output OUTPUT I OUTPUT I COM Extension (SW-, -) SW- SW- Extension No extension (*) Discrete input, or points Discrete output, or points TERMINAL ASSIGNMENTS I I COM NO. ID UTI NO. ID UTI No connection No connection Common I Current No connection No connection COM Common I Current No connection No connection RC SPECIICATIS ES- Rev. Page /
MODEL: RC DISCRETE INPUT EXTENSI MODULE, points CIRCUIT DIAGRAM MODEL: RC-EA SPECIICATIS Common: Positive or negative common (NPN/PNP) per points Number of I/O: Input, points Maximum inputs applicable at once: No limit (at V DC) Input status indicator: LED turns with contact Isolation: Input to internal circuits Rated input voltage: V DC ± %; ripple %p-p max. voltage / current: V DC (input COM) /. ma voltage / current: V DC (input COM) / ma Input current:. ma per point at V DC Input resistance: Approx.. kω delay:. msec. delay:. msec. COM X X X X X X X X Input Input EXTENSI CNECTOR TERMINAL ASSIGNMENTS COM COM X X X X X X X X X NO. ID UTI NO. ID UTI COM Common No Connection X Input X Input X Input X Input X Input X Input X Input X Input X Input Connection Examples PNP Connection NPN Connection + COM COM X X X X RC SPECIICATIS ES- Rev. Page /
MODEL: RC DISCRETE INPUT EXTENSI MODULE, points CIRCUIT DIAGRAM MODEL: RC-EA SPECIICATIS Common: Positive or negative common (PNP/NPN) per points Number of I/O: Input, points Maximum inputs applicable at once: No limit (at V DC) Input status indicator: LED turns with contact Isolation: Input to internal circuits Rated input voltage: V DC ± %; ripple %p-p max. voltage / current: V DC (input COM) /. ma voltage / current: V DC (input COM) / ma Input current:. ma per point at V DC Input resistance: Approx.. kω delay:. msec. delay:. msec. COM X X X X X XA XC XE X X X X X Input EXTENSI CNECTOR TERMINAL ASSIGNMENTS COM X X X X X X X X X X XA XB XC XD XE X XB XD X NO. ID UTI NO. ID UTI COM Common No Connection X Input X Input X Input X Input X Input X Input X Input X Input X Input X Input XA Input XB Input XC Input XD Input XE Input X Input Input COM X X Input Connection Examples PNP Connection NPN Connection + COM + COM X X X X RC SPECIICATIS ES- Rev. Page /
MODEL: RC NPN TRANSISTOR OUTPUT EXTENSI MODULE, points CIRCUIT DIAGRAM MODEL: RC-ECA SPECIICATIS Common: Negative common (NPN) per points Number of I/O: Output, points Maximum outputs applicable at once: No limit (at V DC) Output status indicator: LED turns with contact Isolation: Output to internal circuits Rated load voltage: V DC ± % Rated output current:. A per point,. A per common Residual voltage:. V Leakage current:. ma delay:. msec. delay:. msec. (When driving an inductive load, connect a diode in parallel with the load.) EXTENSI CNECTOR Output Output +V Y Y Y Y Y Y Y Y V TERMINAL ASSIGNMENTS +V Y + V Y Y V Y Y Y Y Y Y NO. ID UTI NO. ID UTI V V (common) + V V DC Y Output Y Output Y Output Y Output Y Output Y Output Y Output Y Output Y V Output Connection Example +V V + Y Y RC SPECIICATIS ES- Rev. Page /
MODEL: RC NPN TRANSISTOR OUTPUT EXTENSI MODULE, points CIRCUIT DIAGRAM MODEL: RC-ECA SPECIICATIS Common: Negative common (NPN) per points Number of I/O: Output, points Maximum outputs applicable at once: No limit (at V DC) Output status indicator: LED turns with contact Isolation: Output to internal circuits Rated load voltage: V DC ± % Rated output current:. A per point,. A per common Residual voltage:. V Leakage current:. ma delay:. msec. delay:. msec. (When driving an inductive load, connect a diode in parallel with the load.) EXTENSI CNECTOR Output +V Y Y Y Y Y YA YC YE Y Y Y Y Y TERMINAL ASSIGNMENTS YB + V Y Y V Y Y Y Y Y Y Y Y YA YB YC YD YE Y YD Y V NO. ID UTI NO. ID UTI V V (common) + V V DC Y Output Y Output Y Output Y Output Y Output Y Output Y Output Y Output Y Output Y Output YA Output YB Output YC Output YD Output YE Output Y Output Output +V Y Y V Output Connection Example +V V + Y Y RC SPECIICATIS ES- Rev. Page /
MODEL: RC PNP TRANSISTOR OUTPUT EXTENSI MODULE, points CIRCUIT DIAGRAM MODEL: RC-ECB SPECIICATIS Common: Positive common (PNP) per points Number of I/O: Output, points Maximum outputs applicable at once: No limit (at V DC) Output status indicator: LED turns with contact Isolation: Output to internal circuits Rated load voltage: V DC ± % Rated output current:. A per point,. A per common Residual voltage:. V Leakage current:. ma delay:. msec. delay:. msec. (When driving an inductive load, connect a diode in parallel with the load.) EXTENSI CNECTOR Output Output +V Y Y Y Y Y Y Y Y V TERMINAL ASSIGNMENTS +V + V Y Y V Y Y Y Y Y Y Y NO. ID UTI NO. ID UTI V V + V V DC (common) Y Output Y Output Y Output Y Output Y Output Y Output Y Output Y Output Y V Output Connection Example +V + V Y Y RC SPECIICATIS ES- Rev. Page /
MODEL: RC PNP TRANSISTOR OUTPUT EXTENSI MODULE, points CIRCUIT DIAGRAM MODEL: RC-ECB SPECIICATIS Common: Positive common (PNP) per points Number of I/O: Output, points Maximum outputs applicable at once: No limit (at V DC) Output status indicator: LED turns with contact Isolation: Output to internal circuits Rated load voltage: V DC ± % Rated output current:. A per point,. A per common Residual voltage:. V Leakage current:. ma delay:. msec. delay:. msec. (When driving an inductive load, connect a diode in parallel with the load.) EXTENSI CNECTOR Output +V Y Y Y Y Y YA YC YE Y Y Y Y TERMINAL ASSIGNMENTS Y YB + V Y Y V Y Y Y Y Y Y Y Y YA YB YC YD YE Y YD Y V NO. ID UTI NO. ID UTI V V + V V DC (common) Y Output Y Output Y Output Y Output Y Output Y Output Y Output Y Output Y Output Y Output YA Output YB Output YC Output YD Output YE Output Y Output Output +V Y Y V Output Connection Example +V + V Y Y RC SPECIICATIS ES- Rev. Page /