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No patent liability is assumed with respect to the use of the information contained herein. Moreover, because OMRON is constantly striving to improve its high-quality products, the information contained in this manual is subject to change without notice. Every precaution has been taken in the preparation of this manual. Nevertheless, OMRON assumes no responsibility for errors or omissions.
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NV Series NV3W(-V1) NV4W NV3Q Programmable Terminals Produced May 2015...
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OMRON Product References All OMRON products are capitalized in this manual. The word “Unit” is also capitalized when it refers to an OMRON product, regardless of whether or not it appears in the proper name of the product.
TABLE OF CONTENTS SECTION 1 Connecting to Mitsubishi Electric PLCs ....MELSEC-FX0N/FX1S/FX1N Series ......... . MELSEC-FX2N/FX3U/FX3UC Series .
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SECTION 12 Error Codes for Companies Other Than OMRON..111 12-1 Error Codes ............. .
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OMRON, including PLC memory area designations, communications set- tings, and connection methods. NV-series PT Setup Manual ........V103-E1-@ This manual describes how to connect an NV-series PT to an OMRON PLC, features and specifications, methods to set up communications and operation, and procedures for maintenance and troubleshooting.
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OMRON representa- tive. • Make sure that the ratings and performance characteristics of the product are suffi- cient for the systems, machines, and equipment, and be sure to provide the systems, machines, and equipment with double safety mechanisms.
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Safety Precautions Notation Used for Safety Information The following notation is used in this manual to provide precautions required to ensure safe usage of the product. The safety precautions that are provided are extremely important to safety. Always read and heed the information provided in all safety precautions. The following notation is used.
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3. The mounting panel must be between 1.6 and 4.8 mm thick. Tighten the Mounting Brackets evenly to a torque of between 0.1 and 0.25 N·m for the NV3W/NV3Q and be- tween 0.2 and 0.3 N·m for the NV3W-V1/NV4W to maintain water and dust resistance.
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Inspect and replace the Rubber Packing periodically (approximately once per year). 39. To use the NV3W in an environment with strong noise, connect the following noise filter to the power supply line: RSEL-2001W manufactured by TDK-Lambda Corp. 40. A Waterproof Packing cannot be reused. To ensure waterproof performance, replace the Waterproof Packing with a new one each time you reinstall the PT.
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Precautions for Correct Use 1. Do not install the PT in any of the following locations. • Locations subject to rapid changes in temperature • Locations subject to temperatures or humidity outside the range specified in the spec- ifications • Locations subject to condensation as the result of high humidity •...
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OMRON products are electronic devices that are incorporated in machines and manufac- turing installations. OMRON PTs conform to the related EMC Directives (see note) so that the devices and machines into which they are built can more easily conform to EMC direc- tives.
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Products were properly handled, stored, installed and maintained and not subject to contamination, abuse, misuse or inappropriate modification. Return of any Products by Buyer must be approved in writing by Omron before ship- ment. Omron Companies shall not be liable for the suitability or unsuitability or...
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Data presented in Omron Company websites, catalogs and other materials is provided as a guide for the user in determining suitability and does not consti- tute a warranty. It may represent the result of Omron’s test conditions, and the user must correlate it to actual application requirements. Actual performance is subject to the Omron’s Warranty and Limitations of Liability.
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● ❍ CVM1 ● Temperature Controllers EJ1 Series Refer to online help in the NV-Designer or the NV-series PT Setup Manual (Cat. No. V103) for information on connecting to OMRON PLCs. *1 Excluding the CP1L-L104D@-@. *2 Modbus communications are used.
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❍ FP-e ● ❍ FP0/FP0R ● ❍ ● ❍ FP2SH ● ❍ *1 There may be restrictions in the device types and addresses that can be used for PLCs not manufactured by OMRON. Refer to the connection diagrams for details.
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● 64 points ● Web Controller 10 points ● ● 23 points *1 There may be restrictions in the device types and addresses that can be used for PLCs not manufactured by OMRON. Refer to the connection diagrams for details.
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*2 It is not possible to specify all PLC models that can be used. Test operation using the actual PLC. Connection Diagrams The connection diagrams between PLCs and NV-series PTs are based on the NV3W(-V1) with 24-VDC input power. The connector on other NV-series PTs must be changed as described below for other models of NV-series PTs.
MELSEC-FX0N/FX1S/FX1N Series Section 1-1 MELSEC-FX0N/FX1S/FX1N Series PLC Model Selection Select Mitsubishi MELSEC-FX Series. Applicable Devices Bit/word devices Comments Bit devices Input relays X 0000 to X 0337 Output relays Y 0000 to Y 0337 Auxiliary relays M 0000 to M 1535 State relays S 0000 to S 0999 Timer contacts...
To power Mitsubishi PLC Adapter or NV3Q for RS- supply FX1S Pin No. Signal Signal Pin No. 232C with FX1N 24-VDC power − Note The NV3W model for RS-442A cannot communicate with an FX-series PLC through an RS-422A or RS-485 Adapter.
MELSEC-FX2N/FX3U/FX3UC Series Section 1-2 MELSEC-FX2N/FX3U/FX3UC Series PLC Model Selection Select Mitsubishi MELSEC-FX2N Series. Applicable Devices Bit/word devices Comments Bit devices Input relays X 0000 to X 0337 Output relays Y 0000 to Y 0337 Auxiliary relays M 0000 to M 3071 State relays S 0000 to S 0999 Timer contacts...
NV4W, or supply Signal Pin No. Signal Pin No. NV3Q for RS- FX3U FX3U-232- 232C with 24- FX3UC − VDC power FX3U-232- Note The NV3W model for RS-442A cannot communicate with an FX-series PLC through an RS-422A or RS-485 Adapter.
Section 1-3 MELSEC-Q Series (Serial Communications) MELSEC-Q Series (Serial Communications) PLC Model Selection Select Mitsubishi MELSEC-Q (Serial Communication) Series. Select Mitsubishi MELSEC-Q (Serial Communication) Series even when con- nected directly to the RS-232C port on the Q00 or Q01 CPU. Applicable Devices Bit/word devices Comments...
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MELSEC-Q Series (Serial Communications) Section 1-3 (3) When using serial communications, do not use the number of points set for X and Y from the addresses specified for the first allocated I/O (X and (4) Mitsubishi MELSEC-A (Computer Link) Series setting can also be used, but if it is, the address ranges will be the same as for the Mitsubishi MELSEC-A (Computer Link) Series.
Section 1-3 MELSEC-Q Series (Serial Communications) 1-3-1 Connecting to the MELSEC-Q Series (Serial Communications) For RS-232C Serial commu- Connection diagram nications Q02CPU QJ71C24-R2 NV3W(-V1), NV4W, or Mitsubishi Serial NV3Q for RS-232C To power Communications Module Q02HCPU QJ71C24N-R2 supply Signal Pin No.
Section 1-4 MELSEC-Q (CPU) Series MELSEC-Q (CPU) Series PLC Model Selection Select Mitsubishi MELSEC-Q (CPU) Series. Applicable Devices Bit/word devices Comments Bit devices Input relays X 000000 to X 001FFF Output relays Y 000000 to Y 001FFF Auxiliary relays M 000000 to M 032767 Latched relays L 000000 to L 032767 Annunciators...
It is not necessary to make any communications settings. 1-4-1 Connecting to the MELSEC-Q (CPU) Series For RS-232C Link interface Connection diagram Q02CPU RS-232C port NV3W (-V1), NV4W, Mini DIN 6-pin connector on CPU Unit or NV3Q for RS-232C To power on Mitsubishi PLC Q02HCPU supply Signal Pin No.
MELSEC-A Series (Computer Link) Section 1-5 MELSEC-A Series (Computer Link) PLC Model Selection Select Mitsubishi MELSEC-A (Computer Link) Series. Applicable Devices Bit/word devices Comments Bit devices Input relays X 0000 to X 07FF Output relays Y 0000 to Y 07FF Auxiliary relays M 0000 to M 2047 Link relays...
MELSEC-A Series (Computer Link) Section 1-5 1-5-1 Connecting to the MELSEC-A Series (Computer Link Unit) For 24-VDC power Computer link Connection diagram unit AJ71C24 NV3W (-V1), NV4W, Mitsubishi Computer Link To power or NV3Q for RS- Module AJ71C24-S3 supply 232C Signal Pin No.
FP-X Series Section 2-1 FP-X Series PLC Model Selection Select Panasonic FP Series. Applicable Devices Bit/word devices Comments Bit devices Input relays X 0000 to X 511F Output relays Y 0000 to Y 511F Internal relays R 0000 to R 886F Link relays L 0000 to L 639F Timers...
End code CR (fixed) Start code No STX (fixed) Tool port baud rate setting 9,600 bps Connection Diagram Connection diagram FP-X NV3W (-V1), NV4W, or NV3Q To 24-V for RS-232C power supply Communications PT (RS-232C) cable: Mini DIN 5-pin Signal Signal Pin No.
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Section 2-1 FP-X Series Connection Diagram Connection diagram FP-X NV3W (-V1), NV4W, or NV3Q To power for RS-232C PT (RS-232C) Mode for RS-232C, 1 supply Pin No. Signal channel (AFPX- COM1) PLC COM1 − Communications Signal cable: Loose wires Note Connect the RS and CS terminals on the AFPX-COM1.
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FP-X Series Section 2-1 Connection diagram FP-X NV3W (-V1), NV4W, or NV3Q PT (RS-485) To power supply for RS-485 and RS-232C RS-485, 1 channel Pin No. Signal and RS-232C, 1 − PLC COM4 channel (AFPX- Signal COM4) Communications − −SD S−...
Σ Section 2-2 Series FPΣ Series PLC Model Selection Select Panasonic FP Series. Applicable Devices Bit/word devices Comments Bit devices Input relays X 0000 to X 511F Output relays Y 0000 to Y 511F Internal relays R 0000 to R 886F Link relays L 0000 to L 639F Timers...
PROG. Y0-7 Y8-F COM.1 COM.2 max. min. Connection Diagram for FPΣ COM Port 1 (RS-232C, 1 Channel) Connection diagram FPΣ NV3W (-V1), PT (RS-232C) To power supply NV4W, or NV3Q Signal RS-232C, 1 channel Pin No. for RS-232C (COM1) −...
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Σ Series Section 2-2 Connection Diagram for FPΣ COM Port 3 (RS-485, 1 Channel) Connection diagram FPΣ NV3W (-V1), PT (RS-485) To power supply NV4W, or NV3Q RS-485, 1 channel (COM3) Pin No. Signal RS-485 PLC COM3 − Signal −...
FP0/FP0R Series Section 2-3 FP0/FP0R Series PLC Model Selection Select Panasonic FP Series. Applicable Devices Bit/word devices Comments Bit devices Input relays X 0000 to X 511F Output relays Y 0000 to Y 511F Internal relays R 0000 to R 886F Link relays L 0000 to L 639F Timers...
End code CR (fixed) Start code No STX (fixed) Tool port baud rate setting 9,600 bps Connection Diagram Connection diagram FP0/FP0R NV3W (-V1), NV4W, or NV3Q To power for RS-232C supply Communications PT (RS-232C) cable: Mini DIN 5-pin Signal Signal Pin No.
ALARM PROG. Y0-7 Y8-F COM.1 COM.2 max. min. Connection Diagram for FP0 COM Port (RS-232C) Connection diagram FP0/FP0R NV3W (-V1), NV4W, or NV3Q To power PT (RS-232C) for RS-232C supply Communications Pin No. Signal cable: Loose wires − PLC COM1...
Section 2-4 FP-e Series FP-e Series PLC Model Selection Select Panasonic FP Series. Applicable Devices Bit/word devices Comments Bit devices Input relays X 0000 to X 511F Output relays Y 0000 to Y 511F Internal relays R 0000 to R 886F Link relays L 0000 to L 639F Timers...
CR (fixed) Start code No STX (fixed) Tool port baud rate setting 9,600 bps Connection Diagram Connection diagram FP-e NV3W (-V1), NV4W, or NV3Q To 24-V for RS-232C power supply Communications PT (RS-232C) cable: Mini DIN 5-pin Signal Pin No.
Connect the PT to the COM port on the FP-e-series PLC as shown below. between PLC and PT Power supply Connection Diagram for FP-e COM Port (RS-232C or RS-485) Connection diagram FP-e NV3W (-V1), NV4W, or PT (RS-232C) To power supply NV3Q for RS-232C Communications Pin No.
Section 2-5 MEWNET FP2/FP2SH Series MEWNET FP2/FP2SH Series PLC Model Selection Select Panasonic FP Series. Applicable Devices Bit/word devices Comments Bit devices Input relays X 0000 to X 511F Output relays Y 0000 to Y 511F Internal relays R 0000 to R 886F Link relays L 0000 to L 639F Timers...
CR (fixed) Start code No STX (fixed) Tool port baud rate setting 9,600 bps Connection Diagram Connection diagram FP2, FP2SH NV3W (-V1), NV4W, or NV3Q To 24-V for RS-232C power supply Communications PT (RS-232C) cable: Mini DIN 5-pin Signal Pin No.
Tool port baud rate setting 9,600 bps Unit number Modem connection No connection Connection Diagram for FP2 or FP2SH COM Port (RS-232C) Connection diagram FP2, FP2SH NV3W (-V1), NV4W, or NV3Q To power supply for RS-232C PT (RS-232C) Communications Signal Signal cable: D-sub 9-pin Pin No.
Section 2-6 FP2 Computer Communications Unit (CCU) FP2 Computer Communications Unit (CCU) PLC Model Selection Select Panasonic FP Series. Applicable Devices Bit/word devices Comments Bit devices Input relays X 0000 to X 511F Output relays Y 0000 to Y 511F Internal relays R 0000 to R 886F Link relays...
Reserved by system. COM2 baud rate 9,600 bps COM2 data length 8 bits Connection Diagram Connection diagram FP2 Computer Com- NV3W (-V1), NV4W, or NV3Q To power supply munications Unit for RS-232C PT (RS-232C) Pin No. Signal Pin No. Signal...
Section 2-7 FP7 Series FP7 Series ■ Connectable NV Models and Versions Models Applicable Versions NV3W Not supported. NV3W-V1 Ver. 2.00 or higher NV4W Ver. 2.00 or higher NV3Q Ver. 2.00 or higher ■ PLC Model Selection Select Panasonic FP7 Series.
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Section 2-7 FP7 Series *1 No data can be written in the devices noted with "Not supported". *2 The devices noted with "Supported" can be used as local devices. To use as a local device, designate a program block number. The number can be spec- ified from 1 to 468 and is to be expressed by "PB?_ "...
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Section 2-7 FP7 Series Communications Settings The following communications settings are recommended for the PT and PLC. ■ PT Communications Settings (Set from the NV-Designer using the NV Configuration.) Item Setting Baud rate The same setting as that of FP7 Data length The same setting as that of FP7 Stop bits...
Section 2-7 FP7 Series 2-7-1 RS232C connections Connections between the FP7 COM0 port and the NV-series PT (24V/RS232C type) Connection diagram NV3W-V1, NV4W, PT (RS232C) or NV3Q for Communications cable: Pin No. Signal RS-232C Loose wires FP7 COM0 port Pin No.
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Section 2-7 FP7 Series Connections between the FP7 communication cassette AFP7CCS2 (RS-232C 2ch insulated type) and the NV-series PT (RS232C type) Connection diagram NV3W-V1, NV4W, To power PT (RS232C) supply or NV3Q for Communications cable: Pin No. Signal RS-232C Loose wires FP7 AFP7CCS2 (CH1) Pin No.
2-7-2 RS422 connections Connections between the FP7 communication cassette AFP7CCM1 (RS-422 / RS-485 1ch insulated type) and the NV-series PT (RS-422 / RS-485 types) (the case of RS-422) Connection diagram NV3W-V1, NV4W, To power PT (RS-422A) supply or NV3Q for Communications cable: Pin No.
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FP7 Series Connections between the FP7 communication cassette AFP7CCM2 (RS-422 / RS-485 2ch insulated type) and the NV-series PT (RS-422 / RS-485 types) (the case of RS-422) Connection diagram NV3W-V1, NV4W, FP7 AFP7CCM2 (CH1) or NV3Q for To power Communications cable: PT (RS-422A) Pin No.
Connections between the FP7 communication cassette AFP7CCM1 (RS-422 / RS-485 1ch insulated type) and the NV-series PT (RS-422 / RS-485 types) (the case of RS-485) • 1:1 connections Connection diagram NV3W-V1, NV4W, To power PT (RS-485) supply or NV3Q for Communications cable: Pin No.
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FP7 Series Section 2-7 • Connections to more than one PLC Connection diagram NV3W-V1, NV4W, To power PT (RS-485) supply or NV3Q for Pin No. Signal Communications cable: RS-232C Loose wires FP7 AFP7CCM1 (end) Pin No. Signal Pin No. Signal...
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Connections between the FP7 communication cassette AFP7CCM2 (RS-422 / RS-485 2ch insulated type) and the NV-series PT (RS-422 / RS-485 types) (the case of RS-485) • 1:1 connections Connection diagram NV3W-V1, NV4W, FP7 AFP7CCM2 (CH1) or NV3Q for To power...
Section 2-7 FP7 Series • Connections to more than one PLC Refer to the "Connections between the FP7 communication cassette AFP7CCM1 (RS-422 / RS-485 1ch insu- lated type) and the NV-series PT (RS-422 / RS-485 types) (the case of RS-485)" previous subsection to per- form connections.
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FP7 Series Section 2-7 Panasonic FP series Panasonic FP7 series Access address Data format Access address Data format number (Hex) number (binary) DT90057 (DT9057) Upper byte: None SD53 Hour (U0 to U23) Lower byte: Day of week (H00 to H06) SD54 Minutes (U0 to U59)
Section 3-1 PROVISER TCmini Series PROVISER TCmini Series PLC Model Selection Select Toshiba Machine PROVISER TCmini Series. Applicable Devices Bit/word devices Comments Bit devices Input devices X 0000 to X 0F7F Output devices Y 0000 to Y 0F7F Auxiliary relay devices R 0000 to R 077F Timer relay devices T 0000 to T 077F...
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RS-485 Connections Set the communications mode to the host communications protocol connection mode. Note Refer to the user manual for the TCmini for the setting procedure. 3-1-1 RS-232C Connections Connection Diagram Connection diagram NV3W (-V1), NV4W, or NV3Q To power for RS-232C supply Pin No. Signal Pin No. Signal...
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Section 3-1 PROVISER TCmini Series 3-1-2 RS-485 Connections Connection Diagram for 7-pin Connector on PLC Connection diagram NV3W (-V1), NV4W, or NV3Q To power for RS-485 supply Pin No. Signal Pin No. Signal TxD+ − TxD− RxD+ RxD− −SD −RD...
Section 4-1 SLC500 Micro Logix Series SLC500 Micro Logix Series PLC Model Selection Set Allen-Bradley SLC500 Micro Logix Series. Applicable Devices Bit/word devices Comments Bit devices Binary B 3:0/0 to B 255:255/15 Inputs I 0.0/0 to I : 30.255/15 Outputs O 0.0/0 to O : 30.255/15 Status S 0/0 to S 164/15...
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Section 4-1 SLC500 Micro Logix Series • When setting the data format of a data part to ASCII and three or more display digits are specified, the maximum value that can be displayed for the element number is limited. • Set the data access priority in the attribute options for an ASCII data for- mat for a data part to lower to upper for the address and upper byte to lower byte for the word.
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Section 4-1 SLC500 Micro Logix Series 4-1-1 SLC500 Series (Use Link Interface on CPU Unit) Connection Diagram Connection diagram SLC-5/03 NV3W (-V1), NV4W, or NV3Q D-sub 9-pin connector on To power for RS-232C SLC500 SLC-5/04 supply Signal Pin No. Pin No.
Section 5-1 S7-200 Series S7-200 Series PLC Model Selection Select Siemens S7-200 Series. Applicable Devices Bit/word devices Comments Bit devices Inputs I 00 to I 77 Outputs Q 00 to Q 77 Bit memory M 00 to M 317 Timer contacts T 00 to T 255 Counter contacts C 00 to C 255...
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For an RS-232C connection, connect the S7-200 PC/PPI Cable and then con- between PLC and PT nect the cable and the PT as shown below. S7-200 PC/PPI Cable Connection Diagram Connection diagram CPU212 NV3W (-V1), NV4W, or NV3Q PC/PPI Cable (9-pin To power for RS-232C connector) CPU214 supply Pin No.
Data bits Stop bits Parity None 6-1-1 Connection Method Connection Diagram Adapter Connection diagram RS-232C port on NV3W (-V1), NV4W, D-sub 9-pin connector on CPU Unit To power or NV3Q for RS-232C supply 200S RS-232C port on Pin No. Signal Pin No.
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Section 6-1 MASKER-K (Cnet) Series Adapter Connection diagram 200S G6L-CUEB NV3W (-V1), NV4W, D-sub 9-pin connector on or NV3Q for RS-232C To power 300S G4L-CUEA supply Pin No. Signal Pin No. Signal 1000S G3L-CUEA...
Section 7-1 FA-M3 Series FA-M3 Series PLC Model Selection Select Yokogawa FM-M3 Series. Applicable Devices Bit/word devices Comments Bit devices Input relays X 00201 to X 71664 Specify the slot number (1 digit) + unit number (2 digits) + terminal number (2 digits). Output relays Y 00201 to Y 71664 Specify the slot number (2 digit) + unit number...
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Section 7-1 FA-M3 Series 7-1-1 Connecting through a Personal Computer Link Module. Connection Diagram Personal Connection diagram Computer Link Module F3SP21-0N F3LC11-1N NV3W (-V1), To power NV4W, or supply F3SP25-2N F3LC11-1F Pin No. Signal Pin No. Signal NV3Q for RS-...
Section 8-1 KV-10/16/24/40 Series KV-10/16/24/40 Series PLC Model Selection Select Keyence KV10/16/24/40 Series. Applicable Devices Bit/word devices Comments Bit devices Relays 00000 to 17915 Timers T 000 to T 249 Counters C 000 to C 249 High-speed counters/CTH CTH 0 to CTH 1 High-speed counter compara- CTC 0 to CTC 3 Outputting to comparators is...
Section 8-2 KV-700 Series KV-700 Series PLC Model Selection Select Keyence KV700 Series. Applicable Devices Bit/word devices Comments Bit devices Relays 00000 to 59915 Control relays CR 0000 to CR 3915 Timers T 000 to T 511 Counters C 000 to C 511 High-speed counter compara- CTC 0 to CTC 3 Outputting to high-speed...
Section 8-2 KV-700 Series 8-2-1 Connection Method Connection Diagram Connection diagram KV-700 NV3W (-V1), NV4W, or To power PLC (modular connector) NV3Q for RS-232C supply Signal Signal Pin No. Pin No. − (Terminal definition) SG and GND are connected internally.
Section 8-3 Connecting through a KV-L20R/V (KV-700-series Unit) Connecting through a KV-L20R/V (KV-700-series Unit) PLC Model Selection Select Keyence KV700 Series. Applicable Devices Bit/word devices Comments Bit devices Relays 00000 to 59915 Control relays CR 0000 to CR 3915 Timers T 000 to T 511 Counters C 000 to C 511...
KV-L20R/V and the PT as shown below. Keyence KV- KV-L20R/V Unit 700-series PLC Connection Diagram Unit Connection diagram KV-700 KV-L20R/V NV3W (-V1), NV4W, D-sub 9-pin connector on To power (port 1) or NV3Q for RS- KV-L20R/V supply 232C Pin No.
KV-1000 Series Section 8-4 KV-1000 Series PLC Model Selection Select Keyence KV1000 Series. Applicable Devices Bit/word devices Comments Bit devices Relays 00000 to 59915 Control relays CR 0000 to CR 3915 Internal auxiliary relays MR 00000 to MR 99915 Latching relays LR 00000 to LR 99915 Timers T 0000 to T 3999...
Section 8-4 KV-1000 Series 8-4-1 Connecting to the KV-1000 Series Connection Diagram Connection diagram KV-1000 NV3W (-V1), NV4W, To power PLC (modular connector) or NV3Q for RS- supply Signal Pin No. Signal Pin No. 232C − (Terminal definition) SG and GND are connected internally.
Connecting through a KV-L20R/V (KV-1000-series Unit) Section 8-5 Connecting through a KV-L20R/V (KV-1000-series Unit) PLC Model Selection Select Keyence KV1000 Series. Applicable Devices Bit/word devices Comments Bit devices Relays 00000 to 59915 Control relays CR 0000 to CR 3915 Timers T 000 to T 511 Counters C 000 to C 511...
KV-L20R/V and the PT as shown below. Keyence KV- KV-L20R/V Unit 1000-series Connection Diagram Unit Connection diagram KV-1000 KV-L20R/V NV3W (-V1), D-sub 9-pin connector on (port 1) NV4W, or NV3Q KV-L20R/V To power for RS-232C supply Pin No.
Section 8-6 KV-3000 Series KV-3000 Series PLC Model Selection Select Keyence KV3000/5000 Series. Note You cannot connect the PT directly to a KV-5000-series CPU. Applicable Devices Bit/word devices Comments Bit devices Input relays R 00000 to R 99915 Output relays Internal auxiliary relays Link relays B 0000 to B 3FFF...
KV-3000 Series Section 8-6 8-6-1 Connection Method Connection Diagram Connection diagram KV-3000 NV3W (-V1), NV4W, or NV3Q To power PLC (modular connector) for RS-232C supply Pin No. Signal Pin No. Signal − (Terminal definition) SG and GND are connected internally.
Section 8-7 Connecting through a KV-L20R/V (KV-3000/5000-series Unit) Connecting through a KV-L20R/V (KV-3000/5000-series Unit) PLC Model Selection Select Keyence KV3000/5000 Series. Applicable Devices Bit/word devices Comments Bit devices Input relays R 00000 to R 99915 Output relays Internal auxiliary relays Link relays B 0000 to B 3FFF Control relays...
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Section 8-7 Connecting through a KV-L20R/V (KV-3000/5000-series Unit) ■ KV-L20R Settings (Port 1) Item Setting Operating mode KV mode (host link) Baud rate 9,600 bps, 19,200 bps, 38,400 bps, 57,600 bps, or 115,200 bps RS/CS flow control None Note (1) Use port 1. (2) Use the Unit Editor included with the KV Builder to set the KV-L20R/V.
KV-L20R/V and the PT as shown below. Keyence KV- KV-L20R/V Unit 3000/5000- (connected to port 1) series PLC Connection Diagram Unit Connection diagram KV-3000 KV-L20R/V NV3W (-V1), D-sub 9-pin connector (port 1) NV4W, or NV3Q To power KV-5000 on KV-L20R/V for RS-232C supply Pin No. Signal Pin No.
Section 8-8 KV Nano Series KV Nano Series ■ Connectable NV Models and Versions Models Applicable Versions NV3W Not supported. NV3W-V1 Ver. 2.00 or higher NV4W Ver. 2.00 or higher NV3Q Ver. 2.00 or higher ■ PLC Model Selection Select Keyence KV-3000/5000 Series.
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Section 8-8 KV Nano Series Communications Settings The following communications settings are recommended for the PT and PLC. ■ PT Communications Settings (Set from the NV-Designer using the NV Configuration.) Item Setting Baud rate 9,600 bps, 19,200 bps, 38,400 bps, 57,600 bps, or 115,200 bps Data bits Stop bits Parity...
Section 8-8 KV Nano Series 8-8-1 Connection Method Connection Diagram Connection diagram KV Nano NV3W-V1, NV4W, or NV3Q PLC (modular connector) To power for RS-232C supply Pin No. Signal Pin No. Signal Modular connector...
Section 8-9 Connecting through a KV-N10L (KV Nano-series Unit) Connecting through a KV-N10L (KV Nano-series Unit) ■ Connectable NV Models and Versions Models Applicable Versions NV3W Not supported. NV3W-V1 Ver. 2.00 or higher NV4W Ver. 2.00 or higher NV3Q Ver. 2.00 or higher ■...
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Section 8-9 Connecting through a KV-N10L (KV Nano-series Unit) Communications Settings The following communications settings are recommended for the PT and PLC. ■ PT Communications Settings (Set from the NV-Designer using the NV Configuration.) Item Setting Baud rate 9,600 bps, 19,200 bps, 38,400 bps, 57,600 bps, or 115,200 bps Data bits Stop bits Parity...
KV-N10L and the PT as shown below. Keyence KV-N10L Unit KV Nano series (connected to port 1) Connection Diagram Unit Connection diagram KV Nano KV-N10L NV3W-V1, NV4W, D-sub 9-pin connector on or NV3Q for KV-N10L To power RS-232C supply Pin No. Signal Pin No.
Section 9-1 EH-150/EHV Series EH-150/EHV Series PLC Model Selection Select Hitachi EH/EHV Series. Applicable Devices Bit/word devices Comments Bit devices External inputs X 00000 to X 4FF95 External outputs Y 00000 to Y 4FF95 Internal outputs R 000 to R FFF Internal outputs WR 0000.0 to WR FFFF.F CPU links...
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Section 9-1 EH-150/EHV Series ■ PT Communications Settings (Set from the NV-Designer using the NV Configuration.) Item Setting Baud rate 19,200 bps Data bits Stop bits Parity Even ■ PLC Communications Settings Applicable PLCs: EH-CPU104A, EH-CPU208A, EH-CPU316A, EH-CPU516, and EH-CPU548 Using Port 1 The DIP switch must be set and special internal outputs must be set.
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Section 9-1 EH-150/EHV Series Applicable PLCs: EHV-CPU128, EHV-CPU64, EHV-CPU32, and EHV- CPU16 Settings must be made with the Programming Tool. Set the serial communica- tions port as shown below using the Programming Tool. Item Setting Type Special port RS-232C connection: RS-232C Port type RS-422A connection: RS-422A/485 RS-485 connection: RS-422A/485...
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Section 9-1 EH-150/EHV Series ■ Connection Diagram Link interface Connection diagram EH-CPU104A Port 1 or 2 on NV3W (-V1), D-sub 15-pin male CPU Module To power NV4W, or connector on cable EH-CPU208A supply NV3Q for RS- Pin No. Signal Signal EH-CPU316A Pin No.
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■ Connection Diagram (Socket Side of Port 1 Viewed from Front of Module) Link interface Connection diagram EH-CPU104A Port 1 or 2 on NV3W (-V1), RJ45 Connector on To power CPU Module NV4W, or NV3Q EH-CPU208A Hitachi PLC supply Pin No.
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Connection Diagram Refer to the previous RJ45 Modular Port diagram for the pin numbers for the RJ45 Connector. Link interface Connection diagram EH-CPU104A Port 1 or 2 on NV3W (-V1), RJ45 Connector on To power EH-SIO NV4W, or Hitachi PLC EH-CPU208A...
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EH-S10 Uint User-made cable Hitachi PLC ■ Connection Diagram Link interface Connection diagram EH-CPU104A Port 2 on EH-SIO NV3W (-V1), RS-422/485 Connector NV4W, or on CPU Module Port EH-CPU208A RS-422A/485 To power (RS-422) on Hitachi PLC NV3Q for RS- supply...
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User-made cable EH-RS05 Hitachi PLC ■ Connection Diagram Link interface Connection diagram EH-CPU104A Port 2 on EH-SIO NV3W (-V1), RS-422/485 Connector NV4W, or on CPU Module Port EH-CPU208A RS-422A/485 con- To power NV3Q for RS- (RS-422) on Hitachi PLC nector...
Section 9-2 MICRO-EH Series MICRO-EH Series PLC Model Selection Select Hitachi EH/EHV Series. Applicable Devices Bit/word devices Comments Bit devices External inputs X 00000 to X 4FF95 External outputs Y 00000 to Y 4FF95 Internal outputs R 000 to R FFF Internal outputs WR 0000.0 to WR FFFF.F CPU links...
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User-made cable EH-RS05 Hitachi PLC ■ Connection Diagram PLC type Link interface Connection diagram MICRO-EH Port 1 on CPU Module NV3W (-V1), D-sub 15-pin male To power Series NV4W, or connector on cable supply NV3Q for RS- 14 points Signal Signal Pin No.
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■ Connection Diagram (Socket Side of Port 1 Viewed from Front of Module) PLC type Link interface Connection diagram MICRO-EH Port 1 on CPU NV3W (-V1), RJ45 Connector on Series Module NV4W, or To power Hitachi PLC supply...
Section 9-3 Web Controller Series Web Controller Series PLC Model Selection Select Hitachi EH/EHV Series. Applicable Devices Bit/word devices Comments Bit devices External inputs X 00000 to X 4FF95 External outputs Y 00000 to Y 4FF95 Internal outputs R 000 to R FFF Internal outputs WR 0000.0 to WR FFFF.F CPU links...
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Section 9-3 Web Controller Series Communications Settings The following communications settings are recommended for the PT and PLC. ■ PT Communications Settings (Set from the NV-Designer using the NV Configuration.) Item Setting Baud rate 19,200 bps Data bits Stop bits Parity Even ■...
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Section 9-3 Web Controller Series ■ Connection Diagram PLC type Link interface Connection diagram 10 points CPU Unit serial NV3W (-V1), D-sub 15-pin male (EH-WD10DR) port NV4W, or To power connector on cable NV3Q for RS- supply 23 points Signal Signal Pin No.
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Web Controller Series ■ Connection Diagram (Socket Side of Port 1 Viewed from Front of Module) PLC type Link interface Connection diagram 10 points (EH- CPU Unit serial NV3W (-V1), RJ45 Connector on WD10DR) port To power NV4W, or Hitachi PLC supply...
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Refer to the previous RJ45 Modular Port diagram for the pin numbers for the RJ45 Connector. PLC type Link interface Connection diagram 23 points CPU Unit serial NV3W (-V1), RJ45 Connector on CPU (EH-WD23DR) port NV4W, or Module Port (RS-485) on To power...
The parts on the screens of the PT read and write memory in the PLCs, which are Modbus-RTU slaves. With the NV3W, communications is possible with only one of the connected PLCs. With the NV3W-V1, NV4W or NV3Q, communications is possible with up to 31 PLCs.
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Section 10-2 Modbus (RTU Mode) ■ PLC Communications Settings Item Setting Slave address Mode RTU mode Baud rate 19,200 bps Data length Stop bits Parity Even Additional Information The following function codes can be used for Modbus-RTU communications from the master. Select the function codes for the areas of the addresses that are set. Function code (hex): Meaning 01: Read coil state 02: Read input bit state...
• For information on how to input addresses, refer to the NV-series Programming Manual (Cat. No. V104). • For details on addresses for OMRON EJ1 Temperature Controllers, refer to the parameter list and status list in the appendices of the EJ1 Modular Temperature...
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Note When connecting to OMRON EJ1 Temperature Controllers using Modbus- RTU, set a transmission delay of at least 5 ms in the communications parame- ters in the NV Configuration of the PT. Communications may not be performed correctly if a transmission delay of 4 ms or less is set.
125 Ω to port B on the EDU. Connect. Note Use RS-485 connections when connecting to OMRON EJ1 Temperature Con- trollers. Refer to the information on connecting to EJ1 Temperature Control- lers with RS-422A/485 connections in the NV-series Setup Manual (Cat. No. V103).
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Modbus (RTU Mode | Temperature Controller) Section 10-3...
Baud rate 9,600 bps, 19,200 bps, 38,400 bps, 57,600 bps, 115,200 bps Data length Parity Odd, even, or none Enabled (for NV3W-V1, NV4W or NV3Q) RS/CS flow control *1 The NV3W does not have RS/CS control lines. Disable RS/CS flow control.
Modbus Slave (RTU Mode) Section 11-1 11-1-1 Basic Formats The formats for sending commands from the Modbus-RTU master to the PT and for returning responses from the PT are given below. The maximum length of commands or responses supported by the NV-series PTs is 512 bytes.
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Section 11-1 Modbus Slave (RTU Mode) Error Responses If there is an error in a data message that is sent, the PT will do nothing except return the following message. PT slave address Function code Data Error check Function code + 80 hex The Modbus-RTU master can check the function code in the response mes- sage to see if the data that was sent was correct.
Section 11-1 Modbus Slave (RTU Mode) 11-1-2 Function Code Reference Provide an interval of at least the time required for four characters between messages with Modbus slave (RTU Mode). Function Code 01: Read internal bit status ■ Commands PT slave Function First address, First address,...
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Section 11-1 Modbus Slave (RTU Mode) Function Code 03: Read holding register contents ■ Commands PT slave Function First address, First address, No. of regis- No. of regis- Error check, Error check, address code upper byte lower byte ters to read, ters to read, upper byte lower byte...
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Modbus Slave (RTU Mode) Section 11-1 Function Code 04: Read holding register contents ■ Commands PT slave Function First address, First address, No. of regis- No. of regis- Error check, Error check, address code upper byte lower byte ters to read, ters to read, upper byte lower byte...
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Modbus Slave (RTU Mode) Section 11-1 Function Code 05: Write single internal bit ■ Commands PT slave Function Bit address, Bit address, Status Status Error check, Error check, address code upper byte lower byte specification, specification, upper byte lower byte 05 hex upper byte lower byte...
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Section 11-1 Modbus Slave (RTU Mode) Function Code 06: Write data register, one word ■ Commands PT slave Function Data register Data register Write data, Write data, Error check, Error check, address code address, address, upper byte lower byte upper byte lower byte 06 hex upper byte...
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Modbus Slave (RTU Mode) Section 11-1 Function Code 0F: Write multiple internal bits ■ Commands PT slave Function First First Number of Number of Number of Data byte 1 address code address, address, bits to write, bits to write, bytes 0F hex upper byte lower byte...
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Section 11-1 Modbus Slave (RTU Mode) Function Code 10: Write multiple data registers ■ Commands PT slave Function First address, First address, Number of Number of Number of Register 1, address code upper byte lower byte registers to registers to bytes upper byte 10 hex...
Section 11-1 Modbus Slave (RTU Mode) 11-1-3 Connection Method Examples Connection Diagram Connection diagram NV3W for RS-232C RS-232C Connections To power PT (Modbus-RTU Slave) supply Pin No. Signal (Modbus-RTU Master) − Signal NC (or FG) NV3W-V1, NV4W or RS-232C Connections without RS/CS Control...
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Modbus Slave (RTU Mode) Section 11-1 Connection diagram NV3W (-V1), NV4W, RS-422A Connections or NV3Q for RS- To power PT (Modbus-RTU Slave) 422A supply Signal Pin No. (Modbus-RTU Master) − Signal NC (or FG) −RD −SD −SD −RD Connect. NV3W (-V1), NV4W,...
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The maximum transmission distance for 24-V RS-232C for NV-series PTs is 15 m. The maximum transmission distance for 5-V RS-232C for NV3W (-V1) PTs is 30 m. The maximum transmission distance for 24-V RS-422A for NV-series PTs is 500 m.
There are two types of error codes: PT error codes and PLC error codes. ER** Error code display Refer to the NV-series PT Setup Manual (Cat. No. V103) for PT error codes and for error codes that may be displayed when connected to an OMRON PLC.
Section 12-2 Mitsubishi Electric FX-series PLC Connections 12-2 Mitsubishi Electric FX-series PLC Connections 12-2-1 NV3W Error code Description Cause and countermeasure ERFF Timeout Error 1. The cable connecting the PLC is disconnected. Check the cable for incorrect wiring or disconnections.
Panasonic Electric Works FP-series PLC Connections Section 12-3 12-3 Panasonic Electric Works FP-series PLC Connections 12-3-1 NV3W Error code Description Cause and countermeasure ER21 Data Error 1. There is a mistake in the communications settings. Make sure that the baud rates and transmission formats are correct for the PLC and PT.
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Section 12-3 Panasonic Electric Works FP-series PLC Connections Error code Description Cause and countermeasure ER0060 Parameter Error The value set for the parameter does not exist or cannot be used. ER0061 Data Error A register or relay that does not exist in the PLC was specified when creating screens on the NV-Designer.
Section 12-4 Toshiba Machine PLC Connections 12-4 Toshiba Machine PLC Connections 12-4-1 NV3W-V1/NV4W/NV3Q Error code Description Cause and countermeasure ERFFFE Parameter Error The value set for the parameter does not exist or cannot be used.
NV3W error codes are displayed as "ER" followed by the two-digit code.NV3- V1/NV4W/NV3Q error codes are displayed as "ER00" followed by the two digit error code. The notation for the NV3W is used in the following table. When using the NV4W or NV3Q, "00" will be displayed after "ER." Error code...
The following table outlines the changes made to the manual during each revision. Page numbers refer to the previous version. Revision code Date Revised content June 2009 Original production December 2009 Mode revisions accompanying version upgrade and the addition of the NV4W. May 2015 Made revisions accompanying version upgrade and the addition of the NV3W-V1...
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