Device Communication Description

Designer Functionalities

I/O Device Editor

Ethernet Device

Ethernet devices are used when the connection to another device is via an Ethernet connection. Users must input the IP of the device they are connecting to, the Ethernet Type, and the Port. Depending on the selected protocol, users can also set the PLC Type. Users can also select the String Encoding and the String Encoding Method. Users can also change settings such as the Timeout time and the Retry Count. Users will also be able to change the name of the Device and the Protocol of the device as well. Users can use a different protocol to suit the use case of a specific project; the available protocols are listed below.

Back to top of Device Communication

Allen-Bradley Ethernet/IP

Canvas supports Allen-Bradleys Ethernet/IP as a way to connect with other devices that support this protocol. Users will be able to select an Allen Bradley PLC Type, the Message Type, and also, if the Message Type allows, a toggle to Use Multiple Service.

ControlLogix/CompactLogix SLC Mapping

Address Structure: [Symbol][File No.]:[Element No.]/[Bit No.]

Name	Symbol	Digital	Analog
BOOL (BOOL)	B	B0:0/0 - B999:999/31	B3:0 - B3:255
INT (WORD)	N	N0:0/0 - N999:999/15	N7:0 - N7:255
REAL (FLOAT)	F	F0:0/0 - F999:999/31	F8:0 - F8:255

Based on the file type, element no. 256 is not supported. Error code from PLC will be received when unsupported settings are downloaded. Change the PLC settings in this case.
Only the device has Word Tag.
The BOOL and REAL devices can be used for digital or 32-bit analog tags.

MicroLogix

PCCC Mapping

Address Structure: [Symbol][File No.]:[Element No.]/[Bit No.]

Memory Area	Symbol	Analog	Digital	Address Notation	Access
Output	O	O:0.0 - O:0.30	O:0.0/0 - O:0.30/15	Decimal	R/W
Input	I	I:1.0 - I:1.30	I:1.0/0 - I:1.30/15	Decimal	R
Binary	B	B3:0 - B3:255	B3:0/0 - B3:255/15	Decimal	R/W
Integer	N	N7:0 - N7:255	N7:0/0 - N7:255/15	Decimal	R/W
Float	F	F8:0 - F8:255	-	Decimal	R/W
Status	S	S:0 - S:163	S:0/0 - S:163/15	Decimal	R

Supported Symbols

MicroLogix

Name	Symbol	Bit Range	Word Range
Output	O	O:0.0/0 – O:30.255/15	O:0.0 – O:30.255
Input	I	I:0.0/0 – I:30.255/15	I:0.0 – I:30.255
Status	S	S:0/0 – S:163/15	S:0 – S:163
Binary	B	B3:0/0 – B3:255/15 B9:0/0 – B255:255/15	B3:0/0 – B3:255/15 B9:0/0 – B255:255/15
Integer	N	N7:0/0 – N7:255/15 N9:0/0 – N255:255/15	N7:0 – N7:255 N9:0 – N255:255
Float	F	-	F8:0 – F255:255 Registration is allowed in Float only.
Long	L	-	L9:0 – L255:255 Registration is allowed in UINT32, INT32 only.
String	ST	-	ST9:0 – ST255:255
Timer	T	T4:0.0/0 – T4:255.2/15 T9:0.0/0 – T255:255.2/15 Txx:nn.0/15 = Enable(EN) Txx:nn.0/14 = Timer Timing(TT) Txx:nn.0/13 = Done(DN)	T4:0.0 – T4:255.2 T9:0.0 – T255:255.2 Txx:nn.1 = Preset Value(PRE) Txx:nn.2 = Accumulated Value(ACC)
Counter	C	C5:0.0/0 – C5:255.2/15 C9:0.0/0 – C255:255.2/15 Cxx:nn.0/15 = Count up enable(CU) Cxx:nn.0/14 = Count down enable(CD) Cxx:nn.0/13 = Done(DN) Cxx:nn.0/12 = Overflow(OV) Cxx:nn.0/11 = Underflowt(UN) Cxx:nn.0/10 = Update Accumulator(UA)	C5:0.0 – C5:255.2 C9:0.0 – C255:255.2 Cxx:nn.1 = Preset (PRE) Cxx:nn.2 = Accumulated Value(ACC)
Control	R	R6:0.0/0 – C6:255.2/15 R9:0.0/0 – R255:255.2/15 Rxx:nn.0/15 = Enable(EN) Rxx:nn.0/14 =Update Enable(EU) Rxx:nn.0/13 = Done(DN) Rxx:nn.0/12 = Stack Empty(EM) Rxx:nn.0/11 = Error(ER) Rxx:nn.0/10 = Upload(UL) Rxx:nn.0/9 = Inhibit(IN) Rxx:nn.0/8 = Found(FD)	R6:0.0 – R6:255.2 R9:0.0 – R255:255.2 Rxx:nn.1 = Length value Rxx:nn.2 = position value

Communication Cable Wiring

This interface is satisfied with standard IEEE802.3 about the 10BaseT/100BaseTX. You can configure the cable and allocation pin number of RJ45 as shown below.

RJ45 Connector	RJ45 Jack

Direct Cable: Host ↔︎ HUB

Cable	No.	Color	Color	No.	Cable
	1	Orange/White	Orange/White	1
	2	Orange	Orange	2
	3	Green/White	Green/White	3
	4	Blue	Blue	4
	5	Blue/White	Blue/White	5
	6	Green	Green	6
	7	Brown/White	Brown/White	7
	8	Brown	Brown	8

Crossover Cable: Host ↔︎ Host

Cable	No.	Color	Color	No.	Cable
	1	Orange/White	Green/White	1
	2	Orange	Green	2
	3	Green/White	Orange/White	3
	4	Blue	Blue	4
	5	Blue/White	Blue/White	5
	6	Green	Orange	6
	7	Brown/White	Brown/White	7
	8	Brown	Brown	8

Back to top of Device Communication

CIMON PLC (HMI Protocol)

CIMON PLC (HMI Protocol) is the default protocol for Canvas. This protocol is the basic HMI protocol to connect with other CIMON devices. Users can select the CIMON PLC Type that they are working with. There are no additional options for any of the CIMON PLCs; the settings will remain the same across all CIMON PLCs.

CIMON PLC connections with ethernet will require a UDP Ethernet type to function properly.

All CIMON PLCs

Address Structure: [Device][Element No.]

Name	Symbol	Digital	Analog
BOOL (BOOL)	M	M0000 - M999F	M0000 - M9990
INT (WORD)	D	D00000.0 - D31999.F*	D00000 - D31999

*All CIMON CPUs support reading D bits; however, the CM1-UPnF and PLC-S Pro only support writing to D bits.

Supported Devices

Area	Device	Bit Range	Word Range	Access
Input	X	X0000 - X511F	X0000 - X5110	R/W
Output	Y	Y0000 - Y511F	Y0000 - Y5110	R/W
Binary	M	M0000 - M999F	M0000 - M9990	R/W
Binary	L	L0000 - L999F	L0000 - L9990	R/W
Non-Volatile Binary	K	K0000 - K999F	K0000 - K9990	R/W
Status	F	F0000 - F127F	F0000 - F1270	R
Timer	T	T0000 - T4095	-	R/W
Counter	C	C0000 - C4095	-	R/W
Control	S	S00 - S99	-
Integer	D	-	D00000 - D31999	R/W
Index	R	-	-	-
Timer - Current Count	TC	-	TC0000 - TC4099	R/W
Timer - Timer Set	TS	-	TS0000 - TS4099	R/W
Counter - Current Count	CC	-	CC0000 - CC4099	R/W
Counter - Count Set	CS	-	CS0000 - CS4099	R/W
Integer	Z	-	Z0000 - Z1023

Communication Cable Wiring

This interface is satisfied with standard IEEE802.3 about the 10BaseT/100BaseTX. You can configure the cable and allocation pin number of RJ45 as shown below.

RJ45 Connector	RJ45 Jack

Direct Cable: Host ↔︎ HUB

Cable	No.	Color	Color	No.	Cable
	1	Orange/White	Orange/White	1
	2	Orange	Orange	2
	3	Green/White	Green/White	3
	4	Blue	Blue	4
	5	Blue/White	Blue/White	5
	6	Green	Green	6
	7	Brown/White	Brown/White	7
	8	Brown	Brown	8

Crossover Cable: Host ↔︎ Host

Cable	No.	Color	Color	No.	Cable
	1	Orange/White	Green/White	1
	2	Orange	Green	2
	3	Green/White	Orange/White	3
	4	Blue	Blue	4
	5	Blue/White	Blue/White	5
	6	Green	Orange	6
	7	Brown/White	Brown/White	7
	8	Brown	Brown	8

Fatek FBS

Canvas supports Fatek FBS as a way to connect with other devices that support this protocol. This protocol will work in conjunction with any Fatek PLCs. There are no specific settings that this option will bring up if selected.

Supported Symbols

Area	Symbol	Bit Range	Word Range (16-bit)	Word Range (32-bit)	Access
Input	X, WX, DWX	X0000 - X9999	WX0000 - WX9984	DWX0000 - DWX9968	R
Output	Y, WY, DWY	Y0000 - Y9999	WY0000 - WY9984	DWY0000 - DWY9968	R/W
Binary	M, WM, DWM	M0000 - M9999	WM0000 - WM9984	DWM0000 - DWM9968	R/W
Timer	T, WT, DWT	T0000 - T9999	WT0000 - WT9984	DWT0000 - DWT9968	R/W
Control	S, WS, DWS	S0000 - S9999	WS0000 - WS9984	DWS0000 - DWS9968	R/W
Timer Register	RT, DRT	-	RT0000 - RT9999	DRT0000 - DRT9998	R/W
Counter Register	RC, DRC	-	RC0000 - RC9999	DRC0000 - DRC9998	R/W
Control	R, DR	-	R00000 - R65535	DR00000 - DR65534	R/W
Data Register	D, DD	-	D00000 - D65535	DD00000 - DD65534	R/W
File Register	F, DF	-	F00000 - F65535	DF00000 - DF65534	R/W

Communication Cable Wiring

This interface is satisfied with standard IEEE802.3 about the 10BaseT/100BaseTX. You can configure the cable and allocation pin number of RJ45 as shown below.

RJ45 Connector	RJ45 Jack

Direct Cable: Host ↔︎ HUB

Cable	No.	Color	Color	No.	Cable
	1	Orange/White	Orange/White	1
	2	Orange	Orange	2
	3	Green/White	Green/White	3
	4	Blue	Blue	4
	5	Blue/White	Blue/White	5
	6	Green	Green	6
	7	Brown/White	Brown/White	7
	8	Brown	Brown	8

Crossover Cable: Host ↔︎ Host

Cable	No.	Color	Color	No.	Cable
	1	Orange/White	Green/White	1
	2	Orange	Green	2
	3	Green/White	Orange/White	3
	4	Blue	Blue	4
	5	Blue/White	Blue/White	5
	6	Green	Orange	6
	7	Brown/White	Brown/White	7
	8	Brown	Brown	8

LSIS FEnet

Canvas supports LSIS FEnet as a way to connect with other devices that support this protocol. Users can select an LSIS PLC Type within the settings to suit specific configurations better.

Supported Symbols

**XGK (XGK-CPU* / XBM / XBC)**

Name	Symbol	Bit Range	Word Range	Access
Input/Output	P	P00000 - P2047F	P0000 - P2047	R/W
Binary	M	M00000 - M2047F	M0000 - M2047	R/W
Binary	L	L000000 - L11263F	L00000 - L11263	R/W
Non-Volatile Binary	K	K00000 - K4095F	K0000 - K4095	R/W If the CPU is XGK, the bit range is "K00000 - K2047F" and the word range is "K0000 - K2047".
Status	F	F00000 - F2047F	F0000 - F2047	R
Timer	T	T0000 - T2047	-	R/W
Counter	C	C0000 - C2047	-	R/W
Control	S	-	-	-
Integer	D	-	D00000 - D32767	R/W
Index	R	-	R00000 - R32767	R/W XBM does not support the R and ZR. XBC supports only R. (R and ZR are the same device in the XBC.)
Index	ZR	-	ZR00000 - ZR65535	R/W XBM does not support the R and ZR. XBC supports only R. (R and ZR are the same device in the XBC.)
Timer - Current Count	T	-	T0000 - T2047	R/W
Counter - Current Count	C	-	C0000 - C2047	R/W
Comm. Data Register	N	-	N00000 - N21503	R/W
Integer	Z	-	Z000 - Z127	R/W

XGK (XGK-CPUSN / XGK-CPUHN / XGK-CPUUN)

Name	Symbol	Bit Range	Word Range	Access
Input/Output	P	P00000 - P4095F	P0000 - P4095	R/W
Binary	M	M00000 - M4095F	M0000 - M4095	R/W
Binary	L	L000000 - L11263F	L00000 - L11263	R/W
Non-Volatile Binary	K	K00000 - K4095F	K0000 - K4095	R/W
Status	F	F00000 - F4095F	F0000 - F4095	R
Timer	T	T0000 - T8191	-	R/W
Counter	C	C0000 - C4095	-	R/W
Control	S	-	S000 - S255	R/W
Integer	D	-	D000000 - D524287	R/W If the CPU is XGK-CPUSN, the word range is "D000000 - D262143".
Index	R	-	R00000 - R32767	R/W
Index	ZR	-	ZR000000 - ZR524287	R/W
Timer - Current Count	T	-	T0000 - T8191	R/W
Counter - Current Count	C	-	C0000 - C4095	R/W
Comm. Data Register	N	-	N00000 - N21503	R/W
Integer	Z	-	Z000 - Z255	R/W
Special Module Register	U	-	U00.00 - U7F.31	R/W If the CPU is XGK-CPUSN, the word range is "U00.00 - U3F.31".

XGI

Name	Symbol	Bit Range	Byte Range	Word Range	DWord Range	QWord Range	Access
Input Points	I	%IX000.00.00 - %IX127.15.63	%IB000.00.0 - %IB127.15.7	%IW000.00.0 - %IW127.15.3	%ID000.00.0 - %ID127.15.1	%IL000.00.0 - %IL127.15.0	R/W
Output Points	Q	%QX000.00.00 - %QX127.15.63	%QB000.00.00 - %QB127.15.7	%QW000.00.00 - %QW127.15.3	%QD000.00.0 - %QD127.15.1	%QL000.00.0 - %QL127.15.0	R/W
Automatic Variable	A	%AX0000000 - %AX8388607	%AB0000000 - %AB1048575	%AW000000 - %AW524287	%AD000000 - %AD262143	%AL000000 - %AL131071	R/W
Direct Variable	M	%MX0000000 - %MX4194303	%MB0000000 - %MB524287	%MW000000 - %MW262143	%MD000000 - %MD131071	%ML00000 - %ML65535	R/W
Direct Variable	R	%RX0000000 - %RX524287	%RB00000 - %RB65535	%RW00000 - %RW32767	%RD00000 - %RW16383	%RL0000 - %RL8191	R/W
Direct Variable	W	%WX0000000 - %WX8388607	%WB0000000 - %WB1048575	%WW000000 - %WW524287	%WD000000 - %WD262143	%WL000000 - %WL131071	R/W
System Flag	F	%FX00000 - %FX65535	%FB0000 - %FB8191	%FW0000 - %FW4095	%FD0000 - %FD2047	%FL0000 - %FL1023	R
PID Flag	K	%KX000000 - %KX134399	%KB00000 - %KB16799	%KW0000 - %KW8399	%KD0000 - %KD4299	%KL0000 - %KL2199	R/W
HS Link Flag	L	%LX000000 - %LX180223	%LB00000 - %LB22527	%LW00000 - %LW11263	%LD0000 - %LD5631	%LL0000 - %LL2815	R/W
Analog Refresh Flag	U	%UX0.00.000 - %UX7.15.511	%UB0.00.000 - %UB7.15.63	%UW0.00.000 - %UW7.15.31	%UD0.00.000 - %UD7.15.15	%UL0.00.000 - %UL7.15.7	R/W
P2P Parameters Flag	N	%NX000000 - %NX401407	%NB00000 - %NB50175	%NW00000 - %NW25087	%ND00000 - %ND12543	%NL0000 - %NL6271	R/W

Communication Cable Wiring

This interface is satisfied with standard IEEE802.3 about the 10BaseT/100BaseTX. You can configure the cable and allocation pin number of RJ45 as shown below.

RJ45 Connector	RJ45 Jack

Direct Cable: Host ↔︎ HUB

Cable	No.	Color	Color	No.	Cable
	1	Orange/White	Orange/White	1
	2	Orange	Orange	2
	3	Green/White	Green/White	3
	4	Blue	Blue	4
	5	Blue/White	Blue/White	5
	6	Green	Green	6
	7	Brown/White	Brown/White	7
	8	Brown	Brown	8

Crossover Cable: Host ↔︎ Host

Cable	No.	Color	Color	No.	Cable
	1	Orange/White	Green/White	1
	2	Orange	Green	2
	3	Green/White	Orange/White	3
	4	Blue	Blue	4
	5	Blue/White	Blue/White	5
	6	Green	Orange	6
	7	Brown/White	Brown/White	7
	8	Brown	Brown	8

Mitsubishi MELSEC Ethernet

Canvas supports Mitsubishi MELSEC Ethernet as a way to connect with other devices that support this protocol. Users can select a Mitsubishi PLC Type within the settings to suit specific configurations better. Users will also be able to choose a Frame Type for the MELSEC.

Supported Symbols

Name	Symbol	Bit Range	Word Range	Address Number System	Access
Input	X	X0000 - X1757 (1777)	-	Octal	R
Output	Y	Y0000 - Y1757	-	Octal	R
Internal Relay	M	M0000 - M7659	-	Decimal	R/W
Latching Relay	L	L0000 - L7659	-	Decimal	R/W
Annunciator	F	F000 - F107	-	Decimal	R/W
Edge Relay	V	V0000 -V2029	-	Decimal	R/W
Link Relay	B	B000 - B0EF	-	Hexadecimal	R/W Not supported for iQ-F FX5
Step Relay	S	S0000 - S4079	-	Decimal	R/W
Timer Contact	TS	TS000 - TS496	-	Decimal	R/W
Timer Coil	TC	TC000 - T496	-	Decimal	R/W
Retentive Timer Contact	SS	SS00 - SS00	-	Decimal	R/W
Retentive Timer Coil	SC	SC00 - SC00	-	Decimal	R/W
Counter Contact	CS	CS000 - CS240	-	Decimal	R/W
Counter Coil	CC	CC000 - CC240	-	Decimal	R/W
Link Special Relay	SB	SB000 - SB1EF	-	Hexadecimal	R/W
Special Relay	SM	SM0000 - SM9979	-	Decimal	R/W
Data Register	D	-	D0000 - D7999	Decimal	R/W
Link Register	W	-	W000 - W1FF	Hexadecimal	R/W
Timer CV	TN	-	TN000 - TN511	Decimal	R/W
Retentive Timer CV	SN	-	SN00 - SN15	Decimal	R/W
Counter CV	CN	-	CN000 - CN255	Decimal	R/W
Link Special Register	SW	-	SW000 - SW1FF	Hexadecimal	R/W
Special Register	SD	-	SD00000 - SD11999	Decimal	R/W

Communication Cable Wiring

This interface is satisfied with standard IEEE802.3 about the 10BaseT/100BaseTX. You can configure the cable and allocation pin number of RJ45 as shown below.

RJ45 Connector	RJ45 Jack

Direct Cable: Host ↔︎ HUB

Cable	No.	Color	Color	No.	Cable
	1	Orange/White	Orange/White	1
	2	Orange	Orange	2
	3	Green/White	Green/White	3
	4	Blue	Blue	4
	5	Blue/White	Blue/White	5
	6	Green	Green	6
	7	Brown/White	Brown/White	7
	8	Brown	Brown	8

Crossover Cable: Host ↔︎ Host

Cable	No.	Color	Color	No.	Cable
	1	Orange/White	Green/White	1
	2	Orange	Green	2
	3	Green/White	Orange/White	3
	4	Blue	Blue	4
	5	Blue/White	Blue/White	5
	6	Green	Orange	6
	7	Brown/White	Brown/White	7
	8	Brown	Brown	8

Modbus TCP

Canvas supports Modbus TCP as a way to connect with other devices that support this protocol. Users can Swap 16 for Integers, Strings, Float32 and Float64, Swap 32 for Integer, Float32, and Float64, and Swap 64 for Integer and Float64. Users will also have to set the Unit Identifier for Modbus TCP to correctly identify the device it is trying to connect to.

Address and Function Codes

The memory areas listed below are provided for general purposes. The actual available memory area and range of each area should be checked with the manual for the connecting device. The ‘Read’/’Write’ columns show the MODBUS function codes used in this communication driver.

The symbol character has to be placed in the first position of the address string. The address number follows the symbol character.

The following table shows the list of valid address ranges and used MODBUS function codes for each address area:

Area	Symbol	Analog Tag	Digital Tag	Read	Write
Coil	0		000001 - 0299991	1	5
Input	1		100001 - 129999	2
Holding Register	4	400001 - 429999		3	6, 162
Input Register	3	300001 - 329999		4

The symbol character does not behave as a number. For example, 400100 and 40100 designate the same memory area (holding register 100).
Code 16 is issued for writing double words or when the recipe write function is activated. When writing single words, code 6 is used.

Communication Cable Wiring

This interface is satisfied with standard IEEE802.3 about the 10BaseT/100BaseTX. You can configure the cable and allocation pin number of RJ45 as shown below.

RJ45 Connector	RJ45 Jack

Direct Cable: Host ↔︎ HUB

Cable	No.	Color	Color	No.	Cable
	1	Orange/White	Orange/White	1
	2	Orange	Orange	2
	3	Green/White	Green/White	3
	4	Blue	Blue	4
	5	Blue/White	Blue/White	5
	6	Green	Green	6
	7	Brown/White	Brown/White	7
	8	Brown	Brown	8

Crossover Cable: Host ↔︎ Host

Cable	No.	Color	Color	No.	Cable
	1	Orange/White	Green/White	1
	2	Orange	Green	2
	3	Green/White	Orange/White	3
	4	Blue	Blue	4
	5	Blue/White	Blue/White	5
	6	Green	Orange	6
	7	Brown/White	Brown/White	7
	8	Brown	Brown	8

Back to top of Device Communication

ODVA EtherNet/IP

OPC UA Client

Omron FINS

Canvas supports Omron FINS as a way to connect to other devices that support this protocol. Users will need to set up Fins to use it. Users must specify the ID of the Source Node, Source Network, Destination Network, Destination Node, and Destination Unit to have Omron FINS set up correctly.

Supported Symbols

CS1/CJ1

Name	Symbol	Bit Range	Word Range	Address Number System	Access
Auxiliary Relay	A	A000.00 - A447.15	A000 - A447	Decimal	R
		A448.00 - A959.15	A448 - A959	Decimal	R/W
Common I/O	CIO	CIO0000.00 - CIO6143.15	CIO0000 - CIO6143	Decimal	R/W
Counter	CV	-	CV0000 - CV4095	Decimal	R/W
Counter Status	CC	CC0000 - CC4095	-	Decimal	R/W
Data Memory	D	D00000.00 - D32767.15	D00000 - D32767	Decimal	R/W
Expansion Data Memory	E	E0.00000.00 - EC_32767.15	E0.00000 - EC_32767	E{Bank number}_{start addr.} Bank number: Hexadecimal Start address: Decimal	R/W
Holding Relay	H	H0000.00 - H1535.15	H0000 - H1535	Decimal	R/W
Index Register	IR	-	IR00 - IR15	Decimal	R/W
Timer	TV	-	TV0000 - TV4095	Decimal	R/W
Timer Status	TC	TC0000 - TC4095	-	Decimal	R/W
Working Relay	W	W000.00 - W511.15	W000 - W511	Decimal	R/W

CJ2

Name	Symbol	Bit Range	Word Range	Address Number System	Access
Auxiliary Relay	A	A000.00 - A447.15	A000 - A447	Decimal	R
		A448.00 - A1471.15	A448 - A1471	Decimal	R/W
		A10000.00 - A11535.15	A10000 - A11535	Decimal	R/W
Common I/O	CIO	CIO0000.00 - CIO6143.15	CIO0000 - CIO6143	Decimal	R/W
Counter	CV	-	CV0000 - CV4095	Decimal	R/W
Counter Status	CC	CC0000 - CC4095	-	Decimal	R/W
Data Memory	D	D00000.00 - D32767.15	D00000 - D32767	Decimal	R/W
Expansion Data Memory	E	E0.00000.00 - EC_32767.15	E0.00000 - EC_32767	E{Bank number}_{start addr.} Bank number: Hexadecimal Start address: Decimal	R/W
Holding Relay	H	H0000.00 - H1535.15	H0000 - H1535	Decimal	R/W
Index Register	IR	-	IR00 - IR15	Decimal	R/W
Timer	TV	-	TV0000 - TV4095	Decimal	R/W
Timer Status	TC	TC0000 - TC4095	-	Decimal	R/W
Working Relay	W	W000.00 - W511.15	W000 - W511	Decimal	R/W

Communication Cable Wiring

This interface satisfies standard IEEE802.3 about the 10BaseT/100BaseTX. You can configure the cable and allocation PIN of RJ45, as shown below.

RJ45 Connector	RJ45 Jack

Direct Cable: Host ↔︎ HUB

Cable	No.	Color	Color	No.	Cable
	1	Orange/White	Orange/White	1
	2	Orange	Orange	2
	3	Green/White	Green/White	3
	4	Blue	Blue	4
	5	Blue/White	Blue/White	5
	6	Green	Green	6
	7	Brown/White	Brown/White	7
	8	Brown	Brown	8

Crossover Cable: Host ↔︎ Host

Cable	No.	Color	Color	No.	Cable
	1	Orange/White	Green/White	1
	2	Orange	Green	2
	3	Green/White	Orange/White	3
	4	Blue	Blue	4
	5	Blue/White	Blue/White	5
	6	Green	Orange	6
	7	Brown/White	Brown/White	7
	8	Brown	Brown	8

Proface GPEthernet

Canvas supports Proface GPEthernet as a way to connect to devices that support this protocol. Users will be able to Swap 16 for Integers and Strings and also Swap 32 for Integers.

Supported Symbols

Name	Symbol	Bit Range	Word Range	Address Number System	Access
-	-	-	0000 - 8191	Decimal	R/W

The following addresses cannot be accessed.

Address < 20
2032 < Address < 2096
8191 < Address

Communication Cable Wiring

This interface satisfies standard IEEE802.3 about the 10BaseT/100BaseTX. You can configure the cable and allocation PIN of RJ45, as shown below.

RJ45 Connector	RJ45 Jack

Direct Cable: Host ↔︎ HUB

Cable	No.	Color	Color	No.	Cable
	1	Orange/White	Orange/White	1
	2	Orange	Orange	2
	3	Green/White	Green/White	3
	4	Blue	Blue	4
	5	Blue/White	Blue/White	5
	6	Green	Green	6
	7	Brown/White	Brown/White	7
	8	Brown	Brown	8

Crossover Cable: Host ↔︎ Host

Cable	No.	Color	Color	No.	Cable
	1	Orange/White	Green/White	1
	2	Orange	Green	2
	3	Green/White	Orange/White	3
	4	Blue	Blue	4
	5	Blue/White	Blue/White	5
	6	Green	Orange	6
	7	Brown/White	Brown/White	7
	8	Brown	Brown	8

Back to top of Device Communication

Siemens S7

Canvas supports Siemens S7 as a way to connect to devices that support this protocol. Users can set up the Slot Number and Rack Number of the S7. This will need to be correct to grab information from the correct device.

Supported Symbols

Name	Symbol	Bit Range	Word Range	Address Number System	Access
Process Inputs	I	I0.0 - I1023.7 (Max 65535.7)	I0 - I1023 (Max 65535)	Decimal	R/W
Process Outputs	Q	Q0.0 - Q1023.7 (Max 65535.7)	Q0 - Q1023 (Max 65535)	Decimal	R/W
Merkers	M	M0.0 - M4095.7 (Max 65535.7)	M0 - M4095 (Max 65535)	Decimal	R/W
DB	DB	DB0,0.0 - DB65535,65535.7	DB0,0 - DB65535,65535	Decimal	R/W
Counters	C	-	C0 - C65535	Decimal	R/W
Timer	T	-	T0 - T65535	Decimal	R/W

S7 1200/1500 notes:

Only global DBs can be accessed.
To access a DB memory area in S7 1200/1500, some additional settings in PLC software (TIA Portal) are required.
The optimized block access must be turned off.
1) Select the DB in the left pane under “Program blocks” and press [Alt+Enter]. (Or in the contextual menu, select “Properties…”)
2) Uncheck Optimized block access

The access level must be “full,” and the “connection mechanism” must allow GET/PUT.
1) Select the CPU project in the left pane and press [Alt+Enter]. (Or in the contextual menu, select “Properties…”.)
2) Select “Full access” and check “Permit access with PUT/GET …” as in the image below.

Communication Cable Wiring

This interface satisfies standard IEEE802.3 about the 10BaseT/100BaseTX. You can configure the cable and allocation PIN of RJ45, as shown below.

RJ45 Connector	RJ45 Jack

Direct Cable: Host ↔︎ HUB

Cable	No.	Color	Color	No.	Cable
	1	Orange/White	Orange/White	1
	2	Orange	Orange	2
	3	Green/White	Green/White	3
	4	Blue	Blue	4
	5	Blue/White	Blue/White	5
	6	Green	Green	6
	7	Brown/White	Brown/White	7
	8	Brown	Brown	8

Crossover Cable: Host ↔︎ Host

Cable	No.	Color	Color	No.	Cable
	1	Orange/White	Green/White	1
	2	Orange	Green	2
	3	Green/White	Orange/White	3
	4	Blue	Blue	4
	5	Blue/White	Blue/White	5
	6	Green	Orange	6
	7	Brown/White	Brown/White	7
	8	Brown	Brown	8

Serial Device

Back to top of Device Communication

CIMON PLC

This is the default protocol for Canvas. Users will be able to choose any of the CIMON PLCs under PLC Type. No additional settings will appear after any of the CIMON PLCs are selected.

Communication Settings: PLC

Communication Module

If using one of the following PLC modules to communicate with Xpanel, the card settings must be configured in CICON as shown below:

CM1 - CN01M
CM1 - CN01S
CM3 - SP02ERS
CM3 - SP02ERR
CM3 - SP02ERC
CM3-SP02ERSC
BPnnMxxx - U

Note that the [CH 1] tab is for usage with RS232 connections, while the [CH 2] tab is for usage with RS485 connections. All communication parameters must match the settings chosen during the I/O device configuration in Canvas. Once the correct parameters have been entered, press the [Write] button while online with the PLC to update the communication parameters.

CPU Built-in Communication Port

If using a built-in CPU (PLC) serial port to communicate with Xpanel, the channel settings must be configured in CICON as shown below:

This connection option is available with the following models:

CM1 - XP Series
CM1 - CP Series
BPnnMxxx - S
PLC-S

All communication parameters must match the settings chosen during the I/O device configuration in Canvas.

LSIS Cnet

Canvas supports LSIS Cnet as a way to connect to devices that support this protocol. Users will be able to choose any of the LSIS Cnet PLCs under PLC Type. No additional settings will appear under either of the PLC Type options.

**XGK (XGK-CPU* / XBM / XBC)**

Name	Symbol	Bit Range	Word Range	Access
Input/Output	P	P00000 - P2047F	P0000 - P2047	R/W
Binary	M	M00000 - M2047F	M0000 - M2047	R/W
Binary	L	L000000 - L11263F	L00000 - L11263	R/W
Non-Volatile Binary	K	K00000 - K4095F	K0000 - K4095	R/W If the CPU is XGK, the bit range is "K00000 - K2047F," and the word range is "K0000 - K2047".
Status	F	F00000 - F2047F	F0000 - F2047	R
Timer	T	T0000 - T2047	-	R/W
Counter	C	C0000 - C2047	-	R/W
Control	S	-	-	-
Integer	D	-	D00000 - D32767	R/W
Index	R	-	R00000 - R32767	R/W XBM does not support the R and ZR. XBC supports only R. (R and ZR are the same devices in the XBC.)
Index	ZR	-	ZR00000 - ZR65535	R/W XBM does not support the R and ZR. XBC supports only R. (R and ZR are the same device in the XBC.)
Timer - Current Count	T	-	T0000 - T2047	R/W
Counter - Current Count	C	-	C0000 - C2047	R/W
Comm. Data Register	N	-	N00000 - N21503	R/W
Integer	Z	-	Z000 - Z127	R/W

XGK (XGK-CPUSN / XGK-CPUHN / XGK-CPUUN)

Name	Symbol	Bit Range	Word Range	Access
Input/Output	P	P00000 - P4095F	P0000 - P4095	R/W
Binary	M	M00000 - M4095F	M0000 - M4095	R/W
Binary	L	L000000 - L11263F	L00000 - L11263	R/W
Non-Volatile Binary	K	K00000 - K4095F	K0000 - K4095	R/W
Status	F	F00000 - F4095F	F0000 - F4095	R
Timer	T	T0000 - T8191	-	R/W
Counter	C	C0000 - C4095	-	R/W
Control	S	-	S000 - S255	R/W
Integer	D	-	D000000 - D524287	R/W If the CPU is XGK-CPUSN, the word range is "D000000 - D262143".
Index	R	-	R00000 - R32767	R/W
Index	ZR	-	ZR000000 - ZR524287	R/W
Timer - Current Count	T	-	T0000 - T8191	R/W
Counter - Current Count	C	-	C0000 - C4095	R/W
Comm. Data Register	N	-	N00000 - N21503	R/W
Integer	Z	-	Z000 - Z255	R/W
Special Module Register	U	-	U00.00 - U7F.31	R/W If the CPU is XGK-CPUSN, the word range is "U00.00 - U3F.31".

XGI

Name	Symbol	Bit Range	Byte Range	Word Range	DWord Range	QWord Range	Access
Input Points	I	%IX000.00.00 - %IX127.15.63	%IB000.00.0 - %IB127.15.7	%IW000.00.0 - %IW127.15.3	%ID000.00.0 - %ID127.15.1	%IL000.00.0 - %IL127.15.0	R/W
Output Points	Q	%QX000.00.00 - %QX127.15.63	%QB000.00.00 - %QB127.15.7	%QW000.00.00 - %QW127.15.3	%QD000.00.0 - %QD127.15.1	%QL000.00.0 - %QL127.15.0	R/W
Automatic Variable	A	%AX0000000 - %AX8388607	%AB0000000 - %AB1048575	%AW000000 - %AW524287	%AD000000 - %AD262143	%AL000000 - %AL131071	R/W
Direct Variable	M	%MX0000000 - %MX4194303	%MB0000000 - %MB524287	%MW000000 - %MW262143	%MD000000 - %MD131071	%ML00000 - %ML65535	R/W
Direct Variable	R	%RX0000000 - %RX524287	%RB00000 - %RB65535	%RW00000 - %RW32767	%RD00000 - %RW16383	%RL0000 - %RL8191	R/W
Direct Variable	W	%WX0000000 - %WX8388607	%WB0000000 - %WB1048575	%WW000000 - %WW524287	%WD000000 - %WD262143	%WL000000 - %WL131071	R/W
System Flag	F	%FX00000 - %FX65535	%FB0000 - %FB8191	%FW0000 - %FW4095	%FD0000 - %FD2047	%FL0000 - %FL1023	R
PID Flag	K	%KX000000 - %KX134399	%KB00000 - %KB16799	%KW0000 - %KW8399	%KD0000 - %KD4299	%KL0000 - %KL2199	R/W
HS Link Flag	L	%LX000000 - %LX180223	%LB00000 - %LB22527	%LW00000 - %LW11263	%LD0000 - %LD5631	%LL0000 - %LL2815	R/W
Analog Refresh Flag	U	%UX0.00.000 - %UX7.15.511	%UB0.00.000 - %UB7.15.63	%UW0.00.000 - %UW7.15.31	%UD0.00.000 - %UD7.15.15	%UL0.00.000 - %UL7.15.7	R/W
P2P Parameters Flag	N	%NX000000 - %NX401407	%NB00000 - %NB50175	%NW00000 - %NW25087	%ND00000 - %ND12543	%NL0000 - %NL6271	R/W

Communication Cable Wiring

eXT07/nXT07
COM1: RS-422/485
COM2: RS-232C

eXT10/12/15
COM1: RS-422/485
COM2: RS-232C
COM3: RS-232C

COM1

COM2

COM3

The above picture shows the RS-232C and RS-422/485 ports of the Xpanel. Please refer to your device manual for signal descriptions.

For the RS-232C ports, Xpanel provides the standard DB9 RS-232C pin assignment.

Back to top of Device Communication

Mitsubishi MELSEC Serial

Canvas supports Mitsubishi MELSEC Serial as a way to connect to devices that support this protocol. Users will be able to choose any of the Mitsubishi PLCs under PLC Type. Users will also need to select the Frame Type for the PLC as well.

Address and Supported Symbols

The memory areas listed below are provided for general purposes. The actual available memory area and range of each area should be checked with the manual for the connecting device.

The symbol character has to be placed in the first position of the address string. The address number follows the symbol character.

Name	Symbol	Bit Range	Word Range	Address Number System	Access
Input	X	X0000 - X1757 (1777)	-	Octal	R
Output	Y	Y0000 - Y1757	-	Octal	R
Internal Relay	M	M0000 - M7659	-	Decimal	R/W
Latching Relay	L	L0000 - L7659	-	Decimal	R/W
Annunciator	F	F000 - F107	-	Decimal	R/W
Edge Relay	V	V0000 -V2029	-	Decimal	R/W
Link Relay	B	B000 - B0EF	-	Hexadecimal	R/W Not supported for iQ-F FX5
Step Relay	S	S0000 - S4079	-	Decimal	R/W
Timer Contact	TS	TS000 - TS496	-	Decimal	R/W
Timer Coil	TC	TC000 - T496	-	Decimal	R/W
Retentive Timer Contact	SS	SS00 - SS00	-	Decimal	R/W
Retentive Timer Coil	SC	SC00 - SC00	-	Decimal	R/W
Counter Contact	CS	CS000 - CS240	-	Decimal	R/W
Counter Coil	CC	CC000 - CC240	-	Decimal	R/W
Link Special Relay	SB	SB000 - SB1EF	-	Hexadecimal	R/W
Special Relay	SM	SM0000 - SM9979	-	Decimal	R/W
Data Register	D	-	D0000 - D7999	Decimal	R/W
Link Register	W	-	W000 - W1FF	Hexadecimal	R/W
Timer CV	TN	-	TN000 - TN511	Decimal	R/W
Retentive Timer CV	SN	-	SN00 - SN15	Decimal	R/W
Counter CV	CN	-	CN000 - CN255	Decimal	R/W
Link Special Register	SW	-	SW000 - SW1FF	Hexadecimal	R/W
Special Register	SD	-	SD00000 - SD11999	Decimal	R/W

Communication Cable Wiring

eXT07/nXT07
COM1: RS-422/485
COM2: RS-232C

eXT10/12/15
COM1: RS-422/485
COM2: RS-232C
COM3: RS-232C

COM1

COM2

COM3

The above picture shows the RS-232C and RS-422/485 ports of the Xpanel. Please refer to your device manual for signal descriptions.

For the RS-232C ports, Xpanel provides the standard DB9 RS-232C pin assignment.

Modbus RTU

Canvas supports Modbus RTU as a way to connect to devices that support this protocol. No additional settings will appear on the selection of this protocol.

Area	Symbol	Analog Tag	Digital Tag	Read	Write
Coil Status	0		000001 - 0299991	1	5
Input Status	1		100001 - 129999	2
Holding Register	4	400001 - 429999		3	6, 162
Input Register	3	300001 - 329999		4

The symbol character does not behave as a number. For example, 400100 and 40100 designate the same memory area (holding register 100).
Code 16 is issued for writing double words or when the recipe write function is activated. When writing single words, code 6 is used.

Modbus Slave Setting in PLC Parameter

Communication Cable Wiring

XPANEL COM/CPM2 RS-232C
XPANEL COM1 RS-422/485

The above picture shows the RS-232C and RS-422/485 ports of the Xpanel. Please refer to your device manual for signal descriptions.

For the RS-232C ports, Xpanel provides the standard DB9 RS-232C pin assignment. Typically, RD, TD, and SG pins are enough to communicate with a general MODBUS device.

Omron HostLink

Canvas supports Omron Hostlink as a way to connect to devices that support this protocol. No additional settings will appear on the selection of this protocol.

Supported PLC Memories

Area	Symbol	Analog Tag	Digital Tag	Remark
DM area	D	D0000 – D9999	D0000.00 – D0000.15 D9999.00 – D9999.15	(1)
CIO area	CIO	CIO0000 – CIO6143	CIO0000.00 – CIO0000.15 CIO6143.00 – CIO6143.15
AR area	A	A0000 – A0959	A0000.00 – A0000.15 A0959.00 – A0959.15	(1), (2)
HR area	H	H0000 – H0511	H0000.00 – H0000.15 H0511.00 – H0511.15
T/C status	TC	not supported	TC0000 – TC4095	(3)
T/C p. value	PV	PV0000 – PV4095	not supported	(3)
LR area	L	L0000 – L0199	L0000.00 – L0000.15 L0199.00 – L0199.15
EM area	E	E0_0000 – E0_9999 EC_0000 – EC_9999	E0_0000.00 – E0_0000.15 EC_9999.00 – EC_9999.15	(1), (4)
IR area	IR	IR0000 – IR6143	IR0000.00 – IR0000.15 IR6143.00 – IR6143.15

If the address of this area was used for a digital tag, control functionalities are not supported. Xpanel cannot set/reset these points.
The A000 - A0447 address area cannot be modified by Xpanel (read-only area).
1. Timer: T0000 – T2143 area was mapped to TC0000 - TC2143 (PV0000 - PV2143).
2. Counter: C0000 – C2143 area was mapped to TC2148 - TC4095 (PV2148 - PV4095).
The Bank of EM area must be denoted by one hexadecimal character ('0' - 'C') as shown below:
1. Digital Tag: E[bank]_[word no].[2 digit bit no] (EA_1000.05 : bit5 of E1000 in bank ‘A’).
2. Analog Tag: E[bank]_[word no] (EC_32 : E0032 of bank ‘C’).
The bit location of the digital tag must be denoted by a two-digit decimal number ('00' - ‘15') with a dot ('.') separator.

*Exception: Timer/Counter area is a digital point by itself.

Wiring Diagram

RS-232C

C Series RS-422A

CS/CJ Series

RS-422A

Back to top of Device Communication

Panasonic FP7

Canvas supports Panasonic FP7 as a way to connect to devices that support this protocol. No additional settings will appear on the selection of this protocol.

Address and Supported Symbols

The memory areas listed below are provided for general purposes. The actual available memory area and range of each area should be checked with the manual for the connecting device.

The symbol character has to be placed in the first position of the address string. The address number follows the symbol character.

Name	Symbol	Bit Range	Word Range	Address Number System	Access
External input relay	X	X000.0 - X511.F	X000 - X511	Decimal, Hexadecimal	R/W
External output relay	Y	Y000.0 - Y511.F	Y000 - Y511	Decimal, Hexadecimal	R/W
Internal relay	R	R0000.0 - R2047.F	R0000 - R2047	Decimal, Hexadecimal	R/W
Link relay	L	L0000.0 - L1023.F	L0000 - L1023	Decimal, Hexadecimal	R/W
Data register	DT	DT000000.0 - DT999423.F	DT000000 - DT999423	Decimal, Hexadecimal	R/W
Link register	LD	LD00000.0 - LD16383.F	LD00000 - LD16383	Decimal, Hexadecimal	R/W
Timer set value register	TS	-	TS0000 - TS4095	Decimal	R/W
Timer elapsed value register	TE	-	TE0000 - TE4095	Decimal	R/W
Counter set value register	CS	-	CS0000 - CS1023	Decimal	R/W
Counter elapsed value register	CE	-	CE0000 - CE1023	Decimal	R/W
Timer (Contact)	T	T0000 - T4095	-	Decimal	R
Counter (Contact)	C	C0000 - C1023	-	Decimal	R
Pulse relay	P	P000 - P255	-	Decimal	R
Error alarm relay	E	E0000 - E4095	-	Decimal	R
Index register	I	-	I00 - I14	Decimal	R/W
Unit memory	UM	UM000000.0 - UM524287.F	UM000000 - UM524287	Decimal, Hexadecimal	R/W
Direct input	IN	-	IN00 - IN62	Decimal	R
Direct output	OT	OT00.0 - OT62.F	OT00 - OT62	Decimal, Hexadecimal	R/W
System relay	SR	-	SR0000 - SR0223	Decimal	R
System data	SD	-	SD000 - SD255	Decimal	R

Communication Cable Wiring

eXT07/nXT07
COM1: RS-422/485
COM2: RS-232C

eXT10/12/15
COM1: RS-422/485
COM2: RS-232C
COM3: RS-232C

COM1

COM2

COM3

The above picture shows the RS-232C and RS-422/485 ports of the Xpanel. Please refer to your device manual for signal descriptions.

For the RS-232C ports, Xpanel provides the standard DB9 RS-232C pin assignment.

Yokogawa FA-M3

Canvas supports Yokogawa FA-M3 as a way to connect to devices that support this protocol. No additional settings will appear on the selection of this protocol.

Address and Supported Symbols

Some memory areas have different addressing formats.

X, Y memory area addressing format
- Format: {symbol}{1 digit for rack number}{2 digits for slot number}{2 digits for bit number}
- Rack number: 0 - 7
- Slot number: 00 - 12
- Bit number: 00 - 63
L memory area addressing format
- Format: {symbol}{1 digit for rack number}{4 digits for memory address}
- Rack number: 0 - 7
- Memory address: 0 - 1023

The memory areas listed below are provided for general purposes. The actual available memory area and range of each area should be checked with the manual for the connecting device.

The symbol character has to be placed in the first position of the address string. The address number follows the symbol character.

Name	Symbol	Bit Range	Word Range	Address Number System	Access
Input relay	X	X00201 - X71649	X00201 - X71664	Decimal	R
Output relay	Y	Y00201 - Y71649	Y00201 - Y71664	Decimal	R/W
Internal relay	I	I0001 - I4081	I0001 - I4096	Decimal	R/W
Shared relay	E	E0001 - E2033	E0001 - E2048	Decimal	R/W
Link relay	L	L00001 - L71008	L00001 - L71023	Decimal	R/W
Special relay	M	M001 - M497	M001 - M512	Decimal	R/W
Data register	D	-	D0001 - D5120	Decimal	R/W
Shared register	R	-	R0001 - R1024	Decimal	R/W
Index register	V	-	V01 - V16	Decimal	R/W
File register	B	-	-	-	-
Link register	W	-	W0001 - W1024	Decimal	R/W
Special register	Z	-	Z001 - Z256	Decimal	R/W
Timer relay	TU	TU001 - TU256	-	Decimal	R/W
Timer current value	TP	-	TP001 - TP256	Decimal	R
Timer current value	TI	-	TI001 - TI256	Decimal	R
Timer present value	TS	-	TS001 - TS256	Decimal	R/W
Counter relay	CU	CU001 - CU256	-	Decimal	R/W
Counter current value	CP	-	CP001 - CP256	Decimal	R
Counter current value	CI	-	CI001 - CI256	Decimal	R
Counter present value	CS	-	CS001 - CS256	Decimal	R/W

Communication Cable Wiring

eXT07/nXT07
COM1: RS-422/485
COM2: RS-232C

eXT10/12/15
COM1: RS-422/485
COM2: RS-232C
COM3: RS-232C

COM1

COM2

COM3

The above picture shows the RS-232C and RS-422/485 ports of the Xpanel. Please refer to your device manual for signal descriptions.

For the RS-232C ports, Xpanel provides the standard DB9 RS-232C pin assignment.

Data Server Editor

To access the Data Server Editor, go to Tools > Data Server Editor or click the Open Data Server Editor… on the toolbar to open it. To create a new device, click the + icon to open the Add New Server Device screen. Users can select the Connection Type of ethernet or serial for that specific device. Users can also select the Device Type, which will open a dropdown of specific devices that Canvas supports connecting to. Once selected, the Data Server will be created with default settings.

Ethernet Device

MQTT JSON Publisher

The MQTT JSON Publisher can be used to publish to the user and subscribe to read tag data. Users can set Subscribe Topic and Publish Topic to follow the subscribe/publishing method for MQTT JSON Publisher.

Back to top of Device Communication

Modbus TCP/RTU

OPC UA Server

OPC UA Server tags must have a unique Browse Name. Users must set whether the Tag can be Allowed Read and Allowed Write when creating the Device Tag for the OPC UA Server.

The address used by the client will be ns=2;s=<server prefix>.<browse name>. Depending on the settings of the OPC UA Server, if the Server Layout is set to Basic, then the format will be ns=2;s=Tags.browseName, or if it is set to Device, then it will be ns=2;s=Tags.deviceName.browseName.

Back to top of Device Communication

Serial Device

Serial Devices are used when a connection to another device is made via a serial cable. Users will need to input the Serial Port of the device they are connecting to, the Comm Type, and the Baudrate. Users can also select the PLC Type, the String Encoding, and the String Encoding Method. Users will also be able to change the name of the Device and the Protocol of the device as well. For Modbus TCP, users must enter the Unit ID via Modbus to connect successfully and the String Encoding and String Encoding Method. Modbus RTU is currently the only protocol for Serial Devices on Data Server Editor.

Device Tag

Payload Editor

Back to top of Device Communication

Certificate Editor

Key Pairs

The Key Pairs page is where users can see their current Key Pairs. Clicking the + icon will create a new Key Pair. Users will need to insert a Name, a Certificate, a Private Key, and a Description. Users can also add a Password for the Private Key as an additional layer of security. Users will also be able to Delete and Edit any current Key Pairs they have.

Back to top of Device Communication

Trust Stores

There is also a Trust Stores tab, where users can put all known certificates they use within the project. This is where certificates will be verified by the project to confirm that they are acceptable. Users can click the + icon to create a new Trust Store. This will open the New Trust Store pop-up page. Users will need to add a Name, Certifications, and a Description. Users can Delete and Edit any Trust Stores already created.