Jet IO 6550 Manual v1.6
Contents
1. Command File File Besse IP Address 192 168 10 103 Send Stop Loop Save As E 41 6 2 Single Command mode Type the correct IP address of target unit in IP Address field PLC address in the Command field Then click Enter key You can read the Response of the PLC address Single Command samples et Y Read Coils 10001 or 1001 2 0202550 821581050 Write Register 40001 1234 oo 21581050 Write Register 40001 FFODH hex Note If you type the wrong IP address the utility will re try the connection few times This may take few seconds please wait and close the popup alert screen and type the correct IP address again 4 1 6 3 To read register just type the PLC address To write register user needs to type the new value behind the PLC address The example is 40001 1234 ASCII word or 40001 FFO00h 16x Hex 4 1 6 4 Command File mode Type PLC address you want read or write in the text file Type the correct IP address of target unit in IP Address field Browse the text file to load the file Example Write below commands in Modbus test txt file and browse it 40001 40002 40003 40004 40005 29 Command File File Di Projects WJetlO4Utility Modbus test w Browse IP Address 192 168 10 103 4 1 6 5 Commands Run Send to run the multiple commands Run Stop to stop the program Select Continue to run all commands once Select Loop to2. 14 Rule13 Rule12 XXXX xxxx bit 15 Rulel4 Rulel3 Rulel2 0 select DI channel 1 select auxiliary flag channel write to Flash RAM 01 8 40505 R W Read Write Select DO channel or auxiliary flag for rule 0 3 R xxxx xxxx xxxx xxxx bit W XXXX xxxx bit 0 select DO channel 1 select auxiliary flag channel write to Flash RAM 01 9 40506 R W Read Write Select DO channel or auxiliary flag for rule 4 7 R xxxx xxxx xxxx xxxx bit W XXXX XXxx xxxx bit 0 select DO channel 1 select auxiliary flag channel write to Flash RAM 01FA 40507 R W Read Write Select DO channel or auxiliary flag for rule 8 11 R xxxx xxxx xxxx xxxx bit W XXXX XXXX xxxx bit 0 select DO channel 1 select auxiliary flag channel write to Flash RAM 01FB 40508 R W Read Write Select DO channel or auxiliary flag for rule 12 15 R xxxx xxxx xxxx xxxx bit W XXXX XXXX xxxx bit 0 select DO channel 1 select auxiliary flag channel write to Flash RAM 55 O1FC 40509 R W Read Write Select PTP Enable disable condition flag R 0000 0000 xxxx xxxx bit W 0000 0000 xxxx xxxx bit x 0 disable 1 enable write to Flash RAM 01FD 40510 R W Read Write PTP select condition channel for 4 condition R ABCD W ABCD A condition 3 B condition 2 A condition 1 B condition 0 write to Flash RAM 01FE 40511 R W
3. DI Channel 00 Configuration Select Channel DI 00 DI Mode Status ON DI Channel Configuration Event Counter DI Channel 00 Configuration Test Select Channel 01 00 1 Mode Settings Mode Event Counter E Counter mode parameter LowtoHigh Highto Low 2 Power n Settings Counter mode parameter Counter Start 3 Safe Status Settings Counter mode parameter Counter Start Continue Apply to all channels Select Channel DI 00 DI 13 or select Apply to all channels e Mode Settings Mode Event Counter Counter mode parameter Low to High or High to Low Power On Settings Start or Disable Enable Power On selection to automatically count the events when startup the device e Sale Status Settings Start Continue or Disable Enable Safe Status selection to keep counting the events when disconnected the LAN interface Press Apply to assign the mode for the channel DI Channel Test Event Counter Select the target channel and press Start to monitor the counter of the trigger mode Press Reset Counter to reset the counter to zero DI Channel 00 Configuration f Select Channel DI 00 Event Counter Mode Trigger Low to High Counter 58008 Reset Counter 4 1 4 3 Go to Data page In this page you could monitor the current working status of each channel both on DI and DO General 1 0 Conf
4. R W Read Write PTP IP address ip 8 low word for client R AABB W AABB write to Flash RAM 0214 40533 R W Read Write IP address ip 8 hi word for client R AABB W AABB write to Flash RAM 0215 40534 R W Read Write RuleEnable Logic 0 7 R 00000000xxxxxxxx bit W 00000000xxxxxxxx bit 0 disable 1 enable write to Flash RAM 0216 40535 R W Read Write Select or AND R AAAA hex W AAAA hex 00000000 X 0 OR Logic 1 AND Logic write to Flash RAM 0217 40536 R W Read Write Select condition DI for Rule 8 R ABCD hex W ABCD hex A condition 3 Logic DI Channel 58 B condition 2 Logic DI Channel C condition 1 Logic DI Channel D condition 0 Logic DI Channel write to Flash RAM 0218 40537 R W Read Write Select condition DI for Rule 9 R ABCD hex W ABCD hex A condition 3 Logic DI Channel B condition 2 Logic DI Channel C condition 1 Logic DI Channel D condition 0 Logic DI Channel write to Flash RAM 0219 40538 R W Read Write Select condition DI for Rule 10 R ABCD hex W ABCD hex A condition 3 Logic DI Channel B condition 2 Logic DI Channel C condition 1 Logic DI Channel D condition 0 Logic DI Channel write to Flash RAM 021A 40539 R W Read Write Select condition DI for Rule 11 R ABCD hex W
5. doPulseOperateStatus This object shows you the status of the Pulse Output channels Use Binary display mode to read the value The binary number 0 represent the Pulse Output OFF 1 represent the Pulse Output ON The last bit represent the first channel ChO The first 2 bits Ch14 15 remain 00 RW do00PulseLowWidth Low value of the Pulse mode parameter The unit of the value is millisecond RW do00PulseHiWidth High value of the Pulse mode parameter The unit of the value is millisecond RW do01PulseLowWidth Low value of the Pulse mode parameter The unit of the value is millisecond RW do01PulseHiWidth High value of the Pulse mode parameter The unit of the value is millisecond RW do02PulseLowWidth Low value of the Pulse mode parameter The unit of the value is millisecond RW do02PulseHiWidth High value of the Pulse mode parameter The unit of the value is millisecond RW do03PulseLowWidth Low value of the Pulse mode parameter RW 78 The unit of the value is millisecond do03PulseHiWidth High value of the Pulse mode parameter The unit of the value is millisecond RW do04PulseLowWidth Low value of the Pulse mode parameter The unit of the value is millisecond RW do04PulseHiWidth High value of the Pulse mode parameter The unit of the value is millisecond RW do05PulseLowWidth Low value of the Pulse mo
6. 77 Block I O Configuration Utility Korenix Technology File Tools Help Dj 3 Network PC Network General 10 Configuration Data Alarm JetlD 6512 132 168 10 12 is JetlO 6511 192 158 10 11 IP 192 168 10 50 JetlD 6510 192 168 10 10 qus 1610 5550 3 10 50 Subnet mask 255 255 255 0 Gateway 192 168 10 254 DHCP Disable Module name 6550 Firmware ver F208 qe Update 4 Move the mouse over to one of the Jetl O units Select the unit then you can configure and monitor the configurations of the Jetl O The features Block 1 Configuration utility provides are similar Please find your model name and go to its configuration introduction chapter in below JetI O 6550 Configuration 4 1 4 1 Go to General page Once you select one of the existing modules in the Network interface tree the main window defaults to the General page General 1 0 Configuration Data Logic Rules Peer to 1 0 SNMP Password for entry Change IP 192 168 10 68 Subnet mask 255 255 550 Gateway 2158101 DHCP Disable Model name eso FW version Fog C Update It should be noticed that the privilege setting is required to gain access to do the further configuration options When you install the I O module in first time the default password is admin You just need to click on Login button and type the password of Admin on p
7. Click Reset to default and Reboot in the popup menu to set factory default or reboot the device It should be noticed that you need to rescan network after completing the Reset to default and Reboot activity Below is the related configuration information corresponding to JetlO s Modbus registers as well as module IP configuration for your reference i e internally script command to implement backup and restore configuration activity JetlO 6550 Module Backup 0 di conf 1 do conf 2 snmp trap ips 3 logic rules 4 ppio conf 5 mis 38 6 ip conf mis PLCAddr 0 40001 40002 1 41000 41003 di conf PLCAddr 0 40011 40014 do conf PLCAddr 0 40051 1 40017 40018 2 do poweron value 3 do safe value 4 40035 40050 5 40019 40034 do poweron value Action r0240007 w0 00001 8 r0 w1 40007 FF00 do safe value Action r0 40008 w0 00001 8 r0 w1 40008 FF00 snmp trap ips PLCAddr 0 40098 40106 logic rules PLCAddr 0 40052 40087 1 40096 40097 2 40108 40131 ppio conf PLCAddr 0 40094 40095 ip conf Program key ip conf var0 ip ip var2 ip gateway var3 ip dhcp 39 5 5 1 Modbus TCP Command Set This chapter introduces the Modbus TCP command set Jetl O provided When you creating application for your SCADA HMI or coding your own programs The command set is helpful for you to find the value of each registers Following topics are covered in this chapter 5 1 Introdu
8. 5 DICounterValue gt SetCounterValue 6 DICounterValue lt SetCounterValue 7 lt DICounterValue gt SetCounterValue 8 gt DICounterValue lt SetCounterValue write to EEprom 0041 40066 R W Read Write Select Operators condition for Rule 4 R ABCD hex W ABCD hex A Operators condition 3 Logic B Operators condition 2 Logic B Operators condition 1 Logic D Operators condition 0 Logic Value 0 ON DI 1 OFF DI 2 Lo Hi DI 3 Hi Lo DI 4 DICounterValue SetCounterValue 5 lt DICounterValue gt SetCounterValue 6 gt DICounterValue lt SetCounterValue 7 lt DICounterValue gt SetCounterValue 87 lt DICounterValue lt SetCounterValue write to EEprom 0042 40067 R W Read Write Select Operators condition for Rule 5 R ABCD hex W ABCD hex A Operators condition 3 Logic B Operators condition 2 Logic B Operators condition 1 Logic D Operators condition 0 Logic Value 0 ON DI 1 OFF DI 2 Lo Hi Dl 3 Hi Lo DI 4 DICounterValue SetCounterValue 5 lt DICounterValue gt SetCounterValue 6 gt DICounterValue lt SetCounterValue 7 lt DICounterValue gt SetCounterValue 8 gt DICounterValue lt SetCounterValue write to EEprom 0043 40068 R W Read Write Select Operators condition for Rule 6 R ABCD hex W ABCD hex A Operators condition 3 Logic B Operators condition 2 Logic B Opera
9. A condition 3 DO Channel B condition 2 DO Channel B condition 1 DO Channel D condition 0 DO Channel write to EEprom 0048 40073 R W Read Write Select THEN DO for Rule 3 R ABCD hex W ABCD hex A condition 3 DO Channel B condition 2 DO Channel B condition 1 DO Channel D condition 0 DO Channel write to EEprom 0049 40074 R W Read Write Select THEN DO for Rule 4 48 R ABCD hex W ABCD hex A condition 3 DO Channel B condition 2 DO Channel B condition 1 DO Channel D condition 0 DO Channel write to EEprom 004A 40075 RAN Read Write Select THEN DO for Rule 5 R ABCD hex W ABCD hex A condition 3 DO Channel B condition 2 DO Channel B condition 1 DO Channel D condition 0 DO Channel write to EEprom 004B 40076 RAN Read Write Select THEN DO for Rule 6 R ABCD hex W ABCD hex A condition DO Channel B condition 2 DO Channel B condition 1 DO Channel D condition 0 DO Channel write to EEprom 004C 40077 R W Read Write Select THEN DO for Rule 7 R ABCD hex W ABCD hex A condition 3 DO Channel B condition 2 DO Channel B condition 1 DO Channel D condition 0 DO Channel write to EEprom 004D 40078 R W Read Write Select Operators Action for Rule 0 R ABCD hex W ABCD hex A Operators Action 3 Logic B Operators Action 2 Logic B Opera
10. ABCD hex A condition Logic DI Channel B condition 2 Logic DI Channel C condition 1 Logic DI Channel D condition 0 Logic DI Channel write to Flash RAM 021B 40540 R W Read Write Select condition DI for Rule 12 R ABCD hex W ABCD hex A condition 3 Logic DI Channel B condition 2 Logic DI Channel C condition 1 Logic DI Channel D condition 0 Logic DI Channel write to Flash RAM 021C 40541 R W Read Write Select condition DI for Rule 13 R ABCD hex 59 W ABCD hex A condition Logic DI Channel B condition 2 Logic DI Channel C condition 1 Logic DI Channel D condition 0 Logic DI Channel write to Flash RAM 021D 40542 R W Read Write Select condition DI for Rule 14 R ABCD hex W ABCD hex A condition 3 Logic DI Channel B condition 2 Logic DI Channel C condition 1 Logic DI Channel D condition 0 Logic DI Channel write to Flash RAM 021E 40543 R W Read Write Select condition DI for Rule 15 R ABCD hex W ABCD hex A condition 3 Logic DI Channel B condition 2 Logic DI Channel C condition 1 Logic DI Channel D condition 0 Logic DI Channel write to Flash RAM 021F 40544 R W Read Write Select Operators condition for Rule 8 R ABCD hex W ABCD hex A Operators condition 3 Logic B Operators condition 2 Logic C Operators condition 1 Logic D Ope
11. RAN Read Write Channel 4 DO Pulse Output Count Value Low Word 0 Continuous count 1 FFFFFFFF number of pulse write to EEprom 001C 40029 RAW Read Write Channel 5 DO Pulse Output Count Value Hi Word 001D 40030 R W Read Write Channel 5 DO Pulse Output Count Value Low Word 0 Continuous count 1 FFFFFFFF number of pulse write to EEprom 001E 40031 RAN Read Write Channel 6 DO Pulse Output Count Value Hi Word 43 001F 40032 R W Read Write Channel 6 DO Pulse Output Count Value Low Word 0 Continuous count 1 FFFFFFFF number of pulse write to EEprom 0020 40033 R W Read Write Channel 7 DO Pulse Output Count Value Hi Word 0021 40034 R W Read Write Channel 7 DO Pulse Output Count Value Low Word 0 Continuous count 1 FFFFFFFF number of pulse write to EEprom 0022 40035 R W Read Write Channel 0 DO Pulse Low Signal Width R W 1 FFFF 1ms write to EEprom 0023 40036 R W Read Write Channel 1 DO Pulse Low Signal Width R W 1 FFFF 1ms write to EEprom 0024 40037 R W Read Write Channel 2 DO Pulse Low Signal Width R W 1 FFFF 1ms write to EEprom 0025 40038 R W Read Write Channel 3 DO Pulse Low Signal Width R W 1 FFFF 1ms write to EEprom 0026 40039 R W Read Write Channel 4 DO Pulse Low Signal Width R W 1 FFFF 1m
12. Wiring Analog Digital Input Output Wiring Ethernet Ports DIN Rail Mounting Installation 2 1 Hardware Introduction Dimensions 120 x 55 x 75 D m i 6000 00 0 0 2 ui Ar m Jetl O 6550 Appearance Model Name amp nm LED Major Features PWR Power Jetl O 6550 RDY Ready 14 CH DI n 8 CH DO Pin Assignment DI Cho CH13 DO Cho CH7 24 Pins Pitch 5 0mm Mounting se Din 35 7 27 por Input 7 oo oor E e ue wm 8 138 us or pe om LED Indicators System LED PWR Power Input plugged and On Green RDY System startup ready Red Ethernet LED Upper LAN Activity Orange On amp Blinking Lower 10M 100M 10M Green Off 100M Green ON 2 2 Wiring Power Input Follow below steps to wire DC power inputs 1 Follow the pin assignment to insert the wires into the contacts on the terminal block connector 2 Tighten the wire clamp screws to prevent DC wires from being loosened 3 Connect to and turn on the power source The suitable working voltage is 24 00 4 Whenthe unit is ready the PWR LED turns Greed the RDY LED turns Red Note It is a good practice to turn off input and load power and to unplug power termi
13. continuously run all commands The commands can be applied to Single Command mode and Command File mode Send Stop Continue Loop Save As 192 168 18 183 gt 61 83 88 81 88 81 192 168 18 183 81 83 82 88 GI 16 ms 192 168 18 183 gt 01 83 88 82 88 81 192 168 18 183 lt 81 83 82 66 66 15 ms 192 168 18 183 gt 801 83 88 83 88 01 192 168 18 183 lt 81 83 82 F2 84 16 ms 192 168 18 183 gt 01 83 88 8 88 81 192 168 18 183 lt 81 83 82 65 18 16 ms 192 168 18 183 gt 61 83 88 85 66 1 192 168 10 103 gt 61 63 62 66 66 16 ms ficos The above screen shows you the result of running Modbus test txt example in 4 1 6 4 30 4 2 Block I O OPC Server Utility 4 2 1 OPC Server Utility 1 Goto Start lt Program and then you can see the Block IO Utility Korenix folder There are 2 utilities are installed Block IO OPC Server and Block IO Utility I Microsoft Office 17 48 EXERADIO Modbus Poll Getit22 Ej MG SOFT Browser Hurco i INGEAR OPC Servers fa Block IO Utility Korenix Block IO OPC Server lig Yso gt BE Block IO Utility s JetPort Commander 2 Open the Block IO OPC Server 3 Select File gt New to create new profile Or select File gt Open to open profile you saved SAS OPC Server Korenix Add Edit View Help New CtitN Open Ctrl O Sa
14. 90 01 1 Disable 192 168 10 50 255 255 255 0 132 168 10 The following information is displayed ip _ A short description of the device max 16 characters DHCP DHCP client function status Enable or disable If DHCP is enabled dynamic IP is acquired from the DHCP Current Addr server Else static IP is assigned as dynamic IP Subnet mask Subnet mask Gateway IP address Module Setting ES 2 Select the target unit and click Setup button to 0 ES configure the device Click Submit to apply Medelneme 6510 the new setting FW version F206 Note When changing IP address the new Current IP 192 168 10 10 IP address and the NIC s Network Interface Card address should be located within the same subnet Static 1321621010 Subnet mask 255 255 255 0 Gateway fis2168101 0 DHCP Disable Submit Abort 13 3 Select the target units and click Reboot to reboot the device You can reboot one or multiple units in one time 4 Select the target units and click Upgrade to upload the new firmware Please refer to the section 4 4 to know the detail step by step progress 5 Click Exit to exit the device finder tool Note Clear the ARP cache arp d in DOS prompt if you can t change the second unit s IP address In DOS prompt arp can help you to see the ARP table arp d can help you to clear all the ARPs in your h
15. Counter Register Map Input Register Function Codez04 Protocol PLC Address Address Access Description Hex Decimal 0000 30001 H Channel 0 DI Counter Value Hi Word 0001 30002 H Channel 0 DI Counter Value Low Word 0002 30003 H Channel 1 DI Counter Value Hi Word 0003 30004 H Channel 1 DI Counter Value Low Word 0004 30005 R Channel 2 DI Counter Value Hi Word 0005 30006 R Channel 2 DI Counter Value Low Word 0006 30007 R Channel 3 DI Counter Value Hi Word 0007 30008 R Channel 3 DI Counter Value Low Word 0008 30009 R Channel 4 DI Counter Value Hi Word 0009 30010 R Channel 4 DI Counter Value Low Word 000A 30011 H Channel 5 DI Counter Value Hi Word 000B 30012 H Channel 5 DI Counter Value Low Word 000C 30013 H Channel 6 DI Counter Value Hi Word 000D 30014 H Channel 6 DI Counter Value Low Word 000 30015 R Channel 7 DI Counter Value Hi Word 000F 30016 R Channel 7 DI Counter Value Low Word 73 0010 30017 H Channel 8 DI Counter Value Hi Word 0011 30018 R Channel 8 DI Counter Value Low Word 0012 30019 R Channel 9 DI Counter Value Hi Word 0013 30020 R Channel 9 DI Counter Value Low Word 0014 30021 R Channel 10 DI Counter Value Hi Word 0015 30022 R Channel 10 DI Counter Value Low Word 0016 30023 R Channel 11 DI Counter Value Hi Word 0017 30024 R Cha
16. Flash RAM 0227 40552 R W Read Write Select THEN DO for Rule 8 R ABCD hex W ABCD hex A condition 3 Logic DO Channel B condition 2 Logic DO Channel C condition 1 Logic DO Channel D condition 0 Logic DO Channel write to Flash RAM 0228 40553 R W Read Write Select THEN DO for Rule 9 R ABCD hex W ABCD hex A condition 3 Logic DO Channel B condition 2 Logic DO Channel C condition 1 Logic DO Channel D condition 0 Logic DO Channel write to Flash RAM 0229 40554 R W Read Write Select THEN DO for Rule 10 R ABCD hex W ABCD hex A condition 3 Logic DO Channel B condition 2 Logic DO Channel C condition 1 Logic DO Channel D condition 0 Logic DO Channel write to Flash RAM 64 022A 40555 R W Read Write Select THEN DO for Rule 11 R ABCD hex W ABCD hex A condition Logic DO Channel B condition 2 Logic DO Channel C condition 1 Logic DO Channel D condition 0 Logic DO Channel write to Flash RAM 022B 40556 R W Read Write Select THEN DO for Rule 12 R ABCD hex W ABCD hex A condition 3 Logic DO Channel B condition 2 Logic DO Channel C condition 1 Logic DO Channel D condition 0 Logic DO Channel write to Flash RAM 022C 40557 R W Read Write Select THEN DO for Rule 13 R ABCD hex W ABCD hex A condition 3 Logic DO Channel B condition 2 Logic DO C
17. Mode Level or pulse output with programmable pulse width Working Range 5 40VDC Driving Capacity 250mA max Responding Time to Host PC Request lt 2ms Output Initial State Programmable Isolation Voltage 2500Vrms Feature Network Protocols IP TCP UDP SNMP HTTP BOOTP DHCP Modbus TCP OPC Server Configuration Windows Utility SNMP DHCP Client TFTP Server for firmware update Windows Utility Block I O Utility OPC Server Utility OPC Server for Modbus TCP SNMP MIB II System SNMP Trap and Private MIB SNMP Trap Server Up to 3 SNMP Trap Server Logic Condition amp Go Rules Conditions of the DI Counter values Actions include DO Pulse Counter Reset and Trap Peer to Peer Mapping DI channel events from one JetlO 6500 to the DO channels of another Jetl O 6500 Power Requirements System Power external unregulated 424V 18 32V Power Consumption Max 1 92W Mechanical Dimensions 120 H x 55 W x 75 D mm Mounting Din Rail Material Aluminum Environmental Regulatory Approvals CE FCC Class A Operating Temperature 25 70 Operating Humidity 0 95 non condensing Storage Temperature 40 80 C Warranty 3 years 2 Hardware Installation This chapter includes hardware introduction installation and configuration information Following topics are covered in this chapter 2 1 2 2 2 3 2 4 2 5 Hardware Introduction Dimension Appearance LED Indicators Wiring Power Input
18. Reset 1 Logic DI Channel D Reset 0 Logic DI Channel write to EEprom 0073 40116 RAN Read Write set if logic DI counter value for rule 0 R W ABCD hex low word 0074 40117 R W Read Write set if logic DI counter value for rule 0 53 R W ABCD hex hi word 0075 40118 RAN Read Write set if logic DI counter value for rule 1 R W ABCD hex low word 0076 40119 RAN Read Write set if logic DI counter value for rule 1 R W ABCD hex hi word 0077 40120 R W Read Write set if logic DI counter value for rule 2 R W ABCD hex low word 0078 40121 R W Read Write set if logic DI counter value for rule 2 R W ABCD hex hi word 0079 40122 R W Read Write set if logic DI counter value for rule 3 R W ABCD hex low word 007A 40123 R W Read Write set if logic DI counter value for rule 3 R W ABCD hex hi word 007B 40124 R W Read Write set if logic DI counter value for rule 4 R W ABCD hex low word 007C 40125 R W Read Write set if logic DI counter value for rule 4 R W ABCD hex hi word 007D 40126 R W Read Write set if logic DI counter value for rule 5 R W ABCD hex low word 007E 40127 R W Read Write set if logic DI counter value for rule 5 R W ABCD hex hi word 007F 40128 RAW
19. action value AABB 0000H 00FFH write to EEprom 0007 40008 R W R Read safe value W Setting present coil value is SAFE value Read Write R AABB W FF00 action value AABB 0000H 00FFH write to EEprom 0008 40009 R W Read Write DI Counter status R W 00 bin Bit 0 is channel 0 0 Off 1 On start DI count 0009 40010 R W Read Write DI Counter Overflow status R W 00 bin Bit 0 is channel 0 Read 0 Normal 1 Overflow Write 0 clear overflow status 1 return illegal Data Value 000A 40011 RAN Read Write DI Counter Trigger Mode R W 00 bin Bit 0 is channel 0 0 Low to High 1 High to Low write to EEprom 000B 40012 RAN Read Write DI Mode R W 00 bin Bit 0 is channel 0 0 DI 1 Counter write to EEprom 000C 40013 R W Read Write DI Counter Power On Status R W 000 bin Bit 0 is channel 0 0 Off 1 On write to EEprom 000D 40014 R W Read Write DI Counter Safe Status R W 00xxxxxxxxxxxxxx bin Bit 0 is channel 0 0 Off 1 write to EEprom 000 40015 R W Read Write DI Clear Counter Value R always 0 42 W 00xxxxxxxxxxxxxx bin Bit 0 is channel 0 Write 1 Clear Counter Value 0 Return illegal data value 000F 40016 R W Read Write DO Pulse Operate Status R W 00000000xxxxxxxx bin Bit 0 is ch
20. the bottom of DIN Rail clip into the track c Check if DIN Rail clip is tightly attached on the track d Korenix suggests reserve at least 5mm interval distance between the Jetl O devices This is good for heat dispersing e To remove Jetl O 6500 from the track reverse the steps above 3 Preparation for Management Before you start to configure the Jetl O you need to know the system architecture of the Jetl O products configure the device s IP address and then you can remotely manage the Ethernet via the network This chapter introduces the basic knowledge of the related technologies Following topics are covered in this chapter 3 1 Understand the Ethernet Architecture 3 2 Preparation for Remote Management 31 Understand the Ethernet Architecture The Figure 1 shows the Jetl O Intelligent Ethernet I O Server Architectures In the top level shows the typical applications run in the remote environment The middle level is the Ethernet infrastructure The low level gray block include the software agent signal types of the Jetl O 6500 series intelligent Ethernet I O Server SCADA HMI SNMP Window Utility We rogram Figure 1 The Jetl O Intelligent Ethernet I O Server Architecture 3 2 Preparation for Remote Management Jetl O 6500 series Intelligent I O Server provides several types remote management methods You can configure the Jetl O via the Ethernet network You just need to know the device
21. the firmware of a Jetl O without firmware When user starts the progress of the firmware upgrade the Jetl O runs as the DHCP client mode to get the IP from DHCP Server and download the firmware from the server Note 1 The progress is also known as BootP Get IP address and upgrade new firmware in the same progress Please note that there is only one DHCP server available over the same network Otherwise the device may get the wrong IP Since Device Finder builds in a server Korenix suggests you make sure there is only one DHCP BOOTP server on the network when you upgrade the JetlO firmware Upgrade Procedure for Mode A Firmware Upgrade m 1 Lunch the Block I O utility and then select the Device Finder from toolbar or select Device Finder from Tools menu to enable the Device Finder tool 2 Press Search button to search all JetlO modules on the network and check the IP address e g 192 168 10 68 of the JetlO target module 35 Notes a Disable Firewall b Enable only one network card on your PC c Set a proper IP address with the same segment as the IP address of your PC d DON T configure more than one IP address on the network interface e Select a correct module firmware code i e 6550 Fxxx bin for JetlO 6550 3 Select the target module and click Upgrade to upload the new firmware and then the Firmware Upgrade dialog prompt you to do the further setting 4 Select the JetlO tar
22. 0 Port 502 Figure 4 4 Example Add all the drivers for available models If you have 5 models over the same network add them and give them different name for identification in next steps Like Model Name 6510 IP address 10 5 Type the Device Name and select the Device Type and the Driver in the Device Properties window Device Type means the Jetl O model name Driver is the name you configured in last step Device Properties Device Name 6510 1 Device Settings Device Type Y Timeout 1000 Checksum Block IO Prot 6510 10 8 CH Analog Inputs w DO Module Simulate HO does not access the physical device Cama 6 Select Add gt New Group to create new group for the later new tags you ll create Select Add gt New Tag and fill the Tag Properties in the popup window Select the tag and Edit Properties you can modify the tag properties Tag Properties Name Description Analog Input Cancel Type Analog Input Channel 0 Simulation signal Sine Note The Simulation Signal is used when choosing Simulate mode Simulate I O mode is selected in Device Properties This feature allows you to generate simulation values and run testing when you operate the OPC client You can see the value is continuously changed The Sine Ramp and Random are the different type s simulation signal 33 Select the device in the device
23. 0056 40087 R W Read Write Condition Enable for Rule 4 7 R ABCD hex W ABCD hex A O disable 1 enable rule 7 O disable 1 enable rule 6 C xxxx x O disable 1 enable rule 5 D xxxx O disable 1 enable rule 4 write to EEprom 0057 40088 R W Reserved 0058 40089 R W Reserved 0059 40090 R Read device type of peer to peer R 0x6550 hex 005A 40091 R Read status of peer to peer R 0x000A bhex Az1 connect active 0 not connect 005B 40092 R Read output coil of client server peer to peer R xxxxxxxx bin X 1 X 0 005C 40093 R Read input coil of client server peer to peer R 0000xxxxxxxxxxxx bin X 1 X 0 005D 40094 R W Read Write Peer to Peer Enable Disable 51 R 000A hex W 000A hex A O disable 1 enable 005E 40095 R W Read Write Mirror to client or Mirror from server R 000A hex W 000A hex A 0 Mirror to client 1 Mirror from server 005F 40096 R W Read Write Action Enable for Rule 0 3 R ABCD hex W ABCD hex X O disable 1 enable rule B xxxx O disable 1 enable rule 2 C Xxxx x 0 disable 1 enable rule 1 D xxxx O disable 1 enable rule 0 write to EEprom 0060 40097 R W Read Write Action Enable for Rule 4 7 R ABCD hex W ABCD hex x O disable 1 enable rule 7 B xxxx 0 disable 1 enable rule 6 C Xxxx x 0 disable 1 enable rule 5 D xxxx 0 disable 1 enable rule 4 write to
24. 0207 40520 R W Read Write PTP IP address ip 2 low word for server R AABB W AABB write to Flash RAM 0208 40521 R W Read Write PTP IP address ip 2 hi word for server R AABB W AABB write to Flash RAM 0209 40522 R W Read Write PTP IP address ip 3 low word for server R AABB W AABB write to Flash RAM 020A 40523 R W Read Write PTP IP address ip 3 hi word for server R AABB W AABB write to Flash RAM 020B 40524 R W Read Write PTP IP address ip 4 low word for server R AABB W AABB write to Flash RAM 020C 40525 R W Read Write PTP IP address ip 4 hi word for server R AABB W AABB write to Flash RAM 020D 40526 R W Read Write PTP IP address ip 4 low word for server 57 R AABB W AABB write to Flash RAM 020E 40527 R W Read Write PTP IP address ip 4 hi word for server R AABB W AABB write to Flash RAM 020F 40528 R W Read Write PTP IP address ip 6 low word for server R AABB W AABB write to Flash RAM 0210 40529 R W Read Write PTP IP address ip 6 hi word for server R AABB W AABB write to Flash RAM 0211 40530 R W Read Write PTP IP address ip 7 low word for server R AABB W AABB write to Flash RAM 0212 40531 R W Read Write PTP IP address ip 7 hi word for server R AABB W AABB write to Flash RAM 0213 40532
25. ABCD hex A Reset 3 Logic DI Channel B Reset 2 Logic DI Channel B Reset 1 Logic DI Channel D Reset 0 Logic DI Channel write to EEprom 006D 40110 R W Read Write Which DI channel is reset for Rule 2 R W ABCD hex A Reset 3 Logic DI Channel B Reset 2 Logic DI Channel B Reset 1 Logic DI Channel D Reset 0 Logic DI Channel write to EEprom 006E 40111 R W Read Write Which DI channel is reset for Rule 3 R W ABCD hex A Reset 3 Logic DI Channel B Reset 2 Logic DI Channel B Reset 1 Logic DI Channel D Reset 0 Logic DI Channel write to EEprom 006F 40112 RAN Read Write Which DI channel is reset for Rule 4 R W ABCD hex A Reset 3 Logic DI Channel B Reset 2 Logic DI Channel B Reset 1 Logic DI Channel D Reset 0 Logic DI Channel write to EEprom 0070 40113 RAN Read Write Which DI channel is reset for Rule 5 R W ABCD hex A Reset 3 Logic DI Channel B Reset 2 Logic DI Channel Reset 1 Logic DI Channel D Reset 0 Logic DI Channel write to EEprom 0071 40114 R W Read Write Which DI channel is reset for Rule 6 R W ABCD hex A Reset 3 Logic DI Channel B Reset 2 Logic DI Channel B Reset 1 Logic DI Channel D Reset 0 Logic DI Channel write to EEprom 0072 40115 RAN Read Write Which DI channel is reset for Rule 7 R W ABCD hex A Reset 3 Logic DI Channel B Reset 2 Logic DI Channel B
26. AM 023A 40571 R W Read Write Action Enable for Rule 12 15 R ABCD hex W ABCD hex A 0 l enable rule 15 x O disable l enable rule 14 C x O disable l enable rule 13 D x O disable l enable rule 12 write to Flash RAM 023B 40572 R W Read Write Which DI channel is reset for Rule 8 R W ABCD hex A Reset 3 Logic DI Channel B Reset 2 Logic DI Channel C Reset 1 Logic DI Channel D Reset 0 Logic DI Channel write to Flash RAM 69 023C 40573 R W Read Write Which DI channel is reset for Rule 9 R W ABCD hex A Reset 3 Logic DI Channel B Reset 2 Logic DI Channel C Reset 1 Logic DI Channel D Reset 0 Logic DI Channel write to Flash RAM 023D 40574 R W Read Write Which DI channel is reset for Rule 10 R W ABCD hex A Reset 3 Logic DI Channel B Reset 2 Logic DI Channel C Reset 1 Logic DI Channel D Reset 40 Logic DI Channel write to Flash RAM 023E 40575 R W Read Write Which DI channel is reset for Rule 11 R W ABCD hex A Reset 3 Logic DI Channel B Reset 2 Logic DI Channel C Reset 1 Logic DI Channel D Reset 0 Logic DI Channel write to Flash RAM 023F 40576 R W Read Write Which DI channel is reset for Rule 12 R W ABCD hex A Reset 3 Logic DI Channel B Reset 2 Logic DI Channel C Reset 1 Logic DI Channel D R
27. CD hex A condition 3 Logic DI Channel B condition 2 Logic DI Channel B condition 1 Logic DI Channel D condition 0 Logic DI Channel write to EEprom 003A 40059 R W Read Write Select condition DI for Rule 5 R ABCD hex W ABCD hex A condition 3 Logic DI Channel B condition 2 Logic DI Channel B condition 1 Logic DI Channel D condition 0 Logic DI Channel write to EEprom 003B 40060 R W Read Write Select condition DI for Logic 6 R ABCD hex W ABCD hex A condition 3 Logic DI Channel B condition 2 Logic DI Channel B condition 1 Logic DI Channel D condition 0 Logic DI Channel write to EEprom 003C 40061 R W Read Write Select condition DI for Rule 7 R ABCD hex W ABCD hex A condition 3 Logic DI Channel B condition 2 Logic DI Channel B condition 1 Logic DI Channel D condition 0 Logic DI Channel write to EEprom 003D 40062 R W Read Write Select Operators condition for Rule 0 45 ABCD hex W ABCD hex A Operators condition 3 Logic B Operators condition 2 Logic B Operators condition 1 Logic D Operators condition 0 Logic Value 0 ON DI 1 OFF DI 2 Lo Hi DI 3 Hi Lo DI 4 DICounterValue SetCounterValue 5 DICounterValue gt SetCounterValue 6 DICounterValue lt SetCounterValue 7 lt DICounterValue gt SetCounterValue 8 DICounterValue lt SetCounte
28. EEprom 0061 40098 RAN Read Write SMNP Trap Number R 000X hex W 000X hex X 1 4 Trap Number write to EEprom 0062 40099 R W Read Write SNMP Trap IP1 Lo Word R AABB hex W AABB hex write to EEprom 0063 40100 R W Read Write SNMP Trap 1 Hi Word R AABB hex W AABB hex IP AA BB X X write to EEprom 0064 40101 R W Read Write SNMP Trap 2 Lo Word R AABB hex W AABB hex IP X X AA BB write to EEprom 0065 40102 R W Read Write SNMP Trap IP2 Hi Word R AABB hex W AABB hex write to EEprom 0066 40103 R W Read Write SNMP Trap IP3 Lo Word R AABB hex W AABB hex write to EEprom 0067 40104 R W Read Write SNMP Trap Hi Word R AABB hex W AABB hex write to EEprom 0068 40105 R W Read Write SNMP Trap Lo Word R AABB hex W AABB hex IP X X AA BB write to EEprom 52 0069 40106 R W Read Write SNMP Trap Hi Word R AABB hex W AABB hex IP AA BB X X write to EEprom 006A 40107 RAN Write Repeat Reset enable SNMP Trap W FFOO hex 006B 40108 RAN Read Write Which DI channel is reset for Rule 0 R W ABCD hex A Reset 3 Logic DI Channel B Reset 2 Logic DI Channel B Reset 1 Logic DI Channel D Reset 0 Logic DI Channel write to EEprom 006C 40109 R W Read Write Which DI channel is reset for Rule 1 R W
29. ERVER UTILITY 31 4 3 SNMP eB e 35 4 4 WEB 35 4 5 How TO UPGRADE FIRMWARE 35 4 6 CONFIGURATION BACKUP RESTORE RESET DEFAULT AND REBOOT 37 5 MODBUS TCP COMMAND SET 40 5 1 INTRODUCTION OF MODBUS TCP PROTOCOL 40 5 2 JETI O 6550 MODBUS TCP ADDRESS MAPPING 41 08 8 2 dh D b Cs c Mm 76 6 1 SNMP MIB Gg susu u eee re nm N 76 6 2 REVISION HISTORY 80 1 1 1 Introduction Welcome to Korenix Jet O 6500 Series Industrial Managed Ethernet I O Module User Manual Following topics are covered in this chapter 1 1 Overview of Jetl O 6500 Series 1 2 Package Checklist 1 3 Jetl O 6550 Introduction 1 4 Jetl O 6550 Product Specification Overview of Jetl O 6500 Series Jetl O 6500 series is a series of Managed Ethernet I O server for distributive monitoring and controls The 161 0 6500 series equipped with one Ethernet port and multiple channels Analog Input Output Digital Input Output and temperature measurement connectors Thus users can easily perform 1 0 data collecting status changing automatically activate events through the Ethernet network JetI O 6500 series provides Windows Utilities and SNMP for configuration And support Modbus TCP protocol OPC Server for Modbus TCP thus user
30. I DO mode and check status for each channel General 1 0 Configuration Data Alarm Channel Mode Status Trigger Mode Power On Status 0100 01 01 01 02 01103 01104 01 05 0106 01 07 lt Counter Counter Counter Counter Counter Counter Counter Counter Stop Start Stop Start Stop Start Stop Start High to Low High to Low High to Low High to Low High to Low High to Low High to Low High to Low Start Start Start Start Safe Status Start Start Start Start Start Start Start Start T lt Channel Mode Status Output Count Power On Status D0 00 DO 01 00102 0003 DO 04 DO 05 00106 00107 Select the entry of the DI channel you want configure and double click The Start Start Start Start n n n n below popup window of the DI Channel s setting appears DI Channel Configuration DI Digital Input 17 DI Channel 00 Configuration Test Select Channel DI 00 1 Mode Settings 2 Power On Settings 3 Safe Status Settings Apply to all channel Apply to all channels A Apply X Cancel Select Channel DI 00 DI 13 or select Apply to all channels Mode Settings Mode DI Press Apply to assign the mode for the channel DI Channel Test DI Digital Input Select the target channel and press Start to monitor the status of the DI mode
31. Korenix Jetl O 6550 Industrial Intelligent Ethernet I O Server User Manual Sept 2009 V1 6 korenix www korenix com Korenix Jetl O 6550 Industrial Intelligent Ethernet Server User Manual Copyright Notice Copyright 2009 Korenix Technology Co Ltd All rights reserved Reproduction in any form or by any means without permission is prohibited Index 1 INTRODUCTION o eee ana ooo io rne 1 1 1 OVERVIEW OF JETI O 6500 SERIES 1 1 2 PACKAGE CHECKLIST 2 1 3 JETI O 6550 INTRODUCTION enn 2 1 4 JETI O 6550 PRODUCT SPECIFICATION 3 2 HARDWARE INSTALLATION 4 2 1 HARDWARE INTRODUCTION nennen 4 22 WIRING POWER INPUT 5 2 3 WIRING I O CONNECTORS i 6 24 JETI O 6550 WIRING 6 2 5 WIRING EARTH GROUND eene enne enne eis 7 2 6 WIRING FAST ETHERNET PORTS 7 DET DIN RAIL MOUNTING INSTALLATION 7 3 PREPARATION FOR MANAGEMENT 9 3 1 UNDERSTAND THE ETHERNET I O ARCHITECTURE 9 3 2 PREPARATION FOR REMOTE MANAGEMENT 9 4 FEATURE CONFIGURATIONN 11 4 1 BLOCK CONFIGURATION UTILITY 11 4 2 BLOCK I O OPC S
32. RAW Read Write Rule Enable Logic 0 7 R 00000000xxxxxxxx bit W 00000000xxxxxxxx bit 0 disable 1 enable write to EEprom 0034 40053 R W Read Write Select OR or AND R AAAA hex W AAAA hex 00000000 X 0 OR Logic 1 Logic write to EEprom 44 0035 40054 R W Read Write Select condition DI for Rule 0 ABCD hex W ABCD hex A condition 3 Logic DI Channel B condition 2 Logic DI Channel B condition 1 Logic DI Channel D condition 0 Logic DI Channel write to EEprom 0036 40055 R W Read Write Select condition DI for Rule 1 R ABCD hex W ABCD hex A condition 3 Logic DI Channel B condition 2 Logic DI Channel B condition 1 Logic DI Channel D condition 0 Logic DI Channel write to EEprom 0037 40056 R W Read Write Select condition DI for Rule 2 R ABCD hex W ABCD hex A condition 3 Logic DI Channel B condition 2 Logic DI Channel B condition 1 Logic DI Channel D condition 0 Logic DI Channel write to EEprom 0038 40057 R W Read Write Select condition DI for Rule 3 R ABCD hex W ABCD hex A condition 3 Logic DI Channel B condition 2 Logic DI Channel B condition 1 Logic DI Channel D condition 0 Logic DI Channel write to EEprom 0039 40058 R W Read Write Select condition DI for Rule 4 R ABCD hex W AB
33. Read Write PTP select condition channel for 4 condition R ABCD W ABCD A condition 7 B condition 6 A condition 5 B condition 4 write to Flash RAM 01FF 40512 R W Read Write PTP select action channel for 4 condition R ABCD W ABCD A action 3 B action 2 A action 1 B action 0 write to Flash RAM 0200 40513 R W Read Write PTP select action channel for 4 condition R ABCD W ABCD A action 7 B action 6 A action 5 B action 4 write to Flash RAM 0201 40514 R W Read Write Select DI channel or auxiliary flag R 0000 0000 xxxx xxxx bit W 0000 0000 xxxx xxxx bit 56 x 0 select DI channel 1 select auxiliary flag channel write to Flash RAM 0202 40515 R W Read Write Select DO channel or auxiliary flag R 0000 0000 xxxx xxxx bit W 0000 0000 xxxx xxxx bit x 0 select DO channel 1 select auxiliary flag channel write to Flash RAM 0203 40516 R W Read Write PTP IP address ip 0 low word for server R AABB W AABB write to Flash RAM 0204 40517 R W Read Write PTP IP address ip 0 hi word for server R AABB W AABB write to Flash RAM 0205 40518 R W Read Write PTP IP address ip 1 low word for server R AABB W AABB write to Flash RAM 0206 40519 R W Read Write PTP IP address ip 1 hi word for server R AABB W AABB write to Flash RAM
34. Read Write set if logic DI counter value for rule 6 R W ABCD hex low word 0080 40129 R W Read Write set if logic DI counter value for rule 6 R W ABCD hex hi word 0081 40130 R W Read Write set if logic DI counter value for rule 7 R W ABCD hex low word 0082 40131 R W Read Write set if logic DI counter value for rule 7 R W ABCD hex hi word 01 4 40501 R W Read Write Select DI channel or auxiliary flag for rule 0 3 R xxxx xxxx bit Rule3 2 Rule1 RuleO XXXX XXXX xxxx bit Rule3 2 611 0 0 select DI channel 1 select auxiliary flag channel write to Flash RAM 01 5 40502 R W Read Write Select DI channel or auxiliary flag for rule 4 7 XXXX xxxx xxxx bit Rule7 Rule6 Rule5 Rule4 XXXX xxxx bit Rule7 Rule6 Rule5 Rule4 0 select DI channel 1 select auxiliary flag channel write to Flash RAM O1F6 40503 R W Read Write Select DI channel or auxiliary flag for rule 8 11 54 R xxxx xxxx bit Rulell Rulel0 Rule9 Rule8 XXXX xxxx bit Rulell RulelO Rule9 Rule8 0 select DI channel 1 select auxiliary flag channel write to Flash RAM 01F7 40504 R W Read Write Select DI channel or auxiliary flag for rule 12 15 xxxx xxxx bit Rulel5
35. annel 0 0 Off 1 On start DO pulse output 0010 40017 R W Read Write DO Power On Pulse Operate Status R W 00000000xxxxxxxx bin Bit 0 is channel 0 0 Off 1 On write to EEprom 0011 40018 RAN Read Write DO Safe Pulse Operate Status R W 00000000 bin Bit 0 is channel 0 0 Off 1 On write to EEprom 0012 40019 R W Read Write Channel 0 DO Pulse Output Count Value Hi Word 0013 40020 R W Read Write Channel 0 DO Pulse Output Count Value Low Word 0 Continuous count 1 FFFFFFFF number of pulse write to EEprom 0014 40021 R W Read Write Channel 1 DO Pulse Output Count Value Hi Word 0015 40022 R W Read Write Channel 1 DO Pulse Output Count Value Low Word 0 Continuous count 1 FFFFFFFF number of pulse write to EEprom 0016 40023 R W Read Write Channel 2 DO Pulse Output Count Value Hi Word 0017 40024 R W Read Write Channel 2 DO Pulse Output Count Value Low Word 0 Continuous count 1 FFFFFFFF number of pulse write to EEprom 0018 40025 R W Read Write Channel 3 DO Pulse Output Count Value Hi Word 0019 40026 R W Read Write Channel 3 DO Pulse Output Count Value Low Word 0 Continuous count 1 FFFFFFFF number of pulse write to EEprom 001A 40027 RAN Read Write Channel 4 DO Pulse Output Count Value Hi Word 001B 40028
36. assword for entry field If you want to make password changes click Change button and then the dialog of Chang Password prompts you to update the new password with up to six characters Change Password x Reconfirm Password Update Cancel Note 1 The password protection is the new feature provided in firmware F206 and Utility V1 3 or later Note 2 When you upgrade firmware from F204 to F206 the default password is disabled please change new password for your device Note 3 If you forget the password you may need to reset the module via Reset to default command referred to section 2 2 6 to clear the password and load factory defaults This will result in the clear all the configuration settings as you assigned Each module has its own page to display and configure the TCP IP parameters If the function of DHCP is disabled user can type the IP address Gateway and Subnet Mask information on the page When everything is ok user can push the Update button This setting will be affected after restarting the module 4 1 4 2 IP Subnet mask Gateway DHCP Model name Fw version 1921681068 6550 F208 O Update Note After changed IP address or changed the DHCP client mode the utility will automatically reboot the unit Please rescan the devices after around 5 seconds Go to I O Configuration page In Configuration page you can configure the D
37. can easily monitor and control the remote I O devices and combine the JetI O with existed HMI SCADA package Naming Rule Jetl O 65AB A Major Feature 1 Analog Input Series Includes the RTD input Thermocouple Input 2 Analog Output Series 3 Digital Input Series 4 Digital Output Series 5 Digital Input and Digital Output Series B Sequence Number Jetl O 6500 Series includes Jetl O 6510 Industrial Intelligent 8 CH Analog Input Ethernet I O Server Jetl O 6511 Industrial Intelligent 8 CH Thermocouple Input Ethernet I O Server Jetl O 6512 Industrial Intelligent 4 CH RTD Input Ethernet I O Server Jetl O 6520 Industrial Intelligent 4 CH Analog Output Ethernet I O Server Jetl O 6550 Industrial Intelligent 14 CH DI and 8 CH DO Ethernet I O Server 1 2 Package Checklist Korenix Jetl O 6500 Series products are shipped with following items One Ethernet I O Module One attached DIN Rail clip Terminal Blocks for I O and Power Input Documentation and Software CD Quick Installation Guide If any of the above items are missing or damaged please contact your local sales representative 1 3 Jetl O 6550 Introduction Jetl O 6550 is a Block 1 0 module equipped with 14 channels Digital Input 8 channel Output connectors 1611 0 6550 supports digital input and event counter for d o can JetI pro case with good heat dispersing and IP31 protection With JetI O users can easi sta ital output and p
38. cmd to open the DOS prompt Use arp d to clear the ARP cache Note 2 After changed IP address or changed the DHCP client mode in Block Configuration utility the utility will automatically reboot the unit Please rescan the devices after around 5 seconds Note 3 You can find the detail progress in the next chapters 4 Feature Configuration 4 1 Jetl O 6500 series Industrial Managed Ethernet module provides several configuration methods This chapter introduces the configuration steps Following topics are covered in this chapter 4 1 Block I O Configuration Utility 4 2 Block I O OPC Server Utility 4 3 SNMP 44 WebUI 4 5 Modbus TCP Command set 4 5 1 Introduction of Modbus TCP protocol 4 5 2 Jetl O 6550 Modbus TCP command set Block I O Configuration Utility Block 1 Utility is the major Jetl O Configuration Utility With this tool you can browse the available units view the status of each channel configure the I O settings configure active alarms and conditions amp Go logic rule Installation 1 Go to the Utility gt IO Configuration folder Click Setup exe to run the setup progress Welcome Welcome to the Block IO Utility Korenix Setup program This program will install Block 10 Utility Korenix on your computer lt is strongly recommended that you exit all Windows programs before running this Setup program Click Cancel to quit Setup and then close any programs you have r
39. ction of Modbus TCP Protocol 5 2 Jetl O 6550 Modbus TCP Address Mapping Introduction of Modbus TCP Protocol 5 1 1 Modbus TCP Protocol The Modbus protocol developed by Gould Modicon is widely used in industrial communications to integrate PLC s computer terminals and other various I O devices Intelligent Jetl O Server equipped with communication interface provides an Ethernet communication links with Modbus TCP protocol support Modbus TCP is a variant of the Modbus family of communication protocol Modbus TCP is a Master Slave communication protocol A master a host PC initiates queries a slave one of the Jetl O servers then responds by supplying the requested data to the master by using Modbus TCP commands 5 1 2 Function Code FC The Jetl O Server uses a subset of the standard Modbus TCP function code to access device dependent information Modbus TCP function code is defined as below ee wm vssse Read Input Registers Read data in 16 bits register format Write Coil Write data to force a digital output ON OFF 06 Write Single Register Write data in 16 bits register format Force Multiple Coils Write data to force multiple consecutive coils 5 1 3 Error Checking The utilization of the error checking will help eliminate errors caused by noise in the communication link In Modbus TCP mode messages include an error checking field that is based on a Cyclical Redundancy Check CRC method The CRC filed chec
40. d error code of peer to peer 2 for server Error Code 0 OK Error Code 1 Requested Content Not Satisfiable Error Code 2 Remote Module Not Found Error Code FFFF Not Enabled 0257 40600 Read error code of peer to peer 3 for server Error Code 0 OK Error Code 1 Requested Content Not Satisfiable Error Code 2 Remote Module Not Found Error Code FFFF Not Enabled 0258 40601 Read error code of peer to peer 4 for server Error Code 0 OK Error Code 1 Requested Content Not Satisfiable Error Code 2 Remote Module Not Found Error Code FFFF Not Enabled 0259 40602 Read error code of peer to peer 5 for server Error Code 0 OK Error Code 1 Requested Content Not Satisfiable Error Code 2 Remote Module Not Found Error Code FFFF Not Enabled 025A 40603 Read error code of peer to peer 6 for server 72 Error 0 OK Error Codez1 Requested Content Not Satisfiable Error Code 2 Remote Module Not Found Error Code FFFF Not Enabled 025B 40604 R Read error code of peer to peer 7 for server Error 0 OK Error Codez1 Requested Content Not Satisfiable Error Code 2 Remote Module Not Found Error Code FFFF Not Enabled 025C 40605 R Read error code of peer to peer 8 for server Error Code 0 OK Error Codez1 Requested Content Not Satisfiable Error Code 2 Remote Module Not Found Error Code FFFF Not Enabled Jetl O 6550 DI
41. d manager An agent is a management software module that resides in a managed switch An agent translates the local management information from the managed device into a SNMP compatible format The manager is the console through the network Jetl O 6500 series supports Public MIB Il System This is for SNMP browser discovering Private MIB includes channels information Please refer to the appendix 1 6 1 SNMP Trap allows the Jetl O to send the active alarm to trap servers The SNMP Trap supports Device Cold Start LAN interface Link Up trap Common Low and High Voltage Current Temperature 651x and Logic Rules traps 655x You can configure this through Modbus TCP registers or I O Configuration utility 4 4 Web UI Type the IP address of the device Then you can access the embedded web browser of the I O server The web browser allows you monitor the information status of each channels 4 5 How to Upgrade Firmware The Jetl O server allows you remotely upgrade the firmware to fix the known issues or to update the new software features Device Finder provides a user friendly environment for firmware upgrade which includes two modes 1 Mode A Firmware Upgrade Used to upgrade the firmware of a Jetl O module which is with valid firmware and workable Device Finder supports batch upgrade in this mode User can upgrade more than one Jetl O device the same model at the same time 2 Mode B Firmware Rescue Used to reload
42. ddress There are two types Modbus TCP addresses The protocol address is an address from 0000 to the last address of the function code you choose The PLC adaress is the fixed address number of the function code This is also defined in Modbus TCP protocol Please choose the type your application uses Should you encounter problem on reading this please contact our technical support engineer korecare korenix com Jetl O 6550 Common Register Map Holding Registers Register 03 Protocol PLC Address Address Access Description Hex Decimal 0000 40001 R W Read Write Host Watch dog enable disable R W AABB AABB 0000H disable AABB FF00H enable 0001 40002 R W Read Write Host Watch dog cycle count R W AABB AABB 0001H 00FFH 1 255 0 1 sec count cycle sec 0002 40003 R W R Read the host watchdog status W Reset the host watchdog status R AABB AABB 0000H remote module OK AABB FF00H fail 41 W AABB AABB FFOOH reset 0003 40004 R Read the firmware version R AAAA AAAA F10A HEX 0004 40005 R Read module name R AAAA AAAA 6550 HEX 0005 40006 R Read reset status R AABB AABB 0000H after using this read command AABB 0001H The value is equal to0001H after reset module 0006 40007 R W R Read power on value W Setting present coil value is POWERON value Read Write R AABB W FF00
43. de parameter The unit of the value is millisecond RW do05PulseHiWidth High value of the Pulse mode parameter The unit of the value is millisecond RW do06PulseLowWidth Low value of the Pulse mode parameter The unit of the value is millisecond RW do06PulseHiWidth High value of the Pulse mode parameter The unit of the value is millisecond RW do07PulseLowWidth Low value of the Pulse mode parameter The unit of the value is millisecond RW do07PulseHiWidth High value of the Pulse mode parameter The unit of the value is millisecond RW doMode This object shows you the mode of the Digital Output channels Use Binary display mode to read the value The binary number 0 represent the DO mode 1 represent the Pulse Output mode The last bit represent the first channel Ch0O For example Ch0 3 is DO Ch4 13 are Pulse Output mode Ch14 15 remain 00 the value you can get set is 00111111 11110000 in 16 RW ruleEnable This object shows you which rule is triggered RO 79 6 2 Revision History Version Description Date 1 6 Update General page Update Configuration page Update Data page Update Logic Rules page Update Peer to Peer I O page Add SNMP page Add new Modbus TCP registers in FW208 Sept 1 2009 1 5 Fix error of digital input modbus address Mar 18 2008 1 4 Add configurat
44. e on the network again Monitor Active Status Refer to above Figure as below in the bottom field of this to Peer 1 page is the motoring area It is monitoring the status both on peer to peer I O activity and internal flags Click Active Status button the dialog of peer to peer I O active status will popup to represent the status code on peer to peer I O activity Peer to Peer I O Active Status Role Status Code Description 0 Mirror to OxFFFF Not Enabled Mirror from 1 0 0000 DK Mirror from 2 OxFFFF Not Enabled Mirror from 3 0 0000 DK Mirror from 84 OxFFFF Not Enabled Mirror from 5 0 0000 DK Mirror from 6 OxFFFF Not Enabled Mirror from 7 0 0000 DK Mirror from 8 OxFFFF Not Enabled Close If there is error occurred you could directly browse the latest activity from status code of peer to peer I O activity The status code is defined as below Status Code Descriptions 0x0000 NO Errors 0x0001 Requested Content Not Satisfiable That is The content was well formed but was unable to be followed due to non satisfiable data For example module type associated with data format was NOT consistent 0x0002 Remote Module Not Found OxFFFF Not Enabled the Peer to Peer I O Activity Click Internal Flag button the internal flag dialog will prompt for you to 26 browse all the internal flags If you use internal flags as the in
45. er Input Power Earth Ground 3 0V Referenced Ground for Power Input 2 6 Wiring Fast Ethernet Ports Jetl O 6500 series includes 1 RJ45 Fast Ethernet ports The fast Ethernet ports support 10Base T and 100 full or half duplex modes The fast Ethernet port will auto detect the signal from connected devices to negotiate the link speed and duplex mode Auto MDI MDIX allows users to connect another switch hub or workstation without changing straight through or crossover cables Connect one side of an Ethernet cable into the Ethernet port and connect the other side to the attached switch or host The link LED will light up when the cable is correctly connected Refer to the LED Indicators section for descriptions of each LED indicator Always make sure that the cables length between the 2 ends is less than 100 meters 328 feet The wiring cable types are as below 10Base T 2 pair UTP STP Cat 3 4 5 cable EIA TIA 568 100 ohm 100m 100 Base TX 2 pair UTP STP Cat 5 cable EIA TIA 568 100 ohm 100m 1000 Base TX 4 pair UTP STP Cat 5 cable EIA TIA 568 100 ohm 100m 2 7 Din Rail Mounting Installation The DIN Rail clip is already attached to the Jetl O 6500 Series when packaged If the DIN Rail clip is not screwed on the Jetl O follow the instructions and the figure below to attach DIN Rail clip to Jetl O a Insert the upper end of DIN Rail clip into the back of DIN Rail track from its upper side b Lightly push
46. eset 0 Logic DI Channel write to Flash RAM 0240 40577 R W Read Write Which DI channel is reset for Rule 13 R W ABCD hex A Reset 3 Logic DI Channel B Reset 2 Logic DI Channel C Reset 1 Logic DI Channel D Reset 0 Logic DI Channel write to Flash RAM 0241 40578 R W Read Write Which DI channel is reset for Rule 14 R W ABCD hex A Reset 3 Logic DI Channel B Reset 2 Logic DI Channel C Reset 1 Logic DI Channel D Reset 40 Logic DI Channel write to Flash RAM 0242 40579 R W Read Write Which DI channel is reset for Rule 15 R W ABCD hex 70 A Reset 3 Logic DI Channel B Reset 2 Logic DI Channel C Reset 1 Logic DI Channel D Reset 0 Logic DI Channel write to Flash RAM 0243 40580 R W Read Write set if logic DI counter value for rule 8 R W ABCD hex low word 0244 40581 R W Read Write set if logic DI counter value for rule 8 R W ABCD hex hi word 0245 40582 R W Read Write set logic DI counter value for rule 9 R W ABCD hex low word 0246 40583 R W Read Write set if logic DI counter value for rule 9 R W ABCD hex hi word 0247 40584 R W Read Write set if logic DI counter value for rule 10 R W ABCD hex low word 0248 40585 R W Read Write set if logic DI counter value for rule 10 R W ABCD hex hi word 0249 40586 R W Read Write set if logic DI co
47. evice Finder from Tools menu to enable the Device Finder tool 2 A Jetl O with invalid firmware can not be found by search Notes a Disable Firewall b Enable only one network card on your PC c Set a proper IP address with the same segment as the IP address of your PC d DON T configure more than one IP address on the network interface e Select a correct module firmware code i e 6550 Fxxx bin for JetlO 6550 36 3 Press Upgrade button to pop up the Firmware Upgrade console 4 Seta proper IP address for JetlO module boot loader Please note that the IP address should be set to the same network segment of your PC 5 Press the browser button _ to select a correct JetlO firmware code Please do not modify the filename Device Finder uses the filename of the firmware to identify if the firmware matches the model of the Jetl O device 6 Press Upgrade Firmware button to start upgrading the new JetlO firmware code 7 Press Yes to start the progress when seeing the upgrading information popup window Press No to stop the progress 8 The JetlO target module should be rebooted automatically after the new JetlO firmware code was upgraded successfully nj Q 221 Network UE Network fes 1 Device Finder invalided Module s ID Model name FW version MAC Description D gent IP Addr Subnet mask 2 Ins module IP can t be found by this toon Upgrade Firm
48. get module from the device list of Device Finder console You can select one more modules with the same model name to do batch upgrade 5 Press Upgrade button to pop up the Firmware Upgrade dialog 6 The default value of the Module IP Address field is the current IP address of the device For batch upgrade do not need to change this field 7 Press the browser button _ to select a correct firmware code Please do modify the filename Device Finder uses the filename of the firmware to identify if the firmware matches the model of the Jetl O device 8 Press Upgrade Firmware button to start upgrading the new firmware code 9 The JetlO target module should be rebooted automatically after the new JetlO firmware code was upgraded successfully UO Gostizsratipa Utilita Q af Network 52 PC Network Open Device Finder Module s ID Model name 1 Jetl0 6550 Module IP Address 32158 10 68 Module Firmware Path SO00R Firmware F20646550_F206 bin Firmware Upgrade Notes 1 Set a proper IP address with the same segment as the IP address of your PC 2 Select a correct module firmware code 3 Disable Firewall 4 Enable only one network card on your PC Exit Upgrade Procedure for Mode B Firmware Resure m 1 Lunch the Block I O utility and then select the Device Finder from toolbar or select D
49. hannel C condition 1 Logic DO Channel D condition 0 Logic DO Channel write to Flash RAM 022D 40558 R W Read Write Select THEN DO for Rule 14 R ABCD hex W ABCD hex A condition 3 Logic DO Channel B condition 2 Logic DO Channel C condition 1 Logic DO Channel D condition 0 Logic DO Channel write to Flash RAM 022E 40559 R W Read Write Select THEN DO for Rule 15 R ABCD hex W ABCD hex A condition 3 Logic DO Channel B condition 2 Logic DO Channel C condition 1 Logic DO Channel 65 D condition 0 Logic DO Channel write to Flash RAM 022F 40560 R W Read Write Select Operators Action for Rule 8 R ABCD hex W ABCD hex A Operators Action 3 Logic B Operators Action 42 Logic C Operators Action 1 Logic D Operators Action 0 Logic Value 0 ON 1 OFF 2 Counter reset 3 DO pulse output start 4 DO pulse output stop 5 SNMP Trap write to Flash RAM 0230 40561 R W Read Write Select Operators Action for Rule 9 R ABCD hex W ABCD hex A Operators Action 3 Logic B Operators Action 42 Logic C Operators Action 1 Logic D Operators Action 0 Logic Value 0 ON 1 OFF 2 Counter reset 3 DO pulse output start 4 DO pulse output stop 5 SNMP Trap write to Flash RAM 0231 40562 R W Read Write Select Operators Action for Rule 10 R ABCD hex W ABCD hex A O
50. igned name for the system Read Only running the SNMP agent By convention this should be its fully qualified domain name SYNTAX DisplayString SIZE 0 31 sysLocation The sysLocation directive is used to define the Public location of the host on which the SNMP agent Read Only server is running This directive is used for the sysLocation object instance of the MIB II SYNTAX DisplayString SIZE 0 31 76 MIB Intelligent I O Server 0 Object ID OID Description Community R W Access diStatus This object shows you the status of the Digital Input channels Use Binary display mode to read the value The binary number 0 represent the DI OFF 1 represent DI ON mode The last bit represent the first channel ChO For example Ch0 3 is DI OFF Ch4 13 is DI ON Ch14 15 remains 00 the value you can get is 00111111 11110000 16xHex RO diMode This object shows you the mode of the Digital Input channels Use Binary display mode to read the value The binary number 0 represent the DI mode 1 represent Event Counter mode The last bit represent the first channel Ch0O For example Ch0 3 is DI Ch4 13 is Event Counter mode Ch14 15 remains 00 the value you can get set is 00111111 11110000 3 0 in 16xHex 16368 in 10xHex Type 163668 to set the value RW diCounterStatus This object shows you the status of the Event Counter channel Use Binary display mode
51. iguration Data Logic Rules Peer to Peer 1 0 SNMP 1 0 Area Digital Input 8 0 DI 6 DI O O 2 2 a 2 2 2 2 2 2 2 2 co e O Digital Output 3D DO 5 007 elle o es Lm a lu e a Ino o a I e a I DIO DI13 In DI 0 13 you can read the DI status DO0 DO8 In DO 0 7 you can read the status or control the ON OFF state E After turned off the DI DO the round LED is not light thus it keeps in white color After activated the DI DO the round LED becomes to red color Digital Input In DI 0 13 you can read the DI status The hex number 2086 displayed in the Digital Input field shows you which DI channels are under ON status The value is the same as the 20 4144 Digital Output Blinking value you can access via Modbus TCP register For example 2DB6 0b 0010 1101 1011 0110 represent those DI channels of CH13 CH11 10 8 CH7 CH5 4 CH2 CHI turn ON in RED LED indication as well as the rest channels are OFF in WHITE LED indication In DO 0 7 you can read the DO status or activate the ON OFF state The hex number displayed in the Digital Output field shows you which DO channels are under ON status The value is the same as the value you can acce
52. in cascade mode and mirror these flags to from the remote modules via peer to peer I O activity The supported conditions and actions are as below Condition Action ON OFF ON to DI Channel DO Channel ON OFF OFF OFF to ON ON OFF ON to Internal Flag Internal Flag ON OFF OFF OFF to ON Event Counter Event Counter gt lt gt lt Reset Channel Channel Counter Value Number Pulse Output Start or Stop Relation between OR AND SNMP Trap Server IP Conditions After completing all configurations for I O logic rule click Save button in the bottom of the Logic Rules area All the mapping configurations will be flushed into flash memory on the module In order to extend the flash memory life it is strongly recommended that you should save all configurations together at one time instead of saving individual setting many times Go to Peer to Peer page With peer to peer I O activity input channel status on one module could be actively updated to specific output channel on another module over the existing Ethernet connection The above data exchange will be transferred automatically without any controller or programming needed Each channel including all the digital inputs D Is and or internal flags on the 23 source module can be mapping to channel including all the digital outputs as well as internal flags on different destination modules The Peer to Peer I O activity on all the modules not on
53. ion backup restore Simply firmware upgrade procedure Dec 24 2008 1 21 Change Pin No table Change Device Finder Utility to Device Finder Popup Window due to Device Finder Utility is merged 6 Remove Web configure Add steps and screen for Password Login and Change Add examples for Terminal mode Update Tag Properties popup window Add more description for firmware upgrading progress Change Watch dog timer to host watch dog timer in Register 40001 40002 Add Password Registers 41000 41003 Web display not web configuration Add Peer to Peer mapping Jun 25 2008 Add Emulation mode operation description Add Terminal mode operation description Add Notes for the Simulation mode OPC Server Utility Add Notes for Device IP change Device Finder Utility Add Notes in How to upgrade firmware Add Reset command description Add description for Modbus TCP address mapping Correct Wordings Logic rule gt I O rule I O module gt I O server Add description of the SNMP and Trap Apr 17 2008 Update Modbus TCP Reset Status register Feb 20 2008 Li Add Note for IP changed Trap types update latest datasheet info correct some wordings add calibration table Feb 12 2008 First Release Change V0 3 to V1 0 Jan 30 2008 80
54. ital Output signal 0005 00006 RW Channel 5 Digital Output signal 0006 00007 RW Channel 6 Digital Output signal 0007 00008 R W Channel 7 Digital Output signal Note When the host failed writing output coil is invalid and return exception code 04 75 6 Appendix 6 1 SNMP MIB An SNMP to I O MIB file that can help you monitor I O status with SNMP software You can find the MIB file on the package I Public System MIB Object ID Description Community OID R W Access sysDescr The sysDescr directive is used to define the system Public description of the host on which the SNMP agent Read Only server is running This description is used for the sysDescr object instance of the MIB II SYNTAX DisplayString SIZE 0 31 sysObjectlD The vendor s authoritative identification of the Public network management subsystem contained in the Read Only entity This value is allocated within the SMI enterprises sub tree SYNTAX DisplayString SIZE 0 31 sysUpTime The sysUpTime directive is used to measures the Public time in hundredths of a second since the last Read Only system restart SYNTAX DisplayString SIZE 0 31 sysContact The sysContact directive is used to define the system Public contact address used for the sysContact object Read Only instance of the MIB II SYNTAX DisplayString SIZE 0 31 sysName The sysName directive is a string containing an Public administratively ass
55. ks the contents of the entire message It applied regardless of any parity check method used for the individual BYTE actors of the message The CRC value is calculated by the transmitting device which appends the CRC to the message The receiving device recalculates a CRC during receipt of the message and compares the calculated value to the actual value it received in the CRC filed 40 5 1 4 Exception Response If an error occurs the slave sends an exception response message to master consisting of the slave address function code exception response code and error check field In an exception response the slave sets the high order bit MSB of the response function code to one The exception response codes are listed below 0 01 Illegal Function The message function received is not allowable action 02 Illegal Data Address The address referenced in the data field is not valid 03 Illegal Data Value The value referenced at the addressed device location is no within range 04 Slave Device Failure An unrecoverable error occurred while the slave was attempting to perform the requested action i it but a long duration of time will be required to do so program command received in the query detected a parity error in the memory 5 2 Jetl O 6550 Modbus TCP Address Mapping Note Some of the results are using Hex Ex FF00H mode Signed 1 mode or others mode This result depends on the value of the a
56. list Choose Add Generate Tags the utility generate all the channels tags for the device you choose This step can save the time to create all channels tags JetlO_6500_All tdb OPC Server Korenix Fie Add Edit View Help afp Analog Input Analog Input Analog Input Analog Input 1 Analog Input Analog Input 2 Analog Input Analog Input 3 Analog Input Analog Input 4 Analog Input Analog Input 5 Analog Input Analog Input 6 Anslog Input Analog Input 7 Als has 8 Tags Name The name of the channel You can manually change this value Type The input type of the channel Channel The channel ID Value The value of the channel you can use Monitor to read them Description The description of this channel you can manually change this value Select View gt Monitor to monitor the status of the tags Or you can click the Monitor icon in the Ul E cum SEIS OPC Server Korenix File Add Edit View Help mlel 91 Select File gt Save to save the profile then your OPC Client can monitor the Jet I O status 34 4 3 SNMP Simple Network Management Protocol SNMP is a protocol used for exchanging management information between network devices SNMP is a member of the TCP IP protocol suite Jetl O 6500 series acts as SNMP node SNMP browser can discover and read write channels information An SNMP managed network consists of two main components agents an
57. lt SetCounterValue write to Flash RAM 61 0222 40547 R W Read Write Select Operators condition for Rule 11 R ABCD hex W ABCD hex A Operators condition 3 Logic B Operators condition 2 Logic C Operators condition 1 Logic D Operators condition 0 Logic Value 0 ON DD 1 OFF DI 2 Lo Hi DI 3 Hi Lo DI 4 DICounterValue SetCounterValue 5 lt DICounterValue gt SetCounterValue 6 gt DICounterValue gt SetCounterValue 7 lt DICounterValue gt SetCounterValue 8 7 lt DICounterValue lt SetCounterValue write to Flash RAM 0223 40548 R W Read Write Select Operators condition for Rule 12 R ABCD hex W ABCD hex A Operators condition 3 Logic B Operators condition 2 Logic C Operators condition 1 Logic D Operators condition 0 Logic Value 0 ON DI 1 OFF DI 2 Lo Hi DI 3 Hi Lo DI 4 DICounterValue SetCounterValue 5 lt DICounterValue gt SetCounterValue 6 gt DICounterValue gt SetCounterValue 7 lt DICounterValue gt SetCounterValue 8 7 lt DICounterValue lt SetCounterValue write to Flash RAM 0224 40549 R W Read Write Select Operators condition for Rule 13 R ABCD hex 62 W ABCD hex A Operators condition 3 Logic B Operators condition 2 Logic C Operators condition 1 Logic D Operators condition 0 Logic Val
58. ly supports the one to one mapping but also multiple to one from one and one to from multiple mapping simultaneously E Block 1 0 Configuration Utility Korenix Technology Emulation 1 Network m PC Network 5 General 1 0 Configuration Data Logic Rules Peer to Peer 1 0 SNMP 4 0 6550 192 158 0 1 6510 182 18 0 2 Remote IPs JetlD 5511 192 158 0 3 6512 192 168 0 4 Mirror my input channels to JetlO 6520 192 168 0 5 iv 1921680011 192 168 0 12 192 168 0 13 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Q Save annan 182168 014 Change Monitor Active Status Internal Flag X Cancel Mirror my output channels from The below will guide you on how to configure peer to peer functions step by step walkthrough 1 Enable Peer to Peer I O activity The Peer to Peer I O activity is disabled by default You could enable this function by checking Enable peer to peer I O on this page 2 Configure module s input channels mirrored to remote IP Select Mirror my input channels the input channel status on the input module could be assigned to send those input data including all the digital inputs D Is and or internal flags to one remote destination IP address as 24 defined on the field of Remote IP e g 192 168 10 51 as the above figure 3 Configure module s output channels mirrored from
59. nal block before making wire connections Otherwise your screwdriver blade can inadvertently short your terminal connections to the grounded enclosure Note 2 The range of the suitable electric wire is from 12 to 24 AWG 2 3 Wiring l O Connectors Follow the pin assignment to insert the wires into the front contacts on the terminal block connector Tighten the wire clamp screws to prevent the I O wires from being loosened The wiring diagram of the Jetl O 6550 is as below PinNo Description PinNo Description DIO DigtalinutChO _ pi pigitatinpuch Die Digital input Che p Digital input Ch DigtalinutCh8 9 Digital input Cho DOO Digitalouputo 01 Digital Output DOG DigtalOuput 07 Digital Output7 0000 IO Power COM IO Power COM 2 4 Jetl O 6550 Wiring Example 2 4 1 Jetl O 6550 Digital Input Wiring Example Limit Switch 5V Jetl O 6550 DI 10 24V Limit Switch 2 4 2 Jetl O 6550 Digital Input Wiring Example Push Button Jetl O 6550 DI 10 24V 2 4 3 Jetl O 6550 Digital Output Wiring Example Push Button 2 5 Wiring Earth Ground To ensure the system will not be damaged by noise or any electrical shock we suggest you to make exact connection with Jetl O products with Earth Ground On the bottom side of Jetl O 6500 Series there is one power earth ground pin in the Power Input terminal block Description 1 24V DC 24V Pow
60. nnel 11 DI Counter Value Low Word 0018 30025 R Channel 12 DI Counter Value Hi Word 0019 30026 R Channel 12 DI Counter Value Low Word 001A 30027 R Channel 12 DI Counter Value Hi Word 001B 30028 R Channel 12 DI Counter Value Low Word 001C 30029 R Channel 13 DI Counter Value Hi Word 001D 30030 R Channel 13 DI Counter Value Low Word Jetl O 6550 Digital Input Register Map Input Status FC 02 Protocol PLC Address Address Access Description Hex Decimal 0000 10001 R Channel 0 Digital input signal 0001 10002 R Channel 1 Digital input signal 0002 10003 R Channel 2 Digital input signal 0003 10004 R Channel 3 Digital input signal 0004 10005 R Channel 4 Digital input signal 0005 10006 R Channel 5 Digital input signal 0006 10007 R Channel 6 Digital input signal 0007 10008 R Channel 7 Digital input signal 0008 10009 R Channel 8 Digital input signal 0009 10010 R Channel 9 Digital input signal 000A 10011 R Channel 10 Digital input signal 000B 10012 R Channel 11 Digital input signal 000C 10013 R Channel 12 Digital input signal 000D 10014 R Channel 13 Digital input signal Jetl O 6550 Digital Output Register Map Coil Status FC 01 Protocol PLC Address Address Access Description Hex Decimal 0000 00001 RW Channel 0 Digital Output signal 0001 00002 RW Channel 1 Digital Output signal 0002 00003 R W Channel 2 Digital Output signal 74 0003 00004 R W Channel 3 Digital Output signal 0004 00005 RW Channel 4 Dig
61. nstalled Click Finish to complete Setup 7 Go to Start gt Program and then you can see the Block IO Utility Korenix folder There are 2 utilities are installed Block IO OPC Server and Block IO Utility Modbus Poll gt Getif 2 2 MG SOFT MIB Browser Huro IE INGEAR Servers ap Block IO Utility Korenix ig vso gt JetPort Commander Y Block IO OPC Server Block IO Utility 12 4 1 2 Device Finder Device Finder helps you search JetlO 6500 devices on the same physical subnet even if their IP addresses are conflit or if their IP address setting are not on the same subnet with your host PC Device Finder also helps you configure the IP address and upgrade firmware of the found devices Select the Device Finder icon from toolbar or select Tools Device Finder to launch Device Finder 1 Click Search to search the Jetl O devices You can see the available devices in the list Module s Model name Fw version Description DHCP Current IP Addr Subnet mask Gateway JetlO 6511 F206 00 12 77 90 00 98 Disable 192 168 10 11 255 255 255 0 132 168 10 4600 2 F206 00 12 77 90 01 59 Disable 1921581012 255 255 255 0 132 168 10 JetlO 6510 F206 00 12 77 90 00 5F Disable 192 168 10 10 255 255 255 0 132 168 10 JetlO 6520 F206 00 12 77 90 01 DB Disable 192 168 10 20 255 255 255 0 192 168 10 JetlO 6550 F206 00 12 77
62. ogic Value 0 ON 1 OFF 2 Counter reset 3 DO pulse output start 4 DO pulse output stop 5 SNMP Trap write to EEprom 0052 40083 R W Read Write Select Operators Action for Rule 5 R ABCD hex W ABCD hex A Operators Action 3 Logic B Operators Action 2 Logic B Operators Action 1 Logic D Operators Action 0 Logic Value 0 ON 1 OFF 2 Counter reset 3 DO pulse output start 4 DO pulse output stop 5 SNMP Trap write to EEprom 0053 40084 R W Read Write Select Operators Action for Rule 6 R ABCD hex W ABCD hex 50 A Operators Action 3 Logic B Operators Action 2 Logic B Operators Action 1 Logic D Operators Action 0 Logic Value 0 ON 1 OFF 2 Counter reset 3 DO pulse output start 4 DO pulse output stop 5 SNMP Trap write to EEprom 0054 40085 R W Read Write Select Operators Action for Rule 7 R ABCD hex W ABCD hex A Operators Action 3 Logic B Operators Action 2 Logic B Operators Action 1 Logic D Operators Action 0 Logic Value 0 ON 1 OFF 2 Counter reset 3 DO pulse output start 4 DO pulse output stop 5 SNMP Trap write to EEprom 0055 40086 R W Read Write Condition Enable for Rule 0 3 R ABCD hex W ABCD hex A O disable 1 enable rule O disable 1 enable rule 2 C xxxx 0 disable 1 enable rule 1 D xxxx x 0 disable 1 enable rule 0 write to EEprom
63. ost PC cl C WINDO WSA system 226 exe G gt arp a Interface 192 168 10 111 4 Internet ddress Physical Address Type 192 168 18 11 08 12 77 B8c 900 83 dynamic G gt arp d 4 1 3 Device Scan 1 Lunch the Block IO Utility and then press Open to enable the network Interface 77 Block 1 0 Configuration Utility Korenix Technology y my Ele Tool Help D QD Network Network O P The right indicator will show Green after you opened the interface Click Close can close the network interface 77 Block 1 0 Configuration Utility Korenix Technology Ele Tool Help D Network b TE Network Terminal Close 2 Click Scan to open the Scan Network Module s popup window Click Scan to start the searching 4 1 4 Scan Network Hodulets Module s D Name 5 JetlO 6511 192 168 10 11 4 0 6512 192 168 10 12 JetlD 6510 192 168 10 10 JetlD 6550 192 168 10 50 Note Please modify the IP address of your target devices The scan feature can t browse the devices which have the same IP address Only one of the devices which have the same IP adaress can be found This is the current restriction Please modify the IP address first You can use Block I O Utility or Device Finder to do the IP modification 3 Click Add to add the available Jetl O units Then you can see the Jetl O units are listed in the left column
64. perators Action 3 Logic B Operators Action 2 Logic C Operators Action 1 Logic D Operators Action 0 Logic Value 66 0 ON 1 OFF 2 Counter reset 3 DO pulse output start 4 DO pulse output stop 5 SNMP Trap write to Flash RAM 0232 40563 Read Write Select Operators Action for Rule 11 R ABCD hex W ABCD hex A Operators Action 3 Logic B Operators Action 42 Logic C Operators Action 1 Logic D Operators Action 40 Logic Value 0 DOON 1 DO OFF 2 DI Counter reset 3 DO pulse output start 4 DO pulse output stop 5 SNMP Trap write to Flash RAM 0233 40564 R W Read Write Select Operators Action for Rule 12 R ABCD hex W ABCD hex A Operators Action 3 Logic B Operators Action 42 Logic C Operators Action 1 Logic D Operators Action 0 Logic Value 0 ON 1 OFF 2 Counter reset 3 DO pulse output start 4 DO pulse output stop 5 SNMP Trap write to Flash RAM 0234 40565 R W Read Write Select Operators Action for Rule 13 R ABCD hex W ABCD hex A Operators Action 3 Logic 67 B Operators Action 42 Logic C Operators Action 1 Logic D Operators Action 0 Logic Value 0 ON 1 OFF 2 Counter reset 3 DO pulse output start 4 DO pulse output stop 5 SNMP Trap write to Flash RAM 0235 40566 R W Read Write Select Operators Action for Rule 14 R ABCD hex W ABCD hex A Operators Action 3 Logic B Operator
65. puts of logic rules and or peer to peer I O activity you can dynamically change the flag values in the monitoring by double clicking the Flag row as you selected and then the flag values will be changed from True to False or from False to True Materna 80 Flag 1 Flag 82 Flag 3 Flag 84 Flag 85 teso Flag 7 Flag 8 Flag 9 Flag 10 Flag 11 Flag 12 Flag 13 Flag 14 Flag 15 5 OD O o S 4 1 4 6 Go to SNMP page IP Settings You can configure up to 4 SNMP Trap Server s IP here Type the IP address and press Update to activate the new setting Click Refresh to reload the current SNMP trap server s IP from registers Once the SNMP trap has been activated by 1 login rule you need to press Reset to acknowledge it and then allow the next SNMP trap activity General 1 0 Configuration Data Logic Rules Peer to Peer 170 SNMP IP 1 fi 92 168 10 23 IP 2 192 168 10 24 IP 3 192 168 10 25 Refresh IP 192 168 1 26 Update Reset 27 4 1 5 Emulation Mode Block Configuration Utility provides Emulation mode that allows users to know the functions it supports and good practice for users to know how to operate block configuration utility even when users don t have physical devices on hand 4 1 4 1 Select Tools gt Emulation Block I O Configuration Utilit
66. rValue write to EEprom 003E 40063 R W Read Write Select Operators condition for Rule 1 R ABCD hex W ABCD hex A Operators condition 3 Logic B Operators condition 2 Logic B Operators condition 1 Logic D Operators condition 0 Logic Value 0 ON DI 1 OFF Dl 2 Lo Hi Dl 3 Hi Lo DI 4 DICounterValue SetCounterValue 5 lt DICounterValue gt SetCounterValue 6 gt DICounterValue lt SetCounterValue 7 lt DICounterValue gt SetCounterValue 8 gt DICounterValue lt SetCounterValue write to EEprom 003F 40064 R W Read Write Select Operators condition for Rule 2 R ABCD hex W ABCD hex A Operators condition 3 Logic B Operators condition 2 Logic B Operators condition 1 Logic D Operators condition 0 Logic 0 ON DI 1 OFF Dl 2 Lo Hi Dl 3 Hi Lo DI 4 DICounterValue SetCounterValue 5 lt DICounterValue gt SetCounterValue 6 gt DICounterValue lt SetCounterValue 7 lt DlCounterValue gt SetCounterValue 8 gt DlCounterValue lt SetCounterValue write to EEprom 0040 40065 R W Read Write Select Operators condition for Rule 3 R ABCD hex W ABCD hex A Operators condition 3 Logic B Operators condition 2 Logic 46 B Operators condition 1 Logic D Operators condition 0 Logic Value 0 ON DI 1 OFF DI 2 Lo Hi DI 3 Hi Lo DI 4 DICounterValue SetCounterValue
67. rators condition 0 Logic Value 0 ON DD 1 OFF DI 2 Lo Hi DI 3 Hi Lo DI 4 5 7 DICounterValue SetCounterValue 5 lt DICounterValue gt SetCounterValue 6 gt DICounterValue gt SetCounterValue 7 lt DICounterValue gt SetCounterValue 60 8 7 lt DICounterValue lt SetCounterValue write to Flash RAM 0220 40545 R W Read Write Select Operators condition for Rule 9 R ABCD hex W ABCD hex A Operators condition 3 Logic B Operators condition 2 Logic C Operators condition 1 Logic D Operators condition 0 Logic Value 0 ON DD 1 OFF DI 2 Lo Hi DI 3 Hi Lo DI 4 DICounterValue SetCounterValue 5 lt DICounterValue gt SetCounterValue 6 gt DICounterValue gt SetCounterValue 7 lt DICounterValue gt SetCounterValue 8 7 lt DICounterValue lt SetCounterValue write to Flash RAM 0221 40546 R W Read Write Select Operators condition for Rule 10 R ABCD hex W ABCD hex A Operators condition 3 Logic B Operators condition 2 Logic C Operators condition 1 Logic D Operators condition 0 Logic Value 0 ON DD 1 OFF DI 2 Lo Hi DI 3 Hi Lo DI 4 DICounterValue SetCounterValue 5 lt DICounterValue gt SetCounterValue 6 gt DICounterValue gt SetCounterValue 7 lt DICounterValue gt SetCounterValue 8 7 lt DICounterValue
68. remote IP Select Mirror my output channels from the output channel state on the output module could be mirrored from one remote input channels or internal flags on different destination modules Click Rule and do the further assignments for those DO channels or internal flags which will mirror the remote input channels or internal flags on the corresponding remotely input module as defined on the field of Remote IP address It could support up to 8 rules assignment Press Apply to activate the new setting Peer to Peer I O Configuration x Remote IP address Remote Input channels Dutput channels pm ens 2 be 1 1215691050 2 00 7 4 6 dl fazio o0 2 HS rj Jv 5 192 168 10 18 Flag 0 004 X Cancel After completing all configurations for Peer to Peer I O activity click Save button all the mapping configurations will be flushed into flash memory on 25 the module In order to extend the flash memory life it is strongly recommended that you should save all configurations together at one time instead of saving individual setting many times The indicator in the left of the Save button shows the status of being flushed into flash memory If there was error occurred the color become to red Otherwise the system will automatically restart the module and prompt you to rescan the modul
69. s write to EEprom 0027 40040 R W Read Write Channel 5 DO Pulse Low Signal Width R W 1 FFFF 1ms write to EEprom 0028 40041 RAW Read Write Channel 6 DO Pulse Low Signal Width R W 1 FFFF 1ms write to EEprom 0029 40042 RAW Read Write Channel 7 DO Pulse Low Signal Width R W 1 FFFF 1ms write to EEprom 002A 40043 RAN Read Write Channel 0 DO Pulse High Signal Width R W 1 FFFF 1ms write to EEprom 002B 40044 RAN Read Write Channel 1 DO Pulse High Signal Width R W 1 FFFF 1ms write to EEprom 002C 40045 RAW Read Write Channel 2 DO Pulse High Signal Width R W 1 FFFF 1ms write to EEprom 002D 40046 RAW Read Write Channel 3 DO Pulse High Signal Width R W 1 FFFF 1ms write to EEprom 002E 40047 R W Read Write Channel 4 DO Pulse High Signal Width R W 1 FFFF 1ms write to EEprom 002F 40048 R W Read Write Channel 5 DO Pulse High Signal Width R W 1 FFFF 1ms write to EEprom 0030 40049 R W Read Write Channel 6 DO Pulse High Signal Width R W 1 FFFF 1ms write to EEprom 0031 40050 R W Read Write Channel 7 DO Pulse High Signal Width R W 1 FFFF 1ms write to EEprom 0032 40051 R W Read Write DO Mode R W 00000000xxxxxxxx bin Bit 0 is channel 0 0 DO 1 Pulse write to EEprom 0033 40052
70. s Action 42 Logic C Operators Action 1 Logic D Operators Action 0 Logic Value 0 ON 1 OFF 2 Counter reset 3 DO pulse output start 4 DO pulse output stop 5 SNMP Trap write to Flash RAM 0236 40567 R W Read Write Select Operators Action for Rule 15 R ABCD hex W ABCD hex A Operators Action 3 Logic B Operators Action 2 Logic C Operators Action 1 Logic D Operators Action 0 Logic Value 0 ON 1 OFF 2 Counter reset 3 DO pulse output start 4 DO pulse output stop 5 SNMP Trap write to Flash RAM 68 0237 40568 R W Read Write Condition Enable for Rule 8 11 R ABCD hex W ABCD hex x O disable l enable rule 11 B xxxx 0 disable l enable rule 10 xxxx O disable l enable rule 9 D xxxx x O disable l enable rule 8 write to Flash RAM 0238 40569 R W Read Write Condition Enable for Rule 12 15 R ABCD hex W ABCD hex A 0 l enable rule 15 x O disable l enable rule 14 C x O disable l enable rule 13 D x O disable l enable rule 2 write to Flash RAM 0239 40570 R W Read Write Action Enable for Rule 8 11 R ABCD hex W ABCD hex A x O disable l enable rule 11 xxxx 0 disable l enable rule 0 C x O disable l enable rule 9 D x O disable l enable rule 8 write to Flash R
71. s IP address and then you can remotely control or monitor the channels information Jetl O provides several ways for users to configure the IP address The default IP address is 192 168 10 3 You can directly connect the Jetl O one after one to change its IP address Or connect the Jetl Os to the same switch or network then the host PC can Figure 1 Direct 7 Connect to Jetl O 1 Utilities Device Finer IP 4924681010 ad Configuration IP 192 168 10 100 Figure 2 Connect to Jetl O via the Switch i lt 192 168 10 11 Utilities ma Ethernet Device Finer Switch Hub Configuration 1 192 168 10 100 lt j IP 192 168 10 10 modify the IP address via the switch or network If you purchase several Jetl Os and connect them to the same network before change their IP address They must have the same default IP address and you may not control them well due to the IP conflict At this time you should change their IP address first The Jetl O Block I O configuration utility and its Device Finder Popup Window can help you to do this Note 1 Device Finder Popup Window allows you to discover the Jetl Os which have the same IP address Change the IP address of the Jetl O one after one After you configured the new IP address for the unit please notice whether the ARP table of the device is flashed or not If not you can choose Start lt Run type
72. ss by Modbus TCP register For example B6 Ob 1011 0110 represent those DO channels of CH7 CH5 CH4 CH2 CHI turn ON in RED LED indication as well as the rest channels are OFF in WHITE LED indication The indicator in the bottom of the I O Area means the utility is monitoring the status of the channels If there is error occurred the color become to red or not light Go to Logic Rules page In this page you can configure the I O logic rule It allows you to define the logic operation and process rules in this utility and then download the rules to the Block I O module The module will automatically execute the logic rules to process different action depending on the input conditions as you defined The theory is the same as the IF Then rule It s easy to understand rules need know extra program script to configure this 21 General 1 0 Configuration Data Logic Rules Peer to Peer 1 0 SNMP Rue Status Conditions Actions HO Enabe 01 8 FF OR DI 10 to OFF Pulse 0 do Start AND 00 5 do OF 1 Enable Counter 0 gt 1000 AND 01 8 1 do 2 Enable do SNMP Trap H3 Disable 4 Disable 5 Disable 6 Disable H Disable H8 Disable 9 Disable 10 Disable 11 Disable 12 Disable 13 Disable 814 Disable Disable 01 9 DN OR Flag 0 ON O Save Double click the Rule ID and then you can go to
73. the Logic Rulle ID Configuration page Select Enable and configure the Condition and Actions then press Apply to enable the rule Logic Rule 0 Configuration v Enable Conditions Actions iv 1 pi OFF Y v 1 Pulse Output 0 gt Star 2 2 toOFF 2 pos 2 93 01 10 ION to OFF H4 Y Ha Counter 1 DI counter value o Relation between conditions OR X X Cancel Thus when the Conditions is reached the system automatically activates the Actives For example Rule Status Condition Action 1 Enable DI ON DO ON 22 4 1 4 5 2 Enable DI OFF DO OFF Rule 1 If condition is equal to DIO ON the DO 0 is automatically ON Should you want to run the reverse behavior configure the reverse way in the rule 2 If condition is equal to DIOZOFF the DO 0 is automatically OFF The maximum I O logic rules support up to 16 Each rule can support up to 4 different conditions and 4 different actions There are 16 internal flags 1 auxiliary channels on each module The data type of internal flags is digital meaning its value is either logic True or logic False It allows you to choose these internal flags as input for condition rule as well as these flags as output for action state Therefore you could easy to use these internal flags to implement logic rule
74. to read the value The binary number 0 represent the Event Counter OFF Stop 1 represent Event Counter ON Start The last bit represent the first channel ChO For example Ch0 3 is OFF Ch4 5 is Start Ch6 13 is Stop Ch14 15 remains 00 the value you can get set is 00000000 00110000 0030 in 16xHex 48 in 10xHex Type 48 to set the value RW diCounterOverflowStatus This object shows you the status of the Event Counter overflow The binary number 0 represents not overflow 1 represents overfolw The last bit represent the first channel ChO The first RO 77 2 bits Ch14 15 remain 00 diCounterTriggerMode This object shows you the status of the Event Counter Trigger mode The binary number 0 represent the Low to High mode 1 represent the High to Low mode The last bit represent the first channel ChO The first 2 bits Ch14 15 remain 00 RW diCirCounterValue This object shows you the Event Counter Reset mode Use Binary display mode to read the value The binary number 0 represents not reset mode 1 represents reset mode The last bit represent the first channel ChO The first 2 bits Ch14 15 remain 00 RW doStatus This object shows you the status of the Digital Output channels Use Binary display mode to read the value The binary number 0 represent the DO OFF 1 represent the DO ON The last bit represent the first channel ChO The first 2 bits Ch14 15 remain 00 RW
75. tors Action 1 Logic D Operators Action 0 Logic Value 0 ON 1 OFF 2 Counter reset 3 DO pulse output start 4 DO pulse output stop 5 SNMP Trap write to EEprom 004E 40079 R W Read Write Select Operators Action for Rule 1 R ABCD hex W ABCD hex A Operators Action 3 Logic B Operators Action 2 Logic B Operators Action 1 Logic D Operators Action 0 Logic Value 0 ON 1 OFF 2 Counter reset 3 DO pulse output start 4 DO pulse output stop 5 SNMP Trap write to EEprom 004F 40080 R W Read Write Select Operators Action for Rule 2 R ABCD hex 49 W ABCD hex A Operators Action 3 Logic B Operators Action 2 Logic B Operators Action 1 Logic D Operators Action 0 Logic Value 0 ON 1 OFF 2 Counter reset 3 DO pulse output start 4 DO pulse output stop 5 SNMP Trap write to EEprom 0050 40081 R W Read Write Select Operators Action for Rule 3 R ABCD hex W ABCD hex A Operators Action 3 Logic B Operators Action 2 Logic B Operators Action 1 Logic D Operators Action 0 Logic Value 0 ON 1 OFF 2 Counter reset 3 DO pulse output start 4 DO pulse output stop 5 SNMP Trap write to EEprom 0051 40082 R W Read Write Select Operators Action for Rule 4 R ABCD hex W ABCD hex A Operators Action 3 Logic B Operators Action 2 Logic B Operators Action 1 Logic D Operators Action 0 L
76. tors condition 1 Logic D Operators condition 0 Logic Value 47 0 ON DI 1 OFF DI 2 Lo Hi DI 3 Hi Lo DI 4 DICounterValue SetCounterValue 5 DICounterValue gt SetCounterValue 6 DICounterValue lt SetCounterValue 7 lt DICounterValue gt SetCounterValue 8 gt DICounterValue lt SetCounterValue write to EEprom 0044 40069 R W Read Write Select Operators condition for Rule 7 R ABCD hex W ABCD hex A Operators condition 3 Logic B Operators condition 2 Logic B Operators condition 1 Logic D Operators condition 0 Logic Value 0 ON DI 1 OFF DI 2 Lo Hi DI 3 Hi Lo DI 4 DICounterValue SetCounterValue 5 DICounterValue gt SetCounterValue 6 DICounterValue lt SetCounterValue 7 lt DICounterValue gt SetCounterValue 8 DICounterValue lt SetCounterValue write to EEprom 0045 40070 R W Read Write Select THEN DO for Rule 0 R ABCD hex W ABCD hex A condition 3 DO Channel B condition 2 DO Channel B condition 1 DO Channel D condition 0 DO Channel write to EEprom 0046 40071 R W Read Write Select THEN DO for Rule 1 R ABCD hex W ABCD hex A condition 3 DO Channel B condition 2 DO Channel B condition 1 DO Channel D condition 0 DO Channel write to EEprom 0047 40072 R W Read Write Select THEN DO for Rule 2 R ABCD hex W ABCD hex
77. ue 0 ON DD 1 OFF DI 2 Lo Hi DI 3 Hi Lo DI 4 5 7 DICounterValue SetCounterValue 5 lt DICounterValue gt SetCounterValue 6 gt DICounterValue gt SetCounterValue 7 lt DICounterValue gt SetCounterValue 8 7 lt DICounterValue lt SetCounterValue write to Flash RAM 0225 40550 R W Read Write Select Operators condition for Rule 14 R ABCD hex W ABCD hex A Operators condition 3 Logic B Operators condition 2 Logic C Operators condition 1 Logic D Operators condition 0 Logic Value 0 ON DD 1 OFF DI 2 Lo Hi DI 3 Hi Lo DI 4 DICounterValue SetCounterValue 52 DICounterValue gt SetCounterValue 6 gt DICounterValue gt SetCounterValue 7 lt DICounterValue gt SetCounterValue 8 7 lt DICounterValue lt SetCounterValue write to Flash RAM 0226 40551 R W Read Write Select Operators condition for Rule 15 R ABCD hex W ABCD hex A Operators condition 3 Logic 63 B Operators condition 2 Logic C Operators condition 1 Logic D Operators condition 0 Logic Value 0 ON DI 1 OFF DI 2 Lo Hi DI 3 Hi Lo DI 4 DICounterValue SetCounterValue 52 gt DICounterValue gt SetCounterValue 6 gt DICounterValue gt SetCounterValue 7 lt DICounterValue gt SetCounterValue 8 7 lt DICounterValue lt SetCounterValue write to
78. ulse output for output mode The flexible Condition amp Go IF T help users to define intelligent logic rule for remote I O control 0 6550 provides Windows Utilities SNMP for configuration Industrial Mod ocol and OPC Server driver for integrating JetI O with existed HMI SCADA Robus us monitoring and control the remote I O devices s Digital put mode en rules bus TCP aluminum ly perform System CPU 100MHZ RISC Based SDRAM 32K bytes Flash ROM 512K bytes EEPROM 256 bytes Watchdog Timer 1 0 sec H W LED PWR Power Input plugged and On Red RDY System startup ready Green Network Interface Ethernet IEEE 802 3 1 IEEE 802 3u 100Base TX Connector RJ 45 Auto MDI MDI X Protection Built in 1 5 KV magnetic isolation protection LED Upper LAN Activity Orange ON amp Blinking Lower 10M 100M 10M Green OFF 100M Green ON PWR Power On Green RDY System boot up Ready Red system booting No LED Network Protocols IP TCP UDP SNMP HTTP Telnet BOOTP DHCP Digital Input Input Channels 14 Channels Input Type source type Input Mode D I or event counting with input frequency of 100 Hz max DC Input 30V max Threshold Voltage 4V Responding Time to Host PC Request lt 2ms Isolation Voltage 2500Vrms 1 4 Jetl O 6550 Product Specification Digital Output Output Channels 8 Channels Output Type SSR output sink type Output
79. unning Click Nest to continue with the Setup program WARNING This program is protected by copyright law and intemational treaties Unauthorized reproduction or distribution of this program or any portion of it may result in severe civil and criminal penalties and will be prosecuted to the maximum extent possible under law 2 Click Next and type the Name and Company in the User Information window Then click Next 3 Choose the Destination Directory in the Choose Installation Location window Then click Next 11 4 Type the name for the Block I O Configuration Utility or use the default name Block IO Utility Korenix for the program in the Program Folder field of the Select Program Folder window Then click Next Select Program Folder Setup will add program icons to the Program Folder listed below You may type a new folder name or select one from the existing Folders list Click Next to continue Program Folders Block 10 Utility Korenix Existing Folders Hirschmann Hurco INGEAR OPC Servers InstallShield lt Back Cancel 5 Click Next in the Starting Copying File window to continue the setup progress 6 As long as you see the Setup Complete window that means the progress is finished Click Finish to exit the setup progress Setup Complete Setup has finished installing the application on your computer You may launch the application by selecting the icons i
80. unter value for rule 11 R W ABCD hex low word 024A 40587 R W Read Write set if logic DI counter value for rule 11 R W ABCD hex hi word 024B 40588 R W Read Write set if logic DI counter value for rule 12 R W ABCD hex low word 024C 40589 R W Read Write set if logic DI counter value for rule 12 R W ABCD hex hi word 024D 40590 R W Read Write set if logic DI counter value for rule 13 R W ABCD hex low word 024E 40591 R W Read Write set if logic DI counter value for rule 13 R W ABCD hex hi word 024F 40592 R W Read Write set if logic DI counter value for rule 14 R W ABCD hex low word 0250 40593 R W Read Write set if logic DI counter value for rule 14 R W ABCD hex hi word 0251 40594 R W Read Write set if logic DI counter value for rule 15 R W ABCD hex low word 0252 40595 R W Read Write set if logic DI counter value for rule 15 R W ABCD hex hi word 0253 40596 R W Read Write internal flags R XXXXXXXXXXXXXXXX 71 X 0 or 1 0254 40597 Read error code of peer to peer for client Error Code 0 OK Error Code 1 Requested Content Not Satisfiable Error Code 2 Remote Module Not Found Error Code FFFF Not Enabled 0255 40598 Read error code of peer to peer 1 for server Error Code 0 OK Error Code 1 Requested Content Not Satisfiable Error Code 2 Remote Module Not Found Error Code FFFF Not Enabled 0256 40599 Rea
81. ve Chis Save As lJetlO 6500 Alltdb 26511 Generate tdb 3 Jet O6511 tdb 4 Jet O6510 tdb Exit 4 Select Add lt New Device the popup window Driver Selection will appear Only appear in the first time you add new device Click Add and type the driver name and correct IP address Click to next popup windows for Driver Selection Use Edit Comm Setting can modify the parameters Note Different model should have different Driver Name We recommend user add the entire driver for all the available models you connected first 31 wm eB OPC Server CtileG Group Tag 1 Block Tag Addition Scan Devices Emulation Devices Generate Tags Figure 4 1 Add the New Device Driver Selection Supported Drivers Ethernet to Block 10 Devices 3 Installed Drivers Ethernet Driver r Driver Name BIONET 1 Settings IP 192 168 10 10 IP Port 502 Default Port Connect Timeout 5000 Figure 4 3 Ethernet Driver popup Window Type the Driver Name and IP address for the device 32 Driver Selection Supported Drivers Ethemet to Block I O Devices Installed Drivers 6510 10 to IP 192 168 10 10 Port 502 6511 11 to IP 192 169 10 11 Port 502 6512 12 to 192 168 10 12 502 6520 13 to 192 168 10 13 502 6550 50 to IP 192 168 10 5
82. ware Module Firmware Path D ALD 5000R Firmware F206 6550_F206 bin 2 Firmware Upgrade Notes 1 Set a proper IP address with the same segment as the IP address of your PC Firmware Upgrade Module IP Address si Search 2 Select a correct module firmware code 3 Disable Firewall 4 Enable only one network card on your PC Exit 4 6 Configuration Backup Restore Reset Default and Reboot Block Configuration Utility Korenix Technology l ex The IP address should be set when letlO firmware code was erased or The backup restore configuration function are accessed by right clicking on a JetlO module in the network interface tree 37 Block 1 0 Configuration Utility Korenix Technology File Tools Help D 6 Network PC Network General uo Configuration Data Alarm 4 0 6520 192 158 10 24 JetlO 6510 192 168 10 17 4660 6512 192 168 10 14 JetlD 6511 192 168 10 18 Logout Change IP 192 168 10 68 Subnet mask 255 255 255 0 Gateway 32 168 10 1 Select Backup Config to and Restore Config from command to backup and restore the configuration of the JetlO to from a text file It should be noticed that you will need to login first and then gain a privilege to do these functions Backup Configuration Backup File Name D sLD 5000R SFirmwaresF206sB6550 F206 1031 1843 dat 12 Close
83. y Kon File Help D Q Scan Ctrl F 7 Terminal 1 F Emulation 4 1 4 2 Follow the 4 1 3 to scan the network you ll find the models Jetl O currently supported Click Add to add the models Scan Network Module s 5 Modules JetlD 6520 F208 Build 0817 192 168 10 20 4 0 6510 F208Buid 0817 192 168 10 3 JetlD 6511 F208 Build 0817 19215810111 JetlD 6512 F208 Build 0817 192 168 10 112 JetlD 6550 F208 4 0817 192 168 10 150 4 1 4 3 Follow the 4 1 4 to practice Jetl O configuration Select the model and read or write status and configurations As to how to operate the Jetl O configuration of other model please refer to its manual 4 1 6 Terminal Mode Block I O Configuration Utility provides Terminal mode for user to read and write Modbus TCP registers thus users do not need additional tools but still can practice Modbus TCP protocol well 4 1 6 1 Open Terminal Mode Click Open and then select Terminal The terminal emulation popup screen appears Block IO Configuration Utility Korenix Technology Emulation File Tools Help D Q m Network 0 Scan PC 28 Close Emulation Network r i Single Command 7 Examples Command 40001 Read Coils 10001 or 10001 2 Read Registers 30001 or 30001 3 Jane Write Coit 00001 1 Write Register 4 IP Address 19216810403 Write Register 40001 hex
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