RMS (Scanner) Module User`s Guide
Contents
1. o m Pu o Z m amp ly t ue amp et co o D lt ko i et IN rr 73 3 3 C dD Profile Event Out C Profile Event Out G Profile Event Out H Function Key 1001 None 61 Alarm 6 Compare 230 Counter 231 Digital I O 1142 Profile Event Out A Profile Event Out B Profile Event Out D Profile Event Out E Profile Event Out F Limit 126 Logic 239 Special Function Out 1532 Special Function Out 1533 Special Function Out 1534 Special Function Out 1535 Timer 244 Variable 245 None 6312 offset 80 Ox7F 127 1 to 0x18 24 7 27007 uint RWES Logic 1 to 24 Source Instance G Set the instance of the function selected above 6328 offset 80 Ox7F 127 1 to 0x18 24 OxF 15 27015 uint RWES Logic 1 to 24 Source Zone G Set the zone of the function selected above 0 to 16 6344 offset 80 Ox7F 127 1 to 0x18 24 0x17 28 27023 uint RWES Note Some values will be rounded off to fit in the four character display Full values can be read with other interfaces If there is only one instance of a menu no submenus will appear R Read W Write E EEPROM S User Set Watlow EZ ZONE RMS Module Chapter 4 Setup Page RM Scanner Module e Setup Page Disp2. 1828 offset 30 Ox 6A 106 1 to 0x0C 12 5 uint RWES 39 6005 F Fil Digital Output 1 to 12 Function Instance Set the instance of the function selected above 1 1830 offset 30 0x6A 106 1 to 0x0C 12 6 uint RWES 40 6006 d SZ Digital Output 1 to 12 Source Zone Set the zone of the function selected above 0 to 16 Note Some values will be rounded off to fit in the four character display Full values can be read with other interfaces If there is only one instance of a menu no submenus will appear 0 1842 offset 30 0x6A 106 1 to 0x0C 12 OxC 12 6012 uint RWES R Read W Write E EEPROM S User Set Watlow EZ ZONE RMS Module 51 Chapter 4 Setup Page RM Scanner Module Setup Page CIP Data Modbus Class i Type Display bod ud Range Default Relative Instance eae jun amp escr piion Address Attribute os Read hex dec Write Digital Output 1 to 12 Fixed Time Base 34 Fixed 1822 0x6A 41 6002 uint o Ct Control C utb Variable Time Base Time offset 30 106 RWES Set the output control type 103 Base 1 to 0x0C This parameter is only 12 used with PID control but 2 can be set anytime Digital Output 1 to 12 0 1 to 60 0 for switched DC 1824 0x6A 42 6003 float o tb Time Base
3. CIP Data Modbus Class Type Display Paon ee Range Default Relative Instance CE incid amp CE Address Attribute bos Read hex dec Write 5 E Math 1 to 24 1 to 24 1 3518 0x7D 25010 uint Si E Source Instance E offset 70 125 RWES Set the instance of the 1 to 0x18 function selected above 24 OxA 10 GE Math 1 to 24 0 to 16 0 3528 0x7D 25015 uint SZE Source Zone E offset 70 125 RWES Set the zone of the function 1 to 0x18 selected above 24 OxF 15 Slo Math 1 to 24 1 999 000 to 9 999 000 F 0 0 3546 0x7D 70 25024 float S Lo Scale Low or units offset 70 125 RWES Active for Process or Devia 1 128 333 to 5537 223 C 1 to 0x18 tion Scale of Source A only 24 0x18 24 Sh Math 1 to 24 1 999 000 to 9 999 000 F 1 0 3548 0x7D 71 25025 float S hi Scale High or units offset 70 125 RWES Active for Process or Devia 1 128 333 to 5537 223 C 1 to 0x18 tion Scale of Source A only 24 0x19 25 Crelo Math 1 to 24 1 999 000 to 9 999 000 F 0 0 3550 0x7D 72 25026 float r Lo Range Low or units offset 70 125 RWES Active for Process or Devia 1 128 333 to 5537 223 C 1 to 0x18 tion Scale of Source A only 24 Ox1A 26 Crh Math 1 to 24 1 999 000 to 9 999 000 F 1 0 3552 0x7D 73 25027 float r hi Range High or units offset 70 125 RWES Active for Process or Devia 1 128 333 to 5537 223 C 1 to 0x18 tion Scale of
4. Source Function A gt Source Instance A Source Value A Source Zone A a Source Error A Elapsed Time Output Value Error gt gt Timer One Shot u A Watlow EZ ZONE RMS Module e 115 e Chapter 6 Features Source Function A Source Instance A Source Value A Source Zone A Source Error A Bounce Value B Source Function B Elapsed Time Source Instance B Output Value Source Zone B Titor Source Error B E Timer Retentive d Watlow EZ ZONE9 RMS Module e 116 Chapter 6 Features Counter Function Function counts up or down from Load Value and produces Output Value On when Count Target Value Note Count value clears on power loss Load Value restored on power up 4 c EA RC a b DNO NCC ACTES n d E o Ge 1 ivi Source Function A Count Source Instance A Source Zone A Source Error A Source Value A Source Value B Output Value Source Function B Source Instance B Source Zone B gt Source Error B TER Error Counter Overview Instances 24 per RMS SEE Setup Page Cee Counter Menu Fn Function Up Down SF nA Source Function A Clock None Alarm Compare Counter Digital I O Profile Event Out A to H Function Key Logic Timer Variable 4A Source Instance A 1 to 24
5. Alarm Function This function causes outputs to change states when Alarm Source exceeds Alarm Set Points An error when read can indicate any of the following None Open Shorted Measurement Error Bad Cal Data Ambient Error Fail Not Sourced Silenced No Yes Alarm Latched No Yes Alarm Clearable No Yes Alarm Working Process Value 1 999 000 to 9 999 000 Alarm Working Set Point 1 999 000 to 9 999 000 YU ye Qp KA EO PN e an Ca O On ON Op SO Sn A YB Ue ein ELO 3 M FORN 2 t QU ON M EIS e fe Xe GAN om Qo com doy LN KA KA Cin RA e i29 NL Gs pee dy yyy sy yi i Alarm Source Alarm Source Instance Alarm Source Zone Alarm Source Error Alarm State Alarm Latched p gt Alarm Silenced gt Alarm Clearable gt e seal Lop Alarm Working Process Value gt Alarm Working Set Point p gt Alarm Error t gt Overview Instances 16 per RMS Output Value Watlow EZ ZONE9 RMS Module AL P1 Alarm Menu SE t Setup Page Alarm Type Off Process Alarm Source Analog Input Current Power Linearization Math Process Value Variable Alarm Source Instance 1 to 24 Alarm Source Zone 0 to 16 oof Control Loop 1 to 16 Alarm Hysteresis 0 001 to 9 999 000 Alarm Logic Close on Alarm Open on Alarm Alarm Sides Both High Low Alarm Low Set Point 1 999 000 to 9 999 000 Alarm High Set Point 1 999 000 to 9 999 000 Alarm Latching No
6. In the graphic above the PC running EZ ZONE Con figurator software and or the RUI can be used to configure and then monitor the RMS and other mod ules connected to it RMS Module Connected to a Programmable Logic Controller PLC on a DIN Rail In this configuration the PLC can be connected to the RMS module using the Modbus RTU protocol RMS Scanner Slot C Power PC Running Supply EZ ZONE Configurator PLC In this example the RMS module and the PLC must be equipped with the Modbus RTU protocol Note If it is intended to use an RUI or a PC using EZ ZONE Configurator software it will be necessary to switch the protocol on the RMS to Watlow s Stan dard Bus to successfully communicate follow the Watlow EZ ZONE RMS Module 5 o steps below to switch the RMS to the Standard bus protocol 1 Disconnect all Modbus devices from the network 2 Push and hold the orange button on the face of the module for approximately 6 seconds 3 When the LED display above the orange button changes to P P momentarily release the orange button and then push it again where 5 will ap pear symbol for Standard Bus release the or ange button 4 Push the orange button again for approximately 3 seconds LED display will become brighter to change the Standard Bus address if needed RMS Module Connected to an Operator Interface Terminal OIT through an RMA In this config
7. 0 0 cece eee ee eens 86 Linearization 6 cece teen eens 86 DIEI 87 Process and Deviation Alarms nunnana anaana eee eee 87 Alarm Set Points 0 0 0 0 ccc RR 87 Alarm Hysteresis 0 0 0 ccc ccc ccc nets 87 Alarm Latcning 2 rernm Er rtr SP RR Seb od wes 87 Alarm Silencing 0 0 cc ccc cece cece eee eee 88 Alarm BIOcKing 0 0 0 ccc ccc ccc cece RII 88 Using Lockout to Hide Pages and Menus 55 88 Lockout Menu s ceca aru Deae e enema ate as 88 Using Password Security llle 89 How to Enable Password Security 0 0 00 cee eeeee 89 Modbus Using Programmable Memory Blocks 90 Software Configuration llle 91 Function Block Descriptions 2 0 02 eee eee eee ee 94 Analog Input Function 0 ccc cece cece cece eee 94 Process Value Function 00 c ccc cee cece ene 95 Linearization Function 2 0 0 0 ccc cece ee eee eee 100 Quiput FUNCHON e rrr RELIER deed 100 Alarm Function 0 0 00 0 0 c cece eee eee ene 101 Digital Input Output Function 0 0 0 c eee eee eee 102 Action Function llis RR 103 Global Function 0 00 00 cece cee ee eee 104 Logic F nctlon 2 ore RR IRR EH ss 104 Math FUNCHON seere scere dene de REER RR RR mds 107 Timer Function 0 00 0 cece ccc eee eee 112 Counter Function 0 0 00 ccc cece cee eens 117 Variable Function 00
8. Htr 1 Htr2 Htr 3 s 2 eae Q hs DC90 60C0 0000 Heater E lf IE EL IE E du ed Internal Supply Internal Circuitry Note As a switched DC output this output is a constant current output deliver ing 750 mW current limited to 400 mA The internal supply does have a maximum open circuit voltage of 22 VDC and minimum open circuit volt age of 19 VDC Pin Z is shared to all digital outputs This type of output is meant to drive solid state relays not mechanical relays Chapter 2 Install and Wire Warning A Use National Electric NEC or other country specific standard wiring and safety practices when wiring and connecting this controller to a power source and to electrical sensors or pe ripheral devices Failure to do so may result in damage to equipment and property and or injury or loss of life Note Maximum wire size termination and torque rating e 0 0507 to 3 30 mm 30 to 12 AWG single wire termination or two 1 31 mm 16 AWG e 0 8 Nm 7 0 in Ib torque Note Adjacent terminals may be labeled differently depending on the model number Note To prevent damage to the controller do not connect wires to unused ter minals Note Maintain electrical isolation between digital input outputs switched dc open collector outputs and process outputs to prevent ground
9. Source Zone A 0 to 16 GASA Source Active State A Active State Clock High rising Low falling Both rising amp falling F n b Source Function B Load None Alarm Compare Counter Digital I O file Event Out A to H Function Key Logic Timer Variable b Source Instance B 1 to 24 5 2 b Source Zone B 0 to 16 b Source Active State B Active State Load High Low 7d Load Value 0 to 9 999 Target Value 0 to 9 999 JE Latching No Yes SEE Operation Page Ctr Counter Menu CE Count 0 to 9 999 S uf Source Value A Off On Sub Source Value B Off On o u Output Value Off On Counter Operation Whenever a prescribed clock transition occurs with out an error on source B the count will be equal to the Load Value Up Counter Whenever a prescribed clock transition occurs with out an error on Source B the count will increment by 1 If the count is equal to 9 999 when the transition occurs count will be 1 after transition Down Counter Whenever a prescribed clock transition occurs with out an error on Source B the count will decrement by 1 If the count is equal to 0 when the transition oc curs the count will be 9 999 after transition An error when read can indicate any of the follow ing None Open Shorted Measurement Error Bad Cal Data Ambient Error RTD Error Fail Math Error Not Sourced Stale Watlow EZ ZONE RMS Module 117
10. Default Values as delivered from the factory Identifies unique param eters using either the Modbus RTU or Modbus TCP protocols further ex planation below Range Modbus Relative Ad dress Identifies unique param eters using either the De viceNet or EtherNet IP protocol further explana tion below CIP Common Indus trial Protocol Identifies unique param eters using Profibus DP protocol further explana tion below Profibus Index Identifies unique param eters used with other soft ware such as LabVIEW Unsigned 16 bit integer dint long 32 bit string ASCII 8 bits per character float IEEE 754 32 bit RWES Readable Writable EEPROM saved User Set saved Parameter ID uint Data Type R W Remote User interface RUI Display Visual information from the control is displayed to the observer using a fairly standard 7 segment dis play Due to the use of this technology several char acters displayed need some interpretation see the list below Watlow EZ ZONE RMH Module amp 3 e iq E I 9 3 ll ll ejt r I i E c m nJ C Sja qu qu u uu u g e o IH gt fx c i I N 3 3 T z gt I B m m e I Il I ry ll e fu ic ll NIX 7 I gt Note The RUI is optional equipment Range Within this column notice that on occasion there w
11. Source Function A Source Instance A Source Value A Source Zone A Source Error A Source Value E Math Sample and Hold Source Function E Source Instance E Output Value Source Zone E Error Source Error E TERR If E OFF Output Value Filter A Offset If E ON Output Value Filter last value of A Offset Display units follows Source A amp amp Le 4 O Z le S 7o fey Soz ee Source Function A Source Instance A Source Value A Source Zone A Gynec Recor A Source Value B Source Function B Source Instance B Source Zone B Source Error B Math Dewpoint Output Value Error TERE Output Value Filter 427 26 CP B 8 8618 17 27 CP B 8 8618 32 Offset Source A is used for Calculated Pressure or CP Note For dewpoint Source A is temperature F and Source B is RH 96 Saturation pressure calculation is identical to that used in wet dry bulb Result is in degrees F Chapter 6 Features Timer Function Source Function A gt Source Instance A Source Value A gt Source Zone A Source Value B gt gt Source Error A M Source Function B Elapsed Time gt Source Instance B Output Value gt Source Zone B LE Source Error B Error Timer Overview Instances 24 per RMS SEL Setup Page EfP 1 Timer Menu F a Function Off On Pulse Delay One Shot Retentive
12. 34 T 4 57 in 4 00 in A 12 r sR m B i mn HR sa mi ge Ll E TI 53 53 fea a JS es 51 56 mm a lt 2 03 in 173 90 mm 6 85 in Module Removal Displacement Watlow EZ ZONE RMS Module e 13 Chapter 2 Install and Wire Chassis Mount Front View Module Removed Screw Connection Pattern m 58 67 mm 231i 32 77 mm 1 51 56 mm 1 29 in 17 53 mm 69 in pet i Hee 60 45 mm 2 38 in oO 35 81 mm 1 41 in Y 35 05 mm 1 38 in 16 76 mm The view above is representative of the modular backplane without the module Recommended chassis mount hardware 1 8 screw 3 4 long 2 Torque to 10 15 lb in 3 No washers of any kind Watlow EZ ZONE RMS Module e 14 Chapter 2 Install and Wire Power Supplies DSP30 DSP60 55 6 mm 71 00 mm 55 6 mm 53 00 mm 2489 in 2 796 in 2 189 in 49 00 mm 1234 49 00 mm 1 929 i x N 3240mm TE 1 264 in gaga O WH 1 264 in TW Uu I el DC LO DCLO F EE H Elo pc ok sg 400 H 1 a o
13. Error p gt gt Timer On Pulse Timing Diagram of On Pulse with active state rising edge high Source A Run 5 R li Source Active State A SASA High Source Value A low on Active Level L Eu High Output Value o u off on Active Level L u Low Output Value o u off i Time Time Elapsed Time EE Eu WEE UN Time E j 0 Timing Diagram of On Pulse with active state falling edge Source A Run 5 R bigh Source Active State A 5ASA Low Source Value A low o EN Active Level High Output Value o u off on Time Time Active Level L u Low Output Value o u 0 off Elapsed Time EE 0 Watlow EZ ZONE RMS Module e 113 e Chapter 6 Features Source Function A Source Instance A Source Value A Source Zone A Source Error A Id Elapsed Time gt Output Value Error gt gt Timer Delay Source A lt 4 4 SourceA M gt lt gt 44 Watlow EZ ZONE RMS Module e 114 e Chapter 6 Features a lt q GN Teg Q Sx Po Cag 32S Qh 9 q e amp ERE
14. Profile Event Out F Profile Event Out G Profile Event Out H Function Key 1001 Limit 126 Logic 239 Special Function Out 1532 Special Function Out 1533 Special Function Out 1534 Special Function Out 1535 Timer 244 Variable 245 6310 offset 80 None Ox7F 127 1 to 0x18 24 6 uint RWES 27006 Logic 1 to 24 Source Instance F Set the instance of the function selected above 1 6326 offset 80 0x7F 127 1 to 0x18 24 OxE 14 uint RWES 27014 Logic 1 to 24 Source Zone F Set the zone of the function selected above 0 to 16 6342 offset 80 Ox7F 127 1 to 0x18 24 0x16 22 uint RWES 27022 Note Some values will be rounded off to fit in the four character display Full values can be read with other interfaces If there is only one instance of a menu no submenus will appear R Read W Write E EEPROM S User Set Watlow EZ ZONE RMS Module 7 1 Chapter 4 Setup Page RM Scanner Module Setup Page Display Parameter Name Description Range Default Modbus Relative Address CIP Class Instance Attribute hex dec Profibus Index Parameter ID Data Type Read Write SFn g Logic 1 to 24 Source Function G Set the type of function that will be used for this source nonE RL P
15. gt Error gt Output Value Filter A B Offset Display units follows Source A plus relative Source B K Heg E A O ea Bey poy 14 4i Source Function A Source Instance A Source Zone A gt Source Error A Source Function B Source Instance B Source Zone B gt Source Error B Source Function C Source Instance C Source Zone C gt Source Error C Source Function D Source Instance D Source Zone D gt Source Error D Source Value A Source Value B Source Value C Source Value D TERR Math Add Output Value gt Error gt Output Value Filter A B C D Offset Display units follows last temperature source else follow Source A Chapter 6 Features K c5 D Q amp O Vk 49 CN Sey poy vu dy Source Function A Source Instance A Source Zone A Source Error A Source Function B Source Instance B Source Zone B Source Error B Source Function C Source Instance C Source Zone C Source Error C Source Function D Source Instance D Source Zone D Source Error D Source Value A Source Value B Source Value C Source Value D Math Multiply Output Value Error TERE Output Value Filter A B C D Offset Display units follows last temperature source else follow Source A K Heg o ERE A O Lip ao eg Source Function A Source Instance A Sour
16. 0 c cece eee eee eee 117 Compare Function 0 ccc ce cece eee I 118 Custom Function 0 0 0 ccc cece eee eens 119 Security Function 0 oe cc sessi d kem REG 119 Diagnostic Function 0 0 IR 120 RMS Specifications l llle 124 Watlow EZ ZONE RMS Module e 04 e Chapter 6 Features Saving and Restoring User Settings Recording setup and operations parameter settings for future reference is very important If you uninten tionally change these you will need to program the correct settings back into the controller to return the equipment to operational condition After you program the controller and verify prop er operation use User Save Set Setup Page Global Menu to save the settings into either of two files in a special section of memory If the settings in the controller are altered and you want to return the controller to the saved values use User Restore Set Setup Page Global Menu to recall one of the saved settings A digital input or the Function Key can also be configured to restore parameters Note Only perform the above procedure when you are sure that all the correct settings are programmed into the controller Saving the settings overwrites any previously saved collection of settings Be sure to document all the controller settings Inputs Calibration Offset Calibration offset allows a device to compensate for an inaccurate sensor lead resistance or other factor
17. 7 watts 14VA So in the split rail system diagram the maximum current draw on the supply would be 38 Watts 2 RMC modules consumes 14W 1 RMS module consumes 7W 1 RME modules consumes 7W 1 RMA module consumes 4W 1 Remote User Interface consumes 6W With this power requirement 38 watts the second or Watlow EZ ZONE RMS Module 30 third power supply could be used Another hardware configuration scenario that could present itself graphic not shown would be a con figuration that requires more than one supply Lets make some assumptions pertaining to the split rail system diagram shown below The power supply used is the 91W supply The top DIN rail now has the following modules 2 RMC modules consumes 14W 1 RMA consumes 4W 11 RME modules consumes 77W 2 RMS modules consumes 14W As can now be seen the total power requirement exceeds 91W In this case another power supply would be required To incorporate another supply in this system simply disconnect pins 99 and 98 on the remote DIN rail and connect another appropriately sized power supply for the remote modules to those same pins When using a split rail configuration ensure that the interconnections for the Inter module Bus and Standard Bus do not exceed 200 feet Standard Bus and the Inter module Buses are different protocols and both are required for split rail configurations Without having both connected communications be tween m
18. Alarm hysteresis is a zone inside each alarm set Watlow EZ ZONE RMS Module point This zone is defined by adding the hysteresis value to the alarm low set point or subtracting the hysteresis value from the alarm high set point View or change alarm hysteresis with Hysteresis Setup Page Alarm Menu Hioni alarm BENGE Alarm High Set Point 4 Alarm Hysteresis Normal Operating Range Temperature A Alarm Hysteresis Alarm Low Set Point Low Side Alarm Range Time Alarm Set Points and Hysteresis Alarm Latching A latched alarm will remain active after the alarm condition has passed It can only be deactivated by the user An active message such as an alarm message will cause the RUI display to toggle between the nor mal settings and the active message in the upper dis play and in the lower display Push the Advance Key to display in the upper display and the message source in the lower display Use the Up O or Down Q keys to scroll through possible responses such as Clear or Silence l 5 L Then push the Advance or Infinity key to execute the action See the Keys and Displays chapter and the Home Page chapter for more details An alarm that is not latched self clearing will deactivate automatically when the alarm condition has passed Turn alarm latching on or off with Latching Setup Page Alarm Menu The alarm state begins when the temperature A reaches the Alarm H
19. Chapter 2 Install and Wire EZ ZONE RM wemuswy EZ ZONE f to B amp B Converter Il paf Model ULINX 485USBTB 2W dl LL USB to RS 485 Adapter K using Stand
20. H you save these settings im a file on thes computer you can load the file in to device or edit the file again later Choose one of the followng options Saye the configuration in a fle and start over C Exit and do not save the changes in a file Frish lt Bock Watlow EZ ZONE RMS Module 92 o Chapter 6 Features Although the RMS control now contains the configu ration because the previous discussion focused on doing the configuration on line it is suggested that after the configuration process is completed that the user save this file on the PC for future use If for some reason someone inadvertently changed a set ting without understanding the impact it would be easy and perhaps faster to download a saved configu ration back to the control versus trying to figure out what was changed Of course there is an option to exit without saving a copy to the local hard drive After selecting Save above click the Finish button once again The screen below will than appear Omina et Ee RMA Zone J wd Athorname Joa Smeh ERMC Zone B wef eere UII Cermert few RHS Module Controle Meter AMSA RAC AAAA sm When saving the configuration note the location where the file will be placed Saved in and enter the file name File name as well The default path for saved files follows Program Files Watlow EZ ZONE CONFIGURA TOR Saved Configurations The user can save the file to any folde
21. Su Logic 1 to 24 oF F Off 62 6348 Ox7F 27025 uint Su A Source Value A C on On 63 offset 80 127 R View the value of Source 1 to 0x18 A 24 0x19 25 Sub Logic 1 to 24 of F Off 62 6350 Ox7F 27026 uint Su b Source Value B C on On 63 offset 80 127 R View the value of Source 1 to 0x18 B 24 Ox1A 26 C Saul Logic 1 to 24 L of F Off 62 6352 Ox7F 27027 uint Su C Source Value C C on On 63 offset 80 127 R View the value of Source 1 to 0x18 C 24 Ox1B 27 Sud Logic 1 to 24 oF F Off 62 6354 Ox7F 27028 uint Su d Source Value D on On 63 offset 80 127 R View the value of Source 1 to 0x18 D 24 Ox1C 28 SuE Logic 1 to 24 oF FJ Off 62 6356 Ox7F 27029 uint Su E Source Value E on On 63 offset 80 127 R View the value of Source 1 to 0x18 E 24 0x1D 29 C SuF Logic 1 to 24 oF F Off 62 6358 Ox7F 27030 uint Su F Source Value F on On 63 offset 80 127 R View the value of Source 1 to 0x18 F 24 0x1E 30 S59 Logic 1 to 24 oF F Off 62 6360 Ox7F 27031 uint Su g Value Source G on On 63 offset 80 127 R View the value of Source 1 to 0x18 G 24 Ox1F 31 Suh Logic 1 to 24 oF F Off 62 6362 Ox7F 27032 uint Su h Source Value H Con On 63 offset 80 127 R View the value of Source 1to 0x18 H 24 0x20 32 Note Some values w
22. Variable Function o Wy ay Sony Begg EER Output Value gt Error p gt Variable Overview Instances 24 per RMS SEE Setup Page uir Variable Menu Data Type Analog Digital Digital Value On Off Anal 8 Analog Value 1 999 000 to 9 999 000 Units None Absolute Temperature Relative Temperature Power Process Relative Humidity Output Value 1 999 000 to 9 999 000 or On or Off Function passes stored value to output An error when read can indicate any of the following None Open Shorted Measurement Error Bad Cal Data Ambient Error RTD Error Fail Math Error Not Sourced Stale Output Value Error Variable Digital rt Output Value Error gt Variable Analog Chapter 6 Features Compare Function 2o KA 9 ce amp 2 4 Cy en i Lay Ue Rey E ey NC A Qe Co do Source Function A Source Function A gt Source Instance A Source Value A gt gt Source Instance A Source Value A gt Source Zone A Source Value B Source Zone A Source Value B gt gt Source Error A gt Source Error A Compare Compare Source Function B Overview Source Function B Greater Than gt Source Instance B Source Instance B Source Zone B Output Value gt Source Zone B Output Value gt gt Source ErrorB Instan
23. 1to 24 1 9184 0x82 130 30003 uint Si A Source Instance A offset 40 1 to 0x18 RWES Set the instance of the 24 function selected above 3 Counter 1 to 24 0 to 16 0 9188 0x82 130 30005 uint SZLA Source Zone A offset 40 1 to 0x18 RWES Set the zone of the function 24 selected above 5 Counter 1 to 24 b 9h High 37 High 9200 0x82 130 30011 uint SAS A Source Active State A Lob J Low 53 offset 40 1 to 0x18 RWES Set what output state will 24 indicate on Ik Eh Both 130 OxOB 11 Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear red e Watlow EZ ZONE RMS Module 64 Chapter 4 Setup Page e Setup Page CIP Data Modbus Class Type Display esc d Range Default Relative Instance CE icio amp citu dd Address Attribute bo Read hex dec Write 5Fab Counter 1 to 24 nonE None 61 None 9182 0x82 130 30002 uint SFn b Source Function B ALTTI Alarm 6 offset 40 1to 0x18 RWES Set the type of function CPE Compare 230 24 that will be used for the 2 counter load signal CE c Counter 231 d o Digital I O 1142 Ent A Profile Event Out A 233
24. 91 34019 float op 2 Output Point 2 units offset 70 1 to 0x18 RWES Set the value that willbe 1 128 333 to 5537 223 C 24 mapped to input 2 0x13 19 Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear m Watlow EZ ZONE RMS Module e 58 Chapter 4 Setup Page RM Scanner Module Setup Page CIP Data Modbus Class Type Display riae Range Default Relative Instance CES eee amp P Address Attribute Read hex dec Write P 3J Linearization 1 to 24 1 999 000 to 9 999 000 F or 2 0 11358 0x86 134 92 34010 float ip 3 Input Point 3 units offset 70 1 to 0x18 RWES Set the value that will be 1 128 333 to 5537 223 C 24 mapped to output 3 OxA 10 oP 3J Linearization 1 to 24 1 999 000 to 9 999 000 F or 2 0 11378 0x86 134 93 34020 float op 3 Output Point 3 units offset 70 1to 0x18 RWES Set the value that will be 1 128 333 to 5537 223 C 24 mapped to input 3 0x14 20 1P 4 Linearization 1 to 24 1 999 000 to 9 999 000 F or 3 0 11360 0x86 134 94 34011 float ip 4 Input Point 4 units offset 70 1 to 0x18 RWES Set the value that will be 1 128 333 to 5537 223 C 24 mapped to output 4 OxB 11 oP Linearization 1 to 24 1 99
25. B Offset Scale Low High and Range Low High follows Source A display units Chapter 6 Features Xe ep Q amp O Cie ee Sex poy dydyy i Source Function A gt Source Instance A Source Zone A gt Source Error A Source Function B gt Source Instance B Source Zone B gt Source Error B Source Function E gt Source Instance E Source Zone E Source Error E Source Value A Source Value B Source Value E Math Switch Over Output Value Error hid If E OFF Output Value Filter A Offset If E ON Output Value Filter B Offset Display units follows active source u Q h RR Op Coy Sex poyyd sydd Source Function A Source Instance A Source Zone A gt Source Error A Source Function B gt Source Instance B Source Zone B Source Error B Source Value A Source Value B Math Ratio Output Value Error hid Output Value Filter A B Offset If display units of Source A Source B no display units on output value else follow Source A Watlow EZ ZONE RMS Module 109 K fap 2 amp O Vk 49 CN Sex poy vu dy Source Function A gt Source Instance A Source Zone A gt Source Error A Source Function B gt Source Instance B Source Zone B gt Source Error B Source Value A Source Value B TERE Math Differential Output Value
26. Ent Profile Event Out B 234 E nE Profile Event Out C 235 E nE d Profile Event Out D 236 E n E E Profile Event Out E 247 En t F Profile Event Out F 248 En tJ Profile Event Out G 249 En t Profile Event Out H 250 FUnj Function Key 1001 L 9C Logic 239 EP 1c Timer 244 uc Variable 245 5 4b Counter 1 to 24 1to 24 1 9186 0x82 130 30004 uint Si b Source Instance B offset 40 1 to 0x18 RWES Set the instance of the 24 function selected above 4 C 58b Counter 1 to 24 0 to 16 0 9190 0x82 130 30006 uint SZb Source Zone B offset 40 1 to 0x18 RWES Set the zone of the function 24 selected above 6 85 6 Counter 1 to 24 h 9h High 37 High 9202 0x82 130 30012 uint SAS b Source Active State B Low 53 offset 40 1 to 0x18 RWES Set what output state will 24 indicate on OxC 12 LoAd Counter 1 to 24 0 to 9 999 0 9204 0x82 130 123 30013 uint LoAd Load Value offset 40 1 to 0x18 RWES Set the counter s initial 24 value 13 Ec 9t Counter 1 to 24 0 to 9 999 9 999 9206 0x82 130 124 30014 uint trgt Target Value offset 40 1 to 0x18 RWES Set the value that will turn 24 the output value on OxE 14 CLAE Counter 1 to 24 No 59 No 9212 0x82 130 126 30017 uint LAt Latching Yes 106 offset 40 1 to 0x18 RWES If enabled output will latch 24 when count equals target 0x11 17 value Note Some value
27. Math Maximum Output Value gt Error p gt Output Value Filter Maximum Value A B C D Offset Display units follows Source with maximum value Chapter 6 Features en amp O Cx y o Ae Be Source Function A gt Source Instance A Source Value A gt Source Zone A gt Source Error A mid gt gt gt Math dd Square Root gt gt Output Value Error gt gt Output Value Filter SqrRoot A Offset Display units follows Source A D to Wz Ri ee Ce F KCN Kn Kn CC x Source Function A Source Value A gt Source Instance A gt Source Zone A La Source Error A I 3 gt Math Pressure to Altitude gt Output Value gt Error gt gt Note Pressure Altitude calculation is based on the International Standard Atmosphere 1976 Source A is a pressure signal and needs to be in PSI units for the cal culation The calculation is accurate from sea level to 90 000 feet It can be used beyond this range in both directions but with loss of accuracy The standard is based on an altitude of 0 feet sea level pressure of 14 6967 PSI and a temperature of 59 degrees F Result of calculation is in feet Output Value Filter Convert Source A in Pressure to Altitude Offset Watlow EZ ZONE RMS Module M e 4 O o Veo Bor ee
28. Source Value A Su E Source Value E aF SE C Sub Source Value B of SE Offset ow Output Value ow Output Value PE Ti M Digital Input Output Menu lo m 1 died L fite tP Timer 1 to 24 d o Digital I O 1 to 12 Su A Source Value A do 5 Output State bis Value B Sub Source Value Input State Et Elapsed Time ow Output Value Action Menu Counter Menu ACE Action 1 to 16 Event Status Counter 1 to 24 ALIN Cnt Count Alarm Menu SuA eaten Magi A 14 S 5 Source Value B ALP Alarm 1 to 16 o u Output Value AL o Alarm Low Set Point Alarm High Set Point Chapter 3 Operations Page RM Scanner Module e Operations Page alp Data A Parameter Name Modbus gass Profibus Parameter Type Display Ree Range Default Relative Instance Description Index ID amp Read Address Attribute Write hex dec Analog Input Menu A n Analog Input 1 to 16 1 999 000 to 9 999 000 F 380 0x68 104 0 4001 float Ain Input Value or units offset 90 1to 0x10 R View the process value 1 128 000 to 5 537 000 C 16 Note 1 Ensure that the Error Status below indicates no error 61 when read ing this value using a field bus protocol If an error exists the last known value prior to the error occurring will be returned No Dis Analog Input 1 to 16 1 999 000 to
29. Special Function Output 1 to 4 Timer Variable S b Source Instance B 1 to 24 88 5 Source Zone B 0 to 16 SF n C Source Function C None Alarm Compare Counter Digital I O Profile Event Out A to H Function Key Limit Logic Special Function Output 1 to 4 Timer Variable S C Source Instance C 1 to 24 SZC Source Zone C 0 to 16 SF nd Source Function D None Alarm Compare Counter Digital I O Profile Event Out A to H Function Key Limit Logic Special Function Output 1 to 4 Timer Variable S d Source Instance D 1 to 24 5 g d Source Zone D 0 to 16 SF nE Source Function E None Alarm Compare Counter Digital I O Profile Event Out A to H Function Key Limit Logic Special Function Output 1 to 4 Timer Variable 8 E Source Instance E 1 to 24 SZE Source Zone E 0 to 16 SF nF Source Function F None Alarm Compare Counter Digital I O Profile Event Out A to H Function Key Limit Logic Special Function Output 1 to 4 Timer Variable F Source Instance F 1 to 24 SZF Source Zone F 0 to 16 SF amp 8 Source Function G None Alarm Compare Counter Digital I O Profile Event Out A to H Function Key Limit Logic Special Function Output 1 to 4 Timer Variable 8 19 Source Instance G 1 to 24 6 8 8 Source Zone G 0 to 16 SF nh Source Function H None Alarm Compare Counter Digital I O Profile Event Out A to H Function Key Limit Logic Spe
30. Watlow EZ ZONE RMS Module e 12 Chapter 1 Overview Chapter 2 Install and Wire Dimensions As can be seen below the dimensions of the RM system will change slightly based on the type of connector used Module Removal Clearance Standard Connectors 147 07 mm 5 8 in Ryd E 44 45 mm 1 75 in D He 101 60 mm i Te 4 00 in 1 ae M 51 56 mm Ls 165 mm Latch in open position 203in 7 6 50 in Module Removal Displacement Module Removal Clearance Straight Connectors 155 mm 6 10 in i TH l ai 7508mm 2 Im 4445 mm ME 30in y 175in 9S amp l FE Tl 116 08 mm 101 60mm
31. amp 179 338 amp 339 100 amp 101 260 amp 261 180 amp 181 340 amp 341 102 amp 103 262 amp 263 182 amp 183 342 amp 343 104 amp 105 264 amp 265 184 amp 185 344 amp 345 106 amp 107 266 amp 267 186 amp 187 346 amp 347 108 amp 109 268 amp 269 188 amp 189 348 amp 349 110 amp 111 270 amp 271 190 amp 191 350 amp 351 112 amp 113 272 amp 273 192 amp 193 352 amp 353 114 amp 115 274 amp 275 194 amp 195 354 amp 355 116 amp 117 276 amp 277 196 amp 197 356 amp 357 118 amp 119 278 amp 279 198 amp 199 358 amp 359 Watlow EZ ZONE RMS Module e 121 Appendix Modbus Default Assembly Structure 40 119 Assembly Definition Addresses Default Pointers Assembly Working Addresses Registers 40 amp 41 Registers 200 amp 201 Pointer 1 0 amp 1 Hardware ID Value of Pointer 1 Registers 42 amp 43 Registers 202 amp 203 Pointer 2 20 amp 1 Hardware ID Value of Pointer 2 Registers 44 amp 45 Registers 204 amp 205 Pointer 3 20 amp 1 Hardware ID Value of Pointer 3 Registers 46 amp 47 Registers 206 amp 207 Pointer 4 2 0 amp 1 Hardware ID Value of Pointer 4 Registers 48 amp 49 Registers 208 amp 209 Pointer 5 0 amp 1 Hardware ID Value of Pointer 5 Registers 50 amp 51 Registers
32. default 5 The table below represents the various levels of lock out for the Set Lockout Security prompt and the Read Lockout Security prompt The Set Lockout has 6 levels 0 5 of security where the Read Lockout has 5 1 5 Therefore level 0 applies to Set Lockout only Y equates to yes can write read where N equates to no cannot write read The colored cells simply differentiate one level from the next Lockout Security 5L oC amp LoC Lockout Level 0 1 3 Home Page 0 YIY Y Y Y Y Operations Page 2 N N YYY Setup Page 4 NON NIN Y Factory Page Custom Menu 5 NIN N N N Diagnostic Menu 2 N Y Y Y Y Y Calibration Menu 5 N N N NJ N Lockout Menu IL oC O NEM Y Y Y Y wig N Y v v v v PASE NIYIYIYI Y Y clol YY YYY Y Stol YIYI YI YIYTY The following examples show how the Lockout Menu parameters may be used in applications 1 You can lock out access to the Operations Page but allow an operator access to the Profile Menu by changing the default Profile Page and Opera tions Page security levels Change Lock Opera tions Page to 3 and Lock Profiling Page to 2 If Set Lockout Security is set to 2 or higher and the Read Lockout Security is set to 2 the Profiling Page and Home Pages can be accessed and all writable param eters can be written to Pages with security levels greater than 2 will
33. offset 50 1 to 0x18 RWES Set the instance of the 24 function selected above 3 Timer 1 to 4 0 to 16 0 10148 0x83 33D 31005 uint SZA Source Zone A offset 50 1 to 0x18 RWES Set the zone of the function 24 selected above 5 Timer 1 to 4 h 19h High 37 High 10160 0x83 131 31011 uint SAS A Source Active State A Lob Ul Low 53 offset 50 1 to 0x18 RWES Set what state will be read 24 as on OxB 11 Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear Tum Watlow EZ ZONE9 RMS Module 62 Chapter 4 Setup Page RM Scanner Module Setup Page CIP Data Modbus Class Type Display rines Range Default Relative Instance CE icio amp pon Address Attribute bos Read hex dec Write 5F b Timer 1 to 24 non E None 61 None 10142 0x83 131 31002 uint SFn b Source Function B ALI Alarm Reset 6 offset 50 1to 0x18 RWES Set the type of function CPE Compare 230 24 that will be used to reset 2 a retentive timer reset ttc Counter 231 signal d o Digital I O 1142 Ent A Profile Event Out A 233 Ent Profile Event Out B 234 En t C Profile Even
34. 1 Range High 1 999 000 to 9 999 000 Process Error Enable Off Low PEL Process Error Low Value 100 00 to 1 000 00 E C Thermistor Curve Curve A Curve B Curve C Custom r c Resistance Range 5k 10k 20k 40k F L Filter 0 0 to 60 0 seconds r Input Error Latching Off On Display Precision Whole Tenths Hundredths Thousandths Calibration Offset 1 999 000 to 9 999 000 1 999 000 to 9 999 000 n Analog Input Value 4Er Input Error None Open Shorted Measurement Error Bad Cal Data Ambient Error RTD Error Fail Not Sourced A Analog Input Menu oPEr Operation Page A 1 Analog Input Value 1 999 000 to 9 999 000 4E c Input Error None Open Shorted Measurement Error Bad Cal Data Ambient Error RTD Error Fail Not Sourced CCA Calibration Offset 1 999 000 to 9 999 000 Watlow EZ ZONE9 RMS Module e 25 O 2 De ee ee ee Analog Input ail Analog Input Analog Input Value gt Off Error gt 2 M 2 Vx 2 Oo Ba Ed MN da Se Kn PY 2 KS Sop 2 ap PC dj Bo N ogee Bq On ay eg oy Beg Gs Analog Input Analog Input Analog Input Value gt Thermocouple Error o EM C 3 VA EN y a Pigs eae E Seog NN ye st a g Ca Ya D Zo 2m NUS ay Zan 0 AL A RON o Og SQ Ben Uig On L 0 NOM 67 lo lop ag Op Seg Coy Analog Input Analog Input Analog Input Va
35. 1 to 24 1 999 000 to 9 999 000 F 11346 0x86 34004 float Su A Source Value A or units offset 70 134 R View the value of Source 1 128 000 to 5 537 000 C 1 to 0x18 A 24 4 oF SE Linearization 1 to 24 1 999 000 to 9 999 000 F 0 11350 0x86 34006 float oFSt Offset or units offset 70 134 RWES Set an offset to be applied 1 128 000 to 5 537 000 C 1to 0x18 to this function s output 24 6 C owu Linearization 1 to 24 1 999 000 to 9 999 000 F 11352 0x86 34007 float o v Output Value or units offset 70 134 R View the value of this 1 128 000 to 5 537 000 C 1 to 0x18 function s output 24 7 Note Some values will be rounded off to fit in the four character display Full values R Read can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear S User Set Watlow EZ ZONE RMS Module 37 o Chapter 3 Operations Page RM Scanner Module e Operations Page eu Data Parameter Name Modbus gass Profibus Parameter Type Display Re Range Default Relative Instance Description Address Attribute Index ID amp Read Write hex dec No Dis Linearization 1 to 24 None 61 11394 0x86 T 34028 uint play Error Open 65 offset 70 134 R Read reported cause for Shorted 1277 1 to 0x18 linearization error Measurement
36. 106 RWES Set the time base for fixed 5 0 to 60 0 seconds mechani sw dc 1 to 0x0A time base control cal relay or no arc power 20 0 sec 10 control mech 3 relay no arc Colo Output 1 to 4 and 7 to 10 0 0 to 100 0 0 096 1836 0x6A 43 6009 float o Lo Low Power Scale offset 30 106 RWES The power output will nev 1 to 0x0A er be less than the value 10 specified and will represent 9 the value at which output scaling begins oh Output 1 to 4 and 7 to 10 0 0 to 100 0 100 096 1838 0x6A 44 6010 float o hi High Power Scale offset 30 106 RWES The power output will 1to 0x0A never be greater than the 10 value specified and will OxA 10 represent the value at which output scaling stops Alarm Menu RES Alarm 1 to 16 oF F Off 62 Off 2528 0x6D 20 9015 j uint A ty Type EAL Deviation Alarm 24 loffset 60 109 RWES Select whether the alarm P fiL Process Alarm 76 1 to 0x10 trigger is a fixed value or 16 will track the set point OxF 15 C S A Alarm 1 to 16 _ Analog Input 142 Analog 2532 0x6D 21 9017 uint Sr A Source CUr c Current 22 Input offset 60 109 RWES Select what will trigger PL uc Power Control Loop 1 to 0x10 this alarm 73 16 Lnr Linearization 238 0x11 17 PARE Math 240 Pu Process Value 241 ufr Variable 245 158 Alarm 1 to 16 1 or 16 1 2534 0x6D 22 9018 uint iS A Source Instance offset 60 109 RWES Set the instance of the 1 to 0
37. 12 top to bottom RMSx xx P x result in damage to equipment and R XXxX property and or injury or loss of life S Input 13 16 top to bottom RMSx xxx P Note R mE Maximum wire size termination and torque rating S e 0 0507 to 3 30 mm 30 to 12 AWG R single wire termination or two 1 31 mm 16 AWG Thermistor 0 8 Nm 7 0 in Ib torque Note Digital Inputs 1 through 12 Adjacent terminals may be labeled RMS Part Digit 7 8 is C and or B Respectively differently depending on the model Slot D E Digital Input Event number Common B Conditions Note LIBE Voltage To prevent damage to the controller ep a inactive when lt do not connect wires to unused ter DC Input minals m Input active when REUD 3V Note RME amp PeS 363 REA Dry Contact Maintain electrical isolation between DC Input Input inactive when gt digital input outputs switched dc open Internal Supply 100KO f collector outputs and process outputs Input active when lt to prevent ground loops 500 Six user configurable z digital inputs outputs Warning SHE per slot Explosion Hazard Substitution of Slot D DI 1 6 component may impair suitability for RMSx xx C xx xxxx Slot D Slot E CLASS I DIVISION 2 Slot E DI 7 12 RMSx xxx C xxxx Warning Slot E DI 9 Explosion Hazard Do not disconnect RMSx xxx B xxxx while the circuit is live or unless the ar
38. 210 amp 211 Pointer 6 20 amp 1 Hardware ID Value of Pointer 6 Registers 52 amp 53 Registers 212 amp 213 Pointer 7 0 amp 1 Hardware ID Value of Pointer 7 Registers 54 amp 55 Registers 214 amp 215 Pointer 8 0 amp 1 Hardware ID Value of Pointer 8 Registers 56 amp 57 Registers 216 amp 217 Pointer 9 2 0 amp 1 Hardware ID Value of Pointer 9 Registers 58 amp 59 Registers 218 amp 219 Pointer 10 20 amp 1 Hardware ID Value of Pointer 10 Registers 60 amp 61 Registers 220 amp 221 Pointer 11 20 amp 1 Hardware ID Value of Pointer 11 Registers 62 amp 63 Registers 222 amp 223 Pointer 12 20 amp 1 Hardware ID Value of Pointer 12 Registers 64 amp 65 Registers 224 amp 225 Pointer 13 20 amp 1 Hardware ID Value of Pointer 13 Registers 66 amp 67 Registers 226 amp 227 Pointer 14 20 amp 1 Hardware ID Value of Pointer 14 Registers 68 amp 69 Registers 228 amp 229 Pointer 15 20 amp 1 Hardware ID Value of Pointer 15 Registers 70 amp 71 Registers 230 amp 231 Pointer 16 20 amp 1 Hardware ID Value of Pointer 16 Registers 72 amp 73 Registers 2
39. 32 bit Read the hardware ID 1 R 1 FCEY Calibration Menu Calibration Menu 1 to 16 420 0x68 4021 float Mv Electrical Measurement offset 104 R Read the raw electrical value 90 1 to 0x0C for this input in the units cor 12 responding to the Sensor Type 0x15 21 Setup Page Analog Input Menu setting EL 10 Calibration Menu 1 to 16 1 999 000 to 9 999 000 0 0 398 0x68 sie 4010 float ELi o Electrical Input Offset offset 104 RWES Change this value to calibrate 90 1 to 0x0C the low end of the input range 12 OxA 10 Calibration Menu 1 to 16 1 999 000 to 9 999 000 1 0 400 0x68 4011 float ELi S Electrical Input Slope offset 104 RWES Adjust this value to calibrate 90 1 to 0x0C the slope of the input value 12 OxB 11 Note Some values will be rounded off to fit in the four character display Full values can R Read be read with another interface VoM If there is only one instance of a menu no submenus will appear iu User Set Watlow EZ ZONE RMS Module e 83 o Chapter 5 Factory Page Chapter 6 Features Saving and Restoring User Settings 5 85 IMPUS 5 crise cT 85 Calibration Offset 0 0 ce cee cee eee eee 85 Calibration csse cece eee RII 85 Filter Time Constant ssssssssse RR 96 Sensor Selection 0 0 cece eee ee eens 86 Scale High and Scale Low cece cece eee eee 86 Range High and Range Low
40. 4 Alo Alarm 1 to 16 1 999 000 to 9 999 000 F or 32 0 F 2502 0x6D 18 9002 float A Lo Low Set Point units or units offset 60 109 RWES If Alarm Type Setup 1 128 000 to 5 537 000 C 0 0 C 1 to 0x10 Page Alarm Menu is 16 set to 2 process set the process value that will trigger a low alarm Ah Alarm 1 to 16 1 999 000 to 9 999 000 F 300 0 F 2500 0x6D 19 9001 float A hi High Set Point or units or units offset 60 109 RWES If Alarm Type Setup 1 128 000 to 5 537 000 C 150 0 C 1 to 0x10 Page Alarm Menu is 16 set to 1 process set the process value that will trigger a high alarm Alarm 1 to 16 nl RE Non Latching 60 Non 2512 0x6D 27 9007 uint A LA Latching CLAE Latching 49 Latching offset 60 109 RWES Turn alarm latching on or 1 to 0x10 off A latched alarm has to 16 be turned off by the user 7 RbL Alarm 1 to 16 oF F Off 62 Off 2514 0x6D 28 9008 uint A bL Blocking Startup 88 offset 60 109 RWES Select when an alarm will 1to 0x10 be blocked After startup BEN en ae im 16 and or after the set point g 8 changes the alarm will be blocked until the process value enters the normal range Alarm 1 to 16 L oFfFF Off 62 Off 2510 0x6D 29 9006 uint A Si Silencing oa On 63 offset 60 109 RWES Turn alarm silencing on to 1 to 0x10 allow the user to disable 16 this alarm 6 Note Some values will be rounded off to fit in the four character displ
41. 74 Modbus Default Assembly Structure 80 119 122 123 Modbus Using Programmable Memory Blocks 90 Modbus Word Order 79 N navigating Factory Page 80 Setup Page 33 43 network wiring 29 e 128 Non volatile Save 44 79 O Operations Page Control Module 33 operator interface 124 ordering information integrated controller models 126 Output Menu 54 outputs 4 Output State 35 P P3T armor sealing system 3 Parameter 1 to 20 81 Parameter ID 31 Parity 79 Part Number 83 Password 80 82 Peltier Delay 44 Potentiometer 23 power supplies 15 Pressure Units 43 44 process alarms 87 Process Error Enable 45 Process Error Low 46 Process Value 34 43 46 47 Process Value Function 95 Process Value Menu 34 Profibus 32 Profibus Index 31 programming the Home Page 85 Public Key 80 82 Q R Range High 45 86 Range Low 45 86 Read Lockout Security 88 receiving a remote set point 86 restoring user settings 85 Rolling Password 82 S saving user settings 85 Scale High 45 86 Scale Low 45 86 Secure settings 88 89 Security Function 119 Security Setting 81 82 sensor backup 86 sensor selection 86 Sensor Type 45 86 serial communications 124 Serial Number 83 Set Lockout Security 88 set point low limit 86 Setup Page Control Module 43 Appendix Sides Alarm 56 Silence Request 57 Silencing 56 88 Software Build 83 Software Configuration 91 Software Revision 83 Source 55 Specifications 124 standard conn
42. 9 999 000 F 422 0x68 104 4022 float play Filtered Process Value or units offset 90 1 to 0x10 R View the process value 1 128 000 to 5 537 000 C 16 when filtering is turned on 0x16 22 Analog Input 1 to 16 nonE None 61 None 382 0x68 104 1 4002 uint i Er Input Error OPE n Open 65 offset 90 1to 0x10 R View the cause of the most gy El Shorted 127 16 PEGSns EDS EPT Measurement Error 2 140 ECAL Bad Calibration Data 139 E c Hib Ambient Error 9 E r E d RTD Error 141 FA L Fail 32 NSr c Not Sourced 246 Analog Input 1 to 16 1 999 000 to 9 999 000 F 0 0 402 0x68 104 2 4012 float i CA Calibration Offset or units offset 90 1 to 0x10 RWES Offset the input reading to 1 110 555 to 5 555 000 C 16 compensate for lead wire OxC 12 resistance or other factors that cause the input read ing to vary from the actual process value No Dis Analog Input 1 to 16 Clear Latch 1221 436 0x68 104 4029 uint play Clear Latched Input Er offset 90 1 to 0x10 W ror 16 Clear latched input when Ox1D 29 input error condition no longer exists Process Value Menu Process Value 1 to 16 1 999 000 to 9 999 000 F 5210 Ox7E 126 26016 float Sv A Source Value A or units offset 70 1to 0x10 R View the value of Source A 1 110 556 to 5 555 000 C 16 0x10 16 Process Value 1 to 16 1 999 000 to 9 999 000 F 5212 Ox7E 126 26017 float Sv b Source
43. A meurce Value m gt Source Error A ms Source Value C Ls Source Function B gt Source Instance B Source Value D L Source Zone B gt Source Error B m en gm Source Function C gt Source Instance C gt Source Zone C Process Value Process Value gt Source Error C gt Maximum Square Root Source Function D gt Source Instance D Source Zone D Source Error D gt Output Value gt Output Value Error gt Error gt gt Output Value Filter Maximum Value A B C D Output Value Filter Sqr Root A Offset Offset Display units follows Source A Display units follows Source with maximum value D CN Uy K 4 Q AD NP Cx j Cn z 2 LI Yay o Bog ton g Uig o ey Bey Source Function A Source Value A Source Function A gt Source Instance A LL gt Source Instance A Source Value A gt Source Value B gt Source Error A pm gt Source Error A md Source Function B Ha Bg gt Source Instance B gt lt Source Zone B gt Source Error B ms gt ce Process Value Process Value gis Vaisala RH m Pressure to i Compensation em Altitude gt gt Output Value gt Output Value gt Error p Error gt gt gt Output Value Filter Convert Source A in Pressure to Output Value Filter Calculated RH compensated Altitude Offset for temperature Offset Note Source A is RH measu
44. Altitude 1349 JEL Jd Dewpoint 1650 Math 1 to 24 non None 61 None 3500 0x7D 25001 uint SFn A Source Function A A Analog Input 142 offset 70 125 RWES Set the type of function CUr r Current 22 1to 0x18 that will be used for this CPF Cool Power Control 24 Source Loop 161 1 h Pr Heat Power Control Loop 160 PL Jur Power Control Loop 73 Lor Linearization 238 PRAE Math 240 Pu Process Value 241 SPC Set Point Closed Control Loop 242 SP Set Point Open Con trol Loop 248 ufr Variable 245 CSL LA Math 1 to 24 1 to 24 1 3510 0x7D 25006 uint Si A Source Instance A offset 70 125 RWES Set the instance of the 1 to 0x18 function selected above 24 6 SZA Math 1 to 24 0 to 16 0 3520 0x7D 25011 uint SZA Source Zone A offset 70 125 RWES Set the zone of the function 1to 0x18 selected above 24 OxB 11 Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear Bae Watlow EZ ZONE RMS Module Chapter 4 Setup Page RM Scanner Module Setup Page CIP Data Modbus Class Type Display eee Range Defa
45. Blocks 4 121 RMS Specifications 0 0 cee eee ees 124 EZ ZONE Rail Mount Scanner Module Ordering Information 126 i EE TEE 127 How to Reach US 0 ccc eee eee me 131 Watlow EZ ZONE RMS Module 2 2 o Table of Contents Chapter 1 Overview The EZ ZONE RM Scanner RMS is capable of monitoring from 1 to 16 inputs As is the case with all of the RM family modules the RMS can be used as a standalone device or it can be used as part of a larger system of interconnected RM modules The RMS takes the pain out of solving your need for high density monitoring requirements as either a stand alone module or in applications that require distrib uted control It just got a whole lot easier to solve the thermal requirements of your system The RMS module is provided in a space saving rail mount package and is highly scalable where you only pay for what you need For those applications that require the abil ity to configure monitor the module over a network Modbus RTU communications is an option Other communications protocols are also available e g EtherNet IP DeviceNet Modbus TCP and Profibus DP when used in conjunction with an RMA module or when using a Remote User Interface Gateway RUI GTW Standard Features and Benefits Communication Capabilities e Supports network connectivity to a PC or PLC e Watlow Standard Bus or Modbus RTU Provides plug and play capabilities with b
46. Compare 1 to 24 non E None 61 None 8220 0x80 128 28001 uint SFn A Source Function A A Analog Input 142 offset 40 1 to 0x18 RWES Set the type of function CUr r Current 22 24 that will be used for this E Pr Cool Power Control 1 source Lo p 161 hP c Heat Power Control Loop 160 PL Jc Power Control Loop 73 Lnr Linearization 238 PARE Math 240 Pu Process Value 241 GPC Set Point Closed Control Loop 242 SPo Set Point Open Con trol Loop 243 uic Variable 245 Compare 1 to 24 1to 24 1 8224 0x80 128 28003 uint Si A Source Instance A offset 40 1 to 0x18 RWES Set the instance of the 24 function selected above 3 Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear dos e Watlow EZ ZONE RMS Module 60 Chapter 4 Setup Page RM Scanner Module Setup Page CIP Data Modbus Class Type Display join Range Default Relative Instance EE ipod amp P Address Attribute Read hex dec Write SZA Compare 1 to 24 0 to 16 0 8228 0x80 128 28005 uint SZA Source Zone A offset 40 1 to 0x18 RWES Set the zone of the function 24 selecte
47. Mechanical Relay Form A Slot D APA L4 normally open ud gs resistive Tac ee 1 oa i L_ Ki common 20 mA at 24V minimum O L2 normally open load Nu ue 125 VA pilot duty 1 K2 common 120 240V ac 25 VA at i L3 normally open 24V ac i i 100 000 cycles at rated load l Kg semmen Output does not supply Internal Circuitry L4 normally open power nm for use with ac or dc K4 See Quencharc note Slot D Outputs 1 6 Slot E RMSx xx J x xxxx L7 pomaly open Slot E Outputs 7 10 K7 commen RMSx xxx J xxxx Lg norma ly open K8 common L9 normal ly open K9 common L 10 normal ly open K1 o common Chapter 2 Install and Wire Warning N Use National Electric NEC or other country specific standard wiring and safety practices when wiring and connecting this controller to a power source and to electrical sensors or pe ripheral devices Failure to do so may result in damage to equipment and property and or injury or loss of life Note Maximum wire size termination and torque rating 0 0507 to 3 30 mm 30 to 12 AWG single wire termination or two 1 31 mm 16 AWG 0 8 Nm 7 0 in Ib torque Note Adjacent terminals may be labeled differently depending on the model number Note To prevent damage to the controller do no
48. Module e 17 e Chapter 2 Install and Wire Scanner Module RMSx xxxx xxxx Slot A Slot B Slot D Slot E Configuration Universal RTD and Thermistor Inputs 1 16 1 4 5 8 9 12 13 16 S1 S5 S9 13 Universal Thermistor Input R1 R5 R9 R13 Part Digits 5 6 7 8 a a ER S od apii volts mA potenti Input 1 4 RMSx R P xxx xxxx ometer wiper or thermistor _Q P S3 S7 S11 S15 R_ RTD thermocouple volts mA poten Tepes dirum zIR Plz R3 R7 R11 R15 tiometer or thermistor Input 9 12 RMSx xx R P z S4 S8 S12 S16 Input 13 16 RMSx xxx R P xxxx R4 R8 R12 R16 Digital Inputs 1 6 and 7 12 1 6 7 12 e eos Bl B7 Common Digital Inputs DI oan D1 D7 DC input Part Digit 7 8 ae seo D2 D8 DC input Slot A Option not valid uis nidis D3 D9 DC input Slot B Option not valid aan m D4 D10 DC input EP cup D5 D11 DC input Slot D RMSx xx C x xxxx EE De D6 D12 DC input Slot E RMSx xxx C xxxx zs S Z1 ZT Internal Supply Digital Input 9 9 FEE mE ae Su Digital Input DI T Bee Hes Part Digit 8 nes oue Slot A Option not valid j pae Slot B Option not valid m um E ME Slot D Option not valid Luz Se see B9 Common Slot E RMSx xxx B xxxx Bren rere D9 DC input Form A Mechanical Relay Outputs 1 4 and 7 10 eos aed 1 4 7 10 Lug cmm Li L7 normally open Mechanical Rel
49. Registers 274 amp 275 Pointer 38 0 amp 1 Hardware ID Value of Pointer 38 Registers 116 amp 117 Registers 276 amp 277 Pointer 39 0 amp 1 Hardware ID Value of Pointer 39 Registers 118 amp 119 Registers 278 amp 279 Pointer 40 2 0 amp 1 Hardware ID Value of Pointer 40 Watlow EZ ZONE RMS Mo dule Appendix Registers Default Pointers Registers 120 amp 121 Modbus Default Assembly Structure 120 199 Assembly Definition Assembly Working Registers Pointer 41 20 amp 1 Hardware ID Registers 280 amp 281 Value of Pointer 41 Registers 122 amp 123 Pointer 42 20 amp 1 Hardware ID Registers 282 amp 283 Value of Pointer 42 Registers 124 amp 125 Pointer 43 20 amp 1 Hardware ID Registers284 amp 285 Value of Pointer 43 Registers 126 amp 127 Pointer 44 0 amp 1 Hardware ID Registers 286 amp 287 Value of Pointer 44 Pointer 45 20 amp 1 Hardware ID Registers 128 amp 129 Registers 288 amp 289 Value of Pointer 45 Registers 130 amp 131 Pointer 46 0 amp 1 Hardware ID Registers 290 amp 291 Value of Pointer 46 Registers 132 amp 133 Pointer 47 20 amp 1 Hardware ID Registers 29
50. SF n A Source Function A Timer Run None Alarm Compare Counter Digital TO Profile Event Out A to H Function Key Logic Special Function Output 1 to 4 Timer Variable S fi Source Instance A 1 to 24 SZA Source Zone A 0 to 16 GASA Source Active State A Timer Run High rising Low falling SF nb Source Function B Timer Reset None Alarm Compare Counter Digital I O Profile Event Out A to H Function Key Logic Special Function Output 1 to 4 Timer Variable 8 1b Source Instance B 1 to 24 5 8 5 Source Zone B 0 to 16 585 5 Source Active State B Timer Reset High rising Low falling E Time 0 to 9 999 seconds L Eu Active Level High Low lg PE c Operation Page EP 1 Timer Menu S 4 R Source Value A Off On Sub Source Value B Off On EE Elapsed Time 0 0 to 9 999 000 seconds ow Output Value Off On An error when read can indicate any of the following None Open Shorted Measurement Error Bad Cal Data Ambient Error RTD Error Fail Math Error Not Sourced Stale D Q i pitty gt gt Output Value gt Error p gt gt Timer Off Output Value OFF Watlow EZ ZONE RMS Module 112 Chapter 6 Features K ey 4 bo KA ics ds 2 RAN Source Function A Source Instance A Source Value A gt Source Zone A NES Source Error A Elapsed Time Output Value
51. Select the low and high values with Range Low and Range High Setup Page Analog Input Menu Linearization The linearization function allows a user to re linear ize a value read from an analog input There are 10 data points used to compensate for differences be tween the sensor value read input point and the de sired value output point Multiple data points enable compensation for non linear differences between the sensor readings and target process values over the thermal or process system operating range Sensor reading differences can be caused by sensor place ment tolerances an inaccurate sensor or lead resis tance The user specifies the unit of measurement and then each data point by entering an input point value and a corresponding output point value Each data point must be incrementally higher than the previous point The linerization function will interpolate data points linearly in between specified data points Chapter 6 Features Ns Input Point 10 g S Resin om Semsar 5 Output Point 10 without Linearization ai D Actual Value 577 5 tt Eo 3 i Yon 5 2 i d Offset Zone E Input Point 1 i o E Reading from Sensor with Linearization Displayed Value Output Point 1 No Offset B Time Alarms are activated when the output level process value or temperature leaves a defined range A user can configure how and when an alarm is triggered what action it takes and whether it turns off
52. Tel 81 3 3518 6630 Fax 81 3 3518 6632 Website www watlow co jp ABR E M CES ER A 80143 BHT Bi S a E 981899 1038 2 ig 07 2885168 E 07 2885568 Watlow Electric Taiwan Corporation 10F 1 No 189 Chi Shen 2nd Road Kaohsiung 80143 Taiwan Tel 886 7 2885168 Fax 886 7 2885568 Your Authorized Watlow Distributor Email infoj watlow com Website www watlow co jp Watlow EZ ZONE RMS Module e 131 TOTAL CUSTOMER SATISFACTION Appendix
53. Value B or units offset 70 1to 0x10 R View the value of Source B 1 110 556 to 5 555 000 C 16 0x11 17 Note Some values will be rounded off to fit in the four character display Full values R Read can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear S User Set Watlow EZ ZONE9 RMS Module Chapter 3 Operations Page RM Scanner Module Operations Page Modbus T pata Display esci e Range Default Relative Instance an ab ees Pun d Address Attribute 7 Write hex dec Suc Process Value 1 to 16 1 999 000 to 9 999 000 F 5214 Ox7E 126 26018 float Sv c Source Value C or units offset 70 1to 0x10 R View the value of Source C 1 110 556 to 5 555 000 C 16 0x12 18 C Sud Process Value 1 to 16 1 999 000 to 9 999 000 F 5216 Ox7E 126 26019 float Sv d Source Value D or units offset 70 1to 0x10 R View the value of Source D 1 110 556 to 5 555 000 C 16 0x13 19 SuE Process Value 1 to 16 1 999 000 to 9 999 000 F 5218 Ox7E 126 26020 float Sv E Source Value E or units offset 70 1to 0x10 R View the value of Source E 1 110 556 to 5 555 000 C 16 0x14 20 oF St Process Value 1 to 16 1 999 000 to 9 999 000 F O 5224 Ox7E 126 26023 float oFSt Offset or units offset 70 1to 0x10 RWES Se
54. Zere RMA RMAF A3BD AXAA 2 gt Repeat Scan Cancel Hep lt Back Next gt In the previous screen shot the RMS is shown high Watlow EZ ZONE RMS Module 91 Chapter 6 Features lighted address 6 to bring greater clarity to the con trol in focus Any EZ ZONE device on the network will appear in this window and would be available for the purpose of configuration or monitoring After clicking on the control of choice simply click the next button once again After clicking on Setup and then Analog Input 1 the next screen appears below Watlow EZ ZONE CONFIGURATOR Edit Device Settings On Line Configuring Model Number RMSA RRIC AANA to that parameter will appear in the center column The grayed out fields in the center column simply mean that this parameter does not apply for the type of sensor selected As an example notice that when RTD is selected TC Linearization does not apply and is therefore grayed out To speed up the process of configuration notice that Parameters are set in the device as you edit them Click Next to see more parameters or click a Menu in the tree to view and edit its settings Click Finish to save and exit Parameter Menus Parameters Setup Analog Input 1 Parameter Help EZ Z0N AM e Sensor Type RTO 100 Ohm Configure the Inputs Analog Wrens TC Lineanzation J z Setthe controller parameters to match the 1 a Units Process lt sensors attached to t
55. auto matically when the alarm condition is over Configure alarm outputs in the Setup Page before setting alarm set points Alarms do not have to be assigned to an output Alarms can be monitored and controlled through the front panel or by using software Process and Deviation Alarms A process alarm uses one or two absolute set points to define an alarm condition A deviation alarm uses one or two set points that are defined relative to the control set point High and low alarm set points are calculated by adding or subtracting offset values from the control set point If the set point changes the window defined by the alarm set points automatically moves with it Select the alarm type with Type Setup Page Alarm Menu Alarm Set Points The alarm high set point defines the process value or temperature that will trigger a high side alarm The alarm low set point defines the temperature that will trigger a low side alarm For deviation alarms a negative set point represents a value below closed loop set point A positive set point represents a value above closed loop set point View or change alarm set points with Low Set Point and High Set Point Operations Page Alarm Menu Alarm Hysteresis An alarm state is triggered when the process value reaches the alarm high or alarm low set point Alarm hysteresis defines how far the process must return into the normal operating range before the alarm can be cleared
56. b Output Time Base 0 1 to 60 0 seconds Instances 16 per RMS oL oj Output Low Power Scale 0 0 to 100 0 96 SE E Setup Page o h 1 Output High Power Scale 0 0 to 100 0 96 ACE Action Menu F n Action Function None User Set Restore Alarm Silence Alarms Control Loops Off and Alarms to Non alarm State Force Alarm to Occur Idle Set Point Tune Manual Switch Control Loop Off Remote Set Point TRU TUNE Disable F Function Instance 0 to 25 oPE c Operation Page d o Digital VO Menu do 5 Output State On Off Source Function A None Alarm Compare Counter Digital I O Profile Event Out A to H Function Key Limit Logic Timer Digital Output Value On Off Variable An error when read can indicate any of the following Source Instance A 1 to 24 None Open Shorted Measurement Error Bad Cal Data 52A Source Zone A 0 to 16 Ambient Error RTD Error Fail Math Error Not Sourced L Eu Active Level High Low Stale loPE c Operation Page ACE Action Menu E 5 Event Status On Off Watlow EZ ZONE RMS Module e 103 Chapter 6 Features Global Function y Po TRAT Global Overview Instances 1 per RMS Output Value SEE Setup Page 9L bL Global Menu Display Units F C ACL F AC Line Frequency 50 Hz 60 Hz dP c 5 Display Pairs 1 to 15 User Settings Save None User Set 1 User Set 2 User Settings Restore None User Set 1 Use
57. es Website www watlow es Watlow UK Ltd Linby Industrial Estate Linby Nottingham NG15 8AA United Kingdom Telephone 0 115 964 0777 Fax 0 115 964 0071 Email info watlow co uk Website www watlow co uk From outside The United Kingdom Tel 44 115 964 0777 Fax 44 115 964 0071 Watlow Korea Co Ltd 1406 E amp C Dream Tower 46 Yangpyeongdong 3ga Yeongdeungpo gu Seoul 150 103 Republic of Korea Tel 82 2 2628 5770 Fax 82 2 2628 5771 Website www watlow co kr Email info watlow com sg Website www watlow com sg Watlow Australia Pty Ltd 4 57 Sharps Road Tullamarine VIC 3043 Australia Tel 61 3 9335 6449 Fax 61 3 9330 3566 Website www watlow com Watlow Malaysia Sdn Bhd 1F 17 IOI Business Park No 1 Persiaran Puchong Jaya Selatan Bandar Puchong Jaya 47100 Puchong Selangor D E Malaysia Tel 60 38076 8745 Fax 60 3 8076 7186 Email viee watlow com Website www watlow com Watlow Electric Manufacturing Company Shanghai Co Ltd Room 501 Building 10 KIC Plaza 290 Songhu Road Yangpu District Shanghai China 200433 China Phone Local 4006 Watlow 4006 928569 International 86 21 3381 0188 Fax 86 21 6106 1423 Email info watlow cn Website www watlow cn TKO VrNVRASH 7101 0047 RRAF tA RA EH 1 14 4 FPES E JL p E 9 Pei Tel 03 3518 6630 Fax 03 3518 6632 Email infoj watlow com Watlow Japan Ltd 1 14 4 Uchikanda Chiyoda Ku Tokyo 101 0047 Japan
58. go to the Setup Page Ana All Process Value functions are set to off to change go to the Setup Page Process Value Menu All outputs are set to off to change go to the Set up Page Output Menu Once the scanner has been wired and setup power up the control If using an RUI the upper display will show the value of Analog Input 1 and the lower dis play will show the value of Analog Input 2 EZ ZONE RMS Default Configuration Input Function All Analog Inputs Thermocouple Type J Output Function Cp e Alarm Types All Outputs Off Chapter 1 Overview Input Function Input Sensor RUI PC PLC or HMI Other RM Modules i Power Supply p i EZ ZONE RMS Module System Diagram 16 Scanner Channels Slots A B D and E R M S x R P R P R P R P AAAA is Analog Input 1 through 16 None Thermocouple 2 Wire RTD 100 1k Thermistor 5k 10K 20k 40k Process V mV mA or 1K Potentiometer EIA 485 Communications Standard Bus optional Modbus RTU Inter module Bus 20 4 to 30 8 Vac or Vde P Alarms Slot A B D E iiu Zone and Status Modbus RTU Address 1 16 Standard Bus Zone 1 16 Supervisory amp Power Board Slot C Output Function LED Indicates Zone Address Zone Selection Push to select Zone ox Address and Pr
59. hold the Infinity Key for two seconds to 3 Press the Advance Key to enter the menu of return to the Home Page choice On the following pages top level menus are identified 4 If a submenu exists more than one instance press with a yellow background color the Up or Down Q key to select and then press the Advance Key to enter Note Some of these menus and parameters may not appear depending on the controller s options See model number information in the Appendix for more information If there is only one instance of a menu no sub menus will appear Note Some of the listed parameters may not be visible Parameter visibility is dependent upon controller part number C P 1 j Electrical Measurement Custom Setup Menu Electrical Input Offset Ito Electrical Input Slope Custom Setup Pf Parameter d Instance ID Lol Security Setting Menu Security Setting LoCo Operations Page G E Password Enable oC Read Lock oC Write Security CL Locked Access Level Rolling Password Su User Password 5 8 Administrator Password 1 o 70 m Ir r r o m 3 o F r Oo 70 c D 70 3 ULo FCt Jj Security Setting Menu Security Setting CogE Public Key PASS Password FCEY Diagnostics Menu Diagnostics Pan Part Number c Eu Software Revision 5 6L d Software Build Number Sa Serial Number dft E Date of Manufacture
60. it now matches the signal If it doesn t match adjust Electrical Slope again Set Electrical Offset to 0 and Electrical Slope to 1 to restore factory calibration 1 Filter Time Constant Filtering smoothes an input signal by applying a first order filter time constant to the signal Filter ing the displayed value makes it easier to monitor Filtering the signal may improve the performance of PID control in a noisy or very dynamic system Adjust the filter time interval with Filter Time Setup Page Analog Input Menu Example With a filter value of 0 5 seconds if the process input value instantly changes from 0 to 100 and remained at 100 the display will indicate 100 after five time con stants of the filter value or 2 5 seconds 4 Unfiltered Input Signal Temperature Time Filtered Input Signal Temperature Time Sensor Selection You need to configure the controller to match the in put device which is normally a thermocouple RTD or process transmitter Select the sensor type with Sensor Type Setup Page Analog Input Menu Scale High and Scale Low When an analog input is selected as process voltage or process current input you must choose the value of voltage or current to be the low and high ends For Watlow EZ ZONE RMS Module e 86 o example when using a 4 to 20 mA input the scale low value would be 4 00 mA and the scale high value would be 20 00 mA Commonly use
61. levels parameter to submenu submenu to menu menu to Home Page 7 Press and hold the Infinity Key for two seconds to return to the Home Page On the following pages top level menus are identified with a yellow background color Some of these menus and parameters may not appear depending on the controller s options See model number information in the Appendix for more information If there is only one instance of a menu no sub menus will appear Note Some of the listed parameters may not be visible Parameter visibility is dependent upon controller part number Sd gj Source Zone D oEPE Analog Input Menu SF amp Source Function E SEE Output Menu C 1 5 E Source Instance E 1 8 Analog Input 1 to 16 52E Source Zone E of PE Output 1 to 10 C SEn Sensor Type CP Cross Over Point Fnj Output Function L n TC Linearization Cb Cross Over Band Output Function Instance Un E Units Punt Pressure Units Output Source Zone A St o Scale Low Aunt Altitude Units of E Output Control C 5h Scale High b P Barometric Pressure of b Output Time Base r L o Range Low F L Filter a
62. more about the Modbus protocol point your browser to http www modbus org Note There are two columns shown in the menus that follow for communications protocols identified as CIP Common Industrial Protocol and Profibus These columns will be useful if this control is used in conjunction with the RMA module or the EZ ZONE Remote User Interface Gateway RUI GTW where those protocols can be selected as optional hardware For this module RMS as a secondary protocol beyond Standard Bus Modbus RTU can be ordered as optional hardware To learn more about the RUI GTW point your browser to the link below and search for keyword EZ ZONE http www watlow com literature pti_search cfm Watlow EZ ZONE RMH Module e 32 Chapter 2 Menu Conventions Chapter 3 Operations Pages Navigating the Operations Page To navigate to the Operations Page using the RUI fol low the steps below 1 From the Home Page press both the Up and Down Q keys for three seconds will appear in the upper display and will appear in the lower display 2 Press the Up or Down Q key to view available menus 3 Press the Advance Key to enter the menu of choice 4 If a submenu exists more than one instance press Note the Up or Down Q key to select and then press the Advance Key to enter 5 Press the Up O or Down O key to move through available menu prompts 6 Press the Infinity Key to move backwards through the levels p
63. n iE Units Input Point 1 Output Point 1 Input Point 2 Output Point 2 Input Point 3 Output Point 3 Input Point 4 Output Point 4 Input Point 5 Output Point 5 Input Point 6 Output Point 6 Input Point 7 Output Point 7 Input Point 8 Output Point 8 Input Point 9 Output Point 9 Input Point 10 Output Point 10 co L o co o ry o D N 7o Y o Lo ur 5o c o co o un o ms ny To tn o LO e 5o J o aa J o tn o LO Co 5o o o Lo 7o S 0 Or 5 m D em Compare Menu I 8 CPE Compare 1 to 24 F n Function tol Tolerance F nA Source Function A H Source Instance A gA Source Zone A F n b Source Function B b Source Instance B 2b Source Zone B A Error Handling i rr 73 3 E Timer Menu I Timer 1 to 24 F n Function F nA Source Function A H Source Instance A A Source Zone A ASA Source Active State A F nb Source Function B b Source Instance B gdb Source Zone B B 5b Source Active State B 1 Time uJ Active Level rr r m m m r C SEE Counter Menu Counter 1 to 24
64. or 1K Potentiometer Alarms Slot A B Digital Input 1 2 3 4 5 or 6 Switch contact or volts dc 6 Digital Inputs Outputs any combination Slot D Output Function Output 1 2 3 4 5 or 6 switched dc open collector 1 Input Device Digital Input 9 Switch contact or volts de RUI EZ ZONE PM ST PC PLC or HMI Other RM Modules E Power Supply i p M H 1 Digital Input 2 Mechanical Relay Outputs Slot E Output 7 5A Mechanical Relay Form C Output 8 5A Mechanical Relay Form A b d EIA 485 Communications Standard Bus optional Modbus RTU Inter module Bus 20 4 to 30 8 Vac oe Vdc gt Modbus RTU Address 1 16 Standard Bus Zone 1 16 Supervisory amp Power Board Slot C Some input output combinations not possible see ordering matrix Zone and Status Output Status LEDs Zone Selection Analog Input Alarm Cool Power Heat Power Compare Counter Digital I O Profile Event Output A H Function Key Linearization Logic Math Process Value Special Output Function 1 4 Timer Variable Off LED Indicates Zone Address Push to select Zone on Address and Protocol O Card Status Q B Slots A B D E Indicates communications activity Modbus or Stand ard Bus Indicates I O Status
65. or higher than the alarm high set point The process temperature has to enter the normal operating range beyond the hysteresis zone to activate the alarm function Turn alarm blocking on or off with Blocking Setup Page Alarm Menu Using Lockout to Hide Pages and Menus If unintentional changes to parameter settings might raise safety concerns or lead to downtime your can use the lockout feature to make them more secure Each of the menus in the Factory Page and each of the pages except the Factory Page has a security level assigned to it You can change the read and write access to these menus and pages by using the parameters in the Lockout Menu Factory Page Lockout Menu There are five parameters in the Lockout Menu Fac tory Page Lock Operations Page sets the security level for the Operations Page default 2 Note The Home and Setup Page lockout levels are fixed and cannot be changed Lock Profiling Page sets the security level for the Profiling Page default 3 e Password Security Enable PAS will turn on or off the Password security feature default off Read Lockout Security determines which Watlow EZ ZONE RMS Module e 88 o pages can be accessed The user can access the se lected level and all lower levels default 5 e Set Lockout Security determines which pa rameters within accessible pages can be written to The user can write to the selected level and all lower levels
66. rounded off to fit in the four character display Full values R Read can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear S User Set Watlow EZ ZONE RMS Module Chapter 3 Operations Page RM Scanner Module e Operations Page Modbus ue pata Display Parameter Name Range Default Relative Instance Profibus Parameter Type Description Address Attribute Index ID amp Read Write hex dec Action Menu E 495 Action 1 to 16 __ oF F Off 62 2188 Ox6E 110 81 10005 uint Ei S Event Input Status on On 63 offset 20 1 to 0x10 R View this input state 16 5 No Dis Function Key 1 Off 62 2 were se 3024 uint play Function Key State On 63 R View current state of func tion key 1 NoDis Function Key 2 Off 62 eee wee eee eee 3030 uint play Function Key State On 63 R View current state of func tion key 2 Alarm Menu Alo Alarm 1 to 16 1 999 000 to 9 999 000 F 32 0 F 2502 0x6D 18 9002 float A Lo Low Set Point or units or offset 60 109 RWES If Alarm Type Setup 1 128 000 to 5 537 000 C units 1 to 0x10 Page Alarm Menu is 0 0 C 16 set to 2 process set the process value that will trigger a low alarm Bh Alarm 1 to 16 1 999 000 to 9 999 000 F 300 0 F 2500 0x6D 19 9001 float A hi Hig
67. selected above 0 to 16 0 6338 offset 80 Ox7F 127 1 to 0x18 24 0x14 20 27020 uint RWES Note Some values will be rounded off to fit in the four character display Full values can be read with other interfaces If there is only one instance of a menu no submenus will appear R Read W Write E EEPROM S User Set Watlow EZ ZONE RMS Module Chapter 4 Setup Page RM Scanner Module Setup Page Display Parameter Name Description Range Default Modbus Relative Address CIP Class Instance Attribute hex dec Profibus Index Parameter ID Data Type Read Write SFn E Logic 1 to 24 Source Function E Set the type of function that will be used for this Source non E None 61 ALP Alarm 6 CPE Compare 230 CE Counter 231 d o Digital I O 1142 En tA Profile Event Out A Ent Profile Event Out B Ent Profile Event Out C Ent Profile Event Out D En E E Profile Event Out E EntF Profile Event Out F Ent Profile Event Out G Ent Profile Event Out H F Un Function Key 1001 L P9 Limit 126 L 9C Logic 239 Special Function Ou 1532 Special Function Ou 1533 Special Function Ou 1534 o m ov m amp Fu o Z m amp ly t ue amp et oo o m lt Special Function Ou 15
68. the number of 0x1C 28 display pairs at the home page of an RUI USr 5 Global non E None 61 None 26 0x65 101 59 1014 uint USrS User Settings Save SEE IJ User Set 1 101 1 W Save all of this controller s 8E t 9 User Set 2 102 OxOE 14 settings to the selected set USc Global nonE None 61 None 24 0x65 101 58 1013 uint USrr User Settings Restore SEE I User Set 1 101 1 W Replace all of the control SEE User Set 2 102 0x0D 13 ler s settings with another F CE 9 Factory 31 set previously saved Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear User et Watlow EZ ZONE9 RMS Module e 78 e Chapter 4 Setup Page RM Scanner Module Setup Page CIP Data Modbus Class Type Display ne Range Default Relative Instance CES fa cee amp P Address Attribute Read hex dec Write Communications Menu bAUd Communications 9 600 188 9 600 3464 0x96 150 17002 uint bAUd Baud Rate 19 200 189 1 RWE Set the speed of this con 3 499 190 3 troller s communications to match the speed of the serial network PA Communications non None 61 None 3466 0x96 150 17003 uint PAr Parity EuEn Even 191 1 RWE Set
69. to 5 537 000 C 1 to 0x18 B 24 0x11 17 Math 1 to 24 1 999 000 to 9 999 000 F 3534 0x7D 25018 float Su C Source Value C or units offset 70 125 RWES View the value of Source 1 128 000 to 5 537 000 C 1 to 0x18 C 24 0x12 18 Math 1 to 24 1 999 000 to 9 999 000 F 3536 0x7D 25019 float Su d Source Value D or units offset 70 125 RWES View the value of Source 1 128 000 to 5 537 000 C 1 to 0x18 D 24 0x13 19 Math 1 to 24 Off 62 3538 0x7D 25020 uint Su E Source Value E On 63 offset 70 125 RWES View the value of Source 1 to 0x18 E 24 0x14 20 Math 1 to 24 1 999 000 to 9 999 000 F 0 3544 0x7D 25023 float oF St Offset or units offset 70 125 RWES Set an offset to be applied 1 128 000 to 5 537 000 C 1 to 0x18 to this function s output 24 0x17 28 ou Math 1 to 24 1 999 000 to 9 999 000 F 3542 0x7D 25022 float o v Output Value or units offset 70 125 RWES View the value of this 1 128 000 to 5 537 000 C 1 to 0x18 function s output 24 0x16 22 Note Some values will be rounded off to fit in the four character display Full values R Read can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear S User Set Watlow EZ ZONE9 RMS Module 41 Chapter 3 Operations Page RM Scanner Module e Operations Page En Data Pa
70. 0 1 to 0x10 RWES Set the analog sensor type Pu Millivolts 56 16 to match the device wired Volts de 104 5 to this input voL Vo PAA Milliamps dc 112 Note c 01H RTD 100 Q 113 There is no open sensor LOH RTD 1 000 114 detection for process PoE Potentiometer 1 kQ inputs 155 EHE Thermistor 229 Lin Analog Input 1 to 16 b BA1 HIK 48 J 390 0x68 104 4 4006 uint Lin TC Linearization Ocas n N 58 offset 90 1 to 0x10 RWE Set the linearization to J D 23 F R 80 16 match the thermocouple EEG TJS 84 6 wired to this input F F 30 EJT 93 uJ J 46 Unt Analog Input 1 to 16 AE P Absolute Temperature Process 462 0x68 104 5 4042 uint Unit Units 1540 offset 90 1 to 0x10 RWE Set the type of units the PL Jr Power 73 16 sensor will measure Po Process 75 0x2A 42 ch Relative Humidity 1538 C Slo Analog Input 1 to 16 100 0 to 1 000 0 0 0 408 0x68 104 6 4015 float S Lo Scale Low offset 90 1 to 0x10 RWE Set the low scale for pro 16 cess inputs This value OxF 15 in millivolts volts or mil liamps will correspond to the Range Low output of this function block CSR Analog Input 1 to 16 100 0 to 1 000 0 20 0 410 0x68 104 7 4016 float S hi Scale High offset 90 1 to 0x10 RWE Set the high scale for pro 16 cess inputs This value 0x10 16 in millivolts volts or mil liamps will correspond to the Range High output of this fu
71. 0 8 Vac oe Vdc Alarms Slot A B 6 Digital Inputs Outputs any combination Slot D Output Function 6 Digital Inputs Outputs any combination Slot E Output 1 2 3 4 5 6 switched dc open collector Analog Input Alarm Cool Power Heat Power Compare Counter Digital O Profile Event Output A H Function Key Linearization Logic Math Process Value Special Output Function 1 4 Timer Output 7 8 9 10 11 12 Variable switched dc open collector Off Zone and Status Modbus RTU Address 1 16 Standard Bus Zone 1 16 Supervisory amp Power Board Slot C Output Status LEDs Some input output combinations not possible see ordering matrix ED Indicates Zone Address Zone Selection Push to select Zone m Address and Protocol Card Status Q o Slots A B D E Indicates communications Q activity Modbus or Stand ard Bus Indicates I O Status Watlow EZ ZONE RMS Module Chapter 1 Overview EZ ZONE RMS Module System Diagram 8 Scanner Channels Slots A B 6 Digital I O Slot D 1 Digital Input 2 Mechanical Relays Slot E RM Sx 1 2 1 2 CB AAAA Input Function Input Sensor Input Device b Analog Input 1 through 8 None Thermocouple 2 Wire RTD 100 1k Thermistor 5k 10K 20k 40k Process V mV mA
72. 16 4 REOR Pu Process Value 241 L uA Variable 245 Process Value 1 to 16 1to 24 1 5196 Ox 7E 26009 uint Si d Source Instance D offset 70 126 RWES Set the instance of the 1 to 0x10 function selected above 16 9 Process Value 1 to 16 0 to 16 0 5206 Ox7E 26014 uint SZ d Source Zone D offset 70 126 RWES Set the zone of the function 1 to 0x10 selected above 16 OxOE 14 Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear s e Watlow EZ ZONE RMS Module 48 Chapter 4 Setup Page RM Scanner Module Setup Page CIP Data Modbus Class Type Display ene Range Default Relative Instance CE icis amp PR Address Attribute bo Read hex dec Write SFr Process Value 1 to 16 non E None 61 None 5188 Ox7E 26005 uint SFn E Source Function E ALTTI Alarm 6 offset 70 126 RWES Set the type of function CPE Compare 230 1 to 0x10 that will be used for this 16 ance Ct c Counter 231 5 d o Digital I O 1142 Ent A Profile Event Out A 233 En t 5 Profile Event Out B 234 En t C Profile Event Out C 235 Ent Profile Event Out D 236 Ent Profil
73. 2 amp 293 Value of Pointer 47 Registers 134 amp 135 Pointer 48 0 amp 1 Hardware ID Registers 294 amp 295 Value of Pointer 48 Registers 136 amp 137 Pointer 49 0 amp 1 Hardware ID Registers 296 amp 297 Value of Pointer 49 Registers 138 amp 139 Pointer 50 0 amp 1 Hardware ID Registers 298 amp 299 Value of Pointer 50 Registers 140 amp 141 Pointer 51 20 amp 1 Hardware ID Registers 300 amp 301 Value of Pointer 51 Registers 142 amp 143 Pointer 52 0 amp 1 Hardware ID Registers 302 amp 303 Value of Pointer 52 Registers 144 amp 145 Pointer 53 0 amp 1 Hardware ID Registers 304 amp 305 Value of Pointer 53 Registers 146 amp 147 Pointer 54 0 amp 1 Hardware ID Registers 306 amp 307 Value of Pointer 54 Registers 148 amp 149 Pointer 55 0 amp 1 Hardware ID Registers 308 amp 309 Value of Pointer 55 Registers 150 amp 151 Pointer 56 0 amp 1 Hardware ID Registers 310 amp 311 Value of Pointer 56 Registers 152 amp 153 Pointer 57 0 amp 1 Hardware ID Registers 312 amp 313 Value of Pointer 57 Registers 154 amp 155 Point
74. 204 amp 205 124 amp 125 284 amp 285 46 amp 47 206 amp 207 126 amp 127 286 amp 287 48 amp 49 208 amp 209 128 amp 129 288 amp 289 50 amp 51 210 amp 211 130 amp 131 290 amp 291 52 amp 53 212 amp 213 132 amp 133 292 amp 293 54 amp 55 214 amp 215 134 amp 135 294 amp 295 56 amp 57 216 amp 217 136 amp 137 296 amp 297 58 amp 59 218 amp 219 138 amp 139 296 amp 299 60 amp 61 220 amp 221 140 amp 141 300 amp 301 62 amp 63 222 amp 223 142 amp 143 302 amp 303 64 amp 65 224 amp 225 144 amp 145 304 amp 305 66 amp 67 226 amp 227 146 amp 147 306 amp 307 68 amp 69 228 amp 229 148 amp 149 308 amp 309 70 amp 71 230 amp 231 150 amp 151 310 amp 311 72 amp 73 232 amp 233 152 amp 153 312 amp 313 74 amp 75 234 amp 235 154 amp 155 314 amp 315 76 amp 77 236 amp 237 156 amp 157 316 amp 317 78 amp 79 238 amp 239 158 amp 159 318 amp 319 80 amp 81 240 amp 241 160 amp 161 320 amp 321 82 amp 83 242 amp 243 162 amp 163 322 amp 323 84 amp 85 244 amp 245 164 amp 165 324 amp 325 86 amp 87 246 amp 247 166 amp 167 326 amp 327 88 amp 89 248 amp 249 168 amp 169 328 amp 329 90 amp 91 250 amp 251 170 amp 171 330 amp 331 92 amp 93 252 amp 253 172 amp 173 332 amp 333 94 amp 95 254 amp 255 174 amp 175 334 amp 335 96 amp 97 256 amp 257 176 amp 177 336 amp 337 98 amp 99 256 amp 259 178
75. 32 amp 233 Pointer 17 20 amp 1 Hardware ID Value of Pointer 17 Registers 74 amp 75 Registers 234 amp 235 Pointer 18 20 amp 1 Hardware ID Value of Pointer 18 Registers 76 amp 77 Registers 236 amp 237 Pointer 19 2 0 amp 1 Hardware ID Value of Pointer 19 Registers 78 amp 79 Registers 238 amp 239 Pointer 20 20 amp 1 Hardware ID Value of Pointer 20 Assembly Definition Addresses Default Pointers Assembly Working Addresses Registers 80 amp 81 Registers 240 amp 241 Pointer 21 20 amp 1 Hardware ID Value of Pointer 21 Registers 82 amp 83 Registers 242 amp 243 Pointer 22 0 amp 1 Hardware ID Value of Pointer 22 Registers 84 amp 85 Registers 244 amp 245 Pointer 23 2 0 amp 1 Hardware ID Value of Pointer 23 Registers 86 amp 87 Registers 246 amp 247 Pointer 24 0 amp 1 Hardware ID Value of Pointer 24 Registers 88 amp 89 Registers 248 amp 249 Pointer 25 0 amp 1 Hardware ID Value of Pointer 25 Registers 90 amp 91 Registers 250 amp 251 Pointer 26 0 amp 1 Hardware ID Value of Pointer 26 Registers 92 amp 93 Registers 252 amp 253 P
76. 35 Timer 244 g i ect A rr 73 3 3 Variable 245 C zo 3 t t t t None 6308 offset 80 Ox7F 127 1 to 0x18 24 5 27005 uint RWES Logic 1 to 24 Source Instance E Set the instance of the function selected above 6324 offset 80 Ox7F 127 1 to 0x18 24 D 13 27013 uint RWES Logic 1 to 24 Source Zone E Set the zone of the function selected above 0 to 16 6340 offset 80 Ox7F 127 1 to 0x18 24 0x15 21 27021 uint RWES Note Some values will be rounded off to fit in the four character display Full values can be read with other interfaces If there is only one instance of a menu no submenus will appear R Read W Write E EEPROM S User Set Watlow EZ ZONE RMS Module 70 Chapter 4 Setup Page RM Scanner Module Setup Page Display Parameter Name Description Range Modbus Relative Address Default CIP Class Instance Attribute hex dec Data Parameter des ID Profibus Index Read Write Logic 1 to 24 Source Function F Set the type of function that will be used for this Source None 61 AL P1 Alarm 6 PE Compare 230 Counter 231 Digital I O 1142 En EA Profile Event Out A Profile Event Out B Profile Event Out C Profile Event Out D Profile Event Out E
77. 47 Digital Input Output Menu 0 0 eee eee 50 Action Mem ucl ages dav ere cer er RR che es corded 52 Qutput Men ptr RERRREIM ERE RR dase a ERE 54 Alarm Merl 225 o ended aeter oa e e Reg e e ns 55 Linearization Menu lisse 57 Compare Menu 0 cece I n 60 Timer MENU m 61 Counter Menu pages eae c ped aan vie away Ree a ee 64 Logic Menus ccc eee le Re yam a eee dw nns 66 Math Meri cres cet nro Det bes 74 Watlow EZ ZONE RMS Module 1 Table of Contents Table of Contents cont Variable Menu lsssssssssseeess RI III 78 Global Menu 2 2 eese e 78 Communications Menu sisse essen 79 Chapter 5 Factory PageS ccc cece eee eee 80 Custom Setup Menu 0 0c cc cece ccc ee eee ees 81 Security Setting Menu 0 cece eee eens 81 Security Setting Menu 0 ccc cee eee ees 82 Diagnostics Menu 0 0 teens 83 Calibration Menu 2 0 0 0 eee eee 83 Chapter 6 Features 1 0 0 0 ccc eee 84 Saving and Restoring User Settings 000 cece eee 85 hlc 85 Using Lockout to Hide Pages and Menus 88 Using Password Security 0 ccc cece eee eee eee ees 89 Modbus Using Programmable Memory Blocks 90 Software Configuration 0 0 0 ccc cece ee eee eens 91 Function Block DescriptionS 0 0 essen 94 Chapter 7 Appendix 0 0 ccc eee ee eee 121 Modbus Programmable Memory
78. 75 Pointer 68 0 amp 1 Hardware ID Registers 334 amp 335 Value of Pointer 68 Registers 176 amp 177 Pointer 69 0 amp 1 Hardware ID Registers 336 amp 337 Value of Pointer 69 Registers 178 amp 179 Pointer 70 0 amp 1 Hardware ID Registers 338 amp 339 Value of Pointer 70 Registers 180 amp 181 Pointer 71 20 amp 1 Hardware ID Registers 340 amp 341 Value of Pointer 71 Registers 182 amp 183 Pointer 72 20 amp 1 Hardware ID Registers 342 amp 343 Value of Pointer 72 Registers 184 amp 185 Pointer 73 20 amp 1 Hardware ID Registers 344 amp 345 Value of Pointer 73 Registers 186 amp 187 Pointer 74 20 amp 1 Hardware ID Registers 346 amp 347 Value of Pointer 74 Registers 188 amp 189 Pointer 75 20 amp 1 Hardware ID Registers 348 amp 349 Value of Pointer 75 Registers 190 amp 191 Pointer 76 0 amp 1 Hardware ID Registers 350 amp 351 Value of Pointer 76 Pointer 77 20 amp 1 Hardware ID Registers 192 amp 193 Registers 352 amp 353 Value of Pointer 77 Registers 194 amp 195 Pointer 78 20 amp 1 Hardware ID Registers 354 amp 355 Value of Pointer 78 Re
79. 80 swim 5560 Optional Accessories Power Supplies e AC DC Power supply converter 90 264V ac to 24V dc volts P N 0847 0299 0000 31 W P N 0847 0300 0000 60 W P N 0847 0301 0000 91 W EZ ZONE RM Product Documentation User Manual printed hard copy P N 0600 0071 0000 Watlow Support Tools CD P N 0601 0001 0000 Universal Input Thermocouple grounded or ungrounded sensors gt 20MO input impedance 3p open sensor detection Max of 2KO source resistance RTD 2 wire platinum 1000 and 10000 0 C calibration to DIN curve 0 003850 0 C Process 0 20mA 1000 or 0 10V dc 20kO input imped ance scalable 0 50mV 0 10000 Voltage Input Ranges Accuracy 10mV 1 LSD at standard conditions Temperature stability 100 PPM C maximum Milliamp Input Ranges Accuracy 20pA 1 LSD at standard conditions Temperature stability 100 PPM C maximum Resolution Input Ranges 0 to 10V 200 pV nominal 0 to 20 mA 0 5 mA nominal Potentiometer 0 to 1 2000 i mAmps 20 mAmps A 5 50 Potenti t Mose 1 1000 Ohms 1K range Appendix 1450 1450 1700 2315 2315 1343 800 800 NE MEN mA dc cQ 0 02 Operating Range J Range Low 210 270 270 270 1300 pdt 3 x f o I x 8 f 3s C o oo o gt o xem o e w o gt Range High Max Error 25 Deg C Thermis Thermis tor 10K Thermis Thermis tor 40K range 0
80. 9 000 to 9 999 000 F or 3 0 11380 0x86 134 95 34021 float op 4 Output Point 4 units offset 70 1 to 0x18 RWES Set the value that will be 1 128 333 to 5537 223 C 24 mapped to input 4 0x15 21 PS Linearization 1 to 24 1 999 000 to 9 999 000 F or 4 0 11362 0x86 134 96 34012 float ip 5 Input Point 5 units offset 70 1to 0x18 RWES Set the value that will be 1 128 333 to 5537 223 C 24 mapped to output 5 0xC 12 oP 5 Linearization 1 to 24 1 999 000 to 9 999 000 F or 4 0 11382 0x86 134 97 34022 float op 5 Output Point 5 units offset 70 1 to 0x18 RWES Set the value that will be 1 128 333 to 5537 223 C 24 mapped to input 5 0x16 22 P B Linearization 1 to 24 1 999 000 to 9 999 000 F or 5 0 11364 0x86 134 98 34013 float ip 6 Input Point 6 units offset 70 1 to 0x18 RWES Set the value that will be 1 128 333 to 5537 223 C 24 mapped to output 6 OxD 13 oP6 Linearization 1 to 24 1 999 000 to 9 999 000 F or 5 0 11384 0x86 134 99 34023 float op 6 Output Point 6 units offset 70 1to 0x18 RWES Set the value that will be 1 128 333 to 5537 223 C 24 mapped to input 6 0x17 23 P 1 Linearization 1 to 24 1 999 000 to 9 999 000 F or 6 0 11366 0x86 134 100 34014 float ip 7 Input Point 7 units offset 70 1 to 0x18 RWES Set the value that will be 1 128 333 to 5537 223 C 24 mapped to output 7 E 14 oP 1 Linea
81. 9 999 0 Range Low 1 999 0 to 9 999 0 gt Output Value gt Error p gt gt Output Value Off oPE Operation Page PARE Math Menu N NS lo 7 e Os os CA U ei Up y Seg TLLA Source Function A Source Instance A Source Zone A Source Error A Source Function B Source Instance B Source Zone B Source Error B Source Function C Source Instance C Source Zone C Source Error C Source Function D Source Instance D Source Zone D Source Error D Source Function E Source Instance E Source Zone E Source Error E Source Value A Source Value B Source Value C Source Value D Source Value E Math Overview Instances 24 per RMS Output Value Error MEME gt Watlow EZ ZONE RMS Module 5 uA Source Value A 5 u b Source Value B Su C Source Value C Sud Source Value D Su E Source Value E o u Output Value 1 999 000 to 9 999 000 lo F SE Offset 1 999 000 to 9 999 000 1 999 000 to 9 999 000 1 999 000 to 9 999 000 1 999 000 to 9 999 000 1 999 000 to 9 999 000 Off On The Math function block accepts multiple inputs and per forms a programmed math function to derive an output value with Filter and Offset values applied Some math operations must be performed in the user s units Functions may combine multiple inputs Those inputs may have incompatible units from a logical point of view As a result unless o
82. CAL FCEY Calibration Menu to 16 Calibration T Watlow EZ ZONE9 RMS Module e 80 o Chapter 5 Factory Page RM Scanner Module Factory Page aP Data Parameter Name Modbus Class Profibus Parameter Type Display RAP Range Default Relative Instance Description Index ID amp Read Address Attribute Write hex dec CUSE FCEY Custom Setup Menu PAr Custom Menu nong None 61 Process wees wee 14005 uint Par Parameter 1 to 30 P c o Process 75 Limit RWES Select the parameters that CA Calibration Off Status m appear 7 a Page set 1196 waen uamg Hig i C C_F Display Units The P 1 val ill 0156 e Parameter 1 vale wi US c c User Settings appear in the upper display Restore 227 of the Home Page It can AL not be changed with the Up AL o Alarm Low Set and Down Keys in the Home Point 42 Page Ah Alarm High Set The Parameter 2 value will Point 78 appear in the lower display Hh J Alarm Hysteresis in the Home Page It can be 97 changed with the Up and CUSE Custom Menu Down Keys if the parameter 180 is a writable one Scroll through the other Home Page parameters with the Advance Key d Custom Setup 1 to 30 1 to 24 wees eee 14003 uint iid Instance ID RWES Select the parameters that will appear in the Home Page FCEY Security Setting Menu Security S
83. CIP Data Modbus Class i Type Display jp cob c Range Default Relative Instance juin dibus amp pron Address Attribute body Read hex dec Write Linearization 1 to 24 1 999 000 to 9 999 000 F or 8 0 11390 0x86 134 105 34026 float op 9 Output Point 9 units offset 70 1to 0x18 RWES Set the value that will be 1 128 333 to 5537 223 C 24 mapped to input 9 0x1A 26 Linearization 1 to 24 1 999 000 to 9 999 000 F or 9 0 11372 0x86 134 106 34017 float ip 10 Input Point 10 units offset 70 1to 0x18 RWES Set the value that will be 1 128 333 to 5537 223 C 24 mapped to output 10 0x11 17 Linearization 1 to 24 1 999 000 to 9 999 000 F or 9 0 11392 0x86 134 107 34027 float op 10 Output Point 10 units offset 70 1 to 0x18 RWES Set the value that will be 1 128 333 to 5537 223 C 24 mapped to input 10 Ox1B 27 CPE Compare Menu Compare 1 to 24 oF F Off 62 Off 8236 0x80 128 137 28009 uint Fn Function gt Greater Than 1435 offset 40 1 to 0x18 RWES Set operator that will be L E Less Than 1436 24 used to compare Source A E Equal To 1437 9 to Source B n Not Equal To 1438 S9gE Greater or Equal 1439 LoE Less or Equal 1440 Compare 1 to 24 0 to 9 999 000 0 1 8240 0x80 128 138 28011 float toL Tolerance offset 40 1 to 0x18 RWES If the difference between 24 Source A and Source B is OxB 11 less than this value the two will appear to be equal
84. EZ ZONE RM Scanner Module User s Guide 1 2 3 4 6 6 7 8 RM Scanner Module TOTAL CUSTOMER Bas LOW 1241 Bundy Boulevard Winona Minnesota USA 55987 Phone 1 507 454 5300 Fax 1 507 452 4507 http www watlow com Registered Company Winona Minnesota USA 0600 0071 0000 Rev B Made in the U S A ALIENO OO EL EUM May 2011 Safety Information We use note caution and warning symbols throughout this book to draw your attention to important operational and safety information A NOTE marks a short message to alert you to an important detail A CAUTION safety alert appears with information that is important for protecting your equipment and performance Be especially careful to read and follow all cautions that apply to your application A WARNING safety alert appears with information that is important for protecting you others and equipment from dam age Pay very close attention to all warnings that apply to your application The safety alert symbol an exclamation point in a triangle precedes a general CAUTION or WARNING statement The electrical hazard symbol a lightning bolt in a triangle precedes an electric shock hazard CAUTION or WARNING safety statement Further explanations follow Explanation CAUTION Warning or Hazard that needs further explanation than label on unit can provide Consult User s Guide for further information ESD Sensitive pro
85. Error 140 Ox i 8 Bad Cal Data 139 Ambient Error 9 RTD Error 141 Fail 32 Math Error 1423 Not Sourced 246 Stale 1617 Compare Menu C Su Compare 1 to 24 1 999 000 to 9 999 000 F 8232 0x80 28007 float Su A Source Value A or units offset 40 128 R View the value of Source 1 128 000 to 5 537 000 C 1 to 0x18 A 24 7 C Sub Compare 1 to 24 1 999 000 to 9 999 000 F 8234 0x80 28008 float Su b Source Value B or units offset 40 128 R View the value of Source 1 128 000 to 5 537 000 C 1 to 0x18 B 24 8 ou Compare 1 to 24 oF F Off 62 8238 0x80 28010 uint o v Output Value C oan On 63 offset 40 128 R View the value of this 1 to 0x18 function s output 24 OxA 10 No Dis Compare 1 to 24 None 61 8244 0x80 28013 uint play Error Open 65 offset 40 128 R Read reported cause for Shorted 127 1 to 0x18 COM parE STEAN Measurement Error 140 0 n 3 Bad Cal Data 139 T Ambient Error 9 RTD Error 141 Fail 32 Math Error 1423 Not Sourced 246 Stale 1617 Timer Menu Su Timer 1 to 24 oF F Off 62 10152 0x83 31007 uint Su A Value Source A on On 63 offset 50 131 R View the value of Source 1 to 0x18 A 24 7 Sub Timer 1 to 24 oF F Off 62 10154 0x83 T 31008 uint Su b Value Source B on On 63 offset 50 131 R View the value of Source 1 to 0x18 B 24 8 Note Some values will be rounded o
86. Fa Function Source Function A Source Instance A gA Source Zone A I Watlow EZ ZONE9 RMS Module Source Function B b Source Instance B Source Zone B c 2 gt Load Value Target Value LAE Latching m o dD a er B LO rr L9 Logic Menu LIC Logic 1 to 24 F n Function F nA Source Function A A Source Instance A ZA Source Zone A F n b Source Function B ib Source Instance B amp b Source Zone B Fal Source Function C Source Instance C C Source Zone C F n d Source Function D Source Instance D Source Zone D Source Function E Source Instance E Source Zone E F nF Source Function F F Source Instance F gF Source Zone F F n 9 Source Function G Source Instance G Source Zone G F n H Source Function H H Source Instance H Source Zone H Er h Error Handling a i don gt i B GEE Math Menu C n Math 1 to 24 Fa Function F nA Source Function A A Source Instance A ZA Source Zone A F n b Source Function B ib Source Instance B 2b Source Zone B Fal Source Function C Source Instance C Source Zone C F n d Source Function D Source Instance D Source Zone D Source Function E Source Instance E Source Zone E Scale Low Scale High Rang
87. If there is only one instance of a menu no submenus will appear poe Watlow EZ ZONE RMS Module e 49 o Chapter 4 Setup Page RM Scanner Module Setup Page CIP Data Modbus Class k Type Display p obi Range Default Relative Instance us eae le amp B Address Attribute Read hex dec Write Process Value 1 to 16 PS Pounds per Square PSI 5234 Ox7E 26028 uint P unt Pressure Units Inch 1671 offset 70 126 RWES Set the units that will be Pbre Millibar 1672 1 to 0x10 applied to the source tor r Torr 1673 16 PAS c Pascal 1674 0x1C 28 Rt Atmosphere 1675 Process Value 1 to 16 HF Ej Kilofeet 1677 HFt 5236 Ox7E 26029 uint A unt Altitude Units FE Feet 1676 offset 70 126 RWES Set the units that will be 1 to 0x10 applied to the source 16 Ox1D 29 Process Value 1 to 16 10 0 to 16 0 14 7 5238 Ox7E 26030 float b Pr Barometric Pressure offset 70 126 RWES Set the units that will be 1 to 0x10 applied to the source 16 Ox1E 30 F L Process Value 1 to 16 0 0 to 60 0 seconds 0 0 5230 Ox7E 26026 float Fil Filter offset 70 126 RWES Filtering smooths out the 1to 0x10 output signal of this func 16 tion block Increase the 0x1A 26 time to increase filtering Digital Input Output Menu Digital Input Output 1 DEPE Output 68 Output 1820 0x6A 38 6001 juint d
88. L o Output Low Power Scale r h Range High Output High Power Scale PEE Process Error Enable SEE Digital tnpwwOwtput Menu agp 5 arm Menu Eni APERE POENA Cdo Digital Input Output 1 to 12 7 T M g d zt oe ALT Alarm 1 to 16 n Function Rt J Alarm e akt DD a E F Function Instance 5c 8 Alarm m TA polar on Offset 52A Source Zone A S R Alarm Source Instance a Analog Input Value of E Control C S8R Alarm Source Zone zt FE np a o t b Time Base Ah 9 Alarm Hysteresis Er Input Error ol o Low Power Scale Al SlAlaem Logic C Po o h High Power Scale ASd Alarm Sides Process Value Menu AL o Alarm Low Set Point Action Menu Ah Alarm High Set Point Pu Process Value 1 to 16 ALA Alarm Latching Fa Function ACE Action 1 to 16 Rb5L Alarm Blocking SF nA Source Function A C Fan Function AS Alarm Silencing S A Source Instance A C F Function Instance Ad SP Alarm Display SF n b Source Function B SF AH Source Function A RgL Alarm Delay Time 5 b Source Instance B Source Instance A ACL Alarm Clear Request S26 Source Zone B Source Zone A AS Alarm Silence Request Fat Source Function C Active Level ASE Alarm State 5 C Source Instance C S2C Source Zone C SF n d Source Function D 5 d Source Instance D Watlow EZ ZONE9 RMS Module Chapter 4 Setup Page Linearization Menu C d Lor Linearization 1 to 24 Fan Function F nA Source Function A Fl Source Instance A ZA Source Zone A U
89. ONE9 RMS Module 82 o Chapter 5 Factory Page RM Scanner Module Factory Page CIP Data Parameter Name Modbus GEE Profibus Parameter Type Display Ree Range Default Relative Instance Description Index ID amp Read Address Attribute Write hex dec FCeYy Diagnostics Menu Pa Diagnostics Menu 24 0x65 90 1009 string Pn Part Number 101 R Display this controller s part 1 number 9 No Dis Diagnostics Menu EZ ZONE RM 0x65 1011 string play Device Name 101 R Read the device name 1 0x0B 11 No Dis Diagnostics Menu OK 138 30 0x65 1016 uint play Device Status Fail 32 101 R Return hardware status 1 Fail means return to factory 0x10 16 Diagnostics Menu 5 T 4 0x65 91 1017 string rEu Software Revision 101 R Display this controller s firm 1to5 ware revision number 0x11 17 S bld Diagnostics Menu 8 0x65 1005 signed S bLd Software Build Number 101 32 bit Display the firmware build 1to5 R number 5 Sa Diagnostics Menu 12 0x65 1007 signed Sn Serial Number 101 32 bit Display the serial number 1 R 7 dREtE Diagnostics Menu 14 0x65 1008 signed dAtE Date of Manufacture 101 32 bit Display the date code in YY 1 R WW format 8 No Dis Diagnostics Menu 115 115 0 0x65 1001 signed play Hardware ID 101
90. Operations Page 1 to 3 Profiling Page 1 to 3 A B Output Value ON Password Enable Off On Read Lock 1 to 5 Write Security 1 to 5 Locked Access Level 1 to 5 Rolling Password Off On User Password 10 to 999 Administrator Password 10 to 999 FAc E Factory Page UL oC Unlock Menu Co gE Public Key xxx PAS S Password xxx Watlow EZ ZONE RMS Module 119 e Chapter 6 Features Diagnostic Function Part Number Software Revision Software Build Number Serial Number Diagnostics Date of Manufacture Overview Hardware ID Device Status Instances 1 per RMS Device Name pea ddd F fic E Factory Page d A9 Diagnostics Menu Pa Part Number scrolls on display r Ev Software Revision 4 00 5 b L d Software Build Number 0 1 2 Sn Serial Number xxxxxx dREE Date of Manufacture YWW format Hardware ID 115 RMS Device Status OK Fail Device Name EZ ZONE RM Watlow EZ ZONE RMS Module 120 Chapter 6 Features Assembly Definition Address and Assembly Working Addresses Chapter 7 Appendix Modbus Programmable Memory Blocks Definition Addresses Working Addresses Definition Addresses Working Addresses 40 amp 41 200 amp 201 120 amp 121 280 amp 281 42 amp 43 202 amp 203 122 amp 123 282 amp 283 44 amp 45
91. Oy 2 05 g Z 05 5 Q 56 9 9 5 0 Op Sy IO iy ao io ta io a oy og Ur do ay Zo n n loro to Cei ea e A Be VANS VON Te A Ab i Ip ay ig Wig ig My Wig lrg ing Ulin liyn Dp Cop Op Ui Win Op Op oy Op la aye ape top Wig ME FE RE S E SE STE SE q E USU SES GE p RE Gt SU GRE o I to Bey Source Function A n i Source Value A gt gt Source Instance A Linearization Off Source Zone A Output Value gt Source Error A Error p gt Op Se Z O5 Z 0s Z Q ZO 0 2 0 O amp Cee ro tor Ga tion tay lo ag oy y tor ONCOL rng oy or or e Que e a o n NG o o o o Dn o o on o o a in O O Dp Wing Win log leg in ar Lor Ring on ig lon or Upya Ope Op Wing Loya in QE oe MB ton KA Qz De n P P PS PPP n n5 e 6 Ug 2 NS n n gut 9 20 4o Se Source Function A Source Value A gt Source Instance A Linearization Interpolated Source Zone A Output Value gt gt Source Error A Error p gt 9 5 0 On Z Oy Z Cpe Z Op Ly Oo Z App Dn Co Uy Lap tty lag ey Zor tor aay in Sao ony Yn Nin ry boy oy lo Wag Peg UM MERE RE Rt SQ EERE REE REKE RKE REREAD R o Cy Op in ing loy g Boy Win ing Gon Wig 1 Wing ing ig Uo ing doya lig ing Wy aye oy R Bag eg U v E ot yr sr fue GM GM dr SGU lg SU Neg fur og I L0 Uo Mey Vode db deed lii io iid Source Function A i Source ValueA gt gt Source Instance A Linearization Stepped Source Zone A Output Value Source Error A Error p gt Outpu
92. R RMSx xxxx x Alxx CC Standard Bus or Modbus RTU EIA 485 common Standard Bus or Modbus CA Standard Bus or Modbus RTU EIA 485 T R Part Digit 10 CB Standard Bus or Modbus RTU EIA 485 T R RMSx xxxx x 1 xx CZ Inter module Bus Inter module Bus Cx Inter module Bus CY Inter module Bus Watlow EZ ZONE RMS Module e 19 Chapter 2 Install and Wire RMS Module Front View Standard Connector Slot D 9 1 Slot E D D T E Slot A Slot B V A B Slot C 4amod Watlow EZ ZONE RMS Module e 20 Chapter 2 Install and Wire RMS System Isolation Blocks Low voltage Isolation 42V peak Safety Isolation 1 528V ac Watlow EZ ZONE RMS Module e 21 Chapter 2 Install and Wire Warning A Use National Electric NEC or other country specific standard wiring and safety practices when wiring and connecting this controller to a pow
93. RWES Set the zone of the function 1 to 0x10 selected above 16 0x0C 12 Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear aes Watlow EZ ZONE RMS Module e 47 Chapter 4 Setup Page RM Scanner Module Setup Page CIP Data Modbus Class 2 Type Display jo ebd eu Range Default Relative Instance eee porama amp P Address Attribute Read hex dec Write Process Value 1 to 16 nonE None 61 None 5184 Ox7E 26003 uint SFn C Source Function C CA Analog Input 142 offset 70 126 RWES Set the type of function Li ization 238 1to 0x10 that will be used for this eU Sd Uu 16 Source 3 Process Value 241 L uA Variable 245 Process Value 1 to 16 1 to 24 1 5194 Ox7E 26008 uint Si C Source Instance C offset 70 126 RWES Set the instance of the 1 to 0x10 function selected above 16 8 Process Value 1 to 16 0 to 16 0 5204 Ox7E 26013 uint SZ C Source Zone C offset 70 126 RWES Set the zone of the function 1 to 0x10 selected above 16 0x0D 13 Process Value 1 to 16 non E None 61 None 5186 Ox7E 26004 uint SFn d Source Function D A Analog Input 142 offset 70 126 RWES Set the type of function ine Li ization 238 1 to 0x10 that will be used for this TEE Mad eis
94. SSR 5 0 to 60 0 for mechan offset 30 106 RWES Set the time base for fixed ical relays 1 to 0x0C time base control 12 3 Digital Output 1 to 12 0 0 to 100 0 0 0 1836 0x6A 43 6009 float o Lo Low Power Scale offset 30 106 RWES The power output will nev 1 to 0x0C er be less than the value 12 specified and will represent 9 the value at which output scaling begins Digital Output 1 to 12 0 0 to 100 0 100 0 1838 0x6A 44 6010 float o hi High Power Scale offset 30 106 RWES The power output will 1 to 0x0C never be greater than the 12 value specified and will OxA 10 represent the value at which output scaling stops ACE Action Menu Action 1 to 16 None 61 None 2184 Ox6E 79 10003 J uint Fn Function US c User Restore 227 offset 20 110 RWES Set the action that will be ALP Alarm Reset 6 1 to 0x10 triggered by this function s 16 Silence Alarms 108 3 Rof Loop alarms Off 220 FAL Force Alarm to Occur 218 Action 1 to 16 0 to 25 0 2186 0x6E 80 10004 uint Fi Function Instance offset 20 110 RWES Set the instance of the 1to 0x10 function selected above 16 4 Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear cia Watlow EZ ZONE9 RMS Module 52 Chapter 4 Setup Page RM Scanner Modul
95. Security Setting 1to5 5 LoC L Locked Access Level Determines user level menu visibility when security is enabled See Features section under Password Security No Dis Security Setting Lock 228 3023 uint play Locked State User 1684 R Current level of security Admin 1685 roll Security Setting oF F Off Off D aie mE roLL Rolling Password On When power is cycled a new Public Key will be displayed PAS Security Setting 10 to 999 63 wees 2 esos PAS u User Password Used to acquire access to menus made available through the Locked Access Level set ting PASA Security Setting 10 to 999 156 PAS A Administrator Password Used to acquire full access to all menus FCEY Security Setting Menu CodE Security Setting Customer Specific 0 seis zem EE CodE Public Key If Rolling Password turned on generates a random number when power is cycled If Roll ing Password is off fixed num ber will be displayed PASS Security Setting 1999 to 9999 0 2 PASS Password Number returned from calcu lation found in Features sec tion under Password Security Note Some values will be rounded off to fit in the four character display Full values can R Read be read with another interface en If there is only one instance of a menu no submenus will appear dnd Set Watlow EZ Z
96. Settings Restore Alarm Low Set Point Alarm High Set Point Alarm Hysteresis and Custom Source Instance A Source Value A S P ecurity Function Source Zone A Source Value B gt y Source Error A Compare Note Set on a Zone by Zone basis This is independent of Source Function B Greater or Equal the RUI S itv Setti Source Instance B Va e ecurity setting utpu alue gt i aws x 3 B If the Password is enabled the user must enter the Pass Sore Pe sees Error p gt word to get to menus that have been blocked due to lock level settings Rolling passwords require a new password A gt B Output Value ON RARE Peer each time the power has been cycled to the controller Tt will be different for every controller The administrator password is required to change the security settings even lt 2 if the user enters their password to override the security 2 7 settings NOS i es 3 A Oh s o dy O o amp S 2 Be OQ C a i Es A Borie de A d Kor A KA de Bey hs 2 KONON 2 A Source Function A Sen Vo Cot b Vo ey ey op Hey Ory Source Instance A Source Value A gt Source Zone A Source Value E gt i 4 Source Error A Security Function Block C Overview ompare Instances 1 per RMS Source FunctionB Less or Equal FH E Factory Page Source Instance B C Lol Lock Menu Source Zone B Output Value J Source Error B Error c
97. Source A only 24 0x1B 27 Punt Math 1 to 24 PS Pounds per square Pressure 3558 0x7D 25030 uint P unt Pressure Units inch 1671 Units offset 70 125 RWES Select units of Source A Pbr mbar 1672 1 to 0x18 when function is Pressure Eor r Torr 1673 24 to Altitude conversion only PAS c Pascal 1674 Ox1E 30 REP Atmosphere 1675 Runt Math 1 to 24 Ft Feet 1674 Kilofeet 3560 0x7D 25031 uint A unt Altitude Units HF E Kilofeet 1671 offset 70 125 RWES Select units of output value 1 to 0x18 when function is Pressure 24 to Altitude conversion only Ox1F 31 Math 1 to 24 0 0 to 60 0 seconds 0 0 3554 0x7D 25028 float FiL Filter offset 70 125 RWES Filtering smooths out the 1 to 0x18 output signal of this func 24 tion block Increase the 0x1C 28 time to increase filtering Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear a el Watlow EZ ZONE RMS Module e 77 Chapter 4 Setup Page RM Scanner Module e Setup Page CIP Data Modbus Class 2 Type Display jode e Range Default Relative Instance eae Ae amp P Address Attri
98. Source Error D gt Output Value Output Value Error p gt Error r gt gt yutput Value Filter Average A B C D Offset If A lt Cross Over Point Cross Over Band 2 THEN Jisplay units follows the last source that is temperature Output Value Filter A Offset lse follow Source A If A gt Cross Over Point Cross Over Band 2 THEN Output Value Filter B Offset Output Value Filter A X B 1 X Offset Where variable X Cross Over Point Cross Over Band 2 A Cross Over Band Watlow EZ ZONE RMS Module e 96 o Chapter 6 Features amp S s KA Peo m By O 2 K 3 V Source Function A Source Instance A Source Value A Sl Source Eror Source Value B Source Function B NS Source Instance B L Source Zone B gt Source Error B Process Value xd Wet Bulb Dry Bulb gt gt Output Value gt Error gt gt Output Value Filter Calculated Humidity Offset where Source A is the Dry Bulb and Source B is the Wet Bulb Note Wet Dry bulb temperatures are in degrees F and pressures are in PSI Output Value is relative humidity Useful temperature range is 10 to 350F amp NE O K y S Se A E 14 ll Source Function A gt Source Instance A Source Value A Source Value B Source Error A Source Function B gt Sour
99. Source Value B Logic Latch Output Value Error TEREE EE Output Value follows A unless B ON When input B is on the the output will be latched on Function Error Handling Source Zone A gt Source Error A Source Zone B gt Source Error B Source Function A gt Source Instance A Source Function B Source Instance B Source Value A Source Value B Logic RS Flip Flop Output Value Error Vryy did I gt A negative to positive transistion on input A Sets Output Value ON and A IfA B C D E F G H then ON negative to positive transistion on input B Resets Output Value OFF Watlow EZ ZONE RMS Module e 106 Chapter 6 Features Function Error Handling SEE Setup Page P a1RE Math Menu Function Off Average Process Scale Deviation Scale Switch Over Differential L atio Add Multiply Absolute Difference Minimum Maximum Square Root Sample and Hold Pressure to Altitude Dewpoint gt SF 7A Source Function A None Analog Input Current Cool Power Heat Power P ce ower Linearization Math Process Value Set Point Closed Set Point Open Variable gt S 1A Source Instance A 1 to 24 gt JS Zone A 0 to 16 S ZA Source Zone o SF n b Source Function B None Analog Input Current Cool Power Heat Power gt o L gt gt Logic gt Off gt gt o Scale High 1 999 0 to
100. Value Filter B Offset Scale Low High and Range Low High follows Source A display units Watlow EZ ZONE9 RMS Module 108 Xe Cx i KAKS poyyyy yy Source Function A gt Source Instance A Source Value A Source Zone A ValueB gt gt Source Error A Source Value Val Source Function B Source vane gt Source Instance B Source Value D Source Zone B Source Value E Source Error B Source Function C gt Source Instance C Source Zone C Math Source Error C Average Source Function D gt Source Instance D Source Zone D Source Error D gt Output Value gt Error p gt gt Output Value Filter Average A B C D Offset Display units follows the last source that is temperature otherwise it will follow Source A 4 amp So Se fe Ca ee ades Se O ON Per ved A dor ERE Source Function A gt Source Instance A Source Zone A Source Error A Source Value A Source Value B Source Function B gt Source Instance B Source Zone B Source Error B TERR Source Value E Math iur Deviation Scale gt Source Function E gt Source Instance E Source Zone E Source Error E Output Value Error gt If E OFF Output Value Filter Range High Range Low Scale High Scale Low A Scale Low Range Low B Offset If E ON Output Value Filter
101. Value A gt Value B gt Source Error A EE snl Source Besos Source Value gt Lr Source Value C Source Function B xd Source Instance B Source Value D gt Source Zone B gt ee gt Source Error B a Source Function C gt Source Instance C Source Zone C Process Value Saucen Process Value T Off gt Sensor Backup Source Function D gt Source Instance D Source Zone D gt gt Source Error D Output Value gt Output Value Error p gt Error gt gt gt Output Value Filter A Offset Output Value Filter first assigned Source without an Display units follows Source A error Offset Q tog los Poy O A Oro to O Cx 4 Vo OTL 4 T on og Vy oy Bey EREEREER poyyy yi Source Function A Source Value A Source Function A gt gt Source Instance A gt Source Instance A Source Value A gt Source Value B E vik ource Value n Source Error A Source Value C Source Error A gt Source Function B Source Value D gt Source Function B gt Source Instance B Source Instance B LL Source Zone B gt Source Zone B gt Source Error B gt Source Error B Source Function C gt Source Instance C P Val rocess Value Source Zone C A Process Value gt Source Error C verage gt Crossover Source Function D gt Source Instance D Source Zone D gt
102. Value H Logic AND Output Value Error TERRE t gt A B C D E F G H ON Function Error Handling Source Function A Source Instance A Source Zone A Source Error A Source Function B Source Instance B Source Zone B Source Error B Source Function C Source Instance C Source Zone C Source Error C Source Function D Source Instance D Source Zone D Source Error D Source Function E Source Instance E Source Zone E Source Error E Source Function F Source Instance F Source Zone F Source Error F Source Function G Source Instance G Source Zone G Source Error G Source Function H Source Instance H Source Zone H Source Error H Source Value A Source Value B Source Value C Source Value D Source Value E Source Value F Source Value G Source Value H Logic NAND Output Value Error Vey dy ddd i A B C D E F G H ZON Watlow EZ ZONE RMS Module 105 Function Error Handling Source Function A Source Instance A Source Zone A Source Error A Source Function B Source Instance B Source Zone B Source Error B Source Function C Source Instance C Source Zone C Source Error C Source Function D Source Instance D Source Zone D Source Error D Source Function E Source Instance E Source Zone E Source Error E Source Function F Source Instance F Source Zone F Source Error F Source Function G Source Instance G Source Zone G Source Error G S
103. X7 ANSI ISA 12 12 01 2007 Hazardous Locations Class 1 Div 2 Group A B C D Temperature code T4 optional File E184390 QUZW QUZW7 EN 60529 IP20 RM modules UL 50 Type 4X indoor use EN 60529 IP66 1 16 DIN RUI NEMA 4X RoHS by design W E E E e CE Serial Communications All modules ship with isolated Standard Bus protocol for con figuration and communication connection to all other EZ ZONE products As an optional feature Modbus RTU can also be or dered Optional User Interface RUI 1 16 DIN Dual 4 digit 7 segment LED displays Seven segment address LED programmed via push button switch Keys Advance infinity up down keys plus an EZ KEY pro grammable function key Typical display update rate 1Hz Maximum RMS Configuration Up to 16 scanner channels per module with a maximum of 16 modules Mounting DIN rail specification EN50022 35 x 7 5 mm 1 38 x 0 30 in Can be DIN rail mounted or chassis mounted with customer supplied fasteners Wiring Termination Touch Safe Terminals Right angle and front screw type terminal blocks slots A B D E Input power and controller output terminals touch safe re movable 12 to 30 AWG Wire strip length 7 6 mm 0 30 in Torque 0 8Nm 7 0 Ib in right angle 0 5Nm 4 511b in front terminal block Use solid or stranded copper conductors only Watlow EZ ZONE RMS Module Connector Dimension A mm in Standard 148 5
104. ZONE RMS Module e 15 o Chapter 2 Install and Wire RMS Installation and Removal on a DIN Rail Modular Backplane Connector The picture on the right shows the Modular Backplane z Connector both front and rear view The rear view 2 is bringing in to focus a metal clip If the DIN rail is grounded the Modular Backplane Connector and the m OF 1111117 module connected to it will be also recommended Installing the Modular Backplane Connector Step 1 Hook backplane assembly to upper edge of DIN rail see rear view above backplane hook detail that mates with upper rail edge is circled Step 2 Next rotate back plane assembly downward to en gage the lower edge of the rail Note Din Rail clip ping distance ranges from 1 366 1 389 inches The back plane assembly will not latch onto the rail suc cessfully if the rail is out of dimension Step 3 For final positioning and locking the red tab is to be pushed upward to further engage the bottom edge of the rail with an over center snap action latch The red locking tab protrudes from the bot tom side of the back plane assembly Installing Multiple Modular Backplane Connectors Multiple modules are easily aligned and latched to gether Each module includes matched mating geom etry that facilitates accurate and consistent intercon nections The recommended method of multi module attachment is to first attach individual modules to the rail separately and second to laterally s
105. a device is active or inactive An RMS module equipped with digital input output hardware includes two sets of terminals where each of which can be used as either an input or an output Each pair of terminals must be config ured to function as either an input or an output with the direction parameter see Digital Input Output Menu Setup Page Functions Functions use input signals to calculate a value A function may be as simple as reading a digital input to set a state to true or false or reading a tempera ture to set an alarm state to on or off Watlow EZ ZONE9 RMS Module To set up a function it s important to tell it what source or instance to use For example if the scan ner is equipped with digital inputs they can be used to silence an individual alarm or all alarms The RMS module can be equipped with up to 12 digital inputs instance 1 6 and 7 12 Note Alarms will reset automatically when the condition that caused the alarm goes back to a non alarm state if the alarm latching prompt is set to non latching Setup Page Alarm Menu Keep in mind that a function is a user programmed internal process that does not execute any action outside of the controller To have any affect outside of the controller an output must be configured to re spond to a function Outputs Outputs can perform various functions or actions in response to information provided by a function such as removal of the control voltag
106. ad Address Attribute Wri rite hex dec No Dis Alarm 1 to 16 No 59 None 2520 0x6D 9011 uint play Silenced Yes 106 offset 60 109 R Read this register to de 1 to 0x10 termine if the alarm is 16 silenced OxOB 11 No Dis Alarm 1 to 16 No 59 None 2522 0x6D 9012 uint play Clearable Yes 106 offset 60 109 R Read to determine if an 1 to 0x10 alarm can be cleared 16 0xC 12 No Dis Alarm 1 to 16 Clear 0 None 2524 0x6D 32 9013 uint play Clear Request No Change 255 offset 60 109 RW Write to this register to 1 to 0x10 clear an alarm 16 OxD 13 No Dis Alarm 1 to 16 Clear 0 None 2526 0x6D 33 9014 uint play Silence Request No Change 255 offset 60 109 RW Write to this register to 1 to 0x10 silence an alarm 16 OxOE 14 No Dis Alarm 1 to 16 1 999 000 to 9 999 000 F None 2536 0x6D 9019 float play Alarm Working Process or units offset 60 109 R Value 1 128 000 to 5 537 000 C 1 to 0x10 Read process value used 16 by alarms 0x13 19 No Dis Alarm 1 to 16 1 999 000 to 9 999 000 F None 2538 0x6D 9020 float play Alarm Working Set or units offset 60 109 R Point 1 128 000 to 5 537 000 C 1 to 0x10 Read set point used by 16 alarms 0x14 20 No Dis Alarm 1 to 16 On 63 None 2546 0x6D 9024 uint play Output Value Off 62 offset 60 109 R Read state of alarm out 1 to 0x10 put 16 0x18 24 Linearization Menu Su Linearization
107. and 7 to 10 1 to 24 Fi Function Instance Set the instance of the function selected above 1830 offset 30 0x6A 106 1 to 0x0A 10 6 40 6006 uint RWES Output 1 to 4 and 7 to 10 1to 16 SZ Source Zone A Set the instance of the function selected above 1842 offset 30 0x6A 106 1 to 0x0A 10 0x0C 12 6012 uint RWES Full values can be read with other interfaces Note Some values will be rounded off to fit in the four character display If there is only one instance of a menu no submenus will appear R Read W Write E EEPROM S User Set Watlow EZ ZONE9 RMS Module Chapter 4 Setup Page RM Scanner Module Setup Page CIP Data Modbus Class Type Display EAT Range Default Relative Instance CES ae amp PO Address Attribute ads Read hex dec Write oft Output 1 to 4 and 7 to 10 Ftb Fixed Time Base 34 Fixed 1822 0x6A 41 6002 juint o Ct Control uE b Variable Time Base Time offset 30 106 RWES Set the output control type 103 Base 1to Ox0A This parameter is only 10 used with PID control but 2 can be set anytime otb Output 1 to 4 and 7 to 10 0 1 to 60 0 seconds solid 0 1 sec 1824 0x6A 42 6003 float o tb Time Base state relay or switched dc SSR amp offset 30
108. arameter to submenu submenu to menu menu to Home Page 7 Press and hold the Infinity Key for two seconds to return to the Home Page On the following pages top level menus are identified with a yellow background color Some of these menus and parameters may not appear depending on the controller s options See model number information in the Appendix for more information If there is only one instance of a menu no sub menus will appear Watlow EZ ZONE9 RMS Module LIC Logic Menu n Logic 1 to 24 Su R Source Value A Svu b Source Value B Su C Source Value C Su d Source Value D S E Source Value E SufF Source Value F Svu 9 Source Value G Suh Source Value H o u Output Value Math 1 to 24 Source Value A Source Value B Source Value C Source Value D Source Value E Offset Output Value Note Some of the listed parameters may not be visible Parameter visibility is dependent upon controller part number ACL Alarm Clear Request Analog Input Menu AS r Alarm Silence Request f ASE State A Analog Input 1 to 16 tae LA n Analog Input Value Linearization Menu C Input Error Calibration Offset Linearization 1 to 24 Su R Source Value A Process Value Menu oF St Offset 4 Cow Output Value Pu Process Value 1 to 16 SUR Source Value A ceu Compare Menu Sub Source Value B Suc Source Value C PE Compare 1 to 24 ounce Valus D 5u A
109. ard Bus S ULM D E e e E o E gx Eg C D Bao m Q Use twisted pair wires such as Cat 5 cabling I1 mE 3 Do not route with power carrying conductors 2 10 T T e e ITT FT 3 qd 98 99 CF CD CE CZCX CY A E e e 5 13 x gt e 3 PF UN mm pgs C Data format ala ee a ici Protocol Standard Bus Seu Paud p S 45 onfigurator no party I X B e e J E 4oor s UN B 5 o E pres Z E pocorn SA E 99999999 7 0847 0326 0000 98 99 CF CD CE CZCX CY EZ ZONE9 RM TATLO Ez zoNE f RM sium p w to B amp B Converter pmi CT lf 4 Model ULINX 485USBTB 2W il i EM USB to RS 485 Adapter EN Ka using Modbus RTU i m zi D E e e I e C L EE a C 2 D p AE c Q 1 9 Use twisted pair wires such as Cat 5 cabling EE e e Do not route with power carrying conductors 2 10 q L L e e 3 T 98 99 CCCA CB CZCX CY 5 m e 6 Lj 5 13 CAEN m CN EY E ee Ci pE 6 14 D a e e e Q c oO 5 Data format 5 E 8 o PC Software Protocol Modbus RTU 9 600 19 200 38 400 baud ET FT S Third Party 8 data Dia abiy o sen A aa 1 stop bit E 3 f ml sue m i Conversion amp o meses IE 99999999 7 0847 0326 0000 m 98 99 CCCA CB CZ CX CY Note Do not leave a USB to DH 485 converter connected to Standard Bus without power i e disconnecting the USB end from the
110. as a stand alone scanner or can be interconnected on the DIN rail as shown below with other RM family modules When modules are connected together as shown power and communications are shared between modules over the modular backplane interconnection Therefore bringing the necessary power and communications wiring to any one connector in slot C is sufficient The modular backplane interconnect comes standard with every module ordered and is generic in nature meaning any RM modules shown below on the DIN Modular backplane interconnect Ti i a JU U C rail can use it oo 1 n Notice in the split rail system diagram that a single power supply is being used across both DIN rails One notable consideration when designing the hardware layout would be the available power sup plied and the loading affect of all of the modules used Watlow provides three options for power sup plies listed below 1 90 264 Vac to 24Vdc 31 watts Part 0847 0299 0000 2 90 264 Vac to 24Vdc 60 watts Part 0847 0300 0000 3 90 264 Vac to 24Vdc 91 watts Part 0847 0301 0000 With regards to the modular loading affect maxi mum power for each RM module is listed below 1 RMCxxxxxxxxxxxx 7 watts 14VA 2 RMEx xxxx xxxx 7 watts 14VA 3 RMAx xxxx xxxx 4 watts 9VA 4 RMLx xxxx xxxx 7 watts 14VA 5 RMSx xxxx xxxx 7 watts 14VA 6 RMHx xxxx xxxx
111. asic Re mote User Interface RUI s SpecView for Watlow used over standard bus com munications Free standard bus communications port and free PC software EZ ZONE Configurator Additional Control Integration Options ncludes programmable timer functions ncludes programmable counter functions Allows for simple math and logic programming op tions Integrated Thermal Loop Diagnostics Users can easily tell that the entire thermal sys tem is functioning properly Provides complete system diagnostics that are far superior to simple discrete level diagnostics Allows for flexible synergistic use of hardware such as using one loop s sensor as a backup to an other loop in the event of sensor failure Helps prevent load loss or allow for maintenance to be scheduled when more convenient Provides notification of system problems to help Watlow EZ ZONE RMS Module reduce maintenance and service costs Off the Shelf Designed System Solution mproves system reliability with a factory inte grated solution that minimizes inter module con nections and potential problems at screw termina tion points Reduces installation cost Eliminates compatibility headaches often encoun tered with using many different components and brands Scanner Handles High Ambient Temperatures Operates in an unprecedented temperature range of 18 to 65 C 0 to 149 F for cabinets and panel enclosures with elevated t
112. ave us scrap the unit 7 Watlow reserves the right to charge for no trouble found NTF returns This EZ ZONE RM Scanner User s Guide is copyrighted by Watlow Electric Inc O May 2011 with all rights reserved EZ ZONE RM is covered by U S Patent No 6 005 577 and Patents Pending Table of Contents Chapter 1 Overview 0 0 0 ccc ee BRR 3 A Conceptual View of the RMS 0 0 c cece eee eee 4 Getting Started Quickly 7 Dimensions 0 0 paa a I 13 Chapter 2 Install and Wire 0 0 cc cece eee eee 13 Power SUppll8s 5 2 nerve tee ber d obe eat Weeki ies 15 RMS Installation and Removal on a DIN Rail 16 Dp EM 18 Conventions Used in the Menu Pages 0 00005 31 Chapter 3 Operations Pages 0 0 cece eee eee eee 33 Analog Input Menu 34 Process Value Menu 00 cece cece eee 34 Digital Input Output Menu 0 0 eee ee eee 35 Action Menu iios ie RED Dur e Recover a p s 36 Alarm Menu eis 2 RR RERERRERRRRABEerbr D 36 Linearization Menu lssssessseseesss B 37 Compare Menu 0 0 cece IH n 38 Timer Mer ose peregre ree ee SY ade does 38 Counter Mr iios rir ee DRE RR ee bee eee eee baa 39 LOGIC MENU rM 40 Math Men s e ciare eruina r aiaa IRR e 41 Chapter 4 Setup Pages 2 cece eee eee 43 Analog Input Mert sor RERER ER Rer ERR ks 45 Process Value Menu 00 ccc eee ee eee eee eee
113. ay R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear ae Watlow EZ ZONE RMS Module 56 Chapter 4 Setup Page RM Scanner Module e Setup Page CIP Data Modbus Class Type Display ene Range Default Relative Instance CES incid amp P Address Attribute Read hex dec Write AdSP Alarm 1 to 16 oF F Off 62 On 2530 0x6D 30 9016 uint A dSP Display on On 63 offset 60 109 RWES Display an alarm message 1 to 0x10 when an alarm is active 16 0x10 16 Adl Alarm 1 to 16 0 to 9 999 seconds 0 2540 0x6D 31 9021 uint A dL Delay Time offset 60 109 RWES Set the span of time that 1 to 0x10 the alarm will be delayed 16 after the process value ex 0x15 21 ceeds the alarm set point Alarm 1 to 16 Clear 129 Ignore SUE ems sued 9026 uint A hi Clear Request Ignore 204 RW Select Clear to clear alarm once in safe region Note This prompt is not avail able unless alarm latch ing is set to latching Alarm 1 to 16 Ignore 204 Ignore susc Sed 9027 uint A Sir Silence Request Silence 108 RW Select Silence to silence alarm while in fail region Note This prompt is not avail able unless alarm silenc ing is set to on Alarm 1 to 16 Startup 88 Startup Dasa um 9009 uint A St State Non
114. ay 5 A Form A epum K1 K7 common Part Digits 7 8 eee eae L2 L8 normally open Slot D RMSx xx J x xxxx I K2 K8 common Slot E RMSx xxx J xxxx ERA oo L3 L9 normally open Jea aos K3 K9 common eus L4 L10 normally open wees aos K4 K10 common Digital Outputs 1 6 and 7 12 Sie 1 6 7 12 PEN Sn B1 B7 Common Digital Outputs DO D1 D7 open collector switched de Part Digit 7 8 MM D2 D8 open collector switched dc Slot A Option not valid ses D3 D9 open collector switched dc Slot B Option not valid D4 D10 open collector switched de 1 S NM fu D5 D11 open collector switched dc Slot D RMSx xx C x D6 D12 open collector switched dc Slot E RMSx xxx C xxxx eee 55 Z1 Z7 Internal Supply Watlow EZ ZONE RMS Module Chapter 2 Install and Wire Form C Mechanical Relay Output 7 and Form A Mechanical Relay Output 8 Slot D Slot E Configuration 7 and 8 L7 normally open K7 common J7 normally closed L8 normally open K8 common Form C and Form A Relay Outputs Part Digit 8 Slot A Option not valid Slot B Option not valid Slot D Option not valid Slot E RMSx xxx B xxxx Power and Communications Slot C Configuration 98 Power input ac or dc All 99 Power input ac or dc CF Standard Bus EIA 485 common Standard Bus CD Standard Bus EIA 485 T R Part Digit 10 CE Standard Bus EIA 485 T
115. be locked out inaccessible 2 IfSet Lockout Security Sl o C is set to 0 and Read Lockout Security is set to 5 all pages will be accessible however changes will not be allowed on any pages or menus with one exception Set Lockout Security can be changed to a higher level 3 The operator wants to read all the menus and not allow any parameters to be changed In the Factory Page Lockout Menu set Read Lockout Security to 5 and Set Lockout Security to 0 4 The operator wants to read and write to the Chapter 6 Features Home Page and Profiling Page and lock all other pages and menus In the Factory Page Lockout Menu set Read Lockout Security to 2 and Set Lockout Security to 2 In the Factory Page Lockout Menu set Lock Operations Page to 3 and Lock Profiling Page to 2 5 The operator wants to read the Operations Page Setup Page Profiling Page Diagnostics Menu Lock Menu Calibration Menu and Cus tom Menus The operator also wants to read and write to the Home Page In the Factory Page Lockout Menu set Read Lockout Security to 1 and Set Lockout Security to 5 In the Factory Page Lockout Menu set Lock Operations Page to 2 and Lock Profiling Page to 3 Using Password Security It is sometimes desirable to apply a higher level of security to the control where a limited number of menus are visible and not providing access to others without a security password Without the appropri ate password thos
116. bute Read hex dec Write Variable Menu EYPE Variable 1 to 24 Ral S Analog 1215 Analog 13020 0x66 102 118 2001 juint tyPE Data Type d 9 Digital 1220 offset 20 1 to 0x18 RWES Set the variable s data 24 type 1 Variable 1 to 24 RE P Absolute Temperature Absolute 13032 0x66 102 2007 uint Unit Units 1540 Temper offset 20 1 to 0x18 RWES Set the variable s units r E P Relative Temperature ature 24 1541 7 PL Jc Power 73 P rc o Process 75 c h Relative Humidity 1538 nont None 61 Variable 1 to 24 oF F Off 62 Off 13022 0x66 102 119 2002 juint dig Digital on On 63 offset 20 1 to 0x18 RWES Set the variable s value 24 2 Variable 1 to 24 1 999 000 to 9 999 000 0 0 13024 0x66 102 120 2003 float AnLg Analog offset 20 1 to 0x18 RWES Set the variable s value Note 24 Stored in F only 3 No Dis Variable 1 to 24 Off 62 13026 0x66 102 2004 float play Output Value On 63 offset 20 1 to 0x18 R 1 999 000 to 9 999 000 a 9LbL Global Menu Global C F F 30 F 368 0x67 103 51 3005 Pa C F Display Units C 15 1 Select which scale to use 5 for temperature ACLF Global 50 50 Hz 3 60 Hz 0x65 10D 1034 uint AC LF AC Line Frequency C 60 60 Hz 4 1 RWES Set the frequency to the ap 0x22 34 plied ac line power source dP 5 Global 1to 15 2 0x67 103 3028 uint dPrS Display Pairs 1 RWES Defines
117. by ISO 9001 registered processes and is backed by a three year warranty to the first purchaser for use providing that the units have not been misapplied Since Watlow has no control over their use and some times misuse we cannot guarantee against failure Watlows obli gations hereunder at Watlows option are limited to replacement repair or refund of purchase price and parts which upon examina tion prove to be defective within the warranty period specified This warranty does not apply to damage resulting from transportation alteration misuse or abuse The purchaser must use Watlow parts to maintain all listed ratings Technical Assistance If you encounter a problem with your Watlow controller review your configuration information to verify that your selections are consistent with your application inputs outputs alarms limits etc If the problem persists you can get technical assistance from your local Watlow representative see back cover by e mailing your ques tions to wintechsupport watlow com or by dialing 1 507 494 5656 between 7 a m and 5 p m Central Standard Time CST Ask for for an Applications Engineer Please have the following information available when calling Complete model number All configuration information User s Guide Factory Page Return Material Authorization RMA 1 Call Watlow Customer Service 507 454 5300 for a Return Material Authorization RMA number before returnin
118. ce Instance B Source Zone B Source Error B NEN Process Value MES Differential gt gt Output Value gt gt Error gt gt Output Value Filter A B Offset Display units follows Source A plus relative Source B Watlow EZ ZONE RMS Module 97 7 EA K yO eas Bey puyyyy dd Source Function A Source Instance A Source Value A Value B gt Source Error A Source Value mu Source Function B pm Source Instance B L Source Zone B Source Value E gt Source Error B Process Value gt Switch Over gt Source Function E Source Instance E Output Value gt Source Zone E _ gt Source Error E Error IfE OFF Output Value Filter A Offset If E ON Output Value Filter B Offset Display units follows active source t amp O Cx on ley Boy l NEMPE Source Function A Source Instance A Source Error A Source Function B Source Instance B Source Zone B Source Error B Source Function C Source Instance C Source Zone C Source Error C Source Function D Source Instance D Source Zone D Source Error D Source Value A Source Value B Source Value C Source Value D Process Value Ratio Output Value Error TERT t gt Output Value Filter A B Offset If display units of Source A Source B no display units on output value else fo
119. ce Zone A Source Error A Source Function B Source Instance B Source Zone B gt Source Error B Source Function C Source Instance C Source Zone C Source Error C Source Function D Source Instance D Source Zone D gt Source Error D Source Value A Source Value B Source Value C Source Value D Math Minimum Output Value Error TERR Output Value Filter Minimum Value A B C D Offset Display units follows Source with minimum value Watlow EZ ZONE9 RMS Module 110 K K 5 o By Os NH poy dvb yy Source Function A Source Instance A Source Zone A Source Error A Source Function B Source Instance B Source Zone B Source Error B Source Value A Source Value B hid Math Absolute Difference Output Value gt Error p gt Output Value Filter A B Offset Display units follow Source A plus relative Source B on i D Qs ey K poyyy sydd Source Function A Source Instance A Source Zone A gt Source Error A Source Function B gt Source Instance B Source Zone B gt Source Error B Source Function C gt Source Instance C Source Zone C Source Error C Source Function D gt Source Instance D Source Zone D gt Source Error D Source Value A Source Value B Source Value C gt Source Value D gt gt
120. ces If there is only one instance of a menu no submenus will appear R Read W Write E EEPROM S User Set Watlow EZ ZONE RMS Module 68 Chapter 4 Setup Page RM Scanner Module Setup Page Display Parameter Name Description Range Modbus Relative Address Default CIP Class Instance Attribute hex dec Profibus Index Parameter ID Data Type Read Write SF aod SFn d Logic 1 to 24 Source Function D Set the type of function that will be used for this source None 61 Alarm 6 Compare 230 Counter 231 Digital I O 1142 EnER Profile Event Out A En t 5 Profile Event Out B En E C Profile Event Out C En t d Profile Event Out D En E E Profile Event Out E En E F Profile Event Out F En t 9 Profile Event Out G Profile Event Out H Function Key 1001 Limit 126 Logic 239 Special Function Out 1532 Special Function Out 1533 Special Function Out 1534 Special Function Out 1535 Timer 244 Variable 245 6306 offset 80 None Ox7F 127 1to 0x18 24 4 27004 uint RWES Logic 1 to 24 Source Instance D Set the instance of the function selected above 1 6322 offset 80 0x7F 127 1 to 0x18 24 0xC 12 27012 uint RWES Logic 1 to 24 Source Zone D Set the zone of the function
121. ces 24 per RMS Error p gt Source Error B Error p gt SEE Setup Page A gt B Output Value ON CPE Compare Menu Fn Function Off Greater Than Less Than Equal To Not Equal To Greater or Equal Less or Equal MS Eol Tolerance 0 0 to 9 999 000 units or F 4 e SF amp R Source Function A None Analog Input Current Cool Power Heat og KA Power Power Linearization Math Process Value Set Point Closed Set Point v Open Variable 5 A Source Instance A 1 to 24 i SZA Source Zone A 0 to 16 Source Function A SF nb Source Function B None Analog Input Current Cool Power Heat gt Source Instance A Source Value A Power Power Linearization Math Process Value Set Point Closed Set Point Source Zone A Source Value B Open Variable Source Error A S b Source Instance B 1 to 24 Compare aed Source Zone B 0 to 16 Source Function B Less Than E c h Error Handling False Bad False Good True Bad True Good gt Source Instance B Source Zone B Output Value oPE Operation Page gt Source Error B gt CPE Compare Menu Error Suf Source Value A 1 999 000 to 9 999 000 units or F A B Output Value ON 5 ub Source Value B 1 999 000 to 9 999 000 units or F fou Output Value Off On Tolerance is expressed in same units as Source A e Requires Source A and Source B to be without errors for function to work A 2 M a ey KA o Zo An error when read can indicate any of the fol
122. cial Function Out 1 to 4 Timer Variable S h Source Instance H 1 to 24 52h Source Zone H 0 to 16 Erh Error Handling True Good True Bad False Good False Bad oPE rc Operation Page LIC Logic Menu Source Value A Off On Su b Source Value B Off On S 4C Source Value C Off On Sud Source Value D Off On 8 4E Source Value E Off On S uF Source Value F Off On 54 9 Source Value G Off On Suh Source Value H Off On ou Output Value Off On An error when read can indicate any of the following None Open Shorted Measurement Error Bad Cal Data Ambient Error RTD Error Fail Math Error Not Sourced Stale Watlow EZ ZONE9 RMS Module 104 Chapter 6 Features Function Error Handling Source Function A Source Instance A Source Zone A Source Error A Source Function B Source Instance B Source Zone B Source Error B Source Function C Source Instance C Source Zone C Source Error C Source Function D Source Instance D Source Zone D Source Error D Source Function E Source Instance E Source Zone E Source Error E Source Function F Source Instance F Source Zone F Source Error F Source Function G Source Instance G Source Zone G Source Error G Source Function H Source Instance H Source Zone H Source Error H Source Value A Source Value B Source Value C Source Value D Source Value E Source Value F Source Value G Source
123. computer while leaving the converter connected on Standard Bus Disturbance on the Standard Bus may occur Watlow EZ ZONE RMS Module e 28 Chapter 2 Install and Wire Wiring a Serial EIA 485 Network Do not route network wires with power wires Con nect network wires in daisy chain fashion when con necting multiple devices in a network A network using Watlow s Standard Bus and an RUI Gate Way EZ ZONE RMS Power Slot C Supply EZ ZONE PM common A B common CF A cD B CE Watlow EZ ZONE RMS Module A termination resistor is required Place a 120 0 resistor across T R and T R of the last controller on a network Only one protocol per port is available at a time either Modbus RTU or Standard Bus A network using Modbus RTU EZ ZONE RMS i fuse Power Slot C Supply EZ ZONE PM common Cc A C B ci B D D PLC common A B Chapter 2 Install and Wire Connecting and Wiring the Modules RMS Module Connections The RMS module can be installed
124. d above 5 SFab Compare 1 to 24 non E None 61 None 8222 0x80 128 28002 uint SFn b Source Function B A Analog Input 142 offset 40 1 to 0x18 RWES Set the type of function CU rc c Current 22 24 that will be used for this Pr Cool Power Control 2 source Loop 161 h P c Heat Power Control Loop 160 PL Jc Power Control Loop 73 Lac Linearization 238 PARE Math 240 Pu Process Value 241 SPC Set Point Closed Control Loop 242 Po Set Point Open Con trol Loop 248 vAr Variable 245 5 b Compare 1 to 24 1to 24 1 8226 0x80 128 28004 uint Si b Source Instance B offset 40 1 to 0x18 RWES Set the instance of the 24 function selected above 4 598b Compare 1 to 24 0 to 16 0 8230 0x80 128 28006 uint SZb Source Zone B offset 40 1 to 0x18 RWES Set thezone of the function 24 selected above 6 Erh Compare 1 to 24 E S True Good 1476 False Bad 8242 0x80 128 28012 uint Er h Error Handling __ 6 True Bad 1477 offset 40 1 to 0x18 RWES Select output value and er False Good 1478 24 ror output state when com E OxC 12 pare cannot be processed False Dad Vb Timer Menu Fr Timer 1 to 24 Off 62 Off 10156 0x83 131 131 31009 uint Fn Function On Pulse 1471 offset 50 1 to 0x18 RWES n or the timer will CJEL Delay 1472 P Modi C a5 One Shot 1473 r EL Retentive 1474 Note Some values will be rounded off to fit in th
125. d scale ranges are 0 to 20 mA 4 to 20 mA 0 to 5V 1 to 5V and 0 to 10V You can create a scale range representing other units for special applications You can reverse scales from high values to low values for analog input sig nals that have a reversed action For example if 50 psi causes a 4 mA signal and 10 psi causes a 20 mA signal Scale low and high low values do not have to match the bounds of the measurement range These along with range low and high provide for process scaling and can include values not measureable by the control ler Regardless of scaling values the measured value will be constrained by the electrical measurements of the hardware Select the low and high values with Scale Low and Scale High _ 5 4 Select the displayed range with Range Low and Range High Setup Page Analog Input Menu Range High and Range Low With a process input you must choose a value to rep resent the low and high ends of the current or voltage range Choosing these values allows the controller s display to be scaled into the actual working units of measurement For example the analog input from a humidity transmitter could represent 0 to 100 per cent relative humidity as a process signal of 4 to 20 mA Low scale would be set to 0 to represent 4 mA and high scale set to 100 to represent 20 mA The in dication on the display would then represent percent humidity and range from 0 to 100 percent with an input of 4 to 20 mA
126. d which is need Watlow EZ ZONE RMS Module e 89 o ed to acquire administrative access to the control The Administrator can either change the User and or the Administrator password or leave them in the default state Once Password Security is enabled they will no longer be visible to anyone other than the Administrator As can be seen in the formula that follows either the User or Administrator will need to know what those passwords are to acquire a higher level of access to the control Back out of this menu by pushing the Infinity key Once out of the menu the Password Security will be enabled How to Acquire Access to the Control To acquire access to any inaccessible Pages or Menus go to the Factory Page and enter the UL o C menu Once there follow the steps below Note If Password Security Password Enabled P A 5 is On is enabled the two prompts mentioned below in the first step will not be visible If unknown call the individual or company that originally set up the control 1 Acquire either the User Password P A 5 u or the Administrator Password PA 5 8 2 Push the Advance key one time where the Code Cog E prompt will be visible Note a If the the Rolling Password is off push the Ad vance key one more time where the Password PASS prompt will be displayed Proceed to either step 7a or 8a Pushing the Up O or Down Q arrow keys enter either the User or Adminis trator Password Once e
127. dered a true state 16 1 Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear sad Watlow EZ ZONE RMS Module e 53 o Chapter 4 Setup Page RM Scanner Module Setup Page Parameter Name Display Description otPt Output Menu Range Default Modbus Relative Address CIP Class Instance Attribute hex dec Profibus Parameter Index ID Data Type Read Write Output 1 to 4 and 7 to 10 oFF Fn Function A Select what function will BLP drive this output CP Off 62 Analog Input Alarm 6 Cool Power 161 Heat Power 160 Compare 230 Counter 231 Digital I O 1142 Profile Event Out A Profile Event Out B Profile Event Out C Profile Event Out D Profile Event Out E Profile Event Out F Profile Event Out G Profile Event Out H Function Key 1001 Linearization 238 Logic 239 Math 240 Process Value 241 Special Function Out 1532 Special Function Out 1533 Special Function Out 1534 Special Function Out 1535 Timer 244 Variable 245 off 1828 offset 30 0x6A 106 1 to Ox0A 10 39 6005 uint RWES Output 1 to 4
128. dress Standard Bus 79 Administrator Password 82 agency approvals 3 alarm blocking 88 Alarm Clear Request 57 Alarm Function 101 Alarm Menu 36 55 alarms Blocking 56 88 deviation 87 Display 57 Hysteresis 56 87 Latching 56 87 Logic 56 process 87 set points 87 Sides 56 Silencing 56 88 Source 55 Type 55 Alarm Silence Request 57 Alarm State 57 Altitude Units 43 44 77 Analog Input Function 94 Analog Input Menu 34 45 Assembly Definition Addresses 90 Assembly Working Addresses 90 B Barometric Pressure 43 Baud Rate 79 Blocking 56 88 C calibrating an analog input 85 Calibration Offset 34 46 85 86 CIP Common Industrial Protocol 31 Clear Request 57 Communications Menu 79 Setup Page 33 43 Compare Function 118 Compare Menu 38 60 connecting and wiring the modules 30 Control 52 55 Control Function 104 Control Module Menus Factory Page Custom Setup Menu 81 Diagnostics Menu 83 Security Setting Menu 81 82 Operations Page Action Menu 35 Alarm Menu 36 Analog Input Menu 34 Compare Menu 38 Counter Menu 39 Appendix Digital Input Output Menu 35 Linearization Menu 37 Logic Menu 40 Math Menu 41 Process Value Menu 34 Timer Menu 38 Setup Page Action Menu 52 Alarm Menu 55 Analog Input Menu 45 Communications Menu 79 Compare Menu 60 Counter Menu 64 Digital Input Output Menu 50 Global Menu 78 Linearization Menu 57 Logic Menu 66 Math Menu 74 Output Menu 54 Process Value 47 Timer Menu 61 Variabl
129. duct use proper grounding and handling tech niques when installing or servic ing product Unit protected by double rein forced insulation for shock hazard prevention Do not throw in trash use proper recycling techniques or consult manufacturer for proper disposal Enclosure made of Polycarbonate material Use proper recycling techniques or consult manufac turer for proper disposal Unit can be powered with either alternating current ac voltage or direct current dc voltage Unit is a Listed device per Un derwriters Laboratories It has been evaluated to United States and Canadian requirements for Process Control Equipment UL 61010 and CSA C22 2 No 61010 File E185611 QUYX QUYX7 See www ul com LISTED PROCESS CONTROL EQUIPMENT Unit is a Listed device per Un derwriters Laboratories It has been evaluated to United States and Canadian requirements for Hazardous Locations Class 1 PROC CONT EQ FOR ALD iocans Division II Groups A B C and D ANSI ISA 12 12 01 2007 File E184390 QUZW QUZW7 See www ul com Unit is compliant with European Union directives See Declaration of Conformity for further details on Directives and Standards used for Compliance Unit has been reviewed and ap proved by CSA International for use as Temperature Indicating Regulating Equipment per CSA C22 2 No 24 See www csa international org Warranty The EZ ZONE RM Scanner module is manufactured
130. during the installation process If you cannot find the icon follow the steps below to run the software 1 Move your mouse to the Start button 2 Place the mouse over All Programs 3 Navigate to the Watlow folder and then the sub folder EZ ZONE Configurator 4 Click on EZ ZONE Configurator to run The first screen that will appear is shown below Welcome to the EZ ZONE CONFIGURATOR This program makes it easy for you to configure any of your EZ ZONE products Choose one of these options Configure a device while communicating with it C Create or edit a configuration file to download late Download a configuration file in to a device and click Next to begin configuring an EZ ZONE device Version 3 8 49 ur If the PC is already physically connected to the EZ ZONE RMS control click the next button to go on line Note When establishing communications from PC to the RMS control an interface converter will be re quired The Standard Bus network uses EIA 485 as the interface Most PCs today would require a USB to EIA 485 converter However some PCs may still be equipped with EIA 232 ports therefore an EIA 232 to EIA 485 converter would be required As can be seen in the above screen shot the software provides the user with the option of downloading a previously saved configuration as well as the ability to create a configuration off line to download later The screen shots that follow wi
131. e Setup Page CIP Data Modbus Class Type Display eae Range Default Relative Instance cee Rib ores Address Attribute Read hex dec Write SF Af Action 1 to 16 non E None 61 None 2190 Ox6E 10006 uint SFn A Source Function A ALP Alarm 6 offset 20 110 RWES Set the event or function CPE Compare 230 1 to 0x10 that will trigger the action CEF Counter 231 p d o Digital I O 1142 En EA Profile Event Out A 233 En t5 Profile Event Out B 234 En t C Profile Event Out C 235 En t gd Profile Event Out D 236 En t Profile Event Out E 247 En t F Profile Event Out F 248 Eno t 9 Profile Event Out G 249 En Eh Profile Event Out H 250 FUnjFunction Key 1001 L P 1 Limit 126 L 9C Logic 239 EP lc Timer 244 uf Variable 245 5 1A Action 1 to 16 1 to 24 1 2182 Ox6E 10002 uint Si A Source Instance A offset 20 110 RWES Set the instance of the 1 to 0x10 function selected above 16 2 C SZA Action 1 to 16 0 to 16 0 2192 Ox6E 10007 uint SZA Source Zone A offset 20 110 RWES Set the zone of the function 1 to 0x10 selected above 16 7 CLEu Action 1 to 16 Lob Low 53 High 2180 Ox6E 78 10001 uint LEv Active Level h 95 High 37 offset 20 110 RWES Set the action that will be 1 to 0x10 consi
132. e 245 Linearization 1 to 24 1 or 24 1 11342 0x86 134 34002 uint S A Source Instance A offset 70 1 to 0x18 RWES Set the instance of the 24 function selected above 2 Linearization 1 to 24 0 or 16 0 11344 0x86 134 34003 uint SZLA Source Zone A offset 70 1 to 0x18 RWES Set the zone of the function 24 selected above 3 Linearization 1 to 24 Se c Source 1539 Source 11396 0x86 134 87 34029 uint Unit Units non None 61 offset 70 1 to 0x18 RWES Set the units of Source A RE P Absolute Temperature 24 1540 Ox1D 29 c P Relative Tempera ture 1541 PL ure Power 73 P rc o Process 75 r h Relative Humidty 1538 Linearization 1 to 24 1 999 000 to 9 999 000 F or 0 0 11354 0x86 134 88 34008 float ip 1 Input Point 1 units offset 70 1to 0x18 RWES Set the value that will be 1 128 333 to 5537 223 C 24 mapped to output 1 8 Linearization 1 to 24 1 999 000 to 9 999 000 F or 0 0 11374 0x86 134 89 34018 float op 1 Output Point 1 units offset 70 1 to 0x18 RWES Set the value that will be 1 128 333 to 5537 223 C 24 mapped to input 1 0x12 18 Linearization 1 to 24 1 999 000 to 9 999 000 F or 1 0 11356 0x86 134 90 34009 float ip 2 Input Point 2 units offset 70 1 to 0x18 RWES Set the value that will be 1 128 333 to 5537 223 C 24 mapped to output 2 9 Linearization 1 to 24 1 999 000 to 9 999 000 F or 1 0 11376 0x86 134
133. e 61 R View state of alarm Blocked 12 Alarm Low 8 Alarm High 7 Error 28 Linearization Menu Fn Linearization 1 to 24 Off 62 Off 11348 0x86 134 86 34005 uint Fn Function Interpolated 1482 offset 70 1to 0x18 RWES Set how this function will Stepped 1483 24 linearize Source A 5 Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear gt User et Watlow EZ ZONE RMS Module e 57 Chapter 4 Setup Page RM Scanner Module Setup Page CIP Data Modbus Class Type Display aore id Range Default Relative Instance juin fe amp sala al Address Attribute body Read hex dec Write Linearization 1 to 24 nonE None 61 None 11340 0x86 134 34001 uint SFn A Source Function A A Analog Input 142 offset 70 1to 0x18 RWES Set the type of function CUr c Current 22 24 that will be used for this CPr Cool Power Control 1 Source Loop 161 hP Heat Power Control Loop 160 PL Jc Power Control Loop 73 Loc Linearization 238 PARE Math 240 Pu Process Value 241 GPC Set Point Closed Control Loop 242 SPo Set Point Open Con trol Loop 243 vAr Variabl
134. e Read Lockout Security c L o C never having ac cess to the Lock Menu Ll of An Administrator is restricted according to the Read Lockout Security c L o C however the Ad ministrator has access to the Lock Menu where the Read Lockout can be changed Modbus Using Programmable Memory Blocks When using the Modbus protocol the RMS features a block of addresses that can be configured by the user to provide direct access to a list of 80 user configured parameters This allows the user easy access to this customized list by reading from or writing to a con tiguous block of registers To acquire a better understanding of the tables found in the back of this manual See Appendix Modbus Programmable Memory Blocks please read through the text below which defines the column headers used Assembly Definition Addresses Fixed addresses used to define the parameter that will be stored in the Working Addresses which may also be referred to as a pointer The value stored in these addresses will reflect point to the Modbus address of a parameter within the controller Assembly Working Addresses Fixed addresses directly related to their associ ated Assembly Definition Addresses e g As sembly Working Addresses 200 amp 201 will as sume the parameter pointed to by Assembly Defi nition Addresses 40 amp 41 Watlow EZ ZONE RMS Module e 90 e When the Modbus address of a target parameter is stored in a
135. e Event Out E 247 EntF Profile Event Out F 248 En tJ Profile Event Out G 249 Ent Profile Event Out H 250 FUn Function Key 1001 L 9C Logic 239 EP 9 Timer 244 uAr Variable 245 _S E Process Value 1 to 16 1 to 24 1 5198 Ox7E 26010 uint Si E Source Instance E offset 70 126 RWES Set the instance of the 1 to 0x10 function selected above 16 0x0A 10 C 52E Process Value 1 to 16 0 to 16 0 5208 0x7E 26015 uint SZ E Source Zone E offset 70 126 RWES Set the zone of the function 1 to 0x10 selected above 16 OxOF 15 CP Process Value 1 to 16 1 999 000 to 9 999 000 units 100 0 5226 Ox 7E 26024 float SZ E Cross Over Point or F offset 70 126 RWES Enter a value where the 1 128 333 to 5 537 223 C 1 to 0x10 Output Value switches 16 from Source A to Source 0x18 24 B value This applies only when the Process function is set to Cross Over C Cb Process Value 1 to 16 1 999 000 to 9 999 000 units 10 0 5228 Ox7E 26025 float SZ E Cross Over Band or F offset 70 126 RWES Enter a band centered 1 128 333 to 5 537 223 C 1 to 0x10 about the Cross Over 16 Point where Output Value 0x19 25 switches from Source A to Source B Value This ap plies only when the Process function is set to Cross Over Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM
136. e Instance KA __ Alarm Source Zone Alarm Latched p gt E Alarm Source Error Alarm Silenced Alarm Clearable gt l i i Alarm Working Process Value gt Digital Input Value Input State gt I Digital I O Value Alarm Working Set Point Digital i Al Error Input RE arm Process Output Value gt Instances 1 12 per RMS a SEE Setup Page If Alarm Type Process THEN Alarm Variable Process d 10 Digital I O Menu Value d r Direction Input Voltage Input Dry Contact F n Output Function Off Analog Input Alarm Cool Power Heat Power ore Compare Counter Digital I O Profile Event Out A to H Function Key If Alarm Type Deviation THEN Alarm Variable Pro Logic Linearization Math Process Value Special Function Output 1 to 4 cess Value Closed Loop Set Point Alarm Set Point Timer Variable Limit F_ Output Function Instance 1 to 24 5 ZA Source Zone A 0 to 16 o C E Output Control Fixed Time Base Variable Time Base o k b Output Time Base 0 1 to 60 0 seconds o L o Output Low Power Scale 0 0 to 100 0 oh Output High Power Scale 0 0 to 100 0 loPE x Operation Page d 1o Digital I O Menu d 5 Input State On Off Digital Input Value On Off An error when read can indicate any of the following None Open Shorted Measurement Error Bad Cal Data Ambient Error RTD Error Fail Math Error Not Sourced Stale Digital Input O
137. e Low Range High Pressure Units Runt Altitude Units F LjFilter 4 i don r i 4 m o x c D C 3 nr 44 x Source Active State A Source Active State B uHrc Variable Menu Variable 1 to 24 cz Fr Q 3 tc m to r m o mr my r e r3 n d ry m o D cz Wy n cz ui x M r3 C3 m 73 m e dD a dD 73 223 c r m 3 P Fr LO LO n WN Uu mn Uu Data Type Units Digital Analog bal Menu Display Units AC Line Frequency Display Pairs User Settings Save User Settings Restore Communications Menu Baud Rate Parity Modbus Word Order Display Units Non volatile Save Chapter 4 Setup Page RM Scanner Module Setup Page CIP Data Modbus Class a Type Display boe d Range Default Relative Instance guias iie amp pun Address Attribute s Read hex dec Write Analog Input Menu C SEn Analog Input 1 to 16 oF FJ Off 62 388 0x68 104 3 4005 uint SEn Sensor Type t C Thermocouple 95 offset 9
138. e Menu 78 Counter Function 117 Counter Menu 39 64 current measurement 124 current sensing 88 Current Sensing 88 Custom Function 119 Custom Setup Menu 81 D Date of Manufacture 83 Decimal 46 deviation alarms 87 Dewpoint 74 Diagnostic Function 120 Diagnostics Menu 83 Digital Input Output Function 102 Digital Input Output Menu 35 50 digital input specifications 124 Direction 50 Display 57 Display Pairs 44 78 Display Units 78 E Electrical Gain 85 Electrical Input Offset 83 Electrical Input Slope 83 Electrical Measurement 83 85 Electrical Offset 85 Electrical Slope 86 environment 124 F Factory Page Control Module 80 Filter Time 46 86 filter time constant 86 Watlow EZ ZONE RMS Module Function 43 Function Instance 51 G Global Function 104 Global Menu 78 Setup Page 33 43 H High Power Scale 52 55 high range 86 high scale 86 High Set Point Alarm 36 37 56 57 87 Hysteresis 56 87 l Input Error Latching 46 Input Error Status 34 46 inputs 4 installation 16 IP Fixed Address Part 4 78 isolation blocks 21 J K L Latching 56 87 Linearization 45 Linearization Function 100 Linearization Menu 37 57 line voltage power 124 Locked Access Level 82 Lock Operations Page 88 Lockout Menu 88 Lock Profiling Page 88 Logic 56 Logic Function 104 Logic Menu 40 66 Low Power Scale 52 55 low range 86 low scale 86 Low Set Point Alarm 36 56 87 M Math Function 107 Math Menu 41
139. e four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear S el Watlow EZ ZONE RMS Module e 61 Chapter 4 Setup Page RM Scanner Module Setup Page CIP Data Modbus Class 2 Type Display je ebd ds Range Default Relative Instance juin fe amp pion Address Attribute body Read hex dec Write Timer 1 to 24 non E None 61 None 10140 0x83 131 31001 uint SFn A Source Function A ALP Alarm Reset 6 offset 50 1 to 0x18 RWES Set the type of function CPE Compare 230 24 that will be used for this 1 source run signal CE c Counter 231 d o Digital I O 1142 Ent RJ Profile Event Out A 233 En t 5 Profile Event Out B 234 Ent C Profile Event Out C 235 Ent Profile Event Out D 236 Ent E Profile Event Out E 247 EntF Profile Event Out F 248 Ent Profile Event Out G 249 Ent Profile Event Out H 250 FUn Function Key 1001 L 9C Logic 239 oF I Special Function Out put 1 1532 5o F9 Special Function Out put 2 1533 5o F 3 Special Function Out put 3 1534 SoF 4 Special Function Out put 4 1535 t P l1 Timer 244 uic Variable 245 Timer 1 to 4 1 to 24 1 10144 0x83 131 31003 uint Si A Source Instance A
140. e menus will remain inaccessible If Password Enabled P A 5 in the Factory Page under the Menu is set to on an overriding Password Security will be in effect When in effect the only Pages that a User without a password has visibility to are defined in the Locked Access Level Lo C L prompt On the other hand a User with a password would have visibility restricted by the Read Lockout Security c L oC As an example with Pass word Enabled and the Locked Access Level L o L set to 1 and m L oC is set to 3 the available Pages for a User without a password would be limited to the Home and Factory Pages locked level 1 If the User password is entered all pages would be acces sible with the exception of the Setup Page as defined by level 3 access How to Enable Password Security Go to the Factory Page by holding down the Infinity key and the Advance key for approximately six seconds Once there push the Down Q key one time to get to the menu Again push the Advance key until the Password Enabled P A 5 prompt is visible Lastly push either the up or down key to turn it on Once on 4 new prompts will appear 1 Lo L Locked Access Level 1 to 5 correspond ing to the lockout table above 2 coL L Rolling Password will change the Cus tomer Code every time power is cycled 3 PA 5 u User Password which is needed for a Us er to acquire access to the control 4 PR S R Administrator Passwor
141. e to a contactor driv ing a heater turning a light on or off unlocking a door or turning on an audible alarm Assign an output to a function in the Output Menu or Digital Input Output Menu Then select which instance of that function will drive the select ed output For example in using an RMS module an output can be configured to respond to the output of the PID algorithm from another RM module to drive a heater You can assign more than one output to respond to a single instance of a function For example alarm 2 could be used to trigger a light connected to output 1 and a siren connected to digital output 5 Actions Based on a given input Digital I O Event output Logic function etc the Action function can cause other functions to occur To name a few set alarms to off silencing alarms and restoring user memory Chapter 1 Overview A Conceptual View of RM Hardware Configurations Due to the scalability and flexibility in the RM sys tem a user has several options available in the way that the hardware can be connected Listed below are a few examples RMS Connected to a Remote User Interface RUI and a Personal Computer PC In this configuration the RUI and PC are connected to the RMS module via Watlow s Standard Bus where both will be able to talk directly to the RMS module RMS Scanner Slot C Power E PC Running Supply EZ ZONE Configurator RUI
142. ea is known to be free of ignitable Common_ Bg concentrations of flammable sub DC input pg Note stances For part number RMSx xxx B xxxx connection is made between pins B9 and D9 when con figured as a dry contact Digital Input 9 Slot E RMSx xxx C xxxx RMSx xxx B xxxx Suppressor Note Switching pilot duty inductive loads relay coils solenoids etc with the mechanical relay solid state relay or open collector output options requires use of an R C suppressor for AC load or a diode for a DC load Watlow EZ ZONE RMS Module e 24 Chapter 2 Install and Wire Warning N Use National Electric NEC or other country specific standard wiring and safety practices when wiring and connecting this controller to a power source and to electrical sensors or pe ripheral devices Failure to do so may result in damage to equipment and property and or injury or loss of life Note Maximum wire size termination and torque rating 0 0507 to 3 30 mm 30 to 12 AWG single wire termination or two 1 31 mm 16 AWG e 0 8 Nm 7 0 in Ib torque Note Adjacent terminals may be labeled differently depending on the model number Note To prevent damage to the controller do not connect wires to unused ter minals Note Maintain electrical isolation between digital input outputs switched dc open collector outputs and process outputs to prevent ground loops N Explosion Hazard Substituti
143. ector all modules 20 State 57 System Security 89 T Ten Point Linearization 86 Time Base 52 55 Timer Function 112 Timer Menu 38 61 tuning the PID parameters 85 Type 55 87 U User Password 82 User Restore Set 78 85 User Save Set 78 85 Using EZ ZONE Configurator Soft ware 91 using the software 88 V Variable Function 117 Variable Menu 78 variable time base 87 W wiring output 1 mechanical relay form C 26 wiring a network 29 30 wiring a serial EIA 485 network 29 wiring Controller Module mechanical relay form A output 2 4 60r 8 26 RTD input 1 to 4 23 thermocouple input 1 to 4 22 wiring termination touch safe termi nals 124 X Y Z Watlow EZ ZONE RMS Module e 129 Appendix Declaration of Conformity EZ Zone Series RM C c WATLOW an ISO 9001 approved facility since 1996 1241 Bundy Blvd Winona MN 55987 USA Declares that the following Series RM Rail Mount products Model Numbers RM followed by additional letters or numbers describing use of up to four module options of various inputs and outputs or communications Classification Temperature control Installation Category II Pollution degree 2 Voltage and Frequency SELV 24 to 28 VII ac 50 60 Hz or dc Power Consumption RMA models 4 Watts any other RM model 7 Watts Environmental Rating IP20 Meet the essential requirements of the following European Union Directives by using the relevant standards show below to indicate comp
144. emperature levels Memory for Saving and Restoring User De fined Parameter Default Settings e Allows customers to save and restore their own defined defaults for machine parameter settings Reduces service calls and downtime due to inad vertent end user parameter adjustments Synergistic Module Control Allows outputs selected for control heat cool alarms or events to be located in any physical module regardless of which module is connected to the input sensor Split Rail Control Allows modules to be mounted together or mount ed remotely from one another Shares control operation via Synergistic Module Control capability Allows individual modules to be mounted closer to the physical input and output devices to which they are wired mproves system reliability and lowers wiring costs Agency Approvals UL listed CE RoHS W E E E SEMI F47 0200 Class 1 Div 2 Rating on Selected Models Assures prompt product acceptance Reduces panel builder s documentation and agency costs Removable Connectors Assures reliable wiring and reduces service calls e Simplifies installation Three Year Warranty Demonstrates Watlow s reliability and product support Chapter 1 Overview A Conceptual View of the RMS The flexibility of the RMS s software and hardware allows for variation in configurations Acquiring a better understanding of its functionality and capa bilities while at the same time plannin
145. er source and to electrical sensors or pe ripheral devices Failure to do so may result in damage to equipment and property and or injury or loss of life Note Maximum wire size termination and torque rating e 0 0507 to 3 30 mm 30 to 12 AWG single wire termination or two 1 31 mm 16 AWG e 0 8 Nm 7 0 in Ib torque Note Adjacent terminals may be labeled differently depending on the model number Note To prevent damage to the controller do not connect wires to unused ter minals Note Maintain electrical isolation between digital input outputs switched dc open collector outputs and process outputs to prevent ground loops Warning Explosion Hazard Substitution of component may impair suitability for CLASS I DIVISION 2 Warning A Explosion Hazard Do not disconnect while the circuit is live or unless the area is known to be free of ignitable concentrations of flammable sub stances Scanner Module Wiring RMSx xxxx xxxx Low Power RMS ALL Model Nu
146. er 58 0 amp 1 Hardware ID Registers 314 amp 315 Value of Pointer 58 Registers 156 amp 157 Pointer 59 0 amp 1 Hardware ID Registers 316 amp 317 Value of Pointer 59 Registers 158 amp 159 Pointer 60 0 amp 1 Hardware ID Registers 318 amp 319 Value of Pointer 60 Watlow EZ ZONE RMS Module Assembly Definition Registers Default Pointers Registers 160 amp 161 Assembly Working Registers Pointer 61 0 amp 1 Hardware ID Registers 320 amp 321 Value of Pointer 61 Registers 162 amp 163 Pointer 62 0 amp 1 Hardware ID Registers 322 amp 323 Value of Pointer 62 Registers 164 amp 165 Pointer 63 0 amp 1 Hardware ID Registers 324 amp 325 Value of Pointer 63 Registers 166 amp 167 Pointer 64 0 amp 1 Hardware ID Registers 326 amp 327 Registers 168 amp 169 Value of Pointer 64 Pointer 65 0 amp 1 Hardware ID Registers 328 amp 329 Value of Pointer 65 Registers 170 amp 171 Pointer 66 0 amp 1 Hardware ID Registers 330 amp 331 Value of Pointer 66 Registers 172 amp 173 Pointer 67 0 amp 1 Hardware ID Registers 332 amp 333 Value of Pointer 67 Registers 174 amp 1
147. etting 1to3 2 Ss c Hes MES zie LoC o Operations Page Change the security level of the Operations Page PRSE Security Setting oF F Off Off Drauss base bs NU eer LoC P Password Enable C oa On Turn security features on or off Security Setting 1to5 5 eee imus ERN rLoC Read Lock Set the read security clear ance level The user can ac cess the selected level and all lower levels If the Set Lockout Security level is higher than the Read Lockout Security the Read Lockout Security level takes priority Note Some values will be rounded off to fit in the four character display Full values can R Read be read with another interface nel If there is only one instance of a menu no submenus will appear A User Set Watlow EZ ZONE RMS Module e 81 o Chapter 5 Factory Page RM Scanner Module e Factory Page ale Data z Parameter Name Modbus glass Profibus Parameter Type Display Km Range Default Relative Instance Description Index ID amp Read Address Attribute 5 Write hex dec SLol Security Setting 0to5 5 wees 2 wees wees SLoC Write Security Set the write security clear ance level The user can ac cess the selected level and all lower levels If the Set Lockout Security level is higher than the Read Lockout Security the Read Lockout Security level takes priority LoCL
148. ff to fit in the four character display Full values R Read can he read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear S User Set Watlow EZ ZONE9 RMS Module 38 o Chapter 3 Operations Page RM Scanner Module e Operations Page En Data A Parameter Name Modbus Gess Profibus Parameter Type Display REN Range Default Relative Instance Description Index ID amp Read Address Attribute Wri rite hex dec Et Timer 1 to 24 0 to 30 000 0 seconds 0 10170 0x83 31016 float E t Elapsed Time offset 50 131 R View the value of this 1 to 0x18 function s elapsed time 24 0x10 16 Timer 1 to 24 Off 62 10158 0x83 31010 uint o v Output Value C en On 63 offset 50 131 R View the value of this 1to 0x18 function s output 24 0x11 17 No Dis Timer 1 to 24 Off 62 10168 0x83 31015 uint play Running On 63 offset 50 131 R Read to determine if timer 1 to 0x18 is running 24 OxOF 15 No Dis Timer 1 to 24 None 61 10174 0x83 31018 uint play Error Open 65 offset 50 131 R Read reported cause for Shorted 127 1 to 0x18 timer error Measurement Error 140 om Bad Cal Data 139 Ambient Error 9 RTD Error 141 Fail 32 Math Error 1423 Not Sourced 246 Stale 1617 Counter Menu Cnt Counter 1 to 24 0
149. file Event Out A Ent b Profile Event Out B En t C Profile Event Out C En E d Profile Event Out D En E E Profile Event Out E En t F Profile Event Out F Profile Event Out G Profile Event Out H Function Key 1001 Limit 126 Logic 239 Special Function Out 1532 Special Function Out 1533 Special Function Out 1534 Special Function Out 1535 Timer 244 Variable 245 6302 offset 80 None Ox7F 127 1 to 0x18 24 2 27002 uint RWES 5 b Si b Logic 1 to 24 Source Instance B Set the instance of the function selected above 1 6318 offset 80 0x7F 127 1 to 0x18 24 OxA 10 27010 uint RWES Logic 1 to 24 Source Zone B Set the zone of the function selected above 0 to 16 0 6334 offset 80 0x7F 127 1 to 0x18 24 0x12 18 27018 uint RWES Note Some values will be rounded off to fit in the four character display Full values can be read with other interfaces If there is only one instance of a menu no submenus will appear R Read W Write E EEPROM S User Set Watlow EZ ZONE RMS Module Chapter 4 Setup Page RM Scanner Module Setup Page Display Parameter Name Description Range Default Modbus Relative Address CIP Class Instance Attribute hex dec Profibus Index Parameter ID Data Type Read Write SFn C Logic 1 t
150. g any item for repair If you do not know why the product failed con tact an Application Engineer or Product Manager All RMA s require Ship to address Bill to address Contact name Phone number Method of return shipment Your P O number Detailed description of the problem Any special instructions Name and phone number of person returning the product 2 Prior approval and an Return Merchandise Authorization num ber from the Customer Service Department is required when returning any product for credit repair or evaluation Make sure the Return Merchandise Authorization number is on the outside of the carton and on all paperwork returned Ship on a Freight Prepaid basis 3 After we receive your return we will examine it and try to verify the reason for returning it 4 Incases of manufacturing defect we will enter a repair order replacement order or issue credit for material returned In cases of customer misuse we will provide repair costs and request a purchase order to proceed with the repair work 5 To return products that are not defective goods must be in new condition in the original boxes and they must be returned with in 120 days of receipt A 20 percent restocking charge is applied for all returned stock controls and accessories 6 Ifthe unit cannot be repaired you will receive a letter of expla nation and be given the option to have the unit returned to you at your expense or to h
151. g out how the controller can be used will deliver maximum effec tiveness in your application It is useful to think of the scanner in three parts inputs procedures and outputs Information flows from an input to a procedure to an output when the scanner is properly configured An RMS module can carry out several procedures at the same time e g monitoring inputs for several different alarm situa tions monitoring and acting upon digital inputs and outputs can be configured to drive devices such as heaters audible alarms lights Each process needs to be thought out carefully and the scanner s inputs procedures and outputs set up properly Outputs Prodedures Process Process Alarm Alarm High Low Silence Alarms Turn Loop Alarms off Inputs The inputs provide the information that any given programmed procedure can act upon Simply stated this information may come from an operator pushing a button or from a sensor monitoring the tempera ture of a part being heated or cooled Each analog input typically uses a thermocouple RTD or thermistor to read the process temperature It can also read volts current or resistance allowing it to use various devices to read humidity air pres sure operator inputs and others values Each analog input must be configured to match the device con nected to that input see Analog Input Menu Setup Page Each digital input reads whether
152. gisters 196 amp 197 Pointer 79 20 amp 1 Hardware ID Registers 356 amp 357 Value of Pointer 79 Registers 198 amp 199 Pointer 80 0 amp 1 Hardware ID Registers 358 amp 359 Value of Pointer 80 Appendix RMS Specifications Line Voltage Power 20 4 to 30 8Vx ac dc 50 60Hz 5 percent Power consumption 7 W 14VA Any external power supply used should comply with a class 2 or SELV rating Data retention upon power failure via nonvolatile memory Compliant with Semi F47 0200 Figure R1 1 voltage sag require ments Environment 0 to 149 F 18 to 65 C operating temperature 40 to 185 F 40 to 85 C storage temperature 0 to 90 percent RH non condensing Rail Mount modules are considered to be open type equipment needing to be installed in a fire and shock protection enclosure such as a NEMA Type 1 enclosure unless all circuit connections are Class 2 or SELV Saftey Extra Low Voltage Accuracy e Calibration accuracy and sensor conformity 0 196 of span 1 C the calibrated ambient temperature and rated line voltage Types R S B 0 2 Type T below 50 C 0 2 e Calibration ambient temperature 77 5 F 25 3 C Accuracy span 1000 F 540 C min Temperature stability 0 1 F F 0 1 C C rise in ambient max Agency Approvals e ULS EN 61010 listed c UL C22 2 461010 File E185611 QUYX QUY
153. h Set Point or units or offset 60 109 RWES If Alarm Type Setup 1 128 000 to 5 537 000 C units 1 to 0x10 Page Alarm Menu is 150 0 C 16 set to 1 process set the process value that will trigger a high alarm ACL Alarm 1 to 16 Clear 129 Ignore 9026 uint A hi Clear Request Ignore 204 RW User interface RUD ac cess to clear an alarm RS r Alarm 1 to 16 Ignore 204 Ignore 9027 uint A Sir Silence Request Silence 108 RW User interface RUD ac cess to silence an alarm CASE Alarm 1 to 16 Startup 88 Startup 2516 0x6D 9009 uint A St State None 61 offset 60 109 R View state of alarm Blocked 12 1 to 0x10 Alarm low 8 pns Alarm high 7 Error 28 No Dis Alarm 1 to 16 No 59 No 2518 0x6D 9010 uint play Latched Yes 106 offset 60 109 R Read this register to de 1 to 0x10 termine if the alarm is 16 latched 0x0A 10 Note Some values will be rounded off to fit in the four character display Full values R Read can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear S User Set Watlow EZ ZONE RMS Module Chapter 3 Operations Page RM Scanner Module e Operations Page Modbus T pata Display Parameter Name Range Default Relative Instance Profibus Parameter Type Description Index ID amp Re
154. h all modules maximum 16 mod ules any combination with one Access module Slot E RMC RMS RM E Controller Scanner Access Slot C Slot C Slot C E Power Supply m RMC RMS Controller Scanner Slot C Slot C Module Orientation The picture that follows represents one of several dif ferent RM modules All of them will have four slots on the face slot A B D and E and one on the bot tom slot C not shown All of these slots are not al ways used on all modules On the face of the module there is a button orange circle under the zone ad dress 5 When pushed and held it has the following functions 1 For any module push and hold the orange button for approximately 3 seconds to change the zone ad dress Valid addresses for Modbus and Standard bus range from 1 16 J 8 A is 10 b is 11 is 12 d is 13 is 14 F is 15 and h is 16 The RMA Access module is shipped at address J or 17 and is the only module that can have its address set above 16 2 When a module is equipped with the Modbus pro tocol RMxxxxxxxxxx1xx pushing and holding the orange button for approximately 6 seconds will cause the LED display to return P for protocol Releasing the button and then pushing it again within 6 seconds the display will toggle between Modbus and 5 Standard Bus mm m w gt Bu w w p p L Modu
155. he Op erations Page would be used to monitor or change runtime settings As an example the user may want to see the cur rent status on or off of an event in the Action Menu Factory Page Using the RUI push and hold the Infinity and the green Advance keys for 6 seconds to enter See the Factory Page for further infor mation For the most part the Factory Page has no bearing on the con trol when running A user may want to en able password protec tion view the control part number or perhaps create a custom Home Page Watlow EZ ZONE RMS Module Home Page When using the RUI the control is at the Home Page when ini tially powered up where it will display the value of Analog Input 1 in the upper display and the value of Analog Input 2 in the lower display Note The Home Page is vis ible only when using the RUI Pushing the green Ad vance Key will cause the display to show the value of Analog Input 1 in the upper display and Analog Input 2 in the lower display With each successive push of the green advance key the display will sequentially show the value of all remaining analog inputs in the upper display and the lower display will show the correspond ing LED display e g for input 3 The default RMS loop configuration out of the box is shown below All Analog Input functions are set to thermocou ple type J to change log Input Menu
156. he inputs Analog Feu 3 Scale Low 000 In Sensor Type set the analog sensor type to pared 4 Scale High f000 match the device wired to Mis input Analog rout 6 Ronge Low 0 Process If a thermocouple i wired to thes input set TC Analog ret 7 Linearization to match the thermocouples type Analog tout 8 Range High 3999 Process Process Value Process Error Enable Of B it an RTD ts wired to this input set RTO Leads to 3 Digtal VO match the number of leads on he RTO D cilm Process Error Low Value 10 00 Filter 05 In ete sel the type of units the sensor will Alem measure Input Error Latching Of Y 4 Lneeriraton 0904005 Compare Display Precision Whole po Calibration Offset 0 F Courter 4 Logic Analog Input Value 403 F Math e 4 Venable Input Error Shorted Goba Opersbons Range NotApplable 5 p Factory Range Not Applicable Copy Settings Cancel Help lt Back Next gt Finish In the screen shot above notice that the device part number is clearly displayed at the top of the page yellow highlight added for emphasis When multiple EZ ZONE devices are on the network it is important that the part number be noted prior to configuring so as to avoid making unwanted configuration changes to another control Looking closely at the left hand column Parameter Menus notice that when first entering this screen it displays all of the available Pages Setup Operations and Facto
157. igh Set Point Alarm High Set Point Y Alarm Hysteresis Normal Operating Range The alarm state continues until the temperature drops to the Alarm High Set Point minus the hysteresis A Temperature Process Temperature latching alarm could be turned off by A the operator at this point A non latching alarm would turn off automatically DR Alarm Low Set Point Time Chapter 6 Features Alarm Silencing If alarm silencing is on the operator can disable the alarm output while the controller is in an alarm state The process value or temperature has to enter the normal operating range beyond the hysteresis zone to activate the alarm output function again An active message such as an alarm message will cause the display to toggle between the normal settings and the active message in the upper display and in the lower display Push the Advance Key to display in the upper display and the message source in the lower display Use the Up O and Down Q keys to scroll through possible responses such as Clear or Silence 5 L Then push the Advance or Infinity key to execute the action Turn alarm silencing on or off with Silencing Setup Page Alarm Menu Alarm Blocking Alarm blocking allows a system to warm up after it has been started up With alarm blocking on an alarm is not triggered when the process tempera ture is initially lower than the alarm low set point
158. ill be numbers found within parenthesis This number represents the enumerated value for that particular selection Range selections can be made simply by writing the enumerated value of choice using any of the available communications protocols As an ex ample turn to the Setup Page and look at the Analog Input _ A menu and then the Sensor Type 5 4 prompt To turn the sensor off simply write the value of 62 off to Modbus register 388 and send that value to the control Communication Protocols and Software Tools All RM modules come with Watlow s Standard Bus protocol This protocol is used primarily for inter module communications but is also used with SpecView by Watlow LabVIEW and EZ ZONE Con figurator software free download from Watlow s web site http ww w watlow com Along with Standard Bus the RMS module can also be ordered with Mod bus RTU only one protocol can be active at any given time The RMA Access module has options for sev eral different protocols listed below Modbus RTU 232 485 EtherNet IP Modbus TCP DeviceNet Profibus DP Modbus RTU Protocol All Modbus registers are 16 bits and as displayed in this manual are relative addresses actual Some legacy software packages limit available Modbus reg isters to 40001 to 49999 5 digits Many applications today require access to all available Modbus registers which range from 400001 to 465535 6 digits Wat low EZ ZONE controllers s
159. ill be rounded off to fit in the four character display Full values R Read can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear S User Set Watlow EZ ZONE9 RMS Module 40 Chapter 3 Operations Page RM Scanner Module Operations Page CIP Modbus Class Data Display Parameter Name Range Default Relative EHE Profibus Parameter Type Description Address Attribute Index ID amp Read Write hex dec ow Logic 1 to 24 oF F Off 62 6366 Ox7F 27034 uint o v Output Value C oa On 63 offset 80 127 R View the value of this 1 to 0x18 function s output 24 0x22 34 No Dis Logic 1 to 24 None 61 6370 0x7F 27036 uint play Error Open 65 offset 80 127 R Read reported cause for Shorted 127 1 to 0x18 logic error Measurement Error 140 0 bea 6 Bad Cal Data 139 Ambient Error 9 RTD Error 141 Fail 82 Math Error 1423 Not Sourced 246 Stale 1617 Math Menu SuA Math 1 to 24 1 999 000 to 9 999 000 F 3530 0x7D De 25016 float Su A Source Value A or units offset 70 125 RWES View the value of Source 1 128 000 to 5 537 000 C 1 to 0x18 A 24 0x10 16 Sub Math 1 to 24 1 999 000 to 9 999 000 F 3532 0x7D 25017 float Su b Source Value B or units offset 70 125 RWES View the value of Source 1 128 000
160. ion Out 1532 Special Function Out 1533 Special Function Out 1534 Special Function Out 1535 Timer 244 Variable 245 6300 offset 80 None Ox7F 127 1 to 0x18 24 1 27001 uint RWES Logic 1 to 24 Source Instance A Set the instance of the function selected above 1 6316 offset 80 Ox7F 127 1 to 0x18 24 9 27009 uint RWES Logic 1 to 24 Source Zone A Set the zone of the function selected above 0 to 16 0 6332 offset 80 Ox7F 127 1 to 0x18 24 0x11 17 27017 uint RWES Note Some values will be rounded off to fit in the four character display Full values can be read with other interfaces If there is only one instance of a menu no submenus will appear R Read W Write E EEPROM S User Set Watlow EZ ZONE RMS Module Chapter 4 Setup Page Display Parameter Name Description RM Scanner Module Range Setup Page Modbus Relative Address Default CIP Class Instance Attribute hex dec Profibus Index Parameter ID Data Type Read Write SF b SFn b Logic 1 to 24 Source B Function Set the type of function that will be used for this source ALP TD CPE ttc do Ent A 233 m 73 3 3 nont None 61 Alarm Reset 6 Compare 230 Counter 231 Digital I O 1142 Pro
161. ir to 12 C in Input Voltage 193 offset 30 106 RWES Direction f Input Dry Contact 1 to 0x0C Set this function to operate enl ud i 12 as an input or output 1 Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM S User If there is only one instance of a menu no submenus will appear Set Watlow EZ ZONE9 RMS Module 50 Chapter 4 Setup Page RM Scanner Module Setup Page Display Parameter Name Description Range Modbus Relative Address Default CIP Class Instance Attribute hex dec Data Parameter des ID Profibus inge Read Write Digital Output 1 to 12 Function Select what function will drive this output o n n Off 62 Analog Input Alarm 6 Cool Power Heat Power Compare 230 Counter 231 Digital I O 1142 Profile Event Out A 70 dD r 73 3 Profile Event Out B Profile Event Out C Profile Event Out D Profile Event Out E Profile Event Out F Profile Event Out G Profile Event Out H Function Key 1001 Linearization 238 Logic 239 Math 240 Process Value 241 Special Function Out 1532 Special Function Out 1533 Special Function Out 1534 Special Function Out 1535 Timer 244 Variable 245
162. ital input outputs switched dc open collector outputs and process outputs to prevent ground loops Warning AN Explosion Hazard Substitution of component may impair suitability for CLASS I DIVISION 2 Warning AN Explosion Hazard Do not disconnect while the circuit is live or unless the area is known to be free of ignitable concentrations of flammable sub stances Inputs 1 through 16 Potentiometer RMS Part Digits 5 6 7 8 Slot A B D E CW S_ CCW R CW S e Use a 1 KQ potentiometer R Input 1 4 top to bottom RMSx R xxx xxxx E Input 5 8 top to bottom RMSx x R xx xxxx S Input 9 12 top to bottom RMSx xx R x xxxx R Input 13 16 top to bottom RMSx xxx R xxxx CCW CW S R CCW Inputs 1 through 16 Process RMS Part Digits 5 6 7 8 Slot A B D E Slot A B D E 0 to 20 mA Q 100 Q input impedance S T 0 to 10V dc 20 kO input impedance e 0 to 50 mV dc 9 20 MO input impedance scalable Input 1 RMC 1 3 5 xxxxxxxxxxx S1 R1 T1 S1 Input 2 RMCxx 1 5 xxxxxxxxx S2 R2 T24 S2 Input 3 RMCxxxx 1 5 xxxxxxx S3 R3 T3 S3 R3 volts amperes Input 4 RMCxxxxxx 1 5 xxxxx S4 R4 T4 S4 hh fall al nOnorAnTAnATA DN Inputs 1 th
163. l lers on a network maximum network length 1 200 meters 4 000 feet 1 8th unit load on EIA 485 bus RMSx xxxx x A xx All models include Standard Bus communications Modbus RTU or Standard Bus EIA 485 Communications Slot C Wire T R to the A termi nal of the EIA 485 port Wire T R to the B termi nal of the EIA 485 port Wire common to the com mon terminal of the EIA 485 port Do not route network wires with power wires Connect network wires in daisy chain fashion when con necting multiple devices in a network A termination resistor may be required Place a 120 0 resistor across T R and T R of last controller on network Only one protocol per port is available at a time ei ther Modbus RTU or Stan dard Bus Do not connect more than 16 EZ ZONE controllers on a Standard Bus network Maximum number of EZ ZONE controllers on a Modbus network is 247 maximum network length 1 200 meters 4 000 feet e 1 8th unit load on EIA 485 bus RMSx xxxx x 1 xx Modbus IDA EIA TIA 485 Name Watlow Terminal Function ae Label Note Do not leave a USB to DH 485 converter connected to Standard Bus with out power i e disconnecting the USB end from the computer while leaving the converter connected on Standard Bus Disturbance on the Standard Bus may occur Watlow EZ ZONE RMS Module e 27
164. l Loop 248 uA Variable 245 5 Math 1 to 24 1 to 24 1 3514 0x7D 25008 uint Si C Source Instance C offset 70 125 RWES Set the instance of the 1 to 0x18 function selected above 24 8 Math 1 to 24 0 to 16 0 3524 0x7D 25013 uint SZ C Source Zone C offset 70 125 RWES Set the zone of the function 1to 0x18 selected above 24 OxD 13 Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear PU el Watlow EZ ZONE RMS Module e 75 Chapter 4 Setup Page RM Scanner Module Setup Page CIP Data Modbus Class Type Display jo ebd d Range Default Relative Instance iis inn Ee pron Address Attribute body Read hex dec Write Math 1 to 24 non E None 61 None 3506 Ox7D 25004 uint SFn d Source Function D A Analog Input 142 offset 70 125 RWES Set the type of function CUr r Current 22 1to 0x18 that will be used for this CPF Cool Power Control 24 source Loop 161 4 hP re Heat Power Control Loop 160 PL ur Power Control Loop 73 Lor Linearization 238 PARE Math 240 Pu Process Value 241 GPC Set Point Closed C
165. lay Parameter Name Description Range Default Modbus Relative Address CIP Class Instance Attribute hex dec Profibus Index Parameter ID Data Type Read Write SFah SFn h Logic 1 to 24 Source Function H Set the type of function that will be used for this Source non E None 61 ALPA Alarm 6 CPE Compare 230 Ct Counter 231 d o Digital I O 1142 Ent A Profile Event Out A 233 Ent b 234 Entl 235 Profile Event Out B Profile Event Out C Profile Event Out D Profile Event Out E Profile Event Out F Profile Event Out G Profile Event Out H Function Key 1001 Limit 126 Logic 239 Special Function Out 1532 Special Function Out 1533 Special Function Out 1534 Special Function Out 1535 Timer 244 Variable 245 None 6314 offset 80 Ox7F 127 1 to 0x18 24 8 27008 uint RWES Logic 1 to 24 Source Instance H Set the instance of the function selected above 6330 offset 80 Ox7F 127 1 to 0x18 24 0x10 16 27016 uint RWES Logic 1 to 24 Source Zone H Set the zone of the function selected above 0 to 16 6346 offset 80 Ox7F 127 1 to 0x18 24 0x18 24 27024 uint RWES Ec h Er h Logic 1 to 24 Error Handling Select output value and er ror out
166. le Status Slot A B D or E Protocol Standard Bus red or Modbus green Module outputs 1 through 16 all may or may not be used depend ing on module type Watlow EZ ZONE RMS Module Chapter 1 Overview Getting Started Quickly Consider taking the following steps to quickly com mission your control Wire and connect the power source to the control Wire and connect input and output devices to the control Power up the control and navigate to the Setup Page to configure inputs outputs adjust set points alarms etc The RMS controller has a page and menu structure that is listed below along with a brief description of its purpose The menu structure can be easily seen and navigated using EZ ZONE Configurator soft ware or the Remote User Interface RUD Note The menu navigation as described below applies when the RMS is connected to the RUI which is op tional equipment Setup Page Using the RUI push and hold the up and down keys O O for 6 seconds to enter See the Setup Page for fur ther information A user would want to setup their control prior to operation As an ex ample define the input type alarm sides high and or low or set the output function Operations Page Using the RUI push and hold the up and down keys O O for 3 seconds to enter See the Op erations Page for further information After setting up the control to reflect your equipment t
167. liance 2004 108 EC Electromagnetic Compatibility Directive EN 61326 1 2006 Electrical equipment for measurement control and laboratory use EMC requirements Industrial Immunity Class A Emissions Not for use in a Class B environment without additional filtering EN 61000 4 2 1996 A1 A2 2001 Electrostatic Discharge Immunity EN 61000 4 3 2006 Radiated Field Immunity EN 61000 4 4 2004 Electrical Fast Transient Burst Immunity EN 61000 4 5 2006 Surge Immunity EN 61000 4 6 1996 A1 A2 A3 2005 Conducted Immunity EN 61000 4 11 2004 Voltage Dips Short Interruptions and Voltage Variations Immunity EN 61000 3 2 2005 Harmonic Current Emissions EN 61000 3 3 2005 Voltage Fluctuations and Flicker SEMI F47 2000 Specification for Semiconductor Sag Immunity Figure R1 1 NOTE 1 To comply with flicker requirements cycle time may need to be up to 160 seconds if load current is at 15A or the maximum source impedance needs to be lt 0 130 Control power input of RM models comply with 61000 3 3 requirements 2006 95 EC Low Voltage Directive EN 61010 1 2001 Safety Requirements of electrical equipment for measurement control and laboratory use Part 1 General requirements Compliant with 2002 95 EC RoHS Directive p Per 2002 96 EC W E E E Directive Please Recycle Properly Raymond D Feller III Winona Minnesota USA March 2010 Name of Authorized Representative Place of Issue Date of Issue General Manager 5 IL IE Title of Au
168. lide the modules together until they touch Refer to steps 1 amp 2 above When the multi module system is attached and SIIIIE laterally positioned to the desired placement the lock ec Seer ing tab should be engaged to secure the control system L AS to the rail Refer to step 3 above Module Installation In the picture to the right notice that the arrow is pointing at the top lip of the module on side When in stalling the module simply slide this lip over the top of the Modular Backplane Connector and then push down on the rear of the module where it will seat on the two posts just above the green connector Watlow EZ ZONE9 RMS Module e 16 Chapter 2 Install and Wire Module Removal To remove a module from the Modular Backplane Connector find the red tab protruding from the bottom of the module and pull back on it as shown to the right While pulling back on the red tab the two mounting posts will re lease the module where the mod ule can then be lifted up and out of the Modular Backplane Con nector Removal of the Modular Back plane Connector A module can be removed from the Modular Backplane Connector by inserting a screw driver into the red locking tab just behind the green connector and applying downward pressure on the tab by lifting the screwdriver upwards When released the tab will move downward and the connector can then be lifted up off of the DIN rail NUTS Watlow EZ ZONE RMS
169. ll take the user on line After clicking the next button above it is necessary to define the communications port on the PC to use amp Watlow EZ ZONE CONFIGURA Select a Communications Port If you don t know which communications port on your computer is connected to the EZ ZONE device EZ ZONE CONFIGURATOR can search for you With which Communications Port do you want to communicate Help Advanced The available options allow the user to select Try them all or to use a specific known communications port After installation of your converter if you are not sure which communications port was allocated select Try them all and then click next The screen to follow shows that the software is scanning for devices on the network and that progress is being made Cancel Scan Network for EZ ZONE device When the EZ ZONE device that you want to configure appears in the list select it and click Next Available EZ ZONE Devices When complete the software will display all of the available devices found on the network as shown be low Scan Network for EZ ZONE device 03754 When the EZ ZONE device that you wart to configure appears m the list select it and click Next Awpileble E2 ZONE Devices Pot press Devce Nare Modei Munter Sorat Num COMS EZZnne M RMER CIOKA AAAA COMS 8 EF Zone M AMCTESFIEIEATAA 2 COME 8 E727 RM RMC3O1DSLACF1AA COMS 12 EZZONERM RAMLA COMS 17 EZ
170. ll values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear iva el Watlow EZ ZONE RMS Module e 63 o Chapter 4 Setup Page RM Scanner Module Setup Page CIP Data Modbus Class 2 Type Display jo desi e Range Default Relative Instance eae Ae amp pron Address Attribute bus Read hex dec Write Counter Menu Counter 1 to 24 Up 1456 Up 9196 0x82 130 30009 uint Fn Function Down 1457 offset 40 1 to 0x18 RWES Set whether the counter in 24 crements or decrements the 9 count value Decrementing 0 returns 9 999 Increment ing 9 999 returns 0 Counter 1 to 24 no n E None 61 None 9180 0x82 130 30001 uint SFn A Source Function A ALP Alarm 6 offset 40 1 to 0x18 RWES Set the type of function CPE Compare 230 24 that will be used for the 1 counter clock signal CE c Counter 231 d o Digital I O 1142 Ent RJ Profile Event Out A 233 En t 5 Profile Event Out B 234 Ent C Profile Event Out C 235 Ent Profile Event Out D 236 Ent Profile Event Out E 247 EntF Profile Event Out F 248 Ent 3 Profile Event Out G 249 Ent Profile Event Out H 250 FUn Function Key 1001 L 9C Logic 239 EP 1 Timer 244 vAr Variable 245 Counter 1 to 24
171. llow Source A Chapter 6 Features Cx am By Os 4 NACH EREEREER Source Function A gt Source Instance A Source Value A 223 Source eror Source Value B Source Function B Sours VITUSD gt Source Instance B Source Value D Source Zone B gt Source Error B Source Function C gt Source Instance C Source Zone C Process Value Source Error C Add Source Function D gt Source Instance D Source Zone D gt Source Error D Output Value Error Vide gt E Output Value Filter A B C D Offset Display units follows last temperature source else follow Source A e Uo O 5 Li LR Xo to Sex poy yd yyy Source Function A gt Source Instance A Source Value A Source Value B Source Error A Source Value C Source Function B gt Source Instance B Source Zone B Source Error B Source Value D Source Function C gt Source Instance C Source Zone C Process Value Source Error C 5 5 Absolute ource Function Source Instance D Difference Source Zone D Source Error D Output Value Error gt rc E Output Value Filter A B Offset Display units follow Source A plus relative Source B Watlow EZ ZONE9 RMS Module 98 u C 2 4 O ro Beg poy vid Source Function A gt Source Instance A Source Value A NET ET So
172. loops Warning Open Collector Wiring Example Using DO 1 12 Power Supply 5 to 32 VDC Collector Outputs e Fuse VA An example fuse is Bussmann AGC 1 1 2 Diode i 5 es Va a Relay D D pJ Internal Supply Internal Circuitry As an open collector output see graphic below use an external power sup ply with the negative wired to B_ the positive to the coil of a pilot mechani cal relay and the other side of the coil wired to the output of choice D Each open collector output can sink 1 5 A with the total for all open collector outputs not exceeding 8 amperes Ensure that a kickback diode is reversed wired across the relay coil to prevent damage to the internal transistor Explosion Hazard Substitution of component may impair suitability for CLASS I DIVISION 2 N Explosion Hazard Do not disconnect while the circuit is live or unless the area is known to be free of ignitable concentrations of flammable sub stances Warning Suppressor Note Switching pilot duty inductive loads relay coils solenoids etc with the mechanical relay solid state relay or open collector output options requires use of an R C suppressor for AC load or a diode for a DC load Watlow EZ ZONE9 RMS Module Output 1 4 and 7 10 Mechanical Relay Form A RMS Part Digit 7 8 is J e 5 A at 240V ac or 30V
173. lowing e None Open Shorted Measurement Error Bad Cal Data Ambient Error RTD Error Fail Math Error Not Sourced Stale Source Function A Source Instance A Source Value A 2 Source Zone A Source Value B 9 gt Source Error A Rog on O Compare o Zo Source Function B Equal To 1 Source Instance B Source Zone B Output Value gt Source Function A gt Source Error B Error l gt Source Instance A Source Value A gt Source Zone A Source Value B gt A B Output Value ON gt Source Error A Compare Source Function B Off gt Source Instance B Source Zone B Output Value gt gt Source Error B Error gt No Compare Output Value OFF Watlow EZ ZONE RMS Module e 118 Chapter 6 Features A 2 Rox oo Xe NN QD VQ Yo X C ww ER Source Function A Source Instance A Source Zone A Source Error A Source Function B Source Instance B Source Zone B Source Error B A not equal B Output Value ON Source Value A gt Source Value B gt Compare Not Equal To Output Value gt Error p gt o ey Cog ry Lap o Ro Q Ge S E Source Function A Custom Function amp amp Q SK M M e D Custom Overview Instances 30 per RMS F Ac E Factory Page CUSE Custom Menu Parameter None Process Calibration Offset Display Units User
174. lue gt Process amp Potentiometer Error gt Be He Cp Dy Co 2o RU by iow b Ou 6 amp e Soy y KA K A MN Analog Input Analog Input Value gt Analog Input Thermistor pee lie C D de Cis ayo Pe Soy br Le e Rp pelo e s L 2 Op E M A ed Ore E lon p O Sox Sg gt Analog Input Analog Input RTD Analog Input Value Error 94 o Chapter 6 Features Process Value Function The Process Value PV function block accepts multiple in puts and performs a programmed math function to derive an output value with Filter and Offset values applied It is assumed that no input error conditions apply Some PV operations must be performed in the user s units Func tions may combine multiple inputs Those inputs may have incompatible units from a logical point of view As a result unless otherwise indicated the presentation of the output value is the same as Source A This accommodates tem peratures being multiplied divided and offset by constants and process inputs Only inputs that have a source associ ated to them are used in the calculations An error when read can indicate any of the following None Open Shorted Measurement Error Bad Cal Data Ambient Error RTD Error Fail Math Error Not Sourced Stale ep NGA ey BD PEOR lox O E O C 8s Bx Or Z CSS 2 Oxy Mang cy Mig i Ua NET poy vd i Source Function A gt Source Instance A Source Value A Value B Sou
175. mbers Slot C e 20 4 to 30 8 V ac de 14VA 9 47 to 63 Hz Controller module power consumption 7 Watts maxi mum SESE S e 31 Watts maximum power available for P S part 0847 0299 0000 98 99 60 Watts maximum power available for P S part i j i i W h 0847 0300 0000 A JEAN 91 Watts maximum power available for P S part E 0847 0301 0000 5 Class 2 or SELV power source required to meet UL compliance standards Communications RMS Part Digit 10 is A Slot C CF CD CE Standard Bus EIA485 Communications CZ CX CY Inter module Bus EIA485 Communica 369608 tions BEEN Do not route network wires with power wires Connect CF CD CE CZ CX CY network wires in daisy chain fashion when connecting i ji 731 iT multiple devices in a network soel E fb g JEU 5 pe Communications RMS Part Digit 10 is 1 Slot C CC CA CB Modbus and Standard Bus EIA 485 CS CCS CCS CCS CN Communications selectable via push button under J AD em YA AA NS d CC CA CB CZ CX CY Uouiulo snqpoyw u L a L UOI i sng jnpow 4 u 1 zone address CZ CX CY Inter module Bus EIA 485 Communica tions Do not route network wires with power wires Con nect network wires in daisy chain fashion when con necting multiple devices in a network Inputs 1 thr
176. mpare Counter Digital O Profile Event Output A H Function Key Linearization Logic Math Process Value Special Output Function 1 4 Timer Variable Off Indicates Zone Address o0 o Push to select Zone en Address and Protocol Card Status Slots A B D E Indicates communications activity Modbus or Stand ard Bus Indicates I O Status Watlow EZ ZONE RMS Module Chapter 1 Overview EZ ZONE RMS Module System Diagram 8 Scanner Channels Slots A B 6 Digital I O Slot D 4 Form A Mechanical Relays Slot E RMSx 1 22 12 CJ AAAA Input Function Input Sensor Analog Input 1 through 8 None Thermocouple 2 Wire RTD 100 1k Thermistor 5k 10K 20k 40k Process V mV mA or 1K Potentiometer Input Device RUI PC PLC or HMI H Other RM Modules m f Power Supply Digital Input 1 2 3 4 5 or 6 Switch contact or volts dc IN EIA 485 Communications Standard Bus optional Modbus RTU Inter module Bus 20 4 to 30 8 Vac oe Vde P Some input output combinations not possible see ordering matrix Alarms Slot A B 6 Digital Inputs Outputs any combination Slot D a5 4 Mechanical Relay Outputs Form A Slot E Modbus RTU Address 1 16 Standard Bus Zone 1 16 Supervisory amp Power B
177. n Assembly Definition Address its cor responding working address will return that param eter s actual value If it s a writable parameter writ ing to its working register will change the param eter s actual value As an example Modbus register 410 contains the Analog Input 1 Process Value See Operations Page Analog Input Menu If the value 410 is loaded into Assembly Definition Address 91 the process value sensed by analog input 1 will also be stored in Mod bus registers 250 and 251 Note that by default all registers are set to Hardware ID The table See Appendix Modbus Programmable Memory Blocks identified as Assembly Definition Addresses and Assembly Working Addresses reflects the assemblies and their associated addresses Chapter 6 Features Software Configuration Using EZ ZONE Configurator Software To enable a user to configure the RMS control using a personal computer PC Watlow has provided free software for your use If you have not yet obtained a copy of this software insert the CD Controller Sup port Tools into your CD drive and install the soft ware Alternatively if you are viewing this document electronically and have a connection to the internet simply click on the link below and download the soft ware from the Watlow web site free of charge http www watlow com products software zone_config cfm Once the software is installed double click on the EZ ZONE Configurator icon placed on your desktop
178. n Latching Latching Alarm Blocking Off Startup Set Point Both Alarm Silencing Off On Alarm Display Off On A d L Alarm Delay Time 0 to 9 999 seconds RCL c Alarm Clear Request Ignore Clear R5 Alarm Silence Request Ignore Silence R5 t Alarm State Startup None Blocked Alarm Low Alarm High Error ALF Alarm Menu o PE c Operation Page AL o Alarm Low Set Point 1 999 000 to 9 999 000 Ah Alarm High Set Point 1 999 000 to 9 999 000 ACL c Alarm Clear Request Ignore Clear AS c Alarm Silence Request Ignore Silence R5 t Alarm State Startup None Blocked Alarm Low Alarm High Error The alarm function causes outputs to change state when Alarm Source exceeds alarm set points W 2p e ee ee ee gt Alarm Source Alarm Source Instance Alarm State __ Alarm Source Zone p Alarm Source Error gt gt gt Control Loop gt Alarm Error t gt off Output Value gt If Alarm Type Off Output Value Off If Alarm State None Alarm Indication None_ 101 Chapter 6 Features Digital Input Output Function K KA Q U Vo y R ZE SR P T PON i Uae ESOS Note Soy o Ra A Kt loz 2 x ios Otay S OON Input Value is passed to either profile event inputs or ac IN ley t P i NK OT SN Cy SON tion function blocks yey ed yt _ Alarm Source Alarm State Alarm Sourc
179. n Menu 37 57 L oC Security Setting Menu 81 co N L o CL Locked Access Level 82 L o Lo Lock Operations Page 81 88 LoLl P Lock Profiling Page 81 82 88 PARE Math Menu 41 74 Ph L Modbus Word Order 79 PAu Electrical Measurement 83 c1 8 n U S Non volatile Save 79 o C E Output Control 52 55 oF SE PV Offset 35 oh 1 Output High Power Scale 52 55 o L o Output Low Power Scale 52 55 o t b Output Time Base 52 55 o t PE Output Menu 54 PA Parity 79 PR5S8BR Administrator Password 82 PRSE Password Enable 81 PRS5 Password 82 PA S u User Password 82 PEE Process Error Enable 45 PEL Process Error Low 46 Pa Part Number 83 Punt Pressure Units 44 50 Pu Process Value Menu 47 r Eu Software Revision 83 c h_ Range High 45 86 r L o Range Low 45 86 el of Read Lockout Security 81 8 Rolling Password 82 RTD Leads 45 Software Build 83 Sensor Type 45 86 Source Function A 55 Scale High 45 86 Scale Low 45 86 Set Lockout Security 82 88 Serial Number 83 Source Value A 34 Source Value B 34 35 Timer Menu 38 61 Unlock 80 User Restore Set 78 85 User Save Set 78 85 Variable Menu 78 Oo o r n nr m aaa rr 73 3 3 St C d AC Line Frequency 78 Action Function 103 Action Menu 35 52 e 127 Ad
180. nction block Celo Analog Input 1 to 16 1 999 000 to 9 999 000 0 0 412 0x68 104 8 4017 float r Lo Range Low offset 90 1 to 0x10 RWE Set the low range for this 16 function block s output 0x11 17 Crh Analog Input 1 to 16 1 999 000 to 9 999 000 9 999 0 414 0x68 104 9 4018 float r hi Range High offset 90 1 to 0x10 RWE Set the high range for this 16 function block s output 0x12 18 PEE Analog Input 1 to 16 Off 62 Off 438 0x68 104 10 4030 uint PEE Process Error Enable Lob Low 53 offset 90 1 to 0x10 RWE Turn the Process Error 16 Low feature on or off Ox1E 30 Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear ne Watlow EZ ZONE RMS Module e 45 Chapter 4 Setup Page RM Scanner Module Setup Page CIP Data Modbus Class h Type Display eE ate Range Default Relative Instance iden E amp p Address Attribute Read hex dec Write Analog Input 1 to 16 100 0 to 1 000 0 0 0 440 0x68 104 11 4031 float PEL Process Error Low Value offset 90 1 to 0x10 RWE If the process value drops 16 below this value it will Ox1F 31 trigger an input error Analog Inpu
181. nction that will Au 9 Average 1367 1 to 0x10 be applied to the source or C o Crossover 1368 16 Sources b Ub Wet Bulb Dry Bulb 0x15 21 1369 56 Switch Over 1370 d FF Differential 1373 r AE Ratio 1374 Add Add 1375 PuL Multiply 1376 Ad F Absolute Difference 1377 P an Minimum 1378 PAA Maximum 1379 r oot Square Root 1380 uSLR Vaisala RH Compen sation 1648 ALE Pressure to Altitude 1649 SF nA Process Value 1 to 16 A Analog Input 142 None 5180 Ox 7E 26001 uint SFn A Source Function A Pu Process Value 241 offset 70 126 RWES Set the type of function 1 to 0x10 that will be used for this 16 source 1 C 5 1A Process Value 1 to 16 1to 16 Based on 5190 Ox7E 26006 uint Si A Source Instance A PV in offset 70 126 RWES Set the instance of the stance 1 to 0x10 function selected above 16 6 SF nb Process Value 1 to 16 None 61 None 5182 0x7D 26002 uint SFn b Source Function B Analog Input 142 offset 70 0x7E RWES Set the type of function Lar Linearization 238 126 bd ig be used for this AE Math 240 1 p Process Value 241 2 Variable 245 5 4b Process Value 1 to 16 1 to 24 1 5192 Ox 7E 26007 uint Si b Source Instance B offset 70 126 RWES Set the instance of the 1 to 0x10 function selected above 16 7 5gb Process Value 1 to 16 0 to 16 0 5202 Ox 7E 26012 uint SZ b Source Zone B offset 70 126
182. ne Analog Input Current Cool Power Heat Power Power Linearization Math Process Value Set Point Closed Set Point Open Variable S A Source Instance A 1 to 24 SZA Source Zone A 0 to 16 Un E Units Source None Absolute Temperature Relative Temperature Power Process Relative Humidity 1P_1 Input Point 1 1 999 000 to 9 999 000 o P 1 Output Point 1 1 999 000 to 9 999 000 P2 Input Point 2 1 999 000 to 9 999 000 Output Point 2 1 999 000 to 9 999 000 Input Point 3 1 999 000 to 9 999 000 Output Point 3 1 999 000 to 9 999 000 Input Point 4 1 999 000 to 9 999 000 Output Point 4 1 999 000 to 9 999 000 Input Point 5 1 999 000 to 9 999 000 Output Point 5 1 999 000 to 9 999 000 Input Point 6 1 999 000 to 9 999 000 Output Point 6 1 999 000 to 9 999 000 Input Point 7 1 999 000 to 9 999 000 Output Point 7 1 999 000 to 9 999 000 Input Point 8 1 999 000 to 9 999 000 Output Point 8 1 999 000 to 9 999 000 Input Point 9 1 999 000 to 9 999 000 d Output Point 9 1 999 000 to 9 999 000 CPO Input Point 10 1 999 000 to 9 999 000 o P 10 Output Point 10 1 999 000 to 9 999 000 o P4 385 TERE E o TE Lar Linearization Menu loPE c Operation Page SuA Source Value A 1 999 000 to 9 999 000 oF St Offset 1 999 000 to 9 999 000 ow Output Value 1 999 000 to 9 999 000
183. ne E Source Error E Source Function F Source Instance F Source Zone F Source Error F Source Function G Source Instance G Source Zone G Source Error G Source Function H Source Instance H Source Zone H Source Error H Source Value A Source Value B Source Value C Source Value D Source Value E Source Value F Source Value G Source Value H Logic Not Equal Output Value Error yrydyd dd gt t gt IfAzBzCzDzEzFzGzHthen ON Function Error Handling Source Function A Source Instance A Source Zone A Source Error A Source Function B Source Instance B Source Zone B Source Error B Source Function C Source Instance C Source Zone C Source Error C Source Function D Source Instance D Source Zone D Source Error D Source Function E Source Instance E Source Zone E Source Error E Source Function F Source Instance F Source Zone F Source Error F Source Function G Source Instance G Source Zone G Source Error G Source Function H Source Instance H Source Zone H Source Error H Source Value A Source Value B Source Value C Source Value D Source Value E Source Value F Source Value G Source Value H Logic Equal Output Value Error TEREREF t gt Function Error Handling gt Source Function A Source Instance A Source Zone A Source Error A Source Function B Source Instance B Source Zone B Source Error B Source Value A
184. ntered push and hold the Infinity key for two seconds to return to the Home Page b If the Rolling Password r o L L was turned on proceed on through steps 3 9 3 Assuming the Code C o d E prompt Public Key is still visible on the face of the control simply push the Advance key to proceed to the Password P 8 55 prompt If not find your way back to the Factory Page as described above 4 Execute the calculation defined below 7b or 8b for either the User or Administrator 5 Enter the result of the calculation in the upper display play by using the Up O and Down Q arrow keys or use EZ ZONE Confgurator Software 6 Exit the Factory Page by pushing and holding the Infinity key for two seconds Formulas used by the User and the Administrator to calculate the Password follows Chapter 6 Features Passwords equal 7 User a If Rolling Password r oL L is Off Password PASS equals User Password P A 5 b If Rolling Password r o L L is On Password PASS equals P R5 x code Mod 929 70 8 Administrator a If Rolling Password r oL L is Off Password PASS equals User Password P R 5 8 b If Rolling Password r oL L is On Password PASS equals P85 8 x code Mod 997 1000 Differences Between a User Without Password User With Password and Administrator User without a password is restricted by the Locked Access Level L o L A User with a password is restricted by th
185. o 24 Source Function C Set the type of function that will be used for this Source non E None 61 ALP Alarm 6 CPE Compare 230 CE Counter 231 d o Digital I O 1142 En tA Profile Event Out A Ent Profile Event Out B Ent Profile Event Out C Ent Profile Event Out D En E E Profile Event Out E EntF Profile Event Out F Ent Profile Event Out G Ent Profile Event Out H F Un Function Key 1001 L P9 Limit 126 L 9C Logic 239 Special Function Ou 1532 Special Function Ou 1533 Special Function Ou 1534 o m ov m amp Fu o Z m amp ly t ue amp et oo o m lt Special Function Ou 1535 Timer 244 g i ect A rr 73 3 3 Variable 245 C zo 3 t t t t None 6304 offset 80 Ox7F 127 1 to 0x18 24 3 27003 uint RWES Logic 1 to 24 Source Instance C Set the instance of the function selected above 6320 offset 80 Ox7F 127 1 to 0x18 24 OxB 11 27011 uint RWES Logic 1 to 24 Source Zone C Set the zone of the function selected above 0 to 16 6336 offset 80 Ox7F 127 1 to 0x18 24 0x13 19 27019 uint RWES Note Some values will be rounded off to fit in the four character display Full values can be read with other interfa
186. oard Slot C Output Function Analog Input Alarm Cool Power Heat Power Compare Counter Digital O Profile Event Output A H Function Key Linearization Logic Math Process Value Special Output Function 1 4 Timer Variable Off Output 1 2 3 4 5 or 6 switched dc open collector Output 7 8 9 10 5A Mechanical Relay Form A Zone and Status LED Indicates Zone p Address Zone Selection Push to select Zone m Address and Protocol Card Status Q o Slots A B D E Indicates communications e M p activity Modbus or Stand ard Bus Indicates I O Status Output Status LEDs Watlow EZ ZONE9 RMS Module s 0 x Chapter 1 Overview Input Function Input Sensor Input Device EZ ZONE RMS Module System Diagram 8 Scanner Channels Slots A B 6 Digital I O Slot D 6 Digital I O Slot E RMSx 1 2 1 22 CC AAAA N Analog Input 1 through 8 None Thermocouple 2 Wire RTD 100 1k Thermistor 5k 10K 20k 40k Process V mV mA or 1K Potentiometer Digital Input 1 2 3 4 5 6 Switch contact or volts dc Input Device Digital Input 7 8 9 10 11 12 Switch contact or volts dc RUI PC PLC or HMI Other RM Modules f aiiis aii Power Supply i EIA 485 Communications Standard Bus optional Modbus RTU ro mno Inter module Bus 20 4 to 3
187. odules would not be possible RM Controller Module RMO xooooxxxAxx RMSxoooo xAxx RMAX xxxx xxx SlotD Slot SlotD Slote SlotD Slot E RM Scanner RM Access Module Standard Bus Standard Bus essi dress 3 Ad S Address2 Adi Slot A SlotB siota SlotB siota Low Voltage Inter module lass 2 Power Supply Split Rail Configuration RM Expansion Module RMO ooooooxAxx RMEX XXXX XXXX siexp Slot slot Slot E RM Controller Module Standard Bus Standard Bus Note Unit is not provided with a disconnect use of an external disconnect is required It should be located in close proximity to the unit and be labeled as the disconnect for the unit Chapter 2 Install and Wire Conventions Used in the Menu Pages To better understand the menu pages that follow review the naming conventions used When encoun tered throughout this document the word default implies as shipped from the factory Each page Op erations Setup and Factory and their associated menus have identical headers defined below Visually displayed infor Display mation from the control Describes the function of Parameter Name the given parameter Defines options available for this prompt i e min max values numerical yes no etc further ex planation below
188. ointer 27 20 amp 1 Hardware ID Value of Pointer 27 Registers 94 amp 95 Registers 254 amp 256 Pointer 28 0 amp 1 Hardware ID Value of Pointer 28 Registers 96 amp 97 Registers 256 amp 257 Pointer 29 0 amp 1 Hardware ID Value of Pointer 29 Registers 98 amp 99 Registers 258 amp 259 Pointer 30 0 amp 1 Hardware ID Value of Pointer 30 Registers 100 amp 101 Registers 260 amp 261 Pointer 31 2 0 amp 1 Hardware ID Value of Pointer 31 Registers 102 amp 103 Registers 262 amp 263 Pointer 32 0 amp 1 Hardware ID Value of Pointer 32 Registers 104 amp 105 Registers 264 amp 265 Pointer 33 2 0 amp 1 Hardware ID Value of Pointer 33 Registers 106 amp 107 Registers 266 amp 267 Pointer 34 0 amp 1 Hardware ID Value of Pointer 34 Registers 108 amp 109 Registers 268 amp 269 Pointer 35 0 amp 1 Hardware ID Value of Pointer 35 Registers 110 amp 111 Registers 270 amp 271 Pointer 36 0 amp 1 Hardware ID Value of Pointer 36 Registers 112 amp 113 Registers 272 amp 273 Pointer 37 20 amp 1 Hardware ID Value of Pointer 37 Registers 114 amp 115
189. ol iem 5 o Ele E c E MES Ela M oo NIT o 47 O5 O0 95 5 9 EE El ES UN E AN P NN m 9 6 x l 6 eio 1 l V sol YV wv A KCN L N L N Y 7 Ca i m cy 5 6 qo s5 g E GE L LA E j o i o Rl Sla xe tio Power Supply Specifications DSP1 00 DSP 30 DSP 60 DSP 100 90 264VAC Class II double in k 89 9 mm o Sim erts u VAC sulated No ground connection 3 539 in 2 236 in required 1234 49 00 mm Input Fre 7 1 929 in quency Hz 4T 63Hz Aeg ADI tia DC Input Volt 000 P VDC 120 370VDC age range T J NF Inrush Cur rent 115 A 25 50A 30 60A 30 60A L 230VAC ES peto Output Volt E utput Volt g g DC OK m 1 age Accuracy 1 of Nominal Eu N Over voltage Protection v 120 145 DSP100 c ES LED Indica PC Green LED On Red LED DC Sg tors Output Low aP Operating noun 25 to 71 C Derate linearly l Temperature 2 5 C from 55 to 71 C Storage Tem D is EUM A 25 to 85 C O Je d i 5 5 6 Eoo 20 95 RH non condensing E IEC 60068 2 6 Mounting by rail gE m Vibration Op Random wave 10 500 Hz 2G ea o9 erating man along X Y Z axes 10 min cycle 3s 60 min Safety Agency UL1310 Class 2 1 UL508 Listed Approvals UL60950 1 EN60950 1 CE For a comprehensive listing of these specifications point your browser to http us tdk lambda com lp products dsp series htm Watlow EZ
190. on of component may impair suitability for CLASS I DIVISION 2 A Explosion Hazard Do not disconnect while the circuit is live or unless the area is known to be free of ignitable concentrations of flammable sub stances Warning Warning Suppressor Note Switching pilot duty inductive loads relay coils solenoids etc with the mechanical relay solid state relay or open collector output options requires use of an R C suppressor for AC load or a diode for a DC load Watlow EZ ZONE RMS Module e 25 o Digital Outputs 1 12 RMS Part Digit 7 8 is C Slot D E e Maximum switched volt Open Collector Switched p Emman age is 32V dc DC Outputs open collector switched dc D nternal supply provides i D open collector switched de a constant power out D open collector switched de put of 750mW D open collector switched dc e Maximum output sink p pen collector switched de current per output is i open collector switched dc 15A external class 2 or D AA SELV supply required i z Internal Supply r Total sink current for all outputs not to exceed 8A Do not connect outputs in LEl parallel Slt DDO 1 6 RMSx xx C x xxxx Slot E DO 7 12 RMSx xxx C xxxx Saftey Extra Low Voltage Switched DC Wiring Example Using DO 1 12 Collector Outputs Q o 3 3 o 3
191. ontrol Loop 242 SPo Set Point Open Con trol Loop 248 uic Variable 245 Math 1 to 24 1 to 24 1 3516 0x7D 25009 uint Si d Source Instance D offset 70 125 RWES Set the instance of the 1 to 0x18 function selected above 24 9 Sed Math 1 to 24 0 to 16 0 3526 0x7D 25014 uint SZ d Source Zone D offset 70 125 RWES Set the zone of the function 1 to 0x18 selected above 24 OxE 14 Math 1 to 24 nonE None 61 None 3508 0x7D 25005 uint SFn E Source Function E ALP Alarm 6 offset 70 125 RWES Set the type of function CPE Compare 230 1to 0x18 that will be used for this 24 Round Ct Counter 231 5 d o Digital I O 1142 EntAl Profile Event Out A 233 Ent Profile Event Out B 234 En t C Profile Event Out C 235 EnL d Profile Event Out D 236 Ent E Profile Event Out E 247 EntF Profile Event Out F 248 Ent Profile Event Out G 249 EntA Profile Event Out H 250 FUn Function Key 1001 L 9C Logic 239 Ef 1 Timer 244 uf Variable 245 Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear une Watlow EZ ZONE RMS Module 76 Chapter 4 Setup Page RM Scanner Module e Setup Page
192. or inputs without control loops A None 4 Universal inputs t c 2 wire RTD 0 10Vdc 0 20mA 1K pot entiometer without control loops 4 Thermistor inputs without control loops 4 Mechanical relay 5A Form A 6 Digital I O A None 4 Universal inputs t c 2 wire RTD 0 10Vdc 0 20mA 1K pot entiometer without control loops 4 Thermistor inputs without control loops 4 Mechanical relay 5A Form A 6 Digital I O 1 Digital I O and 2 5A Mechanical relays 1 Form A and 1 Form C Future Options Digit 9 Enhanced Options Digit A Standard Bus 1 Standard Bus and Modbus RTU 485 selectable via switch Additional Options Digits Firmware Overlays Parameter Settings Standard Replacement connectors hardware only for the entered model number Class 1 Div 2 not available with mechanical relays Custom consult factory Watlow EZ ZONE and TRU TUNE are registered trademarks of Watlow Electric Manufacturing Company UL is a registered trademark of Underwriter s Laboratories Inc Modbus is a registered trademark of Schneider Automation Incorporated ceo ee Q m Additional Watlow EZ ZONE RMS Module e 126 Appendix Index BbL Alarm Blocking 56 88 ACL F AC Line Frequency 78 ALCL c Alarm Clear Request 57 RB CE Action Menu 35 52 A d SPJAlarm Display 57 Eh Alarm High Set Point 36 56 57 87 Ah Y Alarm Hysteresis 56 87 A Analog Input Menu 34 45 am
193. otocol o0 o Card Status Slots A B D E Indicates communications s M activity Modbus or Stand ard Bus Watlow EZ ZONE RMS Module Chapter 1 Overview Input Function EZ ZONE RMS Module System Diagram 8 Scanner Channels Slots A B 4 Form A Mechanical Relays Slot D 6 Digital I O Slot E RMSx R P RP JC AAAA Analog Input 1 through 8 None Thermocouple 2 Wire RTD 100 1k Thermistor 5k 10K 20k 40k Process Input Device V mV mA or 1K Potentiometer Digital Input 7 8 9 10 11 or 12 Switch contact or volts dc RUI PC PLC or HMI Other RM Modules f Power Supply i EIA 485 Communications Standard Bus optional Modbus RTU hk Inter module Bus A 20 4 to 30 8 Vac oe Vde 2 Alarms Slot A B 4 Mechanical Relay Outputs Form A Slot D Output Function Output 1 2 3 4 5A Mechanical Relay Form A 22 6 Digital Inputs Outputs any combination Slot E P b d Modbus RTU Address 1 16 Standard Bus Zone 1 16 Supervisory amp Power Board Slot C Some input output combinations not possible see ordering matrix Output 7 8 9 10 11 or 12 switched dc open collector Zone and Status LED Output Status LEDs Zone Selection Analog Input Alarm Cool Power Heat Power Co
194. ough 16 Thermocouple Slot A B D E S 1 Jm omomomm Watlow EZ ZONE9 RMS Module RMS Part Digits 5 6 7 8 e 2K Q maximum source resistance gt 20 MO input impedance 3 microampere open sensor detection Thermocouples are polarity sensitive The negative lead usually red must be connected to S terminal To reduce errors the extension wire for thermocouples must be of the same alloy as the thermocouple Input 1 4 top to bottom RMSx R xxx xxxx Input 5 8 top to bottom RMSx x R xx xxxx Input 9 12 top to bottom RMSx xx R x xxxx Input 13 16 top to bottom RMSx xxx R xxxx Chapter 2 Install and Wire Warning N Use National Electric NEC or other country specific standard wiring and safety practices when wiring and connecting this controller to a power source and to electrical sensors or pe ripheral devices Failure to do so may result in damage to equipment and property and or injury or loss of life Note Maximum wire size termination and torque rating 0 0507 to 3 30 mm 30 to 12 AWG single wire termination or two 1 31 mm 16 AWG e 0 8 Nm 7 0 in Ib torque Note Adjacent terminals may be labeled differently depending on the model number Note To prevent damage to the controller do not connect wires to unused ter minals Note Maintain electrical isolation between dig
195. ource Function H Source Instance H Source Zone H Source Error H Source Value A Source Value B Source Value C Source Value D Source Value E Source Value F Source Value G Source Value H Logic OR Output Value Error ERES A B C D E F G H ON Function Source Function A Source Instance A Source Zone A Source Error A Source Function B Source Instance B Source Zone B Source Error B Source Function C Source Instance C Source Zone C Source Error C Source Function D Source Instance D Source Zone D Source Error D Source Function E Source Instance E Source Zone E Source Error E Source Function F Source Instance F Source Zone F Source Error F Source Function G Source Instance G Source Zone G Source Error G Source Function H Source Instance H Source Zone H Source Error H Source Value A Source Value B Source Value C Source Value D Source Value E Source Value F Source Value G Source Value H Logic NOR ERES Error Handling Output Value Error p gt A B C D E F G H ON Chapter 6 Features Function Error Handling Source Function A Source Instance A Source Zone A Source Error A Source Function B Source Instance B Source Zone B Source Error B Source Function C Source Instance C Source Zone C Source Error C Source Function D Source Instance D Source Zone D Source Error D Source Function E Source Instance E Source Zo
196. p S Alarm Source Instance 55 At RJ Alarm Latching 56 87 AL 9 Alarm Logic 56 ALF 4D Alarm Menu 36 55 AL o Alarm Low Set Point 36 56 87 fiS dj Alarm Sides 56 AS Alarm Silencing 56 88 AS c Alarm Silence Request 57 R St Alarm State 57 RHiEEna Attention 87 88 At 9j Alarm Type 55 87 Bunt Altitude Units 44 50 77 b AUd Baud Rate 79 b P e Barometric Pressure 50 C _ F Display Units 78 CodE Public Key 82 Cof Communications Menu 79 CPE Compare Menu 38 60 Ct Counter Menu 39 64 CU S E Custom Setup 81 dAt E Date of Manufacture 83 dEC Decimal 46 dEL J Dewpoint 74 d 189 Diagnostics Menu 83 d o Digital Input Output Menu 35 50 d r Direction 50 do Digital Output State 35 dP 5 Display Pairs 44 78 E 45 Event Input Status 35 EL 10 Electrical Input Offset 83 co c1 Electrical Input Slope 83 F Digital Output Function Instance 51 Output Function Instance F t Filter 46 F n Function 47 F n Output Function 54 9L b6L Global Menu 78 C A Calibration Offset 34 46 85 86 E r Input Error Latching 46 r Input Error Status 34 46 PF 4 IP Fixed Address Part 4 78 L 9C Logic Menu 40 66 Watlow EZ ZONE9 RMS Module L in Linearization 45 L nr Linearizatio
197. p Math 24 total Off average process scale deviation scale differential subtrac tion ratio divide add multiply absolute difference min max square root sample and hold Process Value 16 total Off sensor backup average crossover wet dry bulb switch over differential subtraction ratio divide add multiply absolute difference min max square root Timers 24 total On Pulse produces output of fixed time on active edge of timer run signal Delay output is a delayed start of timer run off at same time One Shot oven timer Retentive measures timer run signal output on when accumu lated time exceeds target Variable 24 total User value for digital or analog variable Note These specifications are subject to change without prior notice Appendix EZ ZONE Rail Mount Scanner Module Ordering Information The Scanner module requires a Class 2 or SELV power supply 20 4 to 30 8 V ac dc communication port provided for configuration with EZ ZONE Configurator software Code Number Enhanced Options Right angle screw connector standard pe ee SDA Front screw connector PUA HO UK OK Custom ia secca Slot A Digit 4 Universal inputs t c 2 wire RTD 0 10Vdc 0 20mA 1K pot entiometer without control loops 4 Thermistor inputs without control loops Slot B Digit None 4 Universal inputs t c 2 wire RTD 0 10Vdc 0 20mA 1K pot entiometer without control loops 4 Thermist
198. put state when logic cannot be processed True Good 1476 amp b True Bad 1477 g False Good 1478 Fb False Bad 1479 False Bad 6368 offset 80 Ox7F 127 1 to 0x18 24 0x23 35 27035 uint RWES Note Some values will be rounded off to fit in the four character display Full values can be read with other interfaces If there is only one instance of a menu no submenus will appear R Read W Write E EEPROM S User Set Watlow EZ ZONE RMS Module Chapter 4 Setup Page RM Scanner Module Setup Page CIP Data Modbus Class Type Display jo Eu Range Default Relative Instance eae Ae pron Address Attribute bus Read hex dec Write PARE Math Menu Math 1 to 24 oF Fj Off 62 Off 3540 0x7D 69 25021 uint Fn Function Au 9 Average 1367 offset 70 125 RWES Set the operator that will PSE Process Scale 1371 1 to 0x18 be applied to the sources CIST Deviation Scale 24 1372 0x15 21 5 o Switch Over 1370 d FF Differential 1373 r Ht Ratio 1374 Add Add 1375 PAUL Multiply 1376 Ad F Absolute Difference 1377 P an Minimum 1378 PRAH Maximum 1379 root Square Root 1380 hol d Sample and Hold 1381 ALE Pressure to
199. r Set 2 Factory Logic Function Function Error Handling Source Function A gt Source Instance A Source Zone A Source Error A Source Value A Source Value B Source Value C Source Function B gt Source Instance B Source Zone B gt Source Error B Source Value D Source Value E Source Value F Source Function C gt Source Instance C Source Zone C gt Source Error C Source Value G Vey ddd dd Source Value H Source Function D gt Source Instance D Source Zone D Source Error D Logic Overview Source Function E gt Source Instance E Source Zone E gt Source Error E Instances 24 per RMS Source Function F gt Source Instance F Source Zone F gt Source Error F Source Function G gt Source Instance G Source Zone G gt Source Error G Source Function H gt Source Instance H Source Zone H gt Source Error H Output Value gt Error gt SEE Setup Page CLIC Logic Menu Fa Function Off AND OR Equal To NAND NOR Not Equal To Latch RS Flip Flop SF nA Source Function A None Alarm Compare Counter Digital I O Profile Event Out A to H Function Key Limit Logic Special Function Output 1 to 4 Timer Variable S A Source Instance A 1 to 24 SZA Source Zone A 0 to 16 SF nb Source Function B None Alarm Compare Counter Digital I O Profile Event Out A to H Function Key Limit Logic
200. r of choice Watlow EZ ZONE RMS Module e 93 e Chapter 6 Features Function Block Descriptions Each of the next several pages graphically shows each of the RMS function blocks Note that as you view each you will find text that is black and text that appears gray The gray text represents inputs that are not currently available based on the function s defined use red text For instance when the defined use of the Analog Input function is set for RTD TC Linearization will appear gray Ranges speci fied in units or degrees F if expressed in degrees C range is smaller Analog Input Function Note This Function configures and connects physical inputs to internal functions Control Loop primary source instance must match Process Value or Analog Input instance CN o z Pe NN wai o a KJA KCN Me n o o fep d G7 rapis 2o C C aie frati M on dr Pena i ap n MS gt AnalogInput Analog Input Overview Analog Input Value gt Instances 1 16 per RMS Error bea A Analog Input Menu GEE Setup Page SEn Sensor Type Off Thermocouple Millivolts Volts Milliamps RTD 100 Ohm RTD 1000 Ohm 1K Potentiometer Thermistor ional L n TC Linearization B C D E F J K N R S T Un E Units Absolute Temperature Power Process Relative Humidity S L o Scale Low 100 00 to 1000 00 S 1 Scale High 100 00 to 1000 00 rL o Range Low 1 999 000 to 9 999 000
201. rameter Name Modbus gass Profibus Parameter Type Display Rie Range Default Relative Instance Description s Index ID amp Read Address Attribute B Write hex dec No Dis Math 1 to 24 None 61 3556 0x7D 25029 uint play Error Open 65 offset 70 125 R Read reported cause for Shorted 127 1 to 0x18 logic error Measurement Error 140 Ox ine 9 Bad Cal Data 139 Ambient Error 9 RTD Error 141 Fail 32 Math Error 1423 Not Sourced 246 Stale 1617 Note Some values will be rounded off to fit in the four character display Full values R Read can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear S User Set Watlow EZ ZONE RMS Module Chapter 3 Operations Page 4 Chapter 4 Setup Pages Navigating the Setup Page To navigate to the Setup Page using the RUI follow the steps below 1 From the Home Page press both the Up and Down Q keys for six seconds will appear in the upper display and will appear in the lower display 2 Press the Up O or Down Q key to view available menus 3 Press the Advance Key to enter the menu of choice 4 If a submenu exists more than one instance press Note the Up or Down Q key to select and then press the Advance Key to enter 5 Press the Up or Down Q key to move through available menu prompts 6 Press the Infinity Key to move backwards through the
202. rce Error A Sonte Value gt Source Function B Source Value C gt Source Instance B Source Value D Source Zone B Source Value E gt Source Error B Source Function C gt Source Instance C Source Zone C Process Value gt Source Error C Overview Source Function D Instances 16 per RMS gt Source Instance D Source Zone D gt Source Error D Source Function E gt Source Instance E Output Value Source Zone E Error r gt Source Error E Watlow EZ ZONE RMS Module SEE Setup Page Pu Process Value Menu Function Off Sensor Backup Average Crossover Wet Bulb Dry Bulb Switch Over Differential Ratio Add Multiply Absolute Difference Minimum Maximum Square Root Vaisala RH Compensation Pressure to Altitude Source Function A Analog Input Process Value lo PE c Operation Page Pu Process Value Menu Su A Source Value A 1 999 000 to 9 999 000 S u b Source Value B 1 999 000 to 9 999 000 Su C Source Value C 1 999 000 to 9 999 000 Su d Source Value D 1 999 000 to 9 999 000 Su E Source Value E Off On o u Output Value 1 999 000 to 9 999 000 lo F SE Offset 1 999 000 to 9 999 000 95 o Chapter 6 Features 4i K O ey dy O Cn 2 2 CK 7 M A KA Bey o Ge Ser Source Function A Source Function A gt Source Instance A Source Value A gt gt Source Instance A Source
203. red value from an Note Pressure Altitude calculation is based on the uncompensated Vaisala RH sensor Source B is International Standard Atmosphere 1976 Source A is a temperature Ri the RH sensor in degr CEB F The result pressure signal and needs to be in PSI units for the is a corrected RH measured value This calculation calculation The calculation is accurate from sea level to is effective over the temperature range of 75F to 90 000 feet The standard is based on an altitude of 0 feet 350F sea level pressure of 14 6967 PSI and a temperature of 59 degrees F Result of calculation is in feet Watlow EZ ZONE RMS Module e 99 Chapter 6 Features Linearization Function An error when read can indicate any of the following None Open Shorted Measurement Error Bad Cal Data Ambient Error RTD Error Fail Math Error Not Sourced Stale On 2 J Oye Z Q BA Op 2 0 2 0 Sy y Ut yey Ly ee boy Cag Lo leg Lap hag Ly Peg y ete Loy NCMO Peg Dog up Peg Ring Dus Deg Reg D p blag Reg Mo o ap p UE CUE EB p eg On Oy iy Wing We USUS DAD SS OY Qi Hing Bg ing ae a Cr Oy Mig E E CD C gM gM GM gM ge gM GU GUE SU SI GM ggg tg Lo Sex Source Function A Linearization Source Value A gt Source Instance A Overview Output Val gt Source Zone A Instances 24 per RMS i ene gt Source Error A Error p gt Lar Linearization SEE Setup Page F n Function Off Interpolated Stepped SF nfl Source Function A No
204. rement for that input 8 Calculate the gain value by dividing the low source signal by this value 9 Set Electrical Slope Factory Page Cali bration Menu for this input to the calculated gain value 10 Check the Electrical Measurement to see wheth er it now matches the signal If it doesn t match adjust Electrical Slope again Set Electrical Offset to 0 and Electrical Slope to 1 to restore factory calibration Follow these steps for an RTD input 1 Measure the low source resistance to ensure it is accurate Connect the low source resistance to the input you are calibrating 2 Read the value of Electrical Measurement PIu Factory Page Calibration Menu for that input 3 Calculate the offset value by subtracting this val ue from the low source resistance 4 Set Electrical Input Offset Factory Page Calibration Menu for this input to the offset val ue 5 Check the Electrical Measurement to see whether it now matches the resistance If it doesn t match adjust Electrical Offset again Chapter 6 Features 6 Measure the high source resistance to ensure it is accurate Connect the high source resistance to the input Read the value of Electrical Measurement for that input 8 Calculate the gain value by dividing the low source signal by this value 9 Set Electrical Slope Factory Page Cali bration Menu for this input to the calculated gain value 10 Check the Electrical Measurement to see wheth er
205. resistance or other factors that cause the input read ing to vary from the actual process value B n Analog Input 1 to 16 1 999 000 to 9 999 000 F or 380 0x68 104 0 4001 float Ain Process Value units offset 90 1 to 0x10 R View the process value 1 128 000 to 5 537 000 C 16 1 Analog Input 1 to 16 non E None 61 None 382 0x68 104 1 4002 float i Er Input Error GPE nl Open 65 offset 90 1 to 0x10 R View the cause of the most hr E Shorted 127 16 recent error ENDT Measurement Error 2 140 ECAL Bad Calibration Data 139 E c fib Ambient Error 9 Ec E d RTD Error 141 FR L Fail 32 NSr c Not Sourced 246 Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear gt User et Watlow EZ ZONE RMS Module 46 Chapter 4 Setup Page Setup Page CIP Data Modbus Class Type Display ne Range Default Relative Instance ee ae amp pO Address Attribute ae Read hex dec Write Process Value Menu Fn Process Value 1 to 16 oF F Off 62 Off 5220 Ox7E 64 26021 uint Fn Function 5 6 Sensor Backup 1201 offset 70 126 RWES Set the fu
206. rization 1 to 24 1 999 000 to 9 999 000 F or 6 0 11386 0x86 134 101 34024 float op 7 Output Point 7 units offset 70 1 to 0x18 RWES Set the value that will be 1 128 333 to 5537 223 C 24 mapped to input 7 0x18 24 1PQ Linearization 1 to 24 1 999 000 to 9 999 000 F or 7 0 11368 0x86 134 102 34015 float ip 8 Input Point 8 units offset 70 1to 0x18 RWES Set the value that will be 1 128 333 to 5537 223 C 24 mapped to output 8 OxF 15 oP8 Linearization 1 to 24 1 999 000 to 9 999 000 F or 7 0 11388 0x86 134 103 34025 float op 8 Output Point 8 units offset 70 1 to 0x18 RWES Set the value that will be 1 128 333 to 5537 223 C 24 mapped to input 8 0x19 25 1P 9 Linearization 1 to 24 1 999 000 to 9 999 000 F or 8 0 11370 0x86 134 104 34016 float ip 9 Input Point 9 units offset 70 1 to 0x18 RWES Set the value that will be 1 128 333 to 5537 223 C 24 mapped to output 9 0x10 16 Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear s User et Watlow EZ ZONE RMS Module e 59 e Chapter 4 Setup Page RM Scanner Module Setup Page
207. rough 16 RTD RMS Part Digits 5 6 7 8 Slot A B D E platinum 100 and 1 000 Q 0 C AWG Ohms 1000ft S calibration to DIN curve 0 00385 Q O C 14 2 575 RTD excitation current of 0 09 16 4 094 mA typical Each ohm of lead resistance may affect the reading 18 6 510 by 2 55 C for a 100 ohm platinum 20 10 35 sensor or 2 5 ohms for a 1000 pin iude ohm sensor 22 16 46 Input 1 4 top to bottom RMSx 24 26 17 R xxx xxxx 26 41 62 Input 5 8 top to bottom RMSx x R xx xxxx 28 66 17 2 wire Input 9 12 top to bottom RM RTD Sx xx R x xxxx Input 13 14 top to bottom RMSx xxx R xxxx Watlow EZ ZONE RMS Module e 23 Chapter 2 Install and Wire Inputs 1 through 16 Thermistor Warning A RMS Part Digits 5 6 7 8 Use National Electric NEC or other Slot A B D E gt 20 MO input impedance country specific standard wiring and S Input 1 4 top to bottom RMSx P xxx safety practices when wiring and saa connecting this controller to a power jl R L Input 5 8 top to bottom RMSx x P xx source and to electrical sensors or pe S Xxxx ripheral devices Failure to do so may Input 9
208. ry at a high level After clicking on any of the available pages the sub menus and associated parameters for each will appear as shown above The Page structure as laid out within this software fol lows Setup Operations Factory Navigating from one Page to the next is easy and clearly visible Simply clicking on the plus symbol next to Setup will expand the Setup Page where all of the sub menus will appear next If a vertical scroll bar appears click on the up or down arrow to view all of the available menus on the selected page Once the focus is brought to an individual parameter single click of mouse as is the case for Analog In put 1 in the left column all that can be setup related at the bottom of the center column there is an oper ation to copy settings If Analog Input 1 and 2 are the same type of sensor click on Copy Settings where a copy from to copy to dialog box will appear allowing for quick duplication of all settings Notice too that by clicking on any of those items in the center column that context sensitive help will ap pear for that particular item in the right hand col umn Lastly when the configuration is complete click the Finish button at the bottom right of the previous screen shot The screen that follows this action can be seen below t Watlow EZ ZONE CONFIGURA L Ex Finish Configuring a Device On Line Congratulations you have updated the settings in the device
209. s that affect the input value positive offset increases the input value and a negative offset decreases the input value The input offset value can be viewed or changed with Calibration Offset Operations Page Analog Input Menu Negative Calibration Offset will compensate for the difference between the Sensor Reading and the Actual Temperature W Temperature Reading from Sensor Temperature Actual Process Temperature Time Calibration To calibrate an analog input you will need to provide two electrical signals or resistance loads near the ex tremes of the range that the application is likely to utilize See recommended values below Watlow EZ ZONE RMS Module miamps ooma 29m Follow these steps for a thermocouple or pro cess input 1 Apply the low source signal to the input you are calibrating Measure the signal to ensure it is ac curate 2 Read the value of Electrical Measurement Factory Page Calibration Menu for that input 3 Calculate the offset value by subtracting this val ue from the low source signal 4 Set Electrical Input Offset Factory Page Calibration Menu for this input to the offset val ue 5 Check the Electrical Measurement to see whether it now matches the signal If it doesn t match ad just Electrical Offset again 6 Apply the high source signal to the input Mea sure the signal to ensure it is accurate 7 Read the value of Electrical Measu
210. s will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear teu Watlow EZ ZONE RMS Module e 65 o Chapter 4 Setup Page RM Scanner Module Setup Page Display Parameter Name Description Range Modbus Relative Address Default CIP Class Instance Attribute hex dec Profibus Index Parameter ID Data Type Read Write LIC Logic Menu Fn Logic 1 to 24 Function Set the operator that will be used to compare the sources Off 62 And 1426 Nand 1427 Or 1442 Nor 1443 Equal To 1437 Not Equal To 1438 Latch 1444 RS Flip Flop 1693 off 6364 offset 80 Ox7F 127 1 to 0x18 24 0x21 33 143 27033 uint RWES SFn A Logic 1 to 24 Source Function A Set the type of function that will be used for this source None 61 Alarm 6 Compare 230 Counter 231 Digital I O 1142 Profile Event Out A Profile Event Out B Profile Event Out C Profile Event Out D Profile Event Out E Profile Event Out F Profile Event Out G Profile Event Out H Function Key 1001 Limit 126 Logic 239 Special Funct
211. t 1 to 16 A Curve A 1451 Curve A 454 0x68 104 4038 uint t C Thermistor Curve b Curve B 1452 offset 90 1 to 0x10 RWE Select a curve to apply to C Curve C 1453 16 the thermistor input CUSE Custom 180 0x26 38 r Analog Input 1 to 16 S 5K 1448 40K 452 0x68 104 4037 uint rr Resistance Range 70 10K 1360 offset 90 1 to 0x10 RWE Set the maximum resis 20 20K 1361 16 tance of the thermistor 40 40K 1449 0x25 37 input FL Analog Input 1 to 16 0 0 to 60 0 seconds 0 5 406 0x68 104 12 4014 float FiL Filter offset 90 1 to 0x10 RWE Filtering smooths out the 16 process signal to both the OxE 14 display and the input In crease the time to increase filtering Analog Input 1 to 16 oF F Off 62 Off 434 0x68 104 4028 uint i Er Error Latching en On 63 offset 90 1 to 0x10 RWE Turn input error latching 16 on or off If latching is on Ox1C 28 errors must be manually cleared Analog Input 1 to 16 0 Whole 105 Whole 418 0x68 104 4020 uint dEC Display Precision GG Tenths 94 offset 90 1 to 0x10 RWE Set the precision of the dis Hundredths 40 16 played value 0000 Thousandths 96 0x14 20 Analog Input 1 to 16 1 999 000 to 9 999 000 F or 0 0 402 0x68 104 2 4012 float i CA Calibration Offset units offset 90 1 to 0x10 RWE Offset the input reading to 1 110 555 to 5 555 000 C 16 compensate for lead wire 0x0C 12
212. t Function This function configures and connects physical outputs to internal functions Note Digital Outputs not included on these sheets An error when read can indicate any of the following None Open Shorted Measurement Error Bad Cal Data Ambient Error RTD Error Fail Math Error Not Sourced Stale Output Function Output Function Instance Output Value Output Source Zone Output Source Error gt Error Output Overview Instances 0 to 10 per RMS SEt Setup Page of PE Output Menu F n Output Function Off Analog Input Alarm Cool Power Heat Power Compare Counter Digital I O Profile Event Out A to H Function Key Logic Linearization Math Process Value Special Function Output 1 to 4 Timer Variable Limit F_ Output Function Instance 1 to 24 52 Output Source Zone 0 to 16 o C E Output Control Fixed Time Base Variable Time Base lot b Output Time Base 0 1 to 60 0 seconds o L o Output Low Power Scale 0 to 100 oh Output High Power Scale 0 to 100 lou Output Value On Off Watlow EZ ZONE9 RMS Module Chapter 6 Features Output Function gt Output Function Instance Output Source Zone Output Source Error Output Off Output Value Error gt Output Function gt Output Function Instance Output Source Zone Output Source Error Output Digital Output Value Error gt
213. t Out C 235 Ent Profile Event Out D 236 En t Profile Event Out E 247 En t F Profile Event Out F 248 En tJ Profile Event Out G 249 En t Profile Event Out H 250 F Un Function Key 1001 L 9C Logic 239 oF I Special Function Out put 1 1532 5o F9 Special Function Out put 2 1533 SoF 3 Special Function Out put 3 1534 5o F 4 Special Function Out put 4 1535 EP lc Timer 244 uc Variable 245 5 4b Timer 1 to 24 1 to 24 1 10146 0x83 131 31004 uint Si b Source Instance B offset 50 1 to 0x18 RWES Set the instance of the 24 function selected above 4 C S26 Timer 1 to 24 0 to 16 0 10150 0x83 13D 31006 uint SZb Source Zone B offset 50 1 to 0x18 RWES Set the zone of the function 24 selected above 6 5895 Timer 1 to 24 h 9h High 37 High 10162 0x83 131 31012 uint SAS b Source Active State B Lo bd Low 53 offset 50 1 to 0x18 RWES Set what state will be read 24 as on OxC 12 E Timer 1 to 24 0 0 to 9 999 0 1 0 10164 0x83 131 132 31013 float ti Time offset 50 1 to 0x18 RWES Set the time span that will 24 be measured OxD 13 LEu Timer 1 to 24 High 37 High 10166 0x83 131 31014 uint LEv Active Level Lob uU Low 53 offset 50 1 to 0x18 RWES Set which output state will 24 indicate on OxE 14 Note Some values will be rounded off to fit in the four character display R Read Fu
214. t an offset to be applied 1 110 556 to 5 555 000 C 16 to this function s output 0x17 23 ow Process Value 1 to 16 1 999 000 to 9 999 000 F 0 0 5222 Ox7E 126 26022 float o v Output Value or units offset 70 1 to 0x10 R View the value of this func 1 110 556 to 5 555 000 C 16 tion block s output 0x16 22 No Dis Linearization 1 to 16 None 61 None 5232 Ox7E 26027 uint play Error Open 65 offset 70 126 R View reported cause for Shorted 127 1 to 0x10 Linearization output mal Measurement error 140 16 function Bad calibration data 139 Ox1B 27 Ambient error 9 RTD error 14 Fail 32 Math error 1423 Not sourced 246 Stale 1617 Digital Input Output Menu do Digital Output 1 to 12 oF F Off 62 1832 0x6A 106 46 6007 uint do S Output State C on On 63 offset 30 1to OxOc R View the state of this out 12 put 7 Jd 15 Digital Input 1 to 12 oF F Off 62 1840 0x6A 106 6011 uint di S Input State en On 63 offset 30 1 to OxOc R View this event input state 12 OxB 11 No Dis Digital Output 1 to 12 None 61 None 1848 0x6A 6015 uint play Error Open 65 offset 30 106 R View reported cause for Shorted 127 1 to 0x0c digital input output mal Measurement error 140 12 function Bad calibration data 139 15 Ambient error 9 RTD error 14 Fail 32 Math error 1423 Not sourced 246 Stale 1617 Note Some values will be
215. t connect wires to unused ter minals Note Maintain electrical isolation between digital input outputs switched dc open collector outputs and process outputs to prevent ground loops Warning AN Explosion Hazard Substitution of component may impair suitability for CLASS I DIVISION 2 Warning AN Explosion Hazard Do not disconnect while the circuit is live or unless the area is known to be free of ignitable concentrations of flammable sub stances Quencharc Wiring Example In this example the Quencharc circuit Watlow partit 0804 0147 0000 is used to protect internal circuitry from the counter elec tromagnetic force from the induc tive user load when deenergized It is recommended that this or an equivalent Quencharc be used when connecting inductive loads C C5 C occ z to outputs Standard Bus EIA 485 Communications Tu tL Wire T R to the A termi nal of the EIA 485 port Wire T R to the B termi nal of the EIA 485 port Wire common to the com mon terminal of the EIA 485 port Do not route network wires with power wires Connect network wires in daisy chain fashion when connecting multiple de vices in a network e A 120 Q termination resis tor may be required across T R and T R placed on the last controller on the network Do not connect more than 16 EZ ZONE RM contro
216. the parity of this con odd Odd 192 4 troller to match the parity of the serial network PARL Communications h L o Word High Low Low High 3468 0x96 150 17043 uint M hL Modbus Word Order 1330 1 RWE Select the word order of Loh Word Low High 5 the two 16 bit words in the 1331 floating point values C_F Communications F 30 F 3470 0x96 150 113 17050 uint CF Display Units C 15 1 RWE Select which scale to use for 6 temperature over comms nUS Communications 1 YES Yes 106 Yes 3474 0x96 150 112 17051 uint nVS Non volatile Save No 59 1 RWE If set to Yes all values writ 8 ten to the control will be saved in EEPROM Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear dio el Watlow EZ ZONE RMS Module e 79 Chapter 4 Setup Page Chapter 5 Factory Pages Navigating the Factory Page To navigate to the Factory Page using the RUI follow 5 Press the Up or Down Q key to move through the steps below available menu prompts 1 From the Home Page press and hold both the Ad 6 Press the Infinity Key to move backwards vance 9 and Infinity keys for six seconds through the levels parameter to submenu submenu 2 Press the Up or Down Q key to view available to menu menu to Home Page menus 7 Press and
217. therwise indicated the presentation of the output value is the same as Source A This accommodates temperatures being multiplied divided and offset by con stants and process inputs Only inputs pointed to a source are used in the calcula tions An error when read can indicate any of the following None Open Shorted Measurement Error Bad Cal Data Ambient Error RTD Error Fail Math Error Not Sourced Stale 107 Chapter 6 Features t Q Co KOKS Source Function A gt Source Instance A Source Value A gt Source Zone A ica Source Error Source Value B gt Source Value C gt Source Value D Source Value E Math gt off gt gt Output Value Error p gt gt Output Value Filter A Offset Display units follows Source A A D Sb e KA s k Zeo Si O K eie dolos o poyyyy yy Source Function A Source Value A gt gt Source Instance A Source Zone A Source Value B gt gt Source Error A Source Function B gt gt Source Instance B Source Zone B Source Value E Source Error B Math EE Process Scale gt Source Function E Output Value gt gt Source Instance E Source Zone E Error p gt gt Source Error E If E OFF Output Value Filter Range High Range Low Scale High Scale Low A Scale Low Range Low Offset If E ON Output
218. thorized Representative Signature of Authorized Representative Watlow EZ ZONE9 RMS Module e 130 Appendix How to Reach Us Corporate Headquarters Watlow Electric Manufacturing Company 12001 Lackland Road St Louis MO 63146 Sales 1 800 WATLOW2 Manufacturing Support 1 800 4WATLOW Email info watlow com Website www watlow com From outside the USA and Canada Tel 1 314 878 4600 Fax 1 314 878 6814 Latin America Watlow de M xico S A de C V Av Fundici n No 5 Col Parques Industriales Quer taro Qro CP 76130 Mexico Tel 52 442 217 6235 Fax 52 442 217 6403 Asia and Pacific Watlow Singapore Pte Ltd 16 Ayer Rajah Crescent 06 03 04 Singapore 139965 Tel 65 6773 9488 Fax 65 6778 0323 Europe Watlow France Tour d Asni res 4 Avenue Laurent C ly 92600 Asni res sur Seine France T l 33 0 1 41 32 79 70 T l copie 33 0 1 47 33 36 57 Email info watlow fr Website www watlow fr Watlow GmbH Postfach 11 65 Lauchwasenstr 1 D 76709 Kronau Germany Tel 49 0 7253 9400 0 Fax 49 0 7253 9400 900 Email info watlow de Website www watlow de Watlow Italy S r l Viale Italia 52 54 20094 Corsico MI Italy Tel 39 024588841 Fax 39 0245869954 Email italyinfo watlow com Website www watlow it Watlow Ib rica S L U C Marte 12 Posterior Local 9 E 28850 Torrej n de Ardoz Madrid Spain T 34 91 675 12 92 F 34 91 648 73 80 Email info watlow
219. to 40K9 0 to 20K9 0 to 10K9 0 to 5KQ e 2 252K0 and 10KO base at 25 C Linearization curves built in Third party Thermistor compatibility requirements Alpha Tech niques Prompt am cunea ema ois 5 _ m cec ioa we c Watlow EZ ZONE9 RMS Module Digital Input Update rate 10Hz DC voltage Max input 36V at 3mA Min high state 3V at 0 25mA Max low state 2V Dry Contact Update rate 10Hz e Min open resistance 10KO Max closed resistance 500 Output Hardware Electromechanical relay Form A 5A 24 to 240V ac or 30V dc max resistive load 100 000 cycles at rated load Requires a min load of 20mA at 24V 125VA pilot duty Digital outputs Update rate 10Hz Switched DC Output voltage 20V dc Max supply current source 40mA at 20V dc and 80mA at 12V de Open Collector Switched voltage max 32V dc Max switched current per output 1 5A Max switched current for all 6 outputs combined 8A Programmable Application Blocks Actions events 16 total Alarms 16 total Compare 24 total Off greater than less than equal not equal greater than or equal less than or equal Counters 24 total Counts up or down loads predetermined value on load signal Output is active when count value equals predetermined target value Logic 24 total Off and nand or nor equal not equal Latch Linearization 24 total Interpolated or stepped relationshi
220. to 9 999 9208 0x82 125 30015 uint Cnt Count offset 40 130 R View the function s total 1 to 0x18 count 24 OxF 15 Counter 1 to 24 Off 62 9192 0x82 30007 uint Su A Source Value A C on On 63 offset 40 130 R View the value of Source 1 to 0x18 A 24 7 Counter 1 to 24 Off 62 9194 0x82 30008 uint Su b Source Value B On 63 offset 40 130 R View the value of Source 1 to 0x18 B 24 8 Counter 1 to 24 Off 62 9198 0x82 30010 uint o v Output Value On 63 offset 40 130 R View the value of this 1 to 0x18 function s output 24 OxA 10 Note Some values will be rounded off to fit in the four character display Full values R Read can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear S User Set Watlow EZ ZONE9 RMS Module Chapter 3 Operations Page RM Scanner Module e Operations Page Modbus CHEN Data Display e Range Default Relative Instance pus idus at pe d A iLa Address Attribute DEEK Wie hex dec No Dis Counter 1 to 24 None 61 9210 0x82 30016 uint play Error Open 65 offset 40 130 R Read reported cause for Shorted 127 1 to 0x18 counter error Measurement Error 140 0 i 6 Bad Cal Data 139 x Ambient Error 9 RTD Error 141 Fail 32 Math Error 1423 Not Sourced 246 Stale 1617 Logic Menu
221. ult Relative Instance CE icio amp COE Address Attribute bos Read hex dec Write Fab Math 1 to 24 non E None 61 None 3502 0x7D 25002 uint SFn b Source Function B A Analog Input 142 offset 70 125 RWES Set the type of function CUr r Current 22 1 to 0x18 that will be used for this CEPA Cool Power Control 24 source Loop 161 2 h Pr Heat Power Control Loop 160 PL uc Power Control Loop 73 Lac Linearization 238 PARE Math 240 Pu Process Value 241 SPC Set Point Closed Control Loop 242 SP o Set Point Open Con trol Loop 248 u Bi c Variable 245 5 1 6 Math 1 to 24 1 to 24 1 3512 0x7D 25007 uint Si b Source Instance B offset 70 125 RWES Set the instance of the 1 to 0x18 function selected above 24 7 Math 1 to 24 0 to 16 0 3522 0x7D 25012 uint SZb Source Zone B offset 70 125 RWES Set the zone of the function 1 to 0x18 selected above 24 OxC 12 SFaAl Math 1 to 24 non E None 61 None 3504 0x7D 25003 uint SFn C Source Function C A Analog Input 142 offset 70 125 RWES Set the type of function CUr r Current 22 1 to 0x18 that will be used for this CEPA Cool Power Control 24 source Loop 161 3 _hPr Heat Power Control Loop 160 PL dr Power Control Loop 73 Lac Linearization 238 PARE Math 240 P Process Value 241 SPC Set Point Closed Control Loop 242 5Po Set Point Open Con tro
222. upport 6 digit Modbus reg isters For parameters listed as float notice that only one low order of the two registers is listed this is true throughout this document By default the low or der word contains the two low bytes of the 32 bit pa rameter As an example look in the Operations Page for the Process Value Find the column identified in Chapter 2 Menu Conventions the header as Modbus and notice that it lists register 380 Because this parameter is a float it is actually represented by registers 381 low order bytes and 381 high order bytes Because the Modbus specifica tion does not dictate which register should be high or low order Watlow provides the user the ability to swap this order Setup Page Co P9 Menu from the default low high L of to high low h Lo It should also be noted that some of the cells in the Modbus column contain wording pertaining to an off set Several parameters in the control contain more than one instance such as alarms 24 analog in puts 16 etc The Modbus register shown always represents instance one Take for an example the Alarm Silencing parameter found in the Setup Page under the Alarm menu Instance one is shown as ad dress 2670 and 60 is identified as the offset to the next instance If there was a desire to read or write to the same member instance 3 simply add 120 to 26 70 to find its address in this case the instance 3 address for Alarm Silencing is 2790 To learn
223. uration the RMS can be connected to the OIT through the RMA running any of a number of available protocols The RMA and the OIT must be using the same protocol while the communications from RMA to the RMS module is accomplished over the backplane using Watlow s Standard Bus protocol Available protocols in the RMA follow 1 EtherNet IP and or Modbus TCP 2 DeviceNet 3 Modbus RTU 4 Profibus DP RMS RM Scanner Access Slot C Slot C RUI a OIT Power Supply Notice that in the example above that there is an op tional RUI connected to the RMS along with the OIT OITs are not generally used to configure a control but are used more for run time information As an al ternative for configuration the RUI could be used to configure and monitor in a remote location One advantage in using an RMA module when com municating on a network is that protocol switching is not needed on the RMS module if using an RUI or EZ ZONE Configurator software The protocol of choice used with the RMA can run simultaneously with the Standard Bus protocol RMS Connected to a Split Rail with OIT In this configuration both the inter module bus backplane communications and Standard Bus are Chapter 1 Overview connected between rails to allow for remote capabili ties It is recommended that the split rail connection not exceed 100 feet In this configuration the OIT can communicate wit
224. urce Value B Source Function B Source Valye C gt Source Instance B Source Value D Source Zone B gt Source Error B Source Function C gt Source Instance C Source Zone C Process Value gt Source Error C Multipl Source Function D PY gt Source Instance D Source Zone D gt Source Error D Output Value Error E C Output Value Filter A B C D Offset Display units follows last temperature source else follow Source A D 7 e O n Wy R Oxy op Sex eyed dds Source Function A Source Instance A Source Value A Source Value B gt Source Error A Source Function B Source Value G gt Source Instance B Source Zone B gt Source Error B Source Value D Source Function C Source Instance C Source Zone C Process Value gt Source Error C Minimum Source Function D Source Instance D Source Zone D gt Source Error D Output Value Error ERRE Lx Output Value Filter Minimum Value A B C D Offset Display units follows Source with minimum value Software Revision 4 0 05 12 2010 Rev B page 4 of 5 Chapter 6 Features 4 s By Os Con By Op ap KA Bey Ao Ge Bey Source Function A Source Function A gt Source Instance A Source Value A gt gt Source Instance A Source Value A gt Value B gt Source Error
225. utput Function cont Output Value is determined by Source A and Digital Output Function Watlow EZ ZONE RMS Module e 102 Chapter 6 Features 0 Action Function QE K Dy 3 gt eu hp The Action Function selected will execute when Source Feat PN Function A ON and Active Level High Based on a bee oye MW 3 given input Digital Event output Logic function etc 0 o So Ua Ua the Action function can cause other functions to occur i To name a few starting and stopping a profile silencing alarms turn control loops off and placing alarms in non Output Function Output State gt alarm state Output Function Instance Source Zone A Digital I O Value Note ES Error H gt Em PANT Digital Action Function selection is module type and part num Output ber dependant Instances 1 12 per RMS SEE Setup Page eg en 4 d 10 Digital I O Menu 2 d 9 Gy a Sto Ley d r Direction Output CQ Co ep P F n Output Function Off Analog Input Alarm Cool Power Heat Power Compare Counter Digital I O Profile Event Out A to H Function Key Logic Linearization Math Process Value Special Function Output 1 to 4 Source Function A Timer Variable Limit Source Instance A F Output Function Instance 1 to 24 gt Error Event Status gt S 8H Source Zone A 0 to 16 Action o CE Output Control Fixed Time Base Variable Time Base Overview o E
226. x10 function selected above 16 0x12 18 98 Alarm 1 to 16 0 or 16 0 2548 0x6D 23 9025 uint SZ Source Zone offset 60 109 RWES Set the zone of the function 1 to 0x10 selected above 16 0x19 25 Note Some values will be rounded off to fit in the four character display R Read Full values can be read with other interfaces W Write E EEPROM If there is only one instance of a menu no submenus will appear ae Watlow EZ ZONE RMS Module e 55 e Chapter 4 Setup Page RM Scanner Module Setup Page CIP Data Modbus Class i Type Display jo ebd ds Range Default Relative Instance isis Poraa amp pron Address Attribute body Read hex dec Write AY Alarm 1 to 16 0 001 to 9 999 000 F or units 1 0 F or 2504 0x6D 24 9003 float A hy Hysteresis 0 001 to 5 555 000 C units loffset 60 109 RWES Set the hysteresis for an 1 0 C 1 to 0x10 alarm This determines 16 how far into the safe region 3 the process value needs to move before the alarm can be cleared ALY Alarm 1 to 16 Close On Alarm 17 Close On 2508 0x6D 25 9005 uint A Lg Logic 8L Open On Alarm 66 Alarm offset 60 109 RWES Select what the output 1 to 0x10 condition will be during the 16 alarm state 5 Alarm 1 to 16 both Both 13 Both 2506 0x6D 26 9004 uint A Sd Sides High 37 offset 60 109 RWES Select which side or sides Lob J Low 53 1to 0x10 will trigger this alarm 16
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