Frick QUANTUM LX Service Manual
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Frick QUANTUM LX Service Manual

Evaporator
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COMMUNICATIONS SETUP
FRICK
Please check www.johnsoncontrols.com/frick for the latest version of this publication.
Form 090.610-CS (MAY 2016)
COMUNICATIONS SETUP
File:
Replaces:
Dist:
QUANTUM™ LX
®
EVAPORATOR
Version 3.1x
SERVICE MANUAL - Section 90
090.610-CS (DEC 2012)
3, 3a, 3b, 3c

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  • Page 1 Form 090.610-CS (MAY 2016) COMUNICATIONS SETUP File: SERVICE MANUAL - Section 90 Replaces: 090.610-CS (DEC 2012) Dist: 3, 3a, 3b, 3c COMMUNICATIONS SETUP FRICK QUANTUM™ LX ® EVAPORATOR Version 3.1x Please check www.johnsoncontrols.com/frick for the latest version of this publication.

  • Page 2: Table Of Contents

    SERIAL PROTOCOL............................18 Description................................18 Quantum™ LX Communications Protocol List....................18 Checklist For Setting Up Communication......................18 Frick® Protocol..............................19 Description..............................19 Frick® # Protocol Specifications.........................19 SECTION 3 QUANTUM™ LX ALLEN-BRADLEY COMMUNICATION....................25 Overview Of Half And Full Duplex Theory.........................25 SLC-500 - Suggested Setup............................26 Channel Configuration............................26 Read Message Setup Example..........................26 Write Message Setup Example...........................26...

  • Page 3: Communications Setup

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 3 Data Packet................................36 The Query.................................37 The Response................................37 Data Field..................................37 Error Checking................................37 ASCII..................................37 RTU...................................37 Framing..................................38 ASCII..................................38 RTU...................................38 ASCII Query (Read) Example............................39 ASCII Write Example..............................40 ASCII Response Example............................42 RTU Query (Read) Example............................43 RTU Response Example............................43 Modbus®...
  • Page 4 RS-232................................120 RS-422................................120 RS-485................................121 SOFTWARE SETUP FOR THE COMMUNICATIONS LOOPBACK TEST..............121 Performing The Communications Loopback Test....................122 SECTION 10 APPENDIX A...............................124 Frick® Serial Communications Converter Module....................124 Description..............................124 Setting The Dipswitch............................124 Mounting The Module............................124 Wiring The Module............................125 RS-232 Connections..........................125 RS-422 Connections..........................125 RS-485 Connections..........................125 APPENDIX B...............................126...

  • Page 5: Introduction To The Quantum™ Evaporator Control System

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 5 SECTION 1 INTRODUCTION TO THE QUANTUM™ EVAPORATOR CONTROL SYSTEM...

  • Page 6: Introduction To The Quantum Lx

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 6 COMMUNICATIONS SETUP INTRODUCTION TO THE QUANTUM ™ As an example, the Q4 and Q5 controllers contain the physical Ethernet and Serial connections that the user connects to, while the Quantum™ LX software deter- QUANTUM™...

  • Page 7: Ethernet And Networking

    Internet Service Provider (or ISP). The Internet Cabling Do’s and Don’ts – Frick® Controls recom- Service Provider usually has a very large network mends the following guidelines when installing and us-...

  • Page 8: Rj-45 Connectors

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 8 COMMUNICATIONS SETUP Don’t: up to eight computers and so on. So, if you start with a four-port Switch but eventually • Don’t install cable taut, cables must always have add more panels, you can buy another Switch some “play”...
  • Page 9 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 9 ETHERNET COMPONENT RECOMMENDATIONS Component Description Part Number Manufacturer Shielded solid 4-pair* (1000 Ft) BOXCAT5E-DSSO Cablesforless.com E-PLG-SOLID-SH Shielded solid 4-pair* CR45-100S Cables Direct 9504 CS Cable Alpha Wire Co. 9504 F Un-shielded solid 4-pair** E-PLG-SOLID...

  • Page 10: Ethernet Setup

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 10 COMMUNICATIONS SETUP ETHERNET SETUP Once all of the cabling has been run and all connec- The following section describes the suggested panel setup tions have been made, it is now necessary to setup the for connecting the Quantum™...

  • Page 11: E-Mail Data

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 11 upper and lower case letters. It is similar in concept to a valid E-mail address that has been assigned to the the function of the Panel ID, and basically allows the internet account.
  • Page 12 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 12 COMMUNICATIONS SETUP...

  • Page 13: Serial Communications

    Disadvantages of single ended signaling is that it It cannot do both at the same time. Frick® Con- is more susceptible to noise than differential sig- trols uses a 2-wire system for RS-485 one positive...

  • Page 14: Serial Communications Setup

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 14 COMMUNICATIONS SETUP SERIAL COMMUNICATIONS SETUP After the serial communications wiring has been connected, and jumpers correctly set, the LX software needs to be setup to match that of the device(s) that it is to communicate with. The following screen is where this information can be found: NOTE: This screen has no affect on Ethernet communi- Baud Rate - The baud rate defines the speed at which cations.

  • Page 15: Using The Map File

    A pull down menu is Upload MapFile.txt to Quantum™ LX – After the user provided to select from the following Frick recog- has modified the MapFile.txt file to suit their needs, nized protocols: pressing this key will cause the file to be uploaded from the USB memory back into the Quantum™...
  • Page 16 QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 16 COMMUNICATIONS SETUP A sample of the original file appears in the following example: ;Quantum to Quantum LX MAP Addresses LX , LX Description 1026 ;Compressor Motor Start Signal 1027 ;Compressor Motor Starter-Feedback/Compressor Interlock 1028 ;Oil Pump Start Signal...

  • Page 17: Serial Communication Setup Table

    Parity • Even • Even • Even • • • • None • None • None • Frick • Frick • Frick • Modbus ASCII • Modbus ASCII • Modbus ASCII • Modbus RTU • Modbus RTU • Modbus RTU Protocol •...

  • Page 18: Serial Protocol

    Note: The data communication protocols are Port on the Communications screen is continuously being expanded and improved. showing ACTIVE or OFF. Therefore, you should consult Frick® Controls • ACTIVE is shown only when the Quan- for the exact details on your particular unit(s) tum™...

  • Page 19: Frick® Protocol

    = Quantum ID code protocol when only communicating to Q4 or Q5 panels. Message Code 1 8-15 Date 1 as mm/dd/yy The following is a complete list of available Frick® Protocol 16-23 Time 1 as hh:mm:ss # commands: Space 25-28...
  • Page 20 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 20 COMMUNICATIONS SETUP RETURNED ANSWER, RETURN Alarms & Shutdowns - Page 3 data: $01F3 Character Description of returned data Command structure: Position Command Description A = Acknowledge Start of command sequence. xx = Quantum ID code Quantum ID code.
  • Page 21 Start of command sequence. Return the value of a Table address. Quantum ID code. 00000 Frick Address(s) of data value in Table Change Table address’s setpoint value. up to 32 different addresses can be re- 00000 Frick’s Table address of the setpoint.
  • Page 22 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 22 COMMUNICATIONS SETUP * Fan Status RETURN CURRENT STATUS: $01Z1 Command structure: Character Command Description Description of returned data Position Start of command sequence. 0 = Off Quantum ID code. 10, 17, Current Status for Units 1 -11.
  • Page 23 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 23 * Fan Status RETURN CURRENT STATUS: $01Z2 Command structure: Character Command Description Description of returned data Position Start of command sequence. 0 = Off Quantum ID code. 10, 17, Current Status for Units 12 - 22.
  • Page 24 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 24 COMMUNICATIONS SETUP * Fan Status RETURN CURRENT STATUS: $01Z3 Command structure: Character Command Description Description of returned data Position Start of command sequence. 0 = Off Quantum ID code. 10, 17, Current Status for Units 23 - 30.

  • Page 25: Quantum™ Lx Allen-Bradley Communication

    This section contains programming examples for read- board will cause the Evaporator to shutdown. Control ing data from and writing data to the Frick Quantum commands are also sent with a write command. For control panel from an Allen Bradley (AB) SLC500 or PLC5 more detail and a list of the data, reference the Quan- processor.

  • Page 26: Slc-500 - Suggested Setup

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 26 COMMUNICATIONS SETUP SLC-500 - Suggested Setup READ MESSAGE SETUP EXAMPLE Read/Write Message The following are representations of the channel con- Type: Peer-To-Peer figuration screens from the AB RSLogix500 program- Read/Write: Read ming software for the SLC500.

  • Page 27: Allen-Bradley Programming Overview

    ALLEN-BRADLEY PROGRAMMING OVERVIEW This section contains programming examples for read- CHANNEL CONFIGURATION ing data from, and writing data to the Frick® Quan- tum™ LX control panel from an Allen Bradley (AB) The following are representations of the channel con- SLC500 processor. AB RSLogix500 programming figuration screens from the AB RSLogix500 program- ming software for the SLC500.

  • Page 28: System Configuration

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 28 COMMUNICATIONS SETUP System Configuration Message Sequence Logic Use the following logic to sequence read and write message to the Quantum™ LX panel. This logic prevents hang up due to lost communications or message errors.

  • Page 29: Message Read Logic

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 29 Message Read Logic Delay Between Messages Use the following logic to read data from the Quan- The delay timer on rung 3 must be used when commu- tum™...

  • Page 30: Message Read Setup Screen

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 30 COMMUNICATIONS SETUP MESSAGE READ SETUP SCREEN The following setup screen is programmed to obtain 28 consecutive data files from the Quantum™ LX (ID#1) N10:1 register and place them into the SLC500’s N10:1 through N10:28 register. The target address must be changed to for the Quantum™ LX. •...

  • Page 31: Message Write Logic

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 31 Message Write Logic Use the following logic to write data from the Quan- instruction will be executed when counter 5:0 (logic tum™ LX panel. To write more data or to write data shown above) is equal to 1 and when called upon by to several Evaporators, copy / paste these rungs as the change Evaporator mode bit B3/2.
  • Page 32 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 32 COMMUNICATIONS SETUP - Continued from previous page -...

  • Page 33: Message Write Setup Screen

    For example, if the data’s value is 25.5 then Frick Controls supports the use of EtherNet/IP (as the value 255 is sent. All temperatures are in degree described on the ab.com website, under the Ether- C and all pressures are in PSIA unless the command Net/IP heading) with LX software 6.06 and later.
  • Page 34 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 34 COMMUNICATIONS SETUP...

  • Page 35: Modbus® Protocol

    (125) data elements can be read with one read request. The address references are numbered rela- tive to the Frick® addresses in the Quantum™ Data Table (see MODBUS Addressing Note in the Quantum™ Data Table section of this manual for additional information).

  • Page 36: Modbus® Ascii (Serial Communications)

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 36 COMMUNICATIONS SETUP The following user selectable button is provided: The top line of data is the most recent activity. At the left of each line, you should see whether •...

  • Page 37: The Query

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 37 the Master know which Quantum™ is Data Field responding. • An 8-bit function code defining the re- The data field is constructed using sets of two quested action (Query): hexadecimal digits, in the range of 00 to FF •...

  • Page 38: Rtu

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 38 COMMUNICATIONS SETUP ASCII In RTU mode, messages include an error– In ASCII mode, messages start with a co- checking field that is based on a Cyclical lon ( : ) character (3A hex), and end with Redundancy Check (CRC) method.

  • Page 39: Ascii Query (Read) Example

    Similarly, if a new message begins ear- questing is arrived at. We want to know the ac- lier than 3.5 character times following a tual value of the Discharge Pressure, Frick® Ad- previous message, the receiving device dress 2003 (decimal).

  • Page 40: Ascii Write Example

    1000. Using the address tables Error Correction Code: found later in this manual, locate the address for Carriage Return - Line Feed: the Regulation Mode 1 Setpoint. In this case, it would be Frick® Address 7150 (decimal).
  • Page 41 We want to send the value of 1000 7150 decimal equals 1BEE hex. Looking at our ex- (100.0) to the Regulation Mode 1 Setpoint, Frick® ample we see that we need a H.O. (High Order) Address 7150 (decimal).

  • Page 42: Ascii Response Example

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 42 COMMUNICATIONS SETUP In order to ensure that the Quantum™ in question ASCII Response Example receives the data request accurately, we must ap- pend an Error Check byte to the end of the mes- If the packet was properly received by the Quan- tum™, you should see an immediate response in Hy- sage.

  • Page 43: Rtu Query (Read) Example

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 43 The next byte tells the Master how many bytes of RTU Query (Read) Example information are being returned as a response. In this case, there are two (2) bytes of valid data. NOTE: Hyperterminal cannot be used to test RTU: : 01 03 02 05 D0 25...

  • Page 44: Modbus® Notes

    1 (one). For instance, if you wanted to look at A command has been provided that selects whether Frick® Address 2003, you may need to actually data to and from the Quantum™ will be returned in the look at address 2004. The Quantum™ addressing units that are the default (pressure in PSIA and tem- begins at 0 (zero), whereas some MODBUS®...

  • Page 45: Hyperterminal

    New Connection. Type in MODBUS® ASCII. It CANNOT be used to test whatever name you would like to use, Frick® was Allen-Bradley or MODBUS® RTU or TCP/IP. used in this example. This name will also create a file once you are finished, saving all of the setup Many times, the Quantum™...
  • Page 46 Data Bits box. For the purpose of this document, Frick® # protocol will be used. Refer to the MODBUS® ASCII section of this manual for information on MODBUS®.

  • Page 47: Testing Communications

    • Echo typed characters locally • Append line feeds to incoming line ends • Wrap lines that exceed terminal width For Frick® protocols (# and $): • Echo typed characters locally • Append line feeds to incoming line ends •...

  • Page 48: General Notes

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 48 COMMUNICATIONS SETUP General Notes • Access the Communications screen and verify that the Quantum™ ID is set to the same value that you Ensure that the Quantum™ communications param- are trying to access.

  • Page 49: Conversion Chart For Decimal / Hexadecimal / Ascii

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 49 CONVERSION CHART FOR DECIMAL / HEXADECIMAL / ASCII Decimal Hexadecimal Decimal Hexadecimal Decimal Hexadecimal ASCII ASCII ASCII (DEC) (HEX) (DEC) (HEX) (DEC) (HEX) ctrl @ NUL ctrl A SOH ctrl B STX ctrl C ETX ctrl D EOT...
  • Page 50 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 50 COMMUNICATIONS SETUP...

  • Page 51: Quantum Lx Data Tables

    The following table shows the three protocol Address ranges that may be utilized for reading/writing data to and from the Quan- tum™ LX controller; Frick Addresses, Allen-Bradley (AB) Addresses, and Modbus Addresses. This table also shows the Data Table names, as well as the page numbers within this manual that the pertinent Data Tables may be found:...

  • Page 52: Analog Board Values

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 52 COMMUNICATIONS SETUP ANALOG BOARD VALUES: (Read Only) Frick® Modbus Module Description of Data Address Address Address Type 100-129 N20:100-N20:129 40101-40130 Humidity Percent (Zones 1 – 30) Input 130-159 N20:130-N20:159 40131-40160 Ammonia Alarm Sensor (Zones 1 –...

  • Page 53: Digital Board Values

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 53 DIGITAL BOARD VALUES: (Read Only) Frick® Modbus Module Description of Data Address Address Address Type 2000 N10:0 42001 Hot Gas (Main) 2001 N10:1 42002 Liquid (Main) 2010...

  • Page 54: Calculated Values

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 54 COMMUNICATIONS SETUP CALCULATED VALUES: (Read Only) Frick® Modbus Description of Data Value Code Address Address Address 4017 N30:17 44018 Event Log Flag Integer 4038 N30:38 44039 Current Runtime Real(#.##)
  • Page 55 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 55 CALCULATED VALUES: (Read Only, Continued) Frick® Modbus Description of Data Value Code Address Address Address 4138 N30:138 44139 Digital Board 9 Port 4 Reset Integer 4139 N30:139...

  • Page 56: Mode Values

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 56 COMMUNICATIONS SETUP MODE VALUES: (Read Only) Frick® Modbus Read/ Description of Data Value Codes Address Address Address Write 8006 N40:6 48007 Clear Safeties (All Zones) 0 = No 1 = Yes...
  • Page 57 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 57 MODE VALUES: (Read Only, Continued) Frick® Modbus Read/ Description of Data Value Codes Address Address Address Write 0 = Stand By Start Up Stage 9060- N40:1060 - 49061 - Stand By Stage (Zones 1 –...
  • Page 58 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 58 COMMUNICATIONS SETUP MODE VALUES: (Read Only, Continued) Frick® Modbus Read/ Description of Data Value Codes Address Address Address Write 0 = Dehumidification Start Up Stage 9720 - N40:1720 - 49721- Dehumidification Stage (Zones 1 –...
  • Page 59 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 59 MODE VALUES: (Read Only, Continued) Frick® Modbus Read/ Description of Data Value Codes Address Address Address Write N40:2290 - 10290-10319 50290-50319 Defrost Cycle Enabled Mode 1 (Zones 1 – 30)
  • Page 60 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 60 COMMUNICATIONS SETUP MODE VALUES: (Read Only, Continued) Frick® Modbus Read/ Description of Data Value Codes Address Address Address Write 11190- N40:3090- Fan Cycling Function Enabled Cool Cycle Mode 1...
  • Page 61 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 61 MODE VALUES: (Read Only, Continued) Frick® Modbus Read/ Description of Data Value Codes Address Address Address Write 0 = Cooling Suction Always 11640- N40:3640- Cooling Suction Coupling (Zones 1 –...
  • Page 62 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 62 COMMUNICATIONS SETUP MODE VALUES: (Read Only, Continued) Frick® Modbus Read/ Description of Data Value Codes Address Address Address Write 12450- N40:4450- 52451-52480 Monday Schedule 1 (Zones 1 – 30)
  • Page 63 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 63 MODE VALUES: (Read Only, Continued) Frick® Modbus Read/ Description of Data Value Codes Address Address Address Write 13170- N40:5170- 53171-53200 Thursday Schedule 1 (Zones 1 – 30)
  • Page 64 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 64 COMMUNICATIONS SETUP MODE VALUES: (Read Only, Continued) Frick® Modbus Read/ Description of Data Value Codes Address Address Address Write 14490- N40:6490- Aux. Analog Input #1, Alarm Configu- 14491-14520 14519 N40:6519 ration (Zones 1 –...
  • Page 65 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 65 MODE VALUES: (Read Only, Continued) Frick® Modbus Read/ Description of Data Value Codes Address Address Address Write 14790- N40:6790- Auxiliary Digital Output #1 Mapping 44791-44820 14819 N40:6819 (Zones 1 –...
  • Page 66 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 66 COMMUNICATIONS SETUP MODE VALUES: (Read Only, Continued) Frick® Modbus Read/ Description of Data Value Codes Address Address Address Write 15390- N40:7390- Auxiliary Digital Output #1 Action 45391-45420 15419 N40:7419 (Zones 1 –...
  • Page 67 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 67 MODE VALUES: (Read Only, Continued) Frick® Modbus Read/ Description of Data Value Codes Address Address Address Write None 0 = Return Air Temperature 2 = Humidity 3 = User Defined Analog In #1...
  • Page 68 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 68 COMMUNICATIONS SETUP MODE VALUES: (Read Only, Continued) Frick® Modbus Read/ Description of Data Value Codes Address Address Address Write 15930- N40:7930- Auxiliary Analog Output #1 Configura- 45931-45960 15959 N40:7959 tion (Zones 1 –...

  • Page 69: Warnings/Shutdown Values

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 69 WARNING/SHUTDOWN VALUES: (Read Only) Frick® Modbus Value Description of Data Address Address Address Codes 20300-20329 N50:300-N50:329 60301-60330 Control Temperature 1 Sensor Fault (Zones 1 – 30) 2364...
  • Page 70 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 70 COMMUNICATIONS SETUP WARNING/SHUTDOWN VALUES: (Read Only) Frick® Modbus Value Description of Data Address Address Address Codes 21740-21769 N50:1740-N50:1769 21741-21770 Auxiliary Analog Input #5 High Warning (Zones 1 – 30) 21770-21799 N50:1770-N50:1799 21771-21800 Auxiliary Analog Input #6 High Warning (Zones 1 –...
  • Page 71 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 71 WARNING/SHUTDOWN VALUES: (Read Only) Frick® Modbus Description of Data Value Codes Address Address Address 22301-22303 N50:2301-N50:2303 62302-62304 Analog Board 3, Port 3 Comm. Shutdown (Zones 22 – 24) 2402 22304-22306 N50:2304-N50:2306 62305-62307 Analog Board 4, Port 3 Comm.

  • Page 72: Timer Values

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 72 COMMUNICATIONS SETUP TIMER VALUES: (Read Only) Frick® Modbus Description of Data Address Address Address 24200-24229 N60:200-N60:229 64201-64230 Fan Cycling Timer - Time Remaining (Zones 1 – 30) 24380-24409 N60:380-N60:409 64381-64410 Defrost Stage Timer - Time Remaining (Zones 1 – 30) 24470-24499 N60:470-N60:499 64471-64500 Cooling Elapsed Time - Time Elapsed (Zones 1 –...

  • Page 73: Setpoint Values

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 73 SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Power Up Time Delay 31900-31929 N70:1900-N70:1929 71901-71930 Sec. 1,000 (Zones 1 - 30)
  • Page 74 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 74 COMMUNICATIONS SETUP SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Liquid Off Temperature Mode 1 32710-32739 N70:2710-N70:2739 72711-72740 Temp. (Zones 1 - 30)
  • Page 75 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 75 SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Two Speed Fan High To Low Temp. 33460-33489 N70:3460-N70:3489 73461-73490 Temp.
  • Page 76 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 76 COMMUNICATIONS SETUP SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Dehumidification Exit Low 34270-34299 N70:4270-N70:4299 74271-74300 Temperature Threshold Mode Temp. 3 (Zones 1 - 30)
  • Page 77 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 77 SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Variable Fan Maximum Speed Cool Percent 34900-34929 N70:4900-N70:4929 74901-74930 Cycle Mode 3 (Zones 1 - 30)
  • Page 78 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 78 COMMUNICATIONS SETUP SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Fan Off Temperature Heat Cycle 35740-35769 N70:5740-N70:5769 75741-75770 Temp. Mode 1 (Zones 1 - 30)
  • Page 79 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 79 SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Auxiliary Digital Input # 4 Alarm 37180-37209 N70:7180-N70:7209 77181-77210 Sec. 1,000...
  • Page 80 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 80 COMMUNICATIONS SETUP SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Auxiliary Analog Input # 5 Low 37930-37959 N70:7930-N70:7959 77931-77960 None -10,000 10,000...
  • Page 81 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 81 SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Liquid Modulating Valve Maximum 38590-38619 N70:8590-N70:8619 78591-78620 Percent % Open Mode 1 (Zones 1 – 30)
  • Page 82 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 82 COMMUNICATIONS SETUP SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Liquid Modulating Valve Integra- 39400-39429 N70:9400-N70:9429 79401-79430 Sec. tion Time Mode 3 (Zones 1 – 30)
  • Page 83 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 83 SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Hour/Day 2 Mode Schedule 1 40150-40179 N70:10150-N70:10179 80151-80179 Integer (Zones 1 – 30)
  • Page 84 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 84 COMMUNICATIONS SETUP SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Hour/Day 5 Mode Schedule 2 40900-40929 N70:10900-N70:10929 80901-80930 Integer (Zones 1 – 30)
  • Page 85 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 85 SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Minute/Day 1 Mode Schedule 3 41650-41679 N70:11650-N70:11679 81651-81679 Integer (Zones 1 – 30)
  • Page 86 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 86 COMMUNICATIONS SETUP SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Minute/Day 4 Mode Schedule 4 42400-42429 N70:12400-N70:12429 82401-82430 Integer (Zones 1 – 30)
  • Page 87 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 87 SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Hour/Day 1 Defrost Schedule 5 43390-43419 N70:13390-N70:13419 83391-83420 Integer (Zones 1 – 30)
  • Page 88 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 88 COMMUNICATIONS SETUP SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Hour/Day 4 Defrost Schedule 6 44150-44179 N70:14150-N70:14179 84151-84179 Integer (Zones 1 – 30)
  • Page 89 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 89 SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Hour/Day 7 Defrost Schedule 7 44890-44919 N70:14890-N70:14919 84891-84920 Integer (Zones 1 – 30)
  • Page 90 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 90 COMMUNICATIONS SETUP SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Minute/Day 3 Defrost Schedule 8 45640-45669 N70:15640-N70:15669 85641-85670 Integer (Zones 1 – 30)
  • Page 91 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 91 SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Minute/Day 7 Defrost Schedule 1 46390-46419 N70:16390-N70:16419 86391-86420 Integer (Zones 1 – 30)
  • Page 92 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 92 COMMUNICATIONS SETUP SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Variable Fan Minimum Speed Heat 47200-47229 N70:47200-N70:47229 87201-87230 Percent % Cycle Mode 4 (Zones 1 – 30)
  • Page 93 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 93 SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Reheat On Temperature Mode 1 48010-48039 N70:18010-N70:18039 88011-88039 Temp. (Zones 1 – 30)
  • Page 94 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 94 COMMUNICATIONS SETUP SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Auxiliary Analog Input # 5 High 48700-48729 N70:48700-N70:48729 88701-88730 Shutdown Setpoint (Zones 1 –...
  • Page 95 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 95 SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Auxiliary Analog Input # 7 49360-49389 N70:19360-N70:19389 89361-89390 High Shutdown Delay (Zones Sec.
  • Page 96 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 96 COMMUNICATIONS SETUP SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Auxiliary Digital Output # 10 50050-50079 N70:20050-N70:20079 90051-90079 Temp. -10,000 10,000 Off Setpoint (Zones 1 –...
  • Page 97 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 97 SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value Auxiliary Analog Output # 2 Percent 50710-50739 N70:20710-N70:20739 90711-90739 -10,000 10,000 Minimum Open (Zones 1 –...
  • Page 98 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 98 COMMUNICATIONS SETUP SETPOINT VALUES: (Read/Write) Frick® Modbus Default Description of Data Units Min. Max. Address Address Address Value High Temperature Warning Temp 51460-51489 N70:21460-N70:21489 91461-91490 Temp. Mode 3 (Zones 1 - 30)

  • Page 99: Warning/Shutdown Message Codes

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 99 SECTION 7 WARNING/SHUTDOWN MESSAGE CODES WARNING/SHUTDOWN MESSAGE LIST ADDRESS RANGE WARNING/SHUTDOWN MESSAGE 300 - 329 Control Temperature 1 Sensor Fault (Zones 1 – 30) 360 - 389 Humidity Sensor Fault (Zones 1 –...
  • Page 100 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 100 COMMUNICATIONS SETUP WARNING/SHUTDOWN MESSAGE LIST (Continued) ADDRESS RANGE WARNING/SHUTDOWN MESSAGE 1500 - 1529 Auxiliary Analog Input #5 High Shutdown (Zones 1 – 30) 1530 - 1559 Auxiliary Analog Input #5 High Warning (Zones 1 – 30) 1560 - 1589 Auxiliary Analog Input #5 Low Shutdown (Zones 1 –...
  • Page 101 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 101 WARNING/SHUTDOWN MESSAGE LIST (Continued) ADDRESS RANGE WARNING/SHUTDOWN MESSAGE 2280 - 2282 Analog Board 1, Port 4 Communications Shutdown (Zones 1 – 3) 2283 - 2285 Analog Board 2, Port 4 Communications Shutdown (Zones 4 – 6) 2286 - 2288 Analog Board 3, Port 4 Communications Shutdown (Zones 7 –...
  • Page 102 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 102 COMMUNICATIONS SETUP...

  • Page 103: Q5 Controller

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 103 SECTION 8 Q5 CONTROLLER...

  • Page 104: Main Board History And Identification

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 104 COMMUNICATIONS SETUP Q5 CONTROLLER MAIN BOARD HISTORY AND IDENTIFICATION The Q5 utilizes Flash Card technology. There is a Flash The processor board shown on this page is known as Card socket located on the under side of this main the Q5 board, and it is based on the Pentium micro- board.

  • Page 105: Serial Communications Hardware

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 105 Q5 SERIAL COMMUNICATIONS HARDWARE COM-1 AND COM-2 DESCRIPTION The board pictured on this page has two RS-422 serial Q5 GENERAL DESCRIPTION communications ports, labeled P10 (Com-1) and P11 User connections for serial communications to and (Com-2).

  • Page 106: Serial Communications Port Wiring

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 106 COMMUNICATIONS SETUP Q5 SERIAL COMMUNICATIONS PORT WIRING GENERAL NOTE COMM-4 The information that is presented here and on the COMM-3 (P17) (P16) following pages, refers to the Interface board and RS-485 RS-485 not the Q5 board.

  • Page 107: Serial Communications Troubleshooting

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 107 SERIAL COMMUNICATIONS TROUBLESHOOTING Notice in the figure entitled RS-422/485 Con- nectors, Jumpers and LED Location, there are six WIRING NOTE: See the chapter entitled Serial Com- jumpers associated with COMM-2. Refer to the ta- munications Port Wiring, for the pictorials and tables ble entitled RS-422/485 (COMM-1, P10 &...
  • Page 108 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 108 COMMUNICATIONS SETUP COMM-2 (P11) COMM-3 (P16) COMM-2 may be used for either RS-422 or RS- Notice that in the figure entitled RS-422/485 Con- 485, depending on the setting of jumper J7. If pins nectors, Jumpers and LED Location, there are no 2-3 are shorted (closed) on J7, then RS-485 is se- jumpers associated with COMM-3.

  • Page 109: Communications Data Logging Screens

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 109 COMMUNICATIONS DATA LOGGING SCREENS SERVICE – ModBus TCP Log SERVICE – Communications Log DESCRIPTION: This screen allows the technician to view the status of all Modbus TCP communications. Refer to the section entitled Modbus TCP Log in the Modbus Pro- DESCRIPTION: This screen allows the technician to view tocol chapter.
  • Page 110 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 110 COMMUNICATIONS SETUP...

  • Page 111: Q4 Controller

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 111 SECTION 9 Q4 CONTROLLER...

  • Page 112: Main Board History And Identification

    Q4, and it can be identified by the presence of an 8 po- ther Q1, 2, 3 or 4. Additionally, Frick® will request the sition DIP switch. There are also a number of jumpers...

  • Page 113: Q4 Serial Communications Hardware

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 113 Q4 SERIAL COMMUNICATIONS HARDWARE COM-1 AND COM-2 DESCRIPTION The board pictured in the previous column actually Q4 GENERAL DESCRIPTION has three serial communications ports (labeled as Serial communications to and from the Q4 can use TB1, TB2 and TB3).

  • Page 114: Serial Communications Port Wiring

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 114 COMMUNICATIONS SETUP SERIAL COMMUNICATIONS PORT WIRING COM-3 (PL6) The following pictorial shows the communications RS-232 WIRING AND JUMPERS board, as well as the jumpers, LED’s and signal pin- outs to allow the end user to communicate to Com-3 COM-2 (TB3) (PL6) using RS-232 protocol.

  • Page 115: Rs-422/485 Wiring And Jumpers

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 115 RS-422 WIRING AND JUMPERS COM-2 (TB2) The following table describes the RS-422 connec- The following pictorial shows the communi- tor pinouts and their associated communications cations board, as well as the jumpers, LED’s signals: and signal pinouts to allow the end user to communicate to Com-2 (TB2) using RS-422...

  • Page 116: Signal Wiring

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 116 COMMUNICATIONS SETUP RS-485 WIRING AND JUMPERS COM-2 (TB2) The following table describes the RS-485 connector The following pictorial shows the communi- pinouts and their associated communications signals: cations board, as well as the jumpers, LED’s and signal pinouts to allow the end user to RS-422 (TB1) Communications Signal Wiring communicate to Com-2 (TB2) using RS-485...

  • Page 117: Serial Communications Troubleshooting

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 117 SERIAL COMMUNICATIONS TROUBLESHOOTING TROUBLESHOOTING RS-422 WIRING NOTE: See the chapter entitled Serial Com- Com-1 (TB1) munications Port Wiring, for the pictorials and tables referred to in the following paragraphs. Always ensure Notice that in the table entitled RS-422 Com-1 that the wiring matches these pictorials before pro- (TB1) Board Jumpers that there are six jumpers...

  • Page 118: Troubleshooting Rs-484

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 118 COMMUNICATIONS SETUP TROUBLESHOOTING RS-485 Com-2 (TB2) Notice that in the figure entitled RS-485 Com-2 Com-1 (TB1) (TB2) Connector, Jumpers & LED Location, there Notice that in the figure entitled RS-485 Com-1 are seven jumpers associated with TB2.

  • Page 119: Communications Data Logging Screens

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 119 COMMUNICATIONS DATA LOGGING SCREENS SERVICE – ModBus TCP Log SERVICE – Communications Log DESCRIPTION: This screen allows the technician to view the status of all Modbus TCP communications. Refer to the section entitled Modbus TCP Log in the Modbus Protocol DESCRIPTION: This screen allows the technician to view chapter.

  • Page 120: Communications Loopback Test

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 120 COMMUNICATIONS SETUP COMMUNICATIONS LOOPBACK TEST HARDWARE SETUP FOR TESTING RS-422 DESCRIPTION To create the communications loopback harness for RS-422 testing, use the following example(s): NOTE: Communications Loopback testing is not 4-Pin Connector 4-Pin Connector yet available for the Q5.

  • Page 121: Software Setup For The Communications Loopback Test

    Set LK17 to position B tested must be set the same. Plug the RS-485 test harness (as shown above) into the com ports at TB1 and TB2 • Protocol: Set all Comms to be tested to Frick. as shown here: LK10 LK16 LK11...

  • Page 122: Performing The Communications Loopback Test

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 122 COMMUNICATIONS SETUP PERFORMING THE COMMUNICATIONS LOOPBACK TEST Pressing the appropriate test key will initiate the test. A dialog box will appear with one of the following mes- sages: NOTE: Session must be set to at least user level 2 to access this feature.
  • Page 123 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 123 SECTION 10 APPENDICES...

  • Page 124: Frick® Serial Communications Converter Module

    Press the tabs using the thumb and finger, and with your other hand carefully slide the circuit board out of Frick® Controls has developed a DIN-rail mountable the housing. Ensure that proper anti-static guidelines communications module for the purpose of converting are followed while handling the circuit board.

  • Page 125: Wiring The Module

    Refer to the following figure for the pin connections snap the other latch onto the opposite side of the showing how to wire a standard 9-Pin RS-232 connec- DIN rail, as shown below: tor directly to the Frick® Communications Converter Module: RS-232 9-Pin Connector...

  • Page 126: Quantum™ Lx Ethernet Communications Wiring

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 126 COMMUNICATIONS SETUP APPENDIX B QUANTUM™ LX ETHERNET COMMUNICATIONS WIRING...

  • Page 127: Quantum™ Lx Local Ethernet Configurations

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 127 APPENDIX C QUANTUM™ LX LOCAL ETHERNET CONFIGURATIONS Switch Computer Quantum™ LX Quantum™ LX Typical Small Local Quantum™ LX Ethernet Configuration Switch Switch Switch Computer Quantum™ LX Quantum™ LX Computer Quantum™...

  • Page 128: Quantum™ Lx Ethernet Network Configurations

    090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 128 COMMUNICATIONS SETUP APPENDIX D QUANTUM™ LX ETHERNET NETWORK CONFIGURATIONS Internet Ethernet Network Switch Computer Quantum™ LX Quantum™ LX Typical Small Quantum™ LX Ethernet Network Configuration Internet Ethernet Network Switch Switch Switch Computer...

  • Page 129: Quantum™ Lx Serial Communications Wiring

    QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 129 APPENDIX E QUANTUM™ LX SERIAL COMMUNICATIONS WIRING...
  • Page 130 090.610-CS (MAY 2016) QUANTUM LX EVAPORATOR CONTROL PANEL ™ Page 130 COMMUNICATIONS SETUP SERIAL CONNECTIONS PICTORIAL...
  • Page 131 QUANTUM LX EVAPORATOR CONTROL PANEL 090.610-CS (MAY 2016) ™ COMMUNICATIONS SETUP Page 131 SERIAL CONNECTIONS PICTORIAL (Continued)

  • Page 132: Serial Communications Wiring Diagrams

    EVAPORATOR #4 Belden #9829 #24 AWG or Equal May 2016 Form Revisions – Updated page format throughout – Updated Frick Industrial Refrigeration logo throughout Form 090.610-CS (2016-05) JOHNSON CONTROLS Supersedes: 090.610-CS (2012-12) 100 CV Avenue Subject to change without notice Waynesboro, PA 17268-1206 USA Phone: 717-762-2121 •...

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