paxck - Red Lion Controls
Contents
1. SS EE SP1 SP2 SP3 SP4 49 5 5 PAR F1a F2 sr 40 _ 4 10 3 80 L 96 5 2 5 TABLE OF CONTENTS Ordering Information 2 3 0 Installing Option Cards 7 Using This 3 4 0 Wiring the Meter 7 Crimson Programming Software 3 5 0 Reviewing the Front Buttons and Display 9 General Meter Specifications 4 6 0 Programming the Meter 10 Option Cards 5 6 9 Factory Service Operations 9 F S 25 1 0 Installing the Meter 6 Programming Quick Overview 28 2 0 Setting the Jumpers 6 CK Timer Real Time Clock TM Timer 0 Red Sunlight Readable Display 1 Green Display 0 85 to 250 VAC 1 11 to 36 VDC 24 Option Card and Accessory Part Numbers CBLUSB USB Programming Cable Type A Mini B CBLUSBO1 Accessory SFCRD Crimson 2 Programming Software for Windows OS SFCRD200 This card is not suitable for use in older PAX models For proper installation a case knock out feature must be present on the top surface of the PAX case This feature began to be introduced to the standard PAX units in July of 2014 2614 Crimson software is available for free2. 4 0 WIRING THE METER WARNING Exposed line voltage will be present on the circuit boards when power is applied Remove all power to the meter AND load circuits before accessing the meter To Install 1 For option card specific installation instructions see the installation instructions provided with the option card being installed 2 When handling the main circuit board hold it by the rear cover When handling the option card hold it by the terminal block Remove the main assembly from the rear of the case by squeezing both finger holds on the rear cover and pulling the assembly out of the case Or use a small screwdriver to depress the side latches and pull the main assembly out of the case Do not remove the rear cover from the main circuit board 4 Locate the appropriate option card slot location on the main circuit board Align the option card terminal block with the slot terminal block position on the rear cover Align the option card connector with the main circuit board option card connector and then press to fully engage the connector Verify the tab on the option card rests in the alignment slot on the display board If installing an option card that includes a terminal block on the top of the option card a knock out on the top of the PAX case will need to be removed to allow the top terminal block to be inserted later Locate the shaped kno
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4. YRL UYE YRL UE 000 00 008 00 0080 00 000 00 000 00 008 00 000 00 000 00 008 00 O00 00 O00 00 088 00 000 00 008 00 000 00 008 00 Mon Fri Mon Fri Mon Fri Mon Fri Mon Fri Mon Fri Mon Fri Mon Fri Mon Fri Mon Fri Mon Fri Mon Fri Mon Fri Mon Fri Mon Fri Mon Fri n n n no no no n no no n n fg nir Rar nir nir OFF OFF OFF OFF 8 Real Time Clock Parameters EDU USER SETTING DISPLAY PARAMETER UN USER SETTING 4500 dSP k TIME DISPLAY FORMAT i2 58P 1 d5P d DATE DISPLAY FORMAT 2 31 Odd Eh dS amp E AUTO TIME CHANGE FOR 0 51 ng 00 SYNE SYNCHRONIZATION UNIT TYPE SLRUE nn CAL CALIBRATE REAL TIME CLOCK YES RTC CALIBRATION OFFSET VALUE 00 YES fg nn 9 FES Factory Service Parameters DISPLAY PARAMETER USER SETTING fg d LEl DISPLAY INTENSITY LEVEL 3 SYNC 16 gt Yn po ADDITIONAL SLAVE SYNC COMM 18 gt METERS 16m 17 4 18 9 1617 18 19 HOST METER SYNC NIC 9 19 L COMM COMM SYNC SYNC TX RX TX RX SLAVE METER SLAVE METER Real Time Clock Synchronization Network 27 PAXTM PAXCK PROGRAMMING QUICK OVERVIEW Jequunu julodjas u 390 O uolgzluoiuSu sS 2010 104 ed pu 085 suondo jud UM 104 luluq 390 O Mn yewo e dsiq 3a Bunutiq
5. PRINT OPTIONS k dSP TIMER DISPLAY 45 CYCLE COUNTER DISPLAY rkL d RTC DATE DISPLAY rkL E RTC TIME DISPLAY SPRE SETPOINT VALUES SETPOINT OFF TIME OUT VALUES See Module 2 Exchanging Parameter Lists for details on programming this value Shaded areas are model dependent PAXCK Application A big application request has always been for Real Time Clocks to display time throughout the plant The challenge has been to keep all the various clock locations synchronized with the right time With the new PAXCK Timer Real Time Clock this problem is history The clocks can be provided in three different sizes the PAXCK 0 56 inch LEDs the LPAXCK 1 5 inch LEDs or the EPAX 4 inch LEDs You can mix and match any number of the two versions up to a maximum of 32 units Simply select one of the units in the system as the host and the balance are programmed as slaves The host will send out a synchronization pulse every hour to correct the time on any clock unit wired in the system SP 1 5 2 5 3 SP 4 PE USER SETTING USER SETTING Coe USER SETTING USER SETTING LRELH LREEH nir Rar nir nir 000000 000000 000000 000000 000000 000000 000000 000000
6. JUMPER SELECTIONS The indicates factory setting INPUT JUMPER TIMER INPUT USER 4 1 SRC SNK J USER INPUT LOGIC JUMPER J SRC JUMPER 55 SNK REAR TERMINALS SNK 1 REAR TERMINALS 3 0 INSTALLING OPTION CARDS The option cards are separately purchased optional cards that perform specific functions These cards plug into the main circuit board of the meter The option cards have many unique functions when used with the meters CAUTION The option and main circuit boards contain static AN sensitive components Before handling the cards discharge static charges from your body by touching a grounded bare metal object Ideally handle the circuit boards at a static controlled clean workstation Dirt oil or other contaminants that may contact the circuit boards can adversely affect circuit operation Ali t eine TOP VIEW v m re nam Main Circuit Board Tr j ini Real Time VIE i L Clock Card Connectors L Serial E Setpoint Communications l Output Card i Pal Card me NB dd dun EN l KZ KD KD KD KD KD DD KD KD KD OOOO OF OOS
7. gt Setpoint Register 1 Register Names are also used as Register Mnemonics during full transmission 2 The registers associated with the P command are set up in Print Options Module 7 3 Unless otherwise specified the Transmit Details apply to both T and V Commands Command String Examples 1 Address 17 Write 350 to Setpoint 1 String N17VE350 2 Address 5 Cycle Counter value response time of 50 to 100 msec min String NOSTB 3 Address 0 Reset Timer value String RA Transmitting Data To the Meter Numeric data sent to the meter must be limited to Transmit Details listed in the Register Identification Chart Leading zeros are ignored The meter ignores any decimal point and conforms the number to the scaled resolution ie The meter s scaled decimal point position is set for 0 0 and 25 is written to a register The value of the register is now 2 5 In this case write a value of 250 to equal 25 0 For RTC Time C and Date D Value Time 24 Hours Minutes Seconds HHMMSS Ex 083000 8 30 AM 144500 2 45 PM Date Month Day Year mmddyy Ex 123101 December 31 2001 Day 1 Sunday through 7 Saturday EX 3 Tuesday Notes 1 Since the meter does not issue a reply to value change commands follow with a transmit value command for readback verification 2 The date and day must be set separately Transmitting Data From the Meter Data is transmitted from the meter in response
8. timing and counting ceases for the displays entered as YES in the sublist The inhibit function is not a t Strt or SEOP event in Setpoint programming This function does not apply to RTC Time or Date displays Program only one user input for this function DISPLAY DESCRIPTION FACTORY b d5P Timer ng d5P Cycle Counter fg CHANGE DIRECTION Level Active USEr F 5 r i h d r When active maintained action the timing or counting direction for the display entered as 5 in the sublist will be reversed from the direction set by the Timing Direction E d r and or Counting Direction d parameters in Modules 1 and 4 Program only one User Input per display for this function This function does not apply to RTC Time or Date displays DISPLAY DESCRIPTION FACTORY E dSP Timer ng d5P Cycle Counter fg CHANGE DISPLAY INTENSITY LEVEL USEr 4 FAG OUTPUT SET Level Active S d LEU b d LEU When activated momentary action the display intensity changes to the next intensity level of 4 The four levels correspond to Display Intensity Level d LEU settings of 0 3 8 amp 15 The intensity level when changed via the User Input Function Key is not retained at power down unless Quick Programming or Full Programming mode is entered and exited The unit will power up at the last saved intensity level Note The next two paramet
9. CYCLE COUNTER DISPLAY Counter Range 0 to 999999 Digit Resolution 1 cycle Maximum Count Rate 50 Hz 8 REAL TIME DATE DISPLAY Real Time Display 5 display formats Hr Min Sec 12 or 24 Hr format Hr Min 24 Hr Hr Min 12 Hr with or without AM PM indication Date Display 7 display formats Month Day or Day Month numeric or 3 letter Month format Month Day Year or Day Month Year all numeric Day of Week Day 3 letter Day of Week format 9 REAL TIME CLOCK CARD Field replaceable option card Time Accuracy 5 secs Month 1 min year with end user calibration Battery Lithium 2025 coin cell Battery Life Expectancy 10 yrs typical Synchronization Interface Two wire multi drop network RS485 hardware 32 units max operates up to 4000 ft Isolation To Timer amp User Input Commons 500 Vrms for 1 min Not isolated from all other commons 10 TIMER INPUTS A and B Logic inputs configurable as Current Sinking active low or Current Sourcing active high via a single plug jumper Current Sinking active low Vi 0 9 V max 22 pull up to 12 VDC Current Sourcing active high Vi 3 6 V min 22 pull down Max Continuous Input 30 VDC Timer Input Pulse Width 1 msec min Timer Start Stop Response Time 1 msec max Filter Software filtering provided for switch contact debounce Filter enabled or disabled through programming If enabled filter results in 50 msec start stop response time for successive
10. FLASH taP uUP er P uP Timer Range Timer Input Operation Timer Input Filtering Timing Direction Value Module 1 is the programming module for the Timer Input Parameters In the Display Mode the TMR annunciator indicates the Timer display is currently being shown An EXCHANGE PARAMETER LISTS feature which includes the Timer Start and Timer Stop Values is explained in Module 2 TIMER RANGE 23 TIMER RANGE SELECTIONS 5 SEC MIN H HR d DAY rc ANGE o 555555 RANGE MAXIMUM DISPLAY RANGE MAXIMUM DISPLAY SELECTION DISPLAY RESOLUTION SELECTION DISPLAY RESOLUTION SECONDS MINUTES SECONDS 555555 999999 1 SEC nnnnss 999959 1 555555 999999 0 1 SEC nnnss5 999599 0 1 SEC 555555 999999 0 01 SEC ARSSSS 995999 0 01 SEC 555555 999999 0 001 SEC 55555 959999 0 001 SEC MINUTES HOURS MINUTES nnnnnn 999999 1 MIN HHHHM n 999959 1 MIN nnnnnn 999999 0 1 MIN 999599 0 1 MIN nnnnnn 999999 0 01 MIN 995999 0 01 MIN nnnnnn 999999 0 001 MIN 959999 0 001 MIN HOURS HOURS MINUTES SECONDS HHHHHH 999999 1HR HHARSS 995959 1 SEC HHHHHH 999999 0 1 HR HARSSS 959599 0 1 SEC HHHHHH 333333 001HR DAYS HOURS MINUTES HHHHHH 999999 0 001 HR ddHM nm 992359 1 MIN TIMER INPUT OPERATION RP DP A LEVEL EdSE 2 2 LEMEL C IEurSk EdrS 1 EdeS 2 MrSb 2 This parameter deter
11. HH TAP HOURS MINUTES Am Pm Date Display Format Calibrate Real Time Clock Auto Change for Daylight Savings Time Meter Type for Clock Synchronization SET DATE SEE d e m This parameter sets the Date for the Real Time Clock Selecting 4E5 will display the sub menu where the Date can be set or changed The RTC Date is entered in Month Day Year format two digit values When the PAR key is pressed the new Date is entered Select to advance to the next parameter without changing the Date M Bu Ag YES nn dd H MONTH DAY YEAR SET DAY dR 4 Morn kuE luEd thu Free SRE Sun Set the Day of the week for the Real Time Clock 23 TIME DISPLAY FORMAT 45 9 2 59P 2 59 W fg SqP 125959 235959 Select the format in which the Real Time Clock Time will be displayed The format selections depict the range for the RTC Time display and DO NOT represent the current RTC Time When the meter is operating in the Display Mode the RTC Time display is shown with no annunciator 203 59 DATE DISPLAY FORMAT dSP d si sce ias 00 3 1 30480 Sun F Select the format in which Real Time Clock Date will be displayed The format selections depict the range for the RTC Date display and DO NOT represent the current RTC Date When the meter is operating in th
12. THER F 9 SL 0 With this selection NO function is performed This is the factory setting for all user inputs and function keys except the Reset RST Key 12 PROGRAMMING MODE LOCK OUT USEr Q PLDL Programming Mode is locked out as long as activated maintained action In Module 3 certain parameters can be setup where they are still accessible during Programming Mode Lock out A security code can be configured to allow complete programming access during User Input lock out This parameter does not apply to the function keys Program only one user input for this function EXCHANGE PARAMETER LISTS USEr 0 F O Lt5t O LISE Two lists of parameter entries are available for the Timer Counter Start and Stop Values Setpoint On Off and Time Out Values and Setpoint Daily On Off Occurrence for Real Time Clock option The two lists are named t 5 and L SE b If a User Input is used to select the list then L 5k A is selected when the User Input is in the inactive state and SE b is selected when the User Input is in the active state maintained action If a front panel Function Key is used to select the list then the list will toggle for each key press momentary action The display will only indicate which list is active when the list is changed or when entering any Programming Mode To program the values fort 5E Rand L 5 b first complete the
13. User Input Commons 2300 Vrms for 1 min Contact Rating One Relay Energized 3 amps 240 VAC or 30 VDC resistive load Total current with all four relays energized not to exceed 4 amps Life Expectancy 100K cycles min at full load rating External RC snubber extends relay life for operation with inductive loads QUAD SINKING OPEN COLLECTOR CARD PAXCDS30 Type Four isolated sinking NPN transistors Isolation To Sensor amp User Input Commons 500 Vrms for min Not Isolated from all other commons Rating 100 mA max 0 7 V max 30V QUAD SOURCING OPEN COLLECTOR CARD PAXCDS40 Type Four isolated sourcing PNP transistors Isolation To Sensor amp User Input Commons 500 Vrms for min Not Isolated from all other commons Rating Internal supply 24 VDC 10 30 mA max total External supply 30 VDC max 100 mA max each output DUAL TRIAC DUAL SSR DRIVE CARD PAXCDS50 Triac Type Isolated zero crossing detection Voltage 260 VAC max 20 VAC min Max Load Current 1 Amp 25 C 0 75 Amp 50 C Total load current with both triacs ON not to exceed 1 5 Amps Min Load Current 5 mA Off State Leakage Current 1 mA max 60 Hz Operating Frequency 20 400 Hz SSR Drive Type Two isolated sourcing PNP Transistors Isolation To Sensor amp User Input Commons 500 Vrms for 1 min Not Isolated from all other commons Rating Output Voltage 18 24 VDC unit dependent 10 30 mA max total both outputs Q
14. pulses on the same input terminal 11 USER INPUTS Three programmable user inputs Logic inputs configurable as Current Sinking active low or Current Sourcing active high through a single plug jumper Current Sinking active low Vy 0 9 V max 22 pull up to 12 VDC Current Sourcing active high Vi 3 6 V min 22 pull down Max Continuous Input 30 VDC Isolation To Timer Input Common Not isolated Response Time 10 msec 12 MEMORY Non volatile E7PROM retains all programming parameters and display values 13 ENVIRONMENTAL CONDITIONS Operating Temperature Range 0 to 50 C 0 to 45 C with all three option cards installed Storage Temperature Range 40 to 60 C Operating and Storage Humidity 0 to 85 max RH non condensing Vibration to IEC 68 2 6 Operational 5 to 150 Hz 2 g Shock According to IEC 68 2 27 Operational 25 g 10 g relay Altitude Up to 2000 meters 14 CERTIFICATIONS AND COMPLIANCE CE Approved EN 61326 1 Immunity to Industrial Locations Emission CISPR 11 Class A Safety requirements for electrical equipment for measurement control and laboratory use EN 61010 1 General Requirements EN 61010 2 030 Particular Requirements for Testing and Measuring Circuits RoHS Compliant UL Recognized Component File E179259 UL Listed File E137808 Type 4X Enclosure rating Face only IP65 Enclosure rating Face only IP20 Enclosure rating Rear of unit Note Refer to the EMC Installation Guid
15. DIRECTION LE COUNTER START VALUE A LE COUNTER START VALUE B LE COUNTER STOP A amp B LE COUNTER STOP VALUE A LE COUNTER STOP VALUE B CNTR RESET AT POWER UP 5 IPEr Timer Operating Modes DISPLAY PARAMETER OPEr PREDEFINED TIMER OPER 5P 1 SETPOINT 1 ON VALUE SP F SETPOINT 1 OFF VALUE SETPOINT 1 TIME OUT VALUE FACTORY SETTING rEd LOC LOC LOE LOE 000 FACTORY SETTING uP 000000 000000 Ag 000000 000000 Ag FACTORY SETTING Ag 000000 000 00 000 10 USER SETTING USER SETTING USER SETTING 5 Setpoint Alarm Parameters DISPLAY PARAMETER ASR n SETPOINT ASSIGNMENT SETPOINT ACTION OUTPUT LOGIC Ofl n SETPOINT ON A SETPOINT ON BY 5P n SETPOINT ON VALUE A SETPOINT ON VALUE B OFF n SETPOINT OFF A SETPOINT OFF BY SP F n SETPOINT OFF VALUE A SETPOINT OFF VALUE BY TIME OUT VALUE A TIME OUT VALUE B d DAILY ON OCCURRENCE A DAILY ON OCCURRENCE B d FF n DAILY OFF OCCURRENCE A DAILY OFF OCCURRENCE B ESEP n TIMER STOP TIMER COUNTER AUTO RESET Or Sd n OUTPUT RESET W DISPLAY RESET SETPOINT ANNUNCIATOR P UP n POWER UP STATE 1 5rL Serial Communication Parameters DISPLAY PARAMETER bRUd BAUD RATE dRER DATA BITS PRr PARITY BIT Rddr METER UNIT ADDRESS Abbr ABBREVIATED PRINTING rk Fk REAL TIME CLOCK PRINT FORMAT
16. b Skrk b Skrk Setpoint On Value T N A 1 Setpoint Off N A VALUE N A UALUE N A SPOF Setpoint Off Value N A T T2 N A T N A LOUL Time out Value N A N A N A T2 N A T ESEP Timer Stop no O OFF no O OFF O OFF O OFF RUED Timer Counter Auto Reset no no O OFF no fg OrSd Output Reset w display Reset Mg Mg no no fg n L k 1 Setpoint Annunciator n r n r nir nir nir n r P UP Power up State OFF OFF OFF OFF OFF OFF Refer to timing diagrams These parameters are the actual Setpoint On Off or Time Out values set by the user for the specific application 17 6 6 MODULE 6 SETPOINT ALARM PARAMETERS 5 5 This module can only be accessed if a Setpoint Card is installed PARAMETER MENU m ASA a Duk D n n n Setpoint Select Setpoint Assignment Setpoint Action Output Logic PAXCK ONLY PAXCK ONLY Time Out Value Setpoint Setpoint On Off DR I ad nt SEP AU rbd n P uP n Timer Stop Daily On Occurence Daily Off Occurence Module 6 is the programming module for the Setpoint Alarm Output Parameters This programming module can only be accessed if a Setpoint card is installed Depending on the card installed there will be two or four Se
17. download from http www redlion net UsING THIS MANUAL This manual contains installation and programming instructions for the PAX and all applicable option cards To make installing the option card easier it is recommended to use the Installation Guide provided with the card Only the portions of this manual that apply to the application need to be read Minimally we recommend that General Specifications Reviewing the Front Buttons and Display and Crimson Programming Software portions of this manual be read in their entirety We recommend that unit programming be performed using Crimson programming software When using Crimson the programming portion of this expanded explanations of some of the PAX programming features found in Crimson For users who do not intend to use Crimson to program their unit this manual includes information to provide for a user to program one or all of the programming parameters using the unit s keypad To find information regarding a specific topic or mnemonic it is recommended that the manual be viewed on a computer and the find function be used The alternate method of finding information is to identify the programming parameter involved and review the information contained in the section of the manual that pertains to that parameter manual serves as an overview of the programming options that are available through Crimson The programming section of the manual will serve to provide CR
18. for the Real Time Clock is shown with no annunciator Any of these displays can be locked from view with the DISPLAY LOCK OUT parameters Using these parameters each display can be programmed for Read or Lock defined as follows SELECTION DISPLAY DESCRIPTION Read rEd Visible in Display Mode Lock LOE Not visible in Display Mode TIMER DISPLAY LOCK OUT CYCLE COUNTER DISPLAY LOCK OUT PAXCK REAL TIME CLOCK DATE TIME DISPLAY LOCK OUT E d5P A E dSP rkE d Q rEd LULU LOC S L t These displays can be programmed for rEd or LOE When a particular meter function is not used the Display Lock out should be set to BE for that display PROGRAM LOCK OUT PARAMETERS VALUE ACCESS Full Programming Mode permits all parameters to be viewed and modified This programming mode can be locked with a Security Code and or a User Input When locked and the PAR key is pressed the meter enters a Quick Programming Mode In this mode access to Setpoint Values Timer amp Cycle Counter Start Stop Values and Time Setting for the Real Time Clock can be programmed for Read Enter or Lock defined as follows Lock Not visible in Quick Programming Mode SETPOINT 1 to 4 VALUE ACCESS 1 thru 4 SP a A SPOF als EDUE alS o Loe gt Lat E Lor Setpoint Values for SP1 thru SP4 can be programmed for rEd or LOL SPOF n and EDU n are
19. for this function DISPLAY DESCRIPTION FACTORY SP Setpoint 1 ng 52 2 Setpoint 2 n 52 3 Setpoint 3 ng 5P 4 Setpoint 4 ng 14 USEr Q L SEE L When activated maintained action the meter continually activates the output for all Setpoints entered as 5 in the sublist DISPLAY SP 5P 2 5 3 5 DESCRIPTION FACTORY Setpoint 1 ng Setpoint 2 ng Setpoint 3 ng Setpoint 4 ng OUTPUT SET Edge Triggered USEr 9 S OSEE E F ils SEEE When activated momentary action the meter activates the output for all Setpoints entered as HE5 in the sublist DISPLAY SP 5P 2 5 3 SP 4 DESCRIPTION FACTORY Setpoint 1 n Setpoint 2 n Setpoint 3 n Setpoint 4 n OUTPUT RESET Level Active USEr UA SUE EI Fas Er Sk k When activated maintained action the meter continually deactivates the output for all Setpoints entered as 5 in the sublist DISPLAY SP 1 5P 2 5 3 5P DESCRIPTION FACTORY Setpoint 1 no Setpoint 2 no Setpoint 3 no Setpoint 4 no OUTPUT RESET Edge Triggered USEr Or Sk E F Gr St E When activated momentary action the meter deactivates the output for all Setpoints entered as HE5 in the sublist DISPLAY 5P 5P 2 5 3 SP 4 DESCRIPTION FACTORY Setpoint 1 ng Setpoint 2 ng Set
20. necessary Meter addresses 98 and 99 are distinguished as follows With address 98 the meter will transmit the change to all meters on the RS485 bus addressed as 0 This is useful when using both newer or older software code version meters or when another master computer operator interface is not being used With address 99 the meter will transmit the change to all software code version 2 3 or greater meters on the RS485 bus using a global broadcast address suffix This is useful when it is necessary to have unique or other than 0 serial meter addresses or when having a computer or operator interface connected SENDING SERIAL COMMANDS AND DATA When sending commands to the meter a string containing at least one command character must be constructed A command string consists of a command character a value identifier numerical data if writing data to the meter followed by the command terminator character or DESCRIPTION Node Meter Address Specifier NOTES Address a specific meter Must be followed by node address Not required when address 00 Read a register from the meter Must be Transmit Value read followed by register ID character Write to register of the meter Must be followed by register ID character and numeric data Value change write Reset a register or output Must be followed by register ID character Initiates a block print output Registers are defined in programming Reset
21. on the number of characters and baud rate of the channel At the end of ts the meter is ready to receive the next command ts 10 times the of characters baud rate 22 SERIAL TIMING COMMAND COMMENT PROCESS TIME t2 R Reset 2 50 msec V Write 100 200 msec T Transmit 2 50 msec for 50 100 msec for P Print 2 50 msec for 50 100 msec for Timing Diagrams NO REPLY FROM METER Command Meter String Response Transmission Time Ready t t Ready RESPONSE FROM METER I Ready t a t t Ready Command First Reply Terminator Character Transmission Received of Reply Time COMMUNICATION FORMAT Data is transferred from the meter through a serial communication channel In serial communications the voltage is switched between a high and low level at a predetermined rate baud rate using ASCII encoding The receiving device reads the voltage levels at the same intervals and then translates the switched levels back to a character The voltage level conventions depend on the interface standard The table lists the voltage levels for each standard LOGIC INTERFACE STATE RS232 RS485 1 mark idle TXD RXD 3 to 25 V a b lt 200 mV 0 space active TXD RXD 3 to 25 V a b gt 200 mV Voltage levels at the Receiver Data is transmitted one byte at a time with a variable idle period between characters Each ASCII character is framed with a beginnin
22. source User Input 1 can still be programmed to perform a User Function described in Module 2 if desired In this case the Cycle Counter would be counting the number of times the particular User Function occurred The Timer Reset E r 5E selection generates a count when either a manual or automatic reset occurs See Module 6 for programming Automatic Resets The Output ON OFF selections generate a count when the chosen output either activates or deactivates These selections only appear when a Setpoint Card is installed O3 and O4 selections only appear for Quad Setpoint cards CYCLE COUNTER COUNTING DIRECTION L d r gt Counting direction can be reversed through a User Input See Module 2 Predefined Timer Operating Mode Setpoint 1 On Value Only the value parameters which apply to the selected mode will appear PREDEFINED TIMER OPERATING MODE t lt 41 On Delay Timing EN D 41 Off Delay Timing rEPERE Repeat Cycle Timing dLM On Delay Interval Timing fI E L Interval Timing Level Triggered Interval Timing Edge Triggered This parameter is used to select Predefined Operating Modes for the Timer These modes cover a variety of timing applications frequently encountered in industrial control processes When using a Predefined mode the operator needs only to set the actual Setpoint On Off or Time out val
23. stop values and RTC daily on and off values DIMENSIONS In inches mm REAL TIME CLOCK 6 DIGIT 0 56 RED SUNLIGHT READABLE DISPLAY 4 SEPARATE DISPLAYS TIMER COUNTER REAL TIME CLOCK AND DATE CYCLE COUNTING CAPABILITY PROGRAMMABLE FUNCTION KEYS USER INPUTS FOUR SETPOINT ALARM OUTPUTS W OPTION CARD COMMUNICATIONS AND BUS CAPABILITIES W OPTION CARD BUS CAPABILITIES DEVICENET MODBUS AND PROFIBUS DP CRIMSON PROGRAMMING SOFTWARE NEMA 4X IP65 SEALED FRONT BEZEL Optional digital output cards provide the meter with up to four setpoint outputs The cards are available as dual relay quad relay quad sinking transistor quad sourcing transistor SSR drive or dual triac dual SSR drive outputs The setpoint alarms can be configured to suit a variety of control and alarm requirements Communication and Bus Capabilities are also available as option cards These include RS232 RS485 Modbus DeviceNet and Profibus DP Readout values and setpoint alarm values can be controlled through the bus Additionally the meters have a feature that allows a remote computer to directly control the outputs of the meter With an RS232 or RS485 card installed it is possible to configure the meter using a Windows based program The configuration data can be saved to a file for later recall Once the meters have been initially configured the parameter list may be locked out from further modification entirely or the setpoint t
24. to either a transmit command T a print block command P or User Function print request The response from the meter is either a full field transmission or an abbreviated transmission The meter response is established in Module 7 Full Transmission Abbr AB BYTE DESCRIPTION 1 2 2 byte Node Meter Address field 00 99 3 SP Space 4 6 3 byte Register Mnemonic field 7 18 12 byte numeric data field 6 bytes for number up to 3 for decimal points 19 CR Carriage return 20 lt LF gt Line feed 21 SP Space 22 CR Carriage return 23 LF Line feed These characters only appear in the last line of a block print The first two characters transmitted are the unit address If the address assigned is 0 two spaces are substituted A space follows the unit address field The next three characters are the register mnemonic The numeric data is transmitted next The numeric field is 12 characters long decimal points are loaded depending on timer range selected The data is right aligned with leading spaces for any unfilled positions The end of the response string is terminated with CR and lt LF gt When a block print is finished an extra SP CR and lt LF gt are used to provide separation between the transmissions Abbreviated Transmission Abbr 5 BYTE DESCRIPTION 1 12 12 byte data field 6 bytes for number up to 3 bytes for decimal points 13 CR Carriage return 14 L
25. 7 327 63 169 48 6 9 MODULE 9 Factory SERVICE OPERATIONS 5 F 5 PARAMETER MENU Factory Intensity Level Service Code DISPLAY INTENSITY LEVEL RESTORE FACTORY DEFAULTS d n L EV Q Enter the desired Display Intensity Level 0 15 by Code lt Use the RST and or arrow keys to display dE 266 and using the arrow keys The display will actively dim or press PAR The meter will display rESEE and then returns S brighten as the levels are changed This parameter also g b b to 050 Press DSP key to return to the Display Mode appears in Quick Programming Mode when enabled This will overwrite all programmed user settings with the Factory Default Settings shown in the Parameter Value Chart For the PAXCK the Time and Date stored in the Real Time Clock as well as the RTC Claibration Offset value are NOT overwritten by this parameter However the Time and Date Display Formats will revert back to the Factory Default Settings TROUBLESHOOTING For further assistance contact technical support at the appropriate company numbers listed NO DISPLAY CHECK Power level power connections PROGRAMMING LOCKED OUT CHECK User input set for program lock out function is in Active state ENTER Security code requested CERTAIN DISPLAYS ARE LOCKED OUT CHECK Display Lock out programming in Module 3 MODULES or PARAMETERS NOT ACCESSIBLE CHECK Corresponding option card installation Program Lock out Value Access parame
26. AX meter ignores the parity bit of incoming data and sets the parity bit to odd even or none mark parity for outgoing data Stop Bit The last character transmitted is the stop bit The stop bit provides a single bit period pause to allow the receiver to prepare to re synchronize to the start of a new transmission start bit of next byte The receiver then continuously looks for the occurrence of the start bit If 7 data bits and no parity is selected then 2 stop bits are sent from the PAX 6 8 MODULE 8 REAL TIME CLOCK PARAMETERS 8 PAXCK PARAMETER MENU Set Time Set Date Set Day Time Display Format Module 8 is the programming module for the Real Time Clock RTC Date and Time Parameters In the Display Mode the DAT annunciator indicates the RTC Date is currently being shown The RTC Time display is shown with no annunciator This programming module can only be accessed if a Real Time Clock card is installed SET TIME Ag YES m This parameter sets the Time for the Real Time Clock Selecting 4E5 will display the sub menu where the Time can be set or changed The RTC Time is entered in Hours Minutes 12 hour format with AM PM indication When the PAR key is pressed the new Time is entered and begins running The Seconds always start from 00 when the Time is entered Select AG to advance to the next parameter without changing the Time D tg QR
27. Active USEr Iq F 5 V dr 5k L V dr 5k L When active maintained action the meter continually resets only the currently shown display If the RTC Time or Date is displayed this function applies to the Outputs assigned to the RTC and does not Reset the actual RTC Time or Date display See Module 6 for details on Output Assignment and Output Reset with Display Reset DISPLAY RESET Edge Triggered USEr 0 F Olde Sk E ide Sk E When activated momentary action the meter resets only the currently shown display This is the factory setting for the Reset RST key If the RTC Time or Date is displayed this function applies to the Outputs assigned to the RTC and does not Reset the actual RTC Time or Date display See Module 6 for details on Output Assignment and Output Reset with Display Reset MAINTAINED RESET Level Active x F eSE When active maintained action the meter continually resets the displays entered as YE5 in the sublist The sublist appears when the PAR key is pressed This function does not apply to the RTC Time or Date displays DISPLAY DESCRIPTION FACTORY E d5P Timer ng L d5P Cycle Counter fg MOMENTARY RESET Edge Triggered USEr UQ Fils eSE E i eSE E When activated momentary action the meter resets the displays entered as MES in the sublist Function does not apply to RT
28. Block Print Request read Command Chart Command String Construction The command string must be constructed in a specific sequence The meter does not respond with an error message to invalid commands The following procedure details construction of a command string 1 The first characters consist of the Node Address Specifier N followed by a l or 2 character address number The address number of the meter is programmable If the node address is 0 this command and the node address itself may be omitted The address suffix is the global broadcast address specifier A command string that is sent with N prefix will be accepted by all PAXCKs on the RS485 network software code version 2 3 or greater This is useful for setting all meters to the current time date or day that may have unique meter addresses on a bus It is important not to send P rint or T ransmit commands using N prefix as it will result in multiple meters responding at the same time This is the only command that may be used in conjunction with other commands 2 After the optional address specifier the next character is the command character 3 The next character is the Register ID This identifies the register that the command affects The P command does not require a Register ID character It prints according to the selections made in print the options If constructing a value change command writing data the numeric data is sent next 4 All com
29. C Time Date displays DISPLAY DESCRIPTION FACTORY E d5P Timer fg L d5P Cycle Counter fg 13 DISPLAY HOLD Level Active USE 1 FI s d HUL d When active maintained action the meter freezes the display values entered as HE5 in the sublist while normal meter operation continues internally Program only one user input for this function DISPLAY DESCRIPTION FACTORY b d5P Timer fg d5P Cycle Counter fg rkt d RTC Date fg rkt t RTC Time n DISPLAY HOLD and RESET Level Active Reset USEr 9 F v Hr5t L v Hr5k L When activated the meter freezes the display values entered as 4E5 in the sublist before performing an internal Maintained Reset on the selected displays This function does not apply to the RTC Time or Date displays DISPLAY DESCRIPTION FACTORY E d5P Timer n L d5P Cycle Counter n DISPLAY HOLD and RESET Edge Triggered Reset USEr Fils Mr 5E E SISE When activated the meter freezes the display values entered as 5 in the sublist before performing an internal Momentary Reset on the selected displays This function does not apply to the RTC Time or Date displays Program only one user input for this function DISPLAY DESCRIPTION FACTORY d5P Timer ng d5P Cycle Counter fg INHIBIT Level Active USEr 0 F tH the IHH the When active maintained action
30. F Line feed 15 SP Space 16 CR Carriage return 17 LF Line feed These characters only appear in the last line of a block print The abbreviated response suppresses the address and register mnemonics leaving only the numeric part of the response Note Transmissions are formatted to match the way the parameter is displayed This includes setpoints Example SP1 assigned to RTC RTC format 12 00 P SP1 printout 12 00 P Note When communicating with a Red Lion Controls HMI unit set Ft in programming module 7 serial to R This formats the RTC parameters to Time 24 Hours Minutes Seconds Date Month Day Year Day 1 Sunday through 7 Saturday Decimal points are substituted for all punctuation Meter Response Examples 1 Address 17 full field response Cycle Counter 875 17 CNT 875 lt CR gt lt LF gt 2 Address 0 full field response Setpoint 2 250 5 SP2 250 5 lt CR gt lt LF gt 3 Address 0 abbreviated response Setpoint 2 250 last line of block print 250 lt CR gt lt LF gt lt SP gt lt CR gt lt LF gt Auto Manual Mode Register MMR ID U This register sets the controlling mode for the outputs In Auto Mode 0 the meter controls the setpoint output In Manual Mode 1 the outputs are defined by the registers SOR When transferring from auto mode to manual mode the meter holds the last output value until the register is changed by a write Each output may be in
31. IMSON PROGRAMMING SOFTWARE Crimson software is a Windows based program that allows configuration of the PAX meter from a PC Crimson offers standard drop down menu commands that make it easy to program the controller The unit s program can then be saved in a PC file for future use PROGRAMMING USING CRIMSON Download or check for updates to Crimson at http www redlion net crimson2 Install Crimson Follow the installation instructions provided by the source from which Crimson is being downloaded or installed Install an appropriate communication option card PAXUSBOO PAXCDCIx or PAXCDC2x in the PAX and make necessary wiring connections from communication card to the PC Apply appropriate power to the PAX Start Crimson Select Link tab then select Options to configure verify Communications Port Baud Rate and unit address settings Select File tab then click on New Select PAX Panel Meters under the Product Family selection and then select the PAX model and version according to the PAX unit to be programmed Click A programming selection screen will appear Double click on an applicable programming selection and make program specific parameter selections When completed click Close and continue selecting applicable programming selections and making appropriate parameter selections Continue until all necessary programming parameters have been configured Hove
32. Input functions are disabled in Full Programming Mode User Inputs should be programmed while in the inactive state Three front panel Function Keys F1 F2 and RST are also individually programmable to perform specific meter control functions While in the Display Mode the primary function is executed when the key is pressed Holding the F1 or F2 Function Keys for three seconds executes a secondary function It is possible to program a secondary function without a primary function The front panel key functions are disabled in both Programming Modes In most cases if more than one User Input and or Function Key is programmed for the same function the maintained level active functions will be performed while at least one of those User Inputs or Function Keys are activated The momentary edge triggered functions are performed every time any of those User Inputs or Function Keys transition to the active state Some functions have a sublist of parameters which appears when PAR is pressed at the listed function A sublist provides yes no selection for Display Values or Setpoints which pertain to the programmed function The function will only be performed on the parameters entered as YES in the sublist If a User Input or Function Key is configured for a function with a sublist then that sublist will need to be scrolled through each time in order to access any parameters for the User Inputs or Function Keys which follow NO FUNCTION
33. O Sul BOY P E 7351 BuueyJ 2331 4 v 3309 yu wu ssy jutodjes yulodjes uono uiq Jejuno 5 O DEN enjeA dois 4035 4 1207 Ke dsiq Jejuno 5 O d5P j SLNdNI HASN g 7351 uoneJjedo 19497 iisu lul eldsiq Sul 195 y pneg PIS jutodjes peuyepeJd 2340 1 a eoJnog 1unoo Jejuno2 e o 9 P45 J a jno y901 Aejdsiq 13w11 M5P 3 a 435g BBUM a 23 L3 511 b Ble
34. R 3 SNK JUMPER SRC D JUMPER USER 1 USER 2 USER a oH oH V SUPPLY 30V max 4 4 SETPOINT ALARMS WIRING 4 5 SERIAL COMMUNICATION WIRING 4 6 REAL TIME CLOCK WIRING PAXCK Time synchronization between multiple See appropriate option card bulletin for details 16 PAXCK meters can be accomplished through a SYNC _ 1 hardware interface on the Real Time Clock option TX RX TO ADDITIONAL card This RS485 type interface allows connection I of up to 32 PAXCK meters in a two wire multidrop SUNG COMM I network at distances up to 4000 ft N C In a synchronization network one PAXCK meter is programmed as the Host while all other meters are programmed as Slaves Once every hour the Host meter outputs a time synchronization pulse onto the network Upon receiving the synchronization pulse each Slave meter automatically adjusts the minutes and seconds of HOST METER SLAVE METERS 16 Hu H1 A19 16 417 418 19 SYNC TX RX SYNC SYNC N C COMM COMM SYNC TX RX its RTC Time setting to synchronize with the Host SLAVE METER SLAVE METER Real Time Clock Synchronization Figure 5 0 REVIEWING THE FRONT BUTTONS AND DISPLAY Readout Legends KEY DISPLAY MODE OPERATION DSP Index
35. The Time Display for the Real Time Clock is shown with no annunciator Any of these displays can be locked from view through programming See Module 3 PROGRAMMING MODE Two programming modes are available Full Programming Mode permits all parameters to be viewed and modified Upon entering this mode the front panel keys change to Programming Mode operations This mode should not be entered while a process is running since the meter timing functions and User Input response may not operate properly while in Full Programming Mode Quick Programming Mode permits only certain parameters to be viewed and or modified When entering this mode the front panel keys change to Programming Mode operations and all meter functions continue to operate properly Quick Programming Mode is configured in Module 3 The Display Intensity Level d LEU parameter is only available in the Quick Programming Mode when the security code is non zero For a description see Module 9 Factory Service Operations Throughout this document Programming Mode without Quick in front always refers to Full Programming Mode PROGRAMMING TIPS The Programming Menu is organized into nine modules See above These modules group together parameters that are related in function It is recommended to begin programming with Module and proceed through each STEP BY STEP PROGRAMMING INSTRUCTIONS PROGRAMMING MODE ENTRY PAR KEY The Programming Mode is entered by pressi
36. Timer Stop Timer Reset Value Timer Input State at Power up at Power up Ed3E 2 Edr5 2 Edge Triggered Operation 2 Input Hold 2 HrSk 2 Edge Triggered Operation 2 Input with Display Hold Time Start INPUTA tar Time Stop N Time Start Time Start Time Start Display Display Update Display Update Update uH U U Display Update Vv INPUTA Time Stop Timer is reset at Time Start edge INPUT B INPUT B TIMER INPUT FILTERING F meee Provides a 50 msec debounce for the Timer Inputs A and B Select BA when using relays or switch contacts as a signal source on OFF TIMING DIRECTION LED Timing direction can be reversed through a User Input See Module 2 dfi TIMER START VALUE lt 000000 The Timer returns to this value whenever a Timer Reset occurs The value is entered in the same display format as the Timer Range selected Non zero values are normally used for timing down applications but they can also provide an offset value when timing up 000000 to 999999 TIMER STOP VALUE E SEUP SL mi The Timer stops when this value is reached regardless of the signal levels on the Timer Inputs Selecting 4E5 will display the URL UE sub menu where the Stop Value can be set or changed The Stop Value is entered in the same display
37. UAD FORM C RELAY CARD PAXCDS60 Type Four FORM C relays Isolation To Sensor amp User Input Commons 500 Vrms for 1 min Contact Rating Rated Load 3 Amp 30 VDC 125 VAC Total Current With All Four Relays Energized not to exceed 4 amps Life Expectancy 100 K cycles min at full load rating External RC snubber extends relay life for operation with inductive loads ALL SETPOINT CARDS Response Time 200 msec max to within 99 of final readout value digital filter and internal zero correction disabled 700 msec max digital filter disabled internal zero correction enabled 1 0 INSTALLING THE METER Installation The PAX meets NEMA 4X IP65 requirements when properly installed The unit is intended to be mounted into an enclosed panel Prepare the panel cutout to the dimensions shown Remove the panel latch from the unit Slide the panel gasket over the rear of the unit to the back of the bezel The unit should be installed fully assembled Insert the unit into the panel cutout LATCHING SLOTS PANEL LATCH if l PANEL GASKET LATCHING TABS While holding the unit in place push the panel latch over the rear of the unit so that the tabs of the panel latch engage in the slots on the case The panel latch should be engaged in the farthest forward slot possible To achieve a proper seal tighten the latch screws evenly until the unit is snug in the panel Torque to approximately 7 in lbs 79N cm Do not o
38. as shown in the parameter list Such events include the Timer starting E SErk or stopping 5 or by the action event that causes another Setpoint output to turn On or Off When programmed for an event the Setpoint must not be used as the Setpoint On event for another Setpoint Selecting YAL YE displays a sub menu where the Setpoint value is entered The Setpoint value is based on the meter display to which the Setpoint is assigned ASf n When assigned to the Timer or Cycle Counter the Setpoint value is entered in the same format as the assigned display When assigned to the Real Time Clock Date Display rt d the date value is entered in month day year format andd When assigned to the Real Time Clock Time Display rt t the Setpoint value is always entered in HH AAP format Hours Minutes with AM PM selection In Setpoint One shot mode See Daily On Occurrence the One shot Setpoint is enabled armed by scrolling the AM PM digit until the 2nd digit decimal point is lit 5 5 m 000000 to 999999 SETPOINT OFF alS URLUE E Skrk Of OR DIi 0FF 92 00 D2 0FF V URL UE 03 0 Di UFF 09 0 O4 OFF The Setpoint Off parameter only appears when the Setpoint Action n is programmed for On Off Output mode 01 0 In this mode this parameter determines when the Setpoint output will deactivate Output deactivation can occur at a specific Set
39. ayed The meter will recognize leap years and can automatically adjust for Daylight Savings Time The Real Time Clock has the ability to externally synchronize with other PAXCK meters to provide a uniform display network throughout the plant If the application calls for both a Preset Timer and a Real Time Clock at the same time the PAXCK can handle this requirement as well The meter provides up to four different displays accessed via front panel push buttons or external inputs The displays are Timer TMR which displays the current timer value Count CNT which displays the current cycle counter value Date DAT which displays the current programmed date and Real Time Clock which displays the current time A battery backed Real Time Clock card is provided with the PAXCK This card which includes a lithium coin cell battery will maintain the time and date when main power is removed The meters accept inputs from a variety of sources including switch contacts and outputs from CMOS or TTL circuits The input can be configured to trigger on the edge or level of the incoming pulse Internal jumpers are available to allow the selection for sinking inputs active low or sourcing inputs active high The front panel keys and three user inputs are programmable to perform various meter functions One of the functions includes exchanging parameter lists allowing for two separate listings of setpoint values timer start stop values counter start
40. be wired to both the Input A and User Input 1 terminals The Timer Input plug jumper and User Input 1 terminals The Timer Input plug jumper and the User Input plug jumper must both be set to the the User Input plug jumper must be set to opposite same position either both SNK or both SRC positions one SNK one SRC and the Input signal must be a current sinking type i e pulls input to common Repeat Cycle Timing rEPERE Interval Timing Edge triggered E Input Input A dro ap T1 T2 T1 T T lt T Output 1 I Output 1 Parameter Settings for Predefined Timer Operating Modes MODULE 1 Timer Input Parameters nP DISPLAY PARAMETER Of dhy OF 414 rEPERE di H E L Uk E Timer Input Operation EdrS 2 EdrS 2 EdrS 2 EdrS 2 EdrS 2 MODULE 2 User Input Parameters 2 210 DISPLAY PARAMETER Un dL4 OF diM rEPERE dh H Geek NE E USEr User Input 1 N A rSk L N A N A OrSe N A cSk Reset Key fg fg fg fg 5P a ng MODULE 6 Setpoint Parameters 4 5 t DISPLAY PARAMETER Un di4 4 rEPERE dt H L Int E GPSEL Setpoint Select 5 5 5 SP SP Sp RSA Setpoint Assignment E d 5P E d 5P E dSP E d 5P E d5P E d 5P REE Setpoint Action LAECH ON OFF ON OFF E ut ON OFF E ut out Output Logic har har har nir n r har on Setpoint On URL UYE b Skrk UALUE UALUE
41. bles within an enclosure should be routed as far away as possible from contactors control relays transformers and other noisy components 4 Long cable runs are more susceptible to EMI pickup than short cable runs In extremely high EMI environments the use of external EMI suppression devices such as Ferrite Suppression Cores for signal and control cables is effective The following EMI suppression devices or equivalent are recommended Fair Rite part number 0443167251 part number FCOR0000 Line Filters for input power cables Schaffner FN2010 1 07 Red Lion Controls LFIL0000 To protect relay contacts that control inductive loads and to minimize radiated and conducted noise EMI some type of contact protection network is normally installed across the load the contacts or both The most effective location is across the load a Using a snubber which is a resistor capacitor RC network or metal oxide varistor MOV across an AC inductive load is very effective at reducing EMI and increasing relay contact life b Ifa DC inductive load such as a DC relay coil is controlled by a transistor switch care must be taken not to exceed the breakdown voltage of the transistor when the load is switched One of the most effective ways is to place a diode across the inductive load Most RLC products with solid state outputs have internal zener diode protection However external diode protection at the load is always a good design p
42. ck out that aligns with the option slot for which the option card is being installed Carefully remove the knock out being careful not to remove additional knock outs Trim knock out tabs gates that remain on the case The top terminal block on the option card will need to be removed before completing step 6 Slide the assembly back into the case Be sure the rear cover latches engage in the case If option card includes a top terminal block install top terminal block at this time WIRING OVERVIEW Electrical connections are made via screw clamp terminals located on the back of the meter All conductors should conform to the meter s voltage and current ratings All cabling should conform to appropriate standards of good installation local codes and regulations It is recommended that the power supplied to the meter DC or AC be protected by a fuse or circuit breaker When wiring the meter compare the numbers embossed on the back of the meter case against those shown in wiring drawings for proper wire position Strip the wire according to the terminal block specifications stranded wires should be tinned with solder Insert the lead into the correct terminal and then tighten the terminal until the wire is secure Pull wire to verify tightness EMC INSTALLATION GUIDELINES Although Red Lion Controls Products are designed with a high degree of immunity to Electromagnetic Interference EMI proper installation and wiring meth
43. dependently changed to auto or manual In a write command string VU any character besides 0 or 1 in a field will not change the corresponding output mode U abcd d SP4 c SP3 b SP2 SPI Example VU0011 places SP3 and SP4 in manual Setpoint Output Register SOR ID X This register is used to view or change the states of the setpoint outputs Reading from this register TX will show the present state of all the setpoint outputs A 0 in the setpoint location means the output is inactive and a 1 means the output is active The output logic parameter in Module 6 will affect the active logic state X abcd 4 SP4 SP3 b SP2 SP1 In Automatic Mode the meter controls the setpoint output state In Manual Mode writing to this register VX will change the output state Sending any character besides 0 or 1 in a field or if the corresponding output was not first in manual mode the corresponding output value will not change Example VX10 will result in output 1 active and output 2 inactive COMMAND RESPONSE TIME The meter can only receive data or transmit data at any one time half duplex operation During RS232 transmissions the meter ignores commands while transmitting data but instead uses RXD as a busy signal When sending commands and data to the meter a delay must be imposed before sending another command This allows enough time for the meter to process the command and prepare fo
44. display through Timer Cycle Counter Date and Time PAR Access Programming Mode Function key 1 hold for 3 seconds for Second Function 1 F2Y Function key 2 hold for 3 seconds for Second Function 2 RST Reset Function key Cycle counter and Real Time Clock displays are locked out in Factory Settings Factory setting for the F1 and F2 keys is NO mode Factory setting for the RST key is dr 5 E Reset Display Setpoint Alarm Annunciators PROGRAMMING MODE OPERATION Exit programming and return to Display Mode Store selected parameter and index to next parameter Increment selected parameter value or selections Decrement selected parameter value or selections Selects digit location in parameter values 6 0 PROGRAMMING THE METER DISPLAY MODE n Display User Input Program Cycle Timer Input Function Key Lock out Counter p Parameters Parameters Parameters Parameters ro OVERVIEW PROGRAMMING MENU Predefined Timer Setpoint Serial Reol Factory Operating Alarm Communication Clock RTC Service Modes Parameters Parameters Parameters Operations DISPLAY MODE The meter normally operates in the Display Mode In this mode the meter displays can be viewed consecutively by pressing the DSP key The annunciators to the left of the display indicate which display is currently shown Timer TMR Cycle Counter CNT or Date DAT
45. e T command or a Block Print Request P command Select R for a Full print transmission which consists of the meter address mnemonics and parameter data Select 4E5 for abbreviated print transmissions consisting of the parameter data only This setting affects all the parameters selected in the PRINT OPTIONS Note If the meter address is 00 the address will not be sent during a Full transmission PAXCK REAL TIME CLOCK PRINT FORMATTING rkr FL S Ag YES EET VES This parameter determines the formatting of the Real Time Clock RTC values transmitted from the meter in response to a Transmit Value T command or a Block Print Request P command This parameter appears only when a Real Time Clock option card is installed When HES is selected RTC values are formatted as per the RTC Time and Date Display Formats programmed in Module 8 The Day of Week value is sent as a character string When 0 is selected the meter sends the RTC values as numeric data only This selection allows the RTC values to be recognized by the Red Lion HMI products RTC Time Date units are separated by The Day is sent as a single number as shown below TIME Hours 24 Hr format Minutes Seconds HHMMSS DATE Month Day Year mmddyy DAY 1 Sunday thru 7 Saturday PRINT OPTIONS Se This parameter selects the meter values transmitted in response to a Print Request A Print Request is someti
46. e Display Mode the RTC Date display is indicated by the DAT annunciator J 1299 AUTO CHANGE FOR DAYLIGHT SAVINGS TIME Ch a Selecting 4E5 allows the meter to automatically adjust the RTC Time for Daylight Savings Time Adjustment dates are U S A standard only Avoid setpoints that occur during adjustment Sundays 1 to 3 AM Ag YES METER TYPE FOR CLOCK SYNCHRONIZATION S SLAVE Time synchronization between multiple PAXCK meters can be accomplished through a hardware interface on the Real Time Clock option card This RS485 type interface allows connection of up to 32 PAXCK meters in a two wire multidrop network at distances up to 4000 ft See Section 4 6 Real Time Clock Wiring In a Synchronization network one PAXCK meter is programmed as the Host Hat while all other meters are programmed as Slaves SLRUE Once every hour at 30 min past the hour the Host meter outputs a time synchronization pulse onto the network Upon receiving the synchronization pulse each Slave meter automatically adjusts the Minutes and Seconds of its RTC Time setting to synchronize with the Host Synchronization using the Real Time Clock Wiring adjusts the Minutes and Seconds only and does not change the Hours AM PM Day or Date settings in the Slave meter s RTC Full time synchronization hours minutes and seconds is possible for PAXCKs that are connected in an RS485 network RS485 Serial Option cards req
47. ecrement the display to the desired value When an arrow key is pressed and held the display automatically scrolls up or scrolls down The longer the key is held the faster the display scrolls In addition the RST key can be used in combination with the arrow keys to enter numerical values The RST key is pressed to select a specific digit to be changed which blinks when selected Once a digit is selected the arrow keys are used to increment or decrement that digit to the desired number The RST key is then pressed again to select the next digit to be changed This select and set sequence is repeated until each digit is displaying the proper number Pressing the PAR key stores and activates the displayed value and also advances the meter to the next parameter PROGRAMMING MODE EXIT DSP KEY or PAR KEY at Pra fill The Programming Mode is exited by pressing the DSP key from anywhere in the Programming Mode or the PAR key with Pra displayed This will commit any stored parameter changes to memory and return the meter to the Display Mode If a parameter was just changed the PAR key should be pressed to store the change before pressing the DSP key If power loss occurs before returning to the Display Mode verify recent parameter changes 6 1 MODULE 1 TIMER INPUT PARAMETERS PARAMETER MENU P F ute tdv rt fert J et SLOP
48. elines section for more information 15 CONNECTIONS High compression cage clamp terminal block Wire Strip Length 0 3 7 5 mm Wire Gage 30 14 AWG copper wire Torque 4 5 inch Ibs 0 51 N m max 16 CONSTRUCTION This meter is rated for NEMA 4X IP65 outoor use IP20 Touch safe Installation Category I Pollution Degree 2 One piece bezel case Flame resistant Synthetic rubber keypad Panel gasket and mounting clip included 17 WEIGHT 10 1 oz 286 g OPTION CARDS WARNING Disconnect all power to the unit before installing option cards Adding Option Cards The PAX and MPAX series meters can be fitted with up to three option cards The details for each option card can be reviewed in the specification section below Only one card from each function type can be installed at one time The function types include Setpoint Alarms PAXCDS Communication PAXCDC or PAXUSB and Real Time Clock Card PAXRTC The option cards can be installed initially or at a later date COMMUNICATION CARDS PAXCDC A variety of communication protocols are available for the PAX and MPAX series Only one of these cards can be installed at a time When programming the unit via Crimson a Windows based program a USB RS232 or RS485 card must be used SERIAL COMMUNICATIONS CARD PAXCDC1_ and PAXCDC2_ Type RS485 or RS232 Isolation To Sensor amp User Input Commons 500 Vrms for min Not Isolated from all other commons Data 7 8 bits Baud 300
49. ers only appear when an RS232 or RS485 Serial Communications Card is installed in the meter PRINT REQUEST USEr UA F f NES Pron When activated the meter issues a block print through the serial port The specific values transmitted during a print request are selected with the Print Options parameter in Module 7 For User Inputs level active the meter transmits blocks repeatedly as long as the input is active For Function Keys edge triggered only one block is transmitted per key press PRINT REQUEST and RESET Edge Triggered USEr U F t Pr r SE EIE When activated momentary action the meter first issues a block print through the serial port and then performs a Momentary Reset on the displays entered as 5 in the sublist The specific values transmitted in the print block are selected with the Print Options parameter in Module 7 Only one transmit and reset occurs per User Input activation or Function Key press DISPLAY DESCRIPTION FACTORY E d5P Timer ng L d 5P Cycle Counter ng Note The remaining parameters only appear when a Setpoint Card is installed in the meter OUTPUT HOLD Level Active USEr e F ils V B H L V B H Ld When active maintained action the meter holds maintains the present output state for all Setpoints entered as 5 in the sublist Does not apply to Output Set and Reset User Inputs Program only one user input
50. format as the Timer Range selected This Stop condition is cleared when a Timer Reset occurs Select AG if a Stop Value is not being used mma 000000 na YES 000000 to 999999 FLASH TIMER ANNUNCIATOR FLASH Ag _ 5 Ag This parameter allows the Timer annunciator TMR to flash when the Timer is running or stopped inhibited Select R if a flashing indicator is not desired TIMER INPUT STATE AT POWER UP taP UP A SEDP S SEUP Determines the Run Stop State of the Timer at Power up This parameter does not apply LEUEL timer input operation 5EUP Timer Stopped at power up regardless of prior run stop state SAYE Timer assumes the same run stop state it was in prior to power down TIMER RESET AT POWER UP Ag YES The Timer can be programmed to Reset at each meter power up 6 2 MODULE 2 USER INPUT AND FRONT PANEL FUNCTION KEY PARAMETERS 2 PARAMETER MENU eo USER INPUTS FUNCTION KEYS Module 2 is the programming module for the rear terminal User Inputs and front panel Function Keys Three rear terminal User Inputs are individually programmable to perform specific meter control functions While in the Display Mode the function is executed when the User Input transitions to the active state Refer to the User Input specifications for active state response times Certain User
51. g start bit an optional parity bit and one or more ending stop bits The data format and baud rate must match that of other equipment in order for communication to take place The figures list the data formats employed by the meter E rt bit IDLE O bobi IDLE 8 dato b2 no bs b4 bs bz 1 1 stop parity IDLE O 7 b2 bs 64 bs IDLE data parity 1 bg P 1 stop IDLE 0 b2 bs ba bs 7 data no parity Note bg 6715 ASCI bs 1 1 2 stop data IDLE Character Frame Figure Start Bit and Data Bits Data transmission always begins with the start bit The start bit signals the receiving device to prepare for reception of data One bit period later the least significant bit of the ASCII encoded character is transmitted followed by the remaining data bits The receiving device then reads each bit position as they are transmitted Parity Bit After the data bits the parity bit is sent The transmitter sets the parity bit to a zero or a one so that the total number of ones contained in the transmission including the parity bit is either even or odd This bit is used by the receiver to detect errors that may occur to an odd number of bits in the transmission However a single parity bit cannot detect errors that may occur to an even number of bits Given this limitation the parity bit is often ignored by the receiving device The P
52. gh 8 are only accessible when the appropriate option card is installed If lost or confused while programming press the DSP key to exit programming mode and start over When programming is complete it is recommended to record the meter settings on the Parameter Value Chart and lock out parameter programming with a User Input or lock out code See Modules 2 and 3 for lock out details FACTORY SETTINGS Factory Settings may be completely restored in Module 9 This is a good starting point if encountering programming problems Throughout the module description sections which follow the factory setting for each parameter is shown below the parameter display In addition all factory settings are listed on the Parameter Value Chart following the programming section ALTERNATING SELECTION DISPLAY In the module description sections which follow the dual display with arrows appears for each programming parameter This is used to illustrate the display alternating between the parameter top display and the parameter s Factory Setting bottom display In most cases selections or value ranges for the parameter will be listed on the right Indicates Program Mode Alternating Display DP Q S LEVEL Factory Settings are shown Parameter Selection Value NUMERICAL VALUE ENTRY ARROW RST amp PAR KEYS For parameters which require a numerical value entry the arrow keys can be used to increment or d
53. imer Input common is NOT isolated from User Input common In order to preserve the safety of the meter application the timer input common must be suitably isolated from hazardous live earth referenced voltage or input common must be at protective earth ground potential If not hazardous voltage may be present at the User Inputs and User Input Common terminals Appropriate considerations must then be given to the potential of the User Input Common with respect to earth ground and the common of the isolated option cards with respect to input common 4 3 USER INPUT WIRING Before connecting the wires the Timer Input logic jumper should be verified for proper position When the user input is configured for cycle count in module 4 the count input should be wired between terminals 7 amp 10 Sinking Logic Terminals 7 9 Connect external switching device between the Terminal 10 The user inputs of the meter are internally pulled up to 12 V with 22 resistance The input is active when it is pulled low 0 9 V appropriate User Input terminal and User Comm Sourcing Logic Terminals 7 9 Terminal 10 VDC through external switching device VDC through external switching device 0 The user inputs of the meter are internally pulled down to 0 V with 22 KQ resistance u The input is active when a voltage greater than 3 6 VDC is applied 10 mu 14 USER 1 too USER 2 Nig USE
54. imer start stop values counter start stop values RTC time SET and Display Intensity can be made accessible This lockout is possible through a security code or user input The meters have been specifically designed for harsh industrial environments With a NEMA 4X IP65 sealed bezel and extensive testing to meet CE requirements the meter provides a tough yet reliable application solution SAFETY SUMMARY All safety related regulations local codes and instructions that appear in this literature or on equipment must be observed to ensure personal safety and to prevent damage to either the instrument or equipment connected to it If equipment is used in a manner not specified by the manufacturer the protection provided by the equipment may be impaired Do not use this unit to directly command motors valves or other actuators not equipped with safeguards To do so can be potentially harmful to persons or equipment in the event of a fault to the unit AN CAUTION Risk of Danger Read complete instructions prior to installation and operation of the unit CAUTION Risk of electric shock Note Recommended minimum clearance behind the panel for mounting clip installation is 2 1 53 4 H x 5 127 W TMR BBBBBB ii 12 RET 6K 20 13 79 ID 21 4 10110 2 1 75 15 19 2 1 75 44 5 OH 445 1234526 7 8 9 10 11 5
55. lement the selected operating mode For some modes parameters in Modules 1 and 2 are also automatically configured to properly implement the predefined mode Refer to the chart shown with the timing diagrams for the specific parameters loaded for each predefined mode Also note the specific external wiring or plug jumper settings required for some modes The Setpoint On Off or Time out values for the specific application should be entered directly in Module 5 after selecting the operating mode Only the value parameters which apply to the selected mode are displayed These values can also be entered through Module 6 Setpoint Alarm Parameters if desired Select if not using a Predefined Operating Mode in which case Setpoint parameters must all be individually programmed for the particular application 16 Timing Diagrams for Predefined Timer Operating Modes NOTE Input A is shown as a Sourcing input active high If a Sinking input active low is used the logic levels for Input A would be inverted On Delay Timing Dn dL4 On Delay Interval Timing Input A ss Jal Input A s el k T T1 T2 lt T Output 1 Output 1 Off Delay Timing B F diu Interval Timing Level triggered IE L pesca T pha nci oe T T ep Output 1 The input signal must be wired to both the Input A and The input signal must
56. ly Off Occurrence The One shot status can also be viewed or set from the Setpoint Off value entry display PAXCK DAILY OFF OCCURRENCE d FF n 9 ng This parameter only appears when the Setpoint is assigned 5 to the Real Time Clock Time display rt t and when the Setpoint Action ALE is programmed for On Off Output mode 8f BFF In this mode this parameter determines the days of the week when the Setpoint output will deactivate Selecting 5 displays a sublist for choosing the days of the week On all days entered as YES in the sublist the output will deactivate On all days entered as AG the output will not deactivate The output deactivation is repetitive and will occur every week on the chosen day s MES DISPLAY DESCRIPTION FACTORY Sun Sunday no Mlan Monday YES Tuesday YES Wednesday YES tho Thursday YES Fri Friday MES SRL Saturday ng 19 TIMER STOP ESEP AA Ag o an O OFF nu Timer stops when the Setpoint output activates 0 0 or deactivates 0 Select if the output should not affect the Timer Run Stop status Stopping the Timer as a result of this parameter does not constitute a 5 condition event for the Setpoint On or Setpoint Off parameters TIMER COUNTER AUTO RESET n na B Un BD FF When the Setpoint output activates 2 8 or deactivates 2 OFF the meter automatically resets the Setp
57. mand strings must be terminated with the string termination characters or The meter does not begin processing the command string until this character is received See Timing Diagram figure for differences between terminating characters Note On a change value command V if the command string is terminated with the character all values are stored in E PROM memory Values are not stored if the terminator is used 21 Register Identification Chart REGISTER NAME TMR CNT TIM DAT SP1 SP2 SP3 SP4 501 502 503 504 TST CST TSP CSP MMR DAY SOR COMMAND TRANSMIT DETAILS 5 VALUE DESCRIPTION Timer Value TV R T V R TM TN T V R T V R T V R T V R V V V T V V V V V V TLV TV 6 digit 6 digit 6 digit 6 digit 6 digit 6 digit 6 digit 6 digit 6 digit 5 digit 6 digit 6 digit 6 digit 6 digit 6 digit 6 digit 0 auto 1 manual 1 Sun 7 Sat 0 not active 1 active Cycle Counter Value RTC Time Value RTC Date Value Setpoint 1 Setpoint 2 Setpoint 3 lrI O m m o oj u Setpoint 4 Setpoint 1 Off Value Setpoint 2 Off Value Setpoint 3 Off Value Setpoint 4 Off Value Timer Start Value Cycle Counter Start Value Timer Stop Value Cycle Counter Stop Value Auto Man Register lt Day of Week Value
58. mes referred to as a block print because more than one parameter can be sent to a printer or computer as a block Selecting 4E5 displays a sublist for choosing the meter parameters to appear in the block print All parameters entered as 5 in the sublist will be transmitted during a block print Parameters entered as AG will not be sent DISPLAY PARAMETER FACTORY MNEMONIC E d5P Timer YES d5P Cycle Counter RO CNT rkL d RTC Date ng DAT r E Time ng TIM Setpoint Values SP1SP2SP3SP4 SPREBF Setpoint Off Time Out Values ng 501 502 503 504 Gkr SEP Timer Cnt Start amp Stop Values TST TSP CST CSP These values are option card dependent SERIAL RTC MASTER ADDRESSING A meter having software code version 2 3 or greater with a Real Time Clock Card and an RS485 Serial Communication Card installed can act as a Serial RTC Master when programmed with meter address 98 or 99 With this feature whenever the Master meter s time date or day is changed through quick or main programming it will transmit and make the same change to the other PAXCK s on the RS485 bus Only one meter should be configured as Master This Master with address 98 or 99 should also be programmed as the Host in module rte under Clock Synchronization With it programmed as Host the other PAXCK Slaves will update hours minutes and seconds to the Host once an hour and the Real Time Clock Wiring terminals 16 18 will not be
59. mines how the Timer Input Signals affect the Run Stop status of the Timer The timing diagrams below reflect a Sinking input setup active low A Sourcing input setup active high is available through plug jumper selection see Section 2 0 In this case the logic levels of the timing diagrams would be inverted The Timer can also be stopped using a Timer Stop Value or a Setpoint This type of Stop condition is cleared when a Timer Reset occurs or another start edge is applied For LEVEL and EdSE operation Input B provides a level active Timer Inhibit function This function is also available through a User Input see Module 2 Timing diagrams are shown below for LEUEL through Hat d 2 modes The LEUrSt through HrSt 2 modes are identical except the timer display value is also reset at Time Start edges In the 4 2 and Hr 5k 2 modes the timer display value remains held and only updates when a Timer Start Input A or Timer Stop Input B edge occurs LEUEL LEUr SE Level Active Gated Operation Ed3E f Edr5 1 Edge Triggered Operation 1 Input Time Time Time Time Stat Stop Start Stop v V V v INPUTA j Pl r INPUT B Timer Inhibit Level Active Time Stop Time Stop Time Start Time Start INPUTA Y INPUT B Timer Inhibit Level Active Timer is reset at Time Start edge Timer Start 11 Flash Timer Annunciator
60. mmunications Card is installed bu dRER Par Addr PARAMETER MENU Abbr rEL Ft Baud Data Bits Parity Bit Meter Rate Address Only appears if the Real Time Clock Card is installed Module 7 is the programming module for the Serial Communications Parameters These parameters are used to match the serial settings of the PAX with those of the host computer or other serial device such as a terminal or printer This programming module can only be accessed if an RS232 or RS485 Serial Communications card is installed This section also includes an explanation of the commands and formatting required for communicating with the PAX In order to establish serial communications the user must have host software that can send and receive ASCII characters Red Lion s Crimson software can be used for configuring the PAX See ordering information For serial hardware and wiring details refer to section 4 5 Serial Communication Wiring This section of the PAXTM CK bulletin replaces the bulletin shipped with the RS232 and RS485 serial communications option cards Discard the separate bulletin when using those serial option cards with the PAXTM CK Also this section does NOT apply to the DeviceNet Modbus or Profibus DP communication cards For details on the operation of the Fieldbus cards refer to the bulletin shipped with each card BAUD RATE bRUd 300 600 200 2400 S VEDO 9600 19200 Set the baud rate to match the
61. ng the PAR key If this mode is not accessible then meter programming is locked by either a security code or a hardware lock See Modules 2 and 3 for programming lock out details MODULE ENTRY ARROW amp PAR KEYS Upon entering the Programming Mode the display alternates between Pra and the present module initially The arrow keys F1 and F2 are used to select the desired module which is then entered by pressing the PAR key PARAMETER MODULE MENU PAR KEY Each module has a separate parameter menu These menus are shown at the start of each module description section which follows The PAR key is pressed to advance to a particular parameter to be changed without changing the programming of preceding parameters After completing a module the display will return to Pra 2 From this point programming may continue by selecting and entering additional modules See MODULE ENTRY above PARAMETER SELECTION ENTRY ARROW amp PAR KEYS For each parameter the display alternates between the parameter and the present selection or value for that parameter For parameters which have a list of selections the arrow keys F1 and F2W are used to sequence through the list until the desired selection is displayed Pressing the PAR key stores and activates the displayed selection and also advances the meter to the next parameter 10 Only accessible with appropriate plug in cord module in sequence Note that Modules 5 throu
62. ods must be followed to ensure compatibility in each application The type of the electrical noise source or coupling method into a unit may be different for various installations Cable length routing and shield termination are very important and can mean the difference between a successful or troublesome installation Listed are some EMI guidelines for a successful installation in an industrial environment 1 A unit should be mounted in a metal enclosure which is properly connected to protective earth 2 Use shielded cables for all Signal and Control inputs The shield connection should be made as short as possible The connection point for the shield depends somewhat upon the application Listed below are the recommended methods of connecting the shield in order of their effectiveness a Connect the shield to earth ground protective earth at one end where the unit is mounted b Connect the shield to earth ground at both ends of the cable usually when the noise source frequency is over 1 MHz 3 Never run Signal or Control cables in the same conduit or raceway with AC power lines conductors feeding motors solenoids SCR controls and heaters etc The cables should be run through metal conduit that is properly grounded This is especially useful in applications where cable runs are long and portable two way radios are used in close proximity or if the installation is near a commercial radio transmitter Also Signal or Control ca
63. oint Assignment display Select if the Setpoint output should not cause the assigned display to reset Does not apply to manual activations or deactivations by user input function key or serial communications OUTPUT RESET WITH DISPLAY RESET r5d n k When HES is selected the Setpoint output will reset when the Setpoint Assignment display R5f n resets Select if the Setpoint output should not reset when the assigned display resets Ag YES SETPOINT ANNUNCIATOR aa A This parameter controls the illumination of the LED annunciator for the corresponding Setpoint output 5 as follows nir rEU FLRSH OFF Normal Air Annunciator displayed when output is on activated Reverse r EU Annunciator displayed when output is off deactivated Flash FLASH Annunciator and display flashes when output is on activated Off BFF Annunciator disabled SETPOINT POWER UP STATE P UP alS S OFF Determines the on off state of the Setpoint output at power up Regardless of output logic setting normal or reverse OFF Deactivates the Setpoint output at power up on Activates the Setpoint output at power up SAUE Restores the output to the state it was in prior to power down OFF on 6 7 MODULE 7 SERIAL COMMUNICATIONS PARAMETERS 1 571 This module can only be accessed if a Serial Co
64. only displayed when they apply to the Setpoint Action REE n programmed for that particular Setpoint See Module 6 for details 15 RTC Time Set Access Security Code R Setpoint Number 1 thru 4 TIMER amp CYCLE COUNTER START STOP VALUE ACCESS E SEOP S E SErk Q 5 LoC 100 S 100 Lae Timer amp Counter Start Stop Values can be programmed for r Ed or LOE PAXCK REAL TIME CLOCK TIME SETTING ACCESS SEE E v tar This parameter can be programmed for Eft or LBL Selecting allows setting or changing the RTC Time in Quick Programming mode LOC SECURITY CODE Q Bun Entry of a non zero value will cause the EdE prompt to appear when trying to access the Full Programming Mode Access will only be allowed after entering a matching security code or the universal unlock code of 222 With this lock out a User Input would not have to be used for the Program Lock out function Note however the Security Code lock out is overridden when an User Input configured for Program Lock out PL is not active See Chart 000 to 255 PROGRAMMING MODE ACCESS SECURITY USER INPUT USER INPUT MODE WHEN PAR FULL PROGRAMMING CODE SELECTION STATE KEY IS PRESSED MODE ACCESS 0 not PLOC Full Programming Immediate acce
65. ons 500 Vrms for min Not Isolated from all other commons Baud Rate 300 to 19 2k Unit Address 0 to 99 only meter can be configured at a time REAL TIME CLOCK CARD PAXRTC A battery backed Real Time Clock card is provided with the PAXCK This card which includes a lithium coin cell battery will maintain the time and date when main power is removed REAL TIME CLOCK CARD Time Accuracy 5 secs Month 1 min year with end user calibration Battery Lithium 2025 coin cell Battery Life Expectancy 10 yrs typical Synchronization Interface Two wire multi drop network RS485 hardware 32 units max operates up to 4000 ft Isolation To Timer amp User Input Commons 500 Vrms for min Not isolated from all other commons SETPOINT CARDS PAXCDS The PAX and MPAX series has 6 available setpoint alarm output option cards Only one of these cards can be installed at a time Logic state of the outputs can be reversed in the programming DUAL RELAY CARD PAXCDS10 Type Two FORM C relays Isolation To Sensor amp User Input Commons 2000 Vrms for 1 min Contact Rating One Relay Energized 5 amps 120 240 VAC or 28 VDC resistive load Total current with both relays energized not to exceed 5 amps Life Expectancy 100 K cycles min at full load rating External RC snubber extends relay life for operation with inductive loads QUAD RELAY CARD PAXCDS20 Type Four FORM A relays Isolation To Sensor amp
66. other serial communications equipment on the serial link Normally the baud rate is set to the highest value at which all the serial equipment are capable of transmitting and receiving data DATA BITS a Select either 7 or 8 bit data word lengths Set the word length to match the other serial communications equipment on the serial link PARITY BIT lt S idd This parameter only appears when the Data Bits parameter is set to a 7 bit data word length Set the parity bit to match that of the other serial communications equipment on the serial link The meter ignores parity when receiving data and sets the parity bit for outgoing data If parity is set to A2 an additional stop bit is used to force the frame size to 10 bits Ag Odd EUER METER ADDRESS Addr aa Enter the serial meter node address With a single meter an address is not needed and a value of zero can be used With multiple meters RS485 applications a unique 2 digit address number must be assigned to each meter Addresses 98 and 99 are reserved to configure a unit as a serial real time clock master See Serial Real time Clock Master Adressing 00 to 99 Abbreviated Real Time Clock Print Formatting Print Options Printing ABBREVIATED PRINTING Rhbr S bd This parameter determines the formatting of data transmitted from the meter in response to a Transmit Valu
67. point 3 ng Setpoint 4 ng 6 3 MODULE 3 DISPLAY AND PROGRAM LOCK OUT PARAMETERS 3 12 PAXCK ONLY PAXCK ONLY PARAMETER MENU d5P d pel kb rti PDF a RTC Date Display Lock out Cycle Counter Display Lock out RTC Time Display Lock out Setpoint On Value Access Display Lock out Setpoint Off Value Access Setpoint Time out Value Access ONLY E Skrt L 522 1 Sirk Ska P L dE SEE Timer Start Value Access Timer Stop Cycle Counter Value Access Start Value Access These parameters only appear if a Setpoint option card is installed Cycle Counter Stop Value Access Module 3 is the programming module for setting the Display Lock out Parameters and the Quick Programming Mode Value Access Parameters In the Quick Programming mode after the PROGRAM LOCKOUT PARAMETERS and before the Security Code a Display Intensity Level 4 parameter is available when the security code is non zero It allows the display intensity to be set to 1 of 16 levels 0 15 DISPLAY LOCK OUT PARAMETERS When operating in the Display Mode the meter displays can be viewed consecutively by repeatedly pressing the DSP key The annunciators to the left of the display indicate which display is currently shown Timer TMR Cycle Counter CNT or Date DAT The Time Display
68. point Off Value URLUE or can be triggered by various events as shown in the parameter list Such events include the Timer starting E 5Erk or stopping or by the action event that causes another Setpoint output to turn On or Off When programmed for an event the Setpoint must not be used as the Setpoint Off event for another Setpoint Selecting URLUE will display a sub menu where the Setpoint Off value is entered The Setpoint Off value is based on the meter display to which the Setpoint is assigned R51 n When assigned to the Timer or Cycle Counter the value is entered in the same format as the assigned display When assigned to the Real Time Clock Date Display rtt d the date value is entered in month day year format nndd44 When assigned to the Real Time Clock Time Display rEE E the value is always entered in HH AAP format Hours Minutes with AM PM selection SPOF n V 000 00 000000 to 999999 TIME OUT VALUE 000002 to 995999 Q S 000 00 The Time Out Value only appears when the Setpoint Action is programmed for Timed Output mode t BUk In this mode the Time Out Value is the Setpoint Output time duration from activation to deactivation This value is always entered in minutes seconds and hundredths of seconds format The maximum Time Out Value is 99 minutes 59 99 seconds PAXCK DAILY ON OCCURRENCE d lfl nu This pa
69. programming of all the parameters Exit programming and switch to the other list Re enter programming and enter the Timer Counter Start and Stop Values t SErt SEDP Stet C SEDP and if applicable the Setpoint On Off and Time Out Values SP t 5P 2 5P 3 SP 4 SPOF 1 SPOF 2 SPOF 3 SPOF 4 1 2 EDUE 3 and the Setpoint Daily On Off Occurrence d BR t d Of 2 d Dn 3 d 0 dBFF 1 dOFF 2 dOFF 3 dOFF 4 If any other parameters are changed the other list values must be reprogrammed Program only one user input for this function Note When downloading the Crimson program containing List A B make sure that both the software and meter have the same list active The active list in the Crimson program is the one being displayed in Input Setup and or Setpoint Alarms category DISPLAY SELECT Level Active USEr Uc V d5EL L When active maintained action the meter continuously scrolls through all displays that are not locked out in the Display mode See Module 3 for Display Lock out details A sub menu provides Scrolling Speed selection SPEEd Sy 25 SEL 25 SEL 5 SEE DISPLAY SELECT Edge Triggered USEr E When activated momentary action the meter advances to the next display that is not locked out in the Display mode See Module 3 for Display Lock out details DISPLAY RESET Level
70. r the next command Refer to the Timing Diagrams below At the start of the time interval 1 the computer program prints or writes the string to the com port thus initiating a transmission During the command characters are under transmission and at the end of this period the command terminating character is received by the meter The time duration of tj is dependent on the number of characters and baud rate of the channel t 10 times the of characters baud rate At the start of time interval t the meter starts the interpretation of the command and when complete performs the command function This time interval t varies no response from the meter is expected the meter is ready to accept another command If the meter is to reply with data the time interval t is controlled by the use of the command terminating character The terminating character results in a response time window of 50 msec minimum and 100 msec maximum This allows sufficient time for the release of the sending driver on the RS485 bus Terminating the command line with results in a response time window t5 of 2 msec minimum and 50 msec maximum The faster response time of this terminating character requires that sending drivers release within 2 msec after the terminating character is received At the beginning of time interval tj the meter responds with the first character of the reply As with t1 the time duration of t4 is dependent
71. ractice to limit EMI Although the use of a snubber or varistor could be used RLC part numbers Snubber SNUB0000 Varistor ILS11500 or ILS23000 Care should be taken when connecting input and output devices to the instrument When a separate input and output common is provided they should not be mixed Therefore a sensor common should NOT be connected to an output common This would cause EMI on the sensitive input common which could affect the instrument s operation Visit RLC s web site at http www redlion net emi for more information on EMI guidelines Safety and CE issues as they relate to Red Lion Controls products 4 1 POWER WIRING AC Power A AJ DC Power Terminal 1 VAC AC Terminal 1 VDC Terminal 2 VAC Terminal 2 VDC lt 4 2 TIMER INPUT WIRING Before connecting the wires the Timer Input logic jumper should be verified for proper position Two Wire Proximity Current Source Q INPUTA gt INPUT B 12V SRC JUMPER Current Sinking Output A 5 INPUT Q 2 a SRC 5 Current Sourcing Output o INPUT B 2 a Switch Isolated Transistor Current Sink Q B gt N o SRC SNK 3 JUMPER JUMPER Interfacing With TTL lt m p S x 6 n 5V SRC SNK 5 n JUMPER JUMPER s OBEN CAUTION T
72. rameter only appears when the Setpoint is assigned 5 to the Real Time Clock Time display E This parameter determines the days of the week when the Setpoint output will activate Selecting 5 displays a sublist for choosing the days of the week On all days entered as YES in the sublist the output will activate On all days entered as R the output will not activate The output activation is repetitive and will occur every week on the chosen day s Ag YES DISPLAY DESCRIPTION FACTORY Sun Sunday no Mlan Monday YES Tuesday YES LiflE d Wednesday YES bho Thursday YES Fri Friday MES GRE Saturday ng Setpoint One Shot Mode If all days are set to R the Setpoint will operate in One shot mode When a One shot setpoint is enabled armed the setpoint output will activate at the set time and disable itself from activating again To enable or re enable a one shot alarm go to the Setpoint value entry display and press the Up or Dn key repeatedly while the AM PM digit is selected flashing When the 2nd digit decimal point is lit the Setpoint is enabled The Setpoint enable status is saved at power down The enable state of the Setpoint is not affected or changed when the Parameter List is exchanged The setpoint will turn off de activate as programmed per the Setpoint Action selected If 8f 8FF mode is selected program all the Daily Off days to MES to have the Setpoint turn off at the next Dai
73. red lon Tel 1 717 767 6511 Fax 1 717 764 0839 www redlion net Bulletin No PAXCK H Drawing No LP0524 Released 7 15 MODEL PAX 1 8 DIN PRESET TIMER PAXTM amp PAR FiA F2W RST red ign C UL US LISTED IND CONT EQ 51 GENERAL DESCRIPTION The PAXTM PAX Timer and PAXCK PAX Clock Timer offer many features and performance capabilities to suit a wide range of industrial applications Both can function as an Elapsed Timer or Preset Timer while the PAXCK also offers Real Time Clock with Date capability The option cards allow the opportunity to configure the meter for the present application while providing easy upgrades for future needs Both units can function as an Elapsed Time Indicator By using two separate signal inputs and 23 selectable timer ranges the meters can be programmed to meet most any timing application With the addition of a setpoint option card they can easily become a dual or quad output preset timer The PAXCK can also operate as a Real Time Clock RTC with the Real Time Clock Card already installed The meter is capable of displaying time in 12 or 24 hour time formats The 12 hour format can be displayed in hours and minutes with or without an AM PM indication or in hours minutes and seconds The 24 hour format can be displayed in hours and minutes or in hours minutes and seconds The PAXCK is also capable of a calendar display in which the day month and or year can be displ
74. ring the cursor over a parameter selection will often provide a description ofthe parameter For additional information regarding a parameter selection see the PAX user manual When all programming configuration selections have been completed save the configuration file Download the configuration file to the PAX by clicking the Link tab and then selecting Update GENERAL METER SPECIFICATIONS DISPLAY 6 digit 0 56 14 2 mm red sunlight readable or standard green LED 2 POWER AC Versions PAXCK000 PAXTM000 AC Power 85 to 250 VAC 50 60 Hz 18 VA Isolation 2300 Vrms for 1 min to all inputs and outputs DC Versions PAXCK010 10 DC Power 11 to 36 VDC 14 W Derate operating temperature to 40 C if operating lt 15 VDC and three Option cards are installed AC Power 24 VAC 10 50 60 Hz 15 VA Isolation 500 Vrms for 1 min to all inputs and outputs 3 SENSOR POWER 12 VDC 10 100 mA max Short circuit protected 4 ANNUNCIATORS TMR Timer Display CNT Cycle Counter Display DAT Real Time Clock Date Display Real Time Clock Time Display SP1 Setpoint 1 Output SP2 Setpoint 2 Output SP3 Setpoint 3 Output SP4 Setpoint 4 Output 5 KEYPAD 3 programmable function keys 5 keys total 6 TIMER DISPLAY Timer Range 23 Selectable Ranges Timing Accuracy 0 01 Minimum Digit Resolution 0 001 Sec Maximum Least Significant Digit Resolution 1 Hr Maximum Display 999999 7
75. ronment and set the time based on a known accurate reference such as the WWV broadcast or the Atomic Clock reference which is available via the internet After 30 days of normal operation compare the RTC time to the reference and note the amount of time gained or lost Refer to the tables on the next page for the proper Offset value to enter given the amount of time drift observed FFSEE lt SL m Selecting 5 for the RL parameter displays the OFFSEt sub menu where the present Offset value can be viewed or changed The tables below show the value to enter given the amount of time gained or lost in a 30 day period 00 to 63 Values 00 and 32 provide no Offset and are not shown in the tables IF RTC CLOCK GAINED TIME USE VALUE FROM THIS TABLE SECONDS ENTER THIS SECONDS ENTER THIS GAINED IN OFFSET GAINED IN OFFSET 30 DAYS VALUE 30 DAYS VALUE 5 01 90 17 11 02 95 18 16 03 100 18 21 04 105 20 26 05 111 21 32 06 116 22 37 07 121 23 42 08 127 24 25 26 27 28 29 30 31 IF RTC CLOCK LOST TIME USE VALUE FROM THIS TABLE SECONDS ENTER THIS SECONDS ENTER THIS LOST IN 30 OFFSET LOSTIN30 OFFSET DAYS VALUE DAYS VALUE 11 33 179 49 21 34 190 50 32 35 200 51 42 36 211 52 53 37 221 53 63 38 232 54 74 39 243 55 84 40 253 56 95 41 264 57 105 42 274 58 116 43 285 59 127 44 295 60 137 45 306 61 148 46 316 62 158 4
76. ss After Quick Programming not 0 not PLOC Quick Programming with correct Security code entry After Quick Programming not 0 PLOC Active Quick Programming with correct Security code entry not 0 PLOC Not Active Full Programming Immediate access 0 PLOC Active Quick Programming No access 0 PLOC Not Active Full Programming Immediate access Throughout this bulletin Programming Mode without Quick in front always refers to Full Programming 6 4 MODULE 4 CYCLE COUNTER PARAMETERS r n LIN PAR i Core I d e Cycle Counter Count Direction Cycle Counter Count Source Cycle Counter Start Value Module 4 is the programming module for the Cycle Counter Parameters In the Display Mode the CNT annunciator indicates the Cycle Counter display is currently being shown An EXCHANGE PARAMETER LISTS feature which includes the Cycle Counter Start and Stop Values is explained in Module 2 CYCLE COUNTER COUNT SOURCE E Srcl USEr I br SE G nome TEI gest neon sean 03 Dn 03 DFF DW Dn ON OFF This parameter selects the source from which a count is added to or subtracted from the Cycle Counter Select if the Cycle Counter is not being used which will exit the module and bypass the remaining parameters When t5Er is selected a count is generated each time the User 1 Input is activated When selected as the count
77. starting or stopping or another Setpoint output turning On or Off The output can also be set and reset through a User Input function or through serial communications RORE k dSP dSP rtt d rtt t SETPOINT ACTION ALE ni S LARCH This parameter determines the mode for output deactivation as shown below Output activation is controlled by the SETPOINT ON parameter setting LARCH __ DISPLAY DESCRIPTION OUTPUT DEACTIVATES LACH Latched Output Mode At Reset Manual or Automatic E Dut Timed Output Mode After Time Out Value Elapses ON OFF On Off Output Mode Based on Setpoint Off Setting The E lt and f OFF selections are not available when Setpoint is assigned to rt d Timer Counter Auto Reset 18 Power up State Setpoint Number 1 thru 4 Setpoint Annunciator Output Reset w Display Reset OUTPUT LOGIC nir rc Ev aF als Normal Output Logic AU turns the output on when activated and off when deactivated Reverse Output Logic rEt turns the output off when activated and on when deactivated SETPOINT ON D a URLUE b Skrk k SEOP Di Dn DU DFF D2 Dn Dz DFF SS NURLUE quos memcmo mcr This parameter determines when the Setpoint output will activate Output activation can occur at a specific Setpoint Value URL UE or can be triggered by various events
78. ter programming in Module 3 TIMER NOT RUNNING CHECK Input wiring Timer plug jumper setting Timer input programming in Module 1 input signal level Timer Inhibited by Input B or a user input USER INPUT NOT WORKING PROPERLY CHECK User input wiring user input plug jumper setting user input signal level user input programming in Module 2 OUTPUTS NOT WORKING PROPERLY CHECK Setpoint option card installation wiring Setpoint programming in Module 6 CHECK RTC option card installation RTC programming in Module 8 check for NOT WORKING PRORIERCY proper battery installation replace battery DO NOT ADJUST TRIM CAP ON RTC CARD SERIAL COMMUNICATIONS NOT WORKING aire option card installation Serial wiring Serial settings in Module 7 ERROR CODE Err I H PRESS Reset key If unable to clear contact factory Shaded areas are model dependent 25 PARAMETER VALUE CHART PAXCK Clock Timer Timer Input Parameters FACTORY DISPLAY PARAMETER SETTING USER SETTING TIMER RANGE 555555 TIMER INPUT OPERATION LEUEL FiLEEr TIMER INPUT FILTERING on E dir TIMING DIRECTION uP Skrk TIMER START VALUE 000000 TIMER START VALUE B 000000 E SEUP TIMER STOP A amp no URLUE TIMER STOP VALUE A 000000 TIMER STOP VALUE B 000000 FLASH FLASH TIMER ANNUNCIATOR no nP UP TIMER INPUT STATE POWER UP SEP E P UP TIMER RESET AT POWER UP no 2 FRE User Input and Function Ke
79. to 19 200 Parity No Odd or Even Bus Address Selectable 0 to 99 Max 32 meters per line RS485 Transmit Delay Selectable for 2 to 50 msec or 50 to 100 msec RS485 DEVICENET CARD PAXCDC30 Compatibility Group 2 Server Only not UCMM capable Baud Rates 125 Kbaud 250 Kbaud and 500 Kbaud Bus Interface Phillips 82C250 or equivalent with MIS wiring protection per DeviceNet Volume I Section 10 2 2 Node Isolation Bus powered isolated node Host Isolation 500 Vrms for 1 minute between DeviceNet and meter input common MODBUS CARD PAXCDC4_ Type RS485 RTU and ASCII MODBUS modes Isolation To Sensor amp User Input Commons 500 Vrms for minute Not isolated from all other commons Baud Rates 300 to 38400 Data 7 8 bits Parity No Odd or Even Addresses 1 to 247 Transmit Delay Programmable See Transmit Delay explanation PROFIBUS DP CARD PAXCDC50 Fieldbus Type Profibus DP as per EN 50170 implemented with Siemens SPC3 ASIC Conformance PNO Certified Profibus DP Slave Device Baud Rates Automatic baud rate detection in the range 9 6 Kbaud to 12 Mbaud Station Address 0 to 125 set by rotary switches Connection 9 pin Female D Sub connector Network Isolation 500 Vrms for 1 minute between Profibus network and sensor and user input commons Not isolated from all other commons PAXUSB PROGRAMMING CARD PAXUSBOO Type USB Virtual Comms Port Connection Type mini B Isolation To Sensor amp User Input Comm
80. tpoint outputs available The Setpoint Assignment and Setpoint Action parameters determine the applicable Setpoint features and dictate which subsequent parameters will appear for the Setpoint being programmed This section of the bulletin replaces the bulletin shipped with the Dual and Quad Setpoint option cards Discard the separate bulletin when using Setpoint option cards with the PAXCK and PAXTM SETPOINT SELECT ng SP 5 3 5 TAIN Select the Am alarm output to be programmed This provides access to the parameters for that particular Setpoint The in the following parameter displays reflects the chosen Setpoint number 1 thru 4 After the chosen Setpoint is programmed the display returns to 5PSEL Select the next Setpoint to be programmed and continue this sequence for each Setpoint Select to exit the module 5 3 and 5P apply to Quad Setpoint cards only 5 2 SETPOINT ASSIGNMENT R5f S AGRE Select the meter display to which the Setpoint is assigned Timer t d5P Cycle Counter d5P Real Time Clock Date display rE d or Real Time Clock Time display The rkE d and rEE E selections only appear if a Real Time Clock option card is installed By selecting the Setpoint is not assigned to a specific display However the output can still be activated set and deactivated reset by various events Such events include the Timer
81. ues for the particular application However each programming parameter will still be accessible in order to make modifications to the predefined settings if desired PARAMETER MENU I ___ Cycle Counter Reset at Power up crop Le Cycle Counter Stop Value CYCLE COUNTER START VALUE 5krk Q lt 000000 The Cycle Counter returns to this value whenever a Cycle Counter Reset occurs Non zero values are normally used for down counting applications but they can also provide an offset value when counting up 000000 to 999999 CYCLE COUNTER STOP VALUE gt The Cycle Counter stops counting when this value is reached regardless of the operation of the Timer Selecting 5 will display the YAL YE sub menu where the Stop Value can be set or changed The Stop condition is cleared when a Cycle Counter Reset occurs Select 2 if a Stop Value is not used URLUE lt 4 00000 n YES 000000 to 999999 CYCLE COUNTER RESET AT POWER UP R MES Setpoint 1 Off Value Setpoint 1 Time out Value The Predefined modes control the activation and deactivation of Output 1 in relation to Start and Reset signals applied to the Timer inputs See timing diagrams which follow When a selection other than is chosen the parameters for Setpoint 1 5P f in Module 6 are automatically configured to imp
82. uired In this configuration one meter is designated as the Serial RTC Master by setting the meter s address as 98 or 99 see Serial Real time Clock Addressing in Master Module 7 Every hour at 30 min past the hour the Serial RTC Master Host will transmit the full time Hours minutes seconds to all meters through the RS485 serial card wiring network The time date or day will also be transmitted and updated in the Slaves when changed in the programming of the Serial RTC Master Only one meter should be configured as Master and that meter should also be configured as the Host SLAUE CALIBRATE REAL TIME CLOCK Ag YES NOTE DO NOT ADJUST TRIM CAP ON RTC CARD S di The Real Time Clock circuit uses a crystal controlled oscillator for high accuracy timekeeping The oscillator is factory calibrated and optimized for 25 C ambient temperature operation Since the PAXCK is designed to operate over a wide temperature range and since the accuracy of a crystal oscillator varies with ambient temperature some drift in the RTC time may be observed over an extended period This is primarily seen in high or low temperature installations To compensate for the wide operating temperature range a calibration or Offset value can be entered which effectively slows down or speeds up the clock to maintain accurate timekeeping 24 To calibrate the RTC install the meter in its normal operating envi
83. ver tighten the screws Installation Environment The unit should be installed in a location that does not exceed the operating temperature and provides good air circulation Placing the unit near devices that generate excessive heat should be avoided The bezel should only be cleaned with a soft cloth and neutral soap product Do NOT use solvents Continuous exposure to direct sunlight may accelerate the aging process of the bezel Do not use tools of any kind screwdrivers pens pencils etc to operate the keypad of the unit PANEL CUT OUT 1 7702 45 5 2 0 SETTING THE JUMPERS To access the jumpers remove the meter base from the meter case by firmly squeezing and pulling back on the side rear finger tabs This should lower the latch below the case slot which is located just in front of the finger tabs It is recommended to release the latch on one side then start the other side latch Warning Exposed line voltage exists on the circuit boards Remove all power to the meter and load circuits before accessing inside of the meter FRONT DISPLAY Main Circuit Board TIMER INPUT LOGIC JUMPER Timer Input Logic Jumper One jumper is used for the logic state of both timer inputs Select the proper position to match the input being used User Input Logic Jumper One jumper is used for the logic state of all user inputs If the user inputs are not used it is not necessary to check or move this jumper
84. y Parameters FACTORY DISPLAY PARAMETER SETTING USER SETTING USEr USER INPUT 1 nu USEr 2 USER INPUT 2 nu USEr 3 UsERINPUT3 nu Ft FUNCTION KEY 1 ng F2 FUNCTION KEY 2 ng rS RESET KEY dr 5 E SEL F sECONDARY FUNCTION KEY F1 no SEE F2 SECONDARY FUNCTION KEY F2 ng See Module 2 Exchanging Parameter Lists for details on programming this value Shaded areas are model dependent 26 Programmer Meter Date Security Code 3 1 0 Display and Program Lock out Parameters DISPLAY d5P E d5P rkL d rkt k SP SPOF EOUE 5 2 SPOF 2 EOUE 2 5 3 SPOF 3 3 5 SPOF 4 EOUE 4 t t SEOP SEUP SEE E E dE PARAMETER TIMER DISPLAY LOCK OUT CYCLE COUNT DISPLAY LOCK OUT RTC RTC SP1 SP1 SP1 SP2 SP2 SP2 SP3 SP3 SP3 SP4 SP4 SP4 DATE DISPLAY LOCK OUT TIME DISPLAY LOCK OUT ON VALUE ACCESS OFF VALUE ACCESS TIME OUT VALUE ACCESS ON VALUE ACCESS OFF VALUE ACCESS TIME OUT VALUE ACCESS ON VALUE ACCESS OFF VALUE ACCESS TIME OUT VALUE ACCESS ON VALUE ACCESS OFF VALUE ACCESS TIME OUT VALUE ACCESS TIMER START VALUE ACCESS TIMER STOP ACCESS COUNTER START VALUE ACCESS COUNTER STOP VALUE ACCESS RTC TIME SETTING ACCESS SECURITY CODE Cycle Counter Parameters DISPLAY Srce deur P UP CYC CYC CYC CYC CYC CYC CYC CYC PARAMETER LE COUNTER COUNT SOURCE CNTR COUNTING
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