Altinex PE1005 User's Manual
Contents
1. 26 PLASMA CONTROL WITH INTERNAL BUS 27 PIONEER PLASMA COMMANDS 28 TROUBLESHOOTING GUIDE 28 THERE IS NO COMMUNICATION 28 RELAYS DO NOT WORK 28 INPUT PORTS DO NOT RESPOND 29 ALTINEX POLICIES L 29 LIMITED WARRANTY RETURN POLICIES 29 CONTACT INFORMATION 29 400 0384 003 ALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com SIGNAL MANAGEMENT SOLUTIONS SPECIAL APPLICATION PRECAUTIONS SAFETY WARNINGS L Please read this manual carefully before using your PE1005 Keep this manual handy for future reference These safety instructions are to ensure the long life of your PE1005 and to prevent fire and shock hazards Please read them carefully and heed all warnings 1 1 GENERAL e There are no user serviceable parts on this unit Qualified ALTINEX service personnel must perform all service on the PE1005 1 2 INSTALLATION e To prevent fire or shock do not expose this unit to water or moisture Do not place the PE1005 in direct sunlight near heaters or heat radiating appliances or near any liquid Exposure to direct sunlight smoke or steam can harm internal components e Do not pull any cables that are attached to the PE1005 1 3 CLEANING2. This command reads the current day of the week from the internal clock Command Format RDDAYCi Ci Unit ID i from 1 to 99 Example The day is Monday Read the day from the internal clock by sending the command RDDAY and receiving the following feedback DAY Monday SIGNAL MANAGEMENT SOLUTIONS SPECIAL APPLICATION 25 RDDATE This command reads the date from the internal clock Command Format RDDATECi Ci Unit ID i from 1 to 99 Example The date is June 13 2005 Read back the current date setting by sending the command RDDATE and receive the following feedback DATE 06 13 05 ALARM 1 COMMANDS The PE1005 has two programmable alarms which may be programmed to execute functions stored in subroutines The first alarm has five modes to choose from but only one mode may be active at a time The following Alarm 1 modes allow the alarm to be executed at one of the following rates Mode 1 Every Minute Mode 2 Every Hour Mode 3 Every Day Mode 4 Every Month 5 Every Week The following is required for the alarm to function 1 Set the Time Day and Date on the PE1005 2 Program functions into a subroutine 3 Associate the subroutine with an alarm 4 Set the alarm number and mode 5 Enable the alarm The alarm functions that follow are used to setup the alarms and enable disable the alarms The examples used in the next commands reference subroutine 10 and
3. 1 Square brackets are part of the command 2 Use uppercase letters for all commands After processing a command an OK will be returned as feedback if the command is good OK will not be returned if the command generates other feedback like the RDRL command 7 2 DESCRIPTION OF COMMANDS The default unit ID is zero but may be set to a value from 1to99 In single unit operation commands may be sent without the unit identifier Unit ID 0 should be used for single unit operation If multiple PE1005s are connected to the same communication port the units may be controlled two ways In order to control all the units the same commands may be sent without the unit identifier Commands sent without the unit identifier will be executed by all PE1005s Example VER Executed by all units VERC1 For Unit ID 1 Only VERC2 For Unit ID 2 Only etc Individual control is accomplished by first assigning each unit a unique ID number Then each unit may be controlled individually by including the unit identifier at the end of each command string 400 0384 003 ALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com 1 STATUS This command displays the status of the PE1005 and includes input status relay settings assigned subroutines and alarm information Command Format STATUSCi Ci Card ID i from 1 to
4. SIGNAL MANAGEMENT SOLUTIONS SPECIAL APPLICATION Example Subroutine 10 16 assigned to Input 1 subroutine 20 is assigned to Input 2 subroutine 30 15 assigned to Input 3 and subroutine 40 is assigned to Input 4 Send the command RDIN and receive the following feedback IN 1 SUB10 IN 2 SUB20 IN 3 SUB30 IN 4 SUB40 12 WRS The command is used to write functions to any of 99 available subroutine memory locations A subroutine may be overwritten or appended for long command function strings Each location may contain up to 100 characters and a maximum of 24 characters may be written to a subroutine at one time More than one function may be stored in a single subroutine and multiple functions may be written to memory in one command When sending multiple functions in a single command it is necessary to separate each function with a comma Command Format WRSm F Fs F3 F pCi m Subroutine m from 1 to 99 Function up to 25 characters at a time Saving Instruction 0 append existing info 1 overwrite to existing info Ci Unit ID i from 1 to 99 Example A subroutine sub 10 needs to store the following functions WRRL1 1 WAIT10 WRRL1 0 WAIT10 SET1ALARM30800 and ALRMON1 This is accomplished by sending the following commands 400 0384 003 ALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web
5. Set relay 1 on relay 4 off and leave relays 2 and 3 unchanged In order to do this send the command WRRL1XX0 400 0384 003 ALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com 9 WRRLk x This command is used to set one or all internal relays on or off A 1 will close the relay and 0 will open a relay Command Format WRRLk xCi k Relay No 1 2 3 4 or for all x Relay Setting 0 open 1 closed Ci Unit ID i from 1 to 99 Example Set only relay 1 on by sending the command WRRL1 1 10 WRIN This command is used to assign a subroutine number to be executed when one of the input ports makes a high to low transition In order to create a high to low transition connect the input port to ground using a switch or other contact closure device Command Format WRINn SUBkCi n No 1 2 or 4 k Subroutine k from 1 to 99 Ci Unit ID i from 1 to 99 Example Assign subroutine 10 to be performed when port one makes a high to low transition In order to do this send the command WRIN1 SUB10 Now when input port one is shorted to ground subroutine 10 will be executed 11 RDIN This command is used to read the subroutine settings for the input ports Command Format RDINnCi n No 1 2 3 4 for all Ci Unit ID i from 1 to 99
6. e Unplug the PE1005 adapter before cleaning e Clean only with a dry cloth Never use strong detergents or solvents such as alcohol or thinner Do not use a wet cloth or water to clean the unit Do not open the unit to clean 1 4 HANDLING e Handle the PE1005 carefully Dropping or jarring can damage the card e The PE1005 contains components that are sensitive to electro static discharge ESD Always use ESD safety precautions when touching the card 400 0384 003 ALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com 1 5 FCC NOTICE This device complies with Part 15 of the FCC Rules Operation is subject to the following two conditions 1 This device may not cause harmful interference and 2 this device must accept any interference received including interference that may cause undesired operation This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is lik
7. and MDOFF activate and deactivate the detector 56 MDON This command activates the external motion detector The motion detector settings must first be defined using the SETMD MDO and MD1 commands Command Format Ci Unit ID i from 1 to 99 Example Send the command MDON to activate enable the motion detector 57 MDOFF This command is used to deactivate disable the motion detector Command Format MDOFFCi Ci Unit ID i from 1 to 99 Example Send the command MDOFF to disable the motion detector None of the settings will be affected but the motion detector will not be actively sensing for motion 58 MD1 This command is used to assign a subroutine to be executed when an object is sensed moving toward the motion detector Command Format MD1 SUBkCi k Subroutine k from 1 to 99 Ci Unit ID i from 1 to 99 400 0384 003 ALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com Example Assign subroutine 10 to be executed when an object is sensed moving toward the motion detector by sending the command MD1 SUB10 59 MDO This command assigns a subroutine to be executed when an object is sensed moving away from the motion detector Command Format MDO SUBkCi k Subroutine k from 1 to 99 Ci Unit ID i from 1 to 99 Example Assign
8. RDS50 and the display will be as follows SUB50 RLYS_OFF WRRL 0 Clear the label for subroutine 50 by sending the command CLRLS50 After sending this command reading the contents of subroutine 50 will be as follows SUB50 NONE WRRL 0 18 SUB This command executes the functions stored in a subroutine Command Format k Subroutine n from 1 to 99 for all Ci Unit ID i from 1 to 99 Example Subroutine 90 is programmed with the command MDON which enables the motion detector Send the command SUB90 and the motion detector will be enabled 19 HELP This command displays a list of all RS 232 available commands Command Format Ci Unit ID i from 1 to 99 Example Send the command HELP and a list of all available commands along with brief description will be displayed SIGNAL MANAGEMENT SOLUTIONS SPECIAL APPLICATION 20 SETTIME This command sets the time for the PE1005 internal clock The time is saved and displayed in 24 hour format Command Format SETTIMEhhmmssGCi hh Time in hours hh 00 to 23 mm Time in minutes mm 00 to 59 ss in seconds ss 00 to 59 Ci Unit ID i from 1 to 99 Example The current time is 07 30AM Set the internal clock to this time and then verify the time is set by sending the following commands SETTIME073000 RDTIME The display will be similar to the follo
9. s settings Command Format RDALRMnCi n Alarm No n 1 or 2 Ci Unit ID i from 1 to 99 Example Ci Memory Location m from 1 to 99 Data 16 characters may be sent at a time 112 characters total per memory location p Saving Instruction 0 append to existing info 1 overwrite existing info Unit ID i from 1 to 99 Subroutine 90 is assigned to Alarm 1 and Alarm 1 is set to go off at 30 minutes past every hour Send the command RDALRM1 and receive feedback similar to the following Alarm 1 ON SUB90 Mode 3 When minutes and seconds match 30 00 400 0384 003 20 ZALTINEX ED Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com SPECIAL APPLICATION Hex characters can be added to the string by using the sign in front of the hex number Sending 0C will send the hex or form feed character The three characters making up the hex number cannot be separated and must be in the same string Below are some common hex numbers 5B 5D 7 7D 3C lt 3E gt Example Program RS memory location 50 with the string STANDBY_ON by sending the command WRM50 STANDBY_ON 1 Using the 1 option this will overwrite whatever information is currently in location 50 and save the command 41 WRLM This command assigns label to me
10. 1 The PE1005 has ports 1 and 2 on while 3 and 4 are off Send the command RDI to read the status of all the ports The feedback will be as follows 1100 Reading left to right ports 1 and 2 show a 1 for on and ports 3 and 4 show a 0 for off Example 2 Check the status of input one only by sending the command RDI1 The feedback will be as follows 1 SiGNAL MANAGEMENT SOLUTIONS SPECIAL APPLICATION 7 RDRL This command is used to read the status of one or all of the internal relays A 1 indicates the relay is on closed A 0 indicates the relay is off open Command Format RDRLnCil n Relay No 1 2 3 4 or for all Ci Unit ID i from 1 to 99 Example 1 The PE1005 has relay number one on closed and two through four are off Send the command RDRL to check the status of all relays The feedback will be as follows 1000 Example 2 Check the status of relay number one only by sending the command RDRL1 The feedback will be as follows 1 3 WR R Lx X2X3X4 This command is used to the turn the internal relays or off A 1 will close the relay a 0 will open a relay and an X will leave the status of the relay unchanged Command Format W RRLx x2X3X4Ci Relay 1 X2 Relay 2 Relay 3 x Relay 4 x 0 for open or off x 1 for closed or on x X for no change Ci Unit ID i from 1 to 99 Example
11. 26 SETIALRM1 Set Alarm 1 Mode 1 command string for only that card to respond 27 SET1ALRM2 Set Alarm 1 Mode 2 67 RSN 28 SET1ALRM3 Set Alarm 1 Mode 3 This command reads and then displays the ID SS TALRM Modea number of the unit 30 SET1ALRM5 Set Alarm 1 Mode 5 Command Format RSN 31 SET2ALRM1 Set Alarm 2 Mode 1 32 SET2ZALRM2 Set Alarm 2 Mode 2 Example 33 SET2ALRM3 Set Alarm 2 Mode 3 The PE1005 was set to an ID value of 3 Send the command RSN and the system will return SET ALM oot 2 Mode a 36 ALRMON Activate Alarm Bos 37 ALRMOFF Deactivate Al eactivate Alarm FS Se COMMANDS 38 RDALRM Read alarm settings 1 STATUS Display card status 39 ALRMn SUBKk Set Alarm Dependencies 2 FRESET Reset card default values 40 WRM Write a memory location 3 VER Display firmware version 41 WRLM Write a memory label 4 TEST Test memory ICs 42 RDM Display memory data 5 WAIT Suspend operation 43 RDLM Display memory label 6 RDI Display input port status 44 Erase memory location 7 RDRL Display relay status 45 CLRLM Erase memory label 8 WRRLx x2x3x Set individual relays 9 WRRLk x Set one or all relays 10 WRIN Assign sub to input port 11 RDIN Read input port subs 12 WRS Write a subroutine 400 0384 003 26 ZALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com W
12. D SUB 25 PIN MONITOR DETECTOR 4 ADC INPUT 1 a 5 k 2 L RELAYS CONTROL 3 2 4 U 400 0384 003 5 SiGNAL ZALTINEX oye Cr Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com SPECIAL APPLICATION DIAGRAM 3 CARD DETAILS P3 Test connector 5 used for circuit lt 8 card evaluation O 1 O O i M N u6 l Za m 2 A 1750984 Ep tro E gt s 9 7 p A gt m o a A ZZ ZH ES 09 nl Oo 18 011 swi 9 6 ue RS 232 RS 485 o selection The RS 232 m tian j 85 Ps position is shown oti 1 Olinex u O to 2 55555559 5 3V Lithium 1225 Test connector used for circuit card evaluation 400 0384 003 6 ZALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 9
13. Open or Ground MD MD Analog Out Motion Detector MD MD TRIG MD Ext Trigger 9600 Baud 1 Stop Bits 8 Data Bits No Parity Pioneer Internal 5 0V 90mA 3 3V 120 RS 232 RS 485 Table 3 PE1005 Electrical SiGNAL MANAGEMENT SOLUTIONS SPECIAL APPLICATION DESCRIPTION OF PE1005 4 4 USB DIGITAL VO y 222 25 PIN D SUB Stee ear RJ 45 NETWORK JACK CONNECTOR DIGITAL 1 0 DIAGRAM 1 TYPICAL SETUP 400 0384 003 ALTINEX SIGNAL MANAGEMENT SOLUTIONS Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com SPECIAL APPLICATION DIAGRAM 2 INTERNAL VIEW PIONEER CONTROL CARD EDGE CONNECTOR TX PDP RX ETHERNET ETHERNET RX VIDEO CARD RJ 45 TRANSCEIVER N TX VIDEO CARD N TX MAIN USB USB TX TRANSCEIVER MP RC 232 ig TTL REAL TIME TX RX CLOCK RS485 TRANSCEIVER TX OC 124 INPUT CONTROL 13 OC 14
14. isolated digital inputs allow the user to control a Pioneer Plasma from simple push buttons Wire them in and use them for remote on off brightness up down input select and more Proximity Detector optional An ultrasonic proximity detector allows the execution of any macro based on the proximity and direction of a target Increase brightness as customers get closer to the display reduce brightness as they move away thus preventing burnout on the screen and increasing the life of the plasma display 400 0384 003 ALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com feature allows programmers to have access to command structures and control of the PE1005 from any terminal This technology provides easier than ever control of the PE1005 with simple keyboard commands TECHNICAL SPECIFICATIONS 3 Type A female 1 RJ 45 female 1 25 pin HD female 1 PDP504 Series PDP434 Series Table 1 1005 General MECHANICAL PE1005 Weight 0 5 Ib 0 23 kg T Operating 10 to 35 C T Maximum 0 C to 50 C Humidity 90 non condensing MTBF calc 40 000 hrs Table 2 PE1005 Mechanical ELECTRICAL PE1005 Inputs 2 USB Standard Ethernet LAN TCP IP 10 100 25 174 Capacity 24VDC 1A Max Switching Current 0 5A Max Switching Power 10VA Input Ports
15. www altinex com WRS10 WRRL1 1 WAIT10 WRRL1 0 1 WRS10 SET1ALARM30800 ALRMON1 0 Now send the command RDS10 to read the contents of subroutine 10 The feedback will be as follows SUB10 NONE WRRL1 1 WAIT10 WRRL1 0 SET1ALARM30800 ALRMON1 13 WRLS This command is used to assign a label to a subroutine The label may be used to identify or denote the purpose of the subroutine and may be up to 8 characters long lt gt Command Format WRLSm lt xxxxxxxx gt Ci Illegal Characters m Subroutine m from 1 to 99 x x Label Name text characters Ci Unit ID i from 1 to 99 Example Assign the text SETALRM1 as the label for subroutine 40 by sending the following command WRLS40 lt SETALRM1 gt Next send the command RDLS40 and verify the following feedback SETALRM1 14 RDS This command displays the contents of one or all subroutine memory locations The subroutine number label and stored data will be displayed Command Format RDSmCil m Subroutine m from 1 to 99 for all Ci Unit ID i from 1 to 99 SIGNAL MANAGEMENT SOLUTIONS SPECIAL APPLICATION Example Subroutine 20 is labeled 1 The subroutine contains the function WRRL1 1 Send the command RDS20 and receive the following feedback SUB20 RLY_1_ON WRRL1 1 SUB20 Subroutine Number RLY 1 Subroutine Label WRRL1 1 Stored Function 15 R
16. 90 3303 E mail solutions altinex com Web www altinex com SPECIAL APPLICATION DIAGRAM 4 25 PIN HD DETAILS PIN Description PIN Description PIN Description PIN Description 1 IInputl 5 Relay 1 Throw 13 21 Det 2 Input 2 6 Relay 1 Pole 14 RS 232 TX 22 Motion Det Trg Input 3 7 Relay 2 Throw 15 GND 23 GND 4 Input 4 8 Relay 2 Pole 16 RS 232 RX 24 GND 9 Relay Throw 17 25 GND 10 Relay 3 Pole 18 IRS 485 11 Relay 4 Throw 19 RS 485 12 Relay 4 Pole 20 GND INTERNAL RELAYS INPUT 4 3 2 1 PORTS 1 4 s OFF Open 2 ON GND GROUND PINS 1 13 15 17 20 23 25 Motion Detector MD MD TRIGGER MD DIAGRAM 5 MOTION DETECTOR DETAILS N C ANALOG OUT PWM CLOCK OUT TRIG ENABLE EXT TRIGGER COMMON V 400 0384 003 7 RS485 CONNECTIONS MOTION DET PE1005 Analog Out Trig Enable Ground Ext Trigger MD_TRIG Ground V SIGNAL MANAGEMENT ALTINEX SOLUTIONS Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com SPECIAL APPLICATION INSTALLING YOUR PE1005 6 Step 1 Turn off the power to the plasma display Step 2 Use ESD safe
17. 99 Example 1 Send the command STATUS and receive feedback similar to the following PE1005 Pioneer Control Card IN 1111 IN 1 SUB NOT ASSIGNED IN 2 SUB NOT ASSIGNED IN 3 SUB NOT ASSIGNED IN 4 SUB NOT ASSIGNED TIME 17 17 29 DATE 06 08 05 DAY Wednesday Alarm 1 OFF SUB NOT ASSIGNED Mode 1 once per second Alarm 2 OFF SUB NOT ASSIGNED Mode 1 once per minute Int Baud Rate 9600 Motion Detector OFF MD Threshold value 25 MD0 SUB NOT ASSIGNED MD1 SUB NOT ASSIGNED FRESET This command is used to perform a factory reset on the unit All settings will be reset to default values This includes erasing subroutines clearing alarm settings and resetting the time and date values Command Format FRESETCi Ci Unit ID i from 1 to 99 SIGNAL MANAGEMENT SOLUTIONS SPECIAL APPLICATION Example Reset the PE1005 with unit ID 1 to its default settings by sending the command FRESETC1 The card will display a notice that a reset is in process PLEASE WAIT CARD IS PERFORMING FACTORY RESET When the reset is complete the following message will be displayed FACTORY RESET COMPLETED VER This command displays the firmware version and model number of the PE1005 Command Format VERCi Ci Unit ID i from 1 to 99 Example Send the command VER and receive the following feedback PE1005 690 0205 002 PE1005 Model Number 690 0205 002 Firmware Version TEST This command
18. AGEMENT SOLUTIONS SPECIAL APPLICATION 6 Click on the Search button to check for new devices on the LAN S Lantronix Devicelnstaller 3 6 0 6 File Edit View Device Tools Help pe Search Assign IP Type Name Gre NOTE If you want to assign the IP manually click Assign IP This method will require the hardware address on the device and the assistance of your IT Administrator THE IP ADDRESS 7 Once the device is located click on the device in the installer window and make note of the Internet address Lantronix Devicelnstaller 3 6 0 6 File Edit View Device Tools Help 2 9 secs Search AssignIP Configure Upgrade Telnet Web Type Name Group IP Address e XPort O1 192 168 1 111 CONFIGURE THE DEVICE 8 The device may be configured using a web browser or using a Telnet session This procedure uses the Telnet option Click the Telnet button and do not change the default port number of 9999 Telnet IP Address Cancel 400 0384 003 ALTINEX 9 When the command window appears press ENTER when prompted to enter Setup Mode and then select the factory defaults Telnet 192 168 1 111 MAC address 00204 8225F Software version 61 5 lt 031003 gt KPTE Press Enter to go into Setup Mode 10 Next select Channel 1 Configuration 28 Telnet 192 168 1 111 Change Setup Server configuration Channel 1 configuration E mail settings Expert
19. CIAL APPLICATION Example Associate Alarm 1 with subroutine 10 and set Alarm 1 to trigger at the bottom of every hour by sending the following commands ALRM1 SUB10 SET1ALRM23000 ALRMON1 Alarm 1 is now enabled and running Every hour when the minute and second counts match 30 00 the functions stored in subroutine 10 will be executed If the time is 10 30 00AM the alarm will trigger at the following times 10 30 00 11 30 00 12 30 00 etc 28 SET1ALRM3 MODE 3 A Day This command is used to set Alarm 1 into Mode 3 Command Format SET1ALRM3hhmmssCil hh Time in Hours hh 00 to 23 mm Time in Minutes mm 00 to 59 ss Time in Seconds ss 00 to 59 Ci Unit ID i from 1 to 99 Example Associate Alarm 1 with subroutine 10 and set Alarm 1 to trigger at 12 noon every day by sending the following commands ALRM1 SUB10 SET1ALRM3120000 ALRMON1 Alarm 1 is now enabled and running Every day at noon the functions stored in subroutine 10 will be executed ALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com 29 SET1ALRM4 MODE 4 Once A Month This command is used to set Alarm 1 into Mode 4 Command Format SET1ALRM4hhmmssddCi hh Time in Hours hh 00 to 23 mm Time in Minutes mm 00 to 59 ss Time Seconds ss 00 to 59 dd Date dd 01 t
20. DLS This command displays the subroutine label of one or all subroutine memory locations Command Format RDLSmCi m Subroutine m from 1 to 99 for all Ci Unit ID i from 1 to 99 Example Subroutine 20 is labeled RLY_1_ON Send the command RDS20 and receive the following feedback RLY_1_ON 16 CLRS This command erases the subroutine contents of one or all subroutine memory locations Erasing the subroutine contents does not affect the subroutine label Command Format CLRSkCi k Subroutine n from 1 to 99 for all Ci Unit ID i from 1 to 99 Example Subroutine 50 turns off all the relays and has the label RLYS OFF Send the command RDS50 and the display will be as follows SUB50 RLYS_OFF WRRL 0 Clear the contents of subroutine 50 by sending the command CLRS50 After sending this command reading the contents of subroutine 50 will be as follows SUB50 RLYS_OFF Subroutine Empty 400 0384 003 ALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com 17 CLRLS This command erases one or all subroutine labels Erasing the subroutine label does not affect the contents of the subroutine k Subroutine n from 1 to 99 for all Ci Unit ID i from 1 to 99 Example Subroutine 50 turns off all the relays and has the label RLYS OFF Send the command
21. Format SET2ALRM4hhmmddCil hh Time in Hours hh 00 to 23 mm Time in Minutes mm 00 to 59 dd Date dd 01 to 31 Ci Unit ID i from 1 to 99 400 0384 003 ALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com Example Associate Alarm 2 with subroutine 10 and set Alarm 2 to trigger at 2 30PM on the 15 day of the month by sending the following commands ALRM2 SUB10 SET2ALRM4143015 ALRMON2 Alarm 1 is now enabled and running Every month on the 15 at 2 30PM the functions stored in subroutine 10 will be executed 35 SET2ALRM5 MODE 5 Once A Week This command is used to set Alarm 2 into Mode 5 Command Format SET2ALRM5hhmmwCil hh Time in Hours hh 00 to 23 mm Time in Minutes mm 00 to 59 w Day of the Week w 1 to 7 1 Sunday 2 Monday 3 Tuesday 4 Wednesday 5 Thursday 6 Friday 7 Saturday Ci Unit ID i from 1 to 99 Example Associate Alarm 2 with subroutine 10 and set Alarm 2 to trigger at 10 00AM every Tuesday by sending the following commands ALRM2 SUB10 SET2ALRM510003 ALRMON2 Alarm 2 is now enabled and running Every Tuesday at 10 00AM the functions stored in subroutine 10 will be executed SIGNAL MANAGEMENT SOLUTIONS SPECIAL APPLICATION ALARM CONTROLS 36 ALRMON 39 ALRMn SUBk This command sets the dependencies b
22. MANAGEMENT SOLUTIONS SPECIAL APPLICATION 8 3 INPUT PORTS DO NOT RESPOND Cause 1 The input is not grounded Solution Short the input port to ground using a switch or jumper and send the command RDI The status of all input ports will be displayed A 1 is for on shorted and a 0 is for off Verify the grounded input reads 1 If all the ports show a high 1 call ALTINEX at 714 990 2300 Otherwise see Cause 2 Cause 2 The input is incorrectly programmed Solution the PE1005 is seeing high to low transition and there is no response the setup may be wrong Send the command RDIN and note the subroutine number assigned to the port Then read the subroutine with the RDS command and verify the contents If everything looks good there may be a problem with the PE1005 operation call ALTINEX at 714 990 2300 400 0384 003 ALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com 29 ALTINEX POLICIES 9 9 1 LIMITED WARRANTY RETURN POLICIES Please see the ALTINEX website alt www altinex com for details on warranty and return policies 9 2 CONTACT INFORMATION ALTINEX Inc 592 Apollo Street Brea CA 92821 USA TEL 714 990 2300 TOLL FREE 1 800 ALTINEX WEB www altinex com E MAIL solutions altinex com SIGNAL MANAGEMENT SOLUTIONS
23. NEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com Pioneer Manual www pioneerelectronics com pio pe images portal cit 3424 164151803 PDP504CMX RS232 CPM pdf Some of the commands and features in the guide will only be available depending on the model and options of the Pioneer display TROUBLESHOOTING GUIDE 8 We have carefully tested and have found problems in the supplied PE1005 However we would like to offer suggestions for the following 8 1 THERE IS NO COMMUNICATION Cause 1 There is a setup problem Check the communication software and verify the PE1005 is connected to the correct communication port and that the software is connected If there is still no response see Cause 2 Solution Cause 2 connection is wrong Solution Verify the RS 232 cabling is correct The RS 232 transmit and receive pins are pins 14 and 16 of the 25 pin HD connector If there is still response please call ALTINEX at 714 990 2300 8 2 RELAYS DO NOT WORK Cause 1 cabling is incorrect Solution See DIAGRAM 4 25 PIN DETAILS for connection details If the cabling is good and the relays still do not switch see Cause 2 Cause 2 correct relay does not switch Solution There are four internal relays 1 through 4 Turn on all the relays by sending the command WRRL 1 If some of the relays are open please call ALTINEX at 714 990 2300 SiGNAL
24. SPECIAL APPLICATION MANUAL PART NUMBER 400 0384 003 CONTROL CARD FOR PIONEER PLASMA DISPLAY USER S GUIDE ZALTINEX 9 Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com SPECIAL APPLICATION TABLE OF CONTENTS Page PRECAUTIONS SAFETY WARNINGS 2 GENERAL 2 INSTALLATION 2 CLEANINQGL asua 2 HANDLING Z L unamasa 2 FCG NOTICE 5 2 ABOUT 555 3 TECHNICAL SPECIFICATIONS 3 DESCRIPTION OF PE1005 4 APPLICATION DIAGRAMS 4 DIAGRAM 1 TYPICAL 4 DIAGRAM 2 INTERNAL 5 DIAGRAM CARD DETAILS 6 DIAGRAM 4 25 HD DETAILS 7 DIAGRAM 5 MOTION DETECTOR DETAILS 7 INSTALLING YOUR PE1005 8 USB SETUP nia unkuy 8 TGP IP SETUP dances 8 OPERATION Z S a SSD U u Su 10 RS 232 CONTROL 10 DESCRIPTION OF COMMANDS 10 SUMMARY OF COMMANDS
25. and clears one or all RS 232 memory location The memory for the subroutines is not affected Command Format CLRMmCi m Memory Location m 1 to 99 for all Ci Unit ID i from 1 to 99 Example Clear the contents of all RS 232 memory locations by sending the command The PE1005 will respond with the following feedback ALL SUBS WILL BE CLEARED PLEASE WAIT SIGNAL MANAGEMENT SOLUTIONS SPECIAL APPLICATION Upon completion the following message will be displayed TASK COMPLETED 45 CLRLM This command clears one or all RS 232 memory location labels Command Format CLRLMkCi k Memory Location m 1 to 99 for all Ci Unit ID i from 1 to 99 Example Clear the contents of all RS 232 memory location labels by sending the command CLRLM The PE1005 will respond with when the labels are cleared COMMUNICATION The next several commands deal with internal and external communication 46 MODERSI This command is used to set the baud rate for the internal RS 232 bus communication Command Format MODERSImCi Rate bps 2400 4800 9600 19200 38400 Ci Unit ID i from 1 to 99 Example Set the internal baud rate to 9600 baud by sending the command MODERSI9600 Use the STATUS or RDRSI commands to verify this setting In the status feedback this setting will be as follows Int Baud Rate 9600 The feedback from the RDRSI
26. assume the time and date are already set Subroutine 10 is programmed to close internal relay number one wait a half second and then open the relay WRS10 WRRL1 1 WAIT5 WRRL1 0 1 400 0384 003 ALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com This is an example only These or other functions may be programmed into the subroutine in order to control external equipment set indicator lights or trigger external events as desired 26 SET1ALRM1 MODE 1 Every Minute This command is used to set Alarm 1 Mode 1 Command Format SET1ALRM1ssCi ss Time seconds ss 00 to 59 Ci Unit ID i from 1 to 99 Example into Associate Alarm 1 with subroutine 10 and set Alarm 1 to trigger 30 seconds into each minute by sending the following commands ALRM1 SUB10 SET1ALRM130 ALRMON1 Alarm 1 is now enabled and running Every minute when the second count matches 30 the functions stored in subroutine 10 will be executed If the time is 10 00 00AM the alarm will trigger at the following times 10 00 30 10 01 30 10 01 30 etc 27 SET1ALRM2 MODE 2 Every Hour This command is used to set Alarm 1 Mode 2 Command Format SET1ALRM2mmssCi mm Time in Minutes mm 00 to 59 into ss Time Seconds ss 00 to 59 Ci Unit ID i from 1 to 99 SIGNAL MANAGEMENT SOLUTIONS SPE
27. command will simply be 9600 400 0384 003 ALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com 47 RDRSI Reads baud rate for internal RS 232 bus communication Command Format RDRSICi Ci Unit ID i from 1 to 99 Example Send the command RDRSI to read back the internal RS 232 baud rate The feedback will be similar to the following 9600 48 OUTRSM This command sends the contents of an RS memory location to the external RS 232 port Command Format OUTRSMmCi Memory Location m from 1 to 99 Ci Unit ID i from 1 to 99 Example Output the contents of RS memory location 99 to the external RS 232 bus by sending the command OUTRSM99 The characters stored in memory location 99 will be output on the external RS 232 bus 49 OUTBSM This command sends RS memory data through the internal RS 232 port bus Command Format OUTBSMmCi Memory Location m from 1 to 99 Ci Unit ID i from 1 to 99 Example Send the contents of RS memory location 50 to the internal bus by sending the command OUTBSM50 50 OUTPDPM This command sends RS memory data through the internal RS 232 port bus to the Display PDP card SIGNAL MANAGEMENT SOLUTIONS SPECIAL APPLICATION Command Format OUTPDPMmGCGi Location m from 1 to 99 Ci Unit ID i
28. d whether or not the motion detector is active Example 5 Send the command SID1 to the system The REME ID is 1 must be included Ci Unit ID i from 1 to 99 at the end of each command line as in IVERC1 for only the unit with ID1 to respond 400 0384 003 25 ZALTINEX ED Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com SPECIAL APPLICATION REMEMBER A command sent without the unit 13 WRLS Write a subroutine label ID will be executed by all the 14 RDS Display subroutine data the 15 RDLS Display subroutine label 66 SIDnCi 16 CLRS Erase subroutine contents This command sets the ID number of a single 17 CLRLS Erase subroutine lape card to a new ID number Only the cards that 18 SUB Execute a subroutine have the matching ID will be changed 19 HELP Show RS 232 commands Command Format SIDnCi 20 SETTIME Set the time of day n New ID i from 1 to 99 21 SETDAY Set the day of the week Ci Card ID n from 1 to 99 22 SETDATE Set the May non year E s 23 RDTIME Display internal time 24 RDDAY Display day of the week Send the command SID10C1 to the bus The RDDATE Disol f lock card with the ID of C1 will now become C10 25 isplay date from Now C10 must be included at the end of the
29. e 4 Every Month 5 Every Week The following is required for the alarm to function 1 Set the Time Day and Date on the PE1005 2 Program functions into a subroutine 3 Associate the subroutine with an alarm 4 Set the alarm number and mode 5 Enable the alarm The alarm functions that follow are used to setup the alarms and enable and disable the alarms The examples used in the next commands reference subroutine 10 and assume the time and date are already set Subroutine 10 is programmed to close internal relay number one wait a half second and then open the relay WRS10 WRRL1 1 WAIT5 WRRL1 0 1 This is an example only These or other functions may be programmed into the subroutine in order to control external equipment set indicator lights or trigger external events as desired 400 0384 003 ALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com 31 SET2ALRM1 MODE 1 Every Minute This command is used to set Alarm 2 into Mode 1 Command Format SET2ALRM1 Ci Ci Unit ID i from 1 to 99 Example Associate Alarm 2 with subroutine 10 and set Alarm 2 to trigger each minute at 00 by sending the following commands ALRM2 SUB10 SET2ALRM1 ALRMON2 Alarm 2 is now enabled and running Every minute when the second count matches 00 the functions stored in subroutine 10 will be exec
30. eb www altinex com SPECIAL APPLICATION 46 MODERSI Set internal baud rate 47 RDRSI Read internal baud rate 48 OUTRSM Send memory data via external RS 232 49 OUTBSM Send memory data via internal RS 232 50 OUTPDPM Send memory data to plasma main card 51 OUTVCM Send memory data to plasma video card 52 SENDRS Send data via external bus 53 SENDBS Sends data via internal bus 54 SENDPS Send data to display card 55 SENDVS Send data to video card 56 MDON Enable motion detector 57 MDOFF Disable motion detector 58 MD1 Set approaching sub 59 MDO Set departing sub 60 SETMD Set detector trigger value 61 SETTMD Set detector time delay 62 MDTYPE Set detector type 63 RDMD Read detector settings 64 RSI Reset card ID 65 SIDn Set ID of cards 66 SIDnCi Set ID of a single card 67 RSN Read ID number 7 4 PLASMA CONTROL WITH INTERNAL BUS The PE1005 has the capability of sending commands directly to the plasma s internal bus or to third party video cards installed in the plasma This allows the user to control settings on the display without having to use the menu buttons on the display or with the remote control 400 0384 003 ALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com 27 As in the previous sections commands are sent via standard RS 232 communication Com
31. ely to cause harmful interference in which case the user will be required to correct the interference at their expense Any changes or modifications to the unit not expressly approved by ALTINEX Inc could void the user s authority to operate the equipment SIGNAL MANAGEMENT SOLUTIONS SPECIAL APPLICATION ABOUT YOUR PE1005 2 PE1005 PIONEER CONTROL CARD The PE1005 Pioneer Control card allows users to control events on Pioneer Plasma displays using many different control protocols and programmed functions Key features include gt USB control gt RS 232 gt RS 485 gt Relay contacts gt Digital inputs gt Real time clock gt Proximity detector gt Calendar Real Time Clock Alarms Program repetitive tasks or one time events up to a year in advance Execute macros to turn plasma on or off at pre determined times or intervals Contact Relays Four relays are available to control external events Each relay handles up to 24VDC at 1Amp Turn lights on or off close or open drapes or lower or raise projectors The PE1005 is fully integrated with a one year calendar and alarms RS 232 RS 485 All functions on the plasma can be controlled using RS 232 or RS 485 protocol Decide which protocol to use and the card handles the rest IP Control All functions of the card can be accessed through Telnet or a Mini web server Choose the access protocol and the PE1005 handles the details Digital Inputs Optically
32. ends direct data through the internal RS 232 bus based on the Plasma display s internal control settings The data between the lt gt s is sent to the bus Command Format SENDBS lt xxx gt Ci xxx ASCII Characters 16 maximum Ci Unit ID i from 1 to 99 Example Output the string STANDBY by sending the following command SENDBS lt STANDBY gt 54 SENDPS This command sends data directly through the internal RS 232 bus to the main control card The data between the lt gt s is sent to the bus Command Format SENDPS lt xxx gt Ci xxx ASCII Characters 16 maximum Ci Unit ID i from 1 to 99 Example Send the string INPUT by sending the following command SENDPS lt INPUT gt 55 SENDVS This command sends data directly through the internal RS 232 bus to the video card The data between the lt gt s is sent to the bus Command Format SENDVS lt xxx gt Ci xxx ASCII Characters 16 maximum Ci Unit ID i from 1 to 99 Example Send the string INPUT by sending the following command SENDVS lt INPUT gt SIGNAL MANAGEMENT SOLUTIONS SPECIAL APPLICATION MOTION DETECTOR MDON MDOFF MD1 MD0 SETMD RDMD The next commands setup and control the motion detector SETMD sets the trigger level and MD0 and MD1 assign subroutines to be executed depending on the direction of motion RDMD displays the motion detector settings and MDON
33. etween This command activates Alarm 1 Alarm 2 After turning the alarm on the functions assigned to the alarm with the ALRMn SUBk command will be executed at the alarm time Command Format ALRMONnCi n Alarm No n 1 or 2 Ci Unit ID i from 1 to 99 Example Turn on Alarm 1 on by sending the command an alarm and a subroutine The functions in the subroutine will be executed when the alarm conditions are met Command Format ALRMn SUBkCi n Alarm Number n 1 or 2 k Subroutine k from 1 to 99 Ci Unit ID i from 1 to 99 Example Assign subroutine 20 to be executed when the conditions for Alarm 2 are met by sending the command ALRM2 SUB20 Use the ALRMON1 Alarm 1 is now enabled gt RDALRM2 command to verify the setting 37 ALRMOFF This command deactivates Alarm 1 and Alarm 2 After turning the alarm off nothing will happen at the alarm time Command Format ALRMOFFnCi n Alarm No n 1 or 2 Ci Unit ID i from 1 to 99 Example RS 232 MEMORY COMMANDS 40 WRM This command saves RS 232 data into memory This memory is not the same as the memory for subroutine storage When writing to the memory location the memory may be overwritten or appended with this command Command Format WRMm xxxxxx pCil Turn on Alarm 2 off by sending the command ALRMOFF1 Alarm 2 is now disabled 38 RDALRM This command reads back alarm
34. from 1 to 99 Example Send the contents of RS memory location 10 to the internal bus to the Display PDP card by sending the command OUTPDPM10 51 OUTVCM This command sends RS memory data through the internal RS 232 port bus to the Video card Command Format DUTVCMmGCGil Memory Location m from 1 to 99 Ci Unit ID i from 1 to 99 Example Send the contents of RS memory location 1 to the internal bus to the Video card by sending the command OUTVCM1 DIRECT DATA The next four commands allow data to be sent directly to the RS 232 bus port without using data stored in memory locations Hex characters be sent using sign followed by two bytes of hex data Sending 0C will send the hex OC or form feed character The three characters making up the hex number cannot be separated and must be in the same string 52 SENDRS This command sends direct data through the external RS 232 port The data between the lt gt s is sent to the bus Command Format SENDRS lt xxx gt Cil xxx ASCII Characters 16 maximum Ci Unit ID i from 1 to 99 Example Output the string PAGE 1 followed by a form feed by sending the following command SENDRS lt PAGE 1 0 gt 400 0384 003 ALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com 23 3 SENDBS This command s
35. mands may be sent directly to the internal bus or stored into RS memory locations and recalled from the memory location and sent to the bus The commands for communicating with the internal bus are OUTPDPM and SENDBS See the previous sections for details on these two commands including restrictions on the number of characters that may be stored or sent in a single command 7 4 1 INTERNAL COMMAND FORMAT The internal commands for the PE1005 are in the following format and must contain the protocols indicated 1 Start of text STX 02 2 Plasma 10 default 2A 2A 3 Command ID See Appendix A of the Pioneer manual mentioned earlier 4 End of text ETX 9003 7 4 2 SENDING COMMANDS INTERNAL BUS The default baud rate for the PE1005 is 9600 baud Prior to sending any commands verify both the plasma and PE1005 are set to 9600 baud In order to change setting values the plasma must be in adjustment mode The plasma may be placed into adjustment mode by sending the command AJY The following examples demonstrate communication with the plasma through the internal bus using both stored commands and direct commands All commands may be sent to the plasma using either method Example 1 Adjustment Mode Place the plasma into adjustment mode by sending the following command directly to the internal bus SENDBS lt 02 2A 2AAJY 03 gt SIGNAL MANAGEMENT SOLUTIONS SPECIAL APPLICATION Example 2 Adjust B
36. mory location This label can help identify the contents or function of the data stored in the memory location The label may be up to eight characters Command Format WRLMm lt xxxxxx gt Cil Memory Location m from 1 to 99 x Label Name 8 characters max Ci Unit ID i from 1 to 99 Example Add the label STANDBY to memory location 50 by sending the command WRLM50 lt STANDBYS3 42 RDM This command displays the data for one or all memory locations The data shows the memory location number the memory label and then the contents of the memory location Command Format RDMmCi m Memory Location m 1 to 99 for all Ci Unit ID i from 1 to 99 400 0384 003 ALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com Example Read back the contents of all the memory locations by sending the command RDM The feedback will be in the following format MEM1 NONE ON MEM2 NONE OFF MEM99 NONE Memory Empty 43 RDLM This command displays the data for one or all memory location labels Command Format RDLMmCi m Memory Location m 1 to 99 for all Ci Unit ID i from 1 to 99 Example Read back the contents of all the memory labels by sending the command RDLM The feedback will be in the following format MEM1 STOP MEM2 PLAY MEM99 NONE 44 CLRM This comm
37. o 31 Ci Unit ID i from 1 to 99 Example Associate Alarm 1 with subroutine 10 and set Alarm 1 to trigger at 2 30PM on the 15 day of the month by sending the following commands ALRM1 SUB10 SET1ALRM414300015 ALRMON1 Alarm 1 is now enabled and running Every month on the 15 at 2 30PM the functions stored in subroutine 10 will be executed 30 SET1ALRM5 MODE 5 Once A Week This command is used to set Alarm 1 into Mode 5 Command Format SET1ALRM5hhmmsswCi hh Time in Hours hh 00 to 23 mm Time in Minutes mm 00 to 59 ss Time in Seconds ss 00 to 59 w Day of the Week w 1 to 7 1 Sunday 2 Monday 3 Tuesday 4 Wednesday 5 Thursday 6 Friday 7 Saturday Ci Unit ID i from 1 to 99 400 0384 003 SIGNAL MANAGEMENT SOLUTIONS SPECIAL APPLICATION Example Associate Alarm 1 with subroutine 10 and set Alarm 1 to trigger at 10 00AM every Tuesday by sending the following commands ALRM1 SUB10 SET1ALRM51000003 ALRMON1 Alarm 1 is now enabled and running Every Tuesday at 10 00AM the functions stored in subroutine 10 will be executed ALARM 2 COMMANDS The second programmable alarm for the PE1005 has five modes to choose from but only one mode may be active at a time The following Alarm 2 modes allow the alarm to be executed at one of the following rates Mode 1 Every Minute Mode 2 Every Hour Mode 3 Every Day Mod
38. or a readme file that may contain special installation instructions If there is a readme file print and read the contents prior to running the application Launch the application 5 Follow the instructions provided by the Installation Wizard 6 Connect the PE1005 to the computer s USB port The unit should be operational If not it may be necessary to reboot the computer Note In some cases it is necessary to use the Device Manager in Windows and direct Windows to install the drivers located at the path displayed during the installation procedure in Step 5 above TCP IP SETUP 1 Download the Devicelnstaller for the XPort device from the ALTINEX website www altinex com Devicelnstaller is a configuration utility for the Ethernet to serial controller This software requires Windows Framework to be installed on the computer The NET Framework should be revision 1 1 or later 2 Run the setup exe from downloaded files This will install the Devicelnstaller on your system Make note of where the software is installed on your computer 3 Connect the XPort device to the LAN using standard CAT 5 cable 4 The device must be installed in a system and have power turned on in order to proceed 5 Launch the Lantronix Devicelnstaller from the START menu or from the directory noted earlier This will allow the configuration of the XPort device SiGNAL MAN
39. performs a test on the internal memory Upon completion the system will display the results Command Format TESTCi Ci Unit ID i from 1 to 99 Example Send the command TEST to check the internal card memory The feedback will be similar to the following TIME 17 18 28 DATE 06 08 05 DAY Wednesday MEMORY TEST RESULTS U10 OK U11 OK Otherwise failures will be indicated 400 0384 003 ALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com 5 WAIT This command will cause the card to suspend operation for specified period up to ten seconds If several commands are present in a single subroutine use this command to make a pause in between each command if desired Command Format WAITnCi n Delay time in 0 1sec n 01 99 Ci Unit ID i from 1 to 99 Example Send the command WAIT10 to suspend operation for one second before executing the next function RDI This command is used to read the status of one or more of the input ports The ports are turned on by connecting the corresponding input connector pin to ground See page 7 for details An open no connection on the input pin is displayed as a 0 for off A 1 indicates the port is on shorted to ground Command Format n input number n from 1 to 4 for all Ci Unit ID i from 1 to 99 Example
40. rightness Now that the plasma is in adjustment mode various settings may be changed Set the brightness to a value of 100 by sending the following commands directly to the internal bus SENDBS lt 02 2A 2A gt SENDBS lt BRT150 03 gt NOTE The SENDBS command can only send 16 characters at a time Break the command into smaller sections if necessary or store the entire command in a memory location Example 3 Select Inputs Select between Input 1 and Input 2 This time use commands that are stored in memory First program memory locations 10 and 20 with the input select commands Memory location 10 will store the IN1 command and location 20 will store the IN2 command Send the IN1 and IN2 commands along with the STX ID and ETX portions of the command by sending the following WRM10 02 2A 2A 1 WRM10 IN1 03 0 WRM20 02 2A 2A 1 WRM20 IN2 03 0 Second recall the commands from memory and send them to the internal bus using the following commands OUTPDPM10 OUTPDPM20 Select Input 2 7 5 PIONEER PLASMA COMMANDS A detailed listing of RS 232 commands is available in the PDP 504CMX Command Protocol Manual available on the Pioneer Electronics website Please see the following links Write location 10 Append location 10 Write location 20 Append location 20 Select Input 1 Pioneer website www pioneerelectronics com 400 0384 003 Tel 714 990 2300 Toll Free 1 800 ALTI
41. settings Security Factory defaults Exit without save Save and exit Your choice 11 View each line item as it appears Press ENTER to leave the default value or enter the new value and press ENTER Telnet 192 168 1 111 Baudrate lt 9600 gt I F Mode 4C gt Flow lt 00 gt Port lt 10001 gt ConnectMode Remote IP Address lt 000 gt lt 000 lt X000 gt lt 0 gt Remote Port lt 0 i F lushMode DisConnTime lt 00 00 gt SendChar 1 lt 00 gt SendChar 2 lt 00 gt NOTE The Port No in the configuration menu is the COM port for use with RS 232 communication software 11 Select Save and Exit to keep changes and exit setup mode 12 Close the Devicelnstaller setup is complete Use the port number assigned above to communicate with the PE 1005 over the LAN SIGNAL MANAGEMENT SOLUTIONS Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com SPECIAL APPLICATION OPERATION 7 1 RS 232 CONTROL 1005 has many advanced remote control capabilities which are accessible through standard RS 232 communication Actual controlling may be achieved using a computer control system or other device capable of sending RS 232 commands 7 1 1 RS 232 INTERFACE The RS 232 commands for the PE1005 are in a simple ASCII character format
42. shold value 10 RDMD command to read values and check MD0 SUB10 settings 62 MDTYPE MP TSUEN This command sets the motion detector s time ID COMMANDS RSI SIDn SIDnCi RSN delay The sensor will trigger until a target is found and then stop sensing and not check for a 64 RSI new target until after the specified delay time This command resets the card IDs in the The range is 01 to 99 where each increment is system After sending this command each card 0 1 minutes and the minimum delay time is ID will be 0 6 seconds Command Format MDTYPE xCi x Sensor Type x 0 or 1 Command Format RSI Example Send the command RSI to the system with 0 Ultrasound Motion Detector ID 2 The card can no longer be recognized as 1 PIR Motion Detector ID 2 it will be ID 0 SEND ee 1699 REMEMBER A command sent without the unit Example ID will be executed by all the Set the time delay to a value of one minute by 10055 connected to the sending the command SETTMD 10 Use the 5 232 port RDMD command to read values and check 65 SIDn settings This command sets the ID number of all cards 63 RDMD connected to the RS 232 bus to the same value The default unit ID is zero Use this command to display the motion detector s settings and check its status The Command Format SIDn status includes settings assigned n New ID n from 1 to 99 subroutines current detected reading an
43. subroutine 11 to be executed when an object is sensed moving away from the motion detector by sending the command MD1 SUB11 60 SETMD This command sets the motion detector s trigger level The trigger level range is 0 1V to 5 0V and may be set in increments of 0 1V Command Format SETMD xCi x Trigger Level x from 01 to 50 01 0 1 02 0 2V 50 5 0V Ci Unit ID i from 1 to 99 Example Set the trigger level a value of 1 0V by sending the command SETMD 10 Use the RDMD command to read values and check settings 61 SETTMD This command sets the motion detector s time delay The sensor will trigger until a target is found and then stop sensing and not check for a new target until after the specified delay time The range is 01 to 99 where each increment is 0 1 minutes and the minimum delay time is 6 seconds SIGNAL MANAGEMENT SOLUTIONS SPECIAL APPLICATION Command Format SETMD lt xCi Example x Time Delay x from 01 to 99 The motion detector s trigger level is set to 1 0V Subroutine 10 is assigned for objects moving away from the detector and subroutine 11 is assigned for objects moving toward the detector Ci Unit ID i from 1 to 99 9 Motion Detector ON MD Current value 04 01 0 1 minutes 6 sec 02 0 2 minutes 12 sec Example Set the time delay to a value of one minute by sending the command SETTMD 10 Use the MD Thre
44. ty precautions and always wear a ground strap when handling the PE1005 Step 3 Prepare the card if necessary using the application diagrams on page 7 Step 4 Remove the card or cover currently installed at the bottom of the display Step 5 Carefully insert the PE1005 Use the thumbscrews to tighten the card securely into place Step 6 If using RS 232 control connect the RS 232 communication port of the PC or other control device to the PE1005 through the Digital I O port using a 25 HD connector and cable See DIAGRAM 4 25 PIN HD DETAILS for pinout information NOTE RS 232 operation Use AVSnap or other RS 232 communication software Step 7 Turn power to the plasma display EXTERNAL PORT SETUP In addition to the controls available through the 25 pin HD connector the PE1005 may also be controlled through its USB or LAN ports The drivers required for configuring these ports are available on the ALTINEX website www altinex com If there are any questions or difficulties installing these drivers please call ALTINEX at 714 990 2300 USB SETUP 1 Download the TUSB3410 driver from the ALTINEX website www altinex com 2 Do not connect the PE1005 to the USB port on the computer until after the drivers are installed 400 0384 003 Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com 3 Check f
45. uted If the time is 09 59AM the alarm will trigger at the following times 10 00 00 10 01 00 10 02 00 32 SET2ALRM2 MODE 2 Every Hour This command is used to set Alarm 2 into Mode 2 Command Format SET2ALRM2mmCil mm Time in Minutes mm 00 to 59 Ci Unit ID i from 1 to 99 Example Associate Alarm 2 with subroutine 10 and set Alarm 2 to trigger at the bottom of every hour by sending the following commands ALRM2 SUB10 SET2ALRM230 ALRMON2 SIGNAL MANAGEMENT SOLUTIONS SPECIAL APPLICATION Alarm 2 is now enabled and running Every hour when the minute and second count matches 30 00 the functions stored in subroutine 10 will be executed If the time is 10 29 00 the alarm will trigger at the following times 10 30 00 11 30 00 12 30 00 etc 33 SET2ALRM3 MODE 3 A Day This command is used to set Alarm 2 into Mode 3 Command Format SET2ALRM3hhmmCi hh Time in Hours hh 00 to 23 mm Time in Minutes mm 00 to 59 Ci Unit ID i from 1 to 99 Example Associate Alarm 2 with subroutine 10 and set Alarm 2 to trigger at 12 noon every day by sending the following commands ALRM2 SUB10 SET2ALRM31200 ALRMON2 Alarm 2 is now enabled and running Every day at noon the functions stored in subroutine 10 will be executed 34 SET2ALRM4 MODE 4 Once A Month This command is used to set Alarm 2 into Mode 4 Command
46. wing TIME 07 30 05 21 SETDAY This command is used to program the internal clock with the day of the week Command Format SETDAYwGCi day of the week w from 1 to 7 1 Sunday 2 Monday 3 Tuesday 4 Wednesday 5 Thursday 6 Friday 7 Saturday Ci Unit ID i from 1 to 99 Example Set the day to Monday and then read back the day to verify the setting by sending the following commands SETDAY2 RDDAY The feedback from the RDDAY command will be as follows DAY Monday 400 0384 003 ALTINEX Tel 714 990 2300 Toll Free 1 800 ALTINEX FAX 714 990 3303 E mail solutions altinex com Web www altinex com 22 SETDATE This command is used to program the internal clock with the current date Command Format SETDATEmmddyyCil mm Month mm 01 to 12 dd Date dd 01 to 31 yy Year 00 to 99 Ci Unit ID i from 1 to 99 Example Set the date to June 1 2005 and then read back the date for verification by sending the following commands SETDATE060105 RDDATE The feedback will be as follows DATE 06 01 05 23 RDTIME This command reads back the time from internal clock Command Format RDTIMECi Ci Unit ID i from 1 to 99 Feedback Format hh mm ss Example The current time is 08 40PM Read back the time by sending the command RDTIME and receiving the following feedback TIME 20 40 00 24 RDDAY
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