Teledyne Video Gaming Accessories powerpod 400 User's Manual
Contents
1. ena 4 IN 5 Ni 6 A OPEN gt Co 9 y ena 7118119 IV LD CHANNEL oe 0 7 ESC a Po y i Power ZONO E mr EL T T I o PF 5 E ALARMS TO INSERT UNIT INTC T THE FEET A PHILLIPS HEA E I l Page 41 of 42 164 122012 Power 400 16 0 Warranty 16 1 Warranty Repair Policy Hastings Instruments warrants this product for a period of one year from the date of shipment to be free from defects in material and workmanship This warranty does not apply to defects or failures resulting from unauthorized modification misuse or mishandling of the product This warranty does not apply to batteries or other expendable parts nor to damage caused by leaking batteries or any similar occurrence This warranty does not apply to any instrument which has had a tamper seal removed or broken This warranty is in lieu of all other warranties expressed or implied including any implied warranty as to fitness for a particular use Hastings Instruments shall not be liable for any indirect or consequential damages Hastings Instruments will at its option repair replace or refund the selling price of the product if Hastings Instruments determines in good faith that it is defective in materials or workmanship during the warranty period Defective instruments should be returned to Hastings Instruments shipment prepaid together with a written statement of the problem and a Return Material Authorization RMA number2. key for XTRNL CNTRL The XTRNL CNTRL menu is displayed Choose RS 232 by pressing the number 1 key The normal display will return to its previously programmed state 9 3 CHOOSING RS 485 COMMUNICATION MODE 1 METER 4 XTRNL CNTAL NAM NM UOQHXS CHLXS 2 TOTAL NNN NN UOMXS CHLXS Je SETUP CAL NNNNA UDUXS CHLXS 4 XTRNL CNT NNN NN LOMAS CHLAS Press the MODE button The MODE menu is displayed Press the number 4 key for XTRNL CNTRL The XTRNL CNTRL menu is displayed Choose RS 485 by pressing the number 2 Rey The normal display will return to its previously programmed state 164 122012 Power 400 Page 18 of 42 10 0 Setup Cal Mode 10 1 ENTERING THE SETUP CAL MODE MODE 1 ETER 3 SETUP CAL 1 Chn 1 2 SETUP CAL 2 TOTAL 1 DISPLAY 3 SETUP CAL 2 TOTAL 4 RTRNL CNT v 35 COMIM 4 ANALOG Pressing the MODE key causes the MODE menu to be displayed Choose the SETUP CAL mode by pressing the number 3 key then ENTER A CHANNEL SELECT menu is presented on the display It should be noted that although the user must select a specific channel number some choices in the following menus may affect the operation of all channels and or the display ex Display Brightness type of communication See the following menu options for more details 10 2 DISPLAY SETUP After entering the SETUP CAL mode and selecting a channel number as described in the previous section several selections ar
3. Phenol Phosgene Phosphine Phosphorus Trifluoride Propane Propyl Alcohol Propyl Amine Propylene Pyradine R32 R123 R123A R125 R134 R134A 164 122012 Power 400 R143 R143A R152A R218 R1416 Radon Sec butanol Silane Silicone Tetrafluoride Sulfur Dioxide Sulfur Hexafluoride Sulfur Tetrafluoride Sulfur Trifluoride Sulfur Trioxide Tetrachloroethylene Tetrafluoroethylene Tetrahydrofuran Tert butanol Thiophene Gas ID Table Page 2 of 2 GAS NAME Symbol GAS NAME Symbol GAS NAME Symbol Toluene Transbutene Trichloroethane Trichloroethylene R113 Triethylamine Trimethyl Amine Tungsten Hexafluoride Uranium Hexafluoride Vinyl Bromide Vinyl Chloride Vinyl Flouride Water Vapor Xenon Xylene m Xylene o Xylene p Mixtures Other Page 35 of 42 14 0 Appendix D Setting the Zero amp Span on the Power 400 Power Supply Totalizer All procedures outlined in this document must be performed with the power supply turned on and warmed up for at least one hour All procedures outlined in this document must be performed with NO transducers connected to the channel being adjusted You CANNOT successfully zero a channel without first supplying zero volts or four milliamps to the meter input for that channel You CANNOT successfully span a channel without first supplying the meter input for that channel with its appropriate span voltage or span current 14 1 Zeroi
4. 9 2 Set Point Queries Queries are used when information from the unit is required Each query is followed by a response from the POWERPOD 400 In this case the query is asking for a programmed value Specifically the set point of channel three which happens to be set at 50 00 of 100 00 Sent SP3Cr Response SP3 050 00 10 9 3 Alarm Flag Quertes The state of the high and low flow alarms for each channel can be monitored via the DB 15 connecter J8 on the rear panel for immediate action from an alarm situation but the Totalizer set points can only be monitored by reading a memory location s Boolean setting via serial communication As shown in the section Setting Limit Alarms to simply QUERY channel three s high alarm set point send A3HCr Expect a response similar to A3H 075 00 The actual state of the alarm can be polled using the STATUS query STCr Which results in a response similar to STATUS OCA CH1 AUTO CH2 CLOSED CH3 OPEN CH4 AUTO HI LO 0 0 0 1 1 0 0 0 OCA is short for OPEN CLOSED AUTO HI LO stands for the high flow limit alarm or the low flow limit alarm One must parse the states if digital tests are to be conducted 164 122012 Power 400 Page 28 of 42 To query the status of the totalizer flag on channel four 4 use the follovving command TF4Cr The response will be either TF4 0 corresponding to a Boolean FALSE indication that the totalizer flag has not been set or TF4 1 a Boolean TRUE indica
5. Cont Command Di lt d gt D2 lt d gt D3 lt d gt D4 lt d gt T1S lt dddddd gt T2S lt dddddd gt T3S lt dddddd gt T4S lt dddddd gt T1M lt d gt T2M lt d gt T3M lt d gt T4M lt d gt TIR T2R T3R T4R SN1 lt d dddd gt SN2 lt dd ddd gt SN3 lt ddd dd gt SN4 lt dddd d gt Zi Z2 Z3 Z4 F1 F2 F3 F4 R1 lt d gt R2 lt d gt R3 lt d gt R4 lt d gt BR lt d gt RE lt d gt 00X lt dd gt 164 122012 Power 400 Power 400 Serial Commands Cont d Name Ch1 Disp Mode Ch2 Disp Mode Ch3 Disp Mode Ch4 Disp Mode Totalizer Set Point Ch1 Totalizer Set Point Ch2 Totalizer Set Point Ch3 Totalizer Set Point Ch4 Totalizer Mode Ch1 Totalizer Mode Ch2 Totalizer Mode Ch3 Totalizer Mode Ch4 Totalizer Reset Ch1 Totalizer Reset Ch2 Totalizer Reset Ch3 Totalizer Reset Ch4 Totalizer Flag Ch1 Totalizer Flag Ch2 Totalizer Flag Ch3 Totalizer Flag Ch4 Cal Value CH1 Cal Value CH2 Cal Value CH3 Cal Value CH4 Zero Chi Zero Ch2 Zero Ch3 Zero Ch4 Set Full Scale Value Ch1 Set Full Scale Value Ch2 Set Full Scale Value Ch3 Set Full Scale Value Ch4 Status All Channels Ratio Mode Ch1 Ratio Mode Ch2 Ratio Mode Ch3 Ratio Mode Ch4 Baud Rate Front Panel Lock Out Multi drop Address Query TIS T2S T3S T4S TIM T2M T3M T4M TF1 TF2 TF3 TF4 SN1 SN2 SN3 SN4 ST R1 R2 R3 R4 BR RE 00X Response D1d D2 d D3 d D4 d
6. Press 7 Press ENTER Press 1 for 0 5 VDC 2 for 0 10 VDC or 3 for 4 20 mADC Press ENTER In the example listed above you would have selected option number 1 for the 0 5 volt analog signal level since the maximum signal from the transducer is 5 VDC You have just set the analog operating level range for the selected channel Setting the display to read the maximum transducer value at the maximum transducer input Locate the 15 pin D type connector that corresponds to the channel to be spanned J1 Channel 1 J2 Channel 2 J3 Channel 3 J4 Channel 4 For units set to meter a voltage range short pin 14 command out to pin 6 signal in of the selected channel and place a calibrated volt meter to read from pin 5 common to pin 6 For units set to read a 4 to 20 mA range connect a milliamp meter between pins 14 and 6 Press the CHANNEL key corresponding to the selected channel An asterisk appears Use the number keys to enter THPS 400 current span value Use the decimal Press ENTTER Adjust the command to achieve a value as close to the max analog signal level as possible 0 01 volts for the 5 volt range 0 02 volts for the 10 volt range and 0 004 ampsfor the milliamp range Do this using the CHANNEL key the numeric key pad and the ENTER key until the desired signal is established Press MODE Press 3 Press ENTER Press 1 2 3 or 4 depending on which channel is to be adjusted Press ENTER Pr
7. channel s command signal is overridden high OPEN or low CLOSED 3 OVERRIDE REYS Override the command signal on the ACTIVE CHANNEL OPEN sets control override pin 8 to 15V CLOSED sets command to 15V AUTO allows the user to set the command signal for normal operation A channel must be active before these keys can become operational 4 DISPLAY AREA Column 1 Reserved for displaying ACTIVE CHANNEL 9 MASTER channel M SLAVE S or TOTAL T Column 2 Reserved for polarity indicator Cols 3 8 Signal monitor Displays current input signal while in METER mode AVERAGE while set to average readings or TOTAL while in TOTALIZER mode Column 9 Space Col s 10 14 UNITS OF MEASURE display Column 15 Space Cols 16 20 GAS ID 5 KEYPAD Use to enter SET POINTS or to modify the SETUP or CALIBRATION of control unit 164 122012 Power 400 Page 10 of 42 6 0 Rear Panel 1 POWER ON OFF SWITCH 2 POWER INLET amp FUSE 3 POWER SELECTOR SWITCH 4 FUSE Vs POWER SETTING TABLE 5 RS 232 SERIAL PORT CONNECTOR J6 6 RS 485 DAISY CHAINED SERIAL PORT CONNECTORS J7 J9 7 TRANSDUCER CONNECTORS J1 J4 8 ANALOG OUTPUT 5 9 ALARMS 8 164 122012 Power 400 Page 11 of 42 7 1 POWER supplied with the unit PN15 17 011 for 115 VAC 60H2 See the following table for A Power is supplied through a fused AC jack on the rear panel item 2 Use the power cord se
8. displayed choose TOTAL by pressing the number 2 key and ENTER A TOTALIZER menu is displayed Press the number 3 key to choose the CONT option followed by the ENTER key The previously programmed display returns with the selected channel now displaying the Riemann Sum of the received transducer signal 10 4 EXTERNAL COMMUNICATION SETUP The following text describes how the POWERP9D 400 can be setup to respond to serial and network communication Instruction structure and syntax is covered in the section Serial Protocol 10 4 1 RS 232 Settings NNN NN LOMAS CHLXS From NNN N UDMX5 CHLXS DE es NNNNA LIOMXS CHLXS enu NNN NN LOMAS CHLX5 After selecting SETUP CAL select any channel number and hit ENTER choose option number 3 via the numbered key pad The first menu to be displayed is the BAUD menu To select the desired baud rate press the number key 1 or 2 respectively Eight bit bytes no parity one stop bit and no handshaking are automatically set The preprogrammed display is returned upon completion 10 4 2 RS 485 Settings NNN NN LOMAS CHLXS From NNN NN UDMXS CHLXS SE TUNGAL NNN NN UOMXS CHLXS enu NNNNA LOMAS CHLXS After selecting SETUP CAL select any channel number and hit ENTER choose option number 3 via the numbered key pad The BAUD menu will be displayed To select the desired baud rate press the corresponding number key 164 122012 Power 400 Page 22 of 42 The default address as progra
9. m6 ee oO 9 TTT j 5 Analog Transducer Signal Volts of jo ef e EES Al out Only E l do o J 6 RS 232 Serial Com Port o EE eee P o NA Multi drop com port 7 RS 4 A l 1 OS Daisy Chained LJ Lj J 8 Alarms Open collector Alarms J 9 RS 485 Multi drop com port 1 Check power setting switch on the back panel and make Daisy Chained sure it is set appropriately 2 Ensure the power switch is off and then connect the power cord N _ _ WOTELEDYNE foren aro to CHANNEL PEN 4 lasos EBI 2 li CHANNEL OPEN a nan cues 41 5 1 pane lva 3 5 5 pi 71 8 01 FIE SON ver 2 00 CHANNELS 3 El Turn power switch to on position If you have just turned on the mass flow instrument and the power some settling is necessary 1 Press the desired Channel Key Press the Auto key For Controllers 2 Press the desired Channel Key Enter desired flow Press the enter key 164 122012 Power 400 Page 5 of 42 2 0 Safety Read this manual in its entirety before operating the POWERP0D 400 Power Supply Totalizer The POVVERFOD 400 is designed to operate with most Teledyne Hastings Instruments THI flow controllers and meters Read all wiring and power hookup instructions and understand the requirements prior to using another manufacturer s products with the PO
10. note 5 T1S dddddd T2S dddddd T3S dddddd T4S dddddd TiMd T2M d T3M d TAMd note 8 note 8 TFid TF2d TF3d TF4d note 9 SN1 d dddd SN2 d dddd SN3 d dddd SN4 d dddd notes 1 2 OCA CH1 text CH2 text CH3 text CH4 text HILO CH1 d d CH2 d d CH3 d d CH4 d d Note 10 RI d R2 d R3 d R4 d note 11 BRd REn REMOTE LOCAL MULTIDROP ADDRESS dd note 12 note 13 Page 31 of 42 APPENDIX A Notes 1 All returned values will include decimal points wherever unit has been programmed to display them 2 All Commands needing decimal points must include them wherever they are intended to be displayed 3 d decimal digit ASCII 4 n Channel Number Dnd n Chal d 1 Displays Total Units Mass d 2 Displays Flow Units Rate d 3 Blanks selected channel 6 r range zero T range full scale INnd n Chnl E d 1 0 5VDC VA d 2 0 10VDC d 3 4 20mADC TnMd n Chnl 8 d 1 Totalizer Counts Up Re sets to Zero d 2 Totalizer Counts Down Re sets to Set Point d 3 Totalizer Counts Continuously Re sets to Zero TFnd n Chnl 9 d 0 Total Set Point d 1 Total gt Set Point 10 text OPEN or CLOSE d 00rl Rnd n Chnl E 11 d 1 Enabled d 2 Disabled e BRd d 1 9600 d 2 19200 a REd d 1 LOCAL i d 2 REMOTE 164 122012 Power 400 Page 32 of 42 13 0 Appendix C SPO UDU BOW IN dE 0 0000NNNNNNNDNDNDN o d i i si mi
11. on See i The Power On switch item 1 in rear panel drawing is located in the upper right corner of the the Power section of WIRING THE POWERP D 400 above 8 2 CHANGING THE COMMAND SET POINT Channel two 2 example shown ANN UOMXS CHOS 250 00 UOMXS CHUXS BERNA UOMXS CAS NNN UOMKS DS Press the desired CHANNEL key An asterisk appears in the first space on the line representing the selected channel The meter display is immediately replaced with the current set point Pressing a number key begins the editing process The cursor lands on the channel set point to be edited and the new command is entered with the most significant bit MSB first The set point is filled in from left to right on the display When entering a new set point you must use the decimal key when it has been used in setting the SPAN Pressing ENTER completes the editing process The old command is not changed until the ENTER key is actuated Hitting the ESCape button at any time prior to the ENTER key will return the display to its previous state without any changes being made This command will not be applied to the output until the channel is set for AUTO operation See Setting a Channel to AUTO Control 8 3 OVERRIDE OPEN ANN NN UOMHS CHS A ANNAN UOMXS GLS ANN NN UOMHS CHS ANN UOMXS LS Press the desired CHANNEL key An asterisk appears in the first space on the line representing the selected channel The meter display is immediately re
12. the operator to select the desired channel Press the number key that corresponds with the desired channel followed by ENTER A TOTALIZER menu is presented that allows the operator to go directly to displaying whatever the Totalizer has currently stored as the total or to reset the counter If DISPLAY is selected by pressing the number 1 key followed by ENTER the display will return to normal with the most recently stored total being displayed on the appropriate line If RESET is chosen by pressing the number 2 key followed by ENTER the display returns with the total value reset according to the pre selected counting mode presented in the table below with the Totalizer counting Mode Reset Value Count Down Set Point Count Up Zero Continuous Zero 164 122012 Power 400 Page 17 of 42 9 0 External Remote Operation 9 1 SELECTING EXTERNAL REMOTE OPERATION Front Panel Only The POWERP D 400 allows the user to select different methods of serial communication and control The following text describes how to choose and activate the desired method Further information and instructions on how conditions may be changed can be found in section 10 SETUP CAL mode 9 2 CHOOSING RS 232 COMMUNICATION MODE 1 METER 4 ATRNL CNTAL NNNNA LOMAS CHLXS 2 TOTAL NNN NN UCMAS CHLAS Je SETUP CAL NNNNA UDMXS CHLAS 4 XTRNL CNT NNN NN UOMXS CHLXS Press the MODE button The MODE menu is displayed Press the number 4
13. the selected channel now displaying the product of the normally displayed value and the entered factor 164 122012 Power 400 Page 27 of 42 10 9 SERIAL COMMUNICATION Follow the instructions in the section WIRING THE POVVERPOD 400 for cabling and proper pin out for serial communication with the unit After insuring that the POVVERPOP 400 is wired properly the unit must be set up following the instructions in the section entitled External Communications Setup The instruction set for the POWERP0D 400 can be divided into two different types They differ only in that they 1 Write a command only or 2 Write a command and read a response Taking liberty with this vernacular they may be differentiated using the terms COMMAND or QUERY The entire set of instructions can be found in Appendix B 10 9 1 Commands Typical RS 232 command structure is as follows CMNDn lt value gt Cr For example To change channel three s high alarm value to 75 00 send A3H075 00Cr RS 485 commands require only that an asterisk and the units address precede the RS 232 Command Using the same example as above with a unit whose address is 10 default send 10A3H075 00Cr When the POWERP0D 400 is the terminating unit on a 485 bus two jumpers CJ1 and CJ2 can be shorted to add the required terminating resistors Remove two machine screws from the rear of the top cover Slide the cover off The two jumpers are near the serial communication connectors 10
14. 12 Power 400 Page 8 of 42 4 0 Specifications Power 400 Specifications Table Specification Value Units Notes Power Inputs 100 0 7 A 250VAC SB Fuse V 115 VAC 0 6 A 250VAC SB Fuse 230 0 315 A 250VAC SB Fuse P 68 VA f 50 60 Hz Transducer Number Channels 4 V supply 15 VDC Bi polar per Channel ee 250 mA Bi polar per Channel 0 5 I O 0 10 DE 4 20 mADC Display deis Vacuum Fluorescent yP LCD Emulator Lines 4 Characters 20 Brightness Levels 4 A D Converter Filtering Rate 4 15 30 100 Alarms 3 per channel 1 High 1 Low 1 Total Dimensions Front Panel h x w 3 5x 9 5 in Case h x w x d 3x8x9 5 in Hole Centers h x 3 x 8 825 in w Weight 5 1 4 Ibs 164 122012 Power 400 Page 9 of 42 5 0 Front Panel MEME i ial yt 888 88 SCOM Conan UL 3 move luo a 5 1008 88 SCCM o2 laBel ET i OF 00 003 SLM N21 718 91 oe ia E 1512 mlor EF El ol ENTER y Pover OO Y 1 CHANNEL NUMBER SELECT REYS Selects channel for editing An asterisk appears in the first column of the display to indicate that this is the channel to be edited 2 OVERRIDE INDICATORS Indicates when a
15. 2 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 Name Standard Cubic Inches per Minute Normal Cubic Inches per Minute Standard Cubic Inches per Second Normal Cubic Inches per Second Standard Cubic Inches per Hour Normal Cubic Inches per Hour Pounds per Minute Pounds per Second Pounds per Hour Kilograms per Minute Kilograms per Second Kilograms per Hour Grams per Minute Grams per Second Grams per Hour Moles per Minute Moles per Second Moles per Hour Kilomoles per Minute Kilomoles per Second Kilomoles per Hour Watts Bits per Second Seconds Minutes Hours Watt Hours Torr Bar Pascals Inches of Water Pounds per Square Inch Absolute Pounds per Square Inch Gage Rate SCIM NCIM SCIS NCIS SCIH NCIH LBM LBS LBH RgM KgS KgH GRM GMS GRH MolM MolS MolH KMolM KMolS KMolH VV BPS Sec Min Hrs VVH Torr Bar Pa inH2O PSIA PSIG Page 33 of 42 Total SCI NCI SCI NCI SCI NCI LB LB LB Kg Kg Kg GR GR GR Mol Mol Mol KMol KMol KMol Bits Egocouous wN TE UY WU YY UU AQU UN NU Up ue mk ue Re m GAS NAME Acetic Acid Acetic Acid Anhydride Acetone Acetonitryl Acetylene Air Allene Ammonia Argon Arsine Benzene Boron Trichloride Boron Triflouride Bromine Bromochlorodifluoromethane Bromodifluoromethane Bromotrifluormethane Butane Butanol Butene Carbon Dioxide Carbon Disulfide Carbon Monoxide Carbon Tetrachloride Carb
16. 2H7N CoHsO CoHeS C4Hs CoH6 54 55 CoHsO C4He C2H7N CsaH o 60 61 CoHsF CoH 64 65 CoH4O CoH4N 68 CoHeS F2 CHO CCI3F 73 CCIF3 CF 76 CHF3 78 C 4H O He C3HF7 HMDS 83 CoHi4 CeFe CeHi2 No Ha Ha HBr HCI 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 GAS NAME Hydrogen Cyanide Hydrogen Fluoride Hydrogen lodide Hydrogen Selenide Hydrogen Sulfide Isobutane Isobutanol Isobutene Isopentane Isopropyl Alcohol Isoxazole Retene Rrypton Methane Methanol Methyl Acetate Methyl Acetylene Methylamine Methyl Bromide Methyl Chloride Methylcyclohexane Methyl Ethyl Amine Methyl Ethyl Ether Methyl Ethyl Sulfide Methyl Fluoride Methyl Formate Methyl lodide Methyl Mercaptan Methylpentene Methyl Vinyl Ether Neon Nitric Oxide Nitrogen Nitrogen Dioxide Nitrogen Tetroxide Nitrogen Trifluoride Nitromethane Nitrosyl Chloride Nitrous Oxide n Pentane Octane Oxygen Oxygen Difluoride Ozone Pentaborane Symbol CHN HF HI HoSe H2S C4H10 97 C4Hs CsH 2 C3HgO 101 C2H20 Kr CH CH O 106 C3H4 CH5N CHaBr CH5Cl C7H 4 CaHoN CaHgO CaHgS CH3F 116 CHal CH4S CeH 2 CaHsO Ne NO NO N20 NF3 127 NOCI N20 CsHi2 CeHig O F20 Os BsHg Page 34 of 42 Pentane Perchloryl Fluoride Perfluorocyclobutane R116 Perfluoropropane
17. CEPT MILAN UOMES CHS 4 MULTPLER While the SETUP CAL menu is being displayed and after making a selection from the CHANNEL SELECT menu select CALIBRATE by pressing the number 7 key followed by ENTER then choose ZERO ONLY by pressing the number 1 key and ENTER The ZERO menu will be displayed which also displays the selected channel number and the signal being received If this signal is an acceptable signal for zero press the ENTER key to accept it If the indicated signal is not an acceptable level for reading zero the operator has an opportunity at this stage to correct any problems while reading the incoming signal before pressing the ENTER key and accepting it Alternatively the operator can press ESC to exit the SETUP CAL mode and return to it later After accepting the displayed signal level as the zero point the display returns to its previously programmed settings See Appendix D 10 8 2 Resetting the Span Only 7 CALERATE NUNU USMS CHOS 1 ZERO ONLY CHANNEL N NNN RN UOMMS CHAS 2 ZERO amp SPAN SIONAL NNN NN NNN NN UOMHS CHAS 5 SPAN ONLY ENTER TO ACCEPT NNN UOMXS CHOS 4 MULTPLER After selecting a channel in the CHANNEL SELECT portion of the SETUP CAL menu press 7 ENTER to select CALIBRATE SPAN ONLY is selected by pressing number 3 ENTER The SPAN window is displayed which contains the chosen channel and the incoming signal on that channel If the displayed signal is an acceptable full range value press ENTER to
18. Calibration may be required 10 5 2 Zero to Ten Volt Operation While in the SETUP CAL menu select ANALOG by pressing the number 4 key and the ENTER key From the ANALOG SIGNAL menu choose 0V 10V by pressing the number 2 key and pressing the ENTER key The normal display returns with O volts intended to correspond to 090 signal and 10 volts intended to correspond to the 10090 signal Calibration may be required 10 5 3 Four to Twenty Milhamp Operation While in the SETUP CAL menu select ANLG by pressing the number 4 key and the ENTER key From the ANALOG SIGNAL menu choose 4mA 20 mA operation by pressing the number 3 key and pressing ENTER The normal display returns with 4 milliamps intended to correspond to 0 signal and 20 milliamps intended to correspond to the 100 signal Calibration may be required 164 122012 Power 400 Page 23 of 42 10 6 SETTING LIMIT ALARMS Each channel of the POWERPOD 400 has one high limit alarm and one low limit alarm Each alarm is provided by an open collector opto isolated signal at a corresponding pin on the rear panel connector J8 Use the provided diagram when referring to the text below ALARMS CHANNEL n ale AN PAPA ALARMS From 2 LOWY LIMIT LOY LIMIT SETUP CAL 3 HYSTERESIS L ALARMS Menu 4 EXIT CHANNEL ni HVSTERESS NUNNN UOS CHLXS NUN NN LOMX5 CHLXS NUNNN UOMHS CHUKS NNN UOMXS CHOS 10 6 1 Setting a Single Channel s High Limi
19. ER The UNITS menu will be displayed allowing the selection of over 50 different units of measure UOM simply by pressing the number key corresponding to the desired UOM The number can be found by scrolling up or down until the desired UOM is displayed or by consulting Appendix B at the end of this manual Once selected the UOM will be displayed in character spaces 10 to 14 on the appropriate line Selecting UOM 0 results in the UOM characters being blanked 10 2 4 Selecting Gas ID NAMA LONAS C2H40O 1 ERIGHTMESS NA UN LOMAS CHLXS 2 LHITS NAMM LONAS CHLXS J GASZID NAL UCUXS CHLXS 4 FILTER 130 CaHi0 5 LOCKOUT 191 CaH1IO 192 97 While the SETUP CAL menu is displayed Select the DISPLAY menu by pressing 1 ENTER Then choose GASID by pressing 3 ENTER The GASID menu will be displayed allowing the selection of nearly one hundred different chemical symbols simply by pressing the number key corresponding to the desired gas The number can be found by scrolling up or down until the desired gas is displayed or by consulting Appendix C at the end of this manual Once selected the formula will be displayed in character spaces 16 through 20 on the appropriate line Ju Note Formulae too long to be completely displayed will display the Hastings Instruments Gas ID number Choosing 0 will blank the GASID elements on the display 10 2 5 Setting A D Converston Rate Filter Press the MODE button The MODE menu i
20. Please consult the factory for your RMA number before returning any product for repair Collect freight will not be accepted 16 2 Non Warranty Repair Policy Any product returned for a non warranty repair must be accompanied by a purchase order RMA form and a written description of the problem with the instrument If the repair cost is higher you will be contacted for authorization before we proceed with any repairs If you then choose not to have the product repaired a minimum will be charged to cover the processing and inspection Please consult the factory for your RMA number before returning any product repair TELEDYNE HASTINGS INSTRUMENTS 804 NEWCOMBE AVENUE HAMPTON VIRGINIA 23669 U S A ATTENTION REPAIR DEPARTMENT TELEPHONE 757 723 6531 1 800 950 2468 FAX 757 723 3925 E MAIL mail to hastings_instruments teledyne com INTERNET ADDRESS http www teledyne hi com Repair Forms may be obtained from the Information Request section of the Hastings Instruments 164 122012 Power 400 Page 42 of 42
21. S CHLXS d XTRNL CNT 4 Chri4 XXX SOK VOWS CHLXS Press the MODE key The MODE menu appears in the display To select METER press 1 and then ENTER The METER menu allows the selection of the desired channel Press the number key that corresponds with the desired channel followed by ENTER The previously programmed display returns with the selected channel reading the signal between pins 5 and 6 of the corresponding channel s 15 pin D connector J1 J4 8 7 SETTING A CHANNEL TO DISPLAY THE TOTALIZER FUNCTION The POWERPOD 400 provides an integrated Riemann Sum value of the incoming signal for each channel T Total fs Fractional Signal Factor C CAL value or Span Value f Fractional Time Interval TEXO RC f where Each channel samples the incoming signal at a rate corresponding to the preset A D conversion rate in Hz At os each sampling interval the TOTALIZER function multiplies the average signal as a fraction of the full scale value 5v 10v i or 20 mA times the span or cal value This results in a rate for that interval Next a time element factor is determined according to the flow rate programmed for that channel as follows For a time element of seconds the factor is 1 10 For minutes the factor is 1 600 Hours use a factor of 1 36000 Each calculation is summed and stored for a TOTAL value 164 122012 Power 400 Page 16 of 42 Example See Graph A linear flow transducer with a DC
22. TARMELAG QUERIES o 28 11 0 APPENDEXA na da at at pietat 30 12 0 APPENDIX Bit iia 33 13 0 APPENDIX CEOL EE RR O Id O Et SEU EN 33 14 0 APPENDIX Dic inc i E ene cies LOA sa Dosw Toten RN e a na estela 36 15 0 DRAWINGS 5 de o i a de ds E OS NS 41 16 0 WARRANTY tats A A A alentir ia Eco ties 42 16 11 WARRANTY IREPATRIPOIIG ANE A es temut te i ee emeti ee sts 42 16 2 NON WARRANTY REPAIR POLICY essssscesssscccesassesessssecsessssvesssseenssssesessssescessssesesssseesssseeqsssssetsss 42 164 122012 Power 400 Page 4 of 42 1 0 Quick Start Instructions Important The Power 400 comes calibrated from the factory according to your specifications No set up is necessary unless you need to change the specs lea Power 400 lea AC power cord lea 15 pin Hi Density D style connector lea 9 pin D style connector lea user s manual When unpacking the Power the package will contain everything you need Connect a known good cable to the desired channel See next frame for pin outs Pin outs see section 7 J 1 Ch1 z J 2 Ch2 Transducer Power e Command and Analog e 00000000 50 60Hz 250VAC J 3 Ch8 Signals o as te I ANALOG ue ALARMS RSASS 100 0 7A J 4 Ch4 af Lo VAC O m6 em poo poo po
23. TELEDYNE HASTINGS INSTRUMENTS Power 400 Power Supply Totalizer CHANNEL PE HASTINGS InsTRUMENTS C ISO 9001 erywhereyou CERTIFIED Manual Print History The print history shown below lists the printing dates of all revisions and addenda created for this manual The revision level letter increases alphabetically as the manual undergoes subsequent updates Addenda Which are released between revisions contain important change information that the user should incorporate immediately into the manual Addenda are numbered sequentially When a new revision is created all addenda associated with the previous revision of the manual are incorporated into the new revision of the manual Each new revision includes a revised copy of this print history page Revision D Document Number 164 082005 ccccccccsccssecnsceeeeeeeeseceseceseeeceeeeeseeeneees August 2005 Revision E Document Number 164 102005 sssss eks kes kssekkkkknkknkkknkiekntes October 2005 Revision F Document Number 164 012006 s sssss sssssssesssesseqssesstesstenteons January 2006 Revision G Document Number 164 092006 s sssssssssssssssesssessesssessnsseneeens September 2006 Revision H Document Number 164 1 12006 s sssessssssekssekeeesekksnkkeekkeeas November 2006 Revision J Document Number 164 022009 s sssssssssssssssssesscesseassesases Februar
24. WERP0D 400 Insure that any product being interfaced with the POWERP0D 400 is wired according to prevailing local safety and operational standards before operating The following symbols and terms may be found on THI products and or in THI manuals and indicate important information When found on the device this symbol indicates that the operator should refer to A the manual for important instructions on the proper use of this device When found in the manual this symbol indicates that the reader should understand the implications contained in the text before operating the device This symbol indicates that a shock hazard may be present Read the instruction J manual carefully and insure that the device is wired properly and that all settings have been checked prior to applying power to the device The WARNING label indicates important information that should be heeded for safe and proper performance of the device The label CAUTION is used to indicate that damage to the power supply or equipment connected to it could occur if directions are not followed Warranty could be invalidated if the instructions in this manual are not followed 164 122012 Power 400 Page 6 of 42 3 0 Features The POWERP0D 400 serves as a convenient control center that can be rack mounted using standard half rack hardware or can be used as a bench top unit The POWERP D 400 is equipped with a 4 X 20 character vacuum fluorescent display VFD The dis
25. accept it The previously programmed display returns with the selected channel now displaying the CAL d value If the incoming 164 122012 Power 400 Page 26 of 42 signal is not an acceptable full range value the operator has an opportunity to correct any problems at this stage prior to pressing ENTER Alternatively the operator can press ESC to exit SETUP CAL and return later See Appendix D 10 8 3 Resetting Zero and Span 1 ZERO ONLY CHANNEL N 2 ZERO amp SPAN SIGNAL NIU 8 SPAN ONLY ENTER TO ACCEPT SPAN NANNAN UOMK5 CHAS CHANNEL N NUNN OS 5 SIGNAL NANNY NNN NY UOMKS CHLXS ENTER TO ACCEPT NUNAN UOMX5 CLS 4 MULTIPLER Should it be required to zero and set a new span value for a given channel The menu option is provided that will present the programmer with the zero menu first followed by the span or cal menu After selecting a channel in the CHANNEL SELECT portion of the SETUP CAL menu press the number 7 key to select CALIBRATE ZERO amp SPAN is selected by pressing the number 2 key The ZERO window is displayed first It contains the chosen channel and the incoming signal on that channel Ifthe signal displayed is within an acceptable range for zero Press the ENTER key to accept this signal as representing a display of zero while monitoring the transducer If this signal is not appropriate the user may correct the problem while the window is displayed or press the ESC key and come back at a later ti
26. aster After enabling channel one the operator may assign the channels that will follow its signal by some factor MODE 1 METER 3 SETLP CAL 1 Chnl1 2 TOTAL 3 SETUP CAL 4 XTRNL ONT 4 ANALOG 5 ALARM E RATIO 7 CALIB 1 DISABLEMASTER EMT 2 EMABLE MASTER S EMT MUNNN LOMAS CHLXS MANNA UOMXS CHLXS hd S MHUNNN LOMAS CHLXS S S ANNNN UOMXS CHLXS Press the MODE key and then 3 ENTER Select channel one by pressing 1 ENTER Choose RATIO by pressing the 6 key ENTER Channel one 1 is enabled as the master when you press 2 ENTER After enabling RATIO control a series of menus labeled SLAVE A SLAVE B and SLAVE C will be displayed These menus correspond to channels 2 3 and 4 respectively Each of the channels 2 through 4 can be enabled or disabled individually For example pressing the 1 key ENTER while SLAVE A is being displayed will eliminate channel two 2 from ratio control and allow channel two to work normally as an independent channel Pressing the number 2 key ENTER will make channel 2 the first SLAVE and an S will appear in the first column of line two on the display Note that if EXIT is selected at any time the previous settings remain unchanged and the display is returned to its previously programmed configuration 164 122012 Power 400 Page 25 of 42 10 8 CALIBRATING A CHANNEL TO ITS INCOMING SIGNALS The POWERP0D 400 is designed to accept the input from almost any transducer th
27. at operates in the ranges of zero to five volts zero to ten volts or four to twenty milliamps In most cases transducers are capable of having their minimum signal and maximum signal adjusted to correspond with the minimum ZERO and maximum SPAN unit of measure that they are designed to reflect For example A transducer designed to output 0 volts while reading a temperature of 0 degrees centigrade and output 5 volts while reading 100 degrees centigrade is connected to channel one of the POWERP D 400 In actuality the transducer is sending 0 23 volts at 0 degrees and 5 11 volts at 100 degrees By zeroing channel one of the POWERP0D 400 while reading the low signal from the transducer the display will be 000 0 when the temperature is 0 C Like wise by setting the CAL value to 100 0 while reading the 5 11 volt signal causes the POWERP D 400 to display 100 0 when the temperature is actually 100 C This procedure will not account for any non linearity in any transducer s output That is the accuracy calibration of any transducer must be independently set checked and verified before connecting to the POWERP0D 400 or the transducer POWERP0D 400 combination must be calibrated together as a system if the accuracy of the whole system is to be known 10 8 1 Resetting the Zero Only 7 CALBRATE ZERO MILAN UOMES CHS 1 ZERO ONLY CHANNEL t MARA UOMKS CHS 2 ZERO 8 SPAN SIGNAL NNN NN AAN NN UOMHS CHLXS 3 SPAN ONLY ENTER TO AC
28. communication See the SERIAL COMMUNICATIONS section of this manual and Appendix A CAUTION While the front panel is locked out all command functions excluding i the override functions are disabled Commands can be overridden OPEN or overridden CLOSED during front panel locRout This was determined to be useful both as a trouble shooting and as a safety tool All other functions will be available only through the use of serial communication 10 3 TOTALIZER SETUP The TOTALIZER can be set to count up to a set point to count down from a set point or to count up continuously to the maximum ability of the display 999999 In order for the TOTALIZER to work a unit of measure must be chosen that includes a time element For example standard liters per hour SLH will totalize percent Yo will not Each mode is described in the following text and can be followed in the diagram below 1 of 2 COUNT LPF DOMI CHANNEL 1 2 SETPOINT monnnn NANNY UNITS CHLXS MUNAN LUOMX5 CHS NANNAN UOMKS CHLXS NNN NN UOS CHLXS 2 TOTALIZER 1 CNT UP 2 CNT DN 3 CONTINLE 10 3 1 Count Up to a Set Point The TOTALIZER will be set to count from zero 0 to a set point When the set point is reached a memory flag will be set to its logic high state This flag is readable only through serial communications The TOTALIZER will continue to count up to the maximum ability of the display While the SETUP CAL menu is displayed choo
29. communication to be read Each flow channel has one low limit and one high limit set point available These alarms are available via open collector opto isolated outputs on the rear panel as well as serial communication POWER OUTAGES AND THE OVERRIDE CONDITION In the event of a power outage even one of short duration the POWERP0D 400 is designed to conduct a software reset During the period of time in which the reset is occurring it will not accept or respond to any commands either manually or digitally until the reset process is completed After said reset the POWERP D 400 will have remembered all previously entered set points but all channels are designed to come up in the Override CLOSEd condition For meters this should have no affect on their J behavior All analog only THI flow controllers with normally closed NC valves will close and remain closed until operator intervention manually returns selected channels Override condition back to the AUTO mode For all other controllers this means that the control signal pins 5 to 14 of J1 through J4 will return to the previously set level For controllers not taking advantage of the Override function pin 8 these controllers will return to their normal preset operating condition unless other intermediary steps are undertaken Controllers that are making use of the override function Pin 8 and have normally open valves will be driven to the fully open condition 164 1220
30. e available that will affect the display Follow the steps below to gain the desired customized display Note Front panel lockout and display line channel blanking are only available through serial communication 10 2 1 Blanking a Display Line Channel Use the serial command DndCr where n channel number d 1 for Totalizer Mode 2 for Meter Mode 3 for a blanked line and Cr carriage return 10 2 2 Selecting Display Brightness NAN NN UOMKS CHLHS 1 BRIGHTNESS 25000 UOMKS CHE 2 UNTS NNN MN UOMKS CHLXS 3 GASID NNN UOMKS CHLAS 4 FLTER While the SETUP CAL menu is displayed choose DISPLAY by pressing the keys 1 ENTER Choose BRIGHTNESS by pressing the number 1 key ENTER The BRIGHTNESS menu will be visible One of four different brightness levels can be chosen by pressing a number key The number 1 key selects the dimmest setting while the number 4 key selects the brightest Any change in brightness will affect the entire display after pressing the ENTER key 164 122012 Power 400 Page 19 of 42 10 2 3 Selecting Unit of Measure NUNAN SCCM CHOS 1 BRIGHTNESS NUNAN UOMX5 CHOS 2 LNITS NUNAN UOMHS CH5 1 GASID NINN JONS CHLXS 4 ALTER 64 Pa 5 LOCKOUT 85 inH20 66 PA After entering the SETUP CAL mode and after selecting a channel number the SETUP CAL menu is displayed Choose DISPLAY 1 ENTER and then select UNITS by pressing the number 2 key ENT
31. el 3 J4 Channel 4 Set the command for the selected channel to zero Press the CHANNEL button Press 1 2 3 or 4 depending on which channel is to be zeroed Press 0 0 using the numbered key pad Press ENTER The milliamp meter should be reading between 3 996 and 4 004 mAmps To Zero the meter with a signal of 4mA perform the following steps Press MODE Press 3 Press ENTER Press 1 2 3 or 4 depending on which channel is to be zeroed Press ENTER Press 7 Press ENTER Press 1 Press ENTER Press ENTER again You have just told a channel to display zero when the input signal is 4mA 164 122012 Power 400 Page 37 of 42 14 3 Spanning Unit The following instructions explain how to use the POWE 400 command signal to supply a given channel s input with the proper span voltage and to set the display to read a transducer s span value prob You must know four things prior to setting the display s span value 1 You must know the maximum signal level for the specific transducer connected to the channel to be spanned 5 VDC 10VDC or 20mA 2 You must know the maximum value to be displayed when the maximum signal level for the transducer is connected to the channel to be spanned 3 You must insure that the channel s multiplier is set to 1 0000 4 You must know the channels Span Value That is the value that would NOW be displayed prior to any adjustment if the maximum signal was fed into the input o
32. esnssssesnsssestesastessns 14 8 0 MANUAL OPERATION ana teo ia hss sta ula esse uu to 15 8 1 POWER ON OFF sss sn kama a la Sa decd dee Sao uts ada eV tt i tas 15 8 2 CHANGING THE COMMAND SET POLNT oecesssceeesssscenaseeennnnsknnnas knnasss kknnssssesssssssssss es 15 8 3 OVERRIDE OPEN iako lt etat EC ata unk te o un tats 15 8 4 OVERRIDE CLOSED sti te a nowt ict es ST Es Ee pave can cab iaia ob be Bevan ota estela 15 8 5 SETTING A CHANNEL TO AUTO CONTROL coccoocccnnnncccononicononancnnnonononnnnnoconnnncoconnnacononancnnnnnoconenacicnnns 16 8 6 SETTING A CHANNEL TO DIRECTLY METER INCOMING SIGNALS 16 8 7 SETTING A CHANNEL TO DISPLAY THE TOTALIZER FUNCTION 2 0 air area 16 9 0 EXTERNAL REMOTE OPERA FION si incide tiet devant weve ii 18 9 1 SELECTING EXTERNAL REMOTE OPERATION FRONT PANEL ONLY cccoccccnnnnnnnnnnnnnnnnnnnnonnnonnnnnos 18 9 2 CHOOSING RS 232 COMMUNICATION eeeeeseceeessseeesussosnnsss sssssssqessssssqsssssesqssssesssssssssssss l 18 9 3 CHOOSING RS 485 COMMUNICATION es sesessssscesscscesssscessussesesasseesessssqesssssvesassessssssetssss s 18 10 0 SETUP CAL MODE sui tacte toni mail dir ibi olei 19 10 1 ENTERING THE SETUP CAL MODE seesscccesssccenssseesesussessessssessnssssqusassesqusseesesassseqesssseses 19 10 2 DISPLAY SE PU Picks iii itin tt tits 19 10 2 1 BLANKING A DISPLAY LINE CHANNEL sssssssssccccssssssssssseesennnsas
33. ess 3 Press ENTER Use the numeric keys to enter the new SPAN value Max transducer value to be displayed Press ENTER Press ENTER 164 122012 Power 400 Page 39 of 42 Congratulations You have just calibrated your Power 400 to read zero at zero volts and the transducer s max display value at the transducer s max signal input The only thing left to do is to insure that your transducer is calibrated and that it is wired correctly to the Power 400 Individual channels may be calibrated with calibrated transducers connected breakout connectors not supplied and precision multi meters with NIST traceable calibrations also not supplied Such procedures are not covered in this document If the calibration for the channel just zeroed had been severely compromised prior to beginning this procedure zero may not be immediately displayed and you may have to repeat the procedure after resetting the span Check that the span has been set correctly Ifa signal level within 1 of the maximum DC voltage level is not attainable the power supply may need to be repaired 164 122012 Power 400 Page 40 of 42 Y efi z 15 0 Dr Y i N TELEDYNE ore auro eros Es free uv 1 2 3 MODE OPEN pi E A A
34. f the channel to be adjusted 1 and 2 If this information is not on the transducer itself consult the manufacturer of the transducer Their literature or other documentation should specify the maximum output signal from the transducer and the maximum value to be displayed at that signal level 3 Setting the MULTIPLIER to 1 0000 Press MODE Press 3 Press ENTER Press 1 2 3 or 4 depending on which channel is to be adjusted Press ENTER Press 7 Press ENTER Press 4 Press ENTER Press 1 0000 using the numeric key pad Press ENTER You have just set a channel s multiplier to 1 0000 4 If you do not know what the selected channel s maximum display Span value is currently set to follow these steps Notice that the last step in this exercise is to press ESC not ENTER Press MODE Press 3 Press ENTER Press 1 2 3 or 4 depending on which channel is to be adjusted Press ENTER Press 7 Press ENTER Press 3 Press ENTER Read the VALUE from the display Press ESC 164 122012 Power 400 Page 38 of 42 An example of one possible transducer POWER 9P 400 combination TRANSDUCER POWER 9P 400 Max value to be a Max signal out displayed Multiplier Current Span Value 5 VDC 250 00 1 0000 100 00 Setting the THPS 400 Analog level to correspond with the transducer to be attached Press MODE Press 3 Press ENTER Press 1 2 3 or 4 depending on which channel is to be adjusted Press ENTER
35. lecting the proper fuse rating Use a metric 5 x 20 mm sized time delayed fuse Power Setting 50 60 Hz Fuse Rating THI P N 100 VAC 0 315 Amp 250 VAC 23 05 038 115 VAC 0 60 Amp 250 VAC 23 05 039 230 VAC 0 70 Amp 250 VAC 23 05 040 Cords without plugs are supplied with units shipped outside ofthe U S Consult and comply with any local laws and or codes when connecting to any AC main The AC input is user selectable between 100 115 or 230 VAC 50 or 60 Hz via an AC selector switch next to the AC jack Item 3 WARNING Be sure to set the power select switch prior to connecting to mains Re fuse the connector according to the table above 7 2 COMMUNICATIONS Connectors J6 Item 4 J7 Item 6 and J9 Item 6 are for RS 232 RS 485 connections respectively Settings for serial communication are accessible via the front panel 2 3 4 Unused Gnd Gnd 5 Unused 6 8 9 Gnd VCC VCC Uns 7 164 122012 Power 400 Page 12 of 42 7 3 TRANSDUCER CONNECTIONS Connectors J1 2 3 and 4 Item 7 are 15 pin D style connectors wired in the standard Hastings Instruments pin out H pin out 7 4 ALARMS 07077075 1 I 6 2 i 6 Sign 7 CaseGnd 8 JOntri Over ride 1 5mA 13 IC 6 4 11 svoe 12 MavRiwn 1 po 14 SetPointOut Not Used 5 5 VDC Ref LA Valve Cntrl Voltage Connector J8 item 9 pr
36. me to zero and span After setting the zero of the power supply the SPAN menu window is displayed If the displayed signal is an acceptable full range value press ENTER to accept it The previously programmed display returns with the selected channel now displaying the CAL d value If the incoming signal is not an acceptable full range value the operator try to correct any problems at this stage prior to pressing ENTER or by pressing the ESC key they can exit SETUP CAL and return to perform this procedure at a later date See Appendix D 10 8 4 Setting a Multiplication Factor TI COLBRATE 4 MULTIPLIER NUN NN UOMKS CHS 1 ZERO ONLY RNN NN UOMK5 CHS 2 ZERO amp SPAN NNN NN UOMHS CHS 3 SPAN ONLY NHUN NN UOMXS CHAS 4 MULTPUER For convenience it is possible to leave a channel setup one way and merely multiply the display value by some factor and replace the display with the new value An example might be to set up a channel to read from zero to one hundred percent and use a multiplication factor to make the display read from zero to 500 SCCM An infinite number of possibilities are possible Once a channel in the CHANNEL SELECT portion of the SETUP CAL menu has been selected press the number 7 key to select CALIBRATE From the CALIBRATE menu choose MULTIPLIER by pressing the number 4 key While the MULTIPLIER window is in the display enter the multiplication factor and press ENTER The display returns to normal with
37. mi mi mi ROND FO DOEPM AUDOO LOV a OGE AJIO GI hk VD iD Units of Measure for Meter Reading 8 Corresponding Totalizer Units Name Standard Cubic Centimeters per Minute Standard Liters per Minute Percent Volts Millivolts Counts Normal Liters per Minute Standard Liters per Second Normal Liters per Second Standard Liters per Hour Normal liters per Hour Standard Mililiters per Minute Normal Mililiters per Minute Standard Mililiters per Second Normal Mililters per Second Standard Mililiters per Hour Normal Mililiters per Hour Normal Cubic Centimeters per Minute Standard Cubic Centimeters per Second Normal Cubic Centimeters per Second Standard Cubic Centimeters per Hour Normal Cubic Centimeters per Hour Standard Cubic Feet per Minute Normal Cubic Feet per Minute Standard Cubic Feet per Second Normal Cubic Feet per Second Standard Cubic Feet per Hour Normal Cubic Feet per Hour Standard Cubic Meters per Minute Normal Cubic Meters per Minute Standard Cubic Meters per Second Normal Cubic Meters per Second Standard Cubic Meters per Hour Normal Cubic Meters per Hour 164 122012 Power 400 Rate Total SCCM SCC SLM SL V MV CNT NLM NL SLS SL NLS NL SLH SL NLH NL SMLM SML NMLM NML SMLS SML NMLS NML SMLH SML NMLH NML NCCM NCC SCCS SCC NCCS NCC SCCH SCC NCCH NCC SCFM SCF NCFM NCF SCFS SCF NCFS NCF SCFH SCF NCFH NCF SCMM SCM NCMM NCM SCMS SCM NCMS NCM SCMH SCM NCMH NCM 35 36 37 38 39 40 41 4
38. mmed at the factory is 01 If a different address is required it may be changed using either RS 232 or 485 After making the proper serial connections use the command 00X to read the default address Use 00Xdd where dd the new address If the old address is known use DDXdd where DD is the old address and dd is the new address See the section on Serial Communication Commands for more on command structure All commands listed in Appendix B are available for RS 485 use by inserting an asterisk and the unit s address in front of the command Ex Set the units of measure on channel two 2 to 96 10UM203Cr The command 00XCr can be used to poll the unit for its current address setting using either RS 232 or RS 485 10 5 SELECTING THE ANALOG SIGNAL LEVEL The POVVERFOP 400 is capable of 0 to 5 V 0 to 10 V or 4 to 20 mA operation Each level is user selectable The following diagram applies no matter which level of operation is chosen 4 ANALOG 1 D SV NNN NN LOMAS CHLXS Si E De D 1 W NNN NN UOMXS CHLXS Ra CHANNEL n 3 4 20m4 NNNNN UOMMS CHLX5 O V NNN NN LAS CHLXS 10 5 1 Zero to Five Volt Operation While in the SETUP CAL menu select ANALOG by pressing the number 4 key and the ENTER key From the ANALOG SIGNAL menu choose 0V 5V by pressing the number 1 key and pressing the ENTER key The normal display returns with 0 volts intended to correspond to 0 signal and 5 volts intended to correspond to the 10090 signal
39. nals SERIAL COMMUNICATION The POWERPOD 400 comes equipped with standard RS 232 and RS 485 serial communication Most functions features signals and alarms are accessible and modifiable via any remote computer The following commands are manual commands only A OPEN AUTO and CLOSE The status of these settings can be read via serial communication but they cannot be changed except manually from the front panel 164 122012 Power 400 Page 7 of 42 POV ER SELECTION Power input is switchable between 100 VAC 115 VAC and 230VAC 50 or 60 Hz via the rear panel For the safety of the operator as well as the device the correct power level should be selected prior to connecting to the power mains See the table POWERPOD 400 Specifications in section 3 0 for the proper fusing when changing power settings RATIO CONTROL Ratio control is possible between channels using a familiar master slave configuration Channel one 1 must be enabled as the master channel Any combination of the remaining channels is possible for slave channel assignment TOTALIZER A Totalizer function is present for each channel with the capability of counting down from a set point counting up to a set point or continuous count up The maximum count is 999999 units When the set points are reached a memory flag for each set point is set to a digital 1 indicating a Boolean true value The Totalizer set point flags must be polled via digital
40. ng Unit Voltage Range The following instructions explain how to short a given channel s input signal to ground 0 volts DC and set the display to read zero at this voltage Locate the 15 pin D type connector that corresponds to the channel to be zeroed J1 Channel 1 J2 Channel 2 J3 Channel 3 J4 Channel 4 Short pin 5 signal common to pin 6 signal in Press MODE Press 3 Press ENTER Press 1 2 3 or 4 depending on which channel is to be zeroed Press ENTER Press 7 Press ENTER Press 1 Press ENTER Press ENTER again You have just told a channel to display zero when the input signal is zero volts 164 122012 Power 400 Page 36 of 42 14 2 Zeroing Unit 4 to 20 mA Range The following instructions explain how to use the POWE 400 command signal to supply 4mAmp signal to a channel s input and set the display to read zero at this current level prob Disconnect all connectors from the channel to be calibrated Insure that the channel is set to read 4 to 20 mA signals by performing the following steps Press MODE Press 3 Press ENTER Press 1 2 3 or 4 depending on which channel is to be zeroed Press ENTER Press 4 Press ENTER Press 3 Press ENTER The normal display returns and will respond in the 4 to 20 mA mode Connect a milliamp meter between pins 14 and 6 on the 15 pin D connector corresponding to the channel to be calibrated J1 Channel 1 J2 Channel 2 J3 Chann
41. nt Ch2 Low Alarm Set Point Ch3 High Alarm Set Point Ch3 Low Alarm Set Point Ch4 High Alarm Set Point Ch4 Low Hysteresis Ch1 Hysteresis Ch2 Hysteresis Ch3 Hysteresis Ch4 Unit of Meas Ch1 Unit of Meas Ch2 Unit of Meas Ch3 Unit of Meas Ch4 Gas ID CH1 Gas ID CH2 Gas ID CH3 Gas ID CH4 I O Select Ch1 I O Select Ch2 I O Select Ch3 I O Select Ch4 Filter Setting Ch1 Filter Setting Ch2 Filter Setting Ch3 Filter Setting Ch4 Multiplier CH1 Multiplier CH2 Multiplier CH3 Multiplier CH4 Query Ci C2 C3 C4 C5 SP1 SP2 SP3 SP4 AIH AIL A2H A2L A3H A3L A4H A4L HY1 HY2 HY3 HY4 UM1 UM2 UM3 UM4 GS1 GS2 GS3 GS4 IN1 IN2 IN3 IN4 FL1 FL2 FL3 FL4 ML 1 ML 2 ML 3 ML 4 Response CH1 ddd dd U of M GasiD CH2 ddd dd U of M GasiD CH3 ddd dd U of M GasiD CH4 ddd dd U of M GasiD CH1 ddd dd U of M GasiD CH2 ddd dd U of M GasiD CH3 ddd dd U of M GasiD CH4 ddd dd U of M GasiD SP1 ddd dd SP2 ddd dd SP3 ddd dd SP4 ddd dd A1H ddd dd A1L ddd dd A2H ddd dd A2L ddd dd A3H ddd dd A3L ddd dd A4H ddd dd A4L ddd dd HY1 ddd HY2 ddd HY3 ddd HY4 ddd UM1 dd UM2 dd UM3 dd UM4 dd GS1 ddd GS2 ddd GS3 ddd GS4 ddd INT d rz fes IN2d rz lis IN3 d rz fis IN4 d rz lis FL1d FL2 d FL3 d FL4 d ML 1 dddd d ML 2 ddd dd ML 3 dd ddd ML 4 d dddd notes 1 2 notes 1 2 notes 6 7 notes 1 2 Page 30 of 42 APPENDIX A
42. onyl Sulfide Chlorine Chlorine Trifluoride Chlorobenzene Chlorodifluoroethane Chloroform Chloropentafluoroethane Chloropropane Cisbutene Cyanogen Cyanogen Chloride Cyclobutane Cyclopropane Deuterium Diborane Dibromodifluoromethane R21 Dichloromethane Dichloropropane Dichlorosilane Diethyl Amine 164 122012 Power 400 Symbol CaHgO CoH3N C2H2 Air CH4 NH3 Ar AsH3 CeHe BCl BF Bro 15 16 CBrF3 C4H0 19 CaHa CO CS CO CCu COS Clo CIF 28 29 CHCI 31 32 CaHa CoN CICN CaHa Cs3He H22 B2H6 40 R21 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 Gas ID Table Page 1 of 2 GAS NAME Diethyl Ether Diethyl Sulfide Difluoroethylene Dimethylamine Dimethyl Ether Dimethyl Sulfide Divinyl Ethane Ethane 1 chloro 1 1 2 2 tetrafluoro Ethane 1 chloro 1 2 2 2 tetrafluoro Ethanol Ethylacetylene Ethyl Amine Ethylbenzene Ethyl Bromide Ethyl Chloride Ethyl Fluoride Ethylene Ethylene Dibromide Ethylene Dichloride Ethylene Oxide Ethyleneimine Ethylidene Dichloride Ethyl Mercaptan Fluorine Formaldehyde Freon 11 Freon 12 Freon 13 Freon 14 Freon 22 Freon 23 Freon 114 Furan Helium Heptafluoropropane HMDS Hexamethyldisiloxane Hexane Hexafluorobenzene Hexene Hydrazine Hydrogen Hydrogen Bromide Hydrogen Chloride Symbol 46 47 48 C
43. output of 0 to 5 volts is calibrated for a maximum flow of 25 SLH The transducer is connected to one channel of a POWERP0D 400 which is CAL d to read 25 000 at 5 volts input and has been programmed to display rate in SLH The transducer is sending a constant 1 000 volt signal to the POWERPOD 400 What is the total flow after 40 minutes During one sampling interval the TOTALIZER reads the one volt signal and calculates the fraction of the possible full scale value 1 volt 5 volts or 0 20 The fractional signal value is multiplied times the CAL value 1 5525 55 Then because the channel s programmed rate is in SLH standard liters per hour a factor of 1 3600 is applied to the result 5 x 1 36000 1 389 x 10 4 standard liters per sampling interval A constant signal received over a 40 minute time period would amount to 40 minutes 60 seconds 10 samples per second 24000 samples The TOTAL would be 2 400 E03 1 389 E 04 3 1 3 Std Liters If no rate is programmed on that channel The TOTALIZER function is disabled for that channel and the display returns to its regular metering configuration MODE 1 METER 2 TOTALIZER 1 Chnl1 n TOTALIZER XXXXXX UOMXS CHLXS 2 TOTAL 1 DISPLAY KAAKAA UOMXS CHLXS 3 SETUP CAL 2 RESET KKKA UOMXS CHLXS 4 XTRNL CNT OOOO UOMXS CHLXS To enable the TOTALIZER press the MODE key The MODE menu appears in the display To select TOTAL press 2 and then ENTER The TOTALIZER menu allows
44. ovides the user with open collector opto isolated alarms for individual channels Each channel is provided with one user settable High and one Low alarm P 164 122012 Power 400 J8 Open Opto 1 JChnl1 High Alarm 2 Chni1 Low Alarm 3 JChnit Alarm Return 4 Chni2 High Alarm 5 Chni2 Low Alarm 6 JChni2 Alarm Return NC 19_ Chnt3 High Alarm 20 Chnt 3 Low Alarm 21 ChnI3 Alarm Return 22 Chnl 4 High Alarm 23 _ Chni 4 Low Alam 24 Chnl 4 Alarm Return yes 28 Ne Page 13 of 42 7 5 ANALOG SIGNAL FOLLOWERS Analog signals from each channel s transducers are available for reading or for sending to another power supply for ratio Master Slave operation The signal can be sent to a channel on another power supply and programmed as a Master for that power supply allowing the remaining three channels to operate as slaves When operating 4 20 mA instruments the followers supply a 0 5 2 5 volt signal 164 122012 Power 400 J5 1 Channel 1 Signal 2 Channel 1 Return 3 Channel 2 Signal 4 Channel 2 Return 5 6 7 Analog 8 Out HD DB 15 9 10 11 Channel 3 Signal 12 Channel 3 Return 13 Channel 4 Signal 14 Channel 4 Return 15 Page 14 of 42 8 0 Manual Operation 8 1 POVVER ON OFF rear panel Insure that the proper povver setting is selected prior to turning the povver
45. placed with the current set point Pressing the OPEN key results in the application of 15 VDC to pin number eight 8 of the corresponding 15 pin Sub D connector and returns the previously programmed metering function to the display 8 4 OVERRIDE CLOSED ANNAN UOMXS CHS A ANNAN UOMHS CHOS NANNY LOMAS CHOS ANNAN LOMAS CHUXS Press the desired CHANNEL key An asterisk appears in the first space on the line representing the selected channel The meter display is immediately replaced with the current set point Pressing the CLOSE key results in the application of 15 VDC to pin number eight 8 of the corresponding 15 pin Sub D connector and returns the previously programmed metering function to the display 164 122012 Power 400 Page 15 of 42 8 5 SETTING A CHANNEL TO AUTO CONTROL ANNAN UOMHS CH MS t NAAN UOMXS CLS ANNAN UOMHS CH MS ANNANN LOMAS CLS Press the desired CHANNEL key An asterisk appears in the first space on the line representing the selected channel The meter display is immediately replaced with the current set point Pressing the AUTO key causes pin number eight 8 of the 15 pin Sub D connector to float and returns the previously programmed metering function to the display Pin 14 signal levels are now available for control 8 6 SETTING A CHANNEL TO DIRECTLY METER INCOMING SIGNALS MOCE 1 METER 1 cChri1 AAA SOK UOMKS CHLXS 2 TOTAL 2 hri2 HAM XX LOS CHLXS 3 SETUPS CAL 3 Cha 3 HAA JOC UOMM
46. play emulates a liquid crystal display in its command structure but the VFD gives the unit a greater viewing angle and better visibility than available with most conventional LED or LCD displays The display can be set to four different brightness levels Use a lower brightness setting to extend the already long expected life time of the display Use brighter settings for viewing areas where ambient light may be too bright or cause glare or where greater viewing distances are required Most features are accessible via the membrane keys on the front panel Consult the section on each function to check its availability Operators are guided through the many features and options by selecting their choices from an intuitive menu structure FRONT PANEL LOCROUT The Front Panel Lockout function is only available through serial communication Manual A Overrides remain available during Lockout via a minimum number of keystrokes using dedicated keys for this purpose and allow any command setting to be overridden in either the high open or low closed state ANALOG RANGE SELECTION Analog signal and control ranges are operator selectable The operator can choose between three different DC ranges 0 5 VDC 0 10 VDC or 4 20 mA A fifteen 15 pin high density sub miniature D type connector is provided for separate monitoring of each channel s analog transducer signal CAUTION Consult the appropriate section for limits to the loading of these sig
47. s displayed Press the number 3 key followed by ENTER The CHANNEL SELECT menu is displayed Choose the channel whose signal is to be filtered using the number keys For example 1 ENTER The SETUP CAL menu is displayed 1 DISPLAY AMUN LOMAS C40 1 BRIGHTNESS NANNAN LONAS CHE 2 UNITS CHANNEL 2 NANNAN VOMAS CHOS v 3 GASD 30H1 NUNAN LONAS CHUXS 4 FILTER 164 122012 Power 400 Page 20 of 42 After SETUP CAL is selected and a channel number has been chosen the SETUP CAL menu is displayed choose DISPLAY by pressing the number 1 key ENTER The FILTER option can be reached by scrolling down once to view the selection number and then pressing the 4 key ENTER A conversion rate of 4 15 30 or 100 Hertz may be selected by entering its menu number ENTER Enter the number of the desired A D conversion rate and press ENTER The normal display will return Changes may be noticed in the flickering of the LSB on the display In most situations the flickering digits are an insignificant fraction of the display range and can be ignored Should the flickering become annoying or make reading the display difficult choose a slower rate of conversion i NOTE Slower rates of conversion may affect the accuracy of the TOTALIZER in situations where flow is changing often Steady flow rates will see little loss of TOTALIZER accuracy 10 2 6 Front Panel Lock Out Front Panel Lockout is available only through serial
48. sasesseessnnsnsssscessssssasssssseeeeqnssassss 19 10 22 SELECTING DISPLAY BRIGHTNESS zat tt inci tia eta ial seca 19 10 2 3 SELECTING UNIT OF MEASURE sssessccssssscsessssessesusessessssqessssssqssssssensassessassesqesssesssssssqssssssensssessssss s l 20 10 2 4 SEPEGEING GAS ID kz ano em tt let ec Mom E E o om ma loa l a dien 20 10 2 5 SETTING A D CONVERSION RATE FILTER J aoee eas roa nare EEE EE E AE r ETES 20 10 2 6 FRONT PANEL LOCK OUT 24 ko voda iii ts a tdi iii 21 10 3 TOTATIZER SETU L ec a a ee 21 10 53 12 COUNTUP TO A SET POINT i AEEA A a E i ee 21 10 3 2 COUNT DOWN FROM A SET POINT seesssscesessssesenses knnnse e l nnsssesensastesesasse4ssnsss sqssasssqssssssensssesssssss l 22 103 3 COUNT CONTINUOUSLY a a TETTE 22 10 4 EXTERNAL COMMUNICATION SETUP eeeesoseeeesesennnsseennnasoennnansknknssn k knnnssssqsssssesssssssssss s 22 10 4 RS 232 SBETINOS ei Si Vac EKE E nasa KVO Vs ea E nv Ekas kv kaas V ku ak UG guoj 22 10 54 24 S oa oao A Da E DNL E SAEN IEE am tea 22 10 5 SELECTING THE ANALOG SIGNAL LEVEL eeseseceessssecesussenesussonnnssssqessssssnsssssesssssessesis 23 10 5 1 ZERO TO FIVE VOI OPERATION a aaa 23 10 5 2 ZERO TON EN VOLT OPERATION ii recs tt ta eko korda ie tetes ia mils 23 164 122012 Power 400 Page 3 of 42 10 5 3 FOUR TO TWENTY MILLIAMP OPERATION ssssscesesssscsesssssqsssssseqssssssnsssesesss
49. se TOTAL by pressing the number 2 key followed by ENTER A TOTALIZER menu is displayed Press the number 1 key to choose the CNT UP option The COUNT UP DN window is displayed for the selected channel Enter the desired set point using the numbered key pads and press ENTER The unit returns the previously programmed display with the selected channel now displaying the Riemann Sum of the received transducer signal 164 122012 Power 400 Page 21 of 42 10 3 2 Count Down from a Set Point The TOTALIZER will be set to count from a preset value to zero 0 When zero is reached a memory flag will be set to its logic high state This flag is readable only through serial communications The TOTALIZER will continue to count in the negative direction from zero to the maximum ability of the display 999999 While the SETUP CAL menu is displayed choose TOTAL by pressing the number 2 key ENTER A TOTALIZER menu is displayed Press the number 2 key to choose the CNT DN option The COUNT UP DN window is displayed Enter the desired set point using the numbered Rey pads and press ENTER The unit returns the previously programmed display with the selected channel now displaying the set point minus the Riemann Sum of the received transducer signal 10 3 3 Count Continuously The TOTALIZER will be set to count from zero 0 to the maximum ability of the display No flags or alarms will be set While the SETUP CAL menu is
50. sessessssesssssseqssssssenssesstsss s i 23 10 6 SETTING LIMIT ALARMS esesecesesseennssonnsnss nnnssssgnnassssqnssssessssssesssssseqssssssqesssesensssssesssssesteil 24 10 6 1 SETTING A SINGLE CHANNEL S HIGH LIMIT sesssscccssssscssesssosessssssssssssqassssessssssesesssssessssssesas 24 10 6 2 SETTING A SINGLE CHANNEL S LOW LIMIT sssssssssesssscsssssccssssscsqssscesqssssesssssssessassseqssssssessssesssss s 24 10 6 3 SETTING A SINGLE CHANNEL S HYSTERESIS sssssssseesssccssssssessssscsqssssesessssessessssesssssesqssssssesssssessss s l 24 10 7 SETTING RATIO CONTROL PARAMETERS sssssceesesesessssseesussonnnassknnnsessqesassssqssssesesssesetsss s 25 ENABEING RATIO GONTROLS dida ias 25 10 8 CALIBRATING A CHANNEL TO ITS INCOMING SIGNALS eeeseeeeseseconnnssennnnssonnnsssennnssssenis 26 10 8 1 RESETTING GHE ZERO ON viscose chet cesc ei li ei ei aes ie 26 10 8 2 RESETTING THE SPAN ONL ei dit dei i ii dit ii i 26 10 8 3 RESETTING ZERO AND SPANG ie ct ai i 27 10 8 4 SETTING A MULTIPLICATION FACTOR sesssscccessssessesssscsesssscessssesqnsssessusssessessssesentsssesstsssenssssetssss s 27 10 9 SERIAL COMMUNICATION esssscsesssscccesussessesssscessssssqusssssesussessssssessesssseesassssqssssseesssseesesssis 28 10O V COMMAND Secs ie cie A A A A lia 28 109 2 SEE PONTQUERIES aii bi 28 10 913 A
51. t After selecting a channel in the SETUP CAL menu choose ALARMS by pressing the number 5 key followed by the ENTER key The ALARMS menu will be displayed Pressing the number 1 key selects the HIGH LIMIT display Using the number keys enter the desired high limit level and then press ENTER EXIT the loop by pressing the number 4 ENTER key while the ALARMS menu is displayed 10 6 2 Setting a Single Channel s Low Limit After selecting a channel in the SETUP CAL menu choose ALARMS by pressing the number 5 key The ALARMS menu will be displayed Pressing the number 2 key selects the LOW LIMIT display Using the number keys enter the desired high limit level and then press ENTER EXIT the loop by pressing the number 4 key while the ALARMS menu is displayed followed by ENTER 10 6 3 Setting a Single Channel s Hysteresis After selecting a channel in the SETUP CAL menu choose ALARMS by pressing the number 5 key The ALARMS menu will be displayed Pressing the number 3 key selects the HYSTERESIS display Using the number keys enter the desired degree of Hysteresis followed by the ENTER key EXIT the loop by pressing the number 4 key while the ALARMS menu is displayed followed by ENTER 164 122012 Power 400 Page 24 of 42 10 7 SETTING RATIO CONTROL PARAMETERS Enabling Ratio Control Ratio control is achieved through the SETUP CAL menu Ratio Control is activated by selecting channel number one 1 and enabling it as m
52. ting that the total is equal to or beyond the totalizer set point D41Cr command tells channel four 4 to display the TOTAL It is not necessary that the front panel read the total for the TOTALIZER to work The Totalizer works in the background no matter what mode the display is in A NOTE It must be emphasized that if the total reaches the maximum of the display 999999 the unit effectively stops counting 164 122012 Power 400 Page 29 of 42 Command SP1 dd ddd SP2 dd ddd SP3 lt dd ddd gt SP4 lt dd ddd gt A1H lt dd ddd gt A1L lt dd ddd gt A2H lt dd ddd gt A2L lt dd ddd gt A3H lt dd ddd gt A3L lt dd ddd gt A4H lt dd ddd gt A4L lt dd ddd gt HY1 lt ddd gt HY2 lt ddd gt HY3 lt ddd gt HY4 lt ddd gt UM1 lt dd gt UM2 lt dd gt UM3 lt dd gt UM4 lt dd gt GS1 lt ddd gt GS2 lt ddd gt GS3 lt ddd gt GS4 lt ddd gt IN1 lt d gt IN2 lt d gt IN3 lt d gt IN4 lt d gt FL1 lt d gt FL2 lt d gt FL3 lt d gt FL4 lt d gt ML1 lt d dddd gt ML2 lt dd ddd gt ML 3 lt ddd dd gt ML 4 lt dddd d gt 164 122012 Power 400 11 0 Appendix A Power 400 Serial Commands Name Channel 1 Display Channel 2 Display Channel 3 Display Channel 4 Display All Channels Display Set Point Channel 1 Set Point Channel 2 Set Point Channel 3 Set Point Channel 4 Alarm Set Point Ch1 High Alarm Set Point Ch1 Low Alarm Set Point Ch2 High Alarm Set Poi
53. y 2009 Revision K Document Number 164 062009 ssssssssssssssessssssessseastessenssesseeasenssis June 2009 Revision L Document Number 164 082010 cccceccssecseeeeeeeeesceeeeeseeeceeseeeseeeeeeeeeas August 2010 Revision M Document Number 164 102012 ss sssesssssseseseneeenseknennnennneeas October 2012 Revision N Document Number 164 122012 ooccoccnnccnocnnocnncnnocnnnnnnocnncnnncnnncnnccnnonos December 2012 Visit www teledyne hi com for WEEE disposal guidance Hastings Instruments reserves the right to change or modify the design of its equipment without any obligation to provide notification of change or intent to change 164 122012 Power 400 Page 2 of 42 Table of Contents 1 0 QUICK STAR NSRO O ONS tenia kadi da a dites tate dalt dit 5 2 0 SAPEFYo mt EN EE EE I EA EE SE LO 6 3 0 FEATURES 000 teta dE o ii tines e ro 7 4 0 SPEGCIFIGATIONS iii Us mitad oest a Beko Aldo 9 5 0 FRONT PANED cuac oPooUi I 10 6 0 REAR PANEL o rko o A a A A IA E ta Os Bas ans 11 7 0 WIRING 0 Huu 12 7 1 LOWER err ne e ed ca Ti LL LLLEE TTT 12 EA COMMUNICATION Si de o hos atto o lu bake MA Ne mura 12 7 3 TRANSDUCER CONNECTIONS 000 Led etat ent 13 7 4 ATARMS ti rr i E tu i trial 13 o ANALOG SIGNAL FOLLOWERS sesssscesesscssesssssennssssenusssetessssesesssseenntsevesssss
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