HSA3500 HSA3500 plus Power Supply User Manual
Contents
1. Slot 13 EHP Slot 11 EH Slot 9 EK Slot 7 LD Slot 5 LC Slot 3 LB Slot 1 LA 400V 400V 3 5kV Analysator 3 5kV Lens 3 5kV Lens 3 5kV Lens 3 5kV Lens na n J9 15 1 n 4 FOND 4 POND 4 POND PGND PGND PGND 4 POND 6 PHS H 6 P 15 Ise Pes Pal Pals H 6 P IS g 8 8 LE 10 10 l I 1 M 2 12 1 l Li 14 OHP 14 AK 14 16 AK 16 l 16 18 18 18 M 20 IHP lj 20 Tio l WEI 22 IK 2 2 24 24 l 24 26 MESH 26 IK TS TAT T H 26 D 28 28 28 30 30 30 ES ees EKOV Fos LENSOV TIXISHV TIXISHV TXIS JIXISHV JIXI3I Slot 10 DY Slot 8 DX Slot 6 LE Slot 4 SCR Slot 2 ED Slot 0 EC Slot CPU 400V optional 400V optional 3 5kV Lens 3 5kV Lens optional 3 5kV UNI 3 5kV Lens CPU n2 18 Je n J0 4 PGND PGND Honn POND z 15 5 Peis GE VIe Pais 6 P5 Pais 8 S 10 10 12 12 I H Y 14 16 16 18 18 Er w X min gt TI 26 T9 CHB 28 H H JiXis JIXISHV AXIS Lam 20 1 Bo Be SH Hir n e Fue H S Fe oly a m cs AS H Ds ko AS ali E aH SS con e aS uo c H LENSW al Jereclock ov PL2. 259 Buskabel 3 900 500 0 Ut Figure 21 HSA3500 plus Wiring Backplane X1 62 HSA3500 HSA3500 plus Power Supply SP CS 4 2 5 Wiring X4 Slot 13 TI Slot 11 EH Slot 9 EK Slot 7 LD Slot 5 LC Slot 3 LB Slot 1 LA 400V 400V 3 5kV Analysator 3 5kV Lens 3 5kV Lens 3 5kV Lens 3 5kV Lens n3 n 19 n J5 n n 4 PGND 4 PGi PGND 4 PGND 4 PGND 4 POND 6 Pis fe Pas EI LS SE SPD fs Pats 8 8 E 8 8 10 10 TEM 10 10 12 12 SR 12 12 14 14 14 14 14 16 16 16 16 16 18 18 18 H 18 18 20 TI 20 op 20 20 gt 22 2 22 24 24 24 24 26 26 CH Base 18 n 236 T2 28 28 28 30 30 30 32 CS ES 32 JIXISHV TIXISHV JIXISHV JIXISHV JIXISHV JIXISH JIXISHV Slot 10 DY Slot 8 DX Slot 6 LE Slot 4 SCR Slot 2 ED Slot 0 Slot CPU 400V optional 400V optional 3 5kV Lens 3 5kV Lens 3 5kV UNI CPU 12 no 38 J6 n n Jo 4 PGND 4 PGND 4 POND PGND IS Pes 6 Pe
3. L 49 Table 29 HSA3500 Oxe1 Operation Modes iii 49 Table 30 HSA3500 Oxd1 ADC Mapping nennen nnne n nnnr nennen ennt nennt 50 Table 31 HSA3500 Oxd1 Operation Modes nennen nennen nnne nnn nennen nnns 50 Table 32 HSA3500 Oxb1 ADC Mapping nennen nnnn nennen nen rnns enint sensns rens 51 Table 33 HSA3500 plus 0x04 ADC mapping nennen nennen nnn nnne n nnn nnns 52 Table 34 HSA3500 plus 0x04 Operation Modes iii 53 Table 35 HSA3500 plus 0x14 ADC mapping E 53 Table 36 HSA3500 plus 0x14 Operation Modes 53 Table 37 HSA3500 plus 0x24 ADC mapping a 54 Table 38 HSA3500 plus 0x24 Operation Modes sisi 54 Table 39 HSA3500 plus 0x34 ADC mapping issues 55 Table 40 HSA3500 plus 0x34 Operation Modes 55 Table 41 HSA3500plus 0x44 ADC mapping a 56 Table 42 Hardware and wiring Dvpes E 58 Table 432 Lens Connector iR REEL ERI es REEL Ha S IR AM RU re na er RECEN annee dena ea SES ER RENS 64 Table 44 Analyzer connector sise 65 IV HSA3500 HSA3500 plus Power Supply
4. Surface Analysis Vacuum Surface Analysis Computer Technology Components P System Software Technology HSA3500 HSA3500 plus Power Supply User Manual Version 1 7 SPECS All rights reserved No part of this manual may be reproduced without the prior permission of SPECS GmbH User manual for the HSA3500 HSA3500 plus Power Supply Version 1 7 printed 18 May 2010 SPECS order number for this manual 78 000 186 SPECS GmbH Surface Analysis and Computer Technology Voltastrasse 5 13355 Berlin GERMANY PHONE 49 0 30 46 78 24 0 FAX 49 0 30 4 64 20 83 http www specs de HSA3500 HSA3500 plus Power Supply SPECS Chapter T Table of Contents 1 Introduction 1 US MEE mE 1 1 2 General Information 1 1 7 Physical Specifications 2 14 Safety ge e EX MENU MU IERI LR RUNE 3 1 5 Initial Inspection and Packaging List 3 1 6 ECi0Can Ftbhernet Adapter nnne 4 1 6 1 lege le e EE A 1 6 2 Connectors diagnostic LEDs and switches esses 4 1 6 3 Power Requirements ss 6 1 6 4 Pin Setting of the CAN Bus Connector 6 1 6 5 Galvanic Decoupling sis 7 1 6 6 Propagation Delay 7 1 7 Front Back Panel Description 7 1 8 General Internal Layouts 9 19 NMod lesuuu da es a ae 10 1 10 HSA RCS oco e pln i etin danni aie tune 12 2 Using the HSA 13 NEM SCENAM 13 2 1 1 Vacuum interlo
5. LogicalVoltageList LogicalVoltages list of all logical voltages LogicalVoltage Adjust 2 Define the LogicalVoltage LogicalVoltageDef Adjust ShortName A Unit ev AdjustOnly false AnalyzerOnly false MinValue 500 0 MaxValue 500 0 StandbyValue 0 0 StandbyGroup 1 the block LogicalVoltageDef 3 Add the voltage at the corresponding lens mode DacVoltage NonLinearLens1 d Formula SA HSA3500 HSA3500 plus Power Supply 43 HSA config files hsa S P E C S R 4 After changing the config file you should check it with the program ConfigCheck as described in the next chapter 3 3 ConfigCheck One can check the syntax of a configuration file with the program ConfigCheck which is included in the SpecsLab software package 1 Start ConfigCheck found in the SPECS folder 2 Load the appropriate config file The name of the config file depends on your hard and software and is only known at runtime of the software Es tablishing a connection to the HSA using SpecsLab2 the HSA3500Juggler or external programs using the SL2 AD dll outputs the used config file to in ternal windows debug facilities These can be read out with the free soft ware tool DebugView available from http technet microsoft com en us sys internals bb896647 aspx Now open DebugView and connect to the HSA and look for the following line 000 00 02 023 0x0460 MAJOREVENT HSA3500Analyzer CCD Phoibos H
6. Mode 3 6KV unit ID 28 27 9c 94 01 00 00 Fw version 0x23 Status 0x01 upTime 14 364 seconds Modul type 0x04 ADC Values with Dac 0 Monud 5 45v COxffdOo Monul 10 21v Oxffa6 Monu2 9 08v COoxffbo Mont 4 99uA OxffcQ Tomp 30 56C 0x0le9 ADC values with Dac 262144 0x040000 Monud 1889 76v COxbefoO Monuil 10 89v Oxffao Monu2 1889 76v Oxbef0 Mont 195 97uA 0x09d0 Temp 30 63c Ox0lea Voltage Rising Ratio 0 999338 Last calibrated as Type 3500volt on wed Jun 11 02 16 10 2008 Figure 11 Diag log file Please email to SPECS supportGspesc de these log files to help diagnosis of the exact problem Note Particularly with analyzer connected rise time errors are possible be cause of a resistance network in the analyzer box and capacitance effects Es pecially the module for Ekin has a higher capacitance to supply and may cause rise time errors even if the module is okay Values of 0 8 are within the limit 2 3 2 Connection check for the analyzer electrodes While performing the checks below it may be useful to refer to the Appendix sec tion 3 3 for the pin assignments of the PHOIBOS feedthroughs 2 3 2 1 Check all analyzer HSA voltages Check whether the electrode voltages are present at the female contacts of the spec trometer plugs Check the accuracy of the voltage ranges 40V 400V with a high 18 HSA3500 HSA3500 plus Power Supply SPECS precision digital voltmeter for the high voltage
7. e g 20 StandByValuePP string Same as above for positive polarity detection of ions Table 25 ModeDef section description An example for a ModeDef section is ModeDef LargeArea 3 5kV ditt ta at Hat tH PAF a aE aE EE E FE aE aE aE E aE aE AE aE EE EE MinRR 0 0 MaxRR 1000 0 ShortName LA 3 5kV RelaisMode 0 0 Parameter Ekin Formula SEkin Unit eV Parameter Epass Formula SEp Unit eV Parameter NonDisp Formula 1 10 2 Unit mm LogicalVoltage Kinetic Energy 40 no relays used HSA3500 HSA3500 plus Power Supply SPECS MinValue 0 9 3500 0 MaxValue LogicalVoltage Pass Energy MinValue 0 0 MaxValue 660 0 LogicalVoltage Focus Displacement 1 MinValue 1 MaxValue 1 LogicalVoltage Focus Displacement 2 MinValue 1 MaxValue 1 DacVoltage CoilCurrent DacId 16 0 OperationMode 0 Formula Icoil 0 001 User Interface Unit mA DacVoltage NonLinearLens1 DacId 1 0 OperationMode 3 Formula SEkin SWF SEp spline LargeArea T2 S Ekin SWF SEp DacVoltage NonLinearLens2 DacId 3 0 OperationMode 3 Formula Ekin WF SEp spline LargeArea T3 S Ekin SWF SEp DacVoltage Lens3 DacId 5 0 OperationMode 3 Formula Ekin WF SEp spline LargeArea T4 T7 SEkin SWF SEp DacVoltage Lens4 HSA3500 HSA3500 plus Powe
8. 10 Table 7 HSA3500 plus modules 11 Table 8 HSA3500 Range s nennen nennen enn nnt sehn nnns eet nnns en tnne sen a 12 Table 9 HSA3500 Une TEE 12 Table 10 Voltage energy scale check for 40V and 400V range 19 Table 11 Voltage energy scale check for 1500V and 3500V range with high voltage probe 1000 1 EE 19 Table 12 Voltages to Ground Ekin 800eV Ep 20 eV WF 0 PHOIBOS 100 150 R6 or higher for typical XPS applications sise 24 Table 13 Voltages to Ground Ekin 20eV Ep 10 eV WF 0 PHOIBOS 100 150 R6 or higher for typical UPS applicattons iii 25 Table 14 Abbreviations Terminology sise 26 Table 15 Supported tvpes nennen nennen en nte ren h nnns enn rnn see trnn nnne nnns nnne nnn nnns 30 Table 16 Info section description 32 Table 17 SplineList section description sise 32 Table 18 LogicalVoltageList section description sis 33 Table 19 ModeList section description 34 Table 20 SplineDef section description 34 Table 21 LogicalVoltageDef section description 36 Table 22 ModeDef section context iii 37 HSA3500 HSA3500 plus Power Supply I List of Tables S PEC Table 23 LogicalVoltage subsection in a ModeDef section 38 Table 24 SlotHVOff subsection in a ModeDef section 38 Table 25 ModeDef section description 40 Table 26 HSA3500 Oxf1 ADC Mapping nnne nnne nnns nnne tnnt ennt snis nr nen nnne nnns 48 Table 27 HSA3500 Oxf1 Operation Modes iii 48 Table 28 HSA3500 Oxe1 ADC mapping
9. 2 1 1 Vacuum interlock For operation of the HSA the vacuum interlock connector has either to be connected to a pressure gauge or must be bridged temporarily with the supplied connector Bridging the vacuum interlock can cause great damage in case of sudden pressure rise Use at your own risk The pin setting of the connector is shown in figure 7 So to bridge the interlock the pins 1 and 2 have to be shortend Interlock ILI Figure 7 Vacuum interlock connector HSA3500 HSA3500 plus Power Supply 13 Using the HSA 2 2 SPECS Software for Interfacing with the HSA Your options for controlling the HSA are 2 3 SpecsLab2 including the HSA Juggler Custom made programs using the SpecsLab DLL SL2 AD dll see SL2 AD h and the Software 2D Manual SPECS order number 78 000184 National Instruments Labview is also supported using the special DLL SL2 AD Vl dll SPECS provides also a sample VI in the folder programming in side the SPECSLab2 software package For implemenation tips seeSL2 AD DLL Test vi and SL2 AD h from this software package Other possibilities are remote control of applications like SpecsLab2 using Windows Messages Using directly the public CORBA interfaces of the SPECS device drivers is also possible but intermediate programming skills is for this solution a good thing A low level tool for advanced users called hsa3500tool is also available See chapter 4 4 on page 65 Troubleshooting Th
10. 3 501 the index is the suffixed by the HSA macld They are saved in the HSA hardware and can be different for each voltage range Splines as defined in SplineList and SplineDef sections they have to be prefixed with spline e g spline HighMagnification T8 MaxStep double If this entry exists and is greater than 0 0 it gives the maximal optional voltage step for a single DAC output operation E g if the DAC output is 50V MaxStep is set to 10V and the control software will change the output to 200V then this is done by 15 steps of HSA3500 HSA3500 plus Power Supply 39 HSA config files hsa 10V 50V 60V 200V If there are any other DAC voltages to change at the same time these voltages will also be changed in 15 equal steps even if their MaxStep limit is deactivated Default 0 0 deactivated if less or equal 0 0 SPECS optional voltages U2 lt U1 Units ms DelayUp unsigned If this entry exists and is greater than 0 it gives the minimal long delay between two DAC output operations for increasing output optional voltages U1 lt U2 default 0 ignored if 0 Units ms DelayDown unsigned If this entry exists and is greater than 0 it gives the minimal long delay between two DAC output operations for decreasing output Default 0 ignored if 0 StandByValue string Value of DAC Voltages while the Unit is in standby Can be given as an absolute e g 1000 or relative value
11. EN ISO 61010 1 DIN EN ISO 61326 1 08 02 05 04 Industrial scientific and medical ISM radio frequency equipment Radio disturbance characteristics Limits and methods of measurement Information technology equipment Radio disturbance characteristics Limits and methods of measurement Electromagnetic compatibility EMC Part 4 2 A1 4 3 A1 4 4 4 5 4 6 4 8 and 4 11 Safety requirements for electrical equipment for measurement control and laboratory use Part 1 General requirements Electrical equipment for measurement control and laboratory use EMC requirements Part 1 General requirements Applied national standards and technical specifications Berlin 9 2 2602 DIN 31 001 Oliver Schaff 04 83 Sicherheitsgerechtes Gestalten technischer Erzeugnisse Schutzeinrichtungen Begriffe Sicherheitsabstande f r Erwachsene und Kinder Figure 25 HSA 3500 CE Conformity Declaration HSA3500 HSA3500 plus Power Supply 75 Appendix S PEC eh ee SPECS C EEC Declaration of Conformity We SPECS GmbH herewith declare that the products defined below meet the basic requirements regarding safety and health of the relevant EC directives by design type and versions which are brought into circulation by us In case of any product changes made without our approval this declaration will be void Designation of the products Power Supply HSA3500plus The products conform to the following di
12. Figure 8 Windows Registry editor sisi 16 Fig re 9 Start diag Dat i EE 17 Figure 10 DiagTool command box 17 Figure 11 Diag log rl E 18 Figure 12 HSA3500 plus with opened backplane the pin numbers are indicated in the zoomed fig e aaa PP P 23 Figure 13 ConfigCheck startup screen sisi 45 Figure 14 HS A3500 Wiring EE 59 Figure 15 HSA3500 Wiring Backplane 1 59 Figure 16 HSA3500 Wiring DEET 60 Figure 17 HSA3500 Wiring Backplane H 60 Figure 18 HSA3500 plus Wiring OO 61 Figure 19 HSA3500 plus Wiring Backplane ON 61 Figure 20 HSA3500 plus Wiring XT 62 Figure 21 HSA3500 plus Wiring Backplane XT 62 Figure 22 HSA3500 plus Wiring NA 63 Figure 23 HSA3500 plus Wiring Backplane XA 63 Figure 24 Schematics of the 12 pin analyzer Teedtbrougah 65 HSA3500 HSA3500 plus Power Supply l List of Figures S P E C Q Figure 25 HSA 3500 CE Conformity Declaration sisi 75 Figure 26 HSA 3500 plus CE Conformity Declaration sis 76 Il HSA3500 HSA3500 plus Power Supply SPECS Chapter LI List of Tables Table 1 Packaging List of the HSA uU aee cones pesas t R XR eh EX REX E ocu a EXER Rod eR e supa asta saine 3 Table 2 LEDs and Connectors of the EC 5 Table 3 Pin setting of the CAN Bus connector nennen nennen enne nennt sinn nnne nnn nnns nnns 6 Table 4 HSA3500 plus front panel description 8 Table 5 HSA3500 plus back panel description sis 9 Table 6 HSA3500 ee E
13. HSA 100 Q X1 9 HSA3500plus Standard MCD 101 Q X1 11 HSA3500plus Standard CCD 102 X1 13 HSA3500plus Standard CCD Deflector 103 L 13 HSA3500plus HSA PreLens 104 X1 11 HSA3500plus Standard MCD Deflector 105 X4 10 HSA3500plus THEMIS 106 X5 12 HSA3500plus Wide Angle 107 X7 7 HSA3500plus Wide Angle Pre Lens Defl 108 X7 5 HSA3500plus Wide Angle Pre Lens 109 X4 12 HSA3500plus THEMIS Defl 110 x9 13 HSA3500plus Wide Angle IBM 150 X6 11 HSA3500plus Spin 151 X8 13 HSA3500plus SPIN 90 Defl 160 Y1 9 HSA15000plus Multi HSA 161 Y2 10 HSA15000plus Multi HSA 162 Y3 3 HSA1500plus Multi HSA Table 42 Hardware and wiring types 58 HSA3500 HSA3500 plus Power Supply SPACS 4 2 1 Slot 11 EHP 3 400V Wiring Slot 9 EC 3 5kV Slot 7 Slot 3 Slot 1 Slot 4 ED 3 SkV UNI JIXISHV EKO lens w Ha To ot ees 1 E ca AS H Ee ET oly US nm our y H HE Ces Bs sh tu seal ote T cs cs IK 1 His 1 S H He Har anh Com c AT 13 mr o Lus H Lt H Fm mo cr AT a AD 1 FEE mow CS eu f HA H au HA 74100395 Mesh Interlock ILI Xue A e lt ci KZ an 24v on as H 259 17 Buskabel 3 on MESH 4
14. HSA3500 plus Power Supply Table of Contents S PE C Q HSA3500 HSA3500 plus Power Supply SPECS Chapter Introduction 1 1 Preface This manual describes the entire HSA3500 and HSA3500 plus power supply manufac tured by SPECS For all common features we will use the term HSA for both When it is necessary to point out specific features we will use the terms HSA3500 and HSA3500 plus respectively 1 2 General Information With the HSA 3500 plus SPECS presents a new versatile high voltage power supply for electrostatic field applications The HSA3500 plus is the further development of HSA3500 The modular design of the unit allows independent setting of all voltages no voltage dividers are used Each module is fully galvanically floating highly stable and linear The voltages are con trolled by high precision 24 bit digital to analog converters with an overall maximum settle time of 3 ms The HSA consists of a main CPU and various voltage and current modules All commu nication goes over the CAN Bus to the main CPU The main CPU distributes all CAN Bus messages to respective modules The device provides 5V 15V for the modules and main CPU and 24V for external devices via CAN Bus e g EC10 On the back pan el you connect all the hardware to the analyzer e g SPECS Phoibos and detector e g SPECS CCD detector On the front panel you can switch the HSA on off and get the device status via LEDs HSA3500 HS
15. N A N A 7 N A N A N A Table 33 HSA3500 plus 0x04 ADC mapping Module voltage Q3 Q2 Q1 QO Hex range Relay Out Relay Out Range Range value 2 1 0 1 1 1 0x03 1 1 1 0x07 3500V to 3500V 1 1 1 OxOB 1 1 1 1 OxOF 1 0x01 1 1 0x05 1500V to 1500V 1 1 0x09 1 1 1 0x0D 1 0x02 1 1 0x06 600V to 600V 1 1 0x0A 1 1 1 OxOE 0x00 1 0x04 150V to 150V 1 0x08 1 1 0x0C 52 HSA3500 HSA3500 plus Power Supply SPECS Table 34 HSA3500 plus 0x04 Operation Modes 4 1 6 0x14 3 5kV analyzer bipolar HSA3500 plus module Channel ADC name Description DAC Output Pin 0 Mon U1 Voltage Output 1 20 1 Mon UO Voltage Output 0 26 2 Uerr 3 Mon Total current 4 Mon U2 Voltage Output 2 14 5 N A N A N A 6 N A N A N A 7 N A N A N A Table 35 HSA3500 plus 0x14 ADC mapping Module voltage Q3 Q2 Q1 Q0 Hex range Relay Out Relay Out Range Range value 2 1 0 1 1 1 0x03 1 1 1 0x07 3500V to 3500V 1 1 1 OxOB 1 1 1 1 OxOF 1 0x02 1 1 0x06 1500V to 100V 1 1 0x0A 1 1 1 OxOE Table 36 HSA3500 plus 0x14 Operation Modes HSA3500 HSA3500 plus Power Supply 53 Appendix S PEC S e 4 1 7 0x24 400V bipolar HSA3500 plus module Channel ADC name Description DAC Output Pin 0 N A N A N A 1 N A N A N A 2 Mon U2 Voltage
16. SN Eech Figure 15 HSA3500 Wiring Backplane HSA3500 HSA3500 plus Power Supply 59 Appendix S P A C g 4 2 2 Wiring H L3A Slot 4 ED 3 5kV UNI DGND sw sa gr DVCC ge Figure 16 HSA3500 Wiring H CN NEN Pe ox Bn a n Be AN i NN Intedock is gr P6KEA40CA n X z De 3 M NM R uv oc s I D E Z L e Buskabel 3 oe n Figure 17 HSA3500 Wiring Backplane H 60 HSA3500 HSA3500 plus Power Supply SP CS 4 2 3 Wiring Q Slot 13 EHP Slot 11 EH Slot 9 EK Slot 7 LD Slot 5 LC Slot 3 LB Slot 1 LA 400V 400V 3 5kV Analysator 3 5kV Lens 3 5KV Lens 3 5kV Lens 3 5kV Lens Slot 10 DY Slot 8 DX Slot 6 LE Slot 4 SCR Slot 2 ED Slot 0 EC Slot CPU 400V optional 400V optional 3 5kV Lens 3 5kV Lens optional 3 5kV UNI 3 5KV Lens CPU PGND POND DGND PHs Peis In ILL WOC Y x P 15 PGND Y X T coL Figure 18 HSA3500 plus Wiring Q Buskabel 3 900 500 03 U1 Figure 19 HSA3500 plus Wiring Backplane Q1 HSA3500 HSA3500 plus Power Supply 61 Appendix SPACS 4 2 4 Wiring X1
17. SPECS 2 Corba error while loading the DeviceNet Layer Either the software was incor rectly installed or a driver has crashed In this case rebooting the PC is recommen ded then trying again 3 Internal error while establishing the DeviceNet connection If this occurs reboot the PC and try again 4 A Devicenet connection to the unit already exists It may be that another pro gram running in another window established this connection If unsure please re boot the PC and try again to establish a connection 5 A Connection to the Unit does not exist Internal Error This error normally occurs as a result of bugs that exist in the software trying to access the unit 6 Timeout while waiting for connection to the device This error occurs when the unit doesn t respond to a command sent via CAN bus within the expected amount of time This occurs most often due to an error in the Devicenet allocation which occurs at the program s start initialization Other possible causes e CAN Card is defective e CAN cable connections are incorrect e Incorrect IRQ of the CAN card in the PC driver has been set or the PC does not support that IRQ for example because it has been disabled in the BIOS e TheUnit is not turned on e TheUnit is defective and can t allocate resources Note this error can also oc cur while the Unit is in operation For example when the Unit crashes 7 Invalid response from the Unit 8 Error m
18. Voltages nennen nnn 43 tees du dcm 44 HSA3500 HSA3500 plus Power Supply S PAC eh Table of Contents 4 Appendix 47 41 HSA modul es uu u t 47 4 1 1 Oxf1 3 5kV bipolar HSA3500 module 48 4 1 2 Oxe1 400V bipolar HSA3500 module 49 4 1 3 Oxd1 3 5kV unipolar HSA3500 module 50 4 1 4 Oxb1 150mA bipolar HSA3500 module 51 4 1 5 0x04 3 5kV Lens bipolar HSA3500 plus module 52 4 1 6 0x14 3 5kV analyzer bipolar HSA3500 plus module 53 4 1 7 0x24 400V bipolar HSA3500 plus module 54 4 1 8 0x34 3 5kV unipolar HSA3500 plus module 55 4 1 9 0x44 150mA bipolar HSA3500plus module 56 4 2 Hardware type and backplane wiring 57 4 2 1 dI 59 4 2 2 a e Me MH 60 4 2 3 Ig Eom c aa 61 4 2 4 Miri ET 62 4 2 5 WINING XA EE 63 43 The Filter bx Cable 64 4 3 1 Interlock conpections nennen nnns 64 4 3 2 Pin ASSINE TTT 64 AA HSA3500 Tool 65 4 4 1 Commands Explained a u aa aka askussiakusaawasawqusa aka Qaasaq 69 4 4 2 Error Messages of the Diagnostic and Programming 72 HSA3500
19. batch files wait Pauses the program s execution until the user presses the ENTER key This command typically only used in scripts HSA3500 HSA3500 plus Power Supply 71 Appendix 72 SPECS 4 4 2 Error Messages of the Diagnostic and Programming Errors can occur at various points in the software system e Inthe firmware of the Unit e Inthe CAN bus interface layer of the PC software e Inthe application itself the diagnostic tool The error messages of the Application are typically text based and self explanatory for example Voltage difference too small large Therefore the error messages of the Unit and of the CAN bus layer will now be discussed The error messages have the format printf notation General d Cmd 0x 02x ErrCode 0x 02x FatalErr 0x 02x 0x 02x Above General isthe Error Message of the CAN Devicenet layer of the PC Cmd is the Firmware command that failed ErrCode is the error code of the Unit which relates to the command that failed FatalErr 0x00 0x00 means that a fatal error did not occur In Detail General Messages 0 No error 1 Invalid parameter when loading the DeviceNet layer e g incorrect I O address of the CAN card incorrect name of the DLL driver The parameters are normally in the batch file that the actual program runs See the call parameters of the respective program for more information HSA3500 HSA3500 plus Power Supply
20. file Each element of the sequence is a Spline subsection without a body An example for a SplineList section is SplineList GlobalSplines list of all global defined splines Spline HighMagnification T2 Spline HighMagnification T3 Spline HighMagnification T4 T7 Spline HighMagnification T8 Spline HighMagnification T9 Section Type Description Spline string optional no body Name of a spline definition Table 17 SplineList section description 3 2 10 3 LogicalVoltageList Section This section contains a sequence of all logical voltages defined in the configuration file Each element of the sequence is a LogicalVoltage subsection without a body This list determines the order of the logical voltages dialogue elements within the user interface An example for a LogicalVoltage section is 32 HSA3500 HSA3500 plus Power Supply SPECS LogicalVoltageList LogicalVoltage LogicalVoltage LogicalVoltage LogicalVoltage R LogicalVoltages the section name is empty Kinetic Energy Pass Energy Detector Voltage Conversion Voltage Section Type Description LogicalVoltage Multiple optional no body Name of a LogicalVoltage definition Table 18 LogicalVoltageList section description 3 2 10 4 ModeList Section This section defines the modes which will be available to the user control software It contains a sequence
21. power supply module 0 13 lt DAC no gt is the number of the DAC on the module 0 for 3 5kV modules and current modules 0 2 for 400V modules OperationMode unsigned Operation mode of the HSA3500 power supply module This long value has to be given in hexadecimal format i e prefixed with optional 0x If the ModeDef section contains more than one DAC voltage for the same HSA3500 module slot the effective operation mode is calculated by a bitwise OR operation of all values For possible values check the corresponding table on page 48 and following Default 0x00 Formula string String with the name of the formula used to calculate the DAC optional voltage The formula can consist of the following different parts integers and floats references to logical voltages by their shortname prefixed with e g Ekin the following fuctions are supported where x and y denote the parameters the trigonometric functions expect their arguments to be in radians pi the constant 3 1415 div x y mod x y sin x cos x tan x sqrt x In x log x exp x asin x acos x atan x abs x sign x min x y max x y mean x y Offset and Gain values References to Offset and Gain have to be used like amp Offset 0 They have to be indexed with values as defined in Info Hsa3500 gt HardwareType In the normal case of one HSA this index can only be zero For multiple HSAs e g HardwareType z 0 60 1 61 2 62
22. should get a measurement of approximately 710 Volts The LEDs on the front panel should be lit as follows Power on CAN green HV on and all of the other LEDs should not be lit at all If you now pull out one of the interlock plugs the Voltage should immediately shut off and the Interlock LED on the front panel should start blinking If you now con nect this plug again the Voltage should be present and the Interlock LED should go out The command help will show a list of available commands see below gt help Commands val 524288 524287 adc slot channel slot 0 15 channel 0 12 dac slot chn val slot 0 15 channel 0 2 calibrate num Calibrate DACs num times HSA3500 HSA3500 plus Power Supply SPECS echo lt Text gt Prints lt Text gt errors Show Error Counters exit Terminate Program help Show this Text hvoff Disable HV hvon Enable HV list List Module Slot Contents mode Mode Def Define and set Mode Enter help mode for Help on Mode Def pmode mode Set predefined Mod mode 0 109 Sleep time Sleep time Seconds wait Wait for RETURN Key gt The exit command will cause the program to disconnect the CAN bus connection to the Unit and the program will then terminate 4 4 1 Commands Explained adc slot channel Reads out the A
23. 10 400V to 1 Oxoa gt 400V 1 1 0x24 40V to 0x00 40V 1 0x20 Table 29 HSA3500 0xe1 Operation Modes HSA3500 HSA3500 plus Power Supply 49 Appendix S PEC S e 4 1 3 Oxd1 3 5kV unipolar HSA3500 module Channel ADC name Description DAC Output Pin 0 N A N A N A 1 Mon UO Voltage Output 0 26 2 Mon U1 Relay Output 1 20 3 Mon U2 Relay Output 2 14 4 N A N A N A 5 N A N A N A 6 Mon Total current 7 N A N A N A Table 30 HSA3500 Oxd1 ADC mapping Voltage Range Q2 Q1 QO Hex Relay Out Relay Out Range 2 1 x 0x00 1 x 0x02 0V to 3500V 1 x 0x04 1 1 x 0x06 Table 31 HSA3500 0xd1 Operation Modes 50 HSA3500 HSA3500 plus Power Supply SPECS 4 1 4 Oxb1 150mA bipolar HSA3500 module Channel ADC name Description DAC Output Pin 0 N A N A N A 1 Mon U Output 26 2 Mon Output 26 3 N A N A N A 4 N A N A N A 5 N A N A N A 6 N A N A N A 7 N A N A N A Table 32 HSA3500 Oxb1 ADC mapping Note No Operation Modes exist The Operation Mode is defined by 0 HSA3500 HSA3500 plus Power Supply Appendix S PEC S 8 4 1 5 0x04 3 5kV Lens bipolar HSA3500 plus module Channel ADC name Description DAC Output Pin 0 Mon U1 Relay Output 1 20 1 Mon U2 Relay Output 2 14 2 Uerr 3 Mon 10 Total current 4 Mon UO Voltage Output 0 26 5 N A N A N A 6 N A
24. 200 eje CAN CFG Ethernet e Figure 1 Rear Side of the EC10 sP Cs 4 9939 24V RS 232 Figure 2 Front Side of the EC10 1 6 2 Connectors diagnostic LEDs and switches Each connector LED and switch is labelled and their purpose is described below Label Type Description Ethernet RJ45 Ethernet Network Connector CAN DB9 connector male CAN Bus Connector HSA3500 HSA3500 plus Power Supply SPECS CAN DB9 connector female CAN Bus Connector RS 232 DB9 connector female Serial port Not used in normal operation Do not connect anything to this connector 24V DC socket Connector for external power supply Not used in normal operation Power supply is provided via the CAN Bus TX LED green Ethernet transmit activity indicator This LED will flash while the EC10 is transmitting data on the network LNK LED green Ethernet link indicator This LED will flash if the data link between the EC10 and the HUB switch is estalished RX LED yellow Ethernet receive activity indicator This LED will flash while the EC10 is receiving data from the network ONL LED red This LED will flash while the PC software is connected to the EC10 e g while SpecsLab is running CAN LED green CAN Bus activity indicator This LED will flash while the EC10 receives or transmits CAN Bus packets SER LED yellow S
25. A3500 plus Power Supply 1 Introduction SPECS Every module is calibrated with a high precision voltmeter by SPECS That means the DAC values are assigned to voltages or current values and stored in the EEPROM flash from the module 1 3 Physical Specifications Size L x W x H 45cm x 32cm x 50cm Weight Data Connection approx 15kg depending on configuration CAN Bus 500 kBaud Line Input 100V 250V 47 63Hz The HSA3500 plus has 5 additional modules with specifications given below 3 5kV Bi Lens 3 5kV Bi 3 5kV Uni 400V Bi CPU 150mA Analy Resolution 20 Bit 20 Bit 16 Bit 20 Bit 13 Bit DACs 1 1 1 3 1 Relays 2 2 1 0 0 Ranges 4 2 1 3 1 TK 2 5 ppm 1 5 ppm 2 5 ppm n a Long Term 400 ppm 50 ppm 50 ppm one year operation These individual modules also have their own voltage characteristics 400V Bi Range 400V 20V 100V 10V Step size 805uV 125uV 20uV Noise with filterbox lt 200V lt 250V 3 5kV Bi Lens Range 3500V 1500V 600V 150V Step Size 7 2mV 3 1mV 1 27mV 318uV Noise with filterbox lt 850uV 400pV lt 100UV 50pV 2 HSA3500 HSA3500 plus Power Supply SPECS 3 5kV Bi Analy Range 3500V 1500V Step Size 7 1mV 1 7mV Noise with filterbox lt 600UV lt 500pV 1 4 Safety Instructions Before performing any el
26. Cmd 0x00 Even Even Even Even Even Even Even gt Total Fatal setup tCoun tCoun tCoun tCoun tCoun tCoun tCoun Error Code Error Code ter 0 ter 1 ter 2 ter 3 ter 4 ter 5 ter 6 Nothing detected Nothing detected Nothing detected Nothing detected Nothing detected ErrCode 0x00 Error Counter 0 0x00 0x00 Oo D Er O EEN oC Error 0x00 Error 0x00 Error 0x00 Error 0x00 FatalErr 0x00 0x00 The example below shows the output for the following actions e Setting a mode the High Voltage is turned on e e the Voltage Monitor of the Analog to Digital Converter of Module 4 is read out e the DAC of Module 4 is set to 50000 then 10000 each time reading the value at the ADC HSA3500 HSA3500 plus Power Supply 67 Appendix 68 SPECS If you connect a High Voltage Probe Voltmeter designed for High Voltages to the BIAS terminal on the Unit s back plate it is possible to measure the High Voltage It goes without saying that you should be very careful when working with High Voltages gt mode 0 gt hvon gt adc 4 ADC 4 1 96 gt dac 4 0 50000 gt adc 4 gt dac 4 0 100000 gt adc 4 ADC 4 1 6080 gt 0xffa0 ADC 4 1 3184 0xf390 0x17c0 If a voltmeter is connected at the BIAS terminal at the back plate of the Unit you
27. DC channel of Module siot The channel assignments are de scribed in the section dac slot chn val Set the channel of Module lt slot gt of the DAC to the value val The DACs are signed 20 bit converters meaning the first bit represents whether the value is posit ive or negative Said another way the value range possible with these 20 bits is 2 to 2 1 or in decimal 524288 to 524287 This command is only possible when the Unit is set in operation mode via mode and the High Voltage is on via hvon HSA3500 HSA3500 plus Power Supply 69 Appendix 70 SPECS calibrate lt num gt Hardware calibrate all of the DACs of the Unit Specify how many times num the calibration procedure should be run Each run requires 0 4 seconds A typical value here would be 30 echo Text displays the string of text Text on screen This command is typically used when running automated scripts errors returns a list of error codes which are described in the section exit ends the program help mode provides a short description of the command s syntax help mode will describe the mode command hvoff Turns off the High Voltage hvon Turns on the high voltage This can only occur once an operation mode has been defined with mode list provides a list of detected modules and their respective states For more information please see section mode Mode Def Sen
28. ModeDef section An example for a Macro section is Macro AnalyzerVoltages DacVoltage MacroGroundPlate DacId 11 1 MaxStep 45 0 OperationMode 2 Formula 0 36 HSA3500 HSA3500 plus Power Supply SPECS 3 2 10 8 ModeDef Sections The configuration file must contain a ModeDef section for each HSA3500 mode this is typically a lens mode in a special voltage range This section contains all in formation required by the software to activate and operate a HSA3500 mode The most essential data are the calculation formulas for all DAC voltages used in a mode as described in the DacVoltage subsections All these sections and subsections can be declared by inheritance Entry Type Description ShortName string optional Short name for the HSA3500 mode for use in the control software user interace MinRR double optional Minimum value for the retardation ratio Ekin WF Ep in this mode Used to determine which logical voltage settings are vaild Default 1 0 ignored for negative values MaxRR double optional Maximum value for the retardation ratio Ekin Ep in this mode Used to determine which logical voltage settings are valid Default 1 0 ignored for negative values Hidden optional If set this mode is disabled by the control software software until it is explicitly enabled in the program options Default false LogicalVoltage optional multiple Describe th
29. Output 2 14 3 Mon U1 Voltage Output 1 20 4 Mon UO Voltage Output 0 26 5 Mon IO Current Output 0 26 6 Mon I1 Current Output 1 20 7 Mon I2 Current Output 2 14 Table 37 HSA3500 plus 0x24 ADC mapping DAC Module voltage Q3 Q2 Q1 QO Hex range Range 10V Range Range Range value DACO DAC1 DAC2 400V to 400V 1 0x01 100V to 20V 0x00 400V to 400V 1 0x02 100V to 20V 0x00 400V to 400V 1 0x04 100V to 20V 0x00 0 1 2 10V to 10V 1 x x x 0x08 Table 38 HSA3500 plus 0x24 Operation Modes Notice If you use the 10V range the high voltage stage at the module is off voltage ripple is then very small That means the range bits Q0 Q1 Q2 are don t care 54 HSA3500 HSA3500 plus Power Supply SPECS 4 1 8 0x34 3 5kV unipolar HSA3500 plus module Channel ADC name Description DAC Output Pin 0 Mon U1 Voltage Output 1 20 1 N A N A N A 2 Uerr 3 Mon Total current 4 Mon UO Voltage Output 0 26 5 N A N A N A 6 N A N A N A 7 N A N A N A Table 39 HSA3500 plus 0x34 ADC mapping Module Q2 Q1 QO Hex Relay Out 1 Range Range 0 1 x x 0x00 0V to 3500V 1 x x 0x04 Table 40 HSA3500 plus 0x34 Operation Modes HSA3500 HSA3500 plus Power Supply 55 Appendix SPECS 4 1 9 0x44 150mA bipolar HSA3500plus module Channel ADC name Descri
30. V Analyzer bipolar 0x24 400V bipolar 0x34 3 5kV unipolar Table 7 HSA3500 plus modules HSA3500 HSA3500 plus Power Supply 11 Introduction S P E C S R 1 10 HSA Ranges The SPECS power supply HSA3500 has one main CPU and four modules with different voltage ranges Smaller voltage ranges has always a better resolution See Table 8 for details The SPECS power supply HSA3500 plus has one main CPU with current mod ule on board and four modules with different voltage ranges See Table 9 for details Type Module Min Voltage Max Voltage Main CPU Oxf1 3 5kV 3500V 3500V Oxf1 3 5kV 1500V 100V Oxe1 400V 400V 400V Oxe1 400V 40V 40V Oxd1 3 5kV uni 0 1V 3500V Oxb1 150mA OmA 150mA Table 8 HSA3500 Ranges Type Module Min Voltage Max Voltage Main CPU OmA 150mA 0x04 3 5kV Lens 3500V 3500V 0x04 3 5kV Lens 1500V 1500V 0x04 3 5kV Lens 600V 600V 0x04 3 5kV Lens 150V 150V 0x14 3 5kV analyzer 3500V 3500V 0x14 3 5kV analyzer 1500V 100V 0x24 400V 400V 400V 0x24 400V 100V 20V 0x24 400V 10V 10V 0x34 3 5kV unipolar 3500 100 Table 9 HSA3500 plus Ranges Don t mix HSA3500 modules with HSA3500 plus modules in the same device 12 HSA3500 HSA3500 plus Power Supply SPECS Chapter Using the HSA 2 1 Installation For installation see PHOIBOS Manual SPECS order number 78 000 101
31. Version Comment Version lt version number gt 3 2 7 Sections Sections are the basic information containers in the HSA configuration file Each sec tion has a type describing which kind of information the section contains and must have a unique name Sections contain entries with information and may contain sub sections A section may have an empty name In this case the parser will associate the section with an unique name and the section can not be referenced within the configuration file The order of the sections in the configuration file is not relevant but a section refer ence can be only made to named sections which appear earlier in the file Sections looks like First Comment Position lt section type section name section reference Second Comment Pos Third Comment Position Fourth Comment Position Entries lt subsection type subsection name subsection reference HSA3500 HSA3500 plus Power Supply HSA config files hsa S P E C S R If a section has an empty body because it is inherited or all entries have default val ues the brackets can be omitted 3 2 8 Entries An entry is a single line of information contained in a section Each entry has a sec tion wide unique name a type and a value The type of an entry determines the pos sible values Type Example string exp x Ekin boolean WAHR unsigned l
32. and backplane interconnectivity Each com bination constitutes a hardware type Each hardware type can be configured to function in one of a number of ways depend ing on how switchable outputs voltage polarity and levels are set These settings are communicated to each card s control processor according to the specifications which the main CPU extracts from the configuration file HSA3500 HSA3500 plus Power Supply 27 HSA config files hsa S P E C S R 3 2 Nomenclature In this chapter we use the following terms to describe the HSA3500 plus Power Sup ply 3 2 1 Mode 1 An HSA3500 mode corresponds to an interconnection configuration and par ticular voltage level and polarity settings for each card 2 A voltage or energy which can be set by the control software is called a lo gical voltage Each logical voltage must be defined before it can be used in a HSA3500 mode definition The range and the step size of the logical voltages can be different for different mode definitions Voltages with fixed values within the configuration file can not be set by the control software 3 2 2 DACVoltage The various voltages are supplied by a HSA3500 HV module via a digital to analog converter The output voltages results from the DAC voltages modified by the back plane interconnections All DAC voltages must be defined in a HSA3500 mode 3 2 3 Natural Cubic Spline A spline is a series of cubic polynomials Each cubic polynom
33. andatory above default 0 0 can be overridden in a ModeDef HSA3500 HSA3500 plus Power Supply 35 HSA config files hsa SPECS Entry Type Description section MinValuePP double Same as MaxValue but used in the ion operation optional mode positive polarity Can be overridden in a ModeDef section MaxValuePP double Same as MaxValue but used in the ion operation optional mode positive polarity Can be overridden in a ModeDef section Step double Minimal step width the logical voltage can be mandatory changed The value depends on the DAC resolution the DAC voltage calculation and the hardware wiring default 0 0 can be overridden in a ModeDef section Table 21 LogicalVoltageDef section description 3 2 10 7 Macro Sections This section has no entries and contains only prototypes to be used in ModeDef sections by reference For following ModeDef subsections a Macro section can contain protopypes Entry Type Description LogicalVoltage optional Can be referenced from LogicalVoltage subsection multiple definition in a ModeDef section DacVoltage optional Can be referenced from DacVoltage subsection multiple definition in a ModeDef section SlotHVOff optional Can be referenced from SlotHVOff subsection multiple definition in a ModeDef section Spline optional Can be referenced from Spline subsection multiple definition in a
34. ck ic ER RR ERREUR ARRA IR HERR ERROR dE Russ 13 2 2 Software for Interfacing with the HSA 14 HSA3500 HSA3500 plus Power Supply Table of Contents S P E C Q 23 tee TE Le EE 14 2 3 1 Diag Tool iii 15 2 3 2 Connection check for the analyzer electrodes 18 2 3 2 1 Check all analyzer HSA voltages 18 2 3 2 2 Fast Check of Voltage Ranges energy scale 19 2 3 2 3 Check set offset and gain with voltmeter 20 2 3 2 4 Fast check of all applied voltages 21 2 3 3 Checking the Analyzer Voltages with Custom Setttings 26 3 HSA config files hsa 27 3 1 What are HSA3500 Configuration Files 27 3 2 Nomenclature 28 3 2 1 Jp T eee 28 3 2 2 DACMoltage A 28 3 2 3 CH een 28 3 2 4 Syntax and Encoding is 28 3 2 5 Seul cm R 29 3 2 6 Header 29 3 2 7 SECTIONS H le 29 3 2 8 gre 30 3 2 9 yet EUER 30 3 2 10 Sections and Layout see rnnt apa aai ea aana 31 3 2 10 1 INFO SECTIO 31 3 2 10 2 SplineList Section aire rx n Cei ERR et Siena taoa 32 3 2 10 3 LogicalVoltageList Section 32 3 2 10 4 Mode list Section aues eiecti peti rera eeu RARE EnA 33 3 2 10 5 SplineDef section iii 34 3 2 10 6 LogicalVoltageDef Sectlons nenne 34 3 2 10 7 Macro SeCtielSuu MM 36 3 2 10 8 ModeDef Sections 37 3 2 11 Adding Custom
35. ds the mode s definition to the Unit and activates this mode Mode Def is a comma delimited list of Mode definitions per Module These definitions consist of an optional exclamation mark and a hexadecimal number The Hexadecimal num HSA3500 HSA3500 plus Power Supply SPECS ber corresponds directly to the status of the relays of the module The functions of the relays themselves are explained in the appendix When an exclamation point is in front of the Hexadecimal number the High Voltage generation for this module will remain switched off Otherwise it will be turned on Turning off the High Voltage is a good idea when you only want to use the relays of one and only one module The assignment of individual definitions to a correspond ing module number is carried out via the position of that assignment in the list be ginning with 0 Modules that are not required or are not present should have an empty definition The following examples can explain this paragraph better mode 1 Module 0 Mode 1 HV on mode 1 Module 0 Mode 1 HV off mode Or 7 1 Module 2 Mode 0 HV on Module 3 Mode 7 HV off Module 5 Mode 1 HV on pmode mode Sets mode mode whose definition exists in NVRAM mode is a decimal number between 0 and 109 This option is not longer supported Sleep time Pauses the Program s execution for time seconds This command is usually only required for use in scripts
36. e values of a global defined logical voltage are overridden in this HSA3500 mode for details see below SlotHVOff optional multiple In some modes an existing HSA3500 power supply is not used to generate any output voltage but its relays must be configured This is done by this sections This is also the only way to delete a DAC voltage definition inherited by a parent ModeDef section for details see below DacVoltage optional multiple Describe a DAC voltage generated by the HSA3500 in this mode for details see below Table 22 ModeDef section context HSA3500 HSA3500 plus Power Supply 37 HSA config files hsa SPECS Entry Type Description MappedToDacld string optional Overrides the value of the MappedToDacld entry in a global LogicalVoltageDef section with the same name for this HSA3500 mode MinValue double optional Overrides the value of the MinValue entry in a global LogicalVoltageDef section with the same name for this HSA3500 mode MaxValue double optional Overrides the value of the MaxValue entry in a global LogicalVoltageDef section with the same name for this HSA3500 mode MinValuePP double optional Overrides the value of the MinValuePP entry in a global LogicalVoltageDef section with the same name for this HSA3500 mode MaxValuePP double optional Overrides the value of the MaxValuePP entry in a
37. ectrical or electronic operations please consult SPECS Safety Instructions and follow them closely Please consult as well any documenta tion of supplied material from third party manufacturers before any operation and strictly follow the safety instructions given therein 1 5 Initial Inspection and Packaging List Visual inspection of the component is required to ensure that no damage has oc curred during shipping Should there be any signs of damage or parts missing con tact SPECS immediately Please check the delivery according to the packaging list for completeness Quantity Item 1 HSA3500 or HSA3500 plus 1 Printed HSA3500 Manual 1 Power cord 200V or 115V 2 CAN Bus cable 2 CAN Bus terminator 2 HV cable Channel HV Channel Base 1 HV cable Screen optional 1 HV Interlock override connector 1 EC10 Can Ethernet Adapter ech Ethernet cable 1 Specification sheet optional Table 1 Packaging List of the HSA HSA3500 HSA3500 plus Power Supply 3 Introduction SPECS 1 6 EC10 Can Ethernet Adapter 1 6 1 Introduction The EC10 is an external CAN Bus adapter for the PC It is connected to the PC via an ethernet network The PC s access to CAN Bus controlled devices like the HSA is provided by the EC10 and the communication between PC and EC10 is handled by the standard TCP IP network protocol Je CAN 4 Ethernet CAN Adapter EC 10 11 902
38. erial interface activity indicator This LED will not flash in normal operation PWR LED green Power indicator This LED will flash as long as 24 Volt power is applied to EC10 CFG Push button This button is used to initiate the con figuration of the IP Address by the use of EC10Config program The usage of EC10Config is described in QuickGuide EC10 pdf Table 2 LEDs and Connectors of the EC10 At power up the EC10 will execute a self test sequence that is indicated by quickly 300 Milliseconds flashing the diagnostic LEDs PWR CAN ONL and SER If the self test is successful the PWR LED will remain on the other LEDs are turned off If the self test fails the PWR LED will blink with a frequency of 2 Hertz and the other LEDs will indicate the reason of failure In this case the device will not be operable and should be returned to SPECS for service HSA3500 HSA3500 plus Power Supply Introduction SPECS If no LED flashes at all the presence of the 24 Volt power supply should be checked Contact SPECS for furter advice 1 6 3 Power Requirements The EC10 needs a 24 Volt supply voltage Usually this voltage is provided by the HSA via the CAN Bus cable A 24 Volt supply voltage can be fed to the EC10 via the DC socket labelled 24V at the front side of the housing as well The typical current drain of the device is 48 mA 1 6 4 Pin Setting of the CAN Bus Connector The Pin
39. es 6 Verzeichnis lt se gt 15 265 124 352 Bytes 6 4 3 3 7 3 3 3 3 3 gt 6 gt 3 3 3 3 3 6 3 3 gt 8 8 8 6 3 3 3 3 3 6 3 3 3 3 3 3 3 3 3 3 Ia 18 2008 D Programme SPECS XSpecsLab2 Xtools bin gt Figure 9 Start diag bat C ProgrammeNS pecs S pecsLab2 tools bin gt diag eth hat Found DLLParams with IP address ecan26 U3 2 Oct 36 2008 11 24 09 logfiles diag 9819 los 28 31 2a 2f 01 008 00 FU Version 6x6265 MacId 38 Hardware type 161 28 2 13 9b 94 61 66 66 x24 6x84 Mon Jul 14 14 43 23 2668 successful successful successful 156U DAC successful Slot 61 28 2a 6a 94 61 66 66 FU Version x24 0x04 Wed Jul 23 15 57 19 2008 3 6KU DAC successful 1 5KU DAC successful 666U DAC successful 156U DAC successful Testing Slot KI Serial number 28 52 7f 94 61 66 66 FW Version x2 Figure 10 DiagTool command box HSA3500 HSA3500 plus Power Supply 17 Using the HSA E diag log Editor E D xj Datei Bearbeiten Format Ansicht 2 hsas500diag version 3 0 Jun 13 2008 13 41 34 Testing MainBoard unit ID 28 7e 8a 94 01 00 00 Fw Version 0x0201 Status 0x01 uprime 13 128 seconds MainBoard Temperature 31 875000 Centigrade Testing NVRAM of Main CPU NVRAM Contents Version 2 NVRAM Contents Hardware Type 101 NVRAM Contents Time stamp wed Feb 20 11 55 51 2008 Reading config file HsaRawlOl dat successful Testing slot 0
40. es are taken from the ref erenced section rather then from global defaults 3 2 10 Sections and Layout The following section names have special properties and can only exist once in the HSA3500 configuration file Typical inheritance functionality therefore does not ap ply to them Info SplineList LogicalVoltageList ModeList SplineDef LogicalVoltageDef MacroDef ModeDef oN mm w N 3 2 10 1 Info section This section contains general information An example for an Info section is Info HSA3500 the section name is empty HardwareType 1 HardwareName HSA3500 CCD with deflector only for information FileFormat 5 ModeParts Lens Mode Range standard mode name schema HSA3500 HSA3500 plus Power Supply HSA config files hsa S P E C S R Entry Type Description HardwareType unsigned long Used to validate that the configuration file mandatory matches the actual HSA hardware HardwareName string A hardware describing text for optional information purposes only FileFormat unsigned long File format number current value is 5 mandatory ModeParts string Format lt part 1 gt lt part2 gt lt part n gt optional describing of what parts a mode name is composed of Default value is Lens Mode Range Table 16 Info section description 3 2 10 2 SplineList Section This section contains a sequence of all spline definitions in the configuration
41. essage from the Unit This error message will be seen when the program receives an unexpected message or error from the Unit In these situations the fields Cmd lt ErrCode gt and lt FatalErr gt can provide more information about the nature of the problem HSA3500 HSA3500 plus Power Supply 73 Appendix S P C S e 9 At program runtime a Duplicate MAC ID Message was received from the Unit Possible causes e The Unit was turned off and then on again while the program was running e Unit rebooted as a result of some other error typically a defective hardware component 74 HSA3500 HSA3500 plus Power Supply SP CS RRS SRT EN SPECS C e EEC Declaration of Conformity We SPECS GmbH herewith declare that the products defined below meet the basic requirements regarding safety and health of the relevant EC directives by design type and versions which are brought into circulation by us In case of any product changes made without our approval this declaration will be void Designation of the products Types 100 and 150 Hemispherical Electron Analyzer Analyzer PHOIBOS Power Supply HSA 3500 Detector Channeltron Detector with PCU 300 counting electronics The products conform to the following directives m EC Directive on Low Voltages 73 23 EWG m EC EMC Directive 89 336 EWG Applied harmonized standards m DIN EN ISO 55011 08 03 W DIN ENISO 55022 09 03 m DIN EN ISO 61000 94 98 DIN
42. global LogicalVoltageDef section with the same name for this HSA3500 mode Step double optional Override the value of the Step entry in a global LogicalVoltageDef section with the same name for this HSA3500 mode Table 23 LogicalVoltage subsection in a ModeDef section Entry Type Description Slot unsigned long optional Number of the HSA3500 slot containing a HSA35000 power supply module which should not generate any DAC voltage in this mode If there exists a DacVoltage definition with a name matching the first part of the SlotHVOff definition their slot number is taken over OperationMod e unsigned long optional Operation mode of the unused HSA3500 power supply necessary if the module contain relays needed in this mode If there exist no DacVoltage definition with a name matching the first part of the SlotHVOff definition this entry is mandatory Table 24 SlotHVOff subsection in a ModeDef section HSA3500 HSA3500 plus Power Supply SPECS Entry Type Description Dacld string Identifies the DAC generating the DAC voltage The string must optional have the format HSA no gt lt SLOT no DAC no lt HSA no gt is the number of the HSA and can be left out in case of only one HSA The HSA numbers are defined in Info Hsa3500 gt HardwareType lt SLOT no gt is the number of the HSA3500 slot containing the
43. i bat for a PCl card or diag isa bat for an ISA Card The log file containing the results will be saved in the folder logfiles Calling the diag tool more than once will create multiple logfiles with suffxies 1 2 and so on Logfiles will never be overwritten DiagTool started the procedure and shows results error warning or success ful for every mode and module on the command box see Figure 10 You get a summary for all errors at the end of this test If you need detailed information see Figure 11 about the measured results open SpecsLab2 tools bin logfiles diag xxx log The highest number from log file e g diag 009 log is the latest one HSA3500 HSA3500 plus Power Supply sii ES Uo lumeseriennummer EG65S 3G6A 7 Verzeichnis von D Programme SPECSNS pecsLab2 tools bin 16 11 2663 lt DIR gt 2 lt DIR gt boxcalib exe anio eth bat anio is bat canio pci bat canio exe canlog eth bat ccprog eth bat ccprog isa bat ccpros pci bat ccprog bat ccprogram exe config countertool _exe diag eth hat diag isa bat diag pci bat diag e eciG ping bat Firnvare fvprg exe getUoltages bat hsa3SGGcalib exe hsa35080diag exe hsa35808prog exe hsa358080tool e xe logfiles offscript enee prog eth bat a bat bat prog bat script sleep exe test3ku scr test Au cr testhsa35080 scr testho scr tool eth bat tool isa bat tool pci bat tool bat PM 40 wait bat 38 Datei lt en gt 597 244 But
44. ial goes through a set of consecutive values The cubic polynomials are adjoined continuously and smooth If the second derivatives at both endpoints are zero the spline is called a natural cubic spline Natural cubic splines are used in the HSA3500 configuration file to describe nonlin ear relations between logical voltages and DAC voltages 3 2 4 Syntax and Encoding A HSA3500 configuration file is an ASCII text file Each file contains a fixed header and a sequence of sections Comments may appear throughout the file 28 HSA3500 HSA3500 plus Power Supply SPECS 3 2 5 Comments The start of a comment is marked by the character i Any text between the and the end of line is ignored by the configuration software The character may not be used elsewhere in the configuration file not even within strings 3 2 6 Header The very first line of the header hsa identifies the file as a HSA3500 configura tion file The following lines contain information about the name of the configura tion file and its version The name doesn t need to match the file name and is used only to identify the configuration file to the user The version number is tested by the control software to support changes in the HSA3500 configuration format The header may also contain comments in any line after the first line A HSA3500 configuration file header looks like hsa Header Comment Name lt configuration name gt
45. is 6 Pais Sp 8 8 E 10 10 12 12 M x D 16 16 am IS 20 X 20 TENE 22 2 24 24 24 24 Ze 26 T9 CH HV EG H 26 i Alle Erdsyi D 32 D PE zu f hren n 32 2 2 Hz gees Tm y y Eine Lem 5 JIXTsHV ITXTSAV TIXTSRV Erdungssct Alle ander 4 SHV Buche Scri Buskabel 3 900 500 03 Ut Figure 23 HSA3500 plus Wiring Backplane X4 Netzkabel Netfilter 90050002 U1 Ba sw m HSA3500 HSA3500 plus Power Supply 63 Appendix 64 SPECS 4 3 The Filterbox cable The filterbox cable is the connection between the HSA and the PHOIBOS analyzer It consists on one end of two cables which are labelled Analyzer Lens and on the other there is a 12 Pin feedthrough It is shown in figure 24 4 3 1 Interlock connections For all HSA hardware types there are safety interlocks in the cable so that the voltages are only applied if the cable is connected These interlocks are as follows Both Connectors C1 and C2 have to be connected to ground Analyzer Connector A2 and A3 have to be connected to B1 4 3 2 Pin Assignment Figure 24 shows the pin assignment of the 12 PIN UHV feedthrough connector The relation between the two 30 pin and the 12 pin connector is as given in table 43 and 44 12 Pin 30 Pin Lens 2 B4 3 A3 5 C5 6 B6 7 B8 8 A7 12 C3 Table 43 Lens connector HSA3500 HSA3500 plus Power Su
46. is chapter provides a guide for troubleshooting problems with the HSA Possible problems fall into three categories 1 2 14 More than one beep after switching the HSA on Incorrect hardware type Module is in wrong slot or module is missing Error LED red on front panel is on Recalibrating from one or more modules faulty HSA3500 only No firmware CAN Bus error HSA3500 HSA3500 plus Power Supply SPECS 3 Inobservable errors No output voltage Incorrect or old firmware Internal ADC damaged 2 3 1 Diag Tool To make sure the HSA works correctly it might be a good idea to call the the dia gnostic tool Diag Tool from time to time to ensure proper working of the device For troubleshooting purposes this is also the first thing to do This tool can check the HSA module by module and write the result to a ASCII log file For imaging detectors CCD and DLD do not perform this test with detector cables CHV CB Screen or DLD plugged in since the high voltages applied during the tests could destroy them Also the voltage limiter box diode box should be disconnected so that no wrong error messages are produced The Diagnostic Tool Diag Tool gets the hardware type e g 101 from the HSA Main CPU and reads the test file e g HsaRaw101 dat All information mode relays modules about the test is stored in this file The next test is to check every module in every mode in the HSA with the foll
47. lation The procedures described in this chapter are only necessary for service and or fine tuning To calibrate the voltage modules with a high voltage probe 1000 1 and a voltmeter you have to set the kinetic energy and the workfunction via software HSA3500 Jug gler or FixedEnergies mode in SpecsLab2 For the offset calibration set all to zero do not forget the work function For the gain calibration please set as close to the end of the module range as possible 1 Naw Fw 10 11 12 Warm up the HSA for at least 30min Switch off and on again to reboot and force a startup calibration Use the HSA3500 Juggler program to set all voltages or define a region in SpecsLab2 with the analyzer mode FixedEnergies and a sufficient number of values the product of values multiplied with Dwell Time defines the time for the measurement in this FixedEnergies mode Set the workfunction in the region to zero Set the kinetic energy and pass energy Set the multiplier voltage to 0 V for your safety Run a spectrum in FixedEnergies mode or apply the setting with the Juggler Check the spectrometer output voltage Uo of the HSA analyzer box pin9 fig ure 24 page 65 with Uo Ekin Ep WF For the high voltage ranges 1500V and 3500V use the HV probe Change the offset value for the selected energy range in the Analyzer Set tings menu Depending on the software version the HSA can reboot after confirmation of the se
48. length but must be written as a single line of text An example for a SplineDef section is SplineDef MyLensMode T2 Points 1 0 90 5 3 0 7 3 78 110 4 5 20 6 0 gt 100 7 3 150 6 0 Entry Type Description Points point A list of RR NL pairs where RR is the retarding ratio sequence Ekin WF Ep and NL is a nonlinear factor used in mandatory the lens voltages definitions The spline will be called as MyLensMode_T2 Ekin WF Ep and would return an interpolated NL value Table 20 SplineDef section description 3 2 10 6 LogicalVoltageDef Sections A section of this type defines a logical voltage which can be set up by the control software A defined logical voltage is valid for any HSA3500 mode but some of the LogicalVoltageDef section entries may be overridden with new values in a HSA3500 mode definition An example for a LogicalVoltageDef section is LogicalVoltageDef Kinetic Energy ShortName Ekin HSA3500 HSA3500 plus Power Supply SPECS Unit eV AdjustOnly fa AnalyzerOnly MappedToDacId PolarityFlip StandbyValue StandbyGroup lse true 9 0 true 0 0 1 this means HSA3500 slot no 9 DAC no 0 Step must not defined the software can calculate this by MappedToDacId Entry Type Description ShortName string Gives a short name for use in the control software mandator
49. lso not have same outputs at the connector So please be careful and pay attention HSA3500 HSA3500 plus Power Supply 47 Appendix S P E C S e 4 1 1 Oxf1 3 5kV bipolar HSA3500 module Channel ADC name Description DAC Output Pin 0 N A N A N A 1 Mon UO Voltage Output 0 26 2 Mon U1 Relay Output 1 20 3 Mon U2 Relay Output 2 14 4 N A N A N A 5 N A N A N A 6 Mon Total current 7 N A N A N A Table 26 HSA3500 Oxf1 ADC mapping Voltage range Q2 Q1 QO Hex value Relay Out Relay Out Range 2 1 0x00 3500V to 3500V 2 1 0x04 1 1 0x06 1 0x01 1500V to 100V 1 1 0x05 1 1 1 0x07 Table 27 HSA3500 Oxf1 Operation Modes 48 HSA3500 HSA3500 plus Power Supply SPECS 4 1 2 Oxe1 400V bipolar HSA3500 module Channel ADC name Description DAC Output Pin 0 N A N A N A 1 Mon UO Voltage Output 0 14 2 Mon IO Current Output 0 14 3 Mon U1 Voltage Output 1 20 4 Mon I1 Current Output 1 20 5 Mon U2 Voltage Output 2 26 6 Mon I2 Current Output 2 26 7 N A N A N A Table 28 HSA3500 0xe1 ADC mapping DAC Voltage Q5 Q4 Q3 Q2 Q1 QO Hex Range Fast Fast Fast Range Range Range value Slow Slow Slow DAC2 DAC1 DACH DAC2 DAC1 DACH 400V to 0x01 400V 1 1 0x09 0 40V to 0x00 40V 1 0x08 400V to 1 0x02 400V 1 1 0x12 40V to 0x00 40V 1 0x
50. nd for all possible combinatins of Ep Ek and detector voltages for all lens modes To use this script a installed version of the GNU AWK Interpreter is necessary This can be installed from the SPECSLab2 CD or can be downloaded from http gnuwin32 sourceforge net packages gawk html Open getVoltages bat in your favourite editor and adjust at least kinetic energy pass energy and lens mode Then call the script getVoltages bat by double clicking it from the explorer The script outputs the voltages at each PIN of the 12 Pin feed through and also the detector voltages Note The Screen voltage is only available from the power supply for CCD and DLD detectors HSA3500 HSA3500 plus Power Supply SPECS Chapter HSA config files hsa 3 1 What are HSA3500 Configuration Files For the analyzer power supply the hsa configuration file specifies in addition to the power supply wiring the individual DAC voltages in terms of relationships between lo gical voltages within the analyzer Kinetic Energy Pass Energy and assignments of logical voltages to DAC voltages Since the HSA configuration files define these map pings the functionality of the analyzer can be changed without recompiling the control software The backplane of the unit incorporates plug connectors which permit various intercon nection topologies among the different modules Each HSA power supply is manufac tured with a fixed combination of modules
51. ode IHP 1 Analyzer C3 3 33 3 33 3 33 T2 2 Lens B4 102 6 85 57 5 T3 3 Lens A3 33 8 10 235 OHP 4 Analyzer C7 14 14 14 TA T7 5 Lens C5 270 85 130 Not used 6 not used T8 7 Lens B8 9 5 9 50 T9 8 Lens A7 10 11 5 GP 9 Analyzer A9 10 10 10 IH 10 Analyzer A5 3 33 3 33 3 33 OH 11 Analyzer C9 14 14 14 Coil 12 Lens C3 Table 13 Voltages to Ground Ekin 20eV Ep 10 eV WF 0 PHOIBOS 100 150 R6 or higher for typical UPS applications HSA3500 HSA3500 plus Power Supply 25 Using the HSA S PEC S 26 T1 T10 Tube numbering IH OH Inner Outer hemisphere IHP OHP Inner and Outer Jost Plate Ep Ek Pass energy kinetic energy the workfunction should be set to zero to set the ground plate potential to the difference between the kinetic energy and the pass energy Coil Current PIN 12 can be used to feed the current to the trim coil of the outer hemisphere for details see the chapter Magnetic Shielding in the Phoibos Manual RR Retardation Ratio Ek Ep Table 14 Abbreviations Terminology The following hint is only needed if the above table with fixed kinetic energy and pass energy does not fit your needs 2 3 3 Checking the Analyzer Voltages with Custom Setttings The SpecsLab2 software suite also includes a small batch file called getVoltages bat located in the tools bin directrory this is in the same place located as the diag tool This program allows to output the voltages to grou
52. of Mode subsections Any mode defined in the configuration file but not contained in this list can be referenced within the file only The order of apperance in this sequence determines the order in the mode selection combo boxes of the control software This list makes it easy to disable a HSA3500 mode temporarily without removing its definition from the configuration file An example for a ModeList section is ModeList ExternalModes Mode HighMagnification 3 5kV Mode ediumMagnification 3 5kV Mode LowMagnification 3 5kV Mode HighAngularDispersion 3 5kV Mode MediumAngularDispersion 3 5kV Mode LowAngularDispersion 3 5kV Mode WideAngleMode 3 5kV Mode LargeArea 3 5kV Mode MediumArea 3 5kV Mode SmallArea 3 5kV Mode HighMagnification2 3 5kV Mode SmallArea2 3 5kV Mode ImagingMode 3 5kV HSA3500 HSA3500 plus Power Supply list of all external modes 33 HSA config files hsa 34 Mode HighMagnification 1 5kV SPECS Section Type Description Mode no body string optional Name of a HSA3500 mode definition Table 19 ModeList section description 3 2 10 5 SplineDef section Sections of this type define global splines witch can be referenced within DAC voltage definitions later in the configuration file This section has a single entry with name points its value is a sequence of the spline grid points The sequence can have any
53. ong 4 unsigned long sequence 1 2 3 4 5 6 double 0 63 double sequence 0 0098 0 0043 0 0001 0 0032 0 00076 point 12 00 34 08 point sequence 1 0 1 1 2 0 2 21 3 0 3 32 4 0 4 43 5 0 5 54 bit masks 0x00 0x34 0x45 0x66 0x07 section reference AnalyzerMacros Groundplate Table 15 Supported types The section type also determines whether an entry is mandatory or optional and whether it has a default value A section may not contain more than one entry with a given name Examples of entries are ShortName Ekin string value Unit V string value where quotes are omitted the value may not contain preceding or following blanks DacId 2 1 also a string value split into 2 long values after pars ing OperationMode 5 unsigned long value 3 2 9 Inheritance In order to minimize redundancy sections can be inherited from previously defined sections of the same type In this case all entries and subsections of the child section 30 HSA3500 HSA3500 plus Power Supply SPECS are initialized with the values from the referenced section This initialization can be overridden in the new section body Inheritance is declared by giving a section reference after the section name in the section declaration ModeDef LargeArea 1 5kV LargeArea 3 5kV the section body may be used to override some inherited values or sec tions If a section inherits from another section any default valu
54. owing procedure e Read basic information from module serial number firmware module type and calibration date e Set DAC voltage and read ADC in every mode and module e Show errors warnings and successful tests on display e Detailed information saved in logfile SpecsLab2 tools bin logfiles diag xxxx log 1 To check if the EC10 is reachable via the TCP IP connection call the script ec10 ping bat in the tools bin folder This tool pings the EC10 with the IP address set in the registry HKEY_LOCAL_MACHINE SOFTWARE SPECS DeviceNetServer DLLParams Note The ec10 ping tool can not be used for internal PCI or ISA CANBus cards HSA3500 HSA3500 plus Power Supply 15 Using the HSA d Registrierungs Editor D xl Datei Bearbeiten Ansicht Favoriten B Specs a Name Typ Wert Cl SystemDataBase ab Standard REG SZ 3 CCD Acquire ab DLL REG 32 EtherCan dll a CCDDetector a CCDDetector old Ca CCDDetector new CA CorbaServers mi CA DataBase DeviceNetServer DeviceNetServer 15kV y ILa v DLLParams REG 52 172 16 80 184 16 Arbeitsplate HKEY_LOCAL_MACHINE SOFTWARE Specs DeviceNetServer E Figure 8 Windows Registry editor Go to the SPECS tools bin directory by clicking the Link Tools in the folder Start gt SPECS Start the diag tool by selecting the appropriate diag bat file this is diag eth bat for an EC10 diag pc
55. pply SPECS 12 Pin 30 Pin Lens 1 C3 4 C7 9 A9 10 A5 11 C9 Table 44 Analyzer connector view from atmospheric side PIN 1 Inner Jost Plate PIN Tubus 2 PIN Tubus 3 PIN Outer Jost Plate PIN Tubus 4 7 PIN not connected PIN Tubus 8 PIN Tubus 9 PIN 9 Tubus 10 Ground Plate PIN 10 Inner Hemisphere PIN 11 Outer Hemisphere PIN 12 Coil 900 Gr Ur e oM Analyzer connector Figure 24 Schematics of the 12 pin analyzer feedthrough 4 4 HSA3500 Tool Warning When using this program it is possible for the unit to switch on dangerous High Voltage This voltage can also be present at the connector terminals of the back plate of the Unit HV Meter Connector HV BNC Connector It is therefore very im portant to not connect cables or make any contact touching or otherwise whatso HSA3500 HSA3500 plus Power Supply 65 Appendix 66 SPECS ever with the connector jacks during this process The only exception to this is the Interlock short circuit plug The program can typically be run using a batch file named something like tool xxx bat where xxx represents the type of CAN bus card in the PC For example tool isa bat for an ISA card in the PC older PC s or tool pci bat for PCI cards A log file is not written at this time The output of the program is always given with a leading symbol to indicate that this output is related to the p
56. ption DAC Output Pin 0 Mon U Output 26 1 Mon Output 26 2 N A N A N A 3 N A N A N A 4 N A N A N A 5 N A N A N A 6 N A N A N A 7 N A N A N A Table 41 HSA3500plus 0x44 ADC mapping Note No Operation Modes exist The Operation Mode is defined by 0 The 0x44 module is located on the main CPU 56 HSA3500 HSA3500 plus Power Supply SPECS 4 2 Hardware type and backplane wiring In order to be able to differentiate the various HSA has SPECS defined a hardware type and a backplane wiring Hardware Backplane Number Type Comments type wiring of of HSA modules 1 A B 9 HSA3500 Prototype 2 C 9 HSA3500 3 C 10 HSA3500 4 C 11 HSA3500 5 C 11 HSA3500 6 HSA3500 Internal only 7 D 9 HSA3500 Standard MCD old 8 D 10 HSA3500 9 D 10 HSA3500 10 D 11 HSA3500 11 E HSA3500 12 F 12 HSA3500 13 D 12 HSA3500 14 l 10 HSA3500 Standard MCD 15 l 11 HSA3500 Standard CCD 17 K 12 HSA3500 Standard CCD Defl 18 O 12 HSA3500 Standard MCD 2x400V 19 P 13 HSA3500 Standard CCD Defl Screen 20 l 11 HSA3500 Standard MCD 1x400V 21 l 11 HSA3500 Standard MCD Screen 22 7 HSA3500 23 R 13 HSA3500 Wide Angle 24 S 11 HSA3500 25 T 12 HSA3500 26 U 10 HSA3500 THEMIS 27 V 3 HSA3500 BIS HSA3500 HSA3500 plus Power Supply 57 M SPECS 50 H 11 HSA3500 Spin 60 L 9 HSA15000 Multi HSA 61 10 HSA15000 Multi HSA 62 N 4 HSA15000 Multi
57. r Supply 41 HSA config files hsa S P E C S amp DacId 7 0 OperationMode 3 Formula Ekin WF SEp spline LargeArea T8 S Ekin SWF SEp DacVoltage Lens5 DacId 6 0 OperationMode 3 Formula SEkin SWF SEp spline_LargeArea_T9 SEkin SWF SEp DacVoltage EkBase DacId 9 0 MaxStep 45 0 OperationMode 3 Formula amp Offset 0 amp Gain 0 SEkin SEp SWF Ekin Epass by hardware DacVoltage OuterHemisphere AnalyzerVoltages MacroOuterHemisphere DacVoltage GroundPlate AnalyzerVoltages MacroGroundPlate DacVoltage InnerHemisphere AnalyzerVoltages MacroInnerHemisphere DacVoltage OuterHemispherePlate AnalyzerVoltages MacroOuterHemisphere Plate DacVoltage InnerHemispherePlate AnalyzerVoltages MacroInnerHemisphere Plate DacVoltage ConversionVoltage DacId 0 0 MaxStep 45 0 OperationMode 3 Formula Ekin Uconv SEp SWF DacVoltage DetectorVoltage DacId 2 0 MaxStep 45 0 OperationMode 3 Formula Udet DacVoltage ScreenVoltage DacId 4 0 MaxStep 0 0 OperationMode 3 42 HSA3500 HSA3500 plus Power Supply SPECS Formula Uscr 3 2 11 Adding Custom Voltages Ekin Epass Edet Econv by hardware Sometimes it is desirable to add custom logical voltages to the config file The following example adds a bias voltage to lens tubus 2 1 Adjust to the LogicalVoltageList
58. ranges measurements 1500V 3500V a high voltage probe 1000 1 should be used to avoid an excessively high cur rent load gt voltage drop Mind the safety instructions given on page 8 Note the influence of the workfunction the spectrometer voltage Uo is nominal equal to Ekin Ep workfunction 2 3 2 2 Fast Check of Voltage Ranges energy scale Start a measurement in fixed energy mode or use the HSA3500 Juggler program see SpecsLab2 manual to check the voltages at the ground plate pin 9 of the analyzer connector figure 24 Schematics of the 12 pin analyzer feedthrough page 65 Range V Ek Ep PIN 9 Correct with analyzer settings 40 0 0 0 offset 40V range 40 40 1 39 gain 40V range 400 0 0 0 offset 400V range 400 400 10 390 gain 400V range Table 10 Vo tage energy scale check for 40V and 400V range Range V Ek Ep PIN 9 Correct with analyzer settings 1500 0 0 0 offset 1500V range 1500 1500 50 1450 gain 1500V range 3500 0 0 0 offset 3500V range 3500 3500 100 3400 gain 3500V range Table 11 Voltage energy scale check for 1500V and 3500V range with high voltage probe 1000 1 HSA3500 HSA3500 plus Power Supply 19 Using the HSA 20 SPECS 2 3 2 3 Check set offset and gain with voltmeter Adjustment and calibration of the power suppliy has been performed at the factory Normally no additional work is necessary after instal
59. rectives m EC Directive on Low Voltages 73 23 EWG m EC EMC Directive 89 336 EWG Applied harmonized standards W DIN EN ISO 55011 08 03 Industrial scientific and medical ISM radio frequency equipment Radio disturbance characteristics Limits and methods of measurement m DINEN ISO 61000 94 08 Electromagnetic compatibility EMC Part 4 2 A1 4 3 A1 4 4 4 5 4 6 4 8 and 4 11 W DIN EN ISO 61010 1 08 02 Safety requirements for electrical equipment for measurement control and laboratory use Part 1 General requirements B DINEN ISO 61326 1 05 04 Electrical equipment for measurement control and laboratory use EMC requirements Part 1 General requirements Applied national standards and technical specifications m DIN31 001 04 83 Sicherheitsgerechtes Gestalten technischer Erzeugnisse Schutzeinrichtungen Begriffe Sicherheitsabst nde f r Erwachsene und Kinder Berlin HAZ 20 5 OK LA Dr Oliver Schatf Head of R amp D Division Figure 26 HSA 3500 plus CE Conformity Declaration 76 HSA3500 HSA3500 plus Power Supply SPECS Chapter L F List of Figures Figure 1 Rear Side of the e LE 4 Figure 2 Front Side of the EC 4 Figure 3 CAN Bus Connector a common D US 9 eene enne nnne nennen nnns inertes nna 6 Figure 4 HSA3500 plus front panel iii 7 Figure 5 HSA3500 plus back panel iii 8 Figure 6 HSA General Internal Layout 10 Figure 7 Vacuum interlock conpnector sisi 13
60. rogram HSA3500 The program will attempt to make a CAN bus connection with the Unit If this should fail the program will terminate If successful the CAN bus LED on the front plate of the Unit will light up green and stay lit At this same time the program will provide information about this connection on screen for example Connected to Unit O0f 28 7 5 05 00 00 Firmware Version 0x0103 Status 0x01 UpTime 1331 266 Seconds HSA3500Tool Enter help for a List of Commands In the last row a greater than symbol will appear as a prompt The program is now ready to accept user input The following text is provided as an example ses sion At the prompt the command list is given and the resulting output is a list of the Modules that have been found recognized At the prompt the command er rors is given errors if exist PList Slot 0 Type 0xfl State 0x0020 Error 0x00 Slot 1 Type 0xfl State 0x0020 Error 0x00 Slot 2 Type 0xfl State 0x0020 Error 0x00 Slot 3 Type 0xfl State 0x0020 Error 0x00 Slot 4 Type 0xfl State 0x0020 Error 0x00 HSA3500 HSA3500 plus Power Supply SPECS Type 0xf1 State 0x0020 Type 0xf1 State 0x0020 Nothing detected Type 0xf1 State 0x0020 9 Nothing detected Slot 5 Slot 6 Slot 7 Slot 8 Slot Slot 10 Slot 11 Slot 12 SXot X35 Slot 14 Slot 15 gt gt errors Type 0xel State 0x0020 General 0
61. sa3500 HSA3500Analyzer loading HSA configuration from Aconfig Hsa3500CCDConfig 123 hsa where 123 denotes the hardware type of the HSA Check the config file without being connected 4 If no error messages are printed try to connect to the hardware by pressing Connect Now also no error messages should appear Note ConfigCheck can not check for user input errors wrong spline definitions wrong forumulas etc It can only check the syntax of the config file and that all the correct modules and DACs are referenced 44 HSA3500 HSA3500 plus Power Supply SPACS Phoibos HSA3500 Configuration Check SE IT GE Figure 13 ConfigCheck startup screen HSA3500 HSA3500 plus Power Supply 45 SPECS Chapter Appendix 4 1 HSA modules Every output of the module can be measured by the internal ADC It is possible to meas ure the voltages and the total current from every module without a load The ADC res olution is 12 Bit The configuration for HSA modules is shown in following tables Tips e The RelayOut Bits have to be 1 so that the relay is closed and 0 for it to be open e Fast Slow Bits are so encoded that 1 sets fast mode and 0 sets slow mode Usu ally one wants to use the fast mode e For increased readability empty values in the operation mode tables denote bin ary O e Bits which value do not matter are denoted by x Note HSA3500 and HSA3500 plus do not have the identical ADC channels and can a
62. setting of the CAN BUS connector is given in table 6 the naming is depicted in figure 3 CAN Bus Pin Name 1 24V 2 CAN Low 3 OV 4 24V 5 OV 6 7 CAN High 8 9 Table 3 Pin setting of the CAN Bus connector Figure 3 CAN Bus Connector a common DBUS 9 HSA3500 HSA3500 plus Power Supply SPECS 1 6 5 Galvanic Decoupling The CAN Bus connection is opto electrically decoupled The ethernet connection is magnetically decoupled The electrical strength of both decouplings is greater than 500 Volts DC 1 6 6 Propagation Delay The propagation delay is the time the EC10 needs to convert an ethernet packet into a CAN Bus packet and vice versa This time is approximately 190 microseconds in each direction The run time of the ethernet packet approximately 50 microseconds adds to this time 1 7 Front Back Panel Description w SPECS Error HSA 3500 plus Universal Power Unit Figure 4 HSA3500 plus front panel Label Description LED Scan green Currently measuring e g with SPECSLAB LED HV yellow The high voltage output is activated HSA3500 HSA3500 plus Power Supply 7 Introduction S P C S R LED Error red Error something not to specifications LED Interlock yellow This LED will be on if the vacuum interlock is en gaged LED CAN green This LED will blink while the HSA is not connected and will be on while
63. th the HV probe and compare them to the values in Table 12 on page 24 After measuring all voltages set the analyzer to the state Off in the HSA3500 Juggler close the Juggler and turn the HSA off 10 Wait for a few minutes 11 Remount the backplane HSA3500 HSA3500 plus Power Supply SPECS ua ABC ABC Figure 12 HSA3500 plus with opened backplane the pin numbers are indicated in the zoomed figure HSA3500 HSA3500 plus Power Supply 23 Using the HSA S PEC S Physical PIN PIN High Medium Low Large Meaning 12 pin 30 pin Magnification Magnificatio Magnificatio Area n n IHP 1 Analyzer C3 766 7 766 7 766 7 766 7 T2 2 Lens B4 660 2 751 7 556 8 708 T3 3 Lens A3 747 4 456 9 58 516 OHP 4 Analyzer C7 788 788 788 788 0 T4 T7 5 Lens C5 719 9 757 9 720 2 759 4 Not used 6 not used T8 7 Lens B8 606 1 679 6 626 1 559 4 T9 8 Lens A7 780 780 780 536 GP 9 Analyzer A9 780 780 780 780 0 IH 10 Analyzer A5 766 7 766 7 766 7 766 7 OH 11 Analyzer C9 788 788 788 780 0 Coil 12 Lens C3 Table 12 Voltages to Ground Ekin 800eV Ep 20 eV WF 0 PHOIBOS 100 150 R6 or higher for typical XPS applications 24 HSA3500 HSA3500 plus Power Supply SPECS Physical PIN PIN High Low Angular Wide Angle Meaning 12 pin 30 pin LE Dispersion M
64. the HSA is connected to PC LED Power green This LED will be on when HSA is powered up Power Switch Switches the HSA on or off Table 4 HSA3500 plus front panel description DANGER HIGH VOLTAGE DISCONNECT ANALYZER PLUG TO AVOID ELECTRIC SHOCK DO BEFORE REMOVING NOT OPEN CASE NO USER ANY CONNECTOR SERVICEABLE PARTS INSIDE REFER SERVICING TO QUALIFIED SERVICE PERSONNEL Channel HV Analyzer lene DO NOT INSERT OR REMOVE ANY CONNECTOR DURING OPERATION Channel Base Interlock 24V On Off Line Input 100 250V 47 63Hz Screen Fuse 2 4A CAN Bus Deflector CAN Bus ee i Universal Power Unit HSA 3500 plus i A SPECS k 8 Made in Germany CE Figure 5 HSA3500 plus back panel Label Type Description Channel HV SHV Connection to electron multiplier out put detector andode Channel Base SHV Connection to electron multiplier input 8 HSA3500 HSA3500 plus Power Supply SPECS detector cathode Screen or DLD SHV Connection to detector CCD DLD only Mesh or Aux SHV Connection defined by user Line Input 3pin Input for power cord Interlock 3pin Interlock connector Sliding Switch Activate the 24V on CAN Bus connector CAN BUS Sub D 9pin Connection to CAN Bus Male CAN BUS Sub D 9pin Connection to CAN Bus Female Deflector 6 pin Connection to deflector optional analyzer 30pin Connection to analy
65. trained personnel Only touch electrical contacts with the HV probe 1 To exclude the analyzer connection box and the cable repeat the test without these connection parts Measure the voltages at the rear of the HSA Voltages to ground for some modi WF 0 PHOIBOS 100 150 R6 or higher on page 26 Disconnect the analyzer box at the rear panel of the control unit Set a short circuit bridge between pin C1 and pin C2 at the analyzer output socket see Appendix sec tion 3 2 Rear panel wiring of the HSA and be sure to use the diagram that corresponds to your model s wiring type This bridges the safety interlock if the analyzer is not connected and enables HV output 2 To be able to measure the voltages while applying them to the analyzer the following procedure is required HSA3500 HSA3500 plus Power Supply 21 Using the HSA SPECS 22 Turn the HSA off and wait for 10 minutes so that all capacitors are prop erly discharged Open the four screws of the HSA backplane and place the backplane so that it will not accidentally drop down Now you should see something similar as in Figure 150n page 59 From now on you should not touch the power supply from the inside anymore Contact should be only made via the HV probe Start the HSA Start the HSA3500 Juggler and set the lens mode to Large Area and Ek to 800eV and Ep to 20eV remember to leave the Workfunction WF at zero Click On and then Start Measure the voltages wi
66. ttings versions before September 2003 include startup calibration This needs a few seconds and ends with a beep of the unit Repeat the procedure for each desired voltage range Repeat the procedure except item 1 with an energy value close to the end of the module range to correct the gain in each desired voltage range see examples in table 10 and table 11 on page 19 required value The gain is defined as gain measured value HSA3500 HSA3500 plus Power Supply SPECS 2 3 2 4 Fast check of all applied voltages First run the Diagnostic tool as described on page 15 This tool needs no special equipment and performs a complete check of all generated voltages in the modules via software To check the voltage modules with a high voltage probe 1000 1 and a digital volt meter set the kinetic energy and the workfunction via software HSA3500 Juggler or FixedEnergies mode in SPECSLAB 2 The table 12 on page 24 shows an example for EKin 800eV and Ep 20eV in FAT mode for XPS energy range the table 13 shows the same for UPS energies Tables for former releases can be found in the document Check PHOIBOSRx pdf which are supplied by SPECS upon request If the measured values are correct the HSA unit as well as the analyzer box plug and cables are o k Now the voltages can again measured either without the filterbox cable or while be ing applied to the analyzer The next two procedures should be only carried out by well
67. y user interface Unit string Unit of the logical voltage Types are V eV mA or optional nu meaning no unit AdjustOnly boolean Signals that this logical voltage is used as an offset mandatory to some DAC voltages for adjustment and optimization only If set to true this logical voltage is set to 0 0 and ignored by the control software main program Default false AnalyzerOnly boolean Indicates that this logical voltage is correlated to a mandatory basic Phoibos analyzer parameter and cannot be used by other devices e g the detector Default false PolarityFlip boolean Set to true if the sign of the logical voltage must be mandatory switched internally for ion operation Default false MappedToDa string Associates the logical voltage directly with a HSA cld optional DAC output If this entry is present the value of the Step entry can be calculated from the DAC parameter by the software The string must have the format hsa no gt lt slot no gt lt DAC no gt and can be overridden in a ModeDef section See also the description to Dacld on page 39 MinValue double Minimal value for this logical voltage used to check mandatory input data in control software user interface Limitation of the DAC voltage calculation may restrict the possible value much more strongly than this value Default 0 0 can be overridden in a ModeDef section MaxValue double Maximal value for this logical voltage see MinValue m
68. zer Phoibos Lens 30pin Connection to lens Phoibos Fan Cooling the unit Grounding Screw 1pin Connection to ground Table 5 HSA3500 plus back panel description 1 8 General Internal Layout In Figure 6 you can see the general internal layout of the HSA At the front side you have the even slot numbers and on the back side you have the odd slot numbers The slot configuration depends on hardware and wiring type For details see Table 42 in the Appendix HSA3500 HSA3500 plus Power Supply Introduction S PAC Slot 13 Slot 11 Slot 09 Slot 07 Slot 05 Slot 03 Slot 01 Power supply delivers 5V 15V 24V exits in HSA3500plus only Slot 10 Slot 08 Slot 06 Slot 04 Slot 02 Slot 00 CPU Figure 6 HSA General Internal Layout 1 9 Modules There are different modules within the HSA All modules have an internal type num ber Table 6 and Table 7 Every module has a serial number and production date printed on the board Type Name Main CPU Oxf1 3 5kV bipolar Oxe1 400V bipolar Oxd1 3 5kV unipolar Oxb1 150mA unipolar Table 6 HSA3500 modules 10 HSA3500 HSA3500 plus Power Supply SPECS Type Name Main CPU with current module 150mA 0x04 3 5kV Lens bipolar 0x14 3 5k
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