FMB OXFORD Cyberstar X2000 Fast Scintillation Detector and
Contents
1. FMB Oxford Fast Scintillation Detector and Pulse Processing Unit Operating amp Service Manual FMB OXFORD Unit 1 Ferry Mills Osney Mead Oxford OX2 0ES UK Tel 44 0 1865 320 300 Fax 44 0 1865 320 301 http Awww oxford danfysik com FMB Oxford USER MANUAL Page 1 of 22 07 04 2008 1 Table of Contents 1 TABLE OF CONTENTS wesc uerg ENNEN GENEE taaan a 2 WARRANTY EE 3 FMB OXFORD SOFTWARE LICENCE AGREEMENT AND LIMITED WARRANTY 3 1 LICENCE AGREEMENT ssccsiecies ctvesssdteiieascecacesieatesines eegen 3 2 LIMITED WARRANTY En 4 FAST SCINTILLATION DETECTOR ccsseesseeeseeesseeeseeeseeesneesseessessenseueeeenensaees LETHAL VOLTAGE CAUTION amp OPERATION VE e 6 ASG INTIMA TOR EE 4 2 PHOTOMULTIPLIER ssssaisanesseannnasrorrrnnnnonrrnarnnannaernrrtrnannnnnonnrnaannnsrtnatnnnnnnestenannnananne AB lee AA CONNECTORS sssisessetesscevergabaeeeessnevtievsl cukatossaebestuescedsesssevaeuyaed eneeenvenubsunececdeenmearaesvenes 4 5 VOLTAGE DIVIDER n snaaonooennnannaoseoennnnnnaooronrnnnnsarseoernnnnnneserrnnnnnsarornnennnnsnorennnnnnnsenne SEET EEIE Red 4 7 POWER REQUIREMENT ssnoesnnninaoseoe1nnnnnaooronnnnnnsnrorernrnnnnsarsrrnnnnnnsarorrnennnnsnesrenennnno e 5 SCINTILLATOR noe riian been 5 1 PROCEDURE FOR CHANGING A GCINTILLATOR 6 PULSE PROCESSING UNIT ccccesceseeeeeeeereseeeseeeeseessneesenasseasaeesseenseeeseeessenoaees LETHAL VOLTAGE CAUTION amp OPERATION VE Le2. total lengths of 5 10 15 20 and 22m available RS232 communication cable total lengths of 5 10 15 and 20m available 6 9 Typical settings Bias high voltage Gain Shaping constant typically 1000V working range 900 1100V above 1100V bias voltage the gain is large but the signal noise is too large below 900V bias voltage the gain is low and the signal is too low to be correctly observed the gain depends on the scintillation detector head and the X ray photon energy typically 100 gain when looking at 5 keV X ray photon using LaCl or Nal scintillation detector heads peaking time of 50 ns or 100 ns typically for YAP or Lat scintillation detector heads peaking time of 300 ns or 1000 ns gaussian typically for NaI TI scintillation detector head FMB Oxford User manual Page 15 of 22 April 2008 3 E 06 2 E 06 2 E 06 SEO 0 E 00 8 E 07 Time s LEO 2 E 06 2E 06 SEO 0 800 8 E 07 Time s FMB Oxford User manual 2 E 06 Em 3 06 26 06 26 06 3 6 Page 16 of 22 Typical signal output Pulse height measurement performed with a Cd 22 kev source and Nal detector head The settings of the X2000 were gain of 70 peaking time of 300 nS high voltage of 1000V Typical signal output Pulse height measurement performed with a SFe 5 9 kev source and Nal detector head The settings of the X2000 were gain of 100 peaking time of 300 nS high voltage of 1000V April 2008
3. 1 2 volts minimum into a 50 Q load NIM output negative going logical 1 2 volts minimum into a 50 load front panel upper level lower level and window output current NIM pulses available on the BNC output through a jumper selection for location of this jumper refer to 6 7 logical 1 between 36 mA and 12 mA typical single channel analyser TTL output Amplitude V Q 2 E 07 1 E 07 8 E 08 4 08 0 E 00 4 E 08 8 E 08 1 E 07 2 E 07 Time s FMB Oxford User manual Page 11 of 22 April 2008 typical single channel analyser NIM output Bo 1 E 07 8 E 08 AE Amplitude V 3 LEMO ERN 00250 RTL output signal CBY 2206 module e protection e standard signal e rear panel discri out e current NIM pulses every output is short circuit protected TTL output positive going 4 ns rise time zero 300 mV logical 1 2 volts minimum into a 50 Q load Window LL or UL LEMO output through a jumper selection for location of this jumper refer to 6 7 available on the LEMO output through a jumper selection for location of this jumper refer to 6 7 logical 1 between 36 mA and 12 mA 6 4 High Voltage Supply CBY02202 units only display Output voltage Output current Ripple Thermal drift Protection Output Current consumption Protection LCD 2 lines 8 characters adjustable by a front panel scroll key between 1 V and 1250 V 1 2mA 5 mV 50 ppm of the full scale per
4. 7 Front panel Description 7 1 High Voltage CBY02202 only Four digit display indicates the value of the set voltage Voltage can vary between 1 and 1250 V other ranges on request When high voltage is increased gain of the phototube increases but natural noise increases also When a low noise is required at low energy the best trade off must be found between gain of the preamplifier and magnitude of the high voltage Normal condition for the photomultiplier is between 800 and 1000 V 7 2 Preamplifier and Shaping Amplifier The preamplifier gain scroll key adjusts the amplitude of the shaped pulses available on the signal out of the BNC front panel socket These pulses are 4V maximum amplitude This signal can be directly sent to a multichannel analyser it is a positive signal without negative undershoot The peaking time scroll key adjusts the shaping constant Instead of this not directly measurable parameter the peaking time is indicated This is the time elapsed between the arrival of an X or y photon inside the scintillator and the peak value of the signal out pulse Peaking time of 50 100 300 and 1000 ns are obtained by four different 5 order filters Coefficient of these filters were selected for minimum delay and ringing 7 3 Single Channel Analyser SCA Upper level and lower level adjustment is available on the front panel The mode of selection is provided through a jumper selection For location of
5. Do not twist and break the connecting cables these are Teflon wires and welding points are fragile Holding the front scintillator housing steady in one hand unscrew the detector body During this operation the disengaged connector back plate must not rotate When unscrewed slide the scintillator along the front face of the phototube to a position where it touches the scintillator housing internal thread The phototube is coupled to the scintillator window by optical grease This coupling must be broken for this operation grasp the detector body in one hand and the scintillator housing in the other and apply a constant gentle force after some seconds the optical coupling will disconnect Pull out backwards the phototube from the housing Clean the phototube and the scintillator windows with alcohol Store them in a safe dry and dark place Thread the new scintillator on to the detector body On the centre of the phototube window apply 14 cm of optical grease do not spread this We recommend the thixotropic product from Dow Corning Q2 3067 Never use a non thixotropic grease Re insert the phototube assembly inside the detector body and tighten the M 2 5 back screws on the connector plate being careful not to wear the threads The internal spring will gently squeeze the silicon optical couplant After five ten hours the detector will be ready to use FMB Oxford User manual Page 8 of 22 April 2008 Detector Drawi
6. degree celcius short circuit protected on the rear panel one SHV high voltage socket 250 mA maximum on the 24 V line if for any reason the bias voltage exceeds 1250 V the bias voltage is set to 1V and a message HV FAIL is displayed the electronics will not respond neither by the front panel nor by RS232 communication to reset the electronics send the reset RS232 command line RSTad or switch off and on the module FMB Oxford User manual Page 12 of 22 April 2008 6 5 Phototube Preamplifier Power Rear panel NIM standard 9 pins sub D female connector 6 6 Current Consumption of NIM version 240 mA on the 6 V 130 mA on the 6 V 220 mA on the 12 V 20 mA on the 12 V 120 mA on the 24 V 6 7 Miscellaneous Saturation ouput signal for actuating a beam shutter CBY02202 only NPN open collector 30 V maximum voltage 500 mA available when ON Available on a rear panel BNC connector Saturation is detected when a percentage of pulses 6 25 12 5 25 and 50 according to the jumper selection see picture next page for location reach an amplitude which saturates the first pre amplification stage If the saturation output is connected to a relay proceed as shown below 5V 30V max Jumper on bottom BMOD Diode mandatory protection of the 2N2222 transistor 2N2222 NPN Saturation output I max 200 mA FMB Oxford User manual Page 13 of 22 April 2008 brandenburg Buwedet 4479 Series Pho
7. example RST and RSTO are both valid commands Values range for x parameter High voltage CBY02202 only from 0 V to 1249 V Gain from 0 to 100 Peaking time 50 ns 100 ns 300 ns or 1000 ns SCA upper level from SCA lower level to 4 V SCA lower level from 0 V to SCA upper level Examples INPO GAIN 12 5 SENSO SCA LOW 1 5 These commands set the gain at 12 5 and the SCA lower level at 1 5 V the address of the unit being 0 sINP15 GAIN 12 5 SENS15 SCA LOW 1 Same command with a different address 15 FMB Oxford User manual Page 20 of 22 April 2008 All commands but consist of two distinct parts a header and a value They have an additional query form in which a question mark replaces the value do not insert a space character between header and question mark When a query form is received the program sends the current value associated with the command Query responses do not include the command header Examples INPO GAIN query from the host computer 12 5 value sent to the host computer Warning The program waits for strings ending with a special character ASCII code 10 This character must be transmitted by the host computer When the program sends a current value it also sends this character after the value Every time this special character is acknowledged the program sends a single character ASCII code 6 to the host 9 4 Syntax rules Upper and lower case characters are accepted At least o
8. occur if rated High Voltage supply value above is exceeded Disturbing ground loops warning In order to avoid unwanted effects the body of the phototube should always be electrically isolated from the experiment where it is installed Shielding ground warning In order to obtain the best signal shielding the body of the phototube must always be electrically connected to the ground of the pulse processing electronics used 4 1 Scintillator Type Various scintillation crystals are available with a variety of thicknesses minimum mm The current selection includes Nal YAP Lat BGO BaF CsI CsI TI CsF crystals are easily interchangable Detector aperture A full suite of dimensions are available please see the FMB Oxford catalogue for the full range Standard heads have a 32 mm active area Energy up to 50 KeV Nal TI 10 MeV BGO Window Beryllium 0 2 mm thickness Kapton or aluminium depending on the crystal Background lt 0 2 cps at 5 KeV Nal TI 4 2 Photomultiplier Diameter This varies depending on head type Standard units with a 32 mm scintillator have 38 mm tubes Photocathode Bialkali adapted to most of scintillator emission wavelength Nal TD YAP BGO Structure 10 dynodes Gain 10 typical FMB Oxford User manual Page 6 of 22 April 2008 Anode signal 4 3 Housing Rise time 2 8 ns Precisely machined from aluminium alloy and
9. 10 6 4 DIMENSIONS eegene Age Aeddi Eed 6 2 SHAPING AMPLIFIER c cccccccssssssccecescesesesesaeeeseseeseessnesaeseseseesesesesaeaeseceesesenesaeaesesees 6 3 SINGLE CHANNEL ANALYSER ssssssnnnnenssesininnnsnssrrinnnnnssssirinninnasnnsrninnrnnssnsirnnnnnnsenneeenn 6 4 HIGH VOLTAGE GuppLx 6 5 PHOTOTUBE PREAMPLIFIER POWER snssssssnnnnsesseinnnnnsessiriransnssnnrnrinnnnnssnsrrirnnnnsenne 6 6 CURRENT CONSUMPTION 6 7 MISCELLANEOUS fs cevtssscetessatacedsieseedecesdadevtuascudestenceedensi2detbesdexdeseadecetees EENEG 6 8 OPTIONS ege egen eg dE aaaea ia Saeheeadadd eebe tees RIESEN EEN FMB Oxford User manual Page 2 of 22 April 2008 7 FRONT PANEL DESCRIPTION cscccsseesseesseeeseeesseesseessaeeeaeeeae see seeeeeeeseseseenasenassnananes 17 KN elle teibg e 17 7 2 PREAMPLIFIER AND SHAPING AMPLUIEIER sssssssissesssssissiriseesnttniinrustsuninrinasuntniinnnnunnnnnninnnnnn nnna 17 7 3 SINGLE CHANNEL ANALYSER GC 17 8 COMMUNICATION BOARD ccsccccccesesescccsssseseeucecnsueeeseuueeaeaeaasseuueeaeagaasssesesuseauanssesees 18 8 1 lt GENERAL GONSTRUCTION Ree NEE dee ae 18 9 REMOTE CONTROL SOFTWARE FOR PULSE PROCESSING ELECTRONIC 19 ANIE reelle OR 19 9 7 DESGRIPTIONE ease et eenegen e ag engt E 19 CH ee Ae NEE 20 GA SYNTAX RULES ee ege e Ee EEN 21 9 5 CONNECTING WITH A HOST COMPUTER 21 9 6 NETWORK CONFIGURATION uu ceccccccceeceeeececceeeecesueesececececeauaueseeeeueuauauaesscseeeusuaueaseseeeeueeaua
10. a third party unless written consent is obtained from FMB OXFORD This software package is protected under copyright law and FMB OXFORD reserves the right to terminate this licence upon any violation of these laws In the event of termination the customer will be required to return all copies of the software package to FMB OXFORD Some parts of the software package are specially protected in order to be read or modified only by FMB OXFORD engineers Under no circumstances will FMB OXFORD be under obligation to disclose information relating to these parts of the software 3 2 Limited Warranty The standard software is fully tested and under normal use is guaranteed to be free of bugs and defects on pulse processing units This insurance is not valid for special software adaptations on non standard pulse processing units In this case FMB OXFORD agrees to correct at its own expense during a one year warranty period any defect arising during the use of the modified software package In no event will FMB OXFORD be liable for any direct or indirect incidental or consequential damages arising from a software failure FMB Oxford User manual Page 5 of 22 April 2008 4 Fast Scintillation Detector Caution LETHAL VOLTAGE PRESENT INSIDE DEVICE WHEN OPERATED 1250 VOLTS MAXIMUM High Voltage supply USER MUST DISCONNECT DEVICE BEFORE OPENING HOUSING FOR ANY REASON Please note that permanent damage to the phototube can
11. can be opened for easy access to every component External dimensions standard unit only O rings for light tightness u metal shielding 4 4 Connectors High voltage Signal and low voltage Other connectors on customer request 4 5 Voltage Divider Principle Impedance 4 6 Preamplifier 48 mm L 138 mm Lemo ERA size zero Amph nol 17DMW or Lemo depending on head Passive dynode chain active on request 1 8 MQ For low noise and improved speed this is directly attached to the dynode chain Output impedance Gain bandwidth product Slew rate Driving capability 4 7 Power Requirement High voltage supply High voltage current Preamplifier supply Current required 4 8 Cables High voltage signal preamplifier supply FMB Oxford User manual 50 Q 300 MHz 2000 V s Short circuit protected 1250 V maximum 0 7 mA NIM standard 12 V 35 mA on the 12 V 35 mA on the 12 V standard 5 metre length Other cable lengths available Page 7 of 22 April 2008 5 Scintillator A large range of scintillators is available and the procedure for changing crystals is relatively straight forward 5 1 Procedure for Changing a Scintillator Disconnect the detector from its cables Remove the two M 2 5 screws Labelled back screw on the detector drawing The connector plate is pushed externally by a spring situated inside the detector Disengage the connector back plate from the detector body
12. croll key adjustable by a front panel scroll key peaking time of 50 ns 100 ns 300 ns or 1000 ns gaussian smooth and predictable counting loss leading to an easy dead time correction up to 3 10 cps peaking time 50 ns innovative base line restorer virtually no base line shift at high counting rate active even on undershoot of high energy saturating pulse unipolar pulses output available on the front panel Can be connected to a multi channel analyser maximum output voltage of 4 volts 1 ns override recovery time LCD 2 lines 8 characters displays gain and shaping constant FMB Oxford User manual Page 10 of 22 April 2008 6 3 Single Channel Analyser 1 Independant upper and lower adjustments by front panel scroll keys Lower level adjustable between 0 V and 4 V Precision of the reading 10mV Linearity error 10mV Thermal drift 0 1 mV C over the range of 10 to 50 C Upper level adjustable between 0 V and 4 V Precision of the reading 10mV Linearity error 10mV Thermal drift 0 1 mV C over the range of 10 to 50 C Display LCD 2 lines 8 characters displays upper and lower adjustments 2 BNC output signal CBY02202 single channel units protection every output is short circuit protected standard signal TTL or NIM signal through jumper selection SW105 SW106 and SW107 are available to synchronise external counter acquisition system TTL output positive going 4 ns rise time zero 300 mV logical
13. emove or replace the Equipment FMB OXFORD will co operate with the customer in the assessment of reported defects but the final decision regarding the applicability of this guarantee shall rest with FMB OXFORD FMB OXFORD shall decide if the Equipment should be repaired pursuant to sub clause 1 at its site or returned The applicable guarantee period shall be 12 months after delivery save where the Equipment is installed and or commissioned by or under the supervision of FAB OXFORD in which case it shall be 12 months from the date of the installation certificate or 18 months after the date of delivery whichever is the earlier FMB Oxford User manual Page 4 of 22 April 2008 3 FMB Oxford Software Licence Agreement and Limited Warranty 3 1 Licence Agreement As part of the sales package for the FMB OXFORD pulse processing units the customer will receive from FMB OXFORD a licence to use the accompanying software subject to the following terms and conditions The software package may be used without time limit on one personal computer or workstation A separate licence agreement and fee is required for each additional personal computer or workstation on which the package is used The software package may not be duplicated or copied except for archive purposes or to replace defective media and each copy made must bear the copyright notices carried on the original The software package may not be transferred in any event to
14. h other units in remote or forced remote mode For example if unit A is in local mode and unit B is in remote mode the PC can send commands to unit B and receive data from unit B FMB Oxford User manual Page 22 of 22 April 2008
15. ication protocol is a subset of the SCPI Standard Commands for Programmable Instruments language A communication software example is provided showing various possible command lines This can help users to develop their own remote control interface software CONTROL software is also provided which enables users to immediately setup a complete run time interface link between a Windows PC and one or more X2000 units Both pieces of software can be installed on the same computer just run Setup exe from the floppy disc 9 2 Description The pulse processing unit holds a C programmable miniature controller The program is factory stored in its EPROM This program is able to drive the unit by controlling the gain the peaking time and the single channel analyser upper and lower levels The high voltage power supply CBY02202 units only can also be controlled Saturation threshold detection is also provided When turning on the power the unit is reset and a message Init OK is displayed The high voltage the gain the peaking time and the single channel analyser upper and lower levels are set to the saved values These values are stored into the EPROM every time one is modified Do not forget to increase the gain in order to get a signal Every unit has an address given by DIP switches 1 through 4 SW1 on the front panel communication board where switch 1 corresponds to address bit 0 and switch 4 corresponds to bit 3 A switch se
16. nansees 22 FMB Oxford User manual Page 3 of 22 April 2008 1 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 2 Warranty FMB OXFORD warrants that the Equipment shall be free from defects by reason of faulty design workmanship or materials and that if within the guarantee period set out in sub clause 3 the Equipment proves defective for such reason FMB OXFORD shall adjust repair or replace it as it sees fit free of charge provided that The Equipment has been used solely for the purpose for which FAB OXFORD understands it is to be used and in accordance with the operating instructions The defect has not been caused by fire accident misuse neglect incorrect installation by the customer its customers agents or servants or unauthorised repair or maintenance or by use of sub standard consumables The defect has not arisen from any design specification component or material supplied by the customer No part of the Equipment has been replaced with a part not supplied by FMB OXFORD or approved as suitable by it Payment in full of all sums due in respect of the Equipment has been made The customer shall be liable for any costs incurred by FMB OXFORD in responding to claims made in respect of erroneous results caused by operator error or incorrect application Upon the customer making a claim under sub clause 1 it shall accord sufficient access to the Equipment to enable FMB OXFORD staff to inspect and adjust repair r
17. ne space character is mandatory before a decimal data or before ON and OFF 9 5 Connecting with a Host Computer This unit can be connected to a RS232 port of a host computer Only three wires are needed The RS232 connector is located on the rear panel of the unit Standard RS232 pinout is used ground signal is pin 5 receive signal pin 2 and transmit signal pin 3 If the host computer is a PC pins 4 6 and 8 must be tied together on the cable connector PC side The following protocol is supported by the unit baud rate 9600 data format 8 bits ASCII data and 1 stop bit parity none CTS RTS signals are disabled 9 6 Network Configuration These units are designed to operate in a network Up to 16 units can be linked together using only one RS232 port of the host computer When a unit is linked to the network its address must not be already in use by any of the other units The wiring for a network including two units connected to a PC is detailed hereafter FMB Oxford User manual Page 21 of 22 April 2008 PC connector Unit A connector 2 RX 3 TX0 3 TX cablel 2 RXO 5 ground 5 ground a ae 7 RX1 cable2 8 TX1 Unit B connector 5 ground 3 TX0 2 RX0 When the unit B is disconnected pins 2 and 3 of the connector located at the end of cable 2 must be grounded with a 1000 Q resistor When a unit is in local mode it does not stop communication wit
18. ng Scintillation detector C48NAXXB Entrance window Be 32 High voltage socket Entrance window plastic 928 HIGH VOLTAGE SOCKET 450 3 DR BS ik SS DETECTOR SIDE 2 M r mini 15mm U _e H b 4 ae LENGTH 5m 10m 15m 20m SIGNAL AND PREAMPLIFIER SUPPLY PREAMPLIFIER SUPPLY NIM UNIT SIDE HIGH VOLTAGE E Ka DETECTOR INPUT Ta 450 FMB Oxford User manual Page 9 of 22 April 2008 6 Pulse Processing Unit Caution LETHAL VOLTAGE PRESENT INSIDE DEVICE WHEN OPERATED 1250 VOLTS MAXIMUM High Voltage supply USER MUST DISCONNECT DEVICE BEFORE OPENING HOUSING FOR ANY REASON Please note that permanent damage to the phototube can occur if rated High Voltage supply value above is exceeded Disturbing ground loops warning In order to avoid unwanted effects the body of the phototube should always be electrically isolated from the experiment where it is installed Shielding ground warning In order to obtain the best signal shielding the body of the phototube must always be electrically connected to the ground of the pulse processing electronics used 6 1 Dimensions External double NIM unit 6 86 cm x 22 13 cm or 19 inches 3U Europe standard rack 6 2 Shaping Amplifier Advantages Gain Shaping constant Dead time correction Base line restorer BNC pulse output Output level Display fast speed dc coupling adjustable by a front panel s
19. this jumper refer to 6 7 Range of Variation Front Panel BNC Logic Output Lower level O0to4V out when leading edge of the shaped pulse crosses lower level voltage Upper level O0to4V out when leading edge of the shaped pulse crosses upper level voltage Window BNC out when falling edge of the shaped pulse output crosses lower level only The TTL or negative current fast NIM logic is jumper selected For location of these jumpers refer to 6 7 FMB Oxford User manual Page 17 of 22 April 2008 8 Communication Board Enables RS232 communication allowing cascading of up to 16 units For each unit the following parameters can be independently controlled Phototube high voltage Preamplifier gain Single channel analyser lower and upper levels Shaping constant Windows operated software is supplied 8 1 General Construction The communication board is designed around a C programmable miniature controller Hitachi AE3048 If a user requires a special operating algorithm it can be programmed with the integrated C development environment which can be supplied FMB Oxford User manual Page 18 of 22 April 2008 9 Remote Control Software for Pulse Processing Electronic 9 1 Introduction The pulse processing units can be remotely controlled by a host computer PC or workstation through a serial link RS232 A network of up to 16 units can be built requiring only one serial port on the host computer The commun
20. tomultiplier Meio N A Type 4479 123 CE Serial 95049235 Made in UK Til E E wit B a TOLLEY Jumper SW101 input pulse polarity jumpers positions 1 and 3 from top to bottom positive input jumpers positions 2 and 4 negative input Default position straps on positions 2 and 4 negative input Jumper SW105 Upper Level Single channel analyser output upper position TTL lower position NIM Default position top TTL Jumper SW106 Lower Level Single channel analyser output upper position TTL lower position NIM Default position top TTL Jumper SW107 Discrimination Single channel analyser output upper position TTL lower position NIM Default position top TTL FMB Oxford User manual Page 14 of 22 April 2008 Jumper SW103 Saturation The saturation is detected when a certain percentage of pulses reach an amplitude saturating the first pre amplification stage The percentage is defined by means of the jumper SW104 the strap position from top to bottom corresponds to percentages of 6 25 12 5 25 and 50 1 16 1 8 1 4 1 2 respectively Default position top 6 25 Jumper SW102 Saturation output top position TTL OV when saturation is detected 5V otherwise bottom position output connected to the emitter of a transistor transistor on when the saturation is detected Default position TTL 6 8 Options Detector to pulse processing unit connection cable
21. tting of OFF determines a bit value of 1 and a setting of ON determines a value of 0 Factory address setting is 0 Always switch the unit off before changing its address A unit address 7 corresponds to switches 1 OFF 2 OFF 3 OFF 4 ON 9 3 Commands List Commands list for the CBY 2206 module Syntax Meaning RSTad reset the electronics INPad GAIN x set channel X gain value to x SENSad SCA UPP x set single channel analyser SCA of channel X upper level to x FMB Oxford User manual Page 19 of 22 April 2008 SENSad SCA LOW x set single channel analyser SCA of channel X lower level to x value SENSad PKT x set peaking time of channel X to x value SENSad SATX reply 1 if saturation is detected on channel X 0 otherwise Commands list for the CBY 2202 module Syntax Meaning RSTad reset the electronics INPad GAIN x set gain to x value SENSad SCA UPP x set single channel analyser SCA upper level to x value SENSad SCA LOW x set single channel analyser SCA lower level to x value value SENSad PKT x set peaking time to x value SOURad VOLT x set high voltage to x value if the power supply option is installed SENSad SAT reply 1 if saturation is detected 0 otherwise SENSad HVFAIL reply 1 if high voltage failure is detected 0 otherwise ad unit address an integer value from 0 to 15 It may be left out of the command when unit is set to address 0 For
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