UEP 10 Manual - W-IE-NE
Contents
1. 200V 80 24V 59 200V return 82 24V return 60 power failure 1 24V 62 overload warning 2 24V return 63 overheat warning OV monitor 5 buzzer warning 4 Y1 current 7 Y2 sensing 28 Y1 current return 8 Y2 sensing return 27 Y2 current 10 6V sensing 29 Y2 current return 11 6V sensing return 26 clean earth 64 6V sensing 30 6V current 12 6V sensing return 27 6V current return 13 12V sensing 31 6V current 14 12V sensing return 26 6V current return 15 12V sensing 32 12V current 16 12V sensing return 27 12V current return 17 24V sensing 33 12V current 18 24V sensing return 26 12V current return 20 24V sensing 34 24V current 21 24V sensing return 27 24V current return 22 Y1 35 24V current 23 Y1 return 36 24V current return 24 Y2 37 Y1 sensing 25 Y2 return 38 Y1 sensing return 26 6V 39 40 41 42 66 status warning 72 May 05 11 00Sachnummer A0O Users Manual NIM CAMAC W le Ne R Plein amp Baus GmbH 2 2 2 NIM UEN 01 03 Pin assignment PG 26 to power supply PG27 Function PG 26 chassis ground 65 6V sensing 29 220V phase switch 74 6V sensing return 26 220V phase mains 75 6V sensing 30 220V neutral switch 76 6V sensing return 27 220V neutral mains 77 12V sensing 31 117 V a c neutral 78 12V sensing return 26 117 V a c phase 79 12V sensing 32 200V 80 12V sensing return 27 200V return 82 24V sensing2. 7 f aD ete alle elie ae i f bd bi ba bale l AA A l ge oer E ROK PR Pe Oe gt wiener NIM CAMAC User s Manual 00Sachnummer A0O Users Manual NIM CAMAC W le Ne R Plein amp Baus GmbH General Remarks The only purpose of this manual is a description of the product It must not be interpreted as a declaration of conformity for this product including the product and software W Ie Ne R revises this product and manual without notice Differences of the description in manual and product are possible W Ie Ne R excludes completely any liability for loss of profits loss of business loss of use or data interrupt of business or for indirect special incidental or consequential damages of any kind even if W Ie Ne R has been advises of the possibility of such damages arising from any defect or error in this manual or product Any use of the product which may influence health of human beings requires the express written permission of W Ie Ne R Products mentioned in this manual are mentioned for identification purposes only Product names appearing in this manual may or may not be registered trademarks or copyrights of their respective companies No part of this product including the product and the software may be reproduced transmitted transcribed stored in a retrieval system or translated into any language in any form by any means with the express written permission of W Ie Ne R May 05 i 00S
3. PARD EMI RFI rejection emission EMC immunity Operation temperature Storage Temp coefficient Stability const conditions Temperature limits Current limits Overvoltage crow bar protection May 05 World range 92 264V AC 10A 47 63Hz limited by soft start to max 16A CE 0 99 nominal EN 61 000 3 2 CE versions only EN 60950 ISO 380 UL 1950 VDE 0805 CSA 22 2950 lt 25mV 100 load 15 mains lt 0 1 100 load 15 mains lt 100mV 25 load lt 0 7 25 load within 1 within 0 1 0 2ms 0 5ms 0 0ms 1 0ms min 0 5V inside aUECO1 bin lt 10mV 0 20MHz lt 3mVrms CE EN 50081 1 EN 50022 B VDE 0871B CE EN 50082 1 0 50 without derating 30 C up to 85 C lt 0 2 10K 10mV or 0 1 24 hours 50mV or 1 6 month heat sinks 110 C ambient 70 C 115 of nominal value variable limits trip off adjusted to 125 nom voltage each output 22 00Sachnummer A0O Users Manual NIM CAMAC W le Ne R Plein amp Baus GmbH DC off lt 5ms if gt 2 5 deviation from nominal values after overload overvoltage undervoltage fan fail and overheat Output capacitors will be discharged by crow bars Trip off points adjustable processor controlled Efficiency 80 Current limits adjustable to any lower level UEL 03 front panel via network Voltage rise characteristics monotone and synchrony complementary outputs with dual trecking The following module
4. 10 Uout lt 0 02 Recovery time load change 10 to 100 lt 0 15 ms Output impedance static lt 0 2mOhm dynamic at 100KHz lt 0 3 Ohm Temperature error lt 5 10 K Thermal protection overheating protection by thermal sensors 3 fold Current limit adjusted to 115 of rated current adjusting range 20 Characteristics short circuit protected by fold back characteristic short circuit current lt 3A reverse bias diodes Voltage calibration range 5 rated voltage dual tracking for all DC outputs overvoltage protection crow bar 6V 12V 24V calibrated at 7 3V 14 5V 28 5V Options for power __ status signal and status relay rearming and inhibit input supplies type M power fail signal remote monitoring acc to CERN CAMAC note 46 04 Output voltages currents and total power Outputs 6V 6V 12V 12V 24V 24V 115 VAC UEP 21 8A 8A 3A 3A 2A 2A 0 5A CEP 21 8A 8A 3A 3A 2A 2A XXXXXXX UEP 22 17A 17A _ 3 4A 3 4A 3 4A 3 4A 0 5A CEP 22 17A 17A 3 4A 3 4A 3 4A 3 4A XXXXXXX May 05 21 00Sachnummer AO Users Manual NIM CAMAG W le Ne R Plein amp Baus GmbH APPENDIX C Technical details UEP 21 22 Data PS CS 336 Input Inrush current Power factor Isolation safety Regulation static 6V 12V 24V Regulation dynamic 6V 12V 24V Recovery time 25 load 6V 65 80A 12V 24V 10A sense compensating range Noise and ripple
5. 1A reverse bias diodes overvoltage protection crow bar 6V 12V 24V calibrated at 7 3V 14 5V 28 5V equipped with status signal and status relay rearming and inhibit input power fail signal remote monitoring acc to CERN CAMAC note 46 04 Output voltages currents and total power Outputs 6V 6V 1 12V 12V 24V 24V 115 VAC UEP 10 88 45A 45A 8A 8A 8A 8A 0 5A CEP 10 88 45A 45A 8A 8A 8A 8A XXXXXX UEP 10 52 65A 32A _ 6A 6A 0 5A CEP 10 52 65A 32A 6A 6A XXXXXX UEP 10 53 32A 65A__ 8A 8A 0 5A CEP 10 53 32A 65A 8A 8A XXXXXX UEP 10 66 20A 20A 15A 15A 4A 4A 0 5A CEP 10 66 20A 20A 15A 15A 4A 4A XXXXXX Note The total Power consumption of the same polarity or should not exceed 400W May 05 20 00Sachnummer A0O Users Manual NIM CAMAC W le Ne R Plein amp Baus GmbH example 6V 45A 270W 6V 40A 240W 12V 8A 96W 12V 4A 48W 24V 8A 192W 24V 4A 96W not allowed 2 558W allowed 2 384W APPENDIX B Technical details UEP 21 22 Linear regulated data UEP 21 200W UEP 22 300W Input 230V or 115V 10 15 48 63Hz inrush current limited to lt 15 30A Derating full power at 50 C derating 2 K up to 60 C Noise and ripple full load lt 0 6mV eff lt 3mVpp ImV at 80 rated power Regulation 10 to 100 Uout lt 0 05 line
6. 33 power failure 1 24V sensing return 26 overload warning 2 24V sensing 34 overheat warning 3 24V sensing return 27 buzzer warning 4 6V 39 40 41 42 66 OV monitor 5 6V return 43 44 45 46 70 clean earth 64 6V 47 48 49 50 67 6V current 12 6V return 51 52 53 54 71 6V current return 13 12V 55 6V current 14 12V return 56 6V current return 15 12V 57 12V current 16 12V return 58 May 05 12 00Sachnummer AO Users Manual NIM CAMAC W le Ne R Plein amp Baus GmbH 12V current return 17 24V 59 12V current 18 24V return 60 12V current return 20 24V 62 24V current 21 24V return 63 24V current return 22 status warning 72 24V current 23 OV signal 5 24V current return 24 2 2 3 NIM UEN 01 Pin assignment PG 32 to fan tray PG 31 Function PG 32 Chassis ground h 12V current return R 220V phase switch AA 12V current S 220V phase mains BB 12V current return T 220V neutral switch CC 24V current U 220V neutral mains DD 24V current return V 117V a c neutral EE 24V current W 117V a c phase FF 24V current return X 200V HH 6V a overload warning B 6V b overheat warning C 12V May 05 13 00Sachnummer AQ Users Manual NIM CAMAG W le Ne R Plein amp Baus GmbH buzzer warning 12V 6V current 24V 6V current return 24V 6V current OV voltage mo
7. NIM bin for 12 high powered NIM modules The power supply has to be plugged in and locked from the rear side For the fan tray unit a space of 2U high is foreseen to bear any kind of fan units which are designed according to the relevant CERN spec The bin is equipped with 12 high quality long life NIM connectors which are completely wired parallel The installed connector pins are made massive brass gold plated Dimensions whd 483mm 19 x 310mm x 525mm with power supply max 570mm weight 11 4 kg A special construction has a reduced depth 550mm incl power supply These bins fulfill CE requirement if they are used in combination with CE marked fan trays CEL and power supplies CEP 1 1 2 NIM Bin UEN 03 The NIM bin UEN 03 is a 5U NIM bin for 12 NIM modules according to the NIM specification The wiring and mechanic accords to CERN spec The frontpanel is equipped with main switch control LED s and test sockets for all voltages The UEN 03 has no space for a fan tray The power supply UEP CEP 10 21 22 will be mounted on its rearside The installed connector pins are made massive brass gold plated Dimensions whd 483mm 19 x 222mm x 525mm with powersupply max 570mm weight 9 2 kg May 05 1 00Sachnummer A0O Users Manual NIM CAMAC W le Ne R Plein amp Baus GmbH Switches POWER ON OFF main switch for power supply Indicators AC POWER __ main switch integrated STATUS green LED lights if all
8. general call is factory prepared 127 however it can be changed by the following procedure 1 Select display channel GENERAL CALL with MODE SELECT switch 2 Switch up or down the ADDR switch to change the value If the crate has to be disabled for general call the position GENERAL CALL OFF has to be selected According to the CAN bus specification the data transfer speed is depending on the net length as given within the following table Max Distance it Rate 40 m 1 0 Mbit s 130 m high speed 250 kv 125 Koi ssn kbit s Biss kbit s low speed opis kbit s To adjust the net speed for a given net length select the bit rate according to this table and set on the crates 1 Select display channel SPEED with MODE SELECT switch 2 Switch up or down the ADDR switch to select the required rate 2 2 NIM CAMAC Bin technical details 2 2 1 CAMAC Bin UEC 01 Pin assignment PG 26 to power supply PG27 Function PG 26 Function PG 26 May 05 10 00Sachnummer A0O Users Manual NIM CAMAG W le Ne R Plein amp Baus GmbH chassis ground 65 6V return 43 44 45 46 70 220V phase switch 74 6V 47 48 49 50 67 220V phase mains 75 6V return 51 52 53 54 71 220V neutral switch 76 12V 55 220V neutral mains 77 12V return 56 117VAC neutral 78 12V 57 117VAC phase 79 12V return 58
9. is equipped with the following facilities Switches POWER on off main switch for ventilation and power supply LED indicators STATUS green LED lights if all voltages are within the limit OVERTEMPERA TURE yellow LED lights if overtemperature occurs OVERLOAD red LED lights if an over current is detected AC POWER main switch integrated In combination with M monitoring power supply all failure signals except fan fail are generated and processed by the power supply which is installed May 05 6 00Sachnummer A0O Users Manual 2 1 1 2 UEL 03M NIM CAMAG W Ie Ne R Plein amp Baus GmbH Switches POWER ON OFF main switch for ventilation MODE SELECT selection switch to choose items and values for fan tray and power supply and control FAN SPEED push button for stepwise in or decrease fan speed FAN AUTO OFF If this switch is used the crate will still be powered even if there is a fan failure LED indicators AC POWER green large LED lights if POWER is on STATUS green LED lights if all voltages are within the limits FAN FAIL yellow LED lights if a fan failure is recognized OVERHEAT yellow LED lights if an overheat in the power supply occurs FAN SPEED red control LED for reduced fan speed below 3000 rpm FAN AUTO OFF red control LED for only warning after fan failure mode DC off after failure disabled 2 1 2 programming of the f
10. voltages are within the limits OVERHEAT yellow LED lights if an overheat in the power supply occur OVERLOAD red LED lights if an over current is detected In combination with M monitoring only 1 1 3 CAMAC Bin UEC 01 1 2 The CAMAC bin UEC 0I is a 7U CAMAC crate for 25 CAMAC modules according to CERN CAMAC NOTE 46 04 The moduleconnectors have been centered by metal guides before touching the dataway plugs Power supply plugged in and locked from rear side fan tray from front side Dimensions whd 483mm 19 x 310mm x 525mm with power supply 570mm A special construction is equipped with additional Y1 and Y2 lines parallel to 6V for 80 A capability Type UECO1 VH to use in combination with PS 336 mandatory for PS 336 VH types Fan Trays Except the UEN 03 Crate all NIM and CAMAC Crates are equipped either with an UEL 01 or an UEL 03M fan tray The main difference between those fan tray is that the UEL 03M provides a complete monitoring acc Cern spec and the UEL 01 a minimized monitoring to the user May 05 2 00Sachnummer AO 1 2 1 Users Manual NIM CAMAC W le Ne R Plein amp Baus GmbH UEL 01 Fan Tray EC Fan tray The UEL CEL 01 have three noise reduced 3 axial fans which produce a maximum airflow of 380m h static pressure Control panel with mains on off mains lamp test sockets with LED s for all 6 voltages and one for ground All voltage bushes are overload protected by in
11. Q ms h May 05 4 00Sachnummer AO W le Ne R Plein amp Baus GmbH NIM CAMAG Users Manual Power LED Main Switch on off Status LED S Status Fan Fail Over Heat Alphanumeric Display Mode Select Switch Fan Speed Switch and LED Auto off Switch and LED optional CAENET interface Address and Local Switch CAENET in out Manual Box Power Haws WOD W Eid a aaa 4 apen UEL 03M frontpanel 00Sachnummer AQ May 05 1 3 2 2 1 Users Manual NIM CAMAC W le Ne R Plein amp Baus GmbH UEP CEP and PS CS power supplies The main difference between an UEL XX and an CEL XX power supply is that the UEL s provide a 115 VAC and fulfil the CERN Standard while the CEL s fulfill the CE standard No 115 VAC Both power supplies are linear regulated and unless nothing else is mentioned all statements made for an UEL XX are also valid for a CEL XX The PS 336 XXX and the CS 336 XXX power supplies are built in the low noise switching technology The PS 336 XXX fulfil the CERN standard while the CS 336 XXX fulfill the CE standard unless nothing else is mentioned all statements made for a PS 336 XXX are also valid for a CS 336 XXX Operation Function and Control Fan tray operation and control 2 1 1 Function of fan tray switches and informations of the LED s 2 1 1 1 UEL 01 The UEL 01 fan tray is a simplified fan tray which conforms the CERN Standard The front panel
12. achnummer AO Users Manual NIM CAMAC W le Ne R Plein amp Baus GmbH Table of contents I General Information enso 2 ee tel one ae eee 1 1 1 NIM CAMAC bins sien 28a ia SA a near 1 111 NIM Bin UEN Obst nse 22428 klar Bl ann 1 11 2 NIMBIN UEN Q3 ctii a2 aaa RR HR 1 1 1 3 CAMAG BInsUEG Ol 2 22 2 karnnar nasser 2 1 2 gt B n Traystn ansieht eines tis ter a e e ETE 2 1 2 1 UEL 01 Fan Tray EC Fan tray oo ee eeeceenceenceeseecseecececaecsecnseesseesseeesneeees 3 1 2 2 UEL 03 Fan Trays LX Fan tray ee ceeceeceseeeneeeseeeaecnaecnseceseceaeeeseesseeeseeeees 3 1 3 UEP CEP and PS CS power supplies 00 cee ceeccseeeeeeeeeeeeeseceseceaecnaeceseeeeceseeeseeeees 6 1 3 1 Regulator boards UEP 10 21 22 r erkeer eas sen akar VEe isani n 14 1 3 2 Monitoring and alarming signals UEP 10 21 22 eessesseeesesrresseresreersrrersee 15 2 Operation Function and Control eseeseseeeseessseserestesresrtssesressesrtsstestestesrestessesresseestsseeet 6 2 1 Fan tray operation and control ursuersneesnnesnnesnnesnnesnnnnnnnnnnnnnnnnnnnennnonnnnnnnesnnn nme 6 2 1 1 Function of fan tray switches and informations of the LED s 6 2 1 2 programming of the fan tray UEL 03 In conjunction with PS 336 7 2 1 3 programming of the fan tray UEL 03 In conjunction with UEP XX CEP 8 2 1 4 remote Control Optional u a een 8 2 2 NIM CAMAC Bin technical details 0
13. an tray UEL 03 In conjunction with PS 336 Following steps are necessary to change the factory settings Umax Umin Imax e Crate must be switched on e Choose the channel with the lever switch MODE SELECT May 05 7 00Sachnummer AQ Users Manual NIM CAMAC W le Ne R Plein amp Baus GmbH e Hold simultaneously the lever switch MODE SELECT and POWER in top position and wait about 10 seconds e Choose with MODE SELECT what you want to change Umax Umin Imax e Bring lever POWER ON in top position for about 10 seconds e Change the value through MODE SELECT e Push lever POWER OFF down to confirm the new value e Push lever POWER OFF down to come back to the normal working status If you want to change the AUTO POWER ON OFF function following steps are necessary Crate must be switched on Use lever switch MODE SELECT until POWER is displayed e Hold simultaneously the lever MODE SELECT and POWER in top position and wait about 10 seconds e Change setting through MODE SELECT e Confirm setting through pushing POWER OFF 2 1 3 programming of the fan tray UEL 03 In conjunction with UEP XX CEP By following the steps showed at point 2 1 2 you have to change the sensitiveness of the displayed currents on the channels 12V and 24V UEP 10 25mV A UEP 21 22 50mV A 2 1 4 Remote control optional W Ie Ne R Fan trays are optionally
14. equipped with a CAN IEC IEEE or CAENET interface connector as well as the correspondent interface Further details see in a separate manual 2 1 4 1 CAN bus interface operation May 05 8 00Sachnummer A0O Users Manual NIM CAMAC W le Ne R Plein amp Baus GmbH If equipped with the optional CAN bus interface the front panel is equipped with additional elements for network operation SWITCHES ADDR CAN bus crate address LOCAL not used LED INDICATORS LOCAL green large LED lights when net is OK The 9 pin Sub D connector for CAN bus interfacing is prepared according to CiA DS 102 1 Line ii Comment reserved by CiA CAN_L bus line dominant low Ground reserved by CiA reserved by CiA reserved by CiA failure signal To change the CAN bus address the ADDR switch has to be pressed The address can be selected within the range 1 127 The chosen net address is displayed on the fan tray display If the display has been showing another parameter voltage fan speed 9 before changing the net address it will return to the previous display To shut the crate for remote control the position CANBUS DISABLED has to be chosen May 05 9 00Sachnummer A0O Users Manual NIM CAMAC W le Ne R Plein amp Baus GmbH Within the W I Ne R CAN bus protocol a broadcast call to all connected crates is possible see CAN BUS Interface report The address for this
15. front panel The EN 50 081 for generic emissions as well as the EN 50 082 for immunity standards in particular EN 55 011 RFI rejection incl VDE 0871 class B and EN 55 022 electromagnetic compatibility is accomplished The insulation performs the EN 60 950 ISO 380 VDE 0805 SELV Furthermore are considered UL 1950 UL 1012 UL 478 C 22 2 950 C 22 2 220 234 Therefore the CS 336 power supplies can fulfil the CE rules comprehensively and will CE marked for use at industrial power nets as well as for all power nets if PFC is installed The PS 336 features the same topics but does not fulfil the EN 60 950 The power packs are readily replaceable The maximum output power is 1650W if mains voltage is gt 210VAC May 05 18 00Sachnummer A0O 2 4 1 2 4 2 Users Manual NIM CAMAC W le Ne R Plein amp Baus GmbH The above rated currents are the nominal values Limits are programmable at least to 110 of nominal currents These limits can be set to lower values by user if a UEL 03 fan tray has been used Turning on the power supply all voltages reach the nominal values nearly simultaneously within 50ms 2 5ms whereby the voltages versus time curve shows a monotonic behavior The start off time which corresponds to a value of 10 of the nominal voltages after 2 5ms By the help of the remote sense lines an output voltage compensation of at least 0 5V at full load is possible The 336 series are showing an excellent long time stabili
16. hift along the fold back characteristic Voltage U ay 05 14 00Sachnummer AO Users Manual NIM CAMAC W le Ne R Plein amp Baus GmbH I short I knee Current I This procedure comes to an end at output voltage U nearly 0 and I Ishort The parameters Iknee and Ishorr may be adjusted at R136 and R135 Dual tracking For some applications of the power supply it is important that during turn on or turn off transients opposite voltages have the same absolute value This feature is achieved by a small additional circuit R117 and R 217 are of the same resistance Therefore the diode D103 clamps the bases of Q107 and Q207 to nearly 0 35V and both transistors are non conducting Any nonsymmetrical output voltage shifts this bias to nonsymmetrical levels one transistor becomes conductive and acts on the voltage control loop until both outputs are nearly symmetrical to the ground The total regulator circuit comprises 3 integrating control loops for output voltage fold back characteristic dual tracking To avoid difficulties when servicing this circuit it is recommended to open jumper B3 The regulator boards are enabled through U103 203 when the soft start relay in HSPOI board has to be switched on by 100Hz signal on UBW control board 2 3 2 Monitoring and alarming signals UEP 10 21 22 In case of over temperature a yellow LED lights and a buzzer sounds Mains are switched off In case of overload a red LED lights and a buz
17. lugged into a NIM or CAMAC crate which is designed according to the CERN standard CAMAC note 64 04 or NIM 8120 8053 from the front the UEL 03M fan tray and control unit occupies the two units of the crate below the CAMAC or NIM slots Three axial DC fans provide a sufficient air flow to dissipate the heat generated in the modules The UEL 03M fan tray can be operated in two different air inlet modes May 05 3 00Sachnummer A0O Users Manual NIM CAMAC W le Ne R Plein amp Baus GmbH In the standard mode the air is taken from the front and then pushed upwards to the modules A bottom side air inlet for full cooling efficiency can be reached by removing the bottom plate of the fan tray and mounting an optional front cover The maximal air flow reached in this mode is greater then 540 m3 h and shows a good homogeneity Thus up to 1600 W may be dissipated by the air flow As depicted in fig 1 the maximum air flow as well as the static pressure depends on the air resistance given by the plugged in modules Note that this maximum value may be diminished by empty not covered slots Working with front air inlet reduces the airflow to 400 m h and the homogeneity is not so excellent In this mode about 800 1000W can be cooled m O ze t T Fi High impedance Ais UEL 05 centrifugal fan oF S 10 2 UEL 03 Fb axial d c fans er F UEL 01 02 BF axial a c fans a TA a 120 290 308 400 506 200 Air Flow
18. nitoring 6V current return OV voltage warning 12V current status warning 2 3 Power Supply UEP CEP 10 21 22 2 3 1 Regulator boards UEP 10 21 22 The 6 control circuits for the 6V 12V 24V are of the similar design Therefore the 24V channel may be representative The powertransistor T16 on the rear side heat sink are controlled by the amp U101 RGL 03 followed by 2 driving transistors Q 101 Q102 connected to an auxiliary voltage UH Set point for the voltage control loop is derived from reference element D108 biased sense and sense return lines while the output DC level is measured through the divider R119 R120 with voltage adjust pot R134 Resistors R124 and R125 connect sense lines to the power path In case of a failure example broken lines uncontrolled voltage levels are avoided All outputs are short circuit protected by means of an electric circuit providing a fold back characteristic This circuit works as follows The voltage drop across R110 is a value of output current If this current increases above a certain level defined by pot R136 Q105 becomes non conducting In consequence Q104 begins to draw current from the voltage regulation loop an transistor Q101 Q102 and further the output power transistors reduce the output current The output voltage of the power supply begins to drop This drop reduces the bias of Q105 and due to this feedback output voltage and current of the supply s
19. ow output level bad status In follow of this output for status LED becomes low level off and flip flop U17 1 gets a reset trigger after a small delay of R59 C9 The status bit relay K 1 switch in pos 4 1 The fan tray buzzer will be activated by U16 1 and Q2 Condition for proper working of adjusted discriminators is an absolute value of 3V at TP8 4V at TP10 2V at TP12 each 5 against ground TP1 2 3 5 Calibration of output voltage UEP 10 52 53 66 frontside of UEP 10 24V 12V 6V O O O 24V 12V 6V O 0O IO top view Users Manual NIM CAMAG W le Ne R Plein amp Baus GmbH backside of UEP 10 Voltages can be set from by using the trim pots on the top of the power supply 2 3 6 Calibration of output voltage UEP 21 22 O 6V O 12V O 24V frontside of UEP 21 22 backside of UEP 10 Voltages can be set from by using the trim pots on the top of the power supply 2 3 7 Pin assignment PG 28 for M power supplies to monitor PG 29 Power failure monitor 12 12V current monitor 32 OV signal 8 12V current return monitor 33 Status monitor 11 24V current monitor 13 Status return monitor 23 24V current return monitor 14 Inhibit 26 24V current monitor 19 Disable 28 24V current return monitor 20 May 05 17 00Sachnummer A0O 2 4 Users Manual NIM CAMAC W le Ne R Plein amp Baus GmbH Rearming 5V input 35 6V monito
20. r 3 Rearming 5V return 34 6V monitor 4 6V current monitor 15 12V monitor 2 6V current return monitor 16 12V monitor 5 6V current monitor 17 24V monitor 1 6V current return monitor 18 24V monitor 6 12V current monitor 30 0V monitor 9 12V current return monitor 31 Power supply PS CS 336 The CAMAC power supply of the 336 series are micro processor controlled power supplies designed in the high density W Ie Ne R cavity technology which provides an extremely low noise output voltage The PS 336 is produced according to the CERN Specification while the CS 336 is designed according to the CE rules The predominate detail is the wiring of the mains between power supply and fan tray which has to be outfitted either as CERN version PS types or as CE version CS types CE types feature a separate powercord plugged on top of the power supply box and feed to the rear side of the fan tray where it is fixed by a cable gland The power box includes a power factor corrected mains input module PFC with mains filters fuse softstart circuit primary switching regulators and PG 27 connector The AC input voltage range is 92 264 V 47 63 Hz whereby the input is protected by a slow blow fuse 10A 250V The PFC module works according to EN 61000 3 EN 61000 2 A solid state relay connects the power supply to AC mains after finishing the soft start routine DC on off will be made by the POWER ON OFF switch mounted at the fan tray
21. s are available Output 6V 6V 12V 12V 24V 24V Mains Mains Mains Type 230VAC 115VAC 100VAC PS CS output output output 336H 65A 65A 10A 10A 1250W 900W 750W 336H12 65A 65A 10A 10A 10A 1 10A 1500W 1 900W 750W 336VH 80A 80A 10A 10A 1400W 900W 750W 336VH12 80A 80A 10A 10A 10A 10A 1650W 900W 750W The Type H and VH use the Y1 Y2 with 6V 6V in parallel to distribute 80A May 05 23 00Sachnummer AO
22. ternal resistors Buzzer alarm and LED s for status bad overload overtemperature if supported by used power supply Weight 4 kg UEL CEL 01 unit can be operate in two different airflow modes In the standard mode the air is taken from the front A bottom side air flow can be reached by removing the bottom plate and mounting an optional front cover The max airflow is much higher than 380m h and shows a good homogeneity 1 2 2 UEL 03 Fan Trays LX Fan tray The UEL 03M is the W Ie Ne R standard Fan tray which conforms the CERN specification entirely and adds some interesting features like variable fan turning alphanumerical display etc The W Ie Ne R UEL 03M is a modular fan tray unit for use in NIM Ol or CAMAC crates which conform the CERN standard Three built in DC fans with variable fan speed produce an air flow large is enough to dissipate the heat produced by the plugged in NIM or CAMAC modules The micro processor based fan tray unit is equipped with an alphanumeric display to inform about voltages currents temperatures power and fan speed In case of fail functions this display can be used as a diagnostic system for trouble shooting If used together with the PS 336 W IE NE R high power CAMAC power supply software controlled current limits can be defined by the help of the front panel display and switches Additional the unit can be prepared with an interface for crate remote control IEC HS CAENET or CANbus P
23. ty Under constant conditions the maximum voltage drift is lower than 10mV or 0 1 within 24 hours or 1 within 6 months The temperature coefficient of the output voltage is less than 2 107 K Adjustment All output voltages can be adjusted manually with potentiometers or switches on the power supply top U2 24V Channel selection U6 24V C 0 U0 7 U7 Ul 12V U5 12V U4 6V U0 6V C U7 NC Adjustment U8 NC Pin assignment PG 28 for M power supplies to monitor PG 29 see diagram below 2 3 7 May 05 19 00Sachnummer AO Users Manual NIM CAMAG W le Ne R Plein amp Baus GmbH APPENDIX A Technical details UEP 10 Linear regulated data UEP 10 600W Input Derating Noise and ripple Regulation load Recovery time Output impedance Temperature error Thermal protection Current limit Characteristics Voltage Options for power supplies type M 230V 10 15 48 63 Hz inrush current limited to lt 15A mains filter fuse protection 600W output up to 42 C with a derating of 2 K up to 60 C full load lt 0 6mV eff lt 3mVpp ImV at 80 rated power 10 to 100 Uout lt 0 05 line 10 Uout lt 0 02 load change 10 to 100 lt 0 15 ms static lt 0 2mOhm dynamic at 100kHz lt 0 3 Ohm lt 5 10 K overheating protection by thermal sensors 3 fold adjusted to rated current short circuit protected by fold back characteristic short circuit current lt 3A resp
24. u22040202 2020 snnesnnesnnnennnnnnonsnennennenneenn 10 2 2 1 CAMAC Bin UEC 01 Pin assignment PG 26 to power supply PG27 10 2 2 2 NIM UEN 01 03 Pin assignment PG 26 to power supply PG27 12 2 2 3 NIM UEN 01 Pin assignment PG 32 to fan tray PG 31 13 2 3 Power Supply UEP CEP 10 21 22 issii osa oan eit ida 14 23 1 Temperature sens rs nn sen a a etd E a Reville ann 16 2 3 2 Adjustment a na i EEEE E AEE tale toe st lanesbiidecestousdo etel eases 16 2 3 3 Calibration of output voltage UEP 10 52 53 66 oe ceeeceeeteceesteceeeeeeees 16 2 3 4 Calibration of outputvoltage UEP 21 22 oo eeceseeeeeeneeeneecnaecnaecnaeenaeens 17 2 3 5 Pin assignment PG 28 for M power supplies to monitor PG 29 17 2 4 Power s pply PS ES 336 2 ei tank 18 24 1 Adjustment 2 028 rennen A Eer NE ia aE AE h aee 19 2 4 2 Pin assignment PG 28 for M power supplies to monitor PG 29 19 APPENDIX A Technical details ninenin an a 20 May 05 ii 00Sachnummer AQ Users Manual NIM CAMAC W le Ne R Plein amp Baus GmbH 1 General Information All Wiener NIM and CAMAC Crates consist of a bin a fan tray except UEN 03 and a power supply The NIM power supplies are almost always linear regulated while the CAMAC power supplies are either linear till 600W or switching noise technology 1 1 NIM CAMAC bins 1 1 1 NIM Bin UEN 01 The UEN 01 is a 7U
25. zer sounds Temperature warning is a special option which operates the over temperature LED before the max temp level is reached May 05 15 00Sachnummer A0O Users Manual NIM CAMAC W le Ne R Plein amp Baus GmbH 2 3 3 Temperature sensors All linear regulated power supplies are controlled with 4 independent temperature sensors Two are placed at the top of the heat sink one is placed on the cooler and one sensor is inside the transformer If one of this four sensors exceed the maximum temperature level the temp off function will interrupt the AC mains circuit 2 3 4 Adjustment First all DC outputs should be checked if necessary calibrated If available the PCB monitoring board should be extended with an adapter board extender card to avoid accidental short circuits caused by measuring probes If power supplies with suffix M have been used the first step should be to check the references against TP 8 See Drawing 1065440 if the input of the window discriminators has to be balanced The positive outputs may be adjusted by R1 24V R2 12V R3 6V to an output of the op amps of 0V 0 005V Measurement has to be done via testpoints TP14 11 9 against TP8 The negative voltages are inverted by U7 1 U7 2 and U8 1 and adjusted by R4 24V R5 12V R6 6V to OVoutput of U 3 1 U 5 2 and U 5 1 TP6 3 2 against TP8 An op amp output swing of 1V reach the threshold points of the window discriminators which generate by l
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