English dropdown-ico

Manual RayTek 54301

93 pages 1.59 mb
Download

Go to site of 93

Summary
  • RayTek 54301 - page 1

     MI Miniature Infrared Sensor              Operating Instructions Rev. E 10/2004 54301 Noncont act T emper atur e M easur emen t ...

  • RayTek 54301 - page 2

       Declaratio n  of  Conformity  for  the  European  Communit y This  instrument  conforms  to:  EMC:  IEC/EN  61326 ‐ 1  Safety:  EN  61010 ‐ 1:1993  /  A2:1995     ...

  • RayTek 54301 - page 3

     Contacts  Europe  Raytek  GmbH  Berlin,  Germany  Tel:  +49  30  478008  –  0   +49  30  478008  –  400  (Ventes)  Fax:  +49  30  4710251  raytek@raytek.de USA  Raytek  Corporation  Santa  Cruz,  CA  USA  Tel:  +1  831  458  –  1110 ? ...

  • RayTek 54301 - page 4

     W ARRANTY  The  manufacturer  warrants  this  ins trument  to  be  free  from  defects  in  material  and  workmanshi p  under  normal  use  and  service  for  the  period  of  two  years  fr om  date  of  purchase.  This  warranty  extends  only ...

  • RayTek 54301 - page 5

     T ABLE  OF  C ONTENTS  1  SAFETY  INSTRUCTIONS............................................ 1 2  DESCRIPTION ............................................................... 3 3  TECHNICAL  DATA ...................................................... 4 3.1  M EASUREMENT  S PECIFICATIONS ............................... ...

  • RayTek 54301 - page 6

     5.3.1  Signal  Output ................................................... 19 5.3.2  Head  Ambient  Temp.  /  Alarm  Out p ut ............. 20 5.3.3  Thermo couple  Output ....................................... 22 5.4  I NPUTS  FTC.............................................................. 23 5.4.1  Emi ...

  • RayTek 54301 - page 7

     8  ACCESSORIES ............................................................. 46 8.1  O VERVIEW ................................................................ 46 8.2  A DJUSTABLE  M OUNTING  B RACKET ......................... 48 8.3  F IXED  M OUNTING  B RACKET .................................... 49 8.4  A IR  P ...

  • RayTek 54301 - page 8

     11.6.2  Analog  Output,  Scaling ................................. 72 11.6.3  Alarm  Output................................................. 72 11.6.4  Factory  default  values ..................................... 72 11.6.5  Lock  Mode ....................................................... 73 11.6.6  Mode  ...

  • RayTek 54301 - page 9

    Safety  Instru ctions  1  Safety  Instructions  This  document  contains  important  infor mation,  which  should  be  kept  at  all  times  with  the  instrumen t  during  its  operation al  life.  Other  users  of  this  instrument  should  be  given  ...

  • RayTek 54301 - page 10

    Safety  Instru ctions  Operating  Ins tructions  The  following  symbols  are  used  to  highlight  essential  safe ty  information  in  the  operation  in structions:  Helpful  information  regarding  the  optimal  use  of  the  instrume nt.  Warnings  concerning ? ...

  • RayTek 54301 - page 11

    Description  2  Description  The  miniature  infrared  sensor s  MI  are  noncontact  infrared  temperature  me asurement  syste ms.  They  accurately  and  repeat  ably  measure  the  amoun t  of  energy  emitted  from  an  object  and  convert  that  ener ...

  • RayTek 54301 - page 12

    Technical  Data  3  Technical  Data  3.1  Measur ement  Specific ations  Temperature  Range  LT ‐ 40  to  600°C  ( ‐ 40  to  1112°F)  for  J ‐ Thermocouple: ‐ 25  to  600°C  ( ‐ 13  to  1112°F)  Spectral  Response  LT  8  to  14 μ m  Re ...

  • RayTek 54301 - page 13

    Technical  Data  Temperature  Resolution  LT  ±  0.1  K  (±  0.2°F)*   ±  0.25  K  (±  0.5°F)**  At  ambient  temperature  23°C  ±  5°C  (73°F  ±  9°F)  *  For  a  zoomed  temperat ure  span  of  300°C  (600°F)  **  For  the  ...

  • RayTek 54301 - page 14

    Technical  Data  3.2  Optica l  Specifications  Optical  Resolution  D:S  MID,  MIC  2:1  or  10:1  MIH  10:1  At  90%  energy  in  minimum  and  distanc e  400  mm  (15.7  in.)   Distance: Sensor to Object [in] Spot Diameter [in] Spot Diameter [mm] Distance: Sensor to ...

  • RayTek 54301 - page 15

    Technical  Data  3.3  Electric al  Specifications  Power  Supply  Voltage  12  to  24  VDC  Current  100  mA  Outputs  1.  Output  (OUT)  0  to  20  mA,  or  4  to  20  mA,  or  0  to  5  V,  or  Thermocouple  (J  or  K)  2.  Output ...

  • RayTek 54301 - page 16

    Technical  Data  3.4  Environmental  Specif ications  Ambient  Temperature  MIH  sensing  head  0  to  180°C  (32  to  356°F)  MIC  sensing  hea d  0  to  125°C  (32  to  257°F)  MID  sensing  head  0  to  85°C  (32  to  185°F)  MID  with ...

  • RayTek 54301 - page 17

    Technical  Data  3.5  Dimensions   Standard cable length 1 m (3 ft.) MID/MIC: Ø 5 mm (0.2 in) MIH: Ø 3 mm (0.12 in) Figure  2:  Dim ensions  of  Se nsing  Head   2 mounting holes, Ø 4.5 mm ( 0.17 in ) Figure  3:  Dim ensions  of  E lectronic  Box  MID  9  ...

  • RayTek 54301 - page 18

    Technical  Data  3.6  Scope  of  Delivery  The  scope  of  delivery  includes  the  following:  • Sensing  head  • 1  m  head  cable  • Mounting  nut  • Electronic  box  • Operating  instruct ions  10  MID  ...

  • RayTek 54301 - page 19

    Basics  4  Basics  4.1  Measur ement  of  Infrar ed  Temperature  All  surfaces  emit  infrared  radiation  The  in tensity  of  this  infrared  radiation  changes  according  to  the  temperatur e  of  the  object.  Depending  on  the  materia l  and  s ...

  • RayTek 54301 - page 20

    Basics  4.2  Emissivity  of  Target  Object  To  determine  the  emissivity  of  the  target  object  refer  to  section  12.1  Determination  of  Emissivity  on  page  80.  If  emissivity  is  low,  measured  results  could  be  falsified  by  int ...

  • RayTek 54301 - page 21

    Basics  4.5  Electric al  Interference  To  minimize  electrical  or  electromagnetic  interference  or  “noise”  be  aware  of  the  following:  • Mount  the  uni t  as  far  away  as  possible  from  potential  sources  of  electrical  interference  ...

  • RayTek 54301 - page 22

    Installation  5  Installation  5.1  Positionin g  Sensor  location  depends  on  the  application.  Before  deciding  on  a  location,  you  need  to  be  aware  of  the  ambient  temp erature  of  the  location,  the  atmospheric  quality  of  the  l ...

  • RayTek 54301 - page 23

    Installation  best good incorrect Sensor Target greater than spot size Target equal to spot size Target smaller than spot size  Figure  4:  Proper  Sensor  Placement  5.2  Wiring  5.2.1  Sensor  Head  Cable  The  manufacture r  preinstalls  the  sensor  head  cable  between  sensor  ...

  • RayTek 54301 - page 24

    Installation  5.2.2  Cable  Preparati o ns  You  need  to  connect  the  power  supply  (12  to  24  VDC)  and  the  signal  output  wires.  Use  only  cable  with  outside  diameter  from  4  to  6  mm  (0.16  to  0.24  in),  AWG  24.  Th ...

  • RayTek 54301 - page 25

    Installation   Preinstalled cable to sensor head Output signal and p ower connector bloc k Cable that has to be installed b y the user Figure  6:  Connecting  of  Cables  to  the  Electronic  Box  5.  Put  the  following  on  the  cable  (as  shown  in  the  figure  above):  th ...

  • RayTek 54301 - page 26

    Installation  5.3  Outputs   Electronic Box 4 to 20 m A 0 to 20 m A J or K 0 to 5 V Signal Output Head Ambient Temp. or Alarm 0 to 5 V 12 to 24 VDC Power Figure  7:  Signal  Outputs  and  Power  Supply  18  MID  ...

  • RayTek 54301 - page 27

    Installation  5.3.1  Signal  Output  Power + Power – Signal Ground Signal Out p ut Figure  8:  Wiring  of  the  Signal  Output  (mA  or  V)  The  signal  output  can  be  configured  either  as  current  or  as  voltage  output.  The  minimum  load  impedanc ...

  • RayTek 54301 - page 28

    Installation  5.3.2  Head  Ambient  Temp.  /  Alar m  Output  This  output  can  be  configured  either  as  output  for  the  head  ambient  temperature  (default  configuration)  or  as  an  alarm  output.  Power + Power – Head Ambient Temp. Ground Figure  10 ...

  • RayTek 54301 - page 29

    Installation  You  may  use  a  solid  state  relay  for  the  alarm  output.  The  outp ut  is  short  circuit  resistant  with  100 Ω out put  imped ance.  The  alarm  output  is  only  enabled  through  the  DataTemp  MultiDrop  software,  see ...

  • RayTek 54301 - page 30

    Installation  5.3.3  Thermocouple  Output  If  you  are  using  a  J ‐ or  K ‐ thermocouple  you  must  inst all  a  compensation  cable.  The  cable  is  available  as  an  accessory  (XXXCI1CB25  for  Type  J,  XXXCI2CB25  fo r  Type  K)  wit ...

  • RayTek 54301 - page 31

    Installation  5.4  Inputs  FTC  The  three  inputs  FTC1,  FTC2,  and  FTC3  are  used  for  the  external  control  of  the  unit.  All  input  funct ions  are  enabled  through  the  Dat aTem p  MultiDrop  software  only,  see  the  software  hel ...

  • RayTek 54301 - page 32

    Installation  5.4.1  Emissivity  Setting  (analog  contr olled)  The  input  FTC1  can  be  configured  to  accept  an  analog  voltage  signal  (0  to  5  VDC)  to  provide  real  time  emissivi ty  setting.  The  following  table  show s  the  relat ...

  • RayTek 54301 - page 33

    Installation  5.4.2  Emissivity  Setting  (digital  controlle d)  The  sensor’s  electronics  contains  a  table  with  8  pre ‐ installed  settings  for  emissivity.  To  activate  the se  emissi vity  settings,  you  need  to  have  the  inputs  FTC1,  F ...

  • RayTek 54301 - page 34

    Installation  5.4.3  Ambient  Background  Temperature  Compensatio n  The  sensor  is  capable  of  improving  the  accuracy  of  target  temperature  me asurements  by  taking  into  account  the  ambient  or  background  temperature.  This  featu re  is  use ...

  • RayTek 54301 - page 35

    Installation  • Ambient  background  temperature  compensation  from  a  second  temperature  sensor  (infrared  or  contact  te mperature  sensor)  ensures  extremely  accurate  results.  For  example,  the  outpu t  of  the  second  unit,  set  for  mV  ou ...

  • RayTek 54301 - page 36

    Installation  5.4.4  Trigger  and  Hold  Function  The  FTC3  input  can  be  used  as  ex ternal  trigger  in  conjunction  with  the  software  trigger  mode  setting  “Trigger”  or  “Hold”.   External switch : - contact relay, - transistor, - TTL gate, … F ...

  • RayTek 54301 - page 37

    Installation  Hold:  This  mode  acts  as  external  generated  hold  function.  A  transition  at  the  input  FTC3  from  logical  high  level  to ward  logical  low  level  will  transfer  the  current  temperature  toward  the  output.  This  temp ...

  • RayTek 54301 - page 38

    Installation  5.5  Connec ting  to  the  PC  via  RS232  The  RS232  interface  comes  with  each  model.  Connect  a  single  unit  with  a  RS232  COM  port  by  using  the  connection  kit  RAYMINC ON.  to the computer’s COM port Transfer Mode: • 9600 k ...

  • RayTek 54301 - page 39

    Installation  5.6  Installin g  of  Multiple  Sensors  vi a  RS485  The  distance  between  the  sensor  and  a  computer  can  be  up  to  1200  m  (4000  ft.)  via  RS485  interface.  This  allows  ample  distance  from  the  harsh  envir onment ...

  • RayTek 54301 - page 40

    Installation  For  an  installation  of  two  or  more  sensor s  in  a  RS485  network,  each  sensor  is  wired  parallel  to  the  othe rs.  You  may  connec t  up  to  32  units.  Make  sure  to  deactiva te  the  preset  shunt  resistor  ...

  • RayTek 54301 - page 41

    Installation  Go  to  the  menu  <Setup>  <Sensor  Setup>,  and  then  select  the  register  <Advanced  Setup>.  Use  <Polling  Address>  for  selecting  the  requested  address.   Figure  23:  Address  Settin g  Step ‐ by ‐ step  ins ...

  • RayTek 54301 - page 42

    Operation  6  Operation  Once  you  have  the  sensor  positioned  and  connected  properly,  the  system  is  ready  for  continuous  operation.  The  operation  of  the  sensor  can  be  done  by  means  of  the  built ‐ in  control  panel  on ...

  • RayTek 54301 - page 43

    Operation  6.2  Setting  of  Modes  You  can  easily  determine  the  unit’s  mode  or  parameter  by  doing  the  following:  Press  the  <Mode>  butto n  until  the  symbol  for  the  actual  set  mode  appears  in  the  display,  e.g. ? ...

  • RayTek 54301 - page 44

    Operation  Display  Mode Range C  Target Temperature* (effected by signal processing) not adjustable A Head Ambient Temper ature not adjustable T Target Temperature (not effected by signal processing) not adjustable Output Mode mV mV output (default) TCK thermocouple type K output TCJ thermocouple type J output 4 - 20 4 - 20 mA current loo ...

  • RayTek 54301 - page 45

    Operation  6.3  Setting  the  Output  Jumper  In  addition  to  the  set  mode  in  the  unit,  see  section  6.2  Setting  of  Modes  on  page  35,  the  unit’s  outputs  must  be  configured  by  switching  the  <Ou tput >  jumper  in ...

  • RayTek 54301 - page 46

    Operation  6.4  Post  Processing  6.4.1  Averaging  Averaging  is  used  to  smooth  the  output  signal.  The  signal  is  smoothed  depending  on  the  defined  time  basis,  whereby  the  outp ut  signal  track s  the  detector  signal  with  signi ...

  • RayTek 54301 - page 47

    Operation  object),  the  output  signal  reaches  only  90%  magnitude  of  the  actual  object  temperatur e  after  the  defined  average  time.  MID  39  ...

  • RayTek 54301 - page 48

    Operation  6.4.2  Peak  Hold  The  output  signal  follows  the  object  temperature  until  a  maximum  is  found.  Once  the  hold  time  is  exceeded  the  output  signal,  tracks  and  output  the  act ual  object  temperature  and  the  algori ...

  • RayTek 54301 - page 49

    Operation  6.4.3  Valley  Hold  The  output  signal  follows  the  object  temper ature  until  a  mini mum  is  found.  Once  the  hold  time  is  exceeded  the  output  signal,  tracks  and  output  the  act ual  object  temperature  and  the  al ...

  • RayTek 54301 - page 50

    Operation  6.4.4  Advanced  Peak  Hold  This  functi on  searches  the  sensor  signal  for  a  local  maximu m  (peak)  and  writes  this  value  to  the  output  until  a  new  local  maxi mum  is  found.  Before  the  algorithm  restarts  search ...

  • RayTek 54301 - page 51

    Operation  6.4.5  Advanced  Valley  Hold  This  function  works  similar  to  the  advanced  peak  hold  function,  except  it  will  search  the  signal  for  a  local  minimum.  6.4.6  Advanced  Peak  Hold  with  Averaging  The  output  signal  d ...

  • RayTek 54301 - page 52

    Operation  6.5  Factory  Defa ults  For  activating  the  unit’ s  factory  default  value s  press  the  <Mode/Up>  buttons  on  the  electronic  board  simultaneously.  The  factory  default  values  are  to  be  found  in  section  11 .8  Command ...

  • RayTek 54301 - page 53

    Options  7  Options  Options  are  items  tha t  are  factory  installed  and  must  be  specified  at  time  of  order.  The  following  are  available:  • Longer  cable  lengths:  3  m  /  9.8  ft.  (…CB3),  8  m  /  26.2  ft.  (…CB8) ...

  • RayTek 54301 - page 54

    Accessories  8  Accessories  8.1  Overvi ew  A  full  range  of  accessories  for  various  applicatio ns  and  industrial  environme nts  are  available.  Accessories  include  items  that  may  be  ordered  at  any  time  and  added  on ‐ site:  • Adj ...

  • RayTek 54301 - page 55

    Accessories  Sensing Head 2:1 Adjustable Bracket Electronic Box Sensing Head 10:1 Fixed Bracket  Figure  30:  Standard  Mounting  Accessories  MID  47  ...

  • RayTek 54301 - page 56

    Accessories  8.2  Adjustable  Mountin g  Bracket   Figure  31:  Adjustable  Mo unting  Bracket  (XXXMIACAB)  48  MID  ...

  • RayTek 54301 - page 57

    Accessories  8.3  Fixed  Mounting  Bracket   Figure  32:  Fixed  Mounting  Bracket  (XXXMIACFB)  MID  49  ...

  • RayTek 54301 - page 58

    Accessories  8.4  Air  Purging  Ja cket  The  air  purge  jacket  is  used  to  keep  dust,  mo isture,  airborne  particles,  and  vapors  away  from  the  sensing  he ad.  Clea n,  oil  free  air  is  recommended.  The  air  purge  jacket  with s ...

  • RayTek 54301 - page 59

    Accessories   Figure  34:  Mounting  the  Air  Purge  Jacket  1.  Remove  the  sensor  (1) and  cable  from  the  electro nic  box  by  disconnecting  the  wires  from  the  electronic  box.  2.  Open  the  Air  Purging  Jacket  (3,  4) and  scr ...

  • RayTek 54301 - page 60

    Accessories  8.5  Air  Co oling  System  The  sensing  head  can  operate  in  ambient  temperatures  up  to  200°C  (392°F)  with  the  air ‐ cooling  system.  The  air ‐ cooling  sy stem  comes  with  a  T ‐ adapter  including  0.8  m  (7.5  in ...

  • RayTek 54301 - page 61

    Accessories   Air Flow: 60 l / min (2.1 cubic feet per minute) 50 l / min (1.8 cfm) 40 l / min (1.4 cfm) Hose Length Figure  37:  Maximum  Ambient  Temperature  depending  on  Air  Flow  and  Hose  Length  Note :  “Hose  Length“  is  the  length  of  hose  exposed  to  high ...

  • RayTek 54301 - page 62

    Accessories   Figure  38:  Air  Cooling  System:  Purgi ng  Jacket  The  Air  Cooling  Sys tem  consists  of:  (1)  sensing  head  (2)  inner  plastic  fitti ng  (air  purging  jacket)  (3)  front  part  of  the  air ‐ purging  jacket  (4)  back  ...

  • RayTek 54301 - page 63

    Accessories   Figure  39:  Air  Cooling  System:  T ‐ Adapter  MID  55  ...

  • RayTek 54301 - page 64

    Accessories   Hose: inner Ø : 9 mm (0.35 in) outer Ø : 12 mm (0.47 in) Figure  40:  Dimensions  of  Air  Cooling  System  56  MID  ...

  • RayTek 54301 - page 65

    Accessories  8.6  Right  Angle  Mirror  The  right  angle  mirror  comes  in  two  different  versions:  XXXMIACRAJ  right  angle  mirror  as  accessory  for  air  purging  jacket  or  air  cooling  system  XXXMIACRAJ1  right  angle  mirror  with  ...

  • RayTek 54301 - page 66

    Accessories  8.7  Box  Lid   Figure  43:  Box  Lid  with  Vi ew  Port  for  Post  Ins tallations  (XXXMIACV)  58  MID  ...

  • RayTek 54301 - page 67

    Accessories  8.8  Protective  Window  The  protective  wind ow  can  be  used  to  protect  the  sensing  head  from  dust  and  other  contamin ation.  This  should  be  applied  especially  for  sensors  without  a  lens.  These  are  all  m odels ? ...

  • RayTek 54301 - page 68

    Maintenance  9  Maintenance  Our  sales  representatives  and  cust omer  service  are  always  at  your  disposal  for  questi ons  regarding  application  assistance,  calibration,  repair,  and  solutions  to  specific  problems.  Please  contact  your  local ...

  • RayTek 54301 - page 69

    Maintenance  9.2  Fail ‐ Safe  Operat ion  The  Fail ‐ Safe  system  is  designed  to  alert  the  operator  and  provide  a  safe  output  in  case  of  an y  syste m  failure.  The  sensor  is  designed  to  shutdown  the  process  in  the  e ...

  • RayTek 54301 - page 70

    Maintenance  Error  Codes  via  RS232/485  Output Error Code Description T------ Invalid temperature reading T>>>>>> Temperature over range T<<<<<< Temperature under range Table  8:  Error  Codes  (v ia  RS232/485)  Error  Codes  for  the  LCD  Display  Display E ...

  • RayTek 54301 - page 71

    Maintenance  9.3  Sensing  Head  Exchange  MIH  sensing  heads  and  electronic  b oxes  can  not  be  interchanged  with  MID/MIC  sens ing  heads  and  electronic  boxes!  The  head  exchange  requires  to  type  in  the  new  sensing  head  calibra ...

  • RayTek 54301 - page 72

    Software  10  Software  For  use  with  RS232  or  RS485  models,  DataTemp  MultiDrop  softwar e  allows  access  to  the  extended  digital  features  of  the  MID  with  an  easy ‐ to ‐ use  interface.  Compatible  with  WIN  95/98/NT/2000/XP,  DataT ...

  • RayTek 54301 - page 73

    Programming  Guide  11  Programming  Guide  This  section  explains  th e  sensor’s  communication  protocol.  A  protocol  is  the  set  of  commands  that  define  all  possible  communications  with  the  sensor.  The  commands  are  described  along ? ...

  • RayTek 54301 - page 74

    Programming  Guide  11.1  Transf er  Modes  The  unit’s  serial  interface  is  either  RS232  or  RS485,  depending  on  the  model.  Settings:  transfe r  rate:  9.6  kBaud,  8  data  bits,  1  stop  bit,  no  parity,  flow  control:  none  (ha ...

  • RayTek 54301 - page 75

    Programming  Guide  11.2  Gener a l  Command  Structure  Requesting  a  paramete r  (Poll  Mode)  ?ECR  “?“  is  the  command  for  “Request“   “E“  is  the  parameter  req uested   “CR“  (carriage  retu rn,  0Dh)  is  closing  the  reque ...

  • RayTek 54301 - page 76

    Programming  Guide  After  switc hing  the  power  to  “ON“,  the  de vice  is  sending  a  notification:  #XICRLF  “#“  is  the  parameter  for  “Notification“   “XI“  is  the  value  for  the  notifi cation  (her e  “XI“;  unit  swi ...

  • RayTek 54301 - page 77

    Programming  Guide  11.4  Device  Setup  11.4.1  Temperat ure  Calcula tion  U=C  unit  for  the  tempe rature  value  E=0.950  Emissivity  setting  (Cau tion:  according  to  the  sett ings  for  “ES”,  see  section  11.4.2  Emissiv ity  Setting  and  Ala ...

  • RayTek 54301 - page 78

    Programming  Guide  There  are  eight  ent ries  possible  for  emissivity  setting  (1)  and  a  related  set  point  (threshold)  (2).  To  be  able  to  write  or  read  the se  values,  use  the  following  command s:  EP=2  set  pointer  for ? ...

  • RayTek 54301 - page 79

    Programming  Guide  11.4.3  Post  Processing  The  following  parameters  can  be  set  to  deter mine  the  post  processing  mode,  see  section  6.4  Post  Pro cessing  on  page  38.  P=5  peak  hold,  hol d  time:  5  s  F=12.5  valley  hold, ? ...

  • RayTek 54301 - page 80

    Programming  Guide  11.6  Device  Control  11.6.1  Output  for  the  Tar get  Temperature  The  signal  output  can  be  set  to  4  –  20  mA,  0  –  20  mA  or  mV.  If  current  output  is  activated,  the  output  can  provide  a ? ...

  • RayTek 54301 - page 81

    Programming  Guide  XF  factory  default  values  will  be  set  11.6.5  Lock  Mode  The  access  to  the  unit  is  possible  via  serial  interface  (software)  and  via  the  direct  user  input  (mode  butto ns,  LCD  display).  It  is  poss ...

  • RayTek 54301 - page 82

    Programming  Guide  AC=2  compensation  with  an  extern al  voltage  signa l  at  the  analog  input  FTC2  (0  V  –  5V  corresponds  to  low  end  and  high  end  of  temperature  range),  current  ambient  temperature  is  readable  with  com ...

  • RayTek 54301 - page 83

    Programming  Guide  11.7  Multip le  Units  (Multidrop  Mode,  RS485)  Up  to  32  units  can  be  connected  within  a  RS485  networ k,  see  section  5.6  Installing  of  Mult iple  Sensors  via  RS485  on  page  31.  To  direct  a  command  ...

  • RayTek 54301 - page 84

    Programming  Guide  11.8  Command  Set  Description Char Format P B S Legal values Factory default LCD Poll parameter ? ?X/?XX * ?T Set parameter = X/XX= ... * E=0.85 Set parameter without EEPROM storage # X/XX# * E#0.85 Multidrop addressing 001?E * * answer: 001!E0.95 Error message * *Syntax error Acknowledge message ! !P 010 Burst ...

  • RayTek 54301 - page 85

    Programming  Guide  Description Char Format P B S Legal values Factory default LCD Source: emissivity / setpoint for alarm output ES X * * 1=constant number (E=0.950) E=external analogous input FTC1 D= E/XS digital selected FTC1-3 1 Presel. emissivity value EV n.nnn * * 0.100 - 1.100 Valley hold time(4) F nnn.n * * * 0.000 - 998.9 s (999 = in ...

  • RayTek 54301 - page 86

    Programming  Guide  Description Char Format P B S Legal values Factory default LCD Presel. setpoint / relay function SV nnn.n (1) Target temperature T nnn.n * * in current scale (°C / °F) Temperature unit U X * * * C / F C U Poll / Burst mode V X * * P = poll B = burst Poll mode Burst string contents X$ * Multidrop address XA nnn * * 000 ? ...

  • RayTek 54301 - page 87

    Programming  Guide  (3)  $  =  UTQE  (4)  setting  average  /  peak  /  valley  /  advanced  hold  cancels  all  other  hold  modes  (6)  LT:  23°C  (73°F)  (7)  LT:  500°C  (932°F)  (8)  LT:  0°C  (32°F)  (9)  XZ  =  0123  4567  ...

  • RayTek 54301 - page 88

    Appendix  12  Appendix  12.1  Determ ination  of  Emissivity  Emissivity  is  a  measure  of  an  object’s  ability  to  absorb  and  emit  infrared  energy.  It  can  have  a  value  between  0  and  1.0.  For  example  a  mirror  has  an  ...

  • RayTek 54301 - page 89

    Appendix  12.2  Typical  Emissivity  Va lues  The  following  table  provides  a  brief  reference  guide  for  determining  emissivity  and  can  be  used  when  one  of  the  above  methods  is  not  practical.  Emissivity  value s  shown  in  the ? ...

  • RayTek 54301 - page 90

    Appendix  M ETALS Material Emissivity 3.9 µm 5 µm 8 – 14 µm Aluminum Unoxidized 0.02-0.2 0.02-0.2 0.02-0.1 Oxidized 0.2-0.4 0.2-0.4 0.2-0.4 Alloy A3003, Oxidized 0.4 0.4 0.3 Roughened 0.1-0.4 0.1-0.4 0.1-0.3 Polished 0.02-0.1 0.02-0.1 0.02-0.1 Brass Polished 0.01-0.05 0.01-0.05 0.01-0.05 Burnished 0.3 0.3 0.3 Oxidized 0.5 0.5 0.5 Chromium 0 ...

  • RayTek 54301 - page 91

    Appendix  Polished 0.05-0.2 0.05-0.2 0.05-0.1 Rough 0.4 0.4 0. 4 Oxidized 0.2-0.7 0.2-0.7 0.2-0.6 Magnesium 0.03-0.15 0.03-0.15 0.02-0.1 Mercury 0.05-0.15 0.05-0.15 0.05-0.15 Molybdenum Oxidized 0.3-0.7 0.3-0.7 0.2-0.6 Unoxidized 0.1-0.15 0.1-0.15 0.1 Monel (Ni-Cu) 0.1-0.5 0.1-0.5 0. 1-0.14 Nickel Oxidized 0.3-0.6 0.3-0.6 0.2-0.5 Electrolytic 0. ...

  • RayTek 54301 - page 92

    Appendix  N ON -M ETALS Material Emissivity 3.9 µm 5 µm 8 – 14 µm Asbestos 0.9 0.95 Asphalt 0.95 0.95 Basalt 0.7 0.7 Carbon Unoxidized 0.8-0.9 0.8-0.9 Graphite 0.7-0.9 0.7-0.8 Carborundum 0.9 0.9 Ceramic 0.8-0.95 0.95 Clay 0.85-0.95 0.95 Concrete 0. 9 0. 95 Cloth 0.95 0.95 Glass Plate 0.98 0.85 “Gob” 0.9 — Gravel 0.95 0.95 Gypsum 0.4- ...

  • RayTek 54301 - page 93

    Index  Index  Accessories 46 Accuracy 4 Air pressure 12 Air Purge 46 Air Purge Jacket 12 Ambient Temperature 12 Average 60 Control Panel 34, 59 Emissivity 5, 11, 12, 60, 80, 81, 83, 84 Loop impedance 19 Maintenance 60 Mirror 57, 80 Network 32 Noise 13 Optical Resolution 6 Power Supply 60 Repeatability 4 Response Time 4 Spectral Response 4 Spo ...

Manufacturer RayTek Category Thermometer

Documents that we receive from a manufacturer of a RayTek 54301 can be divided into several groups. They are, among others:
- RayTek technical drawings
- 54301 manuals
- RayTek product data sheets
- information booklets
- or energy labels RayTek 54301
All of them are important, but the most important information from the point of view of use of the device are in the user manual RayTek 54301.

A group of documents referred to as user manuals is also divided into more specific types, such as: Installation manuals RayTek 54301, service manual, brief instructions and user manuals RayTek 54301. Depending on your needs, you should look for the document you need. In our website you can view the most popular manual of the product RayTek 54301.

Similar manuals

A complete manual for the device RayTek 54301, how should it look like?
A manual, also referred to as a user manual, or simply "instructions" is a technical document designed to assist in the use RayTek 54301 by users. Manuals are usually written by a technical writer, but in a language understandable to all users of RayTek 54301.

A complete RayTek manual, should contain several basic components. Some of them are less important, such as: cover / title page or copyright page. However, the remaining part should provide us with information that is important from the point of view of the user.

1. Preface and tips on how to use the manual RayTek 54301 - At the beginning of each manual we should find clues about how to use the guidelines. It should include information about the location of the Contents of the RayTek 54301, FAQ or common problems, i.e. places that are most often searched by users in each manual
2. Contents - index of all tips concerning the RayTek 54301, that we can find in the current document
3. Tips how to use the basic functions of the device RayTek 54301 - which should help us in our first steps of using RayTek 54301
4. Troubleshooting - systematic sequence of activities that will help us diagnose and subsequently solve the most important problems with RayTek 54301
5. FAQ - Frequently Asked Questions
6. Contact detailsInformation about where to look for contact to the manufacturer/service of RayTek 54301 in a specific country, if it was not possible to solve the problem on our own.

Do you have a question concerning RayTek 54301?

Use the form below

If you did not solve your problem by using a manual RayTek 54301, ask a question using the form below. If a user had a similar problem with RayTek 54301 it is likely that he will want to share the way to solve it.

Copy the text from the picture

Captcha
New picture

Comments (0)