Data Conversion Attributes (C)
PARAMETER MAXIMUM FIELD SIZE CODENAME DEFINITION XML Element
        <!--  C section \  --> 
MEASUREMENT NAME 32 C-d\DCN GIVE THE MEASUREMENT NAME. <Measurement Name="">
TRANSDUCER INFORMATION   <TransducerInformation>
  <Type />
  <ModelNumber />
  <SerialNumber />
  <SecurityClassification />
  <OriginationDate />
  <RevisionNumber />
  <Orientation />
  <PointOfContact>
    <Name />
    <Agency />
    <Address />
    <Telephone />
  </PointOfContact>
</TransducerInformation>
TYPE 32 C-d\TRD1 TYPE OF SENSOR, IF APPROPRIATE.
MODEL NUMBER 32 C-d\TRD2 IF APPROPRIATE.
SERIAL NUMBER 32 C-d\TRD3 IF APPLICABLE.
SECURITY CLASSIFICATION 2 C-d\TRD4 ENTER THE SECURITY CLASSIFICATION OF THIS MEASURAND.
UNCLASSIFIED - 'U'
CONFIDENTIAL - 'C'
SECRET - 'S'
TOP SECRET - 'T'
OTHER - 'O'.
APPEND THE FOLLOWING: IF RECEIVED TELEMETRY SIGNAL (COUNTS) IS CLASSIFIED, ADD  'R'.   IF EXPRESSED IN ENGINEERING UNITS, THE MEASURAND VALUE IS CLASSIFIED, ADD  'E'.    IF BOTH ARE CLASSIFIED, ADD  'B'.
ORIGINATION DATE 10 C-d\TRD5 DATE OF ORIGINATION OF THIS DATA FILE
DD - DAY  MM - MONTH    YYYY - YEAR
(MM-DD-YYYY)
REVISIONNUMBER 4 C-d\TRD6 SPECIFY THE REVISION NUMBER OF THE DATA PROVIDED.
ORIENTATION 32 C-d\TRD7 DESCRIBE THE PHYSICALORIENTATION OF THE SENSOR.
POINT OF CONTACT:
NAME
AGENCY
ADDRESS
TELEPHONE

24
48
48
20
C-d\POC1
C-d\POC2
C-d\POC3
C-d\POC4
POINT OF CONTACT WITH THE ORGANIZATION THAT PROVIDED THE CALIBRATION DATA.
MEASURAND   <Measurand>
  <Description />
  <Alias />
  <ExcitationVoltage />
  <EngineeringUnits />
  <LinkType />
</Measurand> 
DESCRIPTION 64 C-d\MN1 DESCRIBE THE PARAMETER BEING MEASURED.
MEASUREMENT ALIAS 32 C-d\MNA ALTERNATE MEASURAND NAME.
EXCITATION VOLTAGE 10 C-d\MN2 SENSOR REFERENCE VOLTAGE IN VOLTS.
ENGINEERING UNITS 16 C-d\MN3 DEFINE THE ENGINEERING UNITS APPLICABLE TO THE OUTPUT DATA.
LINK TYPE 3 C-d\MN4 DEFINE THE SOURCE DATA LINK TYPE:   FM (ANALOG) - 'ANA'        PCM - 'PCM'   PAM - 'PAM'        OTHER - 'OTH'.
TELEMETRY VALUE DEFINITION    
BINARY FORMAT 3 C-d\BFM FORMAT OF  THE BINARY INFORMATION:
INTEGER - 'INT'
UNSIGNED INTEGER BINARY - 'UNS'
SIGN AND MAGNITUDE BINARY (+=0) - 'SIG'
SIGN AND MAGNITUDE BINARY (+=1) - 'SIM'
ONE'S COMPLEMENT - 'ONE'
TWO'S COMPLEMENT - 'TWO'
OFFSET BINARY - 'OFF'
FLOATING POINT - 'FPT'
BINARY CODED DECIMAL  -'BCD'
OTHER - 'OTH',  DEFINE IN COMMENTS.
<TelemetryValueDefinition>
  <BinaryFormat />
  <FloatingPointFormat />
</TelemetryValueDefinition>
FLOATING POINT FORMAT 8 C-d\FPF IF BINARY FORMAT IS 'FPT',  SPECIFY WHICH FLOATING POINT FORMAT WILL BE USED.
INFLIGHT CALIBRATION   <InflightCalibration>
  <Stimulus TelemetryValue="" DataValue="">
</InflightCalibration>
NUMBER OF POINTS 1 C-d\MC\N IS INFLIGHT CALIBRATION REQUIRED?  'N' FOR NO OR A NUMBER BETWEEN 1 AND 5, IF IT IS REQUIRED.A MAXIMUM OF FIVE CALIBRATION POINTS MAY BE INCLUDED.
STIMULUS 32 C-d\MC1-n PROVIDE THE STIMULUS FOR THIS CALIBRATIONPOINT.
TELEMETRY VALUE 16 C-d\MC2-n TELEMETRY UNITS VALUE.
DATA VALUE 32 C-d\MC3-n ENGINEERING UNITS VALUE. SCIENTIFIC NOTATION MAY BE USED.
THE ABOVE SET OF THREE ENTRIES MUST BE REPEATED FOR EACH INFLIGHT CALIBRATION POINT.    
AMBIENT VALUE    <AmbientValue>
  <Stimulus TelemetryValue="" DataValue="">
</AmbientValue>
NUMBER OFAMBIENT CONDITIONS 1 C-d\MA\N NUMBER OF STATIC OR SIMULATED CONDITIONS.
TIMULUS 32 C-d\MA1-n DESCRIPTION OF THE STATIC ENVIRONMENT IN WHICH A  NON TEST STIMULUS OR SIMULATOR IS THE DATA SOURCE.
TELEMETRYVALUE 16 C-d\MA2-n TELEMETRY UNITS VALUEF OR THE STATIC STIMULUS.
DATA VALUE 32 C-d\MA3-n ENGINEERING UNITS VALUE FOR THE STATIC OR SIMULATED CONDITION.SCIENTIFIC NOTATION MAY BE USED.
OTHER INFORMATION   <OtherInformation>
  <MeasurementValue>
    <Low />
    <High />
  </MeasurementValue>
  <AlertValue>
    <Low />
    <High />
  </AlertValue>
  <WarningValue>
    <Low />
    <High />
  </WarningValue>
   <SampleRate />
</OtherInformation>
HIGH MEASUREMENT VALUE 32 C-d\MOT1 HIGHEST ENGINEERINGUNIT VALUE DEFINED BYTHE CALIBRATION DATA.SCIENTIFIC NOTATION MAY BE USED.
LOW MEASUREMENT VALUE 32 C-d\MOT2 LOWEST ENGINEERING UNITVALUE DEFINED IN THE CALIBRATION DATA.SCIENTIFIC NOTATION MAY BE USED.
HIGH ALERT LIMIT VALUE 32 C-d\MOT3 HIGHEST ENGINEERINGUNIT VALUE EXPECTED OR SAFE OPERATING VALUE OF THE PARAMETER. ("RED") SCIENTIFIC NOTATION MAY BE USED.
LOW ALERT LIMIT VALUE 32 C-d\MOT4 LOWEST ENGINEERING UNITVALUE EXPECTED OR THE SAFE OPERATING VALUE OF THE PARAMETER. ("RED")  SCIENTIFIC NOTATION MAY BE USED.
HIGH WARNING LIMIT VALUE 32 C-d\MOT5 HIGHEST ENGINEERINGUNIT VALUE EXPECTED OR SAFE OPERATING VALUE OF THE PARAMETER. ("YELLOW") SCIENTIFIC NOTATION MAY BE USED.
LOW WARNING LIMIT VALUE 32 C-d\MOT6 LOWEST ENGINEERING UNITVALUE EXPECTED OR THE SAFE OPERATING VALUE OF THE PARAMETER. ("YELLOW")  SCIENTIFIC NOTATION MAY BE USED.
SAMPLE RATE 6 C-d\SR ENTER THE SAMPLE RATEIN TERMS OF SAMPLES/ SECOND.
DATA CONVERSION
DATE AND TIME RELEASED 19 C-d\CRT DATE AND TIME CALIBRATION WAS RELEASED <DataConversion Type="" DateAndTimeReleased="">
CONVERSION TYPE 3 C-d\DCT DEFINE THE CHARACTERISTICS OFTHE DATA CONVERSION:
NONE - 'NON'
ENGINEERING UNITS:
PAIR SETS - 'PRS'
COEFFICIENTS - 'COE'
DERIVED - 'DER'
DISCRETE - 'DIS'
PCM TIME - 'PTM'
1553 TIME - 'BTM'
DIGITAL VOICE - 'VOI'
DIGITAL VIDEO - 'VID'
SPECIAL PROCESSING - 'SP' (ENTER IN COMMENTS).
OTHER - 'OTH'
ENGINEERING UNITS CONVERSION    
PAIR SETS   <PairSets>
  <Application />
  <OrderOfFit />
  <Pair>
    <TmValue />
    <EuValue />
  </Pair>
</PairSets>
NUMBER OF SETS 2 C-d\PS\N SPECIFY THE NUMBER OF PAIR SETS PROVIDED, n.
APPLICATION 1 C-d\PS1 ARE THE PAIR SETS TO BE USED TO DEFINE A  POLYNOMINAL  CURVE FIT?    'Y' (YES)  OR 'N' (NO).  IF THE ANSWER IS NO, THEN THE  PAIR SETS ARE TO BE USED AS A "TABLE LOOKUP" WITH LINEAR INTERPOLATION BETWEEN THE DEFINED POINTS.
ORDER OF FIT 2 C-d\PS2 SPECIFY THE ORDER OF THE CURVE FIT TO BE PERFORMED, m.  AT LEAST 2 PAIR SETS MUST BE PROVIDED, AND A MAXIMUM OF 32 PAIR SETS MAY BE INCLUDED.  TWELVE OR MORE PAIR SETS ARE RECOMMENDED FOR A FIFTH ORDER FIT.
TELEMETRY VALUE 16 C-d\PS3-n TELEMETRY UNITS VALUE.
ENGINEERING UNITS VALUE 32 C-d\PS4-n ENGINEERING UNITS VALUE.SCIENTIFIC NOTATION MAY BE USED.
REPEAT THE ABOVE FOR THE n DATA SETS.    
COEFFICIENTS   <Coefficients>
  <DerivedFromPairSet />
  <Coefficient N="" />
</Coefficients>
ORDER OF CURVE FIT 2 C-d\CO\N SPECIFY THE ORDER OF THE POLYNOMINAL CURVE FIT, n.
DERIVED FROM PAIR SET 1 C-d\CO1 WERE THE COEFFICIENTS DERIVED FROM THE PAIR SET CALIBRATION DATA PROVIDED ('Y' OR 'N')?  IF YES, PROVIDE A POINT OF CONTACT IN THE COMMENTS RECORD.
COEFFICIENT(0) 32 C-d\CO VALUE OF THE ZERO ORDER TERM (OFFSET). SCIENTIFIC NOTATION MAY BE USED.
N-TH COEFFICIENT 32 C-d\CO-n VALUE OF THE COEFFICIENT OF THE N-TH POWER OF X (FIRST ORDER COEFFICIENT IS THE EQUIVALENT OF BIT WEIGHT). SCIENTIFIC NOTATION MAY BE USED.
REPEAT UNTIL ALL N+1 COEFFICIENTS ARE DEFINED.    
OTHER    
DEFINITION OF OTHER DATA CONVERSION 1000 C-d\OTH DEFINE OTHER DATA CONVERSION TECHNIQUE OR SPECIAL PROCESSING REQUIREMENT. <Other /> 
DERIVED PARAMETER       <Derived>
  <Measurand />
  <Constant />
  <Algorithm />
</Derived>
NUMBER OF INPUT MEASURANDS 2 C-d\DP\N SPECIFY THE NUMBER OF INPUT MEASURANDS USED TO DERIVE THIS PARAMETER.
MEASURAND #N 32 C-d\DP-n SPECIFY THE NAME OF THE N-TH INPUT MEASURAND.
CONTINUE UNTIL ALL n MEASURANDS ARE DEFINED.  
NUMBER OF INPUT CONSTANTS 2 C-d\DPC\N SPECIFY THE NUMBER OF INPUT CONSTANTS USED TO DERIVE THIS PARAMETER
CONSTANT #N 32 C-d\DPC-n SPECIFY THE VALUE FOR THE N-TH CONSTANT. SCIENTIFIC NOTATION MAY BE USED.
CONTINUE UNTIL ALL n CONSTANTS ARE DEFINED.  
ALGORITHM 240 C-d\DPA DEFINE THE ALGORITHM TO BE USED IN DERIVING THE PARAMETER.
DISCRETE   <Discrete>
  <NumberOfIndicators />
  <Event>
    <ConversionData />
    <EventDefinition />
  </Event>
</Discrete>
NUMBER OF EVENTS 2 C-d\DIC\N HOW MANY EVENTS ARE ASSOCIATED WITH THIS DISCRETE FIELD, n?
NUMBER OF INDICATORS 2 C-d\DICI\N NUMBER OF INDICATORS:FOR A PCM SYSTEM, PROVIDE THE NUMBER OF BITS USED FOR THIS DISCRETE SET.  FOR A PAM OR ANALOG CHANNEL, PROVIDE THE NUMBER OF LEVELS USED TO DEFINE THIS DISCRETE SET.
CONVERSION DATA 16 C-d\DICC-n TELEMETRY VALUE, COUNTS FOR PCM, PERCENT OF FULL SCALE FOR PAM OR ANALOG.
PARAMETER EVENT DEFINITION 240 C-d\DICP-n DEFINE THE EVENT FOR THE BIT OR BIT FIELD IN A WORD THAT CORRESPONDS TO A DISCRETE EVENT OR THE PERCENT FULL SCALE VALUE SUCH AS SWITCH ON OR OFF.
CONTINUE TO DEFINE THE EVENTS FOR EACH BIT PATTERN OR VALUE OF THE DISCRETE MEASURAND.    
PCM TIME    
PCM TIME WORD FORMAT 1 C-d\PTM SPECIFY THE PCM TIME WORD FORMAT USED, AS DEFINED IN PARAGRAPH 4.7.
HIGH ORDER TIME - 'H'
LOW ORDER TIME - 'L'
MICROSECOND TIME - 'M'
<PCMTime /> 
1553  TIME    
1553 TIME WORD FORMAT 1 C-d\BTM SPECIFY THE 1553 TIME WORD FORMAT USED, AS DEFINED IN PARAGRAPHS 4.7 AND 8.5.
HIGH ORDER TIME - 'H'
LOW ORDER TIME - 'L'
MICROSECOND TIME - 'M'
RESPONSE TIME - 'R'
<Time1553 />
DIGITAL VOICE   <DigitalVoice>
  <EncodingMethod />
  <Description />
</DigitalVoice>
ENCODING METHOD 4 C-d\VOI\E SPECIFY THE VOICE ENCODING METHOD USED.
CVSD - 'CVSD'
OTHER - 'OTHR'
DESCRIPTION 640 C-d\VOI\D SPECIFY THE DECODING ALGORITHM TO BE USED.
DIGITAL VIDEO   <DigitalVideo>
  <EncodingMethod />
  <Description />
</DigitalVideo>
ENCODING METHOD 64 C-d\VID\E SPECIFY THE VIDEO ENCODING METHOD USED.
DESCRIPTION 640 C-d\VID\D SPECIFY THE DECODING ALGORITHM TO BE USED.
COMMENTS    
COMMENTS 3200 C-d\COM PROVIDE ANY OTHER INFORMATION REQUIRED OR DESIRED. <Comments />