Code identifying the type of measurement.
Type
ID
Length
Max 3 / Min 1
Codes
<> A
Consolidated Weight
<> AA
Alternating Current
<> AB
Activation Energy
<> AC
Actinium
<> AD
Ambient Temperature
<> AE
Argon
<> AF
Angle of Bend
<> AG
Americium
<> AH
Astatine
<> AI
Acidity
<> AP
Average Pressure
<> AT
Additive
<> AVT
Average Temperature
<> AZ
Arbor Size
<> B
Billed Weight
<> BA
Barium
<> BB
Beryllium
<> BC
Billet Size
<> BD
Bias
<> BE
Boron Factor
<> BF
Brinell
<> BG
Berkelium
<> BH
Bromine
<> BK
Bulk
<> BL
Blisters
<> BO
Lateral Bow (Camber)
<> BP
Boiling Point
<> BQ
Breaks
<> BR
Brightness
<> BSW
Percent Bottom Sediment and Water
<> BT
Bursts
<> BU
Buckles
<> BW
Basis Weight
<> C
Actual New Repeated for Combination
<> CA
Caliper
<> CB
Core Loss
<> CC
Celsius
<> CCF
Composite Corrected Factor
<> CD
Compression
<> CE
Capacitance In
<> CF
Capacitance Out
<> CG
Cadmium
<> CH
Cesium
<> CI
Curium
<> CJ
Cycle Time
<> CK
Californium
<> CL
Cladding Thickness(% of Composite Thickness)
<> CM
Cures
<> CN
Chlorine
<> CP
Crimp
<> CQ
Cuts
<> CR
Crosswise Spacing
<> CS
Cross Section
<> CU
Coil Curvature
<> CW
Cuttable Width
<> CX
Calculated Value
<> CY
Contamination
<> D
Destination Weight Agreement
<> DA
Delta Value A
<> DB
Delta Value B
<> DC
Ductile Class
<> DD
Depth of Dents
<> DE
Defects
<> DF
Distance Across Flats
<> DG
Direct Current
<> DH
Dysprosium
<> DI
Diameter
<> DJ
Dominant Wave Length
<> DL
Delta Value L
<> DM
Dual Amplitude
<> DMF
Distributed Meter Factor
<> DN
Density
<> DP
Depth
<> DS
Distance Between Points
<> DT
Distance From Base Point
<> DU
Draw Tension
<> DW
Width, Boxcar Door
<> DY
Dyeability
<> E
Estimated New Weight
<> EA
Elongation
<> EB
Edge Burr
<> EC
English Coil Dimensions
<> ED
Eddy
<> EE
Einsteinium
<> EF
Europium
<> EG
Equivalent Temperature
<> EH
Erbium
<> EJ
Electrical Conductivity
<> EM
Elmendorf Tear
<> EN
Entanglement
<> EP
Exciting Power
<> EX
Eccentricity
<> F
Deficit Weight
<> FA
Fluorine
<> FB
Flare
<> FC
Short Cycle Flatness
<> FD
Frequency of Operation
<> FE
Fermium
<> FF
Francium
<> FG
Freezing Point
<> FH
Finish
<> FI
Filament Count
<> FL
Longitudinal Flatness
<> FN
Flatness
<> FP
Flashpoint
<> FQ
Frequency
<> FR
Flow Rate
<> FS
Fold Strength
<> FT
Flange Thickness
<> FV
Transverse Flatness
<> FW
Flange Width
<> FX
Filler
<> G
Gross Weight
<> GA
Grain
<> GB
Guided Bends Root
<> GC
Gadolinium
<> GD
Gold
<> GE
Guided Bends Face
<> GF
Guided Bends Side
<> GG
Gauge
<> GH
Gallium
<> GL
Gloss
<> GN
Gross to Net Conversion Factor
<> GP
Group Package Separation
<> GR
Gravity
<> GW
Gross Weight, Maximum
<> H2O
Water Volume
<> HA
Hydro Pressure
<> HB
Heavy Aluminas
<> HC
Helium
<> HD
High propagation delay time (The time between the specified reference points on the input and output waveforms with the output changing from the defined low level to the defined high level.)
<> HE
Heavy Silicates
<> HF
Hardness
<> HG
Heavy Sulfides
<> HH
Heavy Globular Oxides
<> HI
Hafnium
<> HJ
Holmium
<> HM
Height, Maximum
<> HO
Holes
<> HP
Height of Tread Plate Pattern
<> HR
Height of Runners
<> HT
Height
<> HZ
Hazepoint
<> IA
Iron
<> IB
Impact Energy
<> IC
Incremental Distance
<> ID
Inside Diameter
<> IF
Input Low Voltage
<> IG
Granulated Ingot Size
<> IH
Input Current
<> II
Input Setup Time
<> IJ
Input Hold Time
<> IK
Indium
<> IM
Iridium
<> IN
Input Low Current (The current flowing out of an input when a specified low level voltage is applied to that input.)
<> IO
Input High Current (The current flowing out of an input when a specified high level voltage is applied to that input.)
<> IP
Input Leakage Current (The current flowing into an input when the maximum allowed voltage is applied to the input.)
<> IQ
Input Clamp Diode Voltage (The most negative voltage at an input when the specified current is forced out of that input terminal.)
<> IR
Ideal Diameter
<> IS
Input High Voltage
<> IT
Interrupt Pulse Period
<> IU
Interrupt Setup Time
<> IV
Iodine
<> IW
Incrustation Factor
<> IX
Inside Diameter, Minimum
<> IY
Induction (Magnetic Force)
<> IZ
Ingot Pound Size
<> JA
Junction Temperature
<> KA
Knoop
<> KB
Krypton
<> KN
K&N Holdout
<> L
Legal Weight
<> LA
Lanthanum
<> LB
Lithium
<> LC
Low Propagation Delay Time (The time between the specified reference points on the input and output waveforms with the output changing from high level to the defined low level.)
<> LD
Lawrencium
<> LE
Lutetium
<> LF
Long Fibers
<> LG
Leg
<> LL
Long Leg
<> LM
Length, Maximum
<> LN
Length
<> LO
Long Length
<> LP
Camber of Pattern Line
<> LPG
Liquified Petroleum Gas Factor
<> LS
Short Leg
<> LT
Lengthwise Spacing
<> LW
Long Width
<> M
Minimum Weight (for Weight)
<> MA
Mean Average
<> MB
Mendelevium
<> MC
Min./Max Cuttable Width
<> MD
Measurement Voltage (The reference voltage level on AC waveforms for determining AC performance.)
<> ME
Maximum Input Low Voltage (The guaranteed input low threshold.)
<> MEF
Meter Factor
<> MF
Minimum Input High Voltage (The guaranteed input high voltage.)
<> MG
Mercury
<> MH
Melting Point
<> MI
Minimum
<> MJ
Major Section (Stepped)
<> MK
Microseperometer (MSEP)
<> MN
Minimum Average
<> MO
Mottles
<> MP
Mullen Pop
<> MS
Minor Section (Stepped)
<> MT
Moisture Content
<> MU
Multiplier
<> MV
Maximum Average
<> MW
Molecular Weight
<> MX
Maximum
<> MY
Magnetizing Field
<> N
Actual Net Weight
<> NA
No. per Package
<> NB
No. per Bundle
<> NC
No. per Coil Group
<> ND
Neodymium
<> NE
Niobium
<> NF
Neon
<> NG
Nobelium
<> NH
Number of Items per Package Label
<> NI
Number of Splices per Package Label
<> NJ
Number of Sheets per Package Label
<> NK
Nesting Factor
<> NL
No. per Lift
<> NM
No. Pkgs. per Master Pack
<> NO
Nominal (Target, Aim)
<> NP
Percent of Specified
<> NS
No. per Skid
<> NU
No. per Unit
<> O
Excess Weight Over Maximum
<> OA
Offset
<> OAP
Observed American Petroleum Institute Gravity
<> OB
Osmium
<> OBT
Observed Temperature
<> OC
Output Low Voltage (The maximum guaranteed low voltage at an output terminal sinking the specified load current output low current.)
<> OD
Outside Diameter
<> OE
Output Low Current (The current flowing into an output which is in the low state.)
<> OF
Output High Voltage (The minimum guaranteed high voltage at an output terminal for the specified output current `output high current' and at the minimum VCC value.)
<> OG
Output High Current (The leakage current flowing into a turned off open collector output with a specified high output voltage applied.)
<> OH
Overhead Height, Receiving Door
<> OI
Output Off Current Low (The current flowing out of a disabled 3-state output with a specified low output voltage applied.)
<> OJ
Output Off Current High (The current flowing into a disabled 3-state output with a specified high output voltage applied.)
<> OK
Output Short-Circuit Current (The current flowing out of an output which is in the high state when that output is short circuit to ground.)
<> OL
Output Disable Time From Low Level of a 3-State Output (The delay time between the specified reference points on the input and output voltage waveforms with the 3-state output changing from the low level to a high impedance `off' state.)
<> OM
Outside Diameter, Maximum
<> ON
Output Disable Time From High Level of a 3-State Output (The delay time between the specified reference points on the input and output voltage waveforms with 3-state output changing from the high level to a high impedance `off' state.)
<> OO
Output Enable Time From Low Level of a 3-State Output (The delay time between the specified reference points on the input and output voltage waveforms with the 3-state output changing from the high impedance `off' state to the low level.)
<> OP
Openness
<> OQ
Output Enable Time From High Level of a 3-State Output (The delay time between the specified reference points on the input and output voltage waveforms with the 3-state output changing from high impedance `off' state to the high level.)
<> OR
Distance Between Outside Runners
<> OS
Open Circuits
<> OT
Output Delay Time
<> OV
Opacity
<> OW
Overall Width
<> OX
Ownership Share
<> PA
Package Separation
<> PB
Pressure
<> PC
Per Hundred Linear Yards
<> PD
Platinum
<> PE
Potassium
<> PF
Promethium
<> PG
Polonium
<> PH
Pulse Setup Time (The interval immediately preceding the active transition of the timing or preceding the transition of the control input to its latching level.)
<> PI
Pulse Hold Time (The interval immediately following the active transition of the timing pulse or following the transition of control input to its latching level.)
<> PJ
Pulse Width (The time between the specified reference points on the leading and trailing edges of a pulse.)
<> PK
Pulse Recovery Time (The time between the reference point on the trailing edge of an asynchronous input control pulse and the reference point on the activating edge of a synchronous pulse input such that the device will respond to the synchronous input.)
<> PL
Percent Defective
<> PM
Practice
<> PN
Palladium
<> PO
Percent of Order
<> PP
Powder/Paste Package Size
<> PQ
Plutonium
<> PR
Praseodymium
<> PRF
Pressure Factor
<> PRL
Product Level
<> PRY
Porosity
<> PS
Protactinium
<> PSA
Percent Solution Actual
<> PT
Pits
<> PU
Pressure Base
<> PV
Picks
<> PW
Purchased Width
<> PX
Purity
<> PY
Percent of Water
<> PZ
Pipe Size Nominal
<> QA
Quality Index
<> R
Per Unit Dunnage
<> RA
Relative Humidity
<> RAF
Roof Adjustment Factor
<> RB
Range Value
<> RC
Radius of Corner
<> RD
Readpoint
<> RE
Ream Weight
<> RF
Resistivity
<> RG
Radium
<> RH
Rhenium
<> RI
Rubidium
<> RJ
Rockwell-C
<> RK
Rockwell-B
<> RL
Reduction Ration
<> RM
RMS Range (Side 1)
<> RN
Required Interrupt Release
<> RO
Reset Pulse Width
<> RP
Reduction of Area
<> RQ
Radon
<> RR
Reduction Ratio
<> RS
RMS Range (Side 2)
<> RT
Rounds Ammunition/Military
<> RU
Rhodium
<> RV
Ruthenium
<> RVP
Reid Vapor Pressure
<> RW
Rolling Width
<> RX
Ridges
<> RY
Ratio
<> S
State Weight
<> S1
Smoothness
<> S2
Selvedge on Beam
<> S3
Sheffield Smoothness
<> S4
Surface Strength
<> S5
Stiffness
<> S6
Saturation
<> S7
Sediment
<> S8
Solubility
<> SA
Sort Code CIE LAB
<> SB
Sort Code CMC
<> SC
Schedule Number (Pipe Size)
<> SD
Strength
<> SE
Selvage Left
<> SF
Samarium
<> SG
Selenium
<> SH
Strontium
<> SI
Supply Current (The current flowing into the VCC supply terminal of the circuit with specified input conditions and open outputs.)
<> SJ
Short Circuits
<> SK
Shrinkage
<> SL
Short Length
<> SM
Shear
<> SN
Stain
<> SO
Sort Code CIE LCH
<> SP
Splinter Count
<> SPG
Specific Gravity
<> SQ
Shipped Quantity
<> SR
Selvage Right
<> SS
Silver
<> ST
Stop Recovery Startup Time
<> SU
Shipped Units
<> SV
Scandium
<> SW
Short Width
<> SX
Sodium
<> SY
Service Interrupt Duration
<> SZ
Skid Height
<> T
Tare Weight
<> TA
Thickness Heavy End (Tapered/Stepped)
<> TB
Thickness Small End (Tapered/Stepped)
<> TC
Temperature
<> TD
Thin Aluminas
<> TE
Tenacity
<> TF
Tensile
<> TG
Thin Sulfides
<> TH
Thickness
<> TI
Thin Silicates
<> TJ
Total Supply Current
<> TK
Timer Pulse Width
<> TL
Tapered/Stepped Length Type
<> TM
Length Type: Multiples
<> TN
Timer Period
<> TO
Terbium
<> TP
Thorium
<> TPF
Temperature Factor
<> TQ
Thin Globular Oxides
<> TR
Length Type: Random
<> TS
Length Type: Specific
<> TT
Time
<> TU
Technetium
<> TV
Thallium
<> TX
Thulium
<> TY
Tear Strength
<> U
Weight per Unit
<> UA
Uranium
<> VH
Height, Van Door
<> VO
Voltage
<> VSO
Volume Split to Others
<> VW
Width, Van Door
<> WA
Weight per Unit of Area
<> WB
Web
<> WC
Web Depth/Height
<> WD
Width
<> WE
Wolfram
<> WF
Wait Recovery Startup Time
<> WH
Whiteness
<> WL
Wall Thickness
<> WM
Width, Maximum
<> WPL
Water/Product Level
<> WR
Wrinkles
<> WT
Weight
<> WTB
Water/Tank Bottom Level
<> WU
Weight per Unit of Length
<> WX
Wax Pick
<> X
Maximum Weight (for Rate)
<> XA
Xenon
<> XH
Side Height, Flat Bed With Removable Sides
<> XP
Specified
<> XQ
Squareness
<> XZ
Spool Size
<> YA
Yttrium
<> YB
Yield
<> YC
Ytterbium
<> ZA
Zinc
<> ZAL
% of Aluminum
<> ZAS
% of Arsenic
<> ZB
% of Boron
<> ZBI
% of Bismuth
<> ZC
% of Carbon
<> ZCA
% of Calcium
<> ZCB
% of Columbium
<> ZCE
% of Cerium
<> ZCO
% of Cobalt
<> ZCR
% of Chromium
<> ZCU
% of Copper
<> ZFE
% of Iron
<> ZFS
% of Iron plus Silicon
<> ZGE
% of Germanium
<> ZH
% of Hydrogen
<> ZMG
% of Magnesium
<> ZMN
% of Manganese
<> ZMO
% of Molybdenum
<> ZN
% of Nitrogen
<> ZNB
% of Niobium
<> ZNI
% of Nickel
<> ZO
% of Oxygen
<> ZP
% of Phosphorus
<> ZPB
% of Lead
<> ZS
% of Sulphur
<> ZSB
% of Antimony
<> ZSE
% of Selenium
<> ZSI
% of Silicon
<> ZSN
% of Tin
<> ZTA
% of Tantalum
<> ZTE
% of Tellurium
<> ZTI
% of Titanium
<> ZV
% of Vanadium
<> ZW
% of Tungsten
<> ZZN
% of Zinc
<> ZZR
% of Zirconium
<> ZZZ
Mutually Defined
