Número de pieza
Desmilitarización
Vigencia
UOM
NIIN
Número de pieza:
2467b-09-10-1e
NSN
Número de acciones nacionales:
TXT
Descripción:
Oscilloscope
Código de nombre del artículo:
00357
MRC:
An overall measurement between specified points of an item,in distinction from height.ABFY
Overall Depth:
21.000 inches
MRC:
The distance measured in a straight line from the bottom to the top of an item.ABKW
Overall Height:
7.500 inches
MRC:
An overall measurement taken at right angles to the length of an item,in distinction from thickness.ABMK
Overall Width:
13.300 inches
MRC:
Indicates the type of current whether alternating,direct,or both.ACDC
Current Type:
Ac
MRC:
The direct current rating for which the item is rated,expressed in amperes.ACUT
Direct Current Rating In Amps:
1.6 and 2.0
MRC:
The number of complete cyclic changes,per unit of time,for which an item is rated.ACZB
Frequency Rating:
Between 48.0 hertz and 440.0 hertz
MRC:
The value(s) of potential for which the item is rated.AMSE
Voltage Rating:
Between 115.0 volts and 250.0 volts
MRC:
The number of beams provided on the item.ATES
Beam Quantity:
2
MRC:
Designates the relative or proportionate dimensions of the screen.BGQK
Screen Size:
6.8 by 8.5 centimeter
MRC:
An indication of whether or not sweep circuits are included.BGQL
Sweep Circuits:
Included
MRC:
An indication of whether or not a generator driven feature is included.BGQM
Generator Driven Feature:
Not included
MRC:
Indicates the type of sweep circuits provided.BGQN
Sweep Circuit Type:
Horizontal and vertical
MRC:
An indication of whether or not a frequency response rating is provided.BHDP
Frequency Response Rating:
Provided
MRC:
An indication of whether or not a calibrated screen scale is included.BHFF
Calibrated Screen Scale:
Included
MRC:
The number of alternating current phases.FAAZ
Phase:
Single
MRC:
Describes the capabilities,intended use,and/or purpose for which the item is provided.FTLD
Functional Description:
Used for design development and debugging of high speed embedded computers and instrumentation which employ nanosecond signals and timing