1253 B&K Precision, 1253 Datasheet - Page 27
1253
Manufacturer Part Number
1253
Description
GENERATOR HANDHELD HDTV PATTERN
Manufacturer
B&K Precision
Type
NTSC Handheldr
Specifications of 1253
Patterns
ANSI, Bar, Checker, Crosshatch, Focus, Multiburst, Needle, PLUGE, Raster, Staircase, Window
Connection Method
BNC, S-Video
Power Source
9V Battery
Equipment Type
NTSC Color Generator
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
1253
Manufacturer:
GERMENY
Quantity:
5 532
Company:
Part Number:
1253-6758-LF
Manufacturer:
JST
Quantity:
1 000
Company:
Part Number:
125329-HMC785LP4E
Manufacturer:
HITTITE
Quantity:
1 400
Company:
Part Number:
12532WR-04
Manufacturer:
YEONHO
Quantity:
1 474
Company:
Part Number:
12532WR-07(HF)
Manufacturer:
VISHAY
Quantity:
18 862
Part Number:
1253AY-2R2N=P3
Manufacturer:
MURATA/村田
Quantity:
20 000
Part Number:
1253AY-6R8M=P3
Manufacturer:
MURATA/村田
Quantity:
20 000
Short-term high-voltage stability problems may be evident on the inner horizontal staircase of the PLUGE pattern.
Look for trapezoidal distortion of the lighter rectangles.
The Needle Pulse pattern is a more sensitive indicator of short-term stability problems. The upper half of the pattern
is black with narrow white vertical lines on both sides. The bottom half of the pattern is reversed. As a CRT beam
moves from the top half of the frame to the 100 IRE bottom half of the frame, a large increase in CRT beam current
is suddenly required. The thin black lines in the bottom half of the frame will bend outward if the high-voltage drops
and in most cases will return to their normal position before the bottom of the frame as the high-voltage supply
recovers. The amount of line deflection and the length of time it takes the line to return to normal are measures of
the high-voltage performance. In extreme cases the line may wiggle in an "S" pattern as the supply attempts to
recover. In some products, with excellent high voltage supplies, the line may show minimal or no short-term stability
effects.
The Overscan Bounce pattern can be used to observe long-term high-voltage stability. The Overscan Bounce
pattern changes repeatedly from a low to high APL. As the picture APL changes the picture size may momentarily
expand and contract. The amount of change can be measured by observing the percentage shift in overscan as the
high-voltage supply settles. Each of the lines on the borders of the Overscan Bounce pattern represents a 2.5%
change in size.
If high-voltage stability problems appear excessive it may be desirable to reduce the Contrast control setting and
settle for a somewhat less bright picture.