LM1269NA National Semiconductor, LM1269NA Datasheet - Page 11
LM1269NA
Manufacturer Part Number
LM1269NA
Description
IC,TV/VIDEO CIRCUIT,CRT Circuit,CMOS,DIP,24PIN,PLASTIC
Manufacturer
National Semiconductor
Datasheet
1.LM1269NA.pdf
(20 pages)
Specifications of LM1269NA
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
LM1269NA
Manufacturer:
NS/国半
Quantity:
20 000
Functional Description
All functions of the LM1269 are controlled through the I
Bus. Details on the internal registers are covered in the
I
diagram of the LM1269. The I
11 and 12 and go to the I
blocks with an “R” and the four external DACs are con-
trolled by the I
are shown for the red channel in Figure 1 . The blocks for
both the green and blue channels are not shown; how-
ever, they are identical to the red channel.
Proper operation of the LM1269 does require a very
accurate reference voltage. This voltage is generated in
the V
perature, an external resistor is used to set the current in
the V
10. This resistor should be 1% and have a temperature
coefficient under 100 ppm/˚C. ALL VIDEO SIGNALS
MUST BE KEPT AWAY FROM PIN 10. This pin has a very
high input impedance and will pick up any high frequency
signals routed near it. The board layout shown in Figure
10 is a good example of trace routing near pin 10. The
output of the V
video section and also to pin 21. This pin allows capacitor
filtering on the V
reference. A buffer must be used with this reference, the
maximum current loading should be only 100 µA.
Note: Any noise injected into pin 21 will appear on the video. The voltage
The video inputs are pins 5, 6, and 7. Looking at the red
channel (pin 5) note that the “Clamp DC Restore Amp” is
connected to this pin. Since the video must be AC coupled to
the LM1269, the coupling cap is also used to store the
reference voltage for DC restoration. The “Clamp DC Re-
store Amp” block charges the input capacitor to the correct
voltage when the clamp pulse (pin 23) is active. The “Hi Z
Input Buffer Amp” buffers the video signal for internal pro-
cessing. Input impedance to this stage is typically 20 M .
With such a high impedance the DC restoration can appear
to be working for a number of minutes after the clamp pulse
is removed.
The output of the Buffer Amp goes to the Contrast stage. The
7 bit contrast register (03h) sets the contrast level through
the I
video channel. Contrast adjustment range is up to −20 dB.
Loading all zeros in the contrast register gives −20 dB at-
tenuation. All ones will give no attenuation. The output of this
stage is used as the feedback for the DC restoration loop.
“Auto Beam Limit Amp” or ABL is the next block in the video
path. This is a voltage controlled gain stage which gives no
attenuation with 5V at pin 22 and gives about −10 dB attenu-
ation with 2V at pin 2. ABL is covered in more detail later in
this section.
Next in the video path is the “OSD Mixer”. The OSD Select
signal at pin 4 controls this stage, selecting OSD with a high
at pin 4, and video with a low at pin 4. Since the DC
restoration feedback is at the Contrast output, the video
black level will match the OSD black level. The OSD signal is
mixed with the video signal at the output of this stage.
The OSD goes through the “OSD Contrast” stage before
entering the “OSD Mixer” block. Bits 3 and 4 of register 08h
control the OSD contrast giving four video levels for the OSD
2
C Interface Registers Section. Figure 1 shows the block
2
reference must be kept very clean for best performance of the
LM1269.
Ref
C bus. This register controls the Contrast stage in each
Ref
stage. The external resistor is connected to pin
block. To insure an accurate voltage over tem-
Ref
2
C Interface. The video and OSD blocks
Ref
stage goes to a number of blocks in the
output and offers an accurate external
2
C Interface. Both the internal
2
C signals come in on pins
2
C
11
window. Maximum video level for the OSD window occurs
with both bits set to one. Minimum video level will occur with
both bits set to a zero.
Following the “OSD Mixer” is the “Gain” block. Each video
channel has its own independent control of this block so the
user can balance the color of the CRT display. Registers
00h, 01h, 02h are used for the gain attenuation. These
registers are 7 bits with the maximum attenuation of −10 dB
occurring when all zeros are loaded.
The final block in the video path is the “Output Buffer Amp”.
This stage provides the drive needed for the inputs of a CRT
driver. The recommended driver for this pre-amp is one of
the LM246X family. Horizontal blanking is also added to the
video signal from the “H Blank” stage. This block is covered
in more detail below. DC offset of the output is set by the “DC
DACs Offset” stage. Bits 0 through 2 in register 08 control
this stage. This gives 8 different black levels ranging from
0.75V to 1.55V. When using one of the LM246X CRT driver
family it is recommended that the black level be set to 1.25V.
ABL: The Auto Beam Limit control reduces the gain of the
video amplifiers in response to a control voltage proportional
to the CRT beam current. The ABL acts on all three channels
in an identical manner. This is required for CRT life and X-ray
protection. The beam current limit circuit application is as
shown in Figure 4: when no current is being drawn by the
EHT supply, current flows from the supply rail through the
ABL resistor and into the ABL input of the IC. The IC clamps
the input voltage to a low impedance voltage source (the 5V
supply rail).
When current is drawn from the EHT supply, some of the
current passing through the ABL resistor goes to the EHT
supply, which reduces the current flowing into the ABL input
of the IC.
When the EHT current is high enough, the current flowing
into the ABL input of the IC drops to zero. This current level
determines the ABL threshold and is given by:
Where:
V
about 80V)
V
R
I
When the voltage on the ABL input drops below the ABL
threshold of the pre-amp, the gain of the pre-amp reduces,
which reduces the beam current. A feedback loop is thus
established which acts to prevent the average beam current
exceeding I
ABL
S
ABL TH
ABL
is the external supply (usually the CRT driver supply rail,
is the ABL limit
is the ABL resistor value
is the threshold ABL voltage of the IC
ABL
.
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