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LM1282 Datasheet(PDF) 4 Page - National Semiconductor (TI)

[Old version datasheet] Texas Instruments acquired National semiconductor.
Part No. LM1282
Description  110 MHz RGB Video Amplifier System with On Screen Display (OSD)
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Maker  NSC [National Semiconductor (TI)]
Homepage  http://www.national.com
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LM1282 Datasheet(HTML) 4 Page - National Semiconductor (TI)

 
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OSD Electrical Characteristics (Continued)
See DC Test Circuit (
Figure 2), T
A = 25˚C; VCC1 = VCC2 = 12V; V13 = 4V; V14 = 4V; V16 = 4V; VDrive = 4V; V4 = 4V; V15 =
0V; V
25 = 1V unless otherwise stated
Symbol
Parameter
Conditions
Typical
Limit
Units
(Note 5)
(Note 6)
V
feed 10 kHz
Video Feedthrough into OSD
V
14 = 4V; V25 = 1V;
−70
dB
V
1 = V2 = V3 = 0V
V
feed 10 MHz
Video Feedthrough into OSD
V
14 = 4V; V25 = 1V;
−60
dB
V
1 = V2 = V3 = 0V
Note 1: Absolute Maximum Rating indicate limits beyond which damage to the device may occur.
Note 2: Operating Ratings indicate conditions for which the device is functional, but do not guarantee specific performance limits. For guaranteed specifications and
test conditions, see the Electrical Characteristics. The guaranteed specifications apply only for the test conditions listed. Some performance characteristics may de-
grade when the device is not operated under the listed test conditons.
Note 3: VCC supply pins 6, 9, and 22 must be externally wired together to prevent internal damage during VCC power on/off cycles.
Note 4: Human body model, 100 pF discharged through a 1.5 k
Ω resistor.
Note 5: Typical specifications are specified at +25˚C and represent the most likely parametric norm.
Note 6: Tested limits are guaranteed to National’s AOQL (Average Outgoing Quality Level).
Note 7: The supply current specified is the quiescent current for VCC1 and VCC2 with RL = ∞, see Figure 5 ’s test circuit. The supply current for VCC2 (pin 22) also
depends on the output load. With video output at 1V DC, the additional current through VCC2 is 8 mA for Figure 5 ’s test circuit.
Note 8: Output voltage is dependent on load resistor. Test circuit uses RL = 390Ω.
Note 9: Measure gain difference between any two amplifiers. VIN = 400 mVPP.
Note 10:
∆AV track is a measure of the ability of any two amplifiers to track each other and quantifies the matching of the three attenuators. It is the difference in
gain change between any two amplifiers with the contrast voltage (V13) at either 4V or 2V measured relative to an AV max condition, V13 = 4V. For example, at AV
max the three amplifiers’ gains might be 17.1 dB, 16.9 dB, and 16.8 dB and change to 11.2 dB, 10.9 dB and 10.7 dB respectively for V13 = 2V. This yields the mea-
sured typical ±0.1 dB channel tracking.
Note 11: When measuring video amplifier bandwidth or pulse rise and fall times, a double sided full ground plane printed circuit board without socket is recom-
mended. Video amplifier 10 MHz isolation test also requires this printed circuit board. The reason for a double sided full ground plane PCB is that large measurement
variations occur in single sided PCBs.
Note 12: Adjust input frequency from 10 MHz (AV max reference level) to the −3 dB corner frequency (f−3 dB).
Note 13: Measure output levels of the other two undriven amplifiers relative to the driven amplifier to determine channel separation. Terminate the undriven amplifier
inputs to simulate generator loading. Repeat test at fIN = 10 MHz for Vsep 10 MHz.
Note 14: A minimum pulse width of 200 ns is guaranteed for a horizontal line of 15 kHz. This limit is guaranteed by design. If a lower line rate is used a longer clamp
pulse may be required.
Note 15: During the AC test the 4V DC level is the center voltage of the AC output signal. For example, if the output is 4 VPP the signal will swing between 2V DC
and 6V DC.
Note 16: When V1 = V2 = V3 = 0V and the video input is 0.7V, then tr (OSD) = 11 ns and tf (OSD) = 4 ns. The Video Output waveform will be inverted from the one
shown in
Figure 3. Thus tr (OSD) is actually a fall time and tf (OSD) is actually a rise time in this condition.
Note 17: Machine Model ESD test is covered by specification EIAJ IC-121-1981. A 200 pF cap is charged to the specified voltage, then discharged directly into the
IC with no external series resistor (resistor of discharge path must be under 50
Ω).
Typical Performance Characteristics V
CC = 12V, TA = 25˚C unless otherwise specified
Attenuation vs Contrast Voltage
DS012519-2
Attenuation vs Drive Voltage
DS012519-3
www.national.com
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