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参数资料
| 型号: | LM2483NA/NOPB |
| 厂商: | NATIONAL SEMICONDUCTOR CORP |
| 元件分类: | 消费家电 |
| 英文描述: | SPECIALTY CONSUMER CIRCUIT, PDIP14 |
| 封装: | PLASTIC, DIP-14 |
| 文件页数: | 3/8页 |
| 文件大小: | 706K |
| 代理商: | LM2483NA/NOPB |
Typical Performance Characteristics
(V
CC = +180V, VBB = +8V, VIN = +2.5V, Test Circuit - Figure 2)
Theory of Operation
The simplified circuit diagram of the LM2483 is shown in
Figure 1. The DC clamp circuit amplifies the input signal by
-30 and the gain is set by the resistor ratio of 30R and R. The
output will require a pull-up resistor to 180V.
Figure 2 shows the test circuit for evaluation of the LM2483
Clamp Amplifier. A high impedance voltmeter (>100M
)is
used for DC measurements at the output.
Application Hints
INTRODUCTION
National Semiconductor (NSC) is committed to provide ap-
plication information that assists our customers in obtaining
the best performance possible from our products. The fol-
lowing information is provided in order to support this com-
mitment. The reader should be aware that the optimization of
performance was done using a specific printed circuit board
designed at NSC. Variations in performance can be realized
due to physical changes in the printed circuit board and the
application. Therefore, the designer should know that com-
ponent value changes may be required in order to optimize
performance in a given application. The values shown in this
document can be used as a starting point for evaluation
purposes.
POWER SUPPLY BYPASS
The LM2483 should have proper power supply bypassing for
optimum performance. A 0.1 F capacitor should be con-
nected from the supply pins, V
CC and VBB, to ground, as
close to the supply and ground pins as is practical. Addition-
ally, a 1 F electrolytic capacitor should be connected from
the supply pins to ground. The electrolytic capacitor should
also be placed reasonably close to the LM2483’s supply and
ground pins.
ARC PROTECTION
During normal CRT operation, internal arcing may occasion-
ally occur. To protect the LM2483 against arcing the follow-
ing steps should be done (See Figure 7):
The traces connecting the LM126X preamp DACs and
the LM2483 input pins (pins 1, 13, and 14) should be run
around the top of the LM2426. They should not go
through the output circuit of the LM2426.
C43, C44, and C45 should be located close to the
LM126X preamp.
R44, R45, and R46 should be located close to the
LM2483.
C21, C24, and C25 on the output pins of the LM2483
(pins 6, 8, and 9) should be located close to the LM2483.
The grounds of these capacitors should have a short
direct return to GND (pins 3, 4, 5, 10, 11, and 12) of the
LM2483.
C9 and C36 on the supply lines (pins 2 and 7) should be
located close to the LM2483. The grounds of these ca-
pacitors should have a short direct return to GND (pins 3,
4, 5, 10, 11, and 12) of the LM2483.
The ground of the LM2483 should have a short direct
connection to the ground of the LM2426.
Thermal Considerations
The package the LM2483 is in uses the ground pins (3, 4, 5,
10, 11, and 12) to conduct heat from the LM2483. These pins
should be connected to a ground plane that acts as a heat
sink. See the example ground plane connected to these pins
in the National Semiconductor PCB shown in Figure 7.
Figure 4 is used to determine the size of ground plane heat
sink. The lines in Figure 4 represent a junction temperature
of 150C when the size of heat sink noted by the line is used.
The area under the line is the safe operating area. Using
Figure 4, the following example shows how to determine the
size of the ground plane.
The LM2483 uses about 0.45W of quiescent power. If V
CC =
+180V, and each channel of the LM2483 needs to sink an
average of 1mA, the LM2483 will use:
0.45W+3x (180V x 1mA ) = 0.99W
Figure 4 shows that the LM2483 dissipating 0.99W with one
sq. in. of copper ground plane heat sink is in the safe
operating range for any ambient temperature up to 70C.
20052935
FIGURE 3. V
out vs Vin
20052936
FIGURE 4. Maximum Power Dissipation vs. Ambient
Temperature
LM2483
www.national.com
3
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