NSC LM2479NA

LM2479
120V Triple Bias Clamp
General Description
The LM2479 is an Integrated 120V triple bias clamp circuit
for DC recovery of each of the AC coupled outputs of a CRT
driver. It is well matched with the DAC outputs of the
LM126X family of pre-amplifiers. Each amplifier has its gain
internally set to -18. The IC is packaged in an industry
standard 8 lead molded DIP package.
n High input impedance
n Single supply operation
n Matched to the LM126X family of preamplifiers
Recommended Applications
n CRT monitors requiring DC restoration at the cathodes
Features
n Wide range integrated triple bias clamp
Block Diagrams
Package Pinout
DS101391-2
FIGURE 2. LM2479 Package Pinout
Order Number LM2479NA
NS Package Number: N08E
DS101391-1
FIGURE 1. Simplified Schematic (One Channel)
© 2000 National Semiconductor Corporation
DS101391
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LM2479 120V Triple Bias Clamp
October 2000
LM2479
Absolute Maximum Ratings (Note 1)
ESD Tolerance, Machine Model
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.
Limits of Operating Ranges
Supply Voltage, VCC
Input Voltage, VIN
Storage Temperature Range, TSTG
Lead Temperature (Soldering,
< 10sec.)
+130V
0V to 5V
-65˚C to +150˚C
200V
(Note 3)
VCC
110 to 125
VOUT, VCC = 120V
50 to 120V
Ambient Temperature Range, TA
0 to 70˚C
300˚C
DC CLAMP ELECTRICAL CHARACTERISTICS TARGETS AND LIMIT
Unless otherwise noted: VCC = +120V, VIN = 2.25VDC, TA = 25˚C.
Symbol
Spec Parameter
ICC
Supply Current
VOUT
DC Output Voltage
VOUT-Range
Output Voltage Range
AV
DC Voltage Gain
LE
Linearity Error
RIN
Input Resistance
Conditions
Min
All channels
83
VIN Range = 1.0V - 4.0V
Max
Units
2.3
3.5
mA
87
91
VDC
53
-16
See Note 1
Typ
-18
V
-20
5
%
24K
Ω
Note 1: Linearity Error is the variation in DC gain from VIN = 1.0V to VIN = 4.0V.
Note 2: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur.
Note 3: Operating Ratings indicate conditions for which the device is functional, but do not guarantee specific performance limits. For guaranteed specifications and
the test conditions, see the Electrical Characteristics. The guaranteed specifications apply only for the test conditions listed. Some performance characteristics may
change when the device is not operated under the listed test conditions.
Note 4: All voltages are measured with respect to GND, unless otherwise specified.
Test Circuit
DS101391-3
FIGURE 3. Test Circuit (One Channel)
Figure 3 shows the test circuit for evaluation of the LM2479 Clamp Amplifier. A high impedance VM ( > 100MΩ) is used for DC
measurements at the output.
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2
LM2479
Typical Performance Characteristics
(VCC = +120V), Test Circuit - Figure 3 unless otherwise specified.
the supply pin to ground. The electrolytic capacitor should
also be placed reasonably close to the LM2479’s supply and
ground pins.
Application Circuit
The application circuit shown in Figure 5 is designed to help
clamp the voltage at the output of the driver to the desired
level. Capacitor C4 stabilizes the entire node at the anode of
the clamp diode, D3, by creating a low impedance at high
frequencies. Figure 5 also shows the standard application
circuit topology when used with an LM246X CRT driver. It
shows all the components necessary to optimize performance as well as to protect against damage from a CRT arc
event. No additional components are required to protect the
LM2479 from arc damage.
DS101391-4
FIGURE 4. Vout vs Vin
THEORY OF OPERATION
The circuit diagram of the LM2479 is shown in Figure 1. The
DC clamp circuit amplifies the input signal by -18 and the
gain is set by the resistor ratio of 18R and R. The output
requires pull-up resistor to 120V. Figure 2 shows the test
circuit used for evaluation of the LM2479 Clamp Amplifier. A
high impedance voltmeter (100MΩ) is used for DC measurements at the output. The DC transfer function is shown in
Figure 4.
APPLICATION HINTS
DS101391-7
FIGURE 5. One Channel of the LM2479 and LM246X
Application Circuit
Power Supply Bypass
The LM2479 should have proper power supply bypassing for
optimum performance. A 0.1µF capacitor should be connected from the supply pin, Vcc, to ground, as close to the
supply and ground pins as is practical. Additionally, a 1.0µF
electrolycelectrolytictic capacitor should be connected from
Demonstration Hardware
National Semiconductor has designed a demonstration
neckboard for the LM126X, LM246X, and the LM2479
chipset. To obtain demonstration boards contact the National
Semiconductor Sales Office in your region.
3
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LM2479 120V Triple Bias Clamp
Physical Dimensions
inches (millimeters) unless otherwise noted
Note: Information contained in this data sheet is preliminary and may be subject to change without notice.
Molded Dual-In-Line Package (N)
NS Package Number N08E
Order NumbernLM2479NA
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