CALOGIC CVA2415T

Low Cost
Triple 65MHz CRT Driver
CORPORATION
Discrete Solution Replacement
CVA2415
FEATURES
• Bandwidth . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65MHz
• Rise/Fall Time. . . . . . . . . . . . . . . . . . . . . . . . . . . . . <6.0ns
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50 VP-P
• Swing
• Supply Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80V
• Pin to Pin Compatible with CVA2416 and LM2416
APPLICATIONS
• CRT Driver for VGA and SVGA Color Monitors
DESCRIPTION
The CVA2415 contains three wide bandwidth, large signal
amplifiers designed specially to drive VGA and SVGA color
monitors. The device is a low cost CRT driver designed
especially to replace discrete solutions.
The part is housed in the industry standard 11-lead TO-220
molded power package. The heat sink is floating and may be
grounded for ease of manufacturing and RFI shielding.
ORDERING INFORMATION
Part
Package
Temperature
CVA2415T
T11A
-20oC to +100oC
CONNECTION DIAGRAM
11
10
9
8
7
6
5
4
3
2
1
PIN 1 DESIGNATOR
T11A
V+
VOUT 3
BIAS 3 (12V)
VIN 3
BIAS 2 (12V)
VIN 2
GND
VOUT 2
VOUT 1
BIAS 1 (12V)
VIN 1
CVA2415
CORPORATION
ABSOLUTE MAXIMUM RATINGS
Operating Temperature . . . . . . . . . . . . . . . . -20oC to +100oC
Lead Temperature . . . . . . . . . . . . . . . . . . . . . . . . . . . +300oC
Supply Voltage. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 85V
Storage Temperature . . . . . . . . . . . . . . . . . . -25oC to +100oC
DC ELECTRICAL CHARACTERISTICS VS = 80V, CL = 12pF, Vbias = 12V, Vin = 3.6V, Tcase = +25oC. See Figure 1.
SYMBOL
CHARACTERISTICS
MIN
TYP
MAX
UNITS
18
22
26
mA
ICC
Supply Current @ 1MHz
ICC
Supply Current @ 50MHz
VoutDC
Output DC Level
38
42
46
V
AV
Voltage Gain
11
13
15
V
40
Gain Matching
mA
0.2
dB
AC ELECTRICAL CHARACTERISTICS VS = 80V, CL = 12pF, Vbias = 12V, Tcase = +25oC. See Figure 1.
SYMBOL
CHARACTERISTICS
MIN
TYP
MAX
UNITS
tr
Rise Time
5.6
7.0
ns
tf
Fall Time
4.5
6.0
ns
BW
Bandwidth
65
MHz
Le
Linearity
8
%
OS
Overshoot
0
%
FIGURE 1. APPLICATION AND TEST CIRCUIT
12V
C4
C3
C6
R1
Q1
INPUT
C1
11
VC C
1/3
CVA2415
1,6,8
Vin
R2
R6
R3
2,7,9
Vbias
L1
3,4,10
Vout
R5
VC C
OUTPUT
R4
CL
D2
5
GND
C1 = 0.01 µF
C2 = 0.01 µF
C3 = 0.1 µF
C4 = 0.47 µF
C L = 12pF (Including Parasitics)
C6 = 1.0 µF
CALOGIC
D1
C2
R1 = 8.2k Ω
R2 = 2.7k Ω
R3 = 10.0K Ω
R4 = 34 Ω
R5 = 1.5k Ω
R6 = 150 Ω
D1 = FDH400
D2 = FDH400
L1 = 560nH
Q1 = 2N5770
CORPORATION, 237 Whitney Place, Fremont, California 94539, Telephone: 510-656-2900, FAX: 510-651-1076
CVA2415
CORPORATION
APPLICATION INFORMATION
FIGURE 2. CVA2415 DC Characteristics
OUTPUT VOLTAGE (VOLTS)
Thermal Considerations
The transfer characteristics of the amplifier are shown in
Figure 2. Since this is a class A input stage, power supply
current increases as the input signal increases and
consequently power dissipation also increases. Average
dissipation per stage is 1.8W, increasing to 3.2W at minimum
output voltage.
The CVA2415 cannot be used without heat sinking. Figure 2
shows the power dissipated in each channel over the
operating voltage range of the device, Typical "average"
power dissipation with the device output voltage at one half
the supply voltage is 1.8W per channel for a total dissipation
of 5.4W package dissipation. Under white screen conditions,
i.e.: 15V output, dissipation increases to 3W per channel or
9W total.
The CVA2415 case temperature must be
maintained below +100oC. If the maximum expected ambient
temperature is +50oC, then a heat sink is needed with thermal
resistance equal to or less than:
Rth =
90
POWER DISSIPATION (WATTS)
The CVA2415 is a high voltage triple CRT driver suitable for
VGA, Super VGA, IBM 8514 1024 x 768 non-interlaced
display applications. The CVA2415 features 80V operation
and low power dissipation. The part is housed in the industry
standard 11 lead TO-220 molded power package. The heat
sink is floating and may be grounded for ease of
manufacturing and RFI shielding.
80
70
VOLTAGE
60
POWER
50
40
30
20
10
0
1
3
2
4
5
6
7
INPUT VOLTAGE
The Thermalloy #6400 is one example of a heatsink that
meets this requirement.
The output of CVA2415 is not short circuit proof.
resistance to V+ or Ground should be > 600Ω.
Any
(100 − 50oC)
= 5.5oC/W
9W
FIGURE 3.
FALL TIME
80V
RISE TIME
BANDWIDTH
80V
VOLTS
10V/DIV
VOLTS
10V/DIV
GAIN
10dB/DIV
0dB
20V
20V
10ns/DIV
10ns/DIV
1
10
100
MHz
CALOGIC
CORPORATION, 237 Whitney Place, Fremont, California 94539, Telephone: 510-656-2900, FAX: 510-651-1076
CVA2415
CORPORATION
TYPICAL APPLICATION
A typical application of the CVA2415 is shown in Figure 4.
Used in conjunction with a CVA1203, a complete video
channel from monitor input to CRT cathode is shown. In this
application, feedback is local to theCVA1203. An alternative
scheme would be feedback from the output of the CVA2415 to
the positive clamp inputs of the CVA1203. This would provide
slightly better black level control of the system.
FIGURE 4. Typical Application CVA1203 - CVA2415 Application
VCC
+12V
0.1µF
+
1
28
100 µF
RED DRIVE
0.1µF
51Ω
2
12V
C4
27
100Ω
C3
R
VIDEO
IN
26
4
25
0.1µF
VIDEO
IN
24
6
23
VIDEO
IN
7
22
10K Ω
51Ω
21
9
20
R5
R4
CL
D2
5
GND
DC
RESTORE
500Ω
10K Ω
19
2,7,9
Vbias 1/3
CVA2415
1,6,8
Vin
TO GREEN
CASCODE
DRIVER
R6
91Ω
C2
L1
OUTPUT
C1
R5
R4
CL
DC
RESTORE
C3
12
17
13
16
Q1
0.1µF
14
15
R6
CUTOFF
ADJ.
MAX
10K Ω
MIN
TO BLUE
CASCODE
DRIVER
390Ω
10K Ω
10K Ω
0.1µF
10K Ω
11
VCC
2,7,9
Vbias 1/3
CVA2415
1,6,8
Vin
VCC
D2
12V
C4
18
+
D1
3,4,10
Vout
5
GND
CUTOFF
ADJ.
11
C6
VCC
Q1
10
CONTRAST
CONTROL
OUTPUT
C1
11
0.1µF
10 µF
L1
C3
8
VCC
12V
C4
100Ω
0.1µF
10 µF
+ 30Ω*
75Ω
R6
D1
3,4,10
Vout
C2
GREEN DRIVE
CVA1203
B
2,7,9
Vbias 1/3
CVA2415
1,6,8
Vin
CUTOFF
ADJ.
10 µF
+ 30Ω*
75Ω
TO RED
CASCODE
DRIVER
500Ω
5
G
VCC
Q1
10K Ω
C6
11
0.1µF
10 µF
+ 30Ω*
75Ω
3
C6
D1
3,4,10
Vout
C2
VCC
L1
OUTPUT
C1
R5
R4
CL
D2
5
GND
DC
RESTORE
BLACK LEVEL
(BRIGHTNESS)
CONTROL
0.1 µF
1B-50
BLACK LEVEL
GATE IN
CVA2415
CALOGIC
C1
µF
C2
µF
C3
µF
C4
µF
CL*
pF
C6
µF
R4
Ω
R5
KΩ
R6
Ω
D1
D2
L1
nH
Q1
1.0
0.01
0.1
0.47
12
1.0
34
1.5
150
FDH400
FDH400
560
2N5770
CORPORATION, 237 Whitney Place, Fremont, California 94539, Telephone: 510-656-2900, FAX: 510-651-1076