MA733C [NXP]
Differential video amplifier; 差分视频放大器
| 型号: | MA733C |
| 厂家: | 
NXP |
| 描述: | Differential video amplifier |
| 文件: | 总9页 (文件大小:139K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
LINEAR PRODUCTS
µA733/733C
Differential video amplifier
Product specification
IC11
April 15, 1992
Philip s Se m ic ond uc tors
Philips Semiconductors
Product specification
Differential video amplifier
µA733/733C
DESCRIPTION
PIN CONFIGURATION
The 733 is a monolithic differential input, differential output,
wide-band video amplifier. It offers fixed gains of 10, 100, or 400
without external components, and adjustable gains from 10 to 400
by the use of an external resistor. No external frequency
compensation components are required for any gain option. Gain
stability, wide bandwidth, and low phase distortion are obtained
through use of the classic series-shunt feedback from the
emitter-follower outputs to the inputs of the second stage. The
emitter-follower outputs provide low output impedance, and enable
the device to drive capacitive loads. The 733 is intended for use as
a high-performance video and pulse amplifier in communications,
magnetic memories, display and video recorder systems.
N Package
1
2
3
4
5
6
7
14
13
12
11
10
9
INPUT 2
INPUT 1
NC
NC
GAIN SELECT
GAIN SELECT
G
G
G
G
GAIN SELECT
GAIN SELECT
2B
2A
1B
1A
V–
V+
NC
NC
8
OUTPUT 2
OUTPUT 1
TOP VIEW
FEATURES
SL00089
• 120MHz bandwidth
Figure 1. Pin Configuration
• 250kΩ input resistance
• Selectable gains of 10, 100, and 400
• No frequency compensation required
• MIL-STD-883A, B, C available
APPLICATIONS
• Video amplifier
• Pulse amplifier in communications
• Magnetic memories
• Video recorder systems
ORDERING INFORMATION
DESCRIPTION
TEMPERATURE
-55°C to +125°C
0 to +70°C
ORDER CODE
DWG #
SOT27-1
SOT27-1
14-Pin Plastic Dual In–Line Package (DIP)
14-Pin Plastic Dual In–Line Package (DIP)
µA733N
µA733CN
CIRCUIT SCHEMATIC
+V
R2
2.4kΩ
R8
10kΩ
R10
1.1kΩ
R9
1.1kΩ
R1
2.4kΩ
Q5
Q6
Q3
Q4
R11
INPUT 1
G
Q1
OUTPUT 1
Q2
INPUT 2
7kΩ
G
1A
1B
GAIN
SELECT
R12
7kΩ
OUTPUT 2
R3
50Ω
R5
50Ω
G
G
2A
2B
R4
R6
590Ω
590Ω
Q8
Q9
Q10
Q11
Q7
R7
300Ω
R12
400Ω
R14
400Ω
1.4kΩ
300Ω
-V
SP00090
Figure 2. Circuit Schematic
2
1992 Apr 15
853-1064 06456
Philips Semiconductors
Product specification
Differential video amplifier
µA733/733C
ABSOLUTE MAXIMUM RATINGS
SYMBOL
PARAMETER
RATING
UNIT
V
V
V
V
Differential input voltage
±5
±6
DIFF
CM
Common-mode input voltage
Supply voltage
V
±8
V
CC
I
Output current
10
mA
°C
°C
OUT
T
T
Junction temperature
Storage temperature range
Operating ambient temperature range
µA733C
+150
-65 to +150
J
STG
T
A
0 to +70
-55 to +125
1420
°C
°C
µA733
P
Maximum power dissipation,
mW
D MAX
1
25°C ambient temperature (still-air)
NOTE:
1. The following derating factors should be applied above 25°C:
N package at 11.4mW/°C
DC ELECTRICAL CHARACTERISTICS
T =+25°C, V =±6V, V =0, unless otherwise specified. Recommended operating supply voltages V =±6.0V.
A
S
CM
S
µA733C
µA733
SYMBOL
PARAMETER
TEST CONDITIONS
UNIT
Min
Typ
Max
Min
Typ
Max
Differential voltage gain
R = 2kΩ, V
= 3V
P-P
I
OUT
2
Gain 1
250
80
8
400
100
10
600
120
12
300
90
9
400
100
10
500
110
11
V/V
V/V
V/V
2
Gain 2
3
Gain 3
1
Gain 1
40
40
2
BW
Gain 2
90
90
MHz
3
Gain 3
120
120
t
V
V
= 1V
= 1V
R
OUT
P-P
1
Gain 1
10.5
4.5
10.5
4.5
ns
ns
ns
2
Gain 2
12
10
10
10
3
Gain 3
2.5
2.5
t
PD
OUT
P-P
1
Gain 1
7.5
6.0
3.6
7.5
6.0
3.6
ns
ns
ns
2
Gain 2
3
Gain 3
R
IN
2
Gain 1
4.0
30
4.0
30
kΩ
kΩ
kΩ
pF
µA
µA
2
Gain 2
10
20
3
Gain 3
250
2.0
0.4
9.0
12
250
2.0
0.4
9.0
12
2
Input capacitance
Gain 2
I
I
Input offset current
Input bias current
Input noise voltage
Input voltage range
5.0
30
3.0
20
OS
BIAS
V
V
BW=1kHz to 10MHz
µV
RMS
NOISE
±1.0
±1.0
V
IN
CMRR
Gain 2
Gain 2
V
=±1V, f≤100kHz
60
86
60
60
86
60
dB
dB
CM
V
=±1V, f=5MHz
CM
3
1992 Apr 15
Philips Semiconductors
Product specification
Differential video amplifier
µA733/733C
DC ELECTRICAL CHARACTERISTICS (Continued)
µA733C
Typ
µA733
SYMBOL
PARAMETER
TEST CONDITIONS
∆V = ±0.5V
UNIT
Min
Max
Min
Typ
Max
SVRR
Supply voltage rejection ratio Gain 2
Output offset voltage
50
70
50
70
dB
S
R = ∞
L
1
Gain 1
0.6
0.35
2.9
4.0
3.6
20
1.5
1.5
3.4
0.6
0.35
2.9
4.0
3.6
20
1.5
1.0
3.4
V
V
V
2, 3
Gain 2 and 3
V
CM
Output common-mode voltage
Output voltage swing, differential
Output sink current
R = ∞
2.4
3.0
2.5
2.4
3.0
2.5
L
R =2kΩ
L
V
P-P
I
mA
Ω
SINK
R
Output resistance
OUT
I
Power supply current
R = ∞
L
18
24
18
24
mA
CC
THE FOLLOWING SPECIFICATIONS APPLY OVER TEMPERATURE
0°C ≤ T ≤ 70°C
-55°C ≤ T ≤ 125°C
A
A
Min
Typ
Max
Min
Typ
Max
UNIT
Differential voltage gain
R = 2kΩ, V
= 3V
OUT P-P
I
1
Gain 1
250
80
8
600
120
12
200
80
8
600
120
12
V/V
V/V
V/V
2
Gain 2
3
Gain
R
Input resistance
IN
2
Gain 2
8
8
kΩ
µA
µA
V
I
I
Input offset current
Input bias current
Input voltage range
Common-mode rejection ratio
Gain 2
6
5
OS
40
40
BIAS
V
IN
±1.0
50
±1.0
50
CMRR
V
CM
=±V, F≤100kHz
dB
dB
SVRR
Supply voltage rejection ratio
Gain 2
∆V =±0.5V
50
50
S
V
V
Output offset voltage
R = ∞
L
OS
1
Gain 1
1.5
1.5
1.5
1.2
V
V
2, 3
Gain 2 and 3
Output voltage swing, differential
Output sink current
R = 2kΩ
L
2.8
2.5
2.5
2.2
V
P-P
DIFF
SINK
CC
I
I
mA
mA
Power supply current
R ± ∞
L
27
27
NOTES:
1. Gain select pins G and G connected together.
1A
1B
2. Gain select pins G and G connected together.
2A
2B
3. All gain select pins open.
4
1992 Apr 15
Philips Semiconductors
Product specification
Differential video amplifier
µA733/733C
TYPICAL PERFORMANCE CHARACTERISTICS
Phase Shift as a
Function of Frequency
Voltage Gain as a
Function of Temperature
Phase Shift as a
Function of Frequency
60
50
0
0
–60
GAIN 2
V
= +6V
V
T
= +6V
A
S
A
L
o
GAIN 1
GAIN 2
V
T
= +6V
o
T
= 25 C
= 25 C
S
A
A
-5
o
= 25 C
R
= 1kKΩ
–100
–150
40
30
-10
-15
20
10
–200
–250
–300
GAIN 3
GAIN 3
GAIN 2
-20
-25
0
GAIN 1
-10
–350
0
1
2
3
4
5
6
7
8
9
10
1
5
10
50 100
5001000
1
5
10
50 100
5001000
FREQUENCY – MHz
FREQUENCY — MHz
FREQUENCY — MHz
Common-Mode Rejection Ratio
as a Function of Frequency
Output Voltage Swing as
a Function of Frequency
Pulse Response
100
90
7.0
6.0
1.6
GAIN 2
V
T
= +6V
V
T
= +6V
S
A
L
S
A
L
1.4
1.2
V
T
= +6V
o
S
A
o
= 25 C
= 25 C
o
80
70
60
50
40
30
= 25 C
R
= 1k
R
= 1kΩ
5.0
4.0
3.0
2.0
1.0
0
1.0
0.8
0.6
0.4
0.2
GAIN 3
GAIN 1
GAIN 2
20
10
0
0
-0.2
-0.4
10k
100k
1M
10M
100M
1
5
10
50 100
5001000
-15 -10 -5
0
5
10 15 20 25 30 35
FREQUENCY – Hz
FREQUENCY – MHz
TIME – ns
Pulse Response as a
Function of Temperature
Differential Overdrive
Recovery Time
Pulse Response as a
Function of Supply Voltage
70
60
50
40
1.6
1.6
1.4
1.2
GAIN 2
V
T
= +6V
S
A
GAIN 2
o
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0
V
= +
o
S
L
6V
= 25 C
T
= 25 C
A
L
R
= 1kΩ
GAIN 2
V
= +8V
R
= 1kΩ
S
1.0
0.8
0.6
V
V
= +6V
= +3V
S
S
o
T
= 0 C
o
= 25 C
A
T
A
30
20
10
o
= 70 C
0.4
0.2
T
A
0
-0.2
-0.4
-0.2
-0.4
0
0
20 40 60 80 100 120 140 160 180 200
DIFFERENTIAL INPUT VOLTAGE – mV
-15 -10 -5
0
5
10 15 20 25 30 35
-15 -10 -5
0
5
10 15 20 25 30 35
TIME – ns
TIME – ns
SL00091
Figure 3. Typical Performance Characteristics
5
1992 Apr 15
Philips Semiconductors
Product specification
Differential video amplifier
µA733/733C
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
Voltage Gain as a
Function of Temperature
Gain vs. Frequency as a
Function of Temperature
Voltage Gain as a
Function of Supply Voltage
1.4
60
50
40
1.10
1.08
1.06
1.04
1.02
1.00
0.98
0.96
0.94
GAIN 2
o
V
= +
6V
1.3
1.2
1.1
1.0
0.9
0.8
T
= 25 C
S
A
V
= +6V
S
L
R
= 1kKΩ
GAIN 3
GAIN 2
30
GAIN 3
GAIN 2
o
T
= –55 C
A
20
10
0
o
T
= 25 C
A
0.7
GAIN 1
o
0.6
0.5
0.4
T
= 125 C
A
GAIN 1
0.92
0.90
-10
1
5
10
50 100
500 1000
0
10
20 30
40 50
60
70
3
4
5
6
7
8
o
TEMPERATURE –
C
FREQUENCY – MHz
SUPPLY VOLTAGE – +V
Gain vs. Frequency as a
Function of Supply Voltage
Voltage Gain
Adjust Circuit
Voltage Gain as a
Function of RADJ (Figure 3)
60
50
40
1000
100
10
GAIN 2
o
0.2µF
V
= +6V
12
11
T
= 25 C
S
A
A
o
14
1
T
= 25 C
R
= 1kKΩ
L
8
733
0.2µF
7
4
3
30
20
V
S
= +8V
R
ADJ
51Ω 51Ω
1kΩ 1kΩ
V
= +6V
S
10
0
V
S
= +3V
o
= +6V T = 25 C
A
V
S
-10
10
100
1K
– Ω
10K
1
5
10
50 100
500 1000
R
FREQUENCY – MHz
(Pin numbers apply to K Package)
ADJ
Output Voltage and Current
Swing as a Function of
Supply Voltage
Supply Current as a
Function of Temperature
Supply Current as a
Function of Supply Voltage
21
20
28
24
7.0
o
o
T
= 25 C
T
= 25 C
A
A
V
= +6V
S
6.0
5.0
19
18
17
VOLTAGE
20
16
12
8
4.0
3.0
2.0
CURRENT
16
15
14
1.0
0
-20
20
60
100
140
-60
3.0
4.0
5.0
6.0
7.0
8.0
3
4
5
6
7
8
o
TEMPERATURE –
C
SUPPLY VOLTAGE – +V
SUPPLY VOLTAGE – +V
SL00092
Figure 4. Typical Performance Characteristics (cont.)
6
1992 Apr 15
Philips Semiconductors
Product specification
Differential video amplifier
µA733/733C
TYPICAL PERFORMANCE CHARACTERISTICS (Continued)
Output Voltage Swing as a
Function of Load Resistance
Input Noise Voltage as a
Function of Source Resistance
Input Resistance as a
Function of Temperature
7.0
6.0
100
70
GAIN 2
GAIN 2
V
T
= +6V
90
S
A
V
= +6V
V
= +6V
S
60
50
40
S
o
= 25 C
o
80
70
60
50
40
30
T
= 25 C
A
BW = 10MHz
5.0
4.0
3.0
2.0
1.0
0
30
20
20
10
0
10
0
1
10
100
1K
10K
-60
-20
0
20
60
100
140
10
50 100
500 1K
5K 10K
o
LOAD RESISTANCE – Ω
TEMPERATURE –
C
SOURCE RESISTANCE – Ω
SL00093
Figure 5. Typical Performance Characteristics (cont.)
TEST CIRCUITS T =25°C, unless otherwise specified.
A
0.2µF
0.2µF
e
in
V
733
IN
733
R
V
L
OUT
e
e
out out
51Ω
51Ω
51Ω
51Ω
1k
1k
SL00094
Figure 6. Test Circuits
7
1992 Apr 15
Philips Semiconductors
Product specification
Differential video amplifier
µA733/733C
DIP14: plastic dual in-line package; 14 leads (300 mil)
SOT27-1
8
April 15, 1992
Philips Semiconductors
Product specification
Differential video amplifier
µA733/733C
DEFINITIONS
Data Sheet Identification
Product Status
Definition
This data sheet contains the design target or goal specifications for product development. Specifications
may change in any manner without notice.
Objective Specification
Formative or in Design
Preproduction Product
Full Production
This data sheet contains preliminary data, and supplementary data will be published at a later date. Philips
Semiconductors reserves the right to make changes at any time without notice in order to improve design
and supply the best possible product.
Preliminary Specification
Product Specification
This data sheet contains Final Specifications. Philips Semiconductors reserves the right to make changes
at any time without notice, in order to improve design and supply the best possible product.
Philips Semiconductors and Philips Electronics North America Corporation reserve the right to make changes, without notice, in the products,
including circuits, standard cells, and/or software, described or contained herein in order to improve design and/or performance. Philips
Semiconductors assumes no responsibility or liability for the use of any of these products, conveys no license or title under any patent, copyright,
or mask work right to these products, and makes no representations or warranties that these products are free from patent, copyright, or mask
work right infringement, unless otherwise specified. Applications that are described herein for any of these products are for illustrative purposes
only. PhilipsSemiconductorsmakesnorepresentationorwarrantythatsuchapplicationswillbesuitableforthespecifiedusewithoutfurthertesting
or modification.
LIFE SUPPORT APPLICATIONS
Philips Semiconductors and Philips Electronics North America Corporation Products are not designed for use in life support appliances, devices,
orsystemswheremalfunctionofaPhilipsSemiconductorsandPhilipsElectronicsNorthAmericaCorporationProductcanreasonablybeexpected
to result in a personal injury. Philips Semiconductors and Philips Electronics North America Corporation customers using or selling Philips
Semiconductors and Philips Electronics North America Corporation Products for use in such applications do so at their own risk and agree to fully
indemnify Philips Semiconductors and Philips Electronics North America Corporation for any damages resulting from such improper use or sale.
Philips Semiconductors
811 East Arques Avenue
P.O. Box 3409
Sunnyvale, California 94088–3409
Philips Semiconductors and Philips Electronics North America Corporation
register eligible circuits under the Semiconductor Chip Protection Act.
Copyright Philips Electronics North America Corporation 1992
All rights reserved. Printed in U.S.A.
Telephone 800-234-7381
9
April 15, 1992
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