INTERSIL CA2111AE

May 1999
[ /Title
(CA21
11A)
/Subject
(FM
IF
AmplifierLimiter
and
Quadra
ture
Detector)
/Autho
r ()
/Keywords
(Harris
Semiconductor,
FM IF
amplifier,
quadrat
ure
detector,
limiter,
TV
audio
IF,
high
AM
rejection,
CA2111A
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FM IF Amplifier-Limiter
and Quadrature Detector
Features
Description
• Input Limiting Voltage At 10.7MHz . . . . . . . . . . . 400µV
The CA2111A provides a multistage wideband amplifierlimiter, a quadrature detector, and an emitter-follower output
stage. This device is designed for use in FM receivers and in
the sound IF sections of TV receivers. In addition, an output
terminal is provided which allows the use of the amplifierlimiter as a straight 60dB wideband amplifier.
• Input Limiting Voltage At 4.5, 5.5MHz . . . . . . . . 250µV
• Typical AM Rejection At 10.7MHz. . . . . . . . . . . . . 45dB
• Provision for Output from 3-Stage IF Amplifier Section
• Low Harmonic Distortion
• Quadrature Detection Permits Simplified Single-Coil
Tuning
• Extremely Low AFC Voltage Drift Over Full Operating
Temperature Range
• Minimum Number of External Components Required
The amplifier-limiter features the excellent limiting characteristic of 3 cascaded differential amplifiers. The quadrature
detector requires only one coil in the associated outboard
circuit and therefore, tuning is a simple procedure.
A unique feature of the CA2111A is its exceptionally low
AFC voltage drift over the full operating-temperature range.
Part Number Information
Applications
PART NUMBER
• FM IF Sound
TEMP.
RANGE (oC)
CA2111AE
• TV Sound IF
Pinout
PKG.
NO.
PACKAGE
-40 to 85
14 Ld PDIP
E14.3
Block Diagram
L1
CA2111A
(PDIP)
TOP VIEW
14µH
V+
+12V
3pF
C1
AUDIO OUT 1
REF BIAS 2
NC 3
IF IN 4
14 DE-EMPHASIS
13 V+
4
12 QUADRATURE INPUT
10 HIGH IF OUTPUT
INPUT BYPASS 6
9 LOW IF OUTPUT
3
12
2
QUADRATURE
DETECTOR
6
0.1µF
9
AMPLIFIERLIMITER
51Ω
11 QUADRATURE IN BUF
DC FB BYPASS 5
GROUND 7
13
120pF
0.1µF
5
EMITTER
FOLLOWER
BIAS
8 NC
10
11
14
8
1
7
0.003µF
CAUTION: These devices are sensitive to electrostatic discharge. Users should follow proper IC Handling Procedures.
Copyright
© Harris Corporation 1999
8-13
File Number
612.2
CA2111A
Absolute Maximum Ratings
TA = 25oC
Thermal Information
Supply Voltage (V+ to V-) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16V
Operating Conditions
Temperature Range . . . . . . . . . . . . . . . . . . . . . . . . . . -40oC to 85oC
Supply Voltage Range (Typical) . . . . . . . . . . . . . . . . . . . . 8V to 12V
Thermal Resistance (Typical, Note 1)
θJA (oC/W)
PDIP Package . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
150
Maximum Junction Temperature (Plastic Package) . . . . . . . . 150oC
Maximum Storage Temperature Range . . . . . . . . . -65oC to 150oC
Maximum Lead Temperature (Soldering 10s) . . . . . . . . . . . . . 300oC
CAUTION: Stresses above those listed in “Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress only rating and operation
of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied.
NOTES:
1. θJA is measured with the component mounted on an evaluation PC board in free air.
Electrical Specifications
PARAMETER
Terminal 1 DC Voltage
Terminals 4, 5, 6, 10 DC Voltage
Terminals 2, 12 DC Voltage
Supply Current, Pin 13
TA = 25oC Unless Otherwise Specified
SYMBOL
MIN
TYP
MAX
UNITS
V+ = 12V
-
5.4
-
V
V+ = 8V
-
3.7
-
V
V4, 5, 6, 10
V+ = 8V
-
1.35
-
V
V2, 12
V+ = 8V
-
3.5
-
V
I13
V+ = 8V
-
14
-
mA
V+ = 12V
-
16
-
mA
fO = 10.7MHz
-
7
-
kΩ
V1
TEST CONDITIONS
Amplifier Input Resistance
R4
Amplifier Input Capacitance
C4
-
11
-
pF
Detector Input Resistance
R12
-
70
-
kΩ
Detector Input Capacitance
C12
-
2.7
-
pF
Amplifier Output Resistance
R10
-
60
-
Ω
Detector Output Resistance
R1
-
200
-
Ω
De-emphasis Resistance
R14
-
8.8
-
kΩ
DYNAMIC CHARACTERISTICS fO = 10.7MHz, ∆f = ±75kHz, V+ = 8V, FM Modulation Frequency = 400Hz, Source Resistance = 50Ω
Input Limiting Threshold Voltage
AM Rejection
Amplifier Voltage Gain
Detector Recovered Audio Output
Total Harmonic Distortion
-
400
600
µVRMS
VI = 10mVRMS, 100% FM, 30% AM
-
37
-
dB
AV
VI = 50µVRMS
-
55
-
dB
VO(AF)
VI = 10mVRMS
-
0.3
-
VRMS
THD
VI = 10mVRMS
-
1
-
%
VI(LIM)
AMR
DYNAMIC CHARACTERISTICS fO = 10.7MHz, ∆f = ±75kHz, V+ = 12V, FM Modulation Frequency = 400Hz, Source Resistance = 50Ω
Input Limiting Threshold Voltage
AM Rejection
Amplifier Voltage Gain
Detector Recovered Audio Output
Total Harmonic Distortion
-
400
600
µVRMS
VI = 10mVRMS, 100% FM, 30% AM
-
45
-
dB
AV
VI = 50µVRMS
-
55
-
dB
VO(AF)
VI = 10mVRMS
-
0.48
-
VRMS
THD
VI = 10mVRMS
-
1
-
%
VI(LIM)
AMR
DYNAMIC CHARACTERISTICS fO = 4.5MHz, ∆f = ±25kHz, V+ = 12V, FM Modulation Frequency = 400Hz, Source Resistance = 50Ω
Input Limiting Threshold Voltage
AM Rejection
VI(LIM)
AMR
VI = 10mVRMS, 100% FM, 30% AM
8-14
-
250
400
µVRMS
-
36
-
dB
CA2111A
TA = 25oC Unless Otherwise Specified (Continued)
Electrical Specifications
PARAMETER
SYMBOL
Amplifier Voltage Gain
Detector Recovered Audio Output
TEST CONDITIONS
MIN
TYP
MAX
UNITS
AV
VI = 50µVRMS
-
60
-
dB
VO(AF)
VI = 10mVRMS
-
0.72
-
VRMS
THD
VI = 10mVRMS
-
1.5
-
%
Total Harmonic Distortion
DYNAMIC CHARACTERISTICS fO = 5.5MHz, ∆f = ±50kHz, V+ = 12V, FM Modulation Frequency = 400Hz, Source Resistance = 50Ω
-
250
400
µVRMS
VI = 10mVRMS, 100% FM, 30% AM
-
40
-
dB
AV
VI = 50µVRMS
-
60
-
dB
VO(AF)
VI = 10mVRMS
-
1.2
-
VRMS
THD
VI = 10mVRMS
-
3
-
%
Input Limiting Threshold Voltage
VI(LIM)
AM Rejection
AMR
Amplifier Voltage Gain
Detector Recovered Audio Output
Total Harmonic Distortion
Test Circuit
C2
C1
V+
13
2
0.1µF
COMPONENT VALUES
NOTE
L1
0.1µF
DETECTOR
TRANSFER
CHARACTERISTICS
12
R1
ƒ
L1
C1
R1
Q
C2
C3
UPPER
PEAK
LOWER
PEAK
MHz
µH
pF
kΩ
-
pF
µF
MHz
MHz
4.5
14
120
20
30
3
0.003
4.58
4.42
5.5
8
100
20
30
3
0.003
5.63
5.37
10.7
2
120
3.9
20
4.7
0.01
10.9
10.5
9
AM/FM SIGNAL
GENERATOR
4
10
0.1µF
50µF
51Ω
AC VTVM
1
6
14
0.1µF
5
7
3
2kΩ
8
C3
0.1µF
DISTORTION
ANALYZER
NOTE: Input to the quadrature coil can be from either terminal 9 or
terminal 10. Terminal 9 is normally used because it lessens the
possibility of overloads during tuning. The use of terminal 10
increases the limiting sensitivity significantly and has been used
successfully in these tests.
8-15
CA2111A
Schematic Diagram
2
R12
3K
Q10
R24
160K
Q6
Q3
Q1
4
R9
1K
Q2
R18
200
R16
Q13
200
Q9
R20
200
Q26
14
Q21
Q19
Q18
Q20
R17
Q4
200
1
R22
8K
6
Q23
5
R2
4K
R1
500
R23
200
Q17
Q12
Q7 Q8
Q5
R19
8.8K
R15
200
Q16
Q11
R5
1K
R3
1K
13
12
R4
500
R6
2K
Q14
R7
2K
R8
500
7
Q15
R10
450
R13
2.5K
Q25
11
9
10
Q24
R14
2.5K
R11
50
R21
5K
Q27
Q22
Typical Performance Curves
AM REJECTION (dB)
50
60
TA = 25oC
V+ = 12V
100% FM, 30% AM
fO = 4.5MHz
REF. SIGNAL INPUT (TERM. 10)
50
40
REF. SIGNAL INPUT (TERM. 9)
30
AM REJECTION (dB)
60
REF. SIGNAL INPUT (TERM. 10)
40
REF. SIGNAL INPUT (TERM. 9)
30
20
20
10
TA = 25oC
V+ = 12V
100% FM, 30% AM
fO = 5.5MHz
0.1
10
1
10
0.1
INPUT SIGNAL VOLTAGE (Vi) (mVRMS)
1
10
INPUT VOLTAGE (Vi) (mVRMS)
FIGURE 3. AM REJECTION vs INPUT VOLTAGE (AT 5.5MHz)
FIGURE 2. AM REJECTION vs INPUT VOLTAGE (AT 4.5MHz)
8-16
CA2111A
Typical Performance Curves
(Continued)
50
1.0
SUPPLY VOLTAGE
TA = 25oC, V+ = 12V
fO = 4.5MHz
∆ f = ±25kHz
0.9
DETECTED AUDIO OUTPUT
VOLTAGE (VO) (VRMS)
12V
AM REJECTION (dB)
40
8V
30
20
10
TA = 25oC
100% FM, 30% AM
fO = 5.5MHz
0.8
0.7
REF. SIGNAL INPUT (TERM. 9)
0.6
0.5
0.4
0.3
0.2
0.1
0
0
1
10
100
0.1
INPUT VOLTAGE (Vi) (mVRMS)
1
10
INPUT VOLTAGE (Vi) (mVRMS)
FIGURE 4. AM REJECTION vs INPUT VOLTAGE (AT 10.7MHz)
FIGURE 5. DETECTED AUDIO OUTPUT vs INPUT VOLTAGE
(4.5MHz)
1.3
1.1
TA = 25oC, V+ = 12V
fO = 5.5MHz
∆ f = ±50kHz
DETECTED AUDIO OUTPUT
VOLTAGE (VO) (VRMS)
DETECTED AUDIO OUTPUT
VOLTAGE (VO) (VRMS)
1.2
REF. SIGNAL INPUT (TERM. 9)
1
0.9
0.8
0.7
0.6
0.5
INPUT CARRIER = 1mV
TA = 25oC
fO = 10.7MHz
∆ f = ±75kHz
0.3
100
0.1
10
1
0.01
INPUT VOLTAGE (Vi) (mVRMS)
SIGNAL-TO-NOISE RATIO (dB)
80
3.7
0
25
50
1
10
100
FIGURE 7. DETECTED AUDIO OUTPUT VOLTAGE vs INPUT
VOLTAGE (AT 10.7MHz)
3.8
-25
0.1
INPUT SIGNAL VOLTAGE (Vi) (mVRMS)
FIGURE 6. DETECTED AUDIO OUTPUT vs INPUT VOLTAGE
(AT 5.5MHz)
AFC VOLTAGE, V1 (V)
8V
10
0.4
3.6
-50
SUPPLY VOLTAGE (V+) = 12V
75
100
TEMPERATURE (oC)
FIGURE 8. AFC VOLTAGE vs AMBIENT TEMPERATURE
MODULATION FREQUENCY = 1kHz
TA = 25oC
∆ f = ±25kHz
60
40
SUPPLY VOLTAGE (V+) = 12V
8V
20
0
0.01
0.1
1
INPUT VOLTAGE (Vi) (mVRMS)
10
FIGURE 9. SIGNAL-TO-NOISE RATIO vs INPUT VOLTAGE
8-17