MITEL SL6140MPTC

SL6140
SL6140
400MHz Wideband AGC Amplifier
DS2159
Issue no 5.0
July 1999
Features
Ordering Information
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SL6140/NA/MP
Industrial temperature range
miniature plastic package
SL6140/NA/MPTC Tape and Reel
400MHz Bandwidth (RL=50Ω)
High voltage Gain 45dB (RL=1kΩ)
70dB Gain Control Range
High Output Level at Low Gain
Surface Mount Plastic Package
Low Cost
The SL6140 (Figure 3) is a high gain amplifier with an
AGC control capable of reducing the gain of the amplifier
by over 70dB. The gain is adjustable by applying a
voltage to the AGC input via an external resistor (RAGC),
the value of which adjusts the curve of gain reduction
versus control voltage (see Figure 4). As the output
stage of the amplifier is an open collector the maximum
voltage gain is determined by RL. With load resistance
of 1kΩ the single ended voltage gain is 45dB and with a
load resistance of 50Ω the voltage gain is 15dB (20log10
VOUT/VIN). Another parameter that depends on the load
resistance is the bandwidth: 25MHz for RL = 1kΩ, as
compared with 400MHz for RL = 50Ω. RL is chosen to
give either the required bandwidth or voltage gain for the
circuit.
Applications
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RF/IF Amplifier
High Gain Mixers
Video Amplifiers
Description
The SL6140 is an integrated broadband AGC amplifier,
designed on an advanced bipolar process. The
amplifier provides over 15dB of linear gain into 50Ω at
400MHz. Gain control is also provided with over 70dB
of dynamic range. The SL6140 offers over 45dB of
voltage gain with an RL of 1kΩ.
Figure 7 through to 10 show the typical S parameters for
the device. Figures 11 and 12 show the typical variation
in 3rd order intercept performance with AGC.
In any application, the substrate should be connected to
the most negative point in the circuit, usually to the same
point as pin 3.
+VCC
1.0 F
+VCC
2
RL
10n
RAGC
10n
OUTPUT
5
AGC
INPUT
SL6140
10n
INPUT
8
6
RL
4
1
10n
OUTPUT
3
7
Figure 1 Typical Application
1
SL6140
OUTPUT
+VCC
1
8
OUTPUT
2
7
GROUND
GROUND
3
6
INPUT
INPUT
4
5
AGC INPUT
MP8
Figure 2 Pin Connections Diagram (top view)
Electrical Characteristics
Tamb = 25°C, VCC = 12V +5%, VIN = 1mVRMS, Frequency = 6MHz, Load (RL) = 10KOHms, RAGC = 22KOHm
These characteristics are guaranteed over the following conditions (unless otherwise stated)
Characteristic
Pin
Supply current
5,6,7
Output stage current
5,6
(sum)
Output current matching
(magnitude of difference of output
currents)
AGC range
Voltage gain (single ended)
Value
Min
5
5,6
Conditions
Units
Typ
Max
19
23
mA
No input signal
7
9
mA
No input signal
1.0
mA
2
60
75
dB
See Figure 4 & Note 1
(VAGC = 0V to 10V)
5,6
40
45
55
15
dB
dB
dB
RL = 1kΩ See Figure 5 & Note 1
Tuned input and output
RL = 50Ω
5,6
Bandwidth (-3dB)
5,6
25
400
MHz
RL = 1kΩ See Figure 5
RL = 50Ω
Maximum output level (single
ended)
0dB AGC
-30dB AGC
5,6
5,6
3.5
3.5
V p-p
V p-p
Note 1
RL = 1kΩ. Note 1
Noise figure
5,6
5
dB
Note. 1
Guaranteed but not tested.
Absolute Maximum Ratings
Supply voltage, VCC
Input voltage (differential)
AGC supply
Storage temperature
Operating temperature range
SL6140
MP
Chip operating temperature
SL6140
MP
2
Test CCT Figure 13
Thermal Resistance
+18V
+5V
VCC
-55°C to +150°C
-40°C to +85°C
at 200mW
+150°C
Chip-to-ambient
SL6140
MP
Chip-to-case
SL6140
MP
163°C/W
57°C/W
SL6140
2
VCC
470
X2
180
AGC
I/P
5
70
8
180
470
7k
OUTPUT
12.1k
470
1
OUTPUT
2k
4
1.4k
INPUT
6
45
66
INPUT
2.8k
5k
200
200
2.8k
5k
5.6k
1.1k
1.1k
1.9k
2.1k
200
7
3
SUBSTRATE
GROUND
Figure 3 Full Circuit Diagram of SL6140
3
SL6140
G
A
I
N
R
E
D
U
C
T
I
O
N
(dB)
0
10
RAGC=22k
20
30
40
RAGC=5.6k
50
60
70
0
1
2
3
4
5
6
7
8
9
10
AGC VOLTAGE
Figure 4 Gain Reduction v. AGC Voltage
8
D
I
F
F
E
R
E
N
T
I
A
L
7
6
5
4
1MHzSINEWAVE
O
U
T
P
U
T
(V p-p)
3
2
1
0
0
10
20
30
40
50
GAIN REDUCTION (dB)
Figure 5 Max Differential O/P Voltage v. Gain Reduction
4
SL6140
50
RL=1kΩ
40
dB
30
G
A
I
N
20
RL=50Ω
10
0
0.1
10
100
1000
FREQUENCY (MHz)
Figure 6 Voltage Gain v. Frequency
Figure 7 Input Impedance 50Ω System
5
SL6140
Figure 8 Output Impedance 50Ω System
Figure 9 Reverse Transmission Coefficient S12 SL6140
6
SL6140
Figure 10 Forward Transmission Coefficient S12 SL6140
Figure 11 3rd Order Intercept Point Against Gain Reduction At 250.0MHz and 254.0MHz
7
SL6140
Figure 12 3rd Order Intercept Point Against Gain Reduction At 100.0MHz and 104.0MHz
+12V
1nF
6
2
1
L1
L2
5
8
7
4
3
1nF
VARIABLE CAPS 3-25pF
L1 7 TURNS # 18 SWG
L2 6 TURNS # 16 SWG
8mm DIA 16mm LONG
14mm DIA 19mm LONG
Figure 13 50MHz Noise Figure Test Circuit
8
O/P
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