ASB AWB51D7 1.2 ghz catv push-pull amplifier mmic Datasheet

AWB51D7
AWB51D7 Data Sheet
1.2 GHz CATV Push-pull Amplifier MMIC
1. Product Overview
1.1
Features
 50 ~ 1200 MHz Bandwidth
 18.2 dB Gain at 500 MHz
 CSO : 71 dBc, CTB : 63 dBc
@ Pout = 103 dBV flat for NTSC 79 channels + QAM256 75 channels, -6 dB offset
 Robust under Hard Operating Conditions
 +8 V, 340 mA Supply
1.2
Applications
 CATV Line Amplifiers
 HFC Nodes
 Head End Equipment
1.3
Package Profile & RoHS Compliance
TSSOP24, 7.8x6.4 mm2, surface mount
1/10
ASB Inc.

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RoHS-compliant
July 2014
AWB51D7
2. Summary on Product Performances
2.1
Typical Performance
Supply voltage = +8 V, TA = +25 C, ZO = 75 
Parameter
Typical
Unit
Frequency
50
500
1000
1200
MHz
Gain
18.1
18.2
18.9
19.6
dB
S11
-21
-18
-22
-18.5
dB
S22
-21
-16.5
-22
-16.5
dB
Noise Figure
2.5
2.2
2.4
2.4
dB
CSO1)
71
dBc
CTB1)
63
dBc
Current
340
mA
Device Voltage
+8
V
1) CSO & CTB measured at Pout = 103 dBV flat for NTSC 79 channels + QAM 256 75 channels, -6 dB offset.
2.2
Product Specification
Supply voltage = +8 V, TA = +25 C, ZO = 75 
Parameter
2/10
Min
Typ
Max
Unit
Frequency
500
MHz
Gain
18.2
dB
S11
-18
dB
S22
-16.5
dB
Noise Figure
2.2
dB
Current
340
mA
Device Voltage
+8
V
ASB Inc.
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July 2014
AWB51D7
2.3
Pin Configuration
Pin
Description
Simplified Outline
3, 10
RF_IN
6, 7
Current Adjustable
18, 19
VCG Adjustable
15, 22
RF_ OUT
Others
NC or GND
Note: Backside metal paddle is RF and DC ground.
2.4
Absolute Maximum Ratings
Parameters
Max. Ratings
Operation Case Temperature
-40 to 85 C
Storage Temperature
-40 to 150 C
Device Voltage
+10 V
Maximum Current
450 mA
Operation Junction Temperature
+150 C
Input RF Power (CW, 75  matched)
+24 dBm
2.5
Thermal Resistance
Symbol
Description
Typ
Unit
Rth
Thermal resistance from junction to lead
9
C/W
2.6
ESD Classification & Moisture Sensitivity Level
ESD Classification
HBM
Class 1B
Voltage Level: 750 V
MM
Class A
Voltage Level: 100 V
CAUTION: Gallium Arsenide Integrated Circuits are sensitive to electrostatic discharge (ESD) and can be
damaged by static electricity. Proper ESD control techniques should be used when handling
these devices.
Moisture Sensitivity Level
MSL 3 at 260 C reflow
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AWB51D7
3. Application: 50 ~ 1200 MHz (75  Push-pull, Vsupply = +8 V)
3.1
Application Circuit & Evaluation Board
Vdevice = +8 V
C4
C5
T1(MABA-007159)
RF IN
C3
R1
L1
C6
L2
C1
C2
R4
R3
T2(MABA-007159)
RF OUT
R5
L4
C7
C8
AWB51D7
R2
C11
C9
L3
C12
C10
Vdevice = +8 V
PCB Information
Material
FR4
Thickness (mm)
0.8
Size (mm)
40x40
EB No.
EB-T24-H4
Bill of Material
4/10
Symbol
Value
Size
Description
Manufacturer
AWB51D7
-
-
MMIC Amplifier
ASB
C1, C2, C7, C8
1 F
0603
DC blocking capacitor
Murata
C3, C9
1 F
0603
Feedback capacitor
Murata
C4, C10
10 F
0805
Decoupling capacitor
Murata
C5, C11
1.2 pF
0603
Matching capacitor
Murata
C6, C12
1 pF
0402
Matching capacitor
Murata
L1, L3
1 H
1206
RF choke inductor
Murata
L2, L4
1.5 nH
0603
Matching inductor
Murata
R1, R2
430 
0603
Feedback resistor
Samsung
R3
22 
0402
Current adjust resistor
Samsung
R4, R5
2 k
0402
VCG adjust resistor
Samsung
T1, T2
1:1
-
Transformer balun
MACOM
ASB Inc.

[email protected]
July 2014
AWB51D7
3.2
Performance Table
Supply voltage = +8 V, TA = +25 C, ZO = 75 
Parameter
Typical
Unit
Frequency
50
500
1000
1200
MHz
Gain
18.1
18.2
18.9
19.6
dB
S11
-21
-18
-22
-18.5
dB
S22
-21
-16.5
-22
-16.5
dB
Noise Figure
2.5
2.2
2.4
2.4
dB
CSO1)
71
dBc
CTB1)
63
dBc
Current
340
mA
Device Voltage
+8
V
1) CSO & CTB measured at Pout = 103 dBV flat for NTSC 79 channels + QAM 256 75 channels, -6 dB offset.
Plot of S-parameter & Stability Factor
40
10
S-parameter (dB)
30
9
S21
20
10
7
0
6
-10
5
S11
-20
4
S12
-30
3
S22
-40
2
K
-50
1
-60
0
1200
0
5/10
8
200
ASB Inc.

400
600
800
Frequency (MHz)
[email protected]
Stability Factor, K
3.3
1000
July 2014
AWB51D7
4. Application: 50 ~ 1000 MHz (75  Push-pull, Vsupply = +8 V)
4.1
Application Circuit & Evaluation Board
Vdevice = +8 V
C4
C5
C3
R1
T1(MABA-007159) C1
RF IN
L1
C6
L2
C2
L4
C8
R4
R3
T2(MABA-007159)
RF OUT
R5
C7
AWB51D7
R2
C11
C9
L3
C12
C10
Vdevice = +8 V
PCB Information
Material
FR4
Thickness (mm)
0.8
Size (mm)
40x40
EB No.
EB-T24-H4
Bill of Material
6/10
Symbol
Value
Size
Description
Manufacturer
AWB51D7
-
-
MMIC Amplifier
ASB
C1, C2, C7, C8
1 F
0603
DC blocking capacitor
Murata
C3, C9
1 F
0603
Feedback capacitor
Murata
C4, C10
10 F
0805
Decoupling capacitor
Murata
C5, C6, C11,C12
0.5 pF
0402
Matching capacitor
Murata
L1, L3
1 H
1206
RF choke inductor
Murata
L2, L4
1.8 nH
0603
Matching inductor
Murata
R1, R2
430 
0603
Feedback resistor
Samsung
R3
22 
0402
Current adjust resistor
Samsung
R4, R5
2 k
0402
VCG adjust resistor
Samsung
T1, T2
1:1
-
Transformer balun
MACOM
ASB Inc.

[email protected]
July 2014
AWB51D7
4.2
Performance Table
Supply voltage = +8 V, TA = +25 C, ZO = 75 
Parameter
Typical
Unit
Frequency
50
500
860
1000
MHz
Gain
18.1
18.2
18.6
18.9
dB
S11
-20
-19
-22
-18
dB
S22
-20
-18
-22
-18
dB
Noise Figure
2.5
2.3
2.4
2.4
dB
CSO1)
71
dBc
CTB1)
63
dBc
Current
340
mA
Device Voltage
+8
V
1) CSO & CTB measured at Pout = 103 dBV flat for NTSC 79 channels + QAM 256 75 channels, -6 dB offset.
Plot of S-parameter & Stability Factor
40
10
S-parameter (dB)
30
9
S21
20
8
10
7
0
6
-10
S11
-20
-30
S12
S22
-40
4
3
2
K
-50
1
-60
0
1200
0
7/10
5
200
ASB Inc.

400
600
800
Frequency (MHz)
[email protected]
Stability Factor, K
4.3
1000
July 2014
AWB51D7
5. Package Outline (TSSOP24)
Lot No.
Part No.
Symbols
AWB51D7
Pxxxx
A
A1
A2
b
C
D
D1
E
E1
E2
e
L
y

L1-L1
L1
Dimensions (In mm)
MIN
NOM
----0.00
---0.80
1.00
0.19
--0.09
--7.70
7.80
4.086
4.286
6.20
6.40
4.30
4.40
2.55
2.75
--0.65
0.45
0.60
------0
----1.00REF
MAX
1.15
0.10
1.05
0.30
0.20
7.90
4.486
6.60
4.50
2.95
--0.75
0.10
8
0.12
6. Surface Mount Recommendation (In mm)
2.20
NOTE
3.42
1. Add as much copper as possible to inner and outer
layers near the part to ensure optimal thermal
performance.
0.35
0.40
1.55
0.76
8/10
3. Add mounting screws near the part to fasten the
board to a heat sinker. Ensure that the ground &
thermal via region contacts the heat sinker.
0.65
7.80
0.64
2. To ensure reliable operation, device ground
paddle-to-ground pad soldering is critical.
4. A proper heat dissipation path underneath the area
of the PCB for the mounted device is strictly
required for proper thermal operation. Damage to
the device can result from inappropriate heat
dissipation.
0.34
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July 2014
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AWB51D7
0
7. Recommended Soldering Reflow Profile
260 C
20~40 sec
Ramp-up
(3 C/sec)
Ramp-down
(6 C/sec)
200 C
150 C
60~180 sec
(End of Datasheet)
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