ASB ASL563

ASL563
High Gain, Low Noise Amplifier
Description
Features
·
·
·
·
33 dB Gain at 900 MHz
1.0 dB NF at 900 MHz
Two-stage LNA
Two power supplies in Type 2
ASL563 is a two-stage LNA for GPS, DMB, and
satellite receiver low noise blocks. It has a low
noise, high gain, and high linearity over a wide
range of frequency up to 6 GHz. It is also suitable
for use in the low noise amplifier block of the mobile
wireless systems of T-DMB, CDMA, GSM, PCS,
WCDMA, WiBro, WiMAX, and WLAN so on. The
amplifier is available in an SOT-363 package and
passes the stringent DC, RF, and reliability tests.
Package Style: SOT-363
Typical Performance
Parameters
Units
Frequency
Application Circuit
Typical
MHz
900
1950
2450
Gain
dB
33
26
22
S11
dB
-15
-15
-15
S22
dB
-20
-20
-14
dBm
23
Noise Figure
dB
0.9
0.9
1.0
Output P1dB
dBm
11
14
14
Current
mA
50
50
50
V
5
5
5
Output IP3
Device Voltage
1)
29
2)
31
2)
1) OIP3 is measured with two tones at an output power of +0 dBm/tone separated by 1MHz.
2) OIP3 is measured with two tones at an output power of +5 dBm/tone separated by 1MHz.
· 900 MHz
· 1800 MHz
· 1950 MHz
· 2400 ~ 2500 MHz
· GPS (TYPE 1)
· GPS (TYPE 2 / Strip lines)
· 1163~1210 / 1204~1240 MHz
· 1558~1577 MHz
· GPS (TYPE 2 /
Without strip lines)
· 2400 ~ 2500 MHz (3V)
Product Specifications*
Parameters
Units
Frequency
Min
MHz
Typ
900
Gain
dB
S11
dB
-15
S22
dB
-20
Output IP3
dBm
31
21
33
23
Noise Figure
dB
Output P1dB
dBm
Current
mA
50
V
5
Device Voltage
Max
1.0
9
1.3
11
* 100% in-house DC & RF testing is done on packaged products before taping.
Pin Configuration
Absolute Maximum Ratings
Pin No.
Function
Rating
1
GND1
Operating Case Temperature
-40 to +85°C
2
GND2
Storage Temperature
-40 to +150°C
3
OUT2 / VDD2
+5.5 V
4
IN2
Operating Junction Temperature
+150°C
5
OUT1 / VDD1
Input RF Power (CW, 50ohm matched)*
22 dBm
6
IN1
Parameters
Device Voltage
* Please find the max. input power data from http://www.asb.co.kr/pdf/Maximum_Input_Power_Analysis.pdf
1/22
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
Outline Drawing
Symbols
A
A1
A2
b
C
D
F
E1
e
e1
L
Pin NO.
Function
Pin NO.
Function.
1
GND1
4
IN2
2
GND2
5
OUT1 / VDD1
3
OUT2 / VDD2
6
IN1
MIN
0.90
0.025
0.875
0.20
0.10
1.90
1.15
2.00
----
Dimensions (In mm)
NOM
1.00
0.062
0.937
0.30
0.125
2.00
1.25
2.10
0.65BSC
1.30BSC
0.425REF
MAX
1.10
0.10
1.00
0.40
0.15
2.10
1.35
2.20
----
Ordering Information
Part Number
2/22
Description
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
Parameter
Symbol
Test Conditions
Gp
F = 900 MHz
Power Gain
APPLICATION CIRCUIT
900 MHz
TYP.
MAX.
Unit
33
dB
Noise Figure
NF
F = 900 MHz
0.9
dB
Input Return Loss
RLin
F = 900 MHz
-15
dB
Output Return Loss
RLout
F = 900 MHz
-20
dB
Po(1dB)
F = 900 MHz
11
dBm
OIP3
F = 900 MHz
23
dBm
Icc
F = 900 MHz,
Non-RF
50
mA
1 dB Gain Compression
Output Power
rd
3 Intercept Point
1)
Output Power
+5 V / 50mA
MIN.
Circuit Current
1) OIP3 is measured with two tones at an output power of +0 dBm/tone separated by 1MHz.
Board Layout (FR4, 16x12 mm2, 0.8T)
Top
Schematic
C6=10 nF
R6=1.1 kW
C7=1 mF
VDD
R5=10 kW
C1=100 pF
R4=91 W
R3=82 W
ASL563
L1=15 nH
R1=12 kW
L2=33 nH
L4=12 nH
C5=3 pF
m
m
7
L3=33 nH
RF OUT
*P2
*P1
VDD
C2=1 mF
7mm
C4=100 pF
R2=1.2kW
Bottom
C3=10 nF
RF IN
Note: 1) the length of the strip line P1 and P2 are given as below at
the PCB with Er = 4.5 and T = 0.8 mm.
*P1 Length: 5.3 mm, Width: 0.3 mm
*P2 Length: 0.3 mm, Width: 0.3 mm
2) Gain and S11 are in trade-off and varied with the length of P1 and P2
S-parameters & Noise Figure
50
40
S21
30
10
S22
S(2,2)
S(1,1)
S - parameter [dB]
20
0
-10
S11
S22
S11
-20
-30
S12
-40
-50
600
700
800
900
1000
1100
1200
freq (600.0MHz to 1.200GHz)
Frequency [MHz]
5
1.5
4
1.3
3
1.1
1.4
Noise Figure
Stability Factor
1.2
2
1.0
0.9
0.8
1
0.7
0
0.5
600
0.6
0
500
1000
1500
2000
2500
3000
3500
700
Frequency (MHz)
3/22
800
900
1000
1100
1200
Frequency (MHz)
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
Parameter
Symbol
Test Conditions
Gp
F = 1.8 GHz
Power Gain
APPLICATION CIRCUIT
1800 MHz
TYP.
MAX.
Unit
27
dB
Noise Figure
NF
F = 1.8 GHz
0.9
dB
Input Return Loss
RLin
F = 1.8 GHz
-15
dB
Output Return Loss
RLout
F = 1.8 GHz
-20
dB
Po(1dB)
F = 1.8 GHz
14
dBm
OIP3
F = 1.8 GHz
30
dBm
Icc
F = 1.8 GHz,
Non-RF
50
mA
1 dB Gain Compression
Output Power
rd
3 Intercept Point
1)
Output Power
+5 V / 50mA
MIN.
Circuit Current
1) OIP3 is measured with two tones at an output power of +5 dBm/tone separated by 1MHz.
Board Layout (FR4, 16x12 mm2, 0.8T)
Top
Schematic
C6=10 nF
R6=1.1 kW
C7=1 mF
VDD
R5=10 kW
C1=1.5 pF
R4=33 W
R3=27 W
ASL563
L1=5.6 nH
L2=15 nH
R1=12 kW
L4=5.6 nH
C5=1.2 pF
m
m
7
L3=8.2 nH
RF OUT
*P2
*P1
VDD
C2=1 mF
7mm
C4=68 pF
R2=1.2kW
Bottom
C3=10 nF
RF IN
Note: 1) the length of the strip line P1 and P2 are given as below at
the PCB with Er = 4.5 and T = 0.8 mm.
*P1 Length: 4.3 mm, Width: 0.3 mm
*P2 Length: 0.3 mm, Width: 0.3 mm
2) Gain and S11 are in trade-off and varied with the length of P1 and P2
S-parameters & Noise Figure
40
30
S21
10
S(2,2)
S(1,1)
S - parameter [dB]
20
0
-10
S22
S11
S22
S11
-20
-30
S12
-40
1200
1400
1600
1800
2000
2200
2400
freq (1.200GHz to 2.400GHz)
Frequency [MHz]
5
1.5
4
1.3
3
1.1
1.4
Noise Figure
Stability Factor
1.2
2
1.0
0.9
0.8
1
0.7
0
0.5
1200
0.6
0
500
1000
1500
2000
2500
3000
3500
1400
Frequency (MHz)
4/22
1600
1800
2000
2200
2400
Frequency (MHz)
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
Parameter
Symbol
Test Conditions
Gp
F = 1.95 GHz
Noise Figure
NF
Input Return Loss
RLin
Output Return Loss
1950 MHz
1 dB Gain Compression
Output Power
rd
3 Intercept Point
1)
Output Power
+5 V / 50mA
TYP.
MAX.
Unit
26
dB
F = 1.95 GHz
0.9
dB
F = 1.95 GHz
-15
dB
RLout
F = 1.95 GHz
-20
dB
Po(1dB)
F = 1.95 GHz
14
dBm
OIP3
F = 1.95 GHz
29
dBm
Icc
F = 1.95 GHz,
Non-RF
50
mA
Power Gain
APPLICATION CIRCUIT
MIN.
Circuit Current
1) OIP3 is measured with two tones at an output power of +5 dBm/tone separated by 1MHz.
Board Layout (FR4, 16x12 mm2, 0.8T)
Top
Schematic
C6=10 nF
R6=1.1 kW
C7=1 mF
VDD
R5=10 kW
C1=1 pF
R4=33 W
R3=27 W
ASL563
L1=4.7 nH
L2=22 nH
R1=12 kW
L4=5.6 nH
C5=1 pF
m
m
7
L3=8.2 nH
RF OUT
*P2
*P1
VDD
C2=1 mF
7mm
C4=68 pF
R2=1.2kW
Bottom
C3=10 nF
RF IN
Note: 1) the length of the strip line P1 and P2 are given as below at
the PCB with Er = 4.5 and T = 0.8 mm.
*P1 Length: 3.7 mm, Width: 0.3 mm
*P2 Length: 0.3 mm, Width: 0.3 mm
2) Gain and S11 are in trade-off and varied with the length of P1 and P2
S-parameters & Noise Figure
40
30
S21
10
S(2,2)
S(1,1)
S - parameter [dB]
20
0
S11
S22
S22
-10
-20
S11
-30
S12
-40
1600
1700
1800
1900
2000
2100
2200
freq (1.600GHz to 2.200GHz)
Frequency [MHz]
5
1.5
4
1.3
3
1.1
1.4
Noise Figure
Stability Factor
1.2
2
1.0
0.9
0.8
1
0.7
0
0.5
1600
0.6
0
500
1000
1500
2000
2500
3000
3500
1700
Frequency (MHz)
5/22
1800
1900
2000
2100
2200
Frequency (MHz)
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
Parameter
Symbol
Test Conditions
Gp
F = 2.45 GHz
Noise Figure
NF
Input Return Loss
RLin
Output Return Loss
Power Gain
APPLICATION CIRCUIT
2400 ~ 2500 MHz
1 dB Gain Compression
Output Power
rd
3 Intercept Point
1)
Output Power
+5 V / 50mA
Circuit Current
MIN.
TYP.
MAX.
Unit
22
dB
F = 2.45 GHz
1.0
dB
F = 2.45 GHz
-15
dB
RLout
F = 2.45 GHz
-14
dB
Po(1dB)
F = 2.45 GHz
14
dBm
OIP3
F = 2.45 GHz
31
dBm
Icc
F = 2.45 GHz,
Non-RF
50
mA
1) OIP3 is measured with two tones at an output power of +5 dBm/tone separated by 1MHz.
Board Layout (FR4, 16x12 mm2, 0.8T)
Top
Schematic
C6=10 nF
R6=1.1 kW
C7=1 mF
VDD
R5=10 kW
C1=1.5 pF
R4=33 W
R3=27 W
ASL563
L1=3.3 nH
R1=12 kW
L2=15 nH
C5=1 pF
RF OUT
*P2
*P1
VDD
C2=1 mF
L4=3.3 nH
m
m
7
L3=15 nH
7mm
C4=3 pF
R2=1.2kW
Bottom
C3=10 nF
RF IN
Note: 1) the length of the strip line P1 and P2 are given as below at
the PCB with Er = 4.5 and T = 0.8 mm.
*P1 Length: 2.0 mm, Width: 0.3 mm
*P2 Length: 0.3 mm, Width: 0.3 mm
2) Gain and S11 are in trade-off and varied with the length of P1 and P2
S-parameters & Noise Figure
30
S21
20
S(2,2)
S(1,1)
S - parameter [dB]
10
0
-10
S11
S22
S11
-20
S22
S12
-30
-40
2100
2200
2300
2400
2500
2600
2700
2800
freq (2.100GHz to 2.800GHz)
Frequency [MHz]
5
1.5
4
1.3
3
1.1
1.4
Noise Figure
Stability Factor
1.2
2
1.0
0.9
0.8
1
0.7
0
0.5
2100
0.6
0
500
1000
1500
2000
2500
3000
3500
2200
Frequency (MHz)
6/22
2300
2400
2500
2600
2700
2800
Frequency (MHz)
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
Parameter
APPLICATION CIRCUIT
(TYPE 1)
Symbol
Test Conditions
MIN.
TYP.
Gp
F = 1.575 GHz
24
25
Power Gain
GPS
+3 V
Unit
dB
Noise Figure
NF
F = 1.575 GHz
1.1
Input Return Loss
RLin
F = 1.575 GHz
-14
dB
Output Return Loss
RLout
F = 1.575 GHz
-12
dB
Po(1dB)
F = 1.575 GHz
8
10
dBm
OIP3
F = 1.575 GHz
14
16
dBm
Icc
F = 1.575 GHz,
Non-RF
7.7
mA
1 dB Gain Compression
Output Power
rd
3 Intercept Point
1)
Output Power
1575 MHz
MAX.
Circuit Current
1.3
dB
1) OIP3 is measured with two tones at an output power of -5 dBm/tone separated by 1MHz.
Board Layout (FR4, 16x12 mm2, 0.8T)
Top
Schematic
C6=10 nF
R4=1.1 kW
C7=1 mF
VDD
R5=8.2 kW
C1=1.8 pF
R6=33 W
L4=6.2 nH
C5=1.5 pF
R3=33W
ASL563
L1=6.8 nH
R1=9.1kW
L2=6.2 nH
R2=1.2
kW
RF OUT
*P2
*P1
VDD
C2=1 mF
m
m
7
L3=7.5 nH
7mm
Bottom
C4=68 pF
C3=10 nF
RF IN
Note: 1) the length of the strip line P1 and P2 are given as below at
the PCB with Er = 4.5 and T = 0.8 mm.
*P1 Length: 2.8 mm, Width: 0.3 mm
*P2 Length: 1.0 mm, Width: 0.3 mm
2) Gain and S11 are in trade-off and varied with the length of P1 and P2
S-parameters & Noise Figure
35
0
30
-5
25
S11 (dB)
Gain (dB)
-10
20
15
o
-40 c
o
25 c
o
85 c
10
5
0
1400
1450
1500
1550
1600
1650
1700
1750
-15
-20
o
1800
Frequency (MHz)
-30
1400
1550
1600
1650
1700
1750
1800
4
-15
Stability Factor
-10
S22 (dB)
1500
5
-5
o
-40 c
o
25 c
o
85 c
-20
3
2
1
1450
1500
1550
1600
1650
Frequency (MHz)
7/22
1450
Frequency (MHz)
0
-25
1400
-40 c
o
25 c
o
85 c
-25
1700
1750
1800
0
0
500
1000
1500
2000
2500
3000
3500
Frequency (MHz)
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
1.5
1.4
1.3
Noise Figure
S(2,2)
S(1,1)
1.2
S22
S11
1.1
1.0
0.9
0.8
0.7
0.6
0.5
1400
1450
1500
1550
1600
1650
1700
1750
1800
Frequency (MHz)
freq (1.400GHz to 1.800GHz)
Gain vs. Temperature
Current vs. Temperature
30
16
14
28
10
26
Gain (dB)
Current (mA)
12
8
6
4
24
Frequency = 1575 MHz
22
2
0
-60
-40
-20
0
20
40
60
80
20
-60
100
-40
-20
0
80
100
35
30
14
25
Output IP3 (dBm)
12
P1dB (dBm)
60
Output IP3 vs. Tone Power (Frequency = 1575 MHz)
16
10
8
Frequency = 1575 MHz
6
20
15
o
-40 c
o
25 c
o
85 c
10
5
-40
-20
0
20
40
60
80
100
0
-11 -10 -9
-8
o
-7
-6
-5
-4
-3
-2
-1
0
1
2
3
4
5
Pout per Tone (dBm)
Temperature ( C)
8/22
40
Temperature ( C)
P1dB vs. Temperature
4
-60
20
o
o
Temperature ( C)
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
Parameter
APPLICATION CIRCUIT
(TYPE 2)
Strip lines (P1 & P2)
Power Gain
1)
Noise Figure
2)
Input Return Loss
3)
Output Return Loss
GPS
3)
1 dB Gain Compression
Output Power
rd
3 Intercept Point
4)
Output Power
1575 MHz
+3 V
Circuit Current
Symbol
Test Conditions
MIN.
TYP.
Gp
F = 1.575 GHz
24
25
MAX.
Unit
dB
NF
F = 1.575 GHz
1.1
RLin
F = 1.575 GHz
-15
dB
RLout
F = 1.575 GHz
-15
dB
Po(1dB)
F = 1.575 GHz
8
10
dBm
OIP3
F = 1.575 GHz
17
19
dBm
Icc
F = 1.575 GHz,
Non-RF
7.7
mA
5)
1.3
dB
1) Total gain is sum of the 1st stage and 2nd stage amplifiers (not include filter loss).
2) NF is that of the 1st stage amplifier.
3) S11 is that of the 1st stage amplifier and S22 is that of the 2nd stage amplifier.
4) OIP3 is that of the 2nd stage amplifier measured with two tones at an output power of +0 dBm/tone separated by 1MHz.
5) Total current is the sum of the 1st stage and the 2nd stage amplifiers.
Board Layout (FR4, 19.4x17.4 mm2, 0.8T)
Top
Schematic (with the striplines at the Pin 1 and 2)
RF IN2
BPF
C7=10 nF
C6=20 pF
R4=1.1 kW
C8=1 mF
VDD2
L3=6.2 nH
C1=1.2
pF
RF OUT1
R6=27 W
R3=24 W
ASL563
L1=5.6 nH
R1=9.1 kW
L2=6.8 nH
R2=1.2
kW
L4=6.2 nH
C5=1 pF
RF OUT2
*P2
*P1
VDD1
C2=1 mF
R5=8.2 kW
Bottom
C4=20 pF
C3=10 nF
RF IN1
Note: the length of the strip line P1 and P2 are given as below at the PCB
with Er = 4.5 and T = 0.8 mm.
*P1 Length: 1.0 mm, Width: 0.3 mm
*P2 Length: 0.65 mm, Width: 0.3 mm
1st stage S-parameters & Noise Figure
30
S21
10
S(2,2)
S(1,1)
S - parameter [dB]
20
0
S11
S22
-10
S22
S12
-20
S11
-30
1400
1450
1500
1550
1600
1650
1700
1750
1800
Frequency [MHz]
freq (1.400GHz to 1.800GHz)
5
1.5
1.4
4
1.3
Noise Figure
Stability Factor
1.2
3
2
1.1
1.0
0.9
0.8
1
0.7
0.6
0
0
500
1000
1500
2000
2500
3000
3500
0.5
1400
1450
1500
Frequency (MHz)
9/22
1550
1600
1650
1700
1750
1800
Frequency (MHz)
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
2nd stage S-parameters & Noise Figure
30
20
S21
0
S11
S22
S(2,2)
S(1,1)
S - parameter [dB]
10
S22
-10
-20
S11
S12
-30
1400
1450
1500
1550
1600
1650
1700
1750
1800
freq (1.400GHz to 1.800GHz)
Frequency [MHz]
2.0
5
1.9
1.8
4
3
Noise Figure
Stability Factor
1.7
2
1.6
1.5
1.4
1.3
1
1.2
1.1
0
0
500
1000
1500
2000
2500
3000
3500
1.0
1400
1450
Frequency (MHz)
10/22
1500
1550
1600
1650
1700
1750
1800
Frequency (MHz)
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
Parameter
APPLICATION CIRCUIT
(TYPE 2)
Strip lines (P1 & P2)
Power Gain
Noise Figure
TYP.
Gp
F = 1.575 GHz
24
27
Circuit Current
MAX.
Unit
dB
NF
F = 1.575 GHz
0.8
RLin
F = 1.575 GHz
-18
dB
RLout
F = 1.575 GHz
-18
dB
Po(1dB)
F = 1.575 GHz
9
11
dBm
OIP3
F = 1.575 GHz
20
22
dBm
Icc
F = 1.575 GHz,
Non-RF
14
mA
3)
1 dB Gain Compression
Output Power
rd
3 Intercept Point
4)
Output Power
+3 V
MIN.
3)
Output Return Loss
1575 MHz
Test Conditions
2)
Input Return Loss
GPS
Symbol
1)
5)
0.9
dB
1) Total gain is sum of the 1st stage and 2nd stage amplifiers (not include filter loss).
2) NF is that of the 1st stage amplifier.
3) S11 is that of the 1st stage amplifier and S22 is that of the 2nd stage amplifier.
4) OIP3 is that of the 2nd stage amplifier measured with two tones at an output power of +0 dBm/tone separated by 1MHz.
5) Total current is the sum of the 1st stage and the 2nd stage amplifiers.
Board Layout (FR4, 19.4x17.4 mm2, 0.8T)
Top
Schematic (with the striplines at the Pin 1 and 2)
RF IN2
BPF
C7=10 nF
C6=20 pF
R4=1.2 kW
C8=1 mF
VDD2
L3=6.2 nH
R5=9.1 kW
R6=27 W
C1=1.2 pF
RF OUT1
C5=1 pF
R3=24 W
ASL563
L1=5.6 nH
L2=6.8 nH
R1=8.2 kW
R2=1.2
kW
RF OUT2
*P2
Bottom
*P1
VDD1
C2=1 mF
L4=6.2 nH
C4=20 pF
C3=10 nF
RF IN1
Note: the length of the strip line P1 and P2 are given as below at the PCB
with Er = 4.5 and T = 0.8 mm.
*P1 Length: 1.5 mm, Width: 0.3 mm
*P2 Length: 1.5 mm, Width: 0.3 mm
1st stage S-parameters & K-factor
30
20
S22
0
S(2,2)
S(1,1)
S - parameter [dB]
S21
10
S11
S22
-10
S12
-20
-30
1400
S11
1450
1500
1550
1600
1650
1700
1750
1800
Frequency [MHz]
5
freq (1.400GHz to 1.800GHz)
Stability Factor
4
3
2
1
0
0
500
1000
1500
2000
2500
3000
3500
Frequency (MHz)
11/22
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
2nd stage S-parameters & K-factor
30
20
S(2,2)
S(1,1)
S - parameter [dB]
S21
10
0
S22
S11
S22
-10
-20
S11
S12
-30
1400
1450
1500
1550
1600
1650
1700
1750
1800
Frequency [MHz]
freq (1.400GHz to 1.800GHz)
5
Stability Factor
4
3
2
1
0
0
500
1000
1500
2000
2500
3000
3500
Frequency (MHz)
12/22
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
Parameter
APPLICATION CIRCUIT
(TYPE 2)
Strip lines (P1 & P2)
Power Gain
Noise Figure
Test Conditions
Gp
F = 1.575 GHz
2)
Input Return Loss
1575 MHz
+3 V
Circuit Current
TYP.
MAX.
Unit
30
dB
NF
F = 1.575 GHz
0.7
dB
F = 1.575 GHz
-18
dB
RLout
F = 1.575 GHz
-18
dB
Po(1dB)
F = 1.575 GHz
10.5
dBm
OIP3
F = 1.575 GHz
25.5
dBm
Icc
F = 1.575 GHz,
Non-RF
28
mA
3)
1 dB Gain Compression
Output Power
rd
3 Intercept Point
4)
Output Power
MIN.
RLin
3)
Output Return Loss
GPS
Symbol
1)
5)
1) Total gain is sum of the 1st stage and 2nd stage amplifiers (not include filter loss).
2) NF is that of the 1st stage amplifier.
3) S11 is that of the 1st stage amplifier and S22 is that of the 2nd stage amplifier.
4) OIP3 is that of the 2nd stage amplifier measured with two tones at an output power of +0 dBm/tone separated by 1MHz.
5) Total current is the sum of the 1st stage and the 2nd stage amplifiers.
Board Layout (FR4, 19.4x17.4 mm2, 0.8T)
Top
Schematic (with the striplines at the Pin 1 and 2)
RF IN2
BPF
C7=10 nF
C6=20 pF
C8=1 mF
R4=1.2 kW
VDD2
L3=6.2 nH
R5=6.8 kW
R6=27 W
C1=1.2 pF
RF OUT1
C5=1 pF
R3=5.6 W
ASL563
L1=5.6 nH
R1=6.8 kW
L2=6.8 nH
R2=1.2
kW
RF OUT2
*P2
Bottom
*P1
VDD1
C2=1 mF
L4=6.2 nH
C4=20 pF
C3=10 nF
Note: the length of the strip line P1 and P2 are given as below at the PCB
with Er = 4.5 and T = 0.8 mm.
*P1 Length: 1.0 mm, Width: 0.3 mm
*P2 Length: 1.5 mm, Width: 0.3 mm
1st stage S-parameters & K-factor
30
20
0
S(2,2)
S(1,1)
S - parameter [dB]
S21
10
S22
-10
S11
S12
-20
S22
S11
-30
1400
1450
1500
1550
1600
1650
1700
1750
1800
Frequency [MHz]
5
freq (1.400GHz to 1.800GHz)
Stability Factor
4
3
2
1
0
0
500
1000
1500
2000
2500
3000
3500
Frequency (MHz)
13/22
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
2nd stage S-parameters & K-factor
30
20
S(2,2)
S(1,1)
S - parameter [dB]
S21
10
0
S22
S22
-10
S11
S11
-20
S12
-30
1400
1450
1500
1550
1600
1650
1700
1750
1800
Frequency [MHz]
freq (1.400GHz to 1.800GHz)
5
Stability Factor
4
3
2
1
0
0
500
1000
1500
2000
2500
3000
3500
Frequency (MHz)
14/22
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
Parameter
APPLICATION CIRCUIT
(TYPE 2)
Strip lines (P1 & P2)
Unit
Gp
dB
Noise Figure
NF
dB
1.1
1.0
Input Return Loss
RLin
dB
-15
-15
Output Return Loss
1 dB Gain Compression
Output Power
rd
3 Intercept Point
1)
Output Power
Current
RLout
dB
-15
-16
Po(1dB)
dBm
10
10.5
OIP3
dBm
21
21
Icc
mA
7.7
7.7
Vdd
V
3
3
Power Gain
GPS
1163 ~ 1210 MHz /
1204 ~ 1240 MHz
Device Voltage
+3 V
Frequency [MHz]
Symbol
1163-1210
1204-1240
24.5
26
1) Total gain is sum of the 1st stage and 2nd stage amplifiers (not include filter loss).
2) NF is that of the 1st stage amplifier.
3) S11 is that of the 1st stage amplifier and S22 is that of the 2nd stage amplifier.
4) OIP3 is that of the 2nd stage amplifier measured with two tones at an output power of +0 dBm/tone separated
by 1MHz.
5) Total current is the sum of the 1st stage and the 2nd stage amplifiers.
Board Layout (FR4, 19.4x17.4 mm2, 0.8T)
Top
Schematic (with the striplines at the Pin 1 and 2)
RF IN2
BPF
R4=1.1
kW
C7=10 nF
C6=2 pF
C8=1 mF
VDD2
L3=5.6 nH
R5=8.2 kW
R6=27 W
C1=1.2 pF
RF OUT1
R3=24 W
ASL563
L1=9.1 nH
R1=9.1 kW
L2=6.2 nH
R2=1.2
kW
RF OUT2
*P2
*P1
VDD1
C2=1 mF
L4=9.1 nH
C5=1.5 pF
Bottom
C4=2.4 pF
C3=10 nF
RF IN1
Note: the length of the strip line P1 and P2 are given as below at the PCB
with Er = 4.5 and T = 0.8 mm.
*P1 Length: 5.0 mm, Width: 0.3 mm
*P2 Length: 2.5 mm, Width: 0.3 mm
1st stage S-parameters & K-factor
30
20
S21
S22
0
S(2,2)
S(1,1)
S - parameter [dB]
10
S22
-10
S11
-20
S12
S11
-30
-40
900
1000
1100
1200
1300
1400
Frequency [MHz]
5
freq (900.0MHz to 1.400GHz)
Stability Factor
4
3
2
1
0
0
500
1000
1500
2000
2500
3000
3500
Frequency (MHz)
15/22
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
2nd stage S-parameters & K-factor
30
20
S21
S22
S(2,2)
S(1,1)
S - parameter [dB]
10
0
S22
-10
S11
S11
-20
S12
-30
-40
900
1000
1100
1200
1300
1400
freq (900.0MHz to 1.400GHz)
Frequency [MHz]
5
Stability Factor
4
3
2
1
0
0
500
1000
1500
2000
2500
3000
3500
Frequency (MHz)
16/22
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
Parameter
APPLICATION CIRCUIT
(TYPE 2)
Strip lines (P1 & P2)
Unit
Gp
dB
Noise Figure
NF
dB
1.2
Input Return Loss
RLin
dB
-14
Output Return Loss
1 dB Gain Compression
Output Power
rd
3 Intercept Point
1)
Output Power
Current
RLout
dB
-16
Po(1dB)
dBm
11
OIP3
dBm
18.5
Icc
mA
7.7
Vdd
V
3
Power Gain
GPS
1558 ~ 1577 MHz
+3 V
Frequency [MHz]
Symbol
Device Voltage
1558-1577
25
1) Total gain is sum of the 1st stage and 2nd stage amplifiers (not include filter loss).
2) NF is that of the 1st stage amplifier.
3) S11 is that of the 1st stage amplifier and S22 is that of the 2nd stage amplifier.
4) OIP3 is that of the 2nd stage amplifier measured with two tones at an output power of +0 dBm/tone separated
by 1MHz.
5) Total current is the sum of the 1st stage and the 2nd stage amplifiers.
Board Layout (FR4, 19.4x17.4 mm2, 0.8T)
Top
Schematic (with the striplines at the Pin 1 and 2)
RF IN2
BPF
R4=1.1
kW
C7=10 nF
C6=2.2 pF
C8=1 mF
VDD2
L3=3.3 nH
R5=8.2 kW
R6=27 W
C1=1 pF
RF OUT1
C5=1 pF
R3=24 W
ASL563
L1=5.6 nH
R1=9.1 kW
L2=5.6 nH
R2=1.2
kW
RF OUT2
*P2
Bottom
*P1
VDD1
C2=1 mF
L4=5.6 nH
C4=100 pF
C3=10 nF
RF IN1
Note: the length of the strip line P1 and P2 are given as below at the PCB
with Er = 4.5 and T = 0.8 mm.
*P1 Length: 0.5 mm, Width: 0.3 mm
*P2 Length: 2 mm, Width: 0.3 mm
1st stage S-parameters & K-factor
30
20
S21
S22
0
-10
S11
S(2,2)
S(1,1)
S - parameter [dB]
10
S11
S12
-20
S22
-30
-40
1300
1400
1500
1600
1700
1800
Frequency [MHz]
freq (1.300GHz to 1.800GHz)
5
Stability Factor
4
3
2
1
0
0
500
1000
1500
2000
2500
3000
3500
Frequency (MHz)
17/22
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
2nd stage S-parameters & K-factor
30
20
S21
S22
S11
S(2,2)
S(1,1)
S - parameter [dB]
10
0
S22
-10
S11
-20
S12
-30
-40
1300
1400
1500
1600
1700
1800
freq (1.300GHz to 1.800GHz)
Frequency [MHz]
5
Stability Factor
4
3
2
1
0
0
500
1000
1500
2000
2500
3000
3500
Frequency (MHz)
18/22
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
Parameter
APPLICATION CIRCUIT
(TYPE 2)
Without strip lines
Power Gain
Noise Figure
TYP.
Gp
F = 1.575 GHz
24
25
Circuit Current
MAX.
Unit
dB
NF
F = 1.575 GHz
1.1
RLin
F = 1.575 GHz
-15
dB
RLout
F = 1.575 GHz
-15
dB
Po(1dB)
F = 1.575 GHz
8
10
dBm
OIP3
F = 1.575 GHz
17
19
dBm
Icc
F = 1.575 GHz,
Non-RF
7.7
mA
3)
1 dB Gain Compression
Output Power
rd
3 Intercept Point
4)
Output Power
+3 V
MIN.
3)
Output Return Loss
1575 MHz
Test Conditions
2)
Input Return Loss
GPS
Symbol
1)
5)
1.3
dB
1) Total gain is sum of the 1st stage and 2nd stage amplifiers (not include filter loss).
2) NF is that of the 1st stage amplifier.
3) S11 is that of the 1st stage amplifier and S22 is that of the 2nd stage amplifier.
4) OIP3 is that of the 2nd stage amplifier measured with two tones at an output power of +0 dBm/tone separated by 1MHz.
5) Total current is the sum of the 1st stage and the 2nd stage amplifiers.
Board Layout (FR4, 19.4x17.4 mm2, 0.8T)
Top
Schematic (without the stripline at the Pin 1 and 2)
RF IN2
BPF
R4=1.1
kW
C7=10 nF
C6=68 pF
C8=1 mF
VDD2
L3=4.7 nH
R5=8.2 kW
R6=27 W
C1=1.2 pF
RF OUT1
R3=51 W
L4=5.6 nH
C5=1.2 pF
RF OUT2
Bottom
ASL563
L1=5.1 nH
R1=9.1 kW L2=5.6 nH
VDD1
C2=1 mF
R2=1.2
kW
C4=68 pF
C3=10 nF
RF IN1
1st stage S-parameters & Noise Figure
30
S21
10
S(2,2)
S(1,1)
S - parameter [dB]
20
0
S22
S11
-10
S11
S22
S12
-20
-30
1400
1450
1500
1550
1600
1650
1700
1750
1800
Frequency [MHz]
freq (1.400GHz to 1.800GHz)
5
1.5
4
1.3
3
1.1
1.4
Noise Figure
Stability Factor
1.2
2
1.0
0.9
0.8
1
0.7
0.6
0
0
500
1000
1500
2000
2500
3000
3500
0.5
1400
1450
1500
Frequency (MHz)
19/22
1550
1600
1650
1700
1750
1800
Frequency (MHz)
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
2nd stage S-parameters & Noise Figure
30
20
S22
S(2,2)
S(1,1)
S - parameter [dB]
S21
10
0
S11
S22
-10
S11
-20
S12
-30
1400
1450
1500
1550
1600
1650
1700
1750
1800
Frequency [MHz]
freq (1.400GHz to 1.800GHz)
5
2.0
1.9
4
1.8
3
Noise Figure
Stability Factor
1.7
2
1.6
1.5
1.4
1.3
1
1.2
1.1
0
0
500
1000
1500
2000
2500
3000
3500
1.0
1400
1450
Frequency (MHz)
20/22
1500
1550
1600
1650
1700
1750
1800
Frequency (MHz)
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
Parameter
Symbol
Test Conditions
MIN.
TYP.
Gp
F = 2.45 GHz
16
17
dB
Noise Figure
NF
F = 2.45 GHz
1.2
dB
Input Return Loss
RLin
F = 2.45 GHz
-15
dB
Output Return Loss
RLout
F = 2.45 GHz
-14
dB
Po(1dB)
F = 2.45 GHz
9
11
dBm
OIP3
F = 2.45 GHz
13
17
dBm
Icc
F = 2.45 GHz,
Non-RF
10
mA
Power Gain
APPLICATION CIRCUIT
2400 ~ 2500 MHz
1 dB Gain Compression
Output Power
rd
3 Intercept Point
1)
Output Power
+3 V / 10mA
Circuit Current
MAX.
Unit
1) OIP3 is measured with two tones at an output power of -5 dBm/tone separated by 1MHz.
Board Layout (FR4, 16x12 mm2, 0.8T)
Top
Schematic
C6=10 nF
R6=1 kW
C7=1 mF
VDD
R5=6.8 kW
C1=1.8 pF
R4=33 W
R3=33 W
ASL563
L1=3.3 nH
R1=6.8 kW
L2=15 nH
C5=1 pF
RF OUT
*P2
*P1
VDD
C2=1 mF
L4=3.3 nH
m
m
7
L3=15 nH
7mm
C4=10 pF
R2=1.1 kW
Bottom
C3=10nF
RF IN
Note: 1) the length of the strip line P1 and P2 are given as below at
the PCB with Er = 4.5 and T = 0.8 mm.
*P1 Length: 2.5 mm, Width: 0.3 mm
*P2 Length: 0.3 mm, Width: 0.3 mm
2) Gain and S11 are in trade-off and varied with the length of P1 and P2
S-parameters & Noise Figure
30
20
S21
S22
0
-10
S(2,2)
S(1,1)
S - parameter [dB]
10
S22
S11
-20
S11
-30
S12
-40
2100
2200
2300
2400
2500
2600
2700
2800
Frequency [MHz]
freq (2.100GHz to 2.800GHz)
5
1.5
4
1.3
3
1.1
1.4
Noise Figure
Stability Factor
1.2
2
1.0
0.9
0.8
1
0.7
0
0.5
2100
0.6
0
500
1000
1500
2000
2500
3000
3500
2200
2300
Frequency (MHz)
21/22
2400
2500
2600
2700
2800
Frequency (MHz)
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011
ASL563
High Gain, Low Noise Amplifier
Parameter
Symbol
Test Conditions
MIN.
TYP.
Gp
F = 2.45 GHz
18
19
Noise Figure
NF
F = 2.45 GHz
1
Input Return Loss
RLin
F = 2.45 GHz
-15
dB
Output Return Loss
RLout
F = 2.45 GHz
-15
dB
Po(1dB)
F = 2.45 GHz
9
11
dBm
OIP3
F = 2.45 GHz
13
18
dBm
Icc
F = 2.45 GHz,
Non-RF
15
mA
Power Gain
APPLICATION CIRCUIT
2400 ~ 2500 MHz
1 dB Gain Compression
Output Power
rd
3 Intercept Point
1)
Output Power
+3 V / 15mA
Circuit Current
MAX.
Unit
dB
1.1
dB
1) OIP3 is measured with two tones at an output power of -5 dBm/tone separated by 1MHz.
Board Layout (FR4, 16x12 mm2, 0.8T)
Top
Schematic
C6=10 nF
R6=1.1 kW
C7=1 mF
VDD
R5=9.1 kW
C1=1.5 pF
R4=33 W
R3=33 W
ASL563
L1=3.3 nH
R1=8.2 kW
L2=15 nH
R2=1.2
kW
C5=1 pF
RF OUT
*P2
*P1
VDD
C2=1 mF
L4=3.3 nH
m
m
7
L3=15 nH
7mm
C4=10 pF
Bottom
C3=10nF
RF IN
Note: 1) the length of the strip line P1 and P2 are given as below at
the PCB with Er = 4.5 and T = 0.8 mm.
*P1 Length: 2.5 mm, Width: 0.3 mm
*P2 Length: 0.3 mm, Width: 0.3 mm
2) Gain and S11 are in trade-off and varied with the length of P1 and P2
S-parameters & Noise Figure
30
20
S21
S22
S11
S(2,2)
S(1,1)
S - parameter [dB]
10
0
-10
S22
-20
S11
-30
S12
-40
2100
2200
2300
2400
2500
2600
2700
2800
freq (2.100GHz to 2.800GHz)
Frequency [MHz]
5
1.5
1.4
4
1.3
3
Noise Figure
Stability Factor
1.2
2
1.1
1.0
0.9
0.8
1
0.7
0.6
0
0
500
1000
1500
2000
2500
3000
3500
0.5
2100
2200
2300
Frequency (MHz)
22/22
2400
2500
2600
2700
2800
Frequency (MHz)
ASB Inc. · [email protected] · Tel: +82-42-528-7223
August 2011