Data Sheets - Skyworks Solutions, Inc.

DATA SHEET
SKY65009-70LF: 250 – 2500 MHz Linear Power Amplifier
Driver
Applications
Description
 UHF television, CATV, DBS
Skyworks SKY65009-70LF is a high-performance, ultra-wideband
Power Amplifier (PA) driver with superior output power, noise
figure, linearity, and efficiency. The high linearity and superior
Adjacent Channel Power Rejection/Adjacent Channel Leakage
Ratio (ACPR/ACLR) performance make the SKY65009-LF ideal for
use in the driver stage of infrastructure transmit chains.
 TETRA radio
 GSM, GPRS, CDMA, WCDMA
 AMPS, PCS,DCS
 ISM band transmitters
The SKY65045-70LF is fabricated with Skyworks high-reliability
Aluminum (Al) Gallium Arsenide (GaAs) Heterojunction Bipolar
Transistor (HBT) process, which allows for single-supply operation
while maintaining high efficency and good linearity. The device
uses low-cost Surface-Mount Technology (SMT) in the form of a
2.4 x 4.5 mm Small Outline Transistor (SOT-89) package.
 Fixed WCS
 WLAN, WiMAX
 RFID
Features
 Wideband frequency range: 250 to 2500 MHz
The module can operate over a temperature range of –40 °C to
+85 °C. A populated Evaluation Board is available upon request.
 High linearity OIP3: +40 dBm
A functional block diagram is provided in Figure 1.
 Output P1 dB > +25 dBm
 High efficiency: PAE 40%
GND
 Single DC supply: 3.3 V or 5 V
4
 On-chip bias circuit
 Low power consumption
 SOT-89 (4-pin 2.4 x 4.5 mm) Pb-free, R0HS-compliant package
(MSL1, 260 C per JEDEC J-STD-0-20)
Skyworks Pb-free products are compliant with
all applicable legislation. For additional
information, refer to Skyworks Definition of
Lead (Pb)-Free, document number SQ04-0073.
1
2
RF_IN
GND
3
RF_OUT
SKY65009s244
Figure 1. SKY65009-70LF Functional Block Diagram
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1
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
Technical Description
The SKY65009-70LF is a single-stage, wideband PA in a low-cost
surface mount package. The device operates with a single 3 V or
5 V power supply connected though an RF choke (L1) to the
output pin. Capacitors C7, C8, and C9 provide DC bias decoupling
for VCC.
The bias current is set by the on-chip active bias composed of
current mirror and reference voltage transistors, allowing for
excellent gain tracking over temperature and voltage variations.
The part is externally RF matched using surface mount
components to facilitate operation over a frequency range of
250 MHz to 2500 MHz.
conditions in Table 3. Electrical characteristics for the SKY65009
are provided in Table 4.
Typical performance characteristics of the SKY65009 are
illustrated in Figures 2 through 92.
Package and Handling Information
Instructions on the shipping container label regarding exposure to
moisture after the container seal is broken must be followed.
Otherwise, problems related to moisture absorption may occur
when the part is subjected to high temperature during solder
assembly.
Pin 1 is the RF input and pin 3 is the RF output. External DC
blocking is required for both input and output, but can be
implemented as part of the RF matching circuit. Pin 2 and the
package backside metal, pin 4, provide the DC and RF ground.
The SKY65009 is rated to Moisture Sensitivity Level 1 (MSL1) at
260 C. It can be used for lead or lead-free soldering. For
additional information, refer to the Skyworks Application Note,
Solder Reflow Information, document number 200164.
Electrical and Mechanical Specifications
Care must be taken when attaching this product, whether it is
done manually or in a production solder reflow environment.
Production quantities of this product are shipped in a standard
tape and reel format.
Signal pin assignments and functional pin descriptions for the
SKY65009 are provided in Table 1. The absolute maximum
ratings are provided in Table 2, and the recommended operating
Table 1. SKY65009 Signal Descriptions (Note 1)
Pin #
1
Name
Description
RF_IN
RF input
2
GND
Ground
3
RF_OUT
RF output/VCC
4
GND
Center ground
Note 1: Center attachment pad must have low inductance and low thermal resistance connections to the customer’s printed circuit board ground plane.
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DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
Table 2. SKY65009 Absolute Maximum Ratings
(TA = +25 C, Unless Otherwise Noted) (Note 1)
Parameter
Symbol
Value
Units
RF output power
POUT
+26
dBm
Supply voltage
VCC
6
Supply current
ICC
300
mA
Power dissipation
PD
1.1
W
V
Operating case temperature range
TC
–40 to +85
°C
Storage temperature range
TST
–55 to +125
°C
Junction temperature
TJ
150
°C
Note 1: Performance is guaranteed only under the conditions listed in the specifications table and is not guaranteed under the full range(s) described by the Absolute Maximum specifications.
Exceeding any of the absolute maximum/minimum specifications may result in permanent damage to the device and will void the warranty.
CAUTION: Although this device is designed to be as robust as possible, Electrostatic Discharge (ESD) can damage this device. This
device must be protected at all times from ESD. Static charges may easily produce potentials of several kilovolts on the
human body or equipment, which can discharge without detection. Industry-standard ESD precautions should be used at all
times.
Table 3. SKY65009 Recommended Operating Conditions
Parameter
Symbol
Min
Supply voltage
VCC
Operating frequency
fO
100
Operating case temperature
TC
–40
Thermal resistance (junction to case)
ΘJC
Typical
Max
5
Units
5.5
+25
V
2500
MHz
+85
°C
20
°C/W
Table 4. SKY65009 Electrical Characteristics (Note 1) (1 of 3)
(VCC = 5.0 V, Output Impedance = 50 Ω, TC = 25 °C, Unless Otherwise Noted)
Parameter
Symbol
Test Conditions
Min
Typical
Max
Units
Test Frequency = 450 MHz
Frequency
f
450
MHz
Small signal gain
S21
PIN = –15 dBm
22
dB
Input return loss
S11
Small signal
14.5
dB
Output return loss
S22
Small signal
11.5
dB
1 dB Output Compression Point
OP1db
CW
+26.8
dBm
Power-Added Efficiency
PAE
@ P1dB
38.5
%
3rd Order Output Intercept Point
OIP3
PIN/tone = 0 dBm,
Δf = 1 MHz
+35
dBm
Noise Figure
NF
PIN = –15 dBm
6.5
dB
Quiescent current
ICCQ
No RF
100
mA
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3
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
Table 4. SKY65009 Electrical Characteristics (Note 1) (2 of 3)
(VCC = 5.0 V, Output Impedance = 50 Ω, TC = 25 °C, Unless Otherwise Noted)
Parameter
Symbol
Test Conditions
Min
Typical
Max
Units
Test Frequency = 900 MHz
Frequency
f
900
MHz
Small signal gain
S21
PIN = –15 dBm
17
dB
Input return loss
S11
Output return loss
S22
Small signal
9
dB
Small signal
7.5
dB
1 dB Output Compression Point
P1db
CW
Power-Added Efficiency
PAE
@ P1dB
33
%
3rd Order Output Intercept Point
OIP3
PIN/tone = 0 dBm,
Δf = 1 MHz
+41
dBm
Power out @ ACPR = –45 dBc
ACPR
IS-95, 750 kHz offset
19
dBm
Noise Figure
NF
Small signal
5
dB
Quiescent current
ICCQ
No RF
100
mA
Frequency
f
Best OIP3 match
1960
MHz
Small signal gain
S21
PIN = –15 dBm
Input return loss
S11
Output return loss
+25.0
dBm
Test Frequency = 1960 MHz
10.5
12
dB
Small signal
19
dB
S22
Small signal
10.5
dB
1 dB Output Compression Point
OP1db
CW
+26
+27
dBm
Power-Added Efficiency
PAE
@ P1dB
40
47
%
3rd Order Output Intercept Point
OIP3
PIN/tone = 0 dBm,
Δf = 1 MHz
+37
+42
dBm
+18
+20
Power out @ ACPR = –45 dBc
ACPR
IS-95, 885 kHz offset
Noise Figure
NF
PIN = –15 dBm
4.3
5.5
dB
dBm
Quiescent current
ICCQ
No RF
100
130
mA
Test Frequency = 2140 MHz
2140
MHz
Small signal
11.5
dB
S11
Small signal
20
dB
Output return loss
S22
Small signal
9.5
dB
1 dB Output Compression Point
OP1db
CW
Power-Added Efficiency
PAE
@ P1dB
3rd Order Output Intercept Point
OIP3
PIN/tone = 0 dBm,
Δf = 1 MHz
Power out @ ACPR = –45 dBc
ACPR
3G WCDMA, downlink 64
DPCH, 5 MHz offset
Noise Figure
NF
PIN = –15 dBm
18
dB
Quiescent current
ICCQ
PIN = –15 dBm
100
mA
Frequency
f
Small signal gain
S21
Input return loss
+26.7
48
%
+42.5
dBm
+18
dBm
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dBm
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DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
Table 4. SKY65009 Electrical Characteristics (Note 1) (3 of 3)
(VCC = 5.0 V, Output Impedance = 50 Ω, TC = 25 °C, Unless Otherwise Noted)
Parameter
Symbol
Test Conditions
Min
Typical
Max
Units
Test Frequency = 2450 MHz
Frequency
f
2450
MHz
Small signal gain
S21
PIN = –15 dBm
10.3
dB
Input return loss
S11
Output return loss
S22
Small signal
22
dB
Small signal
15
dB
1 dB Output Compression Point
OP1db
CW
+25.5
dBm
Power-Added Efficiency
PAE
@ P1dB
38.7
%
3rd Order Output Intercept Point
OIP3
PIN/tone = 0 dBm,
Δf = 1 MHz
+40
dBm
Noise Figure
NF
Small signal
4.1
dB
Quiescent current
ICCQ
PIN = –15 dBm
100
mA
Note 1: Performance is guaranteed only under the conditions listed in this Table.
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DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
Typical Performance Data
(VCC = 5 V, f = 450 MHz, CW, Output Impedance = 50 Ω, Tc = 25 °C, Unless Otherwise Noted)
23.0
+27.50
–40 °C
+25 °C
+85 °C
+27.25
OP1dB (dBm)
Gain (dB)
22.5
22.0
+27.00
+26.75
+26.50
21.5
–40 °C
+25 °C
+85 °C
+26.25
21.0
4.750
4.875
5.000
5.125
+26.00
4.750
5.250
4.875
5.000
VCC (V)
Figure 2. Gain vs VCC Across Temperature
Input Power = –15 dBm
5.250
Figure 3. OP1 dB vs VCC Across Temperature
23
48
22
40
32
21
PAE (%)
Gain (dB)
5.125
VCC (V)
20
24
16
19
18
+6
–40 °C
+25 °C
+85 °C
+10
+14
8
+18
+22
+26
–40 °C
+25 °C
+85 °C
0
+30
+5
+10
Output Power (dBm)
Figure 4. Gain vs Output Power Across Temperature
+20
+25
+30
Figure 5. PAE vs Output Power Across Temperature
23
48
22
40
32
21
PAE (%)
Gain (dB)
+15
Output Power (dBm)
20
24
16
4.75 V
5.00 V
5.25 V
19
18
+6
+10
+14
4.75 V
5.00 V
5.25 V
8
+18
+22
+26
Output Power (dBm)
Figure 6. Gain vs Output Power Across Voltage
+30
0
+5
+10
+15
+20
+25
Output Power (dBm)
Figure 7. PAE vs Output Power Across Voltage
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+30
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
+35.75
0.110
OIP3 (dBm)
Quiescent Current (A)
+35.50
0.105
0.100
–40 °C
+25 °C
+85 °C
0.095
0.090
4.750
4.875
5.000
5.125
+35.25
+35.00
+34.75
–40 °C
+25 °C
+85 °C
+34.50
+34.25
4.750
5.250
4.875
+35.50
0.26
+35.25
OIP3 (dBm)
Supply Current (A)
0.30
0.22
0.18
–40 °C
+25 °C
+85 °C
+15
+20
+25
+35.00
+34.75
+34.50
+34.00
+14
+30
Output Power (dBm)
0.26
+35.5
O IP3 (d Bm )
Supply Current (A)
+36.0
0.22
0.18
4.75 V
5.00 V
5.25 V
+15
+20
+17
+18
+25
+35.0
+34.5
+34.0
0.10
+10
+16
Figure 11. OIP3 vs Output Power/Tone Across Temperature
0.30
+5
+15
Output Power/Tone (dBm)
Figure 10. Supply Current vs Output Power Across Temperature
0.14
–40 °C
+25 °C
+85 °C
+34.25
0.10
+10
5.250
Figure 9. OIP3 vs VCC Across Temperature
Input Power/Tone = –5 dBm
Figure 8. Quiescent Current vs VCC Across Temperature
+5
5.125
VCC (V)
VCC (V)
0.14
5.000
+30
Output Power (dBm)
Figure 12. Supply Current vs Output Power Across Voltage
+33.5
+14
4.75 V
5.00 V
5.25 V
+15
+16
+17
+18
Output Power/Tone (dBm)
Figure 13. OIP3 vs Output Power/Tone Across Voltage
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DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
8.0
–12
–40 °C
+25 °C
+85 °C
–13
Noise Figure (dB)
Input Return Loss (dB)
7.5
–14
–15
–40 °C
+25 °C
+85 °C
–16
–17
4.750
4.875
5.000
5.125
7.0
6.5
6.0
5.5
5.250
VCC (V)
Figure 14. Input Return Loss vs VCC Across Temperature
5.0
4.750
4.875
5.000
5.125
Figure 15. Noise Figure vs VCC Across Temperature
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8
5.250
VCC (V)
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DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
Typical Performance Data
(VCC = 5 V, f = 900 MHz, CW, Output Impedance = 50 Ω, TC = 25 °C, Unless Otherwise Noted)
18.0
+26.25
+26.00
17.5
P1 dB (dBm)
Gain (dB)
+25.75
17.0
16.5
4.875
5.000
5.125
+25.25
+25.00
–40 °C
+25 °C
+85 °C
16.0
4.750
+25.50
–40 °C
+25 °C
+85 °C
+24.75
+24.50
4.750
5.250
4.875
VCC (V)
5.000
5.125
5.250
VCC (V)
Figure 16. Gain vs VCC Across Temperature
Input Power = –15 dBm
Figure 17. P1 dB vs VCC Across Temperature
19
40
32
PAE (%)
Gain (dB)
17
24
16
15
–40 °C
+25 °C
+85 °C
13
0
+5
+10
8
+15
+20
+25
+30
Output Power (dBm)
Figure 18. Gain vs Output Power Across Temperature
–40 °C
+25 °C
+85 °C
0
0
+5
+10
+15
+20
+25
+30
Output Power (dBm)
Figure 19. PAE vs Output Power Across Temperature
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DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
40
19
32
PA E (%)
Gain (dB)
17
24
16
15
13
0
4.75 V
5.00 V
5.25 V
8
4.75 V
5.00 V
5.25 V
0
+5
+10
+15
+20
+25
+30
0
+10
+20
+25
+30
Figure 21. PAE vs Output Power Across VCC
Figure 20. Gain vs Output Power Across VCC
0.106
+44
0.104
+43
0.102
OIP3 (dBm)
0.100
0.098
0.096
0.094
0.092
–40 °C
+25 °C
+85 °C
0.090
0.088
4.750
4.875
5.000
5.125
–40 °C
+25 °C
+85 °C
+42
+41
+40
+39
4.750
5.250
4.875
VCC (V)
5.000
5.125
5.250
VCC (V)
Figure 22. Quiescent Current vs VCC Across Temperature
Figure 23. OIP3 vs VCC Across Temperature,
Input Power/Tone = –2 dBm
+44
0.275
–40 °C
+25 °C
+85 °C
+43
0.225
OIP3 (dBm)
Supply Current (A)
+15
O utp ut Power (d Bm )
Output Power (dBm)
Quiescent Current (A)
+5
0.175
–40 °C
+25 °C
+85 °C
+42
+41
+40
0.125
+39
0.075
0
+5
+10
+15
+20
+25
+30
Output Power (dBm)
Figure 24. Supply Current vs Output Power Across Temperature
+38
+10 +11 +12 +13 +14 +15 +16 +17 +18 +19
Output Power/Tone (dBm)
Figure 25. OIP3 vs Output Power/Tone Across Temperature
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DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
+44
0.275
4.75 V
5.00 V
5.25 V
+43
0.225
+42
OIP3 (dBm)
Supply Current (A)
4.75 V
5.00 V
5.25 V
0.175
+41
+40
+39
0.125
+38
0.075
0
+5
+10
+15
+20
+25
+37
+11
+30
Output Power (dBm)
+14
+15
+16
+17
+18
+19
Figure 27. OIP3 vs Output Power/Tone Across VCC
–6
–8.0
–40 °C
+25 °C
+85 °C
Input Return Loss (dB)
Input Return Loss (dB)
+13
Output Power/Tone (dBm)
Figure 26. Supply Current vs Output Power Across VCC
–8.5
–9.0
–9.5
–10.0
4.750
+12
4.875
5.000
5.125
–7
–8
–40 °C
+25 °C
+85 °C
–9
4.750
5.250
4.875
5.000
5.125
5.250
VCC (V)
VCC (V)
Figure 28. Input Return Loss vs VCC Across Temperature
Figure 29. Input Return Loss vs VCC Across Temperature
–35
6.0
–40
–45
ACPR (dBc)
Noise Figure (dB)
5.5
5.0
4.5
4.0
3.5
4.750
–50
–55
–60
–65
–70
–40 °C
+25 °C
+85 °C
–40 °C
+25 °C
+85 °C
–75
–80
4.875
5.000
5.125
5.250
VCC (V)
Figure 30. Noise Figure vs VCC Across Temperature
+10 +11 +12 +13 +14 +15 +16 +17 +18 +19 +20 +21
Output Power (dBm)
Figure 31. ACPR vs Output Power Across Temperature
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11
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
–42
-35
–43
-40
ACPR (dBc)
ACPR (dBc)
–44
–45
–46
–47
-45
-50
-55
–48
–50
4.750
4.875
5.000
5.125
VCC (V)
Figure 32. ACPR vs VCC Across Temperature
@ Output Power = +19 dBm
4.75 V
5.00 V
5.25 V
-60
–40 °C
+25 °C
+85 °C
–49
5.250
-65
+15
+16
+17
+18
+19
Output Power (dBm)
Figure 33. ACPR vs Output Power Across VCC
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+20
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+21
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
Typical Performance Data
(VCC = 5 V, f = 1960 MHz (Best OIP3 Match), CW, Output Impedance = 50 Ω, TC = 25 °C, Unless Otherwise Noted)
13.0
Compression Point, 1dB (dBm)
+28.5
Gain (dB)
12.5
12.0
11.5
–40 °C
+25 °C
+85 °C
11.0
4.750
4.875
5.000
5.125
+28.0
+27.5
+27.0
–40 °C
+25 °C
+85 °C
+26.5
+26.0
4.750
5.250
4.875
VCC (V)
Figure 34. Gain vs VCC Across Temperature
@ Input Power = –15 dBm
5.125
5.250
Figure 35. P1dB vs VCC Across Temperature
13
60
12
50
–40 °C
+25 °C
+85 °C
40
11
PAE (%)
Gain (dB)
5.000
VCC (V)
10
30
20
–40 °C
+25 °C
+85 °C
9
8
–5
0
+5
10
+10
+15
+20 +25
+30
Output Power (dBm)
Figure 36. Gain vs Output Power Across Temperature
0
–5
0
+5
+10
+15
+20
+25
+30
Output Power (dBm)
Figure 37. PAE vs Output Power Across Temperature
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13
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
13
60
12
50
4.75 V
5.00 V
5.25 V
PAE (%)
Gain (dB)
40
11
10
30
20
4.75 V
5.00 V
5.25 V
9
8
–5
0
+5
10
+10
+15
+20 +25
0
+30
–5
0
+5
Output Power (dBm)
+20
+25
+30
Figure 39. PAE vs Output Power Across VCC
0.108
+47
0.106
0.104
+46
+45
0.102
OIP3 (dBm)
Quiescent Current (A)
+15
Output Power (dBm)
Figure 38. Gain vs Output Power Across VCC
0.100
0.098
0.096
0.094
+44
+43
+42
+41
0.092
–40 °C
+25 °C
+85 °C
0.090
0.088
4.750
4.875
5.000
5.125
–40 °C
+25 °C
+85 °C
+40
+39
4.750
5.250
4.875
VCC (V)
5.000
5.125
5.250
VCC (V)
Figure 40. Quiescent Current vs VCC Across Temperature
Figure 41. OIP3 vs VCC Across Temperature
Input Power/Tone = –1 dB
+45
0.250
–40 °C
+25 °C
+85 °C
0.225
–40 °C
+25 °C
+85 °C
+44
0.200
OIP3 (dBm)
Supply Current (A)
+10
0.175
0.150
+43
+42
+41
0.125
+40
0.100
0.075
–5
+39
0
+5
+10
+15
+20
+25
+30
Output Power (dBm)
Figure 42. Supply Current vs Output Power Across Temperature
4
6
8
10
12
14
18
Output Power/Tone (dBm)
Figure 43. OIP3 vs Output Power/Tone Across Temperature
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14
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DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
+45
0.275
OIP3 (dBm)
Supply Current (A)
+44
0.225
0.175
+43
+42
+41
0.125
4.75 V
5.00 V
5.25 V
+40
4.75 V
5.00 V
5.25 V
+39
0.075
0
+5
+10
+15
+20
+25
+30
+4
Output Power (dBm)
+10
+12
+14
+16
+18
Figure 45. OIP3 vs Output Power/Tone Across VCC
–10
–18
–40 °C
+25 °C
+85 °C
Input Return Loss (dB)
Input Return Loss (dB)
+8
Output Power/Tone (dBm)
Figure 44. Supply Current vs Output Power Across VCC
–19
–20
–21
4.750
+6
–11
–12
–40 °C
+25 °C
+85 °C
–13
4.750
4.875
5.000
5.125
5.250
5.000
5.125
5.250
VCC (V)
VCC (V)
Figure 46. Input Return Loss vs VCC Across Temperature
4.875
Figure 47. Input Return Loss vs VCC Across Temperature
–40
5.0
–50
4.5
ACPR (dBc)
Noise Figure (dB)
–45
4.0
–40 °C
+25 °C
+85 °C
3.5
–55
–60
–65
–70
–75
–40 °C
+25 °C
+85 °C
–80
3.0
4.750
4.875
5.000
5.125
5.250
VCC (V)
Figure 48. Noise Figure vs VCC Across Temperature
–85
+10 +11 +12 +13 +14 +15 +16 +17 +18 +19 +20 +21
Output Power (dBm)
Figure 49. ACPR vs Output Power Across Temperature
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15
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
–42
–40
–40 °C
+25 °C
+85 °C
–43
–45
ACPR (dBc)
ACPR (dBc)
–44
–45
–46
–47
–48
–50
–55
4.75 V
5.00 V
5.25 V
–60
–49
–50
4.750
–65
4.875
5.000
5.125
VCC (V)
Figure 50. ACPR vs VCC Across Temperature
Output Power = 20 dBm
5.250
+16
+17
+18
+19
+20
Output Power (dBm)
Figure 51. ACPR vs Output Power Across VCC
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+21
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
Typical Performance Data
(VCC = 5 V, f = 2140 MHz, CW, Output Impedance = 50 Ω, Tc = 25 °C, Unless Otherwise Noted)
13.0
+28.0
–40 °C
+25 °C
+85 °C
+27.5
P1 dB (dBm)
Gain (dB)
12.5
12.0
11.5
11.0
+27.0
+26.5
+26.0
10.5
4.750
4.875
5.000
5.125
–40 °C
+25 °C
+85 °C
+25.5
5.250
4.750
4.875
VCC (V)
5.000
5.125
5.250
VCC (V)
Figure 52. Gain vs VCC Across Input Power –15 dBm
Figure 53. P1 dB vs VCC Across Temperature
14
60
–40 °C
+25 °C
+85 °C
50
12
PAE (%)
Gain (dB)
40
10
30
20
–40 °C
+25 °C
+85 °C
8
6
–5
10
0
0
+5
+10
+15
+20
+25
+30
Output Power (dBm)
Figure 54. Gain vs Output Power Across Temperature
–5
0
+5
+10
+15
+20
+25
+30
Output Power (dBm)
Figure 55. PAE vs Output Power Across Temperature
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17
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
14
60
4.75 V
5.00 V
5.25 V
4.75 V
5.00 V
5.25 V
50
12
PAE (%)
Gain (dB)
40
10
30
20
8
10
0
6
–5
0
+5
+10
+15
+20
+25
–5
+30
Output Power (dBm)
0
+5
+10
+15
+20
+25
+30
Output Power (dBm)
Figure 56. Gain vs Output Power Across VCC
Figure 57. PAE vs Output Power Across VCC
+44
0.110
+43
0.106
0.104
OIP3 (dBm)
Quiescent Current (A)
0.108
0.102
0.100
0.098
0.096
–40 °C
+25 °C
+85 °C
0.094
0.092
4.750
4.875
5.000
5.125
+42
+41
+40
–40 °C
+25 °C
+85 °C
+39
4.750
5.250
4.875
VCC (V)
5.000
5.125
5.250
VCC (V)
Figure 58. Quiescent Current vs VCC Across Temperature
Figure 59. OIP3 vs VCC Across Temperature
Input Power/Tone = 0 dBm
0.275
+44
0.225
–40 °C
+25 °C
+85 °C
+43
OIP3 (dBm)
Supply Current (A)
–40 °C
+25 °C
+85 °C
0.175
0.125
+42
+41
+40
0.075
–5
0
+5
+10
+15
+20
+25
+30
Output Power (dBm)
+39
+6
+9
+12
+15
+18
Output Power/Tone (dBm)
Figure 60. Supply Current vs Output Power Across Temperature
Figure 61. OIP3 vs Output Power/Tone Across Temperature
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DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
+44
0.275
+43
0.225
OIP3 (dBm)
Supply Current (A)
4.75 V
5.00 V
5.25 V
0.175
+42
+41
0.125
+40
0.075
–5
0
+5
+10
+15
+20
+25
4.75 V
5.00 V
5.25 V
+39
+30
+6
Output Power (dBm)
Figure 62. Supply Current vs Output Power Across VCC
Output Return Loss (dB)
Input Return Loss (dB)
+18
–19
–20
–40 °C
+25 °C
+85 °C
4.875
5.000
5.125
–10
–11
–12
4.750
5.250
–40 °C
+25 °C
+85 °C
–9
VCC (V)
4.875
5.000
5.125
5.250
VCC (V)
Figure 64. Input Return Loss vs VCC Across Temperature
Figure 65. Output Return Loss vs VCC Across Temperature
5.0
–20
4.5
–40 °C
+25 °C
+85 °C
–30
ACPR (dBc)
Noise Figure (dB)
+15
–8
–18
4.0
3.5
3.0
2.5
4.75
+12
Figure 63. OIP3 vs Output Power/Tone Across VCC
–17
–21
4.750
+9
Output Power/Tone (dBm)
4.95
5.05
5.15
–50
–60
–40 °C
+25 °C
+85 °C
4.85
–40
5.25
VCC (V)
Figure 66. Noise Figure vs VCC Across Temperature
–70
+10 +11 +12 +13 +14 +15 +16 +17 +18 +19 +20 +21
Output Power (dBm)
Figure 67. ACPR vs Output Power Across Temperature
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19
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
–42
–35
–43
–40
ACLR (dBc)
ACPR (dBc)
–44
–45
–46
–47
–48
–50
4.750
4.875
5.000
5.125
VCC (V)
Figure 68. ACPR vs VCC Across Temperature
Output Power = +18 dBm
–50
–55
–40 °C
+25 °C
+85 °C
–49
–45
5.250
–60
+15
4.75 V
5.00 V
5.25 V
+16
+17
+18
+19
Output Power (dBm)
Figure 69. ACLR vs Output Power Across VCC
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+20
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
Typical Performance Data
(VCC = 5 V, f = 2450 MHz, CW, Output Impedance = 50 Ω, Tc = 25 °C, Unless Otherwise Noted)
11.0
26.5
P1 dB (dBm)
Gain (dB)
26.0
10.5
–40 °C
+25 °C
+85 °C
10.0
25.5
25.0
–40 °C
+25 °C
+85 °C
9.5
4.750
4.875
5.000
5.125
24.5
4.750
5.250
4.875
5.000
5.125
5.250
VCC (V)
VCC (V)
Figure 71. P1 dB vs VCC Across Temperature
Figure 70. Gain vs VCC Across Temperature
Input Power = –15 dBm
12
45
11
–40 °C
+25 °C
+85 °C
36
PAE (%)
Gain (dB)
10
9
27
18
8
9
–40 °C
+25 °C
+85 °C
7
0
6
–7
–2
+3
+8
+13
+18
+23
+28
Output Power (dBm)
Figure 72. Gain vs Output Power Across Temperature
–7
–2
+3
+8
+13
+18
+23
+28
Output Power (dBm)
Figure 73. PAE vs Output Power Across Temperature
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21
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
12
45
11
36
4.75 V
5.00 V
5.25 V
PAE (%)
Gain (dB)
10
9
27
18
8
9
–40 °C
+25 °C
+85 °C
7
0
6
–7
–2
+3
+8
+13
+18
+23
–7
+28
–2
+3
+8
+13
+18
+23
+28
Output Power (dBm)
Output Power (dBm)
Figure 75. PAE vs Output Power Across VCC
Figure 74. Gain vs Output Power Across VCC
+43
0.112
OIP3 (dBm)
Quiescent Current (A)
+42
0.108
0.104
0.100
–40 °C
+25 °C
+85 °C
0.096
0.092
4.750
4.875
5.000
5.125
+41
+40
+39
–40 °C
+25 °C
+85 °C
+38
+37
4.750
5.250
4.875
VCC (V)
5.125
5.250
VCC (V)
Figure 76. Quiescent Current vs VCC Across Temperature
Figure 77. OIP3 vs VCC Across Temperature
Input Power/Tone = 0 dBm
+42
0.225
–40 °C
+25 °C
+85 °C
–40 °C
+25 °C
+85 °C
+41
OIP3 (dBm)
0.200
Supply Current (A)
5.000
0.175
0.150
+40
+39
0.125
+38
0.100
0.075
–7
+37
–2
+3
+8
+13
+18
+23
+28
Output Power (dBm)
Figure 78. Supply Current vs Output Power Across Temperature
+5
+8
+11
+14
Output Power/Tone (dBm)
Figure 79. OIP3 vs Output Power/Tone Across Temperature
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22
+17
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DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
0.225
0.150
0.125
+40
+38
0.100
0.075
–7
4.75 V
5.00 V
5.25 V
+42
0.175
OIP3 (dBm)
Supply Current (A)
+44
4.75 V
5.00 V
5.25 V
0.200
–2
+3
+8
+13
+18
+23
+28
+36
+5
Output Power (dBm)
+8
+11
+14
+17
Output Power/Tone (dBm)
Figure 80. Supply Current vs Output Power Across VCC
Figure 81. OIP3 vs Output Power/ToneAcross VCC
–13
Output Return Loss (dB)
Input Return Loss (dB)
–20
–40 °C
+25 °C
+85 °C
–21
–22
–40 °C
+25 °C
+85 °C
–14
–15
–16
–23
4.75
4.75
4.85
4.95
5.05
5.15
5.25
4.85
4.95
5.05
5.15
5.25
VCC (V)
VCC (V)
Figure 82. Input Return Loss vs VCC Across Temperature
Figure 83. Output Return Loss vs VCC Across Temperature
Noise Figure (dB)
5.0
4.5
802.11g Spec
4.0
3.5
3.0
4.75
Measured POUT = 24.5 dBm
–40 °C
+25 °C
+85 °C
4.85
4.95
5.05
5.15
5.25
VCC (V)
Figure 84. Noise Figure vs. VCC Across Temperature
Figure 85. Spectral Response
(802.11g 64 QAM at 54 Mbps Input Signal)
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23
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
25
802.11b Spec
S-Parameter (dB)
20
15
10
5
0
–5
–10
Measured POUT = 25.5 dBm
S11
S21
S22
–15
–20
0.90
0.92
0.94
0.96
0.98
Frequency (GHz)
Figure 86. . Spectral Response
(802.11b 64 CCK at 11 Mbps Input Signal)
Figure 87. S-Parameter vs Frequency T = 25°C
Tuned for 900 MHz
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1.00
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
Typical Performance Data
(VCC = 5 V, MHz, CW, Output Impedance = 50 Ω, Tc = 25 °C, Unless Otherwise Noted)
25
+25
S-Parameter (dB)
S-Parameter (dB)
+15
+10
+5
0
–5
15
10
5
0
–5
–10
–10
–15
–15
–20
S11
S21
S22
20
S11
S21
S22
+20
–20
0
0.5
1.0
1.5
2.0
2.5
0
3.0
0.5
Figure 88. S-Parameter vs Frequency, Tuned for 450 MHz
15
S-Parameter (dB)
S-Parameter (dB)
+10
+5
0
–5
–10
S11
S21
S22
–15
1.0
1.5
2.0
2.5
3.0
S11
S21
S22
10
0.5
2.0
Figure 89. S-Parameter vs Frequency, Tuned for 900 MHz
+15
0
1.5
Frequency (GHz)
Frequency (GHz)
–20
1.0
2.5
5
0
–5
–10
–15
–20
3.0
0
0.5
1.0
1.5
2.0
2.5
3.0
Frequency (GHz)
Frequency (GHz)
Figure 90. S-Parameter vs Frequency, Tuned for 1960 MHz
Figure 91. S-Parameter vs Frequency, Tuned for 2140 MHz
+15
S11
S21
S22
S-Parameter (dB)
+10
+5
0
–5
–10
–15
–20
0
0.5
1.0
1.5
2.0
2.5
3.0
Frequency (GHz)
Figure 92. S-Parameters vs Frequency, Tuned for 2450 MHz
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25
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
Evaluation Board Description
Application Circuit Notes
The Skyworks SKY65009 Evaluation Board is used to test the
performance of the SKY65009-70LF PA driver. The Evaluation
Board schematic diagram is shown in Figure 93, and component
values vs. frequency information is shown in Table 5. An
assembly drawing for the Evaluation Board is shown in Figure 94,
and the layer detail is provided in Figure 95. The layer detail
physical characteristics are noted in Figure 96.
RF_IN (pin 1): The amplifier requires a DC blocking capacitor as
part of the external RF matching.
The Evaluation Board Bill of Materials (BOM) is shown in Table 6.
The board layout footprint, package marking, and package
dimensions for the 4-pin SOT-89 are shown in Figures 97
through 99. Tape and reel dimensions are shown in Figure 100.
RF_OUT (pin 3): The amplifier requires a DC blocking capacitor
as part of the external RF matching. The amplifier collector supply
voltage is supplied through an RF choke to the output at pin 3.
Circuit Design Configurations
The following design considerations are general in nature and
must be followed regardless of final use or configuration:
1. Paths to ground should be made as short as possible.
2. The ground pad of the SKY65009-70LF has special electrical
and thermal grounding requirements. This pad is the main
thermal conduit for heat dissipation. Since the circuit board
acts as the heat sink, it must shunt as much heat as possible
from the device. Therefore, design the connection to the
ground pad to dissipate the maximum wattage produced by
the circuit board. Multiple vias to the grounding layer are
required.
3. Skyworks recommends including external bypass capacitors
on the DC supply lines. An RF inductor is required on the VCC
supply line to block RF signals from the DC supply. Refer to
Figure 93 for more detail.
4. The RF lines should be well separated from each other with
solid ground in between traces to maximize input-to-output
isolation.
NOTE: Junction temperature (Tj) of the device increases with a
poor connection to the ground pad and ground. This
reduces the lifetime of the device.
GND (pin 2): Attach the ground pin to the RF ground plane with
the largest diameter and lowest inductance via that the layout
allows. Multiple small vias are also acceptable and work well
under the device if solder migration is an issue.
GND (pin 4): It is extremely important that the device paddle be
sufficiently grounded for both thermal and stability reasons.
Multiple small vias are acceptable and work well under the device
if solder migration is an issue.
Testing Procedure
Use the following procedure to set up the SKY65009 Evaluation
Board for testing:
1. Connect a 5 V supply to VCC. If available, enable the current
limiting function of the power supply to 300 mA.
2. Connect a signal generator to the RF signal input port. Set it to
the desired RF frequency at a power level of –15 dBm or less
to the Evaluation Board but do NOT enable the RF signal.
3. Connect a spectrum analyzer to the RF signal output port.
4. Enable the power supply.
5. Enable the RF signal.
6. Take measurements.
CAUTION: If the input signal exceeds the rated maximum values,
the SKY65009 Evaluation Board can be permanently
damaged.
NOTE: It is important to adjust the VCC voltage source so that
+5 V is measured at the board. The high collector currents
drop the collector voltage significantly if long leads are
used. Adjust the bias voltage to compensate.
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July 22, 2013  Skyworks Proprietary Information  Products and Product Information are Subject to Change Without Notice  200953D
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
VCC = 5 V
C7
C8
R1
C9
L5
4
1
M2
Input
M1
M3
3
M4
2
Output
M5
M6
SKY65009 S670
Figure 93. SKY65009 Evaluation Board Schematic
(Refer to Tables 5 and 6 for Component Values)
Table 5. Evaluation Board Component Values vs Frequency
Component
R1
450 MHz
900 MHz
1960 MHz (OIP3)
1960 MHz (ACPR)
2140 MHz
2450 MHz
0Ω
0Ω
0Ω
0Ω
0Ω
0Ω
C7
1 μF
1 μF
1 μF
1 μF
1 μF
1 μF
C8
1000 pF
1000 pF
1000 pF
1000 pF
1000 pF
1000 pF
C9
68 pF
68 pF
18 pF
18 pF
18 pF
15 pF
L5
47 nH
47 nH
27 nH
22 nH
22 nH
22 nH
M1
8.2 nH
8.2 nH
1.8 nH
1.2 pF
1.2 pF
1 pF
M2
12 pF
4.7 pF
2.7 pF
2.2 pF
2.2 pF
1.2 pF
M3
6.8 pF
4.7 pF
DNC
DNC
DNC
DNC
M4
DNC
DNC
1.2 pF
1.2 pF
1.2 pF
DNC
M5
12 pF
6.8 pF
5.6 pF
3.3 pF
3.3 pF
2.2 pF
M6
27 nH
12 nH
1.0 pF
0.5 pF
0.5 pF
1.2 pF
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27
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
GND
VCC
GND
GND
JP1
R1
C7
C8
C9
J1 (RF In)
C2
C1
C5
C3
L5
C4
C6
J2 (RF Out)
S708
Figure 94. SKY65009 Evaluation Board Assembly Drawing
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July 22, 2013  Skyworks Proprietary Information  Products and Product Information are Subject to Change Without Notice  200953D
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
Layer 1: Top - Metal
Layer 2: Ground
Layer 3: Ground
Layer 4: Solid Ground Plane
S709
Figure 95. Evaluation Board Layer Detail
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29
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
Cross Section
Name Thickness (mils) Material
εr
L1
1.4
Cu, 1 oz.
–
Lam1
12
Rogers 4003-12
3.38
L2
1.4
Cu, 1 oz
–
4
FR4-4
4.35
L3
1.4
Cu, 1 oz.
–
Lam3
12
FR4-12
4.35
L4
1.4
Cu, 1 oz.
–
Lam2
SKY65009-S573
Figure 96. Layer Detail Physical Characteristics
Table 6. SKY65009 Evaluation Board Bill of Materials
Part
Size
Value
Product
Number
Manufacturer
Manufacturer’s Part Number
Characteristics
1
0603
8.2 nH
5332R34-018
Taiyo-Yuden
HK16088N2J-T
±5%, SRF 3500 MHz
2
0603
12 nH
5332R34-022
Taiyo-Yuden
HK160812NJ-T
±5%, SRF 2600 MHz
3
0603
22 nH
5332R34-028
Taiyo-Yuden
HK160822NJ-T
±5%, SRF 1600 MHz
4
0603
27 nH
5332R34-030
Taiyo-Yuden
HK160827NJ-T
±5%, SRF 1400 MHz
5
0603
47 nH
5332R34-036
Taiyo-Yuden
HK160847NJ-T
±5%, SRF 900 MHz
6
0603
0.5 pF
5404R98-001
Murata
GRM1885C1HR50CZ01D
COG, 50 V, ± 0.25 pF
7
0603
1 pF
5404R23-035
Murata
GRM1885C1H1R0CZ01D
COG, 50 V, ± 0.25 pF
8
0603
1.2 pF
5404R23-036
Murata
GRM1885C1H1R2CD27J
COG, 50 V, ± 0.25 pF
9
0603
1.8 pF
5404R23-038
Murata
GRM1885C1H1R8CZ01J
COG, 50 V, ± 0.25 pF
10
0603
2.2 pF
5404R23-039
Murata
GRM1885C1H2R2CZ01D
COG, 50 V, ± 0.25 pF
11
0603
2.7 pF
5404R23-040
Murata
GRM1885C1H2R7CZ01D
COG, 50 V, ± 0.25 pF
12
0603
3.3 pF
5404R23-041
Murata
GRM1885C1H3R3CZ01D
COG, 50 V, ± 0.25 pF
13
0805
4.7 pF
5404R98-006
Murata
GRM1885C1H4R7CZ01D
COG, 50 V, ± 0.25 pF
14
0603
5.6 pF
5404R23-010
Murata
GRM1885C1H5R6DZ01D
COG, 50 V, ± 0.25 pF
15
0603
6.8 pF
5404R23-045
Murata
GRM1885C1H6R8CD01J
COG, 50 V, ± 0.25 pF
16
0603
12 pF
5404R23-014
Murata
GRM1885C1H120JD51D
C0G, 50 V, ± 5%
17
0603
15 pF
5404R23-015
Murata
GRM1885C1H150JD51D
C0G, 50 V, ± 5%
18
0603
18 pF
5404R23-016
Murata
GRM1885C1H180JD51D
C0G, 50 V, ± 5%
19
0603
68 pF
5404R23-023
Murata
GRM1885C1H680JD51D
C0G, 50 V, ± 5%
20
0603
1000 pF
5404R23-057
TDK
C1608C0G1H102JT
C0G, 50 V, ± 5%
21
0805
1 μF
5404R29-070
TDK
C2012X7R1H104K
X7R, 50 V, ± 10%
22
0603
0Ω
5424R20-146
Rohm
MCR03EZHJ000
50 V, 0.063 W, ± 5%
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July 22, 2013  Skyworks Proprietary Information  Products and Product Information are Subject to Change Without Notice  200953D
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
1.73
2X 1.50
0.86
R0.254 Typ.
2.70
Exposed Soldering
Area Typ.
4.55
Pin 1
1.40
0.42
0.42
0.50
S1524
Figure 97. SKY65009-70LF Board Layout Footprint
S009
YYWW
YY = Calendar Year
WW = Week
Packaged Sealed
Figure 98. Typical Package Marking
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31
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
4.50 ± 0.10
0.381 ± 0.025
Sharp
R0.10
R0.25
1.70 ± 0.05
1.50
7o
2.44 ± 0.10
4.09 ± 0.10
0.51 ± 0.10
7o
R0.10
1.04 ± 0.15
0.46
1.50 ± 0.10
0.41
Side View
End View
Bottom View
All measurements are in millimeters
S253
Figure 99. SKY65009 SOT-89 Package Dimensions
2.00 ± 0.05
8.00 ± 0.10
4.00 ± 0.10
∅1.50 ± 0.10
1.75 ± 0.10
0.30 ± 0.05 (T)
B
5.50 ± 0.05
7° Max
12.0 ± 0.30
A
A
4.90 ± 0.10 (Bo)
Pin #1
Indicator
1.90 ± 0.10 (Ko)
B
∅1.00 Min.
4.60 ± 0.10 (Ao)
B
8° Max
Notes:
1. Carrier tape material: black conductive polycarbonate
or polystyrene.
2. Cover tape material: transparent conductive PSA.
3. Cover tape size: 9.2 mm width.
4. Typical ESD surface resistivity is ≤108 Ohms/square per EIA, JEDEC
tape and reel specification.
5. Ao and Bo measurement point to be 0.30 mm from bottom pocket.
6. All measurements are in millimeters.
Figure 100. SKY65009 SOT-89 Tape and Reel Dimensions
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July 22, 2013  Skyworks Proprietary Information  Products and Product Information are Subject to Change Without Notice  200953D
Y0014
DATA SHEET  SKY65009-70LF LINEAR PA DRIVER
Ordering Information
Model Name
Ordering Part Number
SKY65009-70LF: 250-2500 MHz Linear PA Driver
SKY65009-70LF
Evaluation Board Part Number
TW13-D281-101 (450 MHz)
TW13-D282-101 (900 MHz)
TW13-D283-101 (1960 MHz – OIP3)
TW13-D284-101 (1960 MHz - ACPR)
TW13-D285-101 (2140 MHz)
TW13-D286-101 (2450 MHz)
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