MGA-43024
2.4 GHz WLAN Power Amplier Module
Data Sheet
Description
Avago Technologies’ MGA-43024 is a fully matched power
amplier for use in the WLAN band (2401- 2484 MHz). High
linear output power at 5.0 V is achieved through the use
of Avagos proprietary 0.25 µm GaAs Enhancement-mode
pHEMT process. MGA-43024 is housed in a miniature 5.0
mm × 5.0 mm molded-chip-on-board (MCOB) module
package. A detector is also included on-chip. The compact
footprint coupled with high gain, high linearity and good
eciency makes the MGA-43024 an ideal choice as a
power amplier for small cell enterprise WLAN PA applica-
tions.
Component Image
(5.0 × 5.0 × 0.82) mm Package Outline
Features
Linear Pout @ EVM =2.5% (802.11n): 27.8 dBm
Linear Pout with Restricted Band Emission (802.11n) of
-48 dBm @ 2412 MHz: 22.2 dBm
Linear Pout with Restricted Band Emission (802.11n) of
-48 dBm @ 2462 MHz: 22.2 dBm
High gain : 40.5 dB
Fully matched input and output ports
Built-in detector
GaAs E-pHEMT Technology [1]
Low-cost small package size: (5.0 × 5.0 × 0.82) mm
MSL3
Lead-free/Halogen-free/RoHS compliance
Note:
1. Enhancement mode technology employs positive VGS, and so
eliminates the need for negative gate voltage associated with
conventional depletion mode devices.
Applications
Enterprise WLAN access points
Small cell with embedded WLAN
Notes:
Package marking provides orientation
and identication
”43024” = Device part number
”YYWW” = Year and work week
”XXXX” = Assembly lot number
Pin Conguration
(5.0 × 5.0 × 0.82) mm
28 Vdd1
27 Gnd
26 Vdd2
25 Gnd
24 Vdd3
23 Vdd3
22 Vdd3
Gnd 1
Gnd 2
NC 3
RFin 4
NC 5
Gnd 6
NC 7
21 Gnd
20 Gnd
19 RFout
18 RFout
17 RFout
16 Gnd
15 Gnd
Vc1 8
Vc2 9
Vc3 10
Gnd 11
VddBias 12
Gnd 13
Vdet 14
AVAGO
43024
YYWW
XXXX
TOP VIEW
Attention: Observe precautions for
handling electrostatic-sensitive devices.
ESD Machine Model = 60 V
ESD Human Body Model = 400 V
Refer to Avago Application Note A004R:
Electrostatic Discharge, Damage and Control.
Top View
Functional Block Diagram
Vdd1 Vdd2 Vdd3
Vc1 Vc2 Vc3 VddBias Vdet
1st Stage 2nd Stage 3rd Stage RFout
Biasing Circuit
RFin
2
Absolute Maximum Rating [1] TA = 25 °C
Symbol Parameter Units Absolute Max.
Vdd, VddBias Supply voltages, bias supply voltage V 5.5
VcControl voltage V (Vdd)
Pin,max CW RF Input Power dBm 20
Pdiss Total Power Dissipation [3] W 6.0
TjJunction Temperature °C150
TSTG Storage Temperature °C-65 to 150
Thermal Resistance [2,3]
qJC = 13 °C/W
Notes:
1. Operation of this device in excess of any
of these limits may cause permanent
damage.
2. Thermal resistance measured using Infra-
Red Measurement Technique.
3. Board temperature (TC) is 25 °C , for TC
> 72 °C derate the device power at 77
mW per °C rise in board (package belly)
temperature.
Electrical Specications
TA = 25 °C, Vdd = Vddbias=5.0 V, Vc1=2.0 V, Vc2=2.2 V, Vc3=2.0 V, RF performance at 2442 MHz, IEEE 802.11n 64-QAM, 20 MHz
Bandwidth, MCS 7, 800 ns Guard Interval, unless otherwise stated.
Symbol Parameter and Test Condition Units Min. Typ. Max.
Vdd Supply Voltage V 5.0
Idq Quiescent Supply Current mA 250 480 650
Iddtotal Total Supply Current at linear output 21 dBm (2412 MHz) mA 400 540 800
Total Supply Current at linear output 21 dBm (2462 MHz) mA 400 550 800
Total Supply Current at linear output 27 dBm mA 700
S21 Small Signal Gain dB 40.5
|S11| Input Return Loss, 50 source dB 12.5
|S22| Output Return Loss, 50 source dB 13.5
OP1dB Output Power at 1 dB Gain Compression dBm 36
PAE Power Added Eciency at linear output 21 dBm (2412 MHz) % 4.4
Power Added Eciency at linear output 21 dBm (2462 MHz) % 5.2
Power Added Eciency at linear output 27 dBm % 14.8
2fo 2nd Harmonic Distortion at 27 dBm dBc -34.6
3fo 3rd Harmonic Distortion at 27 dBm dBc -53.3
Linear Pout Restricted Band Emission (RBE) @ 21 dBm at 2390 MHz (2412 MHz) dBm -50.5 -48
Restricted Band Emission (RBE) @ 21 dBm at 2483.5 MHz (2462 MHz) dBm -50.5 -48
Error Vector Magnitude at 2.5% dBm 27.8
3
Note:
1. Distribution data sample size is 1200 samples taken from three wafer lots. TA = 25 °C, Vdd = VddBias = 5.0 V, Vc1 = 2.0 V, Vc2 = 2.2 V, Vc3 = 2.0 V, RF input
at 2412 MHz and 2462 MHz, unless otherwise stated. Future wafers allocated to this product may have nominal values anywhere between the
upper and lower limits.
Figure 1. Idq Figure 2. Idd total @ 21 dBm at 2412 MHz
Figure 3. Idd total @ 21 dBm at 2462 MHz Figure 4. RBE @ 21 dBm at 2390 MHz
Figure 5. RBE @ 21 dBm at 2483.5 MHz
Product Consistency Distribution Charts [1]
4
-24
-21
-18
-15
-12
-9
-6
-3
0
2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3
S11 (dB)
Frequency (GHz)
25 °C
40 °C
85 °C
-30
-27
-24
-21
-18
-15
-12
-9
-6
-3
0
2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3
S22 (dB)
Frequency (GHz)
25 °C
40 °C
85 °C
20
23
26
29
32
35
38
41
44
2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3
S21 (dB)
Frequency (GHz)
25 °C
40 °C
85 °C
MGA-43024 typical small-signal over-temperature performance at Vc1 = 2.0 V, Vc2 = 2.2 V, Vc3 = 2.0 V (Vdd = VddBias
= 5.0 V) as per demonstration board in Figure 28, unless otherwise stated.
Figure 6. Over-temperature S11 vs. Frequency Figure 7. Over-temperature S22 vs. Frequency
Figure 8. Over-temperature S21 vs. Frequency
5
Figure 9. Over-temperature RBE at 2390 MHz vs. 2412 MHz Pout Figure 10. Over-temperature RBE at 2483.5 MHz vs. 2462 MHz Pout
Figure 11. Over-temperature RBE at 2390 MHz vs. 2442 MHz Pout Figure 12. Over-temperature RBE at 2483.5 MHz vs. 2442 MHz Pout
Figure13. Over-temperature EVM vs. Pout at 2412 MHz Figure 14. Over-temperature EVM vs. Pout at 2442 MHz
MGA-43024 typical over-temperature performance at Vc1 = 2.0 V, Vc2 = 2.2 V, Vc3 = 2.0 V (Vdd = VddBias = 5.0 V) with
IEEE 802.11n 64-QAM, 20 MHz Bandwidth, MCS 7, 800 ns Guard Interval as per demonstration board in Figure 28,
unless otherwise stated.
-60
-56
-52
-48
-44
-40
-36
-32
-28
-24
-20
18 19 20 21 22 23 24 25 26 27 28 29
RBE (dBm) at 2390 MHz
2412 MHz Pout (dBm)
25°C
40°C
85°C
-60
-56
-52
-48
-44
-40
-36
-32
-28
-24
-20
18 19 20 21 22 23 24 25 26 27 28 29
RBE (dBm) at 2483.5 MHz
2462 MHz Pout (dBm)
25°C
40°C
85°C
-68
-64
-60
-56
-52
-48
-44
-40
-36
18 19 20 21 22 23 24 25 26 27 28 29
RBE (dBm) at 2390 MHz
2442 MHz Pout (dBm)
25°C
40°C
85°C
-68
-64
-60
-56
-52
-48
-44
-40
-36
18 19 20 21 22 23 24 25 26 27 28 29
RBE (dBm) at 2483.5 MHz
2442 MHz Pout (dBm)
25°C
40°C
85°C
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
18 19 20 21 22 23 24 25 26 27 28 29
EVM (%)
Pout (dBm)
25°C
40°C
85°C
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
18 19 20 21 22 23 24 25 26 27 28 29
EVM (%)
Pout (dBm)
25°C
40°C
85°C
6
Figure 15. Over-temperature EVM vs. Pout at 2462 MHz Figure 16. Over-temperature PAE vs. Pout at 2442 MHz
Figure 17. Over-temperature Itotal vs. Pout at 2442 MHz Figure 18. Over-temperature Vdet vs. Pout at 2442 MHz
Figure19. Over-temperature 2nd Harmonic vs. Pout at 2442 MHz Figure 20. Over-temperature 3rd Harmonic vs. Pout at 2442 MHz
MGA-43024 typical over-temperature performance at Vc1 = 2.0 V, Vc2 = 2.2 V, Vc3 = 2.0 V (Vdd = VddBias = 5.0 V) with
IEEE 802.11n 64-QAM, 20 MHz Bandwidth, MCS 7, 800 ns Guard Interval as per demonstration board in Figure 28,
unless otherwise stated. (con't)
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
18 19 20 21 22 23 24 25 26 27 28 29
EVM (%)
Pout (dBm)
25°C
40°C
85°C
0
3
6
9
12
15
18
21
18 19 20 21 22 23 24 25 26 27 28 29
PAE (%)
Pout (dBm)
25°C
40°C
85°C
0.45
0.50
0.55
0.60
0.65
0.70
0.75
0.80
0.85
18 19 20 21 22 23 24 25 26 27 28 29
Itotal (A)
Pout (dBm)
25°C
40°C
85°C
0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
1.8
2.0
11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
Vdet(V)
Pout (dBm)
25°C
40°C
85°C
-42
-41
-40
-39
-38
-37
-36
-35
-34
-33
18 19 20 21 22 23 24 25 26 27 28 29
2nd Harmonic (dBc)
Pout (dBm)
25°C
40°C
85°C
-60
-59
-58
-57
-56
-55
-54
-53
-52
18 19 20 21 22 23 24 25 26 27 28 29
3rd Harmonic (dBc)
Pout (dBm)
25°C
40°C
85°C
7
Figure 21. Over-temperature CW Gain, Itotal vs. Pout at 2412 MHz
MGA-43024 typical over-temperature performance at Vc1 = 2.0 V, Vc2 = 2.2 V, Vc3 = 2.0 V (Vdd = VddBias = 5.0 V) with
IEEE 802.11n 64-QAM, 20 MHz Bandwidth, MCS 7, 800 ns Guard Interval as per demonstration board in Figure 28,
unless otherwise stated. (con't)
Figure 22. Over-temperature CW Gain, Itotal vs. Pout at 2442 MHz
Figure 23. Over-temperature CW Gain, Itotal vs. Pout at 2462 MHz
0.3
0.6
0.9
1.2
1.5
1.8
2.1
36.0
37.5
38.0
38.5
39.0
39.5
40.0
40.5
41.0
41.5
42.0
24 25 26 27 28 29 30 31 32 33 34 35 36 37 38
Itotal (A)
Gain (dB)
Pout (dBm)
25°C
40 °C
85°C 0.3
0.6
0.9
1.2
1.5
1.8
2.1
36.5
38.0
38.5
39.0
39.5
40.0
40.5
41.0
41.5
42.0
42.5
24 25 26 27 28 29 30 31 32 33 34 35 36 37
Itotal (A)
Gain (dB)
Pout (dBm)
25°C
40°C
85°C
0.3
0.6
0.9
1.2
1.5
1.8
2.1
36.5
38.0
38.5
39.0
39.5
40.0
40.5
41.0
41.5
42.0
42.5
24 25 26 27 28 29 30 31 32 33 34 35 36 37
Itotal (A)
Gain (dB)
Pout (dBm)
25°C
40°C
85°C
Itotal
Gain
Itotal
Gain
Itotal
Gain
36.5
37.0
37.0
37.5
37.0
37.5
8
Figure 24. Over-temperature SEM 22 dBm at 2442 MHz Figure 25. Over-temperature SEM 29.5 dBm at 2442 MHz
Figure 27. Over-temperature SEM 32.5 dBm at 2442 MHzFigure 26. Over-temperature SEM 22 dBm at 2442 MHz
MGA-43024 typical over-temperature performance at Vc1 = 2.0 V, Vc2 = 2.2 V, Vc3 = 2.0 V (Vdd = VddBias = 5.0 V) with
IEEE 802.11n 64-QAM, 20 MHz Bandwidth, MCS 7, 800 ns Guard Interval as per demonstration board in Figure 28,
unless otherwise stated. (con't)
Spectrum Emission Mask (SEM) with 802.11n IEEE 20.3.21.1 signal
Spectrum Emission Mask (SEM) with 802.11b IEEE 18.4.7.3 signal
25°C
40°C
85°C
SEM
Limit
-60
-50
-40
-30
-20
-10
0
10
-50 -40 -30 -20 -10 0 10 20 30 40 50
Power (dB)
Frequency Oset (MHz)
-60
-50
-40
-30
-20
-10
0
10
20
-50 -40 -30 -20 -10 0 10 20 30 40 50
Power (dB)
Frequency Oset (MHz)
-60
-50
-40
-30
-20
-10
0
10
-50 -40 -30 -20 -10 0 10 20 30 40 50
Power (dB)
Frequency Oset (MHz)
25°C
40°C
85°C
SEM
Limit
-60
-50
-40
-30
-20
-10
0
10
20
-50 -40 -30 -20 -10 0 10 20 30 40 50
Power (dB)
Frequency Oset (MHz)
25°C
40°C
85°C
SEM
Limit
25°C
40°C
85°C
SEM
Limit
25°C
40°C
85°C
SEM
Limit
25°C
40°C
85°C
SEM
Limit
9
S-Parameter [1] (Vdd = VddBias = 5.0 V, Vc1 = 2.0 V, Vc2 = 2.2 V, Vc3=2.0 V), T = 25 °C, 50 matched)
Freq
(GHz)
S11
(dB)
S11
(ang)
S21
(dB)
S21
(ang)
S22
(dB)
S22
(ang)
S12
(dB)
S12
(ang)
0.1 -5.43 176.76 -53.24 -88.81 -0.35 175.70 -55.49 -40.22
0.2 -5.36 173.07 -54.47 -115.45 -0.90 175.67 -68.49 173.95
0.3 -5.30 169.21 -53.63 -95.98 -0.87 176.21 -68.75 74.73
0.4 -5.29 165.81 -47.86 -74.48 -0.82 175.63 -72.13 87.45
0.5 -5.20 162.13 -34.01 -56.47 -0.79 174.68 -64.83 166.52
0.6 -5.08 158.00 -20.91 -68.36 -0.79 173.62 -68.99 126.29
0.7 -4.87 152.79 -7.81 -90.34 -0.79 172.43 -73.39 -177.74
0.8 -5.16 142.97 5.89 -147.07 -0.83 171.13 -64.77 105.00
0.9 -6.34 145.60 10.27 126.75 -0.93 170.07 -72.97 83.31
1.0 -5.89 144.39 11.56 86.97 -1.03 169.11 -67.77 105.38
1.1 -5.65 139.58 14.46 57.00 -1.17 168.08 -73.61 -150.63
1.2 -5.46 134.64 17.86 28.58 -1.29 167.77 -66.13 72.40
1.3 -5.39 128.40 21.93 -10.53 -1.33 168.28 -64.35 50.60
1.4 -5.76 121.38 24.07 -63.05 -1.08 168.89 -61.70 49.67
1.5 -6.23 117.87 20.76 -118.28 -0.61 166.91 -66.18 86.15
1.6 -6.11 111.71 10.72 -109.65 -0.31 161.86 -67.45 97.68
1.7 -7.19 102.91 23.12 -64.44 -0.56 156.24 -65.86 49.22
1.8 -7.10 95.38 25.31 -93.41 -0.63 149.63 -68.46 123.55
1.9 -7.97 80.76 32.19 -122.72 -1.57 140.08 -58.51 132.79
2.0 -10.91 58.32 36.61 -168.72 -3.66 131.53 -55.78 120.35
2.1 -19.36 44.90 38.41 136.31 -6.80 137.06 -52.15 89.68
2.2 -19.46 138.15 35.98 94.50 -8.67 141.81 -52.13 70.07
2.3 -15.29 106.72 35.86 78.48 -11.34 169.74 -52.58 63.29
2.4 -16.07 79.03 39.34 46.47 -8.73 175.99 -51.07 41.07
2.5 -19.02 -25.52 41.45 -7.88 -16.09 -170.53 -50.49 27.04
2.6 -11.83 -140.97 39.25 -73.99 -4.92 -118.16 -52.22 -12.46
2.7 -10.24 175.54 33.98 -117.30 -1.66 -141.22 -55.28 -20.79
2.8 -10.21 155.09 29.17 -144.19 -0.83 -153.69 -59.07 -30.68
2.9 -10.50 142.75 25.03 -164.15 -0.51 -161.35 -61.28 -12.99
3.0 -10.85 134.44 21.39 179.45 -0.34 -166.63 -66.56 -20.94
3.1 -11.16 128.08 18.08 165.18 -0.24 -170.63 -68.65 -7.15
3.2 -11.41 122.97 15.01 152.30 -0.17 -173.96 -65.97 -30.47
3.3 -11.61 118.30 12.08 140.39 -0.12 -176.87 -68.77 -34.57
3.4 -11.79 114.24 9.23 129.41 -0.09 -179.41 -69.24 10.34
3.5 -11.92 110.58 6.41 119.09 -0.06 178.23 -73.82 -47.03
3.6 -12.02 107.96 3.54 109.20 -0.05 175.97 -71.58 43.92
3.7 -11.95 105.87 0.51 99.81 -0.03 173.81 -69.40 74.30
3.8 -11.79 104.01 -2.86 91.20 -0.02 171.81 -66.46 62.70
3.9 -11.59 102.15 -6.85 83.86 -0.02 169.83 -69.21 67.60
4.0 -11.37 100.63 -12.19 80.44 -0.02 167.90 -62.92 47.56
4.1 -11.11 99.47 -20.71 98.79 -0.02 166.01 -67.18 65.14
4.2 -10.84 98.82 -20.34 -179.04 -0.02 164.11 -61.86 82.30
4.3 -10.52 99.14 -14.53 -169.00 -0.03 162.24 -64.22 80.70
4.4 -10.14 100.31 -12.21 -175.37 -0.05 160.41 -61.42 79.01
4.5 -9.52 102.50 -12.70 -177.29 -0.07 158.59 -60.52 56.17
4.6 -8.44 104.22 -10.56 -139.72 -0.11 156.86 -58.52 56.27
4.7 -7.06 101.06 -1.32 -155.54 -0.16 155.25 -59.69 45.05
4.8 -6.43 94.30 1.80 157.65 -0.20 153.90 -56.95 47.96
4.9 -6.34 89.68 1.32 119.72 -0.21 152.60 -58.92 37.03
10
S-Parameter [1] (Vdd = VddBias = 5.0 V, Vc1 = 2.0 V, Vc2 = 2.2 V, Vc3=2.0 V), T = 25 °C, 50 matched) Cont.
Freq
(GHz)
S11
(dB)
S11
(ang)
S21
(dB)
S21
(ang)
S12
(dB)
S12
(ang)
S22
(dB)
S22
(ang)
5.0 -6.46 84.78 0.01 91.18 -0.24 150.52 -57.02 31.45
5.1 -6.73 78.15 -0.92 64.62 -0.40 147.89 -59.25 12.01
5.2 -6.87 75.34 -3.06 26.21 -0.67 149.19 -59.19 -1.47
5.3 -6.97 73.43 -8.98 10.15 -0.27 149.16 -61.61 -8.22
5.4 -7.01 71.86 -12.49 8.76 -0.13 147.46 -63.56 33.91
5.5 -7.02 70.64 -15.48 9.71 -0.09 145.99 -62.32 16.46
5.6 -6.92 69.17 -15.79 16.32 -0.06 144.68 -64.11 23.62
5.7 -6.95 67.36 -16.37 1.87 -0.06 143.65 -60.01 26.24
5.8 -7.00 66.22 -18.23 -9.42 -0.05 142.77 -64.55 26.16
5.9 -7.02 65.33 -20.18 -18.10 -0.05 142.10 -62.06 39.12
6.0 -7.04 64.70 -22.19 -25.92 -0.05 141.39 -64.07 20.28
7.0 -7.02 67.98 -25.42 -139.56 -0.71 133.74 -60.95 18.91
8.0 -7.10 74.86 -29.95 64.65 -0.08 136.09 -59.44 31.23
9.0 -7.35 64.12 -30.03 14.20 -0.18 123.59 -57.11 12.30
10.0 -6.24 33.51 -32.37 -65.33 -0.29 100.34 -56.33 -22.67
11.0 -4.45 6.37 -49.16 -55.29 -0.20 85.95 -55.76 -29.37
12.0 -3.45 -1.48 -49.07 -34.30 -0.23 81.24 -57.11 -42.33
13.0 -3.45 9.38 -41.39 -24.76 -0.46 69.86 -53.63 -41.20
14.0 -4.03 18.70 -37.15 -67.28 -0.73 42.96 -52.80 -55.23
15.0 -4.82 -2.73 -35.90 -113.87 -0.92 12.09 -49.03 -74.36
16.0 -3.40 -50.29 -38.66 -156.16 -1.00 -4.11 -50.08 -90.29
17.0 -1.90 -72.72 -42.82 -178.79 -0.80 -16.68 -49.14 -91.89
18.0 -0.81 -71.96 -41.39 174.87 -0.91 -30.32 -46.04 -120.41
19.0 -0.93 -71.17 -40.04 149.88 -1.23 -51.45 -44.49 -140.30
20.0 -3.72 -130.45 -34.88 83.86 -1.11 -81.36 -42.00 165.62
Note:
1. S-parameter is measured with de-embedded reference plane at DUT RFin and RFout pins.
11
Test system setup
Small-signal performance for Cavity Filter
Ext Trig 1
MXA Signal Analyzer
Event 1
Power Supply
MGA-43024
Power Meter
Signal Generator
IEEE 802.11n 20 MHz (MCS 7) Signal
Coupler Cavity
Filter Isolator Attenuator Attenuator
Coupler
Power
Sensor Power
Sensor
-55
-50
-45
-40
-35
-30
-25
-20
-15
-10
-5
0
5
2.30 2.32 2.34 2.36 2.38 2.40 2.42 2.44 2.46 2.48 2.50 2.52 2.54 2.56 2.58 2.60
S11, S22, S21 (dB)
Frequency (GHz)
S(1,1)
S(2,2)
S(2,1)
freq S(1,1) S(2,1) S(2,2) S(1,2)
GHz dB ang dB ang dB ang dB ang
2.390 -0.58 -175.75 -36.69 -65.14 -0.51 -160.17 -36.71 -65.23
2.412 -27.89 -33.65 -0.47 64.22 -28.34 -29.88 -0.47 64.23
2.442 -51.25 159.37 -0.38 -160.42 -41.16 46.82 -0.38 -160.46
2.462 -27.81 -116.14 -0.48 41.94 -26.75 15.58 -0.48 41.97
2.483 -0.49 170.59 -25.27 86.43 -0.45 170.12 -25.33 86.26
A cavity lter is used at the input of the DUT to ensure that a clean signal from the signal generator is presented to the
DUT.
12
Figure 28. Demonstration board application circuit for MGA-43024 module
Demonstration Board Top View
VddBias
+5V Vdet
(Output)
Vdd1
(force)
+5V
Vdd2
(force)
+5V
Vdd3
(force)
+5V
Vc2=2.2 V
Vdd1S
(sense)
+5V
Vdd2S
(sense)
+5V Vdd3S
(sense)
+5V
Vc1=2.0 V
Vc3=2.0 V
Vdd1
(force)
+5V
Vdd2
(force)
+5V
V
dd3
(force)
+5V
Vdd1S
(sense)
+5V
Vdd2S
(sense)
+5V Vdd3S
(sense)
+5V
Application board pin header
assignments
Pin 1 : Vdd3 (Sense)
Pin 2 : Vdd3 (Force)
Pin 3 : Vdd2 (Sense)
Pin 4 : Vdd2 (Force)
Pin 5 : Vdd1 (Sense)
Pin 6 : Vdd1 (Force)
Pin 13 : Vc1
Pin 14 : Vc2
Pin 15 : Vc3
Pin 16 : VddBias (Force)
Pin 17 : Vdet
All other pins are grounded
Pins pointing out of the page
(unit is on top)
VddBias
+5V Vdet
(Output)
Vc2=2.2 V
Vc1=2.0 V
Vc3=2.0 V
Component Value Part Number
Manufacturer
Size
C1, C2, C18,
C20, C22
7.5 pF GJM1555C1H7R5BB01D Murata 0402
C3, C7, C13,
C25
0.1 µFGRM155R71C104KA88D Murata 0402
C4, C8 8.2 pF GRM1555C1H8R2DZ01E Murata 0402
C10 2.2 µFGRM21BR71E225KA73L Murata 0805
C24 6.0 pF GJM1555C1H6R0CB01D Murata 0402
C26 22 nF CM05X7R223K16AHF AVX 0402
R1 0 RMC1/10 JPTP Kamaya 0805
R2, R3, R4, R5 0 RMC1/16S JPTH Kamaya 0402
13
Notes:
1. All capacitors on supply lines are bypass capacitors.
2. C1/C2 are RF coupling capacitors.
3. For Vdd = VddBias = 5.0 V, Idq1 = 50 mA, Idq2 = 150 mA, Idq3 = 248 mA, I_VddBias = 12 mA. These currents enable optimum bias conditions to be
achieved for best linearity for 802.11n signal.
Figure 29. Application circuit in demonstration board
Application Schematic
C4
Vdd1
RFin RFout
C1 C2
C8
C13
C18 C20 C22
C24
C26
Idq1 Idq2 Idq3
I_Vddbias
1
C25
Vdd2 Vdd3
C3
C10
Vc1 Vc3Vc2 Vddbias Vdet
Top View
C7
Z = 50
F = 2.442 GHz
Z = 50
E = 7.0 deg
F = 2.442 GHz
Z = 50
E = 8.3 deg
F = 2.442 GHz
Z = 50
E = 8.3 deg
F = 2.442 GHz
Z = 50
F = 2.442 GHz
14
PCB Land Pattern and Stencil Outline
SolderMask
Pin1
PCB Land Pattern Stencil Opening
Combination of Land Pattern and Stencil Opening
Top Metal
Notes:
1. Recommended Land Pattern and Stencil.
2. 4 mils stencil thickness recommended.
3. All dimensions are in mm.
0.45
5.00
0.25
1.25
0.50
(pitch) 0.25
0.30
0.75
0.60
3.60
3.70
5.00
SolderMask
Opening
0.40
0.05
0.45
0.05
3.24
0.50
4.77
0.23
1.13
1.52
0.68
4.77
1.82
1.13
0.80
0.68
0.27
0.82
0.80
5.00
3.60
3.24
5.003.60
0.50
0.50
15
MCOB (5.0 x 5.0 x 0.82) mm 28-Lead Package Dimensions
Notes:
1. All dimensions are in millimeters.
2. Dimensions are inclusive of plating.
3. Dimensions are exclusive of mold ash and metal burr.
Part Number Ordering Information
Part Number Qty Container
MGA-43024-BLKG 100 Antistatic Bag
MGA-43024-TR1G 1000 7” Reel
AVAGO
43024
YYWW
XXXX
Bottom ViewTop View Side View
0.82 ± 0.10
5.00 ± 0.10
0.50 0.10
5.00
PIN #1 Identication
CHAMFER 0.43 x 45°
3.74 3.60
0.10
0.375
0.300.25
0.125
5.00
0.47
3.74
3.60
0.50
PIN #1 Identication
5.00 ± 0.10
16
Device Orientation
USER FEED DIRECTION
TOP VIEW END VIEW
USER
FEED
DIRECTION COVER TAPE
CARRIER
TAPE
REEL
AVAGO
43024
YYWW
XXXX
AVAGO
43024
YYWW
XXXX
AVAGO
43024
YYWW
XXXX
Tape Dimensions
17
Reel Dimensions (7” reel)
Flange Thickness : Min. 1.20 mm
Hatched Area Indicates Thru Hole
FRONT VIEW
178 +0.5
-0.5
15.4 +0.0
-3.5
12.4 min.
14.4 max.
50 min.
TOLERANCE
.X = ±0.25
.XX = ±0.13
BACK VIEW
12.8 min.
13.5 max.
RECYCLE SYMBOL
2.0 +0.5
-0.5
20.2 min.
2.5±0.5
Note: Dimensions are in mm.
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Data subject to change. Copyright © 2005-2014 Avago Technologies. All rights reserved.
AV02-4664EN - October 8, 2014
Mouser Electronics
Authorized Distributor
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MGA-43024-BLKG