AVAGO MGA-43040 High linearity (2.3 â 2.4) ghz power amplifier module Datasheet

MGA-43040
High Linearity (2.3 – 2.4) GHz Power Amplifier Module
Data Sheet
Description
Features
Avago Technologies’ MGA-43040 is a fully matched power
amplifier for use in the (2.3 – 2.4) GHz band. High linear
output power at 5V is achieved through the use of Avago
Technologies’ proprietary 0.25 µm GaAs Enhancementmode pHEMT process. MGA-43040 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
efficiency makes the MGA-43040 an ideal choice as a
power amplifier for small cell BTS PA applications.
• High linearity performance: Typ -48dBc ACPR1 [1] at
27.0 dBm linear output power (biased with 5V supply)
Applications
Specifications
• Final stage high linearity amplifier for Picocell and
Enterprise Femtocell PA targeted for small cell BTS
downlink applications.
• 2.35 GHz; 5.0 V, Idq_total = 340 mA (typ), LTE 20 MHz 100
RB
Component Image
• 27.0 dBm linear Pout @ ACPR1 = -48 dBc [1]
(5.0 × 5.0 × 0.9) mm Package Outline
AVAGO
Notes:
Package marking provides orientation
and identification
”43040” = Tentative device part number
”YYWW” = Year and work week
”XXXX” = Assembly lot number
43040
YYWW
XXXX
• High Gain : 40 dB
• Good efficiency
• Fully matched
• Built-in detector
• GaAs E-pHEMT Technology [2]
• Low cost small package size: (5.0 × 5.0 × 0.9) mm
• PAE: 13%
• 40 dB Gain
• Detector range: 20 dB
Notes:
1. LTE 20 MHz 100 RB Test Mode 1.1 downlink signal
2. Enhancement mode technology employs positive VGS, and so
eliminates the need for negative gate voltage associated with
conventional depletion mode devices
Functional Block Diagram
TOP VIEW
Vdd1
Vdd3
Vdd3
23
22
Gnd
24 Vdd3
25
26 Vdd2
27 Gnd
28 Vdd1
Pin Configuration
RFin
Gnd 1
21 Gnd
Gnd 2
20 Gnd
NC
3
19 RFout
RFin 4
18 RFout
NC
5
17 RFout
16 Gnd
Gnd 6
Gnd 13
15 Gnd
Vdet 14
VddBias 12
11
9
Gnd
8
Vc2
Vc3 10
(5.0 × 5.0 × 0.9) mm
7
Vc1
NC
Vdd2
1st Stage
Vdd3
2nd Stage
3rd Stage
RFout
Biasing Circuit
Vc1 Vc2 Vc3
VddBias
Vdet
Attention: Observe precautions for
handling electrostatic sensitive devices.
ESD Machine Model = 70 V
ESD Human Body Model = 350 V
Refer to Avago Application Note A004R:
Electrostatic Discharge, Damage and Control.
Thermal Resistance [2,3]
Absolute Maximum Rating [1] TA = 25 °C
Symbol
Parameter
Units
Absolute Max.
qjc = 14.2 °C/W
Vdd, VddBias
Supply voltages, bias supply voltage
V
6
Vc
Control Voltage
V
(Vdd)
Pin,max
CW RF Input Power
dBm
20
Pdiss
Total Power Dissipation [3]
W
5.3
Tj
Junction Temperature
°C
150
TSTG
Storage Temperature
°C
-65 to 150
Notes:
1. Operation of this device in excess of any
of these limits may cause permanent
damage.
2. Thermal resistance measured using InfraRed Measurement Technique.
3. Board temperature (TB) is 25 °C , for TB >
74.7 °C derate the device power at 70.4
mW per °C rise in Board (package belly)
temperature.
Electrical Specifications
TA = 25 °C, Vdd1,2,3 = Vddbias=5.0 V, Idqtotal = 350 mA, RF performance at 2.35 GHz, unless otherwise stated.
Symbol
Parameter and Test Condition
Units
Vdd
Supply Voltage
V
Min.
Typ.
Idq_total
Quiescent Supply Current
mA
Gain
Gain
dB
OP1dB
Output Power at 1dB Gain Compression
dBm
35
ACPR1 @ Pout=27.0 dBm
LTE 20 MHz 100 RB Test Mode 1.1 downlink signal
dBc
-48
PAE
Power Added Efficiency
%
13
S11
Input Return Loss, 50 Ω source
dB
20
DetR
Detector RF dynamic range
dB
20
2fo
2fo Harmonics
dBc
-27
Max.
5.0
340
35
40
-45
Product Consistency Distribution Charts [4]
0
0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8
Figure 1. Idq_total, Nominal = 340mA
33 35 37
39 41 43 45 47 49
Figure 3. Gain at Pout=27.0dBm, LSL= 35dB, Nominal = 40dB
-50.5
-49 -48
-47
-46
0.4
0.5
0.6
0.7
0.8
0.9
Figure 2. Idd_total at Pout=27.0dBm, Nominal = 700mA
-45
6 7 8 9 10 11.5 13 14.5 16 17.5 19
Figure 4. PAE at Pout=27.0dBm, Nominal = 13%
-44
Figure 5. ACPR1 at Pout=27.0dBm, USL= -45dBc, Nominal = -47.7dBc
Note:
4. Distribution data sample size is 1500 samples taken from 3 different wafer lots. TA=25°C, Vdd=VddBias=5.0V, Vc1=2.0V, Vc2=1.8V, Vc3=1.8V, RF
performance at 2.35 GHz unless otherwise stated. Future wafers allocated to this product may have nominal values anywhere between the upper
and lower limits.
2
Application Schematic
Vdd1
Vdd2
Vdd3
Idq2
Idq1
Idq3
C3
C7
C4
Z=50 Ω
E=7.0 deg
F=2.35 GHz
C8
Z=50 Ω
E=8.3 deg
F=2.35 GHz
Z=50 Ω
E=8.3 deg
F=2.35 GHz
C10
C13
1
RFin
C1
C2
Top View
Z=50 Ω
F=2.35 GHz
C18
Vc1
C20
Vc2
Z=50 Ω
F=2.35 GHz
C24
I_Vddbias
C25
C22
Vc3
RFout
Vddbias
C26
Vdet
Figure 6. Application circuit in demonstration board
Notes
1. All capacitors on supply lines are bypass capacitors.
2. C1/C2 are RF coupling capacitors.
3. Idq1= 60 mA, Idq2 = 110 mA, Idq3 = 180.0 mA, I_Vddbias = 16.0 mA at Vdd1,2,3=VddBias=5.0 V. Idq1/2/3 are adjusted by voltages to CMOScompatible control pins Vc1/2/3, respectively. These typical bias currents were obtained with Vc1/2/3 voltages in Figure 2. Adjustment of these
currents enable optimum bias conditions to be achieved for best linearity and efficiency for a given modulation type.
3
Demonstration Board Top View
Vdd2
+5V
Vdd1
+5V
Vdd3
+5V
Vc1=2.0V
VddBias Vdet
Vc2=1.8V
+5V
(Output)
Vc3 =1.8V
Component
Value
Part Number
Size
C1, C2, C18, C20, C22 7.5 pF ± 0.5 pF
GJM1555C1H7R5DB01D 0402
C24
6.0 pF ± 0.5 pF
GJM1555C1H6R0DB01D 0402
C4, C8
8.2 pF ± 0.25 pF GJM1555C1H8R2WB01D 0402
C3, C7, C13, C25
0.1 µF ± 10%
GRM155R71C104KA88D 0402
C10
2.2 µF ± 10%
GRM21BR61E225KA12L
0805
C26
22 nF ± 10%
CM05X7R223K16AHF
0402
R2, R3, R4, R5
0Ω
RMC1/16S JPTH
0402
R1
0Ω
RMC1/10 JPTP
0805
Figure 7. Demonstration board application circuit for MGA-43040 module
4
S21
S22
85°C
25°C
-40°C
S11
1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5
45
40
35
30
25
20
15
10
5
0
-5
-10
-15
-20
-25
-30
-35
-40
Frequency/GHz
-42
16
-44
-46
14
-46
14
-48
12
-48
12
-50
10
-50
10
-52
8
-52
8
-54
6
-54
6
-56
4
-56
4
-58
2
-58
2
-60
0
-60
17
18
19
20
21
22
23 24
Pout/dBm
25
26
27
28
29
Figure 10. Over-temperature ACPR1, PAE vs. Pout @ 2.33 GHz
Vdd=VddBias=5.0 V operating voltage
ACPR1_-40°C
PAE_-40°C
17
-42
18
-44
16
14
-48
12
PAE%
-46
ACPR1/dBc
-44
ACPR1_25°C
PAE_25°C
ACPR1_-40°C
PAE_-40°C
18
16
18
19
20
21
22
23 24
Pout/dBm
25
26
27
28
29
0
20
-40
20
ACPR1_85°C
PAE_85°C
ACPR1_25°C
PAE_25°C
Figure 11. Over-temperature ACPR1, PAE vs. Pout @ 2.35 GHz
Vdd=VddBias=5.0 V operating voltage
-40
-42
20
ACPR1_85°C
PAE_85°C
PAE%
ACPR1_-40°C
PAE_-40°C
PAE%
ACPR1_25°C
PAE_25°C
ACPR1/dBc
-40
18
-44
ACPR1/dBc
85°C
25°C
-40°C
20
ACPR1_85°C
PAE_85°C
-42
ACPR1/dBc
S11
Figure 9. Small-signal performance Over-temperature
Vdd=VddBias=5.5 V operating voltage
-40
ACPR1_85°C
PAE_85°C
ACPR1_25°C
PAE_25°C
ACPR1_-40°C
PAE_-40°C
18
16
-46
14
-48
12
-50
10
-50
10
-52
8
-52
8
-54
6
-54
6
-56
4
-56
4
-58
2
-58
2
-60
0
-60
17
17
18
19
20
21
22
23 24
Pout/dBm
25
26
27
Figure 12. Over-temperature ACPR1, PAE vs. Pout @ 2.36 GHz
Vdd=VddBias=5.0 V operating voltage
5
S22
1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5
Frequency/GHz
Figure 8. Small-signal performance Over-temperature
Vdd=VddBias=5.0 V operating voltage
S21
28
29
18
19
20
21
22
23 24
Pout/dBm
25
26
27
Figure 13. Over-temperature ACPR1, PAE vs. Pout @ 2.39 GHz
Vdd=VddBias=5.0 V operating voltage
28
0
29
PAE%
45
40
35
30
25
20
15
10
5
0
-5
-10
-15
-20
-25
-30
-35
-40
S21,S11,S22/dB
S21,S11,S22/dB
MGA-43040 typical over-temperature performance at Vc1=2.0 V, Vc2=1.8 V, Vc3=1.8 V as shown in Figure 2, unless
otherwise stated
MGA-43040 typical over-temperature performance at Vc1=2.0 V, Vc2=1.8 V, Vc3=1.8 V as shown in Figure 2, unless
otherwise stated (Cont.)
-42
16
-44
-46
14
-46
14
-48
12
-48
12
-50
10
-50
10
-52
8
-52
8
-54
6
-54
6
-56
4
-56
4
-58
2
-58
2
18
19
20
21
22
23 24
Pout/dBm
25
26
27
0
29
28
-60
17
Figure 14. Over-temperature ACPR1, PAE vs. Pout @ 2.33 GHz
Vdd=VddBias=5.5 V operating voltage
19
20
21
22
ACPR1_-40°C
PAE_-40°C
23 24
Pout/dBm
25
18
16
26
27
28
0
29
20
-40
18
-42
16
-44
-46
14
-46
14
-48
12
-48
12
-50
10
-50
10
-52
8
-52
8
-54
6
-54
6
-56
4
-56
4
-58
2
-58
2
-44
-60
17
ACPR1_85°C
PAE_85°C
18
19
20
ACPR1_25°C
PAE_25°C
21
22
ACPR1_-40°C
PAE_-40°C
23 24
Pout/dBm
25
26
27
28
PAE%
20
-42
ACPR1/dBc
18
ACPR1_25°C
PAE_25°C
Figure 15. Over-temperature ACPR1, PAE vs. Pout @ 2.35 GHz
Vdd=VddBias=5.5 V operating voltage
-40
-60
17
0
29
Figure 16. Over-temperature ACPR1, PAE vs. Pout @ 2.36 GHz
Vdd=VddBias=5.5 V operating voltage
ACPR1_85°C
ACPR2_85°C
-35
ACPR1_25°C
ACPR2_25°C
18
19
20
ACPR1_25°C
PAE_25°C
21
22
ACPR1_-40°C
PAE_-40°C
23 24
Pout/dBm
25
18
16
26
27
28
0
29
-30
ACPR1_-40°C
ACPR2_-40°C
ACPR1_85°C
ACPR2_85°C
-35
-40
ACPR1_25°C
ACPR2_25°C
ACPR1_-40°C
ACPR2_-40°C
ACPR1,ACPR2/dBc
ACPR1,ACPR2/dBc
-40
-45
-45
-50
-50
-55
-55
-60
-60
-65
-70
ACPR1_85°C
PAE_85°C
Figure 17. Over-temperature ACPR1, PAE vs. Pout @ 2.39 GHz
Vdd=VddBias=5.5 V operating voltage
-30
-65
20
21
22
23
24
25
26
Pout/dBm
27
28
Figure 18. Over-temperature ACPR1, ACPR2 vs. Pout @ 2.35 GHz
Vdd=VddBias=5.0 V operating voltage
6
20
ACPR1_85°C
PAE_85°C
PAE%
ACPR1_-40°C
PAE_-40°C
PAE%
-60
17
ACPR1_25°C
PAE_25°C
ACPR1/dBc
ACPR1/dBc
-44
ACPR1_85°C
PAE_85°C
ACPR1/dBc
-40
18
-42
PAE%
20
-40
29
30
-70
20
21
22
23
24
25
26
Pout/dBm
27
28
Figure 19. Over-temperature ACPR1, ACPR2 vs. Pout @ 2.35 GHz
Vdd=VddBias=5.5 V operating voltage
29
30
44
2600
43
2300
43
2300
42
2000
42
2000
1700
41
Gain_85°C
Gain_25°C
Gain_-40°C
40
39
1100
500
37
200
22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38
Pout/dBm
36
Figure 20. Over-temperature Gain, Idd_total vs. Pout @ 2.33GHz
Vdd=VddBias=5.0 V operating voltage
42
Gain/dB
41
Gain_85°C
Gain_25°C
Gain_-40°C
40
39
2600
2300
2300
2000
42
2000
1700
41
1100
200
22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38
Pout/dBm
36
Idd_Total_85°C
Idd_Total_25°C
Idd_Total_-40°C
12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35
Pout/dBm
Figure 24. Over-temperature Idd_total vs. Pout @ 2.35 GHz
Vdd=VddBias=5.0 V operating voltage
1400
1100
Idd_total_85°C
Idd_total_25°C
Idd_total_-40°C
800
500
200
22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38
Pout/dBm
Figure 23. Over-temperature Gain, Idd_total vs. Pout @ 2.39GHz
Vdd=VddBias=5.0 V operating voltage
Idd_Total/mA
Idd_Total/mA
39
37
Figure 22. Over-temperature Gain, Idd_total vs. Pout @ 2.36GHz
Vdd=VddBias=5.0 V operating voltage
1700
Gain_85°C
Gain_25°C
Gain_-40°C
40
500
1800
1700
1600
1500
1400
1300
1200
1100
1000
900
800
700
600
500
400
300
200
22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38
Pout/dBm
43
38
37
500
44
1400
Idd_total_85°C
Idd_total_25°C
Idd_total_-40°C
800
2600
800
38
1100
Idd_total_85°C
Idd_total_25°C
Idd_total_-40°C
Gain/dB
43
1400
Figure 21. Over-temperature Gain, Idd_total vs. Pout @ 2.35 GHz
Vdd=VddBias=5.0 V operating voltage
Idd_Total/mA
44
7
39
38
Idd_total_85°C
Idd_total_25°C
Idd_total_-40°C
37
36
40
800
38
36
1400
1700
Gain_85°C
Gain_25°C
Gain_-40°C
1800
1700
1600
1500
1400
1300
1200
1100
1000
900
800
700
600
500
400
300
Idd_Total_85°C
Idd_Total_25°C
Idd_Total_-40°C
12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35
Pout/dBm
Figure 25. Over-temperature Idd_total vs. Pout @ 2.35 GHz
Vdd=VddBias=5.5 V operating voltage
Idd_Total/mA
41
Idd_Total/mA
2600
Gain/dB
44
Idd_Total/mA
Gain/dB
MGA-43040 typical over-temperature performance at Vc1=2.0 V, Vc2=1.8 V, Vc3=1.8 V as shown in Figure 2, unless
otherwise stated (Cont.)
MGA-43040 typical over-temperature performance at Vc1=2.0 V, Vc2=1.8 V, Vc3=1.8 V as shown in Figure 2, unless
otherwise stated (Cont.)
Ic / µA
Ic1
Ic2
Ic3
Ic / µA
125
120
115
110
105
100
95
90
85
80
75
70
65
60
55
50
45
40
1.0
1.2
1.4
1.6
1.8
2.0
Vc / V
2.2
2.4
2.6
2.8
3.0
3.0
2.8
2.6
2.4
2.2
2.0
1.8
1.6
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0.0
Vdet_85°C
Vdet_25°C
Vdet_-40°C
12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35
Pout/dBm
Figure 28. Over-temperature Vdet vs. Pout @ 2.35 GHz Vdd=VddBias=5.0 V
operating voltage
2fo_25°C
3fo_25°C
2fo_-40°C
3fo_-40°C
1.6
1.8
2.0
Vc / V
2.2
2.4
2.6
2.8
3.0
Vdet_85°C
Vdet_25°C
Vdet_-40°C
12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35
Pout/dBm
-5
-10
-15
-15
2fo, 3fo/dBm
2fo, 3fo/dBm
1.4
0
2fo_85°C
3fo_85°C
-20
-25
-35
-35
2350
2360
Figure 30. Over-temperature 2nd, 3rd Harmonics vs. Freq at Pout=27.0 dBm
Vdd=VddBias=5.0 V operating voltage
2fo_25°C
3fo_25°C
2fo_-40°C
3fo_-40°C
-25
-30
2340
2fo_85°C
3fo_85°C
-20
-30
Frequency/MHz
8
3.0
2.8
2.6
2.4
2.2
2.0
1.8
1.6
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0.0
-10
-40
2330
1.2
Figure 29. Over-temperature Vdet vs. Pout @ 2.35 GHz Vdd=VddBias=5.5 V
operating voltage
0
-5
Ic1
Ic2
Ic3
Figure 27. Ic vs. Vc @ Vdd=VddBias=5.5 V
Vdet/V
Vdet/V
Figure 26. Ic vs. Vc @ Vdd=VddBias=5.0 V
125
120
115
110
105
100
95
90
85
80
75
70
65
60
55
50
45
40
1.0
-40
2330
2340
2350
2360
Frequency/MHz
Figure 31. Over-temperature 2nd, 3rd Harmonics vs. Freq at Pout=27.0 dBm
Vdd=VddBias=5.5 V operating voltage
MGA-43040 typical LTE 20MHz 100RB Test model 1.1 downlink signal Spectrum Emission Mask (3GPP TS
36.141v8.2.0 [2009-03] standard) performance at Vdd=VddBias=5.0V, Vc1=2.0V, Vc2=1.8V, Vc3=1.8V, unless otherwise stated
2.31GHz
-25
-20
-15
-10
-5
0
2.33GHz
5
10
15
20
25
-25
-20
-15
-10
-5
Figure 32. Spectrum Emission Mask 29.0dBm @ 2.31GHz
-20
-15
-10
-5
0
5
10
15
20
25
-10
-5
0
5
10
Frequency Offset/MHz
Figure 36. Spectrum Emission Mask 29.0dBm @ 2.39GHz
9
-20
-15
-10
-5
0
5
10
Figure 35. Spectrum Emission Mask 29.0dBm @ 2.36GHz
2.39GHz
-15
-25
Frequency Offset/MHz
Figure 34. Spectrum Emission Mask 29.0dBm @ 2.35GHz
-20
10
15
20
25
15
20
25
2.36GHz
Frequency Offset/MHz
-25
5
Figure 33. Spectrum Emission Mask 29.0dBm @ 2.33GHz
2.35GHz
-25
0
Frequency Offset/MHz
Frequency Offset/MHz
15
20
25
S-Parameter [5] (Vdd=VddBias=5.0 V, Vc1=2.0 V, Vc2=1.8 V, Vc3=1.8 V), T=25 °C, 50 Ω matched)
Freq
(GHz)
S11
(dB)
S11
(ang)
S21
(dB)
S21
(ang)
S12
(dB)
S12
(ang)
S22
(dB)
S22
(ang)
0.1
-0.05
-43.46
-82.39
-171.41
-67.41
-91.79
-0.30
166.08
0.2
-0.22
-83.93
-60.05
-51.56
-64.37
168.17
-0.87
155.53
0.3
-0.36
-118.96
-53.12
-81.90
-63.68
155.26
-0.98
146.84
0.4
-0.37
-148.39
-45.86
-59.12
-67.47
105.30
-1.01
137.19
0.5
-0.35
-174.08
-31.36
-62.51
-73.24
172.77
-1.02
127.41
0.6
-0.28
163.16
-17.64
-90.87
-65.58
38.34
-1.05
117.77
0.7
-0.17
141.41
-4.02
-130.57
-66.15
61.01
-1.10
108.24
0.8
-0.58
116.96
9.92
158.29
-74.19
2.78
-1.16
98.76
0.9
-1.87
107.86
14.37
53.34
-66.90
15.50
-1.29
89.64
1.0
-1.42
93.88
15.71
-3.31
-63.91
36.37
-1.40
80.96
1.1
-1.30
77.99
18.00
-55.30
-61.66
8.43
-1.51
68.16
1.2
-1.43
61.07
19.49
-111.33
-63.18
-18.31
-1.36
60.32
1.3
-2.07
45.60
16.61
-165.69
-71.45
-87.61
-0.88
50.72
1.4
-2.57
33.09
7.46
-107.91
-68.04
40.18
-0.78
33.71
1.5
-2.53
16.75
22.97
-147.49
-59.29
-49.87
-1.03
35.08
1.6
-3.13
-3.43
26.55
169.35
-63.70
-84.48
-0.79
15.51
1.7
-4.26
-26.39
31.66
131.53
-64.44
-77.11
-1.03
3.68
1.8
-6.46
-54.59
35.65
81.77
-62.93
-76.77
-1.48
-10.92
1.9
-13.31
-95.41
37.67
23.38
-56.37
-66.15
-2.52
-26.00
2.0
-18.65
-1.32
36.26
-14.30
-56.63
-65.83
-4.20
-38.55
2.1
-16.25
-3.09
40.32
-56.14
-53.00
-88.72
-6.67
-43.62
2.2
-13.94
-16.83
41.97
-112.63
-52.08
-126.04
-7.70
-42.86
2.3
-17.96
-14.21
42.23
-169.83
-50.57
-142.00
-9.59
-49.60
2.4
-11.93
24.47
41.55
130.45
-52.68
-173.57
-13.58
-18.72
2.5
-6.32
-3.43
38.86
71.56
-51.37
135.22
-6.49
-0.10
2.6
-4.80
-34.45
34.80
23.16
-53.36
110.86
-3.03
-21.17
2.7
-4.70
-58.87
30.56
-15.19
-56.87
93.98
-1.71
-42.16
2.8
-5.06
-78.96
26.53
-47.47
-61.31
53.15
-1.15
-60.74
2.9
-5.55
-96.34
22.75
-75.99
-60.49
66.61
-0.93
-77.44
3.0
-6.04
-111.81
19.12
-101.86
-64.94
63.84
-0.80
-93.08
3.1
-6.46
-126.18
15.60
-125.84
-65.29
103.36
-0.73
-108.06
3.2
-6.74
-139.55
12.10
-148.15
-76.12
19.05
-0.67
-122.43
3.3
-6.91
-152.76
8.51
-169.35
-64.76
102.40
-0.62
-136.19
3.4
-7.02
-165.47
4.66
170.79
-69.86
137.59
-0.54
-149.53
3.5
-6.99
-176.99
0.35
152.68
-65.06
153.96
-0.47
-162.24
3.6
-6.84
172.04
-5.03
138.01
-63.50
88.03
-0.41
-174.49
3.7
-6.57
161.88
-13.04
137.28
-66.30
58.78
-0.38
174.06
3.8
-6.30
152.18
-17.23
-150.27
-58.06
106.16
-0.37
163.22
3.9
-6.04
143.23
-10.45
-135.35
-60.22
60.37
-0.40
153.18
4.0
-5.83
135.05
-6.91
-147.18
-58.13
54.12
-0.43
143.70
4.1
-5.62
127.63
-4.71
-163.53
-62.57
29.32
-0.49
134.88
4.2
-5.42
120.90
-3.08
177.72
-58.19
68.88
-0.56
126.39
4.3
-5.24
114.55
-1.72
156.43
-58.33
16.63
-0.67
118.23
4.4
-5.07
108.37
-0.60
131.65
-58.92
2.69
-0.79
110.33
4.5
-4.89
102.16
0.01
101.82
-58.16
12.63
-0.95
102.89
4.6
-4.75
95.64
-0.64
67.36
-57.84
-11.34
-1.09
95.88
4.7
-4.68
89.17
-3.44
34.50
-57.37
-17.51
-1.09
88.73
4.8
-4.47
82.84
-8.97
21.77
-57.27
-47.42
-1.02
80.48
4.9
-3.99
74.73
-8.48
53.69
-58.38
-43.04
-0.95
71.12
10
S-Parameter [5] (Vdd=VddBias=5.0 V, Vc1=2.0 V, Vc2=1.8 V, Vc3=1.8 V), T=25 °C, 50 Ω matched) Cont.
Freq
(GHz)
S11
(dB)
S11
(ang)
S21
(dB)
S21
(ang)
S12
(dB)
S12
(ang)
S22
(dB)
S22
(ang)
5.0
-3.59
61.28
-3.08
29.83
-57.42
-35.25
-0.93
60.96
5.1
-4.37
36.66
-2.57
-19.13
-57.92
-62.36
-0.80
50.35
5.2
-5.26
23.79
-4.28
-53.55
-58.55
-59.91
-0.76
40.57
5.3
-5.88
12.71
-6.50
-80.69
-57.69
-91.30
-0.74
30.57
5.4
-6.20
2.76
-8.78
-103.41
-57.51
-95.73
-0.71
19.99
5.5
-6.25
-7.06
-10.97
-123.32
-57.76
-103.19
-0.67
9.14
5.6
-6.10
-16.77
-13.06
-141.61
-58.97
-109.41
-0.64
-1.94
5.7
-5.80
-25.91
-15.06
-158.95
-54.67
-120.47
-0.63
-13.50
5.8
-5.48
-35.03
-16.98
-175.90
-56.69
-131.66
-0.60
-25.07
5.9
-5.14
-43.63
-18.87
167.55
-56.83
-152.33
-0.60
-36.95
6.0
-4.82
-51.97
-20.74
150.39
-58.21
-152.79
-0.60
-48.72
7.0
-5.11
-132.66
-23.12
-85.01
-64.22
98.12
-1.39
-169.64
8.0
-3.83
107.44
-34.36
57.37
-59.42
24.83
-0.55
105.31
9.0
-4.93
40.09
-28.91
-71.64
-54.36
-71.04
-0.82
21.49
10.0
-5.53
-104.31
-31.42
99.30
-54.74
144.95
-3.07
-136.30
11.0
-3.22
169.79
-49.93
-10.50
-57.78
55.44
-1.21
140.03
12.0
-6.22
60.73
-56.09
-46.50
-55.70
-47.33
-2.57
69.05
13.0
-3.07
-48.51
-42.09
-128.24
-52.00
-159.54
-2.46
-95.76
14.0
-3.97
-101.62
-40.85
123.51
-55.49
157.53
-3.35
178.00
15.0
-5.04
143.00
-36.15
-6.88
-51.09
39.71
-1.86
77.50
16.0
-4.24
8.62
-39.62
179.55
-50.99
-59.49
-8.41
-63.09
17.0
-2.27
-108.22
-46.66
93.23
-48.60
172.19
-0.99
167.24
18.0
-1.14
-174.30
-47.70
6.98
-53.18
84.31
-0.78
127.20
19.0
-4.34
30.77
-43.73
-133.37
-42.83
-15.74
-4.37
6.29
20.0
-2.93
-133.19
-41.47
56.10
-45.27
165.59
-1.75
-145.59
S-Parameter [5] (Vdd=VddBias=5.5 V, Vc1=2.0 V, Vc2=1.8 V, Vc3=1.8 V), T=25 °C, 50 Ω matched)
Freq
(GHz)
S11
(dB)
S11
(ang)
S21
(dB)
S21
(ang)
S12
(dB)
S12
(ang)
S22
(dB)
S22
(ang)
0.1
0.2
0.3
0.4
0.5
-0.05
-0.20
-0.33
-0.32
-0.29
-43.41
-83.95
-118.94
-148.39
-174.02
-59.26
-63.48
-55.05
-45.15
-31.01
96.93
-48.09
-83.65
-55.28
-63.49
-60.56
-68.73
-69.82
-66.66
-74.45
-156.87
73.17
117.86
59.32
149.91
-0.30
-0.83
-0.91
-0.93
-0.94
166.26
156.07
147.31
137.52
127.66
0.6
0.7
0.8
0.9
1.0
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
2.0
2.1
2.2
-0.23
-0.12
-0.56
-1.84
-1.39
-1.29
-1.46
-2.13
-2.63
-2.59
-3.26
-4.48
-6.90
-14.65
-17.42
-15.03
-13.35
163.15
141.37
116.88
107.94
93.91
77.89
60.87
45.59
33.20
16.55
-3.69
-26.73
-54.92
-93.46
2.90
-4.42
-21.65
-17.28
-3.67
10.27
14.71
16.14
18.55
20.17
17.38
8.48
23.20
26.82
31.99
35.96
37.86
36.52
40.48
42.08
-92.18
-131.53
157.42
53.14
-3.12
-55.03
-111.57
-166.86
-111.17
-150.98
167.44
129.64
79.57
21.21
-15.80
-58.00
-113.77
-66.22
-66.28
-70.81
-73.36
-60.59
-66.41
-65.11
-67.49
-63.62
-60.37
-62.39
-65.62
-60.29
-57.67
-53.43
-55.14
-52.56
69.69
71.54
19.85
33.95
15.42
-5.14
-12.62
-59.05
-17.80
-64.57
-76.48
-101.90
-65.69
-52.55
-63.61
-105.91
-126.58
-0.96
-1.01
-1.09
-1.22
-1.34
-1.46
-1.34
-0.88
-0.78
-0.96
-0.80
-1.04
-1.54
-2.63
-4.31
-6.90
-7.83
117.93
108.30
98.77
89.55
80.80
67.91
60.03
50.53
33.70
34.04
15.02
2.90
-11.81
-26.71
-39.36
-44.05
-42.59
11
S-Parameter [5] (Vdd=VddBias=5.5 V, Vc1=2.0 V, Vc2=1.8 V, Vc3=1.8 V), T=25 °C, 50 Ω matched) Cont.
Freq
(GHz)
S11
(dB)
S11
(ang)
S21
(dB)
S21
(ang)
S12
(dB)
S12
(ang)
S22
(dB)
S22
(ang)
2.3
2.4
2.5
2.6
2.7
2.8
2.9
3.0
3.1
3.2
3.3
3.4
3.5
3.6
3.7
3.8
3.9
4.0
4.1
4.2
4.3
4.4
4.5
4.6
4.7
4.8
4.9
5.0
5.1
5.2
5.3
5.4
5.5
5.6
5.7
5.8
5.9
6.0
7.0
8.0
9.0
10.0
11.0
12.0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20.0
-18.31
-12.11
-6.22
-4.67
-4.61
-4.99
-5.45
-5.91
-6.33
-6.59
-6.74
-6.82
-6.78
-6.61
-6.35
-6.09
-5.83
-5.63
-5.43
-5.24
-5.08
-4.92
-4.75
-4.63
-4.56
-4.39
-3.94
-3.61
-4.41
-5.30
-5.92
-6.20
-6.20
-6.01
-5.66
-5.34
-4.99
-4.67
-5.02
-3.85
-4.96
-5.51
-3.24
-6.28
-3.14
-4.05
-5.10
-4.31
-2.29
-1.16
-4.39
-2.96
-21.82
26.52
-3.58
-35.13
-59.81
-80.06
-97.30
-112.79
-127.25
-140.57
-153.77
-166.45
-177.97
171.13
160.90
151.26
142.49
134.32
126.90
120.15
113.87
107.72
101.52
95.03
88.57
82.29
74.28
61.01
36.98
24.62
14.04
4.51
-5.13
-14.82
-24.22
-33.50
-42.36
-50.88
-132.43
107.23
39.65
-104.42
169.87
60.37
-48.95
-101.67
142.53
8.79
-108.55
-174.54
29.22
-134.17
42.39
41.79
39.12
35.01
30.75
26.70
22.92
19.30
15.78
12.29
8.71
4.87
0.55
-4.82
-12.86
-16.85
-10.13
-6.61
-4.41
-2.78
-1.40
-0.27
0.33
-0.39
-3.31
-8.91
-8.23
-2.98
-2.57
-4.31
-6.58
-8.90
-11.12
-13.17
-15.13
-17.00
-18.84
-20.71
-22.78
-34.21
-28.69
-30.90
-49.39
-56.16
-42.18
-41.26
-35.81
-40.29
-46.34
-46.67
-43.44
-41.55
-170.44
129.83
70.51
22.12
-16.14
-48.29
-76.60
-102.37
-126.22
-148.49
-169.61
170.59
152.52
137.92
137.62
-149.92
-135.70
-147.52
-163.96
177.29
155.95
130.87
100.58
65.69
32.85
21.19
52.50
28.17
-20.46
-54.54
-81.33
-103.67
-123.03
-140.74
-157.62
-174.30
168.83
152.22
-84.70
58.74
-70.03
99.71
-6.85
-46.56
-125.78
123.50
-9.67
179.61
88.66
1.51
-138.00
52.85
-51.31
-51.67
-51.68
-54.35
-55.30
-57.92
-71.59
-65.70
-71.48
-70.55
-72.80
-70.33
-63.59
-66.82
-57.85
-58.56
-62.86
-58.80
-56.99
-59.93
-60.54
-59.65
-56.07
-54.64
-56.59
-58.31
-59.45
-59.95
-57.55
-56.22
-56.03
-56.97
-60.23
-58.04
-56.77
-57.20
-61.46
-61.22
-59.87
-58.07
-54.81
-54.91
-55.79
-54.40
-50.24
-57.87
-50.12
-49.42
-47.95
-51.92
-43.09
-45.10
-149.44
173.34
137.22
125.00
105.67
92.83
-37.57
36.73
111.04
45.34
91.80
121.18
106.84
130.42
56.97
84.26
50.14
68.08
51.06
66.36
37.34
19.57
4.88
-23.10
-21.29
-41.89
-37.14
-33.07
-72.71
-71.81
-88.18
-94.91
-105.13
-110.34
-107.61
-121.15
-164.74
-166.08
119.04
13.28
-80.12
144.60
52.18
-25.21
-162.84
168.13
36.87
-49.38
171.22
81.61
-16.13
163.01
-9.72
-13.78
-6.32
-2.91
-1.62
-1.09
-0.85
-0.72
-0.65
-0.58
-0.52
-0.44
-0.36
-0.30
-0.28
-0.27
-0.30
-0.34
-0.41
-0.49
-0.61
-0.74
-0.91
-1.05
-1.04
-0.98
-0.92
-0.91
-0.79
-0.76
-0.74
-0.70
-0.66
-0.62
-0.60
-0.56
-0.54
-0.52
-1.15
-0.46
-0.81
-2.44
-0.94
-2.58
-2.87
-3.35
-1.84
-9.61
-1.16
-0.78
-4.36
-1.74
-49.31
-15.82
0.70
-21.23
-42.21
-60.70
-77.36
-92.89
-107.77
-122.12
-135.88
-149.14
-161.87
-174.10
174.43
163.58
153.56
144.04
135.17
126.67
118.47
110.59
103.16
96.18
89.00
80.67
71.24
61.01
50.39
40.60
30.56
20.01
9.16
-1.90
-13.48
-25.03
-36.85
-48.53
-169.10
105.57
21.44
-137.42
138.03
69.16
-96.90
177.07
77.30
-57.73
168.18
127.39
6.80
-144.60
12
PCB Land Pattern and Stencil Outline
4.77
5.00
3.60
0.23
0.50
0.45
Pin1
0.75
0.80
1.13
3.24
1.52
5.00
1.25
3.70
0.50
1.13
∅0.30
0.05
0.68
0.80
0.27
0.50
0.50
(pitch)
Soldermask
Opening
Land Pattern
0.25
Stencil Opening
5.00
3.60
3.24
0.45
Soldermask
Top Metal
Note :
1. Recommended Land Pattern and Stencil.
2. 4 mils stencil thickness recommended.
3. All dimensions are in mm
3.60 5.00
0.05
Combination of Land Pattern & Stencil Opening
13
1.82
0.68
0.25
0.60
0.40
0.82
4.77
MCOB (5.0 x 5.0 x 0.9) mm 28-Lead Package Dimensions
PIN #1 Identification
CHAMFER 0.43 x 45°
PIN #1 Identification
5.00 ± 0.10
0.81 ± 0.10
5.00
0.25
0.30
0.375
AVAGO
43040
YYWW
XXXX
3.74 3.60
5.00 ± 0.10
5.00
0.125
0.50
Top View
Side View
Note
1. All dimensions are in millimeters.
2. Dimensions are inclusive of plating.
3. Dimensions are exclusive of mold flash and metal burr.
Part Number Ordering Information
Part Number
Qty
Container
MGA-43040-BLKG
100
Antistatic Bag
MGA-43040-TR1G
1000
7” Reel
14
0.10
0.50
0.10
3.60
3.74
Bottom View
0.47
Device Orientation
REEL
USER FEED DIRECTION
CARRIER
TAPE
USER
FEED
DIRECTION
Tape Dimensions
15
COVER TAPE
AVAGO
43040
YYWW
XXXX
AVAGO
43040
YYWW
XXXX
TOP VIEW
AVAGO
43040
YYWW
XXXX
END VIEW
Reel Dimensions (7” reel)
Ø178.0±1.0
FRONT
BACK
SEE DETAIL "X"
RECYCLE LOGO
FRONT VIEW
65°
7.9 - 10.9*
+1.5*
8.4
-0.0
45°
R10.65
R5.2
Slot hole ‘b’
BACK
60°
Ø55.0±0.5
Ø178.0±1.0
FRONT
Slot hole ‘a’
EMBOSSED RIBS
RAISED: 0.25mm, WIDTH: 1.25mm
Ø51.2±0.3
BACK VIEW
For product information and a complete list of distributors, please go to our web site:
14.4*
MAX.
www.avagotech.com
Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries.
Data subject to change. Copyright © 2005-2014 Avago Technologies. All rights reserved.
AV02-4488EN - September 23, 2014
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