Eudyna FMM5820QH Ka-band power amplifier mmic Datasheet

FMM5820QH
Ka-Band Power Amplifier MMIC
FEATURES
•High Output Power: P1dB = 36.0 dBm (Typ.)
•High Linear Gain: GL = 23.0 dB(Typ.)
•Frequency Band: 29.5 - 30.0 GHz
•Impedance Matched Zin/Zout = 50Ω
DESCRIPTION
The FMM5820QH is a power amplifier MMIC that contains a fourstage amplifier, internally matched, for standard communications
band in the 29.5 to 30.0GHz frequency range. This product is well
suited for Ka-band V-SAT applications.
Eudyna’s stringent Quality Assurance Program assures the
highest reliability and consistent performance.
ABSOLUTE MAXIMUM RATING(Case Temperature Tc=25℃
℃)
Item
Symbol
VDD
DC Positive Supply Voltage
VGG
DC Negative Supply Voltage
Pin
Input Power
Tstg
Storage Temperature
Rating
10
-3
+24
-55 to +125
Unit
V
V
dBm
℃
RECOMMENDED OPERATING CONDITIONS
Item
Symbol
VDD
DC Positive Supply Voltage
Pin
Input Power
T
Operating Case Temperature
C
Recommend
≦7
≦21
-40 to +85
Unit
V
dBm
℃
This product should be hermetically packaged.
ELECTRICAL CHARACTERISTICS (Case Temperature Ta=25℃
℃)
Item
RF Frequency Range
Output Power at 1dB G.C.P.
Power Gain at 1dB G.C.P.
Power-added Efficiency at 1dB G.C.P.
Drain Current at 1dB G.C.P.
Input Return Loss (at Pin=-20dBm)
Output Return Loss (at Pin=-20dBm)
Symbol
Test Conditions
f
P1dB
G1dB
Nadd
IDDRF
RLIN
RLOUT
VDD=+7V
IDD=1500mA typ.
ZS=ZL=50ohm
Class 0
ESD
Min.
29.5
34.5
18.0
-
Limits
Typ. Max.
30.0
36.0
22.0
26.0
25
2200 2800
-10
-15
-
Unit
GHz
dBm
dB
%
mA
dB
dB
~199V
Note : Based on EIAJ ED-4701C-111A (C=100pF, R=1.5kΩ)
Edition 1.1
January 2006
1
http://www.eudyna.com/
FMM5820QH
Ka-Band Power Amplifier MMIC
Output Power vs. Frequency
VDD=7V, IDD(DC)=1500mA
VDD=7V, IDD(DC)=1500mA
38
36
36
P1dB
Output Power [dBm]
Pin=12dBm
32
30
Pin=8dBm
28
26
22
27.5
28
28.5
29
29.5
30
30.5
31
32
28
2200
24
2000
22
1400
1200
-6 -4 -2 0 2 4 6 8 10 12 14 16 18 20 22
Input Power [dBm]
IMD vs. Output Power
Intermodulation Distortion [dBc]
Power Added Eficiency [%]
20
Pin=16dBm
Pin=12dBm
10
Pin=8dBm
Pin=4dBm
29
29.5
30
VDD=7V, IDD(DC)=1500mA
-15
P1dB
28.5
1600
16
31.5
25
28
1800
Drain Current
18
VDD=7V, IDD(DC)=1500mA
27.5
2400
26
30
0
2600
Pout
Power Added Efficiency vs. Frequency
5
2800
30
Frequency [GHz]
15
3000
20
Pin=4dBm
24
3200
29.5GHz
29.75GHz
30.0GHz
29 5GH
34
Pin=16dBm
34
3400
30.5
31
29.5GHz
29.75GHz
30.0GHz
29 5GH
-20
-25
-30
IM3
-35
-40
-45
-50
IM5
-55
-60
31.5
18
20
22
24
26
28
30
32
34
2-tone Total Output Power [dBm]
Frequency [GHz]
2
36
Drain Current [mA]
38
Output Power [dBm]
Output Power, Drain Current vs. Input Power
FMM5820QH
Ka-Band Power Amplifier MMIC
Output Power, Drain Current vs.
Input Power by Drain Voltage
Output Power, Drain Current vs.
Input Power by Drain Voltage
IDD(DC)=1500mA, f=29.5GHz
36
3000
34
32
2800
30
2600
28
Pout
26
2400
2200
24
2000
22
1800
20
Drain Current
18
16
32
28
26
2000
22
1800
1600
20
1400
18
1200
16
Drain Current
Input Power [dBm]
IDD(DC)=1500mA
38
3200
30
2600
28
2400
2200
24
2000
22
1800
20
1600
Drain Current
16
36
P1dB [dBm]
2800
28
29.5GHz
29.75GHz
30.0GHz
29 GH
37
3000
Pout
1400
Output Power, Gain vs. Drain Voltage
3400
8V
7V
6V
5V
1600
1200
Input Power [dBm]
Drain Current [mA]
Output Power [dBm]
2200
24
-6 -4 -2 0 2 4 6 8 10 12 14 16 18 20 22
32
18
2400
Pout
-6 -4 -2 0 2 4 6 8 10 12 14 16 18 20 22
38
26
2800
2600
IDD(DC)=1500mA, f=30.0GHz
34
3000
30
Output Power, Drain Current vs.
Input Power by Drain Voltage
36
3200
Drain Current [mA]
3200
3400
8V
7V
6V
5V
8V
27
26
P1dB
35
25
34
24
33
23
G1dB
32
22
1400
31
21
1200
30
20
-6 -4 -2 0 2 4 6 8 10 12 14 16 18 20 22
4
Input Power [dBm]
3
5
6
7
VDD [V]
8
9
G1dB [dB]
Output Power [dBm]
34
8V
7V
6V
5V
38
Output Power [dBm]
36
IDD(DC)=1500mA, f=29.75GHz
3400
Drain Current [mA]
38
FMM5820QH
Ka-Band Power Amplifier MMIC
Output Power, Drain Current vs.
Input Power by Drain Current
Output Power, Drain Current vs.
Input Power by Drain Current
VDD=7V, f=29.5GHz
36
3000
34
32
2800
30
2600
Pout
28
2400
26
2200
24
2000
22
1800
20
2800
30
2600
Pout
28
2200
24
2000
22
1800
20
1400
18
16
1200
16
1400
1200
-6 -4 -2 0 2 4 6 8 10 12 14 16 18 20 22
-6 -4 -2 0 2 4 6 8 10 12 14 16 18 20 22
Input Power [dBm]
Input Power [dBm]
Output Power, Gain vs. Drain Voltage
VDD=7V, f=30.0GHz
38
1700mA
1500mA
1300mA
3200
37
3000
30
2600
28
2400
Pout
2200
24
2000
22
1800
Drain Current
18
16
28
29.5GHz
29.75GHz
30.0GHz
36
P1dB [dBm]
2800
20
38
Drain Current [mA]
Output Power [dBm]
VDD=7V
3400
32
26
1600
Drain Current
Output Power, Drain Current vs.
Input Power by Drain Current
34
2400
26
1600
36
3000
32
18
Drain Current
3200
Drain Current [mA]
3200
3400
1700mA
1500mA
1300mA
27
26
P1dB
35
25
34
24
33
23
G1dB
32
22
1400
31
21
1200
30
20
1600
-6 -4 -2 0 2 4 6 8 10 12 14 16 18 20 22
1200
Input Power [dBm]
4
1300
1400 1500 1600
IDD(DC) [mA]
1700
1800
G1dB [dB]
Output Power [dBm]
34
1700mA
1500mA
1300mA
38
Output Power [dBm]
36
VDD=7V, f=29.75GHz
3400
Drain Current [mA]
38
FMM5820QH
Ka-Band Power Amplifier MMIC
IMD vs. Output Power
by Drain Voltage
IMD vs. Output Power
by Drain Voltage
IDD(DC)=1500mA, f=29.5GHz
IDD(DC)=1500mA, f=29.75GHz
-15
8V
7V
6V
5V
-20
-25
Intermodulation Distortion [dBc]
Intermodulation Distortion [dBc]
-15
-30
-35
IM3
-40
-45
-50
IM5
-55
-25
-30
-35
IM3
-40
-45
-50
IM5
-55
-60
-60
20
22
24
26
28
30
32
34
20
36
IMD vs. Output Power
by Drain Voltage
IDD(DC)=1500mA, f=30.0GHz
-15
8V
7V
6V
5V
-20
-25
-30
-35
IM3
-40
-45
-50
IM5
-55
-60
20
22
24
26
28
30
32
34
22
24
26
28
30
32
34
2-tone Total Output Power [dBm]
2-tone Total Output Power [dBm]
Intermodulation Distortion [dBc]
8V
7V
6V
5V
-20
36
2-tone Total Output Power [dBm]
5
36
FMM5820QH
Ka-Band Power Amplifier MMIC
IMD vs. Output Power
by Drain Current
IMD vs. Output Power
by Drain Current
VDD=7V, f=29.75GHz
VDD=7V, f=29.5GHz
-15
1700mA
1500mA
1300mA
1700 A
-20
-25
Intermodulation Distortion [dBc]
Intermodulation Distortion [dBc]
-15
-30
-35
IM3
-40
-45
-50
IM5
-55
-60
-25
-30
-35
IM3
-40
-45
-50
IM5
-55
-60
20
22
24
26
28
30
32
34
36
20
2-tone Total Output Power [dBm]
VDD=7V, f=30.0GHz
-15
1700mA
1500mA
1300mA
-20
-25
-30
-35
IM3
-40
-45
-50
IM5
-55
-60
20
22
24
26
28
30
32
34
22
24
26
28
30
32
34
2-tone Total Output Power [dBm]
IMD vs. Output Power
by Drain Current
Intermodulation Distortion [dBc]
1700mA
1500mA
1300mA
1700 A
-20
36
2-tone Total Output Power [dBm]
6
36
FMM5820QH
Ka-Band Power Amplifier MMIC
S-Parameter
Sxx [dB]
VDD=7V, IDD=1500mA
30
25
20
15
10
5
0
-5
-10
-15
-20
-25
-30
S21
S11
S22
0
5
10
15
20
25
30
35
40
Sxx [dB]
Frequency [GHz]
30
25
20
15
10
5
0
-5
-10
-15
-20
-25
-30
S21
S11
S22
27
28
29
30
31
Frequency [GHz]
7
32
33
FMM5820QH
Ka-Band Power Amplifier MMIC
S-Parameter
VDD=7V, IDD=1500mA
Frequency
S11
[GHz]
MAG
ANG
1.0
0.99
-34.5
2.0
0.94
-68.2
3.0
0.87
-100.3
4.0
0.78
-131.2
5.0
0.69
-160.0
6.0
0.61
172.4
7.0
0.54
144.9
8.0
0.46
117.0
9.0
0.39
88.7
10.0
0.33
59.1
11.0
0.28
27.4
12.0
0.25
-6.1
13.0
0.23
-40.0
14.0
0.22
-74.6
15.0
0.22
-105.9
16.0
0.22
-135.8
17.0
0.21
-165.4
18.0
0.21
165.3
19.0
0.20
134.4
20.0
0.19
103.8
21.0
0.19
70.3
22.0
0.20
35.9
23.0
0.23
2.6
24.0
0.27
-29.0
25.0
0.31
-57.9
26.0
0.35
-86.3
27.0
0.39
-114.9
28.0
0.38
-150.7
29.0
0.21
151.2
30.0
0.12
-123.6
31.0
0.17
-134.2
32.0
0.29
-140.8
33.0
0.35
-171.6
34.0
0.35
165.1
35.0
0.33
141.5
36.0
0.30
117.3
37.0
0.26
90.9
38.0
0.22
59.2
39.0
0.19
22.3
40.0
0.17
-20.3
S21
MAG
ANG
0.00
-117.8
0.00
131.5
0.00
175.5
0.00
-165.2
0.00
-64.6
0.00
-53.0
0.00
-25.2
0.00
40.3
0.00
74.2
0.00
130.3
0.00
-160.3
0.01
-144.6
0.01
-134.8
0.01
-134.7
0.00
-25.0
0.00
50.1
0.00
116.1
0.01
107.9
0.01
130.9
0.01
155.0
0.00
127.9
0.00
-38.8
0.01
-25.1
0.01
-128.4
0.10
142.9
0.67
46.3
3.09
-88.2
10.15
113.8
15.32
-57.8
12.81
150.5
9.00
10.2
5.31
-115.2
3.17
126.8
1.72
14.8
0.85
-91.9
0.42
170.5
0.20
67.7
0.09
-39.6
0.04
-136.1
0.02
-156.4
8
S12
MAG
ANG
0.00
-47.1
0.00
18.1
0.00
-159.3
0.00
149.3
0.00
2.0
0.00
-0.3
0.00
-42.0
0.00
60.1
0.00
-36.7
0.00
-100.5
0.00
-72.5
0.00
-118.7
0.00
-134.4
0.00
-171.8
0.00
162.1
0.00
-165.7
0.00
161.4
0.00
120.5
0.01
107.2
0.00
89.4
0.00
45.6
0.00
-6.7
0.00
-26.4
0.00
-83.2
0.00
36.5
0.00
-18.3
0.00
-84.9
0.00
-94.9
0.00
-164.1
0.00
172.3
0.00
158.0
0.00
80.9
0.00
-114.1
0.00
85.6
0.01
12.9
0.00
-27.8
0.00
-53.7
0.00
-77.5
0.01
-119.2
0.01
-114.8
S22
MAG
ANG
0.99
-83.8
0.96
-141.7
0.96
177.1
0.97
143.8
0.97
114.5
0.96
86.8
0.94
60.4
0.91
35.9
0.89
13.5
0.89
-8.9
0.90
-32.0
0.91
-55.5
0.91
-78.9
0.91
-101.8
0.91
-125.1
0.91
-148.1
0.91
-170.9
0.91
165.1
0.91
139.5
0.89
112.9
0.86
85.3
0.84
55.8
0.81
23.9
0.78
-10.7
0.76
-50.2
0.65
-97.4
0.48
-133.9
0.42
-177.2
0.30
116.0
0.16
24.3
0.15
-73.3
0.19
-127.0
0.21
-175.2
0.19
122.8
0.19
29.5
0.35
-58.3
0.55
-119.6
0.69
-168.7
0.74
147.8
0.74
106.3
FMM5820QH
Ka-Band Power Amplifier MMIC
∆Tch vs. Drain Voltage
(Reference)
IDD=1500mA
50
45
40
℃)
∆ Tch (℃
35
30
25
20
15
10
5
0
4
5
6
7
8
9
VDD (V)
MTTF vs. Tch
1.E+12
1.E+11
1.E+10
Ea=1.56eV
MTTF (hrs)
1.E+09
1.E+08
1.E+07
1.E+06
1.E+05
1.E+04
1.E+03
1.E+02
1.E+01
50
100
150
Tch (℃
℃)
9
200
250
FMM5820QH
Ka-Band Power Amplifier MMIC
■ Package Outline
PIN ASSIGNMENT
1:RF IN
2:VGG
3:N.C.
4:VDD
5:RF OUT
6:N.C.
7:N.C.
8:N.C.
10
FMM5820QH
Ka-Band Power Amplifier MMIC
■ Block Diagram and Recommended Bias Circuit
VGG
VDD
1uF
1uF
1:RF IN
2:VGG
3:N.C.
4:VDD
5:RF OUT
6:N.C.
7:N.C.
8:N.C.
Note:The capacitors are recommended on the bias supply line, close to the package,
in order to prevent video oscillations which could damage the module.
11
FMM5820QH
Ka-Band Power Amplifier MMIC
■ Mounting Instructions for QH Package
(1) The package may be attached using screws. Torque conditions are shown in Table 1.
Table 1. Recommended and Maximum Torque for Screw Mounting
Recommended
Recommended
Maximum Torque
screw
Torque
QH
M1.6*
15 N-cm (1.3 lb-in) 20 N-cm (1.8 lb-in)
*Mounting with flat washer is recommended.
Package
(2) First, tighten the screws with a torque driver set to 5 N-cm.
(3) The surface finish of the heat sink should be better than 0.8µm, and the surface flatness
must be better than 10 µm.
(4) Silicon based heat sink compounds should not be used for the thermal conductive grease.
They cause poor grounding of the source flange, contamination and long term degradation
of thermal resistance between the MMIC package and the heat sink.
(5) The DC and RF interconnects may be gold bondwires or gold ribbons. The RF interconnects
should be as short as possible.
12
FMM5820QH
Ka-Band Power Amplifier MMIC
Humidity Lifetime for FMM5820QH
The following graph shows the lifetime of moisture resistance for the FMM5820QH. Each
line in the graph indicates the lifetime that is the estimated failure rate of 0.1% at 10 years
(Confidence Level = 90 %) and calculated from the results of pressure cooker (autoclave) bias
test. The horizontal-axis shows typical ambient temperature. The vertical-axis shows relative
humidity. The left side of the area delimited in each line indicates more than 10 years of
lifetime.
Field environmental conditions for operation
In the case that FMM5820QH is mounted in a non-hermetic package, please refer to the
following recommendations.
Note 1. The graph lines are drawn using the operating conditions as shown in the box below.
EUD recommends our customers use FMM5820QH within the left side area
separated by each line in the graph below.
Note 2. Please cut off the drain current by drain bias, not by gate bias.
The humidity lifetime becomes shorter in case of gate cut off operation.
Note 3. Please use FMM5820QH under environmental conditions of no dew condensation.
Field Environmental Conditions for a 10 years Lifetime
100%
90%
[Gate cut off operating]
Relative Humidity (%)
80%
(Vdd
(Vdd=6V,
Vdd=6V, Vgg=0V
Vgg=0V
-1 V)
24 hours/day Cut off
12 hours/day Cut off
6 hours/day Cut off
3 hours/day Cut off
70%
60%
50%
[Drain cut off operating]
40%
(Vgg=-0V,
Vgg=-0V, Vdd=6V
Vdd=6V
Field
Environmental
Conditions.
20%
10%
0%
0
10
20
0V)
--- 0 hours/day Cut off
--- 12 hours/day Cut off
--- 18 hours/day Cut off
30%
30
40
50
60
70
Typical Ambient Temperature (deg-C)
(℃
℃)
13
80
90
FMM5820QH
Ka-Band Power Amplifier MMIC
For further information please contact :
Eudyna Devices USA Inc.
2355 Zanker Rd.
San Jose, CA 95131-1138, U.S.A.
TEL: +1 408 232-9500
FAX: +1 408 428-9111
CAUTION
Eudyna Devices Inc. products contain gallium arsenide
(GaAs) which can be hazardous to the human body and the
environment. For safety, observe the following procedures:
・Do not put these products into the mouth.
Eudyna Devices Europe Ltd.
Network House
Norreys Drive
Maidenhead, Berkshire SL6 4FJ
United Kingdom
TEL: +44 (0) 1628 504800
FAX: +44 (0) 1628 504888
・Do not alter the form of this product into a gas, powder, or liquid
through burning, crushing, or chemical processing as these byproducts are dangerous to the human body if inhaled, ingested, or
swallowed.
・Observe government laws and company regulations when
discarding this product. This product must be discarded in
accordance with methods specified by applicable hazardous waste
procedures.
Eudyna Devices International Srl
Via Teglio 8/2 - 20158
Milano, Italy
TEL: +39-02-8738-1695
Eudyna Devices Inc. reserves the right to change products and
specifications without notice.The information does not convey any
license under rights of Eudyna Devices Inc. or others.
© 2006 Eudyna Devices Inc.
Eudyna Devices Asia Pte. Ltd.
Hong Kong Branch
Suite 1906B, Tower 6, China Hong Kong City
33 Canton Road, Tsimshatsui, Kowloon
Hong Kong
TEL: +852-2377-0227
FAX: +852-2377-3921
Eudyna Devices Inc.
1000 Kamisukiahara, showa-cho
Nakakomagun, Yamanashi
409-3883, Japan
(Kokubo Industrial Park)
TEL +81-55-275-4411
FAX +81-55-275-9461
Sales Division
1, Kanai-cho, Sakae-ku
Yokohama, 244-0845, Japan
TEL +81-45-853-8156
FAX +81-45-853-8170
14
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