AMM-7203UC [MARKIMICROWAVE]
30 GHz â 60 GHz Low Noise Amplifier;
| 型号: | AMM-7203UC |
| 厂家: | 
Marki |
| 描述: | 30 GHz â 60 GHz Low Noise Amplifier |
| 文件: | 总15页 (文件大小:5286K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
30 GHz – 60 GHz Low Noise Amplifier
AMM-7203
1. Device Overview
1.1 General Description
The AMM-7203 is a broadband MMIC low noise amplifier that efficiently
provides low noise figure and return losses in the 30-60 GHz frequency
band. It is designed to provide less than 5 dB noise figure with greater
than 10 dB gain at <200 mW DC power consumption. It has built-in DC
blocking capacitors on the input and output.
UC Module
Bare Die
1.3 Applications
1.2 Features
▪
Mobile test and
▪
▪
▪
4.4 dB Noise Figure
measurement equipment
Radar and satellite communications
5G Transceivers
Broadband Performance
100-200 mW DC Power
Consumption
▪
▪
▪
▪
▪
Low Return Losses
Small Die size
.s2p S-Parameters: AMM-7203CH
1.4 Functional Block Diagram
+Vd
- Vg
RF in
RF out
1.5 Part Ordering Options1
Part
Product
Lifecycle
Export
Classification
Description
Number
Package Green Status
AMM-7203CH
AMM-7203UC
Wire Bondable Die Bare Die
RoHS
RoHS
Pre-Release
Pre-Release
3A0001.b.2.f
Connectorized
Module
UC
EAR99
1
Refer to our website for a list of definitions for terminology presented in this table.
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AMM-7203
Table of Contents
3.3 Recommended Operating Conditions . 7
1. Device Overview ............................... 1
1.1 General Description........................ 1
1.2 Features ....................................... 1
1.3 Applications................................... 1
1.4 Functional Block Diagram ................ 1
1.5 Part Ordering Options..................... 1
3.4 AMM-7203CH and AMM-7203UC
Sequencing Requirements ..................... 7
3.5 Electrical Specifications .................. 8
3.6 AMM-7203CH Typical Performance
Plots................................................... 9
3.7 AMM-7203UC Typical Performance
Plots................................................. 10
2. AMM-7203 Port Configurations and
Functions ............................................... 3
4. Application Information .................... 12
4.1 AMM-7203CH Application Circuits 12
2.1 AMM-7203CH Port Diagram........... 3
2.2 AMM-7203CH Port Functions......... 4
2.3 AMM-7203UC Port Diagram........... 5
2.4 AMM-7203UC Port Functions......... 5
3. Specifications ................................... 6
3.1 Absolute Maximum Ratings.............. 6
3.2 Package Information ....................... 6
4.2 Best Practices to Prevent Oscillation
........................................................ 13
5. Mechanical Data............................. 14
5.1 AMM-7203CH Outline Drawing ..... 14
5.2 AMM-7203UC Package Outline
Drawing ............................................ 15
Revision History
Revision Code
Comment
Pre-Release
Revision Date
Feburary 2021
PRE
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AMM-7203
2. AMM-7203 Port Configurations and Functions
2.1 AMM-7203CH Port Diagram
A port diagram of the AMM-7203CH is shown below.
Vd 2
Vd 1
RF in
Vd 3
RF out
Vg
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AMM-7203
2.2 AMM-7203CH Port Functions
Port
Function
Description
Equivalent Circuit for Package
This is the RF Input port of the amplifier
die. It is internally DC blocked and RF
matched to 50 Ω. RF input pad is GSG
with 175 µm pitch.
RF In
RF In
RF Input
This is the RF Output port of the
amplifier die. It is internally DC blocked
and RF matched to 50 Ω. RF output pad
is GSG with 175 µm pitch.
RF Out
RF
Out
RF Output
Vd1
Pad Vd 1 supplies drain voltage to the
first stage of the 3-stage amplifier IC.
Apply gate voltage Vg before applying
drain voltage.
Drain
Supply
Port 1
Vd 1
Vd 2
Vd2
Vd3
Pad Vd 2 supplies drain voltage to the
second stage of the 3-stage amplifier IC.
Apply gate voltage Vg before applying
drain voltage.
Drain
Supply
Port 2
Pad Vd 3 supplies drain voltage to the
third stage of the 3-stage amplifier IC.
Apply gate voltage Vg before applying
drain voltage.
Drain
Supply
Port 3
Vd 3
The Vg pad is connected resistively on
chip.
The
user
should
apply
Gate Bias between -0.4V and -0.6V to Vg pad
…
Vg
Voltage
Pad
before applying positive DC voltage to
any Vd port. Lower (more negative)
voltages on a Vg pad will result in lower
drain current and lower small signal gain.
Vg
Bottom side must be connected to a
DC/RF ground potential with high
thermal and electrical conductivity.
GND
GND
Ground
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AMM-7203
2.3 AMM-7203UC Port Diagram
A port diagram of the AMM-7203UC is shown below.
GND
Vd
V+
microwave
Input
Output
RF In
RF Out
AMM7203UC
D/C
V-
Vg
GND
2.4 AMM-7203UC Port Functions
Equivalent Circuit for
Package
Port
Function
Description
This is the RF Input port of the amplifier die.
RF Input It is internally DC blocked and RF matched
RF In
RF Out
Vd
RF In
to 50 Ω.
This is the RF Output port of the amplifier
die. It is internally DC blocked and RF
matched to 50 Ω.
RF
Output
RF Out
Vd
Drain
Supply
Pin
The Vd pin supplies drain voltage to the
amplifier IC. Apply gate voltage Vg before
applying drain voltage.
The Vg pin supplies negative control voltage
to the amplifier and controls the amplifier
gain. The user should apply between -0.4V
and -0.6V to Vg pad before applying
Gate
…
Vg
Bias Pin positive DC voltage to any Vd port. Lower
(more negative) voltages on a Vg pad will
result in lower drain current and lower small
signal gain.
Vg
Exterior housing must be connected to a
DC/RF ground potential with high thermal
and electrical conductivity.
GND
GND
Ground
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AMM-7203
3. Specifications
3.1 Absolute Maximum Ratings
The Absolute Maximum Ratings indicate limits beyond which damage may occur to the
device. If these limits are exceeded, the device may become inoperable or have a reduced
lifetime.
Parameter
Positive Drain Supply Voltage (Vd)
Maximum Rating
Units
4.5
200
V
mA
V
Total Positive Drain Supply Current (Id)
Negative Bias Voltage (Vg)
RF Input Power
-2
+15
dBm
-
Output Load VSWR
7:1
Operating Temperature
-40 to +85
-65 to +150
175
˚C
˚C
˚C
Storage Temperature
Max Junction Temperature for MTTF > 1E6 hours
3.2 Package Information
Parameter
Details
AMM-7203UC
Rating
Weight
12.4
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AMM-7203
3.3 Recommended Operating Conditions
The Recommended Operating Conditions indicate the limits, inside which the device should
be operated, to guarantee the performance given in Electrical Specifications Operating
outside these limits may not necessarily cause damage to the device, but the
performance may degrade outside the limits of the electrical specifications. For limits,
above which damage may occur, see Absolute Maximum Ratings.
Recommended Operating Conditions2
TA, Ambient Temperature
Min Nominal Max Units
-40
+1.5
45
+25
+2
80
-
+85
+4
°C
V
Power Supply DC Voltage (Vd)
Power Supply DC Current (Id) (No RF Input)2,
Power Supply DC Current (with RF Input)3
Negative Bias Voltage (Vg)
125
200
-0.2
mA
mA
V
-
-0.7
-0.5
3.4 AMM-7203CH and AMM-7203UC Sequencing Requirements
Turn-on Procedure:
1) Apply negative bias to Vg
2) Apply Vd
Turn-off Procedure:
1) Turn off Vd
2) Turn off Vg
2
Power Supply DC current should be modified by changing bias voltage Vg to maintain junction
temperature within MTTF target for given operating conditions.
Operation above recommended max power supply DC current will result in reduced MTTF.
3
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AMM-7203
3.5 Electrical Specifications
The electrical specifications apply at TA=+25°C in a 50Ω system.
Min and Max limits apply only to our connectorized units and are guaranteed at TA=+25°C. Die are 100% DC tested and RF tested on a per
lot basis
Parameter
Test Conditions
3V/-0.5V Bias
Frequency
Min
Typical
10.5
10
11.5
9
Units
30 GHz – 60 GHz
30 GHz – 35 GHz
35 GHz – 53 GHz
53 GHz – 60 GHz
30 GHz – 60 GHz
Small Signal Gain
2V/-0.5V Bias
8
1.5V/-0.6V Bias
3V/-0.5V Bias
9
4.8
4.4
2V/-0.5V Bias
Noise Figure
30 GHz – 55 GHz
dB
1.5V/-0.6V Bias
4.2
14
17
45
Input Return Loss
Output Return Loss
Reverse Isolation
2V/-0.5V Bias
30 GHz – 60 GHz
Input IP3 (IIP3)
10
2V/-0.5V,
-20 dBm Input
Power
30 GHz – 60 GHz
dBm
Output IP3 (OIP3)
Output P1dB
21
11
2V/-0.5V Bias
3V/-0.5V
2V/-0.5V
1.5V/-0.6V
3V/-0.5V Bias
-
-
-
100
80
45
Bias Requirements4
mA
16
Saturated Output Power5
30 GHz – 60 GHz
dBm
2V/-0.5V Bias
13
4
5
Bias conditions tested with no RF input power. Bias conditions presented as Vd/Vg.
Saturated Output Power specification defined using the AMM-7203UC P5dB compression curve
shown in section 3.7.
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AMM-7203
3.6 AMM-7203CH Typical Performance Plots
Small Signal Gain (dB) vs. Frequency, Vd = 2V
Small Signal Gain (dB) vs. Frequency, Vd = 1.5V
20
18
16
14
12
10
8
20
18
16
14
12
10
8
2V / -0.4V Bias
1.5V / -0.4V Bias
1.5V / -0.5V Bias
1.5V / -0.6V Bias
2V / -0.5V Bias
2V / -0.6V Bias
6
6
4
4
2
2
0
0
25
25
25
30
30
30
35
40
45
50
55
60
65
65
65
25
25
25
30
30
30
35
40
45
50
55
60
65
65
65
Frequency (GHz)
Frequency (GHz)
Small Signal Gain (dB) vs. Frequency, Vd = 3V
Input Return Loss (dB) vs. Frequency, Vd = 2V
20
18
16
14
12
10
8
0
-5
3V / -0.4V Bias
3V / -0.5V Bias
3V / -0.6V Bias
-10
-15
-20
-25
-30
6
2V / -0.4V Bias
2V / -0.5V Bias
2V / -0.6V Bias
4
2
0
35
40
45
50
55
60
35
40
45
50
55
60
Frequency (GHz)
Frequency (GHz)
Output Return Loss (dB) vs. Frequency, Vd = 2V
Reverse Isolation (dB) vs. Frequency, Vd = 2V
0
0
-5
-10
-20
-30
-40
-50
-60
-70
-80
-90
-10
-15
-20
-25
-30
2V / -0.4V Bias
2V / -0.5V Bias
2V / -0.6V Bias
2V / -0.4V Bias
2V / -0.5V Bias
2V / -0.6V Bias
35
40
45
50
55
60
35
40
45
50
55
60
Frequency (GHz)
Frequency (GHz)
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AMM-7203
3.7 AMM-7203UC Typical Performance Plots
Noise Figure (dB) vs. Frequency
AMM-7203UC Small Signal Gain (dB) vs. Frequency, Vd = 1.5V
10
9
8
7
6
5
4
3
2
1
0
20
18
16
14
12
10
8
1.5V / -0.4V Bias
1.5V / -0.5V Bias
1.5V / -0.6V Bias
6
3V / -0.5V Bias
2V / -0.5V Bias
1.5V / -0.6V Bias
4
2
0
25
25
25
30
35
40
45
50
55
25
30
35
40
45
50
55
60
65
Frequency (GHz)
Frequency (GHz)
Small Signal Gain (dB) vs. Frequency, Vd = 2V
Output 1 dB Compression (dBm) vs. Frequency, 2V / -0.5V Bias
20
18
16
14
12
10
8
20
18
16
14
12
10
8
2V / -0.4V Bias
2V / -0.5V Bias
2V / -0.6V Bias
6
6
4
4
2
2
0
0
25
30
35
40
45
50
55
60
65
30
35
40
45
50
55
60
65
Frequency (GHz)
Frequency (GHz)
Small Signal Gain (dB) vs. Frequency, Vd = 3V
Output 1 dB Compression (dBm) vs. Frequency, 3V / -0.5V Bias
20
18
16
14
12
10
8
20
18
16
14
12
10
8
3V / -0.4V Bias
3V / -0.5V Bias
3V / -0.6V Bias
6
6
4
4
2
2
0
0
25
30
35
40
45
50
55
60
65
30
35
40
45
50
55
60
65
Frequency (GHz)
Frequency (GHz)
Output Return Loss (dB) vs. Frequency, Vd = 2V
Input Return Loss (dB) vs. Frequency, Vd = 2V
0
0
-5
2V / -0.4V Bias
2V / -0.5V Bias
2V / -0.6V Bias
-5
-10
-15
-20
-25
-30
-10
-15
-20
-25
-30
2V / -0.4V Bias
2V / -0.5V Bias
2V / -0.6V Bias
25
30
35
40
45
50
55
60
65
25
30
35
40
45
50
55
60
65
Frequency (GHz)
Frequency (GHz)
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AMM-7203
OIP3 (dBm) vs. Frequency, Vd = 2V
Reverse Isolation (dB) vs. Frequency, Vd = 2V
30
25
20
15
0
-10
-20
-30
-40
-50
-60
-70
-80
-90
2V / -0.4V Bias
2V / -0.5V Bias
2V / -0.6V Bias
10
5
2V / -0.4V Bias
2V / -0.5V Bias
2V / -0.6V Bias
0
25
30
35
40
45
50
55
60
65
25
25
1
30
35
40
45
50
55
60
65
Frequency (GHz)
Frequency (GHz)
Small Signal Gain (dB) vs. Frequency, 2V/-0.5V Bias, Over Temp.
IIP3 (dBm) vs. Frequency, Vd = 2V
30
25
20
15
10
5
20
18
16
14
12
10
8
2V / -0.4V Bias
2V / -0.5V Bias
2V / -0.6V Bias
6
-40C
25C
85C
0C
55C
4
2
0
0
30
35
40
45
50
55
60
65
25
30
35
40
45
Frequency (GHz)
50
55
60
65
Frequency (GHz)
Quiescent Drain Current (mA) vs. Vd
Saturated Output Power (dBm) vs. Frequency, 2V/-0.5V Bias, Over Temp.
160
140
120
100
80
20
18
16
14
12
10
8
60
6
-40C
25C
85C
0C
Vg = -0.4V
Vg = -0.5V
Vg = -0.6V
40
4
55C
2
20
0
0
25
30
35
40
45
50
55
60
65
1.5
2
2.5
Vd (V)
3
3.5
4
Frequency (GHz)
Quiescent Drain Current (mA) vs. Vg
Drain Current Consumption (mA) vs. Input Power, 2V / -0.5V Bias
160
120
115
110
105
100
95
140
120
100
80
30 GHz
35 GHz
40 GHz
45 GHz
50 GHz
55 GHz
60 GHz
60
Vd = 1.5V
Vd = 2V
Vd = 3V
90
40
85
20
80
0
-10
-8
-6
-4
-2
0
2
4
6
8
10
-0.6
-0.55
-0.5
-0.45
-0.4
-0.35
-0.3
Vg (V)
Input Power (dBm)
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AMM-7203
4. Application Information
4.1 AMM-7203CH Application Circuits
Below are the recommended application circuits for the AMM-7203CH.
Vd
A
50Ω
trace
50Ω
trace
Vd 2
Vd 1
Vd 3
RF Out
RF out
RF in
Vg
RF In
50Ω
50Ω
B
A
Vg
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AMM-7203
One can also choose to break out Vd1, Vd2, and Vd3 to separate power supply lines to
increase gain control and further strengthen amplifier stability.
Vd2
Vd1
Vd3
A
A
A
50Ω
trace
50Ω
trace
Vd 2
Vd 1
Vd 3
RF Out
RF out
RF in
Vg
RF In
50Ω
50Ω
B
A
Vg
Designator
Description
Sample Part Number
MVB4080X104ZGH5R3
A
B
Presidio 0.1 µF + 1800 pF Capacitor
PRT135-14x12x10A10R00FQE
PPI 10Ω Wire-bondable series resistor
4.2 Best Practices to Prevent Oscillation
Millimeter wave amplifiers are sensitive to low frequency oscillations caused by a DC/RF ground
path with excessive inductance. Ensure the chip is grounded with low inductance along the DC
path to voltage supply ground. The bypass arrangement is also critical to reducing the possibility of
oscillation, and the series resistor B (shown above) with value 10 – 100 Ω is necessary to help
strengthen the amplifier stability.
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AMM-7203
5. Mechanical Data
5.1 AMM-7203CH Outline Drawing
PROJECTION
.0541
[1.374]
INCH
[MM]
.0451
[1.146]
.0050
.0010 [.025] Spacing,
.0286
[.726]
[.127]
4 PL
Min Clearance
.0039 [.100] x .0079 [.200]
VD Pad, 3PL
.0039
[.098]
.0106
[.269]
.0199
[.507]
.0268
[.682]
.0268
[.682]
.0458
[1.163]
RF
(OUT)
RF
(IN)
.0079 [.200] x .0039 [.100]
Signal Pad, 2PL
.0039 [.100] x .0039 [.100]
Ground Pad Vias, 4PL
.0039
[.098]
.0039
[.099]
.0139
[.352]
.0020
[.051]
.0039 [.100] x .0079 [.200]
VG Pad,1PL
Notes:
1) RF GSG probe pitch is 175 µm.
2) CH substrate is 0.002 inches thick GaAs.
3) I/O trace finish is 4 µm Au. Ground finish is 5 µm Au.
4) Die are not passivated
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AMM-7203
5.2 AMM-7203UC Package Outline Drawing
PROJECTION
INCH
[MM]
0.52
[13.21]
0.51
[12.88]
0.17
[4.32]
0.14
[3.43]
V+
0.22
0.28
[7.11]
[5.46]
*Notes:
microwave
0.56
[14.22]
1. All measurements are
typical.
Input
Output
AMM7203UC
2. Ground lug and bias
pins are solderable.
D/C
V-
Ø.067 Thru, 4 PL
0.43
[10.92]
[1.70]
Port
Input
Output
Connector Type
1.85 mm Female
1.85 mm Male
typ.
0.44
[11.07]
0.04
[1.07]
Note: UC-Package Connectors are not removeable
0.39
[9.88]
0.19
0.19
[4.94]
[4.94]
1.46
[36.96]
.
Marki Microwave reserves the right to make changes to the product(s) or information contained
herein without notice. Marki Microwave makes no warranty, representation, or guarantee regarding
the suitability of its products for any particular purpose, nor does Marki Microwave assume any
liability whatsoever arising out of the use or application of any product
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