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Frequency Multiplier. AMMP-6130 Datasheet

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Frequency Multiplier. AMMP-6130 Datasheet






AMMP-6130 Multiplier. Datasheet pdf. Equivalent




AMMP-6130 Multiplier. Datasheet pdf. Equivalent





Part

AMMP-6130

Description

30 GHz Power Amplifier with Frequency Multiplier



Feature


AMMP-6130 30 GHz Power Amplifier with Fr equency Multiplier (x2) in SMT Package www.DataSheet4U.com Data Sheet Descr iption Avago Technologies AMMP-6130 is a high gain, narrowband doubler and out put power amplifier designed for DBS ap plications and other commercial communi cation systems. The MMIC takes an input 15 GHz signal and passes it through a harmonic frequency.
Manufacture

AVAGO TECHNOLOGIES

Datasheet
Download AMMP-6130 Datasheet


AVAGO TECHNOLOGIES AMMP-6130

AMMP-6130; multiplier (x2) and then three stages o f power amplification. Integrated match ing structures filter and match input/o utput to 50 Ω. It has integrated inpu t and output DC blocking capacitors and bias structures to all stages. The MMI C is fabricated using PHEMT technology. The backside of this package part is b oth RF and DC ground. This helps simply the assembly proces.


AVAGO TECHNOLOGIES AMMP-6130

s and reduces assembly related performan ce variations and costs. The surface mo unt package allows elimination of “ch ip & wire” assembly for lower cost. T his MMIC is a cost effective alternativ e to hybrid (discrete-FET) amplifiers t hat require complex tuning and assembly process. Features • • • • • • • • • • 5x5 mm Surface Mou nt Package Integrated DC Block and Choke 5.


AVAGO TECHNOLOGIES AMMP-6130

0 Ω Input and Output Match Single Posi tive Supply Pin No Negative Gate Bias Specifications (Vd=4.5V, Idd=200mA) Fre quency Range 15GHz in, 30GHz out Output Power: 21 dBm Harmonic Suppression: 60 dBc Single Positive Supply DC Requireme nts: 4.5V, 200mA Applications • Micr owave Radio systems • Satellite VSAT, DBS Up/Down Link • Broadband Wireles s Access) Surface Mount P.

Part

AMMP-6130

Description

30 GHz Power Amplifier with Frequency Multiplier



Feature


AMMP-6130 30 GHz Power Amplifier with Fr equency Multiplier (x2) in SMT Package www.DataSheet4U.com Data Sheet Descr iption Avago Technologies AMMP-6130 is a high gain, narrowband doubler and out put power amplifier designed for DBS ap plications and other commercial communi cation systems. The MMIC takes an input 15 GHz signal and passes it through a harmonic frequency.
Manufacture

AVAGO TECHNOLOGIES

Datasheet
Download AMMP-6130 Datasheet




 AMMP-6130
AMMP-6130
30 GHz Power Amplifier with Frequency Multiplier (x2)
in SMT Package
Data Sheet
www.DataSheet4U.com
Description
Avago Technologies AMMP-6130 is a high gain,
narrowband doubler and output power amplifier
designed for DBS applications and other commercial
communication systems. The MMIC takes an input 15
GHz signal and passes it through a harmonic frequency
multiplier (x2) and then three stages of power
amplification. Integrated matching structures filter and
match input/output to 50 . It has integrated input
and output DC blocking capacitors and bias structures
to all stages. The MMIC is fabricated using PHEMT
technology. The backside of this package part is both
RF and DC ground. This helps simply the assembly
process and reduces assembly related performance
variations and costs. The surface mount package allows
elimination of “chip & wire” assembly for lower cost.
This MMIC is a cost effective alternative to hybrid
(discrete-FET) amplifiers that require complex tuning
and assembly process.
Surface Mount Package, 5.0 x 5.0 x 1.25 mm
Pin Connections (Top View)
1 23
Pin Function
1
2 Vd
3
4 RF Out
5
8 X2
46
7
8 RF In
Features
5x5 mm Surface Mount Package
Integrated DC Block and Choke
50 Input and Output Match
Single Positive Supply Pin
No Negative Gate Bias
Specifications (Vd=4.5V, Idd=200mA)
Frequency Range 15GHz in, 30GHz out
Output Power: 21 dBm
Harmonic Suppression: 60dBc
Single Positive Supply
DC Requirements: 4.5V, 200mA
Applications
Microwave Radio systems
Satellite VSAT, DBS Up/Down Link
Broadband Wireless Access)
765
PACKAGE
BASE
GND
Note: These devices are ESD sensitive. The following precautions are strongly recommended. Ensure
that an ESD approved carrier is used when units are transported from one destination to another.
Personal grounding is to be worn at all times when handling these devices. The manufacturer
assumes no responsibilities for ESD damage due to improper storage and handling of these devices.




 AMMP-6130
Absolute Maximum Ratings (1)
Sym Parameters/Condition Unit
Vdd Drain to Ground Voltage V
Idd Drain Current
mA
Pin RF CW Input Power Max dBm
Tch Max channel temperature C
Tstg Storage temperature
C
Tmax Maximum Assembly Temp C
Max
5
300
15
+150
-65 +150
260 for 20s
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DC Specifications/ Physical Properties (2)
Parameter and
Sym Test Condition
Unit Min Typ
Idd Drain Supply Current mA
under any RF power
drive and temp.
(Vd=4.5 V)
200
Vd Drain Supply Voltage V 3.5 4.5
θjc Thermal Resistance(3) C/W
45
Max
250
5
Notes.
1. Operation in excess of any of these conditions may result in
permanent damage to this device. The absolute maximum ratings
for Vdd, Idd and Pin were determined at an ambient temperature
of 25°C unless noted otherwise.
2. Ambient operational temperature TA=25°C unless noted
3. Channel-to-backside Thermal Resistance (Tchannel = 34°C) as
measured using infrared microscopy. Thermal Resistance at
backside temp. (Tb) = 25°C calculated from measured data.
AMMP-6130 RF Specifications (4,5)
TA= 25°C, Vdd = 4.5 V, Idd = 200mA, Zo=50 , Pin=5dBm
Symbol
Freq
Gain
Pout
FS
3H Sup
Parameters and Test Conditions
Operational Frequency
Conversion Gain(4,5)
Output Power(5)
Fundamental Suppression
3rd Harmonic Suppression
Frequency Units
GHz
30 dB
30 dBm
30 dBc
dBc
Minimum
14
19
Notes.
4. Small/Large -signal data measured in a fully de-embedded test fixture form TA = 25°C.
5. All tested parameters guaranteed with measurement accuracy +/-1dB/dBm/dBc.
Maximum
18.5
23.5
Typical
30
16
21
60
50
Typical Distribution of Conversion Gain and Output Power based on 1000 parts
StDev = 0.46
StDev = 0.39
Conversion Gain at 30GHz
2
Output Power at 30GHz




 AMMP-6130
AMMP-6130 Typical Performance
www.DataSheet4U.com
(TA = 25°C, Vdd=4.5V, Idd=200 mA, Zin = Zout = 50, Pin=3dBm unless otherwise stated)
20
18
16
14
12
10
8
6
4
2
14
C.G.
2H-1H
14.5 15 15.5
Input Frequency [GHz]
65
60
55
50
45
40
35
30
25
16
24
22
20
18
16
14
29
3dBm
5dBm
4dBm
29.5 30 30.5
Output Frequency [GHz]
31
Figure 1. Conversion Gain & Fundamental Sup vs. Input Freq
Figure 2. Output Power vs. Output Frequency vs. Input Power
24 25 -5
-10
22 20 -15
20
-20
15 -25
18 10 -30
16
4V
3.5V
5V
14 4.5V
5 2H
1H
0 3H
-35
-40
-45
-50
12
29 29.5
30 30.5
31
29 29.5
30 30.5
31
Frequency [GHz]
Frequency [GHz]
Figure 3. Output Power vs. Output Frequency @ 4 bias levels
Figure 4. Fundamental, 2H & 3H Output Power vs. Output Freq
24
20
16
12
8
14GHz
4 16GHz
15GHz
0
-6 -4 -2 0 2 4 6
Pin [dBm]
Figure 5. Output Power vs. Input Power vs. Input Freq
24
22
20
18
16 -40C
14
25C
85C
12
29
29.5
30 30.5
31
Frequency [GHz]
Figure 7. Output Power vs. Output Freq @ Temp = 25C, -40C &
85C
3
0
-5
-10
-15
-20
-25
-30
13
S11[dB]
S22[dB]
18 23 28
Frequency [GHz]
Figure 6. Input and Output Return Loss vs. Freq
33






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