Larcan MXI1503U Television Broadcast Translator User Manual Heading 3

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Document Description	Power Amplifier
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Date Submitted	2013-06-13 00:00:00
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Creation Date	2011-07-08 15:19:38
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MXi501/1002U POWER AMPLIFIER HEATSINK ASSEMBLY
CONTENTS
POWER AMPLIFIER HEATSINK ASSEMBLY..........................................................................................................1
FRONT END MODULE ASSEMBLY 21B1473G7........................................................................................................2
DRIVER MODULE 21B2708G3 ......................................................................................................................................3
PA PALLET ASSEMBLY 21B2729G1............................................................................................................................4
FIVE-WAY SPLITTER/FIVE-WAY COMBINER .......................................................................................................5
DIRECTIONAL COUPLER 21B2746G1........................................................................................................................6
BENCH TEST PROCEDURES........................................................................................................................................7
7.1
7.2
7.3
FRONT-END MODULE, 21B1473G7, BENCH TEST PROCEDURE ....................................................................................7
DRIVER PALLET, 21B2708G3, BENCH TEST PROCEDURE .............................................................................................7
PA PALLET 21B2729G1 BENCH TEST PROCEDURE ......................................................................................................7
FIGURES
FIGURE 1 MXI SUB-ASSEMBLIES .................................................................................................................................................1
FIGURE 2 21B1473 MXI FRONT END UHF DTV DRIVER ASSEMBLY ..........................................................................................8
FIGURE 3 11A1354 MXI FRONT END UHF DTV DRIVER SCHEMATIC .........................................................................................9
FIGURE 4 21B2708S DRIVER PALLET ASSEMBLY ......................................................................................................................10
FIGURE 5 21B2708S DRIVER PALLET SCHEMATIC .....................................................................................................................11
FIGURE 6 21B2729A1 PALLET CIRCUIT ASSEMBLY ...................................................................................................................12
FIGURE 7 21B2729S1 PALLET CIRCUIT SCHEMATIC ..................................................................................................................13
FIGURE 8 21B2444A1 5 WAY SPLITTER ASSEMBLY ..................................................................................................................14
FIGURE 9 21B2444S1 5 WAY SPLITTER SCHEMATIC ..................................................................................................................15
FIGURE 10 21B2445A1 5 WAY COMBINER ASSEMBLY ..............................................................................................................16
FIGURE 11 21B2445S1 5 WAY COMBINER SCHEMATIC .............................................................................................................17
FIGURE 12 21B2446S1 DIRECTIONAL COUPLER ASSEMBLY ......................................................................................................18
FIGURE 13 21B2446S1 DIRECTIONAL COUPLER SCHEMATIC .....................................................................................................19
PUB11-014 Rev 1 July 2011
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MXi501/1002U Power Amplifier Heatsink Assembly
MXi501/1002U POWER AMPLIFIER HEATSINK ASSEMBLY
POWER AMPLIFIER HEATSINK ASSEMBLY
The MXi Power Amplifier Heatsink Assembly 41D2272G1 consists of a fan-cooled heatsink and ten printed circuit
board sub-assemblies. The first module is a pre-amplifier, known as the Front-End Module. This first stage is
operated in Class A mode. Next is the Driver pallet, which is biased so as to pre-correct for the non-linearity in the
final amplifier stage. The next stage is a five-way splitter that splits the RF power so it can be fed to the PA
pallets. The final amplifier stage is the PA pallets. After the pallets is the five-way combiner which combines the
output power from the PA pallets. The last sub-assembly on the heatsink is the directional coupler which detects
the forward and reflected power and provides samples to the control board and a RF test point on the rear panel.
Also mounted on the heatsink is a thermal switch, which protects the amplifiers from over-temperature conditions
such as the absent of cooling or amplifier over dissipation. This heatsink assembly is mounted in the Amplifier
Chassis Assembly 41D2270G1 or G2. Descriptions of each stage are detailed in the following pages.
Figure 1 MXi Sub-Assemblies
The above picture illustrates the arrangement of the sub-assemblies on the amplifier heatsink assembly. From
right to left are the Front-End and Driver modules. Centered and towards the back are the Splitter, PA modules
and the Combiner. At the very back is the Directional Coupler. Strategically installed on the heatsink, is a thermal
switch which protects the amplifier from over temperature conditions.
Cooling for the heatsink is provided by a fan array assembly consisting of four 4-inch axial flow +12VDC muffin
fans. This array is situated near the front section of the MXi housing underneath the MXi Amplifier Controller PC
board. The fans blow air into the finned portion of the heatsink, which exhausts through the rear.
PUB11-014 Rev 1 July 2011
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MXi501/1002U Power Amplifier Heatsink Assembly
MXi501/1002U POWER AMPLIFIER HEATSINK ASSEMBLY
FRONT END MODULE ASSEMBLY 21B1473G7
Drawing Reference: Figure 2 and Figure 3
The front end module performs several distinctive functions. Firstly, it serves as a pre-amplifier, which boosts the
signal from the up-converter by approximately 9dB. This module also contains a phase shift circuit and a variable
attenuator; both adjustments are available and set to maximum and do not need to be adjusted in the MXi
amplifier. These circuits are only used for adjusting phase and gain balance between two paralleled amplifiers.
The RF signal is fed to the amplifier through hybrid HY1 and attenuator P-AT1. Refer to Figure 3.
HY1, along with associated components CR1, CR2, C1 through C6, R1, R2 and RV1 act as a phase shifter. PAT1 is a variable attenuator. The attenuation is controlled by RV2. Typically, RV2 is adjusted for minimum
attenuation (fully clockwise) during the bench testing of the module. Once this is done, RV2 is not adjusted again.
U1 is a hybrid linear amplifier with a nominal gain of 17.5dB. The typical operating point of the amplifier in this
application is well below the 1 Watt rating of the hybrid.
The power to the Front-End module (+32VDC) comes in at TP2.
The control voltage at TP1 comes from the AGC and VSWR cutback circuit in controller board. This voltage
corresponds to the output power of the final amplifier. If the AGC circuit is enabled and the output power tries to
increase, TP1 voltage increases, thus maintaining the output at the pre-set level. Similarly, if the reflected power
increases past the VSWR cutback setting, TP1 increases and the output power is reduced.
The higher the voltage at TP1, the higher the attenuation in the module, therefore, lower the overall output power.
RF STATUS (TP3) and as mentioned above the PHASING control (RV1) and GAIN control (RV2) are other
features of this module which are not applicable to this amplifier.
PUB11-014 Rev 1 July 2011
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MXi501/1002U Power Amplifier Heatsink Assembly
MXi501/1002U POWER AMPLIFIER HEATSINK ASSEMBLY
DRIVER MODULE 21B2708G3
Drawing references: Figure 4 and Figure 5.
The Driver Pallet is located in the front of the Power Amplifier. It is the second component in the signal flow of the
Power Amplifier Module after the VSWR PC Board.
The design of the Driver Module 21B2708G3 is based on the device MRF6V3090N. It is a Lateral N-channel
Enhancement-Mode Power MOSFET capable of 90W (rated power). However, for this application and the
desired linear performance, its output to the final stage is significantly below this.
Components C1 through C6, along with the associated printed circuit traces, form the matching network to the
gate of the push-pull transistor Q1. Similarly C7 through C14, along with associated stripline traces provide
output matching on the drain of the device. C15, C16, C19 and C20 provide the DC blocking of the supply. The
rest of the capacitors provide DC blocking of the bias voltage.
DC power enters the module through a screw terminal connection and is fed to the drain of the device via L1 and
L2 with bypass capacitors. Bias for the devices is provided via combination of resistors, capacitors and stripline
traces.
The bias circuit provides two functions; precision gate bias setting and external shutdown.
The bias voltage is adjusted using R11 from a regulated source provided by U1. Thermistor R18 provides thermal
stability for the bias.
The source of the bias voltage is a reference IC, U1, which has its ground reference terminal connected to the
collector of Q5. Q5 is biased using R10 and R16 to provide thermal compensation.
When no Shutdown (5V) is applied at R7, the precision reference is active and provides 6.2VDC to the level
adjustment circuit R21, R11 and R17. When R11 has been set to achieve 1.4A bias current to the pallet, a bias
voltage of approximately 2.6 to 2.7VDC is applied to the gates of the FETs
PUB11-014 Rev 1 July 2011
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MXi501/1002U Power Amplifier Heatsink Assembly
MXi501/1002U POWER AMPLIFIER HEATSINK ASSEMBLY
PA PALLET ASSEMBLY 21B2729G1
Drawing references: Figure 6 and Figure 7.
The Power Amplifier pallet is a FET amplifier assembly containing a stripline balun system. The baluns are used
for impedance matching and coupling signals at the input and output of the pallet. It is a practical implementation
of the coaxial-based solution on a broadside-coupled horizontal stripline structure.
The amplifier circuit is based on the Laterally Double-Diffused MOSFET Q1. Capacitors C1, C2, C3 and C4 along
with the associated printed circuit traces, form the matching network to the gates of Q1. Similarly, C5 through C14
along with associated stripline traces provide output matching on the drain of the device. C22, C23, C26, C27,
C28, C29 provide DC blocking of the supply. The rest of the capacitors provide DC blocking for bias voltage.
DC power +50VDC enters the module through a screw terminal connection VDD. This DC voltage is fed to the
drains of the device via L1 and L2 with bypass capacitors. Bias for the devices is provided via combination of
resistors, capacitors and stripline traces.
The bias circuit is located on the 21B2729 board at the input side of the pallet. It provides two functions; precision
gate bias setting and external shutdown. The pallet's shutdown function is used in certain applications where the
pallet is used as a driver amplifier.
The bias voltage is adjusted using R11 from a regulated source provided by U1. Thermistor R18 provides thermal
stability for the bias.
The source of the bias voltage is a reference IC, U1, which has its ground reference terminal connected to the
collector of Q5. Q5 is biased using R10 and R16 to provide thermal compensation.
When no Shutdown (5V) is applied at R7, the precision reference is active and provides 6.2VDC to the level
adjustment circuit R21, R11 and R17. When R11 has been set to achieve 1.4A bias current to the pallet, a bias
voltage of approximately 2.6 to 2.7VDC is applied to the gates of the FETs.
PUB11-014 Rev 1 July 2011
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MXi501/1002U Power Amplifier Heatsink Assembly
MXi501/1002U POWER AMPLIFIER HEATSINK ASSEMBLY
FIVE-WAY SPLITTER/FIVE-WAY COMBINER
Drawing reference: Figure 8 to Figure 11
The splitter utilizes a combination of hybrid 4-port quadrature (90° phase difference) couplers that require
terminations on the 4th port. The termination maintains isolation between the two output ports of the individual
hybrids. The input section is a 2.22dB hybrid which feeds a 3dB hybrid from one output port and a 1.76dB hybrid
from the other port. One output of the 1.76dB hybrid further feeds another 3dB hybrid.
The splitter provides five equal amplitude signals to the pallet amplifier inputs with the proper phase relationship
so that the combiner (a reverse image of the splitter) will provide a single output at the desired connector. Any
phase and / or amplitude differences will result in increased dissipation in the combiner isolation terminations and
a corresponding reduction in output power.
The five-way splitter and five-way combiner cover the entire UHF television band (470-860MHz). The combiner
can have in excess of 1.5dB unbalance at some frequencies and still combine the signals with less than 0.1dB
loss to the reject loads.
The splitter and combiner are constructed using a stacked arrangement of three separate PCBs. All of the
stripline traces are found on the middle PCB and each hybrid coupler is formed using broadside coupled lines on
opposite sides of the middle board. The two outside PCBs support the ground planes required above and below
the stripline. Cutouts are made in the upper and lower ground plane PCBs to allow access to the connection
points on the middle layer. Direct connections are made using short lengths of bus wire soldered between the
combiner inputs and each amplifier pallet output. These short connections minimize the phase errors and
reflections that can occur with many cable interfaces.
PUB11-014 Rev 1 July 2011
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MXi501/1002U Power Amplifier Heatsink Assembly
MXi501/1002U POWER AMPLIFIER HEATSINK ASSEMBLY
DIRECTIONAL COUPLER 21B2746G1
Drawing reference: Figure 12 and Figure 13
At the rear of the heatsink and fed by the output of the combiner is a directional coupler which is constructed from
edge coupled transmission lines. This is also a 4 port device similar to the 3dB couplers, except the coupling is
much weaker (-40dB nominal in this case). The input and output port of the directional coupler is the main output
50Ω transmission line, while the other two ports are the ends of the coupled line. The coupled line is simply a
second 50Ω transmission line laying parallel and spaced some distance away from the main line. The coupled
port closest to the amplifier output connector is terminated by a 51Ω resistor and the other coupled port is directly
connected to the centre pin of the ‘RF-TP’ (RF Test Point) BNC connector located on the rear panel of the
amplifier. The primary function of this directional coupler is to provide a low power RF sample of the forward
power appearing at the amplifier combined output. The nominal coupling is given as -40dB, but the coupling does
vary with frequency from about -43dB at 470MHz to about -38dB at 860MHz.
PUB11-014 Rev 1 July 2011
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MXi501/1002U Power Amplifier Heatsink Assembly
MXi501/1002U POWER AMPLIFIER HEATSINK ASSEMBLY
BENCH TEST PROCEDURES
The following procedures are test instructions for the amplifier modules comprising the MXi amplifier.
7.1 FRONT-END MODULE, 21B1473G7, BENCH TEST PROCEDURE
•
Connect +28V to TP2. Limit the power supply current 0.5A. Check that the current consumption is about
0.30A.
•
Apply a 0dBm (1mW) RF input to the amplifier.
•
Turn RV2 fully clockwise. The Front-End module should have a gain of about 11dB. Adjusting RV2 from
one extreme to the other should vary the gain by 20dB. Set RV2 fully clockwise after checking the range
(maximum Gain)
•
Set phasing adjustment, RV1, fully clockwise (Phasing not required in this model).
•
RF Mute Check: Connect a variable power supply to TP1. Gradually increase the voltage until the gain
drops by 20dB or more. The applied voltage should be about 7.0 volts in this condition.
•
Telemetry (not used on all models): Monitor TP3. Note that the voltage on TP3 decreases to 0.0V when
RF output has been muted.
7.2 DRIVER PALLET, 21B2708G3, BENCH TEST PROCEDURE
•
•
BIAS SETTING: Connect a 50-Ohm load to the output of the Driver pallet.
•
Before applying +50V to the module, adjust R11 fully counter-clockwise (CCW). Limit the power supply
current to 1.0A.
•
Apply +50V to the B+ terminal. Monitor the Drain current and adjust R11 clockwise (CW) for a current of
0.35A + 0.05A.
•
Proceed to the next step if a network analyzer or similar equipment is available.
RF SWEEP: Check that the gain of the Driver pallet, in the frequency range of 470MHz to 806 MHz. is
between 20 to 22dB.
7.3 PA PALLET 21B2729G1 BENCH TEST PROCEDURE
•
•
BIAS SETTING: Connect a 50-Ohm load to the output of the PA pallet.
•
Before applying +50V to the module, adjust R11 fully counter-clockwise (CCW). Limit the power supply
current to 2.0A.
•
Apply +50V to the B+ terminal. Monitor the Drain current and adjust R11 clockwise (CW) for a current of
1.45A + 0.05A.
•
Proceed to the next step if a network analyzer or similar equipment is available
RF SWEEP: Check that the Gain of the PA pallet, in the frequency range of 470MHz to 806MHz, is between
20 to 22 dB.
PUB11-014 Rev 1 July 2011
11-014-7
MXi501/1002U Power Amplifier Heatsink Assembly
Figure 2 21B1473 MXi Front End UHF DTV Driver Assembly
Figure 3 11A1354 MXi Front End UHF DTV Driver Schematic
Figure 4 21B2708S Driver Pallet Assembly
Figure 5 21B2708S Driver Pallet Schematic
Figure 6 21B2729A1 Pallet Circuit Assembly
Figure 7 21B2729S1 Pallet Circuit Schematic
Figure 8 21B2444A1 5 Way Splitter Assembly
Figure 9 21B2444S1 5 Way Splitter Schematic
Figure 10 21B2445A1 5 Way Combiner Assembly
Figure 11 21B2445S1 5 Way Combiner Schematic
Figure 12 21B2446S1 Directional Coupler Assembly
Figure 13 21B2446S1 Directional Coupler Schematic
MXi501/1002U POWER AMPLIFIER HEATSINK ASSEMBLY
NOTES
PUB11-014 Rev 1 July 2011
MXi501/1002U Power Amplifier Heatsink Assembly

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