acpm-7813 Avago Technologies, acpm-7813 Datasheet - Page 18

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acpm-7813

Manufacturer Part Number
acpm-7813
Description
Cdma/amps Power Amplifier Module
Manufacturer
Avago Technologies
Datasheet

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Figure 26. Power Module Block Diagram.
18
2) Circuit Operation
The design of the power module (PAM) provide bias
control via Vcntl to achieve optimal RF performance
and power control. The control pin is labeled Vref
(Vcntl). Please refer to Figure 26 for the block diagram
of this PAM.
Typical Operation Conditions
(Vdd1=Vdd2=Vbias = 3.0V)
Parameter
Frequency Range
Output Power
Vcntl
3) Maximum Ratings
4) Heat Sinking
5) Testing
Input
Vdd 5.0V
Drain Current 1.5A
Vcntl 3V
RF input
Temperature -30 to 85°C
Please Note: Avoid Electrostatic Discharge on all I/
O’s.
The demonstration PC Board provides an adequate
heat sink. Maximum device dissipation should be
kept below 2.5 Watts.
- Signal Source
The CDMA modulated signal for the test is
generated using an Agilent Technologies ESG-
D4000A (or ESG-D3000A) Digital Signal Generator
with the following settings:
CDMA Setup : Reverse
Spreading: On
Bits/Symbol: 1
Data: PN15
Passive
Match
Input
10 dBm
ACPM-7813
824 – 849 MHz
28.5 dBm
2.5 V
Vdd1
Bias Circuit
Inter-stage
On Chip
Vbias
Match
Vcntl
Single control bias setting for low Idq
and 40% PAE at Pout = 28.5 dBm
Vdd2
Passive
Output
Match
Modulation: OQPSK
Chip Rate: 1.2288 Mcps
High Crest: On
Filter: Std
Phase Polarity: Invert
- ACPR Measurement
The ACPR (and channel power) is measured using
an Avago Technologies 4406 VSA with
corresponding ACPR offsets for IS-98c and JSTD-8.
Averaging of 10 is used for ACPR measurements.
- DC Connection
A DC Connector is provided to allow ease of
connection to the I/O’s. Wires can be soldered to
the connector pins, or the connector can be
removed and I/O’s contacted via clip leads or direct
soldered connections. The wiring of I/O’s are listed
in Figure 1 through 3 and Pin configuration table.
The Vdd sense connections are provided to allow
the use of remote-sensing power supplies for
compensation of PCB traces and cable resistance.
- Device Operation
1) Connect RF Input and Output for the band
2) Terminate all unused RF ports into 50 Ohms.
3) Connect Vdd1 and Vdd2 supplies (including
4) Connect Vcntl supply and set reference voltage
5) Apply RF input power according to the values
6) Power down in opposite sequence.
under test.
remote sensing labeled Vdd1 S and Vdd2 S on
the board). Nominal voltage is 3.4V.
to the voltage shown in the data packet. Note
that the Vcntl pin is on the back side of the
demonstration board. Please limit Vcntl to not
exceed the corresponding listed “DC Biasing
Condition” in the Data Packet. Note that
increasing Vcntl over the corresponding listed
“DC Biasing Condition” can result in power
decrease and current can exceed the rated limit.
listed in “Operation Data” in Data Packet.
Output

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