BGM1012 NXP Semiconductors, BGM1012 Datasheet - Page 5
BGM1012
Manufacturer Part Number
BGM1012
Description
Manufacturer
NXP Semiconductors
Datasheet
1.BGM1012.pdf
(13 pages)
Specifications of BGM1012
Manufacturer's Type
MMIC Amplifier
Number Of Channels
1
Supply Current
19@3VmA
Operating Supply Voltage (typ)
3V
Operating Supply Voltage (max)
4V
Package Type
SOT-363
Mounting
Surface Mount
Pin Count
6
Noise Figure (typ)
4.9@2.2000MHzdB
Lead Free Status / Rohs Status
Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
BGM1012,115
Manufacturer:
ON
Quantity:
1 600
Company:
Part Number:
BGM1012115
Manufacturer:
NXP Semiconductors
Quantity:
135
NXP Semiconductors
APPLICATION INFORMATION
Figure 2 shows a typical application circuit for the
BGM1012 MMIC. The device is internally matched to
50 , and therefore does not need any external matching.
The value of the input and output DC blocking capacitors
C2 and C3 should not be more than 100 pF for
applications above 100 MHz. However, when the device is
operated below 100 MHz, the capacitor value should be
increased.
The nominal value of the RF choke L1 is 100 nH. At
frequencies below 100 MHz this value should be
increased to 220 nH. At frequencies above 1 GHz a much
lower value (e.g. 10 nH) can be used to improve return
losses. For optimal results, a good quality chip inductor
such as the TDK MLG 1608 (0603), or a wire-wound SMD
type should be chosen.
Both the RF choke L1 and the 22 nF supply decoupling
capacitor C1 should be located as closely as possible to
the MMIC.
Separate paths must be used for the ground planes of the
ground pins GND1 and GND2, and these paths must be as
short as possible. When using vias, use multiple vias per
pin in order to limit ground path inductance.
Figure 3 shows two cascaded MMICs. This configuration
doubles overall gain while preserving broadband
characteristics. Supply decoupling and grounding
conditions for each MMIC are the same as those for the
circuit of Fig.2.
The excellent wideband characteristics of the MMIC make
it an ideal building block in IF amplifier applications such
as LBNs (see Fig.4).
As a buffer amplifier between an LNA and a mixer in a
receiver circuit, the MMIC offers an easy matching, low
noise solution (see Fig.5).
2002 Sep 06
handbook, halfpage
MMIC wideband amplifier
RF input
V s
Fig.2 Typical application circuit.
C1
C2
RF in
GND1
V s
GND2
RF out
L1
C3
RF output
MGU436
5
In Fig.6 the MMIC is used as a driver to the power amplifier
as part of a transmitter circuit. Good linear performance
and matched input and output offer quick design solutions
in such applications.
handbook, halfpage
handbook, halfpage
handbook, halfpage
handbook, halfpage
antenna
from modulation
input
from RF
or IF circuit
Fig.3 Easy cascading application circuit.
circuit
Fig.6 Application as driver amplifier.
DC-block
100 pF
Fig.5 Application as RF amplifier.
Fig.4 Application as IF amplifier.
oscillator
LNA
oscillator
mixer
mixer
wideband
amplifier
oscillator
DC-block
100 pF
wideband
amplifier
mixer
wideband
amplifier
Product specification
BGM1012
DC-block
100 pF
to IF circuit
or demodulator
to IF circuit
or demodulator
to power
amplifier
MGU438
MGU440
MGU439
MGU437
output
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