Texas Instruments DEM-OPA-SOT-2A Demonstration Fixture DEM-OPA-SOT-2A DEM-OPA-SOT-2A 데이터 시트
제품 코드
DEM-OPA-SOT-2A
www.ti.com
4
Board Layout
INB
J1B
J1B
GND +VS
P1
OUTA
J2A
GND VS
-
INA
J1A
J1A
P2
OUTB
J2B
DEM-OPA2652E
BURR-BROWN
(5/00) REV. A
GLUE AREA
OUT A
IN A
R7A
R6A
C4
R5A
R4A
R2A
R4A
R2A
R3A
R1A
C2
L2
C3
U1
-VS GND
C1
L1
+VS GND
R6B
R7B
R5B
R4B
R2B
R4B
R2B
R3B
R1B
IN B
OUT B
Pin 1
(a) Component Side Silkscreen and Metal (top view)
(b) Ground Plane Side Silkscreen and Metal (bottom view)
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Measurement Tips
Board Layout
This demonstration fixture is a two-layer PCB. (See
.) It uses both a ground plane and power
traces on the inner layers. The ground plane has been opened up around op amp pins that are sensitive
to capacitive loading. Power-supply traces are laid out to keep current loop areas to a minimum. The SMA
(or SMB) connectors may be mounted either vertically or horizontally onto the board edge. The location
and type of capacitors used for power-supply bypassing are crucial for high-frequency amplifiers. The
tantalum capacitors, C
to capacitive loading. Power-supply traces are laid out to keep current loop areas to a minimum. The SMA
(or SMB) connectors may be mounted either vertically or horizontally onto the board edge. The location
and type of capacitors used for power-supply bypassing are crucial for high-frequency amplifiers. The
tantalum capacitors, C
1
and C
2
, do not need to be close to pins 8 and 4 on the PCB and may be shared
with other amplifiers. See the individual op amp data sheet for more information on proper board layout
techniques and component selection.
techniques and component selection.
(1)
The board name shown in the silkscreen is DEM-OPA2652E with the Burr-Brown Revision A design finalized
in May 2000.
in May 2000.
Figure 3. DEM-OPA-SOT-2A Demonstration Board Layout
This demonstration fixture, with the component values shown, is designed to operate in a 50
Ω
environment; most data sheet plots are obtained under these conditions. It is easy to change the
component values for different input and output impedance levels. However, do not use high-impedance
probes; they represent a heavy capacitive load to the op amp, and will alter the amplifier response.
Instead, use low-impedance (
component values for different input and output impedance levels. However, do not use high-impedance
probes; they represent a heavy capacitive load to the op amp, and will alter the amplifier response.
Instead, use low-impedance (
≤
500
Ω
) probes with adequate bandwidth. The probe input capacitance and
resistance set an upper limit on the measurement bandwidth. If a high-impedance probe must be used,
place a 100
place a 100
Ω
resistor on the probe tip to isolate its capacitance from the circuit.
SBOU001A – June 2000 – Revised May 2006
DEM-OPA-SOT-2A Demonstration Fixture
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