ADL5380ACPZ-WP View Datasheet(PDF) - Analog Devices
Part Name
Description
MFG CO.
'ADL5380ACPZ-WP' PDF : 36 Pages View PDF
ADL5380
Table 5. Evaluation Board Configuration Options
Component Description
VPOSx, GNDx Power Supply and Ground Vector Pins.
R10x, R12x, Power Supply Decoupling. Shorts or power supply decoupling resistors.
R19x
C6x to C11x The capacitors provide the required dc coupling up to 6 GHz.
P1x, R11x,
R9x, R1x
R23x
C1x to C5x,
C12x
R2x to R7x,
R13x to R18x
T2x, T4x
C15x, C16x
T1x
Device Enable. When connected to VS, the device is active.
Adjust Pin. The resistor value here sets the bias voltage at this pin and optimizes
third-order distortion.
AC Coupling Capacitors. These capacitors provide the required ac coupling
from 400 MHz to 4 GHz.
Single-Ended Baseband Output Path. This is the default configuration of the
evaluation board. R13x to R18x are populated for appropriate balun interface.
R2x to R5x are not populated. Baseband outputs are taken from QHI and IHI. The
user can reconfigure the board to use full differential baseband outputs. R2x to R5x
provide a means to bypass the 9:1 TCM9-1 transformer to allow for differential base-
band outputs. Access the differential baseband signals by populating R2x to R5x
with 0 Ω and not populating R13x to R18x. This way the transformer does not need
to be removed. The baseband outputs are taken from the SMAs of QHI, QLO, IHI,
and ILO. R6x and R7x are provisions for applying a specific differential load across
the baseband outputs
IF Output Interface. TCM9-1 converts a differential high impedance IF output to
a single-ended output. When loaded with 50 Ω, this balun presents a 450 Ω load
to the device. The center tap can be decoupled through a capacitor to ground.
Decoupling Capacitors. C15x and C16x are the decoupling capacitors used to reject
noise on the center tap of the TCM9-1.
LO Input Interface. A 1:1 RF balun that converts the single-ended RF input to
differential signal is used.
T3x
RF Input Interface. A 1:1 RF balun that converts the single-ended RF input to
differential signal is used.
Default Condition
Not applicable
R10x, R12x, R19x = 0 Ω (0603)
C6x, C7x, C8x = 100 pF (0402),
C9x, C10x, C11x = 0.1 μF (0603)
P1x, R9x = DNI, R1x = DNI,
R11x = 0 Ω
R23B = 1.5 kΩ (0603),
R23A = 200 Ω (0603)
C1x, C4x = DNI,
C2x, C3x, C5x, C12x = 100 pF (0402)
R2x to R7x = open,
R13x to R18x = 0 Ω (0402)
T2x, T4x = TCM9-1, 9:1 (Mini-Circuits)
C15x, C16x = 0.1 μF (0402)
T1B = TC1-1-13, 1:1 (Mini-Circuits)
for operation <3 GHz,
T1A = Johanson Technology
3600BL14M050 for operation from
3 GHz to 4 GHz, Johanson Technology
5400BL15K050 for operation from
4900 MHz to 5800 MHz
T3B = TC1-1-13, 1:1 (Mini-Circuits)
for operation <3 GHz,
T3A = Johanson Technology
3600BL14M050 for operation from
3 GHz to 4 GHz, Johanson Technology
5400BL15K050 for operation from
4900 MHz to 5800 MHz
Rev. 0 | Page 33 of 36
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