ADRF5026 Data Sheet
Rev. 0 | Page 10 of 13
APPLICATIONS INFORMATION
EVALUATION BOARD
The ADRF5026-EVALZ evaluation board is a 4-layer evaluation
board. The outer copper (Cu) layers are 0.5 oz (0.7 mil) plated
to 1.5 oz (2.2 mil) and are separated by dielectric materials.
Figure 15 shows the ADRF5026-EVALZ evaluation board stack up.
1.5oz Cu (2.2mil) 1.5oz Cu (2.2mil)
0.5oz Cu (0.7mil)
0.5oz Cu (0.7mil)
1.5oz Cu (2.2mil)
RO4003
1.5oz Cu (2.2mil)
TOTAL THICKNESS
~62mil
W = 14mil
G = 7mil
T = 2.2mil
H = 8mil
16767-015
Figure 15. Evaluation Board Stack Up
All RF and dc traces are routed on the top copper layer, whereas
the inner and bottom layers are ground planes that provide a
solid ground for the RF transmission lines. The top dielectric
material is 8 mil Rogers RO4003, which offers optimal high
frequency performance. The middle and bottom dielectric
materials provide mechanical strength. The overall board
thickness is 62 mil, which allows 2.4 mm RF launchers to be
connected at the board edges.
16767-016
Figure 16. Evaluation Board Layout
The RF transmission lines are designed using a coplanar
waveguide (CPWG) model with a width of 14 mil and a ground
spacing of 7 mil, and have a characteristic impedance of 50 Ω.
For optimal RF and thermal grounding, as many plated through
vias as possible are arranged around transmission lines and
under the exposed pad of the package.
The RF input and output ports (RFC, RF1, and RF2) are connected
through 50 Ω transmission lines to the 2.4 mm launchers (J1,
J2, and J3, respectively). These high frequency RF launchers are
connected by contact and are not soldered to the board.
The thru calibration line, THRU CAL, can calibrate out the
board loss effects from the ADRF5026-EVALZ evaluation board
measurements to determine the device performance at the pins
of the IC. Figure 17 shows the typical board loss for the
ADRF5026-EVALZ evaluation board at room temperature, the
embedded insertion loss, and the de-embedded insertion loss
for the ADRF5026.
0
–8
–7
–6
–5
–4
–3
–2
–1
0 5 10 15 20 25 30 35 40 45
INSERTION LOSS (dB)
FREQUENCY (GHz)
DEEMBEDDED IL
EMBEDDED IL
THRU LOSS
16767-017
Figure 17. Insertion Loss vs. Frequency
Two power supply ports are connected to the VDD and VSS test
points, and the ground reference is connected to the GND test
point. On the supply traces, VDD and VSS, a 100 pF bypass
capacitor filters high frequency noise. Additionally, unpopulated
component positions are available for applying extra bypass
capacitors.
Two control ports are connected to the EN and CTRL test
points. There are provisions for the resistor capacitor (RC) filter
to eliminate dc-coupled noise, if needed by the application.
The ADRF5026-EVALZ evaluation board schematic is shown in
Figure 18.
GND
RF2
GND
GND
GND
GND
GND
RF1
GND
GND
GND
GND
RFC
GND
GND
GND
EN
VSS
VSS
CTRL
VDD
EN
CTRL
VDD
1
2
3
4
5
678910
11
12
13
14
15
1617181920
ADRF5026
RF2
RFC
RF1
R4
0Ω
R3
0Ω
C10
100pF
C7
100pF
THRU_CAL
16767-018
Figure 18. Simplified Evaluation Board Schematic