EVAL-ADGM1004EBZ User Guide
UG-1078
Rev. 0 | Page 5 of 11
MEASURING SWITCH PERFORMANCE
Figure 1 shows the
EVAL-ADGM1004EBZ
evaluation board of
the
ADGM1004
. Apply a V
DD
supply to the evaluation board to
measure the performance of the switch. The links are set
according to the switch under test (see Table 3). After selecting
the desired channel and its state, the switch performance data
can be collected using a network analyzer. Terminate the RFx
edge connectors of unused switch channels into 50 Ω loads to
achieve the full performance of the channel under test.
The
EVAL-ADGM1004EBZ
, shown in Figure 1, comes with a
calibration transmission line, CALIBRATION THRU, on the
PCB. This calibration line removes the insertion loss and phase
offset of the PCB transmission lines connecting to the switch from
the measurement. Figure 2 shows the calibration transmission line
and Figure 3 shows its insertion loss and return loss up to 16 GHz.
The calibration line is exactly the same length as the distance
from any one RFx connector to the RFx pin of the device, plus
the distance from the RFC connector to the RFC pin of the device.
15240-
102
Figure 2.
EVAL-ADGM1004EBZ
Calibration Transmission Line Used for PCB
Insertion Loss and Phase Offset Correction
0
–3.0
0
–50
–40
–30
–20
–10
–2.5
–2.0
–1.5
–1.0
–0.5
0
2.5
5.0
7.5
10.0
12.5
15.0
IN
S
E
R
TION
LOS
S
(
dB
)
RE
T
URN L
O
S
S
(
d
B)
FREQUENCY (GHz)
S(2,1)
S(1,1)
15240-
002
Figure 3. Calibration Transmission Line Insertion Loss and Return Loss
Figure 4 illustrates the calibration line length. All RF traces
connecting to the
ADGM1004
are of equal length.
A
B
15240-
003
Figure 4. Calibration Transmission Line Length Equal to the A + B Length
To deembed the PCB transmission line insertion loss from the
entire switch insertion loss board measurement (the RF1 to
RFC path), divide the S(2,1) of measured data by the |S(2,1)| of
the CALIBRATION THRU line. Perform this deembedding by
using the network analyzer at the time of the measurement or after
the measurement using individual measurement data files. Refer
to the Network Analyzer Calibration Procedure section for
more information.
Use the network analyzer port extension function to deembed
the phase offset introduced by the PCB transmission lines. The
port extension method uses time delay offset values to correct
for phase. Enter the time delays into the port extension menu
on the network analyzer corresponding to the phase offset
introduced from an RF edge connector to the switch pin. Figure 4
shows an example of these phase offsets on a typical switch
measurement, labeled as A and B. Both A and B are identical in
length and can be calculated by measuring the time delay of the
calibration line and dividing it by two.
