AD8314
Figure 46. Layout of Component Side (MSOP)
Figure 47. Silkscreen of Component Side (MSOP)
Table 7. Evaluation Board Configuration Options
Component Function
Default Condition
TP1, TP2
SW1
Supply and Ground Vector Pins.
Device Enable: When in Position A, the ENBL pin is connected to +VS and the AD8314 is in
Not Applicable
SW1 = A
operating mode. In Position B, the ENBL pin is grounded, putting the device in power-down mode.
R1, R2
Input Interface. The 52.3 Ω resistor in Position R2 combines with the AD8314’s internal input
impedance to give a broadband input impedance of around 50 Ω. A reactive match can be
implemented by replacing R2 with an inductor and R1 (0 Ω) with a capacitor. Note that the
AD8314’s RF input is internally ac-coupled.
R2 = 52.3 Ω (Size 0603)
R1 = 0 Ω (Size 0402)
R3, R4, C2,
R5, R6, C3
Output Interface. R4, C2, R6, and C3 can be used to check the response of V_UP and V_DN to
capacitive and resistive loading. R3/R4 and R5/R6 can be used to reduce the slope of V_UP
and V_DN.
R4 = C2 = R6 =
C3 = Open (Size 0603)
R3= R5 = 0 Ω (Size 0603)
C1, R9
C4
Power Supply Decoupling. The nominal supply decoupling consists of a 0.1 μF capacitor (C1).
A series inductor or small resistor can be placed in R9 for additional decoupling.
Filter Capacitor. The response time of V_UP and V_DN can be modified by placing a capacitor
between FILTR and V_UP.
C1 = 0.1 μF (Size 0603)
R9 = 0 Ω (Size 0603)
C4 = Open (Size 0603)
R7, R8
LK1
Slope Adjust. By installing resistors in R7 and R8, the nominal slope of 20 mV/dB can be
increased. See Increasing the Logarithmic Slope in Measurement Mode for more details.
Measurement/Controller Mode. LK1 shorts V_UP to VSET, placing the AD8314 in measurement
mode. Removing LK1 places the AD8314 in controller mode.
R7 = 0 Ω (Size 0603)
R8 = Open (Size 0603)
LK1 = Installed
Rev. B | Page 19 of 20