English
Language : 

DG540_11 Datasheet, PDF (9/18 Pages) Vishay Siliconix – Wideband/Video 'T' Switches
DG540, DG541, DG542
Vishay Siliconix
APPLICATIONS
Power Supplies
A useful feature of the DG54X family is its power supply
flexibility. It can be operated from a single positive supply
(V+) if required (V- connected to ground).
Note that the analog signal must not exceed V- by more than
- 0.3 V to prevent forward biasing the substrate p-n junction.
The use of a V- supply has a number of advantages:
+ 15 V
+
C1
C2
1. It allows flexibility in analog signal handling, i.e., with
V+
V- = - 5 V and V+ = 12 V; up to ± 5 V ac signals can
S1
D1
be controlled.
S2
D2
2. The value of on capacitance [CS(on)] may be reduced.
DG540
A property known as ‘the body-effect’ on the DMOS
S3
D3
switch devices causes various parametric effects to
occur. One of these effects is the reduction in CS(on)
for an increasing V body-source. Note, however, that
to increase V- normally requires V+ to be reduced
S4
D4
GNDs
V-
(since V+ to V- = 21 V max.). Reduction in V+ causes
an increase in RDS(on), hence a compromise has to
be achieved. It is also useful to note that optimum
video linearity performance (e.g., differential phase
C1 = 10 μF Tantalum
C2 = 0.1 μF Ceramic
C1
C2
+
-3V
and gain) occurs when V- is around - 3 V.
Figure 7. Supply Decoupling
3. V- eliminates the need to bias the analog signal using
potential dividers and large coupling capacitors.
Decoupling
It is an established RF design practice to incorporate
sufficient bypass capacitors in the circuit to decouple the
power supplies to all active devices in the circuit. The
dynamic performance of the DG54X is adversely affected by
poor decoupling of power supply pins. Also, of even more
significance, since the substrate of the device is connected
to the negative supply, adequate decoupling of this pin is
essential.
Rules:
1. Decoupling capacitors should be incorporated on all
power supply pins (V+, V-). (See Figure 7.)
2. They should be mounted as close as possible to the
device pins.
Board Layout
PCB layout rules for good high frequency performance must
be observed to achieve the performance boasted by the
DG540. Some tips for minimizing stray effects are:
1. Use extensive ground planes on double sided PCB,
separating adjacent signal paths. Multilayer PCB is
even better.
2. Keep signal paths as short as practically possible,
with all channel paths of near equal length.
3. Careful arrangement of ground connections is also
very important. Star connected system grounds
eliminate signal current flowing through ground path
parasitic resistance from coupling between channels.
3. Capacitors should have good high frequency
characteristics - tantalum bead and/or monolithic
ceramic types are adequate.
Suitable decoupling capacitors are 1- to 10 µF
tantalum bead, plus 10- to 100 nF ceramic.
Document Number: 70055
www.vishay.com
S11-1429–Rev. H, 18-Jul-11
9
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000